Repository: CTCaer/hekate Branch: master Commit: 94947672958d Files: 424 Total size: 5.5 MB Directory structure: gitextract_s1mpgrgh/ ├── .gitignore ├── LICENSE ├── Makefile ├── README.md ├── README_BOOTLOGO.md ├── Versions.inc ├── bdk/ │ ├── bdk.h │ ├── display/ │ │ ├── di.c │ │ ├── di.h │ │ ├── di.inl │ │ ├── vic.c │ │ └── vic.h │ ├── exception_handlers.S │ ├── fatfs_cfg.h │ ├── fatfs_conf.h │ ├── gfx_utils.h │ ├── ianos/ │ │ ├── elfload/ │ │ │ ├── elf.h │ │ │ ├── elfarch.h │ │ │ ├── elfload.c │ │ │ ├── elfload.h │ │ │ ├── elfreloc_aarch64.c │ │ │ └── elfreloc_arm.c │ │ ├── ianos.c │ │ └── ianos.h │ ├── input/ │ │ ├── als.c │ │ ├── als.h │ │ ├── joycon.c │ │ ├── joycon.h │ │ ├── touch.c │ │ └── touch.h │ ├── libs/ │ │ ├── compr/ │ │ │ ├── blz.c │ │ │ ├── blz.h │ │ │ ├── lz.c │ │ │ ├── lz.h │ │ │ ├── lz4.c │ │ │ └── lz4.h │ │ ├── fatfs/ │ │ │ ├── diskio.h │ │ │ ├── ff.c │ │ │ ├── ff.h │ │ │ ├── ffsystem.c │ │ │ └── ffunicode.c │ │ ├── lv_conf.h │ │ └── lvgl/ │ │ ├── docs/ │ │ │ ├── CODE_OF_CONDUCT.md │ │ │ ├── CONTRIBUTING.md │ │ │ ├── astyle_c │ │ │ └── astyle_h │ │ ├── licence.txt │ │ ├── lv_core/ │ │ │ ├── lv_core.mk │ │ │ ├── lv_group.c │ │ │ ├── lv_group.h │ │ │ ├── lv_indev.c │ │ │ ├── lv_indev.h │ │ │ ├── lv_lang.c │ │ │ ├── lv_lang.h │ │ │ ├── lv_obj.c │ │ │ ├── lv_obj.h │ │ │ ├── lv_refr.c │ │ │ ├── lv_refr.h │ │ │ ├── lv_style.c │ │ │ ├── lv_style.h │ │ │ ├── lv_vdb.c │ │ │ └── lv_vdb.h │ │ ├── lv_draw/ │ │ │ ├── lv_draw.c │ │ │ ├── lv_draw.h │ │ │ ├── lv_draw.mk │ │ │ ├── lv_draw_arc.c │ │ │ ├── lv_draw_arc.h │ │ │ ├── lv_draw_img.c │ │ │ ├── lv_draw_img.h │ │ │ ├── lv_draw_label.c │ │ │ ├── lv_draw_label.h │ │ │ ├── lv_draw_line.c │ │ │ ├── lv_draw_line.h │ │ │ ├── lv_draw_rbasic.c │ │ │ ├── lv_draw_rbasic.h │ │ │ ├── lv_draw_rect.c │ │ │ ├── lv_draw_rect.h │ │ │ ├── lv_draw_triangle.c │ │ │ ├── lv_draw_triangle.h │ │ │ ├── lv_draw_vbasic.c │ │ │ └── lv_draw_vbasic.h │ │ ├── lv_fonts/ │ │ │ ├── hekate_symbol_120.c │ │ │ ├── hekate_symbol_20.c │ │ │ ├── hekate_symbol_30.c │ │ │ ├── interui_20.c │ │ │ ├── interui_30.c │ │ │ ├── lv_font_builtin.c │ │ │ ├── lv_font_builtin.h │ │ │ ├── lv_fonts.mk │ │ │ └── ubuntu_mono.c │ │ ├── lv_hal/ │ │ │ ├── lv_hal.h │ │ │ ├── lv_hal.mk │ │ │ ├── lv_hal_disp.c │ │ │ ├── lv_hal_disp.h │ │ │ ├── lv_hal_indev.c │ │ │ ├── lv_hal_indev.h │ │ │ ├── lv_hal_tick.c │ │ │ └── lv_hal_tick.h │ │ ├── lv_misc/ │ │ │ ├── lv_anim.c │ │ │ ├── lv_anim.h │ │ │ ├── lv_area.c │ │ │ ├── lv_area.h │ │ │ ├── lv_circ.c │ │ │ ├── lv_circ.h │ │ │ ├── lv_color.c │ │ │ ├── lv_color.h │ │ │ ├── lv_font.c │ │ │ ├── lv_font.h │ │ │ ├── lv_fs.c │ │ │ ├── lv_fs.h │ │ │ ├── lv_gc.c │ │ │ ├── lv_gc.h │ │ │ ├── lv_ll.c │ │ │ ├── lv_ll.h │ │ │ ├── lv_log.c │ │ │ ├── lv_log.h │ │ │ ├── lv_math.c │ │ │ ├── lv_math.h │ │ │ ├── lv_mem.c │ │ │ ├── lv_mem.h │ │ │ ├── lv_misc.mk │ │ │ ├── lv_symbol_def.h │ │ │ ├── lv_task.c │ │ │ ├── lv_task.h │ │ │ ├── lv_templ.c │ │ │ ├── lv_templ.h │ │ │ ├── lv_txt.c │ │ │ ├── lv_txt.h │ │ │ ├── lv_ufs.c │ │ │ └── lv_ufs.h │ │ ├── lv_objx/ │ │ │ ├── lv_arc.c │ │ │ ├── lv_arc.h │ │ │ ├── lv_bar.c │ │ │ ├── lv_bar.h │ │ │ ├── lv_btn.c │ │ │ ├── lv_btn.h │ │ │ ├── lv_btnm.c │ │ │ ├── lv_btnm.h │ │ │ ├── lv_calendar.c │ │ │ ├── lv_calendar.h │ │ │ ├── lv_canvas.c │ │ │ ├── lv_canvas.h │ │ │ ├── lv_cb.c │ │ │ ├── lv_cb.h │ │ │ ├── lv_chart.c │ │ │ ├── lv_chart.h │ │ │ ├── lv_cont.c │ │ │ ├── lv_cont.h │ │ │ ├── lv_ddlist.c │ │ │ ├── lv_ddlist.h │ │ │ ├── lv_gauge.c │ │ │ ├── lv_gauge.h │ │ │ ├── lv_img.c │ │ │ ├── lv_img.h │ │ │ ├── lv_imgbtn.c │ │ │ ├── lv_imgbtn.h │ │ │ ├── lv_kb.c │ │ │ ├── lv_kb.h │ │ │ ├── lv_label.c │ │ │ ├── lv_label.h │ │ │ ├── lv_led.c │ │ │ ├── lv_led.h │ │ │ ├── lv_line.c │ │ │ ├── lv_line.h │ │ │ ├── lv_list.c │ │ │ ├── lv_list.h │ │ │ ├── lv_lmeter.c │ │ │ ├── lv_lmeter.h │ │ │ ├── lv_mbox.c │ │ │ ├── lv_mbox.h │ │ │ ├── lv_objx.mk │ │ │ ├── lv_objx_templ.c │ │ │ ├── lv_objx_templ.h │ │ │ ├── lv_page.c │ │ │ ├── lv_page.h │ │ │ ├── lv_preload.c │ │ │ ├── lv_preload.h │ │ │ ├── lv_roller.c │ │ │ ├── lv_roller.h │ │ │ ├── lv_slider.c │ │ │ ├── lv_slider.h │ │ │ ├── lv_spinbox.c │ │ │ ├── lv_spinbox.h │ │ │ ├── lv_sw.c │ │ │ ├── lv_sw.h │ │ │ ├── lv_ta.c │ │ │ ├── lv_ta.h │ │ │ ├── lv_table.c │ │ │ ├── lv_table.h │ │ │ ├── lv_tabview.c │ │ │ ├── lv_tabview.h │ │ │ ├── lv_tileview.c │ │ │ ├── lv_tileview.h │ │ │ ├── lv_win.c │ │ │ └── lv_win.h │ │ ├── lv_themes/ │ │ │ ├── lv_theme.c │ │ │ ├── lv_theme.h │ │ │ ├── lv_theme_hekate.c │ │ │ ├── lv_theme_hekate.h │ │ │ └── lv_themes.mk │ │ ├── lv_version.h │ │ ├── lvgl.h │ │ └── lvgl.mk │ ├── mem/ │ │ ├── emc_t210.h │ │ ├── heap.c │ │ ├── heap.h │ │ ├── mc.c │ │ ├── mc.h │ │ ├── mc_t210.h │ │ ├── minerva.c │ │ ├── minerva.h │ │ ├── mtc_table.h │ │ ├── sdram.c │ │ ├── sdram.h │ │ ├── sdram_config.inl │ │ ├── sdram_config_t210b01.inl │ │ ├── sdram_param_t210.h │ │ ├── sdram_param_t210b01.h │ │ ├── smmu.c │ │ └── smmu.h │ ├── memory_map.h │ ├── module.h │ ├── power/ │ │ ├── bm92t36.c │ │ ├── bm92t36.h │ │ ├── bq24193.c │ │ ├── bq24193.h │ │ ├── max17050.c │ │ ├── max17050.h │ │ ├── max77620.h │ │ ├── max7762x.c │ │ ├── max7762x.h │ │ ├── max77812.h │ │ ├── regulator_5v.c │ │ └── regulator_5v.h │ ├── rtc/ │ │ ├── max77620-rtc.c │ │ └── max77620-rtc.h │ ├── sec/ │ │ ├── se.c │ │ ├── se.h │ │ ├── se_t210.h │ │ ├── tsec.c │ │ ├── tsec.h │ │ └── tsec_t210.h │ ├── soc/ │ │ ├── actmon.c │ │ ├── actmon.h │ │ ├── bpmp.c │ │ ├── bpmp.h │ │ ├── ccplex.c │ │ ├── ccplex.h │ │ ├── clock.c │ │ ├── clock.h │ │ ├── fuse.c │ │ ├── fuse.h │ │ ├── gpio.c │ │ ├── gpio.h │ │ ├── hw_init.c │ │ ├── hw_init.h │ │ ├── i2c.c │ │ ├── i2c.h │ │ ├── irq.c │ │ ├── irq.h │ │ ├── kfuse.c │ │ ├── kfuse.h │ │ ├── pinmux.c │ │ ├── pinmux.h │ │ ├── pmc.c │ │ ├── pmc.h │ │ ├── pmc_t210.h │ │ ├── t210.h │ │ ├── timer.c │ │ ├── timer.h │ │ ├── uart.c │ │ └── uart.h │ ├── storage/ │ │ ├── emmc.c │ │ ├── emmc.h │ │ ├── mbr_gpt.h │ │ ├── mmc_def.h │ │ ├── nx_emmc_bis.c │ │ ├── nx_emmc_bis.h │ │ ├── ramdisk.c │ │ ├── ramdisk.h │ │ ├── sd.c │ │ ├── sd.h │ │ ├── sd_def.h │ │ ├── sdmmc.c │ │ ├── sdmmc.h │ │ ├── sdmmc_driver.c │ │ ├── sdmmc_driver.h │ │ └── sdmmc_t210.h │ ├── thermal/ │ │ ├── fan.c │ │ ├── fan.h │ │ ├── tmp451.c │ │ └── tmp451.h │ ├── usb/ │ │ ├── usb_descriptor_types.h │ │ ├── usb_descriptors.c │ │ ├── usb_gadget_hid.c │ │ ├── usb_gadget_ums.c │ │ ├── usb_t210.h │ │ ├── usbd.c │ │ ├── usbd.h │ │ └── xusbd.c │ └── utils/ │ ├── aarch64_util.h │ ├── btn.c │ ├── btn.h │ ├── dirlist.c │ ├── dirlist.h │ ├── ini.c │ ├── ini.h │ ├── list.h │ ├── sprintf.c │ ├── sprintf.h │ ├── tegra_bct.h │ ├── tegra_bit.h │ ├── types.h │ ├── util.c │ └── util.h ├── bootloader/ │ ├── config.c │ ├── config.h │ ├── frontend/ │ │ ├── fe_info.c │ │ ├── fe_info.h │ │ ├── fe_tools.c │ │ └── fe_tools.h │ ├── gfx/ │ │ ├── gfx.c │ │ ├── gfx.h │ │ ├── logos.c │ │ ├── logos.h │ │ ├── tui.c │ │ └── tui.h │ ├── hos/ │ │ ├── hos.c │ │ ├── hos.h │ │ ├── hos_config.c │ │ ├── hos_config.h │ │ ├── pkg1.c │ │ ├── pkg1.h │ │ ├── pkg2.c │ │ ├── pkg2.h │ │ ├── pkg2_ini_kippatch.c │ │ ├── pkg2_ini_kippatch.h │ │ ├── pkg2_patches.inl │ │ ├── pkg3.c │ │ ├── pkg3.h │ │ ├── secmon_exo.c │ │ └── secmon_exo.h │ ├── l4t/ │ │ ├── l4t.c │ │ ├── l4t.h │ │ └── l4t_config.inl │ ├── libs/ │ │ └── fatfs/ │ │ ├── diskio.c │ │ └── ffconf.h │ ├── link.ld │ ├── main.c │ ├── start.S │ └── storage/ │ ├── emummc.c │ └── emummc.h ├── loader/ │ ├── Makefile │ ├── link.ld │ ├── loader.c │ └── start.S ├── modules/ │ ├── hekate_libsys_lp0/ │ │ ├── Makefile │ │ ├── pmc_t210.h │ │ ├── sdram_lp0_param_t210.h │ │ ├── sdram_lp0_param_t210b01.h │ │ ├── sys_sdramlp0.c │ │ ├── t210.h │ │ └── types.h │ ├── hekate_libsys_minerva/ │ │ ├── Makefile │ │ ├── README.md │ │ ├── mtc.h │ │ ├── mtc_mc_emc_regs.h │ │ ├── mtc_switch_tables.h │ │ ├── mtc_table.h │ │ ├── sys_sdrammtc.c │ │ └── types.h │ └── simple_sample/ │ ├── Makefile │ ├── gfx/ │ │ ├── gfx.c │ │ └── gfx.h │ └── module_sample.c ├── nyx/ │ ├── Makefile │ ├── README_RES.md │ └── nyx_gui/ │ ├── config.c │ ├── config.h │ ├── frontend/ │ │ ├── fe_emmc_tools.c │ │ ├── fe_emmc_tools.h │ │ ├── fe_emummc_tools.c │ │ ├── fe_emummc_tools.h │ │ ├── gui.c │ │ ├── gui.h │ │ ├── gui_emmc_tools.c │ │ ├── gui_emmc_tools.h │ │ ├── gui_emummc_tools.c │ │ ├── gui_emummc_tools.h │ │ ├── gui_info.c │ │ ├── gui_info.h │ │ ├── gui_options.c │ │ ├── gui_options.h │ │ ├── gui_tools.c │ │ ├── gui_tools.h │ │ ├── gui_tools_partition_manager.c │ │ └── gui_tools_partition_manager.h │ ├── gfx/ │ │ ├── gfx.c │ │ ├── gfx.h │ │ └── logos-gui.h │ ├── hos/ │ │ ├── hos.c │ │ ├── hos.h │ │ ├── pkg1.c │ │ ├── pkg1.h │ │ ├── pkg2.c │ │ └── pkg2.h │ ├── libs/ │ │ └── fatfs/ │ │ ├── diskio.c │ │ └── ffconf.h │ ├── link.ld │ ├── nyx.c │ └── start.S ├── res/ │ ├── bootlogo/ │ │ └── bootlogo.psd │ ├── hekate_ipl_template.ini │ └── patches_template.ini └── tools/ ├── bin2c/ │ ├── Makefile │ └── bin2c.c ├── emc.def ├── fix_regs.py ├── lz/ │ ├── Makefile │ ├── lz.c │ ├── lz.h │ └── lz77.c ├── mc.def └── smmu_payload.py ================================================ FILE CONTENTS ================================================ ================================================ FILE: .gitignore ================================================ .vs .vscode build/* output/* loader/payload_00.h loader/payload_01.h tools/bin2c/bin2c tools/bin2c/bin2c.exe tools/lz/lz77 tools/lz/lz77.exe ================================================ FILE: LICENSE ================================================ GNU GENERAL PUBLIC LICENSE Version 2, June 1991 Copyright (C) 1989, 1991 Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. 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If the program is interactive, make it output a short notice like this when it starts in an interactive mode: Gnomovision version 69, Copyright (C) year name of author Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'. This is free software, and you are welcome to redistribute it under certain conditions; type `show c' for details. The hypothetical commands `show w' and `show c' should show the appropriate parts of the General Public License. Of course, the commands you use may be called something other than `show w' and `show c'; they could even be mouse-clicks or menu items--whatever suits your program. You should also get your employer (if you work as a programmer) or your school, if any, to sign a "copyright disclaimer" for the program, if necessary. 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If this is what you want to do, use the GNU Lesser General Public License instead of this License. ================================================ FILE: Makefile ================================================ ifeq ($(strip $(DEVKITARM)),) $(error "Please set DEVKITARM in your environment. export DEVKITARM=devkitARM") endif include $(DEVKITARM)/base_rules ################################################################################ IPL_LOAD_ADDR := 0x40008000 IPL_MAGIC := 0x43544349 #"ICTC" include ./Versions.inc ################################################################################ TARGET := hekate BUILDDIR := build BUILDTDIR := build/$(TARGET) OUTPUTDIR := output SOURCEDIR = bootloader BDKDIR := bdk BDKINC := -I./$(BDKDIR) VPATH = $(dir ./$(SOURCEDIR)/) $(dir $(wildcard ./$(SOURCEDIR)/*/)) $(dir $(wildcard ./$(SOURCEDIR)/*/*/)) VPATH += $(dir $(wildcard ./$(BDKDIR)/)) $(dir $(wildcard ./$(BDKDIR)/*/)) $(dir $(wildcard ./$(BDKDIR)/*/*/)) # Track compiler flags TRACK_CFLAGS = $(BUILDTDIR)/.cflags TRACK_LDFLAGS = $(BUILDTDIR)/.ldflags # Main and graphics. OBJS = start exception_handlers main heap gfx logos tui fe_info fe_tools # Hardware. OBJS += bpmp ccplex clock di i2c irq timer \ mc sdram minerva smmu \ gpio pinmux pmc se tsec uart \ fuse kfuse \ sdmmc sdmmc_driver emmc sd emummc \ bq24193 max17050 max7762x max77620-rtc \ hw_init # Utilities. OBJS += btn dirlist ianos ini util config # OS loaders. OBJS += l4t hos hos_config pkg1 pkg2 pkg3 pkg2_ini_kippatch secmon_exo # Libraries. OBJS += lz lz4 blz diskio ff ffunicode ffsystem elfload elfreloc_arm OBJS := $(addsuffix .o, $(OBJS)) OBJS := $(addprefix $(BUILDTDIR)/, $(OBJS)) GFX_INC := '"../$(SOURCEDIR)/gfx/gfx.h"' FFCFG_INC := '"../$(SOURCEDIR)/libs/fatfs/ffconf.h"' ################################################################################ CUSTOMDEFINES := -DIPL_LOAD_ADDR=$(IPL_LOAD_ADDR) -DBL_MAGIC=$(IPL_MAGIC) CUSTOMDEFINES += -DBL_VER_MJ=$(BLVERSION_MAJOR) -DBL_VER_MN=$(BLVERSION_MINOR) -DBL_VER_HF=$(BLVERSION_HOTFX) -DBL_VER_RL=$(BLVERSION_REL) CUSTOMDEFINES += -DNYX_VER_MJ=$(NYXVERSION_MAJOR) -DNYX_VER_MN=$(NYXVERSION_MINOR) -DNYX_VER_HF=$(NYXVERSION_HOTFX) -DNYX_VER_RL=$(NYXVERSION_REL) # BDK defines. CUSTOMDEFINES += -DBDK_MALLOC_NO_DEFRAG -DBDK_EMUMMC_ENABLE CUSTOMDEFINES += -DBDK_WATCHDOG_FIQ_ENABLE -DBDK_RESTART_BL_ON_WDT CUSTOMDEFINES += -DGFX_INC=$(GFX_INC) -DFFCFG_INC=$(FFCFG_INC) #CUSTOMDEFINES += -DDEBUG # UART Logging: Max baudrate 12.5M. # DEBUG_UART_PORT - 0: UART_A, 1: UART_B, 2: UART_C. #CUSTOMDEFINES += -DDEBUG_UART_BAUDRATE=115200 -DDEBUG_UART_INVERT=0 -DDEBUG_UART_PORT=1 #TODO: Considering reinstating some of these when pointer warnings have been fixed. WARNINGS := -Wall -Wsign-compare -Wtype-limits -Wno-array-bounds -Wno-stringop-overread -Wno-stringop-overflow #-fno-delete-null-pointer-checks #-Wstack-usage=byte-size -fstack-usage ARCH := -march=armv4t -mtune=arm7tdmi -mthumb -mthumb-interwork $(WARNINGS) CFLAGS = $(ARCH) -O2 -g -gdwarf-4 -nostdlib -ffunction-sections -fdata-sections -fomit-frame-pointer -fno-inline -std=gnu11 $(CUSTOMDEFINES) LDFLAGS = $(ARCH) -nostartfiles -lgcc -Wl,--nmagic,--gc-sections -Xlinker --defsym=IPL_LOAD_ADDR=$(IPL_LOAD_ADDR) MODULEDIRS := $(wildcard modules/*) NYXDIR := $(wildcard nyx) LDRDIR := $(wildcard loader) TOOLSLZ := $(wildcard tools/lz) TOOLSB2C := $(wildcard tools/bin2c) TOOLS := $(TOOLSLZ) $(TOOLSB2C) ifndef IPLECHO T := $(shell $(MAKE) $(BUILDTDIR)/$(TARGET).elf --no-print-directory -nrRf $(firstword $(MAKEFILE_LIST)) IPLECHO="IPLOBJ" | grep -c "IPLOBJ") N := x C = $(words $N)$(eval N := x $N) IPLECHO = echo -ne "\r`expr " [\`expr $C '*' 100 / $T\`" : '.*\(....\)$$'`%]\033[K" endif ################################################################################ .PHONY: all clean $(LDRDIR) $(TOOLS) $(NYXDIR) $(MODULEDIRS) all: $(TARGET).bin $(LDRDIR) @printf ICTC49 >> $(OUTPUTDIR)/$(TARGET).bin @echo "--------------------------------------" @echo "$(TARGET) size:" @echo -n "Uncompr: " $(eval BIN_SIZE = $(shell wc -c < $(OUTPUTDIR)/$(TARGET)_unc.bin)) @echo $(BIN_SIZE)" Bytes" @if [ ${BIN_SIZE} -gt 140288 ]; then echo "\e[1;33mUncompr size exceeds limit!\e[0m"; fi @echo -n "Payload: " $(eval BIN_SIZE = $(shell wc -c < $(OUTPUTDIR)/$(TARGET).bin)) @echo $(BIN_SIZE)" Bytes" @if [ ${BIN_SIZE} -gt 126296 ]; then echo "\e[1;33mPayload size exceeds limit!\e[0m"; fi @echo "--------------------------------------" clean: $(TOOLS) @rm -rf $(BUILDDIR) @rm -rf $(OUTPUTDIR) @$(MAKE) --no-print-directory -C $(LDRDIR) $(MAKECMDGOALS) -$(MAKEFLAGS) $(MODULEDIRS): $(BUILDTDIR)/$(TARGET).elf @$(MAKE) --no-print-directory -C $@ $(MAKECMDGOALS) -$(MAKEFLAGS) $(NYXDIR): $(BUILDTDIR)/$(TARGET).elf $(MODULEDIRS) @echo -------------------------------------- @$(MAKE) --no-print-directory -C $@ $(MAKECMDGOALS) -$(MAKEFLAGS) $(LDRDIR): $(TARGET).bin $(TOOLS) $(NYXDIR) $(MODULEDIRS) @$(TOOLSLZ)/lz77 $(OUTPUTDIR)/$(TARGET).bin @mv $(OUTPUTDIR)/$(TARGET).bin $(OUTPUTDIR)/$(TARGET)_unc.bin @mv $(OUTPUTDIR)/$(TARGET).bin.00.lz payload_00 @mv $(OUTPUTDIR)/$(TARGET).bin.01.lz payload_01 @$(TOOLSB2C)/bin2c payload_00 > $(LDRDIR)/payload_00.h @$(TOOLSB2C)/bin2c payload_01 > $(LDRDIR)/payload_01.h @rm payload_00 @rm payload_01 @$(MAKE) --no-print-directory -C $@ $(MAKECMDGOALS) -$(MAKEFLAGS) PAYLOAD_NAME=$(TARGET) $(TOOLS): @$(MAKE) --no-print-directory -C $@ $(MAKECMDGOALS) -$(MAKEFLAGS) $(TARGET).bin: $(BUILDTDIR)/$(TARGET).elf @$(OBJCOPY) -S -O binary $< $(OUTPUTDIR)/$@ @echo -------------------------------------- $(BUILDTDIR)/$(TARGET).elf: $(OBJS) $(TRACK_LDFLAGS) @echo -ne "\r[100%] Linking $(TARGET).elf\033[K" @$(CC) $(LDFLAGS) -T $(SOURCEDIR)/link.ld $(OBJS) -o $@ @printf "\n$(TARGET) was built with the following flags:\nCFLAGS: $(CFLAGS)\nLDFLAGS: $(LDFLAGS)\n" $(BUILDTDIR)/%.o: %.c $(TRACK_CFLAGS) | $(BUILDTDIR) @$(IPLECHO) Building $@ @$(CC) $(CFLAGS) $(BDKINC) -MMD -MP -c $< -o $@ $(BUILDTDIR)/%.o: %.S $(TRACK_CFLAGS) | $(BUILDTDIR) @$(IPLECHO) Building $@ @$(CC) $(CFLAGS) -MMD -MP -c $< -o $@ $(BUILDTDIR): @mkdir -p "$(BUILDDIR)" @mkdir -p "$(BUILDTDIR)" @mkdir -p "$(OUTPUTDIR)" # Non objects change detectors. $(TRACK_CFLAGS): $(BUILDTDIR) @echo '$(CFLAGS)' | cmp -s - $@ || echo '$(CFLAGS)' > $@ $(TRACK_LDFLAGS): $(BUILDTDIR) @echo '$(LDFLAGS)' | cmp -s - $@ || echo '$(LDFLAGS)' > $@ -include $(OBJS:.o=.d) ================================================ FILE: README.md ================================================ # hekate - Nyx ![Image of Hekate](https://user-images.githubusercontent.com/3665130/60391760-bc1e8c00-9afe-11e9-8b7a-b065873081b2.png) Custom Graphical Nintendo Switch bootloader, firmware patcher, tools, and many more. - [Features](#features) - [Bootloader folders and files](#bootloader-folders-and-files) - [Bootloader configuration](#bootloader-configuration) * [hekate global Configuration keys/values](#hekate-global-configuration-keysvalues-when-entry-is-config) * [Boot entry key/value combinations](#boot-entry-keyvalue-combinations) * [Boot entry key/value combinations for Exosphère](#boot-entry-keyvalue-combinations-for-exosphère) * [Payload storage](#payload-storage) * [Nyx Configuration keys/values](#nyx-configuration-keysvalues-nyxini) ## Features - **Fully Configurable and Graphical** with Touchscreen and Joycon input support - **Launcher Style, Background and Color Themes** - **HOS (Switch OS) Bootloader** -- For CFW Sys/Emu, OFW Sys and Stock Sys - **Android & Linux Bootloader** - **Payload Launcher** - **eMMC/emuMMC Backup/Restore Tools** - **SD Card Partition Manager** -- Prepares and formats SD Card for any combo of HOS (Sys/emuMMC), Android and Linux - **emuMMC Creation & Manager** -- Can also migrate and fix existing emuMMC - **Switch Android & Linux flasher** - **USB Mass Storage (UMS) for SD/eMMC/emuMMC** -- Converts Switch into a SD Card Reader - **USB Gamepad** -- Converts Switch with Joycon into a USB HID Gamepad - **Hardware and Peripherals info** (SoC, Fuses, RAM, Display, Touch, eMMC, SD, Battery, PSU, Charger) - **Many other tools** like Archive Bit Fixer, Touch Calibration, SD/eMMC Benchmark, AutoRCM enabler and more ## Bootloader folders and files | Folder/File | Description | | ------------------------ | --------------------------------------------------------------------- | | bootloader | Main folder. | | \|__ bootlogo.bmp | It is used if no `logopath` key is found. User provided. Can be skipped. | | \|__ hekate_ipl.ini | Main bootloader configuration and boot entries in `Launch` menu. | | \|__ nyx.ini | Nyx GUI configuration | | \|__ patches.ini | Add external patches. Can be skipped. A template can be found [here](./res/patches_template.ini) | | \|__ update.bin | If newer, it is loaded at boot. Normally for modchips. Auto updated and created at first boot. | | bootloader/ini/ | For individual inis. `More configs` menu. Autoboot is supported. | | bootloader/res/ | Nyx user resources. Icons and more. | | \|__ background.bmp | Nyx - Custom background. User provided. | | \|__ icon_switch.bmp | Nyx - Default icon for CFWs. | | \|__ icon_payload.bmp | Nyx - Default icon for Payloads. | | bootloader/sys/ | hekate and Nyx system modules folder. !Important! | | \|__ emummc.kipm | emuMMC KIP1 module. | | \|__ libsys_lp0.bso | LP0 (sleep mode) module. | | \|__ libsys_minerva.bso | Minerva Training Cell. Used for DRAM Frequency training. | | \|__ nyx.bin | Nyx - hekate's GUI. | | \|__ res.pak | Nyx resources package. | | \|__ thk.bin | Atmosphère Tsec Hovi Keygen. | | \|__ /l4t/ | Folder with firmware relevant to L4T (Linux/Android). | | bootloader/screenshots/ | Folder where Nyx screenshots are saved | | bootloader/payloads/ | For the `Payloads` menu. All CFW bootloaders, tools, Linux payloads are supported. Autoboot only supported by including them into an ini. | | bootloader/libtools/ | Reserved | ## Bootloader configuration The bootloader can be configured via `Nyx` -> `Options` or 'bootloader/hekate_ipl.ini'. The special section 'config' controls the actual global configuration. Any other ini section represents a boot entry and can only be edited manually via the ini. There are four possible type of entries. "**[ ]**": Boot entry, "**{ }**": Caption, "**#**": Comment, "*newline*": .ini cosmetic newline. **You can find a template [Here](./res/hekate_ipl_template.ini)** ### hekate Configuration keys/values (section *[config]*) Use `Options` in Nyx to edit the following configuration: | Config option | Description | | ------------------ | -------------------------------------------------------------- | | autoboot=0 | 0: Disable, #: Boot entry number to auto boot. | | autoboot_list=0 | 0: Read `autoboot` boot entry from hekate_ipl.ini, 1: Read from ini folder (ini files are ASCII ordered). | | bootwait=3 | 0: Disable (It also disables bootlogo. Having **VOL-** pressed since injection goes to menu.), #: Time to wait for **VOL-** to enter menu. Max: 20s. | | autohosoff=1 | 0: Disable, 1: If woke up from HOS via an RTC alarm, shows logo, then powers off completely, 2: No logo, immediately powers off.| | autonogc=1 | 0: Disable, 1: Automatically applies nogc patch if unburnt fuses found and a >= 4.0.0 HOS is booted. | | updater2p=0 | 0: Disable, 1: Force updates (if needed) the reboot2payload binary to be hekate. | | backlight=100 | Screen backlight level. 0-255. | | ------------------ | --------- *The following can be edited via ini only* --------- | | noticker=0 | 0: Animated line is drawn during custom bootlogo, signifying time left to skip to menu. 1: Disable. | | bootprotect=0 | 0: Disable, 1: Protect bootloader folder from being corrupted by disallowing reading or editing in HOS. | ### Boot entry key/value combinations A boot entry needs to be manually added/edited with the user's chosen key/value combos. | Config option | Description | | ---------------------- | ---------------------------------------------------------- | | warmboot={FILE path} | Replaces the warmboot binary | | secmon={FILE path} | Replaces the security monitor binary | | kernel={FILE path} | Replaces the kernel binary | | kip1={FILE path} | Replaces/Adds kernel initial process. Multiple can be set. | | kip1={FOLDER path}/* | Loads every .kip/.kip1 inside a folder. Compatible with single kip1 keys. | | pkg3={FILE path} | Takes an Atmosphere `package3` binary and `extracts` all needed parts from it. kips, exosphere, warmboot and mesophere. | | fss0={FILE path} | Same as above. !Deprecated! | | pkg3ex=1 | Enables loading of experimental content from a PKG3/FSS0 storage | | pkg3kip1skip={KIP name} | Skips loading a kip from `pkg3`/`fss0`. Allows multiple and `,` as separator. The name must exactly match the name in `PKG3`. | | exofatal={FILE path} | Replaces the exosphere fatal binary for Mariko | | ---------------------- | ---------------------------------------------------------- | | kip1patch=patchname | Enables a kip1 patch. Allows multiple and `,` as separator. If actual patch is not found, a warning will show up. | | emupath={FOLDER path} | Forces emuMMC to use the selected one. (=emuMMC/RAW1, =emuMMC/SD00, etc). emuMMC must be created by hekate because it uses the raw_based/file_based files. | | emummcforce=1 | Forces the use of emuMMC. If emummc.ini is disabled or not found, then it causes an error. | | emummc_force_disable=1 | Disables emuMMC, if it's enabled. | | stock=1 | OFW via hekate bootloader. Disables unneeded kernel patching and CFW kips when running stock. `If emuMMC is enabled, emummc_force_disable=1` is required. emuMMC is not supported on stock. If additional KIPs are needed other than OFW's, you can define them with `kip1` key. No kip should be used that relies on Atmosphère patching, because it will hang. If `NOGC` is needed, use `kip1patch=nogc`. | | fullsvcperm=1 | Disables SVC verification (full services permission). Doesn't work with Mesosphere as kernel. | | debugmode=1 | Enables Debug mode. Obsolete when used with exosphere as secmon. | | kernelprocid=1 | Enables stock kernel process id send/recv patching. Not needed when `pkg3`/`fss0` is used. | | ---------------------- | ---------------------------------------------------------- | | payload={FILE path} | Payload launching. Tools, Android/Linux, CFW bootloaders, etc. Any key above when used with that, doesn't get into account. | | ---------------------- | ---------------------------------------------------------- | | l4t=1 | L4T Linux/Android native launching. | | boot_prefixes={FOLDER path} | L4T bootstack directory. | | ram_oc=0 | L4T RAM Overclocking. Check README_CONFIG.txt for more info. | | ram_oc_vdd2=1100 | L4T RAM VDD2 Voltage. Set VDD2 (T210B01) or VDD2/VDDQ (T210) voltage. 1050-1175. | | ram_oc_vddq=600 | L4T RAM VDDQ Voltage. Set VDDQ (T210B01). 550-650. | | uart_port=0 | Enables logging on serial port for L4T uboot/kernel. | | sld_type=0x31444C53 | Controls the type of seamless display support. 0x0: Disable, 0x31444C53: L4T seamless display. | | Additional keys | Each distro supports more keys. Check README_CONFIG.txt for more info. | | ---------------------- | ---------------------------------------------------------- | | bootwait=3 | Overrides global bootwait from `[config]`. | | id=IDNAME | Identifies boot entry for forced boot via id. Max 7 chars. | | logopath={FILE path} | If it exists, it will load the specified bitmap. Otherwise `bootloader/bootlogo.bmp` will be used if exists | | icon={FILE path} | Force Nyx to use the icon defined here. If this is not found, it will check for a bmp named as the boot entry ([Test 2] -> `bootloader/res/Test 2.bmp`). Otherwise defaults will be used. | **Note1**: When using the wildcard (`/*`) with `kip1` you can still use the normal `kip1` after that to load extra single kips. **Note2**: When using PKG3/FSS0 it parses exosphere, warmboot and all core kips. You can override the first 2 by using `secmon`/`warmboot` after defining `pkg3`/`fss0`. You can define `kip1` to load an extra kip or many via the wildcard (`/*`) usage. **Warning**: Careful when you override *pkg3/fss core* kips with `kip1`. That's in case the kips are incompatible between them. If compatible, you can override `pkg3`/`fss0` kips with no issues (useful for testing with intermediate kip changes). In such cases, the `kip1` line must be **after** `pkg3`/`fss0` line. ### Boot entry key/value combinations for Exosphère The following can be paired together with a HOS boot entry: | Config option | Description | | ---------------------- | ---------------------------------------------------------- | | nouserexceptions=1 | Disables usermode exception handlers when paired with Exosphère. | | userpmu=1 | Enables user access to PMU when paired with Exosphère. | | cal0blank=1 | Overrides Exosphère config `blank_prodinfo_{sys/emu}mmc`. If that key doesn't exist, `exosphere.ini` will be used. | | cal0writesys=1 | Overrides Exosphère config `allow_writing_to_cal_sysmmc`. If that key doesn't exist, `exosphere.ini` will be used. | | usb3force=1 | Overrides system settings mitm config `usb30_force_enabled`. If that key doesn't exist, `system_settings.ini` will be used. | | memmode=1 | Enables boot config memory mode for retail units. By default, max ram is limited to 4GB. Enabling this will automatically choose size. | **Note**: `cal0blank`, `cal0writesys`, `usb3force`, as stated override the `exosphere.ini` or `system_settings.ini`. 0: Disable, 1: Enable, Key Missing: Use original value. **Note2**: `blank_prodinfo_{sys/emu}mmc`, `allow_writing_to_cal_sysmmc` and `usb30_force_enabled` in `exosphere.ini` and `system_settings.ini` respectively, are the only atmosphere config keys that can affect hekate booting configuration externally, **if** the equivalent keys in hekate config are missing. ## Payload storage hekate has a boot storage in the binary that helps it configure it outside of BPMP environment: | Offset / Name | Description | | ----------------------- | ----------------------------------------------------------------- | | '0x94' boot_cfg | bit0: `Force AutoBoot`, bit1: `Show launch log`, bit2: `Boot from ID`, bit3: `Boot to emuMMC`. | | '0x95' autoboot | If `Force AutoBoot`, 0: Force go to menu, else boot that entry. | | '0x96' autoboot_list | If `Force AutoBoot` and `autoboot` then it boots from ini folder. | | '0x97' extra_cfg | When menu is forced: bit5: `Run UMS`. | | '0x98' xt_str[128] | Depends on the set cfg bits. | | '0x98' ums[1] | When `Run UMS` is set, it will launch the selected UMS. 0: SD, 1/2/3: eMMC BOOT0/BOOT1/GPP, 4/5/6: emuMMC BOOT0/BOOT1/GPP, | | '0x98' id[8] | When `Boot from ID` is set, it will search all inis automatically and find the boot entry with that id and boot it. Must be NULL terminated. | | '0xA0' emummc_path[120] | When `Boot to emuMMC` is set, it will override the current emuMMC (boot entry or emummc.ini). Must be NULL terminated. | ## Nyx Configuration keys/values (nyx.ini) Use `Nyx Settings` in Nyx to edit the following configuration: | Config option | Description | | ------------------ | ---------------------------------------------------------- | | themebg=2d2d2d | Sets Nyx background color in HEX. 0x0B0B0B to 0xC7C7C7. | | themecolor=167 | Sets Nyx color of text highlights. | | entries5col=0 | 1: Sets Launch entry columns from 4 to 5 per line. For a total of 10 entries. | | timeoffset=0 | Sets time offset in HEX. Must be in epoch format | | timedst=1 | Enables automatic daylight saving hour adjustment | | homescreen=0 | Sets home screen. 0: Home menu, 1: All configs (merges Launch and More configs), 2: Launch, 3: More Configs. | | verification=1 | 0: Disable Backup/Restore verification, 1: Sparse (block based, fast and mostly reliable), 2: Full (sha256 based, slow and 100% reliable). | | ------------------ | ----- *The following can be edited via nyx.ini only* ----- | | umsemmcrw=0 | 1: eMMC/emuMMC UMS will be mounted as writable by default. | | jcdisable=0 | 1: Disables Joycon driver completely. | | jcforceright=0 | 1: Forces right joycon to be used as main mouse control. | | bpmpclock=1 | 0: Auto, 1: 589 MHz, 2: 576 MHz, 3: 563 MHz, 4: 544 MHz, 5: 408 MHz. Use 2 to 5 if Nyx hangs or some functions like UMS/Backup Verification fail. | ``` hekate (c) 2018, naehrwert, st4rk. (c) 2018-2026, CTCaer. Nyx GUI (c) 2019-2026, CTCaer. Thanks to: derrek, nedwill, plutoo, shuffle2, smea, thexyz, yellows8. Greetings to: fincs, hexkyz, SciresM, Shiny Quagsire, WinterMute. Open source and free packages used: - Littlev Graphics Library, Copyright (c) 2016-2018 Gabor Kiss-Vamosi - FatFs R0.13c, Copyright (c) 2006-2018, ChaN Copyright (c) 2018-2022, CTCaer - bcl-1.2.0, Copyright (c) 2003-2006, Marcus Geelnard - blz, Copyright (c) 2018, SciresM - elfload, Copyright (c) 2014 Owen Shepherd, Copyright (c) 2018 M4xw ___ .-' `'. / \ | ; | | ___.--, _.._ |0) = (0) | _.---'`__.-( (_. __.--'`_.. '.__.\ '--. \_.-' ,.--'` `""` ( ,.--'` ',__ /./; ;, '.__.'` __ _`) ) .---.__.' / | |\ \__..--"" """--.,_ `---' .'.''-._.-'`_./ /\ '. \ _.--''````'''--._`-.__.' | | .' _.-' | | \ \ '. `----` \ \/ .' \ \ '. '-._) \/ / \ \ `=.__`'-. / /\ `) ) / / `"".`\ , _.-'.'\ \ / / ( ( / / `--'` ) ) .-'.' '.'. | ( (/` ( (` ) ) '-; [switchbrew] ``` ================================================ FILE: README_BOOTLOGO.md ================================================ # hekate - Bootlogo The bootlogo can be any size with a maximum of 720 x 1280. When it's smaller than 720 x 1280, it is automatically centered and the background takes the color of the first pixel. The process is to create a landscape bootlogo and then rotate it 90 degrees counterclockwise. Lastly, the supported format is 32-bit (ARGB) BMP. Classic 24-bit (RGB) BMPs are not supported for performance reasons. ## How to configure If a boot entry specifies a custom logo path (`logopath=`), this one will be loaded. If the above is not found or the format is not correct, it will try to load `bootloader/bootlogo.bmp`. If this is not found, the default hekate logo will be used. (`bootloader/bootlogo.bmp` is basically like a global bootlogo.) ================================================ FILE: Versions.inc ================================================ # IPL Version. BLVERSION_MAJOR := 6 BLVERSION_MINOR := 5 BLVERSION_HOTFX := 2 BLVERSION_REL := 0 # Nyx Version. NYXVERSION_MAJOR := 1 NYXVERSION_MINOR := 9 NYXVERSION_HOTFX := 2 NYXVERSION_REL := 0 ================================================ FILE: bdk/bdk.h ================================================ /* * Copyright (c) 2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef BDK_H #define BDK_H #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #endif ================================================ FILE: bdk/display/di.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "di.h" #include #include #include #include #include #include #include #include #include #include #include #include "di.inl" static bool _nx_aula = false; static u32 _panel_id = 0; static u32 _panel_id_raw = 0; static void _display_panel_and_hw_end(bool no_panel_deinit); void display_enable_interrupt(u32 intr) { DISPLAY_A(DC_CMD_INT_ENABLE) |= intr; } void display_disable_interrupt(u32 intr) { DISPLAY_A(DC_CMD_INT_ENABLE) &= ~intr; DISPLAY_A(DC_CMD_INT_STATUS) = intr; } void display_wait_interrupt(u32 intr) { DISPLAY_A(DC_CMD_INT_STATUS) = intr; // Interrupts are masked. Poll status register for checking if fired. while (!(DISPLAY_A(DC_CMD_INT_STATUS) & intr)) ; } static void _display_dsi_wait(u32 timeout, u32 off, u32 mask) { u32 end = get_tmr_us() + timeout * 1000; while (get_tmr_us() < end && DSI(off) & mask) ; usleep(5); } static void _display_dsi_soft_reset() { // Disable DSI interface. DSI(DSI_POWER_CONTROL) = 0; // Settle time. usleep(10); } static void _display_dsi_send_cmd(u8 cmd, u32 param, u32 wait) { DSI(DSI_WR_DATA) = (param << 8) | cmd; DSI(DSI_TRIGGER) = DSI_TRIGGER_HOST; if (wait) usleep(wait); } static void _display_dsi_wait_vblank(bool enable) { if (enable) { // Enable vblank interrupt. display_enable_interrupt(DC_CMD_INT_FRAME_END_INT); // Use the 4th line to transmit the host cmd packet. DSI(DSI_VIDEO_MODE_CONTROL) = DSI_CMD_PKT_VID_ENABLE | DSI_DSI_LINE_TYPE(4); // Wait for vblank before starting the transfer. display_wait_interrupt(DC_CMD_INT_FRAME_END_INT); } else { // Wait for vblank before resetting sync points. display_wait_interrupt(DC_CMD_INT_FRAME_END_INT); usleep(14); // Reset all states of syncpt block. DSI(DSI_INCR_SYNCPT_CNTRL) = DSI_INCR_SYNCPT_SOFT_RESET; usleep(300); // Stabilization delay. // Clear syncpt block reset. DSI(DSI_INCR_SYNCPT_CNTRL) = 0; usleep(300); // Stabilization delay. // Restore video mode and host control. DSI(DSI_VIDEO_MODE_CONTROL) = 0; // Disable and clear vblank interrupt. display_disable_interrupt(DC_CMD_INT_FRAME_END_INT); } } static void _display_dsi_read_rx_fifo(u32 *data) { u32 fifo_count = DSI(DSI_STATUS) & DSI_STATUS_RX_FIFO_SIZE; if (fifo_count) DSI(DSI_TRIGGER) = 0; for (u32 i = 0; i < fifo_count; i++) { // Read or Drain RX FIFO. if (data) data[i] = DSI(DSI_RD_DATA); else (void)DSI(DSI_RD_DATA); } } int display_dsi_read(u8 cmd, u32 len, void *data) { u32 fifo[DSI_STATUS_RX_FIFO_SIZE] = {0}; // Drain RX FIFO. _display_dsi_read_rx_fifo(NULL); // Set reply size. _display_dsi_send_cmd(MIPI_DSI_SET_MAXIMUM_RETURN_PACKET_SIZE, len, 0); _display_dsi_wait(250, DSI_TRIGGER, DSI_TRIGGER_HOST | DSI_TRIGGER_VIDEO); // Request register read. _display_dsi_send_cmd(MIPI_DSI_DCS_READ, cmd, 0); _display_dsi_wait(250, DSI_TRIGGER, DSI_TRIGGER_HOST | DSI_TRIGGER_VIDEO); // Transfer bus control to device for transmitting the reply. DSI(DSI_HOST_CONTROL) |= DSI_HOST_CONTROL_IMM_BTA; // Wait for reply to complete. DSI_HOST_CONTROL_IMM_BTA bit acts as a DSI host read busy. _display_dsi_wait(150, DSI_HOST_CONTROL, DSI_HOST_CONTROL_IMM_BTA); // Wait a bit for the reply. usleep(5000); // Read RX FIFO. _display_dsi_read_rx_fifo(fifo); // Parse packet and copy over the data. if ((fifo[0] & 0xFF) == DSI_ESCAPE_CMD) { // Act based on reply type. switch (fifo[1] & 0xFF) { case GEN_LONG_RD_RES: case DCS_LONG_RD_RES: memcpy(data, &fifo[2], MIN((fifo[1] >> 8) & 0xFFFF, len)); break; case GEN_1_BYTE_SHORT_RD_RES: case DCS_1_BYTE_SHORT_RD_RES: memcpy(data, &fifo[2], 1); break; case GEN_2_BYTE_SHORT_RD_RES: case DCS_2_BYTE_SHORT_RD_RES: memcpy(data, &fifo[2], 2); break; case ACK_ERROR_RES: default: return 1; } } else return 1; return 0; } int display_dsi_vblank_read(u8 cmd, u32 len, void *data) { int res = 0; u32 host_control = 0; u32 fifo[DSI_STATUS_RX_FIFO_SIZE] = {0}; // Drain RX FIFO. _display_dsi_read_rx_fifo(NULL); // Save host control and enable host cmd packets during video. host_control = DSI(DSI_HOST_CONTROL); _display_dsi_wait_vblank(true); // Set reply size. _display_dsi_send_cmd(MIPI_DSI_SET_MAXIMUM_RETURN_PACKET_SIZE, len, 0); _display_dsi_wait(0, DSI_TRIGGER, DSI_TRIGGER_HOST | DSI_TRIGGER_VIDEO); // Request register read. _display_dsi_send_cmd(MIPI_DSI_DCS_READ, cmd, 0); _display_dsi_wait(0, DSI_TRIGGER, DSI_TRIGGER_HOST | DSI_TRIGGER_VIDEO); _display_dsi_wait_vblank(false); // Transfer bus control to device for transmitting the reply. DSI(DSI_HOST_CONTROL) |= DSI_HOST_CONTROL_IMM_BTA; // Wait for reply to complete. DSI_HOST_CONTROL_IMM_BTA bit acts as a DSI host read busy. _display_dsi_wait(150, DSI_HOST_CONTROL, DSI_HOST_CONTROL_IMM_BTA); // Wait a bit for the reply. usleep(5000); // Read RX FIFO. _display_dsi_read_rx_fifo(fifo); // Parse packet and copy over the data. if ((fifo[0] & 0xFF) == DSI_ESCAPE_CMD) { // Act based on reply type. switch (fifo[1] & 0xFF) { case GEN_LONG_RD_RES: case DCS_LONG_RD_RES: memcpy(data, &fifo[2], MIN((fifo[1] >> 8) & 0xFFFF, len)); break; case GEN_1_BYTE_SHORT_RD_RES: case DCS_1_BYTE_SHORT_RD_RES: memcpy(data, &fifo[2], 1); break; case GEN_2_BYTE_SHORT_RD_RES: case DCS_2_BYTE_SHORT_RD_RES: memcpy(data, &fifo[2], 2); break; case ACK_ERROR_RES: default: res = 1; break; } } else res = 1; // Restore host control. DSI(DSI_HOST_CONTROL) = host_control; return res; } void display_dsi_write(u8 cmd, u32 len, void *data) { u32 host_control; u32 fifo32[DSI_STATUS_TX_FIFO_SIZE] = {0}; u8 *fifo8 = (u8 *)fifo32; // Prepare data for long write. if (len >= 2) { memcpy(&fifo8[5], data, len); memset(&fifo8[5] + len, 0, len % sizeof(u32)); len++; // Increase length by CMD. } // Save host control. host_control = DSI(DSI_HOST_CONTROL); // Enable host transfer trigger. DSI(DSI_HOST_CONTROL) = (host_control & ~(DSI_HOST_CONTROL_TX_TRIG_MASK)) | DSI_HOST_CONTROL_TX_TRIG_HOST; switch (len) { case 0: _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, cmd, 0); break; case 1: _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE_PARAM, cmd | (*(u8 *)data << 8), 0); break; default: fifo32[0] = (len << 8) | MIPI_DSI_DCS_LONG_WRITE; fifo8[4] = cmd; len += sizeof(u32); // Increase length by length word and DCS CMD. for (u32 i = 0; i < (ALIGN(len, sizeof(u32)) / sizeof(u32)); i++) DSI(DSI_WR_DATA) = fifo32[i]; DSI(DSI_TRIGGER) = DSI_TRIGGER_HOST; break; } // Wait for the write to happen. _display_dsi_wait(250, DSI_TRIGGER, DSI_TRIGGER_HOST); // Restore host control. DSI(DSI_HOST_CONTROL) = host_control; } void display_dsi_vblank_write(u8 cmd, u32 len, void *data) { u32 fifo32[DSI_STATUS_TX_FIFO_SIZE] = {0}; u8 *fifo8 = (u8 *)fifo32; // Prepare data for long write. if (len >= 2) { memcpy(&fifo8[5], data, len); memset(&fifo8[5] + len, 0, len % sizeof(u32)); len++; // Increase length by CMD. } _display_dsi_wait_vblank(true); switch (len) { case 0: DSI(DSI_WR_DATA) = (cmd << 8) | MIPI_DSI_DCS_SHORT_WRITE; break; case 1: DSI(DSI_WR_DATA) = ((cmd | (*(u8 *)data << 8)) << 8) | MIPI_DSI_DCS_SHORT_WRITE_PARAM; break; default: fifo32[0] = (len << 8) | MIPI_DSI_DCS_LONG_WRITE; fifo8[4] = cmd; len += sizeof(u32); // Increase length by length word and DCS CMD. for (u32 i = 0; i < (ALIGN(len, sizeof(u32)) / sizeof(u32)); i++) DSI(DSI_WR_DATA) = fifo32[i]; break; } _display_dsi_wait_vblank(false); } void display_init() { // Get Hardware type, as it's used in various DI functions. _nx_aula = fuse_read_hw_type() == FUSE_NX_HW_TYPE_AULA; // Check if display is already initialized. if (CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_L) & BIT(CLK_L_DISP1)) _display_panel_and_hw_end(true); // Get Chip ID. bool tegra_t210 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210; // Enable DSI AVDD. max7762x_regulator_set_voltage(REGULATOR_LDO0, 1200000); max7762x_regulator_enable(REGULATOR_LDO0, true); // Enable Display Interface specific clocks. CLOCK(CLK_RST_CONTROLLER_RST_DEV_H_CLR) = BIT(CLK_H_MIPI_CAL) | BIT(CLK_H_DSI); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_SET) = BIT(CLK_H_MIPI_CAL) | BIT(CLK_H_DSI); CLOCK(CLK_RST_CONTROLLER_RST_DEV_L_CLR) = BIT(CLK_L_DISP1); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_L_SET) = BIT(CLK_L_DISP1); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_X_SET) = BIT(CLK_X_UART_FST_MIPI_CAL); CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_UART_FST_MIPI_CAL) = CLK_SRC_DIV(6); // Set PLLP_OUT3 and div 6 (17MHz). CLOCK(CLK_RST_CONTROLLER_CLK_ENB_W_SET) = BIT(CLK_W_DSIA_LP); CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_DSIA_LP) = CLK_SRC_DIV(6); // Set PLLP_OUT and div 6 (68MHz). // Bring every IO rail out of deep power down. (Though no rail bit is set.) PMC(APBDEV_PMC_IO_DPD_REQ) = PMC_IO_DPD_REQ_DPD_OFF; PMC(APBDEV_PMC_IO_DPD2_REQ) = PMC_IO_DPD_REQ_DPD_OFF; // Configure LCD/WLED driver pins. if (!_nx_aula) { // Configure LCD driver pins. PINMUX_AUX(PINMUX_AUX_NFC_EN) = PINMUX_PULL_DOWN; PINMUX_AUX(PINMUX_AUX_NFC_INT) = PINMUX_PULL_DOWN; // Configure WLED driver pins. PINMUX_AUX(PINMUX_AUX_LCD_BL_PWM) = PINMUX_PULL_DOWN; PINMUX_AUX(PINMUX_AUX_LCD_BL_EN) = PINMUX_PULL_DOWN; // Enable LCD driver AVDD channels (+5.4V CH2 EN, -5.4V CH1 EN). gpio_direction_output(GPIO_PORT_I, GPIO_PIN_0 | GPIO_PIN_1, GPIO_HIGH); usleep(10000); // Wait minimum 4.2ms to stabilize. // Configure WLED driver PWM/EN pins. gpio_direction_output(GPIO_PORT_V, GPIO_PIN_0 | GPIO_PIN_1, GPIO_LOW); // Enable WLED driver. gpio_write(GPIO_PORT_V, GPIO_PIN_1, GPIO_HIGH); } // else // { // // Configure OLED status pin. // PINMUX_AUX(PINMUX_AUX_WIFI_EN) = PINMUX_INPUT_ENABLE | PINMUX_TRISTATE; // gpio_direction_input(GPIO_PORT_H, GPIO_PIN_0); // } // Configure Panel Reset pin. PINMUX_AUX(PINMUX_AUX_LCD_RST) = PINMUX_PULL_DOWN; gpio_direction_output(GPIO_PORT_V, GPIO_PIN_2, GPIO_LOW); // Power up supply regulator for display interface. MIPI_CAL(MIPI_CAL_MIPI_BIAS_PAD_CFG2) = 0; MIPI_CAL(MIPI_CAL_MIPI_BIAS_PAD_CFG0) = 0; if (!tegra_t210) APB_MISC(APB_MISC_GP_DSI_PAD_CONTROL) = 0; // Set DISP1 clock source, parent clock and DSI/PCLK to command mode. // T210: DIVM: 1, DIVN: 20, DIVP: 3. PLLD_OUT: 100.0 MHz, PLLD_OUT0 (DSI-BCLK): 50.0 MHz. (PCLK: 16.66 MHz) // T210B01: DIVM: 1, DIVN: 20, DIVP: 3. PLLD_OUT: 97.8 MHz, PLLD_OUT0 (DSI-BCLK): 48.9 MHz. (PCLK: 16.30 MHz) clock_enable_plld(3, 20, true, tegra_t210); // Setup Display Interface initial configuration. reg_write_array((vu32 *)DISPLAY_A_BASE, _di_dc_init_config, ARRAY_SIZE(_di_dc_init_config)); // Setup DSI init sequence packets. reg_write_array((vu32 *)DSI_BASE, _di_dsi_seq_pkt_reset_config0, ARRAY_SIZE(_di_dsi_seq_pkt_reset_config0)); DSI(tegra_t210 ? DSI_INIT_SEQ_DATA_15 : DSI_INIT_SEQ_DATA_15_B01) = 0; reg_write_array((vu32 *)DSI_BASE, _di_dsi_seq_pkt_reset_config1, ARRAY_SIZE(_di_dsi_seq_pkt_reset_config1)); // Reset pad trimmers for T210B01. if (!tegra_t210) reg_write_array((vu32 *)DSI_BASE, _di_dsi_init_pads_t210b01, ARRAY_SIZE(_di_dsi_init_pads_t210b01)); // Setup init seq packet lengths, timings and power on DSI. reg_write_array((vu32 *)DSI_BASE, _di_dsi_init_config, ARRAY_SIZE(_di_dsi_init_config)); usleep(10); // DSI soft reset. _display_dsi_soft_reset(); // Set DSI LP timings. reg_write_array((vu32 *)DSI_BASE, _di_dsi_timing_lp_config, ARRAY_SIZE(_di_dsi_timing_lp_config)); usleep(10000); // Enable Panel Reset. gpio_write(GPIO_PORT_V, GPIO_PIN_2, GPIO_HIGH); usleep(60000); // Setup DSI device takeover timeout. DSI(DSI_BTA_TIMING) = _nx_aula ? 0x40103 : 0x50204; // Get Display ID. _panel_id_raw = 0xCCCCCC; for (u32 i = 0; i < 3; i++) { if (!display_dsi_read(MIPI_DCS_GET_DISPLAY_ID, 3, &_panel_id_raw)) break; usleep(5000); } // Decode Display ID. _panel_id = ((_panel_id_raw >> 8) & 0xFF00) | (_panel_id_raw & 0xFF); if ((_panel_id & 0xFF) == PANEL_JDI_XXX062M) _panel_id = PANEL_JDI_XXX062M; // For Aula ensure that we have a compatible panel id. if (_nx_aula) _panel_id = PANEL_SAM_AMS699VC01; // Initialize display panel. switch (_panel_id) { case PANEL_SAM_AMS699VC01: _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, MIPI_DCS_EXIT_SLEEP_MODE, 180000); // Set color mode to basic (natural). Stock is Saturated (0x00). (POR/Exit value is 0x20/0x00). _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE_PARAM, MIPI_DCS_PRIV_SM_SET_COLOR_MODE | (DCS_SM_COLOR_MODE_BASIC << 8), 0); // Enable backlight and smooth PWM. _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE_PARAM, MIPI_DCS_SET_CONTROL_DISPLAY | ((DCS_CONTROL_DISPLAY_BRIGHTNESS_CTRL | DCS_CONTROL_DISPLAY_DIMMING_CTRL) << 8), 0); // Unlock Level 2 registers. DSI(DSI_WR_DATA) = 0x539; // MIPI_DSI_DCS_LONG_WRITE: 5 bytes. DSI(DSI_WR_DATA) = 0x5A5A5AE2; // MIPI_DCS_PRIV_SM_SET_REGS_LOCK: Unlock Level 2 registers. DSI(DSI_WR_DATA) = 0x5A; DSI(DSI_TRIGGER) = DSI_TRIGGER_HOST; // Set registers offset and set PWM transition to 6 frames (100ms). _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE_PARAM, MIPI_DCS_PRIV_SM_SET_REG_OFFSET | (7 << 8), 0); _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE_PARAM, MIPI_DCS_PRIV_SM_SET_ELVSS | (6 << 8), 0); // Relock Level 2 registers. DSI(DSI_WR_DATA) = 0x539; // MIPI_DSI_DCS_LONG_WRITE: 5 bytes. DSI(DSI_WR_DATA) = 0xA55A5AE2; // MIPI_DCS_PRIV_SM_SET_REGS_LOCK: Lock Level 2 registers. DSI(DSI_WR_DATA) = 0xA5; DSI(DSI_TRIGGER) = DSI_TRIGGER_HOST; // Set backlight to 0%. DSI(DSI_WR_DATA) = 0x339; // MIPI_DSI_DCS_LONG_WRITE: 3 bytes. DSI(DSI_WR_DATA) = 0x000051; // MIPI_DCS_SET_BRIGHTNESS 0000: 0%. FF07: 100%. DSI(DSI_TRIGGER) = DSI_TRIGGER_HOST; usleep(5000); break; case PANEL_JDI_XXX062M: reg_write_array((vu32 *)DSI_BASE, _di_dsi_panel_init_config_jdi, ARRAY_SIZE(_di_dsi_panel_init_config_jdi)); _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, MIPI_DCS_EXIT_SLEEP_MODE, 180000); break; case PANEL_INL_P062CCA_AZ1: case PANEL_AUO_A062TAN01: _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, MIPI_DCS_EXIT_SLEEP_MODE, 180000); // Unlock extension cmds. DSI(DSI_WR_DATA) = 0x439; // MIPI_DSI_DCS_LONG_WRITE: 4 bytes. DSI(DSI_WR_DATA) = 0x9483FFB9; // MIPI_DCS_PRIV_SET_EXTC. (Pass: FF 83 94). DSI(DSI_TRIGGER) = DSI_TRIGGER_HOST; usleep(5000); // Set Power control. DSI(DSI_WR_DATA) = 0x739; // MIPI_DSI_DCS_LONG_WRITE: 7 bytes. if (_panel_id == PANEL_INL_P062CCA_AZ1) DSI(DSI_WR_DATA) = 0x751548B1; // MIPI_DCS_PRIV_SET_POWER_CONTROL. (Not deep standby, BT5 / XDK, VRH gamma volt adj 53 / x40). else // PANEL_AUO_A062TAN01. DSI(DSI_WR_DATA) = 0x711148B1; // MIPI_DCS_PRIV_SET_POWER_CONTROL. (Not deep standby, BT1 / XDK, VRH gamma volt adj 49 / x40). DSI(DSI_WR_DATA) = 0x143209; // (NVRH gamma volt adj 9, Amplifier current small / x30, FS0 freq Fosc/80 / FS1 freq Fosc/32). DSI(DSI_TRIGGER) = DSI_TRIGGER_HOST; usleep(5000); break; case PANEL_INL_2J055IA_27A: case PANEL_AUO_A055TAN01: case PANEL_SHP_LQ055T1SW10: default: // Allow spare part displays to work. _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, MIPI_DCS_EXIT_SLEEP_MODE, 120000); break; } // Unblank display. _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, MIPI_DCS_SET_DISPLAY_ON, 20000); // Switch to DSI HS mode. // DIVM: 1, DIVN: 24, DIVP: 1. PLLD_OUT: 468.0 MHz, PLLD_OUT0 (DSI-BCLK): 234.0 MHz. (PCLK: 78 MHz) clock_enable_plld(1, 24, false, tegra_t210); // Set HS PHY timing and finalize DSI packet sequence configuration. reg_write_array((vu32 *)DSI_BASE, _di_dsi_seq_pkt_video_non_burst_no_eot_config, ARRAY_SIZE(_di_dsi_seq_pkt_video_non_burst_no_eot_config)); // Set 1-by-1 pixel/clock and pixel clock to 234 / 3 = 78 MHz. For 60 Hz refresh rate. DISPLAY_A(DC_DISP_DISP_CLOCK_CONTROL) = PIXEL_CLK_DIVIDER_PCD1 | SHIFT_CLK_DIVIDER(4); // div3. Default: div4. // Set DSI mode to HOST. reg_write_array((vu32 *)DSI_BASE, _di_dsi_host_mode_config, ARRAY_SIZE(_di_dsi_host_mode_config)); usleep(10000); /* * Calibrate display communication pads. * When switching to the 16ff pad brick, the clock lane termination control * is separated from data lane termination. This change of the mipi cal * brings in a bug that the DSI pad clock termination code can't be loaded * in one time calibration on T210B01. Trigger calibration twice. */ reg_write_array((vu32 *)MIPI_CAL_BASE, _di_mipi_pad_cal_config, ARRAY_SIZE(_di_mipi_pad_cal_config)); for (u32 i = 0; i < 2; i++) { // Set MIPI bias pad config. MIPI_CAL(MIPI_CAL_MIPI_BIAS_PAD_CFG2) = 0x10010; MIPI_CAL(MIPI_CAL_MIPI_BIAS_PAD_CFG1) = tegra_t210 ? 0x300 : 0; // Set pad trimmers and set MIPI DSI cal offsets. if (tegra_t210) { reg_write_array((vu32 *)DSI_BASE, _di_dsi_pad_cal_config_t210, ARRAY_SIZE(_di_dsi_pad_cal_config_t210)); reg_write_array((vu32 *)MIPI_CAL_BASE, _di_mipi_dsi_cal_prod_config_t210, ARRAY_SIZE(_di_mipi_dsi_cal_prod_config_t210)); } else { reg_write_array((vu32 *)DSI_BASE, _di_dsi_pad_cal_config_t210b01, ARRAY_SIZE(_di_dsi_pad_cal_config_t210b01)); reg_write_array((vu32 *)MIPI_CAL_BASE, _di_mipi_dsi_cal_prod_config_t210b01, ARRAY_SIZE(_di_mipi_dsi_cal_prod_config_t210b01)); } // Reset all unused MIPI cal offsets. reg_write_array((vu32 *)MIPI_CAL_BASE, _di_mipi_dsi_cal_unused_config, ARRAY_SIZE(_di_mipi_dsi_cal_unused_config)); // Set Prescale/filter and start calibration. MIPI_CAL(MIPI_CAL_MIPI_CAL_CTRL) = 0x2A000001; } usleep(10000); // Setup video mode. reg_write_array((vu32 *)DISPLAY_A_BASE, _di_dc_video_mode_config, ARRAY_SIZE(_di_dc_video_mode_config)); } void display_backlight_pwm_init() { if (_panel_id == PANEL_SAM_AMS699VC01) return; // Enable PWM clock. clock_enable_pwm(); // Enable PWM and set it to 25KHz PFM. 29.5KHz is stock. PWM(PWM_CONTROLLER_PWM_CSR_0) = PWM_CSR_EN; PINMUX_AUX(PINMUX_AUX_LCD_BL_PWM) = (PINMUX_AUX(PINMUX_AUX_LCD_BL_PWM) & ~PINMUX_FUNC_MASK) | 1; // Set PWM0 mode. usleep(2); gpio_config(GPIO_PORT_V, GPIO_PIN_0, GPIO_MODE_SPIO); // Backlight power mode. } void display_backlight(bool enable) { if (_panel_id == PANEL_SAM_AMS699VC01) return; // Backlight PWM GPIO. gpio_write(GPIO_PORT_V, GPIO_PIN_0, enable ? GPIO_HIGH : GPIO_LOW); } static void _display_dsi_backlight_brightness(u32 duty) { if (DISPLAY_A(DC_DCS_BACKLIGHT_LEVEL) == duty) return; // Convert duty to candela. u32 candela = duty * PANEL_SM_BL_CANDELA_MAX / 255; u16 bl_ctrl = byte_swap_16((u16)candela); display_dsi_vblank_write(MIPI_DCS_SET_BRIGHTNESS, 2, &bl_ctrl); // Wait for backlight to completely turn off. 6 frames. if (!duty) usleep(100000); DISPLAY_A(DC_DCS_BACKLIGHT_LEVEL) = duty; } static void _display_pwm_backlight_brightness(u32 duty, u32 step_delay) { u32 old_value = (PWM(PWM_CONTROLLER_PWM_CSR_0) >> 16) & 0xFF; if (duty == old_value) return; if (old_value < duty) { for (u32 i = old_value; i <= duty; i++) { PWM(PWM_CONTROLLER_PWM_CSR_0) = PWM_CSR_EN | (i << 16); usleep(step_delay); } } else { for (int i = old_value; i >= (int)duty; i--) { PWM(PWM_CONTROLLER_PWM_CSR_0) = PWM_CSR_EN | (i << 16); usleep(step_delay); } } } void display_backlight_brightness(u32 brightness, u32 step_delay) { if (brightness > 255) brightness = 255; if (_panel_id != PANEL_SAM_AMS699VC01) _display_pwm_backlight_brightness(brightness, step_delay); else _display_dsi_backlight_brightness(brightness); } static void _display_panel_and_hw_end(bool no_panel_deinit) { if (no_panel_deinit) goto skip_panel_deinit; display_backlight_brightness(0, 1000); // Enable host cmd packets during video. DSI(DSI_VIDEO_MODE_CONTROL) = DSI_CMD_PKT_VID_ENABLE; // Blank display. DSI(DSI_WR_DATA) = (MIPI_DCS_SET_DISPLAY_OFF << 8) | MIPI_DSI_DCS_SHORT_WRITE; // Wait for 5 frames (HOST1X_CH0_SYNC_SYNCPT_9). // Not here. Wait for 1 frame + transmission manually. usleep((_panel_id == PANEL_SAM_AMS699VC01) ? (15933 + 195) : (16666 + 230)); // Propagate changes to all register buffers and disable host cmd packets during video. DISPLAY_A(DC_CMD_STATE_ACCESS) = READ_MUX_ACTIVE | WRITE_MUX_ACTIVE; DSI(DSI_VIDEO_MODE_CONTROL) = 0; // De-initialize video controller. reg_write_array((vu32 *)DISPLAY_A_BASE, _di_dc_video_disable_config, ARRAY_SIZE(_di_dc_video_disable_config)); // Set DISP1 clock source, parent clock and DSI/PCLK to command mode. // T210: DIVM: 1, DIVN: 20, DIVP: 3. PLLD_OUT: 100.0 MHz, PLLD_OUT0 (DSI-BCLK): 50.0 MHz. (PCLK: 16.66 MHz) // T210B01: DIVM: 1, DIVN: 20, DIVP: 3. PLLD_OUT: 97.8 MHz, PLLD_OUT0 (DSI-BCLK): 48.9 MHz. (PCLK: 16.30 MHz) clock_enable_plld(3, 20, true, hw_get_chip_id() == GP_HIDREV_MAJOR_T210); // DSI soft reset. _display_dsi_soft_reset(); // Set DSI LP timings. reg_write_array((vu32 *)DSI_BASE, _di_dsi_timing_lp_config, ARRAY_SIZE(_di_dsi_timing_lp_config)); if (_panel_id != PANEL_SAM_AMS699VC01) usleep(10000); // De-initialize display panel. switch (_panel_id) { case PANEL_JDI_XXX062M: reg_write_array((vu32 *)DSI_BASE, _di_dsi_panel_deinit_config_jdi, ARRAY_SIZE(_di_dsi_panel_deinit_config_jdi)); break; case PANEL_AUO_A062TAN01: reg_write_array((vu32 *)DSI_BASE, _di_dsi_panel_deinit_config_auo, ARRAY_SIZE(_di_dsi_panel_deinit_config_auo)); usleep(5000); break; case PANEL_INL_2J055IA_27A: case PANEL_AUO_A055TAN01: case PANEL_SHP_LQ055T1SW10: // Unlock extension cmds. DSI(DSI_WR_DATA) = 0x439; // MIPI_DSI_DCS_LONG_WRITE: 4 bytes. DSI(DSI_WR_DATA) = 0x9483FFB9; // MIPI_DCS_PRIV_SET_EXTC. (Pass: FF 83 94). DSI(DSI_TRIGGER) = DSI_TRIGGER_HOST; usleep(5000); // Set Power control. DSI(DSI_WR_DATA) = 0xB39; // MIPI_DSI_DCS_LONG_WRITE: 11 bytes. if (_panel_id == PANEL_INL_2J055IA_27A) DSI(DSI_WR_DATA) = 0x751548B1; // MIPI_DCS_PRIV_SET_POWER_CONTROL. (Not deep standby, BT5 / XDK, VRH gamma volt adj 53 / x40). else if (_panel_id == PANEL_AUO_A055TAN01) DSI(DSI_WR_DATA) = 0x711148B1; // MIPI_DCS_PRIV_SET_POWER_CONTROL. (Not deep standby, BT1 / XDK, VRH gamma volt adj 49 / x40). else // PANEL_SHP_LQ055T1SW10. DSI(DSI_WR_DATA) = 0x731348B1; // MIPI_DCS_PRIV_SET_POWER_CONTROL. (Not deep standby, BT3 / XDK, VRH gamma volt adj 51 / x40). if (_panel_id == PANEL_INL_2J055IA_27A || _panel_id == PANEL_AUO_A055TAN01) { // (NVRH gamma volt adj 9, Amplifier current small / x30, FS0 freq Fosc/80 / FS1 freq Fosc/32, Enter standby / PON / VCOMG). DSI(DSI_WR_DATA) = 0x71143209; DSI(DSI_WR_DATA) = 0x114D31; // (Unknown). } else // PANEL_SHP_LQ055T1SW10. { // (NVRH gamma volt adj 9, Amplifier current small / x30, FS0 freq Fosc/80 / FS1 freq Fosc/48, Enter standby / PON / VCOMG). DSI(DSI_WR_DATA) = 0x71243209; DSI(DSI_WR_DATA) = 0x004C31; // (Unknown). } DSI(DSI_TRIGGER) = DSI_TRIGGER_HOST; usleep(5000); break; case PANEL_INL_P062CCA_AZ1: case PANEL_SAM_AMS699VC01: default: break; } // Blank - powerdown. _display_dsi_send_cmd(MIPI_DSI_DCS_SHORT_WRITE, MIPI_DCS_ENTER_SLEEP_MODE, (_panel_id == PANEL_SAM_AMS699VC01) ? 120000 : 50000); skip_panel_deinit: // Disable Panel Reset. gpio_write(GPIO_PORT_V, GPIO_PIN_2, GPIO_LOW); usleep(10000); if (!_nx_aula) // HOS uses panel id. { // Disable LCD driver AVDD channels. gpio_write(GPIO_PORT_I, GPIO_PIN_0 | GPIO_PIN_1, GPIO_LOW); // Make sure LCD driver PWM pin is in PWM0 mode. gpio_config(GPIO_PORT_V, GPIO_PIN_0, GPIO_MODE_SPIO); // Backlight PWM. PINMUX_AUX(PINMUX_AUX_LCD_BL_PWM) = PINMUX_TRISTATE | PINMUX_PULL_DOWN | 1; // Set PWM0 mode. } usleep(10000); // Disable Display Interface specific clocks. CLOCK(CLK_RST_CONTROLLER_RST_DEV_H_SET) = BIT(CLK_H_MIPI_CAL) | BIT(CLK_H_DSI); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_CLR) = BIT(CLK_H_MIPI_CAL) | BIT(CLK_H_DSI); CLOCK(CLK_RST_CONTROLLER_RST_DEV_L_SET) = BIT(CLK_L_DISP1); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_L_CLR) = BIT(CLK_L_DISP1); // Power down. DSI(DSI_PAD_CONTROL_0) = DSI_PAD_CONTROL_VS1_PULLDN_CLK | DSI_PAD_CONTROL_VS1_PULLDN(0xF) | DSI_PAD_CONTROL_VS1_PDIO_CLK | DSI_PAD_CONTROL_VS1_PDIO(0xF); _display_dsi_soft_reset(); // Disable DSI AVDD. max7762x_regulator_enable(REGULATOR_LDO0, false); } void display_end() { _display_panel_and_hw_end(false); }; u32 display_get_verbose_panel_id() { return _panel_id_raw; } u16 display_get_decoded_panel_id() { return _panel_id; } void display_set_decoded_panel_id(u32 id) { // Get Hardware type, as it's used in various DI functions. _nx_aula = fuse_read_hw_type() == FUSE_NX_HW_TYPE_AULA; // Decode Display ID. _panel_id = ((id >> 8) & 0xFF00) | (id & 0xFF); if ((_panel_id & 0xFF) == PANEL_JDI_XXX062M) _panel_id = PANEL_JDI_XXX062M; // For Aula ensure that we have a compatible panel id. if (_nx_aula && _panel_id == 0xCCCC) _panel_id = PANEL_SAM_AMS699VC01; } void display_color_screen(u32 color) { // Disable all windows. reg_write_array((vu32 *)DISPLAY_A_BASE, _di_win_one_color, ARRAY_SIZE(_di_win_one_color)); // Configure display to show single color. DISPLAY_A(DC_DISP_BLEND_BACKGROUND_COLOR) = color; // Arm and activate changes. DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | WIN_A_UPDATE | WIN_B_UPDATE | WIN_C_UPDATE | WIN_D_UPDATE; DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | WIN_A_ACT_REQ | WIN_B_ACT_REQ | WIN_C_ACT_REQ | WIN_D_ACT_REQ; usleep(35000); // Wait 2 frames. No need on Aula. if (_panel_id != PANEL_SAM_AMS699VC01) display_backlight(true); else display_backlight_brightness(150, 0); } u32 *display_init_window_a_pitch() { // Sanitize framebuffer area. memset((u32 *)IPL_FB_ADDRESS, 0, IPL_FB_SZ); // This configures the framebuffer @ IPL_FB_ADDRESS with a resolution of 720x1280 (line stride 720). reg_write_array((vu32 *)DISPLAY_A_BASE, _di_winA_pitch, ARRAY_SIZE(_di_winA_pitch)); //usleep(35000); // Wait 2 frames. No need on Aula. return (u32 *)DISPLAY_A(DC_WINBUF_START_ADDR); } u32 *display_init_window_a_pitch_vic() { // This configures the framebuffer @ NYX_FB_ADDRESS with a resolution of 720x1280 (line stride 720). if (_panel_id != PANEL_SAM_AMS699VC01) usleep(8000); // Wait half frame for PWM to apply. reg_write_array((vu32 *)DISPLAY_A_BASE, _di_winA_pitch_vic, ARRAY_SIZE(_di_winA_pitch_vic)); if (_panel_id != PANEL_SAM_AMS699VC01) usleep(35000); // Wait 2 frames. return (u32 *)DISPLAY_A(DC_WINBUF_START_ADDR); } u32 *display_init_window_a_pitch_inv() { // This configures the framebuffer @ NYX_FB_ADDRESS with a resolution of 720x1280 (line stride 720). reg_write_array((vu32 *)DISPLAY_A_BASE, _di_winA_pitch_inv, ARRAY_SIZE(_di_winA_pitch_inv)); usleep(35000); // Wait 2 frames. No need on Aula. return (u32 *)DISPLAY_A(DC_WINBUF_START_ADDR); } u32 *display_init_window_a_block() { // This configures the framebuffer @ NYX_FB_ADDRESS with a resolution of 720x1280. reg_write_array((vu32 *)DISPLAY_A_BASE, _di_winA_block, ARRAY_SIZE(_di_winA_block)); usleep(35000); // Wait 2 frames. No need on Aula. return (u32 *)DISPLAY_A(DC_WINBUF_START_ADDR); } u32 *display_init_window_d_console() { // This configures the framebuffer @ LOG_FB_ADDRESS with a resolution of 1280x720 (line stride 720). reg_write_array((vu32 *)DISPLAY_A_BASE, _di_winD_log, ARRAY_SIZE(_di_winD_log)); return (u32 *)DISPLAY_A(DC_WINBUF_START_ADDR); } void display_window_disable(u32 window) { // Select window C. DISPLAY_A(DC_CMD_DISPLAY_WINDOW_HEADER) = BIT(WINDOW_SELECT + window); // Disable window C. DISPLAY_A(DC_WIN_WIN_OPTIONS) = 0; // Arm and activate changes. DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | BIT(WIN_UPDATE + window); DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | BIT(WIN_ACT_REQ + window); } void display_set_framebuffer(u32 window, void *fb) { // Select window. DISPLAY_A(DC_CMD_DISPLAY_WINDOW_HEADER) = BIT(WINDOW_SELECT + window); // Set new fb address. DISPLAY_A(DC_WINBUF_START_ADDR) = (u32)fb; // Arm and activate changes. DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | BIT(WIN_UPDATE + window); DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | BIT(WIN_ACT_REQ + window); } void display_move_framebuffer(u32 window, void *fb) { // Select window. DISPLAY_A(DC_CMD_DISPLAY_WINDOW_HEADER) = BIT(WINDOW_SELECT + window); // Get current framebuffer address. const void *fb_curr = (void *)DISPLAY_A(DC_WINBUF_START_ADDR); u32 win_size = DISPLAY_A(DC_WIN_PRESCALED_SIZE); win_size = (win_size & 0x7FFF) * ((win_size >> 16) & 0x1FFF); // Copy fb over. memcpy(fb, fb_curr, win_size); // Set new fb address. DISPLAY_A(DC_WINBUF_START_ADDR) = (u32)fb; // Arm and activate changes. DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | BIT(WIN_UPDATE + window); DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | BIT(WIN_ACT_REQ + window); } void display_window_d_console_enable() { // Only update active registers on vsync. DISPLAY_A(DC_CMD_REG_ACT_CONTROL) = DISPLAY_A(DC_CMD_REG_ACT_CONTROL) & ~WIN_D_ACT_HCNTR_SEL; // Select window D. DISPLAY_A(DC_CMD_DISPLAY_WINDOW_HEADER) = WINDOW_D_SELECT; // Enable and setup window D. DISPLAY_A(DC_WIN_WIN_OPTIONS) = WIN_ENABLE; DISPLAY_A(DC_WIN_POSITION) = 0xFF80; // X: -128. // Arm and activate changes. DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | WIN_D_UPDATE; DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | WIN_D_ACT_REQ; // Pull-down effect. for (u32 i = 0xFF80; i < 0x10000; i++) { // Set window position. DISPLAY_A(DC_WIN_POSITION) = i & 0xFFFF; // Arm and activate changes. DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | WIN_D_UPDATE; DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | WIN_D_ACT_REQ; usleep(1000); } DISPLAY_A(DC_WIN_POSITION) = 0; // Arm and activate changes. DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | WIN_D_UPDATE; DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | WIN_D_ACT_REQ; } void display_window_d_console_disable() { // Select window D. DISPLAY_A(DC_CMD_DISPLAY_WINDOW_HEADER) = WINDOW_D_SELECT; // Pull-up effect. for (u32 i = 0xFFFF; i > 0xFF7F; i--) { // Set window position. DISPLAY_A(DC_WIN_POSITION) = i & 0xFFFF; // Arm and activate changes. DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | WIN_D_UPDATE; DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | WIN_D_ACT_REQ; usleep(500); } // Disable window D. DISPLAY_A(DC_WIN_POSITION) = 0; DISPLAY_A(DC_WIN_WIN_OPTIONS) = 0; // Arm and activate changes. DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | WIN_D_UPDATE; DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | WIN_D_ACT_REQ; } void display_cursor_init(void *crs_fb, u32 size) { // Setup cursor. DISPLAY_A(DC_DISP_CURSOR_START_ADDR) = CURSOR_CLIPPING(CURSOR_CLIP_WIN_A) | size | ((u32)crs_fb >> 10); DISPLAY_A(DC_DISP_BLEND_CURSOR_CONTROL) = CURSOR_BLEND_R8G8B8A8 | CURSOR_BLEND_DST_FACTOR(CURSOR_BLEND_K1) | CURSOR_BLEND_SRC_FACTOR(CURSOR_BLEND_K1) | 0xFF; // Enable cursor window. DISPLAY_A(DC_DISP_DISP_WIN_OPTIONS) |= CURSOR_ENABLE; // Arm and activate changes. DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | CURSOR_UPDATE; DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | CURSOR_ACT_REQ; } void display_cursor_set_pos(u32 x, u32 y) { // Set cursor position. DISPLAY_A(DC_DISP_CURSOR_POSITION) = x | (y << 16); // Arm and activate changes. DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | CURSOR_UPDATE; DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | CURSOR_ACT_REQ; } void display_cursor_deinit() { DISPLAY_A(DC_DISP_BLEND_CURSOR_CONTROL) = 0; DISPLAY_A(DC_DISP_DISP_WIN_OPTIONS) &= ~CURSOR_ENABLE; DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_UPDATE | CURSOR_UPDATE; DISPLAY_A(DC_CMD_STATE_CONTROL) = GENERAL_ACT_REQ | CURSOR_ACT_REQ; } ================================================ FILE: bdk/display/di.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _DI_H_ #define _DI_H_ #include #include #define DSI_VIDEO_DISABLED 0 #define DSI_VIDEO_ENABLED 1 #define WINDOW_A 0 #define WINDOW_B 1 #define WINDOW_C 2 #define WINDOW_D 3 /*! Display registers. */ // All Display/DSI/MIPI register defines and macros are index based (not offset). // DC_CMD/DC_COM/WINC Non-shadowed. DC_DISP/DC_WIN/DC_WINBUF Shadowed. // Display controller scratch registers. #define DC_D_WINBUF_DD_SCRATCH_REGISTER_0 0xED #define DC_D_WINBUF_DD_SCRATCH_REGISTER_1 0xEE #define DC_T_WINBUF_TD_SCRATCH_REGISTER_0 0x16D #define DC_T_WINBUF_TD_SCRATCH_REGISTER_1 0x16E #define DC_COM_SCRATCH_REGISTER_A 0x325 #define DC_COM_SCRATCH_REGISTER_B 0x326 #define DC_A_WINBUF_AD_SCRATCH_REGISTER_0 0xBED #define DC_A_WINBUF_AD_SCRATCH_REGISTER_1 0xBEE #define DC_B_WINBUF_BD_SCRATCH_REGISTER_0 0xDED #define DC_B_WINBUF_BD_SCRATCH_REGISTER_1 0xDEE #define DC_C_WINBUF_CD_SCRATCH_REGISTER_0 0xFED #define DC_C_WINBUF_CD_SCRATCH_REGISTER_1 0xFEE // DC_CMD non-shadowed command/sync registers. #define DC_CMD_GENERAL_INCR_SYNCPT 0x00 #define SYNCPT_GENERAL_INDX(x) (((x) & 0xFF) << 0) #define SYNCPT_GENERAL_COND(x) (((x) & 0xFF) << 8) #define COND_REG_WR_SAFE 3 #define DC_CMD_GENERAL_INCR_SYNCPT_CNTRL 0x01 #define SYNCPT_CNTRL_SOFT_RESET BIT(0) #define SYNCPT_CNTRL_NO_STALL BIT(8) #define DC_CMD_CONT_SYNCPT_VSYNC 0x28 #define SYNCPT_VSYNC_INDX(x) (((x) & 0xFF) << 0) #define SYNCPT_VSYNC_ENABLE BIT(8) #define DC_CMD_DISPLAY_COMMAND_OPTION0 0x031 #define DC_CMD_DISPLAY_COMMAND 0x32 #define DISP_CTRL_MODE_STOP (0 << 5) #define DISP_CTRL_MODE_C_DISPLAY (1 << 5) #define DISP_CTRL_MODE_NC_DISPLAY (2 << 5) #define DISP_CTRL_MODE_MASK (3 << 5) #define DC_CMD_DISPLAY_POWER_CONTROL 0x36 #define PW0_ENABLE BIT(0) #define PW1_ENABLE BIT(2) #define PW2_ENABLE BIT(4) #define PW3_ENABLE BIT(6) #define PW4_ENABLE BIT(8) #define PM0_ENABLE BIT(16) #define PM1_ENABLE BIT(18) #define DC_CMD_INT_STATUS 0x37 #define DC_CMD_INT_MASK 0x38 #define DC_CMD_INT_ENABLE 0x39 #define DC_CMD_INT_FRAME_END_INT BIT(1) #define DC_CMD_INT_V_BLANK_INT BIT(2) #define DC_CMD_INT_POLARITY 0x3B #define DC_CMD_STATE_ACCESS 0x40 #define READ_MUX_ASSEMBLY 0x0 #define WRITE_MUX_ASSEMBLY 0x0 #define READ_MUX_ACTIVE BIT(0) #define WRITE_MUX_ACTIVE BIT(2) #define DC_CMD_STATE_CONTROL 0x41 #define GENERAL_ACT_REQ BIT(0) #define WIN_ACT_REQ 1 #define WIN_A_ACT_REQ BIT(1) #define WIN_B_ACT_REQ BIT(2) #define WIN_C_ACT_REQ BIT(3) #define WIN_D_ACT_REQ BIT(4) #define CURSOR_ACT_REQ BIT(7) #define GENERAL_UPDATE BIT(8) #define WIN_UPDATE 9 #define WIN_A_UPDATE BIT(9) #define WIN_B_UPDATE BIT(10) #define WIN_C_UPDATE BIT(11) #define WIN_D_UPDATE BIT(12) #define CURSOR_UPDATE BIT(15) #define NC_HOST_TRIG BIT(24) #define DC_CMD_DISPLAY_WINDOW_HEADER 0x42 #define WINDOW_SELECT 4 #define WINDOW_A_SELECT BIT(4) #define WINDOW_B_SELECT BIT(5) #define WINDOW_C_SELECT BIT(6) #define WINDOW_D_SELECT BIT(7) #define DC_CMD_REG_ACT_CONTROL 0x43 #define GENERAL_ACT_HCNTR_SEL BIT(0) #define WIN_A_ACT_HCNTR_SEL BIT(2) #define WIN_B_ACT_HCNTR_SEL BIT(4) #define WIN_C_ACT_HCNTR_SEL BIT(6) #define CURSOR_ACT_HCNTR_SEL BIT(7) #define WIN_D_ACT_HCNTR_SEL BIT(10) // DC_D_WIN_DD window D instance of DC_WIN #define DC_D_WIN_DD_WIN_OPTIONS 0x80 #define DC_D_WIN_DD_COLOR_DEPTH 0x83 #define DC_D_WIN_DD_POSITION 0x84 #define DC_D_WIN_DD_SIZE 0x85 #define DC_D_WIN_DD_LINE_STRIDE 0x8A #define DC_D_WIN_DD_BLEND_LAYER_CONTROL 0x96 #define DC_D_WIN_DD_BLEND_MATCH_SELECT 0x97 #define DC_D_WIN_DD_BLEND_ALPHA_1BIT 0x99 // DC_D_WINBUF_DD window D instance of DC_WINBUF #define DC_D_WINBUF_DD_START_ADDR 0xC0 #define DC_D_WINBUF_DD_ADDR_H_OFFSET 0xC6 #define DC_D_WINBUF_DD_ADDR_V_OFFSET 0xC8 #define DC_D_WINBUF_DD_START_ADDR_HI 0xCD #define DC_D_WINBUF_DD_MEMFETCH_CONTROL 0xEB // DC_T_WIN_TD macro for using DD defines. #define _DC_T(reg) ((reg) + 0x80) // DC_COM non-shadowed registers. #define DC_COM_CRC_CONTROL 0x300 #define DC_COM_PIN_OUTPUT_ENABLE(x) (0x302 + (x)) #define DC_COM_PIN_OUTPUT_POLARITY(x) (0x306 + (x)) #define LSC0_OUTPUT_POLARITY_LOW BIT(24) // CMU registers. #define DC_COM_CMU_CSC_KRR 0x32A #define DC_COM_CMU_CSC_KGR 0x32B #define DC_COM_CMU_CSC_KBR 0x32C #define DC_COM_CMU_CSC_KRG 0x32D #define DC_COM_CMU_CSC_KGG 0x32E #define DC_COM_CMU_CSC_KBG 0x32F #define DC_COM_CMU_CSC_KRB 0x330 #define DC_COM_CMU_CSC_KGB 0x331 #define DC_COM_CMU_CSC_KBB 0x332 #define DC_COM_CMU_LUT1 0x336 #define LUT1_ADDR(x) ((x) & 0xFF) #define LUT1_DATA(x) (((x) & 0xFFF) << 16) #define LUT1_READ_DATA(x) (((x) >> 16) & 0xFFF) #define DC_COM_CMU_LUT2 0x337 #define LUT2_ADDR(x) ((x) & 0x3FF) #define LUT2_DATA(x) (((x) & 0xFF) << 16) #define LUT2_READ_DATA(x) (((x) >> 16) & 0xFF) #define DC_COM_CMU_LUT1_READ 0x338 #define LUT1_READ_ADDR(x) (((x) & 0xFF) << 8) #define LUT1_READ_EN BIT(0) #define DC_COM_CMU_LUT2_READ 0x339 #define LUT2_READ_ADDR(x) (((x) & 0x3FF) << 8) #define LUT2_READ_EN BIT(0) #define DC_COM_DSC_TOP_CTL 0x33E // DC_DISP shadowed registers. #define DC_DISP_DISP_WIN_OPTIONS 0x402 #define CURSOR_ENABLE BIT(16) #define SOR_ENABLE BIT(25) #define SOR1_ENABLE BIT(26) #define SOR1_TIMING_CYA BIT(27) #define DSI_ENABLE BIT(29) #define HDMI_ENABLE BIT(30) #define DC_DISP_DISP_MEM_HIGH_PRIORITY 0x403 #define DC_DISP_DISP_MEM_HIGH_PRIORITY_TIMER 0x404 #define DC_DISP_DISP_TIMING_OPTIONS 0x405 #define VSYNC_H_POSITION(x) (((x) & 0x1FFF) << 0) #define DC_DISP_REF_TO_SYNC 0x406 #define H_REF_TO_SYNC(x) (((x) & 0x1FFF) << 0) // Min 0 pixel clock. #define V_REF_TO_SYNC(x) (((x) & 0x1FFF) << 16) // Min 1 line clock. #define DC_DISP_SYNC_WIDTH 0x407 #define H_SYNC_WIDTH(x) (((x) & 0x1FFF) << 0) // Min 1 pixel clock. #define V_SYNC_WIDTH(x) (((x) & 0x1FFF) << 16) // Min 1 line clock. #define DC_DISP_BACK_PORCH 0x408 #define H_BACK_PORCH(x) (((x) & 0x1FFF) << 0) #define V_BACK_PORCH(x) (((x) & 0x1FFF) << 16) #define DC_DISP_ACTIVE 0x409 #define H_DISP_ACTIVE(x) (((x) & 0x1FFF) << 0) // Min 16 pixel clock. #define V_DISP_ACTIVE(x) (((x) & 0x1FFF) << 16) // Min 16 line clock. #define DC_DISP_FRONT_PORCH 0x40A #define H_FRONT_PORCH(x) (((x) & 0x1FFF) << 0) // Min -=PS_=-H_REF_TO_SYNC + 1 #define V_FRONT_PORCH(x) (((x) & 0x1FFF) << 16) // Min -=PS_=-V_REF_TO_SYNC + 1 #define DC_DISP_DISP_CLOCK_CONTROL 0x42E #define SHIFT_CLK_DIVIDER(x) ((x) & 0xFF) #define PIXEL_CLK_DIVIDER_PCD1 (0 << 8) #define PIXEL_CLK_DIVIDER_PCD1H (1 << 8) #define PIXEL_CLK_DIVIDER_PCD2 (2 << 8) #define PIXEL_CLK_DIVIDER_PCD3 (3 << 8) #define PIXEL_CLK_DIVIDER_PCD4 (4 << 8) #define PIXEL_CLK_DIVIDER_PCD6 (5 << 8) #define PIXEL_CLK_DIVIDER_PCD8 (6 << 8) #define PIXEL_CLK_DIVIDER_PCD9 (7 << 8) #define PIXEL_CLK_DIVIDER_PCD12 (8 << 8) #define PIXEL_CLK_DIVIDER_PCD16 (9 << 8) #define PIXEL_CLK_DIVIDER_PCD18 (10 << 8) #define PIXEL_CLK_DIVIDER_PCD24 (11 << 8) #define PIXEL_CLK_DIVIDER_PCD13 (12 << 8) #define DC_DISP_DISP_INTERFACE_CONTROL 0x42F #define DISP_DATA_FORMAT_DF1P1C (0 << 0) #define DISP_DATA_FORMAT_DF1P2C24B (1 << 0) #define DISP_DATA_FORMAT_DF1P2C18B (2 << 0) #define DISP_DATA_FORMAT_DF1P2C16B (3 << 0) #define DISP_DATA_FORMAT_DF2S (4 << 0) #define DISP_DATA_FORMAT_DF3S (5 << 0) #define DISP_DATA_FORMAT_DFSPI (6 << 0) #define DISP_DATA_FORMAT_DF1P3C24B (7 << 0) #define DISP_DATA_FORMAT_DF1P3C18B (8 << 0) #define DISP_ALIGNMENT_MSB (0 << 8) #define DISP_ALIGNMENT_LSB (1 << 8) #define DISP_ORDER_RED_BLUE (0 << 9) #define DISP_ORDER_BLUE_RED (1 << 9) #define DC_DISP_DISP_COLOR_CONTROL 0x430 #define BASE_COLOR_SIZE_MASK (0xF << 0) #define BASE_COLOR_SIZE_666 (0 << 0) #define BASE_COLOR_SIZE_111 (1 << 0) #define BASE_COLOR_SIZE_222 (2 << 0) #define BASE_COLOR_SIZE_333 (3 << 0) #define BASE_COLOR_SIZE_444 (4 << 0) #define BASE_COLOR_SIZE_555 (5 << 0) #define BASE_COLOR_SIZE_565 (6 << 0) #define BASE_COLOR_SIZE_332 (7 << 0) #define BASE_COLOR_SIZE_888 (8 << 0) #define DITHER_CONTROL_MASK (3 << 8) #define DITHER_CONTROL_DISABLE (0 << 8) #define DITHER_CONTROL_ORDERED (2 << 8) #define DITHER_CONTROL_ERRDIFF (3 << 8) #define DISP_COLOR_SWAP BIT(16) #define BLANK_COLOR_WHITE BIT(17) #define CMU_ENABLE BIT(20) #define DC_DISP_SHIFT_CLOCK_OPTIONS 0x431 #define SC0_H_QUALIFIER_NONE BIT(0) #define SC1_H_QUALIFIER_NONE BIT(16) #define DC_DISP_DATA_ENABLE_OPTIONS 0x432 #define DE_SELECT_ACTIVE_BLANK (0 << 0) #define DE_SELECT_ACTIVE (1 << 0) #define DE_SELECT_ACTIVE_IS (2 << 0) #define DE_CONTROL_ONECLK (0 << 2) #define DE_CONTROL_NORMAL (1 << 2) #define DE_CONTROL_EARLY_EXT (2 << 2) #define DE_CONTROL_EARLY (3 << 2) #define DE_CONTROL_ACTIVE_BLANK (4 << 2) // Cursor configuration registers. #define DC_DISP_CURSOR_FOREGROUND 0x43C #define DC_DISP_CURSOR_BACKGROUND 0x43D #define CURSOR_COLOR(r,g,b) (((r) & 0xFF) | (((g) & 0xFF) << 8) | (((b) & 0xFF) << 16)) #define DC_DISP_CURSOR_START_ADDR 0x43E #define DC_DISP_CURSOR_START_ADDR_NS 0x43F #define CURSOR_CLIPPING(w) ((w) << 28) #define CURSOR_CLIP_WIN_A 1 #define CURSOR_CLIP_WIN_B 2 #define CURSOR_CLIP_WIN_C 3 #define CURSOR_SIZE_32 (0 << 24) #define CURSOR_SIZE_64 (1 << 24) #define CURSOR_SIZE_128 (2 << 24) #define CURSOR_SIZE_256 (3 << 24) #define DC_DISP_CURSOR_POSITION 0x440 #define DC_DISP_CURSOR_START_ADDR_HI 0x4EC #define DC_DISP_CURSOR_START_ADDR_HI_NS 0x4ED #define DC_DISP_BLEND_CURSOR_CONTROL 0x4F1 #define CURSOR_BLEND_2BIT (0 << 24) #define CURSOR_BLEND_R8G8B8A8 (1 << 24) #define CURSOR_BLEND_SRC_FACTOR(n) ((n) << 8) #define CURSOR_BLEND_DST_FACTOR(n) ((n) << 16) #define CURSOR_BLEND_ZRO 0 #define CURSOR_BLEND_K1 1 #define CURSOR_BLEND_NK1 2 // End of cursor cfg regs. #define DC_DISP_DC_MCCIF_FIFOCTRL 0x480 #define DC_DISP_SD_BL_PARAMETERS 0x4D7 #define DC_DISP_SD_BL_CONTROL 0x4DC #define DC_DISP_BLEND_BACKGROUND_COLOR 0x4E4 #define DC_DISP_DISPLAY_SPARE0 0x4F7 // Used by SW/HW. #define DC_DISP_DISPLAY_SPARE1 0x4F8 #define DC_WINC_COLOR_PALETTE 0x500 #define COLOR_PALETTE_IDX(off) (DC_WINC_COLOR_PALETTE + (off)) #define COLOR_PALETTE_RGB(rgb) (byte_swap_32(rgb) >> 8) #define DC_WINC_PALETTE_COLOR_EXT 0x600 #define DC_WINC_H_FILTER_P(p) (0x601 + (p)) #define DC_WINC_V_FILTER_P(p) (0x619 + (p)) #define DC_WINC_H_FILTER_HI_P(p) (0x629 + (p)) #define DC_WINC_CSC_YOF 0x611 #define DC_WINC_CSC_KYRGB 0x612 #define DC_WINC_CSC_KUR 0x613 #define DC_WINC_CSC_KVR 0x614 #define DC_WINC_CSC_KUG 0x615 #define DC_WINC_CSC_KVG 0x616 #define DC_WINC_CSC_KUB 0x617 #define DC_WINC_CSC_KVB 0x618 #define DC_WIN_AD_WIN_OPTIONS 0xB80 #define DC_WIN_BD_WIN_OPTIONS 0xD80 #define DC_WIN_CD_WIN_OPTIONS 0xF80 // The following registers are A/B/C shadows of the 0xB80/0xD80/0xF80 registers (see DISPLAY_WINDOW_HEADER). #define DC_WIN_WIN_OPTIONS 0x700 #define H_DIRECTION BIT(0) #define V_DIRECTION BIT(2) #define SCAN_COLUMN BIT(4) #define COLOR_EXPAND BIT(6) #define H_FILTER_ENABLE BIT(8) #define V_FILTER_ENABLE BIT(10) #define COLOR_PALETTE_ENABLE BIT(16) #define CSC_ENABLE BIT(18) #define DV_ENABLE BIT(20) #define WIN_ENABLE BIT(30) #define H_FILTER_EXPAND BIT(31) #define DC_WIN_BUFFER_CONTROL 0x702 #define BUFFER_CONTROL_HOST 0 #define BUFFER_CONTROL_VI 1 #define BUFFER_CONTROL_SB2D 4 #define DC_WIN_COLOR_DEPTH 0x703 #define WIN_COLOR_DEPTH_P1 0x0 #define WIN_COLOR_DEPTH_P2 0x1 #define WIN_COLOR_DEPTH_P4 0x2 #define WIN_COLOR_DEPTH_P8 0x3 #define WIN_COLOR_DEPTH_B4G4R4A4 0x4 #define WIN_COLOR_DEPTH_B5G5R5A 0x5 #define WIN_COLOR_DEPTH_B5G6R5 0x6 #define WIN_COLOR_DEPTH_AB5G5R5 0x7 #define WIN_COLOR_DEPTH_B8G8R8A8 0xC #define WIN_COLOR_DEPTH_R8G8B8A8 0xD #define WIN_COLOR_DEPTH_B6x2G6x2R6x2A8 0xE #define WIN_COLOR_DEPTH_R6x2G6x2B6x2A8 0xF #define WIN_COLOR_DEPTH_YCbCr422 0x10 #define WIN_COLOR_DEPTH_YUV422 0x11 #define WIN_COLOR_DEPTH_YCbCr420P 0x12 #define WIN_COLOR_DEPTH_YUV420P 0x13 #define WIN_COLOR_DEPTH_YCbCr422P 0x14 #define WIN_COLOR_DEPTH_YUV422P 0x15 #define WIN_COLOR_DEPTH_YCbCr422R 0x16 #define WIN_COLOR_DEPTH_YUV422R 0x17 #define WIN_COLOR_DEPTH_YCbCr422RA 0x18 #define WIN_COLOR_DEPTH_YUV422RA 0x19 #define WIN_COLOR_DEPTH_X1R5G5B5 0x1E #define WIN_COLOR_DEPTH_R5G5B5X1 0x1F #define WIN_COLOR_DEPTH_X1B5G5R5 0x20 #define WIN_COLOR_DEPTH_B5G5R5X1 0x21 #define WIN_COLOR_DEPTH_YCbCr444P 0x29 #define WIN_COLOR_DEPTH_YCrCb420SP 0x2A #define WIN_COLOR_DEPTH_YCbCr420SP 0x2B #define WIN_COLOR_DEPTH_YCrCb422SP 0x2C #define WIN_COLOR_DEPTH_YCbCr422SP 0x2D #define WIN_COLOR_DEPTH_YUV444P 0x34 #define WIN_COLOR_DEPTH_YVU420SP 0x35 #define WIN_COLOR_DEPTH_YUV420SP 0x36 #define WIN_COLOR_DEPTH_YVU422SP 0x37 #define WIN_COLOR_DEPTH_YUV422SP 0x38 #define WIN_COLOR_DEPTH_YVU444SP 0x3B #define WIN_COLOR_DEPTH_YUV444SP 0x3C #define DC_WIN_POSITION 0x704 #define H_POSITION(x) (((x) & 0xFFFF) << 0) // Support negative. #define V_POSITION(x) (((x) & 0xFFFF) << 16) // Support negative. #define DC_WIN_SIZE 0x705 #define H_SIZE(x) (((x) & 0x1FFF) << 0) #define V_SIZE(x) (((x) & 0x1FFF) << 16) #define DC_WIN_PRESCALED_SIZE 0x706 #define H_PRESCALED_SIZE(x) (((x) & 0x7FFF) << 0) #define V_PRESCALED_SIZE(x) (((x) & 0x1FFF) << 16) #define DC_WIN_H_INITIAL_DDA 0x707 #define DC_WIN_V_INITIAL_DDA 0x708 #define DC_WIN_DDA_INC 0x709 #define H_DDA_INC(x) (((x) & 0xFFFF) << 0) #define V_DDA_INC(x) (((x) & 0xFFFF) << 16) #define DC_WIN_LINE_STRIDE 0x70A #define LINE_STRIDE(x) (x) #define UV_LINE_STRIDE(x) (((x) & 0xFFFF) << 16) #define DC_WIN_DV_CONTROL 0x70E #define DV_CTRL_R(r) (((r) & 7) << 16) #define DV_CTRL_G(g) (((g) & 7) << 8) #define DV_CTRL_B(b) (((b) & 7) << 0) #define DC_WINBUF_BLEND_LAYER_CONTROL 0x716 #define WIN_BLEND_DEPTH(x) (((x) & 0xFF) << 0) #define WIN_K1(x) (((x) & 0xFF) << 8) #define WIN_K2(x) (((x) & 0xFF) << 16) #define WIN_BLEND_ENABLE (0 << 24) #define WIN_BLEND_BYPASS (1 << 24) #define DC_WINBUF_BLEND_MATCH_SELECT 0x717 #define WIN_BLEND_FACT_SRC_COLOR_MATCH_SEL_ZERO (0 << 0) #define WIN_BLEND_FACT_SRC_COLOR_MATCH_SEL_ONE (1 << 0) #define WIN_BLEND_FACT_SRC_COLOR_MATCH_SEL_K1 (2 << 0) #define WIN_BLEND_FACT_SRC_COLOR_MATCH_SEL_K1_TIMES_DST (3 << 0) #define WIN_BLEND_FACT_SRC_COLOR_MATCH_SEL_NEG_K1_TIMES_DST (4 << 0) #define WIN_BLEND_FACT_SRC_COLOR_MATCH_SEL_K1_TIMES_SRC (5 << 0) #define WIN_BLEND_FACT_DST_COLOR_MATCH_SEL_ZERO (0 << 4) #define WIN_BLEND_FACT_DST_COLOR_MATCH_SEL_ONE (1 << 4) #define WIN_BLEND_FACT_DST_COLOR_MATCH_SEL_K1 (2 << 4) #define WIN_BLEND_FACT_DST_COLOR_MATCH_SEL_K2 (3 << 4) #define WIN_BLEND_FACT_DST_COLOR_MATCH_SEL_K1_TIMES_DST (4 << 4) #define WIN_BLEND_FACT_DST_COLOR_MATCH_SEL_NEG_K1_TIMES_DST (5 << 4) #define WIN_BLEND_FACT_DST_COLOR_MATCH_SEL_NEG_K1_TIMES_SRC (6 << 4) #define WIN_BLEND_FACT_DST_COLOR_MATCH_SEL_NEG_K1 (7 << 4) #define WIN_BLEND_FACT_SRC_ALPHA_MATCH_SEL_ZERO (0 << 8) #define WIN_BLEND_FACT_SRC_ALPHA_MATCH_SEL_K1 (1 << 8) #define WIN_BLEND_FACT_SRC_ALPHA_MATCH_SEL_K2 (2 << 8) #define WIN_BLEND_FACT_DST_ALPHA_MATCH_SEL_ZERO (0 << 12) #define WIN_BLEND_FACT_DST_ALPHA_MATCH_SEL_ONE (1 << 12) #define WIN_BLEND_FACT_DST_ALPHA_MATCH_SEL_NEG_K1_TIMES_SRC (2 << 12) #define WIN_BLEND_FACT_DST_ALPHA_MATCH_SEL_K2 (3 << 12) #define DC_WINBUF_BLEND_ALPHA_1BIT 0x719 #define WIN_ALPHA_1BIT_WEIGHT0(x) (((x) & 0xFF) << 0) #define WIN_ALPHA_1BIT_WEIGHT1(x) (((x) & 0xFF) << 8) /*! The following registers are A/B/C shadows of the 0xBC0/0xDC0/0xFC0 registers (see DISPLAY_WINDOW_HEADER). */ #define DC_WINBUF_START_ADDR 0x800 #define DC_WINBUF_ADDR_H_OFFSET 0x806 #define DC_WINBUF_ADDR_V_OFFSET 0x808 #define DC_WINBUF_SURFACE_KIND 0x80B #define PITCH (0 << 0) #define TILED (1 << 0) #define BLOCK (2 << 0) #define BLOCK_HEIGHT(x) (((x) & 0x7) << 4) #define DC_WINBUF_MEMFETCH_CONTROL 0x82B /* Scratch register to store DCS backlight level (custom). */ #define DC_DCS_BACKLIGHT_LEVEL DC_COM_SCRATCH_REGISTER_B /*! Display serial interface registers. */ #define DSI_INCR_SYNCPT_CNTRL 0x1 #define DSI_INCR_SYNCPT_SOFT_RESET BIT(0) #define DSI_INCR_SYNCPT_NO_STALL BIT(8) #define DSI_RD_DATA 0x9 #define DSI_WR_DATA 0xA #define DSI_POWER_CONTROL 0xB #define DSI_POWER_CONTROL_ENABLE 1 #define DSI_INT_ENABLE 0xC #define DSI_INT_STATUS 0xD #define DSI_INT_MASK 0xE #define DSI_HOST_CONTROL 0xF #define DSI_HOST_CONTROL_ECC BIT(0) #define DSI_HOST_CONTROL_CS BIT(1) #define DSI_HOST_CONTROL_PKT_BTA BIT(2) #define DSI_HOST_CONTROL_IMM_BTA BIT(3) #define DSI_HOST_CONTROL_FIFO_SEL BIT(4) #define DSI_HOST_CONTROL_HS BIT(5) #define DSI_HOST_CONTROL_RAW BIT(6) #define DSI_HOST_CONTROL_TX_TRIG_MASK (3 << 12) #define DSI_HOST_CONTROL_TX_TRIG_SOL (0 << 12) #define DSI_HOST_CONTROL_TX_TRIG_FIFO (1 << 12) #define DSI_HOST_CONTROL_TX_TRIG_HOST (2 << 12) #define DSI_HOST_CONTROL_CRC_RESET BIT(20) #define DSI_HOST_CONTROL_FIFO_RESET BIT(21) #define DSI_CONTROL 0x10 #define DSI_CONTROL_HOST_ENABLE BIT(0) #define DSI_CONTROL_VIDEO_ENABLE BIT(1) #define DSI_CONTROL_SOURCE(s) (((s) & 0x1) << 2) #define DSI_CONTROL_DCS_ENABLE BIT(3) #define DSI_CONTROL_LANES(n) (((n) & 0x3) << 4) #define DSI_CONTROL_TX_TRIG(x) (((x) & 0x3) << 8) #define DSI_CONTROL_FORMAT(f) (((f) & 0x3) << 12) #define DSI_CONTROL_CHANNEL(c) (((c) & 0x3) << 16) #define DSI_CONTROL_HS_CLK_CTRL BIT(20) #define DSI_SOL_DELAY 0x11 #define DSI_MAX_THRESHOLD 0x12 #define DSI_TRIGGER 0x13 #define DSI_TRIGGER_VIDEO BIT(0) #define DSI_TRIGGER_HOST BIT(1) #define DSI_TX_CRC 0x14 #define DSI_STATUS 0x15 #define DSI_STATUS_RX_FIFO_SIZE 0x1F #define DSI_STATUS_TX_FIFO_SIZE 0x20 // Actual depth is 64. #define DSI_INIT_SEQ_CONTROL 0x1A #define DSI_INIT_SEQ_DATA_0 0x1B #define DSI_INIT_SEQ_DATA_1 0x1C #define DSI_INIT_SEQ_DATA_2 0x1D #define DSI_INIT_SEQ_DATA_3 0x1E #define DSI_PKT_SEQ_0_LO 0x23 #define DSI_PKT_SEQ_0_HI 0x24 #define DSI_PKT_SEQ_1_LO 0x25 #define DSI_PKT_SEQ_1_HI 0x26 #define DSI_PKT_SEQ_2_LO 0x27 #define DSI_PKT_SEQ_2_HI 0x28 #define DSI_PKT_SEQ_3_LO 0x29 #define DSI_PKT_SEQ_3_HI 0x2A #define DSI_PKT_SEQ_4_LO 0x2B #define DSI_PKT_SEQ_4_HI 0x2C #define DSI_PKT_SEQ_5_LO 0x2D #define DSI_PKT_SEQ_5_HI 0x2E #define DSI_DCS_CMDS 0x33 #define DSI_PKT_LEN_0_1 0x34 #define DSI_PKT_LEN_2_3 0x35 #define DSI_PKT_LEN_4_5 0x36 #define DSI_PKT_LEN_6_7 0x37 #define PKT0_LEN(x) (((x) & 0xFFFF) << 0) #define PKT1_LEN(x) (((x) & 0xFFFF) << 16) #define DSI_PHY_TIMING_0 0x3C #define DSI_PHY_TIMING_1 0x3D #define DSI_PHY_TIMING_2 0x3E #define DSI_BTA_TIMING 0x3F #define DSI_TIMEOUT_0 0x44 #define DSI_TIMEOUT_HTX(x) (((x) & 0xFFFF) << 0) #define DSI_TIMEOUT_LRX(x) (((x) & 0xFFFF) << 16) #define DSI_TIMEOUT_1 0x45 #define DSI_TIMEOUT_TA(x) (((x) & 0xFFFF) << 0) #define DSI_TIMEOUT_PR(x) (((x) & 0xFFFF) << 16) #define DSI_TO_TALLY 0x46 #define DSI_PAD_CONTROL_0 0x4B #define DSI_PAD_CONTROL_VS1_PDIO_CLK BIT(8) #define DSI_PAD_CONTROL_VS1_PDIO(x) (((x) & 0xF) << 0) #define DSI_PAD_CONTROL_VS1_PULLDN_CLK BIT(24) #define DSI_PAD_CONTROL_VS1_PULLDN(x) (((x) & 0xF) << 16) #define DSI_PAD_CONTROL_CD 0x4C #define DSI_VIDEO_MODE_CONTROL 0x4E #define DSI_CMD_PKT_VID_ENABLE 1 #define DSI_DSI_LINE_TYPE(x) ((x) << 1) #define DSI_PAD_CONTROL_1 0x4F #define DSI_PAD_CONTROL_2 0x50 #define DSI_PAD_CONTROL_3 0x51 #define DSI_PAD_PREEMP_PU(x) (((x) & 0x3) << 0) #define DSI_PAD_PREEMP_PD(x) (((x) & 0x3) << 4) #define DSI_PAD_PREEMP_PU_CLK(x) (((x) & 0x3) << 8) #define DSI_PAD_PREEMP_PD_CLK(x) (((x) & 0x3) << 12) #define DSI_PAD_CONTROL_4 0x52 #define DSI_PAD_CONTROL_5_B01 0x53 #define DSI_PAD_CONTROL_6_B01 0x54 #define DSI_PAD_CONTROL_7_B01 0x55 #define DSI_INIT_SEQ_DATA_15 0x5F #define DSI_INIT_SEQ_DATA_15_B01 0x62 /*! DSI packet defines */ #define DSI_ESCAPE_CMD 0x87 #define DSI_ACK_NO_ERR 0x84 #define ACK_ERROR_RES 0x02 #define GEN_LONG_RD_RES 0x1A #define DCS_LONG_RD_RES 0x1C #define GEN_1_BYTE_SHORT_RD_RES 0x11 #define DCS_1_BYTE_SHORT_RD_RES 0x21 #define GEN_2_BYTE_SHORT_RD_RES 0x12 #define DCS_2_BYTE_SHORT_RD_RES 0x22 /*! MIPI registers. */ #define MIPI_CAL_MIPI_CAL_CTRL (0x00 / 0x4) #define MIPI_CAL_CIL_MIPI_CAL_STATUS (0x08 / 0x4) #define MIPI_CAL_CILA_MIPI_CAL_CONFIG (0x14 / 0x4) #define MIPI_CAL_CILB_MIPI_CAL_CONFIG (0x18 / 0x4) #define MIPI_CAL_CILC_MIPI_CAL_CONFIG (0x1C / 0x4) #define MIPI_CAL_CILD_MIPI_CAL_CONFIG (0x20 / 0x4) #define MIPI_CAL_CILE_MIPI_CAL_CONFIG (0x24 / 0x4) #define MIPI_CAL_CILF_MIPI_CAL_CONFIG (0x28 / 0x4) #define MIPI_CAL_DSIA_MIPI_CAL_CONFIG (0x38 / 0x4) #define MIPI_CAL_DSIB_MIPI_CAL_CONFIG (0x3C / 0x4) #define MIPI_CAL_DSIC_MIPI_CAL_CONFIG (0x40 / 0x4) #define MIPI_CAL_DSID_MIPI_CAL_CONFIG (0x44 / 0x4) #define MIPI_CAL_MIPI_BIAS_PAD_CFG0 (0x58 / 0x4) #define MIPI_CAL_MIPI_BIAS_PAD_CFG1 (0x5C / 0x4) #define MIPI_CAL_MIPI_BIAS_PAD_CFG2 (0x60 / 0x4) #define MIPI_CAL_DSIA_MIPI_CAL_CONFIG_2 (0x64 / 0x4) #define MIPI_CAL_DSIB_MIPI_CAL_CONFIG_2 (0x68 / 0x4) #define MIPI_CAL_DSIC_MIPI_CAL_CONFIG_2 (0x70 / 0x4) #define MIPI_CAL_DSID_MIPI_CAL_CONFIG_2 (0x74 / 0x4) /*! MIPI CMDs. */ #define MIPI_DSI_V_SYNC_START 0x01 #define MIPI_DSI_COLOR_MODE_OFF 0x02 #define MIPI_DSI_END_OF_TRANSMISSION 0x08 #define MIPI_DSI_NULL_PACKET 0x09 #define MIPI_DSI_V_SYNC_END 0x11 #define MIPI_DSI_COLOR_MODE_ON 0x12 #define MIPI_DSI_BLANKING_PACKET 0x19 #define MIPI_DSI_H_SYNC_START 0x21 #define MIPI_DSI_SHUTDOWN_PERIPHERAL 0x22 #define MIPI_DSI_H_SYNC_END 0x31 #define MIPI_DSI_TURN_ON_PERIPHERAL 0x32 #define MIPI_DSI_SET_MAXIMUM_RETURN_PACKET_SIZE 0x37 #define MIPI_DSI_DCS_SHORT_WRITE 0x05 #define MIPI_DSI_DCS_READ 0x06 #define MIPI_DSI_DCS_SHORT_WRITE_PARAM 0x15 #define MIPI_DSI_DCS_LONG_WRITE 0x39 #define MIPI_DSI_GENERIC_LONG_WRITE 0x29 #define MIPI_DSI_GENERIC_SHORT_WRITE_0_PARAM 0x03 #define MIPI_DSI_GENERIC_SHORT_WRITE_1_PARAM 0x13 #define MIPI_DSI_GENERIC_SHORT_WRITE_2_PARAM 0x23 #define MIPI_DSI_GENERIC_READ_REQUEST_0_PARAM 0x04 #define MIPI_DSI_GENERIC_READ_REQUEST_1_PARAM 0x14 #define MIPI_DSI_GENERIC_READ_REQUEST_2_PARAM 0x24 /*! MIPI DCS CMDs. */ #define MIPI_DCS_NOP 0x00 #define MIPI_DCS_SOFT_RESET 0x01 #define MIPI_DCS_GET_COMPRESSION_MODE 0x03 #define MIPI_DCS_GET_DISPLAY_ID 0x04 #define MIPI_DCS_GET_DISPLAY_ID1 0xDA // GET_DISPLAY_ID Byte0, Module Manufacturer ID. #define MIPI_DCS_GET_DISPLAY_ID2 0xDB // GET_DISPLAY_ID Byte1, Module/Driver Version ID. #define MIPI_DCS_GET_DISPLAY_ID3 0xDC // GET_DISPLAY_ID Byte2, Module/Driver ID. #define MIPI_DCS_GET_NUM_ERRORS 0x05 // 1 byte. #define MIPI_DCS_GET_RED_CHANNEL 0x06 #define MIPI_DCS_GET_GREEN_CHANNEL 0x07 #define MIPI_DCS_GET_BLUE_CHANNEL 0x08 #define MIPI_DCS_GET_DISPLAY_STATUS 0x09 // 4 bytes. #define MIPI_DCS_GET_POWER_MODE 0x0A // 1 byte. 2: DISON, 3: NORON, 4: SLPOUT, 7: BSTON. #define MIPI_DCS_GET_ADDRESS_MODE 0x0B // Display Access Control. 1 byte. 0: GS, 1: SS, 3: BGR. #define MIPI_DCS_GET_PIXEL_FORMAT 0x0C // 1 byte. 4-6: DPI. #define MIPI_DCS_GET_DISPLAY_MODE 0x0D // 1 byte. 0-2: GCS, 3: ALLPOFF, 4: ALLPON, 5: INVON. #define MIPI_DCS_GET_SIGNAL_MODE 0x0E // 1 byte. 0: EODSI, 2: DEON, 3: PCLKON, 4: VSON, 5: HSON, 7: TEON. #define MIPI_DCS_GET_DIAGNOSTIC_RESULT 0x0F // 1 byte. 6: FUNDT, 7: REGLD. #define MIPI_DCS_ENTER_SLEEP_MODE 0x10 #define MIPI_DCS_EXIT_SLEEP_MODE 0x11 #define MIPI_DCS_ENTER_PARTIAL_MODE 0x12 #define MIPI_DCS_ENTER_NORMAL_MODE 0x13 #define MIPI_DCS_EXIT_INVERT_MODE 0x20 #define MIPI_DCS_ENTER_INVERT_MODE 0x21 #define MIPI_DCS_ALL_PIXELS_OFF 0x22 #define MIPI_DCS_ALL_PIXELS_ON 0x23 #define MIPI_DCS_SET_CONTRAST 0x25 // VCON in 40mV steps. 7-bit integer. #define MIPI_DCS_SET_GAMMA_CURVE 0x26 // 1 byte. 0-7: GC. #define MIPI_DCS_SET_DISPLAY_OFF 0x28 #define MIPI_DCS_SET_DISPLAY_ON 0x29 #define MIPI_DCS_SET_COLUMN_ADDRESS 0x2A #define MIPI_DCS_SET_PAGE_ADDRESS 0x2B #define MIPI_DCS_WRITE_MEMORY_START 0x2C #define MIPI_DCS_WRITE_LUT 0x2D // 24-bit: 192 bytes. #define MIPI_DCS_READ_MEMORY_START 0x2E #define MIPI_DCS_SET_PARTIAL_ROWS 0x30 #define MIPI_DCS_SET_PARTIAL_COLUMNS 0x31 #define MIPI_DCS_SET_SCROLL_AREA 0x33 #define MIPI_DCS_SET_TEAR_OFF 0x34 #define MIPI_DCS_SET_TEAR_ON 0x35 #define MIPI_DCS_SET_ADDRESS_MODE 0x36 // Display Access Control. 1 byte. 0: GS, 1: SS, 3: BGR. #define MIPI_DCS_SET_SCROLL_START 0x37 #define MIPI_DCS_EXIT_IDLE_MODE 0x38 #define MIPI_DCS_ENTER_IDLE_MODE 0x39 #define MIPI_DCS_SET_PIXEL_FORMAT 0x3A // 1 byte. 4-6: DPI. #define MIPI_DCS_WRITE_MEMORY_CONTINUE 0x3C #define MIPI_DCS_READ_MEMORY_CONTINUE 0x3E #define MIPI_DCS_GET_3D_CONTROL 0x3F #define MIPI_DCS_SET_VSYNC_TIMING 0x40 #define MIPI_DCS_SET_TEAR_SCANLINE 0x44 #define MIPI_DCS_GET_SCANLINE 0x45 #define MIPI_DCS_SET_TEAR_SCANLINE_WIDTH 0x46 #define MIPI_DCS_GET_SCANLINE_WIDTH 0x47 #define MIPI_DSI_AREA_COLOR_MODE 0x4C #define MIPI_DCS_SET_BRIGHTNESS 0x51 // DCS_CONTROL_DISPLAY_BRIGHTNESS_CTRL. 1 byte. 0-7: DBV. #define MIPI_DCS_GET_BRIGHTNESS 0x52 // 1 byte. 0-7: DBV. #define MIPI_DCS_SET_CONTROL_DISPLAY 0x53 // 1 byte. 2: BL, 3: DD, 5: BCTRL. #define MIPI_DCS_GET_CONTROL_DISPLAY 0x54 // 1 byte. 2: BL, 3: DD, 5: BCTRL. #define MIPI_DCS_SET_CABC_VALUE 0x55 // 1 byte. 0-32: C, 4-7: C. #define MIPI_DCS_GET_CABC_VALUE 0x56 // 1 byte. 0-32: C, 4-7: C. #define MIPI_DCS_SET_CABC_MIN_BRI 0x5E // 1 byte. 0-7: CMB. #define MIPI_DCS_GET_CABC_MIN_BRI 0x5F // 1 byte. 0-7: CMB. #define MIPI_DCS_GET_AUTO_BRI_DIAG_RES 0x68 // 1 byte. 6-7: D. #define MIPI_DCS_READ_DDB_START 0xA1 #define MIPI_DCS_READ_DDB_CONTINUE 0xA8 // 0x100 size. /*! MIPI DCS Panel Private CMDs. */ #define MIPI_DCS_PRIV_SM_SET_COLOR_MODE 0xA0 // 43 bytes. #define MIPI_DCS_PRIV_SM_SET_REG_OFFSET 0xB0 #define MIPI_DCS_PRIV_SM_SET_ELVSS 0xB1 // OLED backlight tuning. Byte7: PWM transition time in frames. #define MIPI_DCS_PRIV_SET_POWER_CONTROL 0xB1 #define MIPI_DCS_PRIV_SET_EXTC 0xB9 // Enable extended commands. #define MIPI_DCS_PRIV_UNK_BD 0xBD #define MIPI_DCS_PRIV_UNK_D5 0xD5 #define MIPI_DCS_PRIV_UNK_D6 0xD6 #define MIPI_DCS_PRIV_UNK_D8 0xD8 #define MIPI_DCS_PRIV_UNK_D9 0xD9 #define MIPI_DCS_PRIV_SM_DISPLAY_ID 0xDD // LVL1 LVL2 LVL3 UNK0 UNK1 #define MIPI_DCS_PRIV_SM_SET_REGS_LOCK 0xE2 // Samsung: Lock (default): 5A5A A5A5 A5A5 A500 A500. Lock/Unlock: A5/5A. LVL1 group is normal registers. #define MIPI_DCS_PRIV_READ_EXTC_CMD_SPI 0xFE // Read EXTC Command In SPI. 1 byte. 0-6: EXT_SPI_CNT, 7:EXT_SP. #define MIPI_DCS_PRIV_SET_EXTC_CMD_REG 0xFF // EXTC Command Set enable register. 5 bytes. Pass: FF 98 06 04, PAGE. /*! MIPI DCS Panel Private CMDs PAGE 1. */ #define MIPI_DCS_PRIV_GET_DISPLAY_ID4 0x00 #define MIPI_DCS_PRIV_GET_DISPLAY_ID5 0x01 #define MIPI_DCS_PRIV_GET_DISPLAY_ID6 0x02 /*! MIPI DCS CMD Defines. */ #define DCS_POWER_MODE_DISPLAY_ON BIT(2) #define DCS_POWER_MODE_NORMAL_MODE BIT(3) #define DCS_POWER_MODE_SLEEP_MODE BIT(4) #define DCS_POWER_MODE_PARTIAL_MODE BIT(5) #define DCS_POWER_MODE_IDLE_MODE BIT(6) #define DCS_ADDRESS_MODE_V_FLIP BIT(0) #define DCS_ADDRESS_MODE_H_FLIP BIT(1) #define DCS_ADDRESS_MODE_LATCH_RL BIT(2) // Latch Data Order. #define DCS_ADDRESS_MODE_BGR_COLOR BIT(3) #define DCS_ADDRESS_MODE_LINE_ORDER BIT(4) // Line Refresh Order. #define DCS_ADDRESS_MODE_SWAP_XY BIT(5) // Page/Column Addressing Reverse Order. #define DCS_ADDRESS_MODE_MIRROR_X BIT(6) // Column Address Order. #define DCS_ADDRESS_MODE_MIRROR_Y BIT(7) // Page Address Order. #define DCS_ADDRESS_MODE_ROTATION_MASK (0xF << 4) #define DCS_ADDRESS_MODE_ROTATION_90 (DCS_ADDRESS_MODE_SWAP_XY | DCS_ADDRESS_MODE_LINE_ORDER) #define DCS_ADDRESS_MODE_ROTATION_180 (DCS_ADDRESS_MODE_MIRROR_X | DCS_ADDRESS_MODE_LINE_ORDER) #define DCS_ADDRESS_MODE_ROTATION_270 (DCS_ADDRESS_MODE_SWAP_XY) #define DCS_GAMMA_CURVE_NONE 0 #define DCS_GAMMA_CURVE_GC0_1_8 BIT(0) #define DCS_GAMMA_CURVE_GC1_2_5 BIT(1) #define DCS_GAMMA_CURVE_GC2_1_0 BIT(2) #define DCS_GAMMA_CURVE_GC3_1_0 BIT(3) // Are there more? #define DCS_CONTROL_DISPLAY_SM_FLASHLIGHT BIT(2) #define DCS_CONTROL_DISPLAY_BACKLIGHT_CTRL BIT(2) #define DCS_CONTROL_DISPLAY_DIMMING_CTRL BIT(3) // Transition fading. #define DCS_CONTROL_DISPLAY_BRIGHTNESS_CTRL BIT(5) #define DCS_CONTROL_DISPLAY_HBM_CTRL0 BIT(6) #define DCS_CONTROL_DISPLAY_HBM_CTRL1 BIT(7) #define DCS_SM_COLOR_MODE_SATURATED 0x00 // Disabled. Based on Vivid but over-saturated. #define DCS_SM_COLOR_MODE_WASHED 0x45 #define DCS_SM_COLOR_MODE_BASIC 0x03 // Real natural profile. #define DCS_SM_COLOR_MODE_POR_RESET 0x20 // Reset value on power on. #define DCS_SM_COLOR_MODE_NATURAL 0x23 // Not actually natural.. Extra saturation. #define DCS_SM_COLOR_MODE_VIVID 0x65 // Saturated. #define DCS_SM_COLOR_MODE_NIGHT0 0x43 // Based on Washed Out. #define DCS_SM_COLOR_MODE_NIGHT1 0x15 // Based on Basic. #define DCS_SM_COLOR_MODE_NIGHT2 0x35 // Based on Natural. #define DCS_SM_COLOR_MODE_NIGHT3 0x75 // Based on Vivid. #define DCS_SM_COLOR_MODE_ENABLE BIT(0) #define PANEL_SM_BL_CANDELA_MAX 2047 /* Switch Panels: * * 6.2" panels for Icosa and Iowa SKUs: * [10] 81 [26]: JDI LPM062M326A * [10] 96 [09]: JDI LAM062M109A * [20] 93 [0F]: InnoLux P062CCA-AZ1 (Rev A1) * [20] 95 [0F]: InnoLux P062CCA-AZ2 (Rev B1) * [20] 96 [0F]: InnoLux P062CCA-??? (Rev XX) [UNCONFIRMED MODEL+REV] * [20] 97 [0F]: InnoLux P062CCA-??? (Rev XX) [UNCONFIRMED MODEL+REV] * [20] 98 [0F]: InnoLux P062CCA-??? (Rev XX) [UNCONFIRMED MODEL+REV] * [20] 99 [0F]: InnoLux P062CCA-??? (Rev XX) [UNCONFIRMED MODEL+REV] * [30] 93 [0F]: AUO A062TAN00 (59.06A33.000) * [30] 94 [0F]: AUO A062TAN01 (59.06A33.001) * [30] 95 [0F]: AUO A062TAN02 (59.06A33.002) * [30] 97 [0F]: AUO A062TAN02 (59.06A33.002) [From photo of assumed same panel] * [30] 98 [0F]: AUO A062TAN0? [UNCONFIRMED MODEL] * [30] XX [0F]: AUO A062TAN03 (59.06A33.003) [UNCONFIRMED ID] * * * 5.5" panels for Hoag SKU: * [20] 94 [10]: InnoLux 2J055IA-27A (Rev B1) (6203B001P4000) * [20] 95 [10]: InnoLux 2J055IA-27A (Rev XX) [UNCONFIRMED MODEL+REV] * [20] 96 [10]: InnoLux 2J055IA-27A (Rev XX) [UNCONFIRMED MODEL+REV] * [30] 93 [10]: AUO A055TAN01 (59.05A30.001) * [30] 94 [10]: AUO A055TAN02 (59.05A30.002) * [30] 95 [10]: AUO A055TAN03 (59.05A30.003) * [40] 94 [10]: Sharp LQ055T1SW10 (Rev P) * * * 7.0" OLED panels for Aula SKU: * [50] 9B [20]: Samsung AMS699VC01-0 (Rev 2.5) */ /* Display ID Decoding: * * byte0: Vendor * byte1: Model * byte2: Board * * Vendors: * 10h: Japan Display Inc. * 20h: InnoLux Corporation * 30h: AU Optronics * 40h: Sharp * 50h: Samsung * * Boards, Panel Size: * 0Fh: Icosa/Iowa, 6.2" * 10h: Hoag, 5.5" * 20h: Aula, 7.0" */ enum { PANEL_JDI_XXX062M = 0x10, PANEL_JDI_LAM062M109A = 0x0910, // SI. PANEL_JDI_LPM062M326A = 0x2610, // LTPS. PANEL_INL_P062CCA_AZ1 = 0x0F20, PANEL_AUO_A062TAN01 = 0x0F30, PANEL_INL_2J055IA_27A = 0x1020, PANEL_AUO_A055TAN01 = 0x1030, PANEL_SHP_LQ055T1SW10 = 0x1040, PANEL_SAM_AMS699VC01 = 0x2050, // Found on 6/2" clones. Unknown markings. Clone of AUO A062TAN01. // Quality seems JDI like. Has bad low backlight scaling. ID: [83] 94 [0F]. Sometimes reports [30] 94 [0F]. Both IDs have correct CRC16. PANEL_OEM_CLONE_6_2 = 0x0F83, // Found on 5.5" clones with AUO A055TAN02 (59.05A30.001) fake markings. PANEL_OEM_CLONE_5_5 = 0x00B3, // Found on 5.5" clones with AUO A055TAN02 (59.05A30.001) fake markings. PANEL_OEM_CLONE = 0x0000 //0x0F40 [40] 94 [0F], 5.5" clone }; void display_init(); void display_backlight_pwm_init(); void display_end(); /*! Interrupt management. */ void display_enable_interrupt(u32 intr); void display_disable_interrupt(u32 intr); void display_wait_interrupt(u32 intr); /*! Get/Set Display panel ID. */ u32 display_get_verbose_panel_id(); u16 display_get_decoded_panel_id(); void display_set_decoded_panel_id(u32 id); /*! MIPI DCS register management */ int display_dsi_read(u8 cmd, u32 len, void *data); int display_dsi_vblank_read(u8 cmd, u32 len, void *data); void display_dsi_write(u8 cmd, u32 len, void *data); void display_dsi_vblank_write(u8 cmd, u32 len, void *data); /*! Show one single color on the display. */ void display_color_screen(u32 color); /*! Screen backlight ON/OFF or set via duty and fading. */ void display_backlight(bool enable); void display_backlight_brightness(u32 brightness, u32 step_delay); u32 *display_init_window_a_pitch(); u32 *display_init_window_a_pitch_vic(); u32 *display_init_window_a_pitch_inv(); u32 *display_init_window_a_block(); u32 *display_init_window_d_console(); void display_window_disable(u32 window); void display_set_framebuffer(u32 window, void *fb); void display_move_framebuffer(u32 window, void *fb); void display_window_d_console_enable(); void display_window_d_console_disable(); void display_cursor_init(void *crs_fb, u32 size); void display_cursor_set_pos(u32 x, u32 y); void display_cursor_deinit(); #endif ================================================ FILE: bdk/display/di.inl ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ // Display A config. static const reg_cfg_t _di_dc_init_config[] = { /* Display init */ {DC_CMD_STATE_ACCESS, READ_MUX_ASSEMBLY | WRITE_MUX_ASSEMBLY}, {DC_CMD_REG_ACT_CONTROL, WIN_A_ACT_HCNTR_SEL | WIN_B_ACT_HCNTR_SEL | WIN_C_ACT_HCNTR_SEL | WIN_D_ACT_HCNTR_SEL}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ}, {DC_DISP_DC_MCCIF_FIFOCTRL, 0}, {DC_DISP_DISP_MEM_HIGH_PRIORITY, 0}, {DC_DISP_DISP_MEM_HIGH_PRIORITY_TIMER, 0}, {DC_CMD_DISPLAY_POWER_CONTROL, PW0_ENABLE | PW1_ENABLE | PW2_ENABLE | PW3_ENABLE | PW4_ENABLE | PM0_ENABLE | PM1_ENABLE}, {DC_CMD_GENERAL_INCR_SYNCPT_CNTRL, SYNCPT_CNTRL_NO_STALL}, {DC_CMD_CONT_SYNCPT_VSYNC, SYNCPT_VSYNC_ENABLE | SYNCPT_VSYNC_INDX(9)}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE | WIN_A_UPDATE | WIN_B_UPDATE | WIN_C_UPDATE | WIN_D_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ | WIN_A_ACT_REQ | WIN_B_ACT_REQ | WIN_C_ACT_REQ | WIN_D_ACT_REQ}, /* Disable A/B/C/D Windows */ {DC_CMD_DISPLAY_WINDOW_HEADER, WINDOW_A_SELECT | WINDOW_B_SELECT | WINDOW_C_SELECT | WINDOW_D_SELECT}, {DC_WIN_WIN_OPTIONS, 0}, {DC_WIN_DV_CONTROL, 0}, /* Setup default YUV colorspace conversion coefficients */ {DC_WINC_CSC_YOF, 0xF0}, {DC_WINC_CSC_KYRGB, 0x12A}, {DC_WINC_CSC_KUR, 0}, {DC_WINC_CSC_KVR, 0x198}, {DC_WINC_CSC_KUG, 0x39B}, {DC_WINC_CSC_KVG, 0x32F}, {DC_WINC_CSC_KUB, 0x204}, {DC_WINC_CSC_KVB, 0}, /* Init color, format and background */ {DC_DISP_DISP_COLOR_CONTROL, BASE_COLOR_SIZE_888}, {DC_DISP_DISP_INTERFACE_CONTROL, DISP_DATA_FORMAT_DF1P1C}, {DC_COM_PIN_OUTPUT_POLARITY(1), LSC0_OUTPUT_POLARITY_LOW}, {DC_COM_PIN_OUTPUT_POLARITY(3), 0}, {DC_DISP_BLEND_BACKGROUND_COLOR, 0}, {DC_COM_CRC_CONTROL, 0}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE | WIN_A_UPDATE | WIN_B_UPDATE | WIN_C_UPDATE | WIN_D_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ | WIN_A_ACT_REQ | WIN_B_ACT_REQ | WIN_C_ACT_REQ | WIN_D_ACT_REQ}, /* Stop display */ {DC_WINBUF_BLEND_LAYER_CONTROL, WIN_BLEND_BYPASS | WIN_BLEND_DEPTH(255)}, {DC_CMD_DISPLAY_COMMAND_OPTION0, 0}, {DC_DISP_DISP_WIN_OPTIONS, 0}, {DC_CMD_DISPLAY_COMMAND, DISP_CTRL_MODE_STOP}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE | WIN_A_UPDATE | WIN_B_UPDATE | WIN_C_UPDATE | WIN_D_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ | WIN_A_ACT_REQ | WIN_B_ACT_REQ | WIN_C_ACT_REQ | WIN_D_ACT_REQ} }; // DSI Init config. static const reg_cfg_t _di_dsi_seq_pkt_reset_config0[] = { {DSI_WR_DATA, 0}, {DSI_INT_ENABLE, 0}, {DSI_INT_STATUS, 0}, {DSI_INT_MASK, 0}, {DSI_INIT_SEQ_DATA_0, 0}, {DSI_INIT_SEQ_DATA_1, 0}, {DSI_INIT_SEQ_DATA_2, 0}, {DSI_INIT_SEQ_DATA_3, 0} }; static const reg_cfg_t _di_dsi_seq_pkt_reset_config1[] = { {DSI_DCS_CMDS, 0}, {DSI_PKT_SEQ_0_LO, 0}, {DSI_PKT_SEQ_1_LO, 0}, {DSI_PKT_SEQ_2_LO, 0}, {DSI_PKT_SEQ_3_LO, 0}, {DSI_PKT_SEQ_4_LO, 0}, {DSI_PKT_SEQ_5_LO, 0}, {DSI_PKT_SEQ_0_HI, 0}, {DSI_PKT_SEQ_1_HI, 0}, {DSI_PKT_SEQ_2_HI, 0}, {DSI_PKT_SEQ_3_HI, 0}, {DSI_PKT_SEQ_4_HI, 0}, {DSI_PKT_SEQ_5_HI, 0}, {DSI_CONTROL, 0} }; static const reg_cfg_t _di_dsi_init_pads_t210b01[] = { {DSI_PAD_CONTROL_1, 0}, {DSI_PAD_CONTROL_2, 0}, {DSI_PAD_CONTROL_3, 0}, {DSI_PAD_CONTROL_4, 0}, {DSI_PAD_CONTROL_5_B01, 0}, {DSI_PAD_CONTROL_6_B01, 0}, {DSI_PAD_CONTROL_7_B01, 0} }; static const reg_cfg_t _di_dsi_init_config[] = { {DSI_PAD_CONTROL_CD, 0}, {DSI_SOL_DELAY, 24}, {DSI_MAX_THRESHOLD, 480}, {DSI_TRIGGER, 0}, {DSI_INIT_SEQ_CONTROL, 0}, {DSI_PKT_LEN_0_1, 0}, {DSI_PKT_LEN_2_3, 0}, {DSI_PKT_LEN_4_5, 0}, {DSI_PKT_LEN_6_7, 0}, {DSI_PAD_CONTROL_1, 0}, /* DSI PHY timings Init - 19.2 MHz */ {DSI_PHY_TIMING_0, 0x6070603}, {DSI_PHY_TIMING_1, 0x40A0E05}, {DSI_PHY_TIMING_2, 0x30109}, {DSI_BTA_TIMING, 0x190A14}, /* DSI timeout */ {DSI_TIMEOUT_0, DSI_TIMEOUT_LRX(0x2000) | DSI_TIMEOUT_HTX(0xFFFF)}, {DSI_TIMEOUT_1, DSI_TIMEOUT_PR(0x765) | DSI_TIMEOUT_TA(0x2000)}, {DSI_TO_TALLY, 0}, {DSI_PAD_CONTROL_0, DSI_PAD_CONTROL_VS1_PULLDN(0) | DSI_PAD_CONTROL_VS1_PDIO(0)}, // Power up. {DSI_POWER_CONTROL, DSI_POWER_CONTROL_ENABLE}, }; // DSI LP config. static const reg_cfg_t _di_dsi_timing_lp_config[] = { {DSI_PAD_CONTROL_1, 0}, /* DSI PHY timings LP - 50 MHz */ {DSI_PHY_TIMING_0, 0x6070603}, {DSI_PHY_TIMING_1, 0x40A0E05}, {DSI_PHY_TIMING_2, 0x30118}, {DSI_BTA_TIMING, 0x190A14}, /* DSI timeout */ {DSI_TIMEOUT_0, DSI_TIMEOUT_LRX(0x2000) | DSI_TIMEOUT_HTX(0xFFFF)}, {DSI_TIMEOUT_1, DSI_TIMEOUT_PR(0x1343) | DSI_TIMEOUT_TA(0x2000)}, {DSI_TO_TALLY, 0}, {DSI_HOST_CONTROL, DSI_HOST_CONTROL_CRC_RESET | DSI_HOST_CONTROL_TX_TRIG_HOST | DSI_HOST_CONTROL_CS | DSI_HOST_CONTROL_ECC}, {DSI_CONTROL, DSI_CONTROL_LANES(3) | DSI_CONTROL_HOST_ENABLE}, {DSI_POWER_CONTROL, DSI_POWER_CONTROL_ENABLE}, {DSI_MAX_THRESHOLD, 64}, {DSI_TRIGGER, 0}, {DSI_TX_CRC, 0}, {DSI_INIT_SEQ_CONTROL, 0} }; // DSI panel JDI config. static const reg_cfg_t _di_dsi_panel_init_config_jdi[] = { {DSI_WR_DATA, 0x0439}, // MIPI_DSI_DCS_LONG_WRITE: 4 bytes. {DSI_WR_DATA, 0x9483FFB9}, // MIPI_DCS_PRIV_SET_EXTC. (Pass: FF 83 94). {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0xBD15}, // MIPI_DSI_DCS_SHORT_WRITE_PARAM: 0 to 0xBD. {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x1939}, // MIPI_DSI_DCS_LONG_WRITE: 25 bytes. {DSI_WR_DATA, 0xAAAAAAD8}, // Register: 0xD8. {DSI_WR_DATA, 0xAAAAAAEB}, {DSI_WR_DATA, 0xAAEBAAAA}, {DSI_WR_DATA, 0xAAAAAAAA}, {DSI_WR_DATA, 0xAAAAAAEB}, {DSI_WR_DATA, 0xAAEBAAAA}, {DSI_WR_DATA, 0xAA}, {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x01BD15}, // MIPI_DSI_DCS_SHORT_WRITE_PARAM: 1 to 0xBD. {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x2739}, // MIPI_DSI_DCS_LONG_WRITE: 39 bytes. {DSI_WR_DATA, 0xFFFFFFD8}, // Register: 0xD8. {DSI_WR_DATA, 0xFFFFFFFF}, {DSI_WR_DATA, 0xFFFFFFFF}, {DSI_WR_DATA, 0xFFFFFFFF}, {DSI_WR_DATA, 0xFFFFFFFF}, {DSI_WR_DATA, 0xFFFFFFFF}, {DSI_WR_DATA, 0xFFFFFFFF}, {DSI_WR_DATA, 0xFFFFFFFF}, {DSI_WR_DATA, 0xFFFFFFFF}, {DSI_WR_DATA, 0xFFFFFF}, {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x02BD15}, // MIPI_DSI_DCS_SHORT_WRITE_PARAM: 2 to 0xBD. {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0xF39}, // MIPI_DSI_DCS_LONG_WRITE: 15 bytes. {DSI_WR_DATA, 0xFFFFFFD8}, // Register: 0xD8. {DSI_WR_DATA, 0xFFFFFFFF}, {DSI_WR_DATA, 0xFFFFFFFF}, {DSI_WR_DATA, 0xFFFFFF}, {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x00BD15}, // MIPI_DSI_DCS_SHORT_WRITE_PARAM: 0 to 0xBD. {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x06D915}, // MIPI_DSI_DCS_SHORT_WRITE_PARAM: 6 to 0xD9. {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x439}, // MIPI_DSI_DCS_LONG_WRITE: 4 bytes. {DSI_WR_DATA, 0x000000B9}, // MIPI_DCS_PRIV_SET_EXTC. Disable. {DSI_TRIGGER, DSI_TRIGGER_HOST} }; // DSI HS packet config. static const reg_cfg_t _di_dsi_seq_pkt_video_non_burst_no_eot_config[] = { {DSI_PAD_CONTROL_1, 0}, /* DSI PHY timings HP - 234 MHz */ {DSI_PHY_TIMING_0, 0x6070603}, {DSI_PHY_TIMING_1, 0x40A0E05}, {DSI_PHY_TIMING_2, 0x30172}, {DSI_BTA_TIMING, 0x190A14}, /* DSI timeout */ {DSI_TIMEOUT_0, DSI_TIMEOUT_LRX(0x2000) | DSI_TIMEOUT_HTX(0xA40)}, {DSI_TIMEOUT_1, DSI_TIMEOUT_PR(0x5A2F) | DSI_TIMEOUT_TA(0x2000)}, {DSI_TO_TALLY, 0}, /* DSI packet sequence */ {DSI_PKT_SEQ_0_LO, 0x40000208}, {DSI_PKT_SEQ_2_LO, 0x40000308}, {DSI_PKT_SEQ_4_LO, 0x40000308}, {DSI_PKT_SEQ_1_LO, 0x40000308}, {DSI_PKT_SEQ_3_LO, 0x3F3B2B08}, {DSI_PKT_SEQ_3_HI, 0x2CC}, {DSI_PKT_SEQ_5_LO, 0x3F3B2B08}, {DSI_PKT_SEQ_5_HI, 0x2CC}, {DSI_PKT_LEN_0_1, PKT1_LEN(206) | PKT0_LEN(0)}, {DSI_PKT_LEN_2_3, PKT1_LEN(2160) | PKT0_LEN(418)}, {DSI_PKT_LEN_4_5, PKT1_LEN(0) | PKT0_LEN(400)}, {DSI_PKT_LEN_6_7, PKT1_LEN(0) | PKT0_LEN(400)}, {DSI_HOST_CONTROL, 0} }; // DSI mode config. static const reg_cfg_t _di_dsi_host_mode_config[] = { {DSI_TRIGGER, 0}, {DSI_CONTROL, 0}, {DSI_SOL_DELAY, 6}, {DSI_MAX_THRESHOLD, 480}, {DSI_POWER_CONTROL, DSI_POWER_CONTROL_ENABLE}, {DSI_CONTROL, DSI_CONTROL_HS_CLK_CTRL | DSI_CONTROL_FORMAT(3) | DSI_CONTROL_LANES(3) | DSI_CONTROL_VIDEO_ENABLE}, {DSI_HOST_CONTROL, DSI_HOST_CONTROL_HS | DSI_HOST_CONTROL_FIFO_SEL | DSI_HOST_CONTROL_CS | DSI_HOST_CONTROL_ECC}, {DSI_CONTROL, DSI_CONTROL_HS_CLK_CTRL | DSI_CONTROL_FORMAT(3) | DSI_CONTROL_LANES(3) | DSI_CONTROL_VIDEO_ENABLE}, {DSI_HOST_CONTROL, DSI_HOST_CONTROL_TX_TRIG_SOL | DSI_HOST_CONTROL_CS | DSI_HOST_CONTROL_ECC}, {DSI_HOST_CONTROL, DSI_HOST_CONTROL_HS | DSI_HOST_CONTROL_TX_TRIG_SOL | DSI_HOST_CONTROL_CS | DSI_HOST_CONTROL_ECC} }; // MIPI CAL config. static const reg_cfg_t _di_mipi_pad_cal_config[] = { {MIPI_CAL_MIPI_BIAS_PAD_CFG2, 0}, {MIPI_CAL_CIL_MIPI_CAL_STATUS, 0xF3F10000}, {MIPI_CAL_MIPI_BIAS_PAD_CFG0, 0}, {MIPI_CAL_MIPI_BIAS_PAD_CFG2, 0} }; // DSI pad config. static const reg_cfg_t _di_dsi_pad_cal_config_t210[] = { {DSI_PAD_CONTROL_1, 0}, {DSI_PAD_CONTROL_2, 0}, {DSI_PAD_CONTROL_3, DSI_PAD_PREEMP_PD_CLK(0x3) | DSI_PAD_PREEMP_PU_CLK(0x3) | DSI_PAD_PREEMP_PD(0x03) | DSI_PAD_PREEMP_PU(0x3)}, {DSI_PAD_CONTROL_4, 0} }; static const reg_cfg_t _di_dsi_pad_cal_config_t210b01[] = { {DSI_PAD_CONTROL_1, 0}, {DSI_PAD_CONTROL_2, 0}, {DSI_PAD_CONTROL_3, 0}, {DSI_PAD_CONTROL_4, 0x77777}, {DSI_PAD_CONTROL_5_B01, 0x77777}, {DSI_PAD_CONTROL_6_B01, DSI_PAD_PREEMP_PD_CLK(0x1) | DSI_PAD_PREEMP_PU_CLK(0x1) | DSI_PAD_PREEMP_PD(0x01) | DSI_PAD_PREEMP_PU(0x1)}, {DSI_PAD_CONTROL_7_B01, 0} }; // MIPI CAL config. static const reg_cfg_t _di_mipi_dsi_cal_prod_config_t210[] = { {MIPI_CAL_DSIA_MIPI_CAL_CONFIG, 0x200200}, {MIPI_CAL_DSIB_MIPI_CAL_CONFIG, 0x200200}, {MIPI_CAL_DSIA_MIPI_CAL_CONFIG_2, 0x200002}, {MIPI_CAL_DSIB_MIPI_CAL_CONFIG_2, 0x200002} }; static const reg_cfg_t _di_mipi_dsi_cal_prod_config_t210b01[] = { {MIPI_CAL_DSIA_MIPI_CAL_CONFIG, 0x200006}, {MIPI_CAL_DSIB_MIPI_CAL_CONFIG, 0x200006}, {MIPI_CAL_DSIA_MIPI_CAL_CONFIG_2, 0x260000}, {MIPI_CAL_DSIB_MIPI_CAL_CONFIG_2, 0x260000} }; static const reg_cfg_t _di_mipi_dsi_cal_unused_config[] = { {MIPI_CAL_CILA_MIPI_CAL_CONFIG, 0}, {MIPI_CAL_CILB_MIPI_CAL_CONFIG, 0}, {MIPI_CAL_CILC_MIPI_CAL_CONFIG, 0}, {MIPI_CAL_CILD_MIPI_CAL_CONFIG, 0}, {MIPI_CAL_CILE_MIPI_CAL_CONFIG, 0}, {MIPI_CAL_CILF_MIPI_CAL_CONFIG, 0}, {MIPI_CAL_DSIC_MIPI_CAL_CONFIG, 0}, {MIPI_CAL_DSID_MIPI_CAL_CONFIG, 0}, {MIPI_CAL_DSIB_MIPI_CAL_CONFIG_2, 0}, {MIPI_CAL_DSIC_MIPI_CAL_CONFIG_2, 0}, {MIPI_CAL_DSID_MIPI_CAL_CONFIG_2, 0} }; // Display A enable config. static const reg_cfg_t _di_dc_video_mode_config[] = { /* Set panel timings */ {DC_DISP_DISP_TIMING_OPTIONS, VSYNC_H_POSITION(0)}, {DC_DISP_REF_TO_SYNC, V_REF_TO_SYNC(1) | H_REF_TO_SYNC(0)}, {DC_DISP_SYNC_WIDTH, V_SYNC_WIDTH(1) | H_SYNC_WIDTH(72)}, {DC_DISP_BACK_PORCH, V_BACK_PORCH(9) | H_BACK_PORCH(72)}, {DC_DISP_FRONT_PORCH, V_FRONT_PORCH(10) | H_FRONT_PORCH(136)}, {DC_DISP_ACTIVE, V_DISP_ACTIVE(1280) | H_DISP_ACTIVE(720)}, /* End of Display timings */ {DC_DISP_SHIFT_CLOCK_OPTIONS, SC1_H_QUALIFIER_NONE | SC0_H_QUALIFIER_NONE}, {DC_COM_PIN_OUTPUT_ENABLE(1), 0}, {DC_DISP_DATA_ENABLE_OPTIONS, DE_SELECT_ACTIVE | DE_CONTROL_NORMAL}, /* Start continuous display. */ {DC_CMD_DISPLAY_COMMAND, DISP_CTRL_MODE_C_DISPLAY}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ}, {DC_CMD_GENERAL_INCR_SYNCPT, SYNCPT_GENERAL_COND(COND_REG_WR_SAFE) | SYNCPT_GENERAL_INDX(1)}, {DC_CMD_GENERAL_INCR_SYNCPT, SYNCPT_GENERAL_COND(COND_REG_WR_SAFE) | SYNCPT_GENERAL_INDX(1)}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ}, }; // Display A disable config. static const reg_cfg_t _di_dc_video_disable_config[] = { {DC_CMD_INT_MASK, 0}, {DC_CMD_STATE_ACCESS, READ_MUX_ASSEMBLY | WRITE_MUX_ASSEMBLY}, {DC_CMD_INT_ENABLE, 0}, {DC_CMD_CONT_SYNCPT_VSYNC, 0}, /* Stop display. */ {DC_CMD_DISPLAY_COMMAND, DISP_CTRL_MODE_STOP}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ}, {DC_CMD_GENERAL_INCR_SYNCPT, SYNCPT_GENERAL_COND(COND_REG_WR_SAFE) | SYNCPT_GENERAL_INDX(1)}, {DC_CMD_GENERAL_INCR_SYNCPT, SYNCPT_GENERAL_COND(COND_REG_WR_SAFE) | SYNCPT_GENERAL_INDX(1)}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ}, // TODO: LCD panels should sleep for 40ms here. {DC_CMD_DISPLAY_POWER_CONTROL, 0}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ}, }; // DSI panel JDI deinit config. static const reg_cfg_t _di_dsi_panel_deinit_config_jdi[] = { {DSI_WR_DATA, 0x439}, // MIPI_DSI_DCS_LONG_WRITE: 4 bytes. {DSI_WR_DATA, 0x9483FFB9}, // MIPI_DCS_PRIV_SET_EXTC. (Pass: FF 83 94). {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x2139}, // MIPI_DSI_DCS_LONG_WRITE: 33 bytes. {DSI_WR_DATA, 0x191919D5}, // Register: 0xD5. {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19}, {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0xB39}, // MIPI_DSI_DCS_LONG_WRITE: 11 bytes. {DSI_WR_DATA, 0x4F0F41B1}, // MIPI_DCS_PRIV_SET_POWER_CONTROL. {DSI_WR_DATA, 0xF179A433}, {DSI_WR_DATA, 0x002D81}, {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x439}, // MIPI_DSI_DCS_LONG_WRITE: 4 bytes. {DSI_WR_DATA, 0x000000B9}, // MIPI_DCS_PRIV_SET_EXTC. Disable. {DSI_TRIGGER, DSI_TRIGGER_HOST} }; // DSI panel AUO deinit config. static const reg_cfg_t _di_dsi_panel_deinit_config_auo[] = { {DSI_WR_DATA, 0x439}, // MIPI_DSI_DCS_LONG_WRITE: 4 bytes. {DSI_WR_DATA, 0x9483FFB9}, // MIPI_DCS_PRIV_SET_EXTC. (Pass: FF 83 94). {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x2C39}, // MIPI_DSI_DCS_LONG_WRITE: 44 bytes. {DSI_WR_DATA, 0x191919D5}, // Register: 0xD5. {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x2C39}, // MIPI_DSI_DCS_LONG_WRITE: 44 bytes. {DSI_WR_DATA, 0x191919D6}, // Register: 0xD6. {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_WR_DATA, 0x19191919}, {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0xB39}, // MIPI_DSI_DCS_LONG_WRITE: 11 bytes. {DSI_WR_DATA, 0x711148B1}, // MIPI_DCS_PRIV_SET_POWER_CONTROL. (Not deep standby, BT1 / XDK, VRH gamma volt adj 49 / x40). // (NVRH gamma volt adj 9, Amplifier current small / x30, FS0 freq Fosc/80 / FS1 freq Fosc/32, Enter standby / PON / VCOMG). {DSI_WR_DATA, 0x71143209}, {DSI_WR_DATA, 0x114D31}, // (Unknown). {DSI_TRIGGER, DSI_TRIGGER_HOST}, {DSI_WR_DATA, 0x439}, // MIPI_DSI_DCS_LONG_WRITE: 4 bytes. {DSI_WR_DATA, 0x000000B9}, // MIPI_DCS_PRIV_SET_EXTC. Disable. {DSI_TRIGGER, DSI_TRIGGER_HOST} }; /* static const reg_cfg_t _di_init_config_invert[] = { {DSI_WR_DATA, 0x239}, {DSI_WR_DATA, 0x02C1}, // INV_EN. {DSI_TRIGGER, DSI_TRIGGER_HOST}, }; */ // Display A Window A one color config. static const reg_cfg_t _di_win_one_color[] = { {DC_CMD_DISPLAY_WINDOW_HEADER, WINDOW_A_SELECT | WINDOW_B_SELECT | WINDOW_C_SELECT | WINDOW_D_SELECT}, {DC_WIN_WIN_OPTIONS, 0}, {DC_DISP_DISP_WIN_OPTIONS, DSI_ENABLE}, {DC_CMD_DISPLAY_COMMAND, DISP_CTRL_MODE_C_DISPLAY} // Continuous display. }; // Display A Window A linear pitch config. static const reg_cfg_t _di_winA_pitch[] = { {DC_CMD_DISPLAY_WINDOW_HEADER, WINDOW_A_SELECT}, {DC_WIN_WIN_OPTIONS, 0}, {DC_DISP_DISP_WIN_OPTIONS, DSI_ENABLE}, {DC_WIN_COLOR_DEPTH, WIN_COLOR_DEPTH_B8G8R8A8}, // NX Default: T_A8B8G8R8, WIN_COLOR_DEPTH_R8G8B8A8. {DC_WIN_POSITION, 0}, //(0,0) {DC_WIN_H_INITIAL_DDA, 0}, {DC_WIN_V_INITIAL_DDA, 0}, {DC_WIN_PRESCALED_SIZE, V_PRESCALED_SIZE(1280) | H_PRESCALED_SIZE(720 * 4)}, {DC_WIN_DDA_INC, V_DDA_INC(0x1000) | H_DDA_INC(0x1000)}, // 1.0x. {DC_WIN_SIZE, V_SIZE(1280) | H_SIZE(720)}, {DC_WIN_LINE_STRIDE, UV_LINE_STRIDE(720 * 2) | LINE_STRIDE(720 * 4)}, // 720*2x720*4 (= 0x600 x 0xC00) bytes, see TRM for alignment requirements. {DC_WIN_BUFFER_CONTROL, BUFFER_CONTROL_HOST}, {DC_WINBUF_SURFACE_KIND, PITCH}, {DC_WINBUF_START_ADDR, IPL_FB_ADDRESS}, // Framebuffer address. {DC_WINBUF_ADDR_H_OFFSET, 0}, {DC_WINBUF_ADDR_V_OFFSET, 0}, {DC_WIN_WIN_OPTIONS, WIN_ENABLE}, // Enable window AD. {DC_CMD_DISPLAY_COMMAND, DISP_CTRL_MODE_C_DISPLAY}, // Continuous display. {DC_CMD_STATE_CONTROL, GENERAL_UPDATE | WIN_A_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ | WIN_A_ACT_REQ} }; // Display A Window A linear pitch + Win D support config. static const reg_cfg_t _di_winA_pitch_vic[] = { {DC_CMD_DISPLAY_WINDOW_HEADER, WINDOW_A_SELECT}, {DC_WIN_WIN_OPTIONS, 0}, {DC_DISP_DISP_WIN_OPTIONS, DSI_ENABLE}, {DC_WIN_COLOR_DEPTH, WIN_COLOR_DEPTH_B8G8R8A8}, // NX Default: T_A8B8G8R8, WIN_COLOR_DEPTH_R8G8B8A8. {DC_WIN_POSITION, 0}, //(0,0) {DC_WIN_H_INITIAL_DDA, 0}, {DC_WIN_V_INITIAL_DDA, 0}, {DC_WIN_PRESCALED_SIZE, V_PRESCALED_SIZE(1280) | H_PRESCALED_SIZE(720 * 4)}, {DC_WIN_DDA_INC, V_DDA_INC(0x1000) | H_DDA_INC(0x1000)}, // 1.0x. {DC_WIN_SIZE, V_SIZE(1280) | H_SIZE(720)}, {DC_WIN_LINE_STRIDE, UV_LINE_STRIDE(720 * 2) | LINE_STRIDE(720 * 4)}, // 720*2x720*4 (= 0x600 x 0xC00) bytes, see TRM for alignment requirements. {DC_WIN_BUFFER_CONTROL, BUFFER_CONTROL_HOST}, {DC_WINBUF_SURFACE_KIND, PITCH}, {DC_WINBUF_START_ADDR, NYX_FB_ADDRESS}, // Framebuffer address. {DC_WINBUF_ADDR_H_OFFSET, 0}, {DC_WINBUF_ADDR_V_OFFSET, 0}, {DC_WIN_WIN_OPTIONS, WIN_ENABLE}, // Enable window AD. {DC_CMD_DISPLAY_COMMAND, DISP_CTRL_MODE_C_DISPLAY}, // Continuous display. {DC_CMD_STATE_CONTROL, GENERAL_UPDATE | WIN_A_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ | WIN_A_ACT_REQ} }; // Display A Window A linear pitch inverse + Win D support config. static const reg_cfg_t _di_winA_pitch_inv[] = { {DC_CMD_DISPLAY_WINDOW_HEADER, WINDOW_A_SELECT}, {DC_WIN_WIN_OPTIONS, 0}, {DC_DISP_DISP_WIN_OPTIONS, DSI_ENABLE}, {DC_WIN_COLOR_DEPTH, WIN_COLOR_DEPTH_B8G8R8A8}, // NX Default: T_A8B8G8R8, WIN_COLOR_DEPTH_R8G8B8A8. {DC_WIN_POSITION, 0}, //(0,0) {DC_WIN_H_INITIAL_DDA, 0}, {DC_WIN_V_INITIAL_DDA, 0}, {DC_WIN_PRESCALED_SIZE, V_PRESCALED_SIZE(1280) | H_PRESCALED_SIZE(720 * 4)}, {DC_WIN_DDA_INC, V_DDA_INC(0x1000) | H_DDA_INC(0x1000)}, // 1.0x. {DC_WIN_SIZE, V_SIZE(1280) | H_SIZE(720)}, {DC_WIN_LINE_STRIDE, UV_LINE_STRIDE(720 * 2) | LINE_STRIDE(720 * 4)}, // 720*2x720*4 (= 0x600 x 0xC00) bytes, see TRM for alignment requirements. {DC_WIN_BUFFER_CONTROL, BUFFER_CONTROL_HOST}, {DC_WINBUF_SURFACE_KIND, PITCH}, {DC_WINBUF_START_ADDR, NYX_FB_ADDRESS}, // Framebuffer address. {DC_WINBUF_ADDR_H_OFFSET, 0}, // Linear: 0x383FFC, Block: 0x3813FC. {DC_WINBUF_ADDR_V_OFFSET, 1279}, // Linear: 1279, Block: 0. {DC_WIN_WIN_OPTIONS, WIN_ENABLE | V_DIRECTION}, // Enable window AD. {DC_CMD_DISPLAY_COMMAND, DISP_CTRL_MODE_C_DISPLAY}, // Continuous display. {DC_CMD_STATE_CONTROL, GENERAL_UPDATE | WIN_A_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ | WIN_A_ACT_REQ} }; // Display A Window A block linear config. static const reg_cfg_t _di_winA_block[] = { {DC_CMD_DISPLAY_WINDOW_HEADER, WINDOW_A_SELECT}, {DC_WIN_WIN_OPTIONS, 0}, {DC_DISP_DISP_WIN_OPTIONS, DSI_ENABLE}, {DC_WIN_COLOR_DEPTH, WIN_COLOR_DEPTH_B8G8R8A8}, // NX Default: T_A8B8G8R8, WIN_COLOR_DEPTH_R8G8B8A8. {DC_WIN_POSITION, 0}, //(0,0) {DC_WIN_H_INITIAL_DDA, 0}, {DC_WIN_V_INITIAL_DDA, 0}, {DC_WIN_PRESCALED_SIZE, V_PRESCALED_SIZE(1280) | H_PRESCALED_SIZE(720 * 4)}, {DC_WIN_DDA_INC, V_DDA_INC(0x1000) | H_DDA_INC(0x1000)}, // 1.0x. {DC_WIN_SIZE, V_SIZE(1280) | H_SIZE(720)}, {DC_WIN_LINE_STRIDE, UV_LINE_STRIDE(1280 * 2) | LINE_STRIDE(1280 * 4)}, //720*2x720*4 (= 0x600 x 0xC00) bytes, see TRM for alignment requirements. {DC_WIN_BUFFER_CONTROL, BUFFER_CONTROL_HOST}, {DC_WINBUF_SURFACE_KIND, BLOCK_HEIGHT(4) | BLOCK}, {DC_WINBUF_START_ADDR, NYX_FB_ADDRESS}, // Framebuffer address. {DC_WINBUF_ADDR_H_OFFSET, 0x3813FC}, // Linear: 0x383FFC, Block: 0x3813FC. Block in HOS: 0x13FF. {DC_WINBUF_ADDR_V_OFFSET, 0}, // Linear: 1279, Block: 0. {DC_WIN_WIN_OPTIONS, WIN_ENABLE | SCAN_COLUMN | H_DIRECTION}, // Enable window AD. | SCAN_COLUMN | H_DIRECTION. {DC_CMD_DISPLAY_COMMAND, DISP_CTRL_MODE_C_DISPLAY}, // Continuous display. {DC_CMD_STATE_CONTROL, GENERAL_UPDATE | WIN_A_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ | WIN_A_ACT_REQ} }; // Display A Window D config. static const reg_cfg_t _di_winD_log[] = { {DC_CMD_DISPLAY_WINDOW_HEADER, WINDOW_D_SELECT}, {DC_WIN_WIN_OPTIONS, 0}, {DC_WIN_COLOR_DEPTH, WIN_COLOR_DEPTH_B8G8R8A8}, {DC_WIN_POSITION, 0}, //(0,0) {DC_WIN_H_INITIAL_DDA, 0}, {DC_WIN_V_INITIAL_DDA, 0}, {DC_WIN_PRESCALED_SIZE, V_PRESCALED_SIZE(1280) | H_PRESCALED_SIZE(656 * 4)}, {DC_WIN_DDA_INC, V_DDA_INC(0x1000) | H_DDA_INC(0x1000)}, // 1.0x. {DC_WIN_SIZE, V_SIZE(1280) | H_SIZE(656)}, {DC_WIN_LINE_STRIDE, UV_LINE_STRIDE(656 * 2) | LINE_STRIDE(656 * 4)}, //656*2x656*4 (= 0x600 x 0xC00) bytes, see TRM for alignment requirements. {DC_WIN_BUFFER_CONTROL, BUFFER_CONTROL_HOST}, {DC_WINBUF_SURFACE_KIND, PITCH}, {DC_WINBUF_START_ADDR, LOG_FB_ADDRESS}, // Framebuffer address. {DC_WINBUF_ADDR_H_OFFSET, 0}, {DC_WINBUF_ADDR_V_OFFSET, 0}, {DC_WINBUF_BLEND_LAYER_CONTROL, WIN_BLEND_ENABLE | WIN_K1(200) | WIN_BLEND_DEPTH(0)}, {DC_WINBUF_BLEND_MATCH_SELECT, WIN_BLEND_FACT_SRC_COLOR_MATCH_SEL_K1 | WIN_BLEND_FACT_DST_COLOR_MATCH_SEL_NEG_K1}, {DC_CMD_STATE_CONTROL, GENERAL_UPDATE | WIN_D_UPDATE}, {DC_CMD_STATE_CONTROL, GENERAL_ACT_REQ | WIN_D_ACT_REQ}, }; ================================================ FILE: bdk/display/vic.c ================================================ /* * VIC (4.0) driver for Tegra X1 * * Copyright (c) 2018-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "vic.h" #include #include #include #include #include #include /* VIC Private registers */ #define PVIC_FALCON_PA_OFFSET 0x1000 #define PVIC_FALCON_ADDR 0x10AC #define PVIC_FALCON_IDLESTATE 0x104C /* VIC Control and Status registers. */ /* Fetch Control registers. */ #define VIC_FC_COMPOSE 0x10000 #define COMPOSE_START BIT(0) #define VIC_FC_CFG_STRUCT_SLOT_INDEX 0x10B00 #define VIC_FC_CFG_STRUCT_SLOT_CFG0 0x10B04 #define SLOT_ENABLE BIT(0) #define FIELD_CURRENT_ENABLE BIT(8) #define VIC_FC_CFG_STRUCT_SLOT_CFG2 0x10B0C #define CACHE_WIDTH(n) ((n) << 16) #define CACHE_WIDTH_16BX16 0 // Block Linear. #define CACHE_WIDTH_32BX8 1 // Block Linear. #define CACHE_WIDTH_64BX4 2 // Block Linear, Pitch. Recommended. #define CACHE_WIDTH_128BX2 3 // Block Linear, Pitch. #define CACHE_WIDTH_256BX1 4 // Pitch. #define OUTPUT_FLIP_X BIT(20) #define OUTPUT_FLIP_Y BIT(21) #define OUTPUT_TRANSPOSE BIT(22) #define VIC_FC_CFG_STRUCT_SLOT_SFC_SIZE 0x10B10 #define VIC_FC_CFG_STRUCT_SLOT_LUMA_SIZE 0x10B14 #define VIC_FC_CFG_STRUCT_SLOT_CHROMA_SIZE 0x10B18 #define VIC_FC_CFG_STRUCT_SLOT_SRC_RECT_LR 0x10B1C #define VIC_FC_CFG_STRUCT_SLOT_SRC_RECT_TB 0x10B20 #define VIC_FC_CFG_STRUCT_SLOT_DST_RECT_LR 0x10B30 #define VIC_FC_CFG_STRUCT_SLOT_DST_RECT_TB 0x10B34 #define VIC_FC_CFG_STRUCT_TGT_RECT_LR 0x10B38 #define VIC_FC_CFG_STRUCT_TGT_RECT_TB 0x10B3C #define VIC_FC_SLOT_MAP 0x10C00 #define VIC_FC_FCE_CTRL 0x11000 #define START_TRIGGER BIT(0) #define HALT_TRIGGER BIT(1) #define CLEAR_ERROR BIT(8) #define VIC_FC_FCE_UCODE_ADDR 0x11200 #define VIC_FC_FCE_UCODE_INST 0x11300 /* Surface List registers. */ #define VIC_SL_CFG_STRUCT_SLOT_INDEX 0x12100 #define VIC_SL_CFG_STRUCT_SLOT_DST_RECT_LR 0x12200 #define VIC_SL_CFG_STRUCT_SLOT_DST_RECT_TB 0x12300 #define VIC_SL_CFG_STRUCT_TGT_RECT_LR 0x12400 #define VIC_SL_CFG_STRUCT_TGT_RECT_TB 0x12500 #define VIC_SL_CFG_STRUCT_SLOT_CFG0 0x12600 /* Surface Cache registers. */ #define VIC_SC_PRAMBASE 0x14000 #define VIC_SC_PRAMSIZE 0x14100 #define VIC_SC_SFC0_BASE_LUMA(n) (0x14300 + (n) * 0x100) /* Blending Output registers. */ #define VIC_BL_TARGET_BASADR 0x22000 #define VIC_BL_CONFIG 0x22800 #define SUBPARTITION_MODE BIT(0) #define PROCESS_CFG_STRUCT_TRIGGER BIT(2) #define SLOTMASK(n) ((n) << 8) #define VIC_BL_CFG_STRUCT_CFG0 0x22C00 #define VIC_BL_CFG_STRUCT_SFC_SIZE 0x22C04 #define VIC_BL_CFG_STRUCT_LUMA_SIZE 0x22C08 #define VIC_BL_CFG_STRUCT_CHROMA_SIZE 0x22C0C #define VIC_BL_CFG_STRUCT_TGT_RECT_LR 0x22C10 #define VIC_BL_CFG_STRUCT_TGT_RECT_TB 0x22C14 // VIC_FC_CFG_STRUCT_SLOT_CFG2 & VIC_BL_CFG_STRUCT_CFG0. #define BLK_KIND(n) ((n) << 8) #define BLK_KIND_PITCH 0 #define BLK_KIND_GENERIC_16BX2 1 #define BLK_HEIGHT(n) ((n) << 12) #define BLK_HEIGHT_ONE_GOB 0 #define BLK_HEIGHT_SIXTEEN_GOBS 4 // Generic size macros. #define SIZE_WIDTH(n) (((n) - 1) << 0) #define SIZE_HEIGHT(n) (((n) - 1) << 16) #define RECT_LEFT(n) ((n) << 0) #define RECT_RIGHT(n) (((n) - 1) << 16) #define RECT_TOP(n) ((n) << 0) #define RECT_BOTTOM(n) (((n) - 1) << 16) #define FORMAT_PROGRESSIVE 0 #define SOFT_CLAMP_MIN 0 #define SOFT_CLAMP_MAX 0x3FFu #define ALPHA_1_0 0x3FFu typedef struct _OutputConfig { u64 AlphaFillMode:3; u64 AlphaFillSlot:3; u64 BackgroundAlpha:10; u64 BackgroundR:10; u64 BackgroundG:10; u64 BackgroundB:10; u64 RegammaMode:2; u64 OutputFlipX:1; u64 OutputFlipY:1; u64 OutputTranspose:1; u64 rsvd1:1; u64 rsvd2:12; u64 TargetRectLeft:14; u64 rsvd3:2; u64 TargetRectRight:14; u64 rsvd4:2; u64 TargetRectTop:14; u64 rsvd5:2; u64 TargetRectBottom:14; u64 rsvd6:2; } OutputConfig; typedef struct _OutputSurfaceConfig { u64 OutPixelFormat:7; u64 OutChromaLocHoriz:2; u64 OutChromaLocVert:2; u64 OutBlkKind:4; u64 OutBlkHeight:4; u64 rsvd0:3; u64 rsvd1:10; u64 OutSurfaceWidth:14; u64 OutSurfaceHeight:14; u64 rsvd2:4; u64 OutLumaWidth:14; u64 OutLumaHeight:14; u64 rsvd3:4; u64 OutChromaWidth:14; u64 OutChromaHeight:14; u64 rsvd4:4; } OutputSurfaceConfig; typedef struct _SlotConfig { u64 SlotEnable:1; u64 DeNoise:1; u64 AdvancedDenoise:1; u64 CadenceDetect:1; u64 MotionMap:1; u64 MMapCombine:1; u64 IsEven:1; u64 ChromaEven:1; u64 CurrentFieldEnable:1; u64 PrevFieldEnable:1; u64 NextFieldEnable:1; u64 NextNrFieldEnable:1; u64 CurMotionFieldEnable:1; u64 PrevMotionFieldEnable:1; u64 PpMotionFieldEnable:1; u64 CombMotionFieldEnable:1; u64 FrameFormat:4; u64 FilterLengthY:2; u64 FilterLengthX:2; u64 Panoramic:12; u64 rsvd1:22; u64 DetailFltClamp:6; u64 FilterNoise:10; u64 FilterDetail:10; u64 ChromaNoise:10; u64 ChromaDetail:10; u64 DeinterlaceMode:4; u64 MotionAccumWeight:3; u64 NoiseIir:11; u64 LightLevel:4; u64 rsvd4:2; u64 SoftClampLow:10; u64 SoftClampHigh:10; u64 rsvd5:3; u64 rsvd6:9; u64 PlanarAlpha:10; u64 ConstantAlpha:1; u64 StereoInterleave:3; u64 ClipEnabled:1; u64 ClearRectMask:8; u64 DegammaMode:2; u64 rsvd7:1; u64 DecompressEnable:1; u64 rsvd9:5; u64 DecompressCtbCount:8; u64 DecompressZbcColor:32; u64 rsvd12:24; u64 SourceRectLeft:30; u64 rsvd14:2; u64 SourceRectRight:30; u64 rsvd15:2; u64 SourceRectTop:30; u64 rsvd16:2; u64 SourceRectBottom:30; u64 rsvd17:2; u64 DestRectLeft:14; u64 rsvd18:2; u64 DestRectRight:14; u64 rsvd19:2; u64 DestRectTop:14; u64 rsvd20:2; u64 DestRectBottom:14; u64 rsvd21:2; u64 rsvd22:32; u64 rsvd23:32; } SlotConfig; typedef struct _SlotSurfaceConfig { u64 SlotPixelFormat:7; u64 SlotChromaLocHoriz:2; u64 SlotChromaLocVert:2; u64 SlotBlkKind:4; u64 SlotBlkHeight:4; u64 SlotCacheWidth:3; u64 rsvd0:10; u64 SlotSurfaceWidth:14; u64 SlotSurfaceHeight:14; u64 rsvd1:4; u64 SlotLumaWidth:14; u64 SlotLumaHeight:14; u64 rsvd2:4; u64 SlotChromaWidth:14; u64 SlotChromaHeight:14; u64 rsvd3:4; } SlotSurfaceConfig; typedef struct _SlotStruct { SlotConfig slot_cfg; SlotSurfaceConfig slot_sfc_cfg; // No need to configure. Reset to zeros. u8 lumaKeyStruct[0x10]; u8 colorMatrixStruct[0x20]; u8 gamutMatrixStruct[0x20]; u8 blendingSlotStruct[0x10]; } SlotStruct; typedef struct _vic_config_t { // No need to configure. Reset to zeros. u8 pipeConfig[0x10]; OutputConfig out_cfg; OutputSurfaceConfig out_sfc_cfg; // No need to configure. Reset to zeros. u8 out_color_matrix[0x20]; u8 clear_rect[0x10 * 4]; SlotStruct slots[8]; } vic_config_t; // VIC Fetch Control Engine microcode. Dumped from L4T r33. u8 vic_fce_ucode[] = { 0x66, 0x00, 0x00, 0x00, 0x60, 0x07, 0x00, 0x00, 0x42, 0x40, 0x10, 0x00, 0x4E, 0x01, 0x40, 0x00, 0x6A, 0x07, 0x00, 0x00, 0x6E, 0x23, 0x04, 0x00, 0x6C, 0x00, 0x00, 0x00, 0x4E, 0x01, 0x04, 0x00, 0x6A, 0x0B, 0x00, 0x00, 0x6E, 0x1F, 0x04, 0x00, 0x6C, 0x00, 0x00, 0x00, 0x4E, 0x01, 0x10, 0x00, 0x6A, 0x0F, 0x00, 0x00, 0x6E, 0x1F, 0x04, 0x00, 0x6C, 0x00, 0x00, 0x00, 0x48, 0x80, 0x02, 0x00, 0x0E, 0x11, 0x00, 0x00, 0x6A, 0x14, 0x00, 0x00, 0x6E, 0x08, 0x06, 0x00, 0x6C, 0x00, 0x00, 0x00, 0x4E, 0x01, 0x08, 0x00, 0x6A, 0x18, 0x00, 0x00, 0x6E, 0x26, 0x04, 0x00, 0x6C, 0x00, 0x00, 0x00, 0x4E, 0x01, 0x20, 0x00, 0x6A, 0x1C, 0x00, 0x00, 0x6E, 0x26, 0x04, 0x00, 0x6C, 0x00, 0x00, 0x00, 0x4E, 0x01, 0x02, 0x00, 0x6A, 0x20, 0x00, 0x00, 0x6E, 0x24, 0x00, 0x00, 0x6C, 0x00, 0x00, 0x00, 0x56, 0x00, 0x10, 0x00, 0x56, 0x40, 0x10, 0x00, 0x22, 0x41, 0x01, 0x00, 0x6C, 0x00, 0x00, 0x00, 0x62, 0x80, 0x01, 0x00, 0x60, 0x47, 0x00, 0x00, 0x60, 0x87, 0x00, 0x00, 0x01, 0x4A, 0x00, 0x00, 0x55, 0xC0, 0x20, 0x00, 0x00, 0x59, 0x00, 0x00, 0x60, 0x87, 0x00, 0x00, 0x60, 0xC7, 0x00, 0x00, 0x01, 0x93, 0x00, 0x00, 0x40, 0x82, 0x02, 0x00, 0x4E, 0x02, 0x00, 0x00, 0x6B, 0x34, 0x00, 0x00, 0x43, 0xC1, 0x10, 0x00, 0x42, 0x02, 0x03, 0x00, 0x00, 0x23, 0x01, 0x00, 0x24, 0xD4, 0x00, 0x00, 0x56, 0x40, 0x3D, 0x00, 0x04, 0xEB, 0x00, 0x00, 0x60, 0x07, 0x01, 0x00, 0x60, 0x47, 0x00, 0x00, 0x6A, 0x3E, 0x00, 0x00, 0x55, 0xC0, 0x30, 0x00, 0x48, 0x00, 0x01, 0x00, 0x48, 0x40, 0x01, 0x00, 0x48, 0x80, 0x01, 0x00, 0x6B, 0x28, 0x02, 0x00, 0x56, 0x40, 0x09, 0x00, 0x04, 0x4D, 0x01, 0x00, 0x06, 0x4D, 0x00, 0x00, 0x42, 0xC0, 0x03, 0x00, 0x56, 0x80, 0x09, 0x00, 0x04, 0xFE, 0x01, 0x00, 0x00, 0xF9, 0x01, 0x00, 0x4E, 0x02, 0x00, 0x00, 0x6B, 0x32, 0x02, 0x00, 0x55, 0x40, 0x2F, 0x00, 0x56, 0x80, 0x0D, 0x00, 0x4F, 0x00, 0x00, 0x00, 0x6A, 0x0D, 0x02, 0x00, 0x55, 0x40, 0x31, 0x00, 0x56, 0x80, 0x0B, 0x00, 0x0C, 0x2B, 0x00, 0x00, 0x6A, 0x13, 0x02, 0x00, 0x43, 0x45, 0x03, 0x00, 0x42, 0x86, 0x03, 0x00, 0x4D, 0x06, 0x02, 0x00, 0x6A, 0x0D, 0x02, 0x00, 0x42, 0x86, 0x03, 0x00, 0x22, 0x7E, 0x01, 0x00, 0x4E, 0x04, 0x00, 0x00, 0x6B, 0x32, 0x02, 0x00, 0x55, 0x40, 0x17, 0x00, 0x0D, 0x2C, 0x00, 0x00, 0x56, 0xC0, 0x09, 0x00, 0x6A, 0x1E, 0x02, 0x00, 0x48, 0xC0, 0x01, 0x00, 0x43, 0x04, 0x03, 0x00, 0x6C, 0x20, 0x02, 0x00, 0x55, 0x40, 0x19, 0x00, 0x01, 0x2C, 0x01, 0x00, 0x65, 0x23, 0x01, 0x00, 0x42, 0x42, 0x03, 0x00, 0x00, 0x2C, 0x01, 0x00, 0x24, 0x14, 0x01, 0x00, 0x00, 0x2C, 0x01, 0x00, 0x24, 0x14, 0x01, 0x00, 0x00, 0x3C, 0x01, 0x00, 0x42, 0x04, 0x09, 0x00, 0x42, 0xC3, 0x02, 0x00, 0x65, 0x54, 0x01, 0x00, 0x65, 0x55, 0x01, 0x00, 0x42, 0x45, 0x0D, 0x00, 0x62, 0x03, 0x00, 0x00, 0x62, 0x44, 0x00, 0x00, 0x62, 0x85, 0x00, 0x00, 0x62, 0xC2, 0x00, 0x00, 0x22, 0x48, 0x1F, 0x00, 0x6F, 0x00, 0x00, 0x00, 0x48, 0x00, 0x01, 0x00, 0x6C, 0x28, 0x02, 0x00, 0x62, 0x80, 0x01, 0x00, 0x60, 0x07, 0x00, 0x00, 0x60, 0x47, 0x00, 0x00, 0x60, 0x87, 0x00, 0x00, 0x01, 0x01, 0x00, 0x00, 0x43, 0x00, 0x02, 0x00, 0x40, 0x00, 0x02, 0x00, 0x01, 0xCA, 0x01, 0x00, 0x60, 0x03, 0x01, 0x00, 0x01, 0xA0, 0x01, 0x00, 0x60, 0x40, 0x00, 0x00, 0x65, 0x01, 0x00, 0x00, 0x55, 0xC0, 0x2E, 0x00, 0x01, 0x18, 0x00, 0x00, 0x43, 0x00, 0x04, 0x00, 0x43, 0x41, 0x06, 0x00, 0x6F, 0x00, 0x00, 0x00, 0x61, 0xC1, 0x00, 0x00, 0x61, 0x42, 0x01, 0x00, 0x65, 0xB5, 0x00, 0x00, 0x65, 0x73, 0x01, 0x00, 0x65, 0x35, 0x01, 0x00, 0x65, 0x34, 0x01, 0x00, 0x42, 0x04, 0x0D, 0x00, 0x01, 0x14, 0x01, 0x00, 0x42, 0x04, 0x03, 0x00, 0x00, 0x20, 0x00, 0x00, 0x43, 0x03, 0x05, 0x00, 0x43, 0x85, 0x02, 0x00, 0x00, 0xAA, 0x00, 0x00, 0x48, 0x46, 0x01, 0x00, 0x65, 0xEB, 0x00, 0x00, 0x00, 0x9A, 0x00, 0x00, 0x65, 0xB2, 0x01, 0x00, 0x00, 0xA6, 0x01, 0x00, 0x42, 0x86, 0x0D, 0x00, 0x61, 0x42, 0x01, 0x00, 0x01, 0xAE, 0x01, 0x00, 0x00, 0x71, 0x00, 0x00, 0x42, 0x82, 0x08, 0x00, 0x42, 0xC3, 0x08, 0x00, 0x48, 0x40, 0x01, 0x00, 0x6F, 0x00, 0x00, 0x00, 0x6E, 0x34, 0x02, 0x00, 0x65, 0x79, 0x00, 0x00, 0x00, 0x48, 0x00, 0x00, 0x6C, 0x36, 0x04, 0x00, 0x6E, 0x34, 0x02, 0x00, 0x48, 0x7F, 0x01, 0x00, 0x6C, 0x0A, 0x06, 0x00, 0x6E, 0x34, 0x02, 0x00, 0x6E, 0x05, 0x04, 0x00, 0x65, 0x79, 0x00, 0x00, 0x00, 0x48, 0x00, 0x00, 0x41, 0x87, 0x03, 0x00, 0x65, 0xBA, 0x00, 0x00, 0x65, 0xB2, 0x00, 0x00, 0x42, 0x82, 0x02, 0x00, 0x00, 0x51, 0x00, 0x00, 0x61, 0xC1, 0x00, 0x00, 0x65, 0xFB, 0x00, 0x00, 0x65, 0xF3, 0x00, 0x00, 0x41, 0x87, 0x05, 0x00, 0x65, 0xF3, 0x00, 0x00, 0x42, 0xC3, 0x08, 0x00, 0x00, 0x59, 0x00, 0x00, 0x60, 0xC7, 0x00, 0x00, 0x60, 0xC7, 0x00, 0x00, 0x56, 0xC0, 0x21, 0x00, 0x04, 0xDF, 0x01, 0x00, 0x43, 0xC7, 0x15, 0x00, 0x00, 0x38, 0x00, 0x00, 0x00, 0x79, 0x00, 0x00, 0x42, 0xC3, 0x20, 0x00, 0x43, 0xC3, 0x04, 0x00, 0x42, 0x00, 0x30, 0x00, 0x42, 0x41, 0x30, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x4B, 0x00, 0x00, 0x60, 0xC7, 0x01, 0x00, 0x22, 0x78, 0x01, 0x00, 0x22, 0x79, 0x03, 0x00, 0x22, 0x7F, 0x1F, 0x00, 0x6F, 0x00, 0x00, 0x00, 0x6E, 0x34, 0x02, 0x00, 0x6E, 0x05, 0x04, 0x00, 0x4B, 0x41, 0x00, 0x00, 0x60, 0xC7, 0x01, 0x00, 0x60, 0x87, 0x01, 0x00, 0x43, 0x86, 0x15, 0x00, 0x00, 0x30, 0x00, 0x00, 0x65, 0x39, 0x01, 0x00, 0x42, 0x04, 0x05, 0x00, 0x4E, 0x05, 0x7E, 0x00, 0x6A, 0x1B, 0x06, 0x00, 0x55, 0xC0, 0x3D, 0x00, 0x0A, 0x3C, 0x01, 0x00, 0x60, 0xC7, 0x01, 0x00, 0x22, 0x78, 0x01, 0x00, 0x22, 0x79, 0x03, 0x00, 0x22, 0x7C, 0x09, 0x00, 0x22, 0x7F, 0x1F, 0x00, 0x6F, 0x00, 0x00, 0x00, 0x65, 0x7A, 0x01, 0x00, 0x42, 0x45, 0x05, 0x00, 0x65, 0xBB, 0x01, 0x00, 0x42, 0x86, 0x05, 0x00, 0x55, 0xC0, 0x3D, 0x00, 0x0A, 0x7D, 0x01, 0x00, 0x0A, 0xBE, 0x01, 0x00, 0x07, 0xC7, 0x01, 0x00, 0x0B, 0x7D, 0x01, 0x00, 0x0B, 0xBE, 0x01, 0x00, 0x55, 0xC0, 0x3D, 0x00, 0x0A, 0x3C, 0x01, 0x00, 0x60, 0xC7, 0x01, 0x00, 0x22, 0x78, 0x01, 0x00, 0x22, 0x79, 0x03, 0x00, 0x22, 0x7A, 0x05, 0x00, 0x22, 0x7B, 0x07, 0x00, 0x22, 0x7C, 0x09, 0x00, 0x22, 0x7D, 0x0B, 0x00, 0x22, 0x7E, 0x0D, 0x00, 0x22, 0x7F, 0x1F, 0x00, 0x6F, 0x00, 0x00, 0x00 }; vic_config_t __attribute__((aligned (0x100))) vic_cfg = {0}; u32 _vic_read_priv(u32 addr) { u32 addr_lsb = addr & 0xFF; // Set address LSB. if (addr_lsb) VIC(PVIC_FALCON_ADDR) = addr_lsb >> 2; // Set address. u32 val = VIC(PVIC_FALCON_PA_OFFSET + (addr >> 6)); // Unset address LSB. if (addr_lsb) VIC(PVIC_FALCON_ADDR) = 0; return val; } static void _vic_write_priv(u32 addr, u32 data) { u32 addr_lsb = addr & 0xFF; // Set address LSB. if (addr_lsb) VIC(PVIC_FALCON_ADDR) = addr_lsb >> 2; // Set address. VIC(PVIC_FALCON_PA_OFFSET + (addr >> 6)) = data; // Unset address LSB. if (addr_lsb) VIC(PVIC_FALCON_ADDR) = 0; } int vic_wait_idle() { u32 timeout_count = 15000; // 150ms. while (VIC(PVIC_FALCON_IDLESTATE)) { usleep(10); timeout_count--; if (!timeout_count) return 1; }; return 0; } void vic_set_surface(const vic_surface_t *sfc) { u32 flip_x = 0; u32 flip_y = 0; u32 swap_xy = 0; u32 const_alpha = 0; u32 width = sfc->width; u32 height = sfc->height; u32 pix_fmt = sfc->pix_fmt; u32 src_buf = sfc->src_buf; u32 dst_buf = sfc->dst_buf; // Get format alpha type. switch (sfc->pix_fmt) { case VIC_PIX_FORMAT_L8: case VIC_PIX_FORMAT_X1B5G5R5: case VIC_PIX_FORMAT_B5G5R5X1: case VIC_PIX_FORMAT_X8B8G8R8: case VIC_PIX_FORMAT_X8R8G8B8: case VIC_PIX_FORMAT_B8G8R8X8: case VIC_PIX_FORMAT_R8G8B8X8: const_alpha = 1; break; case VIC_PIX_FORMAT_A8B8G8R8: case VIC_PIX_FORMAT_A8R8G8B8: case VIC_PIX_FORMAT_B8G8R8A8: case VIC_PIX_FORMAT_R8G8B8A8: default: break; } // Get rotation parameters. switch (sfc->rotation) { case VIC_ROTATION_90: swap_xy = 1; break; case VIC_ROTATION_180: flip_x = 1; flip_y = 1; break; case VIC_ROTATION_270: flip_x = 1; swap_xy = 1; break; case VIC_ROTATION_0: default: break; } // Set output surface format. vic_cfg.out_sfc_cfg.OutPixelFormat = pix_fmt; vic_cfg.out_sfc_cfg.OutBlkKind = BLK_KIND_PITCH; vic_cfg.out_sfc_cfg.OutBlkHeight = 0; // Set output rotation/flip. vic_cfg.out_cfg.OutputFlipX = flip_x; vic_cfg.out_cfg.OutputFlipY = flip_y; vic_cfg.out_cfg.OutputTranspose = swap_xy; // Set output surface resolution. vic_cfg.out_sfc_cfg.OutSurfaceWidth = width - 1; vic_cfg.out_sfc_cfg.OutSurfaceHeight = height - 1; vic_cfg.out_sfc_cfg.OutLumaWidth = width - 1; vic_cfg.out_sfc_cfg.OutLumaHeight = height - 1; // Set output destination rectangle. Anything outside will not be touched at output buffer. vic_cfg.out_cfg.TargetRectLeft = 0; vic_cfg.out_cfg.TargetRectRight = width - 1; vic_cfg.out_cfg.TargetRectTop = 0; vic_cfg.out_cfg.TargetRectBottom = height - 1; // Initialize slot parameters. vic_cfg.slots[0].slot_cfg.SlotEnable = 1; vic_cfg.slots[0].slot_cfg.SoftClampLow = SOFT_CLAMP_MIN; vic_cfg.slots[0].slot_cfg.SoftClampHigh = SOFT_CLAMP_MAX; vic_cfg.slots[0].slot_cfg.PlanarAlpha = ALPHA_1_0; vic_cfg.slots[0].slot_cfg.ConstantAlpha = const_alpha; vic_cfg.slots[0].slot_cfg.FrameFormat = FORMAT_PROGRESSIVE; // Set input source rectangle. vic_cfg.slots[0].slot_cfg.SourceRectLeft = 0; vic_cfg.slots[0].slot_cfg.SourceRectRight = (width - 1) << 16; vic_cfg.slots[0].slot_cfg.SourceRectTop = 0; vic_cfg.slots[0].slot_cfg.SourceRectBottom = (height - 1) << 16; // Set input destination rectangle. vic_cfg.slots[0].slot_cfg.DestRectLeft = 0; vic_cfg.slots[0].slot_cfg.DestRectRight = (width - 1); vic_cfg.slots[0].slot_cfg.DestRectTop = 0; vic_cfg.slots[0].slot_cfg.DestRectBottom = (height - 1); // Set input surface format. vic_cfg.slots[0].slot_sfc_cfg.SlotPixelFormat = pix_fmt; vic_cfg.slots[0].slot_sfc_cfg.SlotBlkKind = BLK_KIND_PITCH; vic_cfg.slots[0].slot_sfc_cfg.SlotBlkHeight = 0; vic_cfg.slots[0].slot_sfc_cfg.SlotCacheWidth = CACHE_WIDTH_64BX4; // Set input surface resolution. vic_cfg.slots[0].slot_sfc_cfg.SlotSurfaceWidth = width - 1; vic_cfg.slots[0].slot_sfc_cfg.SlotSurfaceHeight = height - 1; vic_cfg.slots[0].slot_sfc_cfg.SlotLumaWidth = width - 1; vic_cfg.slots[0].slot_sfc_cfg.SlotLumaHeight = height - 1; // Flush data. bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLEAN_WAY, false); // Set parameters base and size. Causes a parse by surface cache. _vic_write_priv(VIC_SC_PRAMBASE, (u32)&vic_cfg >> 8); _vic_write_priv(VIC_SC_PRAMSIZE, sizeof(vic_config_t) >> 6); // Wait for surface cache to get ready. vic_wait_idle(); // Set slot mapping. _vic_write_priv(VIC_FC_SLOT_MAP, 0xFFFFFFF0); // Set input surface buffer. _vic_write_priv(VIC_SC_SFC0_BASE_LUMA(0), src_buf >> 8); // Set output surface buffer. _vic_write_priv(VIC_BL_TARGET_BASADR, dst_buf >> 8); // Set blending config and push changes to surface cache. _vic_write_priv(VIC_BL_CONFIG, SLOTMASK(0x1F) | PROCESS_CFG_STRUCT_TRIGGER | SUBPARTITION_MODE); // Wait for surface cache to get ready. vic_wait_idle(); } int vic_compose() { // Wait for surface cache to get ready. Otherwise VIC will hang. int res = vic_wait_idle(); // Start composition of a single frame. _vic_write_priv(VIC_FC_COMPOSE, COMPOSE_START); return res; } int vic_init() { clock_enable_vic(); // Load Fetch Control Engine microcode. for (u32 i = 0; i < sizeof(vic_fce_ucode) / sizeof(u32); i++) { _vic_write_priv(VIC_FC_FCE_UCODE_ADDR, (i * sizeof(u32))); _vic_write_priv(VIC_FC_FCE_UCODE_INST, *(u32 *)&vic_fce_ucode[i * sizeof(u32)]); } // Start Fetch Control Engine. _vic_write_priv(VIC_FC_FCE_CTRL, START_TRIGGER); return vic_wait_idle(); } void vic_end() { clock_disable_vic(); } ================================================ FILE: bdk/display/vic.h ================================================ /* * VIC driver for Tegra X1 * * Copyright (c) 2018-2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _VIC_H_ #define _VIC_H_ #include #define VIC_THI_SLCG_OVERRIDE_LOW_A 0x8C typedef enum _vic_rotation_t { VIC_ROTATION_0 = 0, VIC_ROTATION_90 = 1, VIC_ROTATION_180 = 2, VIC_ROTATION_270 = 3, } vic_rotation_t; typedef enum _vic_pix_format_t { VIC_PIX_FORMAT_L8 = 1, // 8-bit LUT. VIC_PIX_FORMAT_X1B5G5R5 = 21, // 16-bit XBGR. VIC_PIX_FORMAT_B5G5R5X1 = 23, // 16-bit BGRX. VIC_PIX_FORMAT_A8B8G8R8 = 31, // 32-bit ABGR. VIC_PIX_FORMAT_A8R8G8B8 = 32, // 32-bit ARGB. VIC_PIX_FORMAT_B8G8R8A8 = 33, // 32-bit BGRA. VIC_PIX_FORMAT_R8G8B8A8 = 34, // 32-bit RGBA. VIC_PIX_FORMAT_X8B8G8R8 = 35, // 32-bit XBGR. VIC_PIX_FORMAT_X8R8G8B8 = 36, // 32-bit XRGB. VIC_PIX_FORMAT_B8G8R8X8 = 37, // 32-bit BGRX. VIC_PIX_FORMAT_R8G8B8X8 = 38, // 32-bit RGBX. } vic_pix_format_t; typedef struct _vic_surface_t { u32 src_buf; u32 dst_buf; u32 width; u32 height; u32 pix_fmt; u32 rotation; } vic_surface_t; void vic_set_surface(const vic_surface_t *sfc); int vic_wait_idle(); int vic_compose(); int vic_init(); void vic_end(); #endif ================================================ FILE: bdk/exception_handlers.S ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /* * Armv7tdmi Status register. * * bit0: Mode 0. * bit1: Mode 1. * bit2: Mode 2. * bit3: Mode 3. * bit4: Mode 4. * bit5: Thumb state. * bit6: FIQ disable. * bit7: IRQ disable. * bit8-27: Reserved. * bit28: Overflow condition. * bit29: Carry/Borrow/Extend condition. * bit30: Zero condition. * bit31: Negative/Less than condition. * * M[4:0] | Mode | Visible Thumb-state registers | Visible ARM-state registers * 10000 | USER | r0–r7, SP, LR, PC, CPSR | r0–r14, PC, CPSR * 10001 | FIQ | r0–r7, SP_fiq, LR_fiq, PC, CPSR, SPSR_fiq | r0–r7, r8_fiq–r14_fiq, PC, CPSR, SPSR_fiq * 10010 | IRQ | r0–r7, SP_irq, LR_irq, PC, CPSR, SPSR_irq | r0–r12, r13_irq, r14_irq, PC, CPSR, SPSR_irq * 10011 | SVC | r0–r7, SP_svc, LR_svc, PC, CPSR, SPSR_svc | r0–r12, r13_svc, r14_svc, PC, CPSR, SPSR_svc * 10111 | ABRT | r0–r7, SP_abt, LR_abt, PC, CPSR, SPSR_abt | r0–r12, r13_abt, r14_abt, PC, CPSR, SPSR_abt * 11011 | UNDF | r0–r7, SP_und, LR_und, PC, CPSR, SPSR_und | r0–r12, r13_und, r14_und, PC, CPSR, SPSR_und * 11111 | SYS | r0–r7, SP, LR, PC, CPSR | r0–r14, PC, CPSR */ #define EXCP_EN_ADDR 0x4003FF1C #define EXCP_TYPE_ADDR 0x4003FF18 #define EXCP_LR_ADDR 0x4003FF14 #define EXCP_VEC_BASE 0x6000F000 #define EVP_COP_RESET_VECTOR 0x200 #define EVP_COP_UNDEF_VECTOR 0x204 #define EVP_COP_SWI_VECTOR 0x208 #define EVP_COP_PREFETCH_ABORT_VECTOR 0x20C #define EVP_COP_DATA_ABORT_VECTOR 0x210 #define EVP_COP_RSVD_VECTOR 0x214 #define EVP_COP_IRQ_VECTOR 0x218 #define EVP_COP_FIQ_VECTOR 0x21C #define MODE_USR 0x10 #define MODE_FIQ 0x11 #define MODE_IRQ 0x12 #define MODE_SVC 0x13 #define MODE_ABT 0x17 #define MODE_UDF 0x1B #define MODE_SYS 0x1F #define MODE_MASK 0x1F #define FIQ 0x40 #define IRQ 0x80 .section .text._irq_setup .arm .extern ipl_main .type ipl_main, %function .extern svc_handler .type svc_handler, %function .extern irq_handler .type irq_handler, %function .extern fiq_setup .type fiq_setup, %function .extern fiq_handler .type fiq_handler, %function .globl _irq_setup .type _irq_setup, %function _irq_setup: MRS R0, CPSR BIC R0, R0, #MODE_MASK /* Clear mode bits */ ORR R0, R0, #(MODE_SVC | IRQ | FIQ) /* SUPERVISOR mode, IRQ/FIQ disabled */ MSR CPSR, R0 /* Setup IRQ stack pointer */ MSR CPSR, #(MODE_IRQ | IRQ | FIQ) /* IRQ mode, IRQ/FIQ disabled */ LDR SP, =0x40040000 /* Setup FIQ stack pointer */ MSR CPSR, #(MODE_FIQ | IRQ | FIQ) /* FIQ mode, IRQ/FIQ disabled */ LDR SP, =0x40040000 /* Setup SYS stack pointer */ MSR CPSR, #(MODE_SYS | IRQ | FIQ) /* SYSTEM mode, IRQ/FIQ disabled */ LDR SP, =0x4003FF00 /* Will be changed later to DRAM */ MOV LR, PC BL setup_vectors /*BL fiq_setup*/ /* Enable interrupts */ BL irq_enable_cpu_irq_exceptions B ipl_main B . .globl excp_reset .type excp_reset, %function excp_reset: LDR R0, =EXCP_EN_ADDR LDR R1, =0x30505645 /* EVP0 */ STR R1, [R0] /* EVP0 in EXCP_EN_ADDR */ LDR R0, =EXCP_LR_ADDR MOV R1, LR STR R1, [R0] /* Save LR in EXCP_LR_ADDR */ LDR R0, =__bss_start EOR R1, R1, R1 LDR R2, =__bss_end SUB R2, R2, R0 BL memset B _irq_setup _reset_handler: LDR R0, =EXCP_TYPE_ADDR LDR R1, =0x545352 /* RST */ STR R1, [R0] /* RST in EXCP_TYPE_ADDR */ B excp_reset _undefined_handler: LDR R0, =EXCP_TYPE_ADDR LDR R1, =0x464455 /* UDF */ STR R1, [R0] /* UDF in EXCP_TYPE_ADDR */ B excp_reset _prefetch_abort_handler: LDR R0, =EXCP_TYPE_ADDR LDR R1, =0x54424150 /* PABT */ STR R1, [R0] /* PABT in EXCP_TYPE_ADDR */ B excp_reset _data_abort_handler: LDR R0, =EXCP_TYPE_ADDR LDR R1, =0x54424144 /* DABT */ STR R1, [R0] /* DABT in EXCP_TYPE_ADDR */ B excp_reset .globl irq_enable_cpu_irq_exceptions .type irq_enable_cpu_irq_exceptions, %function irq_enable_cpu_irq_exceptions: MRS R12, CPSR BIC R12, R12, #(IRQ | FIQ) /* IRQ/FIQ enabled */ MSR CPSR, R12 BX LR .globl irq_disable_cpu_irq_exceptions .type irq_disable_cpu_irq_exceptions, %function irq_disable_cpu_irq_exceptions: MRS R12, CPSR ORR R12, R12, #(IRQ | FIQ) /* IRQ/FIQ disabled */ MSR CPSR, R12 BX LR _irq_handler: MOV R13, R0 /* Save R0 in R13_IRQ */ SUB R0, LR, #4 /* Put return address in R0_SYS */ MOV LR, R1 /* Save R1 in R14_IRQ (LR) */ MRS R1, SPSR /* Put the SPSR in R1_SYS */ MSR CPSR_c, #(MODE_SYS | IRQ) /* SYSTEM mode, IRQ disabled */ STMFD SP!, {R0, R1} /* SPSR and PC */ STMFD SP!, {R2-R3, R12, LR} /* AAPCS-clobbered registers */ MOV R0, SP /* Make SP_SYS visible to IRQ mode */ SUB SP, SP, #8 /* Make room for stacking R0 and R1 */ MSR CPSR_c, #(MODE_IRQ | IRQ) /* IRQ mode, IRQ disabled */ STMFD R0!, {R13, R14} /* Finish saving the context (R0, R1) */ MSR CPSR_c, #(MODE_SYS | IRQ) /* SYSTEM mode, IRQ disabled */ LDR R12, =irq_handler MOV LR, PC /* Copy the return address to link register */ BX R12 /* Call the C IRQ handler (ARM/THUMB) */ MSR CPSR_c, #(MODE_SYS | IRQ | FIQ) /* SYSTEM mode, IRQ/FIQ disabled */ MOV R0, SP /* Make SP_SYS visible to IRQ mode */ ADD SP, SP, #32 /* Fake unstacking 8 registers from SP_SYS */ MSR CPSR_c, #(MODE_IRQ | IRQ | FIQ) /* IRQ mode, IRQ/FIQ disabled */ MOV SP, R0 /* Copy SP_SYS to SP_IRQ */ LDR R0, [SP, #28] /* Load the saved SPSR from the stack */ MSR SPSR_cxsf, R0 /* Copy it into SPSR_IRQ */ LDMFD SP, {R0-R3, R12, LR}^ /* Unstack all saved USER/SYSTEM registers */ NOP /* Cant access barked registers immediately */ LDR LR, [SP, #24] /* Load return address from the SYS stack */ MOVS PC, LR /* Return restoring CPSR from SPSR */ _fiq_handler: BL fiq_handler setup_vectors: /* Setup vectors */ LDR R0, =EXCP_VEC_BASE LDR R1, =_reset_handler STR R1, [R0, #EVP_COP_RESET_VECTOR] LDR R1, =_undefined_handler STR R1, [R0, #EVP_COP_UNDEF_VECTOR] LDR R1, =_reset_handler STR R1, [R0, #EVP_COP_SWI_VECTOR] LDR R1, =_prefetch_abort_handler STR R1, [R0, #EVP_COP_PREFETCH_ABORT_VECTOR] LDR R1, =_data_abort_handler STR R1, [R0, #EVP_COP_DATA_ABORT_VECTOR] LDR R1, =_reset_handler STR R1, [R0, #EVP_COP_RSVD_VECTOR] LDR R1, =_irq_handler STR R1, [R0, #EVP_COP_IRQ_VECTOR] LDR R1, =_fiq_handler STR R1, [R0, #EVP_COP_FIQ_VECTOR] BX LR ================================================ FILE: bdk/fatfs_cfg.h ================================================ /* * Copyright (c) 2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _FATFS_CFG_H_ #define _FATFS_CFG_H_ // define FFCFG_INC in a project to use a specific FatFS configuration. // Example: FFCFG_INC := '"../$(PROJECT_DIR)/libs/fatfs/ffconf.h"' #ifdef FFCFG_INC #include FFCFG_INC #else #include "fatfs_conf.h" #endif #endif ================================================ FILE: bdk/fatfs_conf.h ================================================ /*---------------------------------------------------------------------------/ / FatFs Functional Configurations /---------------------------------------------------------------------------*/ #define FFCONF_DEF 86604 /* Revision ID */ /*---------------------------------------------------------------------------/ / Function Configurations /---------------------------------------------------------------------------*/ #define FF_FS_READONLY 0 /* This option switches read-only configuration. (0:Read/Write or 1:Read-only) / Read-only configuration removes writing API functions, f_write(), f_sync(), / f_unlink(), f_mkdir(), f_chmod(), f_rename(), f_truncate(), f_getfree() / and optional writing functions as well. */ #define FF_FS_MINIMIZE 0 /* This option defines minimization level to remove some basic API functions. / / 0: Basic functions are fully enabled. / 1: f_stat(), f_getfree(), f_unlink(), f_mkdir(), f_truncate() and f_rename() / are removed. / 2: f_opendir(), f_readdir() and f_closedir() are removed in addition to 1. / 3: f_lseek() function is removed in addition to 2. */ #define FF_USE_STRFUNC 2 /* This option switches string functions, f_gets(), f_putc(), f_puts() and f_printf(). / / 0: Disable string functions. / 1: Enable without LF-CRLF conversion. / 2: Enable with LF-CRLF conversion. */ #define FF_USE_FIND 1 /* This option switches filtered directory read functions, f_findfirst() and / f_findnext(). (0:Disable, 1:Enable 2:Enable with matching altname[] too) */ #define FF_USE_MKFS 0 /* This option switches f_mkfs() function. (0:Disable or 1:Enable) */ #if FF_USE_MKFS #define FF_MKFS_LABEL "SWITCH SD " #endif /* This sets FAT/FAT32 label. Exactly 11 characters, all caps. */ #define FF_USE_FASTSEEK 0 /* This option switches fast seek function. (0:Disable or 1:Enable) */ #define FF_FASTFS 0 #if FF_FASTFS #undef FF_USE_FASTSEEK #define FF_USE_FASTSEEK 1 #endif /* This option switches fast access to chained clusters. (0:Disable or 1:Enable) */ #define FF_SIMPLE_GPT 1 /* This option switches support for the first GPT partition. (0:Disable or 1:Enable) */ #define FF_USE_EXPAND 0 /* This option switches f_expand function. (0:Disable or 1:Enable) */ #define FF_USE_CHMOD 1 /* This option switches attribute manipulation functions, f_chmod() and f_utime(). / (0:Disable or 1:Enable) Also FF_FS_READONLY needs to be 0 to enable this option. */ #define FF_USE_LABEL 0 /* This option switches volume label functions, f_getlabel() and f_setlabel(). / (0:Disable or 1:Enable) */ #define FF_USE_FORWARD 0 /* This option switches f_forward() function. (0:Disable or 1:Enable) */ /*---------------------------------------------------------------------------/ / Locale and Namespace Configurations /---------------------------------------------------------------------------*/ #define FF_CODE_PAGE 850 /* This option specifies the OEM code page to be used on the target system. / Incorrect code page setting can cause a file open failure. / / 437 - U.S. / 720 - Arabic / 737 - Greek / 771 - KBL / 775 - Baltic / 850 - Latin 1 / 852 - Latin 2 / 855 - Cyrillic / 857 - Turkish / 860 - Portuguese / 861 - Icelandic / 862 - Hebrew / 863 - Canadian French / 864 - Arabic / 865 - Nordic / 866 - Russian / 869 - Greek 2 / 932 - Japanese (DBCS) / 936 - Simplified Chinese (DBCS) / 949 - Korean (DBCS) / 950 - Traditional Chinese (DBCS) / 0 - Include all code pages above and configured by f_setcp() */ #define FF_USE_LFN 3 #define FF_MAX_LFN 255 /* The FF_USE_LFN switches the support for LFN (long file name). / / 0: Disable LFN. FF_MAX_LFN has no effect. / 1: Enable LFN with static working buffer on the BSS. Always NOT thread-safe. / 2: Enable LFN with dynamic working buffer on the STACK. / 3: Enable LFN with dynamic working buffer on the HEAP. / / To enable the LFN, ffunicode.c needs to be added to the project. The LFN function / requiers certain internal working buffer occupies (FF_MAX_LFN + 1) * 2 bytes and / additional (FF_MAX_LFN + 44) / 15 * 32 bytes when exFAT is enabled. / The FF_MAX_LFN defines size of the working buffer in UTF-16 code unit and it can / be in range of 12 to 255. It is recommended to be set 255 to fully support LFN / specification. / When use stack for the working buffer, take care on stack overflow. When use heap / memory for the working buffer, memory management functions, ff_memalloc() and / ff_memfree() in ffsystem.c, need to be added to the project. */ #define FF_LFN_UNICODE 0 /* This option switches the character encoding on the API when LFN is enabled. / / 0: ANSI/OEM in current CP (TCHAR = char) / 1: Unicode in UTF-16 (TCHAR = WCHAR) / 2: Unicode in UTF-8 (TCHAR = char) / 3: Unicode in UTF-32 (TCHAR = DWORD) / / Also behavior of string I/O functions will be affected by this option. / When LFN is not enabled, this option has no effect. */ #define FF_LFN_BUF 255 #define FF_SFN_BUF 12 /* This set of options defines size of file name members in the FILINFO structure / which is used to read out directory items. These values should be suffcient for / the file names to read. The maximum possible length of the read file name depends / on character encoding. When LFN is not enabled, these options have no effect. */ #define FF_STRF_ENCODE 0 /* When FF_LFN_UNICODE >= 1 with LFN enabled, string I/O functions, f_gets(), / f_putc(), f_puts and f_printf() convert the character encoding in it. / This option selects assumption of character encoding ON THE FILE to be / read/written via those functions. / / 0: ANSI/OEM in current CP / 1: Unicode in UTF-16LE / 2: Unicode in UTF-16BE / 3: Unicode in UTF-8 */ #define FF_FS_RPATH 0 /* This option configures support for relative path. / / 0: Disable relative path and remove related functions. / 1: Enable relative path. f_chdir() and f_chdrive() are available. / 2: f_getcwd() function is available in addition to 1. */ /*---------------------------------------------------------------------------/ / Drive/Volume Configurations /---------------------------------------------------------------------------*/ #define FF_VOLUMES 1 /* Number of volumes (logical drives) to be used. (1-10) */ #define FF_STR_VOLUME_ID 0 #define FF_VOLUME_STRS "sd" /* FF_STR_VOLUME_ID switches support for volume ID in arbitrary strings. / When FF_STR_VOLUME_ID is set to 1 or 2, arbitrary strings can be used as drive / number in the path name. FF_VOLUME_STRS defines the volume ID strings for each / logical drives. Number of items must not be less than FF_VOLUMES. Valid / characters for the volume ID strings are A-Z, a-z and 0-9, however, they are / compared in case-insensitive. If FF_STR_VOLUME_ID >= 1 and FF_VOLUME_STRS is / not defined, a user defined volume string table needs to be defined as: / / const char* VolumeStr[FF_VOLUMES] = {"ram","flash","sd","usb",... / Order is important. Any change to order, must also be reflected to diskio drive enum. */ #define FF_MULTI_PARTITION 0 /* This option switches support for multiple volumes on the physical drive. / By default (0), each logical drive number is bound to the same physical drive / number and only an FAT volume found on the physical drive will be mounted. / When this function is enabled (1), each logical drive number can be bound to / arbitrary physical drive and partition listed in the VolToPart[]. Also f_fdisk() / funciton will be available. */ #define FF_MIN_SS 512 #define FF_MAX_SS 512 /* This set of options configures the range of sector size to be supported. (512, / 1024, 2048 or 4096) Always set both 512 for most systems, generic memory card and / harddisk. But a larger value may be required for on-board flash memory and some / type of optical media. When FF_MAX_SS is larger than FF_MIN_SS, FatFs is configured / for variable sector size mode and disk_ioctl() function needs to implement / GET_SECTOR_SIZE command. */ #define FF_USE_TRIM 0 /* This option switches support for ATA-TRIM. (0:Disable or 1:Enable) / To enable Trim function, also CTRL_TRIM command should be implemented to the / disk_ioctl() function. */ #define FF_FS_NOFSINFO 1 /* If you need to know correct free space on the FAT32 volume, set bit 0 of this / option, and f_getfree() function at first time after volume mount will force / a full FAT scan. Bit 1 controls the use of last allocated cluster number. / / bit0=0: Use free cluster count in the FSINFO if available. / bit0=1: Do not trust free cluster count in the FSINFO. / bit1=0: Use last allocated cluster number in the FSINFO if available. / bit1=1: Do not trust last allocated cluster number in the FSINFO. */ /*---------------------------------------------------------------------------/ / System Configurations /---------------------------------------------------------------------------*/ #define FF_FS_TINY 0 /* This option switches tiny buffer configuration. (0:Normal or 1:Tiny) / At the tiny configuration, size of file object (FIL) is shrinked FF_MAX_SS bytes. / Instead of private sector buffer eliminated from the file object, common sector / buffer in the filesystem object (FATFS) is used for the file data transfer. */ #define FF_FS_EXFAT 1 /* This option switches support for exFAT filesystem. (0:Disable or 1:Enable) / To enable exFAT, also LFN needs to be enabled. (FF_USE_LFN >= 1) / Note that enabling exFAT discards ANSI C (C89) compatibility. */ #define FF_FS_NORTC 1 #define FF_NORTC_MON 1 #define FF_NORTC_MDAY 1 #define FF_NORTC_YEAR 2022 /* The option FF_FS_NORTC switches timestamp function. If the system does not have / any RTC function or valid timestamp is not needed, set FF_FS_NORTC = 1 to disable / the timestamp function. Every object modified by FatFs will have a fixed timestamp / defined by FF_NORTC_MON, FF_NORTC_MDAY and FF_NORTC_YEAR in local time. / To enable timestamp function (FF_FS_NORTC = 0), get_fattime() function need to be / added to the project to read current time form real-time clock. FF_NORTC_MON, / FF_NORTC_MDAY and FF_NORTC_YEAR have no effect. / These options have no effect at read-only configuration (FF_FS_READONLY = 1). */ #define FF_FS_LOCK 0 /* The option FF_FS_LOCK switches file lock function to control duplicated file open / and illegal operation to open objects. This option must be 0 when FF_FS_READONLY / is 1. / / 0: Disable file lock function. To avoid volume corruption, application program / should avoid illegal open, remove and rename to the open objects. / >0: Enable file lock function. The value defines how many files/sub-directories / can be opened simultaneously under file lock control. Note that the file / lock control is independent of re-entrancy. */ /* #include // O/S definitions */ #define FF_FS_REENTRANT 0 #define FF_FS_TIMEOUT 1000 #define FF_SYNC_t HANDLE /* The option FF_FS_REENTRANT switches the re-entrancy (thread safe) of the FatFs / module itself. Note that regardless of this option, file access to different / volume is always re-entrant and volume control functions, f_mount(), f_mkfs() / and f_fdisk() function, are always not re-entrant. Only file/directory access / to the same volume is under control of this function. / / 0: Disable re-entrancy. FF_FS_TIMEOUT and FF_SYNC_t have no effect. / 1: Enable re-entrancy. Also user provided synchronization handlers, / ff_req_grant(), ff_rel_grant(), ff_del_syncobj() and ff_cre_syncobj() / function, must be added to the project. Samples are available in / option/syscall.c. / / The FF_FS_TIMEOUT defines timeout period in unit of time tick. / The FF_SYNC_t defines O/S dependent sync object type. e.g. HANDLE, ID, OS_EVENT*, / SemaphoreHandle_t and etc. A header file for O/S definitions needs to be / included somewhere in the scope of ff.h. */ /*--- End of configuration options ---*/ ================================================ FILE: bdk/gfx_utils.h ================================================ /* * Copyright (c) 2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GFX_UTILS_H_ #define _GFX_UTILS_H_ #ifdef GFX_INC #include GFX_INC #endif #endif ================================================ FILE: bdk/ianos/elfload/elf.h ================================================ /* $OpenBSD: exec_elf.h,v 1.53 2014/01/03 03:00:39 guenther Exp $ */ /* * Copyright (c) 1995, 1996 Erik Theisen. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* imported sys/exec_elf.h from OpenBSD */ #ifndef ELF_H #define ELF_H #include typedef u8 Elf_Byte; typedef u32 Elf32_Addr; /* Unsigned program address */ typedef u32 Elf32_Off; /* Unsigned file offset */ typedef s32 Elf32_Sword; /* Signed large integer */ typedef u32 Elf32_Word; /* Unsigned large integer */ typedef u16 Elf32_Half; /* Unsigned medium integer */ typedef u64 Elf64_Addr; typedef u64 Elf64_Off; typedef s32 Elf64_Shalf; #ifdef __alpha__ typedef s64 Elf64_Sword; typedef u64 Elf64_Word; #else typedef s32 Elf64_Sword; typedef u32 Elf64_Word; #endif typedef s64 Elf64_Sxword; typedef u64 Elf64_Xword; typedef u32 Elf64_Half; typedef u16 Elf64_Quarter; /* * e_ident[] identification indexes * See http://www.sco.com/developers/gabi/latest/ch4.eheader.html */ #define EI_MAG0 0 /* file ID */ #define EI_MAG1 1 /* file ID */ #define EI_MAG2 2 /* file ID */ #define EI_MAG3 3 /* file ID */ #define EI_CLASS 4 /* file class */ #define EI_DATA 5 /* data encoding */ #define EI_VERSION 6 /* ELF header version */ #define EI_OSABI 7 /* OS/ABI ID */ #define EI_ABIVERSION 8 /* ABI version */ #define EI_PAD 9 /* start of pad bytes */ #define EI_NIDENT 16 /* Size of e_ident[] */ /* e_ident[] magic number */ #define ELFMAG0 0x7f /* e_ident[EI_MAG0] */ #define ELFMAG1 'E' /* e_ident[EI_MAG1] */ #define ELFMAG2 'L' /* e_ident[EI_MAG2] */ #define ELFMAG3 'F' /* e_ident[EI_MAG3] */ #define ELFMAG "\177ELF" /* magic */ #define SELFMAG 4 /* size of magic */ /* e_ident[] file class */ #define ELFCLASSNONE 0 /* invalid */ #define ELFCLASS32 1 /* 32-bit objs */ #define ELFCLASS64 2 /* 64-bit objs */ #define ELFCLASSNUM 3 /* number of classes */ /* e_ident[] data encoding */ #define ELFDATANONE 0 /* invalid */ #define ELFDATA2LSB 1 /* Little-Endian */ #define ELFDATA2MSB 2 /* Big-Endian */ #define ELFDATANUM 3 /* number of data encode defines */ /* e_ident[] Operating System/ABI */ #define ELFOSABI_SYSV 0 /* UNIX System V ABI */ #define ELFOSABI_HPUX 1 /* HP-UX operating system */ #define ELFOSABI_NETBSD 2 /* NetBSD */ #define ELFOSABI_LINUX 3 /* GNU/Linux */ #define ELFOSABI_HURD 4 /* GNU/Hurd */ #define ELFOSABI_86OPEN 5 /* 86Open common IA32 ABI */ #define ELFOSABI_SOLARIS 6 /* Solaris */ #define ELFOSABI_MONTEREY 7 /* Monterey */ #define ELFOSABI_IRIX 8 /* IRIX */ #define ELFOSABI_FREEBSD 9 /* FreeBSD */ #define ELFOSABI_TRU64 10 /* TRU64 UNIX */ #define ELFOSABI_MODESTO 11 /* Novell Modesto */ #define ELFOSABI_OPENBSD 12 /* OpenBSD */ #define ELFOSABI_ARM 97 /* ARM */ #define ELFOSABI_STANDALONE 255 /* Standalone (embedded) application */ /* e_ident */ #define IS_ELF(ehdr) ((ehdr).e_ident[EI_MAG0] == ELFMAG0 && \ (ehdr).e_ident[EI_MAG1] == ELFMAG1 && \ (ehdr).e_ident[EI_MAG2] == ELFMAG2 && \ (ehdr).e_ident[EI_MAG3] == ELFMAG3) /* ELF Header */ typedef struct { unsigned char e_ident[EI_NIDENT]; /* ELF Identification */ Elf32_Half e_type; /* object file type */ Elf32_Half e_machine; /* machine */ Elf32_Word e_version; /* object file version */ Elf32_Addr e_entry; /* virtual entry point */ Elf32_Off e_phoff; /* program header table offset */ Elf32_Off e_shoff; /* section header table offset */ Elf32_Word e_flags; /* processor-specific flags */ Elf32_Half e_ehsize; /* ELF header size */ Elf32_Half e_phentsize; /* program header entry size */ Elf32_Half e_phnum; /* number of program header entries */ Elf32_Half e_shentsize; /* section header entry size */ Elf32_Half e_shnum; /* number of section header entries */ Elf32_Half e_shstrndx; /* section header table's "section header string table" entry offset */ } Elf32_Ehdr; typedef struct { unsigned char e_ident[EI_NIDENT]; /* Id bytes */ Elf64_Quarter e_type; /* file type */ Elf64_Quarter e_machine; /* machine type */ Elf64_Half e_version; /* version number */ Elf64_Addr e_entry; /* entry point */ Elf64_Off e_phoff; /* Program hdr offset */ Elf64_Off e_shoff; /* Section hdr offset */ Elf64_Half e_flags; /* Processor flags */ Elf64_Quarter e_ehsize; /* sizeof ehdr */ Elf64_Quarter e_phentsize; /* Program header entry size */ Elf64_Quarter e_phnum; /* Number of program headers */ Elf64_Quarter e_shentsize; /* Section header entry size */ Elf64_Quarter e_shnum; /* Number of section headers */ Elf64_Quarter e_shstrndx; /* String table index */ } Elf64_Ehdr; /* e_type */ #define ET_NONE 0 /* No file type */ #define ET_REL 1 /* relocatable file */ #define ET_EXEC 2 /* executable file */ #define ET_DYN 3 /* shared object file */ #define ET_CORE 4 /* core file */ #define ET_NUM 5 /* number of types */ #define ET_LOPROC 0xff00 /* reserved range for processor */ #define ET_HIPROC 0xffff /* specific e_type */ /* e_machine */ #define EM_NONE 0 /* No Machine */ #define EM_M32 1 /* AT&T WE 32100 */ #define EM_SPARC 2 /* SPARC */ #define EM_386 3 /* Intel 80386 */ #define EM_68K 4 /* Motorola 68000 */ #define EM_88K 5 /* Motorola 88000 */ #define EM_486 6 /* Intel 80486 - unused? */ #define EM_860 7 /* Intel 80860 */ #define EM_MIPS 8 /* MIPS R3000 Big-Endian only */ /* * Don't know if EM_MIPS_RS4_BE, * EM_SPARC64, EM_PARISC, * or EM_PPC are ABI compliant */ #define EM_MIPS_RS4_BE 10 /* MIPS R4000 Big-Endian */ #define EM_SPARC64 11 /* SPARC v9 64-bit unofficial */ #define EM_PARISC 15 /* HPPA */ #define EM_SPARC32PLUS 18 /* Enhanced instruction set SPARC */ #define EM_PPC 20 /* PowerPC */ #define EM_ARM 40 /* ARM AArch32 */ #define EM_ALPHA 41 /* DEC ALPHA */ #define EM_SH 42 /* Hitachi/Renesas Super-H */ #define EM_SPARCV9 43 /* SPARC version 9 */ #define EM_IA_64 50 /* Intel IA-64 Processor */ #define EM_AMD64 62 /* AMD64 architecture */ #define EM_VAX 75 /* DEC VAX */ #define EM_AARCH64 183 /* ARM AArch64 */ /* Non-standard */ #define EM_ALPHA_EXP 0x9026 /* DEC ALPHA */ /* Version */ #define EV_NONE 0 /* Invalid */ #define EV_CURRENT 1 /* Current */ #define EV_NUM 2 /* number of versions */ /* Section Header */ typedef struct { Elf32_Word sh_name; /* name - index into section header * string table section */ Elf32_Word sh_type; /* type */ Elf32_Word sh_flags; /* flags */ Elf32_Addr sh_addr; /* address */ Elf32_Off sh_offset; /* file offset */ Elf32_Word sh_size; /* section size */ Elf32_Word sh_link; /* section header table index link */ Elf32_Word sh_info; /* extra information */ Elf32_Word sh_addralign; /* address alignment */ Elf32_Word sh_entsize; /* section entry size */ } Elf32_Shdr; typedef struct { Elf64_Half sh_name; /* section name */ Elf64_Half sh_type; /* section type */ Elf64_Xword sh_flags; /* section flags */ Elf64_Addr sh_addr; /* virtual address */ Elf64_Off sh_offset; /* file offset */ Elf64_Xword sh_size; /* section size */ Elf64_Half sh_link; /* link to another */ Elf64_Half sh_info; /* misc info */ Elf64_Xword sh_addralign; /* memory alignment */ Elf64_Xword sh_entsize; /* table entry size */ } Elf64_Shdr; /* Special Section Indexes */ #define SHN_UNDEF 0 /* undefined */ #define SHN_LORESERVE 0xff00 /* lower bounds of reserved indexes */ #define SHN_LOPROC 0xff00 /* reserved range for processor */ #define SHN_HIPROC 0xff1f /* specific section indexes */ #define SHN_ABS 0xfff1 /* absolute value */ #define SHN_COMMON 0xfff2 /* common symbol */ #define SHN_HIRESERVE 0xffff /* upper bounds of reserved indexes */ /* sh_type */ #define SHT_NULL 0 /* inactive */ #define SHT_PROGBITS 1 /* program defined information */ #define SHT_SYMTAB 2 /* symbol table section */ #define SHT_STRTAB 3 /* string table section */ #define SHT_RELA 4 /* relocation section with addends*/ #define SHT_HASH 5 /* symbol hash table section */ #define SHT_DYNAMIC 6 /* dynamic section */ #define SHT_NOTE 7 /* note section */ #define SHT_NOBITS 8 /* no space section */ #define SHT_REL 9 /* relation section without addends */ #define SHT_SHLIB 10 /* reserved - purpose unknown */ #define SHT_DYNSYM 11 /* dynamic symbol table section */ #define SHT_NUM 12 /* number of section types */ #define SHT_LOPROC 0x70000000 /* reserved range for processor */ #define SHT_HIPROC 0x7fffffff /* specific section header types */ #define SHT_LOUSER 0x80000000 /* reserved range for application */ #define SHT_HIUSER 0xffffffff /* specific indexes */ /* Section names */ #define ELF_BSS ".bss" /* uninitialized data */ #define ELF_DATA ".data" /* initialized data */ #define ELF_DEBUG ".debug" /* debug */ #define ELF_DYNAMIC ".dynamic" /* dynamic linking information */ #define ELF_DYNSTR ".dynstr" /* dynamic string table */ #define ELF_DYNSYM ".dynsym" /* dynamic symbol table */ #define ELF_FINI ".fini" /* termination code */ #define ELF_GOT ".got" /* global offset table */ #define ELF_HASH ".hash" /* symbol hash table */ #define ELF_INIT ".init" /* initialization code */ #define ELF_REL_DATA ".rel.data" /* relocation data */ #define ELF_REL_FINI ".rel.fini" /* relocation termination code */ #define ELF_REL_INIT ".rel.init" /* relocation initialization code */ #define ELF_REL_DYN ".rel.dyn" /* relocation dynamic link info */ #define ELF_REL_RODATA ".rel.rodata" /* relocation read-only data */ #define ELF_REL_TEXT ".rel.text" /* relocation code */ #define ELF_RODATA ".rodata" /* read-only data */ #define ELF_SHSTRTAB ".shstrtab" /* section header string table */ #define ELF_STRTAB ".strtab" /* string table */ #define ELF_SYMTAB ".symtab" /* symbol table */ #define ELF_TEXT ".text" /* code */ /* Section Attribute Flags - sh_flags */ #define SHF_WRITE 0x1 /* Writable */ #define SHF_ALLOC 0x2 /* occupies memory */ #define SHF_EXECINSTR 0x4 /* executable */ #define SHF_TLS 0x400 /* thread local storage */ #define SHF_MASKPROC 0xf0000000 /* reserved bits for processor \ * specific section attributes */ /* Symbol Table Entry */ typedef struct elf32_sym { Elf32_Word st_name; /* name - index into string table */ Elf32_Addr st_value; /* symbol value */ Elf32_Word st_size; /* symbol size */ unsigned char st_info; /* type and binding */ unsigned char st_other; /* 0 - no defined meaning */ Elf32_Half st_shndx; /* section header index */ } Elf32_Sym; typedef struct { Elf64_Half st_name; /* Symbol name index in str table */ Elf_Byte st_info; /* type / binding attrs */ Elf_Byte st_other; /* unused */ Elf64_Quarter st_shndx; /* section index of symbol */ Elf64_Xword st_value; /* value of symbol */ Elf64_Xword st_size; /* size of symbol */ } Elf64_Sym; /* Symbol table index */ #define STN_UNDEF 0 /* undefined */ /* Extract symbol info - st_info */ #define ELF32_ST_BIND(x) ((x) >> 4) #define ELF32_ST_TYPE(x) (((unsigned int)x) & 0xf) #define ELF32_ST_INFO(b, t) (((b) << 4) + ((t)&0xf)) #define ELF64_ST_BIND(x) ((x) >> 4) #define ELF64_ST_TYPE(x) (((unsigned int)x) & 0xf) #define ELF64_ST_INFO(b, t) (((b) << 4) + ((t)&0xf)) /* Symbol Binding - ELF32_ST_BIND - st_info */ #define STB_LOCAL 0 /* Local symbol */ #define STB_GLOBAL 1 /* Global symbol */ #define STB_WEAK 2 /* like global - lower precedence */ #define STB_NUM 3 /* number of symbol bindings */ #define STB_LOPROC 13 /* reserved range for processor */ #define STB_HIPROC 15 /* specific symbol bindings */ /* Symbol type - ELF32_ST_TYPE - st_info */ #define STT_NOTYPE 0 /* not specified */ #define STT_OBJECT 1 /* data object */ #define STT_FUNC 2 /* function */ #define STT_SECTION 3 /* section */ #define STT_FILE 4 /* file */ #define STT_TLS 6 /* thread local storage */ #define STT_LOPROC 13 /* reserved range for processor */ #define STT_HIPROC 15 /* specific symbol types */ /* Relocation entry with implicit addend */ typedef struct { Elf32_Addr r_offset; /* offset of relocation */ Elf32_Word r_info; /* symbol table index and type */ } Elf32_Rel; /* Relocation entry with explicit addend */ typedef struct { Elf32_Addr r_offset; /* offset of relocation */ Elf32_Word r_info; /* symbol table index and type */ Elf32_Sword r_addend; } Elf32_Rela; /* Extract relocation info - r_info */ #define ELF32_R_SYM(i) ((i) >> 8) #define ELF32_R_TYPE(i) ((unsigned char)(i)) #define ELF32_R_INFO(s, t) (((s) << 8) + (unsigned char)(t)) typedef struct { Elf64_Xword r_offset; /* where to do it */ Elf64_Xword r_info; /* index & type of relocation */ } Elf64_Rel; typedef struct { Elf64_Xword r_offset; /* where to do it */ Elf64_Xword r_info; /* index & type of relocation */ Elf64_Sxword r_addend; /* adjustment value */ } Elf64_Rela; #define ELF64_R_SYM(info) ((info) >> 32) #define ELF64_R_TYPE(info) ((info)&0xFFFFFFFF) #define ELF64_R_INFO(s, t) (((s) << 32) + (u32)(t)) #if defined(__mips64__) && defined(__MIPSEL__) /* * The 64-bit MIPS ELF ABI uses a slightly different relocation format * than the regular ELF ABI: the r_info field is split into several * pieces (see gnu/usr.bin/binutils/include/elf/mips.h for details). */ #undef ELF64_R_SYM #undef ELF64_R_TYPE #undef ELF64_R_INFO #define ELF64_R_TYPE(info) (swap32((info) >> 32)) #define ELF64_R_SYM(info) ((info)&0xFFFFFFFF) #define ELF64_R_INFO(s, t) (((u64)swap32(t) << 32) + (u32)(s)) #endif /* __mips64__ && __MIPSEL__ */ /* Program Header */ typedef struct { Elf32_Word p_type; /* segment type */ Elf32_Off p_offset; /* segment offset */ Elf32_Addr p_vaddr; /* virtual address of segment */ Elf32_Addr p_paddr; /* physical address - ignored? */ Elf32_Word p_filesz; /* number of bytes in file for seg. */ Elf32_Word p_memsz; /* number of bytes in mem. for seg. */ Elf32_Word p_flags; /* flags */ Elf32_Word p_align; /* memory alignment */ } Elf32_Phdr; typedef struct { Elf64_Half p_type; /* entry type */ Elf64_Half p_flags; /* flags */ Elf64_Off p_offset; /* offset */ Elf64_Addr p_vaddr; /* virtual address */ Elf64_Addr p_paddr; /* physical address */ Elf64_Xword p_filesz; /* file size */ Elf64_Xword p_memsz; /* memory size */ Elf64_Xword p_align; /* memory & file alignment */ } Elf64_Phdr; /* Segment types - p_type */ #define PT_NULL 0 /* unused */ #define PT_LOAD 1 /* loadable segment */ #define PT_DYNAMIC 2 /* dynamic linking section */ #define PT_INTERP 3 /* the RTLD */ #define PT_NOTE 4 /* auxiliary information */ #define PT_SHLIB 5 /* reserved - purpose undefined */ #define PT_PHDR 6 /* program header */ #define PT_TLS 7 /* thread local storage */ #define PT_LOOS 0x60000000 /* reserved range for OS */ #define PT_HIOS 0x6fffffff /* specific segment types */ #define PT_LOPROC 0x70000000 /* reserved range for processor */ #define PT_HIPROC 0x7fffffff /* specific segment types */ #define PT_OPENBSD_RANDOMIZE 0x65a3dbe6 /* fill with random data */ #define PT_GANDR_KERNEL 0x67646b6c /* gdkl */ /* Segment flags - p_flags */ #define PF_X 0x1 /* Executable */ #define PF_W 0x2 /* Writable */ #define PF_R 0x4 /* Readable */ #define PF_MASKPROC 0xf0000000 /* reserved bits for processor */ /* specific segment flags */ /* Dynamic structure */ typedef struct { Elf32_Word d_tag; /* controls meaning of d_val */ union { Elf32_Word d_val; /* Multiple meanings - see d_tag */ Elf32_Addr d_ptr; /* program virtual address */ } d_un; } Elf32_Dyn; typedef struct { Elf64_Xword d_tag; /* controls meaning of d_val */ union { Elf64_Addr d_ptr; Elf64_Xword d_val; } d_un; } Elf64_Dyn; /* Dynamic Array Tags - d_tag */ #define DT_NULL 0 /* marks end of _DYNAMIC array */ #define DT_NEEDED 1 /* string table offset of needed lib */ #define DT_PLTRELSZ 2 /* size of relocation entries in PLT */ #define DT_PLTGOT 3 /* address PLT/GOT */ #define DT_HASH 4 /* address of symbol hash table */ #define DT_STRTAB 5 /* address of string table */ #define DT_SYMTAB 6 /* address of symbol table */ #define DT_RELA 7 /* address of relocation table */ #define DT_RELASZ 8 /* size of relocation table */ #define DT_RELAENT 9 /* size of relocation entry */ #define DT_STRSZ 10 /* size of string table */ #define DT_SYMENT 11 /* size of symbol table entry */ #define DT_INIT 12 /* address of initialization func. */ #define DT_FINI 13 /* address of termination function */ #define DT_SONAME 14 /* string table offset of shared obj */ #define DT_RPATH 15 /* string table offset of library \ * search path */ #define DT_SYMBOLIC 16 /* start sym search in shared obj. */ #define DT_REL 17 /* address of rel. tbl. w addends */ #define DT_RELSZ 18 /* size of DT_REL relocation table */ #define DT_RELENT 19 /* size of DT_REL relocation entry */ #define DT_PLTREL 20 /* PLT referenced relocation entry */ #define DT_DEBUG 21 /* bugger */ #define DT_TEXTREL 22 /* Allow rel. mod. to unwritable seg */ #define DT_JMPREL 23 /* add. of PLT's relocation entries */ #define DT_BIND_NOW 24 /* Bind now regardless of env setting */ #define DT_LOOS 0x6000000d /* reserved range for OS */ #define DT_HIOS 0x6ffff000 /* specific dynamic array tags */ #define DT_LOPROC 0x70000000 /* reserved range for processor */ #define DT_HIPROC 0x7fffffff /* specific dynamic array tags */ /* some other useful tags */ #define DT_RELACOUNT 0x6ffffff9 /* if present, number of RELATIVE */ #define DT_RELCOUNT 0x6ffffffa /* relocs, which must come first */ #define DT_FLAGS_1 0x6ffffffb /* Dynamic Flags - DT_FLAGS_1 .dynamic entry */ #define DF_1_NOW 0x00000001 #define DF_1_GLOBAL 0x00000002 #define DF_1_GROUP 0x00000004 #define DF_1_NODELETE 0x00000008 #define DF_1_LOADFLTR 0x00000010 #define DF_1_INITFIRST 0x00000020 #define DF_1_NOOPEN 0x00000040 #define DF_1_ORIGIN 0x00000080 #define DF_1_DIRECT 0x00000100 #define DF_1_TRANS 0x00000200 #define DF_1_INTERPOSE 0x00000400 #define DF_1_NODEFLIB 0x00000800 #define DF_1_NODUMP 0x00001000 #define DF_1_CONLFAT 0x00002000 /* ld.so: number of low tags that are used saved internally (0 .. DT_NUM-1) */ #define DT_NUM (DT_JMPREL + 1) /* * Note Definitions */ typedef struct { Elf32_Word namesz; Elf32_Word descsz; Elf32_Word type; } Elf32_Note; typedef struct { Elf64_Half namesz; Elf64_Half descsz; Elf64_Half type; } Elf64_Note; #if defined(ELFSIZE) && (ELFSIZE == 32) #define Elf_Ehdr Elf32_Ehdr #define Elf_Phdr Elf32_Phdr #define Elf_Shdr Elf32_Shdr #define Elf_Sym Elf32_Sym #define Elf_Rel Elf32_Rel #define Elf_RelA Elf32_Rela #define Elf_Dyn Elf32_Dyn #define Elf_Half Elf32_Half #define Elf_Word Elf32_Word #define Elf_Sword Elf32_Sword #define Elf_Addr Elf32_Addr #define Elf_Off Elf32_Off #define Elf_Nhdr Elf32_Nhdr #define Elf_Note Elf32_Note #define ELF_R_SYM ELF32_R_SYM #define ELF_R_TYPE ELF32_R_TYPE #define ELF_R_INFO ELF32_R_INFO #define ELFCLASS ELFCLASS32 #define ELF_ST_BIND ELF32_ST_BIND #define ELF_ST_TYPE ELF32_ST_TYPE #define ELF_ST_INFO ELF32_ST_INFO #elif defined(ELFSIZE) && (ELFSIZE == 64) #define Elf_Ehdr Elf64_Ehdr #define Elf_Phdr Elf64_Phdr #define Elf_Shdr Elf64_Shdr #define Elf_Sym Elf64_Sym #define Elf_Rel Elf64_Rel #define Elf_RelA Elf64_Rela #define Elf_Dyn Elf64_Dyn #define Elf_Half Elf64_Half #define Elf_Word Elf64_Word #define Elf_Sword Elf64_Sword #define Elf_Addr Elf64_Addr #define Elf_Off Elf64_Off #define Elf_Nhdr Elf64_Nhdr #define Elf_Note Elf64_Note #define ELF_R_SYM ELF64_R_SYM #define ELF_R_TYPE ELF64_R_TYPE #define ELF_R_INFO ELF64_R_INFO #define ELFCLASS ELFCLASS64 #define ELF_ST_BIND ELF64_ST_BIND #define ELF_ST_TYPE ELF64_ST_TYPE #define ELF_ST_INFO ELF64_ST_INFO #endif #endif ================================================ FILE: bdk/ianos/elfload/elfarch.h ================================================ /* * Copyright © 2014, Owen Shepherd * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #ifndef ELFARCH_H #define ELFARCH_H #if defined(__i386__) #define EM_THIS EM_386 #define EL_ARCH_USES_REL #elif defined(__amd64__) #define EM_THIS EM_AMD64 #define EL_ARCH_USES_RELA #elif defined(__arm__) #define EM_THIS EM_ARM #define EL_ARCH_USES_REL #elif defined(__aarch64__) #define EM_THIS EM_AARCH64 #define EL_ARCH_USES_RELA #define EL_ARCH_USES_REL #else #error specify your ELF architecture #endif #if defined(__LP64__) || defined(__LLP64__) #define ELFSIZE 64 #else #define ELFSIZE 32 #endif #if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ #define ELFDATATHIS ELFDATA2LSB #else #define ELFDATATHIS ELFDATA2MSB #endif #endif ================================================ FILE: bdk/ianos/elfload/elfload.c ================================================ /* * Copyright © 2018, M4xw * Copyright © 2014, Owen Shepherd * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #include #include "elfload.h" el_status el_pread(el_ctx *ctx, void *def, size_t nb, size_t offset) { return ctx->pread(ctx, def, nb, offset); } #define EL_PHOFF(ctx, num) (((ctx)->ehdr.e_phoff + (num) *(ctx)->ehdr.e_phentsize)) el_status el_findphdr(el_ctx *ctx, Elf_Phdr *phdr, u32 type, unsigned *i) { el_status rv = EL_OK; for (; *i < ctx->ehdr.e_phnum; (*i)++) { if ((rv = el_pread(ctx, phdr, sizeof *phdr, EL_PHOFF(ctx, *i)))) return rv; if (phdr->p_type == type) { return rv; } } *i = -1; return rv; } #define EL_SHOFF(ctx, num) (((ctx)->ehdr.e_shoff + (num) *(ctx)->ehdr.e_shentsize)) el_status el_findshdr(el_ctx *ctx, Elf_Shdr *shdr, u32 type, unsigned *i) { el_status rv = EL_OK; for (; *i < ctx->ehdr.e_shnum; (*i)++) { if ((rv = el_pread(ctx, shdr, sizeof *shdr, EL_SHOFF(ctx, *i)))) return rv; if (shdr->sh_type == type) { return rv; } } *i = -1; return rv; } el_status el_init(el_ctx *ctx) { el_status rv = EL_OK; if ((rv = el_pread(ctx, &ctx->ehdr, sizeof ctx->ehdr, 0))) return rv; /* validate header */ if (!IS_ELF(ctx->ehdr)) return EL_NOTELF; if (ctx->ehdr.e_ident[EI_CLASS] != ELFCLASS) return EL_WRONGBITS; if (ctx->ehdr.e_ident[EI_DATA] != ELFDATATHIS) return EL_WRONGENDIAN; if (ctx->ehdr.e_ident[EI_VERSION] != EV_CURRENT) return EL_NOTELF; if (ctx->ehdr.e_type != ET_EXEC && ctx->ehdr.e_type != ET_DYN) return EL_NOTEXEC; if (ctx->ehdr.e_machine != EM_THIS) return EL_WRONGARCH; if (ctx->ehdr.e_version != EV_CURRENT) return EL_NOTELF; /* load phdrs */ Elf_Phdr ph; /* iterate through, calculate extents */ ctx->base_load_paddr = ctx->base_load_vaddr = 0; ctx->align = 1; ctx->memsz = 0; unsigned i = 0; for (;;) { if ((rv = el_findphdr(ctx, &ph, PT_LOAD, &i))) return rv; if (i == (unsigned)-1) break; Elf_Addr phend = ph.p_vaddr + ph.p_memsz; if (phend > ctx->memsz) ctx->memsz = phend; if (ph.p_align > ctx->align) ctx->align = ph.p_align; i++; } // Program Header if (ctx->ehdr.e_type == ET_DYN) { i = 0; if ((rv = el_findphdr(ctx, &ph, PT_DYNAMIC, &i))) return rv; if (i == (unsigned)-1) return EL_NODYN; ctx->dynoff = ph.p_offset; ctx->dynsize = ph.p_filesz; } else { ctx->dynoff = 0; ctx->dynsize = 0; } // Section String Table if (ctx->ehdr.e_type == ET_DYN) { i = ctx->ehdr.e_shstrndx - 1; if ((rv = el_findshdr(ctx, &ctx->shstr, SHT_STRTAB, &i))) return rv; // Reset i = 0; if ((rv = el_findshdr(ctx, &ctx->symtab, SHT_SYMTAB, &i))) return rv; if (i == (unsigned)-1) return EL_NODYN; } return rv; } /* typedef void* (*el_alloc_cb)( el_ctx *ctx, Elf_Addr phys, Elf_Addr virt, Elf_Addr size); */ el_status el_load(el_ctx *ctx, el_alloc_cb alloc) { el_status rv = EL_OK; /* address deltas */ Elf_Addr pdelta = ctx->base_load_paddr; Elf_Addr vdelta = ctx->base_load_vaddr; /* iterate paddrs */ Elf_Phdr ph; unsigned i = 0; for (;;) { if ((rv = el_findphdr(ctx, &ph, PT_LOAD, &i))) return rv; if (i == (unsigned)-1) break; Elf_Addr pload = ph.p_paddr + pdelta; Elf_Addr vload = ph.p_vaddr + vdelta; /* allocate mem */ char *dest = alloc(ctx, pload, vload, ph.p_memsz); if (!dest) return EL_ENOMEM; EL_DEBUG("Loading seg fileoff %x, vaddr %x to %p\n", ph.p_offset, ph.p_vaddr, dest); /* read loaded portion */ if ((rv = el_pread(ctx, dest, ph.p_filesz, ph.p_offset))) return rv; /* zero mem-only portion */ memset(dest + ph.p_filesz, 0, ph.p_memsz - ph.p_filesz); i++; } return rv; } el_status el_finddyn(el_ctx *ctx, Elf_Dyn *dyn, u32 tag) { el_status rv = EL_OK; size_t ndyn = ctx->dynsize / sizeof(Elf_Dyn); for (unsigned i = 0; i < ndyn; i++) { if ((rv = el_pread(ctx, dyn, sizeof *dyn, ctx->dynoff + i * sizeof *dyn))) return rv; if (dyn->d_tag == tag) return EL_OK; } dyn->d_tag = DT_NULL; return EL_OK; } el_status el_findrelocs(el_ctx *ctx, el_relocinfo *ri, u32 type) { el_status rv = EL_OK; Elf_Dyn rel, relsz, relent; if ((rv = el_finddyn(ctx, &rel, type))) return rv; if ((rv = el_finddyn(ctx, &relsz, type + 1))) return rv; if ((rv = el_finddyn(ctx, &relent, type + 2))) return rv; if (rel.d_tag == DT_NULL || relsz.d_tag == DT_NULL || relent.d_tag == DT_NULL) { ri->entrysize = 0; ri->tablesize = 0; ri->tableoff = 0; } else { ri->tableoff = rel.d_un.d_ptr; ri->tablesize = relsz.d_un.d_val; ri->entrysize = relent.d_un.d_val; } return rv; } extern el_status el_applyrel(el_ctx *ctx, Elf_Rel *rel); extern el_status el_applyrela(el_ctx *ctx, Elf_RelA *rela); el_status el_relocate(el_ctx *ctx) { el_status rv = EL_OK; // not dynamic if (ctx->ehdr.e_type != ET_DYN) return EL_OK; char *base = (char *)ctx->base_load_paddr; el_relocinfo ri; #ifdef EL_ARCH_USES_REL if ((rv = el_findrelocs(ctx, &ri, DT_REL))) return rv; if (ri.entrysize != sizeof(Elf_Rel) && ri.tablesize) { EL_DEBUG("Relocation size %u doesn't match expected %u\n", ri.entrysize, sizeof(Elf_Rel)); return EL_BADREL; } size_t relcnt = ri.tablesize / sizeof(Elf_Rel); Elf_Rel *reltab = (Elf_Rel *)(base + ri.tableoff); for (size_t i = 0; i < relcnt; i++) { if ((rv = el_applyrel(ctx, &reltab[i]))) return rv; } #endif #ifdef EL_ARCH_USES_RELA if ((rv = el_findrelocs(ctx, &ri, DT_RELA))) return rv; if (ri.entrysize != sizeof(Elf_RelA) && ri.tablesize) { EL_DEBUG("Relocation size %u doesn't match expected %u\n", ri.entrysize, sizeof(Elf_RelA)); return EL_BADREL; } size_t relacnt = ri.tablesize / sizeof(Elf_RelA); Elf_RelA *relatab = (Elf_RelA *)(base + ri.tableoff); for (size_t i = 0; i < relacnt; i++) { if ((rv = el_applyrela(ctx, &relatab[i]))) return rv; } #endif #if !defined(EL_ARCH_USES_REL) && !defined(EL_ARCH_USES_RELA) #error No relocation type defined! #endif return rv; } ================================================ FILE: bdk/ianos/elfload/elfload.h ================================================ /* * Copyright © 2018, M4xw * Copyright © 2014, Owen Shepherd * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #ifndef ELFLOAD_H #define ELFLOAD_H #include #include "elfarch.h" #include "elf.h" #ifdef DEBUG #include #define EL_DEBUG(format, ...) \ gfx_printf(format __VA_OPT__(, ) __VA_ARGS__) #else #define EL_DEBUG(...) \ do \ { \ } while (0) #endif typedef enum { EL_OK = 0, EL_EIO, EL_ENOMEM, EL_NOTELF, EL_WRONGBITS, EL_WRONGENDIAN, EL_WRONGARCH, EL_WRONGOS, EL_NOTEXEC, EL_NODYN, EL_BADREL, } el_status; typedef struct el_ctx { el_status (*pread)(struct el_ctx *ctx, void *dest, size_t nb, size_t offset); /* base_load_* -> address we are actually going to load at */ Elf_Addr base_load_paddr, base_load_vaddr; /* original memory of binary */ Elf_Addr eaddr; /* size in memory of binary */ Elf_Addr memsz; /* required alignment */ Elf_Addr align; /* ELF header */ Elf_Ehdr ehdr; // Section Header Str Table Elf_Shdr shstr; Elf_Shdr symtab; /* Offset of dynamic table (0 if not ET_DYN) */ Elf_Off dynoff; /* Size of dynamic table (0 if not ET_DYN) */ Elf_Addr dynsize; } el_ctx; el_status el_pread(el_ctx *ctx, void *def, size_t nb, size_t offset); el_status el_init(el_ctx *ctx); typedef void *(*el_alloc_cb)( el_ctx *ctx, Elf_Addr phys, Elf_Addr virt, Elf_Addr size); el_status el_load(el_ctx *ctx, el_alloc_cb alloccb); /* find the next phdr of type \p type, starting at \p *i. * On success, returns EL_OK with *i set to the phdr number, and the phdr loaded * in *phdr. * * If the end of the phdrs table was reached, *i is set to -1 and the contents * of *phdr are undefined */ el_status el_findphdr(el_ctx *ctx, Elf_Phdr *phdr, u32 type, unsigned *i); /* Relocate the loaded executable */ el_status el_relocate(el_ctx *ctx); /* find a dynamic table entry * returns the entry on success, dyn->d_tag = DT_NULL on failure */ el_status el_finddyn(el_ctx *ctx, Elf_Dyn *dyn, u32 type); typedef struct { Elf_Off tableoff; Elf_Addr tablesize; Elf_Addr entrysize; } el_relocinfo; /* find all information regarding relocations of a specific type. * * pass DT_REL or DT_RELA for type * sets ri->entrysize = 0 if not found */ el_status el_findrelocs(el_ctx *ctx, el_relocinfo *ri, u32 type); #endif ================================================ FILE: bdk/ianos/elfload/elfreloc_aarch64.c ================================================ /* * Copyright © 2014, Owen Shepherd * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #include "elfload.h" #if defined(__aarch64__) #define R_AARCH64_NONE 0 #define R_AARCH64_RELATIVE 1027 el_status el_applyrela(el_ctx *ctx, Elf_RelA *rel) { uptr *p = (uptr *)(rel->r_offset + ctx->base_load_paddr); u32 type = ELF_R_TYPE(rel->r_info); u32 sym = ELF_R_SYM(rel->r_info); switch (type) { case R_AARCH64_NONE: EL_DEBUG("R_AARCH64_NONE\n"); break; case R_AARCH64_RELATIVE: if (sym) { EL_DEBUG("R_AARCH64_RELATIVE with symbol ref!\n"); return EL_BADREL; } EL_DEBUG("Applying R_AARCH64_RELATIVE reloc @%p\n", p); *p = rel->r_addend + ctx->base_load_vaddr; break; default: EL_DEBUG("Bad relocation %u\n", type); return EL_BADREL; } return EL_OK; } el_status el_applyrel(el_ctx *ctx, Elf_Rel *rel) { uptr *p = (uptr *)(rel->r_offset + ctx->base_load_paddr); u32 type = ELF_R_TYPE(rel->r_info); u32 sym = ELF_R_SYM(rel->r_info); switch (type) { case R_AARCH64_NONE: EL_DEBUG("R_AARCH64_NONE\n"); break; case R_AARCH64_RELATIVE: if (sym) { EL_DEBUG("R_AARCH64_RELATIVE with symbol ref!\n"); return EL_BADREL; } EL_DEBUG("Applying R_AARCH64_RELATIVE reloc @%p\n", p); *p += ctx->base_load_vaddr; break; default: EL_DEBUG("Bad relocation %u\n", type); return EL_BADREL; } return EL_OK; } #endif ================================================ FILE: bdk/ianos/elfload/elfreloc_arm.c ================================================ /* * ---------------------------------------------------------------------------- * "THE BEER-WARE LICENSE" (Revision 42): * wrote this file. As long as you retain this notice you can do * whatever you want with this stuff. If we meet some day, and you think this * stuff is worth it, you can buy me a beer in return. M4xw * ---------------------------------------------------------------------------- */ #include "elfload.h" #if defined(__arm__) // Taken from http://infocenter.arm.com/help/topic/com.arm.doc.ihi0044f/IHI0044F_aaelf.pdf #define R_ARM_NONE 0 #define R_ARM_ABS32 2 #define R_ARM_JUMP_SLOT 22 #define R_ARM_GLOB_DAT 21 #define R_ARM_RELATIVE 23 el_status el_applyrel(el_ctx *ctx, Elf_Rel *rel) { u32 sym = ELF_R_SYM(rel->r_info); // Symbol offset u32 type = ELF_R_TYPE(rel->r_info); // Relocation Type uptr *p = (uptr *)(rel->r_offset + ctx->base_load_paddr); // Target Addr #if 0 // For later symbol usage Elf32_Sym *elfSym; const char *symbolName; // We resolve relocs from the originating elf-image elfSym = (Elf32_Sym *)(ctx->symtab.sh_offset + (char *)buffteg) + sym; int strtab_offset = ctx->shstr.sh_offset; char *strtab = (char *)buffteg + strtab_offset; symbolName = strtab + elfSym->st_name; //EL_DEBUG("Str: %s sz: %x val: %x\n", symbolName, elfSym->st_size, elfSym->st_value); #endif switch (type) { case R_ARM_NONE: EL_DEBUG("R_ARM_NONE\n"); break; case R_ARM_JUMP_SLOT: case R_ARM_ABS32: case R_ARM_GLOB_DAT: // Stubbed for later purpose //*p += elfSym->st_value; // + vaddr from sec //*p |= 0; // 1 if Thumb && STT_FUNC, ignored for now break; case R_ARM_RELATIVE: // Needed for PIE if (sym) { return EL_BADREL; } *p += ctx->base_load_vaddr; break; default: return EL_BADREL; } return EL_OK; } #endif ================================================ FILE: bdk/ianos/ianos.c ================================================ /* * Copyright (c) 2018 M4xw * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "ianos.h" #include "elfload/elfload.h" #include #include #include #include #include extern heap_t _heap; static bdk_params_t _bdk_params = { .gfx_con = (void *)&gfx_con, .gfx_ctx = (void *)&gfx_ctxt, .heap = &_heap, .memcpy = (memcpy_t)&memcpy, .memset = (memset_t)&memset, .extension_magic = 0 }; static void *_ianos_alloc_cb(el_ctx *ctx, Elf_Addr phys, Elf_Addr virt, Elf_Addr size) { return (void *)virt; } static el_status _ianos_read_cb(el_ctx *ctx, void *dest, size_t nb, size_t offset) { memcpy(dest, (void *)(ctx->eaddr + offset), nb); return EL_OK; } //TODO: Support shared libraries. int ianos_loader(ianos_lib_t *lib, char *path) { el_ctx ctx; lib->buf = NULL; if (!lib->bdk) lib->bdk = &_bdk_params; // Read library. ctx.eaddr = (Elf_Addr)sd_file_read(path, NULL); if (!ctx.eaddr) goto error; ctx.pread = _ianos_read_cb; if (el_init(&ctx)) goto error; if (lib->type & IA_SHARED_LIB) goto error; // No support for shared libs now. // Set our relocated library's buffer. switch (lib->type & ~IA_SHARED_LIB) { case IA_DRAM_LIB: lib->buf = malloc(ctx.memsz); // Aligned to 0x10 by default. break; case IA_IRAM_LIB: break; case IA_AUTO_LIB: // Default to DRAM for now. default: lib->buf = malloc(ctx.memsz); // Aligned to 0x10 by default. break; } if (!lib->buf) goto error; // Load and relocate library. ctx.base_load_vaddr = ctx.base_load_paddr = (Elf_Addr)lib->buf; if (el_load(&ctx, _ianos_alloc_cb)) goto error; if (el_relocate(&ctx)) goto error; free((void *)ctx.eaddr); // Launch. Elf_Addr epaddr = ctx.ehdr.e_entry + (Elf_Addr)lib->buf; moduleEntrypoint ep = (moduleEntrypoint)epaddr; ep(lib->private, lib->bdk); return 0; error: free((void *)ctx.eaddr); free(lib->buf); return 1; } uintptr_t ianos_static_module(char *path, void *private) { el_ctx ctx; Elf_Addr buf = 0; Elf_Addr epaddr = 0; // Read library. ctx.eaddr = (Elf_Addr)sd_file_read(path, NULL); if (!ctx.eaddr) goto error; ctx.pread = _ianos_read_cb; // Initialize elfload context. if (el_init(&ctx)) goto error; // Set our relocated library's buffer. buf = (Elf_Addr)malloc(ctx.memsz); // Aligned to 0x10 by default. if (!buf) goto error; // Load and relocate library. ctx.base_load_vaddr = ctx.base_load_paddr = buf; if (el_load(&ctx, _ianos_alloc_cb)) goto error; if (el_relocate(&ctx)) goto error; free((void *)ctx.eaddr); // Launch. epaddr = ctx.ehdr.e_entry + buf; moduleEntrypoint ep = (moduleEntrypoint)epaddr; ep(private, &_bdk_params); return (uintptr_t)epaddr; error: free((void *)ctx.eaddr); free((void *)buf); return 0; } ================================================ FILE: bdk/ianos/ianos.h ================================================ /* * Copyright (c) 2018 M4xw * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef IANOS_H #define IANOS_H #include #include typedef enum { IA_DRAM_LIB = 0, // DRAM library. IA_IRAM_LIB = 1, // IRAM library. No support for now. IA_AUTO_LIB = 2, // AUTO library. Defaults to DRAM for now. IA_SHARED_LIB = BIT(7) // Shared library mask. No support for now. } ianos_type_t; typedef struct _ianos_lib_t { uintptr_t epaddr; void *buf; void *private; ianos_type_t type; bdk_params_t *bdk; } ianos_lib_t; int ianos_loader(ianos_lib_t *lib, char *path); uintptr_t ianos_static_module(char *path, void *private); // Session-lived DRAM lib. #endif ================================================ FILE: bdk/input/als.c ================================================ /* * Ambient light sensor driver for Nintendo Switch's Rohm BH1730 * * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "als.h" #include #include #include #include #include #define BH1730_DEFAULT_GAIN BH1730_GAIN_64X #define BH1730_DEFAULT_ICYCLE 38 #define BH1730_INTERNAL_CLOCK_NS 2800 #define BH1730_ADC_CALC_DELAY_US 2000 /* BH1730_INTERNAL_CLOCK_MS * 714 */ #define BH1730_ITIME_CYCLE_TO_US 2700 /* BH1730_INTERNAL_CLOCK_MS * 964 */ #define BH1730_DEFAULT_ITIME_MS 100 #define BH1730_LUX_MULTIPLIER 3600 #define BH1730_LUX_MULTIPLIER_AULA 1410 #define BH1730_LUX_MAX 100000 typedef struct _opt_win_cal_t { u32 rc; u32 cv; u32 ci; } opt_win_cal_t; // Nintendo Switch Icosa/Iowa Optical Window calibration. static const opt_win_cal_t opt_win_cal_default[] = { { 500, 5002, 7502 }, { 754, 2250, 2000 }, { 1029, 1999, 1667 }, { 1373, 884, 583 }, { 1879, 309, 165 } }; // Nintendo Switch Aula Optical Window calibration. static const opt_win_cal_t opt_win_cal_aula[] = { { 231, 9697, 30300 }, { 993, 3333, 2778 }, { 1478, 1621, 1053 }, { 7500, 81, 10 } }; static const u32 als_gain_idx_tbl[4] = { 1, 2, 64, 128 }; void set_als_cfg(als_ctxt_t *als_ctxt, u8 gain, u8 cycle) { if (gain > BH1730_GAIN_128X) gain = BH1730_GAIN_128X; if (!cycle) cycle = 1; i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_GAIN_REG), gain); i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_TIMING_REG), (256 - cycle)); als_ctxt->gain = gain; als_ctxt->cycle = cycle; } void get_als_lux(als_ctxt_t *als_ctxt) { u32 data[2]; u32 vi_light; u32 ir_light; u64 lux = 0; u32 itime_us = BH1730_ITIME_CYCLE_TO_US * als_ctxt->cycle; // Get visible and ir light raw data. Mode is continuous so waiting for new values doesn't matter. data[0] = i2c_recv_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_DATA0LOW_REG)) + (i2c_recv_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_DATA0HIGH_REG)) << 8); data[1] = i2c_recv_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_DATA1LOW_REG)) + (i2c_recv_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_DATA1HIGH_REG)) << 8); vi_light = data[0]; ir_light = data[1]; als_ctxt->vi_light = vi_light; als_ctxt->ir_light = ir_light; als_ctxt->over_limit = vi_light > 65534 || ir_light > 65534; if (!vi_light) { als_ctxt->lux = 0; return; } // Set calibration parameters. u32 lux_multiplier = BH1730_LUX_MULTIPLIER; u32 opt_win_cal_count = ARRAY_SIZE(opt_win_cal_default); const opt_win_cal_t *opt_win_cal = opt_win_cal_default; // Apply optical window calibration coefficients. for (u32 i = 0; i < opt_win_cal_count; i++) { if (1000 * ir_light / vi_light < opt_win_cal[i].rc) { lux = ((u64)opt_win_cal[i].cv * data[0]) - (opt_win_cal[i].ci * data[1]); break; } } lux *= BH1730_DEFAULT_ITIME_MS * lux_multiplier; lux /= als_gain_idx_tbl[als_ctxt->gain] * itime_us; lux /= 1000; if (lux > BH1730_LUX_MAX) lux = BH1730_LUX_MAX; als_ctxt->lux = lux; } u8 als_power_on(als_ctxt_t *als_ctxt) { // Enable power to ALS IC. max7762x_regulator_set_voltage(REGULATOR_LDO6, 2900000); max7762x_regulator_enable(REGULATOR_LDO6, true); // Init I2C2. pinmux_config_i2c(I2C_2); clock_enable_i2c(I2C_2); i2c_init(I2C_2); // Initialize ALS. u8 id = i2c_recv_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(0x12)); i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_SPEC(BH1730_SPECCMD_RESET), 0); set_als_cfg(als_ctxt, BH1730_DEFAULT_GAIN, BH1730_DEFAULT_ICYCLE); i2c_send_byte(I2C_2, BH1730_I2C_ADDR, BH1730_ADDR(BH1730_CONTROL_REG), BH1730_CTL_POWER_ON | BH1730_CTL_ADC_EN); return id; } ================================================ FILE: bdk/input/als.h ================================================ /* * Ambient light sensor driver for Nintendo Switch's Rohm BH1730 * * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef __ALS_H_ #define __ALS_H_ #include #define BH1730_I2C_ADDR 0x29 #define BH1730_CMD_MAGIC 0x80 #define BH1730_CMD_SETADDR 0x00 #define BH1730_CMD_SPECCMD 0x60 #define BH1730_SPECCMD_RESET 0x4 #define BH1730_CONTROL_REG 0x00 #define BH1730_CTL_ADC_VALID 0x10 #define BH1730_CTL_ONE_TIME 0x08 #define BH1730_CTL_DAT0_ONLY 0x04 #define BH1730_CTL_ADC_EN 0x02 #define BH1730_CTL_POWER_ON 0x01 #define BH1730_TIMING_REG 0x01 #define BH1730_GAIN_REG 0x07 #define BH1730_GAIN_1X 0x00 #define BH1730_GAIN_2X 0x01 #define BH1730_GAIN_64X 0x02 #define BH1730_GAIN_128X 0x03 #define BH1730_DATA0LOW_REG 0x14 #define BH1730_DATA0HIGH_REG 0x15 #define BH1730_DATA1LOW_REG 0x16 #define BH1730_DATA1HIGH_REG 0x17 #define BH1730_ADDR(reg) (BH1730_CMD_MAGIC | BH1730_CMD_SETADDR | (reg)) #define BH1730_SPEC(cmd) (BH1730_CMD_MAGIC | BH1730_CMD_SPECCMD | (cmd)) typedef struct _als_ctxt_t { u32 lux; bool over_limit; u32 vi_light; u32 ir_light; u8 gain; u8 cycle; } als_ctxt_t; void set_als_cfg(als_ctxt_t *als_ctxt, u8 gain, u8 cycle); void get_als_lux(als_ctxt_t *als_ctxt); u8 als_power_on(als_ctxt_t *als_ctxt); #endif /* __ALS_H_ */ ================================================ FILE: bdk/input/joycon.c ================================================ /* * Joy-Con UART driver for Nintendo Switch * * Copyright (c) 2019-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "joycon.h" #include #include #include #include #include #include #include #include #include #include // For disabling driver when logging is enabled. #include #define JC_WIRED_SND_MAGIC "\x19\x01\x03" // Type, Destination, Group. #define JC_WIRED_RCV_MAGIC "\x19\x81\x03" // Type, Destination, Group. #define JC_WIRED_RPT_OUT 0x43 #define JC_WIRED_RPT_IN 0x53 #define JC_WIRED_CMD 0x91 #define JC_WIRED_HID 0x92 #define JC_WIRED_ECHO 0x93 // CMD OUT. #define JC_WIRED_INIT_REPLY 0x94 #define JC_WIRED_HANDSHAKE 0xA5 // Enable Wired CMDs (JC_WIRED_CMD). #define JC_HORI_INPUT_RPT_CMD 0x9A #define JC_HORI_INPUT_RPT 0x00 #define JC_WIRED_CMD_GET_INFO 0x01 #define JC_WIRED_CMD_SET_CHARGER 0x02 #define JC_WIRED_CMD_GET_CHARGER 0x03 #define JC_WIRED_CMD_SET_ATTACH 0x04 #define JC_WIRED_CMD_GET_ATTACH 0x05 #define JC_WIRED_CMD_BATT_VOLT 0x06 #define JC_WIRED_CMD_WAKE_REASON 0x07 #define JC_WIRED_CMD_HID_CONN 0x10 // Enable HID CMDs (JC_WIRED_HID). #define JC_WIRED_CMD_HID_DISC 0x11 #define JC_WIRED_CMD_SET_HIDRATE 0x12 // Output report rate. #define JC_WIRED_CMD_GET_HIDRATE 0x13 #define JC_WIRED_CMD_SET_PAIRING 0x18 // Manual pairing. #define JC_WIRED_CMD_SET_BRATE 0x20 #define JC_WIRED_CMD_ECHO_TEST 0x40 #define JC_HID_OUTPUT_RPT 0x01 #define JC_HID_RUMBLE_RPT 0x10 #define JC_HID_INPUT_RPT 0x30 #define JC_HID_SUBMCD_RPT 0x21 #define JC_HID_SUBCMD_HCI_STATE 0x06 #define HCI_STATE_SLEEP 0x00 #define HCI_STATE_RECONNECT 0x01 #define HCI_STATE_PAIR 0x02 #define HCI_STATE_HOME 0x04 #define JC_HID_SUBCMD_SPI_READ 0x10 #define SPI_READ_OFFSET 0x20 #define JC_HID_SUBCMD_RUMBLE_CTL 0x48 #define JC_HID_SUBCMD_CHARGE_SET 0x51 #define JC_HID_SUBCMD_SND_RUMBLE 0xFF // Custom. #define JC_SIO_OUTPUT_RPT 0x91 #define JC_SIO_INPUT_RPT 0x92 #define JC_SIO_CMD_ACK 0x80 #define JC_SIO_CMD_INIT 0x01 #define JC_SIO_CMD_UNK02 0x02 #define JC_SIO_CMD_VER_RPT 0x03 #define JC_SIO_CMD_UNK20 0x20 // JC_WIRED_CMD_SET_BRATE #define JC_SIO_CMD_UNK21 0x21 #define JC_SIO_CMD_UNK22 0x22 #define JC_SIO_CMD_UNK40 0x40 #define JC_SIO_CMD_STATUS 0x41 #define JC_SIO_CMD_IAP_VER 0x42 #define JC_BTN_MASK_L 0xFF2900 // 0xFFE900: with charge status. #define JC_BTN_MASK_R 0x0056FF #define JC_ID_L 0x01 // Joycon (L). Mask for Hori (L). #define JC_ID_R 0x02 // Joycon (R). Mask for Hori (R). #define JC_ID_HORI 0x20 // Mask for Hori. Actual ids: 0x21, 0x22. #define JC_CRC8_POLY 0x8D enum { JC_STATE_START = 0, JC_STATE_HANDSHAKED = 1, JC_STATE_INFO_PARSED = 2, JC_STATE_BRATE_CHANGED = 3, JC_STATE_HID_NO_CONN = 4, JC_STATE_HID_CONN = 5, JC_STATE_INIT_DONE = 6 }; enum { JC_BATT_EMPTY = 0, JC_BATT_CRIT = 1, // 3300 - 3599 mV. JC_BATT_LOW = 2, // 3600 - 3759 mV. JC_BATT_MID = 3, // 3760 - 3899 mV. JC_BATT_FULL = 4 // 3900 - 4200 mV. }; #define JC_CHRG_CFG_SUPL0 0x00 // 100 OFF. #define JC_CHRG_CFG_SUPL1 0x10 // EN2 OFF. #define JC_CHRG_CFG_100MA 0x04 // 100 ON. #define JC_CHRG_CFG_200MA 0x14 // EN2 ON. enum { JC_CHRG_STATE_INIT = 0, JC_CHRG_STATE_OFF = 1, // Regulator OFF. JC_CHRG_STATE_SUPL = 2, // JC_CHRG_CFG_SUPL0. JC_CHRG_STATE_SLOW = 3, // JC_CHRG_CFG_100MA. JC_CHRG_STATE_FAST = 4, // JC_CHRG_CFG_200MA. }; static const u8 _sio_init[] = { JC_SIO_OUTPUT_RPT, JC_SIO_CMD_INIT, 0x00, 0x00, 0x00, 0x00, 0x00, 0x95 }; static const u8 _sio_set_rpt_version[] = { JC_SIO_OUTPUT_RPT, JC_SIO_CMD_VER_RPT, // old fw: 0x00, 0x0D (0.13). New 3.4. // force_update_en: 0x01 0x00, 0x00, 0x03, 0x04, 0x00, 0xDA }; // Every 8ms. static const u8 _sio_pad_status[] = { JC_SIO_OUTPUT_RPT, JC_SIO_CMD_STATUS, 0x00, 0x00, 0x00, 0x00, 0x00, 0xB0 }; static const u8 _jc_init_wake[] = { 0xA1, 0xA2, 0xA3, 0xA4 }; static const u8 _jc_init_handshake[] = { 0x19, 0x01, 0x03, 0x07, 0x00, // Uart header. JC_WIRED_HANDSHAKE, 0x02, // Cmd and Replay echo. 0x01, 0x7E, 0x00, 0x00, 0x00 // Handshake magic. }; static const u8 _jc_init_get_info[] = { 0x19, 0x01, 0x03, 0x07, 0x00, // Uart header. JC_WIRED_CMD, JC_WIRED_CMD_GET_INFO, // Cmd and subcmd. 0x00, 0x00, 0x00, 0x00, 0x24 // Hdr crc. }; static const u8 _jc_init_switch_brate[] = { 0x19, 0x01, 0x03, 0x0F, 0x00, // Uart header. JC_WIRED_CMD, JC_WIRED_CMD_SET_BRATE, // Cmd and subcmd. 0x08, 0x00, 0x00, 0xBD, 0xB1, // Subcmd data size, data crc and hdr crc. // Baudrate 3 megabaud. 0xC0, 0xC6, 0x2D, 0x00, 0x00, 0x00, 0x00, 0x00 }; static const u8 _jc_init_hid_disconnect[] = { 0x19, 0x01, 0x03, 0x07, 0x00, // Uart header. JC_WIRED_CMD, JC_WIRED_CMD_HID_DISC, // Cmd and subcmd. 0x00, 0x00, 0x00, 0x00, 0x0E // Hdr crc. }; static const u8 _jc_init_set_hid_rate[] = { 0x19, 0x01, 0x03, 0x0B, 0x00, // Uart header. JC_WIRED_CMD, JC_WIRED_CMD_SET_HIDRATE, // Cmd and subcmd. 0x04, 0x00, 0x00, 0x12, 0xA6, // Subcmd data size, data crc and hdr crc. // Output report rate 15 ms. (5/10/15 supported). 0x0F, 0x00, 0x00, 0x00 // 5 ms. // 0x04, 0x00, 0x00, 0x0E, 0xD5, // 0x05, 0x00, 0x00, 0x00 }; static const u8 _jc_init_hid_connect[] = { 0x19, 0x01, 0x03, 0x07, 0x00, // Uart header. JC_WIRED_CMD, JC_WIRED_CMD_HID_CONN, // Cmd and subcmd. 0x00, 0x00, 0x00, 0x00, 0x3D // Hdr crc. }; static const u8 _jc_nx_pad_status[] = { 0x19, 0x01, 0x03, 0x08, 0x00, // Uart header. JC_WIRED_HID, 0x00, // Cmd. 0x01, 0x00, 0x00, 0x69, 0x2D, // Subcmd data size, data crc and hdr crc. // Contents do not matter. 0x1F }; static const u8 _jc_hori_pad_status[] = { 0x19, 0x01, 0x03, 0x07, 0x00, // Uart header. JC_HORI_INPUT_RPT_CMD, 0x01, // Hori cmd and hori subcmd. 0x00, 0x00, 0x00, 0x00, 0x48 // Hdr crc. }; // code: Channel code. vibc: Vibration code. typedef struct { u32 rsvd :20; u32 code_hi:5; u32 code_lo:5; u32 fmt :2; // Must be 1. } jc_rumble_fmt1_t; typedef struct { u32 rsvd :2; u32 freq_hi:7; u32 amp_hi :7; u32 freq_lo:7; u32 amp_lo :7; u32 fmt :2; // Must be 1. } jc_rumble_fmt1_28bit_t; typedef struct { u32 rdvd :10; u32 vibc_hi:5; u32 vibc_lo:5; u32 code_hi:5; u32 code_lo:5; u32 fmt :2; // Must be 2. } jc_rumble_fmt2_t; typedef struct { u32 is_high :1; u32 freq :7; u32 vibc_hi1:5; u32 vibc_lo1:5; u32 vibc_hi0:5; // vibc_lo0 if is_high. u32 amp :7; u32 fmt :2; // Must be 2. } jc_rumble_fmt2_14bit_t; typedef struct { u32 vibc_hi1:5; u32 vibc_lo1:5; u32 vibc_hi0:5; u32 vibc_lo0:5; u32 code_hi :5; u32 code_lo :5; u32 fmt :2; // Must be 3. } jc_rumble_fmt3_t; typedef struct { u32 is_high:1; u32 is_7bit:1; u32 is_fm :1; u32 vibc_hi1:5; u32 vibc_lo1:5; u32 vibc_hi0:5; u32 vibc_lo0:5; u32 amfm :7; u32 fmt :2; // Must be 1 (not 3). } jc_rumble_fmt3_7bit_t; typedef struct _jc_rumble_t { union { jc_rumble_fmt1_t fmt1; jc_rumble_fmt1_28bit_t fmt1_28b; jc_rumble_fmt3_7bit_t fmt3_7b; jc_rumble_fmt2_t fmt2; jc_rumble_fmt2_14bit_t fmt2_14b; jc_rumble_fmt3_t fmt3; u32 r32; u8 r8[4]; }; } __attribute__((packed)) jc_rumble_t; typedef struct _jc_uart_hdr_t { u8 magic[3]; // Type, Destination, Group. u16 total_size; } __attribute__((packed)) jc_uart_hdr_t; typedef struct _jc_wired_hdr_t { jc_uart_hdr_t uart_hdr; u8 cmd; u8 subcmd; u16 payload_size; // As out, cmd exists query. For JC_WIRED_CMD_SET_PAIRING: 1-4 pairing step. // As in, 0xF: exists. For JC_WIRED_CMD_SET_HIDRATE: 1 wrong rate. u8 status; u8 crc_payload; u8 crc_hdr; u8 payload[]; } __attribute__((packed)) jc_wired_hdr_t; typedef struct _jc_hid_out_rpt_t { u8 cmd; u8 pkt_id; jc_rumble_t rumble[2]; u8 subcmd; u8 subcmd_data[]; } __attribute__((packed)) jc_hid_out_rpt_t; typedef struct _jc_hid_in_rpt_t { u8 cmd; u8 pkt_id; // Latency timer. 5 ms lsb (every 4 x 1.25 ms). u8 conn_info:4; // Connection detect. u8 batt_info:4; // Power info. u16 btn_right:12; u16 btn_left:12; u16 stick_left_x:12; u16 stick_left_y:12; u16 stick_right_x:12; u16 stick_right_y:12; u8 vib_decider; // right:4, left:4 (bit3 en, bit2-0 buffer avail). u8 submcd_ack; u8 subcmd; u8 subcmd_data[]; } __attribute__((packed)) jc_hid_in_rpt_t; typedef struct _jc_hid_out_spi_read_t { u32 addr; u8 size; } __attribute__((packed)) jc_hid_out_spi_read_t; typedef struct _jc_hid_in_spi_read_t { u32 addr; u8 size; u8 data[]; } __attribute__((packed)) jc_hid_in_spi_read_t; typedef struct _jc_hid_in_pair_data_t { u8 magic; u8 size; u16 checksum; u8 mac[6]; u8 ltk[16]; u8 pad0[10]; u8 bt_caps; // bit3: Secure conn supported host, bit5: Paired to TBFC supported host, bit6: iTBFC page supported u8 pad1; } __attribute__((packed)) jc_hid_in_pair_data_t; typedef struct _jc_sio_out_rpt_t { u8 cmd; u8 subcmd; u16 payload_size; u8 data[2]; u8 crc_payload; u8 crc_hdr; u8 payload[]; } __attribute__((packed)) jc_sio_out_rpt_t; typedef struct _jc_sio_in_rpt_t { u8 cmd; u8 subcmd; u16 payload_size; u8 status; u8 unk; u8 crc_payload; u8 crc_hdr; u8 payload[]; } __attribute__((packed)) jc_sio_in_rpt_t; typedef struct _jc_hid_in_sixaxis_rpt_t { s16 acc_x; s16 acc_y; s16 acc_z; s16 gyr_x; s16 gyr_y; s16 gyr_z; } __attribute__((packed)) jc_hid_in_sixaxis_rpt_t; typedef struct _jc_sio_hid_in_rpt_t { u8 type; u8 pkt_id; // Latency timer. u8 unk; u16 btn_right:12; u16 btn_left:12; u16 stick_left_x:12; u16 stick_left_y:12; u16 stick_right_x:12; u16 stick_right_y:12; u8 sixaxis_rpt; // bit0-3: report num. bit4-7: imu type. // Each report is 800 us? jc_hid_in_sixaxis_rpt_t sixaxis[15]; } __attribute__((packed)) jc_sio_hid_in_rpt_t; typedef struct _jc_dev_t { u8 buf[0x100]; u8 uart; u8 type; u8 state; u8 pkt_id; bool detected; bool connected; bool sio_mode; bool rumble_sent; bool charger_req; u32 last_received_time; // Reset with JC_WIRED_CMD_HID_CONN/JC_WIRED_HID. If exceeded HID mode disconnects. u32 last_status_req_time; u32 last_chrger_chk_time; u8 mac[6]; } jc_dev_t; static jc_dev_t jc_l = {0}; static jc_dev_t jc_r = {0}; static bool jc_init_done = false; static jc_gamepad_rpt_t jc_gamepad; static void _jc_rcv_pkt(jc_dev_t *jc); static u8 _jc_crc(const u8 *data, u16 len) { u8 crc = 0; for (u16 i = 0; i < len; i++) { crc ^= data[i]; for (u16 j = 0; j < 8; j++) { if ((crc & 0x80) != 0) crc = (u8)((crc << 1) ^ JC_CRC8_POLY); else crc <<= 1; } } return crc; } static void _jc_power_supply(u8 uart, bool enable) { if (enable) { if (regulator_5v_get_dev_enabled(1 << uart)) return; regulator_5v_enable(1 << uart); if (jc_gamepad.sio_mode) return; if (jc_init_done) { if (uart == UART_C) gpio_write(GPIO_PORT_CC, GPIO_PIN_3, GPIO_HIGH); else gpio_write(GPIO_PORT_K, GPIO_PIN_3, GPIO_HIGH); return; } if (uart == UART_C) { // Joy-Con(L) Charge Enable. PINMUX_AUX(PINMUX_AUX_SPDIF_IN) = PINMUX_PULL_DOWN | 1; gpio_direction_output(GPIO_PORT_CC, GPIO_PIN_3, GPIO_HIGH); } else { // Joy-Con(R) Charge Enable. PINMUX_AUX(PINMUX_AUX_GPIO_PK3) = PINMUX_DRIVE_4X | PINMUX_PULL_DOWN | 2; gpio_direction_output(GPIO_PORT_K, GPIO_PIN_3, GPIO_HIGH); } } else { if (!regulator_5v_get_dev_enabled(1 << uart)) return; regulator_5v_disable(1 << uart); if (jc_gamepad.sio_mode) return; if (uart == UART_C) gpio_write(GPIO_PORT_CC, GPIO_PIN_3, GPIO_LOW); else gpio_write(GPIO_PORT_K, GPIO_PIN_3, GPIO_LOW); } } static void _jc_rail_detect() { // Turn on Joy-Con detect. (UARTB/C TX). UART CTS also if HW flow control and irq is enabled. PINMUX_AUX(PINMUX_AUX_UART2_TX) = PINMUX_INPUT_ENABLE; PINMUX_AUX(PINMUX_AUX_UART3_TX) = PINMUX_INPUT_ENABLE; gpio_direction_input(GPIO_PORT_G, GPIO_PIN_0); gpio_direction_input(GPIO_PORT_D, GPIO_PIN_1); usleep(20); //! HW BUG: Unlatch gpio buffer. (void)gpio_read(GPIO_PORT_H, GPIO_PIN_6); (void)gpio_read(GPIO_PORT_E, GPIO_PIN_6); // Read H6/E6 which are shared with UART TX pins. jc_r.detected = !gpio_read(GPIO_PORT_H, GPIO_PIN_6); jc_l.detected = !gpio_read(GPIO_PORT_E, GPIO_PIN_6); // Turn off Joy-Con detect. (UARTB/C TX). PINMUX_AUX(PINMUX_AUX_UART2_TX) = 0; PINMUX_AUX(PINMUX_AUX_UART3_TX) = 0; gpio_config(GPIO_PORT_G, GPIO_PIN_0, GPIO_MODE_SPIO); gpio_config(GPIO_PORT_D, GPIO_PIN_1, GPIO_MODE_SPIO); usleep(20); } static void _jc_conn_check() { if (jc_gamepad.sio_mode) { //! TODO: Is there a way to detect a broken Sio? jc_l.detected = true; return; } _jc_rail_detect(); // Check if a Joy-Con was disconnected. if (!jc_l.detected) { jc_l.pkt_id = 0; jc_l.connected = false; jc_l.rumble_sent = false; jc_l.charger_req = false; jc_l.last_received_time = 0; jc_gamepad.conn_l = false; jc_gamepad.batt_info_l = 0; jc_gamepad.batt_chrg_l = 0; jc_gamepad.bt_conn_l.type = 0; jc_gamepad.buttons &= ~JC_BTN_MASK_L; } if (!jc_r.detected) { jc_r.pkt_id = 0; jc_r.connected = false; jc_r.rumble_sent = false; jc_r.charger_req = false; jc_r.last_received_time = 0; jc_gamepad.conn_r = false; jc_gamepad.batt_info_r = 0; jc_gamepad.batt_chrg_r = 0; jc_gamepad.bt_conn_r.type = 0; jc_gamepad.buttons &= ~JC_BTN_MASK_R; } } static void _joycon_send_raw(u8 uart_port, const u8 *buf, u16 size) { uart_send(uart_port, buf, size); uart_wait_xfer(uart_port, UART_TX_IDLE); } static u16 _jc_packet_add_uart_hdr(jc_wired_hdr_t *rpt, u8 cmd, u8 subcmd, u16 payload_size, bool crc) { memcpy(rpt->uart_hdr.magic, JC_WIRED_SND_MAGIC, sizeof(rpt->uart_hdr.magic)); rpt->uart_hdr.total_size = sizeof(jc_wired_hdr_t) - sizeof(jc_uart_hdr_t) + payload_size; rpt->cmd = cmd; rpt->subcmd = subcmd; rpt->payload_size = payload_size; // Only used if JC_WIRED_CMD. // Only calculated if JC_WIRED_CMD/JC_WIRED_HID and result never checked? // if (payload_size) // rpt->crc_payload = crc ? _jc_crc(rpt->payload, payload_size) : 0; // Only calculated if JC_WIRED_CMD/JC_WIRED_HID/JC_WIRED_HANDSHAKE and result only checked on HORI. rpt->crc_hdr = crc ? _jc_crc(&rpt->cmd, sizeof(jc_wired_hdr_t) - sizeof(jc_uart_hdr_t) - 1) : 0; return (rpt->uart_hdr.total_size + sizeof(jc_uart_hdr_t)); } static u16 _jc_hid_output_rpt_craft(jc_wired_hdr_t *rpt, const u8 *payload, u16 payload_size, bool crc) { if (payload) memcpy(rpt->payload, payload, payload_size); return _jc_packet_add_uart_hdr(rpt, JC_WIRED_HID, 0, payload_size, crc); } static void _jc_send_hid_output_rpt(jc_dev_t *jc, jc_hid_out_rpt_t *hid_pkt, u16 size, bool crc) { u8 rpt[0x50]; memset(rpt, 0, sizeof(rpt)); hid_pkt->pkt_id = (jc->pkt_id++ & 0xF); u32 rpt_size = _jc_hid_output_rpt_craft((jc_wired_hdr_t *)rpt, (u8 *)hid_pkt, size, crc); _joycon_send_raw(jc->uart, rpt, rpt_size); } static void _jc_send_hid_cmd(jc_dev_t *jc, u8 subcmd, const u8 *data, u16 size) { static const u8 rumble_mute[8] = { 0x00, 0x01, 0x40, 0x40, 0x00, 0x01, 0x40, 0x40 }; static const u8 rumble_init[8] = { 0xc2, 0xc8, 0x03, 0x72, 0xc2, 0xc8, 0x03, 0x72 }; u8 temp[0x30] = {0}; jc_hid_out_rpt_t *hid_pkt = (jc_hid_out_rpt_t *)temp; memcpy(hid_pkt->rumble, rumble_mute, sizeof(rumble_mute)); if (subcmd == JC_HID_SUBCMD_SND_RUMBLE) { bool send_r_rumble = jc_r.connected && !jc_r.rumble_sent; bool send_l_rumble = jc_l.connected && !jc_l.rumble_sent; // Enable rumble. hid_pkt->cmd = JC_HID_OUTPUT_RPT; hid_pkt->subcmd = JC_HID_SUBCMD_RUMBLE_CTL; hid_pkt->subcmd_data[0] = 1; if (send_r_rumble) _jc_send_hid_output_rpt(&jc_r, hid_pkt, 0x10, false); if (send_l_rumble) _jc_send_hid_output_rpt(&jc_l, hid_pkt, 0x10, false); msleep(15); if (send_r_rumble) _jc_rcv_pkt(&jc_r); if (send_l_rumble) _jc_rcv_pkt(&jc_l); // Send rumble. hid_pkt->cmd = JC_HID_RUMBLE_RPT; memcpy(hid_pkt->rumble, rumble_init, sizeof(rumble_init)); if (send_r_rumble) _jc_send_hid_output_rpt(&jc_r, hid_pkt, 10, false); if (send_l_rumble) _jc_send_hid_output_rpt(&jc_l, hid_pkt, 10, false); msleep(15); // Mute rumble. hid_pkt->cmd = JC_HID_RUMBLE_RPT; memcpy(hid_pkt->rumble, rumble_mute, sizeof(rumble_mute)); if (send_r_rumble) _jc_send_hid_output_rpt(&jc_r, hid_pkt, 10, false); if (send_l_rumble) _jc_send_hid_output_rpt(&jc_l, hid_pkt, 10, false); } else { bool crc_needed = jc->type & JC_ID_HORI; hid_pkt->cmd = JC_HID_OUTPUT_RPT; hid_pkt->subcmd = subcmd; if (data) memcpy(hid_pkt->subcmd_data, data, size); _jc_send_hid_output_rpt(jc, hid_pkt, sizeof(jc_hid_out_rpt_t) + size, crc_needed); } } static void _jc_parse_input(jc_dev_t *jc, const jc_hid_in_rpt_t *hid_pkt) { u32 btn_tmp; btn_tmp = hid_pkt->btn_right | hid_pkt->btn_left << 12; if (jc->type & JC_ID_L) { jc_gamepad.buttons &= ~JC_BTN_MASK_L; jc_gamepad.buttons |= (btn_tmp & JC_BTN_MASK_L); jc_gamepad.lstick_x = hid_pkt->stick_left_x; jc_gamepad.lstick_y = hid_pkt->stick_left_y; jc_gamepad.batt_info_l = hid_pkt->batt_info; } else if (jc->type & JC_ID_R) { jc_gamepad.buttons &= ~JC_BTN_MASK_R; jc_gamepad.buttons |= (btn_tmp & JC_BTN_MASK_R); jc_gamepad.rstick_x = hid_pkt->stick_right_x; jc_gamepad.rstick_y = hid_pkt->stick_right_y; jc_gamepad.batt_info_r = hid_pkt->batt_info; } } static void _jc_parse_wired_hid(jc_dev_t *jc, const u8 *packet, int size) { const jc_hid_in_rpt_t *hid_pkt = (jc_hid_in_rpt_t *)packet; switch (hid_pkt->cmd) { case JC_HORI_INPUT_RPT: if (!(jc->type & JC_ID_HORI)) return; case JC_HID_INPUT_RPT: // Discard incomplete hid packets. if (size < 12) break; _jc_parse_input(jc, hid_pkt); jc_gamepad.conn_l = jc_l.connected; jc_gamepad.conn_r = jc_r.connected; break; case JC_HID_SUBMCD_RPT: if (hid_pkt->subcmd == JC_HID_SUBCMD_SPI_READ) { jc_bt_conn_t *bt_conn; if (jc->type & JC_ID_L) bt_conn = &jc_gamepad.bt_conn_l; else bt_conn = &jc_gamepad.bt_conn_r; jc_hid_in_spi_read_t *spi_info = (jc_hid_in_spi_read_t *)hid_pkt->subcmd_data; jc_hid_in_pair_data_t *pair_data = (jc_hid_in_pair_data_t *)spi_info->data; // Check if the reply is pairing info. if (spi_info->size == 0x1A && pair_data->magic == 0x95 && pair_data->size == 0x22) { bt_conn->type = jc->type; memcpy(bt_conn->mac, jc->mac, 6); memcpy(bt_conn->host_mac, pair_data->mac, 6); for (u32 i = 16; i > 0; i--) bt_conn->ltk[16 - i] = pair_data->ltk[i - 1]; } } else if (hid_pkt->subcmd == JC_HID_SUBCMD_CHARGE_SET) jc->charger_req = false; _jc_parse_input(jc, hid_pkt); break; default: break; } } static void _jc_parse_wired_init(jc_dev_t *jc, const jc_wired_hdr_t *pkt, int size) { // Discard empty packets. if (size <= 0) return; const u8 *payload = pkt->payload; switch (pkt->subcmd) { case JC_WIRED_CMD_GET_INFO: if (!pkt->status) { for (int i = 6; i > 0; i--) jc->mac[6 - i] = payload[i]; jc->type = payload[0]; jc->state = JC_STATE_INFO_PARSED; } break; case JC_WIRED_CMD_SET_BRATE: if (!pkt->status) jc->state = JC_STATE_BRATE_CHANGED; break; case JC_WIRED_CMD_HID_DISC: if (pkt->status == 0xF) jc->state = JC_STATE_HID_NO_CONN; break; case JC_WIRED_CMD_HID_CONN: if (!pkt->status) jc->state = JC_STATE_HID_CONN; break; case JC_WIRED_CMD_SET_HIDRATE: jc->state = JC_STATE_INIT_DONE; jc->connected = true; break; default: break; } } static void _jc_uart_pkt_parse(jc_dev_t *jc, const jc_wired_hdr_t *pkt, int size) { switch (pkt->cmd) { case JC_HORI_INPUT_RPT_CMD: case JC_WIRED_HID: _jc_parse_wired_hid(jc, pkt->payload, size - sizeof(jc_wired_hdr_t)); break; case JC_WIRED_INIT_REPLY: _jc_parse_wired_init(jc, pkt, size); break; case JC_WIRED_HANDSHAKE: jc->state = JC_STATE_HANDSHAKED; break; default: break; } jc->last_received_time = get_tmr_ms(); } static void _jc_sio_parse_payload(jc_dev_t *jc, u8 cmd, const u8 *payload, int size) { switch (cmd) { case JC_SIO_CMD_STATUS: // Discard incomplete packets. if (size < 12) break; jc_sio_hid_in_rpt_t *hid_pkt = (jc_sio_hid_in_rpt_t *)payload; jc_gamepad.buttons = hid_pkt->btn_right | hid_pkt->btn_left << 12; jc_gamepad.home = !gpio_read(GPIO_PORT_V, GPIO_PIN_3); jc_gamepad.lstick_x = hid_pkt->stick_left_x; jc_gamepad.lstick_y = hid_pkt->stick_left_y; jc_gamepad.rstick_x = hid_pkt->stick_right_x; jc_gamepad.rstick_y = hid_pkt->stick_right_y; jc_gamepad.batt_info_l = jc_l.connected; jc_gamepad.batt_info_r = gpio_read(GPIO_PORT_E, GPIO_PIN_7); // Set IRQ status. jc_gamepad.conn_l = jc_l.connected; jc_gamepad.conn_r = jc_l.connected; break; default: break; } } static void _jc_sio_uart_pkt_parse(jc_dev_t *jc, const jc_sio_in_rpt_t *pkt, int size) { if (pkt->crc_hdr != _jc_crc((u8 *)pkt, sizeof(jc_sio_in_rpt_t) - 1)) return; u8 cmd = pkt->subcmd & (~JC_SIO_CMD_ACK); switch (cmd) { case JC_SIO_CMD_INIT: if (!pkt->status) jc->state = JC_STATE_HANDSHAKED; break; case JC_SIO_CMD_VER_RPT: if (!pkt->status) jc->state = JC_STATE_HID_CONN; break; case JC_SIO_CMD_IAP_VER: case JC_SIO_CMD_STATUS: _jc_sio_parse_payload(jc, cmd, pkt->payload, size - sizeof(jc_sio_in_rpt_t)); break; case JC_SIO_CMD_UNK02: case JC_SIO_CMD_UNK20: case JC_SIO_CMD_UNK21: case JC_SIO_CMD_UNK22: case JC_SIO_CMD_UNK40: default: break; } jc->last_received_time = get_tmr_ms(); } static void _jc_rcv_pkt(jc_dev_t *jc) { if (!jc->detected) return; u32 len = uart_recv(jc->uart, (u8 *)jc->buf, sizeof(jc->buf)); if (len < 8) return; // For Joycon, check uart reply magic. jc_wired_hdr_t *jc_pkt = (jc_wired_hdr_t *)jc->buf; if (!jc->sio_mode && !memcmp(jc_pkt->uart_hdr.magic, JC_WIRED_RCV_MAGIC, sizeof(jc_pkt->uart_hdr.magic))) { _jc_uart_pkt_parse(jc, jc_pkt, len); return; } // For Sio, check uart output report and command ack. jc_sio_in_rpt_t *sio_pkt = (jc_sio_in_rpt_t *)(jc->buf); if (jc->sio_mode && sio_pkt->cmd == JC_SIO_INPUT_RPT && (sio_pkt->subcmd & JC_SIO_CMD_ACK) == JC_SIO_CMD_ACK) { _jc_sio_uart_pkt_parse(jc, sio_pkt, len); return; } } static bool _jc_handle_charging(jc_dev_t *jc) { if (jc->last_chrger_chk_time > get_tmr_ms()) return false; jc->last_chrger_chk_time = get_tmr_ms() + 5000; u8 old_mode, batt_now; if (jc->uart == UART_B) { batt_now = jc_gamepad.batt_info_r; old_mode = jc_gamepad.batt_chrg_r; } else { batt_now = jc_gamepad.batt_info_l; old_mode = jc_gamepad.batt_chrg_l; } // Let battery level settle if init. u8 new_mode = old_mode; if (!old_mode) { new_mode = JC_CHRG_STATE_SUPL; if ((batt_now >> 1) <= JC_BATT_LOW) new_mode = JC_CHRG_STATE_SLOW; goto set_mode; } // Resend if no reply. if (jc->charger_req) goto set_mode; // Power supply control based on battery levels and charging. switch (batt_now >> 1) { case JC_BATT_EMPTY: case JC_BATT_CRIT: case JC_BATT_LOW: new_mode = JC_CHRG_STATE_SLOW; break; case JC_BATT_MID: if (!(batt_now & 1)) new_mode = JC_CHRG_STATE_SUPL; break; case JC_BATT_FULL: new_mode = JC_CHRG_STATE_OFF; break; } // Check if already configured. if (new_mode == old_mode) return false; set_mode: if (jc->uart == UART_B) jc_gamepad.batt_chrg_r = new_mode; else jc_gamepad.batt_chrg_l = new_mode; switch (new_mode) { case JC_CHRG_STATE_OFF: _jc_power_supply(jc->uart, false); new_mode = JC_CHRG_CFG_SUPL0; break; case JC_CHRG_STATE_SUPL: _jc_power_supply(jc->uart, true); new_mode = JC_CHRG_CFG_SUPL0; break; case JC_CHRG_STATE_SLOW: _jc_power_supply(jc->uart, true); new_mode = JC_CHRG_CFG_100MA; break; } _jc_send_hid_cmd(jc, JC_HID_SUBCMD_CHARGE_SET, (u8 *)&new_mode, sizeof(new_mode)); jc->charger_req = true; jc->last_status_req_time = get_tmr_ms() + 15; return true; } static bool _jc_send_enable_rumble(jc_dev_t *jc) { bool send_r_rumble = jc_r.connected && !jc_r.rumble_sent; bool send_l_rumble = jc_l.connected && !jc_l.rumble_sent; // Do not sent report yet if second Joy-Con is expected to be initialized. if ((send_r_rumble && !jc_l.rumble_sent && jc_l.state == JC_STATE_HID_CONN) || (send_l_rumble && !jc_r.rumble_sent && jc_r.state == JC_STATE_HID_CONN)) return 1; // Send init rumble or request nx pad status report. if (send_r_rumble || send_l_rumble) { _jc_send_hid_cmd(jc, JC_HID_SUBCMD_SND_RUMBLE, NULL, 0); if (jc_l.connected) jc_l.rumble_sent = true; if (jc_r.connected) jc_r.rumble_sent = true; jc->last_chrger_chk_time = get_tmr_ms() + 5000; return 1; } return 0; } static void _jc_req_status(jc_dev_t *jc) { if (!jc->connected) return; if (jc->last_status_req_time > get_tmr_ms()) return; bool is_nxpad = !(jc->type & JC_ID_HORI) && !jc->sio_mode; // Init/maintenance for Joy-Con. if (is_nxpad) { if (_jc_send_enable_rumble(jc)) return; if (_jc_handle_charging(jc)) return; } if (is_nxpad) _joycon_send_raw(jc->uart, _jc_nx_pad_status, sizeof(_jc_nx_pad_status)); else if (jc->sio_mode) _joycon_send_raw(jc->uart, _sio_pad_status, sizeof(_sio_pad_status)); else _joycon_send_raw(jc->uart, _jc_hori_pad_status, sizeof(_jc_hori_pad_status)); jc->last_status_req_time = get_tmr_ms() + (!jc->sio_mode ? 15 : 7); } static bool _jc_validate_pairing_info(const u8 *buf, bool *is_hos) { u8 crc = 0; for (u32 i = 0; i < 0x22; i++) crc += buf[4 + i]; crc += 0x68; // Host is Switch. if ((crc ^ 0x55) == buf[2]) *is_hos = true; crc -= 0x68; crc += 0x08; // Host is PC. if (*is_hos || (crc ^ 0x55) == buf[2]) return true; return false; } jc_gamepad_rpt_t *jc_get_bt_pairing_info(bool *is_l_hos, bool *is_r_hos) { u8 retries; jc_bt_conn_t *bt_conn; if (!jc_init_done || jc_gamepad.sio_mode) return NULL; // Detect and init if needed. for (u32 i = 0; i < 6; i++) { joycon_poll(); msleep(15); } while ((jc_l.last_status_req_time + 15) > get_tmr_ms()) { _jc_rcv_pkt(&jc_r); _jc_rcv_pkt(&jc_l); } bt_conn = &jc_gamepad.bt_conn_l; memset(bt_conn->host_mac, 0, 6); memset(bt_conn->ltk, 0, 16); bt_conn = &jc_gamepad.bt_conn_r; memset(bt_conn->host_mac, 0, 6); memset(bt_conn->ltk, 0, 16); // Setup initial SPI address. jc_hid_out_spi_read_t subcmd_data_l; subcmd_data_l.addr = 0x2000; subcmd_data_l.size = 0x1A; jc_hid_out_spi_read_t subcmd_data_r; subcmd_data_r.addr = 0x2000; subcmd_data_r.size = 0x1A; bool jc_r_found = jc_r.connected ? false : true; bool jc_l_found = jc_l.connected ? false : true; // Set mode to HW controlled RTS. uart_set_mode(jc_l.uart, UART_AO_TX_HW_RX); uart_set_mode(jc_r.uart, UART_AO_TX_HW_RX); u32 total_retries = 10; retry: retries = 10; while (retries) { u32 time_now = get_tmr_ms(); if ((!jc_l_found && jc_l.last_status_req_time < time_now) || (!jc_r_found && jc_r.last_status_req_time < time_now)) { if (!jc_l_found) { _jc_send_hid_cmd(&jc_l, JC_HID_SUBCMD_SPI_READ, (u8 *)&subcmd_data_l, sizeof(jc_hid_out_spi_read_t)); jc_l.last_status_req_time = get_tmr_ms() + 15; } if (!jc_r_found) { _jc_send_hid_cmd(&jc_r, JC_HID_SUBCMD_SPI_READ, (u8 *)&subcmd_data_r, sizeof(jc_hid_out_spi_read_t)); jc_r.last_status_req_time = get_tmr_ms() + 15; } retries--; } // Wait for the first 36 bytes to arrive. msleep(5); if (!jc_l_found) { memset(jc_l.buf, 0, 0x100); _jc_rcv_pkt(&jc_l); bool is_hos = false; if (_jc_validate_pairing_info(&jc_l.buf[SPI_READ_OFFSET], &is_hos)) { bool is_active = jc_l.buf[SPI_READ_OFFSET] == 0x95; if (!is_active) subcmd_data_l.addr += sizeof(jc_hid_in_pair_data_t); // Get next slot. else jc_l_found = true; // Entry is active. if (jc_l_found && is_hos) *is_l_hos = true; } } if (!jc_r_found) { memset(jc_r.buf, 0, 0x100); _jc_rcv_pkt(&jc_r); bool is_hos = false; if (_jc_validate_pairing_info(&jc_r.buf[SPI_READ_OFFSET], &is_hos)) { bool is_active = jc_r.buf[SPI_READ_OFFSET] == 0x95; if (!is_active) subcmd_data_r.addr += sizeof(jc_hid_in_pair_data_t); // Get next slot. else jc_r_found = true; // Entry is active. if (jc_r_found && is_hos) *is_r_hos = true; } } if (jc_l_found && jc_r_found) break; } if (!jc_l_found || !jc_r_found) { if (total_retries) { total_retries--; goto retry; } if (!jc_l_found) { bt_conn = &jc_gamepad.bt_conn_l; memset(bt_conn->host_mac, 0, 6); memset(bt_conn->ltk, 0, 16); } if (!jc_r_found) { bt_conn = &jc_gamepad.bt_conn_r; memset(bt_conn->host_mac, 0, 6); memset(bt_conn->ltk, 0, 16); } } // Restore mode to manual RTS. uart_set_mode(jc_l.uart, UART_AO_TX_MN_RX); uart_set_mode(jc_r.uart, UART_AO_TX_MN_RX); return &jc_gamepad; } static void _jc_conn_init(jc_dev_t *jc) { if (!jc->detected) return; /* * Try to reinit if no input report. * Actual connection timeout is 2000ms on official Joycon. * Based on last JC_WIRED_CMD_HID_CONN/JC_WIRED_HID sent. */ if (((u32)get_tmr_ms() - jc->last_received_time) > 1800) { if (!jc->sio_mode) _jc_power_supply(jc->uart, true); // Mask out buttons and set connected to false. if (jc->uart == UART_B) { jc_gamepad.batt_chrg_r = 0; jc_gamepad.buttons &= ~JC_BTN_MASK_R; jc_gamepad.conn_r = false; } else { jc_gamepad.batt_chrg_l = 0; jc_gamepad.buttons &= ~JC_BTN_MASK_L; jc_gamepad.conn_l = false; } // Initialize uart to 1 megabaud and manual RTS. uart_init(jc->uart, 1000000, UART_AO_TX_MN_RX); jc->state = JC_STATE_START; if (!jc->sio_mode) { jc_gamepad.buttons = 0; // Set TX and RTS inversion for Joycon. uart_invert(jc->uart, true, UART_INVERT_TXD | UART_INVERT_RTS); // Initialize. u32 retries = 10; while (retries && jc->state != JC_STATE_HANDSHAKED) { // Wake up the controller. _joycon_send_raw(jc->uart, _jc_init_wake, sizeof(_jc_init_wake)); _jc_rcv_pkt(jc); // Clear RX FIFO. // Do a handshake. _joycon_send_raw(jc->uart, _jc_init_handshake, sizeof(_jc_init_handshake)); msleep(4); _jc_rcv_pkt(jc); retries--; } if (jc->state != JC_STATE_HANDSHAKED) goto out; // Get info about the controller. _joycon_send_raw(jc->uart, _jc_init_get_info, sizeof(_jc_init_get_info)); msleep(2); _jc_rcv_pkt(jc); if (jc->state != JC_STATE_INFO_PARSED) goto out; if (!(jc->type & JC_ID_HORI)) { // Request 3 megabaud change. _joycon_send_raw(jc->uart, _jc_init_switch_brate, sizeof(_jc_init_switch_brate)); msleep(2); _jc_rcv_pkt(jc); if (jc->state == JC_STATE_BRATE_CHANGED) { // Reinitialize uart to 3 megabaud and manual RTS. uart_init(jc->uart, 3000000, UART_AO_TX_MN_RX); uart_invert(jc->uart, true, UART_INVERT_TXD | UART_INVERT_RTS); // Make sure HID is disconnected and check connection. Reply expected after 30ms. retries = 10; while (retries && jc->state != JC_STATE_HID_NO_CONN) { _joycon_send_raw(jc->uart, _jc_init_hid_disconnect, sizeof(_jc_init_hid_disconnect)); msleep(5); _jc_rcv_pkt(jc); retries--; } // Was connected before or no response. Do a reinit. if (jc->state != JC_STATE_HID_NO_CONN) goto out; } // Create HID connection with the new rate. _joycon_send_raw(jc->uart, _jc_init_hid_connect, sizeof(_jc_init_hid_connect)); msleep(2); _jc_rcv_pkt(jc); if (jc->state != JC_STATE_HID_CONN) goto out; // Set hid packet rate. _joycon_send_raw(jc->uart, _jc_init_set_hid_rate, sizeof(_jc_init_set_hid_rate)); msleep(2); _jc_rcv_pkt(jc); goto out; // Wait for set hid rate reply. } else // Hori. Unset RTS inversion. uart_invert(jc->uart, false, UART_INVERT_RTS); } else { // Set Sio NPOR low to configure BOOT0 mode. gpio_write(GPIO_PORT_CC, GPIO_PIN_5, GPIO_LOW); usleep(300); gpio_write(GPIO_PORT_T, GPIO_PIN_0, GPIO_LOW); gpio_write(GPIO_PORT_CC, GPIO_PIN_5, GPIO_HIGH); msleep(100); // Clear RX FIFO. _jc_rcv_pkt(jc); // Initialize the controller. u32 retries = 10; while (retries && jc->state != JC_STATE_HANDSHAKED) { _joycon_send_raw(jc->uart, _sio_init, sizeof(_sio_init)); msleep(5); _jc_rcv_pkt(jc); retries--; } if (jc->state != JC_STATE_HANDSHAKED) goto out; // Set output report version. retries = 10; while (retries && jc->state != JC_STATE_HID_CONN) { _joycon_send_raw(jc->uart, _sio_set_rpt_version, sizeof(_sio_set_rpt_version)); msleep(5); _jc_rcv_pkt(jc); retries--; } if (jc->state != JC_STATE_HID_CONN) goto out; } // Initialization done. jc->state = JC_STATE_INIT_DONE; jc->connected = true; out: jc->last_received_time = get_tmr_ms(); } } void jc_init_hw() { jc_l.uart = UART_C; jc_r.uart = UART_B; jc_l.sio_mode = fuse_read_hw_type() == FUSE_NX_HW_TYPE_HOAG; jc_gamepad.sio_mode = jc_l.sio_mode; #if !defined(DEBUG_UART_PORT) || !(DEBUG_UART_PORT) // Sio Initialization. if (jc_gamepad.sio_mode) { // Enable 4 MHz clock to Sio. clock_enable_extperiph2(); PINMUX_AUX(PINMUX_AUX_TOUCH_CLK) = PINMUX_PULL_DOWN; // Configure Sio HOME BUTTON. PINMUX_AUX(PINMUX_AUX_LCD_GPIO1) = PINMUX_INPUT_ENABLE | PINMUX_TRISTATE | PINMUX_PULL_UP | 1; gpio_direction_input(GPIO_PORT_V, GPIO_PIN_3); // Configure Sio IRQ PINMUX_AUX(PINMUX_AUX_GPIO_PE7) = PINMUX_INPUT_ENABLE | PINMUX_TRISTATE | PINMUX_PULL_UP; gpio_direction_input(GPIO_PORT_E, GPIO_PIN_7); // Configure Sio NRST and BOOT0. PINMUX_AUX(PINMUX_AUX_CAM1_STROBE) = PINMUX_PULL_DOWN | 1; PINMUX_AUX(PINMUX_AUX_CAM2_PWDN) = PINMUX_PULL_DOWN | 1; // Set BOOT0 to flash mode. (output high is sram mode). gpio_direction_output(GPIO_PORT_T, GPIO_PIN_0, GPIO_LOW); // NRST to pull down. gpio_direction_input(GPIO_PORT_T, GPIO_PIN_1); // Configure Sio NPOR. PINMUX_AUX(PINMUX_AUX_USB_VBUS_EN1) = PINMUX_IO_HV | PINMUX_LPDR | 1; gpio_direction_output(GPIO_PORT_CC, GPIO_PIN_5, GPIO_LOW); } else { _jc_power_supply(UART_C, true); _jc_power_supply(UART_B, true); } #if 0 // Already set by hw init. // Set Joy-Con IsAttached pinmux. Shared with UARTB/UARTC TX. PINMUX_AUX(PINMUX_AUX_GPIO_PE6) = PINMUX_INPUT_ENABLE | PINMUX_TRISTATE; PINMUX_AUX(PINMUX_AUX_GPIO_PH6) = PINMUX_INPUT_ENABLE | PINMUX_TRISTATE; // Set Joy-Con IsAttached mode. Shared with UARTB/UARTC TX. gpio_config(GPIO_PORT_E, GPIO_PIN_6, GPIO_MODE_GPIO); gpio_config(GPIO_PORT_H, GPIO_PIN_6, GPIO_MODE_GPIO); #endif // Configure pinmuxing for UART B and C. if (!jc_gamepad.sio_mode) pinmux_config_uart(UART_B); pinmux_config_uart(UART_C); // Enable UART B and C clocks. if (!jc_gamepad.sio_mode) clock_enable_uart(UART_B); clock_enable_uart(UART_C); jc_init_done = true; #endif } void jc_deinit() { if (!jc_init_done) return; jc_init_done = false; if (!jc_gamepad.sio_mode) { // Disable power. _jc_power_supply(UART_B, false); _jc_power_supply(UART_C, false); // Send sleep command. u8 data = HCI_STATE_SLEEP; if (jc_r.connected && !(jc_r.type & JC_ID_HORI)) { _jc_send_hid_cmd(&jc_r, JC_HID_SUBCMD_HCI_STATE, &data, 1); _jc_rcv_pkt(&jc_r); } if (jc_l.connected && !(jc_l.type & JC_ID_HORI)) { _jc_send_hid_cmd(&jc_l, JC_HID_SUBCMD_HCI_STATE, &data, 1); _jc_rcv_pkt(&jc_l); } } else { // Disable Sio NPOR. gpio_write(GPIO_PORT_CC, GPIO_PIN_5, GPIO_LOW); // Disable 4 MHz clock to Sio. clock_disable_extperiph2(); } // Disable UART B and C clocks. if (!jc_gamepad.sio_mode) clock_disable_uart(UART_B); clock_disable_uart(UART_C); } jc_gamepad_rpt_t *joycon_poll() { if (!jc_init_done) return NULL; _jc_conn_check(); _jc_conn_init(&jc_r); _jc_conn_init(&jc_l); _jc_req_status(&jc_r); _jc_req_status(&jc_l); _jc_rcv_pkt(&jc_r); _jc_rcv_pkt(&jc_l); return &jc_gamepad; } ================================================ FILE: bdk/input/joycon.h ================================================ /* * Ambient light sensor driver for Nintendo Switch's Rohm BH1730 * * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef __JOYCON_H_ #define __JOYCON_H_ #include #define JC_BTNS_DIRECTION_PAD 0xF0000 #define JC_BTNS_PREV_NEXT 0x800080 #define JC_BTNS_ENTER 0x400008 #define JC_BTNS_ESC 0x4 #define JC_BTNS_ALL (JC_BTNS_PREV_NEXT | JC_BTNS_ENTER | JC_BTNS_DIRECTION_PAD | JC_BTNS_ESC) typedef struct _jc_bt_conn_t { u8 type; u8 mac[6]; u8 host_mac[6]; u8 ltk[16]; } jc_bt_conn_t; typedef struct _jc_gamepad_rpt_t { union { struct { // Joy-Con (R). /*00*/ u32 y:1; /*01*/ u32 x:1; /*02*/ u32 b:1; /*03*/ u32 a:1; /*04*/ u32 sr_r:1; /*05*/ u32 sl_r:1; /*06*/ u32 r:1; /*07*/ u32 zr:1; // Shared /*08*/ u32 minus:1; /*09*/ u32 plus:1; /*10*/ u32 r3:1; /*11*/ u32 l3:1; /*12*/ u32 home:1; /*13*/ u32 cap:1; /*14*/ u32 pad:1; /*15*/ u32 wired:1; // Joy-Con (L). /*16*/ u32 down:1; /*17*/ u32 up:1; /*18*/ u32 right:1; /*19*/ u32 left:1; /*20*/ u32 sr_l:1; /*21*/ u32 sl_l:1; /*22*/ u32 l:1; /*23*/ u32 zl:1; }; u32 buttons; }; u16 lstick_x; u16 lstick_y; u16 rstick_x; u16 rstick_y; bool center_stick_l; bool center_stick_r; bool conn_l; bool conn_r; bool sio_mode; u8 batt_info_l; // Also Sio Connected status. u8 batt_info_r; // Also Sio IRQ. u8 batt_chrg_l; u8 batt_chrg_r; jc_bt_conn_t bt_conn_l; jc_bt_conn_t bt_conn_r; } jc_gamepad_rpt_t; typedef struct _jc_calib_t { u16 x_max:12; u16 y_max:12; u16 x_center:12; u16 y_center:12; u16 x_min:12; u16 y_min:12; } __attribute__((packed)) jc_calib_t; void jc_init_hw(); void jc_deinit(); jc_gamepad_rpt_t *joycon_poll(); jc_gamepad_rpt_t *jc_get_bt_pairing_info(bool *is_l_hos, bool *is_r_hos); #endif ================================================ FILE: bdk/input/touch.c ================================================ /* * Touch driver for Nintendo Switch's STM FingerTip S (FTM4CD60DA1BE/FTM4CD50TA1BE) touch controller * * Copyright (c) 2018 langerhans * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include "touch.h" static touch_panel_info_t _panels[] = { { 0, 1, 1, 1, "NISSHA NFT-K12D" },// 0. { 1, 0, 1, 1, "GiS GGM6 B2X" },// 1. { 2, 0, 0, 0, "NISSHA NBF-K9A" },// 3. { 3, 1, 0, 0, "GiS 5.5\"" },// 4. { 4, 0, 0, 1, "Samsung TSP" },// 5? { -1, 1, 0, 1, "GiS VA 6.2\"" } // 2. }; static touch_info_t _touch_info = { 0 }; static touch_panel_info_t _touch_panel_info = { 0 }; static int _touch_command(u8 cmd, u8 *buf, u8 size) { return i2c_send_buf_small(I2C_3, FTS4_I2C_ADDR, cmd, buf, size); } static int _touch_read_reg(u8 *cmd, u32 csize, u8 *buf, u32 size) { return i2c_xfer_packet(I2C_3, FTS4_I2C_ADDR, cmd, csize, buf, size); } int touch_get_event_count() { u8 cmd[3] = { FTS4_CMD_HW_REG_READ, 0, FTS4_HW_REG_EVENT_COUNT }; u8 buf[2]; if (_touch_read_reg(cmd, sizeof(cmd), buf, sizeof(buf))) return 0; return (buf[1] >> 1); } static int _touch_wait_event(u8 event, u8 status, u32 timeout, u8 *buf) { u32 timer = get_tmr_ms() + timeout; while (true) { if (!touch_get_event_count()) goto retry; u8 tmp[FTS4_EVENT_SIZE]; int res = i2c_recv_buf_big(tmp, FTS4_EVENT_SIZE, I2C_3, FTS4_I2C_ADDR, FTS4_CMD_READ_ONE_EVENT); // Check that event type and status match. if (!res && tmp[0] == event && tmp[1] == status) { if (buf) memcpy(buf, &tmp[2], 6); return 0; } retry: usleep(500); if (get_tmr_ms() > timer) return 1; } } #define X_REAL_MAX 1264 #define Y_REAL_MAX 704 #define EDGE_OFFSET 15 static void _touch_compensate_limits(touch_event_t *event, bool touching) { event->x = MAX(event->x, EDGE_OFFSET); event->x = MIN(event->x, X_REAL_MAX); event->x -= EDGE_OFFSET; u32 x_adj = (1280 * 1000) / (X_REAL_MAX - EDGE_OFFSET); event->x = ((u32)event->x * x_adj) / 1000; if (touching) { event->y = MAX(event->y, EDGE_OFFSET); event->y = MIN(event->y, Y_REAL_MAX); event->y -= EDGE_OFFSET; u32 y_adj = (720 * 1000) / (Y_REAL_MAX - EDGE_OFFSET); event->y = ((u32)event->y * y_adj) / 1000; } } static void _touch_process_contact_event(touch_event_t *event, bool touching) { event->x = (event->raw[1] << 4) | ((event->raw[3] & FTS4_MASK_Y_LSB) >> 4); // Normally, GUI elements have bigger horizontal estate. // Avoid parsing y axis when finger is removed to minimize touch noise. if (touching) { event->y = (event->raw[2] << 4) | (event->raw[3] & FTS4_MASK_X_MSB); event->z = event->raw[4] | (event->raw[5] << 8); event->z = event->z << 6; u16 tmp = 0x40; if ((event->raw[6] & 0x3F) != 1 && (event->raw[6] & 0x3F) != 0x3F) tmp = event->raw[6] & 0x3F; event->z /= tmp + 0x40; event->finger = ((event->raw[0] & FTS4_MASK_TOUCH_ID) >> 4) + 1; } else event->finger = 0; _touch_compensate_limits(event, touching); } static int _touch_parse_input_event(touch_event_t *event) { switch (event->raw[0] & FTS4_MASK_EVENT_ID) { case FTS4_EV_MULTI_TOUCH_ENTER: case FTS4_EV_MULTI_TOUCH_MOTION: _touch_process_contact_event(event, true); if (event->z < 500) // Reject palm rest. event->touch = true; else event->touch = false; return 0; case FTS4_EV_MULTI_TOUCH_LEAVE: event->touch = false; _touch_process_contact_event(event, false); return 0; default: return 1; // No event. } } int touch_poll(touch_event_t *event) { u8 cmd = !_touch_info.clone ? FTS4_CMD_LATEST_EVENT : FTS4_CMD_READ_ONE_EVENT; int res = i2c_recv_buf_big(event->raw, FTS4_EVENT_SIZE, I2C_3, FTS4_I2C_ADDR, cmd); if (!res) res = _touch_parse_input_event(event); return res; } touch_info_t *touch_get_chip_info() { u8 buf[7] = { 0 }; // Get chip info. u8 cmd[3] = { FTS4_CMD_HW_REG_READ, 0, FTS4_HW_REG_CHIP_ID_INFO }; if (_touch_read_reg(cmd, sizeof(cmd), buf, sizeof(buf))) { memset(&_touch_info, 0, sizeof(touch_info_t)); goto exit; } _touch_info.chip_id = buf[1] << 8 | buf[2]; _touch_info.fw_ver = buf[3] << 8 | buf[4]; _touch_info.config_id = buf[5]; _touch_info.config_ver = buf[6]; // Validate that device is genuine or proper. cmd[2] = 2; _touch_read_reg(cmd, sizeof(cmd), buf, sizeof(buf)); _touch_info.clone = _touch_info.chip_id != (buf[3] << 8 | buf[4]); exit: return &_touch_info; } touch_panel_info_t *touch_get_panel_vendor() { _touch_panel_info.idx = -2; u8 cmd = FTS4_VENDOR_GPIO_STATE; if (_touch_command(FTS4_CMD_VENDOR, &cmd, 1)) return NULL; u8 buf[6] = { 0 }; if (_touch_wait_event(FTS4_EV_VENDOR, FTS4_VENDOR_GPIO_STATE, 2000, buf)) return NULL; for (u32 i = 0; i < ARRAY_SIZE(_panels); i++) { touch_panel_info_t *panel = &_panels[i]; if (buf[0] == panel->gpio0 && buf[1] == panel->gpio1 && buf[2] == panel->gpio2) return panel; } // Touch panel not found, return current gpios. _touch_panel_info.gpio0 = buf[0]; _touch_panel_info.gpio1 = buf[1]; _touch_panel_info.gpio2 = buf[2]; return &_touch_panel_info; } int touch_get_fw_info(touch_fw_info_t *fw) { u8 buf[9] = { 0 }; memset(fw, 0, sizeof(touch_fw_info_t)); // Get fw address info. u8 cmd[3] = { FTS4_CMD_FB_REG_READ, 0, 0x60 }; int res = _touch_read_reg(cmd, sizeof(cmd), buf, 3); if (!res) { // Get fw info. cmd[1] = buf[2]; cmd[2] = buf[1]; res = _touch_read_reg(cmd, sizeof(cmd), buf, sizeof(buf)); if (!res) { fw->fw_id = (buf[1] << 24) | (buf[2] << 16) | (buf[3] << 8) | buf[4]; fw->ftb_ver = (buf[6] << 8) | buf[5]; fw->fw_rev = (buf[8] << 8) | buf[7]; } } return res; } int touch_sys_reset() { u8 cmd[3] = { 0, FTS4_HW_REG_SYS_RESET, 0x80 }; // System reset cmd. for (u8 retries = 0; retries < 3; retries++) { if (_touch_command(FTS4_CMD_HW_REG_WRITE, cmd, 3)) { msleep(10); continue; } msleep(10); if (_touch_wait_event(FTS4_EV_CONTROLLER_READY, 0, 20, NULL)) continue; else return 0; } return 1; } int touch_panel_ito_test(u8 *err) { // Check that touch IC is supported. touch_info_t *info = touch_get_chip_info(); if (info->chip_id != FTS4_I2C_CHIP_ID || info->clone) return 1; // Reset touchscreen module. if (touch_sys_reset()) return 1; // Do ITO Production test. if (_touch_command(FTS4_CMD_ITO_CHECK, NULL, 0)) return 1; u8 buf[6] = { 0 }; int res = _touch_wait_event(FTS4_EV_ERROR, FTS4_EV_ERROR_ITO_TEST, 2000, buf); if (!res && err) { err[0] = buf[0]; err[1] = buf[1]; } // Reset touchscreen module. touch_sys_reset(); return res; } int touch_get_fb_info(u8 *buf) { u8 cmd[3] = { FTS4_CMD_FB_REG_READ, 0, 0 }; int res = 0; for (u32 i = 0; i < 0x10000; i += 4) { if (!res) { cmd[1] = (i >> 8) & 0xFF; cmd[2] = i & 0xFF; u8 tmp[5]; memset(tmp, 0xCC, sizeof(tmp)); res = _touch_read_reg(cmd, sizeof(cmd), tmp, sizeof(tmp)); memcpy(&buf[i], tmp + 1, 4); } } return res; } int touch_switch_sense_mode(u8 mode, bool gis_6_2) { // Set detection config. u8 cmd[3] = { 1, 0x64, 0 }; switch (mode) { case FTS4_STYLUS_MODE: cmd[2] = !gis_6_2 ? 0xC8 : 0xAD; break; case FTS4_FINGER_MODE: cmd[2] = !gis_6_2 ? 0x8C : 0x79; break; } if (_touch_command(FTS4_CMD_DETECTION_CONFIG, cmd, 3)) return 1; // Sense mode. cmd[0] = mode; return _touch_command(FTS4_CMD_SWITCH_SENSE_MODE, cmd, 1); } int touch_sense_enable() { // Switch sense mode and enable multi-touch sensing. u8 cmd = FTS4_FINGER_MODE; if (_touch_command(FTS4_CMD_SWITCH_SENSE_MODE, &cmd, 1)) return 1; if (_touch_command(FTS4_CMD_MS_MT_SENSE_ON, NULL, 0)) return 1; if (_touch_command(FTS4_CMD_CLEAR_EVENT_STACK, NULL, 0)) return 1; return 0; } int touch_execute_autotune() { u8 buf[6] = { 0 }; // Reset touchscreen module. if (touch_sys_reset()) return 1; // Trim low power oscillator. if (_touch_command(FTS4_CMD_LP_TIMER_CALIB, NULL, 0)) return 1; msleep(200); // Apply Mutual Sense Compensation tuning. if (_touch_command(FTS4_CMD_MS_CX_TUNING, NULL, 0)) return 1; if (_touch_wait_event(FTS4_EV_STATUS, FTS4_EV_STATUS_MS_CX_TUNING_DONE, 2000, buf) || buf[0] || buf[1]) return 1; // Apply Self Sense Compensation tuning. if (_touch_command(FTS4_CMD_SS_CX_TUNING, NULL, 0)) return 1; if (_touch_wait_event(FTS4_EV_STATUS, FTS4_EV_STATUS_SS_CX_TUNING_DONE, 2000, buf) || buf[0] || buf[1]) return 1; // Save Compensation data to EEPROM. if (_touch_command(FTS4_CMD_SAVE_CX_TUNING, NULL, 0)) return 1; if (_touch_wait_event(FTS4_EV_STATUS, FTS4_EV_STATUS_WRITE_CX_TUNE_DONE, 2000, buf) || buf[0] || buf[1]) return 1; return touch_sense_enable(); } static int touch_init() { // Check that touch IC is supported. touch_info_t *info = touch_get_chip_info(); if (info->chip_id != FTS4_I2C_CHIP_ID) return 1; // Initialize touchscreen module. if (touch_sys_reset()) return 1; return touch_sense_enable(); } int touch_power_on() { // Configure touchscreen Touch Reset pin. PINMUX_AUX(PINMUX_AUX_DAP4_SCLK) = PINMUX_PULL_DOWN | 1; gpio_direction_output(GPIO_PORT_J, GPIO_PIN_7, GPIO_LOW); usleep(20); // Enable LDO6 for touchscreen AVDD and DVDD supply. max7762x_regulator_set_voltage(REGULATOR_LDO6, 2900000); max7762x_regulator_enable(REGULATOR_LDO6, true); // Initialize I2C3. pinmux_config_i2c(I2C_3); clock_enable_i2c(I2C_3); i2c_init(I2C_3); usleep(1000); // Set Touch Reset pin. gpio_write(GPIO_PORT_J, GPIO_PIN_7, GPIO_HIGH); usleep(10000); // Wait for the touchscreen module to get ready. _touch_wait_event(FTS4_EV_CONTROLLER_READY, 0, 20, NULL); // Check for forced boot time calibration. if (btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) { u8 err[2]; if (!touch_panel_ito_test(err)) if (!err[0] && !err[1]) return touch_execute_autotune(); } // Initialize touchscreen. u32 retries = 3; while (retries) { if (!touch_init()) return 0; retries--; } return 1; } void touch_power_off() { // Disable touchscreen power. gpio_write(GPIO_PORT_J, GPIO_PIN_7, GPIO_LOW); // Disables LDO6 for touchscreen VDD, AVDD supply max7762x_regulator_enable(REGULATOR_LDO6, false); clock_disable_i2c(I2C_3); } ================================================ FILE: bdk/input/touch.h ================================================ /* * Touch driver for Nintendo Switch's STM FingerTip S (4CD60D) touch controller * * Copyright (c) 2018 langerhans * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef __TOUCH_H_ #define __TOUCH_H_ #include #define FTS4_I2C_ADDR 0x49 #define FTS4_I2C_CHIP_ID 0x3670 /* I2C commands. */ #define FTS4_CMD_READ_INFO 0x80 #define FTS4_CMD_READ_STATUS 0x84 #define FTS4_CMD_READ_ONE_EVENT 0x85 #define FTS4_CMD_READ_ALL_EVENT 0x86 #define FTS4_CMD_LATEST_EVENT 0x87 // Clears event stack. #define FTS4_CMD_SLEEP_IN 0x90 #define FTS4_CMD_SLEEP_OUT 0x91 #define FTS4_CMD_MS_MT_SENSE_OFF 0x92 #define FTS4_CMD_MS_MT_SENSE_ON 0x93 #define FTS4_CMD_SS_HOVER_SENSE_OFF 0x94 #define FTS4_CMD_SS_HOVER_SENSE_ON 0x95 #define FTS4_CMD_LP_TIMER_CALIB 0x97 #define FTS4_CMD_MS_KEY_SENSE_OFF 0x9A #define FTS4_CMD_MS_KEY_SENSE_ON 0x9B #define FTS4_CMD_SYSTEM_RESET 0xA0 #define FTS4_CMD_CLEAR_EVENT_STACK 0xA1 #define FTS4_CMD_FULL_FORCE_CALIB 0xA2 #define FTS4_CMD_MS_CX_TUNING 0xA3 #define FTS4_CMD_SS_CX_TUNING 0xA4 #define FTS4_CMD_ITO_CHECK 0xA7 #define FTS4_CMD_RELEASEINFO 0xAA #define FTS4_CMD_HW_REG_READ 0xB6 // u16be address offset. Any size read. #define FTS4_CMD_HW_REG_WRITE FTS4_CMD_HW_REG_READ // u16be address offset, bytes to write. #define FTS4_CMD_SWITCH_SENSE_MODE 0xC3 #define FTS4_CMD_NOISE_WRITE 0xC7 #define FTS4_CMD_NOISE_READ 0xC8 #define FTS4_CMD_FB_REG_READ 0xD0 #define FTS4_CMD_FB_REG_WRITE FTS4_CMD_FB_REG_READ #define FTS4_CMD_SAVE_CX_TUNING 0xFC #define FTS4_CMD_DETECTION_CONFIG 0xB0 #define FTS4_CMD_REQ_CX_DATA 0xB8 #define FTS4_CMD_VENDOR 0xCF #define FTS4_CMD_FLASH_UNLOCK 0xF7 #define FTS4_CMD_FLASH_WRITE_64K 0xF8 #define FTS4_CMD_FLASH_STATUS 0xF9 #define FTS4_CMD_FLASH_OP 0xFA #define FTS4_CMD_UNK_62 0x62 /* Command parameters. */ #define FTS4_VENDOR_GPIO_STATE 0x01 #define FTS4_VENDOR_SENSE_MODE 0x02 #define FTS4_STYLUS_MODE 0x00 #define FTS4_FINGER_MODE 0x01 #define FTS4_HOVER_MODE 0x02 /* HW Registers */ #define FTS4_HW_REG_CHIP_ID_INFO 0x0004 #define FTS4_HW_REG_EVENT_COUNT 0x0023 #define FTS4_HW_REG_SYS_RESET 0x0028 /* FB Addresses */ #define FTS4_FB_REG_FW_INFO_ADDRESS 0x0060 /* Events. */ #define FTS4_EV_NO_EVENT 0x00 #define FTS4_EV_MULTI_TOUCH_DETECTED 0x02 #define FTS4_EV_MULTI_TOUCH_ENTER 0x03 #define FTS4_EV_MULTI_TOUCH_LEAVE 0x04 #define FTS4_EV_MULTI_TOUCH_MOTION 0x05 #define FTS4_EV_HOVER_ENTER 0x07 #define FTS4_EV_HOVER_LEAVE 0x08 #define FTS4_EV_HOVER_MOTION 0x09 #define FTS4_EV_KEY_STATUS 0x0E #define FTS4_EV_ERROR 0x0F #define FTS4_EV_CONTROLLER_READY 0x10 #define FTS4_EV_STATUS 0x16 #define FTS4_EV_NOISE_READ 0x17 #define FTS4_EV_NOISE_WRITE 0x18 #define FTS4_EV_VENDOR 0x20 #define FTS4_EV_DEBUG 0xDB /* FTS4_EV_STATUS Events. */ #define FTS4_EV_STATUS_MS_CX_TUNING_DONE 0x01 #define FTS4_EV_STATUS_SS_CX_TUNING_DONE 0x02 #define FTS4_EV_STATUS_WRITE_CX_TUNE_DONE 0x04 #define FTS4_EV_ERROR_ITO_TEST 0x05 /* Multi touch related event masks. */ #define FTS4_MASK_EVENT_ID 0x0F #define FTS4_MASK_TOUCH_ID 0xF0 #define FTS4_MASK_X_MSB 0x0F #define FTS4_MASK_Y_LSB 0xF0 #define FTS4_EVENT_SIZE 8 #define FTS4_STACK_DEPTH 32 // Actual 128. #define FTS4_DATA_MAX_SIZE (FTS4_EVENT_SIZE * FTS4_STACK_DEPTH) #define FTS4_MAX_FINGERS 10 typedef enum _touch_ito_error { ITO_NO_ERROR = 0, ITO_FORCE_OPEN, ITO_SENSE_OPEN, ITO_FORCE_SHRT_GND, ITO_SENSE_SHRT_GND, ITO_FORCE_SHRT_VCM, ITO_SENSE_SHRT_VCM, ITO_FORCE_SHRT_FORCE, ITO_SENSE_SHRT_SENSE, ITO_F2E_SENSE, ITO_FPC_FORCE_OPEN, ITO_FPC_SENSE_OPEN, ITO_KEY_FORCE_OPEN, ITO_KEY_SENSE_OPEN, ITO_RESERVED0, ITO_RESERVED1, ITO_RESERVED2, ITO_MAX_ERR_REACHED = 0xFF } touch_ito_error; typedef struct _touch_event_t { u8 raw[FTS4_EVENT_SIZE]; u16 x, y; // Coordinates. u32 z; // Orientation. bool touch; int finger; } touch_event_t; typedef struct _touch_panel_info_t { u8 idx; u8 gpio0; u8 gpio1; u8 gpio2; char *vendor; } touch_panel_info_t; typedef struct _touch_info_t { u16 chip_id; u16 fw_ver; u16 config_id; u16 config_ver; bool clone; } touch_info_t; typedef struct _touch_fw_info_t { u32 fw_id; u16 ftb_ver; u16 fw_rev; } touch_fw_info_t; int touch_poll(touch_event_t *event); touch_info_t *touch_get_chip_info(); touch_panel_info_t *touch_get_panel_vendor(); int touch_get_fw_info(touch_fw_info_t *fw); int touch_get_event_count(); int touch_panel_ito_test(u8 *err); int touch_execute_autotune(); int touch_switch_sense_mode(u8 mode, bool gis_6_2); int touch_sense_enable(); int touch_power_on(); void touch_power_off(); #endif /* __TOUCH_H_ */ ================================================ FILE: bdk/libs/compr/blz.c ================================================ /* * Copyright (c) 2018 rajkosto * Copyright (c) 2018 SciresM * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "blz.h" const blz_footer *blz_get_footer(const u8 *comp_data, u32 comp_data_size, blz_footer *out_footer) { if (comp_data_size < sizeof(blz_footer)) return NULL; const blz_footer *src_footer = (const blz_footer *)&comp_data[comp_data_size - sizeof(blz_footer)]; if (out_footer) memcpy(out_footer, src_footer, sizeof(blz_footer)); // Must be a memcpy because no unaligned accesses on ARMv4. return src_footer; } // From https://github.com/SciresM/hactool/blob/master/kip.c which is exactly how kernel does it, thanks SciresM! int blz_uncompress_inplace(u8 *data, u32 comp_size, const blz_footer *footer) { u32 addl_size = footer->addl_size; u32 header_size = footer->header_size; u32 cmp_and_hdr_size = footer->cmp_and_hdr_size; u8 *cmp_start = &data[comp_size] - cmp_and_hdr_size; u32 cmp_ofs = cmp_and_hdr_size - header_size; u32 out_ofs = cmp_and_hdr_size + addl_size; while (out_ofs) { u8 control = cmp_start[--cmp_ofs]; for (u32 i = 0; i < 8; i++) { if (control & 0x80) { if (cmp_ofs < 2) return 0; // Out of bounds. cmp_ofs -= 2; u16 seg_val = ((u32)(cmp_start[cmp_ofs + 1]) << 8) | cmp_start[cmp_ofs]; u32 seg_size = ((seg_val >> 12) & 0xF) + 3; u32 seg_ofs = (seg_val & 0x0FFF) + 3; // Kernel restricts segment copy to stay in bounds. if (out_ofs < seg_size) seg_size = out_ofs; out_ofs -= seg_size; for (u32 j = 0; j < seg_size; j++) cmp_start[out_ofs + j] = cmp_start[out_ofs + j + seg_ofs]; } else // Copy directly. { if (cmp_ofs < 1) return 0; // Out of bounds. cmp_start[--out_ofs] = cmp_start[--cmp_ofs]; } control <<= 1; if (!out_ofs) // Blz works backwards, so if it reaches byte 0, it's done. return 1; } } return 1; } int blz_uncompress_srcdest(const u8 *comp_data, u32 comp_data_size, u8 *dst_data, u32 dst_size) { blz_footer footer; const blz_footer *comp_footer = blz_get_footer(comp_data, comp_data_size, &footer); if (!comp_footer) return 0; // Decompression happens in-place, so need to copy the relevant compressed data first. u32 comp_bytes = (const u8 *)comp_footer - comp_data; memcpy(dst_data, comp_data, comp_bytes); memset(&dst_data[comp_bytes], 0, dst_size - comp_bytes); return blz_uncompress_inplace(dst_data, comp_data_size, &footer); } ================================================ FILE: bdk/libs/compr/blz.h ================================================ /* * Copyright (c) 2018 rajkosto * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _BLZ_H_ #define _BLZ_H_ #include typedef struct _blz_footer { u32 cmp_and_hdr_size; u32 header_size; u32 addl_size; } blz_footer; // Returns pointer to footer in comp_data if present, additionally copies it to out_footer if not NULL. const blz_footer *blz_get_footer(const u8 *comp_data, u32 comp_data_size, blz_footer *out_footer); // Returns 0 on failure. int blz_uncompress_inplace(u8 *data, u32 comp_size, const blz_footer *footer); // Returns 0 on failure. int blz_uncompress_srcdest(const u8 *comp_data, u32 comp_data_size, u8 *dst_data, u32 dst_size); #endif ================================================ FILE: bdk/libs/compr/lz.c ================================================ /************************************************************************* * Name: lz.c * Author: Marcus Geelnard * Description: LZ77 coder/decoder implementation. * Reentrant: Yes * * The LZ77 compression scheme is a substitutional compression scheme * proposed by Abraham Lempel and Jakob Ziv in 1977. It is very simple in * its design, and uses no fancy bit level compression. * * This is my first attempt at an implementation of a LZ77 code/decoder. * * The principle of the LZ77 compression algorithm is to store repeated * occurrences of strings as references to previous occurrences of the same * string. The point is that the reference consumes less space than the * string itself, provided that the string is long enough (in this * implementation, the string has to be at least 4 bytes long, since the * minimum coded reference is 3 bytes long). Also note that the term * "string" refers to any kind of byte sequence (it does not have to be * an ASCII string, for instance). * * The coder uses a brute force approach to finding string matches in the * history buffer (or "sliding window", if you wish), which is very, very * slow. I recon the complexity is somewhere between O(n^2) and O(n^3), * depending on the input data. * * There is also a faster implementation that uses a large working buffer * in which a "jump table" is stored, which is used to quickly find * possible string matches (see the source code for LZ_CompressFast() for * more information). The faster method is an order of magnitude faster, * but still quite slow compared to other compression methods. * * The upside is that decompression is very fast, and the compression ratio * is often very good. * * The reference to a string is coded as a (length,offset) pair, where the * length indicates the length of the string, and the offset gives the * offset from the current data position. To distinguish between string * references and literal strings (uncompressed bytes), a string reference * is preceded by a marker byte, which is chosen as the least common byte * symbol in the input data stream (this marker byte is stored in the * output stream as the first byte). * * Occurrences of the marker byte in the stream are encoded as the marker * byte followed by a zero byte, which means that occurrences of the marker * byte have to be coded with two bytes. * * The lengths and offsets are coded in a variable length fashion, allowing * values of any magnitude (up to 4294967295 in this implementation). * * With this compression scheme, the worst case compression result is * (257/256)*insize + 1. * *------------------------------------------------------------------------- * Copyright (c) 2003-2006 Marcus Geelnard * * This software is provided 'as-is', without any express or implied * warranty. In no event will the authors be held liable for any damages * arising from the use of this software. * * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute it * freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you must not * claim that you wrote the original software. If you use this software * in a product, an acknowledgment in the product documentation would * be appreciated but is not required. * * 2. Altered source versions must be plainly marked as such, and must not * be misrepresented as being the original software. * * 3. This notice may not be removed or altered from any source * distribution. * * Marcus Geelnard * marcus.geelnard at home.se *************************************************************************/ /************************************************************************* * INTERNAL FUNCTIONS * *************************************************************************/ /************************************************************************* * _LZ_ReadVarSize() - Read unsigned integer with variable number of * bytes depending on value. *************************************************************************/ static int _LZ_ReadVarSize( unsigned int * x, const unsigned char * buf ) { unsigned int y, b, num_bytes; /* Read complete value (stop when byte contains zero in 8:th bit) */ y = 0; num_bytes = 0; do { b = (unsigned int) (*buf ++); y = (y << 7) | (b & 0x0000007f); ++ num_bytes; } while( b & 0x00000080 ); /* Store value in x */ *x = y; /* Return number of bytes read */ return num_bytes; } /************************************************************************* * PUBLIC FUNCTIONS * *************************************************************************/ /************************************************************************* * LZ_Uncompress() - Uncompress a block of data using an LZ77 decoder. * in - Input (compressed) buffer. * out - Output (uncompressed) buffer. This buffer must be large * enough to hold the uncompressed data. * insize - Number of input bytes. *************************************************************************/ unsigned int LZ_Uncompress( const unsigned char *in, unsigned char *out, unsigned int insize ) { unsigned char marker, symbol; unsigned int i, inpos, outpos, length, offset; /* Do we have anything to uncompress? */ if( insize < 1 ) { return 0; } /* Get marker symbol from input stream */ marker = in[ 0 ]; inpos = 1; /* Main decompression loop */ outpos = 0; do { symbol = in[ inpos ++ ]; if( symbol == marker ) { /* We had a marker byte */ if( in[ inpos ] == 0 ) { /* It was a single occurrence of the marker byte */ out[ outpos ++ ] = marker; ++ inpos; } else { /* Extract true length and offset */ inpos += _LZ_ReadVarSize( &length, &in[ inpos ] ); inpos += _LZ_ReadVarSize( &offset, &in[ inpos ] ); /* Copy corresponding data from history window */ for( i = 0; i < length; ++ i ) { out[ outpos ] = out[ outpos - offset ]; ++ outpos; } } } else { /* No marker, plain copy */ out[ outpos ++ ] = symbol; } } while( inpos < insize ); return outpos; } ================================================ FILE: bdk/libs/compr/lz.h ================================================ /************************************************************************* * Name: lz.h * Author: Marcus Geelnard * Description: LZ77 coder/decoder interface. * Reentrant: Yes *------------------------------------------------------------------------- * Copyright (c) 2003-2006 Marcus Geelnard * * This software is provided 'as-is', without any express or implied * warranty. In no event will the authors be held liable for any damages * arising from the use of this software. * * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute it * freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you must not * claim that you wrote the original software. If you use this software * in a product, an acknowledgment in the product documentation would * be appreciated but is not required. * * 2. Altered source versions must be plainly marked as such, and must not * be misrepresented as being the original software. * * 3. This notice may not be removed or altered from any source * distribution. * * Marcus Geelnard * marcus.geelnard at home.se *************************************************************************/ #ifndef _lz_h_ #define _lz_h_ #ifdef __cplusplus extern "C" { #endif /************************************************************************* * Function prototypes *************************************************************************/ unsigned int LZ_Uncompress( const unsigned char *in, unsigned char *out, unsigned int insize ); #ifdef __cplusplus } #endif #endif /* _lz_h_ */ ================================================ FILE: bdk/libs/compr/lz4.c ================================================ /* LZ4 - Fast LZ compression algorithm Copyright (C) 2011-2017, Yann Collet. BSD 2-Clause License (http://www.opensource.org/licenses/bsd-license.php) Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. You can contact the author at : - LZ4 homepage : http://www.lz4.org - LZ4 source repository : https://github.com/lz4/lz4 */ /*-************************************ * Tuning parameters **************************************/ /* * ACCELERATION_DEFAULT : * Select "acceleration" for LZ4_compress_fast() when parameter value <= 0 */ #define ACCELERATION_DEFAULT 1 /*-************************************ * Dependency **************************************/ #define LZ4_STATIC_LINKING_ONLY #include "lz4.h" /* see also "memory routines" below */ /*-************************************ * Compiler Options **************************************/ #ifndef LZ4_FORCE_INLINE # ifdef _MSC_VER /* Visual Studio */ # define LZ4_FORCE_INLINE static __forceinline # else # if defined (__cplusplus) || defined (__STDC_VERSION__) && __STDC_VERSION__ >= 199901L /* C99 */ # ifdef __GNUC__ # define LZ4_FORCE_INLINE static inline __attribute__((always_inline)) # else # define LZ4_FORCE_INLINE static inline # endif # else # define LZ4_FORCE_INLINE static # endif /* __STDC_VERSION__ */ # endif /* _MSC_VER */ #endif /* LZ4_FORCE_INLINE */ /* LZ4_FORCE_O2_GCC_PPC64LE and LZ4_FORCE_O2_INLINE_GCC_PPC64LE * Gcc on ppc64le generates an unrolled SIMDized loop for LZ4_wildCopy, * together with a simple 8-byte copy loop as a fall-back path. * However, this optimization hurts the decompression speed by >30%, * because the execution does not go to the optimized loop * for typical compressible data, and all of the preamble checks * before going to the fall-back path become useless overhead. * This optimization happens only with the -O3 flag, and -O2 generates * a simple 8-byte copy loop. * With gcc on ppc64le, all of the LZ4_decompress_* and LZ4_wildCopy * functions are annotated with __attribute__((optimize("O2"))), * and also LZ4_wildCopy is forcibly inlined, so that the O2 attribute * of LZ4_wildCopy does not affect the compression speed. */ #if defined(__PPC64__) && defined(__LITTLE_ENDIAN__) && defined(__GNUC__) # define LZ4_FORCE_O2_GCC_PPC64LE __attribute__((optimize("O2"))) # define LZ4_FORCE_O2_INLINE_GCC_PPC64LE __attribute__((optimize("O2"))) LZ4_FORCE_INLINE #else # define LZ4_FORCE_O2_GCC_PPC64LE # define LZ4_FORCE_O2_INLINE_GCC_PPC64LE static #endif /*-************************************ * Memory routines **************************************/ #include /* malloc, calloc, free */ #define ALLOC(s) malloc(s) #define ALLOC_AND_ZERO(s) zalloc(s) #define FREEMEM free #include /* memset, memcpy */ #define MEM_INIT memset /*-************************************ * Basic Types **************************************/ typedef uint16_t U16; typedef uint32_t U32; typedef int32_t S32; typedef uint64_t U64; typedef uintptr_t uptrval; typedef size_t reg_t; /* 32-bits in x32 mode */ /*-************************************ * Reading and writing into memory **************************************/ static unsigned LZ4_isLittleEndian(void) { const union { U32 u; BYTE c[4]; } one = { 1 }; /* don't use static : performance detrimental */ return one.c[0]; } static U16 LZ4_read16(const void* memPtr) { U16 val; memcpy(&val, memPtr, sizeof(val)); return val; } static U32 LZ4_read32(const void* memPtr) { U32 val; memcpy(&val, memPtr, sizeof(val)); return val; } static reg_t LZ4_read_ARCH(const void* memPtr) { reg_t val; memcpy(&val, memPtr, sizeof(val)); return val; } static void LZ4_write16(void* memPtr, U16 value) { memcpy(memPtr, &value, sizeof(value)); } static void LZ4_write32(void* memPtr, U32 value) { memcpy(memPtr, &value, sizeof(value)); } static U16 LZ4_readLE16(const void* memPtr) { if (LZ4_isLittleEndian()) { return LZ4_read16(memPtr); } else { const BYTE* p = (const BYTE*)memPtr; return (U16)((U16)p[0] + (p[1]<<8)); } } static void LZ4_writeLE16(void* memPtr, U16 value) { if (LZ4_isLittleEndian()) { LZ4_write16(memPtr, value); } else { BYTE* p = (BYTE*)memPtr; p[0] = (BYTE) value; p[1] = (BYTE)(value>>8); } } /* customized variant of memcpy, which can overwrite up to 8 bytes beyond dstEnd */ LZ4_FORCE_O2_INLINE_GCC_PPC64LE void LZ4_wildCopy(void* dstPtr, const void* srcPtr, void* dstEnd) { BYTE* d = (BYTE*)dstPtr; const BYTE* s = (const BYTE*)srcPtr; BYTE* const e = (BYTE*)dstEnd; do { memcpy(d,s,8); d+=8; s+=8; } while (d=2) # include static int g_debuglog_enable = 1; # define DEBUGLOG(l, ...) { \ if ((g_debuglog_enable) && (l<=LZ4_DEBUG)) { \ fprintf(stderr, __FILE__ ": "); \ fprintf(stderr, __VA_ARGS__); \ fprintf(stderr, " \n"); \ } } #else # define DEBUGLOG(l, ...) {} /* disabled */ #endif /*-************************************ * Common functions **************************************/ static unsigned LZ4_NbCommonBytes (reg_t val) { if (LZ4_isLittleEndian()) { if (sizeof(val)==8) { return (__builtin_ctzll((U64)val) >> 3); } else /* 32 bits */ { return (__builtin_ctz((U32)val) >> 3); } } else /* Big Endian CPU */ { if (sizeof(val)==8) { /* 64-bits */ return (__builtin_clzll((U64)val) >> 3); } else /* 32 bits */ { return (__builtin_clz((U32)val) >> 3); } } } #define STEPSIZE sizeof(reg_t) LZ4_FORCE_INLINE unsigned LZ4_count(const BYTE* pIn, const BYTE* pMatch, const BYTE* pInLimit) { const BYTE* const pStart = pIn; if (likely(pIn < pInLimit-(STEPSIZE-1))) { reg_t const diff = LZ4_read_ARCH(pMatch) ^ LZ4_read_ARCH(pIn); if (!diff) { pIn+=STEPSIZE; pMatch+=STEPSIZE; } else { return LZ4_NbCommonBytes(diff); } } while (likely(pIn < pInLimit-(STEPSIZE-1))) { reg_t const diff = LZ4_read_ARCH(pMatch) ^ LZ4_read_ARCH(pIn); if (!diff) { pIn+=STEPSIZE; pMatch+=STEPSIZE; continue; } pIn += LZ4_NbCommonBytes(diff); return (unsigned)(pIn - pStart); } if ((STEPSIZE==8) && (pIn<(pInLimit-3)) && (LZ4_read32(pMatch) == LZ4_read32(pIn))) { pIn+=4; pMatch+=4; } if ((pIn<(pInLimit-1)) && (LZ4_read16(pMatch) == LZ4_read16(pIn))) { pIn+=2; pMatch+=2; } if ((pIn compression run slower on incompressible data */ /*-************************************ * Local Structures and types **************************************/ typedef enum { notLimited = 0, limitedOutput = 1 } limitedOutput_directive; typedef enum { clearedTable = 0, byPtr, byU32, byU16 } tableType_t; /** * This enum distinguishes several different modes of accessing previous * content in the stream. * * - noDict : There is no preceding content. * - withPrefix64k : Table entries up to ctx->dictSize before the current blob * blob being compressed are valid and refer to the preceding * content (of length ctx->dictSize), which is available * contiguously preceding in memory the content currently * being compressed. * - usingExtDict : Like withPrefix64k, but the preceding content is somewhere * else in memory, starting at ctx->dictionary with length * ctx->dictSize. * - usingDictCtx : Like usingExtDict, but everything concerning the preceding * content is in a separate context, pointed to by * ctx->dictCtx. ctx->dictionary, ctx->dictSize, and table * entries in the current context that refer to positions * preceding the beginning of the current compression are * ignored. Instead, ctx->dictCtx->dictionary and ctx->dictCtx * ->dictSize describe the location and size of the preceding * content, and matches are found by looking in the ctx * ->dictCtx->hashTable. */ typedef enum { noDict = 0, withPrefix64k, usingExtDict, usingDictCtx } dict_directive; typedef enum { noDictIssue = 0, dictSmall } dictIssue_directive; typedef enum { endOnOutputSize = 0, endOnInputSize = 1 } endCondition_directive; typedef enum { full = 0, partial = 1 } earlyEnd_directive; /*-************************************ * Local Utils **************************************/ int LZ4_versionNumber (void) { return LZ4_VERSION_NUMBER; } const char* LZ4_versionString(void) { return LZ4_VERSION_STRING; } int LZ4_compressBound(int isize) { return LZ4_COMPRESSBOUND(isize); } int LZ4_sizeofState() { return LZ4_STREAMSIZE; } /*-****************************** * Compression functions ********************************/ static U32 LZ4_hash4(U32 sequence, tableType_t const tableType) { if (tableType == byU16) return ((sequence * 2654435761U) >> ((MINMATCH*8)-(LZ4_HASHLOG+1))); else return ((sequence * 2654435761U) >> ((MINMATCH*8)-LZ4_HASHLOG)); } static U32 LZ4_hash5(U64 sequence, tableType_t const tableType) { static const U64 prime5bytes = 889523592379ULL; static const U64 prime8bytes = 11400714785074694791ULL; const U32 hashLog = (tableType == byU16) ? LZ4_HASHLOG+1 : LZ4_HASHLOG; if (LZ4_isLittleEndian()) return (U32)(((sequence << 24) * prime5bytes) >> (64 - hashLog)); else return (U32)(((sequence >> 24) * prime8bytes) >> (64 - hashLog)); } LZ4_FORCE_INLINE U32 LZ4_hashPosition(const void* const p, tableType_t const tableType) { if ((sizeof(reg_t)==8) && (tableType != byU16)) return LZ4_hash5(LZ4_read_ARCH(p), tableType); return LZ4_hash4(LZ4_read32(p), tableType); } static void LZ4_putIndexOnHash(U32 idx, U32 h, void* tableBase, tableType_t const tableType) { switch (tableType) { default: /* fallthrough */ case clearedTable: /* fallthrough */ case byPtr: { /* illegal! */ return; } case byU32: { U32* hashTable = (U32*) tableBase; hashTable[h] = idx; return; } case byU16: { U16* hashTable = (U16*) tableBase; hashTable[h] = (U16)idx; return; } } } static void LZ4_putPositionOnHash(const BYTE* p, U32 h, void* tableBase, tableType_t const tableType, const BYTE* srcBase) { switch (tableType) { case clearedTable: { /* illegal! */ return; } case byPtr: { const BYTE** hashTable = (const BYTE**)tableBase; hashTable[h] = p; return; } case byU32: { U32* hashTable = (U32*) tableBase; hashTable[h] = (U32)(p-srcBase); return; } case byU16: { U16* hashTable = (U16*) tableBase; hashTable[h] = (U16)(p-srcBase); return; } } } LZ4_FORCE_INLINE void LZ4_putPosition(const BYTE* p, void* tableBase, tableType_t tableType, const BYTE* srcBase) { U32 const h = LZ4_hashPosition(p, tableType); LZ4_putPositionOnHash(p, h, tableBase, tableType, srcBase); } /* LZ4_getIndexOnHash() : * Index of match position registered in hash table. * hash position must be calculated by using base+index, or dictBase+index. * Assumption 1 : only valid if tableType == byU32 or byU16. * Assumption 2 : h is presumed valid (within limits of hash table) */ static U32 LZ4_getIndexOnHash(U32 h, const void* tableBase, tableType_t tableType) { LZ4_STATIC_ASSERT(LZ4_MEMORY_USAGE > 2); if (tableType == byU32) { const U32* const hashTable = (const U32*) tableBase; return hashTable[h]; } if (tableType == byU16) { const U16* const hashTable = (const U16*) tableBase; return hashTable[h]; } return 0; /* forbidden case */ } static const BYTE* LZ4_getPositionOnHash(U32 h, const void* tableBase, tableType_t tableType, const BYTE* srcBase) { if (tableType == byPtr) { const BYTE* const* hashTable = (const BYTE* const*) tableBase; return hashTable[h]; } if (tableType == byU32) { const U32* const hashTable = (const U32*) tableBase; return hashTable[h] + srcBase; } { const U16* const hashTable = (const U16*) tableBase; return hashTable[h] + srcBase; } /* default, to ensure a return */ } LZ4_FORCE_INLINE const BYTE* LZ4_getPosition(const BYTE* p, const void* tableBase, tableType_t tableType, const BYTE* srcBase) { U32 const h = LZ4_hashPosition(p, tableType); return LZ4_getPositionOnHash(h, tableBase, tableType, srcBase); } LZ4_FORCE_INLINE void LZ4_prepareTable( LZ4_stream_t_internal* const cctx, const int inputSize, const tableType_t tableType) { /* If the table hasn't been used, it's guaranteed to be zeroed out, and is * therefore safe to use no matter what mode we're in. Otherwise, we figure * out if it's safe to leave as is or whether it needs to be reset. */ if (cctx->tableType != clearedTable) { if (cctx->tableType != tableType || (tableType == byU16 && cctx->currentOffset + inputSize >= 0xFFFFU) || (tableType == byU32 && cctx->currentOffset > 1 GB) || tableType == byPtr || inputSize >= 4 KB) { DEBUGLOG(4, "LZ4_prepareTable: Resetting table in %p", cctx); MEM_INIT(cctx->hashTable, 0, LZ4_HASHTABLESIZE); cctx->currentOffset = 0; cctx->tableType = clearedTable; } else { DEBUGLOG(4, "LZ4_prepareTable: Re-use hash table (no reset)"); } } /* Adding a gap, so all previous entries are > MAX_DISTANCE back, is faster * than compressing without a gap. However, compressing with * currentOffset == 0 is faster still, so we preserve that case. */ if (cctx->currentOffset != 0 && tableType == byU32) { DEBUGLOG(5, "LZ4_prepareTable: adding 64KB to currentOffset"); cctx->currentOffset += 64 KB; } /* Finally, clear history */ cctx->dictCtx = NULL; cctx->dictionary = NULL; cctx->dictSize = 0; } /** LZ4_compress_generic() : inlined, to ensure branches are decided at compilation time */ LZ4_FORCE_INLINE int LZ4_compress_generic( LZ4_stream_t_internal* const cctx, const char* const source, char* const dest, const int inputSize, const int maxOutputSize, const limitedOutput_directive outputLimited, const tableType_t tableType, const dict_directive dictDirective, const dictIssue_directive dictIssue, const U32 acceleration) { const BYTE* ip = (const BYTE*) source; U32 const startIndex = cctx->currentOffset; const BYTE* base = (const BYTE*) source - startIndex; const BYTE* lowLimit; const LZ4_stream_t_internal* dictCtx = (const LZ4_stream_t_internal*) cctx->dictCtx; const BYTE* const dictionary = dictDirective == usingDictCtx ? dictCtx->dictionary : cctx->dictionary; const U32 dictSize = dictDirective == usingDictCtx ? dictCtx->dictSize : cctx->dictSize; const U32 dictDelta = (dictDirective == usingDictCtx) ? startIndex - dictCtx->currentOffset : 0; /* make indexes in dictCtx comparable with index in current context */ int const maybe_extMem = (dictDirective == usingExtDict) || (dictDirective == usingDictCtx); U32 const prefixIdxLimit = startIndex - dictSize; /* used when dictDirective == dictSmall */ const BYTE* const dictEnd = dictionary + dictSize; const BYTE* anchor = (const BYTE*) source; const BYTE* const iend = ip + inputSize; const BYTE* const mflimitPlusOne = iend - MFLIMIT + 1; const BYTE* const matchlimit = iend - LASTLITERALS; /* the dictCtx currentOffset is indexed on the start of the dictionary, * while a dictionary in the current context precedes the currentOffset */ const BYTE* dictBase = dictDirective == usingDictCtx ? dictionary + dictSize - dictCtx->currentOffset : /* is it possible that dictCtx->currentOffset != dictCtx->dictSize ? Yes if the dictionary context is not reset */ dictionary + dictSize - startIndex; BYTE* op = (BYTE*) dest; BYTE* const olimit = op + maxOutputSize; U32 offset = 0; U32 forwardH; DEBUGLOG(5, "LZ4_compress_generic: srcSize=%i, tableType=%u", inputSize, tableType); /* Init conditions */ if ((U32)inputSize > (U32)LZ4_MAX_INPUT_SIZE) return 0; /* Unsupported inputSize, too large (or negative) */ lowLimit = (const BYTE*)source - (dictDirective == withPrefix64k ? dictSize : 0); if ((tableType == byU16) && (inputSize>=LZ4_64Klimit)) return 0; /* Size too large (not within 64K limit) */ /* Update context state */ if (dictDirective == usingDictCtx) { /* Subsequent linked blocks can't use the dictionary. */ /* Instead, they use the block we just compressed. */ cctx->dictCtx = NULL; cctx->dictSize = (U32)inputSize; } else { cctx->dictSize += (U32)inputSize; } cctx->currentOffset += (U32)inputSize; cctx->tableType = tableType; if (inputSizehashTable, tableType, base); ip++; forwardH = LZ4_hashPosition(ip, tableType); /* Main Loop */ for ( ; ; ) { const BYTE* match; BYTE* token; /* Find a match */ if (tableType == byPtr) { const BYTE* forwardIp = ip; unsigned step = 1; unsigned searchMatchNb = acceleration << LZ4_skipTrigger; do { U32 const h = forwardH; ip = forwardIp; forwardIp += step; step = (searchMatchNb++ >> LZ4_skipTrigger); if (unlikely(forwardIp > mflimitPlusOne)) goto _last_literals; match = LZ4_getPositionOnHash(h, cctx->hashTable, tableType, base); forwardH = LZ4_hashPosition(forwardIp, tableType); LZ4_putPositionOnHash(ip, h, cctx->hashTable, tableType, base); } while ( (match+MAX_DISTANCE < ip) || (LZ4_read32(match) != LZ4_read32(ip)) ); } else { /* byU32, byU16 */ const BYTE* forwardIp = ip; unsigned step = 1; unsigned searchMatchNb = acceleration << LZ4_skipTrigger; do { U32 const h = forwardH; U32 const current = (U32)(forwardIp - base); U32 matchIndex = LZ4_getIndexOnHash(h, cctx->hashTable, tableType); ip = forwardIp; forwardIp += step; step = (searchMatchNb++ >> LZ4_skipTrigger); if (unlikely(forwardIp > mflimitPlusOne)) goto _last_literals; if (dictDirective == usingDictCtx) { if (matchIndex < startIndex) { /* there was no match, try the dictionary */ matchIndex = LZ4_getIndexOnHash(h, dictCtx->hashTable, byU32); match = dictBase + matchIndex; matchIndex += dictDelta; /* make dictCtx index comparable with current context */ lowLimit = dictionary; } else { match = base + matchIndex; lowLimit = (const BYTE*)source; } } else if (dictDirective==usingExtDict) { if (matchIndex < startIndex) { DEBUGLOG(7, "extDict candidate: matchIndex=%5u < startIndex=%5u", matchIndex, startIndex); match = dictBase + matchIndex; lowLimit = dictionary; } else { match = base + matchIndex; lowLimit = (const BYTE*)source; } } else { /* single continuous memory segment */ match = base + matchIndex; } forwardH = LZ4_hashPosition(forwardIp, tableType); LZ4_putIndexOnHash(current, h, cctx->hashTable, tableType); if ((dictIssue == dictSmall) && (matchIndex < prefixIdxLimit)) continue; /* match outside of valid area */ if ((tableType != byU16) && (current - matchIndex > MAX_DISTANCE)) continue; /* too far - note: works even if matchIndex overflows */ if (LZ4_read32(match) == LZ4_read32(ip)) { if (maybe_extMem) offset = current - matchIndex; break; /* match found */ } } while(1); } /* Catch up */ while (((ip>anchor) & (match > lowLimit)) && (unlikely(ip[-1]==match[-1]))) { ip--; match--; } /* Encode Literals */ { unsigned const litLength = (unsigned)(ip - anchor); token = op++; if ((outputLimited) && /* Check output buffer overflow */ (unlikely(op + litLength + (2 + 1 + LASTLITERALS) + (litLength/255) > olimit))) return 0; if (litLength >= RUN_MASK) { int len = (int)litLength-RUN_MASK; *token = (RUN_MASK<= 255 ; len-=255) *op++ = 255; *op++ = (BYTE)len; } else *token = (BYTE)(litLength< matchlimit) limit = matchlimit; matchCode = LZ4_count(ip+MINMATCH, match+MINMATCH, limit); ip += MINMATCH + matchCode; if (ip==limit) { unsigned const more = LZ4_count(limit, (const BYTE*)source, matchlimit); matchCode += more; ip += more; } DEBUGLOG(6, " with matchLength=%u starting in extDict", matchCode+MINMATCH); } else { matchCode = LZ4_count(ip+MINMATCH, match+MINMATCH, matchlimit); ip += MINMATCH + matchCode; DEBUGLOG(6, " with matchLength=%u", matchCode+MINMATCH); } if ( outputLimited && /* Check output buffer overflow */ (unlikely(op + (1 + LASTLITERALS) + (matchCode>>8) > olimit)) ) return 0; if (matchCode >= ML_MASK) { *token += ML_MASK; matchCode -= ML_MASK; LZ4_write32(op, 0xFFFFFFFF); while (matchCode >= 4*255) { op+=4; LZ4_write32(op, 0xFFFFFFFF); matchCode -= 4*255; } op += matchCode / 255; *op++ = (BYTE)(matchCode % 255); } else *token += (BYTE)(matchCode); } anchor = ip; /* Test end of chunk */ if (ip >= mflimitPlusOne) break; /* Fill table */ LZ4_putPosition(ip-2, cctx->hashTable, tableType, base); /* Test next position */ if (tableType == byPtr) { match = LZ4_getPosition(ip, cctx->hashTable, tableType, base); LZ4_putPosition(ip, cctx->hashTable, tableType, base); if ( (match+MAX_DISTANCE >= ip) && (LZ4_read32(match) == LZ4_read32(ip)) ) { token=op++; *token=0; goto _next_match; } } else { /* byU32, byU16 */ U32 const h = LZ4_hashPosition(ip, tableType); U32 const current = (U32)(ip-base); U32 matchIndex = LZ4_getIndexOnHash(h, cctx->hashTable, tableType); if (dictDirective == usingDictCtx) { if (matchIndex < startIndex) { /* there was no match, try the dictionary */ matchIndex = LZ4_getIndexOnHash(h, dictCtx->hashTable, byU32); match = dictBase + matchIndex; lowLimit = dictionary; /* required for match length counter */ matchIndex += dictDelta; } else { match = base + matchIndex; lowLimit = (const BYTE*)source; /* required for match length counter */ } } else if (dictDirective==usingExtDict) { if (matchIndex < startIndex) { match = dictBase + matchIndex; lowLimit = dictionary; /* required for match length counter */ } else { match = base + matchIndex; lowLimit = (const BYTE*)source; /* required for match length counter */ } } else { /* single memory segment */ match = base + matchIndex; } LZ4_putIndexOnHash(current, h, cctx->hashTable, tableType); if ( ((dictIssue==dictSmall) ? (matchIndex >= prefixIdxLimit) : 1) && ((tableType==byU16) ? 1 : (current - matchIndex <= MAX_DISTANCE)) && (LZ4_read32(match) == LZ4_read32(ip)) ) { token=op++; *token=0; if (maybe_extMem) offset = current - matchIndex; DEBUGLOG(6, "seq.start:%i, literals=%u, match.start:%i", (int)(anchor-(const BYTE*)source), 0, (int)(ip-(const BYTE*)source)); goto _next_match; } } /* Prepare next loop */ forwardH = LZ4_hashPosition(++ip, tableType); } _last_literals: /* Encode Last Literals */ { size_t const lastRun = (size_t)(iend - anchor); if ( (outputLimited) && /* Check output buffer overflow */ ((op - (BYTE*)dest) + lastRun + 1 + ((lastRun+255-RUN_MASK)/255) > (U32)maxOutputSize) ) return 0; if (lastRun >= RUN_MASK) { size_t accumulator = lastRun - RUN_MASK; *op++ = RUN_MASK << ML_BITS; for(; accumulator >= 255 ; accumulator-=255) *op++ = 255; *op++ = (BYTE) accumulator; } else { *op++ = (BYTE)(lastRun<internal_donotuse; if (acceleration < 1) acceleration = ACCELERATION_DEFAULT; LZ4_resetStream((LZ4_stream_t*)state); if (maxOutputSize >= LZ4_compressBound(inputSize)) { if (inputSize < LZ4_64Klimit) { return LZ4_compress_generic(ctx, source, dest, inputSize, 0, notLimited, byU16, noDict, noDictIssue, acceleration); } else { const tableType_t tableType = ((sizeof(void*)==4) && ((uptrval)source > MAX_DISTANCE)) ? byPtr : byU32; return LZ4_compress_generic(ctx, source, dest, inputSize, 0, notLimited, tableType, noDict, noDictIssue, acceleration); } } else { if (inputSize < LZ4_64Klimit) {; return LZ4_compress_generic(ctx, source, dest, inputSize, maxOutputSize, limitedOutput, byU16, noDict, noDictIssue, acceleration); } else { const tableType_t tableType = ((sizeof(void*)==4) && ((uptrval)source > MAX_DISTANCE)) ? byPtr : byU32; return LZ4_compress_generic(ctx, source, dest, inputSize, maxOutputSize, limitedOutput, tableType, noDict, noDictIssue, acceleration); } } } /** * LZ4_compress_fast_extState_fastReset() : * A variant of LZ4_compress_fast_extState(). * * Using this variant avoids an expensive initialization step. It is only safe * to call if the state buffer is known to be correctly initialized already * (see comment in lz4.h on LZ4_resetStream_fast() for a definition of * "correctly initialized"). */ int LZ4_compress_fast_extState_fastReset(void* state, const char* src, char* dst, int srcSize, int dstCapacity, int acceleration) { LZ4_stream_t_internal* ctx = &((LZ4_stream_t*)state)->internal_donotuse; if (acceleration < 1) acceleration = ACCELERATION_DEFAULT; if (dstCapacity >= LZ4_compressBound(srcSize)) { if (srcSize < LZ4_64Klimit) { const tableType_t tableType = byU16; LZ4_prepareTable(ctx, srcSize, tableType); if (ctx->currentOffset) { return LZ4_compress_generic(ctx, src, dst, srcSize, 0, notLimited, tableType, noDict, dictSmall, acceleration); } else { return LZ4_compress_generic(ctx, src, dst, srcSize, 0, notLimited, tableType, noDict, noDictIssue, acceleration); } } else { const tableType_t tableType = ((sizeof(void*)==4) && ((uptrval)src > MAX_DISTANCE)) ? byPtr : byU32; LZ4_prepareTable(ctx, srcSize, tableType); return LZ4_compress_generic(ctx, src, dst, srcSize, 0, notLimited, tableType, noDict, noDictIssue, acceleration); } } else { if (srcSize < LZ4_64Klimit) { const tableType_t tableType = byU16; LZ4_prepareTable(ctx, srcSize, tableType); if (ctx->currentOffset) { return LZ4_compress_generic(ctx, src, dst, srcSize, dstCapacity, limitedOutput, tableType, noDict, dictSmall, acceleration); } else { return LZ4_compress_generic(ctx, src, dst, srcSize, dstCapacity, limitedOutput, tableType, noDict, noDictIssue, acceleration); } } else { const tableType_t tableType = ((sizeof(void*)==4) && ((uptrval)src > MAX_DISTANCE)) ? byPtr : byU32; LZ4_prepareTable(ctx, srcSize, tableType); return LZ4_compress_generic(ctx, src, dst, srcSize, dstCapacity, limitedOutput, tableType, noDict, noDictIssue, acceleration); } } } int LZ4_compress_fast(const char* source, char* dest, int inputSize, int maxOutputSize, int acceleration) { int result; LZ4_stream_t* ctx = (LZ4_stream_t*)ALLOC(sizeof(LZ4_stream_t)); LZ4_stream_t* const ctxPtr = ctx; result = LZ4_compress_fast_extState(ctxPtr, source, dest, inputSize, maxOutputSize, acceleration); FREEMEM(ctx); return result; } int LZ4_compress_default(const char* source, char* dest, int inputSize, int maxOutputSize) { return LZ4_compress_fast(source, dest, inputSize, maxOutputSize, 1); } /* hidden debug function */ /* strangely enough, gcc generates faster code when this function is uncommented, even if unused */ int LZ4_compress_fast_force(const char* source, char* dest, int inputSize, int maxOutputSize, int acceleration) { int result; LZ4_stream_t* ctx = (LZ4_stream_t*)ALLOC(sizeof(LZ4_stream_t)); LZ4_resetStream(ctx); if (inputSize < LZ4_64Klimit) result = LZ4_compress_generic(&ctx->internal_donotuse, source, dest, inputSize, maxOutputSize, limitedOutput, byU16, noDict, noDictIssue, acceleration); else result = LZ4_compress_generic(&ctx->internal_donotuse, source, dest, inputSize, maxOutputSize, limitedOutput, sizeof(void*)==8 ? byU32 : byPtr, noDict, noDictIssue, acceleration); FREEMEM(ctx); return result; } /*-****************************** * *_destSize() variant ********************************/ static int LZ4_compress_destSize_generic( LZ4_stream_t_internal* const ctx, const char* const src, char* const dst, int* const srcSizePtr, const int targetDstSize, const tableType_t tableType) { const BYTE* ip = (const BYTE*) src; const BYTE* base = (const BYTE*) src; const BYTE* lowLimit = (const BYTE*) src; const BYTE* anchor = ip; const BYTE* const iend = ip + *srcSizePtr; const BYTE* const mflimit = iend - MFLIMIT; const BYTE* const matchlimit = iend - LASTLITERALS; BYTE* op = (BYTE*) dst; BYTE* const oend = op + targetDstSize; BYTE* const oMaxLit = op + targetDstSize - 2 /* offset */ - 8 /* because 8+MINMATCH==MFLIMIT */ - 1 /* token */; BYTE* const oMaxMatch = op + targetDstSize - (LASTLITERALS + 1 /* token */); BYTE* const oMaxSeq = oMaxLit - 1 /* token */; U32 forwardH; /* Init conditions */ if (targetDstSize < 1) return 0; /* Impossible to store anything */ if ((U32)*srcSizePtr > (U32)LZ4_MAX_INPUT_SIZE) return 0; /* Unsupported input size, too large (or negative) */ if ((tableType == byU16) && (*srcSizePtr>=LZ4_64Klimit)) return 0; /* Size too large (not within 64K limit) */ if (*srcSizePtrhashTable, tableType, base); ip++; forwardH = LZ4_hashPosition(ip, tableType); /* Main Loop */ for ( ; ; ) { const BYTE* match; BYTE* token; /* Find a match */ { const BYTE* forwardIp = ip; unsigned step = 1; unsigned searchMatchNb = 1 << LZ4_skipTrigger; do { U32 h = forwardH; ip = forwardIp; forwardIp += step; step = (searchMatchNb++ >> LZ4_skipTrigger); if (unlikely(forwardIp > mflimit)) goto _last_literals; match = LZ4_getPositionOnHash(h, ctx->hashTable, tableType, base); forwardH = LZ4_hashPosition(forwardIp, tableType); LZ4_putPositionOnHash(ip, h, ctx->hashTable, tableType, base); } while ( ((tableType==byU16) ? 0 : (match + MAX_DISTANCE < ip)) || (LZ4_read32(match) != LZ4_read32(ip)) ); } /* Catch up */ while ((ip>anchor) && (match > lowLimit) && (unlikely(ip[-1]==match[-1]))) { ip--; match--; } /* Encode Literal length */ { unsigned litLength = (unsigned)(ip - anchor); token = op++; if (op + ((litLength+240)/255) + litLength > oMaxLit) { /* Not enough space for a last match */ op--; goto _last_literals; } if (litLength>=RUN_MASK) { unsigned len = litLength - RUN_MASK; *token=(RUN_MASK<= 255 ; len-=255) *op++ = 255; *op++ = (BYTE)len; } else *token = (BYTE)(litLength< oMaxMatch) { /* Match description too long : reduce it */ matchLength = (15-1) + (oMaxMatch-op) * 255; } ip += MINMATCH + matchLength; if (matchLength>=ML_MASK) { *token += ML_MASK; matchLength -= ML_MASK; while (matchLength >= 255) { matchLength-=255; *op++ = 255; } *op++ = (BYTE)matchLength; } else *token += (BYTE)(matchLength); } anchor = ip; /* Test end of block */ if (ip > mflimit) break; if (op > oMaxSeq) break; /* Fill table */ LZ4_putPosition(ip-2, ctx->hashTable, tableType, base); /* Test next position */ match = LZ4_getPosition(ip, ctx->hashTable, tableType, base); LZ4_putPosition(ip, ctx->hashTable, tableType, base); if ( (match+MAX_DISTANCE>=ip) && (LZ4_read32(match)==LZ4_read32(ip)) ) { token=op++; *token=0; goto _next_match; } /* Prepare next loop */ forwardH = LZ4_hashPosition(++ip, tableType); } _last_literals: /* Encode Last Literals */ { size_t lastRunSize = (size_t)(iend - anchor); if (op + 1 /* token */ + ((lastRunSize+240)/255) /* litLength */ + lastRunSize /* literals */ > oend) { /* adapt lastRunSize to fill 'dst' */ lastRunSize = (oend-op) - 1; lastRunSize -= (lastRunSize+240)/255; } ip = anchor + lastRunSize; if (lastRunSize >= RUN_MASK) { size_t accumulator = lastRunSize - RUN_MASK; *op++ = RUN_MASK << ML_BITS; for(; accumulator >= 255 ; accumulator-=255) *op++ = 255; *op++ = (BYTE) accumulator; } else { *op++ = (BYTE)(lastRunSize<= LZ4_compressBound(*srcSizePtr)) { /* compression success is guaranteed */ return LZ4_compress_fast_extState(state, src, dst, *srcSizePtr, targetDstSize, 1); } else { if (*srcSizePtr < LZ4_64Klimit) { return LZ4_compress_destSize_generic(&state->internal_donotuse, src, dst, srcSizePtr, targetDstSize, byU16); } else { tableType_t const tableType = ((sizeof(void*)==4) && ((uptrval)src > MAX_DISTANCE)) ? byPtr : byU32; return LZ4_compress_destSize_generic(&state->internal_donotuse, src, dst, srcSizePtr, targetDstSize, tableType); } } } int LZ4_compress_destSize(const char* src, char* dst, int* srcSizePtr, int targetDstSize) { LZ4_stream_t* ctxBody = (LZ4_stream_t*)ALLOC(sizeof(LZ4_stream_t));; LZ4_stream_t* ctx = ctxBody; int result = LZ4_compress_destSize_extState(ctx, src, dst, srcSizePtr, targetDstSize); FREEMEM(ctxBody); return result; } /*-****************************** * Streaming functions ********************************/ LZ4_stream_t* LZ4_createStream(void) { LZ4_stream_t* lz4s = (LZ4_stream_t*)ALLOC(sizeof(LZ4_stream_t)); LZ4_STATIC_ASSERT(LZ4_STREAMSIZE >= sizeof(LZ4_stream_t_internal)); /* A compilation error here means LZ4_STREAMSIZE is not large enough */ DEBUGLOG(4, "LZ4_createStream %p", lz4s); if (lz4s == NULL) return NULL; LZ4_resetStream(lz4s); return lz4s; } void LZ4_resetStream (LZ4_stream_t* LZ4_stream) { DEBUGLOG(5, "LZ4_resetStream (ctx:%p)", LZ4_stream); MEM_INIT(LZ4_stream, 0, sizeof(LZ4_stream_t)); } void LZ4_resetStream_fast(LZ4_stream_t* ctx) { LZ4_prepareTable(&(ctx->internal_donotuse), 0, byU32); } int LZ4_freeStream (LZ4_stream_t* LZ4_stream) { if (!LZ4_stream) return 0; /* support free on NULL */ DEBUGLOG(5, "LZ4_freeStream %p", LZ4_stream); FREEMEM(LZ4_stream); return (0); } #define HASH_UNIT sizeof(reg_t) int LZ4_loadDict (LZ4_stream_t* LZ4_dict, const char* dictionary, int dictSize) { LZ4_stream_t_internal* dict = &LZ4_dict->internal_donotuse; const tableType_t tableType = byU32; const BYTE* p = (const BYTE*)dictionary; const BYTE* const dictEnd = p + dictSize; const BYTE* base; DEBUGLOG(4, "LZ4_loadDict (%i bytes from %p into %p)", dictSize, dictionary, LZ4_dict); LZ4_prepareTable(dict, 0, tableType); /* We always increment the offset by 64 KB, since, if the dict is longer, * we truncate it to the last 64k, and if it's shorter, we still want to * advance by a whole window length so we can provide the guarantee that * there are only valid offsets in the window, which allows an optimization * in LZ4_compress_fast_continue() where it uses noDictIssue even when the * dictionary isn't a full 64k. */ if ((dictEnd - p) > 64 KB) p = dictEnd - 64 KB; base = dictEnd - 64 KB - dict->currentOffset; dict->dictionary = p; dict->dictSize = (U32)(dictEnd - p); dict->currentOffset += 64 KB; dict->tableType = tableType; if (dictSize < (int)HASH_UNIT) { return 0; } while (p <= dictEnd-HASH_UNIT) { LZ4_putPosition(p, dict->hashTable, tableType, base); p+=3; } return dict->dictSize; } void LZ4_attach_dictionary(LZ4_stream_t *working_stream, const LZ4_stream_t *dictionary_stream) { if (dictionary_stream != NULL) { /* If the current offset is zero, we will never look in the * external dictionary context, since there is no value a table * entry can take that indicate a miss. In that case, we need * to bump the offset to something non-zero. */ if (working_stream->internal_donotuse.currentOffset == 0) { working_stream->internal_donotuse.currentOffset = 64 KB; } working_stream->internal_donotuse.dictCtx = &(dictionary_stream->internal_donotuse); } else { working_stream->internal_donotuse.dictCtx = NULL; } } static void LZ4_renormDictT(LZ4_stream_t_internal* LZ4_dict, int nextSize) { if (LZ4_dict->currentOffset + nextSize > 0x80000000) { /* potential ptrdiff_t overflow (32-bits mode) */ /* rescale hash table */ U32 const delta = LZ4_dict->currentOffset - 64 KB; const BYTE* dictEnd = LZ4_dict->dictionary + LZ4_dict->dictSize; int i; DEBUGLOG(4, "LZ4_renormDictT"); for (i=0; ihashTable[i] < delta) LZ4_dict->hashTable[i]=0; else LZ4_dict->hashTable[i] -= delta; } LZ4_dict->currentOffset = 64 KB; if (LZ4_dict->dictSize > 64 KB) LZ4_dict->dictSize = 64 KB; LZ4_dict->dictionary = dictEnd - LZ4_dict->dictSize; } } int LZ4_compress_fast_continue (LZ4_stream_t* LZ4_stream, const char* source, char* dest, int inputSize, int maxOutputSize, int acceleration) { const tableType_t tableType = byU32; LZ4_stream_t_internal* streamPtr = &LZ4_stream->internal_donotuse; const BYTE* const dictEnd = streamPtr->dictionary + streamPtr->dictSize; if (streamPtr->initCheck) return 0; /* Uninitialized structure detected */ LZ4_renormDictT(streamPtr, inputSize); /* avoid index overflow */ if (acceleration < 1) acceleration = ACCELERATION_DEFAULT; /* Check overlapping input/dictionary space */ { const BYTE* sourceEnd = (const BYTE*) source + inputSize; if ((sourceEnd > streamPtr->dictionary) && (sourceEnd < dictEnd)) { streamPtr->dictSize = (U32)(dictEnd - sourceEnd); if (streamPtr->dictSize > 64 KB) streamPtr->dictSize = 64 KB; if (streamPtr->dictSize < 4) streamPtr->dictSize = 0; streamPtr->dictionary = dictEnd - streamPtr->dictSize; } } /* prefix mode : source data follows dictionary */ if (dictEnd == (const BYTE*)source) { if ((streamPtr->dictSize < 64 KB) && (streamPtr->dictSize < streamPtr->currentOffset)) return LZ4_compress_generic(streamPtr, source, dest, inputSize, maxOutputSize, limitedOutput, tableType, withPrefix64k, dictSmall, acceleration); else return LZ4_compress_generic(streamPtr, source, dest, inputSize, maxOutputSize, limitedOutput, tableType, withPrefix64k, noDictIssue, acceleration); } /* external dictionary mode */ { int result; if (streamPtr->dictCtx) { /* We depend here on the fact that dictCtx'es (produced by * LZ4_loadDict) guarantee that their tables contain no references * to offsets between dictCtx->currentOffset - 64 KB and * dictCtx->currentOffset - dictCtx->dictSize. This makes it safe * to use noDictIssue even when the dict isn't a full 64 KB. */ if (inputSize > 4 KB) { /* For compressing large blobs, it is faster to pay the setup * cost to copy the dictionary's tables into the active context, * so that the compression loop is only looking into one table. */ memcpy(streamPtr, streamPtr->dictCtx, sizeof(LZ4_stream_t)); result = LZ4_compress_generic(streamPtr, source, dest, inputSize, maxOutputSize, limitedOutput, tableType, usingExtDict, noDictIssue, acceleration); } else { result = LZ4_compress_generic(streamPtr, source, dest, inputSize, maxOutputSize, limitedOutput, tableType, usingDictCtx, noDictIssue, acceleration); } } else { if ((streamPtr->dictSize < 64 KB) && (streamPtr->dictSize < streamPtr->currentOffset)) { result = LZ4_compress_generic(streamPtr, source, dest, inputSize, maxOutputSize, limitedOutput, tableType, usingExtDict, dictSmall, acceleration); } else { result = LZ4_compress_generic(streamPtr, source, dest, inputSize, maxOutputSize, limitedOutput, tableType, usingExtDict, noDictIssue, acceleration); } } streamPtr->dictionary = (const BYTE*)source; streamPtr->dictSize = (U32)inputSize; return result; } } /* Hidden debug function, to force-test external dictionary mode */ int LZ4_compress_forceExtDict (LZ4_stream_t* LZ4_dict, const char* source, char* dest, int srcSize) { LZ4_stream_t_internal* streamPtr = &LZ4_dict->internal_donotuse; int result; LZ4_renormDictT(streamPtr, srcSize); if ((streamPtr->dictSize < 64 KB) && (streamPtr->dictSize < streamPtr->currentOffset)) { result = LZ4_compress_generic(streamPtr, source, dest, srcSize, 0, notLimited, byU32, usingExtDict, dictSmall, 1); } else { result = LZ4_compress_generic(streamPtr, source, dest, srcSize, 0, notLimited, byU32, usingExtDict, noDictIssue, 1); } streamPtr->dictionary = (const BYTE*)source; streamPtr->dictSize = (U32)srcSize; return result; } /*! LZ4_saveDict() : * If previously compressed data block is not guaranteed to remain available at its memory location, * save it into a safer place (char* safeBuffer). * Note : you don't need to call LZ4_loadDict() afterwards, * dictionary is immediately usable, you can therefore call LZ4_compress_fast_continue(). * Return : saved dictionary size in bytes (necessarily <= dictSize), or 0 if error. */ int LZ4_saveDict (LZ4_stream_t* LZ4_dict, char* safeBuffer, int dictSize) { LZ4_stream_t_internal* const dict = &LZ4_dict->internal_donotuse; const BYTE* const previousDictEnd = dict->dictionary + dict->dictSize; if ((U32)dictSize > 64 KB) dictSize = 64 KB; /* useless to define a dictionary > 64 KB */ if ((U32)dictSize > dict->dictSize) dictSize = dict->dictSize; memmove(safeBuffer, previousDictEnd - dictSize, dictSize); dict->dictionary = (const BYTE*)safeBuffer; dict->dictSize = (U32)dictSize; return dictSize; } /*-***************************** * Decompression functions *******************************/ /*! LZ4_decompress_generic() : * This generic decompression function covers all use cases. * It shall be instantiated several times, using different sets of directives. * Note that it is important for performance that this function really get inlined, * in order to remove useless branches during compilation optimization. */ LZ4_FORCE_O2_GCC_PPC64LE LZ4_FORCE_INLINE int LZ4_decompress_generic( const char* const src, char* const dst, int srcSize, int outputSize, /* If endOnInput==endOnInputSize, this value is `dstCapacity` */ int endOnInput, /* endOnOutputSize, endOnInputSize */ int partialDecoding, /* full, partial */ int targetOutputSize, /* only used if partialDecoding==partial */ int dict, /* noDict, withPrefix64k, usingExtDict */ const BYTE* const lowPrefix, /* always <= dst, == dst when no prefix */ const BYTE* const dictStart, /* only if dict==usingExtDict */ const size_t dictSize /* note : = 0 if noDict */ ) { const BYTE* ip = (const BYTE*) src; const BYTE* const iend = ip + srcSize; BYTE* op = (BYTE*) dst; BYTE* const oend = op + outputSize; BYTE* cpy; BYTE* oexit = op + targetOutputSize; const BYTE* const dictEnd = (const BYTE*)dictStart + dictSize; const unsigned inc32table[8] = {0, 1, 2, 1, 0, 4, 4, 4}; const int dec64table[8] = {0, 0, 0, -1, -4, 1, 2, 3}; const int safeDecode = (endOnInput==endOnInputSize); const int checkOffset = ((safeDecode) && (dictSize < (int)(64 KB))); /* Special cases */ if ((partialDecoding) && (oexit > oend-MFLIMIT)) oexit = oend-MFLIMIT; /* targetOutputSize too high => just decode everything */ if ((endOnInput) && (unlikely(outputSize==0))) return ((srcSize==1) && (*ip==0)) ? 0 : -1; /* Empty output buffer */ if ((!endOnInput) && (unlikely(outputSize==0))) return (*ip==0?1:-1); /* Main Loop : decode sequences */ while (1) { size_t length; const BYTE* match; size_t offset; unsigned const token = *ip++; /* shortcut for common case : * in most circumstances, we expect to decode small matches (<= 18 bytes) separated by few literals (<= 14 bytes). * this shortcut was tested on x86 and x64, where it improves decoding speed. * it has not yet been benchmarked on ARM, Power, mips, etc. */ if (((ip + 14 /*maxLL*/ + 2 /*offset*/ <= iend) & (op + 14 /*maxLL*/ + 18 /*maxML*/ <= oend)) & ((token < (15<> ML_BITS; size_t const off = LZ4_readLE16(ip+ll); const BYTE* const matchPtr = op + ll - off; /* pointer underflow risk ? */ if ((off >= 8) /* do not deal with overlapping matches */ & (matchPtr >= lowPrefix)) { size_t const ml = (token & ML_MASK) + MINMATCH; memcpy(op, ip, 16); op += ll; ip += ll + 2 /*offset*/; memcpy(op + 0, matchPtr + 0, 8); memcpy(op + 8, matchPtr + 8, 8); memcpy(op +16, matchPtr +16, 2); op += ml; continue; } } /* decode literal length */ if ((length=(token>>ML_BITS)) == RUN_MASK) { unsigned s; do { s = *ip++; length += s; } while ( likely(endOnInput ? ip(partialDecoding?oexit:oend-MFLIMIT)) || (ip+length>iend-(2+1+LASTLITERALS))) ) || ((!endOnInput) && (cpy>oend-WILDCOPYLENGTH)) ) { if (partialDecoding) { if (cpy > oend) goto _output_error; /* Error : write attempt beyond end of output buffer */ if ((endOnInput) && (ip+length > iend)) goto _output_error; /* Error : read attempt beyond end of input buffer */ } else { if ((!endOnInput) && (cpy != oend)) goto _output_error; /* Error : block decoding must stop exactly there */ if ((endOnInput) && ((ip+length != iend) || (cpy > oend))) goto _output_error; /* Error : input must be consumed */ } memcpy(op, ip, length); ip += length; op += length; break; /* Necessarily EOF, due to parsing restrictions */ } LZ4_wildCopy(op, ip, cpy); ip += length; op = cpy; /* get offset */ offset = LZ4_readLE16(ip); ip+=2; match = op - offset; if ((checkOffset) && (unlikely(match + dictSize < lowPrefix))) goto _output_error; /* Error : offset outside buffers */ LZ4_write32(op, (U32)offset); /* costs ~1%; silence an msan warning when offset==0 */ /* get matchlength */ length = token & ML_MASK; if (length == ML_MASK) { unsigned s; do { s = *ip++; if ((endOnInput) && (ip > iend-LASTLITERALS)) goto _output_error; length += s; } while (s==255); if ((safeDecode) && unlikely((uptrval)(op)+length<(uptrval)op)) goto _output_error; /* overflow detection */ } length += MINMATCH; /* check external dictionary */ if ((dict==usingExtDict) && (match < lowPrefix)) { if (unlikely(op+length > oend-LASTLITERALS)) goto _output_error; /* doesn't respect parsing restriction */ if (length <= (size_t)(lowPrefix-match)) { /* match can be copied as a single segment from external dictionary */ memmove(op, dictEnd - (lowPrefix-match), length); op += length; } else { /* match encompass external dictionary and current block */ size_t const copySize = (size_t)(lowPrefix-match); size_t const restSize = length - copySize; memcpy(op, dictEnd - copySize, copySize); op += copySize; if (restSize > (size_t)(op-lowPrefix)) { /* overlap copy */ BYTE* const endOfMatch = op + restSize; const BYTE* copyFrom = lowPrefix; while (op < endOfMatch) *op++ = *copyFrom++; } else { memcpy(op, lowPrefix, restSize); op += restSize; } } continue; } /* copy match within block */ cpy = op + length; if (unlikely(offset<8)) { op[0] = match[0]; op[1] = match[1]; op[2] = match[2]; op[3] = match[3]; match += inc32table[offset]; memcpy(op+4, match, 4); match -= dec64table[offset]; } else { memcpy(op, match, 8); match+=8; } op += 8; if (unlikely(cpy>oend-12)) { BYTE* const oCopyLimit = oend-(WILDCOPYLENGTH-1); if (cpy > oend-LASTLITERALS) goto _output_error; /* Error : last LASTLITERALS bytes must be literals (uncompressed) */ if (op < oCopyLimit) { LZ4_wildCopy(op, match, oCopyLimit); match += oCopyLimit - op; op = oCopyLimit; } while (op16) LZ4_wildCopy(op+8, match+8, cpy); } op = cpy; /* correction */ } /* end of decoding */ if (endOnInput) return (int) (((char*)op)-dst); /* Nb of output bytes decoded */ else return (int) (((const char*)ip)-src); /* Nb of input bytes read */ /* Overflow error detected */ _output_error: return (int) (-(((const char*)ip)-src))-1; } LZ4_FORCE_O2_GCC_PPC64LE int LZ4_decompress_safe(const char* source, char* dest, int compressedSize, int maxDecompressedSize) { return LZ4_decompress_generic(source, dest, compressedSize, maxDecompressedSize, endOnInputSize, full, 0, noDict, (BYTE*)dest, NULL, 0); } LZ4_FORCE_O2_GCC_PPC64LE int LZ4_decompress_safe_partial(const char* source, char* dest, int compressedSize, int targetOutputSize, int maxDecompressedSize) { return LZ4_decompress_generic(source, dest, compressedSize, maxDecompressedSize, endOnInputSize, partial, targetOutputSize, noDict, (BYTE*)dest, NULL, 0); } LZ4_FORCE_O2_GCC_PPC64LE int LZ4_decompress_fast(const char* source, char* dest, int originalSize) { return LZ4_decompress_generic(source, dest, 0, originalSize, endOnOutputSize, full, 0, withPrefix64k, (BYTE*)(dest - 64 KB), NULL, 64 KB); } /*===== streaming decompression functions =====*/ LZ4_streamDecode_t* LZ4_createStreamDecode(void) { LZ4_streamDecode_t* lz4s = (LZ4_streamDecode_t*) ALLOC_AND_ZERO(sizeof(LZ4_streamDecode_t)); return lz4s; } int LZ4_freeStreamDecode (LZ4_streamDecode_t* LZ4_stream) { if (!LZ4_stream) return 0; /* support free on NULL */ FREEMEM(LZ4_stream); return 0; } /*! * LZ4_setStreamDecode() : * Use this function to instruct where to find the dictionary. * This function is not necessary if previous data is still available where it was decoded. * Loading a size of 0 is allowed (same effect as no dictionary). * Return : 1 if OK, 0 if error */ int LZ4_setStreamDecode (LZ4_streamDecode_t* LZ4_streamDecode, const char* dictionary, int dictSize) { LZ4_streamDecode_t_internal* lz4sd = &LZ4_streamDecode->internal_donotuse; lz4sd->prefixSize = (size_t) dictSize; lz4sd->prefixEnd = (const BYTE*) dictionary + dictSize; lz4sd->externalDict = NULL; lz4sd->extDictSize = 0; return 1; } /* *_continue() : These decoding functions allow decompression of multiple blocks in "streaming" mode. Previously decoded blocks must still be available at the memory position where they were decoded. If it's not possible, save the relevant part of decoded data into a safe buffer, and indicate where it stands using LZ4_setStreamDecode() */ LZ4_FORCE_O2_GCC_PPC64LE int LZ4_decompress_safe_continue (LZ4_streamDecode_t* LZ4_streamDecode, const char* source, char* dest, int compressedSize, int maxOutputSize) { LZ4_streamDecode_t_internal* lz4sd = &LZ4_streamDecode->internal_donotuse; int result; if (lz4sd->prefixEnd == (BYTE*)dest) { result = LZ4_decompress_generic(source, dest, compressedSize, maxOutputSize, endOnInputSize, full, 0, usingExtDict, lz4sd->prefixEnd - lz4sd->prefixSize, lz4sd->externalDict, lz4sd->extDictSize); if (result <= 0) return result; lz4sd->prefixSize += result; lz4sd->prefixEnd += result; } else { lz4sd->extDictSize = lz4sd->prefixSize; lz4sd->externalDict = lz4sd->prefixEnd - lz4sd->extDictSize; result = LZ4_decompress_generic(source, dest, compressedSize, maxOutputSize, endOnInputSize, full, 0, usingExtDict, (BYTE*)dest, lz4sd->externalDict, lz4sd->extDictSize); if (result <= 0) return result; lz4sd->prefixSize = result; lz4sd->prefixEnd = (BYTE*)dest + result; } return result; } LZ4_FORCE_O2_GCC_PPC64LE int LZ4_decompress_fast_continue (LZ4_streamDecode_t* LZ4_streamDecode, const char* source, char* dest, int originalSize) { LZ4_streamDecode_t_internal* lz4sd = &LZ4_streamDecode->internal_donotuse; int result; if (lz4sd->prefixEnd == (BYTE*)dest) { result = LZ4_decompress_generic(source, dest, 0, originalSize, endOnOutputSize, full, 0, usingExtDict, lz4sd->prefixEnd - lz4sd->prefixSize, lz4sd->externalDict, lz4sd->extDictSize); if (result <= 0) return result; lz4sd->prefixSize += originalSize; lz4sd->prefixEnd += originalSize; } else { lz4sd->extDictSize = lz4sd->prefixSize; lz4sd->externalDict = lz4sd->prefixEnd - lz4sd->extDictSize; result = LZ4_decompress_generic(source, dest, 0, originalSize, endOnOutputSize, full, 0, usingExtDict, (BYTE*)dest, lz4sd->externalDict, lz4sd->extDictSize); if (result <= 0) return result; lz4sd->prefixSize = originalSize; lz4sd->prefixEnd = (BYTE*)dest + originalSize; } return result; } /* Advanced decoding functions : *_usingDict() : These decoding functions work the same as "_continue" ones, the dictionary must be explicitly provided within parameters */ LZ4_FORCE_O2_GCC_PPC64LE LZ4_FORCE_INLINE int LZ4_decompress_usingDict_generic(const char* source, char* dest, int compressedSize, int maxOutputSize, int safe, const char* dictStart, int dictSize) { if (dictSize==0) return LZ4_decompress_generic(source, dest, compressedSize, maxOutputSize, safe, full, 0, noDict, (BYTE*)dest, NULL, 0); if (dictStart+dictSize == dest) { if (dictSize >= (int)(64 KB - 1)) return LZ4_decompress_generic(source, dest, compressedSize, maxOutputSize, safe, full, 0, withPrefix64k, (BYTE*)dest-64 KB, NULL, 0); return LZ4_decompress_generic(source, dest, compressedSize, maxOutputSize, safe, full, 0, noDict, (BYTE*)dest-dictSize, NULL, 0); } return LZ4_decompress_generic(source, dest, compressedSize, maxOutputSize, safe, full, 0, usingExtDict, (BYTE*)dest, (const BYTE*)dictStart, dictSize); } LZ4_FORCE_O2_GCC_PPC64LE int LZ4_decompress_safe_usingDict(const char* source, char* dest, int compressedSize, int maxOutputSize, const char* dictStart, int dictSize) { return LZ4_decompress_usingDict_generic(source, dest, compressedSize, maxOutputSize, 1, dictStart, dictSize); } LZ4_FORCE_O2_GCC_PPC64LE int LZ4_decompress_fast_usingDict(const char* source, char* dest, int originalSize, const char* dictStart, int dictSize) { return LZ4_decompress_usingDict_generic(source, dest, 0, originalSize, 0, dictStart, dictSize); } /* debug function */ LZ4_FORCE_O2_GCC_PPC64LE int LZ4_decompress_safe_forceExtDict(const char* source, char* dest, int compressedSize, int maxOutputSize, const char* dictStart, int dictSize) { return LZ4_decompress_generic(source, dest, compressedSize, maxOutputSize, endOnInputSize, full, 0, usingExtDict, (BYTE*)dest, (const BYTE*)dictStart, dictSize); } /*=************************************************* * Obsolete Functions ***************************************************/ /* obsolete compression functions */ int LZ4_compress_limitedOutput(const char* source, char* dest, int inputSize, int maxOutputSize) { return LZ4_compress_default(source, dest, inputSize, maxOutputSize); } int LZ4_compress(const char* source, char* dest, int inputSize) { return LZ4_compress_default(source, dest, inputSize, LZ4_compressBound(inputSize)); } int LZ4_compress_limitedOutput_withState (void* state, const char* src, char* dst, int srcSize, int dstSize) { return LZ4_compress_fast_extState(state, src, dst, srcSize, dstSize, 1); } int LZ4_compress_withState (void* state, const char* src, char* dst, int srcSize) { return LZ4_compress_fast_extState(state, src, dst, srcSize, LZ4_compressBound(srcSize), 1); } int LZ4_compress_limitedOutput_continue (LZ4_stream_t* LZ4_stream, const char* src, char* dst, int srcSize, int maxDstSize) { return LZ4_compress_fast_continue(LZ4_stream, src, dst, srcSize, maxDstSize, 1); } int LZ4_compress_continue (LZ4_stream_t* LZ4_stream, const char* source, char* dest, int inputSize) { return LZ4_compress_fast_continue(LZ4_stream, source, dest, inputSize, LZ4_compressBound(inputSize), 1); } /* These function names are deprecated and should no longer be used. They are only provided here for compatibility with older user programs. - LZ4_uncompress is totally equivalent to LZ4_decompress_fast - LZ4_uncompress_unknownOutputSize is totally equivalent to LZ4_decompress_safe */ int LZ4_uncompress (const char* source, char* dest, int outputSize) { return LZ4_decompress_fast(source, dest, outputSize); } int LZ4_uncompress_unknownOutputSize (const char* source, char* dest, int isize, int maxOutputSize) { return LZ4_decompress_safe(source, dest, isize, maxOutputSize); } /* Obsolete Streaming functions */ int LZ4_sizeofStreamState() { return LZ4_STREAMSIZE; } int LZ4_resetStreamState(void* state, char* inputBuffer) { (void)inputBuffer; LZ4_resetStream((LZ4_stream_t*)state); return 0; } void* LZ4_create (char* inputBuffer) { (void)inputBuffer; return LZ4_createStream(); } char* LZ4_slideInputBuffer (void* state) { /* avoid const char * -> char * conversion warning */ return (char *)(uptrval)((LZ4_stream_t*)state)->internal_donotuse.dictionary; } /* Obsolete streaming decompression functions */ int LZ4_decompress_safe_withPrefix64k(const char* source, char* dest, int compressedSize, int maxOutputSize) { return LZ4_decompress_generic(source, dest, compressedSize, maxOutputSize, endOnInputSize, full, 0, withPrefix64k, (BYTE*)dest - 64 KB, NULL, 64 KB); } int LZ4_decompress_fast_withPrefix64k(const char* source, char* dest, int originalSize) { return LZ4_decompress_generic(source, dest, 0, originalSize, endOnOutputSize, full, 0, withPrefix64k, (BYTE*)dest - 64 KB, NULL, 64 KB); } #endif /* LZ4_COMMONDEFS_ONLY */ ================================================ FILE: bdk/libs/compr/lz4.h ================================================ /* * LZ4 - Fast LZ compression algorithm * Header File * Copyright (C) 2011-2017, Yann Collet. BSD 2-Clause License (http://www.opensource.org/licenses/bsd-license.php) Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. You can contact the author at : - LZ4 homepage : http://www.lz4.org - LZ4 source repository : https://github.com/lz4/lz4 */ #if defined (__cplusplus) extern "C" { #endif #ifndef LZ4_H_2983827168210 #define LZ4_H_2983827168210 /* --- Dependency --- */ #include /* size_t */ /** Introduction LZ4 is lossless compression algorithm, providing compression speed at 400 MB/s per core, scalable with multi-cores CPU. It features an extremely fast decoder, with speed in multiple GB/s per core, typically reaching RAM speed limits on multi-core systems. The LZ4 compression library provides in-memory compression and decompression functions. Compression can be done in: - a single step (described as Simple Functions) - a single step, reusing a context (described in Advanced Functions) - unbounded multiple steps (described as Streaming compression) lz4.h provides block compression functions. It gives full buffer control to user. Decompressing an lz4-compressed block also requires metadata (such as compressed size). Each application is free to encode such metadata in whichever way it wants. An additional format, called LZ4 frame specification (doc/lz4_Frame_format.md), take care of encoding standard metadata alongside LZ4-compressed blocks. If your application requires interoperability, it's recommended to use it. A library is provided to take care of it, see lz4frame.h. */ /*^*************************************************************** * Export parameters *****************************************************************/ /* * LZ4_DLL_EXPORT : * Enable exporting of functions when building a Windows DLL * LZ4LIB_VISIBILITY : * Control library symbols visibility. */ #ifndef LZ4LIB_VISIBILITY # if defined(__GNUC__) && (__GNUC__ >= 4) # define LZ4LIB_VISIBILITY __attribute__ ((visibility ("default"))) # else # define LZ4LIB_VISIBILITY # endif #endif #if defined(LZ4_DLL_EXPORT) && (LZ4_DLL_EXPORT==1) # define LZ4LIB_API __declspec(dllexport) LZ4LIB_VISIBILITY #elif defined(LZ4_DLL_IMPORT) && (LZ4_DLL_IMPORT==1) # define LZ4LIB_API __declspec(dllimport) LZ4LIB_VISIBILITY /* It isn't required but allows to generate better code, saving a function pointer load from the IAT and an indirect jump.*/ #else # define LZ4LIB_API LZ4LIB_VISIBILITY #endif /*------ Version ------*/ #define LZ4_VERSION_MAJOR 1 /* for breaking interface changes */ #define LZ4_VERSION_MINOR 8 /* for new (non-breaking) interface capabilities */ #define LZ4_VERSION_RELEASE 2 /* for tweaks, bug-fixes, or development */ #define LZ4_VERSION_NUMBER (LZ4_VERSION_MAJOR *100*100 + LZ4_VERSION_MINOR *100 + LZ4_VERSION_RELEASE) #define LZ4_LIB_VERSION LZ4_VERSION_MAJOR.LZ4_VERSION_MINOR.LZ4_VERSION_RELEASE #define LZ4_QUOTE(str) #str #define LZ4_EXPAND_AND_QUOTE(str) LZ4_QUOTE(str) #define LZ4_VERSION_STRING LZ4_EXPAND_AND_QUOTE(LZ4_LIB_VERSION) LZ4LIB_API int LZ4_versionNumber (void); /**< library version number; useful to check dll version */ LZ4LIB_API const char* LZ4_versionString (void); /**< library version string; unseful to check dll version */ /*-************************************ * Tuning parameter **************************************/ /*! * LZ4_MEMORY_USAGE : * Memory usage formula : N->2^N Bytes (examples : 10 -> 1KB; 12 -> 4KB ; 16 -> 64KB; 20 -> 1MB; etc.) * Increasing memory usage improves compression ratio * Reduced memory usage may improve speed, thanks to cache effect * Default value is 14, for 16KB, which nicely fits into Intel x86 L1 cache */ #ifndef LZ4_MEMORY_USAGE # define LZ4_MEMORY_USAGE 14 #endif /*-************************************ * Simple Functions **************************************/ /*! LZ4_compress_default() : Compresses 'srcSize' bytes from buffer 'src' into already allocated 'dst' buffer of size 'dstCapacity'. Compression is guaranteed to succeed if 'dstCapacity' >= LZ4_compressBound(srcSize). It also runs faster, so it's a recommended setting. If the function cannot compress 'src' into a more limited 'dst' budget, compression stops *immediately*, and the function result is zero. Note : as a consequence, 'dst' content is not valid. Note 2 : This function is protected against buffer overflow scenarios (never writes outside 'dst' buffer, nor read outside 'source' buffer). srcSize : max supported value is LZ4_MAX_INPUT_SIZE. dstCapacity : size of buffer 'dst' (which must be already allocated) return : the number of bytes written into buffer 'dst' (necessarily <= dstCapacity) or 0 if compression fails */ LZ4LIB_API int LZ4_compress_default(const char* src, char* dst, int srcSize, int dstCapacity); /*! LZ4_decompress_safe() : compressedSize : is the exact complete size of the compressed block. dstCapacity : is the size of destination buffer, which must be already allocated. return : the number of bytes decompressed into destination buffer (necessarily <= dstCapacity) If destination buffer is not large enough, decoding will stop and output an error code (negative value). If the source stream is detected malformed, the function will stop decoding and return a negative result. This function is protected against malicious data packets. */ LZ4LIB_API int LZ4_decompress_safe (const char* src, char* dst, int compressedSize, int dstCapacity); /*-************************************ * Advanced Functions **************************************/ #define LZ4_MAX_INPUT_SIZE 0x7E000000 /* 2 113 929 216 bytes */ #define LZ4_COMPRESSBOUND(isize) ((unsigned)(isize) > (unsigned)LZ4_MAX_INPUT_SIZE ? 0 : (isize) + ((isize)/255) + 16) /*! LZ4_compressBound() : Provides the maximum size that LZ4 compression may output in a "worst case" scenario (input data not compressible) This function is primarily useful for memory allocation purposes (destination buffer size). Macro LZ4_COMPRESSBOUND() is also provided for compilation-time evaluation (stack memory allocation for example). Note that LZ4_compress_default() compresses faster when dstCapacity is >= LZ4_compressBound(srcSize) inputSize : max supported value is LZ4_MAX_INPUT_SIZE return : maximum output size in a "worst case" scenario or 0, if input size is incorrect (too large or negative) */ LZ4LIB_API int LZ4_compressBound(int inputSize); /*! LZ4_compress_fast() : Same as LZ4_compress_default(), but allows selection of "acceleration" factor. The larger the acceleration value, the faster the algorithm, but also the lesser the compression. It's a trade-off. It can be fine tuned, with each successive value providing roughly +~3% to speed. An acceleration value of "1" is the same as regular LZ4_compress_default() Values <= 0 will be replaced by ACCELERATION_DEFAULT (currently == 1, see lz4.c). */ LZ4LIB_API int LZ4_compress_fast (const char* src, char* dst, int srcSize, int dstCapacity, int acceleration); /*! LZ4_compress_fast_extState() : Same compression function, just using an externally allocated memory space to store compression state. Use LZ4_sizeofState() to know how much memory must be allocated, and allocate it on 8-bytes boundaries (using malloc() typically). Then, provide it as 'void* state' to compression function. */ LZ4LIB_API int LZ4_sizeofState(void); LZ4LIB_API int LZ4_compress_fast_extState (void* state, const char* src, char* dst, int srcSize, int dstCapacity, int acceleration); /*! LZ4_compress_destSize() : Reverse the logic : compresses as much data as possible from 'src' buffer into already allocated buffer 'dst' of size 'targetDestSize'. This function either compresses the entire 'src' content into 'dst' if it's large enough, or fill 'dst' buffer completely with as much data as possible from 'src'. *srcSizePtr : will be modified to indicate how many bytes where read from 'src' to fill 'dst'. New value is necessarily <= old value. return : Nb bytes written into 'dst' (necessarily <= targetDestSize) or 0 if compression fails */ LZ4LIB_API int LZ4_compress_destSize (const char* src, char* dst, int* srcSizePtr, int targetDstSize); /*! LZ4_decompress_fast() : **unsafe!** This function is a bit faster than LZ4_decompress_safe(), but doesn't provide any security guarantee. originalSize : is the uncompressed size to regenerate Destination buffer must be already allocated, and its size must be >= 'originalSize' bytes. return : number of bytes read from source buffer (== compressed size). If the source stream is detected malformed, the function stops decoding and return a negative result. note : This function respects memory boundaries for *properly formed* compressed data. However, it does not provide any protection against malicious input. It also doesn't know 'src' size, and implies it's >= compressed size. Use this function in trusted environment **only**. */ LZ4LIB_API int LZ4_decompress_fast (const char* src, char* dst, int originalSize); /*! LZ4_decompress_safe_partial() : This function decompress a compressed block of size 'srcSize' at position 'src' into destination buffer 'dst' of size 'dstCapacity'. The function will decompress a minimum of 'targetOutputSize' bytes, and stop after that. However, it's not accurate, and may write more than 'targetOutputSize' (but always <= dstCapacity). @return : the number of bytes decoded in the destination buffer (necessarily <= dstCapacity) Note : this number can also be < targetOutputSize, if compressed block contains less data. Therefore, always control how many bytes were decoded. If source stream is detected malformed, function returns a negative result. This function is protected against malicious data packets. */ LZ4LIB_API int LZ4_decompress_safe_partial (const char* src, char* dst, int srcSize, int targetOutputSize, int dstCapacity); /*-********************************************* * Streaming Compression Functions ***********************************************/ typedef union LZ4_stream_u LZ4_stream_t; /* incomplete type (defined later) */ /*! LZ4_createStream() and LZ4_freeStream() : * LZ4_createStream() will allocate and initialize an `LZ4_stream_t` structure. * LZ4_freeStream() releases its memory. */ LZ4LIB_API LZ4_stream_t* LZ4_createStream(void); LZ4LIB_API int LZ4_freeStream (LZ4_stream_t* streamPtr); /*! LZ4_resetStream() : * An LZ4_stream_t structure can be allocated once and re-used multiple times. * Use this function to start compressing a new stream. */ LZ4LIB_API void LZ4_resetStream (LZ4_stream_t* streamPtr); /*! LZ4_loadDict() : * Use this function to load a static dictionary into LZ4_stream_t. * Any previous data will be forgotten, only 'dictionary' will remain in memory. * Loading a size of 0 is allowed, and is the same as reset. * @return : dictionary size, in bytes (necessarily <= 64 KB) */ LZ4LIB_API int LZ4_loadDict (LZ4_stream_t* streamPtr, const char* dictionary, int dictSize); /*! LZ4_compress_fast_continue() : * Compress 'src' content using data from previously compressed blocks, for better compression ratio. * 'dst' buffer must be already allocated. * If dstCapacity >= LZ4_compressBound(srcSize), compression is guaranteed to succeed, and runs faster. * * Important : The previous 64KB of compressed data is assumed to remain present and unmodified in memory! * * Special 1 : When input is a double-buffer, they can have any size, including < 64 KB. * Make sure that buffers are separated by at least one byte. * This way, each block only depends on previous block. * Special 2 : If input buffer is a ring-buffer, it can have any size, including < 64 KB. * * @return : size of compressed block * or 0 if there is an error (typically, cannot fit into 'dst'). * After an error, the stream status is invalid, it can only be reset or freed. */ LZ4LIB_API int LZ4_compress_fast_continue (LZ4_stream_t* streamPtr, const char* src, char* dst, int srcSize, int dstCapacity, int acceleration); /*! LZ4_saveDict() : * If last 64KB data cannot be guaranteed to remain available at its current memory location, * save it into a safer place (char* safeBuffer). * This is schematically equivalent to a memcpy() followed by LZ4_loadDict(), * but is much faster, because LZ4_saveDict() doesn't need to rebuild tables. * @return : saved dictionary size in bytes (necessarily <= maxDictSize), or 0 if error. */ LZ4LIB_API int LZ4_saveDict (LZ4_stream_t* streamPtr, char* safeBuffer, int maxDictSize); /*-********************************************** * Streaming Decompression Functions * Bufferless synchronous API ************************************************/ typedef union LZ4_streamDecode_u LZ4_streamDecode_t; /* incomplete type (defined later) */ /*! LZ4_createStreamDecode() and LZ4_freeStreamDecode() : * creation / destruction of streaming decompression tracking structure. * A tracking structure can be re-used multiple times sequentially. */ LZ4LIB_API LZ4_streamDecode_t* LZ4_createStreamDecode(void); LZ4LIB_API int LZ4_freeStreamDecode (LZ4_streamDecode_t* LZ4_stream); /*! LZ4_setStreamDecode() : * An LZ4_streamDecode_t structure can be allocated once and re-used multiple times. * Use this function to start decompression of a new stream of blocks. * A dictionary can optionnally be set. Use NULL or size 0 for a reset order. * @return : 1 if OK, 0 if error */ LZ4LIB_API int LZ4_setStreamDecode (LZ4_streamDecode_t* LZ4_streamDecode, const char* dictionary, int dictSize); /*! LZ4_decompress_*_continue() : * These decoding functions allow decompression of consecutive blocks in "streaming" mode. * A block is an unsplittable entity, it must be presented entirely to a decompression function. * Decompression functions only accept one block at a time. * The last 64KB of previously decoded data *must* remain available and unmodified at the memory position where they were decoded. * If less than 64KB of data has been decoded all the data must be present. * * Special : if application sets a ring buffer for decompression, it must respect one of the following conditions : * - Exactly same size as encoding buffer, with same update rule (block boundaries at same positions) * In which case, the decoding & encoding ring buffer can have any size, including very small ones ( < 64 KB). * - Larger than encoding buffer, by a minimum of maxBlockSize more bytes. * maxBlockSize is implementation dependent. It's the maximum size of any single block. * In which case, encoding and decoding buffers do not need to be synchronized, * and encoding ring buffer can have any size, including small ones ( < 64 KB). * - _At least_ 64 KB + 8 bytes + maxBlockSize. * In which case, encoding and decoding buffers do not need to be synchronized, * and encoding ring buffer can have any size, including larger than decoding buffer. * Whenever these conditions are not possible, save the last 64KB of decoded data into a safe buffer, * and indicate where it is saved using LZ4_setStreamDecode() before decompressing next block. */ LZ4LIB_API int LZ4_decompress_safe_continue (LZ4_streamDecode_t* LZ4_streamDecode, const char* src, char* dst, int srcSize, int dstCapacity); LZ4LIB_API int LZ4_decompress_fast_continue (LZ4_streamDecode_t* LZ4_streamDecode, const char* src, char* dst, int originalSize); /*! LZ4_decompress_*_usingDict() : * These decoding functions work the same as * a combination of LZ4_setStreamDecode() followed by LZ4_decompress_*_continue() * They are stand-alone, and don't need an LZ4_streamDecode_t structure. */ LZ4LIB_API int LZ4_decompress_safe_usingDict (const char* src, char* dst, int srcSize, int dstCapcity, const char* dictStart, int dictSize); LZ4LIB_API int LZ4_decompress_fast_usingDict (const char* src, char* dst, int originalSize, const char* dictStart, int dictSize); /*^********************************************** * !!!!!! STATIC LINKING ONLY !!!!!! ***********************************************/ /*-************************************ * Unstable declarations ************************************** * Declarations in this section should be considered unstable. * Use at your own peril, etc., etc. * They may be removed in the future. * Their signatures may change. **************************************/ #ifdef LZ4_STATIC_LINKING_ONLY /*! LZ4_resetStream_fast() : * When an LZ4_stream_t is known to be in a internally coherent state, * it can often be prepared for a new compression with almost no work, only * sometimes falling back to the full, expensive reset that is always required * when the stream is in an indeterminate state (i.e., the reset performed by * LZ4_resetStream()). * * LZ4_streams are guaranteed to be in a valid state when: * - returned from LZ4_createStream() * - reset by LZ4_resetStream() * - memset(stream, 0, sizeof(LZ4_stream_t)) * - the stream was in a valid state and was reset by LZ4_resetStream_fast() * - the stream was in a valid state and was then used in any compression call * that returned success * - the stream was in an indeterminate state and was used in a compression * call that fully reset the state (LZ4_compress_fast_extState()) and that * returned success */ LZ4LIB_API void LZ4_resetStream_fast (LZ4_stream_t* streamPtr); /*! LZ4_compress_fast_extState_fastReset() : * A variant of LZ4_compress_fast_extState(). * * Using this variant avoids an expensive initialization step. It is only safe * to call if the state buffer is known to be correctly initialized already * (see above comment on LZ4_resetStream_fast() for a definition of "correctly * initialized"). From a high level, the difference is that this function * initializes the provided state with a call to LZ4_resetStream_fast() while * LZ4_compress_fast_extState() starts with a call to LZ4_resetStream(). */ LZ4LIB_API int LZ4_compress_fast_extState_fastReset (void* state, const char* src, char* dst, int srcSize, int dstCapacity, int acceleration); /*! LZ4_attach_dictionary() : * This is an experimental API that allows for the efficient use of a * static dictionary many times. * * Rather than re-loading the dictionary buffer into a working context before * each compression, or copying a pre-loaded dictionary's LZ4_stream_t into a * working LZ4_stream_t, this function introduces a no-copy setup mechanism, * in which the working stream references the dictionary stream in-place. * * Several assumptions are made about the state of the dictionary stream. * Currently, only streams which have been prepared by LZ4_loadDict() should * be expected to work. * * Alternatively, the provided dictionary stream pointer may be NULL, in which * case any existing dictionary stream is unset. * * If a dictionary is provided, it replaces any pre-existing stream history. * The dictionary contents are the only history that can be referenced and * logically immediately precede the data compressed in the first subsequent * compression call. * * The dictionary will only remain attached to the working stream through the * first compression call, at the end of which it is cleared. The dictionary * stream (and source buffer) must remain in-place / accessible / unchanged * through the completion of the first compression call on the stream. */ LZ4LIB_API void LZ4_attach_dictionary(LZ4_stream_t *working_stream, const LZ4_stream_t *dictionary_stream); #endif /*-************************************ * Private definitions ************************************** * Do not use these definitions. * They are exposed to allow static allocation of `LZ4_stream_t` and `LZ4_streamDecode_t`. * Using these definitions will expose code to API and/or ABI break in future versions of the library. **************************************/ #define LZ4_HASHLOG (LZ4_MEMORY_USAGE-2) #define LZ4_HASHTABLESIZE (1 << LZ4_MEMORY_USAGE) #define LZ4_HASH_SIZE_U32 (1 << LZ4_HASHLOG) /* required as macro for static allocation */ #if defined(__cplusplus) || (defined (__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L) /* C99 */) #include typedef struct LZ4_stream_t_internal LZ4_stream_t_internal; struct LZ4_stream_t_internal { uint32_t hashTable[LZ4_HASH_SIZE_U32]; uint32_t currentOffset; uint16_t initCheck; uint16_t tableType; const uint8_t* dictionary; const LZ4_stream_t_internal* dictCtx; uint32_t dictSize; }; typedef struct { const uint8_t* externalDict; size_t extDictSize; const uint8_t* prefixEnd; size_t prefixSize; } LZ4_streamDecode_t_internal; #else typedef struct LZ4_stream_t_internal LZ4_stream_t_internal; struct LZ4_stream_t_internal { unsigned int hashTable[LZ4_HASH_SIZE_U32]; unsigned int currentOffset; unsigned short initCheck; unsigned short tableType; const unsigned char* dictionary; const LZ4_stream_t_internal* dictCtx; unsigned int dictSize; }; typedef struct { const unsigned char* externalDict; size_t extDictSize; const unsigned char* prefixEnd; size_t prefixSize; } LZ4_streamDecode_t_internal; #endif /*! * LZ4_stream_t : * information structure to track an LZ4 stream. * init this structure before first use. * note : only use in association with static linking ! * this definition is not API/ABI safe, * it may change in a future version ! */ #define LZ4_STREAMSIZE_U64 ((1 << (LZ4_MEMORY_USAGE-3)) + 4) #define LZ4_STREAMSIZE (LZ4_STREAMSIZE_U64 * sizeof(unsigned long long)) union LZ4_stream_u { unsigned long long table[LZ4_STREAMSIZE_U64]; LZ4_stream_t_internal internal_donotuse; } ; /* previously typedef'd to LZ4_stream_t */ /*! * LZ4_streamDecode_t : * information structure to track an LZ4 stream during decompression. * init this structure using LZ4_setStreamDecode (or memset()) before first use * note : only use in association with static linking ! * this definition is not API/ABI safe, * and may change in a future version ! */ #define LZ4_STREAMDECODESIZE_U64 4 #define LZ4_STREAMDECODESIZE (LZ4_STREAMDECODESIZE_U64 * sizeof(unsigned long long)) union LZ4_streamDecode_u { unsigned long long table[LZ4_STREAMDECODESIZE_U64]; LZ4_streamDecode_t_internal internal_donotuse; } ; /* previously typedef'd to LZ4_streamDecode_t */ /*-************************************ * Obsolete Functions **************************************/ /*! Deprecation warnings Should deprecation warnings be a problem, it is generally possible to disable them, typically with -Wno-deprecated-declarations for gcc or _CRT_SECURE_NO_WARNINGS in Visual. Otherwise, it's also possible to define LZ4_DISABLE_DEPRECATE_WARNINGS */ #ifdef LZ4_DISABLE_DEPRECATE_WARNINGS # define LZ4_DEPRECATED(message) /* disable deprecation warnings */ #else # define LZ4_GCC_VERSION (__GNUC__ * 100 + __GNUC_MINOR__) # if defined (__cplusplus) && (__cplusplus >= 201402) /* C++14 or greater */ # define LZ4_DEPRECATED(message) [[deprecated(message)]] # elif (LZ4_GCC_VERSION >= 405) || defined(__clang__) # define LZ4_DEPRECATED(message) __attribute__((deprecated(message))) # elif (LZ4_GCC_VERSION >= 301) # define LZ4_DEPRECATED(message) __attribute__((deprecated)) # elif defined(_MSC_VER) # define LZ4_DEPRECATED(message) __declspec(deprecated(message)) # else # pragma message("WARNING: You need to implement LZ4_DEPRECATED for this compiler") # define LZ4_DEPRECATED(message) # endif #endif /* LZ4_DISABLE_DEPRECATE_WARNINGS */ /* Obsolete compression functions */ LZ4_DEPRECATED("use LZ4_compress_default() instead") LZ4LIB_API int LZ4_compress (const char* source, char* dest, int sourceSize); LZ4_DEPRECATED("use LZ4_compress_default() instead") LZ4LIB_API int LZ4_compress_limitedOutput (const char* source, char* dest, int sourceSize, int maxOutputSize); LZ4_DEPRECATED("use LZ4_compress_fast_extState() instead") LZ4LIB_API int LZ4_compress_withState (void* state, const char* source, char* dest, int inputSize); LZ4_DEPRECATED("use LZ4_compress_fast_extState() instead") LZ4LIB_API int LZ4_compress_limitedOutput_withState (void* state, const char* source, char* dest, int inputSize, int maxOutputSize); LZ4_DEPRECATED("use LZ4_compress_fast_continue() instead") LZ4LIB_API int LZ4_compress_continue (LZ4_stream_t* LZ4_streamPtr, const char* source, char* dest, int inputSize); LZ4_DEPRECATED("use LZ4_compress_fast_continue() instead") LZ4LIB_API int LZ4_compress_limitedOutput_continue (LZ4_stream_t* LZ4_streamPtr, const char* source, char* dest, int inputSize, int maxOutputSize); /* Obsolete decompression functions */ LZ4_DEPRECATED("use LZ4_decompress_fast() instead") LZ4LIB_API int LZ4_uncompress (const char* source, char* dest, int outputSize); LZ4_DEPRECATED("use LZ4_decompress_safe() instead") LZ4LIB_API int LZ4_uncompress_unknownOutputSize (const char* source, char* dest, int isize, int maxOutputSize); /* Obsolete streaming functions; degraded functionality; do not use! * * In order to perform streaming compression, these functions depended on data * that is no longer tracked in the state. They have been preserved as well as * possible: using them will still produce a correct output. However, they don't * actually retain any history between compression calls. The compression ratio * achieved will therefore be no better than compressing each chunk * independently. */ LZ4_DEPRECATED("Use LZ4_createStream() instead") LZ4LIB_API void* LZ4_create (char* inputBuffer); LZ4_DEPRECATED("Use LZ4_createStream() instead") LZ4LIB_API int LZ4_sizeofStreamState(void); LZ4_DEPRECATED("Use LZ4_resetStream() instead") LZ4LIB_API int LZ4_resetStreamState(void* state, char* inputBuffer); LZ4_DEPRECATED("Use LZ4_saveDict() instead") LZ4LIB_API char* LZ4_slideInputBuffer (void* state); /* Obsolete streaming decoding functions */ LZ4_DEPRECATED("use LZ4_decompress_safe_usingDict() instead") LZ4LIB_API int LZ4_decompress_safe_withPrefix64k (const char* src, char* dst, int compressedSize, int maxDstSize); LZ4_DEPRECATED("use LZ4_decompress_fast_usingDict() instead") LZ4LIB_API int LZ4_decompress_fast_withPrefix64k (const char* src, char* dst, int originalSize); #endif /* LZ4_H_2983827168210 */ #if defined (__cplusplus) } #endif ================================================ FILE: bdk/libs/fatfs/diskio.h ================================================ /*-----------------------------------------------------------------------/ / Low level disk interface modlue include file (C)ChaN, 2014 / /-----------------------------------------------------------------------*/ #ifndef _DISKIO_DEFINED #define _DISKIO_DEFINED #ifdef __cplusplus extern "C" { #endif #include /* Status of Disk Functions */ typedef BYTE DSTATUS; /* Results of Disk Functions */ typedef enum { RES_OK = 0, /* 0: Successful */ RES_ERROR, /* 1: R/W Error */ RES_WRPRT, /* 2: Write Protected */ RES_NOTRDY, /* 3: Not Ready */ RES_PARERR /* 4: Invalid Parameter */ } DRESULT; typedef enum { DRIVE_SD = 0, DRIVE_RAM = 1, DRIVE_EMMC = 2, DRIVE_BIS = 3, DRIVE_EMU = 4 } DDRIVE; /*---------------------------------------*/ /* Prototypes for disk control functions */ DSTATUS disk_initialize (BYTE pdrv); DSTATUS disk_status (BYTE pdrv); DRESULT disk_read (BYTE pdrv, BYTE* buff, DWORD sector, UINT count); DRESULT disk_write (BYTE pdrv, const BYTE* buff, DWORD sector, UINT count); DRESULT disk_ioctl (BYTE pdrv, BYTE cmd, void* buff); DRESULT disk_set_info (BYTE pdrv, BYTE cmd, void *buff); /* Disk Status Bits (DSTATUS) */ #define STA_NOINIT 0x01 /* Drive not initialized */ #define STA_NODISK 0x02 /* No medium in the drive */ #define STA_PROTECT 0x04 /* Write protected */ /* Command code for disk_ioctrl fucntion */ /* Generic command (Used by FatFs) */ #define CTRL_SYNC 0 /* Complete pending write process (needed at FF_FS_READONLY == 0) */ #define GET_SECTOR_COUNT 1 /* Get media size (needed at FF_USE_MKFS == 1) */ #define SET_SECTOR_COUNT 1 /* Set media size (needed at FF_USE_MKFS == 1) */ #define GET_SECTOR_SIZE 2 /* Get sector size (needed at FF_MAX_SS != FF_MIN_SS) */ #define GET_BLOCK_SIZE 3 /* Get erase block size (needed at FF_USE_MKFS == 1) */ #define CTRL_TRIM 4 /* Inform device that the data on the block of sectors is no longer used (needed at FF_USE_TRIM == 1) */ #define SET_SECTOR_OFFSET 5 /* Set media logical offset */ #define SET_WRITE_PROTECT 6 /* Lock/Unlock media removal */ #ifdef __cplusplus } #endif #endif ================================================ FILE: bdk/libs/fatfs/ff.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /*----------------------------------------------------------------------------/ / FatFs - Generic FAT Filesystem Module R0.13c (p4) / /-----------------------------------------------------------------------------/ / / Copyright (C) 2018, ChaN, all right reserved. / / FatFs module is an open source software. Redistribution and use of FatFs in / source and binary forms, with or without modification, are permitted provided / that the following condition is met: / / 1. Redistributions of source code must retain the above copyright notice, / this condition and the following disclaimer. / / This software is provided by the copyright holder and contributors "AS IS" / and any warranties related to this software are DISCLAIMED. / The copyright owner or contributors be NOT LIABLE for any damages caused / by use of this software. / /----------------------------------------------------------------------------*/ #include "ff.h" /* Declarations of FatFs API */ #include "diskio.h" /* Declarations of device I/O functions */ #include #include #include #define EFSPRINTF(text, ...) print_error(); gfx_printf("%k"text"%k\n", 0xFFFFFF00, 0xFFFFFFFF); //#define EFSPRINTF(...) /*-------------------------------------------------------------------------- Module Private Definitions ---------------------------------------------------------------------------*/ #if FF_DEFINED != 86604 /* Revision ID */ #error Wrong include file (ff.h). #endif /* Limits and boundaries */ #define MAX_DIR 0x200000 /* Max size of FAT directory */ #define MAX_DIR_EX 0x10000000 /* Max size of exFAT directory */ #define MAX_FAT12 0xFF5 /* Max FAT12 clusters (differs from specs, but right for real DOS/Windows behavior) */ #define MAX_FAT16 0xFFF5 /* Max FAT16 clusters (differs from specs, but right for real DOS/Windows behavior) */ #define MAX_FAT32 0x0FFFFFF5 /* Max FAT32 clusters (not specified, practical limit) */ #define MAX_EXFAT 0x7FFFFFFD /* Max exFAT clusters (differs from specs, implementation limit) */ /* Character code support macros */ #define IsUpper(c) ((c) >= 'A' && (c) <= 'Z') #define IsLower(c) ((c) >= 'a' && (c) <= 'z') #define IsDigit(c) ((c) >= '0' && (c) <= '9') #define IsSurrogate(c) ((c) >= 0xD800 && (c) <= 0xDFFF) #define IsSurrogateH(c) ((c) >= 0xD800 && (c) <= 0xDBFF) #define IsSurrogateL(c) ((c) >= 0xDC00 && (c) <= 0xDFFF) /* Additional file access control and file status flags for internal use */ #define FA_SEEKEND 0x20 /* Seek to end of the file on file open */ #define FA_MODIFIED 0x40 /* File has been modified */ #define FA_DIRTY 0x80 /* FIL.buf[] needs to be written-back */ /* Additional file attribute bits for internal use */ #define AM_VOL 0x08 /* Volume label */ #define AM_LFN 0x0F /* LFN entry */ #define AM_MASK 0x3F /* Mask of defined bits */ /* Name status flags in fn[11] */ #define NSFLAG 11 /* Index of the name status byte */ #define NS_LOSS 0x01 /* Out of 8.3 format */ #define NS_LFN 0x02 /* Force to create LFN entry */ #define NS_LAST 0x04 /* Last segment */ #define NS_BODY 0x08 /* Lower case flag (body) */ #define NS_EXT 0x10 /* Lower case flag (ext) */ #define NS_DOT 0x20 /* Dot entry */ #define NS_NOLFN 0x40 /* Do not find LFN */ #define NS_NONAME 0x80 /* Not followed */ /* exFAT directory entry types */ #define ET_BITMAP 0x81 /* Allocation bitmap */ #define ET_UPCASE 0x82 /* Up-case table */ #define ET_VLABEL 0x83 /* Volume label */ #define ET_FILEDIR 0x85 /* File and directory */ #define ET_STREAM 0xC0 /* Stream extension */ #define ET_FILENAME 0xC1 /* Name extension */ /* FatFs refers the FAT structure as simple byte array instead of structure member / because the C structure is not binary compatible between different platforms */ #define BS_JmpBoot 0 /* x86 jump instruction (3-byte) */ #define BS_OEMName 3 /* OEM name (8-byte) */ #define BPB_BytsPerSec 11 /* Sector size [byte] (WORD) */ #define BPB_SecPerClus 13 /* Cluster size [sector] (BYTE) */ #define BPB_RsvdSecCnt 14 /* Size of reserved area [sector] (WORD) */ #define BPB_NumFATs 16 /* Number of FATs (BYTE) */ #define BPB_RootEntCnt 17 /* Size of root directory area for FAT [entry] (WORD) */ #define BPB_TotSec16 19 /* Volume size (16-bit) [sector] (WORD) */ #define BPB_Media 21 /* Media descriptor byte (BYTE) */ #define BPB_FATSz16 22 /* FAT size (16-bit) [sector] (WORD) */ #define BPB_SecPerTrk 24 /* Number of sectors per track for int13h [sector] (WORD) */ #define BPB_NumHeads 26 /* Number of heads for int13h (WORD) */ #define BPB_HiddSec 28 /* Volume offset from top of the drive (DWORD) */ #define BPB_TotSec32 32 /* Volume size (32-bit) [sector] (DWORD) */ #define BS_DrvNum 36 /* Physical drive number for int13h (BYTE) */ #define BS_NTres 37 /* WindowsNT error flag (BYTE) */ #define BS_BootSig 38 /* Extended boot signature (BYTE) */ #define BS_VolID 39 /* Volume serial number (DWORD) */ #define BS_VolLab 43 /* Volume label string (8-byte) */ #define BS_FilSysType 54 /* Filesystem type string (8-byte) */ #define BS_BootCode 62 /* Boot code (448-byte) */ #define BS_55AA 510 /* Signature word (WORD) */ #define BPB_FATSz32 36 /* FAT32: FAT size [sector] (DWORD) */ #define BPB_ExtFlags32 40 /* FAT32: Extended flags (WORD) */ #define BPB_FSVer32 42 /* FAT32: Filesystem version (WORD) */ #define BPB_RootClus32 44 /* FAT32: Root directory cluster (DWORD) */ #define BPB_FSInfo32 48 /* FAT32: Offset of FSINFO sector (WORD) */ #define BPB_BkBootSec32 50 /* FAT32: Offset of backup boot sector (WORD) */ #define BS_DrvNum32 64 /* FAT32: Physical drive number for int13h (BYTE) */ #define BS_NTres32 65 /* FAT32: Error flag (BYTE) */ #define BS_BootSig32 66 /* FAT32: Extended boot signature (BYTE) */ #define BS_VolID32 67 /* FAT32: Volume serial number (DWORD) */ #define BS_VolLab32 71 /* FAT32: Volume label string (8-byte) */ #define BS_FilSysType32 82 /* FAT32: Filesystem type string (8-byte) */ #define BS_BootCode32 90 /* FAT32: Boot code (420-byte) */ #define BPB_ZeroedEx 11 /* exFAT: MBZ field (53-byte) */ #define BPB_VolOfsEx 64 /* exFAT: Volume offset from top of the drive [sector] (QWORD) */ #define BPB_TotSecEx 72 /* exFAT: Volume size [sector] (QWORD) */ #define BPB_FatOfsEx 80 /* exFAT: FAT offset from top of the volume [sector] (DWORD) */ #define BPB_FatSzEx 84 /* exFAT: FAT size [sector] (DWORD) */ #define BPB_DataOfsEx 88 /* exFAT: Data offset from top of the volume [sector] (DWORD) */ #define BPB_NumClusEx 92 /* exFAT: Number of clusters (DWORD) */ #define BPB_RootClusEx 96 /* exFAT: Root directory start cluster (DWORD) */ #define BPB_VolIDEx 100 /* exFAT: Volume serial number (DWORD) */ #define BPB_FSVerEx 104 /* exFAT: Filesystem version (WORD) */ #define BPB_VolFlagEx 106 /* exFAT: Volume flags (WORD) */ #define BPB_BytsPerSecEx 108 /* exFAT: Log2 of sector size in unit of byte (BYTE) */ #define BPB_SecPerClusEx 109 /* exFAT: Log2 of cluster size in unit of sector (BYTE) */ #define BPB_NumFATsEx 110 /* exFAT: Number of FATs (BYTE) */ #define BPB_DrvNumEx 111 /* exFAT: Physical drive number for int13h (BYTE) */ #define BPB_PercInUseEx 112 /* exFAT: Percent in use (BYTE) */ #define BPB_RsvdEx 113 /* exFAT: Reserved (7-byte) */ #define BS_BootCodeEx 120 /* exFAT: Boot code (390-byte) */ #define DIR_Name 0 /* Short file name (11-byte) */ #define DIR_Attr 11 /* Attribute (BYTE) */ #define DIR_NTres 12 /* Lower case flag (BYTE) */ #define DIR_CrtTime10 13 /* Created time sub-second (BYTE) */ #define DIR_CrtTime 14 /* Created time (DWORD) */ #define DIR_LstAccDate 18 /* Last accessed date (WORD) */ #define DIR_FstClusHI 20 /* Higher 16-bit of first cluster (WORD) */ #define DIR_ModTime 22 /* Modified time (DWORD) */ #define DIR_FstClusLO 26 /* Lower 16-bit of first cluster (WORD) */ #define DIR_FileSize 28 /* File size (DWORD) */ #define LDIR_Ord 0 /* LFN: LFN order and LLE flag (BYTE) */ #define LDIR_Attr 11 /* LFN: LFN attribute (BYTE) */ #define LDIR_Type 12 /* LFN: Entry type (BYTE) */ #define LDIR_Chksum 13 /* LFN: Checksum of the SFN (BYTE) */ #define LDIR_FstClusLO 26 /* LFN: MBZ field (WORD) */ #define XDIR_Type 0 /* exFAT: Type of exFAT directory entry (BYTE) */ #define XDIR_NumLabel 1 /* exFAT: Number of volume label characters (BYTE) */ #define XDIR_Label 2 /* exFAT: Volume label (11-WORD) */ #define XDIR_CaseSum 4 /* exFAT: Sum of case conversion table (DWORD) */ #define XDIR_NumSec 1 /* exFAT: Number of secondary entries (BYTE) */ #define XDIR_SetSum 2 /* exFAT: Sum of the set of directory entries (WORD) */ #define XDIR_Attr 4 /* exFAT: File attribute (WORD) */ #define XDIR_CrtTime 8 /* exFAT: Created time (DWORD) */ #define XDIR_ModTime 12 /* exFAT: Modified time (DWORD) */ #define XDIR_AccTime 16 /* exFAT: Last accessed time (DWORD) */ #define XDIR_CrtTime10 20 /* exFAT: Created time subsecond (BYTE) */ #define XDIR_ModTime10 21 /* exFAT: Modified time subsecond (BYTE) */ #define XDIR_CrtTZ 22 /* exFAT: Created timezone (BYTE) */ #define XDIR_ModTZ 23 /* exFAT: Modified timezone (BYTE) */ #define XDIR_AccTZ 24 /* exFAT: Last accessed timezone (BYTE) */ #define XDIR_GenFlags 33 /* exFAT: General secondary flags (BYTE) */ #define XDIR_NumName 35 /* exFAT: Number of file name characters (BYTE) */ #define XDIR_NameHash 36 /* exFAT: Hash of file name (WORD) */ #define XDIR_ValidFileSize 40 /* exFAT: Valid file size (QWORD) */ #define XDIR_FstClus 52 /* exFAT: First cluster of the file data (DWORD) */ #define XDIR_FileSize 56 /* exFAT: File/Directory size (QWORD) */ #define SZDIRE 32 /* Size of a directory entry */ #define DDEM 0xE5 /* Deleted directory entry mark set to DIR_Name[0] */ #define RDDEM 0x05 /* Replacement of the character collides with DDEM */ #define LLEF 0x40 /* Last long entry flag in LDIR_Ord */ #define FSI_LeadSig 0 /* FAT32 FSI: Leading signature (DWORD) */ #define FSI_StrucSig 484 /* FAT32 FSI: Structure signature (DWORD) */ #define FSI_Free_Count 488 /* FAT32 FSI: Number of free clusters (DWORD) */ #define FSI_Nxt_Free 492 /* FAT32 FSI: Last allocated cluster (DWORD) */ #define MBR_Table 446 /* MBR: Offset of partition table in the MBR */ #define SZ_PTE 16 /* MBR: Size of a partition table entry */ #define PTE_Boot 0 /* MBR PTE: Boot indicator */ #define PTE_StHead 1 /* MBR PTE: Start head */ #define PTE_StSec 2 /* MBR PTE: Start sector */ #define PTE_StCyl 3 /* MBR PTE: Start cylinder */ #define PTE_System 4 /* MBR PTE: System ID */ #define PTE_EdHead 5 /* MBR PTE: End head */ #define PTE_EdSec 6 /* MBR PTE: End sector */ #define PTE_EdCyl 7 /* MBR PTE: End cylinder */ #define PTE_StLba 8 /* MBR PTE: Start in LBA */ #define PTE_SizLba 12 /* MBR PTE: Size in LBA */ /* Post process on fatal error in the file operations */ #define ABORT(fs, res) { fp->err = (BYTE)(res); LEAVE_FF(fs, res); } /* Re-entrancy related */ #if FF_FS_REENTRANT #if FF_USE_LFN == 1 #error Static LFN work area cannot be used at thread-safe configuration #endif #define LEAVE_FF(fs, res) { unlock_fs(fs, res); return res; } #else #define LEAVE_FF(fs, res) return res #endif /* Definitions of volume - physical location conversion */ #if FF_MULTI_PARTITION #define LD2PD(vol) VolToPart[vol].pd /* Get physical drive number */ #define LD2PT(vol) VolToPart[vol].pt /* Get partition index */ #else #define LD2PD(vol) (BYTE)(vol) /* Each logical drive is bound to the same physical drive number */ #define LD2PT(vol) 0 /* Find first valid partition or in SFD */ #endif /* Definitions of sector size */ #if (FF_MAX_SS < FF_MIN_SS) || (FF_MAX_SS != 512 && FF_MAX_SS != 1024 && FF_MAX_SS != 2048 && FF_MAX_SS != 4096) || (FF_MIN_SS != 512 && FF_MIN_SS != 1024 && FF_MIN_SS != 2048 && FF_MIN_SS != 4096) #error Wrong sector size configuration #endif #if FF_MAX_SS == FF_MIN_SS #define SS(fs) ((UINT)FF_MAX_SS) /* Fixed sector size */ #else #define SS(fs) ((fs)->ssize) /* Variable sector size */ #endif /* Timestamp */ #if FF_FS_NORTC == 1 #if FF_NORTC_YEAR < 1980 || FF_NORTC_YEAR > 2107 || FF_NORTC_MON < 1 || FF_NORTC_MON > 12 || FF_NORTC_MDAY < 1 || FF_NORTC_MDAY > 31 #error Invalid FF_FS_NORTC settings #endif #define GET_FATTIME() ((DWORD)(FF_NORTC_YEAR - 1980) << 25 | (DWORD)FF_NORTC_MON << 21 | (DWORD)FF_NORTC_MDAY << 16) #else #define GET_FATTIME() get_fattime() #endif /* File lock controls */ #if FF_FS_LOCK != 0 #if FF_FS_READONLY #error FF_FS_LOCK must be 0 at read-only configuration #endif typedef struct { FATFS *fs; /* Object ID 1, volume (NULL:blank entry) */ DWORD clu; /* Object ID 2, containing directory (0:root) */ DWORD ofs; /* Object ID 3, offset in the directory */ WORD ctr; /* Object open counter, 0:none, 0x01..0xFF:read mode open count, 0x100:write mode */ } FILESEM; #endif /* SBCS up-case tables (\x80-\xFF) */ #define TBL_CT437 {0x80,0x9A,0x45,0x41,0x8E,0x41,0x8F,0x80,0x45,0x45,0x45,0x49,0x49,0x49,0x8E,0x8F, \ 0x90,0x92,0x92,0x4F,0x99,0x4F,0x55,0x55,0x59,0x99,0x9A,0x9B,0x9C,0x9D,0x9E,0x9F, \ 0x41,0x49,0x4F,0x55,0xA5,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0xE0,0xE1,0xE2,0xE3,0xE4,0xE5,0xE6,0xE7,0xE8,0xE9,0xEA,0xEB,0xEC,0xED,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT720 {0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8A,0x8B,0x8C,0x8D,0x8E,0x8F, \ 0x90,0x91,0x92,0x93,0x94,0x95,0x96,0x97,0x98,0x99,0x9A,0x9B,0x9C,0x9D,0x9E,0x9F, \ 0xA0,0xA1,0xA2,0xA3,0xA4,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0xE0,0xE1,0xE2,0xE3,0xE4,0xE5,0xE6,0xE7,0xE8,0xE9,0xEA,0xEB,0xEC,0xED,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT737 {0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8A,0x8B,0x8C,0x8D,0x8E,0x8F, \ 0x90,0x92,0x92,0x93,0x94,0x95,0x96,0x97,0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87, \ 0x88,0x89,0x8A,0x8B,0x8C,0x8D,0x8E,0x8F,0x90,0x91,0xAA,0x92,0x93,0x94,0x95,0x96, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0x97,0xEA,0xEB,0xEC,0xE4,0xED,0xEE,0xEF,0xF5,0xF0,0xEA,0xEB,0xEC,0xED,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT771 {0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8A,0x8B,0x8C,0x8D,0x8E,0x8F, \ 0x90,0x91,0x92,0x93,0x94,0x95,0x96,0x97,0x98,0x99,0x9A,0x9B,0x9C,0x9D,0x9E,0x9F, \ 0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8A,0x8B,0x8C,0x8D,0x8E,0x8F, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDC,0xDE,0xDE, \ 0x90,0x91,0x92,0x93,0x94,0x95,0x96,0x97,0x98,0x99,0x9A,0x9B,0x9C,0x9D,0x9E,0x9F, \ 0xF0,0xF0,0xF2,0xF2,0xF4,0xF4,0xF6,0xF6,0xF8,0xF8,0xFA,0xFA,0xFC,0xFC,0xFE,0xFF} #define TBL_CT775 {0x80,0x9A,0x91,0xA0,0x8E,0x95,0x8F,0x80,0xAD,0xED,0x8A,0x8A,0xA1,0x8D,0x8E,0x8F, \ 0x90,0x92,0x92,0xE2,0x99,0x95,0x96,0x97,0x97,0x99,0x9A,0x9D,0x9C,0x9D,0x9E,0x9F, \ 0xA0,0xA1,0xE0,0xA3,0xA3,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xB5,0xB6,0xB7,0xB8,0xBD,0xBE,0xC6,0xC7,0xA5,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0xE0,0xE1,0xE2,0xE3,0xE5,0xE5,0xE6,0xE3,0xE8,0xE8,0xEA,0xEA,0xEE,0xED,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT850 {0x43,0x55,0x45,0x41,0x41,0x41,0x41,0x43,0x45,0x45,0x45,0x49,0x49,0x49,0x41,0x41, \ 0x45,0x92,0x92,0x4F,0x4F,0x4F,0x55,0x55,0x59,0x4F,0x55,0x4F,0x9C,0x4F,0x9E,0x9F, \ 0x41,0x49,0x4F,0x55,0xA5,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0x41,0x41,0x41,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0x41,0x41,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD1,0xD1,0x45,0x45,0x45,0x49,0x49,0x49,0x49,0xD9,0xDA,0xDB,0xDC,0xDD,0x49,0xDF, \ 0x4F,0xE1,0x4F,0x4F,0x4F,0x4F,0xE6,0xE8,0xE8,0x55,0x55,0x55,0x59,0x59,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT852 {0x80,0x9A,0x90,0xB6,0x8E,0xDE,0x8F,0x80,0x9D,0xD3,0x8A,0x8A,0xD7,0x8D,0x8E,0x8F, \ 0x90,0x91,0x91,0xE2,0x99,0x95,0x95,0x97,0x97,0x99,0x9A,0x9B,0x9B,0x9D,0x9E,0xAC, \ 0xB5,0xD6,0xE0,0xE9,0xA4,0xA4,0xA6,0xA6,0xA8,0xA8,0xAA,0x8D,0xAC,0xB8,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBD,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC6,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD1,0xD1,0xD2,0xD3,0xD2,0xD5,0xD6,0xD7,0xB7,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0xE0,0xE1,0xE2,0xE3,0xE3,0xD5,0xE6,0xE6,0xE8,0xE9,0xE8,0xEB,0xED,0xED,0xDD,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xEB,0xFC,0xFC,0xFE,0xFF} #define TBL_CT855 {0x81,0x81,0x83,0x83,0x85,0x85,0x87,0x87,0x89,0x89,0x8B,0x8B,0x8D,0x8D,0x8F,0x8F, \ 0x91,0x91,0x93,0x93,0x95,0x95,0x97,0x97,0x99,0x99,0x9B,0x9B,0x9D,0x9D,0x9F,0x9F, \ 0xA1,0xA1,0xA3,0xA3,0xA5,0xA5,0xA7,0xA7,0xA9,0xA9,0xAB,0xAB,0xAD,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB6,0xB6,0xB8,0xB8,0xB9,0xBA,0xBB,0xBC,0xBE,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC7,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD1,0xD1,0xD3,0xD3,0xD5,0xD5,0xD7,0xD7,0xDD,0xD9,0xDA,0xDB,0xDC,0xDD,0xE0,0xDF, \ 0xE0,0xE2,0xE2,0xE4,0xE4,0xE6,0xE6,0xE8,0xE8,0xEA,0xEA,0xEC,0xEC,0xEE,0xEE,0xEF, \ 0xF0,0xF2,0xF2,0xF4,0xF4,0xF6,0xF6,0xF8,0xF8,0xFA,0xFA,0xFC,0xFC,0xFD,0xFE,0xFF} #define TBL_CT857 {0x80,0x9A,0x90,0xB6,0x8E,0xB7,0x8F,0x80,0xD2,0xD3,0xD4,0xD8,0xD7,0x49,0x8E,0x8F, \ 0x90,0x92,0x92,0xE2,0x99,0xE3,0xEA,0xEB,0x98,0x99,0x9A,0x9D,0x9C,0x9D,0x9E,0x9E, \ 0xB5,0xD6,0xE0,0xE9,0xA5,0xA5,0xA6,0xA6,0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC7,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0x49,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0xE0,0xE1,0xE2,0xE3,0xE5,0xE5,0xE6,0xE7,0xE8,0xE9,0xEA,0xEB,0xDE,0xED,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT860 {0x80,0x9A,0x90,0x8F,0x8E,0x91,0x86,0x80,0x89,0x89,0x92,0x8B,0x8C,0x98,0x8E,0x8F, \ 0x90,0x91,0x92,0x8C,0x99,0xA9,0x96,0x9D,0x98,0x99,0x9A,0x9B,0x9C,0x9D,0x9E,0x9F, \ 0x86,0x8B,0x9F,0x96,0xA5,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0xE0,0xE1,0xE2,0xE3,0xE4,0xE5,0xE6,0xE7,0xE8,0xE9,0xEA,0xEB,0xEC,0xED,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT861 {0x80,0x9A,0x90,0x41,0x8E,0x41,0x8F,0x80,0x45,0x45,0x45,0x8B,0x8B,0x8D,0x8E,0x8F, \ 0x90,0x92,0x92,0x4F,0x99,0x8D,0x55,0x97,0x97,0x99,0x9A,0x9D,0x9C,0x9D,0x9E,0x9F, \ 0xA4,0xA5,0xA6,0xA7,0xA4,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0xE0,0xE1,0xE2,0xE3,0xE4,0xE5,0xE6,0xE7,0xE8,0xE9,0xEA,0xEB,0xEC,0xED,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT862 {0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8A,0x8B,0x8C,0x8D,0x8E,0x8F, \ 0x90,0x91,0x92,0x93,0x94,0x95,0x96,0x97,0x98,0x99,0x9A,0x9B,0x9C,0x9D,0x9E,0x9F, \ 0x41,0x49,0x4F,0x55,0xA5,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0xE0,0xE1,0xE2,0xE3,0xE4,0xE5,0xE6,0xE7,0xE8,0xE9,0xEA,0xEB,0xEC,0xED,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT863 {0x43,0x55,0x45,0x41,0x41,0x41,0x86,0x43,0x45,0x45,0x45,0x49,0x49,0x8D,0x41,0x8F, \ 0x45,0x45,0x45,0x4F,0x45,0x49,0x55,0x55,0x98,0x4F,0x55,0x9B,0x9C,0x55,0x55,0x9F, \ 0xA0,0xA1,0x4F,0x55,0xA4,0xA5,0xA6,0xA7,0x49,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0xE0,0xE1,0xE2,0xE3,0xE4,0xE5,0xE6,0xE7,0xE8,0xE9,0xEA,0xEB,0xEC,0xED,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT864 {0x80,0x9A,0x45,0x41,0x8E,0x41,0x8F,0x80,0x45,0x45,0x45,0x49,0x49,0x49,0x8E,0x8F, \ 0x90,0x92,0x92,0x4F,0x99,0x4F,0x55,0x55,0x59,0x99,0x9A,0x9B,0x9C,0x9D,0x9E,0x9F, \ 0x41,0x49,0x4F,0x55,0xA5,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0xE0,0xE1,0xE2,0xE3,0xE4,0xE5,0xE6,0xE7,0xE8,0xE9,0xEA,0xEB,0xEC,0xED,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT865 {0x80,0x9A,0x90,0x41,0x8E,0x41,0x8F,0x80,0x45,0x45,0x45,0x49,0x49,0x49,0x8E,0x8F, \ 0x90,0x92,0x92,0x4F,0x99,0x4F,0x55,0x55,0x59,0x99,0x9A,0x9B,0x9C,0x9D,0x9E,0x9F, \ 0x41,0x49,0x4F,0x55,0xA5,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0xE0,0xE1,0xE2,0xE3,0xE4,0xE5,0xE6,0xE7,0xE8,0xE9,0xEA,0xEB,0xEC,0xED,0xEE,0xEF, \ 0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT866 {0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8A,0x8B,0x8C,0x8D,0x8E,0x8F, \ 0x90,0x91,0x92,0x93,0x94,0x95,0x96,0x97,0x98,0x99,0x9A,0x9B,0x9C,0x9D,0x9E,0x9F, \ 0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8A,0x8B,0x8C,0x8D,0x8E,0x8F, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xD6,0xD7,0xD8,0xD9,0xDA,0xDB,0xDC,0xDD,0xDE,0xDF, \ 0x90,0x91,0x92,0x93,0x94,0x95,0x96,0x97,0x98,0x99,0x9A,0x9B,0x9C,0x9D,0x9E,0x9F, \ 0xF0,0xF0,0xF2,0xF2,0xF4,0xF4,0xF6,0xF6,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF} #define TBL_CT869 {0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8A,0x8B,0x8C,0x8D,0x8E,0x8F, \ 0x90,0x91,0x92,0x93,0x94,0x95,0x96,0x97,0x98,0x99,0x9A,0x86,0x9C,0x8D,0x8F,0x90, \ 0x91,0x90,0x92,0x95,0xA4,0xA5,0xA6,0xA7,0xA8,0xA9,0xAA,0xAB,0xAC,0xAD,0xAE,0xAF, \ 0xB0,0xB1,0xB2,0xB3,0xB4,0xB5,0xB6,0xB7,0xB8,0xB9,0xBA,0xBB,0xBC,0xBD,0xBE,0xBF, \ 0xC0,0xC1,0xC2,0xC3,0xC4,0xC5,0xC6,0xC7,0xC8,0xC9,0xCA,0xCB,0xCC,0xCD,0xCE,0xCF, \ 0xD0,0xD1,0xD2,0xD3,0xD4,0xD5,0xA4,0xA5,0xA6,0xD9,0xDA,0xDB,0xDC,0xA7,0xA8,0xDF, \ 0xA9,0xAA,0xAC,0xAD,0xB5,0xB6,0xB7,0xB8,0xBD,0xBE,0xC6,0xC7,0xCF,0xCF,0xD0,0xEF, \ 0xF0,0xF1,0xD1,0xD2,0xD3,0xF5,0xD4,0xF7,0xF8,0xF9,0xD5,0x96,0x95,0x98,0xFE,0xFF} /* DBCS code range |----- 1st byte -----| |----------- 2nd byte -----------| */ #define TBL_DC932 {0x81, 0x9F, 0xE0, 0xFC, 0x40, 0x7E, 0x80, 0xFC, 0x00, 0x00} #define TBL_DC936 {0x81, 0xFE, 0x00, 0x00, 0x40, 0x7E, 0x80, 0xFE, 0x00, 0x00} #define TBL_DC949 {0x81, 0xFE, 0x00, 0x00, 0x41, 0x5A, 0x61, 0x7A, 0x81, 0xFE} #define TBL_DC950 {0x81, 0xFE, 0x00, 0x00, 0x40, 0x7E, 0xA1, 0xFE, 0x00, 0x00} /* Macros for table definitions */ #define MERGE_2STR(a, b) a ## b #define MKCVTBL(hd, cp) MERGE_2STR(hd, cp) /*-------------------------------------------------------------------------- Module Private Work Area ---------------------------------------------------------------------------*/ /* Remark: Variables defined here without initial value shall be guaranteed / zero/null at start-up. If not, the linker option or start-up routine is / not compliance with C standard. */ /*--------------------------------*/ /* File/Volume controls */ /*--------------------------------*/ #if FF_VOLUMES < 1 || FF_VOLUMES > 10 #error Wrong FF_VOLUMES setting #endif static FATFS* FatFs[FF_VOLUMES]; /* Pointer to the filesystem objects (logical drives) */ static WORD Fsid; /* Filesystem mount ID */ #if FF_FS_RPATH != 0 static BYTE CurrVol; /* Current drive */ #endif #if FF_FS_LOCK != 0 static FILESEM Files[FF_FS_LOCK]; /* Open object lock semaphores */ #endif #if FF_STR_VOLUME_ID #ifdef FF_VOLUME_STRS static const char* const VolumeStr[FF_VOLUMES] = {FF_VOLUME_STRS}; /* Pre-defined volume ID */ #endif #endif /*--------------------------------*/ /* LFN/Directory working buffer */ /*--------------------------------*/ #if FF_USE_LFN == 0 /* Non-LFN configuration */ #if FF_FS_EXFAT #error LFN must be enabled when enable exFAT #endif #define DEF_NAMBUF #define INIT_NAMBUF(fs) #define FREE_NAMBUF() #define LEAVE_MKFS(res) return res #else /* LFN configurations */ #if FF_MAX_LFN < 12 || FF_MAX_LFN > 255 #error Wrong setting of FF_MAX_LFN #endif #if FF_LFN_BUF < FF_SFN_BUF || FF_SFN_BUF < 12 #error Wrong setting of FF_LFN_BUF or FF_SFN_BUF #endif #if FF_LFN_UNICODE < 0 || FF_LFN_UNICODE > 3 #error Wrong setting of FF_LFN_UNICODE #endif static const BYTE LfnOfs[] = {1,3,5,7,9,14,16,18,20,22,24,28,30}; /* FAT: Offset of LFN characters in the directory entry */ #define MAXDIRB(nc) ((nc + 44U) / 15 * SZDIRE) /* exFAT: Size of directory entry block scratchpad buffer needed for the name length */ #if FF_USE_LFN == 1 /* LFN enabled with static working buffer */ #if FF_FS_EXFAT static BYTE DirBuf[MAXDIRB(FF_MAX_LFN)]; /* Directory entry block scratchpad buffer */ #endif static WCHAR LfnBuf[FF_MAX_LFN + 1]; /* LFN working buffer */ #define DEF_NAMBUF #define INIT_NAMBUF(fs) #define FREE_NAMBUF() #define LEAVE_MKFS(res) return res #elif FF_USE_LFN == 2 /* LFN enabled with dynamic working buffer on the stack */ #if FF_FS_EXFAT #define DEF_NAMBUF WCHAR lbuf[FF_MAX_LFN+1]; BYTE dbuf[MAXDIRB(FF_MAX_LFN)]; /* LFN working buffer and directory entry block scratchpad buffer */ #define INIT_NAMBUF(fs) { (fs)->lfnbuf = lbuf; (fs)->dirbuf = dbuf; } #define FREE_NAMBUF() #else #define DEF_NAMBUF WCHAR lbuf[FF_MAX_LFN+1]; /* LFN working buffer */ #define INIT_NAMBUF(fs) { (fs)->lfnbuf = lbuf; } #define FREE_NAMBUF() #endif #define LEAVE_MKFS(res) return res #elif FF_USE_LFN == 3 /* LFN enabled with dynamic working buffer on the heap */ #if FF_FS_EXFAT #define DEF_NAMBUF WCHAR *lfn; /* Pointer to LFN working buffer and directory entry block scratchpad buffer */ #define INIT_NAMBUF(fs) { lfn = ff_memalloc((FF_MAX_LFN+1)*2 + MAXDIRB(FF_MAX_LFN)); if (!lfn) LEAVE_FF(fs, FR_NOT_ENOUGH_CORE); (fs)->lfnbuf = lfn; (fs)->dirbuf = (BYTE*)(lfn+FF_MAX_LFN+1); } #define FREE_NAMBUF() ff_memfree(lfn) #else #define DEF_NAMBUF WCHAR *lfn; /* Pointer to LFN working buffer */ #define INIT_NAMBUF(fs) { lfn = ff_memalloc((FF_MAX_LFN+1)*2); if (!lfn) LEAVE_FF(fs, FR_NOT_ENOUGH_CORE); (fs)->lfnbuf = lfn; } #define FREE_NAMBUF() ff_memfree(lfn) #endif #define LEAVE_MKFS(res) { if (!work) ff_memfree(buf); return res; } #define MAX_MALLOC 0x8000 /* Must be >=FF_MAX_SS */ #else #error Wrong setting of FF_USE_LFN #endif /* FF_USE_LFN == 1 */ #endif /* FF_USE_LFN == 0 */ /*--------------------------------*/ /* Code conversion tables */ /*--------------------------------*/ #if FF_CODE_PAGE == 0 /* Run-time code page configuration */ #define CODEPAGE CodePage static WORD CodePage; /* Current code page */ static const BYTE *ExCvt, *DbcTbl; /* Pointer to current SBCS up-case table and DBCS code range table below */ static const BYTE Ct437[] = TBL_CT437; static const BYTE Ct720[] = TBL_CT720; static const BYTE Ct737[] = TBL_CT737; static const BYTE Ct771[] = TBL_CT771; static const BYTE Ct775[] = TBL_CT775; static const BYTE Ct850[] = TBL_CT850; static const BYTE Ct852[] = TBL_CT852; static const BYTE Ct855[] = TBL_CT855; static const BYTE Ct857[] = TBL_CT857; static const BYTE Ct860[] = TBL_CT860; static const BYTE Ct861[] = TBL_CT861; static const BYTE Ct862[] = TBL_CT862; static const BYTE Ct863[] = TBL_CT863; static const BYTE Ct864[] = TBL_CT864; static const BYTE Ct865[] = TBL_CT865; static const BYTE Ct866[] = TBL_CT866; static const BYTE Ct869[] = TBL_CT869; static const BYTE Dc932[] = TBL_DC932; static const BYTE Dc936[] = TBL_DC936; static const BYTE Dc949[] = TBL_DC949; static const BYTE Dc950[] = TBL_DC950; #elif FF_CODE_PAGE < 900 /* Static code page configuration (SBCS) */ #define CODEPAGE FF_CODE_PAGE static const BYTE ExCvt[] = MKCVTBL(TBL_CT, FF_CODE_PAGE); #else /* Static code page configuration (DBCS) */ #define CODEPAGE FF_CODE_PAGE static const BYTE DbcTbl[] = MKCVTBL(TBL_DC, FF_CODE_PAGE); #endif /*-------------------------------------------------------------------------- Module Private Functions ---------------------------------------------------------------------------*/ /*-----------------------------------------------------------------------*/ /* Print error header */ /*-----------------------------------------------------------------------*/ void print_error() { gfx_printf("\n\n\n%k[FatFS] Error: %k", 0xFFFFFF00, 0xFFFFFFFF); } /*-----------------------------------------------------------------------*/ /* Load/Store multi-byte word in the FAT structure */ /*-----------------------------------------------------------------------*/ static WORD ld_word (const BYTE* ptr) /* Load a 2-byte little-endian word */ { WORD rv; rv = ptr[1]; rv = rv << 8 | ptr[0]; return rv; } static DWORD ld_dword (const BYTE* ptr) /* Load a 4-byte little-endian word */ { DWORD rv; rv = ptr[3]; rv = rv << 8 | ptr[2]; rv = rv << 8 | ptr[1]; rv = rv << 8 | ptr[0]; return rv; } #if FF_FS_EXFAT static QWORD ld_qword (const BYTE* ptr) /* Load an 8-byte little-endian word */ { QWORD rv; rv = ptr[7]; rv = rv << 8 | ptr[6]; rv = rv << 8 | ptr[5]; rv = rv << 8 | ptr[4]; rv = rv << 8 | ptr[3]; rv = rv << 8 | ptr[2]; rv = rv << 8 | ptr[1]; rv = rv << 8 | ptr[0]; return rv; } #endif #if !FF_FS_READONLY static void st_word (BYTE* ptr, WORD val) /* Store a 2-byte word in little-endian */ { *ptr++ = (BYTE)val; val >>= 8; *ptr++ = (BYTE)val; } static void st_dword (BYTE* ptr, DWORD val) /* Store a 4-byte word in little-endian */ { *ptr++ = (BYTE)val; val >>= 8; *ptr++ = (BYTE)val; val >>= 8; *ptr++ = (BYTE)val; val >>= 8; *ptr++ = (BYTE)val; } #if FF_FS_EXFAT static void st_qword (BYTE* ptr, QWORD val) /* Store an 8-byte word in little-endian */ { *ptr++ = (BYTE)val; val >>= 8; *ptr++ = (BYTE)val; val >>= 8; *ptr++ = (BYTE)val; val >>= 8; *ptr++ = (BYTE)val; val >>= 8; *ptr++ = (BYTE)val; val >>= 8; *ptr++ = (BYTE)val; val >>= 8; *ptr++ = (BYTE)val; val >>= 8; *ptr++ = (BYTE)val; } #endif #endif /* !FF_FS_READONLY */ /*-----------------------------------------------------------------------*/ /* String functions */ /*-----------------------------------------------------------------------*/ /* Copy memory to memory */ static void mem_cpy (void* dst, const void* src, UINT cnt) { BYTE *d = (BYTE*)dst; const BYTE *s = (const BYTE*)src; if (cnt != 0) { do { *d++ = *s++; } while (--cnt); } } /* Fill memory block */ static void mem_set (void* dst, int val, UINT cnt) { BYTE *d = (BYTE*)dst; do { *d++ = (BYTE)val; } while (--cnt); } /* Compare memory block */ static int mem_cmp (const void* dst, const void* src, UINT cnt) /* ZR:same, NZ:different */ { const BYTE *d = (const BYTE *)dst, *s = (const BYTE *)src; int r = 0; do { r = *d++ - *s++; } while (--cnt && r == 0); return r; } /* Check if chr is contained in the string */ static int chk_chr (const char* str, int chr) /* NZ:contained, ZR:not contained */ { while (*str && *str != chr) str++; return *str; } /* Test if the character is DBC 1st byte */ static int dbc_1st (BYTE c) { #if FF_CODE_PAGE == 0 /* Variable code page */ if (DbcTbl && c >= DbcTbl[0]) { if (c <= DbcTbl[1]) return 1; /* 1st byte range 1 */ if (c >= DbcTbl[2] && c <= DbcTbl[3]) return 1; /* 1st byte range 2 */ } #elif FF_CODE_PAGE >= 900 /* DBCS fixed code page */ if (c >= DbcTbl[0]) { if (c <= DbcTbl[1]) return 1; if (c >= DbcTbl[2] && c <= DbcTbl[3]) return 1; } #else /* SBCS fixed code page */ if (c != 0) return 0; /* Always false */ #endif return 0; } /* Test if the character is DBC 2nd byte */ static int dbc_2nd (BYTE c) { #if FF_CODE_PAGE == 0 /* Variable code page */ if (DbcTbl && c >= DbcTbl[4]) { if (c <= DbcTbl[5]) return 1; /* 2nd byte range 1 */ if (c >= DbcTbl[6] && c <= DbcTbl[7]) return 1; /* 2nd byte range 2 */ if (c >= DbcTbl[8] && c <= DbcTbl[9]) return 1; /* 2nd byte range 3 */ } #elif FF_CODE_PAGE >= 900 /* DBCS fixed code page */ if (c >= DbcTbl[4]) { if (c <= DbcTbl[5]) return 1; if (c >= DbcTbl[6] && c <= DbcTbl[7]) return 1; if (c >= DbcTbl[8] && c <= DbcTbl[9]) return 1; } #else /* SBCS fixed code page */ if (c != 0) return 0; /* Always false */ #endif return 0; } #if FF_USE_LFN /* Get a character from TCHAR string in defined API encodeing */ static DWORD tchar2uni ( /* Returns character in UTF-16 encoding (>=0x10000 on double encoding unit, 0xFFFFFFFF on decode error) */ const TCHAR** str /* Pointer to pointer to TCHAR string in configured encoding */ ) { DWORD uc; const TCHAR *p = *str; #if FF_LFN_UNICODE == 1 /* UTF-16 input */ WCHAR wc; uc = *p++; /* Get a unit */ if (IsSurrogate(uc)) { /* Surrogate? */ wc = *p++; /* Get low surrogate */ if (!IsSurrogateH(uc) || !IsSurrogateL(wc)) return 0xFFFFFFFF; /* Wrong surrogate? */ uc = uc << 16 | wc; } #elif FF_LFN_UNICODE == 2 /* UTF-8 input */ BYTE b; int nf; uc = (BYTE)*p++; /* Get a unit */ if (uc & 0x80) { /* Multiple byte code? */ if ((uc & 0xE0) == 0xC0) { /* 2-byte sequence? */ uc &= 0x1F; nf = 1; } else { if ((uc & 0xF0) == 0xE0) { /* 3-byte sequence? */ uc &= 0x0F; nf = 2; } else { if ((uc & 0xF8) == 0xF0) { /* 4-byte sequence? */ uc &= 0x07; nf = 3; } else { /* Wrong sequence */ return 0xFFFFFFFF; } } } do { /* Get trailing bytes */ b = (BYTE)*p++; if ((b & 0xC0) != 0x80) return 0xFFFFFFFF; /* Wrong sequence? */ uc = uc << 6 | (b & 0x3F); } while (--nf != 0); if (uc < 0x80 || IsSurrogate(uc) || uc >= 0x110000) return 0xFFFFFFFF; /* Wrong code? */ if (uc >= 0x010000) uc = 0xD800DC00 | ((uc - 0x10000) << 6 & 0x3FF0000) | (uc & 0x3FF); /* Make a surrogate pair if needed */ } #elif FF_LFN_UNICODE == 3 /* UTF-32 input */ uc = (TCHAR)*p++; /* Get a unit */ if (uc >= 0x110000) return 0xFFFFFFFF; /* Wrong code? */ if (uc >= 0x010000) uc = 0xD800DC00 | ((uc - 0x10000) << 6 & 0x3FF0000) | (uc & 0x3FF); /* Make a surrogate pair if needed */ #else /* ANSI/OEM input */ BYTE b; WCHAR wc; wc = (BYTE)*p++; /* Get a byte */ if (dbc_1st((BYTE)wc)) { /* Is it a DBC 1st byte? */ b = (BYTE)*p++; /* Get 2nd byte */ if (!dbc_2nd(b)) return 0xFFFFFFFF; /* Invalid code? */ wc = (wc << 8) + b; /* Make a DBC */ } if (wc != 0) { wc = ff_oem2uni(wc, CODEPAGE); /* ANSI/OEM ==> Unicode */ if (wc == 0) return 0xFFFFFFFF; /* Invalid code? */ } uc = wc; #endif *str = p; /* Next read pointer */ return uc; } /* Output a TCHAR string in defined API encoding */ static BYTE put_utf ( /* Returns number of encoding units written (0:buffer overflow or wrong encoding) */ DWORD chr, /* UTF-16 encoded character (Double encoding unit char if >=0x10000) */ TCHAR* buf, /* Output buffer */ UINT szb /* Size of the buffer */ ) { #if FF_LFN_UNICODE == 1 /* UTF-16 output */ WCHAR hs, wc; hs = (WCHAR)(chr >> 16); wc = (WCHAR)chr; if (hs == 0) { /* Single encoding unit? */ if (szb < 1 || IsSurrogate(wc)) return 0; /* Buffer overflow or wrong code? */ *buf = wc; return 1; } if (szb < 2 || !IsSurrogateH(hs) || !IsSurrogateL(wc)) return 0; /* Buffer overflow or wrong surrogate? */ *buf++ = hs; *buf++ = wc; return 2; #elif FF_LFN_UNICODE == 2 /* UTF-8 output */ DWORD hc; if (chr < 0x80) { /* Single byte code? */ if (szb < 1) return 0; /* Buffer overflow? */ *buf = (TCHAR)chr; return 1; } if (chr < 0x800) { /* 2-byte sequence? */ if (szb < 2) return 0; /* Buffer overflow? */ *buf++ = (TCHAR)(0xC0 | (chr >> 6 & 0x1F)); *buf++ = (TCHAR)(0x80 | (chr >> 0 & 0x3F)); return 2; } if (chr < 0x10000) { /* 3-byte sequence? */ if (szb < 3 || IsSurrogate(chr)) return 0; /* Buffer overflow or wrong code? */ *buf++ = (TCHAR)(0xE0 | (chr >> 12 & 0x0F)); *buf++ = (TCHAR)(0x80 | (chr >> 6 & 0x3F)); *buf++ = (TCHAR)(0x80 | (chr >> 0 & 0x3F)); return 3; } /* 4-byte sequence */ if (szb < 4) return 0; /* Buffer overflow? */ hc = ((chr & 0xFFFF0000) - 0xD8000000) >> 6; /* Get high 10 bits */ chr = (chr & 0xFFFF) - 0xDC00; /* Get low 10 bits */ if (hc >= 0x100000 || chr >= 0x400) return 0; /* Wrong surrogate? */ chr = (hc | chr) + 0x10000; *buf++ = (TCHAR)(0xF0 | (chr >> 18 & 0x07)); *buf++ = (TCHAR)(0x80 | (chr >> 12 & 0x3F)); *buf++ = (TCHAR)(0x80 | (chr >> 6 & 0x3F)); *buf++ = (TCHAR)(0x80 | (chr >> 0 & 0x3F)); return 4; #elif FF_LFN_UNICODE == 3 /* UTF-32 output */ DWORD hc; if (szb < 1) return 0; /* Buffer overflow? */ if (chr >= 0x10000) { /* Out of BMP? */ hc = ((chr & 0xFFFF0000) - 0xD8000000) >> 6; /* Get high 10 bits */ chr = (chr & 0xFFFF) - 0xDC00; /* Get low 10 bits */ if (hc >= 0x100000 || chr >= 0x400) return 0; /* Wrong surrogate? */ chr = (hc | chr) + 0x10000; } *buf++ = (TCHAR)chr; return 1; #else /* ANSI/OEM output */ WCHAR wc; wc = ff_uni2oem(chr, CODEPAGE); if (wc >= 0x100) { /* Is this a DBC? */ if (szb < 2) return 0; *buf++ = (char)(wc >> 8); /* Store DBC 1st byte */ *buf++ = (TCHAR)wc; /* Store DBC 2nd byte */ return 2; } if (wc == 0 || szb < 1) return 0; /* Invalid char or buffer overflow? */ *buf++ = (TCHAR)wc; /* Store the character */ return 1; #endif } #endif /* FF_USE_LFN */ #if FF_FS_REENTRANT /*-----------------------------------------------------------------------*/ /* Request/Release grant to access the volume */ /*-----------------------------------------------------------------------*/ static int lock_fs ( /* 1:Ok, 0:timeout */ FATFS* fs /* Filesystem object */ ) { return ff_req_grant(fs->sobj); } static void unlock_fs ( FATFS* fs, /* Filesystem object */ FRESULT res /* Result code to be returned */ ) { if (fs && res != FR_NOT_ENABLED && res != FR_INVALID_DRIVE && res != FR_TIMEOUT) { ff_rel_grant(fs->sobj); } } #endif #if FF_FS_LOCK != 0 /*-----------------------------------------------------------------------*/ /* File lock control functions */ /*-----------------------------------------------------------------------*/ static FRESULT chk_lock ( /* Check if the file can be accessed */ DIR* dp, /* Directory object pointing the file to be checked */ int acc /* Desired access type (0:Read mode open, 1:Write mode open, 2:Delete or rename) */ ) { UINT i, be; /* Search open object table for the object */ be = 0; for (i = 0; i < FF_FS_LOCK; i++) { if (Files[i].fs) { /* Existing entry */ if (Files[i].fs == dp->obj.fs && /* Check if the object matches with an open object */ Files[i].clu == dp->obj.sclust && Files[i].ofs == dp->dptr) break; } else { /* Blank entry */ be = 1; } } if (i == FF_FS_LOCK) { /* The object has not been opened */ return (!be && acc != 2) ? FR_TOO_MANY_OPEN_FILES : FR_OK; /* Is there a blank entry for new object? */ } /* The object was opened. Reject any open against writing file and all write mode open */ return (acc != 0 || Files[i].ctr == 0x100) ? FR_LOCKED : FR_OK; } static int enq_lock (void) /* Check if an entry is available for a new object */ { UINT i; for (i = 0; i < FF_FS_LOCK && Files[i].fs; i++) ; return (i == FF_FS_LOCK) ? 0 : 1; } static UINT inc_lock ( /* Increment object open counter and returns its index (0:Internal error) */ DIR* dp, /* Directory object pointing the file to register or increment */ int acc /* Desired access (0:Read, 1:Write, 2:Delete/Rename) */ ) { UINT i; for (i = 0; i < FF_FS_LOCK; i++) { /* Find the object */ if (Files[i].fs == dp->obj.fs && Files[i].clu == dp->obj.sclust && Files[i].ofs == dp->dptr) break; } if (i == FF_FS_LOCK) { /* Not opened. Register it as new. */ for (i = 0; i < FF_FS_LOCK && Files[i].fs; i++) ; if (i == FF_FS_LOCK) return 0; /* No free entry to register (int err) */ Files[i].fs = dp->obj.fs; Files[i].clu = dp->obj.sclust; Files[i].ofs = dp->dptr; Files[i].ctr = 0; } if (acc >= 1 && Files[i].ctr) return 0; /* Access violation (int err) */ Files[i].ctr = acc ? 0x100 : Files[i].ctr + 1; /* Set semaphore value */ return i + 1; /* Index number origin from 1 */ } static FRESULT dec_lock ( /* Decrement object open counter */ UINT i /* Semaphore index (1..) */ ) { WORD n; FRESULT res; if (--i < FF_FS_LOCK) { /* Index number origin from 0 */ n = Files[i].ctr; if (n == 0x100) n = 0; /* If write mode open, delete the entry */ if (n > 0) n--; /* Decrement read mode open count */ Files[i].ctr = n; if (n == 0) Files[i].fs = 0; /* Delete the entry if open count gets zero */ res = FR_OK; } else { res = FR_INT_ERR; /* Invalid index nunber */ } return res; } static void clear_lock ( /* Clear lock entries of the volume */ FATFS *fs ) { UINT i; for (i = 0; i < FF_FS_LOCK; i++) { if (Files[i].fs == fs) Files[i].fs = 0; } } #endif /* FF_FS_LOCK != 0 */ /*-----------------------------------------------------------------------*/ /* Move/Flush disk access window in the filesystem object */ /*-----------------------------------------------------------------------*/ #if !FF_FS_READONLY static FRESULT sync_window ( /* Returns FR_OK or FR_DISK_ERR */ FATFS* fs /* Filesystem object */ ) { FRESULT res = FR_OK; if (fs->wflag) { /* Is the disk access window dirty */ if (disk_write(fs->pdrv, fs->win, fs->winsect, 1) == RES_OK) { /* Write back the window */ fs->wflag = 0; /* Clear window dirty flag */ if (fs->winsect - fs->fatbase < fs->fsize) { /* Is it in the 1st FAT? */ if (fs->n_fats == 2) disk_write(fs->pdrv, fs->win, fs->winsect + fs->fsize, 1); /* Reflect it to 2nd FAT if needed */ } } else { res = FR_DISK_ERR; } } return res; } #endif static FRESULT move_window ( /* Returns FR_OK or FR_DISK_ERR */ FATFS* fs, /* Filesystem object */ DWORD sector /* Sector number to make appearance in the fs->win[] */ ) { FRESULT res = FR_OK; if (sector != fs->winsect) { /* Window offset changed? */ #if !FF_FS_READONLY res = sync_window(fs); /* Write-back changes */ #endif if (res == FR_OK) { /* Fill sector window with new data */ if (disk_read(fs->pdrv, fs->win, sector, 1) != RES_OK) { sector = 0xFFFFFFFF; /* Invalidate window if read data is not valid */ res = FR_DISK_ERR; } fs->winsect = sector; } } return res; } #if !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* Synchronize filesystem and data on the storage */ /*-----------------------------------------------------------------------*/ static FRESULT sync_fs ( /* Returns FR_OK or FR_DISK_ERR */ FATFS* fs /* Filesystem object */ ) { FRESULT res; res = sync_window(fs); if (res == FR_OK) { if (fs->fs_type == FS_FAT32 && fs->fsi_flag == 1) { /* FAT32: Update FSInfo sector if needed */ /* Create FSInfo structure */ mem_set(fs->win, 0, sizeof fs->win); st_word(fs->win + BS_55AA, 0xAA55); st_dword(fs->win + FSI_LeadSig, 0x41615252); st_dword(fs->win + FSI_StrucSig, 0x61417272); st_dword(fs->win + FSI_Free_Count, fs->free_clst); st_dword(fs->win + FSI_Nxt_Free, fs->last_clst); /* Write it into the FSInfo sector */ fs->winsect = fs->volbase + 1; disk_write(fs->pdrv, fs->win, fs->winsect, 1); fs->fsi_flag = 0; } /* Make sure that no pending write process in the lower layer */ if (disk_ioctl(fs->pdrv, CTRL_SYNC, 0) != RES_OK) res = FR_DISK_ERR; } return res; } #endif /*-----------------------------------------------------------------------*/ /* Get physical sector number from cluster number */ /*-----------------------------------------------------------------------*/ static DWORD clst2sect ( /* !=0:Sector number, 0:Failed (invalid cluster#) */ FATFS* fs, /* Filesystem object */ DWORD clst /* Cluster# to be converted */ ) { clst -= 2; /* Cluster number is origin from 2 */ if (clst >= fs->n_fatent - 2) return 0; /* Is it invalid cluster number? */ return fs->database + fs->csize * clst; /* Start sector number of the cluster */ } /*-----------------------------------------------------------------------*/ /* FAT access - Read value of a FAT entry */ /*-----------------------------------------------------------------------*/ static DWORD get_fat ( /* 0xFFFFFFFF:Disk error, 1:Internal error, 2..0x7FFFFFFF:Cluster status */ FFOBJID* obj, /* Corresponding object */ DWORD clst /* Cluster number to get the value */ ) { UINT wc, bc; DWORD val; FATFS *fs = obj->fs; if (clst < 2 || clst >= fs->n_fatent) { /* Check if in valid range */ val = 1; /* Internal error */ } else { val = 0xFFFFFFFF; /* Default value falls on disk error */ switch (fs->fs_type) { case FS_FAT12 : bc = (UINT)clst; bc += bc / 2; if (move_window(fs, fs->fatbase + (bc / SS(fs))) != FR_OK) break; wc = fs->win[bc++ % SS(fs)]; /* Get 1st byte of the entry */ if (move_window(fs, fs->fatbase + (bc / SS(fs))) != FR_OK) break; wc |= fs->win[bc % SS(fs)] << 8; /* Merge 2nd byte of the entry */ val = (clst & 1) ? (wc >> 4) : (wc & 0xFFF); /* Adjust bit position */ break; case FS_FAT16 : if (move_window(fs, fs->fatbase + (clst / (SS(fs) / 2))) != FR_OK) break; val = ld_word(fs->win + clst * 2 % SS(fs)); /* Simple WORD array */ break; case FS_FAT32 : if (move_window(fs, fs->fatbase + (clst / (SS(fs) / 4))) != FR_OK) break; val = ld_dword(fs->win + clst * 4 % SS(fs)) & 0x0FFFFFFF; /* Simple DWORD array but mask out upper 4 bits */ break; #if FF_FS_EXFAT case FS_EXFAT : if ((obj->objsize != 0 && obj->sclust != 0) || obj->stat == 0) { /* Object except root dir must have valid data length */ DWORD cofs = clst - obj->sclust; /* Offset from start cluster */ DWORD clen = (DWORD)((obj->objsize - 1) / SS(fs)) / fs->csize; /* Number of clusters - 1 */ if (obj->stat == 2 && cofs <= clen) { /* Is it a contiguous chain? */ val = (cofs == clen) ? 0x7FFFFFFF : clst + 1; /* No data on the FAT, generate the value */ break; } if (obj->stat == 3 && cofs < obj->n_cont) { /* Is it in the 1st fragment? */ val = clst + 1; /* Generate the value */ break; } if (obj->stat != 2) { /* Get value from FAT if FAT chain is valid */ if (obj->n_frag != 0) { /* Is it on the growing edge? */ val = 0x7FFFFFFF; /* Generate EOC */ } else { if (move_window(fs, fs->fatbase + (clst / (SS(fs) / 4))) != FR_OK) break; val = ld_dword(fs->win + clst * 4 % SS(fs)) & 0x7FFFFFFF; } break; } } /* go to default */ #endif default: val = 1; /* Internal error */ } } return val; } #if !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* FAT access - Change value of a FAT entry */ /*-----------------------------------------------------------------------*/ static FRESULT put_fat ( /* FR_OK(0):succeeded, !=0:error */ FATFS* fs, /* Corresponding filesystem object */ DWORD clst, /* FAT index number (cluster number) to be changed */ DWORD val /* New value to be set to the entry */ ) { UINT bc; BYTE *p; FRESULT res = FR_INT_ERR; if (clst >= 2 && clst < fs->n_fatent) { /* Check if in valid range */ switch (fs->fs_type) { case FS_FAT12 : bc = (UINT)clst; bc += bc / 2; /* bc: byte offset of the entry */ res = move_window(fs, fs->fatbase + (bc / SS(fs))); if (res != FR_OK) break; p = fs->win + bc++ % SS(fs); *p = (clst & 1) ? ((*p & 0x0F) | ((BYTE)val << 4)) : (BYTE)val; /* Put 1st byte */ fs->wflag = 1; res = move_window(fs, fs->fatbase + (bc / SS(fs))); if (res != FR_OK) break; p = fs->win + bc % SS(fs); *p = (clst & 1) ? (BYTE)(val >> 4) : ((*p & 0xF0) | ((BYTE)(val >> 8) & 0x0F)); /* Put 2nd byte */ fs->wflag = 1; break; case FS_FAT16 : res = move_window(fs, fs->fatbase + (clst / (SS(fs) / 2))); if (res != FR_OK) break; st_word(fs->win + clst * 2 % SS(fs), (WORD)val); /* Simple WORD array */ fs->wflag = 1; break; case FS_FAT32 : #if FF_FS_EXFAT case FS_EXFAT : #endif res = move_window(fs, fs->fatbase + (clst / (SS(fs) / 4))); if (res != FR_OK) break; if (!FF_FS_EXFAT || fs->fs_type != FS_EXFAT) { val = (val & 0x0FFFFFFF) | (ld_dword(fs->win + clst * 4 % SS(fs)) & 0xF0000000); } st_dword(fs->win + clst * 4 % SS(fs), val); fs->wflag = 1; break; } } return res; } #endif /* !FF_FS_READONLY */ #if FF_FS_EXFAT && !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* exFAT: Accessing FAT and Allocation Bitmap */ /*-----------------------------------------------------------------------*/ /*--------------------------------------*/ /* Find a contiguous free cluster block */ /*--------------------------------------*/ static DWORD find_bitmap ( /* 0:Not found, 2..:Cluster block found, 0xFFFFFFFF:Disk error */ FATFS* fs, /* Filesystem object */ DWORD clst, /* Cluster number to scan from */ DWORD ncl /* Number of contiguous clusters to find (1..) */ ) { BYTE bm, bv; UINT i; DWORD val, scl, ctr; clst -= 2; /* The first bit in the bitmap corresponds to cluster #2 */ if (clst >= fs->n_fatent - 2) clst = 0; scl = val = clst; ctr = 0; for (;;) { if (move_window(fs, fs->bitbase + val / 8 / SS(fs)) != FR_OK) return 0xFFFFFFFF; i = val / 8 % SS(fs); bm = 1 << (val % 8); do { do { bv = fs->win[i] & bm; bm <<= 1; /* Get bit value */ if (++val >= fs->n_fatent - 2) { /* Next cluster (with wrap-around) */ val = 0; bm = 0; i = SS(fs); } if (bv == 0) { /* Is it a free cluster? */ if (++ctr == ncl) return scl + 2; /* Check if run length is sufficient for required */ } else { scl = val; ctr = 0; /* Encountered a cluster in-use, restart to scan */ } if (val == clst) return 0; /* All cluster scanned? */ } while (bm != 0); bm = 1; } while (++i < SS(fs)); } } /*----------------------------------------*/ /* Set/Clear a block of allocation bitmap */ /*----------------------------------------*/ static FRESULT change_bitmap ( FATFS* fs, /* Filesystem object */ DWORD clst, /* Cluster number to change from */ DWORD ncl, /* Number of clusters to be changed */ int bv /* bit value to be set (0 or 1) */ ) { BYTE bm; UINT i; DWORD sect; clst -= 2; /* The first bit corresponds to cluster #2 */ sect = fs->bitbase + clst / 8 / SS(fs); /* Sector address */ i = clst / 8 % SS(fs); /* Byte offset in the sector */ bm = 1 << (clst % 8); /* Bit mask in the byte */ for (;;) { if (move_window(fs, sect++) != FR_OK) return FR_DISK_ERR; do { do { if (bv == (int)((fs->win[i] & bm) != 0)) return FR_INT_ERR; /* Is the bit expected value? */ fs->win[i] ^= bm; /* Flip the bit */ fs->wflag = 1; if (--ncl == 0) return FR_OK; /* All bits processed? */ } while (bm <<= 1); /* Next bit */ bm = 1; } while (++i < SS(fs)); /* Next byte */ i = 0; } } /*---------------------------------------------*/ /* Fill the first fragment of the FAT chain */ /*---------------------------------------------*/ static FRESULT fill_first_frag ( FFOBJID* obj /* Pointer to the corresponding object */ ) { FRESULT res; DWORD cl, n; if (obj->stat == 3) { /* Has the object been changed 'fragmented' in this session? */ for (cl = obj->sclust, n = obj->n_cont; n; cl++, n--) { /* Create cluster chain on the FAT */ res = put_fat(obj->fs, cl, cl + 1); if (res != FR_OK) return res; } obj->stat = 0; /* Change status 'FAT chain is valid' */ } return FR_OK; } /*---------------------------------------------*/ /* Fill the last fragment of the FAT chain */ /*---------------------------------------------*/ static FRESULT fill_last_frag ( FFOBJID* obj, /* Pointer to the corresponding object */ DWORD lcl, /* Last cluster of the fragment */ DWORD term /* Value to set the last FAT entry */ ) { FRESULT res; while (obj->n_frag > 0) { /* Create the chain of last fragment */ res = put_fat(obj->fs, lcl - obj->n_frag + 1, (obj->n_frag > 1) ? lcl - obj->n_frag + 2 : term); if (res != FR_OK) return res; obj->n_frag--; } return FR_OK; } #endif /* FF_FS_EXFAT && !FF_FS_READONLY */ #if !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* FAT handling - Remove a cluster chain */ /*-----------------------------------------------------------------------*/ static FRESULT remove_chain ( /* FR_OK(0):succeeded, !=0:error */ FFOBJID* obj, /* Corresponding object */ DWORD clst, /* Cluster to remove a chain from */ DWORD pclst /* Previous cluster of clst (0 if entire chain) */ ) { FRESULT res = FR_OK; DWORD nxt; FATFS *fs = obj->fs; #if FF_FS_EXFAT || FF_USE_TRIM DWORD scl = clst, ecl = clst; #endif #if FF_USE_TRIM DWORD rt[2]; #endif if (clst < 2 || clst >= fs->n_fatent) return FR_INT_ERR; /* Check if in valid range */ /* Mark the previous cluster 'EOC' on the FAT if it exists */ if (pclst != 0 && (!FF_FS_EXFAT || fs->fs_type != FS_EXFAT || obj->stat != 2)) { res = put_fat(fs, pclst, 0xFFFFFFFF); if (res != FR_OK) return res; } /* Remove the chain */ do { nxt = get_fat(obj, clst); /* Get cluster status */ if (nxt == 0) break; /* Empty cluster? */ if (nxt == 1) return FR_INT_ERR; /* Internal error? */ if (nxt == 0xFFFFFFFF) return FR_DISK_ERR; /* Disk error? */ if (!FF_FS_EXFAT || fs->fs_type != FS_EXFAT) { res = put_fat(fs, clst, 0); /* Mark the cluster 'free' on the FAT */ if (res != FR_OK) return res; } if (fs->free_clst < fs->n_fatent - 2) { /* Update FSINFO */ fs->free_clst++; fs->fsi_flag |= 1; } #if FF_FS_EXFAT || FF_USE_TRIM if (ecl + 1 == nxt) { /* Is next cluster contiguous? */ ecl = nxt; } else { /* End of contiguous cluster block */ #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { res = change_bitmap(fs, scl, ecl - scl + 1, 0); /* Mark the cluster block 'free' on the bitmap */ if (res != FR_OK) return res; } #endif #if FF_USE_TRIM rt[0] = clst2sect(fs, scl); /* Start of data area freed */ rt[1] = clst2sect(fs, ecl) + fs->csize - 1; /* End of data area freed */ disk_ioctl(fs->pdrv, CTRL_TRIM, rt); /* Inform device the data in the block is no longer needed */ #endif scl = ecl = nxt; } #endif clst = nxt; /* Next cluster */ } while (clst < fs->n_fatent); /* Repeat while not the last link */ #if FF_FS_EXFAT /* Some post processes for chain status */ if (fs->fs_type == FS_EXFAT) { if (pclst == 0) { /* Has the entire chain been removed? */ obj->stat = 0; /* Change the chain status 'initial' */ } else { if (obj->stat == 0) { /* Is it a fragmented chain from the beginning of this session? */ clst = obj->sclust; /* Follow the chain to check if it gets contiguous */ while (clst != pclst) { nxt = get_fat(obj, clst); if (nxt < 2) return FR_INT_ERR; if (nxt == 0xFFFFFFFF) return FR_DISK_ERR; if (nxt != clst + 1) break; /* Not contiguous? */ clst++; } if (clst == pclst) { /* Has the chain got contiguous again? */ obj->stat = 2; /* Change the chain status 'contiguous' */ } } else { if (obj->stat == 3 && pclst >= obj->sclust && pclst <= obj->sclust + obj->n_cont) { /* Was the chain fragmented in this session and got contiguous again? */ obj->stat = 2; /* Change the chain status 'contiguous' */ } } } } #endif return FR_OK; } /*-----------------------------------------------------------------------*/ /* FAT handling - Stretch a chain or Create a new chain */ /*-----------------------------------------------------------------------*/ static DWORD create_chain ( /* 0:No free cluster, 1:Internal error, 0xFFFFFFFF:Disk error, >=2:New cluster# */ FFOBJID* obj, /* Corresponding object */ DWORD clst /* Cluster# to stretch, 0:Create a new chain */ ) { DWORD cs, ncl, scl; FRESULT res; FATFS *fs = obj->fs; if (clst == 0) { /* Create a new chain */ scl = fs->last_clst; /* Suggested cluster to start to find */ if (scl == 0 || scl >= fs->n_fatent) scl = 1; } else { /* Stretch a chain */ cs = get_fat(obj, clst); /* Check the cluster status */ if (cs < 2) return 1; /* Test for insanity */ if (cs == 0xFFFFFFFF) return cs; /* Test for disk error */ if (cs < fs->n_fatent) return cs; /* It is already followed by next cluster */ scl = clst; /* Cluster to start to find */ } if (fs->free_clst == 0) return 0; /* No free cluster */ #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { /* On the exFAT volume */ ncl = find_bitmap(fs, scl, 1); /* Find a free cluster */ if (ncl == 0 || ncl == 0xFFFFFFFF) return ncl; /* No free cluster or hard error? */ res = change_bitmap(fs, ncl, 1, 1); /* Mark the cluster 'in use' */ if (res == FR_INT_ERR) return 1; if (res == FR_DISK_ERR) return 0xFFFFFFFF; if (clst == 0) { /* Is it a new chain? */ obj->stat = 2; /* Set status 'contiguous' */ } else { /* It is a stretched chain */ if (obj->stat == 2 && ncl != scl + 1) { /* Is the chain got fragmented? */ obj->n_cont = scl - obj->sclust; /* Set size of the contiguous part */ obj->stat = 3; /* Change status 'just fragmented' */ } } if (obj->stat != 2) { /* Is the file non-contiguous? */ if (ncl == clst + 1) { /* Is the cluster next to previous one? */ obj->n_frag = obj->n_frag ? obj->n_frag + 1 : 2; /* Increment size of last framgent */ } else { /* New fragment */ if (obj->n_frag == 0) obj->n_frag = 1; res = fill_last_frag(obj, clst, ncl); /* Fill last fragment on the FAT and link it to new one */ if (res == FR_OK) obj->n_frag = 1; } } } else #endif { /* On the FAT/FAT32 volume */ ncl = 0; if (scl == clst) { /* Stretching an existing chain? */ ncl = scl + 1; /* Test if next cluster is free */ if (ncl >= fs->n_fatent) ncl = 2; cs = get_fat(obj, ncl); /* Get next cluster status */ if (cs == 1 || cs == 0xFFFFFFFF) return cs; /* Test for error */ if (cs != 0) { /* Not free? */ cs = fs->last_clst; /* Start at suggested cluster if it is valid */ if (cs >= 2 && cs < fs->n_fatent) scl = cs; ncl = 0; } } if (ncl == 0) { /* The new cluster cannot be contiguous and find another fragment */ ncl = scl; /* Start cluster */ for (;;) { ncl++; /* Next cluster */ if (ncl >= fs->n_fatent) { /* Check wrap-around */ ncl = 2; if (ncl > scl) return 0; /* No free cluster found? */ } cs = get_fat(obj, ncl); /* Get the cluster status */ if (cs == 0) break; /* Found a free cluster? */ if (cs == 1 || cs == 0xFFFFFFFF) return cs; /* Test for error */ if (ncl == scl) return 0; /* No free cluster found? */ } } res = put_fat(fs, ncl, 0xFFFFFFFF); /* Mark the new cluster 'EOC' */ if (res == FR_OK && clst != 0) { res = put_fat(fs, clst, ncl); /* Link it from the previous one if needed */ } } if (res == FR_OK) { /* Update FSINFO if function succeeded. */ fs->last_clst = ncl; if (fs->free_clst <= fs->n_fatent - 2) fs->free_clst--; fs->fsi_flag |= 1; } else { ncl = (res == FR_DISK_ERR) ? 0xFFFFFFFF : 1; /* Failed. Generate error status */ } return ncl; /* Return new cluster number or error status */ } #endif /* !FF_FS_READONLY */ #if FF_USE_FASTSEEK /*-----------------------------------------------------------------------*/ /* FAT handling - Convert offset into cluster with link map table */ /*-----------------------------------------------------------------------*/ static DWORD clmt_clust ( /* <2:Error, >=2:Cluster number */ FIL* fp, /* Pointer to the file object */ FSIZE_t ofs /* File offset to be converted to cluster# */ ) { DWORD cl, ncl, *tbl; FATFS *fs = fp->obj.fs; tbl = fp->cltbl + 1; /* Top of CLMT */ cl = (DWORD)(ofs / SS(fs) / fs->csize); /* Cluster order from top of the file */ for (;;) { ncl = *tbl++; /* Number of cluters in the fragment */ if (ncl == 0) return 0; /* End of table? (error) */ if (cl < ncl) break; /* In this fragment? */ cl -= ncl; tbl++; /* Next fragment */ } return cl + *tbl; /* Return the cluster number */ } #endif /* FF_USE_FASTSEEK */ /*-----------------------------------------------------------------------*/ /* Directory handling - Fill a cluster with zeros */ /*-----------------------------------------------------------------------*/ #if !FF_FS_READONLY static FRESULT dir_clear ( /* Returns FR_OK or FR_DISK_ERR */ FATFS *fs, /* Filesystem object */ DWORD clst /* Directory table to clear */ ) { DWORD sect; UINT n, szb; BYTE *ibuf; if (sync_window(fs) != FR_OK) return FR_DISK_ERR; /* Flush disk access window */ sect = clst2sect(fs, clst); /* Top of the cluster */ fs->winsect = sect; /* Set window to top of the cluster */ mem_set(fs->win, 0, sizeof fs->win); /* Clear window buffer */ #if FF_USE_LFN == 3 /* Quick table clear by using multi-secter write */ /* Allocate a temporary buffer */ for (szb = ((DWORD)fs->csize * SS(fs) >= MAX_MALLOC) ? MAX_MALLOC : fs->csize * SS(fs), ibuf = 0; szb > SS(fs) && (ibuf = ff_memalloc(szb)) == 0; szb /= 2) ; if (szb > SS(fs)) { /* Buffer allocated? */ mem_set(ibuf, 0, szb); szb /= SS(fs); /* Bytes -> Sectors */ for (n = 0; n < fs->csize && disk_write(fs->pdrv, ibuf, sect + n, szb) == RES_OK; n += szb) ; /* Fill the cluster with 0 */ ff_memfree(ibuf); } else #endif { ibuf = fs->win; szb = 1; /* Use window buffer (many single-sector writes may take a time) */ for (n = 0; n < fs->csize && disk_write(fs->pdrv, ibuf, sect + n, szb) == RES_OK; n += szb) ; /* Fill the cluster with 0 */ } return (n == fs->csize) ? FR_OK : FR_DISK_ERR; } #endif /* !FF_FS_READONLY */ /*-----------------------------------------------------------------------*/ /* Directory handling - Set directory index */ /*-----------------------------------------------------------------------*/ static FRESULT dir_sdi ( /* FR_OK(0):succeeded, !=0:error */ DIR* dp, /* Pointer to directory object */ DWORD ofs /* Offset of directory table */ ) { DWORD csz, clst; FATFS *fs = dp->obj.fs; if (ofs >= (DWORD)((FF_FS_EXFAT && fs->fs_type == FS_EXFAT) ? MAX_DIR_EX : MAX_DIR) || ofs % SZDIRE) { /* Check range of offset and alignment */ return FR_INT_ERR; } dp->dptr = ofs; /* Set current offset */ clst = dp->obj.sclust; /* Table start cluster (0:root) */ if (clst == 0 && fs->fs_type >= FS_FAT32) { /* Replace cluster# 0 with root cluster# */ clst = fs->dirbase; if (FF_FS_EXFAT) dp->obj.stat = 0; /* exFAT: Root dir has an FAT chain */ } if (clst == 0) { /* Static table (root-directory on the FAT volume) */ if (ofs / SZDIRE >= fs->n_rootdir) return FR_INT_ERR; /* Is index out of range? */ dp->sect = fs->dirbase; } else { /* Dynamic table (sub-directory or root-directory on the FAT32/exFAT volume) */ csz = (DWORD)fs->csize * SS(fs); /* Bytes per cluster */ while (ofs >= csz) { /* Follow cluster chain */ clst = get_fat(&dp->obj, clst); /* Get next cluster */ if (clst == 0xFFFFFFFF) return FR_DISK_ERR; /* Disk error */ if (clst < 2 || clst >= fs->n_fatent) return FR_INT_ERR; /* Reached to end of table or internal error */ ofs -= csz; } dp->sect = clst2sect(fs, clst); } dp->clust = clst; /* Current cluster# */ if (dp->sect == 0) return FR_INT_ERR; dp->sect += ofs / SS(fs); /* Sector# of the directory entry */ dp->dir = fs->win + (ofs % SS(fs)); /* Pointer to the entry in the win[] */ return FR_OK; } /*-----------------------------------------------------------------------*/ /* Directory handling - Move directory table index next */ /*-----------------------------------------------------------------------*/ static FRESULT dir_next ( /* FR_OK(0):succeeded, FR_NO_FILE:End of table, FR_DENIED:Could not stretch */ DIR* dp, /* Pointer to the directory object */ int stretch /* 0: Do not stretch table, 1: Stretch table if needed */ ) { DWORD ofs, clst; FATFS *fs = dp->obj.fs; ofs = dp->dptr + SZDIRE; /* Next entry */ if (ofs >= (DWORD)((FF_FS_EXFAT && fs->fs_type == FS_EXFAT) ? MAX_DIR_EX : MAX_DIR)) dp->sect = 0; /* Disable it if the offset reached the max value */ if (dp->sect == 0) return FR_NO_FILE; /* Report EOT if it has been disabled */ if (ofs % SS(fs) == 0) { /* Sector changed? */ dp->sect++; /* Next sector */ if (dp->clust == 0) { /* Static table */ if (ofs / SZDIRE >= fs->n_rootdir) { /* Report EOT if it reached end of static table */ dp->sect = 0; return FR_NO_FILE; } } else { /* Dynamic table */ if ((ofs / SS(fs) & (fs->csize - 1)) == 0) { /* Cluster changed? */ clst = get_fat(&dp->obj, dp->clust); /* Get next cluster */ if (clst <= 1) return FR_INT_ERR; /* Internal error */ if (clst == 0xFFFFFFFF) return FR_DISK_ERR; /* Disk error */ if (clst >= fs->n_fatent) { /* It reached end of dynamic table */ #if !FF_FS_READONLY if (!stretch) { /* If no stretch, report EOT */ dp->sect = 0; return FR_NO_FILE; } clst = create_chain(&dp->obj, dp->clust); /* Allocate a cluster */ if (clst == 0) return FR_DENIED; /* No free cluster */ if (clst == 1) return FR_INT_ERR; /* Internal error */ if (clst == 0xFFFFFFFF) return FR_DISK_ERR; /* Disk error */ if (dir_clear(fs, clst) != FR_OK) return FR_DISK_ERR; /* Clean up the stretched table */ if (FF_FS_EXFAT) dp->obj.stat |= 4; /* exFAT: The directory has been stretched */ #else if (!stretch) dp->sect = 0; /* (this line is to suppress compiler warning) */ dp->sect = 0; return FR_NO_FILE; /* Report EOT */ #endif } dp->clust = clst; /* Initialize data for new cluster */ dp->sect = clst2sect(fs, clst); } } } dp->dptr = ofs; /* Current entry */ dp->dir = fs->win + ofs % SS(fs); /* Pointer to the entry in the win[] */ return FR_OK; } #if !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* Directory handling - Reserve a block of directory entries */ /*-----------------------------------------------------------------------*/ static FRESULT dir_alloc ( /* FR_OK(0):succeeded, !=0:error */ DIR* dp, /* Pointer to the directory object */ UINT nent /* Number of contiguous entries to allocate */ ) { FRESULT res; UINT n; FATFS *fs = dp->obj.fs; res = dir_sdi(dp, 0); if (res == FR_OK) { n = 0; do { res = move_window(fs, dp->sect); if (res != FR_OK) break; #if FF_FS_EXFAT if ((fs->fs_type == FS_EXFAT) ? (int)((dp->dir[XDIR_Type] & 0x80) == 0) : (int)(dp->dir[DIR_Name] == DDEM || dp->dir[DIR_Name] == 0)) { #else if (dp->dir[DIR_Name] == DDEM || dp->dir[DIR_Name] == 0) { #endif if (++n == nent) break; /* A block of contiguous free entries is found */ } else { n = 0; /* Not a blank entry. Restart to search */ } res = dir_next(dp, 1); } while (res == FR_OK); /* Next entry with table stretch enabled */ } if (res == FR_NO_FILE) res = FR_DENIED; /* No directory entry to allocate */ return res; } #endif /* !FF_FS_READONLY */ /*-----------------------------------------------------------------------*/ /* FAT: Directory handling - Load/Store start cluster number */ /*-----------------------------------------------------------------------*/ static DWORD ld_clust ( /* Returns the top cluster value of the SFN entry */ FATFS* fs, /* Pointer to the fs object */ const BYTE* dir /* Pointer to the key entry */ ) { DWORD cl; cl = ld_word(dir + DIR_FstClusLO); if (fs->fs_type == FS_FAT32) { cl |= (DWORD)ld_word(dir + DIR_FstClusHI) << 16; } return cl; } #if !FF_FS_READONLY static void st_clust ( FATFS* fs, /* Pointer to the fs object */ BYTE* dir, /* Pointer to the key entry */ DWORD cl /* Value to be set */ ) { st_word(dir + DIR_FstClusLO, (WORD)cl); if (fs->fs_type == FS_FAT32) { st_word(dir + DIR_FstClusHI, (WORD)(cl >> 16)); } } #endif #if FF_USE_LFN /*--------------------------------------------------------*/ /* FAT-LFN: Compare a part of file name with an LFN entry */ /*--------------------------------------------------------*/ static int cmp_lfn ( /* 1:matched, 0:not matched */ const WCHAR* lfnbuf, /* Pointer to the LFN working buffer to be compared */ BYTE* dir /* Pointer to the directory entry containing the part of LFN */ ) { UINT i, s; WCHAR wc, uc; if (ld_word(dir + LDIR_FstClusLO) != 0) return 0; /* Check LDIR_FstClusLO */ i = ((dir[LDIR_Ord] & 0x3F) - 1) * 13; /* Offset in the LFN buffer */ for (wc = 1, s = 0; s < 13; s++) { /* Process all characters in the entry */ uc = ld_word(dir + LfnOfs[s]); /* Pick an LFN character */ if (wc != 0) { if (i >= FF_MAX_LFN + 1 || ff_wtoupper(uc) != ff_wtoupper(lfnbuf[i++])) { /* Compare it */ return 0; /* Not matched */ } wc = uc; } else { if (uc != 0xFFFF) return 0; /* Check filler */ } } if ((dir[LDIR_Ord] & LLEF) && wc && lfnbuf[i]) return 0; /* Last segment matched but different length */ return 1; /* The part of LFN matched */ } #if FF_FS_MINIMIZE <= 1 || FF_FS_RPATH >= 2 || FF_USE_LABEL || FF_FS_EXFAT /*-----------------------------------------------------*/ /* FAT-LFN: Pick a part of file name from an LFN entry */ /*-----------------------------------------------------*/ static int pick_lfn ( /* 1:succeeded, 0:buffer overflow or invalid LFN entry */ WCHAR* lfnbuf, /* Pointer to the LFN working buffer */ BYTE* dir /* Pointer to the LFN entry */ ) { UINT i, s; WCHAR wc, uc; if (ld_word(dir + LDIR_FstClusLO) != 0) return 0; /* Check LDIR_FstClusLO is 0 */ i = ((dir[LDIR_Ord] & ~LLEF) - 1) * 13; /* Offset in the LFN buffer */ for (wc = 1, s = 0; s < 13; s++) { /* Process all characters in the entry */ uc = ld_word(dir + LfnOfs[s]); /* Pick an LFN character */ if (wc != 0) { if (i >= FF_MAX_LFN + 1) return 0; /* Buffer overflow? */ lfnbuf[i++] = wc = uc; /* Store it */ } else { if (uc != 0xFFFF) return 0; /* Check filler */ } } if (dir[LDIR_Ord] & LLEF && wc != 0) { /* Put terminator if it is the last LFN part and not terminated */ if (i >= FF_MAX_LFN + 1) return 0; /* Buffer overflow? */ lfnbuf[i] = 0; } return 1; /* The part of LFN is valid */ } #endif #if !FF_FS_READONLY /*-----------------------------------------*/ /* FAT-LFN: Create an entry of LFN entries */ /*-----------------------------------------*/ static void put_lfn ( const WCHAR* lfn, /* Pointer to the LFN */ BYTE* dir, /* Pointer to the LFN entry to be created */ BYTE ord, /* LFN order (1-20) */ BYTE sum /* Checksum of the corresponding SFN */ ) { UINT i, s; WCHAR wc; dir[LDIR_Chksum] = sum; /* Set checksum */ dir[LDIR_Attr] = AM_LFN; /* Set attribute. LFN entry */ dir[LDIR_Type] = 0; st_word(dir + LDIR_FstClusLO, 0); i = (ord - 1) * 13; /* Get offset in the LFN working buffer */ s = wc = 0; do { if (wc != 0xFFFF) wc = lfn[i++]; /* Get an effective character */ st_word(dir + LfnOfs[s], wc); /* Put it */ if (wc == 0) wc = 0xFFFF; /* Padding characters for left locations */ } while (++s < 13); if (wc == 0xFFFF || !lfn[i]) ord |= LLEF; /* Last LFN part is the start of LFN sequence */ dir[LDIR_Ord] = ord; /* Set the LFN order */ } #endif /* !FF_FS_READONLY */ #endif /* FF_USE_LFN */ #if FF_USE_LFN && !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* FAT-LFN: Create a Numbered SFN */ /*-----------------------------------------------------------------------*/ static void gen_numname ( BYTE* dst, /* Pointer to the buffer to store numbered SFN */ const BYTE* src, /* Pointer to SFN */ const WCHAR* lfn, /* Pointer to LFN */ UINT seq /* Sequence number */ ) { BYTE ns[8], c; UINT i, j; WCHAR wc; DWORD sr; mem_cpy(dst, src, 11); if (seq > 5) { /* In case of many collisions, generate a hash number instead of sequential number */ sr = seq; while (*lfn) { /* Create a CRC as hash value */ wc = *lfn++; for (i = 0; i < 16; i++) { sr = (sr << 1) + (wc & 1); wc >>= 1; if (sr & 0x10000) sr ^= 0x11021; } } seq = (UINT)sr; } /* itoa (hexdecimal) */ i = 7; do { c = (BYTE)((seq % 16) + '0'); if (c > '9') c += 7; ns[i--] = c; seq /= 16; } while (seq); ns[i] = '~'; /* Append the number to the SFN body */ for (j = 0; j < i && dst[j] != ' '; j++) { if (dbc_1st(dst[j])) { if (j == i - 1) break; j++; } } do { dst[j++] = (i < 8) ? ns[i++] : ' '; } while (j < 8); } #endif /* FF_USE_LFN && !FF_FS_READONLY */ #if FF_USE_LFN /*-----------------------------------------------------------------------*/ /* FAT-LFN: Calculate checksum of an SFN entry */ /*-----------------------------------------------------------------------*/ static BYTE sum_sfn ( const BYTE* dir /* Pointer to the SFN entry */ ) { BYTE sum = 0; UINT n = 11; do { sum = (sum >> 1) + (sum << 7) + *dir++; } while (--n); return sum; } #endif /* FF_USE_LFN */ #if FF_FS_EXFAT /*-----------------------------------------------------------------------*/ /* exFAT: Checksum */ /*-----------------------------------------------------------------------*/ static WORD xdir_sum ( /* Get checksum of the directoly entry block */ const BYTE* dir /* Directory entry block to be calculated */ ) { UINT i, szblk; WORD sum; szblk = (dir[XDIR_NumSec] + 1) * SZDIRE; /* Number of bytes of the entry block */ for (i = sum = 0; i < szblk; i++) { if (i == XDIR_SetSum) { /* Skip 2-byte sum field */ i++; } else { sum = ((sum & 1) ? 0x8000 : 0) + (sum >> 1) + dir[i]; } } return sum; } static WORD xname_sum ( /* Get check sum (to be used as hash) of the file name */ const WCHAR* name /* File name to be calculated */ ) { WCHAR chr; WORD sum = 0; while ((chr = *name++) != 0) { chr = (WCHAR)ff_wtoupper(chr); /* File name needs to be up-case converted */ sum = ((sum & 1) ? 0x8000 : 0) + (sum >> 1) + (chr & 0xFF); sum = ((sum & 1) ? 0x8000 : 0) + (sum >> 1) + (chr >> 8); } return sum; } #if !FF_FS_READONLY && FF_USE_MKFS static DWORD xsum32 ( /* Returns 32-bit checksum */ BYTE dat, /* Byte to be calculated (byte-by-byte processing) */ DWORD sum /* Previous sum value */ ) { sum = ((sum & 1) ? 0x80000000 : 0) + (sum >> 1) + dat; return sum; } #endif #if FF_FS_MINIMIZE <= 1 || FF_FS_RPATH >= 2 /*------------------------------------------------------*/ /* exFAT: Get object information from a directory block */ /*------------------------------------------------------*/ static void get_xfileinfo ( BYTE* dirb, /* Pointer to the direcotry entry block 85+C0+C1s */ FILINFO* fno /* Buffer to store the extracted file information */ ) { WCHAR wc, hs; UINT di, si, nc; /* Get file name from the entry block */ si = SZDIRE * 2; /* 1st C1 entry */ nc = 0; hs = 0; di = 0; while (nc < dirb[XDIR_NumName]) { if (si >= MAXDIRB(FF_MAX_LFN)) { di = 0; break; } /* Truncated directory block? */ if ((si % SZDIRE) == 0) si += 2; /* Skip entry type field */ wc = ld_word(dirb + si); si += 2; nc++; /* Get a character */ if (hs == 0 && IsSurrogate(wc)) { /* Is it a surrogate? */ hs = wc; continue; /* Get low surrogate */ } wc = put_utf((DWORD)hs << 16 | wc, &fno->fname[di], FF_LFN_BUF - di); /* Store it in API encoding */ if (wc == 0) { di = 0; break; } /* Buffer overflow or wrong encoding? */ di += wc; hs = 0; } if (hs != 0) di = 0; /* Broken surrogate pair? */ if (di == 0) fno->fname[di++] = '?'; /* Inaccessible object name? */ fno->fname[di] = 0; /* Terminate the name */ fno->altname[0] = 0; /* exFAT does not support SFN */ fno->fattrib = dirb[XDIR_Attr]; /* Attribute */ fno->fsize = (fno->fattrib & AM_DIR) ? 0 : ld_qword(dirb + XDIR_FileSize); /* Size */ fno->ftime = ld_word(dirb + XDIR_ModTime + 0); /* Time */ fno->fdate = ld_word(dirb + XDIR_ModTime + 2); /* Date */ } #endif /* FF_FS_MINIMIZE <= 1 || FF_FS_RPATH >= 2 */ /*-----------------------------------*/ /* exFAT: Get a directry entry block */ /*-----------------------------------*/ static FRESULT load_xdir ( /* FR_INT_ERR: invalid entry block */ DIR* dp /* Reading direcotry object pointing top of the entry block to load */ ) { FRESULT res; UINT i, sz_ent; BYTE* dirb = dp->obj.fs->dirbuf; /* Pointer to the on-memory direcotry entry block 85+C0+C1s */ /* Load file-directory entry */ res = move_window(dp->obj.fs, dp->sect); if (res != FR_OK) return res; if (dp->dir[XDIR_Type] != ET_FILEDIR) return FR_INT_ERR; /* Invalid order */ mem_cpy(dirb + 0 * SZDIRE, dp->dir, SZDIRE); sz_ent = (dirb[XDIR_NumSec] + 1) * SZDIRE; if (sz_ent < 3 * SZDIRE || sz_ent > 19 * SZDIRE) return FR_INT_ERR; /* Load stream-extension entry */ res = dir_next(dp, 0); if (res == FR_NO_FILE) res = FR_INT_ERR; /* It cannot be */ if (res != FR_OK) return res; res = move_window(dp->obj.fs, dp->sect); if (res != FR_OK) return res; if (dp->dir[XDIR_Type] != ET_STREAM) return FR_INT_ERR; /* Invalid order */ mem_cpy(dirb + 1 * SZDIRE, dp->dir, SZDIRE); if (MAXDIRB(dirb[XDIR_NumName]) > sz_ent) return FR_INT_ERR; /* Load file-name entries */ i = 2 * SZDIRE; /* Name offset to load */ do { res = dir_next(dp, 0); if (res == FR_NO_FILE) res = FR_INT_ERR; /* It cannot be */ if (res != FR_OK) return res; res = move_window(dp->obj.fs, dp->sect); if (res != FR_OK) return res; if (dp->dir[XDIR_Type] != ET_FILENAME) return FR_INT_ERR; /* Invalid order */ if (i < MAXDIRB(FF_MAX_LFN)) mem_cpy(dirb + i, dp->dir, SZDIRE); } while ((i += SZDIRE) < sz_ent); /* Sanity check (do it for only accessible object) */ if (i <= MAXDIRB(FF_MAX_LFN)) { if (xdir_sum(dirb) != ld_word(dirb + XDIR_SetSum)) return FR_INT_ERR; } return FR_OK; } /*------------------------------------------------------------------*/ /* exFAT: Initialize object allocation info with loaded entry block */ /*------------------------------------------------------------------*/ static void init_alloc_info ( FATFS* fs, /* Filesystem object */ FFOBJID* obj /* Object allocation information to be initialized */ ) { obj->sclust = ld_dword(fs->dirbuf + XDIR_FstClus); /* Start cluster */ obj->objsize = ld_qword(fs->dirbuf + XDIR_FileSize); /* Size */ obj->stat = fs->dirbuf[XDIR_GenFlags] & 2; /* Allocation status */ obj->n_frag = 0; /* No last fragment info */ } #if !FF_FS_READONLY || FF_FS_RPATH != 0 /*------------------------------------------------*/ /* exFAT: Load the object's directory entry block */ /*------------------------------------------------*/ static FRESULT load_obj_xdir ( DIR* dp, /* Blank directory object to be used to access containing direcotry */ const FFOBJID* obj /* Object with its containing directory information */ ) { FRESULT res; /* Open object containing directory */ dp->obj.fs = obj->fs; dp->obj.sclust = obj->c_scl; dp->obj.stat = (BYTE)obj->c_size; dp->obj.objsize = obj->c_size & 0xFFFFFF00; dp->obj.n_frag = 0; dp->blk_ofs = obj->c_ofs; res = dir_sdi(dp, dp->blk_ofs); /* Goto object's entry block */ if (res == FR_OK) { res = load_xdir(dp); /* Load the object's entry block */ } return res; } #endif #if !FF_FS_READONLY /*----------------------------------------*/ /* exFAT: Store the directory entry block */ /*----------------------------------------*/ static FRESULT store_xdir ( DIR* dp /* Pointer to the direcotry object */ ) { FRESULT res; UINT nent; BYTE* dirb = dp->obj.fs->dirbuf; /* Pointer to the direcotry entry block 85+C0+C1s */ /* Create set sum */ st_word(dirb + XDIR_SetSum, xdir_sum(dirb)); nent = dirb[XDIR_NumSec] + 1; /* Store the direcotry entry block to the directory */ res = dir_sdi(dp, dp->blk_ofs); while (res == FR_OK) { res = move_window(dp->obj.fs, dp->sect); if (res != FR_OK) break; mem_cpy(dp->dir, dirb, SZDIRE); dp->obj.fs->wflag = 1; if (--nent == 0) break; dirb += SZDIRE; res = dir_next(dp, 0); } return (res == FR_OK || res == FR_DISK_ERR) ? res : FR_INT_ERR; } /*-------------------------------------------*/ /* exFAT: Create a new directory enrty block */ /*-------------------------------------------*/ static void create_xdir ( BYTE* dirb, /* Pointer to the direcotry entry block buffer */ const WCHAR* lfn /* Pointer to the object name */ ) { UINT i; BYTE nc1, nlen; WCHAR wc; /* Create file-directory and stream-extension entry */ mem_set(dirb, 0, 2 * SZDIRE); dirb[0 * SZDIRE + XDIR_Type] = ET_FILEDIR; dirb[1 * SZDIRE + XDIR_Type] = ET_STREAM; /* Create file-name entries */ i = SZDIRE * 2; /* Top of file_name entries */ nlen = nc1 = 0; wc = 1; do { dirb[i++] = ET_FILENAME; dirb[i++] = 0; do { /* Fill name field */ if (wc != 0 && (wc = lfn[nlen]) != 0) nlen++; /* Get a character if exist */ st_word(dirb + i, wc); /* Store it */ i += 2; } while (i % SZDIRE != 0); nc1++; } while (lfn[nlen]); /* Fill next entry if any char follows */ dirb[XDIR_NumName] = nlen; /* Set name length */ dirb[XDIR_NumSec] = 1 + nc1; /* Set secondary count (C0 + C1s) */ st_word(dirb + XDIR_NameHash, xname_sum(lfn)); /* Set name hash */ } #endif /* !FF_FS_READONLY */ #endif /* FF_FS_EXFAT */ #if FF_FS_MINIMIZE <= 1 || FF_FS_RPATH >= 2 || FF_USE_LABEL || FF_FS_EXFAT /*-----------------------------------------------------------------------*/ /* Read an object from the directory */ /*-----------------------------------------------------------------------*/ #define DIR_READ_FILE(dp) dir_read(dp, 0) #define DIR_READ_LABEL(dp) dir_read(dp, 1) static FRESULT dir_read ( DIR* dp, /* Pointer to the directory object */ int vol /* Filtered by 0:file/directory or 1:volume label */ ) { FRESULT res = FR_NO_FILE; FATFS *fs = dp->obj.fs; BYTE attr, b; #if FF_USE_LFN BYTE ord = 0xFF, sum = 0xFF; #endif while (dp->sect) { res = move_window(fs, dp->sect); if (res != FR_OK) break; b = dp->dir[DIR_Name]; /* Test for the entry type */ if (b == 0) { res = FR_NO_FILE; break; /* Reached to end of the directory */ } #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { /* On the exFAT volume */ if (FF_USE_LABEL && vol) { if (b == ET_VLABEL) break; /* Volume label entry? */ } else { if (b == ET_FILEDIR) { /* Start of the file entry block? */ dp->blk_ofs = dp->dptr; /* Get location of the block */ res = load_xdir(dp); /* Load the entry block */ if (res == FR_OK) { dp->obj.attr = fs->dirbuf[XDIR_Attr] & AM_MASK; /* Get attribute */ } break; } } } else #endif { /* On the FAT/FAT32 volume */ dp->obj.attr = attr = dp->dir[DIR_Attr] & AM_MASK; /* Get attribute */ #if FF_USE_LFN /* LFN configuration */ if (b == DDEM || b == '.' || (int)((attr & ~AM_ARC) == AM_VOL) != vol) { /* An entry without valid data */ ord = 0xFF; } else { if (attr == AM_LFN) { /* An LFN entry is found */ if (b & LLEF) { /* Is it start of an LFN sequence? */ sum = dp->dir[LDIR_Chksum]; b &= (BYTE)~LLEF; ord = b; dp->blk_ofs = dp->dptr; } /* Check LFN validity and capture it */ ord = (b == ord && sum == dp->dir[LDIR_Chksum] && pick_lfn(fs->lfnbuf, dp->dir)) ? ord - 1 : 0xFF; } else { /* An SFN entry is found */ if (ord != 0 || sum != sum_sfn(dp->dir)) { /* Is there a valid LFN? */ dp->blk_ofs = 0xFFFFFFFF; /* It has no LFN. */ } break; } } #else /* Non LFN configuration */ if (b != DDEM && b != '.' && attr != AM_LFN && (int)((attr & ~AM_ARC) == AM_VOL) == vol) { /* Is it a valid entry? */ break; } #endif } res = dir_next(dp, 0); /* Next entry */ if (res != FR_OK) break; } if (res != FR_OK) dp->sect = 0; /* Terminate the read operation on error or EOT */ return res; } #endif /* FF_FS_MINIMIZE <= 1 || FF_USE_LABEL || FF_FS_RPATH >= 2 */ /*-----------------------------------------------------------------------*/ /* Directory handling - Find an object in the directory */ /*-----------------------------------------------------------------------*/ static FRESULT dir_find ( /* FR_OK(0):succeeded, !=0:error */ DIR* dp /* Pointer to the directory object with the file name */ ) { FRESULT res; FATFS *fs = dp->obj.fs; BYTE c; #if FF_USE_LFN BYTE a, ord, sum; #endif res = dir_sdi(dp, 0); /* Rewind directory object */ if (res != FR_OK) return res; #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { /* On the exFAT volume */ BYTE nc; UINT di, ni; WORD hash = xname_sum(fs->lfnbuf); /* Hash value of the name to find */ while ((res = DIR_READ_FILE(dp)) == FR_OK) { /* Read an item */ #if FF_MAX_LFN < 255 if (fs->dirbuf[XDIR_NumName] > FF_MAX_LFN) continue; /* Skip comparison if inaccessible object name */ #endif if (ld_word(fs->dirbuf + XDIR_NameHash) != hash) continue; /* Skip comparison if hash mismatched */ for (nc = fs->dirbuf[XDIR_NumName], di = SZDIRE * 2, ni = 0; nc; nc--, di += 2, ni++) { /* Compare the name */ if ((di % SZDIRE) == 0) di += 2; if (ff_wtoupper(ld_word(fs->dirbuf + di)) != ff_wtoupper(fs->lfnbuf[ni])) break; } if (nc == 0 && !fs->lfnbuf[ni]) break; /* Name matched? */ } return res; } #endif /* On the FAT/FAT32 volume */ #if FF_USE_LFN ord = sum = 0xFF; dp->blk_ofs = 0xFFFFFFFF; /* Reset LFN sequence */ #endif do { res = move_window(fs, dp->sect); if (res != FR_OK) break; c = dp->dir[DIR_Name]; if (c == 0) { res = FR_NO_FILE; break; } /* Reached to end of table */ #if FF_USE_LFN /* LFN configuration */ dp->obj.attr = a = dp->dir[DIR_Attr] & AM_MASK; if (c == DDEM || ((a & AM_VOL) && a != AM_LFN)) { /* An entry without valid data */ ord = 0xFF; dp->blk_ofs = 0xFFFFFFFF; /* Reset LFN sequence */ } else { if (a == AM_LFN) { /* An LFN entry is found */ if (!(dp->fn[NSFLAG] & NS_NOLFN)) { if (c & LLEF) { /* Is it start of LFN sequence? */ sum = dp->dir[LDIR_Chksum]; c &= (BYTE)~LLEF; ord = c; /* LFN start order */ dp->blk_ofs = dp->dptr; /* Start offset of LFN */ } /* Check validity of the LFN entry and compare it with given name */ ord = (c == ord && sum == dp->dir[LDIR_Chksum] && cmp_lfn(fs->lfnbuf, dp->dir)) ? ord - 1 : 0xFF; } } else { /* An SFN entry is found */ if (ord == 0 && sum == sum_sfn(dp->dir)) break; /* LFN matched? */ if (!(dp->fn[NSFLAG] & NS_LOSS) && !mem_cmp(dp->dir, dp->fn, 11)) break; /* SFN matched? */ ord = 0xFF; dp->blk_ofs = 0xFFFFFFFF; /* Reset LFN sequence */ } } #else /* Non LFN configuration */ dp->obj.attr = dp->dir[DIR_Attr] & AM_MASK; if (!(dp->dir[DIR_Attr] & AM_VOL) && !mem_cmp(dp->dir, dp->fn, 11)) break; /* Is it a valid entry? */ #endif res = dir_next(dp, 0); /* Next entry */ } while (res == FR_OK); return res; } #if !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* Register an object to the directory */ /*-----------------------------------------------------------------------*/ static FRESULT dir_register ( /* FR_OK:succeeded, FR_DENIED:no free entry or too many SFN collision, FR_DISK_ERR:disk error */ DIR* dp /* Target directory with object name to be created */ ) { FRESULT res; FATFS *fs = dp->obj.fs; #if FF_USE_LFN /* LFN configuration */ UINT n, nlen, nent; BYTE sn[12], sum; if (dp->fn[NSFLAG] & (NS_DOT | NS_NONAME)) return FR_INVALID_NAME; /* Check name validity */ for (nlen = 0; fs->lfnbuf[nlen]; nlen++) ; /* Get lfn length */ #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { /* On the exFAT volume */ nent = (nlen + 14) / 15 + 2; /* Number of entries to allocate (85+C0+C1s) */ res = dir_alloc(dp, nent); /* Allocate directory entries */ if (res != FR_OK) return res; dp->blk_ofs = dp->dptr - SZDIRE * (nent - 1); /* Set the allocated entry block offset */ if (dp->obj.stat & 4) { /* Has the directory been stretched by new allocation? */ dp->obj.stat &= ~4; res = fill_first_frag(&dp->obj); /* Fill the first fragment on the FAT if needed */ if (res != FR_OK) return res; res = fill_last_frag(&dp->obj, dp->clust, 0xFFFFFFFF); /* Fill the last fragment on the FAT if needed */ if (res != FR_OK) return res; if (dp->obj.sclust != 0) { /* Is it a sub-directory? */ DIR dj; res = load_obj_xdir(&dj, &dp->obj); /* Load the object status */ if (res != FR_OK) return res; dp->obj.objsize += (DWORD)fs->csize * SS(fs); /* Increase the directory size by cluster size */ st_qword(fs->dirbuf + XDIR_FileSize, dp->obj.objsize); /* Update the allocation status */ st_qword(fs->dirbuf + XDIR_ValidFileSize, dp->obj.objsize); fs->dirbuf[XDIR_GenFlags] = dp->obj.stat | 1; res = store_xdir(&dj); /* Store the object status */ if (res != FR_OK) return res; } } create_xdir(fs->dirbuf, fs->lfnbuf); /* Create on-memory directory block to be written later */ return FR_OK; } #endif /* On the FAT/FAT32 volume */ mem_cpy(sn, dp->fn, 12); if (sn[NSFLAG] & NS_LOSS) { /* When LFN is out of 8.3 format, generate a numbered name */ dp->fn[NSFLAG] = NS_NOLFN; /* Find only SFN */ for (n = 1; n < 100; n++) { gen_numname(dp->fn, sn, fs->lfnbuf, n); /* Generate a numbered name */ res = dir_find(dp); /* Check if the name collides with existing SFN */ if (res != FR_OK) break; } if (n == 100) return FR_DENIED; /* Abort if too many collisions */ if (res != FR_NO_FILE) return res; /* Abort if the result is other than 'not collided' */ dp->fn[NSFLAG] = sn[NSFLAG]; } /* Create an SFN with/without LFNs. */ nent = (sn[NSFLAG] & NS_LFN) ? (nlen + 12) / 13 + 1 : 1; /* Number of entries to allocate */ res = dir_alloc(dp, nent); /* Allocate entries */ if (res == FR_OK && --nent) { /* Set LFN entry if needed */ res = dir_sdi(dp, dp->dptr - nent * SZDIRE); if (res == FR_OK) { sum = sum_sfn(dp->fn); /* Checksum value of the SFN tied to the LFN */ do { /* Store LFN entries in bottom first */ res = move_window(fs, dp->sect); if (res != FR_OK) break; put_lfn(fs->lfnbuf, dp->dir, (BYTE)nent, sum); fs->wflag = 1; res = dir_next(dp, 0); /* Next entry */ } while (res == FR_OK && --nent); } } #else /* Non LFN configuration */ res = dir_alloc(dp, 1); /* Allocate an entry for SFN */ #endif /* Set SFN entry */ if (res == FR_OK) { res = move_window(fs, dp->sect); if (res == FR_OK) { mem_set(dp->dir, 0, SZDIRE); /* Clean the entry */ mem_cpy(dp->dir + DIR_Name, dp->fn, 11); /* Put SFN */ #if FF_USE_LFN dp->dir[DIR_NTres] = dp->fn[NSFLAG] & (NS_BODY | NS_EXT); /* Put NT flag */ #endif fs->wflag = 1; } } return res; } #endif /* !FF_FS_READONLY */ #if !FF_FS_READONLY && FF_FS_MINIMIZE == 0 /*-----------------------------------------------------------------------*/ /* Remove an object from the directory */ /*-----------------------------------------------------------------------*/ static FRESULT dir_remove ( /* FR_OK:Succeeded, FR_DISK_ERR:A disk error */ DIR* dp /* Directory object pointing the entry to be removed */ ) { FRESULT res; FATFS *fs = dp->obj.fs; #if FF_USE_LFN /* LFN configuration */ DWORD last = dp->dptr; res = (dp->blk_ofs == 0xFFFFFFFF) ? FR_OK : dir_sdi(dp, dp->blk_ofs); /* Goto top of the entry block if LFN is exist */ if (res == FR_OK) { do { res = move_window(fs, dp->sect); if (res != FR_OK) break; if (FF_FS_EXFAT && fs->fs_type == FS_EXFAT) { /* On the exFAT volume */ dp->dir[XDIR_Type] &= 0x7F; /* Clear the entry InUse flag. */ } else { /* On the FAT/FAT32 volume */ dp->dir[DIR_Name] = DDEM; /* Mark the entry 'deleted'. */ } fs->wflag = 1; if (dp->dptr >= last) break; /* If reached last entry then all entries of the object has been deleted. */ res = dir_next(dp, 0); /* Next entry */ } while (res == FR_OK); if (res == FR_NO_FILE) res = FR_INT_ERR; } #else /* Non LFN configuration */ res = move_window(fs, dp->sect); if (res == FR_OK) { dp->dir[DIR_Name] = DDEM; /* Mark the entry 'deleted'.*/ fs->wflag = 1; } #endif return res; } #endif /* !FF_FS_READONLY && FF_FS_MINIMIZE == 0 */ #if FF_FS_MINIMIZE <= 1 || FF_FS_RPATH >= 2 /*-----------------------------------------------------------------------*/ /* Get file information from directory entry */ /*-----------------------------------------------------------------------*/ static void get_fileinfo ( DIR* dp, /* Pointer to the directory object */ FILINFO* fno /* Pointer to the file information to be filled */ ) { UINT si, di; #if FF_USE_LFN BYTE lcf; WCHAR wc, hs; FATFS *fs = dp->obj.fs; #else TCHAR c; #endif fno->fname[0] = 0; /* Invaidate file info */ if (dp->sect == 0) return; /* Exit if read pointer has reached end of directory */ #if FF_USE_LFN /* LFN configuration */ #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { /* On the exFAT volume */ get_xfileinfo(fs->dirbuf, fno); return; } else #endif { /* On the FAT/FAT32 volume */ if (dp->blk_ofs != 0xFFFFFFFF) { /* Get LFN if available */ si = di = hs = 0; while (fs->lfnbuf[si] != 0) { wc = fs->lfnbuf[si++]; /* Get an LFN character (UTF-16) */ if (hs == 0 && IsSurrogate(wc)) { /* Is it a surrogate? */ hs = wc; continue; /* Get low surrogate */ } wc = put_utf((DWORD)hs << 16 | wc, &fno->fname[di], FF_LFN_BUF - di); /* Store it in UTF-16 or UTF-8 encoding */ if (wc == 0) { di = 0; break; } /* Invalid char or buffer overflow? */ di += wc; hs = 0; } if (hs != 0) di = 0; /* Broken surrogate pair? */ fno->fname[di] = 0; /* Terminate the LFN (null string means LFN is invalid) */ } } si = di = 0; while (si < 11) { /* Get SFN from SFN entry */ wc = dp->dir[si++]; /* Get a char */ if (wc == ' ') continue; /* Skip padding spaces */ if (wc == RDDEM) wc = DDEM; /* Restore replaced DDEM character */ if (si == 9 && di < FF_SFN_BUF) fno->altname[di++] = '.'; /* Insert a . if extension is exist */ #if FF_LFN_UNICODE >= 1 /* Unicode output */ if (dbc_1st((BYTE)wc) && si != 8 && si != 11 && dbc_2nd(dp->dir[si])) { /* Make a DBC if needed */ wc = wc << 8 | dp->dir[si++]; } wc = ff_oem2uni(wc, CODEPAGE); /* ANSI/OEM -> Unicode */ if (wc == 0) { di = 0; break; } /* Wrong char in the current code page? */ wc = put_utf(wc, &fno->altname[di], FF_SFN_BUF - di); /* Store it in Unicode */ if (wc == 0) { di = 0; break; } /* Buffer overflow? */ di += wc; #else /* ANSI/OEM output */ fno->altname[di++] = (TCHAR)wc; /* Store it without any conversion */ #endif } fno->altname[di] = 0; /* Terminate the SFN (null string means SFN is invalid) */ if (fno->fname[0] == 0) { /* If LFN is invalid, altname[] needs to be copied to fname[] */ if (di == 0) { /* If LFN and SFN both are invalid, this object is inaccesible */ fno->fname[di++] = '?'; } else { for (si = di = 0, lcf = NS_BODY; fno->altname[si]; si++, di++) { /* Copy altname[] to fname[] with case information */ wc = (WCHAR)fno->altname[si]; if (wc == '.') lcf = NS_EXT; if (IsUpper(wc) && (dp->dir[DIR_NTres] & lcf)) wc += 0x20; fno->fname[di] = (TCHAR)wc; } } fno->fname[di] = 0; /* Terminate the LFN */ if (!dp->dir[DIR_NTres]) fno->altname[0] = 0; /* Altname is not needed if neither LFN nor case info is exist. */ } #else /* Non-LFN configuration */ si = di = 0; while (si < 11) { /* Copy name body and extension */ c = (TCHAR)dp->dir[si++]; if (c == ' ') continue; /* Skip padding spaces */ if (c == RDDEM) c = DDEM; /* Restore replaced DDEM character */ if (si == 9) fno->fname[di++] = '.';/* Insert a . if extension is exist */ fno->fname[di++] = c; } fno->fname[di] = 0; #endif fno->fattrib = dp->dir[DIR_Attr]; /* Attribute */ fno->fsize = ld_dword(dp->dir + DIR_FileSize); /* Size */ fno->ftime = ld_word(dp->dir + DIR_ModTime + 0); /* Time */ fno->fdate = ld_word(dp->dir + DIR_ModTime + 2); /* Date */ } #endif /* FF_FS_MINIMIZE <= 1 || FF_FS_RPATH >= 2 */ #if FF_USE_FIND && FF_FS_MINIMIZE <= 1 /*-----------------------------------------------------------------------*/ /* Pattern matching */ /*-----------------------------------------------------------------------*/ static DWORD get_achar ( /* Get a character and advances ptr */ const TCHAR** ptr /* Pointer to pointer to the ANSI/OEM or Unicode string */ ) { DWORD chr; #if FF_USE_LFN && FF_LFN_UNICODE >= 1 /* Unicode input */ chr = tchar2uni(ptr); if (chr == 0xFFFFFFFF) chr = 0; /* Wrong UTF encoding is recognized as end of the string */ chr = ff_wtoupper(chr); #else /* ANSI/OEM input */ chr = (BYTE)*(*ptr)++; /* Get a byte */ if (IsLower(chr)) chr -= 0x20; /* To upper ASCII char */ #if FF_CODE_PAGE == 0 if (ExCvt && chr >= 0x80) chr = ExCvt[chr - 0x80]; /* To upper SBCS extended char */ #elif FF_CODE_PAGE < 900 if (chr >= 0x80) chr = ExCvt[chr - 0x80]; /* To upper SBCS extended char */ #endif #if FF_CODE_PAGE == 0 || FF_CODE_PAGE >= 900 if (dbc_1st((BYTE)chr)) { /* Get DBC 2nd byte if needed */ chr = dbc_2nd((BYTE)**ptr) ? chr << 8 | (BYTE)*(*ptr)++ : 0; } #endif #endif return chr; } static int pattern_matching ( /* 0:not matched, 1:matched */ const TCHAR* pat, /* Matching pattern */ const TCHAR* nam, /* String to be tested */ int skip, /* Number of pre-skip chars (number of ?s) */ int inf /* Infinite search (* specified) */ ) { const TCHAR *pp, *np; DWORD pc, nc; int nm, nx; while (skip--) { /* Pre-skip name chars */ if (!get_achar(&nam)) return 0; /* Branch mismatched if less name chars */ } if (*pat == 0 && inf) return 1; /* (short circuit) */ do { pp = pat; np = nam; /* Top of pattern and name to match */ for (;;) { if (*pp == '?' || *pp == '*') { /* Wildcard? */ nm = nx = 0; do { /* Analyze the wildcard block */ if (*pp++ == '?') nm++; else nx = 1; } while (*pp == '?' || *pp == '*'); if (pattern_matching(pp, np, nm, nx)) return 1; /* Test new branch (recurs upto number of wildcard blocks in the pattern) */ nc = *np; break; /* Branch mismatched */ } pc = get_achar(&pp); /* Get a pattern char */ nc = get_achar(&np); /* Get a name char */ if (pc != nc) break; /* Branch mismatched? */ if (pc == 0) return 1; /* Branch matched? (matched at end of both strings) */ } get_achar(&nam); /* nam++ */ } while (inf && nc); /* Retry until end of name if infinite search is specified */ return 0; } #endif /* FF_USE_FIND && FF_FS_MINIMIZE <= 1 */ /*-----------------------------------------------------------------------*/ /* Pick a top segment and create the object name in directory form */ /*-----------------------------------------------------------------------*/ static FRESULT create_name ( /* FR_OK: successful, FR_INVALID_NAME: could not create */ DIR* dp, /* Pointer to the directory object */ const TCHAR** path /* Pointer to pointer to the segment in the path string */ ) { #if FF_USE_LFN /* LFN configuration */ BYTE b, cf; WCHAR wc, *lfn; DWORD uc; UINT i, ni, si, di; const TCHAR *p; /* Create LFN into LFN working buffer */ p = *path; lfn = dp->obj.fs->lfnbuf; di = 0; for (;;) { uc = tchar2uni(&p); /* Get a character */ if (uc == 0xFFFFFFFF) return FR_INVALID_NAME; /* Invalid code or UTF decode error */ if (uc >= 0x10000) lfn[di++] = (WCHAR)(uc >> 16); /* Store high surrogate if needed */ wc = (WCHAR)uc; if (wc < ' ' || wc == '/' || wc == '\\') break; /* Break if end of the path or a separator is found */ if (wc < 0x80 && chk_chr("\"*:<>\?|\x7F", wc)) return FR_INVALID_NAME; /* Reject illegal characters for LFN */ if (di >= FF_MAX_LFN) return FR_INVALID_NAME; /* Reject too long name */ lfn[di++] = wc; /* Store the Unicode character */ } while (*p == '/' || *p == '\\') p++; /* Skip duplicated separators if exist */ *path = p; /* Return pointer to the next segment */ cf = (wc < ' ') ? NS_LAST : 0; /* Set last segment flag if end of the path */ #if FF_FS_RPATH != 0 if ((di == 1 && lfn[di - 1] == '.') || (di == 2 && lfn[di - 1] == '.' && lfn[di - 2] == '.')) { /* Is this segment a dot name? */ lfn[di] = 0; for (i = 0; i < 11; i++) { /* Create dot name for SFN entry */ dp->fn[i] = (i < di) ? '.' : ' '; } dp->fn[i] = cf | NS_DOT; /* This is a dot entry */ return FR_OK; } #endif while (di) { /* Snip off trailing spaces and dots if exist */ wc = lfn[di - 1]; if (wc != ' ' && wc != '.') break; di--; } lfn[di] = 0; /* LFN is created into the working buffer */ if (di == 0) return FR_INVALID_NAME; /* Reject null name */ /* Create SFN in directory form */ for (si = 0; lfn[si] == ' '; si++) ; /* Remove leading spaces */ if (si > 0 || lfn[si] == '.') cf |= NS_LOSS | NS_LFN; /* Is there any leading space or dot? */ while (di > 0 && lfn[di - 1] != '.') di--; /* Find last dot (di<=si: no extension) */ mem_set(dp->fn, ' ', 11); i = b = 0; ni = 8; for (;;) { wc = lfn[si++]; /* Get an LFN character */ if (wc == 0) break; /* Break on end of the LFN */ if (wc == ' ' || (wc == '.' && si != di)) { /* Remove embedded spaces and dots */ cf |= NS_LOSS | NS_LFN; continue; } if (i >= ni || si == di) { /* End of field? */ if (ni == 11) { /* Name extension overflow? */ cf |= NS_LOSS | NS_LFN; break; } if (si != di) cf |= NS_LOSS | NS_LFN; /* Name body overflow? */ if (si > di) break; /* No name extension? */ si = di; i = 8; ni = 11; b <<= 2; /* Enter name extension */ continue; } if (wc >= 0x80) { /* Is this a non-ASCII character? */ cf |= NS_LFN; /* LFN entry needs to be created */ #if FF_CODE_PAGE == 0 if (ExCvt) { /* At SBCS */ wc = ff_uni2oem(wc, CODEPAGE); /* Unicode ==> ANSI/OEM code */ if (wc & 0x80) wc = ExCvt[wc & 0x7F]; /* Convert extended character to upper (SBCS) */ } else { /* At DBCS */ wc = ff_uni2oem(ff_wtoupper(wc), CODEPAGE); /* Unicode ==> Upper convert ==> ANSI/OEM code */ } #elif FF_CODE_PAGE < 900 /* SBCS cfg */ wc = ff_uni2oem(wc, CODEPAGE); /* Unicode ==> ANSI/OEM code */ if (wc & 0x80) wc = ExCvt[wc & 0x7F]; /* Convert extended character to upper (SBCS) */ #else /* DBCS cfg */ wc = ff_uni2oem(ff_wtoupper(wc), CODEPAGE); /* Unicode ==> Upper convert ==> ANSI/OEM code */ #endif } if (wc >= 0x100) { /* Is this a DBC? */ if (i >= ni - 1) { /* Field overflow? */ cf |= NS_LOSS | NS_LFN; i = ni; continue; /* Next field */ } dp->fn[i++] = (BYTE)(wc >> 8); /* Put 1st byte */ } else { /* SBC */ if (wc == 0 || chk_chr("+,;=[]", wc)) { /* Replace illegal characters for SFN if needed */ wc = '_'; cf |= NS_LOSS | NS_LFN;/* Lossy conversion */ } else { if (IsUpper(wc)) { /* ASCII upper case? */ b |= 2; } if (IsLower(wc)) { /* ASCII lower case? */ b |= 1; wc -= 0x20; } } } dp->fn[i++] = (BYTE)wc; } if (dp->fn[0] == DDEM) dp->fn[0] = RDDEM; /* If the first character collides with DDEM, replace it with RDDEM */ if (ni == 8) b <<= 2; /* Shift capital flags if no extension */ if ((b & 0x0C) == 0x0C || (b & 0x03) == 0x03) cf |= NS_LFN; /* LFN entry needs to be created if composite capitals */ if (!(cf & NS_LFN)) { /* When LFN is in 8.3 format without extended character, NT flags are created */ if (b & 0x01) cf |= NS_EXT; /* NT flag (Extension has small capital letters only) */ if (b & 0x04) cf |= NS_BODY; /* NT flag (Body has small capital letters only) */ } dp->fn[NSFLAG] = cf; /* SFN is created into dp->fn[] */ return FR_OK; #else /* FF_USE_LFN : Non-LFN configuration */ BYTE c, d, *sfn; UINT ni, si, i; const char *p; /* Create file name in directory form */ p = *path; sfn = dp->fn; mem_set(sfn, ' ', 11); si = i = 0; ni = 8; #if FF_FS_RPATH != 0 if (p[si] == '.') { /* Is this a dot entry? */ for (;;) { c = (BYTE)p[si++]; if (c != '.' || si >= 3) break; sfn[i++] = c; } if (c != '/' && c != '\\' && c > ' ') return FR_INVALID_NAME; *path = p + si; /* Return pointer to the next segment */ sfn[NSFLAG] = (c <= ' ') ? NS_LAST | NS_DOT : NS_DOT; /* Set last segment flag if end of the path */ return FR_OK; } #endif for (;;) { c = (BYTE)p[si++]; /* Get a byte */ if (c <= ' ') break; /* Break if end of the path name */ if (c == '/' || c == '\\') { /* Break if a separator is found */ while (p[si] == '/' || p[si] == '\\') si++; /* Skip duplicated separator if exist */ break; } if (c == '.' || i >= ni) { /* End of body or field overflow? */ if (ni == 11 || c != '.') return FR_INVALID_NAME; /* Field overflow or invalid dot? */ i = 8; ni = 11; /* Enter file extension field */ continue; } #if FF_CODE_PAGE == 0 if (ExCvt && c >= 0x80) { /* Is SBC extended character? */ c = ExCvt[c & 0x7F]; /* To upper SBC extended character */ } #elif FF_CODE_PAGE < 900 if (c >= 0x80) { /* Is SBC extended character? */ c = ExCvt[c & 0x7F]; /* To upper SBC extended character */ } #endif if (dbc_1st(c)) { /* Check if it is a DBC 1st byte */ d = (BYTE)p[si++]; /* Get 2nd byte */ if (!dbc_2nd(d) || i >= ni - 1) return FR_INVALID_NAME; /* Reject invalid DBC */ sfn[i++] = c; sfn[i++] = d; } else { /* SBC */ if (chk_chr("\"*+,:;<=>\?[]|\x7F", c)) return FR_INVALID_NAME; /* Reject illegal chrs for SFN */ if (IsLower(c)) c -= 0x20; /* To upper */ sfn[i++] = c; } } *path = p + si; /* Return pointer to the next segment */ if (i == 0) return FR_INVALID_NAME; /* Reject nul string */ if (sfn[0] == DDEM) sfn[0] = RDDEM; /* If the first character collides with DDEM, replace it with RDDEM */ sfn[NSFLAG] = (c <= ' ') ? NS_LAST : 0; /* Set last segment flag if end of the path */ return FR_OK; #endif /* FF_USE_LFN */ } /*-----------------------------------------------------------------------*/ /* Follow a file path */ /*-----------------------------------------------------------------------*/ static FRESULT follow_path ( /* FR_OK(0): successful, !=0: error code */ DIR* dp, /* Directory object to return last directory and found object */ const TCHAR* path /* Full-path string to find a file or directory */ ) { FRESULT res; BYTE ns; FATFS *fs = dp->obj.fs; #if FF_FS_RPATH != 0 if (*path != '/' && *path != '\\') { /* Without heading separator */ dp->obj.sclust = fs->cdir; /* Start from current directory */ } else #endif { /* With heading separator */ while (*path == '/' || *path == '\\') path++; /* Strip heading separator */ dp->obj.sclust = 0; /* Start from root directory */ } #if FF_FS_EXFAT dp->obj.n_frag = 0; /* Invalidate last fragment counter of the object */ #if FF_FS_RPATH != 0 if (fs->fs_type == FS_EXFAT && dp->obj.sclust) { /* exFAT: Retrieve the sub-directory's status */ DIR dj; dp->obj.c_scl = fs->cdc_scl; dp->obj.c_size = fs->cdc_size; dp->obj.c_ofs = fs->cdc_ofs; res = load_obj_xdir(&dj, &dp->obj); if (res != FR_OK) return res; dp->obj.objsize = ld_dword(fs->dirbuf + XDIR_FileSize); dp->obj.stat = fs->dirbuf[XDIR_GenFlags] & 2; } #endif #endif if ((UINT)*path < ' ') { /* Null path name is the origin directory itself */ dp->fn[NSFLAG] = NS_NONAME; res = dir_sdi(dp, 0); } else { /* Follow path */ for (;;) { res = create_name(dp, &path); /* Get a segment name of the path */ if (res != FR_OK) break; res = dir_find(dp); /* Find an object with the segment name */ ns = dp->fn[NSFLAG]; if (res != FR_OK) { /* Failed to find the object */ if (res == FR_NO_FILE) { /* Object is not found */ if (FF_FS_RPATH && (ns & NS_DOT)) { /* If dot entry is not exist, stay there */ if (!(ns & NS_LAST)) continue; /* Continue to follow if not last segment */ dp->fn[NSFLAG] = NS_NONAME; res = FR_OK; } else { /* Could not find the object */ if (!(ns & NS_LAST)) res = FR_NO_PATH; /* Adjust error code if not last segment */ } } break; } if (ns & NS_LAST) break; /* Last segment matched. Function completed. */ /* Get into the sub-directory */ if (!(dp->obj.attr & AM_DIR)) { /* It is not a sub-directory and cannot follow */ res = FR_NO_PATH; break; } #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { /* Save containing directory information for next dir */ dp->obj.c_scl = dp->obj.sclust; dp->obj.c_size = ((DWORD)dp->obj.objsize & 0xFFFFFF00) | dp->obj.stat; dp->obj.c_ofs = dp->blk_ofs; init_alloc_info(fs, &dp->obj); /* Open next directory */ } else #endif { dp->obj.sclust = ld_clust(fs, fs->win + dp->dptr % SS(fs)); /* Open next directory */ } } } return res; } /*-----------------------------------------------------------------------*/ /* Get logical drive number from path name */ /*-----------------------------------------------------------------------*/ static int get_ldnumber ( /* Returns logical drive number (-1:invalid drive number or null pointer) */ const TCHAR** path /* Pointer to pointer to the path name */ ) { const TCHAR *tp, *tt; TCHAR tc; int i, vol = -1; #if FF_STR_VOLUME_ID /* Find string volume ID */ const char *sp; char c; #endif tt = tp = *path; if (!tp) return vol; /* Invalid path name? */ do tc = *tt++; while ((UINT)tc >= (FF_USE_LFN ? ' ' : '!') && tc != ':'); /* Find a colon in the path */ if (tc == ':') { /* DOS/Windows style volume ID? */ i = FF_VOLUMES; if (IsDigit(*tp) && tp + 2 == tt) { /* Is there a numeric volume ID + colon? */ i = (int)*tp - '0'; /* Get the LD number */ } #if FF_STR_VOLUME_ID == 1 /* Arbitrary string is enabled */ else { i = 0; do { sp = VolumeStr[i]; tp = *path; /* This string volume ID and path name */ do { /* Compare the volume ID with path name */ c = *sp++; tc = *tp++; if (IsLower(c)) c -= 0x20; if (IsLower(tc)) tc -= 0x20; } while (c && (TCHAR)c == tc); } while ((c || tp != tt) && ++i < FF_VOLUMES); /* Repeat for each id until pattern match */ } #endif if (i < FF_VOLUMES) { /* If a volume ID is found, get the drive number and strip it */ vol = i; /* Drive number */ *path = tt; /* Snip the drive prefix off */ } return vol; } #if FF_STR_VOLUME_ID == 2 /* Unix style volume ID is enabled */ if (*tp == '/') { i = 0; do { sp = VolumeStr[i]; tp = *path; /* This string volume ID and path name */ do { /* Compare the volume ID with path name */ c = *sp++; tc = *(++tp); if (IsLower(c)) c -= 0x20; if (IsLower(tc)) tc -= 0x20; } while (c && (TCHAR)c == tc); } while ((c || (tc != '/' && (UINT)tc >= (FF_USE_LFN ? ' ' : '!'))) && ++i < FF_VOLUMES); /* Repeat for each ID until pattern match */ if (i < FF_VOLUMES) { /* If a volume ID is found, get the drive number and strip it */ vol = i; /* Drive number */ *path = tp; /* Snip the drive prefix off */ return vol; } } #endif /* No drive prefix is found */ #if FF_FS_RPATH != 0 vol = CurrVol; /* Default drive is current drive */ #else vol = 0; /* Default drive is 0 */ #endif return vol; /* Return the default drive */ } /*-----------------------------------------------------------------------*/ /* Load a sector and check if it is an FAT VBR */ /*-----------------------------------------------------------------------*/ static BYTE check_fs ( /* 0:FAT, 1:exFAT, 2:Valid BS but not FAT, 3:Not a BS, 4:Disk error */ FATFS* fs, /* Filesystem object */ DWORD sect /* Sector# (lba) to load and check if it is an FAT-VBR or not */ ) { fs->wflag = 0; fs->winsect = 0xFFFFFFFF; /* Invaidate window */ if (move_window(fs, sect) != FR_OK) return 4; /* Load boot record */ if (ld_word(fs->win + BS_55AA) != 0xAA55) return 3; /* Check boot record signature (always here regardless of the sector size) */ #if FF_FS_EXFAT if (!mem_cmp(fs->win + BS_JmpBoot, "\xEB\x76\x90" "EXFAT ", 11)) return 1; /* Check if exFAT VBR */ #endif if (fs->win[BS_JmpBoot] == 0xE9 || fs->win[BS_JmpBoot] == 0xEB || fs->win[BS_JmpBoot] == 0xE8) { /* Valid JumpBoot code? */ if (!mem_cmp(fs->win + BS_FilSysType, "FAT", 3)) return 0; /* Is it an FAT VBR? */ if (!mem_cmp(fs->win + BS_FilSysType32, "FAT32", 5)) return 0; /* Is it an FAT32 VBR? */ } return 2; /* Valid BS but not FAT */ } /*-----------------------------------------------------------------------*/ /* Determine logical drive number and mount the volume if needed */ /*-----------------------------------------------------------------------*/ static FRESULT find_volume ( /* FR_OK(0): successful, !=0: an error occurred */ const TCHAR** path, /* Pointer to pointer to the path name (drive number) */ FATFS** rfs, /* Pointer to pointer to the found filesystem object */ BYTE mode /* !=0: Check write protection for write access */ ) { BYTE fmt, *pt; int vol; DSTATUS stat; DWORD bsect, fasize, tsect, sysect, nclst, szbfat, br[4]; WORD nrsv; FATFS *fs; UINT i; /* Get logical drive number */ *rfs = 0; vol = get_ldnumber(path); if (vol < 0) return FR_INVALID_DRIVE; /* Check if the filesystem object is valid or not */ fs = FatFs[vol]; /* Get pointer to the filesystem object */ if (!fs) return FR_NOT_ENABLED; /* Is the filesystem object available? */ #if FF_FS_REENTRANT if (!lock_fs(fs)) return FR_TIMEOUT; /* Lock the volume */ #endif *rfs = fs; /* Return pointer to the filesystem object */ mode &= (BYTE)~FA_READ; /* Desired access mode, write access or not */ if (fs->fs_type != 0) { /* If the volume has been mounted */ stat = disk_status(fs->pdrv); if (!(stat & STA_NOINIT)) { /* and the physical drive is kept initialized */ if (!FF_FS_READONLY && mode && (stat & STA_PROTECT)) { /* Check write protection if needed */ return FR_WRITE_PROTECTED; } return FR_OK; /* The filesystem object is valid */ } } /* The filesystem object is not valid. */ /* Following code attempts to mount the volume. (analyze BPB and initialize the filesystem object) */ fs->fs_type = 0; /* Clear the filesystem object */ fs->part_type = 0; /* Clear the Partition object */ fs->pdrv = LD2PD(vol); /* Bind the logical drive and a physical drive */ stat = disk_initialize(fs->pdrv); /* Initialize the physical drive */ if (stat & STA_NOINIT) { /* Check if the initialization succeeded */ return FR_NOT_READY; /* Failed to initialize due to no medium or hard error */ } if (!FF_FS_READONLY && mode && (stat & STA_PROTECT)) { /* Check disk write protection if needed */ return FR_WRITE_PROTECTED; } #if FF_MAX_SS != FF_MIN_SS /* Get sector size (multiple sector size cfg only) */ if (disk_ioctl(fs->pdrv, GET_SECTOR_SIZE, &SS(fs)) != RES_OK) return FR_DISK_ERR; if (SS(fs) > FF_MAX_SS || SS(fs) < FF_MIN_SS || (SS(fs) & (SS(fs) - 1))) return FR_DISK_ERR; #endif /* Find an FAT partition on the drive. Supports only generic partitioning rules, FDISK (MBR) and SFD (w/o partition). */ bsect = 0; fmt = check_fs(fs, bsect); /* Load sector 0 and check if it is an FAT-VBR as SFD */ if (fmt == 2 || (fmt < 2 && LD2PT(vol) != 0)) { /* Not an FAT-VBR or forced partition number */ for (i = 0; i < 4; i++) { /* Get partition offset */ pt = fs->win + (MBR_Table + i * SZ_PTE); br[i] = pt[PTE_System] ? ld_dword(pt + PTE_StLba) : 0; } i = LD2PT(vol); /* Partition number: 0:auto, 1-4:forced */ if (i != 0) i--; do { /* Find an FAT volume */ bsect = br[i]; fmt = bsect ? check_fs(fs, bsect) : 3; /* Check the partition */ } while (LD2PT(vol) == 0 && fmt >= 2 && ++i < 4); } if (fmt == 4) { EFSPRINTF("BRNL"); return FR_DISK_ERR; /* An error occured in the disk I/O layer */ } #if FF_SIMPLE_GPT if (fmt >= 2) { /* If GPT Check the first partition */ gpt_header_t *gpt_header = (gpt_header_t *)fs->win; if (move_window(fs, 1) != FR_OK) return FR_DISK_ERR; if (!mem_cmp(&gpt_header->signature, "EFI PART", 8)) { if (move_window(fs, gpt_header->part_ent_lba) != FR_OK) return FR_DISK_ERR; gpt_entry_t *gpt_entry = (gpt_entry_t *)fs->win; fs->part_type = 1; bsect = gpt_entry->lba_start; fmt = bsect ? check_fs(fs, bsect) : 3; /* Check the partition */ } } #endif if (fmt >= 2) { EFSPRINTF("NOFAT"); return FR_NO_FILESYSTEM; /* No FAT volume is found */ } /* An FAT volume is found (bsect). Following code initializes the filesystem object */ #if FF_FS_EXFAT if (fmt == 1) { QWORD maxlba; DWORD so, cv, bcl; for (i = BPB_ZeroedEx; i < BPB_ZeroedEx + 53 && fs->win[i] == 0; i++) ; /* Check zero filler */ if (i < BPB_ZeroedEx + 53) return FR_NO_FILESYSTEM; if (ld_word(fs->win + BPB_FSVerEx) != 0x100) return FR_NO_FILESYSTEM; /* Check exFAT version (must be version 1.0) */ if (1 << fs->win[BPB_BytsPerSecEx] != SS(fs)) { /* (BPB_BytsPerSecEx must be equal to the physical sector size) */ EFSPRINTF("EXSPS"); return FR_NO_FILESYSTEM; } maxlba = ld_qword(fs->win + BPB_TotSecEx) + bsect; /* Last LBA + 1 of the volume */ if (maxlba >= 0x100000000) return FR_NO_FILESYSTEM; /* (It cannot be handled in 32-bit LBA) */ fs->fsize = ld_dword(fs->win + BPB_FatSzEx); /* Number of sectors per FAT */ fs->n_fats = fs->win[BPB_NumFATsEx]; /* Number of FATs */ if (fs->n_fats != 1) { EFSPRINTF("EXFNF"); return FR_NO_FILESYSTEM; /* (Supports only 1 FAT) */ } fs->csize = 1 << fs->win[BPB_SecPerClusEx]; /* Cluster size */ if (fs->csize == 0) return FR_NO_FILESYSTEM; /* (Must be 1..32768) */ nclst = ld_dword(fs->win + BPB_NumClusEx); /* Number of clusters */ if (nclst > MAX_EXFAT) return FR_NO_FILESYSTEM; /* (Too many clusters) */ fs->n_fatent = nclst + 2; /* Boundaries and Limits */ fs->volbase = bsect; fs->database = bsect + ld_dword(fs->win + BPB_DataOfsEx); fs->fatbase = bsect + ld_dword(fs->win + BPB_FatOfsEx); if (maxlba < (QWORD)fs->database + nclst * fs->csize) return FR_NO_FILESYSTEM; /* (Volume size must not be smaller than the size requiered) */ fs->dirbase = ld_dword(fs->win + BPB_RootClusEx); /* Get bitmap location and check if it is contiguous (implementation assumption) */ so = i = 0; for (;;) { /* Find the bitmap entry in the root directory (in only first cluster) */ if (i == 0) { if (so >= fs->csize) return FR_NO_FILESYSTEM; /* Not found? */ if (move_window(fs, clst2sect(fs, fs->dirbase) + so) != FR_OK) { EFSPRINTF("EXBM1C"); return FR_DISK_ERR; } so++; } if (fs->win[i] == ET_BITMAP) break; /* Is it a bitmap entry? */ i = (i + SZDIRE) % SS(fs); /* Next entry */ } bcl = ld_dword(fs->win + i + 20); /* Bitmap cluster */ if (bcl < 2 || bcl >= fs->n_fatent) { EFSPRINTF("EXBMM"); return FR_NO_FILESYSTEM; } fs->bitbase = fs->database + fs->csize * (bcl - 2); /* Bitmap sector */ for (;;) { /* Check if bitmap is contiguous */ if (move_window(fs, fs->fatbase + bcl / (SS(fs) / 4)) != FR_OK) return FR_DISK_ERR; cv = ld_dword(fs->win + bcl % (SS(fs) / 4) * 4); if (cv == 0xFFFFFFFF) break; /* Last link? */ if (cv != ++bcl) { EFSPRINTF("EXBMM"); return FR_NO_FILESYSTEM; /* Fragmented? */ } } #if !FF_FS_READONLY fs->last_clst = fs->free_clst = 0xFFFFFFFF; /* Initialize cluster allocation information */ #endif fmt = FS_EXFAT; /* FAT sub-type */ } else #endif /* FF_FS_EXFAT */ { if (ld_word(fs->win + BPB_BytsPerSec) != SS(fs)) { EFSPRINTF("32SPS"); return FR_NO_FILESYSTEM; /* (BPB_BytsPerSec must be equal to the physical sector size) */ } fasize = ld_word(fs->win + BPB_FATSz16); /* Number of sectors per FAT */ if (fasize == 0) fasize = ld_dword(fs->win + BPB_FATSz32); fs->fsize = fasize; fs->n_fats = fs->win[BPB_NumFATs]; /* Number of FATs */ if (fs->n_fats != 1 && fs->n_fats != 2) return FR_NO_FILESYSTEM; /* (Must be 1 or 2) */ fasize *= fs->n_fats; /* Number of sectors for FAT area */ fs->csize = fs->win[BPB_SecPerClus]; /* Cluster size */ if (fs->csize == 0 || (fs->csize & (fs->csize - 1))) return FR_NO_FILESYSTEM; /* (Must be power of 2) */ fs->n_rootdir = ld_word(fs->win + BPB_RootEntCnt); /* Number of root directory entries */ if (fs->n_rootdir % (SS(fs) / SZDIRE)) return FR_NO_FILESYSTEM; /* (Must be sector aligned) */ tsect = ld_word(fs->win + BPB_TotSec16); /* Number of sectors on the volume */ if (tsect == 0) tsect = ld_dword(fs->win + BPB_TotSec32); nrsv = ld_word(fs->win + BPB_RsvdSecCnt); /* Number of reserved sectors */ if (nrsv == 0) return FR_NO_FILESYSTEM; /* (Must not be 0) */ /* Determine the FAT sub type */ sysect = nrsv + fasize + fs->n_rootdir / (SS(fs) / SZDIRE); /* RSV + FAT + DIR */ if (tsect < sysect) return FR_NO_FILESYSTEM; /* (Invalid volume size) */ nclst = (tsect - sysect) / fs->csize; /* Number of clusters */ if (nclst == 0) return FR_NO_FILESYSTEM; /* (Invalid volume size) */ fmt = 0; if (nclst <= MAX_FAT32) fmt = FS_FAT32; if (nclst <= MAX_FAT16) fmt = FS_FAT16; if (nclst <= MAX_FAT12) fmt = FS_FAT12; if (fmt == 0) return FR_NO_FILESYSTEM; /* Boundaries and Limits */ fs->n_fatent = nclst + 2; /* Number of FAT entries */ fs->volbase = bsect; /* Volume start sector */ fs->fatbase = bsect + nrsv; /* FAT start sector */ fs->database = bsect + sysect; /* Data start sector */ if (fmt == FS_FAT32) { if (ld_word(fs->win + BPB_FSVer32) != 0) return FR_NO_FILESYSTEM; /* (Must be FAT32 revision 0.0) */ if (fs->n_rootdir != 0) return FR_NO_FILESYSTEM; /* (BPB_RootEntCnt must be 0) */ fs->dirbase = ld_dword(fs->win + BPB_RootClus32); /* Root directory start cluster */ szbfat = fs->n_fatent * 4; /* (Needed FAT size) */ } else { if (fs->n_rootdir == 0) return FR_NO_FILESYSTEM; /* (BPB_RootEntCnt must not be 0) */ fs->dirbase = fs->fatbase + fasize; /* Root directory start sector */ szbfat = (fmt == FS_FAT16) ? /* (Needed FAT size) */ fs->n_fatent * 2 : fs->n_fatent * 3 / 2 + (fs->n_fatent & 1); } if (fs->fsize < (szbfat + (SS(fs) - 1)) / SS(fs)) return FR_NO_FILESYSTEM; /* (BPB_FATSz must not be less than the size needed) */ #if !FF_FS_READONLY /* Get FSInfo if available */ fs->last_clst = fs->free_clst = 0xFFFFFFFF; /* Initialize cluster allocation information */ fs->fsi_flag = 0x80; #if (FF_FS_NOFSINFO & 3) != 3 if (fmt == FS_FAT32 /* Allow to update FSInfo only if BPB_FSInfo32 == 1 */ && ld_word(fs->win + BPB_FSInfo32) == 1 && move_window(fs, bsect + 1) == FR_OK) { fs->fsi_flag = 0; if (ld_word(fs->win + BS_55AA) == 0xAA55 /* Load FSInfo data if available */ && ld_dword(fs->win + FSI_LeadSig) == 0x41615252 && ld_dword(fs->win + FSI_StrucSig) == 0x61417272) { #if (FF_FS_NOFSINFO & 1) == 0 fs->free_clst = ld_dword(fs->win + FSI_Free_Count); #endif #if (FF_FS_NOFSINFO & 2) == 0 fs->last_clst = ld_dword(fs->win + FSI_Nxt_Free); #endif } } #endif /* (FF_FS_NOFSINFO & 3) != 3 */ #endif /* !FF_FS_READONLY */ } fs->fs_type = fmt; /* FAT sub-type */ fs->id = ++Fsid; /* Volume mount ID */ #if FF_USE_LFN == 1 fs->lfnbuf = LfnBuf; /* Static LFN working buffer */ #if FF_FS_EXFAT fs->dirbuf = DirBuf; /* Static directory block scratchpad buffer */ #endif #endif #if FF_FS_RPATH != 0 fs->cdir = 0; /* Initialize current directory */ #endif #if FF_FS_LOCK != 0 /* Clear file lock semaphores */ clear_lock(fs); #endif return FR_OK; } /*-----------------------------------------------------------------------*/ /* Check if the file/directory object is valid or not */ /*-----------------------------------------------------------------------*/ static FRESULT validate ( /* Returns FR_OK or FR_INVALID_OBJECT */ FFOBJID* obj, /* Pointer to the FFOBJID, the 1st member in the FIL/DIR object, to check validity */ FATFS** rfs /* Pointer to pointer to the owner filesystem object to return */ ) { FRESULT res = FR_INVALID_OBJECT; if (obj && obj->fs && obj->fs->fs_type && obj->id == obj->fs->id) { /* Test if the object is valid */ #if FF_FS_REENTRANT if (lock_fs(obj->fs)) { /* Obtain the filesystem object */ if (!(disk_status(obj->fs->pdrv) & STA_NOINIT)) { /* Test if the phsical drive is kept initialized */ res = FR_OK; } else { unlock_fs(obj->fs, FR_OK); } } else { res = FR_TIMEOUT; } #else if (!(disk_status(obj->fs->pdrv) & STA_NOINIT)) { /* Test if the phsical drive is kept initialized */ res = FR_OK; } #endif } *rfs = (res == FR_OK) ? obj->fs : 0; /* Corresponding filesystem object */ return res; } /*--------------------------------------------------------------------------- Public Functions (FatFs API) ----------------------------------------------------------------------------*/ /*-----------------------------------------------------------------------*/ /* Mount/Unmount a Logical Drive */ /*-----------------------------------------------------------------------*/ FRESULT f_mount ( FATFS* fs, /* Pointer to the filesystem object (NULL:unmount)*/ const TCHAR* path, /* Logical drive number to be mounted/unmounted */ BYTE opt /* Mode option 0:Do not mount (delayed mount), 1:Mount immediately */ ) { FATFS *cfs; int vol; FRESULT res; const TCHAR *rp = path; /* Get logical drive number */ vol = get_ldnumber(&rp); if (vol < 0) { EFSPRINTF("IDRIVE!"); return FR_INVALID_DRIVE; } cfs = FatFs[vol]; /* Pointer to fs object */ if (cfs) { #if FF_FS_LOCK != 0 clear_lock(cfs); #endif #if FF_FS_REENTRANT /* Discard sync object of the current volume */ if (!ff_del_syncobj(cfs->sobj)) return FR_INT_ERR; #endif cfs->fs_type = 0; /* Clear old fs object */ } if (fs) { fs->fs_type = 0; /* Clear new fs object */ #if FF_FS_REENTRANT /* Create sync object for the new volume */ if (!ff_cre_syncobj((BYTE)vol, &fs->sobj)) return FR_INT_ERR; #endif } FatFs[vol] = fs; /* Register new fs object */ if (opt == 0) return FR_OK; /* Do not mount now, it will be mounted later */ res = find_volume(&path, &fs, 0); /* Force mounted the volume */ LEAVE_FF(fs, res); } /*-----------------------------------------------------------------------*/ /* Open or Create a File */ /*-----------------------------------------------------------------------*/ FRESULT f_open ( FIL* fp, /* Pointer to the blank file object */ const TCHAR* path, /* Pointer to the file name */ BYTE mode /* Access mode and file open mode flags */ ) { FRESULT res; DIR dj; FATFS *fs; #if !FF_FS_READONLY DWORD dw, cl, bcs, clst, sc; FSIZE_t ofs; #endif DEF_NAMBUF if (!fp) return FR_INVALID_OBJECT; /* Get logical drive number */ mode &= FF_FS_READONLY ? FA_READ : FA_READ | FA_WRITE | FA_CREATE_ALWAYS | FA_CREATE_NEW | FA_OPEN_ALWAYS | FA_OPEN_APPEND; res = find_volume(&path, &fs, mode); if (res == FR_OK) { dj.obj.fs = fs; INIT_NAMBUF(fs); res = follow_path(&dj, path); /* Follow the file path */ #if !FF_FS_READONLY /* Read/Write configuration */ if (res == FR_OK) { if (dj.fn[NSFLAG] & NS_NONAME) { /* Origin directory itself? */ res = FR_INVALID_NAME; } #if FF_FS_LOCK != 0 else { res = chk_lock(&dj, (mode & ~FA_READ) ? 1 : 0); /* Check if the file can be used */ } #endif } /* Create or Open a file */ if (mode & (FA_CREATE_ALWAYS | FA_OPEN_ALWAYS | FA_CREATE_NEW)) { if (res != FR_OK) { /* No file, create new */ if (res == FR_NO_FILE) { /* There is no file to open, create a new entry */ #if FF_FS_LOCK != 0 res = enq_lock() ? dir_register(&dj) : FR_TOO_MANY_OPEN_FILES; #else res = dir_register(&dj); #endif } mode |= FA_CREATE_ALWAYS; /* File is created */ } else { /* Any object with the same name is already existing */ if (dj.obj.attr & (AM_RDO | AM_DIR)) { /* Cannot overwrite it (R/O or DIR) */ res = FR_DENIED; } else { if (mode & FA_CREATE_NEW) res = FR_EXIST; /* Cannot create as new file */ } } if (res == FR_OK && (mode & FA_CREATE_ALWAYS)) { /* Truncate the file if overwrite mode */ #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { /* Get current allocation info */ fp->obj.fs = fs; init_alloc_info(fs, &fp->obj); /* Set directory entry block initial state */ mem_set(fs->dirbuf + 2, 0, 30); /* Clear 85 entry except for NumSec */ mem_set(fs->dirbuf + 38, 0, 26); /* Clear C0 entry except for NumName and NameHash */ fs->dirbuf[XDIR_Attr] = AM_ARC; st_dword(fs->dirbuf + XDIR_CrtTime, GET_FATTIME()); fs->dirbuf[XDIR_GenFlags] = 1; res = store_xdir(&dj); if (res == FR_OK && fp->obj.sclust != 0) { /* Remove the cluster chain if exist */ res = remove_chain(&fp->obj, fp->obj.sclust, 0); fs->last_clst = fp->obj.sclust - 1; /* Reuse the cluster hole */ } } else #endif { /* Set directory entry initial state */ cl = ld_clust(fs, dj.dir); /* Get current cluster chain */ st_dword(dj.dir + DIR_CrtTime, GET_FATTIME()); /* Set created time */ dj.dir[DIR_Attr] = AM_ARC; /* Reset attribute */ st_clust(fs, dj.dir, 0); /* Reset file allocation info */ st_dword(dj.dir + DIR_FileSize, 0); fs->wflag = 1; if (cl != 0) { /* Remove the cluster chain if exist */ dw = fs->winsect; res = remove_chain(&dj.obj, cl, 0); if (res == FR_OK) { res = move_window(fs, dw); fs->last_clst = cl - 1; /* Reuse the cluster hole */ } } } } } else { /* Open an existing file */ if (res == FR_OK) { /* Is the object exsiting? */ if (dj.obj.attr & AM_DIR) { /* File open against a directory */ res = FR_NO_FILE; } else { if ((mode & FA_WRITE) && (dj.obj.attr & AM_RDO)) { /* Write mode open against R/O file */ res = FR_DENIED; } } } } if (res == FR_OK) { if (mode & FA_CREATE_ALWAYS) mode |= FA_MODIFIED; /* Set file change flag if created or overwritten */ fp->dir_sect = fs->winsect; /* Pointer to the directory entry */ fp->dir_ptr = dj.dir; #if FF_FS_LOCK != 0 fp->obj.lockid = inc_lock(&dj, (mode & ~FA_READ) ? 1 : 0); /* Lock the file for this session */ if (fp->obj.lockid == 0) res = FR_INT_ERR; #endif } #else /* R/O configuration */ if (res == FR_OK) { if (dj.fn[NSFLAG] & NS_NONAME) { /* Is it origin directory itself? */ res = FR_INVALID_NAME; } else { if (dj.obj.attr & AM_DIR) { /* Is it a directory? */ res = FR_NO_FILE; } } } #endif if (res == FR_OK) { #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { fp->obj.c_scl = dj.obj.sclust; /* Get containing directory info */ fp->obj.c_size = ((DWORD)dj.obj.objsize & 0xFFFFFF00) | dj.obj.stat; fp->obj.c_ofs = dj.blk_ofs; init_alloc_info(fs, &fp->obj); } else #endif { fp->obj.sclust = ld_clust(fs, dj.dir); /* Get object allocation info */ fp->obj.objsize = ld_dword(dj.dir + DIR_FileSize); } #if FF_USE_FASTSEEK fp->cltbl = 0; /* Disable fast seek mode */ #endif fp->obj.fs = fs; /* Validate the file object */ fp->obj.id = fs->id; fp->flag = mode; /* Set file access mode */ fp->err = 0; /* Clear error flag */ fp->sect = 0; /* Invalidate current data sector */ fp->fptr = 0; /* Set file pointer top of the file */ #if !FF_FS_READONLY #if !FF_FS_TINY mem_set(fp->buf, 0, sizeof fp->buf); /* Clear sector buffer */ #endif if ((mode & FA_SEEKEND) && fp->obj.objsize > 0) { /* Seek to end of file if FA_OPEN_APPEND is specified */ fp->fptr = fp->obj.objsize; /* Offset to seek */ bcs = (DWORD)fs->csize * SS(fs); /* Cluster size in byte */ clst = fp->obj.sclust; /* Follow the cluster chain */ for (ofs = fp->obj.objsize; res == FR_OK && ofs > bcs; ofs -= bcs) { clst = get_fat(&fp->obj, clst); if (clst <= 1) res = FR_INT_ERR; if (clst == 0xFFFFFFFF) res = FR_DISK_ERR; } fp->clust = clst; if (res == FR_OK && ofs % SS(fs)) { /* Fill sector buffer if not on the sector boundary */ if ((sc = clst2sect(fs, clst)) == 0) { res = FR_INT_ERR; } else { fp->sect = sc + (DWORD)(ofs / SS(fs)); #if !FF_FS_TINY if (disk_read(fs->pdrv, fp->buf, fp->sect, 1) != RES_OK) res = FR_DISK_ERR; #endif } } } #endif } FREE_NAMBUF(); } if (res != FR_OK) fp->obj.fs = 0; /* Invalidate file object on error */ LEAVE_FF(fs, res); } /*-----------------------------------------------------------------------*/ /* Read File */ /*-----------------------------------------------------------------------*/ FRESULT f_read ( FIL* fp, /* Pointer to the file object */ void* buff, /* Pointer to data buffer */ UINT btr, /* Number of bytes to read */ UINT* br /* Pointer to number of bytes read */ ) { FRESULT res; FATFS *fs; DWORD clst, sect; FSIZE_t remain; UINT rcnt, cc, csect; BYTE *rbuff = (BYTE*)buff; UINT br_tmp; if (!br) br = &br_tmp; *br = 0; /* Clear read byte counter */ res = validate(&fp->obj, &fs); /* Check validity of the file object */ if (res != FR_OK || (res = (FRESULT)fp->err) != FR_OK) { EFSPRINTF("FOV"); LEAVE_FF(fs, res); /* Check validity */ } if (!(fp->flag & FA_READ)) LEAVE_FF(fs, FR_DENIED); /* Check access mode */ remain = fp->obj.objsize - fp->fptr; if (btr > remain) btr = (UINT)remain; /* Truncate btr by remaining bytes */ for ( ; btr; /* Repeat until btr bytes read */ btr -= rcnt, *br += rcnt, rbuff += rcnt, fp->fptr += rcnt) { if (fp->fptr % SS(fs) == 0) { /* On the sector boundary? */ csect = (UINT)(fp->fptr / SS(fs) & (fs->csize - 1)); /* Sector offset in the cluster */ if (csect == 0) { /* On the cluster boundary? */ if (fp->fptr == 0) { /* On the top of the file? */ clst = fp->obj.sclust; /* Follow cluster chain from the origin */ } else { /* Middle or end of the file */ #if FF_USE_FASTSEEK if (fp->cltbl) { clst = clmt_clust(fp, fp->fptr); /* Get cluster# from the CLMT */ } else #endif { clst = get_fat(&fp->obj, fp->clust); /* Follow cluster chain on the FAT */ } } if (clst < 2) { EFSPRINTF("CCHK"); ABORT(fs, FR_INT_ERR); } if (clst == 0xFFFFFFFF) { EFSPRINTF("DSKC"); ABORT(fs, FR_DISK_ERR); } fp->clust = clst; /* Update current cluster */ } sect = clst2sect(fs, fp->clust); /* Get current sector */ if (sect == 0) ABORT(fs, FR_INT_ERR); sect += csect; cc = btr / SS(fs); /* When remaining bytes >= sector size, */ if (cc > 0) { /* Read maximum contiguous sectors directly */ if (csect + cc > fs->csize) { /* Clip at cluster boundary */ cc = fs->csize - csect; } if (disk_read(fs->pdrv, rbuff, sect, cc) != RES_OK) { EFSPRINTF("RLIO"); ABORT(fs, FR_DISK_ERR); } #if !FF_FS_READONLY && FF_FS_MINIMIZE <= 2 /* Replace one of the read sectors with cached data if it contains a dirty sector */ #if FF_FS_TINY if (fs->wflag && fs->winsect - sect < cc) { mem_cpy(rbuff + ((fs->winsect - sect) * SS(fs)), fs->win, SS(fs)); } #else if ((fp->flag & FA_DIRTY) && fp->sect - sect < cc) { mem_cpy(rbuff + ((fp->sect - sect) * SS(fs)), fp->buf, SS(fs)); } #endif #endif rcnt = SS(fs) * cc; /* Number of bytes transferred */ continue; } #if !FF_FS_TINY if (fp->sect != sect) { /* Load data sector if not in cache */ #if !FF_FS_READONLY if (fp->flag & FA_DIRTY) { /* Write-back dirty sector cache */ if (disk_write(fs->pdrv, fp->buf, fp->sect, 1) != RES_OK) { EFSPRINTF("RDC"); ABORT(fs, FR_DISK_ERR); } fp->flag &= (BYTE)~FA_DIRTY; } #endif if (disk_read(fs->pdrv, fp->buf, sect, 1) != RES_OK) { EFSPRINTF("RSC"); ABORT(fs, FR_DISK_ERR); /* Fill sector cache */ } } #endif fp->sect = sect; } rcnt = SS(fs) - (UINT)fp->fptr % SS(fs); /* Number of bytes left in the sector */ if (rcnt > btr) rcnt = btr; /* Clip it by btr if needed */ #if FF_FS_TINY if (move_window(fs, fp->sect) != FR_OK) ABORT(fs, FR_DISK_ERR); /* Move sector window */ mem_cpy(rbuff, fs->win + fp->fptr % SS(fs), rcnt); /* Extract partial sector */ #else mem_cpy(rbuff, fp->buf + fp->fptr % SS(fs), rcnt); /* Extract partial sector */ #endif } LEAVE_FF(fs, FR_OK); } #if FF_FASTFS && FF_USE_FASTSEEK /*-----------------------------------------------------------------------*/ /* Fast Read Aligned Sized File Without a Cache */ /*-----------------------------------------------------------------------*/ FRESULT f_read_fast ( FIL* fp, /* Pointer to the file object */ const void* buff, /* Pointer to the data to be written */ UINT btr /* Number of bytes to read */ ) { FRESULT res; FATFS *fs; UINT csize_bytes, count; DWORD clst, work_bytes; FSIZE_t work_sector = 0; FSIZE_t sector_base = 0; BYTE *wbuff = (BYTE*)buff; res = validate(&fp->obj, &fs); /* Check validity of the file object */ if (res != FR_OK || (res = (FRESULT)fp->err) != FR_OK) { EFSPRINTF("FOV"); LEAVE_FF(fs, res); /* Check validity */ } if (!(fp->flag & FA_READ)) LEAVE_FF(fs, FR_DENIED); /* Check access mode */ FSIZE_t remain = fp->obj.objsize - fp->fptr; if (btr > remain) btr = (UINT)remain; /* Truncate btr by remaining bytes */ if (!btr) goto out; csize_bytes = fs->csize * SS(fs); //!TODO: support sector reading inside a cluster DWORD csect = (UINT)((fp->fptr / SS(fs)) & (fs->csize - 1)); /* Sector offset in the cluster */ if (csect) { EFSPRINTF("ICSR"); ABORT(fs, FR_INT_ERR); } if (!fp->fptr) { /* On the top of the file? */ clst = fp->obj.sclust; /* Follow from the origin */ } else { if (fp->cltbl) clst = clmt_clust(fp, fp->fptr); /* Get cluster# from the CLMT */ else { EFSPRINTF("CLTBL"); ABORT(fs, FR_CLTBL_NO_INIT); } } if (clst < 2) { EFSPRINTF("CCHK"); ABORT(fs, FR_INT_ERR); } else if (clst == 0xFFFFFFFF) { EFSPRINTF("DSKC"); ABORT(fs, FR_DISK_ERR); } fp->clust = clst; /* Set working cluster */ sector_base = clst2sect(fs, fp->clust); work_bytes = MIN(btr, csize_bytes); count = work_bytes / SS(fs); fp->fptr += work_bytes; btr -= work_bytes; while (btr) { clst = clmt_clust(fp, fp->fptr); /* Get cluster# from the CLMT */ if (clst < 2) { EFSPRINTF("CCHK2"); ABORT(fs, FR_INT_ERR); } else if (clst == 0xFFFFFFFF) { EFSPRINTF("DSKC"); ABORT(fs, FR_DISK_ERR); } fp->clust = clst; work_sector = clst2sect(fs, fp->clust); work_bytes = MIN(btr, csize_bytes); if ((work_sector - sector_base) == count) count += work_bytes / SS(fs); else { if (disk_read(fs->pdrv, wbuff, sector_base, count) != RES_OK) ABORT(fs, FR_DISK_ERR); wbuff += count * SS(fs); sector_base = work_sector; count = work_bytes / SS(fs); } fp->fptr += work_bytes; btr -= work_bytes; } if (!btr) { /* Final cluster/sectors read. */ if (work_bytes % SS(fs)) count++; /* Read an extra block. Expects buffer being big enough. */ if (disk_read(fs->pdrv, wbuff, sector_base, count) != RES_OK) ABORT(fs, FR_DISK_ERR); } out: LEAVE_FF(fs, FR_OK); } #endif #if !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* Write File */ /*-----------------------------------------------------------------------*/ FRESULT f_write ( FIL* fp, /* Pointer to the file object */ const void* buff, /* Pointer to the data to be written */ UINT btw, /* Number of bytes to write */ UINT* bw /* Pointer to number of bytes written */ ) { FRESULT res; FATFS *fs; DWORD clst, sect; UINT wcnt, cc, csect; const BYTE *wbuff = (const BYTE*)buff; UINT bw_tmp; if (!bw) bw = &bw_tmp; *bw = 0; /* Clear write byte counter */ res = validate(&fp->obj, &fs); /* Check validity of the file object */ if (res != FR_OK || (res = (FRESULT)fp->err) != FR_OK) { EFSPRINTF("FOV"); LEAVE_FF(fs, res); /* Check validity */ } if (!(fp->flag & FA_WRITE)) LEAVE_FF(fs, FR_DENIED); /* Check access mode */ /* Check fptr wrap-around (file size cannot reach 4 GiB at FAT volume) */ if ((!FF_FS_EXFAT || fs->fs_type != FS_EXFAT) && (DWORD)(fp->fptr + btw) < (DWORD)fp->fptr) { btw = (UINT)(0xFFFFFFFF - (DWORD)fp->fptr); } for ( ; btw; /* Repeat until all data written */ btw -= wcnt, *bw += wcnt, wbuff += wcnt, fp->fptr += wcnt, fp->obj.objsize = (fp->fptr > fp->obj.objsize) ? fp->fptr : fp->obj.objsize) { if (fp->fptr % SS(fs) == 0) { /* On the sector boundary? */ csect = (UINT)(fp->fptr / SS(fs)) & (fs->csize - 1); /* Sector offset in the cluster */ if (csect == 0) { /* On the cluster boundary? */ if (fp->fptr == 0) { /* On the top of the file? */ clst = fp->obj.sclust; /* Follow from the origin */ if (clst == 0) { /* If no cluster is allocated, */ clst = create_chain(&fp->obj, 0); /* create a new cluster chain */ } } else { /* On the middle or end of the file */ #if FF_USE_FASTSEEK if (fp->cltbl) { clst = clmt_clust(fp, fp->fptr); /* Get cluster# from the CLMT */ } else #endif { clst = create_chain(&fp->obj, fp->clust); /* Follow or stretch cluster chain on the FAT */ } } if (clst == 0) { EFSPRINTF("DSKFULL"); break; /* Could not allocate a new cluster (disk full) */ } if (clst == 1) { EFSPRINTF("CCHK"); ABORT(fs, FR_INT_ERR); } if (clst == 0xFFFFFFFF) { EFSPRINTF("DERR"); ABORT(fs, FR_DISK_ERR); } fp->clust = clst; /* Update current cluster */ if (fp->obj.sclust == 0) fp->obj.sclust = clst; /* Set start cluster if the first write */ } #if FF_FS_TINY if (fs->winsect == fp->sect && sync_window(fs) != FR_OK) ABORT(fs, FR_DISK_ERR); /* Write-back sector cache */ #else if (fp->flag & FA_DIRTY) { /* Write-back sector cache */ if (disk_write(fs->pdrv, fp->buf, fp->sect, 1) != RES_OK) ABORT(fs, FR_DISK_ERR); fp->flag &= (BYTE)~FA_DIRTY; } #endif sect = clst2sect(fs, fp->clust); /* Get current sector */ if (sect == 0) ABORT(fs, FR_INT_ERR); sect += csect; cc = btw / SS(fs); /* When remaining bytes >= sector size, */ if (cc > 0) { /* Write maximum contiguous sectors directly */ if (csect + cc > fs->csize) { /* Clip at cluster boundary */ cc = fs->csize - csect; } if (disk_write(fs->pdrv, wbuff, sect, cc) != RES_OK) { EFSPRINTF("WLIO"); ABORT(fs, FR_DISK_ERR); } #if FF_FS_MINIMIZE <= 2 #if FF_FS_TINY if (fs->winsect - sect < cc) { /* Refill sector cache if it gets invalidated by the direct write */ mem_cpy(fs->win, wbuff + ((fs->winsect - sect) * SS(fs)), SS(fs)); fs->wflag = 0; } #else if (fp->sect - sect < cc) { /* Refill sector cache if it gets invalidated by the direct write */ mem_cpy(fp->buf, wbuff + ((fp->sect - sect) * SS(fs)), SS(fs)); fp->flag &= (BYTE)~FA_DIRTY; } #endif #endif wcnt = SS(fs) * cc; /* Number of bytes transferred */ continue; } #if FF_FS_TINY if (fp->fptr >= fp->obj.objsize) { /* Avoid silly cache filling on the growing edge */ if (sync_window(fs) != FR_OK) ABORT(fs, FR_DISK_ERR); fs->winsect = sect; } #else if (fp->sect != sect && /* Fill sector cache with file data */ fp->fptr < fp->obj.objsize && disk_read(fs->pdrv, fp->buf, sect, 1) != RES_OK) { ABORT(fs, FR_DISK_ERR); } #endif fp->sect = sect; } wcnt = SS(fs) - (UINT)fp->fptr % SS(fs); /* Number of bytes left in the sector */ if (wcnt > btw) wcnt = btw; /* Clip it by btw if needed */ #if FF_FS_TINY if (move_window(fs, fp->sect) != FR_OK) ABORT(fs, FR_DISK_ERR); /* Move sector window */ mem_cpy(fs->win + fp->fptr % SS(fs), wbuff, wcnt); /* Fit data to the sector */ fs->wflag = 1; #else mem_cpy(fp->buf + fp->fptr % SS(fs), wbuff, wcnt); /* Fit data to the sector */ fp->flag |= FA_DIRTY; #endif } fp->flag |= FA_MODIFIED; /* Set file change flag */ LEAVE_FF(fs, FR_OK); } #if FF_FASTFS && FF_USE_FASTSEEK /*-----------------------------------------------------------------------*/ /* Fast Write Aligned Sized File Without a Cache */ /*-----------------------------------------------------------------------*/ FRESULT f_write_fast ( FIL* fp, /* Pointer to the file object */ const void* buff, /* Pointer to the data to be written */ UINT btw /* Number of bytes to write */ ) { FRESULT res; FATFS *fs; UINT csize_bytes, count; DWORD clst, work_bytes; FSIZE_t work_sector = 0; FSIZE_t sector_base = 0; const BYTE *wbuff = (const BYTE*)buff; res = validate(&fp->obj, &fs); /* Check validity of the file object */ if (res != FR_OK || (res = (FRESULT)fp->err) != FR_OK) { EFSPRINTF("FOV"); LEAVE_FF(fs, res); /* Check validity */ } if (!(fp->flag & FA_WRITE)) LEAVE_FF(fs, FR_DENIED); /* Check access mode */ if (!btw) goto out; /* Check fptr wrap-around (file size cannot reach 4 GiB at FAT volume) */ if ((!FF_FS_EXFAT || fs->fs_type != FS_EXFAT) && (DWORD)(fp->fptr + btw) < (DWORD)fp->fptr) { btw = (UINT)(0xFFFFFFFF - (DWORD)fp->fptr); } csize_bytes = fs->csize * SS(fs); // TODO support sector writing inside a cluster DWORD csect = (UINT)((fp->fptr / SS(fs)) & (fs->csize - 1)); /* Sector offset in the cluster */ if (csect) { EFSPRINTF("ICSR"); ABORT(fs, FR_INT_ERR); } if (!fp->fptr) { /* On the top of the file? */ clst = fp->obj.sclust; /* Follow from the origin */ } else { if (fp->cltbl) clst = clmt_clust(fp, fp->fptr); /* Get cluster# from the CLMT */ else { EFSPRINTF("CLTBL"); ABORT(fs, FR_CLTBL_NO_INIT); } } if (clst < 2) { EFSPRINTF("CCHK"); ABORT(fs, FR_INT_ERR); } else if (clst == 0xFFFFFFFF) { EFSPRINTF("DERR"); ABORT(fs, FR_DISK_ERR); } fp->clust = clst; /* Set working cluster */ sector_base = clst2sect(fs, fp->clust); work_bytes = MIN(btw, csize_bytes); count = work_bytes / SS(fs); fp->fptr += work_bytes; btw -= work_bytes; while (btw) { clst = clmt_clust(fp, fp->fptr); /* Get cluster# from the CLMT */ if (clst < 2) { EFSPRINTF("CCHK2"); ABORT(fs, FR_INT_ERR); } else if (clst == 0xFFFFFFFF) { EFSPRINTF("DERR"); ABORT(fs, FR_DISK_ERR); } fp->clust = clst; work_sector = clst2sect(fs, fp->clust); work_bytes = MIN(btw, csize_bytes); if ((work_sector - sector_base) == count) count += work_bytes / SS(fs); else { if (disk_write(fs->pdrv, wbuff, sector_base, count) != RES_OK) ABORT(fs, FR_DISK_ERR); wbuff += count * SS(fs); sector_base = work_sector; count = work_bytes / SS(fs); } fp->fptr += work_bytes; btw -= work_bytes; } if (!btw) { /* Final cluster/sectors write. */ if (work_bytes % SS(fs)) count++; /* Write an extra block. Cluster is always > storage block. */ if (disk_write(fs->pdrv, wbuff, sector_base, count) != RES_OK) ABORT(fs, FR_DISK_ERR); fp->flag &= (BYTE)~FA_DIRTY; } fp->flag |= FA_MODIFIED; /* Set file change flag */ out: LEAVE_FF(fs, FR_OK); } #endif /*-----------------------------------------------------------------------*/ /* Synchronize the File */ /*-----------------------------------------------------------------------*/ FRESULT f_sync ( FIL* fp /* Pointer to the file object */ ) { FRESULT res; FATFS *fs; DWORD tm; BYTE *dir; res = validate(&fp->obj, &fs); /* Check validity of the file object */ if (res == FR_OK) { if (fp->flag & FA_MODIFIED) { /* Is there any change to the file? */ #if !FF_FS_TINY if (fp->flag & FA_DIRTY) { /* Write-back cached data if needed */ if (disk_write(fs->pdrv, fp->buf, fp->sect, 1) != RES_OK) LEAVE_FF(fs, FR_DISK_ERR); fp->flag &= (BYTE)~FA_DIRTY; } #endif /* Update the directory entry */ tm = GET_FATTIME(); /* Modified time */ #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { res = fill_first_frag(&fp->obj); /* Fill first fragment on the FAT if needed */ if (res == FR_OK) { res = fill_last_frag(&fp->obj, fp->clust, 0xFFFFFFFF); /* Fill last fragment on the FAT if needed */ } if (res == FR_OK) { DIR dj; DEF_NAMBUF INIT_NAMBUF(fs); res = load_obj_xdir(&dj, &fp->obj); /* Load directory entry block */ if (res == FR_OK) { fs->dirbuf[XDIR_Attr] |= AM_ARC; /* Set archive attribute to indicate that the file has been changed */ fs->dirbuf[XDIR_GenFlags] = fp->obj.stat | 1; /* Update file allocation information */ st_dword(fs->dirbuf + XDIR_FstClus, fp->obj.sclust); st_qword(fs->dirbuf + XDIR_FileSize, fp->obj.objsize); st_qword(fs->dirbuf + XDIR_ValidFileSize, fp->obj.objsize); st_dword(fs->dirbuf + XDIR_ModTime, tm); /* Update modified time */ fs->dirbuf[XDIR_ModTime10] = 0; st_dword(fs->dirbuf + XDIR_AccTime, 0); res = store_xdir(&dj); /* Restore it to the directory */ if (res == FR_OK) { res = sync_fs(fs); fp->flag &= (BYTE)~FA_MODIFIED; } } FREE_NAMBUF(); } } else #endif { res = move_window(fs, fp->dir_sect); if (res == FR_OK) { dir = fp->dir_ptr; dir[DIR_Attr] |= AM_ARC; /* Set archive attribute to indicate that the file has been changed */ st_clust(fp->obj.fs, dir, fp->obj.sclust); /* Update file allocation information */ st_dword(dir + DIR_FileSize, (DWORD)fp->obj.objsize); /* Update file size */ st_dword(dir + DIR_ModTime, tm); /* Update modified time */ st_word(dir + DIR_LstAccDate, 0); fs->wflag = 1; res = sync_fs(fs); /* Restore it to the directory */ fp->flag &= (BYTE)~FA_MODIFIED; } } } } LEAVE_FF(fs, res); } #endif /* !FF_FS_READONLY */ /*-----------------------------------------------------------------------*/ /* Close File */ /*-----------------------------------------------------------------------*/ FRESULT f_close ( FIL* fp /* Pointer to the file object to be closed */ ) { FRESULT res; FATFS *fs; #if !FF_FS_READONLY res = f_sync(fp); /* Flush cached data */ if (res == FR_OK) #endif { res = validate(&fp->obj, &fs); /* Lock volume */ if (res == FR_OK) { #if FF_FS_LOCK != 0 res = dec_lock(fp->obj.lockid); /* Decrement file open counter */ if (res == FR_OK) fp->obj.fs = 0; /* Invalidate file object */ #else fp->obj.fs = 0; /* Invalidate file object */ #endif #if FF_FS_REENTRANT unlock_fs(fs, FR_OK); /* Unlock volume */ #endif } } return res; } #if FF_FS_RPATH >= 1 /*-----------------------------------------------------------------------*/ /* Change Current Directory or Current Drive, Get Current Directory */ /*-----------------------------------------------------------------------*/ FRESULT f_chdrive ( const TCHAR* path /* Drive number to set */ ) { int vol; /* Get logical drive number */ vol = get_ldnumber(&path); if (vol < 0) return FR_INVALID_DRIVE; CurrVol = (BYTE)vol; /* Set it as current volume */ return FR_OK; } FRESULT f_chdir ( const TCHAR* path /* Pointer to the directory path */ ) { #if FF_STR_VOLUME_ID == 2 UINT i; #endif FRESULT res; DIR dj; FATFS *fs; DEF_NAMBUF /* Get logical drive */ res = find_volume(&path, &fs, 0); if (res == FR_OK) { dj.obj.fs = fs; INIT_NAMBUF(fs); res = follow_path(&dj, path); /* Follow the path */ if (res == FR_OK) { /* Follow completed */ if (dj.fn[NSFLAG] & NS_NONAME) { /* Is it the start directory itself? */ fs->cdir = dj.obj.sclust; #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { fs->cdc_scl = dj.obj.c_scl; fs->cdc_size = dj.obj.c_size; fs->cdc_ofs = dj.obj.c_ofs; } #endif } else { if (dj.obj.attr & AM_DIR) { /* It is a sub-directory */ #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { fs->cdir = ld_dword(fs->dirbuf + XDIR_FstClus); /* Sub-directory cluster */ fs->cdc_scl = dj.obj.sclust; /* Save containing directory information */ fs->cdc_size = ((DWORD)dj.obj.objsize & 0xFFFFFF00) | dj.obj.stat; fs->cdc_ofs = dj.blk_ofs; } else #endif { fs->cdir = ld_clust(fs, dj.dir); /* Sub-directory cluster */ } } else { res = FR_NO_PATH; /* Reached but a file */ } } } FREE_NAMBUF(); if (res == FR_NO_FILE) res = FR_NO_PATH; #if FF_STR_VOLUME_ID == 2 /* Also current drive is changed at Unix style volume ID */ if (res == FR_OK) { for (i = FF_VOLUMES - 1; i && fs != FatFs[i]; i--) ; /* Set current drive */ CurrVol = (BYTE)i; } #endif } LEAVE_FF(fs, res); } #if FF_FS_RPATH >= 2 FRESULT f_getcwd ( TCHAR* buff, /* Pointer to the directory path */ UINT len /* Size of buff in unit of TCHAR */ ) { FRESULT res; DIR dj; FATFS *fs; UINT i, n; DWORD ccl; TCHAR *tp = buff; #if FF_VOLUMES >= 2 UINT vl; #if FF_STR_VOLUME_ID const char *vp; #endif #endif FILINFO fno; DEF_NAMBUF /* Get logical drive */ buff[0] = 0; /* Set null string to get current volume */ res = find_volume((const TCHAR**)&buff, &fs, 0); /* Get current volume */ if (res == FR_OK) { dj.obj.fs = fs; INIT_NAMBUF(fs); /* Follow parent directories and create the path */ i = len; /* Bottom of buffer (directory stack base) */ if (!FF_FS_EXFAT || fs->fs_type != FS_EXFAT) { /* (Cannot do getcwd on exFAT and returns root path) */ dj.obj.sclust = fs->cdir; /* Start to follow upper directory from current directory */ while ((ccl = dj.obj.sclust) != 0) { /* Repeat while current directory is a sub-directory */ res = dir_sdi(&dj, 1 * SZDIRE); /* Get parent directory */ if (res != FR_OK) break; res = move_window(fs, dj.sect); if (res != FR_OK) break; dj.obj.sclust = ld_clust(fs, dj.dir); /* Goto parent directory */ res = dir_sdi(&dj, 0); if (res != FR_OK) break; do { /* Find the entry links to the child directory */ res = DIR_READ_FILE(&dj); if (res != FR_OK) break; if (ccl == ld_clust(fs, dj.dir)) break; /* Found the entry */ res = dir_next(&dj, 0); } while (res == FR_OK); if (res == FR_NO_FILE) res = FR_INT_ERR;/* It cannot be 'not found'. */ if (res != FR_OK) break; get_fileinfo(&dj, &fno); /* Get the directory name and push it to the buffer */ for (n = 0; fno.fname[n]; n++) ; /* Name length */ if (i < n + 1) { /* Insufficient space to store the path name? */ res = FR_NOT_ENOUGH_CORE; break; } while (n) buff[--i] = fno.fname[--n]; /* Stack the name */ buff[--i] = '/'; } } if (res == FR_OK) { if (i == len) buff[--i] = '/'; /* Is it the root-directory? */ #if FF_VOLUMES >= 2 /* Put drive prefix */ vl = 0; #if FF_STR_VOLUME_ID >= 1 /* String volume ID */ for (n = 0, vp = (const char*)VolumeStr[CurrVol]; vp[n]; n++) ; if (i >= n + 2) { if (FF_STR_VOLUME_ID == 2) *tp++ = (TCHAR)'/'; for (vl = 0; vl < n; *tp++ = (TCHAR)vp[vl], vl++) ; if (FF_STR_VOLUME_ID == 1) *tp++ = (TCHAR)':'; vl++; } #else /* Numeric volume ID */ if (i >= 3) { *tp++ = (TCHAR)'0' + CurrVol; *tp++ = (TCHAR)':'; vl = 2; } #endif if (vl == 0) res = FR_NOT_ENOUGH_CORE; #endif /* Add current directory path */ if (res == FR_OK) { do *tp++ = buff[i++]; while (i < len); /* Copy stacked path string */ } } FREE_NAMBUF(); } *tp = 0; LEAVE_FF(fs, res); } #endif /* FF_FS_RPATH >= 2 */ #endif /* FF_FS_RPATH >= 1 */ #if FF_FS_MINIMIZE <= 2 /*-----------------------------------------------------------------------*/ /* Seek File Read/Write Pointer */ /*-----------------------------------------------------------------------*/ FRESULT f_lseek ( FIL* fp, /* Pointer to the file object */ FSIZE_t ofs /* File pointer from top of file */ ) { FRESULT res; FATFS *fs; DWORD clst, bcs, nsect; FSIZE_t ifptr; #if FF_USE_FASTSEEK DWORD cl, pcl, ncl, tcl, dsc, tlen, ulen, *tbl; #endif res = validate(&fp->obj, &fs); /* Check validity of the file object */ if (res == FR_OK) res = (FRESULT)fp->err; #if FF_FS_EXFAT && !FF_FS_READONLY if (res == FR_OK && fs->fs_type == FS_EXFAT) { res = fill_last_frag(&fp->obj, fp->clust, 0xFFFFFFFF); /* Fill last fragment on the FAT if needed */ } #endif if (res != FR_OK) LEAVE_FF(fs, res); #if FF_USE_FASTSEEK if (fp->cltbl) { /* Fast seek */ if (ofs == CREATE_LINKMAP) { /* Create CLMT */ tbl = fp->cltbl; tlen = *tbl++; ulen = 2; /* Given table size and required table size */ cl = fp->obj.sclust; /* Origin of the chain */ if (cl != 0) { do { /* Get a fragment */ tcl = cl; ncl = 0; ulen += 2; /* Top, length and used items */ do { pcl = cl; ncl++; cl = get_fat(&fp->obj, cl); if (cl <= 1) ABORT(fs, FR_INT_ERR); if (cl == 0xFFFFFFFF) ABORT(fs, FR_DISK_ERR); } while (cl == pcl + 1); if (ulen <= tlen) { /* Store the length and top of the fragment */ *tbl++ = ncl; *tbl++ = tcl; } } while (cl < fs->n_fatent); /* Repeat until end of chain */ } *fp->cltbl = ulen; /* Number of items used */ if (ulen <= tlen) { *tbl = 0; /* Terminate table */ } else { res = FR_NOT_ENOUGH_CORE; /* Given table size is smaller than required */ } } else { /* Fast seek */ if (ofs > fp->obj.objsize) ofs = fp->obj.objsize; /* Clip offset at the file size */ fp->fptr = ofs; /* Set file pointer */ if (ofs > 0) { fp->clust = clmt_clust(fp, ofs - 1); dsc = clst2sect(fs, fp->clust); if (dsc == 0) ABORT(fs, FR_INT_ERR); dsc += (DWORD)((ofs - 1) / SS(fs)) & (fs->csize - 1); if (fp->fptr % SS(fs) && dsc != fp->sect) { /* Refill sector cache if needed */ #if !FF_FS_TINY #if !FF_FS_READONLY if (fp->flag & FA_DIRTY) { /* Write-back dirty sector cache */ if (disk_write(fs->pdrv, fp->buf, fp->sect, 1) != RES_OK) ABORT(fs, FR_DISK_ERR); fp->flag &= (BYTE)~FA_DIRTY; } #endif if (disk_read(fs->pdrv, fp->buf, dsc, 1) != RES_OK) ABORT(fs, FR_DISK_ERR); /* Load current sector */ #endif fp->sect = dsc; } } } } else #endif /* Normal Seek */ { #if FF_FS_EXFAT if (fs->fs_type != FS_EXFAT && ofs >= 0x100000000) ofs = 0xFFFFFFFF; /* Clip at 4 GiB - 1 if at FATxx */ #endif if (ofs > fp->obj.objsize && (FF_FS_READONLY || !(fp->flag & FA_WRITE))) { /* In read-only mode, clip offset with the file size */ ofs = fp->obj.objsize; } ifptr = fp->fptr; fp->fptr = nsect = 0; if (ofs > 0) { bcs = (DWORD)fs->csize * SS(fs); /* Cluster size (byte) */ if (ifptr > 0 && (ofs - 1) / bcs >= (ifptr - 1) / bcs) { /* When seek to same or following cluster, */ fp->fptr = (ifptr - 1) & ~(FSIZE_t)(bcs - 1); /* start from the current cluster */ ofs -= fp->fptr; clst = fp->clust; } else { /* When seek to back cluster, */ clst = fp->obj.sclust; /* start from the first cluster */ #if !FF_FS_READONLY if (clst == 0) { /* If no cluster chain, create a new chain */ clst = create_chain(&fp->obj, 0); if (clst == 1) ABORT(fs, FR_INT_ERR); if (clst == 0xFFFFFFFF) ABORT(fs, FR_DISK_ERR); fp->obj.sclust = clst; } #endif fp->clust = clst; } if (clst != 0) { while (ofs > bcs) { /* Cluster following loop */ ofs -= bcs; fp->fptr += bcs; #if !FF_FS_READONLY if (fp->flag & FA_WRITE) { /* Check if in write mode or not */ if (FF_FS_EXFAT && fp->fptr > fp->obj.objsize) { /* No FAT chain object needs correct objsize to generate FAT value */ fp->obj.objsize = fp->fptr; fp->flag |= FA_MODIFIED; } clst = create_chain(&fp->obj, clst); /* Follow chain with forceed stretch */ if (clst == 0) { /* Clip file size in case of disk full */ ofs = 0; break; } } else #endif { clst = get_fat(&fp->obj, clst); /* Follow cluster chain if not in write mode */ } if (clst == 0xFFFFFFFF) ABORT(fs, FR_DISK_ERR); if (clst <= 1 || clst >= fs->n_fatent) ABORT(fs, FR_INT_ERR); fp->clust = clst; } fp->fptr += ofs; if (ofs % SS(fs)) { nsect = clst2sect(fs, clst); /* Current sector */ if (nsect == 0) ABORT(fs, FR_INT_ERR); nsect += (DWORD)(ofs / SS(fs)); } } } if (!FF_FS_READONLY && fp->fptr > fp->obj.objsize) { /* Set file change flag if the file size is extended */ fp->obj.objsize = fp->fptr; fp->flag |= FA_MODIFIED; } if (fp->fptr % SS(fs) && nsect != fp->sect) { /* Fill sector cache if needed */ #if !FF_FS_TINY #if !FF_FS_READONLY if (fp->flag & FA_DIRTY) { /* Write-back dirty sector cache */ if (disk_write(fs->pdrv, fp->buf, fp->sect, 1) != RES_OK) ABORT(fs, FR_DISK_ERR); fp->flag &= (BYTE)~FA_DIRTY; } #endif if (disk_read(fs->pdrv, fp->buf, nsect, 1) != RES_OK) ABORT(fs, FR_DISK_ERR); /* Fill sector cache */ #endif fp->sect = nsect; } } LEAVE_FF(fs, res); } #if FF_FASTFS && FF_USE_FASTSEEK /*-----------------------------------------------------------------------*/ /* Seek File Read/Write Pointer */ /*-----------------------------------------------------------------------*/ DWORD *f_expand_cltbl ( FIL* fp, /* Pointer to the file object */ UINT tblsz, /* Size of table (2 DWORDs + 2 DWORDs per fragment) */ FSIZE_t ofs /* File pointer from top of file */ ) { /* * Cluster table structure: * Size (DWORD) * Padding (DWORD) * (Cluster Offset (DWORD) + Sequential clusters (DWORD)) * Fragments */ if (fp->flag & FA_WRITE) f_lseek(fp, ofs); /* Expand file if write is enabled */ if (!fp->cltbl) { /* Allocate memory for cluster link table */ fp->cltbl = (DWORD *)ff_memalloc(tblsz); if (!fp->cltbl) return (void *)0; fp->cltbl[0] = tblsz; } if (f_lseek(fp, CREATE_LINKMAP)) { /* Create cluster link table */ ff_memfree(fp->cltbl); fp->cltbl = (void *)0; EFSPRINTF("CLTBLSZ"); return (void *)0; } f_lseek(fp, 0); return fp->cltbl; } #endif #if FF_FS_MINIMIZE <= 1 /*-----------------------------------------------------------------------*/ /* Create a Directory Object */ /*-----------------------------------------------------------------------*/ FRESULT f_opendir ( DIR* dp, /* Pointer to directory object to create */ const TCHAR* path /* Pointer to the directory path */ ) { FRESULT res; FATFS *fs; DEF_NAMBUF if (!dp) return FR_INVALID_OBJECT; /* Get logical drive */ res = find_volume(&path, &fs, 0); if (res == FR_OK) { dp->obj.fs = fs; INIT_NAMBUF(fs); res = follow_path(dp, path); /* Follow the path to the directory */ if (res == FR_OK) { /* Follow completed */ if (!(dp->fn[NSFLAG] & NS_NONAME)) { /* It is not the origin directory itself */ if (dp->obj.attr & AM_DIR) { /* This object is a sub-directory */ #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { dp->obj.c_scl = dp->obj.sclust; /* Get containing directory inforamation */ dp->obj.c_size = ((DWORD)dp->obj.objsize & 0xFFFFFF00) | dp->obj.stat; dp->obj.c_ofs = dp->blk_ofs; init_alloc_info(fs, &dp->obj); /* Get object allocation info */ } else #endif { dp->obj.sclust = ld_clust(fs, dp->dir); /* Get object allocation info */ } } else { /* This object is a file */ res = FR_NO_PATH; } } if (res == FR_OK) { dp->obj.id = fs->id; res = dir_sdi(dp, 0); /* Rewind directory */ #if FF_FS_LOCK != 0 if (res == FR_OK) { if (dp->obj.sclust != 0) { dp->obj.lockid = inc_lock(dp, 0); /* Lock the sub directory */ if (!dp->obj.lockid) res = FR_TOO_MANY_OPEN_FILES; } else { dp->obj.lockid = 0; /* Root directory need not to be locked */ } } #endif } } FREE_NAMBUF(); if (res == FR_NO_FILE) res = FR_NO_PATH; } if (res != FR_OK) dp->obj.fs = 0; /* Invalidate the directory object if function faild */ LEAVE_FF(fs, res); } /*-----------------------------------------------------------------------*/ /* Close Directory */ /*-----------------------------------------------------------------------*/ FRESULT f_closedir ( DIR *dp /* Pointer to the directory object to be closed */ ) { FRESULT res; FATFS *fs; res = validate(&dp->obj, &fs); /* Check validity of the file object */ if (res == FR_OK) { #if FF_FS_LOCK != 0 if (dp->obj.lockid) res = dec_lock(dp->obj.lockid); /* Decrement sub-directory open counter */ if (res == FR_OK) dp->obj.fs = 0; /* Invalidate directory object */ #else dp->obj.fs = 0; /* Invalidate directory object */ #endif #if FF_FS_REENTRANT unlock_fs(fs, FR_OK); /* Unlock volume */ #endif } return res; } /*-----------------------------------------------------------------------*/ /* Read Directory Entries in Sequence */ /*-----------------------------------------------------------------------*/ FRESULT f_readdir ( DIR* dp, /* Pointer to the open directory object */ FILINFO* fno /* Pointer to file information to return */ ) { FRESULT res; FATFS *fs; DEF_NAMBUF res = validate(&dp->obj, &fs); /* Check validity of the directory object */ if (res == FR_OK) { if (!fno) { res = dir_sdi(dp, 0); /* Rewind the directory object */ } else { INIT_NAMBUF(fs); res = DIR_READ_FILE(dp); /* Read an item */ if (res == FR_NO_FILE) res = FR_OK; /* Ignore end of directory */ if (res == FR_OK) { /* A valid entry is found */ get_fileinfo(dp, fno); /* Get the object information */ res = dir_next(dp, 0); /* Increment index for next */ if (res == FR_NO_FILE) res = FR_OK; /* Ignore end of directory now */ } FREE_NAMBUF(); } } LEAVE_FF(fs, res); } #if FF_USE_FIND /*-----------------------------------------------------------------------*/ /* Find Next File */ /*-----------------------------------------------------------------------*/ FRESULT f_findnext ( DIR* dp, /* Pointer to the open directory object */ FILINFO* fno /* Pointer to the file information structure */ ) { FRESULT res; for (;;) { res = f_readdir(dp, fno); /* Get a directory item */ if (res != FR_OK || !fno || !fno->fname[0]) break; /* Terminate if any error or end of directory */ if (pattern_matching(dp->pat, fno->fname, 0, 0)) break; /* Test for the file name */ #if FF_USE_LFN && FF_USE_FIND == 2 if (pattern_matching(dp->pat, fno->altname, 0, 0)) break; /* Test for alternative name if exist */ #endif } return res; } /*-----------------------------------------------------------------------*/ /* Find First File */ /*-----------------------------------------------------------------------*/ FRESULT f_findfirst ( DIR* dp, /* Pointer to the blank directory object */ FILINFO* fno, /* Pointer to the file information structure */ const TCHAR* path, /* Pointer to the directory to open */ const TCHAR* pattern /* Pointer to the matching pattern */ ) { FRESULT res; dp->pat = pattern; /* Save pointer to pattern string */ res = f_opendir(dp, path); /* Open the target directory */ if (res == FR_OK) { res = f_findnext(dp, fno); /* Find the first item */ } return res; } #endif /* FF_USE_FIND */ #if FF_FS_MINIMIZE == 0 /*-----------------------------------------------------------------------*/ /* Get File Status */ /*-----------------------------------------------------------------------*/ FRESULT f_stat ( const TCHAR* path, /* Pointer to the file path */ FILINFO* fno /* Pointer to file information to return */ ) { FRESULT res; DIR dj; DEF_NAMBUF /* Get logical drive */ res = find_volume(&path, &dj.obj.fs, 0); if (res == FR_OK) { INIT_NAMBUF(dj.obj.fs); res = follow_path(&dj, path); /* Follow the file path */ if (res == FR_OK) { /* Follow completed */ if (dj.fn[NSFLAG] & NS_NONAME) { /* It is origin directory */ res = FR_INVALID_NAME; } else { /* Found an object */ if (fno) get_fileinfo(&dj, fno); } } FREE_NAMBUF(); } LEAVE_FF(dj.obj.fs, res); } #if !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* Get Number of Free Clusters */ /*-----------------------------------------------------------------------*/ FRESULT f_getfree ( const TCHAR* path, /* Logical drive number */ DWORD* nclst, /* Pointer to a variable to return number of free clusters */ FATFS** fatfs /* Pointer to return pointer to corresponding filesystem object */ ) { FRESULT res; FATFS *fs; DWORD nfree, clst, sect, stat; UINT i; FFOBJID obj; /* Get logical drive */ res = find_volume(&path, &fs, 0); if (res == FR_OK) { if (fatfs) *fatfs = fs; /* Return ptr to the fs object */ /* If free_clst is valid, return it without full FAT scan */ if (fs->free_clst <= fs->n_fatent - 2) { *nclst = fs->free_clst; } else { /* Scan FAT to obtain number of free clusters */ nfree = 0; if (fs->fs_type == FS_FAT12) { /* FAT12: Scan bit field FAT entries */ clst = 2; obj.fs = fs; do { stat = get_fat(&obj, clst); if (stat == 0xFFFFFFFF) { res = FR_DISK_ERR; break; } if (stat == 1) { res = FR_INT_ERR; break; } if (stat == 0) nfree++; } while (++clst < fs->n_fatent); } else { #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { /* exFAT: Scan allocation bitmap */ BYTE bm; UINT b; clst = fs->n_fatent - 2; /* Number of clusters */ sect = fs->bitbase; /* Bitmap sector */ i = 0; /* Offset in the sector */ do { /* Counts numbuer of bits with zero in the bitmap */ if (i == 0) { res = move_window(fs, sect++); if (res != FR_OK) break; } for (b = 8, bm = fs->win[i]; b && clst; b--, clst--) { if (!(bm & 1)) nfree++; bm >>= 1; } i = (i + 1) % SS(fs); } while (clst); } else #endif { /* FAT16/32: Scan WORD/DWORD FAT entries */ clst = fs->n_fatent; /* Number of entries */ sect = fs->fatbase; /* Top of the FAT */ i = 0; /* Offset in the sector */ do { /* Counts numbuer of entries with zero in the FAT */ if (i == 0) { res = move_window(fs, sect++); if (res != FR_OK) break; } if (fs->fs_type == FS_FAT16) { if (ld_word(fs->win + i) == 0) nfree++; i += 2; } else { if ((ld_dword(fs->win + i) & 0x0FFFFFFF) == 0) nfree++; i += 4; } i %= SS(fs); } while (--clst); } } *nclst = nfree; /* Return the free clusters */ fs->free_clst = nfree; /* Now free_clst is valid */ fs->fsi_flag |= 1; /* FAT32: FSInfo is to be updated */ } } LEAVE_FF(fs, res); } /*-----------------------------------------------------------------------*/ /* Truncate File */ /*-----------------------------------------------------------------------*/ FRESULT f_truncate ( FIL* fp /* Pointer to the file object */ ) { FRESULT res; FATFS *fs; DWORD ncl; res = validate(&fp->obj, &fs); /* Check validity of the file object */ if (res != FR_OK || (res = (FRESULT)fp->err) != FR_OK) LEAVE_FF(fs, res); if (!(fp->flag & FA_WRITE)) LEAVE_FF(fs, FR_DENIED); /* Check access mode */ if (fp->fptr < fp->obj.objsize) { /* Process when fptr is not on the eof */ if (fp->fptr == 0) { /* When set file size to zero, remove entire cluster chain */ res = remove_chain(&fp->obj, fp->obj.sclust, 0); fp->obj.sclust = 0; } else { /* When truncate a part of the file, remove remaining clusters */ ncl = get_fat(&fp->obj, fp->clust); res = FR_OK; if (ncl == 0xFFFFFFFF) res = FR_DISK_ERR; if (ncl == 1) res = FR_INT_ERR; if (res == FR_OK && ncl < fs->n_fatent) { res = remove_chain(&fp->obj, ncl, fp->clust); } } fp->obj.objsize = fp->fptr; /* Set file size to current read/write point */ fp->flag |= FA_MODIFIED; #if !FF_FS_TINY if (res == FR_OK && (fp->flag & FA_DIRTY)) { if (disk_write(fs->pdrv, fp->buf, fp->sect, 1) != RES_OK) { res = FR_DISK_ERR; } else { fp->flag &= (BYTE)~FA_DIRTY; } } #endif if (res != FR_OK) ABORT(fs, res); } LEAVE_FF(fs, res); } /*-----------------------------------------------------------------------*/ /* Delete a File/Directory */ /*-----------------------------------------------------------------------*/ FRESULT f_unlink ( const TCHAR* path /* Pointer to the file or directory path */ ) { FRESULT res; DIR dj, sdj; DWORD dclst = 0; FATFS *fs; #if FF_FS_EXFAT FFOBJID obj; #endif DEF_NAMBUF /* Get logical drive */ res = find_volume(&path, &fs, FA_WRITE); if (res == FR_OK) { dj.obj.fs = fs; INIT_NAMBUF(fs); res = follow_path(&dj, path); /* Follow the file path */ if (FF_FS_RPATH && res == FR_OK && (dj.fn[NSFLAG] & NS_DOT)) { res = FR_INVALID_NAME; /* Cannot remove dot entry */ } #if FF_FS_LOCK != 0 if (res == FR_OK) res = chk_lock(&dj, 2); /* Check if it is an open object */ #endif if (res == FR_OK) { /* The object is accessible */ if (dj.fn[NSFLAG] & NS_NONAME) { res = FR_INVALID_NAME; /* Cannot remove the origin directory */ } else { if (dj.obj.attr & AM_RDO) { res = FR_DENIED; /* Cannot remove R/O object */ } } if (res == FR_OK) { #if FF_FS_EXFAT obj.fs = fs; if (fs->fs_type == FS_EXFAT) { init_alloc_info(fs, &obj); dclst = obj.sclust; } else #endif { dclst = ld_clust(fs, dj.dir); } if (dj.obj.attr & AM_DIR) { /* Is it a sub-directory? */ #if FF_FS_RPATH != 0 if (dclst == fs->cdir) { /* Is it the current directory? */ res = FR_DENIED; } else #endif { sdj.obj.fs = fs; /* Open the sub-directory */ sdj.obj.sclust = dclst; #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { sdj.obj.objsize = obj.objsize; sdj.obj.stat = obj.stat; } #endif res = dir_sdi(&sdj, 0); if (res == FR_OK) { res = DIR_READ_FILE(&sdj); /* Test if the directory is empty */ if (res == FR_OK) res = FR_DENIED; /* Not empty? */ if (res == FR_NO_FILE) res = FR_OK; /* Empty? */ } } } } if (res == FR_OK) { res = dir_remove(&dj); /* Remove the directory entry */ if (res == FR_OK && dclst != 0) { /* Remove the cluster chain if exist */ #if FF_FS_EXFAT res = remove_chain(&obj, dclst, 0); #else res = remove_chain(&dj.obj, dclst, 0); #endif } if (res == FR_OK) res = sync_fs(fs); } } FREE_NAMBUF(); } LEAVE_FF(fs, res); } /*-----------------------------------------------------------------------*/ /* Create a Directory */ /*-----------------------------------------------------------------------*/ FRESULT f_mkdir ( const TCHAR* path /* Pointer to the directory path */ ) { FRESULT res; DIR dj; FFOBJID sobj; FATFS *fs; DWORD dcl, pcl, tm; DEF_NAMBUF res = find_volume(&path, &fs, FA_WRITE); /* Get logical drive */ if (res == FR_OK) { dj.obj.fs = fs; INIT_NAMBUF(fs); res = follow_path(&dj, path); /* Follow the file path */ if (res == FR_OK) res = FR_EXIST; /* Name collision? */ if (FF_FS_RPATH && res == FR_NO_FILE && (dj.fn[NSFLAG] & NS_DOT)) { /* Invalid name? */ res = FR_INVALID_NAME; } if (res == FR_NO_FILE) { /* It is clear to create a new directory */ sobj.fs = fs; /* New object id to create a new chain */ dcl = create_chain(&sobj, 0); /* Allocate a cluster for the new directory */ res = FR_OK; if (dcl == 0) res = FR_DENIED; /* No space to allocate a new cluster? */ if (dcl == 1) res = FR_INT_ERR; /* Any insanity? */ if (dcl == 0xFFFFFFFF) res = FR_DISK_ERR; /* Disk error? */ tm = GET_FATTIME(); if (res == FR_OK) { res = dir_clear(fs, dcl); /* Clean up the new table */ if (res == FR_OK) { if (!FF_FS_EXFAT || fs->fs_type != FS_EXFAT) { /* Create dot entries (FAT only) */ mem_set(fs->win + DIR_Name, ' ', 11); /* Create "." entry */ fs->win[DIR_Name] = '.'; fs->win[DIR_Attr] = AM_DIR; st_dword(fs->win + DIR_ModTime, tm); st_clust(fs, fs->win, dcl); mem_cpy(fs->win + SZDIRE, fs->win, SZDIRE); /* Create ".." entry */ fs->win[SZDIRE + 1] = '.'; pcl = dj.obj.sclust; st_clust(fs, fs->win + SZDIRE, pcl); fs->wflag = 1; } res = dir_register(&dj); /* Register the object to the parent directoy */ } } if (res == FR_OK) { #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { /* Initialize directory entry block */ st_dword(fs->dirbuf + XDIR_ModTime, tm); /* Created time */ st_dword(fs->dirbuf + XDIR_FstClus, dcl); /* Table start cluster */ st_dword(fs->dirbuf + XDIR_FileSize, (DWORD)fs->csize * SS(fs)); /* File size needs to be valid */ st_dword(fs->dirbuf + XDIR_ValidFileSize, (DWORD)fs->csize * SS(fs)); fs->dirbuf[XDIR_GenFlags] = 3; /* Initialize the object flag */ fs->dirbuf[XDIR_Attr] = AM_DIR; /* Attribute */ res = store_xdir(&dj); } else #endif { st_dword(dj.dir + DIR_ModTime, tm); /* Created time */ st_clust(fs, dj.dir, dcl); /* Table start cluster */ dj.dir[DIR_Attr] = AM_DIR; /* Attribute */ fs->wflag = 1; } if (res == FR_OK) { res = sync_fs(fs); } } else { remove_chain(&sobj, dcl, 0); /* Could not register, remove the allocated cluster */ } } FREE_NAMBUF(); } LEAVE_FF(fs, res); } /*-----------------------------------------------------------------------*/ /* Rename a File/Directory */ /*-----------------------------------------------------------------------*/ FRESULT f_rename ( const TCHAR* path_old, /* Pointer to the object name to be renamed */ const TCHAR* path_new /* Pointer to the new name */ ) { FRESULT res; DIR djo, djn; FATFS *fs; BYTE buf[FF_FS_EXFAT ? SZDIRE * 2 : SZDIRE], *dir; DWORD dw; DEF_NAMBUF get_ldnumber(&path_new); /* Snip the drive number of new name off */ res = find_volume(&path_old, &fs, FA_WRITE); /* Get logical drive of the old object */ if (res == FR_OK) { djo.obj.fs = fs; INIT_NAMBUF(fs); res = follow_path(&djo, path_old); /* Check old object */ if (res == FR_OK && (djo.fn[NSFLAG] & (NS_DOT | NS_NONAME))) res = FR_INVALID_NAME; /* Check validity of name */ #if FF_FS_LOCK != 0 if (res == FR_OK) { res = chk_lock(&djo, 2); } #endif if (res == FR_OK) { /* Object to be renamed is found */ #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { /* At exFAT volume */ BYTE nf, nn; WORD nh; mem_cpy(buf, fs->dirbuf, SZDIRE * 2); /* Save 85+C0 entry of old object */ mem_cpy(&djn, &djo, sizeof djo); res = follow_path(&djn, path_new); /* Make sure if new object name is not in use */ if (res == FR_OK) { /* Is new name already in use by any other object? */ res = (djn.obj.sclust == djo.obj.sclust && djn.dptr == djo.dptr) ? FR_NO_FILE : FR_EXIST; } if (res == FR_NO_FILE) { /* It is a valid path and no name collision */ res = dir_register(&djn); /* Register the new entry */ if (res == FR_OK) { nf = fs->dirbuf[XDIR_NumSec]; nn = fs->dirbuf[XDIR_NumName]; nh = ld_word(fs->dirbuf + XDIR_NameHash); mem_cpy(fs->dirbuf, buf, SZDIRE * 2); /* Restore 85+C0 entry */ fs->dirbuf[XDIR_NumSec] = nf; fs->dirbuf[XDIR_NumName] = nn; st_word(fs->dirbuf + XDIR_NameHash, nh); if (!(fs->dirbuf[XDIR_Attr] & AM_DIR)) fs->dirbuf[XDIR_Attr] |= AM_ARC; /* Set archive attribute if it is a file */ /* Start of critical section where an interruption can cause a cross-link */ res = store_xdir(&djn); } } } else #endif { /* At FAT/FAT32 volume */ mem_cpy(buf, djo.dir, SZDIRE); /* Save directory entry of the object */ mem_cpy(&djn, &djo, sizeof (DIR)); /* Duplicate the directory object */ res = follow_path(&djn, path_new); /* Make sure if new object name is not in use */ if (res == FR_OK) { /* Is new name already in use by any other object? */ res = (djn.obj.sclust == djo.obj.sclust && djn.dptr == djo.dptr) ? FR_NO_FILE : FR_EXIST; } if (res == FR_NO_FILE) { /* It is a valid path and no name collision */ res = dir_register(&djn); /* Register the new entry */ if (res == FR_OK) { dir = djn.dir; /* Copy directory entry of the object except name */ mem_cpy(dir + 13, buf + 13, SZDIRE - 13); dir[DIR_Attr] = buf[DIR_Attr]; if (!(dir[DIR_Attr] & AM_DIR)) dir[DIR_Attr] |= AM_ARC; /* Set archive attribute if it is a file */ fs->wflag = 1; if ((dir[DIR_Attr] & AM_DIR) && djo.obj.sclust != djn.obj.sclust) { /* Update .. entry in the sub-directory if needed */ dw = clst2sect(fs, ld_clust(fs, dir)); if (dw == 0) { res = FR_INT_ERR; } else { /* Start of critical section where an interruption can cause a cross-link */ res = move_window(fs, dw); dir = fs->win + SZDIRE * 1; /* Ptr to .. entry */ if (res == FR_OK && dir[1] == '.') { st_clust(fs, dir, djn.obj.sclust); fs->wflag = 1; } } } } } } if (res == FR_OK) { res = dir_remove(&djo); /* Remove old entry */ if (res == FR_OK) { res = sync_fs(fs); } } /* End of the critical section */ } FREE_NAMBUF(); } LEAVE_FF(fs, res); } #endif /* !FF_FS_READONLY */ #endif /* FF_FS_MINIMIZE == 0 */ #endif /* FF_FS_MINIMIZE <= 1 */ #endif /* FF_FS_MINIMIZE <= 2 */ #if FF_USE_CHMOD && !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* Change Attribute */ /*-----------------------------------------------------------------------*/ FRESULT f_chmod ( const TCHAR* path, /* Pointer to the file path */ BYTE attr, /* Attribute bits */ BYTE mask /* Attribute mask to change */ ) { FRESULT res; DIR dj; FATFS *fs; DEF_NAMBUF res = find_volume(&path, &fs, FA_WRITE); /* Get logical drive */ if (res == FR_OK) { dj.obj.fs = fs; INIT_NAMBUF(fs); res = follow_path(&dj, path); /* Follow the file path */ if (res == FR_OK && (dj.fn[NSFLAG] & (NS_DOT | NS_NONAME))) res = FR_INVALID_NAME; /* Check object validity */ if (res == FR_OK) { mask &= AM_RDO|AM_HID|AM_SYS|AM_ARC; /* Valid attribute mask */ #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { fs->dirbuf[XDIR_Attr] = (attr & mask) | (fs->dirbuf[XDIR_Attr] & (BYTE)~mask); /* Apply attribute change */ res = store_xdir(&dj); } else #endif { dj.dir[DIR_Attr] = (attr & mask) | (dj.dir[DIR_Attr] & (BYTE)~mask); /* Apply attribute change */ fs->wflag = 1; } if (res == FR_OK) { res = sync_fs(fs); } } FREE_NAMBUF(); } LEAVE_FF(fs, res); } /*-----------------------------------------------------------------------*/ /* Change Timestamp */ /*-----------------------------------------------------------------------*/ FRESULT f_utime ( const TCHAR* path, /* Pointer to the file/directory name */ const FILINFO* fno /* Pointer to the timestamp to be set */ ) { FRESULT res; DIR dj; FATFS *fs; DEF_NAMBUF res = find_volume(&path, &fs, FA_WRITE); /* Get logical drive */ if (res == FR_OK) { dj.obj.fs = fs; INIT_NAMBUF(fs); res = follow_path(&dj, path); /* Follow the file path */ if (res == FR_OK && (dj.fn[NSFLAG] & (NS_DOT | NS_NONAME))) res = FR_INVALID_NAME; /* Check object validity */ if (res == FR_OK) { #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { st_dword(fs->dirbuf + XDIR_ModTime, (DWORD)fno->fdate << 16 | fno->ftime); res = store_xdir(&dj); } else #endif { st_dword(dj.dir + DIR_ModTime, (DWORD)fno->fdate << 16 | fno->ftime); fs->wflag = 1; } if (res == FR_OK) { res = sync_fs(fs); } } FREE_NAMBUF(); } LEAVE_FF(fs, res); } #endif /* FF_USE_CHMOD && !FF_FS_READONLY */ #if FF_USE_LABEL /*-----------------------------------------------------------------------*/ /* Get Volume Label */ /*-----------------------------------------------------------------------*/ FRESULT f_getlabel ( const TCHAR* path, /* Logical drive number */ TCHAR* label, /* Buffer to store the volume label */ DWORD* vsn /* Variable to store the volume serial number */ ) { FRESULT res; DIR dj; FATFS *fs; UINT si, di; WCHAR wc; /* Get logical drive */ res = find_volume(&path, &fs, 0); /* Get volume label */ if (res == FR_OK && label) { dj.obj.fs = fs; dj.obj.sclust = 0; /* Open root directory */ res = dir_sdi(&dj, 0); if (res == FR_OK) { res = DIR_READ_LABEL(&dj); /* Find a volume label entry */ if (res == FR_OK) { #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { WCHAR hs; for (si = di = hs = 0; si < dj.dir[XDIR_NumLabel]; si++) { /* Extract volume label from 83 entry */ wc = ld_word(dj.dir + XDIR_Label + si * 2); if (hs == 0 && IsSurrogate(wc)) { /* Is the code a surrogate? */ hs = wc; continue; } wc = put_utf((DWORD)hs << 16 | wc, &label[di], 4); if (wc == 0) { di = 0; break; } di += wc; hs = 0; } if (hs != 0) di = 0; /* Broken surrogate pair? */ label[di] = 0; } else #endif { si = di = 0; /* Extract volume label from AM_VOL entry */ while (si < 11) { wc = dj.dir[si++]; #if FF_USE_LFN && FF_LFN_UNICODE >= 1 /* Unicode output */ if (dbc_1st((BYTE)wc) && si < 11) wc = wc << 8 | dj.dir[si++]; /* Is it a DBC? */ wc = ff_oem2uni(wc, CODEPAGE); /* Convert it into Unicode */ if (wc != 0) wc = put_utf(wc, &label[di], 4); /* Put it in Unicode */ if (wc == 0) { di = 0; break; } di += wc; #else /* ANSI/OEM output */ label[di++] = (TCHAR)wc; #endif } do { /* Truncate trailing spaces */ label[di] = 0; if (di == 0) break; } while (label[--di] == ' '); } } } if (res == FR_NO_FILE) { /* No label entry and return nul string */ label[0] = 0; res = FR_OK; } } /* Get volume serial number */ if (res == FR_OK && vsn) { res = move_window(fs, fs->volbase); if (res == FR_OK) { switch (fs->fs_type) { case FS_EXFAT: di = BPB_VolIDEx; break; case FS_FAT32: di = BS_VolID32; break; default: di = BS_VolID; } *vsn = ld_dword(fs->win + di); } } LEAVE_FF(fs, res); } #if !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* Set Volume Label */ /*-----------------------------------------------------------------------*/ FRESULT f_setlabel ( const TCHAR* label /* Volume label to set with heading logical drive number */ ) { FRESULT res; DIR dj; FATFS *fs; BYTE dirvn[22]; UINT di; WCHAR wc; static const char badchr[] = "+.,;=[]/\\\"*:<>\?|\x7F"; /* [0..] for FAT, [7..] for exFAT */ #if FF_USE_LFN DWORD dc; #endif /* Get logical drive */ res = find_volume(&label, &fs, FA_WRITE); if (res != FR_OK) LEAVE_FF(fs, res); #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { /* On the exFAT volume */ mem_set(dirvn, 0, 22); di = 0; while ((UINT)*label >= ' ') { /* Create volume label */ dc = tchar2uni(&label); /* Get a Unicode character */ if (dc >= 0x10000) { if (dc == 0xFFFFFFFF || di >= 10) { /* Wrong surrogate or buffer overflow */ dc = 0; } else { st_word(dirvn + di * 2, (WCHAR)(dc >> 16)); di++; } } if (dc == 0 || chk_chr(badchr + 7, (int)dc) || di >= 11) { /* Check validity of the volume label */ LEAVE_FF(fs, FR_INVALID_NAME); } st_word(dirvn + di * 2, (WCHAR)dc); di++; } } else #endif { /* On the FAT/FAT32 volume */ mem_set(dirvn, ' ', 11); di = 0; while ((UINT)*label >= ' ') { /* Create volume label */ #if FF_USE_LFN dc = tchar2uni(&label); wc = (dc < 0x10000) ? ff_uni2oem(ff_wtoupper(dc), CODEPAGE) : 0; #else /* ANSI/OEM input */ wc = (BYTE)*label++; if (dbc_1st((BYTE)wc)) wc = dbc_2nd((BYTE)*label) ? wc << 8 | (BYTE)*label++ : 0; if (IsLower(wc)) wc -= 0x20; /* To upper ASCII characters */ #if FF_CODE_PAGE == 0 if (ExCvt && wc >= 0x80) wc = ExCvt[wc - 0x80]; /* To upper extended characters (SBCS cfg) */ #elif FF_CODE_PAGE < 900 if (wc >= 0x80) wc = ExCvt[wc - 0x80]; /* To upper extended characters (SBCS cfg) */ #endif #endif if (wc == 0 || chk_chr(badchr + 0, (int)wc) || di >= (UINT)((wc >= 0x100) ? 10 : 11)) { /* Reject invalid characters for volume label */ LEAVE_FF(fs, FR_INVALID_NAME); } if (wc >= 0x100) dirvn[di++] = (BYTE)(wc >> 8); dirvn[di++] = (BYTE)wc; } if (dirvn[0] == DDEM) LEAVE_FF(fs, FR_INVALID_NAME); /* Reject illegal name (heading DDEM) */ while (di && dirvn[di - 1] == ' ') di--; /* Snip trailing spaces */ } /* Set volume label */ dj.obj.fs = fs; dj.obj.sclust = 0; /* Open root directory */ res = dir_sdi(&dj, 0); if (res == FR_OK) { res = DIR_READ_LABEL(&dj); /* Get volume label entry */ if (res == FR_OK) { if (FF_FS_EXFAT && fs->fs_type == FS_EXFAT) { dj.dir[XDIR_NumLabel] = (BYTE)di; /* Change the volume label */ mem_cpy(dj.dir + XDIR_Label, dirvn, 22); } else { if (di != 0) { mem_cpy(dj.dir, dirvn, 11); /* Change the volume label */ } else { dj.dir[DIR_Name] = DDEM; /* Remove the volume label */ } } fs->wflag = 1; res = sync_fs(fs); } else { /* No volume label entry or an error */ if (res == FR_NO_FILE) { res = FR_OK; if (di != 0) { /* Create a volume label entry */ res = dir_alloc(&dj, 1); /* Allocate an entry */ if (res == FR_OK) { mem_set(dj.dir, 0, SZDIRE); /* Clean the entry */ if (FF_FS_EXFAT && fs->fs_type == FS_EXFAT) { dj.dir[XDIR_Type] = ET_VLABEL; /* Create volume label entry */ dj.dir[XDIR_NumLabel] = (BYTE)di; mem_cpy(dj.dir + XDIR_Label, dirvn, 22); } else { dj.dir[DIR_Attr] = AM_VOL; /* Create volume label entry */ mem_cpy(dj.dir, dirvn, 11); } fs->wflag = 1; res = sync_fs(fs); } } } } } LEAVE_FF(fs, res); } #endif /* !FF_FS_READONLY */ #endif /* FF_USE_LABEL */ #if FF_USE_EXPAND && !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* Allocate a Contiguous Blocks to the File */ /*-----------------------------------------------------------------------*/ FRESULT f_expand ( FIL* fp, /* Pointer to the file object */ FSIZE_t fsz, /* File size to be expanded to */ BYTE opt /* Operation mode 0:Find and prepare or 1:Find and allocate */ ) { FRESULT res; FATFS *fs; DWORD n, clst, stcl, scl, ncl, tcl, lclst; res = validate(&fp->obj, &fs); /* Check validity of the file object */ if (res != FR_OK || (res = (FRESULT)fp->err) != FR_OK) LEAVE_FF(fs, res); if (fsz == 0 || fp->obj.objsize != 0 || !(fp->flag & FA_WRITE)) LEAVE_FF(fs, FR_DENIED); #if FF_FS_EXFAT if (fs->fs_type != FS_EXFAT && fsz >= 0x100000000) LEAVE_FF(fs, FR_DENIED); /* Check if in size limit */ #endif n = (DWORD)fs->csize * SS(fs); /* Cluster size */ tcl = (DWORD)(fsz / n) + ((fsz & (n - 1)) ? 1 : 0); /* Number of clusters required */ stcl = fs->last_clst; lclst = 0; if (stcl < 2 || stcl >= fs->n_fatent) stcl = 2; #if FF_FS_EXFAT if (fs->fs_type == FS_EXFAT) { scl = find_bitmap(fs, stcl, tcl); /* Find a contiguous cluster block */ if (scl == 0) res = FR_DENIED; /* No contiguous cluster block was found */ if (scl == 0xFFFFFFFF) res = FR_DISK_ERR; if (res == FR_OK) { /* A contiguous free area is found */ if (opt) { /* Allocate it now */ res = change_bitmap(fs, scl, tcl, 1); /* Mark the cluster block 'in use' */ lclst = scl + tcl - 1; } else { /* Set it as suggested point for next allocation */ lclst = scl - 1; } } } else #endif { scl = clst = stcl; ncl = 0; for (;;) { /* Find a contiguous cluster block */ n = get_fat(&fp->obj, clst); if (++clst >= fs->n_fatent) clst = 2; if (n == 1) { res = FR_INT_ERR; break; } if (n == 0xFFFFFFFF) { res = FR_DISK_ERR; break; } if (n == 0) { /* Is it a free cluster? */ if (++ncl == tcl) break; /* Break if a contiguous cluster block is found */ } else { scl = clst; ncl = 0; /* Not a free cluster */ } if (clst == stcl) { res = FR_DENIED; break; } /* No contiguous cluster? */ } if (res == FR_OK) { /* A contiguous free area is found */ if (opt) { /* Allocate it now */ for (clst = scl, n = tcl; n; clst++, n--) { /* Create a cluster chain on the FAT */ res = put_fat(fs, clst, (n == 1) ? 0xFFFFFFFF : clst + 1); if (res != FR_OK) break; lclst = clst; } } else { /* Set it as suggested point for next allocation */ lclst = scl - 1; } } } if (res == FR_OK) { fs->last_clst = lclst; /* Set suggested start cluster to start next */ if (opt) { /* Is it allocated now? */ fp->obj.sclust = scl; /* Update object allocation information */ fp->obj.objsize = fsz; if (FF_FS_EXFAT) fp->obj.stat = 2; /* Set status 'contiguous chain' */ fp->flag |= FA_MODIFIED; if (fs->free_clst <= fs->n_fatent - 2) { /* Update FSINFO */ fs->free_clst -= tcl; fs->fsi_flag |= 1; } } } LEAVE_FF(fs, res); } #endif /* FF_USE_EXPAND && !FF_FS_READONLY */ #if FF_USE_FORWARD /*-----------------------------------------------------------------------*/ /* Forward Data to the Stream Directly */ /*-----------------------------------------------------------------------*/ FRESULT f_forward ( FIL* fp, /* Pointer to the file object */ UINT (*func)(const BYTE*,UINT), /* Pointer to the streaming function */ UINT btf, /* Number of bytes to forward */ UINT* bf /* Pointer to number of bytes forwarded */ ) { FRESULT res; FATFS *fs; DWORD clst, sect; FSIZE_t remain; UINT rcnt, csect; BYTE *dbuf; *bf = 0; /* Clear transfer byte counter */ res = validate(&fp->obj, &fs); /* Check validity of the file object */ if (res != FR_OK || (res = (FRESULT)fp->err) != FR_OK) LEAVE_FF(fs, res); if (!(fp->flag & FA_READ)) LEAVE_FF(fs, FR_DENIED); /* Check access mode */ remain = fp->obj.objsize - fp->fptr; if (btf > remain) btf = (UINT)remain; /* Truncate btf by remaining bytes */ for ( ; btf && (*func)(0, 0); /* Repeat until all data transferred or stream goes busy */ fp->fptr += rcnt, *bf += rcnt, btf -= rcnt) { csect = (UINT)(fp->fptr / SS(fs) & (fs->csize - 1)); /* Sector offset in the cluster */ if (fp->fptr % SS(fs) == 0) { /* On the sector boundary? */ if (csect == 0) { /* On the cluster boundary? */ clst = (fp->fptr == 0) ? /* On the top of the file? */ fp->obj.sclust : get_fat(&fp->obj, fp->clust); if (clst <= 1) ABORT(fs, FR_INT_ERR); if (clst == 0xFFFFFFFF) ABORT(fs, FR_DISK_ERR); fp->clust = clst; /* Update current cluster */ } } sect = clst2sect(fs, fp->clust); /* Get current data sector */ if (sect == 0) ABORT(fs, FR_INT_ERR); sect += csect; #if FF_FS_TINY if (move_window(fs, sect) != FR_OK) ABORT(fs, FR_DISK_ERR); /* Move sector window to the file data */ dbuf = fs->win; #else if (fp->sect != sect) { /* Fill sector cache with file data */ #if !FF_FS_READONLY if (fp->flag & FA_DIRTY) { /* Write-back dirty sector cache */ if (disk_write(fs->pdrv, fp->buf, fp->sect, 1) != RES_OK) ABORT(fs, FR_DISK_ERR); fp->flag &= (BYTE)~FA_DIRTY; } #endif if (disk_read(fs->pdrv, fp->buf, sect, 1) != RES_OK) ABORT(fs, FR_DISK_ERR); } dbuf = fp->buf; #endif fp->sect = sect; rcnt = SS(fs) - (UINT)fp->fptr % SS(fs); /* Number of bytes left in the sector */ if (rcnt > btf) rcnt = btf; /* Clip it by btr if needed */ rcnt = (*func)(dbuf + ((UINT)fp->fptr % SS(fs)), rcnt); /* Forward the file data */ if (rcnt == 0) ABORT(fs, FR_INT_ERR); } LEAVE_FF(fs, FR_OK); } #endif /* FF_USE_FORWARD */ #if FF_USE_MKFS && !FF_FS_READONLY /*-----------------------------------------------------------------------*/ /* Create an FAT/exFAT volume */ /*-----------------------------------------------------------------------*/ FRESULT f_mkfs ( const TCHAR* path, /* Logical drive number */ BYTE opt, /* Format option */ DWORD au, /* Size of allocation unit (cluster) [byte] */ void* work, /* Pointer to working buffer (null: use heap memory) */ UINT len /* Size of working buffer [byte] */ ) { const UINT n_fats = 2; /* Number of FATs for FAT/FAT32 volume (1 or 2) */ const UINT n_rootdir = 512; /* Number of root directory entries for FAT volume */ static const WORD cst[] = {1, 4, 16, 64, 256, 512, 0}; /* Cluster size boundary for FAT volume (4Ks unit) */ static const WORD cst32[] = {1, 2, 4, 8, 16, 32, 0}; /* Cluster size boundary for FAT32 volume (128Ks unit) */ BYTE fmt, sys, *buf, *pte, pdrv, part; WORD ss; /* Sector size */ DWORD szb_buf, sz_buf, sz_blk, n_clst, pau, sect, nsect, n; DWORD b_vol, b_fat, b_data; /* Base LBA for volume, fat, data */ DWORD sz_vol, sz_rsv, sz_fat, sz_dir; /* Size for volume, fat, dir, data */ UINT i; int vol; DSTATUS stat; #if FF_USE_TRIM || FF_FS_EXFAT DWORD tbl[3]; #endif /* Check mounted drive and clear work area */ vol = get_ldnumber(&path); /* Get target logical drive */ if (vol < 0) return FR_INVALID_DRIVE; if (FatFs[vol]) FatFs[vol]->fs_type = 0; /* Clear the volume if mounted */ pdrv = LD2PD(vol); /* Physical drive */ part = LD2PT(vol); /* Partition (0:create as new, 1-4:get from partition table) */ /* Check physical drive status */ stat = disk_initialize(pdrv); if (stat & STA_NOINIT) return FR_NOT_READY; if (stat & STA_PROTECT) return FR_WRITE_PROTECTED; if (disk_ioctl(pdrv, GET_BLOCK_SIZE, &sz_blk) != RES_OK || !sz_blk || sz_blk > 131072 || (sz_blk & (sz_blk - 1))) sz_blk = 2048; /* Erase block to align data area. 1MB minimum */ #if FF_MAX_SS != FF_MIN_SS /* Get sector size of the medium if variable sector size cfg. */ if (disk_ioctl(pdrv, GET_SECTOR_SIZE, &ss) != RES_OK) return FR_DISK_ERR; if (ss > FF_MAX_SS || ss < FF_MIN_SS || (ss & (ss - 1))) return FR_DISK_ERR; #else ss = FF_MAX_SS; #endif if ((au != 0 && au < ss) || au > 0x1000000 || (au & (au - 1))) return FR_INVALID_PARAMETER; /* Check if au is valid */ au /= ss; /* Cluster size in unit of sector */ /* Get working buffer */ #if FF_USE_LFN == 3 if (!work) { /* Use heap memory for working buffer */ for (szb_buf = MAX_MALLOC, buf = 0; szb_buf >= ss && (buf = ff_memalloc(szb_buf)) == 0; szb_buf /= 2) ; sz_buf = szb_buf / ss; /* Size of working buffer (sector) */ } else #endif { buf = (BYTE*)work; /* Working buffer */ sz_buf = len / ss; /* Size of working buffer (sector) */ szb_buf = sz_buf * ss; /* Size of working buffer (byte) */ } if (!buf || sz_buf == 0) return FR_NOT_ENOUGH_CORE; /* Determine where the volume to be located (b_vol, sz_vol) */ if (FF_MULTI_PARTITION && part != 0) { /* Get partition information from partition table in the MBR */ if (disk_read(pdrv, buf, 0, 1) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); /* Load MBR */ if (ld_word(buf + BS_55AA) != 0xAA55) LEAVE_MKFS(FR_MKFS_ABORTED); /* Check if MBR is valid */ pte = buf + (MBR_Table + (part - 1) * SZ_PTE); if (pte[PTE_System] == 0) LEAVE_MKFS(FR_MKFS_ABORTED); /* No partition? */ b_vol = ld_dword(pte + PTE_StLba); /* Get volume start sector */ sz_vol = ld_dword(pte + PTE_SizLba); /* Get volume size */ } else { /* Create a single-partition in this function */ if (disk_ioctl(pdrv, GET_SECTOR_COUNT, &sz_vol) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); b_vol = (opt & FM_SFD) ? 0 : sz_blk; /* Volume start sector */ if (sz_vol < b_vol) LEAVE_MKFS(FR_MKFS_ABORTED); sz_vol -= b_vol; /* Volume size */ } if (sz_vol < 128) LEAVE_MKFS(FR_MKFS_ABORTED); /* Check if volume size is >=128s */ /* Pre-determine the FAT type */ do { if (FF_FS_EXFAT && (opt & FM_EXFAT)) { /* exFAT possible? */ if ((opt & FM_ANY) == FM_EXFAT || sz_vol >= 0x4000000 || au > 128) { /* exFAT only, vol >= 64Ms or au > 128s ? */ fmt = FS_EXFAT; break; } } if (au > 128) LEAVE_MKFS(FR_INVALID_PARAMETER); /* Too large au for FAT/FAT32 */ if (opt & FM_FAT32) { /* FAT32 possible? */ if ((opt & FM_ANY) == FM_FAT32 || !(opt & FM_FAT)) { /* FAT32 only or no-FAT? */ fmt = FS_FAT32; break; } } if (!(opt & FM_FAT)) LEAVE_MKFS(FR_INVALID_PARAMETER); /* no-FAT? */ fmt = FS_FAT16; } while (0); #if FF_FS_EXFAT if (fmt == FS_EXFAT) { /* Create an exFAT volume */ DWORD szb_bit, szb_case, sum, nb, cl; WCHAR ch, si; UINT j, st; BYTE b; if (sz_vol < 0x1000) LEAVE_MKFS(FR_MKFS_ABORTED); /* Too small volume? */ #if FF_USE_TRIM tbl[0] = b_vol; tbl[1] = b_vol + sz_vol - 1; /* Inform the device the volume area may be erased */ disk_ioctl(pdrv, CTRL_TRIM, tbl); #endif /* Determine FAT location, data location and number of clusters */ if (au == 0) { /* au auto-selection */ au = 8; if (sz_vol >= 0x80000) au = 64; /* >= 512Ks */ if (sz_vol >= 0x4000000) au = 256; /* >= 64Ms */ } b_fat = b_vol + 32; /* FAT start at offset 32 */ sz_fat = ((sz_vol / au + 2) * 4 + ss - 1) / ss; /* Number of FAT sectors */ b_data = (b_fat + sz_fat + sz_blk - 1) & ~(sz_blk - 1); /* Align data area to the erase block boundary */ if (b_data - b_vol >= sz_vol / 2) LEAVE_MKFS(FR_MKFS_ABORTED); /* Too small volume? */ n_clst = (sz_vol - (b_data - b_vol)) / au; /* Number of clusters */ if (n_clst <16) LEAVE_MKFS(FR_MKFS_ABORTED); /* Too few clusters? */ if (n_clst > MAX_EXFAT) LEAVE_MKFS(FR_MKFS_ABORTED); /* Too many clusters? */ szb_bit = (n_clst + 7) / 8; /* Size of allocation bitmap */ tbl[0] = (szb_bit + au * ss - 1) / (au * ss); /* Number of allocation bitmap clusters */ /* Create a compressed up-case table */ sect = b_data + au * tbl[0]; /* Table start sector */ sum = 0; /* Table checksum to be stored in the 82 entry */ st = 0; si = 0; i = 0; j = 0; szb_case = 0; do { switch (st) { case 0: ch = (WCHAR)ff_wtoupper(si); /* Get an up-case char */ if (ch != si) { si++; break; /* Store the up-case char if exist */ } for (j = 1; (WCHAR)(si + j) && (WCHAR)(si + j) == ff_wtoupper((WCHAR)(si + j)); j++) ; /* Get run length of no-case block */ if (j >= 128) { ch = 0xFFFF; st = 2; break; /* Compress the no-case block if run is >= 128 */ } st = 1; /* Do not compress short run */ /* go to next case */ case 1: ch = si++; /* Fill the short run */ if (--j == 0) st = 0; break; default: ch = (WCHAR)j; si += (WCHAR)j; /* Number of chars to skip */ st = 0; } sum = xsum32(buf[i + 0] = (BYTE)ch, sum); /* Put it into the write buffer */ sum = xsum32(buf[i + 1] = (BYTE)(ch >> 8), sum); i += 2; szb_case += 2; if (si == 0 || i == szb_buf) { /* Write buffered data when buffer full or end of process */ n = (i + ss - 1) / ss; if (disk_write(pdrv, buf, sect, n) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); sect += n; i = 0; } } while (si); tbl[1] = (szb_case + au * ss - 1) / (au * ss); /* Number of up-case table clusters */ tbl[2] = 1; /* Number of root dir clusters */ /* Initialize the allocation bitmap */ sect = b_data; nsect = (szb_bit + ss - 1) / ss; /* Start of bitmap and number of sectors */ nb = tbl[0] + tbl[1] + tbl[2]; /* Number of clusters in-use by system */ do { mem_set(buf, 0, szb_buf); for (i = 0; nb >= 8 && i < szb_buf; buf[i++] = 0xFF, nb -= 8) ; for (b = 1; nb != 0 && i < szb_buf; buf[i] |= b, b <<= 1, nb--) ; n = (nsect > sz_buf) ? sz_buf : nsect; /* Write the buffered data */ if (disk_write(pdrv, buf, sect, n) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); sect += n; nsect -= n; } while (nsect); /* Initialize the FAT */ sect = b_fat; nsect = sz_fat; /* Start of FAT and number of FAT sectors */ j = nb = cl = 0; do { mem_set(buf, 0, szb_buf); i = 0; /* Clear work area and reset write index */ if (cl == 0) { /* Set entry 0 and 1 */ st_dword(buf + i, 0xFFFFFFF8); i += 4; cl++; st_dword(buf + i, 0xFFFFFFFF); i += 4; cl++; } do { /* Create chains of bitmap, up-case and root dir */ while (nb != 0 && i < szb_buf) { /* Create a chain */ st_dword(buf + i, (nb > 1) ? cl + 1 : 0xFFFFFFFF); i += 4; cl++; nb--; } if (nb == 0 && j < 3) nb = tbl[j++]; /* Next chain */ } while (nb != 0 && i < szb_buf); n = (nsect > sz_buf) ? sz_buf : nsect; /* Write the buffered data */ if (disk_write(pdrv, buf, sect, n) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); sect += n; nsect -= n; } while (nsect); /* Initialize the root directory */ mem_set(buf, 0, szb_buf); buf[SZDIRE * 0 + 0] = ET_VLABEL; /* Volume label entry */ buf[SZDIRE * 1 + 0] = ET_BITMAP; /* Bitmap entry */ st_dword(buf + SZDIRE * 1 + 20, 2); /* cluster */ st_dword(buf + SZDIRE * 1 + 24, szb_bit); /* size */ buf[SZDIRE * 2 + 0] = ET_UPCASE; /* Up-case table entry */ st_dword(buf + SZDIRE * 2 + 4, sum); /* sum */ st_dword(buf + SZDIRE * 2 + 20, 2 + tbl[0]); /* cluster */ st_dword(buf + SZDIRE * 2 + 24, szb_case); /* size */ sect = b_data + au * (tbl[0] + tbl[1]); nsect = au; /* Start of the root directory and number of sectors */ do { /* Fill root directory sectors */ n = (nsect > sz_buf) ? sz_buf : nsect; if (disk_write(pdrv, buf, sect, n) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); mem_set(buf, 0, ss); sect += n; nsect -= n; } while (nsect); /* Create two set of the exFAT VBR blocks */ sect = b_vol; for (n = 0; n < 2; n++) { /* Main record (+0) */ mem_set(buf, 0, ss); mem_cpy(buf + BS_JmpBoot, "\xEB\x76\x90" "EXFAT ", 11); /* Boot jump code (x86), OEM name */ st_dword(buf + BPB_VolOfsEx, b_vol); /* Volume offset in the physical drive [sector] */ st_dword(buf + BPB_TotSecEx, sz_vol); /* Volume size [sector] */ st_dword(buf + BPB_FatOfsEx, b_fat - b_vol); /* FAT offset [sector] */ st_dword(buf + BPB_FatSzEx, sz_fat); /* FAT size [sector] */ st_dword(buf + BPB_DataOfsEx, b_data - b_vol); /* Data offset [sector] */ st_dword(buf + BPB_NumClusEx, n_clst); /* Number of clusters */ st_dword(buf + BPB_RootClusEx, 2 + tbl[0] + tbl[1]); /* Root dir cluster # */ st_dword(buf + BPB_VolIDEx, GET_FATTIME()); /* VSN */ st_word(buf + BPB_FSVerEx, 0x100); /* Filesystem version (1.00) */ for (buf[BPB_BytsPerSecEx] = 0, i = ss; i >>= 1; buf[BPB_BytsPerSecEx]++) ; /* Log2 of sector size [byte] */ for (buf[BPB_SecPerClusEx] = 0, i = au; i >>= 1; buf[BPB_SecPerClusEx]++) ; /* Log2 of cluster size [sector] */ buf[BPB_NumFATsEx] = 1; /* Number of FATs */ buf[BPB_DrvNumEx] = 0x80; /* Drive number (for int13) */ st_word(buf + BS_BootCodeEx, 0xFEEB); /* Boot code (x86) */ st_word(buf + BS_55AA, 0xAA55); /* Signature (placed here regardless of sector size) */ for (i = sum = 0; i < ss; i++) { /* VBR checksum */ if (i != BPB_VolFlagEx && i != BPB_VolFlagEx + 1 && i != BPB_PercInUseEx) sum = xsum32(buf[i], sum); } if (disk_write(pdrv, buf, sect++, 1) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); /* Extended bootstrap record (+1..+8) */ mem_set(buf, 0, ss); st_word(buf + ss - 2, 0xAA55); /* Signature (placed at end of sector) */ for (j = 1; j < 9; j++) { for (i = 0; i < ss; sum = xsum32(buf[i++], sum)) ; /* VBR checksum */ if (disk_write(pdrv, buf, sect++, 1) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); } /* OEM/Reserved record (+9..+10) */ mem_set(buf, 0, ss); for ( ; j < 11; j++) { for (i = 0; i < ss; sum = xsum32(buf[i++], sum)) ; /* VBR checksum */ if (disk_write(pdrv, buf, sect++, 1) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); } /* Sum record (+11) */ for (i = 0; i < ss; i += 4) st_dword(buf + i, sum); /* Fill with checksum value */ if (disk_write(pdrv, buf, sect++, 1) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); } } else #endif /* FF_FS_EXFAT */ { /* Create an FAT/FAT32 volume */ do { pau = au; /* Pre-determine number of clusters and FAT sub-type */ if (fmt == FS_FAT32) { /* FAT32 volume */ if (pau == 0) { /* au auto-selection */ n = sz_vol / 0x20000; /* Volume size in unit of 128KS */ for (i = 0, pau = 1; cst32[i] && cst32[i] <= n; i++, pau <<= 1) ; /* Get from table */ } n_clst = sz_vol / pau; /* Number of clusters */ while (1) { /* Do not account for reserved/root cluster on FAT size for better alignment. */ sz_fat = (n_clst * 4 + ss - 1) / ss; /* FAT size [sector]. */ sz_rsv = 2048; /* Number of reserved sectors. Use 1MB for better performance (for flash memory media) */ sz_dir = 0; /* No static directory */ if (n_clst <= MAX_FAT16 || n_clst > MAX_FAT32) LEAVE_MKFS(FR_MKFS_ABORTED); b_fat = b_vol + sz_rsv; /* FAT base */ b_data = b_fat + sz_fat * n_fats + sz_dir; /* Data base */ /* Align data base to erase block boundary (for flash memory media) */ n = ((b_data + sz_blk - 1) & ~(sz_blk - 1)) - b_data; /* Next nearest erase block from current data base */ b_fat += n; /* FAT32: Move FAT base */ /* Make sure FAT base is aligned to reserved size for performance (PRF2SAFE min cluster alignment) */ if ((b_fat & (sz_rsv - 1) || (n_fats == 2 && sz_fat & (sz_rsv - 1)))) { n_clst++; /* FAT size must always be bigger than real free size */ continue; } sz_rsv += n; break; } } else { /* FAT volume */ if (pau == 0) { /* au auto-selection */ n = sz_vol / 0x1000; /* Volume size in unit of 4KS */ for (i = 0, pau = 1; cst[i] && cst[i] <= n; i++, pau <<= 1) ; /* Get from table */ } n_clst = sz_vol / pau; if (n_clst > MAX_FAT12) { n = n_clst * 2 + 4; /* FAT size [byte] */ } else { fmt = FS_FAT12; n = (n_clst * 3 + 1) / 2 + 3; /* FAT size [byte] */ } sz_fat = (n + ss - 1) / ss; /* FAT size [sector] */ sz_rsv = 1; /* Number of reserved sectors */ sz_dir = (DWORD)n_rootdir * SZDIRE / ss; /* Rootdir size [sector] */ b_fat = b_vol + sz_rsv; /* FAT base */ b_data = b_fat + sz_fat * n_fats + sz_dir; /* Data base */ /* Align data base to erase block boundary (for flash memory media) */ n = ((b_data + sz_blk - 1) & ~(sz_blk - 1)) - b_data; /* Next nearest erase block from current data base */ if (n % n_fats) { /* Adjust fractional error if needed */ n--; sz_rsv++; b_fat++; /* FAT: Expand FAT size */ } sz_fat += n / n_fats; } /* Determine number of clusters and final check of validity of the FAT sub-type */ if (sz_vol < b_data + pau * 16 - b_vol) LEAVE_MKFS(FR_MKFS_ABORTED); /* Too small volume */ n_clst = (sz_vol - sz_rsv - sz_fat * n_fats - sz_dir) / pau; if (fmt == FS_FAT32) { if (n_clst <= MAX_FAT16) { /* Too few clusters for FAT32 */ if (au == 0 && (au = pau / 2) != 0) continue; /* Adjust cluster size and retry */ LEAVE_MKFS(FR_MKFS_ABORTED); } } if (fmt == FS_FAT16) { if (n_clst > MAX_FAT16) { /* Too many clusters for FAT16 */ if (au == 0 && (pau * 2) <= 64) { au = pau * 2; continue; /* Adjust cluster size and retry */ } if ((opt & FM_FAT32)) { fmt = FS_FAT32; continue; /* Switch type to FAT32 and retry */ } if (au == 0 && (au = pau * 2) <= 128) continue; /* Adjust cluster size and retry */ LEAVE_MKFS(FR_MKFS_ABORTED); } if (n_clst <= MAX_FAT12) { /* Too few clusters for FAT16 */ if (au == 0 && (au = pau * 2) <= 128) continue; /* Adjust cluster size and retry */ LEAVE_MKFS(FR_MKFS_ABORTED); } } if (fmt == FS_FAT12 && n_clst > MAX_FAT12) LEAVE_MKFS(FR_MKFS_ABORTED); /* Too many clusters for FAT12 */ /* Ok, it is the valid cluster configuration */ break; } while (1); #if FF_USE_TRIM tbl[0] = b_vol; tbl[1] = b_vol + sz_vol - 1; /* Inform the device the volume area can be erased */ disk_ioctl(pdrv, CTRL_TRIM, tbl); #endif /* Create FAT VBR */ mem_set(buf, 0, ss); /* Boot jump code (x86), OEM name */ if (!(opt & FM_PRF2)) mem_cpy(buf + BS_JmpBoot, "\xEB\xFE\x90" "NYX1.8.0", 11); else mem_cpy(buf + BS_JmpBoot, "\xEB\xE9\x90\x00\x00\x00\x00\x00\x00\x00\x00", 11); st_word(buf + BPB_BytsPerSec, ss); /* Sector size [byte] */ buf[BPB_SecPerClus] = (BYTE)pau; /* Cluster size [sector] */ st_word(buf + BPB_RsvdSecCnt, (WORD)sz_rsv); /* Size of reserved area */ buf[BPB_NumFATs] = (BYTE)n_fats; /* Number of FATs */ st_word(buf + BPB_RootEntCnt, (WORD)((fmt == FS_FAT32) ? 0 : n_rootdir)); /* Number of root directory entries */ if (sz_vol < 0x10000) { st_word(buf + BPB_TotSec16, (WORD)sz_vol); /* Volume size in 16-bit LBA */ } else { st_dword(buf + BPB_TotSec32, sz_vol); /* Volume size in 32-bit LBA */ } buf[BPB_Media] = 0xF8; /* Media descriptor byte */ st_word(buf + BPB_SecPerTrk, 63); /* Number of sectors per track (for int13) */ st_word(buf + BPB_NumHeads, (opt & FM_PRF2) ? 16 : 255); /* Number of heads (for int13) */ st_dword(buf + BPB_HiddSec, b_vol); /* Volume offset in the physical drive [sector] */ if (fmt == FS_FAT32) { st_dword(buf + BS_VolID32, (opt & FM_PRF2) ? 0 : GET_FATTIME()); /* VSN */ st_dword(buf + BPB_FATSz32, sz_fat); /* FAT size [sector] */ st_dword(buf + BPB_RootClus32, 2); /* Root directory cluster # (2) */ st_word(buf + BPB_FSInfo32, 1); /* Offset of FSINFO sector (VBR + 1) */ st_word(buf + BPB_BkBootSec32, 6); /* Offset of backup VBR (VBR + 6) */ buf[BS_DrvNum32] = 0x80; /* Drive number (for int13) */ buf[BS_BootSig32] = 0x29; /* Extended boot signature */ /* Volume label, FAT signature */ if (!(opt & FM_PRF2)) mem_cpy(buf + BS_VolLab32, FF_MKFS_LABEL "FAT32 ", 19); else mem_cpy(buf + BS_VolLab32, "NO NAME " "FAT32 ", 19); } else { st_dword(buf + BS_VolID, GET_FATTIME()); /* VSN */ st_word(buf + BPB_FATSz16, (WORD)sz_fat); /* FAT size [sector] */ buf[BS_DrvNum] = 0x80; /* Drive number (for int13) */ buf[BS_BootSig] = 0x29; /* Extended boot signature */ /* Volume label, FAT signature */ if (!(opt & FM_PRF2)) mem_cpy(buf + BS_VolLab, FF_MKFS_LABEL "FAT ", 19); else mem_cpy(buf + BS_VolLab, "NO NAME " "FAT ", 19); } st_word(buf + BS_55AA, 0xAA55); /* Signature (offset is fixed here regardless of sector size) */ if (disk_write(pdrv, buf, b_vol, 1) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); /* Write it to the VBR sector */ /* Create FSINFO record if needed */ if (fmt == FS_FAT32) { disk_write(pdrv, buf, b_vol + 6, 1); /* Write backup VBR (VBR + 6) */ mem_set(buf, 0, ss); st_dword(buf + FSI_LeadSig, 0x41615252); st_dword(buf + FSI_StrucSig, 0x61417272); if (opt & FM_PRF2) { st_dword(buf + FSI_Free_Count, 0xFFFFFFFF); /* Invalidate free count */ st_dword(buf + FSI_Nxt_Free, 0xFFFFFFFF); /* Invalidate last allocated cluster */ } else { st_dword(buf + FSI_Free_Count, n_clst - 1); /* Number of free clusters */ st_dword(buf + FSI_Nxt_Free, 2); /* Last allocated cluster# */ } st_word(buf + BS_55AA, 0xAA55); disk_write(pdrv, buf, b_vol + 7, 1); /* Write backup FSINFO (VBR + 7) */ disk_write(pdrv, buf, b_vol + 1, 1); /* Write original FSINFO (VBR + 1) */ } /* Clear PRF2SAFE info so PrFILE2 can recreate it and upgrade it if old */ if (fmt == FS_FAT32 && opt & FM_PRF2) { mem_set(buf, 0, ss); disk_write(pdrv, buf, b_vol + 3, 1); /* Write PRF2SAFE info (VBR + 3) */ } /* Initialize FAT area */ mem_set(buf, 0, (UINT)szb_buf); sect = b_fat; /* FAT start sector */ for (i = 0; i < n_fats; i++) { /* Initialize FATs each */ if (fmt == FS_FAT32) { st_dword(buf + 0, 0xFFFFFFF8); /* Entry 0 */ st_dword(buf + 4, 0xFFFFFFFF); /* Entry 1 */ st_dword(buf + 8, 0x0FFFFFFF); /* Entry 2 (root directory) */ } else { st_dword(buf + 0, (fmt == FS_FAT12) ? 0xFFFFF8 : 0xFFFFFFF8); /* Entry 0 and 1 */ } nsect = sz_fat; /* Number of FAT sectors */ do { /* Fill FAT sectors */ n = (nsect > sz_buf) ? sz_buf : nsect; if (disk_write(pdrv, buf, sect, (UINT)n) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); mem_set(buf, 0, ss); sect += n; nsect -= n; } while (nsect); } /* Initialize root directory (fill with zero) */ nsect = (fmt == FS_FAT32) ? pau : sz_dir; /* Number of root directory sectors */ do { n = (nsect > sz_buf) ? sz_buf : nsect; if (disk_write(pdrv, buf, sect, (UINT)n) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); sect += n; nsect -= n; } while (nsect); } /* Determine system ID in the partition table */ if (FF_FS_EXFAT && fmt == FS_EXFAT) { sys = 0x07; /* HPFS/NTFS/exFAT */ } else { if (fmt == FS_FAT32) { sys = 0x0C; /* FAT32X */ } else { if (sz_vol >= 0x10000) { sys = 0x06; /* FAT12/16 (large) */ } else { sys = (fmt == FS_FAT16) ? 0x04 : 0x01; /* FAT16 : FAT12 */ } } } /* Update partition information */ if (FF_MULTI_PARTITION && part != 0) { /* Created in the existing partition */ /* Update system ID in the partition table */ if (disk_read(pdrv, buf, 0, 1) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); /* Read the MBR */ buf[MBR_Table + (part - 1) * SZ_PTE + PTE_System] = sys; /* Set system ID */ if (disk_write(pdrv, buf, 0, 1) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); /* Write it back to the MBR */ } else { /* Created as a new single partition */ if (!(opt & FM_SFD)) { /* Create partition table if in FDISK format */ mem_set(buf, 0, ss); st_word(buf + BS_55AA, 0xAA55); /* MBR signature */ pte = buf + MBR_Table; /* Create partition table for single partition in the drive */ pte[PTE_Boot] = 0; /* Boot indicator */ pte[PTE_StHead] = 1; /* Start head */ pte[PTE_StSec] = 1; /* Start sector */ pte[PTE_StCyl] = 0; /* Start cylinder */ pte[PTE_System] = sys; /* System type */ n = (b_vol + sz_vol) / (63 * 255); /* (End CHS may be invalid) */ pte[PTE_EdHead] = 254; /* End head */ pte[PTE_EdSec] = (BYTE)(((n >> 2) & 0xC0) | 63); /* End sector */ pte[PTE_EdCyl] = (BYTE)n; /* End cylinder */ st_dword(pte + PTE_StLba, b_vol); /* Start offset in LBA */ st_dword(pte + PTE_SizLba, sz_vol); /* Size in sectors */ if (disk_write(pdrv, buf, 0, 1) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); /* Write it to the MBR */ } } if (disk_ioctl(pdrv, CTRL_SYNC, 0) != RES_OK) LEAVE_MKFS(FR_DISK_ERR); LEAVE_MKFS(FR_OK); } #if FF_MULTI_PARTITION /*-----------------------------------------------------------------------*/ /* Create Partition Table on the Physical Drive */ /*-----------------------------------------------------------------------*/ FRESULT f_fdisk ( BYTE pdrv, /* Physical drive number */ const DWORD* szt, /* Pointer to the size table for each partitions */ void* work /* Pointer to the working buffer (null: use heap memory) */ ) { UINT i, n, sz_cyl, tot_cyl, b_cyl, e_cyl, p_cyl; BYTE s_hd, e_hd, *p, *buf = (BYTE*)work; DSTATUS stat; DWORD sz_disk, sz_part, s_part; FRESULT res; stat = disk_initialize(pdrv); if (stat & STA_NOINIT) return FR_NOT_READY; if (stat & STA_PROTECT) return FR_WRITE_PROTECTED; if (disk_ioctl(pdrv, GET_SECTOR_COUNT, &sz_disk)) return FR_DISK_ERR; buf = (BYTE*)work; #if FF_USE_LFN == 3 if (!buf) buf = ff_memalloc(FF_MAX_SS); /* Use heap memory for working buffer */ #endif if (!buf) return FR_NOT_ENOUGH_CORE; /* Determine the CHS without any consideration of the drive geometry */ for (n = 16; n < 256 && sz_disk / n / 63 > 1024; n *= 2) ; if (n == 256) n--; e_hd = (BYTE)(n - 1); sz_cyl = 63 * n; tot_cyl = sz_disk / sz_cyl; /* Create partition table */ mem_set(buf, 0, FF_MAX_SS); p = buf + MBR_Table; b_cyl = 0; for (i = 0; i < 4; i++, p += SZ_PTE) { p_cyl = (szt[i] <= 100U) ? (DWORD)tot_cyl * szt[i] / 100 : szt[i] / sz_cyl; /* Number of cylinders */ if (p_cyl == 0) continue; s_part = (DWORD)sz_cyl * b_cyl; sz_part = (DWORD)sz_cyl * p_cyl; if (i == 0) { /* Exclude first track of cylinder 0 */ s_hd = 1; s_part += 63; sz_part -= 63; } else { s_hd = 0; } e_cyl = b_cyl + p_cyl - 1; /* End cylinder */ if (e_cyl >= tot_cyl) LEAVE_MKFS(FR_INVALID_PARAMETER); /* Set partition table */ p[1] = s_hd; /* Start head */ p[2] = (BYTE)(((b_cyl >> 2) & 0xC0) | 1); /* Start sector */ p[3] = (BYTE)b_cyl; /* Start cylinder */ p[4] = 0x07; /* System type (temporary setting) */ p[5] = e_hd; /* End head */ p[6] = (BYTE)(((e_cyl >> 2) & 0xC0) | 63); /* End sector */ p[7] = (BYTE)e_cyl; /* End cylinder */ st_dword(p + 8, s_part); /* Start sector in LBA */ st_dword(p + 12, sz_part); /* Number of sectors */ /* Next partition */ b_cyl += p_cyl; } st_word(p, 0xAA55); /* MBR signature (always at offset 510) */ /* Write it to the MBR */ res = (disk_write(pdrv, buf, 0, 1) == RES_OK && disk_ioctl(pdrv, CTRL_SYNC, 0) == RES_OK) ? FR_OK : FR_DISK_ERR; LEAVE_MKFS(res); } #endif /* FF_MULTI_PARTITION */ #endif /* FF_USE_MKFS && !FF_FS_READONLY */ #if FF_USE_STRFUNC #if FF_USE_LFN && FF_LFN_UNICODE && (FF_STRF_ENCODE < 0 || FF_STRF_ENCODE > 3) #error Wrong FF_STRF_ENCODE setting #endif /*-----------------------------------------------------------------------*/ /* Get a String from the File */ /*-----------------------------------------------------------------------*/ TCHAR* f_gets ( TCHAR* buff, /* Pointer to the string buffer to read */ int len, /* Size of string buffer (items) */ FIL* fp /* Pointer to the file object */ ) { int nc = 0; TCHAR *p = buff; BYTE s[4]; UINT rc; DWORD dc; #if FF_USE_LFN && FF_LFN_UNICODE && FF_STRF_ENCODE <= 2 WCHAR wc; #endif #if FF_USE_LFN && FF_LFN_UNICODE && FF_STRF_ENCODE == 3 UINT ct; #endif #if FF_USE_LFN && FF_LFN_UNICODE /* With code conversion (Unicode API) */ /* Make a room for the character and terminator */ if (FF_LFN_UNICODE == 1) len -= (FF_STRF_ENCODE == 0) ? 1 : 2; if (FF_LFN_UNICODE == 2) len -= (FF_STRF_ENCODE == 0) ? 3 : 4; if (FF_LFN_UNICODE == 3) len -= 1; while (nc < len) { #if FF_STRF_ENCODE == 0 /* Read a character in ANSI/OEM */ f_read(fp, s, 1, &rc); if (rc != 1) break; wc = s[0]; if (dbc_1st((BYTE)wc)) { f_read(fp, s, 1, &rc); if (rc != 1 || !dbc_2nd(s[0])) continue; wc = wc << 8 | s[0]; } dc = ff_oem2uni(wc, CODEPAGE); if (dc == 0) continue; #elif FF_STRF_ENCODE == 1 || FF_STRF_ENCODE == 2 /* Read a character in UTF-16LE/BE */ f_read(fp, s, 2, &rc); if (rc != 2) break; dc = (FF_STRF_ENCODE == 1) ? ld_word(s) : s[0] << 8 | s[1]; if (IsSurrogateL(dc)) continue; if (IsSurrogateH(dc)) { f_read(fp, s, 2, &rc); if (rc != 2) break; wc = (FF_STRF_ENCODE == 1) ? ld_word(s) : s[0] << 8 | s[1]; if (!IsSurrogateL(wc)) continue; dc = ((dc & 0x3FF) + 0x40) << 10 | (wc & 0x3FF); } #else /* Read a character in UTF-8 */ f_read(fp, s, 1, &rc); if (rc != 1) break; dc = s[0]; if (dc >= 0x80) { /* Multi-byte character? */ ct = 0; if ((dc & 0xE0) == 0xC0) { dc &= 0x1F; ct = 1; } /* 2-byte? */ if ((dc & 0xF0) == 0xE0) { dc &= 0x0F; ct = 2; } /* 3-byte? */ if ((dc & 0xF8) == 0xF0) { dc &= 0x07; ct = 3; } /* 4-byte? */ if (ct == 0) continue; f_read(fp, s, ct, &rc); /* Get trailing bytes */ if (rc != ct) break; rc = 0; do { /* Merge trailing bytes */ if ((s[rc] & 0xC0) != 0x80) break; dc = dc << 6 | (s[rc] & 0x3F); } while (++rc < ct); if (rc != ct || dc < 0x80 || IsSurrogate(dc) || dc >= 0x110000) continue; /* Wrong encoding? */ } #endif if (FF_USE_STRFUNC == 2 && dc == '\r') continue; /* Strip \r off if needed */ #if FF_LFN_UNICODE == 1 || FF_LFN_UNICODE == 3 /* Output it in UTF-16/32 encoding */ if (FF_LFN_UNICODE == 1 && dc >= 0x10000) { /* Out of BMP at UTF-16? */ *p++ = (TCHAR)(0xD800 | ((dc >> 10) - 0x40)); nc++; /* Make and output high surrogate */ dc = 0xDC00 | (dc & 0x3FF); /* Make low surrogate */ } *p++ = (TCHAR)dc; nc++; if (dc == '\n') break; /* End of line? */ #elif FF_LFN_UNICODE == 2 /* Output it in UTF-8 encoding */ if (dc < 0x80) { /* 1-byte */ *p++ = (TCHAR)dc; nc++; if (dc == '\n') break; /* End of line? */ } else { if (dc < 0x800) { /* 2-byte */ *p++ = (TCHAR)(0xC0 | (dc >> 6 & 0x1F)); *p++ = (TCHAR)(0x80 | (dc >> 0 & 0x3F)); nc += 2; } else { if (dc < 0x10000) { /* 3-byte */ *p++ = (TCHAR)(0xE0 | (dc >> 12 & 0x0F)); *p++ = (TCHAR)(0x80 | (dc >> 6 & 0x3F)); *p++ = (TCHAR)(0x80 | (dc >> 0 & 0x3F)); nc += 3; } else { /* 4-byte */ *p++ = (TCHAR)(0xF0 | (dc >> 18 & 0x07)); *p++ = (TCHAR)(0x80 | (dc >> 12 & 0x3F)); *p++ = (TCHAR)(0x80 | (dc >> 6 & 0x3F)); *p++ = (TCHAR)(0x80 | (dc >> 0 & 0x3F)); nc += 4; } } } #endif } #else /* Byte-by-byte without any conversion (ANSI/OEM API) */ len -= 1; /* Make a room for the terminator */ while (nc < len) { f_read(fp, s, 1, &rc); if (rc != 1) break; dc = s[0]; if (FF_USE_STRFUNC == 2 && dc == '\r') continue; *p++ = (TCHAR)dc; nc++; if (dc == '\n') break; } #endif *p = 0; /* Terminate the string */ return nc ? buff : 0; /* When no data read due to EOF or error, return with error. */ } #if !FF_FS_READONLY #include /*-----------------------------------------------------------------------*/ /* Put a Character to the File */ /*-----------------------------------------------------------------------*/ typedef struct { /* Putchar output buffer and work area */ FIL *fp; /* Ptr to the writing file */ int idx, nchr; /* Write index of buf[] (-1:error), number of encoding units written */ #if FF_USE_LFN && FF_LFN_UNICODE == 1 WCHAR hs; #elif FF_USE_LFN && FF_LFN_UNICODE == 2 BYTE bs[4]; UINT wi, ct; #endif BYTE buf[64]; /* Write buffer */ } putbuff; static void putc_bfd ( /* Buffered write with code conversion */ putbuff* pb, TCHAR c ) { UINT n; int i, nc; #if FF_USE_LFN && FF_LFN_UNICODE WCHAR hs, wc; #if FF_LFN_UNICODE == 2 DWORD dc; TCHAR *tp; #endif #endif if (FF_USE_STRFUNC == 2 && c == '\n') { /* LF -> CRLF conversion */ putc_bfd(pb, '\r'); } i = pb->idx; /* Write index of pb->buf[] */ if (i < 0) return; nc = pb->nchr; /* Write unit counter */ #if FF_USE_LFN && FF_LFN_UNICODE #if FF_LFN_UNICODE == 1 /* UTF-16 input */ if (IsSurrogateH(c)) { pb->hs = c; return; } hs = pb->hs; pb->hs = 0; if (hs != 0) { if (!IsSurrogateL(c)) hs = 0; } else { if (IsSurrogateL(c)) return; } wc = c; #elif FF_LFN_UNICODE == 2 /* UTF-8 input */ for (;;) { if (pb->ct == 0) { /* Out of multi-byte sequence? */ pb->bs[pb->wi = 0] = (BYTE)c; /* Save 1st byte */ if ((BYTE)c < 0x80) break; /* 1-byte? */ if (((BYTE)c & 0xE0) == 0xC0) pb->ct = 1; /* 2-byte? */ if (((BYTE)c & 0xF0) == 0xE0) pb->ct = 2; /* 3-byte? */ if (((BYTE)c & 0xF1) == 0xF0) pb->ct = 3; /* 4-byte? */ return; } else { /* In the multi-byte sequence */ if (((BYTE)c & 0xC0) != 0x80) { /* Broken sequence? */ pb->ct = 0; continue; } pb->bs[++pb->wi] = (BYTE)c; /* Save the trailing byte */ if (--pb->ct == 0) break; /* End of multi-byte sequence? */ return; } } tp = (TCHAR*)pb->bs; dc = tchar2uni(&tp); /* UTF-8 ==> UTF-16 */ if (dc == 0xFFFFFFFF) return; wc = (WCHAR)dc; hs = (WCHAR)(dc >> 16); #elif FF_LFN_UNICODE == 3 /* UTF-32 input */ if (IsSurrogate(c) || c >= 0x110000) return; if (c >= 0x10000) { hs = (WCHAR)(0xD800 | ((c >> 10) - 0x40)); /* Make high surrogate */ wc = 0xDC00 | (c & 0x3FF); /* Make low surrogate */ } else { hs = 0; wc = (WCHAR)c; } #endif #if FF_STRF_ENCODE == 1 /* Write a character in UTF-16LE */ if (hs != 0) { st_word(&pb->buf[i], hs); i += 2; nc++; } st_word(&pb->buf[i], wc); i += 2; #elif FF_STRF_ENCODE == 2 /* Write a character in UTF-16BE */ if (hs != 0) { pb->buf[i++] = (BYTE)(hs >> 8); pb->buf[i++] = (BYTE)hs; nc++; } pb->buf[i++] = (BYTE)(wc >> 8); pb->buf[i++] = (BYTE)wc; #elif FF_STRF_ENCODE == 3 /* Write it in UTF-8 */ if (hs != 0) { /* 4-byte */ nc += 3; hs = (hs & 0x3FF) + 0x40; pb->buf[i++] = (BYTE)(0xF0 | hs >> 8); pb->buf[i++] = (BYTE)(0x80 | (hs >> 2 & 0x3F)); pb->buf[i++] = (BYTE)(0x80 | (hs & 3) << 4 | (wc >> 6 & 0x0F)); pb->buf[i++] = (BYTE)(0x80 | (wc & 0x3F)); } else { if (wc < 0x80) { /* 1-byte */ pb->buf[i++] = (BYTE)wc; } else { if (wc < 0x800) { /* 2-byte */ nc += 1; pb->buf[i++] = (BYTE)(0xC0 | wc >> 6); } else { /* 3-byte */ nc += 2; pb->buf[i++] = (BYTE)(0xE0 | wc >> 12); pb->buf[i++] = (BYTE)(0x80 | (wc >> 6 & 0x3F)); } pb->buf[i++] = (BYTE)(0x80 | (wc & 0x3F)); } } #else /* Write it in ANSI/OEM */ if (hs != 0) return; wc = ff_uni2oem(wc, CODEPAGE); /* UTF-16 ==> ANSI/OEM */ if (wc == 0) return; if (wc >= 0x100) { pb->buf[i++] = (BYTE)(wc >> 8); nc++; } pb->buf[i++] = (BYTE)wc; #endif #else /* ANSI/OEM input (without re-encode) */ pb->buf[i++] = (BYTE)c; #endif if (i >= (int)(sizeof pb->buf) - 4) { /* Write buffered characters to the file */ f_write(pb->fp, pb->buf, (UINT)i, &n); i = (n == (UINT)i) ? 0 : -1; } pb->idx = i; pb->nchr = nc + 1; } static int putc_flush ( /* Flush left characters in the buffer */ putbuff* pb ) { UINT nw; if ( pb->idx >= 0 /* Flush buffered characters to the file */ && f_write(pb->fp, pb->buf, (UINT)pb->idx, &nw) == FR_OK && (UINT)pb->idx == nw) return pb->nchr; return EOF; } static void putc_init ( /* Initialize write buffer */ putbuff* pb, FIL* fp ) { mem_set(pb, 0, sizeof (putbuff)); pb->fp = fp; } int f_putc ( TCHAR c, /* A character to be output */ FIL* fp /* Pointer to the file object */ ) { putbuff pb; putc_init(&pb, fp); putc_bfd(&pb, c); /* Put the character */ return putc_flush(&pb); } /*-----------------------------------------------------------------------*/ /* Put a String to the File */ /*-----------------------------------------------------------------------*/ int f_puts ( const TCHAR* str, /* Pointer to the string to be output */ FIL* fp /* Pointer to the file object */ ) { putbuff pb; if (str == (void *)0) return EOF; /* String is NULL */ putc_init(&pb, fp); while (*str) putc_bfd(&pb, *str++); /* Put the string */ return putc_flush(&pb); } /*-----------------------------------------------------------------------*/ /* Put a Formatted String to the File */ /*-----------------------------------------------------------------------*/ int f_printf ( FIL* fp, /* Pointer to the file object */ const TCHAR* fmt, /* Pointer to the format string */ ... /* Optional arguments... */ ) { va_list arp; putbuff pb; BYTE f, r; UINT i, j, w; DWORD v; TCHAR c, d, str[32], *p; if (fmt == (void *)0) return EOF; /* String is NULL */ putc_init(&pb, fp); va_start(arp, fmt); for (;;) { c = *fmt++; if (c == 0) break; /* End of string */ if (c != '%') { /* Non escape character */ putc_bfd(&pb, c); continue; } w = f = 0; c = *fmt++; if (c == '0') { /* Flag: '0' padding */ f = 1; c = *fmt++; } else { if (c == '-') { /* Flag: left justified */ f = 2; c = *fmt++; } } if (c == '*') { /* Minimum width by argument */ w = va_arg(arp, int); c = *fmt++; } else { while (IsDigit(c)) { /* Minimum width */ w = w * 10 + c - '0'; c = *fmt++; } } if (c == 'l' || c == 'L') { /* Type prefix: Size is long int */ f |= 4; c = *fmt++; } if (c == 0) break; d = c; if (IsLower(d)) d -= 0x20; switch (d) { /* Atgument type is... */ case 'S' : /* String */ p = va_arg(arp, TCHAR*); for (j = 0; p[j]; j++) ; if (!(f & 2)) { /* Right padded */ while (j++ < w) putc_bfd(&pb, ' ') ; } while (*p) putc_bfd(&pb, *p++) ; /* String body */ while (j++ < w) putc_bfd(&pb, ' ') ; /* Left padded */ continue; case 'C' : /* Character */ putc_bfd(&pb, (TCHAR)va_arg(arp, int)); continue; case 'B' : /* Unsigned binary */ r = 2; break; case 'O' : /* Unsigned octal */ r = 8; break; case 'D' : /* Signed decimal */ case 'U' : /* Unsigned decimal */ r = 10; break; case 'X' : /* Unsigned hexdecimal */ r = 16; break; default: /* Unknown type (pass-through) */ putc_bfd(&pb, c); continue; } /* Get an argument and put it in numeral */ v = (f & 4) ? (DWORD)va_arg(arp, long) : ((d == 'D') ? (DWORD)(long)va_arg(arp, int) : (DWORD)va_arg(arp, unsigned int)); if (d == 'D' && (v & 0x80000000)) { v = 0 - v; f |= 8; } i = 0; do { d = (TCHAR)(v % r); v /= r; if (d > 9) d += (c == 'x') ? 0x27 : 0x07; str[i++] = d + '0'; } while (v && i < sizeof str / sizeof *str); if (f & 8) str[i++] = '-'; j = i; d = (f & 1) ? '0' : ' '; if (!(f & 2)) { while (j++ < w) putc_bfd(&pb, d); /* Right pad */ } do { putc_bfd(&pb, str[--i]); /* Number body */ } while (i); while (j++ < w) putc_bfd(&pb, d); /* Left pad */ } va_end(arp); return putc_flush(&pb); } #endif /* !FF_FS_READONLY */ #endif /* FF_USE_STRFUNC */ #if FF_CODE_PAGE == 0 /*-----------------------------------------------------------------------*/ /* Set Active Codepage for the Path Name */ /*-----------------------------------------------------------------------*/ FRESULT f_setcp ( WORD cp /* Value to be set as active code page */ ) { static const WORD validcp[] = { 437, 720, 737, 771, 775, 850, 852, 857, 860, 861, 862, 863, 864, 865, 866, 869, 932, 936, 949, 950, 0}; static const BYTE* const tables[] = {Ct437, Ct720, Ct737, Ct771, Ct775, Ct850, Ct852, Ct857, Ct860, Ct861, Ct862, Ct863, Ct864, Ct865, Ct866, Ct869, Dc932, Dc936, Dc949, Dc950, 0}; UINT i; for (i = 0; validcp[i] != 0 && validcp[i] != cp; i++) ; /* Find the code page */ if (validcp[i] != cp) return FR_INVALID_PARAMETER; /* Not found? */ CodePage = cp; if (cp >= 900) { /* DBCS */ ExCvt = 0; DbcTbl = tables[i]; } else { /* SBCS */ ExCvt = tables[i]; DbcTbl = 0; } return FR_OK; } #endif /* FF_CODE_PAGE == 0 */ ================================================ FILE: bdk/libs/fatfs/ff.h ================================================ /*----------------------------------------------------------------------------/ / FatFs - Generic FAT Filesystem module R0.13c / /-----------------------------------------------------------------------------/ / / Copyright (C) 2018, ChaN, all right reserved. / / FatFs module is an open source software. Redistribution and use of FatFs in / source and binary forms, with or without modification, are permitted provided / that the following condition is met: / 1. Redistributions of source code must retain the above copyright notice, / this condition and the following disclaimer. / / This software is provided by the copyright holder and contributors "AS IS" / and any warranties related to this software are DISCLAIMED. / The copyright owner or contributors be NOT LIABLE for any damages caused / by use of this software. / /----------------------------------------------------------------------------*/ #ifndef FF_DEFINED #define FF_DEFINED 86604 /* Revision ID */ #ifdef __cplusplus extern "C" { #endif #include /* Basic integer types */ #include /* FatFs configuration options */ #if FF_DEFINED != FFCONF_DEF #error Wrong configuration file (ffconf.h). #endif /* Definitions of volume management */ #if FF_MULTI_PARTITION /* Multiple partition configuration */ typedef struct { BYTE pd; /* Physical drive number */ BYTE pt; /* Partition: 0:Auto detect, 1-4:Forced partition) */ } PARTITION; extern PARTITION VolToPart[]; /* Volume - Partition resolution table */ #endif #if FF_STR_VOLUME_ID #ifndef FF_VOLUME_STRS extern const char* VolumeStr[FF_VOLUMES]; /* User defied volume ID */ #endif #endif /* Type of path name strings on FatFs API */ #ifndef _INC_TCHAR #define _INC_TCHAR #if FF_USE_LFN && FF_LFN_UNICODE == 1 /* Unicode in UTF-16 encoding */ typedef WCHAR TCHAR; #define _T(x) L ## x #define _TEXT(x) L ## x #elif FF_USE_LFN && FF_LFN_UNICODE == 2 /* Unicode in UTF-8 encoding */ typedef char TCHAR; #define _T(x) u8 ## x #define _TEXT(x) u8 ## x #elif FF_USE_LFN && FF_LFN_UNICODE == 3 /* Unicode in UTF-32 encoding */ typedef DWORD TCHAR; #define _T(x) U ## x #define _TEXT(x) U ## x #elif FF_USE_LFN && (FF_LFN_UNICODE < 0 || FF_LFN_UNICODE > 3) #error Wrong FF_LFN_UNICODE setting #else /* ANSI/OEM code in SBCS/DBCS */ typedef char TCHAR; #define _T(x) x #define _TEXT(x) x #endif #endif /* Type of file size variables */ #if FF_FS_EXFAT typedef QWORD FSIZE_t; #else typedef DWORD FSIZE_t; #endif /* Filesystem object structure (FATFS) */ typedef struct { BYTE fs_type; /* Filesystem type (0:not mounted) */ BYTE part_type; /* Partition type (0:MBR, 1:GPT) */ BYTE pdrv; /* Associated physical drive */ BYTE n_fats; /* Number of FATs (1 or 2) */ BYTE wflag; /* win[] flag (b0:dirty) */ BYTE fsi_flag; /* FSINFO flags (b7:disabled, b0:dirty) */ WORD id; /* Volume mount ID */ WORD n_rootdir; /* Number of root directory entries (FAT12/16) */ WORD csize; /* Cluster size [sectors] */ #if FF_MAX_SS != FF_MIN_SS WORD ssize; /* Sector size (512, 1024, 2048 or 4096) */ #endif #if FF_USE_LFN WCHAR* lfnbuf; /* LFN working buffer */ #endif #if FF_FS_EXFAT BYTE* dirbuf; /* Directory entry block scratchpad buffer for exFAT */ #endif #if FF_FS_REENTRANT FF_SYNC_t sobj; /* Identifier of sync object */ #endif #if !FF_FS_READONLY DWORD last_clst; /* Last allocated cluster */ DWORD free_clst; /* Number of free clusters */ #endif #if FF_FS_RPATH DWORD cdir; /* Current directory start cluster (0:root) */ #if FF_FS_EXFAT DWORD cdc_scl; /* Containing directory start cluster (invalid when cdir is 0) */ DWORD cdc_size; /* b31-b8:Size of containing directory, b7-b0: Chain status */ DWORD cdc_ofs; /* Offset in the containing directory (invalid when cdir is 0) */ #endif #endif DWORD n_fatent; /* Number of FAT entries (number of clusters + 2) */ DWORD fsize; /* Size of an FAT [sectors] */ DWORD volbase; /* Volume base sector */ DWORD fatbase; /* FAT base sector */ DWORD dirbase; /* Root directory base sector/cluster */ DWORD database; /* Data base sector */ #if FF_FS_EXFAT DWORD bitbase; /* Allocation bitmap base sector */ #endif DWORD winsect; /* Current sector appearing in the win[] */ BYTE win[FF_MAX_SS] __attribute__((aligned(8))); /* Disk access window for Directory, FAT (and file data at tiny cfg). DMA aligned. */ } FATFS; /* Object ID and allocation information (FFOBJID) */ typedef struct { FATFS* fs; /* Pointer to the hosting volume of this object */ WORD id; /* Hosting volume mount ID */ BYTE attr; /* Object attribute */ BYTE stat; /* Object chain status (b1-0: =0:not contiguous, =2:contiguous, =3:fragmented in this session, b2:sub-directory stretched) */ DWORD sclust; /* Object data start cluster (0:no cluster or root directory) */ FSIZE_t objsize; /* Object size (valid when sclust != 0) */ #if FF_FS_EXFAT DWORD n_cont; /* Size of first fragment - 1 (valid when stat == 3) */ DWORD n_frag; /* Size of last fragment needs to be written to FAT (valid when not zero) */ DWORD c_scl; /* Containing directory start cluster (valid when sclust != 0) */ DWORD c_size; /* b31-b8:Size of containing directory, b7-b0: Chain status (valid when c_scl != 0) */ DWORD c_ofs; /* Offset in the containing directory (valid when file object and sclust != 0) */ #endif #if FF_FS_LOCK UINT lockid; /* File lock ID origin from 1 (index of file semaphore table Files[]) */ #endif } FFOBJID; /* File object structure (FIL) */ typedef struct { FFOBJID obj; /* Object identifier (must be the 1st member to detect invalid object pointer) */ BYTE flag; /* File status flags */ BYTE err; /* Abort flag (error code) */ FSIZE_t fptr; /* File read/write pointer (Zeroed on file open) */ DWORD clust; /* Current cluster of fpter (invalid when fptr is 0) */ DWORD sect; /* Sector number appearing in buf[] (0:invalid) */ #if !FF_FS_READONLY DWORD dir_sect; /* Sector number containing the directory entry (not used at exFAT) */ BYTE* dir_ptr; /* Pointer to the directory entry in the win[] (not used at exFAT) */ #endif #if FF_USE_FASTSEEK DWORD* cltbl; /* Pointer to the cluster link map table (nulled on open, set by application) */ #endif #if !FF_FS_TINY BYTE buf[FF_MAX_SS] __attribute__((aligned(8))); /* File private data read/write window. DMA aligned. */ #endif } FIL; /* Directory object structure (DIR) */ typedef struct { FFOBJID obj; /* Object identifier */ DWORD dptr; /* Current read/write offset */ DWORD clust; /* Current cluster */ DWORD sect; /* Current sector (0:Read operation has terminated) */ BYTE* dir; /* Pointer to the directory item in the win[] */ BYTE fn[12]; /* SFN (in/out) {body[8],ext[3],status[1]} */ #if FF_USE_LFN DWORD blk_ofs; /* Offset of current entry block being processed (0xFFFFFFFF:Invalid) */ #endif #if FF_USE_FIND const TCHAR* pat; /* Pointer to the name matching pattern */ #endif } DIR; /* File information structure (FILINFO) */ typedef struct { FSIZE_t fsize; /* File size */ WORD fdate; /* Modified date */ WORD ftime; /* Modified time */ BYTE fattrib; /* File attribute */ #if FF_USE_LFN TCHAR altname[FF_SFN_BUF + 1];/* Altenative file name */ TCHAR fname[FF_LFN_BUF + 1]; /* Primary file name */ #else TCHAR fname[12 + 1]; /* File name */ #endif } FILINFO; /* File function return code (FRESULT) */ typedef enum { FR_OK = 0, /* (0) Succeeded */ FR_DISK_ERR, /* (1) A hard error occurred in the low level disk I/O layer */ FR_INT_ERR, /* (2) Assertion failed */ FR_NOT_READY, /* (3) The physical drive cannot work */ FR_NO_FILE, /* (4) Could not find the file */ FR_NO_PATH, /* (5) Could not find the path */ FR_INVALID_NAME, /* (6) The path name format is invalid */ FR_DENIED, /* (7) Access denied due to prohibited access or directory full */ FR_EXIST, /* (8) Access denied due to prohibited access */ FR_INVALID_OBJECT, /* (9) The file/directory object is invalid */ FR_WRITE_PROTECTED, /* (10) The physical drive is write protected */ FR_INVALID_DRIVE, /* (11) The logical drive number is invalid */ FR_NOT_ENABLED, /* (12) The volume has no work area */ FR_NO_FILESYSTEM, /* (13) There is no valid FAT volume */ FR_MKFS_ABORTED, /* (14) The f_mkfs() aborted due to any problem */ FR_TIMEOUT, /* (15) Could not get a grant to access the volume within defined period */ FR_LOCKED, /* (16) The operation is rejected according to the file sharing policy */ FR_NOT_ENOUGH_CORE, /* (17) LFN working buffer could not be allocated */ FR_TOO_MANY_OPEN_FILES, /* (18) Number of open files > FF_FS_LOCK */ #if FF_FASTFS FR_INVALID_PARAMETER, /* (19) Given parameter is invalid */ FR_CLTBL_NO_INIT /* (20) The cluster table for fast seek/read/write was not created */ #else FR_INVALID_PARAMETER /* (19) Given parameter is invalid */ #endif } FRESULT; /*--------------------------------------------------------------*/ /* FatFs module application interface */ FRESULT f_open (FIL* fp, const TCHAR* path, BYTE mode); /* Open or create a file */ FRESULT f_close (FIL* fp); /* Close an open file object */ FRESULT f_read (FIL* fp, void* buff, UINT btr, UINT* br); /* Read data from the file */ FRESULT f_write (FIL* fp, const void* buff, UINT btw, UINT* bw); /* Write data to the file */ #if FF_FASTFS /* buff needs to be block aligned. Intercluster data access is not supported. */ FRESULT f_read_fast (FIL* fp, const void* buff, UINT btr); /* Fast read data from the file */ FRESULT f_write_fast (FIL* fp, const void* buff, UINT btw); /* Fast write data to the file */ #endif FRESULT f_lseek (FIL* fp, FSIZE_t ofs); /* Move file pointer of the file object */ FRESULT f_truncate (FIL* fp); /* Truncate the file */ FRESULT f_sync (FIL* fp); /* Flush cached data of the writing file */ FRESULT f_opendir (DIR* dp, const TCHAR* path); /* Open a directory */ FRESULT f_closedir (DIR* dp); /* Close an open directory */ FRESULT f_readdir (DIR* dp, FILINFO* fno); /* Read a directory item */ FRESULT f_findfirst (DIR* dp, FILINFO* fno, const TCHAR* path, const TCHAR* pattern); /* Find first file */ FRESULT f_findnext (DIR* dp, FILINFO* fno); /* Find next file */ FRESULT f_mkdir (const TCHAR* path); /* Create a sub directory */ FRESULT f_unlink (const TCHAR* path); /* Delete an existing file or directory */ FRESULT f_rename (const TCHAR* path_old, const TCHAR* path_new); /* Rename/Move a file or directory */ FRESULT f_stat (const TCHAR* path, FILINFO* fno); /* Get file status */ FRESULT f_chmod (const TCHAR* path, BYTE attr, BYTE mask); /* Change attribute of a file/dir */ FRESULT f_utime (const TCHAR* path, const FILINFO* fno); /* Change timestamp of a file/dir */ FRESULT f_chdir (const TCHAR* path); /* Change current directory */ FRESULT f_chdrive (const TCHAR* path); /* Change current drive */ FRESULT f_getcwd (TCHAR* buff, UINT len); /* Get current directory */ FRESULT f_getfree (const TCHAR* path, DWORD* nclst, FATFS** fatfs); /* Get number of free clusters on the drive */ FRESULT f_getlabel (const TCHAR* path, TCHAR* label, DWORD* vsn); /* Get volume label */ FRESULT f_setlabel (const TCHAR* label); /* Set volume label */ FRESULT f_forward (FIL* fp, UINT(*func)(const BYTE*,UINT), UINT btf, UINT* bf); /* Forward data to the stream */ #if FF_FASTFS DWORD *f_expand_cltbl (FIL* fp, UINT tblsz, FSIZE_t ofs); /* Expand file and populate cluster table */ #endif FRESULT f_expand (FIL* fp, FSIZE_t fsz, BYTE opt); /* Allocate a contiguous block to the file */ FRESULT f_mount (FATFS* fs, const TCHAR* path, BYTE opt); /* Mount/Unmount a logical drive */ FRESULT f_mkfs (const TCHAR* path, BYTE opt, DWORD au, void* work, UINT len); /* Create a FAT volume */ FRESULT f_fdisk (BYTE pdrv, const DWORD* szt, void* work); /* Divide a physical drive into some partitions */ FRESULT f_setcp (WORD cp); /* Set current code page */ int f_putc (TCHAR c, FIL* fp); /* Put a character to the file */ int f_puts (const TCHAR* str, FIL* cp); /* Put a string to the file */ int f_printf (FIL* fp, const TCHAR* str, ...); /* Put a formatted string to the file */ TCHAR* f_gets (TCHAR* buff, int len, FIL* fp); /* Get a string from the file */ #define f_eof(fp) ((int)((fp)->fptr == (fp)->obj.objsize)) #define f_error(fp) ((fp)->err) #define f_tell(fp) ((fp)->fptr) #define f_size(fp) ((fp)->obj.objsize) #define f_rewind(fp) f_lseek((fp), 0) #define f_rewinddir(dp) f_readdir((dp), 0) #define f_rmdir(path) f_unlink(path) #define f_unmount(path) f_mount(0, path, 0) #ifndef EOF #define EOF (-1) #endif /*--------------------------------------------------------------*/ /* Additional user defined functions */ /* RTC function */ #if !FF_FS_READONLY && !FF_FS_NORTC DWORD get_fattime (void); #endif /* LFN support functions */ #if FF_USE_LFN >= 1 /* Code conversion (defined in unicode.c) */ WCHAR ff_oem2uni (WCHAR oem, WORD cp); /* OEM code to Unicode conversion */ WCHAR ff_uni2oem (DWORD uni, WORD cp); /* Unicode to OEM code conversion */ DWORD ff_wtoupper (DWORD uni); /* Unicode upper-case conversion */ #endif #if FF_USE_LFN == 3 /* Dynamic memory allocation */ void* ff_memalloc (UINT msize); /* Allocate memory block */ void ff_memfree (void* mblock); /* Free memory block */ #endif /* Sync functions */ #if FF_FS_REENTRANT int ff_cre_syncobj (BYTE vol, FF_SYNC_t* sobj); /* Create a sync object */ int ff_req_grant (FF_SYNC_t sobj); /* Lock sync object */ void ff_rel_grant (FF_SYNC_t sobj); /* Unlock sync object */ int ff_del_syncobj (FF_SYNC_t sobj); /* Delete a sync object */ #endif /*--------------------------------------------------------------*/ /* Flags and offset address */ /* File access mode and open method flags (3rd argument of f_open) */ #define FA_READ 0x01 #define FA_WRITE 0x02 #define FA_OPEN_EXISTING 0x00 #define FA_CREATE_NEW 0x04 #define FA_CREATE_ALWAYS 0x08 #define FA_OPEN_ALWAYS 0x10 #define FA_OPEN_APPEND 0x30 /* Fast seek controls (2nd argument of f_lseek) */ #define CREATE_LINKMAP ((FSIZE_t)0 - 1) /* Format options (2nd argument of f_mkfs) */ #define FM_FAT 0x01 #define FM_FAT32 0x02 #define FM_EXFAT 0x04 #define FM_ANY 0x07 #define FM_SFD 0x08 #define FM_PRF2 0x10 /* Filesystem type (FATFS.fs_type) */ #define FS_FAT12 1 #define FS_FAT16 2 #define FS_FAT32 3 #define FS_EXFAT 4 /* File attribute bits for directory entry (FILINFO.fattrib) */ #define AM_RDO 0x01 /* Read only */ #define AM_HID 0x02 /* Hidden */ #define AM_SYS 0x04 /* System */ #define AM_VOL 0x08 /* Volume */ #define AM_DIR 0x10 /* Directory */ #define AM_ARC 0x20 /* Archive */ #define AM_DEV 0x40 /* Device */ #define AM_RVD 0x80 /* Reserved */ #ifdef __cplusplus } #endif #endif /* FF_DEFINED */ ================================================ FILE: bdk/libs/fatfs/ffsystem.c ================================================ /*------------------------------------------------------------------------*/ /* Sample Code of OS Dependent Functions for FatFs */ /* (C) ChaN, 2018 */ /* (C) CTCaer, 2018-2024 */ /*------------------------------------------------------------------------*/ #include #include #if FF_USE_LFN == 3 /* Dynamic memory allocation */ /*------------------------------------------------------------------------*/ /* Allocate a memory block */ /*------------------------------------------------------------------------*/ void* ff_memalloc ( /* Returns pointer to the allocated memory block (null if not enough core) */ UINT msize /* Number of bytes to allocate */ ) { // Ensure size is aligned to SDMMC block size. return malloc(ALIGN(msize, SDMMC_DAT_BLOCKSIZE)); /* Allocate a new memory block with POSIX API */ } /*------------------------------------------------------------------------*/ /* Free a memory block */ /*------------------------------------------------------------------------*/ void ff_memfree ( void* mblock /* Pointer to the memory block to free (nothing to do if null) */ ) { free(mblock); /* Free the memory block with POSIX API */ } #endif #if FF_FS_NORTC == 0 /*------------------------------------------------------------------------*/ /* Get real time clock */ /*------------------------------------------------------------------------*/ DWORD get_fattime ( void ) { rtc_time_t time; max77620_rtc_get_time_adjusted(&time); return (((DWORD)(time.year - 1980) << 25) | ((DWORD)time.month << 21) | ((DWORD)time.day << 16) | ((DWORD)time.hour << 11) | ((DWORD)time.min << 5) | (time.sec >> 1)); } #endif ================================================ FILE: bdk/libs/fatfs/ffunicode.c ================================================ /*------------------------------------------------------------------------*/ /* Unicode handling functions for FatFs R0.13c */ /*------------------------------------------------------------------------*/ /* This module will occupy a huge memory in the .const section when the / / FatFs is configured for LFN with DBCS. If the system has any Unicode / / utilitiy for the code conversion, this module should be modified to use / / that function to avoid silly memory consumption. / /-------------------------------------------------------------------------*/ /* / Copyright (C) 2018, ChaN, all right reserved. / / FatFs module is an open source software. Redistribution and use of FatFs in / source and binary forms, with or without modification, are permitted provided / that the following condition is met: / / 1. Redistributions of source code must retain the above copyright notice, / this condition and the following disclaimer. / / This software is provided by the copyright holder and contributors "AS IS" / and any warranties related to this software are DISCLAIMED. / The copyright owner or contributors be NOT LIABLE for any damages caused / by use of this software. */ #include "ff.h" #if FF_USE_LFN /* This module will be blanked at non-LFN configuration */ #if FF_DEFINED != 86604 /* Revision ID */ #error Wrong include file (ff.h). #endif #define MERGE2(a, b) a ## b #define CVTBL(tbl, cp) MERGE2(tbl, cp) /*------------------------------------------------------------------------*/ /* Code Conversion Tables */ /*------------------------------------------------------------------------*/ #if FF_CODE_PAGE == 437 || FF_CODE_PAGE == 0 static const WCHAR uc437[] = { /* CP437(U.S.) to Unicode conversion table */ 0x00C7, 0x00FC, 0x00E9, 0x00E2, 0x00E4, 0x00E0, 0x00E5, 0x00E7, 0x00EA, 0x00EB, 0x00E8, 0x00EF, 0x00EE, 0x00EC, 0x00C4, 0x00C5, 0x00C9, 0x00E6, 0x00C6, 0x00F4, 0x00F6, 0x00F2, 0x00FB, 0x00F9, 0x00FF, 0x00D6, 0x00DC, 0x00A2, 0x00A3, 0x00A5, 0x20A7, 0x0192, 0x00E1, 0x00ED, 0x00F3, 0x00FA, 0x00F1, 0x00D1, 0x00AA, 0x00BA, 0x00BF, 0x2310, 0x00AC, 0x00BD, 0x00BC, 0x00A1, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x2561, 0x2562, 0x2556, 0x2555, 0x2563, 0x2551, 0x2557, 0x255D, 0x255C, 0x255B, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x255E, 0x255F, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x2567, 0x2568, 0x2564, 0x2565, 0x2559, 0x2558, 0x2552, 0x2553, 0x256B, 0x256A, 0x2518, 0x250C, 0x2588, 0x2584, 0x258C, 0x2590, 0x2580, 0x03B1, 0x00DF, 0x0393, 0x03C0, 0x03A3, 0x03C3, 0x00B5, 0x03C4, 0x03A6, 0x0398, 0x03A9, 0x03B4, 0x221E, 0x03C6, 0x03B5, 0x2229, 0x2261, 0x00B1, 0x2265, 0x2264, 0x2320, 0x2321, 0x00F7, 0x2248, 0x00B0, 0x2219, 0x00B7, 0x221A, 0x207F, 0x00B2, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 720 || FF_CODE_PAGE == 0 static const WCHAR uc720[] = { /* CP720(Arabic) to Unicode conversion table */ 0x0000, 0x0000, 0x00E9, 0x00E2, 0x0000, 0x00E0, 0x0000, 0x00E7, 0x00EA, 0x00EB, 0x00E8, 0x00EF, 0x00EE, 0x0000, 0x0000, 0x0000, 0x0000, 0x0651, 0x0652, 0x00F4, 0x00A4, 0x0640, 0x00FB, 0x00F9, 0x0621, 0x0622, 0x0623, 0x0624, 0x00A3, 0x0625, 0x0626, 0x0627, 0x0628, 0x0629, 0x062A, 0x062B, 0x062C, 0x062D, 0x062E, 0x062F, 0x0630, 0x0631, 0x0632, 0x0633, 0x0634, 0x0635, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x2561, 0x2562, 0x2556, 0x2555, 0x2563, 0x2551, 0x2557, 0x255D, 0x255C, 0x255B, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x255E, 0x255F, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x2567, 0x2568, 0x2564, 0x2565, 0x2559, 0x2558, 0x2552, 0x2553, 0x256B, 0x256A, 0x2518, 0x250C, 0x2588, 0x2584, 0x258C, 0x2590, 0x2580, 0x0636, 0x0637, 0x0638, 0x0639, 0x063A, 0x0641, 0x00B5, 0x0642, 0x0643, 0x0644, 0x0645, 0x0646, 0x0647, 0x0648, 0x0649, 0x064A, 0x2261, 0x064B, 0x064C, 0x064D, 0x064E, 0x064F, 0x0650, 0x2248, 0x00B0, 0x2219, 0x00B7, 0x221A, 0x207F, 0x00B2, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 737 || FF_CODE_PAGE == 0 static const WCHAR uc737[] = { /* CP737(Greek) to Unicode conversion table */ 0x0391, 0x0392, 0x0393, 0x0394, 0x0395, 0x0396, 0x0397, 0x0398, 0x0399, 0x039A, 0x039B, 0x039C, 0x039D, 0x039E, 0x039F, 0x03A0, 0x03A1, 0x03A3, 0x03A4, 0x03A5, 0x03A6, 0x03A7, 0x03A8, 0x03A9, 0x03B1, 0x03B2, 0x03B3, 0x03B4, 0x03B5, 0x03B6, 0x03B7, 0x03B8, 0x03B9, 0x03BA, 0x03BB, 0x03BC, 0x03BD, 0x03BE, 0x03BF, 0x03C0, 0x03C1, 0x03C3, 0x03C2, 0x03C4, 0x03C5, 0x03C6, 0x03C7, 0x03C8, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x2561, 0x2562, 0x2556, 0x2555, 0x2563, 0x2551, 0x2557, 0x255D, 0x255C, 0x255B, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x255E, 0x255F, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x2567, 0x2568, 0x2564, 0x2565, 0x2559, 0x2558, 0x2552, 0x2553, 0x256B, 0x256A, 0x2518, 0x250C, 0x2588, 0x2584, 0x258C, 0x2590, 0x2580, 0x03C9, 0x03AC, 0x03AD, 0x03AE, 0x03CA, 0x03AF, 0x03CC, 0x03CD, 0x03CB, 0x03CE, 0x0386, 0x0388, 0x0389, 0x038A, 0x038C, 0x038E, 0x038F, 0x00B1, 0x2265, 0x2264, 0x03AA, 0x03AB, 0x00F7, 0x2248, 0x00B0, 0x2219, 0x00B7, 0x221A, 0x207F, 0x00B2, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 771 || FF_CODE_PAGE == 0 static const WCHAR uc771[] = { /* CP771(KBL) to Unicode conversion table */ 0x0410, 0x0411, 0x0412, 0x0413, 0x0414, 0x0415, 0x0416, 0x0417, 0x0418, 0x0419, 0x041A, 0x041B, 0x041C, 0x041D, 0x041E, 0x041F, 0x0420, 0x0421, 0x0422, 0x0423, 0x0424, 0x0425, 0x0426, 0x0427, 0x0428, 0x0429, 0x042A, 0x042B, 0x042C, 0x042D, 0x042E, 0x042F, 0x0430, 0x0431, 0x0432, 0x0433, 0x0434, 0x0435, 0x0436, 0x0437, 0x0438, 0x0439, 0x043A, 0x043B, 0x043C, 0x043D, 0x043E, 0x043F, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x2561, 0x2562, 0x2556, 0x2555, 0x2563, 0x2551, 0x2557, 0x255D, 0x255C, 0x2558, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x255E, 0x255F, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x2567, 0x2568, 0x2564, 0x2565, 0x2559, 0x2558, 0x2552, 0x2553, 0x256B, 0x256A, 0x2518, 0x250C, 0x2588, 0x0104, 0x0105, 0x010C, 0x010D, 0x0440, 0x0441, 0x0442, 0x0443, 0x0444, 0x0445, 0x0446, 0x0447, 0x0448, 0x0449, 0x044A, 0x044B, 0x044C, 0x044D, 0x044E, 0x044F, 0x0118, 0x0119, 0x0116, 0x0117, 0x012E, 0x012F, 0x0160, 0x0161, 0x0172, 0x0173, 0x016A, 0x016B, 0x017D, 0x017E, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 775 || FF_CODE_PAGE == 0 static const WCHAR uc775[] = { /* CP775(Baltic) to Unicode conversion table */ 0x0106, 0x00FC, 0x00E9, 0x0101, 0x00E4, 0x0123, 0x00E5, 0x0107, 0x0142, 0x0113, 0x0156, 0x0157, 0x012B, 0x0179, 0x00C4, 0x00C5, 0x00C9, 0x00E6, 0x00C6, 0x014D, 0x00F6, 0x0122, 0x00A2, 0x015A, 0x015B, 0x00D6, 0x00DC, 0x00F8, 0x00A3, 0x00D8, 0x00D7, 0x00A4, 0x0100, 0x012A, 0x00F3, 0x017B, 0x017C, 0x017A, 0x201D, 0x00A6, 0x00A9, 0x00AE, 0x00AC, 0x00BD, 0x00BC, 0x0141, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x0104, 0x010C, 0x0118, 0x0116, 0x2563, 0x2551, 0x2557, 0x255D, 0x012E, 0x0160, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x0172, 0x016A, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x017D, 0x0105, 0x010D, 0x0119, 0x0117, 0x012F, 0x0161, 0x0173, 0x016B, 0x017E, 0x2518, 0x250C, 0x2588, 0x2584, 0x258C, 0x2590, 0x2580, 0x00D3, 0x00DF, 0x014C, 0x0143, 0x00F5, 0x00D5, 0x00B5, 0x0144, 0x0136, 0x0137, 0x013B, 0x013C, 0x0146, 0x0112, 0x0145, 0x2019, 0x00AD, 0x00B1, 0x201C, 0x00BE, 0x00B6, 0x00A7, 0x00F7, 0x201E, 0x00B0, 0x2219, 0x00B7, 0x00B9, 0x00B3, 0x00B2, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 850 || FF_CODE_PAGE == 0 static const WCHAR uc850[] = { /* CP850(Latin 1) to Unicode conversion table */ 0x00C7, 0x00FC, 0x00E9, 0x00E2, 0x00E4, 0x00E0, 0x00E5, 0x00E7, 0x00EA, 0x00EB, 0x00E8, 0x00EF, 0x00EE, 0x00EC, 0x00C4, 0x00C5, 0x00C9, 0x00E6, 0x00C6, 0x00F4, 0x00F6, 0x00F2, 0x00FB, 0x00F9, 0x00FF, 0x00D6, 0x00DC, 0x00F8, 0x00A3, 0x00D8, 0x00D7, 0x0192, 0x00E1, 0x00ED, 0x00F3, 0x00FA, 0x00F1, 0x00D1, 0x00AA, 0x00BA, 0x00BF, 0x00AE, 0x00AC, 0x00BD, 0x00BC, 0x00A1, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x00C1, 0x00C2, 0x00C0, 0x00A9, 0x2563, 0x2551, 0x2557, 0x255D, 0x00A2, 0x00A5, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x00E3, 0x00C3, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x00A4, 0x00F0, 0x00D0, 0x00CA, 0x00CB, 0x00C8, 0x0131, 0x00CD, 0x00CE, 0x00CF, 0x2518, 0x250C, 0x2588, 0x2584, 0x00A6, 0x00CC, 0x2580, 0x00D3, 0x00DF, 0x00D4, 0x00D2, 0x00F5, 0x00D5, 0x00B5, 0x00FE, 0x00DE, 0x00DA, 0x00DB, 0x00D9, 0x00FD, 0x00DD, 0x00AF, 0x00B4, 0x00AD, 0x00B1, 0x2017, 0x00BE, 0x00B6, 0x00A7, 0x00F7, 0x00B8, 0x00B0, 0x00A8, 0x00B7, 0x00B9, 0x00B3, 0x00B2, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 852 || FF_CODE_PAGE == 0 static const WCHAR uc852[] = { /* CP852(Latin 2) to Unicode conversion table */ 0x00C7, 0x00FC, 0x00E9, 0x00E2, 0x00E4, 0x016F, 0x0107, 0x00E7, 0x0142, 0x00EB, 0x0150, 0x0151, 0x00EE, 0x0179, 0x00C4, 0x0106, 0x00C9, 0x0139, 0x013A, 0x00F4, 0x00F6, 0x013D, 0x013E, 0x015A, 0x015B, 0x00D6, 0x00DC, 0x0164, 0x0165, 0x0141, 0x00D7, 0x010D, 0x00E1, 0x00ED, 0x00F3, 0x00FA, 0x0104, 0x0105, 0x017D, 0x017E, 0x0118, 0x0119, 0x00AC, 0x017A, 0x010C, 0x015F, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x00C1, 0x00C2, 0x011A, 0x015E, 0x2563, 0x2551, 0x2557, 0x255D, 0x017B, 0x017C, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x0102, 0x0103, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x00A4, 0x0111, 0x0110, 0x010E, 0x00CB, 0x010F, 0x0147, 0x00CD, 0x00CE, 0x011B, 0x2518, 0x250C, 0x2588, 0x2584, 0x0162, 0x016E, 0x2580, 0x00D3, 0x00DF, 0x00D4, 0x0143, 0x0144, 0x0148, 0x0160, 0x0161, 0x0154, 0x00DA, 0x0155, 0x0170, 0x00FD, 0x00DD, 0x0163, 0x00B4, 0x00AD, 0x02DD, 0x02DB, 0x02C7, 0x02D8, 0x00A7, 0x00F7, 0x00B8, 0x00B0, 0x00A8, 0x02D9, 0x0171, 0x0158, 0x0159, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 855 || FF_CODE_PAGE == 0 static const WCHAR uc855[] = { /* CP855(Cyrillic) to Unicode conversion table */ 0x0452, 0x0402, 0x0453, 0x0403, 0x0451, 0x0401, 0x0454, 0x0404, 0x0455, 0x0405, 0x0456, 0x0406, 0x0457, 0x0407, 0x0458, 0x0408, 0x0459, 0x0409, 0x045A, 0x040A, 0x045B, 0x040B, 0x045C, 0x040C, 0x045E, 0x040E, 0x045F, 0x040F, 0x044E, 0x042E, 0x044A, 0x042A, 0x0430, 0x0410, 0x0431, 0x0411, 0x0446, 0x0426, 0x0434, 0x0414, 0x0435, 0x0415, 0x0444, 0x0424, 0x0433, 0x0413, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x0445, 0x0425, 0x0438, 0x0418, 0x2563, 0x2551, 0x2557, 0x255D, 0x0439, 0x0419, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x043A, 0x041A, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x00A4, 0x043B, 0x041B, 0x043C, 0x041C, 0x043D, 0x041D, 0x043E, 0x041E, 0x043F, 0x2518, 0x250C, 0x2588, 0x2584, 0x041F, 0x044F, 0x2580, 0x042F, 0x0440, 0x0420, 0x0441, 0x0421, 0x0442, 0x0422, 0x0443, 0x0423, 0x0436, 0x0416, 0x0432, 0x0412, 0x044C, 0x042C, 0x2116, 0x00AD, 0x044B, 0x042B, 0x0437, 0x0417, 0x0448, 0x0428, 0x044D, 0x042D, 0x0449, 0x0429, 0x0447, 0x0427, 0x00A7, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 857 || FF_CODE_PAGE == 0 static const WCHAR uc857[] = { /* CP857(Turkish) to Unicode conversion table */ 0x00C7, 0x00FC, 0x00E9, 0x00E2, 0x00E4, 0x00E0, 0x00E5, 0x00E7, 0x00EA, 0x00EB, 0x00E8, 0x00EF, 0x00EE, 0x0131, 0x00C4, 0x00C5, 0x00C9, 0x00E6, 0x00C6, 0x00F4, 0x00F6, 0x00F2, 0x00FB, 0x00F9, 0x0130, 0x00D6, 0x00DC, 0x00F8, 0x00A3, 0x00D8, 0x015E, 0x015F, 0x00E1, 0x00ED, 0x00F3, 0x00FA, 0x00F1, 0x00D1, 0x011E, 0x011F, 0x00BF, 0x00AE, 0x00AC, 0x00BD, 0x00BC, 0x00A1, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x00C1, 0x00C2, 0x00C0, 0x00A9, 0x2563, 0x2551, 0x2557, 0x255D, 0x00A2, 0x00A5, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x00E3, 0x00C3, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x00A4, 0x00BA, 0x00AA, 0x00CA, 0x00CB, 0x00C8, 0x0000, 0x00CD, 0x00CE, 0x00CF, 0x2518, 0x250C, 0x2588, 0x2584, 0x00A6, 0x00CC, 0x2580, 0x00D3, 0x00DF, 0x00D4, 0x00D2, 0x00F5, 0x00D5, 0x00B5, 0x0000, 0x00D7, 0x00DA, 0x00DB, 0x00D9, 0x00EC, 0x00FF, 0x00AF, 0x00B4, 0x00AD, 0x00B1, 0x0000, 0x00BE, 0x00B6, 0x00A7, 0x00F7, 0x00B8, 0x00B0, 0x00A8, 0x00B7, 0x00B9, 0x00B3, 0x00B2, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 860 || FF_CODE_PAGE == 0 static const WCHAR uc860[] = { /* CP860(Portuguese) to Unicode conversion table */ 0x00C7, 0x00FC, 0x00E9, 0x00E2, 0x00E3, 0x00E0, 0x00C1, 0x00E7, 0x00EA, 0x00CA, 0x00E8, 0x00CD, 0x00D4, 0x00EC, 0x00C3, 0x00C2, 0x00C9, 0x00C0, 0x00C8, 0x00F4, 0x00F5, 0x00F2, 0x00DA, 0x00F9, 0x00CC, 0x00D5, 0x00DC, 0x00A2, 0x00A3, 0x00D9, 0x20A7, 0x00D3, 0x00E1, 0x00ED, 0x00F3, 0x00FA, 0x00F1, 0x00D1, 0x00AA, 0x00BA, 0x00BF, 0x00D2, 0x00AC, 0x00BD, 0x00BC, 0x00A1, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x2561, 0x2562, 0x2556, 0x2555, 0x2563, 0x2551, 0x2557, 0x255D, 0x255C, 0x2558, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x255E, 0x255F, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x2567, 0x2568, 0x2564, 0x2565, 0x2559, 0x2558, 0x2552, 0x2553, 0x256B, 0x256A, 0x2518, 0x250C, 0x2588, 0x2584, 0x258C, 0x2590, 0x2580, 0x03B1, 0x00DF, 0x0393, 0x03C0, 0x03A3, 0x03C3, 0x00B5, 0x03C4, 0x03A6, 0x0398, 0x03A9, 0x03B4, 0x221E, 0x03C6, 0x03B5, 0x2229, 0x2261, 0x00B1, 0x2265, 0x2264, 0x2320, 0x2321, 0x00F7, 0x2248, 0x00B0, 0x2219, 0x00B7, 0x221A, 0x207F, 0x00B2, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 861 || FF_CODE_PAGE == 0 static const WCHAR uc861[] = { /* CP861(Icelandic) to Unicode conversion table */ 0x00C7, 0x00FC, 0x00E9, 0x00E2, 0x00E4, 0x00E0, 0x00E6, 0x00E7, 0x00EA, 0x00EB, 0x00E8, 0x00D0, 0x00F0, 0x00DE, 0x00C4, 0x00C5, 0x00C9, 0x00E6, 0x00C6, 0x00F4, 0x00F6, 0x00FE, 0x00FB, 0x00DD, 0x00FD, 0x00D6, 0x00DC, 0x00F8, 0x00A3, 0x00D8, 0x20A7, 0x0192, 0x00E1, 0x00ED, 0x00F3, 0x00FA, 0x00C1, 0x00CD, 0x00D3, 0x00DA, 0x00BF, 0x2310, 0x00AC, 0x00BD, 0x00BC, 0x00A1, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x2561, 0x2562, 0x2556, 0x2555, 0x2563, 0x2551, 0x2557, 0x255D, 0x255C, 0x255B, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x255E, 0x255F, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x2567, 0x2568, 0x2564, 0x2565, 0x2559, 0x2558, 0x2552, 0x2553, 0x256B, 0x256A, 0x2518, 0x250C, 0x2588, 0x2584, 0x258C, 0x2590, 0x2580, 0x03B1, 0x00DF, 0x0393, 0x03C0, 0x03A3, 0x03C3, 0x00B5, 0x03C4, 0x03A6, 0x0398, 0x03A9, 0x03B4, 0x221E, 0x03C6, 0x03B5, 0x2229, 0x2261, 0x00B1, 0x2265, 0x2264, 0x2320, 0x2321, 0x00F7, 0x2248, 0x00B0, 0x2219, 0x00B7, 0x221A, 0x207F, 0x00B2, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 862 || FF_CODE_PAGE == 0 static const WCHAR uc862[] = { /* CP862(Hebrew) to Unicode conversion table */ 0x05D0, 0x05D1, 0x05D2, 0x05D3, 0x05D4, 0x05D5, 0x05D6, 0x05D7, 0x05D8, 0x05D9, 0x05DA, 0x05DB, 0x05DC, 0x05DD, 0x05DE, 0x05DF, 0x05E0, 0x05E1, 0x05E2, 0x05E3, 0x05E4, 0x05E5, 0x05E6, 0x05E7, 0x05E8, 0x05E9, 0x05EA, 0x00A2, 0x00A3, 0x00A5, 0x20A7, 0x0192, 0x00E1, 0x00ED, 0x00F3, 0x00FA, 0x00F1, 0x00D1, 0x00AA, 0x00BA, 0x00BF, 0x2310, 0x00AC, 0x00BD, 0x00BC, 0x00A1, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x2561, 0x2562, 0x2556, 0x2555, 0x2563, 0x2551, 0x2557, 0x255D, 0x255C, 0x255B, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x255E, 0x255F, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x2567, 0x2568, 0x2564, 0x2565, 0x2559, 0x2558, 0x2552, 0x2553, 0x256B, 0x256A, 0x2518, 0x250C, 0x2588, 0x2584, 0x258C, 0x2590, 0x2580, 0x03B1, 0x00DF, 0x0393, 0x03C0, 0x03A3, 0x03C3, 0x00B5, 0x03C4, 0x03A6, 0x0398, 0x03A9, 0x03B4, 0x221E, 0x03C6, 0x03B5, 0x2229, 0x2261, 0x00B1, 0x2265, 0x2264, 0x2320, 0x2321, 0x00F7, 0x2248, 0x00B0, 0x2219, 0x00B7, 0x221A, 0x207F, 0x00B2, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 863 || FF_CODE_PAGE == 0 static const WCHAR uc863[] = { /* CP863(Canadian French) to Unicode conversion table */ 0x00C7, 0x00FC, 0x00E9, 0x00E2, 0x00C2, 0x00E0, 0x00B6, 0x00E7, 0x00EA, 0x00EB, 0x00E8, 0x00EF, 0x00EE, 0x00EC, 0x2017, 0x00C0, 0x00C9, 0x00C8, 0x00CA, 0x00F4, 0x00CB, 0x00CF, 0x00FB, 0x00F9, 0x00A4, 0x00D4, 0x00DC, 0x00A2, 0x00A3, 0x00D9, 0x00DB, 0x0192, 0x00A6, 0x00B4, 0x00F3, 0x00FA, 0x00A8, 0x00BB, 0x00B3, 0x00AF, 0x00CE, 0x3210, 0x00AC, 0x00BD, 0x00BC, 0x00BE, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x2561, 0x2562, 0x2556, 0x2555, 0x2563, 0x2551, 0x2557, 0x255D, 0x255C, 0x255B, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x255E, 0x255F, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x2567, 0x2568, 0x2564, 0x2565, 0x2559, 0x2558, 0x2552, 0x2553, 0x256B, 0x256A, 0x2518, 0x250C, 0x2588, 0x2584, 0x258C, 0x2590, 0x2580, 0x03B1, 0x00DF, 0x0393, 0x03C0, 0x03A3, 0x03C3, 0x00B5, 0x03C4, 0x03A6, 0x0398, 0x03A9, 0x03B4, 0x221E, 0x03C6, 0x03B5, 0x2219, 0x2261, 0x00B1, 0x2265, 0x2264, 0x2320, 0x2321, 0x00F7, 0x2248, 0x00B0, 0x2219, 0x00B7, 0x221A, 0x207F, 0x00B2, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 864 || FF_CODE_PAGE == 0 static const WCHAR uc864[] = { /* CP864(Arabic) to Unicode conversion table */ 0x00B0, 0x00B7, 0x2219, 0x221A, 0x2592, 0x2500, 0x2502, 0x253C, 0x2524, 0x252C, 0x251C, 0x2534, 0x2510, 0x250C, 0x2514, 0x2518, 0x03B2, 0x221E, 0x03C6, 0x00B1, 0x00BD, 0x00BC, 0x2248, 0x00AB, 0x00BB, 0xFEF7, 0xFEF8, 0x0000, 0x0000, 0xFEFB, 0xFEFC, 0x0000, 0x00A0, 0x00AD, 0xFE82, 0x00A3, 0x00A4, 0xFE84, 0x0000, 0x20AC, 0xFE8E, 0xFE8F, 0xFE95, 0xFE99, 0x060C, 0xFE9D, 0xFEA1, 0xFEA5, 0x0660, 0x0661, 0x0662, 0x0663, 0x0664, 0x0665, 0x0666, 0x0667, 0x0668, 0x0669, 0xFED1, 0x061B, 0xFEB1, 0xFEB5, 0xFEB9, 0x061F, 0x00A2, 0xFE80, 0xFE81, 0xFE83, 0xFE85, 0xFECA, 0xFE8B, 0xFE8D, 0xFE91, 0xFE93, 0xFE97, 0xFE9B, 0xFE9F, 0xFEA3, 0xFEA7, 0xFEA9, 0xFEAB, 0xFEAD, 0xFEAF, 0xFEB3, 0xFEB7, 0xFEBB, 0xFEBF, 0xFEC1, 0xFEC5, 0xFECB, 0xFECF, 0x00A6, 0x00AC, 0x00F7, 0x00D7, 0xFEC9, 0x0640, 0xFED3, 0xFED7, 0xFEDB, 0xFEDF, 0xFEE3, 0xFEE7, 0xFEEB, 0xFEED, 0xFEEF, 0xFEF3, 0xFEBD, 0xFECC, 0xFECE, 0xFECD, 0xFEE1, 0xFE7D, 0x0651, 0xFEE5, 0xFEE9, 0xFEEC, 0xFEF0, 0xFEF2, 0xFED0, 0xFED5, 0xFEF5, 0xFEF6, 0xFEDD, 0xFED9, 0xFEF1, 0x25A0, 0x0000 }; #endif #if FF_CODE_PAGE == 865 || FF_CODE_PAGE == 0 static const WCHAR uc865[] = { /* CP865(Nordic) to Unicode conversion table */ 0x00C7, 0x00FC, 0x00E9, 0x00E2, 0x00E4, 0x00E0, 0x00E5, 0x00E7, 0x00EA, 0x00EB, 0x00E8, 0x00EF, 0x00EE, 0x00EC, 0x00C4, 0x00C5, 0x00C5, 0x00E6, 0x00C6, 0x00F4, 0x00F6, 0x00F2, 0x00FB, 0x00F9, 0x00FF, 0x00D6, 0x00DC, 0x00F8, 0x00A3, 0x00D8, 0x20A7, 0x0192, 0x00E1, 0x00ED, 0x00F3, 0x00FA, 0x00F1, 0x00D1, 0x00AA, 0x00BA, 0x00BF, 0x2310, 0x00AC, 0x00BD, 0x00BC, 0x00A1, 0x00AB, 0x00A4, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x2561, 0x2562, 0x2556, 0x2555, 0x2563, 0x2551, 0x2557, 0x255D, 0x255C, 0x2558, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x255E, 0x255F, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x2567, 0x2568, 0x2564, 0x2565, 0x2559, 0x2558, 0x2552, 0x2553, 0x256B, 0x256A, 0x2518, 0x250C, 0x2588, 0x2584, 0x258C, 0x2590, 0x2580, 0x03B1, 0x00DF, 0x0393, 0x03C0, 0x03A3, 0x03C3, 0x00B5, 0x03C4, 0x03A6, 0x0398, 0x03A9, 0x03B4, 0x221E, 0x03C6, 0x03B5, 0x2229, 0x2261, 0x00B1, 0x2265, 0x2264, 0x2320, 0x2321, 0x00F7, 0x2248, 0x00B0, 0x2219, 0x00B7, 0x221A, 0x207F, 0x00B2, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 866 || FF_CODE_PAGE == 0 static const WCHAR uc866[] = { /* CP866(Russian) to Unicode conversion table */ 0x0410, 0x0411, 0x0412, 0x0413, 0x0414, 0x0415, 0x0416, 0x0417, 0x0418, 0x0419, 0x041A, 0x041B, 0x041C, 0x041D, 0x041E, 0x041F, 0x0420, 0x0421, 0x0422, 0x0423, 0x0424, 0x0425, 0x0426, 0x0427, 0x0428, 0x0429, 0x042A, 0x042B, 0x042C, 0x042D, 0x042E, 0x042F, 0x0430, 0x0431, 0x0432, 0x0433, 0x0434, 0x0435, 0x0436, 0x0437, 0x0438, 0x0439, 0x043A, 0x043B, 0x043C, 0x043D, 0x043E, 0x043F, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x2561, 0x2562, 0x2556, 0x2555, 0x2563, 0x2551, 0x2557, 0x255D, 0x255C, 0x255B, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x255E, 0x255F, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x2567, 0x2568, 0x2564, 0x2565, 0x2559, 0x2558, 0x2552, 0x2553, 0x256B, 0x256A, 0x2518, 0x250C, 0x2588, 0x2584, 0x258C, 0x2590, 0x2580, 0x0440, 0x0441, 0x0442, 0x0443, 0x0444, 0x0445, 0x0446, 0x0447, 0x0448, 0x0449, 0x044A, 0x044B, 0x044C, 0x044D, 0x044E, 0x044F, 0x0401, 0x0451, 0x0404, 0x0454, 0x0407, 0x0457, 0x040E, 0x045E, 0x00B0, 0x2219, 0x00B7, 0x221A, 0x2116, 0x00A4, 0x25A0, 0x00A0 }; #endif #if FF_CODE_PAGE == 869 || FF_CODE_PAGE == 0 static const WCHAR uc869[] = { /* CP869(Greek 2) to Unicode conversion table */ 0x00B7, 0x00B7, 0x00B7, 0x00B7, 0x00B7, 0x00B7, 0x0386, 0x00B7, 0x00B7, 0x00AC, 0x00A6, 0x2018, 0x2019, 0x0388, 0x2015, 0x0389, 0x038A, 0x03AA, 0x038C, 0x00B7, 0x00B7, 0x038E, 0x03AB, 0x00A9, 0x038F, 0x00B2, 0x00B3, 0x03AC, 0x00A3, 0x03AD, 0x03AE, 0x03AF, 0x03CA, 0x0390, 0x03CC, 0x03CD, 0x0391, 0x0392, 0x0393, 0x0394, 0x0395, 0x0396, 0x0397, 0x00BD, 0x0398, 0x0399, 0x00AB, 0x00BB, 0x2591, 0x2592, 0x2593, 0x2502, 0x2524, 0x039A, 0x039B, 0x039C, 0x039D, 0x2563, 0x2551, 0x2557, 0x255D, 0x039E, 0x039F, 0x2510, 0x2514, 0x2534, 0x252C, 0x251C, 0x2500, 0x253C, 0x0A30, 0x03A1, 0x255A, 0x2554, 0x2569, 0x2566, 0x2560, 0x2550, 0x256C, 0x03A3, 0x03A4, 0x03A5, 0x03A6, 0x03A7, 0x03A8, 0x03A9, 0x03B1, 0x03B2, 0x03B3, 0x2518, 0x250C, 0x2588, 0x2584, 0x03B4, 0x03B5, 0x2580, 0x03B6, 0x03B7, 0x03B8, 0x03B9, 0x03BA, 0x03BB, 0x03BC, 0x03BD, 0x03BE, 0x03BF, 0x03C0, 0x03C1, 0x03C3, 0x03C2, 0x03C4, 0x0384, 0x00AD, 0x00B1, 0x03C5, 0x03C6, 0x03C7, 0x00A7, 0x03C8, 0x0385, 0x00B0, 0x00A8, 0x03C9, 0x03CB, 0x03B0, 0x03CE, 0x25A0, 0x00A0 }; #endif /*------------------------------------------------------------------------*/ /* OEM <==> Unicode conversions for static code page configuration */ /* SBCS fixed code page */ /*------------------------------------------------------------------------*/ #if FF_CODE_PAGE != 0 && FF_CODE_PAGE < 900 WCHAR ff_uni2oem ( /* Returns OEM code character, zero on error */ DWORD uni, /* UTF-16 encoded character to be converted */ WORD cp /* Code page for the conversion */ ) { WCHAR c = 0; const WCHAR *p = CVTBL(uc, FF_CODE_PAGE); if (uni < 0x80) { /* ASCII? */ c = (WCHAR)uni; } else { /* Non-ASCII */ if (uni < 0x10000 && cp == FF_CODE_PAGE) { /* Is it in BMP and valid code page? */ for (c = 0; c < 0x80 && uni != p[c]; c++) ; c = (c + 0x80) & 0xFF; } } return c; } WCHAR ff_oem2uni ( /* Returns Unicode character, zero on error */ WCHAR oem, /* OEM code to be converted */ WORD cp /* Code page for the conversion */ ) { WCHAR c = 0; const WCHAR *p = CVTBL(uc, FF_CODE_PAGE); if (oem < 0x80) { /* ASCII? */ c = oem; } else { /* Extended char */ if (cp == FF_CODE_PAGE) { /* Is it a valid code page? */ if (oem < 0x100) c = p[oem - 0x80]; } } return c; } #endif /*------------------------------------------------------------------------*/ /* OEM <==> Unicode conversions for static code page configuration */ /* DBCS fixed code page */ /*------------------------------------------------------------------------*/ #if FF_CODE_PAGE >= 900 WCHAR ff_uni2oem ( /* Returns OEM code character, zero on error */ DWORD uni, /* UTF-16 encoded character to be converted */ WORD cp /* Code page for the conversion */ ) { const WCHAR *p; WCHAR c = 0, uc; UINT i = 0, n, li, hi; if (uni < 0x80) { /* ASCII? */ c = (WCHAR)uni; } else { /* Non-ASCII */ if (uni < 0x10000 && cp == FF_CODE_PAGE) { /* Is it in BMP and valid code page? */ uc = (WCHAR)uni; p = CVTBL(uni2oem, FF_CODE_PAGE); hi = sizeof CVTBL(uni2oem, FF_CODE_PAGE) / 4 - 1; li = 0; for (n = 16; n; n--) { i = li + (hi - li) / 2; if (uc == p[i * 2]) break; if (uc > p[i * 2]) { li = i; } else { hi = i; } } if (n != 0) c = p[i * 2 + 1]; } } return c; } WCHAR ff_oem2uni ( /* Returns Unicode character, zero on error */ WCHAR oem, /* OEM code to be converted */ WORD cp /* Code page for the conversion */ ) { const WCHAR *p; WCHAR c = 0; UINT i = 0, n, li, hi; if (oem < 0x80) { /* ASCII? */ c = oem; } else { /* Extended char */ if (cp == FF_CODE_PAGE) { /* Is it valid code page? */ p = CVTBL(oem2uni, FF_CODE_PAGE); hi = sizeof CVTBL(oem2uni, FF_CODE_PAGE) / 4 - 1; li = 0; for (n = 16; n; n--) { i = li + (hi - li) / 2; if (oem == p[i * 2]) break; if (oem > p[i * 2]) { li = i; } else { hi = i; } } if (n != 0) c = p[i * 2 + 1]; } } return c; } #endif /*------------------------------------------------------------------------*/ /* OEM <==> Unicode conversions for dynamic code page configuration */ /*------------------------------------------------------------------------*/ #if FF_CODE_PAGE == 0 static const WORD cp_code[] = { 437, 720, 737, 771, 775, 850, 852, 855, 857, 860, 861, 862, 863, 864, 865, 866, 869, 0}; static const WCHAR* const cp_table[] = {uc437, uc720, uc737, uc771, uc775, uc850, uc852, uc855, uc857, uc860, uc861, uc862, uc863, uc864, uc865, uc866, uc869, 0}; WCHAR ff_uni2oem ( /* Returns OEM code character, zero on error */ DWORD uni, /* UTF-16 encoded character to be converted */ WORD cp /* Code page for the conversion */ ) { const WCHAR *p; WCHAR c = 0, uc; UINT i, n, li, hi; if (uni < 0x80) { /* ASCII? */ c = (WCHAR)uni; } else { /* Non-ASCII */ if (uni < 0x10000) { /* Is it in BMP? */ uc = (WCHAR)uni; p = 0; if (cp < 900) { /* SBCS */ for (i = 0; cp_code[i] != 0 && cp_code[i] != cp; i++) ; /* Get conversion table */ p = cp_table[i]; if (p) { /* Is it valid code page ? */ for (c = 0; c < 0x80 && uc != p[c]; c++) ; /* Find OEM code in the table */ c = (c + 0x80) & 0xFF; } } else { /* DBCS */ switch (cp) { /* Get conversion table */ case 932 : p = uni2oem932; hi = sizeof uni2oem932 / 4 - 1; break; case 936 : p = uni2oem936; hi = sizeof uni2oem936 / 4 - 1; break; case 949 : p = uni2oem949; hi = sizeof uni2oem949 / 4 - 1; break; case 950 : p = uni2oem950; hi = sizeof uni2oem950 / 4 - 1; break; } if (p) { /* Is it valid code page? */ li = 0; for (n = 16; n; n--) { /* Find OEM code */ i = li + (hi - li) / 2; if (uc == p[i * 2]) break; if (uc > p[i * 2]) { li = i; } else { hi = i; } } if (n != 0) c = p[i * 2 + 1]; } } } } return c; } WCHAR ff_oem2uni ( /* Returns Unicode character, zero on error */ WCHAR oem, /* OEM code to be converted (DBC if >=0x100) */ WORD cp /* Code page for the conversion */ ) { const WCHAR *p; WCHAR c = 0; UINT i, n, li, hi; if (oem < 0x80) { /* ASCII? */ c = oem; } else { /* Extended char */ p = 0; if (cp < 900) { /* SBCS */ for (i = 0; cp_code[i] != 0 && cp_code[i] != cp; i++) ; /* Get table */ p = cp_table[i]; if (p) { /* Is it a valid CP ? */ if (oem < 0x100) c = p[oem - 0x80]; } } else { /* DBCS */ switch (cp) { case 932 : p = oem2uni932; hi = sizeof oem2uni932 / 4 - 1; break; case 936 : p = oem2uni936; hi = sizeof oem2uni936 / 4 - 1; break; case 949 : p = oem2uni949; hi = sizeof oem2uni949 / 4 - 1; break; case 950 : p = oem2uni950; hi = sizeof oem2uni950 / 4 - 1; break; } if (p) { li = 0; for (n = 16; n; n--) { i = li + (hi - li) / 2; if (oem == p[i * 2]) break; if (oem > p[i * 2]) { li = i; } else { hi = i; } } if (n != 0) c = p[i * 2 + 1]; } } } return c; } #endif /*------------------------------------------------------------------------*/ /* Unicode up-case conversion */ /*------------------------------------------------------------------------*/ DWORD ff_wtoupper ( /* Returns up-converted code point */ DWORD uni /* Unicode code point to be up-converted */ ) { const WORD *p; WORD uc, bc, nc, cmd; static const WORD cvt1[] = { /* Compressed up conversion table for U+0000 - U+0FFF */ /* Basic Latin */ 0x0061,0x031A, /* Latin-1 Supplement */ 0x00E0,0x0317, 0x00F8,0x0307, 0x00FF,0x0001,0x0178, /* Latin Extended-A */ 0x0100,0x0130, 0x0132,0x0106, 0x0139,0x0110, 0x014A,0x012E, 0x0179,0x0106, /* Latin Extended-B */ 0x0180,0x004D,0x0243,0x0181,0x0182,0x0182,0x0184,0x0184,0x0186,0x0187,0x0187,0x0189,0x018A,0x018B,0x018B,0x018D,0x018E,0x018F,0x0190,0x0191,0x0191,0x0193,0x0194,0x01F6,0x0196,0x0197,0x0198,0x0198,0x023D,0x019B,0x019C,0x019D,0x0220,0x019F,0x01A0,0x01A0,0x01A2,0x01A2,0x01A4,0x01A4,0x01A6,0x01A7,0x01A7,0x01A9,0x01AA,0x01AB,0x01AC,0x01AC,0x01AE,0x01AF,0x01AF,0x01B1,0x01B2,0x01B3,0x01B3,0x01B5,0x01B5,0x01B7,0x01B8,0x01B8,0x01BA,0x01BB,0x01BC,0x01BC,0x01BE,0x01F7,0x01C0,0x01C1,0x01C2,0x01C3,0x01C4,0x01C5,0x01C4,0x01C7,0x01C8,0x01C7,0x01CA,0x01CB,0x01CA, 0x01CD,0x0110, 0x01DD,0x0001,0x018E, 0x01DE,0x0112, 0x01F3,0x0003,0x01F1,0x01F4,0x01F4, 0x01F8,0x0128, 0x0222,0x0112, 0x023A,0x0009,0x2C65,0x023B,0x023B,0x023D,0x2C66,0x023F,0x0240,0x0241,0x0241, 0x0246,0x010A, /* IPA Extensions */ 0x0253,0x0040,0x0181,0x0186,0x0255,0x0189,0x018A,0x0258,0x018F,0x025A,0x0190,0x025C,0x025D,0x025E,0x025F,0x0193,0x0261,0x0262,0x0194,0x0264,0x0265,0x0266,0x0267,0x0197,0x0196,0x026A,0x2C62,0x026C,0x026D,0x026E,0x019C,0x0270,0x0271,0x019D,0x0273,0x0274,0x019F,0x0276,0x0277,0x0278,0x0279,0x027A,0x027B,0x027C,0x2C64,0x027E,0x027F,0x01A6,0x0281,0x0282,0x01A9,0x0284,0x0285,0x0286,0x0287,0x01AE,0x0244,0x01B1,0x01B2,0x0245,0x028D,0x028E,0x028F,0x0290,0x0291,0x01B7, /* Greek, Coptic */ 0x037B,0x0003,0x03FD,0x03FE,0x03FF, 0x03AC,0x0004,0x0386,0x0388,0x0389,0x038A, 0x03B1,0x0311, 0x03C2,0x0002,0x03A3,0x03A3, 0x03C4,0x0308, 0x03CC,0x0003,0x038C,0x038E,0x038F, 0x03D8,0x0118, 0x03F2,0x000A,0x03F9,0x03F3,0x03F4,0x03F5,0x03F6,0x03F7,0x03F7,0x03F9,0x03FA,0x03FA, /* Cyrillic */ 0x0430,0x0320, 0x0450,0x0710, 0x0460,0x0122, 0x048A,0x0136, 0x04C1,0x010E, 0x04CF,0x0001,0x04C0, 0x04D0,0x0144, /* Armenian */ 0x0561,0x0426, 0x0000 /* EOT */ }; static const WORD cvt2[] = { /* Compressed up conversion table for U+1000 - U+FFFF */ /* Phonetic Extensions */ 0x1D7D,0x0001,0x2C63, /* Latin Extended Additional */ 0x1E00,0x0196, 0x1EA0,0x015A, /* Greek Extended */ 0x1F00,0x0608, 0x1F10,0x0606, 0x1F20,0x0608, 0x1F30,0x0608, 0x1F40,0x0606, 0x1F51,0x0007,0x1F59,0x1F52,0x1F5B,0x1F54,0x1F5D,0x1F56,0x1F5F, 0x1F60,0x0608, 0x1F70,0x000E,0x1FBA,0x1FBB,0x1FC8,0x1FC9,0x1FCA,0x1FCB,0x1FDA,0x1FDB,0x1FF8,0x1FF9,0x1FEA,0x1FEB,0x1FFA,0x1FFB, 0x1F80,0x0608, 0x1F90,0x0608, 0x1FA0,0x0608, 0x1FB0,0x0004,0x1FB8,0x1FB9,0x1FB2,0x1FBC, 0x1FCC,0x0001,0x1FC3, 0x1FD0,0x0602, 0x1FE0,0x0602, 0x1FE5,0x0001,0x1FEC, 0x1FF3,0x0001,0x1FFC, /* Letterlike Symbols */ 0x214E,0x0001,0x2132, /* Number forms */ 0x2170,0x0210, 0x2184,0x0001,0x2183, /* Enclosed Alphanumerics */ 0x24D0,0x051A, 0x2C30,0x042F, /* Latin Extended-C */ 0x2C60,0x0102, 0x2C67,0x0106, 0x2C75,0x0102, /* Coptic */ 0x2C80,0x0164, /* Georgian Supplement */ 0x2D00,0x0826, /* Full-width */ 0xFF41,0x031A, 0x0000 /* EOT */ }; if (uni < 0x10000) { /* Is it in BMP? */ uc = (WORD)uni; p = uc < 0x1000 ? cvt1 : cvt2; for (;;) { bc = *p++; /* Get the block base */ if (bc == 0 || uc < bc) break; /* Not matched? */ nc = *p++; cmd = nc >> 8; nc &= 0xFF; /* Get processing command and block size */ if (uc < bc + nc) { /* In the block? */ switch (cmd) { case 0: uc = p[uc - bc]; break; /* Table conversion */ case 1: uc -= (uc - bc) & 1; break; /* Case pairs */ case 2: uc -= 16; break; /* Shift -16 */ case 3: uc -= 32; break; /* Shift -32 */ case 4: uc -= 48; break; /* Shift -48 */ case 5: uc -= 26; break; /* Shift -26 */ case 6: uc += 8; break; /* Shift +8 */ case 7: uc -= 80; break; /* Shift -80 */ case 8: uc -= 0x1C60; break; /* Shift -0x1C60 */ } break; } if (cmd == 0) p += nc; /* Skip table if needed */ } uni = uc; } return uni; } #endif /* #if FF_USE_LFN */ ================================================ FILE: bdk/libs/lv_conf.h ================================================ /* * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef LV_CONF_H #define LV_CONF_H #include #include /*=================== Dynamic memory *===================*/ /* Memory size which will be used by the library * to store the graphical objects and other data */ #define LV_MEM_CUSTOM 0 /*1: use custom malloc/free, 0: use the built-in lv_mem_alloc/lv_mem_free*/ #if LV_MEM_CUSTOM == 0 # define LV_MEM_SIZE NYX_LV_MEM_SZ /*Size memory used by `lv_mem_alloc` in bytes (>= 2kB)*/ # define LV_MEM_ATTR /*Complier prefix for big array declaration*/ # define LV_MEM_ADR NYX_LV_MEM_ADR /*Set an address for memory pool instead of allocation it as an array. Can be in external SRAM too.*/ # define LV_MEM_AUTO_DEFRAG 1 /*Automatically defrag on free*/ #else /*LV_MEM_CUSTOM*/ # define LV_MEM_CUSTOM_INCLUDE /*Header for the dynamic memory function*/ # define LV_MEM_CUSTOM_ALLOC malloc /*Wrapper to malloc*/ # define LV_MEM_CUSTOM_FREE free /*Wrapper to free*/ #endif /*LV_MEM_CUSTOM*/ /* Garbage Collector settings * Used if lvgl is binded to higher language and the memory is managed by that language */ #define LV_ENABLE_GC 0 #if LV_ENABLE_GC != 0 # define LV_MEM_CUSTOM_REALLOC your_realloc /*Wrapper to realloc*/ # define LV_MEM_CUSTOM_GET_SIZE your_mem_get_size /*Wrapper to lv_mem_get_size*/ # define LV_GC_INCLUDE "gc.h" /*Include Garbage Collector related things*/ #endif /* LV_ENABLE_GC */ /*=================== Graphical settings *===================*/ /* Horizontal and vertical resolution of the library.*/ #define LV_HOR_RES (1280) #define LV_VER_RES (720) /* Dot Per Inch: used to initialize default sizes. E.g. a button with width = LV_DPI / 2 -> half inch wide * (Not so important, you can adjust it to modify default sizes and spaces)*/ #define LV_DPI 100 /* Enable anti-aliasing (lines, and radiuses will be smoothed) */ #define LV_ANTIALIAS 1 /*1: Enable anti-aliasing*/ /*Screen refresh period in milliseconds*/ #define LV_REFR_PERIOD 33 /*----------------- * VDB settings *----------------*/ /* VDB (Virtual Display Buffer) is an internal graphics buffer. * The GUI will be drawn into this buffer first and then * the buffer will be passed to your `disp_drv.disp_flush` function to * copy it to your frame buffer. * VDB is required for: buffered drawing, opacity, anti-aliasing and shadows * Learn more: https://docs.littlevgl.com/#Drawing*/ /* Size of the VDB in pixels. Typical size: ~1/10 screen. Must be >= LV_HOR_RES * Setting it to 0 will disable VDB and `disp_drv.disp_fill` and `disp_drv.disp_map` functions * will be called to draw to the frame buffer directly*/ #define LV_VDB_SIZE (LV_VER_RES * LV_HOR_RES) /* Bit-per-pixel of VDB. Useful for monochrome or non-standard color format displays. * Special formats are handled with `disp_drv.vdb_wr`)*/ #define LV_VDB_PX_BPP LV_COLOR_SIZE /*LV_COLOR_SIZE comes from LV_COLOR_DEPTH below to set 8, 16 or 32 bit pixel size automatically */ /* Place VDB to a specific address (e.g. in external RAM) * 0: allocate automatically into RAM * LV_VDB_ADR_INV: to replace it later with `lv_vdb_set_adr()`*/ #define LV_VDB_ADR NYX_LV_VDB_ADR /* Use two Virtual Display buffers (VDB) to parallelize rendering and flushing * The flushing should use DMA to write the frame buffer in the background */ #define LV_VDB_DOUBLE 0 /* Place VDB2 to a specific address (e.g. in external RAM) * 0: allocate automatically into RAM * LV_VDB_ADR_INV: to replace it later with `lv_vdb_set_adr()`*/ #define LV_VDB2_ADR 0 /* Using true double buffering in `disp_drv.disp_flush` you will always get the image of the whole screen. * Your only task is to set the rendered image (`color_p` parameter) as frame buffer address or send it to your display. * The best if you do in the blank period of you display to avoid tearing effect. * Requires: * - LV_VDB_SIZE = LV_HOR_RES * LV_VER_RES * - LV_VDB_DOUBLE = 1 */ #define LV_VDB_TRUE_DOUBLE_BUFFERED 0 /*================= Misc. setting *=================*/ /*Input device settings*/ #define LV_INDEV_READ_PERIOD 33 /*Input device read period in milliseconds*/ #define LV_INDEV_POINT_MARKER 0 /*Mark the pressed points (required: USE_LV_REAL_DRAW = 1)*/ #define LV_INDEV_DRAG_LIMIT 10 /*Drag threshold in pixels */ #define LV_INDEV_DRAG_THROW 20 /*Drag throw slow-down in [%]. Greater value means faster slow-down */ #define LV_INDEV_LONG_PRESS_TIME 5000 /*Long press time in milliseconds*/ #define LV_INDEV_LONG_PRESS_REP_TIME 1000 //Fix lv_kb /*Repeated trigger period in long press [ms] */ /*Color settings*/ #define LV_COLOR_DEPTH 32 /*Color depth: 1/8/16/32*/ #define LV_COLOR_16_SWAP 0 /*Swap the 2 bytes of RGB565 color. Useful if the display has a 8 bit interface (e.g. SPI)*/ #define LV_COLOR_SCREEN_TRANSP 0 /*1: Enable screen transparency. Useful for OSD or other overlapping GUIs. Requires ARGB8888 colors*/ #define LV_COLOR_TRANSP LV_COLOR_LIME /*Images pixels with this color will not be drawn (with chroma keying)*/ /*Text settings*/ #define LV_TXT_UTF8 0 /*Enable UTF-8 coded Unicode character usage */ #define LV_TXT_BREAK_CHARS " ,.;:-_" /*Can break texts on these chars*/ #define LV_TXT_LINE_BREAK_LONG_LEN 12 /* If a character is at least this long, will break wherever "prettiest" */ #define LV_TXT_LINE_BREAK_LONG_PRE_MIN_LEN 3 /* Minimum number of characters of a word to put on a line before a break */ #define LV_TXT_LINE_BREAK_LONG_POST_MIN_LEN 1 /* Minimum number of characters of a word to put on a line after a break */ /*Feature usage*/ #define USE_LV_ANIMATION 1 /*1: Enable all animations*/ #define USE_LV_SHADOW 1 /*1: Enable shadows*/ #define USE_LV_GROUP 0 /*1: Enable object groups (for keyboards)*/ #define USE_LV_GPU 0 /*1: Enable GPU interface*/ #define USE_LV_REAL_DRAW 0 /*1: Enable function which draw directly to the frame buffer instead of VDB (required if LV_VDB_SIZE = 0)*/ #define USE_LV_FILESYSTEM 0 /*1: Enable file system (might be required for images*/ #define USE_LV_MULTI_LANG 0 /* Number of languages for labels to store (0: to disable this feature)*/ /*Compiler settings*/ #define LV_ATTRIBUTE_TICK_INC /* Define a custom attribute to `lv_tick_inc` function */ #define LV_ATTRIBUTE_TASK_HANDLER /* Define a custom attribute to `lv_task_handler` function */ #define LV_COMPILER_VLA_SUPPORTED 1 /* 1: Variable length array is supported*/ /*HAL settings*/ #define LV_TICK_CUSTOM 1 /*1: use a custom tick source (removing the need to manually update the tick with `lv_tick_inc`) */ #if LV_TICK_CUSTOM == 1 #define LV_TICK_CUSTOM_INCLUDE /*Header for the sys time function*/ #define LV_TICK_CUSTOM_SYS_TIME_EXPR ((u32)get_tmr_ms()) /*Expression evaluating to current systime in ms*/ #endif /*LV_TICK_CUSTOM*/ /*Log settings*/ #ifdef DEBUG_UART_LV_LOG # define USE_LV_LOG 1 /*Enable/disable the log module*/ #else # define USE_LV_LOG 0 /*Enable/disable the log module*/ #endif #if USE_LV_LOG /* How important log should be added: * LV_LOG_LEVEL_TRACE A lot of logs to give detailed information * LV_LOG_LEVEL_INFO Log important events * LV_LOG_LEVEL_WARN Log if something unwanted happened but didn't caused problem * LV_LOG_LEVEL_ERROR Only critical issue, when the system may fail */ # define LV_LOG_LEVEL LV_LOG_LEVEL_WARN /* 1: Print the log with 'printf'; 0: user need to register a callback*/ # define LV_LOG_PRINTF 1 #endif /*USE_LV_LOG*/ /*================ * THEME USAGE *================*/ #define LV_THEME_LIVE_UPDATE 0 /*1: Allow theme switching at run time. Uses 8..10 kB of RAM*/ #define USE_LV_THEME_HEKATE 1 /*Flat theme with bold colors and light shadows*/ /*================== * FONT USAGE *===================*/ /* More info about fonts: https://docs.littlevgl.com/#Fonts * To enable a built-in font use 1,2,4 or 8 values * which will determine the bit-per-pixel. Higher value means smoother fonts */ #define LV_FONT_QUALITY 8 #define USE_UBUNTU_MONO LV_FONT_QUALITY #define USE_INTERUI_20 LV_FONT_QUALITY #define USE_INTERUI_30 LV_FONT_QUALITY #define USE_HEKATE_SYMBOL_20 USE_INTERUI_20 #define USE_HEKATE_SYMBOL_30 USE_INTERUI_30 #define USE_HEKATE_SYMBOL_120 LV_FONT_QUALITY /* Optionally declare your custom fonts here. * You can use these fonts as default font too * and they will be available globally. E.g. * #define LV_FONT_CUSTOM_DECLARE LV_FONT_DECLARE(my_font_1) \ * LV_FONT_DECLARE(my_font_2) \ */ #define LV_FONT_CUSTOM_DECLARE #define LV_FONT_DEFAULT &interui_30 /*Always set a default font from the built-in fonts*/ /*=================== * LV_OBJ SETTINGS *==================*/ #define LV_OBJ_FREE_NUM_TYPE uint32_t /*Type of free number attribute (comment out disable free number)*/ #define LV_OBJ_FREE_PTR 1 /*Enable the free pointer attribute*/ #define LV_OBJ_REALIGN 1 // 0 in OG gui /*Enable `lv_obj_realaign()` based on `lv_obj_align()` parameters*/ /*================== * LV OBJ X USAGE *================*/ /* * Documentation of the object types: https://docs.littlevgl.com/#Object-types */ /***************** * Simple object *****************/ /*Label (dependencies: -*/ #define USE_LV_LABEL 1 #if USE_LV_LABEL != 0 # define LV_LABEL_SCROLL_SPEED 25 /*Hor, or ver. scroll speed [px/sec] in 'LV_LABEL_LONG_SCROLL/ROLL' mode*/ #endif /*Image (dependencies: lv_label*/ #define USE_LV_IMG 1 #if USE_LV_IMG != 0 # define LV_IMG_CF_INDEXED 0 /*Enable indexed (palette) images*/ # define LV_IMG_CF_ALPHA 0 /*Enable alpha indexed images*/ #endif /*Line (dependencies: -*/ #define USE_LV_LINE 1 /*Arc (dependencies: -)*/ #define USE_LV_ARC 0 /******************* * Container objects *******************/ /*Container (dependencies: -*/ #define USE_LV_CONT 1 /*Page (dependencies: lv_cont)*/ #define USE_LV_PAGE 1 /*Window (dependencies: lv_cont, lv_btn, lv_label, lv_img, lv_page)*/ #define USE_LV_WIN 1 /*Tab (dependencies: lv_page, lv_btnm)*/ #define USE_LV_TABVIEW 1 # if USE_LV_TABVIEW != 0 # define LV_TABVIEW_ANIM_TIME 0 /*Time of slide animation [ms] (0: no animation)*/ #endif /*Tileview (dependencies: lv_page) */ #define USE_LV_TILEVIEW 0 #if USE_LV_TILEVIEW # define LV_TILEVIEW_ANIM_TIME 0 /*Time of slide animation [ms] (0: no animation)*/ #endif /************************* * Data visualizer objects *************************/ /*Bar (dependencies: -)*/ #define USE_LV_BAR 1 /*Line meter (dependencies: *;)*/ #define USE_LV_LMETER 0 /*Gauge (dependencies:lv_bar, lv_lmeter)*/ #define USE_LV_GAUGE 0 /*Chart (dependencies: -)*/ #define USE_LV_CHART 0 /*Table (dependencies: lv_label)*/ #define USE_LV_TABLE 1 #if USE_LV_TABLE # define LV_TABLE_COL_MAX 12 #endif /*LED (dependencies: -)*/ #define USE_LV_LED 0 /*Message box (dependencies: lv_rect, lv_btnm, lv_label)*/ #define USE_LV_MBOX 1 #if USE_LV_MBOX != 0 # define LV_MBOX_CLOSE_ANIM_TIME 200 /*ms*/ #endif /*Text area (dependencies: lv_label, lv_page)*/ #define USE_LV_TA 1 #if USE_LV_TA != 0 # define LV_TA_CURSOR_BLINK_TIME 400 /*ms*/ # define LV_TA_PWD_SHOW_TIME 1500 /*ms*/ #endif /*Spinbox (dependencies: lv_ta)*/ #define USE_LV_SPINBOX 0 /*Calendar (dependencies: -)*/ #define USE_LV_CALENDAR 0 /*Preload (dependencies: lv_arc)*/ #define USE_LV_PRELOAD 0 #if USE_LV_PRELOAD != 0 # define LV_PRELOAD_DEF_ARC_LENGTH 60 /*[deg]*/ # define LV_PRELOAD_DEF_SPIN_TIME 1000 /*[ms]*/ # define LV_PRELOAD_DEF_ANIM LV_PRELOAD_TYPE_SPINNING_ARC #endif /*Canvas (dependencies: lv_img)*/ #define USE_LV_CANVAS 0 /************************* * User input objects *************************/ /*Button (dependencies: lv_cont*/ #define USE_LV_BTN 1 #if USE_LV_BTN != 0 # define LV_BTN_INK_EFFECT 0 /*Enable button-state animations - draw a circle on click (dependencies: USE_LV_ANIMATION)*/ #endif /*Image Button (dependencies: lv_btn*/ #define USE_LV_IMGBTN 1 #if USE_LV_IMGBTN # define LV_IMGBTN_TILED 0 /*1: The imgbtn requires left, mid and right parts and the width can be set freely*/ #endif /*Button matrix (dependencies: -)*/ #define USE_LV_BTNM 1 /*Keyboard (dependencies: lv_btnm)*/ #define USE_LV_KB 0 /*Check box (dependencies: lv_btn, lv_label)*/ #define USE_LV_CB 0 /*List (dependencies: lv_page, lv_btn, lv_label, (lv_img optionally for icons ))*/ #define USE_LV_LIST 1 #if USE_LV_LIST != 0 # define LV_LIST_FOCUS_TIME 100 /*Default animation time of focusing to a list element [ms] (0: no animation) */ #endif /*Drop down list (dependencies: lv_page, lv_label, lv_symbol_def.h)*/ #define USE_LV_DDLIST 1 #if USE_LV_DDLIST != 0 # define LV_DDLIST_ANIM_TIME 100 /*Open and close default animation time [ms] (0: no animation)*/ #endif /*Roller (dependencies: lv_ddlist)*/ #define USE_LV_ROLLER 1 #if USE_LV_ROLLER != 0 # define LV_ROLLER_ANIM_TIME 200 /*Focus animation time [ms] (0: no animation)*/ #endif /*Slider (dependencies: lv_bar)*/ #define USE_LV_SLIDER 1 /*Switch (dependencies: lv_slider)*/ #define USE_LV_SW 0 #endif /*LV_CONF_H*/ ================================================ FILE: bdk/libs/lvgl/docs/CODE_OF_CONDUCT.md ================================================ # Contributor Covenant Code of Conduct ## Our Pledge In the interest of fostering an open and welcoming environment, we as contributors and maintainers pledge to making participation in our project and our community a harassment-free experience for everyone, regardless of age, body size, disability, ethnicity, gender identity and expression, level of experience, nationality, personal appearance, race, religion, or sexual identity and orientation. ## Our Standards Examples of behavior that contributes to creating a positive environment include: * Using welcoming and inclusive language * Being respectful of differing viewpoints and experiences * Gracefully accepting constructive criticism * Focusing on what is best for the community * Showing empathy towards other community members Examples of unacceptable behavior by participants include: * The use of sexualized language or imagery and unwelcome sexual attention or advances * Trolling, insulting/derogatory comments, and personal or political attacks * Public or private harassment * Publishing others' private information, such as a physical or electronic address, without explicit permission * Other conduct which could reasonably be considered inappropriate in a professional setting ## Our Responsibilities Project maintainers are responsible for clarifying the standards of acceptable behavior and are expected to take appropriate and fair corrective action in response to any instances of unacceptable behavior. Project maintainers have the right and responsibility to remove, edit, or reject comments, commits, code, wiki edits, issues, and other contributions that are not aligned to this Code of Conduct, or to ban temporarily or permanently any contributor for other behaviors that they deem inappropriate, threatening, offensive, or harmful. ## Scope This Code of Conduct applies both within project spaces and in public spaces when an individual is representing the project or its community. Examples of representing a project or community include using an official project e-mail address, posting via an official social media account, or acting as an appointed representative at an online or offline event. Representation of a project may be further defined and clarified by project maintainers. ## Enforcement Instances of abusive, harassing, or otherwise unacceptable behavior may be reported by contacting the project team at [atom@github.com](mailto:atom@github.com). All complaints will be reviewed and investigated and will result in a response that is deemed necessary and appropriate to the circumstances. The project team is obligated to maintain confidentiality with regard to the reporter of an incident. Further details of specific enforcement policies may be posted separately. Project maintainers who do not follow or enforce the Code of Conduct in good faith may face temporary or permanent repercussions as determined by other members of the project's leadership. ## Attribution This Code of Conduct is adapted from the [Contributor Covenant][homepage], version 1.4, available at [http://contributor-covenant.org/version/1/4][version] [homepage]: http://contributor-covenant.org [version]: http://contributor-covenant.org/version/1/4/ ================================================ FILE: bdk/libs/lvgl/docs/CONTRIBUTING.md ================================================ # Contributing to Littlev Graphics Library **Welcome! It's glad to see that you are interested in contributing to LittlevGL! There are several types of task where you can help to build a better library! Let's see how to get started!** There are many different possibilities to join the community. If you have some time to work with us I'm sure you will find something that fits you! You can: - answer other's questions - report and/or fix bugs - suggest and/or implement new features - improve and/or translate the documentation - write a blog post about your experiences But first, start with the most Frequently Asked Questions. ## FAQ about contributing ### What license does my code need to be under? Any code added to LittlevGL must be licensed under [MIT](https://choosealicense.com/licenses/mit/) or another license that is fully compatible. Contributions under other licenses are highly likely to be rejected. If you borrow code from another project, please make sure to add their copyright notice to your contribution. ### Where do I ask questions, give feedback, or report bugs? We use the [forum](http://forum.littlevgl.com/) for questions, feature suggestions, and discussions. We use [GitHub's issue tracker](https://github.com/littlevgl/lvgl/issues) to report bugs. For both of these there are some rules: - Be kind and friendly. - Speak about one thing in one issue. - Give feedback and close the issue if your question is answered. - Explain exactly what you experience or expect. _"The button is not working"_ is not enough info to get help. - For most issues you should send an absolute minimal code example in order to reproduce the issue. Ideally this should be easily usable in the PC simulator. - Use [Markdown](https://github.com/adam-p/markdown-here/wiki/Markdown-Cheatsheet) to format your post. - If you don't get any answer in a week write a comment like "Can somebody help?". Maybe your issue wasn't noticed. ### How can I send fixes and improvements? Merging new code happens via Pull Requests. If you are still not familiar with the Pull Requests (PR for short) here is a quick guide about them: 1. **Fork** the [lvgl repository](https://github.com/littlevgl/lvgl). To do this click the "Fork" button in the top right corner. It will "copy" the `lvgl` repository to your GitHub account (`https://github.com/your_name?tab=repositories`) 2. **Clone** the forked repository and add your updates 3. **Create a PR** on the GitHub on the page of you `lvgl` repository(`https://github.com/your_name/lvgl`) by hitting the "New pull request" button 4. **Set the base branch**. It means where you want to merge your update. Bugfixes for the last release go to `master`, new features to the actual `dev-x.y` branch. 5. **Describe** what is in the update. An example code is welcome if applicable. Some advice: - If you are not sure about your fix or feature it's better to open an issue first, and discuss the details there. - Maybe your fix or update won't be perfect at first. Don't be afraid, just improve it and push the new commits. The PR will be updated accordingly. - If your update needs some extra work it's okay to say: _"I'm busy now and I will improve it soon"_ or _"Sorry, I don't have time to improve it, I hope it helps in this form too"_. So it's better to say don't have time to continue then saying nothing. - Please read and follow this [guide about the coding style](https://docs.littlevgl.com/#Coding-Style-Guide) ### Where is the documentation? You can read the documentation here: https://docs.littlevgl.com/ You can edit the documentation here: https://github.com/littlevgl/doc ### Where is the blog? You can read the blog here: https://blog.littlevgl.com/ You can edit the blog here: https://github.com/littlevgl/blog ## So how and where can I contribute? ### Answering other's questions It's a great way to contribute to the library if you already use it. Just go the [issue tracker](https://github.com/littlevgl/lvgl/issues), read the titles and if you are already familiar with a topic, don't be shy, and write your suggestion. ### Reporting and/or fixing bugs For simple bugfixes (typos, missing error handling, fixing a warning) is fine to send a Pull request directly. However, for more complex bugs it's better to open an issue first. In the issue, you should describe how to reproduce the bug and even add the minimal code snippet. ### Suggesting and/or implementing new features If you have a good idea don't hesitate to share with us. It's even better if you have time to deal with its implementation. Don't be afraid if you still don't know LittlevGL well enough. We will help you to get started. During the implementation don't forget the [Code style guide](https://docs.littlevgl.com/#Coding-Style-Guide). ### Improving and/or translating the documentation The documentation of LittlevGL is written in Markdown and available [here](https://github.com/littlevgl/doc) for editing. If you find some parts of the documentation obscure or insufficient just search the related `.md` file, hit the edit icon and add your updates. This way a new Pull request will be generated automatically. If you can devote more time to improve the documentation you can translate it! 1. Just copy the English `.md` files from the root folder to `locale/LANGUAGE_CODE` (language code is e.g. DE, FR, ES etc) 2. Append the language code the end of files (e.g. Welcome_fr.md) 3. Update the filenames in `_Sidebar.md` 4. Translate the page(s) you want 5. Create a Pull request ### Writing a blog post about your experiences Have ported LittlevGL to a new platform? Have you created a fancy GUI? Do you know a great trick? You can share your knowledge on LittelvGL's blog! It's super easy to add your own post: - Fork and clone the [blog repository](https://github.com/littlevgl/blog) - Add your post in Markdown to the `_posts` folder. - Store the images and other resources in a dedicated folder in `assets` - Create a Pull Request The blog uses [Jekyll](https://jekyllrb.com/) to convert the `.md` files to a webpage. You can easily [run Jekyll offline](https://jekyllrb.com/docs/) to check your post before creating the Pull request ## Summary I hope you have taken a liking to contribute to LittelvGL. A helpful and friendly community is waiting for you! :) ================================================ FILE: bdk/libs/lvgl/docs/astyle_c ================================================ --style=kr --convert-tabs --indent=spaces=4 --indent-switches --pad-oper --unpad-paren --align-pointer=middle --suffix=.bak --lineend=linux --min-conditional-indent= ================================================ FILE: bdk/libs/lvgl/docs/astyle_h ================================================ --convert-tabs --indent=spaces=4 ================================================ FILE: bdk/libs/lvgl/licence.txt ================================================ MIT licence Copyright (c) 2016 Gábor Kiss-Vámosi Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the “Software”), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ================================================ FILE: bdk/libs/lvgl/lv_core/lv_core.mk ================================================ CSRCS += lv_group.c CSRCS += lv_indev.c CSRCS += lv_obj.c CSRCS += lv_refr.c CSRCS += lv_style.c CSRCS += lv_vdb.c CSRCS += lv_lang.c DEPPATH += --dep-path $(LVGL_DIR)/lvgl/lv_core VPATH += :$(LVGL_DIR)/lvgl/lv_core CFLAGS += "-I$(LVGL_DIR)/lvgl/lv_core" ================================================ FILE: bdk/libs/lvgl/lv_core/lv_group.c ================================================ /** * @file lv_group.c * */ /********************* * INCLUDES *********************/ #include "lv_group.h" #if USE_LV_GROUP != 0 #include /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static void style_mod_def(lv_style_t * style); static void style_mod_edit_def(lv_style_t * style); static void lv_group_refocus(lv_group_t *g); static void obj_to_foreground(lv_obj_t * obj); /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a new object group * @return pointer to the new object group */ lv_group_t * lv_group_create(void) { lv_group_t * group = lv_mem_alloc(sizeof(lv_group_t)); lv_mem_assert(group); if(group == NULL) return NULL; lv_ll_init(&group->obj_ll, sizeof(lv_obj_t *)); group->style_mod = style_mod_def; group->style_mod_edit = style_mod_edit_def; group->obj_focus = NULL; group->frozen = 0; group->focus_cb = NULL; group->click_focus = 1; group->editing = 0; return group; } /** * Delete a group object * @param group pointer to a group */ void lv_group_del(lv_group_t * group) { /*Defocus the the currently focused object*/ if(group->obj_focus != NULL) { (*group->obj_focus)->signal_func(*group->obj_focus, LV_SIGNAL_DEFOCUS, NULL); lv_obj_invalidate(*group->obj_focus); } /*Remove the objects from the group*/ lv_obj_t ** obj; LL_READ(group->obj_ll, obj) { (*obj)->group_p = NULL; } lv_ll_clear(&(group->obj_ll)); lv_mem_free(group); } /** * Add an object to a group * @param group pointer to a group * @param obj pointer to an object to add */ void lv_group_add_obj(lv_group_t * group, lv_obj_t * obj) { if(group == NULL) return; /*If the object is already in a group and focused then defocus it*/ if(obj->group_p) { if(lv_obj_is_focused(obj)) { lv_group_refocus(obj->group_p); LV_LOG_INFO("group: assign object to an other group"); } } obj->group_p = group; lv_obj_t ** next = lv_ll_ins_tail(&group->obj_ll); lv_mem_assert(next); if(next == NULL) return; *next = obj; /* If the head and the tail is equal then there is only one object in the linked list. * In this case automatically activate it*/ if(lv_ll_get_head(&group->obj_ll) == next) { lv_group_refocus(group); } } /** * Remove an object from its group * @param obj pointer to an object to remove */ void lv_group_remove_obj(lv_obj_t * obj) { lv_group_t * g = obj->group_p; if(g == NULL) return; if(g->obj_focus == NULL) return; /*Just to be sure (Not possible if there is at least one object in the group)*/ /*Focus on the next object*/ if(*g->obj_focus == obj) { /*If this is the only object in the group then focus to nothing.*/ if(lv_ll_get_head(&g->obj_ll) == g->obj_focus && lv_ll_get_tail(&g->obj_ll) == g->obj_focus) { (*g->obj_focus)->signal_func(*g->obj_focus, LV_SIGNAL_DEFOCUS, NULL); } /*If there more objects in the group then focus to the next/prev object*/ else { lv_group_refocus(g); } } /* If the focuses object is still the same then it was the only object in the group but it will be deleted. * Set the `obj_focus` to NULL to get back to the initial state of the group with zero objects*/ if(*g->obj_focus == obj) { g->obj_focus = NULL; } /*Search the object and remove it from its group */ lv_obj_t ** i; LL_READ(g->obj_ll, i) { if(*i == obj) { lv_ll_rem(&g->obj_ll, i); lv_mem_free(i); obj->group_p = NULL; break; } } } /** * Focus on an object (defocus the current) * @param obj pointer to an object to focus on */ void lv_group_focus_obj(lv_obj_t * obj) { lv_group_t * g = obj->group_p; if(g == NULL) return; if(g->frozen != 0) return; /*On defocus edit mode must be leaved*/ lv_group_set_editing(g, false); lv_obj_t ** i; LL_READ(g->obj_ll, i) { if(*i == obj) { if(g->obj_focus == i) return; /*Don't focus the already focused object again*/ if(g->obj_focus != NULL) { (*g->obj_focus)->signal_func(*g->obj_focus, LV_SIGNAL_DEFOCUS, NULL); lv_obj_invalidate(*g->obj_focus); } g->obj_focus = i; if(g->obj_focus != NULL) { (*g->obj_focus)->signal_func(*g->obj_focus, LV_SIGNAL_FOCUS, NULL); if(g->focus_cb) g->focus_cb(g); lv_obj_invalidate(*g->obj_focus); /*If the object or its parent has `top == true` bring it to the foregorund*/ obj_to_foreground(*g->obj_focus); } break; } } } /** * Focus the next object in a group (defocus the current) * @param group pointer to a group */ void lv_group_focus_next(lv_group_t * group) { if(group->frozen) return; if(group->obj_focus) { (*group->obj_focus)->signal_func(*group->obj_focus, LV_SIGNAL_DEFOCUS, NULL); lv_obj_invalidate(*group->obj_focus); } lv_obj_t ** obj_next; if(group->obj_focus == NULL) obj_next = lv_ll_get_head(&group->obj_ll); else obj_next = lv_ll_get_next(&group->obj_ll, group->obj_focus); if(obj_next == NULL) { if(group->wrap) obj_next = lv_ll_get_head(&group->obj_ll); else obj_next = lv_ll_get_tail(&group->obj_ll); } group->obj_focus = obj_next; if(group->obj_focus) { (*group->obj_focus)->signal_func(*group->obj_focus, LV_SIGNAL_FOCUS, NULL); lv_obj_invalidate(*group->obj_focus); if(group->focus_cb) group->focus_cb(group); /*If the object or its parent has `top == true` bring it to the foregorund*/ obj_to_foreground(*group->obj_focus); } } /** * Focus the previous object in a group (defocus the current) * @param group pointer to a group */ void lv_group_focus_prev(lv_group_t * group) { if(group->frozen) return; if(group->obj_focus) { (*group->obj_focus)->signal_func(*group->obj_focus, LV_SIGNAL_DEFOCUS, NULL); lv_obj_invalidate(*group->obj_focus); } lv_obj_t ** obj_next; if(group->obj_focus == NULL) obj_next = lv_ll_get_tail(&group->obj_ll); else obj_next = lv_ll_get_prev(&group->obj_ll, group->obj_focus); if(obj_next == NULL) { if(group->wrap) obj_next = lv_ll_get_tail(&group->obj_ll); else obj_next = lv_ll_get_head(&group->obj_ll); } group->obj_focus = obj_next; if(group->obj_focus != NULL) { (*group->obj_focus)->signal_func(*group->obj_focus, LV_SIGNAL_FOCUS, NULL); lv_obj_invalidate(*group->obj_focus); if(group->focus_cb) group->focus_cb(group); /*If the object or its parent has `top == true` bring it to the foregorund*/ obj_to_foreground(*group->obj_focus); } } /** * Do not let to change the focus from the current object * @param group pointer to a group * @param en true: freeze, false: release freezing (normal mode) */ void lv_group_focus_freeze(lv_group_t * group, bool en) { if(en == false) group->frozen = 0; else group->frozen = 1; } /** * Send a control character to the focuses object of a group * @param group pointer to a group * @param c a character (use LV_GROUP_KEY_.. to navigate) * @return result of focused object in group. */ lv_res_t lv_group_send_data(lv_group_t * group, uint32_t c) { lv_obj_t * act = lv_group_get_focused(group); if(act == NULL) return LV_RES_OK; return act->signal_func(act, LV_SIGNAL_CONTROLL, &c); } /** * Set a function for a group which will modify the object's style if it is in focus * @param group pointer to a group * @param style_mod_func the style modifier function pointer */ void lv_group_set_style_mod_cb(lv_group_t * group, lv_group_style_mod_func_t style_mod_func) { group->style_mod = style_mod_func; if(group->obj_focus != NULL) lv_obj_invalidate(*group->obj_focus); } /** * Set a function for a group which will modify the object's style if it is in focus in edit mode * @param group pointer to a group * @param style_mod_func the style modifier function pointer */ void lv_group_set_style_mod_edit_cb(lv_group_t * group, lv_group_style_mod_func_t style_mod_func) { group->style_mod_edit = style_mod_func; if(group->obj_focus != NULL) lv_obj_invalidate(*group->obj_focus); } /** * Set a function for a group which will be called when a new object is focused * @param group pointer to a group * @param focus_cb the call back function or NULL if unused */ void lv_group_set_focus_cb(lv_group_t * group, lv_group_focus_cb_t focus_cb) { group->focus_cb = focus_cb; } /** * Manually set the current mode (edit or navigate). * @param group pointer to group * @param edit: true: edit mode; false: navigate mode */ void lv_group_set_editing(lv_group_t * group, bool edit) { uint8_t en_val = edit ? 1 : 0; if(en_val == group->editing) return; /*Do not set the same mode again*/ group->editing = en_val; lv_obj_t * focused = lv_group_get_focused(group); if(focused) focused->signal_func(focused, LV_SIGNAL_FOCUS, NULL); /*Focus again to properly leave edit mode*/ lv_obj_invalidate(focused); } /** * Set the `click_focus` attribute. If enabled then the object will be focused then it is clicked. * @param group pointer to group * @param en: true: enable `click_focus` */ void lv_group_set_click_focus(lv_group_t * group, bool en) { group->click_focus = en ? 1 : 0; } void lv_group_set_refocus_policy(lv_group_t * group, lv_group_refocus_policy_t policy) { group->refocus_policy = policy & 0x01; } static void lv_group_refocus(lv_group_t *g) { /*Refocus must temporarily allow wrapping to work correctly*/ uint8_t temp_wrap = g->wrap; g->wrap = 1; if(g->refocus_policy == LV_GROUP_REFOCUS_POLICY_NEXT) lv_group_focus_next(g); else if(g->refocus_policy == LV_GROUP_REFOCUS_POLICY_PREV) lv_group_focus_prev(g); /*Restore wrap property*/ g->wrap = temp_wrap; } /** * Set whether focus next/prev will allow wrapping from first->last or last->first. * @param group pointer to group * @param en: true: enable `click_focus` */ void lv_group_set_wrap(lv_group_t * group, bool en) { group->wrap = en ? 1 : 0; } /** * Modify a style with the set 'style_mod' function. The input style remains unchanged. * @param group pointer to group * @param style pointer to a style to modify * @return a copy of the input style but modified with the 'style_mod' function */ lv_style_t * lv_group_mod_style(lv_group_t * group, const lv_style_t * style) { lv_style_copy(&group->style_tmp, style); if(group->editing) { if(group->style_mod_edit) group->style_mod_edit(&group->style_tmp); } else { if(group->style_mod) group->style_mod(&group->style_tmp); } return &group->style_tmp; } /** * Get the focused object or NULL if there isn't one * @param group pointer to a group * @return pointer to the focused object */ lv_obj_t * lv_group_get_focused(const lv_group_t * group) { if(!group) return NULL; if(group->obj_focus == NULL) return NULL; return *group->obj_focus; } /** * Get a the style modifier function of a group * @param group pointer to a group * @return pointer to the style modifier function */ lv_group_style_mod_func_t lv_group_get_style_mod_cb(const lv_group_t * group) { if(!group) return false; return group->style_mod ; } /** * Get a the style modifier function of a group in edit mode * @param group pointer to a group * @return pointer to the style modifier function */ lv_group_style_mod_func_t lv_group_get_style_mod_edit_cb(const lv_group_t * group) { if(!group) return false; return group->style_mod_edit; } /** * Get the focus callback function of a group * @param group pointer to a group * @return the call back function or NULL if not set */ lv_group_focus_cb_t lv_group_get_focus_cb(const lv_group_t * group) { if(!group) return false; return group->focus_cb; } /** * Get the current mode (edit or navigate). * @param group pointer to group * @return true: edit mode; false: navigate mode */ bool lv_group_get_editing(const lv_group_t * group) { if(!group) return false; return group->editing ? true : false; } /** * Get the `click_focus` attribute. * @param group pointer to group * @return true: `click_focus` is enabled; false: disabled */ bool lv_group_get_click_focus(const lv_group_t * group) { if(!group) return false; return group->click_focus ? true : false; } /** * Get whether focus next/prev will allow wrapping from first->last or last->first object. * @param group pointer to group * @param en: true: wrapping enabled; false: wrapping disabled */ bool lv_group_get_wrap(lv_group_t * group) { if(!group) return false; return group->wrap ? true : false; } /********************** * STATIC FUNCTIONS **********************/ /** * Default style modifier function * @param style pointer to a style to modify. (Typically group.style_tmp) It will be OVERWRITTEN. */ static void style_mod_def(lv_style_t * style) { #if LV_COLOR_DEPTH != 1 /*Make the style to be a little bit orange*/ style->body.border.opa = LV_OPA_COVER; style->body.border.color = LV_COLOR_ORANGE; /*If not empty or has border then emphasis the border*/ if(style->body.empty == 0 || style->body.border.width != 0) style->body.border.width = LV_DPI / 20; style->body.main_color = lv_color_mix(style->body.main_color, LV_COLOR_ORANGE, LV_OPA_70); style->body.grad_color = lv_color_mix(style->body.grad_color, LV_COLOR_ORANGE, LV_OPA_70); style->body.shadow.color = lv_color_mix(style->body.shadow.color, LV_COLOR_ORANGE, LV_OPA_60); style->text.color = lv_color_mix(style->text.color, LV_COLOR_ORANGE, LV_OPA_70); #else style->body.border.opa = LV_OPA_COVER; style->body.border.color = LV_COLOR_BLACK; style->body.border.width = 2; #endif } /** * Default style modifier function * @param style pointer to a style to modify. (Typically group.style_tmp) It will be OVERWRITTEN. */ static void style_mod_edit_def(lv_style_t * style) { #if LV_COLOR_DEPTH != 1 /*Make the style to be a little bit orange*/ style->body.border.opa = LV_OPA_COVER; style->body.border.color = LV_COLOR_GREEN; /*If not empty or has border then emphasis the border*/ if(style->body.empty == 0 || style->body.border.width != 0) style->body.border.width = LV_DPI / 20; style->body.main_color = lv_color_mix(style->body.main_color, LV_COLOR_GREEN, LV_OPA_70); style->body.grad_color = lv_color_mix(style->body.grad_color, LV_COLOR_GREEN, LV_OPA_70); style->body.shadow.color = lv_color_mix(style->body.shadow.color, LV_COLOR_GREEN, LV_OPA_60); style->text.color = lv_color_mix(style->text.color, LV_COLOR_GREEN, LV_OPA_70); #else style->body.border.opa = LV_OPA_COVER; style->body.border.color = LV_COLOR_BLACK; style->body.border.width = 3; #endif } static void obj_to_foreground(lv_obj_t * obj) { /*Search for 'top' attribute*/ lv_obj_t * i = obj; lv_obj_t * last_top = NULL; while(i != NULL) { if(i->top != 0) last_top = i; i = lv_obj_get_parent(i); } if(last_top != NULL) { /*Move the last_top object to the foreground*/ lv_obj_t * par = lv_obj_get_parent(last_top); /*After list change it will be the new head*/ if (lv_ll_chg_list(&par->child_ll, &par->child_ll, last_top)) lv_obj_invalidate(last_top); /*Only invalidate if not top*/ } } #endif /*USE_LV_GROUP != 0*/ ================================================ FILE: bdk/libs/lvgl/lv_core/lv_group.h ================================================ /** * @file lv_group.h * */ #ifndef LV_GROUP_H #define LV_GROUP_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include "lv_obj.h" /********************* * DEFINES *********************/ /*Predefined keys to control the focused object via lv_group_send(group, c)*/ /*For compatibility in signal function define the keys regardless to LV_GROUP*/ #define LV_GROUP_KEY_UP 17 /*0x11*/ #define LV_GROUP_KEY_DOWN 18 /*0x12*/ #define LV_GROUP_KEY_RIGHT 19 /*0x13*/ #define LV_GROUP_KEY_LEFT 20 /*0x14*/ #define LV_GROUP_KEY_ESC 27 /*0x1B*/ #define LV_GROUP_KEY_DEL 127 /*0x7F*/ #define LV_GROUP_KEY_BACKSPACE 8 /*0x08*/ #define LV_GROUP_KEY_ENTER 10 /*0x0A, '\n'*/ #define LV_GROUP_KEY_NEXT 9 /*0x09, '\t'*/ #define LV_GROUP_KEY_PREV 11 /*0x0B, '*/ #if USE_LV_GROUP != 0 /********************** * TYPEDEFS **********************/ struct _lv_group_t; typedef void (*lv_group_style_mod_func_t)(lv_style_t *); typedef void (*lv_group_focus_cb_t)(struct _lv_group_t *); typedef struct _lv_group_t { lv_ll_t obj_ll; /*Linked list to store the objects in the group */ lv_obj_t ** obj_focus; /*The object in focus*/ lv_group_style_mod_func_t style_mod; /*A function which modifies the style of the focused object*/ lv_group_style_mod_func_t style_mod_edit;/*A function which modifies the style of the focused object*/ lv_group_focus_cb_t focus_cb; /*A function to call when a new object is focused (optional)*/ lv_style_t style_tmp; /*Stores the modified style of the focused object */ uint8_t frozen :1; /*1: can't focus to new object*/ uint8_t editing :1; /*1: Edit mode, 0: Navigate mode*/ uint8_t click_focus :1; /*1: If an object in a group is clicked by an indev then it will be focused */ uint8_t refocus_policy :1; /*1: Focus prev if focused on deletion. 0: Focus prev if focused on deletion.*/ uint8_t wrap :1; /*1: Focus next/prev can wrap at end of list. 0: Focus next/prev stops at end of list.*/ } lv_group_t; typedef enum _lv_group_refocus_policy_t { LV_GROUP_REFOCUS_POLICY_NEXT = 0, LV_GROUP_REFOCUS_POLICY_PREV = 1 } lv_group_refocus_policy_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a new object group * @return pointer to the new object group */ lv_group_t * lv_group_create(void); /** * Delete a group object * @param group pointer to a group */ void lv_group_del(lv_group_t * group); /** * Add an object to a group * @param group pointer to a group * @param obj pointer to an object to add */ void lv_group_add_obj(lv_group_t * group, lv_obj_t * obj); /** * Remove an object from its group * @param obj pointer to an object to remove */ void lv_group_remove_obj(lv_obj_t * obj); /** * Focus on an object (defocus the current) * @param obj pointer to an object to focus on */ void lv_group_focus_obj(lv_obj_t * obj); /** * Focus the next object in a group (defocus the current) * @param group pointer to a group */ void lv_group_focus_next(lv_group_t * group); /** * Focus the previous object in a group (defocus the current) * @param group pointer to a group */ void lv_group_focus_prev(lv_group_t * group); /** * Do not let to change the focus from the current object * @param group pointer to a group * @param en true: freeze, false: release freezing (normal mode) */ void lv_group_focus_freeze(lv_group_t * group, bool en); /** * Send a control character to the focuses object of a group * @param group pointer to a group * @param c a character (use LV_GROUP_KEY_.. to navigate) * @return result of focused object in group. */ lv_res_t lv_group_send_data(lv_group_t * group, uint32_t c); /** * Set a function for a group which will modify the object's style if it is in focus * @param group pointer to a group * @param style_mod_func the style modifier function pointer */ void lv_group_set_style_mod_cb(lv_group_t * group, lv_group_style_mod_func_t style_mod_func); /** * Set a function for a group which will modify the object's style if it is in focus in edit mode * @param group pointer to a group * @param style_mod_func the style modifier function pointer */ void lv_group_set_style_mod_edit_cb(lv_group_t * group, lv_group_style_mod_func_t style_mod_func); /** * Set a function for a group which will be called when a new object is focused * @param group pointer to a group * @param focus_cb the call back function or NULL if unused */ void lv_group_set_focus_cb(lv_group_t * group, lv_group_focus_cb_t focus_cb); /** * Set whether the next or previous item in a group is focused if the currently focussed obj is deleted. * @param group pointer to a group * @param new refocus policy enum */ void lv_group_set_refocus_policy(lv_group_t * group, lv_group_refocus_policy_t policy); /** * Manually set the current mode (edit or navigate). * @param group pointer to group * @param edit: true: edit mode; false: navigate mode */ void lv_group_set_editing(lv_group_t * group, bool edit); /** * Set the `click_focus` attribute. If enabled then the object will be focused then it is clicked. * @param group pointer to group * @param en: true: enable `click_focus` */ void lv_group_set_click_focus(lv_group_t * group, bool en); /** * Set whether focus next/prev will allow wrapping from first->last or last->first object. * @param group pointer to group * @param en: true: wrapping enabled; false: wrapping disabled */ void lv_group_set_wrap(lv_group_t * group, bool en); /** * Modify a style with the set 'style_mod' function. The input style remains unchanged. * @param group pointer to group * @param style pointer to a style to modify * @return a copy of the input style but modified with the 'style_mod' function */ lv_style_t * lv_group_mod_style(lv_group_t * group, const lv_style_t * style); /** * Get the focused object or NULL if there isn't one * @param group pointer to a group * @return pointer to the focused object */ lv_obj_t * lv_group_get_focused(const lv_group_t * group); /** * Get a the style modifier function of a group * @param group pointer to a group * @return pointer to the style modifier function */ lv_group_style_mod_func_t lv_group_get_style_mod_cb(const lv_group_t * group); /** * Get a the style modifier function of a group in edit mode * @param group pointer to a group * @return pointer to the style modifier function */ lv_group_style_mod_func_t lv_group_get_style_mod_edit_cb(const lv_group_t * group); /** * Get the focus callback function of a group * @param group pointer to a group * @return the call back function or NULL if not set */ lv_group_focus_cb_t lv_group_get_focus_cb(const lv_group_t * group); /** * Get the current mode (edit or navigate). * @param group pointer to group * @return true: edit mode; false: navigate mode */ bool lv_group_get_editing(const lv_group_t * group); /** * Get the `click_focus` attribute. * @param group pointer to group * @return true: `click_focus` is enabled; false: disabled */ bool lv_group_get_click_focus(const lv_group_t * group); /** * Get whether focus next/prev will allow wrapping from first->last or last->first object. * @param group pointer to group * @param en: true: wrapping enabled; false: wrapping disabled */ bool lv_group_get_wrap(lv_group_t * group); /********************** * MACROS **********************/ #endif /*USE_LV_GROUP != 0*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_GROUP_H*/ ================================================ FILE: bdk/libs/lvgl/lv_core/lv_indev.c ================================================ /** * @file lv_indev_proc.c * */ /********************* * INCLUDES ********************/ #include "lv_indev.h" #include "../lv_hal/lv_hal_tick.h" #include "../lv_core/lv_group.h" #include "../lv_core/lv_refr.h" #include "../lv_misc/lv_task.h" #include "../lv_misc/lv_math.h" #include "../lv_draw/lv_draw_rbasic.h" #include "lv_obj.h" /********************* * DEFINES *********************/ #if LV_INDEV_DRAG_THROW <= 0 #warning "LV_INDEV_DRAG_THROW must be greater than 0" #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ #if LV_INDEV_READ_PERIOD != 0 static void indev_proc_task(void * param); static void indev_pointer_proc(lv_indev_t * i, lv_indev_data_t * data); static void indev_keypad_proc(lv_indev_t * i, lv_indev_data_t * data); static void indev_encoder_proc(lv_indev_t * i, lv_indev_data_t * data); static void indev_button_proc(lv_indev_t * i, lv_indev_data_t * data); static void indev_proc_press(lv_indev_proc_t * proc); static void indev_proc_release(lv_indev_proc_t * proc); static void indev_proc_reset_query_handler(lv_indev_t * indev); static lv_obj_t * indev_search_obj(const lv_indev_proc_t * proc, lv_obj_t * obj); static void indev_drag(lv_indev_proc_t * state); static void indev_drag_throw(lv_indev_proc_t * state); #endif /********************** * STATIC VARIABLES **********************/ static lv_indev_t * indev_act; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize the display input device subsystem */ void lv_indev_init(void) { #if LV_INDEV_READ_PERIOD != 0 lv_task_create(indev_proc_task, LV_INDEV_READ_PERIOD, LV_TASK_PRIO_MID, NULL); #endif lv_indev_reset(NULL); /*Reset all input devices*/ } /** * Get the currently processed input device. Can be used in action functions too. * @return pointer to the currently processed input device or NULL if no input device processing right now */ lv_indev_t * lv_indev_get_act(void) { return indev_act; } /** * Get the type of an input device * @param indev pointer to an input device * @return the type of the input device from `lv_hal_indev_type_t` (`LV_INDEV_TYPE_...`) */ lv_hal_indev_type_t lv_indev_get_type(const lv_indev_t * indev) { if(indev == NULL) return LV_INDEV_TYPE_NONE; return indev->driver.type; } /** * Reset one or all input devices * @param indev pointer to an input device to reset or NULL to reset all of them */ void lv_indev_reset(lv_indev_t * indev) { if(indev) indev->proc.reset_query = 1; else { lv_indev_t * i = lv_indev_next(NULL); while(i) { i->proc.reset_query = 1; i = lv_indev_next(i); } } } /** * Reset the long press state of an input device * @param indev pointer to an input device */ void lv_indev_reset_lpr(lv_indev_t * indev) { indev->proc.long_pr_sent = 0; indev->proc.longpr_rep_timestamp = lv_tick_get(); indev->proc.pr_timestamp = lv_tick_get(); } /** * Enable input devices device by type * @param type Input device type * @param enable true: enable this type; false: disable this type */ void lv_indev_enable(lv_hal_indev_type_t type, bool enable) { lv_indev_t * i = lv_indev_next(NULL); while(i) { if(i->driver.type == type) i->proc.disabled = enable == false ? 1 : 0; i = lv_indev_next(i); } } /** * Set a cursor for a pointer input device (for LV_INPUT_TYPE_POINTER and LV_INPUT_TYPE_BUTTON) * @param indev pointer to an input device * @param cur_obj pointer to an object to be used as cursor */ void lv_indev_set_cursor(lv_indev_t * indev, lv_obj_t * cur_obj) { if(indev->driver.type != LV_INDEV_TYPE_POINTER) return; indev->cursor = cur_obj; if (indev->cursor) { lv_obj_set_parent(indev->cursor, lv_layer_sys()); lv_obj_set_pos(indev->cursor, indev->proc.act_point.x, indev->proc.act_point.y); } } #if USE_LV_GROUP /** * Set a destination group for a keypad input device (for LV_INDEV_TYPE_KEYPAD) * @param indev pointer to an input device * @param group point to a group */ void lv_indev_set_group(lv_indev_t * indev, lv_group_t * group) { if(indev->driver.type == LV_INDEV_TYPE_KEYPAD || indev->driver.type == LV_INDEV_TYPE_ENCODER) indev->group = group; } #endif /** * Set the an array of points for LV_INDEV_TYPE_BUTTON. * These points will be assigned to the buttons to press a specific point on the screen * @param indev pointer to an input device * @param group point to a group */ void lv_indev_set_button_points(lv_indev_t * indev, const lv_point_t * points) { if(indev->driver.type == LV_INDEV_TYPE_BUTTON) indev->btn_points = points; } /** * Set feedback callback for indev. * @param indev pointer to an input device * @param feedback feedback callback */ void lv_indev_set_feedback(lv_indev_t *indev, lv_indev_feedback_t feedback) { indev->feedback = feedback; } /** * Get the last point of an input device (for LV_INDEV_TYPE_POINTER and LV_INDEV_TYPE_BUTTON) * @param indev pointer to an input device * @param point pointer to a point to store the result */ void lv_indev_get_point(const lv_indev_t * indev, lv_point_t * point) { if(indev->driver.type != LV_INDEV_TYPE_POINTER && indev->driver.type != LV_INDEV_TYPE_BUTTON) { point->x = -1; point->y = -1; } else { point->x = indev->proc.act_point.x; point->y = indev->proc.act_point.y; } } /** * Get the last key of an input device (for LV_INDEV_TYPE_KEYPAD) * @param indev pointer to an input device * @return the last pressed key (0 on error) */ uint32_t lv_indev_get_key(const lv_indev_t * indev) { if(indev->driver.type != LV_INDEV_TYPE_KEYPAD) return 0; else return indev->proc.last_key; } /** * Check if there is dragging with an input device or not (for LV_INDEV_TYPE_POINTER and LV_INDEV_TYPE_BUTTON) * @param indev pointer to an input device * @return true: drag is in progress */ bool lv_indev_is_dragging(const lv_indev_t * indev) { if(indev == NULL) return false; if(indev->driver.type != LV_INDEV_TYPE_POINTER && indev->driver.type != LV_INDEV_TYPE_BUTTON) return false; return indev->proc.drag_in_prog == 0 ? false : true; } /** * Get the vector of dragging of an input device (for LV_INDEV_TYPE_POINTER and LV_INDEV_TYPE_BUTTON) * @param indev pointer to an input device * @param point pointer to a point to store the vector */ void lv_indev_get_vect(const lv_indev_t * indev, lv_point_t * point) { if(indev == NULL) { point->x = 0; point->y = 0; return; } if(indev->driver.type != LV_INDEV_TYPE_POINTER && indev->driver.type != LV_INDEV_TYPE_BUTTON) { point->x = 0; point->y = 0; } else { point->x = indev->proc.vect.x; point->y = indev->proc.vect.y; } } /** * Get elapsed time since last press * @param indev pointer to an input device (NULL to get the overall smallest inactivity) * @return Elapsed ticks (milliseconds) since last press */ uint32_t lv_indev_get_inactive_time(const lv_indev_t * indev) { uint32_t t; if(indev) return t = lv_tick_elaps(indev->last_activity_time); lv_indev_t * i; t = UINT16_MAX; i = lv_indev_next(NULL); while(i) { t = LV_MATH_MIN(t, lv_tick_elaps(i->last_activity_time)); i = lv_indev_next(i); } return t; } /** * Get feedback callback for indev. * @param indev pointer to an input device * @return feedback callback */ lv_indev_feedback_t lv_indev_get_feedback(const lv_indev_t *indev) { return indev->feedback; } /** * Do nothing until the next release * @param indev pointer to an input device */ void lv_indev_wait_release(lv_indev_t * indev) { indev->proc.wait_unil_release = 1; } /********************** * STATIC FUNCTIONS **********************/ #if LV_INDEV_READ_PERIOD != 0 /** * Called periodically to handle the input devices * @param param unused */ static void indev_proc_task(void * param) { (void)param; LV_LOG_TRACE("indev task started"); lv_indev_data_t data; lv_indev_t * i; i = lv_indev_next(NULL); /*Read and process all indevs*/ while(i) { indev_act = i; /*Handle reset query before processing the point*/ indev_proc_reset_query_handler(i); if(i->proc.disabled == 0) { bool more_to_read; do { /*Read the data*/ more_to_read = lv_indev_read(i, &data); indev_proc_reset_query_handler(i); /*The active object might deleted even in the read function*/ i->proc.state = data.state; if(i->proc.state == LV_INDEV_STATE_PR) { i->last_activity_time = lv_tick_get(); } if(i->driver.type == LV_INDEV_TYPE_POINTER) { indev_pointer_proc(i, &data); } else if(i->driver.type == LV_INDEV_TYPE_KEYPAD) { indev_keypad_proc(i, &data); } else if(i->driver.type == LV_INDEV_TYPE_ENCODER) { indev_encoder_proc(i, &data); } else if(i->driver.type == LV_INDEV_TYPE_BUTTON) { indev_button_proc(i, &data); } /*Handle reset query if it happened in during processing*/ indev_proc_reset_query_handler(i); } while(more_to_read); } i = lv_indev_next(i); /*Go to the next indev*/ } indev_act = NULL; /*End of indev processing, so no act indev*/ LV_LOG_TRACE("indev task finished"); } /** * Process a new point from LV_INDEV_TYPE_POINTER input device * @param i pointer to an input device * @param data pointer to the data read from the input device */ static void indev_pointer_proc(lv_indev_t * i, lv_indev_data_t * data) { /*Move the cursor if set and moved*/ if(i->cursor != NULL && (i->proc.last_point.x != data->point.x || i->proc.last_point.y != data->point.y)) { /*Use cursor's center as pointer*/ uint32_t off_x = lv_obj_get_width(i->cursor) >> 1; uint32_t off_y = lv_obj_get_height(i->cursor) >> 1; lv_obj_set_pos(i->cursor, data->point.x - off_x, data->point.y - off_y); } i->proc.act_point.x = data->point.x; i->proc.act_point.y = data->point.y; if(i->proc.state == LV_INDEV_STATE_PR) { #if LV_INDEV_POINT_MARKER != 0 lv_area_t area; area.x1 = i->proc.act_point.x - (LV_INDEV_POINT_MARKER >> 1); area.y1 = i->proc.act_point.y - (LV_INDEV_POINT_MARKER >> 1); area.x2 = i->proc.act_point.x + ((LV_INDEV_POINT_MARKER >> 1) | 0x1); area.y2 = i->proc.act_point.y + ((LV_INDEV_POINT_MARKER >> 1) | 0x1); lv_rfill(&area, NULL, LV_COLOR_MAKE(0xFF, 0, 0), LV_OPA_COVER); #endif indev_proc_press(&i->proc); } else { indev_proc_release(&i->proc); } i->proc.last_point.x = i->proc.act_point.x; i->proc.last_point.y = i->proc.act_point.y; } /** * Process a new point from LV_INDEV_TYPE_KEYPAD input device * @param i pointer to an input device * @param data pointer to the data read from the input device */ static void indev_keypad_proc(lv_indev_t * i, lv_indev_data_t * data) { #if USE_LV_GROUP if(i->group == NULL) return; /*Key press happened*/ if(data->state == LV_INDEV_STATE_PR && i->proc.last_state == LV_INDEV_STATE_REL) { i->proc.pr_timestamp = lv_tick_get(); lv_obj_t * focused = lv_group_get_focused(i->group); if(focused && data->key == LV_GROUP_KEY_ENTER) { focused->signal_func(focused, LV_SIGNAL_PRESSED, indev_act); } } /*Pressing*/ else if(data->state == LV_INDEV_STATE_PR && i->proc.last_state == LV_INDEV_STATE_PR) { if(data->key == LV_GROUP_KEY_ENTER && i->proc.long_pr_sent == 0 && lv_tick_elaps(i->proc.pr_timestamp) > LV_INDEV_LONG_PRESS_TIME) { /*On enter long press leave edit mode.*/ lv_obj_t * focused = lv_group_get_focused(i->group); if(focused) { focused->signal_func(focused, LV_SIGNAL_LONG_PRESS, indev_act); i->proc.long_pr_sent = 1; } } } /*Release happened*/ else if(data->state == LV_INDEV_STATE_REL && i->proc.last_state == LV_INDEV_STATE_PR) { /*The user might clear the key when it was released. Always release the pressed key*/ data->key = i->proc.last_key; /* Edit mode is not used by KEYPAD devices. * So leave edit mode if we are in it before focusing on the next/prev object*/ if(data->key == LV_GROUP_KEY_NEXT || data->key == LV_GROUP_KEY_PREV) { lv_group_set_editing(i->group, false); } if(data->key == LV_GROUP_KEY_NEXT) { lv_group_focus_next(i->group); } else if(data->key == LV_GROUP_KEY_PREV) { lv_group_focus_prev(i->group); } else if(data->key == LV_GROUP_KEY_ENTER) { if(!i->proc.long_pr_sent) { lv_group_send_data(i->group, data->key); } } else { lv_group_send_data(i->group, data->key); } if(i->proc.reset_query) return; /*The object might be deleted in `focus_cb` or due to any other user event*/ i->proc.pr_timestamp = 0; i->proc.long_pr_sent = 0; } i->proc.last_state = data->state; i->proc.last_key = data->key; #else (void)data; /*Unused*/ (void)i; /*Unused*/ #endif } /** * Process a new point from LV_INDEV_TYPE_ENCODER input device * @param i pointer to an input device * @param data pointer to the data read from the input device */ static void indev_encoder_proc(lv_indev_t * i, lv_indev_data_t * data) { #if USE_LV_GROUP if(i->group == NULL) return; /*Process the steps first. They are valid only with released button*/ if(data->state == LV_INDEV_STATE_REL) { /*In edit mode send LEFT/RIGHT keys*/ if(lv_group_get_editing(i->group)) { int32_t s; if(data->enc_diff < 0) { for(s = 0; s < -data->enc_diff; s++) lv_group_send_data(i->group, LV_GROUP_KEY_LEFT); } else if(data->enc_diff > 0) { for(s = 0; s < data->enc_diff; s++) lv_group_send_data(i->group, LV_GROUP_KEY_RIGHT); } } /*In navigate mode focus on the next/prev objects*/ else { int32_t s; if(data->enc_diff < 0) { for(s = 0; s < -data->enc_diff; s++) lv_group_focus_prev(i->group); } else if(data->enc_diff > 0) { for(s = 0; s < data->enc_diff; s++) lv_group_focus_next(i->group); } } } /*Key press happened*/ if(data->state == LV_INDEV_STATE_PR && i->proc.last_state == LV_INDEV_STATE_REL) { i->proc.pr_timestamp = lv_tick_get(); } /*Pressing*/ else if(data->state == LV_INDEV_STATE_PR && i->proc.last_state == LV_INDEV_STATE_PR) { if(i->proc.long_pr_sent == 0 && lv_tick_elaps(i->proc.pr_timestamp) > LV_INDEV_LONG_PRESS_TIME) { /*On enter long press leave edit mode.*/ lv_obj_t * focused = lv_group_get_focused(i->group); bool editable = false; if(focused) focused->signal_func(focused, LV_SIGNAL_GET_EDITABLE, &editable); if(editable) { if(i->group->obj_ll.head != i->group->obj_ll.tail) lv_group_set_editing(i->group, lv_group_get_editing(i->group) ? false : true); /*Toggle edit mode on long press*/ else if(focused) focused->signal_func(focused, LV_SIGNAL_LONG_PRESS, indev_act); } /*If not editable then just send a long press signal*/ else { if(focused) focused->signal_func(focused, LV_SIGNAL_LONG_PRESS, indev_act); } i->proc.long_pr_sent = 1; } } /*Release happened*/ else if(data->state == LV_INDEV_STATE_REL && i->proc.last_state == LV_INDEV_STATE_PR) { lv_obj_t * focused = lv_group_get_focused(i->group); bool editable = false; if(focused) focused->signal_func(focused, LV_SIGNAL_GET_EDITABLE, &editable); /*The button was released on a non-editable object. Just send enter*/ if(!editable) { lv_group_send_data(i->group, LV_GROUP_KEY_ENTER); } /*An object is being edited and the button is releases. Just send enter */ else if(i->group->editing) { if(!i->proc.long_pr_sent || i->group->obj_ll.head == i->group->obj_ll.tail) lv_group_send_data(i->group, LV_GROUP_KEY_ENTER); /*Ignore long pressed enter release because it comes from mode switch*/ } /*If the focused object is editable and now in navigate mode then enter edit mode*/ else if(editable && !i->group->editing && !i->proc.long_pr_sent) { lv_group_set_editing(i->group, lv_group_get_editing(i->group) ? false : true); /*Toggle edit mode on long press*/ } if(i->proc.reset_query) return; /*The object might be deleted in `focus_cb` or due to any other user event*/ i->proc.pr_timestamp = 0; i->proc.long_pr_sent = 0; } i->proc.last_state = data->state; i->proc.last_key = data->key; #else (void)data; /*Unused*/ (void)i; /*Unused*/ #endif } /** * Process new points from a input device. indev->state.pressed has to be set * @param indev pointer to an input device state * @param x x coordinate of the next point * @param y y coordinate of the next point */ static void indev_button_proc(lv_indev_t * i, lv_indev_data_t * data) { i->proc.act_point.x = i->btn_points[data->btn].x; i->proc.act_point.y = i->btn_points[data->btn].y; /*Still the same point is pressed*/ if(i->proc.last_point.x == i->proc.act_point.x && i->proc.last_point.y == i->proc.act_point.y && data->state == LV_INDEV_STATE_PR) { #if LV_INDEV_POINT_MARKER != 0 lv_area_t area; area.x1 = i->proc.act_point.x - (LV_INDEV_POINT_MARKER >> 1); area.y1 = i->proc.act_point.y - (LV_INDEV_POINT_MARKER >> 1); area.x2 = i->proc.act_point.x + ((LV_INDEV_POINT_MARKER >> 1) | 0x1); area.y2 = i->proc.act_point.y + ((LV_INDEV_POINT_MARKER >> 1) | 0x1); lv_rfill(&area, NULL, LV_COLOR_MAKE(0xFF, 0, 0), LV_OPA_COVER); #endif indev_proc_press(&i->proc); } else { /*If a new point comes always make a release*/ indev_proc_release(&i->proc); } i->proc.last_point.x = i->proc.act_point.x; i->proc.last_point.y = i->proc.act_point.y; } /** * Process the pressed state of LV_INDEV_TYPE_POINER input devices * @param indev pointer to an input device 'proc' */ static void indev_proc_press(lv_indev_proc_t * proc) { lv_obj_t * pr_obj = proc->act_obj; if(proc->wait_unil_release != 0) return; /*If there is no last object then search*/ if(proc->act_obj == NULL) { pr_obj = indev_search_obj(proc, lv_layer_top()); if(pr_obj == NULL) pr_obj = indev_search_obj(proc, lv_scr_act()); } /*If there is last object but it is not dragged and not protected also search*/ else if(proc->drag_in_prog == 0 && lv_obj_is_protected(proc->act_obj, LV_PROTECT_PRESS_LOST) == false) {/*Now act_obj != NULL*/ pr_obj = indev_search_obj(proc, lv_layer_top()); if(pr_obj == NULL) pr_obj = indev_search_obj(proc, lv_scr_act()); } /*If a dragable or a protected object was the last then keep it*/ else { } /*If a new object was found reset some variables and send a pressed signal*/ if(pr_obj != proc->act_obj) { proc->last_point.x = proc->act_point.x; proc->last_point.y = proc->act_point.y; /*If a new object found the previous was lost, so send a signal*/ if(proc->act_obj != NULL) { proc->act_obj->signal_func(proc->act_obj, LV_SIGNAL_PRESS_LOST, indev_act); if(proc->reset_query != 0) return; } proc->act_obj = pr_obj; /*Save the pressed object*/ proc->last_obj = proc->act_obj; /*Refresh the last_obj*/ if(proc->act_obj != NULL) { /* Save the time when the obj pressed. * It is necessary to count the long press time.*/ proc->pr_timestamp = lv_tick_get(); proc->long_pr_sent = 0; proc->drag_range_out = 0; proc->drag_in_prog = 0; proc->drag_sum.x = 0; proc->drag_sum.y = 0; proc->vect.x = 0; proc->vect.y = 0; /*Search for 'top' attribute*/ lv_obj_t * i = proc->act_obj; lv_obj_t * last_top = NULL; while(i != NULL) { if(i->top != 0) last_top = i; i = lv_obj_get_parent(i); } if(last_top != NULL) { /*Move the last_top object to the foreground*/ lv_obj_t * par = lv_obj_get_parent(last_top); /*After list change it will be the new head*/ if (lv_ll_chg_list(&par->child_ll, &par->child_ll, last_top)) lv_obj_invalidate(last_top); /*Only invalidate if not top*/ } /*Send a signal about the press*/ proc->act_obj->signal_func(proc->act_obj, LV_SIGNAL_PRESSED, indev_act); if(proc->reset_query != 0) return; } } /*Calculate the vector*/ proc->vect.x = proc->act_point.x - proc->last_point.x; proc->vect.y = proc->act_point.y - proc->last_point.y; /*If there is active object and it can be dragged run the drag*/ if(proc->act_obj != NULL) { proc->act_obj->signal_func(proc->act_obj, LV_SIGNAL_PRESSING, indev_act); if(proc->reset_query != 0) return; indev_drag(proc); if(proc->reset_query != 0) return; /*If there is no drag then check for long press time*/ if(proc->drag_in_prog == 0 && proc->long_pr_sent == 0) { /*Send a signal about the long press if enough time elapsed*/ if(lv_tick_elaps(proc->pr_timestamp) > LV_INDEV_LONG_PRESS_TIME) { pr_obj->signal_func(pr_obj, LV_SIGNAL_LONG_PRESS, indev_act); if(proc->reset_query != 0) return; /*Mark the signal sending to do not send it again*/ proc->long_pr_sent = 1; /*Save the long press time stamp for the long press repeat handler*/ proc->longpr_rep_timestamp = lv_tick_get(); } } /*Send long press repeated signal*/ if(proc->drag_in_prog == 0 && proc->long_pr_sent == 1) { /*Send a signal about the long press repeate if enough time elapsed*/ if(lv_tick_elaps(proc->longpr_rep_timestamp) > LV_INDEV_LONG_PRESS_REP_TIME) { pr_obj->signal_func(pr_obj, LV_SIGNAL_LONG_PRESS_REP, indev_act); if(proc->reset_query != 0) return; proc->longpr_rep_timestamp = lv_tick_get(); } } } } /** * Process the released state of LV_INDEV_TYPE_POINER input devices * @param proc pointer to an input device 'proc' */ static void indev_proc_release(lv_indev_proc_t * proc) { if(proc->wait_unil_release != 0) { proc->act_obj = NULL; proc->last_obj = NULL; proc->pr_timestamp = 0; proc->longpr_rep_timestamp = 0; proc->wait_unil_release = 0; } /*Forgot the act obj and send a released signal */ if(proc->act_obj != NULL) { /* If the object was protected against press lost then it possible that * the object is already not pressed but still it is the `act_obj`. * In this case send the `LV_SIGNAL_RELEASED` if the indev is ON the `act_obj` */ if(lv_obj_is_protected(proc->act_obj, LV_PROTECT_PRESS_LOST)) { /* Search the object on the current current coordinates. * The start object is the object itself. If not ON it the the result will be NULL*/ lv_obj_t * obj_on = indev_search_obj(proc, proc->act_obj); if(obj_on == proc->act_obj) proc->act_obj->signal_func(proc->act_obj, LV_SIGNAL_RELEASED, indev_act); else proc->act_obj->signal_func(proc->act_obj, LV_SIGNAL_PRESS_LOST, indev_act); } /* The simple case: `act_obj` was not protected against press lost. * If it is already not pressed then was handled in `indev_proc_press`*/ else { proc->act_obj->signal_func(proc->act_obj, LV_SIGNAL_RELEASED, indev_act); } if(proc->reset_query != 0) return; /*Handle click focus*/ #if USE_LV_GROUP /*Edit mode is not used by POINTER devices. So leave edit mode if we are in it*/ lv_group_t * act_g = lv_obj_get_group(proc->act_obj); if(lv_group_get_editing(act_g)) { lv_group_set_editing(act_g, false); } /*Check, if the parent is in a group focus on it.*/ if(lv_obj_is_protected(proc->act_obj, LV_PROTECT_CLICK_FOCUS) == false) { /*Respect the click protection*/ lv_group_t * g = lv_obj_get_group(proc->act_obj); lv_obj_t * parent = proc->act_obj; while(g == NULL) { parent = lv_obj_get_parent(parent); if(parent == NULL) break; if(lv_obj_is_protected(parent, LV_PROTECT_CLICK_FOCUS)) { /*Ignore is the protected against click focus*/ parent = NULL; break; } g = lv_obj_get_group(parent); } if(g != NULL && parent != NULL) if(lv_group_get_click_focus(g)) { lv_group_focus_obj(parent); } } #endif if(proc->reset_query != 0) return; proc->act_obj = NULL; proc->pr_timestamp = 0; proc->longpr_rep_timestamp = 0; } /*The reset can be set in the signal function. * In case of reset query ignore the remaining parts.*/ if(proc->last_obj != NULL && proc->reset_query == 0) { indev_drag_throw(proc); if(proc->reset_query != 0) return; } } /** * Process a new point from LV_INDEV_TYPE_BUTTON input device * @param i pointer to an input device * @param data pointer to the data read from the input device * Reset input device if a reset query has been sent to it * @param indev pointer to an input device */ static void indev_proc_reset_query_handler(lv_indev_t * indev) { if(indev->proc.reset_query) { indev->proc.act_obj = NULL; indev->proc.last_obj = NULL; indev->proc.drag_range_out = 0; indev->proc.drag_in_prog = 0; indev->proc.long_pr_sent = 0; indev->proc.pr_timestamp = 0; indev->proc.longpr_rep_timestamp = 0; indev->proc.drag_sum.x = 0; indev->proc.drag_sum.y = 0; indev->proc.reset_query = 0; } } /** * Search the most top, clickable object on the last point of an input device * @param proc pointer to the `lv_indev_proc_t` part of the input device * @param obj pointer to a start object, typically the screen * @return pointer to the found object or NULL if there was no suitable object */ static lv_obj_t * indev_search_obj(const lv_indev_proc_t * proc, lv_obj_t * obj) { lv_obj_t * found_p = NULL; /*If the point is on this object*/ /*Check its children too*/ if(lv_area_is_point_on(&obj->coords, &proc->act_point)) { lv_obj_t * i; LL_READ(obj->child_ll, i) { found_p = indev_search_obj(proc, i); /*If a child was found then break*/ if(found_p != NULL) { break; } } /*If then the children was not ok, and this obj is clickable * and it or its parent is not hidden then save this object*/ if(found_p == NULL && lv_obj_get_click(obj) != false) { lv_obj_t * hidden_i = obj; while(hidden_i != NULL) { if(lv_obj_get_hidden(hidden_i) == true) break; hidden_i = lv_obj_get_parent(hidden_i); } /*No parent found with hidden == true*/ if(hidden_i == NULL) found_p = obj; } } return found_p; } /** * Handle the dragging of indev_proc_p->act_obj * @param indev pointer to a input device state */ static void indev_drag(lv_indev_proc_t * state) { lv_obj_t * drag_obj = state->act_obj; /*If drag parent is active check recursively the drag_parent attribute*/ while(lv_obj_get_drag_parent(drag_obj) != false && drag_obj != NULL) { drag_obj = lv_obj_get_parent(drag_obj); } if(drag_obj == NULL) return; if(lv_obj_get_drag(drag_obj) == false) return; /*Count the movement by drag*/ state->drag_sum.x += state->vect.x; state->drag_sum.y += state->vect.y; /*Enough move?*/ if(state->drag_range_out == 0) { /*If a move is greater then LV_DRAG_LIMIT then begin the drag*/ if(LV_MATH_ABS(state->drag_sum.x) >= LV_INDEV_DRAG_LIMIT || LV_MATH_ABS(state->drag_sum.y) >= LV_INDEV_DRAG_LIMIT) { state->drag_range_out = 1; } } /*If the drag limit is stepped over then handle the dragging*/ if(state->drag_range_out != 0) { /*Set new position if the vector is not zero*/ if(state->vect.x != 0 || state->vect.y != 0) { /*Get the coordinates of the object and modify them*/ lv_coord_t act_x = lv_obj_get_x(drag_obj); lv_coord_t act_y = lv_obj_get_y(drag_obj); uint16_t inv_buf_size = lv_refr_get_buf_size(); /*Get the number of currently invalidated areas*/ lv_coord_t prev_x = drag_obj->coords.x1; lv_coord_t prev_y = drag_obj->coords.y1; lv_coord_t prev_par_w = lv_obj_get_width(lv_obj_get_parent(drag_obj)); lv_coord_t prev_par_h = lv_obj_get_height(lv_obj_get_parent(drag_obj)); lv_obj_set_pos(drag_obj, act_x + state->vect.x, act_y + state->vect.y); /*Set the drag in progress flag if the object is really moved*/ if(drag_obj->coords.x1 != prev_x || drag_obj->coords.y1 != prev_y) { if(state->drag_range_out != 0) { /*Send the drag begin signal on first move*/ drag_obj->signal_func(drag_obj, LV_SIGNAL_DRAG_BEGIN, indev_act); if(state->reset_query != 0) return; } state->drag_in_prog = 1; } /*If the object didn't moved then clear the invalidated areas*/ else { /*In a special case if the object is moved on a page and * the scrollable has fit == true and the object is dragged of the page then * while its coordinate is not changing only the parent's size is reduced */ lv_coord_t act_par_w = lv_obj_get_width(lv_obj_get_parent(drag_obj)); lv_coord_t act_par_h = lv_obj_get_height(lv_obj_get_parent(drag_obj)); if(act_par_w == prev_par_w && act_par_h == prev_par_h) { uint16_t new_inv_buf_size = lv_refr_get_buf_size(); lv_refr_pop_from_buf(new_inv_buf_size - inv_buf_size); } } } } } /** * Handle throwing by drag if the drag is ended * @param indev pointer to an input device state */ static void indev_drag_throw(lv_indev_proc_t * state) { if(state->drag_in_prog == 0) return; /*Set new position if the vector is not zero*/ lv_obj_t * drag_obj = state->last_obj; /*If drag parent is active check recursively the drag_parent attribute*/ while(lv_obj_get_drag_parent(drag_obj) != false && drag_obj != NULL) { drag_obj = lv_obj_get_parent(drag_obj); } if(drag_obj == NULL) return; /*Return if the drag throw is not enabled*/ if(lv_obj_get_drag_throw(drag_obj) == false) { state->drag_in_prog = 0; drag_obj->signal_func(drag_obj, LV_SIGNAL_DRAG_END, indev_act); return; } /*Reduce the vectors*/ state->vect.x = state->vect.x * (100 - LV_INDEV_DRAG_THROW) / 100; state->vect.y = state->vect.y * (100 - LV_INDEV_DRAG_THROW) / 100; if(state->vect.x != 0 || state->vect.y != 0) { /*Get the coordinates and modify them*/ lv_area_t coords_ori; lv_obj_get_coords(drag_obj, &coords_ori); lv_coord_t act_x = lv_obj_get_x(drag_obj) + state->vect.x; lv_coord_t act_y = lv_obj_get_y(drag_obj) + state->vect.y; lv_obj_set_pos(drag_obj, act_x, act_y); lv_area_t coord_new; lv_obj_get_coords(drag_obj, &coord_new); /*If non of the coordinates are changed then do not continue throwing*/ if((coords_ori.x1 == coord_new.x1 || state->vect.x == 0) && (coords_ori.y1 == coord_new.y1 || state->vect.y == 0)) { state->drag_in_prog = 0; state->vect.x = 0; state->vect.y = 0; drag_obj->signal_func(drag_obj, LV_SIGNAL_DRAG_END, indev_act); } } /*If the vectors become 0 -> drag_in_prog = 0 and send a drag end signal*/ else { state->drag_in_prog = 0; drag_obj->signal_func(drag_obj, LV_SIGNAL_DRAG_END, indev_act); } } #endif ================================================ FILE: bdk/libs/lvgl/lv_core/lv_indev.h ================================================ /** * @file lv_indev_proc.h * */ #ifndef LV_INDEV_H #define LV_INDEV_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "lv_obj.h" #include "../lv_hal/lv_hal_indev.h" #include "../lv_core/lv_group.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /** * Initialize the display input device subsystem */ void lv_indev_init(void); /** * Get the currently processed input device. Can be used in action functions too. * @return pointer to the currently processed input device or NULL if no input device processing right now */ lv_indev_t * lv_indev_get_act(void); /** * Get the type of an input device * @param indev pointer to an input device * @return the type of the input device from `lv_hal_indev_type_t` (`LV_INDEV_TYPE_...`) */ lv_hal_indev_type_t lv_indev_get_type(const lv_indev_t * indev); /** * Reset one or all input devices * @param indev pointer to an input device to reset or NULL to reset all of them */ void lv_indev_reset(lv_indev_t * indev); /** * Reset the long press state of an input device * @param indev_proc pointer to an input device */ void lv_indev_reset_lpr(lv_indev_t * indev); /** * Enable input devices device by type * @param type Input device type * @param enable true: enable this type; false: disable this type */ void lv_indev_enable(lv_hal_indev_type_t type, bool enable); /** * Set a cursor for a pointer input device (for LV_INPUT_TYPE_POINTER and LV_INPUT_TYPE_BUTTON) * @param indev pointer to an input device * @param cur_obj pointer to an object to be used as cursor */ void lv_indev_set_cursor(lv_indev_t *indev, lv_obj_t *cur_obj); #if USE_LV_GROUP /** * Set a destination group for a keypad input device (for LV_INDEV_TYPE_KEYPAD) * @param indev pointer to an input device * @param group point to a group */ void lv_indev_set_group(lv_indev_t *indev, lv_group_t *group); #endif /** * Set the an array of points for LV_INDEV_TYPE_BUTTON. * These points will be assigned to the buttons to press a specific point on the screen * @param indev pointer to an input device * @param group point to a group */ void lv_indev_set_button_points(lv_indev_t *indev, const lv_point_t *points); /** * Set feedback callback for indev. * @param indev pointer to an input device * @param feedback feedback callback */ void lv_indev_set_feedback(lv_indev_t *indev, lv_indev_feedback_t feedback); /** * Get the last point of an input device (for LV_INDEV_TYPE_POINTER and LV_INDEV_TYPE_BUTTON) * @param indev pointer to an input device * @param point pointer to a point to store the result */ void lv_indev_get_point(const lv_indev_t * indev, lv_point_t * point); /** * Get the last key of an input device (for LV_INDEV_TYPE_KEYPAD) * @param indev pointer to an input device * @return the last pressed key (0 on error) */ uint32_t lv_indev_get_key(const lv_indev_t * indev); /** * Check if there is dragging with an input device or not (for LV_INDEV_TYPE_POINTER and LV_INDEV_TYPE_BUTTON) * @param indev pointer to an input device * @return true: drag is in progress */ bool lv_indev_is_dragging(const lv_indev_t * indev); /** * Get the vector of dragging of an input device (for LV_INDEV_TYPE_POINTER and LV_INDEV_TYPE_BUTTON) * @param indev pointer to an input device * @param point pointer to a point to store the vector */ void lv_indev_get_vect(const lv_indev_t * indev, lv_point_t * point); /** * Get elapsed time since last press * @param indev pointer to an input device (NULL to get the overall smallest inactivity) * @return Elapsed ticks (milliseconds) since last press */ uint32_t lv_indev_get_inactive_time(const lv_indev_t * indev); /** * Get feedback callback for indev. * @param indev pointer to an input device * @return feedback callback */ lv_indev_feedback_t lv_indev_get_feedback(const lv_indev_t *indev); /** * Do nothing until the next release * @param indev pointer to an input device */ void lv_indev_wait_release(lv_indev_t * indev); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_INDEV_H*/ ================================================ FILE: bdk/libs/lvgl/lv_core/lv_lang.c ================================================ /** * @file lv_lang.c * */ /********************* * INCLUDES *********************/ #include "lv_lang.h" #if USE_LV_MULTI_LANG #include "lv_obj.h" #include "../lv_misc/lv_gc.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static void lang_set_core(lv_obj_t * obj); /********************** * STATIC VARIABLES **********************/ static uint8_t lang_act = 0; static const void * (*get_txt)(uint16_t); /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Change the language * @param lang_id the id of the */ void lv_lang_set(uint8_t lang_id) { lang_act = lang_id; lv_obj_t * i; LL_READ(LV_GC_ROOT(_lv_scr_ll), i) { i->signal_func(i, LV_SIGNAL_LANG_CHG, NULL); lang_set_core(i); } lang_set_core(lv_scr_act()); } /** * Set a function to get the texts of the set languages from a `txt_id` * @param fp a function pointer to get the texts */ void lv_lang_set_text_func(const void * (*fp)(uint16_t)) { get_txt = fp; } /** * Use the function set by `lv_lang_set_text_func` to get the `txt_id` text in the set language * @param txt_id an ID of the text to get * @return the `txt_id` txt on the set language */ const void * lv_lang_get_text(uint16_t txt_id) { if(get_txt == NULL) { LV_LOG_WARN("lv_lang_get_text: text_func is not specified"); return NULL; /*No text_get function specified */ } if(txt_id == LV_LANG_TXT_ID_NONE) { LV_LOG_WARN("lv_lang_get_text: attempts to get invalid text ID"); return NULL; /*Invalid txt_id*/ } return get_txt(txt_id); } /** * Return with ID of the currently selected language * @return pointer to the active screen object (loaded by 'lv_scr_load()') */ uint8_t lv_lang_act(void) { return lang_act; } /********************** * STATIC FUNCTIONS **********************/ /** * Change the language of the children. (Called recursively) * @param obj pointer to an object */ static void lang_set_core(lv_obj_t * obj) { lv_obj_t * i; LL_READ(obj->child_ll, i) { i->signal_func(i, LV_SIGNAL_LANG_CHG, NULL); lang_set_core(i); } } #endif /*USE_LV_MULTI_LANG*/ ================================================ FILE: bdk/libs/lvgl/lv_core/lv_lang.h ================================================ /** * @file lv_lang.h * */ #ifndef LV_LANG_H #define LV_LANG_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_MULTI_LANG #include /********************* * DEFINES *********************/ #define LV_LANG_TXT_ID_NONE 0xFFFF /*Used to not assign any text IDs for a multi-language object.*/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /** * Change the language * @param lang_id the id of the */ void lv_lang_set(uint8_t lang_id); /** * Set a function to get the texts of the set languages from a `txt_id` * @param fp a function pointer to get the texts */ void lv_lang_set_text_func(const void * (*fp)(uint16_t)); /** * Use the function set by `lv_lang_set_text_func` to get the `txt_id` text in the set language * @param txt_id an ID of the text to get * @return the `txt_id` txt on the set language */ const void * lv_lang_get_text(uint16_t txt_id); /** * Return with ID of the currently selected language * @return pointer to the active screen object (loaded by 'lv_scr_load()') */ uint8_t lv_lang_act(void); /********************** * MACROS **********************/ #endif /*USE_LV_MULTI_LANG*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_LANG_H*/ ================================================ FILE: bdk/libs/lvgl/lv_core/lv_obj.c ================================================ /** * @file lv_base_obj.c * */ /********************* * INCLUDES *********************/ #include "lv_obj.h" #include "lv_indev.h" #include "lv_refr.h" #include "lv_group.h" #include "../lv_themes/lv_theme.h" #include "../lv_draw/lv_draw.h" #include "../lv_draw/lv_draw_rbasic.h" #include "../lv_misc/lv_anim.h" #include "../lv_misc/lv_task.h" #include "../lv_misc/lv_fs.h" #include "../lv_misc/lv_ufs.h" #include #include #include "../lv_misc/lv_gc.h" #if defined(LV_GC_INCLUDE) # include LV_GC_INCLUDE #endif /* LV_ENABLE_GC */ /********************* * DEFINES *********************/ #define LV_OBJ_DEF_WIDTH (LV_DPI) #define LV_OBJ_DEF_HEIGHT (2 * LV_DPI / 3) /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static void refresh_children_position(lv_obj_t * obj, lv_coord_t x_diff, lv_coord_t y_diff); static void report_style_mod_core(void * style_p, lv_obj_t * obj); static void refresh_children_style(lv_obj_t * obj); static void delete_children(lv_obj_t * obj); static bool lv_obj_design(lv_obj_t * obj, const lv_area_t * mask_p, lv_design_mode_t mode); static lv_res_t lv_obj_signal(lv_obj_t * obj, lv_signal_t sign, void * param); /********************** * STATIC VARIABLES **********************/ static bool _lv_initialized = false; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Init. the 'lv' library. */ void lv_init(void) { /* Do nothing if already initialized */ if (_lv_initialized) return; LV_GC_ROOT(_lv_def_scr) = NULL; LV_GC_ROOT(_lv_act_scr) = NULL; LV_GC_ROOT(_lv_top_layer) = NULL; LV_GC_ROOT(_lv_sys_layer) = NULL; LV_GC_ROOT(_lv_disp_list) = NULL; LV_GC_ROOT(_lv_indev_list) = NULL; LV_LOG_TRACE("lv_init started"); /*Initialize the lv_misc modules*/ lv_mem_init(); lv_task_init(); #if USE_LV_FILESYSTEM lv_fs_init(); lv_ufs_init(); #endif lv_font_init(); #if USE_LV_ANIMATION lv_anim_init(); #endif /*Init. the sstyles*/ lv_style_init(); /*Initialize the screen refresh system*/ lv_refr_init(); /*Create the default screen*/ lv_ll_init(&LV_GC_ROOT(_lv_scr_ll), sizeof(lv_obj_t)); LV_GC_ROOT(_lv_def_scr) = lv_obj_create(NULL, NULL); LV_GC_ROOT(_lv_act_scr) = LV_GC_ROOT(_lv_def_scr); LV_GC_ROOT(_lv_top_layer) = lv_obj_create(NULL, NULL); lv_obj_set_style(LV_GC_ROOT(_lv_top_layer), &lv_style_transp_fit); LV_GC_ROOT(_lv_sys_layer) = lv_obj_create(NULL, NULL); lv_obj_set_style(LV_GC_ROOT(_lv_sys_layer), &lv_style_transp_fit); /*Refresh the screen*/ lv_obj_invalidate(LV_GC_ROOT(_lv_act_scr)); #if LV_INDEV_READ_PERIOD != 0 /*Init the input device handling*/ lv_indev_init(); #endif _lv_initialized = true; LV_LOG_INFO("lv_init ready"); } /*-------------------- * Create and delete *-------------------*/ /** * Create a basic object * @param parent pointer to a parent object. * If NULL then a screen will be created * @param copy pointer to a base object, if not NULL then the new object will be copied from it * @return pointer to the new object */ lv_obj_t * lv_obj_create(lv_obj_t * parent, const lv_obj_t * copy) { lv_obj_t * new_obj = NULL; /*Create a screen if the parent is NULL*/ if(parent == NULL) { LV_LOG_TRACE("Screen create started"); new_obj = lv_ll_ins_head(&LV_GC_ROOT(_lv_scr_ll)); lv_mem_assert(new_obj); if(new_obj == NULL) return NULL; new_obj->par = NULL; /*Screens has no a parent*/ lv_ll_init(&(new_obj->child_ll), sizeof(lv_obj_t)); /*Set coordinates to full screen size*/ new_obj->coords.x1 = 0; new_obj->coords.y1 = 0; new_obj->coords.x2 = LV_HOR_RES - 1; new_obj->coords.y2 = LV_VER_RES - 1; new_obj->ext_size = 0; /*Init realign*/ #if LV_OBJ_REALIGN new_obj->realign.align = LV_ALIGN_CENTER; new_obj->realign.xofs = 0; new_obj->realign.yofs = 0; new_obj->realign.base = NULL; new_obj->realign.auto_realign = 0; #endif /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { new_obj->style_p = th->bg; } else { new_obj->style_p = &lv_style_scr; } /*Set virtual functions*/ lv_obj_set_signal_func(new_obj, lv_obj_signal); lv_obj_set_design_func(new_obj, lv_obj_design); /*Set free data*/ #ifdef LV_OBJ_FREE_NUM_TYPE new_obj->free_num = 0; #endif #if LV_OBJ_FREE_PTR != 0 new_obj->free_ptr = NULL; #endif #if USE_LV_GROUP new_obj->group_p = NULL; #endif /*Set attributes*/ new_obj->click = 0; new_obj->drag = 0; new_obj->drag_throw = 0; new_obj->drag_parent = 0; new_obj->hidden = 0; new_obj->top = 0; new_obj->opa_scale_en = 0; new_obj->protect = LV_PROTECT_NONE; new_obj->opa_scale = LV_OPA_COVER; new_obj->ext_attr = NULL; LV_LOG_INFO("Screen create ready"); } /*parent != NULL create normal obj. on a parent*/ else { LV_LOG_TRACE("Object create started"); new_obj = lv_ll_ins_head(&(parent)->child_ll); lv_mem_assert(new_obj); if(new_obj == NULL) return NULL; new_obj->par = parent; /*Set the parent*/ lv_ll_init(&(new_obj->child_ll), sizeof(lv_obj_t)); /*Set coordinates left top corner of parent*/ new_obj->coords.x1 = parent->coords.x1; new_obj->coords.y1 = parent->coords.y1; new_obj->coords.x2 = parent->coords.x1 + LV_OBJ_DEF_WIDTH; new_obj->coords.y2 = parent->coords.y1 + LV_OBJ_DEF_HEIGHT; new_obj->ext_size = 0; /*Init realign*/ #if LV_OBJ_REALIGN new_obj->realign.align = LV_ALIGN_CENTER; new_obj->realign.xofs = 0; new_obj->realign.yofs = 0; new_obj->realign.base = NULL; new_obj->realign.auto_realign = 0; #endif /*Set appearance*/ lv_theme_t * th = lv_theme_get_current(); if(th) { new_obj->style_p = th->panel; } else { new_obj->style_p = &lv_style_plain_color; } /*Set virtual functions*/ lv_obj_set_signal_func(new_obj, lv_obj_signal); lv_obj_set_design_func(new_obj, lv_obj_design); /*Set free data*/ #ifdef LV_OBJ_FREE_NUM_TYPE new_obj->free_num = 0; #endif #if LV_OBJ_FREE_PTR != 0 new_obj->free_ptr = NULL; #endif #if USE_LV_GROUP new_obj->group_p = NULL; #endif /*Set attributes*/ new_obj->click = 1; new_obj->drag = 0; new_obj->drag_throw = 0; new_obj->drag_parent = 0; new_obj->hidden = 0; new_obj->top = 0; new_obj->protect = LV_PROTECT_NONE; new_obj->opa_scale = LV_OPA_COVER; new_obj->opa_scale_en = 0; new_obj->ext_attr = NULL; } if(copy != NULL) { lv_area_copy(&new_obj->coords, ©->coords); new_obj->ext_size = copy->ext_size; /*Set free data*/ #ifdef LV_OBJ_FREE_NUM_TYPE new_obj->free_num = copy->free_num; #endif #if LV_OBJ_FREE_PTR != 0 new_obj->free_ptr = copy->free_ptr; #endif /*Copy realign*/ #if LV_OBJ_REALIGN new_obj->realign.align = copy->realign.align; new_obj->realign.xofs = copy->realign.xofs; new_obj->realign.yofs = copy->realign.yofs; new_obj->realign.base = copy->realign.base; new_obj->realign.auto_realign = copy->realign.auto_realign; #endif /*Set attributes*/ new_obj->click = copy->click; new_obj->drag = copy->drag; new_obj->drag_throw = copy->drag_throw; new_obj->drag_parent = copy->drag_parent; new_obj->hidden = copy->hidden; new_obj->top = copy->top; new_obj->opa_scale_en = copy->opa_scale_en; new_obj->protect = copy->protect; new_obj->opa_scale = copy->opa_scale; new_obj->style_p = copy->style_p; #if USE_LV_GROUP /*Add to the same group*/ if(copy->group_p != NULL) { lv_group_add_obj(copy->group_p, new_obj); } #endif /*Set the same coordinates for non screen objects*/ if(lv_obj_get_parent(copy) != NULL && parent != NULL) { lv_obj_set_pos(new_obj, lv_obj_get_x(copy), lv_obj_get_y(copy)); } else { lv_obj_set_pos(new_obj, 0, 0); } LV_LOG_INFO("Object create ready"); } /*Send a signal to the parent to notify it about the new child*/ if(parent != NULL) { parent->signal_func(parent, LV_SIGNAL_CHILD_CHG, new_obj); /*Invalidate the area if not screen created*/ lv_obj_invalidate(new_obj); } return new_obj; } /** * Delete 'obj' and all of its children * @param obj pointer to an object to delete * @return LV_RES_INV because the object is deleted */ lv_res_t lv_obj_del(lv_obj_t * obj) { lv_obj_invalidate(obj); /*Delete from the group*/ #if USE_LV_GROUP if(obj->group_p != NULL) lv_group_remove_obj(obj); #endif /*Remove the animations from this object*/ #if USE_LV_ANIMATION lv_anim_del(obj, NULL); #endif /*Recursively delete the children*/ lv_obj_t * i; lv_obj_t * i_next; i = lv_ll_get_head(&(obj->child_ll)); while(i != NULL) { /*Get the next object before delete this*/ i_next = lv_ll_get_next(&(obj->child_ll), i); /*Call the recursive del to the child too*/ delete_children(i); /*Set i to the next node*/ i = i_next; } /*Remove the object from parent's children list*/ lv_obj_t * par = lv_obj_get_parent(obj); if(par == NULL) { /*It is a screen*/ lv_ll_rem(&LV_GC_ROOT(_lv_scr_ll), obj); } else { lv_ll_rem(&(par->child_ll), obj); } /* Reset all input devices if * the currently pressed object is deleted*/ lv_indev_t * indev = lv_indev_next(NULL); while(indev) { if(indev->proc.act_obj == obj || indev->proc.last_obj == obj) { lv_indev_reset(indev); } indev = lv_indev_next(indev); } /* All children deleted. * Now clean up the object specific data*/ obj->signal_func(obj, LV_SIGNAL_CLEANUP, NULL); /*Delete the base objects*/ if(obj->ext_attr != NULL) lv_mem_free(obj->ext_attr); lv_mem_free(obj); /*Free the object itself*/ /*Send a signal to the parent to notify it about the child delete*/ if(par != NULL) { par->signal_func(par, LV_SIGNAL_CHILD_CHG, NULL); } return LV_RES_INV; } /** * Delete all children of an object * @param obj pointer to an object */ void lv_obj_clean(lv_obj_t * obj) { lv_obj_t * child = lv_obj_get_child(obj, NULL); lv_obj_t * child_next; while(child) { /* Read the next child before deleting the current * because the next couldn't be read from a deleted (invalid) node*/ child_next = lv_obj_get_child(obj, child); lv_obj_del(child); child = child_next; } } /** * Mark the object as invalid therefore its current position will be redrawn by 'lv_refr_task' * @param obj pointer to an object */ void lv_obj_invalidate(const lv_obj_t * obj) { if(lv_obj_get_hidden(obj)) return; /*Invalidate the object only if it belongs to the 'LV_GC_ROOT(_lv_act_scr)'*/ lv_obj_t * obj_scr = lv_obj_get_screen(obj); if(obj_scr == lv_scr_act() || obj_scr == lv_layer_top() || obj_scr == lv_layer_sys()) { /*Truncate recursively to the parents*/ lv_area_t area_trunc; lv_obj_t * par = lv_obj_get_parent(obj); bool union_ok = true; /*Start with the original coordinates*/ lv_coord_t ext_size = obj->ext_size; lv_area_copy(&area_trunc, &obj->coords); area_trunc.x1 -= ext_size; area_trunc.y1 -= ext_size; area_trunc.x2 += ext_size; area_trunc.y2 += ext_size; /*Check through all parents*/ while(par != NULL) { union_ok = lv_area_intersect(&area_trunc, &area_trunc, &par->coords); if(union_ok == false) break; /*If no common parts with parent break;*/ if(lv_obj_get_hidden(par)) return; /*If the parent is hidden then the child is hidden and won't be drawn*/ par = lv_obj_get_parent(par); } if(union_ok != false) lv_inv_area(&area_trunc); } } /*===================== * Setter functions *====================*/ /*-------------- * Screen set *--------------*/ /** * Load a new screen * @param scr pointer to a screen */ void lv_scr_load(lv_obj_t * scr) { LV_GC_ROOT(_lv_act_scr) = scr; lv_obj_invalidate(LV_GC_ROOT(_lv_act_scr)); } /*-------------------- * Parent/children set *--------------------*/ /** * Set a new parent for an object. Its relative position will be the same. * @param obj pointer to an object. Can't be a screen. * @param parent pointer to the new parent object. (Can't be NULL) */ void lv_obj_set_parent(lv_obj_t * obj, lv_obj_t * parent) { if(obj->par == NULL) { LV_LOG_WARN("Can't set the parent of a screen"); return; } if(parent == NULL) { LV_LOG_WARN("Can't set parent == NULL to an object"); return; } lv_obj_invalidate(obj); lv_point_t old_pos; old_pos.x = lv_obj_get_x(obj); old_pos.y = lv_obj_get_y(obj); lv_obj_t * old_par = obj->par; lv_ll_chg_list(&obj->par->child_ll, &parent->child_ll, obj); obj->par = parent; lv_obj_set_pos(obj, old_pos.x, old_pos.y); /*Notify the original parent because one of its children is lost*/ old_par->signal_func(old_par, LV_SIGNAL_CHILD_CHG, NULL); /*Notify the new parent about the child*/ parent->signal_func(parent, LV_SIGNAL_CHILD_CHG, obj); lv_obj_invalidate(obj); } /*-------------------- * Coordinate set * ------------------*/ /** * Set relative the position of an object (relative to the parent) * @param obj pointer to an object * @param x new distance from the left side of the parent * @param y new distance from the top of the parent */ void lv_obj_set_pos(lv_obj_t * obj, lv_coord_t x, lv_coord_t y) { /*Convert x and y to absolute coordinates*/ lv_obj_t * par = obj->par; x = x + par->coords.x1; y = y + par->coords.y1; /*Calculate and set the movement*/ lv_point_t diff; diff.x = x - obj->coords.x1; diff.y = y - obj->coords.y1; /* Do nothing if the position is not changed */ /* It is very important else recursive positioning can * occur without position change*/ if(diff.x == 0 && diff.y == 0) return; /*Invalidate the original area*/ lv_obj_invalidate(obj); /*Save the original coordinates*/ lv_area_t ori; lv_obj_get_coords(obj, &ori); obj->coords.x1 += diff.x; obj->coords.y1 += diff.y; obj->coords.x2 += diff.x; obj->coords.y2 += diff.y; refresh_children_position(obj, diff.x, diff.y); /*Inform the object about its new coordinates*/ obj->signal_func(obj, LV_SIGNAL_CORD_CHG, &ori); /*Send a signal to the parent too*/ par->signal_func(par, LV_SIGNAL_CHILD_CHG, obj); /*Invalidate the new area*/ lv_obj_invalidate(obj); } /** * Set the x coordinate of a object * @param obj pointer to an object * @param x new distance from the left side from the parent */ void lv_obj_set_x(lv_obj_t * obj, lv_coord_t x) { lv_obj_set_pos(obj, x, lv_obj_get_y(obj)); } /** * Set the y coordinate of a object * @param obj pointer to an object * @param y new distance from the top of the parent */ void lv_obj_set_y(lv_obj_t * obj, lv_coord_t y) { lv_obj_set_pos(obj, lv_obj_get_x(obj), y); } /** * Set the size of an object * @param obj pointer to an object * @param w new width * @param h new height */ void lv_obj_set_size(lv_obj_t * obj, lv_coord_t w, lv_coord_t h) { /* Do nothing if the size is not changed */ /* It is very important else recursive resizing can * occur without size change*/ if(lv_obj_get_width(obj) == w && lv_obj_get_height(obj) == h) { return; } /*Invalidate the original area*/ lv_obj_invalidate(obj); /*Save the original coordinates*/ lv_area_t ori; lv_obj_get_coords(obj, &ori); //Set the length and height obj->coords.x2 = obj->coords.x1 + w - 1; obj->coords.y2 = obj->coords.y1 + h - 1; /*Send a signal to the object with its new coordinates*/ obj->signal_func(obj, LV_SIGNAL_CORD_CHG, &ori); /*Send a signal to the parent too*/ lv_obj_t * par = lv_obj_get_parent(obj); if(par != NULL) par->signal_func(par, LV_SIGNAL_CHILD_CHG, obj); /*Invalidate the new area*/ lv_obj_invalidate(obj); /*Automatically realign the object if required*/ #if LV_OBJ_REALIGN if(obj->realign.auto_realign) lv_obj_realign(obj); #endif } /** * Set the width of an object * @param obj pointer to an object * @param w new width */ void lv_obj_set_width(lv_obj_t * obj, lv_coord_t w) { lv_obj_set_size(obj, w, lv_obj_get_height(obj)); } /** * Set the height of an object * @param obj pointer to an object * @param h new height */ void lv_obj_set_height(lv_obj_t * obj, lv_coord_t h) { lv_obj_set_size(obj, lv_obj_get_width(obj), h); } /** * Align an object to an other object. * @param obj pointer to an object to align * @param base pointer to an object (if NULL the parent is used). 'obj' will be aligned to it. * @param align type of alignment (see 'lv_align_t' enum) * @param x_mod x coordinate shift after alignment * @param y_mod y coordinate shift after alignment */ void lv_obj_align(lv_obj_t * obj, const lv_obj_t * base, lv_align_t align, lv_coord_t x_mod, lv_coord_t y_mod) { lv_coord_t new_x = lv_obj_get_x(obj); lv_coord_t new_y = lv_obj_get_y(obj); if(base == NULL) { base = lv_obj_get_parent(obj); } switch(align) { case LV_ALIGN_CENTER: new_x = lv_obj_get_width(base) / 2 - lv_obj_get_width(obj) / 2; new_y = lv_obj_get_height(base) / 2 - lv_obj_get_height(obj) / 2; break; case LV_ALIGN_IN_TOP_LEFT: new_x = 0; new_y = 0; break; case LV_ALIGN_IN_TOP_MID: new_x = lv_obj_get_width(base) / 2 - lv_obj_get_width(obj) / 2; new_y = 0; break; case LV_ALIGN_IN_TOP_RIGHT: new_x = lv_obj_get_width(base) - lv_obj_get_width(obj); new_y = 0; break; case LV_ALIGN_IN_BOTTOM_LEFT: new_x = 0; new_y = lv_obj_get_height(base) - lv_obj_get_height(obj); break; case LV_ALIGN_IN_BOTTOM_MID: new_x = lv_obj_get_width(base) / 2 - lv_obj_get_width(obj) / 2; new_y = lv_obj_get_height(base) - lv_obj_get_height(obj); break; case LV_ALIGN_IN_BOTTOM_RIGHT: new_x = lv_obj_get_width(base) - lv_obj_get_width(obj); new_y = lv_obj_get_height(base) - lv_obj_get_height(obj); break; case LV_ALIGN_IN_LEFT_MID: new_x = 0; new_y = lv_obj_get_height(base) / 2 - lv_obj_get_height(obj) / 2; break; case LV_ALIGN_IN_RIGHT_MID: new_x = lv_obj_get_width(base) - lv_obj_get_width(obj); new_y = lv_obj_get_height(base) / 2 - lv_obj_get_height(obj) / 2; break; case LV_ALIGN_OUT_TOP_LEFT: new_x = 0; new_y = -lv_obj_get_height(obj); break; case LV_ALIGN_OUT_TOP_MID: new_x = lv_obj_get_width(base) / 2 - lv_obj_get_width(obj) / 2; new_y = - lv_obj_get_height(obj); break; case LV_ALIGN_OUT_TOP_RIGHT: new_x = lv_obj_get_width(base) - lv_obj_get_width(obj); new_y = - lv_obj_get_height(obj); break; case LV_ALIGN_OUT_BOTTOM_LEFT: new_x = 0; new_y = lv_obj_get_height(base); break; case LV_ALIGN_OUT_BOTTOM_MID: new_x = lv_obj_get_width(base) / 2 - lv_obj_get_width(obj) / 2; new_y = lv_obj_get_height(base); break; case LV_ALIGN_OUT_BOTTOM_RIGHT: new_x = lv_obj_get_width(base) - lv_obj_get_width(obj); new_y = lv_obj_get_height(base); break; case LV_ALIGN_OUT_LEFT_TOP: new_x = - lv_obj_get_width(obj); new_y = 0; break; case LV_ALIGN_OUT_LEFT_MID: new_x = - lv_obj_get_width(obj); new_y = lv_obj_get_height(base) / 2 - lv_obj_get_height(obj) / 2; break; case LV_ALIGN_OUT_LEFT_BOTTOM: new_x = - lv_obj_get_width(obj); new_y = lv_obj_get_height(base) - lv_obj_get_height(obj); break; case LV_ALIGN_OUT_RIGHT_TOP: new_x = lv_obj_get_width(base); new_y = 0; break; case LV_ALIGN_OUT_RIGHT_MID: new_x = lv_obj_get_width(base); new_y = lv_obj_get_height(base) / 2 - lv_obj_get_height(obj) / 2; break; case LV_ALIGN_OUT_RIGHT_BOTTOM: new_x = lv_obj_get_width(base); new_y = lv_obj_get_height(base) - lv_obj_get_height(obj); break; } /*Bring together the coordination system of base and obj*/ lv_obj_t * par = lv_obj_get_parent(obj); lv_coord_t base_abs_x = base->coords.x1; lv_coord_t base_abs_y = base->coords.y1; lv_coord_t par_abs_x = par->coords.x1; lv_coord_t par_abs_y = par->coords.y1; new_x += x_mod + base_abs_x; new_y += y_mod + base_abs_y; new_x -= par_abs_x; new_y -= par_abs_y; lv_obj_set_pos(obj, new_x, new_y); #if LV_OBJ_REALIGN /*Save the last align parameters to use them in `lv_obj_realign`*/ obj->realign.align = align; obj->realign.xofs = x_mod; obj->realign.yofs = y_mod; obj->realign.base = base; obj->realign.origo_align = 0; #endif } /** * Align an object to an other object. * @param obj pointer to an object to align * @param base pointer to an object (if NULL the parent is used). 'obj' will be aligned to it. * @param align type of alignment (see 'lv_align_t' enum) * @param x_mod x coordinate shift after alignment * @param y_mod y coordinate shift after alignment */ void lv_obj_align_origo(lv_obj_t * obj, const lv_obj_t * base, lv_align_t align, lv_coord_t x_mod, lv_coord_t y_mod) { lv_coord_t new_x = lv_obj_get_x(obj); lv_coord_t new_y = lv_obj_get_y(obj); lv_coord_t obj_w_half = lv_obj_get_width(obj) / 2; lv_coord_t obj_h_half = lv_obj_get_height(obj) / 2; if(base == NULL) { base = lv_obj_get_parent(obj); } switch(align) { case LV_ALIGN_CENTER: new_x = lv_obj_get_width(base) / 2 - obj_w_half; new_y = lv_obj_get_height(base) / 2 - obj_h_half; break; case LV_ALIGN_IN_TOP_LEFT: new_x = -obj_w_half; new_y = -obj_h_half; break; case LV_ALIGN_IN_TOP_MID: new_x = lv_obj_get_width(base) / 2 - obj_w_half; new_y = -obj_h_half; break; case LV_ALIGN_IN_TOP_RIGHT: new_x = lv_obj_get_width(base) - obj_w_half; new_y = -obj_h_half; break; case LV_ALIGN_IN_BOTTOM_LEFT: new_x = -obj_w_half; new_y = lv_obj_get_height(base) - obj_h_half; break; case LV_ALIGN_IN_BOTTOM_MID: new_x = lv_obj_get_width(base) / 2 - obj_w_half; new_y = lv_obj_get_height(base) - obj_h_half; break; case LV_ALIGN_IN_BOTTOM_RIGHT: new_x = lv_obj_get_width(base) - obj_w_half; new_y = lv_obj_get_height(base) - obj_h_half; break; case LV_ALIGN_IN_LEFT_MID: new_x = -obj_w_half; new_y = lv_obj_get_height(base) / 2 - obj_h_half; break; case LV_ALIGN_IN_RIGHT_MID: new_x = lv_obj_get_width(base) - obj_w_half; new_y = lv_obj_get_height(base) / 2 - obj_h_half; break; case LV_ALIGN_OUT_TOP_LEFT: new_x = -obj_w_half; new_y = -obj_h_half; break; case LV_ALIGN_OUT_TOP_MID: new_x = lv_obj_get_width(base) / 2 - obj_w_half; new_y = -obj_h_half; break; case LV_ALIGN_OUT_TOP_RIGHT: new_x = lv_obj_get_width(base) - obj_w_half; new_y = - obj_h_half; break; case LV_ALIGN_OUT_BOTTOM_LEFT: new_x = -obj_w_half; new_y = lv_obj_get_height(base) - obj_h_half; break; case LV_ALIGN_OUT_BOTTOM_MID: new_x = lv_obj_get_width(base) / 2 - obj_w_half; new_y = lv_obj_get_height(base) - obj_h_half; break; case LV_ALIGN_OUT_BOTTOM_RIGHT: new_x = lv_obj_get_width(base) - obj_w_half; new_y = lv_obj_get_height(base) - obj_h_half; break; case LV_ALIGN_OUT_LEFT_TOP: new_x = - obj_w_half ; new_y = - obj_h_half; break; case LV_ALIGN_OUT_LEFT_MID: new_x = - obj_w_half; new_y = lv_obj_get_height(base) / 2 - obj_h_half; break; case LV_ALIGN_OUT_LEFT_BOTTOM: new_x = - obj_w_half; new_y = lv_obj_get_height(base) - obj_h_half; break; case LV_ALIGN_OUT_RIGHT_TOP: new_x = lv_obj_get_width(base) - obj_w_half; new_y = -obj_h_half; break; case LV_ALIGN_OUT_RIGHT_MID: new_x = lv_obj_get_width(base) - obj_w_half; new_y = lv_obj_get_height(base) / 2 - obj_h_half; break; case LV_ALIGN_OUT_RIGHT_BOTTOM: new_x = lv_obj_get_width(base) - obj_w_half; new_y = lv_obj_get_height(base) - obj_h_half; break; } /*Bring together the coordination system of base and obj*/ lv_obj_t * par = lv_obj_get_parent(obj); lv_coord_t base_abs_x = base->coords.x1; lv_coord_t base_abs_y = base->coords.y1; lv_coord_t par_abs_x = par->coords.x1; lv_coord_t par_abs_y = par->coords.y1; new_x += x_mod + base_abs_x; new_y += y_mod + base_abs_y; new_x -= par_abs_x; new_y -= par_abs_y; lv_obj_set_pos(obj, new_x, new_y); #if LV_OBJ_REALIGN /*Save the last align parameters to use them in `lv_obj_realign`*/ obj->realign.align = align; obj->realign.xofs = x_mod; obj->realign.yofs = y_mod; obj->realign.base = base; obj->realign.origo_align = 1; #endif } /** * Realign the object based on the last `lv_obj_align` parameters. * @param obj pointer to an object */ void lv_obj_realign(lv_obj_t * obj) { #if LV_OBJ_REALIGN if(obj->realign.origo_align) lv_obj_align_origo(obj, obj->realign.base, obj->realign.align, obj->realign.xofs, obj->realign.yofs); else lv_obj_align(obj, obj->realign.base, obj->realign.align, obj->realign.xofs, obj->realign.yofs); #else (void) obj; LV_LOG_WARN("lv_obj_realaign: no effect because LV_OBJ_REALIGN = 0"); #endif } /** * Enable the automatic realign of the object when its size has changed based on the last `lv_obj_align` parameters. * @param obj pointer to an object * @param en true: enable auto realign; false: disable auto realign */ void lv_obj_set_auto_realign(lv_obj_t * obj, bool en) { #if LV_OBJ_REALIGN obj->realign.auto_realign = en ? 1 : 0; #else (void) obj; (void) en; LV_LOG_WARN("lv_obj_set_auto_realign: no effect because LV_OBJ_REALIGN = 0"); #endif } /*--------------------- * Appearance set *--------------------*/ /** * Set a new style for an object * @param obj pointer to an object * @param style_p pointer to the new style */ void lv_obj_set_style(lv_obj_t * obj, lv_style_t * style) { obj->style_p = style; /*Send a signal about style change to every children with NULL style*/ refresh_children_style(obj); /*Notify the object about the style change too*/ lv_obj_refresh_style(obj); } /** * Notify an object about its style is modified * @param obj pointer to an object */ void lv_obj_refresh_style(lv_obj_t * obj) { lv_obj_invalidate(obj); obj->signal_func(obj, LV_SIGNAL_STYLE_CHG, NULL); lv_obj_invalidate(obj); } /** * Notify all object if a style is modified * @param style pointer to a style. Only the objects with this style will be notified * (NULL to notify all objects) */ void lv_obj_report_style_mod(lv_style_t * style) { lv_obj_t * i; LL_READ(LV_GC_ROOT(_lv_scr_ll), i) { if(i->style_p == style || style == NULL) { lv_obj_refresh_style(i); } report_style_mod_core(style, i); } } /*----------------- * Attribute set *----------------*/ /** * Hide an object. It won't be visible and clickable. * @param obj pointer to an object * @param en true: hide the object */ void lv_obj_set_hidden(lv_obj_t * obj, bool en) { if(!obj->hidden) lv_obj_invalidate(obj); /*Invalidate when not hidden (hidden objects are ignored) */ obj->hidden = en == false ? 0 : 1; if(!obj->hidden) lv_obj_invalidate(obj); /*Invalidate when not hidden (hidden objects are ignored) */ lv_obj_t * par = lv_obj_get_parent(obj); par->signal_func(par, LV_SIGNAL_CHILD_CHG, obj); } /** * Enable or disable the clicking of an object * @param obj pointer to an object * @param en true: make the object clickable */ void lv_obj_set_click(lv_obj_t * obj, bool en) { obj->click = (en == true ? 1 : 0); } /** * Enable to bring this object to the foreground if it * or any of its children is clicked * @param obj pointer to an object * @param en true: enable the auto top feature */ void lv_obj_set_top(lv_obj_t * obj, bool en) { obj->top = (en == true ? 1 : 0); } /** * Enable the dragging of an object * @param obj pointer to an object * @param en true: make the object dragable */ void lv_obj_set_drag(lv_obj_t * obj, bool en) { if(en == true) lv_obj_set_click(obj, true); /*Drag is useless without enabled clicking*/ obj->drag = (en == true ? 1 : 0); } /** * Enable the throwing of an object after is is dragged * @param obj pointer to an object * @param en true: enable the drag throw */ void lv_obj_set_drag_throw(lv_obj_t * obj, bool en) { obj->drag_throw = (en == true ? 1 : 0); } /** * Enable to use parent for drag related operations. * If trying to drag the object the parent will be moved instead * @param obj pointer to an object * @param en true: enable the 'drag parent' for the object */ void lv_obj_set_drag_parent(lv_obj_t * obj, bool en) { obj->drag_parent = (en == true ? 1 : 0); } /** * Set the opa scale enable parameter (required to set opa_scale with `lv_obj_set_opa_scale()`) * @param obj pointer to an object * @param en true: opa scaling is enabled for this object and all children; false: no opa scaling */ void lv_obj_set_opa_scale_enable(lv_obj_t * obj, bool en) { obj->opa_scale_en = en ? 1 : 0; } /** * Set the opa scale of an object * @param obj pointer to an object * @param opa_scale a factor to scale down opacity [0..255] */ void lv_obj_set_opa_scale(lv_obj_t * obj, lv_opa_t opa_scale) { obj->opa_scale = opa_scale; lv_obj_invalidate(obj); } /** * Set a bit or bits in the protect filed * @param obj pointer to an object * @param prot 'OR'-ed values from `lv_protect_t` */ void lv_obj_set_protect(lv_obj_t * obj, uint8_t prot) { obj->protect |= prot; } /** * Clear a bit or bits in the protect filed * @param obj pointer to an object * @param prot 'OR'-ed values from `lv_protect_t` */ void lv_obj_clear_protect(lv_obj_t * obj, uint8_t prot) { prot = (~prot) & 0xFF; obj->protect &= prot; } /** * Set the signal function of an object. * Always call the previous signal function in the new. * @param obj pointer to an object * @param fp the new signal function */ void lv_obj_set_signal_func(lv_obj_t * obj, lv_signal_func_t fp) { obj->signal_func = fp; } /** * Set a new design function for an object * @param obj pointer to an object * @param fp the new design function */ void lv_obj_set_design_func(lv_obj_t * obj, lv_design_func_t fp) { obj->design_func = fp; } /*---------------- * Other set *--------------*/ /** * Allocate a new ext. data for an object * @param obj pointer to an object * @param ext_size the size of the new ext. data * @return Normal pointer to the allocated ext */ void * lv_obj_allocate_ext_attr(lv_obj_t * obj, uint16_t ext_size) { obj->ext_attr = lv_mem_realloc(obj->ext_attr, ext_size); return (void *)obj->ext_attr; } /** * Send a 'LV_SIGNAL_REFR_EXT_SIZE' signal to the object * @param obj pointer to an object */ void lv_obj_refresh_ext_size(lv_obj_t * obj) { obj->ext_size = 0; obj->signal_func(obj, LV_SIGNAL_REFR_EXT_SIZE, NULL); lv_obj_invalidate(obj); } #ifdef LV_OBJ_FREE_NUM_TYPE /** * Set an application specific number for an object. * It can help to identify objects in the application. * @param obj pointer to an object * @param free_num the new free number */ void lv_obj_set_free_num(lv_obj_t * obj, LV_OBJ_FREE_NUM_TYPE free_num) { obj->free_num = free_num; } #endif #if LV_OBJ_FREE_PTR != 0 /** * Set an application specific pointer for an object. * It can help to identify objects in the application. * @param obj pointer to an object * @param free_p the new free pinter */ void lv_obj_set_free_ptr(lv_obj_t * obj, void * free_p) { obj->free_ptr = free_p; } #endif #if USE_LV_ANIMATION /** * Animate an object * @param obj pointer to an object to animate * @param type type of animation from 'lv_anim_builtin_t'. 'OR' it with ANIM_IN or ANIM_OUT * @param time time of animation in milliseconds * @param delay delay before the animation in milliseconds * @param cb a function to call when the animation is ready */ void lv_obj_animate(lv_obj_t * obj, lv_anim_builtin_t type, uint16_t time, uint16_t delay, void (*cb)(lv_obj_t *)) { lv_obj_t * par = lv_obj_get_parent(obj); /*Get the direction*/ bool out = (type & LV_ANIM_DIR_MASK) == LV_ANIM_IN ? false : true; type = type & (~LV_ANIM_DIR_MASK); lv_anim_t a; a.var = obj; a.time = time; a.act_time = (int32_t) - delay; a.end_cb = (void(*)(void *))cb; a.path = lv_anim_path_linear; a.playback_pause = 0; a.repeat_pause = 0; a.playback = 0; a.repeat = 0; /*Init to ANIM_IN*/ switch(type) { case LV_ANIM_FLOAT_LEFT: a.fp = (void(*)(void *, int32_t))lv_obj_set_x; a.start = -lv_obj_get_width(obj); a.end = lv_obj_get_x(obj); break; case LV_ANIM_FLOAT_RIGHT: a.fp = (void(*)(void *, int32_t))lv_obj_set_x; a.start = lv_obj_get_width(par); a.end = lv_obj_get_x(obj); break; case LV_ANIM_FLOAT_TOP: a.fp = (void(*)(void *, int32_t))lv_obj_set_y; a.start = -lv_obj_get_height(obj); a.end = lv_obj_get_y(obj); break; case LV_ANIM_FLOAT_BOTTOM: a.fp = (void(*)(void *, int32_t))lv_obj_set_y; a.start = lv_obj_get_height(par); a.end = lv_obj_get_y(obj); break; case LV_ANIM_GROW_H: a.fp = (void(*)(void *, int32_t))lv_obj_set_width; a.start = 0; a.end = lv_obj_get_width(obj); break; case LV_ANIM_GROW_V: a.fp = (void(*)(void *, int32_t))lv_obj_set_height; a.start = 0; a.end = lv_obj_get_height(obj); break; case LV_ANIM_NONE: a.fp = NULL; a.start = 0; a.end = 0; break; default: break; } /*Swap start and end in case of ANIM OUT*/ if(out != false) { int32_t tmp = a.start; a.start = a.end; a.end = tmp; } lv_anim_create(&a); } #endif /*======================= * Getter functions *======================*/ /*------------------ * Screen get *-----------------*/ /** * Return with a pointer to the active screen * @return pointer to the active screen object (loaded by 'lv_scr_load()') */ lv_obj_t * lv_scr_act(void) { return LV_GC_ROOT(_lv_act_scr); } /** * Return with the top layer. (Same on every screen and it is above the normal screen layer) * @return pointer to the top layer object (transparent screen sized lv_obj) */ lv_obj_t * lv_layer_top(void) { return LV_GC_ROOT(_lv_top_layer); } /** * Return with the system layer. (Same on every screen and it is above the all other layers) * It is used for example by the cursor * @return pointer to the system layer object (transparent screen sized lv_obj) */ lv_obj_t * lv_layer_sys(void) { return LV_GC_ROOT(_lv_sys_layer); } /** * Return with the screen of an object * @param obj pointer to an object * @return pointer to a screen */ lv_obj_t * lv_obj_get_screen(const lv_obj_t * obj) { const lv_obj_t * par = obj; const lv_obj_t * act_p; do { act_p = par; par = lv_obj_get_parent(act_p); } while(par != NULL); return (lv_obj_t *)act_p; } /*--------------------- * Parent/children get *--------------------*/ /** * Returns with the parent of an object * @param obj pointer to an object * @return pointer to the parent of 'obj' */ lv_obj_t * lv_obj_get_parent(const lv_obj_t * obj) { return obj->par; } /** * Iterate through the children of an object (start from the "youngest") * @param obj pointer to an object * @param child NULL at first call to get the next children * and the previous return value later * @return the child after 'act_child' or NULL if no more child */ lv_obj_t * lv_obj_get_child(const lv_obj_t * obj, const lv_obj_t * child) { lv_obj_t * result = NULL; if(child == NULL) { result = lv_ll_get_head(&obj->child_ll); } else { result = lv_ll_get_next(&obj->child_ll, child); } return result; } /** * Iterate through the children of an object (start from the "oldest") * @param obj pointer to an object * @param child NULL at first call to get the next children * and the previous return value later * @return the child after 'act_child' or NULL if no more child */ lv_obj_t * lv_obj_get_child_back(const lv_obj_t * obj, const lv_obj_t * child) { lv_obj_t * result = NULL; if(child == NULL) { result = lv_ll_get_tail(&obj->child_ll); } else { result = lv_ll_get_prev(&obj->child_ll, child); } return result; } /** * Count the children of an object (only children directly on 'obj') * @param obj pointer to an object * @return children number of 'obj' */ uint16_t lv_obj_count_children(const lv_obj_t * obj) { lv_obj_t * i; uint16_t cnt = 0; LL_READ(obj->child_ll, i) cnt++; return cnt; } /*--------------------- * Coordinate get *--------------------*/ /** * Copy the coordinates of an object to an area * @param obj pointer to an object * @param cords_p pointer to an area to store the coordinates */ void lv_obj_get_coords(const lv_obj_t * obj, lv_area_t * cords_p) { lv_area_copy(cords_p, &obj->coords); } /** * Get the x coordinate of object * @param obj pointer to an object * @return distance of 'obj' from the left side of its parent */ lv_coord_t lv_obj_get_x(const lv_obj_t * obj) { lv_coord_t rel_x; lv_obj_t * parent = lv_obj_get_parent(obj); rel_x = obj->coords.x1 - parent->coords.x1; return rel_x; } /** * Get the y coordinate of object * @param obj pointer to an object * @return distance of 'obj' from the top of its parent */ lv_coord_t lv_obj_get_y(const lv_obj_t * obj) { lv_coord_t rel_y; lv_obj_t * parent = lv_obj_get_parent(obj); rel_y = obj->coords.y1 - parent->coords.y1; return rel_y; } /** * Get the width of an object * @param obj pointer to an object * @return the width */ lv_coord_t lv_obj_get_width(const lv_obj_t * obj) { return lv_area_get_width(&obj->coords); } /** * Get the height of an object * @param obj pointer to an object * @return the height */ lv_coord_t lv_obj_get_height(const lv_obj_t * obj) { return lv_area_get_height(&obj->coords); } /** * Get the extended size attribute of an object * @param obj pointer to an object * @return the extended size attribute */ lv_coord_t lv_obj_get_ext_size(const lv_obj_t * obj) { return obj->ext_size; } /** * Get the automatic realign property of the object. * @param obj pointer to an object * @return true: auto realign is enabled; false: auto realign is disabled */ bool lv_obj_get_auto_realign(lv_obj_t * obj) { #if LV_OBJ_REALIGN return obj->realign.auto_realign ? true : false; #else (void) obj; return false; #endif } /*----------------- * Appearance get *---------------*/ /** * Get the style pointer of an object (if NULL get style of the parent) * @param obj pointer to an object * @return pointer to a style */ lv_style_t * lv_obj_get_style(const lv_obj_t * obj) { lv_style_t * style_act = obj->style_p; if(style_act == NULL) { lv_obj_t * par = obj->par; while(par) { if(par->style_p) { if(par->style_p->glass == 0) { #if USE_LV_GROUP == 0 style_act = par->style_p; #else /*Is a parent is focused then use then focused style*/ lv_group_t * g = lv_obj_get_group(par); if(lv_group_get_focused(g) == par) { style_act = lv_group_mod_style(g, par->style_p); } else { style_act = par->style_p; } #endif break; } } par = par->par; } } #if USE_LV_GROUP if(obj->group_p) { if(lv_group_get_focused(obj->group_p) == obj) { style_act = lv_group_mod_style(obj->group_p, style_act); } } #endif if(style_act == NULL) style_act = &lv_style_plain; return style_act; } /*----------------- * Attribute get *----------------*/ /** * Get the hidden attribute of an object * @param obj pointer to an object * @return true: the object is hidden */ bool lv_obj_get_hidden(const lv_obj_t * obj) { return obj->hidden == 0 ? false : true; } /** * Get the click enable attribute of an object * @param obj pointer to an object * @return true: the object is clickable */ bool lv_obj_get_click(const lv_obj_t * obj) { return obj->click == 0 ? false : true; } /** * Get the top enable attribute of an object * @param obj pointer to an object * @return true: the auto top feture is enabled */ bool lv_obj_get_top(const lv_obj_t * obj) { return obj->top == 0 ? false : true; } /** * Get the drag enable attribute of an object * @param obj pointer to an object * @return true: the object is dragable */ bool lv_obj_get_drag(const lv_obj_t * obj) { return obj->drag == 0 ? false : true; } /** * Get the drag throw enable attribute of an object * @param obj pointer to an object * @return true: drag throw is enabled */ bool lv_obj_get_drag_throw(const lv_obj_t * obj) { return obj->drag_throw == 0 ? false : true; } /** * Get the drag parent attribute of an object * @param obj pointer to an object * @return true: drag parent is enabled */ bool lv_obj_get_drag_parent(const lv_obj_t * obj) { return obj->drag_parent == 0 ? false : true; } /** * Get the opa scale enable parameter * @param obj pointer to an object * @return true: opa scaling is enabled for this object and all children; false: no opa scaling */ lv_opa_t lv_obj_get_opa_scale_enable(const lv_obj_t * obj) { return obj->opa_scale_en == 0 ? false : true; } /** * Get the opa scale parameter of an object * @param obj pointer to an object * @return opa scale [0..255] */ lv_opa_t lv_obj_get_opa_scale(const lv_obj_t * obj) { const lv_obj_t * parent = obj; while(parent) { if(parent->opa_scale_en) return parent->opa_scale; parent = lv_obj_get_parent(parent); } return LV_OPA_COVER; } /** * Get the protect field of an object * @param obj pointer to an object * @return protect field ('OR'ed values of `lv_protect_t`) */ uint8_t lv_obj_get_protect(const lv_obj_t * obj) { return obj->protect ; } /** * Check at least one bit of a given protect bitfield is set * @param obj pointer to an object * @param prot protect bits to test ('OR'ed values of `lv_protect_t`) * @return false: none of the given bits are set, true: at least one bit is set */ bool lv_obj_is_protected(const lv_obj_t * obj, uint8_t prot) { return (obj->protect & prot) == 0 ? false : true ; } /** * Get the signal function of an object * @param obj pointer to an object * @return the signal function */ lv_signal_func_t lv_obj_get_signal_func(const lv_obj_t * obj) { return obj->signal_func; } /** * Get the design function of an object * @param obj pointer to an object * @return the design function */ lv_design_func_t lv_obj_get_design_func(const lv_obj_t * obj) { return obj->design_func; } /*------------------ * Other get *-----------------*/ /** * Get the ext pointer * @param obj pointer to an object * @return the ext pointer but not the dynamic version * Use it as ext->data1, and NOT da(ext)->data1 */ void * lv_obj_get_ext_attr(const lv_obj_t * obj) { return obj->ext_attr; } /** * Get object's and its ancestors type. Put their name in `type_buf` starting with the current type. * E.g. buf.type[0]="lv_btn", buf.type[1]="lv_cont", buf.type[2]="lv_obj" * @param obj pointer to an object which type should be get * @param buf pointer to an `lv_obj_type_t` buffer to store the types */ void lv_obj_get_type(lv_obj_t * obj, lv_obj_type_t * buf) { lv_obj_type_t tmp; memset(buf, 0, sizeof(lv_obj_type_t)); memset(&tmp, 0, sizeof(lv_obj_type_t)); obj->signal_func(obj, LV_SIGNAL_GET_TYPE, &tmp); uint8_t cnt; for(cnt = 0; cnt < LV_MAX_ANCESTOR_NUM; cnt++) { if(tmp.type[cnt] == NULL) break; } /*Swap the order. The real type comes first*/ uint8_t i; for(i = 0; i < cnt; i++) { buf->type[i] = tmp.type[cnt - 1 - i]; } } #ifdef LV_OBJ_FREE_NUM_TYPE /** * Get the free number * @param obj pointer to an object * @return the free number */ LV_OBJ_FREE_NUM_TYPE lv_obj_get_free_num(const lv_obj_t * obj) { return obj->free_num; } #endif #if LV_OBJ_FREE_PTR != 0 /** * Get the free pointer * @param obj pointer to an object * @return the free pointer */ void * lv_obj_get_free_ptr(const lv_obj_t * obj) { return obj->free_ptr; } #endif #if USE_LV_GROUP /** * Get the group of the object * @param obj pointer to an object * @return the pointer to group of the object */ void * lv_obj_get_group(const lv_obj_t * obj) { return obj->group_p; } /** * Tell whether the ohe object is the focused object of a group or not. * @param obj pointer to an object * @return true: the object is focused, false: the object is not focused or not in a group */ bool lv_obj_is_focused(const lv_obj_t * obj) { if(obj->group_p) { if(lv_group_get_focused(obj->group_p) == obj) return true; } return false; } #endif /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the base objects. * @param obj pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * @param return true/false, depends on 'mode' */ static bool lv_obj_design(lv_obj_t * obj, const lv_area_t * mask_p, lv_design_mode_t mode) { if(mode == LV_DESIGN_COVER_CHK) { /* Because of the radius it is not sure the area is covered * Check the areas where there is no radius*/ lv_style_t * style = lv_obj_get_style(obj); if(style->body.empty != 0) return false; uint16_t r = style->body.radius; if(r == LV_RADIUS_CIRCLE) return false; lv_area_t area_tmp; /*Check horizontally without radius*/ lv_obj_get_coords(obj, &area_tmp); area_tmp.x1 += r; area_tmp.x2 -= r; if(lv_area_is_in(mask_p, &area_tmp) == false) return false; /*Check vertically without radius*/ lv_obj_get_coords(obj, &area_tmp); area_tmp.y1 += r; area_tmp.y2 -= r; if(lv_area_is_in(mask_p, &area_tmp) == false) return false; } else if(mode == LV_DESIGN_DRAW_MAIN) { lv_style_t * style = lv_obj_get_style(obj); lv_draw_rect(&obj->coords, mask_p, style, lv_obj_get_opa_scale(obj)); } return true; } /** * Signal function of the basic object * @param obj pointer to an object * @param sign signal type * @param param parameter for the signal (depends on signal type) * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_obj_signal(lv_obj_t * obj, lv_signal_t sign, void * param) { (void)param; lv_res_t res = LV_RES_OK; lv_style_t * style = lv_obj_get_style(obj); lv_indev_t *indev_act = lv_indev_get_act(); if(sign > _LV_SIGNAL_FEEDBACK_SECTION_START && sign < _LV_SIGNAL_FEEDBACK_SECTION_END) { if(indev_act != NULL && indev_act->feedback != NULL) indev_act->feedback(indev_act, sign); } if(sign == LV_SIGNAL_CHILD_CHG) { /*Return 'invalid' if the child change signal is not enabled*/ if(lv_obj_is_protected(obj, LV_PROTECT_CHILD_CHG) != false) res = LV_RES_INV; } else if(sign == LV_SIGNAL_REFR_EXT_SIZE) { if(style->body.shadow.width > obj->ext_size) obj->ext_size = style->body.shadow.width; } else if(sign == LV_SIGNAL_STYLE_CHG) { lv_obj_refresh_ext_size(obj); } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; buf->type[0] = "lv_obj"; } return res; } /** * Reposition the children of an object. (Called recursively) * @param obj pointer to an object which children will be repositioned * @param x_diff x coordinate shift * @param y_diff y coordinate shift */ static void refresh_children_position(lv_obj_t * obj, lv_coord_t x_diff, lv_coord_t y_diff) { lv_obj_t * i; LL_READ(obj->child_ll, i) { i->coords.x1 += x_diff; i->coords.y1 += y_diff; i->coords.x2 += x_diff; i->coords.y2 += y_diff; refresh_children_position(i, x_diff, y_diff); } } /** * Refresh the style of all children of an object. (Called recursively) * @param style_p refresh objects only with this style. * @param obj pointer to an object */ static void report_style_mod_core(void * style_p, lv_obj_t * obj) { lv_obj_t * i; LL_READ(obj->child_ll, i) { if(i->style_p == style_p || style_p == NULL) { refresh_children_style(i); lv_obj_refresh_style(i); } report_style_mod_core(style_p, i); } } /** * Recursively refresh the style of the children. Go deeper until a not NULL style is found * because the NULL styles are inherited from the parent * @param obj pointer to an object */ static void refresh_children_style(lv_obj_t * obj) { lv_obj_t * child = lv_obj_get_child(obj, NULL); while(child != NULL) { if(child->style_p == NULL) { refresh_children_style(child); /*Check children too*/ lv_obj_refresh_style(child); /*Notify the child about the style change*/ } else if(child->style_p->glass) { /*Children with 'glass' parent might be effected if their style == NULL*/ refresh_children_style(child); } child = lv_obj_get_child(obj, child); } } /** * Called by 'lv_obj_del' to delete the children objects * @param obj pointer to an object (all of its children will be deleted) */ static void delete_children(lv_obj_t * obj) { lv_obj_t * i; lv_obj_t * i_next; i = lv_ll_get_head(&(obj->child_ll)); /*Remove from the group; remove before transversing children so that * the object still has access to all children during the * LV_SIGNAL_DEFOCUS call*/ #if USE_LV_GROUP if(obj->group_p != NULL) lv_group_remove_obj(obj); #endif while(i != NULL) { /*Get the next object before delete this*/ i_next = lv_ll_get_next(&(obj->child_ll), i); /*Call the recursive del to the child too*/ delete_children(i); /*Set i to the next node*/ i = i_next; } /*Remove the animations from this object*/ #if USE_LV_ANIMATION lv_anim_del(obj, NULL); #endif /* Reset the input devices if * the currently pressed object is deleted*/ lv_indev_t * indev = lv_indev_next(NULL); while(indev) { if(indev->proc.act_obj == obj || indev->proc.last_obj == obj) { lv_indev_reset(indev); } indev = lv_indev_next(indev); } /*Remove the object from parent's children list*/ lv_obj_t * par = lv_obj_get_parent(obj); lv_ll_rem(&(par->child_ll), obj); /* Clean up the object specific data*/ obj->signal_func(obj, LV_SIGNAL_CLEANUP, NULL); /*Delete the base objects*/ if(obj->ext_attr != NULL) lv_mem_free(obj->ext_attr); lv_mem_free(obj); /*Free the object itself*/ } ================================================ FILE: bdk/libs/lvgl/lv_core/lv_obj.h ================================================ /** * @file lv_obj.h * */ #ifndef LV_OBJ_H #define LV_OBJ_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include #include "lv_style.h" #include "../lv_misc/lv_area.h" #include "../lv_misc/lv_mem.h" #include "../lv_misc/lv_ll.h" #include "../lv_misc/lv_color.h" #include "../lv_misc/lv_log.h" /********************* * DEFINES *********************/ /*Error check of lv_conf.h*/ #if LV_HOR_RES == 0 || LV_VER_RES == 0 #error "LittlevGL: LV_HOR_RES and LV_VER_RES must be greater than 0" #endif #if LV_ANTIALIAS > 1 #error "LittlevGL: LV_ANTIALIAS can be only 0 or 1" #endif #if LV_VDB_SIZE == 0 && LV_ANTIALIAS != 0 #error "LittlevGL: If LV_VDB_SIZE == 0 the anti-aliasing must be disabled" #endif #if LV_VDB_SIZE > 0 && LV_VDB_SIZE < LV_HOR_RES #error "LittlevGL: Small Virtual Display Buffer (lv_conf.h: LV_VDB_SIZE >= LV_HOR_RES)" #endif #if LV_VDB_SIZE == 0 && USE_LV_REAL_DRAW == 0 #error "LittlevGL: If LV_VDB_SIZE = 0 Real drawing function are required (lv_conf.h: USE_LV_REAL_DRAW 1)" #endif #define LV_ANIM_IN 0x00 /*Animation to show an object. 'OR' it with lv_anim_builtin_t*/ #define LV_ANIM_OUT 0x80 /*Animation to hide an object. 'OR' it with lv_anim_builtin_t*/ #define LV_ANIM_DIR_MASK 0x80 /*ANIM_IN/ANIM_OUT mask*/ #define LV_MAX_ANCESTOR_NUM 8 /********************** * TYPEDEFS **********************/ struct _lv_obj_t; enum { LV_DESIGN_DRAW_MAIN, LV_DESIGN_DRAW_POST, LV_DESIGN_COVER_CHK, }; typedef uint8_t lv_design_mode_t; typedef bool (* lv_design_func_t) (struct _lv_obj_t * obj, const lv_area_t * mask_p, lv_design_mode_t mode); enum { LV_RES_INV = 0, /*Typically indicates that the object is deleted (become invalid) in the action function or an operation was failed*/ LV_RES_OK, /*The object is valid (no deleted) after the action*/ }; typedef uint8_t lv_res_t; enum { /*General signals*/ LV_SIGNAL_CLEANUP, LV_SIGNAL_CHILD_CHG, LV_SIGNAL_CORD_CHG, LV_SIGNAL_STYLE_CHG, LV_SIGNAL_REFR_EXT_SIZE, LV_SIGNAL_LANG_CHG, LV_SIGNAL_GET_TYPE, _LV_SIGNAL_FEEDBACK_SECTION_START, /*Input device related*/ LV_SIGNAL_PRESSED, LV_SIGNAL_PRESSING, LV_SIGNAL_PRESS_LOST, LV_SIGNAL_RELEASED, LV_SIGNAL_LONG_PRESS, LV_SIGNAL_LONG_PRESS_REP, LV_SIGNAL_DRAG_BEGIN, LV_SIGNAL_DRAG_END, /*Group related*/ LV_SIGNAL_FOCUS, LV_SIGNAL_DEFOCUS, LV_SIGNAL_CONTROLL, _LV_SIGNAL_FEEDBACK_SECTION_END, LV_SIGNAL_GET_EDITABLE, }; typedef uint8_t lv_signal_t; typedef lv_res_t (* lv_signal_func_t) (struct _lv_obj_t * obj, lv_signal_t sign, void * param); enum { LV_ALIGN_CENTER = 0, LV_ALIGN_IN_TOP_LEFT, LV_ALIGN_IN_TOP_MID, LV_ALIGN_IN_TOP_RIGHT, LV_ALIGN_IN_BOTTOM_LEFT, LV_ALIGN_IN_BOTTOM_MID, LV_ALIGN_IN_BOTTOM_RIGHT, LV_ALIGN_IN_LEFT_MID, LV_ALIGN_IN_RIGHT_MID, LV_ALIGN_OUT_TOP_LEFT, LV_ALIGN_OUT_TOP_MID, LV_ALIGN_OUT_TOP_RIGHT, LV_ALIGN_OUT_BOTTOM_LEFT, LV_ALIGN_OUT_BOTTOM_MID, LV_ALIGN_OUT_BOTTOM_RIGHT, LV_ALIGN_OUT_LEFT_TOP, LV_ALIGN_OUT_LEFT_MID, LV_ALIGN_OUT_LEFT_BOTTOM, LV_ALIGN_OUT_RIGHT_TOP, LV_ALIGN_OUT_RIGHT_MID, LV_ALIGN_OUT_RIGHT_BOTTOM, }; typedef uint8_t lv_align_t; #if LV_OBJ_REALIGN typedef struct { const struct _lv_obj_t * base; lv_coord_t xofs; lv_coord_t yofs; lv_align_t align; uint8_t auto_realign :1; uint8_t origo_align :1; /*1: the oigo (center of the object) was aligned with `lv_obj_align_origo`*/ }lv_reailgn_t; #endif typedef struct _lv_obj_t { struct _lv_obj_t * par; /*Pointer to the parent object*/ lv_ll_t child_ll; /*Linked list to store the children objects*/ lv_area_t coords; /*Coordinates of the object (x1, y1, x2, y2)*/ lv_signal_func_t signal_func; /*Object type specific signal function*/ lv_design_func_t design_func; /*Object type specific design function*/ void * ext_attr; /*Object type specific extended data*/ lv_style_t * style_p; /*Pointer to the object's style*/ #if LV_OBJ_FREE_PTR != 0 void * free_ptr; /*Application specific pointer (set it freely)*/ #endif #if USE_LV_GROUP != 0 void * group_p; /*Pointer to the group of the object*/ #endif /*Attributes and states*/ uint8_t click :1; /*1: Can be pressed by an input device*/ uint8_t drag :1; /*1: Enable the dragging*/ uint8_t drag_throw :1; /*1: Enable throwing with drag*/ uint8_t drag_parent :1; /*1: Parent will be dragged instead*/ uint8_t hidden :1; /*1: Object is hidden*/ uint8_t top :1; /*1: If the object or its children is clicked it goes to the foreground*/ uint8_t opa_scale_en :1; /*1: opa_scale is set*/ uint8_t protect; /*Automatically happening actions can be prevented. 'OR'ed values from `lv_protect_t`*/ lv_opa_t opa_scale; /*Scale down the opacity by this factor. Effects all children as well*/ lv_coord_t ext_size; /*EXTtend the size of the object in every direction. E.g. for shadow drawing*/ #if LV_OBJ_REALIGN lv_reailgn_t realign; #endif #ifdef LV_OBJ_FREE_NUM_TYPE LV_OBJ_FREE_NUM_TYPE free_num; /*Application specific identifier (set it freely)*/ #endif } lv_obj_t; typedef lv_res_t (*lv_action_t) (struct _lv_obj_t * obj); /*Protect some attributes (max. 8 bit)*/ enum { LV_PROTECT_NONE = 0x00, LV_PROTECT_CHILD_CHG = 0x01, /*Disable the child change signal. Used by the library*/ LV_PROTECT_PARENT = 0x02, /*Prevent automatic parent change (e.g. in lv_page)*/ LV_PROTECT_POS = 0x04, /*Prevent automatic positioning (e.g. in lv_cont layout)*/ LV_PROTECT_FOLLOW = 0x08, /*Prevent the object be followed in automatic ordering (e.g. in lv_cont PRETTY layout)*/ LV_PROTECT_PRESS_LOST= 0x10, /*If the `indev` was pressing this object but swiped out while pressing do not search other object.*/ LV_PROTECT_CLICK_FOCUS= 0x20,/*Prevent focusing the object by clicking on it*/ }; typedef uint8_t lv_protect_t; /*Used by `lv_obj_get_type()`. The object's and its ancestor types are stored here*/ typedef struct { const char * type[LV_MAX_ANCESTOR_NUM]; /*[0]: the actual type, [1]: ancestor, [2] #1's ancestor ... [x]: "lv_obj" */ } lv_obj_type_t; enum { LV_ANIM_NONE = 0, LV_ANIM_FLOAT_TOP, /*Float from/to the top*/ LV_ANIM_FLOAT_LEFT, /*Float from/to the left*/ LV_ANIM_FLOAT_BOTTOM, /*Float from/to the bottom*/ LV_ANIM_FLOAT_RIGHT, /*Float from/to the right*/ LV_ANIM_GROW_H, /*Grow/shrink horizontally*/ LV_ANIM_GROW_V, /*Grow/shrink vertically*/ }; typedef uint8_t lv_anim_builtin_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Init. the 'lv' library. */ void lv_init(void); /*-------------------- * Create and delete *-------------------*/ /** * Create a basic object * @param parent pointer to a parent object. * If NULL then a screen will be created * @param copy pointer to a base object, if not NULL then the new object will be copied from it * @return pointer to the new object */ lv_obj_t * lv_obj_create(lv_obj_t * parent,const lv_obj_t * copy); /** * Delete 'obj' and all of its children * @param obj pointer to an object to delete * @return LV_RES_INV because the object is deleted */ lv_res_t lv_obj_del(lv_obj_t * obj); /** * Delete all children of an object * @param obj pointer to an object */ void lv_obj_clean(lv_obj_t *obj); /** * Mark the object as invalid therefore its current position will be redrawn by 'lv_refr_task' * @param obj pointer to an object */ void lv_obj_invalidate(const lv_obj_t * obj); /*===================== * Setter functions *====================*/ /*-------------- * Screen set *--------------*/ /** * Load a new screen * @param scr pointer to a screen */ void lv_scr_load(lv_obj_t * scr); /*-------------------- * Parent/children set *--------------------*/ /** * Set a new parent for an object. Its relative position will be the same. * @param obj pointer to an object. Can't be a screen. * @param parent pointer to the new parent object. (Can't be NULL) */ void lv_obj_set_parent(lv_obj_t * obj, lv_obj_t * parent); /*-------------------- * Coordinate set * ------------------*/ /** * Set relative the position of an object (relative to the parent) * @param obj pointer to an object * @param x new distance from the left side of the parent * @param y new distance from the top of the parent */ void lv_obj_set_pos(lv_obj_t * obj, lv_coord_t x, lv_coord_t y); /** * Set the x coordinate of a object * @param obj pointer to an object * @param x new distance from the left side from the parent */ void lv_obj_set_x(lv_obj_t * obj, lv_coord_t x); /** * Set the y coordinate of a object * @param obj pointer to an object * @param y new distance from the top of the parent */ void lv_obj_set_y(lv_obj_t * obj, lv_coord_t y); /** * Set the size of an object * @param obj pointer to an object * @param w new width * @param h new height */ void lv_obj_set_size(lv_obj_t * obj, lv_coord_t w, lv_coord_t h); /** * Set the width of an object * @param obj pointer to an object * @param w new width */ void lv_obj_set_width(lv_obj_t * obj, lv_coord_t w); /** * Set the height of an object * @param obj pointer to an object * @param h new height */ void lv_obj_set_height(lv_obj_t * obj, lv_coord_t h); /** * Align an object to an other object. * @param obj pointer to an object to align * @param base pointer to an object (if NULL the parent is used). 'obj' will be aligned to it. * @param align type of alignment (see 'lv_align_t' enum) * @param x_mod x coordinate shift after alignment * @param y_mod y coordinate shift after alignment */ void lv_obj_align(lv_obj_t * obj,const lv_obj_t * base, lv_align_t align, lv_coord_t x_mod, lv_coord_t y_mod); /** * Align an object to an other object. * @param obj pointer to an object to align * @param base pointer to an object (if NULL the parent is used). 'obj' will be aligned to it. * @param align type of alignment (see 'lv_align_t' enum) * @param x_mod x coordinate shift after alignment * @param y_mod y coordinate shift after alignment */ void lv_obj_align_origo(lv_obj_t * obj, const lv_obj_t * base, lv_align_t align, lv_coord_t x_mod, lv_coord_t y_mod); /** * Realign the object based on the last `lv_obj_align` parameters. * @param obj pointer to an object */ void lv_obj_realign(lv_obj_t * obj); /** * Enable the automatic realign of the object when its size has changed based on the last `lv_obj_align` parameters. * @param obj pointer to an object * @param en true: enable auto realign; false: disable auto realign */ void lv_obj_set_auto_realign(lv_obj_t * obj, bool en); /*--------------------- * Appearance set *--------------------*/ /** * Set a new style for an object * @param obj pointer to an object * @param style_p pointer to the new style */ void lv_obj_set_style(lv_obj_t * obj, lv_style_t * style); /** * Notify an object about its style is modified * @param obj pointer to an object */ void lv_obj_refresh_style(lv_obj_t * obj); /** * Notify all object if a style is modified * @param style pointer to a style. Only the objects with this style will be notified * (NULL to notify all objects) */ void lv_obj_report_style_mod(lv_style_t * style); /*----------------- * Attribute set *----------------*/ /** * Hide an object. It won't be visible and clickable. * @param obj pointer to an object * @param en true: hide the object */ void lv_obj_set_hidden(lv_obj_t * obj, bool en); /** * Enable or disable the clicking of an object * @param obj pointer to an object * @param en true: make the object clickable */ void lv_obj_set_click(lv_obj_t * obj, bool en); /** * Enable to bring this object to the foreground if it * or any of its children is clicked * @param obj pointer to an object * @param en true: enable the auto top feature */ void lv_obj_set_top(lv_obj_t * obj, bool en); /** * Enable the dragging of an object * @param obj pointer to an object * @param en true: make the object dragable */ void lv_obj_set_drag(lv_obj_t * obj, bool en); /** * Enable the throwing of an object after is is dragged * @param obj pointer to an object * @param en true: enable the drag throw */ void lv_obj_set_drag_throw(lv_obj_t * obj, bool en); /** * Enable to use parent for drag related operations. * If trying to drag the object the parent will be moved instead * @param obj pointer to an object * @param en true: enable the 'drag parent' for the object */ void lv_obj_set_drag_parent(lv_obj_t * obj, bool en); /** * Set editable parameter Used by groups and keyboard/encoder control. * Editable object has something inside to choose (the elements of a list) * @param obj pointer to an object * @param en true: enable editing */ //void lv_obj_set_editable(lv_obj_t * obj, bool en); /** * Set the opa scale enable parameter (required to set opa_scale with `lv_obj_set_opa_scale()`) * @param obj pointer to an object * @param en true: opa scaling is enabled for this object and all children; false: no opa scaling */ void lv_obj_set_opa_scale_enable(lv_obj_t * obj, bool en); /** * Set the opa scale of an object * @param obj pointer to an object * @param opa_scale a factor to scale down opacity [0..255] */ void lv_obj_set_opa_scale(lv_obj_t * obj, lv_opa_t opa_scale); /** * Set a bit or bits in the protect filed * @param obj pointer to an object * @param prot 'OR'-ed values from `lv_protect_t` */ void lv_obj_set_protect(lv_obj_t * obj, uint8_t prot); /** * Clear a bit or bits in the protect filed * @param obj pointer to an object * @param prot 'OR'-ed values from `lv_protect_t` */ void lv_obj_clear_protect(lv_obj_t * obj, uint8_t prot); /** * Set the signal function of an object. * Always call the previous signal function in the new. * @param obj pointer to an object * @param fp the new signal function */ void lv_obj_set_signal_func(lv_obj_t * obj, lv_signal_func_t fp); /** * Set a new design function for an object * @param obj pointer to an object * @param fp the new design function */ void lv_obj_set_design_func(lv_obj_t * obj, lv_design_func_t fp); /*---------------- * Other set *--------------*/ /** * Allocate a new ext. data for an object * @param obj pointer to an object * @param ext_size the size of the new ext. data * @return pointer to the allocated ext */ void * lv_obj_allocate_ext_attr(lv_obj_t * obj, uint16_t ext_size); /** * Send a 'LV_SIGNAL_REFR_EXT_SIZE' signal to the object * @param obj pointer to an object */ void lv_obj_refresh_ext_size(lv_obj_t * obj); #ifdef LV_OBJ_FREE_NUM_TYPE /** * Set an application specific number for an object. * It can help to identify objects in the application. * @param obj pointer to an object * @param free_num the new free number */ void lv_obj_set_free_num(lv_obj_t * obj, LV_OBJ_FREE_NUM_TYPE free_num); #endif #if LV_OBJ_FREE_PTR != 0 /** * Set an application specific pointer for an object. * It can help to identify objects in the application. * @param obj pointer to an object * @param free_p the new free pinter */ void lv_obj_set_free_ptr(lv_obj_t * obj, void * free_p); #endif #if USE_LV_ANIMATION /** * Animate an object * @param obj pointer to an object to animate * @param type type of animation from 'lv_anim_builtin_t'. 'OR' it with ANIM_IN or ANIM_OUT * @param time time of animation in milliseconds * @param delay delay before the animation in milliseconds * @param cb a function to call when the animation is ready */ void lv_obj_animate(lv_obj_t * obj, lv_anim_builtin_t type, uint16_t time, uint16_t delay, void (*cb) (lv_obj_t *)); #endif /*======================= * Getter functions *======================*/ /*------------------ * Screen get *-----------------*/ /** * Return with a pointer to the active screen * @return pointer to the active screen object (loaded by 'lv_scr_load()') */ lv_obj_t * lv_scr_act(void); /** * Return with the top layer. (Same on every screen and it is above the normal screen layer) * @return pointer to the top layer object (transparent screen sized lv_obj) */ lv_obj_t * lv_layer_top(void); /** * Return with the system layer. (Same on every screen and it is above the all other layers) * It is used for example by the cursor * @return pointer to the system layer object (transparent screen sized lv_obj) */ lv_obj_t * lv_layer_sys(void); /** * Return with the screen of an object * @param obj pointer to an object * @return pointer to a screen */ lv_obj_t * lv_obj_get_screen(const lv_obj_t * obj); /*--------------------- * Parent/children get *--------------------*/ /** * Returns with the parent of an object * @param obj pointer to an object * @return pointer to the parent of 'obj' */ lv_obj_t * lv_obj_get_parent(const lv_obj_t * obj); /** * Iterate through the children of an object (start from the "youngest, lastly created") * @param obj pointer to an object * @param child NULL at first call to get the next children * and the previous return value later * @return the child after 'act_child' or NULL if no more child */ lv_obj_t * lv_obj_get_child(const lv_obj_t * obj, const lv_obj_t * child); /** * Iterate through the children of an object (start from the "oldest", firstly created) * @param obj pointer to an object * @param child NULL at first call to get the next children * and the previous return value later * @return the child after 'act_child' or NULL if no more child */ lv_obj_t * lv_obj_get_child_back(const lv_obj_t * obj, const lv_obj_t * child); /** * Count the children of an object (only children directly on 'obj') * @param obj pointer to an object * @return children number of 'obj' */ uint16_t lv_obj_count_children(const lv_obj_t * obj); /*--------------------- * Coordinate get *--------------------*/ /** * Copy the coordinates of an object to an area * @param obj pointer to an object * @param cords_p pointer to an area to store the coordinates */ void lv_obj_get_coords(const lv_obj_t * obj, lv_area_t * cords_p); /** * Get the x coordinate of object * @param obj pointer to an object * @return distance of 'obj' from the left side of its parent */ lv_coord_t lv_obj_get_x(const lv_obj_t * obj); /** * Get the y coordinate of object * @param obj pointer to an object * @return distance of 'obj' from the top of its parent */ lv_coord_t lv_obj_get_y(const lv_obj_t * obj); /** * Get the width of an object * @param obj pointer to an object * @return the width */ lv_coord_t lv_obj_get_width(const lv_obj_t * obj); /** * Get the height of an object * @param obj pointer to an object * @return the height */ lv_coord_t lv_obj_get_height(const lv_obj_t * obj); /** * Get the extended size attribute of an object * @param obj pointer to an object * @return the extended size attribute */ lv_coord_t lv_obj_get_ext_size(const lv_obj_t * obj); /** * Get the automatic realign property of the object. * @param obj pointer to an object * @return true: auto realign is enabled; false: auto realign is disabled */ bool lv_obj_get_auto_realign(lv_obj_t * obj); /*----------------- * Appearance get *---------------*/ /** * Get the style pointer of an object (if NULL get style of the parent) * @param obj pointer to an object * @return pointer to a style */ lv_style_t * lv_obj_get_style(const lv_obj_t * obj); /*----------------- * Attribute get *----------------*/ /** * Get the hidden attribute of an object * @param obj pointer to an object * @return true: the object is hidden */ bool lv_obj_get_hidden(const lv_obj_t * obj); /** * Get the click enable attribute of an object * @param obj pointer to an object * @return true: the object is clickable */ bool lv_obj_get_click(const lv_obj_t * obj); /** * Get the top enable attribute of an object * @param obj pointer to an object * @return true: the auto top feature is enabled */ bool lv_obj_get_top(const lv_obj_t * obj); /** * Get the drag enable attribute of an object * @param obj pointer to an object * @return true: the object is dragable */ bool lv_obj_get_drag(const lv_obj_t * obj); /** * Get the drag throw enable attribute of an object * @param obj pointer to an object * @return true: drag throw is enabled */ bool lv_obj_get_drag_throw(const lv_obj_t * obj); /** * Get the drag parent attribute of an object * @param obj pointer to an object * @return true: drag parent is enabled */ bool lv_obj_get_drag_parent(const lv_obj_t * obj); /** * Get the opa scale enable parameter * @param obj pointer to an object * @return true: opa scaling is enabled for this object and all children; false: no opa scaling */ lv_opa_t lv_obj_get_opa_scale_enable(const lv_obj_t * obj); /** * Get the opa scale parameter of an object * @param obj pointer to an object * @return opa scale [0..255] */ lv_opa_t lv_obj_get_opa_scale(const lv_obj_t * obj); /** * Get the protect field of an object * @param obj pointer to an object * @return protect field ('OR'ed values of `lv_protect_t`) */ uint8_t lv_obj_get_protect(const lv_obj_t * obj); /** * Check at least one bit of a given protect bitfield is set * @param obj pointer to an object * @param prot protect bits to test ('OR'ed values of `lv_protect_t`) * @return false: none of the given bits are set, true: at least one bit is set */ bool lv_obj_is_protected(const lv_obj_t * obj, uint8_t prot); /** * Get the signal function of an object * @param obj pointer to an object * @return the signal function */ lv_signal_func_t lv_obj_get_signal_func(const lv_obj_t * obj); /** * Get the design function of an object * @param obj pointer to an object * @return the design function */ lv_design_func_t lv_obj_get_design_func(const lv_obj_t * obj); /*------------------ * Other get *-----------------*/ /** * Get the ext pointer * @param obj pointer to an object * @return the ext pointer but not the dynamic version * Use it as ext->data1, and NOT da(ext)->data1 */ void * lv_obj_get_ext_attr(const lv_obj_t * obj); /** * Get object's and its ancestors type. Put their name in `type_buf` starting with the current type. * E.g. buf.type[0]="lv_btn", buf.type[1]="lv_cont", buf.type[2]="lv_obj" * @param obj pointer to an object which type should be get * @param buf pointer to an `lv_obj_type_t` buffer to store the types */ void lv_obj_get_type(lv_obj_t * obj, lv_obj_type_t * buf); #ifdef LV_OBJ_FREE_NUM_TYPE /** * Get the free number * @param obj pointer to an object * @return the free number */ LV_OBJ_FREE_NUM_TYPE lv_obj_get_free_num(const lv_obj_t * obj); #endif #if LV_OBJ_FREE_PTR != 0 /** * Get the free pointer * @param obj pointer to an object * @return the free pointer */ void * lv_obj_get_free_ptr(const lv_obj_t * obj); #endif #if USE_LV_GROUP /** * Get the group of the object * @param obj pointer to an object * @return the pointer to group of the object */ void * lv_obj_get_group(const lv_obj_t * obj); /** * Tell whether the object is the focused object of a group or not. * @param obj pointer to an object * @return true: the object is focused, false: the object is not focused or not in a group */ bool lv_obj_is_focused(const lv_obj_t * obj); #endif /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_OBJ_H*/ ================================================ FILE: bdk/libs/lvgl/lv_core/lv_refr.c ================================================ /** * @file lv_refr.c * */ /********************* * INCLUDES *********************/ #include #include "lv_refr.h" #include "lv_vdb.h" #include "../lv_hal/lv_hal_tick.h" #include "../lv_hal/lv_hal_disp.h" #include "../lv_misc/lv_task.h" #include "../lv_misc/lv_mem.h" /********************* * DEFINES *********************/ #ifndef LV_INV_FIFO_SIZE #define LV_INV_FIFO_SIZE 32 /*The average count of objects on a screen */ #endif /********************** * TYPEDEFS **********************/ typedef struct { lv_area_t area; uint8_t joined; } lv_join_t; /********************** * STATIC PROTOTYPES **********************/ static void lv_refr_task(void * param); static void lv_refr_join_area(void); static void lv_refr_areas(void); #if LV_VDB_SIZE == 0 static void lv_refr_area_no_vdb(const lv_area_t * area_p); #else static void lv_refr_area_with_vdb(const lv_area_t * area_p); static void lv_refr_area_part_vdb(const lv_area_t * area_p); #endif static lv_obj_t * lv_refr_get_top_obj(const lv_area_t * area_p, lv_obj_t * obj); static void lv_refr_obj_and_children(lv_obj_t * top_p, const lv_area_t * mask_p); static void lv_refr_obj(lv_obj_t * obj, const lv_area_t * mask_ori_p); /********************** * STATIC VARIABLES **********************/ static lv_join_t inv_buf[LV_INV_FIFO_SIZE]; static uint16_t inv_buf_p; static void (*monitor_cb)(uint32_t, uint32_t); /*Monitor the rendering time*/ static void (*round_cb)(lv_area_t *); /*If set then called to modify invalidated areas for special display controllers*/ static uint32_t px_num; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize the screen refresh subsystem */ void lv_refr_init(void) { inv_buf_p = 0; memset(inv_buf, 0, sizeof(inv_buf)); lv_task_t * task; task = lv_task_create(lv_refr_task, LV_REFR_PERIOD, LV_TASK_PRIO_MID, NULL); lv_task_ready(task); /*Be sure the screen will be refreshed immediately on start up*/ } /** * Redraw the invalidated areas now. * Normally the redrawing is periodically executed in `lv_task_handler` but a long blocking process can * prevent the call of `lv_task_handler`. In this case if the the GUI is updated in the process (e.g. progress bar) * this function can be called when the screen should be updated. */ void lv_refr_now(void) { lv_refr_task(NULL); } /** * Invalidate an area * @param area_p pointer to area which should be invalidated */ void lv_inv_area(const lv_area_t * area_p) { /*Clear the invalidate buffer if the parameter is NULL*/ if(area_p == NULL) { inv_buf_p = 0; return; } lv_area_t scr_area; scr_area.x1 = 0; scr_area.y1 = 0; scr_area.x2 = LV_HOR_RES - 1; scr_area.y2 = LV_VER_RES - 1; lv_area_t com_area; bool suc; suc = lv_area_intersect(&com_area, area_p, &scr_area); /*The area is truncated to the screen*/ if(suc != false) { if(round_cb) round_cb(&com_area); /*Save only if this area is not in one of the saved areas*/ uint16_t i; for(i = 0; i < inv_buf_p; i++) { if(lv_area_is_in(&com_area, &inv_buf[i].area) != false) return; } /*Save the area*/ if(inv_buf_p < LV_INV_FIFO_SIZE) { lv_area_copy(&inv_buf[inv_buf_p].area, &com_area); } else {/*If no place for the area add the screen*/ inv_buf_p = 0; lv_area_copy(&inv_buf[inv_buf_p].area, &scr_area); } inv_buf_p ++; } } /** * Set a function to call after every refresh to announce the refresh time and the number of refreshed pixels * @param cb pointer to a callback function (void my_refr_cb(uint32_t time_ms, uint32_t px_num)) * time_ms: refresh time in [ms] * px_num: not the drawn pixels but the number of affected pixels of the screen * (more pixels are drawn because of overlapping objects) */ void lv_refr_set_monitor_cb(void (*cb)(uint32_t, uint32_t)) { monitor_cb = cb; } /** * Called when an area is invalidated to modify the coordinates of the area. * Special display controllers may require special coordinate rounding * @param cb pointer to the a function which will modify the area */ void lv_refr_set_round_cb(void(*cb)(lv_area_t *)) { round_cb = cb; } /** * Get the number of areas in the buffer * @return number of invalid areas */ uint16_t lv_refr_get_buf_size(void) { return inv_buf_p; } /** * Pop (delete) the last 'num' invalidated areas from the buffer * @param num number of areas to delete */ void lv_refr_pop_from_buf(uint16_t num) { if(inv_buf_p < num) inv_buf_p = 0; else inv_buf_p -= num; } /********************** * STATIC FUNCTIONS **********************/ /** * Called periodically to handle the refreshing * @param param unused */ static void lv_refr_task(void * param) { (void)param; LV_LOG_TRACE("display refresh task started"); uint32_t start = lv_tick_get(); if(lv_disp_get_active() == NULL) { LV_LOG_TRACE("No display is registered"); return; } lv_refr_join_area(); lv_refr_areas(); /*If refresh happened ...*/ if(inv_buf_p != 0) { /*In true double buffered mode copy the refreshed areas to the new VDB to keep it up to date*/ #if LV_VDB_TRUE_DOUBLE_BUFFERED lv_vdb_t * vdb_p = lv_vdb_get(); vdb_p->area.x1 = 0; vdb_p->area.x2 = LV_HOR_RES-1; vdb_p->area.y1 = 0; vdb_p->area.y2 = LV_VER_RES - 1; /*Flush the content of the VDB*/ lv_vdb_flush(); /* With true double buffering the flushing should be only the address change of the current frame buffer * Wait until the address change is ready and copy the active content to the other frame buffer (new active VDB) * The changes will be written to the new VDB.*/ lv_vdb_t * vdb_act = lv_vdb_get_active(); lv_vdb_t * vdb_ina = lv_vdb_get_inactive(); uint8_t * buf_act = (uint8_t *) vdb_act->buf; uint8_t * buf_ina = (uint8_t *) vdb_ina->buf; uint16_t a; for(a = 0; a < inv_buf_p; a++) { if(inv_buf[a].joined == 0) { lv_coord_t y; uint32_t start_offs = ((LV_HOR_RES * inv_buf[a].area.y1 + inv_buf[a].area.x1) * LV_VDB_PX_BPP) >> 3; uint32_t line_length = (lv_area_get_width(&inv_buf[a].area) * LV_VDB_PX_BPP) >> 3; for(y = inv_buf[a].area.y1; y <= inv_buf[a].area.y2; y++) { memcpy(buf_act + start_offs, buf_ina + start_offs, line_length); start_offs += (LV_HOR_RES * LV_VDB_PX_BPP) >> 3; } } } #endif /*Clean up*/ memset(inv_buf, 0, sizeof(inv_buf)); inv_buf_p = 0; /*Call monitor cb if present*/ if(monitor_cb != NULL) { monitor_cb(lv_tick_elaps(start), px_num); } } LV_LOG_TRACE("display refresh task finished"); } /** * Join the areas which has got common parts */ static void lv_refr_join_area(void) { uint32_t join_from; uint32_t join_in; lv_area_t joined_area; for(join_in = 0; join_in < inv_buf_p; join_in++) { if(inv_buf[join_in].joined != 0) continue; /*Check all areas to join them in 'join_in'*/ for(join_from = 0; join_from < inv_buf_p; join_from++) { /*Handle only unjoined areas and ignore itself*/ if(inv_buf[join_from].joined != 0 || join_in == join_from) { continue; } /*Check if the areas are on each other*/ if(lv_area_is_on(&inv_buf[join_in].area, &inv_buf[join_from].area) == false) { continue; } lv_area_join(&joined_area, &inv_buf[join_in].area, &inv_buf[join_from].area); /*Join two area only if the joined area size is smaller*/ if(lv_area_get_size(&joined_area) < (lv_area_get_size(&inv_buf[join_in].area) + lv_area_get_size(&inv_buf[join_from].area))) { lv_area_copy(&inv_buf[join_in].area, &joined_area); /*Mark 'join_form' is joined into 'join_in'*/ inv_buf[join_from].joined = 1; } } } } /** * Refresh the joined areas */ static void lv_refr_areas(void) { px_num = 0; uint32_t i; for(i = 0; i < inv_buf_p; i++) { /*Refresh the unjoined areas*/ if(inv_buf[i].joined == 0) { /*If there is no VDB do simple drawing*/ #if LV_VDB_SIZE == 0 lv_refr_area_no_vdb(&inv_buf[i].area); #else /*If VDB is used...*/ lv_refr_area_with_vdb(&inv_buf[i].area); #endif if(monitor_cb != NULL) px_num += lv_area_get_size(&inv_buf[i].area); } } } #if LV_VDB_SIZE == 0 /** * Refresh an area if there is no Virtual Display Buffer * @param area_p pointer to an area to refresh */ static void lv_refr_area_no_vdb(const lv_area_t * area_p) { lv_obj_t * top_p; /*Get top object which is not covered by others*/ top_p = lv_refr_get_top_obj(area_p, lv_scr_act()); /*Do the refreshing*/ lv_refr_obj_and_children(top_p, area_p); /*Also refresh top and sys layer unconditionally*/ lv_refr_obj_and_children(lv_layer_top(), area_p); lv_refr_obj_and_children(lv_layer_sys(), area_p); } #else /** * Refresh an area if there is Virtual Display Buffer * @param area_p pointer to an area to refresh */ static void lv_refr_area_with_vdb(const lv_area_t * area_p) { #if LV_VDB_TRUE_DOUBLE_BUFFERED == 0 /*Calculate the max row num*/ lv_coord_t w = lv_area_get_width(area_p); lv_coord_t h = lv_area_get_height(area_p); lv_coord_t y2 = area_p->y2 >= LV_VER_RES ? y2 = LV_VER_RES - 1 : area_p->y2; int32_t max_row = (uint32_t) LV_VDB_SIZE / w; if(max_row > h) max_row = h; /*Round down the lines of VDB if rounding is added*/ if(round_cb) { lv_area_t tmp; tmp.x1 = 0; tmp.x2 = 0; tmp.y1 = 0; lv_coord_t y_tmp = max_row - 1; do { tmp.y2 = y_tmp; round_cb(&tmp); /*If this height fits into `max_row` then fine*/ if(lv_area_get_height(&tmp) <= max_row) break; /*Decrement the height of the area until it fits into `max_row` after rounding*/ y_tmp --; } while(y_tmp != 0); if(y_tmp == 0) { LV_LOG_WARN("Can't set VDB height using the round function. (Wrong round_cb or to small VDB)"); return; } else { max_row = tmp.y2 + 1; } } /*Always use the full row*/ lv_coord_t row; lv_coord_t row_last = 0; for(row = area_p->y1; row + max_row - 1 <= y2; row += max_row) { lv_vdb_t * vdb_p = lv_vdb_get(); if(!vdb_p) { LV_LOG_WARN("Invalid VDB pointer"); return; } /*Calc. the next y coordinates of VDB*/ vdb_p->area.x1 = area_p->x1; vdb_p->area.x2 = area_p->x2; vdb_p->area.y1 = row; vdb_p->area.y2 = row + max_row - 1; if(vdb_p->area.y2 > y2) vdb_p->area.y2 = y2; row_last = vdb_p->area.y2; lv_refr_area_part_vdb(area_p); } /*If the last y coordinates are not handled yet ...*/ if(y2 != row_last) { lv_vdb_t * vdb_p = lv_vdb_get(); if(!vdb_p) { LV_LOG_WARN("Invalid VDB pointer"); return; } /*Calc. the next y coordinates of VDB*/ vdb_p->area.x1 = area_p->x1; vdb_p->area.x2 = area_p->x2; vdb_p->area.y1 = row; vdb_p->area.y2 = y2; /*Refresh this part too*/ lv_refr_area_part_vdb(area_p); } #else lv_vdb_t * vdb_p = lv_vdb_get(); vdb_p->area.x1 = 0; vdb_p->area.x2 = LV_HOR_RES-1; vdb_p->area.y1 = 0; vdb_p->area.y2 = LV_VER_RES - 1; lv_refr_area_part_vdb(area_p); #endif } /** * Refresh a part of an area which is on the actual Virtual Display Buffer * @param area_p pointer to an area to refresh */ static void lv_refr_area_part_vdb(const lv_area_t * area_p) { lv_vdb_t * vdb_p = lv_vdb_get(); if(!vdb_p) { LV_LOG_WARN("Invalid VDB pointer"); return; } lv_obj_t * top_p; /*Get the new mask from the original area and the act. VDB It will be a part of 'area_p'*/ lv_area_t start_mask; lv_area_intersect(&start_mask, area_p, &vdb_p->area); /*Get the most top object which is not covered by others*/ top_p = lv_refr_get_top_obj(&start_mask, lv_scr_act()); /*Do the refreshing from the top object*/ lv_refr_obj_and_children(top_p, &start_mask); /*Also refresh top and sys layer unconditionally*/ lv_refr_obj_and_children(lv_layer_top(), &start_mask); lv_refr_obj_and_children(lv_layer_sys(), &start_mask); /* In true double buffered mode flush only once when all areas were rendered. * In normal mode flush after every area */ #if LV_VDB_TRUE_DOUBLE_BUFFERED == 0 /*Flush the content of the VDB*/ lv_vdb_flush(); #endif } #endif /*LV_VDB_SIZE == 0*/ /** * Search the most top object which fully covers an area * @param area_p pointer to an area * @param obj the first object to start the searching (typically a screen) * @return */ static lv_obj_t * lv_refr_get_top_obj(const lv_area_t * area_p, lv_obj_t * obj) { lv_obj_t * i; lv_obj_t * found_p = NULL; /*If this object is fully cover the draw area check the children too */ if(lv_area_is_in(area_p, &obj->coords) && obj->hidden == 0) { LL_READ(obj->child_ll, i) { found_p = lv_refr_get_top_obj(area_p, i); /*If a children is ok then break*/ if(found_p != NULL) { break; } } /*If no better children check this object*/ if(found_p == NULL) { lv_style_t * style = lv_obj_get_style(obj); if(style->body.opa == LV_OPA_COVER && obj->design_func(obj, area_p, LV_DESIGN_COVER_CHK) != false && lv_obj_get_opa_scale(obj) == LV_OPA_COVER) { found_p = obj; } } } return found_p; } /** * Make the refreshing from an object. Draw all its children and the youngers too. * @param top_p pointer to an objects. Start the drawing from it. * @param mask_p pointer to an area, the objects will be drawn only here */ static void lv_refr_obj_and_children(lv_obj_t * top_p, const lv_area_t * mask_p) { /* Normally always will be a top_obj (at least the screen) * but in special cases (e.g. if the screen has alpha) it won't. * In this case use the screen directly */ if(top_p == NULL) top_p = lv_scr_act(); /*Refresh the top object and its children*/ lv_refr_obj(top_p, mask_p); /*Draw the 'younger' sibling objects because they can be on top_obj */ lv_obj_t * par; lv_obj_t * i; lv_obj_t * border_p = top_p; par = lv_obj_get_parent(top_p); /*Do until not reach the screen*/ while(par != NULL) { /*object before border_p has to be redrawn*/ i = lv_ll_get_prev(&(par->child_ll), border_p); while(i != NULL) { /*Refresh the objects*/ lv_refr_obj(i, mask_p); i = lv_ll_get_prev(&(par->child_ll), i); } /*The new border will be there last parents, *so the 'younger' brothers of parent will be refreshed*/ border_p = par; /*Go a level deeper*/ par = lv_obj_get_parent(par); } /*Call the post draw design function of the parents of the to object*/ par = lv_obj_get_parent(top_p); while(par != NULL) { par->design_func(par, mask_p, LV_DESIGN_DRAW_POST); par = lv_obj_get_parent(par); } } /** * Refresh an object an all of its children. (Called recursively) * @param obj pointer to an object to refresh * @param mask_ori_p pointer to an area, the objects will be drawn only here */ static void lv_refr_obj(lv_obj_t * obj, const lv_area_t * mask_ori_p) { /*Do not refresh hidden objects*/ if(obj->hidden != 0) return; bool union_ok; /* Store the return value of area_union */ /* Truncate the original mask to the coordinates of the parent * because the parent and its children are visible only here */ lv_area_t obj_mask; lv_area_t obj_ext_mask; lv_area_t obj_area; lv_coord_t ext_size = obj->ext_size; lv_obj_get_coords(obj, &obj_area); obj_area.x1 -= ext_size; obj_area.y1 -= ext_size; obj_area.x2 += ext_size; obj_area.y2 += ext_size; union_ok = lv_area_intersect(&obj_ext_mask, mask_ori_p, &obj_area); /*Draw the parent and its children only if they ore on 'mask_parent'*/ if(union_ok != false) { /* Redraw the object */ obj->design_func(obj, &obj_ext_mask, LV_DESIGN_DRAW_MAIN); //usleep(5 * 1000); /*DEBUG: Wait after every object draw to see the order of drawing*/ /*Create a new 'obj_mask' without 'ext_size' because the children can't be visible there*/ lv_obj_get_coords(obj, &obj_area); union_ok = lv_area_intersect(&obj_mask, mask_ori_p, &obj_area); if(union_ok != false) { lv_area_t mask_child; /*Mask from obj and its child*/ lv_obj_t * child_p; lv_area_t child_area; LL_READ_BACK(obj->child_ll, child_p) { lv_obj_get_coords(child_p, &child_area); ext_size = child_p->ext_size; child_area.x1 -= ext_size; child_area.y1 -= ext_size; child_area.x2 += ext_size; child_area.y2 += ext_size; /* Get the union (common parts) of original mask (from obj) * and its child */ union_ok = lv_area_intersect(&mask_child, &obj_mask, &child_area); /*If the parent and the child has common area then refresh the child */ if(union_ok) { /*Refresh the next children*/ lv_refr_obj(child_p, &mask_child); } } } /* If all the children are redrawn make 'post draw' design */ obj->design_func(obj, &obj_ext_mask, LV_DESIGN_DRAW_POST); } } ================================================ FILE: bdk/libs/lvgl/lv_core/lv_refr.h ================================================ /** * @file lv_refr.h * */ #ifndef LV_REFR_H #define LV_REFR_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "lv_obj.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize the screen refresh subsystem */ void lv_refr_init(void); /** * Redraw the invalidated areas now. * Normally the redrawing is periodically executed in `lv_task_handler` but a long blocking process can * prevent the call of `lv_task_handler`. In this case if the the GUI is updated in the process (e.g. progress bar) * this function can be called when the screen should be updated. */ void lv_refr_now(void); /** * Invalidate an area * @param area_p pointer to area which should be invalidated */ void lv_inv_area(const lv_area_t * area_p); /** * Set a function to call after every refresh to announce the refresh time and the number of refreshed pixels * @param cb pointer to a callback function (void my_refr_cb(uint32_t time_ms, uint32_t px_num)) */ void lv_refr_set_monitor_cb(void (*cb)(uint32_t, uint32_t)); /** * Called when an area is invalidated to modify the coordinates of the area. * Special display controllers may require special coordinate rounding * @param cb pointer to the a function which will modify the area */ void lv_refr_set_round_cb(void(*cb)(lv_area_t*)); /** * Get the number of areas in the buffer * @return number of invalid areas */ uint16_t lv_refr_get_buf_size(void); /** * Pop (delete) the last 'num' invalidated areas from the buffer * @param num number of areas to delete */ void lv_refr_pop_from_buf(uint16_t num); /********************** * STATIC FUNCTIONS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_REFR_H*/ ================================================ FILE: bdk/libs/lvgl/lv_core/lv_style.c ================================================ /* * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /********************* * INCLUDES *********************/ #include "lv_obj.h" #include "../lv_misc/lv_mem.h" /********************* * DEFINES *********************/ #define STYLE_MIX_MAX 256 #define STYLE_MIX_SHIFT 8 /*log2(STYLE_MIX_MAX)*/ #define VAL_PROP(v1, v2, r) v1 + (((v2-v1) * r) >> STYLE_MIX_SHIFT) #define STYLE_ATTR_MIX(attr, r) if(start->attr != end->attr) {res->attr = VAL_PROP(start->attr, end->attr, r);} else {res->attr = start->attr;} /********************** * TYPEDEFS **********************/ #if USE_LV_ANIMATION typedef struct { lv_style_t style_start; /*Save not only pointers because can be same as 'style_anim' then it will be modified too*/ lv_style_t style_end; lv_style_t * style_anim; void (*end_cb)(void *); } lv_style_anim_dsc_t; #endif /********************** * STATIC PROTOTYPES **********************/ #if USE_LV_ANIMATION static void style_animator(lv_style_anim_dsc_t * dsc, int32_t val); static void style_animation_common_end_cb(void * ptr); #endif /********************** * STATIC VARIABLES **********************/ lv_style_t lv_style_scr; lv_style_t lv_style_transp; lv_style_t lv_style_transp_fit; lv_style_t lv_style_transp_tight; lv_style_t lv_style_plain; lv_style_t lv_style_plain_color; lv_style_t lv_style_pretty; lv_style_t lv_style_pretty_color; lv_style_t lv_style_btn_rel; lv_style_t lv_style_btn_pr; lv_style_t lv_style_btn_tgl_rel; lv_style_t lv_style_btn_tgl_pr; lv_style_t lv_style_btn_ina; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Init the basic styles */ void lv_style_init(void) { /* Not White/Black/Gray colors are created by HSV model with * HUE = 210*/ /*Screen style*/ lv_style_scr.glass = 0; lv_style_scr.body.opa = LV_OPA_COVER; lv_style_scr.body.main_color = LV_COLOR_BLACK; lv_style_scr.body.grad_color = LV_COLOR_BLACK; lv_style_scr.body.radius = 0; lv_style_scr.body.padding.ver = LV_DPI / 12; lv_style_scr.body.padding.hor = LV_DPI / 12; lv_style_scr.body.padding.inner = LV_DPI / 12; lv_style_scr.body.border.color = LV_COLOR_WHITE; lv_style_scr.body.border.opa = LV_OPA_COVER; lv_style_scr.body.border.width = 0; lv_style_scr.body.border.part = LV_BORDER_FULL; lv_style_scr.body.shadow.color = LV_COLOR_GRAY; lv_style_scr.body.shadow.type = LV_SHADOW_FULL; lv_style_scr.body.shadow.width = 0; lv_style_scr.text.opa = LV_OPA_COVER; lv_style_scr.text.color = LV_COLOR_HEX(0xFBFBFB); lv_style_scr.text.font = LV_FONT_DEFAULT; lv_style_scr.text.letter_space = 3; // Important lv_style_scr.text.line_space = 2; lv_style_scr.image.opa = LV_OPA_COVER; lv_style_scr.image.color = LV_COLOR_MAKE(0x20, 0x20, 0x20); lv_style_scr.image.intense = LV_OPA_TRANSP; lv_style_scr.line.opa = LV_OPA_COVER; lv_style_scr.line.color = LV_COLOR_MAKE(0x20, 0x20, 0x20); lv_style_scr.line.width = 2; lv_style_scr.line.rounded = 0; /*Plain style (by default near the same as the screen style)*/ memcpy(&lv_style_plain, &lv_style_scr, sizeof(lv_style_t)); /*Plain color style*/ memcpy(&lv_style_plain_color, &lv_style_plain, sizeof(lv_style_t)); lv_style_plain_color.text.color = LV_COLOR_MAKE(0xf0, 0xf0, 0xf0); lv_style_plain_color.image.color = LV_COLOR_MAKE(0xf0, 0xf0, 0xf0); lv_style_plain_color.line.color = LV_COLOR_MAKE(0xf0, 0xf0, 0xf0); lv_style_plain_color.body.main_color = LV_COLOR_MAKE(0x55, 0x96, 0xd8); lv_style_plain_color.body.grad_color = lv_style_plain_color.body.main_color; /*Pretty style */ memcpy(&lv_style_pretty, &lv_style_plain, sizeof(lv_style_t)); lv_style_pretty.text.color = LV_COLOR_MAKE(0x20, 0x20, 0x20); lv_style_pretty.image.color = LV_COLOR_MAKE(0x20, 0x20, 0x20); lv_style_pretty.line.color = LV_COLOR_MAKE(0x20, 0x20, 0x20); lv_style_pretty.body.main_color = LV_COLOR_WHITE; lv_style_pretty.body.grad_color = LV_COLOR_SILVER; lv_style_pretty.body.radius = LV_DPI / 15; lv_style_pretty.body.border.color = LV_COLOR_MAKE(0x40, 0x40, 0x40); lv_style_pretty.body.border.width = LV_DPI / 50 >= 1 ? LV_DPI / 50 : 1; lv_style_pretty.body.border.opa = LV_OPA_30; /*Pretty color style*/ memcpy(&lv_style_pretty_color, &lv_style_pretty, sizeof(lv_style_t)); lv_style_pretty_color.text.color = LV_COLOR_MAKE(0xe0, 0xe0, 0xe0); lv_style_pretty_color.image.color = LV_COLOR_MAKE(0xe0, 0xe0, 0xe0); lv_style_pretty_color.line.color = LV_COLOR_MAKE(0xc0, 0xc0, 0xc0); lv_style_pretty_color.body.main_color = LV_COLOR_MAKE(0x6b, 0x9a, 0xc7); lv_style_pretty_color.body.grad_color = LV_COLOR_MAKE(0x2b, 0x59, 0x8b); lv_style_pretty_color.body.border.color = LV_COLOR_MAKE(0x15, 0x2c, 0x42); /*Transparent style*/ memcpy(&lv_style_transp, &lv_style_plain, sizeof(lv_style_t)); lv_style_transp.body.empty = 1; lv_style_transp.glass = 1; lv_style_transp.body.border.width = 0; /*Transparent fitting size*/ memcpy(&lv_style_transp_fit, &lv_style_transp, sizeof(lv_style_t)); lv_style_transp_fit.body.padding.hor = 0; lv_style_transp_fit.body.padding.ver = 0; /*Transparent tight style*/ memcpy(&lv_style_transp_tight, &lv_style_transp_fit, sizeof(lv_style_t)); lv_style_transp_tight.body.padding.inner = 0; /*Button released style*/ memcpy(&lv_style_btn_rel, &lv_style_plain, sizeof(lv_style_t)); lv_style_btn_rel.body.main_color = LV_COLOR_MAKE(0x76, 0xa2, 0xd0); lv_style_btn_rel.body.grad_color = LV_COLOR_MAKE(0x19, 0x3a, 0x5d); lv_style_btn_rel.body.radius = LV_DPI / 15; lv_style_btn_rel.body.padding.hor = LV_DPI / 4; lv_style_btn_rel.body.padding.ver = LV_DPI / 6; lv_style_btn_rel.body.padding.inner = LV_DPI / 10; lv_style_btn_rel.body.border.color = LV_COLOR_MAKE(0x0b, 0x19, 0x28); lv_style_btn_rel.body.border.width = LV_DPI / 50 >= 1 ? LV_DPI / 50 : 1; lv_style_btn_rel.body.border.opa = LV_OPA_70; lv_style_btn_rel.body.shadow.color = LV_COLOR_GRAY; lv_style_btn_rel.body.shadow.width = 0; lv_style_btn_rel.text.color = LV_COLOR_MAKE(0xff, 0xff, 0xff); lv_style_btn_rel.image.color = LV_COLOR_MAKE(0xff, 0xff, 0xff); /*Button pressed style*/ memcpy(&lv_style_btn_pr, &lv_style_btn_rel, sizeof(lv_style_t)); lv_style_btn_pr.body.main_color = LV_COLOR_MAKE(0x33, 0x62, 0x94); lv_style_btn_pr.body.grad_color = LV_COLOR_MAKE(0x10, 0x26, 0x3c); lv_style_btn_pr.text.color = LV_COLOR_MAKE(0xa4, 0xb5, 0xc6); lv_style_btn_pr.image.color = LV_COLOR_MAKE(0xa4, 0xb5, 0xc6); lv_style_btn_pr.line.color = LV_COLOR_MAKE(0xa4, 0xb5, 0xc6); /*Button toggle released style*/ memcpy(&lv_style_btn_tgl_rel, &lv_style_btn_rel, sizeof(lv_style_t)); lv_style_btn_tgl_rel.body.main_color = LV_COLOR_MAKE(0x0a, 0x11, 0x22); lv_style_btn_tgl_rel.body.grad_color = LV_COLOR_MAKE(0x37, 0x62, 0x90); lv_style_btn_tgl_rel.body.border.color = LV_COLOR_MAKE(0x01, 0x07, 0x0d); lv_style_btn_tgl_rel.text.color = LV_COLOR_MAKE(0xc8, 0xdd, 0xf4); lv_style_btn_tgl_rel.image.color = LV_COLOR_MAKE(0xc8, 0xdd, 0xf4); lv_style_btn_tgl_rel.line.color = LV_COLOR_MAKE(0xc8, 0xdd, 0xf4); /*Button toggle pressed style*/ memcpy(&lv_style_btn_tgl_pr, &lv_style_btn_tgl_rel, sizeof(lv_style_t)); lv_style_btn_tgl_pr.body.main_color = LV_COLOR_MAKE(0x02, 0x14, 0x27); lv_style_btn_tgl_pr.body.grad_color = LV_COLOR_MAKE(0x2b, 0x4c, 0x70); lv_style_btn_tgl_pr.text.color = LV_COLOR_MAKE(0xa4, 0xb5, 0xc6); lv_style_btn_tgl_pr.image.color = LV_COLOR_MAKE(0xa4, 0xb5, 0xc6); lv_style_btn_tgl_pr.line.color = LV_COLOR_MAKE(0xa4, 0xb5, 0xc6); /*Button inactive style*/ memcpy(&lv_style_btn_ina, &lv_style_btn_rel, sizeof(lv_style_t)); lv_style_btn_ina.body.main_color = LV_COLOR_MAKE(0xd8, 0xd8, 0xd8); lv_style_btn_ina.body.grad_color = LV_COLOR_MAKE(0xd8, 0xd8, 0xd8); lv_style_btn_ina.body.border.color = LV_COLOR_MAKE(0x90, 0x90, 0x90); lv_style_btn_ina.text.color = LV_COLOR_MAKE(0x70, 0x70, 0x70); lv_style_btn_ina.image.color = LV_COLOR_MAKE(0x70, 0x70, 0x70); lv_style_btn_ina.line.color = LV_COLOR_MAKE(0x70, 0x70, 0x70); } /** * Copy a style to an other * @param dest pointer to the destination style * @param src pointer to the source style */ void lv_style_copy(lv_style_t * dest, const lv_style_t * src) { memcpy(dest, src, sizeof(lv_style_t)); } /** * Mix two styles according to a given ratio * @param start start style * @param end end style * @param res store the result style here * @param ratio the ratio of mix [0..256]; 0: `start` style; 256: `end` style */ void lv_style_mix(const lv_style_t * start, const lv_style_t * end, lv_style_t * res, uint16_t ratio) { STYLE_ATTR_MIX(body.opa, ratio); STYLE_ATTR_MIX(body.radius, ratio); STYLE_ATTR_MIX(body.border.width, ratio); STYLE_ATTR_MIX(body.border.opa, ratio); STYLE_ATTR_MIX(body.shadow.width, ratio); STYLE_ATTR_MIX(body.padding.hor, ratio); STYLE_ATTR_MIX(body.padding.ver, ratio); STYLE_ATTR_MIX(body.padding.inner, ratio); STYLE_ATTR_MIX(text.line_space, ratio); STYLE_ATTR_MIX(text.letter_space, ratio); STYLE_ATTR_MIX(text.opa, ratio); STYLE_ATTR_MIX(line.width, ratio); STYLE_ATTR_MIX(line.opa, ratio); STYLE_ATTR_MIX(image.intense, ratio); STYLE_ATTR_MIX(image.opa, ratio); lv_opa_t opa = ratio == STYLE_MIX_MAX ? LV_OPA_COVER : ratio; res->body.main_color = lv_color_mix(end->body.main_color, start->body.main_color, opa); res->body.grad_color = lv_color_mix(end->body.grad_color, start->body.grad_color, opa); res->body.border.color = lv_color_mix(end->body.border.color, start->body.border.color, opa); res->body.shadow.color = lv_color_mix(end->body.shadow.color, start->body.shadow.color, opa); res->text.color = lv_color_mix(end->text.color, start->text.color, opa); res->image.color = lv_color_mix(end->image.color, start->image.color, opa); res->line.color = lv_color_mix(end->line.color, start->line.color, opa); if(ratio < (STYLE_MIX_MAX >> 1)) { res->body.empty = start->body.empty; res->body.border.part = start->body.border.part; res->glass = start->glass; res->text.font = start->text.font; res->body.shadow.type = start->body.shadow.type; res->line.rounded = start->line.rounded; } else { res->body.empty = end->body.empty; res->body.border.part = end->body.border.part; res->glass = end->glass; res->text.font = end->text.font; res->body.shadow.type = end->body.shadow.type; res->line.rounded = end->line.rounded; } } #if USE_LV_ANIMATION /** * Create an animation from a pre-configured 'lv_style_anim_t' variable * @param anim pointer to a pre-configured 'lv_style_anim_t' variable (will be copied) * @return pointer to a descriptor. Really this variable will be animated. (Can be used in `lv_anim_del(dsc, NULL)`) */ void * lv_style_anim_create(lv_style_anim_t * anim) { lv_style_anim_dsc_t * dsc; dsc = lv_mem_alloc(sizeof(lv_style_anim_dsc_t)); lv_mem_assert(dsc); if(dsc == NULL) return NULL; dsc->style_anim = anim->style_anim; memcpy(&dsc->style_start, anim->style_start, sizeof(lv_style_t)); memcpy(&dsc->style_end, anim->style_end, sizeof(lv_style_t)); memcpy(dsc->style_anim, anim->style_start, sizeof(lv_style_t)); dsc->end_cb = anim->end_cb; lv_anim_t a; a.var = (void *)dsc; a.start = 0; a.end = STYLE_MIX_MAX; a.fp = (lv_anim_fp_t)style_animator; a.path = lv_anim_path_linear; a.end_cb = style_animation_common_end_cb; a.act_time = anim->act_time; a.time = anim->time; a.playback = anim->playback; a.playback_pause = anim->playback_pause; a.repeat = anim->repeat; a.repeat_pause = anim->repeat_pause; lv_anim_create(&a); return dsc; } #endif /********************** * STATIC FUNCTIONS **********************/ #if USE_LV_ANIMATION /** * Used by the style animations to set the values of a style according to start and end style. * @param dsc the 'animated variable' set by lv_style_anim_create() * @param val the current state of the animation between 0 and LV_STYLE_ANIM_RES */ static void style_animator(lv_style_anim_dsc_t * dsc, int32_t val) { const lv_style_t * start = &dsc->style_start; const lv_style_t * end = &dsc->style_end; lv_style_t * act = dsc->style_anim; lv_style_mix(start, end, act, val); lv_obj_report_style_mod(dsc->style_anim); } /** * Called when a style animation is ready * It called the user defined call back and free the allocated memories * @param ptr the 'animated variable' set by lv_style_anim_create() */ static void style_animation_common_end_cb(void * ptr) { lv_style_anim_dsc_t * dsc = ptr; /*To avoid casting*/ if(dsc->end_cb) dsc->end_cb(dsc); lv_mem_free(dsc); } #endif ================================================ FILE: bdk/libs/lvgl/lv_core/lv_style.h ================================================ /** * @file lv_style.h * */ #ifndef LV_STYLE_H #define LV_STYLE_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "../lv_misc/lv_color.h" #include "../lv_misc/lv_area.h" #include "../lv_misc/lv_font.h" #include "../lv_misc/lv_anim.h" /********************* * DEFINES *********************/ #define LV_RADIUS_CIRCLE (LV_COORD_MAX) /*A very big radius to always draw as circle*/ /********************** * TYPEDEFS **********************/ /*Border types (Use 'OR'ed values)*/ enum { LV_BORDER_NONE = 0x00, LV_BORDER_BOTTOM = 0x01, LV_BORDER_TOP = 0x02, LV_BORDER_LEFT = 0x04, LV_BORDER_RIGHT = 0x08, LV_BORDER_FULL = 0x0F, LV_BORDER_INTERNAL = 0x10, /*FOR matrix-like objects (e.g. Button matrix)*/ }; typedef uint8_t lv_border_part_t; /*Shadow types*/ enum { LV_SHADOW_BOTTOM = 0, LV_SHADOW_FULL, }; typedef uint8_t lv_shadow_type_t; typedef struct { uint8_t glass :1; /*1: Do not inherit this style*/ struct { lv_color_t main_color; lv_color_t grad_color; /*`grad_color` will be removed in v6.0, use `aux_color` instead*/ lv_coord_t radius; lv_opa_t opa; struct { lv_color_t color; lv_coord_t width; lv_border_part_t part; lv_opa_t opa; } border; struct { lv_color_t color; lv_coord_t width; lv_shadow_type_t type; } shadow; struct { lv_coord_t ver; lv_coord_t hor; lv_coord_t inner; } padding; uint8_t empty :1; /*Transparent background (border still drawn)*/ } body; struct { lv_color_t color; const lv_font_t * font; lv_coord_t letter_space; lv_coord_t line_space; lv_opa_t opa; } text; struct { lv_color_t color; lv_opa_t intense; lv_opa_t opa; } image; struct { lv_color_t color; lv_coord_t width; lv_opa_t opa; uint8_t rounded :1; /*1: rounded line endings*/ } line; } lv_style_t; #if USE_LV_ANIMATION typedef struct { const lv_style_t * style_start; /*Pointer to the starting style*/ const lv_style_t * style_end; /*Pointer to the destination style*/ lv_style_t * style_anim; /*Pointer to a style to animate*/ lv_anim_cb_t end_cb; /*Call it when the animation is ready (NULL if unused)*/ int16_t time; /*Animation time in ms*/ int16_t act_time; /*Current time in animation. Set to negative to make delay.*/ uint16_t playback_pause; /*Wait before play back*/ uint16_t repeat_pause; /*Wait before repeat*/ uint8_t playback :1; /*When the animation is ready play it back*/ uint8_t repeat :1; /*Repeat the animation infinitely*/ } lv_style_anim_t; /* Example initialization lv_style_anim_t a; a.style_anim = &style_to_anim; a.style_start = &style_1; a.style_end = &style_2; a.act_time = 0; a.time = 1000; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; a.end_cb = NULL; lv_style_anim_create(&a); */ #endif /********************** * GLOBAL PROTOTYPES **********************/ /** * Init the basic styles */ void lv_style_init (void); /** * Copy a style to an other * @param dest pointer to the destination style * @param src pointer to the source style */ void lv_style_copy(lv_style_t * dest, const lv_style_t * src); /** * Mix two styles according to a given ratio * @param start start style * @param end end style * @param res store the result style here * @param ratio the ratio of mix [0..256]; 0: `start` style; 256: `end` style */ void lv_style_mix(const lv_style_t * start, const lv_style_t * end, lv_style_t * res, uint16_t ratio); #if USE_LV_ANIMATION /** * Create an animation from a pre-configured 'lv_style_anim_t' variable * @param anim pointer to a pre-configured 'lv_style_anim_t' variable (will be copied) * @return pointer to a descriptor. Really this variable will be animated. (Can be used in `lv_anim_del(dsc, NULL)`) */ void * lv_style_anim_create(lv_style_anim_t * anim); #endif /************************* * GLOBAL VARIABLES *************************/ extern lv_style_t lv_style_scr; extern lv_style_t lv_style_transp; extern lv_style_t lv_style_transp_fit; extern lv_style_t lv_style_transp_tight; extern lv_style_t lv_style_plain; extern lv_style_t lv_style_plain_color; extern lv_style_t lv_style_pretty; extern lv_style_t lv_style_pretty_color; extern lv_style_t lv_style_btn_rel; extern lv_style_t lv_style_btn_pr; extern lv_style_t lv_style_btn_tgl_rel; extern lv_style_t lv_style_btn_tgl_pr; extern lv_style_t lv_style_btn_ina; /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_STYLE_H*/ ================================================ FILE: bdk/libs/lvgl/lv_core/lv_vdb.c ================================================ /** * @file lv_vdb.c * */ /********************* * INCLUDES *********************/ #include "lv_vdb.h" #if LV_VDB_SIZE != 0 #include "../lv_hal/lv_hal_disp.h" #include "../lv_misc/lv_log.h" #include /********************* * DEFINES *********************/ #ifndef LV_ATTRIBUTE_FLUSH_READY #define LV_ATTRIBUTE_FLUSH_READY #endif #ifndef LV_ATTRIBUTE_MEM_ALIGN #define LV_ATTRIBUTE_MEM_ALIGN #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ /*Simple VDB*/ #if LV_VDB_DOUBLE == 0 # if LV_VDB_ADR == 0 /*If the buffer address is not specified simply allocate it*/ static LV_ATTRIBUTE_MEM_ALIGN uint8_t vdb_buf[LV_VDB_SIZE_IN_BYTES]; static lv_vdb_t vdb = {.buf = (lv_color_t *)vdb_buf}; # else /*LV_VDB_ADR != 0*/ /*If the buffer address is specified use that address*/ static lv_vdb_t vdb = {.buf = (lv_color_t *)LV_VDB_ADR}; # endif /*LV_VDB_DOUBLE != 0*/ #else /*Double VDB*/ static uint8_t vdb_active = 0; # if LV_VDB_ADR == 0 /*If the buffer address is not specified simply allocate it*/ static LV_ATTRIBUTE_MEM_ALIGN uint8_t vdb_buf1[LV_VDB_SIZE_IN_BYTES]; static LV_ATTRIBUTE_MEM_ALIGN uint8_t vdb_buf2[LV_VDB_SIZE_IN_BYTES]; static lv_vdb_t vdb[2] = {{.buf = (lv_color_t *) vdb_buf1}, {.buf = (lv_color_t *) vdb_buf2}}; # else /*LV_VDB_ADR != 0*/ /*If the buffer address is specified use that address*/ static lv_vdb_t vdb[2] = {{.buf = (lv_color_t *)LV_VDB_ADR}, {.buf = (lv_color_t *)LV_VDB2_ADR}}; # endif #endif static volatile bool vdb_flushing = false; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Get the 'vdb' variable or allocate one in LV_VDB_DOUBLE mode * @return pointer to a 'vdb' variable */ lv_vdb_t * lv_vdb_get(void) { #if LV_VDB_DOUBLE == 0 /* Wait until VDB is flushing. * (Until this user calls of 'lv_flush_ready()' in the display drivers's flush function*/ while(vdb_flushing); return &vdb; #else /*If already there is an active do nothing*/ return &vdb[vdb_active]; #endif } /** * Flush the content of the VDB */ void lv_vdb_flush(void) { lv_vdb_t * vdb_act = lv_vdb_get(); if(!vdb_act) { LV_LOG_WARN("Invalid VDB pointer"); return; } /*Don't start a new flush while the previous is not finished*/ #if LV_VDB_DOUBLE while(vdb_flushing); #endif /*LV_VDB_DOUBLE*/ vdb_flushing = true; /*Flush the rendered content to the display*/ lv_disp_flush(vdb_act->area.x1, vdb_act->area.y1, vdb_act->area.x2, vdb_act->area.y2, vdb_act->buf); #if LV_VDB_DOUBLE /*Make the other VDB active. The content of the current will be kept until the next flush*/ vdb_active++; vdb_active &= 0x1; /*If the screen is transparent initialize it when the new VDB is selected*/ # if LV_COLOR_SCREEN_TRANSP memset(vdb[vdb_active].buf, 0x00, LV_VDB_SIZE_IN_BYTES); # endif /*LV_COLOR_SCREEN_TRANSP*/ #endif /*#if LV_VDB_DOUBLE*/ } /** * Set the address of VDB buffer(s) manually. To use this set `LV_VDB_ADR` (and `LV_VDB2_ADR`) to `LV_VDB_ADR_INV` in `lv_conf.h`. * It should be called before `lv_init()`. The size of the buffer should be: `LV_VDB_SIZE_IN_BYTES` * @param buf1 address of the VDB. * @param buf2 address of the second buffer. `NULL` if `LV_VDB_DOUBLE 0` */ void lv_vdb_set_adr(void * buf1, void * buf2) { #if LV_VDB_DOUBLE == 0 (void) buf2; /*unused*/ vdb.buf = buf1; #else vdb[0].buf = buf1; vdb[1].buf = buf2; #endif } /** * Call in the display driver's 'disp_flush' function when the flushing is finished */ LV_ATTRIBUTE_FLUSH_READY void lv_flush_ready(void) { vdb_flushing = false; /*If the screen is transparent initialize it when the flushing is ready*/ #if LV_VDB_DOUBLE == 0 && LV_COLOR_SCREEN_TRANSP memset(vdb_buf, 0x00, LV_VDB_SIZE_IN_BYTES); #endif } /** * Get currently active VDB, where the drawing happens. Used with `LV_VDB_DOUBLE 1` * @return pointer to the active VDB. If `LV_VDB_DOUBLE 0` give the single VDB */ lv_vdb_t * lv_vdb_get_active(void) { #if LV_VDB_DOUBLE == 0 return &vdb; #else return &vdb[vdb_active]; #endif } /** * Get currently inactive VDB, which is being displayed or being flushed. Used with `LV_VDB_DOUBLE 1` * @return pointer to the inactive VDB. If `LV_VDB_DOUBLE 0` give the single VDB */ lv_vdb_t * lv_vdb_get_inactive(void) { #if LV_VDB_DOUBLE == 0 return &vdb; #else return &vdb[(vdb_active + 1) & 0x1]; #endif } /** * Whether the flushing is in progress or not * @return true: flushing is in progress; false: flushing ready */ bool lv_vdb_is_flushing(void) { return vdb_flushing; } /********************** * STATIC FUNCTIONS **********************/ #else /** * Just for compatibility */ void lv_flush_ready(void) { /*Do nothing. It is used only for VDB*/ } #endif ================================================ FILE: bdk/libs/lvgl/lv_core/lv_vdb.h ================================================ /** * @file lv_vdb.h * */ #ifndef LV_VDB_H #define LV_VDB_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if LV_VDB_SIZE != 0 #include "../lv_misc/lv_color.h" #include "../lv_misc/lv_area.h" /********************* * DEFINES *********************/ /*Can be used in `lv_conf.h` the set an invalid address for the VDB. It should be replaced later by a valid address using `lv_vdb_set_adr()`*/ #define LV_VDB_ADR_INV 8 /*8 is still too small to be valid but it's aligned on 64 bit machines as well*/ #ifndef LV_VDB_PX_BPP #define LV_VDB_PX_BPP LV_COLOR_SIZE /* Default is LV_COLOR_SIZE */ #endif #if LV_VDB_TRUE_DOUBLE_BUFFERED && (LV_VDB_SIZE != LV_HOR_RES * LV_VER_RES || LV_VDB_DOUBLE == 0) #error "With LV_VDB_TRUE_DOUBLE_BUFFERED: (LV_VDB_SIZE = LV_HOR_RES * LV_VER_RES and LV_VDB_DOUBLE = 1 is required" #endif /* The size of VDB in bytes. * (LV_VDB_SIZE * LV_VDB_PX_BPP) >> 3): just divide by 8 to convert bits to bytes * (((LV_VDB_SIZE * LV_VDB_PX_BPP) & 0x7) ? 1 : 0): add an extra byte to round up. * E.g. if LV_VDB_SIZE = 10 and LV_VDB_PX_BPP = 1 -> 10 bits -> 2 bytes*/ #define LV_VDB_SIZE_IN_BYTES ((LV_VDB_SIZE * LV_VDB_PX_BPP) >> 3) + (((LV_VDB_SIZE * LV_VDB_PX_BPP) & 0x7) ? 1 : 0) /********************** * TYPEDEFS **********************/ typedef struct { lv_area_t area; lv_color_t *buf; } lv_vdb_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Get the 'vdb' variable or allocate one in LV_VDB_DOUBLE mode * @return pointer to a 'vdb' variable */ lv_vdb_t * lv_vdb_get(void); /** * Flush the content of the vdb */ void lv_vdb_flush(void); /** * Set the address of VDB buffer(s) manually. To use this set `LV_VDB_ADR` (and `LV_VDB2_ADR`) to `LV_VDB_ADR_INV` in `lv_conf.h`. * It should be called before `lv_init()`. The size of the buffer should be: `LV_VDB_SIZE_IN_BYTES` * @param buf1 address of the VDB. * @param buf2 address of the second buffer. `NULL` if `LV_VDB_DOUBLE 0` */ void lv_vdb_set_adr(void * buf1, void * buf2); /** * Call in the display driver's 'disp_flush' function when the flushing is finished */ void lv_flush_ready(void); /** * Get currently active VDB, where the drawing happens. Used with `LV_VDB_DOUBLE 1` * @return pointer to the active VDB. If `LV_VDB_DOUBLE 0` give the single VDB */ lv_vdb_t * lv_vdb_get_active(void); /** * Get currently inactive VDB, which is being displayed or being flushed. Used with `LV_VDB_DOUBLE 1` * @return pointer to the inactive VDB. If `LV_VDB_DOUBLE 0` give the single VDB */ lv_vdb_t * lv_vdb_get_inactive(void); /** * Whether the flushing is in progress or not * @return true: flushing is in progress; false: flushing ready */ bool lv_vdb_is_flushing(void); /********************** * MACROS **********************/ #else /*LV_VDB_SIZE != 0*/ /*Just for compatibility*/ void lv_flush_ready(void); #endif #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_VDB_H*/ ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw.c ================================================ /** * @file lv_draw.c * */ /********************* * INCLUDES *********************/ #include #include "lv_draw.h" #include "lv_draw_rbasic.h" #include "lv_draw_vbasic.h" #include "../lv_misc/lv_fs.h" #include "../lv_misc/lv_math.h" #include "../lv_misc/lv_ufs.h" #include "../lv_objx/lv_img.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ #if LV_VDB_SIZE != 0 void (*const px_fp)(lv_coord_t x, lv_coord_t y, const lv_area_t * mask, lv_color_t color, lv_opa_t opa) = lv_vpx; void (*const fill_fp)(const lv_area_t * coords, const lv_area_t * mask, lv_color_t color, lv_opa_t opa) = lv_vfill; void (*const letter_fp)(const lv_point_t * pos_p, const lv_area_t * mask, const lv_font_t * font_p, uint32_t letter, lv_color_t color, lv_opa_t opa) = lv_vletter; void (*const map_fp)(const lv_area_t * cords_p, const lv_area_t * mask_p, const uint8_t * map_p, lv_opa_t opa, bool chroma_key, bool alpha_byte, lv_color_t recolor, lv_opa_t recolor_opa) = lv_vmap; #else void (*const px_fp)(lv_coord_t x, lv_coord_t y, const lv_area_t * mask, lv_color_t color, lv_opa_t opa) = lv_rpx; void (*const fill_fp)(const lv_area_t * coords, const lv_area_t * mask, lv_color_t color, lv_opa_t opa) = lv_rfill; void (*const letter_fp)(const lv_point_t * pos_p, const lv_area_t * mask, const lv_font_t * font_p, uint32_t letter, lv_color_t color, lv_opa_t opa) = lv_rletter; void (*const map_fp)(const lv_area_t * cords_p, const lv_area_t * mask_p, const uint8_t * map_p, lv_opa_t opa, bool chroma_key, bool alpha_byte, lv_color_t recolor, lv_opa_t recolor_opa) = lv_rmap; #endif /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /********************** * STATIC FUNCTIONS **********************/ #if LV_ANTIALIAS != 0 /** * Get the opacity of a pixel based it's position in a line segment * @param seg segment length * @param px_id position of of a pixel which opacity should be get [0..seg-1] * @param base_opa the base opacity * @return the opacity of the given pixel */ lv_opa_t lv_draw_aa_get_opa(lv_coord_t seg, lv_coord_t px_id, lv_opa_t base_opa) { /* How to calculate the opacity of pixels on the edges which makes the anti-aliasing? * For example we have a line like this (y = -0.5 * x): * * | _ _ * * * | * * Anti-aliased pixels come to the '*' characters * Calculate what percentage of the pixels should be covered if real line (not rasterized) would be drawn: * 1. A real line should start on (0;0) and end on (2;1) * 2. So the line intersection coordinates on the first pixel: (0;0) (1;0.5) -> 25% covered pixel in average * 3. For the second pixel: (1;0.5) (2;1) -> 75% covered pixel in average * 4. The equation: (px_id * 2 + 1) / (segment_width * 2) * segment_width: the line segment which is being anti-aliased (was 2 in the example) * px_id: pixel ID from 0 to (segment_width - 1) * result: [0..1] coverage of the pixel */ /*Accelerate the common segment sizes to avoid division*/ static const lv_opa_t seg1[1] = {128}; static const lv_opa_t seg2[2] = {64, 192}; static const lv_opa_t seg3[3] = {42, 128, 212}; static const lv_opa_t seg4[4] = {32, 96, 159, 223}; static const lv_opa_t seg5[5] = {26, 76, 128, 178, 230}; static const lv_opa_t seg6[6] = {21, 64, 106, 148, 191, 234}; static const lv_opa_t seg7[7] = {18, 55, 91, 128, 164, 200, 237}; static const lv_opa_t seg8[8] = {16, 48, 80, 112, 143, 175, 207, 239}; static const lv_opa_t * seg_map[] = {seg1, seg2, seg3, seg4, seg5, seg6, seg7, seg8 }; if(seg == 0) return LV_OPA_TRANSP; else if(seg < 8) return (uint32_t)((uint32_t)seg_map[seg - 1][px_id] * base_opa) >> 8; else { return ((px_id * 2 + 1) * base_opa) / (2 * seg); } } /** * Add a vertical anti-aliasing segment (pixels with decreasing opacity) * @param x start point x coordinate * @param y start point y coordinate * @param length length of segment (negative value to start from 0 opacity) * @param mask draw only in this area * @param color color of pixels * @param opa maximum opacity */ void lv_draw_aa_ver_seg(lv_coord_t x, lv_coord_t y, lv_coord_t length, const lv_area_t * mask, lv_color_t color, lv_opa_t opa) { bool aa_inv = false; if(length < 0) { aa_inv = true; length = -length; } lv_coord_t i; for(i = 0; i < length; i++) { lv_opa_t px_opa = lv_draw_aa_get_opa(length, i, opa); if(aa_inv) px_opa = opa - px_opa; px_fp(x, y + i, mask, color, px_opa); } } /** * Add a horizontal anti-aliasing segment (pixels with decreasing opacity) * @param x start point x coordinate * @param y start point y coordinate * @param length length of segment (negative value to start from 0 opacity) * @param mask draw only in this area * @param color color of pixels * @param opa maximum opacity */ void lv_draw_aa_hor_seg(lv_coord_t x, lv_coord_t y, lv_coord_t length, const lv_area_t * mask, lv_color_t color, lv_opa_t opa) { bool aa_inv = false; if(length < 0) { aa_inv = true; length = -length; } lv_coord_t i; for(i = 0; i < length; i++) { lv_opa_t px_opa = lv_draw_aa_get_opa(length, i, opa); if(aa_inv) px_opa = opa - px_opa; px_fp(x + i, y, mask, color, px_opa); } } #endif ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw.h ================================================ /** * @file lv_draw.h * */ #ifndef LV_DRAW_H #define LV_DRAW_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include "../lv_core/lv_style.h" #include "../lv_misc/lv_txt.h" /********************* * DEFINES *********************/ /*If image pixels contains alpha we need to know how much byte is a pixel*/ #if LV_COLOR_DEPTH == 1 || LV_COLOR_DEPTH == 8 # define LV_IMG_PX_SIZE_ALPHA_BYTE 2 #elif LV_COLOR_DEPTH == 16 # define LV_IMG_PX_SIZE_ALPHA_BYTE 3 #elif LV_COLOR_DEPTH == 32 # define LV_IMG_PX_SIZE_ALPHA_BYTE 4 #endif /********************** * TYPEDEFS **********************/ enum { LV_IMG_SRC_VARIABLE, LV_IMG_SRC_FILE, LV_IMG_SRC_SYMBOL, LV_IMG_SRC_UNKNOWN, }; typedef uint8_t lv_img_src_t; /********************** * GLOBAL PROTOTYPES **********************/ #if LV_ANTIALIAS != 0 /** * Get the opacity of a pixel based it's position in a line segment * @param seg segment length * @param px_id position of of a pixel which opacity should be get [0..seg-1] * @param base_opa the base opacity * @return the opacity of the given pixel */ lv_opa_t lv_draw_aa_get_opa(lv_coord_t seg, lv_coord_t px_id, lv_opa_t base_opa); /** * Add a vertical anti-aliasing segment (pixels with decreasing opacity) * @param x start point x coordinate * @param y start point y coordinate * @param length length of segment (negative value to start from 0 opacity) * @param mask draw only in this area * @param color color of pixels * @param opa maximum opacity */ void lv_draw_aa_ver_seg(lv_coord_t x, lv_coord_t y, lv_coord_t length, const lv_area_t * mask, lv_color_t color, lv_opa_t opa); /** * Add a horizontal anti-aliasing segment (pixels with decreasing opacity) * @param x start point x coordinate * @param y start point y coordinate * @param length length of segment (negative value to start from 0 opacity) * @param mask draw only in this area * @param color color of pixels * @param opa maximum opacity */ void lv_draw_aa_hor_seg(lv_coord_t x, lv_coord_t y, lv_coord_t length, const lv_area_t * mask, lv_color_t color, lv_opa_t opa); #endif /********************** * GLOBAL VARIABLES **********************/ extern void (*const px_fp)(lv_coord_t x, lv_coord_t y, const lv_area_t * mask, lv_color_t color, lv_opa_t opa); extern void (*const fill_fp)(const lv_area_t * coords, const lv_area_t * mask, lv_color_t color, lv_opa_t opa); extern void (*const letter_fp)(const lv_point_t * pos_p, const lv_area_t * mask, const lv_font_t * font_p, uint32_t letter, lv_color_t color, lv_opa_t opa); extern void (*const map_fp)(const lv_area_t * cords_p, const lv_area_t * mask_p, const uint8_t * map_p, lv_opa_t opa, bool chroma_key, bool alpha_byte, lv_color_t recolor, lv_opa_t recolor_opa); /********************** * MACROS **********************/ /********************** * POST INCLUDES *********************/ #include "lv_draw_rect.h" #include "lv_draw_label.h" #include "lv_draw_img.h" #include "lv_draw_line.h" #include "lv_draw_triangle.h" #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_DRAW_H*/ ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw.mk ================================================ CSRCS += lv_draw_vbasic.c CSRCS += lv_draw_rbasic.c CSRCS += lv_draw.c CSRCS += lv_draw_rect.c CSRCS += lv_draw_label.c CSRCS += lv_draw_line.c CSRCS += lv_draw_img.c CSRCS += lv_draw_arc.c CSRCS += lv_draw_triangle.c DEPPATH += --dep-path $(LVGL_DIR)/lvgl/lv_draw VPATH += :$(LVGL_DIR)/lvgl/lv_draw CFLAGS += "-I$(LVGL_DIR)/lvgl/lv_draw" ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_arc.c ================================================ /** * @file lv_draw_arc.c * */ /********************* * INCLUDES *********************/ #include "lv_draw_arc.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static uint16_t fast_atan2(int x, int y); static void ver_line(lv_coord_t x, lv_coord_t y, const lv_area_t * mask, lv_coord_t len, lv_color_t color, lv_opa_t opa); static void hor_line(lv_coord_t x, lv_coord_t y, const lv_area_t * mask, lv_coord_t len, lv_color_t color, lv_opa_t opa); static bool deg_test_norm(uint16_t deg, uint16_t start, uint16_t end); static bool deg_test_inv(uint16_t deg, uint16_t start, uint16_t end); /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Draw an arc. (Can draw pie too with great thickness.) * @param center_x the x coordinate of the center of the arc * @param center_y the y coordinate of the center of the arc * @param radius the radius of the arc * @param mask the arc will be drawn only in this mask * @param start_angle the start angle of the arc (0 deg on the bottom, 90 deg on the right) * @param end_angle the end angle of the arc * @param style style of the arc (`body.thickness`, `body.main_color`, `body.opa` is used) * @param opa_scale scale down all opacities by the factor */ void lv_draw_arc(lv_coord_t center_x, lv_coord_t center_y, uint16_t radius, const lv_area_t * mask, uint16_t start_angle, uint16_t end_angle, const lv_style_t * style, lv_opa_t opa_scale) { lv_coord_t thickness = style->line.width; if(thickness > radius) thickness = radius; lv_coord_t r_out = radius; lv_coord_t r_in = r_out - thickness; int16_t deg_base; int16_t deg; lv_coord_t x_start[4]; lv_coord_t x_end[4]; lv_color_t color = style->line.color; lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->body.opa : (uint16_t)((uint16_t) style->body.opa * opa_scale) >> 8; bool (*deg_test)(uint16_t, uint16_t, uint16_t); if(start_angle <= end_angle) deg_test = deg_test_norm; else deg_test = deg_test_inv; if(deg_test(270, start_angle, end_angle)) hor_line(center_x - r_out + 1, center_y, mask, thickness - 1, color, opa); // Left Middle if(deg_test(90, start_angle, end_angle)) hor_line(center_x + r_in, center_y, mask, thickness - 1, color, opa); // Right Middle if(deg_test(180, start_angle, end_angle)) ver_line(center_x, center_y - r_out + 1, mask, thickness - 1, color, opa); // Top Middle if(deg_test(0, start_angle, end_angle)) ver_line(center_x, center_y + r_in, mask, thickness - 1, color, opa); // Bottom middle uint32_t r_out_sqr = r_out * r_out; uint32_t r_in_sqr = r_in * r_in; int16_t xi; int16_t yi; for(yi = -r_out; yi < 0; yi++) { x_start[0] = LV_COORD_MIN; x_start[1] = LV_COORD_MIN; x_start[2] = LV_COORD_MIN; x_start[3] = LV_COORD_MIN; x_end[0] = LV_COORD_MIN; x_end[1] = LV_COORD_MIN; x_end[2] = LV_COORD_MIN; x_end[3] = LV_COORD_MIN; for(xi = -r_out; xi < 0; xi++) { uint32_t r_act_sqr = xi * xi + yi * yi; if(r_act_sqr > r_out_sqr) continue; deg_base = fast_atan2(xi, yi) - 180; deg = 180 + deg_base; if(deg_test(deg, start_angle, end_angle)) { if(x_start[0] == LV_COORD_MIN) x_start[0] = xi; } else if(x_start[0] != LV_COORD_MIN && x_end[0] == LV_COORD_MIN) { x_end[0] = xi - 1; } deg = 360 - deg_base; if(deg_test(deg, start_angle, end_angle)) { if(x_start[1] == LV_COORD_MIN) x_start[1] = xi; } else if(x_start[1] != LV_COORD_MIN && x_end[1] == LV_COORD_MIN) { x_end[1] = xi - 1; } deg = 180 - deg_base; if(deg_test(deg, start_angle, end_angle)) { if(x_start[2] == LV_COORD_MIN) x_start[2] = xi; } else if(x_start[2] != LV_COORD_MIN && x_end[2] == LV_COORD_MIN) { x_end[2] = xi - 1; } deg = deg_base; if(deg_test(deg, start_angle, end_angle)) { if(x_start[3] == LV_COORD_MIN) x_start[3] = xi; } else if(x_start[3] != LV_COORD_MIN && x_end[3] == LV_COORD_MIN) { x_end[3] = xi - 1; } if(r_act_sqr < r_in_sqr) break; /*No need to continue the iteration in x once we found the inner edge of the arc*/ } if(x_start[0] != LV_COORD_MIN) { if(x_end[0] == LV_COORD_MIN) x_end[0] = xi - 1; hor_line(center_x + x_start[0], center_y + yi, mask, x_end[0] - x_start[0], color, opa); } if(x_start[1] != LV_COORD_MIN) { if(x_end[1] == LV_COORD_MIN) x_end[1] = xi - 1; hor_line(center_x + x_start[1], center_y - yi, mask, x_end[1] - x_start[1], color, opa); } if(x_start[2] != LV_COORD_MIN) { if(x_end[2] == LV_COORD_MIN) x_end[2] = xi - 1; hor_line(center_x - x_end[2], center_y + yi, mask, LV_MATH_ABS(x_end[2] - x_start[2]), color, opa); } if(x_start[3] != LV_COORD_MIN) { if(x_end[3] == LV_COORD_MIN) x_end[3] = xi - 1; hor_line(center_x - x_end[3], center_y - yi, mask, LV_MATH_ABS(x_end[3] - x_start[3]), color, opa); } #if LV_ANTIALIAS /*TODO*/ #endif } } static uint16_t fast_atan2(int x, int y) { // Fast XY vector to integer degree algorithm - Jan 2011 www.RomanBlack.com // Converts any XY values including 0 to a degree value that should be // within +/- 1 degree of the accurate value without needing // large slow trig functions like ArcTan() or ArcCos(). // NOTE! at least one of the X or Y values must be non-zero! // This is the full version, for all 4 quadrants and will generate // the angle in integer degrees from 0-360. // Any values of X and Y are usable including negative values provided // they are between -1456 and 1456 so the 16bit multiply does not overflow. unsigned char negflag; unsigned char tempdegree; unsigned char comp; unsigned int degree; // this will hold the result //signed int x; // these hold the XY vector at the start //signed int y; // (and they will be destroyed) unsigned int ux; unsigned int uy; // Save the sign flags then remove signs and get XY as unsigned ints negflag = 0; if(x < 0) { negflag += 0x01; // x flag bit x = (0 - x); // is now + } ux = x; // copy to unsigned var before multiply if(y < 0) { negflag += 0x02; // y flag bit y = (0 - y); // is now + } uy = y; // copy to unsigned var before multiply // 1. Calc the scaled "degrees" if(ux > uy) { degree = (uy * 45) / ux; // degree result will be 0-45 range negflag += 0x10; // octant flag bit } else { degree = (ux * 45) / uy; // degree result will be 0-45 range } // 2. Compensate for the 4 degree error curve comp = 0; tempdegree = degree; // use an unsigned char for speed! if(tempdegree > 22) { // if top half of range if(tempdegree <= 44) comp++; if(tempdegree <= 41) comp++; if(tempdegree <= 37) comp++; if(tempdegree <= 32) comp++; // max is 4 degrees compensated } else { // else is lower half of range if(tempdegree >= 2) comp++; if(tempdegree >= 6) comp++; if(tempdegree >= 10) comp++; if(tempdegree >= 15) comp++; // max is 4 degrees compensated } degree += comp; // degree is now accurate to +/- 1 degree! // Invert degree if it was X>Y octant, makes 0-45 into 90-45 if(negflag & 0x10) degree = (90 - degree); // 3. Degree is now 0-90 range for this quadrant, // need to invert it for whichever quadrant it was in if(negflag & 0x02) { // if -Y if(negflag & 0x01) // if -Y -X degree = (180 + degree); else // else is -Y +X degree = (180 - degree); } else { // else is +Y if(negflag & 0x01) // if +Y -X degree = (360 - degree); } return degree; } /********************** * STATIC FUNCTIONS **********************/ static void ver_line(lv_coord_t x, lv_coord_t y, const lv_area_t * mask, lv_coord_t len, lv_color_t color, lv_opa_t opa) { lv_area_t area; lv_area_set(&area, x, y, x, y + len); fill_fp(&area, mask, color, opa); } static void hor_line(lv_coord_t x, lv_coord_t y, const lv_area_t * mask, lv_coord_t len, lv_color_t color, lv_opa_t opa) { lv_area_t area; lv_area_set(&area, x, y, x + len, y); fill_fp(&area, mask, color, opa); } static bool deg_test_norm(uint16_t deg, uint16_t start, uint16_t end) { if(deg >= start && deg <= end) return true; else return false; } static bool deg_test_inv(uint16_t deg, uint16_t start, uint16_t end) { if(deg >= start || deg <= end) { return true; } else return false; } ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_arc.h ================================================ /** * @file lv_draw_arc.h * */ #ifndef LV_DRAW_ARC_H #define LV_DRAW_ARC_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "lv_draw.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /** * Draw an arc. (Can draw pie too with great thickness.) * @param center_x the x coordinate of the center of the arc * @param center_y the y coordinate of the center of the arc * @param radius the radius of the arc * @param mask the arc will be drawn only in this mask * @param start_angle the start angle of the arc (0 deg on the bottom, 90 deg on the right) * @param end_angle the end angle of the arc * @param style style of the arc (`body.thickness`, `body.main_color`, `body.opa` is used) * @param opa_scale scale down all opacities by the factor */ void lv_draw_arc(lv_coord_t center_x, lv_coord_t center_y, uint16_t radius, const lv_area_t * mask, uint16_t start_angle, uint16_t end_angle, const lv_style_t * style, lv_opa_t opa_scale); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_DRAW_ARC*/ ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_img.c ================================================ /** * @file lv_draw_img.c * */ /********************* * INCLUDES *********************/ #include "lv_draw_img.h" #include "../lv_misc/lv_fs.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_img_draw_core(const lv_area_t * coords, const lv_area_t * mask, const void * src, const lv_style_t * style, lv_opa_t opa_scale); static const uint8_t * lv_img_decoder_open(const void * src, const lv_style_t * style); static lv_res_t lv_img_decoder_read_line(lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf); static void lv_img_decoder_close(void); static lv_res_t lv_img_built_in_decoder_line_alpha(lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf); static lv_res_t lv_img_built_in_decoder_line_indexed(lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf); /********************** * STATIC VARIABLES **********************/ static bool decoder_custom; static const void * decoder_src; static lv_img_src_t decoder_src_type; static lv_img_header_t decoder_header; static const lv_style_t * decoder_style; #if USE_LV_FILESYSTEM static lv_fs_file_t decoder_file; #endif #if LV_IMG_CF_INDEXED static lv_color_t decoder_index_map[256]; #endif static lv_img_decoder_info_f_t lv_img_decoder_info_custom; static lv_img_decoder_open_f_t lv_img_decoder_open_custom; static lv_img_decoder_read_line_f_t lv_img_decoder_read_line_custom; static lv_img_decoder_close_f_t lv_img_decoder_close_custom; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Draw an image * @param coords the coordinates of the image * @param mask the image will be drawn only in this area * @param src pointer to a lv_color_t array which contains the pixels of the image * @param style style of the image * @param opa_scale scale down all opacities by the factor */ void lv_draw_img(const lv_area_t * coords, const lv_area_t * mask, const void * src, const lv_style_t * style, lv_opa_t opa_scale) { if(src == NULL) { LV_LOG_WARN("Image draw: src is NULL"); lv_draw_rect(coords, mask, &lv_style_plain, LV_OPA_COVER); lv_draw_label(coords, mask, &lv_style_plain, LV_OPA_COVER, "No\ndata", LV_TXT_FLAG_NONE, NULL); return; } lv_res_t res; res = lv_img_draw_core(coords, mask, src, style, opa_scale); if(res == LV_RES_INV) { LV_LOG_WARN("Image draw error"); lv_draw_rect(coords, mask, &lv_style_plain, LV_OPA_COVER); lv_draw_label(coords, mask, &lv_style_plain, LV_OPA_COVER, "No\ndata", LV_TXT_FLAG_NONE, NULL); return; } } /** * * @param src * @param header * @param style * @return */ lv_res_t lv_img_dsc_get_info(const char * src, lv_img_header_t * header) { header->always_zero = 0; /*Try to get info with the custom functions first*/ if(lv_img_decoder_info_custom) { lv_res_t custom_res; custom_res = lv_img_decoder_info_custom(src, header); if(custom_res == LV_RES_OK) return LV_RES_OK; /*Custom info has supported this source*/ } lv_img_src_t src_type = lv_img_src_get_type(src); if(src_type == LV_IMG_SRC_VARIABLE) { header->w = ((lv_img_dsc_t *)src)->header.w; header->h = ((lv_img_dsc_t *)src)->header.h; header->cf = ((lv_img_dsc_t *)src)->header.cf; } #if USE_LV_FILESYSTEM else if(src_type == LV_IMG_SRC_FILE) { lv_fs_file_t file; lv_fs_res_t res; uint32_t rn; res = lv_fs_open(&file, src, LV_FS_MODE_RD); if(res == LV_FS_RES_OK) { res = lv_fs_read(&file, header, sizeof(lv_img_header_t), &rn); } /*Create a dummy header on fs error*/ if(res != LV_FS_RES_OK || rn != sizeof(lv_img_header_t)) { header->w = LV_DPI; header->h = LV_DPI; header->cf = LV_IMG_CF_UNKOWN; } lv_fs_close(&file); } #endif else if(src_type == LV_IMG_SRC_SYMBOL) { /*The size depend on the font but it is unknown here. It should be handled outside of the function*/ header->w = 1; header->h = 1; /* Symbols always have transparent parts. Important because of cover check in the design function. * The actual value doesn't matter because lv_draw_label will draw it*/ header->cf = LV_IMG_CF_ALPHA_1BIT; } else { LV_LOG_WARN("Image get info found unknown src type"); return false; } return true; } uint8_t lv_img_color_format_get_px_size(lv_img_cf_t cf) { uint8_t px_size = 0; switch(cf) { case LV_IMG_CF_UNKOWN: case LV_IMG_CF_RAW: px_size = 0; break; case LV_IMG_CF_TRUE_COLOR: case LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED: px_size = LV_COLOR_SIZE; break; case LV_IMG_CF_TRUE_COLOR_ALPHA: px_size = LV_IMG_PX_SIZE_ALPHA_BYTE << 3; break; case LV_IMG_CF_INDEXED_1BIT: case LV_IMG_CF_ALPHA_1BIT: px_size = 1; break; case LV_IMG_CF_INDEXED_2BIT: case LV_IMG_CF_ALPHA_2BIT: px_size = 2; break; case LV_IMG_CF_INDEXED_4BIT: case LV_IMG_CF_ALPHA_4BIT: px_size = 4; break; case LV_IMG_CF_INDEXED_8BIT: case LV_IMG_CF_ALPHA_8BIT: px_size = 8; break; default: px_size = 0; break; } return px_size; } bool lv_img_color_format_is_chroma_keyed(lv_img_cf_t cf) { bool is_chroma_keyed = false; switch(cf) { case LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED: case LV_IMG_CF_RAW_CHROMA_KEYED: case LV_IMG_CF_INDEXED_1BIT: case LV_IMG_CF_INDEXED_2BIT: case LV_IMG_CF_INDEXED_4BIT: case LV_IMG_CF_INDEXED_8BIT: is_chroma_keyed = true; break; default: is_chroma_keyed = false; break; } return is_chroma_keyed; } bool lv_img_color_format_has_alpha(lv_img_cf_t cf) { bool has_alpha = false; switch(cf) { case LV_IMG_CF_TRUE_COLOR_ALPHA: case LV_IMG_CF_RAW_ALPHA: case LV_IMG_CF_ALPHA_1BIT: case LV_IMG_CF_ALPHA_2BIT: case LV_IMG_CF_ALPHA_4BIT: case LV_IMG_CF_ALPHA_8BIT: has_alpha = true; break; default: has_alpha = false; break; } return has_alpha; } /** * Get the type of an image source * @param src pointer to an image source: * - pointer to an 'lv_img_t' variable (image stored internally and compiled into the code) * - a path to a file (e.g. "S:/folder/image.bin") * - or a symbol (e.g. SYMBOL_CLOSE) * @return type of the image source LV_IMG_SRC_VARIABLE/FILE/SYMBOL/UNKOWN */ lv_img_src_t lv_img_src_get_type(const void * src) { lv_img_src_t img_src_type = LV_IMG_SRC_UNKNOWN; if(src == NULL) return img_src_type; const uint8_t * u8_p = src; /*The first byte shows the type of the image source*/ if(u8_p[0] >= 0x20 && u8_p[0] <= 0x7F) { img_src_type = LV_IMG_SRC_FILE; /*If it's an ASCII character then it's file name*/ } else if(u8_p[0] >= 0x80) { img_src_type = LV_IMG_SRC_SYMBOL; /*Symbols begins after 0x7F*/ } else { img_src_type = LV_IMG_SRC_VARIABLE; /*`lv_img_dsc_t` is design to the first byte < 0x20*/ } if (LV_IMG_SRC_UNKNOWN == img_src_type) { LV_LOG_WARN("lv_img_src_get_type: unknown image type"); } return img_src_type; } /** * Set custom decoder functions. See the typdefs of the function typed above for more info about them * @param info_fp info get function * @param open_fp open function * @param read_fp read line function * @param close_fp clode function */ void lv_img_decoder_set_custom(lv_img_decoder_info_f_t info_fp, lv_img_decoder_open_f_t open_fp, lv_img_decoder_read_line_f_t read_fp, lv_img_decoder_close_f_t close_fp) { lv_img_decoder_info_custom = info_fp; lv_img_decoder_open_custom = open_fp; lv_img_decoder_read_line_custom = read_fp; lv_img_decoder_close_custom = close_fp; } /********************** * STATIC FUNCTIONS **********************/ static lv_res_t lv_img_draw_core(const lv_area_t * coords, const lv_area_t * mask, const void * src, const lv_style_t * style, lv_opa_t opa_scale) { lv_area_t mask_com; /*Common area of mask and coords*/ bool union_ok; union_ok = lv_area_intersect(&mask_com, mask, coords); if(union_ok == false) { return LV_RES_OK; /*Out of mask. There is nothing to draw so the image is drawn successfully.*/ } lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->image.opa : (uint16_t)((uint16_t) style->image.opa * opa_scale) >> 8; lv_img_header_t header; lv_res_t header_res; header_res = lv_img_dsc_get_info(src, &header); if(header_res != LV_RES_OK) { LV_LOG_WARN("Image draw can't get image info"); lv_img_decoder_close(); return LV_RES_INV; } bool chroma_keyed = lv_img_color_format_is_chroma_keyed(header.cf); bool alpha_byte = lv_img_color_format_has_alpha(header.cf); const uint8_t * img_data = lv_img_decoder_open(src, style); if(img_data == LV_IMG_DECODER_OPEN_FAIL) { LV_LOG_WARN("Image draw cannot open the image resource"); lv_img_decoder_close(); return LV_RES_INV; } /* The decoder open could open the image and gave the entire uncompressed image. * Just draw it!*/ if(img_data) { map_fp(coords, mask, img_data, opa, chroma_keyed, alpha_byte, style->image.color, style->image.intense); } /* The whole uncompressed image is not available. Try to read it line-by-line*/ else { lv_coord_t width = lv_area_get_width(&mask_com); #if LV_COMPILER_VLA_SUPPORTED uint8_t buf[(lv_area_get_width(&mask_com) * ((LV_COLOR_DEPTH >> 3) + 1))]; #else uint8_t buf[LV_HOR_RES * ((LV_COLOR_DEPTH >> 3) + 1)]; /*+1 because of the possible alpha byte*/ #endif lv_area_t line; lv_area_copy(&line, &mask_com); lv_area_set_height(&line, 1); lv_coord_t x = mask_com.x1 - coords->x1; lv_coord_t y = mask_com.y1 - coords->y1; lv_coord_t row; lv_res_t read_res; for(row = mask_com.y1; row <= mask_com.y2; row++) { read_res = lv_img_decoder_read_line(x, y, width, buf); if(read_res != LV_RES_OK) { lv_img_decoder_close(); LV_LOG_WARN("Image draw can't read the line"); return LV_RES_INV; } map_fp(&line, mask, buf, opa, chroma_keyed, alpha_byte, style->image.color, style->image.intense); line.y1++; line.y2++; y++; } } lv_img_decoder_close(); return LV_RES_OK; } static const uint8_t * lv_img_decoder_open(const void * src, const lv_style_t * style) { decoder_custom = false; /*Try to open with the custom functions first*/ if(lv_img_decoder_open_custom) { const uint8_t * custom_res; custom_res = lv_img_decoder_open_custom(src, style); if(custom_res != LV_IMG_DECODER_OPEN_FAIL) { decoder_custom = true; /*Mark that custom decoder function should be used for this img source.*/ return custom_res; /*Custom open supported this source*/ } } decoder_src = src; decoder_style = style; decoder_src_type = lv_img_src_get_type(src); lv_res_t header_res; header_res = lv_img_dsc_get_info(src, &decoder_header); if(header_res == LV_RES_INV) { decoder_src = NULL; decoder_src_type = LV_IMG_SRC_UNKNOWN; LV_LOG_WARN("Built-in image decoder can't get the header info"); return LV_IMG_DECODER_OPEN_FAIL; } /*Open the file if it's a file*/ if(decoder_src_type == LV_IMG_SRC_FILE) { #if USE_LV_FILESYSTEM lv_fs_res_t res = lv_fs_open(&decoder_file, src, LV_FS_MODE_RD); if(res != LV_FS_RES_OK) { LV_LOG_WARN("Built-in image decoder can't open the file"); return LV_IMG_DECODER_OPEN_FAIL; } #else LV_LOG_WARN("Image built-in decoder can read file because USE_LV_FILESYSTEM = 0"); return LV_IMG_DECODER_OPEN_FAIL; #endif } /*Process the different color formats*/ lv_img_cf_t cf = decoder_header.cf; if(cf == LV_IMG_CF_TRUE_COLOR || cf == LV_IMG_CF_TRUE_COLOR_ALPHA || cf == LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED) { if(decoder_src_type == LV_IMG_SRC_VARIABLE) { /*In case of uncompressed formats if the image stored in the ROM/RAM simply give it's pointer*/ return ((lv_img_dsc_t *)decoder_src)->data; } else { /*If it's file it need to be read line by line later*/ return NULL; } } else if(cf == LV_IMG_CF_INDEXED_1BIT || cf == LV_IMG_CF_INDEXED_2BIT || cf == LV_IMG_CF_INDEXED_4BIT || cf == LV_IMG_CF_INDEXED_8BIT) { #if LV_IMG_CF_INDEXED #if USE_LV_FILESYSTEM lv_color32_t palette_file[256]; #endif lv_color32_t * palette_p = NULL; uint8_t px_size = lv_img_color_format_get_px_size(cf); uint32_t palette_size = 1 << px_size; if(decoder_src_type == LV_IMG_SRC_FILE) { /*Read the palette from file*/ #if USE_LV_FILESYSTEM lv_fs_seek(&decoder_file, 4); /*Skip the header*/ lv_fs_read(&decoder_file, palette_file, palette_size * sizeof(lv_color32_t), NULL); palette_p = palette_file; #else LV_LOG_WARN("Image built-in decoder can read the palette because USE_LV_FILESYSTEM = 0"); return LV_IMG_DECODER_OPEN_FAIL; #endif } else { /*The palette begins in the beginning of the image data. Just point to it.*/ palette_p = (lv_color32_t *)((lv_img_dsc_t *)decoder_src)->data; } uint32_t i; for(i = 0; i < palette_size; i++) { decoder_index_map[i] = LV_COLOR_MAKE(palette_p[i].red, palette_p[i].green, palette_p[i].blue); } return NULL; #else LV_LOG_WARN("Indexed (palette) images are not enabled in lv_conf.h. See LV_IMG_CF_INDEXED"); return LV_IMG_DECODER_OPEN_FAIL; #endif } else if(cf == LV_IMG_CF_ALPHA_1BIT || cf == LV_IMG_CF_ALPHA_2BIT || cf == LV_IMG_CF_ALPHA_4BIT || cf == LV_IMG_CF_ALPHA_8BIT) { #if LV_IMG_CF_ALPHA return NULL; /*Nothing to process*/ #else LV_LOG_WARN("Alpha indexed images are not enabled in lv_conf.h. See LV_IMG_CF_ALPHA"); return LV_IMG_DECODER_OPEN_FAIL; #endif } else { LV_LOG_WARN("Image decoder open: unknown color format") return LV_IMG_DECODER_OPEN_FAIL; } } static lv_res_t lv_img_decoder_read_line(lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf) { /*Try to read the line with the custom functions*/ if(decoder_custom) { if(lv_img_decoder_read_line_custom) { lv_res_t custom_res; custom_res = lv_img_decoder_read_line_custom(x, y, len, buf); return custom_res; } else { LV_LOG_WARN("Image open with custom decoder but read not supported") } return LV_RES_INV; /*It"s an error if not returned earlier*/ } if(decoder_src_type == LV_IMG_SRC_FILE) { #if USE_LV_FILESYSTEM uint8_t px_size = lv_img_color_format_get_px_size(decoder_header.cf); lv_fs_res_t res; if(decoder_header.cf == LV_IMG_CF_TRUE_COLOR || decoder_header.cf == LV_IMG_CF_TRUE_COLOR_ALPHA || decoder_header.cf == LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED) { uint32_t pos = ((y * decoder_header.w + x) * px_size) >> 3; pos += 4; /*Skip the header*/ res = lv_fs_seek(&decoder_file, pos); if(res != LV_FS_RES_OK) { LV_LOG_WARN("Built-in image decoder seek failed"); return false; } uint32_t btr = len * (px_size >> 3); uint32_t br = 0; lv_fs_read(&decoder_file, buf, btr, &br); if(res != LV_FS_RES_OK || btr != br) { LV_LOG_WARN("Built-in image decoder read failed"); return false; } } else if(decoder_header.cf == LV_IMG_CF_ALPHA_1BIT || decoder_header.cf == LV_IMG_CF_ALPHA_2BIT || decoder_header.cf == LV_IMG_CF_ALPHA_4BIT || decoder_header.cf == LV_IMG_CF_ALPHA_8BIT) { lv_img_built_in_decoder_line_alpha(x, y, len, buf); } else if(decoder_header.cf == LV_IMG_CF_INDEXED_1BIT || decoder_header.cf == LV_IMG_CF_INDEXED_2BIT || decoder_header.cf == LV_IMG_CF_INDEXED_4BIT || decoder_header.cf == LV_IMG_CF_INDEXED_8BIT) { lv_img_built_in_decoder_line_indexed(x, y, len, buf); } else { LV_LOG_WARN("Built-in image decoder read not supports the color format"); return false; } #else LV_LOG_WARN("Image built-in decoder can't read file because USE_LV_FILESYSTEM = 0"); return false; #endif } else if(decoder_src_type == LV_IMG_SRC_VARIABLE) { const lv_img_dsc_t * img_dsc = decoder_src; if(img_dsc->header.cf == LV_IMG_CF_ALPHA_1BIT || img_dsc->header.cf == LV_IMG_CF_ALPHA_2BIT || img_dsc->header.cf == LV_IMG_CF_ALPHA_4BIT || img_dsc->header.cf == LV_IMG_CF_ALPHA_8BIT) { lv_img_built_in_decoder_line_alpha(x, y, len, buf); } else if(img_dsc->header.cf == LV_IMG_CF_INDEXED_1BIT || img_dsc->header.cf == LV_IMG_CF_INDEXED_2BIT || img_dsc->header.cf == LV_IMG_CF_INDEXED_4BIT || img_dsc->header.cf == LV_IMG_CF_INDEXED_8BIT) { lv_img_built_in_decoder_line_indexed(x, y, len, buf); } else { LV_LOG_WARN("Built-in image decoder not supports the color format"); return false; } } return true; } static void lv_img_decoder_close(void) { /*Try to close with the custom functions*/ if(decoder_custom) { if(lv_img_decoder_close_custom) lv_img_decoder_close_custom(); return; } /*It was opened with built-in decoder*/ if(decoder_src) { #if USE_LV_FILESYSTEM if(decoder_src_type == LV_IMG_SRC_FILE) { lv_fs_close(&decoder_file); } #endif decoder_src_type = LV_IMG_SRC_UNKNOWN; decoder_src = NULL; } } static lv_res_t lv_img_built_in_decoder_line_alpha(lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf) { #if LV_IMG_CF_ALPHA const lv_opa_t alpha1_opa_table[2] = {0, 255}; /*Opacity mapping with bpp = 1 (Just for compatibility)*/ const lv_opa_t alpha2_opa_table[4] = {0, 85, 170, 255}; /*Opacity mapping with bpp = 2*/ const lv_opa_t alpha4_opa_table[16] = {0, 17, 34, 51, /*Opacity mapping with bpp = 4*/ 68, 85, 102, 119, 136, 153, 170, 187, 204, 221, 238, 255 }; /*Simply fill the buffer with the color. Later only the alpha value will be modified.*/ lv_color_t bg_color = decoder_style->image.color; lv_coord_t i; for(i = 0; i < len; i++) { #if LV_COLOR_DEPTH == 8 || LV_COLOR_DEPTH == 1 buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE] = bg_color.full; #elif LV_COLOR_DEPTH == 16 /*Because of Alpha byte 16 bit color can start on odd address which can cause crash*/ buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE] = bg_color.full & 0xFF; buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE + 1] = (bg_color.full >> 8) & 0xFF; #elif LV_COLOR_DEPTH == 32 *((uint32_t *)&buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE]) = bg_color.full; #else #error "Invalid LV_COLOR_DEPTH. Check it in lv_conf.h" #endif } const lv_opa_t * opa_table = NULL; uint8_t px_size = lv_img_color_format_get_px_size(decoder_header.cf); uint16_t mask = (1 << px_size) - 1; /*E.g. px_size = 2; mask = 0x03*/ lv_coord_t w = 0; uint32_t ofs = 0; int8_t pos = 0; switch(decoder_header.cf) { case LV_IMG_CF_ALPHA_1BIT: w = (decoder_header.w >> 3); /*E.g. w = 20 -> w = 2 + 1*/ if(decoder_header.w & 0x7) w++; ofs += w * y + (x >> 3); /*First pixel*/ pos = 7 - (x & 0x7); opa_table = alpha1_opa_table; break; case LV_IMG_CF_ALPHA_2BIT: w = (decoder_header.w >> 2); /*E.g. w = 13 -> w = 3 + 1 (bytes)*/ if(decoder_header.w & 0x3) w++; ofs += w * y + (x >> 2); /*First pixel*/ pos = 6 - ((x & 0x3) * 2); opa_table = alpha2_opa_table; break; case LV_IMG_CF_ALPHA_4BIT: w = (decoder_header.w >> 1); /*E.g. w = 13 -> w = 6 + 1 (bytes)*/ if(decoder_header.w & 0x1) w++; ofs += w * y + (x >> 1); /*First pixel*/ pos = 4 - ((x & 0x1) * 4); opa_table = alpha4_opa_table; break; case LV_IMG_CF_ALPHA_8BIT: w = decoder_header.w; /*E.g. x = 7 -> w = 7 (bytes)*/ ofs += w * y + x; /*First pixel*/ pos = 0; break; } #if USE_LV_FILESYSTEM # if LV_COMPILER_VLA_SUPPORTED uint8_t fs_buf[w]; # else uint8_t fs_buf[LV_HOR_RES]; # endif #endif const uint8_t * data_tmp = NULL; if(decoder_src_type == LV_IMG_SRC_VARIABLE) { const lv_img_dsc_t * img_dsc = decoder_src; data_tmp = img_dsc->data + ofs; } else { #if USE_LV_FILESYSTEM lv_fs_seek(&decoder_file, ofs + 4); /*+4 to skip the header*/ lv_fs_read(&decoder_file, fs_buf, w, NULL); data_tmp = fs_buf; #else LV_LOG_WARN("Image built-in alpha line reader can't read file because USE_LV_FILESYSTEM = 0"); data_tmp = NULL; /*To avoid warnings*/ return LV_RES_INV; #endif } uint8_t byte_act = 0; uint8_t val_act; for(i = 0; i < len; i ++) { val_act = (data_tmp[byte_act] & (mask << pos)) >> pos; buf[i * LV_IMG_PX_SIZE_ALPHA_BYTE + LV_IMG_PX_SIZE_ALPHA_BYTE - 1] = decoder_header.cf == LV_IMG_CF_ALPHA_8BIT ? val_act : opa_table[val_act]; pos -= px_size; if(pos < 0) { pos = 8 - px_size; data_tmp++; } } return LV_RES_OK; #else LV_LOG_WARN("Image built-in alpha line reader failed because LV_IMG_CF_ALPHA is 0 in lv_conf.h"); return LV_RES_INV; #endif } static lv_res_t lv_img_built_in_decoder_line_indexed(lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf) { #if LV_IMG_CF_INDEXED uint8_t px_size = lv_img_color_format_get_px_size(decoder_header.cf); uint16_t mask = (1 << px_size) - 1; /*E.g. px_size = 2; mask = 0x03*/ lv_coord_t w = 0; int8_t pos = 0; uint32_t ofs = 0; switch(decoder_header.cf) { case LV_IMG_CF_INDEXED_1BIT: w = (decoder_header.w >> 3); /*E.g. w = 20 -> w = 2 + 1*/ if(decoder_header.w & 0x7) w++; ofs += w * y + (x >> 3); /*First pixel*/ ofs += 8; /*Skip the palette*/ pos = 7 - (x & 0x7); break; case LV_IMG_CF_INDEXED_2BIT: w = (decoder_header.w >> 2); /*E.g. w = 13 -> w = 3 + 1 (bytes)*/ if(decoder_header.w & 0x3) w++; ofs += w * y + (x >> 2); /*First pixel*/ ofs += 16; /*Skip the palette*/ pos = 6 - ((x & 0x3) * 2); break; case LV_IMG_CF_INDEXED_4BIT: w = (decoder_header.w >> 1); /*E.g. w = 13 -> w = 6 + 1 (bytes)*/ if(decoder_header.w & 0x1) w++; ofs += w * y + (x >> 1); /*First pixel*/ ofs += 64; /*Skip the palette*/ pos = 4 - ((x & 0x1) * 4); break; case LV_IMG_CF_INDEXED_8BIT: w = decoder_header.w; /*E.g. x = 7 -> w = 7 (bytes)*/ ofs += w * y + x; /*First pixel*/ ofs += 1024; /*Skip the palette*/ pos = 0; break; } #if USE_LV_FILESYSTEM # if LV_COMPILER_VLA_SUPPORTED uint8_t fs_buf[w]; # else uint8_t fs_buf[LV_HOR_RES]; # endif #endif const uint8_t * data_tmp = NULL; if(decoder_src_type == LV_IMG_SRC_VARIABLE) { const lv_img_dsc_t * img_dsc = decoder_src; data_tmp = img_dsc->data + ofs; } else { #if USE_LV_FILESYSTEM lv_fs_seek(&decoder_file, ofs + 4); /*+4 to skip the header*/ lv_fs_read(&decoder_file, fs_buf, w, NULL); data_tmp = fs_buf; #else LV_LOG_WARN("Image built-in indexed line reader can't read file because USE_LV_FILESYSTEM = 0"); data_tmp = NULL; /*To avoid warnings*/ return LV_RES_INV; #endif } uint8_t byte_act = 0; uint8_t val_act; lv_coord_t i; lv_color_t * cbuf = (lv_color_t *) buf; for(i = 0; i < len; i ++) { val_act = (data_tmp[byte_act] & (mask << pos)) >> pos; cbuf[i] = decoder_index_map[val_act]; pos -= px_size; if(pos < 0) { pos = 8 - px_size; data_tmp++; } } return LV_RES_OK; #else LV_LOG_WARN("Image built-in indexed line reader failed because LV_IMG_CF_INDEXED is 0 in lv_conf.h"); return LV_RES_INV; #endif } ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_img.h ================================================ /** * @file lv_draw_img.h * */ #ifndef LV_DRAW_IMG_H #define LV_DRAW_IMG_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "lv_draw.h" #include "../lv_core/lv_obj.h" /********************* * DEFINES *********************/ #define LV_IMG_DECODER_OPEN_FAIL ((void*)(-1)) /********************** * TYPEDEFS **********************/ struct _lv_img_t; typedef struct { /* The first 8 bit is very important to distinguish the different source types. * For more info see `lv_img_get_src_type()` in lv_img.c */ uint32_t cf :5; /* Color format: See `lv_img_color_format_t`*/ uint32_t always_zero :3; /*It the upper bits of the first byte. Always zero to look like a non-printable character*/ uint32_t reserved :2; /*Reserved to be used later*/ uint32_t w:11; /*Width of the image map*/ uint32_t h:11; /*Height of the image map*/ } lv_img_header_t; /*Image color format*/ enum { LV_IMG_CF_UNKOWN = 0, LV_IMG_CF_RAW, /*Contains the file as it is. Needs custom decoder function*/ LV_IMG_CF_RAW_ALPHA, /*Contains the file as it is. The image has alpha. Needs custom decoder function*/ LV_IMG_CF_RAW_CHROMA_KEYED, /*Contains the file as it is. The image is chroma keyed. Needs custom decoder function*/ LV_IMG_CF_TRUE_COLOR, /*Color format and depth should match with LV_COLOR settings*/ LV_IMG_CF_TRUE_COLOR_ALPHA, /*Same as `LV_IMG_CF_TRUE_COLOR` but every pixel has an alpha byte*/ LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED, /*Same as `LV_IMG_CF_TRUE_COLOR` but LV_COLOR_TRANSP pixels will be transparent*/ LV_IMG_CF_INDEXED_1BIT, /*Can have 2 different colors in a palette (always chroma keyed)*/ LV_IMG_CF_INDEXED_2BIT, /*Can have 4 different colors in a palette (always chroma keyed)*/ LV_IMG_CF_INDEXED_4BIT, /*Can have 16 different colors in a palette (always chroma keyed)*/ LV_IMG_CF_INDEXED_8BIT, /*Can have 256 different colors in a palette (always chroma keyed)*/ LV_IMG_CF_ALPHA_1BIT, /*Can have one color and it can be drawn or not*/ LV_IMG_CF_ALPHA_2BIT, /*Can have one color but 4 different alpha value*/ LV_IMG_CF_ALPHA_4BIT, /*Can have one color but 16 different alpha value*/ LV_IMG_CF_ALPHA_8BIT, /*Can have one color but 256 different alpha value*/ }; typedef uint8_t lv_img_cf_t; /* Image header it is compatible with * the result image converter utility*/ typedef struct { lv_img_header_t header; uint32_t data_size; const uint8_t * data; } lv_img_dsc_t; /* Decoder function definitions */ /** * Get info from an image and store in the `header` * @param src the image source. Can be a pointer to a C array or a file name (Use `lv_img_src_get_type` to determine the type) * @param header store the info here * @return LV_RES_OK: info written correctly; LV_RES_INV: failed */ typedef lv_res_t (*lv_img_decoder_info_f_t)(const void * src, lv_img_header_t * header); /** * Open an image for decoding. Prepare it as it is required to read it later * @param src the image source. Can be a pointer to a C array or a file name (Use `lv_img_src_get_type` to determine the type) * @param style the style of image (maybe it will be required to determine a color or something) * @return there are 3 possible return values: * 1) buffer with the decoded image * 2) if can decode the whole image NULL. decoder_read_line will be called to read the image line-by-line * 3) LV_IMG_DECODER_OPEN_FAIL if the image format is unknown to the decoder or an error occurred */ typedef const uint8_t * (*lv_img_decoder_open_f_t)(const void * src, const lv_style_t * style); /** * Decode `len` pixels starting from the given `x`, `y` coordinates and store them in `buf`. * Required only if the "open" function can't return with the whole decoded pixel array. * @param x start x coordinate * @param y startt y coordinate * @param len number of pixels to decode * @param buf a buffer to store the decoded pixels * @return LV_RES_OK: ok; LV_RES_INV: failed */ typedef lv_res_t (*lv_img_decoder_read_line_f_t)(lv_coord_t x, lv_coord_t y, lv_coord_t len, uint8_t * buf); /** * Close the pending decoding. Free resources etc. */ typedef void (*lv_img_decoder_close_f_t)(void); /********************** * GLOBAL PROTOTYPES **********************/ /** * Draw an image * @param coords the coordinates of the image * @param mask the image will be drawn only in this area * @param src pointer to a lv_color_t array which contains the pixels of the image * @param style style of the image * @param opa_scale scale down all opacities by the factor */ void lv_draw_img(const lv_area_t * coords, const lv_area_t * mask, const void * src, const lv_style_t * style, lv_opa_t opa_scale); /** * Get the type of an image source * @param src pointer to an image source: * - pointer to an 'lv_img_t' variable (image stored internally and compiled into the code) * - a path to a file (e.g. "S:/folder/image.bin") * - or a symbol (e.g. SYMBOL_CLOSE) * @return type of the image source LV_IMG_SRC_VARIABLE/FILE/SYMBOL/UNKOWN */ lv_img_src_t lv_img_src_get_type(const void * src); /** * Set custom decoder functions. See the typdefs of the function typed above for more info about them * @param info_fp info get function * @param open_fp open function * @param read_fp read line function * @param close_fp clode function */ void lv_img_decoder_set_custom(lv_img_decoder_info_f_t info_fp, lv_img_decoder_open_f_t open_fp, lv_img_decoder_read_line_f_t read_fp, lv_img_decoder_close_f_t close_fp); lv_res_t lv_img_dsc_get_info(const char * src, lv_img_header_t * header); uint8_t lv_img_color_format_get_px_size(lv_img_cf_t cf); bool lv_img_color_format_is_chroma_keyed(lv_img_cf_t cf); bool lv_img_color_format_has_alpha(lv_img_cf_t cf); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_TEMPL_H*/ ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_label.c ================================================ /** * @file lv_draw_label.c * */ /********************* * INCLUDES *********************/ #include "lv_draw_label.h" #include "lv_draw_rbasic.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ #define LABEL_RECOLOR_PAR_LENGTH 6 /********************** * TYPEDEFS **********************/ enum { CMD_STATE_WAIT, CMD_STATE_PAR, CMD_STATE_IN, }; typedef uint8_t cmd_state_t; /********************** * STATIC PROTOTYPES **********************/ static uint8_t hex_char_to_num(char hex); /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Write a text * @param coords coordinates of the label * @param mask the label will be drawn only in this area * @param style pointer to a style * @param opa_scale scale down all opacities by the factor * @param txt 0 terminated text to write * @param flag settings for the text from 'txt_flag_t' enum * @param offset text offset in x and y direction (NULL if unused) * */ void lv_draw_label(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale, const char * txt, lv_txt_flag_t flag, lv_point_t * offset) { const lv_font_t * font = style->text.font; lv_coord_t w; if((flag & LV_TXT_FLAG_EXPAND) == 0) { /*Normally use the label's width as width*/ w = lv_area_get_width(coords); } else { /*If EXAPND is enabled then not limit the text's width to the object's width*/ lv_point_t p; lv_txt_get_size(&p, txt, style->text.font, style->text.letter_space, style->text.line_space, LV_COORD_MAX, flag); w = p.x; } lv_coord_t line_height = lv_font_get_height(font) + style->text.line_space; /*Init variables for the first line*/ lv_coord_t line_width = 0; lv_point_t pos; pos.x = coords->x1; pos.y = coords->y1; lv_coord_t x_ofs = 0; lv_coord_t y_ofs = 0; if(offset != NULL) { x_ofs = offset->x; y_ofs = offset->y; pos.y += y_ofs; } uint32_t line_start = 0; uint32_t line_end = lv_txt_get_next_line(txt, font, style->text.letter_space, w, flag); /*Go the first visible line*/ while(pos.y + line_height < mask->y1) { /*Go to next line*/ line_start = line_end; line_end += lv_txt_get_next_line(&txt[line_start], font, style->text.letter_space, w, flag); pos.y += line_height; if(txt[line_start] == '\0') return; } /*Align to middle*/ if(flag & LV_TXT_FLAG_CENTER) { line_width = lv_txt_get_width(&txt[line_start], line_end - line_start, font, style->text.letter_space, flag); pos.x += (lv_area_get_width(coords) - line_width) / 2; } /*Align to the right*/ else if(flag & LV_TXT_FLAG_RIGHT) { line_width = lv_txt_get_width(&txt[line_start], line_end - line_start, font, style->text.letter_space, flag); pos.x += lv_area_get_width(coords) - line_width; } lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->text.opa : (uint16_t)((uint16_t) style->text.opa * opa_scale) >> 8; cmd_state_t cmd_state = CMD_STATE_WAIT; uint32_t i; uint16_t par_start = 0; lv_color_t recolor; lv_coord_t letter_w; /*Real draw need a background color for higher bpp letter*/ #if LV_VDB_SIZE == 0 lv_rletter_set_background(style->body.main_color); #endif /*Write out all lines*/ while(txt[line_start] != '\0') { if(offset != NULL) { pos.x += x_ofs; } /*Write all letter of a line*/ cmd_state = CMD_STATE_WAIT; i = line_start; uint32_t letter; while(i < line_end) { letter = lv_txt_encoded_next(txt, &i); /*Handle the re-color command*/ if((flag & LV_TXT_FLAG_RECOLOR) != 0) { if(letter == (uint32_t)LV_TXT_COLOR_CMD[0]) { if(cmd_state == CMD_STATE_WAIT) { /*Start char*/ par_start = i; cmd_state = CMD_STATE_PAR; continue; } else if(cmd_state == CMD_STATE_PAR) { /*Other start char in parameter escaped cmd. char */ cmd_state = CMD_STATE_WAIT; } else if(cmd_state == CMD_STATE_IN) { /*Command end */ cmd_state = CMD_STATE_WAIT; continue; } } /*Skip the color parameter and wait the space after it*/ if(cmd_state == CMD_STATE_PAR) { if(letter == ' ') { /*Get the parameter*/ if(i - par_start == LABEL_RECOLOR_PAR_LENGTH + 1) { char buf[LABEL_RECOLOR_PAR_LENGTH + 1]; memcpy(buf, &txt[par_start], LABEL_RECOLOR_PAR_LENGTH); buf[LABEL_RECOLOR_PAR_LENGTH] = '\0'; int r, g, b; r = (hex_char_to_num(buf[0]) << 4) + hex_char_to_num(buf[1]); g = (hex_char_to_num(buf[2]) << 4) + hex_char_to_num(buf[3]); b = (hex_char_to_num(buf[4]) << 4) + hex_char_to_num(buf[5]); recolor = LV_COLOR_MAKE(r, g, b); } else { recolor.full = style->text.color.full; } cmd_state = CMD_STATE_IN; /*After the parameter the text is in the command*/ } continue; } } lv_color_t color = style->text.color; if(cmd_state == CMD_STATE_IN) color = recolor; letter_fp(&pos, mask, font, letter, color, opa); letter_w = lv_font_get_width(font, letter); if(letter_w > 0){ pos.x += letter_w + style->text.letter_space; } } /*Go to next line*/ line_start = line_end; line_end += lv_txt_get_next_line(&txt[line_start], font, style->text.letter_space, w, flag); pos.x = coords->x1; /*Align to middle*/ if(flag & LV_TXT_FLAG_CENTER) { line_width = lv_txt_get_width(&txt[line_start], line_end - line_start, font, style->text.letter_space, flag); pos.x += (lv_area_get_width(coords) - line_width) / 2; } /*Align to the right*/ else if(flag & LV_TXT_FLAG_RIGHT) { line_width = lv_txt_get_width(&txt[line_start], line_end - line_start, font, style->text.letter_space, flag); pos.x += lv_area_get_width(coords) - line_width; } /*Go the next line position*/ pos.y += line_height; if(pos.y > mask->y2) return; } } /********************** * STATIC FUNCTIONS **********************/ /** * Convert a hexadecimal characters to a number (0..15) * @param hex Pointer to a hexadecimal character (0..9, A..F) * @return the numerical value of `hex` or 0 on error */ static uint8_t hex_char_to_num(char hex) { uint8_t result = 0; if(hex >= '0' && hex <= '9') { result = hex - '0'; } else { if(hex >= 'a') hex -= 'a' - 'A'; /*Convert to upper case*/ switch(hex) { case 'A': result = 10; break; case 'B': result = 11; break; case 'C': result = 12; break; case 'D': result = 13; break; case 'E': result = 14; break; case 'F': result = 15; break; default: result = 0; break; } } return result; } ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_label.h ================================================ /** * @file lv_draw_label.h * */ #ifndef LV_DRAW_LABEL_H #define LV_DRAW_LABEL_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "lv_draw.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /** * Write a text * @param coords coordinates of the label * @param mask the label will be drawn only in this area * @param style pointer to a style * @param opa_scale scale down all opacities by the factor * @param txt 0 terminated text to write * @param flag settings for the text from 'txt_flag_t' enum * @param offset text offset in x and y direction (NULL if unused) * */ void lv_draw_label(const lv_area_t * coords,const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale, const char * txt, lv_txt_flag_t flag, lv_point_t * offset); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_DRAW_LABEL_H*/ ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_line.c ================================================ /** * @file lv_draw_line.c * */ /********************* * INCLUDES *********************/ #include #include "lv_draw.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ #if LV_COMPILER_VLA_SUPPORTED == 0 #define LINE_MAX_WIDTH 64 #endif /********************** * TYPEDEFS **********************/ typedef struct { lv_point_t p1; lv_point_t p2; lv_point_t p_act; lv_coord_t dx; lv_coord_t sx; /*-1: x1 < x2; 1: x2 >= x1*/ lv_coord_t dy; lv_coord_t sy; /*-1: y1 < y2; 1: y2 >= y1*/ lv_coord_t err; lv_coord_t e2; bool hor; /*Rather horizontal or vertical*/ } line_draw_t; typedef struct { lv_coord_t width; lv_coord_t width_1; lv_coord_t width_half; } line_width_t; /********************** * STATIC PROTOTYPES **********************/ static void line_draw_hor(line_draw_t * main_line, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); static void line_draw_ver(line_draw_t * main_line, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); static void line_draw_skew(line_draw_t * main_line, bool dir_ori, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); static void line_init(line_draw_t * line, const lv_point_t * p1, const lv_point_t * p2); static bool line_next(line_draw_t * line); static bool line_next_y(line_draw_t * line); static bool line_next_x(line_draw_t * line); /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Draw a line * @param point1 first point of the line * @param point2 second point of the line * @param mask the line will be drawn only on this area * @param style pointer to a line's style * @param opa_scale scale down all opacities by the factor */ void lv_draw_line(const lv_point_t * point1, const lv_point_t * point2, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { if(style->line.width == 0) return; if(point1->x == point2->x && point1->y == point2->y) return; line_draw_t main_line; lv_point_t p1; lv_point_t p2; /*If the line if rather vertical then be sure y1 < y2 else x1 < x2*/ if(LV_MATH_ABS(point1->x - point2->x) > LV_MATH_ABS(point1->y - point2->y)) { /*Steps less in y then x -> rather horizontal*/ if(point1->x < point2->x) { p1.x = point1->x; p1.y = point1->y; p2.x = point2->x; p2.y = point2->y; } else { p1.x = point2->x; p1.y = point2->y; p2.x = point1->x; p2.y = point1->y; } } else { /*Steps less in x then y -> rather vertical*/ if(point1->y < point2->y) { p1.x = point1->x; p1.y = point1->y; p2.x = point2->x; p2.y = point2->y; } else { p1.x = point2->x; p1.y = point2->y; p2.x = point1->x; p2.y = point1->y; } } line_init(&main_line, &p1, &p2); /*Special case draw a horizontal line*/ if(main_line.p1.y == main_line.p2.y) { line_draw_hor(&main_line, mask, style, opa_scale); } /*Special case draw a vertical line*/ else if(main_line.p1.x == main_line.p2.x) { line_draw_ver(&main_line, mask, style, opa_scale); } /*Arbitrary skew line*/ else { bool dir_ori = false; #if LV_ANTIALIAS lv_point_t p_tmp; if(main_line.hor) { if(main_line.p1.y < main_line.p2.y) { dir_ori = true; p_tmp.x = main_line.p2.x; p_tmp.y = main_line.p2.y - 1; line_init(&main_line, &p1, &p_tmp); main_line.sy = LV_MATH_ABS(main_line.sy); /*The sign can change if the line becomes horizontal*/ } else if(main_line.p1.y > main_line.p2.y) { dir_ori = false; p_tmp.x = main_line.p2.x; p_tmp.y = main_line.p2.y + 1; line_init(&main_line, &p1, &p_tmp); main_line.sy = -LV_MATH_ABS(main_line.sy); /*The sign can change if the line becomes horizontal*/ } } else { if(main_line.p1.x < main_line.p2.x) { dir_ori = true; p_tmp.x = main_line.p2.x - 1; p_tmp.y = main_line.p2.y; line_init(&main_line, &p1, &p_tmp); main_line.sx = LV_MATH_ABS(main_line.sx); /*The sign can change if the line becomes vertical*/ } else if(main_line.p1.x > main_line.p2.x) { dir_ori = false; p_tmp.x = main_line.p2.x + 1; p_tmp.y = main_line.p2.y; line_init(&main_line, &p1, &p_tmp); main_line.sx = -LV_MATH_ABS(main_line.sx); /*The sign can change if the line becomes vertical*/ } } #endif line_draw_skew(&main_line, dir_ori, mask, style, opa_scale); } } /********************** * STATIC FUNCTIONS **********************/ static void line_draw_hor(line_draw_t * main_line, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { lv_coord_t width = style->line.width - 1; lv_coord_t width_half = width >> 1; lv_coord_t width_1 = width & 0x1; lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->line.opa : (uint16_t)((uint16_t) style->line.opa * opa_scale) >> 8; lv_area_t act_area; act_area.x1 = main_line->p1.x; act_area.x2 = main_line->p2.x; act_area.y1 = main_line->p1.y - width_half - width_1; act_area.y2 = main_line->p2.y + width_half ; lv_area_t draw_area; draw_area.x1 = LV_MATH_MIN(act_area.x1, act_area.x2); draw_area.x2 = LV_MATH_MAX(act_area.x1, act_area.x2); draw_area.y1 = LV_MATH_MIN(act_area.y1, act_area.y2); draw_area.y2 = LV_MATH_MAX(act_area.y1, act_area.y2); fill_fp(&draw_area, mask, style->line.color, opa); } static void line_draw_ver(line_draw_t * main_line, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { lv_coord_t width = style->line.width - 1; lv_coord_t width_half = width >> 1; lv_coord_t width_1 = width & 0x1; lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->line.opa : (uint16_t)((uint16_t) style->line.opa * opa_scale) >> 8; lv_area_t act_area; act_area.x1 = main_line->p1.x - width_half; act_area.x2 = main_line->p2.x + width_half + width_1; act_area.y1 = main_line->p1.y; act_area.y2 = main_line->p2.y; lv_area_t draw_area; draw_area.x1 = LV_MATH_MIN(act_area.x1, act_area.x2); draw_area.x2 = LV_MATH_MAX(act_area.x1, act_area.x2); draw_area.y1 = LV_MATH_MIN(act_area.y1, act_area.y2); draw_area.y2 = LV_MATH_MAX(act_area.y1, act_area.y2); fill_fp(&draw_area, mask, style->line.color, opa); } static void line_draw_skew(line_draw_t * main_line, bool dir_ori, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->line.opa : (uint16_t)((uint16_t) style->line.opa * opa_scale) >> 8; lv_point_t vect_main, vect_norm; vect_main.x = main_line->p2.x - main_line->p1.x; vect_main.y = main_line->p2.y - main_line->p1.y; if(main_line->hor) { if(main_line->p1.y < main_line->p2.y + dir_ori) { vect_norm.x = - vect_main.y; vect_norm.y = vect_main.x; } else { vect_norm.x = vect_main.y; vect_norm.y = -vect_main.x; } } else { if(main_line->p1.x < main_line->p2.x + dir_ori) { vect_norm.x = vect_main.y; vect_norm.y = - vect_main.x; } else { vect_norm.x = - vect_main.y; vect_norm.y = vect_main.x; } } /* In case of a short but tick line the perpendicular ending is longer then the real line. * it would break the calculations so make the normal vector larger*/ vect_norm.x = vect_norm.x << 4; vect_norm.y = vect_norm.y << 4; lv_coord_t width; width = style->line.width; /* The pattern stores the points of the line ending. It has the good direction and length. * The worth case is the 45° line where pattern can have 1.41 x `width` points*/ #if LV_COMPILER_VLA_SUPPORTED lv_point_t pattern[width * 2]; #else lv_point_t pattern[LINE_MAX_WIDTH]; #endif lv_coord_t i = 0; /*Create a perpendicular pattern (a small line)*/ if(width != 0) { line_draw_t pattern_line; lv_point_t p0 = {0, 0}; line_init(&pattern_line, &p0, &vect_norm); uint32_t width_sqr = width * width; /* Run for a lot of times. Meanwhile the real width will be determined as well */ for(i = 0; i < (lv_coord_t)sizeof(pattern); i ++) { pattern[i].x = pattern_line.p_act.x; pattern[i].y = pattern_line.p_act.y; /*Finish the pattern line if it's length equal to the desired width (Use Pythagoras theorem)*/ uint32_t sqr = pattern_line.p_act.x * pattern_line.p_act.x + pattern_line.p_act.y * pattern_line.p_act.y; if(sqr >= width_sqr) { width = i; #if LV_ANTIALIAS width--; #endif break; } line_next(&pattern_line); } } #if LV_ANTIALIAS lv_coord_t width_safe = width; if(width == 0) width_safe = 1; lv_coord_t aa_last_corner; aa_last_corner = 0; #endif lv_coord_t x_center_ofs = 0; lv_coord_t y_center_ofs = 0; if(width != 0) { x_center_ofs = pattern[width - 1].x / 2; y_center_ofs = pattern[width - 1].y / 2; } else { if(main_line->hor && main_line->p1.y >= main_line->p2.y + dir_ori) pattern[0].y --; if(!main_line->hor && main_line->p1.x >= main_line->p2.x + dir_ori) pattern[0].x --; } /* Make the coordinates relative to the center */ for(i = 0; i < width; i++) { pattern[i].x -= x_center_ofs; pattern[i].y -= y_center_ofs; #if LV_ANTIALIAS if(i != 0) { if(main_line->hor) { if(pattern[i - 1].x != pattern[i].x) { lv_coord_t seg_w = pattern[i].y - pattern[aa_last_corner].y; if(main_line->sy < 0) { lv_draw_aa_ver_seg(main_line->p1.x + pattern[aa_last_corner].x - 1, main_line->p1.y + pattern[aa_last_corner].y + seg_w + 1, seg_w, mask, style->line.color, opa); lv_draw_aa_ver_seg(main_line->p2.x + pattern[aa_last_corner].x + 1, main_line->p2.y + pattern[aa_last_corner].y + seg_w + 1, -seg_w, mask, style->line.color, opa); } else { lv_draw_aa_ver_seg(main_line->p1.x + pattern[aa_last_corner].x - 1, main_line->p1.y + pattern[aa_last_corner].y, seg_w, mask, style->line.color, opa); lv_draw_aa_ver_seg(main_line->p2.x + pattern[aa_last_corner].x + 1, main_line->p2.y + pattern[aa_last_corner].y, -seg_w, mask, style->line.color, opa); } aa_last_corner = i; } } else { if(pattern[i - 1].y != pattern[i].y) { lv_coord_t seg_w = pattern[i].x - pattern[aa_last_corner].x; if(main_line->sx < 0) { lv_draw_aa_hor_seg(main_line->p1.x + pattern[aa_last_corner].x + seg_w + 1, main_line->p1.y + pattern[aa_last_corner].y - 1, seg_w, mask, style->line.color, opa); lv_draw_aa_hor_seg(main_line->p2.x + pattern[aa_last_corner].x + seg_w + 1, main_line->p2.y + pattern[aa_last_corner].y + 1, -seg_w, mask, style->line.color, opa); } else { lv_draw_aa_hor_seg(main_line->p1.x + pattern[aa_last_corner].x, main_line->p1.y + pattern[aa_last_corner].y - 1, seg_w, mask, style->line.color, opa); lv_draw_aa_hor_seg(main_line->p2.x + pattern[aa_last_corner].x, main_line->p2.y + pattern[aa_last_corner].y + 1, -seg_w, mask, style->line.color, opa); } aa_last_corner = i; } } } #endif } #if LV_ANTIALIAS /*Add the last part of anti-aliasing for the perpendicular ending*/ if(width != 0) { /*Due to rounding error with very thin lines it looks ugly*/ if(main_line->hor) { lv_coord_t seg_w = pattern[width_safe - 1].y - pattern[aa_last_corner].y; if(main_line->sy < 0) { lv_draw_aa_ver_seg(main_line->p1.x + pattern[aa_last_corner].x - 1, main_line->p1.y + pattern[aa_last_corner].y + seg_w, seg_w + main_line->sy, mask, style->line.color, opa); lv_draw_aa_ver_seg(main_line->p2.x + pattern[aa_last_corner].x + 1, main_line->p2.y + pattern[aa_last_corner].y + seg_w, -(seg_w + main_line->sy), mask, style->line.color, opa); } else { lv_draw_aa_ver_seg(main_line->p1.x + pattern[aa_last_corner].x - 1, main_line->p1.y + pattern[aa_last_corner].y, seg_w + main_line->sy, mask, style->line.color, opa); lv_draw_aa_ver_seg(main_line->p2.x + pattern[aa_last_corner].x + 1, main_line->p2.y + pattern[aa_last_corner].y, -(seg_w + main_line->sy), mask, style->line.color, opa); } } else { lv_coord_t seg_w = pattern[width_safe - 1].x - pattern[aa_last_corner].x; if(main_line->sx < 0) { lv_draw_aa_hor_seg(main_line->p1.x + pattern[aa_last_corner].x + seg_w, main_line->p1.y + pattern[aa_last_corner].y - 1, seg_w + main_line->sx, mask, style->line.color, opa); lv_draw_aa_hor_seg(main_line->p2.x + pattern[aa_last_corner].x + seg_w, main_line->p2.y + pattern[aa_last_corner].y + 1, -(seg_w + main_line->sx), mask, style->line.color, opa); } else { lv_draw_aa_hor_seg(main_line->p1.x + pattern[aa_last_corner].x, main_line->p1.y + pattern[aa_last_corner].y - 1, seg_w + main_line->sx, mask, style->line.color, opa); lv_draw_aa_hor_seg(main_line->p2.x + pattern[aa_last_corner].x, main_line->p2.y + pattern[aa_last_corner].y + 1, -(seg_w + main_line->sx), mask, style->line.color, opa); } } } #endif #if LV_ANTIALIAS /*Shift the anti aliasing on the edges (-1, 1 or 0 (zero only in case width == 0))*/ lv_coord_t aa_shift1; lv_coord_t aa_shift2; if(main_line->hor == false) { if(main_line->sx < 0) { aa_shift1 = -1; aa_shift2 = width == 0 ? 0 : aa_shift1; } else { aa_shift2 = 1; aa_shift1 = width == 0 ? 0 : aa_shift2; } } else { if(main_line->sy < 0) { aa_shift1 = -1; aa_shift2 = width == 0 ? 0 : aa_shift1; } else { aa_shift2 = 1; aa_shift1 = width == 0 ? 0 : aa_shift2; } } #endif volatile lv_point_t prev_p; prev_p.x = main_line->p1.x; prev_p.y = main_line->p1.y; lv_area_t draw_area; bool first_run = true; if(main_line->hor) { while(line_next_y(main_line)) { for(i = 0; i < width; i++) { draw_area.x1 = prev_p.x + pattern[i].x; draw_area.y1 = prev_p.y + pattern[i].y; draw_area.x2 = draw_area.x1 + main_line->p_act.x - prev_p.x - 1; draw_area.y2 = draw_area.y1; fill_fp(&draw_area, mask, style->line.color, opa); /* Fill the gaps * When stepping in y one pixel remains empty on every corner (don't do this on the first segment ) */ if(i != 0 && pattern[i].x != pattern[i - 1].x && !first_run) { px_fp(draw_area.x1, draw_area.y1 - main_line->sy, mask, style->line.color, opa); } } #if LV_ANTIALIAS lv_draw_aa_hor_seg(prev_p.x + pattern[0].x, prev_p.y + pattern[0].y - aa_shift1, -(main_line->p_act.x - prev_p.x), mask, style->line.color, opa); lv_draw_aa_hor_seg(prev_p.x + pattern[width_safe - 1].x, prev_p.y + pattern[width_safe - 1].y + aa_shift2, main_line->p_act.x - prev_p.x, mask, style->line.color, opa); #endif first_run = false; prev_p.x = main_line->p_act.x; prev_p.y = main_line->p_act.y; } for(i = 0; i < width; i++) { draw_area.x1 = prev_p.x + pattern[i].x; draw_area.y1 = prev_p.y + pattern[i].y; draw_area.x2 = draw_area.x1 + main_line->p_act.x - prev_p.x; draw_area.y2 = draw_area.y1; fill_fp(&draw_area, mask, style->line.color, opa); /* Fill the gaps * When stepping in y one pixel remains empty on every corner */ if(i != 0 && pattern[i].x != pattern[i - 1].x && !first_run) { px_fp(draw_area.x1, draw_area.y1 - main_line->sy, mask, style->line.color, opa); } } #if LV_ANTIALIAS lv_draw_aa_hor_seg(prev_p.x + pattern[0].x, prev_p.y + pattern[0].y - aa_shift1, -(main_line->p_act.x - prev_p.x + 1), mask, style->line.color, opa); lv_draw_aa_hor_seg(prev_p.x + pattern[width_safe - 1].x, prev_p.y + pattern[width_safe - 1].y + aa_shift2, main_line->p_act.x - prev_p.x + 1, mask, style->line.color, opa); #endif } /*Rather a vertical line*/ else { while(line_next_x(main_line)) { for(i = 0; i < width; i++) { draw_area.x1 = prev_p.x + pattern[i].x; draw_area.y1 = prev_p.y + pattern[i].y; draw_area.x2 = draw_area.x1; draw_area.y2 = draw_area.y1 + main_line->p_act.y - prev_p.y - 1; fill_fp(&draw_area, mask, style->line.color, opa); /* Fill the gaps * When stepping in x one pixel remains empty on every corner (don't do this on the first segment ) */ if(i != 0 && pattern[i].y != pattern[i - 1].y && !first_run) { px_fp(draw_area.x1 - main_line->sx, draw_area.y1, mask, style->line.color, opa); } } #if LV_ANTIALIAS lv_draw_aa_ver_seg(prev_p.x + pattern[0].x - aa_shift1, prev_p.y + pattern[0].y, -(main_line->p_act.y - prev_p.y), mask, style->line.color, opa); lv_draw_aa_ver_seg(prev_p.x + pattern[width_safe - 1].x + aa_shift2, prev_p.y + pattern[width_safe - 1].y, main_line->p_act.y - prev_p.y, mask, style->line.color, opa); #endif first_run = false; prev_p.x = main_line->p_act.x; prev_p.y = main_line->p_act.y; } /*Draw the last part*/ for(i = 0; i < width; i++) { draw_area.x1 = prev_p.x + pattern[i].x; draw_area.y1 = prev_p.y + pattern[i].y; draw_area.x2 = draw_area.x1; draw_area.y2 = draw_area.y1 + main_line->p_act.y - prev_p.y; fill_fp(&draw_area, mask, style->line.color, opa); /* Fill the gaps * When stepping in x one pixel remains empty on every corner */ if(i != 0 && pattern[i].y != pattern[i - 1].y && !first_run) { px_fp(draw_area.x1 - main_line->sx, draw_area.y1, mask, style->line.color, opa); } } #if LV_ANTIALIAS lv_draw_aa_ver_seg(prev_p.x + pattern[0].x - aa_shift1, prev_p.y + pattern[0].y, -(main_line->p_act.y - prev_p.y + 1), mask, style->line.color, opa); lv_draw_aa_ver_seg(prev_p.x + pattern[width_safe - 1].x + aa_shift2, prev_p.y + pattern[width_safe - 1].y, main_line->p_act.y - prev_p.y + 1, mask, style->line.color, opa); #endif } } static void line_init(line_draw_t * line, const lv_point_t * p1, const lv_point_t * p2) { line->p1.x = p1->x; line->p1.y = p1->y; line->p2.x = p2->x; line->p2.y = p2->y; line->dx = LV_MATH_ABS(line->p2.x - line->p1.x); line->sx = line->p1.x < line->p2.x ? 1 : -1; line->dy = LV_MATH_ABS(line->p2.y - line->p1.y); line->sy = line->p1.y < line->p2.y ? 1 : -1; line->err = (line->dx > line->dy ? line->dx : -line->dy) / 2; line->e2 = 0; line->hor = line->dx > line->dy ? true : false; /*Rather horizontal or vertical*/ line->p_act.x = line->p1.x; line->p_act.y = line->p1.y; } static bool line_next(line_draw_t * line) { if(line->p_act.x == line->p2.x && line->p_act.y == line->p2.y) return false; line->e2 = line->err; if(line->e2 > -line->dx) { line->err -= line->dy; line->p_act.x += line->sx; } if(line->e2 < line->dy) { line->err += line->dx; line->p_act.y += line->sy; } return true; } /** * Iterate until step one in y direction. * @param line * @return */ static bool line_next_y(line_draw_t * line) { lv_coord_t last_y = line->p_act.y; do { if(!line_next(line)) return false; } while(last_y == line->p_act.y); return true; } /** * Iterate until step one in x direction. * @param line * @return */ static bool line_next_x(line_draw_t * line) { lv_coord_t last_x = line->p_act.x; do { if(!line_next(line)) return false; } while(last_x == line->p_act.x); return true; } ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_line.h ================================================ /** * @file lv_draw_line.h * */ #ifndef LV_DRAW_LINE_H #define LV_DRAW_LINE_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /** * Draw a line * @param point1 first point of the line * @param point2 second point of the line * @param mask the line will be drawn only on this area * @param style pointer to a line's style * @param opa_scale scale down all opacities by the factor */ void lv_draw_line(const lv_point_t * point1, const lv_point_t * point2, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_DRAW_LINE_H*/ ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_rbasic.c ================================================ /** * @file lv_draw_rbasic.c * */ /********************* * INCLUDES *********************/ #include "lv_draw_rbasic.h" #if USE_LV_REAL_DRAW != 0 #include "../lv_hal/lv_hal_disp.h" #include "../lv_misc/lv_font.h" #include "lv_draw.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ static lv_color_t letter_bg_color; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Put a pixel to the display * @param x x coordinate of the pixel * @param y y coordinate of the pixel * @param mask_p the pixel will be drawn on this area * @param color color of the pixel * @param opa opacity (ignored, only for compatibility with lv_vpx) */ void lv_rpx(lv_coord_t x, lv_coord_t y, const lv_area_t * mask_p, lv_color_t color, lv_opa_t opa) { (void)opa; /*Opa is used only for compatibility with lv_vpx*/ lv_area_t area; area.x1 = x; area.y1 = y; area.x2 = x; area.y2 = y; lv_rfill(&area, mask_p, color, LV_OPA_COVER); } /** * Fill an area on the display * @param cords_p coordinates of the area to fill * @param mask_p fill only o this mask * @param color fill color * @param opa opacity (ignored, only for compatibility with lv_vfill) */ void lv_rfill(const lv_area_t * cords_p, const lv_area_t * mask_p, lv_color_t color, lv_opa_t opa) { (void)opa; /*Opa is used only for compatibility with lv_vfill*/ lv_area_t masked_area; bool union_ok = true; if(mask_p != NULL) { union_ok = lv_area_intersect(&masked_area, cords_p, mask_p); } else { lv_area_t scr_area; lv_area_set(&scr_area, 0, 0, LV_HOR_RES - 1, LV_VER_RES - 1); union_ok = lv_area_intersect(&masked_area, cords_p, &scr_area); } if(union_ok != false) { lv_disp_fill(masked_area.x1, masked_area.y1, masked_area.x2, masked_area.y2, color); } } /** * Draw a letter to the display * @param pos_p left-top coordinate of the latter * @param mask_p the letter will be drawn only on this area * @param font_p pointer to font * @param letter a letter to draw * @param color color of letter * @param opa opacity of letter (ignored, only for compatibility with lv_vletter) */ void lv_rletter(const lv_point_t * pos_p, const lv_area_t * mask_p, const lv_font_t * font_p, uint32_t letter, lv_color_t color, lv_opa_t opa) { (void)opa; /*Opa is used only for compatibility with lv_vletter*/ static uint8_t bpp1_opa_table[2] = {0, 255}; /*Opacity mapping with bpp = 1 (Just for compatibility)*/ static uint8_t bpp2_opa_table[4] = {0, 85, 170, 255}; /*Opacity mapping with bpp = 2*/ static uint8_t bpp4_opa_table[16] = {0, 17, 34, 51, /*Opacity mapping with bpp = 4*/ 68, 85, 102, 119, 136, 153, 170, 187, 204, 221, 238, 255 }; if(font_p == NULL) return; uint8_t letter_w = lv_font_get_width(font_p, letter); uint8_t letter_h = lv_font_get_height(font_p); uint8_t bpp = lv_font_get_bpp(font_p, letter); /*Bit per pixel (1,2, 4 or 8)*/ uint8_t * bpp_opa_table; uint8_t mask_init; uint8_t mask; switch(bpp) { case 1: bpp_opa_table = bpp1_opa_table; mask_init = 0x80; break; case 2: bpp_opa_table = bpp2_opa_table; mask_init = 0xC0; break; case 4: bpp_opa_table = bpp4_opa_table; mask_init = 0xF0; break; case 8: bpp_opa_table = NULL; mask_init = 0xFF; break; /*No opa table, pixel value will be used directly*/ default: return; /*Invalid bpp. Can't render the letter*/ } const uint8_t * map_p = lv_font_get_bitmap(font_p, letter); if(map_p == NULL) return; /*If the letter is completely out of mask don't draw it */ if(pos_p->x + letter_w < mask_p->x1 || pos_p->x > mask_p->x2 || pos_p->y + letter_h < mask_p->y1 || pos_p->y > mask_p->y2) return; lv_coord_t col, row; uint8_t col_bit; uint8_t col_byte_cnt; uint8_t width_byte_scr = letter_w >> 3; /*Width in bytes (on the screen finally) (e.g. w = 11 -> 2 bytes wide)*/ if(letter_w & 0x7) width_byte_scr++; uint8_t width_byte_bpp = (letter_w * bpp) >> 3; /*Letter width in byte. Real width in the font*/ if((letter_w * bpp) & 0x7) width_byte_bpp++; /* Calculate the col/row start/end on the map*/ lv_coord_t col_start = pos_p->x >= mask_p->x1 ? 0 : mask_p->x1 - pos_p->x; lv_coord_t col_end = pos_p->x + letter_w <= mask_p->x2 ? letter_w : mask_p->x2 - pos_p->x + 1; lv_coord_t row_start = pos_p->y >= mask_p->y1 ? 0 : mask_p->y1 - pos_p->y; lv_coord_t row_end = pos_p->y + letter_h <= mask_p->y2 ? letter_h : mask_p->y2 - pos_p->y + 1; /*Move on the map too*/ map_p += (row_start * width_byte_bpp) + ((col_start * bpp) >> 3); uint8_t letter_px; for(row = row_start; row < row_end; row ++) { col_byte_cnt = 0; col_bit = (col_start * bpp) % 8; mask = mask_init >> col_bit; for(col = col_start; col < col_end; col ++) { letter_px = (*map_p & mask) >> (8 - col_bit - bpp); if(letter_px != 0) { lv_rpx(pos_p->x + col, pos_p->y + row, mask_p, lv_color_mix(color, letter_bg_color, bpp == 8 ? letter_px : bpp_opa_table[letter_px]), LV_OPA_COVER); } if(col_bit < 8 - bpp) { col_bit += bpp; mask = mask >> bpp; } else { col_bit = 0; col_byte_cnt ++; mask = mask_init; map_p ++; } } map_p += (width_byte_bpp) - col_byte_cnt; } } /** * When the letter is ant-aliased it needs to know the background color * @param bg_color the background color of the currently drawn letter */ void lv_rletter_set_background(lv_color_t color) { letter_bg_color = color; } /** * Draw a color map to the display (image) * @param cords_p coordinates the color map * @param mask_p the map will drawn only on this area * @param map_p pointer to a lv_color_t array * @param opa opacity of the map (ignored, only for compatibility with 'lv_vmap') * @param chroma_keyed true: enable transparency of LV_IMG_LV_COLOR_TRANSP color pixels * @param alpha_byte true: extra alpha byte is inserted for every pixel (not supported, only l'v_vmap' can draw it) * @param recolor mix the pixels with this color * @param recolor_opa the intense of recoloring */ void lv_rmap(const lv_area_t * cords_p, const lv_area_t * mask_p, const uint8_t * map_p, lv_opa_t opa, bool chroma_key, bool alpha_byte, lv_color_t recolor, lv_opa_t recolor_opa) { if(alpha_byte) return; /*Pixel level opacity i not supported in real map drawing*/ (void)opa; /*opa is used only for compatibility with lv_vmap*/ lv_area_t masked_a; bool union_ok; union_ok = lv_area_intersect(&masked_a, cords_p, mask_p); /*If there are common part of the mask and map then draw the map*/ if(union_ok == false) return; /*Go to the first pixel*/ lv_coord_t map_width = lv_area_get_width(cords_p); map_p += (masked_a.y1 - cords_p->y1) * map_width * sizeof(lv_color_t); map_p += (masked_a.x1 - cords_p->x1) * sizeof(lv_color_t); lv_coord_t row; if(recolor_opa == LV_OPA_TRANSP && chroma_key == false) { lv_coord_t mask_w = lv_area_get_width(&masked_a) - 1; for(row = masked_a.y1; row <= masked_a.y2; row++) { lv_disp_map(masked_a.x1, row, masked_a.x1 + mask_w, row, (lv_color_t *)map_p); map_p += map_width * sizeof(lv_color_t); /*Next row on the map*/ } } else { lv_color_t chroma_key_color = LV_COLOR_TRANSP; lv_coord_t col; for(row = masked_a.y1; row <= masked_a.y2; row++) { for(col = masked_a.x1; col <= masked_a.x2; col++) { lv_color_t * px_color = (lv_color_t *) &map_p[(uint32_t)(col - masked_a.x1) * sizeof(lv_color_t)]; if(chroma_key && chroma_key_color.full == px_color->full) continue; if(recolor_opa != LV_OPA_TRANSP) { lv_color_t recolored_px = lv_color_mix(recolor, *px_color, recolor_opa); lv_rpx(col, row, mask_p, recolored_px, LV_OPA_COVER); } else { lv_rpx(col, row, mask_p, *px_color, LV_OPA_COVER); } } map_p += map_width * sizeof(lv_color_t); /*Next row on the map*/ } } } /********************** * STATIC FUNCTIONS **********************/ #endif /*USE_LV_REAL_DRAW*/ ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_rbasic.h ================================================ /** * @file lv_draw_rbasic..h * */ #ifndef LV_DRAW_RBASIC_H #define LV_DRAW_RBASIC_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_REAL_DRAW != 0 #include "../lv_misc/lv_color.h" #include "../lv_misc/lv_area.h" #include "../lv_misc/lv_font.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ void lv_rpx(lv_coord_t x, lv_coord_t y, const lv_area_t * mask_p, lv_color_t color, lv_opa_t opa); /** * Fill an area on the display * @param cords_p coordinates of the area to fill * @param mask_p fill only o this mask * @param color fill color * @param opa opacity (ignored, only for compatibility with lv_vfill) */ void lv_rfill(const lv_area_t * cords_p, const lv_area_t * mask_p, lv_color_t color, lv_opa_t opa); /** * Draw a letter to the display * @param pos_p left-top coordinate of the latter * @param mask_p the letter will be drawn only on this area * @param font_p pointer to font * @param letter a letter to draw * @param color color of letter * @param opa opacity of letter (ignored, only for compatibility with lv_vletter) */ void lv_rletter(const lv_point_t * pos_p, const lv_area_t * mask_p, const lv_font_t * font_p, uint32_t letter, lv_color_t color, lv_opa_t opa); /** * When the letter is ant-aliased it needs to know the background color * @param bg_color the background color of the currently drawn letter */ void lv_rletter_set_background(lv_color_t color); /** * Draw a color map to the display (image) * @param cords_p coordinates the color map * @param mask_p the map will drawn only on this area * @param map_p pointer to a lv_color_t array * @param opa opacity of the map (ignored, only for compatibility with 'lv_vmap') * @param chroma_keyed true: enable transparency of LV_IMG_LV_COLOR_TRANSP color pixels * @param alpha_byte true: extra alpha byte is inserted for every pixel (not supported, only l'v_vmap' can draw it) * @param recolor mix the pixels with this color * @param recolor_opa the intense of recoloring */ void lv_rmap(const lv_area_t * cords_p, const lv_area_t * mask_p, const uint8_t * map_p, lv_opa_t opa, bool chroma_key, bool alpha_byte, lv_color_t recolor, lv_opa_t recolor_opa); /********************** * MACROS **********************/ #endif /*USE_LV_REAL_DRAW*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_DRAW_RBASIC_H*/ ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_rect.c ================================================ /** * @file lv_draw_rect.c * */ /********************* * INCLUDES *********************/ #include "lv_draw_rect.h" #include "../lv_misc/lv_circ.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ #define CIRCLE_AA_NON_LINEAR_OPA_THRESHOLD 5 /*Circle segment greater then this value will be anti-aliased by a non-linear (cos) opacity mapping*/ #define SHADOW_OPA_EXTRA_PRECISION 8 /*Calculate with 2^x bigger shadow opacity values to avoid rounding errors*/ #define SHADOW_BOTTOM_AA_EXTRA_RADIUS 3 /*Add extra radius with LV_SHADOW_BOTTOM to cover anti-aliased corners*/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static void lv_draw_rect_main_mid(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); static void lv_draw_rect_main_corner(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); static void lv_draw_rect_border_straight(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); static void lv_draw_rect_border_corner(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); #if USE_LV_SHADOW && LV_VDB_SIZE static void lv_draw_shadow(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); static void lv_draw_shadow_full(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); static void lv_draw_shadow_bottom(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); static void lv_draw_shadow_full_straight(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, const lv_opa_t * map); #endif static uint16_t lv_draw_cont_radius_corr(uint16_t r, lv_coord_t w, lv_coord_t h); #if LV_ANTIALIAS static lv_opa_t antialias_get_opa_circ(lv_coord_t seg, lv_coord_t px_id, lv_opa_t opa); #endif /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Draw a rectangle * @param coords the coordinates of the rectangle * @param mask the rectangle will be drawn only in this mask * @param style pointer to a style * @param opa_scale scale down all opacities by the factor */ void lv_draw_rect(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { if(lv_area_get_height(coords) < 1 || lv_area_get_width(coords) < 1) return; #if USE_LV_SHADOW && LV_VDB_SIZE if(style->body.shadow.width != 0) { lv_draw_shadow(coords, mask, style, opa_scale); } #endif if(style->body.empty == 0 && style->body.opa >= LV_OPA_MIN) { lv_draw_rect_main_mid(coords, mask, style, opa_scale); if(style->body.radius != 0) { lv_draw_rect_main_corner(coords, mask, style, opa_scale); } } if(style->body.border.width != 0 && style->body.border.part != LV_BORDER_NONE && style->body.border.opa >= LV_OPA_MIN) { lv_draw_rect_border_straight(coords, mask, style, opa_scale); if(style->body.radius != 0) { lv_draw_rect_border_corner(coords, mask, style, opa_scale); } } } /********************** * STATIC FUNCTIONS **********************/ /** * Draw the middle part (rectangular) of a rectangle * @param coords the coordinates of the original rectangle * @param mask the rectangle will be drawn only on this area * @param rects_p pointer to a rectangle style * @param opa_scale scale down all opacities by the factor */ static void lv_draw_rect_main_mid(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { uint16_t radius = style->body.radius; lv_color_t mcolor = style->body.main_color; lv_color_t gcolor = style->body.grad_color; uint8_t mix; lv_coord_t height = lv_area_get_height(coords); lv_coord_t width = lv_area_get_width(coords); lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->body.opa : (uint16_t)((uint16_t) style->body.opa * opa_scale) >> 8; radius = lv_draw_cont_radius_corr(radius, width, height); /*If the radius is too big then there is no body*/ if(radius > height / 2) return; lv_area_t work_area; work_area.x1 = coords->x1; work_area.x2 = coords->x2; if(mcolor.full == gcolor.full) { work_area.y1 = coords->y1 + radius; work_area.y2 = coords->y2 - radius; if(style->body.radius != 0) { #if LV_ANTIALIAS work_area.y1 += 2; work_area.y2 -= 2; #else work_area.y1 += 1; work_area.y2 -= 1; #endif } fill_fp(&work_area, mask, mcolor, opa); } else { lv_coord_t row; lv_coord_t row_start = coords->y1 + radius; lv_coord_t row_end = coords->y2 - radius; lv_color_t act_color; if(style->body.radius != 0) { #if LV_ANTIALIAS row_start += 2; row_end -= 2; #else row_start += 1; row_end -= 1; #endif } if(row_start < 0) row_start = 0; for(row = row_start; row <= row_end; row ++) { work_area.y1 = row; work_area.y2 = row; mix = (uint32_t)((uint32_t)(coords->y2 - work_area.y1) * 255) / height; act_color = lv_color_mix(mcolor, gcolor, mix); fill_fp(&work_area, mask, act_color, opa); } } } /** * Draw the top and bottom parts (corners) of a rectangle * @param coords the coordinates of the original rectangle * @param mask the rectangle will be drawn only on this area * @param rects_p pointer to a rectangle style * @param opa_scale scale down all opacities by the factor */ static void lv_draw_rect_main_corner(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { uint16_t radius = style->body.radius; lv_color_t mcolor = style->body.main_color; lv_color_t gcolor = style->body.grad_color; lv_color_t act_color; lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->body.opa : (uint16_t)((uint16_t) style->body.opa * opa_scale) >> 8; uint8_t mix; lv_coord_t height = lv_area_get_height(coords); lv_coord_t width = lv_area_get_width(coords); radius = lv_draw_cont_radius_corr(radius, width, height); lv_point_t lt_origo; /*Left Top origo*/ lv_point_t lb_origo; /*Left Bottom origo*/ lv_point_t rt_origo; /*Right Top origo*/ lv_point_t rb_origo; /*Left Bottom origo*/ lt_origo.x = coords->x1 + radius + LV_ANTIALIAS; lt_origo.y = coords->y1 + radius + LV_ANTIALIAS; lb_origo.x = coords->x1 + radius + LV_ANTIALIAS; lb_origo.y = coords->y2 - radius - LV_ANTIALIAS; rt_origo.x = coords->x2 - radius - LV_ANTIALIAS; rt_origo.y = coords->y1 + radius + LV_ANTIALIAS; rb_origo.x = coords->x2 - radius - LV_ANTIALIAS; rb_origo.y = coords->y2 - radius - LV_ANTIALIAS; lv_area_t edge_top_area; lv_area_t mid_top_area; lv_area_t mid_bot_area; lv_area_t edge_bot_area; lv_point_t cir; lv_coord_t cir_tmp; lv_circ_init(&cir, &cir_tmp, radius); /*Init the areas*/ lv_area_set(&mid_bot_area, lb_origo.x + LV_CIRC_OCT4_X(cir), lb_origo.y + LV_CIRC_OCT4_Y(cir), rb_origo.x + LV_CIRC_OCT1_X(cir), rb_origo.y + LV_CIRC_OCT1_Y(cir)); lv_area_set(&edge_bot_area, lb_origo.x + LV_CIRC_OCT3_X(cir), lb_origo.y + LV_CIRC_OCT3_Y(cir), rb_origo.x + LV_CIRC_OCT2_X(cir), rb_origo.y + LV_CIRC_OCT2_Y(cir)); lv_area_set(&mid_top_area, lt_origo.x + LV_CIRC_OCT5_X(cir), lt_origo.y + LV_CIRC_OCT5_Y(cir), rt_origo.x + LV_CIRC_OCT8_X(cir), rt_origo.y + LV_CIRC_OCT8_Y(cir)); lv_area_set(&edge_top_area, lt_origo.x + LV_CIRC_OCT6_X(cir), lt_origo.y + LV_CIRC_OCT6_Y(cir), rt_origo.x + LV_CIRC_OCT7_X(cir), rt_origo.y + LV_CIRC_OCT7_Y(cir)); #if LV_ANTIALIAS /*Store some internal states for anti-aliasing*/ lv_coord_t out_y_seg_start = 0; lv_coord_t out_y_seg_end = 0; lv_coord_t out_x_last = radius; lv_color_t aa_color_hor_top; lv_color_t aa_color_hor_bottom; lv_color_t aa_color_ver; #endif while(lv_circ_cont(&cir)) { #if LV_ANTIALIAS != 0 /*New step in y on the outter circle*/ if(out_x_last != cir.x) { out_y_seg_end = cir.y; lv_coord_t seg_size = out_y_seg_end - out_y_seg_start; lv_point_t aa_p; aa_p.x = out_x_last; aa_p.y = out_y_seg_start; mix = (uint32_t)((uint32_t)(radius - out_x_last) * 255) / height; aa_color_hor_top = lv_color_mix(gcolor, mcolor, mix); aa_color_hor_bottom = lv_color_mix(mcolor, gcolor, mix); lv_coord_t i; for(i = 0; i < seg_size; i++) { lv_opa_t aa_opa; if(seg_size > CIRCLE_AA_NON_LINEAR_OPA_THRESHOLD) { /*Use non-linear opa mapping on the first segment*/ aa_opa = antialias_get_opa_circ(seg_size, i, opa); } else { aa_opa = opa - lv_draw_aa_get_opa(seg_size, i, opa); } px_fp(rb_origo.x + LV_CIRC_OCT2_X(aa_p) + i, rb_origo.y + LV_CIRC_OCT2_Y(aa_p) + 1, mask, aa_color_hor_bottom, aa_opa); px_fp(lb_origo.x + LV_CIRC_OCT3_X(aa_p) - i, lb_origo.y + LV_CIRC_OCT3_Y(aa_p) + 1, mask, aa_color_hor_bottom, aa_opa); px_fp(lt_origo.x + LV_CIRC_OCT6_X(aa_p) - i, lt_origo.y + LV_CIRC_OCT6_Y(aa_p) - 1, mask, aa_color_hor_top, aa_opa); px_fp(rt_origo.x + LV_CIRC_OCT7_X(aa_p) + i, rt_origo.y + LV_CIRC_OCT7_Y(aa_p) - 1, mask, aa_color_hor_top, aa_opa); mix = (uint32_t)((uint32_t)(radius - out_y_seg_start + i) * 255) / height; aa_color_ver = lv_color_mix(mcolor, gcolor, mix); px_fp(rb_origo.x + LV_CIRC_OCT1_X(aa_p) + 1, rb_origo.y + LV_CIRC_OCT1_Y(aa_p) + i, mask, aa_color_ver, aa_opa); px_fp(lb_origo.x + LV_CIRC_OCT4_X(aa_p) - 1, lb_origo.y + LV_CIRC_OCT4_Y(aa_p) + i, mask, aa_color_ver, aa_opa); aa_color_ver = lv_color_mix(gcolor, mcolor, mix); px_fp(lt_origo.x + LV_CIRC_OCT5_X(aa_p) - 1, lt_origo.y + LV_CIRC_OCT5_Y(aa_p) - i, mask, aa_color_ver, aa_opa); px_fp(rt_origo.x + LV_CIRC_OCT8_X(aa_p) + 1, rt_origo.y + LV_CIRC_OCT8_Y(aa_p) - i, mask, aa_color_ver, aa_opa); } out_x_last = cir.x; out_y_seg_start = out_y_seg_end; } #endif uint8_t edge_top_refr = 0; uint8_t mid_top_refr = 0; uint8_t mid_bot_refr = 0; uint8_t edge_bot_refr = 0; /* If a new row coming draw the previous * The y coordinate can remain the same so wait for a new*/ if(mid_bot_area.y1 != LV_CIRC_OCT4_Y(cir) + lb_origo.y) mid_bot_refr = 1; if(edge_bot_area.y1 != LV_CIRC_OCT2_Y(cir) + lb_origo.y) edge_bot_refr = 1; if(mid_top_area.y1 != LV_CIRC_OCT8_Y(cir) + lt_origo.y) mid_top_refr = 1; if(edge_top_area.y1 != LV_CIRC_OCT7_Y(cir) + lt_origo.y) edge_top_refr = 1; /*Draw the areas which are not disabled*/ if(edge_top_refr != 0) { if(mcolor.full == gcolor.full) act_color = mcolor; else { mix = (uint32_t)((uint32_t)(coords->y2 - edge_top_area.y1) * 255) / height; act_color = lv_color_mix(mcolor, gcolor, mix); } fill_fp(&edge_top_area, mask, act_color, opa); } if(mid_top_refr != 0) { if(mcolor.full == gcolor.full) act_color = mcolor; else { mix = (uint32_t)((uint32_t)(coords->y2 - mid_top_area.y1) * 255) / height; act_color = lv_color_mix(mcolor, gcolor, mix); } fill_fp(&mid_top_area, mask, act_color, opa); } if(mid_bot_refr != 0) { if(mcolor.full == gcolor.full) act_color = mcolor; else { mix = (uint32_t)((uint32_t)(coords->y2 - mid_bot_area.y1) * 255) / height; act_color = lv_color_mix(mcolor, gcolor, mix); } fill_fp(&mid_bot_area, mask, act_color, opa); } if(edge_bot_refr != 0) { if(mcolor.full == gcolor.full) act_color = mcolor; else { mix = (uint32_t)((uint32_t)(coords->y2 - edge_bot_area.y1) * 255) / height; act_color = lv_color_mix(mcolor, gcolor, mix); } fill_fp(&edge_bot_area, mask, act_color, opa); } /*Save the current coordinates*/ lv_area_set(&mid_bot_area, lb_origo.x + LV_CIRC_OCT4_X(cir), lb_origo.y + LV_CIRC_OCT4_Y(cir), rb_origo.x + LV_CIRC_OCT1_X(cir), rb_origo.y + LV_CIRC_OCT1_Y(cir)); lv_area_set(&edge_bot_area, lb_origo.x + LV_CIRC_OCT3_X(cir), lb_origo.y + LV_CIRC_OCT3_Y(cir), rb_origo.x + LV_CIRC_OCT2_X(cir), rb_origo.y + LV_CIRC_OCT2_Y(cir)); lv_area_set(&mid_top_area, lt_origo.x + LV_CIRC_OCT5_X(cir), lt_origo.y + LV_CIRC_OCT5_Y(cir), rt_origo.x + LV_CIRC_OCT8_X(cir), rt_origo.y + LV_CIRC_OCT8_Y(cir)); lv_area_set(&edge_top_area, lt_origo.x + LV_CIRC_OCT6_X(cir), lt_origo.y + LV_CIRC_OCT6_Y(cir), rt_origo.x + LV_CIRC_OCT7_X(cir), rt_origo.y + LV_CIRC_OCT7_Y(cir)); lv_circ_next(&cir, &cir_tmp); } if(mcolor.full == gcolor.full) act_color = mcolor; else { mix = (uint32_t)((uint32_t)(coords->y2 - edge_top_area.y1) * 255) / height; act_color = lv_color_mix(mcolor, gcolor, mix); } fill_fp(&edge_top_area, mask, act_color, opa); if(edge_top_area.y1 != mid_top_area.y1) { if(mcolor.full == gcolor.full) act_color = mcolor; else { mix = (uint32_t)((uint32_t)(coords->y2 - mid_top_area.y1) * 255) / height; act_color = lv_color_mix(mcolor, gcolor, mix); } fill_fp(&mid_top_area, mask, act_color, opa); } if(mcolor.full == gcolor.full) act_color = mcolor; else { mix = (uint32_t)((uint32_t)(coords->y2 - mid_bot_area.y1) * 255) / height; act_color = lv_color_mix(mcolor, gcolor, mix); } fill_fp(&mid_bot_area, mask, act_color, opa); if(edge_bot_area.y1 != mid_bot_area.y1) { if(mcolor.full == gcolor.full) act_color = mcolor; else { mix = (uint32_t)((uint32_t)(coords->y2 - edge_bot_area.y1) * 255) / height; act_color = lv_color_mix(mcolor, gcolor, mix); } fill_fp(&edge_bot_area, mask, act_color, opa); } #if LV_ANTIALIAS /*The first and the last line is not drawn*/ edge_top_area.x1 = coords->x1 + radius + 2; edge_top_area.x2 = coords->x2 - radius - 2; edge_top_area.y1 = coords->y1; edge_top_area.y2 = coords->y1; fill_fp(&edge_top_area, mask, style->body.main_color, opa); edge_top_area.y1 = coords->y2; edge_top_area.y2 = coords->y2; fill_fp(&edge_top_area, mask, style->body.grad_color, opa); /*Last parts of the anti-alias*/ out_y_seg_end = cir.y; lv_coord_t seg_size = out_y_seg_end - out_y_seg_start; lv_point_t aa_p; aa_p.x = out_x_last; aa_p.y = out_y_seg_start; mix = (uint32_t)((uint32_t)(radius - out_x_last) * 255) / height; aa_color_hor_bottom = lv_color_mix(gcolor, mcolor, mix); aa_color_hor_top = lv_color_mix(mcolor, gcolor, mix); lv_coord_t i; for(i = 0; i < seg_size; i++) { lv_opa_t aa_opa = opa - lv_draw_aa_get_opa(seg_size, i, opa); px_fp(rb_origo.x + LV_CIRC_OCT2_X(aa_p) + i, rb_origo.y + LV_CIRC_OCT2_Y(aa_p) + 1, mask, aa_color_hor_top, aa_opa); px_fp(lb_origo.x + LV_CIRC_OCT3_X(aa_p) - i, lb_origo.y + LV_CIRC_OCT3_Y(aa_p) + 1, mask, aa_color_hor_top, aa_opa); px_fp(lt_origo.x + LV_CIRC_OCT6_X(aa_p) - i, lt_origo.y + LV_CIRC_OCT6_Y(aa_p) - 1, mask, aa_color_hor_bottom, aa_opa); px_fp(rt_origo.x + LV_CIRC_OCT7_X(aa_p) + i, rt_origo.y + LV_CIRC_OCT7_Y(aa_p) - 1, mask, aa_color_hor_bottom, aa_opa); mix = (uint32_t)((uint32_t)(radius - out_y_seg_start + i) * 255) / height; aa_color_ver = lv_color_mix(mcolor, gcolor, mix); px_fp(rb_origo.x + LV_CIRC_OCT1_X(aa_p) + 1, rb_origo.y + LV_CIRC_OCT1_Y(aa_p) + i, mask, aa_color_ver, aa_opa); px_fp(lb_origo.x + LV_CIRC_OCT4_X(aa_p) - 1, lb_origo.y + LV_CIRC_OCT4_Y(aa_p) + i, mask, aa_color_ver, aa_opa); aa_color_ver = lv_color_mix(gcolor, mcolor, mix); px_fp(lt_origo.x + LV_CIRC_OCT5_X(aa_p) - 1, lt_origo.y + LV_CIRC_OCT5_Y(aa_p) - i, mask, aa_color_ver, aa_opa); px_fp(rt_origo.x + LV_CIRC_OCT8_X(aa_p) + 1, rt_origo.y + LV_CIRC_OCT8_Y(aa_p) - i, mask, aa_color_ver, aa_opa); } /*In some cases the last pixel is not drawn*/ if(LV_MATH_ABS(aa_p.x - aa_p.y) == seg_size) { aa_p.x = out_x_last; aa_p.y = out_x_last; mix = (uint32_t)((uint32_t)(out_x_last) * 255) / height; aa_color_hor_top = lv_color_mix(gcolor, mcolor, mix); aa_color_hor_bottom = lv_color_mix(mcolor, gcolor, mix); lv_opa_t aa_opa = opa >> 1; px_fp(rb_origo.x + LV_CIRC_OCT2_X(aa_p), rb_origo.y + LV_CIRC_OCT2_Y(aa_p), mask, aa_color_hor_bottom, aa_opa); px_fp(lb_origo.x + LV_CIRC_OCT4_X(aa_p), lb_origo.y + LV_CIRC_OCT4_Y(aa_p), mask, aa_color_hor_bottom, aa_opa); px_fp(lt_origo.x + LV_CIRC_OCT6_X(aa_p), lt_origo.y + LV_CIRC_OCT6_Y(aa_p), mask, aa_color_hor_top, aa_opa); px_fp(rt_origo.x + LV_CIRC_OCT8_X(aa_p), rt_origo.y + LV_CIRC_OCT8_Y(aa_p), mask, aa_color_hor_top, aa_opa); } #endif } /** * Draw the straight parts of a rectangle border * @param coords the coordinates of the original rectangle * @param mask_ the rectangle will be drawn only on this area * @param rstyle pointer to a rectangle style * @param opa_scale scale down all opacities by the factor */ static void lv_draw_rect_border_straight(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { uint16_t radius = style->body.radius; lv_coord_t width = lv_area_get_width(coords); lv_coord_t height = lv_area_get_height(coords); uint16_t bwidth = style->body.border.width; lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->body.border.opa : (uint16_t)((uint16_t) style->body.border.opa * opa_scale) >> 8; lv_border_part_t part = style->body.border.part; lv_color_t color = style->body.border.color; lv_area_t work_area; lv_coord_t length_corr = 0; lv_coord_t corner_size = 0; /*the 0 px border width drawn as 1 px, so decrement the b_width*/ bwidth--; radius = lv_draw_cont_radius_corr(radius, width, height); if(radius < bwidth) { length_corr = bwidth - radius - LV_ANTIALIAS; corner_size = bwidth; } else { corner_size = radius + LV_ANTIALIAS; } /*If radius == 0 is a special case*/ if(style->body.radius == 0) { /*Left top corner*/ if(part & LV_BORDER_TOP) { work_area.x1 = coords->x1; work_area.x2 = coords->x2; work_area.y1 = coords->y1; work_area.y2 = coords->y1 + bwidth; fill_fp(&work_area, mask, color, opa); } /*Right top corner*/ if(part & LV_BORDER_RIGHT) { work_area.x1 = coords->x2 - bwidth; work_area.x2 = coords->x2; work_area.y1 = coords->y1 + (part & LV_BORDER_TOP ? bwidth + 1 : 0); work_area.y2 = coords->y2 - (part & LV_BORDER_BOTTOM ? bwidth + 1 : 0); fill_fp(&work_area, mask, color, opa); } /*Left bottom corner*/ if(part & LV_BORDER_LEFT) { work_area.x1 = coords->x1; work_area.x2 = coords->x1 + bwidth; work_area.y1 = coords->y1 + (part & LV_BORDER_TOP ? bwidth + 1 : 0); work_area.y2 = coords->y2 - (part & LV_BORDER_BOTTOM ? bwidth + 1 : 0); fill_fp(&work_area, mask, color, opa); } /*Right bottom corner*/ if(part & LV_BORDER_BOTTOM) { work_area.x1 = coords->x1; work_area.x2 = coords->x2; work_area.y1 = coords->y2 - bwidth; work_area.y2 = coords->y2; fill_fp(&work_area, mask, color, opa); } return; } /* Modify the corner_size if corner is drawn */ corner_size ++; /*Depending one which part's are drawn modify the area lengths */ if(part & LV_BORDER_TOP) work_area.y1 = coords->y1 + corner_size; else work_area.y1 = coords->y1 + radius; if(part & LV_BORDER_BOTTOM) work_area.y2 = coords->y2 - corner_size; else work_area.y2 = coords->y2 - radius; /*Left border*/ if(part & LV_BORDER_LEFT) { work_area.x1 = coords->x1; work_area.x2 = work_area.x1 + bwidth; fill_fp(&work_area, mask, color, opa); } /*Right border*/ if(part & LV_BORDER_RIGHT) { work_area.x2 = coords->x2; work_area.x1 = work_area.x2 - bwidth; fill_fp(&work_area, mask, color, opa); } work_area.x1 = coords->x1 + corner_size - length_corr; work_area.x2 = coords->x2 - corner_size + length_corr; /*Upper border*/ if(part & LV_BORDER_TOP) { work_area.y1 = coords->y1; work_area.y2 = coords->y1 + bwidth; fill_fp(&work_area, mask, color, opa); } /*Lower border*/ if(part & LV_BORDER_BOTTOM) { work_area.y2 = coords->y2; work_area.y1 = work_area.y2 - bwidth; fill_fp(&work_area, mask, color, opa); } /*Draw the a remaining rectangles if the radius is smaller then bwidth */ if(length_corr != 0) { /*Left top correction*/ if((part & LV_BORDER_TOP) && (part & LV_BORDER_LEFT)) { work_area.x1 = coords->x1; work_area.x2 = coords->x1 + radius + LV_ANTIALIAS; work_area.y1 = coords->y1 + radius + 1 + LV_ANTIALIAS; work_area.y2 = coords->y1 + bwidth; fill_fp(&work_area, mask, color, opa); } /*Right top correction*/ if((part & LV_BORDER_TOP) && (part & LV_BORDER_RIGHT)) { work_area.x1 = coords->x2 - radius - LV_ANTIALIAS; work_area.x2 = coords->x2; work_area.y1 = coords->y1 + radius + 1 + LV_ANTIALIAS; work_area.y2 = coords->y1 + bwidth; fill_fp(&work_area, mask, color, opa); } /*Left bottom correction*/ if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_LEFT)) { work_area.x1 = coords->x1; work_area.x2 = coords->x1 + radius + LV_ANTIALIAS; work_area.y1 = coords->y2 - bwidth; work_area.y2 = coords->y2 - radius - 1 - LV_ANTIALIAS; fill_fp(&work_area, mask, color, opa); } /*Right bottom correction*/ if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_RIGHT)) { work_area.x1 = coords->x2 - radius - LV_ANTIALIAS; work_area.x2 = coords->x2; work_area.y1 = coords->y2 - bwidth; work_area.y2 = coords->y2 - radius - 1 - LV_ANTIALIAS; fill_fp(&work_area, mask, color, opa); } } /*If radius == 0 one px on the corners are not drawn by main drawer*/ if(style->body.radius == 0) { /*Left top corner*/ if(part & (LV_BORDER_TOP | LV_BORDER_LEFT)) { work_area.x1 = coords->x1; work_area.x2 = coords->x1 + LV_ANTIALIAS; work_area.y1 = coords->y1; work_area.y2 = coords->y1 + LV_ANTIALIAS; fill_fp(&work_area, mask, color, opa); } /*Right top corner*/ if(part & (LV_BORDER_TOP | LV_BORDER_RIGHT)) { work_area.x1 = coords->x2 - LV_ANTIALIAS; work_area.x2 = coords->x2; work_area.y1 = coords->y1; work_area.y2 = coords->y1 + LV_ANTIALIAS; fill_fp(&work_area, mask, color, opa); } /*Left bottom corner*/ if(part & (LV_BORDER_BOTTOM | LV_BORDER_LEFT)) { work_area.x1 = coords->x1; work_area.x2 = coords->x1 + LV_ANTIALIAS; work_area.y1 = coords->y2 - LV_ANTIALIAS; work_area.y2 = coords->y2; fill_fp(&work_area, mask, color, opa); } /*Right bottom corner*/ if(part & (LV_BORDER_BOTTOM | LV_BORDER_RIGHT)) { work_area.x1 = coords->x2 - LV_ANTIALIAS; work_area.x2 = coords->x2; work_area.y1 = coords->y2 - LV_ANTIALIAS; work_area.y2 = coords->y2; fill_fp(&work_area, mask, color, opa); } } } /** * Draw the corners of a rectangle border * @param coords the coordinates of the original rectangle * @param mask the rectangle will be drawn only on this area * @param style pointer to a style * @param opa_scale scale down all opacities by the factor */ static void lv_draw_rect_border_corner(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { uint16_t radius = style->body.radius ; uint16_t bwidth = style->body.border.width; lv_color_t color = style->body.border.color; lv_border_part_t part = style->body.border.part; lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->body.border.opa : (uint16_t)((uint16_t) style->body.border.opa * opa_scale) >> 8; /*0 px border width drawn as 1 px, so decrement the bwidth*/ bwidth--; #if LV_ANTIALIAS bwidth--; /*Because of anti-aliasing the border seems one pixel ticker*/ #endif lv_coord_t width = lv_area_get_width(coords); lv_coord_t height = lv_area_get_height(coords); radius = lv_draw_cont_radius_corr(radius, width, height); lv_point_t lt_origo; /*Left Top origo*/ lv_point_t lb_origo; /*Left Bottom origo*/ lv_point_t rt_origo; /*Right Top origo*/ lv_point_t rb_origo; /*Left Bottom origo*/ lt_origo.x = coords->x1 + radius + LV_ANTIALIAS; lt_origo.y = coords->y1 + radius + LV_ANTIALIAS; lb_origo.x = coords->x1 + radius + LV_ANTIALIAS; lb_origo.y = coords->y2 - radius - LV_ANTIALIAS; rt_origo.x = coords->x2 - radius - LV_ANTIALIAS; rt_origo.y = coords->y1 + radius + LV_ANTIALIAS; rb_origo.x = coords->x2 - radius - LV_ANTIALIAS; rb_origo.y = coords->y2 - radius - LV_ANTIALIAS; lv_point_t cir_out; lv_coord_t tmp_out; lv_circ_init(&cir_out, &tmp_out, radius); lv_point_t cir_in; lv_coord_t tmp_in; lv_coord_t radius_in = radius - bwidth; if(radius_in < 0) { radius_in = 0; } lv_circ_init(&cir_in, &tmp_in, radius_in); lv_area_t circ_area; lv_coord_t act_w1; lv_coord_t act_w2; #if LV_ANTIALIAS /*Store some internal states for anti-aliasing*/ lv_coord_t out_y_seg_start = 0; lv_coord_t out_y_seg_end = 0; lv_coord_t out_x_last = radius; lv_coord_t in_y_seg_start = 0; lv_coord_t in_y_seg_end = 0; lv_coord_t in_x_last = radius - bwidth; #endif while(cir_out.y <= cir_out.x) { /*Calculate the actual width to avoid overwriting pixels*/ if(cir_in.y < cir_in.x) { act_w1 = cir_out.x - cir_in.x; act_w2 = act_w1; } else { act_w1 = cir_out.x - cir_out.y; act_w2 = act_w1 - 1; } #if LV_ANTIALIAS != 0 /*New step in y on the outter circle*/ if(out_x_last != cir_out.x) { out_y_seg_end = cir_out.y; lv_coord_t seg_size = out_y_seg_end - out_y_seg_start; lv_point_t aa_p; aa_p.x = out_x_last; aa_p.y = out_y_seg_start; lv_coord_t i; for(i = 0; i < seg_size; i++) { lv_opa_t aa_opa; if(seg_size > CIRCLE_AA_NON_LINEAR_OPA_THRESHOLD) { /*Use non-linear opa mapping on the first segment*/ aa_opa = antialias_get_opa_circ(seg_size, i, opa); } else { aa_opa = opa - lv_draw_aa_get_opa(seg_size, i, opa); } if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_RIGHT)) { px_fp(rb_origo.x + LV_CIRC_OCT1_X(aa_p) + 1, rb_origo.y + LV_CIRC_OCT1_Y(aa_p) + i, mask, style->body.border.color, aa_opa); px_fp(rb_origo.x + LV_CIRC_OCT2_X(aa_p) + i, rb_origo.y + LV_CIRC_OCT2_Y(aa_p) + 1, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_LEFT)) { px_fp(lb_origo.x + LV_CIRC_OCT3_X(aa_p) - i, lb_origo.y + LV_CIRC_OCT3_Y(aa_p) + 1, mask, style->body.border.color, aa_opa); px_fp(lb_origo.x + LV_CIRC_OCT4_X(aa_p) - 1, lb_origo.y + LV_CIRC_OCT4_Y(aa_p) + i, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_LEFT)) { px_fp(lt_origo.x + LV_CIRC_OCT5_X(aa_p) - 1, lt_origo.y + LV_CIRC_OCT5_Y(aa_p) - i, mask, style->body.border.color, aa_opa); px_fp(lt_origo.x + LV_CIRC_OCT6_X(aa_p) - i, lt_origo.y + LV_CIRC_OCT6_Y(aa_p) - 1, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_RIGHT)) { px_fp(rt_origo.x + LV_CIRC_OCT7_X(aa_p) + i, rt_origo.y + LV_CIRC_OCT7_Y(aa_p) - 1, mask, style->body.border.color, aa_opa); px_fp(rt_origo.x + LV_CIRC_OCT8_X(aa_p) + 1, rt_origo.y + LV_CIRC_OCT8_Y(aa_p) - i, mask, style->body.border.color, aa_opa); } } out_x_last = cir_out.x; out_y_seg_start = out_y_seg_end; } /*New step in y on the inner circle*/ if(in_x_last != cir_in.x) { in_y_seg_end = cir_out.y; lv_coord_t seg_size = in_y_seg_end - in_y_seg_start; lv_point_t aa_p; aa_p.x = in_x_last; aa_p.y = in_y_seg_start; lv_coord_t i; for(i = 0; i < seg_size; i++) { lv_opa_t aa_opa; if(seg_size > CIRCLE_AA_NON_LINEAR_OPA_THRESHOLD) { /*Use non-linear opa mapping on the first segment*/ aa_opa = opa - antialias_get_opa_circ(seg_size, i, opa); } else { aa_opa = lv_draw_aa_get_opa(seg_size, i, opa); } if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_RIGHT)) { px_fp(rb_origo.x + LV_CIRC_OCT1_X(aa_p) - 1, rb_origo.y + LV_CIRC_OCT1_Y(aa_p) + i, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_LEFT)) { px_fp(lb_origo.x + LV_CIRC_OCT3_X(aa_p) - i, lb_origo.y + LV_CIRC_OCT3_Y(aa_p) - 1, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_LEFT)) { px_fp(lt_origo.x + LV_CIRC_OCT5_X(aa_p) + 1, lt_origo.y + LV_CIRC_OCT5_Y(aa_p) - i, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_RIGHT)) { px_fp(rt_origo.x + LV_CIRC_OCT7_X(aa_p) + i, rt_origo.y + LV_CIRC_OCT7_Y(aa_p) + 1, mask, style->body.border.color, aa_opa); } /*Be sure the pixels on the middle are not drawn twice*/ if(LV_CIRC_OCT1_X(aa_p) - 1 != LV_CIRC_OCT2_X(aa_p) + i) { if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_RIGHT)) { px_fp(rb_origo.x + LV_CIRC_OCT2_X(aa_p) + i, rb_origo.y + LV_CIRC_OCT2_Y(aa_p) - 1, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_LEFT)) { px_fp(lb_origo.x + LV_CIRC_OCT4_X(aa_p) + 1, lb_origo.y + LV_CIRC_OCT4_Y(aa_p) + i, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_LEFT)) { px_fp(lt_origo.x + LV_CIRC_OCT6_X(aa_p) - i, lt_origo.y + LV_CIRC_OCT6_Y(aa_p) + 1, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_RIGHT)) { px_fp(rt_origo.x + LV_CIRC_OCT8_X(aa_p) - 1, rt_origo.y + LV_CIRC_OCT8_Y(aa_p) - i, mask, style->body.border.color, aa_opa); } } } in_x_last = cir_in.x; in_y_seg_start = in_y_seg_end; } #endif /*Draw the octets to the right bottom corner*/ if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_RIGHT)) { circ_area.x1 = rb_origo.x + LV_CIRC_OCT1_X(cir_out) - act_w2; circ_area.x2 = rb_origo.x + LV_CIRC_OCT1_X(cir_out); circ_area.y1 = rb_origo.y + LV_CIRC_OCT1_Y(cir_out); circ_area.y2 = rb_origo.y + LV_CIRC_OCT1_Y(cir_out); fill_fp(&circ_area, mask, color, opa); circ_area.x1 = rb_origo.x + LV_CIRC_OCT2_X(cir_out); circ_area.x2 = rb_origo.x + LV_CIRC_OCT2_X(cir_out); circ_area.y1 = rb_origo.y + LV_CIRC_OCT2_Y(cir_out) - act_w1; circ_area.y2 = rb_origo.y + LV_CIRC_OCT2_Y(cir_out); fill_fp(&circ_area, mask, color, opa); } /*Draw the octets to the left bottom corner*/ if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_LEFT)) { circ_area.x1 = lb_origo.x + LV_CIRC_OCT3_X(cir_out); circ_area.x2 = lb_origo.x + LV_CIRC_OCT3_X(cir_out); circ_area.y1 = lb_origo.y + LV_CIRC_OCT3_Y(cir_out) - act_w2; circ_area.y2 = lb_origo.y + LV_CIRC_OCT3_Y(cir_out); fill_fp(&circ_area, mask, color, opa); circ_area.x1 = lb_origo.x + LV_CIRC_OCT4_X(cir_out); circ_area.x2 = lb_origo.x + LV_CIRC_OCT4_X(cir_out) + act_w1; circ_area.y1 = lb_origo.y + LV_CIRC_OCT4_Y(cir_out); circ_area.y2 = lb_origo.y + LV_CIRC_OCT4_Y(cir_out); fill_fp(&circ_area, mask, color, opa); } /*Draw the octets to the left top corner*/ if((part & LV_BORDER_TOP) && (part & LV_BORDER_LEFT)) { if(lb_origo.y + LV_CIRC_OCT4_Y(cir_out) > lt_origo.y + LV_CIRC_OCT5_Y(cir_out)) { /*Don't draw if the lines are common in the middle*/ circ_area.x1 = lt_origo.x + LV_CIRC_OCT5_X(cir_out); circ_area.x2 = lt_origo.x + LV_CIRC_OCT5_X(cir_out) + act_w2; circ_area.y1 = lt_origo.y + LV_CIRC_OCT5_Y(cir_out); circ_area.y2 = lt_origo.y + LV_CIRC_OCT5_Y(cir_out); fill_fp(&circ_area, mask, color, opa); } circ_area.x1 = lt_origo.x + LV_CIRC_OCT6_X(cir_out); circ_area.x2 = lt_origo.x + LV_CIRC_OCT6_X(cir_out); circ_area.y1 = lt_origo.y + LV_CIRC_OCT6_Y(cir_out); circ_area.y2 = lt_origo.y + LV_CIRC_OCT6_Y(cir_out) + act_w1; fill_fp(&circ_area, mask, color, opa); } /*Draw the octets to the right top corner*/ if((part & LV_BORDER_TOP) && (part & LV_BORDER_RIGHT)) { circ_area.x1 = rt_origo.x + LV_CIRC_OCT7_X(cir_out); circ_area.x2 = rt_origo.x + LV_CIRC_OCT7_X(cir_out); circ_area.y1 = rt_origo.y + LV_CIRC_OCT7_Y(cir_out); circ_area.y2 = rt_origo.y + LV_CIRC_OCT7_Y(cir_out) + act_w2; fill_fp(&circ_area, mask, color, opa); /*Don't draw if the lines are common in the middle*/ if(rb_origo.y + LV_CIRC_OCT1_Y(cir_out) > rt_origo.y + LV_CIRC_OCT8_Y(cir_out)) { circ_area.x1 = rt_origo.x + LV_CIRC_OCT8_X(cir_out) - act_w1; circ_area.x2 = rt_origo.x + LV_CIRC_OCT8_X(cir_out); circ_area.y1 = rt_origo.y + LV_CIRC_OCT8_Y(cir_out); circ_area.y2 = rt_origo.y + LV_CIRC_OCT8_Y(cir_out); fill_fp(&circ_area, mask, color, opa); } } lv_circ_next(&cir_out, &tmp_out); /*The internal circle will be ready faster * so check it! */ if(cir_in.y < cir_in.x) { lv_circ_next(&cir_in, &tmp_in); } } #if LV_ANTIALIAS != 0 /*Last parts of the outer anti-alias*/ out_y_seg_end = cir_out.y; lv_coord_t seg_size = out_y_seg_end - out_y_seg_start; lv_point_t aa_p; aa_p.x = out_x_last; aa_p.y = out_y_seg_start; lv_coord_t i; for(i = 0; i < seg_size; i++) { lv_opa_t aa_opa = opa - lv_draw_aa_get_opa(seg_size, i, opa); if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_RIGHT)) { px_fp(rb_origo.x + LV_CIRC_OCT1_X(aa_p) + 1, rb_origo.y + LV_CIRC_OCT1_Y(aa_p) + i, mask, style->body.border.color, aa_opa); px_fp(rb_origo.x + LV_CIRC_OCT2_X(aa_p) + i, rb_origo.y + LV_CIRC_OCT2_Y(aa_p) + 1, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_LEFT)) { px_fp(lb_origo.x + LV_CIRC_OCT3_X(aa_p) - i, lb_origo.y + LV_CIRC_OCT3_Y(aa_p) + 1, mask, style->body.border.color, aa_opa); px_fp(lb_origo.x + LV_CIRC_OCT4_X(aa_p) - 1, lb_origo.y + LV_CIRC_OCT4_Y(aa_p) + i, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_LEFT)) { px_fp(lt_origo.x + LV_CIRC_OCT5_X(aa_p) - 1, lt_origo.y + LV_CIRC_OCT5_Y(aa_p) - i, mask, style->body.border.color, aa_opa); px_fp(lt_origo.x + LV_CIRC_OCT6_X(aa_p) - i, lt_origo.y + LV_CIRC_OCT6_Y(aa_p) - 1, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_RIGHT)) { px_fp(rt_origo.x + LV_CIRC_OCT7_X(aa_p) + i, rt_origo.y + LV_CIRC_OCT7_Y(aa_p) - 1, mask, style->body.border.color, aa_opa); px_fp(rt_origo.x + LV_CIRC_OCT8_X(aa_p) + 1, rt_origo.y + LV_CIRC_OCT8_Y(aa_p) - i, mask, style->body.border.color, aa_opa); } } /*In some cases the last pixel in the outer middle is not drawn*/ if(LV_MATH_ABS(aa_p.x - aa_p.y) == seg_size) { aa_p.x = out_x_last; aa_p.y = out_x_last; lv_opa_t aa_opa = opa >> 1; if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_RIGHT)) { px_fp(rb_origo.x + LV_CIRC_OCT2_X(aa_p), rb_origo.y + LV_CIRC_OCT2_Y(aa_p), mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_LEFT)) { px_fp(lb_origo.x + LV_CIRC_OCT4_X(aa_p), lb_origo.y + LV_CIRC_OCT4_Y(aa_p), mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_LEFT)) { px_fp(lt_origo.x + LV_CIRC_OCT6_X(aa_p), lt_origo.y + LV_CIRC_OCT6_Y(aa_p), mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_RIGHT)) { px_fp(rt_origo.x + LV_CIRC_OCT8_X(aa_p), rt_origo.y + LV_CIRC_OCT8_Y(aa_p), mask, style->body.border.color, aa_opa); } } /*Last parts of the inner anti-alias*/ in_y_seg_end = cir_in.y; aa_p.x = in_x_last; aa_p.y = in_y_seg_start; seg_size = in_y_seg_end - in_y_seg_start; for(i = 0; i < seg_size; i++) { lv_opa_t aa_opa = lv_draw_aa_get_opa(seg_size, i, opa); if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_RIGHT)) { px_fp(rb_origo.x + LV_CIRC_OCT1_X(aa_p) - 1, rb_origo.y + LV_CIRC_OCT1_Y(aa_p) + i, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_LEFT)) { px_fp(lb_origo.x + LV_CIRC_OCT3_X(aa_p) - i, lb_origo.y + LV_CIRC_OCT3_Y(aa_p) - 1, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_LEFT)) { px_fp(lt_origo.x + LV_CIRC_OCT5_X(aa_p) + 1, lt_origo.y + LV_CIRC_OCT5_Y(aa_p) - i, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_RIGHT)) { px_fp(rt_origo.x + LV_CIRC_OCT7_X(aa_p) + i, rt_origo.y + LV_CIRC_OCT7_Y(aa_p) + 1, mask, style->body.border.color, aa_opa); } if(LV_CIRC_OCT1_X(aa_p) - 1 != LV_CIRC_OCT2_X(aa_p) + i) { if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_RIGHT)) { px_fp(rb_origo.x + LV_CIRC_OCT2_X(aa_p) + i, rb_origo.y + LV_CIRC_OCT2_Y(aa_p) - 1, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_BOTTOM) && (part & LV_BORDER_LEFT)) { px_fp(lb_origo.x + LV_CIRC_OCT4_X(aa_p) + 1, lb_origo.y + LV_CIRC_OCT4_Y(aa_p) + i, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_LEFT)) { px_fp(lt_origo.x + LV_CIRC_OCT6_X(aa_p) - i, lt_origo.y + LV_CIRC_OCT6_Y(aa_p) + 1, mask, style->body.border.color, aa_opa); } if((part & LV_BORDER_TOP) && (part & LV_BORDER_RIGHT)) { px_fp(rt_origo.x + LV_CIRC_OCT8_X(aa_p) - 1, rt_origo.y + LV_CIRC_OCT8_Y(aa_p) - i, mask, style->body.border.color, aa_opa); } } } #endif } #if USE_LV_SHADOW && LV_VDB_SIZE /** * Draw a shadow * @param rect pointer to rectangle object * @param mask pointer to a mask area (from the design functions) * @param opa_scale scale down all opacities by the factor */ static void lv_draw_shadow(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { /* If mask is in the middle of cords do not draw shadow*/ lv_coord_t radius = style->body.radius; lv_coord_t width = lv_area_get_width(coords); lv_coord_t height = lv_area_get_height(coords); radius = lv_draw_cont_radius_corr(radius, width, height); lv_area_t area_tmp; /*Check horizontally without radius*/ lv_area_copy(&area_tmp, coords); area_tmp.x1 += radius; area_tmp.x2 -= radius; if(lv_area_is_in(mask, &area_tmp) != false) return; /*Check vertically without radius*/ lv_area_copy(&area_tmp, coords); area_tmp.y1 += radius; area_tmp.y2 -= radius; if(lv_area_is_in(mask, &area_tmp) != false) return; if(style->body.shadow.type == LV_SHADOW_FULL) { lv_draw_shadow_full(coords, mask, style, opa_scale); } else if(style->body.shadow.type == LV_SHADOW_BOTTOM) { lv_draw_shadow_bottom(coords, mask, style, opa_scale); } } static void lv_draw_shadow_full(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { /* KNOWN ISSUE * The algorithm calculates the shadow only above the middle point of the radius (speaking about the left top corner). * It causes an error because it doesn't consider how long the straight edge is which effects the value of bottom of the corner shadow. * In addition the straight shadow is drawn from the middles point of the radius however * the ends of the straight parts still should be effected by the corner shadow. * It also causes an issue in opacity. A smaller radius means smaller average shadow opacity. * The solution should be to start `line` from `- swidth` and handle if the straight part is short (or zero) and the value is taken from * the other corner. `col` also should start from `- swidth` */ lv_coord_t radius = style->body.radius; lv_coord_t swidth = style->body.shadow.width; lv_coord_t width = lv_area_get_width(coords); lv_coord_t height = lv_area_get_height(coords); radius = lv_draw_cont_radius_corr(radius, width, height); radius += LV_ANTIALIAS; #if LV_COMPILER_VLA_SUPPORTED lv_coord_t curve_x[radius + swidth + 1]; /*Stores the 'x' coordinates of a quarter circle.*/ #else # if LV_HOR_RES > LV_VER_RES lv_coord_t curve_x[LV_HOR_RES]; # else lv_coord_t curve_x[LV_VER_RES]; # endif #endif memset(curve_x, 0, sizeof(curve_x)); lv_point_t circ; lv_coord_t circ_tmp; lv_circ_init(&circ, &circ_tmp, radius); while(lv_circ_cont(&circ)) { curve_x[LV_CIRC_OCT1_Y(circ)] = LV_CIRC_OCT1_X(circ); curve_x[LV_CIRC_OCT2_Y(circ)] = LV_CIRC_OCT2_X(circ); lv_circ_next(&circ, &circ_tmp); } int16_t line; int16_t filter_width = 2 * swidth + 1; #if LV_COMPILER_VLA_SUPPORTED uint32_t line_1d_blur[filter_width]; #else # if LV_HOR_RES > LV_VER_RES uint32_t line_1d_blur[LV_HOR_RES]; # else uint32_t line_1d_blur[LV_VER_RES]; # endif #endif /*1D Blur horizontally*/ lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->body.opa : (uint16_t)((uint16_t) style->body.opa * opa_scale) >> 8; for(line = 0; line < filter_width; line++) { line_1d_blur[line] = (uint32_t)((uint32_t)(filter_width - line) * (opa * 2) << SHADOW_OPA_EXTRA_PRECISION) / (filter_width * filter_width); } uint16_t col; #if LV_COMPILER_VLA_SUPPORTED lv_opa_t line_2d_blur[radius + swidth + 1]; #else # if LV_HOR_RES > LV_VER_RES lv_opa_t line_2d_blur[LV_HOR_RES]; # else lv_opa_t line_2d_blur[LV_VER_RES]; # endif #endif lv_point_t point_rt; lv_point_t point_rb; lv_point_t point_lt; lv_point_t point_lb; lv_point_t ofs_rb; lv_point_t ofs_rt; lv_point_t ofs_lb; lv_point_t ofs_lt; ofs_rb.x = coords->x2 - radius - LV_ANTIALIAS; ofs_rb.y = coords->y2 - radius - LV_ANTIALIAS; ofs_rt.x = coords->x2 - radius - LV_ANTIALIAS; ofs_rt.y = coords->y1 + radius + LV_ANTIALIAS; ofs_lb.x = coords->x1 + radius + LV_ANTIALIAS; ofs_lb.y = coords->y2 - radius - LV_ANTIALIAS; ofs_lt.x = coords->x1 + radius + LV_ANTIALIAS; ofs_lt.y = coords->y1 + radius + LV_ANTIALIAS; bool line_ready; for(line = 0; line <= radius + swidth; line++) { /*Check all rows and make the 1D blur to 2D*/ line_ready = false; for(col = 0; col <= radius + swidth; col++) { /*Check all pixels in a 1D blur line (from the origo to last shadow pixel (radius + swidth))*/ /*Sum the opacities from the lines above and below this 'row'*/ int16_t line_rel; uint32_t px_opa_sum = 0; for(line_rel = -swidth; line_rel <= swidth; line_rel ++) { /*Get the relative x position of the 'line_rel' to 'line'*/ int16_t col_rel; if(line + line_rel < 0) { /*Below the radius, here is the blur of the edge */ col_rel = radius - curve_x[line] - col; } else if(line + line_rel > radius) { /*Above the radius, here won't be more 1D blur*/ break; } else { /*Blur from the curve*/ col_rel = curve_x[line + line_rel] - curve_x[line] - col; } /*Add the value of the 1D blur on 'col_rel' position*/ if(col_rel < -swidth) { /*Outside of the blurred area. */ if(line_rel == -swidth) line_ready = true; /*If no data even on the very first line then it wont't be anything else in this line*/ break; /*Break anyway because only smaller 'col_rel' values will come */ } else if(col_rel > swidth) px_opa_sum += line_1d_blur[0]; /*Inside the not blurred area*/ else px_opa_sum += line_1d_blur[swidth - col_rel]; /*On the 1D blur (+ swidth to align to the center)*/ } line_2d_blur[col] = px_opa_sum >> SHADOW_OPA_EXTRA_PRECISION; if(line_ready) { col++; /*To make this line to the last one ( drawing will go to '< col')*/ break; } } /*Flush the line*/ point_rt.x = curve_x[line] + ofs_rt.x + 1; point_rt.y = ofs_rt.y - line; point_rb.x = curve_x[line] + ofs_rb.x + 1; point_rb.y = ofs_rb.y + line; point_lt.x = ofs_lt.x - curve_x[line] - 1; point_lt.y = ofs_lt.y - line; point_lb.x = ofs_lb.x - curve_x[line] - 1; point_lb.y = ofs_lb.y + line; uint16_t d; for(d = 1; d < col; d++) { if(point_lt.x < ofs_lt.x && point_lt.y < ofs_lt.y) { px_fp(point_lt.x, point_lt.y, mask, style->body.shadow.color, line_2d_blur[d]); } if(point_lb.x < ofs_lb.x && point_lb.y > ofs_lb.y) { px_fp(point_lb.x, point_lb.y, mask, style->body.shadow.color, line_2d_blur[d]); } if(point_rt.x > ofs_rt.x && point_rt.y < ofs_rt.y) { px_fp(point_rt.x, point_rt.y, mask, style->body.shadow.color, line_2d_blur[d]); } if(point_rb.x > ofs_rb.x && point_rb.y > ofs_rb.y) { px_fp(point_rb.x, point_rb.y, mask, style->body.shadow.color, line_2d_blur[d]); } point_rb.x++; point_lb.x--; point_rt.x++; point_lt.x--; } /* Put the first line to the edges too. * It is not correct because blur should be done below the corner too * but is is simple, fast and gives a good enough result*/ if(line == 0) lv_draw_shadow_full_straight(coords, mask, style, line_2d_blur); } } static void lv_draw_shadow_bottom(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale) { lv_coord_t radius = style->body.radius; lv_coord_t swidth = style->body.shadow.width; lv_coord_t width = lv_area_get_width(coords); lv_coord_t height = lv_area_get_height(coords); radius = lv_draw_cont_radius_corr(radius, width, height); radius += LV_ANTIALIAS * SHADOW_BOTTOM_AA_EXTRA_RADIUS; swidth += LV_ANTIALIAS; #if LV_COMPILER_VLA_SUPPORTED lv_coord_t curve_x[radius + 1]; /*Stores the 'x' coordinates of a quarter circle.*/ #else # if LV_HOR_RES > LV_VER_RES lv_coord_t curve_x[LV_HOR_RES]; # else lv_coord_t curve_x[LV_VER_RES]; # endif #endif lv_point_t circ; lv_coord_t circ_tmp; lv_circ_init(&circ, &circ_tmp, radius); while(lv_circ_cont(&circ)) { curve_x[LV_CIRC_OCT1_Y(circ)] = LV_CIRC_OCT1_X(circ); curve_x[LV_CIRC_OCT2_Y(circ)] = LV_CIRC_OCT2_X(circ); lv_circ_next(&circ, &circ_tmp); } int16_t col; #if LV_COMPILER_VLA_SUPPORTED lv_opa_t line_1d_blur[swidth]; #else # if LV_HOR_RES > LV_VER_RES lv_opa_t line_1d_blur[LV_HOR_RES]; # else lv_opa_t line_1d_blur[LV_VER_RES]; # endif #endif lv_opa_t opa = opa_scale == LV_OPA_COVER ? style->body.opa : (uint16_t)((uint16_t) style->body.opa * opa_scale) >> 8; for(col = 0; col < swidth; col++) { line_1d_blur[col] = (uint32_t)((uint32_t)(swidth - col) * opa / 2) / (swidth); } lv_point_t point_l; lv_point_t point_r; lv_area_t area_mid; lv_point_t ofs_l; lv_point_t ofs_r; ofs_l.x = coords->x1 + radius; ofs_l.y = coords->y2 - radius + 1 - LV_ANTIALIAS; ofs_r.x = coords->x2 - radius; ofs_r.y = coords->y2 - radius + 1 - LV_ANTIALIAS; for(col = 0; col <= radius; col++) { point_l.x = ofs_l.x - col ; point_l.y = ofs_l.y + curve_x[col]; point_r.x = ofs_r.x + col; point_r.y = ofs_r.y + curve_x[col]; lv_opa_t px_opa; int16_t diff = col == 0 ? 0 : curve_x[col - 1] - curve_x[col]; uint16_t d; for(d = 0; d < swidth; d++) { /*When stepping a pixel in y calculate the average with the pixel from the prev. column to make a blur */ if(diff == 0) { px_opa = line_1d_blur[d]; } else { px_opa = (uint16_t)((uint16_t)line_1d_blur[d] + line_1d_blur[d - diff]) >> 1; } px_fp(point_l.x, point_l.y, mask, style->body.shadow.color, px_opa); point_l.y ++; /*Don't overdraw the pixel on the middle*/ if(point_r.x > ofs_l.x) { px_fp(point_r.x, point_r.y, mask, style->body.shadow.color, px_opa); } point_r.y ++; } } area_mid.x1 = ofs_l.x + 1; area_mid.y1 = ofs_l.y + radius; area_mid.x2 = ofs_r.x - 1; area_mid.y2 = area_mid.y1; uint16_t d; for(d = 0; d < swidth; d++) { fill_fp(&area_mid, mask, style->body.shadow.color, line_1d_blur[d]); area_mid.y1 ++; area_mid.y2 ++; } } static void lv_draw_shadow_full_straight(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, const lv_opa_t * map) { lv_coord_t radius = style->body.radius; lv_coord_t swidth = style->body.shadow.width;// + LV_ANTIALIAS; lv_coord_t width = lv_area_get_width(coords); lv_coord_t height = lv_area_get_height(coords); radius = lv_draw_cont_radius_corr(radius, width, height); radius += LV_ANTIALIAS; lv_area_t right_area; right_area.x1 = coords->x2 + 1 - LV_ANTIALIAS; right_area.y1 = coords->y1 + radius + LV_ANTIALIAS; right_area.x2 = right_area.x1; right_area.y2 = coords->y2 - radius - LV_ANTIALIAS; lv_area_t left_area; left_area.x1 = coords->x1 - 1 + LV_ANTIALIAS; left_area.y1 = coords->y1 + radius + LV_ANTIALIAS; left_area.x2 = left_area.x1; left_area.y2 = coords->y2 - radius - LV_ANTIALIAS; lv_area_t top_area; top_area.x1 = coords->x1 + radius + LV_ANTIALIAS; top_area.y1 = coords->y1 - 1 + LV_ANTIALIAS; top_area.x2 = coords->x2 - radius - LV_ANTIALIAS; top_area.y2 = top_area.y1; lv_area_t bottom_area; bottom_area.x1 = coords->x1 + radius + LV_ANTIALIAS; bottom_area.y1 = coords->y2 + 1 - LV_ANTIALIAS; bottom_area.x2 = coords->x2 - radius - LV_ANTIALIAS; bottom_area.y2 = bottom_area.y1; lv_opa_t opa_act; int16_t d; for(d = 1 /*+ LV_ANTIALIAS*/; d <= swidth/* - LV_ANTIALIAS*/; d++) { opa_act = map[d]; fill_fp(&right_area, mask, style->body.shadow.color, opa_act); right_area.x1++; right_area.x2++; fill_fp(&left_area, mask, style->body.shadow.color, opa_act); left_area.x1--; left_area.x2--; fill_fp(&top_area, mask, style->body.shadow.color, opa_act); top_area.y1--; top_area.y2--; fill_fp(&bottom_area, mask, style->body.shadow.color, opa_act); bottom_area.y1++; bottom_area.y2++; } } #endif static uint16_t lv_draw_cont_radius_corr(uint16_t r, lv_coord_t w, lv_coord_t h) { if(r >= (w >> 1)) { r = (w >> 1); if(r != 0) r--; } if(r >= (h >> 1)) { r = (h >> 1); if(r != 0) r--; } if(r > 0) r -= LV_ANTIALIAS; return r; } #if LV_ANTIALIAS /** * Approximate the opacity for anti-aliasing. * Used the first segment of a circle which is the longest and have the most non-linearity (cos) * @param seg length of the line segment * @param px_id index of pixel on the line segment * @param line_opa opacity of the lien (it will be the max opacity) * @return the desired opacity of the pixel */ static lv_opa_t antialias_get_opa_circ(lv_coord_t seg, lv_coord_t px_id, lv_opa_t opa) { static const lv_opa_t opa_map[8] = {250, 242, 221, 196, 163, 122, 74, 18}; if(seg == 0) return LV_OPA_TRANSP; else if(seg == 1) return LV_OPA_80; else { uint8_t id = (uint32_t)((uint32_t)px_id * (sizeof(opa_map) - 1)) / (seg - 1); return (uint32_t)((uint32_t) opa_map[id] * opa) >> 8; } } #endif ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_rect.h ================================================ /** * @file lv_draw_rect.h * */ #ifndef LV_DRAW_RECT_H #define LV_DRAW_RECT_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "lv_draw.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /** * Draw a rectangle * @param coords the coordinates of the rectangle * @param mask the rectangle will be drawn only in this mask * @param style pointer to a style * @param opa_scale scale down all opacities by the factor */ void lv_draw_rect(const lv_area_t * coords, const lv_area_t * mask, const lv_style_t * style, lv_opa_t opa_scale); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_DRAW_RECT_H*/ ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_triangle.c ================================================ /** * @file lv_draw_triangle.c * */ /********************* * INCLUDES *********************/ #include "lv_draw_triangle.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ static void point_swap(lv_point_t * p1, lv_point_t * p2); /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ #if USE_LV_TRIANGLE != 0 /** * * @param points pointer to an array with 3 points * @param mask the triangle will be drawn only in this mask * @param color color of the triangle */ void lv_draw_triangle(const lv_point_t * points, const lv_area_t * mask, lv_color_t color) { lv_point_t tri[3]; memcpy(tri, points, sizeof(tri)); /*Sort the vertices according to their y coordinate (0: y max, 1: y mid, 2:y min)*/ if(tri[1].y < tri[0].y) point_swap(&tri[1], &tri[0]); if(tri[2].y < tri[1].y) point_swap(&tri[2], &tri[1]); if(tri[1].y < tri[0].y) point_swap(&tri[1], &tri[0]); /*Return is the triangle is degenerated*/ if(tri[0].x == tri[1].x && tri[0].y == tri[1].y) return; if(tri[1].x == tri[2].x && tri[1].y == tri[2].y) return; if(tri[0].x == tri[2].x && tri[0].y == tri[2].y) return; if(tri[0].x == tri[1].x && tri[1].x == tri[2].x) return; if(tri[0].y == tri[1].y && tri[1].y == tri[2].y) return; /*Draw the triangle*/ lv_point_t edge1; lv_coord_t dx1 = LV_MATH_ABS(tri[0].x - tri[1].x); lv_coord_t sx1 = tri[0].x < tri[1].x ? 1 : -1; lv_coord_t dy1 = LV_MATH_ABS(tri[0].y - tri[1].y); lv_coord_t sy1 = tri[0].y < tri[1].y ? 1 : -1; lv_coord_t err1 = (dx1 > dy1 ? dx1 : -dy1) / 2; lv_coord_t err_tmp1; lv_point_t edge2; lv_coord_t dx2 = LV_MATH_ABS(tri[0].x - tri[2].x); lv_coord_t sx2 = tri[0].x < tri[2].x ? 1 : -1; lv_coord_t dy2 = LV_MATH_ABS(tri[0].y - tri[2].y); lv_coord_t sy2 = tri[0].y < tri[2].y ? 1 : -1; lv_coord_t err2 = (dx1 > dy2 ? dx2 : -dy2) / 2; lv_coord_t err_tmp2; lv_coord_t y1_tmp; lv_coord_t y2_tmp; edge1.x = tri[0].x; edge1.y = tri[0].y; edge2.x = tri[0].x; edge2.y = tri[0].y; lv_area_t act_area; lv_area_t draw_area; while(1) { act_area.x1 = edge1.x; act_area.x2 = edge2.x ; act_area.y1 = edge1.y; act_area.y2 = edge2.y ; draw_area.x1 = LV_MATH_MIN(act_area.x1, act_area.x2); draw_area.x2 = LV_MATH_MAX(act_area.x1, act_area.x2); draw_area.y1 = LV_MATH_MIN(act_area.y1, act_area.y2); draw_area.y2 = LV_MATH_MAX(act_area.y1, act_area.y2); draw_area.x2--; /*Do not draw most right pixel because it will be drawn by the adjacent triangle*/ fill_fp(&draw_area, mask, color, LV_OPA_50); /*Calc. the next point of edge1*/ y1_tmp = edge1.y; do { if(edge1.x == tri[1].x && edge1.y == tri[1].y) { dx1 = LV_MATH_ABS(tri[1].x - tri[2].x); sx1 = tri[1].x < tri[2].x ? 1 : -1; dy1 = LV_MATH_ABS(tri[1].y - tri[2].y); sy1 = tri[1].y < tri[2].y ? 1 : -1; err1 = (dx1 > dy1 ? dx1 : -dy1) / 2; } else if(edge1.x == tri[2].x && edge1.y == tri[2].y) return; err_tmp1 = err1; if(err_tmp1 > -dx1) { err1 -= dy1; edge1.x += sx1; } if(err_tmp1 < dy1) { err1 += dx1; edge1.y += sy1; } } while(edge1.y == y1_tmp); /*Calc. the next point of edge2*/ y2_tmp = edge2.y; do { if(edge2.x == tri[2].x && edge2.y == tri[2].y) return; err_tmp2 = err2; if(err_tmp2 > -dx2) { err2 -= dy2; edge2.x += sx2; } if(err_tmp2 < dy2) { err2 += dx2; edge2.y += sy2; } } while(edge2.y == y2_tmp); } } #endif /********************** * STATIC FUNCTIONS **********************/ #if USE_LV_TRIANGLE != 0 /** * Swap two points * p1 pointer to the first point * p2 pointer to the second point */ static void point_swap(lv_point_t * p1, lv_point_t * p2) { lv_point_t tmp; tmp.x = p1->x; tmp.y = p1->y; p1->x = p2->x; p1->y = p2->y; p2->x = tmp.x; p2->y = tmp.y; } #endif ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_triangle.h ================================================ /** * @file lv_draw_triangle.h * */ #ifndef LV_DRAW_TRIANGLE_H #define LV_DRAW_TRIANGLE_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "lv_draw.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /*Experimental use for 3D modeling*/ #define USE_LV_TRIANGLE 1 #if USE_LV_TRIANGLE != 0 /** * * @param points pointer to an array with 3 points * @param mask the triangle will be drawn only in this mask * @param color color of the triangle */ void lv_draw_triangle(const lv_point_t * points, const lv_area_t * mask, lv_color_t color); #endif /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_DRAW_TRIANGLE_H*/ ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_vbasic.c ================================================ /** * @file lv_vdraw.c * */ #include "lv_draw_vbasic.h" #include #include #include "../lv_hal/lv_hal_disp.h" #include "../lv_misc/lv_area.h" #include "../lv_misc/lv_font.h" #include "../lv_misc/lv_color.h" #include "../lv_misc/lv_log.h" #if LV_VDB_SIZE != 0 #include #include "../lv_core/lv_vdb.h" #include "lv_draw.h" /********************* * INCLUDES *********************/ /********************* * DEFINES *********************/ #define VFILL_HW_ACC_SIZE_LIMIT 50 /*Always fill < 50 px with 'sw_color_fill' because of the hw. init overhead*/ #ifndef LV_ATTRIBUTE_MEM_ALIGN #define LV_ATTRIBUTE_MEM_ALIGN #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static void sw_mem_blend(lv_color_t * dest, const lv_color_t * src, uint32_t length, lv_opa_t opa); static void sw_color_fill(lv_area_t * mem_area, lv_color_t * mem, const lv_area_t * fill_area, lv_color_t color, lv_opa_t opa); #if LV_COLOR_SCREEN_TRANSP static inline lv_color_t color_mix_2_alpha(lv_color_t bg_color, lv_opa_t bg_opa, lv_color_t fg_color, lv_opa_t fg_opa); #endif /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Put a pixel in the Virtual Display Buffer * @param x pixel x coordinate * @param y pixel y coordinate * @param mask_p fill only on this mask (truncated to VDB area) * @param color pixel color * @param opa opacity of the area (0..255) */ void lv_vpx(lv_coord_t x, lv_coord_t y, const lv_area_t * mask_p, lv_color_t color, lv_opa_t opa) { if(opa < LV_OPA_MIN) return; if(opa > LV_OPA_MAX) opa = LV_OPA_COVER; lv_vdb_t * vdb_p = lv_vdb_get(); if(!vdb_p) { LV_LOG_WARN("Invalid VDB pointer"); return; } /*Pixel out of the mask*/ if(x < mask_p->x1 || x > mask_p->x2 || y < mask_p->y1 || y > mask_p->y2) { return; } uint32_t vdb_width = lv_area_get_width(&vdb_p->area); /*Make the coordinates relative to VDB*/ x -= vdb_p->area.x1; y -= vdb_p->area.y1; lv_disp_t * disp = lv_disp_get_active(); if(disp->driver.vdb_wr) { disp->driver.vdb_wr((uint8_t *)vdb_p->buf, vdb_width, x, y, color, opa); } else { lv_color_t * vdb_px_p = vdb_p->buf + y * vdb_width + x; #if LV_COLOR_SCREEN_TRANSP == 0 if(opa == LV_OPA_COVER) { *vdb_px_p = color; } else { *vdb_px_p = lv_color_mix(color, *vdb_px_p, opa); } #else *vdb_px_p = color_mix_2_alpha(*vdb_px_p, (*vdb_px_p).alpha, color, opa); #endif } } /** * Fill an area in the Virtual Display Buffer * @param cords_p coordinates of the area to fill * @param mask_p fill only o this mask (truncated to VDB area) * @param color fill color * @param opa opacity of the area (0..255) */ void lv_vfill(const lv_area_t * cords_p, const lv_area_t * mask_p, lv_color_t color, lv_opa_t opa) { if(opa < LV_OPA_MIN) return; if(opa > LV_OPA_MAX) opa = LV_OPA_COVER; lv_area_t res_a; bool union_ok; lv_vdb_t * vdb_p = lv_vdb_get(); if(!vdb_p) { LV_LOG_WARN("Invalid VDB pointer"); return; } /*Get the union of cord and mask*/ /* The mask is already truncated to the vdb size * in 'lv_refr_area_with_vdb' function */ union_ok = lv_area_intersect(&res_a, cords_p, mask_p); /*If there are common part of the three area then draw to the vdb*/ if(union_ok == false) return; lv_area_t vdb_rel_a; /*Stores relative coordinates on vdb*/ vdb_rel_a.x1 = res_a.x1 - vdb_p->area.x1; vdb_rel_a.y1 = res_a.y1 - vdb_p->area.y1; vdb_rel_a.x2 = res_a.x2 - vdb_p->area.x1; vdb_rel_a.y2 = res_a.y2 - vdb_p->area.y1; lv_color_t * vdb_buf_tmp = vdb_p->buf; uint32_t vdb_width = lv_area_get_width(&vdb_p->area); /*Move the vdb_tmp to the first row*/ vdb_buf_tmp += vdb_width * vdb_rel_a.y1; #if USE_LV_GPU static LV_ATTRIBUTE_MEM_ALIGN lv_color_t color_array_tmp[LV_HOR_RES]; /*Used by 'lv_disp_mem_blend'*/ static lv_coord_t last_width = -1; lv_coord_t w = lv_area_get_width(&vdb_rel_a); /*Don't use hw. acc. for every small fill (because of the init overhead)*/ if(w < VFILL_HW_ACC_SIZE_LIMIT) { sw_color_fill(&vdb_p->area, vdb_p->buf, &vdb_rel_a, color, opa); } /*Not opaque fill*/ else if(opa == LV_OPA_COVER) { /*Use hw fill if present*/ if(lv_disp_is_mem_fill_supported()) { lv_coord_t row; for(row = vdb_rel_a.y1; row <= vdb_rel_a.y2; row++) { lv_disp_mem_fill(&vdb_buf_tmp[vdb_rel_a.x1], w, color); vdb_buf_tmp += vdb_width; } } /*Use hw blend if present and the area is not too small*/ else if(lv_area_get_height(&vdb_rel_a) > VFILL_HW_ACC_SIZE_LIMIT && lv_disp_is_mem_blend_supported()) { /*Fill a one line sized buffer with a color and blend this later*/ if(color_array_tmp[0].full != color.full || last_width != w) { uint16_t i; for(i = 0; i < w; i++) { color_array_tmp[i].full = color.full; } last_width = w; } /*Blend the filled line to every line VDB line-by-line*/ lv_coord_t row; for(row = vdb_rel_a.y1; row <= vdb_rel_a.y2; row++) { lv_disp_mem_blend(&vdb_buf_tmp[vdb_rel_a.x1], color_array_tmp, w, opa); vdb_buf_tmp += vdb_width; } } /*Else use sw fill if no better option*/ else { sw_color_fill(&vdb_p->area, vdb_p->buf, &vdb_rel_a, color, opa); } } /*Fill with opacity*/ else { /*Use hw blend if present*/ if(lv_disp_is_mem_blend_supported()) { if(color_array_tmp[0].full != color.full || last_width != w) { uint16_t i; for(i = 0; i < w; i++) { color_array_tmp[i].full = color.full; } last_width = w; } lv_coord_t row; for(row = vdb_rel_a.y1; row <= vdb_rel_a.y2; row++) { lv_disp_mem_blend(&vdb_buf_tmp[vdb_rel_a.x1], color_array_tmp, w, opa); vdb_buf_tmp += vdb_width; } } /*Use sw fill with opa if no better option*/ else { sw_color_fill(&vdb_p->area, vdb_p->buf, &vdb_rel_a, color, opa); } } #else sw_color_fill(&vdb_p->area, vdb_p->buf, &vdb_rel_a, color, opa); #endif } /** * Draw a letter in the Virtual Display Buffer * @param pos_p left-top coordinate of the latter * @param mask_p the letter will be drawn only on this area (truncated to VDB area) * @param font_p pointer to font * @param letter a letter to draw * @param color color of letter * @param opa opacity of letter (0..255) */ void lv_vletter(const lv_point_t * pos_p, const lv_area_t * mask_p, const lv_font_t * font_p, uint32_t letter, lv_color_t color, lv_opa_t opa) { const uint8_t bpp1_opa_table[2] = {0, 255}; /*Opacity mapping with bpp = 1 (Just for compatibility)*/ const uint8_t bpp2_opa_table[4] = {0, 85, 170, 255}; /*Opacity mapping with bpp = 2*/ const uint8_t bpp4_opa_table[16] = {0, 17, 34, 51, /*Opacity mapping with bpp = 4*/ 68, 85, 102, 119, 136, 153, 170, 187, 204, 221, 238, 255 }; if(opa < LV_OPA_MIN) return; if(opa > LV_OPA_MAX) opa = LV_OPA_COVER; if(font_p == NULL) { LV_LOG_WARN("Font: character's bitmap not found"); return; } lv_coord_t pos_x = pos_p->x; lv_coord_t pos_y = pos_p->y; uint8_t letter_w = lv_font_get_real_width(font_p, letter); uint8_t letter_h = lv_font_get_height(font_p); uint8_t bpp = lv_font_get_bpp(font_p, letter); /*Bit per pixel (1,2, 4 or 8)*/ const uint8_t * bpp_opa_table; uint8_t mask_init; uint8_t mask; if(lv_font_is_monospace(font_p, letter)) { pos_x += (lv_font_get_width(font_p, letter) - letter_w) / 2; } switch(bpp) { case 1: bpp_opa_table = bpp1_opa_table; mask_init = 0x80; break; case 2: bpp_opa_table = bpp2_opa_table; mask_init = 0xC0; break; case 4: bpp_opa_table = bpp4_opa_table; mask_init = 0xF0; break; case 8: bpp_opa_table = NULL; mask_init = 0xFF; break; /*No opa table, pixel value will be used directly*/ default: return; /*Invalid bpp. Can't render the letter*/ } const uint8_t * map_p = lv_font_get_bitmap(font_p, letter); if(map_p == NULL) return; /*If the letter is completely out of mask don't draw it */ if(pos_x + letter_w < mask_p->x1 || pos_x > mask_p->x2 || pos_y + letter_h < mask_p->y1 || pos_y > mask_p->y2) return; lv_vdb_t * vdb_p = lv_vdb_get(); if(!vdb_p) { LV_LOG_WARN("Invalid VDB pointer"); return; } lv_coord_t vdb_width = lv_area_get_width(&vdb_p->area); lv_color_t * vdb_buf_tmp = vdb_p->buf; lv_coord_t col, row; uint8_t col_bit; uint8_t col_byte_cnt; uint8_t width_byte_scr = letter_w >> 3; /*Width in bytes (on the screen finally) (e.g. w = 11 -> 2 bytes wide)*/ if(letter_w & 0x7) width_byte_scr++; uint8_t width_byte_bpp = (letter_w * bpp) >> 3; /*Letter width in byte. Real width in the font*/ if((letter_w * bpp) & 0x7) width_byte_bpp++; /* Calculate the col/row start/end on the map*/ lv_coord_t col_start = pos_x >= mask_p->x1 ? 0 : mask_p->x1 - pos_x; lv_coord_t col_end = pos_x + letter_w <= mask_p->x2 ? letter_w : mask_p->x2 - pos_x + 1; lv_coord_t row_start = pos_y >= mask_p->y1 ? 0 : mask_p->y1 - pos_y; lv_coord_t row_end = pos_y + letter_h <= mask_p->y2 ? letter_h : mask_p->y2 - pos_y + 1; /*Set a pointer on VDB to the first pixel of the letter*/ vdb_buf_tmp += ((pos_y - vdb_p->area.y1) * vdb_width) + pos_x - vdb_p->area.x1; /*If the letter is partially out of mask the move there on VDB*/ vdb_buf_tmp += (row_start * vdb_width) + col_start; /*Move on the map too*/ map_p += (row_start * width_byte_bpp) + ((col_start * bpp) >> 3); lv_disp_t * disp = lv_disp_get_active(); uint8_t letter_px; lv_opa_t px_opa; for(row = row_start; row < row_end; row ++) { col_byte_cnt = 0; col_bit = (col_start * bpp) % 8; mask = mask_init >> col_bit; for(col = col_start; col < col_end; col ++) { letter_px = (*map_p & mask) >> (8 - col_bit - bpp); if(letter_px != 0) { if(opa == LV_OPA_COVER) { px_opa = bpp == 8 ? letter_px : bpp_opa_table[letter_px]; } else { px_opa = bpp == 8 ? (uint16_t)((uint16_t)letter_px * opa) >> 8 : (uint16_t)((uint16_t)bpp_opa_table[letter_px] * opa) >> 8; } if(disp->driver.vdb_wr) { disp->driver.vdb_wr((uint8_t *)vdb_p->buf, vdb_width, (col + pos_x) - vdb_p->area.x1, (row + pos_y) - vdb_p->area.y1, color, px_opa); } else { #if LV_COLOR_SCREEN_TRANSP == 0 *vdb_buf_tmp = lv_color_mix(color, *vdb_buf_tmp, px_opa); #else *vdb_buf_tmp = color_mix_2_alpha(*vdb_buf_tmp, (*vdb_buf_tmp).alpha, color, px_opa); #endif } } vdb_buf_tmp++; if(col_bit < 8 - bpp) { col_bit += bpp; mask = mask >> bpp; } else { col_bit = 0; col_byte_cnt ++; mask = mask_init; map_p ++; } } map_p += (width_byte_bpp) - col_byte_cnt; vdb_buf_tmp += vdb_width - (col_end - col_start); /*Next row in VDB*/ } } /** * Draw a color map to the display (image) * @param cords_p coordinates the color map * @param mask_p the map will drawn only on this area (truncated to VDB area) * @param map_p pointer to a lv_color_t array * @param opa opacity of the map * @param chroma_keyed true: enable transparency of LV_IMG_LV_COLOR_TRANSP color pixels * @param alpha_byte true: extra alpha byte is inserted for every pixel * @param recolor mix the pixels with this color * @param recolor_opa the intense of recoloring */ void lv_vmap(const lv_area_t * cords_p, const lv_area_t * mask_p, const uint8_t * map_p, lv_opa_t opa, bool chroma_key, bool alpha_byte, lv_color_t recolor, lv_opa_t recolor_opa) { if(opa < LV_OPA_MIN) return; if(opa > LV_OPA_MAX) opa = LV_OPA_COVER; lv_area_t masked_a; bool union_ok; lv_vdb_t * vdb_p = lv_vdb_get(); if(!vdb_p) { LV_LOG_WARN("Invalid VDB pointer"); return; } /*Get the union of map size and mask*/ /* The mask is already truncated to the vdb size * in 'lv_refr_area_with_vdb' function */ union_ok = lv_area_intersect(&masked_a, cords_p, mask_p); /*If there are common part of the three area then draw to the vdb*/ if(union_ok == false) return; /*The pixel size in byte is different if an alpha byte is added too*/ uint8_t px_size_byte = alpha_byte ? LV_IMG_PX_SIZE_ALPHA_BYTE : sizeof(lv_color_t); /*If the map starts OUT of the masked area then calc. the first pixel*/ lv_coord_t map_width = lv_area_get_width(cords_p); if(cords_p->y1 < masked_a.y1) { map_p += (uint32_t) map_width * ((masked_a.y1 - cords_p->y1)) * px_size_byte; } if(cords_p->x1 < masked_a.x1) { map_p += (masked_a.x1 - cords_p->x1) * px_size_byte; } /*Stores coordinates relative to the current VDB*/ masked_a.x1 = masked_a.x1 - vdb_p->area.x1; masked_a.y1 = masked_a.y1 - vdb_p->area.y1; masked_a.x2 = masked_a.x2 - vdb_p->area.x1; masked_a.y2 = masked_a.y2 - vdb_p->area.y1; lv_coord_t vdb_width = lv_area_get_width(&vdb_p->area); lv_color_t * vdb_buf_tmp = vdb_p->buf; vdb_buf_tmp += (uint32_t) vdb_width * masked_a.y1; /*Move to the first row*/ vdb_buf_tmp += (uint32_t) masked_a.x1; /*Move to the first col*/ lv_coord_t row; lv_coord_t map_useful_w = lv_area_get_width(&masked_a); lv_disp_t * disp = lv_disp_get_active(); /*The simplest case just copy the pixels into the VDB*/ if(chroma_key == false && alpha_byte == false && opa == LV_OPA_COVER && recolor_opa == LV_OPA_TRANSP) { /*Use the custom VDB write function is exists*/ if(disp->driver.vdb_wr) { lv_coord_t col; for(row = masked_a.y1; row <= masked_a.y2; row++) { for(col = 0; col < map_useful_w; col++) { lv_color_t px_color = *((lv_color_t *)&map_p[(uint32_t)col * px_size_byte]); disp->driver.vdb_wr((uint8_t *)vdb_p->buf, vdb_width, col + masked_a.x1, row, px_color, opa); } map_p += map_width * px_size_byte; /*Next row on the map*/ } } /*Normal native VDB*/ else { for(row = masked_a.y1; row <= masked_a.y2; row++) { #if USE_LV_GPU if(lv_disp_is_mem_blend_supported() == false) { sw_mem_blend(vdb_buf_tmp, (lv_color_t *)map_p, map_useful_w, opa); } else { lv_disp_mem_blend(vdb_buf_tmp, (lv_color_t *)map_p, map_useful_w, opa); } #else sw_mem_blend(vdb_buf_tmp, (lv_color_t *)map_p, map_useful_w, opa); #endif map_p += map_width * px_size_byte; /*Next row on the map*/ vdb_buf_tmp += vdb_width; /*Next row on the VDB*/ } } } /*In the other cases every pixel need to be checked one-by-one*/ else { lv_color_t chroma_key_color = LV_COLOR_TRANSP; lv_coord_t col; lv_color_t last_img_px = LV_COLOR_BLACK; lv_color_t recolored_px = lv_color_mix(recolor, last_img_px, recolor_opa); for(row = masked_a.y1; row <= masked_a.y2; row++) { for(col = 0; col < map_useful_w; col++) { lv_opa_t opa_result = opa; uint8_t * px_color_p = (uint8_t *) &map_p[(uint32_t)col * px_size_byte]; lv_color_t px_color; /*Calculate with the pixel level alpha*/ if(alpha_byte) { #if LV_COLOR_DEPTH == 8 || LV_COLOR_DEPTH == 1 px_color.full = px_color_p[0]; #elif LV_COLOR_DEPTH == 16 /*Because of Alpha byte 16 bit color can start on odd address which can cause crash*/ px_color.full = px_color_p[0] + (px_color_p[1] << 8); #elif LV_COLOR_DEPTH == 32 px_color = *((lv_color_t *)px_color_p); #endif lv_opa_t px_opa = *(px_color_p + LV_IMG_PX_SIZE_ALPHA_BYTE - 1); if(px_opa == LV_OPA_TRANSP) continue; else if(px_opa != LV_OPA_COVER) opa_result = (uint32_t)((uint32_t)px_opa * opa_result) >> 8; } else { px_color = *((lv_color_t *)px_color_p); } /*Handle chroma key*/ if(chroma_key && px_color.full == chroma_key_color.full) continue; /*Re-color the pixel if required*/ if(recolor_opa != LV_OPA_TRANSP) { if(last_img_px.full != px_color.full) { /*Minor acceleration: calculate only for new colors (save the last)*/ last_img_px = px_color; recolored_px = lv_color_mix(recolor, last_img_px, recolor_opa); } /*Handle custom VDB write is present*/ if(disp->driver.vdb_wr) { disp->driver.vdb_wr((uint8_t *)vdb_p->buf, vdb_width, col + masked_a.x1, row, recolored_px, opa_result); } /*Normal native VDB write*/ else { if(opa_result == LV_OPA_COVER) vdb_buf_tmp[col].full = recolored_px.full; else vdb_buf_tmp[col] = lv_color_mix(recolored_px, vdb_buf_tmp[col], opa_result); } } else { /*Handle custom VDB write is present*/ if(disp->driver.vdb_wr) { disp->driver.vdb_wr((uint8_t *)vdb_p->buf, vdb_width, col + masked_a.x1, row, px_color, opa_result); } /*Normal native VDB write*/ else { if(opa_result == LV_OPA_COVER) vdb_buf_tmp[col] = px_color; else { #if LV_COLOR_SCREEN_TRANSP == 0 vdb_buf_tmp[col] = lv_color_mix(px_color, vdb_buf_tmp[col], opa_result); #else vdb_buf_tmp[col] = color_mix_2_alpha(vdb_buf_tmp[col], vdb_buf_tmp[col].alpha, px_color, opa_result); #endif } } } } map_p += map_width * px_size_byte; /*Next row on the map*/ vdb_buf_tmp += vdb_width; /*Next row on the VDB*/ } } } /********************** * STATIC FUNCTIONS **********************/ /** * Blend pixels to destination memory using opacity * @param dest a memory address. Copy 'src' here. * @param src pointer to pixel map. Copy it to 'dest'. * @param length number of pixels in 'src' * @param opa opacity (0, LV_OPA_TRANSP: transparent ... 255, LV_OPA_COVER, fully cover) */ static void sw_mem_blend(lv_color_t * dest, const lv_color_t * src, uint32_t length, lv_opa_t opa) { if(opa == LV_OPA_COVER) { memcpy(dest, src, length * sizeof(lv_color_t)); } else { uint32_t col; for(col = 0; col < length; col++) { dest[col] = lv_color_mix(src[col], dest[col], opa); } } } /** * * @param mem_area coordinates of 'mem' memory area * @param mem a memory address. Considered to a rectangular window according to 'mem_area' * @param fill_area coordinates of an area to fill. Relative to 'mem_area'. * @param color fill color * @param opa opacity (0, LV_OPA_TRANSP: transparent ... 255, LV_OPA_COVER, fully cover) */ static void sw_color_fill(lv_area_t * mem_area, lv_color_t * mem, const lv_area_t * fill_area, lv_color_t color, lv_opa_t opa) { /*Set all row in vdb to the given color*/ lv_coord_t row; lv_coord_t col; lv_coord_t mem_width = lv_area_get_width(mem_area); lv_disp_t * disp = lv_disp_get_active(); if(disp->driver.vdb_wr) { for(col = fill_area->x1; col <= fill_area->x2; col++) { for(row = fill_area->y1; row <= fill_area->y2; row++) { disp->driver.vdb_wr((uint8_t *)mem, mem_width, col, row, color, opa); } } } else { mem += fill_area->y1 * mem_width; /*Go to the first row*/ /*Run simpler function without opacity*/ if(opa == LV_OPA_COVER) { /*Fill the first row with 'color'*/ for(col = fill_area->x1; col <= fill_area->x2; col++) { mem[col] = color; } /*Copy the first row to all other rows*/ lv_color_t * mem_first = &mem[fill_area->x1]; lv_coord_t copy_size = (fill_area->x2 - fill_area->x1 + 1) * sizeof(lv_color_t); mem += mem_width; for(row = fill_area->y1 + 1; row <= fill_area->y2; row++) { memcpy(&mem[fill_area->x1], mem_first, copy_size); mem += mem_width; } } /*Calculate with alpha too*/ else { #if LV_COLOR_SCREEN_TRANSP == 0 lv_color_t bg_tmp = LV_COLOR_BLACK; lv_color_t opa_tmp = lv_color_mix(color, bg_tmp, opa); #endif for(row = fill_area->y1; row <= fill_area->y2; row++) { for(col = fill_area->x1; col <= fill_area->x2; col++) { #if LV_COLOR_SCREEN_TRANSP == 0 /*If the bg color changed recalculate the result color*/ if(mem[col].full != bg_tmp.full) { bg_tmp = mem[col]; opa_tmp = lv_color_mix(color, bg_tmp, opa); } mem[col] = opa_tmp; #else mem[col] = color_mix_2_alpha(mem[col], mem[col].alpha, color, opa); #endif } mem += mem_width; } } } } #if LV_COLOR_SCREEN_TRANSP /** * Mix two colors. Both color can have alpha value. It requires ARGB888 colors. * @param bg_color background color * @param bg_opa alpha of the background color * @param fg_color foreground color * @param fg_opa alpha of the foreground color * @return the mixed color. the alpha channel (color.alpha) contains the result alpha */ static inline lv_color_t color_mix_2_alpha(lv_color_t bg_color, lv_opa_t bg_opa, lv_color_t fg_color, lv_opa_t fg_opa) { /* Pick the foreground if it's fully opaque or the Background is fully transparent*/ if(fg_opa == LV_OPA_COVER && bg_opa <= LV_OPA_MIN) { fg_color.alpha = fg_opa; return fg_color; } /*Transparent foreground: use the Background*/ else if(fg_opa <= LV_OPA_MIN) { return bg_color; } /*Opaque background: use simple mix*/ else if(bg_opa >= LV_OPA_MAX) { return lv_color_mix(fg_color, bg_color, fg_opa); } /*Both colors have alpha. Expensive calculation need to be applied*/ else { /*Save the parameters and the result. If they will be asked again don't compute again*/ static lv_opa_t fg_opa_save = 0; static lv_opa_t bg_opa_save = 0; static lv_color_t c = {{0}}; if(fg_opa != fg_opa_save || bg_opa != bg_opa_save) { fg_opa_save = fg_opa; bg_opa_save = bg_opa; /*Info: https://en.wikipedia.org/wiki/Alpha_compositing#Analytical_derivation_of_the_over_operator*/ lv_opa_t alpha_res = 255 - ((uint16_t)((uint16_t)(255 - fg_opa) * (255 - bg_opa)) >> 8); if(alpha_res == 0) { while(1); } lv_opa_t ratio = (uint16_t)((uint16_t) fg_opa * 255) / alpha_res; c = lv_color_mix(fg_color, bg_color, ratio); c.alpha = alpha_res; } return c; } } #endif /*LV_COLOR_SCREEN_TRANSP*/ #endif ================================================ FILE: bdk/libs/lvgl/lv_draw/lv_draw_vbasic.h ================================================ /** * @file lv_draw_vbasic.h * */ #ifndef LV_DRAW_VBASIC_H #define LV_DRAW_VBASIC_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if LV_VDB_SIZE != 0 #include "../lv_misc/lv_color.h" #include "../lv_misc/lv_area.h" #include "../lv_misc/lv_font.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ void lv_vpx(lv_coord_t x, lv_coord_t y, const lv_area_t * mask_p, lv_color_t color, lv_opa_t opa); /** * Fill an area in the Virtual Display Buffer * @param cords_p coordinates of the area to fill * @param mask_p fill only o this mask * @param color fill color * @param opa opacity of the area (0..255) */ void lv_vfill(const lv_area_t * cords_p, const lv_area_t * mask_p, lv_color_t color, lv_opa_t opa); /** * Draw a letter in the Virtual Display Buffer * @param pos_p left-top coordinate of the latter * @param mask_p the letter will be drawn only on this area * @param font_p pointer to font * @param letter a letter to draw * @param color color of letter * @param opa opacity of letter (0..255) */ void lv_vletter(const lv_point_t * pos_p, const lv_area_t * mask_p, const lv_font_t * font_p, uint32_t letter, lv_color_t color, lv_opa_t opa); /** * Draw a color map to the display (image) * @param cords_p coordinates the color map * @param mask_p the map will drawn only on this area (truncated to VDB area) * @param map_p pointer to a lv_color_t array * @param opa opacity of the map * @param chroma_keyed true: enable transparency of LV_IMG_LV_COLOR_TRANSP color pixels * @param alpha_byte true: extra alpha byte is inserted for every pixel * @param recolor mix the pixels with this color * @param recolor_opa the intense of recoloring */ void lv_vmap(const lv_area_t * cords_p, const lv_area_t * mask_p, const uint8_t * map_p, lv_opa_t opa, bool chroma_key, bool alpha_byte, lv_color_t recolor, lv_opa_t recolor_opa); /********************** * MACROS **********************/ #endif /*LV_VDB_SIZE != 0*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_DRAW_RBASIC_H*/ ================================================ FILE: bdk/libs/lvgl/lv_fonts/hekate_symbol_120.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "../lv_misc/lv_font.h" #include #if USE_HEKATE_SYMBOL_120 != 0 /*Can be enabled in lv_conf.h*/ /*********************************************************************************** * hekate-symbols-huge.ttf 120 px Font in U+f002 () .. U+f007 () range with all bpp * Sparse font with only these characters:  ***********************************************************************************/ /*Store the glyph descriptions*/ static const lv_font_glyph_dsc_t hekate_symbol_120_glyph_dsc[] = { #if USE_HEKATE_SYMBOL_120 == 8 {.w_px = 103, .glyph_index = 0}, /*Unicode: U+f002 ()*/ {.w_px = 103, .glyph_index = 12360}, /*Unicode: U+f003 ()*/ {.w_px = 103, .glyph_index = 24720}, /*Unicode: U+f005 ()*/ {.w_px = 103, .glyph_index = 37080}, /*Unicode: U+f007 ()*/ #endif }; lv_font_t hekate_symbol_120 = { .unicode_first = LV_SYMBOL_GLYPH_FIRST, /*First Unicode letter in this font*/ .unicode_last = LV_SYMBOL_GLYPH_LAST, /*Last Unicode letter in this font*/ .h_px = 120, /*Font height in pixels*/ .glyph_bitmap = (const uint8_t *)(NYX_RES_ADDR + 0x36E00), /*Bitmap of glyphs*/ .glyph_dsc = hekate_symbol_120_glyph_dsc, /*Description of glyphs*/ .glyph_cnt = 4, /*Number of glyphs in the font*/ .unicode_list = NULL, /*List of unicode characters*/ .get_bitmap = lv_font_get_bitmap_continuous, /*Function pointer to get glyph's bitmap*/ .get_width = lv_font_get_width_continuous, /*Function pointer to get glyph's width*/ #if USE_HEKATE_SYMBOL_120 == 8 .bpp = 8, /*Bit per pixel*/ #endif .monospace = 0, /*Fix width (0: if not used)*/ .next_page = NULL, /*Pointer to a font extension*/ }; #endif /*USE_HEKATE_SYMBOL_100*/ ================================================ FILE: bdk/libs/lvgl/lv_fonts/hekate_symbol_20.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "../lv_misc/lv_font.h" #include #if USE_HEKATE_SYMBOL_20 != 0 /*Can be enabled in lv_conf.h*/ /*********************************************************************************** * hekate-symbols.ttf 20 px Font in U+f000 () .. U+f2ee () range with all bpp * Sparse font with only these characters:  ***********************************************************************************/ /*Store the glyph descriptions*/ static const lv_font_glyph_dsc_t hekate_symbol_20_glyph_dsc[] = { #if USE_HEKATE_SYMBOL_20 == 4 {.w_px = 5, .glyph_index = 0}, /*Unicode: U+f001 ()*/ {.w_px = 16, .glyph_index = 60}, /*Unicode: U+f008 ()*/ {.w_px = 20, .glyph_index = 220}, /*Unicode: U+f00b ()*/ {.w_px = 22, .glyph_index = 420}, /*Unicode: U+f00c ()*/ {.w_px = 16, .glyph_index = 640}, /*Unicode: U+f00d ()*/ {.w_px = 18, .glyph_index = 800}, /*Unicode: U+f011 ()*/ {.w_px = 18, .glyph_index = 980}, /*Unicode: U+f013 ()*/ {.w_px = 16, .glyph_index = 1160}, /*Unicode: U+f014 ()*/ {.w_px = 23, .glyph_index = 1320}, /*Unicode: U+f015 ()*/ {.w_px = 18, .glyph_index = 1560}, /*Unicode: U+f019 ()*/ {.w_px = 23, .glyph_index = 1740}, /*Unicode: U+f01c ()*/ {.w_px = 18, .glyph_index = 1980}, /*Unicode: U+f021 ()*/ {.w_px = 18, .glyph_index = 2160}, /*Unicode: U+f026 ()*/ {.w_px = 18, .glyph_index = 2340}, /*Unicode: U+f027 ()*/ {.w_px = 13, .glyph_index = 2520}, /*Unicode: U+f028 ()*/ {.w_px = 13, .glyph_index = 2660}, /*Unicode: U+f03e ()*/ {.w_px = 16, .glyph_index = 2800}, /*Unicode: U+f040 ()*/ {.w_px = 13, .glyph_index = 2960}, /*Unicode: U+f048 ()*/ {.w_px = 13, .glyph_index = 3100}, /*Unicode: U+f04b ()*/ {.w_px = 13, .glyph_index = 3240}, /*Unicode: U+f04c ()*/ {.w_px = 9, .glyph_index = 3380}, /*Unicode: U+f04d ()*/ {.w_px = 23, .glyph_index = 3480}, /*Unicode: U+f051 ()*/ {.w_px = 21, .glyph_index = 3720}, /*Unicode: U+f052 ()*/ {.w_px = 11, .glyph_index = 3940}, /*Unicode: U+f053 ()*/ {.w_px = 11, .glyph_index = 4060}, /*Unicode: U+f054 ()*/ {.w_px = 18, .glyph_index = 4180}, /*Unicode: U+f067 ()*/ {.w_px = 18, .glyph_index = 4360}, /*Unicode: U+f068 ()*/ {.w_px = 20, .glyph_index = 4540}, /*Unicode: U+f071 ()*/ {.w_px = 20, .glyph_index = 4740}, /*Unicode: U+f074 ()*/ {.w_px = 18, .glyph_index = 4940}, /*Unicode: U+f077 ()*/ {.w_px = 18, .glyph_index = 5120}, /*Unicode: U+f078 ()*/ {.w_px = 18, .glyph_index = 5300}, /*Unicode: U+f079 ()*/ {.w_px = 20, .glyph_index = 5480}, /*Unicode: U+f07b ()*/ {.w_px = 18, .glyph_index = 5680}, /*Unicode: U+f093 ()*/ {.w_px = 25, .glyph_index = 5860}, /*Unicode: U+f095 ()*/ {.w_px = 18, .glyph_index = 6120}, /*Unicode: U+f0c4 ()*/ {.w_px = 16, .glyph_index = 6300}, /*Unicode: U+f0c5 ()*/ {.w_px = 17, .glyph_index = 6460}, /*Unicode: U+f0c7 ()*/ {.w_px = 8, .glyph_index = 6640}, /*Unicode: U+f0e7 ()*/ {.w_px = 12, .glyph_index = 6720}, /*Unicode: U+f0f3 ()*/ {.w_px = 23, .glyph_index = 6840}, /*Unicode: U+f11c ()*/ {.w_px = 18, .glyph_index = 7080}, /*Unicode: U+f124 ()*/ {.w_px = 13, .glyph_index = 7260}, /*Unicode: U+f15b ()*/ {.w_px = 20, .glyph_index = 7400}, /*Unicode: U+f1eb ()*/ {.w_px = 26, .glyph_index = 7600}, /*Unicode: U+f240 ()*/ {.w_px = 26, .glyph_index = 7860}, /*Unicode: U+f241 ()*/ {.w_px = 26, .glyph_index = 8120}, /*Unicode: U+f242 ()*/ {.w_px = 26, .glyph_index = 8380}, /*Unicode: U+f243 ()*/ {.w_px = 26, .glyph_index = 8640}, /*Unicode: U+f244 ()*/ {.w_px = 20, .glyph_index = 8900}, /*Unicode: U+f293 ()*/ #elif USE_HEKATE_SYMBOL_20 == 8 {.w_px = 5, .glyph_index = 0}, /*Unicode: U+f001 ()*/ {.w_px = 16, .glyph_index = 100}, /*Unicode: U+f008 ()*/ {.w_px = 20, .glyph_index = 420}, /*Unicode: U+f00b ()*/ {.w_px = 22, .glyph_index = 820}, /*Unicode: U+f00c ()*/ {.w_px = 16, .glyph_index = 1260}, /*Unicode: U+f00d ()*/ {.w_px = 18, .glyph_index = 1580}, /*Unicode: U+f011 ()*/ {.w_px = 18, .glyph_index = 1940}, /*Unicode: U+f013 ()*/ {.w_px = 16, .glyph_index = 2300}, /*Unicode: U+f014 ()*/ {.w_px = 23, .glyph_index = 2620}, /*Unicode: U+f015 ()*/ {.w_px = 18, .glyph_index = 3080}, /*Unicode: U+f019 ()*/ {.w_px = 23, .glyph_index = 3440}, /*Unicode: U+f01c ()*/ {.w_px = 18, .glyph_index = 3900}, /*Unicode: U+f021 ()*/ {.w_px = 18, .glyph_index = 4260}, /*Unicode: U+f026 ()*/ {.w_px = 18, .glyph_index = 4620}, /*Unicode: U+f027 ()*/ {.w_px = 13, .glyph_index = 4980}, /*Unicode: U+f028 ()*/ {.w_px = 13, .glyph_index = 5240}, /*Unicode: U+f03e ()*/ {.w_px = 16, .glyph_index = 5500}, /*Unicode: U+f040 ()*/ {.w_px = 13, .glyph_index = 5820}, /*Unicode: U+f048 ()*/ {.w_px = 13, .glyph_index = 6080}, /*Unicode: U+f04b ()*/ {.w_px = 13, .glyph_index = 6340}, /*Unicode: U+f04c ()*/ {.w_px = 9, .glyph_index = 6600}, /*Unicode: U+f04d ()*/ {.w_px = 23, .glyph_index = 6780}, /*Unicode: U+f051 ()*/ {.w_px = 21, .glyph_index = 7240}, /*Unicode: U+f052 ()*/ {.w_px = 11, .glyph_index = 7660}, /*Unicode: U+f053 ()*/ {.w_px = 11, .glyph_index = 7880}, /*Unicode: U+f054 ()*/ {.w_px = 18, .glyph_index = 8100}, /*Unicode: U+f067 ()*/ {.w_px = 18, .glyph_index = 8460}, /*Unicode: U+f068 ()*/ {.w_px = 20, .glyph_index = 8820}, /*Unicode: U+f071 ()*/ {.w_px = 20, .glyph_index = 9220}, /*Unicode: U+f074 ()*/ {.w_px = 18, .glyph_index = 9620}, /*Unicode: U+f077 ()*/ {.w_px = 18, .glyph_index = 9980}, /*Unicode: U+f078 ()*/ {.w_px = 18, .glyph_index = 10340}, /*Unicode: U+f079 ()*/ {.w_px = 20, .glyph_index = 10700}, /*Unicode: U+f07b ()*/ {.w_px = 18, .glyph_index = 11100}, /*Unicode: U+f093 ()*/ {.w_px = 25, .glyph_index = 11460}, /*Unicode: U+f095 ()*/ {.w_px = 18, .glyph_index = 11960}, /*Unicode: U+f0c4 ()*/ {.w_px = 16, .glyph_index = 12320}, /*Unicode: U+f0c5 ()*/ {.w_px = 17, .glyph_index = 12640}, /*Unicode: U+f0c7 ()*/ {.w_px = 8, .glyph_index = 12980}, /*Unicode: U+f0e7 ()*/ {.w_px = 12, .glyph_index = 13140}, /*Unicode: U+f0f3 ()*/ {.w_px = 23, .glyph_index = 13380}, /*Unicode: U+f11c ()*/ {.w_px = 18, .glyph_index = 13840}, /*Unicode: U+f124 ()*/ {.w_px = 13, .glyph_index = 14200}, /*Unicode: U+f15b ()*/ {.w_px = 20, .glyph_index = 14460}, /*Unicode: U+f1eb ()*/ {.w_px = 26, .glyph_index = 14860}, /*Unicode: U+f240 ()*/ {.w_px = 26, .glyph_index = 15380}, /*Unicode: U+f241 ()*/ {.w_px = 26, .glyph_index = 15900}, /*Unicode: U+f242 ()*/ {.w_px = 26, .glyph_index = 16420}, /*Unicode: U+f243 ()*/ {.w_px = 26, .glyph_index = 16940}, /*Unicode: U+f244 ()*/ {.w_px = 20, .glyph_index = 17460}, /*Unicode: U+f293 ()*/ #endif }; lv_font_t hekate_symbol_20 = { .unicode_first = LV_SYMBOL_GLYPH_FIRST, /*First Unicode letter in this font*/ .unicode_last = LV_SYMBOL_GLYPH_LAST, /*Last Unicode letter in this font*/ .h_px = 20, /*Font height in pixels*/ //.glyph_bitmap = hekate_symbol_20_glyph_bitmap, /*Bitmap of glyphs*/ .glyph_bitmap = (const uint8_t *)(NYX_RES_ADDR + 0xFC00), .glyph_dsc = hekate_symbol_20_glyph_dsc, /*Description of glyphs*/ .glyph_cnt = 50, /*Number of glyphs in the font*/ .unicode_list = NULL, /*List of unicode characters*/ .get_bitmap = lv_font_get_bitmap_continuous, /*Function pointer to get glyph's bitmap*/ .get_width = lv_font_get_width_continuous, /*Function pointer to get glyph's width*/ #if USE_HEKATE_SYMBOL_20 == 4 .bpp = 4, /*Bit per pixel*/ #elif USE_HEKATE_SYMBOL_20 == 8 .bpp = 8, /*Bit per pixel*/ #endif .monospace = 0, /*Fix width (0: if not used)*/ .next_page = NULL, /*Pointer to a font extension*/ }; #endif /*USE_HEKATE_SYMBOL_20*/ ================================================ FILE: bdk/libs/lvgl/lv_fonts/hekate_symbol_30.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "../lv_misc/lv_font.h" #include #if USE_HEKATE_SYMBOL_30 != 0 /*Can be enabled in lv_conf.h*/ /*********************************************************************************** * hekate-symbols.ttf 30 px Font in U+f000 () .. U+f2ee () range with all bpp * Sparse font with only these characters:  ***********************************************************************************/ /*Store the glyph descriptions*/ static const lv_font_glyph_dsc_t hekate_symbol_30_glyph_dsc[] = { #if USE_HEKATE_SYMBOL_30 == 4 {.w_px = 7, .glyph_index = 0}, /*Unicode: U+f001 ()*/ {.w_px = 25, .glyph_index = 120}, /*Unicode: U+f008 ()*/ {.w_px = 27, .glyph_index = 510}, /*Unicode: U+f00b ()*/ {.w_px = 31, .glyph_index = 930}, /*Unicode: U+f00c ()*/ {.w_px = 22, .glyph_index = 1410}, /*Unicode: U+f00d ()*/ {.w_px = 25, .glyph_index = 1740}, /*Unicode: U+f011 ()*/ {.w_px = 25, .glyph_index = 2130}, /*Unicode: U+f013 ()*/ {.w_px = 23, .glyph_index = 2520}, /*Unicode: U+f014 ()*/ {.w_px = 34, .glyph_index = 2880}, /*Unicode: U+f015 ()*/ {.w_px = 25, .glyph_index = 3390}, /*Unicode: U+f019 ()*/ {.w_px = 32, .glyph_index = 3780}, /*Unicode: U+f01c ()*/ {.w_px = 25, .glyph_index = 4260}, /*Unicode: U+f021 ()*/ {.w_px = 25, .glyph_index = 4650}, /*Unicode: U+f026 ()*/ {.w_px = 25, .glyph_index = 5040}, /*Unicode: U+f027 ()*/ {.w_px = 20, .glyph_index = 5430}, /*Unicode: U+f028 ()*/ {.w_px = 20, .glyph_index = 5730}, /*Unicode: U+f03e ()*/ {.w_px = 25, .glyph_index = 6030}, /*Unicode: U+f040 ()*/ {.w_px = 20, .glyph_index = 6420}, /*Unicode: U+f048 ()*/ {.w_px = 20, .glyph_index = 6720}, /*Unicode: U+f04b ()*/ {.w_px = 20, .glyph_index = 7020}, /*Unicode: U+f04c ()*/ {.w_px = 13, .glyph_index = 7320}, /*Unicode: U+f04d ()*/ {.w_px = 32, .glyph_index = 7530}, /*Unicode: U+f051 ()*/ {.w_px = 30, .glyph_index = 8010}, /*Unicode: U+f052 ()*/ {.w_px = 16, .glyph_index = 8460}, /*Unicode: U+f053 ()*/ {.w_px = 16, .glyph_index = 8700}, /*Unicode: U+f054 ()*/ {.w_px = 25, .glyph_index = 8940}, /*Unicode: U+f067 ()*/ {.w_px = 25, .glyph_index = 9330}, /*Unicode: U+f068 ()*/ {.w_px = 27, .glyph_index = 9720}, /*Unicode: U+f071 ()*/ {.w_px = 29, .glyph_index = 10140}, /*Unicode: U+f074 ()*/ {.w_px = 26, .glyph_index = 10590}, /*Unicode: U+f077 ()*/ {.w_px = 26, .glyph_index = 10980}, /*Unicode: U+f078 ()*/ {.w_px = 25, .glyph_index = 11370}, /*Unicode: U+f079 ()*/ {.w_px = 29, .glyph_index = 11760}, /*Unicode: U+f07b ()*/ {.w_px = 25, .glyph_index = 12210}, /*Unicode: U+f093 ()*/ {.w_px = 37, .glyph_index = 12600}, /*Unicode: U+f095 ()*/ {.w_px = 25, .glyph_index = 13170}, /*Unicode: U+f0c4 ()*/ {.w_px = 23, .glyph_index = 13560}, /*Unicode: U+f0c5 ()*/ {.w_px = 24, .glyph_index = 13920}, /*Unicode: U+f0c7 ()*/ {.w_px = 13, .glyph_index = 14280}, /*Unicode: U+f0e7 ()*/ {.w_px = 18, .glyph_index = 14490}, /*Unicode: U+f0f3 ()*/ {.w_px = 33, .glyph_index = 14760}, /*Unicode: U+f11c ()*/ {.w_px = 25, .glyph_index = 15270}, /*Unicode: U+f124 ()*/ {.w_px = 20, .glyph_index = 15660}, /*Unicode: U+f15b ()*/ {.w_px = 29, .glyph_index = 15960}, /*Unicode: U+f1eb ()*/ {.w_px = 38, .glyph_index = 16410}, /*Unicode: U+f240 ()*/ {.w_px = 38, .glyph_index = 16980}, /*Unicode: U+f241 ()*/ {.w_px = 38, .glyph_index = 17550}, /*Unicode: U+f242 ()*/ {.w_px = 38, .glyph_index = 18120}, /*Unicode: U+f243 ()*/ {.w_px = 38, .glyph_index = 18690}, /*Unicode: U+f244 ()*/ {.w_px = 29, .glyph_index = 19260}, /*Unicode: U+f293 ()*/ #elif USE_HEKATE_SYMBOL_30 == 8 {.w_px = 7, .glyph_index = 0}, /*Unicode: U+f001 ()*/ {.w_px = 25, .glyph_index = 210}, /*Unicode: U+f008 ()*/ {.w_px = 27, .glyph_index = 960}, /*Unicode: U+f00b ()*/ {.w_px = 31, .glyph_index = 1770}, /*Unicode: U+f00c ()*/ {.w_px = 22, .glyph_index = 2700}, /*Unicode: U+f00d ()*/ {.w_px = 25, .glyph_index = 3360}, /*Unicode: U+f011 ()*/ {.w_px = 25, .glyph_index = 4110}, /*Unicode: U+f013 ()*/ {.w_px = 23, .glyph_index = 4860}, /*Unicode: U+f014 ()*/ {.w_px = 34, .glyph_index = 5550}, /*Unicode: U+f015 ()*/ {.w_px = 25, .glyph_index = 6570}, /*Unicode: U+f019 ()*/ {.w_px = 32, .glyph_index = 7320}, /*Unicode: U+f01c ()*/ {.w_px = 25, .glyph_index = 8280}, /*Unicode: U+f021 ()*/ {.w_px = 25, .glyph_index = 9030}, /*Unicode: U+f026 ()*/ {.w_px = 25, .glyph_index = 9780}, /*Unicode: U+f027 ()*/ {.w_px = 20, .glyph_index = 10530}, /*Unicode: U+f028 ()*/ {.w_px = 20, .glyph_index = 11130}, /*Unicode: U+f03e ()*/ {.w_px = 25, .glyph_index = 11730}, /*Unicode: U+f040 ()*/ {.w_px = 20, .glyph_index = 12480}, /*Unicode: U+f048 ()*/ {.w_px = 20, .glyph_index = 13080}, /*Unicode: U+f04b ()*/ {.w_px = 20, .glyph_index = 13680}, /*Unicode: U+f04c ()*/ {.w_px = 13, .glyph_index = 14280}, /*Unicode: U+f04d ()*/ {.w_px = 32, .glyph_index = 14670}, /*Unicode: U+f051 ()*/ {.w_px = 30, .glyph_index = 15630}, /*Unicode: U+f052 ()*/ {.w_px = 16, .glyph_index = 16530}, /*Unicode: U+f053 ()*/ {.w_px = 16, .glyph_index = 17010}, /*Unicode: U+f054 ()*/ {.w_px = 25, .glyph_index = 17490}, /*Unicode: U+f067 ()*/ {.w_px = 25, .glyph_index = 18240}, /*Unicode: U+f068 ()*/ {.w_px = 27, .glyph_index = 18990}, /*Unicode: U+f071 ()*/ {.w_px = 29, .glyph_index = 19800}, /*Unicode: U+f074 ()*/ {.w_px = 26, .glyph_index = 20670}, /*Unicode: U+f077 ()*/ {.w_px = 26, .glyph_index = 21450}, /*Unicode: U+f078 ()*/ {.w_px = 25, .glyph_index = 22230}, /*Unicode: U+f079 ()*/ {.w_px = 29, .glyph_index = 22980}, /*Unicode: U+f07b ()*/ {.w_px = 25, .glyph_index = 23850}, /*Unicode: U+f093 ()*/ {.w_px = 37, .glyph_index = 24600}, /*Unicode: U+f095 ()*/ {.w_px = 25, .glyph_index = 25710}, /*Unicode: U+f0c4 ()*/ {.w_px = 23, .glyph_index = 26460}, /*Unicode: U+f0c5 ()*/ {.w_px = 24, .glyph_index = 27150}, /*Unicode: U+f0c7 ()*/ {.w_px = 13, .glyph_index = 27870}, /*Unicode: U+f0e7 ()*/ {.w_px = 18, .glyph_index = 28260}, /*Unicode: U+f0f3 ()*/ {.w_px = 33, .glyph_index = 28800}, /*Unicode: U+f11c ()*/ {.w_px = 25, .glyph_index = 29790}, /*Unicode: U+f124 ()*/ {.w_px = 20, .glyph_index = 30540}, /*Unicode: U+f15b ()*/ {.w_px = 29, .glyph_index = 31140}, /*Unicode: U+f1eb ()*/ {.w_px = 38, .glyph_index = 32010}, /*Unicode: U+f240 ()*/ {.w_px = 38, .glyph_index = 33150}, /*Unicode: U+f241 ()*/ {.w_px = 38, .glyph_index = 34290}, /*Unicode: U+f242 ()*/ {.w_px = 38, .glyph_index = 35430}, /*Unicode: U+f243 ()*/ {.w_px = 38, .glyph_index = 36570}, /*Unicode: U+f244 ()*/ {.w_px = 29, .glyph_index = 37710}, /*Unicode: U+f293 ()*/ #endif }; lv_font_t hekate_symbol_30 = { .unicode_first = LV_SYMBOL_GLYPH_FIRST, /*First Unicode letter in this font*/ .unicode_last = LV_SYMBOL_GLYPH_LAST, /*Last Unicode letter in this font*/ .h_px = 30, /*Font height in pixels*/ //.glyph_bitmap = hekate_symbol_30_glyph_bitmap, /*Bitmap of glyphs*/ .glyph_bitmap = (const uint8_t *)(NYX_RES_ADDR + 0x14200), .glyph_dsc = hekate_symbol_30_glyph_dsc, /*Description of glyphs*/ .glyph_cnt = 50, /*Number of glyphs in the font*/ .unicode_list = NULL, /*List of unicode characters*/ .get_bitmap = lv_font_get_bitmap_continuous, /*Function pointer to get glyph's bitmap*/ .get_width = lv_font_get_width_continuous, /*Function pointer to get glyph's width*/ #if USE_HEKATE_SYMBOL_30 == 4 .bpp = 4, /*Bit per pixel*/ #elif USE_HEKATE_SYMBOL_30 == 8 .bpp = 8, /*Bit per pixel*/ #endif .monospace = 0, /*Fix width (0: if not used)*/ .next_page = NULL, /*Pointer to a font extension*/ }; #endif /*USE_HEKATE_SYMBOL_30*/ ================================================ FILE: bdk/libs/lvgl/lv_fonts/interui_20.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "../lv_misc/lv_font.h" #include #if USE_INTERUI_20 != 0 /*Can be enabled in lv_conf.h*/ /*********************************************************************************** * Inter-UI-Regular-stretched.ttf 20 px Font in U+0020 ( ) .. U+007e (~) range with all bpp ***********************************************************************************/ /*Store the glyph descriptions*/ static const lv_font_glyph_dsc_t interui_20_glyph_dsc[] = { #if USE_INTERUI_20 == 4 {.w_px = 6, .glyph_index = 0}, /*Unicode: U+0020 ( )*/ {.w_px = 3, .glyph_index = 60}, /*Unicode: U+0021 (!)*/ {.w_px = 5, .glyph_index = 100}, /*Unicode: U+0022 (")*/ {.w_px = 8, .glyph_index = 160}, /*Unicode: U+0023 (#)*/ {.w_px = 9, .glyph_index = 240}, /*Unicode: U+0024 ($)*/ {.w_px = 14, .glyph_index = 340}, /*Unicode: U+0025 (%)*/ {.w_px = 12, .glyph_index = 480}, /*Unicode: U+0026 (&)*/ {.w_px = 3, .glyph_index = 600}, /*Unicode: U+0027 (')*/ {.w_px = 5, .glyph_index = 640}, /*Unicode: U+0028 (()*/ {.w_px = 5, .glyph_index = 700}, /*Unicode: U+0029 ())*/ {.w_px = 7, .glyph_index = 760}, /*Unicode: U+002a (*)*/ {.w_px = 10, .glyph_index = 840}, /*Unicode: U+002b (+)*/ {.w_px = 3, .glyph_index = 940}, /*Unicode: U+002c (,)*/ {.w_px = 5, .glyph_index = 980}, /*Unicode: U+002d (-)*/ {.w_px = 3, .glyph_index = 1040}, /*Unicode: U+002e (.)*/ {.w_px = 8, .glyph_index = 1080}, /*Unicode: U+002f (/)*/ {.w_px = 10, .glyph_index = 1160}, /*Unicode: U+0030 (0)*/ {.w_px = 5, .glyph_index = 1260}, /*Unicode: U+0031 (1)*/ {.w_px = 9, .glyph_index = 1320}, /*Unicode: U+0032 (2)*/ {.w_px = 10, .glyph_index = 1420}, /*Unicode: U+0033 (3)*/ {.w_px = 9, .glyph_index = 1520}, /*Unicode: U+0034 (4)*/ {.w_px = 9, .glyph_index = 1620}, /*Unicode: U+0035 (5)*/ {.w_px = 10, .glyph_index = 1720}, /*Unicode: U+0036 (6)*/ {.w_px = 8, .glyph_index = 1820}, /*Unicode: U+0037 (7)*/ {.w_px = 10, .glyph_index = 1900}, /*Unicode: U+0038 (8)*/ {.w_px = 10, .glyph_index = 2000}, /*Unicode: U+0039 (9)*/ {.w_px = 3, .glyph_index = 2100}, /*Unicode: U+003a (:)*/ {.w_px = 3, .glyph_index = 2140}, /*Unicode: U+003b (;)*/ {.w_px = 12, .glyph_index = 2180}, /*Unicode: U+003c (<)*/ {.w_px = 10, .glyph_index = 2300}, /*Unicode: U+003d (=)*/ {.w_px = 12, .glyph_index = 2400}, /*Unicode: U+003e (>)*/ {.w_px = 8, .glyph_index = 2520}, /*Unicode: U+003f (?)*/ {.w_px = 14, .glyph_index = 2600}, /*Unicode: U+0040 (@)*/ {.w_px = 12, .glyph_index = 2740}, /*Unicode: U+0041 (A)*/ {.w_px = 10, .glyph_index = 2860}, /*Unicode: U+0042 (B)*/ {.w_px = 11, .glyph_index = 2960}, /*Unicode: U+0043 (C)*/ {.w_px = 12, .glyph_index = 3080}, /*Unicode: U+0044 (D)*/ {.w_px = 9, .glyph_index = 3200}, /*Unicode: U+0045 (E)*/ {.w_px = 8, .glyph_index = 3300}, /*Unicode: U+0046 (F)*/ {.w_px = 12, .glyph_index = 3380}, /*Unicode: U+0047 (G)*/ {.w_px = 10, .glyph_index = 3500}, /*Unicode: U+0048 (H)*/ {.w_px = 3, .glyph_index = 3600}, /*Unicode: U+0049 (I)*/ {.w_px = 7, .glyph_index = 3640}, /*Unicode: U+004a (J)*/ {.w_px = 10, .glyph_index = 3720}, /*Unicode: U+004b (K)*/ {.w_px = 7, .glyph_index = 3820}, /*Unicode: U+004c (L)*/ {.w_px = 15, .glyph_index = 3900}, /*Unicode: U+004d (M)*/ {.w_px = 12, .glyph_index = 4060}, /*Unicode: U+004e (N)*/ {.w_px = 14, .glyph_index = 4180}, /*Unicode: U+004f (O)*/ {.w_px = 9, .glyph_index = 4320}, /*Unicode: U+0050 (P)*/ {.w_px = 14, .glyph_index = 4420}, /*Unicode: U+0051 (Q)*/ {.w_px = 9, .glyph_index = 4560}, /*Unicode: U+0052 (R)*/ {.w_px = 9, .glyph_index = 4660}, /*Unicode: U+0053 (S)*/ {.w_px = 9, .glyph_index = 4760}, /*Unicode: U+0054 (T)*/ {.w_px = 12, .glyph_index = 4860}, /*Unicode: U+0055 (U)*/ {.w_px = 12, .glyph_index = 4980}, /*Unicode: U+0056 (V)*/ {.w_px = 18, .glyph_index = 5100}, /*Unicode: U+0057 (W)*/ {.w_px = 10, .glyph_index = 5280}, /*Unicode: U+0058 (X)*/ {.w_px = 10, .glyph_index = 5380}, /*Unicode: U+0059 (Y)*/ {.w_px = 10, .glyph_index = 5480}, /*Unicode: U+005a (Z)*/ {.w_px = 5, .glyph_index = 5580}, /*Unicode: U+005b ([)*/ {.w_px = 8, .glyph_index = 5640}, /*Unicode: U+005c (\)*/ {.w_px = 5, .glyph_index = 5720}, /*Unicode: U+005d (])*/ {.w_px = 9, .glyph_index = 5780}, /*Unicode: U+005e (^)*/ {.w_px = 8, .glyph_index = 5880}, /*Unicode: U+005f (_)*/ {.w_px = 4, .glyph_index = 5960}, /*Unicode: U+0060 (`)*/ {.w_px = 9, .glyph_index = 6000}, /*Unicode: U+0061 (a)*/ {.w_px = 10, .glyph_index = 6100}, /*Unicode: U+0062 (b)*/ {.w_px = 8, .glyph_index = 6200}, /*Unicode: U+0063 (c)*/ {.w_px = 10, .glyph_index = 6280}, /*Unicode: U+0064 (d)*/ {.w_px = 9, .glyph_index = 6380}, /*Unicode: U+0065 (e)*/ {.w_px = 4, .glyph_index = 6480}, /*Unicode: U+0066 (f)*/ {.w_px = 9, .glyph_index = 6520}, /*Unicode: U+0067 (g)*/ {.w_px = 9, .glyph_index = 6620}, /*Unicode: U+0068 (h)*/ {.w_px = 3, .glyph_index = 6720}, /*Unicode: U+0069 (i)*/ {.w_px = 5, .glyph_index = 6760}, /*Unicode: U+006a (j)*/ {.w_px = 8, .glyph_index = 6820}, /*Unicode: U+006b (k)*/ {.w_px = 4, .glyph_index = 6900}, /*Unicode: U+006c (l)*/ {.w_px = 13, .glyph_index = 6940}, /*Unicode: U+006d (m)*/ {.w_px = 9, .glyph_index = 7080}, /*Unicode: U+006e (n)*/ {.w_px = 10, .glyph_index = 7180}, /*Unicode: U+006f (o)*/ {.w_px = 10, .glyph_index = 7280}, /*Unicode: U+0070 (p)*/ {.w_px = 10, .glyph_index = 7380}, /*Unicode: U+0071 (q)*/ {.w_px = 5, .glyph_index = 7480}, /*Unicode: U+0072 (r)*/ {.w_px = 8, .glyph_index = 7540}, /*Unicode: U+0073 (s)*/ {.w_px = 5, .glyph_index = 7620}, /*Unicode: U+0074 (t)*/ {.w_px = 9, .glyph_index = 7680}, /*Unicode: U+0075 (u)*/ {.w_px = 8, .glyph_index = 7780}, /*Unicode: U+0076 (v)*/ {.w_px = 14, .glyph_index = 7860}, /*Unicode: U+0077 (w)*/ {.w_px = 8, .glyph_index = 8000}, /*Unicode: U+0078 (x)*/ {.w_px = 8, .glyph_index = 8080}, /*Unicode: U+0079 (y)*/ {.w_px = 7, .glyph_index = 8160}, /*Unicode: U+007a (z)*/ {.w_px = 4, .glyph_index = 8240}, /*Unicode: U+007b ({)*/ {.w_px = 3, .glyph_index = 8280}, /*Unicode: U+007c (|)*/ {.w_px = 4, .glyph_index = 8320}, /*Unicode: U+007d (})*/ {.w_px = 6, .glyph_index = 8360}, /*Unicode: U+007e (~)*/ #elif USE_INTERUI_20 == 8 {.w_px = 6, .glyph_index = 0}, /*Unicode: U+0020 ( )*/ {.w_px = 3, .glyph_index = 120}, /*Unicode: U+0021 (!)*/ {.w_px = 5, .glyph_index = 180}, /*Unicode: U+0022 (")*/ {.w_px = 8, .glyph_index = 280}, /*Unicode: U+0023 (#)*/ {.w_px = 9, .glyph_index = 440}, /*Unicode: U+0024 ($)*/ {.w_px = 14, .glyph_index = 620}, /*Unicode: U+0025 (%)*/ {.w_px = 12, .glyph_index = 900}, /*Unicode: U+0026 (&)*/ {.w_px = 3, .glyph_index = 1140}, /*Unicode: U+0027 (')*/ {.w_px = 5, .glyph_index = 1200}, /*Unicode: U+0028 (()*/ {.w_px = 5, .glyph_index = 1300}, /*Unicode: U+0029 ())*/ {.w_px = 7, .glyph_index = 1400}, /*Unicode: U+002a (*)*/ {.w_px = 10, .glyph_index = 1540}, /*Unicode: U+002b (+)*/ {.w_px = 3, .glyph_index = 1740}, /*Unicode: U+002c (,)*/ {.w_px = 5, .glyph_index = 1800}, /*Unicode: U+002d (-)*/ {.w_px = 3, .glyph_index = 1900}, /*Unicode: U+002e (.)*/ {.w_px = 8, .glyph_index = 1960}, /*Unicode: U+002f (/)*/ {.w_px = 10, .glyph_index = 2120}, /*Unicode: U+0030 (0)*/ {.w_px = 5, .glyph_index = 2320}, /*Unicode: U+0031 (1)*/ {.w_px = 9, .glyph_index = 2420}, /*Unicode: U+0032 (2)*/ {.w_px = 10, .glyph_index = 2600}, /*Unicode: U+0033 (3)*/ {.w_px = 9, .glyph_index = 2800}, /*Unicode: U+0034 (4)*/ {.w_px = 9, .glyph_index = 2980}, /*Unicode: U+0035 (5)*/ {.w_px = 10, .glyph_index = 3160}, /*Unicode: U+0036 (6)*/ {.w_px = 8, .glyph_index = 3360}, /*Unicode: U+0037 (7)*/ {.w_px = 10, .glyph_index = 3520}, /*Unicode: U+0038 (8)*/ {.w_px = 10, .glyph_index = 3720}, /*Unicode: U+0039 (9)*/ {.w_px = 3, .glyph_index = 3920}, /*Unicode: U+003a (:)*/ {.w_px = 3, .glyph_index = 3980}, /*Unicode: U+003b (;)*/ {.w_px = 12, .glyph_index = 4040}, /*Unicode: U+003c (<)*/ {.w_px = 10, .glyph_index = 4280}, /*Unicode: U+003d (=)*/ {.w_px = 12, .glyph_index = 4480}, /*Unicode: U+003e (>)*/ {.w_px = 8, .glyph_index = 4720}, /*Unicode: U+003f (?)*/ {.w_px = 14, .glyph_index = 4880}, /*Unicode: U+0040 (@)*/ {.w_px = 12, .glyph_index = 5160}, /*Unicode: U+0041 (A)*/ {.w_px = 10, .glyph_index = 5400}, /*Unicode: U+0042 (B)*/ {.w_px = 11, .glyph_index = 5600}, /*Unicode: U+0043 (C)*/ {.w_px = 12, .glyph_index = 5820}, /*Unicode: U+0044 (D)*/ {.w_px = 9, .glyph_index = 6060}, /*Unicode: U+0045 (E)*/ {.w_px = 8, .glyph_index = 6240}, /*Unicode: U+0046 (F)*/ {.w_px = 12, .glyph_index = 6400}, /*Unicode: U+0047 (G)*/ {.w_px = 10, .glyph_index = 6640}, /*Unicode: U+0048 (H)*/ {.w_px = 3, .glyph_index = 6840}, /*Unicode: U+0049 (I)*/ {.w_px = 7, .glyph_index = 6900}, /*Unicode: U+004a (J)*/ {.w_px = 10, .glyph_index = 7040}, /*Unicode: U+004b (K)*/ {.w_px = 7, .glyph_index = 7240}, /*Unicode: U+004c (L)*/ {.w_px = 15, .glyph_index = 7380}, /*Unicode: U+004d (M)*/ {.w_px = 12, .glyph_index = 7680}, /*Unicode: U+004e (N)*/ {.w_px = 14, .glyph_index = 7920}, /*Unicode: U+004f (O)*/ {.w_px = 9, .glyph_index = 8200}, /*Unicode: U+0050 (P)*/ {.w_px = 14, .glyph_index = 8380}, /*Unicode: U+0051 (Q)*/ {.w_px = 9, .glyph_index = 8660}, /*Unicode: U+0052 (R)*/ {.w_px = 9, .glyph_index = 8840}, /*Unicode: U+0053 (S)*/ {.w_px = 9, .glyph_index = 9020}, /*Unicode: U+0054 (T)*/ {.w_px = 12, .glyph_index = 9200}, /*Unicode: U+0055 (U)*/ {.w_px = 12, .glyph_index = 9440}, /*Unicode: U+0056 (V)*/ {.w_px = 18, .glyph_index = 9680}, /*Unicode: U+0057 (W)*/ {.w_px = 10, .glyph_index = 10040}, /*Unicode: U+0058 (X)*/ {.w_px = 10, .glyph_index = 10240}, /*Unicode: U+0059 (Y)*/ {.w_px = 10, .glyph_index = 10440}, /*Unicode: U+005a (Z)*/ {.w_px = 5, .glyph_index = 10640}, /*Unicode: U+005b ([)*/ {.w_px = 8, .glyph_index = 10740}, /*Unicode: U+005c (\)*/ {.w_px = 5, .glyph_index = 10900}, /*Unicode: U+005d (])*/ {.w_px = 9, .glyph_index = 11000}, /*Unicode: U+005e (^)*/ {.w_px = 8, .glyph_index = 11180}, /*Unicode: U+005f (_)*/ {.w_px = 4, .glyph_index = 11340}, /*Unicode: U+0060 (`)*/ {.w_px = 9, .glyph_index = 11420}, /*Unicode: U+0061 (a)*/ {.w_px = 10, .glyph_index = 11600}, /*Unicode: U+0062 (b)*/ {.w_px = 8, .glyph_index = 11800}, /*Unicode: U+0063 (c)*/ {.w_px = 10, .glyph_index = 11960}, /*Unicode: U+0064 (d)*/ {.w_px = 9, .glyph_index = 12160}, /*Unicode: U+0065 (e)*/ {.w_px = 4, .glyph_index = 12340}, /*Unicode: U+0066 (f)*/ {.w_px = 9, .glyph_index = 12420}, /*Unicode: U+0067 (g)*/ {.w_px = 9, .glyph_index = 12600}, /*Unicode: U+0068 (h)*/ {.w_px = 3, .glyph_index = 12780}, /*Unicode: U+0069 (i)*/ {.w_px = 5, .glyph_index = 12840}, /*Unicode: U+006a (j)*/ {.w_px = 8, .glyph_index = 12940}, /*Unicode: U+006b (k)*/ {.w_px = 4, .glyph_index = 13100}, /*Unicode: U+006c (l)*/ {.w_px = 13, .glyph_index = 13180}, /*Unicode: U+006d (m)*/ {.w_px = 9, .glyph_index = 13440}, /*Unicode: U+006e (n)*/ {.w_px = 10, .glyph_index = 13620}, /*Unicode: U+006f (o)*/ {.w_px = 10, .glyph_index = 13820}, /*Unicode: U+0070 (p)*/ {.w_px = 10, .glyph_index = 14020}, /*Unicode: U+0071 (q)*/ {.w_px = 5, .glyph_index = 14220}, /*Unicode: U+0072 (r)*/ {.w_px = 8, .glyph_index = 14320}, /*Unicode: U+0073 (s)*/ {.w_px = 5, .glyph_index = 14480}, /*Unicode: U+0074 (t)*/ {.w_px = 9, .glyph_index = 14580}, /*Unicode: U+0075 (u)*/ {.w_px = 8, .glyph_index = 14760}, /*Unicode: U+0076 (v)*/ {.w_px = 14, .glyph_index = 14920}, /*Unicode: U+0077 (w)*/ {.w_px = 8, .glyph_index = 15200}, /*Unicode: U+0078 (x)*/ {.w_px = 8, .glyph_index = 15360}, /*Unicode: U+0079 (y)*/ {.w_px = 7, .glyph_index = 15520}, /*Unicode: U+007a (z)*/ {.w_px = 4, .glyph_index = 15660}, /*Unicode: U+007b ({)*/ {.w_px = 3, .glyph_index = 15740}, /*Unicode: U+007c (|)*/ {.w_px = 4, .glyph_index = 15800}, /*Unicode: U+007d (})*/ {.w_px = 6, .glyph_index = 15880}, /*Unicode: U+007e (~)*/ #endif }; lv_font_t interui_20 = { .unicode_first = 32, /*First Unicode letter in this font*/ .unicode_last = 126, /*Last Unicode letter in this font*/ .h_px = 20, /*Font height in pixels*/ //.glyph_bitmap = interui_20_glyph_bitmap, /*Bitmap of glyphs*/ .glyph_bitmap = (const uint8_t *)(NYX_RES_ADDR + 0x3A00), .glyph_dsc = interui_20_glyph_dsc, /*Description of glyphs*/ .glyph_cnt = 95, /*Number of glyphs in the font*/ .unicode_list = NULL, /*Every character in the font from 'unicode_first' to 'unicode_last'*/ .get_bitmap = lv_font_get_bitmap_continuous, /*Function pointer to get glyph's bitmap*/ .get_width = lv_font_get_width_continuous, /*Function pointer to get glyph's width*/ #if USE_INTERUI_20 == 4 .bpp = 4, /*Bit per pixel*/ #elif USE_INTERUI_20 == 8 .bpp = 8, /*Bit per pixel*/ #endif .monospace = 0, /*Fix width (0: if not used)*/ .next_page = NULL, /*Pointer to a font extension*/ }; #endif /*USE_INTERUI_20*/ ================================================ FILE: bdk/libs/lvgl/lv_fonts/interui_30.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "../lv_misc/lv_font.h" #include #if USE_INTERUI_30 != 0 /*Can be enabled in lv_conf.h*/ /*********************************************************************************** * Inter-UI-Regular-stretched.ttf 30 px Font in U+0020 ( ) .. U+007e (~) range with all bpp ***********************************************************************************/ /*Store the glyph descriptions*/ static const lv_font_glyph_dsc_t interui_30_glyph_dsc[] = { #if USE_INTERUI_30 == 4 {.w_px = 8, .glyph_index = 0}, /*Unicode: U+0020 ( )*/ {.w_px = 3, .glyph_index = 120}, /*Unicode: U+0021 (!)*/ {.w_px = 6, .glyph_index = 180}, /*Unicode: U+0022 (")*/ {.w_px = 13, .glyph_index = 270}, /*Unicode: U+0023 (#)*/ {.w_px = 12, .glyph_index = 480}, /*Unicode: U+0024 ($)*/ {.w_px = 18, .glyph_index = 660}, /*Unicode: U+0025 (%)*/ {.w_px = 16, .glyph_index = 930}, /*Unicode: U+0026 (&)*/ {.w_px = 3, .glyph_index = 1170}, /*Unicode: U+0027 (')*/ {.w_px = 6, .glyph_index = 1230}, /*Unicode: U+0028 (()*/ {.w_px = 7, .glyph_index = 1320}, /*Unicode: U+0029 ())*/ {.w_px = 9, .glyph_index = 1440}, /*Unicode: U+002a (*)*/ {.w_px = 16, .glyph_index = 1590}, /*Unicode: U+002b (+)*/ {.w_px = 3, .glyph_index = 1830}, /*Unicode: U+002c (,)*/ {.w_px = 8, .glyph_index = 1890}, /*Unicode: U+002d (-)*/ {.w_px = 3, .glyph_index = 2010}, /*Unicode: U+002e (.)*/ {.w_px = 11, .glyph_index = 2070}, /*Unicode: U+002f (/)*/ {.w_px = 13, .glyph_index = 2250}, /*Unicode: U+0030 (0)*/ {.w_px = 7, .glyph_index = 2460}, /*Unicode: U+0031 (1)*/ {.w_px = 13, .glyph_index = 2580}, /*Unicode: U+0032 (2)*/ {.w_px = 14, .glyph_index = 2790}, /*Unicode: U+0033 (3)*/ {.w_px = 13, .glyph_index = 3000}, /*Unicode: U+0034 (4)*/ {.w_px = 14, .glyph_index = 3210}, /*Unicode: U+0035 (5)*/ {.w_px = 13, .glyph_index = 3420}, /*Unicode: U+0036 (6)*/ {.w_px = 13, .glyph_index = 3630}, /*Unicode: U+0037 (7)*/ {.w_px = 13, .glyph_index = 3840}, /*Unicode: U+0038 (8)*/ {.w_px = 13, .glyph_index = 4050}, /*Unicode: U+0039 (9)*/ {.w_px = 3, .glyph_index = 4260}, /*Unicode: U+003a (:)*/ {.w_px = 3, .glyph_index = 4320}, /*Unicode: U+003b (;)*/ {.w_px = 18, .glyph_index = 4380}, /*Unicode: U+003c (<)*/ {.w_px = 16, .glyph_index = 4650}, /*Unicode: U+003d (=)*/ {.w_px = 18, .glyph_index = 4890}, /*Unicode: U+003e (>)*/ {.w_px = 12, .glyph_index = 5160}, /*Unicode: U+003f (?)*/ {.w_px = 18, .glyph_index = 5340}, /*Unicode: U+0040 (@)*/ {.w_px = 17, .glyph_index = 5610}, /*Unicode: U+0041 (A)*/ {.w_px = 13, .glyph_index = 5880}, /*Unicode: U+0042 (B)*/ {.w_px = 15, .glyph_index = 6090}, /*Unicode: U+0043 (C)*/ {.w_px = 17, .glyph_index = 6330}, /*Unicode: U+0044 (D)*/ {.w_px = 12, .glyph_index = 6600}, /*Unicode: U+0045 (E)*/ {.w_px = 11, .glyph_index = 6780}, /*Unicode: U+0046 (F)*/ {.w_px = 17, .glyph_index = 6960}, /*Unicode: U+0047 (G)*/ {.w_px = 14, .glyph_index = 7230}, /*Unicode: U+0048 (H)*/ {.w_px = 3, .glyph_index = 7440}, /*Unicode: U+0049 (I)*/ {.w_px = 11, .glyph_index = 7500}, /*Unicode: U+004a (J)*/ {.w_px = 14, .glyph_index = 7680}, /*Unicode: U+004b (K)*/ {.w_px = 9, .glyph_index = 7890}, /*Unicode: U+004c (L)*/ {.w_px = 23, .glyph_index = 8040}, /*Unicode: U+004d (M)*/ {.w_px = 16, .glyph_index = 8400}, /*Unicode: U+004e (N)*/ {.w_px = 19, .glyph_index = 8640}, /*Unicode: U+004f (O)*/ {.w_px = 11, .glyph_index = 8940}, /*Unicode: U+0050 (P)*/ {.w_px = 19, .glyph_index = 9120}, /*Unicode: U+0051 (Q)*/ {.w_px = 13, .glyph_index = 9420}, /*Unicode: U+0052 (R)*/ {.w_px = 12, .glyph_index = 9630}, /*Unicode: U+0053 (S)*/ {.w_px = 14, .glyph_index = 9810}, /*Unicode: U+0054 (T)*/ {.w_px = 16, .glyph_index = 10020}, /*Unicode: U+0055 (U)*/ {.w_px = 18, .glyph_index = 10260}, /*Unicode: U+0056 (V)*/ {.w_px = 27, .glyph_index = 10530}, /*Unicode: U+0057 (W)*/ {.w_px = 15, .glyph_index = 10950}, /*Unicode: U+0058 (X)*/ {.w_px = 15, .glyph_index = 11190}, /*Unicode: U+0059 (Y)*/ {.w_px = 15, .glyph_index = 11430}, /*Unicode: U+005a (Z)*/ {.w_px = 6, .glyph_index = 11670}, /*Unicode: U+005b ([)*/ {.w_px = 11, .glyph_index = 11760}, /*Unicode: U+005c (\)*/ {.w_px = 7, .glyph_index = 11940}, /*Unicode: U+005d (])*/ {.w_px = 13, .glyph_index = 12060}, /*Unicode: U+005e (^)*/ {.w_px = 12, .glyph_index = 12270}, /*Unicode: U+005f (_)*/ {.w_px = 6, .glyph_index = 12450}, /*Unicode: U+0060 (`)*/ {.w_px = 12, .glyph_index = 12540}, /*Unicode: U+0061 (a)*/ {.w_px = 13, .glyph_index = 12720}, /*Unicode: U+0062 (b)*/ {.w_px = 11, .glyph_index = 12930}, /*Unicode: U+0063 (c)*/ {.w_px = 13, .glyph_index = 13110}, /*Unicode: U+0064 (d)*/ {.w_px = 12, .glyph_index = 13320}, /*Unicode: U+0065 (e)*/ {.w_px = 6, .glyph_index = 13500}, /*Unicode: U+0066 (f)*/ {.w_px = 12, .glyph_index = 13590}, /*Unicode: U+0067 (g)*/ {.w_px = 11, .glyph_index = 13770}, /*Unicode: U+0068 (h)*/ {.w_px = 3, .glyph_index = 13950}, /*Unicode: U+0069 (i)*/ {.w_px = 7, .glyph_index = 14010}, /*Unicode: U+006a (j)*/ {.w_px = 12, .glyph_index = 14130}, /*Unicode: U+006b (k)*/ {.w_px = 4, .glyph_index = 14310}, /*Unicode: U+006c (l)*/ {.w_px = 19, .glyph_index = 14370}, /*Unicode: U+006d (m)*/ {.w_px = 11, .glyph_index = 14670}, /*Unicode: U+006e (n)*/ {.w_px = 14, .glyph_index = 14850}, /*Unicode: U+006f (o)*/ {.w_px = 13, .glyph_index = 15060}, /*Unicode: U+0070 (p)*/ {.w_px = 13, .glyph_index = 15270}, /*Unicode: U+0071 (q)*/ {.w_px = 7, .glyph_index = 15480}, /*Unicode: U+0072 (r)*/ {.w_px = 11, .glyph_index = 15600}, /*Unicode: U+0073 (s)*/ {.w_px = 8, .glyph_index = 15780}, /*Unicode: U+0074 (t)*/ {.w_px = 11, .glyph_index = 15900}, /*Unicode: U+0075 (u)*/ {.w_px = 12, .glyph_index = 16080}, /*Unicode: U+0076 (v)*/ {.w_px = 21, .glyph_index = 16260}, /*Unicode: U+0077 (w)*/ {.w_px = 13, .glyph_index = 16590}, /*Unicode: U+0078 (x)*/ {.w_px = 13, .glyph_index = 16800}, /*Unicode: U+0079 (y)*/ {.w_px = 10, .glyph_index = 17010}, /*Unicode: U+007a (z)*/ {.w_px = 6, .glyph_index = 17160}, /*Unicode: U+007b ({)*/ {.w_px = 3, .glyph_index = 17250}, /*Unicode: U+007c (|)*/ {.w_px = 5, .glyph_index = 17310}, /*Unicode: U+007d (})*/ {.w_px = 8, .glyph_index = 17400}, /*Unicode: U+007e (~)*/ #elif USE_INTERUI_30 == 8 {.w_px = 8, .glyph_index = 0}, /*Unicode: U+0020 ( )*/ {.w_px = 3, .glyph_index = 240}, /*Unicode: U+0021 (!)*/ {.w_px = 6, .glyph_index = 330}, /*Unicode: U+0022 (")*/ {.w_px = 13, .glyph_index = 510}, /*Unicode: U+0023 (#)*/ {.w_px = 12, .glyph_index = 900}, /*Unicode: U+0024 ($)*/ {.w_px = 18, .glyph_index = 1260}, /*Unicode: U+0025 (%)*/ {.w_px = 16, .glyph_index = 1800}, /*Unicode: U+0026 (&)*/ {.w_px = 3, .glyph_index = 2280}, /*Unicode: U+0027 (')*/ {.w_px = 6, .glyph_index = 2370}, /*Unicode: U+0028 (()*/ {.w_px = 7, .glyph_index = 2550}, /*Unicode: U+0029 ())*/ {.w_px = 9, .glyph_index = 2760}, /*Unicode: U+002a (*)*/ {.w_px = 16, .glyph_index = 3030}, /*Unicode: U+002b (+)*/ {.w_px = 3, .glyph_index = 3510}, /*Unicode: U+002c (,)*/ {.w_px = 8, .glyph_index = 3600}, /*Unicode: U+002d (-)*/ {.w_px = 3, .glyph_index = 3840}, /*Unicode: U+002e (.)*/ {.w_px = 11, .glyph_index = 3930}, /*Unicode: U+002f (/)*/ {.w_px = 13, .glyph_index = 4260}, /*Unicode: U+0030 (0)*/ {.w_px = 7, .glyph_index = 4650}, /*Unicode: U+0031 (1)*/ {.w_px = 13, .glyph_index = 4860}, /*Unicode: U+0032 (2)*/ {.w_px = 14, .glyph_index = 5250}, /*Unicode: U+0033 (3)*/ {.w_px = 13, .glyph_index = 5670}, /*Unicode: U+0034 (4)*/ {.w_px = 14, .glyph_index = 6060}, /*Unicode: U+0035 (5)*/ {.w_px = 13, .glyph_index = 6480}, /*Unicode: U+0036 (6)*/ {.w_px = 13, .glyph_index = 6870}, /*Unicode: U+0037 (7)*/ {.w_px = 13, .glyph_index = 7260}, /*Unicode: U+0038 (8)*/ {.w_px = 13, .glyph_index = 7650}, /*Unicode: U+0039 (9)*/ {.w_px = 3, .glyph_index = 8040}, /*Unicode: U+003a (:)*/ {.w_px = 3, .glyph_index = 8130}, /*Unicode: U+003b (;)*/ {.w_px = 18, .glyph_index = 8220}, /*Unicode: U+003c (<)*/ {.w_px = 16, .glyph_index = 8760}, /*Unicode: U+003d (=)*/ {.w_px = 18, .glyph_index = 9240}, /*Unicode: U+003e (>)*/ {.w_px = 12, .glyph_index = 9780}, /*Unicode: U+003f (?)*/ {.w_px = 18, .glyph_index = 10140}, /*Unicode: U+0040 (@)*/ {.w_px = 17, .glyph_index = 10680}, /*Unicode: U+0041 (A)*/ {.w_px = 13, .glyph_index = 11190}, /*Unicode: U+0042 (B)*/ {.w_px = 15, .glyph_index = 11580}, /*Unicode: U+0043 (C)*/ {.w_px = 17, .glyph_index = 12030}, /*Unicode: U+0044 (D)*/ {.w_px = 12, .glyph_index = 12540}, /*Unicode: U+0045 (E)*/ {.w_px = 11, .glyph_index = 12900}, /*Unicode: U+0046 (F)*/ {.w_px = 17, .glyph_index = 13230}, /*Unicode: U+0047 (G)*/ {.w_px = 14, .glyph_index = 13740}, /*Unicode: U+0048 (H)*/ {.w_px = 3, .glyph_index = 14160}, /*Unicode: U+0049 (I)*/ {.w_px = 11, .glyph_index = 14250}, /*Unicode: U+004a (J)*/ {.w_px = 14, .glyph_index = 14580}, /*Unicode: U+004b (K)*/ {.w_px = 9, .glyph_index = 15000}, /*Unicode: U+004c (L)*/ {.w_px = 23, .glyph_index = 15270}, /*Unicode: U+004d (M)*/ {.w_px = 16, .glyph_index = 15960}, /*Unicode: U+004e (N)*/ {.w_px = 19, .glyph_index = 16440}, /*Unicode: U+004f (O)*/ {.w_px = 11, .glyph_index = 17010}, /*Unicode: U+0050 (P)*/ {.w_px = 19, .glyph_index = 17340}, /*Unicode: U+0051 (Q)*/ {.w_px = 13, .glyph_index = 17910}, /*Unicode: U+0052 (R)*/ {.w_px = 12, .glyph_index = 18300}, /*Unicode: U+0053 (S)*/ {.w_px = 14, .glyph_index = 18660}, /*Unicode: U+0054 (T)*/ {.w_px = 16, .glyph_index = 19080}, /*Unicode: U+0055 (U)*/ {.w_px = 18, .glyph_index = 19560}, /*Unicode: U+0056 (V)*/ {.w_px = 27, .glyph_index = 20100}, /*Unicode: U+0057 (W)*/ {.w_px = 15, .glyph_index = 20910}, /*Unicode: U+0058 (X)*/ {.w_px = 15, .glyph_index = 21360}, /*Unicode: U+0059 (Y)*/ {.w_px = 15, .glyph_index = 21810}, /*Unicode: U+005a (Z)*/ {.w_px = 6, .glyph_index = 22260}, /*Unicode: U+005b ([)*/ {.w_px = 11, .glyph_index = 22440}, /*Unicode: U+005c (\)*/ {.w_px = 7, .glyph_index = 22770}, /*Unicode: U+005d (])*/ {.w_px = 13, .glyph_index = 22980}, /*Unicode: U+005e (^)*/ {.w_px = 12, .glyph_index = 23370}, /*Unicode: U+005f (_)*/ {.w_px = 6, .glyph_index = 23730}, /*Unicode: U+0060 (`)*/ {.w_px = 12, .glyph_index = 23910}, /*Unicode: U+0061 (a)*/ {.w_px = 13, .glyph_index = 24270}, /*Unicode: U+0062 (b)*/ {.w_px = 11, .glyph_index = 24660}, /*Unicode: U+0063 (c)*/ {.w_px = 13, .glyph_index = 24990}, /*Unicode: U+0064 (d)*/ {.w_px = 12, .glyph_index = 25380}, /*Unicode: U+0065 (e)*/ {.w_px = 6, .glyph_index = 25740}, /*Unicode: U+0066 (f)*/ {.w_px = 12, .glyph_index = 25920}, /*Unicode: U+0067 (g)*/ {.w_px = 11, .glyph_index = 26280}, /*Unicode: U+0068 (h)*/ {.w_px = 3, .glyph_index = 26610}, /*Unicode: U+0069 (i)*/ {.w_px = 7, .glyph_index = 26700}, /*Unicode: U+006a (j)*/ {.w_px = 12, .glyph_index = 26910}, /*Unicode: U+006b (k)*/ {.w_px = 4, .glyph_index = 27270}, /*Unicode: U+006c (l)*/ {.w_px = 19, .glyph_index = 27390}, /*Unicode: U+006d (m)*/ {.w_px = 11, .glyph_index = 27960}, /*Unicode: U+006e (n)*/ {.w_px = 14, .glyph_index = 28290}, /*Unicode: U+006f (o)*/ {.w_px = 13, .glyph_index = 28710}, /*Unicode: U+0070 (p)*/ {.w_px = 13, .glyph_index = 29100}, /*Unicode: U+0071 (q)*/ {.w_px = 7, .glyph_index = 29490}, /*Unicode: U+0072 (r)*/ {.w_px = 11, .glyph_index = 29700}, /*Unicode: U+0073 (s)*/ {.w_px = 8, .glyph_index = 30030}, /*Unicode: U+0074 (t)*/ {.w_px = 11, .glyph_index = 30270}, /*Unicode: U+0075 (u)*/ {.w_px = 12, .glyph_index = 30600}, /*Unicode: U+0076 (v)*/ {.w_px = 21, .glyph_index = 30960}, /*Unicode: U+0077 (w)*/ {.w_px = 13, .glyph_index = 31590}, /*Unicode: U+0078 (x)*/ {.w_px = 13, .glyph_index = 31980}, /*Unicode: U+0079 (y)*/ {.w_px = 10, .glyph_index = 32370}, /*Unicode: U+007a (z)*/ {.w_px = 6, .glyph_index = 32670}, /*Unicode: U+007b ({)*/ {.w_px = 3, .glyph_index = 32850}, /*Unicode: U+007c (|)*/ {.w_px = 5, .glyph_index = 32940}, /*Unicode: U+007d (})*/ {.w_px = 8, .glyph_index = 33090}, /*Unicode: U+007e (~)*/ #endif }; lv_font_t interui_30 = { .unicode_first = 32, /*First Unicode letter in this font*/ .unicode_last = 126, /*Last Unicode letter in this font*/ .h_px = 30, /*Font height in pixels*/ //.glyph_bitmap = interui_30_glyph_bitmap, /*Bitmap of glyphs*/ .glyph_bitmap = (const uint8_t *)(NYX_RES_ADDR + 0x7900), .glyph_dsc = interui_30_glyph_dsc, /*Description of glyphs*/ .glyph_cnt = 95, /*Number of glyphs in the font*/ .unicode_list = NULL, /*Every character in the font from 'unicode_first' to 'unicode_last'*/ .get_bitmap = lv_font_get_bitmap_continuous, /*Function pointer to get glyph's bitmap*/ .get_width = lv_font_get_width_continuous, /*Function pointer to get glyph's width*/ #if USE_INTERUI_30 == 4 .bpp = 4, /*Bit per pixel*/ #elif USE_INTERUI_30 == 8 .bpp = 8, /*Bit per pixel*/ #endif .monospace = 0, /*Fix width (0: if not used)*/ .next_page = NULL, /*Pointer to a font extension*/ }; #endif /*USE_INTERUI_30*/ ================================================ FILE: bdk/libs/lvgl/lv_fonts/lv_font_builtin.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_font_built_in.c * */ /********************* * INCLUDES *********************/ #include "lv_font_builtin.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize the built-in fonts */ void lv_font_builtin_init(void) { /*InterUI 20*/ #if USE_INTERUI_20 != 0 lv_font_add(&interui_20, NULL); #endif /*SYMBOL 20*/ #if USE_HEKATE_SYMBOL_20 != 0 #if USE_INTERUI_20 != 0 lv_font_add(&hekate_symbol_20, &interui_20); #else lv_font_add(&hekate_symbol_20, NULL); #endif #endif /*InterUI 30*/ #if USE_INTERUI_30 != 0 lv_font_add(&interui_30, NULL); #endif /*SYMBOL 30*/ #if USE_HEKATE_SYMBOL_30 != 0 #if USE_INTERUI_30 != 0 lv_font_add(&hekate_symbol_30, &interui_30); #else lv_font_add(&hekate_symbol_30, NULL); #endif #endif /*MONO 12*/ #if USE_UBUNTU_MONO != 0 lv_font_add(&ubuntu_mono, NULL); #if USE_INTERUI_20 != 0 lv_font_add(&hekate_symbol_20, &ubuntu_mono); #endif #endif /*Symbol 120*/ #if USE_HEKATE_SYMBOL_120 != 0 lv_font_add(&hekate_symbol_120, NULL); #endif } /********************** * STATIC FUNCTIONS **********************/ ================================================ FILE: bdk/libs/lvgl/lv_fonts/lv_font_builtin.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_font_builtin.h * */ #ifndef LV_FONT_BUILTIN_H #define LV_FONT_BUILTIN_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include "../lv_misc/lv_font.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /** * Initialize the built-in fonts */ void lv_font_builtin_init(void); /********************** * MACROS **********************/ /********************** * FONT DECLARATIONS **********************/ /*20 px */ #if USE_INTERUI_20 LV_FONT_DECLARE(interui_20); #endif #if USE_HEKATE_SYMBOL_20 LV_FONT_DECLARE(hekate_symbol_20); #endif /*30 px */ #if USE_INTERUI_30 LV_FONT_DECLARE(interui_30); #endif #if USE_HEKATE_SYMBOL_30 LV_FONT_DECLARE(hekate_symbol_30); #endif #if USE_UBUNTU_MONO LV_FONT_DECLARE(ubuntu_mono); #endif #if USE_HEKATE_SYMBOL_120 LV_FONT_DECLARE(hekate_symbol_120); #endif #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_FONT_BUILTIN_H*/ ================================================ FILE: bdk/libs/lvgl/lv_fonts/lv_fonts.mk ================================================ CSRCS += lv_font_builtin.c CSRCS += hekate_symbol_10.c CSRCS += hekate_symbol_20.c CSRCS += hekate_symbol_30.c CSRCS += hekate_symbol_40.c CSRCS += interui_12.c CSRCS += interui_20.c CSRCS += interui_30.c CSRCS += interui_40.c DEPPATH += --dep-path $(LVGL_DIR)/lvgl/lv_fonts VPATH += :$(LVGL_DIR)/lvgl/lv_fonts CFLAGS += "-I$(LVGL_DIR)/lvgl/lv_fonts" ================================================ FILE: bdk/libs/lvgl/lv_fonts/ubuntu_mono.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "../lv_misc/lv_font.h" #include #if USE_UBUNTU_MONO != 0 /*Can be enabled in lv_conf.h*/ /*********************************************************************************** * UbuntuMono-B.ttf 20 px Font in U+0020 ( ) .. U+007e (~) range with all bpp ***********************************************************************************/ /*Store the glyph descriptions*/ static const lv_font_glyph_dsc_t ubuntu_mono_glyph_dsc[] = { #if USE_UBUNTU_MONO == 4 {.w_px = 6, .glyph_index = 0}, /*Unicode: U+0020 ( )*/ {.w_px = 2, .glyph_index = 60}, /*Unicode: U+0021 (!)*/ {.w_px = 5, .glyph_index = 80}, /*Unicode: U+0022 (")*/ {.w_px = 10, .glyph_index = 140}, /*Unicode: U+0023 (#)*/ {.w_px = 8, .glyph_index = 240}, /*Unicode: U+0024 ($)*/ {.w_px = 10, .glyph_index = 320}, /*Unicode: U+0025 (%)*/ {.w_px = 10, .glyph_index = 420}, /*Unicode: U+0026 (&)*/ {.w_px = 2, .glyph_index = 520}, /*Unicode: U+0027 (')*/ {.w_px = 6, .glyph_index = 540}, /*Unicode: U+0028 (()*/ {.w_px = 6, .glyph_index = 600}, /*Unicode: U+0029 ())*/ {.w_px = 9, .glyph_index = 660}, /*Unicode: U+002a (*)*/ {.w_px = 8, .glyph_index = 760}, /*Unicode: U+002b (+)*/ {.w_px = 4, .glyph_index = 840}, /*Unicode: U+002c (,)*/ {.w_px = 5, .glyph_index = 880}, /*Unicode: U+002d (-)*/ {.w_px = 4, .glyph_index = 940}, /*Unicode: U+002e (.)*/ {.w_px = 8, .glyph_index = 980}, /*Unicode: U+002f (/)*/ {.w_px = 8, .glyph_index = 1060}, /*Unicode: U+0030 (0)*/ {.w_px = 7, .glyph_index = 1140}, /*Unicode: U+0031 (1)*/ {.w_px = 8, .glyph_index = 1220}, /*Unicode: U+0032 (2)*/ {.w_px = 8, .glyph_index = 1300}, /*Unicode: U+0033 (3)*/ {.w_px = 8, .glyph_index = 1380}, /*Unicode: U+0034 (4)*/ {.w_px = 8, .glyph_index = 1460}, /*Unicode: U+0035 (5)*/ {.w_px = 8, .glyph_index = 1540}, /*Unicode: U+0036 (6)*/ {.w_px = 7, .glyph_index = 1620}, /*Unicode: U+0037 (7)*/ {.w_px = 8, .glyph_index = 1700}, /*Unicode: U+0038 (8)*/ {.w_px = 8, .glyph_index = 1780}, /*Unicode: U+0039 (9)*/ {.w_px = 4, .glyph_index = 1860}, /*Unicode: U+003a (:)*/ {.w_px = 4, .glyph_index = 1900}, /*Unicode: U+003b (;)*/ {.w_px = 9, .glyph_index = 1940}, /*Unicode: U+003c (<)*/ {.w_px = 8, .glyph_index = 2040}, /*Unicode: U+003d (=)*/ {.w_px = 8, .glyph_index = 2120}, /*Unicode: U+003e (>)*/ {.w_px = 8, .glyph_index = 2200}, /*Unicode: U+003f (?)*/ {.w_px = 9, .glyph_index = 2280}, /*Unicode: U+0040 (@)*/ {.w_px = 10, .glyph_index = 2380}, /*Unicode: U+0041 (A)*/ {.w_px = 8, .glyph_index = 2480}, /*Unicode: U+0042 (B)*/ {.w_px = 8, .glyph_index = 2560}, /*Unicode: U+0043 (C)*/ {.w_px = 8, .glyph_index = 2640}, /*Unicode: U+0044 (D)*/ {.w_px = 8, .glyph_index = 2720}, /*Unicode: U+0045 (E)*/ {.w_px = 8, .glyph_index = 2800}, /*Unicode: U+0046 (F)*/ {.w_px = 8, .glyph_index = 2880}, /*Unicode: U+0047 (G)*/ {.w_px = 8, .glyph_index = 2960}, /*Unicode: U+0048 (H)*/ {.w_px = 8, .glyph_index = 3040}, /*Unicode: U+0049 (I)*/ {.w_px = 8, .glyph_index = 3120}, /*Unicode: U+004a (J)*/ {.w_px = 9, .glyph_index = 3200}, /*Unicode: U+004b (K)*/ {.w_px = 8, .glyph_index = 3300}, /*Unicode: U+004c (L)*/ {.w_px = 9, .glyph_index = 3380}, /*Unicode: U+004d (M)*/ {.w_px = 8, .glyph_index = 3480}, /*Unicode: U+004e (N)*/ {.w_px = 8, .glyph_index = 3560}, /*Unicode: U+004f (O)*/ {.w_px = 8, .glyph_index = 3640}, /*Unicode: U+0050 (P)*/ {.w_px = 8, .glyph_index = 3720}, /*Unicode: U+0051 (Q)*/ {.w_px = 8, .glyph_index = 3800}, /*Unicode: U+0052 (R)*/ {.w_px = 8, .glyph_index = 3880}, /*Unicode: U+0053 (S)*/ {.w_px = 8, .glyph_index = 3960}, /*Unicode: U+0054 (T)*/ {.w_px = 8, .glyph_index = 4040}, /*Unicode: U+0055 (U)*/ {.w_px = 9, .glyph_index = 4120}, /*Unicode: U+0056 (V)*/ {.w_px = 9, .glyph_index = 4220}, /*Unicode: U+0057 (W)*/ {.w_px = 10, .glyph_index = 4320}, /*Unicode: U+0058 (X)*/ {.w_px = 10, .glyph_index = 4420}, /*Unicode: U+0059 (Y)*/ {.w_px = 8, .glyph_index = 4520}, /*Unicode: U+005a (Z)*/ {.w_px = 6, .glyph_index = 4600}, /*Unicode: U+005b ([)*/ {.w_px = 8, .glyph_index = 4660}, /*Unicode: U+005c (\)*/ {.w_px = 6, .glyph_index = 4740}, /*Unicode: U+005d (])*/ {.w_px = 10, .glyph_index = 4800}, /*Unicode: U+005e (^)*/ {.w_px = 10, .glyph_index = 4900}, /*Unicode: U+005f (_)*/ {.w_px = 4, .glyph_index = 5000}, /*Unicode: U+0060 (`)*/ {.w_px = 8, .glyph_index = 5040}, /*Unicode: U+0061 (a)*/ {.w_px = 8, .glyph_index = 5120}, /*Unicode: U+0062 (b)*/ {.w_px = 8, .glyph_index = 5200}, /*Unicode: U+0063 (c)*/ {.w_px = 8, .glyph_index = 5280}, /*Unicode: U+0064 (d)*/ {.w_px = 9, .glyph_index = 5360}, /*Unicode: U+0065 (e)*/ {.w_px = 9, .glyph_index = 5460}, /*Unicode: U+0066 (f)*/ {.w_px = 8, .glyph_index = 5560}, /*Unicode: U+0067 (g)*/ {.w_px = 8, .glyph_index = 5640}, /*Unicode: U+0068 (h)*/ {.w_px = 9, .glyph_index = 5720}, /*Unicode: U+0069 (i)*/ {.w_px = 7, .glyph_index = 5820}, /*Unicode: U+006a (j)*/ {.w_px = 9, .glyph_index = 5900}, /*Unicode: U+006b (k)*/ {.w_px = 8, .glyph_index = 6000}, /*Unicode: U+006c (l)*/ {.w_px = 8, .glyph_index = 6080}, /*Unicode: U+006d (m)*/ {.w_px = 8, .glyph_index = 6160}, /*Unicode: U+006e (n)*/ {.w_px = 8, .glyph_index = 6240}, /*Unicode: U+006f (o)*/ {.w_px = 8, .glyph_index = 6320}, /*Unicode: U+0070 (p)*/ {.w_px = 8, .glyph_index = 6400}, /*Unicode: U+0071 (q)*/ {.w_px = 7, .glyph_index = 6480}, /*Unicode: U+0072 (r)*/ {.w_px = 8, .glyph_index = 6560}, /*Unicode: U+0073 (s)*/ {.w_px = 8, .glyph_index = 6640}, /*Unicode: U+0074 (t)*/ {.w_px = 8, .glyph_index = 6720}, /*Unicode: U+0075 (u)*/ {.w_px = 9, .glyph_index = 6800}, /*Unicode: U+0076 (v)*/ {.w_px = 10, .glyph_index = 6900}, /*Unicode: U+0077 (w)*/ {.w_px = 10, .glyph_index = 7000}, /*Unicode: U+0078 (x)*/ {.w_px = 9, .glyph_index = 7100}, /*Unicode: U+0079 (y)*/ {.w_px = 8, .glyph_index = 7200}, /*Unicode: U+007a (z)*/ {.w_px = 7, .glyph_index = 7280}, /*Unicode: U+007b ({)*/ {.w_px = 2, .glyph_index = 7360}, /*Unicode: U+007c (|)*/ {.w_px = 8, .glyph_index = 7380}, /*Unicode: U+007d (})*/ {.w_px = 9, .glyph_index = 7460}, /*Unicode: U+007e (~)*/ #elif USE_UBUNTU_MONO == 8 {.w_px = 6, .glyph_index = 0}, /*Unicode: U+0020 ( )*/ {.w_px = 2, .glyph_index = 120}, /*Unicode: U+0021 (!)*/ {.w_px = 5, .glyph_index = 160}, /*Unicode: U+0022 (")*/ {.w_px = 10, .glyph_index = 260}, /*Unicode: U+0023 (#)*/ {.w_px = 8, .glyph_index = 460}, /*Unicode: U+0024 ($)*/ {.w_px = 10, .glyph_index = 620}, /*Unicode: U+0025 (%)*/ {.w_px = 10, .glyph_index = 820}, /*Unicode: U+0026 (&)*/ {.w_px = 2, .glyph_index = 1020}, /*Unicode: U+0027 (')*/ {.w_px = 6, .glyph_index = 1060}, /*Unicode: U+0028 (()*/ {.w_px = 6, .glyph_index = 1180}, /*Unicode: U+0029 ())*/ {.w_px = 9, .glyph_index = 1300}, /*Unicode: U+002a (*)*/ {.w_px = 8, .glyph_index = 1480}, /*Unicode: U+002b (+)*/ {.w_px = 4, .glyph_index = 1640}, /*Unicode: U+002c (,)*/ {.w_px = 5, .glyph_index = 1720}, /*Unicode: U+002d (-)*/ {.w_px = 4, .glyph_index = 1820}, /*Unicode: U+002e (.)*/ {.w_px = 8, .glyph_index = 1900}, /*Unicode: U+002f (/)*/ {.w_px = 8, .glyph_index = 2060}, /*Unicode: U+0030 (0)*/ {.w_px = 7, .glyph_index = 2220}, /*Unicode: U+0031 (1)*/ {.w_px = 8, .glyph_index = 2360}, /*Unicode: U+0032 (2)*/ {.w_px = 8, .glyph_index = 2520}, /*Unicode: U+0033 (3)*/ {.w_px = 8, .glyph_index = 2680}, /*Unicode: U+0034 (4)*/ {.w_px = 8, .glyph_index = 2840}, /*Unicode: U+0035 (5)*/ {.w_px = 8, .glyph_index = 3000}, /*Unicode: U+0036 (6)*/ {.w_px = 7, .glyph_index = 3160}, /*Unicode: U+0037 (7)*/ {.w_px = 8, .glyph_index = 3300}, /*Unicode: U+0038 (8)*/ {.w_px = 8, .glyph_index = 3460}, /*Unicode: U+0039 (9)*/ {.w_px = 4, .glyph_index = 3620}, /*Unicode: U+003a (:)*/ {.w_px = 4, .glyph_index = 3700}, /*Unicode: U+003b (;)*/ {.w_px = 9, .glyph_index = 3780}, /*Unicode: U+003c (<)*/ {.w_px = 8, .glyph_index = 3960}, /*Unicode: U+003d (=)*/ {.w_px = 8, .glyph_index = 4120}, /*Unicode: U+003e (>)*/ {.w_px = 8, .glyph_index = 4280}, /*Unicode: U+003f (?)*/ {.w_px = 9, .glyph_index = 4440}, /*Unicode: U+0040 (@)*/ {.w_px = 10, .glyph_index = 4620}, /*Unicode: U+0041 (A)*/ {.w_px = 8, .glyph_index = 4820}, /*Unicode: U+0042 (B)*/ {.w_px = 8, .glyph_index = 4980}, /*Unicode: U+0043 (C)*/ {.w_px = 8, .glyph_index = 5140}, /*Unicode: U+0044 (D)*/ {.w_px = 8, .glyph_index = 5300}, /*Unicode: U+0045 (E)*/ {.w_px = 8, .glyph_index = 5460}, /*Unicode: U+0046 (F)*/ {.w_px = 8, .glyph_index = 5620}, /*Unicode: U+0047 (G)*/ {.w_px = 8, .glyph_index = 5780}, /*Unicode: U+0048 (H)*/ {.w_px = 8, .glyph_index = 5940}, /*Unicode: U+0049 (I)*/ {.w_px = 8, .glyph_index = 6100}, /*Unicode: U+004a (J)*/ {.w_px = 9, .glyph_index = 6260}, /*Unicode: U+004b (K)*/ {.w_px = 8, .glyph_index = 6440}, /*Unicode: U+004c (L)*/ {.w_px = 9, .glyph_index = 6600}, /*Unicode: U+004d (M)*/ {.w_px = 8, .glyph_index = 6780}, /*Unicode: U+004e (N)*/ {.w_px = 8, .glyph_index = 6940}, /*Unicode: U+004f (O)*/ {.w_px = 8, .glyph_index = 7100}, /*Unicode: U+0050 (P)*/ {.w_px = 8, .glyph_index = 7260}, /*Unicode: U+0051 (Q)*/ {.w_px = 8, .glyph_index = 7420}, /*Unicode: U+0052 (R)*/ {.w_px = 8, .glyph_index = 7580}, /*Unicode: U+0053 (S)*/ {.w_px = 8, .glyph_index = 7740}, /*Unicode: U+0054 (T)*/ {.w_px = 8, .glyph_index = 7900}, /*Unicode: U+0055 (U)*/ {.w_px = 9, .glyph_index = 8060}, /*Unicode: U+0056 (V)*/ {.w_px = 9, .glyph_index = 8240}, /*Unicode: U+0057 (W)*/ {.w_px = 10, .glyph_index = 8420}, /*Unicode: U+0058 (X)*/ {.w_px = 10, .glyph_index = 8620}, /*Unicode: U+0059 (Y)*/ {.w_px = 8, .glyph_index = 8820}, /*Unicode: U+005a (Z)*/ {.w_px = 6, .glyph_index = 8980}, /*Unicode: U+005b ([)*/ {.w_px = 8, .glyph_index = 9100}, /*Unicode: U+005c (\)*/ {.w_px = 6, .glyph_index = 9260}, /*Unicode: U+005d (])*/ {.w_px = 10, .glyph_index = 9380}, /*Unicode: U+005e (^)*/ {.w_px = 10, .glyph_index = 9580}, /*Unicode: U+005f (_)*/ {.w_px = 4, .glyph_index = 9780}, /*Unicode: U+0060 (`)*/ {.w_px = 8, .glyph_index = 9860}, /*Unicode: U+0061 (a)*/ {.w_px = 8, .glyph_index = 10020}, /*Unicode: U+0062 (b)*/ {.w_px = 8, .glyph_index = 10180}, /*Unicode: U+0063 (c)*/ {.w_px = 8, .glyph_index = 10340}, /*Unicode: U+0064 (d)*/ {.w_px = 9, .glyph_index = 10500}, /*Unicode: U+0065 (e)*/ {.w_px = 9, .glyph_index = 10680}, /*Unicode: U+0066 (f)*/ {.w_px = 8, .glyph_index = 10860}, /*Unicode: U+0067 (g)*/ {.w_px = 8, .glyph_index = 11020}, /*Unicode: U+0068 (h)*/ {.w_px = 9, .glyph_index = 11180}, /*Unicode: U+0069 (i)*/ {.w_px = 7, .glyph_index = 11360}, /*Unicode: U+006a (j)*/ {.w_px = 9, .glyph_index = 11500}, /*Unicode: U+006b (k)*/ {.w_px = 8, .glyph_index = 11680}, /*Unicode: U+006c (l)*/ {.w_px = 8, .glyph_index = 11840}, /*Unicode: U+006d (m)*/ {.w_px = 8, .glyph_index = 12000}, /*Unicode: U+006e (n)*/ {.w_px = 8, .glyph_index = 12160}, /*Unicode: U+006f (o)*/ {.w_px = 8, .glyph_index = 12320}, /*Unicode: U+0070 (p)*/ {.w_px = 8, .glyph_index = 12480}, /*Unicode: U+0071 (q)*/ {.w_px = 7, .glyph_index = 12640}, /*Unicode: U+0072 (r)*/ {.w_px = 8, .glyph_index = 12780}, /*Unicode: U+0073 (s)*/ {.w_px = 8, .glyph_index = 12940}, /*Unicode: U+0074 (t)*/ {.w_px = 8, .glyph_index = 13100}, /*Unicode: U+0075 (u)*/ {.w_px = 9, .glyph_index = 13260}, /*Unicode: U+0076 (v)*/ {.w_px = 10, .glyph_index = 13440}, /*Unicode: U+0077 (w)*/ {.w_px = 10, .glyph_index = 13640}, /*Unicode: U+0078 (x)*/ {.w_px = 9, .glyph_index = 13840}, /*Unicode: U+0079 (y)*/ {.w_px = 8, .glyph_index = 14020}, /*Unicode: U+007a (z)*/ {.w_px = 7, .glyph_index = 14180}, /*Unicode: U+007b ({)*/ {.w_px = 2, .glyph_index = 14320}, /*Unicode: U+007c (|)*/ {.w_px = 8, .glyph_index = 14360}, /*Unicode: U+007d (})*/ {.w_px = 9, .glyph_index = 14520}, /*Unicode: U+007e (~)*/ #endif }; lv_font_t ubuntu_mono = { .unicode_first = 32, /*First Unicode letter in this font*/ .unicode_last = 126, /*Last Unicode letter in this font*/ .h_px = 20, /*Font height in pixels*/ //.glyph_bitmap = ubuntu_mono_glyph_bitmap, /*Bitmap of glyphs*/ .glyph_bitmap = (const uint8_t *)(NYX_RES_ADDR), .glyph_dsc = ubuntu_mono_glyph_dsc, /*Description of glyphs*/ .glyph_cnt = 95, /*Number of glyphs in the font*/ .unicode_list = NULL, /*Every character in the font from 'unicode_first' to 'unicode_last'*/ .get_bitmap = lv_font_get_bitmap_continuous, /*Function pointer to get glyph's bitmap*/ .get_width = lv_font_get_width_continuous, /*Function pointer to get glyph's width*/ #if USE_UBUNTU_MONO == 4 .bpp = 4, /*Bit per pixel*/ #elif USE_UBUNTU_MONO == 8 .bpp = 8, /*Bit per pixel*/ #endif .monospace = 10, /*Fix width (0: if not used)*/ .next_page = NULL, /*Pointer to a font extension*/ }; #endif /*USE_UBUNTU_MONO*/ ================================================ FILE: bdk/libs/lvgl/lv_hal/lv_hal.h ================================================ /** * @file hal.h * */ #ifndef HAL_H #define HAL_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "lv_hal_disp.h" #include "lv_hal_indev.h" #include "lv_hal_tick.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_hal/lv_hal.mk ================================================ CSRCS += lv_hal_disp.c CSRCS += lv_hal_indev.c CSRCS += lv_hal_tick.c DEPPATH += --dep-path $(LVGL_DIR)/lvgl/lv_hal VPATH += :$(LVGL_DIR)/lvgl/lv_hal CFLAGS += "-I$(LVGL_DIR)/lvgl/lv_hal" ================================================ FILE: bdk/libs/lvgl/lv_hal/lv_hal_disp.c ================================================ /** * @file hal_disp.c * * @description HAL layer for display driver * */ /********************* * INCLUDES *********************/ #include #include #include "../lv_hal/lv_hal_disp.h" #include "../lv_misc/lv_mem.h" #include "../lv_core/lv_obj.h" #include "../lv_misc/lv_gc.h" #if defined(LV_GC_INCLUDE) # include LV_GC_INCLUDE #endif /* LV_ENABLE_GC */ /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ static lv_disp_t * active; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize a display driver with default values. * It is used to surly have known values in the fields ant not memory junk. * After it you can set the fields. * @param driver pointer to driver variable to initialize */ void lv_disp_drv_init(lv_disp_drv_t * driver) { driver->disp_fill = NULL; driver->disp_map = NULL; driver->disp_flush = NULL; #if USE_LV_GPU driver->mem_blend = NULL; driver->mem_fill = NULL; #endif #if LV_VDB_SIZE driver->vdb_wr = NULL; #endif } /** * Register an initialized display driver. * Automatically set the first display as active. * @param driver pointer to an initialized 'lv_disp_drv_t' variable (can be local variable) * @return pointer to the new display or NULL on error */ lv_disp_t * lv_disp_drv_register(lv_disp_drv_t * driver) { lv_disp_t * node; node = lv_mem_alloc(sizeof(lv_disp_t)); lv_mem_assert(node); if(node == NULL) return NULL; memcpy(&node->driver, driver, sizeof(lv_disp_drv_t)); node->next = NULL; /* Set first display as active by default */ if(LV_GC_ROOT(_lv_disp_list) == NULL) { LV_GC_ROOT(_lv_disp_list) = node; active = node; lv_obj_invalidate(lv_scr_act()); } else { ((lv_disp_t*)LV_GC_ROOT(_lv_disp_list))->next = node; } return node; } /** * Set the active display * @param disp pointer to a display (return value of 'lv_disp_register') */ void lv_disp_set_active(lv_disp_t * disp) { active = disp; lv_obj_invalidate(lv_scr_act()); } /** * Get a pointer to the active display * @return pointer to the active display */ lv_disp_t * lv_disp_get_active(void) { return active; } /** * Get the next display. * @param disp pointer to the current display. NULL to initialize. * @return the next display or NULL if no more. Give the first display when the parameter is NULL */ lv_disp_t * lv_disp_next(lv_disp_t * disp) { if(disp == NULL) { return LV_GC_ROOT(_lv_disp_list); } else { if(((lv_disp_t*)LV_GC_ROOT(_lv_disp_list))->next == NULL) return NULL; else return ((lv_disp_t*)LV_GC_ROOT(_lv_disp_list))->next; } } /** * Write the content of the internal buffer (VDB) to the display * @param x1 left coordinate of the rectangle * @param x2 right coordinate of the rectangle * @param y1 top coordinate of the rectangle * @param y2 bottom coordinate of the rectangle * @param color_p fill color */ void lv_disp_fill(int32_t x1, int32_t y1, int32_t x2, int32_t y2, lv_color_t color) { if(active == NULL) return; if(active->driver.disp_fill != NULL) active->driver.disp_fill(x1, y1, x2, y2, color); } /** * Fill a rectangular area with a color on the active display * @param x1 left coordinate of the rectangle * @param x2 right coordinate of the rectangle * @param y1 top coordinate of the rectangle * @param y2 bottom coordinate of the rectangle * @param color_p pointer to an array of colors */ void lv_disp_flush(int32_t x1, int32_t y1, int32_t x2, int32_t y2, lv_color_t * color_p) { if(active == NULL) return; if(active->driver.disp_flush != NULL) { LV_LOG_TRACE("disp flush started"); active->driver.disp_flush(x1, y1, x2, y2, color_p); LV_LOG_TRACE("disp flush ready"); } else { LV_LOG_WARN("disp flush function registered"); } } /** * Put a color map to a rectangular area on the active display * @param x1 left coordinate of the rectangle * @param x2 right coordinate of the rectangle * @param y1 top coordinate of the rectangle * @param y2 bottom coordinate of the rectangle * @param color_map pointer to an array of colors */ void lv_disp_map(int32_t x1, int32_t y1, int32_t x2, int32_t y2, const lv_color_t * color_map) { if(active == NULL) return; if(active->driver.disp_map != NULL) active->driver.disp_map(x1, y1, x2, y2, color_map); } #if USE_LV_GPU /** * Blend pixels to a destination memory from a source memory * In 'lv_disp_drv_t' 'mem_blend' is optional. (NULL if not available) * @param dest a memory address. Blend 'src' here. * @param src pointer to pixel map. Blend it to 'dest'. * @param length number of pixels in 'src' * @param opa opacity (0, LV_OPA_TRANSP: transparent ... 255, LV_OPA_COVER, fully cover) */ void lv_disp_mem_blend(lv_color_t * dest, const lv_color_t * src, uint32_t length, lv_opa_t opa) { if(active == NULL) return; if(active->driver.mem_blend != NULL) active->driver.mem_blend(dest, src, length, opa); } /** * Fill a memory with a color (GPUs may support it) * In 'lv_disp_drv_t' 'mem_fill' is optional. (NULL if not available) * @param dest a memory address. Copy 'src' here. * @param src pointer to pixel map. Copy it to 'dest'. * @param length number of pixels in 'src' * @param opa opacity (0, LV_OPA_TRANSP: transparent ... 255, LV_OPA_COVER, fully cover) */ void lv_disp_mem_fill(lv_color_t * dest, uint32_t length, lv_color_t color) { if(active == NULL) return; if(active->driver.mem_fill != NULL) active->driver.mem_fill(dest, length, color); } /** * Shows if memory blending (by GPU) is supported or not * @return false: 'mem_blend' is not supported in the driver; true: 'mem_blend' is supported in the driver */ bool lv_disp_is_mem_blend_supported(void) { if(active == NULL) return false; if(active->driver.mem_blend) return true; else return false; } /** * Shows if memory fill (by GPU) is supported or not * @return false: 'mem_fill' is not supported in the drover; true: 'mem_fill' is supported in the driver */ bool lv_disp_is_mem_fill_supported(void) { if(active == NULL) return false; if(active->driver.mem_fill) return true; else return false; } #endif /********************** * STATIC FUNCTIONS **********************/ ================================================ FILE: bdk/libs/lvgl/lv_hal/lv_hal_disp.h ================================================ /** * @file hal_disp.h * * @description Display Driver HAL interface header file * */ #ifndef HAL_DISP_H #define HAL_DISP_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include #include "lv_hal.h" #include "../lv_misc/lv_color.h" #include "../lv_misc/lv_area.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /** * Display Driver structure to be registered by HAL */ typedef struct _disp_drv_t { /*Write the internal buffer (VDB) to the display. 'lv_flush_ready()' has to be called when finished*/ void (*disp_flush)(int32_t x1, int32_t y1, int32_t x2, int32_t y2, const lv_color_t * color_p); /*Fill an area with a color on the display*/ void (*disp_fill)(int32_t x1, int32_t y1, int32_t x2, int32_t y2, lv_color_t color); /*Write pixel map (e.g. image) to the display*/ void (*disp_map)(int32_t x1, int32_t y1, int32_t x2, int32_t y2, const lv_color_t * color_p); /*Optional interface functions to use GPU*/ #if USE_LV_GPU /*Blend two memories using opacity (GPU only)*/ void (*mem_blend)(lv_color_t * dest, const lv_color_t * src, uint32_t length, lv_opa_t opa); /*Fill a memory with a color (GPU only)*/ void (*mem_fill)(lv_color_t * dest, uint32_t length, lv_color_t color); #endif #if LV_VDB_SIZE /*Optional: Set a pixel in a buffer according to the requirements of the display*/ void (*vdb_wr)(uint8_t * buf, lv_coord_t buf_w, lv_coord_t x, lv_coord_t y, lv_color_t color, lv_opa_t opa); #endif } lv_disp_drv_t; typedef struct _disp_t { lv_disp_drv_t driver; struct _disp_t *next; } lv_disp_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Initialize a display driver with default values. * It is used to surly have known values in the fields ant not memory junk. * After it you can set the fields. * @param driver pointer to driver variable to initialize */ void lv_disp_drv_init(lv_disp_drv_t *driver); /** * Register an initialized display driver. * Automatically set the first display as active. * @param driver pointer to an initialized 'lv_disp_drv_t' variable (can be local variable) * @return pointer to the new display or NULL on error */ lv_disp_t * lv_disp_drv_register(lv_disp_drv_t *driver); /** * Set the active display * @param disp pointer to a display (return value of 'lv_disp_register') */ void lv_disp_set_active(lv_disp_t * disp); /** * Get a pointer to the active display * @return pointer to the active display */ lv_disp_t * lv_disp_get_active(void); /** * Get the next display. * @param disp pointer to the current display. NULL to initialize. * @return the next display or NULL if no more. Give the first display when the parameter is NULL */ lv_disp_t * lv_disp_next(lv_disp_t * disp); /** * Fill a rectangular area with a color on the active display * @param x1 left coordinate of the rectangle * @param x2 right coordinate of the rectangle * @param y1 top coordinate of the rectangle * @param y2 bottom coordinate of the rectangle * @param color_p pointer to an array of colors */ void lv_disp_flush(int32_t x1, int32_t y1, int32_t x2, int32_t y2, lv_color_t *color_p); /** * Fill a rectangular area with a color on the active display * @param x1 left coordinate of the rectangle * @param x2 right coordinate of the rectangle * @param y1 top coordinate of the rectangle * @param y2 bottom coordinate of the rectangle * @param color fill color */ void lv_disp_fill(int32_t x1, int32_t y1, int32_t x2, int32_t y2, lv_color_t color); /** * Put a color map to a rectangular area on the active display * @param x1 left coordinate of the rectangle * @param x2 right coordinate of the rectangle * @param y1 top coordinate of the rectangle * @param y2 bottom coordinate of the rectangle * @param color_map pointer to an array of colors */ void lv_disp_map(int32_t x1, int32_t y1, int32_t x2, int32_t y2, const lv_color_t * color_map); #if USE_LV_GPU /** * Blend pixels to a destination memory from a source memory * In 'lv_disp_drv_t' 'mem_blend' is optional. (NULL if not available) * @param dest a memory address. Blend 'src' here. * @param src pointer to pixel map. Blend it to 'dest'. * @param length number of pixels in 'src' * @param opa opacity (0, LV_OPA_TRANSP: transparent ... 255, LV_OPA_COVER, fully cover) */ void lv_disp_mem_blend(lv_color_t * dest, const lv_color_t * src, uint32_t length, lv_opa_t opa); /** * Fill a memory with a color (GPUs may support it) * In 'lv_disp_drv_t' 'mem_fill' is optional. (NULL if not available) * @param dest a memory address. Copy 'src' here. * @param src pointer to pixel map. Copy it to 'dest'. * @param length number of pixels in 'src' * @param opa opacity (0, LV_OPA_TRANSP: transparent ... 255, LV_OPA_COVER, fully cover) */ void lv_disp_mem_fill(lv_color_t * dest, uint32_t length, lv_color_t color); /** * Shows if memory blending (by GPU) is supported or not * @return false: 'mem_blend' is not supported in the driver; true: 'mem_blend' is supported in the driver */ bool lv_disp_is_mem_blend_supported(void); /** * Shows if memory fill (by GPU) is supported or not * @return false: 'mem_fill' is not supported in the drover; true: 'mem_fill' is supported in the driver */ bool lv_disp_is_mem_fill_supported(void); #endif /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_hal/lv_hal_indev.c ================================================ /** * @file hal_indev.c * * @description Input device HAL interface * */ /********************* * INCLUDES *********************/ #include "../lv_hal/lv_hal_indev.h" #include "../lv_misc/lv_mem.h" #include "../lv_misc/lv_gc.h" #if defined(LV_GC_INCLUDE) # include LV_GC_INCLUDE #endif /* LV_ENABLE_GC */ /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize an input device driver with default values. * It is used to surly have known values in the fields ant not memory junk. * After it you can set the fields. * @param driver pointer to driver variable to initialize */ void lv_indev_drv_init(lv_indev_drv_t * driver) { driver->read = NULL; driver->type = LV_INDEV_TYPE_NONE; driver->user_data = NULL; } /** * Register an initialized input device driver. * @param driver pointer to an initialized 'lv_indev_drv_t' variable (can be local variable) * @return pointer to the new input device or NULL on error */ lv_indev_t * lv_indev_drv_register(lv_indev_drv_t * driver) { lv_indev_t * node; node = lv_mem_alloc(sizeof(lv_indev_t)); if(!node) return NULL; memset(node, 0, sizeof(lv_indev_t)); memcpy(&node->driver, driver, sizeof(lv_indev_drv_t)); node->next = NULL; node->proc.reset_query = 1; node->cursor = NULL; node->group = NULL; node->btn_points = NULL; if(LV_GC_ROOT(_lv_indev_list) == NULL) { LV_GC_ROOT(_lv_indev_list) = node; } else { lv_indev_t * last = LV_GC_ROOT(_lv_indev_list); while(last->next) last = last->next; last->next = node; } return node; } /** * Get the next input device. * @param indev pointer to the current input device. NULL to initialize. * @return the next input devise or NULL if no more. Give the first input device when the parameter is NULL */ lv_indev_t * lv_indev_next(lv_indev_t * indev) { if(indev == NULL) { return LV_GC_ROOT(_lv_indev_list); } else { if(indev->next == NULL) return NULL; else return indev->next; } } /** * Read data from an input device. * @param indev pointer to an input device * @param data input device will write its data here * @return false: no more data; true: there more data to read (buffered) */ bool lv_indev_read(lv_indev_t * indev, lv_indev_data_t * data) { bool cont = false; memset(data, 0, sizeof(lv_indev_data_t)); data->state = LV_INDEV_STATE_REL; if(indev->driver.read) { data->user_data = indev->driver.user_data; LV_LOG_TRACE("idnev read started"); cont = indev->driver.read(data); LV_LOG_TRACE("idnev read finished"); } else { LV_LOG_WARN("indev function registered"); } return cont; } /********************** * STATIC FUNCTIONS **********************/ ================================================ FILE: bdk/libs/lvgl/lv_hal/lv_hal_indev.h ================================================ /** * @file hal_indev.h * * @description Input Device HAL interface layer header file * */ #ifndef HAL_INDEV_H #define HAL_INDEV_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include #include "lv_hal.h" #include #include "../lv_misc/lv_area.h" #include "../lv_core/lv_obj.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Possible input device types*/ enum { LV_INDEV_TYPE_NONE, /*Show uninitialized state*/ LV_INDEV_TYPE_POINTER, /*Touch pad, mouse, external button*/ LV_INDEV_TYPE_KEYPAD, /*Keypad or keyboard*/ LV_INDEV_TYPE_BUTTON, /*External (hardware button) which is assinged to a specific point of the screen*/ LV_INDEV_TYPE_ENCODER, /*Encoder with only Left, Right turn and a Button*/ }; typedef uint8_t lv_hal_indev_type_t; /*States for input devices*/ enum { LV_INDEV_STATE_REL = 0, LV_INDEV_STATE_PR }; typedef uint8_t lv_indev_state_t; /*Data type when an input device is read */ typedef struct { union { lv_point_t point; /*For LV_INDEV_TYPE_POINTER the currently pressed point*/ uint32_t key; /*For LV_INDEV_TYPE_KEYPAD the currently pressed key*/ uint32_t btn; /*For LV_INDEV_TYPE_BUTTON the currently pressed button*/ int16_t enc_diff; /*For LV_INDEV_TYPE_ENCODER number of steps since the previous read*/ }; void *user_data; /*'lv_indev_drv_t.priv' for this driver*/ lv_indev_state_t state; /*LV_INDEV_STATE_REL or LV_INDEV_STATE_PR*/ } lv_indev_data_t; /*Initialized by the user and registered by 'lv_indev_add()'*/ typedef struct { lv_hal_indev_type_t type; /*Input device type*/ bool (*read)(lv_indev_data_t *data); /*Function pointer to read data. Return 'true' if there is still data to be read (buffered)*/ void *user_data; /*Pointer to user defined data, passed in 'lv_indev_data_t' on read*/ } lv_indev_drv_t; struct _lv_obj_t; /*Run time data of input devices*/ typedef struct _lv_indev_proc_t { lv_indev_state_t state; union { struct { /*Pointer and button data*/ lv_point_t act_point; lv_point_t last_point; lv_point_t vect; lv_point_t drag_sum; /*Count the dragged pixels to check LV_INDEV_DRAG_LIMIT*/ struct _lv_obj_t * act_obj; struct _lv_obj_t * last_obj; /*Flags*/ uint8_t drag_range_out :1; uint8_t drag_in_prog :1; uint8_t wait_unil_release :1; }; struct { /*Keypad data*/ lv_indev_state_t last_state; uint32_t last_key; }; }; uint32_t pr_timestamp; /*Pressed time stamp*/ uint32_t longpr_rep_timestamp; /*Long press repeat time stamp*/ /*Flags*/ uint8_t long_pr_sent :1; uint8_t reset_query :1; uint8_t disabled :1; } lv_indev_proc_t; struct _lv_indev_t; typedef void (*lv_indev_feedback_t)(struct _lv_indev_t *, lv_signal_t); struct _lv_obj_t; struct _lv_group_t; /*The main input device descriptor with driver, runtime data ('proc') and some additional information*/ typedef struct _lv_indev_t { lv_indev_drv_t driver; lv_indev_proc_t proc; lv_indev_feedback_t feedback; uint32_t last_activity_time; union { struct _lv_obj_t *cursor; /*Cursor for LV_INPUT_TYPE_POINTER*/ struct _lv_group_t *group; /*Keypad destination group*/ const lv_point_t * btn_points; /*Array points assigned to the button ()screen will be pressed here by the buttons*/ }; struct _lv_indev_t *next; } lv_indev_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Initialize an input device driver with default values. * It is used to surly have known values in the fields ant not memory junk. * After it you can set the fields. * @param driver pointer to driver variable to initialize */ void lv_indev_drv_init(lv_indev_drv_t *driver); /** * Register an initialized input device driver. * @param driver pointer to an initialized 'lv_indev_drv_t' variable (can be local variable) * @return pointer to the new input device or NULL on error */ lv_indev_t * lv_indev_drv_register(lv_indev_drv_t *driver); /** * Get the next input device. * @param indev pointer to the current input device. NULL to initialize. * @return the next input devise or NULL if no more. Gives the first input device when the parameter is NULL */ lv_indev_t * lv_indev_next(lv_indev_t * indev); /** * Read data from an input device. * @param indev pointer to an input device * @param data input device will write its data here * @return false: no more data; true: there more data to read (buffered) */ bool lv_indev_read(lv_indev_t * indev, lv_indev_data_t *data); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_hal/lv_hal_tick.c ================================================ /** * @file systick.c * Provide access to the system tick with 1 millisecond resolution */ /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include "lv_hal_tick.h" #include #if LV_TICK_CUSTOM == 1 #include LV_TICK_CUSTOM_INCLUDE #endif /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ static uint32_t sys_time = 0; static volatile uint8_t tick_irq_flag; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * You have to call this function periodically * @param tick_period the call period of this function in milliseconds */ LV_ATTRIBUTE_TICK_INC void lv_tick_inc(uint32_t tick_period) { tick_irq_flag = 0; sys_time += tick_period; } /** * Get the elapsed milliseconds since start up * @return the elapsed milliseconds */ uint32_t lv_tick_get(void) { #if LV_TICK_CUSTOM == 0 uint32_t result; do { tick_irq_flag = 1; result = sys_time; } while(!tick_irq_flag); /*'lv_tick_inc()' clears this flag which can be in an interrupt. Continue until make a non interrupted cycle */ return result; #else return LV_TICK_CUSTOM_SYS_TIME_EXPR; #endif } /** * Get the elapsed milliseconds since a previous time stamp * @param prev_tick a previous time stamp (return value of systick_get() ) * @return the elapsed milliseconds since 'prev_tick' */ uint32_t lv_tick_elaps(uint32_t prev_tick) { uint32_t act_time = lv_tick_get(); /*If there is no overflow in sys_time simple subtract*/ if(act_time >= prev_tick) { prev_tick = act_time - prev_tick; } else { prev_tick = UINT32_MAX - prev_tick + 1; prev_tick += act_time; } return prev_tick; } /********************** * STATIC FUNCTIONS **********************/ ================================================ FILE: bdk/libs/lvgl/lv_hal/lv_hal_tick.h ================================================ /** * @file lv_hal_tick.h * Provide access to the system tick with 1 millisecond resolution */ #ifndef LV_HAL_TICK_H #define LV_HAL_TICK_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include /********************* * DEFINES *********************/ #ifndef LV_ATTRIBUTE_TICK_INC #define LV_ATTRIBUTE_TICK_INC #endif /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /** * You have to call this function periodically * @param tick_period the call period of this function in milliseconds */ LV_ATTRIBUTE_TICK_INC void lv_tick_inc(uint32_t tick_period); /** * Get the elapsed milliseconds since start up * @return the elapsed milliseconds */ uint32_t lv_tick_get(void); /** * Get the elapsed milliseconds since a previous time stamp * @param prev_tick a previous time stamp (return value of systick_get() ) * @return the elapsed milliseconds since 'prev_tick' */ uint32_t lv_tick_elaps(uint32_t prev_tick); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_HAL_TICK_H*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_anim.c ================================================ /** * @file anim.c * */ /********************* * INCLUDES *********************/ #include "lv_anim.h" #if USE_LV_ANIMATION #include #include #include "../lv_hal/lv_hal_tick.h" #include "lv_task.h" #include "lv_math.h" #include "lv_gc.h" #if defined(LV_GC_INCLUDE) # include LV_GC_INCLUDE #endif /* LV_ENABLE_GC */ /********************* * DEFINES *********************/ #define LV_ANIM_RESOLUTION 1024 #define LV_ANIM_RES_SHIFT 10 /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static void anim_task(void * param); static bool anim_ready_handler(lv_anim_t * a); /********************** * STATIC VARIABLES **********************/ static uint32_t last_task_run; static bool anim_list_changed; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Init. the animation module */ void lv_anim_init(void) { lv_ll_init(&LV_GC_ROOT(_lv_anim_ll), sizeof(lv_anim_t)); last_task_run = lv_tick_get(); lv_task_create(anim_task, LV_REFR_PERIOD, LV_TASK_PRIO_MID, NULL); } /** * Create an animation * @param anim_p an initialized 'anim_t' variable. Not required after call. */ void lv_anim_create(lv_anim_t * anim_p) { LV_LOG_TRACE("animation create started") /* Do not let two animations for the same 'var' with the same 'fp'*/ if(anim_p->fp != NULL) lv_anim_del(anim_p->var, anim_p->fp); /*fp == NULL would delete all animations of var*/ /*Add the new animation to the animation linked list*/ lv_anim_t * new_anim = lv_ll_ins_head(&LV_GC_ROOT(_lv_anim_ll)); lv_mem_assert(new_anim); if(new_anim == NULL) return; /*Initialize the animation descriptor*/ anim_p->playback_now = 0; memcpy(new_anim, anim_p, sizeof(lv_anim_t)); /*Set the start value*/ if(new_anim->fp != NULL) new_anim->fp(new_anim->var, new_anim->start); /* Creating an animation changed the linked list. * It's important if it happens in a ready callback. (see `anim_task`)*/ anim_list_changed = true; LV_LOG_TRACE("animation created") } /** * Delete an animation for a variable with a given animator function * @param var pointer to variable * @param fp a function pointer which is animating 'var', * or NULL to delete all animations of 'var' * @return true: at least 1 animation is deleted, false: no animation is deleted */ bool lv_anim_del(void * var, lv_anim_fp_t fp) { lv_anim_t * a; lv_anim_t * a_next; bool del = false; a = lv_ll_get_head(&LV_GC_ROOT(_lv_anim_ll)); while(a != NULL) { /*'a' might be deleted, so get the next object while 'a' is valid*/ a_next = lv_ll_get_next(&LV_GC_ROOT(_lv_anim_ll), a); if(a->var == var && (a->fp == fp || fp == NULL)) { lv_ll_rem(&LV_GC_ROOT(_lv_anim_ll), a); lv_mem_free(a); anim_list_changed = true; /*Read by `anim_task`. It need to know if a delete occurred in the linked list*/ del = true; } a = a_next; } return del; } /** * Get the number of currently running animations * @return the number of running animations */ uint16_t lv_anim_count_running(void) { uint16_t cnt = 0; lv_anim_t * a; LL_READ(LV_GC_ROOT(_lv_anim_ll), a) cnt++; return cnt++; } /** * Calculate the time of an animation with a given speed and the start and end values * @param speed speed of animation in unit/sec * @param start start value of the animation * @param end end value of the animation * @return the required time [ms] for the animation with the given parameters */ uint16_t lv_anim_speed_to_time(uint16_t speed, int32_t start, int32_t end) { int32_t d = LV_MATH_ABS((int32_t) start - end); uint32_t time = (int32_t)((int32_t)(d * 1000) / speed); if(time > UINT16_MAX) time = UINT16_MAX; if(time == 0) { time++; } return time; } /** * Calculate the current value of an animation applying linear characteristic * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_linear(const lv_anim_t * a) { /*Calculate the current step*/ uint16_t step; if(a->time == a->act_time) step = LV_ANIM_RESOLUTION; /*Use the last value if the time fully elapsed*/ else step = (a->act_time * LV_ANIM_RESOLUTION) / a->time; /* Get the new value which will be proportional to `step` * and the `start` and `end` values*/ int32_t new_value; new_value = (int32_t) step * (a->end - a->start); new_value = new_value >> LV_ANIM_RES_SHIFT; new_value += a->start; return new_value; } /** * Calculate the current value of an animation slowing down the start phase * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_ease_in(const lv_anim_t * a) { /*Calculate the current step*/ uint32_t t; if(a->time == a->act_time) t = 1024; else t = (uint32_t)((uint32_t)a->act_time * 1024) / a->time; int32_t step = lv_bezier3(t, 0, 1, 1, 1024); int32_t new_value; new_value = (int32_t) step * (a->end - a->start); new_value = new_value >> 10; new_value += a->start; return new_value; } /** * Calculate the current value of an animation slowing down the end phase * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_ease_out(const lv_anim_t * a) { /*Calculate the current step*/ uint32_t t; if(a->time == a->act_time) t = 1024; else t = (uint32_t)((uint32_t)a->act_time * 1024) / a->time; int32_t step = lv_bezier3(t, 0, 1023, 1023, 1024); int32_t new_value; new_value = (int32_t) step * (a->end - a->start); new_value = new_value >> 10; new_value += a->start; return new_value; } /** * Calculate the current value of an animation applying an "S" characteristic (cosine) * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_ease_in_out(const lv_anim_t * a) { /*Calculate the current step*/ uint32_t t; if(a->time == a->act_time) t = 1024; else t = (uint32_t)((uint32_t)a->act_time * 1024) / a->time; int32_t step = lv_bezier3(t, 0, 100, 924, 1024); int32_t new_value; new_value = (int32_t) step * (a->end - a->start); new_value = new_value >> 10; new_value += a->start; return new_value; } /** * Calculate the current value of an animation with overshoot at the end * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_overshoot(const lv_anim_t * a) { /*Calculate the current step*/ uint32_t t; if(a->time == a->act_time) t = 1024; else t = (uint32_t)((uint32_t)a->act_time * 1024) / a->time; int32_t step = lv_bezier3(t, 0, 600, 1300, 1024); int32_t new_value; new_value = (int32_t) step * (a->end - a->start); new_value = new_value >> 10; new_value += a->start; return new_value; } /** * Calculate the current value of an animation with 3 bounces * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_bounce(const lv_anim_t * a) { /*Calculate the current step*/ uint32_t t; if(a->time == a->act_time) t = 1024; else t = (uint32_t)((uint32_t)a->act_time * 1024) / a->time; int32_t diff = (a->end - a->start); /*3 bounces has 5 parts: 3 down and 2 up. One part is t / 5 long*/ if(t < 408){ /*Go down*/ t = (t * 2500) >> 10; /*[0..1024] range*/ } else if(t >= 408 && t < 614) { /*First bounce back*/ t -= 408; t = t * 5; /*to [0..1024] range*/ t = 1024 - t; diff = diff / 6; } else if(t >= 614 && t < 819) { /*Fall back*/ t -= 614; t = t * 5; /*to [0..1024] range*/ diff = diff / 6; } else if(t >= 819 && t < 921) { /*Second bounce back*/ t -= 819; t = t * 10; /*to [0..1024] range*/ t = 1024 - t; diff = diff / 16; } else if(t >= 921 && t <= 1024) { /*Fall back*/ t -= 921; t = t * 10; /*to [0..1024] range*/ diff = diff / 16; } if(t > 1024) t = 1024; int32_t step = lv_bezier3(t, 1024, 1024, 800, 0); int32_t new_value; new_value = (int32_t) step * diff; new_value = new_value >> 10; new_value = a->end - new_value; return new_value; } /** * Calculate the current value of an animation applying step characteristic. * (Set end value on the end of the animation) * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_step(const lv_anim_t * a) { if(a->act_time >= a->time) return a->end; else return a->start; } /********************** * STATIC FUNCTIONS **********************/ /** * Periodically handle the animations. * @param param unused */ static void anim_task(void * param) { (void)param; lv_anim_t * a; LL_READ(LV_GC_ROOT(_lv_anim_ll), a) { a->has_run = 0; } uint32_t elaps = lv_tick_elaps(last_task_run); a = lv_ll_get_head(&LV_GC_ROOT(_lv_anim_ll)); while(a != NULL) { /*It can be set by `lv_anim_del()` typically in `end_cb`. If set then an animation delete happened in `anim_ready_handler` * which could make this linked list reading corrupt because the list is changed meanwhile */ anim_list_changed = false; if(!a->has_run) { a->has_run = 1; /*The list readying might be reseted so need to know which anim has run already*/ a->act_time += elaps; if(a->act_time >= 0) { if(a->act_time > a->time) a->act_time = a->time; int32_t new_value; new_value = a->path(a); if(a->fp != NULL) a->fp(a->var, new_value); /*Apply the calculated value*/ /*If the time is elapsed the animation is ready*/ if(a->act_time >= a->time) { anim_ready_handler(a); } } } /* If the linked list changed due to anim. delete then it's not safe to continue * the reading of the list from here -> start from the head*/ if(anim_list_changed) a = lv_ll_get_head(&LV_GC_ROOT(_lv_anim_ll)); else a = lv_ll_get_next(&LV_GC_ROOT(_lv_anim_ll), a); } last_task_run = lv_tick_get(); } /** * Called when an animation is ready to do the necessary thinks * e.g. repeat, play back, delete etc. * @param a pointer to an animation descriptor * @return true: animation delete occurred nnd the `LV_GC_ROOT(_lv_anim_ll)` has changed * */ static bool anim_ready_handler(lv_anim_t * a) { /*Delete the animation if * - no repeat and no play back (simple one shot animation) * - no repeat, play back is enabled and play back is ready */ if((a->repeat == 0 && a->playback == 0) || (a->repeat == 0 && a->playback == 1 && a->playback_now == 1)) { void (*cb)(void *) = a->end_cb; void * p = a->var; lv_ll_rem(&LV_GC_ROOT(_lv_anim_ll), a); lv_mem_free(a); anim_list_changed = true; /* Call the callback function at the end*/ /* Check if an animation is deleted in the cb function * if yes then the caller function has to know this*/ if(cb != NULL) cb(p); } /*If the animation is not deleted then restart it*/ else { a->act_time = - a->repeat_pause; /*Restart the animation*/ /*Swap the start and end values in play back mode*/ if(a->playback != 0) { /*If now turning back use the 'playback_pause*/ if(a->playback_now == 0) a->act_time = - a->playback_pause; /*Toggle the play back state*/ a->playback_now = a->playback_now == 0 ? 1 : 0; /*Swap the start and end values*/ int32_t tmp; tmp = a->start; a->start = a->end; a->end = tmp; } } return anim_list_changed; } #endif ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_anim.h ================================================ /** * @file anim.h * */ #ifndef ANIM_H #define ANIM_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_ANIMATION #include /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ struct _lv_anim_t; typedef int32_t(*lv_anim_path_t)(const struct _lv_anim_t*); typedef void (*lv_anim_fp_t)(void *, int32_t); typedef void (*lv_anim_cb_t)(void *); typedef struct _lv_anim_t { void * var; /*Variable to animate*/ lv_anim_fp_t fp; /*Animator function*/ lv_anim_cb_t end_cb; /*Call it when the animation is ready*/ lv_anim_path_t path; /*An array with the steps of animations*/ int32_t start; /*Start value*/ int32_t end; /*End value*/ uint16_t time; /*Animation time in ms*/ int16_t act_time; /*Current time in animation. Set to negative to make delay.*/ uint16_t playback_pause; /*Wait before play back*/ uint16_t repeat_pause; /*Wait before repeat*/ uint8_t playback :1; /*When the animation is ready play it back*/ uint8_t repeat :1; /*Repeat the animation infinitely*/ /*Animation system use these - user shouldn't set*/ uint8_t playback_now :1; /*Play back is in progress*/ uint32_t has_run :1; /*Indicates the animation has run it this round*/ } lv_anim_t; /*Example initialization lv_anim_t a; a.var = obj; a.start = lv_obj_get_height(obj); a.end = new_height; a.fp = (lv_anim_fp_t)lv_obj_set_height; a.path = lv_anim_path_linear; a.end_cb = NULL; a.act_time = 0; a.time = 200; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); */ /********************** * GLOBAL PROTOTYPES **********************/ /** * Init. the animation module */ void lv_anim_init(void); /** * Create an animation * @param anim_p an initialized 'anim_t' variable. Not required after call. */ void lv_anim_create(lv_anim_t * anim_p); /** * Delete an animation for a variable with a given animatior function * @param var pointer to variable * @param fp a function pointer which is animating 'var', * or NULL to ignore it and delete all animation with 'var * @return true: at least 1 animation is deleted, false: no animation is deleted */ bool lv_anim_del(void * var, lv_anim_fp_t fp); /** * Get the number of currently running animations * @return the number of running animations */ uint16_t lv_anim_count_running(void); /** * Calculate the time of an animation with a given speed and the start and end values * @param speed speed of animation in unit/sec * @param start start value of the animation * @param end end value of the animation * @return the required time [ms] for the animation with the given parameters */ uint16_t lv_anim_speed_to_time(uint16_t speed, int32_t start, int32_t end); /** * Calculate the current value of an animation applying linear characteristic * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_linear(const lv_anim_t *a); /** * Calculate the current value of an animation slowing down the start phase * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_ease_in(const lv_anim_t * a); /** * Calculate the current value of an animation slowing down the end phase * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_ease_out(const lv_anim_t * a); /** * Calculate the current value of an animation applying an "S" characteristic (cosine) * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_ease_in_out(const lv_anim_t *a); /** * Calculate the current value of an animation with overshoot at the end * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_overshoot(const lv_anim_t * a); /** * Calculate the current value of an animation with 3 bounces * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_bounce(const lv_anim_t * a); /** * Calculate the current value of an animation applying step characteristic. * (Set end value on the end of the animation) * @param a pointer to an animation * @return the current value to set */ int32_t lv_anim_path_step(const lv_anim_t *a); /********************** * MACROS **********************/ #endif /*USE_LV_ANIMATION == 0*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_ANIM_H*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_area.c ================================================ /** * @file lv_area.c * */ /********************* * INCLUDES *********************/ #include "lv_area.h" #include "lv_math.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize an area * @param area_p pointer to an area * @param x1 left coordinate of the area * @param y1 top coordinate of the area * @param x2 right coordinate of the area * @param y2 bottom coordinate of the area */ void lv_area_set(lv_area_t * area_p, lv_coord_t x1, lv_coord_t y1, lv_coord_t x2, lv_coord_t y2) { area_p->x1 = x1; area_p->y1 = y1; area_p->x2 = x2; area_p->y2 = y2; } /** * Set the width of an area * @param area_p pointer to an area * @param w the new width of the area (w == 1 makes x1 == x2) */ void lv_area_set_width(lv_area_t * area_p, lv_coord_t w) { area_p->x2 = area_p->x1 + w - 1; } /** * Set the height of an area * @param area_p pointer to an area * @param h the new height of the area (h == 1 makes y1 == y2) */ void lv_area_set_height(lv_area_t * area_p, lv_coord_t h) { area_p->y2 = area_p->y1 + h - 1; } /** * Set the position of an area (width and height will be kept) * @param area_p pointer to an area * @param x the new x coordinate of the area * @param y the new y coordinate of the area */ void lv_area_set_pos(lv_area_t * area_p, lv_coord_t x, lv_coord_t y) { lv_coord_t w = lv_area_get_width(area_p); lv_coord_t h = lv_area_get_height(area_p); area_p->x1 = x; area_p->y1 = y; lv_area_set_width(area_p, w); lv_area_set_height(area_p, h); } /** * Return with area of an area (x * y) * @param area_p pointer to an area * @return size of area */ uint32_t lv_area_get_size(const lv_area_t * area_p) { uint32_t size; size = (uint32_t)(area_p->x2 - area_p->x1 + 1) * (area_p->y2 - area_p->y1 + 1); return size; } /** * Get the common parts of two areas * @param res_p pointer to an area, the result will be stored here * @param a1_p pointer to the first area * @param a2_p pointer to the second area * @return false: the two area has NO common parts, res_p is invalid */ bool lv_area_intersect(lv_area_t * res_p, const lv_area_t * a1_p, const lv_area_t * a2_p) { /* Get the smaller area from 'a1_p' and 'a2_p' */ res_p->x1 = LV_MATH_MAX(a1_p->x1, a2_p->x1); res_p->y1 = LV_MATH_MAX(a1_p->y1, a2_p->y1); res_p->x2 = LV_MATH_MIN(a1_p->x2, a2_p->x2); res_p->y2 = LV_MATH_MIN(a1_p->y2, a2_p->y2); /*If x1 or y1 greater then x2 or y2 then the areas union is empty*/ bool union_ok = true; if((res_p->x1 > res_p->x2) || (res_p->y1 > res_p->y2)) { union_ok = false; } return union_ok; } /** * Join two areas into a third which involves the other two * @param res_p pointer to an area, the result will be stored here * @param a1_p pointer to the first area * @param a2_p pointer to the second area */ void lv_area_join(lv_area_t * a_res_p, const lv_area_t * a1_p, const lv_area_t * a2_p) { a_res_p->x1 = LV_MATH_MIN(a1_p->x1, a2_p->x1); a_res_p->y1 = LV_MATH_MIN(a1_p->y1, a2_p->y1); a_res_p->x2 = LV_MATH_MAX(a1_p->x2, a2_p->x2); a_res_p->y2 = LV_MATH_MAX(a1_p->y2, a2_p->y2); } /** * Check if a point is on an area * @param a_p pointer to an area * @param p_p pointer to a point * @return false:the point is out of the area */ bool lv_area_is_point_on(const lv_area_t * a_p, const lv_point_t * p_p) { bool is_on = false; if((p_p->x >= a_p->x1 && p_p->x <= a_p->x2) && ((p_p->y >= a_p->y1 && p_p->y <= a_p->y2))) { is_on = true; } return is_on; } /** * Check if two area has common parts * @param a1_p pointer to an area. * @param a2_p pointer to an other area * @return false: a1_p and a2_p has no common parts */ bool lv_area_is_on(const lv_area_t * a1_p, const lv_area_t * a2_p) { if((a1_p->x1 <= a2_p->x2) && (a1_p->x2 >= a2_p->x1) && (a1_p->y1 <= a2_p->y2) && (a1_p->y2 >= a2_p->y1)) { return true; } else { return false; } } /** * Check if an area is fully on an other * @param ain_p pointer to an area which could be in 'aholder_p' * @param aholder pointer to an area which could involve 'ain_p' * @return */ bool lv_area_is_in(const lv_area_t * ain_p, const lv_area_t * aholder_p) { bool is_in = false; if(ain_p->x1 >= aholder_p->x1 && ain_p->y1 >= aholder_p->y1 && ain_p->x2 <= aholder_p->x2 && ain_p->y2 <= aholder_p->y2) { is_in = true; } return is_in; } /********************** * STATIC FUNCTIONS **********************/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_area.h ================================================ /** * @file lv_area.h * */ #ifndef LV_AREA_H #define LV_AREA_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include #include /********************* * DEFINES *********************/ #define LV_COORD_MAX (16383) /*To avoid overflow don't let the max [-32,32k] range */ #define LV_COORD_MIN (-16384) /********************** * TYPEDEFS **********************/ typedef int16_t lv_coord_t; typedef struct { lv_coord_t x; lv_coord_t y; } lv_point_t; typedef struct { lv_coord_t x1; lv_coord_t y1; lv_coord_t x2; lv_coord_t y2; } lv_area_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Initialize an area * @param area_p pointer to an area * @param x1 left coordinate of the area * @param y1 top coordinate of the area * @param x2 right coordinate of the area * @param y2 bottom coordinate of the area */ void lv_area_set(lv_area_t * area_p, lv_coord_t x1, lv_coord_t y1, lv_coord_t x2, lv_coord_t y2); /** * Copy an area * @param dest pointer to the destination area * @param src pointer to the source area */ inline static void lv_area_copy(lv_area_t * dest, const lv_area_t * src) { memcpy(dest, src, sizeof(lv_area_t)); } /** * Get the width of an area * @param area_p pointer to an area * @return the width of the area (if x1 == x2 -> width = 1) */ static inline lv_coord_t lv_area_get_width(const lv_area_t * area_p) { return area_p->x2 - area_p->x1 + 1; } /** * Get the height of an area * @param area_p pointer to an area * @return the height of the area (if y1 == y2 -> height = 1) */ static inline lv_coord_t lv_area_get_height(const lv_area_t * area_p) { return area_p->y2 - area_p->y1 + 1; } /** * Set the width of an area * @param area_p pointer to an area * @param w the new width of the area (w == 1 makes x1 == x2) */ void lv_area_set_width(lv_area_t * area_p, lv_coord_t w); /** * Set the height of an area * @param area_p pointer to an area * @param h the new height of the area (h == 1 makes y1 == y2) */ void lv_area_set_height(lv_area_t * area_p, lv_coord_t h); /** * Set the position of an area (width and height will be kept) * @param area_p pointer to an area * @param x the new x coordinate of the area * @param y the new y coordinate of the area */ void lv_area_set_pos(lv_area_t * area_p, lv_coord_t x, lv_coord_t y); /** * Return with area of an area (x * y) * @param area_p pointer to an area * @return size of area */ uint32_t lv_area_get_size(const lv_area_t * area_p); /** * Get the common parts of two areas * @param res_p pointer to an area, the result will be stored her * @param a1_p pointer to the first area * @param a2_p pointer to the second area * @return false: the two area has NO common parts, res_p is invalid */ bool lv_area_intersect(lv_area_t * res_p, const lv_area_t * a1_p, const lv_area_t * a2_p); /** * Join two areas into a third which involves the other two * @param res_p pointer to an area, the result will be stored here * @param a1_p pointer to the first area * @param a2_p pointer to the second area */ void lv_area_join(lv_area_t * a_res_p, const lv_area_t * a1_p, const lv_area_t * a2_p); /** * Check if a point is on an area * @param a_p pointer to an area * @param p_p pointer to a point * @return false:the point is out of the area */ bool lv_area_is_point_on(const lv_area_t * a_p, const lv_point_t * p_p); /** * Check if two area has common parts * @param a1_p pointer to an area. * @param a2_p pointer to an other area * @return false: a1_p and a2_p has no common parts */ bool lv_area_is_on(const lv_area_t * a1_p, const lv_area_t * a2_p); /** * Check if an area is fully on an other * @param ain_p pointer to an area which could be on aholder_p * @param aholder pointer to an area which could involve ain_p * @return */ bool lv_area_is_in(const lv_area_t * ain_p, const lv_area_t * aholder_p); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_circ.c ================================================ /** * @file lv_circ.c * Circle drawing algorithm (with Bresenham) * Only a 1/8 circle is calculated. Use CIRC_OCT1_X, CIRC_OCT1_Y macros to get * the other octets. */ /********************* * INCLUDES *********************/ #include "lv_circ.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize the circle drawing * @param c pointer to a point. The coordinates will be calculated here * @param tmp point to a variable. It will store temporary data * @param radius radius of the circle */ void lv_circ_init(lv_point_t * c, lv_coord_t * tmp, lv_coord_t radius) { c->x = radius; c->y = 0; *tmp = 1 - radius; } /** * Test the circle drawing is ready or not * @param c same as in circ_init * @return true if the circle is not ready yet */ bool lv_circ_cont(lv_point_t * c) { return c->y <= c->x ? true : false; } /** * Get the next point from the circle * @param c same as in circ_init. The next point stored here. * @param tmp same as in circ_init. */ void lv_circ_next(lv_point_t * c, lv_coord_t * tmp) { c->y++; if(*tmp <= 0) { (*tmp) += 2 * c->y + 1; // Change in decision criterion for y -> y+1 } else { c->x--; (*tmp) += 2 * (c->y - c->x) + 1; // Change for y -> y+1, x -> x-1 } } /********************** * STATIC FUNCTIONS **********************/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_circ.h ================================================ /** * @file lv_circ.h * */ #ifndef LV_CIRC_H #define LV_CIRC_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include #include "lv_area.h" #include /********************* * DEFINES *********************/ #define LV_CIRC_OCT1_X(p) (p.x) #define LV_CIRC_OCT1_Y(p) (p.y) #define LV_CIRC_OCT2_X(p) (p.y) #define LV_CIRC_OCT2_Y(p) (p.x) #define LV_CIRC_OCT3_X(p) (-p.y) #define LV_CIRC_OCT3_Y(p) (p.x) #define LV_CIRC_OCT4_X(p) (-p.x) #define LV_CIRC_OCT4_Y(p) (p.y) #define LV_CIRC_OCT5_X(p) (-p.x) #define LV_CIRC_OCT5_Y(p) (-p.y) #define LV_CIRC_OCT6_X(p) (-p.y) #define LV_CIRC_OCT6_Y(p) (-p.x) #define LV_CIRC_OCT7_X(p) (p.y) #define LV_CIRC_OCT7_Y(p) (-p.x) #define LV_CIRC_OCT8_X(p) (p.x) #define LV_CIRC_OCT8_Y(p) (-p.y) /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /** * Initialize the circle drawing * @param c pointer to a point. The coordinates will be calculated here * @param tmp point to a variable. It will store temporary data * @param radius radius of the circle */ void lv_circ_init(lv_point_t * c, lv_coord_t * tmp, lv_coord_t radius); /** * Test the circle drawing is ready or not * @param c same as in circ_init * @return true if the circle is not ready yet */ bool lv_circ_cont(lv_point_t * c); /** * Get the next point from the circle * @param c same as in circ_init. The next point stored here. * @param tmp same as in circ_init. */ void lv_circ_next(lv_point_t * c, lv_coord_t * tmp); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_color.c ================================================ /* * Copyright (c) 2019-2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_color.c * */ /********************* * INCLUDES *********************/ #include "lv_color.h" /********************* * DEFINES *********************/ #define HUE_DEGREE 512 /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /********************** * STATIC FUNCTIONS **********************/ /** * Convert a HSV color to RGB * @param h hue [0..359] * @param s saturation [0..100] * @param v value [0..100] * @return the given RGB color in RGB (with LV_COLOR_DEPTH depth) */ lv_color_t lv_color_hsv_to_rgb(uint16_t hue, uint8_t sat, uint8_t val) { uint8_t r, g, b; uint32_t h = (hue * 360 * HUE_DEGREE -1) / 360; uint32_t s = sat * 255 / 100; uint32_t v = val * 255 / 100; uint32_t p = (256 * v - s * v) / 256; uint32_t region = h / (60 * 512); if(sat == 0) return LV_COLOR_MAKE(v, v, v); if (region & 1) { uint32_t q = (256 * 60 * HUE_DEGREE * v - h * s * v + 60 * HUE_DEGREE * s * v * region) / (256 * 60 * HUE_DEGREE); switch (region) { case 1: r = q; g = v; b = p; break; case 3: r = p; g = q; b = v; break; case 5: default: r = v; g = p; b = q; break; } } else { uint32_t t = (256 * 60 * HUE_DEGREE * v + h * s * v - 60 * HUE_DEGREE * s * v * (region + 1)) / (256 * 60 * HUE_DEGREE); switch (region) { case 0: r = v; g = t; b = p; break; case 2: r = p; g = v; b = t; break; case 4: default: r = t; g = p; b = v; break; } } return LV_COLOR_MAKE(r, g, b); } /** * Convert an RGB color to HSV * @param r red * @param g green * @param b blue * @return the given RGB color n HSV */ lv_color_hsv_t lv_color_rgb_to_hsv(uint8_t r, uint8_t g, uint8_t b) { lv_color_hsv_t hsv; uint8_t rgbMin, rgbMax; rgbMin = r < g ? (r < b ? r : b) : (g < b ? g : b); rgbMax = r > g ? (r > b ? r : b) : (g > b ? g : b); hsv.v = rgbMax; if(hsv.v == 0) { hsv.h = 0; hsv.s = 0; return hsv; } hsv.s = 255 * (long)(rgbMax - rgbMin) / hsv.v; if(hsv.s == 0) { hsv.h = 0; return hsv; } if(rgbMax == r) hsv.h = 0 + 43 * (g - b) / (rgbMax - rgbMin); else if(rgbMax == g) hsv.h = 85 + 43 * (b - r) / (rgbMax - rgbMin); else hsv.h = 171 + 43 * (r - g) / (rgbMax - rgbMin); return hsv; } ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_color.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_color.h * */ #ifndef LV_COLOR_H #define LV_COLOR_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif /*Error checking*/ #if LV_COLOR_DEPTH == 24 #error "LV_COLOR_DEPTH 24 is deprecated. Use LV_COLOR_DEPTH 32 instead (lv_conf.h)" #endif #if LV_COLOR_DEPTH != 32 && LV_COLOR_SCREEN_TRANSP != 0 #error "LV_COLOR_SCREEN_TRANSP requires LV_COLOR_DEPTH == 32. Set it in lv_conf.h" #endif #if LV_COLOR_DEPTH != 16 && LV_COLOR_16_SWAP != 0 #error "LV_COLOR_16_SWAP requires LV_COLOR_DEPTH == 16. Set it in lv_conf.h" #endif #include /********************* * DEFINES *********************/ #define LV_COLOR_WHITE LV_COLOR_MAKE(0xFF,0xFF,0xFF) #define LV_COLOR_SILVER LV_COLOR_MAKE(0xC0,0xC0,0xC0) #define LV_COLOR_GRAY LV_COLOR_MAKE(0x80,0x80,0x80) #define LV_COLOR_BLACK LV_COLOR_MAKE(0x00,0x00,0x00) #define LV_COLOR_RED LV_COLOR_MAKE(0xFF,0x00,0x00) #define LV_COLOR_MAROON LV_COLOR_MAKE(0x80,0x00,0x00) #define LV_COLOR_YELLOW LV_COLOR_MAKE(0xFF,0xFF,0x00) #define LV_COLOR_OLIVE LV_COLOR_MAKE(0x80,0x80,0x00) #define LV_COLOR_LIME LV_COLOR_MAKE(0x00,0xFF,0x00) #define LV_COLOR_GREEN LV_COLOR_MAKE(0x00,0x80,0x00) #define LV_COLOR_CYAN LV_COLOR_MAKE(0x00,0xFF,0xFF) #define LV_COLOR_AQUA LV_COLOR_CYAN #define LV_COLOR_TEAL LV_COLOR_MAKE(0x00,0x80,0x80) #define LV_COLOR_BLUE LV_COLOR_MAKE(0x00,0x00,0xFF) #define LV_COLOR_NAVY LV_COLOR_MAKE(0x00,0x00,0x80) #define LV_COLOR_MAGENTA LV_COLOR_MAKE(0xFF,0x00,0xFF) #define LV_COLOR_PURPLE LV_COLOR_MAKE(0x80,0x00,0x80) #define LV_COLOR_ORANGE LV_COLOR_MAKE(0xFF,0xA5,0x00) enum { LV_OPA_TRANSP = 0, LV_OPA_0 = 0, LV_OPA_10 = 25, LV_OPA_20 = 51, LV_OPA_30 = 76, LV_OPA_40 = 102, LV_OPA_50 = 127, LV_OPA_60 = 153, LV_OPA_70 = 178, LV_OPA_80 = 204, LV_OPA_90 = 229, LV_OPA_100 = 255, LV_OPA_COVER = 255, }; #define LV_OPA_MIN 16 /*Opacities below this will be transparent*/ #define LV_OPA_MAX 251 /*Opacities above this will fully cover*/ #if LV_COLOR_DEPTH == 1 #define LV_COLOR_SIZE 8 #elif LV_COLOR_DEPTH == 8 #define LV_COLOR_SIZE 8 #elif LV_COLOR_DEPTH == 16 #define LV_COLOR_SIZE 16 #elif LV_COLOR_DEPTH == 32 #define LV_COLOR_SIZE 32 #else #error "Invalid LV_COLOR_DEPTH in lv_conf.h! Set it to 1, 8, 16 or 32!" #endif /********************** * TYPEDEFS **********************/ typedef union { uint8_t blue :1; uint8_t green :1; uint8_t red :1; uint8_t full :1; } lv_color1_t; typedef union { struct { uint8_t blue :2; uint8_t green :3; uint8_t red :3; }; uint8_t full; } lv_color8_t; typedef union { struct { #if LV_COLOR_16_SWAP == 0 uint16_t blue :5; uint16_t green :6; uint16_t red :5; #else uint16_t green_h :3; uint16_t red :5; uint16_t blue :5; uint16_t green_l :3; #endif }; uint16_t full; } lv_color16_t; typedef union { struct { uint8_t blue; uint8_t green; uint8_t red; uint8_t alpha; }; uint32_t full; } lv_color32_t; #if LV_COLOR_DEPTH == 1 typedef uint8_t lv_color_int_t; typedef lv_color1_t lv_color_t; #elif LV_COLOR_DEPTH == 8 typedef uint8_t lv_color_int_t; typedef lv_color8_t lv_color_t; #elif LV_COLOR_DEPTH == 16 typedef uint16_t lv_color_int_t; typedef lv_color16_t lv_color_t; #elif LV_COLOR_DEPTH == 32 typedef uint32_t lv_color_int_t; typedef lv_color32_t lv_color_t; #else #error "Invalid LV_COLOR_DEPTH in lv_conf.h! Set it to 1, 8, 16 or 32!" #endif typedef uint8_t lv_opa_t; typedef struct { uint16_t h; uint8_t s; uint8_t v; } lv_color_hsv_t; /********************** * GLOBAL PROTOTYPES **********************/ /*In color conversations: * - When converting to bigger color type the LSB weight of 1 LSB is calculated * E.g. 16 bit Red has 5 bits * 8 bit Red has 2 bits * ---------------------- * 8 bit red LSB = (2^5 - 1) / (2^2 - 1) = 31 / 3 = 10 * * - When calculating to smaller color type simply shift out the LSBs * E.g. 8 bit Red has 2 bits * 16 bit Red has 5 bits * ---------------------- * Shift right with 5 - 3 = 2 */ static inline uint8_t lv_color_to1(lv_color_t color) { #if LV_COLOR_DEPTH == 1 return color.full; #elif LV_COLOR_DEPTH == 8 if((color.red & 0x4) || (color.green & 0x4) || (color.blue & 0x2)) { return 1; } else { return 0; } #elif LV_COLOR_DEPTH == 16 # if LV_COLOR_16_SWAP == 0 if((color.red & 0x10) || (color.green & 0x20) || (color.blue & 0x10)) { return 1; # else if((color.red & 0x10) || (color.green_h & 0x20) || (color.blue & 0x10)) { return 1; # endif } else { return 0; } #elif LV_COLOR_DEPTH == 32 if((color.red & 0x80) || (color.green & 0x80) || (color.blue & 0x80)) { return 1; } else { return 0; } #endif } static inline uint8_t lv_color_to8(lv_color_t color) { #if LV_COLOR_DEPTH == 1 if(color.full == 0) return 0; else return 0xFF; #elif LV_COLOR_DEPTH == 8 return color.full; #elif LV_COLOR_DEPTH == 16 # if LV_COLOR_16_SWAP == 0 lv_color8_t ret; ret.red = color.red >> 2; /* 5 - 3 = 2*/ ret.green = color.green >> 3; /* 6 - 3 = 3*/ ret.blue = color.blue >> 3; /* 5 - 2 = 3*/ return ret.full; # else lv_color8_t ret; ret.red = color.red >> 2; /* 5 - 3 = 2*/ ret.green = color.green_h; /* 6 - 3 = 3*/ ret.blue = color.blue >> 3; /* 5 - 2 = 3*/ return ret.full; # endif #elif LV_COLOR_DEPTH == 32 lv_color8_t ret; ret.red = color.red >> 5; /* 8 - 3 = 5*/ ret.green = color.green >> 5; /* 8 - 3 = 5*/ ret.blue = color.blue >> 6; /* 8 - 2 = 6*/ return ret.full; #endif } static inline uint16_t lv_color_to16(lv_color_t color) { #if LV_COLOR_DEPTH == 1 if(color.full == 0) return 0; else return 0xFFFF; #elif LV_COLOR_DEPTH == 8 lv_color16_t ret; # if LV_COLOR_16_SWAP == 0 ret.red = color.red * 4; /*(2^5 - 1)/(2^3 - 1) = 31/7 = 4*/ ret.green = color.green * 9; /*(2^6 - 1)/(2^3 - 1) = 63/7 = 9*/ ret.blue = color.blue * 10; /*(2^5 - 1)/(2^2 - 1) = 31/3 = 10*/ # else ret.red = color.red * 4; uint8_t g_tmp = color.green * 9; ret.green_h = (g_tmp & 0x1F) >> 3; ret.green_l = g_tmp & 0x07; ret.blue = color.blue * 10; # endif return ret.full; #elif LV_COLOR_DEPTH == 16 return color.full; #elif LV_COLOR_DEPTH == 32 lv_color16_t ret; # if LV_COLOR_16_SWAP == 0 ret.red = color.red >> 3; /* 8 - 5 = 3*/ ret.green = color.green >> 2; /* 8 - 6 = 2*/ ret.blue = color.blue >> 3; /* 8 - 5 = 3*/ # else ret.red = color.red >> 3; ret.green_h = (color.green & 0xE0) >> 5; ret.green_l = (color.green & 0x1C) >> 2; ret.blue = color.blue >> 3; # endif return ret.full; #endif } static inline uint32_t lv_color_to32(lv_color_t color) { #if LV_COLOR_DEPTH == 1 if(color.full == 0) return 0; else return 0xFFFFFFFF; #elif LV_COLOR_DEPTH == 8 lv_color32_t ret; ret.red = color.red * 36; /*(2^8 - 1)/(2^3 - 1) = 255/7 = 36*/ ret.green = color.green * 36; /*(2^8 - 1)/(2^3 - 1) = 255/7 = 36*/ ret.blue = color.blue * 85; /*(2^8 - 1)/(2^2 - 1) = 255/3 = 85*/ ret.alpha = 0xFF; return ret.full; #elif LV_COLOR_DEPTH == 16 # if LV_COLOR_16_SWAP == 0 lv_color32_t ret; ret.red = color.red * 8; /*(2^8 - 1)/(2^5 - 1) = 255/31 = 8*/ ret.green = color.green * 4; /*(2^8 - 1)/(2^6 - 1) = 255/63 = 4*/ ret.blue = color.blue * 8; /*(2^8 - 1)/(2^5 - 1) = 255/31 = 8*/ ret.alpha = 0xFF; return ret.full; # else lv_color32_t ret; ret.red = color.red * 8; /*(2^8 - 1)/(2^5 - 1) = 255/31 = 8*/ ret.green = ((color.green_h << 3) + color.green_l) * 4; /*(2^8 - 1)/(2^6 - 1) = 255/63 = 4*/ ret.blue = color.blue * 8; /*(2^8 - 1)/(2^5 - 1) = 255/31 = 8*/ ret.alpha = 0xFF; return ret.full; # endif #elif LV_COLOR_DEPTH == 32 return color.full; #endif } static inline lv_color_t lv_color_mix(const lv_color_t c1, const lv_color_t c2, uint8_t mix) { lv_color_t ret; #if LV_COLOR_DEPTH != 1 && LV_COLOR_DEPTH != 32 /*LV_COLOR_DEPTH == 8, 16 or 32*/ ret.red = (uint16_t)((uint16_t) c1.red * mix + (c2.red * (255 - mix))) >> 8; # if LV_COLOR_DEPTH == 16 && LV_COLOR_16_SWAP /*If swapped Green is in 2 parts*/ uint16_t g_1 = (c1.green_h << 3) + c1.green_l; uint16_t g_2 = (c2.green_h << 3) + c2.green_l; uint16_t g_out = (uint16_t)((uint16_t) g_1 * mix + (g_2 * (255 - mix))) >> 8; ret.green_h = g_out >> 3; ret.green_l = g_out & 0x7; # else ret.green = (uint16_t)((uint16_t) c1.green * mix + (c2.green * (255 - mix))) >> 8; # endif ret.blue = (uint16_t)((uint16_t) c1.blue * mix + (c2.blue * (255 - mix))) >> 8; #else # if LV_COLOR_DEPTH == 32 uint32_t rb = (((c1.full & 0x00FF00FF) * mix) + ((c2.full & 0x00FF00FF) * (255 - mix))) >> 8; uint32_t g = (((((c1.full & 0x0000FF00) >> 8) * mix) + (((c2.full & 0x0000FF00) >> 8) * (255 - mix))) >> 8) << 8; ret.full = 0xFF000000 | (0x00FF00FF & rb) | (0x0000FF00 & g); # else /*LV_COLOR_DEPTH == 1*/ ret.full = mix > LV_OPA_50 ? c1.full : c2.full; # endif #endif return ret; } /** * Get the brightness of a color * @param color a color * @return the brightness [0..255] */ static inline uint8_t lv_color_brightness(lv_color_t color) { lv_color32_t c32; c32.full = lv_color_to32(color); uint16_t bright = 3 * c32.red + c32.blue + 4 * c32.green; return (uint16_t) bright >> 3; } /* The most simple macro to create a color from R,G and B values * The order of bit field is different on Big-endian and Little-endian machines*/ #if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ #if LV_COLOR_DEPTH == 1 #define LV_COLOR_MAKE(r8, g8, b8) ((lv_color_t){(b8 >> 7 | g8 >> 7 | r8 >> 7)}) #elif LV_COLOR_DEPTH == 8 #define LV_COLOR_MAKE(r8, g8, b8) ((lv_color_t){{b8 >> 6, g8 >> 5, r8 >> 5}}) #elif LV_COLOR_DEPTH == 16 # if LV_COLOR_16_SWAP == 0 # define LV_COLOR_MAKE(r8, g8, b8) ((lv_color_t){{b8 >> 3, g8 >> 2, r8 >> 3}}) # else # define LV_COLOR_MAKE(r8, g8, b8) ((lv_color_t){{g8 >> 5, r8 >> 3, b8 >> 3, (g8 >> 2) & 0x7}}) # endif #elif LV_COLOR_DEPTH == 32 #define LV_COLOR_MAKE(r8, g8, b8) ((lv_color_t){{b8, g8, r8, 0xff}}) /*Fix 0xff alpha*/ #endif #else #if LV_COLOR_DEPTH == 1 #define LV_COLOR_MAKE(r8, g8, b8) ((lv_color_t){(r8 >> 7 | g8 >> 7 | b8 >> 7)}) #elif LV_COLOR_DEPTH == 8 #define LV_COLOR_MAKE(r8, g8, b8) ((lv_color_t){{r8 >> 6, g8 >> 5, b8 >> 5}}) #elif LV_COLOR_DEPTH == 16 #define LV_COLOR_MAKE(r8, g8, b8) ((lv_color_t){{r8 >> 3, g8 >> 2, b8 >> 3}}) #elif LV_COLOR_DEPTH == 32 #define LV_COLOR_MAKE(r8, g8, b8) ((lv_color_t){{0xff, r8, g8, b8}}) /*Fix 0xff alpha*/ #endif #endif #if LV_COLOR_DEPTH == 32 // Concatenate into one 32-bit set. #define LV_COLOR_HEX(c) ((lv_color_t){.full = ((c) | 0xFF000000)}) #else #define LV_COLOR_HEX(c) LV_COLOR_MAKE(((uint32_t)((uint32_t)(c) >> 16) & 0xFF), \ ((uint32_t)((uint32_t)(c) >> 8) & 0xFF), \ ((uint32_t) (c) & 0xFF)) #endif /*Usage LV_COLOR_HEX3(0x16C) which means LV_COLOR_HEX(0x1166CC)*/ #define LV_COLOR_HEX3(c) LV_COLOR_MAKE(((((c) >> 4) & 0xF0) | (((c) >> 8) & 0xF)), \ ((uint32_t)((c) & 0xF0) | (((c) & 0xF0) >> 4)), \ ((uint32_t)((c) & 0xF) | (((c) & 0xF) << 4))) /** * Convert a HSV color to RGB * @param h hue [0..359] * @param s saturation [0..100] * @param v value [0..100] * @return the given RGB color in RGB (with LV_COLOR_DEPTH depth) */ lv_color_t lv_color_hsv_to_rgb(uint16_t hue, uint8_t sat, uint8_t val); /** * Convert an RGB color to HSV * @param r red * @param g green * @param b blue * @return the given RGB color n HSV */ lv_color_hsv_t lv_color_rgb_to_hsv(uint8_t r, uint8_t g, uint8_t b); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*USE_COLOR*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_font.c ================================================ /** * @file lv_font.c * */ /********************* * INCLUDES *********************/ #include #include "lv_font.h" #include "lv_log.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize the fonts */ void lv_font_init(void) { lv_font_builtin_init(); } /** * Add a font to an other to extend the character set. * @param child the font to add * @param parent this font will be extended. Using it later will contain the characters from `child` */ void lv_font_add(lv_font_t * child, lv_font_t * parent) { if(parent == NULL) return; while(parent->next_page != NULL) { parent = parent->next_page; /*Got to the last page and add the new font there*/ } parent->next_page = child; } /** * Remove a font from a character set. * @param child the font to remove * @param parent remove `child` from here */ void lv_font_remove(lv_font_t * child, lv_font_t * parent) { if(parent == NULL) return; if(child == NULL) return; while(parent->next_page != child) { parent = parent->next_page; /*Got to the last page and add the new font there*/ } parent->next_page = child->next_page; } /** * Tells if font which contains `letter` is monospace or not * @param font_p point to font * @param letter an UNICODE character code * @return true: the letter is monospace; false not monospace */ bool lv_font_is_monospace(const lv_font_t * font_p, uint32_t letter) { const lv_font_t * font_i = font_p; int16_t w; while(font_i != NULL) { w = font_i->get_width(font_i, letter); if(w >= 0) { /*Glyph found*/ if(font_i->monospace) return true; return false; } font_i = font_i->next_page; } return 0; } /** * Return with the bitmap of a font. * @param font_p pointer to a font * @param letter an UNICODE character code * @return pointer to the bitmap of the letter */ const uint8_t * lv_font_get_bitmap(const lv_font_t * font_p, uint32_t letter) { const lv_font_t * font_i = font_p; while(font_i != NULL) { const uint8_t * bitmap = font_i->get_bitmap(font_i, letter); if(bitmap) return bitmap; font_i = font_i->next_page; } return NULL; } /** * Get the width of a letter in a font. If `monospace` is set then return with it. * @param font_p pointer to a font * @param letter an UNICODE character code * @return the width of a letter */ uint8_t lv_font_get_width(const lv_font_t * font_p, uint32_t letter) { const lv_font_t * font_i = font_p; int16_t w; while(font_i != NULL) { w = font_i->get_width(font_i, letter); if(w >= 0) { /*Glyph found*/ uint8_t m = font_i->monospace; if(m) w = m; return w; } font_i = font_i->next_page; } return 0; } /** * Get the width of the letter without overwriting it with the `monospace` attribute * @param font_p pointer to a font * @param letter an UNICODE character code * @return the width of a letter */ uint8_t lv_font_get_real_width(const lv_font_t * font_p, uint32_t letter) { const lv_font_t * font_i = font_p; int16_t w; while(font_i != NULL) { w = font_i->get_width(font_i, letter); if(w >= 0) return w; font_i = font_i->next_page; } return 0; } /** * Get the bit-per-pixel of font * @param font pointer to font * @param letter a letter from font (font extensions can have different bpp) * @return bpp of the font (or font extension) */ uint8_t lv_font_get_bpp(const lv_font_t * font, uint32_t letter) { const lv_font_t * font_i = font; while(font_i != NULL) { if(letter >= font_i->unicode_first && letter <= font_i->unicode_last) { return font_i->bpp; } font_i = font_i->next_page; } return 0; } /** * Generic bitmap get function used in 'font->get_bitmap' when the font contains all characters in the range * @param font pointer to font * @param unicode_letter an unicode letter which bitmap should be get * @return pointer to the bitmap or NULL if not found */ const uint8_t * lv_font_get_bitmap_continuous(const lv_font_t * font, uint32_t unicode_letter) { /*Check the range*/ if(unicode_letter < font->unicode_first || unicode_letter > font->unicode_last) return NULL; uint32_t index = (unicode_letter - font->unicode_first); return &font->glyph_bitmap[font->glyph_dsc[index].glyph_index]; } /** * Generic bitmap get function used in 'font->get_bitmap' when the font NOT contains all characters in the range (sparse) * @param font pointer to font * @param unicode_letter an unicode letter which bitmap should be get * @return pointer to the bitmap or NULL if not found */ const uint8_t * lv_font_get_bitmap_sparse(const lv_font_t * font, uint32_t unicode_letter) { /*Check the range*/ if(unicode_letter < font->unicode_first || unicode_letter > font->unicode_last) return NULL; uint32_t i; for(i = 0; font->unicode_list[i] != 0; i++) { if(font->unicode_list[i] == unicode_letter) { return &font->glyph_bitmap[font->glyph_dsc[i].glyph_index]; } } return NULL; } /** * Generic glyph width get function used in 'font->get_width' when the font contains all characters in the range * @param font pointer to font * @param unicode_letter an unicode letter which width should be get * @return width of the gylph or -1 if not found */ int16_t lv_font_get_width_continuous(const lv_font_t * font, uint32_t unicode_letter) { /*Check the range*/ if(unicode_letter < font->unicode_first || unicode_letter > font->unicode_last) { return -1; } uint32_t index = (unicode_letter - font->unicode_first); return font->glyph_dsc[index].w_px; } /** * Generic glyph width get function used in 'font->get_bitmap' when the font NOT contains all characters in the range (sparse) * @param font pointer to font * @param unicode_letter an unicode letter which width should be get * @return width of the glyph or -1 if not found */ int16_t lv_font_get_width_sparse(const lv_font_t * font, uint32_t unicode_letter) { /*Check the range*/ if(unicode_letter < font->unicode_first || unicode_letter > font->unicode_last) return -1; uint32_t i; for(i = 0; font->unicode_list[i] != 0; i++) { if(font->unicode_list[i] == unicode_letter) { return font->glyph_dsc[i].w_px; } } return -1; } /********************** * STATIC FUNCTIONS **********************/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_font.h ================================================ /** * @file lv_font.h * */ #ifndef LV_FONT_H #define LV_FONT_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include #include #include "lv_symbol_def.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ typedef struct { uint32_t w_px :8; uint32_t glyph_index :24; } lv_font_glyph_dsc_t; typedef struct { uint32_t unicode :21; uint32_t glyph_dsc_index :11; } lv_font_unicode_map_t; typedef struct _lv_font_struct { uint32_t unicode_first; uint32_t unicode_last; const uint8_t * glyph_bitmap; const lv_font_glyph_dsc_t * glyph_dsc; const uint32_t * unicode_list; const uint8_t * (*get_bitmap)(const struct _lv_font_struct *,uint32_t); /*Get a glyph's bitmap from a font*/ int16_t (*get_width)(const struct _lv_font_struct *,uint32_t); /*Get a glyph's with with a given font*/ struct _lv_font_struct * next_page; /*Pointer to a font extension*/ uint32_t h_px :8; uint32_t bpp :4; /*Bit per pixel: 1, 2 or 4*/ uint32_t monospace :8; /*Fix width (0: normal width)*/ uint16_t glyph_cnt; /*Number of glyphs (letters) in the font*/ } lv_font_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Initialize the fonts */ void lv_font_init(void); /** * Add a font to an other to extend the character set. * @param child the font to add * @param parent this font will be extended. Using it later will contain the characters from `child` */ void lv_font_add(lv_font_t *child, lv_font_t *parent); /** * Remove a font from a character set. * @param child the font to remove * @param parent remove `child` from here */ void lv_font_remove(lv_font_t * child, lv_font_t * parent); /** * Tells if font which contains `letter` is monospace or not * @param font_p point to font * @param letter an UNICODE character code * @return true: the letter is monospace; false not monospace */ bool lv_font_is_monospace(const lv_font_t * font_p, uint32_t letter); /** * Return with the bitmap of a font. * @param font_p pointer to a font * @param letter an UNICODE character code * @return pointer to the bitmap of the letter */ const uint8_t * lv_font_get_bitmap(const lv_font_t * font_p, uint32_t letter); /** * Get the width of a letter in a font. If `monospace` is set then return with it. * @param font_p pointer to a font * @param letter an UNICODE character code * @return the width of a letter */ uint8_t lv_font_get_width(const lv_font_t * font_p, uint32_t letter); /** * Get the width of the letter without overwriting it with the `monospace` attribute * @param font_p pointer to a font * @param letter an UNICODE character code * @return the width of a letter */ uint8_t lv_font_get_real_width(const lv_font_t * font_p, uint32_t letter); /** * Get the height of a font * @param font_p pointer to a font * @return the height of a font */ static inline uint8_t lv_font_get_height(const lv_font_t * font_p) { return font_p->h_px; } /** * Get the bit-per-pixel of font * @param font pointer to font * @param letter a letter from font (font extensions can have different bpp) * @return bpp of the font (or font extension) */ uint8_t lv_font_get_bpp(const lv_font_t * font, uint32_t letter); /** * Generic bitmap get function used in 'font->get_bitmap' when the font contains all characters in the range * @param font pointer to font * @param unicode_letter an unicode letter which bitmap should be get * @return pointer to the bitmap or NULL if not found */ const uint8_t * lv_font_get_bitmap_continuous(const lv_font_t * font, uint32_t unicode_letter); /** * Generic bitmap get function used in 'font->get_bitmap' when the font NOT contains all characters in the range (sparse) * @param font pointer to font * @param unicode_letter an unicode letter which bitmap should be get * @return pointer to the bitmap or NULL if not found */ const uint8_t * lv_font_get_bitmap_sparse(const lv_font_t * font, uint32_t unicode_letter); /** * Generic glyph width get function used in 'font->get_width' when the font contains all characters in the range * @param font pointer to font * @param unicode_letter an unicode letter which width should be get * @return width of the gylph or -1 if not found */ int16_t lv_font_get_width_continuous(const lv_font_t * font, uint32_t unicode_letter); /** * Generic glyph width get function used in 'font->get_bitmap' when the font NOT contains all characters in the range (sparse) * @param font pointer to font * @param unicode_letter an unicode letter which width should be get * @return width of the glyph or -1 if not found */ int16_t lv_font_get_width_sparse(const lv_font_t * font, uint32_t unicode_letter); /********************** * MACROS **********************/ #define LV_FONT_DECLARE(font_name) extern lv_font_t font_name; /********************** * ADD BUILT IN FONTS **********************/ #include "../lv_fonts/lv_font_builtin.h" /*Declare the custom (user defined) fonts*/ #ifdef LV_FONT_CUSTOM_DECLARE LV_FONT_CUSTOM_DECLARE #endif #ifdef __cplusplus } /* extern "C" */ #endif #endif /*USE_FONT*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_fs.c ================================================ /** * @file lv_fs.c * */ /********************* * INCLUDES *********************/ #include "lv_fs.h" #if USE_LV_FILESYSTEM #include "lv_ll.h" #include #include "lv_gc.h" #if defined(LV_GC_INCLUDE) # include LV_GC_INCLUDE #endif /* LV_ENABLE_GC */ /********************* * DEFINES *********************/ /* "free" is used as a function pointer (in lv_fs_drv_t). * We must make sure "free" was not defined to a platform specific * free function, otherwise compilation would fail. */ #ifdef free #undef free #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static const char * lv_fs_get_real_path(const char * path); static lv_fs_drv_t * lv_fs_get_drv(char letter); /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize the File system interface */ void lv_fs_init(void) { lv_ll_init(&LV_GC_ROOT(_lv_drv_ll), sizeof(lv_fs_drv_t)); } /** * Test if a drive is rady or not. If the `ready` function was not initialized `true` will be returned. * @param letter letter of the drive * @return true: drive is ready; false: drive is not ready */ bool lv_fs_is_ready(char letter) { lv_fs_drv_t * drv = lv_fs_get_drv(letter); if(drv == NULL) return false; /*An unknown driver in not ready*/ if(drv->ready == NULL) return true; /*Assume the driver is always ready if no handler provided*/ return drv->ready(); } /** * Open a file * @param file_p pointer to a lv_fs_file_t variable * @param path path to the file beginning with the driver letter (e.g. S:/folder/file.txt) * @param mode read: FS_MODE_RD, write: FS_MODE_WR, both: FS_MODE_RD | FS_MODE_WR * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_open(lv_fs_file_t * file_p, const char * path, lv_fs_mode_t mode) { file_p->drv = NULL; file_p->file_d = NULL; if(path == NULL) return LV_FS_RES_INV_PARAM; char letter = path[0]; file_p->drv = lv_fs_get_drv(letter); if(file_p->drv == NULL) { file_p->file_d = NULL; return LV_FS_RES_NOT_EX; } if(file_p->drv->ready != NULL) { if(file_p->drv->ready() == false) { file_p->drv = NULL; file_p->file_d = NULL; return LV_FS_RES_HW_ERR; } } file_p->file_d = lv_mem_alloc(file_p->drv->file_size); lv_mem_assert(file_p->file_d); if(file_p->file_d == NULL) { file_p->drv = NULL; return LV_FS_RES_OUT_OF_MEM; /* Out of memory */ } if(file_p->drv->open == NULL) { return LV_FS_RES_NOT_IMP; } const char * real_path = lv_fs_get_real_path(path); lv_fs_res_t res = file_p->drv->open(file_p->file_d, real_path, mode); if(res != LV_FS_RES_OK) { lv_mem_free(file_p->file_d); file_p->file_d = NULL; file_p->drv = NULL; } return res; } /** * Close an already opened file * @param file_p pointer to a lv_fs_file_t variable * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_close(lv_fs_file_t * file_p) { if(file_p->drv == NULL) { return LV_FS_RES_INV_PARAM; } if(file_p->drv->close == NULL) { return LV_FS_RES_NOT_IMP; } lv_fs_res_t res = file_p->drv->close(file_p->file_d); lv_mem_free(file_p->file_d); /*Clean up*/ file_p->file_d = NULL; file_p->drv = NULL; file_p->file_d = NULL; return res; } /** * Delete a file * @param path path of the file to delete * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_remove(const char * path) { if(path == NULL) return LV_FS_RES_INV_PARAM; lv_fs_drv_t * drv = NULL; char letter = path[0]; drv = lv_fs_get_drv(letter); if(drv == NULL) return LV_FS_RES_NOT_EX; if(drv->ready != NULL) { if(drv->ready() == false) return LV_FS_RES_HW_ERR; } if(drv->remove == NULL) return LV_FS_RES_NOT_IMP; const char * real_path = lv_fs_get_real_path(path); lv_fs_res_t res = drv->remove(real_path); return res; } /** * Read from a file * @param file_p pointer to a lv_fs_file_t variable * @param buf pointer to a buffer where the read bytes are stored * @param btr Bytes To Read * @param br the number of real read bytes (Bytes Read). NULL if unused. * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_read(lv_fs_file_t * file_p, void * buf, uint32_t btr, uint32_t * br) { if(br != NULL) *br = 0; if(file_p->drv == NULL) return LV_FS_RES_INV_PARAM; if(file_p->drv->read == NULL) return LV_FS_RES_NOT_IMP; uint32_t br_tmp = 0; lv_fs_res_t res = file_p->drv->read(file_p->file_d, buf, btr, &br_tmp); if(br != NULL) *br = br_tmp; return res; } /** * Write into a file * @param file_p pointer to a lv_fs_file_t variable * @param buf pointer to a buffer with the bytes to write * @param btr Bytes To Write * @param br the number of real written bytes (Bytes Written). NULL if unused. * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_write(lv_fs_file_t * file_p, const void * buf, uint32_t btw, uint32_t * bw) { if(bw != NULL) *bw = 0; if(file_p->drv == NULL) { return LV_FS_RES_INV_PARAM; } if(file_p->drv->write == NULL) { return LV_FS_RES_NOT_IMP; } uint32_t bw_tmp = 0; lv_fs_res_t res = file_p->drv->write(file_p->file_d, buf, btw, &bw_tmp); if(bw != NULL) *bw = bw_tmp; return res; } /** * Set the position of the 'cursor' (read write pointer) in a file * @param file_p pointer to a lv_fs_file_t variable * @param pos the new position expressed in bytes index (0: start of file) * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_seek(lv_fs_file_t * file_p, uint32_t pos) { if(file_p->drv == NULL) { return LV_FS_RES_INV_PARAM; } if(file_p->drv->seek == NULL) { return LV_FS_RES_NOT_IMP; } lv_fs_res_t res = file_p->drv->seek(file_p->file_d, pos); return res; } /** * Give the position of the read write pointer * @param file_p pointer to a lv_fs_file_t variable * @param pos_p pointer to store the position of the read write pointer * @return LV_FS_RES_OK or any error from 'fs_res_t' */ lv_fs_res_t lv_fs_tell(lv_fs_file_t * file_p, uint32_t * pos) { if(file_p->drv == NULL) { pos = 0; return LV_FS_RES_INV_PARAM; } if(file_p->drv->tell == NULL) { pos = 0; return LV_FS_RES_NOT_IMP; } lv_fs_res_t res = file_p->drv->tell(file_p->file_d, pos); return res; } /** * Truncate the file size to the current position of the read write pointer * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_fs_open ) * @return LV_FS_RES_OK: no error, the file is read * any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_trunc(lv_fs_file_t * file_p) { if(file_p->drv == NULL) { return LV_FS_RES_INV_PARAM; } if(file_p->drv->tell == NULL) { return LV_FS_RES_NOT_IMP; } lv_fs_res_t res = file_p->drv->trunc(file_p->file_d); return res; } /** * Give the size of a file bytes * @param file_p pointer to a lv_fs_file_t variable * @param size pointer to a variable to store the size * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_size(lv_fs_file_t * file_p, uint32_t * size) { if(file_p->drv == NULL) { return LV_FS_RES_INV_PARAM; } if(file_p->drv->size == NULL) return LV_FS_RES_NOT_IMP; if(size == NULL) return LV_FS_RES_INV_PARAM; lv_fs_res_t res = file_p->drv->size(file_p->file_d, size); return res; } /** * Rename a file * @param oldname path to the file * @param newname path with the new name * @return LV_FS_RES_OK or any error from 'fs_res_t' */ lv_fs_res_t lv_fs_rename(const char * oldname, const char * newname) { if(!oldname || !newname) return LV_FS_RES_INV_PARAM; char letter = oldname[0]; lv_fs_drv_t * drv = lv_fs_get_drv(letter); if(!drv) { return LV_FS_RES_NOT_EX; } if(drv->ready != NULL) { if(drv->ready() == false) { return LV_FS_RES_HW_ERR; } } if(drv->rename == NULL) return LV_FS_RES_NOT_IMP; const char * old_real = lv_fs_get_real_path(oldname); const char * new_real = lv_fs_get_real_path(newname); lv_fs_res_t res = drv->rename(old_real, new_real); return res; } /** * Initialize a 'fs_read_dir_t' variable for directory reading * @param rddir_p pointer to a 'fs_read_dir_t' variable * @param path path to a directory * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_dir_open(lv_fs_dir_t * rddir_p, const char * path) { if(path == NULL) return LV_FS_RES_INV_PARAM; char letter = path[0]; rddir_p->drv = lv_fs_get_drv(letter); if(rddir_p->drv == NULL) { rddir_p->dir_d = NULL; return LV_FS_RES_NOT_EX; } rddir_p->dir_d = lv_mem_alloc(rddir_p->drv->rddir_size); lv_mem_assert(rddir_p->dir_d); if(rddir_p->dir_d == NULL) { rddir_p->dir_d = NULL; return LV_FS_RES_OUT_OF_MEM; /* Out of memory */ } if(rddir_p->drv->dir_open == NULL) { return LV_FS_RES_NOT_IMP; } const char * real_path = lv_fs_get_real_path(path); lv_fs_res_t res = rddir_p->drv->dir_open(rddir_p->dir_d, real_path); return res; } /** * Read the next filename form a directory. * The name of the directories will begin with '/' * @param rddir_p pointer to an initialized 'fs_read_dir_t' variable * @param fn pointer to a buffer to store the filename * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_dir_read(lv_fs_dir_t * rddir_p, char * fn) { if(rddir_p->drv == NULL || rddir_p->dir_d == NULL) { fn[0] = '\0'; return LV_FS_RES_INV_PARAM; } if(rddir_p->drv->dir_read == NULL) { return LV_FS_RES_NOT_IMP; } lv_fs_res_t res = rddir_p->drv->dir_read(rddir_p->dir_d, fn); return res; } /** * Close the directory reading * @param rddir_p pointer to an initialized 'fs_read_dir_t' variable * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_dir_close(lv_fs_dir_t * rddir_p) { if(rddir_p->drv == NULL || rddir_p->dir_d == NULL) { return LV_FS_RES_INV_PARAM; } lv_fs_res_t res; if(rddir_p->drv->dir_close == NULL) { res = LV_FS_RES_NOT_IMP; } else { res = rddir_p->drv->dir_close(rddir_p->dir_d); } lv_mem_free(rddir_p->dir_d); /*Clean up*/ rddir_p->dir_d = NULL; rddir_p->drv = NULL; rddir_p->dir_d = NULL; return res; } /** * Get the free and total size of a driver in kB * @param letter the driver letter * @param total_p pointer to store the total size [kB] * @param free_p pointer to store the free size [kB] * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_free(char letter, uint32_t * total_p, uint32_t * free_p) { lv_fs_drv_t * drv = lv_fs_get_drv(letter); if(drv == NULL) { return LV_FS_RES_INV_PARAM; } lv_fs_res_t res; if(drv->free == NULL) { res = LV_FS_RES_NOT_IMP; } else { uint32_t total_tmp = 0; uint32_t free_tmp = 0; res = drv->free(&total_tmp, &free_tmp); if(total_p != NULL) *total_p = total_tmp; if(free_p != NULL) *free_p = free_tmp; } return res; } /** * Add a new drive * @param drv_p pointer to an lv_fs_drv_t structure which is inited with the * corresponding function pointers. The data will be copied so the variable can be local. */ void lv_fs_add_drv(lv_fs_drv_t * drv_p) { /*Save the new driver*/ lv_fs_drv_t * new_drv; new_drv = lv_ll_ins_head(&LV_GC_ROOT(_lv_drv_ll)); lv_mem_assert(new_drv); if(new_drv == NULL) return; memcpy(new_drv, drv_p, sizeof(lv_fs_drv_t)); } /** * Fill a buffer with the letters of existing drivers * @param buf buffer to store the letters ('\0' added after the last letter) * @return the buffer */ char * lv_fs_get_letters(char * buf) { lv_fs_drv_t * drv; uint8_t i = 0; LL_READ(LV_GC_ROOT(_lv_drv_ll), drv) { buf[i] = drv->letter; i++; } buf[i] = '\0'; return buf; } /** * Return with the extension of the filename * @param fn string with a filename * @return pointer to the beginning extension or empty string if no extension */ const char * lv_fs_get_ext(const char * fn) { uint16_t i; for(i = strlen(fn); i > 0; i --) { if(fn[i] == '.') { return &fn[i + 1]; } else if(fn[i] == '/' || fn[i] == '\\') { return ""; /*No extension if a '\' or '/' found*/ } } return ""; /*Empty string if no '.' in the file name. */ } /** * Step up one level * @param path pointer to a file name * @return the truncated file name */ char * lv_fs_up(char * path) { uint16_t len = strlen(path); if(len == 0) return path; len --; /*Go before the trailing '\0'*/ /*Ignore trailing '/' or '\'*/ while(path[len] == '/' || path[len] == '\\') { path[len] = '\0'; if(len > 0) len --; else return path; } uint16_t i; for(i = len; i > 0; i --) { if(path[i] == '/' || path[i] == '\\') break; } if(i > 0) path[i] = '\0'; return path; } /** * Get the last element of a path (e.g. U:/folder/file -> file) * @param path a character sting with the path to search in * @return pointer to the beginning of the last element in the path */ const char * lv_fs_get_last(const char * path) { uint16_t len = strlen(path); if(len == 0) return path; len --; /*Go before the trailing '\0'*/ /*Ignore trailing '/' or '\'*/ while(path[len] == '/' || path[len] == '\\') { if(len > 0) len --; else return path; } uint16_t i; for(i = len; i > 0; i --) { if(path[i] == '/' || path[i] == '\\') break; } /*No '/' or '\' in the path so return with path itself*/ if(i == 0) return path; return &path[i + 1]; } /********************** * STATIC FUNCTIONS **********************/ /** * Leave the driver letters and / or \ letters from beginning of the path * @param path path string (E.g. S:/folder/file.txt) * @return pointer to the beginning of the real path (E.g. folder/file.txt) */ static const char * lv_fs_get_real_path(const char * path) { /* Example path: "S:/folder/file.txt" * Leave the letter and the : / \ characters*/ path ++; /*Ignore the driver letter*/ while(*path != '\0') { if(*path == ':' || *path == '\\' || *path == '/') { path ++; } else { break; } } return path; } /** * Give a pointer to a driver from its letter * @param letter the driver letter * @return pointer to a driver or NULL if not found */ static lv_fs_drv_t * lv_fs_get_drv(char letter) { lv_fs_drv_t * drv; LL_READ(LV_GC_ROOT(_lv_drv_ll), drv) { if(drv->letter == letter) { return drv; } } return NULL; } #endif /*USE_LV_FILESYSTEM*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_fs.h ================================================ /** * @file lv_fs.h * */ #ifndef LV_FS_H #define LV_FS_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_FILESYSTEM #include #include "lv_mem.h" /********************* * DEFINES *********************/ #define LV_FS_MAX_FN_LENGTH 64 /********************** * TYPEDEFS **********************/ enum { LV_FS_RES_OK = 0, LV_FS_RES_HW_ERR, /*Low level hardware error*/ LV_FS_RES_FS_ERR, /*Error in the file system structure */ LV_FS_RES_NOT_EX, /*Driver, file or directory is not exists*/ LV_FS_RES_FULL, /*Disk full*/ LV_FS_RES_LOCKED, /*The file is already opened*/ LV_FS_RES_DENIED, /*Access denied. Check 'fs_open' modes and write protect*/ LV_FS_RES_BUSY, /*The file system now can't handle it, try later*/ LV_FS_RES_TOUT, /*Process time outed*/ LV_FS_RES_NOT_IMP, /*Requested function is not implemented*/ LV_FS_RES_OUT_OF_MEM, /*Not enough memory for an internal operation*/ LV_FS_RES_INV_PARAM, /*Invalid parameter among arguments*/ LV_FS_RES_UNKNOWN, /*Other unknown error*/ }; typedef uint8_t lv_fs_res_t; struct __lv_fs_drv_t; typedef struct { void * file_d; struct __lv_fs_drv_t* drv; } lv_fs_file_t; typedef struct { void * dir_d; struct __lv_fs_drv_t * drv; } lv_fs_dir_t; enum { LV_FS_MODE_WR = 0x01, LV_FS_MODE_RD = 0x02, }; typedef uint8_t lv_fs_mode_t; typedef struct __lv_fs_drv_t { char letter; uint16_t file_size; uint16_t rddir_size; bool (*ready) (void); lv_fs_res_t (*open) (void * file_p, const char * path, lv_fs_mode_t mode); lv_fs_res_t (*close) (void * file_p); lv_fs_res_t (*remove) (const char * fn); lv_fs_res_t (*read) (void * file_p, void * buf, uint32_t btr, uint32_t * br); lv_fs_res_t (*write) (void * file_p, const void * buf, uint32_t btw, uint32_t * bw); lv_fs_res_t (*seek) (void * file_p, uint32_t pos); lv_fs_res_t (*tell) (void * file_p, uint32_t * pos_p); lv_fs_res_t (*trunc) (void * file_p); lv_fs_res_t (*size) (void * file_p, uint32_t * size_p); lv_fs_res_t (*rename) (const char * oldname, const char * newname); lv_fs_res_t (*free) (uint32_t * total_p, uint32_t * free_p); lv_fs_res_t (*dir_open) (void * rddir_p, const char * path); lv_fs_res_t (*dir_read) (void * rddir_p, char * fn); lv_fs_res_t (*dir_close) (void * rddir_p); } lv_fs_drv_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Initialize the File system interface */ void lv_fs_init(void); /** * Add a new drive * @param drv_p pointer to an lv_fs_drv_t structure which is inited with the * corresponding function pointers. The data will be copied so the variable can be local. */ void lv_fs_add_drv(lv_fs_drv_t * drv_p); /** * Test if a drive is rady or not. If the `ready` function was not initialized `true` will be returned. * @param letter letter of the drive * @return true: drive is ready; false: drive is not ready */ bool lv_fs_is_ready(char letter); /** * Open a file * @param file_p pointer to a lv_fs_file_t variable * @param path path to the file beginning with the driver letter (e.g. S:/folder/file.txt) * @param mode read: FS_MODE_RD, write: FS_MODE_WR, both: FS_MODE_RD | FS_MODE_WR * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_open (lv_fs_file_t * file_p, const char * path, lv_fs_mode_t mode); /** * Close an already opened file * @param file_p pointer to a lv_fs_file_t variable * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_close (lv_fs_file_t * file_p); /** * Delete a file * @param path path of the file to delete * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_remove (const char * path); /** * Read from a file * @param file_p pointer to a lv_fs_file_t variable * @param buf pointer to a buffer where the read bytes are stored * @param btr Bytes To Read * @param br the number of real read bytes (Bytes Read). NULL if unused. * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_read (lv_fs_file_t * file_p, void * buf, uint32_t btr, uint32_t * br); /** * Write into a file * @param file_p pointer to a lv_fs_file_t variable * @param buf pointer to a buffer with the bytes to write * @param btr Bytes To Write * @param br the number of real written bytes (Bytes Written). NULL if unused. * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_write (lv_fs_file_t * file_p, const void * buf, uint32_t btw, uint32_t * bw); /** * Set the position of the 'cursor' (read write pointer) in a file * @param file_p pointer to a lv_fs_file_t variable * @param pos the new position expressed in bytes index (0: start of file) * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_seek (lv_fs_file_t * file_p, uint32_t pos); /** * Give the position of the read write pointer * @param file_p pointer to a lv_fs_file_t variable * @param pos_p pointer to store the position of the read write pointer * @return LV_FS_RES_OK or any error from 'fs_res_t' */ lv_fs_res_t lv_fs_tell (lv_fs_file_t * file_p, uint32_t * pos); /** * Truncate the file size to the current position of the read write pointer * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_fs_open ) * @return LV_FS_RES_OK: no error, the file is read * any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_trunc (lv_fs_file_t * file_p); /** * Give the size of a file bytes * @param file_p pointer to a lv_fs_file_t variable * @param size pointer to a variable to store the size * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_size (lv_fs_file_t * file_p, uint32_t * size); /** * Rename a file * @param oldname path to the file * @param newname path with the new name * @return LV_FS_RES_OK or any error from 'fs_res_t' */ lv_fs_res_t lv_fs_rename (const char * oldname, const char * newname); /** * Initialize a 'fs_dir_t' variable for directory reading * @param rddir_p pointer to a 'fs_read_dir_t' variable * @param path path to a directory * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_dir_open(lv_fs_dir_t * rddir_p, const char * path); /** * Read the next filename form a directory. * The name of the directories will begin with '/' * @param rddir_p pointer to an initialized 'fs_rdir_t' variable * @param fn pointer to a buffer to store the filename * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_dir_read (lv_fs_dir_t * rddir_p, char * fn); /** * Close the directory reading * @param rddir_p pointer to an initialized 'fs_dir_t' variable * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_dir_close (lv_fs_dir_t * rddir_p); /** * Get the free and total size of a driver in kB * @param letter the driver letter * @param total_p pointer to store the total size [kB] * @param free_p pointer to store the free size [kB] * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_fs_free (char letter, uint32_t * total_p, uint32_t * free_p); /** * Fill a buffer with the letters of existing drivers * @param buf buffer to store the letters ('\0' added after the last letter) * @return the buffer */ char * lv_fs_get_letters(char * buf); /** * Return with the extension of the filename * @param fn string with a filename * @return pointer to the beginning extension or empty string if no extension */ const char * lv_fs_get_ext(const char * fn); /** * Step up one level * @param path pointer to a file name * @return the truncated file name */ char * lv_fs_up(char * path); /** * Get the last element of a path (e.g. U:/folder/file -> file) * @param buf buffer to store the letters ('\0' added after the last letter) * @return pointer to the beginning of the last element in the path */ const char * lv_fs_get_last(const char * path); /********************** * MACROS **********************/ #endif /*USE_LV_FILESYSTEM*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_FS_H*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_gc.c ================================================ /** * @file lv_gc.c * */ /********************* * INCLUDES *********************/ #include "lv_gc.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ #if (!defined(LV_ENABLE_GC)) || LV_ENABLE_GC == 0 LV_ROOTS #endif /* LV_ENABLE_GC */ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /********************** * STATIC FUNCTIONS **********************/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_gc.h ================================================ /** * @file lv_gc.h * */ #ifndef LV_GC_H #define LV_GC_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include #include "lv_mem.h" #include "lv_ll.h" /********************* * DEFINES *********************/ #define LV_GC_ROOTS(prefix) \ prefix lv_ll_t _lv_task_ll; /*Linked list to store the lv_tasks*/ \ prefix lv_ll_t _lv_scr_ll; /*Linked list of screens*/ \ prefix lv_ll_t _lv_drv_ll;\ prefix lv_ll_t _lv_file_ll;\ prefix lv_ll_t _lv_anim_ll;\ prefix void * _lv_def_scr;\ prefix void * _lv_act_scr;\ prefix void * _lv_top_layer;\ prefix void * _lv_sys_layer;\ prefix void * _lv_task_act;\ prefix void * _lv_indev_list;\ prefix void * _lv_disp_list;\ #define LV_NO_PREFIX #define LV_ROOTS LV_GC_ROOTS(LV_NO_PREFIX) #if LV_ENABLE_GC == 1 # if LV_MEM_CUSTOM != 1 # error "GC requires CUSTOM_MEM" # endif /* LV_MEM_CUSTOM */ #else /* LV_ENABLE_GC */ # define LV_GC_ROOT(x) x LV_GC_ROOTS(extern) #endif /* LV_ENABLE_GC */ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_GC_H*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_ll.c ================================================ /** * @file lv_ll.c * Handle linked lists. * The nodes are dynamically allocated by the 'lv_mem' module, */ /********************* * INCLUDES *********************/ #include #include #include "lv_ll.h" #include "lv_mem.h" /********************* * DEFINES *********************/ #define LL_NODE_META_SIZE (sizeof(lv_ll_node_t*) + sizeof(lv_ll_node_t*)) #define LL_PREV_P_OFFSET(ll_p) (ll_p->n_size) #define LL_NEXT_P_OFFSET(ll_p) (ll_p->n_size + sizeof(lv_ll_node_t*)) /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static void node_set_prev(lv_ll_t * ll_p, lv_ll_node_t * act, lv_ll_node_t * prev); static void node_set_next(lv_ll_t * ll_p, lv_ll_node_t * act, lv_ll_node_t * next); /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize linked list * @param ll_dsc pointer to ll_dsc variable * @param node_size the size of 1 node in bytes */ void lv_ll_init(lv_ll_t * ll_p, uint32_t node_size) { ll_p->head = NULL; ll_p->tail = NULL; #ifdef LV_MEM_ENV64 /*Round the size up to 8*/ if(node_size & 0x7) { node_size = node_size & (~0x7); node_size += 8; } #else /*Round the size up to 4*/ if(node_size & 0x3) { node_size = node_size & (~0x3); node_size += 4; } #endif ll_p->n_size = node_size; } /** * Add a new head to a linked list * @param ll_p pointer to linked list * @return pointer to the new head */ void * lv_ll_ins_head(lv_ll_t * ll_p) { lv_ll_node_t * n_new; n_new = lv_mem_alloc(ll_p->n_size + LL_NODE_META_SIZE); if(n_new != NULL) { node_set_prev(ll_p, n_new, NULL); /*No prev. before the new head*/ node_set_next(ll_p, n_new, ll_p->head); /*After new comes the old head*/ if(ll_p->head != NULL) { /*If there is old head then before it goes the new*/ node_set_prev(ll_p, ll_p->head, n_new); } ll_p->head = n_new; /*Set the new head in the dsc.*/ if(ll_p->tail == NULL) {/*If there is no tail (1. node) set the tail too*/ ll_p->tail = n_new; } } return n_new; } /** * Insert a new node in front of the n_act node * @param ll_p pointer to linked list * @param n_act pointer a node * @return pointer to the new head */ void * lv_ll_ins_prev(lv_ll_t * ll_p, void * n_act) { lv_ll_node_t * n_new; lv_ll_node_t * n_prev; if(NULL == ll_p || NULL == n_act) return NULL; if(lv_ll_get_head(ll_p) == n_act) { n_new = lv_ll_ins_head(ll_p); if(n_new == NULL) return NULL; } else { n_new = lv_mem_alloc(ll_p->n_size + LL_NODE_META_SIZE); if(n_new == NULL) return NULL; n_prev = lv_ll_get_prev(ll_p, n_act); node_set_next(ll_p, n_prev, n_new); node_set_prev(ll_p, n_new, n_prev); node_set_prev(ll_p, n_act, n_new); node_set_next(ll_p, n_new, n_act); } return n_new; } /** * Add a new tail to a linked list * @param ll_p pointer to linked list * @return pointer to the new tail */ void * lv_ll_ins_tail(lv_ll_t * ll_p) { lv_ll_node_t * n_new; n_new = lv_mem_alloc(ll_p->n_size + LL_NODE_META_SIZE); if(n_new == NULL) return NULL; if(n_new != NULL) { node_set_next(ll_p, n_new, NULL); /*No next after the new tail*/ node_set_prev(ll_p, n_new, ll_p->tail); /*The prev. before new is tho old tail*/ if(ll_p->tail != NULL) { /*If there is old tail then the new comes after it*/ node_set_next(ll_p, ll_p->tail, n_new); } ll_p->tail = n_new; /*Set the new tail in the dsc.*/ if(ll_p->head == NULL) { /*If there is no head (1. node) set the head too*/ ll_p->head = n_new; } } return n_new; } /** * Remove the node 'node_p' from 'll_p' linked list. * It does not free the the memory of node. * @param ll_p pointer to the linked list of 'node_p' * @param node_p pointer to node in 'll_p' linked list */ void lv_ll_rem(lv_ll_t * ll_p, void * node_p) { if(lv_ll_get_head(ll_p) == node_p) { /*The new head will be the node after 'n_act'*/ ll_p->head = lv_ll_get_next(ll_p, node_p); if(ll_p->head == NULL) { ll_p->tail = NULL; } else { node_set_prev(ll_p, ll_p->head, NULL); } } else if(lv_ll_get_tail(ll_p) == node_p) { /*The new tail will be the node before 'n_act'*/ ll_p->tail = lv_ll_get_prev(ll_p, node_p); if(ll_p->tail == NULL) { ll_p->head = NULL; } else { node_set_next(ll_p, ll_p->tail, NULL); } } else { lv_ll_node_t * n_prev = lv_ll_get_prev(ll_p, node_p); lv_ll_node_t * n_next = lv_ll_get_next(ll_p, node_p); node_set_next(ll_p, n_prev, n_next); node_set_prev(ll_p, n_next, n_prev); } } /** * Remove and free all elements from a linked list. The list remain valid but become empty. * @param ll_p pointer to linked list */ void lv_ll_clear(lv_ll_t * ll_p) { void * i; void * i_next; i = lv_ll_get_head(ll_p); i_next = NULL; while(i != NULL) { i_next = lv_ll_get_next(ll_p, i); lv_ll_rem(ll_p, i); lv_mem_free(i); i = i_next; } } /** * Move a node to a new linked list * @param ll_ori_p pointer to the original (old) linked list * @param ll_new_p pointer to the new linked list * @param node pointer to a node * @return head changed */ bool lv_ll_chg_list(lv_ll_t * ll_ori_p, lv_ll_t * ll_new_p, void * node) { bool changed = ll_new_p->head != node; lv_ll_rem(ll_ori_p, node); /*Set node as head*/ node_set_prev(ll_new_p, node, NULL); node_set_next(ll_new_p, node, ll_new_p->head); if(ll_new_p->head != NULL) { /*If there is old head then before it goes the new*/ node_set_prev(ll_new_p, ll_new_p->head, node); } ll_new_p->head = node; /*Set the new head in the dsc.*/ if(ll_new_p->tail == NULL) { /*If there is no tail (first node) set the tail too*/ ll_new_p->tail = node; } return changed; } /** * Return with head node of the linked list * @param ll_p pointer to linked list * @return pointer to the head of 'll_p' */ void * lv_ll_get_head(const lv_ll_t * ll_p) { void * head = NULL; if(ll_p != NULL) { head = ll_p->head; } return head; } /** * Return with tail node of the linked list * @param ll_p pointer to linked list * @return pointer to the head of 'll_p' */ void * lv_ll_get_tail(const lv_ll_t * ll_p) { void * tail = NULL; if(ll_p != NULL) { tail = ll_p->tail; } return tail; } /** * Return with the pointer of the next node after 'n_act' * @param ll_p pointer to linked list * @param n_act pointer a node * @return pointer to the next node */ void * lv_ll_get_next(const lv_ll_t * ll_p, const void * n_act) { void * next = NULL; if(ll_p != NULL) { const lv_ll_node_t * n_act_d = n_act; memcpy(&next, n_act_d + LL_NEXT_P_OFFSET(ll_p), sizeof(void *)); } return next; } /** * Return with the pointer of the previous node after 'n_act' * @param ll_p pointer to linked list * @param n_act pointer a node * @return pointer to the previous node */ void * lv_ll_get_prev(const lv_ll_t * ll_p, const void * n_act) { void * prev = NULL; if(ll_p != NULL) { const lv_ll_node_t * n_act_d = n_act; memcpy(&prev, n_act_d + LL_PREV_P_OFFSET(ll_p), sizeof(void *)); } return prev; } void lv_ll_swap(lv_ll_t * ll_p, void * n1_p, void * n2_p) { (void)(ll_p); (void)(n1_p); (void)(n2_p); /*TODO*/ } /** * Move a nodw before an other node in the same linked list * @param ll_p pointer to a linked list * @param n_act pointer to node to move * @param n_after pointer to a node which should be after `n_act` */ void lv_ll_move_before(lv_ll_t * ll_p, void * n_act, void * n_after) { if(n_act == n_after) return; /*Can't move before itself*/ void * n_before; if(n_after != NULL) n_before = lv_ll_get_prev(ll_p, n_after); else n_before = lv_ll_get_tail(ll_p); /*if `n_after` is NULL `n_act` should be the new tail*/ if(n_act == n_before) return; /*Already before `n_after`*/ /*It's much easier to remove from the list and add again*/ lv_ll_rem(ll_p, n_act); /*Add again by setting the prev. and next nodes*/ node_set_next(ll_p, n_before, n_act); node_set_prev(ll_p, n_act, n_before); node_set_prev(ll_p, n_after, n_act); node_set_next(ll_p, n_act, n_after); /*If `n_act` was moved before NULL then it become the new tail*/ if(n_after == NULL) ll_p->tail = n_act; } /********************** * STATIC FUNCTIONS **********************/ /** * Set the 'pervious node pointer' of a node * @param ll_p pointer to linked list * @param act pointer to a node which prev. node pointer should be set * @param prev pointer to a node which should be the previous node before 'act' */ static void node_set_prev(lv_ll_t * ll_p, lv_ll_node_t * act, lv_ll_node_t * prev) { if(act == NULL) return; /*Can't set the prev node of `NULL`*/ uint32_t node_p_size = sizeof(lv_ll_node_t *); if(prev) memcpy(act + LL_PREV_P_OFFSET(ll_p), &prev, node_p_size); else memset(act + LL_PREV_P_OFFSET(ll_p), 0, node_p_size); } /** * Set the 'next node pointer' of a node * @param ll_p pointer to linked list * @param act pointer to a node which next node pointer should be set * @param next pointer to a node which should be the next node before 'act' */ static void node_set_next(lv_ll_t * ll_p, lv_ll_node_t * act, lv_ll_node_t * next) { if(act == NULL) return; /*Can't set the next node of `NULL`*/ uint32_t node_p_size = sizeof(lv_ll_node_t *); if(next) memcpy(act + LL_NEXT_P_OFFSET(ll_p), &next, node_p_size); else memset(act + LL_NEXT_P_OFFSET(ll_p), 0, node_p_size); } ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_ll.h ================================================ /** * @file lv_ll.c * Handle linked lists. The nodes are dynamically allocated by the 'lv_mem' module. */ #ifndef LV_LL_H #define LV_LL_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "lv_mem.h" #include #include /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Dummy type to make handling easier*/ typedef uint8_t lv_ll_node_t; /*Description of a linked list*/ typedef struct { uint32_t n_size; lv_ll_node_t* head; lv_ll_node_t* tail; } lv_ll_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Initialize linked list * @param ll_dsc pointer to ll_dsc variable * @param node_size the size of 1 node in bytes */ void lv_ll_init(lv_ll_t * ll_p, uint32_t node_size); /** * Add a new head to a linked list * @param ll_p pointer to linked list * @return pointer to the new head */ void * lv_ll_ins_head(lv_ll_t * ll_p); /** * Insert a new node in front of the n_act node * @param ll_p pointer to linked list * @param n_act pointer a node * @return pointer to the new head */ void * lv_ll_ins_prev(lv_ll_t * ll_p, void * n_act); /** * Add a new tail to a linked list * @param ll_p pointer to linked list * @return pointer to the new tail */ void * lv_ll_ins_tail(lv_ll_t * ll_p); /** * Remove the node 'node_p' from 'll_p' linked list. * It does not free the the memory of node. * @param ll_p pointer to the linked list of 'node_p' * @param node_p pointer to node in 'll_p' linked list */ void lv_ll_rem(lv_ll_t * ll_p, void * node_p); /** * Remove and free all elements from a linked list. The list remain valid but become empty. * @param ll_p pointer to linked list */ void lv_ll_clear(lv_ll_t * ll_p); /** * Move a node to a new linked list * @param ll_ori_p pointer to the original (old) linked list * @param ll_new_p pointer to the new linked list * @param node pointer to a node * @return head changed */ bool lv_ll_chg_list(lv_ll_t * ll_ori_p, lv_ll_t * ll_new_p, void * node); /** * Return with head node of the linked list * @param ll_p pointer to linked list * @return pointer to the head of 'll_p' */ void * lv_ll_get_head(const lv_ll_t * ll_p); /** * Return with tail node of the linked list * @param ll_p pointer to linked list * @return pointer to the head of 'll_p' */ void * lv_ll_get_tail(const lv_ll_t * ll_p); /** * Return with the pointer of the next node after 'n_act' * @param ll_p pointer to linked list * @param n_act pointer a node * @return pointer to the next node */ void * lv_ll_get_next(const lv_ll_t * ll_p, const void * n_act); /** * Return with the pointer of the previous node after 'n_act' * @param ll_p pointer to linked list * @param n_act pointer a node * @return pointer to the previous node */ void * lv_ll_get_prev(const lv_ll_t * ll_p, const void * n_act); /** * Move a nodw before an other node in the same linked list * @param ll_p pointer to a linked list * @param n_act pointer to node to move * @param n_after pointer to a node which should be after `n_act` */ void lv_ll_move_before(lv_ll_t * ll_p, void * n_act, void * n_after); /********************** * MACROS **********************/ #define LL_READ(list, i) for(i = lv_ll_get_head(&list); i != NULL; i = lv_ll_get_next(&list, i)) #define LL_READ_BACK(list, i) for(i = lv_ll_get_tail(&list); i != NULL; i = lv_ll_get_prev(&list, i)) #ifdef __cplusplus } /* extern "C" */ #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_log.c ================================================ /** * @file lv_log.c * */ /********************* * INCLUDES *********************/ #include "lv_log.h" #if USE_LV_LOG #if LV_LOG_PRINTF #include #include #include #include #endif /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ static void (*print_cb)(lv_log_level_t, const char *, uint32_t, const char *); /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Register custom print (or anything else) function to call when log is added * @param f a function pointer: * `void my_print (lv_log_level_t level, const char * file, uint32_t line, const char * dsc)` */ void lv_log_register_print(void f(lv_log_level_t, const char *, uint32_t, const char *)) { print_cb = f; } /** * Add a log * @param level the level of log. (From `lv_log_level_t` enum) * @param file name of the file when the log added * @param line line number in the source code where the log added * @param dsc description of the log */ void lv_log_add(lv_log_level_t level, const char * file, int line, const char * dsc) { if(level >= _LV_LOG_LEVEL_NUM) return; /*Invalid level*/ if(level >= LV_LOG_LEVEL) { #if LV_LOG_PRINTF && defined(DEBUG_UART_PORT) static const char * lvl_prefix[] = {"Trace", "Info", "Warn", "Error"}; char *log = (char *)malloc(0x1000); s_printf(log, "%s: %s \t(%s #%d)\r\n", lvl_prefix[level], dsc, file, line); uart_send(DEBUG_UART_PORT, (u8 *)log, strlen(log) + 1); //gfx_printf("%s: %s \t(%s #%d)\n", lvl_prefix[level], dsc, file, line); #else if(print_cb) print_cb(level, file, line, dsc); #endif } } /********************** * STATIC FUNCTIONS **********************/ #endif /*USE_LV_LOG*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_log.h ================================================ /** * @file lv_log.h * */ #ifndef LV_LOG_H #define LV_LOG_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include /********************* * DEFINES *********************/ /*Possible log level. For compatibility declare it independently from `USE_LV_LOG`*/ #define LV_LOG_LEVEL_TRACE 0 /*A lot of logs to give detailed information*/ #define LV_LOG_LEVEL_INFO 1 /*Log important events*/ #define LV_LOG_LEVEL_WARN 2 /*Log if something unwanted happened but didn't caused problem*/ #define LV_LOG_LEVEL_ERROR 3 /*Only critical issue, when the system may fail*/ #define _LV_LOG_LEVEL_NUM 4 typedef int8_t lv_log_level_t; #if USE_LV_LOG /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /** * Register custom print (or anything else) function to call when log is added * @param f a function pointer: * `void my_print (lv_log_level_t level, const char * file, uint32_t line, const char * dsc)` */ void lv_log_register_print(void f(lv_log_level_t, const char *, uint32_t, const char *)); /** * Add a log * @param level the level of log. (From `lv_log_level_t` enum) * @param file name of the file when the log added * @param line line number in the source code where the log added * @param dsc description of the log */ void lv_log_add(lv_log_level_t level, const char * file, int line, const char * dsc); /********************** * MACROS **********************/ #define LV_LOG_TRACE(dsc) lv_log_add(LV_LOG_LEVEL_TRACE, __FILE__, __LINE__, dsc); #define LV_LOG_INFO(dsc) lv_log_add(LV_LOG_LEVEL_INFO, __FILE__, __LINE__, dsc); #define LV_LOG_WARN(dsc) lv_log_add(LV_LOG_LEVEL_WARN, __FILE__, __LINE__, dsc); #define LV_LOG_ERROR(dsc) lv_log_add(LV_LOG_LEVEL_ERROR, __FILE__, __LINE__, dsc); #else /*USE_LV_LOG*/ /*Do nothing if `USE_LV_LOG 0`*/ #define lv_log_add(level, file, line, dsc) {;} #define LV_LOG_TRACE(dsc) {;} #define LV_LOG_INFO(dsc) {;} #define LV_LOG_WARN(dsc) {;} #define LV_LOG_ERROR(dsc) {;} #endif /*USE_LV_LOG*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_LOG_H*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_math.c ================================================ /** * @file lv_math.c * */ /********************* * INCLUDES *********************/ #include "lv_math.h" #include /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ static int16_t sin0_90_table[] = { 0, 572, 1144, 1715, 2286, 2856, 3425, 3993, 4560, 5126, 5690, 6252, 6813, 7371, 7927, 8481, 9032, 9580, 10126, 10668, 11207, 11743, 12275, 12803, 13328, 13848, 14364, 14876, 15383, 15886, 16383, 16876, 17364, 17846, 18323, 18794, 19260, 19720, 20173, 20621, 21062, 21497, 21925, 22347, 22762, 23170, 23571, 23964, 24351, 24730, 25101, 25465, 25821, 26169, 26509, 26841, 27165, 27481, 27788, 28087, 28377, 28659, 28932, 29196, 29451, 29697, 29934, 30162, 30381, 30591, 30791, 30982, 31163, 31335, 31498, 31650, 31794, 31927, 32051, 32165, 32269, 32364, 32448, 32523, 32587, 32642, 32687, 32722, 32747, 32762, 32767 }; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Convert a number to string * @param num a number * @param buf pointer to a `char` buffer. The result will be stored here (max 10 elements) * @return same as `buf` (just for convenience) */ char * lv_math_num_to_str(int32_t num, char * buf) { char * buf_ori = buf; if(num == 0) { buf[0] = '0'; buf[1] = '\0'; return buf; } else if(num < 0) { (*buf) = '-'; buf++; num = LV_MATH_ABS(num); } uint32_t output = 0; int8_t i; for(i = 31; i >= 0; i--) { if((output & 0xF) >= 5) output += 3; if(((output & 0xF0) >> 4) >= 5) output += (3 << 4); if(((output & 0xF00) >> 8) >= 5) output += (3 << 8); if(((output & 0xF000) >> 12) >= 5) output += (3 << 12); if(((output & 0xF0000) >> 16) >= 5) output += (3 << 16); if(((output & 0xF00000) >> 20) >= 5) output += (3 << 20); if(((output & 0xF000000) >> 24) >= 5) output += (3 << 24); if(((output & 0xF0000000) >> 28) >= 5) output += (3 << 28); output = (output << 1) | ((num >> i) & 1); } uint8_t digit; bool leading_zero_ready = false; for(i = 28; i >= 0; i -= 4) { digit = ((output >> i) & 0xF) + '0'; if(digit == '0' && leading_zero_ready == false) continue; leading_zero_ready = true; (*buf) = digit; buf++; } (*buf) = '\0'; return buf_ori; } /** * Return with sinus of an angle * @param angle * @return sinus of 'angle'. sin(-90) = -32767, sin(90) = 32767 */ int16_t lv_trigo_sin(int16_t angle) { int16_t ret = 0; angle = angle % 360; if(angle < 0) angle = 360 + angle; if(angle < 90) { ret = sin0_90_table[angle]; } else if(angle >= 90 && angle < 180) { angle = 180 - angle; ret = sin0_90_table[angle]; } else if(angle >= 180 && angle < 270) { angle = angle - 180; ret = - sin0_90_table[angle]; } else { /*angle >=270*/ angle = 360 - angle; ret = - sin0_90_table[angle]; } return ret; } /** * Calculate a value of a Cubic Bezier function. * @param t time in range of [0..LV_BEZIER_VAL_MAX] * @param u0 start values in range of [0..LV_BEZIER_VAL_MAX] * @param u1 control value 1 values in range of [0..LV_BEZIER_VAL_MAX] * @param u2 control value 2 in range of [0..LV_BEZIER_VAL_MAX] * @param u3 end values in range of [0..LV_BEZIER_VAL_MAX] * @return the value calculated from the given parameters in range of [0..LV_BEZIER_VAL_MAX] */ int32_t lv_bezier3(uint32_t t, int32_t u0, int32_t u1, int32_t u2, int32_t u3) { uint32_t t_rem = 1024 - t; uint32_t t_rem2 = (t_rem * t_rem) >> 10; uint32_t t_rem3 = (t_rem2 * t_rem) >> 10; uint32_t t2 = (t * t) >> 10; uint32_t t3 = (t2 * t) >> 10; uint32_t v1 = ((uint32_t)t_rem3 * u0) >> 10; uint32_t v2 = ((uint32_t)3 * t_rem2 * t * u1) >> 20; uint32_t v3 = ((uint32_t)3 * t_rem * t2 * u2) >> 20; uint32_t v4 = ((uint32_t)t3 * u3) >> 10; return v1 + v2 + v3 + v4; } /********************** * STATIC FUNCTIONS **********************/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_math.h ================================================ /** * @file math_base.h * */ #ifndef LV_MATH_H #define LV_MATH_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include /********************* * DEFINES *********************/ #define LV_MATH_MIN(a,b) ((a) < (b) ? (a) : (b)) #define LV_MATH_MAX(a,b) ((a) > (b) ? (a) : (b)) #define LV_MATH_ABS(x) ((x) > 0 ? (x) : (-(x))) #define LV_TRIGO_SIN_MAX 32767 #define LV_TRIGO_SHIFT 15 /* >> LV_TRIGO_SHIFT to normalize*/ #define LV_BEZIER_VAL_MAX 1024 /*Max time in Bezier functions (not [0..1] to use integers) */ #define LV_BEZIER_VAL_SHIFT 10 /*log2(LV_BEZIER_VAL_MAX): used to normalize up scaled values*/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /** * Convert a number to string * @param num a number * @param buf pointer to a `char` buffer. The result will be stored here (max 10 elements) * @return same as `buf` (just for convenience) */ char * lv_math_num_to_str(int32_t num, char * buf); /** * Return with sinus of an angle * @param angle * @return sinus of 'angle'. sin(-90) = -32767, sin(90) = 32767 */ int16_t lv_trigo_sin(int16_t angle); /** * Calculate a value of a Cubic Bezier function. * @param t time in range of [0..LV_BEZIER_VAL_MAX] * @param u0 start values in range of [0..LV_BEZIER_VAL_MAX] * @param u1 control value 1 values in range of [0..LV_BEZIER_VAL_MAX] * @param u2 control value 2 in range of [0..LV_BEZIER_VAL_MAX] * @param u3 end values in range of [0..LV_BEZIER_VAL_MAX] * @return the value calculated from the given parameters in range of [0..LV_BEZIER_VAL_MAX] */ int32_t lv_bezier3(uint32_t t, int32_t u0, int32_t u1, int32_t u2, int32_t u3); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_mem.c ================================================ /* * Copyright (c) 2019-2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_mem.c * General and portable implementation of malloc and free. * The dynamic memory monitoring is also supported. */ /********************* * INCLUDES *********************/ #include "lv_mem.h" #include "lv_math.h" #include #include #if LV_MEM_CUSTOM != 0 #include LV_MEM_CUSTOM_INCLUDE #endif /********************* * DEFINES *********************/ #define LV_MEM_ADD_JUNK 0 /*Add memory junk on alloc (0xaa) and free(0xbb) (just for testing purposes)*/ #ifdef LV_MEM_ENV64 # define MEM_UNIT uint64_t #else # define MEM_UNIT uint32_t #endif /********************** * TYPEDEFS **********************/ #if LV_ENABLE_GC == 0 /*gc custom allocations must not include header*/ /*The size of this union must be 32 bytes (uint32_t * 8)*/ typedef union { struct { MEM_UNIT used: 1; //1: if the entry is used MEM_UNIT d_size: 31; //Size of the data }; MEM_UNIT header; //The header (used + d_size) MEM_UNIT align[8]; //Align header size to MEM_UNIT * 8 bytes } lv_mem_header_t; static_assert(sizeof(lv_mem_header_t) == 32, "Node header must be 32 bytes!"); typedef struct { lv_mem_header_t header; uint8_t first_data; /*First data byte in the allocated data (Just for easily create a pointer)*/ } lv_mem_ent_t; #endif /* LV_ENABLE_GC */ /********************** * STATIC PROTOTYPES **********************/ #if LV_MEM_CUSTOM == 0 static lv_mem_ent_t * ent_get_next(lv_mem_ent_t * act_e); static void * ent_alloc(lv_mem_ent_t * e, uint32_t size); static void ent_trunc(lv_mem_ent_t * e, uint32_t size); #endif /********************** * STATIC VARIABLES **********************/ #if LV_MEM_CUSTOM == 0 static uint8_t * work_mem; #endif static uint32_t zero_mem; /*Give the address of this variable if 0 byte should be allocated*/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Initiaiize the dyn_mem module (work memory and other variables) */ void lv_mem_init(void) { #if LV_MEM_CUSTOM == 0 #if LV_MEM_ADR == 0 /*Allocate a large array to store the dynamically allocated data*/ static LV_MEM_ATTR MEM_UNIT work_mem_int[LV_MEM_SIZE / sizeof(MEM_UNIT)]; work_mem = (uint8_t *) work_mem_int; #else work_mem = (uint8_t *) LV_MEM_ADR; #endif lv_mem_ent_t * full = (lv_mem_ent_t *)work_mem; full->header.used = 0; /*The total mem size id reduced by the first header and the close patterns */ full->header.d_size = LV_MEM_SIZE - sizeof(lv_mem_header_t); #endif } /** * Allocate a memory dynamically * @param size size of the memory to allocate in bytes * @return pointer to the allocated memory */ void * lv_mem_alloc(uint32_t size) { if(size == 0) { return &zero_mem; } /*Round the size to lv_mem_header_t*/ if(size & (sizeof(lv_mem_header_t) - 1)) { size = size & (~(sizeof(lv_mem_header_t) - 1)); size += sizeof(lv_mem_header_t); } void * alloc = NULL; #if LV_MEM_CUSTOM == 0 /*Use the allocation from dyn_mem*/ lv_mem_ent_t * e = NULL; //Search for a appropriate entry do { //Get the next entry e = ent_get_next(e); /*If there is next entry then try to allocate there*/ if(e != NULL) { alloc = ent_alloc(e, size); } //End if there is not next entry OR the alloc. is successful } while(e != NULL && alloc == NULL); #else /*Use custom, user defined malloc function*/ #if LV_ENABLE_GC == 1 /*gc must not include header*/ alloc = LV_MEM_CUSTOM_ALLOC(size); #else /* LV_ENABLE_GC */ /*Allocate a header too to store the size*/ alloc = LV_MEM_CUSTOM_ALLOC(size + sizeof(lv_mem_header_t)); if(alloc != NULL) { ((lv_mem_ent_t *) alloc)->header.d_size = size; ((lv_mem_ent_t *) alloc)->header.used = 1; alloc = &((lv_mem_ent_t *) alloc)->first_data; } #endif /* LV_ENABLE_GC */ #endif /* LV_MEM_CUSTOM */ #if LV_MEM_ADD_JUNK if(alloc != NULL) memset(alloc, 0xaa, size); #endif if(alloc == NULL) LV_LOG_WARN("Couldn't allocate memory"); return alloc; } /** * Free an allocated data * @param data pointer to an allocated memory */ void lv_mem_free(const void * data) { if(data == &zero_mem) return; if(data == NULL) return; #if LV_MEM_ADD_JUNK memset((void *)data, 0xbb, lv_mem_get_size(data)); #endif #if LV_ENABLE_GC==0 /*e points to the header*/ lv_mem_ent_t * e = (lv_mem_ent_t *)((uint8_t *) data - sizeof(lv_mem_header_t)); e->header.used = 0; #endif #if LV_MEM_CUSTOM == 0 #if LV_MEM_AUTO_DEFRAG /* Make a simple defrag. * Join the following free entries after this*/ lv_mem_ent_t * e_next; e_next = ent_get_next(e); while(e_next != NULL) { if(e_next->header.used == 0) { e->header.d_size += e_next->header.d_size + sizeof(e->header); } else { break; } e_next = ent_get_next(e_next); } #endif #else /*Use custom, user defined free function*/ #if LV_ENABLE_GC==0 LV_MEM_CUSTOM_FREE(e); #else LV_MEM_CUSTOM_FREE((void*)data); #endif /*LV_ENABLE_GC*/ #endif } /** * Reallocate a memory with a new size. The old content will be kept. * @param data pointer to an allocated memory. * Its content will be copied to the new memory block and freed * @param new_size the desired new size in byte * @return pointer to the new memory */ #if LV_ENABLE_GC==0 void * lv_mem_realloc(void * data_p, uint32_t new_size) { /*Round the size to lv_mem_header_t*/ if(new_size & (sizeof(lv_mem_header_t) - 1)) { new_size = new_size & (~(sizeof(lv_mem_header_t) - 1)); new_size += sizeof(lv_mem_header_t); } /*data_p could be previously freed pointer (in this case it is invalid)*/ if(data_p != NULL) { lv_mem_ent_t * e = (lv_mem_ent_t *)((uint8_t *) data_p - sizeof(lv_mem_header_t)); if(e->header.used == 0) { data_p = NULL; } } uint32_t old_size = lv_mem_get_size(data_p); if(old_size == new_size) return data_p; /*Also avoid reallocating the same memory*/ #if LV_MEM_CUSTOM == 0 /* Only truncate the memory is possible * If the 'old_size' was extended by a header size in 'ent_trunc' it avoids reallocating this same memory */ if(new_size < old_size) { lv_mem_ent_t * e = (lv_mem_ent_t *)((uint8_t *) data_p - sizeof(lv_mem_header_t)); ent_trunc(e, new_size); return &e->first_data; } #endif void * new_p; new_p = lv_mem_alloc(new_size); if(new_p != NULL && data_p != NULL) { /*Copy the old data to the new. Use the smaller size*/ if(old_size != 0) { memcpy(new_p, data_p, LV_MATH_MIN(new_size, old_size)); lv_mem_free(data_p); } } if(new_p == NULL) LV_LOG_WARN("Couldn't allocate memory"); return new_p; } #else /* LV_ENABLE_GC */ void * lv_mem_realloc(void * data_p, uint32_t new_size) { void * new_p = LV_MEM_CUSTOM_REALLOC(data_p, new_size); if(new_p == NULL) LV_LOG_WARN("Couldn't allocate memory"); return new_p; } #endif /* lv_enable_gc */ /** * Join the adjacent free memory blocks */ void lv_mem_defrag(void) { #if LV_MEM_CUSTOM == 0 lv_mem_ent_t * e_free; lv_mem_ent_t * e_next; e_free = ent_get_next(NULL); while(1) { /*Search the next free entry*/ while(e_free != NULL) { if(e_free->header.used != 0) { e_free = ent_get_next(e_free); } else { break; } } if(e_free == NULL) return; /*Joint the following free entries to the free*/ e_next = ent_get_next(e_free); while(e_next != NULL) { if(e_next->header.used == 0) { e_free->header.d_size += e_next->header.d_size + sizeof(e_next->header); } else { break; } e_next = ent_get_next(e_next); } if(e_next == NULL) return; /*Continue from the lastly checked entry*/ e_free = e_next; } #endif } /** * Give information about the work memory of dynamic allocation * @param mon_p pointer to a dm_mon_p variable, * the result of the analysis will be stored here */ void lv_mem_monitor(lv_mem_monitor_t * mon_p) { /*Init the data*/ memset(mon_p, 0, sizeof(lv_mem_monitor_t)); #if LV_MEM_CUSTOM == 0 lv_mem_ent_t * e; e = NULL; e = ent_get_next(e); while(e != NULL) { if(e->header.used == 0) { mon_p->free_cnt++; mon_p->free_size += e->header.d_size; if(e->header.d_size > mon_p->free_biggest_size) { mon_p->free_biggest_size = e->header.d_size; } } else { mon_p->used_cnt++; } e = ent_get_next(e); } mon_p->total_size = LV_MEM_SIZE; mon_p->used_pct = 100 - ((uint64_t)100U * mon_p->free_size) / mon_p->total_size; mon_p->frag_pct = (uint32_t)mon_p->free_biggest_size * 100U / mon_p->free_size; mon_p->frag_pct = 100 - mon_p->frag_pct; #endif } /** * Give the size of an allocated memory * @param data pointer to an allocated memory * @return the size of data memory in bytes */ #if LV_ENABLE_GC==0 uint32_t lv_mem_get_size(const void * data) { if(data == NULL) return 0; if(data == &zero_mem) return 0; lv_mem_ent_t * e = (lv_mem_ent_t *)((uint8_t *) data - sizeof(lv_mem_header_t)); return e->header.d_size; } #else /* LV_ENABLE_GC */ uint32_t lv_mem_get_size(const void * data) { return LV_MEM_CUSTOM_GET_SIZE(data); } #endif /*LV_ENABLE_GC*/ /********************** * STATIC FUNCTIONS **********************/ #if LV_MEM_CUSTOM == 0 /** * Give the next entry after 'act_e' * @param act_e pointer to an entry * @return pointer to an entry after 'act_e' */ static lv_mem_ent_t * ent_get_next(lv_mem_ent_t * act_e) { lv_mem_ent_t * next_e = NULL; if(act_e == NULL) { /*NULL means: get the first entry*/ next_e = (lv_mem_ent_t *) work_mem; } else { /*Get the next entry */ uint8_t * data = &act_e->first_data; next_e = (lv_mem_ent_t *)&data[act_e->header.d_size]; if(&next_e->first_data >= &work_mem[LV_MEM_SIZE]) next_e = NULL; } return next_e; } /** * Try to do the real allocation with a given size * @param e try to allocate to this entry * @param size size of the new memory in bytes * @return pointer to the allocated memory or NULL if not enough memory in the entry */ static void * ent_alloc(lv_mem_ent_t * e, uint32_t size) { void * alloc = NULL; /*If the memory is free and big enough then use it */ if(e->header.used == 0 && e->header.d_size >= size) { /*Truncate the entry to the desired size */ ent_trunc(e, size), e->header.used = 1; /*Save the allocated data*/ alloc = &e->first_data; } return alloc; } /** * Truncate the data of entry to the given size * @param e Pointer to an entry * @param size new size in bytes */ static void ent_trunc(lv_mem_ent_t * e, uint32_t size) { /*Don't let empty space only for a header without data*/ if(e->header.d_size == size + sizeof(lv_mem_header_t)) { size = e->header.d_size; } /* Create the new entry after the current if there is space for it */ if(e->header.d_size != size) { uint8_t * e_data = &e->first_data; lv_mem_ent_t * after_new_e = (lv_mem_ent_t *)&e_data[size]; after_new_e->header.used = 0; after_new_e->header.d_size = e->header.d_size - size - sizeof(lv_mem_header_t); } /* Set the new size for the original entry */ e->header.d_size = size; } #endif ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_mem.h ================================================ /** * @file lv_mem.h * */ #ifndef LV_MEM_H #define LV_MEM_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include #include #include "lv_log.h" /********************* * DEFINES *********************/ // Check windows #ifdef __WIN64 //# define LV_MEM_ENV64 #endif // Check GCC #ifdef __GNUC__ # if defined(__x86_64__) || defined(__ppc64__) //# define LV_MEM_ENV64 # endif #endif /********************** * TYPEDEFS **********************/ typedef struct { uint32_t total_size; uint32_t free_cnt; uint32_t free_size; uint32_t free_biggest_size; uint32_t used_cnt; uint8_t used_pct; uint8_t frag_pct; } lv_mem_monitor_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Initiaize the dyn_mem module (work memory and other variables) */ void lv_mem_init(void); /** * Allocate a memory dynamically * @param size size of the memory to allocate in bytes * @return pointer to the allocated memory */ void * lv_mem_alloc(uint32_t size); /** * Free an allocated data * @param data pointer to an allocated memory */ void lv_mem_free(const void * data); /** * Reallocate a memory with a new size. The old content will be kept. * @param data pointer to an allocated memory. * Its content will be copied to the new memory block and freed * @param new_size the desired new size in byte * @return pointer to the new memory */ void * lv_mem_realloc(void * data_p, uint32_t new_size); /** * Join the adjacent free memory blocks */ void lv_mem_defrag(void); /** * Give information about the work memory of dynamic allocation * @param mon_p pointer to a dm_mon_p variable, * the result of the analysis will be stored here */ void lv_mem_monitor(lv_mem_monitor_t * mon_p); /** * Give the size of an allocated memory * @param data pointer to an allocated memory * @return the size of data memory in bytes */ uint32_t lv_mem_get_size(const void * data); /********************** * MACROS **********************/ /** * Halt on NULL pointer * p pointer to a memory */ #if USE_LV_LOG == 0 # define lv_mem_assert(p) {if(p == NULL) while(1); } #else # define lv_mem_assert(p) {if(p == NULL) {LV_LOG_ERROR("Out of memory!"); while(1); }} #endif #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_MEM_H*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_misc.mk ================================================ CSRCS += lv_font.c CSRCS += lv_circ.c CSRCS += lv_area.c CSRCS += lv_task.c CSRCS += lv_fs.c CSRCS += lv_anim.c CSRCS += lv_mem.c CSRCS += lv_ll.c CSRCS += lv_color.c CSRCS += lv_txt.c CSRCS += lv_ufs.c CSRCS += lv_math.c CSRCS += lv_log.c CSRCS += lv_gc.c DEPPATH += --dep-path $(LVGL_DIR)/lvgl/lv_misc VPATH += :$(LVGL_DIR)/lvgl/lv_misc CFLAGS += "-I$(LVGL_DIR)/lvgl/lv_misc" ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_symbol_def.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef LV_SYMBOL_DEF_H #define LV_SYMBOL_DEF_H #ifdef __cplusplus extern "C" { #endif #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif /* * With no UTF-8 support (192- 255) (192..241 is used) * * With UTF-8 support (in Supplemental Private Use Area-A): 0xF800 .. 0xF831 * - Basic symbols: 0xE000..0xE01F * - File symbols: 0xE020..0xE03F * - Feedback symbols: 0xE040..0xE05F * - Reserved: 0xE060..0xE07F */ #if LV_TXT_UTF8 == 0 #define LV_SYMBOL_GLYPH_FIRST 0xC0 #define SYMBOL_DOT _SYMBOL_VALUE1(C0) #define SYMBOL_CLOCK _SYMBOL_VALUE1(C1) #define SYMBOL_LIST _SYMBOL_VALUE1(C2) #define SYMBOL_OK _SYMBOL_VALUE1(C3) #define SYMBOL_CLOSE _SYMBOL_VALUE1(C4) #define SYMBOL_POWER _SYMBOL_VALUE1(C5) #define SYMBOL_SETTINGS _SYMBOL_VALUE1(C6) #define SYMBOL_TRASH _SYMBOL_VALUE1(C7) #define SYMBOL_HOME _SYMBOL_VALUE1(C8) #define SYMBOL_DOWNLOAD _SYMBOL_VALUE1(C9) #define SYMBOL_DRIVE _SYMBOL_VALUE1(CA) #define SYMBOL_REFRESH _SYMBOL_VALUE1(CB) #define SYMBOL_REBOOT _SYMBOL_VALUE1(CC) #define SYMBOL_CHIP _SYMBOL_VALUE1(CD) #define SYMBOL_SD _SYMBOL_VALUE1(CE) #define SYMBOL_CIRCUIT _SYMBOL_VALUE1(CF) #define SYMBOL_EDIT _SYMBOL_VALUE1(D0) #define SYMBOL_FILE_ALT _SYMBOL_VALUE1(D1) #define SYMBOL_FILE_CODE _SYMBOL_VALUE1(D2) #define SYMBOL_FILE_ARC _SYMBOL_VALUE1(D3) #define SYMBOL_TEMPERATURE _SYMBOL_VALUE1(D4) #define SYMBOL_MODULES _SYMBOL_VALUE1(D5) #define SYMBOL_MODULES_ALT _SYMBOL_VALUE1(D6) #define SYMBOL_LEFT _SYMBOL_VALUE1(D7) #define SYMBOL_RIGHT _SYMBOL_VALUE1(D8) #define SYMBOL_KEY _SYMBOL_VALUE1(D9) #define SYMBOL_INFO _SYMBOL_VALUE1(DA) #define SYMBOL_WARNING _SYMBOL_VALUE1(DB) #define SYMBOL_SHUFFLE _SYMBOL_VALUE1(DC) #define SYMBOL_UP _SYMBOL_VALUE1(DD) #define SYMBOL_DOWN _SYMBOL_VALUE1(DE) #define SYMBOL_BRIGHTNESS _SYMBOL_VALUE1(DF) #define SYMBOL_DIRECTORY _SYMBOL_VALUE1(E0) #define SYMBOL_UPLOAD _SYMBOL_VALUE1(E1) #define SYMBOL_USB _SYMBOL_VALUE1(E2) #define SYMBOL_TOOLS _SYMBOL_VALUE1(E3) #define SYMBOL_COPY _SYMBOL_VALUE1(E4) #define SYMBOL_SAVE _SYMBOL_VALUE1(E5) #define SYMBOL_CHARGE _SYMBOL_VALUE1(E6) #define SYMBOL_HINT _SYMBOL_VALUE1(E7) #define SYMBOL_KEYBOARD _SYMBOL_VALUE1(E8) #define SYMBOL_GPS _SYMBOL_VALUE1(E9) #define SYMBOL_FILE _SYMBOL_VALUE1(EA) #define SYMBOL_CAMERA _SYMBOL_VALUE1(EB) #define SYMBOL_BATTERY_FULL _SYMBOL_VALUE1(EC) #define SYMBOL_BATTERY_3 _SYMBOL_VALUE1(ED) #define SYMBOL_BATTERY_2 _SYMBOL_VALUE1(EE) #define SYMBOL_BATTERY_1 _SYMBOL_VALUE1(EF) #define SYMBOL_BATTERY_EMPTY _SYMBOL_VALUE1(F0) #define SYMBOL_SHRK _SYMBOL_VALUE1(F1) #define LV_SYMBOL_GLYPH_LAST 0xF1 #define SYMBOL_DUMMY _SYMBOL_VALUE1(FF) /*Invalid symbol. If written before a string then `lv_img` will show it as a label*/ #else #define LV_SYMBOL_GLYPH_FIRST 0xF800 #define SYMBOL_DOT _SYMBOL_VALUE3(EF,A0,80) #define SYMBOL_CLOCK _SYMBOL_VALUE3(EF,A0,81) #define SYMBOL_LIST _SYMBOL_VALUE3(EF,A0,82) #define SYMBOL_OK _SYMBOL_VALUE3(EF,A0,83) #define SYMBOL_CLOSE _SYMBOL_VALUE3(EF,A0,84) #define SYMBOL_POWER _SYMBOL_VALUE3(EF,A0,85) #define SYMBOL_SETTINGS _SYMBOL_VALUE3(EF,A0,86) #define SYMBOL_TRASH _SYMBOL_VALUE3(EF,A0,87) #define SYMBOL_HOME _SYMBOL_VALUE3(EF,A0,88) #define SYMBOL_DOWNLOAD _SYMBOL_VALUE3(EF,A0,89) #define SYMBOL_DRIVE _SYMBOL_VALUE3(EF,A0,8A) #define SYMBOL_REFRESH _SYMBOL_VALUE3(EF,A0,8B) #define SYMBOL_REBOOT _SYMBOL_VALUE3(EF,A0,8C) #define SYMBOL_CHIP _SYMBOL_VALUE3(EF,A0,8D) #define SYMBOL_SD _SYMBOL_VALUE3(EF,A0,8E) #define SYMBOL_CIRCUIT _SYMBOL_VALUE3(EF,A0,8F) #define SYMBOL_EDIT _SYMBOL_VALUE3(EF,A0,90) #define SYMBOL_FILE_ALT _SYMBOL_VALUE3(EF,A0,91) #define SYMBOL_FILE_CODE _SYMBOL_VALUE3(EF,A0,92) #define SYMBOL_FILE_ARC _SYMBOL_VALUE3(EF,A0,93) #define SYMBOL_TEMPERATURE _SYMBOL_VALUE3(EF,A0,94) #define SYMBOL_MODULES _SYMBOL_VALUE3(EF,A0,95) #define SYMBOL_MODULES_ALT _SYMBOL_VALUE3(EF,A0,96) #define SYMBOL_LEFT _SYMBOL_VALUE3(EF,A0,97) #define SYMBOL_RIGHT _SYMBOL_VALUE3(EF,A0,98) #define SYMBOL_KEY _SYMBOL_VALUE3(EF,A0,99) #define SYMBOL_INFO _SYMBOL_VALUE3(EF,A0,9A) #define SYMBOL_WARNING _SYMBOL_VALUE3(EF,A0,9B) #define SYMBOL_SHUFFLE _SYMBOL_VALUE3(EF,A0,9C) #define SYMBOL_UP _SYMBOL_VALUE3(EF,A0,9D) #define SYMBOL_DOWN _SYMBOL_VALUE3(EF,A0,9E) #define SYMBOL_BRIGHTNESS _SYMBOL_VALUE3(EF,A0,9F) #define SYMBOL_DIRECTORY _SYMBOL_VALUE3(EF,A0,A0) #define SYMBOL_UPLOAD _SYMBOL_VALUE3(EF,A0,A1) #define SYMBOL_USB _SYMBOL_VALUE3(EF,A0,A2) #define SYMBOL_TOOLS _SYMBOL_VALUE3(EF,A0,A3) #define SYMBOL_COPY _SYMBOL_VALUE3(EF,A0,A4) #define SYMBOL_SAVE _SYMBOL_VALUE3(EF,A0,A5) #define SYMBOL_CHARGE _SYMBOL_VALUE3(EF,A0,A6) #define SYMBOL_HINT _SYMBOL_VALUE3(EF,A0,A7) #define SYMBOL_KEYBOARD _SYMBOL_VALUE3(EF,A0,A8) #define SYMBOL_GPS _SYMBOL_VALUE3(EF,A0,A9) #define SYMBOL_FILE _SYMBOL_VALUE3(EF,A0,AA) #define SYMBOL_CAMERA _SYMBOL_VALUE3(EF,A0,AB) #define SYMBOL_BATTERY_FULL _SYMBOL_VALUE3(EF,A0,AC) #define SYMBOL_BATTERY_3 _SYMBOL_VALUE3(EF,A0,AD) #define SYMBOL_BATTERY_2 _SYMBOL_VALUE3(EF,A0,AE) #define SYMBOL_BATTERY_1 _SYMBOL_VALUE3(EF,A0,AF) #define SYMBOL_BATTERY_EMPTY _SYMBOL_VALUE3(EF,A0,B0) #define SYMBOL_SHRK _SYMBOL_VALUE3(EF,A0,B1) #define LV_SYMBOL_GLYPH_LAST 0xF831 #define SYMBOL_DUMMY _SYMBOL_VALUE3(EF,A3,BF) /*Invalid symbol at (U+F831). If written before a string then `lv_img` will show it as a label*/ #endif #define _SYMBOL_VALUE1(x) (0x ## x) #define _SYMBOL_VALUE3(x, y, z) (0x ## z ## y ## x) #define _SYMBOL_NUMSTR(sym) LV_ ## sym ## _NUMSTR = sym enum { _SYMBOL_NUMSTR(SYMBOL_DOT), _SYMBOL_NUMSTR(SYMBOL_CLOCK), _SYMBOL_NUMSTR(SYMBOL_LIST), _SYMBOL_NUMSTR(SYMBOL_OK), _SYMBOL_NUMSTR(SYMBOL_CLOSE), _SYMBOL_NUMSTR(SYMBOL_POWER), _SYMBOL_NUMSTR(SYMBOL_SETTINGS), _SYMBOL_NUMSTR(SYMBOL_TRASH), _SYMBOL_NUMSTR(SYMBOL_HOME), _SYMBOL_NUMSTR(SYMBOL_DOWNLOAD), _SYMBOL_NUMSTR(SYMBOL_DRIVE), _SYMBOL_NUMSTR(SYMBOL_REFRESH), _SYMBOL_NUMSTR(SYMBOL_REBOOT), _SYMBOL_NUMSTR(SYMBOL_CHIP), _SYMBOL_NUMSTR(SYMBOL_SD), _SYMBOL_NUMSTR(SYMBOL_CIRCUIT), _SYMBOL_NUMSTR(SYMBOL_EDIT), _SYMBOL_NUMSTR(SYMBOL_FILE_ALT), _SYMBOL_NUMSTR(SYMBOL_FILE_CODE), _SYMBOL_NUMSTR(SYMBOL_FILE_ARC), _SYMBOL_NUMSTR(SYMBOL_TEMPERATURE), _SYMBOL_NUMSTR(SYMBOL_MODULES), _SYMBOL_NUMSTR(SYMBOL_MODULES_ALT), _SYMBOL_NUMSTR(SYMBOL_LEFT), _SYMBOL_NUMSTR(SYMBOL_RIGHT), _SYMBOL_NUMSTR(SYMBOL_KEY), _SYMBOL_NUMSTR(SYMBOL_INFO), _SYMBOL_NUMSTR(SYMBOL_WARNING), _SYMBOL_NUMSTR(SYMBOL_SHUFFLE), _SYMBOL_NUMSTR(SYMBOL_UP), _SYMBOL_NUMSTR(SYMBOL_DOWN), _SYMBOL_NUMSTR(SYMBOL_BRIGHTNESS), _SYMBOL_NUMSTR(SYMBOL_DIRECTORY), _SYMBOL_NUMSTR(SYMBOL_UPLOAD), _SYMBOL_NUMSTR(SYMBOL_USB), _SYMBOL_NUMSTR(SYMBOL_TOOLS), _SYMBOL_NUMSTR(SYMBOL_COPY), _SYMBOL_NUMSTR(SYMBOL_SAVE), _SYMBOL_NUMSTR(SYMBOL_CHARGE), _SYMBOL_NUMSTR(SYMBOL_HINT), _SYMBOL_NUMSTR(SYMBOL_KEYBOARD), _SYMBOL_NUMSTR(SYMBOL_GPS), _SYMBOL_NUMSTR(SYMBOL_FILE), _SYMBOL_NUMSTR(SYMBOL_CAMERA), _SYMBOL_NUMSTR(SYMBOL_BATTERY_FULL), _SYMBOL_NUMSTR(SYMBOL_BATTERY_3), _SYMBOL_NUMSTR(SYMBOL_BATTERY_2), _SYMBOL_NUMSTR(SYMBOL_BATTERY_1), _SYMBOL_NUMSTR(SYMBOL_BATTERY_EMPTY), _SYMBOL_NUMSTR(SYMBOL_SHRK), _SYMBOL_NUMSTR(SYMBOL_DUMMY), }; #undef _SYMBOL_VALUE1 #undef _SYMBOL_VALUE3 #define _SYMBOL_STR_(x) #x #define _SYMBOL_STR(x) _SYMBOL_STR_(x) #define _SYMBOL_CHAR(c) \x ## c #define _SYMBOL_VALUE1(x) _SYMBOL_STR(_SYMBOL_CHAR(x)) #define _SYMBOL_VALUE3(x, y, z) _SYMBOL_STR(_SYMBOL_CHAR(x)_SYMBOL_CHAR(y)_SYMBOL_CHAR(z)) #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_SYMBOL_DEF_H*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_task.c ================================================ /** * @file lv_task.c * An 'lv_task' is a void (*fp) (void* param) type function which will be called periodically. * A priority (5 levels + disable) can be assigned to lv_tasks. */ /********************* * INCLUDES *********************/ #include #include "lv_task.h" #include "../lv_hal/lv_hal_tick.h" #include "lv_gc.h" #if defined(LV_GC_INCLUDE) # include LV_GC_INCLUDE #endif /* LV_ENABLE_GC */ /********************* * DEFINES *********************/ #define IDLE_MEAS_PERIOD 500 /*[ms]*/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_task_exec(lv_task_t * lv_task_p); /********************** * STATIC VARIABLES **********************/ static bool lv_task_run = false; static uint8_t idle_last = 0; static bool task_deleted; static bool task_created; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Init the lv_task module */ void lv_task_init(void) { lv_ll_init(&LV_GC_ROOT(_lv_task_ll), sizeof(lv_task_t)); /*Initially enable the lv_task handling*/ lv_task_enable(true); } /** * Call it periodically to handle lv_tasks. */ LV_ATTRIBUTE_TASK_HANDLER void lv_task_handler(void) { LV_LOG_TRACE("lv_task_handler started"); /*Avoid concurrent running of the task handler*/ static bool task_handler_mutex = false; if(task_handler_mutex) return; task_handler_mutex = true; static uint32_t idle_period_start = 0; static uint32_t handler_start = 0; static uint32_t busy_time = 0; if(lv_task_run == false) return; handler_start = lv_tick_get(); /* Run all task from the highest to the lowest priority * If a lower priority task is executed check task again from the highest priority * but on the priority of executed tasks don't run tasks before the executed*/ lv_task_t * task_interrupter = NULL; lv_task_t * next; bool end_flag; do { end_flag = true; task_deleted = false; task_created = false; LV_GC_ROOT(_lv_task_act) = lv_ll_get_head(&LV_GC_ROOT(_lv_task_ll)); while(LV_GC_ROOT(_lv_task_act)) { /* The task might be deleted if it runs only once ('once = 1') * So get next element until the current is surely valid*/ next = lv_ll_get_next(&LV_GC_ROOT(_lv_task_ll), LV_GC_ROOT(_lv_task_act)); /*We reach priority of the turned off task. There is nothing more to do.*/ if(((lv_task_t *)LV_GC_ROOT(_lv_task_act))->prio == LV_TASK_PRIO_OFF) { break; } /*Here is the interrupter task. Don't execute it again.*/ if(LV_GC_ROOT(_lv_task_act) == task_interrupter) { task_interrupter = NULL; /*From this point only task after the interrupter comes, so the interrupter is not interesting anymore*/ LV_GC_ROOT(_lv_task_act) = next; continue; /*Load the next task*/ } /*Just try to run the tasks with highest priority.*/ if(((lv_task_t *)LV_GC_ROOT(_lv_task_act))->prio == LV_TASK_PRIO_HIGHEST) { lv_task_exec(LV_GC_ROOT(_lv_task_act)); } /*Tasks with higher priority then the interrupted shall be run in every case*/ else if(task_interrupter) { if(((lv_task_t *)LV_GC_ROOT(_lv_task_act))->prio > task_interrupter->prio) { if(lv_task_exec(LV_GC_ROOT(_lv_task_act))) { task_interrupter = LV_GC_ROOT(_lv_task_act); /*Check all tasks again from the highest priority */ end_flag = false; break; } } } /* It is no interrupter task or we already reached it earlier. * Just run the remaining tasks*/ else { if(lv_task_exec(LV_GC_ROOT(_lv_task_act))) { task_interrupter = LV_GC_ROOT(_lv_task_act); /*Check all tasks again from the highest priority */ end_flag = false; break; } } if(task_deleted) break; /*If a task was deleted then this or the next item might be corrupted*/ if(task_created) break; /*If a task was deleted then this or the next item might be corrupted*/ LV_GC_ROOT(_lv_task_act) = next; /*Load the next task*/ } } while(!end_flag); busy_time += lv_tick_elaps(handler_start); uint32_t idle_period_time = lv_tick_elaps(idle_period_start); if(idle_period_time >= IDLE_MEAS_PERIOD) { idle_last = (uint32_t)((uint32_t)busy_time * 100) / IDLE_MEAS_PERIOD; /*Calculate the busy percentage*/ idle_last = idle_last > 100 ? 0 : 100 - idle_last; /*But we need idle time*/ busy_time = 0; idle_period_start = lv_tick_get(); } task_handler_mutex = false; /*Release the mutex*/ LV_LOG_TRACE("lv_task_handler ready"); } /** * Create a new lv_task * @param task a function which is the task itself * @param period call period in ms unit * @param prio priority of the task (LV_TASK_PRIO_OFF means the task is stopped) * @param param free parameter * @return pointer to the new task */ lv_task_t * lv_task_create(void (*task)(void *), uint32_t period, lv_task_prio_t prio, void * param) { lv_task_t * new_lv_task = NULL; lv_task_t * tmp; /*Create task lists in order of priority from high to low*/ tmp = lv_ll_get_head(&LV_GC_ROOT(_lv_task_ll)); if(NULL == tmp) { /*First task*/ new_lv_task = lv_ll_ins_head(&LV_GC_ROOT(_lv_task_ll)); lv_mem_assert(new_lv_task); if(new_lv_task == NULL) return NULL; } else { do { if(tmp->prio <= prio) { new_lv_task = lv_ll_ins_prev(&LV_GC_ROOT(_lv_task_ll), tmp); lv_mem_assert(new_lv_task); if(new_lv_task == NULL) return NULL; break; } tmp = lv_ll_get_next(&LV_GC_ROOT(_lv_task_ll), tmp); } while(tmp != NULL); if(tmp == NULL) { /*Only too high priority tasks were found*/ new_lv_task = lv_ll_ins_tail(&LV_GC_ROOT(_lv_task_ll)); lv_mem_assert(new_lv_task); if(new_lv_task == NULL) return NULL; } } new_lv_task->period = period; new_lv_task->task = task; new_lv_task->prio = prio; new_lv_task->param = param; new_lv_task->once = 0; new_lv_task->last_run = lv_tick_get(); task_created = true; return new_lv_task; } /** * Delete a lv_task * @param lv_task_p pointer to task created by lv_task_p */ void lv_task_del(lv_task_t * lv_task_p) { lv_ll_rem(&LV_GC_ROOT(_lv_task_ll), lv_task_p); lv_mem_free(lv_task_p); if(LV_GC_ROOT(_lv_task_act) == lv_task_p) task_deleted = true; /*The active task was deleted*/ } /** * Set new priority for a lv_task * @param lv_task_p pointer to a lv_task * @param prio the new priority */ void lv_task_set_prio(lv_task_t * lv_task_p, lv_task_prio_t prio) { /*Find the tasks with new priority*/ lv_task_t * i; LL_READ(LV_GC_ROOT(_lv_task_ll), i) { if(i->prio <= prio) { if(i != lv_task_p) lv_ll_move_before(&LV_GC_ROOT(_lv_task_ll), lv_task_p, i); break; } } /*There was no such a low priority so far then add the node to the tail*/ if(i == NULL) { lv_ll_move_before(&LV_GC_ROOT(_lv_task_ll), lv_task_p, NULL); } lv_task_p->prio = prio; } /** * Set new period for a lv_task * @param lv_task_p pointer to a lv_task * @param period the new period */ void lv_task_set_period(lv_task_t * lv_task_p, uint32_t period) { lv_task_p->period = period; } /** * Make a lv_task ready. It will not wait its period. * @param lv_task_p pointer to a lv_task. */ void lv_task_ready(lv_task_t * lv_task_p) { lv_task_p->last_run = lv_tick_get() - lv_task_p->period - 1; } /** * Delete the lv_task after one call * @param lv_task_p pointer to a lv_task. */ void lv_task_once(lv_task_t * lv_task_p) { lv_task_p->once = 1; } /** * Reset a lv_task. * It will be called the previously set period milliseconds later. * @param lv_task_p pointer to a lv_task. */ void lv_task_reset(lv_task_t * lv_task_p) { lv_task_p->last_run = lv_tick_get(); } /** * Enable or disable the whole lv_task handling * @param en: true: lv_task handling is running, false: lv_task handling is suspended */ void lv_task_enable(bool en) { lv_task_run = en; } /** * Get idle percentage * @return the lv_task idle in percentage */ uint8_t lv_task_get_idle(void) { return idle_last; } /********************** * STATIC FUNCTIONS **********************/ /** * Execute task if its the priority is appropriate * @param lv_task_p pointer to lv_task * @return true: execute, false: not executed */ static bool lv_task_exec(lv_task_t * lv_task_p) { bool exec = false; /*Execute if at least 'period' time elapsed*/ uint32_t elp = lv_tick_elaps(lv_task_p->last_run); if(elp >= lv_task_p->period) { lv_task_p->last_run = lv_tick_get(); task_deleted = false; task_created = false; if (lv_task_p->task) lv_task_p->task(lv_task_p->param); /*Delete if it was a one shot lv_task*/ if(task_deleted == false) { /*The task might be deleted by itself as well*/ if(lv_task_p->once != 0) { lv_task_del(lv_task_p); } } exec = true; } return exec; } ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_task.h ================================================ /** * @file lv_task.c * An 'lv_task' is a void (*fp) (void* param) type function which will be called periodically. * A priority (5 levels + disable) can be assigned to lv_tasks. */ #ifndef LV_TASK_H #define LV_TASK_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include #include "lv_mem.h" #include "lv_ll.h" /********************* * DEFINES *********************/ #ifndef LV_ATTRIBUTE_TASK_HANDLER #define LV_ATTRIBUTE_TASK_HANDLER #endif /********************** * TYPEDEFS **********************/ /** * Possible priorities for lv_tasks */ #define LV_TASK_ONESHOT 0 enum { LV_TASK_PRIO_OFF = 0, LV_TASK_PRIO_LOWEST, LV_TASK_PRIO_LOW, LV_TASK_PRIO_MID, LV_TASK_PRIO_HIGH, LV_TASK_PRIO_HIGHEST, LV_TASK_PRIO_NUM, }; typedef uint8_t lv_task_prio_t; /** * Descriptor of a lv_task */ typedef struct { uint32_t period; uint32_t last_run; void (*task) (void*); void * param; uint8_t prio:3; uint8_t once:1; } lv_task_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Init the lv_task module */ void lv_task_init(void); /** * Call it periodically to handle lv_tasks. */ LV_ATTRIBUTE_TASK_HANDLER void lv_task_handler(void); /** * Create a new lv_task * @param task a function which is the task itself * @param period call period in ms unit * @param prio priority of the task (LV_TASK_PRIO_OFF means the task is stopped) * @param param free parameter * @return pointer to the new task */ lv_task_t* lv_task_create(void (*task) (void *), uint32_t period, lv_task_prio_t prio, void * param); /** * Delete a lv_task * @param lv_task_p pointer to task created by lv_task_p */ void lv_task_del(lv_task_t* lv_task_p); /** * Set new priority for a lv_task * @param lv_task_p pointer to a lv_task * @param prio the new priority */ void lv_task_set_prio(lv_task_t* lv_task_p, lv_task_prio_t prio); /** * Set new period for a lv_task * @param lv_task_p pointer to a lv_task * @param period the new period */ void lv_task_set_period(lv_task_t* lv_task_p, uint32_t period); /** * Make a lv_task ready. It will not wait its period. * @param lv_task_p pointer to a lv_task. */ void lv_task_ready(lv_task_t* lv_task_p); /** * Delete the lv_task after one call * @param lv_task_p pointer to a lv_task. */ void lv_task_once(lv_task_t * lv_task_p); /** * Reset a lv_task. * It will be called the previously set period milliseconds later. * @param lv_task_p pointer to a lv_task. */ void lv_task_reset(lv_task_t* lv_task_p); /** * Enable or disable the whole lv_task handling * @param en: true: lv_task handling is running, false: lv_task handling is suspended */ void lv_task_enable(bool en); /** * Get idle percentage * @return the lv_task idle in percentage */ uint8_t lv_task_get_idle(void); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_templ.c ================================================ /** * @file lv_templ.c * */ /********************* * INCLUDES *********************/ /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /********************** * STATIC FUNCTIONS **********************/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_templ.h ================================================ /** * @file lv_templ.h * */ #ifndef LV_TEMPL_H #define LV_TEMPL_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_TEMPL_H*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_txt.c ================================================ /** * @file lv_text.c * */ /********************* * INCLUDES *********************/ #include "lv_txt.h" #include "lv_math.h" /********************* * DEFINES *********************/ #define NO_BREAK_FOUND UINT32_MAX #ifndef LV_TXT_LINE_BREAK_LONG_LEN #define LV_TXT_LINE_BREAK_LONG_LEN 12 /* If a character is at least this long, will break wherever "prettiest" */ #endif #ifndef LV_TXT_LINE_BREAK_LONG_PRE_MIN_LEN #define LV_TXT_LINE_BREAK_LONG_PRE_MIN_LEN 3 /* Minimum number of characters of a word to put on a line before a break */ #endif #ifndef LV_TXT_LINE_BREAK_LONG_POST_MIN_LEN #define LV_TXT_LINE_BREAK_LONG_POST_MIN_LEN 1 /* Minimum number of characters of a word to put on a line after a break */ #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool is_break_char(uint32_t letter); #if LV_TXT_UTF8 static uint8_t lv_txt_utf8_size(const char * str); static uint32_t lv_txt_unicode_to_utf8(uint32_t letter_uni); static uint32_t lv_txt_utf8_conv_wc(uint32_t c); static uint32_t lv_txt_utf8_next(const char * txt, uint32_t * i); static uint32_t lv_txt_utf8_prev(const char * txt, uint32_t * i_start); static uint32_t lv_txt_utf8_get_byte_id(const char * txt, uint32_t utf8_id); static uint32_t lv_txt_utf8_get_char_id(const char * txt, uint32_t byte_id); static uint32_t lv_txt_utf8_get_length(const char * txt); #else static uint8_t lv_txt_ascii_size(const char * str); static uint32_t lv_txt_unicode_to_ascii(uint32_t letter_uni); static uint32_t lv_txt_ascii_conv_wc(uint32_t c); static uint32_t lv_txt_ascii_next(const char * txt, uint32_t * i); static uint32_t lv_txt_ascii_prev(const char * txt, uint32_t * i_start); static uint32_t lv_txt_ascii_get_byte_id(const char * txt, uint32_t utf8_id); static uint32_t lv_txt_ascii_get_char_id(const char * txt, uint32_t byte_id); static uint32_t lv_txt_ascii_get_length(const char * txt); #endif /********************** * STATIC VARIABLES **********************/ /********************** * GLOBAL VARIABLES **********************/ #if LV_TXT_UTF8 uint8_t (*lv_txt_encoded_size)(const char *) = lv_txt_utf8_size; uint32_t (*lv_txt_unicode_to_encoded)(uint32_t) = lv_txt_unicode_to_utf8; uint32_t (*lv_txt_encoded_conv_wc)(uint32_t) = lv_txt_utf8_conv_wc; uint32_t (*lv_txt_encoded_next)(const char *, uint32_t *) = lv_txt_utf8_next; uint32_t (*lv_txt_encoded_prev)(const char *, uint32_t *) = lv_txt_utf8_prev; uint32_t (*lv_txt_encoded_get_byte_id)(const char *, uint32_t) = lv_txt_utf8_get_byte_id; uint32_t (*lv_encoded_get_char_id)(const char *, uint32_t) = lv_txt_utf8_get_char_id; uint32_t (*lv_txt_get_encoded_length)(const char *) = lv_txt_utf8_get_length; #else uint8_t (*lv_txt_encoded_size)(const char *) = lv_txt_ascii_size; uint32_t (*lv_txt_unicode_to_encoded)(uint32_t) = lv_txt_unicode_to_ascii; uint32_t (*lv_txt_encoded_conv_wc)(uint32_t) = lv_txt_ascii_conv_wc; uint32_t (*lv_txt_encoded_next)(const char *, uint32_t *) = lv_txt_ascii_next; uint32_t (*lv_txt_encoded_prev)(const char *, uint32_t *) = lv_txt_ascii_prev; uint32_t (*lv_txt_encoded_get_byte_id)(const char *, uint32_t) = lv_txt_ascii_get_byte_id; uint32_t (*lv_encoded_get_char_id)(const char *, uint32_t) = lv_txt_ascii_get_char_id; uint32_t (*lv_txt_get_encoded_length)(const char *) = lv_txt_ascii_get_length; #endif /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Get size of a text * @param size_res pointer to a 'point_t' variable to store the result * @param text pointer to a text * @param font pinter to font of the text * @param letter_space letter space of the text * @param txt.line_space line space of the text * @param flags settings for the text from 'txt_flag_t' enum * @param max_width max with of the text (break the lines to fit this size) Set CORD_MAX to avoid line breaks */ void lv_txt_get_size(lv_point_t * size_res, const char * text, const lv_font_t * font, lv_coord_t letter_space, lv_coord_t line_space, lv_coord_t max_width, lv_txt_flag_t flag) { size_res->x = 0; size_res->y = 0; if(text == NULL) return; if(font == NULL) return; if(flag & LV_TXT_FLAG_EXPAND) max_width = LV_COORD_MAX; uint32_t line_start = 0; uint32_t new_line_start = 0; lv_coord_t act_line_length; uint8_t letter_height = lv_font_get_height(font); /*Calc. the height and longest line*/ while(text[line_start] != '\0') { new_line_start += lv_txt_get_next_line(&text[line_start], font, letter_space, max_width, flag); size_res->y += letter_height ; size_res->y += line_space; /*Calculate the the longest line*/ act_line_length = lv_txt_get_width(&text[line_start], new_line_start - line_start, font, letter_space, flag); size_res->x = LV_MATH_MAX(act_line_length, size_res->x); line_start = new_line_start; } /*Make the text one line taller if the last character is '\n' or '\r'*/ if((line_start != 0) && (text[line_start - 1] == '\n' || text[line_start - 1] == '\r')) { size_res->y += letter_height + line_space; } /*Correction with the last line space or set the height manually if the text is empty*/ if(size_res->y == 0) size_res->y = letter_height; else size_res->y -= line_space; } /** * Get the next line of text. Check line length and break chars too. * @param txt a '\0' terminated string * @param font pointer to a font * @param letter_space letter space * @param max_width max with of the text (break the lines to fit this size) Set CORD_MAX to avoid line breaks * @param flags settings for the text from 'txt_flag_type' enum * @return the index of the first char of the new line (in byte index not letter index. With UTF-8 they are different) */ uint16_t lv_txt_get_next_line(const char * txt, const lv_font_t * font, lv_coord_t letter_space, lv_coord_t max_width, lv_txt_flag_t flag) { if(txt == NULL) return 0; if(font == NULL) return 0; if(flag & LV_TXT_FLAG_EXPAND) max_width = LV_COORD_MAX; uint32_t i = 0; lv_coord_t cur_w = 0; lv_coord_t w_at_last_break = 0; uint32_t n_char_since_last_break = 0; /* Used count word length of long words */ uint32_t last_break = NO_BREAK_FOUND; lv_txt_cmd_state_t cmd_state = LV_TXT_CMD_STATE_WAIT; uint32_t letter = 0; while(txt[i] != '\0') { lv_coord_t letter_width; letter = lv_txt_encoded_next(txt, &i); /*Handle the recolor command*/ if((flag & LV_TXT_FLAG_RECOLOR) != 0) { if(lv_txt_is_cmd(&cmd_state, letter) != false) { continue; /*Skip the letter is it is part of a command*/ } } /*Check for new line chars*/ if(letter == '\n' || letter == '\r') { uint32_t i_tmp = i; uint32_t letter_next = lv_txt_encoded_next(txt, &i_tmp); if(letter == '\r' && letter_next == '\n') i = i_tmp; return i; /*Return with the first letter of the next line*/ } else { /*Check the actual length*/ n_char_since_last_break++; letter_width = lv_font_get_width(font, letter); cur_w += letter_width; /* Get the length of the current work and determine best place * to break the line. */ if(cur_w > max_width) { if( last_break != NO_BREAK_FOUND ) { /* Continue searching for next breakable character to see if the next word will fit */ uint32_t n_char_fit = n_char_since_last_break - 1; if( n_char_since_last_break <= LV_TXT_LINE_BREAK_LONG_PRE_MIN_LEN ) { i = last_break; } else { uint32_t i_tmp = i; cur_w -= w_at_last_break + letter_space; /*ignore the first letter_space after the break char */ bool other = true; while(txt[i_tmp] != '\0') { letter = lv_txt_encoded_next(txt, &i_tmp); /*Handle the recolor command*/ if((flag & LV_TXT_FLAG_RECOLOR) != 0) { if(lv_txt_is_cmd(&cmd_state, letter) != false) { continue; /*Skip the letter is it is part of a command*/ } } /*Check for new line chars*/ if(letter == '\n' || letter == '\r' || is_break_char(letter)) { if(n_char_since_last_break >= LV_TXT_LINE_BREAK_LONG_LEN) { /* Figure out the prettiest place to break */ uint32_t char_remain; lv_txt_encoded_prev(txt, &i); for(char_remain=n_char_since_last_break - n_char_fit; char_remain < LV_TXT_LINE_BREAK_LONG_POST_MIN_LEN; char_remain++) { lv_txt_encoded_prev(txt, &i); } } else{ i = last_break; } other = false; break; } n_char_since_last_break++; lv_coord_t letter_width2 = lv_font_get_width(font, letter); cur_w += letter_width2; if(cur_w > max_width) { /* Current letter already exceeds, return previous */ lv_txt_encoded_prev(txt, &i); other = false; break; } if(letter_width2 > 0){ cur_w += letter_space; } } if( other ) { if(n_char_since_last_break >= LV_TXT_LINE_BREAK_LONG_LEN) { /* Figure out the prettiest place to break */ uint32_t char_remain; lv_txt_encoded_prev(txt, &i); for(char_remain=n_char_since_last_break - n_char_fit; char_remain < LV_TXT_LINE_BREAK_LONG_POST_MIN_LEN; char_remain++){ lv_txt_encoded_prev(txt, &i); } } else{ i = last_break; } } } } else { /* Now this character is out of the area so it will be first character of the next line*/ /* But 'i' already points to the next character (because of lv_txt_utf8_next) step beck one*/ lv_txt_encoded_prev(txt, &i); } /* Do not let to return without doing nothing. * Find at least one character (Avoid infinite loop )*/ if(i == 0) lv_txt_encoded_next(txt, &i); return i; } /*If this char still can fit to this line then check if * txt can be broken here later */ else if(is_break_char(letter)) { last_break = i; /*Save the first char index after break*/ w_at_last_break = cur_w; if(letter_width > 0) { w_at_last_break += letter_space; } n_char_since_last_break = 0; } } if(letter_width > 0) { cur_w += letter_space; } } return i; } /** * Give the length of a text with a given font * @param txt a '\0' terminate string * @param length length of 'txt' in byte count and not characters (Á is 1 character but 2 bytes in UTF-8) * @param font pointer to a font * @param letter_space letter space * @param flags settings for the text from 'txt_flag_t' enum * @return length of a char_num long text */ lv_coord_t lv_txt_get_width(const char * txt, uint16_t length, const lv_font_t * font, lv_coord_t letter_space, lv_txt_flag_t flag) { if(txt == NULL) return 0; if(font == NULL) return 0; uint32_t i = 0; lv_coord_t width = 0; lv_txt_cmd_state_t cmd_state = LV_TXT_CMD_STATE_WAIT; uint32_t letter; if(length != 0) { while(i< length){ letter = lv_txt_encoded_next(txt, &i); if((flag & LV_TXT_FLAG_RECOLOR) != 0) { if(lv_txt_is_cmd(&cmd_state, letter) != false) { continue; } } lv_coord_t char_width = lv_font_get_width(font, letter); if(char_width > 0){ width += char_width; width += letter_space; } } if(width > 0) { width -= letter_space; /*Trim the last letter space. Important if the text is center aligned */ } } return width; } /** * Check next character in a string and decide if the character is part of the command or not * @param state pointer to a txt_cmd_state_t variable which stores the current state of command processing * (Initied. to TXT_CMD_STATE_WAIT ) * @param c the current character * @return true: the character is part of a command and should not be written, * false: the character should be written */ bool lv_txt_is_cmd(lv_txt_cmd_state_t * state, uint32_t c) { bool ret = false; if(c == (uint32_t)LV_TXT_COLOR_CMD[0]) { if(*state == LV_TXT_CMD_STATE_WAIT) { /*Start char*/ *state = LV_TXT_CMD_STATE_PAR; ret = true; } else if(*state == LV_TXT_CMD_STATE_PAR) { /*Other start char in parameter is escaped cmd. char */ *state = LV_TXT_CMD_STATE_WAIT; } else if(*state == LV_TXT_CMD_STATE_IN) { /*Command end */ *state = LV_TXT_CMD_STATE_WAIT; ret = true; } } /*Skip the color parameter and wait the space after it*/ if(*state == LV_TXT_CMD_STATE_PAR) { if(c == ' ') { *state = LV_TXT_CMD_STATE_IN; /*After the parameter the text is in the command*/ } ret = true; } return ret; } /** * Insert a string into an other * @param txt_buf the original text (must be big enough for the result text) * @param pos position to insert. Expressed in character index and not byte index (Different in UTF-8) * 0: before the original text, 1: after the first char etc. * @param ins_txt text to insert */ void lv_txt_ins(char * txt_buf, uint32_t pos, const char * ins_txt) { uint32_t old_len = strlen(txt_buf); uint32_t ins_len = strlen(ins_txt); uint32_t new_len = ins_len + old_len; #if LV_TXT_UTF8 != 0 pos = lv_txt_encoded_get_byte_id(txt_buf, pos); /*Convert to byte index instead of letter index*/ #endif /*Copy the second part into the end to make place to text to insert*/ uint32_t i; for(i = new_len; i >= pos + ins_len; i--) { txt_buf[i] = txt_buf[i - ins_len]; } /* Copy the text into the new space*/ memcpy(txt_buf + pos, ins_txt, ins_len); } /** * Delete a part of a string * @param txt string to modify * @param pos position where to start the deleting (0: before the first char, 1: after the first char etc.) * @param len number of characters to delete */ void lv_txt_cut(char * txt, uint32_t pos, uint32_t len) { uint32_t old_len = strlen(txt); #if LV_TXT_UTF8 != 0 pos = lv_txt_encoded_get_byte_id(txt, pos); /*Convert to byte index instead of letter index*/ len = lv_txt_encoded_get_byte_id(&txt[pos], len); #endif /*Copy the second part into the end to make place to text to insert*/ uint32_t i; for(i = pos; i <= old_len - len; i++) { txt[i] = txt[i + len]; } } /******************************* * UTF-8 ENCODER/DECOER ******************************/ #if LV_TXT_UTF8 /** * Give the size of an UTF-8 coded character * @param str pointer to a character in a string * @return length of the UTF-8 character (1,2,3 or 4). O on invalid code */ static uint8_t lv_txt_utf8_size(const char * str) { if((str[0] & 0x80) == 0) return 1; else if((str[0] & 0xE0) == 0xC0) return 2; else if((str[0] & 0xF0) == 0xE0) return 3; else if((str[0] & 0xF8) == 0xF0) return 4; return 0; } /** * Convert an Unicode letter to UTF-8. * @param letter_uni an Unicode letter * @return UTF-8 coded character in Little Endian to be compatible with C chars (e.g. 'Á', 'Ű') */ static uint32_t lv_txt_unicode_to_utf8(uint32_t letter_uni) { if(letter_uni < 128) return letter_uni; uint8_t bytes[4]; if(letter_uni < 0x0800) { bytes[0] = ((letter_uni >> 6) & 0x1F) | 0xC0; bytes[1] = ((letter_uni >> 0) & 0x3F) | 0x80; bytes[2] = 0; bytes[3] = 0; } else if(letter_uni < 0x010000) { bytes[0] = ((letter_uni >> 12) & 0x0F) | 0xE0; bytes[1] = ((letter_uni >> 6) & 0x3F) | 0x80; bytes[2] = ((letter_uni >> 0) & 0x3F) | 0x80; bytes[3] = 0; } else if(letter_uni < 0x110000) { bytes[0] = ((letter_uni >> 18) & 0x07) | 0xF0; bytes[1] = ((letter_uni >> 12) & 0x3F) | 0x80; bytes[2] = ((letter_uni >> 6) & 0x3F) | 0x80; bytes[3] = ((letter_uni >> 0) & 0x3F) | 0x80; } uint32_t * res_p = (uint32_t *)bytes; return *res_p; } /** * Convert a wide character, e.g. 'Á' little endian to be UTF-8 compatible * @param c a wide character or a Little endian number * @return `c` in big endian */ static uint32_t lv_txt_utf8_conv_wc(uint32_t c) { /*Swap the bytes (UTF-8 is big endian, but the MCUs are little endian)*/ if((c & 0x80) != 0) { uint32_t swapped; uint8_t c8[4]; memcpy(c8, &c, 4); swapped = (c8[0] << 24) + (c8[1] << 16) + (c8[2] << 8) + (c8[3]); uint8_t i; for(i = 0; i < 4; i++) { if((swapped & 0xFF) == 0) swapped = (swapped >> 8); /*Ignore leading zeros (they were in the end originally)*/ } c = swapped; } return c; } /** * Decode an UTF-8 character from a string. * @param txt pointer to '\0' terminated string * @param i start byte index in 'txt' where to start. * After call it will point to the next UTF-8 char in 'txt'. * NULL to use txt[0] as index * @return the decoded Unicode character or 0 on invalid UTF-8 code */ static uint32_t lv_txt_utf8_next(const char * txt, uint32_t * i) { /* Unicode to UTF-8 * 00000000 00000000 00000000 0xxxxxxx -> 0xxxxxxx * 00000000 00000000 00000yyy yyxxxxxx -> 110yyyyy 10xxxxxx * 00000000 00000000 zzzzyyyy yyxxxxxx -> 1110zzzz 10yyyyyy 10xxxxxx * 00000000 000wwwzz zzzzyyyy yyxxxxxx -> 11110www 10zzzzzz 10yyyyyy 10xxxxxx * */ uint32_t result = 0; /*Dummy 'i' pointer is required*/ uint32_t i_tmp = 0; if(i == NULL) i = &i_tmp; /*Normal ASCII*/ if((txt[*i] & 0x80) == 0) { result = txt[*i]; (*i)++; } /*Real UTF-8 decode*/ else { /*2 bytes UTF-8 code*/ if((txt[*i] & 0xE0) == 0xC0) { result = (uint32_t)(txt[*i] & 0x1F) << 6; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += (txt[*i] & 0x3F); (*i)++; } /*3 bytes UTF-8 code*/ else if((txt[*i] & 0xF0) == 0xE0) { result = (uint32_t)(txt[*i] & 0x0F) << 12; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += (uint32_t)(txt[*i] & 0x3F) << 6; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += (txt[*i] & 0x3F); (*i)++; } /*4 bytes UTF-8 code*/ else if((txt[*i] & 0xF8) == 0xF0) { result = (uint32_t)(txt[*i] & 0x07) << 18; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += (uint32_t)(txt[*i] & 0x3F) << 12; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += (uint32_t)(txt[*i] & 0x3F) << 6; (*i)++; if((txt[*i] & 0xC0) != 0x80) return 0; /*Invalid UTF-8 code*/ result += txt[*i] & 0x3F; (*i)++; } else { (*i)++; /*Not UTF-8 char. Go the next.*/ } } return result; } /** * Get previous UTF-8 character form a string. * @param txt pointer to '\0' terminated string * @param i start byte index in 'txt' where to start. After the call it will point to the previous UTF-8 char in 'txt'. * @return the decoded Unicode character or 0 on invalid UTF-8 code */ static uint32_t lv_txt_utf8_prev(const char * txt, uint32_t * i) { uint8_t c_size; uint8_t cnt = 0; /*Try to find a !0 long UTF-8 char by stepping one character back*/ (*i)--; do { if(cnt >= 4) return 0; /*No UTF-8 char found before the initial*/ c_size = lv_txt_encoded_size(&txt[*i]); if(c_size == 0) { if(*i != 0)(*i)--; else return 0; } cnt++; } while(c_size == 0); uint32_t i_tmp = *i; uint32_t letter = lv_txt_encoded_next(txt, &i_tmp); /*Character found, get it*/ return letter; } /** * Convert a character index (in an UTF-8 text) to byte index. * E.g. in "AÁRT" index of 'R' is 2th char but start at byte 3 because 'Á' is 2 bytes long * @param txt a '\0' terminated UTF-8 string * @param utf8_id character index * @return byte index of the 'utf8_id'th letter */ static uint32_t lv_txt_utf8_get_byte_id(const char * txt, uint32_t utf8_id) { uint32_t i; uint32_t byte_cnt = 0; for(i = 0; i < utf8_id; i++) { byte_cnt += lv_txt_encoded_size(&txt[byte_cnt]); } return byte_cnt; } /** * Convert a byte index (in an UTF-8 text) to character index. * E.g. in "AÁRT" index of 'R' is 2th char but start at byte 3 because 'Á' is 2 bytes long * @param txt a '\0' terminated UTF-8 string * @param byte_id byte index * @return character index of the letter at 'byte_id'th position */ static uint32_t lv_txt_utf8_get_char_id(const char * txt, uint32_t byte_id) { uint32_t i = 0; uint32_t char_cnt = 0; while(i < byte_id) { lv_txt_encoded_next(txt, &i); /*'i' points to the next letter so use the prev. value*/ char_cnt++; } return char_cnt; } /** * Get the number of characters (and NOT bytes) in a string. Decode it with UTF-8 if enabled. * E.g.: "ÁBC" is 3 characters (but 4 bytes) * @param txt a '\0' terminated char string * @return number of characters */ static uint32_t lv_txt_utf8_get_length(const char * txt) { #if LV_TXT_UTF8 == 0 return strlen(txt); #else uint32_t len = 0; uint32_t i = 0; while(txt[i] != '\0') { lv_txt_encoded_next(txt, &i); len++; } return len; #endif } #else /** * Give the size of an UTF-8 coded character * @param str pointer to a character in a string * @return length of the UTF-8 character (1,2,3 or 4). O on invalid code */ static uint8_t lv_txt_ascii_size(const char * str) { return 1; } /** * Convert an Unicode letter to UTF-8. * @param letter_uni an Unicode letter * @return UTF-8 coded character in Little Endian to be compatible with C chars (e.g. 'Á', 'Ű') */ static uint32_t lv_txt_unicode_to_ascii(uint32_t letter_uni) { if(letter_uni < 128) return letter_uni; else return ' '; } /** * Convert wide characters to ASCII, however wide characters in ASCII range (e.g. 'A') are ASCII compatible by default. * So this function does nothing just returns with `c`. * @param c a character, e.g. 'A' * @return same as `c` */ static uint32_t lv_txt_ascii_conv_wc(uint32_t c) { return c; } /** * Decode an UTF-8 character from a string. * @param txt pointer to '\0' terminated string * @param i start byte index in 'txt' where to start. * After call it will point to the next UTF-8 char in 'txt'. * NULL to use txt[0] as index * @return the decoded Unicode character or 0 on invalid UTF-8 code */ static uint32_t lv_txt_ascii_next(const char * txt, uint32_t * i) { if(i == NULL) return txt[1]; /*Get the next char */ uint8_t letter = txt[*i] ; (*i)++; return letter; } /** * Get previous UTF-8 character form a string. * @param txt pointer to '\0' terminated string * @param i start byte index in 'txt' where to start. After the call it will point to the previous UTF-8 char in 'txt'. * @return the decoded Unicode character or 0 on invalid UTF-8 code */ static uint32_t lv_txt_ascii_prev(const char * txt, uint32_t * i) { if(i == NULL) return *(txt - 1); /*Get the prev. char */ (*i)--; uint8_t letter = txt[*i] ; return letter; } /** * Convert a character index (in an UTF-8 text) to byte index. * E.g. in "AÁRT" index of 'R' is 2th char but start at byte 3 because 'Á' is 2 bytes long * @param txt a '\0' terminated UTF-8 string * @param utf8_id character index * @return byte index of the 'utf8_id'th letter */ static uint32_t lv_txt_ascii_get_byte_id(const char * txt, uint32_t utf8_id) { return utf8_id; /*In Non encoded no difference*/ } /** * Convert a byte index (in an UTF-8 text) to character index. * E.g. in "AÁRT" index of 'R' is 2th char but start at byte 3 because 'Á' is 2 bytes long * @param txt a '\0' terminated UTF-8 string * @param byte_id byte index * @return character index of the letter at 'byte_id'th position */ static uint32_t lv_txt_ascii_get_char_id(const char * txt, uint32_t byte_id) { return byte_id; /*In Non encoded no difference*/ } /** * Get the number of characters (and NOT bytes) in a string. Decode it with UTF-8 if enabled. * E.g.: "ÁBC" is 3 characters (but 4 bytes) * @param txt a '\0' terminated char string * @return number of characters */ static uint32_t lv_txt_ascii_get_length(const char * txt) { return strlen(txt); } #endif /********************** * STATIC FUNCTIONS **********************/ /** * Test if char is break char or not (a text can broken here or not) * @param letter a letter * @return false: 'letter' is not break char */ static bool is_break_char(uint32_t letter) { uint8_t i; bool ret = false; /*Compare the letter to TXT_BREAK_CHARS*/ for(i = 0; LV_TXT_BREAK_CHARS[i] != '\0'; i++) { if(letter == (uint32_t)LV_TXT_BREAK_CHARS[i]) { ret = true; /*If match then it is break char*/ break; } } return ret; } ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_txt.h ================================================ /** * @file lv_text.h * */ #ifndef LV_TXT_H #define LV_TXT_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include "lv_area.h" #include "lv_font.h" #include "lv_area.h" /********************* * DEFINES *********************/ #define LV_TXT_COLOR_CMD "#" /********************** * TYPEDEFS **********************/ enum { LV_TXT_FLAG_NONE = 0x00, LV_TXT_FLAG_RECOLOR = 0x01, /*Enable parsing of recolor command*/ LV_TXT_FLAG_EXPAND = 0x02, /*Ignore width to avoid automatic word wrapping*/ LV_TXT_FLAG_CENTER = 0x04, /*Align the text to the middle*/ LV_TXT_FLAG_RIGHT = 0x08, /*Align the text to the right*/ }; typedef uint8_t lv_txt_flag_t; enum { LV_TXT_CMD_STATE_WAIT, /*Waiting for command*/ LV_TXT_CMD_STATE_PAR, /*Processing the parameter*/ LV_TXT_CMD_STATE_IN, /*Processing the command*/ }; typedef uint8_t lv_txt_cmd_state_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Get size of a text * @param size_res pointer to a 'point_t' variable to store the result * @param text pointer to a text * @param font pinter to font of the text * @param letter_space letter space of the text * @param line_space line space of the text * @param flags settings for the text from 'txt_flag_t' enum * @param max_width max with of the text (break the lines to fit this size) Set CORD_MAX to avoid line breaks */ void lv_txt_get_size(lv_point_t * size_res, const char * text, const lv_font_t * font, lv_coord_t letter_space, lv_coord_t line_space, lv_coord_t max_width, lv_txt_flag_t flag); /** * Get the next line of text. Check line length and break chars too. * @param txt a '\0' terminated string * @param font pointer to a font * @param letter_space letter space * @param max_width max with of the text (break the lines to fit this size) Set CORD_MAX to avoid line breaks * @param flags settings for the text from 'txt_flag_type' enum * @return the index of the first char of the new line (in byte index not letter index. With UTF-8 they are different) */ uint16_t lv_txt_get_next_line(const char * txt, const lv_font_t * font, lv_coord_t letter_space, lv_coord_t max_width, lv_txt_flag_t flag); /** * Give the length of a text with a given font * @param txt a '\0' terminate string * @param length length of 'txt' in byte count and not characters (Á is 1 character but 2 bytes in UTF-8) * @param font pointer to a font * @param letter_space letter space * @param flags settings for the text from 'txt_flag_t' enum * @return length of a char_num long text */ lv_coord_t lv_txt_get_width(const char * txt, uint16_t length, const lv_font_t * font, lv_coord_t letter_space, lv_txt_flag_t flag); /** * Check next character in a string and decide if te character is part of the command or not * @param state pointer to a txt_cmd_state_t variable which stores the current state of command processing * @param c the current character * @return true: the character is part of a command and should not be written, * false: the character should be written */ bool lv_txt_is_cmd(lv_txt_cmd_state_t * state, uint32_t c); /** * Insert a string into an other * @param txt_buf the original text (must be big enough for the result text) * @param pos position to insert (0: before the original text, 1: after the first char etc.) * @param ins_txt text to insert */ void lv_txt_ins(char * txt_buf, uint32_t pos, const char * ins_txt); /** * Delete a part of a string * @param txt string to modify * @param pos position where to start the deleting (0: before the first char, 1: after the first char etc.) * @param len number of characters to delete */ void lv_txt_cut(char * txt, uint32_t pos, uint32_t len); /*************************************************************** * GLOBAL FUNCTION POINTERS FOR CAHRACTER ENCODING INTERFACE ***************************************************************/ /** * Give the size of an encoded character * @param str pointer to a character in a string * @return length of the encoded character (1,2,3 ...). O in invalid */ extern uint8_t (*lv_txt_encoded_size)(const char *); /** * Convert an Unicode letter to encoded * @param letter_uni an Unicode letter * @return Encoded character in Little Endian to be compatible with C chars (e.g. 'Á', 'Ü') */ extern uint32_t (*lv_txt_unicode_to_encoded)(uint32_t ); /** * Convert a wide character, e.g. 'Á' little endian to be compatible with the encoded format. * @param c a wide character * @return `c` in the encoded format */ extern uint32_t (*lv_txt_encoded_conv_wc) (uint32_t c); /** * Decode the next encoded character from a string. * @param txt pointer to '\0' terminated string * @param i start index in 'txt' where to start. * After the call it will point to the next encoded char in 'txt'. * NULL to use txt[0] as index * @return the decoded Unicode character or 0 on invalid data code */ extern uint32_t (*lv_txt_encoded_next)(const char *, uint32_t * ); /** * Get the previous encoded character form a string. * @param txt pointer to '\0' terminated string * @param i_start index in 'txt' where to start. After the call it will point to the previous encoded char in 'txt'. * @return the decoded Unicode character or 0 on invalid data */ extern uint32_t (*lv_txt_encoded_prev)(const char *, uint32_t *); /** * Convert a letter index (in an the encoded text) to byte index. * E.g. in UTF-8 "AÁRT" index of 'R' is 2 but start at byte 3 because 'Á' is 2 bytes long * @param txt a '\0' terminated UTF-8 string * @param enc_id letter index * @return byte index of the 'enc_id'th letter */ extern uint32_t (*lv_txt_encoded_get_byte_id)(const char *, uint32_t); /** * Convert a byte index (in an encoded text) to character index. * E.g. in UTF-8 "AÁRT" index of 'R' is 2 but start at byte 3 because 'Á' is 2 bytes long * @param txt a '\0' terminated UTF-8 string * @param byte_id byte index * @return character index of the letter at 'byte_id'th position */ extern uint32_t (*lv_encoded_get_char_id)(const char *, uint32_t); /** * Get the number of characters (and NOT bytes) in a string. * E.g. in UTF-8 "ÁBC" is 3 characters (but 4 bytes) * @param txt a '\0' terminated char string * @return number of characters */ extern uint32_t (*lv_txt_get_encoded_length)(const char *); /********************** * MACROS **********************/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*USE_TXT*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_ufs.c ================================================ /** * @file lv_ufs.c * Implementation of RAM file system which do NOT support directories. * The API is compatible with the lv_fs_int module. */ /********************* * INCLUDES *********************/ #include "lv_ufs.h" #if USE_LV_FILESYSTEM #include "lv_ll.h" #include #include #include #include "lv_gc.h" #if defined(LV_GC_INCLUDE) # include LV_GC_INCLUDE #endif /* LV_ENABLE_GC */ /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_ufs_ent_t * lv_ufs_ent_get(const char * fn); static lv_ufs_ent_t * lv_ufs_ent_new(const char * fn); /********************** * STATIC VARIABLES **********************/ static bool inited = false; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a driver for ufs and initialize it. */ void lv_ufs_init(void) { lv_ll_init(&LV_GC_ROOT(_lv_file_ll), sizeof(lv_ufs_ent_t)); lv_fs_drv_t ufs_drv; memset(&ufs_drv, 0, sizeof(lv_fs_drv_t)); /*Initialization*/ ufs_drv.file_size = sizeof(lv_ufs_file_t); ufs_drv.rddir_size = sizeof(lv_ufs_dir_t); ufs_drv.letter = UFS_LETTER; ufs_drv.ready = lv_ufs_ready; ufs_drv.open = lv_ufs_open; ufs_drv.close = lv_ufs_close; ufs_drv.remove = lv_ufs_remove; ufs_drv.read = lv_ufs_read; ufs_drv.write = lv_ufs_write; ufs_drv.seek = lv_ufs_seek; ufs_drv.tell = lv_ufs_tell; ufs_drv.size = lv_ufs_size; ufs_drv.trunc = lv_ufs_trunc; ufs_drv.free = lv_ufs_free; ufs_drv.dir_open = lv_ufs_dir_open; ufs_drv.dir_read = lv_ufs_dir_read; ufs_drv.dir_close = lv_ufs_dir_close; lv_fs_add_drv(&ufs_drv); inited = true; } /** * Give the state of the ufs * @return true if ufs is initialized and can be used else false */ bool lv_ufs_ready(void) { return inited; } /** * Open a file in ufs * @param file_p pointer to a lv_ufs_file_t variable * @param fn name of the file. There are no directories so e.g. "myfile.txt" * @param mode element of 'fs_mode_t' enum or its 'OR' connection (e.g. FS_MODE_WR | FS_MODE_RD) * @return LV_FS_RES_OK: no error, the file is opened * any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_open(void * file_p, const char * fn, lv_fs_mode_t mode) { lv_ufs_file_t * fp = file_p; /*Convert type*/ lv_ufs_ent_t * ent = lv_ufs_ent_get(fn); fp->ent = NULL; /*If the file not exists ...*/ if(ent == NULL) { if((mode & LV_FS_MODE_WR) != 0) { /*Create the file if opened for write*/ ent = lv_ufs_ent_new(fn); if(ent == NULL) return LV_FS_RES_FULL; /*No space for the new file*/ } else { return LV_FS_RES_NOT_EX; /*Can not read not existing file*/ } } /*Can not write already opened and const data files*/ if((mode & LV_FS_MODE_WR) != 0) { if(ent->oc != 0) return LV_FS_RES_LOCKED; if(ent->const_data != 0) return LV_FS_RES_DENIED; } /*No error, the file can be opened*/ fp->ent = ent; fp->ar = mode & LV_FS_MODE_RD ? 1 : 0; fp->aw = mode & LV_FS_MODE_WR ? 1 : 0; fp->rwp = 0; ent->oc ++; return LV_FS_RES_OK; } /** * Create a file with a constant data * @param fn name of the file (directories are not supported) * @param const_p pointer to a constant data * @param len length of the data pointed by 'const_p' in bytes * @return LV_FS_RES_OK: no error, the file is read * any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_create_const(const char * fn, const void * const_p, uint32_t len) { lv_ufs_file_t file; lv_fs_res_t res; /*Error if the file already exists*/ res = lv_ufs_open(&file, fn, LV_FS_MODE_RD); if(res == LV_FS_RES_OK) { lv_ufs_close(&file); return LV_FS_RES_DENIED; } lv_ufs_close(&file); res = lv_ufs_open(&file, fn, LV_FS_MODE_WR); if(res != LV_FS_RES_OK) return res; lv_ufs_ent_t * ent = file.ent; if(ent->data_d != NULL) return LV_FS_RES_DENIED; ent->data_d = (void *) const_p; ent->size = len; ent->const_data = 1; res = lv_ufs_close(&file); if(res != LV_FS_RES_OK) return res; return LV_FS_RES_OK; } /** * Close an opened file * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open) * @return LV_FS_RES_OK: no error, the file is read * any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_close(void * file_p) { lv_ufs_file_t * fp = file_p; /*Convert type*/ if(fp->ent == NULL) return LV_FS_RES_OK; /*Decrement the Open counter*/ if(fp->ent->oc > 0) { fp->ent->oc--; } return LV_FS_RES_OK; } /** * Remove a file. The file can not be opened. * @param fn '\0' terminated string * @return LV_FS_RES_OK: no error, the file is removed * LV_FS_RES_DENIED: the file was opened, remove failed */ lv_fs_res_t lv_ufs_remove(const char * fn) { lv_ufs_ent_t * ent = lv_ufs_ent_get(fn); if(ent == NULL) return LV_FS_RES_DENIED; /*File not exists*/ /*Can not be deleted is opened*/ if(ent->oc != 0) return LV_FS_RES_DENIED; lv_ll_rem(&LV_GC_ROOT(_lv_file_ll), ent); lv_mem_free(ent->fn_d); ent->fn_d = NULL; if(ent->const_data == 0) { lv_mem_free(ent->data_d); ent->data_d = NULL; } lv_mem_free(ent); return LV_FS_RES_OK; } /** * Read data from an opened file * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open ) * @param buf pointer to a memory block where to store the read data * @param btr number of Bytes To Read * @param br the real number of read bytes (Byte Read) * @return LV_FS_RES_OK: no error, the file is read * any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_read(void * file_p, void * buf, uint32_t btr, uint32_t * br) { lv_ufs_file_t * fp = file_p; /*Convert type*/ lv_ufs_ent_t * ent = fp->ent; *br = 0; if(ent->data_d == NULL || ent->size == 0) { /*Don't read empty files*/ return LV_FS_RES_OK; } else if(fp->ar == 0) { /*The file is not opened for read*/ return LV_FS_RES_DENIED; } /*No error, read the file*/ if(fp->rwp + btr > ent->size) { /*Check too much bytes read*/ *br = ent->size - fp->rwp; } else { *br = btr; } /*Read the data*/ uint8_t * data8_p; if(ent->const_data == 0) { data8_p = (uint8_t *) ent->data_d; } else { data8_p = ent->data_d; } data8_p += fp->rwp; memcpy(buf, data8_p, *br); fp->rwp += *br; /*Refresh the read write pointer*/ return LV_FS_RES_OK; } /** * Write data to an opened file * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open) * @param buf pointer to a memory block which content will be written * @param btw the number Bytes To Write * @param bw The real number of written bytes (Byte Written) * @return LV_FS_RES_OK: no error, the file is read * any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_write(void * file_p, const void * buf, uint32_t btw, uint32_t * bw) { lv_ufs_file_t * fp = file_p; /*Convert type*/ *bw = 0; if(fp->aw == 0) return LV_FS_RES_DENIED; /*Not opened for write*/ lv_ufs_ent_t * ent = fp->ent; /*Reallocate data array if it necessary*/ uint32_t new_size = fp->rwp + btw; if(new_size > ent->size) { uint8_t * new_data = lv_mem_realloc(ent->data_d, new_size); lv_mem_assert(new_data); if(new_data == NULL) return LV_FS_RES_FULL; /*Cannot allocate the new memory*/ ent->data_d = new_data; ent->size = new_size; } /*Write the file*/ uint8_t * data8_p = (uint8_t *) ent->data_d; data8_p += fp->rwp; memcpy(data8_p, buf, btw); *bw = btw; fp->rwp += *bw; return LV_FS_RES_OK; } /** * Set the read write pointer. Also expand the file size if necessary. * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open ) * @param pos the new position of read write pointer * @return LV_FS_RES_OK: no error, the file is read * any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_seek(void * file_p, uint32_t pos) { lv_ufs_file_t * fp = file_p; /*Convert type*/ lv_ufs_ent_t * ent = fp->ent; /*Simply move the rwp before EOF*/ if(pos < ent->size) { fp->rwp = pos; } else { /*Expand the file size*/ if(fp->aw == 0) return LV_FS_RES_DENIED; /*Not opened for write*/ uint8_t * new_data = lv_mem_realloc(ent->data_d, pos); lv_mem_assert(new_data); if(new_data == NULL) return LV_FS_RES_FULL; /*Out of memory*/ ent->data_d = new_data; ent->size = pos; fp->rwp = pos; } return LV_FS_RES_OK; } /** * Give the position of the read write pointer * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open ) * @param pos_p pointer to to store the result * @return LV_FS_RES_OK: no error, the file is read * any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_tell(void * file_p, uint32_t * pos_p) { lv_ufs_file_t * fp = file_p; /*Convert type*/ *pos_p = fp->rwp; return LV_FS_RES_OK; } /** * Truncate the file size to the current position of the read write pointer * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open ) * @return LV_FS_RES_OK: no error, the file is read * any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_trunc(void * file_p) { lv_ufs_file_t * fp = file_p; /*Convert type*/ lv_ufs_ent_t * ent = fp->ent; if(fp->aw == 0) return LV_FS_RES_DENIED; /*Not opened for write*/ void * new_data = lv_mem_realloc(ent->data_d, fp->rwp); lv_mem_assert(new_data); if(new_data == NULL) return LV_FS_RES_FULL; /*Out of memory*/ ent->data_d = new_data; ent->size = fp->rwp; return LV_FS_RES_OK; } /** * Give the size of the file in bytes * @param file_p file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open ) * @param size_p pointer to store the size * @return LV_FS_RES_OK: no error, the file is read * any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_size(void * file_p, uint32_t * size_p) { lv_ufs_file_t * fp = file_p; /*Convert type*/ lv_ufs_ent_t * ent = fp->ent; *size_p = ent->size; return LV_FS_RES_OK; } /** * Initialize a lv_ufs_read_dir_t variable to directory reading * @param rddir_p pointer to a 'ufs_dir_t' variable * @param path uFS doesn't support folders so it has to be "" * @return LV_FS_RES_OK or any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_dir_open(void * rddir_p, const char * path) { lv_ufs_dir_t * lv_ufs_rddir_p = rddir_p; lv_ufs_rddir_p->last_ent = NULL; if(path[0] != '\0') return LV_FS_RES_NOT_EX; /*Must be "" */ else return LV_FS_RES_OK; } /** * Read the next file name * @param dir_p pointer to an initialized 'ufs_dir_t' variable * @param fn pointer to buffer to sore the file name * @return LV_FS_RES_OK or any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_dir_read(void * dir_p, char * fn) { lv_ufs_dir_t * ufs_dir_p = dir_p; if(ufs_dir_p->last_ent == NULL) { ufs_dir_p->last_ent = lv_ll_get_head(&LV_GC_ROOT(_lv_file_ll)); } else { ufs_dir_p->last_ent = lv_ll_get_next(&LV_GC_ROOT(_lv_file_ll), ufs_dir_p->last_ent); } if(ufs_dir_p->last_ent != NULL) { strcpy(fn, ufs_dir_p->last_ent->fn_d); } else { fn[0] = '\0'; } return LV_FS_RES_OK; } /** * Close the directory reading * @param rddir_p pointer to an initialized 'ufs_dir_t' variable * @return LV_FS_RES_OK or any error from lv__fs_res_t enum */ lv_fs_res_t lv_ufs_dir_close(void * rddir_p) { (void)rddir_p; return LV_FS_RES_OK; } /** * Give the size of a drive * @param total_p pointer to store the total size [kB] * @param free_p pointer to store the free site [kB] * @return LV_FS_RES_OK or any error from 'lv_fs_res_t' */ lv_fs_res_t lv_ufs_free(uint32_t * total_p, uint32_t * free_p) { #if LV_MEM_CUSTOM == 0 lv_mem_monitor_t mon; lv_mem_monitor(&mon); *total_p = LV_MEM_SIZE >> 10; /*Convert bytes to kB*/ *free_p = mon.free_size >> 10; #else *free_p = 0; #endif return LV_FS_RES_OK; } /********************** * STATIC FUNCTIONS **********************/ /** * Gives the lv_ufs_entry from a filename * @param fn filename ('\0' terminated string) * @return pointer to the dynamically allocated entry with 'fn' filename. * NULL if no entry found with that name. */ static lv_ufs_ent_t * lv_ufs_ent_get(const char * fn) { lv_ufs_ent_t * fp; LL_READ(LV_GC_ROOT(_lv_file_ll), fp) { if(strcmp(fp->fn_d, fn) == 0) { return fp; } } return NULL; } /** * Create a new entry with 'fn' filename * @param fn filename ('\0' terminated string) * @return pointer to the dynamically allocated new entry. * NULL if no space for the entry. */ static lv_ufs_ent_t * lv_ufs_ent_new(const char * fn) { lv_ufs_ent_t * new_ent = NULL; new_ent = lv_ll_ins_head(&LV_GC_ROOT(_lv_file_ll)); /*Create a new file*/ lv_mem_assert(new_ent); if(new_ent == NULL) return NULL; new_ent->fn_d = lv_mem_alloc(strlen(fn) + 1); /*Save the name*/ lv_mem_assert(new_ent->fn_d); if(new_ent->fn_d == NULL) return NULL; strcpy(new_ent->fn_d, fn); new_ent->data_d = NULL; new_ent->size = 0; new_ent->oc = 0; new_ent->const_data = 0; return new_ent; } #endif /*USE_LV_FILESYSTEM*/ ================================================ FILE: bdk/libs/lvgl/lv_misc/lv_ufs.h ================================================ /** * @file lv_ufs.h * Implementation of RAM file system which do NOT support directories. * The API is compatible with the lv_fs_int module. */ #ifndef LV_UFS_H #define LV_UFS_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_FILESYSTEM #include "lv_fs.h" #include "lv_mem.h" /********************* * DEFINES *********************/ #define UFS_LETTER 'U' /********************** * TYPEDEFS **********************/ /*Description of a file entry */ typedef struct { char * fn_d; void * data_d; uint32_t size; /*Data length in bytes*/ uint16_t oc; /*Open Count*/ uint8_t const_data :1; } lv_ufs_ent_t; /*File descriptor, used to handle opening an entry more times simultaneously Contains unique informations about the specific opening*/ typedef struct { lv_ufs_ent_t* ent; /*Pointer to the entry*/ uint32_t rwp; /*Read Write Pointer*/ uint8_t ar :1; /*1: Access for read is enabled */ uint8_t aw :1; /*1: Access for write is enabled */ } lv_ufs_file_t; /* Read directory descriptor. * It is used to to iterate through the entries in a directory*/ typedef struct { lv_ufs_ent_t * last_ent; } lv_ufs_dir_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a driver for ufs and initialize it. */ void lv_ufs_init(void); /** * Give the state of the ufs * @return true if ufs is initialized and can be used else false */ bool lv_ufs_ready(void); /** * Open a file in ufs * @param file_p pointer to a lv_ufs_file_t variable * @param fn name of the file. There are no directories so e.g. "myfile.txt" * @param mode element of 'fs_mode_t' enum or its 'OR' connection (e.g. FS_MODE_WR | FS_MODE_RD) * @return LV_FS_RES_OK: no error, the file is opened * any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_open (void * file_p, const char * fn, lv_fs_mode_t mode); /** * Create a file with a constant data * @param fn name of the file (directories are not supported) * @param const_p pointer to a constant data * @param len length of the data pointed by 'const_p' in bytes * @return LV_FS_RES_OK: no error, the file is read * any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_create_const(const char * fn, const void * const_p, uint32_t len); /** * Close an opened file * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open) * @return LV_FS_RES_OK: no error, the file is read * any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_close (void * file_p); /** * Remove a file. The file can not be opened. * @param fn '\0' terminated string * @return LV_FS_RES_OK: no error, the file is removed * LV_FS_RES_DENIED: the file was opened, remove failed */ lv_fs_res_t lv_ufs_remove(const char * fn); /** * Read data from an opened file * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open ) * @param buf pointer to a memory block where to store the read data * @param btr number of Bytes To Read * @param br the real number of read bytes (Byte Read) * @return LV_FS_RES_OK: no error, the file is read * any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_read (void * file_p, void * buf, uint32_t btr, uint32_t * br); /** * Write data to an opened file * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open) * @param buf pointer to a memory block which content will be written * @param btw the number Bytes To Write * @param bw The real number of written bytes (Byte Written) * @return LV_FS_RES_OK: no error, the file is read * any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_write (void * file_p, const void * buf, uint32_t btw, uint32_t * bw); /** * Set the read write pointer. Also expand the file size if necessary. * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open ) * @param pos the new position of read write pointer * @return LV_FS_RES_OK: no error, the file is read * any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_seek (void * file_p, uint32_t pos); /** * Give the position of the read write pointer * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open ) * @param pos_p pointer to to store the result * @return LV_FS_RES_OK: no error, the file is read * any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_tell (void * file_p, uint32_t * pos_p); /** * Truncate the file size to the current position of the read write pointer * @param file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open ) * @return LV_FS_RES_OK: no error, the file is read * any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_trunc (void * file_p); /** * Give the size of the file in bytes * @param file_p file_p pointer to an 'ufs_file_t' variable. (opened with lv_ufs_open ) * @param size_p pointer to store the size * @return LV_FS_RES_OK: no error, the file is read * any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_size (void * file_p, uint32_t * size_p); /** * Initialize a lv_ufs_read_dir_t variable to directory reading * @param rddir_p pointer to a 'ufs_read_dir_t' variable * @param path uFS doesn't support folders so it has to be "" * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_dir_open(void * rddir_p, const char * path); /** * Read the next file name * @param dir_p pointer to an initialized 'ufs_read_dir_t' variable * @param fn pointer to buffer to sore the file name * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_dir_read(void * dir_p, char * fn); /** * Close the directory reading * @param rddir_p pointer to an initialized 'ufs_read_dir_t' variable * @return LV_FS_RES_OK or any error from lv_fs_res_t enum */ lv_fs_res_t lv_ufs_dir_close(void * rddir_p); /** * Give the size of a drive * @param total_p pointer to store the total size [kB] * @param free_p pointer to store the free site [kB] * @return LV_FS_RES_OK or any error from 'fs_res_t' */ lv_fs_res_t lv_ufs_free (uint32_t * total_p, uint32_t * free_p); /********************** * MACROS **********************/ #endif /*USE_LV_FILESYSTEM*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_arc.c ================================================ /** * @file lv_arc.c * */ /********************* * INCLUDES *********************/ #include "lv_arc.h" #if USE_LV_ARC != 0 #include "../lv_misc/lv_math.h" #include "../lv_draw/lv_draw_arc.h" #include "../lv_themes/lv_theme.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_arc_design(lv_obj_t * arc, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_arc_signal(lv_obj_t * arc, lv_signal_t sign, void * param); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_design_func_t ancestor_design; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a arc object * @param par pointer to an object, it will be the parent of the new arc * @param copy pointer to a arc object, if not NULL then the new object will be copied from it * @return pointer to the created arc */ lv_obj_t * lv_arc_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("arc create started"); /*Create the ancestor of arc*/ lv_obj_t * new_arc = lv_obj_create(par, copy); lv_mem_assert(new_arc); if(new_arc == NULL) return NULL; /*Allocate the arc type specific extended data*/ lv_arc_ext_t * ext = lv_obj_allocate_ext_attr(new_arc, sizeof(lv_arc_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_arc); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_arc); /*Initialize the allocated 'ext' */ ext->angle_start = 45; ext->angle_end = 315; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_arc, lv_arc_signal); lv_obj_set_design_func(new_arc, lv_arc_design); /*Init the new arc arc*/ if(copy == NULL) { /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_arc_set_style(new_arc, LV_ARC_STYLE_MAIN, th->arc); } else { lv_arc_set_style(new_arc, LV_ARC_STYLE_MAIN, &lv_style_plain_color); } } /*Copy an existing arc*/ else { lv_arc_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->angle_start = copy_ext->angle_start; ext->angle_end = copy_ext->angle_end; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_arc); } LV_LOG_INFO("arc created"); return new_arc; } /*====================== * Add/remove functions *=====================*/ /* * New object specific "add" or "remove" functions come here */ /*===================== * Setter functions *====================*/ /** * Set the start and end angles of an arc. 0 deg: bottom, 90 deg: right etc. * @param arc pointer to an arc object * @param start the start angle [0..360] * @param end the end angle [0..360] */ void lv_arc_set_angles(lv_obj_t * arc, uint16_t start, uint16_t end) { lv_arc_ext_t * ext = lv_obj_get_ext_attr(arc); if(start > 360) start = 360; if(end > 360) end = 360; ext->angle_start = start; ext->angle_end = end; lv_obj_invalidate(arc); } /** * Set a style of a arc. * @param arc pointer to arc object * @param type which style should be set * @param style pointer to a style * */ void lv_arc_set_style(lv_obj_t * arc, lv_arc_style_t type, lv_style_t * style) { switch(type) { case LV_ARC_STYLE_MAIN: lv_obj_set_style(arc, style); break; } } /*===================== * Getter functions *====================*/ /** * Get the start angle of an arc. * @param arc pointer to an arc object * @return the start angle [0..360] */ uint16_t lv_arc_get_angle_start(lv_obj_t * arc) { lv_arc_ext_t * ext = lv_obj_get_ext_attr(arc); return ext->angle_start; } /** * Get the end angle of an arc. * @param arc pointer to an arc object * @return the end angle [0..360] */ uint16_t lv_arc_get_angle_end(lv_obj_t * arc) { lv_arc_ext_t * ext = lv_obj_get_ext_attr(arc); return ext->angle_end; } /** * Get style of a arc. * @param arc pointer to arc object * @param type which style should be get * @return style pointer to the style * */ lv_style_t * lv_arc_get_style(const lv_obj_t * arc, lv_arc_style_t type) { lv_style_t * style = NULL; switch(type) { case LV_ARC_STYLE_MAIN: style = lv_obj_get_style(arc); break; default: style = NULL; break; } return style; } /*===================== * Other functions *====================*/ /* * New object specific "other" functions come here */ /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the arcs * @param arc pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_arc_design(lv_obj_t * arc, const lv_area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { return false; } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { lv_arc_ext_t * ext = lv_obj_get_ext_attr(arc); lv_style_t * style = lv_arc_get_style(arc, LV_ARC_STYLE_MAIN); lv_coord_t r = (LV_MATH_MIN(lv_obj_get_width(arc), lv_obj_get_height(arc))) / 2; lv_coord_t x = arc->coords.x1 + lv_obj_get_width(arc) / 2; lv_coord_t y = arc->coords.y1 + lv_obj_get_height(arc) / 2; lv_opa_t opa_scale = lv_obj_get_opa_scale(arc); lv_draw_arc(x, y, r, mask, ext->angle_start, ext->angle_end, style, opa_scale); /*Draw circle on the ends if enabled */ if(style->line.rounded) { lv_coord_t thick_half = style->line.width / 2; lv_coord_t cir_x = ((r - thick_half) * lv_trigo_sin(ext->angle_start) >> LV_TRIGO_SHIFT); lv_coord_t cir_y = ((r - thick_half) * lv_trigo_sin(ext->angle_start + 90) >> LV_TRIGO_SHIFT); lv_style_t cir_style; lv_style_copy(&cir_style, &lv_style_plain); cir_style.body.grad_color = style->line.color; cir_style.body.main_color = cir_style.body.grad_color; cir_style.body.radius = LV_RADIUS_CIRCLE; lv_area_t cir_area; cir_area.x1 = cir_x + x - thick_half; cir_area.y1 = cir_y + y - thick_half; cir_area.x2 = cir_x + x + thick_half; cir_area.y2 = cir_y + y + thick_half; lv_draw_rect(&cir_area, mask, &cir_style, opa_scale); cir_x = ((r - thick_half) * lv_trigo_sin(ext->angle_end) >> LV_TRIGO_SHIFT); cir_y = ((r - thick_half) * lv_trigo_sin(ext->angle_end + 90) >> LV_TRIGO_SHIFT); cir_area.x1 = cir_x + x - thick_half; cir_area.y1 = cir_y + y - thick_half; cir_area.x2 = cir_x + x + thick_half; cir_area.y2 = cir_y + y + thick_half; lv_draw_rect(&cir_area, mask, &cir_style, opa_scale); } } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { } return true; } /** * Signal function of the arc * @param arc pointer to a arc object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_arc_signal(lv_obj_t * arc, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(arc, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_CLEANUP) { /*Nothing to cleanup. (No dynamically allocated memory in 'ext')*/ } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_arc"; } return res; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_arc.h ================================================ /** * @file lv_arc.h * */ #ifndef LV_ARC_H #define LV_ARC_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_ARC != 0 #include "../lv_core/lv_obj.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of arc*/ typedef struct { /*New data for this type */ lv_coord_t angle_start; lv_coord_t angle_end; } lv_arc_ext_t; /*Styles*/ enum { LV_ARC_STYLE_MAIN, }; typedef uint8_t lv_arc_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a arc objects * @param par pointer to an object, it will be the parent of the new arc * @param copy pointer to a arc object, if not NULL then the new object will be copied from it * @return pointer to the created arc */ lv_obj_t * lv_arc_create(lv_obj_t * par, const lv_obj_t * copy); /*====================== * Add/remove functions *=====================*/ /*===================== * Setter functions *====================*/ /** * Set the start and end angles of an arc. 0 deg: bottom, 90 deg: right etc. * @param arc pointer to an arc object * @param start the start angle [0..360] * @param end the end angle [0..360] */ void lv_arc_set_angles(lv_obj_t * arc, uint16_t start, uint16_t end); /** * Set a style of a arc. * @param arc pointer to arc object * @param type which style should be set * @param style pointer to a style * */ void lv_arc_set_style(lv_obj_t * arc, lv_arc_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Get the start angle of an arc. * @param arc pointer to an arc object * @return the start angle [0..360] */ uint16_t lv_arc_get_angle_start(lv_obj_t * arc); /** * Get the end angle of an arc. * @param arc pointer to an arc object * @return the end angle [0..360] */ uint16_t lv_arc_get_angle_end(lv_obj_t * arc); /** * Get style of a arc. * @param arc pointer to arc object * @param type which style should be get * @return style pointer to the style * */ lv_style_t * lv_arc_get_style(const lv_obj_t * arc, lv_arc_style_t type); /*===================== * Other functions *====================*/ /********************** * MACROS **********************/ #endif /*USE_LV_ARC*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_ARC_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_bar.c ================================================ /** * @file lv_bar.c * */ /********************* * INCLUDES *********************/ #include "lv_bar.h" #if USE_LV_BAR != 0 #include "../lv_draw/lv_draw.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_anim.h" #include /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_bar_design(lv_obj_t * bar, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_bar_signal(lv_obj_t * bar, lv_signal_t sign, void * param); /********************** * STATIC VARIABLES **********************/ static lv_design_func_t ancestor_design_f; static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a bar objects * @param par pointer to an object, it will be the parent of the new bar * @param copy pointer to a bar object, if not NULL then the new object will be copied from it * @return pointer to the created bar */ lv_obj_t * lv_bar_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("lv_bar create started"); /*Create the ancestor basic object*/ lv_obj_t * new_bar = lv_obj_create(par, copy); lv_mem_assert(new_bar); if(new_bar == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_bar); if(ancestor_design_f == NULL) ancestor_design_f = lv_obj_get_design_func(new_bar); /*Allocate the object type specific extended data*/ lv_bar_ext_t * ext = lv_obj_allocate_ext_attr(new_bar, sizeof(lv_bar_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->min_value = 0; ext->max_value = 100; ext->cur_value = 0; ext->sym = 0; ext->style_indic = &lv_style_pretty_color; lv_obj_set_signal_func(new_bar, lv_bar_signal); lv_obj_set_design_func(new_bar, lv_bar_design); /*Init the new bar object*/ if(copy == NULL) { lv_obj_set_click(new_bar, false); lv_obj_set_size(new_bar, LV_DPI * 2, LV_DPI / 3); lv_bar_set_value(new_bar, ext->cur_value); lv_theme_t * th = lv_theme_get_current(); if(th) { lv_bar_set_style(new_bar, LV_BAR_STYLE_BG, th->bar.bg); lv_bar_set_style(new_bar, LV_BAR_STYLE_INDIC, th->bar.indic); } else { lv_obj_set_style(new_bar, &lv_style_pretty); } } else { lv_bar_ext_t * ext_copy = lv_obj_get_ext_attr(copy); ext->min_value = ext_copy->min_value; ext->max_value = ext_copy->max_value; ext->cur_value = ext_copy->cur_value; ext->style_indic = ext_copy->style_indic; ext->sym = ext_copy->sym; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_bar); lv_bar_set_value(new_bar, ext->cur_value); } LV_LOG_INFO("bar created"); return new_bar; } /*===================== * Setter functions *====================*/ /** * Set a new value on the bar * @param bar pointer to a bar object * @param value new value */ void lv_bar_set_value(lv_obj_t * bar, int16_t value) { lv_bar_ext_t * ext = lv_obj_get_ext_attr(bar); if(ext->cur_value == value) return; ext->cur_value = value > ext->max_value ? ext->max_value : value; ext->cur_value = ext->cur_value < ext->min_value ? ext->min_value : ext->cur_value; lv_obj_invalidate(bar); } #if USE_LV_ANIMATION /** * Set a new value with animation on the bar * @param bar pointer to a bar object * @param value new value * @param anim_time animation time in milliseconds */ void lv_bar_set_value_anim(lv_obj_t * bar, int16_t value, uint16_t anim_time) { lv_bar_ext_t * ext = lv_obj_get_ext_attr(bar); if(ext->cur_value == value) return; int16_t new_value; new_value = value > ext->max_value ? ext->max_value : value; new_value = new_value < ext->min_value ? ext->min_value : new_value; lv_anim_t a; a.var = bar; a.start = ext->cur_value; a.end = new_value; a.fp = (lv_anim_fp_t)lv_bar_set_value; a.path = lv_anim_path_linear; a.end_cb = NULL; a.act_time = 0; a.time = anim_time; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); } #endif /** * Set minimum and the maximum values of a bar * @param bar pointer to the bar object * @param min minimum value * @param max maximum value */ void lv_bar_set_range(lv_obj_t * bar, int16_t min, int16_t max) { lv_bar_ext_t * ext = lv_obj_get_ext_attr(bar); if(ext->min_value == min && ext->max_value == max) return; ext->max_value = max; ext->min_value = min; if(ext->cur_value > max) { ext->cur_value = max; lv_bar_set_value(bar, ext->cur_value); } if(ext->cur_value < min) { ext->cur_value = min; lv_bar_set_value(bar, ext->cur_value); } lv_obj_invalidate(bar); } /** * Make the bar symmetric to zero. The indicator will grow from zero instead of the minimum position. * @param bar pointer to a bar object * @param en true: enable disable symmetric behavior; false: disable */ void lv_bar_set_sym(lv_obj_t * bar, bool en) { lv_bar_ext_t * ext = lv_obj_get_ext_attr(bar); ext->sym = en ? 1 : 0; } /** * Set a style of a bar * @param bar pointer to a bar object * @param type which style should be set * @param style pointer to a style */ void lv_bar_set_style(lv_obj_t * bar, lv_bar_style_t type, lv_style_t * style) { lv_bar_ext_t * ext = lv_obj_get_ext_attr(bar); switch(type) { case LV_BAR_STYLE_BG: lv_obj_set_style(bar, style); break; case LV_BAR_STYLE_INDIC: ext->style_indic = style; lv_obj_refresh_ext_size(bar); break; } } /*===================== * Getter functions *====================*/ /** * Get the value of a bar * @param bar pointer to a bar object * @return the value of the bar */ int16_t lv_bar_get_value(const lv_obj_t * bar) { lv_bar_ext_t * ext = lv_obj_get_ext_attr(bar); return ext->cur_value; } /** * Get the minimum value of a bar * @param bar pointer to a bar object * @return the minimum value of the bar */ int16_t lv_bar_get_min_value(const lv_obj_t * bar) { lv_bar_ext_t * ext = lv_obj_get_ext_attr(bar); return ext->min_value; } /** * Get the maximum value of a bar * @param bar pointer to a bar object * @return the maximum value of the bar */ int16_t lv_bar_get_max_value(const lv_obj_t * bar) { lv_bar_ext_t * ext = lv_obj_get_ext_attr(bar); return ext->max_value; } /** * Get whether the bar is symmetric or not. * @param bar pointer to a bar object * @return true: symmetric is enabled; false: disable */ bool lv_bar_get_sym(lv_obj_t * bar) { lv_bar_ext_t * ext = lv_obj_get_ext_attr(bar); return ext->sym ? true : false; } /** * Get a style of a bar * @param bar pointer to a bar object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_bar_get_style(const lv_obj_t * bar, lv_bar_style_t type) { lv_style_t * style = NULL; lv_bar_ext_t * ext = lv_obj_get_ext_attr(bar); switch(type) { case LV_BAR_STYLE_BG: style = lv_obj_get_style(bar); break; case LV_BAR_STYLE_INDIC: style = ext->style_indic; break; default: style = NULL; break; } return style; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the bars * @param bar pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_bar_design(lv_obj_t * bar, const lv_area_t * mask, lv_design_mode_t mode) { if(mode == LV_DESIGN_COVER_CHK) { /*Return false if the object is not covers the mask area*/ return ancestor_design_f(bar, mask, mode); } else if(mode == LV_DESIGN_DRAW_MAIN) { lv_opa_t opa_scale = lv_obj_get_opa_scale(bar); #if USE_LV_GROUP == 0 ancestor_design_f(bar, mask, mode); #else /* Draw the borders later if the bar is focused. * At value = 100% the indicator can cover to whole background and the focused style won't be visible*/ if(lv_obj_is_focused(bar)) { lv_style_t * style_bg = lv_bar_get_style(bar, LV_BAR_STYLE_BG); lv_style_t style_tmp; lv_style_copy(&style_tmp, style_bg); style_tmp.body.border.width = 0; lv_draw_rect(&bar->coords, mask, &style_tmp, opa_scale); } else { ancestor_design_f(bar, mask, mode); } #endif lv_bar_ext_t * ext = lv_obj_get_ext_attr(bar); if(ext->cur_value != ext->min_value || ext->sym) { lv_style_t * style_indic = lv_bar_get_style(bar, LV_BAR_STYLE_INDIC); lv_area_t indic_area; lv_area_copy(&indic_area, &bar->coords); indic_area.x1 += style_indic->body.padding.hor; indic_area.x2 -= style_indic->body.padding.hor; indic_area.y1 += style_indic->body.padding.ver; indic_area.y2 -= style_indic->body.padding.ver; lv_coord_t w = lv_area_get_width(&indic_area); lv_coord_t h = lv_area_get_height(&indic_area); if(w >= h) { /*Horizontal*/ indic_area.x2 = (int32_t)((int32_t)w * (ext->cur_value - ext->min_value)) / (ext->max_value - ext->min_value); indic_area.x2 = indic_area.x1 + indic_area.x2 - 1; if(ext->sym && ext->min_value < 0 && ext->max_value > 0) { /*Calculate the coordinate of the zero point*/ lv_coord_t zero; zero = indic_area.x1 + (-ext->min_value * w) / (ext->max_value - ext->min_value); if(indic_area.x2 > zero) indic_area.x1 = zero; else { indic_area.x1 = indic_area.x2; indic_area.x2 = zero; } } } else { indic_area.y1 = (int32_t)((int32_t)h * (ext->cur_value - ext->min_value)) / (ext->max_value - ext->min_value); indic_area.y1 = indic_area.y2 - indic_area.y1 + 1; if(ext->sym && ext->min_value < 0 && ext->max_value > 0) { /*Calculate the coordinate of the zero point*/ lv_coord_t zero; zero = indic_area.y2 - (-ext->min_value * h) / (ext->max_value - ext->min_value); if(indic_area.y1 < zero) indic_area.y2 = zero; else { indic_area.y2 = indic_area.y1; indic_area.y1 = zero; } } } /*Draw the indicator*/ lv_draw_rect(&indic_area, mask, style_indic, opa_scale); } } else if(mode == LV_DESIGN_DRAW_POST) { #if USE_LV_GROUP /*Draw the border*/ if(lv_obj_is_focused(bar)) { lv_opa_t opa_scale = lv_obj_get_opa_scale(bar); lv_style_t * style_bg = lv_bar_get_style(bar, LV_BAR_STYLE_BG); lv_style_t style_tmp; lv_style_copy(&style_tmp, style_bg); style_tmp.body.empty = 1; style_tmp.body.shadow.width = 0; lv_draw_rect(&bar->coords, mask, &style_tmp, opa_scale); } #endif } return true; } /** * Signal function of the bar * @param bar pointer to a bar object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_bar_signal(lv_obj_t * bar, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(bar, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_REFR_EXT_SIZE) { lv_style_t * style_indic = lv_bar_get_style(bar, LV_BAR_STYLE_INDIC); if(style_indic->body.shadow.width > bar->ext_size) bar->ext_size = style_indic->body.shadow.width; } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_bar"; } return res; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_bar.h ================================================ /** * @file lv_bar.h * */ #ifndef LV_BAR_H #define LV_BAR_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_BAR != 0 #include "../lv_core/lv_obj.h" #include "lv_cont.h" #include "lv_btn.h" #include "lv_label.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of bar*/ typedef struct { /*No inherited ext*/ /*Ext. of ancestor*/ /*New data for this type */ int16_t cur_value; /*Current value of the bar*/ int16_t min_value; /*Minimum value of the bar*/ int16_t max_value; /*Maximum value of the bar*/ uint8_t sym :1; /*Symmetric: means the center is around zero value*/ lv_style_t *style_indic; /*Style of the indicator*/ } lv_bar_ext_t; enum { LV_BAR_STYLE_BG, LV_BAR_STYLE_INDIC, }; typedef uint8_t lv_bar_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a bar objects * @param par pointer to an object, it will be the parent of the new bar * @param copy pointer to a bar object, if not NULL then the new object will be copied from it * @return pointer to the created bar */ lv_obj_t * lv_bar_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set a new value on the bar * @param bar pointer to a bar object * @param value new value */ void lv_bar_set_value(lv_obj_t * bar, int16_t value); /** * Set a new value with animation on the bar * @param bar pointer to a bar object * @param value new value * @param anim_time animation time in milliseconds */ void lv_bar_set_value_anim(lv_obj_t * bar, int16_t value, uint16_t anim_time); /** * Set minimum and the maximum values of a bar * @param bar pointer to the bar object * @param min minimum value * @param max maximum value */ void lv_bar_set_range(lv_obj_t * bar, int16_t min, int16_t max); /** * Make the bar symmetric to zero. The indicator will grow from zero instead of the minimum position. * @param bar pointer to a bar object * @param en true: enable disable symmetric behavior; false: disable */ void lv_bar_set_sym(lv_obj_t * bar, bool en); /** * Set a style of a bar * @param bar pointer to a bar object * @param type which style should be set * @param style pointer to a style */ void lv_bar_set_style(lv_obj_t *bar, lv_bar_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Get the value of a bar * @param bar pointer to a bar object * @return the value of the bar */ int16_t lv_bar_get_value(const lv_obj_t * bar); /** * Get the minimum value of a bar * @param bar pointer to a bar object * @return the minimum value of the bar */ int16_t lv_bar_get_min_value(const lv_obj_t * bar); /** * Get the maximum value of a bar * @param bar pointer to a bar object * @return the maximum value of the bar */ int16_t lv_bar_get_max_value(const lv_obj_t * bar); /** * Get whether the bar is symmetric or not. * @param bar pointer to a bar object * @return true: symmetric is enabled; false: disable */ bool lv_bar_get_sym(lv_obj_t * bar); /** * Get a style of a bar * @param bar pointer to a bar object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_bar_get_style(const lv_obj_t *bar, lv_bar_style_t type); /********************** * MACROS **********************/ #endif /*USE_LV_BAR*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_BAR_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_btn.c ================================================ /** * @file lv_btn.c * */ /********************* * INCLUDES *********************/ #include "lv_btn.h" #if USE_LV_BTN != 0 #include #include "../lv_core/lv_group.h" #include "../lv_draw/lv_draw.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_area.h" #include "../lv_misc/lv_color.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ #define LV_BTN_INK_VALUE_MAX 256 #define LV_BTN_INK_VALUE_MAX_SHIFT 8 /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_btn_design(lv_obj_t * btn, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_btn_signal(lv_obj_t * btn, lv_signal_t sign, void * param); #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT static void lv_btn_ink_effect_anim(lv_obj_t * btn, int32_t val); static void lv_btn_ink_effect_anim_ready(void * p); #endif /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_design_func_t ancestor_design; #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT static lv_coord_t ink_act_value; static lv_obj_t * ink_obj; static lv_btn_state_t ink_bg_state; static lv_btn_state_t ink_top_state; static bool ink_ready; static bool ink_playback; static lv_point_t ink_point; #endif /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a button objects * @param par pointer to an object, it will be the parent of the new button * @param copy pointer to a button object, if not NULL then the new object will be copied from it * @return pointer to the created button */ lv_obj_t * lv_btn_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("button create started"); lv_obj_t * new_btn; new_btn = lv_cont_create(par, copy); lv_mem_assert(new_btn); if(new_btn == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_btn); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_btn); /*Allocate the extended data*/ lv_btn_ext_t * ext = lv_obj_allocate_ext_attr(new_btn, sizeof(lv_btn_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->state = LV_BTN_STATE_REL; ext->actions[LV_BTN_ACTION_PR] = NULL; ext->actions[LV_BTN_ACTION_CLICK] = NULL; ext->actions[LV_BTN_ACTION_LONG_PR] = NULL; ext->actions[LV_BTN_ACTION_LONG_PR_REPEAT] = NULL; ext->styles[LV_BTN_STATE_REL] = &lv_style_btn_rel; ext->styles[LV_BTN_STATE_PR] = &lv_style_btn_pr; ext->styles[LV_BTN_STATE_TGL_REL] = &lv_style_btn_tgl_rel; ext->styles[LV_BTN_STATE_TGL_PR] = &lv_style_btn_tgl_pr; ext->styles[LV_BTN_STATE_INA] = &lv_style_btn_ina; ext->long_pr_action_executed = 0; ext->toggle = 0; ext->idx = 0; #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT ext->ink_in_time = 0; ext->ink_wait_time = 0; ext->ink_out_time = 0; #endif lv_obj_set_signal_func(new_btn, lv_btn_signal); lv_obj_set_design_func(new_btn, lv_btn_design); /*If no copy do the basic initialization*/ if(copy == NULL) { /*Set layout if the button is not a screen*/ if(par != NULL) { lv_btn_set_layout(new_btn, LV_LAYOUT_CENTER); } lv_obj_set_click(new_btn, true); /*Be sure the button is clickable*/ /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_btn_set_style(new_btn, LV_BTN_STYLE_REL, th->btn.rel); lv_btn_set_style(new_btn, LV_BTN_STYLE_PR, th->btn.pr); lv_btn_set_style(new_btn, LV_BTN_STYLE_TGL_REL, th->btn.tgl_rel); lv_btn_set_style(new_btn, LV_BTN_STYLE_TGL_PR, th->btn.tgl_pr); lv_btn_set_style(new_btn, LV_BTN_STYLE_INA, th->btn.ina); } else { lv_obj_set_style(new_btn, ext->styles[LV_BTN_STATE_REL]); } } /*Copy 'copy'*/ else { lv_btn_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->state = copy_ext->state; ext->toggle = copy_ext->toggle; #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT ext->ink_in_time = copy_ext->ink_in_time; ext->ink_wait_time = copy_ext->ink_wait_time; ext->ink_out_time = copy_ext->ink_out_time; #endif memcpy(ext->actions, copy_ext->actions, sizeof(ext->actions)); memcpy(ext->styles, copy_ext->styles, sizeof(ext->styles)); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_btn); } LV_LOG_INFO("button created"); return new_btn; } /*===================== * Setter functions *====================*/ /** * Enable the toggled states * @param btn pointer to a button object * @param tgl true: enable toggled states, false: disable */ void lv_btn_set_toggle(lv_obj_t * btn, bool tgl) { lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); ext->toggle = tgl != false ? 1 : 0; } /** * Set the state of the button * @param btn pointer to a button object * @param state the new state of the button (from lv_btn_state_t enum) */ void lv_btn_set_state(lv_obj_t * btn, lv_btn_state_t state) { lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); if(ext->state != state) { ext->state = state; lv_obj_set_style(btn, ext->styles[state]); } } /** * Toggle the state of the button (ON->OFF, OFF->ON) * @param btn pointer to a button object */ void lv_btn_toggle(lv_obj_t * btn) { lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); switch(ext->state) { case LV_BTN_STATE_REL: lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); break; case LV_BTN_STATE_PR: lv_btn_set_state(btn, LV_BTN_STATE_TGL_PR); break; case LV_BTN_STATE_TGL_REL: lv_btn_set_state(btn, LV_BTN_STATE_REL); break; case LV_BTN_STATE_TGL_PR: lv_btn_set_state(btn, LV_BTN_STATE_PR); break; default: break; } } /** * Set a function to call when a button event happens * @param btn pointer to a button object * @param action type of event form 'lv_action_t' (press, release, long press, long press repeat) */ void lv_btn_set_action(lv_obj_t * btn, lv_btn_action_t type, lv_action_t action) { if(type >= LV_BTN_ACTION_NUM) return; lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); ext->actions[type] = action; } /** * Set time of the ink effect (draw a circle on click to animate in the new state) * @param btn pointer to a button object * @param time the time of the ink animation */ void lv_btn_set_ink_in_time(lv_obj_t * btn, uint16_t time) { #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); ext->ink_in_time = time; #else (void)btn; /*Unused*/ (void)time; /*Unused*/ LV_LOG_WARN("`lv_btn_set_ink_ink_time` has no effect if LV_BTN_INK_EFEFCT or USE_LV_ANIMATION is disabled") #endif } /** * Set the wait time before the ink disappears * @param btn pointer to a button object * @param time the time of the ink animation */ void lv_btn_set_ink_wait_time(lv_obj_t * btn, uint16_t time) { #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); ext->ink_wait_time = time; #else (void)btn; /*Unused*/ (void)time; /*Unused*/ LV_LOG_WARN("`lv_btn_set_ink_wait_time` has no effect if LV_BTN_INK_EFEFCT or USE_LV_ANIMATION is disabled") #endif } /** * Set time of the ink out effect (animate to the released state) * @param btn pointer to a button object * @param time the time of the ink animation */ void lv_btn_set_ink_out_time(lv_obj_t * btn, uint16_t time) { #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); ext->ink_out_time = time; #else (void)btn; /*Unused*/ (void)time; /*Unused*/ LV_LOG_WARN("`lv_btn_set_ink_out_time` has no effect if LV_BTN_INK_EFEFCT or USE_LV_ANIMATION is disabled") #endif } /** * Set a style of a button * @param btn pointer to a button object * @param type which style should be set * @param style pointer to a style */ void lv_btn_set_style(lv_obj_t * btn, lv_btn_style_t type, lv_style_t * style) { lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); switch(type) { case LV_BTN_STYLE_REL: ext->styles[LV_BTN_STATE_REL] = style; break; case LV_BTN_STYLE_PR: ext->styles[LV_BTN_STATE_PR] = style; break; case LV_BTN_STYLE_TGL_REL: ext->styles[LV_BTN_STATE_TGL_REL] = style; break; case LV_BTN_STYLE_TGL_PR: ext->styles[LV_BTN_STATE_TGL_PR] = style; break; case LV_BTN_STYLE_INA: ext->styles[LV_BTN_STATE_INA] = style; break; } /*Refresh the object with the new style*/ lv_obj_set_style(btn, ext->styles[ext->state]); } /*===================== * Getter functions *====================*/ /** * Get the current state of the button * @param btn pointer to a button object * @return the state of the button (from lv_btn_state_t enum) */ lv_btn_state_t lv_btn_get_state(const lv_obj_t * btn) { lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); return ext->state; } /** * Get the toggle enable attribute of the button * @param btn pointer to a button object * @return ture: toggle enabled, false: disabled */ bool lv_btn_get_toggle(const lv_obj_t * btn) { lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); return ext->toggle != 0 ? true : false; } /** * Get the release action of a button * @param btn pointer to a button object * @return pointer to the release action function */ lv_action_t lv_btn_get_action(const lv_obj_t * btn, lv_btn_action_t type) { if(type >= LV_BTN_ACTION_NUM) return NULL; lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); return ext->actions[type]; } /** * Get time of the ink in effect (draw a circle on click to animate in the new state) * @param btn pointer to a button object * @return the time of the ink animation */ uint16_t lv_btn_get_ink_in_time(const lv_obj_t * btn) { #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); return ext->ink_in_time; #else (void)btn; /*Unused*/ return 0; #endif } /** * Get the wait time before the ink disappears * @param btn pointer to a button object * @return the time of the ink animation */ uint16_t lv_btn_get_ink_wait_time(const lv_obj_t * btn) { #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); return ext->ink_wait_time; #else (void)btn; /*Unused*/ return 0; #endif } /** * Get time of the ink out effect (animate to the releases state) * @param btn pointer to a button object * @return the time of the ink animation */ uint16_t lv_btn_get_ink_out_time(const lv_obj_t * btn) { #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); return ext->ink_in_time; #else (void)btn; /*Unused*/ return 0; #endif } /** * Get a style of a button * @param btn pointer to a button object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_btn_get_style(const lv_obj_t * btn, lv_btn_style_t type) { lv_style_t * style = NULL; lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); switch(type) { case LV_BTN_STYLE_REL: style = ext->styles[LV_BTN_STATE_REL]; break; case LV_BTN_STYLE_PR: style = ext->styles[LV_BTN_STATE_PR]; break; case LV_BTN_STYLE_TGL_REL: style = ext->styles[LV_BTN_STATE_TGL_REL]; break; case LV_BTN_STYLE_TGL_PR: style = ext->styles[LV_BTN_STATE_TGL_PR]; break; case LV_BTN_STYLE_INA: style = ext->styles[LV_BTN_STATE_INA]; break; default: style = NULL; break; } return style; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the drop down lists * @param btn pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_btn_design(lv_obj_t * btn, const lv_area_t * mask, lv_design_mode_t mode) { if(mode == LV_DESIGN_COVER_CHK) { return false; } else if(mode == LV_DESIGN_DRAW_MAIN) { #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT if(btn != ink_obj) { ancestor_design(btn, mask, mode); } else { lv_opa_t opa_scale = lv_obj_get_opa_scale(btn); lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); /*Draw the normal button*/ if(ink_playback == false) { lv_style_t style_tmp; lv_style_copy(&style_tmp, ext->styles[ink_bg_state]); style_tmp.body.shadow.width = ext->styles[ink_top_state]->body.shadow.width; lv_draw_rect(&btn->coords, mask, &style_tmp, opa_scale); lv_coord_t w = lv_obj_get_width(btn); lv_coord_t h = lv_obj_get_height(btn); lv_coord_t r_max = LV_MATH_MIN(w, h) / 2; /*In the first part of the animation increase the size of the circle (ink effect) */ lv_area_t cir_area; lv_coord_t coord_state = ink_act_value < LV_BTN_INK_VALUE_MAX / 2 ? ink_act_value : LV_BTN_INK_VALUE_MAX / 2; lv_point_t p_act; p_act.x = ink_point.x; p_act.y = ink_point.y; lv_coord_t x_err = (btn->coords.x1 + w / 2) - p_act.x; lv_coord_t y_err = (btn->coords.y1 + h / 2) - p_act.y; p_act.x += (x_err * coord_state) >> (LV_BTN_INK_VALUE_MAX_SHIFT - 1); p_act.y += (y_err * coord_state) >> (LV_BTN_INK_VALUE_MAX_SHIFT - 1); lv_coord_t half_side = LV_MATH_MAX(w, h) / 2; cir_area.x1 = p_act.x - ((half_side * coord_state) >> (LV_BTN_INK_VALUE_MAX_SHIFT - 1)); cir_area.y1 = p_act.y - ((half_side * coord_state) >> (LV_BTN_INK_VALUE_MAX_SHIFT - 1)); cir_area.x2 = p_act.x + ((half_side * coord_state) >> (LV_BTN_INK_VALUE_MAX_SHIFT - 1)); cir_area.y2 = p_act.y + ((half_side * coord_state) >> (LV_BTN_INK_VALUE_MAX_SHIFT - 1)); lv_area_intersect(&cir_area, &btn->coords, &cir_area); /*Limit the area. (It might be too big on the smaller side)*/ /*In the second part animate the radius. Circle -> body.radius*/ lv_coord_t r_state = ink_act_value > LV_BTN_INK_VALUE_MAX / 2 ? ink_act_value - LV_BTN_INK_VALUE_MAX / 2 : 0; lv_style_copy(&style_tmp, ext->styles[ink_top_state]); style_tmp.body.radius = r_max + (((ext->styles[ink_bg_state]->body.radius - r_max) * r_state) >> (LV_BTN_INK_VALUE_MAX_SHIFT - 1)); style_tmp.body.border.width = 0; /*Draw the circle*/ lv_draw_rect(&cir_area, mask, &style_tmp, opa_scale); } else { lv_style_t res; lv_style_copy(&res, ext->styles[ink_bg_state]); lv_style_mix(ext->styles[ink_bg_state], ext->styles[ink_top_state], &res, ink_act_value); lv_draw_rect(&btn->coords, mask, &res, opa_scale); } } #else ancestor_design(btn, mask, mode); #endif } else if(mode == LV_DESIGN_DRAW_POST) { ancestor_design(btn, mask, mode); } return true; } /** * Signal function of the button * @param btn pointer to a button object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_btn_signal(lv_obj_t * btn, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(btn, sign, param); if(res != LV_RES_OK) return res; lv_btn_ext_t * ext = lv_obj_get_ext_attr(btn); lv_btn_state_t state = lv_btn_get_state(btn); bool tgl = lv_btn_get_toggle(btn); if(sign == LV_SIGNAL_PRESSED) { /*Refresh the state*/ if(ext->state == LV_BTN_STATE_REL) { lv_btn_set_state(btn, LV_BTN_STATE_PR); #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT ink_bg_state = LV_BTN_STATE_REL; ink_top_state = LV_BTN_STATE_PR; #endif } else if(ext->state == LV_BTN_STATE_TGL_REL) { lv_btn_set_state(btn, LV_BTN_STATE_TGL_PR); #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT ink_bg_state = LV_BTN_STATE_TGL_REL; ink_top_state = LV_BTN_STATE_TGL_PR; #endif } ext->long_pr_action_executed = 0; #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT /*Forget the old inked button*/ if(ink_obj != NULL && ink_obj != btn) { lv_anim_del(ink_obj, (lv_anim_fp_t)lv_btn_ink_effect_anim); lv_obj_invalidate(ink_obj); ink_obj = NULL; } /*Save the new data for inking and start it's animation if enabled*/ if(ext->ink_in_time > 0) { ink_obj = btn; ink_playback = false; ink_ready = false; lv_indev_get_point(lv_indev_get_act(), &ink_point); lv_anim_t a; a.var = btn; a.start = 0; a.end = LV_BTN_INK_VALUE_MAX; a.fp = (lv_anim_fp_t)lv_btn_ink_effect_anim; a.path = lv_anim_path_linear; a.end_cb = lv_btn_ink_effect_anim_ready; a.act_time = 0; a.time = ext->ink_in_time; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); } #endif /*Call the press action, 'param' is the caller indev_proc*/ if(ext->actions[LV_BTN_ACTION_PR] && state != LV_BTN_STATE_INA) { res = ext->actions[LV_BTN_ACTION_PR](btn); } } else if(sign == LV_SIGNAL_PRESS_LOST) { /*Refresh the state*/ if(ext->state == LV_BTN_STATE_PR) lv_btn_set_state(btn, LV_BTN_STATE_REL); else if(ext->state == LV_BTN_STATE_TGL_PR) lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); } else if(sign == LV_SIGNAL_PRESSING) { /*When the button begins to drag revert pressed states to released*/ if(lv_indev_is_dragging(param) != false) { if(ext->state == LV_BTN_STATE_PR) lv_btn_set_state(btn, LV_BTN_STATE_REL); else if(ext->state == LV_BTN_STATE_TGL_PR) lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); } } else if(sign == LV_SIGNAL_RELEASED) { /*If not dragged and it was not long press action then *change state and run the action*/ if(lv_indev_is_dragging(param) == false && ext->long_pr_action_executed == 0) { if(ext->state == LV_BTN_STATE_PR && tgl == false) { lv_btn_set_state(btn, LV_BTN_STATE_REL); } else if(ext->state == LV_BTN_STATE_TGL_PR && tgl == false) { lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); } else if(ext->state == LV_BTN_STATE_PR && tgl == true) { lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); } else if(ext->state == LV_BTN_STATE_TGL_PR && tgl == true) { lv_btn_set_state(btn, LV_BTN_STATE_REL); } if(ext->actions[LV_BTN_ACTION_CLICK] && state != LV_BTN_STATE_INA) { res = ext->actions[LV_BTN_ACTION_CLICK](btn); } } else { /*If dragged change back the state*/ if(ext->state == LV_BTN_STATE_PR) { lv_btn_set_state(btn, LV_BTN_STATE_REL); } else if(ext->state == LV_BTN_STATE_TGL_PR) { lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); } } #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT /*Draw the toggled state in the inking instead*/ if(ext->toggle) { ink_top_state = ext->state; } /*If not a toggle button and the "IN" inking is ready then start an "OUT" inking*/ else if(ink_ready && ext->ink_out_time > 0) { ink_obj = btn; ink_playback = true; /*It is the playback. If not set `lv_btn_ink_effect_anim_ready` will start its own playback*/ lv_indev_get_point(lv_indev_get_act(), &ink_point); lv_anim_t a; a.var = ink_obj; a.start = LV_BTN_INK_VALUE_MAX; a.end = 0; a.fp = (lv_anim_fp_t)lv_btn_ink_effect_anim; a.path = lv_anim_path_linear; a.end_cb = lv_btn_ink_effect_anim_ready; a.act_time = 0; a.time = ext->ink_out_time; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); } #endif } else if(sign == LV_SIGNAL_LONG_PRESS) { if(ext->actions[LV_BTN_ACTION_LONG_PR] && state != LV_BTN_STATE_INA) { ext->long_pr_action_executed = 1; res = ext->actions[LV_BTN_ACTION_LONG_PR](btn); } } else if(sign == LV_SIGNAL_LONG_PRESS_REP) { if(ext->actions[LV_BTN_ACTION_LONG_PR_REPEAT] && state != LV_BTN_STATE_INA) { res = ext->actions[LV_BTN_ACTION_LONG_PR_REPEAT](btn); } } else if(sign == LV_SIGNAL_CONTROLL) { char c = *((char *)param); if(c == LV_GROUP_KEY_RIGHT || c == LV_GROUP_KEY_UP) { if(lv_btn_get_toggle(btn) != false) lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); if(ext->actions[LV_BTN_ACTION_CLICK] && lv_btn_get_state(btn) != LV_BTN_STATE_INA) { res = ext->actions[LV_BTN_ACTION_CLICK](btn); } } else if(c == LV_GROUP_KEY_LEFT || c == LV_GROUP_KEY_DOWN) { if(lv_btn_get_toggle(btn) != false) lv_btn_set_state(btn, LV_BTN_STATE_REL); if(ext->actions[LV_BTN_ACTION_CLICK] && lv_btn_get_state(btn) != LV_BTN_STATE_INA) { res = ext->actions[LV_BTN_ACTION_CLICK](btn); } } else if(c == LV_GROUP_KEY_ENTER) { if(!ext->long_pr_action_executed) { if(lv_btn_get_toggle(btn)) { if(state == LV_BTN_STATE_REL || state == LV_BTN_STATE_PR) lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); else if(state == LV_BTN_STATE_TGL_REL || state == LV_BTN_STATE_TGL_PR) lv_btn_set_state(btn, LV_BTN_STATE_REL); } else { if(state == LV_BTN_STATE_REL || state == LV_BTN_STATE_PR) lv_btn_set_state(btn, LV_BTN_STATE_REL); else if(state == LV_BTN_STATE_TGL_REL || state == LV_BTN_STATE_TGL_PR) lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); } if(ext->actions[LV_BTN_ACTION_CLICK] && state != LV_BTN_STATE_INA) { res = ext->actions[LV_BTN_ACTION_CLICK](btn); } } if(res != LV_RES_INV) { ext->long_pr_action_executed = 0; } } } else if(sign == LV_SIGNAL_CLEANUP) { #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT if(btn == ink_obj) { lv_anim_del(ink_obj, (lv_anim_fp_t)lv_btn_ink_effect_anim); ink_obj = NULL; } #endif } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_btn"; } return res; } #if USE_LV_ANIMATION && LV_BTN_INK_EFFECT /** * The animator function of inking. CAlled to increase the radius of ink * @param btn pointer to the animated button * @param val the new radius */ static void lv_btn_ink_effect_anim(lv_obj_t * btn, int32_t val) { if(btn) { ink_act_value = val; lv_obj_invalidate(btn); } } /** * Called to clean up when the ink animation is ready * @param p unused */ static void lv_btn_ink_effect_anim_ready(void * p) { (void) p; /*Unused*/ lv_btn_ext_t * ext = lv_obj_get_ext_attr(ink_obj); lv_btn_state_t state = lv_btn_get_state(ink_obj); lv_obj_invalidate(ink_obj); ink_ready = true; if((state == LV_BTN_STATE_REL || state == LV_BTN_STATE_TGL_REL) && ext->toggle == 0 && ink_playback == false) { lv_anim_t a; a.var = ink_obj; a.start = LV_BTN_INK_VALUE_MAX; a.end = 0; a.fp = (lv_anim_fp_t)lv_btn_ink_effect_anim; a.path = lv_anim_path_linear; a.end_cb = lv_btn_ink_effect_anim_ready; a.act_time = -ext->ink_wait_time; a.time = ext->ink_out_time; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); ink_playback = true; } else { ink_obj = NULL; } } #endif /*USE_LV_ANIMATION*/ #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_btn.h ================================================ /** * @file lv_btn.h * */ #ifndef LV_BTN_H #define LV_BTN_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_BTN != 0 /*Testing of dependencies*/ #if USE_LV_CONT == 0 #error "lv_btn: lv_cont is required. Enable it in lv_conf.h (USE_LV_CONT 1) " #endif #include "lv_cont.h" #include "../lv_core/lv_indev.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /* Button states * It can be used not only by buttons but other button-like objects too*/ enum { LV_BTN_STATE_REL, LV_BTN_STATE_PR, LV_BTN_STATE_TGL_REL, LV_BTN_STATE_TGL_PR, LV_BTN_STATE_INA, LV_BTN_STATE_NUM, }; typedef uint8_t lv_btn_state_t; enum { LV_BTN_ACTION_CLICK, LV_BTN_ACTION_PR, LV_BTN_ACTION_LONG_PR, LV_BTN_ACTION_LONG_PR_REPEAT, LV_BTN_ACTION_NUM, }; typedef uint8_t lv_btn_action_t; /*Data of button*/ typedef struct { lv_cont_ext_t cont; /*Ext. of ancestor*/ /*New data for this type */ lv_action_t actions[LV_BTN_ACTION_NUM]; lv_style_t * styles[LV_BTN_STATE_NUM]; /*Styles in each state*/ lv_btn_state_t state; /*Current state of the button from 'lv_btn_state_t' enum*/ int idx; #if LV_BTN_INK_EFFECT uint16_t ink_in_time; /*[ms] Time of ink fill effect (0: disable ink effect)*/ uint16_t ink_wait_time; /*[ms] Wait before the ink disappears */ uint16_t ink_out_time; /*[ms] Time of ink disappearing*/ #endif uint8_t toggle :1; /*1: Toggle enabled*/ uint8_t long_pr_action_executed :1; /*1: Long press action executed (Handled by the library)*/ } lv_btn_ext_t; /*Styles*/ enum { LV_BTN_STYLE_REL, LV_BTN_STYLE_PR, LV_BTN_STYLE_TGL_REL, LV_BTN_STYLE_TGL_PR, LV_BTN_STYLE_INA, }; typedef uint8_t lv_btn_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a button objects * @param par pointer to an object, it will be the parent of the new button * @param copy pointer to a button object, if not NULL then the new object will be copied from it * @return pointer to the created button */ lv_obj_t * lv_btn_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Enable the toggled states. On release the button will change from/to toggled state. * @param btn pointer to a button object * @param tgl true: enable toggled states, false: disable */ void lv_btn_set_toggle(lv_obj_t * btn, bool tgl); /** * Set the state of the button * @param btn pointer to a button object * @param state the new state of the button (from lv_btn_state_t enum) */ void lv_btn_set_state(lv_obj_t * btn, lv_btn_state_t state); /** * Toggle the state of the button (ON->OFF, OFF->ON) * @param btn pointer to a button object */ void lv_btn_toggle(lv_obj_t * btn); /** * Set a function to call when a button event happens * @param btn pointer to a button object * @param action type of event form 'lv_action_t' (press, release, long press, long press repeat) */ void lv_btn_set_action(lv_obj_t * btn, lv_btn_action_t type, lv_action_t action); /** * Set the layout on a button * @param btn pointer to a button object * @param layout a layout from 'lv_cont_layout_t' */ static inline void lv_btn_set_layout(lv_obj_t * btn, lv_layout_t layout) { lv_cont_set_layout(btn, layout); } /** * Enable the horizontal or vertical fit. * The button size will be set to involve the children horizontally or vertically. * @param btn pointer to a button object * @param hor_en true: enable the horizontal fit * @param ver_en true: enable the vertical fit */ static inline void lv_btn_set_fit(lv_obj_t * btn, bool hor_en, bool ver_en) { lv_cont_set_fit(btn, hor_en, ver_en); } /** * Set time of the ink effect (draw a circle on click to animate in the new state) * @param btn pointer to a button object * @param time the time of the ink animation */ void lv_btn_set_ink_in_time(lv_obj_t * btn, uint16_t time); /** * Set the wait time before the ink disappears * @param btn pointer to a button object * @param time the time of the ink animation */ void lv_btn_set_ink_wait_time(lv_obj_t * btn, uint16_t time); /** * Set time of the ink out effect (animate to the released state) * @param btn pointer to a button object * @param time the time of the ink animation */ void lv_btn_set_ink_out_time(lv_obj_t * btn, uint16_t time); /** * Set a style of a button. * @param btn pointer to button object * @param type which style should be set * @param style pointer to a style * */ void lv_btn_set_style(lv_obj_t * btn, lv_btn_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Get the current state of the button * @param btn pointer to a button object * @return the state of the button (from lv_btn_state_t enum) */ lv_btn_state_t lv_btn_get_state(const lv_obj_t * btn); /** * Get the toggle enable attribute of the button * @param btn pointer to a button object * @return ture: toggle enabled, false: disabled */ bool lv_btn_get_toggle(const lv_obj_t * btn); /** * Get the release action of a button * @param btn pointer to a button object * @return pointer to the release action function */ lv_action_t lv_btn_get_action(const lv_obj_t * btn, lv_btn_action_t type); /** * Get the layout of a button * @param btn pointer to button object * @return the layout from 'lv_cont_layout_t' */ static inline lv_layout_t lv_btn_get_layout(const lv_obj_t * btn) { return lv_cont_get_layout(btn); } /** * Get horizontal fit enable attribute of a button * @param btn pointer to a button object * @return true: horizontal fit is enabled; false: disabled */ static inline bool lv_btn_get_hor_fit(const lv_obj_t * btn) { return lv_cont_get_hor_fit(btn); } /** * Get vertical fit enable attribute of a container * @param btn pointer to a button object * @return true: vertical fit is enabled; false: disabled */ static inline bool lv_btn_get_ver_fit(const lv_obj_t * btn) { return lv_cont_get_ver_fit(btn); } /** * Get time of the ink in effect (draw a circle on click to animate in the new state) * @param btn pointer to a button object * @return the time of the ink animation */ uint16_t lv_btn_get_ink_in_time(const lv_obj_t * btn); /** * Get the wait time before the ink disappears * @param btn pointer to a button object * @return the time of the ink animation */ uint16_t lv_btn_get_ink_wait_time(const lv_obj_t * btn); /** * Get time of the ink out effect (animate to the releases state) * @param btn pointer to a button object * @return the time of the ink animation */ uint16_t lv_btn_get_ink_out_time(const lv_obj_t * btn); /** * Get style of a button. * @param btn pointer to button object * @param type which style should be get * @return style pointer to the style * */ lv_style_t * lv_btn_get_style(const lv_obj_t * btn, lv_btn_style_t type); /********************** * MACROS **********************/ #endif /*USE_LV_BUTTON*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_BTN_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_btnm.c ================================================ /** * @file lv_btnm.c * */ /********************* * INCLUDES *********************/ #include "lv_btnm.h" #if USE_LV_BTNM != 0 #include "../lv_core/lv_group.h" #include "../lv_draw/lv_draw.h" #include "../lv_core/lv_refr.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_txt.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_btnm_signal(lv_obj_t * btnm, lv_signal_t sign, void * param); static bool lv_btnm_design(lv_obj_t * btnm, const lv_area_t * mask, lv_design_mode_t mode); static uint8_t get_button_width(const char * btn_str); static bool button_is_hidden(const char * btn_str); static bool button_is_repeat_disabled(const char * btn_str); static bool button_is_inactive(const char * btn_str); const char * cut_ctrl_byte(const char * btn_str); static uint16_t get_button_from_point(lv_obj_t * btnm, lv_point_t * p); static uint16_t get_button_text(lv_obj_t * btnm, uint16_t btn_id); static void allocate_btn_areas(lv_obj_t * btnm, const char ** map); /********************** * STATIC VARIABLES **********************/ static const char * lv_btnm_def_map[] = {"Btn1", "Btn2", "Btn3", "\n", "\002Btn4", "Btn5", "" }; static lv_design_func_t ancestor_design_f; static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a button matrix objects * @param par pointer to an object, it will be the parent of the new button matrix * @param copy pointer to a button matrix object, if not NULL then the new object will be copied from it * @return pointer to the created button matrix */ lv_obj_t * lv_btnm_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("button matrix create started"); /*Create the ancestor object*/ lv_obj_t * new_btnm = lv_obj_create(par, copy); lv_mem_assert(new_btnm); if(new_btnm == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_btnm); /*Allocate the object type specific extended data*/ lv_btnm_ext_t * ext = lv_obj_allocate_ext_attr(new_btnm, sizeof(lv_btnm_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->btn_cnt = 0; ext->btn_id_pr = LV_BTNM_PR_NONE; ext->btn_id_tgl = LV_BTNM_PR_NONE; ext->button_areas = NULL; ext->action = NULL; ext->map_p = NULL; ext->toggle = 0; ext->recolor = 0; ext->styles_btn[LV_BTN_STATE_REL] = &lv_style_btn_rel; ext->styles_btn[LV_BTN_STATE_PR] = &lv_style_btn_pr; ext->styles_btn[LV_BTN_STATE_TGL_REL] = &lv_style_btn_tgl_rel; ext->styles_btn[LV_BTN_STATE_TGL_PR] = &lv_style_btn_tgl_pr; ext->styles_btn[LV_BTN_STATE_INA] = &lv_style_btn_ina; if(ancestor_design_f == NULL) ancestor_design_f = lv_obj_get_design_func(new_btnm); lv_obj_set_signal_func(new_btnm, lv_btnm_signal); lv_obj_set_design_func(new_btnm, lv_btnm_design); /*Init the new button matrix object*/ if(copy == NULL) { lv_obj_set_size(new_btnm, LV_HOR_RES / 2, LV_VER_RES / 4); lv_btnm_set_map(new_btnm, lv_btnm_def_map); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_btnm_set_style(new_btnm, LV_BTNM_STYLE_BG, th->btnm.bg); lv_btnm_set_style(new_btnm, LV_BTNM_STYLE_BTN_REL, th->btnm.btn.rel); lv_btnm_set_style(new_btnm, LV_BTNM_STYLE_BTN_PR, th->btnm.btn.pr); lv_btnm_set_style(new_btnm, LV_BTNM_STYLE_BTN_TGL_REL, th->btnm.btn.tgl_rel); lv_btnm_set_style(new_btnm, LV_BTNM_STYLE_BTN_TGL_PR, th->btnm.btn.tgl_pr); lv_btnm_set_style(new_btnm, LV_BTNM_STYLE_BTN_INA, th->btnm.btn.ina); } else { lv_obj_set_style(new_btnm, &lv_style_pretty); } } /*Copy an existing object*/ else { lv_btnm_ext_t * copy_ext = lv_obj_get_ext_attr(copy); memcpy(ext->styles_btn, copy_ext->styles_btn, sizeof(ext->styles_btn)); ext->action = copy_ext->action; ext->toggle = copy_ext->toggle; ext->btn_id_tgl = copy_ext->btn_id_tgl; lv_btnm_set_map(new_btnm, lv_btnm_get_map(copy)); } LV_LOG_INFO("button matrix created"); return new_btnm; } /*===================== * Setter functions *====================*/ /** * Set a new map. Buttons will be created/deleted according to the map. * @param btnm pointer to a button matrix object * @param map pointer a string array. The last string has to be: "". * Use "\n" to begin a new line. * The first byte can be a control data: * - bit 7: always 1 * - bit 6: always 0 * - bit 5: inactive (disabled) (\24x) * - bit 4: no repeat (on long press) (\22x) * - bit 3: hidden (\21x) * - bit 2..0: button relative width * Example (practically use octal numbers): "\224abc": "abc" text with 4 width and no long press */ void lv_btnm_set_map(lv_obj_t * btnm, const char ** map) { if(map == NULL) return; lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); ext->map_p = map; /*Analyze the map and create the required number of buttons*/ allocate_btn_areas(btnm, map); /*Set size and positions of the buttons*/ lv_style_t * style_bg = lv_btnm_get_style(btnm, LV_BTNM_STYLE_BG); lv_coord_t max_w = lv_obj_get_width(btnm) - 2 * style_bg->body.padding.hor; lv_coord_t max_h = lv_obj_get_height(btnm) - 2 * style_bg->body.padding.ver; lv_coord_t act_y = style_bg->body.padding.ver; /*Count the lines to calculate button height*/ uint8_t line_cnt = 1; uint8_t li; for(li = 0; strlen(map[li]) != 0; li++) { if(strcmp(map[li], "\n") == 0) line_cnt ++; } lv_coord_t btn_h = max_h - ((line_cnt - 1) * style_bg->body.padding.inner); btn_h = btn_h / line_cnt; btn_h --; /*-1 because e.g. height = 100 means 101 pixels (0..100)*/ /* Count the units and the buttons in a line * (A button can be 1,2,3... unit wide)*/ uint16_t unit_cnt; /*Number of units in a row*/ uint16_t unit_act_cnt; /*Number of units currently put in a row*/ uint16_t btn_cnt; /*Number of buttons in a row*/ uint16_t i_tot = 0; /*Act. index in the str map*/ uint16_t btn_i = 0; /*Act. index of button areas*/ const char ** map_p_tmp = map; /*Count the units and the buttons in a line*/ while(1) { unit_cnt = 0; btn_cnt = 0; /*Count the buttons in a line*/ while(strcmp(map_p_tmp[btn_cnt], "\n") != 0 && strlen(map_p_tmp[btn_cnt]) != 0) { /*Check a line*/ unit_cnt += get_button_width(map_p_tmp[btn_cnt]); btn_cnt ++; } /*Make sure the last row is at the bottom of 'btnm'*/ if(map_p_tmp[btn_cnt][0] == '\0') { /*Last row?*/ btn_h = max_h - act_y + style_bg->body.padding.ver - 1; } /*Only deal with the non empty lines*/ if(btn_cnt != 0) { /*Calculate the width of all units*/ lv_coord_t all_unit_w = max_w - ((btn_cnt - 1) * style_bg->body.padding.inner); /*Set the button size and positions and set the texts*/ uint16_t i; lv_coord_t act_x = style_bg->body.padding.hor; lv_coord_t act_unit_w; unit_act_cnt = 0; for(i = 0; i < btn_cnt; i++) { /* one_unit_w = all_unit_w / unit_cnt * act_unit_w = one_unit_w * button_width * do this two operations but the multiply first to divide a greater number */ act_unit_w = (all_unit_w * get_button_width(map_p_tmp[i])) / unit_cnt; act_unit_w --; /*-1 because e.g. width = 100 means 101 pixels (0..100)*/ /*Always recalculate act_x because of rounding errors */ act_x = (unit_act_cnt * all_unit_w) / unit_cnt + i * style_bg->body.padding.inner + style_bg->body.padding.hor; /* Set the button's area. * If inner padding is zero then use the prev. button x2 as x1 to avoid rounding errors*/ if(style_bg->body.padding.inner == 0 && act_x != style_bg->body.padding.hor) { lv_area_set(&ext->button_areas[btn_i], ext->button_areas[btn_i - 1].x2, act_y, act_x + act_unit_w, act_y + btn_h); } else { lv_area_set(&ext->button_areas[btn_i], act_x, act_y, act_x + act_unit_w, act_y + btn_h); } unit_act_cnt += get_button_width(map_p_tmp[i]); i_tot ++; btn_i ++; } } act_y += btn_h + style_bg->body.padding.inner; if(strlen(map_p_tmp[btn_cnt]) == 0) break; /*Break on end of map*/ map_p_tmp = &map_p_tmp[btn_cnt + 1]; /*Set the map to the next line*/ i_tot ++; /*Skip the '\n'*/ } lv_obj_invalidate(btnm); } /** * Set a new callback function for the buttons (It will be called when a button is released) * @param btnm: pointer to button matrix object * @param cb pointer to a callback function */ void lv_btnm_set_action(lv_obj_t * btnm, lv_btnm_action_t action) { lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); ext->action = action; } /** * Enable or disable button toggling * @param btnm pointer to button matrix object * @param en true: enable toggling; false: disable toggling * @param id index of the currently toggled button (ignored if 'en' == false) */ void lv_btnm_set_toggle(lv_obj_t * btnm, bool en, uint16_t id) { lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); ext->toggle = en == false ? 0 : 1; if(ext->toggle != 0) { if(id >= ext->btn_cnt) id = ext->btn_cnt - 1; ext->btn_id_tgl = id; } else { ext->btn_id_tgl = LV_BTNM_PR_NONE; } lv_obj_invalidate(btnm); } /** * Set a style of a button matrix * @param btnm pointer to a button matrix object * @param type which style should be set * @param style pointer to a style */ void lv_btnm_set_style(lv_obj_t * btnm, lv_btnm_style_t type, lv_style_t * style) { lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); switch(type) { case LV_BTNM_STYLE_BG: lv_obj_set_style(btnm, style); break; case LV_BTNM_STYLE_BTN_REL: ext->styles_btn[LV_BTN_STATE_REL] = style; lv_obj_invalidate(btnm); break; case LV_BTNM_STYLE_BTN_PR: ext->styles_btn[LV_BTN_STATE_PR] = style; lv_obj_invalidate(btnm); break; case LV_BTNM_STYLE_BTN_TGL_REL: ext->styles_btn[LV_BTN_STATE_TGL_REL] = style; lv_obj_invalidate(btnm); break; case LV_BTNM_STYLE_BTN_TGL_PR: ext->styles_btn[LV_BTN_STATE_TGL_PR] = style; lv_obj_invalidate(btnm); break; case LV_BTNM_STYLE_BTN_INA: ext->styles_btn[LV_BTN_STATE_INA] = style; lv_obj_invalidate(btnm); break; } } void lv_btnm_set_recolor(const lv_obj_t * btnm, bool en) { lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); ext->recolor = en; lv_obj_invalidate(btnm); } /*===================== * Getter functions *====================*/ /** * Get the current map of a button matrix * @param btnm pointer to a button matrix object * @return the current map */ const char ** lv_btnm_get_map(const lv_obj_t * btnm) { lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); return ext->map_p; } /** * Get a the callback function of the buttons on a button matrix * @param btnm: pointer to button matrix object * @return pointer to the callback function */ lv_btnm_action_t lv_btnm_get_action(const lv_obj_t * btnm) { lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); return ext->action; } /** * Get the pressed button * @param btnm pointer to button matrix object * @return index of the currently pressed button (LV_BTNM_PR_NONE: if unset) */ uint16_t lv_btnm_get_pressed(const lv_obj_t * btnm) { lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); return ext->btn_id_pr; } /** * Get the toggled button * @param btnm pointer to button matrix object * @return index of the currently toggled button (LV_BTNM_PR_NONE: if unset) */ uint16_t lv_btnm_get_toggled(const lv_obj_t * btnm) { lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); if(ext->toggle == 0) return LV_BTNM_PR_NONE; else return ext->btn_id_tgl; } /** * Get a style of a button matrix * @param btnm pointer to a button matrix object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_btnm_get_style(const lv_obj_t * btnm, lv_btnm_style_t type) { lv_style_t * style = NULL; lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); switch(type) { case LV_BTNM_STYLE_BG: style = lv_obj_get_style(btnm); break; case LV_BTNM_STYLE_BTN_REL: style = ext->styles_btn[LV_BTN_STATE_REL]; break; case LV_BTNM_STYLE_BTN_PR: style = ext->styles_btn[LV_BTN_STATE_PR]; break; case LV_BTNM_STYLE_BTN_TGL_REL: style = ext->styles_btn[LV_BTN_STATE_TGL_REL]; break; case LV_BTNM_STYLE_BTN_TGL_PR: style = ext->styles_btn[LV_BTN_STATE_TGL_PR]; break; case LV_BTNM_STYLE_BTN_INA: style = ext->styles_btn[LV_BTN_STATE_INA]; break; default: style = NULL; break; } return style; } bool lv_btnm_get_recolor(const lv_obj_t * btnm) { lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); return ext->recolor; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the button matrixs * @param btnm pointer to a button matrix object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_btnm_design(lv_obj_t * btnm, const lv_area_t * mask, lv_design_mode_t mode) { if(mode == LV_DESIGN_COVER_CHK) { return ancestor_design_f(btnm, mask, mode); /*Return false if the object is not covers the mask_p area*/ } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { ancestor_design_f(btnm, mask, mode); lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); lv_style_t * bg_style = lv_obj_get_style(btnm); lv_style_t * btn_style; lv_opa_t opa_scale = lv_obj_get_opa_scale(btnm); lv_area_t area_btnm; lv_obj_get_coords(btnm, &area_btnm); lv_area_t area_tmp; lv_coord_t btn_w; lv_coord_t btn_h; uint16_t btn_i = 0; uint16_t txt_i = 0; lv_style_t style_tmp; lv_txt_flag_t txt_flag = LV_TXT_FLAG_NONE; if(ext->recolor) txt_flag = LV_TXT_FLAG_RECOLOR; for(btn_i = 0; btn_i < ext->btn_cnt; btn_i ++, txt_i ++) { /*Search the next valid text in the map*/ while(strcmp(ext->map_p[txt_i], "\n") == 0) { txt_i ++; } /*Skip hidden buttons*/ if(button_is_hidden(ext->map_p[txt_i])) continue; lv_area_copy(&area_tmp, &ext->button_areas[btn_i]); area_tmp.x1 += area_btnm.x1; area_tmp.y1 += area_btnm.y1; area_tmp.x2 += area_btnm.x1; area_tmp.y2 += area_btnm.y1; btn_w = lv_area_get_width(&area_tmp); btn_h = lv_area_get_height(&area_tmp); /*Load the style*/ if(button_is_inactive(ext->map_p[txt_i])) btn_style = lv_btnm_get_style(btnm, LV_BTNM_STYLE_BTN_INA); else if(btn_i != ext->btn_id_pr && btn_i != ext->btn_id_tgl) btn_style = lv_btnm_get_style(btnm, LV_BTNM_STYLE_BTN_REL); else if(btn_i == ext->btn_id_pr && btn_i != ext->btn_id_tgl) btn_style = lv_btnm_get_style(btnm, LV_BTNM_STYLE_BTN_PR); else if(btn_i != ext->btn_id_pr && btn_i == ext->btn_id_tgl) btn_style = lv_btnm_get_style(btnm, LV_BTNM_STYLE_BTN_TGL_REL); else if(btn_i == ext->btn_id_pr && btn_i == ext->btn_id_tgl) btn_style = lv_btnm_get_style(btnm, LV_BTNM_STYLE_BTN_TGL_PR); else btn_style = lv_btnm_get_style(btnm, LV_BTNM_STYLE_BTN_REL); /*Not possible option, just to be sure*/ lv_style_copy(&style_tmp, btn_style); /*Remove borders on the edges if `LV_BORDER_INTERNAL`*/ if(style_tmp.body.border.part & LV_BORDER_INTERNAL) { if(area_tmp.y1 == btnm->coords.y1 + bg_style->body.padding.ver) { style_tmp.body.border.part &= ~LV_BORDER_TOP; } if(area_tmp.y2 == btnm->coords.y2 - bg_style->body.padding.ver) { style_tmp.body.border.part &= ~LV_BORDER_BOTTOM; } if(txt_i == 0) { style_tmp.body.border.part &= ~LV_BORDER_LEFT; } else if(strcmp(ext->map_p[txt_i - 1],"\n") == 0) { style_tmp.body.border.part &= ~LV_BORDER_LEFT; } if(ext->map_p[txt_i + 1][0] == '\0' || strcmp(ext->map_p[txt_i + 1], "\n") == 0) { style_tmp.body.border.part &= ~LV_BORDER_RIGHT; } } lv_draw_rect(&area_tmp, mask, &style_tmp, opa_scale); /*Calculate the size of the text*/ if(btn_style->glass) btn_style = bg_style; const lv_font_t * font = btn_style->text.font; lv_point_t txt_size; lv_txt_get_size(&txt_size, ext->map_p[txt_i], font, btn_style->text.letter_space, btn_style->text.line_space, lv_area_get_width(&area_btnm), txt_flag); area_tmp.x1 += (btn_w - txt_size.x) / 2; area_tmp.y1 += (btn_h - txt_size.y) / 2; area_tmp.x2 = area_tmp.x1 + txt_size.x; area_tmp.y2 = area_tmp.y1 + txt_size.y; lv_draw_label(&area_tmp, mask, btn_style, opa_scale, ext->map_p[txt_i], txt_flag, NULL); } } return true; } /** * Signal function of the button matrix * @param btnm pointer to a button matrix object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_btnm_signal(lv_obj_t * btnm, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(btnm, sign, param); if(res != LV_RES_OK) return res; lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); lv_area_t btnm_area; lv_area_t btn_area; lv_point_t p; if(sign == LV_SIGNAL_CLEANUP) { lv_mem_free(ext->button_areas); } else if(sign == LV_SIGNAL_STYLE_CHG || sign == LV_SIGNAL_CORD_CHG) { lv_btnm_set_map(btnm, ext->map_p); } else if(sign == LV_SIGNAL_PRESSING) { uint16_t btn_pr; /*Search the pressed area*/ lv_indev_get_point(param, &p); btn_pr = get_button_from_point(btnm, &p); /*Invalidate to old and the new areas*/; lv_obj_get_coords(btnm, &btnm_area); if(btn_pr != ext->btn_id_pr) { lv_indev_reset_lpr(param); if(ext->btn_id_pr != LV_BTNM_PR_NONE) { lv_area_copy(&btn_area, &ext->button_areas[ext->btn_id_pr]); btn_area.x1 += btnm_area.x1; btn_area.y1 += btnm_area.y1; btn_area.x2 += btnm_area.x1; btn_area.y2 += btnm_area.y1; lv_inv_area(&btn_area); } if(btn_pr != LV_BTNM_PR_NONE) { lv_area_copy(&btn_area, &ext->button_areas[btn_pr]); btn_area.x1 += btnm_area.x1; btn_area.y1 += btnm_area.y1; btn_area.x2 += btnm_area.x1; btn_area.y2 += btnm_area.y1; lv_inv_area(&btn_area); } } ext->btn_id_pr = btn_pr; } else if(sign == LV_SIGNAL_LONG_PRESS_REP) { if(ext->action && ext->btn_id_pr != LV_BTNM_PR_NONE) { uint16_t txt_i = get_button_text(btnm, ext->btn_id_pr); if(txt_i != LV_BTNM_PR_NONE) { if(button_is_repeat_disabled(ext->map_p[txt_i]) == false && button_is_inactive(ext->map_p[txt_i]) == false) { res = ext->action(btnm, cut_ctrl_byte(ext->map_p[txt_i])); } } } } else if(sign == LV_SIGNAL_RELEASED) { if(ext->btn_id_pr != LV_BTNM_PR_NONE) { uint16_t txt_i = get_button_text(btnm, ext->btn_id_pr); if(button_is_inactive(ext->map_p[txt_i]) == false && txt_i != LV_BTNM_PR_NONE) { /*Ignore the inactive buttons anf click between the buttons*/ if(ext->action) res = ext->action(btnm, cut_ctrl_byte(ext->map_p[txt_i])); if(res == LV_RES_OK) { /*Invalidate to old pressed area*/; lv_obj_get_coords(btnm, &btnm_area); lv_area_copy(&btn_area, &ext->button_areas[ext->btn_id_pr]); btn_area.x1 += btnm_area.x1; btn_area.y1 += btnm_area.y1; btn_area.x2 += btnm_area.x1; btn_area.y2 += btnm_area.y1; lv_inv_area(&btn_area); if(ext->toggle != 0) { /*Invalidate to old toggled area*/; lv_area_copy(&btn_area, &ext->button_areas[ext->btn_id_tgl]); btn_area.x1 += btnm_area.x1; btn_area.y1 += btnm_area.y1; btn_area.x2 += btnm_area.x1; btn_area.y2 += btnm_area.y1; lv_inv_area(&btn_area); ext->btn_id_tgl = ext->btn_id_pr; } #if USE_LV_GROUP /*Leave the clicked button when releases if this not the focused object in a group*/ lv_group_t * g = lv_obj_get_group(btnm); if(lv_group_get_focused(g) != btnm) { ext->btn_id_pr = LV_BTNM_PR_NONE; } #else ext->btn_id_pr = LV_BTNM_PR_NONE; #endif } } } } else if(sign == LV_SIGNAL_PRESS_LOST || sign == LV_SIGNAL_DEFOCUS) { ext->btn_id_pr = LV_BTNM_PR_NONE; lv_obj_invalidate(btnm); } else if(sign == LV_SIGNAL_FOCUS) { #if USE_LV_GROUP lv_indev_t * indev = lv_indev_get_act(); lv_hal_indev_type_t indev_type = lv_indev_get_type(indev); if(indev_type == LV_INDEV_TYPE_POINTER) { /*Select the clicked button*/ lv_point_t p1; lv_indev_get_point(indev, &p1); uint16_t btn_i = get_button_from_point(btnm, &p1); ext->btn_id_pr = btn_i; } else if(indev_type == LV_INDEV_TYPE_ENCODER) { /*In navigation mode don't select any button but in edit mode select the fist*/ if(lv_group_get_editing(lv_obj_get_group(btnm))) ext->btn_id_pr = 0; else ext->btn_id_pr = LV_BTNM_PR_NONE; } else { ext->btn_id_pr = 0; } #else ext->btn_id_pr = 0; #endif lv_obj_invalidate(btnm); } else if(sign == LV_SIGNAL_CONTROLL) { char c = *((char *)param); if(c == LV_GROUP_KEY_RIGHT) { if(ext->btn_id_pr == LV_BTNM_PR_NONE) ext->btn_id_pr = 0; else ext->btn_id_pr++; if(ext->btn_id_pr >= ext->btn_cnt - 1) ext->btn_id_pr = ext->btn_cnt - 1; lv_obj_invalidate(btnm); } else if(c == LV_GROUP_KEY_LEFT) { if(ext->btn_id_pr == LV_BTNM_PR_NONE) ext->btn_id_pr = 0; if(ext->btn_id_pr > 0) ext->btn_id_pr--; lv_obj_invalidate(btnm); } else if(c == LV_GROUP_KEY_DOWN) { lv_style_t * style = lv_btnm_get_style(btnm, LV_BTNM_STYLE_BG); /*Find the area below the the current*/ if(ext->btn_id_pr == LV_BTNM_PR_NONE) { ext->btn_id_pr = 0; } else { uint16_t area_below; lv_coord_t pr_center = ext->button_areas[ext->btn_id_pr].x1 + (lv_area_get_width(&ext->button_areas[ext->btn_id_pr]) >> 1); for(area_below = ext->btn_id_pr; area_below < ext->btn_cnt; area_below ++) { if(ext->button_areas[area_below].y1 > ext->button_areas[ext->btn_id_pr].y1 && pr_center >= ext->button_areas[area_below].x1 && pr_center <= ext->button_areas[area_below].x2 + style->body.padding.hor) { break; } } if(area_below < ext->btn_cnt) ext->btn_id_pr = area_below; } lv_obj_invalidate(btnm); } else if(c == LV_GROUP_KEY_UP) { lv_style_t * style = lv_btnm_get_style(btnm, LV_BTNM_STYLE_BG); /*Find the area below the the current*/ if(ext->btn_id_pr == LV_BTNM_PR_NONE) { ext->btn_id_pr = 0; } else { int16_t area_above; lv_coord_t pr_center = ext->button_areas[ext->btn_id_pr].x1 + (lv_area_get_width(&ext->button_areas[ext->btn_id_pr]) >> 1); for(area_above = ext->btn_id_pr; area_above >= 0; area_above --) { if(ext->button_areas[area_above].y1 < ext->button_areas[ext->btn_id_pr].y1 && pr_center >= ext->button_areas[area_above].x1 - style->body.padding.hor && pr_center <= ext->button_areas[area_above].x2) { break; } } if(area_above >= 0) ext->btn_id_pr = area_above; } lv_obj_invalidate(btnm); } else if(c == LV_GROUP_KEY_ENTER) { if(ext->action != NULL) { uint16_t txt_i = get_button_text(btnm, ext->btn_id_pr); if(txt_i != LV_BTNM_PR_NONE) { res = ext->action(btnm, cut_ctrl_byte(ext->map_p[txt_i])); } } } } else if(sign == LV_SIGNAL_GET_EDITABLE) { bool * editable = (bool *)param; *editable = true; } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_btnm"; } return res; } /** * Create the required number of buttons according to a map * @param btnm pointer to button matrix object * @param map_p pointer to a string array */ static void allocate_btn_areas(lv_obj_t * btnm, const char ** map) { /*Count the buttons in the map*/ uint16_t btn_cnt = 0; uint16_t i = 0; while(strlen(map[i]) != 0) { if(strcmp(map[i], "\n") != 0) { /*Do not count line breaks*/ btn_cnt ++; } i++; } lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); if(ext->button_areas != NULL) { lv_mem_free(ext->button_areas); ext->button_areas = NULL; } ext->button_areas = lv_mem_alloc(sizeof(lv_area_t) * btn_cnt); lv_mem_assert(ext->button_areas); if(ext->button_areas == NULL) btn_cnt = 0; ext->btn_cnt = btn_cnt; } /** * Get the width of a button in units. It comes from the first "letter". * @param btn_str The descriptor string of a button. E.g. "apple" or "\004banana" * @return the width of the button in units */ static uint8_t get_button_width(const char * btn_str) { if((btn_str[0] & LV_BTNM_CTRL_MASK) == LV_BTNM_CTRL_CODE) { return btn_str[0] & LV_BTNM_WIDTH_MASK; } return 1; /*Default width is 1*/ } static bool button_is_hidden(const char * btn_str) { /*If control byte presents and hidden bit is '1' then the button is hidden*/ if(((btn_str[0] & LV_BTNM_CTRL_MASK) == LV_BTNM_CTRL_CODE) && (btn_str[0] & LV_BTNM_HIDE_MASK)) { return true; } return false; } static bool button_is_repeat_disabled(const char * btn_str) { /*If control byte presents and hidden bit is '1' then the button is hidden*/ if(((btn_str[0] & LV_BTNM_CTRL_MASK) == LV_BTNM_CTRL_CODE) && (btn_str[0] & LV_BTNM_REPEAT_DISABLE_MASK)) { return true; } return false; } static bool button_is_inactive(const char * btn_str) { /*If control byte presents and hidden bit is '1' then the button is hidden*/ if(((btn_str[0] & LV_BTNM_CTRL_MASK) == LV_BTNM_CTRL_CODE) && (btn_str[0] & LV_BTNM_INACTIVE_MASK)) { return true; } return false; } const char * cut_ctrl_byte(const char * btn_str) { /*Cut the control byte if present*/ if((btn_str[0] & LV_BTNM_CTRL_MASK) == LV_BTNM_CTRL_CODE) return &btn_str[1]; else return btn_str; } /** * Gives the button id of a button under a given point * @param btnm pointer to a button matrix object * @param p a point with absolute coordinates * @return the id of the button or LV_BTNM_PR_NONE. */ static uint16_t get_button_from_point(lv_obj_t * btnm, lv_point_t * p) { lv_area_t btnm_cords; lv_area_t btn_area; lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); uint16_t i; lv_obj_get_coords(btnm, &btnm_cords); for(i = 0; i < ext->btn_cnt; i++) { lv_area_copy(&btn_area, &ext->button_areas[i]); btn_area.x1 += btnm_cords.x1; btn_area.y1 += btnm_cords.y1; btn_area.x2 += btnm_cords.x1; btn_area.y2 += btnm_cords.y1; if(lv_area_is_point_on(&btn_area, p) != false) { break; } } if(i == ext->btn_cnt) i = LV_BTNM_PR_NONE; return i; } /** * Get the text of a button * @param btnm pointer to a button matrix object * @param btn_id button id * @return text id in ext->map_p or LV_BTNM_PR_NONE if 'btn_id' was invalid */ static uint16_t get_button_text(lv_obj_t * btnm, uint16_t btn_id) { lv_btnm_ext_t * ext = lv_obj_get_ext_attr(btnm); if(btn_id > ext->btn_cnt) return LV_BTNM_PR_NONE; uint16_t txt_i = 0; uint16_t btn_i = 0; /* Search the text of ext->btn_pr the buttons text in the map * Skip "\n"-s*/ while(btn_i != btn_id) { btn_i ++; txt_i ++; if(strcmp(ext->map_p[txt_i], "\n") == 0) txt_i ++; } if(btn_i == ext->btn_cnt) return LV_BTNM_PR_NONE; return txt_i; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_btnm.h ================================================ /** * @file lv_btnm.h * */ #ifndef LV_BTNM_H #define LV_BTNM_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_BTNM != 0 #include "../lv_core/lv_obj.h" #include "lv_label.h" #include "lv_btn.h" /********************* * DEFINES *********************/ /*Control byte*/ #define LV_BTNM_CTRL_CODE 0x80 /*The control byte has to begin (if present) with 0b10xxxxxx*/ #define LV_BTNM_CTRL_MASK 0xC0 #define LV_BTNM_WIDTH_MASK 0x07 #define LV_BTNM_HIDE_MASK 0x08 #define LV_BTNM_REPEAT_DISABLE_MASK 0x10 #define LV_BTNM_INACTIVE_MASK 0x20 #define LV_BTNM_PR_NONE 0xFFFF /********************** * TYPEDEFS **********************/ /* Type of callback function which is called when a button is released or long pressed on the button matrix * Parameters: button matrix, text of the released button * return LV_ACTION_RES_INV if the button matrix is deleted else LV_ACTION_RES_OK*/ typedef lv_res_t (*lv_btnm_action_t) (lv_obj_t *, const char *txt); /*Data of button matrix*/ typedef struct { /*No inherited ext.*/ /*Ext. of ancestor*/ /*New data for this type */ const char ** map_p; /*Pointer to the current map*/ lv_area_t *button_areas; /*Array of areas of buttons*/ lv_btnm_action_t action; /*A function to call when a button is releases*/ lv_style_t *styles_btn[LV_BTN_STATE_NUM]; /*Styles of buttons in each state*/ uint16_t btn_cnt; /*Number of button in 'map_p'(Handled by the library)*/ uint16_t btn_id_pr; /*Index of the currently pressed button (in `button_areas`) or LV_BTNM_PR_NONE*/ uint16_t btn_id_tgl; /*Index of the currently toggled button (in `button_areas`) or LV_BTNM_PR_NONE */ uint8_t toggle :1; /*Enable toggling*/ uint8_t recolor :1; /*Enable button recoloring*/ } lv_btnm_ext_t; enum { LV_BTNM_STYLE_BG, LV_BTNM_STYLE_BTN_REL, LV_BTNM_STYLE_BTN_PR, LV_BTNM_STYLE_BTN_TGL_REL, LV_BTNM_STYLE_BTN_TGL_PR, LV_BTNM_STYLE_BTN_INA, }; typedef uint8_t lv_btnm_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a button matrix objects * @param par pointer to an object, it will be the parent of the new button matrix * @param copy pointer to a button matrix object, if not NULL then the new object will be copied from it * @return pointer to the created button matrix */ lv_obj_t * lv_btnm_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set a new map. Buttons will be created/deleted according to the map. * @param btnm pointer to a button matrix object * @param map pointer a string array. The last string has to be: "". * Use "\n" to begin a new line. * The first byte can be a control data: * - bit 7: always 1 * - bit 6: always 0 * - bit 5: inactive (disabled) * - bit 4: no repeat (on long press) * - bit 3: hidden * - bit 2..0: button relative width * Example (practically use octal numbers): "\224abc": "abc" text with 4 width and no long press */ void lv_btnm_set_map(lv_obj_t * btnm, const char ** map); /** * Set a new callback function for the buttons (It will be called when a button is released) * @param btnm: pointer to button matrix object * @param action pointer to a callback function */ void lv_btnm_set_action(lv_obj_t * btnm, lv_btnm_action_t action); /** * Enable or disable button toggling * @param btnm pointer to button matrix object * @param en true: enable toggling; false: disable toggling * @param id index of the currently toggled button (ignored if 'en' == false) */ void lv_btnm_set_toggle(lv_obj_t * btnm, bool en, uint16_t id); /** * Set a style of a button matrix * @param btnm pointer to a button matrix object * @param type which style should be set * @param style pointer to a style */ void lv_btnm_set_style(lv_obj_t *btnm, lv_btnm_style_t type, lv_style_t *style); /** * Set whether recoloring is enabled * @param btnm pointer to button matrix object * @param en whether recoloring is enabled */ void lv_btnm_set_recolor(const lv_obj_t * btnm, bool en); /*===================== * Getter functions *====================*/ /** * Get the current map of a button matrix * @param btnm pointer to a button matrix object * @return the current map */ const char ** lv_btnm_get_map(const lv_obj_t * btnm); /** * Get a the callback function of the buttons on a button matrix * @param btnm: pointer to button matrix object * @return pointer to the callback function */ lv_btnm_action_t lv_btnm_get_action(const lv_obj_t * btnm); /** * Get the pressed button * @param btnm pointer to button matrix object * @return index of the currently pressed button (LV_BTNM_PR_NONE: if unset) */ uint16_t lv_btnm_get_pressed(const lv_obj_t * btnm); /** * Get the toggled button * @param btnm pointer to button matrix object * @return index of the currently toggled button (LV_BTNM_PR_NONE: if unset) */ uint16_t lv_btnm_get_toggled(const lv_obj_t * btnm); /** * Get a style of a button matrix * @param btnm pointer to a button matrix object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_btnm_get_style(const lv_obj_t *btnm, lv_btnm_style_t type); /** * Find whether recoloring is enabled * @param btnm pointer to button matrix object * @return whether recoloring is enabled */ bool lv_btnm_get_recolor(const lv_obj_t * btnm); /********************** * MACROS **********************/ #endif /*USE_LV_BTNM*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_BTNM_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_calendar.c ================================================ /** * @file lv_calendar.c * */ /********************* * INCLUDES *********************/ #include "lv_calendar.h" #if USE_LV_CALENDAR != 0 #include "../lv_draw/lv_draw.h" #include "../lv_hal/lv_hal_indev.h" #include "../lv_misc/lv_math.h" #include "../lv_core/lv_indev.h" #include "../lv_themes/lv_theme.h" //#include /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ enum { DAY_DRAW_PREV_MONTH, DAY_DRAW_ACT_MONTH, DAY_DRAW_NEXT_MONTH, }; typedef uint8_t day_draw_state_t; /********************** * STATIC PROTOTYPES **********************/ static bool lv_calendar_design(lv_obj_t * calendar, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_calendar_signal(lv_obj_t * calendar, lv_signal_t sign, void * param); static bool calculate_touched_day(lv_obj_t * calendar, const lv_point_t * touched_point); static lv_coord_t get_header_height(lv_obj_t * calendar); static lv_coord_t get_day_names_height(lv_obj_t * calendar); static void draw_header(lv_obj_t * calendar, const lv_area_t * mask); static void draw_day_names(lv_obj_t * calendar, const lv_area_t * mask); static void draw_days(lv_obj_t * calendar, const lv_area_t * mask); static uint8_t get_day_of_week(uint32_t year, uint32_t month, uint32_t day); static bool is_highlighted(lv_obj_t * calendar, int32_t year, int32_t month, int32_t day); static const char * get_day_name(lv_obj_t * calendar, uint8_t day); static const char * get_month_name(lv_obj_t * calendar, int32_t month); static uint8_t get_month_length(int32_t year, int32_t month); static uint8_t is_leap_year(uint32_t year); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_design_func_t ancestor_design; static const char * day_name[7] = {"Su", "Mo", "Tu", "We", "Th", "Fr", "Sa"}; static const char * month_name[12] = {"January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December" }; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a calendar object * @param par pointer to an object, it will be the parent of the new calendar * @param copy pointer to a calendar object, if not NULL then the new object will be copied from it * @return pointer to the created calendar */ lv_obj_t * lv_calendar_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("calendar create started"); /*Create the ancestor of calendar*/ lv_obj_t * new_calendar = lv_obj_create(par, copy); lv_mem_assert(new_calendar); if(new_calendar == NULL) return NULL; /*Allocate the calendar type specific extended data*/ lv_calendar_ext_t * ext = lv_obj_allocate_ext_attr(new_calendar, sizeof(lv_calendar_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_calendar); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_calendar); /*Initialize the allocated 'ext' */ ext->today.year = 2018; ext->today.month = 1; ext->today.day = 1; ext->showed_date.year = 2018; ext->showed_date.month = 1; ext->showed_date.day = 1; ext->pressed_date.year = 0; ext->pressed_date.month = 0; ext->pressed_date.day = 0; ext->highlighted_dates = NULL; ext->highlighted_dates_num = 0; ext->day_names = NULL; ext->month_names = NULL; ext->actions[LV_CALENDAR_ACTION_PR] = NULL; ext->actions[LV_CALENDAR_ACTION_CLICK] = NULL; ext->actions[LV_CALENDAR_ACTION_LONG_PR] = NULL; ext->actions[LV_CALENDAR_ACTION_LONG_PR_REPEAT] = NULL; ext->style_header = &lv_style_plain_color; ext->style_header_pr = &lv_style_pretty_color; ext->style_highlighted_days = &lv_style_plain_color; ext->style_inactive_days = &lv_style_btn_ina; ext->style_week_box = &lv_style_plain_color; ext->style_today_box = &lv_style_pretty_color; ext->style_day_names = &lv_style_pretty; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_calendar, lv_calendar_signal); lv_obj_set_design_func(new_calendar, lv_calendar_design); /*Init the new calendar calendar*/ if(copy == NULL) { lv_obj_set_size(new_calendar, LV_DPI * 2, LV_DPI * 2); lv_obj_set_style(new_calendar, &lv_style_pretty); lv_theme_t * th = lv_theme_get_current(); if(th) { lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_BG, th->calendar.bg); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_HEADER, th->calendar.header); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_HEADER_PR, th->calendar.header_pr); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_DAY_NAMES, th->calendar.day_names); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_WEEK_BOX, th->calendar.week_box); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_TODAY_BOX, th->calendar.today_box); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_HIGHLIGHTED_DAYS, th->calendar.highlighted_days); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_INACTIVE_DAYS, th->calendar.inactive_days); } else { lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_BG, &lv_style_pretty); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_HEADER, ext->style_header); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_HEADER_PR, ext->style_header_pr); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_DAY_NAMES, ext->style_day_names); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_WEEK_BOX, ext->style_week_box); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_TODAY_BOX, ext->style_today_box); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_HIGHLIGHTED_DAYS, ext->style_highlighted_days); lv_calendar_set_style(new_calendar, LV_CALENDAR_STYLE_INACTIVE_DAYS, ext->style_inactive_days); } } /*Copy an existing calendar*/ else { lv_calendar_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->today.year = copy_ext->today.year; ext->today.month = copy_ext->today.month; ext->today.day = copy_ext->today.day; ext->showed_date.year = copy_ext->showed_date.year; ext->showed_date.month = copy_ext->showed_date.month; ext->showed_date.day = copy_ext->showed_date.day; ext->highlighted_dates = copy_ext->highlighted_dates; ext->highlighted_dates_num = copy_ext->highlighted_dates_num; ext->day_names = copy_ext->day_names; memcpy(ext->actions, copy_ext->actions, sizeof(ext->actions)); ext->month_names = copy_ext->month_names; ext->style_header = copy_ext->style_header; ext->style_header_pr = copy_ext->style_header_pr; ext->style_highlighted_days = copy_ext->style_highlighted_days; ext->style_inactive_days = copy_ext->style_inactive_days; ext->style_week_box = copy_ext->style_week_box; ext->style_today_box = copy_ext->style_today_box; ext->style_day_names = copy_ext->style_day_names; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_calendar); } LV_LOG_INFO("calendar created"); return new_calendar; } /*====================== * Add/remove functions *=====================*/ /* * New object specific "add" or "remove" functions come here */ /*===================== * Setter functions *====================*/ /** * Set a function to call when a calendar event happens * @param calendar pointer to a calendar object * @param action type of event form 'lv_action_t' (press, release, long press, long press repeat) */ void lv_calendar_set_action(lv_obj_t * calendar, lv_calendar_action_t type, lv_action_t action) { if(type >= LV_CALENDAR_ACTION_NUM) return; lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); ext->actions[type] = action; } /** * Set the today's date * @param calendar pointer to a calendar object * @param today pointer to an `lv_calendar_date_t` variable containing the date of today. The value will be saved it can be local variable too. */ void lv_calendar_set_today_date(lv_obj_t * calendar, lv_calendar_date_t * today) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); ext->today.year = today->year; ext->today.month = today->month; ext->today.day = today->day; lv_obj_invalidate(calendar); } /** * Set the currently showed * @param calendar pointer to a calendar object * @param showed pointer to an `lv_calendar_date_t` variable containing the date to show. The value will be saved it can be local variable too. */ void lv_calendar_set_showed_date(lv_obj_t * calendar, lv_calendar_date_t * showed) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); ext->showed_date.year = showed->year; ext->showed_date.month = showed->month; ext->showed_date.day = showed->day; lv_obj_invalidate(calendar); } /** * Set the the highlighted dates * @param calendar pointer to a calendar object * @param highlighted pointer to an `lv_calendar_date_t` array containing the dates. ONLY A POINTER WILL BE SAVED! CAN'T BE LOCAL ARRAY. * @param date_num number of dates in the array */ void lv_calendar_set_highlighted_dates(lv_obj_t * calendar, lv_calendar_date_t * highlighted, uint16_t date_num) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); ext->highlighted_dates = highlighted; ext->highlighted_dates_num = date_num; lv_obj_invalidate(calendar); } /** * Set the name of the days * @param calendar pointer to a calendar object * @param day_names pointer to an array with the names. E.g. `const char * days[7] = {"Sun", "Mon", ...}` * Only the pointer will be saved so this variable can't be local which will be destroyed later. */ void lv_calendar_set_day_names(lv_obj_t * calendar, const char ** day_names) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); ext->day_names = day_names; lv_obj_invalidate(calendar); } /** * Set the name of the month * @param calendar pointer to a calendar object * @param day_names pointer to an array with the names. E.g. `const char * days[12] = {"Jan", "Feb", ...}` * Only the pointer will be saved so this variable can't be local which will be destroyed later. */ void lv_calendar_set_month_names(lv_obj_t * calendar, const char ** day_names) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); ext->month_names = day_names; lv_obj_invalidate(calendar); } /** * Set a style of a calendar. * @param calendar pointer to calendar object * @param type which style should be set * @param style pointer to a style * */ void lv_calendar_set_style(lv_obj_t * calendar, lv_calendar_style_t type, lv_style_t * style) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); switch(type) { case LV_CALENDAR_STYLE_BG: lv_obj_set_style(calendar, style); break; case LV_CALENDAR_STYLE_DAY_NAMES: ext->style_day_names = style; break; case LV_CALENDAR_STYLE_HEADER: ext->style_header = style; break; case LV_CALENDAR_STYLE_HEADER_PR: ext->style_header_pr = style; break; case LV_CALENDAR_STYLE_HIGHLIGHTED_DAYS: ext->style_highlighted_days = style; break; case LV_CALENDAR_STYLE_INACTIVE_DAYS: ext->style_inactive_days = style; break; case LV_CALENDAR_STYLE_TODAY_BOX: ext->style_today_box = style; break; case LV_CALENDAR_STYLE_WEEK_BOX: ext->style_week_box = style; break; } lv_obj_invalidate(calendar); } /*===================== * Getter functions *====================*/ /** * Get the action of a calendar * @param calendar pointer to a calendar object * @return pointer to the action function */ lv_action_t lv_calendar_get_action(const lv_obj_t * calendar, lv_calendar_action_t type) { if(type >= LV_CALENDAR_ACTION_NUM) return NULL; lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); return ext->actions[type]; } /** * Get the today's date * @param calendar pointer to a calendar object * @return return pointer to an `lv_calendar_date_t` variable containing the date of today. */ lv_calendar_date_t * lv_calendar_get_today_date(const lv_obj_t * calendar) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); return &ext->today; } /** * Get the currently showed * @param calendar pointer to a calendar object * @return pointer to an `lv_calendar_date_t` variable containing the date is being shown. */ lv_calendar_date_t * lv_calendar_get_showed_date(const lv_obj_t * calendar) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); return &ext->showed_date; } /** * Get the the pressed date. * @param calendar pointer to a calendar object * @return pointer to an `lv_calendar_date_t` variable containing the pressed date. */ lv_calendar_date_t * lv_calendar_get_pressed_date(const lv_obj_t * calendar) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); return &ext->pressed_date; } /** * Get the the highlighted dates * @param calendar pointer to a calendar object * @return pointer to an `lv_calendar_date_t` array containing the dates. */ lv_calendar_date_t * lv_calendar_get_highlighted_dates(const lv_obj_t * calendar) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); return ext->highlighted_dates; } /** * Get the number of the highlighted dates * @param calendar pointer to a calendar object * @return number of highlighted days */ uint16_t lv_calendar_get_highlighted_dates_num(const lv_obj_t * calendar) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); return ext->highlighted_dates_num; } /** * Get the name of the days * @param calendar pointer to a calendar object * @return pointer to the array of day names */ const char ** lv_calendar_get_day_names(const lv_obj_t * calendar) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); return ext->day_names; } /** * Get the name of the month * @param calendar pointer to a calendar object * @return pointer to the array of month names */ const char ** lv_calendar_get_month_names(const lv_obj_t * calendar) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); return ext->month_names; } /** * Get style of a calendar. * @param calendar pointer to calendar object * @param type which style should be get * @return style pointer to the style * */ lv_style_t * lv_calendar_get_style(const lv_obj_t * calendar, lv_calendar_style_t type) { lv_style_t * style = NULL; lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); switch(type) { case LV_CALENDAR_STYLE_BG: style = lv_obj_get_style(calendar); break; case LV_CALENDAR_STYLE_HEADER: style = ext->style_header; break; case LV_CALENDAR_STYLE_HEADER_PR: style = ext->style_header_pr; break; case LV_CALENDAR_STYLE_DAY_NAMES: style = ext->style_day_names; break; case LV_CALENDAR_STYLE_HIGHLIGHTED_DAYS: style = ext->style_highlighted_days; break; case LV_CALENDAR_STYLE_INACTIVE_DAYS: style = ext->style_inactive_days; break; case LV_CALENDAR_STYLE_WEEK_BOX: style = ext->style_week_box; break; case LV_CALENDAR_STYLE_TODAY_BOX: style = ext->style_today_box; break; default: style = NULL; break; } return style; } /*===================== * Other functions *====================*/ /* * New object specific "other" functions come here */ /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the calendars * @param calendar pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_calendar_design(lv_obj_t * calendar, const lv_area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { return false; } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { lv_opa_t opa_scale = lv_obj_get_opa_scale(calendar); lv_draw_rect(&calendar->coords, mask, lv_calendar_get_style(calendar, LV_CALENDAR_STYLE_BG), opa_scale); draw_header(calendar, mask); draw_day_names(calendar, mask); draw_days(calendar, mask); } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { } return true; } /** * Signal function of the calendar * @param calendar pointer to a calendar object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_calendar_signal(lv_obj_t * calendar, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(calendar, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_CLEANUP) { /*Nothing to cleanup. (No dynamically allocated memory in 'ext')*/ } else if(sign == LV_SIGNAL_PRESSED) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); /*Call the press action, 'param' is the caller indev_proc*/ if(ext->actions[LV_CALENDAR_ACTION_PR]) { lv_indev_t * indev = lv_indev_get_act(); lv_point_t p; lv_indev_get_point(indev, &p); if(calculate_touched_day(calendar, &p)){ if(ext->btn_pressing != 0) lv_obj_invalidate(calendar); ext->btn_pressing = 0; res = ext->actions[LV_CALENDAR_ACTION_PR](calendar); } } } else if(sign == LV_SIGNAL_PRESSING) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); lv_area_t header_area; lv_area_copy(&header_area, &calendar->coords); header_area.y2 = header_area.y1 + get_header_height(calendar); lv_indev_t * indev = lv_indev_get_act(); lv_point_t p; lv_indev_get_point(indev, &p); if(lv_area_is_point_on(&header_area, &p)) { if(p.x < header_area.x1 + lv_area_get_width(&header_area) / 2) { if(ext->btn_pressing != -1) lv_obj_invalidate(calendar); ext->btn_pressing = -1; } else { if(ext->btn_pressing != 1) lv_obj_invalidate(calendar); ext->btn_pressing = 1; } ext->pressed_date.year = 0; } else if(calculate_touched_day(calendar, &p)) { if(ext->btn_pressing != 0) lv_obj_invalidate(calendar); ext->btn_pressing = 0; } else { if(ext->btn_pressing != 0) lv_obj_invalidate(calendar); ext->btn_pressing = 0; ext->pressed_date.year = 0; } } else if(sign == LV_SIGNAL_PRESS_LOST) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); ext->pressed_date.year = 0; ext->btn_pressing = 0; lv_obj_invalidate(calendar); } else if(sign == LV_SIGNAL_RELEASED) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); if(ext->btn_pressing < 0) { if(ext->showed_date.month <= 1) { ext->showed_date.month = 12; ext->showed_date.year --; } else { ext->showed_date.month --; } } else if(ext->btn_pressing > 0) { if(ext->showed_date.month >= 12) { ext->showed_date.month = 1; ext->showed_date.year ++; } else { ext->showed_date.month ++; } } else if(ext->pressed_date.year != 0) { if(ext->actions[LV_CALENDAR_ACTION_CLICK]) { res = ext->actions[LV_CALENDAR_ACTION_CLICK](calendar); } } ext->pressed_date.year = 0; ext->btn_pressing = 0; lv_obj_invalidate(calendar); } else if(sign == LV_SIGNAL_LONG_PRESS) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); if(ext->actions[LV_CALENDAR_ACTION_LONG_PR] && (ext->pressed_date.year != 0)) { res = ext->actions[LV_CALENDAR_ACTION_LONG_PR](calendar); } } else if(sign == LV_SIGNAL_LONG_PRESS_REP) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); if(ext->actions[LV_CALENDAR_ACTION_LONG_PR_REPEAT] && (ext->pressed_date.year != 0)) { res = ext->actions[LV_CALENDAR_ACTION_LONG_PR_REPEAT](calendar); } } else if(sign == LV_SIGNAL_CONTROLL) { uint8_t c = *((uint8_t *) param); lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); if(c == LV_GROUP_KEY_RIGHT || c == LV_GROUP_KEY_UP) { if(ext->showed_date.month >= 12) { ext->showed_date.month = 1; ext->showed_date.year ++; } else { ext->showed_date.month ++; } lv_obj_invalidate(calendar); } else if(c == LV_GROUP_KEY_LEFT || c == LV_GROUP_KEY_DOWN) { if(ext->showed_date.month <= 1) { ext->showed_date.month = 12; ext->showed_date.year --; } else { ext->showed_date.month --; } lv_obj_invalidate(calendar); } } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set date*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_calendar"; } return res; } /** * It will check if the days part of calendar is touched * and if it is, it will calculate the day and put it in pressed_date of calendar object. * @param calendar pointer to a calendar object * @param pointer to a point * @return true: days part of calendar is touched and its related date is put in pressed date * false: the point is out of days part area. */ static bool calculate_touched_day(lv_obj_t * calendar, const lv_point_t * touched_point) { lv_area_t days_area; lv_area_copy(&days_area, &calendar->coords); lv_style_t * style_bg = lv_calendar_get_style(calendar, LV_CALENDAR_STYLE_BG); days_area.x1 += style_bg->body.padding.hor; days_area.x2 -= style_bg->body.padding.hor; days_area.y1 = calendar->coords.y1 + get_header_height(calendar) + get_day_names_height(calendar) - style_bg->body.padding.ver; if(lv_area_is_point_on(&days_area, touched_point)) { lv_coord_t w = (days_area.x2 - days_area.x1 + 1) / 7; lv_coord_t h = (days_area.y2 - days_area.y1 + 1) / 6; uint8_t x_pos = 0; x_pos = (touched_point->x - days_area.x1) / w; if(x_pos > 6) x_pos = 6; uint8_t y_pos = 0; y_pos = (touched_point->y - days_area.y1) / h; if(y_pos > 5) y_pos = 5; uint8_t i_pos = 0; i_pos = (y_pos * 7) + x_pos; lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); if(i_pos < get_day_of_week(ext->showed_date.year, ext->showed_date.month, 1) ) { ext->pressed_date.year = ext->showed_date.year - (ext->showed_date.month == 1 ? 1 : 0); ext->pressed_date.month = ext->showed_date.month == 1 ? 12 : (ext->showed_date.month - 1); ext->pressed_date.day = get_month_length(ext->pressed_date.year, ext->pressed_date.month) - get_day_of_week(ext->showed_date.year, ext->showed_date.month, 1) + 1 + i_pos; } else if(i_pos < (get_day_of_week(ext->showed_date.year, ext->showed_date.month, 1) + get_month_length(ext->showed_date.year, ext->showed_date.month))) { ext->pressed_date.year = ext->showed_date.year; ext->pressed_date.month = ext->showed_date.month; ext->pressed_date.day = i_pos + 1 - get_day_of_week(ext->showed_date.year, ext->showed_date.month, 1); } else if(i_pos < 42) { ext->pressed_date.year = ext->showed_date.year + (ext->showed_date.month == 12 ? 1 : 0); ext->pressed_date.month = ext->showed_date.month == 12 ? 1 : (ext->showed_date.month + 1); ext->pressed_date.day = i_pos + 1 - get_day_of_week(ext->showed_date.year, ext->showed_date.month, 1) - get_month_length(ext->showed_date.year, ext->showed_date.month); } return true; }else { return false; } } /** * Get the height of a calendar's header based on it's style * @param calendar point to a calendar * @return the header's height */ static lv_coord_t get_header_height(lv_obj_t * calendar) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); return lv_font_get_height(ext->style_header->text.font) + ext->style_header->body.padding.ver * 2; } /** * Get the height of a calendar's day_names based on it's style * @param calendar point to a calendar * @return the day_names's height */ static lv_coord_t get_day_names_height(lv_obj_t * calendar) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); return lv_font_get_height(ext->style_day_names->text.font) + ext->style_day_names->body.padding.ver * 2; } /** * Draw the calendar header with month name and arrows * @param calendar point to a calendar * @param mask a mask for drawing */ static void draw_header(lv_obj_t * calendar, const lv_area_t * mask) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); lv_opa_t opa_scale = lv_obj_get_opa_scale(calendar); lv_area_t header_area; header_area.x1 = calendar->coords.x1; header_area.x2 = calendar->coords.x2; header_area.y1 = calendar->coords.y1; header_area.y2 = calendar->coords.y1 + get_header_height(calendar); lv_draw_rect(&header_area, mask, ext->style_header, opa_scale); /*Add the year + month name*/ char txt_buf[64]; lv_math_num_to_str(ext->showed_date.year, txt_buf); txt_buf[4] = ' '; txt_buf[5] = '\0'; strcpy(&txt_buf[5], get_month_name(calendar, ext->showed_date.month)); header_area.y1 += ext->style_header->body.padding.ver; lv_draw_label(&header_area, mask, ext->style_header, opa_scale, txt_buf, LV_TXT_FLAG_CENTER, NULL); /*Add the left arrow*/ lv_style_t * arrow_style = ext->btn_pressing < 0 ? ext->style_header_pr : ext->style_header; header_area.x1 += ext->style_header->body.padding.hor; lv_draw_label(&header_area, mask, arrow_style, opa_scale, SYMBOL_LEFT, LV_TXT_FLAG_NONE, NULL); /*Add the right arrow*/ arrow_style = ext->btn_pressing > 0 ? ext->style_header_pr : ext->style_header; header_area.x1 = header_area.x2 - ext->style_header->body.padding.hor - lv_txt_get_width(SYMBOL_RIGHT, strlen(SYMBOL_RIGHT), arrow_style->text.font, arrow_style->text.line_space, LV_TXT_FLAG_NONE); lv_draw_label(&header_area, mask, arrow_style, opa_scale, SYMBOL_RIGHT, LV_TXT_FLAG_NONE, NULL); } /** * Draw the day's name below the header * @param calendar point to a calendar * @param mask a mask for drawing */ static void draw_day_names(lv_obj_t * calendar, const lv_area_t * mask) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); lv_opa_t opa_scale = lv_obj_get_opa_scale(calendar); lv_coord_t hpad = ext->style_day_names->body.padding.hor; lv_coord_t w = lv_obj_get_width(calendar) - 2 * hpad; lv_coord_t box_w = w / 7; lv_area_t label_area; label_area.y1 = calendar->coords.y1 + get_header_height(calendar) + ext->style_day_names->body.padding.ver; label_area.y2 = label_area.y1 + lv_font_get_height(ext->style_day_names->text.font); uint32_t i; for(i = 0; i < 7; i++) { label_area.x1 = calendar->coords.x1 + (w * i) / 7 + hpad; label_area.x2 = label_area.x1 + box_w; lv_draw_label(&label_area, mask, ext->style_day_names, opa_scale, get_day_name(calendar, i), LV_TXT_FLAG_CENTER, NULL); } } /** * Draw the date numbers in a matrix * @param calendar point to a calendar * @param mask a mask for drawing */ static void draw_days(lv_obj_t * calendar, const lv_area_t * mask) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); lv_style_t * style_bg = lv_calendar_get_style(calendar, LV_CALENDAR_STYLE_BG); lv_coord_t hpad = style_bg->body.padding.hor; lv_area_t label_area; lv_opa_t opa_scale = lv_obj_get_opa_scale(calendar); label_area.y1 = calendar->coords.y1 + get_header_height(calendar) + ext->style_day_names->body.padding.ver + lv_font_get_height(ext->style_day_names->text.font) + ext->style_day_names->body.padding.ver; label_area.y2 = label_area.y1 + lv_font_get_height(style_bg->text.font); lv_coord_t w = lv_obj_get_width(calendar) - 2 * hpad; lv_coord_t h = calendar->coords.y2 - label_area.y1 - style_bg->body.padding.ver; lv_coord_t box_w = w / 7; lv_coord_t vert_space = (h - (6 * lv_font_get_height(style_bg->text.font))) / 5; uint32_t week; uint8_t day_cnt; uint8_t month_start_day = get_day_of_week(ext->showed_date.year, ext->showed_date.month, 1); day_draw_state_t draw_state; /*true: Not the prev. or next month is drawn*/ lv_style_t * act_style; /*If starting with the first day of the week then the previous month is not visible*/ if(month_start_day == 0) { day_cnt = 1; draw_state = DAY_DRAW_ACT_MONTH; act_style = style_bg; } else { draw_state = DAY_DRAW_PREV_MONTH; day_cnt = get_month_length(ext->showed_date.year, ext->showed_date.month - 1); /*Length of the previous month*/ day_cnt -= month_start_day - 1; /*First visible number of the previous month*/ act_style = ext->style_inactive_days; } bool month_of_today_shown = false; if(ext->showed_date.year == ext->today.year && ext->showed_date.month == ext->today.month) { month_of_today_shown = true; } char buf[3]; bool in_week_box = false; /*Draw 6 weeks*/ for(week = 0; week < 6; week++) { /*Draw the "week box"*/ if(month_of_today_shown && ((draw_state == DAY_DRAW_ACT_MONTH && ext->today.day >= day_cnt && ext->today.day < day_cnt + 7) || (draw_state == DAY_DRAW_PREV_MONTH && ext->today.day <= 7 - month_start_day && week == 0))) { lv_area_t week_box_area; lv_area_copy(&week_box_area, &label_area); /*'label_area' is already set for this row*/ week_box_area.x1 = calendar->coords.x1 + style_bg->body.padding.hor - ext->style_week_box->body.padding.hor; week_box_area.x2 = calendar->coords.x2 - style_bg->body.padding.hor + ext->style_week_box->body.padding.hor; week_box_area.y1 -= ext->style_week_box->body.padding.ver; week_box_area.y2 += ext->style_week_box->body.padding.ver; lv_draw_rect(&week_box_area, mask, ext->style_week_box, opa_scale); in_week_box = true; } else { in_week_box = false; } /*Draw the 7 days of a week*/ uint32_t day; for(day = 0; day < 7; day++) { /*The previous month is over*/ if(draw_state == DAY_DRAW_PREV_MONTH && day == month_start_day) { draw_state = DAY_DRAW_ACT_MONTH; day_cnt = 1; act_style = style_bg; } /*The current month is over*/ if(draw_state == DAY_DRAW_ACT_MONTH && day_cnt > get_month_length(ext->showed_date.year, ext->showed_date.month)) { draw_state = DAY_DRAW_NEXT_MONTH; day_cnt = 1; act_style = ext->style_inactive_days; } label_area.x1 = calendar->coords.x1 + (w * day) / 7 + hpad; label_area.x2 = label_area.x1 + box_w; /*Draw the "today box"*/ if(draw_state == DAY_DRAW_ACT_MONTH && month_of_today_shown && ext->today.day == day_cnt) { lv_area_t today_box_area; lv_area_copy(&today_box_area, &label_area); today_box_area.x1 = label_area.x1; today_box_area.x2 = label_area.x2; today_box_area.y1 = label_area.y1 - ext->style_today_box->body.padding.ver; today_box_area.y2 = label_area.y2 + ext->style_today_box->body.padding.ver; lv_draw_rect(&today_box_area, mask, ext->style_today_box, opa_scale); } /*Get the final style : highlighted/week box/today box/normal*/ lv_style_t * final_style; if(draw_state == DAY_DRAW_PREV_MONTH && is_highlighted(calendar, ext->showed_date.year - (ext->showed_date.month == 1 ? 1 : 0), ext->showed_date.month == 1 ? 12 : ext->showed_date.month - 1, day_cnt)) { final_style = ext->style_highlighted_days; } else if(draw_state == DAY_DRAW_ACT_MONTH && is_highlighted(calendar, ext->showed_date.year, ext->showed_date.month, day_cnt)) { final_style = ext->style_highlighted_days; } else if(draw_state == DAY_DRAW_NEXT_MONTH && is_highlighted(calendar, ext->showed_date.year + (ext->showed_date.month == 12 ? 1 : 0), ext->showed_date.month == 12 ? 1 : ext->showed_date.month + 1, day_cnt)) { final_style = ext->style_highlighted_days; } else if(month_of_today_shown && day_cnt == ext->today.day && draw_state == DAY_DRAW_ACT_MONTH) final_style = ext->style_today_box; else if(in_week_box && draw_state == DAY_DRAW_ACT_MONTH) final_style = ext->style_week_box; else final_style = act_style; /*Write the day's number*/ lv_math_num_to_str(day_cnt, buf); lv_draw_label(&label_area, mask, final_style, opa_scale, buf, LV_TXT_FLAG_CENTER, NULL); /*Go to the next day*/ day_cnt ++; } /*Got to the next weeks row*/ label_area.y1 += vert_space + lv_font_get_height(style_bg->text.font); label_area.y2 += vert_space + lv_font_get_height(style_bg->text.font); } } /** * Check weather a date is highlighted or not * @param calendar pointer to a calendar object * @param year a year * @param month a month [1..12] * @param day a day [1..31] * @return true: highlighted */ static bool is_highlighted(lv_obj_t * calendar, int32_t year, int32_t month, int32_t day) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); if(ext->highlighted_dates == NULL || ext->highlighted_dates_num == 0) return false; uint32_t i; for(i = 0; i < ext->highlighted_dates_num; i++) { if(ext->highlighted_dates[i].year == year && ext->highlighted_dates[i].month == month && ext->highlighted_dates[i].day == day) { return true; } } return false; } /** * Get the day name * @param calendar pointer to a calendar object * @param day a day in [0..6] * @return */ static const char * get_day_name(lv_obj_t * calendar, uint8_t day) { lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); if(ext->day_names) return ext->day_names[day]; else return day_name[day]; } /** * Get the month name * @param calendar pointer to a calendar object * @param month a month. The range is basically [1..12] but [-11..1] is also supported to handle previous year * @return */ static const char * get_month_name(lv_obj_t * calendar, int32_t month) { month --; /*Range of months id [1..12] but range of indexes is [0..11]*/ if(month < 0) month = 12 + month; lv_calendar_ext_t * ext = lv_obj_get_ext_attr(calendar); if(ext->month_names) return ext->month_names[month]; else return month_name[month]; } /** * Get the number of days in a month * @param year a year * @param month a month. The range is basically [1..12] but [-11..1] is also supported to handle previous year * @return [28..31] */ static uint8_t get_month_length(int32_t year, int32_t month) { month --; /*Range of months id [1..12] but range of indexes is [0..11]*/ if(month < 0) { year--; /*Already in the previous year (won't be less then -12 to skip a whole year)*/ month = 12 + month; /*`month` is negative, the result will be < 12*/ } if(month >= 12) { year ++; month -= 12; } /*month == 1 is february*/ return (month == 1) ? (28 + is_leap_year(year)) : 31 - month % 7 % 2; } /** * Tells whether a year is leap year or not * @param year a year * @return 0: not leap year; 1: leap year */ static uint8_t is_leap_year(uint32_t year) { return (year % 4) || ((year % 100 == 0) && (year % 400)) ? 0 : 1; } /** * Get the day of the week * @param year a year * @param month a month * @param day a day * @return [0..6] which means [Sun..Sat] */ static uint8_t get_day_of_week(uint32_t year, uint32_t month, uint32_t day) { uint32_t a = month < 3 ? 1 : 0; uint32_t b = year - a; uint32_t day_of_week = (day + (31 * (month - 2 + 12 * a) / 12) + b + (b / 4) - (b / 100) + (b / 400)) % 7; return day_of_week; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_calendar.h ================================================ /** * @file lv_calendar.h * */ #ifndef LV_CALENDAR_H #define LV_CALENDAR_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_CALENDAR != 0 #include "../lv_core/lv_obj.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ typedef struct { uint16_t year; int8_t month; int8_t day; } lv_calendar_date_t; enum { LV_CALENDAR_ACTION_CLICK, LV_CALENDAR_ACTION_PR, LV_CALENDAR_ACTION_LONG_PR, LV_CALENDAR_ACTION_LONG_PR_REPEAT, LV_CALENDAR_ACTION_NUM, }; typedef uint8_t lv_calendar_action_t; /*Data of calendar*/ typedef struct { /*None*/ /*Ext. of ancestor*/ /*New data for this type */ lv_calendar_date_t today; /*Date of today*/ lv_calendar_date_t showed_date; /*Currently visible month (day is ignored)*/ lv_calendar_date_t * highlighted_dates; /*Apply different style on these days (pointer to an array defined by the user)*/ uint8_t highlighted_dates_num; /*Number of elements in `highlighted_days`*/ int8_t btn_pressing; /*-1: prev month pressing, +1 next month pressing on the header*/ lv_calendar_date_t pressed_date; const char ** day_names; /*Pointer to an array with the name of the days (NULL: use default names)*/ const char ** month_names; /*Pointer to an array with the name of the month (NULL. use default names)*/ lv_action_t actions[LV_CALENDAR_ACTION_NUM]; /*Styles*/ lv_style_t * style_header; lv_style_t * style_header_pr; lv_style_t * style_day_names; lv_style_t * style_highlighted_days; lv_style_t * style_inactive_days; lv_style_t * style_week_box; lv_style_t * style_today_box; } lv_calendar_ext_t; /*Styles*/ enum { LV_CALENDAR_STYLE_BG, /*Also the style of the "normal" date numbers*/ LV_CALENDAR_STYLE_HEADER, LV_CALENDAR_STYLE_HEADER_PR, LV_CALENDAR_STYLE_DAY_NAMES, LV_CALENDAR_STYLE_HIGHLIGHTED_DAYS, LV_CALENDAR_STYLE_INACTIVE_DAYS, LV_CALENDAR_STYLE_WEEK_BOX, LV_CALENDAR_STYLE_TODAY_BOX, }; typedef uint8_t lv_calendar_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a calendar objects * @param par pointer to an object, it will be the parent of the new calendar * @param copy pointer to a calendar object, if not NULL then the new object will be copied from it * @return pointer to the created calendar */ lv_obj_t * lv_calendar_create(lv_obj_t * par, const lv_obj_t * copy); /*====================== * Add/remove functions *=====================*/ /*===================== * Setter functions *====================*/ /** * Set a function to call when a calendar event happens * @param calendar pointer to a calendar object * @param action type of event form 'lv_action_t' (press, release, long press, long press repeat) */ void lv_calendar_set_action(lv_obj_t * calendar, lv_calendar_action_t type, lv_action_t action); /** * Set the today's date * @param calendar pointer to a calendar object * @param today pointer to an `lv_calendar_date_t` variable containing the date of today. The value will be saved it can be local variable too. */ void lv_calendar_set_today_date(lv_obj_t * calendar, lv_calendar_date_t * today); /** * Set the currently showed * @param calendar pointer to a calendar object * @param showed pointer to an `lv_calendar_date_t` variable containing the date to show. The value will be saved it can be local variable too. */ void lv_calendar_set_showed_date(lv_obj_t * calendar, lv_calendar_date_t * showed); /** * Set the the highlighted dates * @param calendar pointer to a calendar object * @param highlighted pointer to an `lv_calendar_date_t` array containing the dates. ONLY A POINTER WILL BE SAVED! CAN'T BE LOCAL ARRAY. * @param date_num number of dates in the array */ void lv_calendar_set_highlighted_dates(lv_obj_t * calendar, lv_calendar_date_t * highlighted, uint16_t date_num); /** * Set the name of the days * @param calendar pointer to a calendar object * @param day_names pointer to an array with the names. E.g. `const char * days[7] = {"Sun", "Mon", ...}` * Only the pointer will be saved so this variable can't be local which will be destroyed later. */ void lv_calendar_set_day_names(lv_obj_t * calendar, const char ** day_names); /** * Set the name of the month * @param calendar pointer to a calendar object * @param day_names pointer to an array with the names. E.g. `const char * days[12] = {"Jan", "Feb", ...}` * Only the pointer will be saved so this variable can't be local which will be destroyed later. */ void lv_calendar_set_month_names(lv_obj_t * calendar, const char ** day_names); /** * Set a style of a calendar. * @param calendar pointer to calendar object * @param type which style should be set * @param style pointer to a style * */ void lv_calendar_set_style(lv_obj_t * calendar, lv_calendar_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Get the action of a calendar * @param calendar pointer to a calendar object * @return pointer to the action function */ lv_action_t lv_calendar_get_action(const lv_obj_t * calendar, lv_calendar_action_t type); /** * Get the today's date * @param calendar pointer to a calendar object * @return return pointer to an `lv_calendar_date_t` variable containing the date of today. */ lv_calendar_date_t * lv_calendar_get_today_date(const lv_obj_t * calendar); /** * Get the currently showed * @param calendar pointer to a calendar object * @return pointer to an `lv_calendar_date_t` variable containing the date is being shown. */ lv_calendar_date_t * lv_calendar_get_showed_date(const lv_obj_t * calendar); /** * Get the the pressed date. * @param calendar pointer to a calendar object * @return pointer to an `lv_calendar_date_t` variable containing the pressed date. */ lv_calendar_date_t * lv_calendar_get_pressed_date(const lv_obj_t * calendar); /** * Get the the highlighted dates * @param calendar pointer to a calendar object * @return pointer to an `lv_calendar_date_t` array containing the dates. */ lv_calendar_date_t * lv_calendar_get_highlighted_dates(const lv_obj_t * calendar); /** * Get the number of the highlighted dates * @param calendar pointer to a calendar object * @return number of highlighted days */ uint16_t lv_calendar_get_highlighted_dates_num(const lv_obj_t * calendar); /** * Get the name of the days * @param calendar pointer to a calendar object * @return pointer to the array of day names */ const char ** lv_calendar_get_day_names(const lv_obj_t * calendar); /** * Get the name of the month * @param calendar pointer to a calendar object * @return pointer to the array of month names */ const char ** lv_calendar_get_month_names(const lv_obj_t * calendar); /** * Get style of a calendar. * @param calendar pointer to calendar object * @param type which style should be get * @return style pointer to the style * */ lv_style_t * lv_calendar_get_style(const lv_obj_t * calendar, lv_calendar_style_t type); /*===================== * Other functions *====================*/ /********************** * MACROS **********************/ #endif /*USE_LV_CALENDAR*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_CALENDAR_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_canvas.c ================================================ /** * @file lv_canvas.c * */ /********************* * INCLUDES *********************/ #include "lv_canvas.h" #if USE_LV_CANVAS != 0 /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_canvas_signal(lv_obj_t * canvas, lv_signal_t sign, void * param); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_design_func_t ancestor_design; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a canvas object * @param par pointer to an object, it will be the parent of the new canvas * @param copy pointer to a canvas object, if not NULL then the new object will be copied from it * @return pointer to the created canvas */ lv_obj_t * lv_canvas_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("canvas create started"); /*Create the ancestor of canvas*/ lv_obj_t * new_canvas = lv_img_create(par, copy); lv_mem_assert(new_canvas); if(new_canvas == NULL) return NULL; /*Allocate the canvas type specific extended data*/ lv_canvas_ext_t * ext = lv_obj_allocate_ext_attr(new_canvas, sizeof(lv_canvas_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_canvas); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_canvas); /*Initialize the allocated 'ext' */ ext->dsc.header.always_zero = 0; ext->dsc.header.cf = LV_IMG_CF_TRUE_COLOR; ext->dsc.header.h = 0; ext->dsc.header.w = 0; ext->dsc.data_size = 0; ext->dsc.data = NULL; lv_img_set_src(new_canvas, &ext->dsc); /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_canvas, lv_canvas_signal); /*Init the new canvas canvas*/ if(copy == NULL) { } /*Copy an existing canvas*/ else { //lv_canvas_ext_t * copy_ext = lv_obj_get_ext_attr(copy); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_canvas); } LV_LOG_INFO("canvas created"); return new_canvas; } /*===================== * Setter functions *====================*/ /** * Set a buffer for the canvas. * @param buf a buffer where the content of the canvas will be. * The required size is (lv_img_color_format_get_px_size(cf) * w * h) / 8) * It can be allocated with `lv_mem_alloc()` or * it can be statically allocated array (e.g. static lv_color_t buf[100*50]) or * it can be an address in RAM or external SRAM * @param canvas pointer to a canvas object * @param w width of the canvas * @param h height of the canvas * @param cf color format. The following formats are supported: * LV_IMG_CF_TRUE_COLOR, LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED, LV_IMG_CF_INDEXES_1/2/4/8BIT * */ void lv_canvas_set_buffer(lv_obj_t * canvas, void * buf, lv_coord_t w, lv_coord_t h, lv_img_cf_t cf) { lv_canvas_ext_t * ext = lv_obj_get_ext_attr(canvas); ext->dsc.header.cf = cf; ext->dsc.header.w = w; ext->dsc.header.h = h; ext->dsc.data = buf; ext->dsc.data_size = (lv_img_color_format_get_px_size(cf) * w * h) / 8; lv_img_set_src(canvas, &ext->dsc); } /** * Set the color of a pixel on the canvas * @param canvas * @param x x coordinate of the point to set * @param y x coordinate of the point to set * @param c color of the point */ void lv_canvas_set_px(lv_obj_t * canvas, lv_coord_t x, lv_coord_t y, lv_color_t c) { lv_canvas_ext_t * ext = lv_obj_get_ext_attr(canvas); if(x >= ext->dsc.header.w || y >= ext->dsc.header.h) { LV_LOG_WARN("lv_canvas_set_px: x or y out of the canvas"); return; } uint8_t * buf_u8 = (uint8_t *) ext->dsc.data; if(ext->dsc.header.cf == LV_IMG_CF_TRUE_COLOR || ext->dsc.header.cf == LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED) { uint32_t px = ext->dsc.header.w * y * sizeof(lv_color_t) + x * sizeof(lv_color_t); memcpy(&buf_u8[px], &c, sizeof(lv_color_t)); } else if(ext->dsc.header.cf == LV_IMG_CF_INDEXED_1BIT) { buf_u8 += 4 * 2; uint8_t bit = x & 0x7; x = x >> 3; uint32_t px = (ext->dsc.header.w >> 3) * y + x; buf_u8[px] = buf_u8[px] & ~(1 << (7 - bit)); buf_u8[px] = buf_u8[px] | ((c.full & 0x1) << (7 - bit)); } else if(ext->dsc.header.cf == LV_IMG_CF_INDEXED_2BIT) { buf_u8 += 4 * 4; uint8_t bit = (x & 0x3) * 2; x = x >> 2; uint32_t px = (ext->dsc.header.w >> 2) * y + x; buf_u8[px] = buf_u8[px] & ~(3 << (6 - bit)); buf_u8[px] = buf_u8[px] | ((c.full & 0x3) << (6 - bit)); } else if(ext->dsc.header.cf == LV_IMG_CF_INDEXED_4BIT) { buf_u8 += 4 * 16; uint8_t bit = (x & 0x1) * 4; x = x >> 1; uint32_t px = (ext->dsc.header.w >> 1) * y + x; buf_u8[px] = buf_u8[px] & ~(0xF << (4 - bit)); buf_u8[px] = buf_u8[px] | ((c.full & 0xF) << (4 - bit)); } else if(ext->dsc.header.cf == LV_IMG_CF_INDEXED_8BIT) { buf_u8 += 4 * 256; uint32_t px = ext->dsc.header.w * y + x; buf_u8[px] = c.full; } } /** * Set a style of a canvas. * @param canvas pointer to canvas object * @param type which style should be set * @param style pointer to a style */ void lv_canvas_set_style(lv_obj_t * canvas, lv_canvas_style_t type, lv_style_t * style) { switch(type) { case LV_CANVAS_STYLE_MAIN: lv_img_set_style(canvas, style); break; } } /*===================== * Getter functions *====================*/ /** * Get the color of a pixel on the canvas * @param canvas * @param x x coordinate of the point to set * @param y x coordinate of the point to set * @return color of the point */ lv_color_t lv_canvas_get_px(lv_obj_t * canvas, lv_coord_t x, lv_coord_t y) { lv_color_t p_color = LV_COLOR_BLACK; lv_canvas_ext_t * ext = lv_obj_get_ext_attr(canvas); if(x >= ext->dsc.header.w || y >= ext->dsc.header.h) { LV_LOG_WARN("lv_canvas_get_px: x or y out of the canvas"); return p_color; } uint8_t * buf_u8 = (uint8_t *) ext->dsc.data; if(ext->dsc.header.cf == LV_IMG_CF_TRUE_COLOR || ext->dsc.header.cf == LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED) { uint32_t px = ext->dsc.header.w * y * sizeof(lv_color_t) + x * sizeof(lv_color_t); memcpy(&p_color, &buf_u8[px], sizeof(lv_color_t)); } else if(ext->dsc.header.cf == LV_IMG_CF_INDEXED_1BIT) { buf_u8 += 4 * 2; uint8_t bit = x & 0x7; x = x >> 3; uint32_t px = (ext->dsc.header.w >> 3) * y + x; p_color.full = (buf_u8[px] & (1 << (7 - bit))) >> (7 - bit); } else if(ext->dsc.header.cf == LV_IMG_CF_INDEXED_2BIT) { buf_u8 += 4 * 4; uint8_t bit = (x & 0x3) * 2; x = x >> 2; uint32_t px = (ext->dsc.header.w >> 2) * y + x; p_color.full = (buf_u8[px] & (3 << (6 - bit))) >> (6 - bit); } else if(ext->dsc.header.cf == LV_IMG_CF_INDEXED_4BIT) { buf_u8 += 4 * 16; uint8_t bit = (x & 0x1) * 4; x = x >> 1; uint32_t px = (ext->dsc.header.w >> 1) * y + x; p_color.full = (buf_u8[px] & (0xF << (4 - bit))) >> (4 - bit); } else if(ext->dsc.header.cf == LV_IMG_CF_INDEXED_8BIT) { buf_u8 += 4 * 256; uint32_t px = ext->dsc.header.w * y + x; p_color.full = buf_u8[px]; } return p_color; } /** * Get style of a canvas. * @param canvas pointer to canvas object * @param type which style should be get * @return style pointer to the style */ lv_style_t * lv_canvas_get_style(const lv_obj_t * canvas, lv_canvas_style_t type) { // lv_canvas_ext_t * ext = lv_obj_get_ext_attr(canvas); lv_style_t * style = NULL; switch(type) { case LV_CANVAS_STYLE_MAIN: style = lv_img_get_style(canvas); break; default: style = NULL; } return style; } /*===================== * Other functions *====================*/ /** * Copy a buffer to the canvas * @param canvas pointer to a canvas object * @param to_copy buffer to copy. The color format has to match with the canvas's buffer color format * @param w width of the buffer to copy * @param h height of the buffer to copy * @param x left side of the destination position * @param y top side of the destination position */ void lv_canvas_copy_buf(lv_obj_t * canvas, const void * to_copy, lv_coord_t w, lv_coord_t h, lv_coord_t x, lv_coord_t y) { lv_canvas_ext_t * ext = lv_obj_get_ext_attr(canvas); if(x + w >= ext->dsc.header.w || y + h >= ext->dsc.header.h) { LV_LOG_WARN("lv_canvas_copy_buf: x or y out of the canvas"); return; } uint32_t px_size = lv_img_color_format_get_px_size(ext->dsc.header.cf) >> 3; uint32_t px = ext->dsc.header.w * y * px_size + x * px_size; uint8_t * to_copy8 = (uint8_t *) to_copy; lv_coord_t i; for(i = 0; i < h; i++) { memcpy((void*)&ext->dsc.data[px], to_copy8, w * px_size); px += ext->dsc.header.w * px_size; to_copy8 += w * px_size; } } /** * Multiply a buffer with the canvas * @param canvas pointer to a canvas object * @param to_copy buffer to copy (multiply). LV_IMG_CF_TRUE_COLOR_ALPHA is not supported * @param w width of the buffer to copy * @param h height of the buffer to copy * @param x left side of the destination position * @param y top side of the destination position */ void lv_canvas_mult_buf(lv_obj_t * canvas, void * to_copy, lv_coord_t w, lv_coord_t h, lv_coord_t x, lv_coord_t y) { lv_canvas_ext_t * ext = lv_obj_get_ext_attr(canvas); if(x + w >= ext->dsc.header.w || y + h >= ext->dsc.header.h) { LV_LOG_WARN("lv_canvas_mult_buf: x or y out of the canvas"); return; } if(ext->dsc.header.cf == LV_IMG_CF_TRUE_COLOR_ALPHA) { LV_LOG_WARN("lv_canvas_mult_buf: LV_IMG_CF_TRUE_COLOR_ALPHA is not supported"); return; } uint32_t px_size = lv_img_color_format_get_px_size(ext->dsc.header.cf) >> 3; uint32_t px = ext->dsc.header.w * y * px_size + x * px_size; lv_color_t * copy_buf_color = (lv_color_t *) to_copy; lv_color_t * canvas_buf_color = (lv_color_t *) &ext->dsc.data[px]; lv_coord_t i; lv_coord_t j; for(i = 0; i < h; i++) { for(j = 0; j < w; j++) { #if LV_COLOR_DEPTH == 32 canvas_buf_color[j].red = (uint16_t) ((uint16_t) canvas_buf_color[j].red * copy_buf_color[j].red) >> 8; canvas_buf_color[j].green = (uint16_t) ((uint16_t) canvas_buf_color[j].green * copy_buf_color[j].green) >> 8; canvas_buf_color[j].blue = (uint16_t) ((uint16_t) canvas_buf_color[j].blue * copy_buf_color[j].blue) >> 8; #elif LV_COLOR_DEPTH == 16 canvas_buf_color[j].red = (uint16_t) ((uint16_t) canvas_buf_color[j].red * copy_buf_color[j].red) >> 5; canvas_buf_color[j].blue = (uint16_t) ((uint16_t) canvas_buf_color[j].blue * copy_buf_color[j].blue) >> 5; # if LV_COLOR_16_SWAP == 0 canvas_buf_color[j].green = (uint16_t) ((uint16_t) canvas_buf_color[j].green * copy_buf_color[j].green) >> 6; # else uint8_t green_canvas = (canvas_buf_color[j].green_h << 3) + (canvas_buf_color[j].green_l); uint8_t green_buf = (copy_buf_color[j].green_h << 3) + (copy_buf_color[j].green_l); uint8_t green_res = (uint16_t)((uint16_t)green_canvas * green_buf) >> 6; canvas_buf_color[j].green_h = (green_res >> 3) & 0x07; canvas_buf_color[j].green_l = green_res & 0x07; # endif /*LV_COLOR_16_SWAP*/ #elif LV_COLOR_DEPTH == 8 canvas_buf_color[j].red = (uint16_t) ((uint16_t) canvas_buf_color[j].red * copy_buf_color[j].red) >> 3; canvas_buf_color[j].green = (uint16_t) ((uint16_t) canvas_buf_color[j].green * copy_buf_color[j].green) >> 3; canvas_buf_color[j].blue = (uint16_t) ((uint16_t) canvas_buf_color[j].blue * copy_buf_color[j].blue) >> 2; #endif } copy_buf_color += w; canvas_buf_color += ext->dsc.header.w; } } /** * Draw circle function of the canvas * @param canvas pointer to a canvas object * @param x0 x coordinate of the circle * @param y0 y coordinate of the circle * @param radius radius of the circle * @param color border color of the circle */ void lv_canvas_draw_circle(lv_obj_t * canvas, lv_coord_t x0, lv_coord_t y0, lv_coord_t radius, lv_color_t color) { int x = radius; int y = 0; int err = 0; while (x >= y) { lv_canvas_set_px(canvas, x0 + x, y0 + y, color); lv_canvas_set_px(canvas, x0 + y, y0 + x, color); lv_canvas_set_px(canvas, x0 - y, y0 + x, color); lv_canvas_set_px(canvas, x0 - x, y0 + y, color); lv_canvas_set_px(canvas, x0 - x, y0 - y, color); lv_canvas_set_px(canvas, x0 - y, y0 - x, color); lv_canvas_set_px(canvas, x0 + y, y0 - x, color); lv_canvas_set_px(canvas, x0 + x, y0 - y, color); if (err <= 0) { y += 1; err += 2*y + 1; } if (err > 0) { x -= 1; err -= 2*x + 1; } } } /** * Draw line function of the canvas * @param canvas pointer to a canvas object * @param point1 start point of the line * @param point2 end point of the line * @param color color of the line * * NOTE: The lv_canvas_draw_line function originates from https://github.com/jb55/bresenham-line.c. */ /* * NOTE: The lv_canvas_draw_line function originates from https://github.com/jb55/bresenham-line.c. */ void lv_canvas_draw_line(lv_obj_t * canvas, lv_point_t point1, lv_point_t point2, lv_color_t color) { lv_coord_t x0, y0, x1, y1; x0 = point1.x; y0 = point1.y; x1 = point2.x; y1 = point2.y; int dx = abs(x1-x0), sx = x0dy ? dx : -dy)/2, e2; for(;;){ lv_canvas_set_px(canvas, x0, y0, color); if (x0==x1 && y0==y1) break; e2 = err; if (e2 >-dx) { err -= dy; x0 += sx; } if (e2 < dy) { err += dx; y0 += sy; } } } /** * Draw triangle function of the canvas * @param canvas pointer to a canvas object * @param points edge points of the triangle * @param color line color of the triangle */ void lv_canvas_draw_triangle(lv_obj_t * canvas, lv_point_t * points, lv_color_t color) { lv_canvas_draw_polygon(canvas, points, 3, color); } /** * Draw rectangle function of the canvas * @param canvas pointer to a canvas object * @param points edge points of the rectangle * @param color line color of the rectangle */ void lv_canvas_draw_rect(lv_obj_t * canvas, lv_point_t * points, lv_color_t color) { lv_canvas_draw_polygon(canvas, points, 4, color); } /** * Draw polygon function of the canvas * @param canvas pointer to a canvas object * @param points edge points of the polygon * @param size edge count of the polygon * @param color line color of the polygon */ void lv_canvas_draw_polygon(lv_obj_t * canvas, lv_point_t * points, size_t size, lv_color_t color) { uint8_t i; for(i=0; i < (size - 1); i++) { lv_canvas_draw_line(canvas, points[i], points[i + 1], color); } lv_canvas_draw_line(canvas, points[size - 1], points[0], color); } /** * Fill polygon function of the canvas * @param canvas pointer to a canvas object * @param points edge points of the polygon * @param size edge count of the polygon * @param boundary_color line color of the polygon * @param fill_color fill color of the polygon */ void lv_canvas_fill_polygon(lv_obj_t * canvas, lv_point_t * points, size_t size, lv_color_t boundary_color, lv_color_t fill_color) { uint32_t x = 0, y = 0; uint8_t i; for(i=0; itype[i] == NULL) break; } buf->type[i] = "lv_canvas"; } return res; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_canvas.h ================================================ /** * @file lv_canvas.h * */ #ifndef LV_CANVAS_H #define LV_CANVAS_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_CANVAS != 0 #include "../lv_core/lv_obj.h" #include "../lv_objx/lv_img.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of canvas*/ typedef struct { lv_img_ext_t img; /*Ext. of ancestor*/ /*New data for this type */ lv_img_dsc_t dsc; } lv_canvas_ext_t; /*Styles*/ enum { LV_CANVAS_STYLE_MAIN, }; typedef uint8_t lv_canvas_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a canvas object * @param par pointer to an object, it will be the parent of the new canvas * @param copy pointer to a canvas object, if not NULL then the new object will be copied from it * @return pointer to the created canvas */ lv_obj_t * lv_canvas_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set a buffer for the canvas. * @param buf a buffer where the content of the canvas will be. * The required size is (lv_img_color_format_get_px_size(cf) * w * h) / 8) * It can be allocated with `lv_mem_alloc()` or * it can be statically allocated array (e.g. static lv_color_t buf[100*50]) or * it can be an address in RAM or external SRAM * @param canvas pointer to a canvas object * @param w width of the canvas * @param h height of the canvas * @param cf color format. The following formats are supported: * LV_IMG_CF_TRUE_COLOR, LV_IMG_CF_TRUE_COLOR_CHROMA_KEYED, LV_IMG_CF_INDEXES_1/2/4/8BIT */ void lv_canvas_set_buffer(lv_obj_t * canvas, void * buf, lv_coord_t w, lv_coord_t h, lv_img_cf_t cf); /** * Set the color of a pixel on the canvas * @param canvas * @param x x coordinate of the point to set * @param y x coordinate of the point to set * @param c color of the point */ void lv_canvas_set_px(lv_obj_t * canvas, lv_coord_t x, lv_coord_t y, lv_color_t c); /** * Set a style of a canvas. * @param canvas pointer to canvas object * @param type which style should be set * @param style pointer to a style */ void lv_canvas_set_style(lv_obj_t * canvas, lv_canvas_style_t type, lv_style_t * style); /*===================== * Getter functions *====================*/ /** * Get the color of a pixel on the canvas * @param canvas * @param x x coordinate of the point to set * @param y x coordinate of the point to set * @return color of the point */ lv_color_t lv_canvas_get_px(lv_obj_t * canvas, lv_coord_t x, lv_coord_t y); /** * Get style of a canvas. * @param canvas pointer to canvas object * @param type which style should be get * @return style pointer to the style */ lv_style_t * lv_canvas_get_style(const lv_obj_t * canvas, lv_canvas_style_t type); /*===================== * Other functions *====================*/ /** * Copy a buffer to the canvas * @param canvas pointer to a canvas object * @param to_copy buffer to copy. The color format has to match with the canvas's buffer color format * @param w width of the buffer to copy * @param h height of the buffer to copy * @param x left side of the destination position * @param y top side of the destination position */ void lv_canvas_copy_buf(lv_obj_t * canvas, const void * to_copy, lv_coord_t w, lv_coord_t h, lv_coord_t x, lv_coord_t y); /** * Multiply a buffer with the canvas * @param canvas pointer to a canvas object * @param to_copy buffer to copy (multiply). LV_IMG_CF_TRUE_COLOR_ALPHA is not supported * @param w width of the buffer to copy * @param h height of the buffer to copy * @param x left side of the destination position * @param y top side of the destination position */ void lv_canvas_mult_buf(lv_obj_t * canvas, void * to_copy, lv_coord_t w, lv_coord_t h, lv_coord_t x, lv_coord_t y); /** * Draw circle function of the canvas * @param canvas pointer to a canvas object * @param x0 x coordinate of the circle * @param y0 y coordinate of the circle * @param radius radius of the circle * @param color border color of the circle */ void lv_canvas_draw_circle(lv_obj_t * canvas, lv_coord_t x0, lv_coord_t y0, lv_coord_t radius, lv_color_t color); /** * Draw line function of the canvas * @param canvas pointer to a canvas object * @param point1 start point of the line * @param point2 end point of the line * @param color color of the line * * NOTE: The lv_canvas_draw_line function originates from https://github.com/jb55/bresenham-line.c. */ void lv_canvas_draw_line(lv_obj_t * canvas, lv_point_t point1, lv_point_t point2, lv_color_t color); /** * Draw triangle function of the canvas * @param canvas pointer to a canvas object * @param points edge points of the triangle * @param color line color of the triangle */ void lv_canvas_draw_triangle(lv_obj_t * canvas, lv_point_t * points, lv_color_t color); /** * Draw rectangle function of the canvas * @param canvas pointer to a canvas object * @param points edge points of the rectangle * @param color line color of the rectangle */ void lv_canvas_draw_rect(lv_obj_t * canvas, lv_point_t * points, lv_color_t color); /** * Draw polygon function of the canvas * @param canvas pointer to a canvas object * @param points edge points of the polygon * @param size edge count of the polygon * @param color line color of the polygon */ void lv_canvas_draw_polygon(lv_obj_t * canvas, lv_point_t * points, size_t size, lv_color_t color); /** * Fill polygon function of the canvas * @param canvas pointer to a canvas object * @param points edge points of the polygon * @param size edge count of the polygon * @param boundary_color line color of the polygon * @param fill_color fill color of the polygon */ void lv_canvas_fill_polygon(lv_obj_t * canvas, lv_point_t * points, size_t size, lv_color_t boundary_color, lv_color_t fill_color); /** * Boundary fill function of the canvas * @param canvas pointer to a canvas object * @param x x coordinate of the start position (seed) * @param y y coordinate of the start position (seed) * @param boundary_color edge/boundary color of the area * @param fill_color fill color of the area */ void lv_canvas_boundary_fill4(lv_obj_t * canvas, lv_coord_t x, lv_coord_t y, lv_color_t boundary_color, lv_color_t fill_color); /** * Flood fill function of the canvas * @param canvas pointer to a canvas object * @param x x coordinate of the start position (seed) * @param y y coordinate of the start position (seed) * @param fill_color fill color of the area * @param bg_color background color of the area */ void lv_canvas_flood_fill(lv_obj_t * canvas, lv_coord_t x, lv_coord_t y, lv_color_t fill_color, lv_color_t bg_color); /********************** * MACROS **********************/ #endif /*USE_LV_CANVAS*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_CANVAS_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_cb.c ================================================ /** * @file lv_cb.c * */ /********************* * INCLUDES *********************/ #include "lv_cb.h" #if USE_LV_CB != 0 #include "../lv_core/lv_group.h" #include "../lv_themes/lv_theme.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_cb_design(lv_obj_t * cb, const lv_area_t * mask, lv_design_mode_t mode); static bool lv_bullet_design(lv_obj_t * bullet, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_cb_signal(lv_obj_t * cb, lv_signal_t sign, void * param); /********************** * STATIC VARIABLES **********************/ static lv_design_func_t ancestor_bg_design; static lv_design_func_t ancestor_bullet_design; static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a check box objects * @param par pointer to an object, it will be the parent of the new check box * @param copy pointer to a check box object, if not NULL then the new object will be copied from it * @return pointer to the created check box */ lv_obj_t * lv_cb_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("check box create started"); /*Create the ancestor basic object*/ lv_obj_t * new_cb = lv_btn_create(par, copy); lv_mem_assert(new_cb); if(new_cb == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_cb); if(ancestor_bg_design == NULL) ancestor_bg_design = lv_obj_get_design_func(new_cb); lv_cb_ext_t * ext = lv_obj_allocate_ext_attr(new_cb, sizeof(lv_cb_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->bullet = NULL; ext->label = NULL; lv_obj_set_signal_func(new_cb, lv_cb_signal); lv_obj_set_design_func(new_cb, lv_cb_design); /*Init the new checkbox object*/ if(copy == NULL) { ext->bullet = lv_btn_create(new_cb, NULL); if(ancestor_bullet_design == NULL) ancestor_bullet_design = lv_obj_get_design_func(ext->bullet); lv_obj_set_click(ext->bullet, false); ext->label = lv_label_create(new_cb, NULL); lv_cb_set_text(new_cb, "Check box"); lv_btn_set_layout(new_cb, LV_LAYOUT_ROW_M); lv_btn_set_fit(new_cb, true, true); lv_btn_set_toggle(new_cb, true); lv_obj_set_protect(new_cb, LV_PROTECT_PRESS_LOST); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_cb_set_style(new_cb, LV_CB_STYLE_BG, th->cb.bg); lv_cb_set_style(new_cb, LV_CB_STYLE_BOX_REL, th->cb.box.rel); lv_cb_set_style(new_cb, LV_CB_STYLE_BOX_PR, th->cb.box.pr); lv_cb_set_style(new_cb, LV_CB_STYLE_BOX_TGL_REL, th->cb.box.tgl_rel); lv_cb_set_style(new_cb, LV_CB_STYLE_BOX_TGL_PR, th->cb.box.tgl_pr); lv_cb_set_style(new_cb, LV_CB_STYLE_BOX_INA, th->cb.box.ina); } else { lv_cb_set_style(new_cb, LV_CB_STYLE_BG, &lv_style_transp); lv_cb_set_style(new_cb, LV_CB_STYLE_BOX_REL, &lv_style_pretty); } } else { lv_cb_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->bullet = lv_btn_create(new_cb, copy_ext->bullet); ext->label = lv_label_create(new_cb, copy_ext->label); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_cb); } lv_obj_set_design_func(ext->bullet, lv_bullet_design); LV_LOG_INFO("check box created"); return new_cb; } /*===================== * Setter functions *====================*/ /** * Set the text of a check box * @param cb pointer to a check box * @param txt the text of the check box */ void lv_cb_set_text(lv_obj_t * cb, const char * txt) { lv_cb_ext_t * ext = lv_obj_get_ext_attr(cb); lv_label_set_text(ext->label, txt); } /** * Set a style of a check box * @param cb pointer to check box object * @param type which style should be set * @param style pointer to a style * */ void lv_cb_set_style(lv_obj_t * cb, lv_cb_style_t type, lv_style_t * style) { lv_cb_ext_t * ext = lv_obj_get_ext_attr(cb); switch(type) { case LV_CB_STYLE_BG: lv_btn_set_style(cb, LV_BTN_STYLE_REL, style); lv_btn_set_style(cb, LV_BTN_STYLE_PR, style); lv_btn_set_style(cb, LV_BTN_STYLE_TGL_REL, style); lv_btn_set_style(cb, LV_BTN_STYLE_TGL_PR, style); lv_btn_set_style(cb, LV_BTN_STYLE_INA, style); break; case LV_CB_STYLE_BOX_REL: lv_btn_set_style(ext->bullet, LV_BTN_STYLE_REL, style); break; case LV_CB_STYLE_BOX_PR: lv_btn_set_style(ext->bullet, LV_BTN_STYLE_PR, style); break; case LV_CB_STYLE_BOX_TGL_REL: lv_btn_set_style(ext->bullet, LV_BTN_STYLE_TGL_REL, style); break; case LV_CB_STYLE_BOX_TGL_PR: lv_btn_set_style(ext->bullet, LV_BTN_STYLE_TGL_PR, style); break; case LV_CB_STYLE_BOX_INA: lv_btn_set_style(ext->bullet, LV_BTN_STYLE_INA, style); break; } } /*===================== * Getter functions *====================*/ /** * Get the text of a check box * @param cb pointer to check box object * @return pointer to the text of the check box */ const char * lv_cb_get_text(const lv_obj_t * cb) { lv_cb_ext_t * ext = lv_obj_get_ext_attr(cb); return lv_label_get_text(ext->label); } /** * Get a style of a button * @param cb pointer to check box object * @param type which style should be get * @return style pointer to the style * */ lv_style_t * lv_cb_get_style(const lv_obj_t * cb, lv_cb_style_t type) { lv_style_t * style = NULL; lv_cb_ext_t * ext = lv_obj_get_ext_attr(cb); switch(type) { case LV_CB_STYLE_BOX_REL: style = lv_btn_get_style(ext->bullet, LV_BTN_STYLE_REL); break; case LV_CB_STYLE_BOX_PR: style = lv_btn_get_style(ext->bullet, LV_BTN_STYLE_PR); break; case LV_CB_STYLE_BOX_TGL_REL: style = lv_btn_get_style(ext->bullet, LV_BTN_STYLE_TGL_REL); break; case LV_CB_STYLE_BOX_TGL_PR: style = lv_btn_get_style(ext->bullet, LV_BTN_STYLE_TGL_PR); break; case LV_CB_STYLE_BOX_INA: style = lv_btn_get_style(ext->bullet, LV_BTN_STYLE_INA); break; default: style = NULL; break; } return style; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the check boxes * @param cb pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_cb_design(lv_obj_t * cb, const lv_area_t * mask, lv_design_mode_t mode) { bool result = true; if(mode == LV_DESIGN_COVER_CHK) { /*Return false if the object is not covers the mask_p area*/ result = ancestor_bg_design(cb, mask, mode); } else if(mode == LV_DESIGN_DRAW_MAIN || mode == LV_DESIGN_DRAW_POST) { lv_cb_ext_t * cb_ext = lv_obj_get_ext_attr(cb); lv_btn_ext_t * bullet_ext = lv_obj_get_ext_attr(cb_ext->bullet); /*Be sure the state of the bullet is the same as the parent button*/ bullet_ext->state = cb_ext->bg_btn.state; result = ancestor_bg_design(cb, mask, mode); } else { result = ancestor_bg_design(cb, mask, mode); } return result; } /** * Handle the drawing related tasks of the check boxes * @param bullet pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_bullet_design(lv_obj_t * bullet, const lv_area_t * mask, lv_design_mode_t mode) { if(mode == LV_DESIGN_COVER_CHK) { return ancestor_bullet_design(bullet, mask, mode); } else if(mode == LV_DESIGN_DRAW_MAIN) { #if USE_LV_GROUP /* If the check box is the active in a group and * the background is not visible (transparent or empty) * then activate the style of the bullet*/ lv_style_t * style_ori = lv_obj_get_style(bullet); lv_obj_t * bg = lv_obj_get_parent(bullet); lv_style_t * style_page = lv_obj_get_style(bg); lv_group_t * g = lv_obj_get_group(bg); if(style_page->body.empty != 0 || style_page->body.opa == LV_OPA_TRANSP) { /*Background is visible?*/ if(lv_group_get_focused(g) == bg) { lv_style_t * style_mod; style_mod = lv_group_mod_style(g, style_ori); bullet->style_p = style_mod; /*Temporally change the style to the activated */ } } #endif ancestor_bullet_design(bullet, mask, mode); #if USE_LV_GROUP bullet->style_p = style_ori; /*Revert the style*/ #endif } else if(mode == LV_DESIGN_DRAW_POST) { ancestor_bullet_design(bullet, mask, mode); } return true; } /** * Signal function of the check box * @param cb pointer to a check box object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_cb_signal(lv_obj_t * cb, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(cb, sign, param); if(res != LV_RES_OK) return res; lv_cb_ext_t * ext = lv_obj_get_ext_attr(cb); if(sign == LV_SIGNAL_STYLE_CHG) { lv_style_t * label_style = lv_label_get_style(ext->label); lv_obj_set_size(ext->bullet, lv_font_get_height(label_style->text.font), lv_font_get_height(label_style->text.font)); lv_btn_set_state(ext->bullet, lv_btn_get_state(cb)); } else if(sign == LV_SIGNAL_PRESSED || sign == LV_SIGNAL_RELEASED || sign == LV_SIGNAL_PRESS_LOST) { lv_btn_set_state(ext->bullet, lv_btn_get_state(cb)); } else if(sign == LV_SIGNAL_CONTROLL) { char c = *((char *)param); if(c == LV_GROUP_KEY_RIGHT || c == LV_GROUP_KEY_DOWN || c == LV_GROUP_KEY_LEFT || c == LV_GROUP_KEY_UP || c == LV_GROUP_KEY_ENTER) { lv_btn_set_state(ext->bullet, lv_btn_get_state(cb)); } } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_cb"; } return res; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_cb.h ================================================ /** * @file lv_cb.h * */ #ifndef LV_CB_H #define LV_CB_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_CB != 0 /*Testing of dependencies*/ #if USE_LV_BTN == 0 #error "lv_cb: lv_btn is required. Enable it in lv_conf.h (USE_LV_BTN 1) " #endif #if USE_LV_LABEL == 0 #error "lv_cb: lv_label is required. Enable it in lv_conf.h (USE_LV_LABEL 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_btn.h" #include "lv_label.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of check box*/ typedef struct { lv_btn_ext_t bg_btn; /*Ext. of ancestor*/ /*New data for this type */ lv_obj_t * bullet; /*Pointer to button*/ lv_obj_t * label; /*Pointer to label*/ } lv_cb_ext_t; enum { LV_CB_STYLE_BG, LV_CB_STYLE_BOX_REL, LV_CB_STYLE_BOX_PR, LV_CB_STYLE_BOX_TGL_REL, LV_CB_STYLE_BOX_TGL_PR, LV_CB_STYLE_BOX_INA, }; typedef uint8_t lv_cb_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a check box objects * @param par pointer to an object, it will be the parent of the new check box * @param copy pointer to a check box object, if not NULL then the new object will be copied from it * @return pointer to the created check box */ lv_obj_t * lv_cb_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set the text of a check box * @param cb pointer to a check box * @param txt the text of the check box */ void lv_cb_set_text(lv_obj_t * cb, const char * txt); /** * Set the state of the check box * @param cb pointer to a check box object * @param checked true: make the check box checked; false: make it unchecked */ static inline void lv_cb_set_checked(lv_obj_t * cb, bool checked) { lv_btn_set_state(cb, checked ? LV_BTN_STATE_TGL_REL : LV_BTN_STATE_REL); } /** * Make the check box inactive (disabled) * @param cb pointer to a check box object */ static inline void lv_cb_set_inactive(lv_obj_t * cb) { lv_btn_set_state(cb, LV_BTN_STATE_INA); } /** * Set a function to call when the check box is clicked * @param cb pointer to a check box object */ static inline void lv_cb_set_action(lv_obj_t * cb, lv_action_t action) { lv_btn_set_action(cb, LV_BTN_ACTION_CLICK, action); } /** * Set a style of a check box * @param cb pointer to check box object * @param type which style should be set * @param style pointer to a style * */ void lv_cb_set_style(lv_obj_t * cb, lv_cb_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Get the text of a check box * @param cb pointer to check box object * @return pointer to the text of the check box */ const char * lv_cb_get_text(const lv_obj_t * cb); /** * Get the current state of the check box * @param cb pointer to a check box object * @return true: checked; false: not checked */ static inline bool lv_cb_is_checked(const lv_obj_t * cb) { return lv_btn_get_state(cb) == LV_BTN_STATE_REL ? false : true; } /** * Get the action of a check box * @param cb pointer to a button object * @return pointer to the action function */ static inline lv_action_t lv_cb_get_action(const lv_obj_t * cb) { return lv_btn_get_action(cb, LV_BTN_ACTION_CLICK); } /** * Get a style of a button * @param cb pointer to check box object * @param type which style should be get * @return style pointer to the style * */ lv_style_t * lv_cb_get_style(const lv_obj_t * cb, lv_cb_style_t type); /********************** * MACROS **********************/ #endif /*USE_LV_CB*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_CB_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_chart.c ================================================ /** * @file lv_chart.c * */ /********************* * INCLUDES *********************/ #include "lv_chart.h" #if USE_LV_CHART != 0 #include "../lv_draw/lv_draw.h" #include "../lv_themes/lv_theme.h" /********************* * DEFINES *********************/ #define LV_CHART_YMIN_DEF 0 #define LV_CHART_YMAX_DEF 100 #define LV_CHART_HDIV_DEF 3 #define LV_CHART_VDIV_DEF 5 #define LV_CHART_PNUM_DEF 10 /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_chart_design(lv_obj_t * chart, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_chart_signal(lv_obj_t * chart, lv_signal_t sign, void * param); static void lv_chart_draw_div(lv_obj_t * chart, const lv_area_t * mask); static void lv_chart_draw_lines(lv_obj_t * chart, const lv_area_t * mask); static void lv_chart_draw_points(lv_obj_t * chart, const lv_area_t * mask); static void lv_chart_draw_cols(lv_obj_t * chart, const lv_area_t * mask); static void lv_chart_draw_vertical_lines(lv_obj_t * chart, const lv_area_t * mask); /********************** * STATIC VARIABLES **********************/ static lv_design_func_t ancestor_design_f; static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a chart background objects * @param par pointer to an object, it will be the parent of the new chart background * @param copy pointer to a chart background object, if not NULL then the new object will be copied from it * @return pointer to the created chart background */ lv_obj_t * lv_chart_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("chart create started"); /*Create the ancestor basic object*/ lv_obj_t * new_chart = lv_obj_create(par, copy); lv_mem_assert(new_chart); if(new_chart == NULL) return NULL; /*Allocate the object type specific extended data*/ lv_chart_ext_t * ext = lv_obj_allocate_ext_attr(new_chart, sizeof(lv_chart_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; lv_ll_init(&ext->series_ll, sizeof(lv_chart_series_t)); ext->series.num = 0; ext->ymin = LV_CHART_YMIN_DEF; ext->ymax = LV_CHART_YMAX_DEF; ext->hdiv_cnt = LV_CHART_HDIV_DEF; ext->vdiv_cnt = LV_CHART_VDIV_DEF; ext->point_cnt = LV_CHART_PNUM_DEF; ext->type = LV_CHART_TYPE_LINE; ext->series.opa = LV_OPA_COVER; ext->series.dark = LV_OPA_50; ext->series.width = 2; if(ancestor_design_f == NULL) ancestor_design_f = lv_obj_get_design_func(new_chart); if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_chart); lv_obj_set_signal_func(new_chart, lv_chart_signal); lv_obj_set_design_func(new_chart, lv_chart_design); /*Init the new chart background object*/ if(copy == NULL) { lv_obj_set_size(new_chart, LV_HOR_RES / 3, LV_VER_RES / 3); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_chart_set_style(new_chart, th->chart); } else { lv_chart_set_style(new_chart, &lv_style_pretty); } } else { lv_chart_ext_t * ext_copy = lv_obj_get_ext_attr(copy); ext->type = ext_copy->type; ext->ymin = ext_copy->ymin; ext->ymax = ext_copy->ymax; ext->hdiv_cnt = ext_copy->hdiv_cnt; ext->vdiv_cnt = ext_copy->vdiv_cnt; ext->point_cnt = ext_copy->point_cnt; ext->series.opa = ext_copy->series.opa; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_chart); } LV_LOG_INFO("chart created"); return new_chart; } /*====================== * Add/remove functions *=====================*/ /** * Allocate and add a data series to the chart * @param chart pointer to a chart object * @param color color of the data series * @return pointer to the allocated data series */ lv_chart_series_t * lv_chart_add_series(lv_obj_t * chart, lv_color_t color) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); lv_chart_series_t * ser = lv_ll_ins_head(&ext->series_ll); lv_mem_assert(ser); if(ser == NULL) return NULL; lv_coord_t def = LV_CHART_POINT_DEF; if(ser == NULL) return NULL; ser->color = color; ser->points = lv_mem_alloc(sizeof(lv_coord_t) * ext->point_cnt); lv_mem_assert(ser->points); if(ser->points == NULL) { lv_ll_rem(&ext->series_ll, ser); lv_mem_free(ser); return NULL; } ser->start_point = 0; uint16_t i; lv_coord_t * p_tmp = ser->points; for(i = 0; i < ext->point_cnt; i++) { *p_tmp = def; p_tmp++; } ext->series.num++; return ser; } /** * Clear the point of a serie * @param chart pointer to a chart object * @param serie pointer to the chart's serie to clear */ void lv_chart_clear_serie(lv_obj_t * chart, lv_chart_series_t * serie) { if(chart == NULL || serie == NULL) return; lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); if(ext == NULL) return; uint32_t i; for(i = 0; i < ext->point_cnt; i++) { serie->points[i] = LV_CHART_POINT_DEF; } serie->start_point = 0; } /*===================== * Setter functions *====================*/ /** * Set the number of horizontal and vertical division lines * @param chart pointer to a graph background object * @param hdiv number of horizontal division lines * @param vdiv number of vertical division lines */ void lv_chart_set_div_line_count(lv_obj_t * chart, uint8_t hdiv, uint8_t vdiv) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); if(ext->hdiv_cnt == hdiv && ext->vdiv_cnt == vdiv) return; ext->hdiv_cnt = hdiv; ext->vdiv_cnt = vdiv; lv_obj_invalidate(chart); } /** * Set the minimal and maximal y values * @param chart pointer to a graph background object * @param ymin y minimum value * @param ymax y maximum value */ void lv_chart_set_range(lv_obj_t * chart, lv_coord_t ymin, lv_coord_t ymax) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); if(ext->ymin == ymin && ext->ymax == ymax) return; ext->ymin = ymin; ext->ymax = ymax; lv_chart_refresh(chart); } /** * Set a new type for a chart * @param chart pointer to a chart object * @param type new type of the chart (from 'lv_chart_type_t' enum) */ void lv_chart_set_type(lv_obj_t * chart, lv_chart_type_t type) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); if(ext->type == type) return; ext->type = type; lv_chart_refresh(chart); } /** * Set the number of points on a data line on a chart * @param chart pointer r to chart object * @param point_cnt new number of points on the data lines */ void lv_chart_set_point_count(lv_obj_t * chart, uint16_t point_cnt) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); if(ext->point_cnt == point_cnt) return; lv_chart_series_t * ser; uint16_t point_cnt_old = ext->point_cnt; uint16_t i; lv_coord_t def = LV_CHART_POINT_DEF; if(point_cnt < 1) point_cnt = 1; LL_READ_BACK(ext->series_ll, ser) { if(ser->start_point != 0) { lv_coord_t * new_points = lv_mem_alloc(sizeof(lv_coord_t) * point_cnt); lv_mem_assert(new_points); if(new_points == NULL) return; if(point_cnt >= point_cnt_old) { for(i = 0; i < point_cnt_old; i++) { new_points[i] = ser->points[(i + ser->start_point) % point_cnt_old]; /*Copy old contents to new array*/ } for(i = point_cnt_old; i < point_cnt; i++) { new_points[i] = def; /*Fill up the rest with default value*/ } } else { for(i = 0; i < point_cnt; i++) { new_points[i] = ser->points[(i + ser->start_point) % point_cnt_old]; /*Copy old contents to new array*/ } } /*Switch over pointer from old to new*/ lv_mem_free(ser->points); ser->points = new_points; } else { ser->points = lv_mem_realloc(ser->points, sizeof(lv_coord_t) * point_cnt); lv_mem_assert(ser->points); if(ser->points == NULL) return; /*Initialize the new points*/ if(point_cnt > point_cnt_old) { for(i = point_cnt_old - 1; i < point_cnt; i++) { ser->points[i] = def; } } } ser->start_point = 0; } ext->point_cnt = point_cnt; lv_chart_refresh(chart); } /** * Set the opacity of the data series * @param chart pointer to a chart object * @param opa opacity of the data series */ void lv_chart_set_series_opa(lv_obj_t * chart, lv_opa_t opa) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); if(ext->series.opa == opa) return; ext->series.opa = opa; lv_obj_invalidate(chart); } /** * Set the line width or point radius of the data series * @param chart pointer to a chart object * @param width the new width */ void lv_chart_set_series_width(lv_obj_t * chart, lv_coord_t width) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); if(ext->series.width == width) return; ext->series.width = width; lv_obj_invalidate(chart); } /** * Set the dark effect on the bottom of the points or columns * @param chart pointer to a chart object * @param dark_eff dark effect level (LV_OPA_TRANSP to turn off) */ void lv_chart_set_series_darking(lv_obj_t * chart, lv_opa_t dark_eff) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); if(ext->series.dark == dark_eff) return; ext->series.dark = dark_eff; lv_obj_invalidate(chart); } /** * Initialize all data points with a value * @param chart pointer to chart object * @param ser pointer to a data series on 'chart' * @param y the new value for all points */ void lv_chart_init_points(lv_obj_t * chart, lv_chart_series_t * ser, lv_coord_t y) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); uint16_t i; for(i = 0; i < ext->point_cnt; i++) { ser->points[i] = y; } ser->start_point = 0; lv_chart_refresh(chart); } /** * Set the value s of points from an array * @param chart pointer to chart object * @param ser pointer to a data series on 'chart' * @param y_array array of 'lv_coord_t' points (with 'points count' elements ) */ void lv_chart_set_points(lv_obj_t * chart, lv_chart_series_t * ser, lv_coord_t * y_array) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); memcpy(ser->points, y_array, ext->point_cnt * (sizeof(lv_coord_t))); ser->start_point = 0; lv_chart_refresh(chart); } /** * Shift all data left and set the rightmost data on a data line * @param chart pointer to chart object * @param ser pointer to a data series on 'chart' * @param y the new value of the rightmost data */ void lv_chart_set_next(lv_obj_t * chart, lv_chart_series_t * ser, lv_coord_t y) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); ser->points[ser->start_point] = y; /*This was the place of the former left most value, after shifting it is the rightmost*/ ser->start_point = (ser->start_point + 1) % ext->point_cnt; lv_chart_refresh(chart); } /*===================== * Getter functions *====================*/ /** * Get the type of a chart * @param chart pointer to chart object * @return type of the chart (from 'lv_chart_t' enum) */ lv_chart_type_t lv_chart_get_type(const lv_obj_t * chart) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); return ext->type; } /** * Get the data point number per data line on chart * @param chart pointer to chart object * @return point number on each data line */ uint16_t lv_chart_get_point_cnt(const lv_obj_t * chart) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); return ext->point_cnt; } /** * Get the opacity of the data series * @param chart pointer to chart object * @return the opacity of the data series */ lv_opa_t lv_chart_get_series_opa(const lv_obj_t * chart) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); return ext->series.opa; } /** * Get the data series width * @param chart pointer to chart object * @return the width the data series (lines or points) */ lv_coord_t lv_chart_get_series_width(const lv_obj_t * chart) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); return ext->series.width; } /** * Get the dark effect level on the bottom of the points or columns * @param chart pointer to chart object * @return dark effect level (LV_OPA_TRANSP to turn off) */ lv_opa_t lv_chart_get_series_darking(const lv_obj_t * chart) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); return ext->series.dark; } /*===================== * Other functions *====================*/ /** * Refresh a chart if its data line has changed * @param chart pointer to chart object */ void lv_chart_refresh(lv_obj_t * chart) { lv_obj_invalidate(chart); } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the chart backgrounds * @param chart pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_chart_design(lv_obj_t * chart, const lv_area_t * mask, lv_design_mode_t mode) { if(mode == LV_DESIGN_COVER_CHK) { /*Return false if the object is not covers the mask_p area*/ return ancestor_design_f(chart, mask, mode); } else if(mode == LV_DESIGN_DRAW_MAIN) { /*Draw the background*/ lv_draw_rect(&chart->coords, mask, lv_obj_get_style(chart), lv_obj_get_opa_scale(chart)); lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); lv_chart_draw_div(chart, mask); if(ext->type & LV_CHART_TYPE_LINE) lv_chart_draw_lines(chart, mask); if(ext->type & LV_CHART_TYPE_COLUMN) lv_chart_draw_cols(chart, mask); if(ext->type & LV_CHART_TYPE_POINT) lv_chart_draw_points(chart, mask); if(ext->type & LV_CHART_TYPE_VERTICAL_LINE) lv_chart_draw_vertical_lines(chart, mask); } return true; } /** * Signal function of the chart background * @param chart pointer to a chart background object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable */ static lv_res_t lv_chart_signal(lv_obj_t * chart, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(chart, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_CLEANUP) { lv_coord_t ** datal; lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); LL_READ(ext->series_ll, datal) { lv_mem_free(*datal); } lv_ll_clear(&ext->series_ll); } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_chart"; } return res; } /** * Draw the division lines on chart background * @param chart pointer to chart object * @param mask mask, inherited from the design function */ static void lv_chart_draw_div(lv_obj_t * chart, const lv_area_t * mask) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); lv_style_t * style = lv_obj_get_style(chart); lv_opa_t opa_scale = lv_obj_get_opa_scale(chart); uint8_t div_i; uint8_t div_i_end; uint8_t div_i_start; lv_point_t p1; lv_point_t p2; lv_coord_t w = lv_obj_get_width(chart); lv_coord_t h = lv_obj_get_height(chart); lv_coord_t x_ofs = chart->coords.x1; lv_coord_t y_ofs = chart->coords.y1; if(ext->hdiv_cnt != 0) { /*Draw slide lines if no border*/ if(style->body.border.width != 0) { div_i_start = 1; div_i_end = ext->hdiv_cnt; } else { div_i_start = 0; div_i_end = ext->hdiv_cnt + 1; } p1.x = 0 + x_ofs; p2.x = w + x_ofs; for(div_i = div_i_start; div_i <= div_i_end; div_i++) { p1.y = (int32_t)((int32_t)h * div_i) / (ext->hdiv_cnt + 1); p1.y += y_ofs; if(div_i == div_i_start) p1.y += (style->line.width >> 1) + 1; /*The first line might not be visible*/ if(div_i == div_i_end) p1.y -= (style->line.width >> 1) + 1; /*The last line might not be visible*/ p2.y = p1.y; lv_draw_line(&p1, &p2, mask, style, opa_scale); } } if(ext->vdiv_cnt != 0) { /*Draw slide lines if no border*/ if(style->body.border.width != 0) { div_i_start = 1; div_i_end = ext->vdiv_cnt; } else { div_i_start = 0; div_i_end = ext->vdiv_cnt + 1; } p1.y = 0 + y_ofs; p2.y = h + y_ofs; for(div_i = div_i_start; div_i <= div_i_end; div_i ++) { p1.x = (int32_t)((int32_t)w * div_i) / (ext->vdiv_cnt + 1); p1.x += x_ofs; if(div_i == div_i_start) p1.x += (style->line.width >> 1) + 1; /*The first line might not be visible*/ if(div_i == div_i_end) p1.x -= (style->line.width >> 1) + 1; /*The last line might not be visible*/ p2.x = p1.x; lv_draw_line(&p1, &p2, mask, style, opa_scale); } } } /** * Draw the data lines as lines on a chart * @param obj pointer to chart object */ static void lv_chart_draw_lines(lv_obj_t * chart, const lv_area_t * mask) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); uint16_t i; lv_point_t p1; lv_point_t p2; lv_coord_t w = lv_obj_get_width(chart); lv_coord_t h = lv_obj_get_height(chart); lv_coord_t x_ofs = chart->coords.x1; lv_coord_t y_ofs = chart->coords.y1; int32_t y_tmp; lv_coord_t p_prev; lv_coord_t p_act; lv_chart_series_t * ser; lv_opa_t opa_scale = lv_obj_get_opa_scale(chart); lv_style_t style; lv_style_copy(&style, &lv_style_plain); style.line.opa = ext->series.opa; style.line.width = ext->series.width; /*Go through all data lines*/ LL_READ_BACK(ext->series_ll, ser) { style.line.color = ser->color; p1.x = 0 + x_ofs; p2.x = 0 + x_ofs; p_prev = ser->start_point; y_tmp = (int32_t)((int32_t) ser->points[p_prev] - ext->ymin) * h; y_tmp = y_tmp / (ext->ymax - ext->ymin); p2.y = h - y_tmp + y_ofs; for(i = 1; i < ext->point_cnt; i ++) { p1.x = p2.x; p1.y = p2.y; p2.x = ((w * i) / (ext->point_cnt - 1)) + x_ofs; p_act = (ser->start_point + i) % ext->point_cnt; y_tmp = (int32_t)((int32_t) ser->points[p_act] - ext->ymin) * h; y_tmp = y_tmp / (ext->ymax - ext->ymin); p2.y = h - y_tmp + y_ofs; if(ser->points[p_prev] != LV_CHART_POINT_DEF && ser->points[p_act] != LV_CHART_POINT_DEF) lv_draw_line(&p1, &p2, mask, &style, opa_scale); p_prev = p_act; } } } /** * Draw the data lines as points on a chart * @param chart pointer to chart object * @param mask mask, inherited from the design function */ static void lv_chart_draw_points(lv_obj_t * chart, const lv_area_t * mask) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); uint16_t i; lv_area_t cir_a; lv_coord_t w = lv_obj_get_width(chart); lv_coord_t h = lv_obj_get_height(chart); lv_coord_t x_ofs = chart->coords.x1; lv_coord_t y_ofs = chart->coords.y1; int32_t y_tmp; lv_coord_t p_act; lv_chart_series_t * ser; uint8_t series_cnt = 0; lv_style_t style_point; lv_style_copy(&style_point, &lv_style_plain); style_point.body.border.width = 0; style_point.body.empty = 0; style_point.body.radius = LV_RADIUS_CIRCLE; style_point.body.opa = ext->series.opa; style_point.body.radius = ext->series.width; /*Go through all data lines*/ LL_READ_BACK(ext->series_ll, ser) { style_point.body.main_color = ser->color; style_point.body.grad_color = lv_color_mix(LV_COLOR_BLACK, ser->color, ext->series.dark); for(i = 0; i < ext->point_cnt; i ++) { cir_a.x1 = ((w * i) / (ext->point_cnt - 1)) + x_ofs; cir_a.x2 = cir_a.x1 + style_point.body.radius; cir_a.x1 -= style_point.body.radius; p_act = (ser->start_point + i) % ext->point_cnt; y_tmp = (int32_t)((int32_t) ser->points[p_act] - ext->ymin) * h; y_tmp = y_tmp / (ext->ymax - ext->ymin); cir_a.y1 = h - y_tmp + y_ofs; cir_a.y2 = cir_a.y1 + style_point.body.radius; cir_a.y1 -= style_point.body.radius; if(ser->points[p_act] != LV_CHART_POINT_DEF) lv_draw_rect(&cir_a, mask, &style_point, lv_obj_get_opa_scale(chart)); } series_cnt++; } } /** * Draw the data lines as columns on a chart * @param chart pointer to chart object * @param mask mask, inherited from the design function */ static void lv_chart_draw_cols(lv_obj_t * chart, const lv_area_t * mask) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); uint16_t i; lv_area_t col_a; lv_area_t col_mask; bool mask_ret; lv_coord_t w = lv_obj_get_width(chart); lv_coord_t h = lv_obj_get_height(chart); int32_t y_tmp; lv_chart_series_t * ser; lv_style_t rects; lv_coord_t col_w = w / ((ext->series.num + 1) * ext->point_cnt); /* Suppose + 1 series as separator*/ lv_coord_t x_ofs = col_w / 2; /*Shift with a half col.*/ lv_style_copy(&rects, &lv_style_plain); rects.body.border.width = 0; rects.body.empty = 0; rects.body.radius = 0; rects.body.opa = ext->series.opa; col_a.y2 = chart->coords.y2; lv_coord_t x_act; /*Go through all points*/ for(i = 0; i < ext->point_cnt; i ++) { x_act = (int32_t)((int32_t) w * i) / ext->point_cnt; x_act += chart->coords.x1 + x_ofs; /*Draw the current point of all data line*/ LL_READ_BACK(ext->series_ll, ser) { rects.body.main_color = ser->color; rects.body.grad_color = lv_color_mix(LV_COLOR_BLACK, ser->color, ext->series.dark); col_a.x1 = x_act; col_a.x2 = col_a.x1 + col_w; x_act += col_w; lv_coord_t p_act = (ser->start_point + i) % ext->point_cnt; y_tmp = (int32_t)((int32_t) ser->points[p_act] - ext->ymin) * h; y_tmp = y_tmp / (ext->ymax - ext->ymin); col_a.y1 = h - y_tmp + chart->coords.y1; mask_ret = lv_area_intersect(&col_mask, mask, &col_a); if(mask_ret != false && ser->points[p_act] != LV_CHART_POINT_DEF) { lv_draw_rect(&chart->coords, &col_mask, &rects, lv_obj_get_opa_scale(chart)); } } } } /** * Draw the data lines as vertical lines on a chart if there is only 1px between point * @param obj pointer to chart object */ static void lv_chart_draw_vertical_lines(lv_obj_t * chart, const lv_area_t * mask) { lv_chart_ext_t * ext = lv_obj_get_ext_attr(chart); lv_coord_t w = lv_obj_get_width(chart); /*Vertical lines works only if the width == point count. Else use the normal line type*/ if(ext->point_cnt != w) { lv_chart_draw_lines(chart, mask); return; } uint16_t i; lv_point_t p1; lv_point_t p2; lv_coord_t h = lv_obj_get_height(chart); lv_coord_t x_ofs = chart->coords.x1; lv_coord_t y_ofs = chart->coords.y1; int32_t y_tmp; lv_chart_series_t * ser; lv_opa_t opa_scale = lv_obj_get_opa_scale(chart); lv_style_t style; lv_style_copy(&style, &lv_style_plain); style.line.opa = ext->series.opa; style.line.width = ext->series.width; /*Go through all data lines*/ LL_READ_BACK(ext->series_ll, ser) { style.line.color = ser->color; p1.x = 0 + x_ofs; p2.x = 0 + x_ofs; y_tmp = (int32_t)((int32_t) ser->points[0] - ext->ymin) * h; y_tmp = y_tmp / (ext->ymax - ext->ymin); p2.y = h - y_tmp + y_ofs; p1.y = p2.y; for(i = 0; i < ext->point_cnt; i++) { y_tmp = (int32_t)((int32_t) ser->points[i] - ext->ymin) * h; y_tmp = y_tmp / (ext->ymax - ext->ymin); p2.y = h - y_tmp + y_ofs; if(p1.y == p2.y) { p2.x++; } if(ser->points[i] != LV_CHART_POINT_DEF) { lv_draw_line(&p1, &p2, mask, &style, opa_scale); } p2.x = ((w * i) / (ext->point_cnt - 1)) + x_ofs; p1.x = p2.x; p1.y = p2.y; } } } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_chart.h ================================================ /** * @file lv_chart.h * */ #ifndef LV_CHART_H #define LV_CHART_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_CHART != 0 #include "../lv_core/lv_obj.h" #include "lv_line.h" /********************* * DEFINES *********************/ #define LV_CHART_POINT_DEF (LV_COORD_MIN) /********************** * TYPEDEFS **********************/ typedef struct { lv_coord_t * points; lv_color_t color; uint16_t start_point; } lv_chart_series_t; /*Data of chart */ typedef struct { /*No inherited ext*/ /*Ext. of ancestor*/ /*New data for this type */ lv_ll_t series_ll; /*Linked list for the data line pointers (stores lv_chart_dl_t)*/ lv_coord_t ymin; /*y min value (used to scale the data)*/ lv_coord_t ymax; /*y max value (used to scale the data)*/ uint8_t hdiv_cnt; /*Number of horizontal division lines*/ uint8_t vdiv_cnt; /*Number of vertical division lines*/ uint16_t point_cnt; /*Point number in a data line*/ uint8_t type :4; /*Line, column or point chart (from 'lv_chart_type_t')*/ struct { lv_coord_t width; /*Line width or point radius*/ uint8_t num; /*Number of data lines in dl_ll*/ lv_opa_t opa; /*Opacity of data lines*/ lv_opa_t dark; /*Dark level of the point/column bottoms*/ } series; } lv_chart_ext_t; /*Chart types*/ enum { LV_CHART_TYPE_LINE = 0x01, /*Connect the points with lines*/ LV_CHART_TYPE_COLUMN = 0x02, /*Draw columns*/ LV_CHART_TYPE_POINT = 0x04, /*Draw circles on the points*/ LV_CHART_TYPE_VERTICAL_LINE = 0x08, /*Draw vertical lines on points (useful when chart width == point count)*/ }; typedef uint8_t lv_chart_type_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a chart background objects * @param par pointer to an object, it will be the parent of the new chart background * @param copy pointer to a chart background object, if not NULL then the new object will be copied from it * @return pointer to the created chart background */ lv_obj_t * lv_chart_create(lv_obj_t * par, const lv_obj_t * copy); /*====================== * Add/remove functions *=====================*/ /** * Allocate and add a data series to the chart * @param chart pointer to a chart object * @param color color of the data series * @return pointer to the allocated data series */ lv_chart_series_t * lv_chart_add_series(lv_obj_t * chart, lv_color_t color); /** * Clear the point of a serie * @param chart pointer to a chart object * @param serie pointer to the chart's serie to clear */ void lv_chart_clear_serie(lv_obj_t * chart, lv_chart_series_t * serie); /*===================== * Setter functions *====================*/ /** * Set the number of horizontal and vertical division lines * @param chart pointer to a graph background object * @param hdiv number of horizontal division lines * @param vdiv number of vertical division lines */ void lv_chart_set_div_line_count(lv_obj_t * chart, uint8_t hdiv, uint8_t vdiv); /** * Set the minimal and maximal y values * @param chart pointer to a graph background object * @param ymin y minimum value * @param ymax y maximum value */ void lv_chart_set_range(lv_obj_t * chart, lv_coord_t ymin, lv_coord_t ymax); /** * Set a new type for a chart * @param chart pointer to a chart object * @param type new type of the chart (from 'lv_chart_type_t' enum) */ void lv_chart_set_type(lv_obj_t * chart, lv_chart_type_t type); /** * Set the number of points on a data line on a chart * @param chart pointer r to chart object * @param point_cnt new number of points on the data lines */ void lv_chart_set_point_count(lv_obj_t * chart, uint16_t point_cnt); /** * Set the opacity of the data series * @param chart pointer to a chart object * @param opa opacity of the data series */ void lv_chart_set_series_opa(lv_obj_t * chart, lv_opa_t opa); /** * Set the line width or point radius of the data series * @param chart pointer to a chart object * @param width the new width */ void lv_chart_set_series_width(lv_obj_t * chart, lv_coord_t width); /** * Set the dark effect on the bottom of the points or columns * @param chart pointer to a chart object * @param dark_eff dark effect level (LV_OPA_TRANSP to turn off) */ void lv_chart_set_series_darking(lv_obj_t * chart, lv_opa_t dark_eff); /** * Initialize all data points with a value * @param chart pointer to chart object * @param ser pointer to a data series on 'chart' * @param y the new value for all points */ void lv_chart_init_points(lv_obj_t * chart, lv_chart_series_t * ser, lv_coord_t y); /** * Set the value s of points from an array * @param chart pointer to chart object * @param ser pointer to a data series on 'chart' * @param y_array array of 'lv_coord_t' points (with 'points count' elements ) */ void lv_chart_set_points(lv_obj_t * chart, lv_chart_series_t * ser, lv_coord_t * y_array); /** * Shift all data right and set the most right data on a data line * @param chart pointer to chart object * @param ser pointer to a data series on 'chart' * @param y the new value of the most right data */ void lv_chart_set_next(lv_obj_t * chart, lv_chart_series_t * ser, lv_coord_t y); /** * Set the style of a chart * @param chart pointer to a chart object * @param style pointer to a style */ static inline void lv_chart_set_style(lv_obj_t *chart, lv_style_t *style) { lv_obj_set_style(chart, style); } /*===================== * Getter functions *====================*/ /** * Get the type of a chart * @param chart pointer to chart object * @return type of the chart (from 'lv_chart_t' enum) */ lv_chart_type_t lv_chart_get_type(const lv_obj_t * chart); /** * Get the data point number per data line on chart * @param chart pointer to chart object * @return point number on each data line */ uint16_t lv_chart_get_point_cnt(const lv_obj_t * chart); /** * Get the opacity of the data series * @param chart pointer to chart object * @return the opacity of the data series */ lv_opa_t lv_chart_get_series_opa(const lv_obj_t * chart); /** * Get the data series width * @param chart pointer to chart object * @return the width the data series (lines or points) */ lv_coord_t lv_chart_get_series_width(const lv_obj_t * chart); /** * Get the dark effect level on the bottom of the points or columns * @param chart pointer to chart object * @return dark effect level (LV_OPA_TRANSP to turn off) */ lv_opa_t lv_chart_get_series_darking(const lv_obj_t * chart); /** * Get the style of an chart object * @param chart pointer to an chart object * @return pointer to the chart's style */ static inline lv_style_t* lv_chart_get_style(const lv_obj_t *chart) { return lv_obj_get_style(chart); } /*===================== * Other functions *====================*/ /** * Refresh a chart if its data line has changed * @param chart pointer to chart object */ void lv_chart_refresh(lv_obj_t * chart); /********************** * MACROS **********************/ #endif /*USE_LV_CHART*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_CHART_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_cont.c ================================================ /** * @file lv_cont.c * */ /********************* * INCLUDES *********************/ #include "lv_cont.h" #if USE_LV_CONT != 0 #include #include #include "../lv_draw/lv_draw.h" #include "../lv_draw/lv_draw_vbasic.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_area.h" #include "../lv_misc/lv_color.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_cont_signal(lv_obj_t * cont, lv_signal_t sign, void * param); static void lv_cont_refr_layout(lv_obj_t * cont); static void lv_cont_layout_col(lv_obj_t * cont); static void lv_cont_layout_row(lv_obj_t * cont); static void lv_cont_layout_center(lv_obj_t * cont); static void lv_cont_layout_pretty(lv_obj_t * cont); static void lv_cont_layout_grid(lv_obj_t * cont); static void lv_cont_refr_autofit(lv_obj_t * cont); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a container objects * @param par pointer to an object, it will be the parent of the new container * @param copy pointer to a container object, if not NULL then the new object will be copied from it * @return pointer to the created container */ lv_obj_t * lv_cont_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("container create started"); /*Create a basic object*/ lv_obj_t * new_cont = lv_obj_create(par, copy); lv_mem_assert(new_cont); if(new_cont == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_cont); lv_obj_allocate_ext_attr(new_cont, sizeof(lv_cont_ext_t)); lv_cont_ext_t * ext = lv_obj_get_ext_attr(new_cont); if(ext == NULL) return NULL; lv_mem_assert(ext); ext->hor_fit = 0; ext->ver_fit = 0; ext->layout = LV_LAYOUT_OFF; lv_obj_set_signal_func(new_cont, lv_cont_signal); /*Init the new container*/ if(copy == NULL) { /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_cont_set_style(new_cont, th->cont); } else { lv_cont_set_style(new_cont, &lv_style_pretty); } } /*Copy an existing object*/ else { lv_cont_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->hor_fit = copy_ext->hor_fit; ext->ver_fit = copy_ext->ver_fit; ext->layout = copy_ext->layout; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_cont); } LV_LOG_INFO("container created"); return new_cont; } /*===================== * Setter functions *====================*/ /** * Set a layout on a container * @param cont pointer to a container object * @param layout a layout from 'lv_cont_layout_t' */ void lv_cont_set_layout(lv_obj_t * cont, lv_layout_t layout) { lv_cont_ext_t * ext = lv_obj_get_ext_attr(cont); if(ext->layout == layout) return; ext->layout = layout; /*Send a signal to refresh the layout*/ cont->signal_func(cont, LV_SIGNAL_CHILD_CHG, NULL); } /** * Enable the horizontal or vertical fit. * The container size will be set to involve the children horizontally or vertically. * @param cont pointer to a container object * @param hor_en true: enable the horizontal fit * @param ver_en true: enable the vertical fit */ void lv_cont_set_fit(lv_obj_t * cont, bool hor_en, bool ver_en) { lv_obj_invalidate(cont); lv_cont_ext_t * ext = lv_obj_get_ext_attr(cont); if(ext->hor_fit == hor_en && ext->ver_fit == ver_en) return; ext->hor_fit = hor_en == false ? 0 : 1; ext->ver_fit = ver_en == false ? 0 : 1; /*Send a signal to refresh the layout*/ cont->signal_func(cont, LV_SIGNAL_CHILD_CHG, NULL); } /*===================== * Getter functions *====================*/ /** * Get the layout of a container * @param cont pointer to container object * @return the layout from 'lv_cont_layout_t' */ lv_layout_t lv_cont_get_layout(const lv_obj_t * cont) { lv_cont_ext_t * ext = lv_obj_get_ext_attr(cont); return ext->layout; } /** * Get horizontal fit enable attribute of a container * @param cont pointer to a container object * @return true: horizontal fit is enabled; false: disabled */ bool lv_cont_get_hor_fit(const lv_obj_t * cont) { lv_cont_ext_t * ext = lv_obj_get_ext_attr(cont); return ext->hor_fit == 0 ? false : true; } /** * Get vertical fit enable attribute of a container * @param cont pointer to a container object * @return true: vertical fit is enabled; false: disabled */ bool lv_cont_get_ver_fit(const lv_obj_t * cont) { lv_cont_ext_t * ext = lv_obj_get_ext_attr(cont); return ext->ver_fit == 0 ? false : true; } /** * Get that width reduced by the horizontal padding. Useful if a layout is used. * @param cont pointer to a container object * @return the width which still fits into the container */ lv_coord_t lv_cont_get_fit_width(lv_obj_t * cont) { lv_style_t * style = lv_cont_get_style(cont); return lv_obj_get_width(cont) - 2 * style->body.padding.hor; } /** * Get that height reduced by the vertical padding. Useful if a layout is used. * @param cont pointer to a container object * @return the height which still fits into the container */ lv_coord_t lv_cont_get_fit_height(lv_obj_t * cont) { lv_style_t * style = lv_cont_get_style(cont); return lv_obj_get_height(cont) - 2 * style->body.padding.ver; } /********************** * STATIC FUNCTIONS **********************/ /** * Signal function of the container * @param cont pointer to a container object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_cont_signal(lv_obj_t * cont, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(cont, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_STYLE_CHG) { /*Recalculate the padding if the style changed*/ lv_cont_refr_layout(cont); lv_cont_refr_autofit(cont); } else if(sign == LV_SIGNAL_CHILD_CHG) { lv_cont_refr_layout(cont); lv_cont_refr_autofit(cont); } else if(sign == LV_SIGNAL_CORD_CHG) { if(lv_obj_get_width(cont) != lv_area_get_width(param) || lv_obj_get_height(cont) != lv_area_get_height(param)) { lv_cont_refr_layout(cont); lv_cont_refr_autofit(cont); } } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_cont"; } return res; } /** * Refresh the layout of a container * @param cont pointer to an object which layout should be refreshed */ static void lv_cont_refr_layout(lv_obj_t * cont) { lv_layout_t type = lv_cont_get_layout(cont); /*'cont' has to be at least 1 child*/ if(lv_obj_get_child(cont, NULL) == NULL) return; if(type == LV_LAYOUT_OFF) return; if(type == LV_LAYOUT_CENTER) { lv_cont_layout_center(cont); } else if(type == LV_LAYOUT_COL_L || type == LV_LAYOUT_COL_M || type == LV_LAYOUT_COL_R) { lv_cont_layout_col(cont); } else if(type == LV_LAYOUT_ROW_T || type == LV_LAYOUT_ROW_M || type == LV_LAYOUT_ROW_B) { lv_cont_layout_row(cont); } else if(type == LV_LAYOUT_PRETTY) { lv_cont_layout_pretty(cont); } else if(type == LV_LAYOUT_GRID) { lv_cont_layout_grid(cont); } } /** * Handle column type layouts * @param cont pointer to an object which layout should be handled */ static void lv_cont_layout_col(lv_obj_t * cont) { lv_layout_t type = lv_cont_get_layout(cont); lv_obj_t * child; /*Adjust margin and get the alignment type*/ lv_align_t align; lv_style_t * style = lv_obj_get_style(cont); lv_coord_t hpad_corr; switch(type) { case LV_LAYOUT_COL_L: hpad_corr = style->body.padding.hor; align = LV_ALIGN_IN_TOP_LEFT; break; case LV_LAYOUT_COL_M: hpad_corr = 0; align = LV_ALIGN_IN_TOP_MID; break; case LV_LAYOUT_COL_R: hpad_corr = -style->body.padding.hor; align = LV_ALIGN_IN_TOP_RIGHT; break; default: hpad_corr = 0; align = LV_ALIGN_IN_TOP_LEFT; break; } /* Disable child change action because the children will be moved a lot * an unnecessary child change signals could be sent*/ lv_obj_set_protect(cont, LV_PROTECT_CHILD_CHG); /* Align the children */ lv_coord_t last_cord = style->body.padding.ver; LL_READ_BACK(cont->child_ll, child) { if(lv_obj_get_hidden(child) != false || lv_obj_is_protected(child, LV_PROTECT_POS) != false) continue; lv_obj_align(child, cont, align, hpad_corr, last_cord); last_cord += lv_obj_get_height(child) + style->body.padding.inner; } lv_obj_clear_protect(cont, LV_PROTECT_CHILD_CHG); } /** * Handle row type layouts * @param cont pointer to an object which layout should be handled */ static void lv_cont_layout_row(lv_obj_t * cont) { lv_layout_t type = lv_cont_get_layout(cont); lv_obj_t * child; /*Adjust margin and get the alignment type*/ lv_align_t align; lv_style_t * style = lv_obj_get_style(cont); lv_coord_t vpad_corr = style->body.padding.ver; switch(type) { case LV_LAYOUT_ROW_T: vpad_corr = style->body.padding.ver; align = LV_ALIGN_IN_TOP_LEFT; break; case LV_LAYOUT_ROW_M: vpad_corr = 0; align = LV_ALIGN_IN_LEFT_MID; break; case LV_LAYOUT_ROW_B: vpad_corr = -style->body.padding.ver; align = LV_ALIGN_IN_BOTTOM_LEFT; break; default: vpad_corr = 0; align = LV_ALIGN_IN_TOP_LEFT; break; } /* Disable child change action because the children will be moved a lot * an unnecessary child change signals could be sent*/ lv_obj_set_protect(cont, LV_PROTECT_CHILD_CHG); /* Align the children */ lv_coord_t last_cord = style->body.padding.hor; LL_READ_BACK(cont->child_ll, child) { if(lv_obj_get_hidden(child) != false || lv_obj_is_protected(child, LV_PROTECT_POS) != false) continue; lv_obj_align(child, cont, align, last_cord, vpad_corr); last_cord += lv_obj_get_width(child) + style->body.padding.inner; } lv_obj_clear_protect(cont, LV_PROTECT_CHILD_CHG); } /** * Handle the center layout * @param cont pointer to an object which layout should be handled */ static void lv_cont_layout_center(lv_obj_t * cont) { lv_obj_t * child; lv_style_t * style = lv_obj_get_style(cont); uint32_t obj_num = 0; lv_coord_t h_tot = 0; LL_READ(cont->child_ll, child) { if(lv_obj_get_hidden(child) != false || lv_obj_is_protected(child, LV_PROTECT_POS) != false) continue; h_tot += lv_obj_get_height(child) + style->body.padding.inner; obj_num ++; } if(obj_num == 0) return; h_tot -= style->body.padding.inner; /* Disable child change action because the children will be moved a lot * an unnecessary child change signals could be sent*/ lv_obj_set_protect(cont, LV_PROTECT_CHILD_CHG); /* Align the children */ lv_coord_t last_cord = - (h_tot / 2); LL_READ_BACK(cont->child_ll, child) { if(lv_obj_get_hidden(child) != false || lv_obj_is_protected(child, LV_PROTECT_POS) != false) continue; lv_obj_align(child, cont, LV_ALIGN_CENTER, 0, last_cord + lv_obj_get_height(child) / 2); last_cord += lv_obj_get_height(child) + style->body.padding.inner; } lv_obj_clear_protect(cont, LV_PROTECT_CHILD_CHG); } /** * Handle the pretty layout. Put as many object as possible in row * then begin a new row * @param cont pointer to an object which layout should be handled */ static void lv_cont_layout_pretty(lv_obj_t * cont) { lv_obj_t * child_rs; /* Row starter child */ lv_obj_t * child_rc; /* Row closer child */ lv_obj_t * child_tmp; /* Temporary child */ lv_style_t * style = lv_obj_get_style(cont); lv_coord_t w_obj = lv_obj_get_width(cont); lv_coord_t act_y = style->body.padding.ver; /* Disable child change action because the children will be moved a lot * an unnecessary child change signals could be sent*/ child_rs = lv_ll_get_tail(&cont->child_ll); /*Set the row starter child*/ if(child_rs == NULL) return; /*Return if no child*/ lv_obj_set_protect(cont, LV_PROTECT_CHILD_CHG); child_rc = child_rs; /*Initially the the row starter and closer is the same*/ while(child_rs != NULL) { lv_coord_t h_row = 0; lv_coord_t w_row = style->body.padding.hor * 2; /*The width is at least the left+right hpad*/ uint32_t obj_num = 0; /*Find the row closer object and collect some data*/ do { if(lv_obj_get_hidden(child_rc) == false && lv_obj_is_protected(child_rc, LV_PROTECT_POS) == false) { /*If this object is already not fit then break*/ if(w_row + lv_obj_get_width(child_rc) > w_obj) { /*Step back one child because the last already not fit, so the previous is the closer*/ if(child_rc != NULL && obj_num != 0) { child_rc = lv_ll_get_next(&cont->child_ll, child_rc); } break; } w_row += lv_obj_get_width(child_rc) + style->body.padding.inner; /*Add the object width + opad*/ h_row = LV_MATH_MAX(h_row, lv_obj_get_height(child_rc)); /*Search the highest object*/ obj_num ++; if(lv_obj_is_protected(child_rc, LV_PROTECT_FOLLOW)) break; /*If can not be followed by an other object then break here*/ } child_rc = lv_ll_get_prev(&cont->child_ll, child_rc); /*Load the next object*/ if(obj_num == 0) child_rs = child_rc; /*If the first object was hidden (or too long) then set the next as first */ } while(child_rc != NULL); /*If the object is too long then align it to the middle*/ if(obj_num == 0) { if(child_rc != NULL) { lv_obj_align(child_rc, cont, LV_ALIGN_IN_TOP_MID, 0, act_y); h_row = lv_obj_get_height(child_rc); /*Not set previously because of the early break*/ } } /*If there is only one object in the row then align it to the middle*/ else if(obj_num == 1) { lv_obj_align(child_rs, cont, LV_ALIGN_IN_TOP_MID, 0, act_y); } /*If there are two object in the row then align them proportionally*/ else if(obj_num == 2) { lv_obj_t * obj1 = child_rs; lv_obj_t * obj2 = lv_ll_get_prev(&cont->child_ll, child_rs); w_row = lv_obj_get_width(obj1) + lv_obj_get_width(obj2); lv_coord_t pad = (w_obj - w_row) / 3; lv_obj_align(obj1, cont, LV_ALIGN_IN_TOP_LEFT, pad, act_y + (h_row - lv_obj_get_height(obj1)) / 2); lv_obj_align(obj2, cont, LV_ALIGN_IN_TOP_RIGHT, -pad, act_y + (h_row - lv_obj_get_height(obj2)) / 2); } /* Align the children (from child_rs to child_rc)*/ else { w_row -= style->body.padding.inner * obj_num; lv_coord_t new_opad = (w_obj - w_row) / (obj_num - 1); lv_coord_t act_x = style->body.padding.hor; /*x init*/ child_tmp = child_rs; while(child_tmp != NULL) { if(lv_obj_get_hidden(child_tmp) == false && lv_obj_is_protected(child_tmp, LV_PROTECT_POS) == false) { lv_obj_align(child_tmp, cont, LV_ALIGN_IN_TOP_LEFT, act_x, act_y + (h_row - lv_obj_get_height(child_tmp)) / 2); act_x += lv_obj_get_width(child_tmp) + new_opad; } if(child_tmp == child_rc) break; child_tmp = lv_ll_get_prev(&cont->child_ll, child_tmp); } } if(child_rc == NULL) break; act_y += style->body.padding.inner + h_row; /*y increment*/ child_rs = lv_ll_get_prev(&cont->child_ll, child_rc); /*Go to the next object*/ child_rc = child_rs; } lv_obj_clear_protect(cont, LV_PROTECT_CHILD_CHG); } /** * Handle the grid layout. Align same-sized objects in a grid * @param cont pointer to an object which layout should be handled */ static void lv_cont_layout_grid(lv_obj_t * cont) { lv_obj_t * child; lv_style_t * style = lv_obj_get_style(cont); lv_coord_t w_tot = lv_obj_get_width(cont); lv_coord_t w_obj = lv_obj_get_width(lv_obj_get_child(cont, NULL)); lv_coord_t h_obj = lv_obj_get_height(lv_obj_get_child(cont, NULL)); uint16_t obj_row = (w_tot - (2 * style->body.padding.hor)) / (w_obj + style->body.padding.inner); /*Obj. num. in a row*/ lv_coord_t x_ofs; if(obj_row > 1) { x_ofs = w_obj + (w_tot - (2 * style->body.padding.hor) - (obj_row * w_obj)) / (obj_row - 1); } else { x_ofs = w_tot / 2 - w_obj / 2; } lv_coord_t y_ofs = h_obj + style->body.padding.inner; /* Disable child change action because the children will be moved a lot * an unnecessary child change signals could be sent*/ lv_obj_set_protect(cont, LV_PROTECT_CHILD_CHG); /* Align the children */ lv_coord_t act_x = style->body.padding.hor; lv_coord_t act_y = style->body.padding.ver; uint16_t obj_cnt = 0; LL_READ_BACK(cont->child_ll, child) { if(lv_obj_get_hidden(child) != false || lv_obj_is_protected(child, LV_PROTECT_POS) != false) continue; if(obj_row > 1) { lv_obj_set_pos(child, act_x, act_y); act_x += x_ofs; } else { lv_obj_set_pos(child, x_ofs, act_y); } obj_cnt ++; if(obj_cnt >= obj_row) { obj_cnt = 0; act_x = style->body.padding.hor; act_y += y_ofs; } } lv_obj_clear_protect(cont, LV_PROTECT_CHILD_CHG); } /** * Handle auto fit. Set the size of the object to involve all children. * @param cont pointer to an object which size will be modified */ static void lv_cont_refr_autofit(lv_obj_t * cont) { lv_cont_ext_t * ext = lv_obj_get_ext_attr(cont); if(ext->hor_fit == 0 && ext->ver_fit == 0) { return; } lv_area_t new_cords; lv_area_t ori; lv_style_t * style = lv_obj_get_style(cont); lv_obj_t * i; lv_coord_t hpad = style->body.padding.hor; lv_coord_t vpad = style->body.padding.ver; /*Search the side coordinates of the children*/ lv_obj_get_coords(cont, &ori); lv_obj_get_coords(cont, &new_cords); new_cords.x1 = LV_COORD_MAX; new_cords.y1 = LV_COORD_MAX; new_cords.x2 = LV_COORD_MIN; new_cords.y2 = LV_COORD_MIN; LL_READ(cont->child_ll, i) { if(lv_obj_get_hidden(i) != false) continue; new_cords.x1 = LV_MATH_MIN(new_cords.x1, i->coords.x1); new_cords.y1 = LV_MATH_MIN(new_cords.y1, i->coords.y1); new_cords.x2 = LV_MATH_MAX(new_cords.x2, i->coords.x2); new_cords.y2 = LV_MATH_MAX(new_cords.y2, i->coords.y2); } /*If the value is not the init value then the page has >=1 child.*/ if(new_cords.x1 != LV_COORD_MAX) { if(ext->hor_fit != 0) { new_cords.x1 -= hpad; new_cords.x2 += hpad; } else { new_cords.x1 = cont->coords.x1; new_cords.x2 = cont->coords.x2; } if(ext->ver_fit != 0) { new_cords.y1 -= vpad; new_cords.y2 += vpad; } else { new_cords.y1 = cont->coords.y1; new_cords.y2 = cont->coords.y2; } /*Do nothing if the coordinates are not changed*/ if(cont->coords.x1 != new_cords.x1 || cont->coords.y1 != new_cords.y1 || cont->coords.x2 != new_cords.x2 || cont->coords.y2 != new_cords.y2) { lv_obj_invalidate(cont); lv_area_copy(&cont->coords, &new_cords); lv_obj_invalidate(cont); /*Notify the object about its new coordinates*/ cont->signal_func(cont, LV_SIGNAL_CORD_CHG, &ori); /*Inform the parent about the new coordinates*/ lv_obj_t * par = lv_obj_get_parent(cont); par->signal_func(par, LV_SIGNAL_CHILD_CHG, cont); } } } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_cont.h ================================================ /** * @file lv_cont.h * */ #ifndef LV_CONT_H #define LV_CONT_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_CONT != 0 #include "../lv_core/lv_obj.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Layout options*/ enum { LV_LAYOUT_OFF = 0, LV_LAYOUT_CENTER, LV_LAYOUT_COL_L, /*Column left align*/ LV_LAYOUT_COL_M, /*Column middle align*/ LV_LAYOUT_COL_R, /*Column right align*/ LV_LAYOUT_ROW_T, /*Row top align*/ LV_LAYOUT_ROW_M, /*Row middle align*/ LV_LAYOUT_ROW_B, /*Row bottom align*/ LV_LAYOUT_PRETTY, /*Put as many object as possible in row and begin a new row*/ LV_LAYOUT_GRID, /*Align same-sized object into a grid*/ }; typedef uint8_t lv_layout_t; typedef struct { /*Inherited from 'base_obj' so no inherited ext. */ /*Ext. of ancestor*/ /*New data for this type */ uint8_t layout :4; /*A layout from 'lv_cont_layout_t' enum*/ uint8_t hor_fit :1; /*1: Enable horizontal fit to involve all children*/ uint8_t ver_fit :1; /*1: Enable horizontal fit to involve all children*/ } lv_cont_ext_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a container objects * @param par pointer to an object, it will be the parent of the new container * @param copy pointer to a container object, if not NULL then the new object will be copied from it * @return pointer to the created container */ lv_obj_t * lv_cont_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set a layout on a container * @param cont pointer to a container object * @param layout a layout from 'lv_cont_layout_t' */ void lv_cont_set_layout(lv_obj_t * cont, lv_layout_t layout); /** * Enable the horizontal or vertical fit. * The container size will be set to involve the children horizontally or vertically. * @param cont pointer to a container object * @param hor_en true: enable the horizontal fit * @param ver_en true: enable the vertical fit */ void lv_cont_set_fit(lv_obj_t * cont, bool hor_en, bool ver_en); /** * Set the style of a container * @param cont pointer to a container object * @param style pointer to the new style */ static inline void lv_cont_set_style(lv_obj_t *cont, lv_style_t * style) { lv_obj_set_style(cont, style); } /*===================== * Getter functions *====================*/ /** * Get the layout of a container * @param cont pointer to container object * @return the layout from 'lv_cont_layout_t' */ lv_layout_t lv_cont_get_layout(const lv_obj_t * cont); /** * Get horizontal fit enable attribute of a container * @param cont pointer to a container object * @return true: horizontal fit is enabled; false: disabled */ bool lv_cont_get_hor_fit(const lv_obj_t * cont); /** * Get vertical fit enable attribute of a container * @param cont pointer to a container object * @return true: vertical fit is enabled; false: disabled */ bool lv_cont_get_ver_fit(const lv_obj_t * cont); /** * Get that width reduced by the horizontal padding. Useful if a layout is used. * @param cont pointer to a container object * @return the width which still fits into the container */ lv_coord_t lv_cont_get_fit_width(lv_obj_t * cont); /** * Get that height reduced by the vertical padding. Useful if a layout is used. * @param cont pointer to a container object * @return the height which still fits into the container */ lv_coord_t lv_cont_get_fit_height(lv_obj_t * cont); /** * Get the style of a container * @param cont pointer to a container object * @return pointer to the container's style */ static inline lv_style_t * lv_cont_get_style(const lv_obj_t *cont) { return lv_obj_get_style(cont); } /********************** * MACROS **********************/ #endif /*USE_LV_CONT*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_CONT_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_ddlist.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_ddlist.c * */ /********************* * INCLUDES *********************/ #include "lv_ddlist.h" #if USE_LV_DDLIST != 0 #include "../lv_draw/lv_draw.h" #include "../lv_core/lv_group.h" #include "../lv_core/lv_indev.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_symbol_def.h" #include "../lv_misc/lv_anim.h" //#include /********************* * DEFINES *********************/ #if USE_LV_ANIMATION # ifndef LV_DDLIST_ANIM_TIME # define LV_DDLIST_ANIM_TIME 200 /*ms*/ # endif #else # undef LV_DDLIST_ANIM_TIME # define LV_DDLIST_ANIM_TIME 0 /*No animation*/ #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_ddlist_design(lv_obj_t * ddlist, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_ddlist_signal(lv_obj_t * ddlist, lv_signal_t sign, void * param); static lv_res_t lv_ddlist_scrl_signal(lv_obj_t * scrl, lv_signal_t sign, void * param); static lv_res_t lv_ddlist_release_action(lv_obj_t * ddlist); static lv_res_t lv_ddlist_press_action(lv_obj_t * ddlist); static void lv_ddlist_refr_size(lv_obj_t * ddlist, bool anim_en); static void lv_ddlist_pos_current_option(lv_obj_t * ddlist); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_signal_func_t ancestor_scrl_signal; static lv_design_func_t ancestor_design; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a drop down list objects * @param par pointer to an object, it will be the parent of the new drop down list * @param copy pointer to a drop down list object, if not NULL then the new object will be copied from it * @return pointer to the created drop down list */ lv_obj_t * lv_ddlist_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("drop down list create started"); /*Create the ancestor drop down list*/ lv_obj_t * new_ddlist = lv_page_create(par, copy); lv_mem_assert(new_ddlist); if(new_ddlist == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_ddlist); if(ancestor_scrl_signal == NULL) ancestor_scrl_signal = lv_obj_get_signal_func(lv_page_get_scrl(new_ddlist)); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_ddlist); /*Allocate the drop down list type specific extended data*/ lv_ddlist_ext_t * ext = lv_obj_allocate_ext_attr(new_ddlist, sizeof(lv_ddlist_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; /*Initialize the allocated 'ext' */ ext->label = NULL; ext->action = NULL; ext->opened = 0; ext->fix_height = 0; ext->sel_opt_id = 0; ext->sel_opt_id_ori = 0; ext->option_cnt = 0; ext->anim_time = LV_DDLIST_ANIM_TIME; ext->sel_style = &lv_style_plain_color; ext->draw_arrow = 0; /*Do not draw arrow by default*/ ext->direction_up = 0; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_ddlist, lv_ddlist_signal); lv_obj_set_signal_func(lv_page_get_scrl(new_ddlist), lv_ddlist_scrl_signal); lv_obj_set_design_func(new_ddlist, lv_ddlist_design); /*Init the new drop down list drop down list*/ if(copy == NULL) { lv_obj_t * scrl = lv_page_get_scrl(new_ddlist); lv_obj_set_drag(scrl, false); lv_page_set_scrl_fit(new_ddlist, true, true); ext->label = lv_label_create(new_ddlist, NULL); lv_cont_set_fit(new_ddlist, true, false); lv_page_set_rel_action(new_ddlist, lv_ddlist_release_action); lv_page_set_pr_action(new_ddlist, lv_ddlist_press_action); lv_page_set_sb_mode(new_ddlist, LV_SB_MODE_DRAG); lv_page_set_sb_mode(new_ddlist, LV_SB_MODE_HIDE); lv_page_set_style(new_ddlist, LV_PAGE_STYLE_SCRL, &lv_style_transp_tight); lv_ddlist_set_options(new_ddlist, "Option 1\nOption 2\nOption 3"); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_ddlist_set_style(new_ddlist, LV_DDLIST_STYLE_BG, th->ddlist.bg); lv_ddlist_set_style(new_ddlist, LV_DDLIST_STYLE_BGO, th->ddlist.bgo); lv_ddlist_set_style(new_ddlist, LV_DDLIST_STYLE_PR, th->ddlist.pr); lv_ddlist_set_style(new_ddlist, LV_DDLIST_STYLE_SEL, th->ddlist.sel); lv_ddlist_set_style(new_ddlist, LV_DDLIST_STYLE_SB, th->ddlist.sb); } else { lv_ddlist_set_style(new_ddlist, LV_DDLIST_STYLE_BG, &lv_style_pretty); lv_ddlist_set_style(new_ddlist, LV_DDLIST_STYLE_BGO, &lv_style_pretty); lv_ddlist_set_style(new_ddlist, LV_DDLIST_STYLE_PR, &lv_style_pretty); lv_ddlist_set_style(new_ddlist, LV_DDLIST_STYLE_SEL, &lv_style_plain_color); lv_ddlist_set_style(new_ddlist, LV_DDLIST_STYLE_SB, &lv_style_pretty_color); } } /*Copy an existing drop down list*/ else { lv_ddlist_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->label = lv_label_create(new_ddlist, copy_ext->label); lv_label_set_text(ext->label, lv_label_get_text(copy_ext->label)); ext->sel_opt_id = copy_ext->sel_opt_id; ext->fix_height = copy_ext->fix_height; ext->action = copy_ext->action; ext->option_cnt = copy_ext->option_cnt; ext->sel_style = copy_ext->sel_style; ext->anim_time = copy_ext->anim_time; ext->draw_arrow = copy_ext->draw_arrow; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_ddlist); } LV_LOG_INFO("drop down list created"); return new_ddlist; } /*===================== * Setter functions *====================*/ /** * Set arrow draw in a drop down list * @param ddlist pointer to drop down list object * @param en enable/disable a arrow draw. E.g. "true" for draw. */ void lv_ddlist_set_draw_arrow(lv_obj_t * ddlist, bool en) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); /*Set the flag*/ ext->draw_arrow = en; } /** * Set the options in a drop down list from a string * @param ddlist pointer to drop down list object * @param options a string with '\n' separated options. E.g. "One\nTwo\nThree" */ void lv_ddlist_set_options(lv_obj_t * ddlist, const char * options) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); /*Count the '\n'-s to determine the number of options*/ ext->option_cnt = 0; uint16_t i; for(i = 0; options[i] != '\0'; i++) { if(options[i] == '\n') ext->option_cnt++; } ext->option_cnt++; /*Last option in the at row*/ lv_label_set_text(ext->label, options); lv_ddlist_refr_size(ddlist, false); } /** * Set the selected option * @param ddlist pointer to drop down list object * @param sel_opt id of the selected option (0 ... number of option - 1); */ void lv_ddlist_set_selected(lv_obj_t * ddlist, uint16_t sel_opt) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); if(ext->sel_opt_id == sel_opt) return; ext->sel_opt_id = sel_opt < ext->option_cnt ? sel_opt : ext->option_cnt - 1; ext->sel_opt_id_ori = ext->sel_opt_id; /*Move the list to show the current option*/ if(ext->opened == 0) { lv_ddlist_pos_current_option(ddlist); } else { lv_obj_invalidate(ddlist); } } /** * Set a function to call when a new option is chosen * @param ddlist pointer to a drop down list * @param action pointer to a call back function */ void lv_ddlist_set_action(lv_obj_t * ddlist, lv_action_t action) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); ext->action = action; } /** * Set the fix height for the drop down list * If 0 then the opened ddlist will be auto. sized else the set height will be applied. * @param ddlist pointer to a drop down list * @param h the height when the list is opened (0: auto size) */ void lv_ddlist_set_fix_height(lv_obj_t * ddlist, lv_coord_t h) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); if(ext->fix_height == h) return; ext->fix_height = h; lv_ddlist_refr_size(ddlist, false); } /** * Enable or disable the horizontal fit to the content * @param ddlist pointer to a drop down list * @param en true: enable auto fit; false: disable auto fit */ void lv_ddlist_set_hor_fit(lv_obj_t * ddlist, bool en) { lv_cont_set_fit(ddlist, en, lv_cont_get_ver_fit(ddlist)); lv_page_set_scrl_fit(ddlist, en, lv_page_get_scrl_fit_ver(ddlist)); lv_ddlist_refr_size(ddlist, false); } /** * Set the open/close animation time. * @param ddlist pointer to a drop down list * @param anim_time: open/close animation time [ms] */ void lv_ddlist_set_anim_time(lv_obj_t * ddlist, uint16_t anim_time) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); #if USE_LV_ANIMATION == 0 anim_time = 0; #endif ext->anim_time = anim_time; } /** * Set a style of a drop down list * @param ddlist pointer to a drop down list object * @param type which style should be set * @param style pointer to a style */ void lv_ddlist_set_style(lv_obj_t * ddlist, lv_ddlist_style_t type, lv_style_t * style) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); switch(type) { case LV_DDLIST_STYLE_BG: lv_page_set_style(ddlist, LV_PAGE_STYLE_BG, style); break; case LV_DDLIST_STYLE_BGO: lv_page_set_style(ddlist, LV_PAGE_STYLE_BGO, style); break; case LV_DDLIST_STYLE_PR: lv_page_set_style(ddlist, LV_PAGE_STYLE_PR, style); break; case LV_DDLIST_STYLE_SB: lv_page_set_style(ddlist, LV_PAGE_STYLE_SB, style); break; case LV_DDLIST_STYLE_SEL: ext->sel_style = style; lv_obj_t * scrl = lv_page_get_scrl(ddlist); lv_obj_refresh_ext_size(scrl); /*Because of the wider selected rectangle*/ break; } } void lv_ddlist_set_align(lv_obj_t *ddlist, lv_label_align_t align) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); lv_label_set_align(ext->label, align); } void lv_ddlist_set_direction_up(lv_obj_t *ddlist, bool enable) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); ext->direction_up = enable; } /*===================== * Getter functions *====================*/ /** * Get arrow draw in a drop down list * @param ddlist pointer to drop down list object */ bool lv_ddlist_get_draw_arrow(lv_obj_t * ddlist) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); return ext->draw_arrow; } /** * Get the options of a drop down list * @param ddlist pointer to drop down list object * @return the options separated by '\n'-s (E.g. "Option1\nOption2\nOption3") */ const char * lv_ddlist_get_options(const lv_obj_t * ddlist) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); return lv_label_get_text(ext->label); } /** * Get the selected option * @param ddlist pointer to drop down list object * @return id of the selected option (0 ... number of option - 1); */ uint16_t lv_ddlist_get_selected(const lv_obj_t * ddlist) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); return ext->sel_opt_id; } /** * Get the current selected option as a string * @param ddlist pointer to ddlist object * @param buf pointer to an array to store the string */ void lv_ddlist_get_selected_str(const lv_obj_t * ddlist, char * buf) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); uint16_t i; uint16_t line = 0; const char * opt_txt = lv_label_get_text(ext->label); uint16_t txt_len = strlen(opt_txt); for(i = 0; i < txt_len && line != ext->sel_opt_id; i++) { if(opt_txt[i] == '\n') line ++; } uint16_t c; for(c = 0; opt_txt[i] != '\n' && i < txt_len; c++, i++) buf[c] = opt_txt[i]; buf[c] = '\0'; } /** * Get the "option selected" callback function * @param ddlist pointer to a drop down list * @return pointer to the call back function */ lv_action_t lv_ddlist_get_action(const lv_obj_t * ddlist) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); return ext->action; } /** * Get the fix height value. * @param ddlist pointer to a drop down list object * @return the height if the ddlist is opened (0: auto size) */ lv_coord_t lv_ddlist_get_fix_height(const lv_obj_t * ddlist) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); return ext->fix_height; } /** * Get the open/close animation time. * @param ddlist pointer to a drop down list * @return open/close animation time [ms] */ uint16_t lv_ddlist_get_anim_time(const lv_obj_t * ddlist) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); return ext->anim_time; } /** * Get a style of a drop down list * @param ddlist pointer to a drop down list object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_ddlist_get_style(const lv_obj_t * ddlist, lv_ddlist_style_t type) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); switch(type) { case LV_DDLIST_STYLE_BG: return lv_page_get_style(ddlist, LV_PAGE_STYLE_BG); case LV_DDLIST_STYLE_BGO: return lv_page_get_style(ddlist, LV_PAGE_STYLE_BGO); case LV_DDLIST_STYLE_PR: return lv_page_get_style(ddlist, LV_PAGE_STYLE_PR); case LV_DDLIST_STYLE_SB: return lv_page_get_style(ddlist, LV_PAGE_STYLE_SB); case LV_DDLIST_STYLE_SEL: return ext->sel_style; default: return NULL; } /*To avoid warning*/ return NULL; } lv_label_align_t lv_ddlist_get_align(const lv_obj_t *ddlist) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); return lv_label_get_align(ext->label); } /*===================== * Other functions *====================*/ /** * Open the drop down list with or without animation * @param ddlist pointer to drop down list object * @param anim_en true: use animation; false: not use animations */ void lv_ddlist_open(lv_obj_t * ddlist, bool anim_en) { #if USE_LV_ANIMATION == 0 anim_en = false; #endif lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); ext->opened = 1; lv_obj_set_drag(lv_page_get_scrl(ddlist), true); lv_ddlist_refr_size(ddlist, anim_en); } /** * Close (Collapse) the drop down list * @param ddlist pointer to drop down list object * @param anim_en true: use animation; false: not use animations */ void lv_ddlist_close(lv_obj_t * ddlist, bool anim_en) { #if USE_LV_ANIMATION == 0 anim_en = false; #endif lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); ext->opened = 0; lv_obj_set_drag(lv_page_get_scrl(ddlist), false); lv_ddlist_refr_size(ddlist, anim_en); } /********************** * STATIC FUNCTIONS **********************/ /** * Get the text alignment flag for a drop down list. * @param ddlist drop down list * @return text alignment flag */ static lv_txt_flag_t lv_ddlist_get_txt_flag(const lv_obj_t *ddlist) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); /*The label might be already deleted so just return with some value*/ if(!ext->label) return LV_TXT_FLAG_CENTER; lv_label_align_t align = lv_label_get_align(ext->label); switch(align) { default: case LV_LABEL_ALIGN_LEFT: return LV_TXT_FLAG_NONE; case LV_LABEL_ALIGN_CENTER: return LV_TXT_FLAG_CENTER; case LV_LABEL_ALIGN_RIGHT: return LV_TXT_FLAG_RIGHT; } } /** * Handle the drawing related tasks of the drop down lists * @param ddlist pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_ddlist_design(lv_obj_t * ddlist, const lv_area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { return ancestor_design(ddlist, mask, mode); } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { ancestor_design(ddlist, mask, mode); lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); lv_opa_t opa_scale = lv_obj_get_opa_scale(ddlist); /*If the list is opened draw a rectangle under the selected item*/ if(ext->opened != 0) { lv_style_t * style = lv_ddlist_get_style(ddlist, LV_DDLIST_STYLE_BG); const lv_font_t * font = style->text.font; lv_coord_t font_h = lv_font_get_height(font); /*Draw the selected*/ lv_area_t rect_area; rect_area.y1 = ext->label->coords.y1; rect_area.y1 += ext->sel_opt_id * (font_h + style->text.line_space); rect_area.y1 -= style->text.line_space / 2; rect_area.y2 = rect_area.y1 + font_h + style->text.line_space - 1; rect_area.x1 = ddlist->coords.x1; rect_area.x2 = ddlist->coords.x2; lv_draw_rect(&rect_area, mask, ext->sel_style, opa_scale); } } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { /*Redraw the text on the selected area with a different color*/ lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); lv_opa_t opa_scale = lv_obj_get_opa_scale(ddlist); /*Redraw only in opened state*/ if(ext->opened) { lv_style_t * style = lv_ddlist_get_style(ddlist, LV_DDLIST_STYLE_BG); const lv_font_t * font = style->text.font; lv_coord_t font_h = lv_font_get_height(font); lv_area_t area_sel; area_sel.y1 = ext->label->coords.y1; area_sel.y1 += ext->sel_opt_id * (font_h + style->text.line_space); area_sel.y1 -= style->text.line_space / 2; area_sel.y2 = area_sel.y1 + font_h + style->text.line_space - 1; area_sel.x1 = ddlist->coords.x1; area_sel.x2 = ddlist->coords.x2; lv_area_t mask_sel; bool area_ok; area_ok = lv_area_intersect(&mask_sel, mask, &area_sel); if(area_ok) { lv_style_t * sel_style = lv_ddlist_get_style(ddlist, LV_DDLIST_STYLE_SEL); lv_style_t new_style; lv_style_copy(&new_style, style); new_style.text.color = sel_style->text.color; new_style.text.opa = sel_style->text.opa; lv_txt_flag_t flag = lv_ddlist_get_txt_flag(ddlist); lv_draw_label(&ext->label->coords, &mask_sel, &new_style, opa_scale, lv_label_get_text(ext->label), flag, NULL); } } /*Add a down symbol in ddlist when closed*/ else { /*Draw a arrow in ddlist if enabled*/ if(ext->draw_arrow) { lv_style_t * style = lv_ddlist_get_style(ddlist, LV_DDLIST_STYLE_BG); const lv_font_t * font = style->text.font; lv_style_t * sel_style = lv_ddlist_get_style(ddlist, LV_DDLIST_STYLE_BG); lv_coord_t font_h = lv_font_get_height(font); lv_style_t new_style; lv_style_copy(&new_style, style); new_style.text.color = sel_style->text.color; new_style.text.opa = sel_style->text.opa; lv_area_t area_arrow; area_arrow.x2 = ddlist->coords.x2 - style->body.padding.hor; if (!ext->direction_up) area_arrow.x1 = area_arrow.x2 - lv_txt_get_width(SYMBOL_DOWN, strlen(SYMBOL_DOWN), sel_style->text.font, 0, 0); else area_arrow.x1 = area_arrow.x2 - lv_txt_get_width(SYMBOL_UP, strlen(SYMBOL_UP), sel_style->text.font, 0, 0); area_arrow.y1 = ddlist->coords.y1 + style->text.line_space; area_arrow.y2 = area_arrow.y1 + font_h; lv_area_t mask_arrow; bool area_ok; area_ok = lv_area_intersect(&mask_arrow, mask, &area_arrow); if (area_ok) { if (!ext->direction_up) lv_draw_label(&area_arrow, &mask_arrow, &new_style, opa_scale, SYMBOL_DOWN, LV_TXT_FLAG_NONE, NULL); /*Use a down arrow in ddlist, you can replace it with your custom symbol*/ else lv_draw_label(&area_arrow, &mask_arrow, &new_style, opa_scale, SYMBOL_UP, LV_TXT_FLAG_NONE, NULL); /*Use a down arrow in ddlist, you can replace it with your custom symbol*/ } } } /*Draw the scrollbar in the ancestor page design function*/ ancestor_design(ddlist, mask, mode); } return true; } /** * Signal function of the drop down list * @param ddlist pointer to a drop down list object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_ddlist_signal(lv_obj_t * ddlist, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(ddlist, sign, param); if(res != LV_RES_OK) return res; lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); if(sign == LV_SIGNAL_STYLE_CHG) { //! lv_ddlist_refr_size(ddlist, 0); // uncommented in OG } else if(sign == LV_SIGNAL_CLEANUP) { ext->label = NULL; } else if(sign == LV_SIGNAL_FOCUS) { #if USE_LV_GROUP lv_group_t * g = lv_obj_get_group(ddlist); bool editing = lv_group_get_editing(g); lv_hal_indev_type_t indev_type = lv_indev_get_type(lv_indev_get_act()); /*Encoders need special handling*/ if(indev_type == LV_INDEV_TYPE_ENCODER) { /*Open the list if editing*/ if(editing) { ext->opened = true; ext->sel_opt_id_ori = ext->sel_opt_id; lv_ddlist_refr_size(ddlist, true); } /*Close the lift if navigating*/ else { ext->opened = false; ext->sel_opt_id = ext->sel_opt_id_ori; lv_ddlist_refr_size(ddlist, true); } } else { /*Open the list if closed*/ if(!ext->opened) { ext->opened = true; ext->sel_opt_id_ori = ext->sel_opt_id; /*Save the current value. Used to revert this state if ENER wont't be pressed*/ lv_ddlist_refr_size(ddlist, true); } } #endif } else if(sign == LV_SIGNAL_DEFOCUS) { if(ext->opened) { ext->opened = false; ext->sel_opt_id = ext->sel_opt_id_ori; lv_ddlist_refr_size(ddlist, true); } } else if(sign == LV_SIGNAL_CONTROLL) { char c = *((char *)param); if(c == LV_GROUP_KEY_RIGHT || c == LV_GROUP_KEY_DOWN) { if(!ext->opened) { ext->opened = 1; lv_ddlist_refr_size(ddlist, true); } if(ext->sel_opt_id + 1 < ext->option_cnt) { ext->sel_opt_id ++; lv_ddlist_pos_current_option(ddlist); lv_obj_invalidate(ddlist); } } else if(c == LV_GROUP_KEY_LEFT || c == LV_GROUP_KEY_UP) { if(!ext->opened) { ext->opened = 1; lv_ddlist_refr_size(ddlist, true); } if(ext->sel_opt_id > 0) { ext->sel_opt_id --; lv_ddlist_pos_current_option(ddlist); lv_obj_invalidate(ddlist); } } else if(c == LV_GROUP_KEY_ENTER) { if(ext->opened) { ext->sel_opt_id_ori = ext->sel_opt_id; ext->opened = 0; if(ext->action) ext->action(ddlist); #if USE_LV_GROUP lv_group_t * g = lv_obj_get_group(ddlist); bool editing = lv_group_get_editing(g); if(editing) lv_group_set_editing(g, false); /*In edit mode go to navigate mode if an option is selected*/ #endif } else { ext->opened = 1; } lv_ddlist_refr_size(ddlist, true); } else if(c == LV_GROUP_KEY_ESC) { if(ext->opened) { ext->opened = 0; ext->sel_opt_id = ext->sel_opt_id_ori; lv_ddlist_refr_size(ddlist, true); } } } else if(sign == LV_SIGNAL_GET_EDITABLE) { bool * editable = (bool *)param; *editable = true; } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_ddlist"; } return res; } /** * Signal function of the drop down list's scrollable part * @param scrl pointer to a drop down list's scrollable part * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_ddlist_scrl_signal(lv_obj_t * scrl, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_scrl_signal(scrl, sign, param); if(res != LV_RES_OK) return res; lv_obj_t * ddlist = lv_obj_get_parent(scrl); if(sign == LV_SIGNAL_REFR_EXT_SIZE) { /* Because of the wider selected rectangle ext. size * In this way by dragging the scrollable part the wider rectangle area can be redrawn too*/ lv_style_t * style = lv_ddlist_get_style(ddlist, LV_DDLIST_STYLE_BG); if(scrl->ext_size < style->body.padding.hor) scrl->ext_size = style->body.padding.hor; } else if(sign == LV_SIGNAL_CLEANUP) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); ext->label = NULL; /*The label is already deleted*/ } return res; } /** * Called when a drop down list is released to open it or set new option * @param ddlist pointer to a drop down list object * @return LV_ACTION_RES_INV if the ddlist it deleted in the user callback else LV_ACTION_RES_OK */ static lv_res_t lv_ddlist_release_action(lv_obj_t * ddlist) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); if (!lv_obj_get_click(ddlist)) return LV_RES_OK; if(ext->opened == 0) { /*Open the list*/ ext->opened = 1; lv_ddlist_set_style(ddlist, LV_DDLIST_STYLE_BG, lv_ddlist_get_style(ddlist, LV_DDLIST_STYLE_BGO)); lv_obj_set_drag(lv_page_get_scrl(ddlist), true); } else { ext->opened = 0; //lv_ddlist_set_style(ddlist, LV_DDLIST_STYLE_BG, lv_ddlist_get_style(ddlist, lv_ddlist_get_style(ddlist, LV_DDLIST_STYLE_PR))); lv_obj_set_drag(lv_page_get_scrl(ddlist), false); /*Search the clicked option*/ lv_indev_t * indev = lv_indev_get_act(); lv_point_t p; lv_indev_get_point(indev, &p); p.x -= ext->label->coords.x1; p.y -= ext->label->coords.y1; uint16_t letter_i; letter_i = lv_label_get_letter_on(ext->label, &p); uint16_t new_opt = 0; const char * txt = lv_label_get_text(ext->label); uint32_t i = 0; uint32_t line_cnt = 0; uint32_t letter; for(line_cnt = 0; line_cnt < letter_i; line_cnt++) { letter = lv_txt_encoded_next(txt, &i); if(letter == '\n') new_opt ++; } ext->sel_opt_id = new_opt; if(ext->action != NULL) { ext->action(ddlist); } } lv_ddlist_refr_size(ddlist, true); return LV_RES_OK; } static lv_res_t lv_ddlist_press_action(lv_obj_t * ddlist) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); if (!lv_obj_get_click(ddlist)) return LV_RES_OK; if (ext->opened == 0) { /*Open the list*/ lv_ddlist_set_style(ddlist, LV_DDLIST_STYLE_BG, lv_ddlist_get_style(ddlist, LV_DDLIST_STYLE_PR)); } else { //lv_ddlist_set_style(ddlist, LV_DDLIST_STYLE_BG, lv_ddlist_get_style(ddlist, LV_DDLIST_STYLE_BGO)); //lv_obj_set_drag(lv_page_get_scrl(ddlist), false); ///*Search the clicked option*/ //lv_indev_t * indev = lv_indev_get_act(); //lv_point_t p; //lv_indev_get_point(indev, &p); //p.x -= ext->label->coords.x1; //p.y -= ext->label->coords.y1; //uint16_t letter_i; //letter_i = lv_label_get_letter_on(ext->label, &p); //uint16_t new_opt = 0; //const char * txt = lv_label_get_text(ext->label); //uint32_t i = 0; //uint32_t line_cnt = 0; //uint32_t letter; //for (line_cnt = 0; line_cnt < letter_i; line_cnt++) //{ // letter = lv_txt_encoded_next(txt, &i); // if (letter == '\n') new_opt++; //} //ext->sel_opt_id = new_opt; //if (ext->action != NULL) //{ // ext->action(ddlist); //} } return LV_RES_OK; } /** * Refresh the size of drop down list according to its status (open or closed) * @param ddlist pointer to a drop down list object * @param anim_en Change the size (open/close) with or without animation (true/false) */ static void lv_ddlist_refr_size(lv_obj_t * ddlist, bool anim_en) { #if USE_LV_ANIMATION == 0 anim_en = false; #endif lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); lv_style_t * style = lv_obj_get_style(ddlist); lv_coord_t new_height, full_height; bool current_state = 0; if(ext->opened) { /*Open the list*/ if(ext->fix_height == 0) new_height = lv_obj_get_height(lv_page_get_scrl(ddlist)) + 2 * style->body.padding.ver; else new_height = ext->fix_height; current_state = 1; lv_page_set_sb_mode(ddlist, LV_SB_MODE_UNHIDE); } else { /*Close the list*/ const lv_font_t * font = style->text.font; lv_style_t * label_style = lv_obj_get_style(ext->label); lv_coord_t font_h = lv_font_get_height(font); new_height = font_h + 2 * label_style->text.line_space; //full_height = lv_obj_get_height(lv_page_get_scrl(ddlist)) + 2 * style->body.padding.ver; current_state = 0; lv_page_set_sb_mode(ddlist, LV_SB_MODE_HIDE); } if(anim_en == 0 || ext->direction_up) { lv_obj_set_height(ddlist, new_height); if (ext->direction_up) { full_height = lv_obj_get_height(lv_page_get_scrl(ddlist)) - lv_font_get_height(style->text.font); if (current_state) lv_obj_set_y(ddlist, lv_obj_get_y(ddlist) - full_height); else lv_obj_set_y(ddlist, lv_obj_get_y(ddlist) + full_height); } lv_ddlist_pos_current_option(ddlist); #if USE_LV_ANIMATION lv_anim_del(ddlist, (lv_anim_fp_t)lv_obj_set_height); /*If an animation is in progress then it will overwrite this changes*/ } else { lv_anim_t a; a.var = ddlist; a.start = lv_obj_get_height(ddlist); a.end = new_height; a.fp = (lv_anim_fp_t)lv_obj_set_height; a.path = lv_anim_path_linear; a.end_cb = (lv_anim_cb_t)lv_ddlist_pos_current_option; a.act_time = 0; a.time = ext->anim_time; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); #endif } } /** * Set the position of list when it is closed to show the selected item * @param ddlist pointer to a drop down list */ static void lv_ddlist_pos_current_option(lv_obj_t * ddlist) { lv_ddlist_ext_t * ext = lv_obj_get_ext_attr(ddlist); lv_style_t * style = lv_obj_get_style(ddlist); const lv_font_t * font = style->text.font; lv_coord_t font_h = lv_font_get_height(font); lv_style_t * label_style = lv_obj_get_style(ext->label); lv_obj_t * scrl = lv_page_get_scrl(ddlist); lv_coord_t h = lv_obj_get_height(ddlist); lv_coord_t line_y1 = ext->sel_opt_id * (font_h + label_style->text.line_space) + ext->label->coords.y1 - scrl->coords.y1; lv_obj_set_y(scrl, - line_y1 + (h - font_h) / 2); } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_ddlist.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_ddlist.h * */ #ifndef LV_DDLIST_H #define LV_DDLIST_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_DDLIST != 0 /*Testing of dependencies*/ #if USE_LV_PAGE == 0 #error "lv_ddlist: lv_page is required. Enable it in lv_conf.h (USE_LV_PAGE 1) " #endif #if USE_LV_LABEL == 0 #error "lv_ddlist: lv_label is required. Enable it in lv_conf.h (USE_LV_LABEL 1) " #endif #include "../lv_core/lv_obj.h" #include "../lv_objx/lv_page.h" #include "../lv_objx/lv_label.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of drop down list*/ typedef struct { lv_page_ext_t page; /*Ext. of ancestor*/ /*New data for this type */ lv_obj_t *label; /*Label for the options*/ lv_style_t * sel_style; /*Style of the selected option*/ lv_action_t action; /*Pointer to function to call when an option is selected*/ uint16_t option_cnt; /*Number of options*/ uint16_t sel_opt_id; /*Index of the current option*/ uint16_t sel_opt_id_ori; /*Store the original index on focus*/ uint16_t anim_time; /*Open/Close animation time [ms]*/ uint8_t opened :1; /*1: The list is opened (handled by the library)*/ uint8_t draw_arrow :1; /*1: Draw arrow*/ uint8_t direction_up : 1; /*1: Open direction*/ lv_coord_t fix_height; /*Height of the ddlist when opened. (0: auto-size)*/ } lv_ddlist_ext_t; enum { LV_DDLIST_STYLE_BG, LV_DDLIST_STYLE_BGO, LV_DDLIST_STYLE_PR, LV_DDLIST_STYLE_SEL, LV_DDLIST_STYLE_SB, }; typedef uint8_t lv_ddlist_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a drop down list objects * @param par pointer to an object, it will be the parent of the new drop down list * @param copy pointer to a drop down list object, if not NULL then the new object will be copied from it * @return pointer to the created drop down list */ lv_obj_t * lv_ddlist_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set arrow draw in a drop down list * @param ddlist pointer to drop down list object * @param en enable/disable a arrow draw. E.g. "true" for draw. */ void lv_ddlist_set_draw_arrow(lv_obj_t * ddlist, bool en); /** * Set the options in a drop down list from a string * @param ddlist pointer to drop down list object * @param options a string with '\n' separated options. E.g. "One\nTwo\nThree" */ void lv_ddlist_set_options(lv_obj_t * ddlist, const char * options); /** * Set the selected option * @param ddlist pointer to drop down list object * @param sel_opt id of the selected option (0 ... number of option - 1); */ void lv_ddlist_set_selected(lv_obj_t * ddlist, uint16_t sel_opt); /** * Set a function to call when a new option is chosen * @param ddlist pointer to a drop down list * @param action pointer to a call back function */ void lv_ddlist_set_action(lv_obj_t * ddlist, lv_action_t action); /** * Set the fix height for the drop down list * If 0 then the opened ddlist will be auto. sized else the set height will be applied. * @param ddlist pointer to a drop down list * @param h the height when the list is opened (0: auto size) */ void lv_ddlist_set_fix_height(lv_obj_t * ddlist, lv_coord_t h); /** * Enable or disable the horizontal fit to the content * @param ddlist pointer to a drop down list * @param en true: enable auto fit; false: disable auto fit */ void lv_ddlist_set_hor_fit(lv_obj_t * ddlist, bool en); /** * Set the scroll bar mode of a drop down list * @param ddlist pointer to a drop down list object * @param sb_mode the new mode from 'lv_page_sb_mode_t' enum */ static inline void lv_ddlist_set_sb_mode(lv_obj_t * ddlist, lv_sb_mode_t mode) { lv_page_set_sb_mode(ddlist, mode); } /** * Set the open/close animation time. * @param ddlist pointer to a drop down list * @param anim_time: open/close animation time [ms] */ void lv_ddlist_set_anim_time(lv_obj_t * ddlist, uint16_t anim_time); /** * Set a style of a drop down list * @param ddlist pointer to a drop down list object * @param type which style should be set * @param style pointer to a style * */ void lv_ddlist_set_style(lv_obj_t *ddlist, lv_ddlist_style_t type, lv_style_t *style); /** * Set the alignment of the labels in a drop down list * @param ddlist pointer to a drop down list object * @param align alignment of labels */ void lv_ddlist_set_align(lv_obj_t *ddlist, lv_label_align_t align); void lv_ddlist_set_direction_up(lv_obj_t *ddlist, bool enable); /*===================== * Getter functions *====================*/ /** * Get arrow draw in a drop down list * @param ddlist pointer to drop down list object */ bool lv_ddlist_get_draw_arrow(lv_obj_t * ddlist); /** * Get the options of a drop down list * @param ddlist pointer to drop down list object * @return the options separated by '\n'-s (E.g. "Option1\nOption2\nOption3") */ const char * lv_ddlist_get_options(const lv_obj_t * ddlist); /** * Get the selected option * @param ddlist pointer to drop down list object * @return id of the selected option (0 ... number of option - 1); */ uint16_t lv_ddlist_get_selected(const lv_obj_t * ddlist); /** * Get the current selected option as a string * @param ddlist pointer to ddlist object * @param buf pointer to an array to store the string */ void lv_ddlist_get_selected_str(const lv_obj_t * ddlist, char * buf); /** * Get the "option selected" callback function * @param ddlist pointer to a drop down list * @return pointer to the call back function */ lv_action_t lv_ddlist_get_action(const lv_obj_t * ddlist); /** * Get the fix height value. * @param ddlist pointer to a drop down list object * @return the height if the ddlist is opened (0: auto size) */ lv_coord_t lv_ddlist_get_fix_height(const lv_obj_t * ddlist); /** * Get the scroll bar mode of a drop down list * @param ddlist pointer to a drop down list object * @return scrollbar mode from 'lv_page_sb_mode_t' enum */ static inline lv_sb_mode_t lv_ddlist_get_sb_mode(const lv_obj_t * ddlist) { return lv_page_get_sb_mode(ddlist); } /** * Get the open/close animation time. * @param ddlist pointer to a drop down list * @return open/close animation time [ms] */ uint16_t lv_ddlist_get_anim_time(const lv_obj_t * ddlist); /** * Get a style of a drop down list * @param ddlist pointer to a drop down list object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_ddlist_get_style(const lv_obj_t *ddlist, lv_ddlist_style_t type); /** * Get the alignment of the labels in a drop down list * @param ddlist pointer to a drop down list object * @return alignment of labels */ lv_label_align_t lv_ddlist_get_align(const lv_obj_t *ddlist); /*===================== * Other functions *====================*/ /** * Open the drop down list with or without animation * @param ddlist pointer to drop down list object * @param anim_en true: use animation; false: not use animations */ void lv_ddlist_open(lv_obj_t * ddlist, bool anim_en); /** * Close (Collapse) the drop down list * @param ddlist pointer to drop down list object * @param anim_en true: use animation; false: not use animations */ void lv_ddlist_close(lv_obj_t * ddlist, bool anim_en); /********************** * MACROS **********************/ #endif /*USE_LV_DDLIST*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_DDLIST_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_gauge.c ================================================ /** * @file lv_gauge.c * */ /********************* * INCLUDES *********************/ #include "lv_gauge.h" #if USE_LV_GAUGE != 0 #include "../lv_draw/lv_draw.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_txt.h" #include "../lv_misc/lv_math.h" #include #include /********************* * DEFINES *********************/ #define LV_GAUGE_DEF_NEEDLE_COLOR LV_COLOR_RED #define LV_GAUGE_DEF_LABEL_COUNT 6 #define LV_GAUGE_DEF_LINE_COUNT 21 /*Should be: ((label_cnt - 1) * internal_lines) + 1*/ #define LV_GAUGE_DEF_ANGLE 220 #define LV_GAUGE_INTERPOLATE_SHIFT 5 /*Interpolate the needle drawing between to degrees*/ #define LV_GAUGE_INTERPOLATE_MASK 0x1F /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_gauge_design(lv_obj_t * gauge, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_gauge_signal(lv_obj_t * gauge, lv_signal_t sign, void * param); static void lv_gauge_draw_scale(lv_obj_t * gauge, const lv_area_t * mask); static void lv_gauge_draw_needle(lv_obj_t * gauge, const lv_area_t * mask); /********************** * STATIC VARIABLES **********************/ static lv_design_func_t ancestor_design; static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a gauge objects * @param par pointer to an object, it will be the parent of the new gauge * @param copy pointer to a gauge object, if not NULL then the new object will be copied from it * @return pointer to the created gauge */ lv_obj_t * lv_gauge_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("gauge create started"); /*Create the ancestor gauge*/ lv_obj_t * new_gauge = lv_lmeter_create(par, copy); lv_mem_assert(new_gauge); if(new_gauge == NULL) return NULL; /*Allocate the gauge type specific extended data*/ lv_gauge_ext_t * ext = lv_obj_allocate_ext_attr(new_gauge, sizeof(lv_gauge_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; /*Initialize the allocated 'ext' */ ext->needle_count = 0; ext->values = NULL; ext->needle_colors = NULL; ext->label_count = LV_GAUGE_DEF_LABEL_COUNT; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_gauge); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_gauge); /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_gauge, lv_gauge_signal); lv_obj_set_design_func(new_gauge, lv_gauge_design); /*Init the new gauge gauge*/ if(copy == NULL) { lv_gauge_set_scale(new_gauge, LV_GAUGE_DEF_ANGLE, LV_GAUGE_DEF_LINE_COUNT, LV_GAUGE_DEF_LABEL_COUNT); lv_gauge_set_needle_count(new_gauge, 1, NULL); lv_gauge_set_critical_value(new_gauge, 80); lv_obj_set_size(new_gauge, 2 * LV_DPI, 2 * LV_DPI); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_gauge_set_style(new_gauge, th->gauge); } else { lv_gauge_set_style(new_gauge, &lv_style_pretty_color); } } /*Copy an existing gauge*/ else { lv_gauge_ext_t * copy_ext = lv_obj_get_ext_attr(copy); lv_gauge_set_needle_count(new_gauge, copy_ext->needle_count, copy_ext->needle_colors); uint8_t i; for(i = 0; i < ext->needle_count; i++) { ext->values[i] = copy_ext->values[i]; } ext->label_count = copy_ext->label_count; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_gauge); } LV_LOG_INFO("gauge created"); return new_gauge; } /*===================== * Setter functions *====================*/ /** * Set the number of needles * @param gauge pointer to gauge object * @param needle_cnt new count of needles * @param colors an array of colors for needles (with 'num' elements) */ void lv_gauge_set_needle_count(lv_obj_t * gauge, uint8_t needle_cnt, const lv_color_t * colors) { lv_gauge_ext_t * ext = lv_obj_get_ext_attr(gauge); if(ext->needle_count != needle_cnt) { if(ext->values != NULL) { lv_mem_free(ext->values); ext->values = NULL; } ext->values = lv_mem_realloc(ext->values, needle_cnt * sizeof(int16_t)); lv_mem_assert(ext->values); if(ext->values == NULL) return; int16_t min = lv_gauge_get_min_value(gauge); uint8_t n; for(n = ext->needle_count; n < needle_cnt; n++) { ext->values[n] = min; } ext->needle_count = needle_cnt; } ext->needle_colors = colors; lv_obj_invalidate(gauge); } /** * Set the value of a needle * @param gauge pointer to a gauge * @param needle_id the id of the needle * @param value the new value */ void lv_gauge_set_value(lv_obj_t * gauge, uint8_t needle_id, int16_t value) { lv_gauge_ext_t * ext = lv_obj_get_ext_attr(gauge); if(needle_id >= ext->needle_count) return; if(ext->values[needle_id] == value) return; int16_t min = lv_gauge_get_min_value(gauge); int16_t max = lv_gauge_get_max_value(gauge); if(value > max) value = max; else if(value < min) value = min; ext->values[needle_id] = value; lv_obj_invalidate(gauge); } /** * Set the scale settings of a gauge * @param gauge pointer to a gauge object * @param angle angle of the scale (0..360) * @param line_cnt count of scale lines. * The get a given "subdivision" lines between label, `line_cnt` = (sub_div + 1) * (label_cnt - 1) + 1 * @param label_cnt count of scale labels. */ void lv_gauge_set_scale(lv_obj_t * gauge, uint16_t angle, uint8_t line_cnt, uint8_t label_cnt) { /*TODO v6.0: change `line_cnt` to `subdiv_cnt`*/ lv_lmeter_set_scale(gauge, angle, line_cnt); lv_gauge_ext_t * ext = lv_obj_get_ext_attr(gauge); ext->label_count = label_cnt; lv_obj_invalidate(gauge); } /*===================== * Getter functions *====================*/ /** * Get the value of a needle * @param gauge pointer to gauge object * @param needle the id of the needle * @return the value of the needle [min,max] */ int16_t lv_gauge_get_value(const lv_obj_t * gauge, uint8_t needle) { lv_gauge_ext_t * ext = lv_obj_get_ext_attr(gauge); int16_t min = lv_gauge_get_min_value(gauge); if(needle >= ext->needle_count) return min; return ext->values[needle]; } /** * Get the count of needles on a gauge * @param gauge pointer to gauge * @return count of needles */ uint8_t lv_gauge_get_needle_count(const lv_obj_t * gauge) { lv_gauge_ext_t * ext = lv_obj_get_ext_attr(gauge); return ext->needle_count; } /** * Set the number of labels (and the thicker lines too) * @param gauge pointer to a gauge object * @return count of labels */ uint8_t lv_gauge_get_label_count(const lv_obj_t * gauge) { lv_gauge_ext_t * ext = lv_obj_get_ext_attr(gauge); return ext->label_count; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the gauges * @param gauge pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_gauge_design(lv_obj_t * gauge, const lv_area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { return false; } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { /* Store the real pointer because of 'lv_group' * If the object is in focus 'lv_obj_get_style()' will give a pointer to tmp style * and to the real object style. It is important because of style change tricks below*/ lv_style_t * style_ori_p = gauge->style_p; lv_style_t * style = lv_obj_get_style(gauge); lv_gauge_ext_t * ext = lv_obj_get_ext_attr(gauge); lv_gauge_draw_scale(gauge, mask); /*Draw the ancestor line meter with max value to show the rainbow like line colors*/ uint16_t line_cnt_tmp = ext->lmeter.line_cnt; ancestor_design(gauge, mask, mode); /*To draw lines*/ /*Temporally modify the line meter to draw thicker and longer lines where labels are*/ lv_style_t style_tmp; lv_style_copy(&style_tmp, style); ext->lmeter.line_cnt = ext->label_count; /*Only to labels*/ style_tmp.line.width = style_tmp.line.width * 2; /*Ticker lines*/ style_tmp.body.padding.hor = style_tmp.body.padding.hor * 2; /*Longer lines*/ gauge->style_p = &style_tmp; ancestor_design(gauge, mask, mode); /*To draw lines*/ ext->lmeter.line_cnt = line_cnt_tmp; /*Restore the parameters*/ gauge->style_p = style_ori_p; /*Restore the ORIGINAL style pointer*/ lv_gauge_draw_needle(gauge, mask); } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { ancestor_design(gauge, mask, mode); } return true; } /** * Signal function of the gauge * @param gauge pointer to a gauge object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_gauge_signal(lv_obj_t * gauge, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(gauge, sign, param); if(res != LV_RES_OK) return res; lv_gauge_ext_t * ext = lv_obj_get_ext_attr(gauge); if(sign == LV_SIGNAL_CLEANUP) { lv_mem_free(ext->values); ext->values = NULL; } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_gauge"; } return res; } /** * Draw the scale on a gauge * @param gauge pointer to gauge object * @param mask mask of drawing */ static void lv_gauge_draw_scale(lv_obj_t * gauge, const lv_area_t * mask) { char scale_txt[16]; lv_gauge_ext_t * ext = lv_obj_get_ext_attr(gauge); lv_style_t * style = lv_obj_get_style(gauge); lv_opa_t opa_scale = lv_obj_get_opa_scale(gauge); lv_coord_t r = lv_obj_get_width(gauge) / 2 - (3 * style->body.padding.hor) - style->body.padding.inner; lv_coord_t x_ofs = lv_obj_get_width(gauge) / 2 + gauge->coords.x1; lv_coord_t y_ofs = lv_obj_get_height(gauge) / 2 + gauge->coords.y1; int16_t scale_angle = lv_lmeter_get_scale_angle(gauge); uint16_t label_num = ext->label_count; int16_t angle_ofs = 90 + (360 - scale_angle) / 2; int16_t min = lv_gauge_get_min_value(gauge); int16_t max = lv_gauge_get_max_value(gauge); uint8_t i; for(i = 0; i < label_num; i++) { /*Calculate the position a scale label*/ int16_t angle = (i * scale_angle) / (label_num - 1) + angle_ofs; lv_coord_t y = (int32_t)((int32_t)lv_trigo_sin(angle) * r) / LV_TRIGO_SIN_MAX; y += y_ofs; lv_coord_t x = (int32_t)((int32_t)lv_trigo_sin(angle + 90) * r) / LV_TRIGO_SIN_MAX; x += x_ofs; int16_t scale_act = (int32_t)((int32_t)(max - min) * i) / (label_num - 1); scale_act += min; lv_math_num_to_str(scale_act, scale_txt); lv_area_t label_cord; lv_point_t label_size; lv_txt_get_size(&label_size, scale_txt, style->text.font, style->text.letter_space, style->text.line_space, LV_COORD_MAX, LV_TXT_FLAG_NONE); /*Draw the label*/ label_cord.x1 = x - label_size.x / 2; label_cord.y1 = y - label_size.y / 2; label_cord.x2 = label_cord.x1 + label_size.x; label_cord.y2 = label_cord.y1 + label_size.y; lv_draw_label(&label_cord, mask, style, opa_scale, scale_txt, LV_TXT_FLAG_NONE, NULL); } } /** * Draw the needles of a gauge * @param gauge pointer to gauge object * @param mask mask of drawing */ static void lv_gauge_draw_needle(lv_obj_t * gauge, const lv_area_t * mask) { lv_style_t style_needle; lv_gauge_ext_t * ext = lv_obj_get_ext_attr(gauge); lv_style_t * style = lv_gauge_get_style(gauge); lv_opa_t opa_scale = lv_obj_get_opa_scale(gauge); lv_coord_t r = lv_obj_get_width(gauge) / 2 - style->body.padding.hor; lv_coord_t x_ofs = lv_obj_get_width(gauge) / 2 + gauge->coords.x1; lv_coord_t y_ofs = lv_obj_get_height(gauge) / 2 + gauge->coords.y1; uint16_t angle = lv_lmeter_get_scale_angle(gauge); int16_t angle_ofs = 90 + (360 - angle) / 2; int16_t min = lv_gauge_get_min_value(gauge); int16_t max = lv_gauge_get_max_value(gauge); lv_point_t p_mid; lv_point_t p_end; lv_point_t p_end_low; lv_point_t p_end_high; uint8_t i; lv_style_copy(&style_needle, style); p_mid.x = x_ofs; p_mid.y = y_ofs; for(i = 0; i < ext->needle_count; i++) { /*Calculate the end point of a needle*/ int16_t needle_angle = (ext->values[i] - min) * angle * (1 << LV_GAUGE_INTERPOLATE_SHIFT) / (max - min); //+ angle_ofs; int16_t needle_angle_low = (needle_angle >> LV_GAUGE_INTERPOLATE_SHIFT) + angle_ofs; int16_t needle_angle_high = needle_angle_low + 1; p_end_low.y = (lv_trigo_sin(needle_angle_low) * r) / LV_TRIGO_SIN_MAX + y_ofs; p_end_low.x = (lv_trigo_sin(needle_angle_low + 90) * r) / LV_TRIGO_SIN_MAX + x_ofs; p_end_high.y = (lv_trigo_sin(needle_angle_high) * r) / LV_TRIGO_SIN_MAX + y_ofs; p_end_high.x = (lv_trigo_sin(needle_angle_high + 90) * r) / LV_TRIGO_SIN_MAX + x_ofs; uint16_t rem = needle_angle & ((1 << LV_GAUGE_INTERPOLATE_SHIFT) - 1); int16_t x_mod = ((LV_MATH_ABS(p_end_high.x - p_end_low.x)) * rem) >> LV_GAUGE_INTERPOLATE_SHIFT; int16_t y_mod = ((LV_MATH_ABS(p_end_high.y - p_end_low.y)) * rem) >> LV_GAUGE_INTERPOLATE_SHIFT; if(p_end_high.x < p_end_low.x) x_mod = -x_mod; if(p_end_high.y < p_end_low.y) y_mod = -y_mod; p_end.x = p_end_low.x + x_mod; p_end.y = p_end_low.y + y_mod; /*Draw the needle with the corresponding color*/ if(ext->needle_colors == NULL) style_needle.line.color = LV_GAUGE_DEF_NEEDLE_COLOR; else style_needle.line.color = ext->needle_colors[i]; lv_draw_line(&p_mid, &p_end, mask, &style_needle, opa_scale); } /*Draw the needle middle area*/ lv_style_t style_neddle_mid; lv_style_copy(&style_neddle_mid, &lv_style_plain); style_neddle_mid.body.main_color = style->body.border.color; style_neddle_mid.body.grad_color = style->body.border.color; style_neddle_mid.body.radius = LV_RADIUS_CIRCLE; lv_area_t nm_cord; nm_cord.x1 = x_ofs - style->body.padding.ver; nm_cord.y1 = y_ofs - style->body.padding.ver; nm_cord.x2 = x_ofs + style->body.padding.ver; nm_cord.y2 = y_ofs + style->body.padding.ver; lv_draw_rect(&nm_cord, mask, &style_neddle_mid, lv_obj_get_opa_scale(gauge)); } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_gauge.h ================================================ /** * @file lv_gauge.h * */ #ifndef LV_GAUGE_H #define LV_GAUGE_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_GAUGE != 0 /*Testing of dependencies*/ #if USE_LV_LMETER == 0 #error "lv_gauge: lv_lmeter is required. Enable it in lv_conf.h (USE_LV_LMETER 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_lmeter.h" #include "lv_label.h" #include "lv_line.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of gauge*/ typedef struct { lv_lmeter_ext_t lmeter; /*Ext. of ancestor*/ /*New data for this type */ int16_t * values; /*Array of the set values (for needles) */ const lv_color_t * needle_colors; /*Color of the needles (lv_color_t my_colors[needle_num])*/ uint8_t needle_count; /*Number of needles*/ uint8_t label_count; /*Number of labels on the scale*/ } lv_gauge_ext_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a gauge objects * @param par pointer to an object, it will be the parent of the new gauge * @param copy pointer to a gauge object, if not NULL then the new object will be copied from it * @return pointer to the created gauge */ lv_obj_t * lv_gauge_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set the number of needles * @param gauge pointer to gauge object * @param needle_cnt new count of needles * @param colors an array of colors for needles (with 'num' elements) */ void lv_gauge_set_needle_count(lv_obj_t * gauge, uint8_t needle_cnt, const lv_color_t * colors); /** * Set the value of a needle * @param gauge pointer to a gauge * @param needle_id the id of the needle * @param value the new value */ void lv_gauge_set_value(lv_obj_t * gauge, uint8_t needle_id, int16_t value); /** * Set minimum and the maximum values of a gauge * @param gauge pointer to he gauge object * @param min minimum value * @param max maximum value */ static inline void lv_gauge_set_range(lv_obj_t *gauge, int16_t min, int16_t max) { lv_lmeter_set_range(gauge, min, max); } /** * Set a critical value on the scale. After this value 'line.color' scale lines will be drawn * @param gauge pointer to a gauge object * @param value the critical value */ static inline void lv_gauge_set_critical_value(lv_obj_t * gauge, int16_t value) { lv_lmeter_set_value(gauge, value); } /** * Set the scale settings of a gauge * @param gauge pointer to a gauge object * @param angle angle of the scale (0..360) * @param line_cnt count of scale lines. * The get a given "subdivision" lines between label, `line_cnt` = (sub_div + 1) * (label_cnt - 1) + 1 * @param label_cnt count of scale labels. */ void lv_gauge_set_scale(lv_obj_t * gauge, uint16_t angle, uint8_t line_cnt, uint8_t label_cnt); /** * Set the styles of a gauge * @param gauge pointer to a gauge object * @param bg set the style of the gauge * */ static inline void lv_gauge_set_style(lv_obj_t *gauge, lv_style_t *bg) { lv_obj_set_style(gauge, bg); } /*===================== * Getter functions *====================*/ /** * Get the value of a needle * @param gauge pointer to gauge object * @param needle the id of the needle * @return the value of the needle [min,max] */ int16_t lv_gauge_get_value(const lv_obj_t * gauge, uint8_t needle); /** * Get the count of needles on a gauge * @param gauge pointer to gauge * @return count of needles */ uint8_t lv_gauge_get_needle_count(const lv_obj_t * gauge); /** * Get the minimum value of a gauge * @param gauge pointer to a gauge object * @return the minimum value of the gauge */ static inline int16_t lv_gauge_get_min_value(const lv_obj_t * lmeter) { return lv_lmeter_get_min_value(lmeter); } /** * Get the maximum value of a gauge * @param gauge pointer to a gauge object * @return the maximum value of the gauge */ static inline int16_t lv_gauge_get_max_value(const lv_obj_t * lmeter) { return lv_lmeter_get_max_value(lmeter); } /** * Get a critical value on the scale. * @param gauge pointer to a gauge object * @return the critical value */ static inline int16_t lv_gauge_get_critical_value(const lv_obj_t * gauge) { return lv_lmeter_get_value(gauge); } /** * Set the number of labels (and the thicker lines too) * @param gauge pointer to a gauge object * @return count of labels */ uint8_t lv_gauge_get_label_count(const lv_obj_t * gauge); /** * Get the scale number of a gauge * @param gauge pointer to a gauge object * @return number of the scale units */ static inline uint8_t lv_gauge_get_line_count(const lv_obj_t * gauge) { return lv_lmeter_get_line_count(gauge); } /** * Get the scale angle of a gauge * @param gauge pointer to a gauge object * @return angle of the scale */ static inline uint16_t lv_gauge_get_scale_angle(const lv_obj_t * gauge) { return lv_lmeter_get_scale_angle(gauge); } /** * Get the style of a gauge * @param gauge pointer to a gauge object * @return pointer to the gauge's style */ static inline lv_style_t * lv_gauge_get_style(const lv_obj_t *gauge) { return lv_obj_get_style(gauge); } /********************** * MACROS **********************/ #endif /*USE_LV_GAUGE*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_GAUGE_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_img.c ================================================ /** * @file lv_img.c * */ /********************* * INCLUDES *********************/ #include "lv_img.h" #if USE_LV_IMG != 0 /*Testing of dependencies*/ #if USE_LV_LABEL == 0 #error "lv_img: lv_label is required. Enable it in lv_conf.h (USE_LV_LABEL 1) " #endif #include "../lv_core/lv_lang.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_fs.h" #include "../lv_misc/lv_ufs.h" #include "../lv_misc/lv_txt.h" #include "../lv_misc/lv_log.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_img_design(lv_obj_t * img, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_img_signal(lv_obj_t * img, lv_signal_t sign, void * param); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create an image objects * @param par pointer to an object, it will be the parent of the new button * @param copy pointer to a image object, if not NULL then the new object will be copied from it * @return pointer to the created image */ lv_obj_t * lv_img_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("image create started"); lv_obj_t * new_img = NULL; /*Create a basic object*/ new_img = lv_obj_create(par, copy); lv_mem_assert(new_img); if(new_img == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_img); /*Extend the basic object to image object*/ lv_img_ext_t * ext = lv_obj_allocate_ext_attr(new_img, sizeof(lv_img_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->src = NULL; ext->src_type = LV_IMG_SRC_UNKNOWN; ext->cf = LV_IMG_CF_UNKOWN; ext->w = lv_obj_get_width(new_img); ext->h = lv_obj_get_height(new_img); ext->auto_size = 1; #if USE_LV_MULTI_LANG ext->lang_txt_id = LV_LANG_TXT_ID_NONE; #endif /*Init the new object*/ lv_obj_set_signal_func(new_img, lv_img_signal); lv_obj_set_design_func(new_img, lv_img_design); if(copy == NULL) { lv_obj_set_click(new_img, false); /* Enable auto size for non screens * because image screens are wallpapers * and must be screen sized*/ if(par != NULL) { ext->auto_size = 1; lv_obj_set_style(new_img, NULL); /*Inherit the style by default*/ } else { ext->auto_size = 0; lv_obj_set_style(new_img, &lv_style_plain); /*Set a style for screens*/ } } else { lv_img_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->auto_size = copy_ext->auto_size; lv_img_set_src(new_img, copy_ext->src); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_img); } LV_LOG_INFO("image created"); return new_img; } /*===================== * Setter functions *====================*/ /** * Set the pixel map to display by the image * @param img pointer to an image object * @param data the image data */ void lv_img_set_src(lv_obj_t * img, const void * src_img) { lv_img_src_t src_type = lv_img_src_get_type(src_img); lv_img_ext_t * ext = lv_obj_get_ext_attr(img); #if LV_LOG_LEVEL >= LV_LOG_LEVEL_INFO switch(src_type) { case LV_IMG_SRC_FILE: LV_LOG_TRACE("lv_img_set_src: `LV_IMG_SRC_FILE` type found"); break; case LV_IMG_SRC_VARIABLE: LV_LOG_TRACE("lv_img_set_src: `LV_IMG_SRC_VARIABLE` type found"); break; case LV_IMG_SRC_SYMBOL: LV_LOG_TRACE("lv_img_set_src: `LV_IMG_SRC_SYMBOL` type found"); break; default: LV_LOG_WARN("lv_img_set_src: unknown type"); } #endif /*If the new source type is unknown free the memories of the old source*/ if(src_type == LV_IMG_SRC_UNKNOWN) { LV_LOG_WARN("lv_img_set_src: unknown image type"); if(ext->src_type == LV_IMG_SRC_SYMBOL || ext->src_type == LV_IMG_SRC_FILE) { lv_mem_free(ext->src); } ext->src = NULL; ext->src_type = LV_IMG_SRC_UNKNOWN; return; } lv_img_header_t header; lv_img_dsc_get_info(src_img, &header); /*Save the source*/ if(src_type == LV_IMG_SRC_VARIABLE) { LV_LOG_INFO("lv_img_set_src: `LV_IMG_SRC_VARIABLE` type found"); /*If memory was allocated because of the previous `src_type` then free it*/ if(ext->src_type == LV_IMG_SRC_FILE || ext->src_type == LV_IMG_SRC_SYMBOL) { lv_mem_free(ext->src); } ext->src = src_img; } else if(src_type == LV_IMG_SRC_FILE || src_type == LV_IMG_SRC_SYMBOL) { /* If the new and the old src are the same then it was only a refresh.*/ if(ext->src != src_img) { /*If memory was allocated because of the previous `src_type` then free it*/ if(ext->src_type == LV_IMG_SRC_FILE || ext->src_type == LV_IMG_SRC_SYMBOL) { lv_mem_free(ext->src); } char * new_str = lv_mem_alloc(strlen(src_img) + 1); lv_mem_assert(new_str); if(new_str == NULL) return; strcpy(new_str, src_img); ext->src = new_str; } } if(src_type == LV_IMG_SRC_SYMBOL) { /*`lv_img_dsc_get_info` couldn't set the with and height of a font so set it here*/ lv_style_t * style = lv_img_get_style(img); lv_point_t size; lv_txt_get_size(&size, src_img, style->text.font, style->text.letter_space, style->text.line_space, LV_COORD_MAX, LV_TXT_FLAG_NONE); header.w = size.x; header.h = size.y; } ext->src_type = src_type; ext->w = header.w; ext->h = header.h; ext->cf = header.cf; if(lv_img_get_auto_size(img) != false) { lv_obj_set_size(img, ext->w, ext->h); } lv_obj_invalidate(img); } #if USE_LV_MULTI_LANG /** * Set an ID which means a the same source but in different languages * @param img pointer to an image object * @param src_id ID of the source */ void lv_img_set_src_id(lv_obj_t * img, uint32_t src_id) { lv_img_ext_t * ext = lv_obj_get_ext_attr(img); ext->lang_txt_id = src_id; /*Apply the new language*/ img->signal_func(img, LV_SIGNAL_LANG_CHG, NULL); } #endif /** * Enable the auto size feature. * If enabled the object size will be same as the picture size. * @param img pointer to an image * @param en true: auto size enable, false: auto size disable */ void lv_img_set_auto_size(lv_obj_t * img, bool en) { lv_img_ext_t * ext = lv_obj_get_ext_attr(img); ext->auto_size = (en == false ? 0 : 1); } /*===================== * Getter functions *====================*/ /** * Get the source of the image * @param img pointer to an image object * @return the image source (symbol, file name or C array) */ const void * lv_img_get_src(lv_obj_t * img) { lv_img_ext_t * ext = lv_obj_get_ext_attr(img); return ext->src; } /** * Get the name of the file set for an image * @param img pointer to an image * @return file name */ const char * lv_img_get_file_name(const lv_obj_t * img) { lv_img_ext_t * ext = lv_obj_get_ext_attr(img); if(ext->src_type == LV_IMG_SRC_FILE) return ext->src; else return ""; } #if USE_LV_MULTI_LANG /** * Get the source ID of the image. (Used by the multi-language feature) * @param img pointer to an image * @return ID of the source */ uint16_t lv_img_get_src_id(lv_obj_t * img) { lv_img_ext_t * ext = lv_obj_get_ext_attr(img); return ext->lang_txt_id; } #endif /** * Get the auto size enable attribute * @param img pointer to an image * @return true: auto size is enabled, false: auto size is disabled */ bool lv_img_get_auto_size(const lv_obj_t * img) { lv_img_ext_t * ext = lv_obj_get_ext_attr(img); return ext->auto_size == 0 ? false : true; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the images * @param img pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_img_design(lv_obj_t * img, const lv_area_t * mask, lv_design_mode_t mode) { lv_style_t * style = lv_obj_get_style(img); lv_img_ext_t * ext = lv_obj_get_ext_attr(img); if(mode == LV_DESIGN_COVER_CHK) { bool cover = false; if(ext->src_type == LV_IMG_SRC_UNKNOWN || ext->src_type == LV_IMG_SRC_SYMBOL) return false; if(ext->cf == LV_IMG_CF_TRUE_COLOR || ext->cf == LV_IMG_CF_RAW) cover = lv_area_is_in(mask, &img->coords); return cover; } else if(mode == LV_DESIGN_DRAW_MAIN) { if(ext->h == 0 || ext->w == 0) return true; lv_area_t coords; lv_opa_t opa_scale = lv_obj_get_opa_scale(img); lv_obj_get_coords(img, &coords); if(ext->src_type == LV_IMG_SRC_FILE || ext->src_type == LV_IMG_SRC_VARIABLE) { LV_LOG_TRACE("lv_img_design: start to draw image"); lv_area_t cords_tmp; cords_tmp.y1 = coords.y1; cords_tmp.y2 = coords.y1 + ext->h - 1; for(; cords_tmp.y1 < coords.y2; cords_tmp.y1 += ext->h, cords_tmp.y2 += ext->h) { cords_tmp.x1 = coords.x1; cords_tmp.x2 = coords.x1 + ext->w - 1; for(; cords_tmp.x1 < coords.x2; cords_tmp.x1 += ext->w, cords_tmp.x2 += ext->w) { lv_draw_img(&cords_tmp, mask, ext->src, style, opa_scale); } } } else if(ext->src_type == LV_IMG_SRC_SYMBOL) { LV_LOG_TRACE("lv_img_design: start to draw symbol"); lv_style_t style_mod; lv_style_copy(&style_mod, style); style_mod.text.color = style->image.color; lv_draw_label(&coords, mask, &style_mod, opa_scale, ext->src, LV_TXT_FLAG_NONE, NULL); } else { /*Trigger the error handler of image drawer*/ LV_LOG_WARN("lv_img_design: image source type is unknown"); lv_draw_img(&img->coords, mask, NULL, style, opa_scale); } } return true; } /** * Signal function of the image * @param img pointer to an image object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_img_signal(lv_obj_t * img, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(img, sign, param); if(res != LV_RES_OK) return res; lv_img_ext_t * ext = lv_obj_get_ext_attr(img); if(sign == LV_SIGNAL_CLEANUP) { if(ext->src_type == LV_IMG_SRC_FILE || ext->src_type == LV_IMG_SRC_SYMBOL) { lv_mem_free(ext->src); ext->src = NULL; ext->src_type = LV_IMG_SRC_UNKNOWN; } } else if(sign == LV_SIGNAL_STYLE_CHG) { /*Refresh the file name to refresh the symbol text size*/ if(ext->src_type == LV_IMG_SRC_SYMBOL) { lv_img_set_src(img, ext->src); } } else if(sign == LV_SIGNAL_LANG_CHG) { #if USE_LV_MULTI_LANG if(ext->lang_txt_id != LV_LANG_TXT_ID_NONE) { const char * lang_src = lv_lang_get_text(ext->lang_txt_id); if(lang_src) { lv_img_set_src(img, lang_src); } else { LV_LOG_WARN("lv_lang_get_text return NULL for an image's source"); } } #endif } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_img"; } return res; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_img.h ================================================ /** * @file lv_img.h * */ #ifndef LV_IMG_H #define LV_IMG_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_IMG != 0 #include "../lv_core/lv_obj.h" #include "../lv_misc/lv_fs.h" #include "../lv_misc/lv_symbol_def.h" #include "lv_label.h" #include "../lv_draw/lv_draw.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of image*/ typedef struct { /*No inherited ext. because inherited from the base object*/ /*Ext. of ancestor*/ /*New data for this type */ const void * src; /*Image source: Pointer to an array or a file or a symbol*/ lv_coord_t w; /*Width of the image (Handled by the library)*/ lv_coord_t h; /*Height of the image (Handled by the library)*/ #if USE_LV_MULTI_LANG uint16_t lang_txt_id; /*The ID of the image to display. */ #endif uint8_t src_type :2; /*See: lv_img_src_t*/ uint8_t auto_size :1; /*1: automatically set the object size to the image size*/ uint8_t cf :5; /*Color format from `lv_img_color_format_t`*/ } lv_img_ext_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create an image objects * @param par pointer to an object, it will be the parent of the new button * @param copy pointer to a image object, if not NULL then the new object will be copied from it * @return pointer to the created image */ lv_obj_t * lv_img_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set the pixel map to display by the image * @param img pointer to an image object * @param data the image data */ void lv_img_set_src(lv_obj_t * img, const void * src_img); #if USE_LV_MULTI_LANG /** * Set an ID which means a the same source but on different languages * @param img pointer to an image object * @param src_id ID of the source */ void lv_img_set_src_id(lv_obj_t * img, uint32_t txt_id); #endif /** * Obsolete since v5.1. Just for compatibility with v5.0. Will be removed in v6.0. * Use 'lv_img_set_src()' instead. * @param img - * @param fn - */ static inline void lv_img_set_file(lv_obj_t * img, const char * fn) { (void) img; (void) fn; } /** * Enable the auto size feature. * If enabled the object size will be same as the picture size. * @param img pointer to an image * @param en true: auto size enable, false: auto size disable */ void lv_img_set_auto_size(lv_obj_t * img, bool autosize_en); /** * Set the style of an image * @param img pointer to an image object * @param style pointer to a style */ static inline void lv_img_set_style(lv_obj_t *img, lv_style_t *style) { lv_obj_set_style(img, style); } /** * Obsolete since v5.1. Just for compatibility with v5.0. Will be removed in v6.0 * @param img - * @param upscale - */ static inline void lv_img_set_upscale(lv_obj_t * img, bool upcale) { (void) img; (void) upcale; } /*===================== * Getter functions *====================*/ /** * Get the source of the image * @param img pointer to an image object * @return the image source (symbol, file name or C array) */ const void * lv_img_get_src(lv_obj_t * img); /** * Get the name of the file set for an image * @param img pointer to an image * @return file name */ const char * lv_img_get_file_name(const lv_obj_t * img); #if USE_LV_MULTI_LANG /** * Get the source ID of the image. (Used by the multi-language feature) * @param img pointer to an image * @return ID of the source */ uint16_t lv_img_get_src_id(lv_obj_t * img); #endif /** * Get the auto size enable attribute * @param img pointer to an image * @return true: auto size is enabled, false: auto size is disabled */ bool lv_img_get_auto_size(const lv_obj_t * img); /** * Get the style of an image object * @param img pointer to an image object * @return pointer to the image's style */ static inline lv_style_t* lv_img_get_style(const lv_obj_t *img) { return lv_obj_get_style(img); } /** * Obsolete since v5.1. Just for compatibility with v5.0. Will be removed in v6.0 * @param img - * @return false */ static inline bool lv_img_get_upscale(const lv_obj_t * img) { (void)img; return false; } /********************** * MACROS **********************/ /*Use this macro to declare an image in a c file*/ #define LV_IMG_DECLARE(var_name) extern const lv_img_dsc_t var_name; #endif /*USE_LV_IMG*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_IMG_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_imgbtn.c ================================================ /** * @file lv_imgbtn.c * */ /********************* * INCLUDES *********************/ #include "lv_imgbtn.h" #if USE_LV_IMGBTN != 0 /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_imgbtn_design(lv_obj_t * imgbtn, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_imgbtn_signal(lv_obj_t * imgbtn, lv_signal_t sign, void * param); static void refr_img(lv_obj_t * imgbtn); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_design_func_t ancestor_design; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a image button object * @param par pointer to an object, it will be the parent of the new image button * @param copy pointer to a image button object, if not NULL then the new object will be copied from it * @return pointer to the created image button */ lv_obj_t * lv_imgbtn_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("image button create started"); /*Create the ancestor of image button*/ lv_obj_t * new_imgbtn = lv_btn_create(par, copy); lv_mem_assert(new_imgbtn); if(new_imgbtn == NULL) return NULL; /*Allocate the image button type specific extended data*/ lv_imgbtn_ext_t * ext = lv_obj_allocate_ext_attr(new_imgbtn, sizeof(lv_imgbtn_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_imgbtn); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_imgbtn); /*Initialize the allocated 'ext' */ #if LV_IMGBTN_TILED == 0 memset(ext->img_src, 0, sizeof(ext->img_src)); #else memset(ext->img_src_left, 0, sizeof(ext->img_src_left)); memset(ext->img_src_mid, 0, sizeof(ext->img_src_mid)); memset(ext->img_src_right, 0, sizeof(ext->img_src_right)); #endif ext->act_cf = LV_IMG_CF_UNKOWN; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_imgbtn, lv_imgbtn_signal); lv_obj_set_design_func(new_imgbtn, lv_imgbtn_design); /*Init the new image button image button*/ if(copy == NULL) { } /*Copy an existing image button*/ else { lv_imgbtn_ext_t * copy_ext = lv_obj_get_ext_attr(copy); #if LV_IMGBTN_TILED == 0 memcpy(ext->img_src, copy_ext->img_src, sizeof(ext->img_src)); #else memcpy(ext->img_src_left, copy_ext->img_src_left, sizeof(ext->img_src_left)); memcpy(ext->img_src_mid, copy_ext->img_src_mid, sizeof(ext->img_src_mid)); memcpy(ext->img_src_right, copy_ext->img_src_right, sizeof(ext->img_src_right)); #endif /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_imgbtn); } LV_LOG_INFO("image button created"); return new_imgbtn; } /*===================== * Setter functions *====================*/ #if LV_IMGBTN_TILED == 0 /** * Set images for a state of the image button * @param imgbtn pointer to an image button object * @param state for which state set the new image (from `lv_btn_state_t`) ` * @param src pointer to an image source (a C array or path to a file) */ void lv_imgbtn_set_src(lv_obj_t * imgbtn, lv_btn_state_t state, const void * src) { lv_imgbtn_ext_t * ext = lv_obj_get_ext_attr(imgbtn); ext->img_src[state] = src; refr_img(imgbtn); } #else /** * Set images for a state of the image button * @param imgbtn pointer to an image button object * @param state for which state set the new image (from `lv_btn_state_t`) ` * @param src_left pointer to an image source for the left side of the button (a C array or path to a file) * @param src_mid pointer to an image source for the middle of the button (ideally 1px wide) (a C array or path to a file) * @param src_right pointer to an image source for the right side of the button (a C array or path to a file) */ void lv_imgbtn_set_src(lv_obj_t * imgbtn, lv_btn_state_t state, const void * src_left, const void * src_mid, const void * src_right) { lv_imgbtn_ext_t * ext = lv_obj_get_ext_attr(imgbtn); ext->img_src_left[state] = src_left; ext->img_src_mid[state] = src_mid; ext->img_src_right[state] = src_right; refr_img(imgbtn); } #endif /** * Set a style of a image button. * @param imgbtn pointer to image button object * @param type which style should be set * @param style pointer to a style */ void lv_imgbtn_set_style(lv_obj_t * imgbtn, lv_imgbtn_style_t type, lv_style_t * style) { lv_btn_set_style(imgbtn, type, style); } /*===================== * Getter functions *====================*/ #if LV_IMGBTN_TILED == 0 /** * Get the images in a given state * @param imgbtn pointer to an image button object * @param state the state where to get the image (from `lv_btn_state_t`) ` * @return pointer to an image source (a C array or path to a file) */ const void * lv_imgbtn_get_src(lv_obj_t * imgbtn, lv_btn_state_t state) { lv_imgbtn_ext_t * ext = lv_obj_get_ext_attr(imgbtn); return ext->img_src[state]; } #else /** * Get the left image in a given state * @param imgbtn pointer to an image button object * @param state the state where to get the image (from `lv_btn_state_t`) ` * @return pointer to the left image source (a C array or path to a file) */ const void * lv_imgbtn_get_src_left(lv_obj_t * imgbtn, lv_btn_state_t state) { lv_imgbtn_ext_t * ext = lv_obj_get_ext_attr(imgbtn); return ext->img_src_left[state]; } /** * Get the middle image in a given state * @param imgbtn pointer to an image button object * @param state the state where to get the image (from `lv_btn_state_t`) ` * @return pointer to the middle image source (a C array or path to a file) */ const void * lv_imgbtn_get_src_middle(lv_obj_t * imgbtn, lv_btn_state_t state) { lv_imgbtn_ext_t * ext = lv_obj_get_ext_attr(imgbtn); return ext->img_src_mid[state]; } /** * Get the right image in a given state * @param imgbtn pointer to an image button object * @param state the state where to get the image (from `lv_btn_state_t`) ` * @return pointer to the left image source (a C array or path to a file) */ const void * lv_imgbtn_get_src_right(lv_obj_t * imgbtn, lv_btn_state_t state) { lv_imgbtn_ext_t * ext = lv_obj_get_ext_attr(imgbtn); return ext->img_src_right[state]; } #endif /** * Get style of a image button. * @param imgbtn pointer to image button object * @param type which style should be get * @return style pointer to the style */ lv_style_t * lv_imgbtn_get_style(const lv_obj_t * imgbtn, lv_imgbtn_style_t type) { return lv_btn_get_style(imgbtn, type); } /*===================== * Other functions *====================*/ /* * New object specific "other" functions come here */ /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the image buttons * @param imgbtn pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_imgbtn_design(lv_obj_t * imgbtn, const lv_area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { lv_imgbtn_ext_t * ext = lv_obj_get_ext_attr(imgbtn); bool cover = false; if(ext->act_cf == LV_IMG_CF_TRUE_COLOR || ext->act_cf == LV_IMG_CF_RAW) { cover = lv_area_is_in(mask, &imgbtn->coords); } return cover; } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { /*Just draw an image*/ lv_imgbtn_ext_t * ext = lv_obj_get_ext_attr(imgbtn); lv_btn_state_t state = lv_imgbtn_get_state(imgbtn); lv_style_t * style = lv_imgbtn_get_style(imgbtn, state); lv_opa_t opa_scale = lv_obj_get_opa_scale(imgbtn); #if LV_IMGBTN_TILED == 0 const void * src = ext->img_src[state]; lv_draw_img(&imgbtn->coords, mask, src, style, opa_scale); #else const void * src; lv_img_header_t header; lv_area_t coords; lv_coord_t left_w = 0; lv_coord_t right_w = 0; src = ext->img_src_left[state]; if(src) { lv_img_dsc_get_info(src, &header); left_w = header.w; coords.x1 = imgbtn->coords.x1; coords.y1 = imgbtn->coords.y1; coords.x2 = coords.x1 + header.w - 1; coords.y2 = coords.y1 + header.h - 1; lv_draw_img(&coords, mask, src, style, opa_scale); } src = ext->img_src_right[state]; if(src) { lv_img_dsc_get_info(src, &header); right_w = header.w; coords.x1 = imgbtn->coords.x2 - header.w + 1; coords.y1 = imgbtn->coords.y1; coords.x2 = imgbtn->coords.x2; coords.y2 = imgbtn->coords.y1 + header.h - 1; lv_draw_img(&coords, mask, src, style, opa_scale); } src = ext->img_src_mid[state]; if(src) { lv_coord_t obj_w = lv_obj_get_width(imgbtn); lv_coord_t i; lv_img_dsc_get_info(src, &header); coords.x1 = imgbtn->coords.x1 + left_w ; coords.y1 = imgbtn->coords.y1; coords.x2 = coords.x1 + header.w - 1; coords.y2 = imgbtn->coords.y1 + header.h - 1; for(i = 0; i < obj_w - right_w - left_w; i += header.w) { lv_draw_img(&coords, mask, src, style, opa_scale); coords.x1 = coords.x2 + 1; coords.x2 += header.w; } } #endif } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { } return true; } /** * Signal function of the image button * @param imgbtn pointer to a image button object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_imgbtn_signal(lv_obj_t * imgbtn, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(imgbtn, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_STYLE_CHG) { /* If the style changed then the button was clicked, released etc. so probably the state was changed as well * Set the new image for the new state.*/ refr_img(imgbtn); } else if(sign == LV_SIGNAL_CLEANUP) { /*Nothing to cleanup. (No dynamically allocated memory in 'ext')*/ } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_imgbtn"; } return res; } static void refr_img(lv_obj_t * imgbtn) { lv_imgbtn_ext_t * ext = lv_obj_get_ext_attr(imgbtn); lv_btn_state_t state = lv_imgbtn_get_state(imgbtn); lv_img_header_t header; #if LV_IMGBTN_TILED == 0 const void * src = ext->img_src[state]; #else const void * src = ext->img_src_mid[state]; #endif lv_res_t info_res; info_res = lv_img_dsc_get_info(src, &header); if(info_res == LV_RES_OK) { ext->act_cf = header.cf; #if LV_IMGBTN_TILED == 0 lv_obj_set_size(imgbtn, header.w, header.h); #else lv_obj_set_height(imgbtn, header.h); #endif } else { ext->act_cf = LV_IMG_CF_UNKOWN; } lv_obj_invalidate(imgbtn); } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_imgbtn.h ================================================ /** * @file lv_imgbtn.h * */ #ifndef LV_IMGBTN_H #define LV_IMGBTN_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_IMGBTN != 0 /*Testing of dependencies*/ #if USE_LV_BTN == 0 #error "lv_imgbtn: lv_btn is required. Enable it in lv_conf.h (USE_LV_BTN 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_btn.h" #include "../lv_draw/lv_draw_img.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of image button*/ typedef struct { lv_btn_ext_t btn; /*Ext. of ancestor*/ /*New data for this type */ int idx; #if LV_IMGBTN_TILED == 0 const void * img_src[LV_BTN_STATE_NUM]; /*Store images to each state*/ #else const void * img_src_left[LV_BTN_STATE_NUM]; /*Store left side images to each state*/ const void * img_src_mid[LV_BTN_STATE_NUM]; /*Store center images to each state*/ const void * img_src_right[LV_BTN_STATE_NUM]; /*Store right side images to each state*/ #endif lv_img_cf_t act_cf; /*Color format of the currently active image*/ } lv_imgbtn_ext_t; /*Styles*/ enum { LV_IMGBTN_STYLE_REL, LV_IMGBTN_STYLE_PR, LV_IMGBTN_STYLE_TGL_REL, LV_IMGBTN_STYLE_TGL_PR, LV_IMGBTN_STYLE_INA, }; typedef uint8_t lv_imgbtn_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a image button objects * @param par pointer to an object, it will be the parent of the new image button * @param copy pointer to a image button object, if not NULL then the new object will be copied from it * @return pointer to the created image button */ lv_obj_t * lv_imgbtn_create(lv_obj_t * par, const lv_obj_t * copy); /*====================== * Add/remove functions *=====================*/ /*===================== * Setter functions *====================*/ #if LV_IMGBTN_TILED == 0 /** * Set images for a state of the image button * @param imgbtn pointer to an image button object * @param state for which state set the new image (from `lv_btn_state_t`) ` * @param src pointer to an image source (a C array or path to a file) */ void lv_imgbtn_set_src(lv_obj_t * imgbtn, lv_btn_state_t state, const void * src); #else /** * Set images for a state of the image button * @param imgbtn pointer to an image button object * @param state for which state set the new image (from `lv_btn_state_t`) ` * @param src_left pointer to an image source for the left side of the button (a C array or path to a file) * @param src_mid pointer to an image source for the middle of the button (ideally 1px wide) (a C array or path to a file) * @param src_right pointer to an image source for the right side of the button (a C array or path to a file) */ void lv_imgbtn_set_src(lv_obj_t * imgbtn, lv_btn_state_t state, const void * src_left, const void * src_mid, const void * src_right); #endif /** * Enable the toggled states. On release the button will change from/to toggled state. * @param imgbtn pointer to an image button object * @param tgl true: enable toggled states, false: disable */ static inline void lv_imgbtn_set_toggle(lv_obj_t * imgbtn, bool tgl) { lv_btn_set_toggle(imgbtn, tgl); } /** * Set the state of the image button * @param imgbtn pointer to an image button object * @param state the new state of the button (from lv_btn_state_t enum) */ static inline void lv_imgbtn_set_state(lv_obj_t * imgbtn, lv_btn_state_t state) { lv_btn_set_state(imgbtn, state); } /** * Toggle the state of the image button (ON->OFF, OFF->ON) * @param imgbtn pointer to a image button object */ static inline void lv_imgbtn_toggle(lv_obj_t * imgbtn) { lv_btn_toggle(imgbtn); } /** * Set a function to call when a button event happens * @param imgbtn pointer to an image button object * @param action type of event form 'lv_action_t' (press, release, long press, long press repeat) */ static inline void lv_imgbtn_set_action(lv_obj_t * imgbtn, lv_btn_action_t type, lv_action_t action) { lv_btn_set_action(imgbtn, type, action); } /** * Set a style of a image button. * @param imgbtn pointer to image button object * @param type which style should be set * @param style pointer to a style */ void lv_imgbtn_set_style(lv_obj_t * imgbtn, lv_imgbtn_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ #if LV_IMGBTN_TILED == 0 /** * Get the images in a given state * @param imgbtn pointer to an image button object * @param state the state where to get the image (from `lv_btn_state_t`) ` * @return pointer to an image source (a C array or path to a file) */ const void * lv_imgbtn_get_src(lv_obj_t * imgbtn, lv_btn_state_t state); #else /** * Get the left image in a given state * @param imgbtn pointer to an image button object * @param state the state where to get the image (from `lv_btn_state_t`) ` * @return pointer to the left image source (a C array or path to a file) */ const void * lv_imgbtn_get_src_left(lv_obj_t * imgbtn, lv_btn_state_t state); /** * Get the middle image in a given state * @param imgbtn pointer to an image button object * @param state the state where to get the image (from `lv_btn_state_t`) ` * @return pointer to the middle image source (a C array or path to a file) */ const void * lv_imgbtn_get_src_middle(lv_obj_t * imgbtn, lv_btn_state_t state); /** * Get the right image in a given state * @param imgbtn pointer to an image button object * @param state the state where to get the image (from `lv_btn_state_t`) ` * @return pointer to the left image source (a C array or path to a file) */ const void * lv_imgbtn_get_src_right(lv_obj_t * imgbtn, lv_btn_state_t state); #endif /** * Get the current state of the image button * @param imgbtn pointer to a image button object * @return the state of the button (from lv_btn_state_t enum) */ static inline lv_btn_state_t lv_imgbtn_get_state(const lv_obj_t * imgbtn) { return lv_btn_get_state(imgbtn); } /** * Get the toggle enable attribute of the image button * @param imgbtn pointer to a image button object * @return ture: toggle enabled, false: disabled */ static inline bool lv_imgbtn_get_toggle(const lv_obj_t * imgbtn) { return lv_btn_get_toggle(imgbtn); } /** * Get the release action of a image button * @param imgbtn pointer to a image button object * @return pointer to the release action function */ static inline lv_action_t lv_imgbtn_get_action(const lv_obj_t * imgbtn, lv_btn_action_t type) { return lv_btn_get_action(imgbtn, type); } /** * Get style of a image button. * @param imgbtn pointer to image button object * @param type which style should be get * @return style pointer to the style */ lv_style_t * lv_imgbtn_get_style(const lv_obj_t * imgbtn, lv_imgbtn_style_t type); /*===================== * Other functions *====================*/ /********************** * MACROS **********************/ #endif /*USE_LV_IMGBTN*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_IMGBTN_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_kb.c ================================================ /* * Copyright (c) 2019-2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_kb.c * */ /********************* * INCLUDES *********************/ #include "lv_kb.h" #if USE_LV_KB != 0 #include "lv_ta.h" #include "../lv_themes/lv_theme.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_kb_signal(lv_obj_t * kb, lv_signal_t sign, void * param); static lv_res_t lv_kb_def_action(lv_obj_t * kb, const char * txt); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static const char * kb_map_lc[] = { "\2051#", "\204q", "\204w", "\204e", "\204r", "\204t", "\204y", "\204u", "\204i", "\204o", "\204p", "\207Bksp", "\n", "\226ABC", "\203a", "\203s", "\203d", "\203f", "\203g", "\203h", "\203j", "\203k", "\203l", "\207Enter", "\n", "_", "-", "z", "x", "c", "v", "b", "n", "m", ".", ",", ":", "\n", "\202"SYMBOL_CLOSE, "\202"SYMBOL_LEFT, "\206 ", "\202"SYMBOL_RIGHT, "\202"SYMBOL_OK, "" }; static const char * kb_map_uc[] = { "\2051#", "\204Q", "\204W", "\204E", "\204R", "\204T", "\204Y", "\204U", "\204I", "\204O", "\204P", "\207Bksp", "\n", "\226abc", "\203A", "\203S", "\203D", "\203F", "\203G", "\203H", "\203J", "\203K", "\203L", "\207Enter", "\n", "_", "-", "Z", "X", "C", "V", "B", "N", "M", ".", ",", ":", "\n", "\202"SYMBOL_CLOSE, "\202"SYMBOL_LEFT, "\206 ", "\202"SYMBOL_RIGHT, "\202"SYMBOL_OK, "" }; static const char * kb_map_spec[] = { "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "\202Bksp", "\n", "\222abc", "+", "-", "/", "*", "=", "%", "!", "?", "#", "<", ">", "\n", "\\", "@", "$", "(", ")", "{", "}", "[", "]", ";", "\"", "'", "\n", "\202"SYMBOL_CLOSE, "\202"SYMBOL_LEFT, "\206 ", "\202"SYMBOL_RIGHT, "\202"SYMBOL_OK, "" }; static const char * kb_map_num[] = { "1", "2", "3", "\202"SYMBOL_CLOSE, "\n", "4", "5", "6", "\202"SYMBOL_OK, "\n", "7", "8", "9", "\202Bksp", "\n", "+/-", "0", ".", SYMBOL_LEFT, SYMBOL_RIGHT, "" }; static const char * kb_map_hex[] = { "1", "2", "3", "A", "D", "\212", "\n", "4", "5", "6", "B", "E", "\202Bksp", "\n", "7", "8", "9", "C", "F", "\202"SYMBOL_OK, "\n", "\211", "0", "\213", SYMBOL_LEFT, SYMBOL_RIGHT, "" }; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a keyboard objects * @param par pointer to an object, it will be the parent of the new keyboard * @param copy pointer to a keyboard object, if not NULL then the new object will be copied from it * @return pointer to the created keyboard */ lv_obj_t * lv_kb_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("keyboard create started"); /*Create the ancestor of keyboard*/ lv_obj_t * new_kb = lv_btnm_create(par, copy); lv_mem_assert(new_kb); if(new_kb == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_kb); /*Allocate the keyboard type specific extended data*/ lv_kb_ext_t * ext = lv_obj_allocate_ext_attr(new_kb, sizeof(lv_kb_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; /*Initialize the allocated 'ext' */ ext->ta = NULL; ext->mode = LV_KB_MODE_TEXT; ext->cursor_mng = 0; ext->hide_action = NULL; ext->ok_action = NULL; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_kb, lv_kb_signal); /*Init the new keyboard keyboard*/ if(copy == NULL) { lv_obj_set_size(new_kb, LV_HOR_RES, LV_VER_RES / 2); lv_obj_align(new_kb, NULL, LV_ALIGN_IN_BOTTOM_MID, 0, 0); lv_btnm_set_action(new_kb, lv_kb_def_action); lv_btnm_set_map(new_kb, kb_map_lc); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_kb_set_style(new_kb, LV_KB_STYLE_BG, th->kb.bg); lv_kb_set_style(new_kb, LV_KB_STYLE_BTN_REL, th->kb.btn.rel); lv_kb_set_style(new_kb, LV_KB_STYLE_BTN_PR, th->kb.btn.pr); lv_kb_set_style(new_kb, LV_KB_STYLE_BTN_TGL_REL, th->kb.btn.tgl_rel); lv_kb_set_style(new_kb, LV_KB_STYLE_BTN_TGL_PR, th->kb.btn.tgl_pr); lv_kb_set_style(new_kb, LV_KB_STYLE_BTN_INA, th->kb.btn.ina); } else { /*Let the button matrix's styles*/ } } /*Copy an existing keyboard*/ else { lv_kb_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->ta = NULL; ext->ta = copy_ext->ta; ext->mode = copy_ext->mode; ext->cursor_mng = copy_ext->cursor_mng; ext->hide_action = copy_ext->hide_action; ext->ok_action = copy_ext->ok_action; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_kb); } LV_LOG_INFO("keyboard created"); return new_kb; } /*===================== * Setter functions *====================*/ /** * Assign a Text Area to the Keyboard. The pressed characters will be put there. * @param kb pointer to a Keyboard object * @param ta pointer to a Text Area object to write there */ void lv_kb_set_ta(lv_obj_t * kb, lv_obj_t * ta) { lv_kb_ext_t * ext = lv_obj_get_ext_attr(kb); lv_cursor_type_t cur_type; /*Hide the cursor of the old Text area if cursor management is enabled*/ if(ext->ta && ext->cursor_mng) { cur_type = lv_ta_get_cursor_type(ext->ta); lv_ta_set_cursor_type(ext->ta, cur_type | LV_CURSOR_HIDDEN); } ext->ta = ta; /*Show the cursor of the new Text area if cursor management is enabled*/ if(ext->ta && ext->cursor_mng) { cur_type = lv_ta_get_cursor_type(ext->ta); lv_ta_set_cursor_type(ext->ta, cur_type & (~LV_CURSOR_HIDDEN)); } } /** * Set a new a mode (text or number map) * @param kb pointer to a Keyboard object * @param mode the mode from 'lv_kb_mode_t' */ void lv_kb_set_mode(lv_obj_t * kb, lv_kb_mode_t mode) { lv_kb_ext_t * ext = lv_obj_get_ext_attr(kb); if(ext->mode == mode) return; ext->mode = mode; if(mode == LV_KB_MODE_TEXT) lv_btnm_set_map(kb, kb_map_lc); else if(mode == LV_KB_MODE_NUM) lv_btnm_set_map(kb, kb_map_num); else if (mode == LV_KB_MODE_HEX) lv_btnm_set_map(kb, kb_map_hex); } /** * Automatically hide or show the cursor of Text Area * @param kb pointer to a Keyboard object * @param en true: show cursor on the current text area, false: hide cursor */ void lv_kb_set_cursor_manage(lv_obj_t * kb, bool en) { lv_kb_ext_t * ext = lv_obj_get_ext_attr(kb); if(ext->cursor_mng == en) return; ext->cursor_mng = en == false ? 0 : 1; if(ext->ta) { lv_cursor_type_t cur_type; cur_type = lv_ta_get_cursor_type(ext->ta); if(ext->cursor_mng) { lv_ta_set_cursor_type(ext->ta, cur_type & (~LV_CURSOR_HIDDEN)); } else { lv_ta_set_cursor_type(ext->ta, cur_type | LV_CURSOR_HIDDEN); } } } /** * Set call back to call when the "Ok" button is pressed * @param kb pointer to Keyboard object * @param action a callback with 'lv_action_t' type */ void lv_kb_set_ok_action(lv_obj_t * kb, lv_action_t action) { lv_kb_ext_t * ext = lv_obj_get_ext_attr(kb); ext->ok_action = action; } /** * Set call back to call when the "Hide" button is pressed * @param kb pointer to Keyboard object * @param action a callback with 'lv_action_t' type */ void lv_kb_set_hide_action(lv_obj_t * kb, lv_action_t action) { lv_kb_ext_t * ext = lv_obj_get_ext_attr(kb); ext->hide_action = action; } /** * Set a style of a keyboard * @param kb pointer to a keyboard object * @param type which style should be set * @param style pointer to a style */ void lv_kb_set_style(lv_obj_t * kb, lv_kb_style_t type, lv_style_t * style) { switch(type) { case LV_KB_STYLE_BG: lv_btnm_set_style(kb, LV_BTNM_STYLE_BG, style); break; case LV_KB_STYLE_BTN_REL: lv_btnm_set_style(kb, LV_BTNM_STYLE_BTN_REL, style); break; case LV_KB_STYLE_BTN_PR: lv_btnm_set_style(kb, LV_BTNM_STYLE_BTN_PR, style); break; case LV_KB_STYLE_BTN_TGL_REL: lv_btnm_set_style(kb, LV_BTNM_STYLE_BTN_TGL_REL, style); break; case LV_KB_STYLE_BTN_TGL_PR: lv_btnm_set_style(kb, LV_BTNM_STYLE_BTN_TGL_PR, style); break; case LV_KB_STYLE_BTN_INA: lv_btnm_set_style(kb, LV_BTNM_STYLE_BTN_INA, style); break; } } /*===================== * Getter functions *====================*/ /** * Assign a Text Area to the Keyboard. The pressed characters will be put there. * @param kb pointer to a Keyboard object * @return pointer to the assigned Text Area object */ lv_obj_t * lv_kb_get_ta(const lv_obj_t * kb) { lv_kb_ext_t * ext = lv_obj_get_ext_attr(kb); return ext->ta; } /** * Set a new a mode (text or number map) * @param kb pointer to a Keyboard object * @return the current mode from 'lv_kb_mode_t' */ lv_kb_mode_t lv_kb_get_mode(const lv_obj_t * kb) { lv_kb_ext_t * ext = lv_obj_get_ext_attr(kb); return ext->mode; } /** * Get the current cursor manage mode. * @param kb pointer to a Keyboard object * @return true: show cursor on the current text area, false: hide cursor */ bool lv_kb_get_cursor_manage(const lv_obj_t * kb) { lv_kb_ext_t * ext = lv_obj_get_ext_attr(kb); return ext->cursor_mng == 0 ? false : true; } /** * Get the callback to call when the "Ok" button is pressed * @param kb pointer to Keyboard object * @return the ok callback */ lv_action_t lv_kb_get_ok_action(const lv_obj_t * kb) { lv_kb_ext_t * ext = lv_obj_get_ext_attr(kb); return ext->ok_action; } /** * Get the callback to call when the "Hide" button is pressed * @param kb pointer to Keyboard object * @return the close callback */ lv_action_t lv_kb_get_hide_action(const lv_obj_t * kb) { lv_kb_ext_t * ext = lv_obj_get_ext_attr(kb); return ext->hide_action; } /** * Get a style of a keyboard * @param kb pointer to a keyboard object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_kb_get_style(const lv_obj_t * kb, lv_kb_style_t type) { lv_style_t * style = NULL; switch(type) { case LV_KB_STYLE_BG: style = lv_btnm_get_style(kb, LV_BTNM_STYLE_BG); break; case LV_KB_STYLE_BTN_REL: style = lv_btnm_get_style(kb, LV_BTNM_STYLE_BTN_REL); break; case LV_KB_STYLE_BTN_PR: style = lv_btnm_get_style(kb, LV_BTNM_STYLE_BTN_PR); break; case LV_KB_STYLE_BTN_TGL_REL: style = lv_btnm_get_style(kb, LV_BTNM_STYLE_BTN_TGL_REL); break; case LV_KB_STYLE_BTN_TGL_PR: style = lv_btnm_get_style(kb, LV_BTNM_STYLE_BTN_TGL_PR); break; case LV_KB_STYLE_BTN_INA: style = lv_btnm_get_style(kb, LV_BTNM_STYLE_BTN_INA); break; default: style = NULL; break; } return style; } /********************** * STATIC FUNCTIONS **********************/ /** * Signal function of the keyboard * @param kb pointer to a keyboard object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_kb_signal(lv_obj_t * kb, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(kb, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_CLEANUP) { /*Nothing to cleanup. (No dynamically allocated memory in 'ext')*/ } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_kb"; } return res; } /** * Called when a button of 'kb_btnm' is released * @param btnm pointer to 'kb_btnm' * @param i the index of the released button from the current btnm map * @return LV_ACTION_RES_INV if the btnm is deleted else LV_ACTION_RES_OK */ static lv_res_t lv_kb_def_action(lv_obj_t * kb, const char * txt) { lv_kb_ext_t * ext = lv_obj_get_ext_attr(kb); lv_res_t res = LV_RES_OK; /*Do the corresponding action according to the text of the button*/ if(strcmp(txt, "abc") == 0) { lv_btnm_set_map(kb, kb_map_lc); return LV_RES_OK; } else if(strcmp(txt, "ABC") == 0) { lv_btnm_set_map(kb, kb_map_uc); return LV_RES_OK; } else if(strcmp(txt, "1#") == 0) { lv_btnm_set_map(kb, kb_map_spec); return LV_RES_OK; } else if(strcmp(txt, SYMBOL_CLOSE) == 0) { if(ext->hide_action) res = ext->hide_action(kb); else { lv_kb_set_ta(kb, NULL); /*De-assign the text area to hide it cursor if needed*/ lv_obj_del(kb); } return res; } else if(strcmp(txt, SYMBOL_OK) == 0) { if(ext->ok_action) res = ext->ok_action(kb); else { lv_kb_set_ta(kb, NULL); /*De-assign the text area to hide it cursor if needed*/ res = lv_obj_del(kb); } return res; } if(res != LV_RES_OK) return res; /*The keyboard might be deleted in the actions*/ /*Add the characters to the text area if set*/ if(ext->ta == NULL) return res; if(strcmp(txt, "Enter") == 0)lv_ta_add_char(ext->ta, '\n'); else if(strcmp(txt, SYMBOL_LEFT) == 0) lv_ta_cursor_left(ext->ta); else if(strcmp(txt, SYMBOL_RIGHT) == 0) lv_ta_cursor_right(ext->ta); else if(strcmp(txt, "Bksp") == 0) lv_ta_del_char(ext->ta); else if(strcmp(txt, "+/-") == 0) { uint16_t cur = lv_ta_get_cursor_pos(ext->ta); const char * ta_txt = lv_ta_get_text(ext->ta); if(ta_txt[0] == '-') { lv_ta_set_cursor_pos(ext->ta, 1); lv_ta_del_char(ext->ta); lv_ta_add_char(ext->ta, '+'); lv_ta_set_cursor_pos(ext->ta, cur); } else if(ta_txt[0] == '+') { lv_ta_set_cursor_pos(ext->ta, 1); lv_ta_del_char(ext->ta); lv_ta_add_char(ext->ta, '-'); lv_ta_set_cursor_pos(ext->ta, cur); } else { lv_ta_set_cursor_pos(ext->ta, 0); lv_ta_add_char(ext->ta, '-'); lv_ta_set_cursor_pos(ext->ta, cur + 1); } } else { lv_ta_add_text(ext->ta, txt); } return LV_RES_OK; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_kb.h ================================================ /* * Copyright (c) 2019-2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_kb.h * */ #ifndef LV_KB_H #define LV_KB_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_KB != 0 /*Testing of dependencies*/ #if USE_LV_BTNM == 0 #error "lv_kb: lv_btnm is required. Enable it in lv_conf.h (USE_LV_BTNM 1) " #endif #if USE_LV_TA == 0 #error "lv_kb: lv_ta is required. Enable it in lv_conf.h (USE_LV_TA 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_btnm.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ enum { LV_KB_MODE_TEXT, LV_KB_MODE_NUM, LV_KB_MODE_HEX }; typedef uint8_t lv_kb_mode_t; /*Data of keyboard*/ typedef struct { lv_btnm_ext_t btnm; /*Ext. of ancestor*/ /*New data for this type */ lv_obj_t *ta; /*Pointer to the assigned text area*/ lv_kb_mode_t mode; /*Key map type*/ uint8_t cursor_mng :1; /*1: automatically show/hide cursor when a text area is assigned or left*/ lv_action_t ok_action; /*Called when the "Ok" button is clicked*/ lv_action_t hide_action; /*Called when the "Hide" button is clicked*/ } lv_kb_ext_t; enum { LV_KB_STYLE_BG, LV_KB_STYLE_BTN_REL, LV_KB_STYLE_BTN_PR, LV_KB_STYLE_BTN_TGL_REL, LV_KB_STYLE_BTN_TGL_PR, LV_KB_STYLE_BTN_INA, }; typedef uint8_t lv_kb_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a keyboard objects * @param par pointer to an object, it will be the parent of the new keyboard * @param copy pointer to a keyboard object, if not NULL then the new object will be copied from it * @return pointer to the created keyboard */ lv_obj_t * lv_kb_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Assign a Text Area to the Keyboard. The pressed characters will be put there. * @param kb pointer to a Keyboard object * @param ta pointer to a Text Area object to write there */ void lv_kb_set_ta(lv_obj_t * kb, lv_obj_t * ta); /** * Set a new a mode (text or number map) * @param kb pointer to a Keyboard object * @param mode the mode from 'lv_kb_mode_t' */ void lv_kb_set_mode(lv_obj_t * kb, lv_kb_mode_t mode); /** * Automatically hide or show the cursor of the current Text Area * @param kb pointer to a Keyboard object * @param en true: show cursor on the current text area, false: hide cursor */ void lv_kb_set_cursor_manage(lv_obj_t * kb, bool en); /** * Set call back to call when the "Ok" button is pressed * @param kb pointer to Keyboard object * @param action a callback with 'lv_action_t' type */ void lv_kb_set_ok_action(lv_obj_t * kb, lv_action_t action); /** * Set call back to call when the "Hide" button is pressed * @param kb pointer to Keyboard object * @param action a callback with 'lv_action_t' type */ void lv_kb_set_hide_action(lv_obj_t * kb, lv_action_t action); /** * Set a new map for the keyboard * @param kb pointer to a Keyboard object * @param map pointer to a string array to describe the map. * See 'lv_btnm_set_map()' for more info. */ static inline void lv_kb_set_map(lv_obj_t *kb, const char ** map) { lv_btnm_set_map(kb, map); } /** * Set a style of a keyboard * @param kb pointer to a keyboard object * @param type which style should be set * @param style pointer to a style */ void lv_kb_set_style(lv_obj_t *kb, lv_kb_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Assign a Text Area to the Keyboard. The pressed characters will be put there. * @param kb pointer to a Keyboard object * @return pointer to the assigned Text Area object */ lv_obj_t * lv_kb_get_ta(const lv_obj_t * kb); /** * Set a new a mode (text or number map) * @param kb pointer to a Keyboard object * @return the current mode from 'lv_kb_mode_t' */ lv_kb_mode_t lv_kb_get_mode(const lv_obj_t * kb); /** * Get the current cursor manage mode. * @param kb pointer to a Keyboard object * @return true: show cursor on the current text area, false: hide cursor */ bool lv_kb_get_cursor_manage(const lv_obj_t * kb); /** * Get the callback to call when the "Ok" button is pressed * @param kb pointer to Keyboard object * @return the ok callback */ lv_action_t lv_kb_get_ok_action(const lv_obj_t * kb); /** * Get the callback to call when the "Hide" button is pressed * @param kb pointer to Keyboard object * @return the close callback */ lv_action_t lv_kb_get_hide_action(const lv_obj_t * kb); /** * Get a style of a keyboard * @param kb pointer to a keyboard object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_kb_get_style(const lv_obj_t *kb, lv_kb_style_t type); /********************** * MACROS **********************/ #endif /*USE_LV_KB*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_KB_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_label.c ================================================ /** * @file lv_rect.c * */ /********************* * INCLUDES *********************/ #include "lv_label.h" #if USE_LV_LABEL != 0 #include "../lv_core/lv_obj.h" #include "../lv_core/lv_group.h" #include "../lv_core/lv_lang.h" #include "../lv_draw/lv_draw.h" #include "../lv_misc/lv_color.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ /*Test configurations*/ #ifndef LV_LABEL_SCROLL_SPEED #define LV_LABEL_SCROLL_SPEED (25) /*Hor, or ver. scroll speed (px/sec) in 'LV_LABEL_LONG_SCROLL/ROLL' mode*/ #endif #define ANIM_WAIT_CHAR_COUNT 3 #define LV_LABEL_DOT_END_INV 0xFFFF /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_label_signal(lv_obj_t * label, lv_signal_t sign, void * param); static bool lv_label_design(lv_obj_t * label, const lv_area_t * mask, lv_design_mode_t mode); static void lv_label_refr_text(lv_obj_t * label); static void lv_label_revert_dots(lv_obj_t * label); #if USE_LV_ANIMATION static void lv_label_set_offset_x(lv_obj_t * label, lv_coord_t x); static void lv_label_set_offset_y(lv_obj_t * label, lv_coord_t y); #endif /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a label objects * @param par pointer to an object, it will be the parent of the new label * @param copy pointer to a button object, if not NULL then the new object will be copied from it * @return pointer to the created button */ lv_obj_t * lv_label_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("label create started"); /*Create a basic object*/ lv_obj_t * new_label = lv_obj_create(par, copy); lv_mem_assert(new_label); if(new_label == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_label); /*Extend the basic object to a label object*/ lv_obj_allocate_ext_attr(new_label, sizeof(lv_label_ext_t)); lv_label_ext_t * ext = lv_obj_get_ext_attr(new_label); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->text = NULL; ext->static_txt = 0; ext->recolor = 0; ext->body_draw = 0; ext->align = LV_LABEL_ALIGN_LEFT; ext->dot_end = LV_LABEL_DOT_END_INV; ext->long_mode = LV_LABEL_LONG_EXPAND; ext->anim_speed = LV_LABEL_SCROLL_SPEED; ext->offset.x = 0; ext->offset.y = 0; #if USE_LV_MULTI_LANG ext->lang_txt_id = LV_LANG_TXT_ID_NONE; #endif lv_obj_set_design_func(new_label, lv_label_design); lv_obj_set_signal_func(new_label, lv_label_signal); /*Init the new label*/ if(copy == NULL) { lv_obj_set_click(new_label, false); lv_label_set_long_mode(new_label, LV_LABEL_LONG_EXPAND); lv_label_set_text(new_label, "Text"); lv_label_set_style(new_label, NULL); /*Inherit parent's style*/ } /*Copy 'copy' if not NULL*/ else { lv_label_ext_t * copy_ext = lv_obj_get_ext_attr(copy); lv_label_set_long_mode(new_label, lv_label_get_long_mode(copy)); lv_label_set_recolor(new_label, lv_label_get_recolor(copy)); lv_label_set_body_draw(new_label, lv_label_get_body_draw(copy)); lv_label_set_align(new_label, lv_label_get_align(copy)); if(copy_ext->static_txt == 0) lv_label_set_text(new_label, lv_label_get_text(copy)); else lv_label_set_static_text(new_label, lv_label_get_text(copy)); /*In DOT mode save the text byte-to-byte because a '\0' can be in the middle*/ if(copy_ext->long_mode == LV_LABEL_LONG_DOT) { ext->text = lv_mem_realloc(ext->text, lv_mem_get_size(copy_ext->text)); lv_mem_assert(ext->text); if(ext->text == NULL) return NULL; memcpy(ext->text, copy_ext->text, lv_mem_get_size(copy_ext->text)); } memcpy(ext->dot_tmp, copy_ext->dot_tmp, sizeof(ext->dot_tmp)); ext->dot_end = copy_ext->dot_end; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_label); } LV_LOG_INFO("label created"); return new_label; } /*===================== * Setter functions *====================*/ /** * Set a new text for a label. Memory will be allocated to store the text by the label. * @param label pointer to a label object * @param text '\0' terminated character string. NULL to refresh with the current text. */ void lv_label_set_text(lv_obj_t * label, const char * text) { lv_obj_invalidate(label); lv_label_ext_t * ext = lv_obj_get_ext_attr(label); /*If text is NULL then refresh */ if(text == NULL) { lv_label_refr_text(label); return; } if(ext->text == text && ext->static_txt == 0) { /*If set its own text then reallocate it (maybe its size changed)*/ ext->text = lv_mem_realloc(ext->text, strlen(ext->text) + 1); lv_mem_assert(ext->text); if(ext->text == NULL) return; } else { /*Allocate space for the new text*/ uint32_t len = strlen(text) + 1; if(ext->text != NULL && ext->static_txt == 0) { lv_mem_free(ext->text); ext->text = NULL; } ext->text = lv_mem_alloc(len); lv_mem_assert(ext->text); if(ext->text == NULL) return; strcpy(ext->text, text); ext->static_txt = 0; /*Now the text is dynamically allocated*/ } lv_label_refr_text(label); } /** * Set a new text for a label from a character array. The array don't has to be '\0' terminated. * Memory will be allocated to store the array by the label. * @param label pointer to a label object * @param array array of characters or NULL to refresh the label * @param size the size of 'array' in bytes */ void lv_label_set_array_text(lv_obj_t * label, const char * array, uint16_t size) { lv_obj_invalidate(label); lv_label_ext_t * ext = lv_obj_get_ext_attr(label); /*If trying to set its own text or the array is NULL then refresh */ if(array == ext->text || array == NULL) { lv_label_refr_text(label); return; } /*Allocate space for the new text*/ if(ext->text != NULL && ext->static_txt == 0) { lv_mem_free(ext->text); ext->text = NULL; } ext->text = lv_mem_alloc(size + 1); lv_mem_assert(ext->text); if(ext->text == NULL) return; memcpy(ext->text, array, size); ext->text[size] = '\0'; ext->static_txt = 0; /*Now the text is dynamically allocated*/ lv_label_refr_text(label); } /** * Set a static text. It will not be saved by the label so the 'text' variable * has to be 'alive' while the label exist. * @param label pointer to a label object * @param text pointer to a text. NULL to refresh with the current text. */ void lv_label_set_static_text(lv_obj_t * label, const char * text) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); if(ext->static_txt == 0 && ext->text != NULL) { lv_mem_free(ext->text); ext->text = NULL; } if(text != NULL) { ext->static_txt = 1; ext->text = (char *) text; } lv_label_refr_text(label); } #if USE_LV_MULTI_LANG /** *Set a text ID which refers a the same text but in a different languages * @param label pointer to a label object * @param txt_id ID of the text */ void lv_label_set_text_id(lv_obj_t * label, uint32_t txt_id) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); ext->lang_txt_id = txt_id; /*Apply the new language*/ label->signal_func(label, LV_SIGNAL_LANG_CHG, NULL); } #endif /** * Set the behavior of the label with longer text then the object size * @param label pointer to a label object * @param long_mode the new mode from 'lv_label_long_mode' enum. * In LV_LONG_BREAK/LONG/ROLL the size of the label should be set AFTER this function */ void lv_label_set_long_mode(lv_obj_t * label, lv_label_long_mode_t long_mode) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); #if USE_LV_ANIMATION /*Delete the old animation (if exists)*/ lv_anim_del(label, (lv_anim_fp_t) lv_obj_set_x); lv_anim_del(label, (lv_anim_fp_t) lv_obj_set_y); lv_anim_del(label, (lv_anim_fp_t) lv_label_set_offset_x); lv_anim_del(label, (lv_anim_fp_t) lv_label_set_offset_y); #endif ext->offset.x = 0; ext->offset.y = 0; if(long_mode == LV_LABEL_LONG_ROLL || long_mode == LV_LABEL_LONG_CROP) ext->expand = 1; else ext->expand = 0; /*Restore the character under the dots*/ if(ext->long_mode == LV_LABEL_LONG_DOT && ext->dot_end != LV_LABEL_DOT_END_INV) { lv_label_revert_dots(label); } ext->long_mode = long_mode; lv_label_refr_text(label); } /** * Set the align of the label (left or center) * @param label pointer to a label object * @param align 'LV_LABEL_ALIGN_LEFT' or 'LV_LABEL_ALIGN_LEFT' */ void lv_label_set_align(lv_obj_t * label, lv_label_align_t align) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); if(ext->align == align) return; ext->align = align; lv_obj_invalidate(label); /*Enough to invalidate because alignment is only drawing related (lv_refr_label_text() not required)*/ } /** * Enable the recoloring by in-line commands * @param label pointer to a label object * @param en true: enable recoloring, false: disable */ void lv_label_set_recolor(lv_obj_t * label, bool en) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); if(ext->recolor == en) return; ext->recolor = en == false ? 0 : 1; lv_label_refr_text(label); /*Refresh the text because the potential colo codes in text needs to be hided or revealed*/ } /** * Set the label to draw (or not draw) background specified in its style's body * @param label pointer to a label object * @param en true: draw body; false: don't draw body */ void lv_label_set_body_draw(lv_obj_t * label, bool en) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); if(ext->body_draw == en) return; ext->body_draw = en == false ? 0 : 1; lv_obj_refresh_ext_size(label); lv_obj_invalidate(label); } /** * Set the label's animation speed in LV_LABEL_LONG_ROLL and SCROLL modes * @param label pointer to a label object * @param anim_speed speed of animation in px/sec unit */ void lv_label_set_anim_speed(lv_obj_t * label, uint16_t anim_speed) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); if(ext->anim_speed == anim_speed) return; ext->anim_speed = anim_speed; if(ext->long_mode == LV_LABEL_LONG_ROLL || ext->long_mode == LV_LABEL_LONG_SCROLL) { lv_label_refr_text(label); } } /*===================== * Getter functions *====================*/ /** * Get the text of a label * @param label pointer to a label object * @return the text of the label */ char * lv_label_get_text(const lv_obj_t * label) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); return ext->text; } #if USE_LV_MULTI_LANG /** * Get the text ID of the label. (Used by the multi-language feature) * @param label pointer to a label object * @return ID of the text */ uint16_t lv_label_get_text_id(lv_obj_t * label) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); return ext->lang_txt_id; } #endif /** * Get the long mode of a label * @param label pointer to a label object * @return the long mode */ lv_label_long_mode_t lv_label_get_long_mode(const lv_obj_t * label) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); return ext->long_mode; } /** * Get the align attribute * @param label pointer to a label object * @return LV_LABEL_ALIGN_LEFT or LV_LABEL_ALIGN_CENTER */ lv_label_align_t lv_label_get_align(const lv_obj_t * label) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); return ext->align; } /** * Get the recoloring attribute * @param label pointer to a label object * @return true: recoloring is enabled, false: disable */ bool lv_label_get_recolor(const lv_obj_t * label) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); return ext->recolor == 0 ? false : true; } /** * Get the body draw attribute * @param label pointer to a label object * @return true: draw body; false: don't draw body */ bool lv_label_get_body_draw(const lv_obj_t * label) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); return ext->body_draw == 0 ? false : true; } /** * Get the label's animation speed in LV_LABEL_LONG_ROLL and SCROLL modes * @param label pointer to a label object * @return speed of animation in px/sec unit */ uint16_t lv_label_get_anim_speed(const lv_obj_t * label) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); return ext->anim_speed; } /** * Get the relative x and y coordinates of a letter * @param label pointer to a label object * @param index index of the letter [0 ... text length]. Expressed in character index, not byte index (different in UTF-8) * @param pos store the result here (E.g. index = 0 gives 0;0 coordinates) */ void lv_label_get_letter_pos(const lv_obj_t * label, uint16_t index, lv_point_t * pos) { const char * txt = lv_label_get_text(label); lv_label_ext_t * ext = lv_obj_get_ext_attr(label); uint32_t line_start = 0; uint32_t new_line_start = 0; lv_coord_t max_w = lv_obj_get_width(label); lv_style_t * style = lv_obj_get_style(label); const lv_font_t * font = style->text.font; uint8_t letter_height = lv_font_get_height(font); lv_coord_t y = 0; lv_txt_flag_t flag = LV_TXT_FLAG_NONE; if(ext->recolor != 0) flag |= LV_TXT_FLAG_RECOLOR; if(ext->expand != 0) flag |= LV_TXT_FLAG_EXPAND; if(ext->align == LV_LABEL_ALIGN_CENTER) flag |= LV_TXT_FLAG_CENTER; /*If the width will be expanded the set the max length to very big */ if(ext->long_mode == LV_LABEL_LONG_EXPAND || ext->long_mode == LV_LABEL_LONG_SCROLL) { max_w = LV_COORD_MAX; } index = lv_txt_encoded_get_byte_id(txt, index); /*Search the line of the index letter */; while(txt[new_line_start] != '\0') { new_line_start += lv_txt_get_next_line(&txt[line_start], font, style->text.letter_space, max_w, flag); if(index < new_line_start || txt[new_line_start] == '\0') break; /*The line of 'index' letter begins at 'line_start'*/ y += letter_height + style->text.line_space; line_start = new_line_start; } /*If the last character is line break then go to the next line*/ if(index > 0) { if((txt[index - 1] == '\n' || txt[index - 1] == '\r') && txt[index] == '\0') { y += letter_height + style->text.line_space; line_start = index; } } /*Calculate the x coordinate*/ lv_coord_t x = lv_txt_get_width(&txt[line_start], index - line_start, font, style->text.letter_space, flag); if(index != line_start) x += style->text.letter_space; if(ext->align == LV_LABEL_ALIGN_CENTER) { lv_coord_t line_w; line_w = lv_txt_get_width(&txt[line_start], new_line_start - line_start, font, style->text.letter_space, flag); x += lv_obj_get_width(label) / 2 - line_w / 2; } else if(ext->align == LV_LABEL_ALIGN_RIGHT) { lv_coord_t line_w; line_w = lv_txt_get_width(&txt[line_start], new_line_start - line_start, font, style->text.letter_space, flag); x += lv_obj_get_width(label) - line_w; } pos->x = x; pos->y = y; } /** * Get the index of letter on a relative point of a label * @param label pointer to label object * @param pos pointer to point with coordinates on a the label * @return the index of the letter on the 'pos_p' point (E.g. on 0;0 is the 0. letter) * Expressed in character index and not byte index (different in UTF-8) */ uint16_t lv_label_get_letter_on(const lv_obj_t * label, lv_point_t * pos) { const char * txt = lv_label_get_text(label); lv_label_ext_t * ext = lv_obj_get_ext_attr(label); uint32_t line_start = 0; uint32_t new_line_start = 0; lv_coord_t max_w = lv_obj_get_width(label); lv_style_t * style = lv_obj_get_style(label); const lv_font_t * font = style->text.font; uint8_t letter_height = lv_font_get_height(font); lv_coord_t y = 0; lv_txt_flag_t flag = LV_TXT_FLAG_NONE; if(ext->recolor != 0) flag |= LV_TXT_FLAG_RECOLOR; if(ext->expand != 0) flag |= LV_TXT_FLAG_EXPAND; if(ext->align == LV_LABEL_ALIGN_CENTER) flag |= LV_TXT_FLAG_CENTER; /*If the width will be expanded set the max length to very big */ if(ext->long_mode == LV_LABEL_LONG_EXPAND || ext->long_mode == LV_LABEL_LONG_SCROLL) { max_w = LV_COORD_MAX; } /*Search the line of the index letter */; while(txt[line_start] != '\0') { new_line_start += lv_txt_get_next_line(&txt[line_start], font, style->text.letter_space, max_w, flag); if(pos->y <= y + letter_height) break; /*The line is found (stored in 'line_start')*/ y += letter_height + style->text.line_space; line_start = new_line_start; } /*Calculate the x coordinate*/ lv_coord_t x = 0; if(ext->align == LV_LABEL_ALIGN_CENTER) { lv_coord_t line_w; line_w = lv_txt_get_width(&txt[line_start], new_line_start - line_start, font, style->text.letter_space, flag); x += lv_obj_get_width(label) / 2 - line_w / 2; } lv_txt_cmd_state_t cmd_state = LV_TXT_CMD_STATE_WAIT; uint32_t i = line_start; uint32_t i_current = i; uint32_t letter; while(i < new_line_start - 1) { letter = lv_txt_encoded_next(txt, &i); /*Be careful 'i' already points to the next character*/ /*Handle the recolor command*/ if((flag & LV_TXT_FLAG_RECOLOR) != 0) { if(lv_txt_is_cmd(&cmd_state, txt[i]) != false) { continue; /*Skip the letter is it is part of a command*/ } } x += lv_font_get_width(font, letter); if(pos->x < x) { i = i_current; break; } x += style->text.letter_space; i_current = i; } return lv_encoded_get_char_id(txt, i); } /*===================== * Other functions *====================*/ /** * Insert a text to the label. The label text can not be static. * @param label pointer to a label object * @param pos character index to insert. Expressed in character index and not byte index (Different in UTF-8) * 0: before first char. * LV_LABEL_POS_LAST: after last char. * @param txt pointer to the text to insert */ void lv_label_ins_text(lv_obj_t * label, uint32_t pos, const char * txt) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); /*Can not append to static text*/ if(ext->static_txt != 0) return; lv_obj_invalidate(label); /*Allocate space for the new text*/ uint32_t old_len = strlen(ext->text); uint32_t ins_len = strlen(txt); uint32_t new_len = ins_len + old_len; ext->text = lv_mem_realloc(ext->text, new_len + 1); lv_mem_assert(ext->text); if(ext->text == NULL) return; if(pos == LV_LABEL_POS_LAST) { #if LV_TXT_UTF8 == 0 pos = old_len; #else pos = lv_txt_get_encoded_length(ext->text); #endif } lv_txt_ins(ext->text, pos, txt); lv_label_refr_text(label); } /** * Delete characters from a label. The label text can not be static. * @param label pointer to a label object * @param pos character index to insert. Expressed in character index and not byte index (Different in UTF-8) * 0: before first char. * @param cnt number of characters to cut */ void lv_label_cut_text(lv_obj_t * label, uint32_t pos, uint32_t cnt) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); /*Can not append to static text*/ if(ext->static_txt != 0) return; lv_obj_invalidate(label); char * label_txt = lv_label_get_text(label); /*Delete the characters*/ lv_txt_cut(label_txt, pos, cnt); /*Refresh the label*/ lv_label_refr_text(label); } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the labels * @param label pointer to a label object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_label_design(lv_obj_t * label, const lv_area_t * mask, lv_design_mode_t mode) { /* A label never covers an area */ if(mode == LV_DESIGN_COVER_CHK) return false; else if(mode == LV_DESIGN_DRAW_MAIN) { lv_area_t coords; lv_style_t * style = lv_obj_get_style(label); lv_opa_t opa_scale = lv_obj_get_opa_scale(label); lv_obj_get_coords(label, &coords); #if USE_LV_GROUP lv_group_t * g = lv_obj_get_group(label); if(lv_group_get_focused(g) == label) { lv_draw_rect(&coords, mask, style, opa_scale); } #endif lv_label_ext_t * ext = lv_obj_get_ext_attr(label); if(ext->body_draw) { lv_area_t bg; lv_obj_get_coords(label, &bg); bg.x1 -= style->body.padding.hor; bg.x2 += style->body.padding.hor; bg.y1 -= style->body.padding.ver; bg.y2 += style->body.padding.ver; lv_draw_rect(&bg, mask, style, lv_obj_get_opa_scale(label)); } /*TEST: draw a background for the label*/ //lv_draw_rect(&label->coords, mask, &lv_style_plain_color, LV_OPA_COVER); lv_txt_flag_t flag = LV_TXT_FLAG_NONE; if(ext->recolor != 0) flag |= LV_TXT_FLAG_RECOLOR; if(ext->expand != 0) flag |= LV_TXT_FLAG_EXPAND; if(ext->align == LV_LABEL_ALIGN_CENTER) flag |= LV_TXT_FLAG_CENTER; if(ext->align == LV_LABEL_ALIGN_RIGHT) flag |= LV_TXT_FLAG_RIGHT; /* In ROLL mode the CENTER and RIGHT are pointless so remove them. * (In addition they will result mis-alignment is this case)*/ if((ext->long_mode == LV_LABEL_LONG_ROLL) && (ext->align == LV_LABEL_ALIGN_CENTER || ext->align == LV_LABEL_ALIGN_RIGHT)) { lv_point_t size; lv_txt_get_size(&size, ext->text, style->text.font, style->text.letter_space, style->text.line_space, LV_COORD_MAX, flag); if(size.x > lv_obj_get_width(label)) { flag &= ~LV_TXT_FLAG_RIGHT; flag &= ~LV_TXT_FLAG_CENTER; } } lv_draw_label(&coords, mask, style, opa_scale, ext->text, flag, &ext->offset); } return true; } /** * Signal function of the label * @param label pointer to a label object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_label_signal(lv_obj_t * label, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(label, sign, param); if(res != LV_RES_OK) return res; lv_label_ext_t * ext = lv_obj_get_ext_attr(label); if(sign == LV_SIGNAL_CLEANUP) { if(ext->static_txt == 0) { lv_mem_free(ext->text); ext->text = NULL; } } else if(sign == LV_SIGNAL_STYLE_CHG) { /*Revert dots for proper refresh*/ lv_label_revert_dots(label); lv_label_refr_text(label); } else if(sign == LV_SIGNAL_CORD_CHG) { if(lv_area_get_width(&label->coords) != lv_area_get_width(param) || lv_area_get_height(&label->coords) != lv_area_get_height(param)) { lv_label_revert_dots(label); lv_label_refr_text(label); } } else if(sign == LV_SIGNAL_REFR_EXT_SIZE) { if(ext->body_draw) { lv_style_t * style = lv_label_get_style(label); label->ext_size = LV_MATH_MAX(label->ext_size, style->body.padding.hor); label->ext_size = LV_MATH_MAX(label->ext_size, style->body.padding.ver); } } else if(sign == LV_SIGNAL_LANG_CHG) { #if USE_LV_MULTI_LANG if(ext->lang_txt_id != LV_LANG_TXT_ID_NONE) { const char * lang_txt = lv_lang_get_text(ext->lang_txt_id); if(lang_txt) { lv_label_set_text(label, lang_txt); } else { LV_LOG_WARN("lv_lang_get_text return NULL for a label's text"); } } #endif } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_label"; } return res; } /** * Refresh the label with its text stored in its extended data * @param label pointer to a label object */ static void lv_label_refr_text(lv_obj_t * label) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); if(ext->text == NULL) return; lv_coord_t max_w = lv_obj_get_width(label); lv_style_t * style = lv_obj_get_style(label); const lv_font_t * font = style->text.font; /*If the width will be expanded set the max length to very big */ if(ext->long_mode == LV_LABEL_LONG_EXPAND || ext->long_mode == LV_LABEL_LONG_SCROLL) { max_w = LV_COORD_MAX; } /*Calc. the height and longest line*/ lv_point_t size; lv_txt_flag_t flag = LV_TXT_FLAG_NONE; if(ext->recolor != 0) flag |= LV_TXT_FLAG_RECOLOR; if(ext->expand != 0) flag |= LV_TXT_FLAG_EXPAND; lv_txt_get_size(&size, ext->text, font, style->text.letter_space, style->text.line_space, max_w, flag); /*Set the full size in expand mode*/ if(ext->long_mode == LV_LABEL_LONG_EXPAND || ext->long_mode == LV_LABEL_LONG_SCROLL) { lv_obj_set_size(label, size.x, size.y); /*Start scrolling if the label is greater then its parent*/ if(ext->long_mode == LV_LABEL_LONG_SCROLL) { #if USE_LV_ANIMATION lv_obj_t * parent = lv_obj_get_parent(label); /*Delete the potential previous scroller animations*/ lv_anim_del(label, (lv_anim_fp_t) lv_obj_set_x); lv_anim_del(label, (lv_anim_fp_t) lv_obj_set_y); lv_anim_t anim; anim.var = label; anim.repeat = 1; anim.playback = 1; anim.start = 0; anim.act_time = 0; anim.end_cb = NULL; anim.path = lv_anim_path_linear; anim.playback_pause = (((lv_font_get_width(style->text.font, ' ') + style->text.letter_space) * 1000) / ext->anim_speed) * ANIM_WAIT_CHAR_COUNT; anim.repeat_pause = anim.playback_pause; if(lv_obj_get_width(label) > lv_obj_get_width(parent)) { anim.end = lv_obj_get_width(parent) - lv_obj_get_width(label); anim.fp = (lv_anim_fp_t) lv_obj_set_x; anim.time = lv_anim_speed_to_time(ext->anim_speed, anim.start, anim.end); lv_anim_create(&anim); } else if(lv_obj_get_height(label) > lv_obj_get_height(parent)) { anim.end = lv_obj_get_height(parent) - lv_obj_get_height(label) - lv_font_get_height(font); anim.fp = (lv_anim_fp_t)lv_obj_set_y; anim.time = lv_anim_speed_to_time(ext->anim_speed, anim.start, anim.end); lv_anim_create(&anim); } #endif } } /*In roll mode keep the size but start offset animations*/ else if(ext->long_mode == LV_LABEL_LONG_ROLL) { #if USE_LV_ANIMATION lv_anim_t anim; anim.var = label; anim.repeat = 1; anim.playback = 1; anim.start = 0; anim.act_time = 0; anim.end_cb = NULL; anim.path = lv_anim_path_linear; anim.playback_pause = (((lv_font_get_width(style->text.font, ' ') + style->text.letter_space) * 1000) / ext->anim_speed) * ANIM_WAIT_CHAR_COUNT; anim.repeat_pause = anim.playback_pause; bool hor_anim = false; if(size.x > lv_obj_get_width(label)) { anim.end = lv_obj_get_width(label) - size.x; anim.fp = (lv_anim_fp_t) lv_label_set_offset_x; anim.time = lv_anim_speed_to_time(ext->anim_speed, anim.start, anim.end); lv_anim_create(&anim); hor_anim = true; } else { /*Delete the offset animation if not required*/ lv_anim_del(label, (lv_anim_fp_t) lv_label_set_offset_x); ext->offset.x = 0; } if(size.y > lv_obj_get_height(label) && hor_anim == false) { anim.end = lv_obj_get_height(label) - size.y - (lv_font_get_height(font)); anim.fp = (lv_anim_fp_t)lv_label_set_offset_y; anim.time = lv_anim_speed_to_time(ext->anim_speed, anim.start, anim.end); lv_anim_create(&anim); } else { /*Delete the offset animation if not required*/ lv_anim_del(label, (lv_anim_fp_t) lv_label_set_offset_y); ext->offset.y = 0; } #endif } else if(ext->long_mode == LV_LABEL_LONG_DOT) { if(size.y <= lv_obj_get_height(label)) { /*No dots are required, the text is short enough*/ ext->dot_end = LV_LABEL_DOT_END_INV; } else if(lv_txt_get_encoded_length(ext->text) <= LV_LABEL_DOT_NUM) { /*Don't turn to dots all the characters*/ ext->dot_end = LV_LABEL_DOT_END_INV; } else { lv_point_t p; p.x = lv_obj_get_width(label) - (lv_font_get_width(style->text.font, '.') + style->text.letter_space) * LV_LABEL_DOT_NUM; /*Shrink with dots*/ p.y = lv_obj_get_height(label); p.y -= p.y % (lv_font_get_height(style->text.font) + style->text.line_space); /*Round down to the last line*/ p.y -= style->text.line_space; /*Trim the last line space*/ uint32_t letter_id = lv_label_get_letter_on(label, &p); #if LV_TXT_UTF8 == 0 /*Save letters under the dots and replace them with dots*/ uint8_t i; for(i = 0; i < LV_LABEL_DOT_NUM; i++) { ext->dot_tmp[i] = ext->text[letter_id + i]; ext->text[letter_id + i] = '.'; } ext->dot_tmp[LV_LABEL_DOT_NUM] = ext->text[letter_id + LV_LABEL_DOT_NUM]; ext->text[letter_id + LV_LABEL_DOT_NUM] = '\0'; ext->dot_end = letter_id + LV_LABEL_DOT_NUM; #else /*Save letters under the dots and replace them with dots*/ uint32_t i; uint32_t byte_id = lv_txt_encoded_get_byte_id(ext->text, letter_id); uint32_t byte_id_ori = byte_id; uint8_t len = 0; for(i = 0; i <= LV_LABEL_DOT_NUM; i++) { len += lv_txt_encoded_size(&ext->text[byte_id]); lv_txt_encoded_next(ext->text, &byte_id); } memcpy(ext->dot_tmp, &ext->text[byte_id_ori], len); ext->dot_tmp[len] = '\0'; /*Close with a zero*/ for(i = 0; i < LV_LABEL_DOT_NUM; i++) { ext->text[byte_id_ori + i] = '.'; } ext->text[byte_id_ori + LV_LABEL_DOT_NUM] = '\0'; ext->dot_end = letter_id + LV_LABEL_DOT_NUM; #endif } } /*In break mode only the height can change*/ else if(ext->long_mode == LV_LABEL_LONG_BREAK) { lv_obj_set_height(label, size.y); } /*Do not set the size in Clip mode*/ else if(ext->long_mode == LV_LABEL_LONG_CROP) { /*Do nothing*/ } lv_obj_invalidate(label); } static void lv_label_revert_dots(lv_obj_t * label) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); if(ext->long_mode != LV_LABEL_LONG_DOT) return; if(ext->dot_end == LV_LABEL_DOT_END_INV) return; #if LV_TXT_UTF8 == 0 uint32_t i; for(i = 0; i <= LV_LABEL_DOT_NUM; i++) { ext->text[ext->dot_end - i] = ext->dot_tmp[LV_LABEL_DOT_NUM - i]; } #else uint32_t letter_i = ext->dot_end - LV_LABEL_DOT_NUM; uint32_t byte_i = lv_txt_encoded_get_byte_id(ext->text, letter_i); /*Restore the characters*/ uint8_t i = 0; while(ext->dot_tmp[i] != '\0') { ext->text[byte_i + i] = ext->dot_tmp[i]; i++; } #endif ext->dot_end = LV_LABEL_DOT_END_INV; } #if USE_LV_ANIMATION static void lv_label_set_offset_x(lv_obj_t * label, lv_coord_t x) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); ext->offset.x = x; lv_obj_invalidate(label); } static void lv_label_set_offset_y(lv_obj_t * label, lv_coord_t y) { lv_label_ext_t * ext = lv_obj_get_ext_attr(label); ext->offset.y = y; lv_obj_invalidate(label); } #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_label.h ================================================ /** * @file lv_rect.h * */ #ifndef LV_LABEL_H #define LV_LABEL_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_LABEL != 0 #include "../lv_core/lv_obj.h" #include "../lv_misc/lv_font.h" #include "../lv_misc/lv_txt.h" #include "../lv_misc/lv_symbol_def.h" /********************* * DEFINES *********************/ #define LV_LABEL_DOT_NUM 3 #define LV_LABEL_POS_LAST 0xFFFF /********************** * TYPEDEFS **********************/ /*Long mode behaviors. Used in 'lv_label_ext_t' */ enum { LV_LABEL_LONG_EXPAND, /*Expand the object size to the text size*/ LV_LABEL_LONG_BREAK, /*Keep the object width, break the too long lines and expand the object height*/ LV_LABEL_LONG_SCROLL, /*Expand the object size and scroll the text on the parent (move the label object)*/ LV_LABEL_LONG_DOT, /*Keep the size and write dots at the end if the text is too long*/ LV_LABEL_LONG_ROLL, /*Keep the size and roll the text infinitely*/ LV_LABEL_LONG_CROP, /*Keep the size and crop the text out of it*/ }; typedef uint8_t lv_label_long_mode_t; /*Label align policy*/ enum { LV_LABEL_ALIGN_LEFT, LV_LABEL_ALIGN_CENTER, LV_LABEL_ALIGN_RIGHT, }; typedef uint8_t lv_label_align_t; /*Data of label*/ typedef struct { /*Inherited from 'base_obj' so no inherited ext.*/ /*Ext. of ancestor*/ /*New data for this type */ char * text; /*Text of the label*/ lv_label_long_mode_t long_mode; /*Determinate what to do with the long texts*/ #if LV_TXT_UTF8 == 0 char dot_tmp[LV_LABEL_DOT_NUM + 1]; /*Store the character which are replaced by dots (Handled by the library)*/ #else char dot_tmp[LV_LABEL_DOT_NUM * 4 + 1]; /*Store the character which are replaced by dots (Handled by the library)*/ #endif #if USE_LV_MULTI_LANG uint16_t lang_txt_id; /*The ID of the text to display*/ #endif uint16_t dot_end; /*The text end position in dot mode (Handled by the library)*/ uint16_t anim_speed; /*Speed of scroll and roll animation in px/sec unit*/ lv_point_t offset; /*Text draw position offset*/ uint8_t static_txt :1; /*Flag to indicate the text is static*/ uint8_t align :2; /*Align type from 'lv_label_align_t'*/ uint8_t recolor :1; /*Enable in-line letter re-coloring*/ uint8_t expand :1; /*Ignore real width (used by the library with LV_LABEL_LONG_ROLL)*/ uint8_t body_draw :1; /*Draw background body*/ } lv_label_ext_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a label objects * @param par pointer to an object, it will be the parent of the new label * @param copy pointer to a button object, if not NULL then the new object will be copied from it * @return pointer to the created button */ lv_obj_t * lv_label_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set a new text for a label. Memory will be allocated to store the text by the label. * @param label pointer to a label object * @param text '\0' terminated character string. NULL to refresh with the current text. */ void lv_label_set_text(lv_obj_t * label, const char * text); /** * Set a new text for a label from a character array. The array don't has to be '\0' terminated. * Memory will be allocated to store the array by the label. * @param label pointer to a label object * @param array array of characters or NULL to refresh the label * @param size the size of 'array' in bytes */ void lv_label_set_array_text(lv_obj_t * label, const char * array, uint16_t size); /** * Set a static text. It will not be saved by the label so the 'text' variable * has to be 'alive' while the label exist. * @param label pointer to a label object * @param text pointer to a text. NULL to refresh with the current text. */ void lv_label_set_static_text(lv_obj_t * label, const char * text); /** *Set a text ID which means a the same text but on different languages * @param label pointer to a label object * @param txt_id ID of the text */ #if USE_LV_MULTI_LANG void lv_label_set_text_id(lv_obj_t * label, uint32_t txt_id); #endif /** * Set the behavior of the label with longer text then the object size * @param label pointer to a label object * @param long_mode the new mode from 'lv_label_long_mode' enum. * In LV_LONG_BREAK/LONG/ROLL the size of the label should be set AFTER this function */ void lv_label_set_long_mode(lv_obj_t * label, lv_label_long_mode_t long_mode); /** * Set the align of the label (left or center) * @param label pointer to a label object * @param align 'LV_LABEL_ALIGN_LEFT' or 'LV_LABEL_ALIGN_LEFT' */ void lv_label_set_align(lv_obj_t *label, lv_label_align_t align); /** * Enable the recoloring by in-line commands * @param label pointer to a label object * @param en true: enable recoloring, false: disable */ void lv_label_set_recolor(lv_obj_t * label, bool en); /** * Set the label to draw (or not draw) background specified in its style's body * @param label pointer to a label object * @param en true: draw body; false: don't draw body */ void lv_label_set_body_draw(lv_obj_t *label, bool en); /** * Set the label's animation speed in LV_LABEL_LONG_ROLL and SCROLL modes * @param label pointer to a label object * @param anim_speed speed of animation in px/sec unit */ void lv_label_set_anim_speed(lv_obj_t *label, uint16_t anim_speed); /** * Set the style of an label * @param label pointer to an label object * @param style pointer to a style */ static inline void lv_label_set_style(lv_obj_t *label, lv_style_t *style) { lv_obj_set_style(label, style); } /*===================== * Getter functions *====================*/ /** * Get the text of a label * @param label pointer to a label object * @return the text of the label */ char * lv_label_get_text(const lv_obj_t * label); #if USE_LV_MULTI_LANG /** * Get the text ID of the label. (Used by the multi-language feature) * @param label pointer to a label object * @return ID of the text */ uint16_t lv_label_get_text_id(lv_obj_t * label); #endif /** * Get the long mode of a label * @param label pointer to a label object * @return the long mode */ lv_label_long_mode_t lv_label_get_long_mode(const lv_obj_t * label); /** * Get the align attribute * @param label pointer to a label object * @return LV_LABEL_ALIGN_LEFT or LV_LABEL_ALIGN_CENTER */ lv_label_align_t lv_label_get_align(const lv_obj_t * label); /** * Get the recoloring attribute * @param label pointer to a label object * @return true: recoloring is enabled, false: disable */ bool lv_label_get_recolor(const lv_obj_t * label); /** * Get the body draw attribute * @param label pointer to a label object * @return true: draw body; false: don't draw body */ bool lv_label_get_body_draw(const lv_obj_t *label); /** * Get the label's animation speed in LV_LABEL_LONG_ROLL and SCROLL modes * @param label pointer to a label object * @return speed of animation in px/sec unit */ uint16_t lv_label_get_anim_speed(const lv_obj_t *label); /** * Get the relative x and y coordinates of a letter * @param label pointer to a label object * @param index index of the letter [0 ... text length]. Expressed in character index, not byte index (different in UTF-8) * @param pos store the result here (E.g. index = 0 gives 0;0 coordinates) */ void lv_label_get_letter_pos(const lv_obj_t * label, uint16_t index, lv_point_t * pos); /** * Get the index of letter on a relative point of a label * @param label pointer to label object * @param pos pointer to point with coordinates on a the label * @return the index of the letter on the 'pos_p' point (E.g. on 0;0 is the 0. letter) * Expressed in character index and not byte index (different in UTF-8) */ uint16_t lv_label_get_letter_on(const lv_obj_t * label, lv_point_t * pos); /** * Get the style of an label object * @param label pointer to an label object * @return pointer to the label's style */ static inline lv_style_t* lv_label_get_style(const lv_obj_t *label) { return lv_obj_get_style(label); } /*===================== * Other functions *====================*/ /** * Insert a text to the label. The label text can not be static. * @param label pointer to a label object * @param pos character index to insert. Expressed in character index and not byte index (Different in UTF-8) * 0: before first char. * LV_LABEL_POS_LAST: after last char. * @param txt pointer to the text to insert */ void lv_label_ins_text(lv_obj_t * label, uint32_t pos, const char * txt); /** * Delete characters from a label. The label text can not be static. * @param label pointer to a label object * @param pos character index to insert. Expressed in character index and not byte index (Different in UTF-8) * 0: before first char. * @param cnt number of characters to cut */ void lv_label_cut_text(lv_obj_t * label, uint32_t pos, uint32_t cnt); /********************** * MACROS **********************/ #endif /*USE_LV_LABEL*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_LABEL_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_led.c ================================================ /** * @file lv_led.c * */ /********************* * INCLUDES *********************/ #include "lv_led.h" #if USE_LV_LED != 0 #include "../lv_themes/lv_theme.h" #include "../lv_draw/lv_draw.h" /********************* * DEFINES *********************/ #define LV_LED_WIDTH_DEF (LV_DPI / 3) #define LV_LED_HEIGHT_DEF (LV_DPI / 3) #define LV_LED_BRIGHT_OFF 100 #define LV_LED_BRIGHT_ON 255 /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_led_design(lv_obj_t * led, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_led_signal(lv_obj_t * led, lv_signal_t sign, void * param); /********************** * STATIC VARIABLES **********************/ static lv_design_func_t ancestor_design_f; static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a led objects * @param par pointer to an object, it will be the parent of the new led * @param copy pointer to a led object, if not NULL then the new object will be copied from it * @return pointer to the created led */ lv_obj_t * lv_led_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("led create started"); /*Create the ancestor basic object*/ lv_obj_t * new_led = lv_obj_create(par, copy); lv_mem_assert(new_led); if(new_led == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_led); if(ancestor_design_f == NULL) ancestor_design_f = lv_obj_get_design_func(new_led); /*Allocate the object type specific extended data*/ lv_led_ext_t * ext = lv_obj_allocate_ext_attr(new_led, sizeof(lv_led_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->bright = LV_LED_BRIGHT_ON; lv_obj_set_signal_func(new_led, lv_led_signal); lv_obj_set_design_func(new_led, lv_led_design); /*Init the new led object*/ if(copy == NULL) { lv_obj_set_size(new_led, LV_LED_WIDTH_DEF, LV_LED_HEIGHT_DEF); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_led_set_style(new_led, th->led); } else { lv_led_set_style(new_led, &lv_style_pretty_color); } } /*Copy an existing object*/ else { lv_led_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->bright = copy_ext->bright; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_led); } LV_LOG_INFO("led created"); return new_led; } /*===================== * Setter functions *====================*/ /** * Set the brightness of a LED object * @param led pointer to a LED object * @param bright 0 (max. dark) ... 255 (max. light) */ void lv_led_set_bright(lv_obj_t * led, uint8_t bright) { /*Set the brightness*/ lv_led_ext_t * ext = lv_obj_get_ext_attr(led); if(ext->bright == bright) return; ext->bright = bright; /*Invalidate the object there fore it will be redrawn*/ lv_obj_invalidate(led); } /** * Light on a LED * @param led pointer to a LED object */ void lv_led_on(lv_obj_t * led) { lv_led_set_bright(led, LV_LED_BRIGHT_ON); } /** * Light off a LED * @param led pointer to a LED object */ void lv_led_off(lv_obj_t * led) { lv_led_set_bright(led, LV_LED_BRIGHT_OFF); } /** * Toggle the state of a LED * @param led pointer to a LED object */ void lv_led_toggle(lv_obj_t * led) { uint8_t bright = lv_led_get_bright(led); if(bright > (LV_LED_BRIGHT_OFF + LV_LED_BRIGHT_ON) >> 1) lv_led_off(led); else lv_led_on(led); } /*===================== * Getter functions *====================*/ /** * Get the brightness of a LEd object * @param led pointer to LED object * @return bright 0 (max. dark) ... 255 (max. light) */ uint8_t lv_led_get_bright(const lv_obj_t * led) { lv_led_ext_t * ext = lv_obj_get_ext_attr(led); return ext->bright; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the leds * @param led pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_led_design(lv_obj_t * led, const lv_area_t * mask, lv_design_mode_t mode) { if(mode == LV_DESIGN_COVER_CHK) { /*Return false if the object is not covers the mask area*/ return ancestor_design_f(led, mask, mode); } else if(mode == LV_DESIGN_DRAW_MAIN) { /*Make darker colors in a temporary style according to the brightness*/ lv_led_ext_t * ext = lv_obj_get_ext_attr(led); lv_style_t * style = lv_obj_get_style(led); /* Store the real pointer because of 'lv_group' * If the object is in focus 'lv_obj_get_style()' will give a pointer to tmp style * and to the real object style. It is important because of style change tricks below*/ lv_style_t * style_ori_p = led->style_p; /*Create a temporal style*/ lv_style_t leds_tmp; memcpy(&leds_tmp, style, sizeof(leds_tmp)); /*Mix. the color with black proportionally with brightness*/ leds_tmp.body.main_color = lv_color_mix(leds_tmp.body.main_color, LV_COLOR_BLACK, ext->bright); leds_tmp.body.grad_color = lv_color_mix(leds_tmp.body.grad_color, LV_COLOR_BLACK, ext->bright); leds_tmp.body.border.color = lv_color_mix(leds_tmp.body.border.color, LV_COLOR_BLACK, ext->bright); /*Set the current swidth according to brightness proportionally between LV_LED_BRIGHT_OFF and LV_LED_BRIGHT_ON*/ uint16_t bright_tmp = ext->bright; leds_tmp.body.shadow.width = ((bright_tmp - LV_LED_BRIGHT_OFF) * style->body.shadow.width) / (LV_LED_BRIGHT_ON - LV_LED_BRIGHT_OFF); led->style_p = &leds_tmp; ancestor_design_f(led, mask, mode); led->style_p = style_ori_p; /*Restore the ORIGINAL style pointer*/ } return true; } /** * Signal function of the led * @param led pointer to a led object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_led_signal(lv_obj_t * led, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(led, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_led"; } return res; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_led.h ================================================ /** * @file lv_led.h * */ #ifndef LV_LED_H #define LV_LED_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_LED != 0 #include "../lv_core/lv_obj.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of led*/ typedef struct { /*No inherited ext.*/ /*New data for this type */ uint8_t bright; /*Current brightness of the LED (0..255)*/ } lv_led_ext_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a led objects * @param par pointer to an object, it will be the parent of the new led * @param copy pointer to a led object, if not NULL then the new object will be copied from it * @return pointer to the created led */ lv_obj_t * lv_led_create(lv_obj_t * par, const lv_obj_t * copy); /** * Set the brightness of a LED object * @param led pointer to a LED object * @param bright 0 (max. dark) ... 255 (max. light) */ void lv_led_set_bright(lv_obj_t * led, uint8_t bright); /** * Light on a LED * @param led pointer to a LED object */ void lv_led_on(lv_obj_t * led); /** * Light off a LED * @param led pointer to a LED object */ void lv_led_off(lv_obj_t * led); /** * Toggle the state of a LED * @param led pointer to a LED object */ void lv_led_toggle(lv_obj_t * led); /** * Set the style of a led * @param led pointer to a led object * @param style pointer to a style */ static inline void lv_led_set_style(lv_obj_t *led, lv_style_t *style) { lv_obj_set_style(led, style); } /** * Get the brightness of a LEd object * @param led pointer to LED object * @return bright 0 (max. dark) ... 255 (max. light) */ uint8_t lv_led_get_bright(const lv_obj_t * led); /** * Get the style of an led object * @param led pointer to an led object * @return pointer to the led's style */ static inline lv_style_t* lv_led_get_style(const lv_obj_t *led) { return lv_obj_get_style(led); } /********************** * MACROS **********************/ #endif /*USE_LV_LED*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_LED_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_line.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_line.c * */ /********************* * INCLUDES *********************/ #include "lv_line.h" #if USE_LV_LINE != 0 #include "../lv_draw/lv_draw.h" #include "../lv_misc/lv_math.h" #include #include /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_line_design(lv_obj_t * line, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_line_signal(lv_obj_t * line, lv_signal_t sign, void * param); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a line objects * @param par pointer to an object, it will be the parent of the new line * @return pointer to the created line */ lv_obj_t * lv_line_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("line create started"); /*Create a basic object*/ lv_obj_t * new_line = lv_obj_create(par, copy); lv_mem_assert(new_line); if(new_line == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_line); /*Extend the basic object to line object*/ lv_line_ext_t * ext = lv_obj_allocate_ext_attr(new_line, sizeof(lv_line_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->point_num = 0; ext->point_array = NULL; ext->auto_size = 1; ext->y_inv = 0; lv_obj_set_design_func(new_line, lv_line_design); lv_obj_set_signal_func(new_line, lv_line_signal); /*Init the new line*/ if(copy == NULL) { lv_obj_set_size(new_line, LV_DPI, LV_DPI); /*Auto size is enables, but set default size until no points are added*/ lv_obj_set_style(new_line, NULL); /*Inherit parent's style*/ lv_obj_set_click(new_line, false); } /*Copy an existing object*/ else { lv_line_ext_t * copy_ext = lv_obj_get_ext_attr(copy); lv_line_set_auto_size(new_line, lv_line_get_auto_size(copy)); lv_line_set_y_invert(new_line, lv_line_get_y_invert(copy)); lv_line_set_auto_size(new_line, lv_line_get_auto_size(copy)); lv_line_set_points(new_line, copy_ext->point_array, copy_ext->point_num); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_line); } LV_LOG_INFO("line created"); return new_line; } /*===================== * Setter functions *====================*/ /** * Set an array of points. The line object will connect these points. * @param line pointer to a line object * @param point_a an array of points. Only the address is saved, * so the array can NOT be a local variable which will be destroyed * @param point_num number of points in 'point_a' */ void lv_line_set_points(lv_obj_t * line, const lv_point_t * point_a, uint16_t point_num) { lv_line_ext_t * ext = lv_obj_get_ext_attr(line); ext->point_array = point_a; ext->point_num = point_num; if(point_num > 0 && ext->auto_size != 0) { uint16_t i; lv_coord_t xmax = LV_COORD_MIN; lv_coord_t ymax = LV_COORD_MIN; for(i = 0; i < point_num; i++) { xmax = LV_MATH_MAX(point_a[i].x, xmax); ymax = LV_MATH_MAX(point_a[i].y, ymax); } lv_style_t * style = lv_line_get_style(line); lv_obj_set_size(line, xmax + style->line.width, ymax + style->line.width); } lv_obj_invalidate(line); } /** * Enable (or disable) the auto-size option. The size of the object will fit to its points. * (set width to x max and height to y max) * @param line pointer to a line object * @param en true: auto size is enabled, false: auto size is disabled */ void lv_line_set_auto_size(lv_obj_t * line, bool en) { lv_line_ext_t * ext = lv_obj_get_ext_attr(line); if(ext->auto_size == en) return; ext->auto_size = en == false ? 0 : 1; /*Refresh the object*/ if(en) lv_line_set_points(line, ext->point_array, ext->point_num); } /** * Enable (or disable) the y coordinate inversion. * If enabled then y will be subtracted from the height of the object, * therefore the y=0 coordinate will be on the bottom. * @param line pointer to a line object * @param en true: enable the y inversion, false:disable the y inversion */ void lv_line_set_y_invert(lv_obj_t * line, bool en) { lv_line_ext_t * ext = lv_obj_get_ext_attr(line); if(ext->y_inv == en) return; ext->y_inv = en == false ? 0 : 1; lv_obj_invalidate(line); } /*===================== * Getter functions *====================*/ /** * Get the auto size attribute * @param line pointer to a line object * @return true: auto size is enabled, false: disabled */ bool lv_line_get_auto_size(const lv_obj_t * line) { lv_line_ext_t * ext = lv_obj_get_ext_attr(line); return ext->auto_size == 0 ? false : true; } /** * Get the y inversion attribute * @param line pointer to a line object * @return true: y inversion is enabled, false: disabled */ bool lv_line_get_y_invert(const lv_obj_t * line) { lv_line_ext_t * ext = lv_obj_get_ext_attr(line); return ext->y_inv == 0 ? false : true; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the lines * @param line pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_line_design(lv_obj_t * line, const lv_area_t * mask, lv_design_mode_t mode) { /*A line never covers an area*/ if(mode == LV_DESIGN_COVER_CHK) return false; else if(mode == LV_DESIGN_DRAW_MAIN) { lv_line_ext_t * ext = lv_obj_get_ext_attr(line); if(ext->point_num == 0 || ext->point_array == NULL) return false; lv_style_t * style = lv_obj_get_style(line); lv_opa_t opa_scale = lv_obj_get_opa_scale(line); lv_area_t area; lv_obj_get_coords(line, &area); lv_coord_t x_ofs = area.x1; lv_coord_t y_ofs = area.y1; lv_point_t p1; lv_point_t p2; lv_coord_t h = lv_obj_get_height(line); uint16_t i; lv_style_t circle_style; /*If rounded...*/ lv_style_copy(&circle_style, style); circle_style.body.radius = LV_RADIUS_CIRCLE; circle_style.body.main_color = style->line.color; circle_style.body.grad_color = style->line.color; circle_style.body.opa = style->line.opa; lv_area_t circle_area; /*Read all points and draw the lines*/ for(i = 0; i < ext->point_num - 1; i++) { p1.x = ext->point_array[i].x + x_ofs; p2.x = ext->point_array[i + 1].x + x_ofs; if(ext->y_inv == 0) { p1.y = ext->point_array[i].y + y_ofs; p2.y = ext->point_array[i + 1].y + y_ofs; } else { p1.y = h - ext->point_array[i].y + y_ofs; p2.y = h - ext->point_array[i + 1].y + y_ofs; } lv_draw_line(&p1, &p2, mask, style, opa_scale); /*Draw circle on the joints if enabled*/ if(style->line.rounded) { circle_area.x1 = p1.x - ((style->line.width - 1) >> 1) - ((style->line.width - 1) & 0x1); circle_area.y1 = p1.y - ((style->line.width - 1) >> 1) - ((style->line.width - 1) & 0x1); circle_area.x2 = p1.x + ((style->line.width - 1) >> 1); circle_area.y2 = p1.y + ((style->line.width - 1) >> 1); lv_draw_rect(&circle_area, mask, &circle_style, opa_scale); } } /*Draw circle on the last point too if enabled*/ if(style->line.rounded) { circle_area.x1 = p2.x - ((style->line.width - 1) >> 1) - ((style->line.width - 1) & 0x1); circle_area.y1 = p2.y - ((style->line.width - 1) >> 1) - ((style->line.width - 1) & 0x1); circle_area.x2 = p2.x + ((style->line.width - 1) >> 1); circle_area.y2 = p2.y + ((style->line.width - 1) >> 1); lv_draw_rect(&circle_area, mask, &circle_style, opa_scale); } } return true; } /** * Signal function of the line * @param line pointer to a line object * @param sign a signal type from lv_signal_t enum * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_line_signal(lv_obj_t * line, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(line, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_line"; } else if(sign == LV_SIGNAL_REFR_EXT_SIZE) { lv_style_t * style = lv_line_get_style(line); if(line->ext_size < style->line.width) line->ext_size = style->line.width; } return res; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_line.h ================================================ /** * @file lv_line.h * */ #ifndef LV_LINE_H #define LV_LINE_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_LINE != 0 #include "../lv_core/lv_obj.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of line*/ typedef struct { /*Inherited from 'base_obj' so no inherited ext.*/ /*Ext. of ancestor*/ const lv_point_t * point_array; /*Pointer to an array with the points of the line*/ uint16_t point_num; /*Number of points in 'point_array' */ uint8_t auto_size :1; /*1: set obj. width to x max and obj. height to y max */ uint8_t y_inv :1; /*1: y == 0 will be on the bottom*/ } lv_line_ext_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a line objects * @param par pointer to an object, it will be the parent of the new line * @return pointer to the created line */ lv_obj_t * lv_line_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set an array of points. The line object will connect these points. * @param line pointer to a line object * @param point_a an array of points. Only the address is saved, * so the array can NOT be a local variable which will be destroyed * @param point_num number of points in 'point_a' */ void lv_line_set_points(lv_obj_t * line, const lv_point_t * point_a, uint16_t point_num); /** * Enable (or disable) the auto-size option. The size of the object will fit to its points. * (set width to x max and height to y max) * @param line pointer to a line object * @param en true: auto size is enabled, false: auto size is disabled */ void lv_line_set_auto_size(lv_obj_t * line, bool en); /** * Enable (or disable) the y coordinate inversion. * If enabled then y will be subtracted from the height of the object, * therefore the y=0 coordinate will be on the bottom. * @param line pointer to a line object * @param en true: enable the y inversion, false:disable the y inversion */ void lv_line_set_y_invert(lv_obj_t * line, bool en); #define lv_line_set_y_inv lv_line_set_y_invert /*The name was inconsistent. In v.6.0 only `lv_line_set_y_invert`will work */ /** * Set the style of a line * @param line pointer to a line object * @param style pointer to a style */ static inline void lv_line_set_style(lv_obj_t *line, lv_style_t *style) { lv_obj_set_style(line, style); } /** * Obsolete since v5.1. Just for compatibility with v5.0. Will be removed in v6.0 * @param line - * @param upscale - */ static inline void lv_line_set_upscale(lv_obj_t * line, bool upcale) { (void) line; (void) upcale; } /*===================== * Getter functions *====================*/ /** * Get the auto size attribute * @param line pointer to a line object * @return true: auto size is enabled, false: disabled */ bool lv_line_get_auto_size(const lv_obj_t * line); /** * Get the y inversion attribute * @param line pointer to a line object * @return true: y inversion is enabled, false: disabled */ bool lv_line_get_y_invert(const lv_obj_t * line); /** * Get the style of an line object * @param line pointer to an line object * @return pointer to the line's style */ static inline lv_style_t* lv_line_get_style(const lv_obj_t *line) { return lv_obj_get_style(line); } /** * Obsolete since v5.1. Just for compatibility with v5.0. Will be removed in v6.0 * @param line - * @return false */ static inline bool lv_line_get_upscale(const lv_obj_t * line) { (void) line; return false; } /********************** * MACROS **********************/ #endif /*USE_LV_LINE*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_LINE_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_list.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_list.c * */ /********************* * INCLUDES *********************/ #include "lv_list.h" #if USE_LV_LIST != 0 #include "../lv_core/lv_group.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_anim.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ #define LV_LIST_LAYOUT_DEF LV_LAYOUT_COL_M #if USE_LV_ANIMATION # ifndef LV_LIST_FOCUS_TIME # define LV_LIST_FOCUS_TIME 100 /*Animation time of focusing to the a list element [ms] (0: no animation) */ # endif #else # undef LV_LIST_FOCUS_TIME # define LV_LIST_FOCUS_TIME 0 /*No animations*/ #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_list_signal(lv_obj_t * list, lv_signal_t sign, void * param); static lv_res_t lv_list_btn_signal(lv_obj_t * btn, lv_signal_t sign, void * param); static void refr_btn_width(lv_obj_t * list); static void lv_list_btn_single_selected(lv_obj_t *btn); static bool lv_list_is_list_btn(lv_obj_t * list_btn); static bool lv_list_is_list_img(lv_obj_t * list_btn); static bool lv_list_is_list_label(lv_obj_t * list_btn); /********************** * STATIC VARIABLES **********************/ #if USE_LV_IMG static lv_signal_func_t img_signal; #endif static lv_signal_func_t label_signal; static lv_signal_func_t ancestor_page_signal; static lv_signal_func_t ancestor_btn_signal; #if USE_LV_GROUP /*Used to make the last clicked button pressed (selected) when the list become focused and `click_focus == 1`*/ static lv_obj_t * last_clicked_btn; #endif /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a list objects * @param par pointer to an object, it will be the parent of the new list * @param copy pointer to a list object, if not NULL then the new object will be copied from it * @return pointer to the created list */ lv_obj_t * lv_list_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("list create started"); /*Create the ancestor basic object*/ lv_obj_t * new_list = lv_page_create(par, copy); lv_mem_assert(new_list); if(new_list == NULL) return NULL; if(ancestor_page_signal == NULL) ancestor_page_signal = lv_obj_get_signal_func(new_list); lv_list_ext_t * ext = lv_obj_allocate_ext_attr(new_list, sizeof(lv_list_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; // Important! static lv_style_t img_btn_color; lv_style_copy( &img_btn_color, &lv_style_plain); img_btn_color.image.color = LV_COLOR_HEX(0xDDDDDD); img_btn_color.image.intense = LV_OPA_50; ext->style_img = &img_btn_color; ext->styles_btn[LV_BTN_STATE_REL] = &lv_style_btn_rel; ext->styles_btn[LV_BTN_STATE_PR] = &lv_style_btn_pr; ext->styles_btn[LV_BTN_STATE_TGL_REL] = &lv_style_btn_tgl_rel; ext->styles_btn[LV_BTN_STATE_TGL_PR] = &lv_style_btn_tgl_pr; ext->styles_btn[LV_BTN_STATE_INA] = &lv_style_btn_ina; ext->anim_time = LV_LIST_FOCUS_TIME; ext->single_mode = false; ext->size = 0; #if USE_LV_GROUP ext->last_sel = NULL; ext->selected_btn = NULL; #endif lv_obj_set_signal_func(new_list, lv_list_signal); /*Init the new list object*/ if(copy == NULL) { lv_obj_set_size(new_list, 2 * LV_DPI, 3 * LV_DPI); lv_page_set_scrl_layout(new_list, LV_LIST_LAYOUT_DEF); lv_list_set_sb_mode(new_list, LV_SB_MODE_DRAG); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_list_set_style(new_list, LV_LIST_STYLE_BG, th->list.bg); lv_list_set_style(new_list, LV_LIST_STYLE_SCRL, th->list.scrl); lv_list_set_style(new_list, LV_LIST_STYLE_SB, th->list.sb); lv_list_set_style(new_list, LV_LIST_STYLE_BTN_REL, th->list.btn.rel); lv_list_set_style(new_list, LV_LIST_STYLE_BTN_PR, th->list.btn.pr); lv_list_set_style(new_list, LV_LIST_STYLE_BTN_TGL_REL, th->list.btn.tgl_rel); lv_list_set_style(new_list, LV_LIST_STYLE_BTN_TGL_PR, th->list.btn.tgl_pr); lv_list_set_style(new_list, LV_LIST_STYLE_BTN_INA, th->list.btn.ina); } else { lv_list_set_style(new_list, LV_LIST_STYLE_BG, &lv_style_transp_fit); lv_list_set_style(new_list, LV_LIST_STYLE_SCRL, &lv_style_pretty); } } else { lv_list_ext_t * copy_ext = lv_obj_get_ext_attr(copy); lv_obj_t * copy_btn = lv_list_get_next_btn(copy, NULL); while(copy_btn) { const void * img_src = NULL; #if USE_LV_IMG lv_obj_t * copy_img = lv_list_get_btn_img(copy_btn); if(copy_img) img_src = lv_img_get_src(copy_img); #endif lv_list_add(new_list, img_src, lv_list_get_btn_text(copy_btn), lv_btn_get_action(copy_btn, LV_BTN_ACTION_CLICK)); copy_btn = lv_list_get_next_btn(copy, copy_btn); } lv_list_set_style(new_list, LV_LIST_STYLE_BTN_REL, copy_ext->styles_btn[LV_BTN_STATE_REL]); lv_list_set_style(new_list, LV_LIST_STYLE_BTN_PR, copy_ext->styles_btn[LV_BTN_STATE_PR]); lv_list_set_style(new_list, LV_LIST_STYLE_BTN_TGL_REL, copy_ext->styles_btn[LV_BTN_STATE_TGL_REL]); lv_list_set_style(new_list, LV_LIST_STYLE_BTN_TGL_PR, copy_ext->styles_btn[LV_BTN_STATE_TGL_REL]); lv_list_set_style(new_list, LV_LIST_STYLE_BTN_INA, copy_ext->styles_btn[LV_BTN_STATE_INA]); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_list); } LV_LOG_INFO("list created"); return new_list; } /** * Delete all children of the scrl object, without deleting scrl child. * @param obj pointer to an object */ void lv_list_clean(lv_obj_t * obj) { lv_obj_t * scrl = lv_page_get_scrl(obj); lv_obj_clean(scrl); lv_list_ext_t * ext = lv_obj_get_ext_attr(obj); ext->size = 0; } /*====================== * Add/remove functions *=====================*/ /** * Add a list element to the list * @param list pointer to list object * @param img_fn file name of an image before the text (NULL if unused) * @param txt text of the list element (NULL if unused) * @param rel_action pointer to release action function (like with lv_btn) * @return pointer to the new list element which can be customized (a button) */ lv_obj_t * lv_list_add(lv_obj_t * list, const void * img_src, const char * txt, lv_action_t rel_action) { lv_style_t * style = lv_obj_get_style(list); lv_list_ext_t * ext = lv_obj_get_ext_attr(list); ext->size ++; /*Create a list element with the image an the text*/ lv_obj_t * liste; liste = lv_btn_create(list, NULL); /*Save the original signal function because it will be required in `lv_list_btn_signal`*/ if(ancestor_btn_signal == NULL) ancestor_btn_signal = lv_obj_get_signal_func(liste); /*Set the default styles*/ lv_btn_set_style(liste, LV_BTN_STYLE_REL, ext->styles_btn[LV_BTN_STATE_REL]); lv_btn_set_style(liste, LV_BTN_STYLE_PR, ext->styles_btn[LV_BTN_STATE_PR]); lv_btn_set_style(liste, LV_BTN_STYLE_TGL_REL, ext->styles_btn[LV_BTN_STATE_TGL_REL]); lv_btn_set_style(liste, LV_BTN_STYLE_TGL_PR, ext->styles_btn[LV_BTN_STATE_TGL_PR]); lv_btn_set_style(liste, LV_BTN_STYLE_INA, ext->styles_btn[LV_BTN_STATE_INA]); lv_btn_set_action(liste, LV_BTN_ACTION_CLICK, rel_action); lv_page_glue_obj(liste, true); lv_btn_set_layout(liste, LV_LAYOUT_ROW_M); lv_btn_set_fit(liste, false, true); lv_obj_set_protect(liste, LV_PROTECT_PRESS_LOST); lv_obj_set_signal_func(liste, lv_list_btn_signal); /*Make the size adjustment*/ lv_coord_t w = lv_obj_get_width(list); lv_style_t * style_scrl = lv_obj_get_style(lv_page_get_scrl(list)); lv_coord_t pad_hor_tot = style->body.padding.hor + style_scrl->body.padding.hor; w -= pad_hor_tot * 2; lv_obj_set_width(liste, w); #if USE_LV_IMG != 0 lv_obj_t * img = NULL; if(img_src) { img = lv_img_create(liste, NULL); lv_img_set_src(img, img_src); lv_obj_set_style(img, ext->style_img); lv_obj_set_click(img, false); if(img_signal == NULL) img_signal = lv_obj_get_signal_func(img); } #endif if(txt != NULL) { lv_coord_t btn_hor_pad = ext->styles_btn[LV_BTN_STYLE_REL]->body.padding.hor; lv_obj_t * label = lv_label_create(liste, NULL); lv_label_set_text(label, txt); lv_obj_set_click(label, false); lv_label_set_long_mode(label, LV_LABEL_LONG_ROLL); lv_obj_set_width(label, liste->coords.x2 - label->coords.x1 - btn_hor_pad); if(label_signal == NULL) label_signal = lv_obj_get_signal_func(label); } #if USE_LV_GROUP /* If this is the first item to be added to the list and the list is * focussed, select it */ { lv_group_t *g = lv_obj_get_group(list); if(ext->size == 1 && lv_group_get_focused(g) == list) { lv_list_set_btn_selected(list, liste); } } #endif return liste; } /** * Remove the index of the button in the list * @param list pointer to a list object * @param index pointer to a the button's index in the list, index must be 0 <= index < lv_list_ext_t.size * @return true: successfully deleted */ bool lv_list_remove(const lv_obj_t * list, uint32_t index) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); if(index >= ext->size) return false; uint32_t count = 0; lv_obj_t * e = lv_list_get_next_btn(list, NULL); while(e != NULL) { if(count == index) { lv_obj_del(e); ext->size --; return true; } e = lv_list_get_next_btn(list, e); count ++; } return false; } /*===================== * Setter functions *====================*/ /** * Set single button selected mode, only one button will be selected if enabled. * @param list pointer to the currently pressed list object * @param mode, enable(true)/disable(false) single selected mode. */ void lv_list_set_single_mode(lv_obj_t *list, bool mode) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); ext->single_mode = mode; } #if USE_LV_GROUP /** * Make a button selected * @param list pointer to a list object * @param btn pointer to a button to selectthe */ void lv_list_set_btn_selected(lv_obj_t * list, lv_obj_t * btn) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); if(ext->selected_btn) { lv_btn_state_t s = lv_btn_get_state(ext->selected_btn); if(s == LV_BTN_STATE_PR) lv_btn_set_state(ext->selected_btn, LV_BTN_STATE_REL); else if(s == LV_BTN_STATE_TGL_PR) lv_btn_set_state(ext->selected_btn, LV_BTN_STATE_TGL_REL); } ext->selected_btn = btn; if( btn != NULL ) { ext->last_sel = btn; } if(ext->selected_btn) { lv_btn_state_t s = lv_btn_get_state(ext->selected_btn); if(s == LV_BTN_STATE_REL) lv_btn_set_state(ext->selected_btn, LV_BTN_STATE_PR); else if(s == LV_BTN_STATE_TGL_REL) lv_btn_set_state(ext->selected_btn, LV_BTN_STATE_TGL_PR); lv_page_focus(list, ext->selected_btn, ext->anim_time); } } #endif /** * Set scroll animation duration on 'list_up()' 'list_down()' 'list_focus()' * @param list pointer to a list object * @param anim_time duration of animation [ms] */ void lv_list_set_anim_time(lv_obj_t * list, uint16_t anim_time) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); #if USE_LV_ANIMATION == 0 anim_time = 0; #endif if(ext->anim_time == anim_time) return; ext->anim_time = anim_time; } /** * Set a style of a list * @param list pointer to a list object * @param type which style should be set * @param style pointer to a style */ void lv_list_set_style(lv_obj_t * list, lv_list_style_t type, lv_style_t * style) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); lv_btn_style_t btn_style_refr = LV_BTN_STYLE_REL; lv_obj_t * btn; switch(type) { case LV_LIST_STYLE_BG: lv_page_set_style(list, LV_PAGE_STYLE_BG, style); /*style change signal will call 'refr_btn_width' */ break; case LV_LIST_STYLE_SCRL: lv_page_set_style(list, LV_PAGE_STYLE_SCRL, style); refr_btn_width(list); break; case LV_LIST_STYLE_SB: lv_page_set_style(list, LV_PAGE_STYLE_SB, style); break; case LV_LIST_STYLE_EDGE_FLASH: lv_page_set_style(list, LV_PAGE_STYLE_EDGE_FLASH, style); break; case LV_LIST_STYLE_BTN_REL: ext->styles_btn[LV_BTN_STATE_REL] = style; btn_style_refr = LV_BTN_STYLE_REL; break; case LV_LIST_STYLE_BTN_PR: ext->styles_btn[LV_BTN_STATE_PR] = style; btn_style_refr = LV_BTN_STYLE_PR; break; case LV_LIST_STYLE_BTN_TGL_REL: ext->styles_btn[LV_BTN_STATE_TGL_REL] = style; btn_style_refr = LV_BTN_STYLE_TGL_REL; break; case LV_LIST_STYLE_BTN_TGL_PR: ext->styles_btn[LV_BTN_STATE_TGL_PR] = style; btn_style_refr = LV_BTN_STYLE_TGL_PR; break; case LV_LIST_STYLE_BTN_INA: ext->styles_btn[LV_BTN_STATE_INA] = style; btn_style_refr = LV_BTN_STYLE_INA; break; } /*Refresh existing buttons' style*/ if(type == LV_LIST_STYLE_BTN_PR || type == LV_LIST_STYLE_BTN_REL || type == LV_LIST_STYLE_BTN_TGL_REL || type == LV_LIST_STYLE_BTN_TGL_PR || type == LV_LIST_STYLE_BTN_INA) { btn = lv_list_get_prev_btn(list, NULL); while(btn != NULL) { lv_btn_set_style(btn, btn_style_refr, ext->styles_btn[btn_style_refr]); btn = lv_list_get_prev_btn(list, btn); } } } /*===================== * Getter functions *====================*/ /** * Get single button selected mode. * @param list pointer to the currently pressed list object. */ bool lv_list_get_single_mode(lv_obj_t *list) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); return (ext->single_mode); } /** * Get the text of a list element * @param btn pointer to list element * @return pointer to the text */ const char * lv_list_get_btn_text(const lv_obj_t * btn) { lv_obj_t * label = lv_list_get_btn_label(btn); if(label == NULL) return ""; return lv_label_get_text(label); } /** * Get the label object from a list element * @param btn pointer to a list element (button) * @return pointer to the label from the list element or NULL if not found */ lv_obj_t * lv_list_get_btn_label(const lv_obj_t * btn) { lv_obj_t * label = lv_obj_get_child(btn, NULL); if(label == NULL) return NULL; while(lv_list_is_list_label(label) == false) { label = lv_obj_get_child(btn, label); if(label == NULL) break; } return label; } /** * Get the image object from a list element * @param btn pointer to a list element (button) * @return pointer to the image from the list element or NULL if not found */ lv_obj_t * lv_list_get_btn_img(const lv_obj_t * btn) { #if USE_LV_IMG != 0 lv_obj_t * img = lv_obj_get_child(btn, NULL); if(img == NULL) return NULL; while(lv_list_is_list_img(img) == false) { img = lv_obj_get_child(btn, img); if(img == NULL) break; } return img; #else return NULL; #endif } /** * Get the previous button from list. (Starts from the top button) * @param list pointer to a list object * @param prev_btn pointer to button. Search the previous before it. * @return pointer to the previous button or NULL when no more buttons */ lv_obj_t * lv_list_get_prev_btn(const lv_obj_t * list, lv_obj_t * prev_btn) { /* Not a good practice but user can add/create objects to the lists manually. * When getting the next button try to be sure that it is at least a button */ lv_obj_t * btn ; lv_obj_t * scrl = lv_page_get_scrl(list); btn = lv_obj_get_child(scrl, prev_btn); if(btn == NULL) return NULL; while(lv_list_is_list_btn(btn) == false) { btn = lv_obj_get_child(scrl, btn); if(btn == NULL) break; } return btn; } /** * Get the next button from list. (Starts from the bottom button) * @param list pointer to a list object * @param prev_btn pointer to button. Search the next after it. * @return pointer to the next button or NULL when no more buttons */ lv_obj_t * lv_list_get_next_btn(const lv_obj_t * list, lv_obj_t * prev_btn) { /* Not a good practice but user can add/create objects to the lists manually. * When getting the next button try to be sure that it is at least a button */ lv_obj_t * btn ; lv_obj_t * scrl = lv_page_get_scrl(list); btn = lv_obj_get_child_back(scrl, prev_btn); if(btn == NULL) return NULL; while(lv_list_is_list_btn(btn) == false) { btn = lv_obj_get_child_back(scrl, btn); if(btn == NULL) break; } return btn; } /** * Get the index of the button in the list * @param list pointer to a list object. If NULL, assumes btn is part of a list. * @param btn pointer to a list element (button) * @return the index of the button in the list, or -1 of the button not in this list */ int32_t lv_list_get_btn_index(const lv_obj_t * list, const lv_obj_t * btn) { int index = 0; if( list == NULL ){ /* no list provided, assuming btn is part of a list */ list = lv_obj_get_parent(lv_obj_get_parent(btn)); } lv_obj_t * e = lv_list_get_next_btn(list, NULL); while(e != NULL) { if(e == btn) { return index; } index ++; e = lv_list_get_next_btn(list, e); } return -1; } /** * Get the number of buttons in the list * @param list pointer to a list object * @return the number of buttons in the list */ uint32_t lv_list_get_size(const lv_obj_t * list) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); return ext->size; } #if USE_LV_GROUP /** * Get the currently selected button * @param list pointer to a list object * @return pointer to the selected button */ lv_obj_t * lv_list_get_btn_selected(const lv_obj_t * list) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); return ext->selected_btn; } #endif /** * Get scroll animation duration * @param list pointer to a list object * @return duration of animation [ms] */ uint16_t lv_list_get_anim_time(const lv_obj_t * list) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); return ext->anim_time; } /** * Get a style of a list * @param list pointer to a list object * @param type which style should be get * @return style pointer to a style * */ lv_style_t * lv_list_get_style(const lv_obj_t * list, lv_list_style_t type) { lv_style_t * style = NULL; lv_list_ext_t * ext = lv_obj_get_ext_attr(list); switch(type) { case LV_LIST_STYLE_BG: style = lv_page_get_style(list, LV_PAGE_STYLE_BG); break; case LV_LIST_STYLE_SCRL: style = lv_page_get_style(list, LV_PAGE_STYLE_SB); break; case LV_LIST_STYLE_SB: style = lv_page_get_style(list, LV_PAGE_STYLE_SCRL); break; case LV_LIST_STYLE_EDGE_FLASH: style = lv_page_get_style(list, LV_PAGE_STYLE_EDGE_FLASH); break; case LV_LIST_STYLE_BTN_REL: style = ext->styles_btn[LV_BTN_STATE_REL]; break; case LV_LIST_STYLE_BTN_PR: style = ext->styles_btn[LV_BTN_STATE_PR]; break; case LV_LIST_STYLE_BTN_TGL_REL: style = ext->styles_btn[LV_BTN_STATE_TGL_REL]; break; case LV_LIST_STYLE_BTN_TGL_PR: style = ext->styles_btn[LV_BTN_STATE_TGL_PR]; break; case LV_LIST_STYLE_BTN_INA: style = ext->styles_btn[LV_BTN_STATE_INA]; break; default: style = NULL; break; } return style; } /*===================== * Other functions *====================*/ /** * Move the list elements up by one * @param list pointer a to list object */ void lv_list_up(const lv_obj_t * list) { /*Search the first list element which 'y' coordinate is below the parent * and position the list to show this element on the bottom*/ lv_obj_t * scrl = lv_page_get_scrl(list); lv_obj_t * e; lv_obj_t * e_prev = NULL; e = lv_list_get_prev_btn(list, NULL); while(e != NULL) { if(e->coords.y2 <= list->coords.y2) { if(e_prev != NULL) { lv_coord_t new_y = lv_obj_get_height(list) - (lv_obj_get_y(e_prev) + lv_obj_get_height(e_prev)); lv_list_ext_t * ext = lv_obj_get_ext_attr(list); if(ext->anim_time == 0) { lv_obj_set_y(scrl, new_y); } else { #if USE_LV_ANIMATION lv_anim_t a; a.var = scrl; a.start = lv_obj_get_y(scrl); a.end = new_y; a.fp = (lv_anim_fp_t)lv_obj_set_y; a.path = lv_anim_path_linear; a.end_cb = NULL; a.act_time = 0; a.time = LV_LIST_FOCUS_TIME; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); #endif } } break; } e_prev = e; e = lv_list_get_prev_btn(list, e); } } /** * Move the list elements down by one * @param list pointer to a list object */ void lv_list_down(const lv_obj_t * list) { /*Search the first list element which 'y' coordinate is above the parent * and position the list to show this element on the top*/ lv_obj_t * scrl = lv_page_get_scrl(list); lv_obj_t * e; e = lv_list_get_prev_btn(list, NULL); while(e != NULL) { if(e->coords.y1 < list->coords.y1) { lv_coord_t new_y = -lv_obj_get_y(e); lv_list_ext_t * ext = lv_obj_get_ext_attr(list); if(ext->anim_time == 0) { lv_obj_set_y(scrl, new_y); } else { #if USE_LV_ANIMATION lv_anim_t a; a.var = scrl; a.start = lv_obj_get_y(scrl); a.end = new_y; a.fp = (lv_anim_fp_t)lv_obj_set_y; a.path = lv_anim_path_linear; a.end_cb = NULL; a.act_time = 0; a.time = LV_LIST_FOCUS_TIME; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); #endif } break; } e = lv_list_get_prev_btn(list, e); } } /** * Focus on a list button. It ensures that the button will be visible on the list. * @param btn pointer to a list button to focus * @param anim_en true: scroll with animation, false: without animation */ void lv_list_focus(const lv_obj_t * btn, bool anim_en) { #if USE_LV_ANIMATION == 0 anim_en = false; #endif lv_obj_t * list = lv_obj_get_parent(lv_obj_get_parent(btn)); lv_page_focus(list, btn, anim_en == false ? 0 : lv_list_get_anim_time(list)); } /********************** * STATIC FUNCTIONS **********************/ /** * Signal function of the list * @param list pointer to a list object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_list_signal(lv_obj_t * list, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_page_signal(list, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_CORD_CHG) { /*Be sure the width of the buttons are correct*/ lv_coord_t w = lv_obj_get_width(list); if(w != lv_area_get_width(param)) { /*Width changed*/ refr_btn_width(list); } } else if(sign == LV_SIGNAL_STYLE_CHG) { /*Because of the possible change of horizontal and vertical padding refresh buttons width */ refr_btn_width(list); } else if(sign == LV_SIGNAL_FOCUS) { #if USE_LV_GROUP lv_hal_indev_type_t indev_type = lv_indev_get_type(lv_indev_get_act()); /*With ENCODER select the first button only in edit mode*/ if(indev_type == LV_INDEV_TYPE_ENCODER) { lv_group_t * g = lv_obj_get_group(list); if(lv_group_get_editing(g)) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); if(ext->last_sel) { /* Select the last used button */ lv_list_set_btn_selected(list, ext->last_sel); } else { /*Get the first button and mark it as selected*/ lv_list_set_btn_selected(list, lv_list_get_next_btn(list, NULL)); } } else { lv_list_set_btn_selected(list, NULL); } } /*Else select the clicked button*/ else { /*Mark the last clicked button (if any) as selected because it triggered the focus*/ if(last_clicked_btn) { lv_list_set_btn_selected(list, last_clicked_btn); } else { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); if(ext->last_sel) { /* Select the last used button */ lv_list_set_btn_selected(list, ext->last_sel); } else { /*Get the first button and mark it as selected*/ lv_list_set_btn_selected(list, lv_list_get_next_btn(list, NULL)); } } } #endif } else if(sign == LV_SIGNAL_DEFOCUS) { #if USE_LV_GROUP /*De-select the selected btn*/ lv_list_set_btn_selected(list, NULL); last_clicked_btn = NULL; /*button click will be set if click happens before focus*/ lv_list_ext_t * ext = lv_obj_get_ext_attr(list); ext->selected_btn = NULL; #endif } else if(sign == LV_SIGNAL_GET_EDITABLE) { bool * editable = (bool *)param; *editable = true; } else if(sign == LV_SIGNAL_CONTROLL) { #if USE_LV_GROUP char c = *((char *)param); if(c == LV_GROUP_KEY_RIGHT || c == LV_GROUP_KEY_DOWN) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); /*If there is a valid selected button the make the previous selected*/ if(ext->selected_btn) { lv_obj_t * btn_prev = lv_list_get_next_btn(list, ext->selected_btn); if(btn_prev) lv_list_set_btn_selected(list, btn_prev); } /*If there is no selected button the make the first selected*/ else { lv_obj_t * btn = lv_list_get_next_btn(list, NULL); if(btn) lv_list_set_btn_selected(list, btn); /*If there are no buttons on the list then there is no first button*/ } } else if(c == LV_GROUP_KEY_LEFT || c == LV_GROUP_KEY_UP) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); /*If there is a valid selected button the make the next selected*/ if(ext->selected_btn != NULL) { lv_obj_t * btn_next = lv_list_get_prev_btn(list, ext->selected_btn); if(btn_next) lv_list_set_btn_selected(list, btn_next); } /*If there is no selected button the make the first selected*/ else { lv_obj_t * btn = lv_list_get_next_btn(list, NULL); if(btn) lv_list_set_btn_selected(list, btn); } } else if(c == LV_GROUP_KEY_ENTER) { /*Get the 'pressed' button*/ lv_obj_t * btn = NULL; btn = lv_list_get_prev_btn(list, btn); while(btn != NULL) { if(lv_btn_get_state(btn) == LV_BTN_STATE_PR) break; btn = lv_list_get_prev_btn(list, btn); } if(btn != NULL) { lv_list_ext_t * ext = lv_obj_get_ext_attr(list); ext->last_sel = btn; lv_action_t rel_action; rel_action = lv_btn_get_action(btn, LV_BTN_ACTION_CLICK); if(rel_action != NULL) rel_action(btn); } } #endif } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_list"; } return res; } /** * Signal function of the list buttons * @param btn pointer to a button on the list * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_list_btn_signal(lv_obj_t * btn, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_btn_signal(btn, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_RELEASED) { lv_obj_t * list = lv_obj_get_parent(lv_obj_get_parent(btn)); lv_list_ext_t * ext = lv_obj_get_ext_attr(list); ext->page.scroll_prop_ip = 0; #if USE_LV_GROUP lv_group_t * g = lv_obj_get_group(list); if(lv_group_get_focused(g) == list && lv_indev_is_dragging(lv_indev_get_act()) == false) { /* Is the list is focused then be sure only the button being released * has a pressed state to indicate the selected state on the list*/ lv_obj_t * btn_i = lv_list_get_prev_btn(list, NULL); while(btn_i) { lv_btn_state_t s = lv_btn_get_state(btn_i); if(s == LV_BTN_STATE_PR) lv_btn_set_state(btn_i, LV_BTN_STATE_REL); else if(s == LV_BTN_STATE_TGL_PR) lv_btn_set_state(btn_i, LV_BTN_STATE_TGL_REL); btn_i = lv_list_get_prev_btn(list, btn_i); } /*Make the released button "selected"*/ lv_list_set_btn_selected(list, btn); } /* If `click_focus == 1` then LV_SIGNAL_FOCUS need to know which button triggered the focus * to mark it as selected (pressed state)*/ last_clicked_btn = btn; #endif if(lv_indev_is_dragging(lv_indev_get_act()) == false && ext->single_mode) { lv_list_btn_single_selected(btn); } } else if(sign == LV_SIGNAL_PRESS_LOST) { lv_obj_t * list = lv_obj_get_parent(lv_obj_get_parent(btn)); lv_list_ext_t * ext = lv_obj_get_ext_attr(list); ext->page.scroll_prop_ip = 0; } else if(sign == LV_SIGNAL_CLEANUP) { #if USE_LV_GROUP lv_obj_t * list = lv_obj_get_parent(lv_obj_get_parent(btn)); lv_obj_t * sel = lv_list_get_btn_selected(list); if(sel == btn) lv_list_set_btn_selected(list, lv_list_get_next_btn(list, btn)); #endif } return res; } static void refr_btn_width(lv_obj_t * list) { lv_style_t * style = lv_list_get_style(list, LV_LIST_STYLE_BG); lv_style_t * style_scrl = lv_obj_get_style(lv_page_get_scrl(list)); lv_coord_t w = lv_obj_get_width(list); lv_coord_t btn_w = w - (style->body.padding.hor + style_scrl->body.padding.hor) * 2; lv_obj_t * btn = lv_list_get_prev_btn(list, NULL); while(btn) { /*Make the size adjustment for each buttons*/ if(lv_obj_get_width(btn) != btn_w) { lv_obj_set_width(btn, btn_w); /*Set the label size to roll its text*/ lv_obj_t * label = lv_list_get_btn_label(btn); lv_obj_set_width(label, btn->coords.x2 - label->coords.x1); lv_label_set_text(label, NULL); } btn = lv_list_get_prev_btn(list, btn); } } /** * Make a single button selected in the list, deselect others, should be called in list btns call back. * @param btn pointer to the currently pressed list btn object */ static void lv_list_btn_single_selected(lv_obj_t *btn) { lv_obj_t *list = lv_obj_get_parent(lv_obj_get_parent(btn)); lv_obj_t * e = lv_list_get_next_btn(list, NULL); do { if(e == btn) { lv_btn_set_state(e, LV_BTN_STATE_TGL_REL); } else { lv_btn_set_state(e, LV_BTN_STATE_REL); } e = lv_list_get_next_btn(list, e); } while (e != NULL); } /** * Check if this is really a list button or another object. * @param list_btn List button */ static bool lv_list_is_list_btn(lv_obj_t * list_btn) { lv_obj_type_t type; lv_obj_get_type(list_btn, &type); uint8_t cnt; for(cnt = 0; cnt < LV_MAX_ANCESTOR_NUM; cnt++) { if(type.type[cnt] == NULL) break; if(!strcmp(type.type[cnt], "lv_btn")) return true; } return false; } /** * Check if this is really a list label or another object. * @param list_label List label */ static bool lv_list_is_list_label(lv_obj_t * list_label) { lv_obj_type_t type; lv_obj_get_type(list_label, &type); uint8_t cnt; for(cnt = 0; cnt < LV_MAX_ANCESTOR_NUM; cnt++) { if(type.type[cnt] == NULL) break; if(!strcmp(type.type[cnt], "lv_label")) return true; } return false; } /** * Check if this is really a list image or another object. * @param list_image List image */ static bool lv_list_is_list_img(lv_obj_t * list_img) { lv_obj_type_t type; lv_obj_get_type(list_img, &type); uint8_t cnt; for(cnt = 0; cnt < LV_MAX_ANCESTOR_NUM; cnt++) { if(type.type[cnt] == NULL) break; if(!strcmp(type.type[cnt], "lv_img")) return true; } return false; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_list.h ================================================ /** * @file lv_list.h * */ #ifndef LV_LIST_H #define LV_LIST_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_LIST != 0 /*Testing of dependencies*/ #if USE_LV_PAGE == 0 #error "lv_list: lv_page is required. Enable it in lv_conf.h (USE_LV_PAGE 1) " #endif #if USE_LV_BTN == 0 #error "lv_list: lv_btn is required. Enable it in lv_conf.h (USE_LV_BTN 1) " #endif #if USE_LV_LABEL == 0 #error "lv_list: lv_label is required. Enable it in lv_conf.h (USE_LV_LABEL 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_page.h" #include "lv_btn.h" #include "lv_label.h" #include "lv_img.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of list*/ typedef struct { lv_page_ext_t page; /*Ext. of ancestor*/ /*New data for this type */ uint16_t anim_time; /*Scroll animation time*/ lv_style_t *styles_btn[LV_BTN_STATE_NUM]; /*Styles of the list element buttons*/ lv_style_t *style_img; /*Style of the list element images on buttons*/ uint32_t size; /*the number of items(buttons) in the list*/ bool single_mode; /* whether single selected mode is enabled */ #if USE_LV_GROUP lv_obj_t * last_sel; /* The last selected button. It will be reverted when the list is focused again */ lv_obj_t * selected_btn; /* The button is currently being selected*/ #endif } lv_list_ext_t; enum { LV_LIST_STYLE_BG, LV_LIST_STYLE_SCRL, LV_LIST_STYLE_SB, LV_LIST_STYLE_EDGE_FLASH, LV_LIST_STYLE_BTN_REL, LV_LIST_STYLE_BTN_PR, LV_LIST_STYLE_BTN_TGL_REL, LV_LIST_STYLE_BTN_TGL_PR, LV_LIST_STYLE_BTN_INA, }; typedef uint8_t lv_list_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a list objects * @param par pointer to an object, it will be the parent of the new list * @param copy pointer to a list object, if not NULL then the new object will be copied from it * @return pointer to the created list */ lv_obj_t * lv_list_create(lv_obj_t * par, const lv_obj_t * copy); /** * Delete all children of the scrl object, without deleting scrl child. * @param obj pointer to an object */ void lv_list_clean(lv_obj_t *obj); /*====================== * Add/remove functions *=====================*/ /** * Add a list element to the list * @param list pointer to list object * @param img_fn file name of an image before the text (NULL if unused) * @param txt text of the list element (NULL if unused) * @param rel_action pointer to release action function (like with lv_btn) * @return pointer to the new list element which can be customized (a button) */ lv_obj_t * lv_list_add(lv_obj_t * list, const void * img_src, const char * txt, lv_action_t rel_action); /** * Remove the index of the button in the list * @param list pointer to a list object * @param index pointer to a the button's index in the list, index must be 0 <= index < lv_list_ext_t.size * @return true: successfully deleted */ bool lv_list_remove(const lv_obj_t * list, uint32_t index); /*===================== * Setter functions *====================*/ /** * Set single button selected mode, only one button will be selected if enabled. * @param list pointer to the currently pressed list object * @param mode, enable(true)/disable(false) single selected mode. */ void lv_list_set_single_mode(lv_obj_t *list, bool mode); #if USE_LV_GROUP /** * Make a button selected. Can be used while navigating in the list with a keypad. * @param list pointer to a list object * @param btn pointer to a button to select */ void lv_list_set_btn_selected(lv_obj_t * list, lv_obj_t * btn); #endif /** * Set scroll animation duration on 'list_up()' 'list_down()' 'list_focus()' * @param list pointer to a list object * @param anim_time duration of animation [ms] */ void lv_list_set_anim_time(lv_obj_t *list, uint16_t anim_time); /** * Set the scroll bar mode of a list * @param list pointer to a list object * @param sb_mode the new mode from 'lv_page_sb_mode_t' enum */ static inline void lv_list_set_sb_mode(lv_obj_t * list, lv_sb_mode_t mode) { lv_page_set_sb_mode(list, mode); } /** * Enable the scroll propagation feature. If enabled then the List will move its parent if there is no more space to scroll. * @param list pointer to a List * @param en true or false to enable/disable scroll propagation */ static inline void lv_list_set_scroll_propagation(lv_obj_t * list, bool en) { lv_page_set_scroll_propagation(list, en); } /** * Enable the edge flash effect. (Show an arc when the an edge is reached) * @param list pointer to a List * @param en true or false to enable/disable end flash */ static inline void lv_list_set_edge_flash(lv_obj_t * list, bool en) { lv_page_set_edge_flash(list, en); } /** * Set a style of a list * @param list pointer to a list object * @param type which style should be set * @param style pointer to a style */ void lv_list_set_style(lv_obj_t *list, lv_list_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Get single button selected mode. * @param list pointer to the currently pressed list object. */ bool lv_list_get_single_mode(lv_obj_t *list); /** * Get the text of a list element * @param btn pointer to list element * @return pointer to the text */ const char * lv_list_get_btn_text(const lv_obj_t * btn); /** * Get the label object from a list element * @param btn pointer to a list element (button) * @return pointer to the label from the list element or NULL if not found */ lv_obj_t * lv_list_get_btn_label(const lv_obj_t * btn); /** * Get the image object from a list element * @param btn pointer to a list element (button) * @return pointer to the image from the list element or NULL if not found */ lv_obj_t * lv_list_get_btn_img(const lv_obj_t * btn); /** * Get the next button from list. (Starts from the bottom button) * @param list pointer to a list object * @param prev_btn pointer to button. Search the next after it. * @return pointer to the next button or NULL when no more buttons */ lv_obj_t * lv_list_get_prev_btn(const lv_obj_t * list, lv_obj_t * prev_btn); /** * Get the previous button from list. (Starts from the top button) * @param list pointer to a list object * @param prev_btn pointer to button. Search the previous before it. * @return pointer to the previous button or NULL when no more buttons */ lv_obj_t * lv_list_get_next_btn(const lv_obj_t * list, lv_obj_t * prev_btn); /** * Get the index of the button in the list * @param list pointer to a list object. If NULL, assumes btn is part of a list. * @param btn pointer to a list element (button) * @return the index of the button in the list, or -1 of the button not in this list */ int32_t lv_list_get_btn_index(const lv_obj_t * list, const lv_obj_t * btn); /** * Get the number of buttons in the list * @param list pointer to a list object * @return the number of buttons in the list */ uint32_t lv_list_get_size(const lv_obj_t * list); #if USE_LV_GROUP /** * Get the currently selected button. Can be used while navigating in the list with a keypad. * @param list pointer to a list object * @return pointer to the selected button */ lv_obj_t * lv_list_get_btn_selected(const lv_obj_t * list); #endif /** * Get scroll animation duration * @param list pointer to a list object * @return duration of animation [ms] */ uint16_t lv_list_get_anim_time(const lv_obj_t *list); /** * Get the scroll bar mode of a list * @param list pointer to a list object * @return scrollbar mode from 'lv_page_sb_mode_t' enum */ static inline lv_sb_mode_t lv_list_get_sb_mode(const lv_obj_t * list) { return lv_page_get_sb_mode(list); } /** * Get the scroll propagation property * @param list pointer to a List * @return true or false */ static inline bool lv_list_get_scroll_propagation(lv_obj_t * list) { return lv_page_get_scroll_propagation(list); } /** * Get the scroll propagation property * @param list pointer to a List * @return true or false */ static inline bool lv_list_get_edge_flash(lv_obj_t * list) { return lv_page_get_edge_flash(list); } /** * Get a style of a list * @param list pointer to a list object * @param type which style should be get * @return style pointer to a style * */ lv_style_t * lv_list_get_style(const lv_obj_t *list, lv_list_style_t type); /*===================== * Other functions *====================*/ /** * Move the list elements up by one * @param list pointer a to list object */ void lv_list_up(const lv_obj_t * list); /** * Move the list elements down by one * @param list pointer to a list object */ void lv_list_down(const lv_obj_t * list); /** * Focus on a list button. It ensures that the button will be visible on the list. * @param btn pointer to a list button to focus * @param anim_en true: scroll with animation, false: without animation */ void lv_list_focus(const lv_obj_t *btn, bool anim_en); /********************** * MACROS **********************/ #endif /*USE_LV_LIST*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_LIST_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_lmeter.c ================================================ /** * @file lv_lmeter.c * */ /********************* * INCLUDES *********************/ #include "lv_lmeter.h" #if USE_LV_LMETER != 0 #include "../lv_draw/lv_draw.h" #include "../lv_themes/lv_theme.h" #include "../lv_core/lv_group.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ #define LV_LMETER_LINE_UPSCALE 5 /*2^x upscale of line to make rounding*/ #define LV_LMETER_LINE_UPSCALE_MASK ((1 << LV_LMETER_LINE_UPSCALE) - 1) /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_lmeter_design(lv_obj_t * lmeter, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_lmeter_signal(lv_obj_t * lmeter, lv_signal_t sign, void * param); static lv_coord_t lv_lmeter_coord_round(int32_t x); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a line meter objects * @param par pointer to an object, it will be the parent of the new line meter * @param copy pointer to a line meter object, if not NULL then the new object will be copied from it * @return pointer to the created line meter */ lv_obj_t * lv_lmeter_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("line meter create started"); /*Create the ancestor of line meter*/ lv_obj_t * new_lmeter = lv_obj_create(par, copy); lv_mem_assert(new_lmeter); if(new_lmeter == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_lmeter); /*Allocate the line meter type specific extended data*/ lv_lmeter_ext_t * ext = lv_obj_allocate_ext_attr(new_lmeter, sizeof(lv_lmeter_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; /*Initialize the allocated 'ext' */ ext->min_value = 0; ext->max_value = 100; ext->cur_value = 0; ext->line_cnt = 21; /*Odd scale number looks better*/ ext->scale_angle = 240; /*(scale_num - 1) * N looks better */ /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_lmeter, lv_lmeter_signal); lv_obj_set_design_func(new_lmeter, lv_lmeter_design); /*Init the new line meter line meter*/ if(copy == NULL) { lv_obj_set_size(new_lmeter, LV_DPI, LV_DPI); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_lmeter_set_style(new_lmeter, th->lmeter); } else { lv_lmeter_set_style(new_lmeter, &lv_style_pretty_color); } } /*Copy an existing line meter*/ else { lv_lmeter_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->scale_angle = copy_ext->scale_angle; ext->line_cnt = copy_ext->line_cnt; ext->min_value = copy_ext->min_value; ext->max_value = copy_ext->max_value; ext->cur_value = copy_ext->cur_value; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_lmeter); } LV_LOG_INFO("line meter created"); return new_lmeter; } /*===================== * Setter functions *====================*/ /** * Set a new value on the line meter * @param lmeter pointer to a line meter object * @param value new value */ void lv_lmeter_set_value(lv_obj_t * lmeter, int16_t value) { lv_lmeter_ext_t * ext = lv_obj_get_ext_attr(lmeter); if(ext->cur_value == value) return; ext->cur_value = value > ext->max_value ? ext->max_value : value; ext->cur_value = ext->cur_value < ext->min_value ? ext->min_value : ext->cur_value; lv_obj_invalidate(lmeter); } /** * Set minimum and the maximum values of a line meter * @param lmeter pointer to he line meter object * @param min minimum value * @param max maximum value */ void lv_lmeter_set_range(lv_obj_t * lmeter, int16_t min, int16_t max) { lv_lmeter_ext_t * ext = lv_obj_get_ext_attr(lmeter); if(ext->min_value == min && ext->max_value == max) return; ext->max_value = max; ext->min_value = min; if(ext->cur_value > max) { ext->cur_value = max; lv_lmeter_set_value(lmeter, ext->cur_value); } if(ext->cur_value < min) { ext->cur_value = min; lv_lmeter_set_value(lmeter, ext->cur_value); } lv_obj_invalidate(lmeter); } /** * Set the scale settings of a line meter * @param lmeter pointer to a line meter object * @param angle angle of the scale (0..360) * @param line_cnt number of lines */ void lv_lmeter_set_scale(lv_obj_t * lmeter, uint16_t angle, uint8_t line_cnt) { lv_lmeter_ext_t * ext = lv_obj_get_ext_attr(lmeter); if(ext->scale_angle == angle && ext->line_cnt == line_cnt) return; ext->scale_angle = angle; ext->line_cnt = line_cnt; lv_obj_invalidate(lmeter); } /*===================== * Getter functions *====================*/ /** * Get the value of a line meter * @param lmeter pointer to a line meter object * @return the value of the line meter */ int16_t lv_lmeter_get_value(const lv_obj_t * lmeter) { lv_lmeter_ext_t * ext = lv_obj_get_ext_attr(lmeter); return ext->cur_value; } /** * Get the minimum value of a line meter * @param lmeter pointer to a line meter object * @return the minimum value of the line meter */ int16_t lv_lmeter_get_min_value(const lv_obj_t * lmeter) { lv_lmeter_ext_t * ext = lv_obj_get_ext_attr(lmeter); return ext->min_value; } /** * Get the maximum value of a line meter * @param lmeter pointer to a line meter object * @return the maximum value of the line meter */ int16_t lv_lmeter_get_max_value(const lv_obj_t * lmeter) { lv_lmeter_ext_t * ext = lv_obj_get_ext_attr(lmeter); return ext->max_value; } /** * Get the scale number of a line meter * @param lmeter pointer to a line meter object * @return number of the scale units */ uint8_t lv_lmeter_get_line_count(const lv_obj_t * lmeter) { lv_lmeter_ext_t * ext = lv_obj_get_ext_attr(lmeter); return ext->line_cnt ; } /** * Get the scale angle of a line meter * @param lmeter pointer to a line meter object * @return angle of the scale */ uint16_t lv_lmeter_get_scale_angle(const lv_obj_t * lmeter) { lv_lmeter_ext_t * ext = lv_obj_get_ext_attr(lmeter); return ext->scale_angle; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the line meters * @param lmeter pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_lmeter_design(lv_obj_t * lmeter, const lv_area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { return false; } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { lv_lmeter_ext_t * ext = lv_obj_get_ext_attr(lmeter); lv_style_t * style = lv_obj_get_style(lmeter); lv_opa_t opa_scale = lv_obj_get_opa_scale(lmeter); lv_style_t style_tmp; memcpy(&style_tmp, style, sizeof(lv_style_t)); #if USE_LV_GROUP lv_group_t * g = lv_obj_get_group(lmeter); if(lv_group_get_focused(g) == lmeter) { style_tmp.line.width += 1; } #endif lv_coord_t r_out = lv_obj_get_width(lmeter) / 2; lv_coord_t r_in = r_out - style->body.padding.hor; if(r_in < 1) r_in = 1; lv_coord_t x_ofs = lv_obj_get_width(lmeter) / 2 + lmeter->coords.x1; lv_coord_t y_ofs = lv_obj_get_height(lmeter) / 2 + lmeter->coords.y1; int16_t angle_ofs = 90 + (360 - ext->scale_angle) / 2; int16_t level = (int32_t)((int32_t)(ext->cur_value - ext->min_value) * ext->line_cnt) / (ext->max_value - ext->min_value); uint8_t i; style_tmp.line.color = style->body.main_color; /*Calculate every coordinate in a bigger size to make rounding later*/ r_out = r_out << LV_LMETER_LINE_UPSCALE; r_in = r_in << LV_LMETER_LINE_UPSCALE; for(i = 0; i < ext->line_cnt; i++) { /*Calculate the position a scale label*/ int16_t angle = (i * ext->scale_angle) / (ext->line_cnt - 1) + angle_ofs; lv_coord_t y_out = (int32_t)((int32_t)lv_trigo_sin(angle) * r_out) >> LV_TRIGO_SHIFT; lv_coord_t x_out = (int32_t)((int32_t)lv_trigo_sin(angle + 90) * r_out) >> LV_TRIGO_SHIFT; lv_coord_t y_in = (int32_t)((int32_t)lv_trigo_sin(angle) * r_in) >> LV_TRIGO_SHIFT; lv_coord_t x_in = (int32_t)((int32_t)lv_trigo_sin(angle + 90) * r_in) >> LV_TRIGO_SHIFT; /*Rounding*/ x_out = lv_lmeter_coord_round(x_out); x_in = lv_lmeter_coord_round(x_in); y_out = lv_lmeter_coord_round(y_out); y_in = lv_lmeter_coord_round(y_in); lv_point_t p1; lv_point_t p2; p2.x = x_in + x_ofs; p2.y = y_in + y_ofs; p1.x = x_out + x_ofs; p1.y = y_out + y_ofs; if(i >= level) style_tmp.line.color = style->line.color; else { style_tmp.line.color = lv_color_mix(style->body.grad_color, style->body.main_color, (255 * i) / ext->line_cnt); } lv_draw_line(&p1, &p2, mask, &style_tmp, opa_scale); } } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { } return true; } /** * Signal function of the line meter * @param lmeter pointer to a line meter object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_lmeter_signal(lv_obj_t * lmeter, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(lmeter, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_CLEANUP) { /*Nothing to cleanup. (No dynamically allocated memory in 'ext')*/ } else if(sign == LV_SIGNAL_STYLE_CHG) { lv_obj_refresh_ext_size(lmeter); } else if(sign == LV_SIGNAL_REFR_EXT_SIZE) { lv_style_t * style = lv_lmeter_get_style(lmeter); lmeter->ext_size = LV_MATH_MAX(lmeter->ext_size, style->line.width); } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_lmeter"; } return res; } /** * Round a coordinate which is upscaled (>=x.5 -> x + 1; x) * @param x a coordinate which is greater then it should be * @return the downscaled and rounded coordinate (+-1) */ static lv_coord_t lv_lmeter_coord_round(int32_t x) { #if LV_LMETER_LINE_UPSCALE > 0 bool was_negative = false; if(x < 0) { was_negative = true; x = -x; } x = (x >> LV_LMETER_LINE_UPSCALE) + ((x & LV_LMETER_LINE_UPSCALE_MASK) >> (LV_LMETER_LINE_UPSCALE - 1)); if(was_negative) x = -x; return x; #else return x; #endif } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_lmeter.h ================================================ /** * @file lv_lmeter.h * */ #ifndef LV_LMETER_H #define LV_LMETER_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_LMETER != 0 #include "../lv_core/lv_obj.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of line meter*/ typedef struct { /*No inherited ext.*/ /*Ext. of ancestor*/ /*New data for this type */ uint16_t scale_angle; /*Angle of the scale in deg. (0..360)*/ uint8_t line_cnt; /*Count of lines */ int16_t cur_value; int16_t min_value; int16_t max_value; } lv_lmeter_ext_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a line meter objects * @param par pointer to an object, it will be the parent of the new line meter * @param copy pointer to a line meter object, if not NULL then the new object will be copied from it * @return pointer to the created line meter */ lv_obj_t * lv_lmeter_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set a new value on the line meter * @param lmeter pointer to a line meter object * @param value new value */ void lv_lmeter_set_value(lv_obj_t *lmeter, int16_t value); /** * Set minimum and the maximum values of a line meter * @param lmeter pointer to he line meter object * @param min minimum value * @param max maximum value */ void lv_lmeter_set_range(lv_obj_t *lmeter, int16_t min, int16_t max); /** * Set the scale settings of a line meter * @param lmeter pointer to a line meter object * @param angle angle of the scale (0..360) * @param line_cnt number of lines */ void lv_lmeter_set_scale(lv_obj_t * lmeter, uint16_t angle, uint8_t line_cnt); /** * Set the styles of a line meter * @param lmeter pointer to a line meter object * @param bg set the style of the line meter */ static inline void lv_lmeter_set_style(lv_obj_t *lmeter, lv_style_t *bg) { lv_obj_set_style(lmeter, bg); } /*===================== * Getter functions *====================*/ /** * Get the value of a line meter * @param lmeter pointer to a line meter object * @return the value of the line meter */ int16_t lv_lmeter_get_value(const lv_obj_t *lmeter); /** * Get the minimum value of a line meter * @param lmeter pointer to a line meter object * @return the minimum value of the line meter */ int16_t lv_lmeter_get_min_value(const lv_obj_t * lmeter); /** * Get the maximum value of a line meter * @param lmeter pointer to a line meter object * @return the maximum value of the line meter */ int16_t lv_lmeter_get_max_value(const lv_obj_t * lmeter); /** * Get the scale number of a line meter * @param lmeter pointer to a line meter object * @return number of the scale units */ uint8_t lv_lmeter_get_line_count(const lv_obj_t * lmeter); /** * Get the scale angle of a line meter * @param lmeter pointer to a line meter object * @return angle of the scale */ uint16_t lv_lmeter_get_scale_angle(const lv_obj_t * lmeter); /** * Get the style of a line meter * @param lmeter pointer to a line meter object * @return pointer to the line meter's style */ static inline lv_style_t * lv_lmeter_get_style(const lv_obj_t * lmeter) { return lv_obj_get_style(lmeter); } /********************** * MACROS **********************/ #endif /*USE_LV_LMETER*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_LMETER_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_mbox.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_mbox.c * */ /********************* * INCLUDES *********************/ #include "lv_mbox.h" #if USE_LV_MBOX != 0 #include "../lv_core/lv_group.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_anim.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ #if USE_LV_ANIMATION # ifndef LV_MBOX_CLOSE_ANIM_TIME # define LV_MBOX_CLOSE_ANIM_TIME 200 /*List close animation time) */ # endif #else # undef LV_MBOX_CLOSE_ANIM_TIME # define LV_MBOX_CLOSE_ANIM_TIME 0 /*No animations*/ #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_mbox_signal(lv_obj_t * mbox, lv_signal_t sign, void * param); static void mbox_realign(lv_obj_t * mbox); static lv_res_t lv_mbox_close_action(lv_obj_t * btn, const char * txt); #if USE_LV_ANIMATION static void lv_mbox_close_end_cb(lv_obj_t * mbox); #endif /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a message box objects * @param par pointer to an object, it will be the parent of the new message box * @param copy pointer to a message box object, if not NULL then the new object will be copied from it * @return pointer to the created message box */ lv_obj_t * lv_mbox_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("mesasge box create started"); /*Create the ancestor message box*/ lv_obj_t * new_mbox = lv_cont_create(par, copy); lv_mem_assert(new_mbox); if(new_mbox == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_mbox); /*Allocate the message box type specific extended data*/ lv_mbox_ext_t * ext = lv_obj_allocate_ext_attr(new_mbox, sizeof(lv_mbox_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->text = NULL; ext->btnm = NULL; ext->anim_time = LV_MBOX_CLOSE_ANIM_TIME; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_mbox, lv_mbox_signal); /*Init the new message box message box*/ if(copy == NULL) { ext->text = lv_label_create(new_mbox, NULL); lv_label_set_align(ext->text, LV_LABEL_ALIGN_CENTER); lv_label_set_long_mode(ext->text, LV_LABEL_LONG_BREAK); lv_label_set_text(ext->text, "Message"); lv_cont_set_layout(new_mbox, LV_LAYOUT_COL_M); lv_cont_set_fit(new_mbox, false, true); lv_obj_set_width(new_mbox, LV_HOR_RES / 2); lv_obj_align(new_mbox, NULL, LV_ALIGN_CENTER, 0, 0); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_mbox_set_style(new_mbox, LV_MBOX_STYLE_BG, th->mbox.bg); } else { lv_mbox_set_style(new_mbox, LV_MBOX_STYLE_BG, &lv_style_pretty); } } /*Copy an existing message box*/ else { lv_mbox_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->text = lv_label_create(new_mbox, copy_ext->text); /*Copy the buttons and the label on them*/ if(copy_ext->btnm) ext->btnm = lv_btnm_create(new_mbox, copy_ext->btnm); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_mbox); } LV_LOG_INFO("mesasge box created"); return new_mbox; } /*====================== * Add/remove functions *=====================*/ /** * Add button to the message box * @param mbox pointer to message box object * @param btn_map button descriptor (button matrix map). * E.g. a const char *txt[] = {"ok", "close", ""} (Can not be local variable) * @param action a function which will be called when a button is released */ void lv_mbox_add_btns(lv_obj_t * mbox, const char ** btn_map, lv_btnm_action_t action) { lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); /*Create a button matrix if not exists yet*/ if(ext->btnm == NULL) { ext->btnm = lv_btnm_create(mbox, NULL); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_mbox_set_style(mbox, LV_MBOX_STYLE_BTN_BG, th->mbox.btn.bg); lv_mbox_set_style(mbox, LV_MBOX_STYLE_BTN_REL, th->mbox.btn.rel); lv_mbox_set_style(mbox, LV_MBOX_STYLE_BTN_PR, th->mbox.btn.pr); } else { lv_btnm_set_style(ext->btnm, LV_BTNM_STYLE_BG, &lv_style_transp_fit); } } lv_btnm_set_map(ext->btnm, btn_map); if(action == NULL) lv_btnm_set_action(ext->btnm, lv_mbox_close_action); /*Set a default action anyway*/ else lv_btnm_set_action(ext->btnm, action); mbox_realign(mbox); } /*===================== * Setter functions *====================*/ /** * Set the text of the message box * @param mbox pointer to a message box * @param txt a '\0' terminated character string which will be the message box text */ void lv_mbox_set_text(lv_obj_t * mbox, const char * txt) { lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); lv_label_set_text(ext->text, txt); mbox_realign(mbox); } /** * Stop the action to call when button is released * @param pointer to an 'lv_btnm_action_t' action. In the action you need to use `lv_mbox_get_from_btn()` to get the `mbox`. * @param pointer to an 'lv_btnm_action_t' action */ void lv_mbox_set_action(lv_obj_t * mbox, lv_btnm_action_t action) { lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); lv_btnm_set_action(ext->btnm, action); } /** * Set animation duration * @param mbox pointer to a message box object * @param anim_time animation length in milliseconds (0: no animation) */ void lv_mbox_set_anim_time(lv_obj_t * mbox, uint16_t anim_time) { lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); #if USE_LV_ANIMATION == 0 anim_time = 0; #endif ext->anim_time = anim_time; } /** * Automatically delete the message box after a given time * @param mbox pointer to a message box object * @param delay a time (in milliseconds) to wait before delete the message box */ void lv_mbox_start_auto_close(lv_obj_t * mbox, uint16_t delay) { #if USE_LV_ANIMATION lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); if(ext->anim_time != 0) { /*Add shrinking animations*/ lv_obj_animate(mbox, LV_ANIM_GROW_H | LV_ANIM_OUT, ext->anim_time, delay, NULL); lv_obj_animate(mbox, LV_ANIM_GROW_V | LV_ANIM_OUT, ext->anim_time, delay, lv_mbox_close_end_cb); /*Disable fit to let shrinking work*/ lv_cont_set_fit(mbox, false, false); } else { lv_obj_animate(mbox, LV_ANIM_NONE, ext->anim_time, delay, lv_mbox_close_end_cb); } #else (void)delay; /*Unused*/ lv_obj_del(mbox); #endif } /** * Stop the auto. closing of message box * @param mbox pointer to a message box object */ void lv_mbox_stop_auto_close(lv_obj_t * mbox) { #if USE_LV_ANIMATION lv_anim_del(mbox, NULL); #else (void)mbox; /*Unused*/ #endif } /** * Set a style of a message box * @param mbox pointer to a message box object * @param type which style should be set * @param style pointer to a style */ void lv_mbox_set_style(lv_obj_t * mbox, lv_mbox_style_t type, lv_style_t * style) { lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); switch(type) { case LV_MBOX_STYLE_BG: lv_obj_set_style(mbox, style); break; case LV_MBOX_STYLE_BTN_BG: lv_btnm_set_style(ext->btnm, LV_BTNM_STYLE_BG, style); break; case LV_MBOX_STYLE_BTN_REL: lv_btnm_set_style(ext->btnm, LV_BTNM_STYLE_BTN_REL, style); break; case LV_MBOX_STYLE_BTN_PR: lv_btnm_set_style(ext->btnm, LV_BTNM_STYLE_BTN_PR, style); break; case LV_MBOX_STYLE_BTN_TGL_REL: lv_btnm_set_style(ext->btnm, LV_BTNM_STYLE_BTN_TGL_REL, style); break; case LV_MBOX_STYLE_BTN_TGL_PR: lv_btnm_set_style(ext->btnm, LV_BTNM_STYLE_BTN_TGL_PR, style); break; case LV_MBOX_STYLE_BTN_INA: lv_btnm_set_style(ext->btnm, LV_BTNM_STYLE_BTN_INA, style); break; } mbox_realign(mbox); } /** * Set whether recoloring is enabled * @param btnm pointer to button matrix object * @param en whether recoloring is enabled */ void lv_mbox_set_recolor(lv_obj_t * mbox, bool en) { lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); if(ext->btnm) lv_btnm_set_recolor(ext->btnm, en); } void lv_mbox_set_recolor_text(lv_obj_t * mbox, bool en) { lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); if (ext->text) lv_label_set_recolor(ext->text, en); } /*===================== * Getter functions *====================*/ /** * Get the text of the message box * @param mbox pointer to a message box object * @return pointer to the text of the message box */ const char * lv_mbox_get_text(const lv_obj_t * mbox) { lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); return lv_label_get_text(ext->text); } /** * Get the message box object from one of its button. * It is useful in the button release actions where only the button is known * @param btn pointer to a button of a message box * @return pointer to the button's message box */ lv_obj_t * lv_mbox_get_from_btn(const lv_obj_t * btn) { lv_obj_t * mbox = lv_obj_get_parent(btn); return mbox; } /** * Get the animation duration (close animation time) * @param mbox pointer to a message box object * @return animation length in milliseconds (0: no animation) */ uint16_t lv_mbox_get_anim_time(const lv_obj_t * mbox) { lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); return ext->anim_time; } /** * Get a style of a message box * @param mbox pointer to a message box object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_mbox_get_style(const lv_obj_t * mbox, lv_mbox_style_t type) { lv_style_t * style = NULL; lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); switch(type) { case LV_MBOX_STYLE_BG: style = lv_obj_get_style(mbox); break; case LV_MBOX_STYLE_BTN_BG: style = lv_btnm_get_style(ext->btnm, LV_BTNM_STYLE_BG); break; case LV_MBOX_STYLE_BTN_REL: style = lv_btnm_get_style(ext->btnm, LV_BTNM_STYLE_BTN_REL); break; case LV_MBOX_STYLE_BTN_PR: style = lv_btnm_get_style(ext->btnm, LV_BTNM_STYLE_BTN_PR); break; case LV_MBOX_STYLE_BTN_TGL_REL: style = lv_btnm_get_style(ext->btnm, LV_BTNM_STYLE_BTN_TGL_REL); break; case LV_MBOX_STYLE_BTN_TGL_PR: style = lv_btnm_get_style(ext->btnm, LV_BTNM_STYLE_BTN_TGL_PR); break; case LV_MBOX_STYLE_BTN_INA: style = lv_btnm_get_style(ext->btnm, LV_BTNM_STYLE_BTN_INA); break; default: style = NULL; break; } return style; } /** * Get whether recoloring is enabled * @param btnm pointer to button matrix object * @return whether recoloring is enabled */ bool lv_mbox_get_recolor(const lv_obj_t * mbox) { lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); if(!ext->btnm) return false; return lv_btnm_get_recolor(ext->btnm); } /********************** * STATIC FUNCTIONS **********************/ /** * Signal function of the message box * @param mbox pointer to a message box object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_mbox_signal(lv_obj_t * mbox, lv_signal_t sign, void * param) { lv_res_t res; /*Translate LV_GROUP_KEY_UP/DOWN to LV_GROUP_KEY_LEFT/RIGHT */ char c_trans = 0; if(sign == LV_SIGNAL_CONTROLL) { c_trans = *((char *)param); if(c_trans == LV_GROUP_KEY_DOWN) c_trans = LV_GROUP_KEY_LEFT; if(c_trans == LV_GROUP_KEY_UP) c_trans = LV_GROUP_KEY_RIGHT; param = &c_trans; } /* Include the ancient signal function */ res = ancestor_signal(mbox, sign, param); if(res != LV_RES_OK) return res; lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); if(sign == LV_SIGNAL_CORD_CHG) { if(lv_obj_get_width(mbox) != lv_area_get_width(param)) { mbox_realign(mbox); } } else if(sign == LV_SIGNAL_STYLE_CHG) { mbox_realign(mbox); } else if(sign == LV_SIGNAL_FOCUS || sign == LV_SIGNAL_DEFOCUS || sign == LV_SIGNAL_CONTROLL || sign == LV_SIGNAL_GET_EDITABLE) { if(ext->btnm) { ext->btnm->signal_func(ext->btnm, sign, param); } /* The button matrix with ENCODER input supposes it's in a group but in this case it isn't (Only the message box's container) * So so some actions here instead*/ if(sign == LV_SIGNAL_FOCUS) { #if USE_LV_GROUP lv_indev_t * indev = lv_indev_get_act(); lv_hal_indev_type_t indev_type = lv_indev_get_type(indev); if(indev_type == LV_INDEV_TYPE_ENCODER) { /*In navigation mode don't select any button but in edit mode select the fist*/ lv_btnm_ext_t * btnm_ext = lv_obj_get_ext_attr(ext->btnm); if(lv_group_get_editing(lv_obj_get_group(mbox))) btnm_ext->btn_id_pr = 0; else btnm_ext->btn_id_pr = LV_BTNM_PR_NONE; } #endif } } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_mbox"; } return res; } /** * Resize the button holder to fit * @param mbox pointer to message box object */ static void mbox_realign(lv_obj_t * mbox) { lv_mbox_ext_t * ext = lv_obj_get_ext_attr(mbox); lv_style_t * style = lv_mbox_get_style(mbox, LV_MBOX_STYLE_BG); lv_coord_t w = lv_obj_get_width(mbox) - 2 * style->body.padding.hor; if(ext->text) { lv_obj_set_width(ext->text, w); } if(ext->btnm) { lv_style_t * btn_bg_style = lv_mbox_get_style(mbox, LV_MBOX_STYLE_BTN_BG); lv_style_t * btn_rel_style = lv_mbox_get_style(mbox, LV_MBOX_STYLE_BTN_REL); lv_coord_t font_h = lv_font_get_height(btn_rel_style->text.font); lv_obj_set_size(ext->btnm, w, font_h + 2 * btn_rel_style->body.padding.ver + 2 * btn_bg_style->body.padding.ver); } } static lv_res_t lv_mbox_close_action(lv_obj_t * btn, const char * txt) { lv_obj_t * mbox = lv_mbox_get_from_btn(btn); if(txt[0] != '\0') { lv_mbox_start_auto_close(mbox, 0); return LV_RES_INV; } return LV_RES_OK; } #if USE_LV_ANIMATION static void lv_mbox_close_end_cb(lv_obj_t * mbox) { lv_obj_del(mbox); } #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_mbox.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_mbox.h * */ #ifndef LV_MBOX_H #define LV_MBOX_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_MBOX != 0 /*Testing of dependencies*/ #if USE_LV_CONT == 0 #error "lv_mbox: lv_cont is required. Enable it in lv_conf.h (USE_LV_CONT 1) " #endif #if USE_LV_BTNM == 0 #error "lv_mbox: lv_btnm is required. Enable it in lv_conf.h (USE_LV_BTNM 1) " #endif #if USE_LV_LABEL == 0 #error "lv_mbox: lv_label is required. Enable it in lv_conf.h (USE_LV_LABEL 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_cont.h" #include "lv_btnm.h" #include "lv_label.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of message box*/ typedef struct { lv_cont_ext_t bg; /*Ext. of ancestor*/ /*New data for this type */ lv_obj_t *text; /*Text of the message box*/ lv_obj_t *btnm; /*Button matrix for the buttons*/ uint16_t anim_time; /*Duration of close animation [ms] (0: no animation)*/ } lv_mbox_ext_t; enum { LV_MBOX_STYLE_BG, LV_MBOX_STYLE_BTN_BG, LV_MBOX_STYLE_BTN_REL, LV_MBOX_STYLE_BTN_PR, LV_MBOX_STYLE_BTN_TGL_REL, LV_MBOX_STYLE_BTN_TGL_PR, LV_MBOX_STYLE_BTN_INA, }; typedef uint8_t lv_mbox_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a message box objects * @param par pointer to an object, it will be the parent of the new message box * @param copy pointer to a message box object, if not NULL then the new object will be copied from it * @return pointer to the created message box */ lv_obj_t * lv_mbox_create(lv_obj_t * par, const lv_obj_t * copy); /*====================== * Add/remove functions *=====================*/ /** * Add button to the message box * @param mbox pointer to message box object * @param btn_map button descriptor (button matrix map). * E.g. a const char *txt[] = {"ok", "close", ""} (Can not be local variable) * @param action a function which will be called when a button is released */ void lv_mbox_add_btns(lv_obj_t * mbox, const char **btn_map, lv_btnm_action_t action); /*===================== * Setter functions *====================*/ /** * Set the text of the message box * @param mbox pointer to a message box * @param txt a '\0' terminated character string which will be the message box text */ void lv_mbox_set_text(lv_obj_t * mbox, const char * txt); /** * Stop the action to call when button is released * @param mbox pointer to a message box object * @param pointer to an 'lv_btnm_action_t' action. In the action you need to use `lv_mbox_get_from_btn()` to get the `mbox`. */ void lv_mbox_set_action(lv_obj_t * mbox, lv_btnm_action_t action); /** * Set animation duration * @param mbox pointer to a message box object * @param anim_time animation length in milliseconds (0: no animation) */ void lv_mbox_set_anim_time(lv_obj_t * mbox, uint16_t anim_time); /** * Automatically delete the message box after a given time * @param mbox pointer to a message box object * @param delay a time (in milliseconds) to wait before delete the message box */ void lv_mbox_start_auto_close(lv_obj_t * mbox, uint16_t delay); /** * Stop the auto. closing of message box * @param mbox pointer to a message box object */ void lv_mbox_stop_auto_close(lv_obj_t * mbox); /** * Set a style of a message box * @param mbox pointer to a message box object * @param type which style should be set * @param style pointer to a style */ void lv_mbox_set_style(lv_obj_t *mbox, lv_mbox_style_t type, lv_style_t *style); /** * Set whether recoloring is enabled. Must be called after `lv_mbox_add_btns`. * @param btnm pointer to button matrix object * @param en whether recoloring is enabled */ void lv_mbox_set_recolor(lv_obj_t * mbox, bool en); void lv_mbox_set_recolor_text(lv_obj_t * mbox, bool en); /*===================== * Getter functions *====================*/ /** * Get the text of the message box * @param mbox pointer to a message box object * @return pointer to the text of the message box */ const char * lv_mbox_get_text(const lv_obj_t * mbox); /** * Get the message box object from one of its button. * It is useful in the button release actions where only the button is known * @param btn pointer to a button of a message box * @return pointer to the button's message box */ lv_obj_t * lv_mbox_get_from_btn(const lv_obj_t * btn); /** * Get the animation duration (close animation time) * @param mbox pointer to a message box object * @return animation length in milliseconds (0: no animation) */ uint16_t lv_mbox_get_anim_time(const lv_obj_t * mbox); /** * Get a style of a message box * @param mbox pointer to a message box object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_mbox_get_style(const lv_obj_t *mbox, lv_mbox_style_t type); /** * Get whether recoloring is enabled * @param btnm pointer to button matrix object * @return whether recoloring is enabled */ bool lv_mbox_get_recolor(const lv_obj_t * mbox); /********************** * MACROS **********************/ #endif /*USE_LV_MBOX*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_MBOX_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_objx.mk ================================================ CSRCS += lv_arc.c CSRCS += lv_bar.c CSRCS += lv_cb.c CSRCS += lv_ddlist.c CSRCS += lv_kb.c CSRCS += lv_line.c CSRCS += lv_mbox.c CSRCS += lv_preload.c CSRCS += lv_roller.c CSRCS += lv_table.c CSRCS += lv_tabview.c CSRCS += lv_tileview.c CSRCS += lv_btn.c CSRCS += lv_calendar.c CSRCS += lv_chart.c CSRCS += lv_canvas.c CSRCS += lv_gauge.c CSRCS += lv_label.c CSRCS += lv_list.c CSRCS += lv_slider.c CSRCS += lv_ta.c CSRCS += lv_spinbox.c CSRCS += lv_btnm.c CSRCS += lv_cont.c CSRCS += lv_img.c CSRCS += lv_imgbtn.c CSRCS += lv_led.c CSRCS += lv_lmeter.c CSRCS += lv_page.c CSRCS += lv_sw.c CSRCS += lv_win.c DEPPATH += --dep-path $(LVGL_DIR)/lvgl/lv_objx VPATH += :$(LVGL_DIR)/lvgl/lv_objx CFLAGS += "-I$(LVGL_DIR)/lvgl/lv_objx" ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_objx_templ.c ================================================ /** * @file lv_templ.c * */ /* TODO Remove these instructions * Search an replace: template -> object normal name with lower case (e.g. button, label etc.) * templ -> object short name with lower case(e.g. btn, label etc) * TEMPL -> object short name with upper case (e.g. BTN, LABEL etc.) * */ /********************* * INCLUDES *********************/ //#include "lv_templ.h" /*TODO uncomment this*/ #if USE_LV_TEMPL != 0 /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_templ_design(lv_obj_t * templ, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_templ_signal(lv_obj_t * templ, lv_signal_t sign, void * param); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_design_func_t ancestor_design; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a template object * @param par pointer to an object, it will be the parent of the new template * @param copy pointer to a template object, if not NULL then the new object will be copied from it * @return pointer to the created template */ lv_obj_t * lv_templ_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("template create started"); /*Create the ancestor of template*/ /*TODO modify it to the ancestor create function */ lv_obj_t * new_templ = lv_ANCESTOR_create(par, copy); lv_mem_assert(new_templ); if(new_templ == NULL) return NULL; /*Allocate the template type specific extended data*/ lv_templ_ext_t * ext = lv_obj_allocate_ext_attr(new_templ, sizeof(lv_templ_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_templ); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_templ); /*Initialize the allocated 'ext' */ ext->xyz = 0; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_templ, lv_templ_signal); lv_obj_set_design_func(new_templ, lv_templ_design); /*Init the new template template*/ if(copy == NULL) { } /*Copy an existing template*/ else { lv_templ_ext_t * copy_ext = lv_obj_get_ext_attr(copy); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_templ); } LV_LOG_INFO("template created"); return new_templ; } /*====================== * Add/remove functions *=====================*/ /* * New object specific "add" or "remove" functions come here */ /*===================== * Setter functions *====================*/ /* * New object specific "set" functions come here */ /** * Set a style of a template. * @param templ pointer to template object * @param type which style should be set * @param style pointer to a style */ void lv_templ_set_style(lv_obj_t * templ, lv_templ_style_t type, lv_style_t * style) { lv_templ_ext_t * ext = lv_obj_get_ext_attr(templ); switch(type) { case LV_TEMPL_STYLE_X: break; case LV_TEMPL_STYLE_Y: break; } } /*===================== * Getter functions *====================*/ /* * New object specific "get" functions come here */ /** * Get style of a template. * @param templ pointer to template object * @param type which style should be get * @return style pointer to the style */ lv_style_t * lv_templ_get_style(const lv_obj_t * templ, lv_templ_style_t type) { lv_templ_ext_t * ext = lv_obj_get_ext_attr(templ); lv_style_t * style = NULL; switch(type) { case LV_TEMPL_STYLE_X: style = NULL; /*Replace NULL with a pointer to the style*/ case LV_TEMPL_STYLE_Y: style = NULL; /*Replace NULL with a pointer to the style*/ default: style = NULL; } return style; } /*===================== * Other functions *====================*/ /* * New object specific "other" functions come here */ /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the templates * @param templ pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_templ_design(lv_obj_t * templ, const lv_area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { return false; } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { } return true; } /** * Signal function of the template * @param templ pointer to a template object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_templ_signal(lv_obj_t * templ, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(templ, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_CLEANUP) { /*Nothing to cleanup. (No dynamically allocated memory in 'ext')*/ } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_templ"; } return res; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_objx_templ.h ================================================ /** * @file lv_templ.h * */ /* TODO Remove these instructions * Search an replace: template -> object normal name with lower case (e.g. button, label etc.) * templ -> object short name with lower case(e.g. btn, label etc) * TEMPL -> object short name with upper case (e.g. BTN, LABEL etc.) * */ #ifndef LV_TEMPL_H #define LV_TEMPL_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_TEMPL != 0 #include "../lv_core/lv_obj.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of template*/ typedef struct { lv_ANCESTOR_ext_t ANCESTOR; /*Ext. of ancestor*/ /*New data for this type */ } lv_templ_ext_t; /*Styles*/ enum { LV_TEMPL_STYLE_X, LV_TEMPL_STYLE_Y, }; typedef uint8_t lv_templ_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a template objects * @param par pointer to an object, it will be the parent of the new template * @param copy pointer to a template object, if not NULL then the new object will be copied from it * @return pointer to the created template */ lv_obj_t * lv_templ_create(lv_obj_t * par, const lv_obj_t * copy); /*====================== * Add/remove functions *=====================*/ /*===================== * Setter functions *====================*/ /** * Set a style of a template. * @param templ pointer to template object * @param type which style should be set * @param style pointer to a style */ void lv_templ_set_style(lv_obj_t * templ, lv_templ_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Get style of a template. * @param templ pointer to template object * @param type which style should be get * @return style pointer to the style */ lv_style_t * lv_templ_get_style(const lv_obj_t * templ, lv_templ_style_t type); /*===================== * Other functions *====================*/ /********************** * MACROS **********************/ #endif /*USE_LV_TEMPL*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_TEMPL_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_page.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_page.c * */ /********************* * INCLUDES *********************/ #include "../lv_objx/lv_page.h" #if USE_LV_PAGE != 0 #include "../lv_core/lv_group.h" #include "../lv_draw/lv_draw.h" #include "../lv_themes/lv_theme.h" #include "../lv_core/lv_refr.h" #include "../lv_misc/lv_anim.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ #define LV_PAGE_SB_MIN_SIZE (LV_DPI / 8) #define LV_PAGE_SCROLL_ANIM_TIME 200 /*[ms] Scroll anim time on `lv_page_scroll_up/down/left/rigth`*/ #define LV_PAGE_END_FLASH_SIZE (LV_DPI / 4) #define LV_PAGE_END_ANIM_TIME 300 #define LV_PAGE_END_ANIM_WAIT_TIME 300 /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static void lv_page_sb_refresh(lv_obj_t * page); static bool lv_page_design(lv_obj_t * page, const lv_area_t * mask, lv_design_mode_t mode); static bool lv_scrl_design(lv_obj_t * scrl, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_page_signal(lv_obj_t * page, lv_signal_t sign, void * param); static lv_res_t lv_page_scrollable_signal(lv_obj_t * scrl, lv_signal_t sign, void * param); #if USE_LV_ANIMATION static void edge_flash_anim(void * page, int32_t v); static void edge_flash_anim_end(void * page); #endif /********************** * STATIC VARIABLES **********************/ static lv_design_func_t ancestor_design; static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a page objects * @param par pointer to an object, it will be the parent of the new page * @param copy pointer to a page object, if not NULL then the new object will be copied from it * @return pointer to the created page */ lv_obj_t * lv_page_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("page create started"); /*Create the ancestor object*/ lv_obj_t * new_page = lv_cont_create(par, copy); lv_mem_assert(new_page); if(new_page == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_page); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_page); /*Allocate the object type specific extended data*/ lv_page_ext_t * ext = lv_obj_allocate_ext_attr(new_page, sizeof(lv_page_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->scrl = NULL; ext->pr_action = NULL; ext->rel_action = NULL; ext->sb.hor_draw = 0; ext->sb.ver_draw = 0; ext->bgo = NULL; ext->pr = NULL; ext->sb.style = &lv_style_pretty; ext->sb.mode = LV_SB_MODE_AUTO; ext->edge_flash.enabled = 0; ext->edge_flash.bottom_ip = 0; ext->edge_flash.top_ip = 0; ext->edge_flash.left_ip = 0; ext->edge_flash.right_ip = 0; ext->edge_flash.state = 0; ext->edge_flash.style = &lv_style_plain_color; ext->arrow_scroll = 0; ext->scroll_prop = 0; ext->scroll_prop_ip = 0; /*Init the new page object*/ if(copy == NULL) { ext->scrl = lv_cont_create(new_page, NULL); lv_obj_set_signal_func(ext->scrl, lv_page_scrollable_signal); lv_obj_set_design_func(ext->scrl, lv_scrl_design); lv_obj_set_drag(ext->scrl, true); lv_obj_set_drag_throw(ext->scrl, true); lv_obj_set_protect(ext->scrl, LV_PROTECT_PARENT | LV_PROTECT_PRESS_LOST); lv_cont_set_fit(ext->scrl, false, true); /* Add the signal function only if 'scrolling' is created * because everything has to be ready before any signal is received*/ lv_obj_set_signal_func(new_page, lv_page_signal); lv_obj_set_design_func(new_page, lv_page_design); lv_page_set_sb_mode(new_page, ext->sb.mode); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { if(par == NULL) { /*Different styles if it is screen*/ lv_page_set_style(new_page, LV_PAGE_STYLE_BG, th->bg); lv_page_set_style(new_page, LV_PAGE_STYLE_SCRL, &lv_style_transp); } else { lv_page_set_style(new_page, LV_PAGE_STYLE_BG, th->page.bg); lv_page_set_style(new_page, LV_PAGE_STYLE_SCRL, th->page.scrl); } lv_page_set_style(new_page, LV_PAGE_STYLE_SB, th->page.sb); } else { lv_page_set_style(new_page, LV_PAGE_STYLE_BG, &lv_style_pretty_color); lv_page_set_style(new_page, LV_PAGE_STYLE_SCRL, &lv_style_pretty); lv_page_set_style(new_page, LV_PAGE_STYLE_SB, &lv_style_pretty_color); } } else { lv_page_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->scrl = lv_cont_create(new_page, copy_ext->scrl); ext->bgo = lv_page_get_style(copy, LV_PAGE_STYLE_BGO); ext->pr = lv_page_get_style(copy, LV_PAGE_STYLE_PR); lv_obj_set_signal_func(ext->scrl, lv_page_scrollable_signal); lv_page_set_pr_action(new_page, copy_ext->pr_action); lv_page_set_rel_action(new_page, copy_ext->rel_action); lv_page_set_sb_mode(new_page, copy_ext->sb.mode); lv_page_set_arrow_scroll(new_page, copy_ext->arrow_scroll); lv_page_set_style(new_page, LV_PAGE_STYLE_BG, lv_page_get_style(copy, LV_PAGE_STYLE_BG)); lv_page_set_style(new_page, LV_PAGE_STYLE_SCRL, lv_page_get_style(copy, LV_PAGE_STYLE_SCRL)); lv_page_set_style(new_page, LV_PAGE_STYLE_SB, lv_page_get_style(copy, LV_PAGE_STYLE_SB)); /* Add the signal function only if 'scrolling' is created * because everything has to be ready before any signal is received*/ lv_obj_set_signal_func(new_page, lv_page_signal); lv_obj_set_design_func(new_page, lv_page_design); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_page); } lv_page_sb_refresh(new_page); LV_LOG_INFO("page created"); return new_page; } /** * Delete all children of the scrl object, without deleting scrl child. * @param obj pointer to an object */ void lv_page_clean(lv_obj_t * obj) { lv_obj_t * scrl = lv_page_get_scrl(obj); lv_obj_clean(scrl); } /*===================== * Setter functions *====================*/ /** * Set a release action for the page * @param page pointer to a page object * @param rel_action a function to call when the page is release */ void lv_page_set_rel_action(lv_obj_t * page, lv_action_t rel_action) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); ext->rel_action = rel_action; } /** * Set a press action for the page * @param page pointer to a page object * @param pr_action a function to call when the page is pressed */ void lv_page_set_pr_action(lv_obj_t * page, lv_action_t pr_action) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); ext->pr_action = pr_action; } /** * Set the scroll bar mode on a page * @param page pointer to a page object * @param sb_mode the new mode from 'lv_page_sb.mode_t' enum */ void lv_page_set_sb_mode(lv_obj_t * page, lv_sb_mode_t sb_mode) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); if(ext->sb.mode == sb_mode) return; if(sb_mode == LV_SB_MODE_HIDE) ext->sb.mode |= LV_SB_MODE_HIDE; /*Set the hidden flag*/ else if(sb_mode == LV_SB_MODE_UNHIDE) ext->sb.mode &= (~LV_SB_MODE_HIDE); /*Clear the hidden flag*/ else { if(ext->sb.mode & LV_SB_MODE_HIDE) sb_mode |= LV_SB_MODE_HIDE; ext->sb.mode = sb_mode; } ext->sb.hor_draw = 0; ext->sb.ver_draw = 0; lv_page_sb_refresh(page); lv_obj_invalidate(page); } /** * Enable/Disable scrolling with arrows if the page is in group (arrows: LV_GROUP_KEY_LEFT/RIGHT/UP/DOWN) * @param page pointer to a page object * @param en true: enable scrolling with arrows */ void lv_page_set_arrow_scroll(lv_obj_t * page, bool en) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); ext->arrow_scroll = en ? 1 : 0; } /** * Enable the scroll propagation feature. If enabled then the page will move its parent if there is no more space to scroll. * @param page pointer to a Page * @param en true or false to enable/disable scroll propagation */ void lv_page_set_scroll_propagation(lv_obj_t * page, bool en) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); ext->scroll_prop = en ? 1 : 0; } /** * Enable the edge flash effect. (Show an arc when the an edge is reached) * @param page pointer to a Page * @param en true or false to enable/disable end flash */ void lv_page_set_edge_flash(lv_obj_t * page, bool en) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); ext->edge_flash.enabled = en ? 1 : 0; } /** * Set a style of a page * @param page pointer to a page object * @param type which style should be set * @param style pointer to a style * */ void lv_page_set_style(lv_obj_t * page, lv_page_style_t type, lv_style_t * style) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); switch(type) { case LV_PAGE_STYLE_BG: lv_obj_set_style(page, style); break; case LV_PAGE_STYLE_BGO: ext->bgo = style; break; case LV_PAGE_STYLE_PR: ext->pr = style; break; case LV_PAGE_STYLE_SCRL: lv_obj_set_style(ext->scrl, style); break; case LV_PAGE_STYLE_SB: ext->sb.style = style; lv_area_set_height(&ext->sb.hor_area, ext->sb.style->body.padding.inner); lv_area_set_width(&ext->sb.ver_area, ext->sb.style->body.padding.inner); lv_page_sb_refresh(page); lv_obj_refresh_ext_size(page); lv_obj_invalidate(page); break; case LV_PAGE_STYLE_EDGE_FLASH: ext->edge_flash.style = style; break; } } /*===================== * Getter functions *====================*/ /** * Get the scrollable object of a page * @param page pointer to a page object * @return pointer to a container which is the scrollable part of the page */ lv_obj_t * lv_page_get_scrl(const lv_obj_t * page) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); return ext->scrl; } /** * Get the press action of the page * @param page pointer to a page object * @return a function to call when the page is pressed */ lv_action_t lv_page_get_pr_action(lv_obj_t * page) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); return ext->pr_action; } /** * Get the release action of the page * @param page pointer to a page object * @return a function to call when the page is released */ lv_action_t lv_page_get_rel_action(lv_obj_t * page) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); return ext->rel_action; } /** * Set the scroll bar mode on a page * @param page pointer to a page object * @return the mode from 'lv_page_sb.mode_t' enum */ lv_sb_mode_t lv_page_get_sb_mode(const lv_obj_t * page) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); return ext->sb.mode; } /** * Get the the scrolling with arrows (LV_GROUP_KEY_LEFT/RIGHT/UP/DOWN) is enabled or not * @param page pointer to a page object * @return true: scrolling with arrows is enabled */ bool lv_page_get_arrow_scroll(const lv_obj_t * page) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); return ext->arrow_scroll ? true : false; } /** * Get the scroll propagation property * @param page pointer to a Page * @return true or false */ bool lv_page_get_scroll_propagation(lv_obj_t * page) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); return ext->scroll_prop == 0 ? false : true; } /** * Get the edge flash effect property. * @param page pointer to a Page * return true or false */ bool lv_page_get_edge_flash(lv_obj_t * page) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); return ext->edge_flash.enabled == 0 ? false : true; } /** * Get that width which can be set to the children to still not cause overflow (show scrollbars) * @param page pointer to a page object * @return the width which still fits into the page */ lv_coord_t lv_page_get_fit_width(lv_obj_t * page) { lv_style_t * bg_style = lv_page_get_style(page, LV_PAGE_STYLE_BG); lv_style_t * scrl_style = lv_page_get_style(page, LV_PAGE_STYLE_SCRL); return lv_obj_get_width(page) - 2 * (bg_style->body.padding.hor + scrl_style->body.padding.hor); } /** * Get that height which can be set to the children to still not cause overflow (show scrollbars) * @param page pointer to a page object * @return the height which still fits into the page */ lv_coord_t lv_page_get_fit_height(lv_obj_t * page) { lv_style_t * bg_style = lv_page_get_style(page, LV_PAGE_STYLE_BG); lv_style_t * scrl_style = lv_page_get_style(page, LV_PAGE_STYLE_SCRL); return lv_obj_get_height(page) - 2 * (bg_style->body.padding.ver + scrl_style->body.padding.ver); } /** * Get a style of a page * @param page pointer to page object * @param type which style should be get * @return style pointer to a style * */ lv_style_t * lv_page_get_style(const lv_obj_t * page, lv_page_style_t type) { lv_style_t * style = NULL; lv_page_ext_t * ext = lv_obj_get_ext_attr(page); switch(type) { case LV_PAGE_STYLE_BG: style = lv_obj_get_style(page); break; case LV_PAGE_STYLE_BGO: style = ext->bgo; break; case LV_PAGE_STYLE_PR: style = ext->pr; break; case LV_PAGE_STYLE_SCRL: style = lv_obj_get_style(ext->scrl); break; case LV_PAGE_STYLE_SB: style = ext->sb.style; break; case LV_PAGE_STYLE_EDGE_FLASH: style = ext->edge_flash.style; break; default: style = NULL; break; } return style; } /*===================== * Other functions *====================*/ /** * Glue the object to the page. After it the page can be moved (dragged) with this object too. * @param obj pointer to an object on a page * @param glue true: enable glue, false: disable glue */ void lv_page_glue_obj(lv_obj_t * obj, bool glue) { lv_obj_set_drag_parent(obj, glue); lv_obj_set_drag(obj, glue); } /** * Focus on an object. It ensures that the object will be visible on the page. * @param page pointer to a page object * @param obj pointer to an object to focus (must be on the page) * @param anim_time scroll animation time in milliseconds (0: no animation) */ void lv_page_focus(lv_obj_t * page, const lv_obj_t * obj, uint16_t anim_time) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); #if USE_LV_ANIMATION == 0 anim_time = 0; #else /* Be sure there is no position changing animation in progress * because it can overide the current changes*/ lv_anim_del(page, (lv_anim_fp_t)lv_obj_set_y); lv_anim_del(page, (lv_anim_fp_t)lv_obj_set_pos); lv_anim_del(ext->scrl, (lv_anim_fp_t)lv_obj_set_y); lv_anim_del(ext->scrl, (lv_anim_fp_t)lv_obj_set_pos); #endif lv_style_t * style = lv_page_get_style(page, LV_PAGE_STYLE_BG); lv_style_t * style_scrl = lv_page_get_style(page, LV_PAGE_STYLE_SCRL); lv_coord_t obj_y = obj->coords.y1 - ext->scrl->coords.y1; lv_coord_t obj_h = lv_obj_get_height(obj); lv_coord_t scrlable_y = lv_obj_get_y(ext->scrl); lv_coord_t page_h = lv_obj_get_height(page); lv_coord_t top_err = -(scrlable_y + obj_y); lv_coord_t bot_err = scrlable_y + obj_y + obj_h - page_h; /*If obj is higher then the page focus where the "error" is smaller*/ /*Out of the page on the top*/ if((obj_h <= page_h && top_err > 0) || (obj_h > page_h && top_err < bot_err)) { /*Calculate a new position and let some space above*/ scrlable_y = -(obj_y - style_scrl->body.padding.ver - style->body.padding.ver); scrlable_y += style_scrl->body.padding.ver; } /*Out of the page on the bottom*/ else if((obj_h <= page_h && bot_err > 0) || (obj_h > page_h && top_err >= bot_err)) { /*Calculate a new position and let some space below*/ scrlable_y = -(obj_y + style_scrl->body.padding.ver + style->body.padding.ver); scrlable_y -= style_scrl->body.padding.ver; scrlable_y += page_h - obj_h; } else { /*Already in focus*/ return; } if(anim_time == 0) { lv_obj_set_y(ext->scrl, scrlable_y); #if USE_LV_ANIMATION } else { lv_anim_t a; a.act_time = 0; a.start = lv_obj_get_y(ext->scrl); a.end = scrlable_y; a.time = anim_time; a.end_cb = NULL; a.playback = 0; a.repeat = 0; a.var = ext->scrl; a.path = lv_anim_path_linear; a.fp = (lv_anim_fp_t) lv_obj_set_y; lv_anim_create(&a); #endif } } /** * Scroll the page horizontally * @param page pointer to a page object * @param dist the distance to scroll (< 0: scroll right; > 0 scroll left) */ void lv_page_scroll_hor(lv_obj_t * page, lv_coord_t dist) { lv_obj_t * scrl = lv_page_get_scrl(page); #if USE_LV_ANIMATION lv_anim_t a; a.var = scrl; a.start = lv_obj_get_x(scrl); a.end = a.start + dist; a.fp = (lv_anim_fp_t)lv_obj_set_x; a.path = lv_anim_path_linear; a.end_cb = NULL; a.act_time = 0; a.time = LV_PAGE_SCROLL_ANIM_TIME; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); #else lv_obj_set_x(scrl, lv_obj_get_x(scrl) + dist); #endif } /** * Scroll the page vertically * @param page pointer to a page object * @param dist the distance to scroll (< 0: scroll down; > 0 scroll up) */ void lv_page_scroll_ver(lv_obj_t * page, lv_coord_t dist) { lv_obj_t * scrl = lv_page_get_scrl(page); #if USE_LV_ANIMATION lv_anim_t a; a.var = scrl; a.start = lv_obj_get_y(scrl); a.end = a.start + dist; a.fp = (lv_anim_fp_t)lv_obj_set_y; a.path = lv_anim_path_linear; a.end_cb = NULL; a.act_time = 0; a.time = LV_PAGE_SCROLL_ANIM_TIME; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); #else lv_obj_set_y(scrl, lv_obj_get_y(scrl) + dist); #endif } /** * Not intended to use directly by the user but by other object types internally. * Start an edge flash animation. Exactly one `ext->edge_flash.xxx_ip` should be set * @param page */ void lv_page_start_edge_flash(lv_obj_t * page) { #if USE_LV_ANIMATION lv_page_ext_t * ext = lv_obj_get_ext_attr(page); if(ext->edge_flash.enabled) { lv_anim_t a; a.var = page; a.start = 0; a.end = LV_PAGE_END_FLASH_SIZE; a.fp = (lv_anim_fp_t)edge_flash_anim; a.path = lv_anim_path_linear; a.end_cb = edge_flash_anim_end; a.act_time = 0; a.time = LV_PAGE_END_ANIM_TIME; a.playback = 1; a.playback_pause = LV_PAGE_END_ANIM_WAIT_TIME; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); } #endif } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the pages * @param page pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_page_design(lv_obj_t * page, const lv_area_t * mask, lv_design_mode_t mode) { if(mode == LV_DESIGN_COVER_CHK) { return ancestor_design(page, mask, mode); } else if(mode == LV_DESIGN_DRAW_MAIN) { /*Draw without border*/ lv_style_t * style = lv_page_get_style(page, LV_PAGE_STYLE_BG); lv_coord_t border_width_tmp = style->body.border.width; style->body.border.width = 0; lv_draw_rect(&page->coords, mask, style, lv_obj_get_opa_scale(page)); style->body.border.width = border_width_tmp; } else if(mode == LV_DESIGN_DRAW_POST) { /*Draw the scroll bars finally*/ /*Draw only a border*/ lv_style_t * style = lv_page_get_style(page, LV_PAGE_STYLE_BG); lv_coord_t shadow_width_tmp = style->body.shadow.width; uint8_t empty_tmp = style->body.empty; style->body.shadow.width = 0; style->body.empty = 1; lv_draw_rect(&page->coords, mask, style, lv_obj_get_opa_scale(page)); style->body.shadow.width = shadow_width_tmp; style->body.empty = empty_tmp; lv_page_ext_t * ext = lv_obj_get_ext_attr(page); /*Draw the scrollbars*/ lv_area_t sb_area; if(ext->sb.hor_draw && (ext->sb.mode & LV_SB_MODE_HIDE) == 0) { /*Convert the relative coordinates to absolute*/ lv_area_copy(&sb_area, &ext->sb.hor_area); sb_area.x1 += page->coords.x1; sb_area.y1 += page->coords.y1; sb_area.x2 += page->coords.x1; sb_area.y2 += page->coords.y1; lv_draw_rect(&sb_area, mask, ext->sb.style, lv_obj_get_opa_scale(page)); } if(ext->sb.ver_draw && (ext->sb.mode & LV_SB_MODE_HIDE) == 0) { /*Convert the relative coordinates to absolute*/ lv_area_copy(&sb_area, &ext->sb.ver_area); sb_area.x1 += page->coords.x1; sb_area.y1 += page->coords.y1; sb_area.x2 += page->coords.x1; sb_area.y2 += page->coords.y1; lv_draw_rect(&sb_area, mask, ext->sb.style, lv_obj_get_opa_scale(page)); } lv_coord_t page_w = lv_obj_get_width(page); lv_coord_t page_h = lv_obj_get_height(page); lv_area_t flash_area; if(ext->edge_flash.top_ip) { flash_area.x1 = page->coords.x1 - page_w; flash_area.x2 = page->coords.x2 + page_w; flash_area.y1 = page->coords.y1 - 3 * page_w + ext->edge_flash.state; flash_area.y2 = page->coords.y1 + ext->edge_flash.state; } else if(ext->edge_flash.bottom_ip) { flash_area.x1 = page->coords.x1 - page_w; flash_area.x2 = page->coords.x2 + page_w; flash_area.y1 = page->coords.y2 - ext->edge_flash.state; flash_area.y2 = page->coords.y2 + 3 * page_w - ext->edge_flash.state; } else if(ext->edge_flash.right_ip) { flash_area.x1 = page->coords.x2 - ext->edge_flash.state; flash_area.x2 = page->coords.x2 + 3 * page_h - ext->edge_flash.state; flash_area.y1 = page->coords.y1 - page_h; flash_area.y2 = page->coords.y2 + page_h; } else if(ext->edge_flash.left_ip) { flash_area.x1 = page->coords.x1 - 3 * page_h + ext->edge_flash.state; flash_area.x2 = page->coords.x1 + ext->edge_flash.state; flash_area.y1 = page->coords.y1 - page_h; flash_area.y2 = page->coords.y2 + page_h; } if(ext->edge_flash.left_ip || ext->edge_flash.right_ip || ext->edge_flash.top_ip || ext->edge_flash.bottom_ip) { lv_style_t flash_style; lv_style_copy(&flash_style, ext->edge_flash.style); flash_style.body.radius = LV_RADIUS_CIRCLE; uint32_t opa = (flash_style.body.opa * ext->edge_flash.state) / LV_PAGE_END_FLASH_SIZE; flash_style.body.opa = opa; lv_draw_rect(&flash_area, mask, &flash_style, lv_obj_get_opa_scale(page)); } } return true; } /** * Handle the drawing related tasks of the scrollable object * @param scrl pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_scrl_design(lv_obj_t * scrl, const lv_area_t * mask, lv_design_mode_t mode) { if(mode == LV_DESIGN_COVER_CHK) { return ancestor_design(scrl, mask, mode); } else if(mode == LV_DESIGN_DRAW_MAIN) { #if USE_LV_GROUP /* If the page is focused in a group and * the background object is not visible (transparent or empty) * then "activate" the style of the scrollable*/ lv_style_t * style_scrl_ori = lv_obj_get_style(scrl); lv_obj_t * page = lv_obj_get_parent(scrl); lv_style_t * style_page = lv_obj_get_style(page); lv_group_t * g = lv_obj_get_group(page); if((style_page->body.empty || style_page->body.opa == LV_OPA_TRANSP) && style_page->body.border.width == 0) { /*Is the background visible?*/ if(lv_group_get_focused(g) == page) { lv_style_t * style_mod; style_mod = lv_group_mod_style(g, style_scrl_ori); scrl->style_p = style_mod; /*Temporally change the style to the activated */ } } #endif ancestor_design(scrl, mask, mode); #if USE_LV_GROUP scrl->style_p = style_scrl_ori; /*Revert the style*/ #endif } else if(mode == LV_DESIGN_DRAW_POST) { ancestor_design(scrl, mask, mode); } return true; } /** * Signal function of the page * @param page pointer to a page object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_page_signal(lv_obj_t * page, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(page, sign, param); if(res != LV_RES_OK) return res; lv_page_ext_t * ext = lv_obj_get_ext_attr(page); lv_style_t * style = lv_obj_get_style(page); lv_obj_t * child; if(sign == LV_SIGNAL_CHILD_CHG) { /*Automatically move children to the scrollable object*/ child = lv_obj_get_child(page, NULL); while(child != NULL) { if(lv_obj_is_protected(child, LV_PROTECT_PARENT) == false) { lv_obj_t * tmp = child; child = lv_obj_get_child(page, child); /*Get the next child before move this*/ lv_obj_set_parent(tmp, ext->scrl); } else { child = lv_obj_get_child(page, child); } } } else if(sign == LV_SIGNAL_STYLE_CHG) { /*If no hor_fit enabled set the scrollable's width to the page's width*/ if(lv_cont_get_hor_fit(ext->scrl) == false) { lv_obj_set_width(ext->scrl, lv_obj_get_width(page) - 2 * style->body.padding.hor); } else { ext->scrl->signal_func(ext->scrl, LV_SIGNAL_CORD_CHG, &ext->scrl->coords); } /*The scrollbars are important only if they are visible now*/ if(ext->sb.hor_draw || ext->sb.ver_draw) lv_page_sb_refresh(page); /*Refresh the ext. size because the scrollbars might be positioned out of the page*/ lv_obj_refresh_ext_size(page); } else if(sign == LV_SIGNAL_CORD_CHG) { /*Refresh the scrollbar and notify the scrl if the size is changed*/ if(ext->scrl != NULL && (lv_obj_get_width(page) != lv_area_get_width(param) || lv_obj_get_height(page) != lv_area_get_height(param))) { /*If no hor_fit enabled set the scrollable's width to the page's width*/ if(lv_cont_get_hor_fit(ext->scrl) == false) { lv_obj_set_width(ext->scrl, lv_obj_get_width(page) - 2 * style->body.padding.hor); } ext->scrl->signal_func(ext->scrl, LV_SIGNAL_CORD_CHG, &ext->scrl->coords); /*The scrollbars are important only if they are visible now*/ if(ext->sb.hor_draw || ext->sb.ver_draw) lv_page_sb_refresh(page); } } else if(sign == LV_SIGNAL_PRESSED) { if(ext->pr_action != NULL) { res = ext->pr_action(page); } } else if(sign == LV_SIGNAL_RELEASED) { if(lv_indev_is_dragging(lv_indev_get_act()) == false) { if(ext->rel_action != NULL) { res = ext->rel_action(page); } } } else if(sign == LV_SIGNAL_REFR_EXT_SIZE) { /*Ensure ext. size for the scrollbars if they are out of the page*/ if(page->ext_size < (-ext->sb.style->body.padding.hor)) page->ext_size = -ext->sb.style->body.padding.hor; if(page->ext_size < (-ext->sb.style->body.padding.ver)) page->ext_size = -ext->sb.style->body.padding.ver; } else if(sign == LV_SIGNAL_CONTROLL) { uint32_t c = *((uint32_t *) param); if((c == LV_GROUP_KEY_DOWN) && ext->arrow_scroll) { lv_page_scroll_ver(page, - lv_obj_get_height(page) / 4); } else if((c == LV_GROUP_KEY_UP) && ext->arrow_scroll) { lv_page_scroll_ver(page, lv_obj_get_height(page) / 4); } else if((c == LV_GROUP_KEY_RIGHT) && ext->arrow_scroll) { /*If the page can be scrolled horizontally because it's not wide enough then scroll it vertically*/ if(lv_page_get_scrl_width(page) < lv_obj_get_width(page)) lv_page_scroll_ver(page, - lv_obj_get_height(page) / 4); else lv_page_scroll_hor(page, - lv_obj_get_width(page) / 4); } else if((c == LV_GROUP_KEY_LEFT) && ext->arrow_scroll) { /*If the page can be scrolled horizontally because it's not wide enough then scroll it vertically*/ if(lv_page_get_scrl_width(page) < lv_obj_get_width(page)) lv_page_scroll_ver(page, lv_obj_get_height(page) / 4); else lv_page_scroll_hor(page, lv_obj_get_width(page) / 4); } } else if(sign == LV_SIGNAL_GET_EDITABLE) { bool * editable = (bool *)param; *editable = lv_page_get_arrow_scroll(page); } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_page"; } return res; } /** * Signal function of the scrollable part of a page * @param scrl pointer to the scrollable object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_page_scrollable_signal(lv_obj_t * scrl, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(scrl, sign, param); if(res != LV_RES_OK) return res; lv_obj_t * page = lv_obj_get_parent(scrl); lv_style_t * page_style = lv_obj_get_style(page); lv_page_ext_t * page_ext = lv_obj_get_ext_attr(page); if(sign == LV_SIGNAL_CORD_CHG) { /*Limit the position of the scrollable object to be always visible * (Do not let its edge inner then its parent respective edge)*/ lv_coord_t new_x = lv_obj_get_x(scrl); lv_coord_t new_y = lv_obj_get_y(scrl); bool refr_x = false; bool refr_y = false; lv_area_t page_coords; lv_area_t scrl_coords; lv_obj_get_coords(scrl, &scrl_coords); lv_obj_get_coords(page, &page_coords); lv_area_t * ori_coords = (lv_area_t *) param; lv_coord_t diff_x = scrl->coords.x1 - ori_coords->x1; lv_coord_t diff_y = scrl->coords.y1 - ori_coords->y1; lv_coord_t hpad = page_style->body.padding.hor; lv_coord_t vpad = page_style->body.padding.ver; lv_obj_t * page_parent = lv_obj_get_parent(page); lv_indev_t * indev = lv_indev_get_act(); lv_point_t drag_vect; lv_indev_get_vect(indev, &drag_vect); /* Start the scroll propagation if there is drag vector on the indev, but the drag is not started yet * and the scrollable is in a corner. It will enable the scroll propagation only when a new scroll begins and not * when the scrollable is already being scrolled.*/ if(page_ext->scroll_prop && page_ext->scroll_prop_ip == 0 && lv_indev_is_dragging(indev) == false) { if(((drag_vect.y > 0 && scrl_coords.y1 == page_coords.y1 + vpad) || (drag_vect.y < 0 && scrl_coords.y2 == page_coords.y2 - vpad)) && ((drag_vect.x > 0 && scrl_coords.x1 == page_coords.x1 + hpad) || (drag_vect.x < 0 && scrl_coords.x2 == page_coords.x2 - hpad))) { if(lv_obj_get_parent(page_parent) != NULL) { /*Do not propagate the scroll to a screen*/ page_ext->scroll_prop_ip = 1; } } } /*scrollable width smaller then page width? -> align to left*/ if(lv_area_get_width(&scrl_coords) + 2 * hpad <= lv_area_get_width(&page_coords)) { if(scrl_coords.x1 != page_coords.x1 + hpad) { new_x = hpad; refr_x = true; } } else { /*If the scroll propagation is in progress revert the original coordinates (don't let the page scroll)*/ if(page_ext->scroll_prop_ip) { if(drag_vect.x == diff_x) { /*`scrl` is bouncing: drag pos. it somewhere and here it is reverted. Handle only the pos. because of drag*/ new_x = ori_coords->x1 - page_coords.x1; refr_x = true; } } /*The edges of the scrollable can not be in the page (minus hpad) */ else if(scrl_coords.x2 < page_coords.x2 - hpad) { new_x = lv_area_get_width(&page_coords) - lv_area_get_width(&scrl_coords) - hpad; /* Right align */ refr_x = true; if(page_ext->edge_flash.enabled && page_ext->edge_flash.left_ip == 0 && page_ext->edge_flash.right_ip == 0 && page_ext->edge_flash.top_ip == 0 && page_ext->edge_flash.bottom_ip == 0) { lv_page_start_edge_flash(page); page_ext->edge_flash.right_ip = 1; } } else if(scrl_coords.x1 > page_coords.x1 + hpad) { new_x = hpad; /*Left align*/ refr_x = true; if(page_ext->edge_flash.enabled && page_ext->edge_flash.left_ip == 0 && page_ext->edge_flash.right_ip == 0 && page_ext->edge_flash.top_ip == 0 && page_ext->edge_flash.bottom_ip == 0) { lv_page_start_edge_flash(page); page_ext->edge_flash.left_ip = 1; } } } /*scrollable height smaller then page height? -> align to left*/ if(lv_area_get_height(&scrl_coords) + 2 * vpad <= lv_area_get_height(&page_coords)) { if(scrl_coords.y1 != page_coords.y1 + vpad) { new_y = vpad; refr_y = true; } } else { /*If the scroll propagation is in progress revert the original coordinates (don't let the page scroll)*/ if(page_ext->scroll_prop_ip) { if(drag_vect.y == diff_y) { /*`scrl` is bouncing: drag pos. it somewhere and here it is reverted. Handle only the pos. because of drag*/ new_y = ori_coords->y1 - page_coords.y1; refr_y = true; } } /*The edges of the scrollable can not be in the page (minus vpad) */ else if(scrl_coords.y2 < page_coords.y2 - vpad) { new_y = lv_area_get_height(&page_coords) - lv_area_get_height(&scrl_coords) - vpad; /* Bottom align */ refr_y = true; if(page_ext->edge_flash.enabled && page_ext->edge_flash.left_ip == 0 && page_ext->edge_flash.right_ip == 0 && page_ext->edge_flash.top_ip == 0 && page_ext->edge_flash.bottom_ip == 0) { lv_page_start_edge_flash(page); page_ext->edge_flash.bottom_ip = 1; } } else if(scrl_coords.y1 > page_coords.y1 + vpad) { new_y = vpad; /*Top align*/ refr_y = true; if(page_ext->edge_flash.enabled && page_ext->edge_flash.left_ip == 0 && page_ext->edge_flash.right_ip == 0 && page_ext->edge_flash.top_ip == 0 && page_ext->edge_flash.bottom_ip == 0) { lv_page_start_edge_flash(page); page_ext->edge_flash.top_ip = 1; } } } if(refr_x || refr_y) { lv_obj_set_pos(scrl, new_x, new_y); if(page_ext->scroll_prop_ip) { if(refr_y) lv_obj_set_y(page_parent, lv_obj_get_y(page_parent) + diff_y); if(refr_x) lv_obj_set_x(page_parent, lv_obj_get_x(page_parent) + diff_x); } } lv_page_sb_refresh(page); } else if(sign == LV_SIGNAL_DRAG_END) { /*Scroll propagation is finished on drag end*/ page_ext->scroll_prop_ip = 0; /*Hide scrollbars if required*/ if(page_ext->sb.mode == LV_SB_MODE_DRAG) { lv_area_t sb_area_tmp; if(page_ext->sb.hor_draw) { lv_area_copy(&sb_area_tmp, &page_ext->sb.hor_area); sb_area_tmp.x1 += page->coords.x1; sb_area_tmp.y1 += page->coords.y1; sb_area_tmp.x2 += page->coords.x1; sb_area_tmp.y2 += page->coords.y1; lv_inv_area(&sb_area_tmp); page_ext->sb.hor_draw = 0; } if(page_ext->sb.ver_draw) { lv_area_copy(&sb_area_tmp, &page_ext->sb.ver_area); sb_area_tmp.x1 += page->coords.x1; sb_area_tmp.y1 += page->coords.y1; sb_area_tmp.x2 += page->coords.x1; sb_area_tmp.y2 += page->coords.y1; lv_inv_area(&sb_area_tmp); page_ext->sb.ver_draw = 0; } } } else if(sign == LV_SIGNAL_PRESSED) { if(page_ext->pr_action != NULL) { res = page_ext->pr_action(page); } } else if(sign == LV_SIGNAL_RELEASED) { if(lv_indev_is_dragging(lv_indev_get_act()) == false) { if(page_ext->rel_action != NULL) { res = page_ext->rel_action(page); } } } return res; } /** * Refresh the position and size of the scroll bars. * @param page pointer to a page object */ static void lv_page_sb_refresh(lv_obj_t * page) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); lv_style_t * style = lv_obj_get_style(page); lv_obj_t * scrl = ext->scrl; lv_coord_t size_tmp; lv_coord_t scrl_w = lv_obj_get_width(scrl); lv_coord_t scrl_h = lv_obj_get_height(scrl); lv_coord_t hpad = style->body.padding.hor; lv_coord_t vpad = style->body.padding.ver; lv_coord_t obj_w = lv_obj_get_width(page); lv_coord_t obj_h = lv_obj_get_height(page); /*Always let 'scrollbar width' padding above, under, left and right to the scrollbars * else: * - horizontal and vertical scrollbars can overlap on the corners * - if the page has radius the scrollbar can be out of the radius */ lv_coord_t sb_hor_pad = LV_MATH_MAX(ext->sb.style->body.padding.inner, style->body.padding.hor); lv_coord_t sb_ver_pad = LV_MATH_MAX(ext->sb.style->body.padding.inner, style->body.padding.ver); if(ext->sb.mode == LV_SB_MODE_OFF) return; if(ext->sb.mode == LV_SB_MODE_ON) { ext->sb.hor_draw = 1; ext->sb.ver_draw = 1; } /*Invalidate the current (old) scrollbar areas*/ lv_area_t sb_area_tmp; if(ext->sb.hor_draw != 0) { lv_area_copy(&sb_area_tmp, &ext->sb.hor_area); sb_area_tmp.x1 += page->coords.x1; sb_area_tmp.y1 += page->coords.y1; sb_area_tmp.x2 += page->coords.x1; sb_area_tmp.y2 += page->coords.y1; lv_inv_area(&sb_area_tmp); } if(ext->sb.ver_draw != 0) { lv_area_copy(&sb_area_tmp, &ext->sb.ver_area); sb_area_tmp.x1 += page->coords.x1; sb_area_tmp.y1 += page->coords.y1; sb_area_tmp.x2 += page->coords.x1; sb_area_tmp.y2 += page->coords.y1; lv_inv_area(&sb_area_tmp); } if(ext->sb.mode == LV_SB_MODE_DRAG && lv_indev_is_dragging(lv_indev_get_act()) == false) { ext->sb.hor_draw = 0; ext->sb.ver_draw = 0; return; } /*Horizontal scrollbar*/ if(scrl_w <= obj_w - 2 * hpad) { /*Full sized scroll bar*/ lv_area_set_width(&ext->sb.hor_area, obj_w - 2 * sb_hor_pad); lv_area_set_pos(&ext->sb.hor_area, sb_hor_pad, obj_h - ext->sb.style->body.padding.inner - ext->sb.style->body.padding.ver); if(ext->sb.mode == LV_SB_MODE_AUTO || ext->sb.mode == LV_SB_MODE_DRAG) ext->sb.hor_draw = 0; } else { size_tmp = (obj_w * (obj_w - (2 * sb_hor_pad))) / (scrl_w + 2 * hpad); if(size_tmp < LV_PAGE_SB_MIN_SIZE) size_tmp = LV_PAGE_SB_MIN_SIZE; lv_area_set_width(&ext->sb.hor_area, size_tmp); lv_area_set_pos(&ext->sb.hor_area, sb_hor_pad + (-(lv_obj_get_x(scrl) - hpad) * (obj_w - size_tmp - 2 * sb_hor_pad)) / (scrl_w + 2 * hpad - obj_w), obj_h - ext->sb.style->body.padding.inner - ext->sb.style->body.padding.ver); if(ext->sb.mode == LV_SB_MODE_AUTO || ext->sb.mode == LV_SB_MODE_DRAG) ext->sb.hor_draw = 1; } /*Vertical scrollbar*/ if(scrl_h <= obj_h - 2 * vpad) { /*Full sized scroll bar*/ lv_area_set_height(&ext->sb.ver_area, obj_h - 2 * sb_ver_pad); lv_area_set_pos(&ext->sb.ver_area, obj_w - ext->sb.style->body.padding.inner - ext->sb.style->body.padding.hor, sb_ver_pad); if(ext->sb.mode == LV_SB_MODE_AUTO || ext->sb.mode == LV_SB_MODE_DRAG) ext->sb.ver_draw = 0; } else { size_tmp = (obj_h * (obj_h - (2 * sb_ver_pad))) / (scrl_h + 2 * vpad); if(size_tmp < LV_PAGE_SB_MIN_SIZE) size_tmp = LV_PAGE_SB_MIN_SIZE; lv_area_set_height(&ext->sb.ver_area, size_tmp); lv_area_set_pos(&ext->sb.ver_area, obj_w - ext->sb.style->body.padding.inner - ext->sb.style->body.padding.hor, sb_ver_pad + (-(lv_obj_get_y(scrl) - vpad) * (obj_h - size_tmp - 2 * sb_ver_pad)) / (scrl_h + 2 * vpad - obj_h)); if(ext->sb.mode == LV_SB_MODE_AUTO || ext->sb.mode == LV_SB_MODE_DRAG) ext->sb.ver_draw = 1; } /*Invalidate the new scrollbar areas*/ if(ext->sb.hor_draw != 0) { lv_area_copy(&sb_area_tmp, &ext->sb.hor_area); sb_area_tmp.x1 += page->coords.x1; sb_area_tmp.y1 += page->coords.y1; sb_area_tmp.x2 += page->coords.x1; sb_area_tmp.y2 += page->coords.y1; lv_inv_area(&sb_area_tmp); } if(ext->sb.ver_draw != 0) { lv_area_copy(&sb_area_tmp, &ext->sb.ver_area); sb_area_tmp.x1 += page->coords.x1; sb_area_tmp.y1 += page->coords.y1; sb_area_tmp.x2 += page->coords.x1; sb_area_tmp.y2 += page->coords.y1; lv_inv_area(&sb_area_tmp); } } #if USE_LV_ANIMATION static void edge_flash_anim(void * page, int32_t v) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); ext->edge_flash.state = v; lv_obj_invalidate(page); } static void edge_flash_anim_end(void * page) { lv_page_ext_t * ext = lv_obj_get_ext_attr(page); ext->edge_flash.top_ip = 0; ext->edge_flash.bottom_ip = 0; ext->edge_flash.left_ip = 0; ext->edge_flash.right_ip = 0; lv_obj_invalidate(page); } #endif #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_page.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_page.h * */ #ifndef LV_PAGE_H #define LV_PAGE_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_PAGE != 0 /*Testing of dependencies*/ #if USE_LV_CONT == 0 #error "lv_page: lv_cont is required. Enable it in lv_conf.h (USE_LV_CONT 1) " #endif #include "lv_cont.h" #include "../lv_core/lv_indev.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Scrollbar modes: shows when should the scrollbars be visible*/ enum { LV_SB_MODE_OFF = 0x0, /*Never show scrollbars*/ LV_SB_MODE_ON = 0x1, /*Always show scrollbars*/ LV_SB_MODE_DRAG = 0x2, /*Show scrollbars when page is being dragged*/ LV_SB_MODE_AUTO = 0x3, /*Show scrollbars when the scrollable container is large enough to be scrolled*/ LV_SB_MODE_HIDE = 0x4, /*Hide the scroll bar temporally*/ LV_SB_MODE_UNHIDE = 0x5, /*Unhide the previously hidden scrollbar. Recover it's type too*/ }; typedef uint8_t lv_sb_mode_t; /*Data of page*/ typedef struct { lv_cont_ext_t bg; /*Ext. of ancestor*/ /*New data for this type */ lv_obj_t * scrl; /*The scrollable object on the background*/ lv_style_t *bgo; /*The scrollable object on the background*/ lv_style_t *pr; /*The scrollable object on the background*/ lv_action_t rel_action; /*Function to call when the page is released*/ lv_action_t pr_action; /*Function to call when the page is pressed*/ struct { lv_style_t *style; /*Style of scrollbars*/ lv_area_t hor_area; /*Horizontal scrollbar area relative to the page. (Handled by the library) */ lv_area_t ver_area; /*Vertical scrollbar area relative to the page (Handled by the library)*/ uint8_t hor_draw :1; /*1: horizontal scrollbar is visible now (Handled by the library)*/ uint8_t ver_draw :1; /*1: vertical scrollbar is visible now (Handled by the library)*/ lv_sb_mode_t mode:3; /*Scrollbar visibility from 'lv_page_sb_mode_t'*/ } sb; struct { uint16_t state; /*Store the current size of the edge flash effect*/ lv_style_t *style; /*Style of edge flash effect (usually homogeneous circle)*/ uint8_t enabled :1; /*1: Show a flash animation on the edge*/ uint8_t top_ip :1; /*Used internally to show that top most position is reached (flash is In Progress)*/ uint8_t bottom_ip :1; /*Used internally to show that bottom most position is reached (flash is In Progress)*/ uint8_t right_ip :1; /*Used internally to show that right most position is reached (flash is In Progress)*/ uint8_t left_ip :1; /*Used internally to show that left most position is reached (flash is In Progress)*/ }edge_flash; uint8_t arrow_scroll :1; /*1: Enable scrolling with LV_GROUP_KEY_LEFT/RIGHT/UP/DOWN*/ uint8_t scroll_prop :1; /*1: Propagate the scrolling the the parent if the edge is reached*/ uint8_t scroll_prop_ip :1; /*1: Scroll propagation is in progress (used by the library)*/ } lv_page_ext_t; enum { LV_PAGE_STYLE_BG, LV_PAGE_STYLE_BGO, LV_PAGE_STYLE_PR, LV_PAGE_STYLE_SCRL, LV_PAGE_STYLE_SB, LV_PAGE_STYLE_EDGE_FLASH, }; typedef uint8_t lv_page_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a page objects * @param par pointer to an object, it will be the parent of the new page * @param copy pointer to a page object, if not NULL then the new object will be copied from it * @return pointer to the created page */ lv_obj_t * lv_page_create(lv_obj_t * par, const lv_obj_t * copy); /** * Delete all children of the scrl object, without deleting scrl child. * @param obj pointer to an object */ void lv_page_clean(lv_obj_t *obj); /** * Get the press action of the page * @param page pointer to a page object * @return a function to call when the page is pressed */ lv_action_t lv_page_get_pr_action(lv_obj_t * page); /** * Get the release action of the page * @param page pointer to a page object * @return a function to call when the page is released */ lv_action_t lv_page_get_rel_action(lv_obj_t * page); /** * Get the scrollable object of a page * @param page pointer to a page object * @return pointer to a container which is the scrollable part of the page */ lv_obj_t * lv_page_get_scrl(const lv_obj_t * page); /*===================== * Setter functions *====================*/ /** * Set a release action for the page * @param page pointer to a page object * @param rel_action a function to call when the page is released */ void lv_page_set_rel_action(lv_obj_t * page, lv_action_t rel_action); /** * Set a press action for the page * @param page pointer to a page object * @param pr_action a function to call when the page is pressed */ void lv_page_set_pr_action(lv_obj_t * page, lv_action_t pr_action); /** * Set the scroll bar mode on a page * @param page pointer to a page object * @param sb_mode the new mode from 'lv_page_sb.mode_t' enum */ void lv_page_set_sb_mode(lv_obj_t * page, lv_sb_mode_t sb_mode); /** * Enable/Disable scrolling with arrows if the page is in group (arrows: LV_GROUP_KEY_LEFT/RIGHT/UP/DOWN) * @param page pointer to a page object * @param en true: enable scrolling with arrows */ void lv_page_set_arrow_scroll(lv_obj_t * page, bool en); /** * Enable the scroll propagation feature. If enabled then the page will move its parent if there is no more space to scroll. * @param page pointer to a Page * @param en true or false to enable/disable scroll propagation */ void lv_page_set_scroll_propagation(lv_obj_t * page, bool en); /** * Enable the edge flash effect. (Show an arc when the an edge is reached) * @param page pointer to a Page * @param en true or false to enable/disable end flash */ void lv_page_set_edge_flash(lv_obj_t * page, bool en); /** * Set the fit attribute of the scrollable part of a page. * It means it can set its size automatically to involve all children. * (Can be set separately horizontally and vertically) * @param page pointer to a page object * @param hor_en true: enable horizontal fit * @param ver_en true: enable vertical fit */ static inline void lv_page_set_scrl_fit(lv_obj_t *page, bool hor_en, bool ver_en) { lv_cont_set_fit(lv_page_get_scrl(page), hor_en, ver_en); } /** * Set width of the scrollable part of a page * @param page pointer to a page object * @param w the new width of the scrollable (it ha no effect is horizontal fit is enabled) */ static inline void lv_page_set_scrl_width(lv_obj_t *page, lv_coord_t w) { lv_obj_set_width(lv_page_get_scrl(page), w); } /** * Set height of the scrollable part of a page * @param page pointer to a page object * @param h the new height of the scrollable (it ha no effect is vertical fit is enabled) */ static inline void lv_page_set_scrl_height(lv_obj_t *page, lv_coord_t h) { lv_obj_set_height(lv_page_get_scrl(page), h); } /** * Set the layout of the scrollable part of the page * @param page pointer to a page object * @param layout a layout from 'lv_cont_layout_t' */ static inline void lv_page_set_scrl_layout(lv_obj_t * page, lv_layout_t layout) { lv_cont_set_layout(lv_page_get_scrl(page), layout); } /** * Set a style of a page * @param page pointer to a page object * @param type which style should be set * @param style pointer to a style */ void lv_page_set_style(lv_obj_t *page, lv_page_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Set the scroll bar mode on a page * @param page pointer to a page object * @return the mode from 'lv_page_sb.mode_t' enum */ lv_sb_mode_t lv_page_get_sb_mode(const lv_obj_t * page); /** * Get the the scrolling with arrows (LV_GROUP_KEY_LEFT/RIGHT/UP/DOWN) is enabled or not * @param page pointer to a page object * @return true: scrolling with arrows is enabled */ bool lv_page_get_arrow_scroll(const lv_obj_t * page); /** * Get the scroll propagation property * @param page pointer to a Page * @return true or false */ bool lv_page_get_scroll_propagation(lv_obj_t * page); /** * Get the edge flash effect property. * @param page pointer to a Page * return true or false */ bool lv_page_get_edge_flash(lv_obj_t * page); /** * Get that width which can be set to the children to still not cause overflow (show scrollbars) * @param page pointer to a page object * @return the width which still fits into the page */ lv_coord_t lv_page_get_fit_width(lv_obj_t * page); /** * Get that height which can be set to the children to still not cause overflow (show scrollbars) * @param page pointer to a page object * @return the height which still fits into the page */ lv_coord_t lv_page_get_fit_height(lv_obj_t * page); /** * Get width of the scrollable part of a page * @param page pointer to a page object * @return the width of the scrollable */ static inline lv_coord_t lv_page_get_scrl_width(const lv_obj_t *page) { return lv_obj_get_width(lv_page_get_scrl(page)); } /** * Get height of the scrollable part of a page * @param page pointer to a page object * @return the height of the scrollable */ static inline lv_coord_t lv_page_get_scrl_height(const lv_obj_t *page) { return lv_obj_get_height(lv_page_get_scrl(page)); } /** * Get the layout of the scrollable part of a page * @param page pointer to page object * @return the layout from 'lv_cont_layout_t' */ static inline lv_layout_t lv_page_get_scrl_layout(const lv_obj_t * page) { return lv_cont_get_layout(lv_page_get_scrl(page)); } /** * Get horizontal fit attribute of the scrollable part of a page * @param page pointer to a page object * @return true: horizontal fit is enabled; false: disabled */ static inline bool lv_page_get_scrl_hor_fit(const lv_obj_t * page) { return lv_cont_get_hor_fit(lv_page_get_scrl(page)); } /** * Get vertical fit attribute of the scrollable part of a page * @param page pointer to a page object * @return true: vertical fit is enabled; false: disabled */ static inline bool lv_page_get_scrl_fit_ver(const lv_obj_t * page) { return lv_cont_get_ver_fit(lv_page_get_scrl(page)); } /** * Get a style of a page * @param page pointer to page object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_page_get_style(const lv_obj_t *page, lv_page_style_t type); /*===================== * Other functions *====================*/ /** * Glue the object to the page. After it the page can be moved (dragged) with this object too. * @param obj pointer to an object on a page * @param glue true: enable glue, false: disable glue */ void lv_page_glue_obj(lv_obj_t * obj, bool glue); /** * Focus on an object. It ensures that the object will be visible on the page. * @param page pointer to a page object * @param obj pointer to an object to focus (must be on the page) * @param anim_time scroll animation time in milliseconds (0: no animation) */ void lv_page_focus(lv_obj_t * page, const lv_obj_t * obj, uint16_t anim_time); /** * Scroll the page horizontally * @param page pointer to a page object * @param dist the distance to scroll (< 0: scroll left; > 0 scroll right) */ void lv_page_scroll_hor(lv_obj_t * page, lv_coord_t dist); /** * Scroll the page vertically * @param page pointer to a page object * @param dist the distance to scroll (< 0: scroll down; > 0 scroll up) */ void lv_page_scroll_ver(lv_obj_t * page, lv_coord_t dist); /** * Not intended to use directly by the user but by other object types internally. * Start an edge flash animation. Exactly one `ext->edge_flash.xxx_ip` should be set * @param page */ void lv_page_start_edge_flash(lv_obj_t * page); /********************** * MACROS **********************/ #endif /*USE_LV_PAGE*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_PAGE_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_preload.c ================================================ /** * @file lv_preload.c * */ /********************* * INCLUDES *********************/ #include "lv_preload.h" #if USE_LV_PRELOAD != 0 #include "../lv_misc/lv_math.h" #include "../lv_draw/lv_draw_rect.h" #include "../lv_draw/lv_draw_arc.h" #include "../lv_themes/lv_theme.h" /********************* * DEFINES *********************/ #ifndef LV_PRELOAD_DEF_ARC_LENGTH # define LV_PRELOAD_DEF_ARC_LENGTH 60 /*[deg]*/ #endif #ifndef LV_PRELOAD_DEF_SPIN_TIME # define LV_PRELOAD_DEF_SPIN_TIME 1000 /*[ms]*/ #endif #ifndef LV_PRELOAD_DEF_ANIM # define LV_PRELOAD_DEF_ANIM LV_PRELOAD_TYPE_SPINNING_ARC /*animation type*/ #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_preload_design(lv_obj_t * preload, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_preload_signal(lv_obj_t * preload, lv_signal_t sign, void * param); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_design_func_t ancestor_design; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a pre loader object * @param par pointer to an object, it will be the parent of the new pre loader * @param copy pointer to a pre loader object, if not NULL then the new object will be copied from it * @return pointer to the created pre loader */ lv_obj_t * lv_preload_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("preload create started"); /*Create the ancestor of pre loader*/ lv_obj_t * new_preload = lv_arc_create(par, copy); lv_mem_assert(new_preload); if(new_preload == NULL) return NULL; /*Allocate the pre loader type specific extended data*/ lv_preload_ext_t * ext = lv_obj_allocate_ext_attr(new_preload, sizeof(lv_preload_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_preload); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_preload); /*Initialize the allocated 'ext' */ ext->arc_length = LV_PRELOAD_DEF_ARC_LENGTH; ext->anim_type = LV_PRELOAD_DEF_ANIM; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_preload, lv_preload_signal); lv_obj_set_design_func(new_preload, lv_preload_design); /*Init the new pre loader pre loader*/ if(copy == NULL) { lv_obj_set_size(new_preload, LV_DPI / 2, LV_DPI / 2); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_preload_set_style(new_preload, LV_PRELOAD_STYLE_MAIN, th->preload); } else { lv_obj_set_style(new_preload, &lv_style_pretty_color); } ext->time = LV_PRELOAD_DEF_SPIN_TIME; } /*Copy an existing pre loader*/ else { lv_preload_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->arc_length = copy_ext->arc_length; ext->time = copy_ext->time; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_preload); } lv_preload_set_animation_type(new_preload, ext->anim_type); LV_LOG_INFO("preload created"); return new_preload; } /*====================== * Add/remove functions *=====================*/ /** * Set the length of the spinning arc in degrees * @param preload pointer to a preload object * @param deg length of the arc */ void lv_preload_set_arc_length(lv_obj_t * preload, uint16_t deg) { lv_preload_ext_t * ext = lv_obj_get_ext_attr(preload); ext->arc_length = deg; } /** * Set the spin time of the arc * @param preload pointer to a preload object * @param time time of one round in milliseconds */ void lv_preload_set_spin_time(lv_obj_t * preload, uint16_t time) { lv_preload_ext_t * ext = lv_obj_get_ext_attr(preload); ext->time = time; lv_preload_set_animation_type(preload, ext->anim_type); } /*===================== * Setter functions *====================*/ /** * Set a style of a pre loader. * @param preload pointer to pre loader object * @param type which style should be set * @param style pointer to a style * */ void lv_preload_set_style(lv_obj_t * preload, lv_preload_style_t type, lv_style_t * style) { switch(type) { case LV_PRELOAD_STYLE_MAIN: lv_arc_set_style(preload, LV_ARC_STYLE_MAIN, style); break; } } /** * Set the animation type of a preloadeer. * @param preload pointer to pre loader object * @param type animation type of the preload * */ void lv_preload_set_animation_type(lv_obj_t * preload, lv_preloader_type_t type) { #if USE_LV_ANIMATION lv_preload_ext_t * ext = lv_obj_get_ext_attr(preload); /*delete previous animation*/ //lv_anim_del(preload, NULL); switch(type) { case LV_PRELOAD_TYPE_FILLSPIN_ARC: { ext->anim_type = LV_PRELOAD_TYPE_FILLSPIN_ARC; lv_anim_t a; a.var = preload; a.start = 0; a.end = 360; a.fp = (lv_anim_fp_t)lv_preload_spinner_animation; a.path = lv_anim_path_ease_in_out; a.end_cb = NULL; a.act_time = 0; a.time = ext->time; a.playback = 0; a.playback_pause = 0; a.repeat = 1; a.repeat_pause = 0; lv_anim_create(&a); lv_anim_t b; b.var = preload; b.start = ext->arc_length; b.end = 360 - ext->arc_length; b.fp = (lv_anim_fp_t)lv_preload_set_arc_length; b.path = lv_anim_path_ease_in_out; b.end_cb = NULL; b.act_time = 0; b.time = ext->time; b.playback = 1; b.playback_pause = 0; b.repeat = 1; b.repeat_pause = 0; lv_anim_create(&b); break; } case LV_PRELOAD_TYPE_SPINNING_ARC: default: { ext->anim_type = LV_PRELOAD_TYPE_SPINNING_ARC; lv_anim_t a; a.var = preload; a.start = 0; a.end = 360; a.fp = (lv_anim_fp_t)lv_preload_spinner_animation; a.path = lv_anim_path_ease_in_out; a.end_cb = NULL; a.act_time = 0; a.time = ext->time; a.playback = 0; a.playback_pause = 0; a.repeat = 1; a.repeat_pause = 0; lv_anim_create(&a); break; } } #endif //USE_LV_ANIMATION } /*===================== * Getter functions *====================*/ /** * Get the arc length [degree] of the a pre loader * @param preload pointer to a pre loader object */ uint16_t lv_preload_get_arc_length(const lv_obj_t * preload) { lv_preload_ext_t * ext = lv_obj_get_ext_attr(preload); return ext->arc_length; } /** * Get the spin time of the arc * @param preload pointer to a pre loader object [milliseconds] */ uint16_t lv_preload_get_spin_time(const lv_obj_t * preload) { lv_preload_ext_t * ext = lv_obj_get_ext_attr(preload); return ext->time; } /** * Get style of a pre loader. * @param preload pointer to pre loader object * @param type which style should be get * @return style pointer to the style * */ lv_style_t * lv_preload_get_style(const lv_obj_t * preload, lv_preload_style_t type) { lv_style_t * style = NULL; switch(type) { case LV_PRELOAD_STYLE_MAIN: style = lv_arc_get_style(preload, LV_ARC_STYLE_MAIN); break; default: style = NULL; break; } return style; } /** * Get the animation type of a preloadeer. * @param preload pointer to pre loader object * @return animation type * */ lv_preloader_type_t lv_preload_get_animation_type(lv_obj_t * preload) { lv_preload_ext_t * ext = lv_obj_get_ext_attr(preload); return ext->anim_type; } /*===================== * Other functions *====================*/ /** * Automatically in an animation to rotate the arc of spinner. * @param ptr pointer to preloader * @param val the current desired value [0..360] */ void lv_preload_spinner_animation(void * ptr, int32_t val) { lv_obj_t * preload = ptr; lv_preload_ext_t * ext = lv_obj_get_ext_attr(preload); int16_t angle_start = val - ext->arc_length / 2 + 180; int16_t angle_end = angle_start + ext->arc_length; angle_start = angle_start % 360; angle_end = angle_end % 360; lv_arc_set_angles(preload, angle_start, angle_end); } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the pre loaders * @param preload pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_preload_design(lv_obj_t * preload, const lv_area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { return false; } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { /*Draw a circle as background*/ lv_style_t * style = lv_arc_get_style(preload, LV_ARC_STYLE_MAIN); if(style->body.border.width > 0) { lv_coord_t r = (LV_MATH_MIN(lv_obj_get_width(preload), lv_obj_get_height(preload))) / 2; r -= LV_MATH_MIN(style->body.padding.hor, style->body.padding.ver); lv_coord_t x = preload->coords.x1 + lv_obj_get_width(preload) / 2; lv_coord_t y = preload->coords.y1 + lv_obj_get_height(preload) / 2; lv_style_t bg_style; lv_style_copy(&bg_style, &lv_style_plain); bg_style.body.empty = 1; bg_style.body.radius = LV_RADIUS_CIRCLE; bg_style.body.border.color = style->body.border.color; bg_style.body.border.width = style->body.border.width; lv_area_t bg_area; bg_area.x1 = x - r; bg_area.y1 = y - r; bg_area.x2 = x + r; bg_area.y2 = y + r; lv_draw_rect(&bg_area, mask, &bg_style, lv_obj_get_opa_scale(preload)); } /*Draw the arc above the background circle */ ancestor_design(preload, mask, mode); } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { } return true; } /** * Signal function of the pre loader * @param preload pointer to a pre loader object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_preload_signal(lv_obj_t * preload, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(preload, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_CLEANUP) { /*Nothing to cleanup. (No dynamically allocated memory in 'ext')*/ } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_preload"; } return res; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_preload.h ================================================ /** * @file lv_preload.h * */ #ifndef LV_PRELOAD_H #define LV_PRELOAD_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_PRELOAD != 0 /*Testing of dependencies*/ #if USE_LV_ARC == 0 #error "lv_preload: lv_arc is required. Enable it in lv_conf.h (USE_LV_ARC 1) " #endif #if USE_LV_ANIMATION == 0 #error "lv_preload: animations are required. Enable it in lv_conf.h (USE_LV_ANIMATION 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_arc.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ enum { LV_PRELOAD_TYPE_SPINNING_ARC, LV_PRELOAD_TYPE_FILLSPIN_ARC, }; typedef uint8_t lv_preloader_type_t; /*Data of pre loader*/ typedef struct { lv_arc_ext_t arc; /*Ext. of ancestor*/ /*New data for this type */ uint16_t arc_length; /*Length of the spinning indicator in degree*/ uint16_t time; /*Time of one round*/ lv_preloader_type_t anim_type; /*Type of the arc animation*/ } lv_preload_ext_t; /*Styles*/ enum { LV_PRELOAD_STYLE_MAIN, }; typedef uint8_t lv_preload_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a pre loader objects * @param par pointer to an object, it will be the parent of the new pre loader * @param copy pointer to a pre loader object, if not NULL then the new object will be copied from it * @return pointer to the created pre loader */ lv_obj_t * lv_preload_create(lv_obj_t * par, const lv_obj_t * copy); /*====================== * Add/remove functions *=====================*/ /** * Set the length of the spinning arc in degrees * @param preload pointer to a preload object * @param deg length of the arc */ void lv_preload_set_arc_length(lv_obj_t * preload, uint16_t deg); /** * Set the spin time of the arc * @param preload pointer to a preload object * @param time time of one round in milliseconds */ void lv_preload_set_spin_time(lv_obj_t * preload, uint16_t time); /*===================== * Setter functions *====================*/ /** * Set a style of a pre loader. * @param preload pointer to pre loader object * @param type which style should be set * @param style pointer to a style * */ void lv_preload_set_style(lv_obj_t * preload, lv_preload_style_t type, lv_style_t *style); /** * Set the animation type of a preloadeer. * @param preload pointer to pre loader object * @param type animation type of the preload * */ void lv_preload_set_animation_type(lv_obj_t * preload, lv_preloader_type_t type); /*===================== * Getter functions *====================*/ /** * Get the arc length [degree] of the a pre loader * @param preload pointer to a pre loader object */ uint16_t lv_preload_get_arc_length(const lv_obj_t * preload); /** * Get the spin time of the arc * @param preload pointer to a pre loader object [milliseconds] */ uint16_t lv_preload_get_spin_time(const lv_obj_t * preload); /** * Get style of a pre loader. * @param preload pointer to pre loader object * @param type which style should be get * @return style pointer to the style * */ lv_style_t * lv_preload_get_style(const lv_obj_t * preload, lv_preload_style_t type); /** * Get the animation type of a preloadeer. * @param preload pointer to pre loader object * @return animation type * */ lv_preloader_type_t lv_preload_get_animation_type(lv_obj_t * preload); /*===================== * Other functions *====================*/ /** * Get style of a pre loader. * @param preload pointer to pre loader object * @param type which style should be get * @return style pointer to the style * */ void lv_preload_spinner_animation(void * ptr, int32_t val); /********************** * MACROS **********************/ #endif /*USE_LV_PRELOAD*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_PRELOAD_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_roller.c ================================================ /** * @file lv_roller.c * */ /********************* * INCLUDES *********************/ #include "lv_roller.h" #if USE_LV_ROLLER != 0 #include "../lv_draw/lv_draw.h" #include "../lv_core/lv_group.h" #include "../lv_themes/lv_theme.h" /********************* * DEFINES *********************/ #if USE_LV_ANIMATION # ifndef LV_ROLLER_ANIM_TIME # define LV_ROLLER_ANIM_TIME 200 /*ms*/ # endif #else # undef LV_ROLLER_ANIM_TIME # define LV_ROLLER_ANIM_TIME 0 /*No animation*/ #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_roller_design(lv_obj_t * roller, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_roller_scrl_signal(lv_obj_t * roller_scrl, lv_signal_t sign, void * param); static lv_res_t lv_roller_signal(lv_obj_t * roller, lv_signal_t sign, void * param); static void refr_position(lv_obj_t * roller, bool anim_en); static void draw_bg(lv_obj_t * roller, const lv_area_t * mask); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_signal_func_t ancestor_scrl_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a roller object * @param par pointer to an object, it will be the parent of the new roller * @param copy pointer to a roller object, if not NULL then the new object will be copied from it * @return pointer to the created roller */ lv_obj_t * lv_roller_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("roller create started"); /*Create the ancestor of roller*/ lv_obj_t * new_roller = lv_ddlist_create(par, copy); lv_mem_assert(new_roller); if(new_roller == NULL) return NULL; if(ancestor_scrl_signal == NULL) ancestor_scrl_signal = lv_obj_get_signal_func(lv_page_get_scrl(new_roller)); if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_roller); /*Allocate the roller type specific extended data*/ lv_roller_ext_t * ext = lv_obj_allocate_ext_attr(new_roller, sizeof(lv_roller_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->ddlist.draw_arrow = 0; /*Do not draw arrow by default*/ /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_roller, lv_roller_signal); lv_obj_set_design_func(new_roller, lv_roller_design); /*Init the new roller roller*/ if(copy == NULL) { lv_obj_t * scrl = lv_page_get_scrl(new_roller); lv_obj_set_drag(scrl, true); /*In ddlist is might be disabled*/ lv_page_set_rel_action(new_roller, NULL); /*Roller don't uses it (like ddlist)*/ lv_page_set_scrl_fit(new_roller, true, false); /*Height is specified directly*/ lv_ddlist_open(new_roller, false); lv_ddlist_set_anim_time(new_roller, LV_ROLLER_ANIM_TIME); lv_roller_set_visible_row_count(new_roller, 3); lv_label_set_align(ext->ddlist.label, LV_LABEL_ALIGN_CENTER); lv_obj_set_signal_func(scrl, lv_roller_scrl_signal); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_roller_set_style(new_roller, LV_ROLLER_STYLE_BG, th->roller.bg); lv_roller_set_style(new_roller, LV_ROLLER_STYLE_SEL, th->roller.sel); } else { /*Let the ddlist's style*/ lv_obj_refresh_style(new_roller); /*To set scrollable size automatically*/ } } /*Copy an existing roller*/ else { lv_obj_t * scrl = lv_page_get_scrl(new_roller); lv_ddlist_open(new_roller, false); lv_obj_set_signal_func(scrl, lv_roller_scrl_signal); lv_obj_refresh_style(new_roller); /*Refresh the style with new signal function*/ } LV_LOG_INFO("roller created"); return new_roller; } /*===================== * Setter functions *====================*/ /** * Set the align of the roller's options (left or center) * @param roller - pointer to a roller object * @param align - one of lv_label_align_t values (left, right, center) */ void lv_roller_set_align(lv_obj_t * roller, lv_label_align_t align) { lv_roller_ext_t * ext = lv_obj_get_ext_attr(roller); lv_mem_assert(ext); if(ext->ddlist.label == NULL) return; /*Probably the roller is being deleted if the label is NULL.*/ lv_label_set_align(ext->ddlist.label, align); } /** * Set the selected option * @param roller pointer to a roller object * @param sel_opt id of the selected option (0 ... number of option - 1); * @param anim_en true: set with animation; false set immediately */ void lv_roller_set_selected(lv_obj_t * roller, uint16_t sel_opt, bool anim_en) { #if USE_LV_ANIMATION == 0 anim_en = false; #endif if(lv_roller_get_selected(roller) == sel_opt) return; lv_ddlist_set_selected(roller, sel_opt); refr_position(roller, anim_en); } /** * Set the height to show the given number of rows (options) * @param roller pointer to a roller object * @param row_cnt number of desired visible rows */ void lv_roller_set_visible_row_count(lv_obj_t * roller, uint8_t row_cnt) { lv_roller_ext_t * ext = lv_obj_get_ext_attr(roller); lv_style_t * style_label = lv_obj_get_style(ext->ddlist.label); uint8_t n_line_space = (row_cnt > 1) ? row_cnt - 1 : 1; lv_ddlist_set_fix_height(roller, lv_font_get_height(style_label->text.font) * row_cnt + style_label->text.line_space * n_line_space); } /** * Set a style of a roller * @param roller pointer to a roller object * @param type which style should be set * @param style pointer to a style */ void lv_roller_set_style(lv_obj_t * roller, lv_roller_style_t type, lv_style_t * style) { switch(type) { case LV_ROLLER_STYLE_BG: lv_obj_set_style(roller, style); break; case LV_ROLLER_STYLE_SEL: lv_ddlist_set_style(roller, LV_DDLIST_STYLE_SEL, style); break; } } /*===================== * Getter functions *====================*/ /** * Get the align attribute. Default alignment after _create is LV_LABEL_ALIGN_CENTER * @param roller pointer to a roller object * @return LV_LABEL_ALIGN_LEFT, LV_LABEL_ALIGN_RIGHT or LV_LABEL_ALIGN_CENTER */ lv_label_align_t lv_roller_get_align(const lv_obj_t * roller) { lv_roller_ext_t * ext = lv_obj_get_ext_attr(roller); lv_mem_assert(ext); lv_mem_assert(ext->ddlist.label); return lv_label_get_align(ext->ddlist.label); } /** * Get the auto width set attribute * @param roller pointer to a roller object * @return true: auto size enabled; false: manual width settings enabled */ bool lv_roller_get_hor_fit(const lv_obj_t * roller) { return lv_page_get_scrl_hor_fit(roller); } /** * Get a style of a roller * @param roller pointer to a roller object * @param type which style should be get * @return style pointer to a style * */ lv_style_t * lv_roller_get_style(const lv_obj_t * roller, lv_roller_style_t type) { switch(type) { case LV_ROLLER_STYLE_BG: return lv_obj_get_style(roller); case LV_ROLLER_STYLE_SEL: return lv_ddlist_get_style(roller, LV_DDLIST_STYLE_SEL); default: return NULL; } /*To avoid warning*/ return NULL; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the rollers * @param roller pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_roller_design(lv_obj_t * roller, const lv_area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { return false; } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { draw_bg(roller, mask); lv_style_t * style = lv_roller_get_style(roller, LV_ROLLER_STYLE_BG); lv_opa_t opa_scale = lv_obj_get_opa_scale(roller); const lv_font_t * font = style->text.font; lv_roller_ext_t * ext = lv_obj_get_ext_attr(roller); lv_coord_t font_h = lv_font_get_height(font); lv_area_t rect_area; rect_area.y1 = roller->coords.y1 + lv_obj_get_height(roller) / 2 - font_h / 2 - style->text.line_space / 2; if((font_h & 0x1) && (style->text.line_space & 0x1)) rect_area.y1 --; /*Compensate the two rounding error*/ rect_area.y2 = rect_area.y1 + font_h + style->text.line_space - 1; rect_area.x1 = roller->coords.x1; rect_area.x2 = roller->coords.x2; lv_draw_rect(&rect_area, mask, ext->ddlist.sel_style, opa_scale); } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { lv_style_t * style = lv_roller_get_style(roller, LV_ROLLER_STYLE_BG); lv_roller_ext_t * ext = lv_obj_get_ext_attr(roller); const lv_font_t * font = style->text.font; lv_coord_t font_h = lv_font_get_height(font); lv_opa_t opa_scale = lv_obj_get_opa_scale(roller); /*Redraw the text on the selected area with a different color*/ lv_area_t rect_area; rect_area.y1 = roller->coords.y1 + lv_obj_get_height(roller) / 2 - font_h / 2 - style->text.line_space / 2; if((font_h & 0x1) && (style->text.line_space & 0x1)) rect_area.y1 --; /*Compensate the two rounding error*/ rect_area.y2 = rect_area.y1 + font_h + style->text.line_space - 1; rect_area.x1 = roller->coords.x1; rect_area.x2 = roller->coords.x2; lv_area_t mask_sel; bool area_ok; area_ok = lv_area_intersect(&mask_sel, mask, &rect_area); if(area_ok) { lv_style_t * sel_style = lv_roller_get_style(roller, LV_ROLLER_STYLE_SEL); lv_style_t new_style; lv_txt_flag_t txt_align = LV_TXT_FLAG_NONE; { lv_label_align_t label_align = lv_label_get_align(ext->ddlist.label); if(LV_LABEL_ALIGN_CENTER == label_align) { txt_align |= LV_TXT_FLAG_CENTER; } else if(LV_LABEL_ALIGN_RIGHT == label_align) { txt_align |= LV_TXT_FLAG_RIGHT; } } lv_style_copy(&new_style, style); new_style.text.color = sel_style->text.color; new_style.text.opa = sel_style->text.opa; lv_draw_label(&ext->ddlist.label->coords, &mask_sel, &new_style, opa_scale, lv_label_get_text(ext->ddlist.label), txt_align, NULL); } } return true; } /** * Signal function of the roller * @param roller pointer to a roller object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_roller_signal(lv_obj_t * roller, lv_signal_t sign, void * param) { lv_res_t res = LV_RES_OK; /*Don't let the drop down list to handle the control signals. It works differently*/ if(sign != LV_SIGNAL_CONTROLL && sign != LV_SIGNAL_FOCUS && sign != LV_SIGNAL_DEFOCUS) { /* Include the ancient signal function */ res = ancestor_signal(roller, sign, param); if(res != LV_RES_OK) return res; } lv_roller_ext_t * ext = lv_obj_get_ext_attr(roller); lv_align_t obj_align = LV_ALIGN_IN_LEFT_MID; if(ext->ddlist.label) { lv_label_align_t label_align = lv_label_get_align(ext->ddlist.label); if(LV_LABEL_ALIGN_CENTER == label_align) obj_align = LV_ALIGN_CENTER; else if(LV_LABEL_ALIGN_RIGHT == label_align) obj_align = LV_ALIGN_IN_RIGHT_MID; } if(sign == LV_SIGNAL_STYLE_CHG) { lv_obj_set_height(lv_page_get_scrl(roller), lv_obj_get_height(ext->ddlist.label) + lv_obj_get_height(roller)); lv_obj_align(ext->ddlist.label, NULL, obj_align, 0, 0); lv_ddlist_set_selected(roller, ext->ddlist.sel_opt_id); refr_position(roller, false); } else if(sign == LV_SIGNAL_CORD_CHG) { if(lv_obj_get_width(roller) != lv_area_get_width(param) || lv_obj_get_height(roller) != lv_area_get_height(param)) { lv_ddlist_set_fix_height(roller, lv_obj_get_height(roller)); lv_obj_set_height(lv_page_get_scrl(roller), lv_obj_get_height(ext->ddlist.label) + lv_obj_get_height(roller)); lv_obj_align(ext->ddlist.label, NULL, obj_align, 0, 0); lv_ddlist_set_selected(roller, ext->ddlist.sel_opt_id); refr_position(roller, false); } } else if(sign == LV_SIGNAL_FOCUS) { #if USE_LV_GROUP lv_group_t * g = lv_obj_get_group(roller); bool editing = lv_group_get_editing(g); lv_hal_indev_type_t indev_type = lv_indev_get_type(lv_indev_get_act()); /*Encoders need special handling*/ if(indev_type == LV_INDEV_TYPE_ENCODER) { /*In navigate mode revert the original value*/ if(!editing) { if(ext->ddlist.sel_opt_id != ext->ddlist.sel_opt_id_ori) { ext->ddlist.sel_opt_id = ext->ddlist.sel_opt_id_ori; refr_position(roller, true); } } /*Save the current state when entered to edit mode*/ else { ext->ddlist.sel_opt_id_ori = ext->ddlist.sel_opt_id; } } else { ext->ddlist.sel_opt_id_ori = ext->ddlist.sel_opt_id; /*Save the current value. Used to revert this state if ENER wont't be pressed*/ } #endif } else if(sign == LV_SIGNAL_DEFOCUS) { #if USE_LV_GROUP /*Revert the original state*/ if(ext->ddlist.sel_opt_id != ext->ddlist.sel_opt_id_ori) { ext->ddlist.sel_opt_id = ext->ddlist.sel_opt_id_ori; refr_position(roller, true); } #endif } else if(sign == LV_SIGNAL_CONTROLL) { char c = *((char *)param); if(c == LV_GROUP_KEY_RIGHT || c == LV_GROUP_KEY_DOWN) { if(ext->ddlist.sel_opt_id + 1 < ext->ddlist.option_cnt) { lv_roller_set_selected(roller, ext->ddlist.sel_opt_id + 1, true); } } else if(c == LV_GROUP_KEY_LEFT || c == LV_GROUP_KEY_UP) { if(ext->ddlist.sel_opt_id > 0) { lv_roller_set_selected(roller, ext->ddlist.sel_opt_id - 1, true); } } else if(c == LV_GROUP_KEY_ENTER) { ext->ddlist.sel_opt_id_ori = ext->ddlist.sel_opt_id; /*Set the entered value as default*/ if(ext->ddlist.action) ext->ddlist.action(roller); #if USE_LV_GROUP lv_group_t * g = lv_obj_get_group(roller); bool editing = lv_group_get_editing(g); if(editing) lv_group_set_editing(g, false); /*In edit mode go to navigate mode if an option is selected*/ #endif } } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_roller"; } return res; } /** * Signal function of the scrollable part of the roller. * @param roller_scrl ointer to the scrollable part of roller (page) * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_roller_scrl_signal(lv_obj_t * roller_scrl, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_scrl_signal(roller_scrl, sign, param); if(res != LV_RES_OK) return res; lv_indev_t * indev = lv_indev_get_act(); int32_t id = -1; lv_obj_t * roller = lv_obj_get_parent(roller_scrl); lv_roller_ext_t * ext = lv_obj_get_ext_attr(roller); if(ext->ddlist.label == NULL) return LV_RES_INV; /*On delete the ddlist signal deletes the label so nothing left to do here*/ lv_style_t * style_label = lv_obj_get_style(ext->ddlist.label); const lv_font_t * font = style_label->text.font; lv_coord_t font_h = lv_font_get_height(font); if(sign == LV_SIGNAL_DRAG_END) { /*If dragged then align the list to there be an element in the middle*/ lv_coord_t label_y1 = ext->ddlist.label->coords.y1 - roller->coords.y1; lv_coord_t label_unit = font_h + style_label->text.line_space; lv_coord_t mid = (roller->coords.y2 - roller->coords.y1) / 2; id = (mid - label_y1 + style_label->text.line_space / 2) / label_unit; if(id < 0) id = 0; if(id >= ext->ddlist.option_cnt) id = ext->ddlist.option_cnt - 1; ext->ddlist.sel_opt_id = id; if(ext->ddlist.action) ext->ddlist.action(roller); } else if(sign == LV_SIGNAL_RELEASED) { /*If picked an option by clicking then set it*/ if(!lv_indev_is_dragging(indev)) { lv_point_t p; lv_indev_get_point(indev, &p); p.y = p.y - ext->ddlist.label->coords.y1; id = p.y / (font_h + style_label->text.line_space); if(id < 0) id = 0; if(id >= ext->ddlist.option_cnt) id = ext->ddlist.option_cnt - 1; ext->ddlist.sel_opt_id = id; if(ext->ddlist.action) ext->ddlist.action(roller); } } /*Position the scrollable according to the new selected option*/ if(id != -1) { refr_position(roller, true); } return res; } /** * Draw a rectangle which has gradient on its top and bottom * @param roller pointer to a roller object * @param mask pointer to the current mask (from the design function) */ static void draw_bg(lv_obj_t * roller, const lv_area_t * mask) { lv_style_t * style = lv_roller_get_style(roller, LV_ROLLER_STYLE_BG); lv_area_t half_mask; lv_area_t half_roller; lv_coord_t h = lv_obj_get_height(roller); bool union_ok; lv_area_copy(&half_roller, &roller->coords); half_roller.x1 -= roller->ext_size; /*Add ext size too (e.g. because of shadow draw) */ half_roller.x2 += roller->ext_size; half_roller.y1 -= roller->ext_size; half_roller.y2 = roller->coords.y1 + h / 2; union_ok = lv_area_intersect(&half_mask, &half_roller, mask); half_roller.x1 += roller->ext_size; /*Revert ext. size adding*/ half_roller.x2 -= roller->ext_size; half_roller.y1 += roller->ext_size; half_roller.y2 += style->body.radius; if(union_ok) { lv_draw_rect(&half_roller, &half_mask, style, lv_obj_get_opa_scale(roller)); } half_roller.x1 -= roller->ext_size; /*Add ext size too (e.g. because of shadow draw) */ half_roller.x2 += roller->ext_size; half_roller.y2 = roller->coords.y2 + roller->ext_size; half_roller.y1 = roller->coords.y1 + h / 2; if((h & 0x1) == 0) half_roller.y1++; /*With even height the pixels in the middle would be drawn twice*/ union_ok = lv_area_intersect(&half_mask, &half_roller, mask); half_roller.x1 += roller->ext_size; /*Revert ext. size adding*/ half_roller.x2 -= roller->ext_size; half_roller.y2 -= roller->ext_size; half_roller.y1 -= style->body.radius; if(union_ok) { lv_color_t main_tmp = style->body.main_color; lv_color_t grad_tmp = style->body.grad_color; style->body.main_color = grad_tmp; style->body.grad_color = main_tmp; lv_draw_rect(&half_roller, &half_mask, style, lv_obj_get_opa_scale(roller)); style->body.main_color = main_tmp; style->body.grad_color = grad_tmp; } } /** * Refresh the position of the roller. It uses the id stored in: ext->ddlist.selected_option_id * @param roller pointer to a roller object * @param anim_en true: refresh with animation; false: without animation */ static void refr_position(lv_obj_t * roller, bool anim_en) { #if USE_LV_ANIMATION == 0 anim_en = false; #endif lv_obj_t * roller_scrl = lv_page_get_scrl(roller); lv_roller_ext_t * ext = lv_obj_get_ext_attr(roller); lv_style_t * style_label = lv_obj_get_style(ext->ddlist.label); const lv_font_t * font = style_label->text.font; lv_coord_t font_h = lv_font_get_height(font); lv_coord_t h = lv_obj_get_height(roller); int32_t id = ext->ddlist.sel_opt_id; lv_coord_t line_y1 = id * (font_h + style_label->text.line_space) + ext->ddlist.label->coords.y1 - roller_scrl->coords.y1; lv_coord_t new_y = - line_y1 + (h - font_h) / 2; if(ext->ddlist.anim_time == 0 || anim_en == false) { lv_obj_set_y(roller_scrl, new_y); } else { #if USE_LV_ANIMATION lv_anim_t a; a.var = roller_scrl; a.start = lv_obj_get_y(roller_scrl); a.end = new_y; a.fp = (lv_anim_fp_t)lv_obj_set_y; a.path = lv_anim_path_linear; a.end_cb = NULL; a.act_time = 0; a.time = ext->ddlist.anim_time; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); #endif } } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_roller.h ================================================ /** * @file lv_roller.h * */ #ifndef LV_ROLLER_H #define LV_ROLLER_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_ROLLER != 0 /*Testing of dependencies*/ #if USE_LV_DDLIST == 0 #error "lv_roller: lv_ddlist is required. Enable it in lv_conf.h (USE_LV_DDLIST 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_ddlist.h" #include "lv_label.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of roller*/ typedef struct { lv_ddlist_ext_t ddlist; /*Ext. of ancestor*/ /*New data for this type */ } lv_roller_ext_t; enum { LV_ROLLER_STYLE_BG, LV_ROLLER_STYLE_SEL, }; typedef uint8_t lv_roller_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a roller object * @param par pointer to an object, it will be the parent of the new roller * @param copy pointer to a roller object, if not NULL then the new object will be copied from it * @return pointer to the created roller */ lv_obj_t * lv_roller_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set the align of the roller's options (left, right or center[default]) * @param roller - pointer to a roller object * @param align - one of lv_label_align_t values (left, right, center) */ void lv_roller_set_align(lv_obj_t * roller, lv_label_align_t align); /** * Set the options on a roller * @param roller pointer to roller object * @param options a string with '\n' separated options. E.g. "One\nTwo\nThree" */ static inline void lv_roller_set_options(lv_obj_t * roller, const char * options) { lv_ddlist_set_options(roller, options); } /** * Set the selected option * @param roller pointer to a roller object * @param sel_opt id of the selected option (0 ... number of option - 1); * @param anim_en true: set with animation; false set immediately */ void lv_roller_set_selected(lv_obj_t *roller, uint16_t sel_opt, bool anim_en); /** * Set a function to call when a new option is chosen * @param roller pointer to a roller * @param action pointer to a callback function */ static inline void lv_roller_set_action(lv_obj_t * roller, lv_action_t action) { lv_ddlist_set_action(roller, action); } /** * Set the height to show the given number of rows (options) * @param roller pointer to a roller object * @param row_cnt number of desired visible rows */ void lv_roller_set_visible_row_count(lv_obj_t *roller, uint8_t row_cnt); /** * Enable or disable the horizontal fit to the content * @param roller pointer to a roller * @param en true: enable auto fit; false: disable auto fit */ static inline void lv_roller_set_hor_fit(lv_obj_t * roller, bool en) { lv_ddlist_set_hor_fit(roller, en); } /** * Set the open/close animation time. * @param roller pointer to a roller object * @param anim_time: open/close animation time [ms] */ static inline void lv_roller_set_anim_time(lv_obj_t *roller, uint16_t anim_time) { lv_ddlist_set_anim_time(roller, anim_time); } /** * Set a style of a roller * @param roller pointer to a roller object * @param type which style should be set * @param style pointer to a style */ void lv_roller_set_style(lv_obj_t *roller, lv_roller_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Get the align attribute. Default alignment after _create is LV_LABEL_ALIGN_CENTER * @param roller pointer to a roller object * @return LV_LABEL_ALIGN_LEFT, LV_LABEL_ALIGN_RIGHT or LV_LABEL_ALIGN_CENTER */ lv_label_align_t lv_roller_get_align(const lv_obj_t * roller); /** * Get the options of a roller * @param roller pointer to roller object * @return the options separated by '\n'-s (E.g. "Option1\nOption2\nOption3") */ static inline const char * lv_roller_get_options(const lv_obj_t *roller) { return lv_ddlist_get_options(roller); } /** * Get the id of the selected option * @param roller pointer to a roller object * @return id of the selected option (0 ... number of option - 1); */ static inline uint16_t lv_roller_get_selected(const lv_obj_t *roller) { return lv_ddlist_get_selected(roller); } /** * Get the current selected option as a string * @param roller pointer to roller object * @param buf pointer to an array to store the string */ static inline void lv_roller_get_selected_str(const lv_obj_t * roller, char * buf) { lv_ddlist_get_selected_str(roller, buf); } /** * Get the "option selected" callback function * @param roller pointer to a roller * @return pointer to the call back function */ static inline lv_action_t lv_roller_get_action(const lv_obj_t * roller) { return lv_ddlist_get_action(roller); } /** * Get the open/close animation time. * @param roller pointer to a roller * @return open/close animation time [ms] */ static inline uint16_t lv_roller_get_anim_time(const lv_obj_t * roller) { return lv_ddlist_get_anim_time(roller); } /** * Get the auto width set attribute * @param roller pointer to a roller object * @return true: auto size enabled; false: manual width settings enabled */ bool lv_roller_get_hor_fit(const lv_obj_t *roller); /** * Get a style of a roller * @param roller pointer to a roller object * @param type which style should be get * @return style pointer to a style * */ lv_style_t * lv_roller_get_style(const lv_obj_t *roller, lv_roller_style_t type); /********************** * MACROS **********************/ #endif /*USE_LV_ROLLER*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_ROLLER_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_slider.c ================================================ /* * Copyright (c) 2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_slider.c * */ /********************* * INCLUDES *********************/ #include "lv_slider.h" #if USE_LV_SLIDER != 0 #include "../lv_core/lv_group.h" #include "../lv_draw/lv_draw.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ #define LV_SLIDER_SIZE_MIN 4 /*hor. pad and ver. pad cannot make the bar or indicator smaller then this [px]*/ #define LV_SLIDER_NOT_PRESSED INT16_MIN /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_slider_design(lv_obj_t * slider, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_slider_signal(lv_obj_t * slider, lv_signal_t sign, void * param); /********************** * STATIC VARIABLES **********************/ static lv_design_func_t ancestor_design_f; static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a slider objects * @param par pointer to an object, it will be the parent of the new slider * @param copy pointer to a slider object, if not NULL then the new object will be copied from it * @return pointer to the created slider */ lv_obj_t * lv_slider_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("slider create started"); /*Create the ancestor slider*/ lv_obj_t * new_slider = lv_bar_create(par, copy); lv_mem_assert(new_slider); if(new_slider == NULL) return NULL; if(ancestor_design_f == NULL) ancestor_design_f = lv_obj_get_design_func(new_slider); if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_slider); /*Allocate the slider type specific extended data*/ lv_slider_ext_t * ext = lv_obj_allocate_ext_attr(new_slider, sizeof(lv_slider_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; /*Initialize the allocated 'ext' */ ext->action = NULL; ext->drag_value = LV_SLIDER_NOT_PRESSED; ext->style_knob = &lv_style_pretty; ext->knob_in = 0; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_slider, lv_slider_signal); lv_obj_set_design_func(new_slider, lv_slider_design); /*Init the new slider slider*/ if(copy == NULL) { lv_obj_set_click(new_slider, true); lv_obj_set_protect(new_slider, LV_PROTECT_PRESS_LOST); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_slider_set_style(new_slider, LV_SLIDER_STYLE_BG, th->slider.bg); lv_slider_set_style(new_slider, LV_SLIDER_STYLE_INDIC, th->slider.indic); lv_slider_set_style(new_slider, LV_SLIDER_STYLE_KNOB, th->slider.knob); } else { lv_slider_set_style(new_slider, LV_SLIDER_STYLE_KNOB, ext->style_knob); } } /*Copy an existing slider*/ else { lv_slider_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->style_knob = copy_ext->style_knob; ext->action = copy_ext->action; ext->knob_in = copy_ext->knob_in; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_slider); } LV_LOG_INFO("slider created"); return new_slider; } /*===================== * Setter functions *====================*/ /** * Set a function which will be called when a new value is set on the slider * @param slider pointer to slider object * @param action a callback function */ void lv_slider_set_action(lv_obj_t * slider, lv_action_t action) { lv_slider_ext_t * ext = lv_obj_get_ext_attr(slider); ext->action = action; } /** * Set the 'knob in' attribute of a slider * @param slider pointer to slider object * @param in true: the knob is drawn always in the slider; * false: the knob can be out on the edges */ void lv_slider_set_knob_in(lv_obj_t * slider, bool in) { lv_slider_ext_t * ext = lv_obj_get_ext_attr(slider); if(ext->knob_in == in) return; ext->knob_in = in == false ? 0 : 1; lv_obj_invalidate(slider); } /** * Set a style of a slider * @param slider pointer to a slider object * @param type which style should be set * @param style pointer to a style */ void lv_slider_set_style(lv_obj_t * slider, lv_slider_style_t type, lv_style_t * style) { lv_slider_ext_t * ext = lv_obj_get_ext_attr(slider); switch(type) { case LV_SLIDER_STYLE_BG: lv_bar_set_style(slider, LV_BAR_STYLE_BG, style); break; case LV_SLIDER_STYLE_INDIC: lv_bar_set_style(slider, LV_BAR_STYLE_INDIC, style); break; case LV_SLIDER_STYLE_KNOB: ext->style_knob = style; lv_obj_refresh_ext_size(slider); break; } } /*===================== * Getter functions *====================*/ /** * Get the value of a slider * @param slider pointer to a slider object * @return the value of the slider */ int16_t lv_slider_get_value(const lv_obj_t * slider) { lv_slider_ext_t * ext = lv_obj_get_ext_attr(slider); if(ext->drag_value != LV_SLIDER_NOT_PRESSED) return ext->drag_value; else return lv_bar_get_value(slider); } /** * Get the slider action function * @param slider pointer to slider object * @return the callback function */ lv_action_t lv_slider_get_action(const lv_obj_t * slider) { lv_slider_ext_t * ext = lv_obj_get_ext_attr(slider); return ext->action; } /** * Give the slider is being dragged or not * @param slider pointer to a slider object * @return true: drag in progress false: not dragged */ bool lv_slider_is_dragged(const lv_obj_t * slider) { lv_slider_ext_t * ext = lv_obj_get_ext_attr(slider); return ext->drag_value == LV_SLIDER_NOT_PRESSED ? false : true; } /** * Get the 'knob in' attribute of a slider * @param slider pointer to slider object * @return true: the knob is drawn always in the slider; * false: the knob can be out on the edges */ bool lv_slider_get_knob_in(const lv_obj_t * slider) { lv_slider_ext_t * ext = lv_obj_get_ext_attr(slider); return ext->knob_in == 0 ? false : true; } /** * Get a style of a slider * @param slider pointer to a slider object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_slider_get_style(const lv_obj_t * slider, lv_slider_style_t type) { lv_style_t * style = NULL; lv_slider_ext_t * ext = lv_obj_get_ext_attr(slider); switch(type) { case LV_SLIDER_STYLE_BG: style = lv_bar_get_style(slider, LV_BAR_STYLE_BG); break; case LV_SLIDER_STYLE_INDIC: style = lv_bar_get_style(slider, LV_BAR_STYLE_INDIC); break; case LV_SLIDER_STYLE_KNOB: style = ext->style_knob; break; default: style = NULL; break; } return style; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the sliders * @param slider pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_slider_design(lv_obj_t * slider, const lv_area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { return false; } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { lv_slider_ext_t * ext = lv_obj_get_ext_attr(slider); lv_style_t * style_bg = lv_slider_get_style(slider, LV_SLIDER_STYLE_BG); lv_style_t * style_knob = lv_slider_get_style(slider, LV_SLIDER_STYLE_KNOB); lv_style_t * style_indic = lv_slider_get_style(slider, LV_SLIDER_STYLE_INDIC); lv_opa_t opa_scale = lv_obj_get_opa_scale(slider); lv_coord_t slider_w = lv_area_get_width(&slider->coords); lv_coord_t slider_h = lv_area_get_height(&slider->coords); /*Draw the bar*/ lv_area_t area_bg; lv_area_copy(&area_bg, &slider->coords); /*Be sure at least LV_SLIDER_SIZE_MIN size will remain*/ lv_coord_t pad_ver_bg = style_bg->body.padding.ver; lv_coord_t pad_hor_bg = style_bg->body.padding.hor; if(pad_ver_bg * 2 + LV_SLIDER_SIZE_MIN > lv_area_get_height(&area_bg)) { pad_ver_bg = (lv_area_get_height(&area_bg) - LV_SLIDER_SIZE_MIN) >> 1; } if(pad_hor_bg * 2 + LV_SLIDER_SIZE_MIN > lv_area_get_width(&area_bg)) { pad_hor_bg = (lv_area_get_width(&area_bg) - LV_SLIDER_SIZE_MIN) >> 1; } if(ext->knob_in) { /*Enable extra size if the knob is inside */ area_bg.x1 += pad_hor_bg; area_bg.x2 -= pad_hor_bg; area_bg.y1 += pad_hor_bg; area_bg.y2 -= pad_hor_bg; } else { /*Let space only in the perpendicular directions*/ area_bg.x1 += slider_w < slider_h ? pad_hor_bg : 0; /*Pad only for vertical slider*/ area_bg.x2 -= slider_w < slider_h ? pad_hor_bg : 0; /*Pad only for vertical slider*/ area_bg.y1 += slider_w > slider_h ? pad_ver_bg : 0; /*Pad only for horizontal slider*/ area_bg.y2 -= slider_w > slider_h ? pad_ver_bg : 0; /*Pad only for horizontal slider*/ } #if USE_LV_GROUP == 0 lv_draw_rect(&area_bg, mask, style_bg, lv_obj_get_opa_scale(slider)); #else /* Draw the borders later if the bar is focused. * At value = 100% the indicator can cover to whole background and the focused style won't be visible*/ if(lv_obj_is_focused(slider)) { lv_style_t style_tmp; lv_style_copy(&style_tmp, style_bg); style_tmp.body.border.width = 0; lv_draw_rect(&area_bg, mask, &style_tmp, opa_scale); } else { lv_draw_rect(&area_bg, mask, style_bg, opa_scale); } #endif /*Draw the indicator*/ lv_area_t area_indic; lv_area_copy(&area_indic, &area_bg); /*Be sure at least ver pad/hor pad width indicator will remain*/ lv_coord_t pad_ver_indic = style_indic->body.padding.ver; lv_coord_t pad_hor_indic = style_indic->body.padding.hor; if(pad_ver_indic * 2 + LV_SLIDER_SIZE_MIN > lv_area_get_height(&area_bg)) { pad_ver_indic = (lv_area_get_height(&area_bg) - LV_SLIDER_SIZE_MIN) >> 1; } if(pad_hor_indic * 2 + LV_SLIDER_SIZE_MIN > lv_area_get_width(&area_bg)) { pad_hor_indic = (lv_area_get_width(&area_bg) - LV_SLIDER_SIZE_MIN) >> 1; } area_indic.x1 += pad_hor_indic; area_indic.x2 -= pad_hor_indic; area_indic.y1 += pad_ver_indic; area_indic.y2 -= pad_ver_indic; lv_coord_t cur_value = lv_slider_get_value(slider); lv_coord_t min_value = lv_slider_get_min_value(slider); lv_coord_t max_value = lv_slider_get_max_value(slider); /*If dragged draw to the drag position*/ if(ext->drag_value != LV_SLIDER_NOT_PRESSED) cur_value = ext->drag_value; if(slider_w >= slider_h) { area_indic.x2 = (int32_t)((int32_t)(lv_area_get_width(&area_indic)) * (cur_value - min_value)) / (max_value - min_value); area_indic.x2 = area_indic.x1 + area_indic.x2 - 1; } else { area_indic.y1 = (int32_t)((int32_t)(lv_area_get_height(&area_indic)) * (cur_value - min_value)) / (max_value - min_value); area_indic.y1 = area_indic.y2 - area_indic.y1 + 1; } if(cur_value != min_value) lv_draw_rect(&area_indic, mask, style_indic, opa_scale); /*Before the knob add the border if required*/ #if USE_LV_GROUP /* Draw the borders later if the bar is focused. * At value = 100% the indicator can cover to whole background and the focused style won't be visible*/ if(lv_obj_is_focused(slider)) { lv_style_t style_tmp; lv_style_copy(&style_tmp, style_bg); style_tmp.body.empty = 1; style_tmp.body.shadow.width = 0; lv_draw_rect(&area_bg, mask, &style_tmp, opa_scale); } #endif /*Draw the knob*/ lv_area_t knob_area; lv_area_copy(&knob_area, &slider->coords); if(slider_w >= slider_h) { if(ext->knob_in == 0) { knob_area.x1 = area_indic.x2 - slider_h / 2; knob_area.x2 = knob_area.x1 + slider_h - 1; } else { knob_area.x1 = (int32_t)((int32_t)(slider_w - slider_h - 1) * (cur_value - min_value)) / (max_value - min_value); knob_area.x1 += slider->coords.x1; knob_area.x2 = knob_area.x1 + slider_h - 1; } knob_area.y1 = slider->coords.y1; knob_area.y2 = slider->coords.y2; } else { if(ext->knob_in == 0) { knob_area.y1 = area_indic.y1 - slider_w / 2; knob_area.y2 = knob_area.y1 + slider_w - 1; } else { knob_area.y2 = (int32_t)((int32_t)(slider_h - slider_w - 1) * (cur_value - min_value)) / (max_value - min_value); knob_area.y2 = slider->coords.y2 - knob_area.y2; knob_area.y1 = knob_area.y2 - slider_w - 1; } knob_area.x1 = slider->coords.x1; knob_area.x2 = slider->coords.x2; } lv_draw_rect(&knob_area, mask, style_knob, opa_scale); } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { } return true; } /** * Signal function of the slider * @param slider pointer to a slider object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_slider_signal(lv_obj_t * slider, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(slider, sign, param); if(res != LV_RES_OK) return res; lv_slider_ext_t * ext = lv_obj_get_ext_attr(slider); lv_point_t p; lv_coord_t w = lv_obj_get_width(slider); lv_coord_t h = lv_obj_get_height(slider); if(sign == LV_SIGNAL_PRESSED) { ext->drag_value = lv_slider_get_value(slider); } else if(sign == LV_SIGNAL_PRESSING) { lv_indev_get_point(param, &p); int16_t tmp = 0; if(w > h) { lv_coord_t knob_w = h; lv_coord_t offset = (ext->knob_in == 0) ? w : w - knob_w; p.x -= slider->coords.x1 + ((ext->knob_in == 0) ? 0 : knob_w / 2); tmp = ((int32_t)p.x * (ext->bar.max_value - ext->bar.min_value) + offset / 2) / offset; } else { lv_coord_t knob_h = w; lv_coord_t offset = (ext->knob_in == 0) ? h : h - knob_h; p.y -= slider->coords.y1 + ((ext->knob_in == 0) ? 0 : knob_h / 2); tmp = ((int32_t)p.y * (ext->bar.max_value - ext->bar.min_value) + offset / 2) / offset; } tmp += ext->bar.min_value; if(tmp < ext->bar.min_value) tmp = ext->bar.min_value; else if(tmp > ext->bar.max_value) tmp = ext->bar.max_value; if(tmp != ext->drag_value) { ext->drag_value = tmp; lv_obj_invalidate(slider); if(ext->action != NULL) res = ext->action(slider); } } else if(sign == LV_SIGNAL_RELEASED || sign == LV_SIGNAL_PRESS_LOST) { lv_slider_set_value(slider, ext->drag_value); ext->drag_value = LV_SLIDER_NOT_PRESSED; if(ext->action != NULL) res = ext->action(slider); } else if(sign == LV_SIGNAL_CORD_CHG) { /* The knob size depends on slider size. * During the drawing method the ext. size is used by the knob so refresh the ext. size.*/ if(lv_obj_get_width(slider) != lv_area_get_width(param) || lv_obj_get_height(slider) != lv_area_get_height(param)) { slider->signal_func(slider, LV_SIGNAL_REFR_EXT_SIZE, NULL); } } else if(sign == LV_SIGNAL_REFR_EXT_SIZE) { lv_style_t * style = lv_slider_get_style(slider, LV_SLIDER_STYLE_BG); lv_style_t * knob_style = lv_slider_get_style(slider, LV_SLIDER_STYLE_KNOB); lv_coord_t shadow_w = knob_style->body.shadow.width; if(ext->knob_in == 0) { /* The smaller size is the knob diameter*/ lv_coord_t x = LV_MATH_MIN(w / 2 + 1 + shadow_w, h / 2 + 1 + shadow_w); if(slider->ext_size < x) slider->ext_size = x; } else { lv_coord_t pad = LV_MATH_MIN(style->body.padding.hor, style->body.padding.ver); if(pad < 0) pad = -pad; if(slider->ext_size < pad) slider->ext_size = pad; if(slider->ext_size < shadow_w) slider->ext_size = shadow_w; } } else if(sign == LV_SIGNAL_CONTROLL) { char c = *((char *)param); ext->drag_value = LV_SLIDER_NOT_PRESSED; #if USE_LV_GROUP lv_group_t * g = lv_obj_get_group(slider); bool editing = lv_group_get_editing(g); lv_hal_indev_type_t indev_type = lv_indev_get_type(lv_indev_get_act()); /*Encoders need special handling*/ if(indev_type == LV_INDEV_TYPE_ENCODER && c == LV_GROUP_KEY_ENTER) { if(editing) lv_group_set_editing(g, false); } #endif if(c == LV_GROUP_KEY_RIGHT || c == LV_GROUP_KEY_UP) { lv_slider_set_value(slider, lv_slider_get_value(slider) + 1); if(ext->action != NULL) res = ext->action(slider); } else if(c == LV_GROUP_KEY_LEFT || c == LV_GROUP_KEY_DOWN) { lv_slider_set_value(slider, lv_slider_get_value(slider) - 1); if(ext->action != NULL) res = ext->action(slider); } } else if(sign == LV_SIGNAL_GET_EDITABLE) { bool * editable = (bool *)param; *editable = true; } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_slider"; } return res; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_slider.h ================================================ /** * @file lv_slider.h * */ #ifndef LV_SLIDER_H #define LV_SLIDER_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_SLIDER != 0 /*Testing of dependencies*/ #if USE_LV_BAR == 0 #error "lv_slider: lv_bar is required. Enable it in lv_conf.h (USE_LV_BAR 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_bar.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of slider*/ typedef struct { lv_bar_ext_t bar; /*Ext. of ancestor*/ /*New data for this type */ lv_action_t action; /*Function to call when a new value is set*/ lv_style_t *style_knob; /*Style of the knob*/ int16_t drag_value; /*Store a temporal value during press until release (Handled by the library)*/ uint8_t knob_in :1; /*1: Draw the knob inside the bar*/ } lv_slider_ext_t; /*Built-in styles of slider*/ enum { LV_SLIDER_STYLE_BG, LV_SLIDER_STYLE_INDIC, LV_SLIDER_STYLE_KNOB, }; typedef uint8_t lv_slider_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a slider objects * @param par pointer to an object, it will be the parent of the new slider * @param copy pointer to a slider object, if not NULL then the new object will be copied from it * @return pointer to the created slider */ lv_obj_t * lv_slider_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set a new value on the slider * @param slider pointer to a slider object * @param value new value */ static inline void lv_slider_set_value(lv_obj_t * slider, int16_t value) { lv_bar_set_value(slider, value); } /** * Set a new value with animation on a slider * @param slider pointer to a slider object * @param value new value * @param anim_time animation time in milliseconds */ static inline void lv_slider_set_value_anim(lv_obj_t * slider, int16_t value, uint16_t anim_time) { lv_bar_set_value_anim(slider, value, anim_time); } /** * Set minimum and the maximum values of a bar * @param slider pointer to the slider object * @param min minimum value * @param max maximum value */ static inline void lv_slider_set_range(lv_obj_t *slider, int16_t min, int16_t max) { lv_bar_set_range(slider, min, max); } /** * Set a function which will be called when a new value is set on the slider * @param slider pointer to slider object * @param action a callback function */ void lv_slider_set_action(lv_obj_t * slider, lv_action_t action); /** * Set the 'knob in' attribute of a slider * @param slider pointer to slider object * @param in true: the knob is drawn always in the slider; * false: the knob can be out on the edges */ void lv_slider_set_knob_in(lv_obj_t * slider, bool in); /** * Set a style of a slider * @param slider pointer to a slider object * @param type which style should be set * @param style pointer to a style */ void lv_slider_set_style(lv_obj_t *slider, lv_slider_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Get the value of a slider * @param slider pointer to a slider object * @return the value of the slider */ int16_t lv_slider_get_value(const lv_obj_t * slider); /** * Get the minimum value of a slider * @param slider pointer to a slider object * @return the minimum value of the slider */ static inline int16_t lv_slider_get_min_value(const lv_obj_t * slider) { return lv_bar_get_min_value(slider); } /** * Get the maximum value of a slider * @param slider pointer to a slider object * @return the maximum value of the slider */ static inline int16_t lv_slider_get_max_value(const lv_obj_t * slider) { return lv_bar_get_max_value(slider); } /** * Get the slider action function * @param slider pointer to slider object * @return the callback function */ lv_action_t lv_slider_get_action(const lv_obj_t * slider); /** * Give the slider is being dragged or not * @param slider pointer to a slider object * @return true: drag in progress false: not dragged */ bool lv_slider_is_dragged(const lv_obj_t * slider); /** * Get the 'knob in' attribute of a slider * @param slider pointer to slider object * @return true: the knob is drawn always in the slider; * false: the knob can be out on the edges */ bool lv_slider_get_knob_in(const lv_obj_t * slider); /** * Get a style of a slider * @param slider pointer to a slider object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_slider_get_style(const lv_obj_t *slider, lv_slider_style_t type); /********************** * MACROS **********************/ #endif /*USE_LV_SLIDER*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_SLIDER_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_spinbox.c ================================================ /** * @file lv_spinbox.c * */ /********************* * INCLUDES *********************/ #include "lv_spinbox.h" #if USE_LV_SPINBOX != 0 #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_spinbox_signal(lv_obj_t * spinbox, lv_signal_t sign, void * param); static void lv_spinbox_updatevalue(lv_obj_t * spinbox); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_design_func_t ancestor_design; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a spinbox object * @param par pointer to an object, it will be the parent of the new spinbox * @param copy pointer to a spinbox object, if not NULL then the new object will be copied from it * @return pointer to the created spinbox */ lv_obj_t * lv_spinbox_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("spinbox create started"); /*Create the ancestor of spinbox*/ lv_obj_t * new_spinbox = lv_ta_create(par, copy); lv_mem_assert(new_spinbox); if(new_spinbox == NULL) return NULL; /*Allocate the spinbox type specific extended data*/ lv_spinbox_ext_t * ext = lv_obj_allocate_ext_attr(new_spinbox, sizeof(lv_spinbox_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_spinbox); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_spinbox); /*Initialize the allocated 'ext'*/ ext->ta.one_line = 1; ext->ta.pwd_mode = 0; ext->ta.accapted_chars = "1234567890+-. "; ext->value = 0; ext->dec_point_pos = 0; ext->digit_count = 5; ext->digit_padding_left = 0; ext->step = 1; ext->range_max = 99999; ext->range_min = -99999; ext->value_changed_cb = NULL; lv_ta_set_cursor_type(new_spinbox, LV_CURSOR_BLOCK | LV_CURSOR_HIDDEN); /*hidden by default*/ /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_spinbox, lv_spinbox_signal); lv_obj_set_design_func(new_spinbox, ancestor_design); /*Leave the Text area's design function*/ /*Init the new spinbox spinbox*/ if(copy == NULL) { /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_spinbox_set_style(new_spinbox, LV_SPINBOX_STYLE_BG, th->spinbox.bg); lv_spinbox_set_style(new_spinbox, LV_SPINBOX_STYLE_CURSOR, th->spinbox.cursor); lv_spinbox_set_style(new_spinbox, LV_SPINBOX_STYLE_SB, th->spinbox.sb); } } /*Copy an existing spinbox*/ else { lv_spinbox_ext_t * copy_ext = lv_obj_get_ext_attr(copy); lv_spinbox_set_value(new_spinbox, copy_ext->value); lv_spinbox_set_digit_format(new_spinbox, copy_ext->digit_count, copy_ext->dec_point_pos); lv_spinbox_set_range(new_spinbox, copy_ext->range_min, copy_ext->range_max); lv_spinbox_set_step(new_spinbox, copy_ext->step); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_spinbox); } lv_spinbox_updatevalue(new_spinbox); LV_LOG_INFO("spinbox created"); return new_spinbox; } /*===================== * Setter functions *====================*/ /** * Set spinbox value * @param spinbox pointer to spinbox * @param i value to be set */ void lv_spinbox_set_value(lv_obj_t * spinbox, int32_t i) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); if(ext == NULL) return; if(i > ext->range_max) i = ext->range_max; if(i < ext->range_min) i = ext->range_min; ext->value = i; lv_spinbox_updatevalue(spinbox); } /** * Set spinbox digit format (digit count and decimal format) * @param spinbox pointer to spinbox * @param digit_count number of digit excluding the decimal separator and the sign * @param separator_position number of digit before the decimal point. If 0, decimal point is not shown */ void lv_spinbox_set_digit_format(lv_obj_t * spinbox, uint8_t digit_count, uint8_t separator_position) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); if(ext == NULL) return; if(digit_count > LV_SPINBOX_MAX_DIGIT_COUNT) digit_count = LV_SPINBOX_MAX_DIGIT_COUNT; if(separator_position > LV_SPINBOX_MAX_DIGIT_COUNT) separator_position = LV_SPINBOX_MAX_DIGIT_COUNT; ext->digit_count = digit_count; ext->dec_point_pos = separator_position; lv_spinbox_updatevalue(spinbox); } /** * Set spinbox step * @param spinbox pointer to spinbox * @param step steps on increment/decrement */ void lv_spinbox_set_step(lv_obj_t * spinbox, uint32_t step) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); if(ext == NULL) return; ext->step = step; } /** * Set spinbox value range * @param spinbox pointer to spinbox * @param range_min maximum value, inclusive * @param range_max minimum value, inclusive */ void lv_spinbox_set_range(lv_obj_t * spinbox, int32_t range_min, int32_t range_max) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); if(ext == NULL) return; ext->range_max = range_max; ext->range_min = range_min; if(ext->value > ext->range_max) { ext->value = ext->range_max; lv_obj_invalidate(spinbox); } if(ext->value < ext->range_min) { ext->value = ext->range_min; lv_obj_invalidate(spinbox); } } /** * Set spinbox callback on calue change * @param spinbox pointer to spinbox * @param cb Callback function called on value change event */ void lv_spinbox_set_value_changed_cb(lv_obj_t * spinbox, lv_spinbox_value_changed_cb_t cb) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); ext->value_changed_cb = cb; } /** * Set spinbox left padding in digits count (added between sign and first digit) * @param spinbox pointer to spinbox * @param cb Callback function called on value change event */ void lv_spinbox_set_padding_left(lv_obj_t * spinbox, uint8_t padding) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); ext->digit_padding_left = padding; lv_spinbox_updatevalue(spinbox); } /*===================== * Getter functions *====================*/ /** * Get the spinbox numeral value (user has to convert to float according to its digit format) * @param spinbox pointer to spinbox * @return value integer value of the spinbox */ int32_t lv_spinbox_get_value(lv_obj_t * spinbox) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); return ext->value; } /*===================== * Other functions *====================*/ /** * Select next lower digit for edition by dividing the step by 10 * @param spinbox pointer to spinbox */ void lv_spinbox_step_next(lv_obj_t * spinbox) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); int32_t new_step = ext->step / 10; if((new_step) > 0) ext->step = new_step; else ext->step = 1; lv_spinbox_updatevalue(spinbox); } /** * Select next higher digit for edition by multiplying the step by 10 * @param spinbox pointer to spinbox */ void lv_spinbox_step_previous(lv_obj_t * spinbox) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); int32_t step_limit; step_limit = LV_MATH_MAX(ext->range_max, (ext->range_min < 0 ? (-ext->range_min) : ext->range_min)); int32_t new_step = ext->step * 10; if(new_step <= step_limit) ext->step = new_step; lv_spinbox_updatevalue(spinbox); } /** * Increment spinbox value by one step * @param spinbox pointer to spinbox */ void lv_spinbox_increment(lv_obj_t * spinbox) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); if(ext->value + ext->step <= ext->range_max) { /*Special mode when zero crossing*/ if((ext->value + ext->step) > 0 && ext->value < 0) ext->value = -ext->value; ext->value += ext->step; } else { ext->value = ext->range_max; } if(ext->value_changed_cb != NULL) ext->value_changed_cb(spinbox, ext->value); lv_spinbox_updatevalue(spinbox); } /** * Decrement spinbox value by one step * @param spinbox pointer to spinbox */ void lv_spinbox_decrement(lv_obj_t * spinbox) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); if(ext->value - ext->step >= ext->range_min) { /*Special mode when zero crossing*/ if((ext->value - ext->step) < 0 && ext->value > 0) ext->value = -ext->value; ext->value -= ext->step; } else { ext->value = ext->range_min; } if(ext->value_changed_cb != NULL) ext->value_changed_cb(spinbox, ext->value); lv_spinbox_updatevalue(spinbox); } /********************** * STATIC FUNCTIONS **********************/ /** * Signal function of the spinbox * @param spinbox pointer to a spinbox object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_spinbox_signal(lv_obj_t * spinbox, lv_signal_t sign, void * param) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); lv_res_t res = LV_RES_OK; /* Include the ancient signal function */ if(sign != LV_SIGNAL_CONTROLL) { res = ancestor_signal(spinbox, sign, param); if(res != LV_RES_OK) return res; } if(sign == LV_SIGNAL_CLEANUP) { /*Nothing to cleanup. (No dynamically allocated memory in 'ext')*/ } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_spinbox"; } else if(sign == LV_SIGNAL_CONTROLL) { lv_hal_indev_type_t indev_type = lv_indev_get_type(lv_indev_get_act()); uint32_t c = *((uint32_t *)param); /*uint32_t because can be UTF-8*/ if(c == LV_GROUP_KEY_RIGHT) { if(indev_type == LV_INDEV_TYPE_ENCODER) lv_spinbox_increment(spinbox); else lv_spinbox_step_next(spinbox); } else if(c == LV_GROUP_KEY_LEFT) { if(indev_type == LV_INDEV_TYPE_ENCODER) lv_spinbox_decrement(spinbox); else lv_spinbox_step_previous(spinbox); } else if(c == LV_GROUP_KEY_UP) { lv_spinbox_increment(spinbox); } else if(c == LV_GROUP_KEY_DOWN) { lv_spinbox_decrement(spinbox); } else if(c == LV_GROUP_KEY_ENTER) { if(ext->step > 1) { lv_spinbox_step_next(spinbox); } else { /*Restart from the MSB*/ ext->step = 1; uint32_t i; for(i = 0; i < ext->digit_count; i++) { int32_t new_step = ext->step * 10; if(new_step >= ext->range_max) break; ext->step = new_step; } lv_spinbox_step_previous(spinbox); } } else { lv_ta_add_char(spinbox, c); } } return res; } static void lv_spinbox_updatevalue(lv_obj_t * spinbox) { lv_spinbox_ext_t * ext = lv_obj_get_ext_attr(spinbox); char buf[LV_SPINBOX_MAX_DIGIT_COUNT + 8]; memset(buf, 0, sizeof(buf)); char * buf_p = buf; /*Add the sign*/ (*buf_p) = ext->value >= 0 ? '+' : '-'; buf_p++; int i; /*padding left*/ for(i = 0; i < ext->digit_padding_left; i++) { (*buf_p) = ' '; buf_p++; } char digits[64]; /*Convert the numbers to string (the sign is already handled so always covert positive number)*/ lv_math_num_to_str(ext->value < 0 ? -ext->value : ext->value, digits); /*Add leading zeros*/ int lz_cnt = ext->digit_count - (int)strlen(digits); if(lz_cnt > 0) { for(i = strlen(digits); i >= 0; i--) { digits[i + lz_cnt] = digits[i]; } for(i = 0; i < lz_cnt; i++) { digits[i] = '0'; } } int32_t intDigits; intDigits = (ext->dec_point_pos == 0) ? ext->digit_count : ext->dec_point_pos; /*Add the decimal part*/ for(i = 0; i < intDigits && digits[i] != '\0'; i++) { (*buf_p) = digits[i]; buf_p++; } if(ext->dec_point_pos != 0) { /*Insert the decimal point*/ (*buf_p) = '.'; buf_p++; for(/*Leave i*/ ;i < ext->digit_count && digits[i] != '\0'; i++) { (*buf_p) = digits[i]; buf_p++; } } /*Refresh the text*/ lv_ta_set_text(spinbox, (char*)buf); /*Set the cursor position*/ int32_t step = ext->step; uint8_t cur_pos = ext->digit_count; while(step >= 10) { step /= 10; cur_pos--; } if(cur_pos > intDigits ) cur_pos ++; /*Skip teh decimal point*/ cur_pos += ext->digit_padding_left; lv_ta_set_cursor_pos(spinbox, cur_pos); } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_spinbox.h ================================================ /** * @file lv_spinbox.h * */ #ifndef LV_SPINBOX_H #define LV_SPINBOX_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_SPINBOX != 0 /*Testing of dependencies*/ #if USE_LV_TA == 0 #error "lv_spinbox: lv_ta is required. Enable it in lv_conf.h (USE_LV_TA 1) " #endif #include "../lv_core/lv_obj.h" #include "../lv_objx/lv_ta.h" /********************* * DEFINES *********************/ #define LV_SPINBOX_MAX_DIGIT_COUNT 16 /********************** * TYPEDEFS **********************/ /*callback on value change*/ typedef void (*lv_spinbox_value_changed_cb_t)(lv_obj_t * spinbox, int32_t new_value); /*Data of spinbox*/ typedef struct { lv_ta_ext_t ta; /*Ext. of ancestor*/ /*New data for this type */ int32_t value; int32_t range_max; int32_t range_min; int32_t step; uint16_t digit_count:4; uint16_t dec_point_pos:4; /*if 0, there is no separator and the number is an integer*/ uint16_t digit_padding_left:4; lv_spinbox_value_changed_cb_t value_changed_cb; } lv_spinbox_ext_t; /*Styles*/ enum { LV_SPINBOX_STYLE_BG, LV_SPINBOX_STYLE_SB, LV_SPINBOX_STYLE_CURSOR, }; typedef uint8_t lv_spinbox_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a spinbox objects * @param par pointer to an object, it will be the parent of the new spinbox * @param copy pointer to a spinbox object, if not NULL then the new object will be copied from it * @return pointer to the created spinbox */ lv_obj_t * lv_spinbox_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set a style of a spinbox. * @param templ pointer to template object * @param type which style should be set * @param style pointer to a style */ static inline void lv_spinbox_set_style(lv_obj_t * spinbox, lv_spinbox_style_t type, lv_style_t *style) { lv_ta_set_style(spinbox, type, style); } /** * Set spinbox value * @param spinbox pointer to spinbox * @param i value to be set */ void lv_spinbox_set_value(lv_obj_t * spinbox, int32_t i); /** * Set spinbox digit format (digit count and decimal format) * @param spinbox pointer to spinbox * @param digit_count number of digit excluding the decimal separator and the sign * @param separator_position number of digit before the decimal point. If 0, decimal point is not shown */ void lv_spinbox_set_digit_format(lv_obj_t * spinbox, uint8_t digit_count, uint8_t separator_position); /** * Set spinbox step * @param spinbox pointer to spinbox * @param step steps on increment/decrement */ void lv_spinbox_set_step(lv_obj_t * spinbox, uint32_t step); /** * Set spinbox value range * @param spinbox pointer to spinbox * @param range_min maximum value, inclusive * @param range_max minimum value, inclusive */ void lv_spinbox_set_range(lv_obj_t * spinbox, int32_t range_min, int32_t range_max); /** * Set spinbox callback on calue change * @param spinbox pointer to spinbox * @param cb Callback function called on value change event */ void lv_spinbox_set_value_changed_cb(lv_obj_t * spinbox, lv_spinbox_value_changed_cb_t cb); /** * Set spinbox left padding in digits count (added between sign and first digit) * @param spinbox pointer to spinbox * @param cb Callback function called on value change event */ void lv_spinbox_set_padding_left(lv_obj_t * spinbox, uint8_t padding); /*===================== * Getter functions *====================*/ /** * Get style of a spinbox. * @param templ pointer to template object * @param type which style should be get * @return style pointer to the style */ static inline lv_style_t * lv_spinbox_get_style(lv_obj_t * spinbox, lv_spinbox_style_t type) { return lv_ta_get_style(spinbox, type); } /** * Get the spinbox numeral value (user has to convert to float according to its digit format) * @param spinbox pointer to spinbox * @return value integer value of the spinbox */ int32_t lv_spinbox_get_value(lv_obj_t * spinbox); /*===================== * Other functions *====================*/ /** * Select next lower digit for edition by dividing the step by 10 * @param spinbox pointer to spinbox */ void lv_spinbox_step_next(lv_obj_t * spinbox); /** * Select next higher digit for edition by multiplying the step by 10 * @param spinbox pointer to spinbox */ void lv_spinbox_step_previous(lv_obj_t * spinbox); /** * Increment spinbox value by one step * @param spinbox pointer to spinbox */ void lv_spinbox_increment(lv_obj_t * spinbox); /** * Decrement spinbox value by one step * @param spinbox pointer to spinbox */ void lv_spinbox_decrement(lv_obj_t * spinbox); /********************** * MACROS **********************/ #endif /*USE_LV_SPINBOX*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_SPINBOX_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_sw.c ================================================ /** * @file lv_sw.c * */ /********************* * INCLUDES *********************/ #include "lv_sw.h" #if USE_LV_SW != 0 /*Testing of dependencies*/ #if USE_LV_SLIDER == 0 #error "lv_sw: lv_slider is required. Enable it in lv_conf.h (USE_LV_SLIDER 1) " #endif #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_sw_signal(lv_obj_t * sw, lv_signal_t sign, void * param); static void lv_sw_anim_to_value(lv_obj_t * sw, int16_t value); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a switch objects * @param par pointer to an object, it will be the parent of the new switch * @param copy pointer to a switch object, if not NULL then the new object will be copied from it * @return pointer to the created switch */ lv_obj_t * lv_sw_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("switch create started"); /*Create the ancestor of switch*/ lv_obj_t * new_sw = lv_slider_create(par, copy); lv_mem_assert(new_sw); if(new_sw == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_sw); /*Allocate the switch type specific extended data*/ lv_sw_ext_t * ext = lv_obj_allocate_ext_attr(new_sw, sizeof(lv_sw_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; /*Initialize the allocated 'ext' */ ext->changed = 0; #if USE_LV_ANIMATION ext->anim_time = 0; #endif ext->style_knob_off = ext->slider.style_knob; ext->style_knob_on = ext->slider.style_knob; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_sw, lv_sw_signal); /*Init the new switch switch*/ if(copy == NULL) { lv_slider_set_range(new_sw, 0, 1); lv_obj_set_size(new_sw, 2 * LV_DPI / 3, LV_DPI / 3); lv_slider_set_knob_in(new_sw, true); lv_slider_set_range(new_sw, 0, LV_SWITCH_SLIDER_ANIM_MAX); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_sw_set_style(new_sw, LV_SW_STYLE_BG, th->sw.bg); lv_sw_set_style(new_sw, LV_SW_STYLE_INDIC, th->sw.indic); lv_sw_set_style(new_sw, LV_SW_STYLE_KNOB_OFF, th->sw.knob_off); lv_sw_set_style(new_sw, LV_SW_STYLE_KNOB_ON, th->sw.knob_on); } else { /*Let the slider' style*/ } } /*Copy an existing switch*/ else { lv_sw_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->style_knob_off = copy_ext->style_knob_off; ext->style_knob_on = copy_ext->style_knob_on; #if USE_LV_ANIMATION ext->anim_time = copy_ext->anim_time; #endif if(lv_sw_get_state(new_sw)) lv_slider_set_style(new_sw, LV_SLIDER_STYLE_KNOB, ext->style_knob_on); else lv_slider_set_style(new_sw, LV_SLIDER_STYLE_KNOB, ext->style_knob_off); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_sw); } LV_LOG_INFO("switch created"); return new_sw; } /*===================== * Setter functions *====================*/ /** * Turn ON the switch * @param sw pointer to a switch object */ void lv_sw_on(lv_obj_t * sw) { lv_sw_ext_t * ext = lv_obj_get_ext_attr(sw); lv_slider_set_value(sw, LV_SWITCH_SLIDER_ANIM_MAX); lv_slider_set_style(sw, LV_SLIDER_STYLE_KNOB, ext->style_knob_on); } /** * Turn OFF the switch * @param sw pointer to a switch object */ void lv_sw_off(lv_obj_t * sw) { lv_sw_ext_t * ext = lv_obj_get_ext_attr(sw); lv_slider_set_value(sw, 0); lv_slider_set_style(sw, LV_SLIDER_STYLE_KNOB, ext->style_knob_off); } /** * Toggle the position of the switch * @param sw pointer to a switch object * @return resulting state of the switch. */ bool lv_sw_toggle(lv_obj_t *sw) { bool state = lv_sw_get_state(sw); if(state) { lv_sw_off(sw); } else { lv_sw_on(sw); } return !state; } /** * Turn ON the switch with an animation * @param sw pointer to a switch object */ void lv_sw_on_anim(lv_obj_t * sw) { lv_sw_ext_t * ext = lv_obj_get_ext_attr(sw); if(lv_sw_get_anim_time(sw) > 0)lv_sw_anim_to_value(sw, LV_SWITCH_SLIDER_ANIM_MAX); else lv_slider_set_value(sw, LV_SWITCH_SLIDER_ANIM_MAX); lv_slider_set_style(sw, LV_SLIDER_STYLE_KNOB, ext->style_knob_on); } /** * Turn OFF the switch with an animation * @param sw pointer to a switch object */ void lv_sw_off_anim(lv_obj_t * sw) { lv_sw_ext_t * ext = lv_obj_get_ext_attr(sw); if(lv_sw_get_anim_time(sw) > 0) lv_sw_anim_to_value(sw, 0); else lv_slider_set_value(sw, 0); lv_slider_set_style(sw, LV_SLIDER_STYLE_KNOB, ext->style_knob_off); } /** * Toggle the position of the switch with an animation * @param sw pointer to a switch object * @return resulting state of the switch. */ bool lv_sw_toggle_anim(lv_obj_t *sw) { bool state = lv_sw_get_state(sw); if(state) { lv_sw_off_anim(sw); } else { lv_sw_on_anim(sw); } return !state; } /** * Set a style of a switch * @param sw pointer to a switch object * @param type which style should be set * @param style pointer to a style */ void lv_sw_set_style(lv_obj_t * sw, lv_sw_style_t type, lv_style_t * style) { lv_sw_ext_t * ext = lv_obj_get_ext_attr(sw); switch(type) { case LV_SLIDER_STYLE_BG: lv_slider_set_style(sw, LV_SLIDER_STYLE_BG, style); break; case LV_SLIDER_STYLE_INDIC: lv_bar_set_style(sw, LV_SLIDER_STYLE_INDIC, style); break; case LV_SW_STYLE_KNOB_OFF: ext->style_knob_off = style; if(lv_sw_get_state(sw) == 0) lv_slider_set_style(sw, LV_SLIDER_STYLE_KNOB, style); break; case LV_SW_STYLE_KNOB_ON: ext->style_knob_on = style; if(lv_sw_get_state(sw) != 0) lv_slider_set_style(sw, LV_SLIDER_STYLE_KNOB, style); break; } } void lv_sw_set_anim_time(lv_obj_t *sw, uint16_t anim_time) { #if USE_LV_ANIMATION lv_sw_ext_t * ext = lv_obj_get_ext_attr(sw); ext->anim_time = anim_time; #endif } /*===================== * Getter functions *====================*/ /** * Get a style of a switch * @param sw pointer to a switch object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_sw_get_style(const lv_obj_t * sw, lv_sw_style_t type) { lv_style_t * style = NULL; lv_sw_ext_t * ext = lv_obj_get_ext_attr(sw); switch(type) { case LV_SW_STYLE_BG: style = lv_slider_get_style(sw, LV_SLIDER_STYLE_BG); break; case LV_SW_STYLE_INDIC: style = lv_slider_get_style(sw, LV_SLIDER_STYLE_INDIC); break; case LV_SW_STYLE_KNOB_OFF: style = ext->style_knob_off; break; case LV_SW_STYLE_KNOB_ON: style = ext->style_knob_on; break; default: style = NULL; break; } return style; } uint16_t lv_sw_get_anim_time(const lv_obj_t *sw) { #if USE_LV_ANIMATION lv_sw_ext_t * ext = lv_obj_get_ext_attr(sw); return ext->anim_time; #else return 0; #endif } /********************** * STATIC FUNCTIONS **********************/ /** * Signal function of the switch * @param sw pointer to a switch object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_sw_signal(lv_obj_t * sw, lv_signal_t sign, void * param) { lv_sw_ext_t * ext = lv_obj_get_ext_attr(sw); /*Save the current (old) value before slider signal modifies it*/ int16_t old_val; if(sign == LV_SIGNAL_PRESSING) old_val = ext->slider.drag_value; else old_val = lv_slider_get_value(sw); /*Do not let the slider to call the callback. The Switch will do it if required*/ lv_action_t slider_action = ext->slider.action; ext->slider.action = NULL; lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(sw, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_CLEANUP) { /*Nothing to cleanup. (No dynamically allocated memory in 'ext')*/ } else if(sign == LV_SIGNAL_PRESSED) { /*Save the x coordinate of the pressed point to see if the switch was slid*/ lv_indev_t * indev = lv_indev_get_act(); if(indev) { lv_point_t p; lv_indev_get_point(indev, &p); ext->start_x = p.x; } ext->slided = 0; ext->changed = 0; } else if(sign == LV_SIGNAL_PRESSING) { /*See if the switch was slid*/ lv_indev_t * indev = lv_indev_get_act(); if(indev) { lv_point_t p = {0,0}; lv_indev_get_point(indev, &p); if(LV_MATH_ABS(p.x - ext->start_x) > LV_INDEV_DRAG_LIMIT) ext->slided = 1; } /*If didn't slide then revert the min/max value. So click without slide won't move the switch as a slider*/ if(ext->slided == 0) { if(lv_sw_get_state(sw)) ext->slider.drag_value = LV_SWITCH_SLIDER_ANIM_MAX; else ext->slider.drag_value = 0; } /*If explicitly changed (by slide) don't need to be toggled on release*/ int16_t threshold = LV_SWITCH_SLIDER_ANIM_MAX / 2; if((old_val < threshold && ext->slider.drag_value > threshold) || (old_val > threshold && ext->slider.drag_value < threshold)) { ext->changed = 1; } } else if(sign == LV_SIGNAL_PRESS_LOST) { if(lv_sw_get_state(sw)) { lv_slider_set_style(sw, LV_SLIDER_STYLE_KNOB, ext->style_knob_on); #if USE_LV_ANIMATION lv_sw_anim_to_value(sw, LV_SWITCH_SLIDER_ANIM_MAX); #endif } else { lv_slider_set_style(sw, LV_SLIDER_STYLE_KNOB, ext->style_knob_off); #if USE_LV_ANIMATION lv_sw_anim_to_value(sw, 0); #endif } } else if(sign == LV_SIGNAL_RELEASED) { /*If not dragged then toggle the switch*/ if(ext->changed == 0) { if(lv_sw_get_state(sw)) lv_sw_off_anim(sw); else lv_sw_on_anim(sw); if(slider_action != NULL) res = slider_action(sw); } /*If the switch was dragged then calculate the new state based on the current position*/ else { int16_t v = lv_slider_get_value(sw); if(v > LV_SWITCH_SLIDER_ANIM_MAX / 2) lv_sw_on_anim(sw); else lv_sw_off_anim(sw); if(slider_action != NULL) res = slider_action(sw); } } else if(sign == LV_SIGNAL_CONTROLL) { char c = *((char *)param); if(c == LV_GROUP_KEY_ENTER) { if(old_val) lv_sw_off_anim(sw); else lv_sw_on_anim(sw); if(slider_action) res = slider_action(sw); } else if(c == LV_GROUP_KEY_UP || c == LV_GROUP_KEY_RIGHT) { lv_sw_on_anim(sw); if(slider_action) res = slider_action(sw); } else if(c == LV_GROUP_KEY_DOWN || c == LV_GROUP_KEY_LEFT) { lv_sw_off_anim(sw); if(slider_action) res = slider_action(sw); } } else if(sign == LV_SIGNAL_GET_EDITABLE) { bool * editable = (bool *)param; *editable = false; /*The ancestor slider is editable the switch is not*/ } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_sw"; } /*Restore the callback*/ if(res == LV_RES_OK) ext->slider.action = slider_action; return res; } static void lv_sw_anim_to_value(lv_obj_t * sw, int16_t value) { #if USE_LV_ANIMATION lv_anim_t a; lv_sw_ext_t * ext = lv_obj_get_ext_attr(sw); a.var = sw; a.start = ext->slider.bar.cur_value; a.end = value; a.fp = (lv_anim_fp_t)lv_slider_set_value; a.path = lv_anim_path_linear; a.end_cb = NULL; a.act_time = 0; a.time = lv_sw_get_anim_time(sw); a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); #endif } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_sw.h ================================================ /** * @file lv_sw.h * */ #ifndef LV_SW_H #define LV_SW_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_SW != 0 /*Testing of dependencies*/ #if USE_LV_SLIDER == 0 #error "lv_sw: lv_slider is required. Enable it in lv_conf.h (USE_LV_SLIDER 1)" #endif #include "../lv_core/lv_obj.h" #include "lv_slider.h" /********************* * DEFINES *********************/ #define LV_SWITCH_SLIDER_ANIM_MAX 1000 /********************** * TYPEDEFS **********************/ /*Data of switch*/ typedef struct { lv_slider_ext_t slider; /*Ext. of ancestor*/ /*New data for this type */ lv_style_t *style_knob_off; /*Style of the knob when the switch is OFF*/ lv_style_t *style_knob_on; /*Style of the knob when the switch is ON (NULL to use the same as OFF)*/ lv_coord_t start_x; uint8_t changed :1; /*Indicates the switch state explicitly changed by drag*/ uint8_t slided :1; #if USE_LV_ANIMATION uint16_t anim_time; /*switch animation time */ #endif } lv_sw_ext_t; enum { LV_SW_STYLE_BG, LV_SW_STYLE_INDIC, LV_SW_STYLE_KNOB_OFF, LV_SW_STYLE_KNOB_ON, }; typedef uint8_t lv_sw_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a switch objects * @param par pointer to an object, it will be the parent of the new switch * @param copy pointer to a switch object, if not NULL then the new object will be copied from it * @return pointer to the created switch */ lv_obj_t * lv_sw_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Turn ON the switch * @param sw pointer to a switch object */ void lv_sw_on(lv_obj_t *sw); /** * Turn OFF the switch * @param sw pointer to a switch object */ void lv_sw_off(lv_obj_t *sw); /** * Toggle the position of the switch * @param sw pointer to a switch object * @return resulting state of the switch. */ bool lv_sw_toggle(lv_obj_t *sw); /** * Turn ON the switch with an animation * @param sw pointer to a switch object */ void lv_sw_on_anim(lv_obj_t * sw); /** * Turn OFF the switch with an animation * @param sw pointer to a switch object */ void lv_sw_off_anim(lv_obj_t * sw); /** * Toggle the position of the switch with an animation * @param sw pointer to a switch object * @return resulting state of the switch. */ bool lv_sw_toggle_anim(lv_obj_t *sw); /** * Set a function which will be called when the switch is toggled by the user * @param sw pointer to switch object * @param action a callback function */ static inline void lv_sw_set_action(lv_obj_t * sw, lv_action_t action) { lv_slider_set_action(sw, action); } /** * Set a style of a switch * @param sw pointer to a switch object * @param type which style should be set * @param style pointer to a style */ void lv_sw_set_style(lv_obj_t *sw, lv_sw_style_t type, lv_style_t *style); #if USE_LV_ANIMATION /** * Set the animation time of the switch * @param sw pointer to a switch object * @param anim_time animation time * @return style pointer to a style */ void lv_sw_set_anim_time(lv_obj_t *sw, uint16_t anim_time); #endif /*===================== * Getter functions *====================*/ /** * Get the state of a switch * @param sw pointer to a switch object * @return false: OFF; true: ON */ static inline bool lv_sw_get_state(const lv_obj_t *sw) { return lv_bar_get_value(sw) < LV_SWITCH_SLIDER_ANIM_MAX / 2 ? false : true; } /** * Get the switch action function * @param slider pointer to a switch object * @return the callback function */ static inline lv_action_t lv_sw_get_action(const lv_obj_t * slider) { return lv_slider_get_action(slider); } /** * Get a style of a switch * @param sw pointer to a switch object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_sw_get_style(const lv_obj_t *sw, lv_sw_style_t type); /** * Get the animation time of the switch * @param sw pointer to a switch object * @return style pointer to a style */ uint16_t lv_sw_get_anim_time(const lv_obj_t *sw); /********************** * MACROS **********************/ #endif /*USE_LV_SW*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_SW_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_ta.c ================================================ /** * @file lv_ta.c * */ /********************* * INCLUDES *********************/ #include "lv_ta.h" #if USE_LV_TA != 0 #include "../lv_core/lv_group.h" #include "../lv_core/lv_refr.h" #include "../lv_draw/lv_draw.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_anim.h" #include "../lv_misc/lv_txt.h" #include "../lv_misc/lv_math.h" /********************* * DEFINES *********************/ /*Test configuration*/ #ifndef LV_TA_CURSOR_BLINK_TIME #define LV_TA_CURSOR_BLINK_TIME 400 /*ms*/ #endif #ifndef LV_TA_PWD_SHOW_TIME #define LV_TA_PWD_SHOW_TIME 1500 /*ms*/ #endif #define LV_TA_DEF_WIDTH (2 * LV_DPI) #define LV_TA_DEF_HEIGHT (1 * LV_DPI) /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_ta_design(lv_obj_t * ta, const lv_area_t * mask, lv_design_mode_t mode); static bool lv_ta_scrollable_design(lv_obj_t * scrl, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_ta_signal(lv_obj_t * ta, lv_signal_t sign, void * param); static lv_res_t lv_ta_scrollable_signal(lv_obj_t * scrl, lv_signal_t sign, void * param); #if USE_LV_ANIMATION static void cursor_blink_anim(lv_obj_t * ta, uint8_t show); static void pwd_char_hider_anim(lv_obj_t * ta, int32_t x); #endif static void pwd_char_hider(lv_obj_t * ta); static bool char_is_accepted(lv_obj_t * ta, uint32_t c); static void get_cursor_style(lv_obj_t * ta, lv_style_t * style_res); static void refr_cursor_area(lv_obj_t * ta); /********************** * STATIC VARIABLES **********************/ static lv_design_func_t ancestor_design; static lv_design_func_t scrl_design; static lv_signal_func_t ancestor_signal; static lv_signal_func_t scrl_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a text area objects * @param par pointer to an object, it will be the parent of the new text area * @param copy pointer to a text area object, if not NULL then the new object will be copied from it * @return pointer to the created text area */ lv_obj_t * lv_ta_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("text area create started"); /*Create the ancestor object*/ lv_obj_t * new_ta = lv_page_create(par, copy); lv_mem_assert(new_ta); if(new_ta == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_ta); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_ta); if(scrl_signal == NULL) scrl_signal = lv_obj_get_signal_func(lv_page_get_scrl(new_ta)); if(scrl_design == NULL) scrl_design = lv_obj_get_design_func(lv_page_get_scrl(new_ta)); /*Allocate the object type specific extended data*/ lv_ta_ext_t * ext = lv_obj_allocate_ext_attr(new_ta, sizeof(lv_ta_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->cursor.state = 1; ext->pwd_mode = 0; ext->pwd_tmp = NULL; ext->accapted_chars = NULL; ext->max_length = 0; ext->cursor.style = NULL; ext->cursor.pos = 0; ext->cursor.type = LV_CURSOR_LINE; ext->cursor.valid_x = 0; ext->one_line = 0; ext->label = NULL; lv_obj_set_signal_func(new_ta, lv_ta_signal); lv_obj_set_signal_func(lv_page_get_scrl(new_ta), lv_ta_scrollable_signal); lv_obj_set_design_func(new_ta, lv_ta_design); /*Init the new text area object*/ if(copy == NULL) { ext->label = lv_label_create(new_ta, NULL); lv_obj_set_design_func(ext->page.scrl, lv_ta_scrollable_design); lv_label_set_long_mode(ext->label, LV_LABEL_LONG_BREAK); lv_label_set_text(ext->label, "Text area"); lv_obj_set_click(ext->label, false); lv_obj_set_size(new_ta, LV_TA_DEF_WIDTH, LV_TA_DEF_HEIGHT); lv_ta_set_sb_mode(new_ta, LV_SB_MODE_DRAG); lv_page_set_style(new_ta, LV_PAGE_STYLE_SCRL, &lv_style_transp_tight); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_ta_set_style(new_ta, LV_TA_STYLE_BG, th->ta.area); lv_ta_set_style(new_ta, LV_TA_STYLE_SB, th->ta.sb); } else { lv_ta_set_style(new_ta, LV_TA_STYLE_BG, &lv_style_pretty); } } /*Copy an existing object*/ else { lv_obj_set_design_func(ext->page.scrl, lv_ta_scrollable_design); lv_ta_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->label = lv_label_create(new_ta, copy_ext->label); ext->pwd_mode = copy_ext->pwd_mode; ext->accapted_chars = copy_ext->accapted_chars; ext->max_length = copy_ext->max_length; ext->cursor.style = copy_ext->cursor.style; ext->cursor.pos = copy_ext->cursor.pos; ext->cursor.valid_x = copy_ext->cursor.valid_x; ext->cursor.type = copy_ext->cursor.type; if(copy_ext->one_line) lv_ta_set_one_line(new_ta, true); lv_ta_set_style(new_ta, LV_TA_STYLE_CURSOR, lv_ta_get_style(copy, LV_TA_STYLE_CURSOR)); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_ta); } #if USE_LV_ANIMATION /*Create a cursor blinker animation*/ lv_anim_t a; a.var = new_ta; a.fp = (lv_anim_fp_t)cursor_blink_anim; a.time = LV_TA_CURSOR_BLINK_TIME; a.act_time = 0; a.end_cb = NULL; a.start = 1; a.end = 0; a.repeat = 1; a.repeat_pause = 0; a.playback = 1; a.playback_pause = 0; a.path = lv_anim_path_step; lv_anim_create(&a); #endif LV_LOG_INFO("text area created"); return new_ta; } /*====================== * Add/remove functions *=====================*/ /** * Insert a character to the current cursor position. * To add a wide char, e.g. 'Á' use `lv_txt_encoded_conv_wc('Á')` * @param ta pointer to a text area object * @param c a character (e.g. 'a') */ void lv_ta_add_char(lv_obj_t * ta, uint32_t c) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); if(ext->one_line && (c == '\n' || c == '\r')) { LV_LOG_INFO("Text area: line break ignored in one-line mode"); return; } uint32_t c_uni = lv_txt_encoded_next((const char *)&c, NULL); if(char_is_accepted(ta, c_uni) == false) { LV_LOG_INFO("Character is no accepted by the text area (too long text or not in the accepted list)"); return; } /*Disable edge flash. If a new line was added it could show edge flash effect*/ bool edge_flash_en = lv_ta_get_edge_flash(ta); lv_ta_set_edge_flash(ta, false); if(ext->pwd_mode != 0) pwd_char_hider(ta); /*Make sure all the current text contains only '*'*/ uint32_t letter_buf[2]; letter_buf[0] = c; letter_buf[1] = '\0'; lv_label_ins_text(ext->label, ext->cursor.pos, (const char *)letter_buf); /*Insert the character*/ if(ext->pwd_mode != 0) { ext->pwd_tmp = lv_mem_realloc(ext->pwd_tmp, strlen(ext->pwd_tmp) + 2); /*+2: the new char + \0 */ lv_mem_assert(ext->pwd_tmp); if(ext->pwd_tmp == NULL) return; lv_txt_ins(ext->pwd_tmp, ext->cursor.pos, (const char *)letter_buf); #if USE_LV_ANIMATION && LV_TA_PWD_SHOW_TIME > 0 /*Auto hide characters*/ lv_anim_t a; a.var = ta; a.fp = (lv_anim_fp_t)pwd_char_hider_anim; a.time = LV_TA_PWD_SHOW_TIME; a.act_time = 0; a.end_cb = (lv_anim_cb_t)pwd_char_hider; a.start = 0; a.end = 1; a.repeat = 0; a.repeat_pause = 0; a.playback = 0; a.playback_pause = 0; a.path = lv_anim_path_step; lv_anim_create(&a); #else pwd_char_hider(ta); #endif } /*Move the cursor after the new character*/ lv_ta_set_cursor_pos(ta, lv_ta_get_cursor_pos(ta) + 1); /*Revert the original edge flash state*/ lv_ta_set_edge_flash(ta, edge_flash_en); } /** * Insert a text to the current cursor position * @param ta pointer to a text area object * @param txt a '\0' terminated string to insert */ void lv_ta_add_text(lv_obj_t * ta, const char * txt) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); if(ext->pwd_mode != 0) pwd_char_hider(ta); /*Make sure all the current text contains only '*'*/ /*Add the character one-by-one if not all characters are accepted or there is character limit.*/ if(lv_ta_get_accepted_chars(ta) || lv_ta_get_max_length(ta)) { uint32_t i = 0; while(txt[i] != '\0') { uint32_t c = lv_txt_encoded_next(txt, &i); lv_ta_add_char(ta, lv_txt_unicode_to_encoded(c)); } return; } /*Disable edge flash. If a new line was added it could show edge flash effect*/ bool edge_flash_en = lv_ta_get_edge_flash(ta); lv_ta_set_edge_flash(ta, false); /*Insert the text*/ lv_label_ins_text(ext->label, ext->cursor.pos, txt); if(ext->pwd_mode != 0) { ext->pwd_tmp = lv_mem_realloc(ext->pwd_tmp, strlen(ext->pwd_tmp) + strlen(txt) + 1); lv_mem_assert(ext->pwd_tmp); if(ext->pwd_tmp == NULL) return; lv_txt_ins(ext->pwd_tmp, ext->cursor.pos, txt); #if USE_LV_ANIMATION && LV_TA_PWD_SHOW_TIME > 0 /*Auto hide characters*/ lv_anim_t a; a.var = ta; a.fp = (lv_anim_fp_t)pwd_char_hider_anim; a.time = LV_TA_PWD_SHOW_TIME; a.act_time = 0; a.end_cb = (lv_anim_cb_t)pwd_char_hider; a.start = 0; a.end = 1; a.repeat = 0; a.repeat_pause = 0; a.playback = 0; a.playback_pause = 0; a.path = lv_anim_path_step; lv_anim_create(&a); #else pwd_char_hider(ta); #endif } /*Move the cursor after the new text*/ lv_ta_set_cursor_pos(ta, lv_ta_get_cursor_pos(ta) + lv_txt_get_encoded_length(txt)); /*Revert the original edge flash state*/ lv_ta_set_edge_flash(ta, edge_flash_en); } /** * Delete a the left character from the current cursor position * @param ta pointer to a text area object */ void lv_ta_del_char(lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); uint16_t cur_pos = ext->cursor.pos; if(cur_pos == 0) return; char * label_txt = lv_label_get_text(ext->label); /*Delete a character*/ lv_txt_cut(label_txt, ext->cursor.pos - 1, 1); /*Refresh the label*/ lv_label_set_text(ext->label, label_txt); /*Don't let 'width == 0' because cursor will not be visible*/ if(lv_obj_get_width(ext->label) == 0) { lv_style_t * style = lv_obj_get_style(ext->label); lv_obj_set_width(ext->label, style->line.width); } if(ext->pwd_mode != 0) { #if LV_TXT_UTF8 == 0 lv_txt_cut(ext->pwd_tmp, ext->cursor.pos - 1, 1); #else uint32_t byte_pos = lv_txt_encoded_get_byte_id(ext->pwd_tmp, ext->cursor.pos - 1); lv_txt_cut(ext->pwd_tmp, ext->cursor.pos - 1, lv_txt_encoded_size(&label_txt[byte_pos])); #endif ext->pwd_tmp = lv_mem_realloc(ext->pwd_tmp, strlen(ext->pwd_tmp) + 1); lv_mem_assert(ext->pwd_tmp); if(ext->pwd_tmp == NULL) return; } /*Move the cursor to the place of the deleted character*/ lv_ta_set_cursor_pos(ta, ext->cursor.pos - 1); } /*===================== * Setter functions *====================*/ /** * Set the text of a text area * @param ta pointer to a text area * @param txt pointer to the text */ void lv_ta_set_text(lv_obj_t * ta, const char * txt) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); /*Add the character one-by-one if not all characters are accepted or there is character limit.*/ if(lv_ta_get_accepted_chars(ta) || lv_ta_get_max_length(ta)) { lv_label_set_text(ext->label, ""); lv_ta_set_cursor_pos(ta, LV_TA_CURSOR_LAST); uint32_t i = 0; while(txt[i] != '\0') { uint32_t c = lv_txt_encoded_next(txt, &i); lv_ta_add_char(ta, lv_txt_unicode_to_encoded(c)); } } else { lv_label_set_text(ext->label, txt); lv_ta_set_cursor_pos(ta, LV_TA_CURSOR_LAST); } /*Don't let 'width == 0' because the cursor will not be visible*/ if(lv_obj_get_width(ext->label) == 0) { lv_style_t * style = lv_obj_get_style(ext->label); lv_obj_set_width(ext->label, lv_font_get_width(style->text.font, ' ')); } if(ext->pwd_mode != 0) { ext->pwd_tmp = lv_mem_realloc(ext->pwd_tmp, strlen(txt) + 1); lv_mem_assert(ext->pwd_tmp); if(ext->pwd_tmp == NULL) return; strcpy(ext->pwd_tmp, txt); #if USE_LV_ANIMATION && LV_TA_PWD_SHOW_TIME > 0 /*Auto hide characters*/ lv_anim_t a; a.var = ta; a.fp = (lv_anim_fp_t)pwd_char_hider_anim; a.time = LV_TA_PWD_SHOW_TIME; a.act_time = 0; a.end_cb = (lv_anim_cb_t)pwd_char_hider; a.start = 0; a.end = 1; a.repeat = 0; a.repeat_pause = 0; a.playback = 0; a.playback_pause = 0; a.path = lv_anim_path_step; lv_anim_create(&a); #else pwd_char_hider(ta); #endif } } /** * Set the cursor position * @param obj pointer to a text area object * @param pos the new cursor position in character index * < 0 : index from the end of the text * LV_TA_CURSOR_LAST: go after the last character */ void lv_ta_set_cursor_pos(lv_obj_t * ta, int16_t pos) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); if(ext->cursor.pos == pos) return; uint16_t len = lv_txt_get_encoded_length(lv_label_get_text(ext->label)); if(pos < 0) pos = len + pos; if(pos > len || pos == LV_TA_CURSOR_LAST) pos = len; ext->cursor.pos = pos; /*Position the label to make the cursor visible*/ lv_obj_t * label_par = lv_obj_get_parent(ext->label); lv_point_t cur_pos; lv_style_t * style = lv_obj_get_style(ta); const lv_font_t * font_p = style->text.font; lv_area_t label_cords; lv_area_t ta_cords; lv_label_get_letter_pos(ext->label, pos, &cur_pos); lv_obj_get_coords(ta, &ta_cords); lv_obj_get_coords(ext->label, &label_cords); /*Check the top*/ lv_coord_t font_h = lv_font_get_height(font_p); if(lv_obj_get_y(label_par) + cur_pos.y < 0) { lv_obj_set_y(label_par, - cur_pos.y + style->body.padding.ver); } /*Check the bottom*/ if(label_cords.y1 + cur_pos.y + font_h + style->body.padding.ver > ta_cords.y2) { lv_obj_set_y(label_par, -(cur_pos.y - lv_obj_get_height(ta) + font_h + 2 * style->body.padding.ver)); } /*Check the left (use the font_h as general unit)*/ if(lv_obj_get_x(label_par) + cur_pos.x < font_h) { lv_obj_set_x(label_par, - cur_pos.x + font_h); } /*Check the right (use the font_h as general unit)*/ if(label_cords.x1 + cur_pos.x + font_h + style->body.padding.hor > ta_cords.x2) { lv_obj_set_x(label_par, -(cur_pos.x - lv_obj_get_width(ta) + font_h + 2 * style->body.padding.hor)); } ext->cursor.valid_x = cur_pos.x; #if USE_LV_ANIMATION /*Reset cursor blink animation*/ lv_anim_t a; a.var = ta; a.fp = (lv_anim_fp_t)cursor_blink_anim; a.time = LV_TA_CURSOR_BLINK_TIME; a.act_time = 0; a.end_cb = NULL; a.start = 1; a.end = 0; a.repeat = 1; a.repeat_pause = 0; a.playback = 1; a.playback_pause = 0; a.path = lv_anim_path_step; lv_anim_create(&a); #endif refr_cursor_area(ta); } /** * Set the cursor type. * @param ta pointer to a text area object * @param cur_type: element of 'lv_ta_cursor_type_t' */ void lv_ta_set_cursor_type(lv_obj_t * ta, lv_cursor_type_t cur_type) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); if(ext->cursor.type == cur_type) return; ext->cursor.type = cur_type; refr_cursor_area(ta); } /** * Enable/Disable password mode * @param ta pointer to a text area object * @param en true: enable, false: disable */ void lv_ta_set_pwd_mode(lv_obj_t * ta, bool en) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); if(ext->pwd_mode == en) return; /*Pwd mode is now enabled*/ if(ext->pwd_mode == 0 && en != false) { char * txt = lv_label_get_text(ext->label); uint16_t len = strlen(txt); ext->pwd_tmp = lv_mem_alloc(len + 1); lv_mem_assert(ext->pwd_tmp); if(ext->pwd_tmp == NULL) return; strcpy(ext->pwd_tmp, txt); uint16_t i; for(i = 0; i < len; i++) { txt[i] = '*'; /*All char to '*'*/ } txt[i] = '\0'; lv_label_set_text(ext->label, NULL); } /*Pwd mode is now disabled*/ else if(ext->pwd_mode == 1 && en == false) { lv_label_set_text(ext->label, ext->pwd_tmp); lv_mem_free(ext->pwd_tmp); ext->pwd_tmp = NULL; } ext->pwd_mode = en == false ? 0 : 1; refr_cursor_area(ta); } /** * Configure the text area to one line or back to normal * @param ta pointer to a Text area object * @param en true: one line, false: normal */ void lv_ta_set_one_line(lv_obj_t * ta, bool en) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); if(ext->one_line == en) return; if(en) { lv_style_t * style_ta = lv_obj_get_style(ta); lv_style_t * style_scrl = lv_obj_get_style(lv_page_get_scrl(ta)); lv_style_t * style_label = lv_obj_get_style(ext->label); lv_coord_t font_h = lv_font_get_height(style_label->text.font); ext->one_line = 1; lv_page_set_scrl_fit(ta, true, true); lv_obj_set_height(ta, font_h + (style_ta->body.padding.ver + style_scrl->body.padding.ver) * 2); lv_label_set_long_mode(ext->label, LV_LABEL_LONG_EXPAND); lv_obj_set_pos(lv_page_get_scrl(ta), style_ta->body.padding.hor, style_ta->body.padding.ver); } else { lv_style_t * style_ta = lv_obj_get_style(ta); ext->one_line = 0; lv_page_set_scrl_fit(ta, false, true); lv_label_set_long_mode(ext->label, LV_LABEL_LONG_BREAK); lv_obj_set_height(ta, LV_TA_DEF_HEIGHT); lv_obj_set_pos(lv_page_get_scrl(ta), style_ta->body.padding.hor, style_ta->body.padding.ver); } refr_cursor_area(ta); } /** * Set the alignment of the text area. * In one line mode the text can be scrolled only with `LV_LABEL_ALIGN_LEFT`. * This function should be called if the size of text area changes. * @param ta pointer to a text are object * @param align the desired alignment from `lv_label_align_t`. (LV_LABEL_ALIGN_LEFT/CENTER/RIGHT) */ void lv_ta_set_text_align(lv_obj_t * ta, lv_label_align_t align) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); lv_obj_t * label = lv_ta_get_label(ta); if(!ext->one_line) { lv_label_set_align(label, align); } else { /*Normal left align. Just let the text expand*/ if(align == LV_LABEL_ALIGN_LEFT) { lv_label_set_long_mode(label, LV_LABEL_LONG_EXPAND); lv_page_set_scrl_fit(ta, true, false); lv_label_set_align(label, align); } /*Else use fix label width equal to the Text area width*/ else { lv_label_set_long_mode(label, LV_LABEL_LONG_CROP); lv_page_set_scrl_fit(ta, false, false); lv_page_set_scrl_width(ta, 1); /*To refresh the scrollable's width*/ lv_label_set_align(label, align); lv_style_t * bg_style = lv_ta_get_style(ta, LV_TA_STYLE_BG); lv_obj_set_width(label, lv_obj_get_width(ta) - 2 * bg_style->body.padding.hor); } } refr_cursor_area(ta); } /** * Set a list of characters. Only these characters will be accepted by the text area * @param ta pointer to Text Area * @param list list of characters. Only the pointer is saved. E.g. "+-.,0123456789" */ void lv_ta_set_accepted_chars(lv_obj_t * ta, const char * list) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); ext->accapted_chars = list; } /** * Set max length of a Text Area. * @param ta pointer to Text Area * @param num the maximal number of characters can be added (`lv_ta_set_text` ignores it) */ void lv_ta_set_max_length(lv_obj_t * ta, uint16_t num) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); ext->max_length = num; } /** * Set a style of a text area * @param ta pointer to a text area object * @param type which style should be set * @param style pointer to a style */ void lv_ta_set_style(lv_obj_t * ta, lv_ta_style_t type, lv_style_t * style) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); switch(type) { case LV_TA_STYLE_BG: lv_page_set_style(ta, LV_PAGE_STYLE_BG, style); break; case LV_TA_STYLE_SB: lv_page_set_style(ta, LV_PAGE_STYLE_SB, style); break; case LV_TA_STYLE_EDGE_FLASH: lv_page_set_style(ta, LV_PAGE_STYLE_EDGE_FLASH, style); break; case LV_TA_STYLE_CURSOR: ext->cursor.style = style; lv_obj_refresh_ext_size(lv_page_get_scrl(ta)); /*Refresh ext. size because of cursor drawing*/ refr_cursor_area(ta); break; } } /*===================== * Getter functions *====================*/ /** * Get the text of a text area. In password mode it gives the real text (not '*'s). * @param ta pointer to a text area object * @return pointer to the text */ const char * lv_ta_get_text(const lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); const char * txt; if(ext->pwd_mode == 0) { txt = lv_label_get_text(ext->label); } else { txt = ext->pwd_tmp; } return txt; } /** * Get the label of a text area * @param ta pointer to a text area object * @return pointer to the label object */ lv_obj_t * lv_ta_get_label(const lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); return ext->label; } /** * Get the current cursor position in character index * @param ta pointer to a text area object * @return the cursor position */ uint16_t lv_ta_get_cursor_pos(const lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); return ext->cursor.pos; } /** * Get the current cursor type. * @param ta pointer to a text area object * @return element of 'lv_ta_cursor_type_t' */ lv_cursor_type_t lv_ta_get_cursor_type(const lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); return ext->cursor.type; } /** * Get the password mode attribute * @param ta pointer to a text area object * @return true: password mode is enabled, false: disabled */ bool lv_ta_get_pwd_mode(const lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); return ext->pwd_mode == 0 ? false : true; } /** * Get the one line configuration attribute * @param ta pointer to a text area object * @return true: one line configuration is enabled, false: disabled */ bool lv_ta_get_one_line(const lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); return ext->one_line == 0 ? false : true; } /** * Get a list of accepted characters. * @param ta pointer to Text Area * @return list of accented characters. */ const char * lv_ta_get_accepted_chars(lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); return ext->accapted_chars; } /** * Set max length of a Text Area. * @param ta pointer to Text Area * @return the maximal number of characters to be add */ uint16_t lv_ta_get_max_length(lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); return ext->max_length; } /** * Get a style of a text area * @param ta pointer to a text area object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_ta_get_style(const lv_obj_t * ta, lv_ta_style_t type) { lv_style_t * style = NULL; lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); switch(type) { case LV_TA_STYLE_BG: style = lv_page_get_style(ta, LV_PAGE_STYLE_BG); break; case LV_TA_STYLE_SB: style = lv_page_get_style(ta, LV_PAGE_STYLE_SB); break; case LV_TA_STYLE_EDGE_FLASH: style = lv_page_get_style(ta, LV_PAGE_STYLE_EDGE_FLASH); break; case LV_TA_STYLE_CURSOR: style = ext->cursor.style; break; default: style = NULL; break; } return style; } /*===================== * Other functions *====================*/ /** * Move the cursor one character right * @param ta pointer to a text area object */ void lv_ta_cursor_right(lv_obj_t * ta) { uint16_t cp = lv_ta_get_cursor_pos(ta); cp++; lv_ta_set_cursor_pos(ta, cp); } /** * Move the cursor one character left * @param ta pointer to a text area object */ void lv_ta_cursor_left(lv_obj_t * ta) { uint16_t cp = lv_ta_get_cursor_pos(ta); if(cp > 0) { cp--; lv_ta_set_cursor_pos(ta, cp); } } /** * Move the cursor one line down * @param ta pointer to a text area object */ void lv_ta_cursor_down(lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); lv_point_t pos; /*Get the position of the current letter*/ lv_label_get_letter_pos(ext->label, lv_ta_get_cursor_pos(ta), &pos); /*Increment the y with one line and keep the valid x*/ lv_style_t * label_style = lv_obj_get_style(ext->label); const lv_font_t * font_p = label_style->text.font; lv_coord_t font_h = lv_font_get_height(font_p); pos.y += font_h + label_style->text.line_space + 1; pos.x = ext->cursor.valid_x; /*Do not go below the last line*/ if(pos.y < lv_obj_get_height(ext->label)) { /*Get the letter index on the new cursor position and set it*/ uint16_t new_cur_pos = lv_label_get_letter_on(ext->label, &pos); lv_coord_t cur_valid_x_tmp = ext->cursor.valid_x; /*Cursor position set overwrites the valid positon */ lv_ta_set_cursor_pos(ta, new_cur_pos); ext->cursor.valid_x = cur_valid_x_tmp; } } /** * Move the cursor one line up * @param ta pointer to a text area object */ void lv_ta_cursor_up(lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); lv_point_t pos; /*Get the position of the current letter*/ lv_label_get_letter_pos(ext->label, lv_ta_get_cursor_pos(ta), &pos); /*Decrement the y with one line and keep the valid x*/ lv_style_t * label_style = lv_obj_get_style(ext->label); const lv_font_t * font = label_style->text.font; lv_coord_t font_h = lv_font_get_height(font); pos.y -= font_h + label_style->text.line_space - 1; pos.x = ext->cursor.valid_x; /*Get the letter index on the new cursor position and set it*/ uint16_t new_cur_pos = lv_label_get_letter_on(ext->label, &pos); lv_coord_t cur_valid_x_tmp = ext->cursor.valid_x; /*Cursor position set overwrites the valid positon */ lv_ta_set_cursor_pos(ta, new_cur_pos); ext->cursor.valid_x = cur_valid_x_tmp; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the text areas * @param ta pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW_MAIN: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_ta_design(lv_obj_t * ta, const lv_area_t * mask, lv_design_mode_t mode) { if(mode == LV_DESIGN_COVER_CHK) { /*Return false if the object is not covers the mask_p area*/ return ancestor_design(ta, mask, mode); } else if(mode == LV_DESIGN_DRAW_MAIN) { /*Draw the object*/ ancestor_design(ta, mask, mode); } else if(mode == LV_DESIGN_DRAW_POST) { ancestor_design(ta, mask, mode); } return true; } /** * An extended scrollable design of the page. Calls the normal design function and draws a cursor. * @param scrl pointer to the scrollable part of the Text area * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW_MAIN: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @return return true/false, depends on 'mode' */ static bool lv_ta_scrollable_design(lv_obj_t * scrl, const lv_area_t * mask, lv_design_mode_t mode) { if(mode == LV_DESIGN_COVER_CHK) { /*Return false if the object is not covers the mask_p area*/ return scrl_design(scrl, mask, mode); } else if(mode == LV_DESIGN_DRAW_MAIN) { /*Draw the object*/ scrl_design(scrl, mask, mode); } else if(mode == LV_DESIGN_DRAW_POST) { scrl_design(scrl, mask, mode); /*Draw the cursor*/ lv_obj_t * ta = lv_obj_get_parent(scrl); lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); if(ext->cursor.type == LV_CURSOR_NONE || (ext->cursor.type & LV_CURSOR_HIDDEN) || ext->cursor.state == 0) { return true; /*The cursor is not visible now*/ } lv_style_t cur_style; get_cursor_style(ta, &cur_style); const char * txt = lv_label_get_text(ext->label); /*Draw he cursor according to the type*/ lv_area_t cur_area; lv_area_copy(&cur_area, &ext->cursor.area); cur_area.x1 += ext->label->coords.x1; cur_area.y1 += ext->label->coords.y1; cur_area.x2 += ext->label->coords.x1; cur_area.y2 += ext->label->coords.y1; lv_opa_t opa_scale = lv_obj_get_opa_scale(ta); if(ext->cursor.type == LV_CURSOR_LINE) { lv_draw_rect(&cur_area, mask, &cur_style, opa_scale); } else if(ext->cursor.type == LV_CURSOR_BLOCK) { lv_draw_rect(&cur_area, mask, &cur_style, opa_scale); #if LV_TXT_UTF8 == 0 char letter_buf[2]; letter_buf[0] = txt[ext->cursor.txt_byte_pos]; letter_buf[1] = '\0'; #else char letter_buf[8] = {0}; memcpy(letter_buf, &txt[ext->cursor.txt_byte_pos], lv_txt_encoded_size(&txt[ext->cursor.txt_byte_pos])); #endif cur_area.x1 += cur_style.body.padding.hor; cur_area.y1 += cur_style.body.padding.ver; lv_draw_label(&cur_area, mask, &cur_style, opa_scale, letter_buf, LV_TXT_FLAG_NONE, 0); } else if(ext->cursor.type == LV_CURSOR_OUTLINE) { cur_style.body.empty = 1; if(cur_style.body.border.width == 0) cur_style.body.border.width = 1; /*Be sure the border will be drawn*/ lv_draw_rect(&cur_area, mask, &cur_style, opa_scale); } else if(ext->cursor.type == LV_CURSOR_UNDERLINE) { lv_draw_rect(&cur_area, mask, &cur_style, opa_scale); } } return true; } /** * Signal function of the text area * @param ta pointer to a text area object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_ta_signal(lv_obj_t * ta, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(ta, sign, param); if(res != LV_RES_OK) return res; lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); if(sign == LV_SIGNAL_CLEANUP) { if(ext->pwd_tmp != NULL) lv_mem_free(ext->pwd_tmp); /* (The created label will be deleted automatically) */ } else if(sign == LV_SIGNAL_STYLE_CHG) { if(ext->label) { lv_obj_t * scrl = lv_page_get_scrl(ta); lv_style_t * style_ta = lv_obj_get_style(ta); lv_style_t * style_scrl = lv_obj_get_style(scrl); if(ext->one_line) { /*In one line mode refresh the Text Area height because 'vpad' can modify it*/ lv_style_t * style_label = lv_obj_get_style(ext->label); lv_coord_t font_h = lv_font_get_height(style_label->text.font); lv_obj_set_height(ta, font_h + (style_ta->body.padding.ver + style_scrl->body.padding.ver) * 2); } else { /*In not one line mode refresh the Label width because 'hpad' can modify it*/ lv_obj_set_width(ext->label, lv_obj_get_width(scrl) - 2 * style_scrl->body.padding.hor); lv_obj_set_pos(ext->label, style_scrl->body.padding.hor, style_scrl->body.padding.ver); /*Be sure the Label is in the correct position*/ } lv_label_set_text(ext->label, NULL); } } else if(sign == LV_SIGNAL_CORD_CHG) { /*Set the label width according to the text area width*/ if(ext->label) { if(lv_obj_get_width(ta) != lv_area_get_width(param) || lv_obj_get_height(ta) != lv_area_get_height(param)) { lv_obj_t * scrl = lv_page_get_scrl(ta); lv_style_t * style_scrl = lv_obj_get_style(scrl); lv_obj_set_width(ext->label, lv_obj_get_width(scrl) - 2 * style_scrl->body.padding.hor); lv_obj_set_pos(ext->label, style_scrl->body.padding.hor, style_scrl->body.padding.ver); lv_label_set_text(ext->label, NULL); /*Refresh the label*/ refr_cursor_area(ta); } } } else if(sign == LV_SIGNAL_CONTROLL) { uint32_t c = *((uint32_t *)param); /*uint32_t because can be UTF-8*/ if(c == LV_GROUP_KEY_RIGHT) lv_ta_cursor_right(ta); else if(c == LV_GROUP_KEY_LEFT) lv_ta_cursor_left(ta); else if(c == LV_GROUP_KEY_UP) lv_ta_cursor_up(ta); else if(c == LV_GROUP_KEY_DOWN) lv_ta_cursor_down(ta); else if(c == LV_GROUP_KEY_BACKSPACE) lv_ta_del_char(ta); else if(c == LV_GROUP_KEY_DEL) { uint16_t cp = lv_ta_get_cursor_pos(ta); lv_ta_set_cursor_pos(ta, cp + 1); if(cp != lv_ta_get_cursor_pos(ta)) lv_ta_del_char(ta); } else { lv_ta_add_char(ta, c); } } else if(sign == LV_SIGNAL_GET_EDITABLE) { bool * editable = (bool *)param; *editable = true; } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_ta"; } else if(sign == LV_SIGNAL_DEFOCUS) { lv_cursor_type_t cur_type; cur_type = lv_ta_get_cursor_type(ta); lv_ta_set_cursor_type(ta, cur_type | LV_CURSOR_HIDDEN); } else if(sign == LV_SIGNAL_FOCUS) { #if USE_LV_GROUP lv_cursor_type_t cur_type; cur_type = lv_ta_get_cursor_type(ta); lv_group_t * g = lv_obj_get_group(ta); bool editing = lv_group_get_editing(g); lv_hal_indev_type_t indev_type = lv_indev_get_type(lv_indev_get_act()); /*Encoders need special handling*/ if(indev_type == LV_INDEV_TYPE_ENCODER) { if(editing) lv_ta_set_cursor_type(ta, cur_type & (~LV_CURSOR_HIDDEN)); else lv_ta_set_cursor_type(ta, cur_type | LV_CURSOR_HIDDEN); } else { lv_ta_set_cursor_type(ta, cur_type & (~LV_CURSOR_HIDDEN)); } #endif } return res; } /** * Signal function of the scrollable part of the text area * @param scrl pointer to scrollable part of a text area object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_ta_scrollable_signal(lv_obj_t * scrl, lv_signal_t sign, void * param) { lv_res_t res; lv_obj_t * ta = lv_obj_get_parent(scrl); lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); /* Include the ancient signal function */ res = scrl_signal(scrl, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_REFR_EXT_SIZE) { /*Set ext. size because the cursor might be out of this object*/ lv_style_t * style_label = lv_obj_get_style(ext->label); lv_coord_t font_h = lv_font_get_height(style_label->text.font); scrl->ext_size = LV_MATH_MAX(scrl->ext_size, style_label->text.line_space + font_h); } #if 0 else if(sign == LV_SIGNAL_CORD_CHG) { /*Set the label width according to the text area width*/ if(ext->label) { if(lv_obj_get_width(ta) != lv_area_get_width(param) || lv_obj_get_height(ta) != lv_area_get_height(param)) { lv_obj_t * scrl = lv_page_get_scrl(ta); lv_style_t * style_scrl = lv_obj_get_style(scrl); lv_obj_set_width(ext->label, lv_obj_get_width(scrl) - 2 * style_scrl->body.padding.hor); lv_obj_set_pos(ext->label, style_scrl->body.padding.hor, style_scrl->body.padding.ver); lv_label_set_text(ext->label, NULL); /*Refresh the label*/ refr_cursor_area(ta); } } } #endif return res; } #if USE_LV_ANIMATION /** * Called to blink the cursor * @param ta pointer to a text area * @param hide 1: hide the cursor, 0: show it */ static void cursor_blink_anim(lv_obj_t * ta, uint8_t show) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); if(show != ext->cursor.state) { ext->cursor.state = show == 0 ? 0 : 1; if(ext->cursor.type != LV_CURSOR_NONE && (ext->cursor.type & LV_CURSOR_HIDDEN) == 0) { lv_area_t area_tmp; lv_area_copy(&area_tmp, &ext->cursor.area); area_tmp.x1 += ext->label->coords.x1; area_tmp.y1 += ext->label->coords.y1; area_tmp.x2 += ext->label->coords.x1; area_tmp.y2 += ext->label->coords.y1; lv_inv_area(&area_tmp); } } } /** * Dummy function to animate char hiding in pwd mode. * Does nothing, but a function is required in car hiding anim. * (pwd_char_hider callback do the real job) * @param ta unused * @param x unused */ static void pwd_char_hider_anim(lv_obj_t * ta, int32_t x) { (void)ta; (void)x; } #endif /** * Hide all characters (convert them to '*') * @param ta: pointer to text area object */ static void pwd_char_hider(lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); if(ext->pwd_mode != 0) { char * txt = lv_label_get_text(ext->label); int16_t len = lv_txt_get_encoded_length(txt); bool refr = false; uint16_t i; for(i = 0; i < len; i++) { txt[i] = '*'; refr = true; } txt[i] = '\0'; if(refr != false) lv_label_set_text(ext->label, txt); } } /** * Test an unicode character if it is accepted or not. Checks max length and accepted char list. * @param ta pointer to a test area object * @param c an unicode character * @return true: accapted; false: rejected */ static bool char_is_accepted(lv_obj_t * ta, uint32_t c) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); /*If no restriction accept it*/ if(ext->accapted_chars == NULL && ext->max_length == 0) return true; /*Too many characters?*/ if(ext->max_length > 0 && lv_txt_get_encoded_length(lv_ta_get_text(ta)) >= ext->max_length) { return false; } /*Accepted character?*/ if(ext->accapted_chars) { uint32_t i = 0; uint32_t a; while(ext->accapted_chars[i] != '\0') { a = lv_txt_encoded_next(ext->accapted_chars, &i); if(a == c) return true; /*Accepted*/ } return false; /*The character wasn't in the list*/ } else { return true; /*If the accepted char list in not specified the accept the character*/ } } static void get_cursor_style(lv_obj_t * ta, lv_style_t * style_res) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); lv_style_t * label_style = lv_obj_get_style(ext->label); if(ext->cursor.style) { lv_style_copy(style_res, ext->cursor.style); } else { /*If cursor style is not specified then use the modified label style */ lv_style_copy(style_res, label_style); lv_color_t clv_color_tmp = style_res->text.color; /*Make letter color to cursor color*/ style_res->text.color = style_res->body.main_color; /*In block mode the letter color will be current background color*/ style_res->body.main_color = clv_color_tmp; style_res->body.grad_color = clv_color_tmp; style_res->body.border.color = clv_color_tmp; style_res->body.border.opa = LV_OPA_COVER; style_res->body.border.width = 1; style_res->body.shadow.width = 0; style_res->body.radius = 0; style_res->body.empty = 0; style_res->body.padding.hor = 0; style_res->body.padding.ver = 0; style_res->line.width = 1; style_res->body.opa = LV_OPA_COVER; } } static void refr_cursor_area(lv_obj_t * ta) { lv_ta_ext_t * ext = lv_obj_get_ext_attr(ta); lv_style_t * label_style = lv_obj_get_style(ext->label); lv_style_t cur_style; get_cursor_style(ta, &cur_style); uint16_t cur_pos = lv_ta_get_cursor_pos(ta); const char * txt = lv_label_get_text(ext->label); uint32_t byte_pos; #if LV_TXT_UTF8 != 0 byte_pos = lv_txt_encoded_get_byte_id(txt, cur_pos); uint32_t letter = lv_txt_encoded_next(&txt[byte_pos], NULL); #else byte_pos = cur_pos; uint32_t letter = txt[byte_pos]; #endif lv_coord_t letter_h = lv_font_get_height(label_style->text.font); /*Set letter_w (set not 0 on non printable but valid chars)*/ lv_coord_t letter_w; if(letter == '\0' || letter == '\n' || letter == '\r') { letter_w = lv_font_get_width(label_style->text.font, ' '); } else { letter_w = lv_font_get_width(label_style->text.font, letter); } lv_point_t letter_pos; lv_label_get_letter_pos(ext->label, cur_pos, &letter_pos); /*If the cursor is out of the text (most right) draw it to the next line*/ if(letter_pos.x + ext->label->coords.x1 + letter_w > ext->label->coords.x2 && ext->one_line == 0 && lv_label_get_align(ext->label) != LV_LABEL_ALIGN_RIGHT) { letter_pos.x = 0; letter_pos.y += letter_h + label_style->text.line_space; if(letter != '\0') { byte_pos += lv_txt_encoded_size(&txt[byte_pos]); letter = lv_txt_encoded_next(&txt[byte_pos], NULL); } if(letter == '\0' || letter == '\n' || letter == '\r') { letter_w = lv_font_get_width(label_style->text.font, ' '); } else { letter_w = lv_font_get_width(label_style->text.font, letter); } } /*Save the byte position. It is required to draw `LV_CURSOR_BLOCK`*/ ext->cursor.txt_byte_pos = byte_pos; /*Draw he cursor according to the type*/ lv_area_t cur_area; if(ext->cursor.type == LV_CURSOR_LINE) { cur_area.x1 = letter_pos.x + cur_style.body.padding.hor - (cur_style.line.width >> 1) - (cur_style.line.width & 0x1); cur_area.y1 = letter_pos.y + cur_style.body.padding.ver; cur_area.x2 = letter_pos.x + cur_style.body.padding.hor + (cur_style.line.width >> 1); cur_area.y2 = letter_pos.y + cur_style.body.padding.ver + letter_h; } else if(ext->cursor.type == LV_CURSOR_BLOCK) { cur_area.x1 = letter_pos.x - cur_style.body.padding.hor; cur_area.y1 = letter_pos.y - cur_style.body.padding.ver; cur_area.x2 = letter_pos.x + cur_style.body.padding.hor + letter_w; cur_area.y2 = letter_pos.y + cur_style.body.padding.ver + letter_h; } else if(ext->cursor.type == LV_CURSOR_OUTLINE) { cur_area.x1 = letter_pos.x - cur_style.body.padding.hor; cur_area.y1 = letter_pos.y - cur_style.body.padding.ver; cur_area.x2 = letter_pos.x + cur_style.body.padding.hor + letter_w; cur_area.y2 = letter_pos.y + cur_style.body.padding.ver + letter_h; } else if(ext->cursor.type == LV_CURSOR_UNDERLINE) { cur_area.x1 = letter_pos.x + cur_style.body.padding.hor; cur_area.y1 = letter_pos.y + cur_style.body.padding.ver + letter_h - (cur_style.line.width >> 1); cur_area.x2 = letter_pos.x + cur_style.body.padding.hor + letter_w; cur_area.y2 = letter_pos.y + cur_style.body.padding.ver + letter_h + (cur_style.line.width >> 1) + (cur_style.line.width & 0x1); } /*Save the new area*/ lv_area_t area_tmp; lv_area_copy(&area_tmp, &ext->cursor.area); area_tmp.x1 += ext->label->coords.x1; area_tmp.y1 += ext->label->coords.y1; area_tmp.x2 += ext->label->coords.x1; area_tmp.y2 += ext->label->coords.y1; lv_inv_area(&area_tmp); lv_area_copy(&ext->cursor.area, &cur_area); lv_area_copy(&area_tmp, &ext->cursor.area); area_tmp.x1 += ext->label->coords.x1; area_tmp.y1 += ext->label->coords.y1; area_tmp.x2 += ext->label->coords.x1; area_tmp.y2 += ext->label->coords.y1; lv_inv_area(&area_tmp); } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_ta.h ================================================ /** * @file lv_ta.h * */ #ifndef LV_TA_H #define LV_TA_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_TA != 0 /*Testing of dependencies*/ #if USE_LV_PAGE == 0 #error "lv_ta: lv_page is required. Enable it in lv_conf.h (USE_LV_PAGE 1) " #endif #if USE_LV_LABEL == 0 #error "lv_ta: lv_label is required. Enable it in lv_conf.h (USE_LV_LABEL 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_page.h" #include "lv_label.h" /********************* * DEFINES *********************/ #define LV_TA_CURSOR_LAST (0x7FFF) /*Put the cursor after the last character*/ /********************** * TYPEDEFS **********************/ enum { LV_CURSOR_NONE, LV_CURSOR_LINE, LV_CURSOR_BLOCK, LV_CURSOR_OUTLINE, LV_CURSOR_UNDERLINE, LV_CURSOR_HIDDEN = 0x08, /*Or it to any value to hide the cursor temporally*/ }; typedef uint8_t lv_cursor_type_t; /*Data of text area*/ typedef struct { lv_page_ext_t page; /*Ext. of ancestor*/ /*New data for this type */ lv_obj_t * label; /*Label of the text area*/ char * pwd_tmp; /*Used to store the original text in password mode*/ const char * accapted_chars;/*Only these characters will be accepted. NULL: accept all*/ uint16_t max_length; /*The max. number of characters. 0: no limit*/ uint8_t pwd_mode :1; /*Replace characters with '*' */ uint8_t one_line :1; /*One line mode (ignore line breaks)*/ struct { lv_style_t *style; /*Style of the cursor (NULL to use label's style)*/ lv_coord_t valid_x; /*Used when stepping up/down in text area when stepping to a shorter line. (Handled by the library)*/ uint16_t pos; /*The current cursor position (0: before 1. letter; 1: before 2. letter etc.)*/ lv_area_t area; /*Cursor area relative to the Text Area*/ uint16_t txt_byte_pos; /*Byte index of the letter after (on) the cursor*/ lv_cursor_type_t type:4; /*Shape of the cursor*/ uint8_t state :1; /*Indicates that the cursor is visible now or not (Handled by the library)*/ } cursor; } lv_ta_ext_t; enum { LV_TA_STYLE_BG, LV_TA_STYLE_SB, LV_TA_STYLE_EDGE_FLASH, LV_TA_STYLE_CURSOR, }; typedef uint8_t lv_ta_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a text area objects * @param par pointer to an object, it will be the parent of the new text area * @param copy pointer to a text area object, if not NULL then the new object will be copied from it * @return pointer to the created text area */ lv_obj_t * lv_ta_create(lv_obj_t * par, const lv_obj_t * copy); /*====================== * Add/remove functions *=====================*/ /** * Insert a character to the current cursor position. * To add a wide char, e.g. 'Á' use `lv_txt_encoded_conv_wc('Á')` * @param ta pointer to a text area object * @param c a character (e.g. 'a') */ void lv_ta_add_char(lv_obj_t * ta, uint32_t c); /** * Insert a text to the current cursor position * @param ta pointer to a text area object * @param txt a '\0' terminated string to insert */ void lv_ta_add_text(lv_obj_t * ta, const char * txt); /** * Delete a the left character from the current cursor position * @param ta pointer to a text area object */ void lv_ta_del_char(lv_obj_t * ta); /*===================== * Setter functions *====================*/ /** * Set the text of a text area * @param ta pointer to a text area * @param txt pointer to the text */ void lv_ta_set_text(lv_obj_t * ta, const char * txt); /** * Set the cursor position * @param obj pointer to a text area object * @param pos the new cursor position in character index * < 0 : index from the end of the text * LV_TA_CURSOR_LAST: go after the last character */ void lv_ta_set_cursor_pos(lv_obj_t * ta, int16_t pos); /** * Set the cursor type. * @param ta pointer to a text area object * @param cur_type: element of 'lv_cursor_type_t' */ void lv_ta_set_cursor_type(lv_obj_t * ta, lv_cursor_type_t cur_type); /** * Enable/Disable password mode * @param ta pointer to a text area object * @param en true: enable, false: disable */ void lv_ta_set_pwd_mode(lv_obj_t * ta, bool en); /** * Configure the text area to one line or back to normal * @param ta pointer to a Text area object * @param en true: one line, false: normal */ void lv_ta_set_one_line(lv_obj_t * ta, bool en); /** * Set the alignment of the text area. * In one line mode the text can be scrolled only with `LV_LABEL_ALIGN_LEFT`. * This function should be called if the size of text area changes. * @param ta pointer to a text are object * @param align the desired alignment from `lv_label_align_t`. (LV_LABEL_ALIGN_LEFT/CENTER/RIGHT) */ void lv_ta_set_text_align(lv_obj_t * ta, lv_label_align_t align); /** * Set a list of characters. Only these characters will be accepted by the text area * @param ta pointer to Text Area * @param list list of characters. Only the pointer is saved. E.g. "+-.,0123456789" */ void lv_ta_set_accepted_chars(lv_obj_t * ta, const char * list); /** * Set max length of a Text Area. * @param ta pointer to Text Area * @param num the maximal number of characters can be added (`lv_ta_set_text` ignores it) */ void lv_ta_set_max_length(lv_obj_t * ta, uint16_t num); /** * Set an action to call when the Text area is clicked * @param ta pointer to a Text area * @param action a function pointer */ static inline void lv_ta_set_action(lv_obj_t * ta, lv_action_t action) { lv_page_set_rel_action(ta, action); } /** * Set the scroll bar mode of a text area * @param ta pointer to a text area object * @param sb_mode the new mode from 'lv_page_sb_mode_t' enum */ static inline void lv_ta_set_sb_mode(lv_obj_t * ta, lv_sb_mode_t mode) { lv_page_set_sb_mode(ta, mode); } /** * Enable the scroll propagation feature. If enabled then the Text area will move its parent if there is no more space to scroll. * @param ta pointer to a Text area * @param en true or false to enable/disable scroll propagation */ static inline void lv_ta_set_scroll_propagation(lv_obj_t * ta, bool en) { lv_page_set_scroll_propagation(ta, en); } /** * Enable the edge flash effect. (Show an arc when the an edge is reached) * @param page pointer to a Text Area * @param en true or false to enable/disable end flash */ static inline void lv_ta_set_edge_flash(lv_obj_t * ta, bool en) { lv_page_set_edge_flash(ta, en); } /** * Set a style of a text area * @param ta pointer to a text area object * @param type which style should be set * @param style pointer to a style */ void lv_ta_set_style(lv_obj_t *ta, lv_ta_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Get the text of a text area. In password mode it gives the real text (not '*'s). * @param ta pointer to a text area object * @return pointer to the text */ const char * lv_ta_get_text(const lv_obj_t * ta); /** * Get the label of a text area * @param ta pointer to a text area object * @return pointer to the label object */ lv_obj_t * lv_ta_get_label(const lv_obj_t * ta); /** * Get the current cursor position in character index * @param ta pointer to a text area object * @return the cursor position */ uint16_t lv_ta_get_cursor_pos(const lv_obj_t * ta); /** * Get the current cursor visibility. * @param ta pointer to a text area object * @return true: the cursor is drawn, false: the cursor is hidden */ //bool lv_ta_get_cursor_show(const lv_obj_t * ta); /** * Get the current cursor type. * @param ta pointer to a text area object * @return element of 'lv_cursor_type_t' */ lv_cursor_type_t lv_ta_get_cursor_type(const lv_obj_t * ta); /** * Get the password mode attribute * @param ta pointer to a text area object * @return true: password mode is enabled, false: disabled */ bool lv_ta_get_pwd_mode(const lv_obj_t * ta); /** * Get the one line configuration attribute * @param ta pointer to a text area object * @return true: one line configuration is enabled, false: disabled */ bool lv_ta_get_one_line(const lv_obj_t * ta); /** * Get a list of accepted characters. * @param ta pointer to Text Area * @return list of accented characters. */ const char * lv_ta_get_accepted_chars(lv_obj_t * ta); /** * Set max length of a Text Area. * @param ta pointer to Text Area * @return the maximal number of characters to be add */ uint16_t lv_ta_get_max_length(lv_obj_t * ta); /** * Set an action to call when the Text area is clicked * @param ta pointer to a Text area * @param action a function pointer */ static inline lv_action_t lv_ta_get_action(lv_obj_t * ta) { return lv_page_get_rel_action(ta); } /** * Get the scroll bar mode of a text area * @param ta pointer to a text area object * @return scrollbar mode from 'lv_page_sb_mode_t' enum */ static inline lv_sb_mode_t lv_ta_get_sb_mode(const lv_obj_t * ta) { return lv_page_get_sb_mode(ta); } /** * Get the scroll propagation property * @param ta pointer to a Text area * @return true or false */ static inline bool lv_ta_get_scroll_propagation(lv_obj_t * ta) { return lv_page_get_scroll_propagation(ta); } /** * Get the scroll propagation property * @param ta pointer to a Text area * @return true or false */ static inline bool lv_ta_get_edge_flash(lv_obj_t * ta) { return lv_page_get_edge_flash(ta); } /** * Get a style of a text area * @param ta pointer to a text area object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_ta_get_style(const lv_obj_t *ta, lv_ta_style_t type); /*===================== * Other functions *====================*/ /** * Move the cursor one character right * @param ta pointer to a text area object */ void lv_ta_cursor_right(lv_obj_t * ta); /** * Move the cursor one character left * @param ta pointer to a text area object */ void lv_ta_cursor_left(lv_obj_t * ta); /** * Move the cursor one line down * @param ta pointer to a text area object */ void lv_ta_cursor_down(lv_obj_t * ta); /** * Move the cursor one line up * @param ta pointer to a text area object */ void lv_ta_cursor_up(lv_obj_t * ta); /********************** * MACROS **********************/ #endif /*USE_LV_TA_H*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_TA_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_table.c ================================================ /** * @file lv_table.c * */ /********************* * INCLUDES *********************/ #include "lv_table.h" #if USE_LV_TABLE != 0 #include "../lv_misc/lv_txt.h" #include "../lv_misc/lv_math.h" #include "../lv_draw/lv_draw_label.h" #include "../lv_themes/lv_theme.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_table_design(lv_obj_t * table, const lv_area_t * mask, lv_design_mode_t mode); static lv_res_t lv_table_signal(lv_obj_t * table, lv_signal_t sign, void * param); static lv_coord_t get_row_height(lv_obj_t * table, uint16_t row_id); static void refr_size(lv_obj_t * table); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_design_func_t ancestor_scrl_design; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a table object * @param par pointer to an object, it will be the parent of the new table * @param copy pointer to a table object, if not NULL then the new object will be copied from it * @return pointer to the created table */ lv_obj_t * lv_table_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("table create started"); /*Create the ancestor of table*/ lv_obj_t * new_table = lv_obj_create(par, copy); lv_mem_assert(new_table); if(new_table == NULL) return NULL; /*Allocate the table type specific extended data*/ lv_table_ext_t * ext = lv_obj_allocate_ext_attr(new_table, sizeof(lv_table_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_table); if(ancestor_scrl_design == NULL) ancestor_scrl_design = lv_obj_get_design_func(new_table); /*Initialize the allocated 'ext' */ ext->cell_data = NULL; ext->cell_style[0] = &lv_style_plain; ext->cell_style[1] = &lv_style_plain; ext->cell_style[2] = &lv_style_plain; ext->cell_style[3] = &lv_style_plain; ext->col_cnt = 0; ext->row_cnt = 0; uint16_t i; for(i = 0; i < LV_TABLE_COL_MAX; i++) { ext->col_w[i] = LV_DPI; } /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_table, lv_table_signal); lv_obj_set_design_func(new_table, lv_table_design); /*Init the new table table*/ if(copy == NULL) { /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_table_set_style(new_table, LV_TABLE_STYLE_BG, th->table.bg); lv_table_set_style(new_table, LV_TABLE_STYLE_CELL1, th->table.cell); lv_table_set_style(new_table, LV_TABLE_STYLE_CELL2, th->table.cell); lv_table_set_style(new_table, LV_TABLE_STYLE_CELL3, th->table.cell); lv_table_set_style(new_table, LV_TABLE_STYLE_CELL4, th->table.cell); } else { lv_table_set_style(new_table, LV_TABLE_STYLE_BG, &lv_style_plain_color); } } /*Copy an existing table*/ else { lv_table_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->cell_style[0] = copy_ext->cell_style[0]; ext->cell_style[1] = copy_ext->cell_style[1]; ext->cell_style[2] = copy_ext->cell_style[2]; ext->cell_style[3] = copy_ext->cell_style[3]; ext->col_cnt = copy_ext->col_cnt; ext->row_cnt = copy_ext->row_cnt; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_table); } LV_LOG_INFO("table created"); return new_table; } /*===================== * Setter functions *====================*/ /** * Set the value of a cell. * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @param txt text to display in the cell. It will be copied and saved so this variable is not required after this function call. */ void lv_table_set_cell_value(lv_obj_t * table, uint16_t row, uint16_t col, const char * txt) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); if(row >= ext->row_cnt || col >= ext->col_cnt) { LV_LOG_WARN("lv_table_set_cell_value: invalid row or column"); return; } uint32_t cell = row * ext->col_cnt + col; lv_table_cell_format_t format; /*Save the format byte*/ if(ext->cell_data[cell]) { format.format_byte = ext->cell_data[cell][0]; } /*Initialize the format byte*/ else { format.align = LV_LABEL_ALIGN_LEFT; format.right_merge = 0; format.type = 0; format.crop = 0; } ext->cell_data[cell] = lv_mem_realloc(ext->cell_data[cell], strlen(txt) + 2); /*+1: trailing '\0; +1: format byte*/ strcpy(ext->cell_data[cell] + 1, txt); /*Leave the format byte*/ ext->cell_data[cell][0] = format.format_byte; refr_size(table); } /** * Set the number of rows * @param table table pointer to a Table object * @param row_cnt number of rows */ void lv_table_set_row_cnt(lv_obj_t * table, uint16_t row_cnt) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); uint16_t old_row_cnt = ext->row_cnt; ext->row_cnt = row_cnt; if(ext->row_cnt > 0 && ext->col_cnt > 0) { ext->cell_data = lv_mem_realloc(ext->cell_data, ext->row_cnt * ext->col_cnt * sizeof(char*)); /*Initilize the new fields*/ if(old_row_cnt < row_cnt) { uint16_t old_cell_cnt = old_row_cnt * ext->col_cnt; uint32_t new_cell_cnt = ext->col_cnt * ext->row_cnt; memset(&ext->cell_data[old_cell_cnt], 0, (new_cell_cnt - old_cell_cnt) * sizeof(ext->cell_data[0])); } } else { lv_mem_free(ext->cell_data); ext->cell_data = NULL; } refr_size(table); } /** * Set the number of columns * @param table table pointer to a Table object * @param col_cnt number of columns. Must be < LV_TABLE_COL_MAX */ void lv_table_set_col_cnt(lv_obj_t * table, uint16_t col_cnt) { if(col_cnt >= LV_TABLE_COL_MAX) { LV_LOG_WARN("lv_table_set_col_cnt: too many columns. Must be < LV_TABLE_COL_MAX."); return; } lv_table_ext_t * ext = lv_obj_get_ext_attr(table); uint16_t old_col_cnt = ext->col_cnt; ext->col_cnt = col_cnt; if(ext->row_cnt > 0 && ext->col_cnt > 0) { ext->cell_data = lv_mem_realloc(ext->cell_data, ext->row_cnt * ext->col_cnt * sizeof(char*)); /*Initilize the new fields*/ if(old_col_cnt < col_cnt) { uint16_t old_cell_cnt = old_col_cnt * ext->row_cnt; uint32_t new_cell_cnt = ext->col_cnt * ext->row_cnt; memset(&ext->cell_data[old_cell_cnt], 0, (new_cell_cnt - old_cell_cnt) * sizeof(ext->cell_data[0])); } } else { lv_mem_free(ext->cell_data); ext->cell_data = NULL; } refr_size(table); } /** * Set the width of a column * @param table table pointer to a Table object * @param col_id id of the column [0 .. LV_TABLE_COL_MAX -1] * @param w width of the column */ void lv_table_set_col_width(lv_obj_t * table, uint16_t col_id, lv_coord_t w) { if(col_id >= LV_TABLE_COL_MAX) { LV_LOG_WARN("lv_table_set_col_width: too big 'col_id'. Must be < LV_TABLE_COL_MAX."); return; } lv_table_ext_t * ext = lv_obj_get_ext_attr(table); ext->col_w[col_id] = w; refr_size(table); } /** * Set the text align in a cell * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @param align LV_LABEL_ALIGN_LEFT or LV_LABEL_ALIGN_CENTER or LV_LABEL_ALIGN_RIGHT */ void lv_table_set_cell_align(lv_obj_t * table, uint16_t row, uint16_t col, lv_label_align_t align) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); if(row >= ext->row_cnt || col >= ext->col_cnt) { LV_LOG_WARN("lv_table_set_cell_align: invalid row or column"); return; } uint32_t cell = row * ext->col_cnt + col; if(ext->cell_data[cell] == NULL) { ext->cell_data[cell] = lv_mem_alloc(2); /*+1: trailing '\0; +1: format byte*/ ext->cell_data[cell][0] = 0; ext->cell_data[cell][1] = '\0'; } lv_table_cell_format_t format; format.format_byte = ext->cell_data[cell][0]; format.align = align; ext->cell_data[cell][0] = format.format_byte; } /** * Set the type of a cell. * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @param type 1,2,3 or 4. The cell style will be chosen accordingly. */ void lv_table_set_cell_type(lv_obj_t * table, uint16_t row, uint16_t col, uint8_t type) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); if(row >= ext->row_cnt || col >= ext->col_cnt) { LV_LOG_WARN("lv_table_set_cell_type: invalid row or column"); return; } uint32_t cell = row * ext->col_cnt + col; if(ext->cell_data[cell] == NULL) { ext->cell_data[cell] = lv_mem_alloc(2); /*+1: trailing '\0; +1: format byte*/ ext->cell_data[cell][0] = 0; ext->cell_data[cell][1] = '\0'; } if(type > 0) type--; /*User gives 1,2,3,4 but easier to handle 0, 1, 2, 3*/ if(type >= LV_TABLE_CELL_STYLE_CNT) type = LV_TABLE_CELL_STYLE_CNT - 1; lv_table_cell_format_t format; format.format_byte = ext->cell_data[cell][0]; format.type = type; ext->cell_data[cell][0] = format.format_byte; } /** * Set the cell crop. (Don't adjust the height of the cell according to its content) * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @param crop true: crop the cell content; false: set the cell height to the content. */ void lv_table_set_cell_crop(lv_obj_t * table, uint16_t row, uint16_t col, bool crop) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); if(row >= ext->row_cnt || col >= ext->col_cnt) { LV_LOG_WARN("lv_table_set_cell_crop: invalid row or column"); return; } uint32_t cell = row * ext->col_cnt + col; if(ext->cell_data[cell] == NULL) { ext->cell_data[cell] = lv_mem_alloc(2); /*+1: trailing '\0; +1: format byte*/ ext->cell_data[cell][0] = 0; ext->cell_data[cell][1] = '\0'; } lv_table_cell_format_t format; format.format_byte = ext->cell_data[cell][0]; format.crop = crop; ext->cell_data[cell][0] = format.format_byte; } /** * Merge a cell with the right neighbor. The value of the cell to the right won't be displayed. * @param table table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @param en true: merge right; false: don't merge right */ void lv_table_set_cell_merge_right(lv_obj_t * table, uint16_t row, uint16_t col, bool en) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); if(row >= ext->row_cnt || col >= ext->col_cnt) { LV_LOG_WARN("lv_table_set_cell_merge_right: invalid row or column"); return; } uint32_t cell = row * ext->col_cnt + col; if(ext->cell_data[cell] == NULL) { ext->cell_data[cell] = lv_mem_alloc(2); /*+1: trailing '\0; +1: format byte*/ ext->cell_data[cell][0] = 0; ext->cell_data[cell][1] = '\0'; } lv_table_cell_format_t format; format.format_byte = ext->cell_data[cell][0]; format.right_merge = en ? 1 : 0; ext->cell_data[cell][0] = format.format_byte; refr_size(table); } /** * Set a style of a table. * @param table pointer to table object * @param type which style should be set * @param style pointer to a style */ void lv_table_set_style(lv_obj_t * table, lv_table_style_t type, lv_style_t * style) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); switch(type) { case LV_TABLE_STYLE_BG: lv_obj_set_style(table, style); refr_size(table); break; case LV_TABLE_STYLE_CELL1: ext->cell_style[0] = style; refr_size(table); break; case LV_TABLE_STYLE_CELL2: ext->cell_style[1] = style; refr_size(table); break; case LV_TABLE_STYLE_CELL3: ext->cell_style[2] = style; refr_size(table); break; case LV_TABLE_STYLE_CELL4: ext->cell_style[3] = style; refr_size(table); break; } } /*===================== * Getter functions *====================*/ /** * Get the value of a cell. * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @return text in the cell */ const char * lv_table_get_cell_value(lv_obj_t * table, uint16_t row, uint16_t col) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); if(row >= ext->row_cnt || col >= ext->col_cnt) { LV_LOG_WARN("lv_table_set_cell_value: invalid row or column"); return ""; } uint32_t cell = row * ext->col_cnt + col; if(ext->cell_data[cell] == NULL) return ""; return &ext->cell_data[cell][1]; /*Skip the format byte*/ } /** * Get the number of rows. * @param table table pointer to a Table object * @return number of rows. */ uint16_t lv_table_get_row_cnt(lv_obj_t * table) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); return ext->row_cnt; } /** * Get the number of columns. * @param table table pointer to a Table object * @return number of columns. */ uint16_t lv_table_get_col_cnt(lv_obj_t * table) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); return ext->col_cnt; } /** * Get the width of a column * @param table table pointer to a Table object * @param col_id id of the column [0 .. LV_TABLE_COL_MAX -1] * @return width of the column */ lv_coord_t lv_table_get_col_width(lv_obj_t * table, uint16_t col_id) { if(col_id >= LV_TABLE_COL_MAX) { LV_LOG_WARN("lv_table_set_col_width: too big 'col_id'. Must be < LV_TABLE_COL_MAX."); return 0; } lv_table_ext_t * ext = lv_obj_get_ext_attr(table); return ext->col_w[col_id]; } /** * Get the text align of a cell * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @return LV_LABEL_ALIGN_LEFT (default in case of error) or LV_LABEL_ALIGN_CENTER or LV_LABEL_ALIGN_RIGHT */ lv_label_align_t lv_table_get_cell_align(lv_obj_t * table, uint16_t row, uint16_t col) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); if(row >= ext->row_cnt || col >= ext->col_cnt) { LV_LOG_WARN("lv_table_set_cell_align: invalid row or column"); return LV_LABEL_ALIGN_LEFT; /*Just return with something*/ } uint32_t cell = row * ext->col_cnt + col; if(ext->cell_data[cell] == NULL) return LV_LABEL_ALIGN_LEFT; /*Just return with something*/ else { lv_table_cell_format_t format; format.format_byte = ext->cell_data[cell][0]; return format.align; } } /** * Get the type of a cell * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @return 1,2,3 or 4 */ lv_label_align_t lv_table_get_cell_type(lv_obj_t * table, uint16_t row, uint16_t col) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); if(row >= ext->row_cnt || col >= ext->col_cnt) { LV_LOG_WARN("lv_table_get_cell_type: invalid row or column"); return 1; /*Just return with something*/ } uint32_t cell = row * ext->col_cnt + col; if(ext->cell_data[cell] == NULL) return 1; /*Just return with something*/ else { lv_table_cell_format_t format; format.format_byte = ext->cell_data[cell][0]; return format.type + 1; /*0,1,2,3 is stored but user sees 1,2,3,4*/ } } /** * Get the crop property of a cell * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @return true: text crop enabled; false: disabled */ lv_label_align_t lv_table_get_cell_crop(lv_obj_t * table, uint16_t row, uint16_t col) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); if(row >= ext->row_cnt || col >= ext->col_cnt) { LV_LOG_WARN("lv_table_get_cell_crop: invalid row or column"); return false; /*Just return with something*/ } uint32_t cell = row * ext->col_cnt + col; if(ext->cell_data[cell] == NULL) return false; /*Just return with something*/ else { lv_table_cell_format_t format; format.format_byte = ext->cell_data[cell][0]; return format.crop; } } /** * Get the cell merge attribute. * @param table table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @return true: merge right; false: don't merge right */ bool lv_table_get_cell_merge_right(lv_obj_t * table, uint16_t row, uint16_t col) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); if(row >= ext->row_cnt || col >= ext->col_cnt) { LV_LOG_WARN("lv_table_get_cell_merge_right: invalid row or column"); return false; } uint32_t cell = row * ext->col_cnt + col; if(ext->cell_data[cell] == NULL) return false; else { lv_table_cell_format_t format; format.format_byte = ext->cell_data[cell][0]; return format.right_merge ? true : false; } } /** * Get style of a table. * @param table pointer to table object * @param type which style should be get * @return style pointer to the style */ lv_style_t * lv_table_get_style(const lv_obj_t * table, lv_table_style_t type) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); lv_style_t * style = NULL; switch(type) { case LV_TABLE_STYLE_BG: style = lv_obj_get_style(table); break; case LV_TABLE_STYLE_CELL1: style = ext->cell_style[0]; break; case LV_TABLE_STYLE_CELL2: style = ext->cell_style[1]; break; case LV_TABLE_STYLE_CELL3: style = ext->cell_style[2]; break; case LV_TABLE_STYLE_CELL4: style = ext->cell_style[3]; break; default: return NULL; } return style; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the tables * @param table pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_table_design(lv_obj_t * table, const lv_area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { return false; } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { ancestor_scrl_design(table, mask, mode); lv_table_ext_t * ext = lv_obj_get_ext_attr(table); lv_style_t * bg_style = lv_obj_get_style(table); lv_style_t * cell_style; lv_coord_t h_row; lv_point_t txt_size; lv_area_t cell_area; lv_area_t txt_area; lv_txt_flag_t txt_flags; lv_opa_t opa_scale = lv_obj_get_opa_scale(table); uint16_t col; uint16_t row; uint16_t cell = 0; cell_area.y2 = table->coords.y1 + bg_style->body.padding.ver; for(row = 0; row < ext->row_cnt; row++) { h_row = get_row_height(table, row); cell_area.y1 = cell_area.y2; cell_area.y2 = cell_area.y1 + h_row; cell_area.x2 = table->coords.x1 + bg_style->body.padding.hor; for(col = 0; col < ext->col_cnt; col++) { lv_table_cell_format_t format; if(ext->cell_data[cell]) { format.format_byte = ext->cell_data[cell][0]; } else { format.right_merge = 0; format.align = LV_LABEL_ALIGN_LEFT; format.type = 0; format.crop = 1; } cell_style = ext->cell_style[format.type]; cell_area.x1 = cell_area.x2; cell_area.x2 = cell_area.x1 + ext->col_w[col]; uint16_t col_merge = 0; for(col_merge = 0; col_merge + col < ext->col_cnt - 1; col_merge ++) { if(ext->cell_data[cell + col_merge] != NULL) { format.format_byte = ext->cell_data[cell + col_merge][0]; if(format.right_merge) cell_area.x2 += ext->col_w[col + col_merge + 1]; else break; } else { break; } } lv_draw_rect(&cell_area, mask, cell_style, opa_scale); if(ext->cell_data[cell]) { txt_area.x1 = cell_area.x1 + cell_style->body.padding.hor; txt_area.x2 = cell_area.x2 - cell_style->body.padding.hor; txt_area.y1 = cell_area.y1 + cell_style->body.padding.ver; txt_area.y2 = cell_area.y2 - cell_style->body.padding.ver; /*Align the content to the middle if not cropped*/ if(format.crop == 0) { txt_flags = LV_TXT_FLAG_NONE; } else { txt_flags = LV_TXT_FLAG_EXPAND; } lv_txt_get_size(&txt_size, ext->cell_data[cell] + 1, cell_style->text.font, cell_style->text.letter_space, cell_style->text.line_space, lv_area_get_width(&txt_area), txt_flags); /*Align the content to the middle if not cropped*/ if(format.crop == 0) { txt_area.y1 = cell_area.y1 + h_row / 2 - txt_size.y / 2; txt_area.y2 = cell_area.y1 + h_row / 2 + txt_size.y / 2; } switch(format.align) { default: case LV_LABEL_ALIGN_LEFT: txt_flags |= LV_TXT_FLAG_NONE; break; case LV_LABEL_ALIGN_RIGHT: txt_flags |= LV_TXT_FLAG_RIGHT; break; case LV_LABEL_ALIGN_CENTER: txt_flags |= LV_TXT_FLAG_CENTER; break; } lv_area_t label_mask; bool label_mask_ok; label_mask_ok = lv_area_intersect(&label_mask, mask, &cell_area); if(label_mask_ok) { lv_draw_label(&txt_area, &label_mask, cell_style, opa_scale, ext->cell_data[cell] + 1, txt_flags, NULL); } /*Draw lines after '\n's*/ lv_point_t p1; lv_point_t p2; p1.x = cell_area.x1; p2.x = cell_area.x2; uint16_t i; for(i = 1; ext->cell_data[cell][i] != '\0'; i++) { if(ext->cell_data[cell][i] == '\n') { ext->cell_data[cell][i] = '\0'; lv_txt_get_size(&txt_size, ext->cell_data[cell] + 1, cell_style->text.font, cell_style->text.letter_space, cell_style->text.line_space, lv_area_get_width(&txt_area), txt_flags); p1.y = txt_area.y1 + txt_size.y + cell_style->text.line_space / 2; p2.y = txt_area.y1 + txt_size.y + cell_style->text.line_space / 2; lv_draw_line(&p1, &p2, mask, cell_style, opa_scale); ext->cell_data[cell][i] = '\n'; } } } cell += col_merge + 1; col += col_merge; } } } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { } return true; } /** * Signal function of the table * @param table pointer to a table object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_table_signal(lv_obj_t * table, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(table, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_CLEANUP) { /*Free the cell texts*/ lv_table_ext_t * ext = lv_obj_get_ext_attr(table); uint16_t cell; for(cell = 0; cell < ext->col_cnt * ext->row_cnt; cell++) { if(ext->cell_data[cell]) { lv_mem_free(ext->cell_data[cell]); ext->cell_data[cell] = NULL; } } } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_table"; } return res; } static void refr_size(lv_obj_t * table) { lv_coord_t h = 0; lv_coord_t w = 0; lv_table_ext_t * ext = lv_obj_get_ext_attr(table); uint16_t i; for(i= 0; i < ext->col_cnt; i++) { w += ext->col_w[i]; } for(i= 0; i < ext->row_cnt; i++) { h += get_row_height(table, i); } lv_style_t * bg_style = lv_obj_get_style(table); w += bg_style->body.padding.hor * 2; h += bg_style->body.padding.ver * 2; lv_obj_set_size(table, w + 1, h + 1); lv_obj_invalidate(table); } static lv_coord_t get_row_height(lv_obj_t * table, uint16_t row_id) { lv_table_ext_t * ext = lv_obj_get_ext_attr(table); lv_point_t txt_size; lv_coord_t txt_w; lv_style_t * cell_style; uint16_t row_start = row_id * ext->col_cnt; uint16_t cell; uint16_t col; lv_coord_t h_max = lv_font_get_height(ext->cell_style[0]->text.font) + 2 * ext->cell_style[0]->body.padding.ver; for(cell = row_start, col = 0; cell < row_start + ext->col_cnt; cell++, col ++) { if(ext->cell_data[cell] != NULL) { txt_w = ext->col_w[col]; uint16_t col_merge = 0; for(col_merge = 0; col_merge + col < ext->col_cnt - 1; col_merge ++) { if(ext->cell_data[cell + col_merge] != NULL) { lv_table_cell_format_t format; format.format_byte = ext->cell_data[cell + col_merge][0]; if(format.right_merge) txt_w += ext->col_w[col + col_merge + 1]; else break; } else { break; } } lv_table_cell_format_t format; format.format_byte = ext->cell_data[cell][0]; cell_style = ext->cell_style[format.type]; /*With text crop assume 1 line*/ if(format.crop) { h_max = LV_MATH_MAX(lv_font_get_height(cell_style->text.font) + 2 * cell_style->body.padding.ver, h_max); } /*Without text crop calculate the height of the text in the cell*/ else { txt_w -= 2 * cell_style->body.padding.hor; lv_txt_get_size(&txt_size, ext->cell_data[cell] + 1, cell_style->text.font, cell_style->text.letter_space, cell_style->text.line_space, txt_w, LV_TXT_FLAG_NONE); h_max = LV_MATH_MAX(txt_size.y + 2 * cell_style->body.padding.ver, h_max); cell += col_merge; col += col_merge; } } } return h_max; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_table.h ================================================ /** * @file lv_table.h * */ #ifndef LV_TABLE_H #define LV_TABLE_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_TABLE != 0 /*Testing of dependencies*/ #if USE_LV_LABEL == 0 #error "lv_table: lv_label is required. Enable it in lv_conf.h (USE_LV_LABEL 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_label.h" /********************* * DEFINES *********************/ #ifndef LV_TABLE_COL_MAX #define LV_TABLE_COL_MAX 12 #endif #define LV_TABLE_CELL_STYLE_CNT 4 /********************** * TYPEDEFS **********************/ typedef union { struct { uint8_t align:2; uint8_t right_merge:1; uint8_t type:2; uint8_t crop:1; }; uint8_t format_byte; }lv_table_cell_format_t; /*Data of table*/ typedef struct { /*New data for this type */ uint16_t col_cnt; uint16_t row_cnt; char ** cell_data; lv_style_t * cell_style[LV_TABLE_CELL_STYLE_CNT]; lv_coord_t col_w[LV_TABLE_COL_MAX]; } lv_table_ext_t; /*Styles*/ enum { LV_TABLE_STYLE_BG, LV_TABLE_STYLE_CELL1, LV_TABLE_STYLE_CELL2, LV_TABLE_STYLE_CELL3, LV_TABLE_STYLE_CELL4, }; typedef uint8_t lv_table_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a table object * @param par pointer to an object, it will be the parent of the new table * @param copy pointer to a table object, if not NULL then the new object will be copied from it * @return pointer to the created table */ lv_obj_t * lv_table_create(lv_obj_t * par, const lv_obj_t * copy); /*===================== * Setter functions *====================*/ /** * Set the value of a cell. * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @param txt text to display in the cell. It will be copied and saved so this variable is not required after this function call. */ void lv_table_set_cell_value(lv_obj_t * table, uint16_t row, uint16_t col, const char * txt); /** * Set the number of rows * @param table table pointer to a Table object * @param row_cnt number of rows */ void lv_table_set_row_cnt(lv_obj_t * table, uint16_t row_cnt); /** * Set the number of columns * @param table table pointer to a Table object * @param col_cnt number of columns. Must be < LV_TABLE_COL_MAX */ void lv_table_set_col_cnt(lv_obj_t * table, uint16_t col_cnt); /** * Set the width of a column * @param table table pointer to a Table object * @param col_id id of the column [0 .. LV_TABLE_COL_MAX -1] * @param w width of the column */ void lv_table_set_col_width(lv_obj_t * table, uint16_t col_id, lv_coord_t w); /** * Set the text align in a cell * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @param align LV_LABEL_ALIGN_LEFT or LV_LABEL_ALIGN_CENTER or LV_LABEL_ALIGN_RIGHT */ void lv_table_set_cell_align(lv_obj_t * table, uint16_t row, uint16_t col, lv_label_align_t align); /** * Set the type of a cell. * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @param type 1,2,3 or 4. The cell style will be chosen accordingly. */ void lv_table_set_cell_type(lv_obj_t * table, uint16_t row, uint16_t col, uint8_t type); /** * Set the cell crop. (Don't adjust the height of the cell according to its content) * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @param crop true: crop the cell content; false: set the cell height to the content. */ void lv_table_set_cell_crop(lv_obj_t * table, uint16_t row, uint16_t col, bool crop); /** * Merge a cell with the right neighbor. The value of the cell to the right won't be displayed. * @param table table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @param en true: merge right; false: don't merge right */ void lv_table_set_cell_merge_right(lv_obj_t * table, uint16_t row, uint16_t col, bool en); /** * Set a style of a table. * @param table pointer to table object * @param type which style should be set * @param style pointer to a style */ void lv_table_set_style(lv_obj_t * table, lv_table_style_t type, lv_style_t * style); /*===================== * Getter functions *====================*/ /** * Get the value of a cell. * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @return text in the cell */ const char * lv_table_get_cell_value(lv_obj_t * table, uint16_t row, uint16_t col); /** * Get the number of rows. * @param table table pointer to a Table object * @return number of rows. */ uint16_t lv_table_get_row_cnt(lv_obj_t * table); /** * Get the number of columns. * @param table table pointer to a Table object * @return number of columns. */ uint16_t lv_table_get_col_cnt(lv_obj_t * table); /** * Get the width of a column * @param table table pointer to a Table object * @param col_id id of the column [0 .. LV_TABLE_COL_MAX -1] * @return width of the column */ lv_coord_t lv_table_get_col_width(lv_obj_t * table, uint16_t col_id); /** * Get the text align of a cell * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @return LV_LABEL_ALIGN_LEFT (default in case of error) or LV_LABEL_ALIGN_CENTER or LV_LABEL_ALIGN_RIGHT */ lv_label_align_t lv_table_get_cell_align(lv_obj_t * table, uint16_t row, uint16_t col); /** * Get the type of a cell * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @return 1,2,3 or 4 */ lv_label_align_t lv_table_get_cell_type(lv_obj_t * table, uint16_t row, uint16_t col); /** * Get the crop property of a cell * @param table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @return true: text crop enabled; false: disabled */ lv_label_align_t lv_table_get_cell_crop(lv_obj_t * table, uint16_t row, uint16_t col); /** * Get the cell merge attribute. * @param table table pointer to a Table object * @param row id of the row [0 .. row_cnt -1] * @param col id of the column [0 .. col_cnt -1] * @return true: merge right; false: don't merge right */ bool lv_table_get_cell_merge_right(lv_obj_t * table, uint16_t row, uint16_t col); /** * Get style of a table. * @param table pointer to table object * @param type which style should be get * @return style pointer to the style */ lv_style_t * lv_table_get_style(const lv_obj_t * table, lv_table_style_t type); /*===================== * Other functions *====================*/ /********************** * MACROS **********************/ #endif /*USE_LV_TABLE*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_TABLE_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_tabview.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_tab.c * */ /********************* * INCLUDES *********************/ #include "lv_tabview.h" #if USE_LV_TABVIEW != 0 #include "lv_btnm.h" #include "../lv_themes/lv_theme.h" #include "../lv_misc/lv_anim.h" /********************* * DEFINES *********************/ #if USE_LV_ANIMATION # ifndef LV_TABVIEW_ANIM_TIME # define LV_TABVIEW_ANIM_TIME 300 /*Animation time of focusing to the a list element [ms] (0: no animation) */ # endif #else # undef LV_TABVIEW_ANIM_TIME # define LV_TABVIEW_ANIM_TIME 0 /*No animations*/ #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_tabview_signal(lv_obj_t * tabview, lv_signal_t sign, void * param); static lv_res_t tabpage_signal(lv_obj_t * tab_page, lv_signal_t sign, void * param); static lv_res_t tabpage_scrl_signal(lv_obj_t * tab_scrl, lv_signal_t sign, void * param); static void tabpage_pressed_handler(lv_obj_t * tabview, lv_obj_t * tabpage); static void tabpage_pressing_handler(lv_obj_t * tabview, lv_obj_t * tabpage); static void tabpage_press_lost_handler(lv_obj_t * tabview, lv_obj_t * tabpage); static lv_res_t tab_btnm_action(lv_obj_t * tab_btnm, const char * tab_name); static void tabview_realign(lv_obj_t * tabview); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_signal_func_t page_signal; static lv_signal_func_t page_scrl_signal; static const char * tab_def[] = {""}; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a Tab view object * @param par pointer to an object, it will be the parent of the new tab * @param copy pointer to a tab object, if not NULL then the new object will be copied from it * @return pointer to the created tab */ lv_obj_t * lv_tabview_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("tab view create started"); /*Create the ancestor of tab*/ lv_obj_t * new_tabview = lv_obj_create(par, copy); lv_mem_assert(new_tabview); if(new_tabview == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_tabview); /*Allocate the tab type specific extended data*/ lv_tabview_ext_t * ext = lv_obj_allocate_ext_attr(new_tabview, sizeof(lv_tabview_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; /*Initialize the allocated 'ext' */ ext->drag_hor = 0; ext->draging = 0; ext->slide_enable = 1; ext->tab_cur = 0; ext->point_last.x = 0; ext->point_last.y = 0; ext->content = NULL; ext->indic = NULL; ext->btns = NULL; ext->tab_load_action = NULL; ext->btns_pos = LV_TABVIEW_BTNS_POS_TOP; ext->anim_time = LV_TABVIEW_ANIM_TIME; ext->btns_hide = 0; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_tabview, lv_tabview_signal); /*Init the new tab tab*/ if(copy == NULL) { ext->tab_name_ptr = lv_mem_alloc(sizeof(char *)); lv_mem_assert(ext->tab_name_ptr); if(ext->tab_name_ptr == NULL) return NULL; ext->tab_name_ptr[0] = ""; ext->tab_cnt = 0; lv_obj_set_size(new_tabview, LV_HOR_RES, LV_VER_RES); ext->btns = lv_btnm_create(new_tabview, NULL); lv_obj_set_height(ext->btns, 3 * LV_DPI / 4); lv_btnm_set_map(ext->btns, tab_def); lv_btnm_set_action(ext->btns, tab_btnm_action); lv_btnm_set_toggle(ext->btns, true, 0); ext->indic = lv_obj_create(ext->btns, NULL); lv_obj_set_width(ext->indic, LV_DPI); lv_obj_align(ext->indic, ext->btns, LV_ALIGN_IN_BOTTOM_LEFT, 0, 0); lv_obj_set_click(ext->indic, false); ext->content = lv_cont_create(new_tabview, NULL); lv_cont_set_fit(ext->content, true, false); lv_cont_set_layout(ext->content, LV_LAYOUT_ROW_T); lv_cont_set_style(ext->content, &lv_style_transp_tight); lv_obj_set_height(ext->content, LV_VER_RES - lv_obj_get_height(ext->btns)); lv_obj_align(ext->content, ext->btns, LV_ALIGN_OUT_BOTTOM_LEFT, 0, 0); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_tabview_set_style(new_tabview, LV_TABVIEW_STYLE_BG, th->tabview.bg); lv_tabview_set_style(new_tabview, LV_TABVIEW_STYLE_INDIC, th->tabview.indic); lv_tabview_set_style(new_tabview, LV_TABVIEW_STYLE_BTN_BG, th->tabview.btn.bg); lv_tabview_set_style(new_tabview, LV_TABVIEW_STYLE_BTN_REL, th->tabview.btn.rel); lv_tabview_set_style(new_tabview, LV_TABVIEW_STYLE_BTN_PR, th->tabview.btn.pr); lv_tabview_set_style(new_tabview, LV_TABVIEW_STYLE_BTN_TGL_REL, th->tabview.btn.tgl_rel); lv_tabview_set_style(new_tabview, LV_TABVIEW_STYLE_BTN_TGL_PR, th->tabview.btn.tgl_pr); } else { lv_tabview_set_style(new_tabview, LV_TABVIEW_STYLE_BG, &lv_style_plain); lv_tabview_set_style(new_tabview, LV_TABVIEW_STYLE_BTN_BG, &lv_style_transp); lv_tabview_set_style(new_tabview, LV_TABVIEW_STYLE_INDIC, &lv_style_plain_color); } } /*Copy an existing tab view*/ else { lv_tabview_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->point_last.x = 0; ext->point_last.y = 0; ext->btns = lv_btnm_create(new_tabview, copy_ext->btns); ext->indic = lv_obj_create(ext->btns, copy_ext->indic); ext->content = lv_cont_create(new_tabview, copy_ext->content); ext->anim_time = copy_ext->anim_time; ext->tab_load_action = copy_ext->tab_load_action; ext->tab_name_ptr = lv_mem_alloc(sizeof(char *)); lv_mem_assert(ext->tab_name_ptr); if(ext->tab_name_ptr == NULL) return NULL; ext->tab_name_ptr[0] = ""; lv_btnm_set_map(ext->btns, ext->tab_name_ptr); uint16_t i; lv_obj_t * new_tab; lv_obj_t * copy_tab; for(i = 0; i < copy_ext->tab_cnt; i++) { new_tab = lv_tabview_add_tab(new_tabview, copy_ext->tab_name_ptr[i]); copy_tab = lv_tabview_get_tab(copy, i); lv_page_set_style(new_tab, LV_PAGE_STYLE_BG, lv_page_get_style(copy_tab, LV_PAGE_STYLE_BG)); lv_page_set_style(new_tab, LV_PAGE_STYLE_SCRL, lv_page_get_style(copy_tab, LV_PAGE_STYLE_SCRL)); lv_page_set_style(new_tab, LV_PAGE_STYLE_SB, lv_page_get_style(copy_tab, LV_PAGE_STYLE_SB)); } /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_tabview); } LV_LOG_INFO("tab view created"); return new_tabview; } /** * Delete all children of the scrl object, without deleting scrl child. * @param obj pointer to an object */ void lv_tabview_clean(lv_obj_t * obj) { lv_obj_t * scrl = lv_page_get_scrl(obj); lv_obj_clean(scrl); } /*====================== * Add/remove functions *=====================*/ /** * Add a new tab with the given name * @param tabview pointer to Tab view object where to ass the new tab * @param name the text on the tab button * @return pointer to the created page object (lv_page). You can create your content here */ lv_obj_t * lv_tabview_add_tab(lv_obj_t * tabview, const char * name) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); /*Create the container page*/ lv_obj_t * h = lv_page_create(ext->content, NULL); lv_obj_set_size(h, lv_obj_get_width(tabview), lv_obj_get_height(ext->content)); lv_page_set_sb_mode(h, LV_SB_MODE_OFF); // Important! lv_page_set_style(h, LV_PAGE_STYLE_BG, &lv_style_transp); lv_page_set_style(h, LV_PAGE_STYLE_SCRL, &lv_style_transp); if(page_signal == NULL) page_signal = lv_obj_get_signal_func(h); if(page_scrl_signal == NULL) page_scrl_signal = lv_obj_get_signal_func(lv_page_get_scrl(h)); lv_obj_set_signal_func(h, tabpage_signal); lv_obj_set_signal_func(lv_page_get_scrl(h), tabpage_scrl_signal); /*Extend the button matrix map with the new name*/ char * name_dm; if((name[0] & LV_BTNM_CTRL_MASK) == LV_BTNM_CTRL_CODE) { /*If control byte presented let is*/ name_dm = lv_mem_alloc(strlen(name) + 1); /*+1 for the the closing '\0' */ lv_mem_assert(name_dm); if(name_dm == NULL) return NULL; strcpy(name_dm, name); } else { /*Set a no long press control byte is not presented*/ name_dm = lv_mem_alloc(strlen(name) + 2); /*+1 for the the closing '\0' and +1 for the control byte */ lv_mem_assert(name_dm); if(name_dm == NULL) return NULL; name_dm[0] = '\221'; strcpy(&name_dm[1], name); } ext->tab_cnt++; ext->tab_name_ptr = lv_mem_realloc(ext->tab_name_ptr, sizeof(char *) * (ext->tab_cnt + 1)); lv_mem_assert(ext->tab_name_ptr); if(ext->tab_name_ptr == NULL) return NULL; ext->tab_name_ptr[ext->tab_cnt - 1] = name_dm; ext->tab_name_ptr[ext->tab_cnt] = ""; lv_btnm_set_map(ext->btns, ext->tab_name_ptr); /*Modify the indicator size*/ lv_style_t * style_tabs = lv_obj_get_style(ext->btns); lv_coord_t indic_width = (lv_obj_get_width(tabview) - style_tabs->body.padding.inner * (ext->tab_cnt - 1) - 2 * style_tabs->body.padding.hor) / ext->tab_cnt; lv_obj_set_width(ext->indic, indic_width); lv_obj_set_x(ext->indic, indic_width * ext->tab_cur + style_tabs->body.padding.inner * ext->tab_cur + style_tabs->body.padding.hor); /*Set the first btn as active*/ if(ext->tab_cnt == 1) { ext->tab_cur = 0; lv_tabview_set_tab_act(tabview, 0, false); tabview_realign(tabview); /*To set the proper btns height*/ } return h; } /*===================== * Setter functions *====================*/ /** * Set a new tab * @param tabview pointer to Tab view object * @param id index of a tab to load * @param anim_en true: set with sliding animation; false: set immediately */ void lv_tabview_set_tab_act(lv_obj_t * tabview, uint16_t id, bool anim_en) { #if USE_LV_ANIMATION == 0 anim_en = false; #endif lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); lv_style_t * style = lv_obj_get_style(ext->content); lv_res_t res = LV_RES_OK; if(id >= ext->tab_cnt) id = ext->tab_cnt - 1; if(ext->tab_load_action && id != ext->tab_cur) res = ext->tab_load_action(tabview, id); if(res != LV_RES_OK) return; /*Prevent the tab loading*/ ext->tab_cur = id; lv_coord_t cont_x = -(lv_obj_get_width(tabview) * id + style->body.padding.inner * id + style->body.padding.hor); if(ext->anim_time == 0 || anim_en == false) { lv_obj_set_x(ext->content, cont_x); } else { #if USE_LV_ANIMATION lv_anim_t a; a.var = ext->content; a.start = lv_obj_get_x(ext->content); a.end = cont_x; a.fp = (lv_anim_fp_t)lv_obj_set_x; a.path = lv_anim_path_linear; a.end_cb = NULL; a.act_time = 0; a.time = ext->anim_time; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); #endif } /*Move the indicator*/ lv_coord_t indic_width = lv_obj_get_width(ext->indic); lv_style_t * tabs_style = lv_obj_get_style(ext->btns); lv_coord_t indic_x = indic_width * id + tabs_style->body.padding.inner * id + tabs_style->body.padding.hor; if(ext->anim_time == 0 || anim_en == false) { lv_obj_set_x(ext->indic, indic_x); } else { #if USE_LV_ANIMATION lv_anim_t a; a.var = ext->indic; a.start = lv_obj_get_x(ext->indic); a.end = indic_x; a.fp = (lv_anim_fp_t)lv_obj_set_x; a.path = lv_anim_path_linear; a.end_cb = NULL; a.act_time = 0; a.time = ext->anim_time; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; lv_anim_create(&a); #endif } lv_btnm_set_toggle(ext->btns, true, ext->tab_cur); } /** * Set an action to call when a tab is loaded (Good to create content only if required) * lv_tabview_get_act() still gives the current (old) tab (to remove content from here) * @param tabview pointer to a tabview object * @param action pointer to a function to call when a btn is loaded */ void lv_tabview_set_tab_load_action(lv_obj_t * tabview, lv_tabview_action_t action) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); ext->tab_load_action = action; } /** * Enable horizontal sliding with touch pad * @param tabview pointer to Tab view object * @param en true: enable sliding; false: disable sliding */ void lv_tabview_set_sliding(lv_obj_t * tabview, bool en) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); ext->slide_enable = en == false ? 0 : 1; } /** * Set the animation time of tab view when a new tab is loaded * @param tabview pointer to Tab view object * @param anim_time_ms time of animation in milliseconds */ void lv_tabview_set_anim_time(lv_obj_t * tabview, uint16_t anim_time) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); #if USE_LV_ANIMATION == 0 anim_time = 0; #endif ext->anim_time = anim_time; } /** * Set the style of a tab view * @param tabview pointer to a tan view object * @param type which style should be set * @param style pointer to the new style */ void lv_tabview_set_style(lv_obj_t * tabview, lv_tabview_style_t type, lv_style_t * style) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); switch(type) { case LV_TABVIEW_STYLE_BG: lv_obj_set_style(tabview, style); break; case LV_TABVIEW_STYLE_BTN_BG: lv_btnm_set_style(ext->btns, LV_BTNM_STYLE_BG, style); tabview_realign(tabview); break; case LV_TABVIEW_STYLE_BTN_REL: lv_btnm_set_style(ext->btns, LV_BTNM_STYLE_BTN_REL, style); tabview_realign(tabview); break; case LV_TABVIEW_STYLE_BTN_PR: lv_btnm_set_style(ext->btns, LV_BTNM_STYLE_BTN_PR, style); break; case LV_TABVIEW_STYLE_BTN_TGL_REL: lv_btnm_set_style(ext->btns, LV_BTNM_STYLE_BTN_TGL_REL, style); break; case LV_TABVIEW_STYLE_BTN_TGL_PR: lv_btnm_set_style(ext->btns, LV_BTNM_STYLE_BTN_TGL_PR, style); break; case LV_TABVIEW_STYLE_INDIC: lv_obj_set_style(ext->indic, style); lv_obj_set_height(ext->indic, style->body.padding.inner); tabview_realign(tabview); break; } } /** * Set the position of tab select buttons * @param tabview pointer to a tan view object * @param btns_pos which button position */ void lv_tabview_set_btns_pos(lv_obj_t * tabview, lv_tabview_btns_pos_t btns_pos) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); ext->btns_pos = btns_pos; tabview_realign(tabview); } /** * Set whether tab buttons are hidden * @param tabview pointer to a tab view object * @param en whether tab buttons are hidden */ void lv_tabview_set_btns_hidden(lv_obj_t *tabview, bool en) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); ext->btns_hide = en; tabview_realign(tabview); } /*===================== * Getter functions *====================*/ /** * Get the index of the currently active tab * @param tabview pointer to Tab view object * @return the active btn index */ uint16_t lv_tabview_get_tab_act(const lv_obj_t * tabview) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); return ext->tab_cur; } /** * Get the number of tabs * @param tabview pointer to Tab view object * @return btn count */ uint16_t lv_tabview_get_tab_count(const lv_obj_t * tabview) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); return ext->tab_cnt; } /** * Get the page (content area) of a tab * @param tabview pointer to Tab view object * @param id index of the btn (>= 0) * @return pointer to page (lv_page) object */ lv_obj_t * lv_tabview_get_tab(const lv_obj_t * tabview, uint16_t id) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); uint16_t i = 0; lv_obj_t * page = lv_obj_get_child_back(ext->content, NULL); while(page != NULL && i != id) { i++; page = lv_obj_get_child_back(ext->content, page); } if(i == id) return page; return NULL; } /** * Get the tab load action * @param tabview pointer to a tabview object * @param return the current btn load action */ lv_tabview_action_t lv_tabview_get_tab_load_action(const lv_obj_t * tabview) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); return ext->tab_load_action; } /** * Get horizontal sliding is enabled or not * @param tabview pointer to Tab view object * @return true: enable sliding; false: disable sliding */ bool lv_tabview_get_sliding(const lv_obj_t * tabview) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); return ext->slide_enable ? true : false; } /** * Get the animation time of tab view when a new tab is loaded * @param tabview pointer to Tab view object * @return time of animation in milliseconds */ uint16_t lv_tabview_get_anim_time(const lv_obj_t * tabview) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); return ext->anim_time; } /** * Get a style of a tab view * @param tabview pointer to a ab view object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_tabview_get_style(const lv_obj_t * tabview, lv_tabview_style_t type) { lv_style_t * style = NULL; lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); switch(type) { case LV_TABVIEW_STYLE_BG: style = lv_obj_get_style(tabview); break; case LV_TABVIEW_STYLE_BTN_BG: style = lv_btnm_get_style(ext->btns, LV_BTNM_STYLE_BG); break; case LV_TABVIEW_STYLE_BTN_REL: style = lv_btnm_get_style(ext->btns, LV_BTNM_STYLE_BTN_REL); break; case LV_TABVIEW_STYLE_BTN_PR: style = lv_btnm_get_style(ext->btns, LV_BTNM_STYLE_BTN_PR); break; case LV_TABVIEW_STYLE_BTN_TGL_REL: style = lv_btnm_get_style(ext->btns, LV_BTNM_STYLE_BTN_TGL_REL); break; case LV_TABVIEW_STYLE_BTN_TGL_PR: style = lv_btnm_get_style(ext->btns, LV_BTNM_STYLE_BTN_TGL_PR); break; default: style = NULL; break; } return style; } /** * Get position of tab select buttons * @param tabview pointer to a ab view object */ lv_tabview_btns_pos_t lv_tabview_get_btns_pos(const lv_obj_t * tabview) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); return ext->btns_pos; } /** * Get whether tab buttons are hidden * @param tabview pointer to a tab view object * @return whether tab buttons are hidden */ bool lv_tabview_get_btns_hidden(const lv_obj_t *tabview) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); return ext->btns_hide; } /********************** * STATIC FUNCTIONS **********************/ /** * Signal function of the Tab view * @param tabview pointer to a Tab view object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_tabview_signal(lv_obj_t * tabview, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(tabview, sign, param); if(res != LV_RES_OK) return res; lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); if(sign == LV_SIGNAL_CLEANUP) { uint8_t i; for(i = 0; ext->tab_name_ptr[i][0] != '\0'; i++) lv_mem_free(ext->tab_name_ptr[i]); lv_mem_free(ext->tab_name_ptr); ext->tab_name_ptr = NULL; ext->btns = NULL; /*These objects were children so they are already invalid*/ ext->content = NULL; } else if(sign == LV_SIGNAL_CORD_CHG) { if(ext->content != NULL && (lv_obj_get_width(tabview) != lv_area_get_width(param) || lv_obj_get_height(tabview) != lv_area_get_height(param))) { tabview_realign(tabview); } } else if(sign == LV_SIGNAL_FOCUS || sign == LV_SIGNAL_DEFOCUS || sign == LV_SIGNAL_CONTROLL) { /* The button matrix is not in a group (the tab view is in it) but it should handle the group signals. * So propagate the related signals to the button matrix manually*/ if(ext->btns) { ext->btns->signal_func(ext->btns, sign, param); } if(sign == LV_SIGNAL_FOCUS) { lv_hal_indev_type_t indev_type = lv_indev_get_type(lv_indev_get_act()); /*With ENCODER select the first button only in edit mode*/ if(indev_type == LV_INDEV_TYPE_ENCODER) { #if USE_LV_GROUP lv_group_t * g = lv_obj_get_group(tabview); if(lv_group_get_editing(g)) { lv_btnm_ext_t * btnm_ext = lv_obj_get_ext_attr(ext->btns); btnm_ext->btn_id_pr = 0; lv_obj_invalidate(ext->btns); } #endif } else { lv_btnm_ext_t * btnm_ext = lv_obj_get_ext_attr(ext->btns); btnm_ext->btn_id_pr = 0; lv_obj_invalidate(ext->btns); } } } else if(sign == LV_SIGNAL_GET_EDITABLE) { bool * editable = (bool *)param; *editable = true; } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_tabview"; } return res; } /** * Signal function of a tab's page * @param tab pointer to a tab page object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t tabpage_signal(lv_obj_t * tab_page, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = page_signal(tab_page, sign, param); if(res != LV_RES_OK) return res; lv_obj_t * cont = lv_obj_get_parent(tab_page); lv_obj_t * tabview = lv_obj_get_parent(cont); if(lv_tabview_get_sliding(tabview) == false) return res; if(sign == LV_SIGNAL_PRESSED) { tabpage_pressed_handler(tabview, tab_page); } else if(sign == LV_SIGNAL_PRESSING) { tabpage_pressing_handler(tabview, tab_page); } else if(sign == LV_SIGNAL_RELEASED || sign == LV_SIGNAL_PRESS_LOST) { tabpage_press_lost_handler(tabview, tab_page); } return res; } /** * Signal function of the tab page's scrollable object * @param tab_scrl pointer to a tab page's scrollable object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t tabpage_scrl_signal(lv_obj_t * tab_scrl, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = page_scrl_signal(tab_scrl, sign, param); if(res != LV_RES_OK) return res; lv_obj_t * tab_page = lv_obj_get_parent(tab_scrl); lv_obj_t * cont = lv_obj_get_parent(tab_page); lv_obj_t * tabview = lv_obj_get_parent(cont); if(lv_tabview_get_sliding(tabview) == false) return res; if(sign == LV_SIGNAL_PRESSED) { tabpage_pressed_handler(tabview, tab_page); } else if(sign == LV_SIGNAL_PRESSING) { tabpage_pressing_handler(tabview, tab_page); } else if(sign == LV_SIGNAL_RELEASED || sign == LV_SIGNAL_PRESS_LOST) { tabpage_press_lost_handler(tabview, tab_page); } return res; } /** * Called when a tab's page or scrollable object is pressed * @param tabview pointer to the btn view object * @param tabpage pointer to the page of a btn */ static void tabpage_pressed_handler(lv_obj_t * tabview, lv_obj_t * tabpage) { (void)tabpage; lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); lv_indev_t * indev = lv_indev_get_act(); lv_indev_get_point(indev, &ext->point_last); } /** * Called when a tab's page or scrollable object is being pressed * @param tabview pointer to the btn view object * @param tabpage pointer to the page of a btn */ static void tabpage_pressing_handler(lv_obj_t * tabview, lv_obj_t * tabpage) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); lv_indev_t * indev = lv_indev_get_act(); lv_point_t point_act; lv_indev_get_point(indev, &point_act); lv_coord_t x_diff = point_act.x - ext->point_last.x; lv_coord_t y_diff = point_act.y - ext->point_last.y; if(ext->draging == 0) { if(x_diff >= LV_INDEV_DRAG_LIMIT || x_diff <= -LV_INDEV_DRAG_LIMIT) { ext->drag_hor = 1; ext->draging = 1; lv_obj_set_drag(lv_page_get_scrl(tabpage), false); } else if(y_diff >= LV_INDEV_DRAG_LIMIT || y_diff <= -LV_INDEV_DRAG_LIMIT) { ext->drag_hor = 0; ext->draging = 1; } } if(ext->drag_hor) { lv_obj_set_x(ext->content, lv_obj_get_x(ext->content) + point_act.x - ext->point_last.x); ext->point_last.x = point_act.x; ext->point_last.y = point_act.y; /*Move the indicator*/ lv_coord_t indic_width = lv_obj_get_width(ext->indic); lv_style_t * tabs_style = lv_obj_get_style(ext->btns); lv_style_t * indic_style = lv_obj_get_style(ext->indic); lv_coord_t p = ((tabpage->coords.x1 - tabview->coords.x1) * (indic_width + tabs_style->body.padding.inner)) / lv_obj_get_width(tabview); lv_obj_set_x(ext->indic, indic_width * ext->tab_cur + tabs_style->body.padding.inner * ext->tab_cur + indic_style->body.padding.hor - p); } } /** * Called when a tab's page or scrollable object is released or the press id lost * @param tabview pointer to the btn view object * @param tabpage pointer to the page of a btn */ static void tabpage_press_lost_handler(lv_obj_t * tabview, lv_obj_t * tabpage) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); ext->drag_hor = 0; ext->draging = 0; lv_obj_set_drag(lv_page_get_scrl(tabpage), true); lv_indev_t * indev = lv_indev_get_act(); lv_point_t point_act; lv_indev_get_point(indev, &point_act); lv_point_t vect; lv_indev_get_vect(indev, &vect); lv_coord_t x_predict = 0; while(vect.x != 0) { x_predict += vect.x; vect.x = vect.x * (100 - LV_INDEV_DRAG_THROW) / 100; } lv_coord_t page_x1 = tabpage->coords.x1 - tabview->coords.x1 + x_predict; lv_coord_t page_x2 = page_x1 + lv_obj_get_width(tabpage); lv_coord_t treshold = lv_obj_get_width(tabview) / 2; uint16_t tab_cur = ext->tab_cur; if(page_x1 > treshold) { if(tab_cur != 0) tab_cur--; } else if(page_x2 < treshold) { if(tab_cur < ext->tab_cnt - 1) tab_cur++; } lv_tabview_set_tab_act(tabview, tab_cur, true); } /** * Called when a tab button is released * @param tab_btnm pointer to the tab's button matrix object * @param id the id of the tab (>= 0) * @return LV_ACTION_RES_OK because the button matrix in not deleted in the function */ static lv_res_t tab_btnm_action(lv_obj_t * tab_btnm, const char * tab_name) { lv_obj_t * tab = lv_obj_get_parent(tab_btnm); const char ** tabs_map = lv_btnm_get_map(tab_btnm); uint8_t i = 0; while(tabs_map[i][0] != '\0') { if(strcmp(&tabs_map[i][1], tab_name) == 0) break; /*[1] to skip the control byte*/ i++; } lv_tabview_set_tab_act(tab, i, true); return LV_RES_OK; } /** * Realign and resize the elements of Tab view * @param tabview pointer to a Tab view object */ static void tabview_realign(lv_obj_t * tabview) { lv_tabview_ext_t * ext = lv_obj_get_ext_attr(tabview); lv_obj_set_width(ext->btns, lv_obj_get_width(tabview)); if(ext->btns_hide) { lv_obj_set_hidden(ext->btns, true); lv_obj_set_hidden(ext->indic, true); lv_obj_set_height(ext->content, lv_obj_get_height(tabview)); lv_obj_align(ext->content, NULL, LV_ALIGN_IN_TOP_LEFT, 0, 0); } else if(ext->tab_cnt != 0) { lv_obj_set_hidden(ext->btns, false); lv_obj_set_hidden(ext->indic, false); lv_style_t * style_btn_bg = lv_tabview_get_style(tabview, LV_TABVIEW_STYLE_BTN_BG); lv_style_t * style_btn_rel = lv_tabview_get_style(tabview, LV_TABVIEW_STYLE_BTN_REL); /*Set the indicator widths*/ lv_coord_t indic_width = (lv_obj_get_width(tabview) - style_btn_bg->body.padding.inner * (ext->tab_cnt - 1) - 2 * style_btn_bg->body.padding.hor) / ext->tab_cnt; lv_obj_set_width(ext->indic, indic_width); /*Set the tabs height*/ lv_coord_t btns_height = lv_font_get_height(style_btn_rel->text.font) + 2 * style_btn_rel->body.padding.ver + 2 * style_btn_bg->body.padding.ver; lv_obj_set_height(ext->btns, btns_height); lv_obj_set_height(ext->content, lv_obj_get_height(tabview) - lv_obj_get_height(ext->btns)); switch(ext->btns_pos) { case LV_TABVIEW_BTNS_POS_TOP: lv_obj_align(ext->btns, NULL, LV_ALIGN_IN_TOP_LEFT, 0, 0); lv_obj_align(ext->content, ext->btns, LV_ALIGN_OUT_BOTTOM_LEFT, 0, 0); break; case LV_TABVIEW_BTNS_POS_BOTTOM: lv_obj_align(ext->content, NULL, LV_ALIGN_IN_TOP_LEFT, 0, 0); lv_obj_align(ext->btns, ext->content, LV_ALIGN_OUT_BOTTOM_LEFT, 0, 0); break; } } lv_obj_t * pages = lv_obj_get_child(ext->content, NULL); while(pages != NULL) { if(lv_obj_get_signal_func(pages) == tabpage_signal) { /*Be sure adjust only the pages (user can other things)*/ lv_obj_set_size(pages, lv_obj_get_width(tabview), lv_obj_get_height(ext->content)); } pages = lv_obj_get_child(ext->content, pages); } if(!ext->btns_hide) { lv_obj_align(ext->indic, ext->btns, LV_ALIGN_IN_BOTTOM_LEFT, 0, 0); } lv_tabview_set_tab_act(tabview, ext->tab_cur, false); } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_tabview.h ================================================ /** * @file lv_tabview.h * */ #ifndef LV_TABVIEW_H #define LV_TABVIEW_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_TABVIEW != 0 /*Testing of dependencies*/ #if USE_LV_BTNM == 0 #error "lv_tabview: lv_btnm is required. Enable it in lv_conf.h (USE_LV_BTNM 1) " #endif #if USE_LV_PAGE == 0 #error "lv_tabview: lv_page is required. Enable it in lv_conf.h (USE_LV_PAGE 1) " #endif #include "../lv_core/lv_obj.h" #include "../lv_objx/lv_win.h" #include "../lv_objx/lv_page.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /* parametes: pointer to a tabview object, tab_id * return: LV_RES_INV: to prevent the loading of the tab; LV_RES_OK: if everything is fine*/ typedef lv_res_t (*lv_tabview_action_t)(lv_obj_t *, uint16_t); enum { LV_TABVIEW_BTNS_POS_TOP, LV_TABVIEW_BTNS_POS_BOTTOM, }; typedef uint8_t lv_tabview_btns_pos_t; /*Data of tab*/ typedef struct { /*Ext. of ancestor*/ /*New data for this type */ lv_obj_t * btns; lv_obj_t * indic; lv_obj_t * content; /*A rectangle to show the current tab*/ const char ** tab_name_ptr; lv_point_t point_last; uint16_t tab_cur; uint16_t tab_cnt; uint16_t anim_time; uint8_t slide_enable :1; /*1: enable horizontal sliding by touch pad*/ uint8_t draging :1; uint8_t drag_hor :1; uint8_t btns_hide :1; lv_tabview_btns_pos_t btns_pos :1; lv_tabview_action_t tab_load_action; } lv_tabview_ext_t; enum { LV_TABVIEW_STYLE_BG, LV_TABVIEW_STYLE_INDIC, LV_TABVIEW_STYLE_BTN_BG, LV_TABVIEW_STYLE_BTN_REL, LV_TABVIEW_STYLE_BTN_PR, LV_TABVIEW_STYLE_BTN_TGL_REL, LV_TABVIEW_STYLE_BTN_TGL_PR, }; typedef uint8_t lv_tabview_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a Tab view object * @param par pointer to an object, it will be the parent of the new tab * @param copy pointer to a tab object, if not NULL then the new object will be copied from it * @return pointer to the created tab */ lv_obj_t * lv_tabview_create(lv_obj_t * par, const lv_obj_t * copy); /** * Delete all children of the scrl object, without deleting scrl child. * @param obj pointer to an object */ void lv_tabview_clean(lv_obj_t *obj); /*====================== * Add/remove functions *=====================*/ /** * Add a new tab with the given name * @param tabview pointer to Tab view object where to ass the new tab * @param name the text on the tab button * @return pointer to the created page object (lv_page). You can create your content here */ lv_obj_t * lv_tabview_add_tab(lv_obj_t * tabview, const char * name); /*===================== * Setter functions *====================*/ /** * Set a new tab * @param tabview pointer to Tab view object * @param id index of a tab to load * @param anim_en true: set with sliding animation; false: set immediately */ void lv_tabview_set_tab_act(lv_obj_t * tabview, uint16_t id, bool anim_en); /** * Set an action to call when a tab is loaded (Good to create content only if required) * lv_tabview_get_act() still gives the current (old) tab (to remove content from here) * @param tabview pointer to a tabview object * @param action pointer to a function to call when a tab is loaded */ void lv_tabview_set_tab_load_action(lv_obj_t *tabview, lv_tabview_action_t action); /** * Enable horizontal sliding with touch pad * @param tabview pointer to Tab view object * @param en true: enable sliding; false: disable sliding */ void lv_tabview_set_sliding(lv_obj_t * tabview, bool en); /** * Set the animation time of tab view when a new tab is loaded * @param tabview pointer to Tab view object * @param anim_time time of animation in milliseconds */ void lv_tabview_set_anim_time(lv_obj_t * tabview, uint16_t anim_time); /** * Set the style of a tab view * @param tabview pointer to a tan view object * @param type which style should be set * @param style pointer to the new style */ void lv_tabview_set_style(lv_obj_t *tabview, lv_tabview_style_t type, lv_style_t *style); /** * Set the position of tab select buttons * @param tabview pointer to a tab view object * @param btns_pos which button position */ void lv_tabview_set_btns_pos(lv_obj_t *tabview, lv_tabview_btns_pos_t btns_pos); /** * Set whether tab buttons are hidden * @param tabview pointer to a tab view object * @param en whether tab buttons are hidden */ void lv_tabview_set_btns_hidden(lv_obj_t *tabview, bool en); /*===================== * Getter functions *====================*/ /** * Get the index of the currently active tab * @param tabview pointer to Tab view object * @return the active tab index */ uint16_t lv_tabview_get_tab_act(const lv_obj_t * tabview); /** * Get the number of tabs * @param tabview pointer to Tab view object * @return tab count */ uint16_t lv_tabview_get_tab_count(const lv_obj_t * tabview); /** * Get the page (content area) of a tab * @param tabview pointer to Tab view object * @param id index of the tab (>= 0) * @return pointer to page (lv_page) object */ lv_obj_t * lv_tabview_get_tab(const lv_obj_t * tabview, uint16_t id); /** * Get the tab load action * @param tabview pointer to a tabview object * @param return the current tab load action */ lv_tabview_action_t lv_tabview_get_tab_load_action(const lv_obj_t *tabview); /** * Get horizontal sliding is enabled or not * @param tabview pointer to Tab view object * @return true: enable sliding; false: disable sliding */ bool lv_tabview_get_sliding(const lv_obj_t * tabview); /** * Get the animation time of tab view when a new tab is loaded * @param tabview pointer to Tab view object * @return time of animation in milliseconds */ uint16_t lv_tabview_get_anim_time(const lv_obj_t * tabview); /** * Get a style of a tab view * @param tabview pointer to a ab view object * @param type which style should be get * @return style pointer to a style */ lv_style_t * lv_tabview_get_style(const lv_obj_t *tabview, lv_tabview_style_t type); /** * Get position of tab select buttons * @param tabview pointer to a ab view object */ lv_tabview_btns_pos_t lv_tabview_get_btns_pos(const lv_obj_t *tabview); /** * Get whether tab buttons are hidden * @param tabview pointer to a tab view object * @return whether tab buttons are hidden */ bool lv_tabview_get_btns_hidden(const lv_obj_t *tabview); /********************** * MACROS **********************/ #endif /*USE_LV_TABVIEW*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_TABVIEW_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_tileview.c ================================================ /** * @file lv_tileview.c * */ /********************* * INCLUDES *********************/ #include "lv_tileview.h" #if USE_LV_TILEVIEW != 0 #include "lv_cont.h" #include "../lv_themes/lv_theme.h" /********************* * DEFINES *********************/ #if USE_LV_ANIMATION # ifndef LV_TILEVIEW_ANIM_TIME # define LV_TILEVIEW_ANIM_TIME 300 /*Animation time loading a tile [ms] (0: no animation) */ # endif #else # undef LV_TILEVIEW_ANIM_TIME # define LV_TILEVIEW_ANIM_TIME 0 /*No animations*/ #endif /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_tileview_signal(lv_obj_t * tileview, lv_signal_t sign, void * param); static lv_res_t lv_tileview_scrl_signal(lv_obj_t * scrl, lv_signal_t sign, void * param); static lv_res_t element_signal_func(lv_obj_t * element, lv_signal_t sign, void * param); static void drag_end_handler(lv_obj_t * tileview); static bool set_valid_drag_dirs(lv_obj_t * tileview); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; static lv_signal_func_t ancestor_scrl_signal; static lv_design_func_t ancestor_design; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a tileview object * @param par pointer to an object, it will be the parent of the new tileview * @param copy pointer to a tileview object, if not NULL then the new object will be copied from it * @return pointer to the created tileview */ lv_obj_t * lv_tileview_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("tileview create started"); /*Create the ancestor of tileview*/ lv_obj_t * new_tileview = lv_page_create(par, copy); lv_mem_assert(new_tileview); if(new_tileview == NULL) return NULL; /*Allocate the tileview type specific extended data*/ lv_tileview_ext_t * ext = lv_obj_allocate_ext_attr(new_tileview, sizeof(lv_tileview_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_tileview); if(ancestor_scrl_signal == NULL) ancestor_scrl_signal = lv_obj_get_signal_func(lv_page_get_scrl(new_tileview)); if(ancestor_design == NULL) ancestor_design = lv_obj_get_design_func(new_tileview); /*Initialize the allocated 'ext' */ ext->anim_time = LV_TILEVIEW_ANIM_TIME; ext->action = NULL; ext->act_id.x = 0; ext->act_id.y = 0; ext->valid_pos = NULL; /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_func(new_tileview, lv_tileview_signal); lv_obj_set_signal_func(lv_page_get_scrl(new_tileview), lv_tileview_scrl_signal); /*Init the new tileview*/ if(copy == NULL) { lv_obj_set_size(new_tileview, LV_HOR_RES, LV_VER_RES); lv_obj_set_drag_throw(lv_page_get_scrl(new_tileview), false); lv_page_set_scrl_fit(new_tileview, true, true); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_page_set_style(new_tileview, LV_PAGE_STYLE_BG, th->tileview.bg); lv_page_set_style(new_tileview, LV_PAGE_STYLE_SCRL, th->tileview.scrl); lv_page_set_style(new_tileview, LV_PAGE_STYLE_SB, th->tileview.sb); } else { lv_page_set_style(new_tileview, LV_PAGE_STYLE_BG, &lv_style_transp_tight); lv_page_set_style(new_tileview, LV_PAGE_STYLE_SCRL, &lv_style_transp_tight); } } /*Copy an existing tileview*/ else { lv_tileview_ext_t * copy_ext = lv_obj_get_ext_attr(copy); ext->act_id.x = copy_ext->act_id.x; ext->act_id.y = copy_ext->act_id.y; ext->action = copy_ext->action; ext->anim_time = copy_ext->anim_time; /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_tileview); } LV_LOG_INFO("tileview created"); return new_tileview; } /*====================== * Add/remove functions *=====================*/ /** * Register an object on the tileview. The register object will able to slide the tileview * @param element pointer to an object */ void lv_tileview_add_element(lv_obj_t * element) { lv_obj_set_free_ptr(element, lv_obj_get_signal_func(element)); lv_obj_set_signal_func(element, element_signal_func); lv_obj_set_drag_parent(element, true); } /*===================== * Setter functions *====================*/ /** * Set the valid position's indices. The scrolling will be possible only to these positions. * @param tileview pointer to a Tileview object * @param valid_pos array width the indices. E.g. `lv_point_t p[] = {{0,0}, {1,0}, {1,1}, {LV_COORD_MIN, LV_COORD_MIN}};` * Must be closed with `{LV_COORD_MIN, LV_COORD_MIN}`. Only the pointer is saved so can't be a local variable. */ void lv_tileview_set_valid_positions(lv_obj_t * tileview, const lv_point_t * valid_pos) { lv_tileview_ext_t * ext = lv_obj_get_ext_attr(tileview); ext->valid_pos = valid_pos; } /** * Set the tile to be shown * @param tileview pointer to a tileview object * @param x column id (0, 1, 2...) * @param y line id (0, 1, 2...) * @param anim_en true: move with animation */ void lv_tileview_set_tile_act(lv_obj_t * tileview, lv_coord_t x, lv_coord_t y, bool anim_en) { #if USE_LV_ANIMATION == 0 anim_en = false; #endif lv_tileview_ext_t * ext = lv_obj_get_ext_attr(tileview); uint16_t i; bool valid = false; for(i = 0; ext->valid_pos[i].x != LV_COORD_MIN; i++) { if(ext->valid_pos[i].x == x && ext->valid_pos[i].y == y) { valid = true; } } if(valid == false) return; /*Don't load not valid tiles*/ lv_res_t res = LV_RES_OK; if(ext->action) res = ext->action(tileview, x, y); if(res != LV_RES_OK) return; /*Prevent the tile loading*/ ext->act_id.x = x; ext->act_id.y = y; lv_coord_t x_coord = -x * lv_obj_get_width(tileview); lv_coord_t y_coord = -y * lv_obj_get_height(tileview); lv_obj_t * scrl = lv_page_get_scrl(tileview); if(anim_en) { #if USE_LV_ANIMATION lv_coord_t x_act = lv_obj_get_x(scrl); lv_coord_t y_act = lv_obj_get_y(scrl); lv_anim_t a; a.var = scrl; a.fp = (lv_anim_fp_t)lv_obj_set_x; a.path = lv_anim_path_linear; a.end_cb = NULL; a.act_time = 0; a.time = ext->anim_time; a.playback = 0; a.playback_pause = 0; a.repeat = 0; a.repeat_pause = 0; if(x_coord != x_act) { a.start = x_act; a.end = x_coord; lv_anim_create(&a); } if(y_coord != y_act) { a.start = y_act; a.end = y_coord; a.fp = (lv_anim_fp_t)lv_obj_set_y; lv_anim_create(&a); } #endif } else { lv_obj_set_pos(scrl, x_coord, y_coord); } } void lv_tileview_set_tile_load_action(lv_obj_t * tileview, lv_tileview_action_t action) { lv_tileview_ext_t * ext = lv_obj_get_ext_attr(tileview); ext->action = action; } /** * Set a style of a tileview. * @param tileview pointer to tileview object * @param type which style should be set * @param style pointer to a style */ void lv_tileview_set_style(lv_obj_t * tileview, lv_tileview_style_t type, lv_style_t * style) { switch(type) { case LV_TILEVIEW_STYLE_BG: lv_obj_set_style(tileview, style); break; } } /*===================== * Getter functions *====================*/ /* * New object specific "get" functions come here */ /** * Get style of a tileview. * @param tileview pointer to tileview object * @param type which style should be get * @return style pointer to the style */ lv_style_t * lv_tileview_get_style(const lv_obj_t * tileview, lv_tileview_style_t type) { lv_style_t * style = NULL; switch(type) { case LV_TILEVIEW_STYLE_BG: style = lv_obj_get_style(tileview); break; default: style = NULL; } return style; } /*===================== * Other functions *====================*/ /* * New object specific "other" functions come here */ /********************** * STATIC FUNCTIONS **********************/ /** * Signal function of the tileview * @param tileview pointer to a tileview object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_tileview_signal(lv_obj_t * tileview, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(tileview, sign, param); if(res != LV_RES_OK) return res; if(sign == LV_SIGNAL_CLEANUP) { /*Nothing to cleanup. (No dynamically allocated memory in 'ext')*/ } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_tileview"; } return res; } /** * Signal function of the tileview scrollable * @param tileview pointer to the scrollable part of the tileview object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_tileview_scrl_signal(lv_obj_t * scrl, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_scrl_signal(scrl, sign, param); if(res != LV_RES_OK) return res; lv_obj_t * tileview = lv_obj_get_parent(scrl); lv_style_t * style_bg = lv_tileview_get_style(tileview, LV_TILEVIEW_STYLE_BG); /*Apply constraint on moving of the tileview*/ if(sign == LV_SIGNAL_CORD_CHG) { lv_indev_t * indev = lv_indev_get_act(); if(indev) { lv_tileview_ext_t * ext = lv_obj_get_ext_attr(tileview); /*Set horizontal drag constraint if no vertical constraint an dragged to valid x direction */ if(ext->drag_ver == 0 && ((ext->drag_right_en && indev->proc.drag_sum.x <= -LV_INDEV_DRAG_LIMIT) || (ext->drag_left_en && indev->proc.drag_sum.x >= LV_INDEV_DRAG_LIMIT))) { ext->drag_hor = 1; } /*Set vertical drag constraint if no horizontal constraint an dragged to valid y direction */ if(ext->drag_hor == 0 && ((ext->drag_bottom_en && indev->proc.drag_sum.y <= -LV_INDEV_DRAG_LIMIT) || (ext->drag_top_en && indev->proc.drag_sum.y >= LV_INDEV_DRAG_LIMIT))) { ext->drag_ver = 1; } if(ext->drag_hor) { ext->page.edge_flash.top_ip = 0; ext->page.edge_flash.bottom_ip = 0; } if(ext->drag_ver) { ext->page.edge_flash.right_ip = 0; ext->page.edge_flash.left_ip = 0; } lv_coord_t x = lv_obj_get_x(scrl); lv_coord_t y = lv_obj_get_y(scrl); lv_coord_t h = lv_obj_get_height(tileview); lv_coord_t w = lv_obj_get_width(tileview); if(ext->drag_top_en == 0) { if(y > -(ext->act_id.y * h) && indev->proc.vect.y > 0 && ext->drag_hor == 0) { if(ext->page.edge_flash.enabled && ext->page.edge_flash.left_ip == 0 && ext->page.edge_flash.right_ip == 0 && ext->page.edge_flash.top_ip == 0 && ext->page.edge_flash.bottom_ip == 0) { ext->page.edge_flash.top_ip = 1; lv_page_start_edge_flash(tileview); } lv_obj_set_y(scrl, -ext->act_id.y * h + style_bg->body.padding.ver); } } if(ext->drag_bottom_en == 0 && indev->proc.vect.y < 0 && ext->drag_hor == 0) { if(y < -(ext->act_id.y * h)) { if(ext->page.edge_flash.enabled && ext->page.edge_flash.left_ip == 0 && ext->page.edge_flash.right_ip == 0 && ext->page.edge_flash.top_ip == 0 && ext->page.edge_flash.bottom_ip == 0) { ext->page.edge_flash.bottom_ip = 1; lv_page_start_edge_flash(tileview); } } lv_obj_set_y(scrl, -ext->act_id.y * h + style_bg->body.padding.ver); } if(ext->drag_left_en == 0) { if(x > -(ext->act_id.x * w) && indev->proc.vect.x > 0 && ext->drag_ver == 0) { if(ext->page.edge_flash.enabled && ext->page.edge_flash.left_ip == 0 && ext->page.edge_flash.right_ip == 0 && ext->page.edge_flash.top_ip == 0 && ext->page.edge_flash.bottom_ip == 0) { ext->page.edge_flash.left_ip = 1; lv_page_start_edge_flash(tileview); } lv_obj_set_x(scrl, -ext->act_id.x * w + style_bg->body.padding.hor); } } if(ext->drag_right_en == 0 && indev->proc.vect.x < 0 && ext->drag_ver == 0) { if(x < -(ext->act_id.x * w)) { if(ext->page.edge_flash.enabled && ext->page.edge_flash.left_ip == 0 && ext->page.edge_flash.right_ip == 0 && ext->page.edge_flash.top_ip == 0 && ext->page.edge_flash.bottom_ip == 0) { ext->page.edge_flash.right_ip = 1; lv_page_start_edge_flash(tileview); } } lv_obj_set_x(scrl, -ext->act_id.x * w + style_bg->body.padding.hor); } /*Apply the drag constraints*/ if(ext->drag_ver == 0) lv_obj_set_y(scrl, - ext->act_id.y * lv_obj_get_height(tileview) + style_bg->body.padding.ver); if(ext->drag_hor == 0) lv_obj_set_x(scrl, - ext->act_id.x * lv_obj_get_width(tileview) + style_bg->body.padding.hor); } } return res; } /** * This function is applied called for the elements of the tileview. Used when the element is * @param element * @param sign * @param param * @return */ static lv_res_t element_signal_func(lv_obj_t * element, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ lv_signal_func_t sign_func = lv_obj_get_free_ptr(element); res = sign_func(element, sign, param); if(res != LV_RES_OK) return res; /*Initialize some variables on PRESS*/ if(sign == LV_SIGNAL_PRESSED) { /*Get the tileview from the element*/ lv_obj_t * tileview = lv_obj_get_parent(element); while(tileview) { if(lv_obj_get_signal_func(tileview) != lv_tileview_signal) tileview = lv_obj_get_parent(tileview); else break; } if(tileview) { lv_tileview_ext_t * ext = lv_obj_get_ext_attr(tileview); ext->drag_hor = 0; ext->drag_ver = 0; set_valid_drag_dirs(tileview); } } /*Animate the tabview to the correct location on RELEASE*/ else if(sign == LV_SIGNAL_PRESS_LOST || sign == LV_SIGNAL_RELEASED) { /*Get the tileview from the element*/ lv_obj_t * tileview = lv_obj_get_parent(element); while(tileview) { if(lv_obj_get_signal_func(tileview) != lv_tileview_signal) tileview = lv_obj_get_parent(tileview); else break; } if(tileview) { /* If the element was dragged and it moved the tileview finish the drag manually to * let the tileview to finish the move.*/ lv_indev_t * indev = lv_indev_get_act(); lv_tileview_ext_t * ext = lv_obj_get_ext_attr(tileview); if(indev->proc.drag_in_prog && (ext->drag_hor || ext->drag_ver)) { lv_obj_t * drag_obj = element; while(lv_obj_get_drag_parent(drag_obj)) { drag_obj = lv_obj_get_parent(drag_obj); if(drag_obj == NULL) break; } indev->proc.drag_in_prog = 0; if(drag_obj) drag_obj->signal_func(drag_obj, LV_SIGNAL_DRAG_END, NULL); } drag_end_handler(tileview); } } return res; } /** * Called when the user releases an element of the tileview after dragging it. * @param tileview pointer to a tileview object */ static void drag_end_handler(lv_obj_t * tileview) { lv_tileview_ext_t * ext = lv_obj_get_ext_attr(tileview); lv_indev_t * indev = lv_indev_get_act(); lv_point_t point_act; lv_indev_get_point(indev, &point_act); lv_obj_t * scrl = lv_page_get_scrl(tileview); lv_point_t p; p.x = - (scrl->coords.x1 - LV_HOR_RES / 2); p.y = - (scrl->coords.y1 - LV_VER_RES / 2); /*From the drag vector (drag throw) predict the end position*/ if(ext->drag_hor) { lv_point_t vect; lv_indev_get_vect(indev, &vect); lv_coord_t predict = 0; while(vect.x != 0) { predict += vect.x; vect.x = vect.x * (100 - LV_INDEV_DRAG_THROW) / 100; } p.x -= predict; } else if(ext->drag_ver) { lv_point_t vect; lv_indev_get_vect(indev, &vect); lv_coord_t predict = 0; while(vect.y != 0) { predict += vect.y; vect.y = vect.y * (100 - LV_INDEV_DRAG_THROW) / 100; } p.y -= predict; } /*Get the index of the tile*/ p.x = p.x / lv_obj_get_width(tileview); p.y = p.y / lv_obj_get_height(tileview); /*Max +- move*/ lv_coord_t x_move = p.x - ext->act_id.x; lv_coord_t y_move = p.y - ext->act_id.y; if(x_move < -1) x_move = -1; if(x_move > 1) x_move = 1; if(y_move < -1) y_move = -1; if(y_move > 1) y_move = 1; /*Set the new tile*/ lv_tileview_set_tile_act(tileview, ext->act_id.x + x_move, ext->act_id.y + y_move,true); } static bool set_valid_drag_dirs(lv_obj_t * tileview) { lv_tileview_ext_t * ext = lv_obj_get_ext_attr(tileview); if(ext->valid_pos == NULL) return false; ext->drag_bottom_en = 0; ext->drag_top_en = 0; ext->drag_left_en = 0; ext->drag_right_en = 0; uint16_t i; for(i = 0; ext->valid_pos[i].x != LV_COORD_MIN; i++) { if(ext->valid_pos[i].x == ext->act_id.x && ext->valid_pos[i].y == ext->act_id.y - 1) ext->drag_top_en = 1; if(ext->valid_pos[i].x == ext->act_id.x && ext->valid_pos[i].y == ext->act_id.y + 1) ext->drag_bottom_en = 1; if(ext->valid_pos[i].x == ext->act_id.x - 1 && ext->valid_pos[i].y == ext->act_id.y) ext->drag_left_en = 1; if(ext->valid_pos[i].x == ext->act_id.x + 1 && ext->valid_pos[i].y == ext->act_id.y) ext->drag_right_en = 1; } return true; } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_tileview.h ================================================ /** * @file lv_tileview.h * */ #ifndef LV_TILEVIEW_H #define LV_TILEVIEW_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_TILEVIEW != 0 #include "../lv_objx/lv_page.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /* parametes: pointer to a tileview object, x, y (tile coordinates to load) * return: LV_RES_INV: to prevent the loading of the tab; LV_RES_OK: if everything is fine*/ typedef lv_res_t (*lv_tileview_action_t)(lv_obj_t *, lv_coord_t, lv_coord_t); /*Data of tileview*/ typedef struct { lv_page_ext_t page; /*New data for this type */ const lv_point_t * valid_pos; uint16_t anim_time; lv_tileview_action_t action; lv_point_t act_id; uint8_t drag_top_en :1; uint8_t drag_bottom_en :1; uint8_t drag_left_en :1; uint8_t drag_right_en :1; uint8_t drag_hor :1; uint8_t drag_ver :1; } lv_tileview_ext_t; /*Styles*/ enum { LV_TILEVIEW_STYLE_BG, }; typedef uint8_t lv_tileview_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a tileview objects * @param par pointer to an object, it will be the parent of the new tileview * @param copy pointer to a tileview object, if not NULL then the new object will be copied from it * @return pointer to the created tileview */ lv_obj_t * lv_tileview_create(lv_obj_t * par, const lv_obj_t * copy); /*====================== * Add/remove functions *=====================*/ /** * Register an object on the tileview. The register object will able to slide the tileview * @param element pointer to an object */ void lv_tileview_add_element(lv_obj_t * element); /*===================== * Setter functions *====================*/ /** * Set the valid position's indices. The scrolling will be possible only to these positions. * @param tileview pointer to a Tileview object * @param valid_pos array width the indices. E.g. `lv_point_t p[] = {{0,0}, {1,0}, {1,1}, {LV_COORD_MIN, LV_COORD_MIN}};` * Must be closed with `{LV_COORD_MIN, LV_COORD_MIN}`. Only the pointer is saved so can't be a local variable. */ void lv_tileview_set_valid_positions(lv_obj_t * tileview, const lv_point_t * valid_pos); /** * Set the tile to be shown * @param tileview pointer to a tileview object * @param x column id (0, 1, 2...) * @param y line id (0, 1, 2...) * @param anim_en true: move with animation */ void lv_tileview_set_tile_act(lv_obj_t * tileview, lv_coord_t x, lv_coord_t y, bool anim_en); /** * Enable the edge flash effect. (Show an arc when the an edge is reached) * @param tileview pointer to a Tileview * @param en true or false to enable/disable end flash */ static inline void lv_tileview_set_edge_flash(lv_obj_t * tileview, bool en) { lv_page_set_edge_flash(tileview, en); } /** * Set a style of a tileview. * @param tileview pointer to tileview object * @param type which style should be set * @param style pointer to a style */ void lv_tileview_set_style(lv_obj_t * tileview, lv_tileview_style_t type, lv_style_t *style); /*===================== * Getter functions *====================*/ /** * Get the scroll propagation property * @param tileview pointer to a Tileview * @return true or false */ static inline bool lv_tileview_get_edge_flash(lv_obj_t * tileview) { return lv_page_get_edge_flash(tileview); } /** * Get style of a tileview. * @param tileview pointer to tileview object * @param type which style should be get * @return style pointer to the style */ lv_style_t * lv_tileview_get_style(const lv_obj_t * tileview, lv_tileview_style_t type); /*===================== * Other functions *====================*/ /********************** * MACROS **********************/ #endif /*USE_LV_TILEVIEW*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_TILEVIEW_H*/ ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_win.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_win.c * */ /********************* * INCLUDES *********************/ #include "lv_win.h" #if USE_LV_WIN != 0 #include "../lv_themes/lv_theme.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static lv_res_t lv_win_signal(lv_obj_t * win, lv_signal_t sign, void * param); static void lv_win_realign(lv_obj_t * win); /********************** * STATIC VARIABLES **********************/ static lv_signal_func_t ancestor_signal; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Create a window objects * @param par pointer to an object, it will be the parent of the new window * @param copy pointer to a window object, if not NULL then the new object will be copied from it * @return pointer to the created window */ lv_obj_t * lv_win_create(lv_obj_t * par, const lv_obj_t * copy) { LV_LOG_TRACE("window create started"); /*Create the ancestor object*/ lv_obj_t * new_win = lv_obj_create(par, copy); lv_mem_assert(new_win); if(new_win == NULL) return NULL; if(ancestor_signal == NULL) ancestor_signal = lv_obj_get_signal_func(new_win); /*Allocate the object type specific extended data*/ lv_win_ext_t * ext = lv_obj_allocate_ext_attr(new_win, sizeof(lv_win_ext_t)); lv_mem_assert(ext); if(ext == NULL) return NULL; ext->page = NULL; ext->header = NULL; ext->title = NULL; ext->style_header = &lv_style_plain_color; ext->style_btn_rel = &lv_style_btn_rel; ext->style_btn_pr = &lv_style_btn_pr; ext->btn_size = (LV_DPI) / 2; /*Init the new window object*/ if(copy == NULL) { lv_obj_set_size(new_win, LV_HOR_RES, LV_VER_RES); lv_obj_set_pos(new_win, 0, 0); lv_obj_set_style(new_win, &lv_style_pretty); ext->page = lv_page_create(new_win, NULL); lv_obj_set_protect(ext->page, LV_PROTECT_PARENT); lv_page_set_sb_mode(ext->page, LV_SB_MODE_AUTO); lv_page_set_arrow_scroll(ext->page, true); /*Create a holder for the header*/ ext->header = lv_obj_create(new_win, NULL); /*Move back the header because it is automatically moved to the scrollable */ lv_obj_set_protect(ext->header, LV_PROTECT_PARENT); lv_obj_set_parent(ext->header, new_win); lv_obj_set_width(ext->header, LV_HOR_RES - 62);//// ext->btn_size = lv_obj_get_height(ext->header) - 3;//// /*Create a title on the header*/ ext->title = lv_label_create(ext->header, NULL); lv_label_set_text(ext->title, "My title"); /*Set the default styles*/ lv_theme_t * th = lv_theme_get_current(); if(th) { lv_win_set_style(new_win, LV_WIN_STYLE_BG, th->win.bg); lv_win_set_style(new_win, LV_WIN_STYLE_SB, th->win.sb); lv_win_set_style(new_win, LV_WIN_STYLE_HEADER, th->win.header); lv_win_set_style(new_win, LV_WIN_STYLE_CONTENT_BG, th->win.content.bg); lv_win_set_style(new_win, LV_WIN_STYLE_CONTENT_SCRL, th->win.content.scrl); lv_win_set_style(new_win, LV_WIN_STYLE_BTN_REL, th->win.btn.rel); lv_win_set_style(new_win, LV_WIN_STYLE_BTN_PR, th->win.btn.pr); } else { lv_win_set_style(new_win, LV_WIN_STYLE_BG, &lv_style_plain); lv_win_set_style(new_win, LV_WIN_STYLE_CONTENT_BG, &lv_style_plain); lv_win_set_style(new_win, LV_WIN_STYLE_CONTENT_SCRL, &lv_style_transp); lv_win_set_style(new_win, LV_WIN_STYLE_HEADER, &lv_style_plain_color); } lv_obj_set_signal_func(new_win, lv_win_signal); lv_obj_set_size(new_win, LV_HOR_RES, LV_VER_RES); } /*Copy an existing object*/ else { lv_win_ext_t * copy_ext = lv_obj_get_ext_attr(copy); /*Create the objects*/ ext->header = lv_obj_create(new_win, copy_ext->header); ext->title = lv_label_create(ext->header, copy_ext->title); ext->page = lv_page_create(new_win, copy_ext->page); ext->btn_size = copy_ext->btn_size; /*Copy the control buttons*/ lv_obj_t * child; lv_obj_t * cbtn; child = lv_obj_get_child_back(copy_ext->header, NULL); child = lv_obj_get_child_back(copy_ext->header, child); /*Sip the title*/ while(child != NULL) { cbtn = lv_btn_create(ext->header, child); lv_img_create(cbtn, lv_obj_get_child(child, NULL)); child = lv_obj_get_child_back(copy_ext->header, child); } lv_obj_set_signal_func(new_win, lv_win_signal); /*Refresh the style with new signal function*/ lv_obj_refresh_style(new_win); } lv_win_realign(new_win); LV_LOG_INFO("window created"); return new_win; } /** * Delete all children of the scrl object, without deleting scrl child. * @param obj pointer to an object */ void lv_win_clean(lv_obj_t * obj) { lv_obj_t * scrl = lv_page_get_scrl(obj); lv_obj_clean(scrl); } /*====================== * Add/remove functions *=====================*/ /** * Add control button to the header of the window * @param win pointer to a window object * @param img_src an image source ('lv_img_t' variable, path to file or a symbol) * @param rel_action a function pointer to call when the button is released * @return pointer to the created button object */ lv_obj_t * lv_win_add_btn(lv_obj_t * win, const void * img_src, const char * label_src, lv_action_t rel_action) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); lv_obj_t * btn = lv_btn_create(ext->header, NULL); lv_btn_set_style(btn, LV_BTN_STYLE_REL, ext->style_btn_rel); lv_btn_set_style(btn, LV_BTN_STYLE_PR, ext->style_btn_pr); lv_obj_set_size(btn, lv_obj_get_width(btn), ext->btn_size); lv_btn_set_fit(btn, true, false); lv_btn_set_action(btn, LV_BTN_ACTION_CLICK, rel_action); if (img_src) { lv_obj_t * img = lv_img_create(btn, NULL); lv_obj_set_click(img, false); lv_img_set_src(img, img_src); } else if (label_src) { lv_obj_t *label = lv_label_create(btn, NULL); lv_label_set_recolor(label, true); lv_label_set_text(label, label_src); } lv_win_realign(win); return btn; } /*===================== * Setter functions *====================*/ /** * A release action which can be assigned to a window control button to close it * @param btn pointer to the released button * @return always LV_ACTION_RES_INV because the button is deleted with the window */ lv_res_t lv_win_close_action(lv_obj_t * btn) { lv_obj_t * win = lv_win_get_from_btn(btn); lv_obj_del(win); return LV_RES_INV; } /** * Set the title of a window * @param win pointer to a window object * @param title string of the new title */ void lv_win_set_title(lv_obj_t * win, const char * title) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); lv_label_set_text(ext->title, title); lv_win_realign(win); } /** * Set the control button size of a window * @param win pointer to a window object * @param size control button size */ void lv_win_set_btn_size(lv_obj_t * win, lv_coord_t size) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); if(ext->btn_size == size) return; ext->btn_size = size; lv_win_realign(win); } /** * Set the layout of the window * @param win pointer to a window object * @param layout the layout from 'lv_layout_t' */ void lv_win_set_layout(lv_obj_t * win, lv_layout_t layout) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); lv_page_set_scrl_layout(ext->page, layout); } /** * Set the scroll bar mode of a window * @param win pointer to a window object * @param sb_mode the new scroll bar mode from 'lv_sb_mode_t' */ void lv_win_set_sb_mode(lv_obj_t * win, lv_sb_mode_t sb_mode) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); lv_page_set_sb_mode(ext->page, sb_mode); } /** * Set a style of a window * @param win pointer to a window object * @param type which style should be set * @param style pointer to a style */ void lv_win_set_style(lv_obj_t * win, lv_win_style_t type, lv_style_t * style) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); switch(type) { case LV_WIN_STYLE_BG: lv_obj_set_style(win, style); lv_win_realign(win); break; case LV_WIN_STYLE_CONTENT_BG: lv_page_set_style(ext->page, LV_PAGE_STYLE_BG, style); break; case LV_WIN_STYLE_CONTENT_SCRL: lv_page_set_style(ext->page, LV_PAGE_STYLE_SCRL, style); break; case LV_WIN_STYLE_SB: lv_page_set_style(ext->page, LV_PAGE_STYLE_SB, style); break; case LV_WIN_STYLE_HEADER: lv_obj_set_style(ext->header, style); lv_win_realign(win); break; case LV_WIN_STYLE_BTN_REL: ext->style_btn_rel = style; break; case LV_WIN_STYLE_BTN_PR: ext->style_btn_pr = style; break; } /*Refresh the existing buttons*/ if(type == LV_WIN_STYLE_BTN_REL || type == LV_WIN_STYLE_BTN_PR) { lv_obj_t * btn; btn = lv_obj_get_child_back(ext->header, NULL); btn = lv_obj_get_child_back(ext->header, btn); /*Skip the title*/ while(btn != NULL) { if(type == LV_WIN_STYLE_BTN_REL) lv_btn_set_style(btn, LV_BTN_STYLE_REL, style); else lv_btn_set_style(btn, LV_BTN_STYLE_PR, style); btn = lv_obj_get_child_back(ext->header, btn); } } } /** * Set drag status of a window. If set to 'true' window can be dragged like on a PC. * @param win pointer to a window object * @param en whether dragging is enabled */ void lv_win_set_drag(lv_obj_t *win, bool en) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); lv_obj_t * win_header = ext->header; lv_obj_set_drag_parent(win_header, en); lv_obj_set_drag(win, en); } /*===================== * Getter functions *====================*/ /** * Get the title of a window * @param win pointer to a window object * @return title string of the window */ const char * lv_win_get_title(const lv_obj_t * win) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); return lv_label_get_text(ext->title); } /** * Get the content holder object of window (`lv_page`) to allow additional customization * @param win pointer to a window object * @return the Page object where the window's content is */ lv_obj_t * lv_win_get_content(const lv_obj_t * win) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); return ext->page; } /** * Get the control button size of a window * @param win pointer to a window object * @return control button size */ lv_coord_t lv_win_get_btn_size(const lv_obj_t * win) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); return ext->btn_size; } /** * Get the pointer of a widow from one of its control button. * It is useful in the action of the control buttons where only button is known. * @param ctrl_btn pointer to a control button of a window * @return pointer to the window of 'ctrl_btn' */ lv_obj_t * lv_win_get_from_btn(const lv_obj_t * ctrl_btn) { lv_obj_t * header = lv_obj_get_parent(ctrl_btn); lv_obj_t * win = lv_obj_get_parent(header); return win; } /** * Get the layout of a window * @param win pointer to a window object * @return the layout of the window (from 'lv_layout_t') */ lv_layout_t lv_win_get_layout(lv_obj_t * win) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); return lv_page_get_scrl_layout(ext->page); } /** * Get the scroll bar mode of a window * @param win pointer to a window object * @return the scroll bar mode of the window (from 'lv_sb_mode_t') */ lv_sb_mode_t lv_win_get_sb_mode(lv_obj_t * win) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); return lv_page_get_sb_mode(ext->page); } /** * Get width of the content area (page scrollable) of the window * @param win pointer to a window object * @return the width of the content_bg area */ lv_coord_t lv_win_get_width(lv_obj_t * win) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); lv_obj_t * scrl = lv_page_get_scrl(ext->page); lv_style_t * style_scrl = lv_obj_get_style(scrl); return lv_obj_get_width(scrl) - 2 * style_scrl->body.padding.hor; } /** * Get a style of a window * @param win pointer to a button object * @param type which style window be get * @return style pointer to a style */ lv_style_t * lv_win_get_style(const lv_obj_t * win, lv_win_style_t type) { lv_style_t * style = NULL; lv_win_ext_t * ext = lv_obj_get_ext_attr(win); switch(type) { case LV_WIN_STYLE_BG: style = lv_obj_get_style(win); break; case LV_WIN_STYLE_CONTENT_BG: style = lv_page_get_style(ext->page, LV_PAGE_STYLE_BG); break; case LV_WIN_STYLE_CONTENT_SCRL: style = lv_page_get_style(ext->page, LV_PAGE_STYLE_SCRL); break; case LV_WIN_STYLE_SB: style = lv_page_get_style(ext->page, LV_PAGE_STYLE_SB); break; case LV_WIN_STYLE_HEADER: style = lv_obj_get_style(ext->header); break; case LV_WIN_STYLE_BTN_REL: style = ext->style_btn_rel; break; case LV_WIN_STYLE_BTN_PR: style = ext->style_btn_pr; break; default: style = NULL; break; } return style; } /*===================== * Other functions *====================*/ /** * Focus on an object. It ensures that the object will be visible in the window. * @param win pointer to a window object * @param obj pointer to an object to focus (must be in the window) * @param anim_time scroll animation time in milliseconds (0: no animation) */ void lv_win_focus(lv_obj_t * win, lv_obj_t * obj, uint16_t anim_time) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); lv_page_focus(ext->page, obj, anim_time); } /********************** * STATIC FUNCTIONS **********************/ /** * Signal function of the window * @param win pointer to a window object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return LV_RES_OK: the object is not deleted in the function; LV_RES_INV: the object is deleted */ static lv_res_t lv_win_signal(lv_obj_t * win, lv_signal_t sign, void * param) { lv_res_t res; /* Include the ancient signal function */ res = ancestor_signal(win, sign, param); if(res != LV_RES_OK) return res; lv_win_ext_t * ext = lv_obj_get_ext_attr(win); if(sign == LV_SIGNAL_CHILD_CHG) { /*Move children to the page*/ lv_obj_t * page = ext->page; if(page != NULL) { lv_obj_t * child; child = lv_obj_get_child(win, NULL); while(child != NULL) { if(lv_obj_is_protected(child, LV_PROTECT_PARENT) == false) { lv_obj_t * tmp = child; child = lv_obj_get_child(win, child); /*Get the next child before move this*/ lv_obj_set_parent(tmp, page); } else { child = lv_obj_get_child(win, child); } } } } else if(sign == LV_SIGNAL_STYLE_CHG) { lv_win_realign(win); } else if(sign == LV_SIGNAL_CORD_CHG) { /*If the size is changed refresh the window*/ if(lv_area_get_width(param) != lv_obj_get_width(win) || lv_area_get_height(param) != lv_obj_get_height(win)) { lv_win_realign(win); } } else if(sign == LV_SIGNAL_CLEANUP) { ext->header = NULL; /*These objects were children so they are already invalid*/ ext->page = NULL; ext->title = NULL; } else if(sign == LV_SIGNAL_CONTROLL) { /*Forward all the control signals to the page*/ ext->page->signal_func(ext->page, sign, param); } else if(sign == LV_SIGNAL_GET_TYPE) { lv_obj_type_t * buf = param; uint8_t i; for(i = 0; i < LV_MAX_ANCESTOR_NUM - 1; i++) { /*Find the last set data*/ if(buf->type[i] == NULL) break; } buf->type[i] = "lv_win"; } return res; } /** * Realign the building elements of a window * @param win pointer to window objectker */ static void lv_win_realign(lv_obj_t * win) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); if(ext->page == NULL || ext->header == NULL || ext->title == NULL) return; lv_style_t * header_style = lv_win_get_style(win, LV_WIN_STYLE_HEADER); lv_obj_set_size(ext->header, lv_obj_get_width(win) - 62, ext->btn_size + 2 * header_style->body.padding.ver); bool first_btn = true; lv_obj_t * btn; lv_obj_t * btn_prev = NULL; /*Refresh the size of all control buttons*/ btn = lv_obj_get_child_back(ext->header, NULL); btn = lv_obj_get_child_back(ext->header, btn); /*Skip the title*/ while(btn != NULL) { lv_obj_set_size(btn, lv_obj_get_width(btn), ext->btn_size); if(first_btn) { lv_obj_align(btn, ext->header, LV_ALIGN_IN_RIGHT_MID, - header_style->body.padding.hor, 0); first_btn = false; } else { lv_obj_align(btn, btn_prev, LV_ALIGN_OUT_LEFT_MID, - header_style->body.padding.inner, 0); } btn_prev = btn; btn = lv_obj_get_child_back(ext->header, btn); } lv_obj_align(ext->title, NULL, LV_ALIGN_IN_LEFT_MID, ext->style_header->body.padding.hor, 0); lv_obj_set_pos(ext->header, 31, 0); lv_obj_set_size(ext->page, lv_obj_get_width(win), lv_obj_get_height(win) - lv_obj_get_height(ext->header)); lv_obj_align(ext->page, ext->header, LV_ALIGN_OUT_BOTTOM_LEFT, 0, 0); } #endif ================================================ FILE: bdk/libs/lvgl/lv_objx/lv_win.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** * @file lv_win.h * */ #ifndef LV_WIN_H #define LV_WIN_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_WIN != 0 /*Testing of dependencies*/ #if USE_LV_BTN == 0 #error "lv_win: lv_btn is required. Enable it in lv_conf.h (USE_LV_BTN 1) " #endif #if USE_LV_LABEL == 0 #error "lv_win: lv_label is required. Enable it in lv_conf.h (USE_LV_LABEL 1) " #endif #if USE_LV_IMG == 0 #error "lv_win: lv_img is required. Enable it in lv_conf.h (USE_LV_IMG 1) " #endif #if USE_LV_PAGE == 0 #error "lv_win: lv_page is required. Enable it in lv_conf.h (USE_LV_PAGE 1) " #endif #include "../lv_core/lv_obj.h" #include "lv_cont.h" #include "lv_btn.h" #include "lv_label.h" #include "lv_img.h" #include "lv_page.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /*Data of window*/ typedef struct { /*Ext. of ancestor*/ /*New data for this type */ lv_obj_t * page; /*Pointer to a page which holds the content*/ lv_obj_t * header; /*Pointer to the header container of the window*/ lv_obj_t * title; /*Pointer to the title label of the window*/ lv_style_t * style_header; /*Style of the header container*/ lv_style_t * style_btn_rel; /*Control button releases style*/ lv_style_t * style_btn_pr; /*Control button pressed style*/ lv_coord_t btn_size; /*Size of the control buttons (square)*/ } lv_win_ext_t; enum { LV_WIN_STYLE_BG, LV_WIN_STYLE_CONTENT_BG, LV_WIN_STYLE_CONTENT_SCRL, LV_WIN_STYLE_SB, LV_WIN_STYLE_HEADER, LV_WIN_STYLE_BTN_REL, LV_WIN_STYLE_BTN_PR, }; typedef uint8_t lv_win_style_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a window objects * @param par pointer to an object, it will be the parent of the new window * @param copy pointer to a window object, if not NULL then the new object will be copied from it * @return pointer to the created window */ lv_obj_t * lv_win_create(lv_obj_t * par, const lv_obj_t * copy); /** * Delete all children of the scrl object, without deleting scrl child. * @param obj pointer to an object */ void lv_win_clean(lv_obj_t *obj); /*====================== * Add/remove functions *=====================*/ /** * Add control button to the header of the window * @param win pointer to a window object * @param img_src an image source ('lv_img_t' variable, path to file or a symbol) * @param rel_action a function pointer to call when the button is released * @return pointer to the created button object */ lv_obj_t * lv_win_add_btn(lv_obj_t * win, const void * img_src, const char * label_src, lv_action_t rel_action); /*===================== * Setter functions *====================*/ /** * A release action which can be assigned to a window control button to close it * @param btn pointer to the released button * @return always LV_ACTION_RES_INV because the button is deleted with the window */ lv_res_t lv_win_close_action(lv_obj_t * btn); /** * Set the title of a window * @param win pointer to a window object * @param title string of the new title */ void lv_win_set_title(lv_obj_t * win, const char * title); /** * Set the control button size of a window * @param win pointer to a window object * @return control button size */ void lv_win_set_btn_size(lv_obj_t * win, lv_coord_t size); /** * Set the layout of the window * @param win pointer to a window object * @param layout the layout from 'lv_layout_t' */ void lv_win_set_layout(lv_obj_t *win, lv_layout_t layout); /** * Set the scroll bar mode of a window * @param win pointer to a window object * @param sb_mode the new scroll bar mode from 'lv_sb_mode_t' */ void lv_win_set_sb_mode(lv_obj_t *win, lv_sb_mode_t sb_mode); /** * Set a style of a window * @param win pointer to a window object * @param type which style should be set * @param style pointer to a style */ void lv_win_set_style(lv_obj_t *win, lv_win_style_t type, lv_style_t *style); /** * Set drag status of a window. If set to 'true' window can be dragged like on a PC. * @param win pointer to a window object * @param en whether dragging is enabled */ void lv_win_set_drag(lv_obj_t *win, bool en); /*===================== * Getter functions *====================*/ /** * Get the title of a window * @param win pointer to a window object * @return title string of the window */ const char * lv_win_get_title(const lv_obj_t * win); /** * Get the content holder object of window (`lv_page`) to allow additional customization * @param win pointer to a window object * @return the Page object where the window's content is */ lv_obj_t * lv_win_get_content(const lv_obj_t * win); /** * Get the control button size of a window * @param win pointer to a window object * @return control button size */ lv_coord_t lv_win_get_btn_size(const lv_obj_t * win); /** * Get the pointer of a widow from one of its control button. * It is useful in the action of the control buttons where only button is known. * @param ctrl_btn pointer to a control button of a window * @return pointer to the window of 'ctrl_btn' */ lv_obj_t * lv_win_get_from_btn(const lv_obj_t * ctrl_btn); /** * Get the layout of a window * @param win pointer to a window object * @return the layout of the window (from 'lv_layout_t') */ lv_layout_t lv_win_get_layout(lv_obj_t *win); /** * Get the scroll bar mode of a window * @param win pointer to a window object * @return the scroll bar mode of the window (from 'lv_sb_mode_t') */ lv_sb_mode_t lv_win_get_sb_mode(lv_obj_t *win); /** * Get width of the content area (page scrollable) of the window * @param win pointer to a window object * @return the width of the content area */ lv_coord_t lv_win_get_width(lv_obj_t * win); /** * Get a style of a window * @param win pointer to a button object * @param type which style window be get * @return style pointer to a style */ lv_style_t * lv_win_get_style(const lv_obj_t *win, lv_win_style_t type); /** * Get drag status of a window. If set to 'true' window can be dragged like on a PC. * @param win pointer to a window object * @return whether window is draggable */ static inline bool lv_win_get_drag(const lv_obj_t *win) { return lv_obj_get_drag(win); } /*===================== * Other functions *====================*/ /** * Focus on an object. It ensures that the object will be visible in the window. * @param win pointer to a window object * @param obj pointer to an object to focus (must be in the window) * @param anim_time scroll animation time in milliseconds (0: no animation) */ void lv_win_focus(lv_obj_t * win, lv_obj_t * obj, uint16_t anim_time); /** * Scroll the window horizontally * @param win pointer to a window object * @param dist the distance to scroll (< 0: scroll right; > 0 scroll left) */ static inline void lv_win_scroll_hor(lv_obj_t * win, lv_coord_t dist) { lv_win_ext_t * ext = (lv_win_ext_t *)lv_obj_get_ext_attr(win); lv_page_scroll_hor(ext->page, dist); } /** * Scroll the window vertically * @param win pointer to a window object * @param dist the distance to scroll (< 0: scroll down; > 0 scroll up) */ static inline void lv_win_scroll_ver(lv_obj_t * win, lv_coord_t dist) { lv_win_ext_t * ext = (lv_win_ext_t *)lv_obj_get_ext_attr(win); lv_page_scroll_ver(ext->page, dist); } /********************** * MACROS **********************/ #endif /*USE_LV_WIN*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_WIN_H*/ ================================================ FILE: bdk/libs/lvgl/lv_themes/lv_theme.c ================================================ /** * @file lv_theme.c * */ /********************* * INCLUDES *********************/ #include "lv_theme.h" #include "../lv_core/lv_obj.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ #if LV_THEME_LIVE_UPDATE == 0 static lv_theme_t * current_theme; #else /* If live update is used then a big `lv_style_t` array is used to store the real styles of the theme not only pointers. * On `lv_theme_set_current` the styles of the theme are copied to this array. * The pointers in `current_theme` are initialized to point to the styles in the array. * This way the theme styles will always point to the same memory address even after theme is change. * (The pointers in the theme points to the styles declared by the theme itself) */ /* Store the styles in this array. * Can't determine the size in compile time because sizeof is not evaluated (should be `sizeof(lv_theme_t) / sizeof(lv_style_t*)`). * Error will be generated in run time if too small.*/ static lv_style_t th_styles[120]; static bool inited = false; static lv_theme_t current_theme; #endif /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /** * Set a theme for the system. * From now, all the created objects will use styles from this theme by default * @param th pointer to theme (return value of: 'lv_theme_init_xxx()') */ void lv_theme_set_current(lv_theme_t * th) { #if LV_THEME_LIVE_UPDATE == 0 current_theme = th; #else uint32_t style_num = sizeof(lv_theme_t) / sizeof(lv_style_t *); /*Number of styles in a theme*/ if(!inited) { /*It's not sure `th_styles` is big enough. Check it now!*/ if(style_num > sizeof(th_styles) / sizeof(lv_style_t)) { LV_LOG_ERROR("Themes: th_styles array is too small. Increase it's size!"); while(1); } /*Initialize the style pointers `current_theme` to point to the `th_styles` style array */ uint16_t i; lv_style_t ** cur_th_style_p = (lv_style_t **) ¤t_theme; for(i = 0; i < style_num; i++) { uintptr_t adr = (uintptr_t)&th_styles[i]; memcpy(&cur_th_style_p[i], &adr, sizeof(lv_style_t *)); } inited = true; } /*Copy the styles pointed by the new theme to the `th_styles` style array*/ uint16_t i; lv_style_t ** th_style = (lv_style_t **) th; for(i = 0; i < style_num; i++) { uintptr_t s = (uintptr_t)th_style[i]; if(s) memcpy(&th_styles[i], (void *)s, sizeof(lv_style_t)); } /*Let the object know their style might change*/ lv_obj_report_style_mod(NULL); #endif } /** * Get the current system theme. * @return pointer to the current system theme. NULL if not set. */ lv_theme_t * lv_theme_get_current(void) { #if LV_THEME_LIVE_UPDATE == 0 return current_theme; #else if(!inited) return NULL; else return ¤t_theme; #endif } /********************** * STATIC FUNCTIONS **********************/ ================================================ FILE: bdk/libs/lvgl/lv_themes/lv_theme.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** *@file lv_themes.h * */ #ifndef LV_THEMES_H #define LV_THEMES_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #include "../lv_core/lv_style.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ typedef struct { lv_style_t *bg; lv_style_t *panel; #if USE_LV_CONT != 0 lv_style_t *cont; #endif #if USE_LV_BTN != 0 struct { lv_style_t *rel; lv_style_t *pr; lv_style_t *tgl_rel; lv_style_t *tgl_pr; lv_style_t *ina; } btn; #endif #if USE_LV_IMGBTN != 0 struct { lv_style_t *rel; lv_style_t *pr; lv_style_t *tgl_rel; lv_style_t *tgl_pr; lv_style_t *ina; } imgbtn; #endif #if USE_LV_LABEL != 0 struct { lv_style_t *prim; lv_style_t *sec; lv_style_t *hint; } label; #endif #if USE_LV_LINE != 0 struct { lv_style_t *decor; } line; #endif #if USE_LV_LED != 0 lv_style_t *led; #endif #if USE_LV_BAR != 0 struct { lv_style_t *bg; lv_style_t *indic; } bar; #endif #if USE_LV_SLIDER != 0 struct { lv_style_t *bg; lv_style_t *indic; lv_style_t *knob; } slider; #endif #if USE_LV_LMETER != 0 lv_style_t *lmeter; #endif #if USE_LV_GAUGE != 0 lv_style_t *gauge; #endif #if USE_LV_ARC != 0 lv_style_t *arc; #endif #if USE_LV_PRELOAD != 0 lv_style_t *preload; #endif #if USE_LV_SW != 0 struct { lv_style_t *bg; lv_style_t *indic; lv_style_t *knob_off; lv_style_t *knob_on; } sw; #endif #if USE_LV_CHART != 0 lv_style_t *chart; #endif #if USE_LV_CALENDAR != 0 struct { lv_style_t *bg; lv_style_t *header; lv_style_t *header_pr; lv_style_t *day_names; lv_style_t *highlighted_days; lv_style_t *inactive_days; lv_style_t *week_box; lv_style_t *today_box; } calendar; #endif #if USE_LV_CB != 0 struct { lv_style_t *bg; struct { lv_style_t *rel; lv_style_t *pr; lv_style_t *tgl_rel; lv_style_t *tgl_pr; lv_style_t *ina; } box; } cb; #endif #if USE_LV_BTNM != 0 struct { lv_style_t *bg; struct { lv_style_t *rel; lv_style_t *pr; lv_style_t *tgl_rel; lv_style_t *tgl_pr; lv_style_t *ina; } btn; } btnm; #endif #if USE_LV_KB != 0 struct { lv_style_t *bg; struct { lv_style_t *rel; lv_style_t *pr; lv_style_t *tgl_rel; lv_style_t *tgl_pr; lv_style_t *ina; } btn; } kb; #endif #if USE_LV_MBOX != 0 struct { lv_style_t *bg; struct { lv_style_t *bg; lv_style_t *rel; lv_style_t *pr; } btn; } mbox; #endif #if USE_LV_PAGE != 0 struct { lv_style_t *bg; lv_style_t *scrl; lv_style_t *sb; } page; #endif #if USE_LV_TA != 0 struct { lv_style_t *area; lv_style_t *oneline; lv_style_t *cursor; lv_style_t *sb; } ta; #endif #if USE_LV_SPINBOX != 0 struct { lv_style_t *bg; lv_style_t *cursor; lv_style_t *sb; } spinbox; #endif #if USE_LV_LIST struct { lv_style_t *bg; lv_style_t *scrl; lv_style_t *sb; struct { lv_style_t *rel; lv_style_t *pr; lv_style_t *tgl_rel; lv_style_t *tgl_pr; lv_style_t *ina; } btn; } list; #endif #if USE_LV_DDLIST != 0 struct { lv_style_t *bg; lv_style_t *bgo; lv_style_t *pr; lv_style_t *sel; lv_style_t *sb; } ddlist; #endif #if USE_LV_ROLLER != 0 struct { lv_style_t *bg; lv_style_t *sel; } roller; #endif #if USE_LV_TABVIEW != 0 struct { lv_style_t *bg; lv_style_t *indic; struct { lv_style_t *bg; lv_style_t *rel; lv_style_t *pr; lv_style_t *tgl_rel; lv_style_t *tgl_pr; } btn; } tabview; #endif #if USE_LV_TILEVIEW != 0 struct { lv_style_t *bg; lv_style_t *scrl; lv_style_t *sb; } tileview; #endif #if USE_LV_TABLE != 0 struct { lv_style_t *bg; lv_style_t *cell; } table; #endif #if USE_LV_WIN != 0 struct { lv_style_t *bg; lv_style_t *sb; lv_style_t *header; struct { lv_style_t *bg; lv_style_t *scrl; } content; struct { lv_style_t *rel; lv_style_t *pr; } btn; } win; #endif } lv_theme_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Set a theme for the system. * From now, all the created objects will use styles from this theme by default * @param th pointer to theme (return value of: 'lv_theme_init_xxx()') */ void lv_theme_set_current(lv_theme_t *th); /** * Get the current system theme. * @return pointer to the current system theme. NULL if not set. */ lv_theme_t * lv_theme_get_current(void); /********************** * MACROS **********************/ /********************** * POST INCLUDE *********************/ #include "lv_theme_hekate.h" #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_THEMES_H*/ ================================================ FILE: bdk/libs/lvgl/lv_themes/lv_theme_hekate.c ================================================ /* * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /********************* * INCLUDES *********************/ #include "lv_theme.h" #if USE_LV_THEME_HEKATE /********************* * DEFINES *********************/ #define DEF_RADIUS 4 #define COLOR_HOS_TURQUOISE (_hue ? lv_color_hsv_to_rgb(_hue, 100, 100) : lv_color_hsv_to_rgb(53, 8, 90)) // 0x00FFC9 #define COLOR_HOS_TEAL_LIGHTER (_hue ? lv_color_hsv_to_rgb(_hue, 100, 93) : lv_color_hsv_to_rgb(53, 8, 81)) // 0x00EDBA #define COLOR_HOS_TEAL_LIGHT (_hue ? lv_color_hsv_to_rgb(_hue, 100, 72) : lv_color_hsv_to_rgb(53, 8, 65)) // 0x00B78F #define COLOR_HOS_TEAL (_hue ? lv_color_hsv_to_rgb(_hue, 100, 64) : lv_color_hsv_to_rgb(53, 8, 58)) // 0x00A273 #define COLOR_HOS_ORANGE LV_COLOR_HEX(0xFF5500) #define COLOR_HOS_TXT_WHITE LV_COLOR_HEX(0xFBFBFB) #define COLOR_BG_DARK LV_COLOR_HEX(theme_bg_color ? (theme_bg_color - 0x0B0B0B) : 0x121212) // 0x222222. #define COLOR_BG LV_COLOR_HEX(theme_bg_color) // 0x2D2D2D. #define COLOR_BG_LIGHT LV_COLOR_HEX(theme_bg_color ? (theme_bg_color + 0x101010) : 0x2D2D2D) // 0x3D3D3D. #define COLOR_BG_LIGHTER LV_COLOR_HEX(theme_bg_color ? (theme_bg_color + 0x191919) : 0x363636) // 0x464646. #define COLOR_INACTIVE LV_COLOR_HEX(theme_bg_color ? (theme_bg_color + 0x171717) : 0x343434) // 0x444444. #define COLOR_BAR LV_COLOR_HEX(theme_bg_color ? (theme_bg_color + 0x202020) : 0x3D3D3D) // 0x4D4D4D. #define COLOR_PRESS LV_COLOR_HEX(theme_bg_color ? (theme_bg_color + 0x232323) : 0x404040) // 0x505050. #define COLOR_LINE LV_COLOR_HEX(theme_bg_color ? (theme_bg_color + 0x383838) : 0x555555) // 0x656565. #define COLOR_SHADOW_LIGHT LV_COLOR_HEX(0xAAAAAA) #define COLOR_SHADOW LV_COLOR_HEX(theme_bg_color ? theme_bg_color : 0x181818) // 0x2D2D2D. #define COLOR_SHADOW_DARK LV_COLOR_HEX(theme_bg_color ? 0x1F1F1F : 0x0A0A0A) /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ /********************** * STATIC VARIABLES **********************/ static lv_theme_t theme; static lv_style_t def; /*Static style definitions*/ static lv_style_t sb; /*Saved input parameters*/ static uint16_t _hue; static lv_font_t * _font; uint32_t theme_bg_color; /********************** * MACROS **********************/ /********************** * STATIC FUNCTIONS **********************/ static void basic_init(void) { static lv_style_t bg, panel; lv_style_copy(&def, &lv_style_plain); // Initialize the default style. def.text.font = _font; def.body.radius = DEF_RADIUS; def.text.color = COLOR_HOS_TXT_WHITE; //def.image.color = COLOR_HOS_TXT_WHITE; //Needed if symbol image. //def.image.opa = LV_OPA_COVER; lv_style_copy(&bg, &def); bg.body.main_color = COLOR_BG; bg.body.grad_color = bg.body.main_color; bg.body.radius = 0; bg.body.empty = 1; lv_style_copy(&panel, &def); panel.body.radius = DEF_RADIUS; panel.body.main_color = COLOR_BG; panel.body.grad_color = panel.body.main_color; panel.body.border.width = 1; panel.body.border.color = COLOR_BAR; panel.body.border.opa = LV_OPA_COVER; panel.body.shadow.color = COLOR_SHADOW_LIGHT; panel.body.shadow.type = LV_SHADOW_BOTTOM; panel.body.shadow.width = 4; panel.body.padding.hor = LV_DPI / 8; panel.body.padding.ver = LV_DPI / 8; panel.body.padding.inner = LV_DPI / 12; //panel.text.color = COLOR_HOS_TXT_WHITE; lv_style_copy(&sb, &def); sb.body.main_color = LV_COLOR_BLACK; sb.body.grad_color = sb.body.grad_color; sb.body.opa = LV_OPA_40; sb.body.padding.hor = LV_DPI / 25; theme.bg = &bg; theme.panel = &panel; } static void cont_init(void) { #if USE_LV_CONT != 0 static lv_style_t cont; lv_style_copy(&cont, theme.panel); cont.body.shadow.width = 0; cont.body.border.width = 0; theme.cont = &cont; #endif } static void btn_init(void) { #if USE_LV_BTN != 0 static lv_style_t rel, pr, tgl_rel, tgl_pr, ina; lv_style_copy(&rel, &def); rel.body.main_color = COLOR_BG_LIGHT; rel.body.grad_color = rel.body.main_color; rel.body.radius = 6; rel.body.padding.hor = LV_DPI / 3; rel.body.padding.ver = LV_DPI / 6; rel.body.padding.inner = LV_DPI / 10; rel.body.shadow.color = COLOR_SHADOW_DARK; rel.body.shadow.type = LV_SHADOW_BOTTOM; rel.body.shadow.width = 6; rel.body.border.width = 0; rel.body.border.color = COLOR_BG_LIGHT; rel.body.border.part = LV_BORDER_FULL; //rel.text.color = COLOR_HOS_TXT_WHITE; lv_style_copy(&pr, &rel); pr.body.main_color = COLOR_PRESS; pr.body.grad_color = pr.body.main_color; pr.body.shadow.width = 0; pr.body.border.color = COLOR_HOS_TEAL_LIGHTER; pr.text.color = COLOR_HOS_TURQUOISE; pr.body.border.width = 4; lv_style_copy(&tgl_rel, &rel); tgl_rel.body.border.color = COLOR_HOS_TEAL_LIGHTER; tgl_rel.body.border.width = 4; lv_style_copy(&tgl_pr, &tgl_rel); tgl_pr.body.main_color = COLOR_PRESS; tgl_pr.body.grad_color = tgl_pr.body.main_color; tgl_pr.text.color = COLOR_HOS_TURQUOISE; tgl_pr.body.shadow.width = 0; lv_style_copy(&ina, &rel); ina.body.main_color = COLOR_BG_DARK; ina.body.grad_color = ina.body.main_color; //ina.body.shadow.width = 0; ina.text.color = LV_COLOR_HEX(0x888888); ina.body.border.width = 4; theme.btn.rel = &rel; theme.btn.pr = ≺ theme.btn.tgl_rel = &tgl_rel; theme.btn.tgl_pr = &tgl_pr; theme.btn.ina = &ina; #endif } static void label_init(void) { #if USE_LV_LABEL != 0 static lv_style_t prim, sec, hint; lv_style_copy(&prim, &def); prim.text.font = _font; prim.text.color = COLOR_HOS_TXT_WHITE; lv_style_copy(&sec, &prim); sec.text.color = COLOR_HOS_ORANGE; lv_style_copy(&hint, &prim); hint.text.color = LV_COLOR_HEX(0xCCCCCC); theme.label.prim = &prim; theme.label.sec = &sec; theme.label.hint = &hint; #endif } static void line_init(void) { #if USE_LV_LINE != 0 static lv_style_t line; lv_style_copy(&line, &def); line.line.color = COLOR_LINE; theme.line.decor = &line; #endif } static void led_init(void) { #if USE_LV_LED != 0 static lv_style_t led; lv_style_copy(&led, &def); led.body.shadow.width = LV_DPI / 10; led.body.radius = LV_RADIUS_CIRCLE; led.body.border.width = LV_DPI / 30; led.body.border.opa = LV_OPA_30; led.body.main_color = lv_color_hsv_to_rgb(_hue, 100, 100); led.body.grad_color = led.body.main_color; led.body.border.color = lv_color_hsv_to_rgb(_hue, 60, 60); led.body.shadow.color = lv_color_hsv_to_rgb(_hue, 100, 100); theme.led = &led; #endif } static void bar_init(void) { #if USE_LV_BAR static lv_style_t bar_bg, bar_indic; lv_style_copy(&bar_bg, &def); bar_bg.body.main_color = COLOR_BAR; bar_bg.body.grad_color = bar_bg.body.main_color; bar_bg.body.radius = 3; bar_bg.body.border.width = 0; bar_bg.body.padding.hor = LV_DPI / 12; bar_bg.body.padding.ver = LV_DPI / 12; lv_style_copy(&bar_indic, &bar_bg); bar_indic.body.main_color = COLOR_HOS_TURQUOISE; bar_indic.body.grad_color = bar_indic.body.main_color; bar_indic.body.padding.hor = 0; bar_indic.body.padding.ver = 0; theme.bar.bg = &bar_bg; theme.bar.indic = &bar_indic; #endif } static void slider_init(void) { #if USE_LV_SLIDER != 0 static lv_style_t knob; static lv_style_t slide_bar; lv_style_copy(&knob, &def); knob.body.radius = LV_RADIUS_CIRCLE; knob.body.border.width = 0; knob.body.main_color = theme.bar.indic->body.main_color; knob.body.grad_color = knob.body.main_color; lv_style_copy(&slide_bar, theme.bar.indic); slide_bar.body.main_color = COLOR_HOS_TEAL_LIGHT; slide_bar.body.grad_color = slide_bar.body.main_color; theme.slider.bg = theme.bar.bg; theme.slider.indic = &slide_bar; theme.slider.knob = &knob; #endif } static void sw_init(void) { #if USE_LV_SW != 0 static lv_style_t sw_bg, sw_indic, sw_knob_off, sw_knob_on; lv_style_copy(&sw_bg, theme.slider.bg); sw_bg.body.radius = LV_RADIUS_CIRCLE; lv_style_copy(&sw_indic, theme.slider.bg); sw_indic.body.radius = LV_RADIUS_CIRCLE; lv_style_copy(&sw_knob_on, theme.slider.knob); lv_style_copy(&sw_knob_off, &sw_knob_on); sw_knob_off.body.main_color = LV_COLOR_HEX(0xDADADA); sw_knob_off.body.grad_color = sw_knob_off.body.main_color; sw_knob_off.body.border.width = 1; sw_knob_off.body.border.color = LV_COLOR_HEX(0x999999); sw_knob_off.body.border.opa = LV_OPA_COVER; theme.sw.bg = &sw_bg; theme.sw.indic = &sw_indic; theme.sw.knob_off = &sw_knob_off; theme.sw.knob_on = &sw_knob_on; #endif } static void lmeter_init(void) { #if USE_LV_LMETER != 0 static lv_style_t lmeter; lv_style_copy(&lmeter, &def); lmeter.body.main_color = lv_color_hsv_to_rgb(_hue, 75, 90); lmeter.body.grad_color = lmeter.body.main_color; lmeter.body.padding.hor = LV_DPI / 10; // Scale line length. lmeter.line.color = LV_COLOR_HEX(0x999999); lmeter.line.width = 2; theme.lmeter = &lmeter; #endif } static void gauge_init(void) { #if USE_LV_GAUGE != 0 static lv_style_t gauge; lv_style_copy(&gauge, &def); gauge.body.main_color = lv_color_hsv_to_rgb(_hue, 10, 60); gauge.body.grad_color = gauge.body.main_color; gauge.body.padding.hor = LV_DPI / 16; // Scale line length. gauge.body.padding.inner = LV_DPI / 8; gauge.body.border.color = LV_COLOR_HEX(0x999999); gauge.text.color = LV_COLOR_HEX(0xDDDDDD); gauge.line.width = 3; gauge.line.color = lv_color_hsv_to_rgb(_hue, 95, 70); theme.gauge = &gauge; #endif } static void arc_init(void) { #if USE_LV_ARC != 0 static lv_style_t arc; lv_style_copy(&arc, &def); arc.line.width = 10; arc.line.color = lv_color_hsv_to_rgb(_hue, 90, 90); /*For prelaoder*/ arc.body.border.width = 10; arc.body.border.color = lv_color_hsv_to_rgb(_hue, 30, 90); arc.body.padding.hor = 0; arc.body.padding.ver = 0; theme.arc = &arc; #endif } static void preload_init(void) { #if USE_LV_PRELOAD != 0 theme.preload = theme.arc; #endif } static void chart_init(void) { #if USE_LV_CHART theme.chart = theme.panel; #endif } static void calendar_init(void) { #if USE_LV_CALENDAR static lv_style_t ina_days; lv_style_copy(&ina_days, &def); ina_days.text.color = lv_color_hsv_to_rgb(_hue, 0, 70); static lv_style_t high_days; lv_style_copy(&high_days, &def); high_days.text.color = lv_color_hsv_to_rgb(_hue, 80, 90); static lv_style_t week_box; lv_style_copy(&week_box, &def); week_box.body.main_color = lv_color_hsv_to_rgb(_hue, 40, 100); week_box.body.grad_color = week_box.body.main_color; week_box.body.padding.ver = LV_DPI / 20; week_box.body.padding.hor = theme.panel->body.padding.hor; week_box.body.border.color = theme.panel->body.border.color; week_box.body.border.width = theme.panel->body.border.width; week_box.body.border.part = LV_BORDER_LEFT | LV_BORDER_RIGHT; week_box.body.radius = 0; static lv_style_t today_box; lv_style_copy(&today_box, &def); today_box.body.main_color = LV_COLOR_WHITE; today_box.body.grad_color = today_box.body.main_color; today_box.body.padding.ver = LV_DPI / 20; today_box.body.radius = 0; theme.calendar.bg = theme.panel; theme.calendar.header = &lv_style_transp; theme.calendar.inactive_days = &ina_days; theme.calendar.highlighted_days = &high_days; theme.calendar.week_box = &week_box; theme.calendar.today_box = &today_box; #endif } static void cb_init(void) { #if USE_LV_CB != 0 static lv_style_t rel, pr, tgl_rel, tgl_pr, ina; lv_style_copy(&rel, theme.panel); rel.body.shadow.type = LV_SHADOW_FULL; rel.body.shadow.width = 3; lv_style_copy(&pr, &rel); pr.body.main_color = LV_COLOR_HEX(0xCCCCCC); pr.body.grad_color = pr.body.main_color; pr.body.shadow.width = 3; lv_style_copy(&tgl_rel, &rel); tgl_rel.body.main_color = lv_color_hsv_to_rgb(_hue, 75, 85); tgl_rel.body.grad_color = tgl_rel.body.main_color; tgl_rel.body.shadow.width = 0; lv_style_copy(&tgl_pr, &tgl_rel); tgl_pr.body.main_color = lv_color_hsv_to_rgb(_hue, 75, 65); tgl_pr.body.grad_color = tgl_pr.body.main_color; lv_style_copy(&ina, theme.btn.ina); theme.cb.bg = &lv_style_transp; theme.cb.box.rel = &rel; theme.cb.box.pr = ≺ theme.cb.box.tgl_rel = &tgl_rel; theme.cb.box.tgl_pr = &tgl_pr; theme.cb.box.ina = &ina; #endif } static void btnm_init(void) { #if USE_LV_BTNM static lv_style_t bg, rel, pr, tgl_rel, tgl_pr, ina; lv_style_copy(&bg, theme.panel); bg.body.padding.hor = 0; bg.body.padding.ver = 0; bg.body.padding.inner = 0; bg.text.color = LV_COLOR_HEX(0x555555); lv_style_copy(&rel, theme.panel); rel.body.border.part = LV_BORDER_FULL | LV_BORDER_INTERNAL; rel.body.border.width = 1; rel.body.border.color = LV_COLOR_HEX(0xBBBBBB); rel.body.empty = 1; rel.body.shadow.width = 0; lv_style_copy(&pr, &rel); pr.glass = 0; pr.body.main_color = LV_COLOR_HEX(0xDDDDDD); pr.body.grad_color = pr.body.main_color; pr.body.border.width = 0; pr.body.empty = 0; lv_style_copy(&tgl_rel, &pr); tgl_rel.body.main_color = lv_color_hsv_to_rgb(_hue, 90, 70); tgl_rel.body.grad_color = tgl_rel.body.main_color; tgl_rel.text.color = lv_color_hsv_to_rgb(_hue, 5, 95); lv_style_copy(&tgl_pr, &tgl_rel); tgl_pr.body.main_color = lv_color_hsv_to_rgb(_hue, 95, 65); tgl_pr.body.grad_color = tgl_pr.body.main_color; tgl_pr.body.border.width = 0; lv_style_copy(&ina, theme.btn.ina); theme.btnm.bg = &bg; theme.btnm.btn.rel = &rel; theme.btnm.btn.pr = ≺ theme.btnm.btn.tgl_rel = &tgl_rel; theme.btnm.btn.tgl_pr = &tgl_pr; theme.btnm.btn.ina = &ina; #endif } static void kb_init(void) { #if USE_LV_KB static lv_style_t bg, rel; lv_style_copy(&bg, theme.btnm.bg); bg.text.color = LV_COLOR_HEX(0xCCCCCC); bg.body.border.width = 0; bg.body.radius = 0; bg.body.shadow.color = COLOR_SHADOW_DARK; bg.body.shadow.type = LV_SHADOW_BOTTOM; bg.body.shadow.width = 4; lv_style_copy(&rel, &lv_style_transp); rel.text.font = _font; theme.kb.bg = &bg; theme.kb.btn.rel = &rel; theme.kb.btn.pr = theme.btnm.btn.pr; theme.kb.btn.tgl_rel = theme.btnm.btn.tgl_rel; theme.kb.btn.tgl_pr = theme.btnm.btn.tgl_pr; theme.kb.btn.ina = theme.btnm.btn.ina; #endif } static void mbox_init(void) { #if USE_LV_MBOX static lv_style_t bg; lv_style_copy(&bg, theme.panel); bg.body.main_color = COLOR_BG_LIGHTER; bg.body.grad_color = bg.body.main_color; bg.body.shadow.color = COLOR_SHADOW; bg.body.shadow.type = LV_SHADOW_FULL; bg.body.shadow.width = 8; bg.body.padding.hor = LV_DPI * 3 / 6; bg.body.padding.ver = LV_DPI / 4; bg.body.padding.inner = LV_DPI / 3; theme.mbox.bg = &bg; theme.mbox.btn.bg = &lv_style_transp; theme.mbox.btn.rel = theme.btn.rel; theme.mbox.btn.pr = theme.btn.pr; #endif } static void page_init(void) { #if USE_LV_PAGE theme.page.bg = theme.panel; theme.page.scrl = &lv_style_transp; theme.page.sb = &sb; #endif } static void ta_init(void) { #if USE_LV_TA static lv_style_t panel, oneline; lv_style_copy(&panel, theme.panel); panel.body.border.width = 0; panel.body.shadow.color = COLOR_SHADOW_DARK; panel.body.shadow.type = LV_SHADOW_FULL; panel.body.shadow.width = 3; lv_style_copy(&oneline, &def); oneline.body.empty = 1; oneline.body.radius = 0; oneline.body.border.part = LV_BORDER_BOTTOM; oneline.body.border.width = 3; oneline.body.border.color = LV_COLOR_HEX(0x555555); oneline.body.border.opa = LV_OPA_COVER; oneline.text.color = LV_COLOR_HEX(0x888888); theme.ta.area = &panel; theme.ta.oneline = &oneline; theme.ta.cursor = NULL; // Let library to calculate the cursor's style. theme.ta.sb = &sb; #endif } static void spinbox_init(void) { #if USE_LV_SPINBOX theme.spinbox.bg= theme.panel; theme.spinbox.cursor = theme.ta.cursor; theme.spinbox.sb = theme.ta.sb; #endif } static void list_init(void) { #if USE_LV_LIST != 0 static lv_style_t list_bg, rel, pr, tgl_rel, tgl_pr, ina; lv_style_copy(&list_bg, theme.panel); list_bg.body.padding.hor = 0; list_bg.body.padding.ver = 0; list_bg.body.padding.inner = 0; list_bg.body.shadow.width = 0; lv_style_copy(&rel, &lv_style_transp); rel.body.padding.hor = LV_DPI / 8; rel.body.padding.ver = LV_DPI / 6; rel.body.radius = 0; rel.body.border.color = COLOR_INACTIVE; rel.body.border.width = 1; rel.body.border.part = LV_BORDER_BOTTOM; lv_style_copy(&pr, &rel); pr.glass = 0; pr.body.main_color = COLOR_PRESS; pr.body.grad_color = pr.body.main_color; //pr.body.border.width = 1; pr.body.empty = 0; //pr.body.radius = 0; // pr.text.font = _font; lv_style_copy(&tgl_rel, &pr); tgl_rel.body.main_color = COLOR_BG_LIGHT; tgl_rel.body.grad_color = tgl_rel.body.main_color; //tgl_rel.text.color = lv_color_hsv_to_rgb(_hue, 5, 95); tgl_rel.text.color = COLOR_HOS_TEAL_LIGHTER; lv_style_copy(&tgl_pr, &tgl_rel); tgl_pr.body.main_color = COLOR_PRESS; tgl_pr.body.grad_color = tgl_pr.body.main_color; tgl_pr.body.border.width = 0; lv_style_copy(&ina, &pr); ina.body.main_color = COLOR_BG_DARK; ina.body.grad_color = ina.body.main_color; theme.list.sb = &sb; theme.list.bg = &list_bg; theme.list.scrl = &lv_style_transp_tight; theme.list.btn.rel = &rel; theme.list.btn.pr = ≺ theme.list.btn.tgl_rel = &tgl_rel; theme.list.btn.tgl_pr = &tgl_pr; theme.list.btn.ina = &ina; #endif } static void ddlist_init(void) { #if USE_LV_DDLIST != 0 static lv_style_t bg, sel; lv_style_copy(&bg, theme.panel); bg.body.padding.hor = LV_DPI / 6; //bg.body.padding.ver = LV_DPI / 6; bg.body.radius = 0; bg.body.shadow.width = 0; bg.body.border.width = 0; bg.text.line_space = LV_DPI / 8; bg.text.color = COLOR_HOS_TURQUOISE; lv_style_copy(&sel, &bg); sel.body.main_color = COLOR_BG_LIGHT; sel.body.grad_color = sel.body.main_color; theme.ddlist.bg = &bg; theme.ddlist.bgo = &bg; theme.ddlist.pr = &sel; theme.ddlist.sel = &sel; theme.ddlist.sb = &sb; #endif } static void roller_init(void) { #if USE_LV_ROLLER != 0 static lv_style_t roller_bg, roller_sel; lv_style_copy(&roller_bg, &lv_style_transp); roller_bg.body.padding.hor = LV_DPI / 6; roller_bg.body.padding.ver = LV_DPI / 6; roller_bg.text.line_space = LV_DPI / 8; roller_bg.text.font = _font; roller_bg.glass = 0; roller_bg.text.color = COLOR_INACTIVE; lv_style_copy(&roller_sel, &roller_bg); roller_sel.text.color = COLOR_HOS_TURQUOISE; theme.roller.bg = &roller_bg; theme.roller.sel = &roller_sel; #endif } static void tabview_init(void) { #if USE_LV_TABVIEW != 0 static lv_style_t indic, btn_bg, rel, pr, tgl_rel, tgl_pr; lv_style_copy(&indic, &def); indic.body.main_color = COLOR_HOS_TURQUOISE; indic.body.grad_color = indic.body.main_color; indic.body.radius = 0; indic.body.border.width = 0; indic.body.padding.inner = LV_DPI / 20; indic.body.opa = LV_OPA_0; lv_style_copy(&btn_bg, &def); btn_bg.body.main_color = COLOR_BG; btn_bg.body.grad_color = btn_bg.body.main_color; btn_bg.body.radius = 0; btn_bg.body.empty = 1; btn_bg.body.border.width = 0; btn_bg.body.border.color = LV_COLOR_HEX(0xDDDDDD); btn_bg.body.border.part = LV_BORDER_BOTTOM; btn_bg.body.border.opa = LV_OPA_COVER; btn_bg.body.shadow.width = 0; btn_bg.body.shadow.color = COLOR_SHADOW_LIGHT; btn_bg.body.shadow.type = LV_SHADOW_BOTTOM; btn_bg.body.padding.inner = 0; btn_bg.body.padding.hor = 0; btn_bg.body.padding.ver = 0; btn_bg.text.color = COLOR_HOS_TXT_WHITE; lv_style_copy(&rel, &lv_style_transp); rel.body.padding.ver = LV_DPI * 4 / 23; rel.text.font = _font; lv_style_copy(&pr, &def); pr.body.main_color = COLOR_BG_LIGHT; pr.body.grad_color = pr.body.main_color; pr.body.border.width = 0; pr.body.empty = 0; pr.body.radius = 0; pr.body.border.color = LV_COLOR_HEX(0x888888); pr.body.border.part = LV_BORDER_BOTTOM; pr.body.border.opa = LV_OPA_COVER; pr.text.color = COLOR_HOS_TURQUOISE; lv_style_copy(&tgl_rel, &lv_style_transp); tgl_rel.glass = 0; tgl_rel.text.font = _font; tgl_rel.text.color = COLOR_HOS_TURQUOISE; lv_style_copy(&tgl_pr, &def); tgl_pr.body.main_color = COLOR_BG_LIGHT; tgl_pr.body.grad_color = tgl_pr.body.main_color; tgl_pr.body.border.width = 0; tgl_pr.body.empty = 0; tgl_pr.body.radius = 0; tgl_pr.text.color = COLOR_HOS_TURQUOISE; theme.tabview.bg = theme.bg; theme.tabview.indic = &indic; theme.tabview.btn.bg = &btn_bg; theme.tabview.btn.rel = &rel; theme.tabview.btn.pr = ≺ theme.tabview.btn.tgl_rel = &tgl_rel; theme.tabview.btn.tgl_pr = &tgl_pr; #endif } static void tileview_init(void) { #if USE_LV_TILEVIEW != 0 theme.tileview.bg = &lv_style_transp_tight; theme.tileview.scrl = &lv_style_transp_tight; theme.tileview.sb = theme.page.sb; #endif } static void table_init(void) { #if USE_LV_TABLE != 0 static lv_style_t cell; lv_style_copy(&cell, theme.panel); cell.body.radius = 0; cell.body.border.width = 1; cell.body.padding.hor = LV_DPI / 12; cell.body.padding.ver = LV_DPI / 12; theme.table.bg = &lv_style_transp_tight; theme.table.cell = &cell; #endif } static void win_init(void) { #if USE_LV_WIN != 0 static lv_style_t header, rel, pr; lv_style_copy(&header, &def); header.body.main_color = COLOR_BG; header.body.grad_color = header.body.main_color; header.body.radius = 0; header.body.border.width = 0; header.body.border.color = LV_COLOR_HEX(0xDDDDDD); header.body.border.part = LV_BORDER_BOTTOM; header.body.border.opa = LV_OPA_COVER; header.body.shadow.width = 0; header.body.shadow.color = COLOR_SHADOW_LIGHT; header.body.shadow.type = LV_SHADOW_BOTTOM; header.body.padding.inner = 0; header.body.padding.hor = 8; header.body.padding.ver = 0; //header.text.color = COLOR_HOS_TXT_WHITE; lv_style_copy(&rel, theme.btn.rel); rel.body.radius = 0; rel.body.opa = LV_OPA_0; rel.body.border.width = 0; lv_style_copy(&pr, theme.btn.pr); pr.body.radius = 0; pr.body.border.width = 0; theme.win.bg = theme.panel; theme.win.sb = &sb; theme.win.header = &header; theme.win.content.bg = &lv_style_transp; theme.win.content.scrl = &lv_style_transp; theme.win.btn.rel = &rel; theme.win.btn.pr = ≺ #endif } /********************** * GLOBAL FUNCTIONS **********************/ /** * Initialize the hekate theme * @param hue [0..360] hue value from HSV color space to define the theme's base color * @param font pointer to a font (NULL to use the default) * @return pointer to the initialized theme */ lv_theme_t * lv_theme_hekate_init(uint32_t bg_color, uint16_t hue, lv_font_t * font) { if(font == NULL) font = LV_FONT_DEFAULT; theme_bg_color = bg_color; _hue = hue; _font = font; /*For backward compatibility initialize all theme elements with a default style */ uint16_t i; lv_style_t ** style_p = (lv_style_t **) &theme; for(i = 0; i < sizeof(lv_theme_t) / sizeof(lv_style_t *); i++) { *style_p = &def; style_p++; } basic_init(); cont_init(); btn_init(); label_init(); line_init(); led_init(); bar_init(); slider_init(); sw_init(); lmeter_init(); gauge_init(); chart_init(); arc_init(); preload_init(); calendar_init(); cb_init(); btnm_init(); kb_init(); mbox_init(); page_init(); ta_init(); spinbox_init(); list_init(); ddlist_init(); roller_init(); tabview_init(); tileview_init(); table_init(); win_init(); return &theme; } /** * Get a pointer to the theme * @return pointer to the theme */ lv_theme_t * lv_theme_get_hekate(void) { return &theme; } /********************** * STATIC FUNCTIONS **********************/ #endif ================================================ FILE: bdk/libs/lvgl/lv_themes/lv_theme_hekate.h ================================================ /* * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef LV_THEME_HEKATE_H #define LV_THEME_HEKATE_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #ifdef LV_CONF_INCLUDE_SIMPLE #include "lv_conf.h" #else #include "../../lv_conf.h" #endif #if USE_LV_THEME_HEKATE /********************* * DEFINES *********************/ #define COLOR_BG_BASE_MIN 0x0B0B0B #define COLOR_BG_BASE_MAX 0xC7C7C7 #define COLOR_HOS_BG_DARKER LV_COLOR_HEX(0x1B1B1B) #define COLOR_HOS_BG_DARK LV_COLOR_HEX(0x222222) #define COLOR_HOS_BG LV_COLOR_HEX(0x2D2D2D) #define COLOR_HOS_BG_RGB 0x2D2D2D #define COLOR_HOS_BG_LIGHT LV_COLOR_HEX(0x3D3D3D) #define COLOR_HOS_BG_LIGHTER LV_COLOR_HEX(0x4D4D4D) #define COLOR_HOS_TURQUOISE_EX(hue) (hue ? lv_color_hsv_to_rgb(hue, 100, 100) : lv_color_hsv_to_rgb(53, 8, 90)) // 0x00FFC9 /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ extern uint32_t theme_bg_color; /** * Initialize the material theme * @param hue [0..360] hue value from HSV color space to define the theme's base color * @param font pointer to a font (NULL to use the default) * @return pointer to the initialized theme */ lv_theme_t * lv_theme_hekate_init(uint32_t bg_color, uint16_t hue, lv_font_t *font); /** * Get a pointer to the theme * @return pointer to the theme */ lv_theme_t * lv_theme_get_hekate(void); /********************** * MACROS **********************/ #endif #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_THEME_MATERIAL_H*/ ================================================ FILE: bdk/libs/lvgl/lv_themes/lv_themes.mk ================================================ CSRCS += lv_theme.c CSRCS += lv_theme_default.c CSRCS += lv_theme_templ.c CSRCS += lv_theme_material.c DEPPATH += --dep-path $(LVGL_DIR)/lvgl/lv_themes VPATH += :$(LVGL_DIR)/lvgl/lv_themes CFLAGS += "-I$(LVGL_DIR)/lvgl/lv_themes" ================================================ FILE: bdk/libs/lvgl/lv_version.h ================================================ /** * @file lv_version.h * */ #ifndef LV_VERSION_H #define LV_VERSION_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ /*Current version of LittlevGL*/ #define LVGL_VERSION_MAJOR 5 #define LVGL_VERSION_MINOR 3 #define LVGL_VERSION_PATCH 0 #define LVGL_VERSION_INFO "hekate" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /********************** * MACROS **********************/ /* Gives 1 if the x.y.z version is supported in the current version * Usage: * * - Require v6 * #if LV_VERSION_CHECK(6,0,0) * new_func_in_v6(); * #endif * * * - Require at least v5.3 * #if LV_VERSION_CHECK(5,3,0) * new_feature_from_v5_3(); * #endif * * * - Require v5.3.2 bugfixes * #if LV_VERSION_CHECK(5,3,2) * bugfix_in_v5_3_2(); * #endif * * */ #define LV_VERSION_CHECK(x,y,z) (x == LVGL_VERSION_MAJOR && (y < LVGL_VERSION_MINOR || (y == LVGL_VERSION_MINOR && z <= LVGL_VERSION_PATCH))) #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_VERSION_H*/ ================================================ FILE: bdk/libs/lvgl/lvgl.h ================================================ /** * @file lvgl.h * Include all LittleV GL related headers */ #ifndef LVGL_H #define LVGL_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "lv_version.h" #include "lv_misc/lv_log.h" #include "lv_misc/lv_task.h" #include "lv_hal/lv_hal.h" #include "lv_core/lv_obj.h" #include "lv_core/lv_group.h" #include "lv_core/lv_lang.h" #include "lv_core/lv_vdb.h" #include "lv_core/lv_refr.h" #include "lv_themes/lv_theme.h" #include "lv_objx/lv_btn.h" #include "lv_objx/lv_imgbtn.h" #include "lv_objx/lv_img.h" #include "lv_objx/lv_label.h" #include "lv_objx/lv_line.h" #include "lv_objx/lv_page.h" #include "lv_objx/lv_cont.h" #include "lv_objx/lv_list.h" #include "lv_objx/lv_chart.h" #include "lv_objx/lv_table.h" #include "lv_objx/lv_cb.h" #include "lv_objx/lv_bar.h" #include "lv_objx/lv_slider.h" #include "lv_objx/lv_led.h" #include "lv_objx/lv_btnm.h" #include "lv_objx/lv_kb.h" #include "lv_objx/lv_ddlist.h" #include "lv_objx/lv_roller.h" #include "lv_objx/lv_ta.h" #include "lv_objx/lv_canvas.h" #include "lv_objx/lv_win.h" #include "lv_objx/lv_tabview.h" #include "lv_objx/lv_tileview.h" #include "lv_objx/lv_mbox.h" #include "lv_objx/lv_gauge.h" #include "lv_objx/lv_lmeter.h" #include "lv_objx/lv_sw.h" #include "lv_objx/lv_kb.h" #include "lv_objx/lv_arc.h" #include "lv_objx/lv_preload.h" #include "lv_objx/lv_calendar.h" #include "lv_objx/lv_spinbox.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * GLOBAL PROTOTYPES **********************/ /********************** * MACROS **********************/ #ifdef __cplusplus } #endif #endif /*LVGL_H*/ ================================================ FILE: bdk/libs/lvgl/lvgl.mk ================================================ include $(LVGL_DIR)/lvgl/lv_core/lv_core.mk include $(LVGL_DIR)/lvgl/lv_hal/lv_hal.mk include $(LVGL_DIR)/lvgl/lv_objx/lv_objx.mk include $(LVGL_DIR)/lvgl/lv_fonts/lv_fonts.mk include $(LVGL_DIR)/lvgl/lv_misc/lv_misc.mk include $(LVGL_DIR)/lvgl/lv_themes/lv_themes.mk include $(LVGL_DIR)/lvgl/lv_draw/lv_draw.mk ================================================ FILE: bdk/mem/emc_t210.h ================================================ /* * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _EMC_T210_H_ #define _EMC_T210_H_ /* External Memory Controller registers */ #define EMC_INTSTATUS 0x0 #define EMC_INTMASK 0x4 #define EMC_DBG 0x8 #define EMC_CFG 0xC #define EMC_ADR_CFG 0x10 #define EMC_REFCTRL 0x20 #define EMC_PIN 0x24 #define EMC_TIMING_CONTROL 0x28 #define EMC_RC 0x2C #define EMC_RFC 0x30 #define EMC_RAS 0x34 #define EMC_RP 0x38 #define EMC_R2W 0x3C #define EMC_W2R 0x40 #define EMC_R2P 0x44 #define EMC_W2P 0x48 #define EMC_RD_RCD 0x4C #define EMC_WR_RCD 0x50 #define EMC_RRD 0x54 #define EMC_REXT 0x58 #define EMC_WDV 0x5C #define EMC_QUSE 0x60 #define EMC_QRST 0x64 #define EMC_QSAFE 0x68 #define EMC_RDV 0x6C #define EMC_REFRESH 0x70 #define EMC_BURST_REFRESH_NUM 0x74 #define EMC_PDEX2WR 0x78 #define EMC_PDEX2RD 0x7C #define EMC_PCHG2PDEN 0x80 #define EMC_ACT2PDEN 0x84 #define EMC_AR2PDEN 0x88 #define EMC_RW2PDEN 0x8C #define EMC_TXSR 0x90 #define EMC_TCKE 0x94 #define EMC_TFAW 0x98 #define EMC_TRPAB 0x9C #define EMC_TCLKSTABLE 0xA0 #define EMC_TCLKSTOP 0xA4 #define EMC_TREFBW 0xA8 #define EMC_TPPD 0xAC #define EMC_ODT_WRITE 0xB0 #define EMC_PDEX2MRR 0xB4 #define EMC_WEXT 0xB8 #define EMC_RFC_SLR 0xC0 #define EMC_MRS_WAIT_CNT2 0xC4 #define EMC_MRS_WAIT_CNT 0xC8 #define EMC_MRS 0xCC #define EMC_EMRS 0xD0 #define EMC_REF 0xD4 #define EMC_PRE 0xD8 #define EMC_NOP 0xDC #define EMC_SELF_REF 0xE0 #define EMC_DPD 0xE4 #define EMC_MRW 0xE8 #define EMC_MRR 0xEC #define EMC_CMDQ 0xF0 #define EMC_MC2EMCQ 0xF4 #define EMC_FBIO_SPARE 0x100 #define EMC_FBIO_CFG5 0x104 #define EMC_PDEX2CKE 0x118 #define EMC_CKE2PDEN 0x11C #define EMC_CFG_RSV 0x120 #define EMC_ACPD_CONTROL 0x124 #define EMC_MPC 0x128 #define EMC_EMRS2 0x12C #define EMC_EMRS3 0x130 #define EMC_MRW2 0x134 #define EMC_MRW3 0x138 #define EMC_MRW4 0x13C #define EMC_CLKEN_OVERRIDE 0x140 #define EMC_R2R 0x144 #define EMC_W2W 0x148 #define EMC_EINPUT 0x14C #define EMC_EINPUT_DURATION 0x150 #define EMC_PUTERM_EXTRA 0x154 #define EMC_TCKESR 0x158 #define EMC_TPD 0x15C #define EMC_STAT_CONTROL 0x160 #define EMC_STAT_STATUS 0x164 #define EMC_STAT_DRAM_CLOCK_LIMIT_LO 0x19C #define EMC_STAT_DRAM_CLOCK_LIMIT_HI 0x1A0 #define EMC_STAT_DRAM_CLOCKS_LO 0x1A4 #define EMC_STAT_DRAM_CLOCKS_HI 0x1A8 #define EMC_STAT_DRAM_DEV0_ACTIVATE_CNT_LO 0x1AC #define EMC_STAT_DRAM_DEV0_ACTIVATE_CNT_HI 0x1B0 #define EMC_STAT_DRAM_DEV0_READ_CNT_LO 0x1B4 #define EMC_STAT_DRAM_DEV0_READ_CNT_HI 0x1B8 #define EMC_STAT_DRAM_DEV0_READ8_CNT_LO 0x1BC #define EMC_STAT_DRAM_DEV0_READ8_CNT_HI 0x1C0 #define EMC_STAT_DRAM_DEV0_WRITE_CNT_LO 0x1C4 #define EMC_STAT_DRAM_DEV0_WRITE_CNT_HI 0x1C8 #define EMC_STAT_DRAM_DEV0_WRITE8_CNT_LO 0x1CC #define EMC_STAT_DRAM_DEV0_WRITE8_CNT_HI 0x1D0 #define EMC_STAT_DRAM_DEV0_REF_CNT_LO 0x1D4 #define EMC_STAT_DRAM_DEV0_REF_CNT_HI 0x1D8 #define EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO 0x1DC #define EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI 0x1E0 #define EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO 0x1E4 #define EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI 0x1E8 #define EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO 0x1EC #define EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI 0x1F0 #define EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO 0x1F4 #define EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI 0x1F8 #define EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO 0x1FC #define EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI 0x200 #define EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO 0x204 #define EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI 0x208 #define EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO 0x20C #define EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI 0x210 #define EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO 0x214 #define EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI 0x218 #define EMC_STAT_DRAM_DEV0_SR_CKE_EQ0_CLKS_LO 0x21C #define EMC_STAT_DRAM_DEV0_SR_CKE_EQ0_CLKS_HI 0x220 #define EMC_STAT_DRAM_DEV0_DSR 0x224 #define EMC_STAT_DRAM_DEV1_ACTIVATE_CNT_LO 0x228 #define EMC_STAT_DRAM_DEV1_ACTIVATE_CNT_HI 0x22C #define EMC_STAT_DRAM_DEV1_READ_CNT_LO 0x230 #define EMC_STAT_DRAM_DEV1_READ_CNT_HI 0x234 #define EMC_STAT_DRAM_DEV1_READ8_CNT_LO 0x238 #define EMC_STAT_DRAM_DEV1_READ8_CNT_HI 0x23C #define EMC_STAT_DRAM_DEV1_WRITE_CNT_LO 0x240 #define EMC_STAT_DRAM_DEV1_WRITE_CNT_HI 0x244 #define EMC_STAT_DRAM_DEV1_WRITE8_CNT_LO 0x248 #define EMC_STAT_DRAM_DEV1_WRITE8_CNT_HI 0x24C #define EMC_STAT_DRAM_DEV1_REF_CNT_LO 0x250 #define EMC_STAT_DRAM_DEV1_REF_CNT_HI 0x254 #define EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO 0x258 #define EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI 0x25C #define EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO 0x260 #define EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI 0x264 #define EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO 0x268 #define EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI 0x26C #define EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO 0x270 #define EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI 0x274 #define EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO 0x278 #define EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI 0x27C #define EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO 0x280 #define EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI 0x284 #define EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO 0x288 #define EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI 0x28C #define EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO 0x290 #define EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI 0x294 #define EMC_STAT_DRAM_DEV1_SR_CKE_EQ0_CLKS_LO 0x298 #define EMC_STAT_DRAM_DEV1_SR_CKE_EQ0_CLKS_HI 0x29C #define EMC_STAT_DRAM_DEV1_DSR 0x2A0 #define EMC_AUTO_CAL_CONFIG 0x2A4 #define EMC_AUTO_CAL_INTERVAL 0x2A8 #define EMC_AUTO_CAL_STATUS 0x2AC #define EMC_REQ_CTRL 0x2B0 #define EMC_EMC_STATUS 0x2B4 #define EMC_STATUS_MRR_DIVLD BIT(20) #define EMC_CFG_2 0x2B8 #define EMC_CFG_DIG_DLL 0x2BC #define EMC_CFG_DIG_DLL_PERIOD 0x2C0 #define EMC_DIG_DLL_STATUS 0x2C4 #define EMC_CFG_DIG_DLL_1 0x2C8 #define EMC_RDV_MASK 0x2CC #define EMC_WDV_MASK 0x2D0 #define EMC_RDV_EARLY_MASK 0x2D4 #define EMC_RDV_EARLY 0x2D8 #define EMC_AUTO_CAL_CONFIG8 0x2DC #define EMC_ZCAL_INTERVAL 0x2E0 #define EMC_ZCAL_WAIT_CNT 0x2E4 #define EMC_ZCAL_MRW_CMD 0x2E8 #define EMC_ZQ_CAL 0x2EC #define EMC_XM2COMPPADCTRL3 0x2F4 #define EMC_AUTO_CAL_VREF_SEL_0 0x2F8 #define EMC_AUTO_CAL_VREF_SEL_1 0x300 #define EMC_XM2COMPPADCTRL 0x30C #define EMC_FDPD_CTRL_DQ 0x310 #define EMC_FDPD_CTRL_CMD 0x314 #define EMC_PMACRO_CMD_BRICK_CTRL_FDPD 0x318 #define EMC_PMACRO_DATA_BRICK_CTRL_FDPD 0x31C #define EMC_SCRATCH0 0x324 #define EMC_PMACRO_BRICK_CTRL_RFU1 0x330 #define EMC_PMACRO_BRICK_CTRL_RFU2 0x334 #define EMC_CMD_MAPPING_CMD0_0 0x380 #define EMC_CMD_MAPPING_CMD0_1 0x384 #define EMC_CMD_MAPPING_CMD0_2 0x388 #define EMC_CMD_MAPPING_CMD1_0 0x38C #define EMC_CMD_MAPPING_CMD1_1 0x390 #define EMC_CMD_MAPPING_CMD1_2 0x394 #define EMC_CMD_MAPPING_CMD2_0 0x398 #define EMC_CMD_MAPPING_CMD2_1 0x39C #define EMC_CMD_MAPPING_CMD2_2 0x3A0 #define EMC_CMD_MAPPING_CMD3_0 0x3A4 #define EMC_CMD_MAPPING_CMD3_1 0x3A8 #define EMC_CMD_MAPPING_CMD3_2 0x3AC #define EMC_CMD_MAPPING_BYTE 0x3B0 #define EMC_TR_TIMING_0 0x3B4 #define EMC_TR_CTRL_0 0x3B8 #define EMC_TR_CTRL_1 0x3BC #define EMC_SWITCH_BACK_CTRL 0x3C0 #define EMC_TR_RDV 0x3C4 #define EMC_STALL_THEN_EXE_BEFORE_CLKCHANGE 0x3C8 #define EMC_STALL_THEN_EXE_AFTER_CLKCHANGE 0x3CC #define EMC_UNSTALL_RW_AFTER_CLKCHANGE 0x3D0 #define EMC_AUTO_CAL_STATUS2 0x3D4 #define EMC_SEL_DPD_CTRL 0x3D8 #define EMC_PRE_REFRESH_REQ_CNT 0x3DC #define EMC_DYN_SELF_REF_CONTROL 0x3E0 #define EMC_TXSRDLL 0x3E4 #define EMC_CCFIFO_ADDR 0x3E8 #define EMC_CCFIFO_DATA 0x3EC #define EMC_CCFIFO_STATUS 0x3F0 #define EMC_TR_QPOP 0x3F4 #define EMC_TR_RDV_MASK 0x3F8 #define EMC_TR_QSAFE 0x3FC #define EMC_TR_QRST 0x400 #define EMC_SWIZZLE_RANK0_BYTE0 0x404 #define EMC_SWIZZLE_RANK0_BYTE1 0x408 #define EMC_SWIZZLE_RANK0_BYTE2 0x40C #define EMC_SWIZZLE_RANK0_BYTE3 0x410 #define EMC_SWIZZLE_RANK1_BYTE0 0x418 #define EMC_SWIZZLE_RANK1_BYTE1 0x41C #define EMC_SWIZZLE_RANK1_BYTE2 0x420 #define EMC_SWIZZLE_RANK1_BYTE3 0x424 #define EMC_ISSUE_QRST 0x428 #define EMC_PMC_SCRATCH1 0x440 #define EMC_PMC_SCRATCH2 0x444 #define EMC_PMC_SCRATCH3 0x448 #define EMC_AUTO_CAL_CONFIG2 0x458 #define EMC_AUTO_CAL_CONFIG3 0x45C #define EMC_TR_DVFS 0x460 #define EMC_AUTO_CAL_CHANNEL 0x464 #define EMC_IBDLY 0x468 #define EMC_OBDLY 0x46C #define EMC_TXDSRVTTGEN 0x480 #define EMC_WE_DURATION 0x48C #define EMC_WS_DURATION 0x490 #define EMC_WEV 0x494 #define EMC_WSV 0x498 #define EMC_CFG_3 0x49C #define EMC_MRW5 0x4A0 #define EMC_MRW6 0x4A4 #define EMC_MRW7 0x4A8 #define EMC_MRW8 0x4AC #define EMC_MRW9 0x4B0 #define EMC_MRW10 0x4B4 #define EMC_MRW11 0x4B8 #define EMC_MRW12 0x4BC #define EMC_MRW13 0x4C0 #define EMC_MRW14 0x4C4 #define EMC_MRW15 0x4D0 #define EMC_CFG_SYNC 0x4D4 #define EMC_FDPD_CTRL_CMD_NO_RAMP 0x4D8 #define EMC_WDV_CHK 0x4E0 #define EMC_CFG_PIPE_2 0x554 #define EMC_CFG_PIPE_CLK 0x558 #define EMC_CFG_PIPE_1 0x55C #define EMC_CFG_PIPE 0x560 #define EMC_QPOP 0x564 #define EMC_QUSE_WIDTH 0x568 #define EMC_PUTERM_WIDTH 0x56C #define EMC_AUTO_CAL_CONFIG7 0x574 #define EMC_XM2COMPPADCTRL2 0x578 #define EMC_COMP_PAD_SW_CTRL 0x57C #define EMC_REFCTRL2 0x580 #define EMC_FBIO_CFG7 0x584 #define EMC_DATA_BRLSHFT_0 0x588 #define EMC_DATA_BRLSHFT_1 0x58C #define EMC_RFCPB 0x590 #define EMC_DQS_BRLSHFT_0 0x594 #define EMC_DQS_BRLSHFT_1 0x598 #define EMC_CMD_BRLSHFT_0 0x59C #define EMC_CMD_BRLSHFT_1 0x5A0 #define EMC_CMD_BRLSHFT_2 0x5A4 #define EMC_CMD_BRLSHFT_3 0x5A8 #define EMC_QUSE_BRLSHFT_0 0x5AC #define EMC_AUTO_CAL_CONFIG4 0x5B0 #define EMC_AUTO_CAL_CONFIG5 0x5B4 #define EMC_QUSE_BRLSHFT_1 0x5B8 #define EMC_QUSE_BRLSHFT_2 0x5BC #define EMC_CCDMW 0x5C0 #define EMC_QUSE_BRLSHFT_3 0x5C4 #define EMC_FBIO_CFG8 0x5C8 #define EMC_AUTO_CAL_CONFIG6 0x5CC #define EMC_PROTOBIST_CONFIG_ADR_1 0x5D0 #define EMC_PROTOBIST_CONFIG_ADR_2 0x5D4 #define EMC_PROTOBIST_MISC 0x5D8 #define EMC_PROTOBIST_WDATA_LOWER 0x5DC #define EMC_PROTOBIST_WDATA_UPPER 0x5E0 #define EMC_DLL_CFG_0 0x5E4 #define EMC_DLL_CFG_1 0x5E8 #define EMC_PROTOBIST_RDATA 0x5EC #define EMC_CONFIG_SAMPLE_DELAY 0x5F0 #define EMC_CFG_UPDATE 0x5F4 #define EMC_PMACRO_QUSE_DDLL_RANK0_0 0x600 #define EMC_PMACRO_QUSE_DDLL_RANK0_1 0x604 #define EMC_PMACRO_QUSE_DDLL_RANK0_2 0x608 #define EMC_PMACRO_QUSE_DDLL_RANK0_3 0x60C #define EMC_PMACRO_QUSE_DDLL_RANK0_4 0x610 #define EMC_PMACRO_QUSE_DDLL_RANK0_5 0x614 #define EMC_PMACRO_QUSE_DDLL_RANK1_0 0x620 #define EMC_PMACRO_QUSE_DDLL_RANK1_1 0x624 #define EMC_PMACRO_QUSE_DDLL_RANK1_2 0x628 #define EMC_PMACRO_QUSE_DDLL_RANK1_3 0x62C #define EMC_PMACRO_QUSE_DDLL_RANK1_4 0x630 #define EMC_PMACRO_QUSE_DDLL_RANK1_5 0x634 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0 0x640 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1 0x644 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2 0x648 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3 0x64C #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_4 0x650 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_5 0x654 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0 0x660 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1 0x664 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2 0x668 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3 0x66C #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_4 0x670 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_5 0x674 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_0 0x680 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_1 0x684 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_2 0x688 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_3 0x68C #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_4 0x690 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_5 0x694 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_0 0x6A0 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_1 0x6A4 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_2 0x6A8 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_3 0x6AC #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_4 0x6B0 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_5 0x6B4 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_0 0x6C0 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_1 0x6C4 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_2 0x6C8 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_3 0x6CC #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_4 0x6D0 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_5 0x6D4 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_0 0x6E0 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_1 0x6E4 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_2 0x6E8 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_3 0x6EC #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_4 0x6F0 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_5 0x6F4 #define EMC_PMACRO_AUTOCAL_CFG_0 0x700 #define EMC_PMACRO_AUTOCAL_CFG_1 0x704 #define EMC_PMACRO_AUTOCAL_CFG_2 0x708 #define EMC_PMACRO_TX_PWRD_0 0x720 #define EMC_PMACRO_TX_PWRD_1 0x724 #define EMC_PMACRO_TX_PWRD_2 0x728 #define EMC_PMACRO_TX_PWRD_3 0x72C #define EMC_PMACRO_TX_PWRD_4 0x730 #define EMC_PMACRO_TX_PWRD_5 0x734 #define EMC_PMACRO_TX_SEL_CLK_SRC_0 0x740 #define EMC_PMACRO_TX_SEL_CLK_SRC_1 0x744 #define EMC_PMACRO_TX_SEL_CLK_SRC_2 0x748 #define EMC_PMACRO_TX_SEL_CLK_SRC_3 0x74C #define EMC_PMACRO_TX_SEL_CLK_SRC_4 0x750 #define EMC_PMACRO_TX_SEL_CLK_SRC_5 0x754 #define EMC_PMACRO_DDLL_BYPASS 0x760 #define EMC_PMACRO_DDLL_PWRD_0 0x770 #define EMC_PMACRO_DDLL_PWRD_1 0x774 #define EMC_PMACRO_DDLL_PWRD_2 0x778 #define EMC_PMACRO_CMD_CTRL_0 0x780 #define EMC_PMACRO_CMD_CTRL_1 0x784 #define EMC_PMACRO_CMD_CTRL_2 0x788 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_0 0x800 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_1 0x804 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_2 0x808 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_3 0x80C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_0 0x810 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_1 0x814 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_2 0x818 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_3 0x81C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_0 0x820 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_1 0x824 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_2 0x828 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_3 0x82C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_0 0x830 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_1 0x834 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_2 0x838 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_3 0x83C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_0 0x840 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_1 0x844 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_2 0x848 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_3 0x84C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_0 0x850 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_1 0x854 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_2 0x858 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_3 0x85C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_0 0x860 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_1 0x864 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_2 0x868 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_3 0x86C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_0 0x870 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_1 0x874 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_2 0x878 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_3 0x87C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_0 0x880 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_1 0x884 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_2 0x888 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_3 0x88C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_0 0x890 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_1 0x894 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_2 0x898 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_3 0x89C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_0 0x8A0 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_1 0x8A4 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_2 0x8A8 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_3 0x8AC #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_0 0x8B0 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_1 0x8B4 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_2 0x8B8 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_3 0x8BC #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_0 0x900 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_1 0x904 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_2 0x908 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_3 0x90C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_0 0x910 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_1 0x914 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_2 0x918 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_3 0x91C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_0 0x920 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_1 0x924 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_2 0x928 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_3 0x92C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_0 0x930 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_1 0x934 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_2 0x938 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_3 0x93C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_0 0x940 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_1 0x944 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_2 0x948 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_3 0x94C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_0 0x950 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_1 0x954 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_2 0x958 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_3 0x95C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_0 0x960 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_1 0x964 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_2 0x968 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_3 0x96C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_0 0x970 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_1 0x974 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_2 0x978 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_3 0x97C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_0 0x980 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_1 0x984 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_2 0x988 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_3 0x98C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_0 0x990 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_1 0x994 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_2 0x998 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_3 0x99C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_0 0x9A0 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_1 0x9A4 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_2 0x9A8 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_3 0x9AC #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_0 0x9B0 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_1 0x9B4 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_2 0x9B8 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_3 0x9BC #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_0 0xA00 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_1 0xA04 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_2 0xA08 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_0 0xA10 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_1 0xA14 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_2 0xA18 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_0 0xA20 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_1 0xA24 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_2 0xA28 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_0 0xA30 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_1 0xA34 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_2 0xA38 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_0 0xA40 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_1 0xA44 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_2 0xA48 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_0 0xA50 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_1 0xA54 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_2 0xA58 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_0 0xA60 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_1 0xA64 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_2 0xA68 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_0 0xA70 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_1 0xA74 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_2 0xA78 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD0_0 0xA80 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD0_1 0xA84 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD0_2 0xA88 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD1_0 0xA90 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD1_1 0xA94 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD1_2 0xA98 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD2_0 0xAA0 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD2_1 0xAA4 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD2_2 0xAA8 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD3_0 0xAB0 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD3_1 0xAB4 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD3_2 0xAB8 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_0 0xB00 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_1 0xB04 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_2 0xB08 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_0 0xB10 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_1 0xB14 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_2 0xB18 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_0 0xB20 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_1 0xB24 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_2 0xB28 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_0 0xB30 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_1 0xB34 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_2 0xB38 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_0 0xB40 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_1 0xB44 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_2 0xB48 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_0 0xB50 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_1 0xB54 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_2 0xB58 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_0 0xB60 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_1 0xB64 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_2 0xB68 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_0 0xB70 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_1 0xB74 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_2 0xB78 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD0_0 0xB80 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD0_1 0xB84 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD0_2 0xB88 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD1_0 0xB90 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD1_1 0xB94 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD1_2 0xB98 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD2_0 0xBA0 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD2_1 0xBA4 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD2_2 0xBA8 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD3_0 0xBB0 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD3_1 0xBB4 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD3_2 0xBB8 #define EMC_PMACRO_IB_VREF_DQ_0 0xBE0 #define EMC_PMACRO_IB_VREF_DQ_1 0xBE4 #define EMC_PMACRO_IB_VREF_DQ_2 0xBE8 #define EMC_PMACRO_IB_VREF_DQS_0 0xBF0 #define EMC_PMACRO_IB_VREF_DQS_1 0xBF4 #define EMC_PMACRO_IB_VREF_DQS_2 0xBF8 #define EMC_PMACRO_DDLL_LONG_CMD_0 0xC00 #define EMC_PMACRO_DDLL_LONG_CMD_1 0xC04 #define EMC_PMACRO_DDLL_LONG_CMD_2 0xC08 #define EMC_PMACRO_DDLL_LONG_CMD_3 0xC0C #define EMC_PMACRO_DDLL_LONG_CMD_4 0xC10 #define EMC_PMACRO_DDLL_LONG_CMD_5 0xC14 #define EMC_PMACRO_DDLL_SHORT_CMD_0 0xC20 #define EMC_PMACRO_DDLL_SHORT_CMD_1 0xC24 #define EMC_PMACRO_DDLL_SHORT_CMD_2 0xC28 #define EMC_PMACRO_CFG_PM_GLOBAL_0 0xC30 #define EMC_PMACRO_VTTGEN_CTRL_0 0xC34 #define EMC_PMACRO_VTTGEN_CTRL_1 0xC38 #define EMC_PMACRO_BG_BIAS_CTRL_0 0xC3C #define EMC_PMACRO_PAD_CFG_CTRL 0xC40 #define EMC_PMACRO_ZCTRL 0xC44 #define EMC_PMACRO_RX_TERM 0xC48 #define EMC_PMACRO_CMD_TX_DRV 0xC4C #define EMC_PMACRO_CMD_PAD_RX_CTRL 0xC50 #define EMC_PMACRO_DATA_PAD_RX_CTRL 0xC54 #define EMC_PMACRO_CMD_RX_TERM_MODE 0xC58 #define EMC_PMACRO_DATA_RX_TERM_MODE 0xC5C #define EMC_PMACRO_CMD_PAD_TX_CTRL 0xC60 #define EMC_PMACRO_DATA_PAD_TX_CTRL 0xC64 #define EMC_PMACRO_COMMON_PAD_TX_CTRL 0xC68 // Only in T210. #define EMC_PMACRO_DQ_TX_DRV 0xC70 #define EMC_PMACRO_CA_TX_DRV 0xC74 #define EMC_PMACRO_AUTOCAL_CFG_COMMON 0xC78 #define EMC_PMACRO_BRICK_MAPPING_0 0xC80 #define EMC_PMACRO_BRICK_MAPPING_1 0xC84 #define EMC_PMACRO_BRICK_MAPPING_2 0xC88 #define EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO 0xC8C #define EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI 0xC90 #define EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO 0xC94 #define EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI 0xC98 #define EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO 0xC9C #define EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI 0xCA0 #define EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO 0xCA4 #define EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI 0xCA8 #define EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO 0xCAC #define EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI 0xCB0 #define EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO 0xCB4 #define EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI 0xCB8 #define EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO 0xCBC #define EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI 0xCC0 #define EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO 0xCC4 #define EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI 0xCC8 #define EMC_STAT_DRAM_IO_SR_CKE_EQ0_CLKS_LO 0xCCC #define EMC_STAT_DRAM_IO_SR_CKE_EQ0_CLKS_HI 0xCD0 #define EMC_STAT_DRAM_IO_DSR 0xCD4 #define EMC_PMACRO_DDLLCAL_CAL 0xCE0 // Only in T210. #define EMC_PMACRO_DDLL_OFFSET 0xCE4 #define EMC_PMACRO_DDLL_PERIODIC_OFFSET 0xCE8 #define EMC_PMACRO_VTTGEN_CTRL_2 0xCF0 #define EMC_PMACRO_IB_RXRT 0xCF4 #define EMC_PMACRO_TRAINING_CTRL_0 0xCF8 #define EMC_PMACRO_TRAINING_CTRL_1 0xCFC #define EMC_TRAINING_CMD 0xE00 #define EMC_TRAINING_CTRL 0xE04 #define EMC_TRAINING_STATUS 0xE08 #define EMC_TRAINING_QUSE_CORS_CTRL 0xE0C #define EMC_TRAINING_QUSE_FINE_CTRL 0xE10 #define EMC_TRAINING_QUSE_CTRL_MISC 0xE14 #define EMC_TRAINING_WRITE_FINE_CTRL 0xE18 #define EMC_TRAINING_WRITE_CTRL_MISC 0xE1C #define EMC_TRAINING_WRITE_VREF_CTRL 0xE20 #define EMC_TRAINING_READ_FINE_CTRL 0xE24 #define EMC_TRAINING_READ_CTRL_MISC 0xE28 #define EMC_TRAINING_READ_VREF_CTRL 0xE2C #define EMC_TRAINING_CA_FINE_CTRL 0xE30 #define EMC_TRAINING_CA_CTRL_MISC 0xE34 #define EMC_TRAINING_CA_CTRL_MISC1 0xE38 #define EMC_TRAINING_CA_VREF_CTRL 0xE3C #define EMC_TRAINING_CA_TADR_CTRL 0xE40 #define EMC_TRAINING_SETTLE 0xE44 #define EMC_TRAINING_DEBUG_CTRL 0xE48 #define EMC_TRAINING_DEBUG_DQ0 0xE4C #define EMC_TRAINING_DEBUG_DQ1 0xE50 #define EMC_TRAINING_DEBUG_DQ2 0xE54 #define EMC_TRAINING_DEBUG_DQ3 0xE58 #define EMC_TRAINING_MPC 0xE5C #define EMC_TRAINING_PATRAM_CTRL 0xE60 #define EMC_TRAINING_PATRAM_DQ 0xE64 #define EMC_TRAINING_PATRAM_DMI 0xE68 #define EMC_TRAINING_VREF_SETTLE 0xE6C #define EMC_TRAINING_RW_EYE_CENTER_IB_BYTE0 0xE70 #define EMC_TRAINING_RW_EYE_CENTER_IB_BYTE1 0xE74 #define EMC_TRAINING_RW_EYE_CENTER_IB_BYTE2 0xE78 #define EMC_TRAINING_RW_EYE_CENTER_IB_BYTE3 0xE7C #define EMC_TRAINING_RW_EYE_CENTER_IB_MISC 0xE80 #define EMC_TRAINING_RW_EYE_CENTER_OB_BYTE0 0xE84 #define EMC_TRAINING_RW_EYE_CENTER_OB_BYTE1 0xE88 #define EMC_TRAINING_RW_EYE_CENTER_OB_BYTE2 0xE8C #define EMC_TRAINING_RW_EYE_CENTER_OB_BYTE3 0xE90 #define EMC_TRAINING_RW_EYE_CENTER_OB_MISC 0xE94 #define EMC_TRAINING_RW_OFFSET_IB_BYTE0 0xE98 #define EMC_TRAINING_RW_OFFSET_IB_BYTE1 0xE9C #define EMC_TRAINING_RW_OFFSET_IB_BYTE2 0xEA0 #define EMC_TRAINING_RW_OFFSET_IB_BYTE3 0xEA4 #define EMC_TRAINING_RW_OFFSET_IB_MISC 0xEA8 #define EMC_TRAINING_RW_OFFSET_OB_BYTE0 0xEAC #define EMC_TRAINING_RW_OFFSET_OB_BYTE1 0xEB0 #define EMC_TRAINING_RW_OFFSET_OB_BYTE2 0xEB4 #define EMC_TRAINING_RW_OFFSET_OB_BYTE3 0xEB8 #define EMC_TRAINING_RW_OFFSET_OB_MISC 0xEBC #define EMC_TRAINING_OPT_CA_VREF 0xEC0 #define EMC_TRAINING_OPT_DQ_OB_VREF 0xEC4 #define EMC_TRAINING_OPT_DQ_IB_VREF_RANK0 0xEC8 #define EMC_TRAINING_OPT_DQ_IB_VREF_RANK1 0xECC #define EMC_TRAINING_QUSE_VREF_CTRL 0xED0 #define EMC_TRAINING_OPT_DQS_IB_VREF_RANK0 0xED4 #define EMC_TRAINING_OPT_DQS_IB_VREF_RANK1 0xED8 #define EMC_TRAINING_DRAMC_TIMING 0xEDC /* T210B01 only registers */ #define EMC_TRTM_B01 0xBC #define EMC_TWTM_B01 0xF8 #define EMC_TRATM_B01 0xFC #define EMC_TWATM_B01 0x108 #define EMC_TR2REF_B01 0x10C #define EMC_PMACRO_DATA_PI_CTRL_B01 0x110 #define EMC_PMACRO_CMD_PI_CTRL_B01 0x114 #define EMC_PMACRO_PMU_CTRL_B01 0x304 #define EMC_PMACRO_XM2COMP_PMU_CTRL_B01 0x308 #define EMC_AUTO_CAL_CONFIG9_B01 0x42C #define EMC_PMACRO_DDLLCAL_EN_B01 0x44C #define EMC_PMACRO_DLL_CFG_0_B01 0x5E4 #define EMC_PMACRO_DLL_CFG_1_B01 0x5E8 #define EMC_PMACRO_DLL_CFG_2_B01 0x5F8 #define EMC_PMACRO_DSR_VTTGEN_CTRL_0_B01 0xC6C #define EMC_PMACRO_DDLLCAL_CAL_0_B01 0xD00 #define EMC_PMACRO_DDLLCAL_CAL_1_B01 0xD04 #define EMC_PMACRO_DDLLCAL_CAL_2_B01 0xD08 #define EMC_PMACRO_DDLLCAL_CAL_3_B01 0xD0C #define EMC_PMACRO_DDLLCAL_CAL_4_B01 0xD10 #define EMC_PMACRO_DDLLCAL_CAL_5_B01 0xD14 #define EMC_PMACRO_DIG_DLL_STATUS_0_B01 0xD20 #define EMC_PMACRO_DIG_DLL_STATUS_1_B01 0xD24 #define EMC_PMACRO_DIG_DLL_STATUS_2_B01 0xD28 #define EMC_PMACRO_DIG_DLL_STATUS_3_B01 0xD2C #define EMC_PMACRO_DIG_DLL_STATUS_4_B01 0xD30 #define EMC_PMACRO_DIG_DLL_STATUS_5_B01 0xD34 #define EMC_PMACRO_PERBIT_FGCG_CTRL_0_B01 0xD40 #define EMC_PMACRO_PERBIT_FGCG_CTRL_1_B01 0xD44 #define EMC_PMACRO_PERBIT_FGCG_CTRL_2_B01 0xD48 #define EMC_PMACRO_PERBIT_FGCG_CTRL_3_B01 0xD4C #define EMC_PMACRO_PERBIT_FGCG_CTRL_4_B01 0xD50 #define EMC_PMACRO_PERBIT_FGCG_CTRL_5_B01 0xD54 #define EMC_PMACRO_PERBIT_RFU_CTRL_0_B01 0xD60 #define EMC_PMACRO_PERBIT_RFU_CTRL_1_B01 0xD64 #define EMC_PMACRO_PERBIT_RFU_CTRL_2_B01 0xD68 #define EMC_PMACRO_PERBIT_RFU_CTRL_3_B01 0xD6C #define EMC_PMACRO_PERBIT_RFU_CTRL_4_B01 0xD70 #define EMC_PMACRO_PERBIT_RFU_CTRL_5_B01 0xD74 #define EMC_PMACRO_PERBIT_RFU1_CTRL_0_B01 0xD80 #define EMC_PMACRO_PERBIT_RFU1_CTRL_1_B01 0xD84 #define EMC_PMACRO_PERBIT_RFU1_CTRL_2_B01 0xD88 #define EMC_PMACRO_PERBIT_RFU1_CTRL_3_B01 0xD8C #define EMC_PMACRO_PERBIT_RFU1_CTRL_4_B01 0xD90 #define EMC_PMACRO_PERBIT_RFU1_CTRL_5_B01 0xD94 #define EMC_PMACRO_PMU_OUT_EOFF1_0_B01 0xDA0 #define EMC_PMACRO_PMU_OUT_EOFF1_1_B01 0xDA4 #define EMC_PMACRO_PMU_OUT_EOFF1_2_B01 0xDA8 #define EMC_PMACRO_PMU_OUT_EOFF1_3_B01 0xDAC #define EMC_PMACRO_PMU_OUT_EOFF1_4_B01 0xDB0 #define EMC_PMACRO_PMU_OUT_EOFF1_5_B01 0xDB4 #define EMC_PMACRO_COMP_PMU_OUT_B01 0xDC0 #define EMC_STATUS_UPDATE_TIMEOUT 1000 typedef enum _emc_mr_t { MR0_FEAT = 0, MR4_TEMP = 4, MR5_MAN_ID = 5, MR6_REV_ID1 = 6, MR7_REV_ID2 = 7, MR8_DENSITY = 8, } emc_mr_t; enum { EMC_CHAN0 = 0, EMC_CHAN1 = 1 }; typedef struct _emc_mr_chip_data_t { // Device 0. u8 rank0_ch0; u8 rank0_ch1; // Device 1. u8 rank1_ch0; u8 rank1_ch1; } emc_mr_chip_data_t; typedef struct _emc_mr_data_t { emc_mr_chip_data_t chip0; emc_mr_chip_data_t chip1; } emc_mr_data_t; typedef struct _emc_regs_t210_t { /* 0x000 */ u32 emc_intstatus; /* 0x004 */ u32 emc_intmask; /* 0x008 */ u32 emc_dbg; /* 0x00c */ u32 emc_cfg; /* 0x010 */ u32 emc_adr_cfg; /* 0x014 */ u32 rsvd_014[3]; /* 0x020 */ u32 emc_refctrl; /* 0x024 */ u32 emc_pin; /* 0x028 */ u32 emc_timing_control; /* 0x02c */ u32 emc_rc; /* 0x030 */ u32 emc_rfc; /* 0x034 */ u32 emc_ras; /* 0x038 */ u32 emc_rp; /* 0x03c */ u32 emc_r2w; /* 0x040 */ u32 emc_w2r; /* 0x044 */ u32 emc_r2p; /* 0x048 */ u32 emc_w2p; /* 0x04c */ u32 emc_rd_rcd; /* 0x050 */ u32 emc_wr_rcd; /* 0x054 */ u32 emc_rrd; /* 0x058 */ u32 emc_rext; /* 0x05c */ u32 emc_wdv; /* 0x060 */ u32 emc_quse; /* 0x064 */ u32 emc_qrst; /* 0x068 */ u32 emc_qsafe; /* 0x06c */ u32 emc_rdv; /* 0x070 */ u32 emc_refresh; /* 0x074 */ u32 emc_burst_refresh_num; /* 0x078 */ u32 emc_pdex2wr; /* 0x07c */ u32 emc_pdex2rd; /* 0x080 */ u32 emc_pchg2pden; /* 0x084 */ u32 emc_act2pden; /* 0x088 */ u32 emc_ar2pden; /* 0x08c */ u32 emc_rw2pden; /* 0x090 */ u32 emc_txsr; /* 0x094 */ u32 emc_tcke; /* 0x098 */ u32 emc_tfaw; /* 0x09c */ u32 emc_trpab; /* 0x0a0 */ u32 emc_tclkstable; /* 0x0a4 */ u32 emc_tclkstop; /* 0x0a8 */ u32 emc_trefbw; /* 0x0ac */ u32 emc_tppd; /* 0x0b0 */ u32 emc_odt_write; /* 0x0b4 */ u32 emc_pdex2mrr; /* 0x0b8 */ u32 emc_wext; /* 0x0bc */ u32 emc_trtm_b01; /* 0x0c0 */ u32 emc_rfc_slr; /* 0x0c4 */ u32 emc_mrs_wait_cnt2; /* 0x0c8 */ u32 emc_mrs_wait_cnt; /* 0x0cc */ u32 emc_mrs; /* 0x0d0 */ u32 emc_emrs; /* 0x0d4 */ u32 emc_ref; /* 0x0d8 */ u32 emc_pre; /* 0x0dc */ u32 emc_nop; /* 0x0e0 */ u32 emc_self_ref; /* 0x0e4 */ u32 emc_dpd; /* 0x0e8 */ u32 emc_mrw; /* 0x0ec */ u32 emc_mrr; /* 0x0f0 */ u32 emc_cmdq; /* 0x0f4 */ u32 emc_mc2emcq; /* 0x0f8 */ u32 emc_twtm_b01; /* 0x0fc */ u32 emc_tratm_b01; /* 0x100 */ u32 emc_fbio_spare; /* 0x104 */ u32 emc_fbio_cfg5; /* 0x108 */ u32 emc_twatm_b01; /* 0x10c */ u32 emc_tr2ref_b01; /* 0x110 */ u32 emc_pmacro_data_pi_ctrl_b01; /* 0x114 */ u32 emc_pmacro_cmd_pi_ctrl_b01; /* 0x118 */ u32 emc_pdex2cke; /* 0x11c */ u32 emc_cke2pden; /* 0x120 */ u32 emc_cfg_rsv; /* 0x124 */ u32 emc_acpd_control; /* 0x128 */ u32 emc_mpc; /* 0x12c */ u32 emc_emrs2; /* 0x130 */ u32 emc_emrs3; /* 0x134 */ u32 emc_mrw2; /* 0x138 */ u32 emc_mrw3; /* 0x13c */ u32 emc_mrw4; /* 0x140 */ u32 emc_clken_override; /* 0x144 */ u32 emc_r2r; /* 0x148 */ u32 emc_w2w; /* 0x14c */ u32 emc_einput; /* 0x150 */ u32 emc_einput_duration; /* 0x154 */ u32 emc_puterm_extra; /* 0x158 */ u32 emc_tckesr; /* 0x15c */ u32 emc_tpd; /* 0x160 */ u32 emc_stat_control; /* 0x164 */ u32 emc_stat_status; /* 0x168 */ u32 rsvd_168[13]; /* 0x19c */ u32 emc_stat_dram_clock_limit_lo; /* 0x1a0 */ u32 emc_stat_dram_clock_limit_hi; /* 0x1a4 */ u32 emc_stat_dram_clocks_lo; /* 0x1a8 */ u32 emc_stat_dram_clocks_hi; /* 0x1ac */ u32 emc_stat_dram_dev0_activate_cnt_lo; /* 0x1b0 */ u32 emc_stat_dram_dev0_activate_cnt_hi; /* 0x1b4 */ u32 emc_stat_dram_dev0_read_cnt_lo; /* 0x1b8 */ u32 emc_stat_dram_dev0_read_cnt_hi; /* 0x1bc */ u32 emc_stat_dram_dev0_read8_cnt_lo; /* 0x1c0 */ u32 emc_stat_dram_dev0_read8_cnt_hi; /* 0x1c4 */ u32 emc_stat_dram_dev0_write_cnt_lo; /* 0x1c8 */ u32 emc_stat_dram_dev0_write_cnt_hi; /* 0x1cc */ u32 emc_stat_dram_dev0_write8_cnt_lo; /* 0x1d0 */ u32 emc_stat_dram_dev0_write8_cnt_hi; /* 0x1d4 */ u32 emc_stat_dram_dev0_ref_cnt_lo; /* 0x1d8 */ u32 emc_stat_dram_dev0_ref_cnt_hi; /* 0x1dc */ u32 emc_stat_dram_dev0_extclks_cke_eq0_no_banks_active_clks_lo; /* 0x1e0 */ u32 emc_stat_dram_dev0_extclks_cke_eq0_no_banks_active_clks_hi; /* 0x1e4 */ u32 emc_stat_dram_dev0_clkstop_cke_eq0_no_banks_active_clks_lo; /* 0x1e8 */ u32 emc_stat_dram_dev0_clkstop_cke_eq0_no_banks_active_clks_hi; /* 0x1ec */ u32 emc_stat_dram_dev0_extclks_cke_eq1_no_banks_active_clks_lo; /* 0x1f0 */ u32 emc_stat_dram_dev0_extclks_cke_eq1_no_banks_active_clks_hi; /* 0x1f4 */ u32 emc_stat_dram_dev0_clkstop_cke_eq1_no_banks_active_clks_lo; /* 0x1f8 */ u32 emc_stat_dram_dev0_clkstop_cke_eq1_no_banks_active_clks_hi; /* 0x1fc */ u32 emc_stat_dram_dev0_extclks_cke_eq0_some_banks_active_clks_lo; /* 0x200 */ u32 emc_stat_dram_dev0_extclks_cke_eq0_some_banks_active_clks_hi; /* 0x204 */ u32 emc_stat_dram_dev0_clkstop_cke_eq0_some_banks_active_clks_lo; /* 0x208 */ u32 emc_stat_dram_dev0_clkstop_cke_eq0_some_banks_active_clks_hi; /* 0x20c */ u32 emc_stat_dram_dev0_extclks_cke_eq1_some_banks_active_clks_lo; /* 0x210 */ u32 emc_stat_dram_dev0_extclks_cke_eq1_some_banks_active_clks_hi; /* 0x214 */ u32 emc_stat_dram_dev0_clkstop_cke_eq1_some_banks_active_clks_lo; /* 0x218 */ u32 emc_stat_dram_dev0_clkstop_cke_eq1_some_banks_active_clks_hi; /* 0x21c */ u32 emc_stat_dram_dev0_sr_cke_eq0_clks_lo; /* 0x220 */ u32 emc_stat_dram_dev0_sr_cke_eq0_clks_hi; /* 0x224 */ u32 emc_stat_dram_dev0_dsr; /* 0x228 */ u32 emc_stat_dram_dev1_activate_cnt_lo; /* 0x22c */ u32 emc_stat_dram_dev1_activate_cnt_hi; /* 0x230 */ u32 emc_stat_dram_dev1_read_cnt_lo; /* 0x234 */ u32 emc_stat_dram_dev1_read_cnt_hi; /* 0x238 */ u32 emc_stat_dram_dev1_read8_cnt_lo; /* 0x23c */ u32 emc_stat_dram_dev1_read8_cnt_hi; /* 0x240 */ u32 emc_stat_dram_dev1_write_cnt_lo; /* 0x244 */ u32 emc_stat_dram_dev1_write_cnt_hi; /* 0x248 */ u32 emc_stat_dram_dev1_write8_cnt_lo; /* 0x24c */ u32 emc_stat_dram_dev1_write8_cnt_hi; /* 0x250 */ u32 emc_stat_dram_dev1_ref_cnt_lo; /* 0x254 */ u32 emc_stat_dram_dev1_ref_cnt_hi; /* 0x258 */ u32 emc_stat_dram_dev1_extclks_cke_eq0_no_banks_active_clks_lo; /* 0x25c */ u32 emc_stat_dram_dev1_extclks_cke_eq0_no_banks_active_clks_hi; /* 0x260 */ u32 emc_stat_dram_dev1_clkstop_cke_eq0_no_banks_active_clks_lo; /* 0x264 */ u32 emc_stat_dram_dev1_clkstop_cke_eq0_no_banks_active_clks_hi; /* 0x268 */ u32 emc_stat_dram_dev1_extclks_cke_eq1_no_banks_active_clks_lo; /* 0x26c */ u32 emc_stat_dram_dev1_extclks_cke_eq1_no_banks_active_clks_hi; /* 0x270 */ u32 emc_stat_dram_dev1_clkstop_cke_eq1_no_banks_active_clks_lo; /* 0x274 */ u32 emc_stat_dram_dev1_clkstop_cke_eq1_no_banks_active_clks_hi; /* 0x278 */ u32 emc_stat_dram_dev1_extclks_cke_eq0_some_banks_active_clks_lo; /* 0x27c */ u32 emc_stat_dram_dev1_extclks_cke_eq0_some_banks_active_clks_hi; /* 0x280 */ u32 emc_stat_dram_dev1_clkstop_cke_eq0_some_banks_active_clks_lo; /* 0x284 */ u32 emc_stat_dram_dev1_clkstop_cke_eq0_some_banks_active_clks_hi; /* 0x288 */ u32 emc_stat_dram_dev1_extclks_cke_eq1_some_banks_active_clks_lo; /* 0x28c */ u32 emc_stat_dram_dev1_extclks_cke_eq1_some_banks_active_clks_hi; /* 0x290 */ u32 emc_stat_dram_dev1_clkstop_cke_eq1_some_banks_active_clks_lo; /* 0x294 */ u32 emc_stat_dram_dev1_clkstop_cke_eq1_some_banks_active_clks_hi; /* 0x298 */ u32 emc_stat_dram_dev1_sr_cke_eq0_clks_lo; /* 0x29c */ u32 emc_stat_dram_dev1_sr_cke_eq0_clks_hi; /* 0x2a0 */ u32 emc_stat_dram_dev1_dsr; /* 0x2a4 */ u32 emc_auto_cal_config; /* 0x2a8 */ u32 emc_auto_cal_interval; /* 0x2ac */ u32 emc_auto_cal_status; /* 0x2b0 */ u32 emc_req_ctrl; /* 0x2b4 */ u32 emc_emc_status; /* 0x2b8 */ u32 emc_cfg_2; /* 0x2bc */ u32 emc_cfg_dig_dll; /* 0x2c0 */ u32 emc_cfg_dig_dll_period; /* 0x2c4 */ u32 emc_dig_dll_status; /* 0x2c8 */ u32 emc_cfg_dig_dll_1; /* 0x2cc */ u32 emc_rdv_mask; /* 0x2d0 */ u32 emc_wdv_mask; /* 0x2d4 */ u32 emc_rdv_early_mask; /* 0x2d8 */ u32 emc_rdv_early; /* 0x2dc */ u32 emc_auto_cal_config8; /* 0x2e0 */ u32 emc_zcal_interval; /* 0x2e4 */ u32 emc_zcal_wait_cnt; /* 0x2e8 */ u32 emc_zcal_mrw_cmd; /* 0x2ec */ u32 emc_zq_cal; /* 0x2f0 */ u32 rsvd_2f0; /* 0x2f4 */ u32 emc_xm2comppadctrl3; /* 0x2f8 */ u32 emc_auto_cal_vref_sel_0; /* 0x2fc */ u32 rsvd_2fc; /* 0x300 */ u32 emc_auto_cal_vref_sel_1; /* 0x304 */ u32 emc_pmacro_pmu_ctrl_b01; /* 0x308 */ u32 emc_pmacro_xm2comp_pmu_ctrl_b01; /* 0x30c */ u32 emc_xm2comppadctrl; /* 0x310 */ u32 emc_fdpd_ctrl_dq; /* 0x314 */ u32 emc_fdpd_ctrl_cmd; /* 0x318 */ u32 emc_pmacro_cmd_brick_ctrl_fdpd; /* 0x31c */ u32 emc_pmacro_data_brick_ctrl_fdpd; /* 0x320 */ u32 rsvd_320; /* 0x324 */ u32 emc_scratch0; /* 0x328 */ u32 rsvd_328[2]; /* 0x330 */ u32 emc_pmacro_brick_ctrl_rfu1; /* 0x334 */ u32 emc_pmacro_brick_ctrl_rfu2; /* 0x338 */ u32 rsvd_338[18]; /* 0x380 */ u32 emc_cmd_mapping_cmd0_0; /* 0x384 */ u32 emc_cmd_mapping_cmd0_1; /* 0x388 */ u32 emc_cmd_mapping_cmd0_2; /* 0x38c */ u32 emc_cmd_mapping_cmd1_0; /* 0x390 */ u32 emc_cmd_mapping_cmd1_1; /* 0x394 */ u32 emc_cmd_mapping_cmd1_2; /* 0x398 */ u32 emc_cmd_mapping_cmd2_0; /* 0x39c */ u32 emc_cmd_mapping_cmd2_1; /* 0x3a0 */ u32 emc_cmd_mapping_cmd2_2; /* 0x3a4 */ u32 emc_cmd_mapping_cmd3_0; /* 0x3a8 */ u32 emc_cmd_mapping_cmd3_1; /* 0x3ac */ u32 emc_cmd_mapping_cmd3_2; /* 0x3b0 */ u32 emc_cmd_mapping_byte; /* 0x3b4 */ u32 emc_tr_timing_0; /* 0x3b8 */ u32 emc_tr_ctrl_0; /* 0x3bc */ u32 emc_tr_ctrl_1; /* 0x3c0 */ u32 emc_switch_back_ctrl; /* 0x3c4 */ u32 emc_tr_rdv; /* 0x3c8 */ u32 emc_stall_then_exe_before_clkchange; /* 0x3cc */ u32 emc_stall_then_exe_after_clkchange; /* 0x3d0 */ u32 emc_unstall_rw_after_clkchange; /* 0x3d4 */ u32 emc_auto_cal_status2; /* 0x3d8 */ u32 emc_sel_dpd_ctrl; /* 0x3dc */ u32 emc_pre_refresh_req_cnt; /* 0x3e0 */ u32 emc_dyn_self_ref_control; /* 0x3e4 */ u32 emc_txsrdll; /* 0x3e8 */ u32 emc_ccfifo_addr; /* 0x3ec */ u32 emc_ccfifo_data; /* 0x3f0 */ u32 emc_ccfifo_status; /* 0x3f4 */ u32 emc_tr_qpop; /* 0x3f8 */ u32 emc_tr_rdv_mask; /* 0x3fc */ u32 emc_tr_qsafe; /* 0x400 */ u32 emc_tr_qrst; /* 0x404 */ u32 emc_swizzle_rank0_byte0; /* 0x408 */ u32 emc_swizzle_rank0_byte1; /* 0x40c */ u32 emc_swizzle_rank0_byte2; /* 0x410 */ u32 emc_swizzle_rank0_byte3; /* 0x414 */ u32 rsvd_414; /* 0x418 */ u32 emc_swizzle_rank1_byte0; /* 0x41c */ u32 emc_swizzle_rank1_byte1; /* 0x420 */ u32 emc_swizzle_rank1_byte2; /* 0x424 */ u32 emc_swizzle_rank1_byte3; /* 0x428 */ u32 emc_issue_qrst; /* 0x42c */ u32 emc_auto_cal_config9_b01; /* 0x430 */ u32 rsvd_430[4]; /* 0x440 */ u32 emc_pmc_scratch1; /* 0x444 */ u32 emc_pmc_scratch2; /* 0x448 */ u32 emc_pmc_scratch3; /* 0x44c */ u32 emc_pmacro_ddllcal_en_b01; /* 0x450 */ u32 rsvd_450[2]; /* 0x458 */ u32 emc_auto_cal_config2; /* 0x45c */ u32 emc_auto_cal_config3; /* 0x460 */ u32 emc_tr_dvfs; /* 0x464 */ u32 emc_auto_cal_channel; /* 0x468 */ u32 emc_ibdly; /* 0x46c */ u32 emc_obdly; /* 0x470 */ u32 rsvd_470[4]; /* 0x480 */ u32 emc_txdsrvttgen; /* 0x484 */ u32 rsvd_484[2]; /* 0x48c */ u32 emc_we_duration; /* 0x490 */ u32 emc_ws_duration; /* 0x494 */ u32 emc_wev; /* 0x498 */ u32 emc_wsv; /* 0x49c */ u32 emc_cfg_3; /* 0x4a0 */ u32 emc_mrw5; /* 0x4a4 */ u32 emc_mrw6; /* 0x4a8 */ u32 emc_mrw7; /* 0x4ac */ u32 emc_mrw8; /* 0x4b0 */ u32 emc_mrw9; /* 0x4b4 */ u32 emc_mrw10; /* 0x4b8 */ u32 emc_mrw11; /* 0x4bc */ u32 emc_mrw12; /* 0x4c0 */ u32 emc_mrw13; /* 0x4c4 */ u32 emc_mrw14; /* 0x4c8 */ u32 rsvd_4c8[2]; /* 0x4d0 */ u32 emc_mrw15; /* 0x4d4 */ u32 emc_cfg_sync; /* 0x4d8 */ u32 emc_fdpd_ctrl_cmd_no_ramp; /* 0x4dc */ u32 rsvd_4dc; /* 0x4e0 */ u32 emc_wdv_chk; /* 0x4e4 */ u32 rsvd_4e4[28]; /* 0x554 */ u32 emc_cfg_pipe_2; /* 0x558 */ u32 emc_cfg_pipe_clk; /* 0x55c */ u32 emc_cfg_pipe_1; /* 0x560 */ u32 emc_cfg_pipe; /* 0x564 */ u32 emc_qpop; /* 0x568 */ u32 emc_quse_width; /* 0x56c */ u32 emc_puterm_width; /* 0x570 */ u32 rsvd_570; /* 0x574 */ u32 emc_auto_cal_config7; /* 0x578 */ u32 emc_xm2comppadctrl2; /* 0x57c */ u32 emc_comp_pad_sw_ctrl; /* 0x580 */ u32 emc_refctrl2; /* 0x584 */ u32 emc_fbio_cfg7; /* 0x588 */ u32 emc_data_brlshft_0; /* 0x58c */ u32 emc_data_brlshft_1; /* 0x590 */ u32 emc_rfcpb; /* 0x594 */ u32 emc_dqs_brlshft_0; /* 0x598 */ u32 emc_dqs_brlshft_1; /* 0x59c */ u32 emc_cmd_brlshft_0; /* 0x5a0 */ u32 emc_cmd_brlshft_1; /* 0x5a4 */ u32 emc_cmd_brlshft_2; /* 0x5a8 */ u32 emc_cmd_brlshft_3; /* 0x5ac */ u32 emc_quse_brlshft_0; /* 0x5b0 */ u32 emc_auto_cal_config4; /* 0x5b4 */ u32 emc_auto_cal_config5; /* 0x5b8 */ u32 emc_quse_brlshft_1; /* 0x5bc */ u32 emc_quse_brlshft_2; /* 0x5c0 */ u32 emc_ccdmw; /* 0x5c4 */ u32 emc_quse_brlshft_3; /* 0x5c8 */ u32 emc_fbio_cfg8; /* 0x5cc */ u32 emc_auto_cal_config6; /* 0x5d0 */ u32 emc_protobist_config_adr_1; /* 0x5d4 */ u32 emc_protobist_config_adr_2; /* 0x5d8 */ u32 emc_protobist_misc; /* 0x5dc */ u32 emc_protobist_wdata_lower; /* 0x5e0 */ u32 emc_protobist_wdata_upper; union { /* 0x5e4 */ u32 emc_dll_cfg_0; /* 0x5e4 */ u32 emc_pmacro_dll_cfg_0_b01; }; union { /* 0x5e8 */ u32 emc_dll_cfg_1; /* 0x5e8 */ u32 emc_pmacro_dll_cfg_1_b01; }; /* 0x5ec */ u32 emc_protobist_rdata; /* 0x5f0 */ u32 emc_config_sample_delay; /* 0x5f4 */ u32 emc_cfg_update; /* 0x5f8 */ u32 emc_pmacro_dll_cfg_2_b01; /* 0x5fc */ u32 rsvd_5fc; /* 0x600 */ u32 emc_pmacro_quse_ddll_rank0_0; /* 0x604 */ u32 emc_pmacro_quse_ddll_rank0_1; /* 0x608 */ u32 emc_pmacro_quse_ddll_rank0_2; /* 0x60c */ u32 emc_pmacro_quse_ddll_rank0_3; /* 0x610 */ u32 emc_pmacro_quse_ddll_rank0_4; /* 0x614 */ u32 emc_pmacro_quse_ddll_rank0_5; /* 0x618 */ u32 rsvd_618[2]; /* 0x620 */ u32 emc_pmacro_quse_ddll_rank1_0; /* 0x624 */ u32 emc_pmacro_quse_ddll_rank1_1; /* 0x628 */ u32 emc_pmacro_quse_ddll_rank1_2; /* 0x62c */ u32 emc_pmacro_quse_ddll_rank1_3; /* 0x630 */ u32 emc_pmacro_quse_ddll_rank1_4; /* 0x634 */ u32 emc_pmacro_quse_ddll_rank1_5; /* 0x638 */ u32 rsvd_638[2]; /* 0x640 */ u32 emc_pmacro_ob_ddll_long_dq_rank0_0; /* 0x644 */ u32 emc_pmacro_ob_ddll_long_dq_rank0_1; /* 0x648 */ u32 emc_pmacro_ob_ddll_long_dq_rank0_2; /* 0x64c */ u32 emc_pmacro_ob_ddll_long_dq_rank0_3; /* 0x650 */ u32 emc_pmacro_ob_ddll_long_dq_rank0_4; /* 0x654 */ u32 emc_pmacro_ob_ddll_long_dq_rank0_5; /* 0x658 */ u32 rsvd_658[2]; /* 0x660 */ u32 emc_pmacro_ob_ddll_long_dq_rank1_0; /* 0x664 */ u32 emc_pmacro_ob_ddll_long_dq_rank1_1; /* 0x668 */ u32 emc_pmacro_ob_ddll_long_dq_rank1_2; /* 0x66c */ u32 emc_pmacro_ob_ddll_long_dq_rank1_3; /* 0x670 */ u32 emc_pmacro_ob_ddll_long_dq_rank1_4; /* 0x674 */ u32 emc_pmacro_ob_ddll_long_dq_rank1_5; /* 0x678 */ u32 rsvd_678[2]; /* 0x680 */ u32 emc_pmacro_ob_ddll_long_dqs_rank0_0; /* 0x684 */ u32 emc_pmacro_ob_ddll_long_dqs_rank0_1; /* 0x688 */ u32 emc_pmacro_ob_ddll_long_dqs_rank0_2; /* 0x68c */ u32 emc_pmacro_ob_ddll_long_dqs_rank0_3; /* 0x690 */ u32 emc_pmacro_ob_ddll_long_dqs_rank0_4; /* 0x694 */ u32 emc_pmacro_ob_ddll_long_dqs_rank0_5; /* 0x698 */ u32 rsvd_698[2]; /* 0x6a0 */ u32 emc_pmacro_ob_ddll_long_dqs_rank1_0; /* 0x6a4 */ u32 emc_pmacro_ob_ddll_long_dqs_rank1_1; /* 0x6a8 */ u32 emc_pmacro_ob_ddll_long_dqs_rank1_2; /* 0x6ac */ u32 emc_pmacro_ob_ddll_long_dqs_rank1_3; /* 0x6b0 */ u32 emc_pmacro_ob_ddll_long_dqs_rank1_4; /* 0x6b4 */ u32 emc_pmacro_ob_ddll_long_dqs_rank1_5; /* 0x6b8 */ u32 rsvd_6b8[2]; /* 0x6c0 */ u32 emc_pmacro_ib_ddll_long_dqs_rank0_0; /* 0x6c4 */ u32 emc_pmacro_ib_ddll_long_dqs_rank0_1; /* 0x6c8 */ u32 emc_pmacro_ib_ddll_long_dqs_rank0_2; /* 0x6cc */ u32 emc_pmacro_ib_ddll_long_dqs_rank0_3; /* 0x6d0 */ u32 emc_pmacro_ib_ddll_long_dqs_rank0_4; /* 0x6d4 */ u32 emc_pmacro_ib_ddll_long_dqs_rank0_5; /* 0x6d8 */ u32 rsvd_6d8[2]; /* 0x6e0 */ u32 emc_pmacro_ib_ddll_long_dqs_rank1_0; /* 0x6e4 */ u32 emc_pmacro_ib_ddll_long_dqs_rank1_1; /* 0x6e8 */ u32 emc_pmacro_ib_ddll_long_dqs_rank1_2; /* 0x6ec */ u32 emc_pmacro_ib_ddll_long_dqs_rank1_3; /* 0x6f0 */ u32 emc_pmacro_ib_ddll_long_dqs_rank1_4; /* 0x6f4 */ u32 emc_pmacro_ib_ddll_long_dqs_rank1_5; /* 0x6f8 */ u32 rsvd_6f8[2]; /* 0x700 */ u32 emc_pmacro_autocal_cfg_0; /* 0x704 */ u32 emc_pmacro_autocal_cfg_1; /* 0x708 */ u32 emc_pmacro_autocal_cfg_2; /* 0x70c */ u32 rsvd_70c[5]; /* 0x720 */ u32 emc_pmacro_tx_pwrd_0; /* 0x724 */ u32 emc_pmacro_tx_pwrd_1; /* 0x728 */ u32 emc_pmacro_tx_pwrd_2; /* 0x72c */ u32 emc_pmacro_tx_pwrd_3; /* 0x730 */ u32 emc_pmacro_tx_pwrd_4; /* 0x734 */ u32 emc_pmacro_tx_pwrd_5; /* 0x738 */ u32 rsvd_738[2]; /* 0x740 */ u32 emc_pmacro_tx_sel_clk_src_0; /* 0x744 */ u32 emc_pmacro_tx_sel_clk_src_1; /* 0x748 */ u32 emc_pmacro_tx_sel_clk_src_2; /* 0x74c */ u32 emc_pmacro_tx_sel_clk_src_3; /* 0x750 */ u32 emc_pmacro_tx_sel_clk_src_4; /* 0x754 */ u32 emc_pmacro_tx_sel_clk_src_5; /* 0x758 */ u32 rsvd_758[2]; /* 0x760 */ u32 emc_pmacro_ddll_bypass; /* 0x764 */ u32 rsvd_764[3]; /* 0x770 */ u32 emc_pmacro_ddll_pwrd_0; /* 0x774 */ u32 emc_pmacro_ddll_pwrd_1; /* 0x778 */ u32 emc_pmacro_ddll_pwrd_2; /* 0x77c */ u32 rsvd_77c; /* 0x780 */ u32 emc_pmacro_cmd_ctrl_0; /* 0x784 */ u32 emc_pmacro_cmd_ctrl_1; /* 0x788 */ u32 emc_pmacro_cmd_ctrl_2; /* 0x78c */ u32 rsvd_78c[29]; /* 0x800 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_0; /* 0x804 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_1; /* 0x808 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_2; /* 0x80c */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_3; /* 0x810 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_0; /* 0x814 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_1; /* 0x818 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_2; /* 0x81c */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_3; /* 0x820 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_0; /* 0x824 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_1; /* 0x828 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_2; /* 0x82c */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_3; /* 0x830 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_0; /* 0x834 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_1; /* 0x838 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_2; /* 0x83c */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_3; /* 0x840 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_0; /* 0x844 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_1; /* 0x848 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_2; /* 0x84c */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_3; /* 0x850 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_0; /* 0x854 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_1; /* 0x858 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_2; /* 0x85c */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_3; /* 0x860 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_0; /* 0x864 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_1; /* 0x868 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_2; /* 0x86c */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_3; /* 0x870 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_0; /* 0x874 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_1; /* 0x878 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_2; /* 0x87c */ u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_3; /* 0x880 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_0; /* 0x884 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_1; /* 0x888 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_2; /* 0x88c */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_3; /* 0x890 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_0; /* 0x894 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_1; /* 0x898 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_2; /* 0x89c */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_3; /* 0x8a0 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_0; /* 0x8a4 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_1; /* 0x8a8 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_2; /* 0x8ac */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_3; /* 0x8b0 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_0; /* 0x8b4 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_1; /* 0x8b8 */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_2; /* 0x8bc */ u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_3; /* 0x8c0 */ u32 rsvd_8c0[16]; /* 0x900 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_0; /* 0x904 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_1; /* 0x908 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_2; /* 0x90c */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_3; /* 0x910 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_0; /* 0x914 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_1; /* 0x918 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_2; /* 0x91c */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_3; /* 0x920 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_0; /* 0x924 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_1; /* 0x928 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_2; /* 0x92c */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_3; /* 0x930 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_0; /* 0x934 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_1; /* 0x938 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_2; /* 0x93c */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_3; /* 0x940 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_0; /* 0x944 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_1; /* 0x948 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_2; /* 0x94c */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_3; /* 0x950 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_0; /* 0x954 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_1; /* 0x958 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_2; /* 0x95c */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_3; /* 0x960 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_0; /* 0x964 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_1; /* 0x968 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_2; /* 0x96c */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_3; /* 0x970 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_0; /* 0x974 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_1; /* 0x978 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_2; /* 0x97c */ u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_3; /* 0x980 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_0; /* 0x984 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_1; /* 0x988 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_2; /* 0x98c */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_3; /* 0x990 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_0; /* 0x994 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_1; /* 0x998 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_2; /* 0x99c */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_3; /* 0x9a0 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_0; /* 0x9a4 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_1; /* 0x9a8 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_2; /* 0x9ac */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_3; /* 0x9b0 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_0; /* 0x9b4 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_1; /* 0x9b8 */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_2; /* 0x9bc */ u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_3; /* 0x9c0 */ u32 rsvd_9c0[16]; /* 0xa00 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte0_0; /* 0xa04 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte0_1; /* 0xa08 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte0_2; /* 0xa0c */ u32 rsvd_a0c; /* 0xa10 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte1_0; /* 0xa14 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte1_1; /* 0xa18 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte1_2; /* 0xa1c */ u32 rsvd_a1c; /* 0xa20 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte2_0; /* 0xa24 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte2_1; /* 0xa28 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte2_2; /* 0xa2c */ u32 rsvd_a2c; /* 0xa30 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte3_0; /* 0xa34 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte3_1; /* 0xa38 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte3_2; /* 0xa3c */ u32 rsvd_a3c; /* 0xa40 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte4_0; /* 0xa44 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte4_1; /* 0xa48 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte4_2; /* 0xa4c */ u32 rsvd_a4c; /* 0xa50 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte5_0; /* 0xa54 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte5_1; /* 0xa58 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte5_2; /* 0xa5c */ u32 rsvd_a5c; /* 0xa60 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte6_0; /* 0xa64 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte6_1; /* 0xa68 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte6_2; /* 0xa6c */ u32 rsvd_a6c; /* 0xa70 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte7_0; /* 0xa74 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte7_1; /* 0xa78 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_byte7_2; /* 0xa7c */ u32 rsvd_a7c; /* 0xa80 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd0_0; /* 0xa84 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd0_1; /* 0xa88 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd0_2; /* 0xa8c */ u32 rsvd_a8c; /* 0xa90 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd1_0; /* 0xa94 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd1_1; /* 0xa98 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd1_2; /* 0xa9c */ u32 rsvd_a9c; /* 0xaa0 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd2_0; /* 0xaa4 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd2_1; /* 0xaa8 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd2_2; /* 0xaac */ u32 rsvd_aac; /* 0xab0 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd3_0; /* 0xab4 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd3_1; /* 0xab8 */ u32 emc_pmacro_ib_ddll_short_dq_rank0_cmd3_2; /* 0xabc */ u32 rsvd_abc[17]; /* 0xb00 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte0_0; /* 0xb04 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte0_1; /* 0xb08 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte0_2; /* 0xb0c */ u32 rsvd_b0c; /* 0xb10 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte1_0; /* 0xb14 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte1_1; /* 0xb18 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte1_2; /* 0xb1c */ u32 rsvd_b1c; /* 0xb20 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte2_0; /* 0xb24 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte2_1; /* 0xb28 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte2_2; /* 0xb2c */ u32 rsvd_b2c; /* 0xb30 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte3_0; /* 0xb34 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte3_1; /* 0xb38 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte3_2; /* 0xb3c */ u32 rsvd_b3c; /* 0xb40 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte4_0; /* 0xb44 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte4_1; /* 0xb48 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte4_2; /* 0xb4c */ u32 rsvd_b4c; /* 0xb50 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte5_0; /* 0xb54 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte5_1; /* 0xb58 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte5_2; /* 0xb5c */ u32 rsvd_b5c; /* 0xb60 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte6_0; /* 0xb64 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte6_1; /* 0xb68 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte6_2; /* 0xb6c */ u32 rsvd_b6c; /* 0xb70 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte7_0; /* 0xb74 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte7_1; /* 0xb78 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_byte7_2; /* 0xb7c */ u32 rsvd_b7c; /* 0xb80 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd0_0; /* 0xb84 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd0_1; /* 0xb88 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd0_2; /* 0xb8c */ u32 rsvd_b8c; /* 0xb90 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd1_0; /* 0xb94 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd1_1; /* 0xb98 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd1_2; /* 0xb9c */ u32 rsvd_b9c; /* 0xba0 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd2_0; /* 0xba4 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd2_1; /* 0xba8 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd2_2; /* 0xbac */ u32 rsvd_bac; /* 0xbb0 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd3_0; /* 0xbb4 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd3_1; /* 0xbb8 */ u32 emc_pmacro_ib_ddll_short_dq_rank1_cmd3_2; /* 0xbbc */ u32 rsvd_bbc[9]; /* 0xbe0 */ u32 emc_pmacro_ib_vref_dq_0; /* 0xbe4 */ u32 emc_pmacro_ib_vref_dq_1; /* 0xbe8 */ u32 emc_pmacro_ib_vref_dq_2; /* 0xbec */ u32 rsvd_bec; /* 0xbf0 */ u32 emc_pmacro_ib_vref_dqs_0; /* 0xbf4 */ u32 emc_pmacro_ib_vref_dqs_1; /* 0xbf8 */ u32 emc_pmacro_ib_vref_dqs_2; /* 0xbfc */ u32 rsvd_bfc; /* 0xc00 */ u32 emc_pmacro_ddll_long_cmd_0; /* 0xc04 */ u32 emc_pmacro_ddll_long_cmd_1; /* 0xc08 */ u32 emc_pmacro_ddll_long_cmd_2; /* 0xc0c */ u32 emc_pmacro_ddll_long_cmd_3; /* 0xc10 */ u32 emc_pmacro_ddll_long_cmd_4; /* 0xc14 */ u32 emc_pmacro_ddll_long_cmd_5; /* 0xc18 */ u32 rsvd_c18[2]; /* 0xc20 */ u32 emc_pmacro_ddll_short_cmd_0; /* 0xc24 */ u32 emc_pmacro_ddll_short_cmd_1; /* 0xc28 */ u32 emc_pmacro_ddll_short_cmd_2; /* 0xc2c */ u32 rsvd_c2c; /* 0xc30 */ u32 emc_pmacro_cfg_pm_global_0; /* 0xc34 */ u32 emc_pmacro_vttgen_ctrl_0; /* 0xc38 */ u32 emc_pmacro_vttgen_ctrl_1; /* 0xc3c */ u32 emc_pmacro_bg_bias_ctrl_0; /* 0xc40 */ u32 emc_pmacro_pad_cfg_ctrl; /* 0xc44 */ u32 emc_pmacro_zctrl; /* 0xc48 */ u32 emc_pmacro_rx_term; /* 0xc4c */ u32 emc_pmacro_cmd_tx_drv; /* 0xc50 */ u32 emc_pmacro_cmd_pad_rx_ctrl; /* 0xc54 */ u32 emc_pmacro_data_pad_rx_ctrl; /* 0xc58 */ u32 emc_pmacro_cmd_rx_term_mode; /* 0xc5c */ u32 emc_pmacro_data_rx_term_mode; /* 0xc60 */ u32 emc_pmacro_cmd_pad_tx_ctrl; /* 0xc64 */ u32 emc_pmacro_data_pad_tx_ctrl; /* 0xc68 */ u32 emc_pmacro_common_pad_tx_ctrl_t210; /* 0xc6c */ u32 emc_pmacro_dsr_vttgen_ctrl_0_b01; /* 0xc70 */ u32 emc_pmacro_dq_tx_drv; /* 0xc74 */ u32 emc_pmacro_ca_tx_drv; /* 0xc78 */ u32 emc_pmacro_autocal_cfg_common; /* 0xc7c */ u32 rsvd_c7c; /* 0xc80 */ u32 emc_pmacro_brick_mapping_0; /* 0xc84 */ u32 emc_pmacro_brick_mapping_1; /* 0xc88 */ u32 emc_pmacro_brick_mapping_2; /* 0xc8c */ u32 emc_stat_dram_io_extclks_cke_eq0_no_banks_active_clks_lo; /* 0xc90 */ u32 emc_stat_dram_io_extclks_cke_eq0_no_banks_active_clks_hi; /* 0xc94 */ u32 emc_stat_dram_io_clkstop_cke_eq0_no_banks_active_clks_lo; /* 0xc98 */ u32 emc_stat_dram_io_clkstop_cke_eq0_no_banks_active_clks_hi; /* 0xc9c */ u32 emc_stat_dram_io_extclks_cke_eq1_no_banks_active_clks_lo; /* 0xca0 */ u32 emc_stat_dram_io_extclks_cke_eq1_no_banks_active_clks_hi; /* 0xca4 */ u32 emc_stat_dram_io_clkstop_cke_eq1_no_banks_active_clks_lo; /* 0xca8 */ u32 emc_stat_dram_io_clkstop_cke_eq1_no_banks_active_clks_hi; /* 0xcac */ u32 emc_stat_dram_io_extclks_cke_eq0_some_banks_active_clks_lo; /* 0xcb0 */ u32 emc_stat_dram_io_extclks_cke_eq0_some_banks_active_clks_hi; /* 0xcb4 */ u32 emc_stat_dram_io_clkstop_cke_eq0_some_banks_active_clks_lo; /* 0xcb8 */ u32 emc_stat_dram_io_clkstop_cke_eq0_some_banks_active_clks_hi; /* 0xcbc */ u32 emc_stat_dram_io_extclks_cke_eq1_some_banks_active_clks_lo; /* 0xcc0 */ u32 emc_stat_dram_io_extclks_cke_eq1_some_banks_active_clks_hi; /* 0xcc4 */ u32 emc_stat_dram_io_clkstop_cke_eq1_some_banks_active_clks_lo; /* 0xcc8 */ u32 emc_stat_dram_io_clkstop_cke_eq1_some_banks_active_clks_hi; /* 0xccc */ u32 emc_stat_dram_io_sr_cke_eq0_clks_lo; /* 0xcd0 */ u32 emc_stat_dram_io_sr_cke_eq0_clks_hi; /* 0xcd4 */ u32 emc_stat_dram_io_dsr; /* 0xcd8 */ u32 rsvd_cd8[2]; /* 0xce0 */ u32 emc_pmacro_ddllcal_cal_t210; /* 0xce4 */ u32 emc_pmacro_ddll_offset; /* 0xce8 */ u32 emc_pmacro_ddll_periodic_offset; /* 0xcec */ u32 rsvd_cec; /* 0xcf0 */ u32 emc_pmacro_vttgen_ctrl_2; /* 0xcf4 */ u32 emc_pmacro_ib_rxrt; /* 0xcf8 */ u32 emc_pmacro_training_ctrl_0; /* 0xcfc */ u32 emc_pmacro_training_ctrl_1; /* 0xd00 */ u32 emc_pmacro_ddllcal_cal_0_b01; /* 0xd04 */ u32 emc_pmacro_ddllcal_cal_1_b01; /* 0xd08 */ u32 emc_pmacro_ddllcal_cal_2_b01; /* 0xd0c */ u32 emc_pmacro_ddllcal_cal_3_b01; /* 0xd10 */ u32 emc_pmacro_ddllcal_cal_4_b01; /* 0xd14 */ u32 emc_pmacro_ddllcal_cal_5_b01; /* 0xd18 */ u32 rsvd_d18[2]; /* 0xd20 */ u32 emc_pmacro_dig_dll_status_0_b01; /* 0xd24 */ u32 emc_pmacro_dig_dll_status_1_b01; /* 0xd28 */ u32 emc_pmacro_dig_dll_status_2_b01; /* 0xd2c */ u32 emc_pmacro_dig_dll_status_3_b01; /* 0xd30 */ u32 emc_pmacro_dig_dll_status_4_b01; /* 0xd34 */ u32 emc_pmacro_dig_dll_status_5_b01; /* 0xd38 */ u32 rsvd_d38[2]; /* 0xd40 */ u32 emc_pmacro_perbit_fgcg_ctrl_0_b01; /* 0xd44 */ u32 emc_pmacro_perbit_fgcg_ctrl_1_b01; /* 0xd48 */ u32 emc_pmacro_perbit_fgcg_ctrl_2_b01; /* 0xd4c */ u32 emc_pmacro_perbit_fgcg_ctrl_3_b01; /* 0xd50 */ u32 emc_pmacro_perbit_fgcg_ctrl_4_b01; /* 0xd54 */ u32 emc_pmacro_perbit_fgcg_ctrl_5_b01; /* 0xd58 */ u32 rsvd_d58[2]; /* 0xd60 */ u32 emc_pmacro_perbit_rfu_ctrl_0_b01; /* 0xd64 */ u32 emc_pmacro_perbit_rfu_ctrl_1_b01; /* 0xd68 */ u32 emc_pmacro_perbit_rfu_ctrl_2_b01; /* 0xd6c */ u32 emc_pmacro_perbit_rfu_ctrl_3_b01; /* 0xd70 */ u32 emc_pmacro_perbit_rfu_ctrl_4_b01; /* 0xd74 */ u32 emc_pmacro_perbit_rfu_ctrl_5_b01; /* 0xd78 */ u32 rsvd_d78[2]; /* 0xd80 */ u32 emc_pmacro_perbit_rfu1_ctrl_0_b01; /* 0xd84 */ u32 emc_pmacro_perbit_rfu1_ctrl_1_b01; /* 0xd88 */ u32 emc_pmacro_perbit_rfu1_ctrl_2_b01; /* 0xd8c */ u32 emc_pmacro_perbit_rfu1_ctrl_3_b01; /* 0xd90 */ u32 emc_pmacro_perbit_rfu1_ctrl_4_b01; /* 0xd94 */ u32 emc_pmacro_perbit_rfu1_ctrl_5_b01; /* 0xd98 */ u32 rsvd_d98[2]; /* 0xda0 */ u32 emc_pmacro_pmu_out_eoff1_0_b01; /* 0xda4 */ u32 emc_pmacro_pmu_out_eoff1_1_b01; /* 0xda8 */ u32 emc_pmacro_pmu_out_eoff1_2_b01; /* 0xdac */ u32 emc_pmacro_pmu_out_eoff1_3_b01; /* 0xdb0 */ u32 emc_pmacro_pmu_out_eoff1_4_b01; /* 0xdb4 */ u32 emc_pmacro_pmu_out_eoff1_5_b01; /* 0xdb8 */ u32 rsvd_db8[2]; /* 0xdc0 */ u32 emc_pmacro_comp_pmu_out_b01; /* 0xdc4 */ u32 rsvd_dc4[15]; /* 0xe00 */ u32 emc_training_cmd; /* 0xe04 */ u32 emc_training_ctrl; /* 0xe08 */ u32 emc_training_status; /* 0xe0c */ u32 emc_training_quse_cors_ctrl; /* 0xe10 */ u32 emc_training_quse_fine_ctrl; /* 0xe14 */ u32 emc_training_quse_ctrl_misc; /* 0xe18 */ u32 emc_training_write_fine_ctrl; /* 0xe1c */ u32 emc_training_write_ctrl_misc; /* 0xe20 */ u32 emc_training_write_vref_ctrl; /* 0xe24 */ u32 emc_training_read_fine_ctrl; /* 0xe28 */ u32 emc_training_read_ctrl_misc; /* 0xe2c */ u32 emc_training_read_vref_ctrl; /* 0xe30 */ u32 emc_training_ca_fine_ctrl; /* 0xe34 */ u32 emc_training_ca_ctrl_misc; /* 0xe38 */ u32 emc_training_ca_ctrl_misc1; /* 0xe3c */ u32 emc_training_ca_vref_ctrl; /* 0xe40 */ u32 emc_training_ca_tadr_ctrl; /* 0xe44 */ u32 emc_training_settle; /* 0xe48 */ u32 emc_training_debug_ctrl; /* 0xe4c */ u32 emc_training_debug_dq0; /* 0xe50 */ u32 emc_training_debug_dq1; /* 0xe54 */ u32 emc_training_debug_dq2; /* 0xe58 */ u32 emc_training_debug_dq3; /* 0xe5c */ u32 emc_training_mpc; /* 0xe60 */ u32 emc_training_patram_ctrl; /* 0xe64 */ u32 emc_training_patram_dq; /* 0xe68 */ u32 emc_training_patram_dmi; /* 0xe6c */ u32 emc_training_vref_settle; /* 0xe70 */ u32 emc_training_rw_eye_center_ib_byte0; /* 0xe74 */ u32 emc_training_rw_eye_center_ib_byte1; /* 0xe78 */ u32 emc_training_rw_eye_center_ib_byte2; /* 0xe7c */ u32 emc_training_rw_eye_center_ib_byte3; /* 0xe80 */ u32 emc_training_rw_eye_center_ib_misc; /* 0xe84 */ u32 emc_training_rw_eye_center_ob_byte0; /* 0xe88 */ u32 emc_training_rw_eye_center_ob_byte1; /* 0xe8c */ u32 emc_training_rw_eye_center_ob_byte2; /* 0xe90 */ u32 emc_training_rw_eye_center_ob_byte3; /* 0xe94 */ u32 emc_training_rw_eye_center_ob_misc; /* 0xe98 */ u32 emc_training_rw_offset_ib_byte0; /* 0xe9c */ u32 emc_training_rw_offset_ib_byte1; /* 0xea0 */ u32 emc_training_rw_offset_ib_byte2; /* 0xea4 */ u32 emc_training_rw_offset_ib_byte3; /* 0xea8 */ u32 emc_training_rw_offset_ib_misc; /* 0xeac */ u32 emc_training_rw_offset_ob_byte0; /* 0xeb0 */ u32 emc_training_rw_offset_ob_byte1; /* 0xeb4 */ u32 emc_training_rw_offset_ob_byte2; /* 0xeb8 */ u32 emc_training_rw_offset_ob_byte3; /* 0xebc */ u32 emc_training_rw_offset_ob_misc; /* 0xec0 */ u32 emc_training_opt_ca_vref; /* 0xec4 */ u32 emc_training_opt_dq_ob_vref; /* 0xec8 */ u32 emc_training_opt_dq_ib_vref_rank0; /* 0xecc */ u32 emc_training_opt_dq_ib_vref_rank1; /* 0xed0 */ u32 emc_training_quse_vref_ctrl; /* 0xed4 */ u32 emc_training_opt_dqs_ib_vref_rank0; /* 0xed8 */ u32 emc_training_opt_dqs_ib_vref_rank1; /* 0xedc */ u32 emc_training_dramc_timing; } emc_regs_t210_t; #endif ================================================ FILE: bdk/mem/heap.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "heap.h" #include #define HEAP_USED_MAGIC 0x50414548 // "HEAP". heap_t _heap; static void _heap_create(void *start) { _heap.start = start; _heap.first = NULL; _heap.last = NULL; } // Node info is before node address. static void *_heap_alloc(u32 size) { hnode_t *node, *new_node; // Align to cache line size. size = ALIGN(size, sizeof(hnode_t)); // First allocation. if (!_heap.first) { node = (hnode_t *)_heap.start; node->used = HEAP_USED_MAGIC; node->size = size; node->prev = NULL; node->next = NULL; _heap.first = node; _heap.last = node; return (void *)node + sizeof(hnode_t); } #ifdef BDK_MALLOC_NO_DEFRAG // Get the last allocated block. node = _heap.last; #else // Get first block and find the first available one. node = _heap.first; while (true) { // Check if there's available unused node. if (!node->used && (size <= node->size)) { // Size and offset of the new unused node. u32 new_size = node->size - size; new_node = (hnode_t *)((void *)node + sizeof(hnode_t) + size); // If there's aligned unused space from the old node, // create a new one and set the leftover size. if (new_size >= (sizeof(hnode_t) << 2)) { new_node->used = 0; new_node->size = new_size - sizeof(hnode_t); new_node->next = node->next; // Check that we are not on first node. if (new_node->next) new_node->next->prev = new_node; new_node->prev = node; node->next = new_node; } else // Unused node size is just enough. size += new_size; node->size = size; node->used = HEAP_USED_MAGIC; return (void *)node + sizeof(hnode_t); } // No unused node found, try the next one. if (node->next) node = node->next; else break; } #endif // No unused node found, create a new one. new_node = (hnode_t *)((void *)node + sizeof(hnode_t) + node->size); new_node->used = HEAP_USED_MAGIC; new_node->size = size; new_node->prev = node; new_node->next = NULL; node->next = new_node; _heap.last = new_node; return (void *)new_node + sizeof(hnode_t); } static void _heap_free(void *addr) { hnode_t *node = (hnode_t *)(addr - sizeof(hnode_t)); // Check if heap owns this address. if (addr < _heap.start || node->used != HEAP_USED_MAGIC) { //! BUGPRINTF("free error: addr %08p, used %08X!\n"); return; } node->used = 0; #ifndef BDK_MALLOC_NO_DEFRAG // Merge with previous node if empty. hnode_t *prev = node->prev; if (prev && !prev->used) { prev->size += node->size + sizeof(hnode_t); prev->next = node->next; if (node->next) node->next->prev = prev; // Set node to resized one. node = prev; } // Merge with next node if empty. hnode_t *next = node->next; if (next && !next->used) { node->size += next->size + sizeof(hnode_t); node->next = next->next; if (next->next) next->next->prev = node; } #endif } void heap_init(void *base) { _heap_create(base); } void heap_set(heap_t *heap) { memcpy(&_heap, heap, sizeof(heap_t)); } void *malloc(u32 size) { return _heap_alloc(size); } void *zalloc(u32 size) { void *buf = (void *)_heap_alloc(size); memset(buf, 0, ALIGN(size, sizeof(hnode_t))); // Clear the aligned size. return buf; } void *calloc(u32 num, u32 size) { return zalloc(num * size); } void free(void *buf) { _heap_free(buf); } void heap_monitor(heap_monitor_t *mon, bool print_node_stats) { u32 count = 0; memset(mon, 0, sizeof(heap_monitor_t)); hnode_t *node = _heap.first; while (true) { if (node->used) { mon->nodes_used++; mon->used += node->size + sizeof(hnode_t); } else mon->total += node->size + sizeof(hnode_t); if (print_node_stats) gfx_printf("%3d - %d, addr: 0x%08X, size: 0x%X\n", count, node->used, (u32)node + sizeof(hnode_t), node->size); count++; if (node->next) node = node->next; else break; } mon->total += mon->used; mon->nodes_total = count; } ================================================ FILE: bdk/mem/heap.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _HEAP_H_ #define _HEAP_H_ #include typedef struct _hnode { int used; u32 size; struct _hnode *prev; struct _hnode *next; u32 align[4]; // Align to arch cache line size. } hnode_t; typedef struct _heap { void *start; hnode_t *first; hnode_t *last; } heap_t; typedef struct { u32 total; u32 used; u32 nodes_total; u32 nodes_used; } heap_monitor_t; void heap_init(void *base); void heap_set(heap_t *heap); void *malloc(u32 size); void *calloc(u32 num, u32 size); void *zalloc(u32 size); void free(void *buf); void heap_monitor(heap_monitor_t *mon, bool print_node_stats); #endif ================================================ FILE: bdk/mem/mc.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #define HOS_WPR1_BASE 0x80020000 void mc_config_carveout_hos() { // Enable ACR GSR3 and flush data to ram. *(u32 *)(HOS_WPR1_BASE + SZ_256K - sizeof(u32)) = ACR_GSC3_ENABLE_MAGIC; bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, false); // Set VPR CYA TRUSTED DEFAULT. MC(MC_VIDEO_PROTECT_GPU_OVERRIDE_0) = VPR_OVR0_CYA_TRUST_DEFAULT; MC(MC_VIDEO_PROTECT_GPU_OVERRIDE_1) = 0; // Disable VPR carveout. MC(MC_VIDEO_PROTECT_BOM) = 0; MC(MC_VIDEO_PROTECT_SIZE_MB) = 0; MC(MC_VIDEO_PROTECT_REG_CTRL) = VPR_CTRL_LOCKED; // Disable TZDRAM carveout. MC(MC_SEC_CARVEOUT_BOM) = 0; MC(MC_SEC_CARVEOUT_SIZE_MB) = 0; MC(MC_SEC_CARVEOUT_REG_CTRL) = BIT(0); // Disable CPU FW carveout. MC(MC_MTS_CARVEOUT_BOM) = 0; MC(MC_MTS_CARVEOUT_SIZE_MB) = 0; MC(MC_MTS_CARVEOUT_REG_CTRL) = BIT(0); // Disable GEN1 carveout. MC(MC_SECURITY_CARVEOUT1_SIZE_128KB) = 0; MC(MC_SECURITY_CARVEOUT1_CFG0) = SEC_CARVEOUT_CFG_LOCKED | SEC_CARVEOUT_CFG_UNTRANSLATED_ONLY | SEC_CARVEOUT_CFG_APERTURE_ID(0) | SEC_CARVEOUT_CFG_FORCE_APERTURE_ID_MATCH; // Enable GEN2 carveout as WPR1. MC(MC_SECURITY_CARVEOUT2_BOM) = HOS_WPR1_BASE; MC(MC_SECURITY_CARVEOUT2_SIZE_128KB) = SZ_256K / SZ_128K; MC(MC_SECURITY_CARVEOUT2_CLIENT_ACCESS2) = SEC_CARVEOUT_CA2_R_GPU | SEC_CARVEOUT_CA2_W_GPU | SEC_CARVEOUT_CA2_R_TSEC; MC(MC_SECURITY_CARVEOUT2_CLIENT_ACCESS4) = SEC_CARVEOUT_CA4_R_GPU2 | SEC_CARVEOUT_CA4_W_GPU2; MC(MC_SECURITY_CARVEOUT2_CFG0) = SEC_CARVEOUT_CFG_LOCKED | SEC_CARVEOUT_CFG_UNTRANSLATED_ONLY | SEC_CARVEOUT_CFG_RD_NS | SEC_CARVEOUT_CFG_RD_SEC | SEC_CARVEOUT_CFG_RD_FALCON_LS | SEC_CARVEOUT_CFG_RD_FALCON_HS | SEC_CARVEOUT_CFG_WR_FALCON_LS | SEC_CARVEOUT_CFG_WR_FALCON_HS | SEC_CARVEOUT_CFG_APERTURE_ID(2) | SEC_CARVEOUT_CFG_SEND_CFG_TO_GPU | SEC_CARVEOUT_CFG_FORCE_APERTURE_ID_MATCH; // Prepare GEN3 carveout as WPR2. MC(MC_SECURITY_CARVEOUT3_SIZE_128KB) = 0; MC(MC_SECURITY_CARVEOUT3_CLIENT_ACCESS2) = SEC_CARVEOUT_CA2_R_GPU | SEC_CARVEOUT_CA2_W_GPU; MC(MC_SECURITY_CARVEOUT3_CLIENT_ACCESS4) = SEC_CARVEOUT_CA4_R_GPU2 | SEC_CARVEOUT_CA4_W_GPU2; MC(MC_SECURITY_CARVEOUT3_CFG0) = SEC_CARVEOUT_CFG_LOCKED | SEC_CARVEOUT_CFG_UNTRANSLATED_ONLY | SEC_CARVEOUT_CFG_RD_NS | SEC_CARVEOUT_CFG_RD_SEC | SEC_CARVEOUT_CFG_RD_FALCON_LS | SEC_CARVEOUT_CFG_RD_FALCON_HS | SEC_CARVEOUT_CFG_WR_FALCON_LS | SEC_CARVEOUT_CFG_WR_FALCON_HS | SEC_CARVEOUT_CFG_APERTURE_ID(3) | SEC_CARVEOUT_CFG_SEND_CFG_TO_GPU | SEC_CARVEOUT_CFG_FORCE_APERTURE_ID_MATCH; // Disable GEN4 carveout. MC(MC_SECURITY_CARVEOUT4_SIZE_128KB) = 0; MC(MC_SECURITY_CARVEOUT4_CFG0) = SEC_CARVEOUT_CFG_TZ_SECURE | SEC_CARVEOUT_CFG_LOCKED | SEC_CARVEOUT_CFG_UNTRANSLATED_ONLY | SEC_CARVEOUT_CFG_RD_NS | SEC_CARVEOUT_CFG_WR_NS; // Disable GEN5 carveout. MC(MC_SECURITY_CARVEOUT5_SIZE_128KB) = 0; MC(MC_SECURITY_CARVEOUT5_CFG0) = SEC_CARVEOUT_CFG_TZ_SECURE | SEC_CARVEOUT_CFG_LOCKED | SEC_CARVEOUT_CFG_UNTRANSLATED_ONLY | SEC_CARVEOUT_CFG_RD_NS | SEC_CARVEOUT_CFG_WR_NS; } // SDMMC, TSEC, XUSB and probably more need it to access < DRAM_START. void mc_enable_ahb_redirect(u32 offset) { // Bypass ARC clock gating. CLOCK(CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRD) |= BIT(19); //MC(MC_IRAM_REG_CTRL) &= ~BIT(0); MC(MC_IRAM_BOM) = IRAM_BASE; MC(MC_IRAM_TOM) = DRAM_START - offset; // Default is only IRAM: 0x4003F000. } void mc_disable_ahb_redirect() { MC(MC_IRAM_BOM) = 0xFFFFF000; MC(MC_IRAM_TOM) = 0; // Disable IRAM_CFG_WRITE_ACCESS (sticky). //MC(MC_IRAM_REG_CTRL) |= BIT(0); // Set ARC clock gating to automatic. CLOCK(CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRD) &= ~BIT(19); } bool mc_client_has_access(void *address) { // Check if address is in DRAM or if arbitration for IRAM is enabled. if ((u32)address >= DRAM_START) return true; // Access by default. else if ((u32)address >= IRAM_BASE && MC(MC_IRAM_BOM) == IRAM_BASE) return true; // Access by AHB arbitration. // No access to address space. return false; } void mc_enable() { // Reset EMC source to PLLP. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC) & 0x1FFFFFFF) | (2 << 29u); // Enable and clear reset for memory clocks. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_SET) = BIT(CLK_H_EMC) | BIT(CLK_H_MEM); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_X_SET) = BIT(CLK_X_EMC_DLL); CLOCK(CLK_RST_CONTROLLER_RST_DEV_H_CLR) = BIT(CLK_H_EMC) | BIT(CLK_H_MEM); usleep(5); // Enable redirection by default. mc_enable_ahb_redirect(1); } ================================================ FILE: bdk/mem/mc.h ================================================ /* * Copyright (c) 2018 naehrwert * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MC_H_ #define _MC_H_ #include #include void mc_config_tsec_carveout(u32 bom, u32 size1mb, bool lock); void mc_config_carveout_hos(); void mc_enable_ahb_redirect(u32 offset); void mc_disable_ahb_redirect(); bool mc_client_has_access(void *address); void mc_enable(); #endif ================================================ FILE: bdk/mem/mc_t210.h ================================================ /* * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MC_T210_H_ #define _MC_T210_H_ /* Memory Controller registers */ #define MC_INTSTATUS 0x0 #define MC_INTMASK 0x4 #define MC_ERR_STATUS 0x8 #define MC_ERR_ADR 0xC #define MC_SMMU_CONFIG 0x10 #define MC_SMMU_TLB_CONFIG 0x14 #define MC_SMMU_PTC_CONFIG 0x18 #define MC_SMMU_PTB_ASID 0x1C #define MC_SMMU_PTB_DATA 0x20 #define MC_SMMU_TLB_FLUSH 0x30 #define MC_SMMU_PTC_FLUSH 0x34 #define MC_SMMU_ASID_SECURITY 0x38 #define MC_SMMU_ASID_SECURITY_1 0x3C #define MC_SMMU_CLIENT_CONFIG0 0x40 #define MC_SMMU_CLIENT_CONFIG1 0x44 #define MC_SMMU_CLIENT_CONFIG2 0x48 #define MC_SMMU_CLIENT_CONFIG3 0x4C #define MC_EMEM_CFG 0x50 #define MC_EMEM_ADR_CFG 0x54 #define MC_EMEM_ADR_CFG_DEV0 0x58 #define MC_EMEM_ADR_CFG_DEV1 0x5C #define MC_EMEM_ADR_CFG_CHANNEL_MASK 0x60 #define MC_EMEM_ADR_CFG_BANK_MASK_0 0x64 #define MC_EMEM_ADR_CFG_BANK_MASK_1 0x68 #define MC_EMEM_ADR_CFG_BANK_MASK_2 0x6C #define MC_SECURITY_CFG0 0x70 #define MC_SECURITY_CFG1 0x74 #define MC_SECURITY_RSV 0x7C #define MC_EMEM_ARB_CFG 0x90 #define MC_EMEM_ARB_OUTSTANDING_REQ 0x94 #define MC_EMEM_ARB_TIMING_RCD 0x98 #define MC_EMEM_ARB_TIMING_RP 0x9C #define MC_EMEM_ARB_TIMING_RC 0xA0 #define MC_EMEM_ARB_TIMING_RAS 0xA4 #define MC_EMEM_ARB_TIMING_FAW 0xA8 #define MC_EMEM_ARB_TIMING_RRD 0xAC #define MC_EMEM_ARB_TIMING_RAP2PRE 0xB0 #define MC_EMEM_ARB_TIMING_WAP2PRE 0xB4 #define MC_EMEM_ARB_TIMING_R2R 0xB8 #define MC_EMEM_ARB_TIMING_W2W 0xBC #define MC_EMEM_ARB_TIMING_R2W 0xC0 #define MC_EMEM_ARB_TIMING_W2R 0xC4 #define MC_EMEM_ARB_MISC2 0xC8 #define MC_EMEM_ARB_DA_TURNS 0xD0 #define MC_EMEM_ARB_DA_COVERS 0xD4 #define MC_EMEM_ARB_MISC0 0xD8 #define MC_EMEM_ARB_MISC1 0xDC #define MC_EMEM_ARB_RING1_THROTTLE 0xE0 #define MC_EMEM_ARB_RING3_THROTTLE 0xE4 #define MC_EMEM_ARB_OVERRIDE 0xE8 #define MC_EMEM_ARB_RSV 0xEC #define MC_CLKEN_OVERRIDE 0xF4 #define MC_TIMING_CONTROL_DBG 0xF8 #define MC_TIMING_CONTROL 0xFC #define MC_STAT_CONTROL 0x100 #define MC_STAT_STATUS 0x104 #define MC_STAT_EMC_CLOCK_LIMIT 0x108 #define MC_STAT_EMC_CLOCK_LIMIT_MSBS 0x10C #define MC_STAT_EMC_CLOCKS 0x110 #define MC_STAT_EMC_CLOCKS_MSBS 0x114 #define MC_STAT_EMC_FILTER_SET0_ADR_LIMIT_LO 0x118 #define MC_STAT_EMC_FILTER_SET0_ADR_LIMIT_HI 0x11C #define MC_STAT_EMC_FILTER_SET0_SLACK_LIMIT 0x120 #define MC_STAT_EMC_FILTER_SET0_CLIENT_0 0x128 #define MC_STAT_EMC_FILTER_SET0_CLIENT_1 0x12C #define MC_STAT_EMC_FILTER_SET0_CLIENT_2 0x130 #define MC_STAT_EMC_FILTER_SET0_CLIENT_3 0x134 #define MC_STAT_EMC_SET0_COUNT 0x138 #define MC_STAT_EMC_SET0_COUNT_MSBS 0x13C #define MC_STAT_EMC_SET0_SLACK_ACCUM 0x140 #define MC_STAT_EMC_SET0_SLACK_ACCUM_MSBS 0x144 #define MC_STAT_EMC_SET0_HISTO_COUNT 0x148 #define MC_STAT_EMC_SET0_HISTO_COUNT_MSBS 0x14C #define MC_STAT_EMC_SET0_MINIMUM_SLACK_OBSERVED 0x150 #define MC_STAT_EMC_FILTER_SET1_ADR_LIMIT_LO 0x158 #define MC_STAT_EMC_FILTER_SET1_ADR_LIMIT_HI 0x15C #define MC_STAT_EMC_FILTER_SET1_SLACK_LIMIT 0x160 #define MC_STAT_EMC_FILTER_SET1_CLIENT_0 0x168 #define MC_STAT_EMC_FILTER_SET1_CLIENT_1 0x16C #define MC_STAT_EMC_FILTER_SET1_CLIENT_2 0x170 #define MC_STAT_EMC_FILTER_SET1_CLIENT_3 0x174 #define MC_STAT_EMC_SET1_COUNT 0x178 #define MC_STAT_EMC_SET1_COUNT_MSBS 0x17C #define MC_STAT_EMC_SET1_SLACK_ACCUM 0x180 #define MC_STAT_EMC_SET1_SLACK_ACCUM_MSBS 0x184 #define MC_STAT_EMC_SET1_HISTO_COUNT 0x188 #define MC_STAT_EMC_SET1_HISTO_COUNT_MSBS 0x18C #define MC_STAT_EMC_SET1_MINIMUM_SLACK_OBSERVED 0x190 #define MC_STAT_EMC_FILTER_SET0_VIRTUAL_ADR_LIMIT_LO 0x198 #define MC_STAT_EMC_FILTER_SET0_VIRTUAL_ADR_LIMIT_HI 0x19C #define MC_STAT_EMC_FILTER_SET0_ASID 0x1A0 #define MC_STAT_EMC_FILTER_SET1_VIRTUAL_ADR_LIMIT_LO 0x1A8 #define MC_STAT_EMC_FILTER_SET1_VIRTUAL_ADR_LIMIT_HI 0x1AC #define MC_STAT_EMC_FILTER_SET1_ASID 0x1B0 #define MC_STAT_EMC_SET0_IDLE_CYCLE_COUNT 0x1B8 #define MC_STAT_EMC_SET0_IDLE_CYCLE_COUNT_MSBS 0x1BC #define MC_STAT_EMC_SET0_IDLE_CYCLE_PARTITION_SELECT 0x1C0 #define MC_STAT_EMC_SET1_IDLE_CYCLE_COUNT 0x1C8 #define MC_STAT_EMC_SET1_IDLE_CYCLE_COUNT_MSBS 0x1CC #define MC_STAT_EMC_SET1_IDLE_CYCLE_PARTITION_SELECT 0x1D0 #define MC_SMMU_STATS_TLB_HIT_MISS_SOURCE 0x1EC #define MC_SMMU_STATS_TLB_HIT_COUNT 0x1F0 #define MC_SMMU_STATS_TLB_MISS_COUNT 0x1F4 #define MC_SMMU_STATS_PTC_HIT_COUNT 0x1F8 #define MC_SMMU_STATS_PTC_MISS_COUNT 0x1FC #define MC_CLIENT_HOTRESET_CTRL 0x200 #define MC_CLIENT_HOTRESET_STATUS 0x204 #define MC_EMEM_ARB_ISOCHRONOUS_0 0x208 #define MC_EMEM_ARB_ISOCHRONOUS_1 0x20C #define MC_EMEM_ARB_ISOCHRONOUS_2 0x210 #define MC_EMEM_ARB_ISOCHRONOUS_3 0x214 #define MC_EMEM_ARB_HYSTERESIS_0 0x218 #define MC_EMEM_ARB_HYSTERESIS_1 0x21C #define MC_EMEM_ARB_HYSTERESIS_2 0x220 #define MC_EMEM_ARB_HYSTERESIS_3 0x224 #define MC_SMMU_TRANSLATION_ENABLE_0 0x228 #define MC_SMMU_TRANSLATION_ENABLE_1 0x22C #define MC_SMMU_TRANSLATION_ENABLE_2 0x230 #define MC_SMMU_TRANSLATION_ENABLE_3 0x234 #define MC_SMMU_AFI_ASID 0x238 #define MC_SMMU_AVPC_ASID 0x23C #define MC_SMMU_DC_ASID 0x240 #define MC_SMMU_DCB_ASID 0x244 #define MC_SMMU_HC_ASID 0x250 #define MC_SMMU_HDA_ASID 0x254 #define MC_SMMU_ISP2_ASID 0x258 #define MC_SMMU_NVENC_ASID 0x264 #define MC_SMMU_PPCS_ASID 0x270 #define MC_SMMU_SATA_ASID 0x274 #define MC_SMMU_VI_ASID 0x280 #define MC_SMMU_VIC_ASID 0x284 #define MC_SMMU_XUSB_HOST_ASID 0x288 #define MC_SMMU_XUSB_DEV_ASID 0x28C #define MC_SMMU_A9AVP_ASID 0x290 #define MC_SMMU_TSEC_ASID 0x294 #define MC_SMMU_PPCS1_ASID 0x298 #define MC_AHB_EXTRA_SNAP_LEVELS 0x2A0 #define MC_APB_EXTRA_SNAP_LEVELS 0x2A4 #define MC_AVP_EXTRA_SNAP_LEVELS 0x2A8 #define MC_DIS_EXTRA_SNAP_LEVELS 0x2AC #define MC_PCX_EXTRA_SNAP_LEVELS 0x2B8 #define MC_FTOP_EXTRA_SNAP_LEVELS 0x2BC #define MC_SAX_EXTRA_SNAP_LEVELS 0x2C0 #define MC_VE_EXTRA_SNAP_LEVELS 0x2D8 #define MC_LATENCY_ALLOWANCE_AFI_0 0x2E0 #define MC_LATENCY_ALLOWANCE_AVPC_0 0x2E4 #define MC_LATENCY_ALLOWANCE_DC_0 0x2E8 #define MC_LATENCY_ALLOWANCE_DC_1 0x2EC #define MC_LATENCY_ALLOWANCE_DC_2 0x2F0 #define MC_LATENCY_ALLOWANCE_DCB_0 0x2F4 #define MC_LATENCY_ALLOWANCE_DCB_1 0x2F8 #define MC_LATENCY_ALLOWANCE_DCB_2 0x2FC #define MC_LATENCY_ALLOWANCE_HC_0 0x310 #define MC_LATENCY_ALLOWANCE_HC_1 0x314 #define MC_LATENCY_ALLOWANCE_HDA_0 0x318 #define MC_LATENCY_ALLOWANCE_MPCORE_0 0x320 #define MC_LATENCY_ALLOWANCE_NVENC_0 0x328 #define MC_LATENCY_ALLOWANCE_PPCS_0 0x344 #define MC_LATENCY_ALLOWANCE_PPCS_1 0x348 #define MC_LATENCY_ALLOWANCE_PTC_0 0x34C #define MC_LATENCY_ALLOWANCE_SATA_0 0x350 #define MC_LATENCY_ALLOWANCE_ISP2_0 0x370 #define MC_LATENCY_ALLOWANCE_ISP2_1 0x374 #define MC_LATENCY_ALLOWANCE_XUSB_0 0x37C #define MC_LATENCY_ALLOWANCE_XUSB_1 0x380 #define MC_LATENCY_ALLOWANCE_ISP2B_0 0x384 #define MC_LATENCY_ALLOWANCE_ISP2B_1 0x388 #define MC_LATENCY_ALLOWANCE_TSEC_0 0x390 #define MC_LATENCY_ALLOWANCE_VIC_0 0x394 #define MC_LATENCY_ALLOWANCE_VI2_0 0x398 #define MC_LATENCY_ALLOWANCE_AXIAP_0 0x3A0 #define MC_LATENCY_ALLOWANCE_A9AVP_0 0x3A4 #define MC_LATENCY_ALLOWANCE_GPU_0 0x3AC #define MC_LATENCY_ALLOWANCE_SDMMCA_0 0x3B8 #define MC_LATENCY_ALLOWANCE_SDMMCAA_0 0x3BC #define MC_LATENCY_ALLOWANCE_SDMMC_0 0x3C0 #define MC_LATENCY_ALLOWANCE_SDMMCAB_0 0x3C4 #define MC_LATENCY_ALLOWANCE_DC_3 0x3C8 #define MC_LATENCY_ALLOWANCE_NVDEC_0 0x3D8 #define MC_LATENCY_ALLOWANCE_APE_0 0x3DC #define MC_LATENCY_ALLOWANCE_SE_0 0x3E0 #define MC_LATENCY_ALLOWANCE_NVJPG_0 0x3E4 #define MC_LATENCY_ALLOWANCE_GPU2_0 0x3E8 #define MC_LATENCY_ALLOWANCE_ETR_0 0x3EC #define MC_LATENCY_ALLOWANCE_TSECB_0 0x3F0 #define MC_RESERVED_RSV 0x3FC #define MC_USBX_EXTRA_SNAP_LEVELS 0x404 #define MC_DISB_EXTRA_SNAP_LEVELS 0x408 #define MC_MSE_EXTRA_SNAP_LEVELS 0x40C #define MC_VE2_EXTRA_SNAP_LEVELS 0x410 #define MC_A9AVPPC_EXTRA_SNAP_LEVELS 0x414 #define MC_VIDEO_PROTECT_VPR_OVERRIDE 0x418 #define MC_DIS_PTSA_RATE 0x41C #define MC_DIS_PTSA_MIN 0x420 #define MC_DIS_PTSA_MAX 0x424 #define MC_DISB_PTSA_RATE 0x428 #define MC_DISB_PTSA_MIN 0x42C #define MC_DISB_PTSA_MAX 0x430 #define MC_VE_PTSA_RATE 0x434 #define MC_VE_PTSA_MIN 0x438 #define MC_VE_PTSA_MAX 0x43C #define MC_RING2_PTSA_RATE 0x440 #define MC_RING2_PTSA_MIN 0x444 #define MC_RING2_PTSA_MAX 0x448 #define MC_MLL_MPCORER_PTSA_RATE 0x44C #define MC_MLL_MPCORER_PTSA_MIN 0x450 #define MC_MLL_MPCORER_PTSA_MAX 0x454 #define MC_SMMU_SMMU_PTSA_RATE 0x458 #define MC_SMMU_SMMU_PTSA_MIN 0x45C #define MC_SMMU_SMMU_PTSA_MAX 0x460 #define MC_RING1_PTSA_RATE 0x47C #define MC_RING1_PTSA_MIN 0x480 #define MC_RING1_PTSA_MAX 0x484 #define MC_A9AVPPC_PTSA_RATE 0x488 #define MC_A9AVPPC_PTSA_MIN 0x48C #define MC_A9AVPPC_PTSA_MAX 0x490 #define MC_VE2_PTSA_RATE 0x494 #define MC_VE2_PTSA_MIN 0x498 #define MC_VE2_PTSA_MAX 0x49C #define MC_ISP_PTSA_RATE 0x4A0 #define MC_ISP_PTSA_MIN 0x4A4 #define MC_ISP_PTSA_MAX 0x4A8 #define MC_PCX_PTSA_RATE 0x4AC #define MC_PCX_PTSA_MIN 0x4B0 #define MC_PCX_PTSA_MAX 0x4B4 #define MC_SAX_PTSA_RATE 0x4B8 #define MC_SAX_PTSA_MIN 0x4BC #define MC_SAX_PTSA_MAX 0x4C0 #define MC_MSE_PTSA_RATE 0x4C4 #define MC_MSE_PTSA_MIN 0x4C8 #define MC_MSE_PTSA_MAX 0x4CC #define MC_SD_PTSA_RATE 0x4D0 #define MC_SD_PTSA_MIN 0x4D4 #define MC_SD_PTSA_MAX 0x4D8 #define MC_AHB_PTSA_RATE 0x4DC #define MC_AHB_PTSA_MIN 0x4E0 #define MC_AHB_PTSA_MAX 0x4E4 #define MC_APB_PTSA_RATE 0x4E8 #define MC_APB_PTSA_MIN 0x4EC #define MC_APB_PTSA_MAX 0x4F0 #define MC_AVP_PTSA_RATE 0x4F4 #define MC_AVP_PTSA_MIN 0x4F8 #define MC_AVP_PTSA_MAX 0x4FC #define MC_FTOP_PTSA_RATE 0x50C #define MC_FTOP_PTSA_MIN 0x510 #define MC_FTOP_PTSA_MAX 0x514 #define MC_HOST_PTSA_RATE 0x518 #define MC_HOST_PTSA_MIN 0x51C #define MC_HOST_PTSA_MAX 0x520 #define MC_USBX_PTSA_RATE 0x524 #define MC_USBX_PTSA_MIN 0x528 #define MC_USBX_PTSA_MAX 0x52C #define MC_USBD_PTSA_RATE 0x530 #define MC_USBD_PTSA_MIN 0x534 #define MC_USBD_PTSA_MAX 0x538 #define MC_GK_PTSA_RATE 0x53C #define MC_GK_PTSA_MIN 0x540 #define MC_GK_PTSA_MAX 0x544 #define MC_AUD_PTSA_RATE 0x548 #define MC_AUD_PTSA_MIN 0x54C #define MC_AUD_PTSA_MAX 0x550 #define MC_VICPC_PTSA_RATE 0x554 #define MC_VICPC_PTSA_MIN 0x558 #define MC_VICPC_PTSA_MAX 0x55C #define MC_JPG_PTSA_RATE 0x584 #define MC_JPG_PTSA_MIN 0x588 #define MC_JPG_PTSA_MAX 0x58C #define MC_VIDEO_PROTECT_VPR_OVERRIDE1 0x590 #define MC_SMMU_TLB_SET_SELECTION_MASK_0 0x600 #define MC_GK2_PTSA_RATE 0x610 #define MC_GK2_PTSA_MIN 0x614 #define MC_GK2_PTSA_MAX 0x618 #define MC_SDM_PTSA_RATE 0x61C #define MC_SDM_PTSA_MIN 0x620 #define MC_SDM_PTSA_MAX 0x624 #define MC_HDAPC_PTSA_RATE 0x628 #define MC_HDAPC_PTSA_MIN 0x62C #define MC_HDAPC_PTSA_MAX 0x630 #define MC_DFD_PTSA_RATE 0x634 #define MC_DFD_PTSA_MIN 0x638 #define MC_DFD_PTSA_MAX 0x63C #define MC_VIDEO_PROTECT_BOM 0x648 #define MC_VIDEO_PROTECT_SIZE_MB 0x64C #define MC_VIDEO_PROTECT_REG_CTRL 0x650 #define MC_ERR_VPR_STATUS 0x654 #define MC_ERR_VPR_ADR 0x658 #define MC_IRAM_BOM 0x65C #define MC_IRAM_TOM 0x660 #define MC_EMEM_CFG_ACCESS_CTRL 0x664 #define MC_TZ_SECURITY_CTRL 0x668 #define TZ_SEC_CTRL_CPU_STRICT_TZ_APERTURE_CHECK BIT(0) #define MC_EMEM_ARB_OUTSTANDING_REQ_RING3 0x66C #define MC_SEC_CARVEOUT_BOM 0x670 #define MC_SEC_CARVEOUT_SIZE_MB 0x674 #define MC_SEC_CARVEOUT_REG_CTRL 0x678 #define MC_ERR_SEC_STATUS 0x67C #define MC_ERR_SEC_ADR 0x680 #define MC_PC_IDLE_CLOCK_GATE_CONFIG 0x684 #define MC_STUTTER_CONTROL 0x688 #define MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0A 0x690 #define MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0AB 0x694 #define MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0B 0x698 #define MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0BB 0x69C #define MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0C 0x6A0 #define MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0CB 0x6A4 #define MC_EMEM_ARB_NISO_THROTTLE 0x6B0 #define MC_EMEM_ARB_OUTSTANDING_REQ_NISO 0x6B4 #define MC_EMEM_ARB_NISO_THROTTLE_MASK 0x6B8 #define MC_EMEM_ARB_RING0_THROTTLE_MASK 0x6BC #define MC_EMEM_ARB_TIMING_RFCPB 0x6C0 #define MC_EMEM_ARB_TIMING_CCDMW 0x6C4 #define MC_EMEM_ARB_REFPB_HP_CTRL 0x6F0 #define MC_EMEM_ARB_REFPB_BANK_CTRL 0x6F4 #define MC_MIN_LENGTH_AFI_0 0x88C #define MC_MIN_LENGTH_AVPC_0 0x890 #define MC_MIN_LENGTH_DC_0 0x894 #define MC_MIN_LENGTH_DC_1 0x898 #define MC_MIN_LENGTH_DC_2 0x89C #define MC_MIN_LENGTH_DCB_0 0x8A0 #define MC_MIN_LENGTH_DCB_1 0x8A4 #define MC_MIN_LENGTH_DCB_2 0x8A8 #define MC_MIN_LENGTH_HC_0 0x8BC #define MC_MIN_LENGTH_HC_1 0x8C0 #define MC_MIN_LENGTH_HDA_0 0x8C4 #define MC_MIN_LENGTH_MPCORE_0 0x8CC #define MC_MIN_LENGTH_NVENC_0 0x8D4 #define MC_MIN_LENGTH_PPCS_0 0x8F0 #define MC_MIN_LENGTH_PPCS_1 0x8F4 #define MC_MIN_LENGTH_PTC_0 0x8F8 #define MC_MIN_LENGTH_SATA_0 0x8FC #define MC_MIN_LENGTH_ISP2_0 0x91C #define MC_MIN_LENGTH_ISP2_1 0x920 #define MC_MIN_LENGTH_XUSB_0 0x928 #define MC_MIN_LENGTH_XUSB_1 0x92C #define MC_MIN_LENGTH_ISP2B_0 0x930 #define MC_MIN_LENGTH_ISP2B_1 0x934 #define MC_MIN_LENGTH_TSEC_0 0x93C #define MC_MIN_LENGTH_VIC_0 0x940 #define MC_MIN_LENGTH_VI2_0 0x944 #define MC_MIN_LENGTH_AXIAP_0 0x94C #define MC_MIN_LENGTH_A9AVP_0 0x950 #define MC_RESERVED_RSV_1 0x958 #define MC_DVFS_PIPE_SELECT 0x95C #define MC_PTSA_GRANT_DECREMENT 0x960 #define MC_IRAM_REG_CTRL 0x964 #define MC_EMEM_ARB_OVERRIDE_1 0x968 #define MC_CLIENT_HOTRESET_CTRL_1 0x970 #define MC_CLIENT_HOTRESET_STATUS_1 0x974 #define MC_VIDEO_PROTECT_BOM_ADR_HI 0x978 #define MC_IRAM_ADR_HI 0x980 #define MC_VIDEO_PROTECT_GPU_OVERRIDE_0 0x984 #define MC_VIDEO_PROTECT_GPU_OVERRIDE_1 0x988 #define MC_EMEM_ARB_STATS_0 0x990 #define MC_EMEM_ARB_STATS_1 0x994 #define MC_MTS_CARVEOUT_BOM 0x9A0 #define MC_MTS_CARVEOUT_SIZE_MB 0x9A4 #define MC_MTS_CARVEOUT_ADR_HI 0x9A8 #define MC_MTS_CARVEOUT_REG_CTRL 0x9AC #define MC_ERR_MTS_STATUS 0x9B0 #define MC_ERR_MTS_ADR 0x9B4 #define MC_SMMU_PTC_FLUSH_1 0x9B8 #define MC_SECURITY_CFG3 0x9BC #define MC_ERR_APB_ASID_UPDATE_STATUS 0x9D0 #define MC_SEC_CARVEOUT_ADR_HI 0x9D4 #define MC_DA_CONFIG0 0x9DC #define MC_SMMU_ASID_SECURITY_2 0x9E0 #define MC_SMMU_ASID_SECURITY_3 0x9E4 #define MC_SMMU_ASID_SECURITY_4 0x9E8 #define MC_SMMU_ASID_SECURITY_5 0x9EC #define MC_SMMU_ASID_SECURITY_6 0x9F0 #define MC_SMMU_ASID_SECURITY_7 0x9F4 #define MC_GK_EXTRA_SNAP_LEVELS 0xA00 #define MC_SD_EXTRA_SNAP_LEVELS 0xA04 #define MC_ISP_EXTRA_SNAP_LEVELS 0xA08 #define MC_AUD_EXTRA_SNAP_LEVELS 0xA10 #define MC_HOST_EXTRA_SNAP_LEVELS 0xA14 #define MC_USBD_EXTRA_SNAP_LEVELS 0xA18 #define MC_VICPC_EXTRA_SNAP_LEVELS 0xA1C #define MC_STAT_EMC_FILTER_SET0_ADR_LIMIT_UPPER 0xA20 #define MC_STAT_EMC_FILTER_SET1_ADR_LIMIT_UPPER 0xA24 #define MC_STAT_EMC_FILTER_SET0_VIRTUAL_ADR_LIMIT_UPPER 0xA28 #define MC_STAT_EMC_FILTER_SET1_VIRTUAL_ADR_LIMIT_UPPER 0xA2C #define MC_JPG_EXTRA_SNAP_LEVELS 0xA3C #define MC_GK2_EXTRA_SNAP_LEVELS 0xA40 #define MC_SDM_EXTRA_SNAP_LEVELS 0xA44 #define MC_HDAPC_EXTRA_SNAP_LEVELS 0xA48 #define MC_DFD_EXTRA_SNAP_LEVELS 0xA4C #define MC_SMMU_DC1_ASID 0xA88 #define MC_SMMU_SDMMC1A_ASID 0xA94 #define MC_SMMU_SDMMC2A_ASID 0xA98 #define MC_SMMU_SDMMC3A_ASID 0xA9C #define MC_SMMU_SDMMC4A_ASID 0xAA0 #define MC_SMMU_ISP2B_ASID 0xAA4 #define MC_SMMU_GPU_ASID 0xAA8 #define MC_SMMU_GPUB_ASID 0xAAC #define MC_SMMU_PPCS2_ASID 0xAB0 #define MC_SMMU_NVDEC_ASID 0xAB4 #define MC_SMMU_APE_ASID 0xAB8 #define MC_SMMU_SE_ASID 0xABC #define MC_SMMU_NVJPG_ASID 0xAC0 #define MC_SMMU_HC1_ASID 0xAC4 #define MC_SMMU_SE1_ASID 0xAC8 #define MC_SMMU_AXIAP_ASID 0xACC #define MC_SMMU_ETR_ASID 0xAD0 #define MC_SMMU_TSECB_ASID 0xAD4 #define MC_SMMU_TSEC1_ASID 0xAD8 #define MC_SMMU_TSECB1_ASID 0xADC #define MC_SMMU_NVDEC1_ASID 0xAE0 #define MC_MIN_LENGTH_GPU_0 0xB04 #define MC_MIN_LENGTH_SDMMCA_0 0xB10 #define MC_MIN_LENGTH_SDMMCAA_0 0xB14 #define MC_MIN_LENGTH_SDMMC_0 0xB18 #define MC_MIN_LENGTH_SDMMCAB_0 0xB1C #define MC_MIN_LENGTH_DC_3 0xB20 #define MC_MIN_LENGTH_NVDEC_0 0xB30 #define MC_MIN_LENGTH_APE_0 0xB34 #define MC_MIN_LENGTH_SE_0 0xB38 #define MC_MIN_LENGTH_NVJPG_0 0xB3C #define MC_MIN_LENGTH_GPU2_0 0xB40 #define MC_MIN_LENGTH_ETR_0 0xB44 #define MC_MIN_LENGTH_TSECB_0 0xB48 #define MC_EMEM_ARB_NISO_THROTTLE_MASK_1 0xB80 #define MC_EMEM_ARB_HYSTERESIS_4 0xB84 #define MC_STAT_EMC_FILTER_SET0_CLIENT_4 0xB88 #define MC_STAT_EMC_FILTER_SET1_CLIENT_4 0xB8C #define MC_EMEM_ARB_ISOCHRONOUS_4 0xB94 #define MC_SMMU_TRANSLATION_ENABLE_4 0xB98 #define MC_SMMU_CLIENT_CONFIG4 0xB9C #define MC_EMEM_ARB_DHYSTERESIS_0 0xBB0 #define MC_EMEM_ARB_DHYSTERESIS_1 0xBB4 #define MC_EMEM_ARB_DHYSTERESIS_2 0xBB8 #define MC_EMEM_ARB_DHYSTERESIS_3 0xBBC #define MC_EMEM_ARB_DHYSTERESIS_4 0xBC0 #define MC_EMEM_ARB_DHYST_CTRL 0xBCC #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_0 0xBD0 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_1 0xBD4 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_2 0xBD8 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_3 0xBDC #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_4 0xBE0 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_5 0xBE4 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_6 0xBE8 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_7 0xBEC #define MC_ERR_GENERALIZED_CARVEOUT_STATUS 0xC00 #define MC_ERR_GENERALIZED_CARVEOUT_ADR 0xC04 #define MC_SECURITY_CARVEOUT1_CFG0 0xC08 #define MC_SECURITY_CARVEOUT1_BOM 0xC0C #define MC_SECURITY_CARVEOUT1_BOM_HI 0xC10 #define MC_SECURITY_CARVEOUT1_SIZE_128KB 0xC14 #define MC_SECURITY_CARVEOUT1_CLIENT_ACCESS0 0xC18 #define MC_SECURITY_CARVEOUT1_CLIENT_ACCESS1 0xC1C #define MC_SECURITY_CARVEOUT1_CLIENT_ACCESS2 0xC20 #define MC_SECURITY_CARVEOUT1_CLIENT_ACCESS3 0xC24 #define MC_SECURITY_CARVEOUT1_CLIENT_ACCESS4 0xC28 #define MC_SECURITY_CARVEOUT1_CLIENT_FORCE_INTERNAL_ACCESS0 0xC2C #define MC_SECURITY_CARVEOUT1_CLIENT_FORCE_INTERNAL_ACCESS1 0xC30 #define MC_SECURITY_CARVEOUT1_CLIENT_FORCE_INTERNAL_ACCESS2 0xC34 #define MC_SECURITY_CARVEOUT1_CLIENT_FORCE_INTERNAL_ACCESS3 0xC38 #define MC_SECURITY_CARVEOUT1_CLIENT_FORCE_INTERNAL_ACCESS4 0xC3C #define MC_SECURITY_CARVEOUT2_CFG0 0xC58 #define MC_SECURITY_CARVEOUT2_BOM 0xC5C #define MC_SECURITY_CARVEOUT2_BOM_HI 0xC60 #define MC_SECURITY_CARVEOUT2_SIZE_128KB 0xC64 #define MC_SECURITY_CARVEOUT2_CLIENT_ACCESS0 0xC68 #define MC_SECURITY_CARVEOUT2_CLIENT_ACCESS1 0xC6C #define MC_SECURITY_CARVEOUT2_CLIENT_ACCESS2 0xC70 #define MC_SECURITY_CARVEOUT2_CLIENT_ACCESS3 0xC74 #define MC_SECURITY_CARVEOUT2_CLIENT_ACCESS4 0xC78 #define MC_SECURITY_CARVEOUT2_CLIENT_FORCE_INTERNAL_ACCESS0 0xC7C #define MC_SECURITY_CARVEOUT2_CLIENT_FORCE_INTERNAL_ACCESS1 0xC80 #define MC_SECURITY_CARVEOUT2_CLIENT_FORCE_INTERNAL_ACCESS2 0xC84 #define MC_SECURITY_CARVEOUT2_CLIENT_FORCE_INTERNAL_ACCESS3 0xC88 #define MC_SECURITY_CARVEOUT2_CLIENT_FORCE_INTERNAL_ACCESS4 0xC8C #define MC_SECURITY_CARVEOUT3_CFG0 0xCA8 #define MC_SECURITY_CARVEOUT3_BOM 0xCAC #define MC_SECURITY_CARVEOUT3_BOM_HI 0xCB0 #define MC_SECURITY_CARVEOUT3_SIZE_128KB 0xCB4 #define MC_SECURITY_CARVEOUT3_CLIENT_ACCESS0 0xCB8 #define MC_SECURITY_CARVEOUT3_CLIENT_ACCESS1 0xCBC #define MC_SECURITY_CARVEOUT3_CLIENT_ACCESS2 0xCC0 #define MC_SECURITY_CARVEOUT3_CLIENT_ACCESS3 0xCC4 #define MC_SECURITY_CARVEOUT3_CLIENT_ACCESS4 0xCC8 #define MC_SECURITY_CARVEOUT3_CLIENT_FORCE_INTERNAL_ACCESS0 0xCCC #define MC_SECURITY_CARVEOUT3_CLIENT_FORCE_INTERNAL_ACCESS1 0xCD0 #define MC_SECURITY_CARVEOUT3_CLIENT_FORCE_INTERNAL_ACCESS2 0xCD4 #define MC_SECURITY_CARVEOUT3_CLIENT_FORCE_INTERNAL_ACCESS3 0xCD8 #define MC_SECURITY_CARVEOUT3_CLIENT_FORCE_INTERNAL_ACCESS4 0xCDC #define MC_SECURITY_CARVEOUT4_CFG0 0xCF8 #define MC_SECURITY_CARVEOUT4_BOM 0xCFC #define MC_SECURITY_CARVEOUT4_BOM_HI 0xD00 #define MC_SECURITY_CARVEOUT4_SIZE_128KB 0xD04 #define MC_SECURITY_CARVEOUT4_CLIENT_ACCESS0 0xD08 #define MC_SECURITY_CARVEOUT4_CLIENT_ACCESS1 0xD0C #define MC_SECURITY_CARVEOUT4_CLIENT_ACCESS2 0xD10 #define MC_SECURITY_CARVEOUT4_CLIENT_ACCESS3 0xD14 #define MC_SECURITY_CARVEOUT4_CLIENT_ACCESS4 0xD18 #define MC_SECURITY_CARVEOUT4_CLIENT_FORCE_INTERNAL_ACCESS0 0xD1C #define MC_SECURITY_CARVEOUT4_CLIENT_FORCE_INTERNAL_ACCESS1 0xD20 #define MC_SECURITY_CARVEOUT4_CLIENT_FORCE_INTERNAL_ACCESS2 0xD24 #define MC_SECURITY_CARVEOUT4_CLIENT_FORCE_INTERNAL_ACCESS3 0xD28 #define MC_SECURITY_CARVEOUT4_CLIENT_FORCE_INTERNAL_ACCESS4 0xD2C #define MC_SECURITY_CARVEOUT5_CFG0 0xD48 #define MC_SECURITY_CARVEOUT5_BOM 0xD4C #define MC_SECURITY_CARVEOUT5_BOM_HI 0xD50 #define MC_SECURITY_CARVEOUT5_SIZE_128KB 0xD54 #define MC_SECURITY_CARVEOUT5_CLIENT_ACCESS0 0xD58 #define MC_SECURITY_CARVEOUT5_CLIENT_ACCESS1 0xD5C #define MC_SECURITY_CARVEOUT5_CLIENT_ACCESS2 0xD60 #define MC_SECURITY_CARVEOUT5_CLIENT_ACCESS3 0xD64 #define MC_SECURITY_CARVEOUT5_CLIENT_ACCESS4 0xD68 #define MC_SECURITY_CARVEOUT5_CLIENT_FORCE_INTERNAL_ACCESS0 0xD6C #define MC_SECURITY_CARVEOUT5_CLIENT_FORCE_INTERNAL_ACCESS1 0xD70 #define MC_SECURITY_CARVEOUT5_CLIENT_FORCE_INTERNAL_ACCESS2 0xD74 #define MC_SECURITY_CARVEOUT5_CLIENT_FORCE_INTERNAL_ACCESS3 0xD78 #define MC_SECURITY_CARVEOUT5_CLIENT_FORCE_INTERNAL_ACCESS4 0xD7C #define MC_PCFIFO_CLIENT_CONFIG0 0xDD0 #define MC_PCFIFO_CLIENT_CONFIG1 0xDD4 #define MC_PCFIFO_CLIENT_CONFIG2 0xDD8 #define MC_PCFIFO_CLIENT_CONFIG3 0xDDC #define MC_PCFIFO_CLIENT_CONFIG4 0xDE0 /* T210B01 only registers */ #define MC_SMMU_ISP21_ASID_B01 0x804 #define MC_SMMU_ISP2B1_ASID_B01 0x808 #define MC_UNTRANSLATED_REGION_CHECK_B01 0x948 /*! MC_SECURITY_CARVEOUTX_CLIENT_ACCESS/CLIENT_FORCE_INTERNAL_ACCESS0 */ #define SEC_CARVEOUT_CA0_R_PTCR BIT(0) #define SEC_CARVEOUT_CA0_R_DISPLAY0A BIT(1) #define SEC_CARVEOUT_CA0_R_DISPLAY0AB BIT(2) #define SEC_CARVEOUT_CA0_R_DISPLAY0B BIT(3) #define SEC_CARVEOUT_CA0_R_DISPLAY0BB BIT(4) #define SEC_CARVEOUT_CA0_R_DISPLAY0C BIT(5) #define SEC_CARVEOUT_CA0_R_DISPLAY0CB BIT(6) #define SEC_CARVEOUT_CA0_R_AFI BIT(14) #define SEC_CARVEOUT_CA0_R_BPMP_C BIT(15) #define SEC_CARVEOUT_CA0_R_DISPLAYHC BIT(16) #define SEC_CARVEOUT_CA0_R_DISPLAYHCB BIT(17) #define SEC_CARVEOUT_CA0_R_HDA BIT(21) #define SEC_CARVEOUT_CA0_R_HOST1XDMA BIT(22) #define SEC_CARVEOUT_CA0_R_HOST1X BIT(23) #define SEC_CARVEOUT_CA0_R_NVENC BIT(28) #define SEC_CARVEOUT_CA0_R_PPCSAHBDMA BIT(29) #define SEC_CARVEOUT_CA0_R_PPCSAHBSLV BIT(30) #define SEC_CARVEOUT_CA0_R_SATAR BIT(31) /*! MC_SECURITY_CARVEOUTX_CLIENT_ACCESS/CLIENT_FORCE_INTERNAL_ACCESS1 */ #define SEC_CARVEOUT_CA1_R_VDEBSEV BIT(2) #define SEC_CARVEOUT_CA1_R_VDEMBE BIT(3) #define SEC_CARVEOUT_CA1_R_VDEMCE BIT(4) #define SEC_CARVEOUT_CA1_R_VDETPE BIT(5) #define SEC_CARVEOUT_CA1_R_CCPLEXLP_C BIT(6) #define SEC_CARVEOUT_CA1_R_CCPLEX_C BIT(7) #define SEC_CARVEOUT_CA1_W_NVENC BIT(11) #define SEC_CARVEOUT_CA1_W_AFI BIT(17) #define SEC_CARVEOUT_CA1_W_BPMP_C BIT(18) #define SEC_CARVEOUT_CA1_W_HDA BIT(21) #define SEC_CARVEOUT_CA1_W_HOST1X BIT(22) #define SEC_CARVEOUT_CA1_W_CCPLEXLP_C BIT(24) #define SEC_CARVEOUT_CA1_W_CCPLEX_C BIT(25) #define SEC_CARVEOUT_CA1_W_PPCSAHBDMA BIT(27) #define SEC_CARVEOUT_CA1_W_PPCSAHBSLV BIT(28) #define SEC_CARVEOUT_CA1_W_SATA BIT(29) #define SEC_CARVEOUT_CA1_W_VDEBSEV BIT(30) #define SEC_CARVEOUT_CA1_W_VDEDBG BIT(31) /*! MC_SECURITY_CARVEOUTX_CLIENT_ACCESS/CLIENT_FORCE_INTERNAL_ACCESS2 */ #define SEC_CARVEOUT_CA2_W_VDEMBE BIT(0) #define SEC_CARVEOUT_CA2_W_VDETPM BIT(1) #define SEC_CARVEOUT_CA2_R_ISPRA BIT(4) #define SEC_CARVEOUT_CA2_W_ISPWA BIT(6) #define SEC_CARVEOUT_CA2_W_ISPWB BIT(7) #define SEC_CARVEOUT_CA2_R_XUSB_HOST BIT(10) #define SEC_CARVEOUT_CA2_W_XUSB_HOST BIT(11) #define SEC_CARVEOUT_CA2_R_XUSB_DEV BIT(12) #define SEC_CARVEOUT_CA2_W_XUSB_DEV BIT(13) #define SEC_CARVEOUT_CA2_R_SE2 BIT(14) #define SEC_CARVEOUT_CA2_W_SE2 BIT(16) #define SEC_CARVEOUT_CA2_R_TSEC BIT(20) #define SEC_CARVEOUT_CA2_W_TSEC BIT(21) #define SEC_CARVEOUT_CA2_R_ADSP_SC BIT(22) #define SEC_CARVEOUT_CA2_W_ADSP_SC BIT(23) #define SEC_CARVEOUT_CA2_R_GPU BIT(24) #define SEC_CARVEOUT_CA2_W_GPU BIT(25) #define SEC_CARVEOUT_CA2_R_DISPLAYT BIT(26) /*! MC_SECURITY_CARVEOUTX_CLIENT_ACCESS/CLIENT_FORCE_INTERNAL_ACCESS3 */ #define SEC_CARVEOUT_CA3_R_SDMMCA BIT(0) #define SEC_CARVEOUT_CA3_R_SDMMCAA BIT(1) #define SEC_CARVEOUT_CA3_R_SDMMC BIT(2) #define SEC_CARVEOUT_CA3_R_SDMMCAB BIT(3) #define SEC_CARVEOUT_CA3_W_SDMMCA BIT(4) #define SEC_CARVEOUT_CA3_W_SDMMCAA BIT(5) #define SEC_CARVEOUT_CA3_W_SDMMC BIT(6) #define SEC_CARVEOUT_CA3_W_SDMMCAB BIT(7) #define SEC_CARVEOUT_CA3_R_VIC BIT(12) #define SEC_CARVEOUT_CA3_W_VIC BIT(13) #define SEC_CARVEOUT_CA3_W_VIW BIT(18) #define SEC_CARVEOUT_CA3_R_DISPLAYD BIT(19) #define SEC_CARVEOUT_CA3_R_NVDEC BIT(24) #define SEC_CARVEOUT_CA3_W_NVDEC BIT(25) #define SEC_CARVEOUT_CA3_R_APE BIT(26) #define SEC_CARVEOUT_CA3_W_APE BIT(27) #define SEC_CARVEOUT_CA3_R_NVJPG BIT(30) #define SEC_CARVEOUT_CA3_W_NVJPG BIT(31) /*! MC_SECURITY_CARVEOUTX_CLIENT_ACCESS/CLIENT_FORCE_INTERNAL_ACCESS4 */ #define SEC_CARVEOUT_CA4_R_SE BIT(0) #define SEC_CARVEOUT_CA4_W_SE BIT(1) #define SEC_CARVEOUT_CA4_R_AXIAP BIT(2) #define SEC_CARVEOUT_CA4_W_AXIAP BIT(3) #define SEC_CARVEOUT_CA4_R_ETR BIT(4) #define SEC_CARVEOUT_CA4_W_ETR BIT(5) #define SEC_CARVEOUT_CA4_R_TSECB BIT(6) #define SEC_CARVEOUT_CA4_W_TSECB BIT(7) #define SEC_CARVEOUT_CA4_R_GPU2 BIT(8) #define SEC_CARVEOUT_CA4_W_GPU2 BIT(9) /*! MC_VIDEO_PROTECT_REG_CTRL */ #define VPR_LOCK_MODE_SHIFT 0 #define VPR_CTRL_UNLOCKED (0 << VPR_LOCK_MODE_SHIFT) #define VPR_CTRL_LOCKED (1 << VPR_LOCK_MODE_SHIFT) #define VPR_PROTECT_MODE_SHIFT 1 #define SEC_CTRL_SECURE (0 << VPR_PROTECT_MODE_SHIFT) #define VPR_CTRL_TZ_SECURE (1 << VPR_PROTECT_MODE_SHIFT) /*! MC_SECURITY_CARVEOUTX_CFG0 */ // Mode of LOCK_MODE. #define PROTECT_MODE_SHIFT 0 #define SEC_CARVEOUT_CFG_ALL_SECURE (0 << PROTECT_MODE_SHIFT) #define SEC_CARVEOUT_CFG_TZ_SECURE (1 << PROTECT_MODE_SHIFT) // Enables PROTECT_MODE. #define LOCK_MODE_SHIFT 1 #define SEC_CARVEOUT_CFG_UNLOCKED (0 << LOCK_MODE_SHIFT) #define SEC_CARVEOUT_CFG_LOCKED (1 << LOCK_MODE_SHIFT) #define ADDRESS_TYPE_SHIFT 2 #define SEC_CARVEOUT_CFG_ANY_ADDRESS (0 << ADDRESS_TYPE_SHIFT) #define SEC_CARVEOUT_CFG_UNTRANSLATED_ONLY (1 << ADDRESS_TYPE_SHIFT) #define READ_ACCESS_LEVEL_SHIFT 3 #define SEC_CARVEOUT_CFG_RD_NS (1 << READ_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_RD_SEC (2 << READ_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_RD_FALCON_LS (4 << READ_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_RD_FALCON_HS (8 << READ_ACCESS_LEVEL_SHIFT) #define WRITE_ACCESS_LEVEL_SHIFT 7 #define SEC_CARVEOUT_CFG_WR_NS (1 << WRITE_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_WR_SEC (2 << WRITE_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_WR_FALCON_LS (4 << WRITE_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_WR_FALCON_HS (8 << WRITE_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_APERTURE_ID_MASK (3 << 11) #define SEC_CARVEOUT_CFG_APERTURE_ID(id) ((id) << 11) #define DISABLE_READ_CHECK_ACCESS_LEVEL_SHIFT 14 #define SEC_CARVEOUT_CFG_DIS_RD_CHECK_NS (1 << DISABLE_READ_CHECK_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_DIS_RD_CHECK_SEC (2 << DISABLE_READ_CHECK_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_DIS_RD_CHECK_FLCN_LS (4 << DISABLE_READ_CHECK_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_DIS_RD_CHECK_FLCN_HS (8 << DISABLE_READ_CHECK_ACCESS_LEVEL_SHIFT) #define DISABLE_WRITE_CHECK_ACCESS_LEVEL_SHIFT 18 #define SEC_CARVEOUT_CFG_DIS_WR_CHECK_NS (1 << DISABLE_WRITE_CHECK_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_DIS_WR_CHECK_SEC (2 << DISABLE_WRITE_CHECK_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_DIS_WR_CHECK_FLCN_LS (4 << DISABLE_WRITE_CHECK_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_DIS_WR_CHECK_FLCN_HS (8 << DISABLE_WRITE_CHECK_ACCESS_LEVEL_SHIFT) #define SEC_CARVEOUT_CFG_SEND_CFG_TO_GPU BIT(22) #define SEC_CARVEOUT_CFG_TZ_GLOBAL_WR_EN_BYPASS_CHECK BIT(23) #define SEC_CARVEOUT_CFG_TZ_GLOBAL_RD_EN_BYPASS_CHECK BIT(24) #define SEC_CARVEOUT_CFG_ALLOW_APERTURE_ID_MISMATCH BIT(25) #define SEC_CARVEOUT_CFG_FORCE_APERTURE_ID_MATCH BIT(26) #define SEC_CARVEOUT_CFG_IS_WPR BIT(27) // WPR1 magic to enable WPR2. #define ACR_GSC3_ENABLE_MAGIC 0xC0EDBBCC /*! MC_VIDEO_PROTECT_GPU_OVERRIDE_0 */ // VPR CYA. Parsed as (vpr_gpu_ovr1 << 32 | vpr_gpu_ovr0) << 5. #define VPR_TRUST_UNTRUSTED 0 #define VPR_TRUST_GRAPHICS 1 #define VPR_TRUST_QUARANTINE 2 #define VPR_TRUST_TRUSTED 3 // VPR CYA LO. // Setting VPR_OVR0_CYA_TRUST_DEFAULT disables the overrides. // Defaults: PD, SCC, SKED, L1, TEX, PE, RASTER, GCC and PROP as GRAPHICS. The rest UNTRUSTED. #define VPR_OVR0_CYA_TRUST_OVERRIDE 0 #define VPR_OVR0_CYA_TRUST_DEFAULT BIT(0) #define VPR_OVR0_CYA_TRUST_CPU(t) ((t) << 1u) // HOST CPU. #define VPR_OVR0_CYA_TRUST_HOST(t) ((t) << 3u) #define VPR_OVR0_CYA_TRUST_PERF(t) ((t) << 5u) #define VPR_OVR0_CYA_TRUST_PMU(t) ((t) << 7u) #define VPR_OVR0_CYA_TRUST_CE2(t) ((t) << 9u) // GRCOPY. #define VPR_OVR0_CYA_TRUST_SEC(t) ((t) << 11u) #define VPR_OVR0_CYA_TRUST_FE(t) ((t) << 13u) #define VPR_OVR0_CYA_TRUST_PD(t) ((t) << 15u) #define VPR_OVR0_CYA_TRUST_SCC(t) ((t) << 17u) #define VPR_OVR0_CYA_TRUST_SKED(t) ((t) << 19u) #define VPR_OVR0_CYA_TRUST_L1(t) ((t) << 21u) #define VPR_OVR0_CYA_TRUST_TEX(t) ((t) << 23u) #define VPR_OVR0_CYA_TRUST_PE(t) ((t) << 25u) // VPR CYA HI. #define VPR_OVR0_CYA_TRUST_RASTER(t) ((t) << 27u) #define VPR_OVR0_CYA_TRUST_GCC(t) ((t) << 29u) // Setting GPCCS to anything other than untrusted, causes a hang. #define VPR_OVR0_CYA_TRUST_GPCCS(t) (((t) & 1) << 31u) /*! MC_VIDEO_PROTECT_GPU_OVERRIDE_1 */ // VPR CYA HI. #define VPR_OVR1_CYA_TRUST_GPCCS(t) ((t) >> 1) #define VPR_OVR1_CYA_TRUST_PROP(t) ((t) << 1u) #define VPR_OVR1_CYA_TRUST_PROP_READ BIT(3) #define VPR_OVR1_CYA_TRUST_PROP_WRITE BIT(4) #define VPR_OVR1_CYA_TRUST_DNISO(t) ((t) << 5u) #define VPR_OVR1_CYA_TRUST_CE0(t) VPR_OVR1_CYA_TRUST_DNISO(t) #define VPR_OVR1_CYA_TRUST_CE1(t) VPR_OVR1_CYA_TRUST_DNISO(t) #define VPR_OVR1_CYA_TRUST_NVENC(t) ((t) << 7u) // Unused? #define VPR_OVR1_CYA_TRUST_NVDEC(t) ((t) << 9u) // Unused? #define VPR_OVR1_CYA_TRUST_MSPPP(t) ((t) << 11u) // Unused? VIC/JPG? #define VPR_OVR1_CYA_TRUST_MSVLD(t) ((t) << 13u) // Unused? SEC2? typedef struct _mc_regs_t210_t { /* 0x000 */ u32 mc_intstatus; /* 0x004 */ u32 mc_intmask; /* 0x008 */ u32 mc_err_status; /* 0x00c */ u32 mc_err_adr; /* 0x010 */ u32 mc_smmu_config; /* 0x014 */ u32 mc_smmu_tlb_config; /* 0x018 */ u32 mc_smmu_ptc_config; /* 0x01c */ u32 mc_smmu_ptb_asid; /* 0x020 */ u32 mc_smmu_ptb_data; /* 0x024 */ u32 rsvd_024[3]; /* 0x030 */ u32 mc_smmu_tlb_flush; /* 0x034 */ u32 mc_smmu_ptc_flush; /* 0x038 */ u32 mc_smmu_asid_security; /* 0x03c */ u32 mc_smmu_asid_security_1; /* 0x040 */ u32 mc_smmu_client_config0; /* 0x044 */ u32 mc_smmu_client_config1; /* 0x048 */ u32 mc_smmu_client_config2; /* 0x04c */ u32 mc_smmu_client_config3; /* 0x050 */ u32 mc_emem_cfg; /* 0x054 */ u32 mc_emem_adr_cfg; /* 0x058 */ u32 mc_emem_adr_cfg_dev0; /* 0x05c */ u32 mc_emem_adr_cfg_dev1; /* 0x060 */ u32 mc_emem_adr_cfg_channel_mask; /* 0x064 */ u32 mc_emem_adr_cfg_bank_mask_0; /* 0x068 */ u32 mc_emem_adr_cfg_bank_mask_1; /* 0x06c */ u32 mc_emem_adr_cfg_bank_mask_2; /* 0x070 */ u32 mc_security_cfg0; /* 0x074 */ u32 mc_security_cfg1; /* 0x078 */ u32 rsvd_078; /* 0x07c */ u32 mc_security_rsv; /* 0x080 */ u32 rsvd_080[4]; /* 0x090 */ u32 mc_emem_arb_cfg; /* 0x094 */ u32 mc_emem_arb_outstanding_req; /* 0x098 */ u32 mc_emem_arb_timing_rcd; /* 0x09c */ u32 mc_emem_arb_timing_rp; /* 0x0a0 */ u32 mc_emem_arb_timing_rc; /* 0x0a4 */ u32 mc_emem_arb_timing_ras; /* 0x0a8 */ u32 mc_emem_arb_timing_faw; /* 0x0ac */ u32 mc_emem_arb_timing_rrd; /* 0x0b0 */ u32 mc_emem_arb_timing_rap2pre; /* 0x0b4 */ u32 mc_emem_arb_timing_wap2pre; /* 0x0b8 */ u32 mc_emem_arb_timing_r2r; /* 0x0bc */ u32 mc_emem_arb_timing_w2w; /* 0x0c0 */ u32 mc_emem_arb_timing_r2w; /* 0x0c4 */ u32 mc_emem_arb_timing_w2r; /* 0x0c8 */ u32 mc_emem_arb_misc2; /* 0x0cc */ u32 rsvd_0cc; /* 0x0d0 */ u32 mc_emem_arb_da_turns; /* 0x0d4 */ u32 mc_emem_arb_da_covers; /* 0x0d8 */ u32 mc_emem_arb_misc0; /* 0x0dc */ u32 mc_emem_arb_misc1; /* 0x0e0 */ u32 mc_emem_arb_ring1_throttle; /* 0x0e4 */ u32 mc_emem_arb_ring3_throttle; /* 0x0e8 */ u32 mc_emem_arb_override; /* 0x0ec */ u32 mc_emem_arb_rsv; /* 0x0f0 */ u32 rsvd_0f0; /* 0x0f4 */ u32 mc_clken_override; /* 0x0f8 */ u32 mc_timing_control_dbg; /* 0x0fc */ u32 mc_timing_control; /* 0x100 */ u32 mc_stat_control; /* 0x104 */ u32 mc_stat_status; /* 0x108 */ u32 mc_stat_emc_clock_limit; /* 0x10c */ u32 mc_stat_emc_clock_limit_msbs; /* 0x110 */ u32 mc_stat_emc_clocks; /* 0x114 */ u32 mc_stat_emc_clocks_msbs; /* 0x118 */ u32 mc_stat_emc_filter_set0_adr_limit_lo; /* 0x11c */ u32 mc_stat_emc_filter_set0_adr_limit_hi; /* 0x120 */ u32 mc_stat_emc_filter_set0_slack_limit; /* 0x124 */ u32 rsvd_124; /* 0x128 */ u32 mc_stat_emc_filter_set0_client_0; /* 0x12c */ u32 mc_stat_emc_filter_set0_client_1; /* 0x130 */ u32 mc_stat_emc_filter_set0_client_2; /* 0x134 */ u32 mc_stat_emc_filter_set0_client_3; /* 0x138 */ u32 mc_stat_emc_set0_count; /* 0x13c */ u32 mc_stat_emc_set0_count_msbs; /* 0x140 */ u32 mc_stat_emc_set0_slack_accum; /* 0x144 */ u32 mc_stat_emc_set0_slack_accum_msbs; /* 0x148 */ u32 mc_stat_emc_set0_histo_count; /* 0x14c */ u32 mc_stat_emc_set0_histo_count_msbs; /* 0x150 */ u32 mc_stat_emc_set0_minimum_slack_observed; /* 0x154 */ u32 rsvd_154; /* 0x158 */ u32 mc_stat_emc_filter_set1_adr_limit_lo; /* 0x15c */ u32 mc_stat_emc_filter_set1_adr_limit_hi; /* 0x160 */ u32 mc_stat_emc_filter_set1_slack_limit; /* 0x164 */ u32 rsvd_164; /* 0x168 */ u32 mc_stat_emc_filter_set1_client_0; /* 0x16c */ u32 mc_stat_emc_filter_set1_client_1; /* 0x170 */ u32 mc_stat_emc_filter_set1_client_2; /* 0x174 */ u32 mc_stat_emc_filter_set1_client_3; /* 0x178 */ u32 mc_stat_emc_set1_count; /* 0x17c */ u32 mc_stat_emc_set1_count_msbs; /* 0x180 */ u32 mc_stat_emc_set1_slack_accum; /* 0x184 */ u32 mc_stat_emc_set1_slack_accum_msbs; /* 0x188 */ u32 mc_stat_emc_set1_histo_count; /* 0x18c */ u32 mc_stat_emc_set1_histo_count_msbs; /* 0x190 */ u32 mc_stat_emc_set1_minimum_slack_observed; /* 0x194 */ u32 rsvd_194; /* 0x198 */ u32 mc_stat_emc_filter_set0_virtual_adr_limit_lo; /* 0x19c */ u32 mc_stat_emc_filter_set0_virtual_adr_limit_hi; /* 0x1a0 */ u32 mc_stat_emc_filter_set0_asid; /* 0x1a4 */ u32 rsvd_1a4; /* 0x1a8 */ u32 mc_stat_emc_filter_set1_virtual_adr_limit_lo; /* 0x1ac */ u32 mc_stat_emc_filter_set1_virtual_adr_limit_hi; /* 0x1b0 */ u32 mc_stat_emc_filter_set1_asid; /* 0x1b4 */ u32 rsvd_1b4; /* 0x1b8 */ u32 mc_stat_emc_set0_idle_cycle_count; /* 0x1bc */ u32 mc_stat_emc_set0_idle_cycle_count_msbs; /* 0x1c0 */ u32 mc_stat_emc_set0_idle_cycle_partition_select; /* 0x1c4 */ u32 rsvd_1c4; /* 0x1c8 */ u32 mc_stat_emc_set1_idle_cycle_count; /* 0x1cc */ u32 mc_stat_emc_set1_idle_cycle_count_msbs; /* 0x1d0 */ u32 mc_stat_emc_set1_idle_cycle_partition_select; /* 0x1d4 */ u32 rsvd_1d4[6]; /* 0x1ec */ u32 mc_smmu_stats_tlb_hit_miss_source; /* 0x1f0 */ u32 mc_smmu_stats_tlb_hit_count; /* 0x1f4 */ u32 mc_smmu_stats_tlb_miss_count; /* 0x1f8 */ u32 mc_smmu_stats_ptc_hit_count; /* 0x1fc */ u32 mc_smmu_stats_ptc_miss_count; /* 0x200 */ u32 mc_client_hotreset_ctrl; /* 0x204 */ u32 mc_client_hotreset_status; /* 0x208 */ u32 mc_emem_arb_isochronous_0; /* 0x20c */ u32 mc_emem_arb_isochronous_1; /* 0x210 */ u32 mc_emem_arb_isochronous_2; /* 0x214 */ u32 mc_emem_arb_isochronous_3; /* 0x218 */ u32 mc_emem_arb_hysteresis_0; /* 0x21c */ u32 mc_emem_arb_hysteresis_1; /* 0x220 */ u32 mc_emem_arb_hysteresis_2; /* 0x224 */ u32 mc_emem_arb_hysteresis_3; /* 0x228 */ u32 mc_smmu_translation_enable_0; /* 0x22c */ u32 mc_smmu_translation_enable_1; /* 0x230 */ u32 mc_smmu_translation_enable_2; /* 0x234 */ u32 mc_smmu_translation_enable_3; /* 0x238 */ u32 mc_smmu_afi_asid; /* 0x23c */ u32 mc_smmu_avpc_asid; /* 0x240 */ u32 mc_smmu_dc_asid; /* 0x244 */ u32 mc_smmu_dcb_asid; /* 0x248 */ u32 rsvd_248[2]; /* 0x250 */ u32 mc_smmu_hc_asid; /* 0x254 */ u32 mc_smmu_hda_asid; /* 0x258 */ u32 mc_smmu_isp2_asid; /* 0x25c */ u32 rsvd_25c[2]; /* 0x264 */ u32 mc_smmu_nvenc_asid; /* 0x268 */ u32 rsvd_268[2]; /* 0x270 */ u32 mc_smmu_ppcs_asid; /* 0x274 */ u32 mc_smmu_sata_asid; /* 0x278 */ u32 rsvd_278[2]; /* 0x280 */ u32 mc_smmu_vi_asid; /* 0x284 */ u32 mc_smmu_vic_asid; /* 0x288 */ u32 mc_smmu_xusb_host_asid; /* 0x28c */ u32 mc_smmu_xusb_dev_asid; /* 0x290 */ u32 mc_smmu_a9avp_asid; /* 0x294 */ u32 mc_smmu_tsec_asid; /* 0x298 */ u32 mc_smmu_ppcs1_asid; /* 0x29c */ u32 rsvd_29c; /* 0x2a0 */ u32 mc_ahb_extra_snap_levels; /* 0x2a4 */ u32 mc_apb_extra_snap_levels; /* 0x2a8 */ u32 mc_avp_extra_snap_levels; /* 0x2ac */ u32 mc_dis_extra_snap_levels; /* 0x2b0 */ u32 rsvd_2b0[2]; /* 0x2b8 */ u32 mc_pcx_extra_snap_levels; /* 0x2bc */ u32 mc_ftop_extra_snap_levels; /* 0x2c0 */ u32 mc_sax_extra_snap_levels; /* 0x2c4 */ u32 rsvd_2c4[5]; /* 0x2d8 */ u32 mc_ve_extra_snap_levels; /* 0x2dc */ u32 rsvd_2dc; /* 0x2e0 */ u32 mc_latency_allowance_afi_0; /* 0x2e4 */ u32 mc_latency_allowance_avpc_0; /* 0x2e8 */ u32 mc_latency_allowance_dc_0; /* 0x2ec */ u32 mc_latency_allowance_dc_1; /* 0x2f0 */ u32 mc_latency_allowance_dc_2; /* 0x2f4 */ u32 mc_latency_allowance_dcb_0; /* 0x2f8 */ u32 mc_latency_allowance_dcb_1; /* 0x2fc */ u32 mc_latency_allowance_dcb_2; /* 0x300 */ u32 rsvd_300[4]; /* 0x310 */ u32 mc_latency_allowance_hc_0; /* 0x314 */ u32 mc_latency_allowance_hc_1; /* 0x318 */ u32 mc_latency_allowance_hda_0; /* 0x31c */ u32 rsvd_31c; /* 0x320 */ u32 mc_latency_allowance_mpcore_0; /* 0x324 */ u32 rsvd_324; /* 0x328 */ u32 mc_latency_allowance_nvenc_0; /* 0x32c */ u32 rsvd_32c[6]; /* 0x344 */ u32 mc_latency_allowance_ppcs_0; /* 0x348 */ u32 mc_latency_allowance_ppcs_1; /* 0x34c */ u32 mc_latency_allowance_ptc_0; /* 0x350 */ u32 mc_latency_allowance_sata_0; /* 0x354 */ u32 rsvd_354[7]; /* 0x370 */ u32 mc_latency_allowance_isp2_0; /* 0x374 */ u32 mc_latency_allowance_isp2_1; /* 0x378 */ u32 rsvd_378; /* 0x37c */ u32 mc_latency_allowance_xusb_0; /* 0x380 */ u32 mc_latency_allowance_xusb_1; /* 0x384 */ u32 mc_latency_allowance_isp2b_0; /* 0x388 */ u32 mc_latency_allowance_isp2b_1; /* 0x38c */ u32 rsvd_38c; /* 0x390 */ u32 mc_latency_allowance_tsec_0; /* 0x394 */ u32 mc_latency_allowance_vic_0; /* 0x398 */ u32 mc_latency_allowance_vi2_0; /* 0x39c */ u32 rsvd_39c; /* 0x3a0 */ u32 mc_latency_allowance_axiap_0; /* 0x3a4 */ u32 mc_latency_allowance_a9avp_0; /* 0x3a8 */ u32 rsvd_3a8; /* 0x3ac */ u32 mc_latency_allowance_gpu_0; /* 0x3b0 */ u32 rsvd_3b0[2]; /* 0x3b8 */ u32 mc_latency_allowance_sdmmca_0; /* 0x3bc */ u32 mc_latency_allowance_sdmmcaa_0; /* 0x3c0 */ u32 mc_latency_allowance_sdmmc_0; /* 0x3c4 */ u32 mc_latency_allowance_sdmmcab_0; /* 0x3c8 */ u32 mc_latency_allowance_dc_3; /* 0x3cc */ u32 rsvd_3cc[3]; /* 0x3d8 */ u32 mc_latency_allowance_nvdec_0; /* 0x3dc */ u32 mc_latency_allowance_ape_0; /* 0x3e0 */ u32 mc_latency_allowance_se_0; /* 0x3e4 */ u32 mc_latency_allowance_nvjpg_0; /* 0x3e8 */ u32 mc_latency_allowance_gpu2_0; /* 0x3ec */ u32 mc_latency_allowance_etr_0; /* 0x3f0 */ u32 mc_latency_allowance_tsecb_0; /* 0x3f4 */ u32 rsvd_3f4[2]; /* 0x3fc */ u32 mc_reserved_rsv; /* 0x400 */ u32 rsvd_400; /* 0x404 */ u32 mc_usbx_extra_snap_levels; /* 0x408 */ u32 mc_disb_extra_snap_levels; /* 0x40c */ u32 mc_mse_extra_snap_levels; /* 0x410 */ u32 mc_ve2_extra_snap_levels; /* 0x414 */ u32 mc_a9avppc_extra_snap_levels; /* 0x418 */ u32 mc_video_protect_vpr_override; /* 0x41c */ u32 mc_dis_ptsa_rate; /* 0x420 */ u32 mc_dis_ptsa_min; /* 0x424 */ u32 mc_dis_ptsa_max; /* 0x428 */ u32 mc_disb_ptsa_rate; /* 0x42c */ u32 mc_disb_ptsa_min; /* 0x430 */ u32 mc_disb_ptsa_max; /* 0x434 */ u32 mc_ve_ptsa_rate; /* 0x438 */ u32 mc_ve_ptsa_min; /* 0x43c */ u32 mc_ve_ptsa_max; /* 0x440 */ u32 mc_ring2_ptsa_rate; /* 0x444 */ u32 mc_ring2_ptsa_min; /* 0x448 */ u32 mc_ring2_ptsa_max; /* 0x44c */ u32 mc_mll_mpcorer_ptsa_rate; /* 0x450 */ u32 mc_mll_mpcorer_ptsa_min; /* 0x454 */ u32 mc_mll_mpcorer_ptsa_max; /* 0x458 */ u32 mc_smmu_smmu_ptsa_rate; /* 0x45c */ u32 mc_smmu_smmu_ptsa_min; /* 0x460 */ u32 mc_smmu_smmu_ptsa_max; /* 0x464 */ u32 rsvd_464[6]; /* 0x47c */ u32 mc_ring1_ptsa_rate; /* 0x480 */ u32 mc_ring1_ptsa_min; /* 0x484 */ u32 mc_ring1_ptsa_max; /* 0x488 */ u32 mc_a9avppc_ptsa_rate; /* 0x48c */ u32 mc_a9avppc_ptsa_min; /* 0x490 */ u32 mc_a9avppc_ptsa_max; /* 0x494 */ u32 mc_ve2_ptsa_rate; /* 0x498 */ u32 mc_ve2_ptsa_min; /* 0x49c */ u32 mc_ve2_ptsa_max; /* 0x4a0 */ u32 mc_isp_ptsa_rate; /* 0x4a4 */ u32 mc_isp_ptsa_min; /* 0x4a8 */ u32 mc_isp_ptsa_max; /* 0x4ac */ u32 mc_pcx_ptsa_rate; /* 0x4b0 */ u32 mc_pcx_ptsa_min; /* 0x4b4 */ u32 mc_pcx_ptsa_max; /* 0x4b8 */ u32 mc_sax_ptsa_rate; /* 0x4bc */ u32 mc_sax_ptsa_min; /* 0x4c0 */ u32 mc_sax_ptsa_max; /* 0x4c4 */ u32 mc_mse_ptsa_rate; /* 0x4c8 */ u32 mc_mse_ptsa_min; /* 0x4cc */ u32 mc_mse_ptsa_max; /* 0x4d0 */ u32 mc_sd_ptsa_rate; /* 0x4d4 */ u32 mc_sd_ptsa_min; /* 0x4d8 */ u32 mc_sd_ptsa_max; /* 0x4dc */ u32 mc_ahb_ptsa_rate; /* 0x4e0 */ u32 mc_ahb_ptsa_min; /* 0x4e4 */ u32 mc_ahb_ptsa_max; /* 0x4e8 */ u32 mc_apb_ptsa_rate; /* 0x4ec */ u32 mc_apb_ptsa_min; /* 0x4f0 */ u32 mc_apb_ptsa_max; /* 0x4f4 */ u32 mc_avp_ptsa_rate; /* 0x4f8 */ u32 mc_avp_ptsa_min; /* 0x4fc */ u32 mc_avp_ptsa_max; /* 0x500 */ u32 rsvd_500[3]; /* 0x50c */ u32 mc_ftop_ptsa_rate; /* 0x510 */ u32 mc_ftop_ptsa_min; /* 0x514 */ u32 mc_ftop_ptsa_max; /* 0x518 */ u32 mc_host_ptsa_rate; /* 0x51c */ u32 mc_host_ptsa_min; /* 0x520 */ u32 mc_host_ptsa_max; /* 0x524 */ u32 mc_usbx_ptsa_rate; /* 0x528 */ u32 mc_usbx_ptsa_min; /* 0x52c */ u32 mc_usbx_ptsa_max; /* 0x530 */ u32 mc_usbd_ptsa_rate; /* 0x534 */ u32 mc_usbd_ptsa_min; /* 0x538 */ u32 mc_usbd_ptsa_max; /* 0x53c */ u32 mc_gk_ptsa_rate; /* 0x540 */ u32 mc_gk_ptsa_min; /* 0x544 */ u32 mc_gk_ptsa_max; /* 0x548 */ u32 mc_aud_ptsa_rate; /* 0x54c */ u32 mc_aud_ptsa_min; /* 0x550 */ u32 mc_aud_ptsa_max; /* 0x554 */ u32 mc_vicpc_ptsa_rate; /* 0x558 */ u32 mc_vicpc_ptsa_min; /* 0x55c */ u32 mc_vicpc_ptsa_max; /* 0x560 */ u32 rsvd_560[9]; /* 0x584 */ u32 mc_jpg_ptsa_rate; /* 0x588 */ u32 mc_jpg_ptsa_min; /* 0x58c */ u32 mc_jpg_ptsa_max; /* 0x590 */ u32 mc_video_protect_vpr_override1; /* 0x594 */ u32 rsvd_594[27]; /* 0x600 */ u32 mc_smmu_tlb_set_selection_mask_0; /* 0x604 */ u32 rsvd_604[3]; /* 0x610 */ u32 mc_gk2_ptsa_rate; /* 0x614 */ u32 mc_gk2_ptsa_min; /* 0x618 */ u32 mc_gk2_ptsa_max; /* 0x61c */ u32 mc_sdm_ptsa_rate; /* 0x620 */ u32 mc_sdm_ptsa_min; /* 0x624 */ u32 mc_sdm_ptsa_max; /* 0x628 */ u32 mc_hdapc_ptsa_rate; /* 0x62c */ u32 mc_hdapc_ptsa_min; /* 0x630 */ u32 mc_hdapc_ptsa_max; /* 0x634 */ u32 mc_dfd_ptsa_rate; /* 0x638 */ u32 mc_dfd_ptsa_min; /* 0x63c */ u32 mc_dfd_ptsa_max; /* 0x640 */ u32 rsvd_640[2]; /* 0x648 */ u32 mc_video_protect_bom; /* 0x64c */ u32 mc_video_protect_size_mb; /* 0x650 */ u32 mc_video_protect_reg_ctrl; /* 0x654 */ u32 mc_err_vpr_status; /* 0x658 */ u32 mc_err_vpr_adr; /* 0x65c */ u32 mc_iram_bom; /* 0x660 */ u32 mc_iram_tom; /* 0x664 */ u32 mc_emem_cfg_access_ctrl; /* 0x668 */ u32 mc_tz_security_ctrl; /* 0x66c */ u32 mc_emem_arb_outstanding_req_ring3; /* 0x670 */ u32 mc_sec_carveout_bom; /* 0x674 */ u32 mc_sec_carveout_size_mb; /* 0x678 */ u32 mc_sec_carveout_reg_ctrl; /* 0x67c */ u32 mc_err_sec_status; /* 0x680 */ u32 mc_err_sec_adr; /* 0x684 */ u32 mc_pc_idle_clock_gate_config; /* 0x688 */ u32 mc_stutter_control; /* 0x68c */ u32 rsvd_68c; /* 0x690 */ u32 mc_scaled_latency_allowance_display0a; /* 0x694 */ u32 mc_scaled_latency_allowance_display0ab; /* 0x698 */ u32 mc_scaled_latency_allowance_display0b; /* 0x69c */ u32 mc_scaled_latency_allowance_display0bb; /* 0x6a0 */ u32 mc_scaled_latency_allowance_display0c; /* 0x6a4 */ u32 mc_scaled_latency_allowance_display0cb; /* 0x6a8 */ u32 rsvd_6a8[2]; /* 0x6b0 */ u32 mc_emem_arb_niso_throttle; /* 0x6b4 */ u32 mc_emem_arb_outstanding_req_niso; /* 0x6b8 */ u32 mc_emem_arb_niso_throttle_mask; /* 0x6bc */ u32 mc_emem_arb_ring0_throttle_mask; /* 0x6c0 */ u32 mc_emem_arb_timing_rfcpb; /* 0x6c4 */ u32 mc_emem_arb_timing_ccdmw; /* 0x6c8 */ u32 rsvd_6c8[10]; /* 0x6f0 */ u32 mc_emem_arb_refpb_hp_ctrl; /* 0x6f4 */ u32 mc_emem_arb_refpb_bank_ctrl; /* 0x6f8 */ u32 rsvd_6f8[67]; /* 0x804 */ u32 mc_smmu_isp21_asid_b01; /* 0x808 */ u32 mc_smmu_isp2b1_asid_b01; /* 0x80c */ u32 rsvd_80c[32]; /* 0x88c */ u32 mc_min_length_afi_0; /* 0x890 */ u32 mc_min_length_avpc_0; /* 0x894 */ u32 mc_min_length_dc_0; /* 0x898 */ u32 mc_min_length_dc_1; /* 0x89c */ u32 mc_min_length_dc_2; /* 0x8a0 */ u32 mc_min_length_dcb_0; /* 0x8a4 */ u32 mc_min_length_dcb_1; /* 0x8a8 */ u32 mc_min_length_dcb_2; /* 0x8ac */ u32 rsvd_8ac[4]; /* 0x8bc */ u32 mc_min_length_hc_0; /* 0x8c0 */ u32 mc_min_length_hc_1; /* 0x8c4 */ u32 mc_min_length_hda_0; /* 0x8c8 */ u32 rsvd_8c8; /* 0x8cc */ u32 mc_min_length_mpcore_0; /* 0x8d0 */ u32 rsvd_8d0; /* 0x8d4 */ u32 mc_min_length_nvenc_0; /* 0x8d8 */ u32 rsvd_8d8[6]; /* 0x8f0 */ u32 mc_min_length_ppcs_0; /* 0x8f4 */ u32 mc_min_length_ppcs_1; /* 0x8f8 */ u32 mc_min_length_ptc_0; /* 0x8fc */ u32 mc_min_length_sata_0; /* 0x900 */ u32 rsvd_900[7]; /* 0x91c */ u32 mc_min_length_isp2_0; /* 0x920 */ u32 mc_min_length_isp2_1; /* 0x924 */ u32 rsvd_924; /* 0x928 */ u32 mc_min_length_xusb_0; /* 0x92c */ u32 mc_min_length_xusb_1; /* 0x930 */ u32 mc_min_length_isp2b_0; /* 0x934 */ u32 mc_min_length_isp2b_1; /* 0x938 */ u32 rsvd_938; /* 0x93c */ u32 mc_min_length_tsec_0; /* 0x940 */ u32 mc_min_length_vic_0; /* 0x944 */ u32 mc_min_length_vi2_0; /* 0x948 */ u32 mc_untranslated_region_check_b01; /* 0x94c */ u32 mc_min_length_axiap_0; /* 0x950 */ u32 mc_min_length_a9avp_0; /* 0x954 */ u32 rsvd_954; /* 0x958 */ u32 mc_reserved_rsv_1; /* 0x95c */ u32 mc_dvfs_pipe_select; /* 0x960 */ u32 mc_ptsa_grant_decrement; /* 0x964 */ u32 mc_iram_reg_ctrl; /* 0x968 */ u32 mc_emem_arb_override_1; /* 0x96c */ u32 rsvd_96c; /* 0x970 */ u32 mc_client_hotreset_ctrl_1; /* 0x974 */ u32 mc_client_hotreset_status_1; /* 0x978 */ u32 mc_video_protect_bom_adr_hi; /* 0x97c */ u32 rsvd_97c; /* 0x980 */ u32 mc_iram_adr_hi; /* 0x984 */ u32 mc_video_protect_gpu_override_0; /* 0x988 */ u32 mc_video_protect_gpu_override_1; /* 0x98c */ u32 rsvd_98c; /* 0x990 */ u32 mc_emem_arb_stats_0; /* 0x994 */ u32 mc_emem_arb_stats_1; /* 0x998 */ u32 rsvd_998[2]; /* 0x9a0 */ u32 mc_mts_carveout_bom; /* 0x9a4 */ u32 mc_mts_carveout_size_mb; /* 0x9a8 */ u32 mc_mts_carveout_adr_hi; /* 0x9ac */ u32 mc_mts_carveout_reg_ctrl; /* 0x9b0 */ u32 mc_err_mts_status; /* 0x9b4 */ u32 mc_err_mts_adr; /* 0x9b8 */ u32 mc_smmu_ptc_flush_1; /* 0x9bc */ u32 mc_security_cfg3; /* 0x9c0 */ u32 rsvd_9c0[4]; /* 0x9d0 */ u32 mc_err_apb_asid_update_status; /* 0x9d4 */ u32 mc_sec_carveout_adr_hi; /* 0x9d8 */ u32 rsvd_9d8; /* 0x9dc */ u32 mc_da_config0; /* 0x9e0 */ u32 mc_smmu_asid_security_2; /* 0x9e4 */ u32 mc_smmu_asid_security_3; /* 0x9e8 */ u32 mc_smmu_asid_security_4; /* 0x9ec */ u32 mc_smmu_asid_security_5; /* 0x9f0 */ u32 mc_smmu_asid_security_6; /* 0x9f4 */ u32 mc_smmu_asid_security_7; /* 0x9f8 */ u32 rsvd_9f8[2]; /* 0xa00 */ u32 mc_gk_extra_snap_levels; /* 0xa04 */ u32 mc_sd_extra_snap_levels; /* 0xa08 */ u32 mc_isp_extra_snap_levels; /* 0xa0c */ u32 rsvd_a0c; /* 0xa10 */ u32 mc_aud_extra_snap_levels; /* 0xa14 */ u32 mc_host_extra_snap_levels; /* 0xa18 */ u32 mc_usbd_extra_snap_levels; /* 0xa1c */ u32 mc_vicpc_extra_snap_levels; /* 0xa20 */ u32 mc_stat_emc_filter_set0_adr_limit_upper; /* 0xa24 */ u32 mc_stat_emc_filter_set1_adr_limit_upper; /* 0xa28 */ u32 mc_stat_emc_filter_set0_virtual_adr_limit_upper; /* 0xa2c */ u32 mc_stat_emc_filter_set1_virtual_adr_limit_upper; /* 0xa30 */ u32 rsvd_a30[3]; /* 0xa3c */ u32 mc_jpg_extra_snap_levels; /* 0xa40 */ u32 mc_gk2_extra_snap_levels; /* 0xa44 */ u32 mc_sdm_extra_snap_levels; /* 0xa48 */ u32 mc_hdapc_extra_snap_levels; /* 0xa4c */ u32 mc_dfd_extra_snap_levels; /* 0xa50 */ u32 rsvd_a50[14]; /* 0xa88 */ u32 mc_smmu_dc1_asid; /* 0xa8c */ u32 rsvd_a8c[2]; /* 0xa94 */ u32 mc_smmu_sdmmc1a_asid; /* 0xa98 */ u32 mc_smmu_sdmmc2a_asid; /* 0xa9c */ u32 mc_smmu_sdmmc3a_asid; /* 0xaa0 */ u32 mc_smmu_sdmmc4a_asid; /* 0xaa4 */ u32 mc_smmu_isp2b_asid; /* 0xaa8 */ u32 mc_smmu_gpu_asid; /* 0xaac */ u32 mc_smmu_gpub_asid; /* 0xab0 */ u32 mc_smmu_ppcs2_asid; /* 0xab4 */ u32 mc_smmu_nvdec_asid; /* 0xab8 */ u32 mc_smmu_ape_asid; /* 0xabc */ u32 mc_smmu_se_asid; /* 0xac0 */ u32 mc_smmu_nvjpg_asid; /* 0xac4 */ u32 mc_smmu_hc1_asid; /* 0xac8 */ u32 mc_smmu_se1_asid; /* 0xacc */ u32 mc_smmu_axiap_asid; /* 0xad0 */ u32 mc_smmu_etr_asid; /* 0xad4 */ u32 mc_smmu_tsecb_asid; /* 0xad8 */ u32 mc_smmu_tsec1_asid; /* 0xadc */ u32 mc_smmu_tsecb1_asid; /* 0xae0 */ u32 mc_smmu_nvdec1_asid; /* 0xae4 */ u32 rsvd_ae4[8]; /* 0xb04 */ u32 mc_min_length_gpu_0; /* 0xb08 */ u32 rsvd_b08[2]; /* 0xb10 */ u32 mc_min_length_sdmmca_0; /* 0xb14 */ u32 mc_min_length_sdmmcaa_0; /* 0xb18 */ u32 mc_min_length_sdmmc_0; /* 0xb1c */ u32 mc_min_length_sdmmcab_0; /* 0xb20 */ u32 mc_min_length_dc_3; /* 0xb24 */ u32 rsvd_b24[3]; /* 0xb30 */ u32 mc_min_length_nvdec_0; /* 0xb34 */ u32 mc_min_length_ape_0; /* 0xb38 */ u32 mc_min_length_se_0; /* 0xb3c */ u32 mc_min_length_nvjpg_0; /* 0xb40 */ u32 mc_min_length_gpu2_0; /* 0xb44 */ u32 mc_min_length_etr_0; /* 0xb48 */ u32 mc_min_length_tsecb_0; /* 0xb4c */ u32 rsvd_b4c[13]; /* 0xb80 */ u32 mc_emem_arb_niso_throttle_mask_1; /* 0xb84 */ u32 mc_emem_arb_hysteresis_4; /* 0xb88 */ u32 mc_stat_emc_filter_set0_client_4; /* 0xb8c */ u32 mc_stat_emc_filter_set1_client_4; /* 0xb90 */ u32 rsvd_b90; /* 0xb94 */ u32 mc_emem_arb_isochronous_4; /* 0xb98 */ u32 mc_smmu_translation_enable_4; /* 0xb9c */ u32 mc_smmu_client_config4; /* 0xba0 */ u32 rsvd_ba0[4]; /* 0xbb0 */ u32 mc_emem_arb_dhysteresis_0; /* 0xbb4 */ u32 mc_emem_arb_dhysteresis_1; /* 0xbb8 */ u32 mc_emem_arb_dhysteresis_2; /* 0xbbc */ u32 mc_emem_arb_dhysteresis_3; /* 0xbc0 */ u32 mc_emem_arb_dhysteresis_4; /* 0xbc4 */ u32 rsvd_bc4[2]; /* 0xbcc */ u32 mc_emem_arb_dhyst_ctrl; /* 0xbd0 */ u32 mc_emem_arb_dhyst_timeout_util_0; /* 0xbd4 */ u32 mc_emem_arb_dhyst_timeout_util_1; /* 0xbd8 */ u32 mc_emem_arb_dhyst_timeout_util_2; /* 0xbdc */ u32 mc_emem_arb_dhyst_timeout_util_3; /* 0xbe0 */ u32 mc_emem_arb_dhyst_timeout_util_4; /* 0xbe4 */ u32 mc_emem_arb_dhyst_timeout_util_5; /* 0xbe8 */ u32 mc_emem_arb_dhyst_timeout_util_6; /* 0xbec */ u32 mc_emem_arb_dhyst_timeout_util_7; /* 0xbf0 */ u32 rsvd_bf0[4]; /* 0xc00 */ u32 mc_err_generalized_carveout_status; /* 0xc04 */ u32 mc_err_generalized_carveout_adr; /* 0xc08 */ u32 mc_security_carveout1_cfg0; /* 0xc0c */ u32 mc_security_carveout1_bom; /* 0xc10 */ u32 mc_security_carveout1_bom_hi; /* 0xc14 */ u32 mc_security_carveout1_size_128kb; /* 0xc18 */ u32 mc_security_carveout1_client_access0; /* 0xc1c */ u32 mc_security_carveout1_client_access1; /* 0xc20 */ u32 mc_security_carveout1_client_access2; /* 0xc24 */ u32 mc_security_carveout1_client_access3; /* 0xc28 */ u32 mc_security_carveout1_client_access4; /* 0xc2c */ u32 mc_security_carveout1_client_force_internal_access0; /* 0xc30 */ u32 mc_security_carveout1_client_force_internal_access1; /* 0xc34 */ u32 mc_security_carveout1_client_force_internal_access2; /* 0xc38 */ u32 mc_security_carveout1_client_force_internal_access3; /* 0xc3c */ u32 mc_security_carveout1_client_force_internal_access4; /* 0xc40 */ u32 rsvd_c40[6]; /* 0xc58 */ u32 mc_security_carveout2_cfg0; /* 0xc5c */ u32 mc_security_carveout2_bom; /* 0xc60 */ u32 mc_security_carveout2_bom_hi; /* 0xc64 */ u32 mc_security_carveout2_size_128kb; /* 0xc68 */ u32 mc_security_carveout2_client_access0; /* 0xc6c */ u32 mc_security_carveout2_client_access1; /* 0xc70 */ u32 mc_security_carveout2_client_access2; /* 0xc74 */ u32 mc_security_carveout2_client_access3; /* 0xc78 */ u32 mc_security_carveout2_client_access4; /* 0xc7c */ u32 mc_security_carveout2_client_force_internal_access0; /* 0xc80 */ u32 mc_security_carveout2_client_force_internal_access1; /* 0xc84 */ u32 mc_security_carveout2_client_force_internal_access2; /* 0xc88 */ u32 mc_security_carveout2_client_force_internal_access3; /* 0xc8c */ u32 mc_security_carveout2_client_force_internal_access4; /* 0xc90 */ u32 rsvd_c90[6]; /* 0xca8 */ u32 mc_security_carveout3_cfg0; /* 0xcac */ u32 mc_security_carveout3_bom; /* 0xcb0 */ u32 mc_security_carveout3_bom_hi; /* 0xcb4 */ u32 mc_security_carveout3_size_128kb; /* 0xcb8 */ u32 mc_security_carveout3_client_access0; /* 0xcbc */ u32 mc_security_carveout3_client_access1; /* 0xcc0 */ u32 mc_security_carveout3_client_access2; /* 0xcc4 */ u32 mc_security_carveout3_client_access3; /* 0xcc8 */ u32 mc_security_carveout3_client_access4; /* 0xccc */ u32 mc_security_carveout3_client_force_internal_access0; /* 0xcd0 */ u32 mc_security_carveout3_client_force_internal_access1; /* 0xcd4 */ u32 mc_security_carveout3_client_force_internal_access2; /* 0xcd8 */ u32 mc_security_carveout3_client_force_internal_access3; /* 0xcdc */ u32 mc_security_carveout3_client_force_internal_access4; /* 0xce0 */ u32 rsvd_ce0[6]; /* 0xcf8 */ u32 mc_security_carveout4_cfg0; /* 0xcfc */ u32 mc_security_carveout4_bom; /* 0xd00 */ u32 mc_security_carveout4_bom_hi; /* 0xd04 */ u32 mc_security_carveout4_size_128kb; /* 0xd08 */ u32 mc_security_carveout4_client_access0; /* 0xd0c */ u32 mc_security_carveout4_client_access1; /* 0xd10 */ u32 mc_security_carveout4_client_access2; /* 0xd14 */ u32 mc_security_carveout4_client_access3; /* 0xd18 */ u32 mc_security_carveout4_client_access4; /* 0xd1c */ u32 mc_security_carveout4_client_force_internal_access0; /* 0xd20 */ u32 mc_security_carveout4_client_force_internal_access1; /* 0xd24 */ u32 mc_security_carveout4_client_force_internal_access2; /* 0xd28 */ u32 mc_security_carveout4_client_force_internal_access3; /* 0xd2c */ u32 mc_security_carveout4_client_force_internal_access4; /* 0xd30 */ u32 rsvd_d30[6]; /* 0xd48 */ u32 mc_security_carveout5_cfg0; /* 0xd4c */ u32 mc_security_carveout5_bom; /* 0xd50 */ u32 mc_security_carveout5_bom_hi; /* 0xd54 */ u32 mc_security_carveout5_size_128kb; /* 0xd58 */ u32 mc_security_carveout5_client_access0; /* 0xd5c */ u32 mc_security_carveout5_client_access1; /* 0xd60 */ u32 mc_security_carveout5_client_access2; /* 0xd64 */ u32 mc_security_carveout5_client_access3; /* 0xd68 */ u32 mc_security_carveout5_client_access4; /* 0xd6c */ u32 mc_security_carveout5_client_force_internal_access0; /* 0xd70 */ u32 mc_security_carveout5_client_force_internal_access1; /* 0xd74 */ u32 mc_security_carveout5_client_force_internal_access2; /* 0xd78 */ u32 mc_security_carveout5_client_force_internal_access3; /* 0xd7c */ u32 mc_security_carveout5_client_force_internal_access4; /* 0xd80 */ u32 rsvd_d80[20]; /* 0xdd0 */ u32 mc_pcfifo_client_config0; /* 0xdd4 */ u32 mc_pcfifo_client_config1; /* 0xdd8 */ u32 mc_pcfifo_client_config2; /* 0xddc */ u32 mc_pcfifo_client_config3; /* 0xde0 */ u32 mc_pcfifo_client_config4; } mc_regs_t210_t; #endif ================================================ FILE: bdk/mem/minerva.c ================================================ /* * Copyright (c) 2019-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "minerva.h" #include #include #include #include #include #include #define FREQ_NO_TABLE_MAX FREQ_408 #define TABLE_FREQ_KHZ_OFFSET 0x40 #define TABLE_LA_REGS_T210_OFFSET 0x1284 #define TABLE_LA_REGS_T210B01_OFFSET 0xFA4 #define LA_SDMMC1_INDEX 6 static bool no_table = false; static mtc_config_t *mtc_cfg = NULL; void (*mtc_call)(mtc_config_t *mtc_cfg, void *); int minerva_init(minerva_str_t *mtc_str) { mtc_call = NULL; mtc_cfg = (mtc_config_t *)&mtc_str->mtc_cfg; no_table = hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01; #ifdef BDK_MINERVA_CFG_FROM_RAM // Set table to nyx storage. mtc_cfg->mtc_table = (emc_table_t *)mtc_str->mtc_table; // Check if Minerva is already initialized. if (mtc_cfg->init_done == MTC_INIT_MAGIC) { // Load library and do a periodic training if needed. mtc_cfg->train_mode = OP_PERIODIC_TRAIN; mtc_call = (void *)ianos_static_module("bootloader/sys/libsys_minerva.bso", (void *)mtc_cfg); return !mtc_call ? 1 : 0; } else { mtc_config_t mtc_tmp; // Initialize table. mtc_tmp.mtc_table = mtc_cfg->mtc_table; mtc_tmp.sdram_id = fuse_read_dramid(false); mtc_tmp.init_done = !no_table ? MTC_NEW_MAGIC : MTC_IRB_MAGIC; // Load library and get table. u32 ep_addr = ianos_static_module("bootloader/sys/libsys_minerva.bso", (void *)&mtc_tmp); // Ensure that Minerva is initialized. if (mtc_tmp.init_done == MTC_INIT_MAGIC) mtc_call = (void *)ep_addr; else mtc_cfg->init_done = 0; // Copy Minerva context to Nyx storage. if (mtc_call) memcpy(mtc_cfg, (void *)&mtc_tmp, sizeof(mtc_config_t)); } #else // Fully initialize Minerva. memset(mtc_cfg, 0, sizeof(mtc_config_t)); // Initialize mtc table. mtc_cfg->mtc_table = mtc_str->mtc_table; mtc_cfg->sdram_id = fuse_read_dramid(false); mtc_cfg->init_done = !no_table ? MTC_NEW_MAGIC : MTC_IRB_MAGIC; u32 ep_addr = ianos_static_module("bootloader/sys/libsys_minerva.bso", (void *)mtc_cfg); // Ensure that Minerva is initialized. if (mtc_cfg->init_done == MTC_INIT_MAGIC) mtc_call = (void *)ep_addr; else mtc_cfg->init_done = 0; #endif if (!mtc_call) return 1; if (no_table) { mtc_cfg->train_mode = OP_SWITCH; mtc_cfg->rate_from = FREQ_204; mtc_cfg->rate_to = FREQ_NO_TABLE_MAX; mtc_call(mtc_cfg, NULL); return 0; } // Train frequencies. mtc_cfg->train_mode = OP_TRAIN; mtc_cfg->rate_from = FREQ_204; mtc_cfg->rate_to = FREQ_204; mtc_call(mtc_cfg, NULL); mtc_cfg->rate_to = FREQ_800; mtc_call(mtc_cfg, NULL); mtc_cfg->rate_to = FREQ_1600; mtc_call(mtc_cfg, NULL); // FSP WAR. mtc_cfg->train_mode = OP_SWITCH; mtc_cfg->rate_to = FREQ_800; mtc_call(mtc_cfg, NULL); // Switch to max. mtc_cfg->rate_to = FREQ_1600; mtc_call(mtc_cfg, NULL); return 0; } void minerva_change_freq(minerva_freq_t freq) { if (!mtc_call) return; // Clamp max allowed frequency when no table exists. if (no_table && freq > FREQ_NO_TABLE_MAX) freq = FREQ_NO_TABLE_MAX; // Check if requested frequency is different. Do not allow otherwise because it will hang. if (mtc_cfg->rate_from != freq) { mtc_cfg->train_mode = OP_SWITCH; mtc_cfg->rate_to = freq; mtc_call(mtc_cfg, NULL); } } void minerva_deinit() { if (!mtc_cfg) return; minerva_change_freq(FREQ_204); mtc_cfg->init_done = 0; } void minerva_sdmmc_la_program(void *table, bool t210b01) { u32 freq = *(u32 *)(table + TABLE_FREQ_KHZ_OFFSET); u32 *la_scale_regs = (u32 *)(table + (t210b01 ? TABLE_LA_REGS_T210B01_OFFSET : TABLE_LA_REGS_T210_OFFSET)); // Adjust SDMMC1 latency allowance. switch (freq) { case 204000: la_scale_regs[LA_SDMMC1_INDEX] = (la_scale_regs[LA_SDMMC1_INDEX] & 0xFF0000) | 50; break; case 408000: la_scale_regs[LA_SDMMC1_INDEX] = (la_scale_regs[LA_SDMMC1_INDEX] & 0xFF0000) | 25; break; default: la_scale_regs[LA_SDMMC1_INDEX] = (la_scale_regs[LA_SDMMC1_INDEX] & 0xFF0000) | 20; break; } } void minerva_prep_boot_hos() { if (!mtc_call) return; // Restore boot frequency for no table mode. if (no_table) { minerva_deinit(); return; } // Check if there's RAM OC. If not exit. if (mtc_cfg->mtc_table[mtc_cfg->table_entries - 1].rate_khz == FREQ_1600) return; // FSP WAR. minerva_change_freq(FREQ_204); // Scale down to 800 MHz boot freq. minerva_change_freq(FREQ_800); } void minerva_prep_boot_l4t(u32 oc_freq, u32 opt_custom, bool prg_sdmmc_la) { if (!mtc_call || no_table) return; // Program SDMMC LA regs. if (prg_sdmmc_la) for (u32 i = 0; i < mtc_cfg->table_entries; i++) minerva_sdmmc_la_program(&mtc_cfg->mtc_table[i], false); // Add OC frequency. if (oc_freq && mtc_cfg->mtc_table[mtc_cfg->table_entries - 1].rate_khz == FREQ_1600) { memcpy(&mtc_cfg->mtc_table[mtc_cfg->table_entries], &mtc_cfg->mtc_table[mtc_cfg->table_entries - 1], sizeof(emc_table_t)); mtc_cfg->mtc_table[mtc_cfg->table_entries].opt_custom = opt_custom; mtc_cfg->mtc_table[mtc_cfg->table_entries].rate_khz = oc_freq; mtc_cfg->table_entries++; } // Trim table. int entries = 0; for (u32 i = 0; i < mtc_cfg->table_entries; i++) { // Copy frequencies from 204/408/800 MHz and 1333+ MHz. int rate = mtc_cfg->mtc_table[i].rate_khz; if (rate == FREQ_204 || rate == FREQ_408 || rate == FREQ_800 || rate >= FREQ_1333) { memcpy(&mtc_cfg->mtc_table[entries], &mtc_cfg->mtc_table[i], sizeof(emc_table_t)); entries++; } } mtc_cfg->table_entries = entries; // Set init frequency. minerva_change_freq(FREQ_204); // Train the rest of the frequencies. mtc_cfg->train_mode = OP_TRAIN; for (u32 i = 0; i < mtc_cfg->table_entries; i++) { // Skip already trained frequencies and OC freq (Arachne handles it). if (mtc_cfg->mtc_table[i].trained || mtc_cfg->rate_to == oc_freq) continue; // Train frequency. mtc_cfg->rate_to = mtc_cfg->mtc_table[i].rate_khz; mtc_call(mtc_cfg, NULL); } // Do FSP WAR and scale to 800 MHz as boot freq. bool fsp_opwr_disabled = !(EMC(EMC_MRW3) & 0xC0); if (fsp_opwr_disabled) minerva_change_freq(FREQ_1333); minerva_change_freq(FREQ_800); // Do not let other mtc ops. mtc_cfg->init_done = 0; } void minerva_periodic_training() { if (!mtc_call) return; if (mtc_cfg->rate_from >= FREQ_1066) { mtc_cfg->train_mode = OP_PERIODIC_TRAIN; mtc_call(mtc_cfg, NULL); } } emc_table_t *minerva_get_mtc_table() { if (!mtc_call || no_table) return NULL; return mtc_cfg->mtc_table; } int minerva_get_mtc_table_entries() { if (!mtc_call || no_table) return 0; return mtc_cfg->table_entries; } ================================================ FILE: bdk/mem/minerva.h ================================================ /* * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _FE_MINERVA_H_ #define _FE_MINERVA_H_ #include "mtc_table.h" #include #define MTC_INIT_MAGIC 0x3043544D #define MTC_NEW_MAGIC 0x5243544D #define MTC_IRB_MAGIC 0x4943544D #define EMC_PERIODIC_TRAIN_MS 250 typedef struct { u32 rate_to; u32 rate_from; emc_table_t *mtc_table; u32 table_entries; emc_table_t *current_emc_table; u32 train_mode; u32 sdram_id; u32 prev_temp; bool emc_2X_clk_src_is_pllmb; bool fsp_for_src_freq; bool train_ram_patterns; u32 init_done; } mtc_config_t; typedef struct { mtc_config_t mtc_cfg; emc_table_t mtc_table[11]; // 10 + 1. } minerva_str_t; enum train_mode_t { OP_SWITCH = 0, OP_TRAIN = 1, OP_TRAIN_SWITCH = 2, OP_PERIODIC_TRAIN = 3, OP_TEMP_COMP = 4 }; typedef enum { FREQ_204 = 204000, FREQ_408 = 408000, FREQ_666 = 665600, FREQ_800 = 800000, FREQ_1066 = 1065600, FREQ_1333 = 1331200, FREQ_1600 = 1600000, FREQ_MIN = FREQ_204, FREQ_MAX = FREQ_1600 } minerva_freq_t; extern void (*minerva_cfg)(mtc_config_t *mtc_cfg, void *); int minerva_init(minerva_str_t *mtc_str); void minerva_deinit(); void minerva_change_freq(minerva_freq_t freq); void minerva_sdmmc_la_program(void *table, bool t210b01); void minerva_prep_boot_hos(); void minerva_prep_boot_l4t(u32 oc_freq, u32 opt_custom, bool prg_sdmmc_la); void minerva_periodic_training(); emc_table_t *minerva_get_mtc_table(); int minerva_get_mtc_table_entries(); #endif ================================================ FILE: bdk/mem/mtc_table.h ================================================ /* * Minerva Training Cell * DRAM Training for Tegra X1 SoC. Supports DDR2/3 and LPDDR3/4. * * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MTC_TABLE_H_ #define _MTC_TABLE_H_ #include typedef struct { s32 pll_osc_in; s32 pll_out; u32 pll_feedback_div; u32 pll_input_div; u32 pll_post_div; } pllm_clk_config_t; typedef struct { u32 emc_rc_idx; u32 emc_rfc_idx; u32 emc_rfcpb_idx; u32 emc_refctrl2_idx; u32 emc_rfc_slr_idx; u32 emc_ras_idx; u32 emc_rp_idx; u32 emc_r2w_idx; u32 emc_w2r_idx; u32 emc_r2p_idx; u32 emc_w2p_idx; u32 emc_r2r_idx; u32 emc_tppd_idx; u32 emc_ccdmw_idx; u32 emc_rd_rcd_idx; u32 emc_wr_rcd_idx; u32 emc_rrd_idx; u32 emc_rext_idx; u32 emc_wext_idx; u32 emc_wdv_chk_idx; u32 emc_wdv_idx; u32 emc_wsv_idx; u32 emc_wev_idx; u32 emc_wdv_mask_idx; u32 emc_ws_duration_idx; u32 emc_we_duration_idx; u32 emc_quse_idx; u32 emc_quse_width_idx; u32 emc_ibdly_idx; u32 emc_obdly_idx; u32 emc_einput_idx; u32 emc_mrw6_idx; u32 emc_einput_duration_idx; u32 emc_puterm_extra_idx; u32 emc_puterm_width_idx; u32 emc_qrst_idx; u32 emc_qsafe_idx; u32 emc_rdv_idx; u32 emc_rdv_mask_idx; u32 emc_rdv_early_idx; u32 emc_rdv_early_mask_idx; u32 emc_refresh_idx; u32 emc_burst_refresh_num_idx; u32 emc_pre_refresh_req_cnt_idx; u32 emc_pdex2wr_idx; u32 emc_pdex2rd_idx; u32 emc_pchg2pden_idx; u32 emc_act2pden_idx; u32 emc_ar2pden_idx; u32 emc_rw2pden_idx; u32 emc_cke2pden_idx; u32 emc_pdex2cke_idx; u32 emc_pdex2mrr_idx; u32 emc_txsr_idx; u32 emc_txsrdll_idx; u32 emc_tcke_idx; u32 emc_tckesr_idx; u32 emc_tpd_idx; u32 emc_tfaw_idx; u32 emc_trpab_idx; u32 emc_tclkstable_idx; u32 emc_tclkstop_idx; u32 emc_mrw7_idx; u32 emc_trefbw_idx; u32 emc_odt_write_idx; u32 emc_fbio_cfg5_idx; u32 emc_fbio_cfg7_idx; u32 emc_cfg_dig_dll_idx; u32 emc_cfg_dig_dll_period_idx; u32 emc_pmacro_ib_rxrt_idx; u32 emc_cfg_pipe_1_idx; u32 emc_cfg_pipe_2_idx; u32 emc_pmacro_quse_ddll_rank0_4_idx; u32 emc_pmacro_quse_ddll_rank0_5_idx; u32 emc_pmacro_quse_ddll_rank1_4_idx; u32 emc_pmacro_quse_ddll_rank1_5_idx; u32 emc_mrw8_idx; u32 emc_pmacro_ob_ddll_long_dq_rank1_4_idx; u32 emc_pmacro_ob_ddll_long_dq_rank1_5_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank0_0_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank0_1_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank0_2_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank0_3_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank0_4_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank0_5_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank1_0_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank1_1_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank1_2_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank1_3_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank1_4_idx; u32 emc_pmacro_ob_ddll_long_dqs_rank1_5_idx; u32 emc_pmacro_ddll_long_cmd_0_idx; u32 emc_pmacro_ddll_long_cmd_1_idx; u32 emc_pmacro_ddll_long_cmd_2_idx; u32 emc_pmacro_ddll_long_cmd_3_idx; u32 emc_pmacro_ddll_long_cmd_4_idx; u32 emc_pmacro_ddll_short_cmd_0_idx; u32 emc_pmacro_ddll_short_cmd_1_idx; u32 emc_pmacro_ddll_short_cmd_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_3_idx; u32 emc_txdsrvttgen_idx; u32 emc_fdpd_ctrl_dq_idx; u32 emc_fdpd_ctrl_cmd_idx; u32 emc_fbio_spare_idx; u32 emc_zcal_interval_idx; u32 emc_zcal_wait_cnt_idx; u32 emc_mrs_wait_cnt_idx; u32 emc_mrs_wait_cnt2_idx; u32 emc_auto_cal_channel_idx; u32 emc_dll_cfg_0_idx; u32 emc_dll_cfg_1_idx; u32 emc_pmacro_autocal_cfg_common_idx; u32 emc_pmacro_zctrl_idx; u32 emc_cfg_idx; u32 emc_cfg_pipe_idx; u32 emc_dyn_self_ref_control_idx; u32 emc_qpop_idx; u32 emc_dqs_brlshft_0_idx; u32 emc_dqs_brlshft_1_idx; u32 emc_cmd_brlshft_2_idx; u32 emc_cmd_brlshft_3_idx; u32 emc_pmacro_pad_cfg_ctrl_idx; u32 emc_pmacro_data_pad_rx_ctrl_idx; u32 emc_pmacro_cmd_pad_rx_ctrl_idx; u32 emc_pmacro_data_rx_term_mode_idx; u32 emc_pmacro_cmd_rx_term_mode_idx; u32 emc_pmacro_cmd_pad_tx_ctrl_idx; u32 emc_pmacro_data_pad_tx_ctrl_idx; u32 emc_pmacro_common_pad_tx_ctrl_idx; u32 emc_pmacro_vttgen_ctrl_0_idx; u32 emc_pmacro_vttgen_ctrl_1_idx; u32 emc_pmacro_vttgen_ctrl_2_idx; u32 emc_pmacro_brick_ctrl_rfu1_idx; u32 emc_pmacro_cmd_brick_ctrl_fdpd_idx; u32 emc_pmacro_brick_ctrl_rfu2_idx; u32 emc_pmacro_data_brick_ctrl_fdpd_idx; u32 emc_pmacro_bg_bias_ctrl_0_idx; u32 emc_cfg_3_idx; u32 emc_pmacro_tx_pwrd_0_idx; u32 emc_pmacro_tx_pwrd_1_idx; u32 emc_pmacro_tx_pwrd_2_idx; u32 emc_pmacro_tx_pwrd_3_idx; u32 emc_pmacro_tx_pwrd_4_idx; u32 emc_pmacro_tx_pwrd_5_idx; u32 emc_config_sample_delay_idx; u32 emc_pmacro_tx_sel_clk_src_0_idx; u32 emc_pmacro_tx_sel_clk_src_1_idx; u32 emc_pmacro_tx_sel_clk_src_2_idx; u32 emc_pmacro_tx_sel_clk_src_3_idx; u32 emc_pmacro_tx_sel_clk_src_4_idx; u32 emc_pmacro_tx_sel_clk_src_5_idx; u32 emc_pmacro_ddll_bypass_idx; u32 emc_pmacro_ddll_pwrd_0_idx; u32 emc_pmacro_ddll_pwrd_1_idx; u32 emc_pmacro_ddll_pwrd_2_idx; u32 emc_pmacro_cmd_ctrl_0_idx; u32 emc_pmacro_cmd_ctrl_1_idx; u32 emc_pmacro_cmd_ctrl_2_idx; u32 emc_tr_timing_0_idx; u32 emc_tr_dvfs_idx; u32 emc_tr_ctrl_1_idx; u32 emc_tr_rdv_idx; u32 emc_tr_qpop_idx; u32 emc_tr_rdv_mask_idx; u32 emc_mrw14_idx; u32 emc_tr_qsafe_idx; u32 emc_tr_qrst_idx; u32 emc_training_ctrl_idx; u32 emc_training_settle_idx; u32 emc_training_vref_settle_idx; u32 emc_training_ca_fine_ctrl_idx; u32 emc_training_ca_ctrl_misc_idx; u32 emc_training_ca_ctrl_misc1_idx; u32 emc_training_ca_vref_ctrl_idx; u32 emc_training_quse_cors_ctrl_idx; u32 emc_training_quse_fine_ctrl_idx; u32 emc_training_quse_ctrl_misc_idx; u32 emc_training_quse_vref_ctrl_idx; u32 emc_training_read_fine_ctrl_idx; u32 emc_training_read_ctrl_misc_idx; u32 emc_training_read_vref_ctrl_idx; u32 emc_training_write_fine_ctrl_idx; u32 emc_training_write_ctrl_misc_idx; u32 emc_training_write_vref_ctrl_idx; u32 emc_training_mpc_idx; u32 emc_mrw15_idx; } burst_regs_t; typedef struct { u32 burst_regs[221]; u32 burst_reg_per_ch[8]; u32 shadow_regs_ca_train[221]; u32 shadow_regs_quse_train[221]; u32 shadow_regs_rdwr_train[221]; } burst_regs_table_t; typedef struct { u32 ptfv_dqsosc_movavg_c0d0u0_idx; u32 ptfv_dqsosc_movavg_c0d0u1_idx; u32 ptfv_dqsosc_movavg_c0d1u0_idx; u32 ptfv_dqsosc_movavg_c0d1u1_idx; u32 ptfv_dqsosc_movavg_c1d0u0_idx; u32 ptfv_dqsosc_movavg_c1d0u1_idx; u32 ptfv_dqsosc_movavg_c1d1u0_idx; u32 ptfv_dqsosc_movavg_c1d1u1_idx; u32 ptfv_write_samples_idx; u32 ptfv_dvfs_samples_idx; u32 ptfv_movavg_weight_idx; u32 ptfv_config_ctrl_idx; } ptfv_list_table_t; typedef struct { u32 emc0_mrw10_idx; u32 emc1_mrw10_idx; u32 emc0_mrw11_idx; u32 emc1_mrw11_idx; u32 emc0_mrw12_idx; u32 emc1_mrw12_idx; u32 emc0_mrw13_idx; u32 emc1_mrw13_idx; } burst_reg_per_ch_t; typedef struct { u32 emc_pmacro_ib_ddll_long_dqs_rank0_0_idx; u32 emc_pmacro_ib_ddll_long_dqs_rank0_1_idx; u32 emc_pmacro_ib_ddll_long_dqs_rank0_2_idx; u32 emc_pmacro_ib_ddll_long_dqs_rank0_3_idx; u32 emc_pmacro_ib_ddll_long_dqs_rank1_0_idx; u32 emc_pmacro_ib_ddll_long_dqs_rank1_1_idx; u32 emc_pmacro_ib_ddll_long_dqs_rank1_2_idx; u32 emc_pmacro_ib_ddll_long_dqs_rank1_3_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte0_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte0_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte0_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte1_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte1_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte1_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte2_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte2_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte2_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte3_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte3_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte3_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte4_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte4_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte4_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte5_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte5_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte5_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte6_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte6_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte6_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte7_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte7_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte7_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte0_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte0_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte0_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte1_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte1_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte1_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte2_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte2_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte2_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte3_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte3_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte3_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte4_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte4_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte4_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte5_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte5_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte5_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte6_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte6_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte6_2_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte7_0_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte7_1_idx; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte7_2_idx; u32 emc_pmacro_ib_vref_dqs_0_idx; u32 emc_pmacro_ib_vref_dqs_1_idx; u32 emc_pmacro_ib_vref_dq_0_idx; u32 emc_pmacro_ib_vref_dq_1_idx; u32 emc_pmacro_ob_ddll_long_dq_rank0_0_idx; u32 emc_pmacro_ob_ddll_long_dq_rank0_1_idx; u32 emc_pmacro_ob_ddll_long_dq_rank0_2_idx; u32 emc_pmacro_ob_ddll_long_dq_rank0_3_idx; u32 emc_pmacro_ob_ddll_long_dq_rank0_4_idx; u32 emc_pmacro_ob_ddll_long_dq_rank0_5_idx; u32 emc_pmacro_ob_ddll_long_dq_rank1_0_idx; u32 emc_pmacro_ob_ddll_long_dq_rank1_1_idx; u32 emc_pmacro_ob_ddll_long_dq_rank1_2_idx; u32 emc_pmacro_ob_ddll_long_dq_rank1_3_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_2_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_0_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_1_idx; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_2_idx; u32 emc_pmacro_quse_ddll_rank0_0_idx; u32 emc_pmacro_quse_ddll_rank0_1_idx; u32 emc_pmacro_quse_ddll_rank0_2_idx; u32 emc_pmacro_quse_ddll_rank0_3_idx; u32 emc_pmacro_quse_ddll_rank1_0_idx; u32 emc_pmacro_quse_ddll_rank1_1_idx; u32 emc_pmacro_quse_ddll_rank1_2_idx; u32 emc_pmacro_quse_ddll_rank1_3_idx; } trim_regs_t; typedef struct { u32 emc_cmd_brlshft_0_idx; u32 emc_cmd_brlshft_1_idx; u32 emc0_data_brlshft_0_idx; u32 emc1_data_brlshft_0_idx; u32 emc0_data_brlshft_1_idx; u32 emc1_data_brlshft_1_idx; u32 emc_quse_brlshft_0_idx; u32 emc_quse_brlshft_1_idx; u32 emc_quse_brlshft_2_idx; u32 emc_quse_brlshft_3_idx; } trim_perch_regs_t; typedef struct { u32 t_rp; u32 t_fc_lpddr4; u32 t_rfc; u32 t_pdex; u32 rl; } dram_timings_t; typedef struct { u32 emc0_training_opt_dqs_ib_vref_rank0_idx; u32 emc1_training_opt_dqs_ib_vref_rank0_idx; u32 emc0_training_opt_dqs_ib_vref_rank1_idx; u32 emc1_training_opt_dqs_ib_vref_rank1_idx; } vref_perch_regs_t; typedef struct { u32 trim_regs[138]; u32 trim_perch_regs[10]; u32 vref_perch_regs[4]; } trim_regs_table_t; typedef struct { u32 rev; char dvfs_ver[60]; u32 rate_khz; u32 min_volt; u32 gpu_min_volt; char clock_src[28]; u32 opt_custom; u32 clk_src_emc; u32 needs_training; u32 training_pattern; u32 trained; u32 periodic_training; u32 trained_dram_clktree_c0d0u0; u32 trained_dram_clktree_c0d0u1; u32 trained_dram_clktree_c0d1u0; u32 trained_dram_clktree_c0d1u1; u32 trained_dram_clktree_c1d0u0; u32 trained_dram_clktree_c1d0u1; u32 trained_dram_clktree_c1d1u0; u32 trained_dram_clktree_c1d1u1; u32 current_dram_clktree_c0d0u0; u32 current_dram_clktree_c0d0u1; u32 current_dram_clktree_c0d1u0; u32 current_dram_clktree_c0d1u1; u32 current_dram_clktree_c1d0u0; u32 current_dram_clktree_c1d0u1; u32 current_dram_clktree_c1d1u0; u32 current_dram_clktree_c1d1u1; u32 run_clocks; u32 tree_margin; u32 num_burst; u32 num_burst_per_ch; u32 num_trim; u32 num_trim_per_ch; u32 num_mc_regs; u32 num_up_down; u32 vref_num; u32 training_mod_num; u32 dram_timing_num; ptfv_list_table_t ptfv_list; burst_regs_t burst_regs; burst_reg_per_ch_t burst_reg_per_ch; burst_regs_t shadow_regs_ca_train; burst_regs_t shadow_regs_quse_train; burst_regs_t shadow_regs_rdwr_train; trim_regs_t trim_regs; trim_perch_regs_t trim_perch_regs; vref_perch_regs_t vref_perch_regs; dram_timings_t dram_timings; u32 training_mod_regs[20]; u32 save_restore_mod_regs[12]; u32 burst_mc_regs[33]; u32 la_scale_regs[24]; u32 min_mrs_wait; u32 emc_mrw; u32 emc_mrw2; u32 emc_mrw3; u32 emc_mrw4; u32 emc_mrw9; u32 emc_mrs; u32 emc_emrs; u32 emc_emrs2; u32 emc_auto_cal_config; u32 emc_auto_cal_config2; u32 emc_auto_cal_config3; u32 emc_auto_cal_config4; u32 emc_auto_cal_config5; u32 emc_auto_cal_config6; u32 emc_auto_cal_config7; u32 emc_auto_cal_config8; u32 emc_cfg_2; u32 emc_sel_dpd_ctrl; u32 emc_fdpd_ctrl_cmd_no_ramp; u32 dll_clk_src; u32 clk_out_enb_x_0_clk_enb_emc_dll; u32 latency; } emc_table_t; #endif ================================================ FILE: bdk/mem/sdram.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 balika011 * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define DRAM_ID(x) BIT(x) #define DRAM_CC(x) BIT(x) typedef struct _sdram_vendor_patch_t { u32 val; u32 dramcf:16; u32 offset:16; } sdram_vendor_patch_t; static const u8 dram_encoding_t210b01[] = { /* 00 */ LPDDR4X_UNUSED, /* 01 */ LPDDR4X_UNUSED, /* 02 */ LPDDR4X_UNUSED, /* 03 */ LPDDR4X_4GB_HYNIX_H9HCNNNBKMMLXR_NEE, /* 04 */ LPDDR4X_UNUSED, /* 05 */ LPDDR4X_4GB_HYNIX_H9HCNNNBKMMLXR_NEE, /* 06 */ LPDDR4X_4GB_HYNIX_H9HCNNNBKMMLXR_NEE, /* 07 */ LPDDR4X_UNUSED, /* 08 */ LPDDR4X_NO_PATCH, /* 09 */ LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ, /* 10 */ LPDDR4X_NO_PATCH, /* 11 */ LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE, /* 12 */ LPDDR4X_NO_PATCH, /* 13 */ LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ, /* 14 */ LPDDR4X_NO_PATCH, /* 15 */ LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE, /* 16 */ LPDDR4X_UNUSED, /* 17 */ LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL, /* 18 */ LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL, /* 19 */ LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL, /* 20 */ LPDDR4X_4GB_SAMSUNG_K4U6E3S4AB_MGCL, /* 21 */ LPDDR4X_4GB_SAMSUNG_K4U6E3S4AB_MGCL, /* 22 */ LPDDR4X_4GB_SAMSUNG_K4U6E3S4AB_MGCL, /* 23 */ LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL, /* 24 */ LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL, /* 25 */ LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF, /* 26 */ LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF, /* 27 */ LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF, /* 28 */ LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL, /* 29 */ LPDDR4X_4GB_HYNIX_H54G46CYRBX267, /* 30 */ LPDDR4X_4GB_HYNIX_H54G46CYRBX267, /* 31 */ LPDDR4X_4GB_HYNIX_H54G46CYRBX267, /* 32 */ LPDDR4X_4GB_MICRON_MT53E512M32D1NP_046_WTB, /* 33 */ LPDDR4X_4GB_MICRON_MT53E512M32D1NP_046_WTB, /* 34 */ LPDDR4X_4GB_MICRON_MT53E512M32D1NP_046_WTB, }; #include "sdram_config.inl" #include "sdram_config_t210b01.inl" static int _sdram_wait_emc_status(u32 reg_offset, u32 bit_mask, bool updated_state, s32 emc_channel) { int err = 1; for (s32 i = 0; i < EMC_STATUS_UPDATE_TIMEOUT; i++) { if (emc_channel) { if (emc_channel != 1) goto done; if (((EMC_CH1(reg_offset) & bit_mask) != 0) == updated_state) { err = 0; break; } } else if (((EMC(reg_offset) & bit_mask) != 0) == updated_state) { err = 0; break; } usleep(1); } done: return err; } static void _sdram_req_mrr_data(u32 data, bool dual_channel) { EMC(EMC_MRR) = data; _sdram_wait_emc_status(EMC_EMC_STATUS, EMC_STATUS_MRR_DIVLD, true, EMC_CHAN0); if (dual_channel) _sdram_wait_emc_status(EMC_EMC_STATUS, EMC_STATUS_MRR_DIVLD, true, EMC_CHAN1); } emc_mr_data_t sdram_read_mrx(emc_mr_t mrx) { emc_mr_data_t data; u32 mrr; bool dual_rank = EMC(EMC_ADR_CFG) & 1; bool dual_channel = (EMC(EMC_FBIO_CFG7) >> 2) & 1; // Each EMC channel is a RAM chip module. // Clear left overs. for (u32 i = 0; i < 16; i++) { (void)EMC(EMC_MRR); usleep(1); } memset(&data, 0xFF, sizeof(emc_mr_data_t)); /* * When a dram chip has only one rank, then the info from the 2 ranks differs. * Info not matching is only allowed on different channels. */ // Get Device 0 (Rank 0) info from both dram chips (channels). _sdram_req_mrr_data((2u << 30) | (mrx << 16), dual_channel); // Ram module 0 info. mrr = EMC_CH0(EMC_MRR); data.chip0.rank0_ch0 = mrr & 0xFF; data.chip0.rank0_ch1 = (mrr & 0xFF00 >> 8); // Ram module 1 info. if (dual_channel) { mrr = EMC_CH1(EMC_MRR); data.chip1.rank0_ch0 = mrr & 0xFF; data.chip1.rank0_ch1 = (mrr & 0xFF00 >> 8); } // If Rank 1 exists, get info. if (dual_rank) { // Get Device 1 (Rank 1) info from both dram chips (channels). _sdram_req_mrr_data((1u << 30) | (mrx << 16), dual_channel); // Ram module 0 info. mrr = EMC_CH0(EMC_MRR); data.chip0.rank1_ch0 = mrr & 0xFF; data.chip0.rank1_ch1 = (mrr & 0xFF00 >> 8); // Ram module 1 info. if (dual_channel) { mrr = EMC_CH1(EMC_MRR); data.chip1.rank1_ch0 = mrr & 0xFF; data.chip1.rank1_ch1 = (mrr & 0xFF00 >> 8); } } return data; } static void _sdram_config_t210(const sdram_params_t210_t *params) { // VDDP Select. PMC(APBDEV_PMC_VDDP_SEL) = params->pmc_vddp_sel; usleep(params->pmc_vddp_sel_wait); // Set DDR pad voltage. PMC(APBDEV_PMC_DDR_PWR) = PMC(APBDEV_PMC_DDR_PWR); // Normally params->pmc_ddr_pwr. // Turn on MEM IO Power. PMC(APBDEV_PMC_NO_IOPOWER) &= PMC_NO_IOPOWER_SDMMC1; // Only keep SDMMC1 state. (Was params->pmc_no_io_power). PMC(APBDEV_PMC_REG_SHORT) = params->pmc_reg_short; PMC(APBDEV_PMC_DDR_CNTRL) = params->pmc_ddr_ctrl; // Patch 1 using BCT spare variables if (params->emc_bct_spare0) *(vu32 *)params->emc_bct_spare0 = params->emc_bct_spare1; // Program DPD3/DPD4 regs (coldboot path). // Enable sel_dpd on unused pins. u32 dpd_req = (params->emc_pmc_scratch1 & 0x3FFFFFFF) | PMC_IO_DPD_REQ_DPD_ON; PMC(APBDEV_PMC_IO_DPD3_REQ) = (dpd_req ^ 0xFFFF) & 0xC000FFFF; usleep(params->pmc_io_dpd3_req_wait); // Disable e_dpd_vttgen. dpd_req = (params->emc_pmc_scratch2 & 0x3FFFFFFF) | PMC_IO_DPD_REQ_DPD_ON; PMC(APBDEV_PMC_IO_DPD4_REQ) = (dpd_req & 0xFFFF0000) ^ 0x3FFF0000; usleep(params->pmc_io_dpd4_req_wait); // Disable e_dpd_bg. PMC(APBDEV_PMC_IO_DPD4_REQ) = (dpd_req ^ 0xFFFF) & 0xC000FFFF; usleep(params->pmc_io_dpd4_req_wait); PMC(APBDEV_PMC_WEAK_BIAS) = 0; usleep(1); // Start PLLM. CLOCK(CLK_RST_CONTROLLER_PLLM_MISC1) = params->pllm_setup_control; CLOCK(CLK_RST_CONTROLLER_PLLM_MISC2) = 0; u32 pllm_div = (params->pllm_feedback_divider << 8) | params->pllm_input_divider | ((params->pllm_post_divider & 0xFFFF) << 20); CLOCK(CLK_RST_CONTROLLER_PLLM_BASE) = pllm_div; CLOCK(CLK_RST_CONTROLLER_PLLM_BASE) = pllm_div | PLL_BASE_ENABLE; u32 wait_end = get_tmr_us() + 300; while (!(CLOCK(CLK_RST_CONTROLLER_PLLM_BASE) & BIT(27))) { if (get_tmr_us() >= wait_end) goto lock_timeout; } usleep(10); lock_timeout: // Set clock sources. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC) = ((params->mc_emem_arb_misc0 >> 11) & 0x10000) | (params->emc_clock_source & 0xFFFEFFFF); if (params->emc_clock_source_dll) CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC_DLL) = params->emc_clock_source_dll; if (params->clear_clock2_mc1) CLOCK(CLK_RST_CONTROLLER_CLK_ENB_W_CLR) = BIT(CLK_W_MC1); // Clear Reset to MC1. // Enable and clear reset for memory clocks. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_H_SET) = BIT(CLK_H_EMC) | BIT(CLK_H_MEM); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_X_SET) = BIT(CLK_X_EMC_DLL); CLOCK(CLK_RST_CONTROLLER_RST_DEV_H_CLR) = BIT(CLK_H_EMC) | BIT(CLK_H_MEM); // Set pad vtt levels. EMC(EMC_PMACRO_VTTGEN_CTRL_0) = params->emc_pmacro_vttgen_ctrl0; EMC(EMC_PMACRO_VTTGEN_CTRL_1) = params->emc_pmacro_vttgen_ctrl1; EMC(EMC_PMACRO_VTTGEN_CTRL_2) = params->emc_pmacro_vttgen_ctrl2; // Trigger timing update so above writes take place. EMC(EMC_TIMING_CONTROL) = 1; usleep(10); // Ensure the regulators settle. // Select EMC write mux. EMC(EMC_DBG) = (params->emc_dbg_write_mux << 1) | params->emc_dbg; // Patch 2 using BCT spare variables. if (params->emc_bct_spare2) *(vu32 *)params->emc_bct_spare2 = params->emc_bct_spare3; // Program CMD mapping. Required before brick mapping, else // we can't guarantee CK will be differential at all times. EMC(EMC_FBIO_CFG7) = params->emc_fbio_cfg7; EMC(EMC_CMD_MAPPING_CMD0_0) = params->emc_cmd_mapping_cmd0_0; EMC(EMC_CMD_MAPPING_CMD0_1) = params->emc_cmd_mapping_cmd0_1; EMC(EMC_CMD_MAPPING_CMD0_2) = params->emc_cmd_mapping_cmd0_2; EMC(EMC_CMD_MAPPING_CMD1_0) = params->emc_cmd_mapping_cmd1_0; EMC(EMC_CMD_MAPPING_CMD1_1) = params->emc_cmd_mapping_cmd1_1; EMC(EMC_CMD_MAPPING_CMD1_2) = params->emc_cmd_mapping_cmd1_2; EMC(EMC_CMD_MAPPING_CMD2_0) = params->emc_cmd_mapping_cmd2_0; EMC(EMC_CMD_MAPPING_CMD2_1) = params->emc_cmd_mapping_cmd2_1; EMC(EMC_CMD_MAPPING_CMD2_2) = params->emc_cmd_mapping_cmd2_2; EMC(EMC_CMD_MAPPING_CMD3_0) = params->emc_cmd_mapping_cmd3_0; EMC(EMC_CMD_MAPPING_CMD3_1) = params->emc_cmd_mapping_cmd3_1; EMC(EMC_CMD_MAPPING_CMD3_2) = params->emc_cmd_mapping_cmd3_2; EMC(EMC_CMD_MAPPING_BYTE) = params->emc_cmd_mapping_byte; // Program brick mapping. EMC(EMC_PMACRO_BRICK_MAPPING_0) = params->emc_pmacro_brick_mapping0; EMC(EMC_PMACRO_BRICK_MAPPING_1) = params->emc_pmacro_brick_mapping1; EMC(EMC_PMACRO_BRICK_MAPPING_2) = params->emc_pmacro_brick_mapping2; EMC(EMC_PMACRO_BRICK_CTRL_RFU1) = (params->emc_pmacro_brick_ctrl_rfu1 & 0x1120112) | 0x1EED1EED; // This is required to do any reads from the pad macros. EMC(EMC_CONFIG_SAMPLE_DELAY) = params->emc_config_sample_delay; // Set data pipes mode. EMC(EMC_FBIO_CFG8) = params->emc_fbio_cfg8; // Set swizzle for Rank 0. EMC(EMC_SWIZZLE_RANK0_BYTE0) = params->emc_swizzle_rank0_byte0; EMC(EMC_SWIZZLE_RANK0_BYTE1) = params->emc_swizzle_rank0_byte1; EMC(EMC_SWIZZLE_RANK0_BYTE2) = params->emc_swizzle_rank0_byte2; EMC(EMC_SWIZZLE_RANK0_BYTE3) = params->emc_swizzle_rank0_byte3; // Set swizzle for Rank 1. EMC(EMC_SWIZZLE_RANK1_BYTE0) = params->emc_swizzle_rank1_byte0; EMC(EMC_SWIZZLE_RANK1_BYTE1) = params->emc_swizzle_rank1_byte1; EMC(EMC_SWIZZLE_RANK1_BYTE2) = params->emc_swizzle_rank1_byte2; EMC(EMC_SWIZZLE_RANK1_BYTE3) = params->emc_swizzle_rank1_byte3; // Patch 3 using BCT spare variables. if (params->emc_bct_spare6) *(vu32 *)params->emc_bct_spare6 = params->emc_bct_spare7; // Program calibration impedance. EMC(EMC_XM2COMPPADCTRL) = params->emc_xm2_comp_pad_ctrl; EMC(EMC_XM2COMPPADCTRL2) = params->emc_xm2_comp_pad_ctrl2; EMC(EMC_XM2COMPPADCTRL3) = params->emc_xm2_comp_pad_ctrl3; // Program Autocal controls. EMC(EMC_AUTO_CAL_CONFIG2) = params->emc_auto_cal_config2; EMC(EMC_AUTO_CAL_CONFIG3) = params->emc_auto_cal_config3; EMC(EMC_AUTO_CAL_CONFIG4) = params->emc_auto_cal_config4; EMC(EMC_AUTO_CAL_CONFIG5) = params->emc_auto_cal_config5; EMC(EMC_AUTO_CAL_CONFIG6) = params->emc_auto_cal_config6; EMC(EMC_AUTO_CAL_CONFIG7) = params->emc_auto_cal_config7; EMC(EMC_AUTO_CAL_CONFIG8) = params->emc_auto_cal_config8; // Program termination and drive strength EMC(EMC_PMACRO_RX_TERM) = params->emc_pmacro_rx_term; EMC(EMC_PMACRO_DQ_TX_DRV) = params->emc_pmacro_dq_tx_drive; EMC(EMC_PMACRO_CA_TX_DRV) = params->emc_pmacro_ca_tx_drive; EMC(EMC_PMACRO_CMD_TX_DRV) = params->emc_pmacro_cmd_tx_drive; EMC(EMC_PMACRO_AUTOCAL_CFG_COMMON) = params->emc_pmacro_auto_cal_common; EMC(EMC_AUTO_CAL_CHANNEL) = params->emc_auto_cal_channel; EMC(EMC_PMACRO_ZCTRL) = params->emc_pmacro_zcrtl; // Program dll config. EMC(EMC_DLL_CFG_0) = params->emc_dll_cfg0; EMC(EMC_DLL_CFG_1) = params->emc_dll_cfg1; EMC(EMC_CFG_DIG_DLL_1) = params->emc_cfg_dig_dll_1; // Program barrelshift. EMC(EMC_DATA_BRLSHFT_0) = params->emc_data_brlshft0; EMC(EMC_DATA_BRLSHFT_1) = params->emc_data_brlshft1; EMC(EMC_DQS_BRLSHFT_0) = params->emc_dqs_brlshft0; EMC(EMC_DQS_BRLSHFT_1) = params->emc_dqs_brlshft1; EMC(EMC_CMD_BRLSHFT_0) = params->emc_cmd_brlshft0; EMC(EMC_CMD_BRLSHFT_1) = params->emc_cmd_brlshft1; EMC(EMC_CMD_BRLSHFT_2) = params->emc_cmd_brlshft2; EMC(EMC_CMD_BRLSHFT_3) = params->emc_cmd_brlshft3; EMC(EMC_QUSE_BRLSHFT_0) = params->emc_quse_brlshft0; EMC(EMC_QUSE_BRLSHFT_1) = params->emc_quse_brlshft1; EMC(EMC_QUSE_BRLSHFT_2) = params->emc_quse_brlshft2; EMC(EMC_QUSE_BRLSHFT_3) = params->emc_quse_brlshft3; // Program pad macros controls and termination. EMC(EMC_PMACRO_BRICK_CTRL_RFU1) = (params->emc_pmacro_brick_ctrl_rfu1 & 0x1BF01BF) | 0x1E401E40; EMC(EMC_PMACRO_PAD_CFG_CTRL) = params->emc_pmacro_pad_cfg_ctrl; EMC(EMC_PMACRO_CMD_BRICK_CTRL_FDPD) = params->emc_pmacro_cmd_brick_ctrl_fdpd; EMC(EMC_PMACRO_BRICK_CTRL_RFU2) = params->emc_pmacro_brick_ctrl_rfu2 & 0xFF7FFF7F; EMC(EMC_PMACRO_DATA_BRICK_CTRL_FDPD) = params->emc_pmacro_data_brick_ctrl_fdpd; EMC(EMC_PMACRO_BG_BIAS_CTRL_0) = params->emc_pmacro_bg_bias_ctrl0; EMC(EMC_PMACRO_DATA_PAD_RX_CTRL) = params->emc_pmacro_data_pad_rx_ctrl; EMC(EMC_PMACRO_CMD_PAD_RX_CTRL) = params->emc_pmacro_cmd_pad_rx_ctrl; EMC(EMC_PMACRO_DATA_PAD_TX_CTRL) = params->emc_pmacro_data_pad_tx_ctrl; EMC(EMC_PMACRO_DATA_RX_TERM_MODE) = params->emc_pmacro_data_rx_term_mode; EMC(EMC_PMACRO_CMD_RX_TERM_MODE) = params->emc_pmacro_cmd_rx_term_mode; EMC(EMC_PMACRO_CMD_PAD_TX_CTRL) = params->emc_pmacro_cmd_pad_tx_ctrl; // Program pad macro pins/bytes. EMC(EMC_CFG_3) = params->emc_cfg3; EMC(EMC_PMACRO_TX_PWRD_0) = params->emc_pmacro_tx_pwrd0; EMC(EMC_PMACRO_TX_PWRD_1) = params->emc_pmacro_tx_pwrd1; EMC(EMC_PMACRO_TX_PWRD_2) = params->emc_pmacro_tx_pwrd2; EMC(EMC_PMACRO_TX_PWRD_3) = params->emc_pmacro_tx_pwrd3; EMC(EMC_PMACRO_TX_PWRD_4) = params->emc_pmacro_tx_pwrd4; EMC(EMC_PMACRO_TX_PWRD_5) = params->emc_pmacro_tx_pwrd5; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_0) = params->emc_pmacro_tx_sel_clk_src0; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_1) = params->emc_pmacro_tx_sel_clk_src1; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_2) = params->emc_pmacro_tx_sel_clk_src2; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_3) = params->emc_pmacro_tx_sel_clk_src3; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_4) = params->emc_pmacro_tx_sel_clk_src4; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_5) = params->emc_pmacro_tx_sel_clk_src5; EMC(EMC_PMACRO_DDLL_BYPASS) = params->emc_pmacro_ddll_bypass; EMC(EMC_PMACRO_DDLL_PWRD_0) = params->emc_pmacro_ddll_pwrd0; EMC(EMC_PMACRO_DDLL_PWRD_1) = params->emc_pmacro_ddll_pwrd1; EMC(EMC_PMACRO_DDLL_PWRD_2) = params->emc_pmacro_ddll_pwrd2; EMC(EMC_PMACRO_CMD_CTRL_0) = params->emc_pmacro_cmd_ctrl0; EMC(EMC_PMACRO_CMD_CTRL_1) = params->emc_pmacro_cmd_ctrl1; EMC(EMC_PMACRO_CMD_CTRL_2) = params->emc_pmacro_cmd_ctrl2; // Program inbound vref setting. EMC(EMC_PMACRO_IB_VREF_DQ_0) = params->emc_pmacro_ib_vref_dq_0; EMC(EMC_PMACRO_IB_VREF_DQ_1) = params->emc_pmacro_ib_vref_dq_1; EMC(EMC_PMACRO_IB_VREF_DQS_0) = params->emc_pmacro_ib_vref_dqs_0; EMC(EMC_PMACRO_IB_VREF_DQS_1) = params->emc_pmacro_ib_vref_dqs_1; EMC(EMC_PMACRO_IB_RXRT) = params->emc_pmacro_ib_rxrt; // Program quse trimmers. EMC(EMC_PMACRO_QUSE_DDLL_RANK0_0) = params->emc_pmacro_quse_ddll_rank0_0; EMC(EMC_PMACRO_QUSE_DDLL_RANK0_1) = params->emc_pmacro_quse_ddll_rank0_1; EMC(EMC_PMACRO_QUSE_DDLL_RANK0_2) = params->emc_pmacro_quse_ddll_rank0_2; EMC(EMC_PMACRO_QUSE_DDLL_RANK0_3) = params->emc_pmacro_quse_ddll_rank0_3; EMC(EMC_PMACRO_QUSE_DDLL_RANK0_4) = params->emc_pmacro_quse_ddll_rank0_4; EMC(EMC_PMACRO_QUSE_DDLL_RANK0_5) = params->emc_pmacro_quse_ddll_rank0_5; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_0) = params->emc_pmacro_quse_ddll_rank1_0; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_1) = params->emc_pmacro_quse_ddll_rank1_1; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_2) = params->emc_pmacro_quse_ddll_rank1_2; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_3) = params->emc_pmacro_quse_ddll_rank1_3; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_4) = params->emc_pmacro_quse_ddll_rank1_4; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_5) = params->emc_pmacro_quse_ddll_rank1_5; EMC(EMC_PMACRO_BRICK_CTRL_RFU1) = params->emc_pmacro_brick_ctrl_rfu1; // Program outbound trimmers. EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0) = params->emc_pmacro_ob_ddll_long_dq_rank0_0; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1) = params->emc_pmacro_ob_ddll_long_dq_rank0_1; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2) = params->emc_pmacro_ob_ddll_long_dq_rank0_2; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3) = params->emc_pmacro_ob_ddll_long_dq_rank0_3; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_4) = params->emc_pmacro_ob_ddll_long_dq_rank0_4; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_5) = params->emc_pmacro_ob_ddll_long_dq_rank0_5; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0) = params->emc_pmacro_ob_ddll_long_dq_rank1_0; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1) = params->emc_pmacro_ob_ddll_long_dq_rank1_1; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2) = params->emc_pmacro_ob_ddll_long_dq_rank1_2; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3) = params->emc_pmacro_ob_ddll_long_dq_rank1_3; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_4) = params->emc_pmacro_ob_ddll_long_dq_rank1_4; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_5) = params->emc_pmacro_ob_ddll_long_dq_rank1_5; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_0) = params->emc_pmacro_ob_ddll_long_dqs_rank0_0; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_1) = params->emc_pmacro_ob_ddll_long_dqs_rank0_1; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_2) = params->emc_pmacro_ob_ddll_long_dqs_rank0_2; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_3) = params->emc_pmacro_ob_ddll_long_dqs_rank0_3; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_4) = params->emc_pmacro_ob_ddll_long_dqs_rank0_4; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_5) = params->emc_pmacro_ob_ddll_long_dqs_rank0_5; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_0) = params->emc_pmacro_ob_ddll_long_dqs_rank1_0; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_1) = params->emc_pmacro_ob_ddll_long_dqs_rank1_1; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_2) = params->emc_pmacro_ob_ddll_long_dqs_rank1_2; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_3) = params->emc_pmacro_ob_ddll_long_dqs_rank1_3; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_4) = params->emc_pmacro_ob_ddll_long_dqs_rank1_4; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_5) = params->emc_pmacro_ob_ddll_long_dqs_rank1_5; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_0) = params->emc_pmacro_ib_ddll_long_dqs_rank0_0; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_1) = params->emc_pmacro_ib_ddll_long_dqs_rank0_1; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_2) = params->emc_pmacro_ib_ddll_long_dqs_rank0_2; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_3) = params->emc_pmacro_ib_ddll_long_dqs_rank0_3; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_0) = params->emc_pmacro_ib_ddll_long_dqs_rank1_0; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_1) = params->emc_pmacro_ib_ddll_long_dqs_rank1_1; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_2) = params->emc_pmacro_ib_ddll_long_dqs_rank1_2; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_3) = params->emc_pmacro_ib_ddll_long_dqs_rank1_3; // Program clock trimmers. EMC(EMC_PMACRO_DDLL_LONG_CMD_0) = params->emc_pmacro_ddll_long_cmd_0; EMC(EMC_PMACRO_DDLL_LONG_CMD_1) = params->emc_pmacro_ddll_long_cmd_1; EMC(EMC_PMACRO_DDLL_LONG_CMD_2) = params->emc_pmacro_ddll_long_cmd_2; EMC(EMC_PMACRO_DDLL_LONG_CMD_3) = params->emc_pmacro_ddll_long_cmd_3; EMC(EMC_PMACRO_DDLL_LONG_CMD_4) = params->emc_pmacro_ddll_long_cmd_4; EMC(EMC_PMACRO_DDLL_SHORT_CMD_0) = params->emc_pmacro_ddll_short_cmd_0; EMC(EMC_PMACRO_DDLL_SHORT_CMD_1) = params->emc_pmacro_ddll_short_cmd_1; EMC(EMC_PMACRO_DDLL_SHORT_CMD_2) = params->emc_pmacro_ddll_short_cmd_2; // Common pad macro (cpm). EMC(EMC_PMACRO_COMMON_PAD_TX_CTRL) = (params->emc_pmacro_common_pad_tx_ctrl & 1) | 0xE; // Patch 4 using BCT spare variables. if (params->emc_bct_spare4) *(vu32 *)params->emc_bct_spare4 = params->emc_bct_spare5; // Trigger timing update so above writes take place. EMC(EMC_TIMING_CONTROL) = 1; // Initialize MC VPR settings. MC(MC_VIDEO_PROTECT_BOM) = params->mc_video_protect_bom; MC(MC_VIDEO_PROTECT_BOM_ADR_HI) = params->mc_video_protect_bom_adr_hi; MC(MC_VIDEO_PROTECT_SIZE_MB) = params->mc_video_protect_size_mb; MC(MC_VIDEO_PROTECT_VPR_OVERRIDE) = params->mc_video_protect_vpr_override; MC(MC_VIDEO_PROTECT_VPR_OVERRIDE1) = params->mc_video_protect_vpr_override1; MC(MC_VIDEO_PROTECT_GPU_OVERRIDE_0) = params->mc_video_protect_gpu_override0; MC(MC_VIDEO_PROTECT_GPU_OVERRIDE_1) = params->mc_video_protect_gpu_override1; // Program SDRAM geometry parameters. MC(MC_EMEM_ADR_CFG) = params->mc_emem_adr_cfg; MC(MC_EMEM_ADR_CFG_DEV0) = params->mc_emem_adr_cfg_dev0; MC(MC_EMEM_ADR_CFG_DEV1) = params->mc_emem_adr_cfg_dev1; MC(MC_EMEM_ADR_CFG_CHANNEL_MASK) = params->mc_emem_adr_cfg_channel_mask; // Program bank swizzling. MC(MC_EMEM_ADR_CFG_BANK_MASK_0) = params->mc_emem_adr_cfg_bank_mask0; MC(MC_EMEM_ADR_CFG_BANK_MASK_1) = params->mc_emem_adr_cfg_bank_mask1; MC(MC_EMEM_ADR_CFG_BANK_MASK_2) = params->mc_emem_adr_cfg_bank_mask2; // Program external memory aperture (base and size). MC(MC_EMEM_CFG) = params->mc_emem_cfg; // Program SEC carveout (base and size). MC(MC_SEC_CARVEOUT_BOM) = params->mc_sec_carveout_bom; MC(MC_SEC_CARVEOUT_ADR_HI) = params->mc_sec_carveout_adr_hi; MC(MC_SEC_CARVEOUT_SIZE_MB) = params->mc_sec_carveout_size_mb; // Program MTS carveout (base and size). MC(MC_MTS_CARVEOUT_BOM) = params->mc_mts_carveout_bom; MC(MC_MTS_CARVEOUT_ADR_HI) = params->mc_mts_carveout_adr_hi; MC(MC_MTS_CARVEOUT_SIZE_MB) = params->mc_mts_carveout_size_mb; // Program the memory arbiter. MC(MC_EMEM_ARB_CFG) = params->mc_emem_arb_cfg; MC(MC_EMEM_ARB_OUTSTANDING_REQ) = params->mc_emem_arb_outstanding_req; MC(MC_EMEM_ARB_REFPB_HP_CTRL) = params->emc_emem_arb_refpb_hp_ctrl; MC(MC_EMEM_ARB_REFPB_BANK_CTRL) = params->emc_emem_arb_refpb_bank_ctrl; MC(MC_EMEM_ARB_TIMING_RCD) = params->mc_emem_arb_timing_rcd; MC(MC_EMEM_ARB_TIMING_RP) = params->mc_emem_arb_timing_rp; MC(MC_EMEM_ARB_TIMING_RC) = params->mc_emem_arb_timing_rc; MC(MC_EMEM_ARB_TIMING_RAS) = params->mc_emem_arb_timing_ras; MC(MC_EMEM_ARB_TIMING_FAW) = params->mc_emem_arb_timing_faw; MC(MC_EMEM_ARB_TIMING_RRD) = params->mc_emem_arb_timing_rrd; MC(MC_EMEM_ARB_TIMING_RAP2PRE) = params->mc_emem_arb_timing_rap2pre; MC(MC_EMEM_ARB_TIMING_WAP2PRE) = params->mc_emem_arb_timing_wap2pre; MC(MC_EMEM_ARB_TIMING_R2R) = params->mc_emem_arb_timing_r2r; MC(MC_EMEM_ARB_TIMING_W2W) = params->mc_emem_arb_timing_w2w; MC(MC_EMEM_ARB_TIMING_CCDMW) = params->mc_emem_arb_timing_ccdmw; MC(MC_EMEM_ARB_TIMING_R2W) = params->mc_emem_arb_timing_r2w; MC(MC_EMEM_ARB_TIMING_W2R) = params->mc_emem_arb_timing_w2r; MC(MC_EMEM_ARB_TIMING_RFCPB) = params->mc_emem_arb_timing_rfcpb; MC(MC_EMEM_ARB_DA_TURNS) = params->mc_emem_arb_da_turns; MC(MC_EMEM_ARB_DA_COVERS) = params->mc_emem_arb_da_covers; MC(MC_EMEM_ARB_MISC0) = params->mc_emem_arb_misc0; MC(MC_EMEM_ARB_MISC1) = params->mc_emem_arb_misc1; MC(MC_EMEM_ARB_MISC2) = params->mc_emem_arb_misc2; MC(MC_EMEM_ARB_RING1_THROTTLE) = params->mc_emem_arb_ring1_throttle; MC(MC_EMEM_ARB_OVERRIDE) = params->mc_emem_arb_override; MC(MC_EMEM_ARB_OVERRIDE_1) = params->mc_emem_arb_override1; MC(MC_EMEM_ARB_RSV) = params->mc_emem_arb_rsv; MC(MC_DA_CONFIG0) = params->mc_da_cfg0; // Trigger MC timing update. MC(MC_TIMING_CONTROL) = 1; // Program second-level clock enable overrides. MC(MC_CLKEN_OVERRIDE) = params->mc_clken_override; // Program statistics gathering. MC(MC_STAT_CONTROL) = params->mc_stat_control; // Program SDRAM geometry parameters. EMC(EMC_ADR_CFG) = params->emc_adr_cfg; // Program second-level clock enable overrides. EMC(EMC_CLKEN_OVERRIDE) = params->emc_clken_override; // Program EMC pad auto calibration. EMC(EMC_PMACRO_AUTOCAL_CFG_0) = params->emc_pmacro_auto_cal_cfg0; EMC(EMC_PMACRO_AUTOCAL_CFG_1) = params->emc_pmacro_auto_cal_cfg1; EMC(EMC_PMACRO_AUTOCAL_CFG_2) = params->emc_pmacro_auto_cal_cfg2; EMC(EMC_AUTO_CAL_VREF_SEL_0) = params->emc_auto_cal_vref_sel0; EMC(EMC_AUTO_CAL_VREF_SEL_1) = params->emc_auto_cal_vref_sel1; // Program/Start auto calibration. EMC(EMC_AUTO_CAL_INTERVAL) = params->emc_auto_cal_interval; EMC(EMC_AUTO_CAL_CONFIG) = params->emc_auto_cal_config; usleep(params->emc_auto_cal_wait); // Patch 5 using BCT spare variables. if (params->emc_bct_spare8) *(vu32 *)params->emc_bct_spare8 = params->emc_bct_spare9; // Program EMC timing configuration. EMC(EMC_CFG_2) = params->emc_cfg2; EMC(EMC_CFG_PIPE) = params->emc_cfg_pipe; EMC(EMC_CFG_PIPE_1) = params->emc_cfg_pipe1; EMC(EMC_CFG_PIPE_2) = params->emc_cfg_pipe2; EMC(EMC_CMDQ) = params->emc_cmd_q; EMC(EMC_MC2EMCQ) = params->emc_mc2emc_q; EMC(EMC_MRS_WAIT_CNT) = params->emc_mrs_wait_cnt; EMC(EMC_MRS_WAIT_CNT2) = params->emc_mrs_wait_cnt2; EMC(EMC_FBIO_CFG5) = params->emc_fbio_cfg5; EMC(EMC_RC) = params->emc_rc; EMC(EMC_RFC) = params->emc_rfc; EMC(EMC_RFCPB) = params->emc_rfc_pb; EMC(EMC_REFCTRL2) = params->emc_ref_ctrl2; EMC(EMC_RFC_SLR) = params->emc_rfc_slr; EMC(EMC_RAS) = params->emc_ras; EMC(EMC_RP) = params->emc_rp; EMC(EMC_TPPD) = params->emc_tppd; EMC(EMC_R2R) = params->emc_r2r; EMC(EMC_W2W) = params->emc_w2w; EMC(EMC_R2W) = params->emc_r2w; EMC(EMC_W2R) = params->emc_w2r; EMC(EMC_R2P) = params->emc_r2p; EMC(EMC_W2P) = params->emc_w2p; EMC(EMC_CCDMW) = params->emc_ccdmw; EMC(EMC_RD_RCD) = params->emc_rd_rcd; EMC(EMC_WR_RCD) = params->emc_wr_rcd; EMC(EMC_RRD) = params->emc_rrd; EMC(EMC_REXT) = params->emc_rext; EMC(EMC_WEXT) = params->emc_wext; EMC(EMC_WDV) = params->emc_wdv; EMC(EMC_WDV_CHK) = params->emc_wdv_chk; EMC(EMC_WSV) = params->emc_wsv; EMC(EMC_WEV) = params->emc_wev; EMC(EMC_WDV_MASK) = params->emc_wdv_mask; EMC(EMC_WS_DURATION) = params->emc_ws_duration; EMC(EMC_WE_DURATION) = params->emc_we_duration; EMC(EMC_QUSE) = params->emc_quse; EMC(EMC_QUSE_WIDTH) = params->emc_quse_width; EMC(EMC_IBDLY) = params->emc_ibdly; EMC(EMC_OBDLY) = params->emc_obdly; EMC(EMC_EINPUT) = params->emc_einput; EMC(EMC_EINPUT_DURATION) = params->emc_einput_duration; EMC(EMC_PUTERM_EXTRA) = params->emc_puterm_extra; EMC(EMC_PUTERM_WIDTH) = params->emc_puterm_width; EMC(EMC_PMACRO_COMMON_PAD_TX_CTRL) = params->emc_pmacro_common_pad_tx_ctrl; EMC(EMC_DBG) = params->emc_dbg; // Clear read fifo. EMC(EMC_QRST) = params->emc_qrst; EMC(EMC_ISSUE_QRST) = 1; EMC(EMC_ISSUE_QRST) = 0; // Program the rest of EMC timing configuration. EMC(EMC_QSAFE) = params->emc_qsafe; EMC(EMC_RDV) = params->emc_rdv; EMC(EMC_RDV_MASK) = params->emc_rdv_mask; EMC(EMC_RDV_EARLY) = params->emc_rdv_early; EMC(EMC_RDV_EARLY_MASK) = params->emc_rdv_early_mask; EMC(EMC_QPOP) = params->emc_qpop; EMC(EMC_REFRESH) = params->emc_refresh; EMC(EMC_BURST_REFRESH_NUM) = params->emc_burst_refresh_num; EMC(EMC_PRE_REFRESH_REQ_CNT) = params->emc_prerefresh_req_cnt; EMC(EMC_PDEX2WR) = params->emc_pdex2wr; EMC(EMC_PDEX2RD) = params->emc_pdex2rd; EMC(EMC_PCHG2PDEN) = params->emc_pchg2pden; EMC(EMC_ACT2PDEN) = params->emc_act2pden; EMC(EMC_AR2PDEN) = params->emc_ar2pden; EMC(EMC_RW2PDEN) = params->emc_rw2pden; EMC(EMC_CKE2PDEN) = params->emc_cke2pden; EMC(EMC_PDEX2CKE) = params->emc_pdex2che; EMC(EMC_PDEX2MRR) = params->emc_pdex2mrr; EMC(EMC_TXSR) = params->emc_txsr; EMC(EMC_TXSRDLL) = params->emc_txsr_dll; EMC(EMC_TCKE) = params->emc_tcke; EMC(EMC_TCKESR) = params->emc_tckesr; EMC(EMC_TPD) = params->emc_tpd; EMC(EMC_TFAW) = params->emc_tfaw; EMC(EMC_TRPAB) = params->emc_trpab; EMC(EMC_TCLKSTABLE) = params->emc_tclkstable; EMC(EMC_TCLKSTOP) = params->emc_tclkstop; EMC(EMC_TREFBW) = params->emc_trefbw; EMC(EMC_ODT_WRITE) = params->emc_odt_write; EMC(EMC_CFG_DIG_DLL) = params->emc_cfg_dig_dll; EMC(EMC_CFG_DIG_DLL_PERIOD) = params->emc_cfg_dig_dll_period; // Don't write CFG_ADR_EN (bit 1) here - lock bit written later. EMC(EMC_FBIO_SPARE) = params->emc_fbio_spare & 0xFFFFFFFD; EMC(EMC_CFG_RSV) = params->emc_cfg_rsv; EMC(EMC_PMC_SCRATCH1) = params->emc_pmc_scratch1; EMC(EMC_PMC_SCRATCH2) = params->emc_pmc_scratch2; EMC(EMC_PMC_SCRATCH3) = params->emc_pmc_scratch3; EMC(EMC_ACPD_CONTROL) = params->emc_acpd_control; EMC(EMC_TXDSRVTTGEN) = params->emc_txdsrvttgen; // Set pipe bypass enable bits before sending any DRAM commands. EMC(EMC_CFG) = (params->emc_cfg & 0xE) | 0x3C00000; // Patch BootROM. if (params->boot_rom_patch_control & BIT(31)) { *(vu32 *)(APB_MISC_BASE + params->boot_rom_patch_control * 4) = params->boot_rom_patch_data; // Trigger MC timing update. MC(MC_TIMING_CONTROL) = 1; } // Release SEL_DPD_CMD. PMC(APBDEV_PMC_IO_DPD3_REQ) = (params->emc_pmc_scratch1 & 0xFFF0000) | PMC_IO_DPD_REQ_DPD_OFF; usleep(params->pmc_io_dpd3_req_wait); // Stall auto call measurements if periodic calibration is disabled. if (!params->emc_auto_cal_interval) EMC(EMC_AUTO_CAL_CONFIG) = params->emc_auto_cal_config | 0x200; EMC(EMC_PMACRO_BRICK_CTRL_RFU2) = params->emc_pmacro_brick_ctrl_rfu2; // ZQ CAL setup (not actually issuing ZQ CAL now). if (params->emc_zcal_warm_cold_boot_enables & 1) { EMC(EMC_ZCAL_WAIT_CNT) = params->emc_zcal_wait_cnt; EMC(EMC_ZCAL_MRW_CMD) = params->emc_zcal_mrw_cmd; } // Trigger timing update so above writes take place. EMC(EMC_TIMING_CONTROL) = 1; usleep(params->emc_timing_control_wait); // Deassert HOLD_CKE_LOW. PMC(APBDEV_PMC_DDR_CNTRL) &= 0xFFF8007F; usleep(params->pmc_ddr_ctrl_wait); // Set clock enable signal. u32 pin_gpio_cfg = (params->emc_pin_gpio_enable << 16) | (params->emc_pin_gpio << 12); EMC(EMC_PIN) = pin_gpio_cfg; (void)EMC(EMC_PIN); usleep(params->emc_pin_extra_wait + 200); EMC(EMC_PIN) = pin_gpio_cfg | 0x100; (void)EMC(EMC_PIN); usleep(params->emc_pin_extra_wait + 2000); // Enable clock enable signal. EMC(EMC_PIN) = pin_gpio_cfg | 0x101; (void)EMC(EMC_PIN); usleep(params->emc_pin_program_wait); // Init zq calibration, // Patch 6 using BCT spare variables. if (params->emc_bct_spare10) *(vu32 *)params->emc_bct_spare10 = params->emc_bct_spare11; // Write mode registers. EMC(EMC_MRW2) = params->emc_mrw2; EMC(EMC_MRW) = params->emc_mrw1; EMC(EMC_MRW3) = params->emc_mrw3; EMC(EMC_MRW4) = params->emc_mrw4; EMC(EMC_MRW6) = params->emc_mrw6; EMC(EMC_MRW14) = params->emc_mrw14; EMC(EMC_MRW8) = params->emc_mrw8; EMC(EMC_MRW12) = params->emc_mrw12; EMC(EMC_MRW9) = params->emc_mrw9; EMC(EMC_MRW13) = params->emc_mrw13; if (params->emc_zcal_warm_cold_boot_enables & 1) { // Issue ZQCAL start, device 0. EMC(EMC_ZQ_CAL) = params->emc_zcal_init_dev0; usleep(params->emc_zcal_init_wait); // Issue ZQCAL latch. EMC(EMC_ZQ_CAL) = params->emc_zcal_init_dev0 ^ 3; // Same for device 1. if (!(params->emc_dev_select & 2)) { EMC(EMC_ZQ_CAL) = params->emc_zcal_init_dev1; usleep(params->emc_zcal_init_wait); EMC(EMC_ZQ_CAL) = params->emc_zcal_init_dev1 ^ 3; } } // Set package and DPD pad control. PMC(APBDEV_PMC_DDR_CFG) = params->pmc_ddr_cfg; // Start periodic ZQ calibration (LPDDRx only). EMC(EMC_ZCAL_INTERVAL) = params->emc_zcal_interval; EMC(EMC_ZCAL_WAIT_CNT) = params->emc_zcal_wait_cnt; EMC(EMC_ZCAL_MRW_CMD) = params->emc_zcal_mrw_cmd; // Patch 7 using BCT spare variables. if (params->emc_bct_spare12) *(vu32 *)params->emc_bct_spare12 = params->emc_bct_spare13; // Trigger timing update so above writes take place. EMC(EMC_TIMING_CONTROL) = 1; if (params->emc_extra_refresh_num) EMC(EMC_REF) = (((1 << params->emc_extra_refresh_num) - 1) << 8) | (params->emc_dev_select << 30) | 3; // Enable refresh. EMC(EMC_REFCTRL) = params->emc_dev_select | BIT(31); EMC(EMC_DYN_SELF_REF_CONTROL) = params->emc_dyn_self_ref_control; EMC(EMC_CFG_UPDATE) = params->emc_cfg_update; EMC(EMC_CFG) = params->emc_cfg; EMC(EMC_FDPD_CTRL_DQ) = params->emc_fdpd_ctrl_dq; EMC(EMC_FDPD_CTRL_CMD) = params->emc_fdpd_ctrl_cmd; EMC(EMC_SEL_DPD_CTRL) = params->emc_sel_dpd_ctrl; // Write addr swizzle lock bit. EMC(EMC_FBIO_SPARE) = params->emc_fbio_spare | BIT(1); // Re-trigger timing to latch power saving functions. EMC(EMC_TIMING_CONTROL) = 1; // Enable EMC pipe clock gating. EMC(EMC_CFG_PIPE_CLK) = params->emc_cfg_pipe_clk; // Depending on freqency, enable CMD/CLK fdpd. EMC(EMC_FDPD_CTRL_CMD_NO_RAMP) = params->emc_fdpd_ctrl_cmd_no_ramp; // Enable arbiter. SYSREG(AHB_ARBITRATION_XBAR_CTRL) = (SYSREG(AHB_ARBITRATION_XBAR_CTRL) & 0xFFFEFFFF) | (params->ahb_arbitration_xbar_ctrl_meminit_done << 16); // Lock carveouts per BCT cfg. MC(MC_VIDEO_PROTECT_REG_CTRL) = params->mc_video_protect_write_access; MC(MC_SEC_CARVEOUT_REG_CTRL) = params->mc_sec_carveout_protect_write_access; MC(MC_MTS_CARVEOUT_REG_CTRL) = params->mc_mts_carveout_reg_ctrl; // Disable write access to a bunch of EMC registers. MC(MC_EMEM_CFG_ACCESS_CTRL) = 1; } static void _sdram_config_t210b01(const sdram_params_t210b01_t *params) { // VDDP Select. PMC(APBDEV_PMC_VDDP_SEL) = params->pmc_vddp_sel; usleep(params->pmc_vddp_sel_wait); // Turn on MEM IO Power. PMC(APBDEV_PMC_NO_IOPOWER) &= PMC_NO_IOPOWER_SDMMC1; // Only keep SDMMC1 state. (Was params->pmc_no_io_power). PMC(APBDEV_PMC_REG_SHORT) = params->pmc_reg_short; PMC(APBDEV_PMC_DDR_CNTRL) = params->pmc_ddr_ctrl; // Patch 1 using BCT spare variables if (params->emc_bct_spare0) *(vu32 *)params->emc_bct_spare0 = params->emc_bct_spare1; // Override HW FSM if needed. if (params->clk_rst_pllm_misc20_override_enable) CLOCK(CLK_RST_CONTROLLER_PLLM_MISC2) = params->clk_rst_pllm_misc20_override; // Program DPD3/DPD4 regs (coldboot path). // Enable sel_dpd on unused pins. u32 pmc_scratch1 = ~params->emc_pmc_scratch1; PMC(APBDEV_PMC_WEAK_BIAS) = (pmc_scratch1 & 0x1000) << 19 | (pmc_scratch1 & 0xFFF) << 18 | (pmc_scratch1 & 0x8000) << 15; PMC(APBDEV_PMC_IO_DPD3_REQ) = (pmc_scratch1 & 0x9FFF) | PMC_IO_DPD_REQ_DPD_ON; usleep(params->pmc_io_dpd3_req_wait); // Disable e_dpd_vttgen. u32 pmc_scratch2 = ~params->emc_pmc_scratch2; PMC(APBDEV_PMC_IO_DPD4_REQ) = (pmc_scratch2 & 0x3FFF0000) | PMC_IO_DPD_REQ_DPD_ON; usleep(params->pmc_io_dpd4_req_wait); // Disable e_dpd_bg. PMC(APBDEV_PMC_IO_DPD4_REQ) = (pmc_scratch2 & 0x1FFF) | PMC_IO_DPD_REQ_DPD_ON; usleep(1); // Program CMD mapping. Required before brick mapping, else // we can't guarantee CK will be differential at all times. EMC(EMC_FBIO_CFG7) = params->emc_fbio_cfg7; EMC(EMC_CMD_MAPPING_CMD0_0) = params->emc_cmd_mapping_cmd0_0; EMC(EMC_CMD_MAPPING_CMD0_1) = params->emc_cmd_mapping_cmd0_1; EMC(EMC_CMD_MAPPING_CMD0_2) = params->emc_cmd_mapping_cmd0_2; EMC(EMC_CMD_MAPPING_CMD1_0) = params->emc_cmd_mapping_cmd1_0; EMC(EMC_CMD_MAPPING_CMD1_1) = params->emc_cmd_mapping_cmd1_1; EMC(EMC_CMD_MAPPING_CMD1_2) = params->emc_cmd_mapping_cmd1_2; EMC(EMC_CMD_MAPPING_CMD2_0) = params->emc_cmd_mapping_cmd2_0; EMC(EMC_CMD_MAPPING_CMD2_1) = params->emc_cmd_mapping_cmd2_1; EMC(EMC_CMD_MAPPING_CMD2_2) = params->emc_cmd_mapping_cmd2_2; EMC(EMC_CMD_MAPPING_CMD3_0) = params->emc_cmd_mapping_cmd3_0; EMC(EMC_CMD_MAPPING_CMD3_1) = params->emc_cmd_mapping_cmd3_1; EMC(EMC_CMD_MAPPING_CMD3_2) = params->emc_cmd_mapping_cmd3_2; EMC(EMC_CMD_MAPPING_BYTE) = params->emc_cmd_mapping_byte; // Program brick mapping. EMC(EMC_PMACRO_BRICK_MAPPING_0) = params->emc_pmacro_brick_mapping0; EMC(EMC_PMACRO_BRICK_MAPPING_1) = params->emc_pmacro_brick_mapping1; EMC(EMC_PMACRO_BRICK_MAPPING_2) = params->emc_pmacro_brick_mapping2; // Set pad macros. EMC(EMC_PMACRO_VTTGEN_CTRL_0) = params->emc_pmacro_vttgen_ctrl0; EMC(EMC_PMACRO_VTTGEN_CTRL_1) = params->emc_pmacro_vttgen_ctrl1; EMC(EMC_PMACRO_VTTGEN_CTRL_2) = params->emc_pmacro_vttgen_ctrl2; // Set pad macros bias. EMC(EMC_PMACRO_BG_BIAS_CTRL_0) = params->emc_pmacro_bg_bias_ctrl0; // Patch 1 to 3 using BCT spare secure variables. if (params->emc_bct_spare_secure0) *(vu32 *)params->emc_bct_spare_secure0 = params->emc_bct_spare_secure1; if (params->emc_bct_spare_secure2) *(vu32 *)params->emc_bct_spare_secure2 = params->emc_bct_spare_secure3; if (params->emc_bct_spare_secure4) *(vu32 *)params->emc_bct_spare_secure4 = params->emc_bct_spare_secure5; // Trigger timing update so above writes take place. EMC(EMC_TIMING_CONTROL) = 1; usleep(params->pmc_vddp_sel_wait + 2); // Ensure the regulators settle. // Set clock sources. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC) = params->emc_clock_source; CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC_DLL) = params->emc_clock_source_dll; // Select EMC write mux. EMC(EMC_DBG) = (params->emc_dbg_write_mux << 1) | params->emc_dbg; // Patch 2 using BCT spare variables. if (params->emc_bct_spare2) *(vu32 *)params->emc_bct_spare2 = params->emc_bct_spare3; // This is required to do any reads from the pad macros. EMC(EMC_CONFIG_SAMPLE_DELAY) = params->emc_config_sample_delay; // Set data pipes mode. EMC(EMC_FBIO_CFG8) = params->emc_fbio_cfg8; // Set swizzle for Rank 0. EMC(EMC_SWIZZLE_RANK0_BYTE0) = params->emc_swizzle_rank0_byte0; EMC(EMC_SWIZZLE_RANK0_BYTE1) = params->emc_swizzle_rank0_byte1; EMC(EMC_SWIZZLE_RANK0_BYTE2) = params->emc_swizzle_rank0_byte2; EMC(EMC_SWIZZLE_RANK0_BYTE3) = params->emc_swizzle_rank0_byte3; // Set swizzle for Rank 1. EMC(EMC_SWIZZLE_RANK1_BYTE0) = params->emc_swizzle_rank1_byte0; EMC(EMC_SWIZZLE_RANK1_BYTE1) = params->emc_swizzle_rank1_byte1; EMC(EMC_SWIZZLE_RANK1_BYTE2) = params->emc_swizzle_rank1_byte2; EMC(EMC_SWIZZLE_RANK1_BYTE3) = params->emc_swizzle_rank1_byte3; // Patch 3 using BCT spare variables. if (params->emc_bct_spare6) *(vu32 *)params->emc_bct_spare6 = params->emc_bct_spare7; // Program calibration impedance. EMC(EMC_XM2COMPPADCTRL) = params->emc_xm2_comp_pad_ctrl; EMC(EMC_XM2COMPPADCTRL2) = params->emc_xm2_comp_pad_ctrl2; EMC(EMC_XM2COMPPADCTRL3) = params->emc_xm2_comp_pad_ctrl3; // Program Autocal controls. EMC(EMC_AUTO_CAL_CONFIG2) = params->emc_auto_cal_config2; EMC(EMC_AUTO_CAL_CONFIG3) = params->emc_auto_cal_config3; EMC(EMC_AUTO_CAL_CONFIG4) = params->emc_auto_cal_config4; EMC(EMC_AUTO_CAL_CONFIG5) = params->emc_auto_cal_config5; EMC(EMC_AUTO_CAL_CONFIG6) = params->emc_auto_cal_config6; EMC(EMC_AUTO_CAL_CONFIG7) = params->emc_auto_cal_config7; EMC(EMC_AUTO_CAL_CONFIG8) = params->emc_auto_cal_config8; // Program termination and drive strength EMC(EMC_PMACRO_RX_TERM) = params->emc_pmacro_rx_term; EMC(EMC_PMACRO_DQ_TX_DRV) = params->emc_pmacro_dq_tx_drive; EMC(EMC_PMACRO_CA_TX_DRV) = params->emc_pmacro_ca_tx_drive; EMC(EMC_PMACRO_CMD_TX_DRV) = params->emc_pmacro_cmd_tx_drive; EMC(EMC_PMACRO_AUTOCAL_CFG_COMMON) = params->emc_pmacro_auto_cal_common; EMC(EMC_AUTO_CAL_CHANNEL) = params->emc_auto_cal_channel; EMC(EMC_PMACRO_ZCTRL) = params->emc_pmacro_zcrtl; // Program dll config. EMC(EMC_DLL_CFG_0) = params->emc_dll_cfg0; EMC(EMC_DLL_CFG_1) = params->emc_dll_cfg1; EMC(EMC_CFG_DIG_DLL_1) = params->emc_cfg_dig_dll_1; // Program barrelshift. EMC(EMC_DATA_BRLSHFT_0) = params->emc_data_brlshft0; EMC(EMC_DATA_BRLSHFT_1) = params->emc_data_brlshft1; EMC(EMC_DQS_BRLSHFT_0) = params->emc_dqs_brlshft0; EMC(EMC_DQS_BRLSHFT_1) = params->emc_dqs_brlshft1; EMC(EMC_CMD_BRLSHFT_0) = params->emc_cmd_brlshft0; EMC(EMC_CMD_BRLSHFT_1) = params->emc_cmd_brlshft1; EMC(EMC_CMD_BRLSHFT_2) = params->emc_cmd_brlshft2; EMC(EMC_CMD_BRLSHFT_3) = params->emc_cmd_brlshft3; EMC(EMC_QUSE_BRLSHFT_0) = params->emc_quse_brlshft0; EMC(EMC_QUSE_BRLSHFT_1) = params->emc_quse_brlshft1; EMC(EMC_QUSE_BRLSHFT_2) = params->emc_quse_brlshft2; EMC(EMC_QUSE_BRLSHFT_3) = params->emc_quse_brlshft3; // Program pad macros controls and termination. EMC(EMC_PMACRO_BRICK_CTRL_RFU1) = params->emc_pmacro_brick_ctrl_rfu1; EMC(EMC_PMACRO_PAD_CFG_CTRL) = params->emc_pmacro_pad_cfg_ctrl; EMC(EMC_PMACRO_CMD_BRICK_CTRL_FDPD) = params->emc_pmacro_cmd_brick_ctrl_fdpd; EMC(EMC_PMACRO_BRICK_CTRL_RFU2) = params->emc_pmacro_brick_ctrl_rfu2; EMC(EMC_PMACRO_DATA_BRICK_CTRL_FDPD) = params->emc_pmacro_data_brick_ctrl_fdpd; EMC(EMC_PMACRO_DATA_PAD_RX_CTRL) = params->emc_pmacro_data_pad_rx_ctrl; EMC(EMC_PMACRO_CMD_PAD_RX_CTRL) = params->emc_pmacro_cmd_pad_rx_ctrl; EMC(EMC_PMACRO_DATA_PAD_TX_CTRL) = params->emc_pmacro_data_pad_tx_ctrl; EMC(EMC_PMACRO_DATA_RX_TERM_MODE) = params->emc_pmacro_data_rx_term_mode; EMC(EMC_PMACRO_CMD_RX_TERM_MODE) = params->emc_pmacro_cmd_rx_term_mode; EMC(EMC_PMACRO_CMD_PAD_TX_CTRL) = params->emc_pmacro_cmd_pad_tx_ctrl & 0xEFFFFFFF; // Program pad macro pins/bytes. EMC(EMC_CFG_3) = params->emc_cfg3; EMC(EMC_PMACRO_TX_PWRD_0) = params->emc_pmacro_tx_pwrd0; EMC(EMC_PMACRO_TX_PWRD_1) = params->emc_pmacro_tx_pwrd1; EMC(EMC_PMACRO_TX_PWRD_2) = params->emc_pmacro_tx_pwrd2; EMC(EMC_PMACRO_TX_PWRD_3) = params->emc_pmacro_tx_pwrd3; EMC(EMC_PMACRO_TX_PWRD_4) = params->emc_pmacro_tx_pwrd4; EMC(EMC_PMACRO_TX_PWRD_5) = params->emc_pmacro_tx_pwrd5; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_0) = params->emc_pmacro_tx_sel_clk_src0; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_1) = params->emc_pmacro_tx_sel_clk_src1; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_2) = params->emc_pmacro_tx_sel_clk_src2; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_3) = params->emc_pmacro_tx_sel_clk_src3; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_4) = params->emc_pmacro_tx_sel_clk_src4; EMC(EMC_PMACRO_TX_SEL_CLK_SRC_5) = params->emc_pmacro_tx_sel_clk_src5; // Program per bit pad macros. EMC(EMC_PMACRO_PERBIT_FGCG_CTRL_0_B01) = params->emc_pmacro_perbit_fgcg_ctrl0; EMC(EMC_PMACRO_PERBIT_FGCG_CTRL_1_B01) = params->emc_pmacro_perbit_fgcg_ctrl1; EMC(EMC_PMACRO_PERBIT_FGCG_CTRL_2_B01) = params->emc_pmacro_perbit_fgcg_ctrl2; EMC(EMC_PMACRO_PERBIT_FGCG_CTRL_3_B01) = params->emc_pmacro_perbit_fgcg_ctrl3; EMC(EMC_PMACRO_PERBIT_FGCG_CTRL_4_B01) = params->emc_pmacro_perbit_fgcg_ctrl4; EMC(EMC_PMACRO_PERBIT_FGCG_CTRL_5_B01) = params->emc_pmacro_perbit_fgcg_ctrl5; EMC(EMC_PMACRO_PERBIT_RFU_CTRL_0_B01) = params->emc_pmacro_perbit_rfu_ctrl0; EMC(EMC_PMACRO_PERBIT_RFU_CTRL_1_B01) = params->emc_pmacro_perbit_rfu_ctrl1; EMC(EMC_PMACRO_PERBIT_RFU_CTRL_2_B01) = params->emc_pmacro_perbit_rfu_ctrl2; EMC(EMC_PMACRO_PERBIT_RFU_CTRL_3_B01) = params->emc_pmacro_perbit_rfu_ctrl3; EMC(EMC_PMACRO_PERBIT_RFU_CTRL_4_B01) = params->emc_pmacro_perbit_rfu_ctrl4; EMC(EMC_PMACRO_PERBIT_RFU_CTRL_5_B01) = params->emc_pmacro_perbit_rfu_ctrl5; EMC(EMC_PMACRO_PERBIT_RFU1_CTRL_0_B01) = params->emc_pmacro_perbit_rfu1_ctrl0; EMC(EMC_PMACRO_PERBIT_RFU1_CTRL_1_B01) = params->emc_pmacro_perbit_rfu1_ctrl1; EMC(EMC_PMACRO_PERBIT_RFU1_CTRL_2_B01) = params->emc_pmacro_perbit_rfu1_ctrl2; EMC(EMC_PMACRO_PERBIT_RFU1_CTRL_3_B01) = params->emc_pmacro_perbit_rfu1_ctrl3; EMC(EMC_PMACRO_PERBIT_RFU1_CTRL_4_B01) = params->emc_pmacro_perbit_rfu1_ctrl4; EMC(EMC_PMACRO_PERBIT_RFU1_CTRL_5_B01) = params->emc_pmacro_perbit_rfu1_ctrl5; EMC(EMC_PMACRO_DATA_PI_CTRL_B01) = params->emc_pmacro_data_pi_ctrl; EMC(EMC_PMACRO_CMD_PI_CTRL_B01) = params->emc_pmacro_cmd_pi_ctrl; EMC(EMC_PMACRO_DDLL_BYPASS) = params->emc_pmacro_ddll_bypass; EMC(EMC_PMACRO_DDLL_PWRD_0) = params->emc_pmacro_ddll_pwrd0; EMC(EMC_PMACRO_DDLL_PWRD_1) = params->emc_pmacro_ddll_pwrd1; EMC(EMC_PMACRO_DDLL_PWRD_2) = params->emc_pmacro_ddll_pwrd2; EMC(EMC_PMACRO_CMD_CTRL_0) = params->emc_pmacro_cmd_ctrl0; EMC(EMC_PMACRO_CMD_CTRL_1) = params->emc_pmacro_cmd_ctrl1; EMC(EMC_PMACRO_CMD_CTRL_2) = params->emc_pmacro_cmd_ctrl2; // Program inbound vref setting. EMC(EMC_PMACRO_IB_VREF_DQ_0) = params->emc_pmacro_ib_vref_dq_0; EMC(EMC_PMACRO_IB_VREF_DQ_1) = params->emc_pmacro_ib_vref_dq_1; EMC(EMC_PMACRO_IB_VREF_DQS_0) = params->emc_pmacro_ib_vref_dqs_0; EMC(EMC_PMACRO_IB_VREF_DQS_1) = params->emc_pmacro_ib_vref_dqs_1; EMC(EMC_PMACRO_IB_RXRT) = params->emc_pmacro_ib_rxrt; // Program quse trimmers. EMC(EMC_PMACRO_QUSE_DDLL_RANK0_0) = params->emc_pmacro_quse_ddll_rank0_0; EMC(EMC_PMACRO_QUSE_DDLL_RANK0_1) = params->emc_pmacro_quse_ddll_rank0_1; EMC(EMC_PMACRO_QUSE_DDLL_RANK0_2) = params->emc_pmacro_quse_ddll_rank0_2; EMC(EMC_PMACRO_QUSE_DDLL_RANK0_3) = params->emc_pmacro_quse_ddll_rank0_3; EMC(EMC_PMACRO_QUSE_DDLL_RANK0_4) = params->emc_pmacro_quse_ddll_rank0_4; EMC(EMC_PMACRO_QUSE_DDLL_RANK0_5) = params->emc_pmacro_quse_ddll_rank0_5; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_0) = params->emc_pmacro_quse_ddll_rank1_0; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_1) = params->emc_pmacro_quse_ddll_rank1_1; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_2) = params->emc_pmacro_quse_ddll_rank1_2; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_3) = params->emc_pmacro_quse_ddll_rank1_3; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_4) = params->emc_pmacro_quse_ddll_rank1_4; EMC(EMC_PMACRO_QUSE_DDLL_RANK1_5) = params->emc_pmacro_quse_ddll_rank1_5; // Program outbound trimmers. EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0) = params->emc_pmacro_ob_ddll_long_dq_rank0_0; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1) = params->emc_pmacro_ob_ddll_long_dq_rank0_1; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2) = params->emc_pmacro_ob_ddll_long_dq_rank0_2; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3) = params->emc_pmacro_ob_ddll_long_dq_rank0_3; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_4) = params->emc_pmacro_ob_ddll_long_dq_rank0_4; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_5) = params->emc_pmacro_ob_ddll_long_dq_rank0_5; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0) = params->emc_pmacro_ob_ddll_long_dq_rank1_0; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1) = params->emc_pmacro_ob_ddll_long_dq_rank1_1; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2) = params->emc_pmacro_ob_ddll_long_dq_rank1_2; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3) = params->emc_pmacro_ob_ddll_long_dq_rank1_3; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_4) = params->emc_pmacro_ob_ddll_long_dq_rank1_4; EMC(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_5) = params->emc_pmacro_ob_ddll_long_dq_rank1_5; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_0) = params->emc_pmacro_ob_ddll_long_dqs_rank0_0; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_1) = params->emc_pmacro_ob_ddll_long_dqs_rank0_1; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_2) = params->emc_pmacro_ob_ddll_long_dqs_rank0_2; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_3) = params->emc_pmacro_ob_ddll_long_dqs_rank0_3; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_4) = params->emc_pmacro_ob_ddll_long_dqs_rank0_4; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_5) = params->emc_pmacro_ob_ddll_long_dqs_rank0_5; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_0) = params->emc_pmacro_ob_ddll_long_dqs_rank1_0; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_1) = params->emc_pmacro_ob_ddll_long_dqs_rank1_1; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_2) = params->emc_pmacro_ob_ddll_long_dqs_rank1_2; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_3) = params->emc_pmacro_ob_ddll_long_dqs_rank1_3; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_4) = params->emc_pmacro_ob_ddll_long_dqs_rank1_4; EMC(EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_5) = params->emc_pmacro_ob_ddll_long_dqs_rank1_5; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_0) = params->emc_pmacro_ib_ddll_long_dqs_rank0_0; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_1) = params->emc_pmacro_ib_ddll_long_dqs_rank0_1; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_2) = params->emc_pmacro_ib_ddll_long_dqs_rank0_2; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_3) = params->emc_pmacro_ib_ddll_long_dqs_rank0_3; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_0) = params->emc_pmacro_ib_ddll_long_dqs_rank1_0; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_1) = params->emc_pmacro_ib_ddll_long_dqs_rank1_1; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_2) = params->emc_pmacro_ib_ddll_long_dqs_rank1_2; EMC(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_3) = params->emc_pmacro_ib_ddll_long_dqs_rank1_3; // Program clock trimmers. EMC(EMC_PMACRO_DDLL_LONG_CMD_0) = params->emc_pmacro_ddll_long_cmd_0; EMC(EMC_PMACRO_DDLL_LONG_CMD_1) = params->emc_pmacro_ddll_long_cmd_1; EMC(EMC_PMACRO_DDLL_LONG_CMD_2) = params->emc_pmacro_ddll_long_cmd_2; EMC(EMC_PMACRO_DDLL_LONG_CMD_3) = params->emc_pmacro_ddll_long_cmd_3; EMC(EMC_PMACRO_DDLL_LONG_CMD_4) = params->emc_pmacro_ddll_long_cmd_4; EMC(EMC_PMACRO_DDLL_SHORT_CMD_0) = params->emc_pmacro_ddll_short_cmd_0; EMC(EMC_PMACRO_DDLL_SHORT_CMD_1) = params->emc_pmacro_ddll_short_cmd_1; EMC(EMC_PMACRO_DDLL_SHORT_CMD_2) = params->emc_pmacro_ddll_short_cmd_2; // Set DLL periodic offset. EMC(EMC_PMACRO_DDLL_PERIODIC_OFFSET) = params->emc_pmacro_ddll_periodic_offset; // Patch 4 using BCT spare variables. if (params->emc_bct_spare4) *(vu32 *)params->emc_bct_spare4 = params->emc_bct_spare5; // Patch 4 to 6 using BCT spare secure variables. if (params->emc_bct_spare_secure6) *(vu32 *)params->emc_bct_spare_secure6 = params->emc_bct_spare_secure7; if (params->emc_bct_spare_secure8) *(vu32 *)params->emc_bct_spare_secure8 = params->emc_bct_spare_secure9; if (params->emc_bct_spare_secure10) *(vu32 *)params->emc_bct_spare_secure10 = params->emc_bct_spare_secure11; // Trigger timing update so above writes take place. EMC(EMC_TIMING_CONTROL) = 1; // Initialize MC VPR settings. MC(MC_VIDEO_PROTECT_BOM) = params->mc_video_protect_bom; MC(MC_VIDEO_PROTECT_BOM_ADR_HI) = params->mc_video_protect_bom_adr_hi; MC(MC_VIDEO_PROTECT_SIZE_MB) = params->mc_video_protect_size_mb; MC(MC_VIDEO_PROTECT_VPR_OVERRIDE) = params->mc_video_protect_vpr_override; MC(MC_VIDEO_PROTECT_VPR_OVERRIDE1) = params->mc_video_protect_vpr_override1; MC(MC_VIDEO_PROTECT_GPU_OVERRIDE_0) = params->mc_video_protect_gpu_override0; MC(MC_VIDEO_PROTECT_GPU_OVERRIDE_1) = params->mc_video_protect_gpu_override1; // Program SDRAM geometry parameters. MC(MC_EMEM_ADR_CFG) = params->mc_emem_adr_cfg; MC(MC_EMEM_ADR_CFG_DEV0) = params->mc_emem_adr_cfg_dev0; MC(MC_EMEM_ADR_CFG_DEV1) = params->mc_emem_adr_cfg_dev1; MC(MC_EMEM_ADR_CFG_CHANNEL_MASK) = params->mc_emem_adr_cfg_channel_mask; // Program bank swizzling. MC(MC_EMEM_ADR_CFG_BANK_MASK_0) = params->mc_emem_adr_cfg_bank_mask0; MC(MC_EMEM_ADR_CFG_BANK_MASK_1) = params->mc_emem_adr_cfg_bank_mask1; MC(MC_EMEM_ADR_CFG_BANK_MASK_2) = params->mc_emem_adr_cfg_bank_mask2; // Program external memory aperture (base and size). MC(MC_EMEM_CFG) = params->mc_emem_cfg; // Program SEC carveout (base and size). MC(MC_SEC_CARVEOUT_BOM) = params->mc_sec_carveout_bom; MC(MC_SEC_CARVEOUT_ADR_HI) = params->mc_sec_carveout_adr_hi; MC(MC_SEC_CARVEOUT_SIZE_MB) = params->mc_sec_carveout_size_mb; // Program MTS carveout (base and size). MC(MC_MTS_CARVEOUT_BOM) = params->mc_mts_carveout_bom; MC(MC_MTS_CARVEOUT_ADR_HI) = params->mc_mts_carveout_adr_hi; MC(MC_MTS_CARVEOUT_SIZE_MB) = params->mc_mts_carveout_size_mb; // Program the memory arbiter. MC(MC_EMEM_ARB_CFG) = params->mc_emem_arb_cfg; MC(MC_EMEM_ARB_OUTSTANDING_REQ) = params->mc_emem_arb_outstanding_req; MC(MC_EMEM_ARB_REFPB_HP_CTRL) = params->emc_emem_arb_refpb_hp_ctrl; MC(MC_EMEM_ARB_REFPB_BANK_CTRL) = params->emc_emem_arb_refpb_bank_ctrl; MC(MC_EMEM_ARB_TIMING_RCD) = params->mc_emem_arb_timing_rcd; MC(MC_EMEM_ARB_TIMING_RP) = params->mc_emem_arb_timing_rp; MC(MC_EMEM_ARB_TIMING_RC) = params->mc_emem_arb_timing_rc; MC(MC_EMEM_ARB_TIMING_RAS) = params->mc_emem_arb_timing_ras; MC(MC_EMEM_ARB_TIMING_FAW) = params->mc_emem_arb_timing_faw; MC(MC_EMEM_ARB_TIMING_RRD) = params->mc_emem_arb_timing_rrd; MC(MC_EMEM_ARB_TIMING_RAP2PRE) = params->mc_emem_arb_timing_rap2pre; MC(MC_EMEM_ARB_TIMING_WAP2PRE) = params->mc_emem_arb_timing_wap2pre; MC(MC_EMEM_ARB_TIMING_R2R) = params->mc_emem_arb_timing_r2r; MC(MC_EMEM_ARB_TIMING_W2W) = params->mc_emem_arb_timing_w2w; MC(MC_EMEM_ARB_TIMING_CCDMW) = params->mc_emem_arb_timing_ccdmw; MC(MC_EMEM_ARB_TIMING_R2W) = params->mc_emem_arb_timing_r2w; MC(MC_EMEM_ARB_TIMING_W2R) = params->mc_emem_arb_timing_w2r; MC(MC_EMEM_ARB_TIMING_RFCPB) = params->mc_emem_arb_timing_rfcpb; MC(MC_EMEM_ARB_DA_TURNS) = params->mc_emem_arb_da_turns; MC(MC_EMEM_ARB_DA_COVERS) = params->mc_emem_arb_da_covers; MC(MC_EMEM_ARB_MISC0) = params->mc_emem_arb_misc0; MC(MC_EMEM_ARB_MISC1) = params->mc_emem_arb_misc1; MC(MC_EMEM_ARB_MISC2) = params->mc_emem_arb_misc2; MC(MC_EMEM_ARB_RING1_THROTTLE) = params->mc_emem_arb_ring1_throttle; MC(MC_EMEM_ARB_OVERRIDE) = params->mc_emem_arb_override; MC(MC_EMEM_ARB_OVERRIDE_1) = params->mc_emem_arb_override1; MC(MC_EMEM_ARB_RSV) = params->mc_emem_arb_rsv; MC(MC_DA_CONFIG0) = params->mc_da_cfg0; // Trigger MC timing update. MC(MC_TIMING_CONTROL) = 1; // Program second-level clock enable overrides. MC(MC_CLKEN_OVERRIDE) = params->mc_clken_override; // Program statistics gathering. MC(MC_STAT_CONTROL) = params->mc_stat_control; // Program SDRAM geometry parameters. EMC(EMC_ADR_CFG) = params->emc_adr_cfg; // Program second-level clock enable overrides. EMC(EMC_CLKEN_OVERRIDE) = params->emc_clken_override; // Program EMC pad auto calibration. EMC(EMC_PMACRO_AUTOCAL_CFG_0) = params->emc_pmacro_auto_cal_cfg0; EMC(EMC_PMACRO_AUTOCAL_CFG_1) = params->emc_pmacro_auto_cal_cfg1; EMC(EMC_PMACRO_AUTOCAL_CFG_2) = params->emc_pmacro_auto_cal_cfg2; EMC(EMC_AUTO_CAL_VREF_SEL_0) = params->emc_auto_cal_vref_sel0; EMC(EMC_AUTO_CAL_VREF_SEL_1) = params->emc_auto_cal_vref_sel1; // Program/Start auto calibration. EMC(EMC_AUTO_CAL_INTERVAL) = params->emc_auto_cal_interval; EMC(EMC_AUTO_CAL_CONFIG) = params->emc_auto_cal_config; usleep(params->emc_auto_cal_wait); // Patch 5 using BCT spare variables. if (params->emc_bct_spare8) *(vu32 *)params->emc_bct_spare8 = params->emc_bct_spare9; EMC(EMC_AUTO_CAL_CONFIG9_B01) = params->emc_auto_cal_config9; // Program EMC timing configuration. EMC(EMC_CFG_2) = params->emc_cfg2; EMC(EMC_CFG_PIPE) = params->emc_cfg_pipe; EMC(EMC_CFG_PIPE_1) = params->emc_cfg_pipe1; EMC(EMC_CFG_PIPE_2) = params->emc_cfg_pipe2; EMC(EMC_CMDQ) = params->emc_cmd_q; EMC(EMC_MC2EMCQ) = params->emc_mc2emc_q; EMC(EMC_MRS_WAIT_CNT) = params->emc_mrs_wait_cnt; EMC(EMC_MRS_WAIT_CNT2) = params->emc_mrs_wait_cnt2; EMC(EMC_FBIO_CFG5) = params->emc_fbio_cfg5; EMC(EMC_RC) = params->emc_rc; EMC(EMC_RFC) = params->emc_rfc; EMC(EMC_RFCPB) = params->emc_rfc_pb; EMC(EMC_REFCTRL2) = params->emc_ref_ctrl2; EMC(EMC_RFC_SLR) = params->emc_rfc_slr; EMC(EMC_RAS) = params->emc_ras; EMC(EMC_RP) = params->emc_rp; EMC(EMC_TPPD) = params->emc_tppd; EMC(EMC_TRTM_B01) = params->emc_trtm; EMC(EMC_TWTM_B01) = params->emc_twtm; EMC(EMC_TRATM_B01) = params->emc_tratm; EMC(EMC_TWATM_B01) = params->emc_twatm; EMC(EMC_TR2REF_B01) = params->emc_tr2ref; EMC(EMC_R2R) = params->emc_r2r; EMC(EMC_W2W) = params->emc_w2w; EMC(EMC_R2W) = params->emc_r2w; EMC(EMC_W2R) = params->emc_w2r; EMC(EMC_R2P) = params->emc_r2p; EMC(EMC_W2P) = params->emc_w2p; EMC(EMC_CCDMW) = params->emc_ccdmw; EMC(EMC_RD_RCD) = params->emc_rd_rcd; EMC(EMC_WR_RCD) = params->emc_wr_rcd; EMC(EMC_RRD) = params->emc_rrd; EMC(EMC_REXT) = params->emc_rext; EMC(EMC_WEXT) = params->emc_wext; EMC(EMC_WDV) = params->emc_wdv; EMC(EMC_WDV_CHK) = params->emc_wdv_chk; EMC(EMC_WSV) = params->emc_wsv; EMC(EMC_WEV) = params->emc_wev; EMC(EMC_WDV_MASK) = params->emc_wdv_mask; EMC(EMC_WS_DURATION) = params->emc_ws_duration; EMC(EMC_WE_DURATION) = params->emc_we_duration; EMC(EMC_QUSE) = params->emc_quse; EMC(EMC_QUSE_WIDTH) = params->emc_quse_width; EMC(EMC_IBDLY) = params->emc_ibdly; EMC(EMC_OBDLY) = params->emc_obdly; EMC(EMC_EINPUT) = params->emc_einput; EMC(EMC_EINPUT_DURATION) = params->emc_einput_duration; EMC(EMC_PUTERM_EXTRA) = params->emc_puterm_extra; EMC(EMC_PUTERM_WIDTH) = params->emc_puterm_width; EMC(EMC_DBG) = params->emc_dbg; // Clear read fifo. EMC(EMC_QRST) = params->emc_qrst; EMC(EMC_ISSUE_QRST) = 1; EMC(EMC_ISSUE_QRST) = 0; // Program the rest of EMC timing configuration. EMC(EMC_QSAFE) = params->emc_qsafe; EMC(EMC_RDV) = params->emc_rdv; EMC(EMC_RDV_MASK) = params->emc_rdv_mask; EMC(EMC_RDV_EARLY) = params->emc_rdv_early; EMC(EMC_RDV_EARLY_MASK) = params->emc_rdv_early_mask; EMC(EMC_QPOP) = params->emc_qpop; EMC(EMC_REFRESH) = params->emc_refresh; EMC(EMC_BURST_REFRESH_NUM) = params->emc_burst_refresh_num; EMC(EMC_PRE_REFRESH_REQ_CNT) = params->emc_prerefresh_req_cnt; EMC(EMC_PDEX2WR) = params->emc_pdex2wr; EMC(EMC_PDEX2RD) = params->emc_pdex2rd; EMC(EMC_PCHG2PDEN) = params->emc_pchg2pden; EMC(EMC_ACT2PDEN) = params->emc_act2pden; EMC(EMC_AR2PDEN) = params->emc_ar2pden; EMC(EMC_RW2PDEN) = params->emc_rw2pden; EMC(EMC_CKE2PDEN) = params->emc_cke2pden; EMC(EMC_PDEX2CKE) = params->emc_pdex2che; EMC(EMC_PDEX2MRR) = params->emc_pdex2mrr; EMC(EMC_TXSR) = params->emc_txsr; EMC(EMC_TXSRDLL) = params->emc_txsr_dll; EMC(EMC_TCKE) = params->emc_tcke; EMC(EMC_TCKESR) = params->emc_tckesr; EMC(EMC_TPD) = params->emc_tpd; EMC(EMC_TFAW) = params->emc_tfaw; EMC(EMC_TRPAB) = params->emc_trpab; EMC(EMC_TCLKSTABLE) = params->emc_tclkstable; EMC(EMC_TCLKSTOP) = params->emc_tclkstop; EMC(EMC_TREFBW) = params->emc_trefbw; EMC(EMC_ODT_WRITE) = params->emc_odt_write; EMC(EMC_CFG_DIG_DLL) = params->emc_cfg_dig_dll; EMC(EMC_CFG_DIG_DLL_PERIOD) = params->emc_cfg_dig_dll_period; // Don't write CFG_ADR_EN (bit 1) here - lock bit written later. EMC(EMC_FBIO_SPARE) = params->emc_fbio_spare & 0xFFFFFFFD; EMC(EMC_CFG_RSV) = params->emc_cfg_rsv; EMC(EMC_PMC_SCRATCH1) = params->emc_pmc_scratch1; EMC(EMC_PMC_SCRATCH2) = params->emc_pmc_scratch2; EMC(EMC_PMC_SCRATCH3) = params->emc_pmc_scratch3; EMC(EMC_ACPD_CONTROL) = params->emc_acpd_control; EMC(EMC_TXDSRVTTGEN) = params->emc_txdsrvttgen; EMC(EMC_PMACRO_DSR_VTTGEN_CTRL_0_B01) = params->emc_pmacro_dsr_vttgen_ctrl0; // Set pipe bypass enable bits before sending any DRAM commands. EMC(EMC_CFG) = (params->emc_cfg & 0xE) | 0x3C00000; // BootROM patching is used as a generic patch here. if (params->boot_rom_patch_control) { *(vu32 *)params->boot_rom_patch_control = params->boot_rom_patch_data; // Trigger MC timing update. MC(MC_TIMING_CONTROL) = 1; } // Patch 7 to 9 using BCT spare secure variables. if (params->emc_bct_spare_secure12) *(vu32 *)params->emc_bct_spare_secure12 = params->emc_bct_spare_secure13; if (params->emc_bct_spare_secure14) *(vu32 *)params->emc_bct_spare_secure14 = params->emc_bct_spare_secure15; if (params->emc_bct_spare_secure16) *(vu32 *)params->emc_bct_spare_secure16 = params->emc_bct_spare_secure17; // Release SEL_DPD_CMD. PMC(APBDEV_PMC_IO_DPD3_REQ) = (params->emc_pmc_scratch1 & 0xFFF0000) | PMC_IO_DPD_REQ_DPD_OFF; usleep(params->pmc_io_dpd3_req_wait); // Set transmission pad control parameters. EMC(EMC_PMACRO_CMD_PAD_TX_CTRL) = params->emc_pmacro_cmd_pad_tx_ctrl; // ZQ CAL setup (not actually issuing ZQ CAL now). if (params->emc_zcal_warm_cold_boot_enables & 1) { EMC(EMC_ZCAL_WAIT_CNT) = params->emc_zcal_wait_cnt; EMC(EMC_ZCAL_MRW_CMD) = params->emc_zcal_mrw_cmd; } // Trigger timing update so above writes take place. EMC(EMC_TIMING_CONTROL) = 1; usleep(params->emc_timing_control_wait); // Deassert HOLD_CKE_LOW. PMC(APBDEV_PMC_DDR_CNTRL) &= 0xFF78007F; usleep(params->pmc_ddr_ctrl_wait); // Set clock enable signal. u32 pin_gpio_cfg = (params->emc_pin_gpio_enable << 16) | (params->emc_pin_gpio << 12); EMC(EMC_PIN) = pin_gpio_cfg; (void)EMC(EMC_PIN); usleep(params->emc_pin_extra_wait + 200); EMC(EMC_PIN) = pin_gpio_cfg | 0x100; (void)EMC(EMC_PIN); usleep(params->emc_pin_extra_wait + 2000); // Enable clock enable signal. EMC(EMC_PIN) = pin_gpio_cfg | 0x101; (void)EMC(EMC_PIN); usleep(params->emc_pin_program_wait); // Init zq calibration, // Patch 6 using BCT spare variables. if (params->emc_bct_spare10) *(vu32 *)params->emc_bct_spare10 = params->emc_bct_spare11; // Write mode registers. EMC(EMC_MRW2) = params->emc_mrw2; EMC(EMC_MRW) = params->emc_mrw1; EMC(EMC_MRW3) = params->emc_mrw3; EMC(EMC_MRW4) = params->emc_mrw4; EMC(EMC_MRW6) = params->emc_mrw6; EMC(EMC_MRW14) = params->emc_mrw14; EMC(EMC_MRW8) = params->emc_mrw8; EMC(EMC_MRW12) = params->emc_mrw12; EMC(EMC_MRW9) = params->emc_mrw9; EMC(EMC_MRW13) = params->emc_mrw13; if (params->emc_zcal_warm_cold_boot_enables & 1) { // Issue ZQCAL start, device 0. EMC(EMC_ZQ_CAL) = params->emc_zcal_init_dev0; usleep(params->emc_zcal_init_wait); // Issue ZQCAL latch. EMC(EMC_ZQ_CAL) = params->emc_zcal_init_dev0 ^ 3; // Same for device 1. if (!(params->emc_dev_select & 2)) { EMC(EMC_ZQ_CAL) = params->emc_zcal_init_dev1; usleep(params->emc_zcal_init_wait); EMC(EMC_ZQ_CAL) = params->emc_zcal_init_dev1 ^ 3; } } // Patch 10 to 12 using BCT spare secure variables. if (params->emc_bct_spare_secure18) *(vu32 *)params->emc_bct_spare_secure18 = params->emc_bct_spare_secure19; if (params->emc_bct_spare_secure20) *(vu32 *)params->emc_bct_spare_secure20 = params->emc_bct_spare_secure21; if (params->emc_bct_spare_secure22) *(vu32 *)params->emc_bct_spare_secure22 = params->emc_bct_spare_secure23; // Set package and DPD pad control. PMC(APBDEV_PMC_DDR_CFG) = params->pmc_ddr_cfg; // Start periodic ZQ calibration (LPDDRx only). EMC(EMC_ZCAL_INTERVAL) = params->emc_zcal_interval; EMC(EMC_ZCAL_WAIT_CNT) = params->emc_zcal_wait_cnt; EMC(EMC_ZCAL_MRW_CMD) = params->emc_zcal_mrw_cmd; // Patch 7 using BCT spare variables. if (params->emc_bct_spare12) *(vu32 *)params->emc_bct_spare12 = params->emc_bct_spare13; // Trigger timing update so above writes take place. EMC(EMC_TIMING_CONTROL) = 1; if (params->emc_extra_refresh_num) EMC(EMC_REF) = ((1 << params->emc_extra_refresh_num << 8) - 253) | (params->emc_dev_select << 30); // Enable refresh. EMC(EMC_REFCTRL) = params->emc_dev_select | BIT(31); EMC(EMC_DYN_SELF_REF_CONTROL) = params->emc_dyn_self_ref_control; EMC(EMC_CFG) = params->emc_cfg; EMC(EMC_FDPD_CTRL_DQ) = params->emc_fdpd_ctrl_dq; EMC(EMC_FDPD_CTRL_CMD) = params->emc_fdpd_ctrl_cmd; EMC(EMC_SEL_DPD_CTRL) = params->emc_sel_dpd_ctrl; // Write addr swizzle lock bit. EMC(EMC_FBIO_SPARE) = params->emc_fbio_spare | BIT(1); // Re-trigger timing to latch power saving functions. EMC(EMC_TIMING_CONTROL) = 1; EMC(EMC_CFG_UPDATE) = params->emc_cfg_update; // Enable EMC pipe clock gating. EMC(EMC_CFG_PIPE_CLK) = params->emc_cfg_pipe_clk; // Depending on freqency, enable CMD/CLK fdpd. EMC(EMC_FDPD_CTRL_CMD_NO_RAMP) = params->emc_fdpd_ctrl_cmd_no_ramp; // Set untranslated region requirements. MC(MC_UNTRANSLATED_REGION_CHECK_B01) = params->mc_untranslated_region_check; // Lock carveouts per BCT cfg. MC(MC_VIDEO_PROTECT_REG_CTRL) = params->mc_video_protect_write_access; MC(MC_SEC_CARVEOUT_REG_CTRL) = params->mc_sec_carveout_protect_write_access; MC(MC_MTS_CARVEOUT_REG_CTRL) = params->mc_mts_carveout_reg_ctrl; // Disable write access to a bunch of EMC registers. MC(MC_EMEM_CFG_ACCESS_CTRL) = 1; // Enable arbiter. SYSREG(AHB_ARBITRATION_XBAR_CTRL) = (SYSREG(AHB_ARBITRATION_XBAR_CTRL) & 0xFFFEFFFF) | (params->ahb_arbitration_xbar_ctrl_meminit_done << 16); } static void *_sdram_get_params_t210() { // Check if id is proper. u32 dramid = fuse_read_dramid(false); // Copy base parameters. u32 *params = (u32 *)SDRAM_PARAMS_ADDR; memcpy(params, &_dram_cfg_0_samsung_4gb, sizeof(sdram_params_t210_t)); // Patch parameters if needed. for (u32 i = 0; i < ARRAY_SIZE(sdram_cfg_vendor_patches_t210); i++) if (sdram_cfg_vendor_patches_t210[i].dramcf & DRAM_ID(dramid)) params[sdram_cfg_vendor_patches_t210[i].offset] = sdram_cfg_vendor_patches_t210[i].val; return (void *)params; } void *sdram_get_params_t210b01() { // Check if id is proper. u32 dramid = fuse_read_dramid(false); // Copy base parameters. u32 *params = (u32 *)SDRAM_PARAMS_ADDR; memcpy(params, &_dram_cfg_08_10_12_14_samsung_hynix_4gb, sizeof(sdram_params_t210b01_t)); // Patch parameters if needed. u8 dram_code = dram_encoding_t210b01[dramid]; if (!dram_code) return (void *)params; for (u32 i = 0; i < ARRAY_SIZE(sdram_cfg_vendor_patches_t210b01); i++) if (sdram_cfg_vendor_patches_t210b01[i].dramcf & DRAM_CC(dram_code)) params[sdram_cfg_vendor_patches_t210b01[i].offset] = sdram_cfg_vendor_patches_t210b01[i].val; return (void *)params; } /* * Function: sdram_get_params_patched * * This code implements a warmboot exploit. Warmboot, that is actually so hot, it burns Nvidia once again. * If the boot_rom_patch_control's MSB is set, it uses it as an index to * APB_MISC_BASE (u32 array) and sets it to the value of boot_rom_patch_data. * (The MSB falls out when it gets multiplied by sizeof(u32)). * Because the bootrom does not do any boundary checks, it lets us write anywhere and anything. * Ipatch hardware let us apply 12 changes to the bootrom and can be changed any time. * The first patch is not needed any more when the exploit is triggered, so we overwrite that. * 0x10459E is the address where it returns an error when the signature is not valid. * We change that to MOV R0, #0, so we pass the check. * * Note: The modulus in the header must match and validated. */ void *sdram_get_params_patched() { #define IPATCH_CONFIG(addr, data) ((((addr) - 0x100000) / 2) << 16 | ((data) & 0xffff)) sdram_params_t210_t *sdram_params = _sdram_get_params_t210(); // Disable Warmboot signature check. sdram_params->boot_rom_patch_control = BIT(31) | (((IPATCH_BASE + 4) - APB_MISC_BASE) / 4); sdram_params->boot_rom_patch_data = IPATCH_CONFIG(0x10459E, 0x2000); /* // Disable SBK lock. sdram_params->emc_bct_spare8 = (IPATCH_BASE + 7 * 4); sdram_params->emc_bct_spare9 = IPATCH_CONFIG(0x10210E, 0x2000); // Disable bootrom read lock. sdram_params->emc_bct_spare10 = (IPATCH_BASE + 10 * 4); sdram_params->emc_bct_spare11 = IPATCH_CONFIG(0x100FDC, 0xF000); sdram_params->emc_bct_spare12 = (IPATCH_BASE + 11 * 4); sdram_params->emc_bct_spare13 = IPATCH_CONFIG(0x100FDE, 0xE320); */ return (void *)sdram_params; } void sdram_init() { // Disable remote sense for SD1. i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_SD_CFG2, MAX77620_SD_CNF2_ROVS_EN_SD0 | MAX77620_SD_CNF2_RSVD); if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210) { const sdram_params_t210_t *params = (const sdram_params_t210_t *)_sdram_get_params_t210(); if (params->memory_type != MEMORY_TYPE_LPDDR4) return; // Set DRAM voltage. max7762x_regulator_set_voltage(REGULATOR_SD1, 1125000); // HOS: 1.125V. Bootloader: 1.1V. _sdram_config_t210(params); } else { const sdram_params_t210b01_t *params = (const sdram_params_t210b01_t *)sdram_get_params_t210b01(); if (params->memory_type != MEMORY_TYPE_LPDDR4) return; _sdram_config_t210b01(params); } } ================================================ FILE: bdk/mem/sdram.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2020-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _SDRAM_H_ #define _SDRAM_H_ #include /* * Tegra X1/X1+ EMC/DRAM Bandwidth Chart: * * Note: Max BWbits = Hz x ddr x bus width x channels = Hz x 2 x 32 x 2. * Max BWbits = Hz x ddr x bus width x channels = Hz x 2 x 64 x 1. * Configurations supported: 1x32, 2x32, 1x64. * x64 ram modules can be used by combining the 2 32-bit channels into one. * * 204.0 MHz: 3.04 <-- Tegra X1/X1+ Init/SC7 Frequency * 408.0 MHz: 6.08 * 665.6 MHz: 9.92 * 800.0 MHz: 11.92 <-- Tegra X1/X1+ Nvidia OS Boot Frequency * 1065.6 MHz: 15.89 * 1331.2 MHz: 19.84 * 1600.0 MHz: 23.84 * 1862.4 MHz: 27.75 <-- Tegra X1 Official Max Frequency * 2131.2 MHz: 31.76 <-- Tegra X1+ Official Max Frequency. Not all regs have support for > 2046 MHz. */ enum sdram_ids_erista { // LPDDR4 3200Mbps. LPDDR4_ICOSA_4GB_SAMSUNG_K4F6E304HB_MGCH = 0, // Die-B. (2y-01). LPDDR4_ICOSA_4GB_HYNIX_H9HCNNNBPUMLHR_NLE = 1, // Die-M. (2y-01). LPDDR4_ICOSA_4GB_MICRON_MT53B512M32D2NP_062_WTC = 2, // Die-C. (2y-01). LPDDR4_ICOSA_6GB_SAMSUNG_K4FHE3D4HM_MGCH = 4, // Die-C. (2y-01). /* * Custom hekate/L4T supported 8GB. 7 dram id can be easily applied in fuses. * * 4GB modules: * Samsung K4FBE3D4HM-MGCH/CJ/CL. MG/TF/GF/TH/GH: Package + Temperature. * Hynix H9HCNNNCPUMLXR-NME/NEE/NEI. E/I: Temperature. * Hynix H54G56BYYVX046/QX046/PX046. V/Q/P: Package + Temperature. */ LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX = 7, // XX: CH/CJ/CL. }; enum sdram_ids_mariko { /* * Nintendo Switch LPDRR4X generations: * - 1x nm are 1st-gen * - 1y nm are 2nd-gen * - 1z/a nm are 3rd-gen */ // LPDDR4X 4266Mbps. LPDDR4X_HOAG_4GB_HYNIX_H9HCNNNBKMMLXR_NEE = 3, // Die-M. (1y-01). LPDDR4X_AULA_4GB_HYNIX_H9HCNNNBKMMLXR_NEE = 5, // Die-M. (1y-01). LPDDR4X_IOWA_4GB_HYNIX_H9HCNNNBKMMLXR_NEE = 6, // Die-M. (1y-01). // LPDDR4X 3733Mbps. LPDDR4X_IOWA_4GB_SAMSUNG_K4U6E3S4AM_MGCJ = 8, // Die-M. (1x-03). LPDDR4X_IOWA_8GB_SAMSUNG_K4UBE3D4AM_MGCJ = 9, // Die-M. (1x-03). LPDDR4X_IOWA_4GB_HYNIX_H9HCNNNBKMMLHR_NME = 10, // Die-M. (1x-03). LPDDR4X_IOWA_4GB_MICRON_MT53E512M32D2NP_046_WTE = 11, // Die-E. (1x-03). D9WGB. 4266Mbps. LPDDR4X_HOAG_4GB_SAMSUNG_K4U6E3S4AM_MGCJ = 12, // Die-M. (1x-03). LPDDR4X_HOAG_8GB_SAMSUNG_K4UBE3D4AM_MGCJ = 13, // Die-M. (1x-03). LPDDR4X_HOAG_4GB_HYNIX_H9HCNNNBKMMLHR_NME = 14, // Die-M. (1x-03). LPDDR4X_HOAG_4GB_MICRON_MT53E512M32D2NP_046_WTE = 15, // Die-E. (1x-03). D9WGB. 4266Mbps. // LPDDR4X 4266Mbps. LPDDR4X_IOWA_4GB_SAMSUNG_K4U6E3S4AA_MGCL = 17, // Die-A. (1y-X03). LPDDR4X_IOWA_8GB_SAMSUNG_K4UBE3D4AA_MGCL = 18, // Die-A. (1y-X03). LPDDR4X_HOAG_4GB_SAMSUNG_K4U6E3S4AA_MGCL = 19, // Die-A. (1y-X03). LPDDR4X_IOWA_4GB_SAMSUNG_K4U6E3S4AB_MGCL = 20, // Die-B. (1z-01). 40% lp. LPDDR4X_HOAG_4GB_SAMSUNG_K4U6E3S4AB_MGCL = 21, // Die-B. (1z-01). 40% lp. LPDDR4X_AULA_4GB_SAMSUNG_K4U6E3S4AB_MGCL = 22, // Die-B. (1z-01). 40% lp. LPDDR4X_HOAG_8GB_SAMSUNG_K4UBE3D4AA_MGCL = 23, // Die-A. (1y-X03). LPDDR4X_AULA_4GB_SAMSUNG_K4U6E3S4AA_MGCL = 24, // Die-A. (1y-X03). LPDDR4X_IOWA_4GB_MICRON_MT53E512M32D2NP_046_WTF = 25, // Die-F. (1y-01). D9XRR. LPDDR4X_HOAG_4GB_MICRON_MT53E512M32D2NP_046_WTF = 26, // Die-F. (1y-01). D9XRR. LPDDR4X_AULA_4GB_MICRON_MT53E512M32D2NP_046_WTF = 27, // Die-F. (1y-01). D9XRR. LPDDR4X_AULA_8GB_SAMSUNG_K4UBE3D4AA_MGCL = 28, // Die-A. (1y-X03). 2nd gen. // Old naming scheme: H9HCNNNBKMCLXR-NEE LPDDR4X_IOWA_4GB_HYNIX_H54G46CYRBX267 = 29, // Die-C. (1a-01). 61% lp. LPDDR4X_HOAG_4GB_HYNIX_H54G46CYRBX267 = 30, // Die-C. (1a-01). 61% lp. LPDDR4X_AULA_4GB_HYNIX_H54G46CYRBX267 = 31, // Die-C. (1a-01). 61% lp. LPDDR4X_IOWA_4GB_MICRON_MT53E512M32D1NP_046_WTB = 32, // Die-B. (1a-01). D8BQM. 61% lp. LPDDR4X_HOAG_4GB_MICRON_MT53E512M32D1NP_046_WTB = 33, // Die-B. (1a-01). D8BQM. 61% lp. LPDDR4X_AULA_4GB_MICRON_MT53E512M32D1NP_046_WTB = 34, // Die-B. (1a-01). D8BQM. 61% lp. }; enum sdram_codes_mariko { LPDDR4X_NO_PATCH = 0, LPDDR4X_UNUSED = 0, // LPDDR4X_4GB_SAMSUNG_K4U6E3S4AM_MGCJ DRAM IDs: 08, 12. // LPDDR4X_4GB_HYNIX_H9HCNNNBKMMLHR_NME DRAM IDs: 10, 14. LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ = 1, // DRAM IDs: 09, 13. LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE = 2, // DRAM IDs: 11, 15. LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL = 3, // DRAM IDs: 17, 19, 24. LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL = 4, // DRAM IDs: 18, 23, 28. LPDDR4X_4GB_SAMSUNG_K4U6E3S4AB_MGCL = 5, // DRAM IDs: 20, 21, 22. LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF = 6, // DRAM IDs: 25, 26, 27. LPDDR4X_4GB_HYNIX_H9HCNNNBKMMLXR_NEE = 7, // DRAM IDs: 03, 05, 06. LPDDR4X_4GB_HYNIX_H54G46CYRBX267 = 8, // DRAM IDs: 29, 30, 31. LPDDR4X_4GB_MICRON_MT53E512M32D1NP_046_WTB = 9, // DRAM IDs: 32, 33, 34. }; void sdram_init(); void *sdram_get_params_patched(); void *sdram_get_params_t210b01(); void sdram_lp0_save_params(const void *params); emc_mr_data_t sdram_read_mrx(emc_mr_t mrx); #endif ================================================ FILE: bdk/mem/sdram_config.inl ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2020-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #define DRAM_CFG_T210_SIZE 1896 static const sdram_params_t210_t _dram_cfg_0_samsung_4gb = { /* Specifies the type of memory device */ .memory_type = MEMORY_TYPE_LPDDR4, /* MC/EMC clock source configuration */ .pllm_input_divider = 0x00000001, // M div. .pllm_feedback_divider = 0x00000022, // N div. .pllm_stable_time = 0x0000012C, .pllm_setup_control = 0x00000000, .pllm_post_divider = 0x00000000, // P div. .pllm_kcp = 0x00000000, .pllm_kvco = 0x00000000, /* Spare BCT params */ .emc_bct_spare0 = 0x00000000, .emc_bct_spare1 = 0x00000000, .emc_bct_spare2 = 0x00000000, .emc_bct_spare3 = 0x00000000, .emc_bct_spare4 = 0x7001BC68, // EMC_PMACRO_COMMON_PAD_TX_CTRL. .emc_bct_spare5 = 0x0000000A, .emc_bct_spare6 = 0x7001B404, // EMC_SWIZZLE_RANK0_BYTE0. .emc_bct_spare7 = 0x76543201, .emc_bct_spare8 = 0x7000E6C8, // APBDEV_PMC_WEAK_BIAS. .emc_bct_spare9 = 0x00000000, .emc_bct_spare10 = 0x00000000, .emc_bct_spare11 = 0x00000000, .emc_bct_spare12 = 0x00000000, // Used to hold EMC_PMACRO_BG_BIAS_CTRL. .emc_bct_spare13 = 0x00000034, /* EMC clock configuration */ .emc_clock_source = 0x40188002, .emc_clock_source_dll = 0x40000000, .clk_rst_pllm_misc20_override = 0x00000000, .clk_rst_pllm_misc20_override_enable = 0x00000000, .clear_clock2_mc1 = 0x00000000, /* Auto-calibration of EMC pads */ .emc_auto_cal_interval = 0x001FFFFF, .emc_auto_cal_config = 0xA01A51D8, .emc_auto_cal_config2 = 0x05500000, .emc_auto_cal_config3 = 0x00770000, .emc_auto_cal_config4 = 0x00770000, .emc_auto_cal_config5 = 0x00770000, .emc_auto_cal_config6 = 0x00770000, .emc_auto_cal_config7 = 0x00770000, .emc_auto_cal_config8 = 0x00770000, .emc_auto_cal_vref_sel0 = 0xB3AFA6A6, .emc_auto_cal_vref_sel1 = 0x00009E3C, .emc_auto_cal_channel = 0xC1E00303, .emc_pmacro_auto_cal_cfg0 = 0x04040404, .emc_pmacro_auto_cal_cfg1 = 0x04040404, .emc_pmacro_auto_cal_cfg2 = 0x00000000, .emc_pmacro_rx_term = 0x1F1F1F1F, .emc_pmacro_dq_tx_drive = 0x1F1F1F1F, .emc_pmacro_ca_tx_drive = 0x1F1F1F1F, .emc_pmacro_cmd_tx_drive = 0x00001F1F, .emc_pmacro_auto_cal_common = 0x00000804, .emc_pmacro_zcrtl = 0x00000550, /* Specifies the time for the calibration to stabilize (in microseconds) */ .emc_auto_cal_wait = 0x000001A1, .emc_xm2_comp_pad_ctrl = 0x00000032, .emc_xm2_comp_pad_ctrl2 = 0x00000000, .emc_xm2_comp_pad_ctrl3 = 0x00000000, /* * DRAM size information * Specifies the value for EMC_ADR_CFG */ .emc_adr_cfg = 0x00000001, // 2 Ranks. /* * Specifies the time to wait after asserting pin * CKE (in microseconds) */ .emc_pin_program_wait = 0x00000002, /* Specifies the extra delay before/after pin RESET/CKE command */ .emc_pin_extra_wait = 0x00000000, .emc_pin_gpio_enable = 0x00000003, .emc_pin_gpio = 0x00000003, /* Specifies the extra delay after the first writing of EMC_TIMING_CONTROL */ .emc_timing_control_wait = 0x0000001E, /* Timing parameters required for the SDRAM */ .emc_rc = 0x0000000D, .emc_rfc = 0x00000025, .emc_rfc_pb = 0x00000013, .emc_ref_ctrl2 = 0x00000000, .emc_rfc_slr = 0x00000000, .emc_ras = 0x00000009, .emc_rp = 0x00000004, .emc_r2r = 0x00000000, .emc_w2w = 0x00000000, .emc_r2w = 0x0000000B, .emc_w2r = 0x0000000D, .emc_r2p = 0x00000008, .emc_w2p = 0x0000000B, .emc_tppd = 0x00000004, .emc_ccdmw = 0x00000020, .emc_rd_rcd = 0x00000006, .emc_wr_rcd = 0x00000006, .emc_rrd = 0x00000006, .emc_rext = 0x00000003, .emc_wext = 0x00000000, .emc_wdv = 0x00000004, .emc_wdv_chk = 0x00000006, .emc_wsv = 0x00000002, .emc_wev = 0x00000000, .emc_wdv_mask = 0x00000004, .emc_ws_duration = 0x00000008, .emc_we_duration = 0x0000000D, .emc_quse = 0x00000005, .emc_quse_width = 0x00000006, .emc_ibdly = 0x00000000, .emc_obdly = 0x00000000, .emc_einput = 0x00000002, .emc_einput_duration = 0x0000000D, .emc_puterm_extra = 0x00000000, .emc_puterm_width = 0x0000000B, .emc_qrst = 0x00010000, .emc_qsafe = 0x00000012, .emc_rdv = 0x00000014, .emc_rdv_mask = 0x00000016, .emc_rdv_early = 0x00000012, .emc_rdv_early_mask = 0x00000014, .emc_qpop = 0x0000000A, .emc_refresh = 0x00000304, .emc_burst_refresh_num = 0x00000000, .emc_prerefresh_req_cnt = 0x000000C1, .emc_pdex2wr = 0x00000008, .emc_pdex2rd = 0x00000008, .emc_pchg2pden = 0x00000003, .emc_act2pden = 0x00000003, .emc_ar2pden = 0x00000003, .emc_rw2pden = 0x00000014, .emc_cke2pden = 0x00000005, .emc_pdex2che = 0x00000002, .emc_pdex2mrr = 0x0000000D, .emc_txsr = 0x00000027, .emc_txsr_dll = 0x00000027, .emc_tcke = 0x00000005, .emc_tckesr = 0x00000005, .emc_tpd = 0x00000004, .emc_tfaw = 0x00000009, .emc_trpab = 0x00000005, .emc_tclkstable = 0x00000004, .emc_tclkstop = 0x00000009, .emc_trefbw = 0x0000031C, /* FBIO configuration values */ .emc_fbio_cfg5 = 0x9160A00D, .emc_fbio_cfg7 = 0x00003BBF, .emc_fbio_cfg8 = 0x0CF30000, /* Command mapping for CMD brick 0 */ .emc_cmd_mapping_cmd0_0 = 0x061B0504, .emc_cmd_mapping_cmd0_1 = 0x1C070302, .emc_cmd_mapping_cmd0_2 = 0x05252523, .emc_cmd_mapping_cmd1_0 = 0x0A091D08, .emc_cmd_mapping_cmd1_1 = 0x0D1E0B24, .emc_cmd_mapping_cmd1_2 = 0x0326260C, .emc_cmd_mapping_cmd2_0 = 0x231C1B02, .emc_cmd_mapping_cmd2_1 = 0x05070403, .emc_cmd_mapping_cmd2_2 = 0x02252506, .emc_cmd_mapping_cmd3_0 = 0x0D1D0B0A, .emc_cmd_mapping_cmd3_1 = 0x1E090C08, .emc_cmd_mapping_cmd3_2 = 0x08262624, .emc_cmd_mapping_byte = 0x9A070624, .emc_fbio_spare = 0x00000012, .emc_cfg_rsv = 0xFF00FF00, /* MRS command values */ .emc_mrs = 0x00000000, .emc_emrs = 0x00000000, .emc_emrs2 = 0x00000000, .emc_emrs3 = 0x00000000, .emc_mrw1 = 0x08010004, .emc_mrw2 = 0x08020000, .emc_mrw3 = 0x080D0000, .emc_mrw4 = 0xC0000000, .emc_mrw6 = 0x08037171, .emc_mrw8 = 0x080B0000, .emc_mrw9 = 0x0C0E7272, .emc_mrw10 = 0x00000000, .emc_mrw12 = 0x0C0D0808, .emc_mrw13 = 0x0C0D0000, .emc_mrw14 = 0x08161414, .emc_mrw_extra = 0x08010004, .emc_warm_boot_mrw_extra = 0x08110000, .emc_warm_boot_extramode_reg_write_enable = 0x00000001, .emc_extramode_reg_write_enable = 0x00000000, .emc_mrw_reset_command = 0x00000000, .emc_mrw_reset_ninit_wait = 0x00000000, .emc_mrs_wait_cnt = 0x00CC0015, .emc_mrs_wait_cnt2 = 0x0033000A, /* EMC miscellaneous configurations */ .emc_cfg = 0xF3200000, .emc_cfg2 = 0x00110805, .emc_cfg_pipe = 0x0FFF0FFF, .emc_cfg_pipe_clk = 0x00000000, .emc_fdpd_ctrl_cmd_no_ramp = 0x00000001, .emc_cfg_update = 0x70000301, .emc_dbg = 0x01000C00, .emc_dbg_write_mux = 0x00000001, .emc_cmd_q = 0x10004408, .emc_mc2emc_q = 0x06000404, .emc_dyn_self_ref_control = 0x80000713, .ahb_arbitration_xbar_ctrl_meminit_done = 0x00000001, .emc_cfg_dig_dll = 0x002C00A0, .emc_cfg_dig_dll_1 = 0x00003701, .emc_cfg_dig_dll_period = 0x00008000, .emc_dev_select = 0x00000000, // Both Ranks. .emc_sel_dpd_ctrl = 0x00040008, /* Pads trimmer delays */ .emc_fdpd_ctrl_dq = 0x8020221F, .emc_fdpd_ctrl_cmd = 0x0220F40F, .emc_pmacro_ib_vref_dq_0 = 0x28282828, .emc_pmacro_ib_vref_dq_1 = 0x28282828, .emc_pmacro_ib_vref_dqs_0 = 0x11111111, .emc_pmacro_ib_vref_dqs_1 = 0x11111111, .emc_pmacro_ib_rxrt = 0x000000BE, .emc_cfg_pipe1 = 0x0FFF0FFF, .emc_cfg_pipe2 = 0x0FFF0FFF, .emc_pmacro_quse_ddll_rank0_0 = 0x00000000, .emc_pmacro_quse_ddll_rank0_1 = 0x00000000, .emc_pmacro_quse_ddll_rank0_2 = 0x00000000, .emc_pmacro_quse_ddll_rank0_3 = 0x00000000, .emc_pmacro_quse_ddll_rank0_4 = 0x00000000, .emc_pmacro_quse_ddll_rank0_5 = 0x00000000, .emc_pmacro_quse_ddll_rank1_0 = 0x00000000, .emc_pmacro_quse_ddll_rank1_1 = 0x00000000, .emc_pmacro_quse_ddll_rank1_2 = 0x00000000, .emc_pmacro_quse_ddll_rank1_3 = 0x00000000, .emc_pmacro_quse_ddll_rank1_4 = 0x00000000, .emc_pmacro_quse_ddll_rank1_5 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank0_0 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank0_1 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank0_2 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank0_3 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank0_4 = 0x00120014, .emc_pmacro_ob_ddll_long_dq_rank0_5 = 0x00140010, .emc_pmacro_ob_ddll_long_dq_rank1_0 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank1_1 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank1_2 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank1_3 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank1_4 = 0x00120014, .emc_pmacro_ob_ddll_long_dq_rank1_5 = 0x00140010, .emc_pmacro_ob_ddll_long_dqs_rank0_0 = 0x002E0030, .emc_pmacro_ob_ddll_long_dqs_rank0_1 = 0x00300033, .emc_pmacro_ob_ddll_long_dqs_rank0_2 = 0x00350033, .emc_pmacro_ob_ddll_long_dqs_rank0_3 = 0x00320030, .emc_pmacro_ob_ddll_long_dqs_rank0_4 = 0x00000005, .emc_pmacro_ob_ddll_long_dqs_rank0_5 = 0x00000000, .emc_pmacro_ob_ddll_long_dqs_rank1_0 = 0x002E0030, .emc_pmacro_ob_ddll_long_dqs_rank1_1 = 0x00300033, .emc_pmacro_ob_ddll_long_dqs_rank1_2 = 0x00350033, .emc_pmacro_ob_ddll_long_dqs_rank1_3 = 0x00320030, .emc_pmacro_ob_ddll_long_dqs_rank1_4 = 0x00000005, .emc_pmacro_ob_ddll_long_dqs_rank1_5 = 0x00000000, .emc_pmacro_ib_ddll_long_dqs_rank0_0 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank0_1 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank0_2 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank0_3 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank1_0 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank1_1 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank1_2 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank1_3 = 0x00280028, .emc_pmacro_ddll_long_cmd_0 = 0x00140014, .emc_pmacro_ddll_long_cmd_1 = 0x00120012, .emc_pmacro_ddll_long_cmd_2 = 0x00100010, .emc_pmacro_ddll_long_cmd_3 = 0x00140014, .emc_pmacro_ddll_long_cmd_4 = 0x00000014, .emc_pmacro_ddll_short_cmd_0 = 0x00000000, .emc_pmacro_ddll_short_cmd_1 = 0x00000000, .emc_pmacro_ddll_short_cmd_2 = 0x00000000, /* * Specifies the delay after asserting CKE pin during a WarmBoot0 * sequence (in microseconds) */ .warm_boot_wait = 0x00000001, .emc_odt_write = 0x00000000, /* Periodic ZQ calibration */ /* * Specifies the value for EMC_ZCAL_INTERVAL * Value 0 disables ZQ calibration */ .emc_zcal_interval = 0x00064000, .emc_zcal_wait_cnt = 0x000900CC, .emc_zcal_mrw_cmd = 0x0051004F, /* DRAM initialization sequence flow control */ .emc_mrs_reset_dll = 0x00000000, .emc_zcal_init_dev0 = 0x80000001, .emc_zcal_init_dev1 = 0x40000001, /* * Specifies the wait time after programming a ZQ initialization * command (in microseconds) */ .emc_zcal_init_wait = 0x00000001, /* * Specifies the enable for ZQ calibration at cold boot [bit 0] * and warm boot [bit 1] */ .emc_zcal_warm_cold_boot_enables = 0x00000003, /* * Specifies the MRW command to LPDDR2 for ZQ calibration * on warmboot */ /* Is issued to both devices separately */ .emc_mrw_lpddr2zcal_warm_boot = 0x040A00AB, /* * Specifies the ZQ command to DDR3 for ZQ calibration on warmboot * Is issued to both devices separately */ .emc_zqcal_ddr3_warm_boot = 0x00000011, .emc_zqcal_lpddr4_warm_boot = 0x00000001, /* * Specifies the wait time for ZQ calibration on warmboot * (in microseconds) */ .emc_zcal_warm_boot_wait = 0x00000001, /* * Specifies the enable for DRAM Mode Register programming * at warm boot */ .emc_mrs_warm_boot_enable = 0x00000001, .emc_mrs_reset_dll_wait = 0x00000000, .emc_mrs_extra = 0x00000000, .emc_warm_boot_mrs_extra = 0x00000000, .emc_emrs_ddr2_dll_enable = 0x00000000, .emc_mrs_ddr2_dll_reset = 0x00000000, .emc_emrs_ddr2_ocd_calib = 0x00000000, /* * Specifies the wait between initializing DDR and setting OCD * calibration (in microseconds) */ .emc_ddr2_wait = 0x00000000, .emc_clken_override = 0x00000000, /* * Specifies LOG2 of the extra refresh numbers after booting * Program 0 to disable */ .emc_extra_refresh_num = 0x00000002, .emc_clken_override_allwarm_boot = 0x00000000, .mc_clken_override_allwarm_boot = 0x00000000, /* Specifies digital dll period, choosing between 4 to 64 ms */ .emc_cfg_dig_dll_period_warm_boot = 0x00000003, /* Pad controls */ .pmc_vddp_sel = 0x00000001, .pmc_vddp_sel_wait = 0x00000002, .pmc_ddr_pwr = 0x0000000F, .pmc_ddr_cfg = 0x04220100, .pmc_io_dpd3_req = 0x4FAFFFFF, .pmc_io_dpd3_req_wait = 0x00000001, .pmc_io_dpd4_req_wait = 0x00000002, .pmc_reg_short = 0x00000000, .pmc_no_io_power = 0x00000000, .pmc_ddr_ctrl_wait = 0x00000000, .pmc_ddr_ctrl = 0x0007FF8B, .emc_acpd_control = 0x00000000, .emc_swizzle_rank0_byte0 = 0x76543201, // Overridden to 0x76543201 by spare6/7. .emc_swizzle_rank0_byte1 = 0x65324710, .emc_swizzle_rank0_byte2 = 0x25763410, .emc_swizzle_rank0_byte3 = 0x25673401, .emc_swizzle_rank1_byte0 = 0x32647501, .emc_swizzle_rank1_byte1 = 0x34567201, .emc_swizzle_rank1_byte2 = 0x56742310, .emc_swizzle_rank1_byte3 = 0x67324501, .emc_txdsrvttgen = 0x00000000, .emc_data_brlshft0 = 0x00249249, .emc_data_brlshft1 = 0x00249249, .emc_dqs_brlshft0 = 0x00000000, .emc_dqs_brlshft1 = 0x00000000, .emc_cmd_brlshft0 = 0x00000000, .emc_cmd_brlshft1 = 0x00000000, .emc_cmd_brlshft2 = 0x0000001B, .emc_cmd_brlshft3 = 0x0000001B, .emc_quse_brlshft0 = 0x00000000, .emc_quse_brlshft1 = 0x00000000, .emc_quse_brlshft2 = 0x00000000, .emc_quse_brlshft3 = 0x00000000, .emc_dll_cfg0 = 0x1F13412F, .emc_dll_cfg1 = 0x00010014, .emc_pmc_scratch1 = 0x4FAFFFFF, // APBDEV_PMC_IO_DPD3_REQ. .emc_pmc_scratch2 = 0x7FFFFFFF, .emc_pmc_scratch3 = 0x4006D70B, // APBDEV_PMC_DDR_CNTRL. .emc_pmacro_pad_cfg_ctrl = 0x00020000, .emc_pmacro_vttgen_ctrl0 = 0x00030808, .emc_pmacro_vttgen_ctrl1 = 0x00015C00, .emc_pmacro_vttgen_ctrl2 = 0x00101010, .emc_pmacro_brick_ctrl_rfu1 = 0x00001600, .emc_pmacro_cmd_brick_ctrl_fdpd = 0x00000000, .emc_pmacro_brick_ctrl_rfu2 = 0x00000000, .emc_pmacro_data_brick_ctrl_fdpd = 0x00000000, .emc_pmacro_bg_bias_ctrl0 = 0x00000034, .emc_pmacro_data_pad_rx_ctrl = 0x00050037, .emc_pmacro_cmd_pad_rx_ctrl = 0x00000000, .emc_pmacro_data_rx_term_mode = 0x00000010, .emc_pmacro_cmd_rx_term_mode = 0x00003000, .emc_pmacro_data_pad_tx_ctrl = 0x02000111, .emc_pmacro_common_pad_tx_ctrl = 0x00000008, // Overridden to 0x0000000A by spare4/5. .emc_pmacro_cmd_pad_tx_ctrl = 0x0A000000, .emc_cfg3 = 0x00000040, .emc_pmacro_tx_pwrd0 = 0x10000000, .emc_pmacro_tx_pwrd1 = 0x08000000, .emc_pmacro_tx_pwrd2 = 0x08000000, .emc_pmacro_tx_pwrd3 = 0x00000000, .emc_pmacro_tx_pwrd4 = 0x00000000, .emc_pmacro_tx_pwrd5 = 0x00001000, .emc_config_sample_delay = 0x00000020, .emc_pmacro_brick_mapping0 = 0x28091081, .emc_pmacro_brick_mapping1 = 0x44A53293, .emc_pmacro_brick_mapping2 = 0x76678A5B, .emc_pmacro_tx_sel_clk_src0 = 0x00000000, .emc_pmacro_tx_sel_clk_src1 = 0x00000000, .emc_pmacro_tx_sel_clk_src2 = 0x00000000, .emc_pmacro_tx_sel_clk_src3 = 0x00000000, .emc_pmacro_tx_sel_clk_src4 = 0x00000000, .emc_pmacro_tx_sel_clk_src5 = 0x00000000, .emc_pmacro_ddll_bypass = 0xEFFFEFFF, .emc_pmacro_ddll_pwrd0 = 0xC0C0C0C0, .emc_pmacro_ddll_pwrd1 = 0xC0C0C0C0, .emc_pmacro_ddll_pwrd2 = 0xDCDCDCDC, .emc_pmacro_cmd_ctrl0 = 0x0A0A0A0A, .emc_pmacro_cmd_ctrl1 = 0x0A0A0A0A, .emc_pmacro_cmd_ctrl2 = 0x0A0A0A0A, /* DRAM size information */ .mc_emem_adr_cfg = 0x00000001, // 2 Ranks. .mc_emem_adr_cfg_dev0 = 0x00070302, // Chip 0 Density 512MB. .mc_emem_adr_cfg_dev1 = 0x00070302, // Chip 1 Density 512MB. .mc_emem_adr_cfg_channel_mask = 0xFFFF2400, .mc_emem_adr_cfg_bank_mask0 = 0x6E574400, .mc_emem_adr_cfg_bank_mask1 = 0x39722800, .mc_emem_adr_cfg_bank_mask2 = 0x4B9C1000, /* * Specifies the value for MC_EMEM_CFG which holds the external memory * size (in MBytes) */ .mc_emem_cfg = 0x00001000, // 4GB total density. Max 8GB. /* MC arbitration configuration */ .mc_emem_arb_cfg = 0x08000001, .mc_emem_arb_outstanding_req = 0x8000004C, .emc_emem_arb_refpb_hp_ctrl = 0x000A1020, .emc_emem_arb_refpb_bank_ctrl = 0x80001028, .mc_emem_arb_timing_rcd = 0x00000001, .mc_emem_arb_timing_rp = 0x00000000, .mc_emem_arb_timing_rc = 0x00000003, .mc_emem_arb_timing_ras = 0x00000001, .mc_emem_arb_timing_faw = 0x00000002, .mc_emem_arb_timing_rrd = 0x00000001, .mc_emem_arb_timing_rap2pre = 0x00000002, .mc_emem_arb_timing_wap2pre = 0x00000005, .mc_emem_arb_timing_r2r = 0x00000002, .mc_emem_arb_timing_w2w = 0x00000001, .mc_emem_arb_timing_r2w = 0x00000004, .mc_emem_arb_timing_w2r = 0x00000005, .mc_emem_arb_timing_rfcpb = 0x00000004, .mc_emem_arb_da_turns = 0x02020001, .mc_emem_arb_da_covers = 0x00030201, .mc_emem_arb_misc0 = 0x71C30504, .mc_emem_arb_misc1 = 0x70000F0F, .mc_emem_arb_misc2 = 0x00000000, .mc_emem_arb_ring1_throttle = 0x001F0000, .mc_emem_arb_override = 0x10000000, .mc_emem_arb_override1 = 0x00000000, .mc_emem_arb_rsv = 0xFF00FF00, .mc_da_cfg0 = 0x00000001, .mc_emem_arb_timing_ccdmw = 0x00000008, .mc_clken_override = 0x00008000, .mc_stat_control = 0x00000000, /* VPR carveout configuration */ .mc_video_protect_bom = 0xFFF00000, .mc_video_protect_bom_adr_hi = 0x00000000, .mc_video_protect_size_mb = 0x00000000, // Disable access: // AFI (PCIE), BPMP, HC (HOST1x), ISP2, CCPLEX, PPCS (AHB), SATA, VI, XUSB_HOST, XUSB_DEV, ADSP, PPCS1 (AHB), DC1 (WinT), SDMMC1/2/3. Plus TSEC, NVENC. // Enable access: // DC, DCB, HDA, VIC. .mc_video_protect_vpr_override = 0xE4FACB43, // Stock/Reset: 0xE4BAC343. HOS new: 0xE4FACB43. + TSEC, NVENC. // Disable access: // SDMMC4, ISP2B, PPCS2 (AHB), APE, SE, HC1, SE1, AXIAP, ETR. Plus TSECB, TSEC1, TSECB1. // Enable access: // GPU, GPUB, NVDEC, NVJPG, NVDEC1. .mc_video_protect_vpr_override1 = 0x0000FED3, // Stock/Reset: 0x00001ED3. HOS new: 0x0000FED3. + TSECB, TSEC1, TSECB1. // VPR CYA. L4T override (set PD, SCC, SKED, L1 as UNTRUSTED). .mc_video_protect_gpu_override0 = VPR_OVR0_CYA_TRUST_GCC(VPR_TRUST_GRAPHICS) | VPR_OVR0_CYA_TRUST_RASTER(VPR_TRUST_GRAPHICS) | VPR_OVR0_CYA_TRUST_PE(VPR_TRUST_GRAPHICS) | VPR_OVR0_CYA_TRUST_TEX(VPR_TRUST_GRAPHICS) | VPR_OVR0_CYA_TRUST_OVERRIDE, // Stock: 0. HOS: VPR_OVR0_CYA_TRUST_DEFAULT. .mc_video_protect_gpu_override1 = VPR_OVR1_CYA_TRUST_PROP(VPR_TRUST_GRAPHICS), // Stock: 0. HOS: 0. /* TZDRAM carveout configuration */ .mc_sec_carveout_bom = 0xFFF00000, .mc_sec_carveout_adr_hi = 0x00000000, .mc_sec_carveout_size_mb = 0x00000000, .mc_video_protect_write_access = 0x00000000, .mc_sec_carveout_protect_write_access = 0x00000000, .mc_generalized_carveout1_bom = 0x00000000, .mc_generalized_carveout1_bom_hi = 0x00000000, .mc_generalized_carveout1_size_128kb = 0x00000008, .mc_generalized_carveout1_access0 = 0x00000000, .mc_generalized_carveout1_access1 = 0x00000000, .mc_generalized_carveout1_access2 = 0x00300000, .mc_generalized_carveout1_access3 = 0x03000000, .mc_generalized_carveout1_access4 = 0x00000000, .mc_generalized_carveout1_force_internal_access0 = 0x00000000, .mc_generalized_carveout1_force_internal_access1 = 0x00000000, .mc_generalized_carveout1_force_internal_access2 = 0x00000000, .mc_generalized_carveout1_force_internal_access3 = 0x00000000, .mc_generalized_carveout1_force_internal_access4 = 0x00000000, .mc_generalized_carveout1_cfg0 = 0x04000C76, .mc_generalized_carveout2_bom = 0x00000000, .mc_generalized_carveout2_bom_hi = 0x00000000, .mc_generalized_carveout2_size_128kb = 0x00000002, .mc_generalized_carveout2_access0 = 0x00000000, .mc_generalized_carveout2_access1 = 0x00000000, .mc_generalized_carveout2_access2 = 0x03000000, .mc_generalized_carveout2_access3 = 0x00000000, .mc_generalized_carveout2_access4 = 0x00000300, .mc_generalized_carveout2_force_internal_access0 = 0x00000000, .mc_generalized_carveout2_force_internal_access1 = 0x00000000, .mc_generalized_carveout2_force_internal_access2 = 0x00000000, .mc_generalized_carveout2_force_internal_access3 = 0x00000000, .mc_generalized_carveout2_force_internal_access4 = 0x00000000, .mc_generalized_carveout2_cfg0 = 0x0440167E, .mc_generalized_carveout3_bom = 0x00000000, .mc_generalized_carveout3_bom_hi = 0x00000000, .mc_generalized_carveout3_size_128kb = 0x00000000, .mc_generalized_carveout3_access0 = 0x00000000, .mc_generalized_carveout3_access1 = 0x00000000, .mc_generalized_carveout3_access2 = 0x03000000, .mc_generalized_carveout3_access3 = 0x00000000, .mc_generalized_carveout3_access4 = 0x00000300, .mc_generalized_carveout3_force_internal_access0 = 0x00000000, .mc_generalized_carveout3_force_internal_access1 = 0x00000000, .mc_generalized_carveout3_force_internal_access2 = 0x00000000, .mc_generalized_carveout3_force_internal_access3 = 0x00000000, .mc_generalized_carveout3_force_internal_access4 = 0x00000000, .mc_generalized_carveout3_cfg0 = 0x04401E7E, .mc_generalized_carveout4_bom = 0x00000000, .mc_generalized_carveout4_bom_hi = 0x00000000, .mc_generalized_carveout4_size_128kb = 0x00000008, .mc_generalized_carveout4_access0 = 0x00000000, .mc_generalized_carveout4_access1 = 0x00000000, .mc_generalized_carveout4_access2 = 0x00300000, .mc_generalized_carveout4_access3 = 0x00000000, .mc_generalized_carveout4_access4 = 0x000000C0, .mc_generalized_carveout4_force_internal_access0 = 0x00000000, .mc_generalized_carveout4_force_internal_access1 = 0x00000000, .mc_generalized_carveout4_force_internal_access2 = 0x00000000, .mc_generalized_carveout4_force_internal_access3 = 0x00000000, .mc_generalized_carveout4_force_internal_access4 = 0x00000000, .mc_generalized_carveout4_cfg0 = 0x04002446, .mc_generalized_carveout5_bom = 0x00000000, .mc_generalized_carveout5_bom_hi = 0x00000000, .mc_generalized_carveout5_size_128kb = 0x00000008, .mc_generalized_carveout5_access0 = 0x00000000, .mc_generalized_carveout5_access1 = 0x00000000, .mc_generalized_carveout5_access2 = 0x00300000, .mc_generalized_carveout5_access3 = 0x00000000, .mc_generalized_carveout5_access4 = 0x00000000, .mc_generalized_carveout5_force_internal_access0 = 0x00000000, .mc_generalized_carveout5_force_internal_access1 = 0x00000000, .mc_generalized_carveout5_force_internal_access2 = 0x00000000, .mc_generalized_carveout5_force_internal_access3 = 0x00000000, .mc_generalized_carveout5_force_internal_access4 = 0x00000000, .mc_generalized_carveout5_cfg0 = 0x04002C46, /* Specifies enable for CA training */ .emc_ca_training_enable = 0x00000000, /* Set if bit 6 select is greater than bit 7 select; uses aremc.spec packet SWIZZLE_BIT6_GT_BIT7 */ .swizzle_rank_byte_encode = 0x000000EC, /* Specifies enable and offset for patched boot rom write */ .boot_rom_patch_control = 0x00000000, /* Specifies data for patched boot rom write */ .boot_rom_patch_data = 0x00000000, /* CPU FW carveout configuration */ .mc_mts_carveout_bom = 0xFFF00000, .mc_mts_carveout_adr_hi = 0x00000000, .mc_mts_carveout_size_mb = 0x00000000, .mc_mts_carveout_reg_ctrl = 0x00000000 }; #define DCFG_OFFSET_OF(m) (OFFSET_OF(sdram_params_t210_t, m) / 4) static const sdram_vendor_patch_t sdram_cfg_vendor_patches_t210[] = { // Hynix timing config. { 0x0000000D, DRAM_ID(LPDDR4_ICOSA_4GB_HYNIX_H9HCNNNBPUMLHR_NLE), DCFG_OFFSET_OF(emc_r2w) }, { 0x00000001, DRAM_ID(LPDDR4_ICOSA_4GB_HYNIX_H9HCNNNBPUMLHR_NLE), DCFG_OFFSET_OF(emc_puterm_extra) }, { 0x80000000, DRAM_ID(LPDDR4_ICOSA_4GB_HYNIX_H9HCNNNBPUMLHR_NLE), DCFG_OFFSET_OF(emc_puterm_width) }, { 0x00000210, DRAM_ID(LPDDR4_ICOSA_4GB_HYNIX_H9HCNNNBPUMLHR_NLE), DCFG_OFFSET_OF(emc_pmacro_data_rx_term_mode) }, { 0x00000005, DRAM_ID(LPDDR4_ICOSA_4GB_HYNIX_H9HCNNNBPUMLHR_NLE), DCFG_OFFSET_OF(mc_emem_arb_timing_r2w) }, // Samsung 6GB density config. { 0x000C0302, DRAM_ID(LPDDR4_ICOSA_6GB_SAMSUNG_K4FHE3D4HM_MGCH), DCFG_OFFSET_OF(mc_emem_adr_cfg_dev0) }, // 768MB Chip 0 density. { 0x000C0302, DRAM_ID(LPDDR4_ICOSA_6GB_SAMSUNG_K4FHE3D4HM_MGCH), DCFG_OFFSET_OF(mc_emem_adr_cfg_dev1) }, // 768MB Chip 1 density. { 0x00001800, DRAM_ID(LPDDR4_ICOSA_6GB_SAMSUNG_K4FHE3D4HM_MGCH), DCFG_OFFSET_OF(mc_emem_cfg) }, // 6GB total density. Max 8GB. // Samsung 8GB density config. { 0x0000003A, DRAM_ID(LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX), DCFG_OFFSET_OF(emc_rfc) }, { 0x0000001D, DRAM_ID(LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX), DCFG_OFFSET_OF(emc_rfc_pb) }, { 0x0000003B, DRAM_ID(LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX), DCFG_OFFSET_OF(emc_txsr) }, { 0x0000003B, DRAM_ID(LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX), DCFG_OFFSET_OF(emc_txsr_dll) }, { 0x00080302, DRAM_ID(LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX), DCFG_OFFSET_OF(mc_emem_adr_cfg_dev0) }, // 1024MB Chip 0 density. { 0x00080302, DRAM_ID(LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX), DCFG_OFFSET_OF(mc_emem_adr_cfg_dev1) }, // 1024MB Chip 1 density. { 0x00002000, DRAM_ID(LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX), DCFG_OFFSET_OF(mc_emem_cfg) }, // 8GB total density. Max 8GB. { 0x00000007, DRAM_ID(LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX), DCFG_OFFSET_OF(mc_emem_arb_timing_rfcpb) }, { 0x72A30504, DRAM_ID(LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX), DCFG_OFFSET_OF(mc_emem_arb_misc0) }, }; #undef DCFG_OFFSET_OF ================================================ FILE: bdk/mem/sdram_config_t210b01.inl ================================================ /* * Copyright (c) 2020-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #define DRAM_CFG_T210B01_SIZE 2104 static const sdram_params_t210b01_t _dram_cfg_08_10_12_14_samsung_hynix_4gb = { /* Specifies the type of memory device */ .memory_type = MEMORY_TYPE_LPDDR4, /* MC/EMC clock source configuration */ .pllm_input_divider = 0x00000001, // M div. .pllm_feedback_divider = 0x00000022, // N div. .pllm_stable_time = 0x0000012C, .pllm_setup_control = 0x00000000, .pllm_post_divider = 0x00000000, // P div. .pllm_kcp = 0x00000000, .pllm_kvco = 0x00000000, /* Spare BCT params */ .emc_bct_spare0 = 0x00000000, .emc_bct_spare1 = 0x00000000, .emc_bct_spare2 = 0x00000000, .emc_bct_spare3 = 0x00000000, .emc_bct_spare4 = 0x00000000, .emc_bct_spare5 = 0x00000000, .emc_bct_spare6 = 0x00000000, .emc_bct_spare7 = 0x00000000, .emc_bct_spare8 = 0x00000000, .emc_bct_spare9 = 0x00000000, .emc_bct_spare10 = 0x00000000, .emc_bct_spare11 = 0x00000000, .emc_bct_spare12 = 0x00000000, .emc_bct_spare13 = 0x00000000, .emc_bct_spare_secure0 = 0x00000000, .emc_bct_spare_secure1 = 0x00000000, .emc_bct_spare_secure2 = 0x00000000, .emc_bct_spare_secure3 = 0x00000000, .emc_bct_spare_secure4 = 0x00000000, .emc_bct_spare_secure5 = 0x00000000, .emc_bct_spare_secure6 = 0x00000000, .emc_bct_spare_secure7 = 0x00000000, .emc_bct_spare_secure8 = 0x00000000, .emc_bct_spare_secure9 = 0x00000000, .emc_bct_spare_secure10 = 0x00000000, .emc_bct_spare_secure11 = 0x00000000, .emc_bct_spare_secure12 = 0x00000000, .emc_bct_spare_secure13 = 0x00000000, .emc_bct_spare_secure14 = 0x00000000, .emc_bct_spare_secure15 = 0x00000000, .emc_bct_spare_secure16 = 0x00000000, .emc_bct_spare_secure17 = 0x00000000, .emc_bct_spare_secure18 = 0x00000000, .emc_bct_spare_secure19 = 0x00000000, .emc_bct_spare_secure20 = 0x00000000, .emc_bct_spare_secure21 = 0x00000000, .emc_bct_spare_secure22 = 0x00000000, .emc_bct_spare_secure23 = 0x00000000, /* EMC clock configuration */ .emc_clock_source = 0x40188002, .emc_clock_source_dll = 0x40000000, .clk_rst_pllm_misc20_override = 0x00000000, .clk_rst_pllm_misc20_override_enable = 0x00000000, .clear_clock2_mc1 = 0x00000000, /* Auto-calibration of EMC pads */ .emc_auto_cal_interval = 0x001FFFFF, .emc_auto_cal_config = 0xA01A51D8, .emc_auto_cal_config2 = 0x00000000, .emc_auto_cal_config3 = 0x00880000, .emc_auto_cal_config4 = 0x00880000, .emc_auto_cal_config5 = 0x00001220, .emc_auto_cal_config6 = 0x00880000, .emc_auto_cal_config7 = 0x00880000, .emc_auto_cal_config8 = 0x00880000, .emc_auto_cal_config9 = 0x00000000, .emc_auto_cal_vref_sel0 = 0xB3C5BCBC, .emc_auto_cal_vref_sel1 = 0x00009E3C, .emc_auto_cal_channel = 0xC1E00302, .emc_pmacro_auto_cal_cfg0 = 0x04040404, .emc_pmacro_auto_cal_cfg1 = 0x04040404, .emc_pmacro_auto_cal_cfg2 = 0x04040404, .emc_pmacro_rx_term = 0x3F3F3F3F, .emc_pmacro_dq_tx_drive = 0x3F3F3F3F, .emc_pmacro_ca_tx_drive = 0x3F3F3F3F, .emc_pmacro_cmd_tx_drive = 0x00001220, .emc_pmacro_auto_cal_common = 0x00000804, .emc_pmacro_zcrtl = 0x00505050, /* Specifies the time for the calibration to stabilize (in microseconds) */ .emc_auto_cal_wait = 0x000001A1, .emc_xm2_comp_pad_ctrl = 0x00000030, .emc_xm2_comp_pad_ctrl2 = 0x16001000, .emc_xm2_comp_pad_ctrl3 = 0x00901000, /* * DRAM size information * Specifies the value for EMC_ADR_CFG */ .emc_adr_cfg = 0x00000000, // 1 Rank. /* * Specifies the time to wait after asserting pin * CKE (in microseconds) */ .emc_pin_program_wait = 0x00000002, /* Specifies the extra delay before/after pin RESET/CKE command */ .emc_pin_extra_wait = 0x00000000, .emc_pin_gpio_enable = 0x00000003, .emc_pin_gpio = 0x00000003, /* Specifies the extra delay after the first writing of EMC_TIMING_CONTROL */ .emc_timing_control_wait = 0x0000001E, /* Timing parameters required for the SDRAM */ .emc_rc = 0x0000000D, .emc_rfc = 0x0000003A, .emc_rfc_pb = 0x0000001D, .emc_ref_ctrl2 = 0x00000000, .emc_rfc_slr = 0x00000000, .emc_ras = 0x00000009, .emc_rp = 0x00000004, .emc_r2r = 0x00000000, .emc_w2w = 0x00000000, .emc_r2w = 0x0000000B, .emc_w2r = 0x0000000D, .emc_r2p = 0x00000008, .emc_w2p = 0x0000000B, .emc_tppd = 0x00000004, .emc_trtm = 0x00000017, .emc_twtm = 0x00000015, .emc_tratm = 0x00000017, .emc_twatm = 0x0000001B, .emc_tr2ref = 0x00000000, .emc_ccdmw = 0x00000020, .emc_rd_rcd = 0x00000006, .emc_wr_rcd = 0x00000006, .emc_rrd = 0x00000006, .emc_rext = 0x00000003, .emc_wext = 0x00000000, .emc_wdv = 0x00000004, .emc_wdv_chk = 0x00000006, .emc_wsv = 0x00000002, .emc_wev = 0x00000000, .emc_wdv_mask = 0x00000004, .emc_ws_duration = 0x00000008, .emc_we_duration = 0x0000000E, .emc_quse = 0x00000005, .emc_quse_width = 0x00000006, .emc_ibdly = 0x00000000, .emc_obdly = 0x00000000, .emc_einput = 0x00000002, .emc_einput_duration = 0x0000000D, .emc_puterm_extra = 0x00000001, .emc_puterm_width = 0x80000000, .emc_qrst = 0x00010000, .emc_qsafe = 0x00000012, .emc_rdv = 0x00000018, .emc_rdv_mask = 0x0000001A, .emc_rdv_early = 0x00000016, .emc_rdv_early_mask = 0x00000018, .emc_qpop = 0x0000000A, .emc_refresh = 0x00000304, .emc_burst_refresh_num = 0x00000000, .emc_prerefresh_req_cnt = 0x000000C1, .emc_pdex2wr = 0x00000008, .emc_pdex2rd = 0x00000008, .emc_pchg2pden = 0x00000003, .emc_act2pden = 0x0000000A, .emc_ar2pden = 0x00000003, .emc_rw2pden = 0x00000014, .emc_cke2pden = 0x00000005, .emc_pdex2che = 0x00000002, .emc_pdex2mrr = 0x0000000D, .emc_txsr = 0x0000003B, .emc_txsr_dll = 0x0000003B, .emc_tcke = 0x00000005, .emc_tckesr = 0x00000005, .emc_tpd = 0x00000004, .emc_tfaw = 0x00000009, .emc_trpab = 0x00000005, .emc_tclkstable = 0x00000004, .emc_tclkstop = 0x00000009, .emc_trefbw = 0x0000031C, /* FBIO configuration values */ .emc_fbio_cfg5 = 0x9160A00D, .emc_fbio_cfg7 = 0x00003A3F, .emc_fbio_cfg8 = 0x0CF30000, /* Command mapping for CMD brick 0 */ .emc_cmd_mapping_cmd0_0 = 0x061B0504, .emc_cmd_mapping_cmd0_1 = 0x1C070302, .emc_cmd_mapping_cmd0_2 = 0x05252523, .emc_cmd_mapping_cmd1_0 = 0x0A091D08, .emc_cmd_mapping_cmd1_1 = 0x0D1E0B24, .emc_cmd_mapping_cmd1_2 = 0x0326260C, .emc_cmd_mapping_cmd2_0 = 0x231C1B02, .emc_cmd_mapping_cmd2_1 = 0x05070403, .emc_cmd_mapping_cmd2_2 = 0x02252506, .emc_cmd_mapping_cmd3_0 = 0x0D1D0B0A, .emc_cmd_mapping_cmd3_1 = 0x1E090C08, .emc_cmd_mapping_cmd3_2 = 0x08262624, .emc_cmd_mapping_byte = 0x9A070624, .emc_fbio_spare = 0x00000012, .emc_cfg_rsv = 0xFF00FF00, /* MRS command values */ .emc_mrs = 0x00000000, .emc_emrs = 0x00000000, .emc_emrs2 = 0x00000000, .emc_emrs3 = 0x00000000, .emc_mrw1 = 0x88010004, .emc_mrw2 = 0x88020000, .emc_mrw3 = 0x880D0000, .emc_mrw4 = 0xC0000000, .emc_mrw6 = 0x88033131, .emc_mrw8 = 0x880B0000, .emc_mrw9 = 0x8C0E5D5D, .emc_mrw10 = 0x880C5D5D, .emc_mrw12 = 0x8C0D0808, .emc_mrw13 = 0x8C0D0000, .emc_mrw14 = 0x88161616, .emc_mrw_extra = 0x88010004, .emc_warm_boot_mrw_extra = 0x08110000, .emc_warm_boot_extramode_reg_write_enable = 0x00000001, .emc_extramode_reg_write_enable = 0x00000000, .emc_mrw_reset_command = 0x00000000, .emc_mrw_reset_ninit_wait = 0x00000000, .emc_mrs_wait_cnt = 0x00CC0010, .emc_mrs_wait_cnt2 = 0x0033000A, /* EMC miscellaneous configurations */ .emc_cfg = 0xF3200000, .emc_cfg2 = 0x00110825, .emc_cfg_pipe = 0x0FFF0000, .emc_cfg_pipe_clk = 0x00000000, .emc_fdpd_ctrl_cmd_no_ramp = 0x00000001, .emc_cfg_update = 0x70000301, .emc_dbg = 0x01000C00, .emc_dbg_write_mux = 0x00000001, .emc_cmd_q = 0x10004408, .emc_mc2emc_q = 0x06000404, .emc_dyn_self_ref_control = 0x00000713, .ahb_arbitration_xbar_ctrl_meminit_done = 0x00000001, .emc_cfg_dig_dll = 0x002C00A0, .emc_cfg_dig_dll_1 = 0x000F3701, .emc_cfg_dig_dll_period = 0x00008000, .emc_dev_select = 0x00000002, // Rank 0 only. .emc_sel_dpd_ctrl = 0x0004000C, /* Pads trimmer delays */ .emc_fdpd_ctrl_dq = 0x8020221F, .emc_fdpd_ctrl_cmd = 0x0220F40F, .emc_pmacro_ib_vref_dq_0 = 0x29292929, .emc_pmacro_ib_vref_dq_1 = 0x29292929, .emc_pmacro_ib_vref_dqs_0 = 0x29292929, .emc_pmacro_ib_vref_dqs_1 = 0x29292929, .emc_pmacro_ib_rxrt = 0x00000078, .emc_cfg_pipe1 = 0x0FFF0000, .emc_cfg_pipe2 = 0x00000000, .emc_pmacro_quse_ddll_rank0_0 = 0x00000000, .emc_pmacro_quse_ddll_rank0_1 = 0x00000000, .emc_pmacro_quse_ddll_rank0_2 = 0x00000000, .emc_pmacro_quse_ddll_rank0_3 = 0x00000000, .emc_pmacro_quse_ddll_rank0_4 = 0x00000000, .emc_pmacro_quse_ddll_rank0_5 = 0x00000000, .emc_pmacro_quse_ddll_rank1_0 = 0x00000000, .emc_pmacro_quse_ddll_rank1_1 = 0x00000000, .emc_pmacro_quse_ddll_rank1_2 = 0x00000000, .emc_pmacro_quse_ddll_rank1_3 = 0x00000000, .emc_pmacro_quse_ddll_rank1_4 = 0x00000000, .emc_pmacro_quse_ddll_rank1_5 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank0_0 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank0_1 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank0_2 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank0_3 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank0_4 = 0x000D0016, .emc_pmacro_ob_ddll_long_dq_rank0_5 = 0x0017000B, .emc_pmacro_ob_ddll_long_dq_rank1_0 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank1_1 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank1_2 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank1_3 = 0x00000000, .emc_pmacro_ob_ddll_long_dq_rank1_4 = 0x000D0016, .emc_pmacro_ob_ddll_long_dq_rank1_5 = 0x0017000B, .emc_pmacro_ob_ddll_long_dqs_rank0_0 = 0x00450043, .emc_pmacro_ob_ddll_long_dqs_rank0_1 = 0x00430045, .emc_pmacro_ob_ddll_long_dqs_rank0_2 = 0x00470046, .emc_pmacro_ob_ddll_long_dqs_rank0_3 = 0x00460041, .emc_pmacro_ob_ddll_long_dqs_rank0_4 = 0x0003000C, .emc_pmacro_ob_ddll_long_dqs_rank0_5 = 0x000D0000, .emc_pmacro_ob_ddll_long_dqs_rank1_0 = 0x00450043, .emc_pmacro_ob_ddll_long_dqs_rank1_1 = 0x00430045, .emc_pmacro_ob_ddll_long_dqs_rank1_2 = 0x00470046, .emc_pmacro_ob_ddll_long_dqs_rank1_3 = 0x00460041, .emc_pmacro_ob_ddll_long_dqs_rank1_4 = 0x0003000C, .emc_pmacro_ob_ddll_long_dqs_rank1_5 = 0x000D0000, .emc_pmacro_ib_ddll_long_dqs_rank0_0 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank0_1 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank0_2 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank0_3 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank1_0 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank1_1 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank1_2 = 0x00280028, .emc_pmacro_ib_ddll_long_dqs_rank1_3 = 0x00280028, .emc_pmacro_ddll_long_cmd_0 = 0x00160016, .emc_pmacro_ddll_long_cmd_1 = 0x000D000D, .emc_pmacro_ddll_long_cmd_2 = 0x000B000B, .emc_pmacro_ddll_long_cmd_3 = 0x00170017, .emc_pmacro_ddll_long_cmd_4 = 0x00000016, .emc_pmacro_ddll_short_cmd_0 = 0x00000000, .emc_pmacro_ddll_short_cmd_1 = 0x00000000, .emc_pmacro_ddll_short_cmd_2 = 0x00000000, .emc_pmacro_ddll_periodic_offset = 0x00000000, /* * Specifies the delay after asserting CKE pin during a WarmBoot0 * sequence (in microseconds) */ .warm_boot_wait = 0x00000001, .emc_odt_write = 0x00000000, /* Periodic ZQ calibration */ /* * Specifies the value for EMC_ZCAL_INTERVAL * Value 0 disables ZQ calibration */ .emc_zcal_interval = 0x00064000, .emc_zcal_wait_cnt = 0x000900CC, .emc_zcal_mrw_cmd = 0x8051004F, /* DRAM initialization sequence flow control */ .emc_mrs_reset_dll = 0x00000000, .emc_zcal_init_dev0 = 0x80000001, .emc_zcal_init_dev1 = 0x00000000, /* * Specifies the wait time after programming a ZQ initialization * command (in microseconds) */ .emc_zcal_init_wait = 0x00000001, /* * Specifies the enable for ZQ calibration at cold boot [bit 0] * and warm boot [bit 1] */ .emc_zcal_warm_cold_boot_enables = 0x00000003, /* * Specifies the MRW command to LPDDR2 for ZQ calibration * on warmboot */ /* Is issued to both devices separately */ .emc_mrw_lpddr2zcal_warm_boot = 0x040A00AB, /* * Specifies the ZQ command to DDR3 for ZQ calibration on warmboot * Is issued to both devices separately */ .emc_zqcal_ddr3_warm_boot = 0x00000011, .emc_zqcal_lpddr4_warm_boot = 0x00000001, /* * Specifies the wait time for ZQ calibration on warmboot * (in microseconds) */ .emc_zcal_warm_boot_wait = 0x00000001, /* * Specifies the enable for DRAM Mode Register programming * at warm boot */ .emc_mrs_warm_boot_enable = 0x00000001, .emc_mrs_reset_dll_wait = 0x00000000, .emc_mrs_extra = 0x00000000, .emc_warm_boot_mrs_extra = 0x00000000, .emc_emrs_ddr2_dll_enable = 0x00000000, .emc_mrs_ddr2_dll_reset = 0x00000000, .emc_emrs_ddr2_ocd_calib = 0x00000000, /* * Specifies the wait between initializing DDR and setting OCD * calibration (in microseconds) */ .emc_ddr2_wait = 0x00000000, .emc_clken_override = 0x00000000, /* * Specifies LOG2 of the extra refresh numbers after booting * Program 0 to disable */ .emc_extra_refresh_num = 0x00000002, .emc_clken_override_allwarm_boot = 0x00000000, .mc_clken_override_allwarm_boot = 0x00000000, /* Specifies digital dll period, choosing between 4 to 64 ms */ .emc_cfg_dig_dll_period_warm_boot = 0x00000003, /* Pad controls */ .pmc_vddp_sel = 0x00000001, .pmc_vddp_sel_wait = 0x00000002, .pmc_ddr_cfg = 0x04220100, .pmc_io_dpd3_req = 0x4FAF9FFF, .pmc_io_dpd3_req_wait = 0x00000001, .pmc_io_dpd4_req_wait = 0x00000002, .pmc_reg_short = 0x00000000, .pmc_no_io_power = 0x00000000, .pmc_ddr_ctrl_wait = 0x00000000, .pmc_ddr_ctrl = 0x0037FF9F, .emc_acpd_control = 0x00000000, .emc_swizzle_rank0_byte0 = 0x76543201, .emc_swizzle_rank0_byte1 = 0x65324710, .emc_swizzle_rank0_byte2 = 0x25763410, .emc_swizzle_rank0_byte3 = 0x25673401, .emc_swizzle_rank1_byte0 = 0x32647501, .emc_swizzle_rank1_byte1 = 0x34567201, .emc_swizzle_rank1_byte2 = 0x56742310, .emc_swizzle_rank1_byte3 = 0x67324501, .emc_txdsrvttgen = 0x00000000, .emc_data_brlshft0 = 0x00249249, .emc_data_brlshft1 = 0x00249249, .emc_dqs_brlshft0 = 0x00000000, .emc_dqs_brlshft1 = 0x00000000, .emc_cmd_brlshft0 = 0x00000000, .emc_cmd_brlshft1 = 0x00000000, .emc_cmd_brlshft2 = 0x00000012, .emc_cmd_brlshft3 = 0x00000012, .emc_quse_brlshft0 = 0x00000000, .emc_quse_brlshft1 = 0x00000000, .emc_quse_brlshft2 = 0x00000000, .emc_quse_brlshft3 = 0x00000000, .emc_dll_cfg0 = 0x1F134120, .emc_dll_cfg1 = 0x00010014, .emc_pmc_scratch1 = 0x4FAF9FFF, .emc_pmc_scratch2 = 0x7FFFFFFF, .emc_pmc_scratch3 = 0x4036D71F, .emc_pmacro_pad_cfg_ctrl = 0x00000000, .emc_pmacro_vttgen_ctrl0 = 0x00090000, .emc_pmacro_vttgen_ctrl1 = 0x00103400, .emc_pmacro_vttgen_ctrl2 = 0x00000000, .emc_pmacro_dsr_vttgen_ctrl0 = 0x00000009, .emc_pmacro_brick_ctrl_rfu1 = 0x00000000, .emc_pmacro_cmd_brick_ctrl_fdpd = 0x00000000, .emc_pmacro_brick_ctrl_rfu2 = 0x00000000, .emc_pmacro_data_brick_ctrl_fdpd = 0x00000000, .emc_pmacro_bg_bias_ctrl0 = 0x00000000, .emc_pmacro_data_pad_rx_ctrl = 0x05050003, .emc_pmacro_cmd_pad_rx_ctrl = 0x05000000, .emc_pmacro_data_rx_term_mode = 0x00000210, .emc_pmacro_cmd_rx_term_mode = 0x00002000, .emc_pmacro_data_pad_tx_ctrl = 0x00000421, .emc_pmacro_cmd_pad_tx_ctrl = 0x00000000, .emc_cfg3 = 0x00000040, .emc_pmacro_tx_pwrd0 = 0x10000000, .emc_pmacro_tx_pwrd1 = 0x00000000, .emc_pmacro_tx_pwrd2 = 0x00000000, .emc_pmacro_tx_pwrd3 = 0x00000000, .emc_pmacro_tx_pwrd4 = 0x00400080, .emc_pmacro_tx_pwrd5 = 0x00801004, .emc_config_sample_delay = 0x00000020, .emc_pmacro_brick_mapping0 = 0x28091081, .emc_pmacro_brick_mapping1 = 0x44A53293, .emc_pmacro_brick_mapping2 = 0x76678A5B, .emc_pmacro_tx_sel_clk_src0 = 0x00000000, .emc_pmacro_tx_sel_clk_src1 = 0x00000000, .emc_pmacro_tx_sel_clk_src2 = 0x00000000, .emc_pmacro_tx_sel_clk_src3 = 0x00000000, .emc_pmacro_tx_sel_clk_src4 = 0x00000000, .emc_pmacro_tx_sel_clk_src5 = 0x00000000, .emc_pmacro_perbit_fgcg_ctrl0 = 0x00000000, .emc_pmacro_perbit_fgcg_ctrl1 = 0x00000000, .emc_pmacro_perbit_fgcg_ctrl2 = 0x00000000, .emc_pmacro_perbit_fgcg_ctrl3 = 0x00000000, .emc_pmacro_perbit_fgcg_ctrl4 = 0x00000000, .emc_pmacro_perbit_fgcg_ctrl5 = 0x00000000, .emc_pmacro_perbit_rfu_ctrl0 = 0x00000000, .emc_pmacro_perbit_rfu_ctrl1 = 0x00000000, .emc_pmacro_perbit_rfu_ctrl2 = 0x00000000, .emc_pmacro_perbit_rfu_ctrl3 = 0x00000000, .emc_pmacro_perbit_rfu_ctrl4 = 0x00000000, .emc_pmacro_perbit_rfu_ctrl5 = 0x00000000, .emc_pmacro_perbit_rfu1_ctrl0 = 0x00000000, .emc_pmacro_perbit_rfu1_ctrl1 = 0x00000000, .emc_pmacro_perbit_rfu1_ctrl2 = 0x00000000, .emc_pmacro_perbit_rfu1_ctrl3 = 0x00000000, .emc_pmacro_perbit_rfu1_ctrl4 = 0x00000000, .emc_pmacro_perbit_rfu1_ctrl5 = 0x00000000, .emc_pmacro_data_pi_ctrl = 0x00001010, .emc_pmacro_cmd_pi_ctrl = 0x00001010, .emc_pmacro_ddll_bypass = 0xEF00EF00, .emc_pmacro_ddll_pwrd0 = 0x00000000, .emc_pmacro_ddll_pwrd1 = 0x00000000, .emc_pmacro_ddll_pwrd2 = 0x1C1C1C1C, .emc_pmacro_cmd_ctrl0 = 0x00000000, .emc_pmacro_cmd_ctrl1 = 0x00000000, .emc_pmacro_cmd_ctrl2 = 0x00000000, /* DRAM size information */ .mc_emem_adr_cfg = 0x00000000, // 1 Rank. .mc_emem_adr_cfg_dev0 = 0x00080302, // Chip 0 Density 1024MB. .mc_emem_adr_cfg_dev1 = 0x00080302, // Chip 1 Density 1024MB. .mc_emem_adr_cfg_channel_mask = 0xFFFF2400, .mc_emem_adr_cfg_bank_mask0 = 0x6E574400, .mc_emem_adr_cfg_bank_mask1 = 0x39722800, .mc_emem_adr_cfg_bank_mask2 = 0x4B9C1000, /* * Specifies the value for MC_EMEM_CFG which holds the external memory * size (in MBytes) */ .mc_emem_cfg = 0x00001000, // 4GB total density. Max 8GB. /* MC arbitration configuration */ .mc_emem_arb_cfg = 0x08000001, .mc_emem_arb_outstanding_req = 0x8000004C, .emc_emem_arb_refpb_hp_ctrl = 0x000A1020, .emc_emem_arb_refpb_bank_ctrl = 0x80001028, .mc_emem_arb_timing_rcd = 0x00000001, .mc_emem_arb_timing_rp = 0x00000000, .mc_emem_arb_timing_rc = 0x00000003, .mc_emem_arb_timing_ras = 0x00000001, .mc_emem_arb_timing_faw = 0x00000002, .mc_emem_arb_timing_rrd = 0x00000001, .mc_emem_arb_timing_rap2pre = 0x00000002, .mc_emem_arb_timing_wap2pre = 0x00000005, .mc_emem_arb_timing_r2r = 0x00000001, .mc_emem_arb_timing_w2w = 0x00000001, .mc_emem_arb_timing_r2w = 0x00000004, .mc_emem_arb_timing_w2r = 0x00000005, .mc_emem_arb_timing_rfcpb = 0x00000007, .mc_emem_arb_da_turns = 0x02020000, .mc_emem_arb_da_covers = 0x00030201, .mc_emem_arb_misc0 = 0x72A30504, .mc_emem_arb_misc1 = 0x70000F0F, .mc_emem_arb_misc2 = 0x00000000, .mc_emem_arb_ring1_throttle = 0x001F0000, .mc_emem_arb_override = 0x10000000, .mc_emem_arb_override1 = 0x00000000, .mc_emem_arb_rsv = 0xFF00FF00, .mc_da_cfg0 = 0x00000001, .mc_emem_arb_timing_ccdmw = 0x00000008, .mc_clken_override = 0x00008000, .mc_stat_control = 0x00000000, .mc_video_protect_bom = 0xFFF00000, .mc_video_protect_bom_adr_hi = 0x00000000, .mc_video_protect_size_mb = 0x00000000, // Disable access: // AFI (PCIE), BPMP, HC (HOST1x), ISP2, CCPLEX, PPCS (AHB), SATA, VI, XUSB_HOST, XUSB_DEV, ADSP, PPCS1 (AHB), DC1 (WinT), SDMMC1/2/3. Plus TSEC, NVENC. // Enable access: // DC, DCB, HDA, VIC. .mc_video_protect_vpr_override = 0xE4FACB43, // Stock/Reset: 0xE4BAC343. HOS new: 0xE4FACB43. + TSEC, NVENC. // Disable access: // SDMMC4, ISP2B, PPCS2 (AHB), APE, SE, HC1, SE1, AXIAP, ETR, SE2, SE2B. Plus TSECB, TSEC1, TSECB1. // Enable access: // GPU, GPUB, NVDEC, NVJPG, NVDEC1. .mc_video_protect_vpr_override1 = 0x0600FED3, // Reset: 0x06001ED3. HOS new: 0x0600FED3. + TSECB, TSEC1, TSECB1. // VPR CYA. L4T override (set PD, SCC, SKED, L1 as UNTRUSTED). .mc_video_protect_gpu_override0 = VPR_OVR0_CYA_TRUST_GCC(VPR_TRUST_GRAPHICS) | VPR_OVR0_CYA_TRUST_RASTER(VPR_TRUST_GRAPHICS) | VPR_OVR0_CYA_TRUST_PE(VPR_TRUST_GRAPHICS) | VPR_OVR0_CYA_TRUST_TEX(VPR_TRUST_GRAPHICS) | VPR_OVR0_CYA_TRUST_OVERRIDE, // Stock: 0. HOS: VPR_OVR0_CYA_TRUST_DEFAULT. .mc_video_protect_gpu_override1 = VPR_OVR1_CYA_TRUST_PROP(VPR_TRUST_GRAPHICS), // Stock: 0. HOS: 0. /* TZDRAM carveout configuration */ .mc_sec_carveout_bom = 0xFFF00000, .mc_sec_carveout_adr_hi = 0x00000000, .mc_sec_carveout_size_mb = 0x00000000, .mc_video_protect_write_access = 0x00000000, .mc_sec_carveout_protect_write_access = 0x00000000, .mc_generalized_carveout1_bom = 0x00000000, .mc_generalized_carveout1_bom_hi = 0x00000000, .mc_generalized_carveout1_size_128kb = 0x00000008, .mc_generalized_carveout1_access0 = 0x00000000, .mc_generalized_carveout1_access1 = 0x00000000, .mc_generalized_carveout1_access2 = 0x00300000, .mc_generalized_carveout1_access3 = 0x03000000, .mc_generalized_carveout1_access4 = 0x00000000, .mc_generalized_carveout1_force_internal_access0 = 0x00000000, .mc_generalized_carveout1_force_internal_access1 = 0x00000000, .mc_generalized_carveout1_force_internal_access2 = 0x00000000, .mc_generalized_carveout1_force_internal_access3 = 0x00000000, .mc_generalized_carveout1_force_internal_access4 = 0x00000000, .mc_generalized_carveout1_cfg0 = 0x04000C76, .mc_generalized_carveout2_bom = 0x00000000, .mc_generalized_carveout2_bom_hi = 0x00000000, .mc_generalized_carveout2_size_128kb = 0x00000002, .mc_generalized_carveout2_access0 = 0x00000000, .mc_generalized_carveout2_access1 = 0x00000000, .mc_generalized_carveout2_access2 = 0x03000000, .mc_generalized_carveout2_access3 = 0x00000000, .mc_generalized_carveout2_access4 = 0x00000300, .mc_generalized_carveout2_force_internal_access0 = 0x00000000, .mc_generalized_carveout2_force_internal_access1 = 0x00000000, .mc_generalized_carveout2_force_internal_access2 = 0x00000000, .mc_generalized_carveout2_force_internal_access3 = 0x00000000, .mc_generalized_carveout2_force_internal_access4 = 0x00000000, .mc_generalized_carveout2_cfg0 = 0x0440167E, .mc_generalized_carveout3_bom = 0x00000000, .mc_generalized_carveout3_bom_hi = 0x00000000, .mc_generalized_carveout3_size_128kb = 0x00000000, .mc_generalized_carveout3_access0 = 0x00000000, .mc_generalized_carveout3_access1 = 0x00000000, .mc_generalized_carveout3_access2 = 0x03000000, .mc_generalized_carveout3_access3 = 0x00000000, .mc_generalized_carveout3_access4 = 0x00000300, .mc_generalized_carveout3_force_internal_access0 = 0x00000000, .mc_generalized_carveout3_force_internal_access1 = 0x00000000, .mc_generalized_carveout3_force_internal_access2 = 0x00000000, .mc_generalized_carveout3_force_internal_access3 = 0x00000000, .mc_generalized_carveout3_force_internal_access4 = 0x00000000, .mc_generalized_carveout3_cfg0 = 0x04401E7E, .mc_generalized_carveout4_bom = 0x00000000, .mc_generalized_carveout4_bom_hi = 0x00000000, .mc_generalized_carveout4_size_128kb = 0x00000008, .mc_generalized_carveout4_access0 = 0x00000000, .mc_generalized_carveout4_access1 = 0x00000000, .mc_generalized_carveout4_access2 = 0x00300000, .mc_generalized_carveout4_access3 = 0x00000000, .mc_generalized_carveout4_access4 = 0x000000C0, .mc_generalized_carveout4_force_internal_access0 = 0x00000000, .mc_generalized_carveout4_force_internal_access1 = 0x00000000, .mc_generalized_carveout4_force_internal_access2 = 0x00000000, .mc_generalized_carveout4_force_internal_access3 = 0x00000000, .mc_generalized_carveout4_force_internal_access4 = 0x00000000, .mc_generalized_carveout4_cfg0 = 0x04002446, .mc_generalized_carveout5_bom = 0x00000000, .mc_generalized_carveout5_bom_hi = 0x00000000, .mc_generalized_carveout5_size_128kb = 0x00000008, .mc_generalized_carveout5_access0 = 0x00000000, .mc_generalized_carveout5_access1 = 0x00000000, .mc_generalized_carveout5_access2 = 0x00300000, .mc_generalized_carveout5_access3 = 0x00000000, .mc_generalized_carveout5_access4 = 0x00000000, .mc_generalized_carveout5_force_internal_access0 = 0x00000000, .mc_generalized_carveout5_force_internal_access1 = 0x00000000, .mc_generalized_carveout5_force_internal_access2 = 0x00000000, .mc_generalized_carveout5_force_internal_access3 = 0x00000000, .mc_generalized_carveout5_force_internal_access4 = 0x00000000, .mc_generalized_carveout5_cfg0 = 0x04002C46, /* Specifies enable for CA training */ .emc_ca_training_enable = 0x00000000, /* Set if bit 6 select is greater than bit 7 select; uses aremc.spec packet SWIZZLE_BIT6_GT_BIT7 */ .swizzle_rank_byte_encode = 0x000000EC, /* Specifies enable and offset for patched boot rom write */ .boot_rom_patch_control = 0x00000000, /* Specifies data for patched boot rom write */ .boot_rom_patch_data = 0x00000000, .mc_mts_carveout_bom = 0xFFF00000, .mc_mts_carveout_adr_hi = 0x00000000, .mc_mts_carveout_size_mb = 0x00000000, .mc_mts_carveout_reg_ctrl = 0x00000000, /* Specifies the untranslated memory access control */ .mc_untranslated_region_check = 0x00000000, /* Just a place holder for special usage when there is no BCT for certain registers */ .bct_na = 0x00000000, }; #define DRAM_CC_LPDDR4X_PMACRO_IB (DRAM_CC(LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ)) #define DRAM_CC_LPDDR4X_PUPD_VPR (DRAM_CC(LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ) | \ DRAM_CC(LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE) | \ DRAM_CC(LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL) | \ DRAM_CC(LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL) | \ DRAM_CC(LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF) | \ DRAM_CC(LPDDR4X_4GB_HYNIX_H9HCNNNBKMMLXR_NEE) | \ DRAM_CC(LPDDR4X_4GB_HYNIX_H54G46CYRBX267) | \ DRAM_CC(LPDDR4X_4GB_MICRON_MT53E512M32D1NP_046_WTB) | \ DRAM_CC(LPDDR4X_4GB_SAMSUNG_K4U6E3S4AB_MGCL)) #define DRAM_CC_LPDDR4X_DSR (DRAM_CC(LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTE) | \ DRAM_CC(LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL) | \ DRAM_CC(LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF) | \ DRAM_CC(LPDDR4X_4GB_HYNIX_H9HCNNNBKMMLXR_NEE) | \ DRAM_CC(LPDDR4X_4GB_HYNIX_H54G46CYRBX267) | \ DRAM_CC(LPDDR4X_4GB_MICRON_MT53E512M32D1NP_046_WTB) | \ DRAM_CC(LPDDR4X_4GB_SAMSUNG_K4U6E3S4AB_MGCL)) #define DRAM_CC_LPDDR4X_QUSE (DRAM_CC(LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ) | \ DRAM_CC(LPDDR4X_4GB_SAMSUNG_K4U6E3S4AA_MGCL) | \ DRAM_CC(LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL) | \ DRAM_CC(LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF) | \ DRAM_CC(LPDDR4X_4GB_HYNIX_H9HCNNNBKMMLXR_NEE) | \ DRAM_CC(LPDDR4X_4GB_HYNIX_H54G46CYRBX267) | \ DRAM_CC(LPDDR4X_4GB_MICRON_MT53E512M32D1NP_046_WTB) | \ DRAM_CC(LPDDR4X_4GB_SAMSUNG_K4U6E3S4AB_MGCL)) #define DRAM_CC_LPDDR4X_FAW (DRAM_CC(LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL) | \ DRAM_CC(LPDDR4X_4GB_MICRON_MT53E512M32D2NP_046_WTF) | \ DRAM_CC(LPDDR4X_4GB_HYNIX_H9HCNNNBKMMLXR_NEE) | \ DRAM_CC(LPDDR4X_4GB_MICRON_MT53E512M32D1NP_046_WTB)) #define DRAM_CC_LPDDR4X_VPR (DRAM_CC(LPDDR4X_4GB_HYNIX_H9HCNNNBKMMLXR_NEE) | \ DRAM_CC(LPDDR4X_4GB_HYNIX_H54G46CYRBX267) | \ DRAM_CC(LPDDR4X_4GB_MICRON_MT53E512M32D1NP_046_WTB) | \ DRAM_CC(LPDDR4X_4GB_SAMSUNG_K4U6E3S4AB_MGCL)) #define DRAM_CC_LPDDR4X_8GB (DRAM_CC(LPDDR4X_8GB_SAMSUNG_K4UBE3D4AM_MGCJ) | \ DRAM_CC(LPDDR4X_8GB_SAMSUNG_K4UBE3D4AA_MGCL)) #define DCFG_OFFSET_OF(m) (OFFSET_OF(sdram_params_t210b01_t, m) / 4) static const sdram_vendor_patch_t sdram_cfg_vendor_patches_t210b01[] = { // Samsung LPDDR4X 8GB K4UBE3D4AM-MGCJ Die-M for SDEV Iowa and Hoag. { 0x35353535, DRAM_CC_LPDDR4X_PMACRO_IB, DCFG_OFFSET_OF(emc_pmacro_ib_vref_dq_0) }, { 0x35353535, DRAM_CC_LPDDR4X_PMACRO_IB, DCFG_OFFSET_OF(emc_pmacro_ib_vref_dq_1) }, { 0x00100010, DRAM_CC_LPDDR4X_PMACRO_IB, DCFG_OFFSET_OF(emc_pmacro_ib_ddll_long_dqs_rank0_0) }, { 0x00100010, DRAM_CC_LPDDR4X_PMACRO_IB, DCFG_OFFSET_OF(emc_pmacro_ib_ddll_long_dqs_rank0_1) }, { 0x00100010, DRAM_CC_LPDDR4X_PMACRO_IB, DCFG_OFFSET_OF(emc_pmacro_ib_ddll_long_dqs_rank0_2) }, { 0x00100010, DRAM_CC_LPDDR4X_PMACRO_IB, DCFG_OFFSET_OF(emc_pmacro_ib_ddll_long_dqs_rank0_3) }, { 0x00100010, DRAM_CC_LPDDR4X_PMACRO_IB, DCFG_OFFSET_OF(emc_pmacro_ib_ddll_long_dqs_rank1_0) }, { 0x00100010, DRAM_CC_LPDDR4X_PMACRO_IB, DCFG_OFFSET_OF(emc_pmacro_ib_ddll_long_dqs_rank1_1) }, { 0x00100010, DRAM_CC_LPDDR4X_PMACRO_IB, DCFG_OFFSET_OF(emc_pmacro_ib_ddll_long_dqs_rank1_2) }, { 0x00100010, DRAM_CC_LPDDR4X_PMACRO_IB, DCFG_OFFSET_OF(emc_pmacro_ib_ddll_long_dqs_rank1_3) }, /*! Shared patched between DRAM Codes. */ { 0x05500000, DRAM_CC_LPDDR4X_PUPD_VPR, DCFG_OFFSET_OF(emc_auto_cal_config2) }, { 0xC9AFBCBC, DRAM_CC_LPDDR4X_PUPD_VPR, DCFG_OFFSET_OF(emc_auto_cal_vref_sel0) }, // Moved to default config. // { 0x2A800000, DRAM_CC_LPDDR4X_PUPD_VPR, DCFG_OFFSET_OF(mc_video_protect_gpu_override0) }, // { 0x00000002, DRAM_CC_LPDDR4X_PUPD_VPR, DCFG_OFFSET_OF(mc_video_protect_gpu_override1) }, { 0x88161414, DRAM_CC_LPDDR4X_DSR, DCFG_OFFSET_OF(emc_mrw14) }, { 0x80000713, DRAM_CC_LPDDR4X_DSR, DCFG_OFFSET_OF(emc_dyn_self_ref_control) }, { 0x00000006, DRAM_CC_LPDDR4X_QUSE, DCFG_OFFSET_OF(emc_quse) }, { 0x00000005, DRAM_CC_LPDDR4X_QUSE, DCFG_OFFSET_OF(emc_quse_width) }, { 0x00000003, DRAM_CC_LPDDR4X_QUSE, DCFG_OFFSET_OF(emc_einput) }, { 0x0000000C, DRAM_CC_LPDDR4X_QUSE, DCFG_OFFSET_OF(emc_einput_duration) }, { 0x00000008, DRAM_CC_LPDDR4X_FAW, DCFG_OFFSET_OF(emc_tfaw) }, { 0x00000001, DRAM_CC_LPDDR4X_FAW, DCFG_OFFSET_OF(mc_emem_arb_timing_faw) }, // Moved to default config. // { 0xE4FACB43, DRAM_CC_LPDDR4X_VPR, DCFG_OFFSET_OF(mc_video_protect_vpr_override) }, // + TSEC, NVENC. // { 0x0600FED3, DRAM_CC_LPDDR4X_VPR, DCFG_OFFSET_OF(mc_video_protect_vpr_override1) }, // + TSECB, TSEC1, TSECB1. { 0x00000001, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_adr_cfg) }, // 2 Ranks. { 0x08010004, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_mrw1) }, { 0x08020000, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_mrw2) }, { 0x080D0000, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_mrw3) }, { 0x08033131, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_mrw6) }, { 0x080B0000, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_mrw8) }, { 0x0C0E5D5D, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_mrw9) }, { 0x080C5D5D, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_mrw10) }, { 0x0C0D0808, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_mrw12) }, { 0x0C0D0000, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_mrw13) }, { 0x08161414, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_mrw14) }, { 0x08010004, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_mrw_extra) }, { 0x00000000, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_dev_select) }, // Both devices. { 0x0051004F, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_zcal_mrw_cmd) }, { 0x40000001, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_zcal_init_dev1) }, { 0x00000000, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_pmacro_tx_pwrd4) }, { 0x00001000, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(emc_pmacro_tx_pwrd5) }, { 0x00000001, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(mc_emem_adr_cfg) }, // 2 Ranks. { 0x00002000, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(mc_emem_cfg) }, // 8GB total density. Max 8GB. { 0x00000002, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(mc_emem_arb_timing_r2r) }, { 0x02020001, DRAM_CC_LPDDR4X_8GB, DCFG_OFFSET_OF(mc_emem_arb_da_turns) }, }; #undef DCFG_OFFSET_OF ================================================ FILE: bdk/mem/sdram_param_t210.h ================================================ /* * Copyright (c) 2015, NVIDIA CORPORATION. All rights reserved. * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * * See file CREDITS for list of people who contributed to this * project. */ /** * Defines the SDRAM parameter structure. * * Note that PLLM is used by EMC. */ #ifndef _SDRAM_PARAM_T210_H_ #define _SDRAM_PARAM_T210_H_ #define MEMORY_TYPE_NONE 0 #define MEMORY_TYPE_DDR 0 #define MEMORY_TYPE_LPDDR 0 #define MEMORY_TYPE_DDR2 0 #define MEMORY_TYPE_LPDDR2 1 #define MEMORY_TYPE_DDR3L 2 #define MEMORY_TYPE_LPDDR4 3 /** * Defines the SDRAM parameter structure */ typedef struct _sdram_params_t210_t { /* Specifies the type of memory device */ u32 memory_type; /* MC/EMC clock source configuration */ /* Specifies the M value for PllM */ u32 pllm_input_divider; /* Specifies the N value for PllM */ u32 pllm_feedback_divider; /* Specifies the time to wait for PLLM to lock (in microseconds) */ u32 pllm_stable_time; /* Specifies misc. control bits */ u32 pllm_setup_control; /* Specifies the P value for PLLM */ u32 pllm_post_divider; /* Specifies value for Charge Pump Gain Control */ u32 pllm_kcp; /* Specifies VCO gain */ u32 pllm_kvco; /* Spare BCT param */ u32 emc_bct_spare0; /* Spare BCT param */ u32 emc_bct_spare1; /* Spare BCT param */ u32 emc_bct_spare2; /* Spare BCT param */ u32 emc_bct_spare3; /* Spare BCT param */ u32 emc_bct_spare4; /* Spare BCT param */ u32 emc_bct_spare5; /* Spare BCT param */ u32 emc_bct_spare6; /* Spare BCT param */ u32 emc_bct_spare7; /* Spare BCT param */ u32 emc_bct_spare8; /* Spare BCT param */ u32 emc_bct_spare9; /* Spare BCT param */ u32 emc_bct_spare10; /* Spare BCT param */ u32 emc_bct_spare11; /* Spare BCT param */ u32 emc_bct_spare12; /* Spare BCT param */ u32 emc_bct_spare13; /* Defines EMC_2X_CLK_SRC, EMC_2X_CLK_DIVISOR, EMC_INVERT_DCD */ u32 emc_clock_source; u32 emc_clock_source_dll; /* Defines possible override for PLLLM_MISC2 */ u32 clk_rst_pllm_misc20_override; /* enables override for PLLLM_MISC2 */ u32 clk_rst_pllm_misc20_override_enable; /* defines CLK_ENB_MC1 in register clk_rst_controller_clk_enb_w_clr */ u32 clear_clock2_mc1; /* Auto-calibration of EMC pads */ /* Specifies the value for EMC_AUTO_CAL_INTERVAL */ u32 emc_auto_cal_interval; /* * Specifies the value for EMC_AUTO_CAL_CONFIG * Note: Trigger bits are set by the SDRAM code. */ u32 emc_auto_cal_config; /* Specifies the value for EMC_AUTO_CAL_CONFIG2 */ u32 emc_auto_cal_config2; /* Specifies the value for EMC_AUTO_CAL_CONFIG3 */ u32 emc_auto_cal_config3; u32 emc_auto_cal_config4; u32 emc_auto_cal_config5; u32 emc_auto_cal_config6; u32 emc_auto_cal_config7; u32 emc_auto_cal_config8; /* Specifies the value for EMC_AUTO_CAL_VREF_SEL_0 */ u32 emc_auto_cal_vref_sel0; u32 emc_auto_cal_vref_sel1; /* Specifies the value for EMC_AUTO_CAL_CHANNEL */ u32 emc_auto_cal_channel; /* Specifies the value for EMC_PMACRO_AUTOCAL_CFG_0 */ u32 emc_pmacro_auto_cal_cfg0; u32 emc_pmacro_auto_cal_cfg1; u32 emc_pmacro_auto_cal_cfg2; u32 emc_pmacro_rx_term; u32 emc_pmacro_dq_tx_drive; u32 emc_pmacro_ca_tx_drive; u32 emc_pmacro_cmd_tx_drive; u32 emc_pmacro_auto_cal_common; u32 emc_pmacro_zcrtl; /* * Specifies the time for the calibration * to stabilize (in microseconds) */ u32 emc_auto_cal_wait; u32 emc_xm2_comp_pad_ctrl; u32 emc_xm2_comp_pad_ctrl2; u32 emc_xm2_comp_pad_ctrl3; /* * DRAM size information * Specifies the value for EMC_ADR_CFG */ u32 emc_adr_cfg; /* * Specifies the time to wait after asserting pin * CKE (in microseconds) */ u32 emc_pin_program_wait; /* Specifies the extra delay before/after pin RESET/CKE command */ u32 emc_pin_extra_wait; u32 emc_pin_gpio_enable; u32 emc_pin_gpio; /* * Specifies the extra delay after the first writing * of EMC_TIMING_CONTROL */ u32 emc_timing_control_wait; /* Timing parameters required for the SDRAM */ /* Specifies the value for EMC_RC */ u32 emc_rc; /* Specifies the value for EMC_RFC */ u32 emc_rfc; u32 emc_rfc_pb; u32 emc_ref_ctrl2; /* Specifies the value for EMC_RFC_SLR */ u32 emc_rfc_slr; /* Specifies the value for EMC_RAS */ u32 emc_ras; /* Specifies the value for EMC_RP */ u32 emc_rp; /* Specifies the value for EMC_R2R */ u32 emc_r2r; /* Specifies the value for EMC_W2W */ u32 emc_w2w; /* Specifies the value for EMC_R2W */ u32 emc_r2w; /* Specifies the value for EMC_W2R */ u32 emc_w2r; /* Specifies the value for EMC_R2P */ u32 emc_r2p; /* Specifies the value for EMC_W2P */ u32 emc_w2p; /* Specifies the value for EMC_RD_RCD */ u32 emc_tppd; u32 emc_ccdmw; u32 emc_rd_rcd; /* Specifies the value for EMC_WR_RCD */ u32 emc_wr_rcd; /* Specifies the value for EMC_RRD */ u32 emc_rrd; /* Specifies the value for EMC_REXT */ u32 emc_rext; /* Specifies the value for EMC_WEXT */ u32 emc_wext; /* Specifies the value for EMC_WDV */ u32 emc_wdv; u32 emc_wdv_chk; u32 emc_wsv; u32 emc_wev; /* Specifies the value for EMC_WDV_MASK */ u32 emc_wdv_mask; u32 emc_ws_duration; u32 emc_we_duration; /* Specifies the value for EMC_QUSE */ u32 emc_quse; /* Specifies the value for EMC_QUSE_WIDTH */ u32 emc_quse_width; /* Specifies the value for EMC_IBDLY */ u32 emc_ibdly; u32 emc_obdly; /* Specifies the value for EMC_EINPUT */ u32 emc_einput; /* Specifies the value for EMC_EINPUT_DURATION */ u32 emc_einput_duration; /* Specifies the value for EMC_PUTERM_EXTRA */ u32 emc_puterm_extra; /* Specifies the value for EMC_PUTERM_WIDTH */ u32 emc_puterm_width; u32 emc_qrst; u32 emc_qsafe; u32 emc_rdv; u32 emc_rdv_mask; u32 emc_rdv_early; u32 emc_rdv_early_mask; /* Specifies the value for EMC_QPOP */ u32 emc_qpop; /* Specifies the value for EMC_REFRESH */ u32 emc_refresh; /* Specifies the value for EMC_BURST_REFRESH_NUM */ u32 emc_burst_refresh_num; /* Specifies the value for EMC_PRE_REFRESH_REQ_CNT */ u32 emc_prerefresh_req_cnt; /* Specifies the value for EMC_PDEX2WR */ u32 emc_pdex2wr; /* Specifies the value for EMC_PDEX2RD */ u32 emc_pdex2rd; /* Specifies the value for EMC_PCHG2PDEN */ u32 emc_pchg2pden; /* Specifies the value for EMC_ACT2PDEN */ u32 emc_act2pden; /* Specifies the value for EMC_AR2PDEN */ u32 emc_ar2pden; /* Specifies the value for EMC_RW2PDEN */ u32 emc_rw2pden; u32 emc_cke2pden; u32 emc_pdex2che; u32 emc_pdex2mrr; /* Specifies the value for EMC_TXSR */ u32 emc_txsr; /* Specifies the value for EMC_TXSRDLL */ u32 emc_txsr_dll; /* Specifies the value for EMC_TCKE */ u32 emc_tcke; /* Specifies the value for EMC_TCKESR */ u32 emc_tckesr; /* Specifies the value for EMC_TPD */ u32 emc_tpd; /* Specifies the value for EMC_TFAW */ u32 emc_tfaw; /* Specifies the value for EMC_TRPAB */ u32 emc_trpab; /* Specifies the value for EMC_TCLKSTABLE */ u32 emc_tclkstable; /* Specifies the value for EMC_TCLKSTOP */ u32 emc_tclkstop; /* Specifies the value for EMC_TREFBW */ u32 emc_trefbw; /* FBIO configuration values */ /* Specifies the value for EMC_FBIO_CFG5 */ u32 emc_fbio_cfg5; /* Specifies the value for EMC_FBIO_CFG7 */ u32 emc_fbio_cfg7; u32 emc_fbio_cfg8; /* Command mapping for CMD brick 0 */ u32 emc_cmd_mapping_cmd0_0; u32 emc_cmd_mapping_cmd0_1; u32 emc_cmd_mapping_cmd0_2; u32 emc_cmd_mapping_cmd1_0; u32 emc_cmd_mapping_cmd1_1; u32 emc_cmd_mapping_cmd1_2; u32 emc_cmd_mapping_cmd2_0; u32 emc_cmd_mapping_cmd2_1; u32 emc_cmd_mapping_cmd2_2; u32 emc_cmd_mapping_cmd3_0; u32 emc_cmd_mapping_cmd3_1; u32 emc_cmd_mapping_cmd3_2; u32 emc_cmd_mapping_byte; /* Specifies the value for EMC_FBIO_SPARE */ u32 emc_fbio_spare; /* Specifies the value for EMC_CFG_RSV */ u32 emc_cfg_rsv; /* MRS command values */ /* Specifies the value for EMC_MRS */ u32 emc_mrs; /* Specifies the MP0 command to initialize mode registers */ u32 emc_emrs; /* Specifies the MP2 command to initialize mode registers */ u32 emc_emrs2; /* Specifies the MP3 command to initialize mode registers */ u32 emc_emrs3; /* Specifies the programming to LPDDR2 Mode Register 1 at cold boot */ u32 emc_mrw1; /* Specifies the programming to LPDDR2 Mode Register 2 at cold boot */ u32 emc_mrw2; /* Specifies the programming to LPDDR2 Mode Register 3 at cold boot */ u32 emc_mrw3; /* Specifies the programming to LPDDR2 Mode Register 11 at cold boot */ u32 emc_mrw4; /* Specifies the programming to LPDDR4 Mode Register 3 at cold boot */ u32 emc_mrw6; /* Specifies the programming to LPDDR4 Mode Register 11 at cold boot */ u32 emc_mrw8; /* Specifies the programming to LPDDR4 Mode Register 11 at cold boot */ u32 emc_mrw9; /* Specifies the programming to LPDDR4 Mode Register 12 at cold boot */ u32 emc_mrw10; /* Specifies the programming to LPDDR4 Mode Register 14 at cold boot */ u32 emc_mrw12; /* Specifies the programming to LPDDR4 Mode Register 14 at cold boot */ u32 emc_mrw13; /* Specifies the programming to LPDDR4 Mode Register 22 at cold boot */ u32 emc_mrw14; /* * Specifies the programming to extra LPDDR2 Mode Register * at cold boot */ u32 emc_mrw_extra; /* * Specifies the programming to extra LPDDR2 Mode Register * at warm boot */ u32 emc_warm_boot_mrw_extra; /* * Specify the enable of extra Mode Register programming at * warm boot */ u32 emc_warm_boot_extramode_reg_write_enable; /* * Specify the enable of extra Mode Register programming at * cold boot */ u32 emc_extramode_reg_write_enable; /* Specifies the EMC_MRW reset command value */ u32 emc_mrw_reset_command; /* Specifies the EMC Reset wait time (in microseconds) */ u32 emc_mrw_reset_ninit_wait; /* Specifies the value for EMC_MRS_WAIT_CNT */ u32 emc_mrs_wait_cnt; /* Specifies the value for EMC_MRS_WAIT_CNT2 */ u32 emc_mrs_wait_cnt2; /* EMC miscellaneous configurations */ /* Specifies the value for EMC_CFG */ u32 emc_cfg; /* Specifies the value for EMC_CFG_2 */ u32 emc_cfg2; /* Specifies the pipe bypass controls */ u32 emc_cfg_pipe; u32 emc_cfg_pipe_clk; u32 emc_fdpd_ctrl_cmd_no_ramp; u32 emc_cfg_update; /* Specifies the value for EMC_DBG */ u32 emc_dbg; u32 emc_dbg_write_mux; /* Specifies the value for EMC_CMDQ */ u32 emc_cmd_q; /* Specifies the value for EMC_MC2EMCQ */ u32 emc_mc2emc_q; /* Specifies the value for EMC_DYN_SELF_REF_CONTROL */ u32 emc_dyn_self_ref_control; /* Specifies the value for MEM_INIT_DONE */ u32 ahb_arbitration_xbar_ctrl_meminit_done; /* Specifies the value for EMC_CFG_DIG_DLL */ u32 emc_cfg_dig_dll; u32 emc_cfg_dig_dll_1; /* Specifies the value for EMC_CFG_DIG_DLL_PERIOD */ u32 emc_cfg_dig_dll_period; /* Specifies the value of *DEV_SELECTN of various EMC registers */ u32 emc_dev_select; /* Specifies the value for EMC_SEL_DPD_CTRL */ u32 emc_sel_dpd_ctrl; /* Pads trimmer delays */ u32 emc_fdpd_ctrl_dq; u32 emc_fdpd_ctrl_cmd; u32 emc_pmacro_ib_vref_dq_0; u32 emc_pmacro_ib_vref_dq_1; u32 emc_pmacro_ib_vref_dqs_0; u32 emc_pmacro_ib_vref_dqs_1; u32 emc_pmacro_ib_rxrt; u32 emc_cfg_pipe1; u32 emc_cfg_pipe2; /* Specifies the value for EMC_PMACRO_QUSE_DDLL_RANK0_0 */ u32 emc_pmacro_quse_ddll_rank0_0; u32 emc_pmacro_quse_ddll_rank0_1; u32 emc_pmacro_quse_ddll_rank0_2; u32 emc_pmacro_quse_ddll_rank0_3; u32 emc_pmacro_quse_ddll_rank0_4; u32 emc_pmacro_quse_ddll_rank0_5; u32 emc_pmacro_quse_ddll_rank1_0; u32 emc_pmacro_quse_ddll_rank1_1; u32 emc_pmacro_quse_ddll_rank1_2; u32 emc_pmacro_quse_ddll_rank1_3; u32 emc_pmacro_quse_ddll_rank1_4; u32 emc_pmacro_quse_ddll_rank1_5; u32 emc_pmacro_ob_ddll_long_dq_rank0_0; u32 emc_pmacro_ob_ddll_long_dq_rank0_1; u32 emc_pmacro_ob_ddll_long_dq_rank0_2; u32 emc_pmacro_ob_ddll_long_dq_rank0_3; u32 emc_pmacro_ob_ddll_long_dq_rank0_4; u32 emc_pmacro_ob_ddll_long_dq_rank0_5; u32 emc_pmacro_ob_ddll_long_dq_rank1_0; u32 emc_pmacro_ob_ddll_long_dq_rank1_1; u32 emc_pmacro_ob_ddll_long_dq_rank1_2; u32 emc_pmacro_ob_ddll_long_dq_rank1_3; u32 emc_pmacro_ob_ddll_long_dq_rank1_4; u32 emc_pmacro_ob_ddll_long_dq_rank1_5; u32 emc_pmacro_ob_ddll_long_dqs_rank0_0; u32 emc_pmacro_ob_ddll_long_dqs_rank0_1; u32 emc_pmacro_ob_ddll_long_dqs_rank0_2; u32 emc_pmacro_ob_ddll_long_dqs_rank0_3; u32 emc_pmacro_ob_ddll_long_dqs_rank0_4; u32 emc_pmacro_ob_ddll_long_dqs_rank0_5; u32 emc_pmacro_ob_ddll_long_dqs_rank1_0; u32 emc_pmacro_ob_ddll_long_dqs_rank1_1; u32 emc_pmacro_ob_ddll_long_dqs_rank1_2; u32 emc_pmacro_ob_ddll_long_dqs_rank1_3; u32 emc_pmacro_ob_ddll_long_dqs_rank1_4; u32 emc_pmacro_ob_ddll_long_dqs_rank1_5; u32 emc_pmacro_ib_ddll_long_dqs_rank0_0; u32 emc_pmacro_ib_ddll_long_dqs_rank0_1; u32 emc_pmacro_ib_ddll_long_dqs_rank0_2; u32 emc_pmacro_ib_ddll_long_dqs_rank0_3; u32 emc_pmacro_ib_ddll_long_dqs_rank1_0; u32 emc_pmacro_ib_ddll_long_dqs_rank1_1; u32 emc_pmacro_ib_ddll_long_dqs_rank1_2; u32 emc_pmacro_ib_ddll_long_dqs_rank1_3; u32 emc_pmacro_ddll_long_cmd_0; u32 emc_pmacro_ddll_long_cmd_1; u32 emc_pmacro_ddll_long_cmd_2; u32 emc_pmacro_ddll_long_cmd_3; u32 emc_pmacro_ddll_long_cmd_4; u32 emc_pmacro_ddll_short_cmd_0; u32 emc_pmacro_ddll_short_cmd_1; u32 emc_pmacro_ddll_short_cmd_2; /* * Specifies the delay after asserting CKE pin during a WarmBoot0 * sequence (in microseconds) */ u32 warm_boot_wait; /* Specifies the value for EMC_ODT_WRITE */ u32 emc_odt_write; /* Periodic ZQ calibration */ /* * Specifies the value for EMC_ZCAL_INTERVAL * Value 0 disables ZQ calibration */ u32 emc_zcal_interval; /* Specifies the value for EMC_ZCAL_WAIT_CNT */ u32 emc_zcal_wait_cnt; /* Specifies the value for EMC_ZCAL_MRW_CMD */ u32 emc_zcal_mrw_cmd; /* DRAM initialization sequence flow control */ /* Specifies the MRS command value for resetting DLL */ u32 emc_mrs_reset_dll; /* Specifies the command for ZQ initialization of device 0 */ u32 emc_zcal_init_dev0; /* Specifies the command for ZQ initialization of device 1 */ u32 emc_zcal_init_dev1; /* * Specifies the wait time after programming a ZQ initialization * command (in microseconds) */ u32 emc_zcal_init_wait; /* * Specifies the enable for ZQ calibration at cold boot [bit 0] * and warm boot [bit 1] */ u32 emc_zcal_warm_cold_boot_enables; /* * Specifies the MRW command to LPDDR2 for ZQ calibration * on warmboot */ /* Is issued to both devices separately */ u32 emc_mrw_lpddr2zcal_warm_boot; /* * Specifies the ZQ command to DDR3 for ZQ calibration on warmboot * Is issued to both devices separately */ u32 emc_zqcal_ddr3_warm_boot; u32 emc_zqcal_lpddr4_warm_boot; /* * Specifies the wait time for ZQ calibration on warmboot * (in microseconds) */ u32 emc_zcal_warm_boot_wait; /* * Specifies the enable for DRAM Mode Register programming * at warm boot */ u32 emc_mrs_warm_boot_enable; /* * Specifies the wait time after sending an MRS DLL reset command * in microseconds) */ u32 emc_mrs_reset_dll_wait; /* Specifies the extra MRS command to initialize mode registers */ u32 emc_mrs_extra; /* Specifies the extra MRS command at warm boot */ u32 emc_warm_boot_mrs_extra; /* Specifies the EMRS command to enable the DDR2 DLL */ u32 emc_emrs_ddr2_dll_enable; /* Specifies the MRS command to reset the DDR2 DLL */ u32 emc_mrs_ddr2_dll_reset; /* Specifies the EMRS command to set OCD calibration */ u32 emc_emrs_ddr2_ocd_calib; /* * Specifies the wait between initializing DDR and setting OCD * calibration (in microseconds) */ u32 emc_ddr2_wait; /* Specifies the value for EMC_CLKEN_OVERRIDE */ u32 emc_clken_override; /* * Specifies LOG2 of the extra refresh numbers after booting * Program 0 to disable */ u32 emc_extra_refresh_num; /* Specifies the master override for all EMC clocks */ u32 emc_clken_override_allwarm_boot; /* Specifies the master override for all MC clocks */ u32 mc_clken_override_allwarm_boot; /* Specifies digital dll period, choosing between 4 to 64 ms */ u32 emc_cfg_dig_dll_period_warm_boot; /* Pad controls */ /* Specifies the value for PMC_VDDP_SEL */ u32 pmc_vddp_sel; /* Specifies the wait time after programming PMC_VDDP_SEL */ u32 pmc_vddp_sel_wait; /* Specifies the value for PMC_DDR_PWR */ u32 pmc_ddr_pwr; /* Specifies the value for PMC_DDR_CFG */ u32 pmc_ddr_cfg; /* Specifies the value for PMC_IO_DPD3_REQ */ u32 pmc_io_dpd3_req; /* Specifies the wait time after programming PMC_IO_DPD3_REQ */ u32 pmc_io_dpd3_req_wait; u32 pmc_io_dpd4_req_wait; /* Specifies the value for PMC_REG_SHORT */ u32 pmc_reg_short; /* Specifies the value for PMC_NO_IOPOWER */ u32 pmc_no_io_power; u32 pmc_ddr_ctrl_wait; u32 pmc_ddr_ctrl; /* Specifies the value for EMC_ACPD_CONTROL */ u32 emc_acpd_control; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE0 */ u32 emc_swizzle_rank0_byte0; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE1 */ u32 emc_swizzle_rank0_byte1; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE2 */ u32 emc_swizzle_rank0_byte2; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE3 */ u32 emc_swizzle_rank0_byte3; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE0 */ u32 emc_swizzle_rank1_byte0; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE1 */ u32 emc_swizzle_rank1_byte1; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE2 */ u32 emc_swizzle_rank1_byte2; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE3 */ u32 emc_swizzle_rank1_byte3; /* Specifies the value for EMC_TXDSRVTTGEN */ u32 emc_txdsrvttgen; /* Specifies the value for EMC_DATA_BRLSHFT_0 */ u32 emc_data_brlshft0; u32 emc_data_brlshft1; u32 emc_dqs_brlshft0; u32 emc_dqs_brlshft1; u32 emc_cmd_brlshft0; u32 emc_cmd_brlshft1; u32 emc_cmd_brlshft2; u32 emc_cmd_brlshft3; u32 emc_quse_brlshft0; u32 emc_quse_brlshft1; u32 emc_quse_brlshft2; u32 emc_quse_brlshft3; u32 emc_dll_cfg0; u32 emc_dll_cfg1; u32 emc_pmc_scratch1; u32 emc_pmc_scratch2; u32 emc_pmc_scratch3; u32 emc_pmacro_pad_cfg_ctrl; u32 emc_pmacro_vttgen_ctrl0; u32 emc_pmacro_vttgen_ctrl1; u32 emc_pmacro_vttgen_ctrl2; u32 emc_pmacro_brick_ctrl_rfu1; u32 emc_pmacro_cmd_brick_ctrl_fdpd; u32 emc_pmacro_brick_ctrl_rfu2; u32 emc_pmacro_data_brick_ctrl_fdpd; u32 emc_pmacro_bg_bias_ctrl0; u32 emc_pmacro_data_pad_rx_ctrl; u32 emc_pmacro_cmd_pad_rx_ctrl; u32 emc_pmacro_data_rx_term_mode; u32 emc_pmacro_cmd_rx_term_mode; u32 emc_pmacro_data_pad_tx_ctrl; u32 emc_pmacro_common_pad_tx_ctrl; u32 emc_pmacro_cmd_pad_tx_ctrl; u32 emc_cfg3; u32 emc_pmacro_tx_pwrd0; u32 emc_pmacro_tx_pwrd1; u32 emc_pmacro_tx_pwrd2; u32 emc_pmacro_tx_pwrd3; u32 emc_pmacro_tx_pwrd4; u32 emc_pmacro_tx_pwrd5; u32 emc_config_sample_delay; u32 emc_pmacro_brick_mapping0; u32 emc_pmacro_brick_mapping1; u32 emc_pmacro_brick_mapping2; u32 emc_pmacro_tx_sel_clk_src0; u32 emc_pmacro_tx_sel_clk_src1; u32 emc_pmacro_tx_sel_clk_src2; u32 emc_pmacro_tx_sel_clk_src3; u32 emc_pmacro_tx_sel_clk_src4; u32 emc_pmacro_tx_sel_clk_src5; u32 emc_pmacro_ddll_bypass; u32 emc_pmacro_ddll_pwrd0; u32 emc_pmacro_ddll_pwrd1; u32 emc_pmacro_ddll_pwrd2; u32 emc_pmacro_cmd_ctrl0; u32 emc_pmacro_cmd_ctrl1; u32 emc_pmacro_cmd_ctrl2; /* DRAM size information */ /* Specifies the value for MC_EMEM_ADR_CFG */ u32 mc_emem_adr_cfg; /* Specifies the value for MC_EMEM_ADR_CFG_DEV0 */ u32 mc_emem_adr_cfg_dev0; /* Specifies the value for MC_EMEM_ADR_CFG_DEV1 */ u32 mc_emem_adr_cfg_dev1; u32 mc_emem_adr_cfg_channel_mask; /* Specifies the value for MC_EMEM_BANK_SWIZZLE_CFG0 */ u32 mc_emem_adr_cfg_bank_mask0; /* Specifies the value for MC_EMEM_BANK_SWIZZLE_CFG1 */ u32 mc_emem_adr_cfg_bank_mask1; /* Specifies the value for MC_EMEM_BANK_SWIZZLE_CFG2 */ u32 mc_emem_adr_cfg_bank_mask2; /* * Specifies the value for MC_EMEM_CFG which holds the external memory * size (in KBytes) */ u32 mc_emem_cfg; /* MC arbitration configuration */ /* Specifies the value for MC_EMEM_ARB_CFG */ u32 mc_emem_arb_cfg; /* Specifies the value for MC_EMEM_ARB_OUTSTANDING_REQ */ u32 mc_emem_arb_outstanding_req; u32 emc_emem_arb_refpb_hp_ctrl; u32 emc_emem_arb_refpb_bank_ctrl; /* Specifies the value for MC_EMEM_ARB_TIMING_RCD */ u32 mc_emem_arb_timing_rcd; /* Specifies the value for MC_EMEM_ARB_TIMING_RP */ u32 mc_emem_arb_timing_rp; /* Specifies the value for MC_EMEM_ARB_TIMING_RC */ u32 mc_emem_arb_timing_rc; /* Specifies the value for MC_EMEM_ARB_TIMING_RAS */ u32 mc_emem_arb_timing_ras; /* Specifies the value for MC_EMEM_ARB_TIMING_FAW */ u32 mc_emem_arb_timing_faw; /* Specifies the value for MC_EMEM_ARB_TIMING_RRD */ u32 mc_emem_arb_timing_rrd; /* Specifies the value for MC_EMEM_ARB_TIMING_RAP2PRE */ u32 mc_emem_arb_timing_rap2pre; /* Specifies the value for MC_EMEM_ARB_TIMING_WAP2PRE */ u32 mc_emem_arb_timing_wap2pre; /* Specifies the value for MC_EMEM_ARB_TIMING_R2R */ u32 mc_emem_arb_timing_r2r; /* Specifies the value for MC_EMEM_ARB_TIMING_W2W */ u32 mc_emem_arb_timing_w2w; /* Specifies the value for MC_EMEM_ARB_TIMING_R2W */ u32 mc_emem_arb_timing_r2w; /* Specifies the value for MC_EMEM_ARB_TIMING_W2R */ u32 mc_emem_arb_timing_w2r; u32 mc_emem_arb_timing_rfcpb; /* Specifies the value for MC_EMEM_ARB_DA_TURNS */ u32 mc_emem_arb_da_turns; /* Specifies the value for MC_EMEM_ARB_DA_COVERS */ u32 mc_emem_arb_da_covers; /* Specifies the value for MC_EMEM_ARB_MISC0 */ u32 mc_emem_arb_misc0; /* Specifies the value for MC_EMEM_ARB_MISC1 */ u32 mc_emem_arb_misc1; u32 mc_emem_arb_misc2; /* Specifies the value for MC_EMEM_ARB_RING1_THROTTLE */ u32 mc_emem_arb_ring1_throttle; /* Specifies the value for MC_EMEM_ARB_OVERRIDE */ u32 mc_emem_arb_override; /* Specifies the value for MC_EMEM_ARB_OVERRIDE_1 */ u32 mc_emem_arb_override1; /* Specifies the value for MC_EMEM_ARB_RSV */ u32 mc_emem_arb_rsv; u32 mc_da_cfg0; u32 mc_emem_arb_timing_ccdmw; /* Specifies the value for MC_CLKEN_OVERRIDE */ u32 mc_clken_override; /* Specifies the value for MC_STAT_CONTROL */ u32 mc_stat_control; /* Specifies the value for MC_VIDEO_PROTECT_BOM */ u32 mc_video_protect_bom; /* Specifies the value for MC_VIDEO_PROTECT_BOM_ADR_HI */ u32 mc_video_protect_bom_adr_hi; /* Specifies the value for MC_VIDEO_PROTECT_SIZE_MB */ u32 mc_video_protect_size_mb; /* Specifies the value for MC_VIDEO_PROTECT_VPR_OVERRIDE */ u32 mc_video_protect_vpr_override; /* Specifies the value for MC_VIDEO_PROTECT_VPR_OVERRIDE1 */ u32 mc_video_protect_vpr_override1; /* Specifies the value for MC_VIDEO_PROTECT_GPU_OVERRIDE_0 */ u32 mc_video_protect_gpu_override0; /* Specifies the value for MC_VIDEO_PROTECT_GPU_OVERRIDE_1 */ u32 mc_video_protect_gpu_override1; /* Specifies the value for MC_SEC_CARVEOUT_BOM */ u32 mc_sec_carveout_bom; /* Specifies the value for MC_SEC_CARVEOUT_ADR_HI */ u32 mc_sec_carveout_adr_hi; /* Specifies the value for MC_SEC_CARVEOUT_SIZE_MB */ u32 mc_sec_carveout_size_mb; /* Specifies the value for MC_VIDEO_PROTECT_REG_CTRL.VIDEO_PROTECT_WRITE_ACCESS */ u32 mc_video_protect_write_access; /* Specifies the value for MC_SEC_CARVEOUT_REG_CTRL.SEC_CARVEOUT_WRITE_ACCESS */ u32 mc_sec_carveout_protect_write_access; u32 mc_generalized_carveout1_bom; u32 mc_generalized_carveout1_bom_hi; u32 mc_generalized_carveout1_size_128kb; u32 mc_generalized_carveout1_access0; u32 mc_generalized_carveout1_access1; u32 mc_generalized_carveout1_access2; u32 mc_generalized_carveout1_access3; u32 mc_generalized_carveout1_access4; u32 mc_generalized_carveout1_force_internal_access0; u32 mc_generalized_carveout1_force_internal_access1; u32 mc_generalized_carveout1_force_internal_access2; u32 mc_generalized_carveout1_force_internal_access3; u32 mc_generalized_carveout1_force_internal_access4; u32 mc_generalized_carveout1_cfg0; u32 mc_generalized_carveout2_bom; u32 mc_generalized_carveout2_bom_hi; u32 mc_generalized_carveout2_size_128kb; u32 mc_generalized_carveout2_access0; u32 mc_generalized_carveout2_access1; u32 mc_generalized_carveout2_access2; u32 mc_generalized_carveout2_access3; u32 mc_generalized_carveout2_access4; u32 mc_generalized_carveout2_force_internal_access0; u32 mc_generalized_carveout2_force_internal_access1; u32 mc_generalized_carveout2_force_internal_access2; u32 mc_generalized_carveout2_force_internal_access3; u32 mc_generalized_carveout2_force_internal_access4; u32 mc_generalized_carveout2_cfg0; u32 mc_generalized_carveout3_bom; u32 mc_generalized_carveout3_bom_hi; u32 mc_generalized_carveout3_size_128kb; u32 mc_generalized_carveout3_access0; u32 mc_generalized_carveout3_access1; u32 mc_generalized_carveout3_access2; u32 mc_generalized_carveout3_access3; u32 mc_generalized_carveout3_access4; u32 mc_generalized_carveout3_force_internal_access0; u32 mc_generalized_carveout3_force_internal_access1; u32 mc_generalized_carveout3_force_internal_access2; u32 mc_generalized_carveout3_force_internal_access3; u32 mc_generalized_carveout3_force_internal_access4; u32 mc_generalized_carveout3_cfg0; u32 mc_generalized_carveout4_bom; u32 mc_generalized_carveout4_bom_hi; u32 mc_generalized_carveout4_size_128kb; u32 mc_generalized_carveout4_access0; u32 mc_generalized_carveout4_access1; u32 mc_generalized_carveout4_access2; u32 mc_generalized_carveout4_access3; u32 mc_generalized_carveout4_access4; u32 mc_generalized_carveout4_force_internal_access0; u32 mc_generalized_carveout4_force_internal_access1; u32 mc_generalized_carveout4_force_internal_access2; u32 mc_generalized_carveout4_force_internal_access3; u32 mc_generalized_carveout4_force_internal_access4; u32 mc_generalized_carveout4_cfg0; u32 mc_generalized_carveout5_bom; u32 mc_generalized_carveout5_bom_hi; u32 mc_generalized_carveout5_size_128kb; u32 mc_generalized_carveout5_access0; u32 mc_generalized_carveout5_access1; u32 mc_generalized_carveout5_access2; u32 mc_generalized_carveout5_access3; u32 mc_generalized_carveout5_access4; u32 mc_generalized_carveout5_force_internal_access0; u32 mc_generalized_carveout5_force_internal_access1; u32 mc_generalized_carveout5_force_internal_access2; u32 mc_generalized_carveout5_force_internal_access3; u32 mc_generalized_carveout5_force_internal_access4; u32 mc_generalized_carveout5_cfg0; /* Specifies enable for CA training */ u32 emc_ca_training_enable; /* Set if bit 6 select is greater than bit 7 select; uses aremc.spec packet SWIZZLE_BIT6_GT_BIT7 */ u32 swizzle_rank_byte_encode; /* Specifies enable and offset for patched boot rom write */ u32 boot_rom_patch_control; /* Specifies data for patched boot rom write */ u32 boot_rom_patch_data; /* Specifies the value for MC_MTS_CARVEOUT_BOM */ u32 mc_mts_carveout_bom; /* Specifies the value for MC_MTS_CARVEOUT_ADR_HI */ u32 mc_mts_carveout_adr_hi; /* Specifies the value for MC_MTS_CARVEOUT_SIZE_MB */ u32 mc_mts_carveout_size_mb; /* Specifies the value for MC_MTS_CARVEOUT_REG_CTRL */ u32 mc_mts_carveout_reg_ctrl; } sdram_params_t210_t; #endif ================================================ FILE: bdk/mem/sdram_param_t210b01.h ================================================ /* * Copyright (c) 2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. */ #ifndef _SDRAM_PARAM_T210B01_H_ #define _SDRAM_PARAM_T210B01_H_ typedef struct _sdram_params_t210b01_t { /* Specifies the type of memory device */ u32 memory_type; /* MC/EMC clock source configuration */ /* Specifies the M value for PllM */ u32 pllm_input_divider; /* Specifies the N value for PllM */ u32 pllm_feedback_divider; /* Specifies the time to wait for PLLM to lock (in microseconds) */ u32 pllm_stable_time; /* Specifies misc. control bits */ u32 pllm_setup_control; /* Specifies the P value for PLLM */ u32 pllm_post_divider; /* Specifies value for Charge Pump Gain Control */ u32 pllm_kcp; /* Specifies VCO gain */ u32 pllm_kvco; /* Spare BCT param */ u32 emc_bct_spare0; /* Spare BCT param */ u32 emc_bct_spare1; /* Spare BCT param */ u32 emc_bct_spare2; /* Spare BCT param */ u32 emc_bct_spare3; /* Spare BCT param */ u32 emc_bct_spare4; /* Spare BCT param */ u32 emc_bct_spare5; /* Spare BCT param */ u32 emc_bct_spare6; /* Spare BCT param */ u32 emc_bct_spare7; /* Spare BCT param */ u32 emc_bct_spare8; /* Spare BCT param */ u32 emc_bct_spare9; /* Spare BCT param */ u32 emc_bct_spare10; /* Spare BCT param */ u32 emc_bct_spare11; /* Spare BCT param */ u32 emc_bct_spare12; /* Spare BCT param */ u32 emc_bct_spare13; /* Spare BCT param */ u32 emc_bct_spare_secure0; /* Spare BCT param */ u32 emc_bct_spare_secure1; /* Spare BCT param */ u32 emc_bct_spare_secure2; /* Spare BCT param */ u32 emc_bct_spare_secure3; /* Spare BCT param */ u32 emc_bct_spare_secure4; /* Spare BCT param */ u32 emc_bct_spare_secure5; /* Spare BCT param */ u32 emc_bct_spare_secure6; /* Spare BCT param */ u32 emc_bct_spare_secure7; /* Spare BCT param */ u32 emc_bct_spare_secure8; /* Spare BCT param */ u32 emc_bct_spare_secure9; /* Spare BCT param */ u32 emc_bct_spare_secure10; /* Spare BCT param */ u32 emc_bct_spare_secure11; /* Spare BCT param */ u32 emc_bct_spare_secure12; /* Spare BCT param */ u32 emc_bct_spare_secure13; /* Spare BCT param */ u32 emc_bct_spare_secure14; /* Spare BCT param */ u32 emc_bct_spare_secure15; /* Spare BCT param */ u32 emc_bct_spare_secure16; /* Spare BCT param */ u32 emc_bct_spare_secure17; /* Spare BCT param */ u32 emc_bct_spare_secure18; /* Spare BCT param */ u32 emc_bct_spare_secure19; /* Spare BCT param */ u32 emc_bct_spare_secure20; /* Spare BCT param */ u32 emc_bct_spare_secure21; /* Spare BCT param */ u32 emc_bct_spare_secure22; /* Spare BCT param */ u32 emc_bct_spare_secure23; /* Defines EMC_2X_CLK_SRC, EMC_2X_CLK_DIVISOR, EMC_INVERT_DCD */ u32 emc_clock_source; u32 emc_clock_source_dll; /* Defines possible override for PLLLM_MISC2 */ u32 clk_rst_pllm_misc20_override; /* enables override for PLLLM_MISC2 */ u32 clk_rst_pllm_misc20_override_enable; /* defines CLK_ENB_MC1 in register clk_rst_controller_clk_enb_w_clr */ u32 clear_clock2_mc1; /* Auto-calibration of EMC pads */ /* Specifies the value for EMC_AUTO_CAL_INTERVAL */ u32 emc_auto_cal_interval; /* * Specifies the value for EMC_AUTO_CAL_CONFIG * Note: Trigger bits are set by the SDRAM code. */ u32 emc_auto_cal_config; /* Specifies the value for EMC_AUTO_CAL_CONFIG2 */ u32 emc_auto_cal_config2; /* Specifies the value for EMC_AUTO_CAL_CONFIG3 */ u32 emc_auto_cal_config3; u32 emc_auto_cal_config4; u32 emc_auto_cal_config5; u32 emc_auto_cal_config6; u32 emc_auto_cal_config7; u32 emc_auto_cal_config8; u32 emc_auto_cal_config9; /* Specifies the value for EMC_AUTO_CAL_VREF_SEL_0 */ u32 emc_auto_cal_vref_sel0; u32 emc_auto_cal_vref_sel1; /* Specifies the value for EMC_AUTO_CAL_CHANNEL */ u32 emc_auto_cal_channel; /* Specifies the value for EMC_PMACRO_AUTOCAL_CFG_0 */ u32 emc_pmacro_auto_cal_cfg0; u32 emc_pmacro_auto_cal_cfg1; u32 emc_pmacro_auto_cal_cfg2; u32 emc_pmacro_rx_term; u32 emc_pmacro_dq_tx_drive; u32 emc_pmacro_ca_tx_drive; u32 emc_pmacro_cmd_tx_drive; u32 emc_pmacro_auto_cal_common; u32 emc_pmacro_zcrtl; /* * Specifies the time for the calibration * to stabilize (in microseconds) */ u32 emc_auto_cal_wait; u32 emc_xm2_comp_pad_ctrl; u32 emc_xm2_comp_pad_ctrl2; u32 emc_xm2_comp_pad_ctrl3; /* * DRAM size information * Specifies the value for EMC_ADR_CFG */ u32 emc_adr_cfg; /* * Specifies the time to wait after asserting pin * CKE (in microseconds) */ u32 emc_pin_program_wait; /* Specifies the extra delay before/after pin RESET/CKE command */ u32 emc_pin_extra_wait; u32 emc_pin_gpio_enable; u32 emc_pin_gpio; /* * Specifies the extra delay after the first writing * of EMC_TIMING_CONTROL */ u32 emc_timing_control_wait; /* Timing parameters required for the SDRAM */ /* Specifies the value for EMC_RC */ u32 emc_rc; /* Specifies the value for EMC_RFC */ u32 emc_rfc; u32 emc_rfc_pb; u32 emc_ref_ctrl2; /* Specifies the value for EMC_RFC_SLR */ u32 emc_rfc_slr; /* Specifies the value for EMC_RAS */ u32 emc_ras; /* Specifies the value for EMC_RP */ u32 emc_rp; /* Specifies the value for EMC_R2R */ u32 emc_r2r; /* Specifies the value for EMC_W2W */ u32 emc_w2w; /* Specifies the value for EMC_R2W */ u32 emc_r2w; /* Specifies the value for EMC_W2R */ u32 emc_w2r; /* Specifies the value for EMC_R2P */ u32 emc_r2p; /* Specifies the value for EMC_W2P */ u32 emc_w2p; u32 emc_tppd; u32 emc_trtm; u32 emc_twtm; u32 emc_tratm; u32 emc_twatm; u32 emc_tr2ref; u32 emc_ccdmw; /* Specifies the value for EMC_RD_RCD */ u32 emc_rd_rcd; /* Specifies the value for EMC_WR_RCD */ u32 emc_wr_rcd; /* Specifies the value for EMC_RRD */ u32 emc_rrd; /* Specifies the value for EMC_REXT */ u32 emc_rext; /* Specifies the value for EMC_WEXT */ u32 emc_wext; /* Specifies the value for EMC_WDV */ u32 emc_wdv; u32 emc_wdv_chk; u32 emc_wsv; u32 emc_wev; /* Specifies the value for EMC_WDV_MASK */ u32 emc_wdv_mask; u32 emc_ws_duration; u32 emc_we_duration; /* Specifies the value for EMC_QUSE */ u32 emc_quse; /* Specifies the value for EMC_QUSE_WIDTH */ u32 emc_quse_width; /* Specifies the value for EMC_IBDLY */ u32 emc_ibdly; u32 emc_obdly; /* Specifies the value for EMC_EINPUT */ u32 emc_einput; /* Specifies the value for EMC_EINPUT_DURATION */ u32 emc_einput_duration; /* Specifies the value for EMC_PUTERM_EXTRA */ u32 emc_puterm_extra; /* Specifies the value for EMC_PUTERM_WIDTH */ u32 emc_puterm_width; u32 emc_qrst; u32 emc_qsafe; u32 emc_rdv; u32 emc_rdv_mask; u32 emc_rdv_early; u32 emc_rdv_early_mask; /* Specifies the value for EMC_QPOP */ u32 emc_qpop; /* Specifies the value for EMC_REFRESH */ u32 emc_refresh; /* Specifies the value for EMC_BURST_REFRESH_NUM */ u32 emc_burst_refresh_num; /* Specifies the value for EMC_PRE_REFRESH_REQ_CNT */ u32 emc_prerefresh_req_cnt; /* Specifies the value for EMC_PDEX2WR */ u32 emc_pdex2wr; /* Specifies the value for EMC_PDEX2RD */ u32 emc_pdex2rd; /* Specifies the value for EMC_PCHG2PDEN */ u32 emc_pchg2pden; /* Specifies the value for EMC_ACT2PDEN */ u32 emc_act2pden; /* Specifies the value for EMC_AR2PDEN */ u32 emc_ar2pden; /* Specifies the value for EMC_RW2PDEN */ u32 emc_rw2pden; u32 emc_cke2pden; u32 emc_pdex2che; u32 emc_pdex2mrr; /* Specifies the value for EMC_TXSR */ u32 emc_txsr; /* Specifies the value for EMC_TXSRDLL */ u32 emc_txsr_dll; /* Specifies the value for EMC_TCKE */ u32 emc_tcke; /* Specifies the value for EMC_TCKESR */ u32 emc_tckesr; /* Specifies the value for EMC_TPD */ u32 emc_tpd; /* Specifies the value for EMC_TFAW */ u32 emc_tfaw; /* Specifies the value for EMC_TRPAB */ u32 emc_trpab; /* Specifies the value for EMC_TCLKSTABLE */ u32 emc_tclkstable; /* Specifies the value for EMC_TCLKSTOP */ u32 emc_tclkstop; /* Specifies the value for EMC_TREFBW */ u32 emc_trefbw; /* FBIO configuration values */ /* Specifies the value for EMC_FBIO_CFG5 */ u32 emc_fbio_cfg5; /* Specifies the value for EMC_FBIO_CFG7 */ u32 emc_fbio_cfg7; u32 emc_fbio_cfg8; /* Command mapping for CMD brick 0 */ u32 emc_cmd_mapping_cmd0_0; u32 emc_cmd_mapping_cmd0_1; u32 emc_cmd_mapping_cmd0_2; u32 emc_cmd_mapping_cmd1_0; u32 emc_cmd_mapping_cmd1_1; u32 emc_cmd_mapping_cmd1_2; u32 emc_cmd_mapping_cmd2_0; u32 emc_cmd_mapping_cmd2_1; u32 emc_cmd_mapping_cmd2_2; u32 emc_cmd_mapping_cmd3_0; u32 emc_cmd_mapping_cmd3_1; u32 emc_cmd_mapping_cmd3_2; u32 emc_cmd_mapping_byte; /* Specifies the value for EMC_FBIO_SPARE */ u32 emc_fbio_spare; /* Specifies the value for EMC_CFG_RSV */ u32 emc_cfg_rsv; /* MRS command values */ /* Specifies the value for EMC_MRS */ u32 emc_mrs; /* Specifies the MP0 command to initialize mode registers */ u32 emc_emrs; /* Specifies the MP2 command to initialize mode registers */ u32 emc_emrs2; /* Specifies the MP3 command to initialize mode registers */ u32 emc_emrs3; /* Specifies the programming to LPDDR2 Mode Register 1 at cold boot */ u32 emc_mrw1; /* Specifies the programming to LPDDR2 Mode Register 2 at cold boot */ u32 emc_mrw2; /* Specifies the programming to LPDDR2 Mode Register 3 at cold boot */ u32 emc_mrw3; /* Specifies the programming to LPDDR2 Mode Register 11 at cold boot */ u32 emc_mrw4; /* Specifies the programming to LPDDR4 Mode Register 3 at cold boot */ u32 emc_mrw6; /* Specifies the programming to LPDDR4 Mode Register 11 at cold boot */ u32 emc_mrw8; /* Specifies the programming to LPDDR4 Mode Register 11 at cold boot */ u32 emc_mrw9; /* Specifies the programming to LPDDR4 Mode Register 12 at cold boot */ u32 emc_mrw10; /* Specifies the programming to LPDDR4 Mode Register 14 at cold boot */ u32 emc_mrw12; /* Specifies the programming to LPDDR4 Mode Register 14 at cold boot */ u32 emc_mrw13; /* Specifies the programming to LPDDR4 Mode Register 22 at cold boot */ u32 emc_mrw14; /* * Specifies the programming to extra LPDDR2 Mode Register * at cold boot */ u32 emc_mrw_extra; /* * Specifies the programming to extra LPDDR2 Mode Register * at warm boot */ u32 emc_warm_boot_mrw_extra; /* * Specify the enable of extra Mode Register programming at * warm boot */ u32 emc_warm_boot_extramode_reg_write_enable; /* * Specify the enable of extra Mode Register programming at * cold boot */ u32 emc_extramode_reg_write_enable; /* Specifies the EMC_MRW reset command value */ u32 emc_mrw_reset_command; /* Specifies the EMC Reset wait time (in microseconds) */ u32 emc_mrw_reset_ninit_wait; /* Specifies the value for EMC_MRS_WAIT_CNT */ u32 emc_mrs_wait_cnt; /* Specifies the value for EMC_MRS_WAIT_CNT2 */ u32 emc_mrs_wait_cnt2; /* EMC miscellaneous configurations */ /* Specifies the value for EMC_CFG */ u32 emc_cfg; /* Specifies the value for EMC_CFG_2 */ u32 emc_cfg2; /* Specifies the pipe bypass controls */ u32 emc_cfg_pipe; u32 emc_cfg_pipe_clk; u32 emc_fdpd_ctrl_cmd_no_ramp; u32 emc_cfg_update; /* Specifies the value for EMC_DBG */ u32 emc_dbg; u32 emc_dbg_write_mux; /* Specifies the value for EMC_CMDQ */ u32 emc_cmd_q; /* Specifies the value for EMC_MC2EMCQ */ u32 emc_mc2emc_q; /* Specifies the value for EMC_DYN_SELF_REF_CONTROL */ u32 emc_dyn_self_ref_control; /* Specifies the value for MEM_INIT_DONE */ u32 ahb_arbitration_xbar_ctrl_meminit_done; /* Specifies the value for EMC_CFG_DIG_DLL */ u32 emc_cfg_dig_dll; u32 emc_cfg_dig_dll_1; /* Specifies the value for EMC_CFG_DIG_DLL_PERIOD */ u32 emc_cfg_dig_dll_period; /* Specifies the value of *DEV_SELECTN of various EMC registers */ u32 emc_dev_select; /* Specifies the value for EMC_SEL_DPD_CTRL */ u32 emc_sel_dpd_ctrl; /* Pads trimmer delays */ u32 emc_fdpd_ctrl_dq; u32 emc_fdpd_ctrl_cmd; u32 emc_pmacro_ib_vref_dq_0; u32 emc_pmacro_ib_vref_dq_1; u32 emc_pmacro_ib_vref_dqs_0; u32 emc_pmacro_ib_vref_dqs_1; u32 emc_pmacro_ib_rxrt; u32 emc_cfg_pipe1; u32 emc_cfg_pipe2; /* Specifies the value for EMC_PMACRO_QUSE_DDLL_RANK0_0 */ u32 emc_pmacro_quse_ddll_rank0_0; u32 emc_pmacro_quse_ddll_rank0_1; u32 emc_pmacro_quse_ddll_rank0_2; u32 emc_pmacro_quse_ddll_rank0_3; u32 emc_pmacro_quse_ddll_rank0_4; u32 emc_pmacro_quse_ddll_rank0_5; u32 emc_pmacro_quse_ddll_rank1_0; u32 emc_pmacro_quse_ddll_rank1_1; u32 emc_pmacro_quse_ddll_rank1_2; u32 emc_pmacro_quse_ddll_rank1_3; u32 emc_pmacro_quse_ddll_rank1_4; u32 emc_pmacro_quse_ddll_rank1_5; u32 emc_pmacro_ob_ddll_long_dq_rank0_0; u32 emc_pmacro_ob_ddll_long_dq_rank0_1; u32 emc_pmacro_ob_ddll_long_dq_rank0_2; u32 emc_pmacro_ob_ddll_long_dq_rank0_3; u32 emc_pmacro_ob_ddll_long_dq_rank0_4; u32 emc_pmacro_ob_ddll_long_dq_rank0_5; u32 emc_pmacro_ob_ddll_long_dq_rank1_0; u32 emc_pmacro_ob_ddll_long_dq_rank1_1; u32 emc_pmacro_ob_ddll_long_dq_rank1_2; u32 emc_pmacro_ob_ddll_long_dq_rank1_3; u32 emc_pmacro_ob_ddll_long_dq_rank1_4; u32 emc_pmacro_ob_ddll_long_dq_rank1_5; u32 emc_pmacro_ob_ddll_long_dqs_rank0_0; u32 emc_pmacro_ob_ddll_long_dqs_rank0_1; u32 emc_pmacro_ob_ddll_long_dqs_rank0_2; u32 emc_pmacro_ob_ddll_long_dqs_rank0_3; u32 emc_pmacro_ob_ddll_long_dqs_rank0_4; u32 emc_pmacro_ob_ddll_long_dqs_rank0_5; u32 emc_pmacro_ob_ddll_long_dqs_rank1_0; u32 emc_pmacro_ob_ddll_long_dqs_rank1_1; u32 emc_pmacro_ob_ddll_long_dqs_rank1_2; u32 emc_pmacro_ob_ddll_long_dqs_rank1_3; u32 emc_pmacro_ob_ddll_long_dqs_rank1_4; u32 emc_pmacro_ob_ddll_long_dqs_rank1_5; u32 emc_pmacro_ib_ddll_long_dqs_rank0_0; u32 emc_pmacro_ib_ddll_long_dqs_rank0_1; u32 emc_pmacro_ib_ddll_long_dqs_rank0_2; u32 emc_pmacro_ib_ddll_long_dqs_rank0_3; u32 emc_pmacro_ib_ddll_long_dqs_rank1_0; u32 emc_pmacro_ib_ddll_long_dqs_rank1_1; u32 emc_pmacro_ib_ddll_long_dqs_rank1_2; u32 emc_pmacro_ib_ddll_long_dqs_rank1_3; u32 emc_pmacro_ddll_long_cmd_0; u32 emc_pmacro_ddll_long_cmd_1; u32 emc_pmacro_ddll_long_cmd_2; u32 emc_pmacro_ddll_long_cmd_3; u32 emc_pmacro_ddll_long_cmd_4; u32 emc_pmacro_ddll_short_cmd_0; u32 emc_pmacro_ddll_short_cmd_1; u32 emc_pmacro_ddll_short_cmd_2; u32 emc_pmacro_ddll_periodic_offset; /* * Specifies the delay after asserting CKE pin during a WarmBoot0 * sequence (in microseconds) */ u32 warm_boot_wait; /* Specifies the value for EMC_ODT_WRITE */ u32 emc_odt_write; /* Periodic ZQ calibration */ /* * Specifies the value for EMC_ZCAL_INTERVAL * Value 0 disables ZQ calibration */ u32 emc_zcal_interval; /* Specifies the value for EMC_ZCAL_WAIT_CNT */ u32 emc_zcal_wait_cnt; /* Specifies the value for EMC_ZCAL_MRW_CMD */ u32 emc_zcal_mrw_cmd; /* DRAM initialization sequence flow control */ /* Specifies the MRS command value for resetting DLL */ u32 emc_mrs_reset_dll; /* Specifies the command for ZQ initialization of device 0 */ u32 emc_zcal_init_dev0; /* Specifies the command for ZQ initialization of device 1 */ u32 emc_zcal_init_dev1; /* * Specifies the wait time after programming a ZQ initialization * command (in microseconds) */ u32 emc_zcal_init_wait; /* * Specifies the enable for ZQ calibration at cold boot [bit 0] * and warm boot [bit 1] */ u32 emc_zcal_warm_cold_boot_enables; /* * Specifies the MRW command to LPDDR2 for ZQ calibration * on warmboot */ /* Is issued to both devices separately */ u32 emc_mrw_lpddr2zcal_warm_boot; /* * Specifies the ZQ command to DDR3 for ZQ calibration on warmboot * Is issued to both devices separately */ u32 emc_zqcal_ddr3_warm_boot; u32 emc_zqcal_lpddr4_warm_boot; /* * Specifies the wait time for ZQ calibration on warmboot * (in microseconds) */ u32 emc_zcal_warm_boot_wait; /* * Specifies the enable for DRAM Mode Register programming * at warm boot */ u32 emc_mrs_warm_boot_enable; /* * Specifies the wait time after sending an MRS DLL reset command * in microseconds) */ u32 emc_mrs_reset_dll_wait; /* Specifies the extra MRS command to initialize mode registers */ u32 emc_mrs_extra; /* Specifies the extra MRS command at warm boot */ u32 emc_warm_boot_mrs_extra; /* Specifies the EMRS command to enable the DDR2 DLL */ u32 emc_emrs_ddr2_dll_enable; /* Specifies the MRS command to reset the DDR2 DLL */ u32 emc_mrs_ddr2_dll_reset; /* Specifies the EMRS command to set OCD calibration */ u32 emc_emrs_ddr2_ocd_calib; /* * Specifies the wait between initializing DDR and setting OCD * calibration (in microseconds) */ u32 emc_ddr2_wait; /* Specifies the value for EMC_CLKEN_OVERRIDE */ u32 emc_clken_override; /* * Specifies LOG2 of the extra refresh numbers after booting * Program 0 to disable */ u32 emc_extra_refresh_num; /* Specifies the master override for all EMC clocks */ u32 emc_clken_override_allwarm_boot; /* Specifies the master override for all MC clocks */ u32 mc_clken_override_allwarm_boot; /* Specifies digital dll period, choosing between 4 to 64 ms */ u32 emc_cfg_dig_dll_period_warm_boot; /* Pad controls */ /* Specifies the value for PMC_VDDP_SEL */ u32 pmc_vddp_sel; /* Specifies the wait time after programming PMC_VDDP_SEL */ u32 pmc_vddp_sel_wait; /* Specifies the value for PMC_DDR_CFG */ u32 pmc_ddr_cfg; /* Specifies the value for PMC_IO_DPD3_REQ */ u32 pmc_io_dpd3_req; /* Specifies the wait time after programming PMC_IO_DPD3_REQ */ u32 pmc_io_dpd3_req_wait; u32 pmc_io_dpd4_req_wait; /* Specifies the value for PMC_REG_SHORT */ u32 pmc_reg_short; /* Specifies the value for PMC_NO_IOPOWER */ u32 pmc_no_io_power; u32 pmc_ddr_ctrl_wait; u32 pmc_ddr_ctrl; /* Specifies the value for EMC_ACPD_CONTROL */ u32 emc_acpd_control; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE0 */ u32 emc_swizzle_rank0_byte0; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE1 */ u32 emc_swizzle_rank0_byte1; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE2 */ u32 emc_swizzle_rank0_byte2; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE3 */ u32 emc_swizzle_rank0_byte3; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE0 */ u32 emc_swizzle_rank1_byte0; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE1 */ u32 emc_swizzle_rank1_byte1; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE2 */ u32 emc_swizzle_rank1_byte2; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE3 */ u32 emc_swizzle_rank1_byte3; /* Specifies the value for EMC_TXDSRVTTGEN */ u32 emc_txdsrvttgen; /* Specifies the value for EMC_DATA_BRLSHFT_0 */ u32 emc_data_brlshft0; u32 emc_data_brlshft1; u32 emc_dqs_brlshft0; u32 emc_dqs_brlshft1; u32 emc_cmd_brlshft0; u32 emc_cmd_brlshft1; u32 emc_cmd_brlshft2; u32 emc_cmd_brlshft3; u32 emc_quse_brlshft0; u32 emc_quse_brlshft1; u32 emc_quse_brlshft2; u32 emc_quse_brlshft3; u32 emc_dll_cfg0; u32 emc_dll_cfg1; u32 emc_pmc_scratch1; u32 emc_pmc_scratch2; u32 emc_pmc_scratch3; u32 emc_pmacro_pad_cfg_ctrl; u32 emc_pmacro_vttgen_ctrl0; u32 emc_pmacro_vttgen_ctrl1; u32 emc_pmacro_vttgen_ctrl2; u32 emc_pmacro_dsr_vttgen_ctrl0; u32 emc_pmacro_brick_ctrl_rfu1; u32 emc_pmacro_cmd_brick_ctrl_fdpd; u32 emc_pmacro_brick_ctrl_rfu2; u32 emc_pmacro_data_brick_ctrl_fdpd; u32 emc_pmacro_bg_bias_ctrl0; u32 emc_pmacro_data_pad_rx_ctrl; u32 emc_pmacro_cmd_pad_rx_ctrl; u32 emc_pmacro_data_rx_term_mode; u32 emc_pmacro_cmd_rx_term_mode; u32 emc_pmacro_data_pad_tx_ctrl; u32 emc_pmacro_cmd_pad_tx_ctrl; u32 emc_cfg3; u32 emc_pmacro_tx_pwrd0; u32 emc_pmacro_tx_pwrd1; u32 emc_pmacro_tx_pwrd2; u32 emc_pmacro_tx_pwrd3; u32 emc_pmacro_tx_pwrd4; u32 emc_pmacro_tx_pwrd5; u32 emc_config_sample_delay; u32 emc_pmacro_brick_mapping0; u32 emc_pmacro_brick_mapping1; u32 emc_pmacro_brick_mapping2; u32 emc_pmacro_tx_sel_clk_src0; u32 emc_pmacro_tx_sel_clk_src1; u32 emc_pmacro_tx_sel_clk_src2; u32 emc_pmacro_tx_sel_clk_src3; u32 emc_pmacro_tx_sel_clk_src4; u32 emc_pmacro_tx_sel_clk_src5; u32 emc_pmacro_perbit_fgcg_ctrl0; u32 emc_pmacro_perbit_fgcg_ctrl1; u32 emc_pmacro_perbit_fgcg_ctrl2; u32 emc_pmacro_perbit_fgcg_ctrl3; u32 emc_pmacro_perbit_fgcg_ctrl4; u32 emc_pmacro_perbit_fgcg_ctrl5; u32 emc_pmacro_perbit_rfu_ctrl0; u32 emc_pmacro_perbit_rfu_ctrl1; u32 emc_pmacro_perbit_rfu_ctrl2; u32 emc_pmacro_perbit_rfu_ctrl3; u32 emc_pmacro_perbit_rfu_ctrl4; u32 emc_pmacro_perbit_rfu_ctrl5; u32 emc_pmacro_perbit_rfu1_ctrl0; u32 emc_pmacro_perbit_rfu1_ctrl1; u32 emc_pmacro_perbit_rfu1_ctrl2; u32 emc_pmacro_perbit_rfu1_ctrl3; u32 emc_pmacro_perbit_rfu1_ctrl4; u32 emc_pmacro_perbit_rfu1_ctrl5; u32 emc_pmacro_data_pi_ctrl; u32 emc_pmacro_cmd_pi_ctrl; u32 emc_pmacro_ddll_bypass; u32 emc_pmacro_ddll_pwrd0; u32 emc_pmacro_ddll_pwrd1; u32 emc_pmacro_ddll_pwrd2; u32 emc_pmacro_cmd_ctrl0; u32 emc_pmacro_cmd_ctrl1; u32 emc_pmacro_cmd_ctrl2; /* DRAM size information */ /* Specifies the value for MC_EMEM_ADR_CFG */ u32 mc_emem_adr_cfg; /* Specifies the value for MC_EMEM_ADR_CFG_DEV0 */ u32 mc_emem_adr_cfg_dev0; /* Specifies the value for MC_EMEM_ADR_CFG_DEV1 */ u32 mc_emem_adr_cfg_dev1; u32 mc_emem_adr_cfg_channel_mask; /* Specifies the value for MC_EMEM_BANK_SWIZZLE_CFG0 */ u32 mc_emem_adr_cfg_bank_mask0; /* Specifies the value for MC_EMEM_BANK_SWIZZLE_CFG1 */ u32 mc_emem_adr_cfg_bank_mask1; /* Specifies the value for MC_EMEM_BANK_SWIZZLE_CFG2 */ u32 mc_emem_adr_cfg_bank_mask2; /* * Specifies the value for MC_EMEM_CFG which holds the external memory * size (in KBytes) */ u32 mc_emem_cfg; /* MC arbitration configuration */ /* Specifies the value for MC_EMEM_ARB_CFG */ u32 mc_emem_arb_cfg; /* Specifies the value for MC_EMEM_ARB_OUTSTANDING_REQ */ u32 mc_emem_arb_outstanding_req; u32 emc_emem_arb_refpb_hp_ctrl; u32 emc_emem_arb_refpb_bank_ctrl; /* Specifies the value for MC_EMEM_ARB_TIMING_RCD */ u32 mc_emem_arb_timing_rcd; /* Specifies the value for MC_EMEM_ARB_TIMING_RP */ u32 mc_emem_arb_timing_rp; /* Specifies the value for MC_EMEM_ARB_TIMING_RC */ u32 mc_emem_arb_timing_rc; /* Specifies the value for MC_EMEM_ARB_TIMING_RAS */ u32 mc_emem_arb_timing_ras; /* Specifies the value for MC_EMEM_ARB_TIMING_FAW */ u32 mc_emem_arb_timing_faw; /* Specifies the value for MC_EMEM_ARB_TIMING_RRD */ u32 mc_emem_arb_timing_rrd; /* Specifies the value for MC_EMEM_ARB_TIMING_RAP2PRE */ u32 mc_emem_arb_timing_rap2pre; /* Specifies the value for MC_EMEM_ARB_TIMING_WAP2PRE */ u32 mc_emem_arb_timing_wap2pre; /* Specifies the value for MC_EMEM_ARB_TIMING_R2R */ u32 mc_emem_arb_timing_r2r; /* Specifies the value for MC_EMEM_ARB_TIMING_W2W */ u32 mc_emem_arb_timing_w2w; /* Specifies the value for MC_EMEM_ARB_TIMING_R2W */ u32 mc_emem_arb_timing_r2w; /* Specifies the value for MC_EMEM_ARB_TIMING_W2R */ u32 mc_emem_arb_timing_w2r; u32 mc_emem_arb_timing_rfcpb; /* Specifies the value for MC_EMEM_ARB_DA_TURNS */ u32 mc_emem_arb_da_turns; /* Specifies the value for MC_EMEM_ARB_DA_COVERS */ u32 mc_emem_arb_da_covers; /* Specifies the value for MC_EMEM_ARB_MISC0 */ u32 mc_emem_arb_misc0; /* Specifies the value for MC_EMEM_ARB_MISC1 */ u32 mc_emem_arb_misc1; u32 mc_emem_arb_misc2; /* Specifies the value for MC_EMEM_ARB_RING1_THROTTLE */ u32 mc_emem_arb_ring1_throttle; /* Specifies the value for MC_EMEM_ARB_OVERRIDE */ u32 mc_emem_arb_override; /* Specifies the value for MC_EMEM_ARB_OVERRIDE_1 */ u32 mc_emem_arb_override1; /* Specifies the value for MC_EMEM_ARB_RSV */ u32 mc_emem_arb_rsv; u32 mc_da_cfg0; u32 mc_emem_arb_timing_ccdmw; /* Specifies the value for MC_CLKEN_OVERRIDE */ u32 mc_clken_override; /* Specifies the value for MC_STAT_CONTROL */ u32 mc_stat_control; /* Specifies the value for MC_VIDEO_PROTECT_BOM */ u32 mc_video_protect_bom; /* Specifies the value for MC_VIDEO_PROTECT_BOM_ADR_HI */ u32 mc_video_protect_bom_adr_hi; /* Specifies the value for MC_VIDEO_PROTECT_SIZE_MB */ u32 mc_video_protect_size_mb; /* Specifies the value for MC_VIDEO_PROTECT_VPR_OVERRIDE */ u32 mc_video_protect_vpr_override; /* Specifies the value for MC_VIDEO_PROTECT_VPR_OVERRIDE1 */ u32 mc_video_protect_vpr_override1; /* Specifies the value for MC_VIDEO_PROTECT_GPU_OVERRIDE_0 */ u32 mc_video_protect_gpu_override0; /* Specifies the value for MC_VIDEO_PROTECT_GPU_OVERRIDE_1 */ u32 mc_video_protect_gpu_override1; /* Specifies the value for MC_SEC_CARVEOUT_BOM */ u32 mc_sec_carveout_bom; /* Specifies the value for MC_SEC_CARVEOUT_ADR_HI */ u32 mc_sec_carveout_adr_hi; /* Specifies the value for MC_SEC_CARVEOUT_SIZE_MB */ u32 mc_sec_carveout_size_mb; /* Specifies the value for MC_VIDEO_PROTECT_REG_CTRL.VIDEO_PROTECT_WRITE_ACCESS */ u32 mc_video_protect_write_access; /* Specifies the value for MC_SEC_CARVEOUT_REG_CTRL.SEC_CARVEOUT_WRITE_ACCESS */ u32 mc_sec_carveout_protect_write_access; u32 mc_generalized_carveout1_bom; u32 mc_generalized_carveout1_bom_hi; u32 mc_generalized_carveout1_size_128kb; u32 mc_generalized_carveout1_access0; u32 mc_generalized_carveout1_access1; u32 mc_generalized_carveout1_access2; u32 mc_generalized_carveout1_access3; u32 mc_generalized_carveout1_access4; u32 mc_generalized_carveout1_force_internal_access0; u32 mc_generalized_carveout1_force_internal_access1; u32 mc_generalized_carveout1_force_internal_access2; u32 mc_generalized_carveout1_force_internal_access3; u32 mc_generalized_carveout1_force_internal_access4; u32 mc_generalized_carveout1_cfg0; u32 mc_generalized_carveout2_bom; u32 mc_generalized_carveout2_bom_hi; u32 mc_generalized_carveout2_size_128kb; u32 mc_generalized_carveout2_access0; u32 mc_generalized_carveout2_access1; u32 mc_generalized_carveout2_access2; u32 mc_generalized_carveout2_access3; u32 mc_generalized_carveout2_access4; u32 mc_generalized_carveout2_force_internal_access0; u32 mc_generalized_carveout2_force_internal_access1; u32 mc_generalized_carveout2_force_internal_access2; u32 mc_generalized_carveout2_force_internal_access3; u32 mc_generalized_carveout2_force_internal_access4; u32 mc_generalized_carveout2_cfg0; u32 mc_generalized_carveout3_bom; u32 mc_generalized_carveout3_bom_hi; u32 mc_generalized_carveout3_size_128kb; u32 mc_generalized_carveout3_access0; u32 mc_generalized_carveout3_access1; u32 mc_generalized_carveout3_access2; u32 mc_generalized_carveout3_access3; u32 mc_generalized_carveout3_access4; u32 mc_generalized_carveout3_force_internal_access0; u32 mc_generalized_carveout3_force_internal_access1; u32 mc_generalized_carveout3_force_internal_access2; u32 mc_generalized_carveout3_force_internal_access3; u32 mc_generalized_carveout3_force_internal_access4; u32 mc_generalized_carveout3_cfg0; u32 mc_generalized_carveout4_bom; u32 mc_generalized_carveout4_bom_hi; u32 mc_generalized_carveout4_size_128kb; u32 mc_generalized_carveout4_access0; u32 mc_generalized_carveout4_access1; u32 mc_generalized_carveout4_access2; u32 mc_generalized_carveout4_access3; u32 mc_generalized_carveout4_access4; u32 mc_generalized_carveout4_force_internal_access0; u32 mc_generalized_carveout4_force_internal_access1; u32 mc_generalized_carveout4_force_internal_access2; u32 mc_generalized_carveout4_force_internal_access3; u32 mc_generalized_carveout4_force_internal_access4; u32 mc_generalized_carveout4_cfg0; u32 mc_generalized_carveout5_bom; u32 mc_generalized_carveout5_bom_hi; u32 mc_generalized_carveout5_size_128kb; u32 mc_generalized_carveout5_access0; u32 mc_generalized_carveout5_access1; u32 mc_generalized_carveout5_access2; u32 mc_generalized_carveout5_access3; u32 mc_generalized_carveout5_access4; u32 mc_generalized_carveout5_force_internal_access0; u32 mc_generalized_carveout5_force_internal_access1; u32 mc_generalized_carveout5_force_internal_access2; u32 mc_generalized_carveout5_force_internal_access3; u32 mc_generalized_carveout5_force_internal_access4; u32 mc_generalized_carveout5_cfg0; /* Specifies enable for CA training */ u32 emc_ca_training_enable; /* Set if bit 6 select is greater than bit 7 select; uses aremc.spec packet SWIZZLE_BIT6_GT_BIT7 */ u32 swizzle_rank_byte_encode; /* Specifies enable and offset for patched boot rom write */ u32 boot_rom_patch_control; /* Specifies data for patched boot rom write */ u32 boot_rom_patch_data; /* Specifies the value for MC_MTS_CARVEOUT_BOM */ u32 mc_mts_carveout_bom; /* Specifies the value for MC_MTS_CARVEOUT_ADR_HI */ u32 mc_mts_carveout_adr_hi; /* Specifies the value for MC_MTS_CARVEOUT_SIZE_MB */ u32 mc_mts_carveout_size_mb; /* Specifies the value for MC_MTS_CARVEOUT_REG_CTRL */ u32 mc_mts_carveout_reg_ctrl; /* Specifies the clients that are allowed to access untranslated memory */ u32 mc_untranslated_region_check; /* Just a place holder for special usage when there is no BCT for certain registers */ u32 bct_na; } sdram_params_t210b01_t; #endif ================================================ FILE: bdk/mem/smmu.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 balika011 * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include /*! SMMU register defines */ #define SMMU_ASID(asid) (((asid) << 24u) | ((asid) << 16u) | ((asid) << 8u) | (asid)) #define SMMU_ENABLE BIT(31) #define SMMU_TLB_ACTIVE_LINES(l) ((l) << 0u) #define SMMU_TLB_RR_ARBITRATION BIT(28) #define SMMU_TLB_HIT_UNDER_MISS BIT(29) #define SMMU_TLB_STATS_ENABLE BIT(31) #define SMUU_PTC_INDEX_MAP(m) ((m) << 0u) #define SMUU_PTC_LINE_MASK(m) ((m) << 8u) #define SMUU_PTC_REQ_LIMIT(l) ((l) << 24u) #define SMUU_PTC_CACHE_ENABLE BIT(29) #define SMUU_PTC_STATS_ENABLE BIT(31) /*! Page table defines */ #define SMMU_4MB_REGION 0 #define SMMU_PAGE_TABLE 1 #define SMMU_PDIR_COUNT 1024 #define SMMU_PTBL_COUNT 1024 #define SMMU_PAGE_SHIFT 12u #define SMMU_PTN_SHIFT SMMU_PAGE_SHIFT #define SMMU_PDN_SHIFT 22u #define SMMU_ADDR_TO_PFN(addr) ((addr) >> SMMU_PAGE_SHIFT) #define SMMU_ADDR_TO_PTN(addr) ((addr) >> SMMU_PTN_SHIFT) #define SMMU_ADDR_TO_PDN(addr) ((addr) >> SMMU_PDN_SHIFT) #define SMMU_PTN_TO_ADDR(ptn) ((ptn) << SMMU_PTN_SHIFT) #define SMMU_PDN_TO_ADDR(pdn) ((pdn) << SMMU_PDN_SHIFT) #define SMMU_PTB(page, attr) (((attr) << 29u) | ((page) >> SMMU_PAGE_SHIFT)) #define SMMU_PAYLOAD_EN_SHIFT 4 #define SMMU_PAYLOAD_EN_SET 0x20 #define SMMU_PAYLOAD_EN_UNSET 0x00 // Enabling SMMU requires a TZ (EL3) secure write. MC(MC_SMMU_CONFIG) = 1; static u8 smmu_enable_payload[] = { 0xC1, 0x00, 0x00, 0x18, // 0x00: LDR W1, =0x70019010 0x20, 0x00, 0x80, 0xD2, // 0x04: MOV X0, #0x1 0x20, 0x00, 0x00, 0xB9, // 0x08: STR W0, [X1] 0x1F, 0x71, 0x08, 0xD5, // 0x0C: IC IALLUIS 0x9F, 0x3B, 0x03, 0xD5, // 0x10: DSB ISH 0xFE, 0xFF, 0xFF, 0x17, // 0x14: B loop 0x10, 0x90, 0x01, 0x70, // 0x18: MC_SMMU_CONFIG }; static void *smmu_heap = (void *)SMMU_HEAP_ADDR; static bool smmu_enabled = false; void *smmu_page_zalloc(u32 num) { void *page = smmu_heap; memset(page, 0, SZ_PAGE * num); smmu_heap += SZ_PAGE * num; return page; } static pde_t *_smmu_pdir_alloc() { pde_t *pdir = (pde_t *)smmu_page_zalloc(1); // Initialize pdes with no permissions. for (u32 pdn = 0; pdn < SMMU_PDIR_COUNT; pdn++) pdir[pdn].huge.page = pdn; return pdir; } static void _smmu_flush_regs() { (void)MC(MC_SMMU_PTB_DATA); } void smmu_flush_all() { // Flush the entire page table cache. MC(MC_SMMU_PTC_FLUSH) = 0; _smmu_flush_regs(); // Flush the entire table. MC(MC_SMMU_TLB_FLUSH) = 0; _smmu_flush_regs(); } void smmu_init() { MC(MC_SMMU_PTB_ASID) = 0; MC(MC_SMMU_PTB_DATA) = 0; MC(MC_SMMU_TLB_CONFIG) = SMMU_TLB_HIT_UNDER_MISS | SMMU_TLB_RR_ARBITRATION | SMMU_TLB_ACTIVE_LINES(48); MC(MC_SMMU_PTC_CONFIG) = SMUU_PTC_CACHE_ENABLE | SMUU_PTC_REQ_LIMIT(8) | SMUU_PTC_LINE_MASK(0xF) | SMUU_PTC_INDEX_MAP(0x3F); MC(MC_SMMU_PTC_FLUSH) = 0; MC(MC_SMMU_TLB_FLUSH) = 0; } void smmu_enable() { if (smmu_enabled) return; // Launch payload on CCPLEX in order to set SMMU enable bit. ccplex_boot_cpu0((u32)smmu_enable_payload, false); msleep(100); ccplex_powergate_cpu0(); smmu_flush_all(); smmu_enabled = true; } void smmu_disable() { if (!smmu_enabled) return; // Set payload to disable SMMU. smmu_enable_payload[SMMU_PAYLOAD_EN_SHIFT] = SMMU_PAYLOAD_EN_UNSET; smmu_flush_all(); bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLN_INV_WAY, false); // Launch payload on CCPLEX in order to set SMMU enable bit. ccplex_boot_cpu0((u32)smmu_enable_payload, false); msleep(100); ccplex_powergate_cpu0(); smmu_flush_all(); // Restore payload to SMMU enable. smmu_enable_payload[SMMU_PAYLOAD_EN_SHIFT] = SMMU_PAYLOAD_EN_SET; smmu_enabled = false; smmu_heap = (void *)SMMU_HEAP_ADDR; } void smmu_reset_heap() { smmu_heap = (void *)SMMU_HEAP_ADDR; } void *smmu_domain_init(u32 dev_base, u32 asid) { void *ptb = _smmu_pdir_alloc(); MC(MC_SMMU_PTB_ASID) = asid; MC(MC_SMMU_PTB_DATA) = SMMU_PTB((u32)ptb, SMMU_ATTR_ALL); _smmu_flush_regs(); // Use the same macro for both quad and single domains. Reserved bits are not set anyway. MC(dev_base) = SMMU_ENABLE | SMMU_ASID(asid); _smmu_flush_regs(); return ptb; } void smmu_domain_deinit(u32 dev_base, u32 asid) { MC(MC_SMMU_PTB_ASID) = asid; MC(MC_SMMU_PTB_DATA) = 0; MC(dev_base) = 0; _smmu_flush_regs(); } void smmu_domain_bypass(u32 dev_base, bool bypass) { if (bypass) { smmu_flush_all(); bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLN_INV_WAY, false); MC(dev_base) &= ~SMMU_ENABLE; } else { bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLN_INV_WAY, false); MC(dev_base) |= SMMU_ENABLE; smmu_flush_all(); } _smmu_flush_regs(); } static pte_t *_smmu_get_pte(pde_t *pdir, u32 iova) { u32 pdn = SMMU_ADDR_TO_PDN(iova); pte_t *ptbl; // Get 4MB page table or initialize one. if (pdir[pdn].tbl.attr) ptbl = (pte_t *)(SMMU_PTN_TO_ADDR(pdir[pdn].tbl.table)); else { // Allocate page table. ptbl = (pte_t *)smmu_page_zalloc(1); // Get address. u32 addr = SMMU_PDN_TO_ADDR(pdn); // Initialize page table with no permissions. for (u32 pn = 0; pn < SMMU_PTBL_COUNT; pn++, addr += SZ_PAGE) ptbl[pn].page = SMMU_ADDR_TO_PFN(addr); // Set page table to the page directory. pdir[pdn].tbl.table = SMMU_ADDR_TO_PTN((u32)ptbl); pdir[pdn].tbl.next = SMMU_PAGE_TABLE; pdir[pdn].tbl.attr = SMMU_ATTR_ALL; smmu_flush_all(); } return &ptbl[SMMU_ADDR_TO_PTN(iova) % SMMU_PTBL_COUNT]; } void smmu_map(void *ptb, u32 iova, u64 iopa, u32 pages, u32 attr) { // Map pages to page table entries. VA/PA should be aligned to 4KB. for (u32 i = 0; i < pages; i++) { pte_t *pte = _smmu_get_pte((pde_t *)ptb, iova); pte->page = SMMU_ADDR_TO_PFN(iopa); pte->attr = attr; iova += SZ_PAGE; iopa += SZ_PAGE; } smmu_flush_all(); } void smmu_map_huge(void *ptb, u32 iova, u64 iopa, u32 regions, u32 attr) { pde_t *pdir = (pde_t *)ptb; // Map 4MB regions to page directory entries. VA/PA should be aligned to 4MB. for (u32 i = 0; i < regions; i++) { u32 pdn = SMMU_ADDR_TO_PDN(iova); pdir[pdn].huge.page = SMMU_ADDR_TO_PDN(iopa); pdir[pdn].huge.next = SMMU_4MB_REGION; pdir[pdn].huge.attr = attr; iova += SZ_4M; iopa += SZ_4M; } smmu_flush_all(); } ================================================ FILE: bdk/mem/smmu.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _SMMU_H_ #define _SMMU_H_ #include #include #define MC_SMMU_AVPC_ASID 0x23C #define MC_SMMU_TSEC_ASID 0x294 #define SMMU_NS BIT(0) #define SMMU_WRITE BIT(1) #define SMMU_READ BIT(2) #define SMMU_ATTR_ALL (SMMU_READ | SMMU_WRITE | SMMU_NS) typedef struct _pde_t { union { union { struct { u32 table:22; u32 rsvd:6; u32 next:1; u32 attr:3; } tbl; struct { u32 rsvd_:10; u32 page:12; u32 rsvd:6; u32 next:1; u32 attr:3; } huge; }; u32 pde; }; } pde_t; typedef struct _pte_t { u32 page:22; u32 rsvd:7; u32 attr:3; } pte_t; static_assert(sizeof(pde_t) == sizeof(u32), "pde_t size is wrong!"); static_assert(sizeof(pte_t) == sizeof(u32), "pte_t size is wrong!"); void *smmu_page_zalloc(u32 num); void smmu_flush_all(); void smmu_init(); void smmu_enable(); void smmu_disable(); void smmu_reset_heap(); void *smmu_domain_init(u32 dev_base, u32 asid); void smmu_domain_deinit(u32 dev_base, u32 asid); void smmu_domain_bypass(u32 dev_base, bool bypass); void smmu_map(void *ptb, u32 iova, u64 iopa, u32 pages, u32 attr); void smmu_map_huge(void *ptb, u32 iova, u64 iopa, u32 regions, u32 attr); #endif ================================================ FILE: bdk/memory_map.h ================================================ /* * Copyright (c) 2019-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MEMORY_MAP_H_ #define _MEMORY_MAP_H_ /* --- BIT/BCT: 0x40000000 - 0x40003000 --- */ /* --- IPL: 0x40008000 - 0x40028000 --- */ #define LDR_LOAD_ADDR 0x40007000 #define IPL_LOAD_ADDR 0x40008000 #define IPL_SZ_MAX SZ_128K #define XUSB_RING_ADDR 0x40020000 // XUSB EP context and TRB ring buffers. #define SECMON_MIN_START 0x4002B000 // Minimum reserved address for secmon. #define SDRAM_PARAMS_ADDR 0x40030000 // SDRAM extraction buffer during sdram init. #define SDRAM_PARAMS_SZ 0x838 /* start.S / exception_handlers.S */ #define SYS_STACK_TOP_INIT 0x4003FF00 #define FIQ_STACK_TOP 0x40040000 #define IRQ_STACK_TOP 0x40040000 #define IPL_RELOC_ADDR 0x4003FF00 #define IPL_RELOC_SZ 0x10 #define EXCP_STORAGE_ADDR 0x4003FF10 #define EXCP_STORAGE_SZ 0x10 /* --- DRAM START --- */ #define DRAM_START 0x80000000 #define HOS_RSVD SZ_16M // Do not write anything in this area. #define NYX_LOAD_ADDR 0x81000000 #define NYX_SZ_MAX SZ_16M /* --- Gap: 0x82000000 - 0x82FFFFFF --- */ // Heap buffer. #define IPL_HEAP_START 0x82000000 #define IPL_HEAP_SZ (SZ_256M) #define SMMU_HEAP_ADDR 0x92000000 /* --- Gap: 1280MB 0x96000000 - 0xE4FFFFFF --- */ // Virtual disk / Chainloader buffers. #define RAM_DISK_ADDR 0x95000000 #define RAM_DISK_SZ 0x50000000 // 1280MB. // L4T Kernel Panic Storage (PSTORE). #define PSTORE_ADDR 0xB0000000 #define PSTORE_SZ SZ_2M // NX BIS driver sector cache. #define NX_BIS_CACHE_ADDR 0xC7000000 #define NX_BIS_CACHE_SZ 0x10020000 // 256MB. #define NX_BIS_LOOKUP_ADDR 0xD8000000 #define NX_BIS_LOOKUP_SZ 0x8000000 // 128MB. 512GB eMMC partition max. //#define DRAM_LIB_ADDR 0xE0000000 /* --- Chnldr: 252MB 0xC03C0000 - 0xCFFFFFFF --- */ //! Only used when chainloading. // SDMMC DMA buffer. Used for unaligned DMA buffer address. #define SDMMC_ALT_DMA_BUFFER 0xE5000000 #define SDMMC_ALT_DMA_BUF_SZ SZ_128M // Nyx buffers. !Do not change! #define NYX_STORAGE_ADDR 0xED000000 #define NYX_STR_SZ SZ_16M #define NYX_RES_ADDR 0xEE000000 #define NYX_RES_SZ SZ_16M // SDMMC Application DMA aligned buffers. #define SDXC_BUF_ALIGNED 0xEF000000 // Also used by UMS. #define EMMC_BUF_ALIGNED 0xF0000000 #define MIXD_BUF_ALIGNED EMMC_BUF_ALIGNED #define SDMMC_DMA_BUF_SZ SZ_16M // 4MB currently used. // Nyx LvGL buffers. #define NYX_LV_VDB_ADR 0xF1000000 #define NYX_FB_SZ 0x384000 // 1280 x 720 x 4. #define NYX_LV_MEM_ADR 0xF1400000 #define NYX_LV_MEM_SZ 0x6600000 // 70MB. // Framebuffer addresses. !Do not change! #define IPL_FB_ADDRESS 0xF5A00000 #define IPL_FB_SZ 0x384000 // 720 x 1280 x 4. #define LOG_FB_ADDRESS 0xF5E00000 #define LOG_FB_SZ 0x334000 // 1280 x 656 x 4. #define NYX_FB_ADDRESS 0xF6200000 #define NYX_FB2_ADDRESS 0xF6600000 #define NYX_FB_SZ 0x384000 // 1280 x 720 x 4. // USB buffers. #define USBD_ADDR 0xFEF00000 #define USB_DESCRIPTOR_ADDR 0xFEF40000 #define USB_EP_CONTROL_BUF_ADDR 0xFEF80000 #define USB_EP_BULK_IN_BUF_ADDR 0xFF000000 #define USB_EP_BULK_OUT_BUF_ADDR 0xFF800000 #define USB_EP_BULK_OUT_MAX_XFER SZ_8M // #define EXT_PAYLOAD_ADDR 0xC0000000 // #define RCM_PAYLOAD_ADDR (EXT_PAYLOAD_ADDR + ALIGN(PATCHED_RELOC_SZ, 0x10)) #endif ================================================ FILE: bdk/module.h ================================================ /* * Common Module Header * Copyright (c) 2018 M4xw * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MODULE_H_ #define _MODULE_H_ #include #include #define IANOS_EXT1 0x314E4149 // Module Callback typedef void (*cbMainModule_t)(const char *s); typedef void (*memcpy_t)(void *, void *, size_t); typedef void (*memset_t)(void *, int, size_t); typedef int (*reg_voltage_set_t)(u32, u32); typedef struct _bdkParams_t { void *gfx_con; void *gfx_ctx; heap_t *heap; memcpy_t memcpy; memset_t memset; u32 extension_magic; } bdk_params_t; // Module Caller. typedef void (*moduleEntrypoint)(void *, bdk_params_t *); #endif ================================================ FILE: bdk/power/bm92t36.c ================================================ /* * USB-PD driver for Nintendo Switch's TI BM92T36 * * Copyright (c) 2020-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "bm92t36.h" #include #include #define ALERT_STATUS_REG 0x2 #define STATUS1_REG 0x3 #define STATUS2_REG 0x4 #define COMMAND_REG 0x5 #define CONFIG1_REG 0x6 #define DEV_CAPS_REG 0x7 #define READ_PDOS_SRC_REG 0x8 #define CONFIG2_REG 0x17 #define DP_STATUS_REG 0x18 #define DP_ALERT_EN_REG 0x19 #define VENDOR_CONFIG_REG 0x1A #define AUTO_NGT_FIXED_REG 0x20 #define AUTO_NGT_BATT_REG 0x23 #define SYS_CONFIG1_REG 0x26 #define SYS_CONFIG2_REG 0x27 #define CURRENT_PDO_REG 0x28 #define CURRENT_RDO_REG 0x2B #define ALERT_ENABLE_REG 0x2E #define SYS_CONFIG3_REG 0x2F #define SET_RDO_REG 0x30 #define PDOS_SNK_REG 0x33 #define PDOS_SRC_PROV_REG 0x3C #define FW_TYPE_REG 0x4B #define FW_REVISION_REG 0x4C #define MAN_ID_REG 0x4D #define DEV_ID_REG 0x4E #define REV_ID_REG 0x4F #define INCOMING_VDM_REG 0x50 #define OUTGOING_VDM_REG 0x60 #define STATUS1_INSERT BIT(7) // Cable inserted. #define VER_36 0x36 #define MAN_ROHM 0x4B5 #define DEV_BM92T 0x3B0 #define PDO_TYPE_FIXED 0 #define PDO_TYPE_BATT 1 #define PDO_TYPE_VAR 2 #define PDO_TYPE_APDO 3 typedef struct _pd_object_t { unsigned int amp:10; unsigned int volt:10; unsigned int info:10; unsigned int type:2; } __attribute__((packed)) pd_object_t; static int _bm92t36_read_reg(u8 *buf, u32 size, u32 reg) { memset(buf, 0, size); return i2c_recv_buf_big(buf, size, I2C_1, BM92T36_I2C_ADDR, reg); } int bm92t36_get_version(u32 *value) { u8 buf[2]; u16 version, man, dev; _bm92t36_read_reg(buf, 2, FW_TYPE_REG); version = (buf[0] << 4) | buf[1]; _bm92t36_read_reg(buf, 2, MAN_ID_REG); man = (buf[1] << 8) | buf[0]; _bm92t36_read_reg(buf, 2, DEV_ID_REG); dev = (buf[1] << 8) | buf[0]; if (value) *value = (dev << 16) | version; if (version == VER_36 && man == MAN_ROHM && dev == DEV_BM92T) return 0; else return 1; } void bm92t36_get_source_info(bool *inserted, usb_pd_objects_t *usb_pd) { u8 buf[32]; pd_object_t pdos[7]; if (inserted) { _bm92t36_read_reg(buf, 2, STATUS1_REG); *inserted = (buf[0] & STATUS1_INSERT) ? true : false; } if (usb_pd) { _bm92t36_read_reg(buf, 29, READ_PDOS_SRC_REG); memcpy(pdos, &buf[1], 28); memset(usb_pd, 0, sizeof(usb_pd_objects_t)); usb_pd->pdo_no = buf[0] / sizeof(pd_object_t); if (usb_pd->pdo_no > 7) usb_pd->pdo_no = 7; u32 idx = 0; for (u32 i = 0; i < usb_pd->pdo_no; i++) { // Parse fixed type pdos only. if (pdos[i].type != PDO_TYPE_FIXED) continue; usb_pd->pdos[idx].amperage = pdos[i].amp * 10; usb_pd->pdos[idx].voltage = (pdos[i].volt * 50) / 1000; idx++; } usb_pd->pdo_no = idx; _bm92t36_read_reg(buf, 5, CURRENT_PDO_REG); memcpy(pdos, &buf[1], 4); usb_pd->selected_pdo.amperage = pdos[0].amp * 10; usb_pd->selected_pdo.voltage = (pdos[0].volt * 50) / 1000; } } ================================================ FILE: bdk/power/bm92t36.h ================================================ /* * USB-PD driver for Nintendo Switch's TI BM92T36 * * Copyright (c) 2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef __BM92T36_H_ #define __BM92T36_H_ #include #define BM92T36_I2C_ADDR 0x18 typedef struct _usb_pd_object_t { u32 amperage; u32 voltage; } usb_pd_object_t; typedef struct _usb_pd_objects_t { u32 pdo_no; usb_pd_object_t pdos[7]; usb_pd_object_t selected_pdo; } usb_pd_objects_t; int bm92t36_get_version(u32 *value); void bm92t36_get_source_info(bool *inserted, usb_pd_objects_t *usb_pd); #endif ================================================ FILE: bdk/power/bq24193.c ================================================ /* * Battery charger driver for Nintendo Switch's TI BQ24193 * * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "bq24193.h" #include #include static u8 bq24193_get_reg(u8 reg) { return i2c_recv_byte(I2C_1, BQ24193_I2C_ADDR, reg); } int bq24193_get_version(u32 *value) { u16 data = bq24193_get_reg(BQ24193_VendorPart); if (value) *value = data; if (data == 0x2F) return 0; else return 1; } int bq24193_get_property(enum BQ24193_reg_prop prop, int *value) { u8 data; switch (prop) { case BQ24193_InputVoltageLimit: // Input voltage limit (mV). data = bq24193_get_reg(BQ24193_InputSource); data = (data & BQ24193_INCONFIG_VINDPM_MASK) >> 3; *value = 0; *value += ((data >> 0) & 1) ? 80 : 0; *value += ((data >> 1) & 1) ? 160 : 0; *value += ((data >> 2) & 1) ? 320 : 0; *value += ((data >> 3) & 1) ? 640 : 0; *value += 3880; break; case BQ24193_InputCurrentLimit: // Input current limit (mA). data = bq24193_get_reg(BQ24193_InputSource); data &= BQ24193_INCONFIG_INLIMIT_MASK; switch (data) { case 0: *value = 100; break; case 1: *value = 150; break; case 2: *value = 500; break; case 3: *value = 900; break; case 4: *value = 1200; break; case 5: *value = 1500; break; case 6: *value = 2000; break; case 7: *value = 3000; break; } break; case BQ24193_SystemMinimumVoltage: // Minimum system voltage limit (mV). data = bq24193_get_reg(BQ24193_PORConfig); *value = (data & BQ24193_PORCONFIG_SYSMIN_MASK) >> 1; *value *= 100; *value += 3000; break; case BQ24193_FastChargeCurrentLimit: // Fast charge current limit (mA). data = bq24193_get_reg(BQ24193_ChrgCurr); data = (data & BQ24193_CHRGCURR_ICHG_MASK) >> 2; *value = 0; *value += ((data >> 0) & 1) ? 64 : 0; *value += ((data >> 1) & 1) ? 128 : 0; *value += ((data >> 2) & 1) ? 256 : 0; *value += ((data >> 3) & 1) ? 512 : 0; *value += ((data >> 4) & 1) ? 1024 : 0; *value += ((data >> 5) & 1) ? 2048 : 0; *value += 512; data = bq24193_get_reg(BQ24193_ChrgCurr); data &= BQ24193_CHRGCURR_20PCT_MASK; if (data) *value = *value * 20 / 100; // Fast charge current limit is 20%. break; case BQ24193_ChargeVoltageLimit: // Charge voltage limit (mV). data = bq24193_get_reg(BQ24193_ChrgVolt); data = (data & BQ24193_CHRGVOLT_VREG) >> 2; *value = 0; *value += ((data >> 0) & 1) ? 16 : 0; *value += ((data >> 1) & 1) ? 32 : 0; *value += ((data >> 2) & 1) ? 64 : 0; *value += ((data >> 3) & 1) ? 128 : 0; *value += ((data >> 4) & 1) ? 256 : 0; *value += ((data >> 5) & 1) ? 512 : 0; *value += 3504; break; case BQ24193_RechargeThreshold: // Recharge voltage threshold less than voltage limit (mV). data = bq24193_get_reg(BQ24193_ChrgVolt); data &= BQ24193_IRTHERMAL_THERM_MASK; if (data) *value = 300; else *value = 100; break; case BQ24193_ThermalRegulation: // Thermal regulation threshold (oC). data = bq24193_get_reg(BQ24193_IRCompThermal); data &= BQ24193_IRTHERMAL_THERM_MASK; switch (data) { case 0: *value = 60; break; case 1: *value = 80; break; case 2: *value = 100; break; case 3: *value = 120; break; } break; case BQ24193_ChargeStatus: // 0: Not charging, 1: Pre-charge, 2: Fast charging, 3: Charge termination done data = bq24193_get_reg(BQ24193_Status); *value = (data & BQ24193_STATUS_CHRG_MASK) >> 4; break; case BQ24193_TempStatus: // 0: Normal, 2: Warm, 3: Cool, 5: Cold, 6: Hot. data = bq24193_get_reg(BQ24193_FaultReg); *value = data & BQ24193_FAULT_THERM_MASK; break; case BQ24193_DevID: // Dev ID. data = bq24193_get_reg(BQ24193_VendorPart); *value = data & BQ24193_VENDORPART_DEV_MASK; break; case BQ24193_ProductNumber: // Product number. data = bq24193_get_reg(BQ24193_VendorPart); *value = (data & BQ24193_VENDORPART_PN_MASK) >> 3; break; default: return 1; } return 0; } void bq24193_enable_charger() { u8 reg = bq24193_get_reg(BQ24193_PORConfig); reg &= ~BQ24193_PORCONFIG_CHGCONFIG_MASK; reg |= BQ24193_PORCONFIG_CHGCONFIG_CHARGER_EN; i2c_send_byte(I2C_1, BQ24193_I2C_ADDR, BQ24193_PORConfig, reg); } void bq24193_fake_battery_removal() { // Disable watchdog to keep BATFET disabled. u8 value = bq24193_get_reg(BQ24193_ChrgTermTimer); value &= ~BQ24193_CHRGTERM_WATCHDOG_MASK; i2c_send_byte(I2C_1, BQ24193_I2C_ADDR, BQ24193_ChrgTermTimer, value); // Force BATFET to disabled state. This disconnects the battery from the system. value = bq24193_get_reg(BQ24193_Misc); value |= BQ24193_MISC_BATFET_DI_MASK; i2c_send_byte(I2C_1, BQ24193_I2C_ADDR, BQ24193_Misc, value); } ================================================ FILE: bdk/power/bq24193.h ================================================ /* * Battery charger driver for Nintendo Switch's TI BQ24193 * * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef __BQ24193_H_ #define __BQ24193_H_ #include #define BQ24193_I2C_ADDR 0x6B // REG 0 masks. #define BQ24193_INCONFIG_INLIMIT_MASK (7<<0) #define BQ24193_INCONFIG_VINDPM_MASK 0x78 #define BQ24193_INCONFIG_HIZ_EN_MASK (1<<7) // REG 1 masks. #define BQ24193_PORCONFIG_BOOST_MASK (1<<0) #define BQ24193_PORCONFIG_SYSMIN_MASK (7<<1) // 3000uV HOS default. #define BQ24193_PORCONFIG_CHGCONFIG_MASK (3<<4) #define BQ24193_PORCONFIG_CHGCONFIG_CHARGER_EN (1<<4) #define BQ24193_PORCONFIG_I2CWATCHDOG_MASK (1<<6) #define BQ24193_PORCONFIG_RESET_MASK (1<<7) // REG 2 masks. #define BQ24193_CHRGCURR_20PCT_MASK (1<<0) #define BQ24193_CHRGCURR_ICHG_MASK 0xFC // REG 3 masks. #define BQ24193_PRECHRG_ITERM 0x0F #define BQ24193_PRECHRG_IPRECHG 0xF0 // REG 4 masks. #define BQ24193_CHRGVOLT_VTHRES (1<<0) #define BQ24193_CHRGVOLT_BATTLOW (1<<1) #define BQ24193_CHRGVOLT_VREG 0xFC // REG 5 masks. #define BQ24193_CHRGTERM_ISET_MASK (1<<0) #define BQ24193_CHRGTERM_CHGTIMER_MASK (3<<1) #define BQ24193_CHRGTERM_ENTIMER_MASK (1<<3) #define BQ24193_CHRGTERM_WATCHDOG_MASK (3<<4) #define BQ24193_CHRGTERM_TERM_ST_MASK (1<<6) #define BQ24193_CHRGTERM_TERM_EN_MASK (1<<7) // REG 6 masks. #define BQ24193_IRTHERMAL_THERM_MASK (3<<0) #define BQ24193_IRTHERMAL_VCLAMP_MASK (7<<2) #define BQ24193_IRTHERMAL_BATTCOMP_MASK (7<<5) // REG 7 masks. #define BQ24193_MISC_INT_MASK (3<<0) #define BQ24193_MISC_VSET_MASK (1<<4) #define BQ24193_MISC_BATFET_DI_MASK (1<<5) #define BQ24193_MISC_TMR2X_EN_MASK (1<<6) #define BQ24193_MISC_DPDM_EN_MASK (1<<7) // REG 8 masks. #define BQ24193_STATUS_VSYS_MASK (1<<0) #define BQ24193_STATUS_THERM_MASK (1<<1) #define BQ24193_STATUS_PG_MASK (1<<2) #define BQ24193_STATUS_DPM_MASK (1<<3) #define BQ24193_STATUS_CHRG_MASK (3<<4) #define BQ24193_STATUS_VBUS_MASK (3<<6) // REG 9 masks. #define BQ24193_FAULT_THERM_MASK (7<<0) #define BQ24193_FAULT_BATT_OVP_MASK (1<<3) #define BQ24193_FAULT_CHARGE_MASK (3<<4) #define BQ24193_FAULT_BOOST_MASK (1<<6) #define BQ24193_FAULT_WATCHDOG_MASK (1<<7) // REG A masks. #define BQ24193_VENDORPART_DEV_MASK (3<<0) #define BQ24193_VENDORPART_PN_MASK (7<<3) enum BQ24193_reg { BQ24193_InputSource = 0x00, BQ24193_PORConfig = 0x01, BQ24193_ChrgCurr = 0x02, BQ24193_PreChrgTerm = 0x03, BQ24193_ChrgVolt = 0x04, BQ24193_ChrgTermTimer = 0x05, BQ24193_IRCompThermal = 0x06, BQ24193_Misc = 0x07, BQ24193_Status = 0x08, BQ24193_FaultReg = 0x09, BQ24193_VendorPart = 0x0A, }; enum BQ24193_reg_prop { BQ24193_InputVoltageLimit, // REG 0. BQ24193_InputCurrentLimit, // REG 0. BQ24193_SystemMinimumVoltage, // REG 1. BQ24193_FastChargeCurrentLimit, // REG 2. BQ24193_ChargeVoltageLimit, // REG 4. BQ24193_RechargeThreshold, // REG 4. BQ24193_ThermalRegulation, // REG 6. BQ24193_ChargeStatus, // REG 8. BQ24193_TempStatus, // REG 9. BQ24193_DevID, // REG A. BQ24193_ProductNumber, // REG A. }; int bq24193_get_version(u32 *value); int bq24193_get_property(enum BQ24193_reg_prop prop, int *value); void bq24193_enable_charger(); void bq24193_fake_battery_removal(); #endif /* __BQ24193_H_ */ ================================================ FILE: bdk/power/max17050.c ================================================ /* * Fuel gauge driver for Nintendo Switch's Maxim 17050 * * Copyright (c) 2011 Samsung Electronics * MyungJoo Ham * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * This driver is based on max17040_battery.c */ #include "max17050.h" #include #include /* Board default values */ #define BOARD_CGAIN 2 /* Actual: 1.99993 */ #define BOARD_RSENSE_MOHM 5 /* 0.005 Ohm */ #define ADJ_RSENSE_MOHM (BOARD_RSENSE_MOHM * BOARD_CGAIN) /* 0.01 Ohm */ /* Consider RepCap which is less then 10 units below FullCAP full */ #define FULL_THRESHOLD 10 /* Status register bits */ #define STATUS_POR_BIT BIT(1) #define STATUS_BST_BIT BIT(3) #define STATUS_VMN_BIT BIT(8) #define STATUS_TMN_BIT BIT(9) #define STATUS_SMN_BIT BIT(10) #define STATUS_BI_BIT BIT(11) #define STATUS_VMX_BIT BIT(12) #define STATUS_TMX_BIT BIT(13) #define STATUS_SMX_BIT BIT(14) #define STATUS_BR_BIT BIT(15) #define VFSOC0_LOCK 0x0000 #define VFSOC0_UNLOCK 0x0080 #define MAX17050_VMAX_TOLERANCE 50 /* 50 mV */ static u16 max17050_get_reg(u8 reg) { u16 data = 0; i2c_recv_buf_small((u8 *)&data, 2, I2C_1, MAXIM17050_I2C_ADDR, reg); return data; } int max17050_get_version(u32 *value) { u16 data = max17050_get_reg(MAX17050_DevName); if (value) *value = data; if (data == 0x00AC) return 0; else return 1; } int max17050_get_property(enum MAX17050_reg reg, int *value) { u16 data; switch (reg) { case MAX17050_Age: // Age (percent). Based on 100% x (FullCAP Register/DesignCap). data = max17050_get_reg(MAX17050_Age); *value = data >> 8; /* Show MSB. 1% increments */ break; case MAX17050_Cycles: // Cycle count. *value = max17050_get_reg(MAX17050_Cycles); break; case MAX17050_MinVolt: // Voltage max/min data = max17050_get_reg(MAX17050_MinMaxVolt); *value = (data & 0xff) * 20; /* Voltage MIN. Units of 20mV */ break; case MAX17050_MaxVolt: // Voltage max/min data = max17050_get_reg(MAX17050_MinMaxVolt); *value = (data >> 8) * 20; /* Voltage MAX. Units of LSB = 20mV */ break; case MAX17050_V_empty: // Voltage min design. data = max17050_get_reg(MAX17050_V_empty); *value = (data >> 7) * 10; /* Units of LSB = 10mV */ break; case MAX17050_VCELL: // Voltage now. data = max17050_get_reg(MAX17050_VCELL); *value = (data >> 3) * 625 / 1000; /* Units of LSB = 0.625mV */ break; case MAX17050_AvgVCELL: // Voltage avg. data = max17050_get_reg(MAX17050_AvgVCELL); *value = (data >> 3) * 625 / 1000; /* Units of LSB = 0.625mV */ break; case MAX17050_OCVInternal: // Voltage ocv. data = max17050_get_reg(MAX17050_OCVInternal); *value = (data >> 3) * 625 / 1000; /* Units of LSB = 0.625mV */ break; case MAX17050_RepSOC: // Capacity %. *value = max17050_get_reg(MAX17050_RepSOC); break; case MAX17050_DesignCap: // Charge full design. data = max17050_get_reg(MAX17050_DesignCap); *value = (u32)data * 5 / ADJ_RSENSE_MOHM; /* Units of LSB = 5uVh / Rsense = 0.5mAh */ break; case MAX17050_FullCAP: // Charge full. data = max17050_get_reg(MAX17050_FullCAP); *value = (u32)data * 5 / ADJ_RSENSE_MOHM; /* Units of LSB = 5uVh / Rsense = 0.5mAh */ break; case MAX17050_RepCap: // Charge now. data = max17050_get_reg(MAX17050_RepCap); *value = (u32)data * 5 / ADJ_RSENSE_MOHM; /* Units of LSB = 5uVh / Rsense = 0.5mAh */ break; case MAX17050_TEMP: // Temp. data = max17050_get_reg(MAX17050_TEMP); *value = (s16)data; *value = *value * 10 / 256; break; case MAX17050_Current: // Current now. data = max17050_get_reg(MAX17050_Current); *value = (int)(s16)data * 15625 / ADJ_RSENSE_MOHM / 10; /* Units of LSB = 1.5625uV / Rsense = 156.25uA */ break; case MAX17050_AvgCurrent: // Current avg. data = max17050_get_reg(MAX17050_AvgCurrent); *value = (int)(s16)data * 15625 / ADJ_RSENSE_MOHM / 10; /* Units of LSB = 1.5625uV / Rsense = 156.25uA */ break; default: return 1; } return 0; } static int _max17050_write_verify_reg(u8 reg, u16 value) { int retries = 8; int ret; do { ret = i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, reg, (u8 *)&value, 2); u16 read_value = max17050_get_reg(reg); if (!ret && read_value == value) break; } while (--retries); return ret; } static void _max17050_override_por(u8 reg, u16 value) { if (value) i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, reg, (u8 *)&value, 2); } static void _max17050_load_new_capacity_params() { u16 fullcap, repSoc, dq_acc, dp_acc; fullcap = 0x2476; // 4667mAh design capacity. dq_acc = 0x10bc; // From a healthy fuel gauge. dp_acc = 0x5e09; // =||= repSoc = 0x6400; // 100%. _max17050_write_verify_reg(MAX17050_RemCap, fullcap); _max17050_write_verify_reg(MAX17050_RepCap, fullcap); _max17050_write_verify_reg(MAX17050_dQacc, dq_acc); _max17050_write_verify_reg(MAX17050_dPacc, dp_acc); _max17050_write_verify_reg(MAX17050_FullCAP, fullcap); //i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_DesignCap, (u8 *)&fullcap, 2); _max17050_write_verify_reg(MAX17050_FullCAPNom, fullcap); /* Update SOC register with new SOC */ i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_RepSOC, (u8 *)&repSoc, 2); } static void _max17050_reset_vfsoc0_reg() { u16 lockVal = 0; u16 vfSoc = 0x6440; // >100% for fully charged battery lockVal = VFSOC0_UNLOCK; i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_VFSOC0Enable, (u8 *)&lockVal, 2); _max17050_write_verify_reg(MAX17050_VFSOC0, vfSoc); lockVal = VFSOC0_LOCK; i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_VFSOC0Enable, (u8 *)&lockVal, 2); } static void _max17050_update_capacity_regs() { u16 value = 0x2476; // Set to 4667mAh design capacity. _max17050_write_verify_reg(MAX17050_FullCAP, value); _max17050_write_verify_reg(MAX17050_FullCAPNom, value); //i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_DesignCap, config->design_cap, 2); } static void _max17050_write_config_regs() { u16 value = 0; value = 0x7254; i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_CONFIG, (u8 *)&value, 2); value = 0x2473; i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_LearnCFG, (u8 *)&value, 2); //i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_FilterCFG, (u8 *)&value, 2) //i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_RelaxCFG, (u8 *)&value, 2) //i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_FullSOCThr, (u8 *)&value, 2) } /* * Block write all the override values coming from platform data. * This function MUST be called before the POR initialization proceedure * specified by maxim. */ static void _max17050_override_por_values() { u16 dq_acc = 0x10bc; // From a healthy fuel gauge. u16 dp_acc = 0x5e09; // =||= _max17050_override_por(MAX17050_dQacc, dq_acc); _max17050_override_por(MAX17050_dPacc, dp_acc); //_max17050_override_por(MAX17050_RCOMP0, config->rcomp0); //0x58 //_max17050_override_por(MAX17050_TempCo, config->tcompc0); //0x1b22 //u16 k_empty0 = 0x439; //_max17050_override_por(map, MAX17050_K_empty0, k_empty0); // Unknown cell data } static void _max17050_set_por_bit(u16 value) { _max17050_write_verify_reg(MAX17050_STATUS, value); } void max17050_fix_configuration() { /* Init phase, set the POR bit */ _max17050_set_por_bit(STATUS_POR_BIT); /* Override POR values */ _max17050_override_por_values(); /* After Power up, the MAX17050 requires 500ms in order * to perform signal debouncing and initial SOC reporting */ msleep(500); /* Initialize configaration */ _max17050_write_config_regs(); /* update capacity params */ _max17050_update_capacity_regs(); /* delay must be atleast 350mS to allow VFSOC * to be calculated from the new configuration */ msleep(350); /* reset vfsoc0 reg */ _max17050_reset_vfsoc0_reg(); /* load new capacity params */ _max17050_load_new_capacity_params(); /* Init complete, Clear the POR bit */ //_max17050_set_por_bit(0); // Should we? Or let the switch to reconfigure POR? // Sets POR, BI, BR. _max17050_set_por_bit(0x8801); } void max17050_dump_regs(void *buf) { u16 *buff = (u16 *)buf; // Unlock model table. u16 unlock = 0x59; i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_MODELEnable1, (u8 *)&unlock, 2); unlock = 0xC4; i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_MODELEnable2, (u8 *)&unlock, 2); // Dump all battery fuel gauge registers. for (u32 i = 0; i < 0x100; i++) { buff[i] = max17050_get_reg(i); msleep(1); } // Lock model table. unlock = 0; i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_MODELEnable1, (u8 *)&unlock, 2); i2c_send_buf_small(I2C_1, MAXIM17050_I2C_ADDR, MAX17050_MODELEnable2, (u8 *)&unlock, 2); } ================================================ FILE: bdk/power/max17050.h ================================================ /* * Fuel gauge driver for Nintendo Switch's Maxim 17050 * * Copyright (c) 2011 Samsung Electronics * MyungJoo Ham * Copyright (c) 2018-2020 CTCaer * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifndef __MAX17050_H_ #define __MAX17050_H_ #include #define MAXIM17050_I2C_ADDR 0x36 enum MAX17050_reg { MAX17050_STATUS = 0x00, MAX17050_VALRT_Th = 0x01, MAX17050_TALRT_Th = 0x02, MAX17050_SALRT_Th = 0x03, MAX17050_AtRate = 0x04, MAX17050_RepCap = 0x05, MAX17050_RepSOC = 0x06, MAX17050_Age = 0x07, MAX17050_TEMP = 0x08, MAX17050_VCELL = 0x09, MAX17050_Current = 0x0A, MAX17050_AvgCurrent = 0x0B, MAX17050_SOC = 0x0D, MAX17050_AvSOC = 0x0E, MAX17050_RemCap = 0x0F, MAX17050_FullCAP = 0x10, MAX17050_TTE = 0x11, MAX17050_QRTbl00 = 0x12, MAX17050_FullSOCThr = 0x13, MAX17050_RSLOW = 0x14, MAX17050_AvgTA = 0x16, MAX17050_Cycles = 0x17, MAX17050_DesignCap = 0x18, MAX17050_AvgVCELL = 0x19, MAX17050_MinMaxTemp = 0x1A, MAX17050_MinMaxVolt = 0x1B, MAX17050_MinMaxCurr = 0x1C, MAX17050_CONFIG = 0x1D, MAX17050_ICHGTerm = 0x1E, MAX17050_AvCap = 0x1F, MAX17050_ManName = 0x20, MAX17050_DevName = 0x21, MAX17050_QRTbl10 = 0x22, MAX17050_FullCAPNom = 0x23, MAX17050_TempNom = 0x24, MAX17050_TempLim = 0x25, MAX17050_TempHot = 0x26, MAX17050_AIN = 0x27, MAX17050_LearnCFG = 0x28, MAX17050_FilterCFG = 0x29, MAX17050_RelaxCFG = 0x2A, MAX17050_MiscCFG = 0x2B, MAX17050_TGAIN = 0x2C, MAX17050_TOFF = 0x2D, MAX17050_CGAIN = 0x2E, MAX17050_COFF = 0x2F, MAX17050_QRTbl20 = 0x32, MAX17050_SOC_empty = 0x33, MAX17050_T_empty = 0x34, MAX17050_FullCAP0 = 0x35, MAX17050_LAvg_empty = 0x36, MAX17050_FCTC = 0x37, MAX17050_RCOMP0 = 0x38, MAX17050_TempCo = 0x39, MAX17050_V_empty = 0x3A, MAX17050_K_empty0 = 0x3B, MAX17050_TaskPeriod = 0x3C, MAX17050_FSTAT = 0x3D, MAX17050_TIMER = 0x3E, MAX17050_SHDNTIMER = 0x3F, MAX17050_QRTbl30 = 0x42, MAX17050_dQacc = 0x45, MAX17050_dPacc = 0x46, MAX17050_VFSOC0 = 0x48, Max17050_QH0 = 0x4C, MAX17050_QH = 0x4D, MAX17050_QL = 0x4E, MAX17050_MinVolt = 0x50, // Custom ID. Not to be sent to i2c. MAX17050_MaxVolt = 0x51, // Custom ID. Not to be sent to i2c. MAX17050_VFSOC0Enable = 0x60, MAX17050_MODELEnable1 = 0x62, MAX17050_MODELEnable2 = 0x63, MAX17050_MODELChrTbl = 0x80, MAX17050_OCV = 0xEE, MAX17050_OCVInternal = 0xFB, MAX17050_VFSOC = 0xFF, }; int max17050_get_version(u32 *value); int max17050_get_property(enum MAX17050_reg reg, int *value); void max17050_fix_configuration(); void max17050_dump_regs(void *buf); #endif /* __MAX17050_H_ */ ================================================ FILE: bdk/power/max77620.h ================================================ /* * Defining registers address and its bit definitions of MAX77620 and MAX20024 * * Copyright (c) 2019-2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. */ #ifndef _MFD_MAX77620_H_ #define _MFD_MAX77620_H_ #define MAX77620_I2C_ADDR 0x3C /* GLOBAL, PMIC, GPIO, FPS, ONOFFC, CID Registers */ #define MAX77620_REG_CNFGGLBL1 0x00 #define MAX77620_CNFGGLBL1_LBRSTEN BIT(0) #define MAX77620_CNFGGLBL1_LBDAC_MASK 0x0E #define MAX77620_CNFGGLBL1_LBDAC_2700 (0 << 1) #define MAX77620_CNFGGLBL1_LBDAC_2800 (1 << 1) #define MAX77620_CNFGGLBL1_LBDAC_2900 (2 << 1) #define MAX77620_CNFGGLBL1_LBDAC_3000 (3 << 1) #define MAX77620_CNFGGLBL1_LBDAC_3100 (4 << 1) #define MAX77620_CNFGGLBL1_LBDAC_3200 (5 << 1) #define MAX77620_CNFGGLBL1_LBDAC_3300 (6 << 1) #define MAX77620_CNFGGLBL1_LBDAC_3400 (7 << 1) #define MAX77620_CNFGGLBL1_LBHYST_100 (0 << 4) #define MAX77620_CNFGGLBL1_LBHYST_200 (1 << 4) #define MAX77620_CNFGGLBL1_LBHYST_300 (2 << 4) #define MAX77620_CNFGGLBL1_LBHYST_400 (3 << 4) #define MAX77620_CNFGGLBL1_MPPLD BIT(6) #define MAX77620_CNFGGLBL1_LBDAC_EN BIT(7) #define MAX77620_REG_CNFGGLBL2 0x01 #define MAX77620_TWD_MASK 0x3 #define MAX77620_TWD_2s 0x0 #define MAX77620_TWD_16s 0x1 #define MAX77620_TWD_64s 0x2 #define MAX77620_TWD_128s 0x3 #define MAX77620_WDTEN BIT(2) #define MAX77620_WDTSLPC BIT(3) #define MAX77620_WDTOFFC BIT(4) #define MAX77620_GLBL_LPM BIT(5) #define MAX77620_I2CTWD_MASK 0xC0 #define MAX77620_I2CTWD_DISABLED 0x00 #define MAX77620_I2CTWD_1_33ms 0x40 #define MAX77620_I2CTWD_35_7ms 0x80 #define MAX77620_I2CTWD_41_7ms 0xC0 #define MAX77620_REG_CNFGGLBL3 0x02 #define MAX77620_WDTC_MASK 0x3 #define MAX77620_REG_CNFG1_32K 0x03 #define MAX77620_CNFG1_PWR_MD_32K_MASK 0x3 #define MAX77620_CNFG1_32K_OUT0_EN BIT(2) #define MAX77620_CNFG1_32KLOAD_MASK 0x30 #define MAX77620_CNFG1_32K_OK BIT(7) #define MAX77620_REG_CNFGBBC 0x04 #define MAX77620_CNFGBBC_ENABLE BIT(0) #define MAX77620_CNFGBBC_CURRENT_MASK 0x06 #define MAX77620_CNFGBBC_CURRENT_SHIFT 1 #define MAX77620_CNFGBBC_VOLTAGE_MASK 0x18 #define MAX77620_CNFGBBC_VOLTAGE_SHIFT 3 #define MAX77620_CNFGBBC_LOW_CURRENT_DISABLE BIT(5) #define MAX77620_CNFGBBC_RESISTOR_MASK 0xC0 #define MAX77620_CNFGBBC_RESISTOR_SHIFT 6 #define MAX77620_CNFGBBC_RESISTOR_100 (0 << MAX77620_CNFGBBC_RESISTOR_SHIFT) #define MAX77620_CNFGBBC_RESISTOR_1K (1 << MAX77620_CNFGBBC_RESISTOR_SHIFT) #define MAX77620_CNFGBBC_RESISTOR_3K (2 << MAX77620_CNFGBBC_RESISTOR_SHIFT) #define MAX77620_CNFGBBC_RESISTOR_6K (3 << MAX77620_CNFGBBC_RESISTOR_SHIFT) #define MAX77620_REG_IRQTOP 0x05 #define MAX77620_REG_IRQTOPM 0x0D #define MAX77620_IRQ_TOP_ONOFF_MASK BIT(1) #define MAX77620_IRQ_TOP_32K_MASK BIT(2) #define MAX77620_IRQ_TOP_RTC_MASK BIT(3) #define MAX77620_IRQ_TOP_GPIO_MASK BIT(4) #define MAX77620_IRQ_TOP_LDO_MASK BIT(5) #define MAX77620_IRQ_TOP_SD_MASK BIT(6) #define MAX77620_IRQ_TOP_GLBL_MASK BIT(7) #define MAX77620_REG_INTLBT 0x06 #define MAX77620_REG_INTENLBT 0x0E #define MAX77620_IRQ_GLBLM_MASK BIT(0) #define MAX77620_IRQ_TJALRM2_MASK BIT(1) #define MAX77620_IRQ_TJALRM1_MASK BIT(2) #define MAX77620_IRQ_LBM_MASK BIT(3) #define MAX77620_REG_IRQSD 0x07 #define MAX77620_REG_IRQMASKSD 0x0F #define MAX77620_IRQSD_PFI_SD3 BIT(4) #define MAX77620_IRQSD_PFI_SD2 BIT(5) #define MAX77620_IRQSD_PFI_SD1 BIT(6) #define MAX77620_IRQSD_PFI_SD0 BIT(7) #define MAX77620_REG_IRQ_LVL2_L0_7 0x08 // LDO number that irq occurred. #define MAX77620_REG_IRQ_MSK_L0_7 0x10 #define MAX77620_REG_IRQ_LVL2_L8 0x09 // LDO number that irq occurred. Only bit0: LDO8 is valid. #define MAX77620_REG_IRQ_MSK_L8 0x11 #define MAX77620_REG_IRQ_LVL2_GPIO 0x0A // Edge detection interrupt. #define MAX77620_REG_ONOFFIRQ 0x0B #define MAX77620_REG_ONOFFIRQM 0x12 #define MAX77620_ONOFFIRQ_MRWRN BIT(0) #define MAX77620_ONOFFIRQ_EN0_1SEC BIT(1) #define MAX77620_ONOFFIRQ_EN0_F BIT(2) #define MAX77620_ONOFFIRQ_EN0_R BIT(3) #define MAX77620_ONOFFIRQ_LID_F BIT(4) #define MAX77620_ONOFFIRQ_LID_R BIT(5) #define MAX77620_ONOFFIRQ_ACOK_F BIT(6) #define MAX77620_ONOFFIRQ_ACOK_R BIT(7) #define MAX77620_REG_NVERC 0x0C // Shutdown reason (non-volatile). #define MAX77620_NVERC_SHDN BIT(0) #define MAX77620_NVERC_WTCHDG BIT(1) #define MAX77620_NVERC_HDRST BIT(2) #define MAX77620_NVERC_TOVLD BIT(3) #define MAX77620_NVERC_MBLSD BIT(4) #define MAX77620_NVERC_MBO BIT(5) #define MAX77620_NVERC_MBU BIT(6) #define MAX77620_NVERC_RSTIN BIT(7) #define MAX77620_REG_STATLBT 0x13 #define MAX77620_REG_STATSD 0x14 #define MAX77620_REG_ONOFFSTAT 0x15 #define MAX77620_ONOFFSTAT_LID BIT(0) #define MAX77620_ONOFFSTAT_ACOK BIT(1) #define MAX77620_ONOFFSTAT_EN0 BIT(2) /* SD and LDO Registers */ #define MAX77620_REG_SD0 0x16 #define MAX77620_REG_SD1 0x17 #define MAX77620_REG_SD2 0x18 #define MAX77620_REG_SD3 0x19 #define MAX77620_REG_SD4 0x1A #define MAX77620_REG_DVSSD0 0x1B #define MAX77620_REG_DVSSD1 0x1C #define MAX77620_SDX_VOLT_MASK 0xFF #define MAX77620_SD0_VOLT_MASK 0x7F // Max is 0x40. #define MAX77620_SD1_VOLT_MASK 0x7F // Max is 0x4C. #define MAX77620_LDO_VOLT_MASK 0x3F #define MAX77620_REG_SD0_CFG 0x1D #define MAX77620_REG_SD1_CFG 0x1E #define MAX77620_REG_SD2_CFG 0x1F #define MAX77620_REG_SD3_CFG 0x20 #define MAX77620_REG_SD4_CFG 0x21 #define MAX77620_SD_SR_MASK 0xC0 #define MAX77620_SD_SR_SHIFT 6 #define MAX77620_SD_POWER_MODE_MASK 0x30 #define MAX77620_SD_POWER_MODE_SHIFT 4 #define MAX77620_SD_CFG1_ADE_MASK BIT(3) #define MAX77620_SD_CFG1_ADE_DISABLE 0 #define MAX77620_SD_CFG1_ADE_ENABLE BIT(3) #define MAX77620_SD_FPWM_MASK 0x04 #define MAX77620_SD_FPWM_SHIFT 2 #define MAX77620_SD_FSRADE_MASK 0x01 #define MAX77620_SD_FSRADE_SHIFT 0 #define MAX77620_SD_CFG1_FPWM_SD_MASK BIT(2) #define MAX77620_SD_CFG1_FPWM_SD_SKIP 0 #define MAX77620_SD_CFG1_FPWM_SD_FPWM BIT(2) #define MAX77620_SD_CFG1_MPOK_MASK BIT(1) #define MAX77620_SD_CFG1_FSRADE_SD_MASK BIT(0) #define MAX77620_SD_CFG1_FSRADE_SD_DISABLE 0 #define MAX77620_SD_CFG1_FSRADE_SD_ENABLE BIT(0) #define MAX77620_REG_SD_CFG2 0x22 #define MAX77620_SD_CNF2_RSVD BIT(0) #define MAX77620_SD_CNF2_ROVS_EN_SD1 BIT(1) #define MAX77620_SD_CNF2_ROVS_EN_SD0 BIT(2) #define MAX77620_REG_LDO0_CFG 0x23 #define MAX77620_REG_LDO0_CFG2 0x24 #define MAX77620_REG_LDO1_CFG 0x25 #define MAX77620_REG_LDO1_CFG2 0x26 #define MAX77620_REG_LDO2_CFG 0x27 #define MAX77620_REG_LDO2_CFG2 0x28 #define MAX77620_REG_LDO3_CFG 0x29 #define MAX77620_REG_LDO3_CFG2 0x2A #define MAX77620_REG_LDO4_CFG 0x2B #define MAX77620_REG_LDO4_CFG2 0x2C #define MAX77620_REG_LDO5_CFG 0x2D #define MAX77620_REG_LDO5_CFG2 0x2E #define MAX77620_REG_LDO6_CFG 0x2F #define MAX77620_REG_LDO6_CFG2 0x30 #define MAX77620_REG_LDO7_CFG 0x31 #define MAX77620_REG_LDO7_CFG2 0x32 #define MAX77620_REG_LDO8_CFG 0x33 #define MAX77620_REG_LDO8_CFG2 0x34 /*! LDO CFG */ #define MAX77620_LDO_POWER_MODE_SHIFT 6 #define MAX77620_LDO_POWER_MODE_MASK (3 << MAX77620_LDO_POWER_MODE_SHIFT) #define MAX77620_POWER_MODE_NORMAL 3 #define MAX77620_POWER_MODE_LPM 2 #define MAX77620_POWER_MODE_GLPM 1 #define MAX77620_POWER_MODE_DISABLE 0 /*! LDO CFG2 */ #define MAX77620_LDO_CFG2_SS_MASK (1 << 0) #define MAX77620_LDO_CFG2_SS_FAST (0 << 0) #define MAX77620_LDO_CFG2_SS_SLOW (1 << 0) #define MAX77620_LDO_CFG2_ADE_MASK (1 << 1) #define MAX77620_LDO_CFG2_ADE_DISABLE (0 << 1) #define MAX77620_LDO_CFG2_ADE_ENABLE (1 << 1) #define MAX77620_LDO_CFG2_MPOK_MASK BIT(2) #define MAX77620_LDO_CFG2_POK_MASK BIT(3) #define MAX77620_LDO_CFG2_COMP_SHIFT 4 #define MAX77620_LDO_CFG2_COMP_MASK (3 << MAX77620_LDO_COMP_SHIFT) #define MAX77620_LDO_CFG2_COMP_SLOW 3 #define MAX77620_LDO_CFG2_COMP_MID_SLOW 2 #define MAX77620_LDO_CFG2_COMP_MID_FAST 1 #define MAX77620_LDO_CFG2_COMP_FAST 0 #define MAX77620_LDO_CFG2_ALPM_EN_MASK BIT(6) #define MAX77620_LDO_CFG2_OVCLMP_MASK BIT(7) #define MAX77620_REG_LDO_CFG3 0x35 #define MAX77620_LDO_BIAS_EN BIT(0) #define MAX77620_TRACK4_SHIFT 5 #define MAX77620_TRACK4_MASK (1 << MAX77620_TRACK4_SHIFT) #define MAX77620_REG_GPIO0 0x36 #define MAX77620_REG_GPIO1 0x37 #define MAX77620_REG_GPIO2 0x38 #define MAX77620_REG_GPIO3 0x39 #define MAX77620_REG_GPIO4 0x3A #define MAX77620_REG_GPIO5 0x3B #define MAX77620_REG_GPIO6 0x3C #define MAX77620_REG_GPIO7 0x3D #define MAX77620_CNFG_GPIO_DRV_MASK (1 << 0) #define MAX77620_CNFG_GPIO_DRV_PUSHPULL (1 << 0) #define MAX77620_CNFG_GPIO_DRV_OPENDRAIN (0 << 0) #define MAX77620_CNFG_GPIO_DIR_MASK (1 << 1) #define MAX77620_CNFG_GPIO_DIR_INPUT (1 << 1) #define MAX77620_CNFG_GPIO_DIR_OUTPUT (0 << 1) #define MAX77620_CNFG_GPIO_INPUT_VAL_MASK (1 << 2) #define MAX77620_CNFG_GPIO_OUTPUT_VAL_MASK (1 << 3) #define MAX77620_CNFG_GPIO_OUTPUT_VAL_HIGH (1 << 3) #define MAX77620_CNFG_GPIO_OUTPUT_VAL_LOW (0 << 3) #define MAX77620_CNFG_GPIO_INT_MASK (0x3 << 4) #define MAX77620_CNFG_GPIO_INT_FALLING (1 << 4) #define MAX77620_CNFG_GPIO_INT_RISING (1 << 5) #define MAX77620_CNFG_GPIO_DBNC_MASK (0x3 << 6) #define MAX77620_CNFG_GPIO_DBNC_None (0x0 << 6) #define MAX77620_CNFG_GPIO_DBNC_8ms (0x1 << 6) #define MAX77620_CNFG_GPIO_DBNC_16ms (0x2 << 6) #define MAX77620_CNFG_GPIO_DBNC_32ms (0x3 << 6) #define MAX77620_GPIO_OUTPUT_DISABLE 0 #define MAX77620_GPIO_OUTPUT_ENABLE 1 #define MAX77620_REG_PUE_GPIO 0x3E // Gpio Pullup resistor enable. #define MAX77620_REG_PDE_GPIO 0x3F // Gpio Pulldown resistor enable. #define MAX77620_REG_AME_GPIO 0x40 // Gpio pinmuxing. Clear bits are Standard GPIO. #define MAX77620_REG_ONOFFCNFG1 0x41 #define MAX20024_ONOFFCNFG1_CLRSE 0x18 #define MAX77620_ONOFFCNFG1_PWR_OFF BIT(1) #define MAX77620_ONOFFCNFG1_SLPEN BIT(2) #define MAX77620_ONOFFCNFG1_MRT_SHIFT 0x3 #define MAX77620_ONOFFCNFG1_MRT_MASK 0x38 #define MAX77620_ONOFFCNFG1_RSVD BIT(6) #define MAX77620_ONOFFCNFG1_SFT_RST BIT(7) #define MAX77620_REG_ONOFFCNFG2 0x42 #define MAX77620_ONOFFCNFG2_WK_EN0 BIT(0) #define MAX77620_ONOFFCNFG2_WK_ALARM2 BIT(1) #define MAX77620_ONOFFCNFG2_WK_ALARM1 BIT(2) #define MAX77620_ONOFFCNFG2_WK_MBATT BIT(3) // MBATT event generates a wakeup signal. use it in android/l4t? #define MAX77620_ONOFFCNFG2_WK_ACOK BIT(4) #define MAX77620_ONOFFCNFG2_SLP_LPM_MSK BIT(5) #define MAX77620_ONOFFCNFG2_WD_RST_WK BIT(6) #define MAX77620_ONOFFCNFG2_SFT_RST_WK BIT(7) /* FPS Registers */ #define MAX77620_REG_FPS_CFG0 0x43 // FPS0. #define MAX77620_REG_FPS_CFG1 0x44 // FPS1. #define MAX77620_REG_FPS_CFG2 0x45 // FPS2. #define MAX77620_FPS_ENFPS_SW_MASK 0x01 #define MAX77620_FPS_ENFPS_SW 0x01 #define MAX77620_FPS_EN_SRC_SHIFT 1 #define MAX77620_FPS_EN_SRC_MASK 0x06 #define MAX77620_FPS_TIME_PERIOD_SHIFT 3 #define MAX77620_FPS_TIME_PERIOD_MASK 0x38 #define MAX77620_REG_FPS_LDO0 0x46 #define MAX77620_REG_FPS_LDO1 0x47 #define MAX77620_REG_FPS_LDO2 0x48 #define MAX77620_REG_FPS_LDO3 0x49 #define MAX77620_REG_FPS_LDO4 0x4A #define MAX77620_REG_FPS_LDO5 0x4B #define MAX77620_REG_FPS_LDO6 0x4C #define MAX77620_REG_FPS_LDO7 0x4D #define MAX77620_REG_FPS_LDO8 0x4E #define MAX77620_REG_FPS_SD0 0x4F #define MAX77620_REG_FPS_SD1 0x50 #define MAX77620_REG_FPS_SD2 0x51 #define MAX77620_REG_FPS_SD3 0x52 #define MAX77620_REG_FPS_SD4 0x53 #define MAX77620_REG_FPS_GPIO1 0x54 #define MAX77620_REG_FPS_GPIO2 0x55 #define MAX77620_REG_FPS_GPIO3 0x56 #define MAX77620_REG_FPS_RSO 0x57 #define MAX77620_FPS_PD_PERIOD_SHIFT 0 #define MAX77620_FPS_PD_PERIOD_MASK 0x07 #define MAX77620_FPS_PU_PERIOD_SHIFT 3 #define MAX77620_FPS_PU_PERIOD_MASK 0x38 #define MAX77620_FPS_SRC_SHIFT 6 #define MAX77620_FPS_SRC_MASK 0xC0 #define MAX77620_FPS_COUNT 3 #define MAX77620_FPS_PERIOD_MIN_US 40 #define MAX77620_FPS_PERIOD_MAX_US 2560 #define MAX77620_REG_CID0 0x58 #define MAX77620_REG_CID1 0x59 #define MAX77620_REG_CID2 0x5A #define MAX77620_REG_CID3 0x5B #define MAX77620_REG_CID4 0x5C // OTP version. #define MAX77620_REG_CID5 0x5D // ES version. #define MAX77620_CID_DIDO_MASK 0xF #define MAX77620_CID_DIDO_SHIFT 0 #define MAX77620_CID_DIDM_MASK 0xF0 #define MAX77620_CID_DIDM_SHIFT 4 /* Device Identification Metal */ #define MAX77620_CID5_DIDM(n) (((n) >> 4) & 0xF) /* Device Indentification OTP */ #define MAX77620_CID5_DIDO(n) ((n) & 0xF) #define MAX77620_REG_DVSSD4 0x5E #define MAX20024_REG_MAX_ADD 0x70 #define MAX77620_IRQ_LVL2_GPIO_EDGE0 BIT(0) #define MAX77620_IRQ_LVL2_GPIO_EDGE1 BIT(1) #define MAX77620_IRQ_LVL2_GPIO_EDGE2 BIT(2) #define MAX77620_IRQ_LVL2_GPIO_EDGE3 BIT(3) #define MAX77620_IRQ_LVL2_GPIO_EDGE4 BIT(4) #define MAX77620_IRQ_LVL2_GPIO_EDGE5 BIT(5) #define MAX77620_IRQ_LVL2_GPIO_EDGE6 BIT(6) #define MAX77620_IRQ_LVL2_GPIO_EDGE7 BIT(7) /* Interrupts */ enum { MAX77620_IRQ_TOP_GLBL, /* Low-Battery */ MAX77620_IRQ_TOP_SD, /* SD power fail */ MAX77620_IRQ_TOP_LDO, /* LDO power fail */ MAX77620_IRQ_TOP_GPIO, /* TOP GPIO internal int to MAX77620 */ MAX77620_IRQ_TOP_RTC, /* RTC */ MAX77620_IRQ_TOP_32K, /* 32kHz oscillator */ MAX77620_IRQ_TOP_ONOFF, /* ON/OFF oscillator */ MAX77620_IRQ_LBT_MBATLOW, /* Thermal alarm status, > 120C */ MAX77620_IRQ_LBT_TJALRM1, /* Thermal alarm status, > 120C */ MAX77620_IRQ_LBT_TJALRM2, /* Thermal alarm status, > 140C */ }; /* GPIOs */ enum { MAX77620_GPIO0, MAX77620_GPIO1, MAX77620_GPIO2, MAX77620_GPIO3, MAX77620_GPIO4, MAX77620_GPIO5, MAX77620_GPIO6, MAX77620_GPIO7, MAX77620_GPIO_NR, }; /* FPS Source */ enum max77620_fps_src { MAX77620_FPS_SRC_0, MAX77620_FPS_SRC_1, MAX77620_FPS_SRC_2, MAX77620_FPS_SRC_NONE, MAX77620_FPS_SRC_DEF, }; #endif /* _MFD_MAX77620_H_ */ ================================================ FILE: bdk/power/max7762x.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019-2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #define REGULATOR_SD 0 #define REGULATOR_LDO 1 #define REGULATOR_BC0 2 #define REGULATOR_BC1 3 typedef struct _max77620_fps_t { u8 fps_addr; u8 fps_src; u8 pd_period; u8 pu_period; } max77620_fps_t; typedef struct _max77621_ctrl_t { u8 ctrl1_por; u8 ctrl1_hos; u8 ctrl2_por; u8 ctrl2_hos; } max77621_ctrl_t; typedef struct _max77812_ctrl_t { u8 mask; u8 shift; u8 rsvd0; u8 rsvd1; } max77812_en_t; typedef struct _max77620_regulator_t { const char *name; u32 uv_step; u32 uv_min; u32 uv_default; u32 uv_max; u8 type; u8 volt_addr; u8 cfg_addr; u8 volt_mask; union { max77620_fps_t fps; max77621_ctrl_t ctrl; max77812_en_t enable; }; } max77620_regulator_t; static const max77620_regulator_t _pmic_regulators[] = { { "sd0", 12500, 600000, 625000, 1400000, REGULATOR_SD, MAX77620_REG_SD0, MAX77620_REG_SD0_CFG, MAX77620_SD0_VOLT_MASK, {{ MAX77620_REG_FPS_SD0, 1, 7, 1 }} }, { "sd1", 12500, 600000, 1125000, 1237500, REGULATOR_SD, MAX77620_REG_SD1, MAX77620_REG_SD1_CFG, MAX77620_SD1_VOLT_MASK, {{ MAX77620_REG_FPS_SD1, 0, 1, 5 }} }, { "sd2", 12500, 600000, 1325000, 1350000, REGULATOR_SD, MAX77620_REG_SD2, MAX77620_REG_SD2_CFG, MAX77620_SDX_VOLT_MASK, {{ MAX77620_REG_FPS_SD2, 1, 5, 2 }} }, { "sd3", 12500, 600000, 1800000, 1800000, REGULATOR_SD, MAX77620_REG_SD3, MAX77620_REG_SD3_CFG, MAX77620_SDX_VOLT_MASK, {{ MAX77620_REG_FPS_SD3, 0, 3, 3 }} }, { "ldo0", 25000, 800000, 1200000, 1200000, REGULATOR_LDO, MAX77620_REG_LDO0_CFG, MAX77620_REG_LDO0_CFG2, MAX77620_LDO_VOLT_MASK, {{ MAX77620_REG_FPS_LDO0, 3, 7, 0 }} }, { "ldo1", 25000, 800000, 1050000, 1050000, REGULATOR_LDO, MAX77620_REG_LDO1_CFG, MAX77620_REG_LDO1_CFG2, MAX77620_LDO_VOLT_MASK, {{ MAX77620_REG_FPS_LDO1, 3, 7, 0 }} }, { "ldo2", 50000, 800000, 1800000, 3300000, REGULATOR_LDO, MAX77620_REG_LDO2_CFG, MAX77620_REG_LDO2_CFG2, MAX77620_LDO_VOLT_MASK, {{ MAX77620_REG_FPS_LDO2, 3, 7, 0 }} }, { "ldo3", 50000, 800000, 3100000, 3100000, REGULATOR_LDO, MAX77620_REG_LDO3_CFG, MAX77620_REG_LDO3_CFG2, MAX77620_LDO_VOLT_MASK, {{ MAX77620_REG_FPS_LDO3, 3, 7, 0 }} }, { "ldo4", 12500, 800000, 850000, 1000000, REGULATOR_LDO, MAX77620_REG_LDO4_CFG, MAX77620_REG_LDO4_CFG2, MAX77620_LDO_VOLT_MASK, {{ MAX77620_REG_FPS_LDO4, 0, 7, 1 }} }, { "ldo5", 50000, 800000, 1800000, 1800000, REGULATOR_LDO, MAX77620_REG_LDO5_CFG, MAX77620_REG_LDO5_CFG2, MAX77620_LDO_VOLT_MASK, {{ MAX77620_REG_FPS_LDO5, 3, 7, 0 }} }, { "ldo6", 50000, 800000, 2900000, 2900000, REGULATOR_LDO, MAX77620_REG_LDO6_CFG, MAX77620_REG_LDO6_CFG2, MAX77620_LDO_VOLT_MASK, {{ MAX77620_REG_FPS_LDO6, 3, 7, 0 }} }, { "ldo7", 50000, 800000, 1050000, 1050000, REGULATOR_LDO, MAX77620_REG_LDO7_CFG, MAX77620_REG_LDO7_CFG2, MAX77620_LDO_VOLT_MASK, {{ MAX77620_REG_FPS_LDO7, 1, 4, 3 }} }, { "ldo8", 50000, 800000, 1050000, 2800000, REGULATOR_LDO, MAX77620_REG_LDO8_CFG, MAX77620_REG_LDO8_CFG2, MAX77620_LDO_VOLT_MASK, {{ MAX77620_REG_FPS_LDO8, 3, 7, 0 }} }, { "max77621_CPU", 6250, 606250, 1000000, 1400000, REGULATOR_BC0, MAX77621_REG_VOUT, MAX77621_REG_VOUT_DVS, MAX77621_DVC_DVS_VOLT_MASK, {{ MAX77621_CPU_CTRL1_POR_DEFAULT, MAX77621_CPU_CTRL1_HOS_DEFAULT, MAX77621_CPU_CTRL2_POR_DEFAULT, MAX77621_CPU_CTRL2_HOS_DEFAULT }} }, { "max77621_GPU", 6250, 606250, 1200000, 1400000, REGULATOR_BC0, MAX77621_REG_VOUT, MAX77621_REG_VOUT_DVS, MAX77621_DVC_DVS_VOLT_MASK, {{ MAX77621_CPU_CTRL1_POR_DEFAULT, MAX77621_CPU_CTRL1_HOS_DEFAULT, MAX77621_CPU_CTRL2_POR_DEFAULT, MAX77621_CPU_CTRL2_HOS_DEFAULT }} }, { "max77812_CPU", 5000, 250000, 600000, 1525000, REGULATOR_BC1, MAX77812_REG_M4_VOUT, MAX77812_REG_EN_CTRL, MAX77812_BUCK_VOLT_MASK, {{ MAX77812_EN_CTRL_EN_M4_MASK, MAX77812_EN_CTRL_EN_M4_SHIFT, 0, 0 }} }, { "max77812_RAM", 5000, 250000, 600000, 650000, REGULATOR_BC1, MAX77812_REG_M3_VOUT, MAX77812_REG_EN_CTRL, MAX77812_BUCK_VOLT_MASK, {{ MAX77812_EN_CTRL_EN_M3_MASK, MAX77812_EN_CTRL_EN_M3_SHIFT, 0, 0 }} } // Only on PHASE211 configuration. //{ "max77812_GPU", 5000, 250000, 600000, 1525000, REGULATOR_BC1, MAX77812_REG_M1_VOUT, MAX77812_REG_EN_CTRL, MAX77812_BUCK_VOLT_MASK, {{ MAX77812_EN_CTRL_EN_M1_MASK, MAX77812_EN_CTRL_EN_M1_SHIFT, 0, 0 }} }, }; static u8 _max77812_get_address() { static u8 max77812_i2c_addr = 0; if (max77812_i2c_addr) return max77812_i2c_addr; max77812_i2c_addr = !(FUSE(FUSE_RESERVED_ODM28_B01) & 1) ? MAX77812_PHASE31_CPU_I2C_ADDR : MAX77812_PHASE211_CPU_I2C_ADDR; return max77812_i2c_addr; } static u8 _max7762x_get_i2c_address(u32 id) { const max77620_regulator_t *reg = &_pmic_regulators[id]; // Choose the correct i2c address. switch (reg->type) { case REGULATOR_SD: case REGULATOR_LDO: return MAX77620_I2C_ADDR; case REGULATOR_BC0: return (id == REGULATOR_CPU0 ? MAX77621_CPU_I2C_ADDR : MAX77621_GPU_I2C_ADDR); case REGULATOR_BC1: { u8 reg_addr = _max77812_get_address(); if (id == REGULATOR_RAM0 && reg_addr == MAX77812_PHASE31_CPU_I2C_ADDR) reg_addr = 0; return reg_addr; } default: return 0; } } static void _max7762x_set_reg(u8 addr, u8 reg, u8 val) { u32 retries = 100; while (retries) { if (!i2c_send_byte(I2C_5, addr, reg, val)) break; usleep(50); retries--; } } int max77620_regulator_get_status(u32 id) { if (id > REGULATOR_LDO8) return 0; const max77620_regulator_t *reg = &_pmic_regulators[id]; // SD power OK status. if (reg->type == REGULATOR_SD) { u8 mask = 1u << (7 - id); return (i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_STATSD) & mask) ? 0 : 1; } // LDO power OK status. return (i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, reg->cfg_addr) & MAX77620_LDO_CFG2_POK_MASK) ? 1 : 0; } int max77620_regulator_config_fps(u32 id) { if (id > REGULATOR_LDO8) return 1; const max77620_regulator_t *reg = &_pmic_regulators[id]; // Set FPS configuration. _max7762x_set_reg(MAX77620_I2C_ADDR, reg->fps.fps_addr, (reg->fps.fps_src << MAX77620_FPS_SRC_SHIFT) | (reg->fps.pu_period << MAX77620_FPS_PU_PERIOD_SHIFT) | (reg->fps.pd_period << MAX77620_FPS_PD_PERIOD_SHIFT)); return 0; } int max7762x_regulator_set_voltage(u32 id, u32 uv) { if (id > REGULATOR_MAX) return 1; const max77620_regulator_t *reg = &_pmic_regulators[id]; if (uv < reg->uv_min || uv > reg->uv_max) return 1; u8 addr = _max7762x_get_i2c_address(id); if (!addr) return 1; // Calculate voltage multiplier. u32 mult = (uv + reg->uv_step - 1 - reg->uv_min) / reg->uv_step; u8 val = i2c_recv_byte(I2C_5, addr, reg->volt_addr); val = (val & ~reg->volt_mask) | (mult & reg->volt_mask); // Set voltage. _max7762x_set_reg(addr, reg->volt_addr, val); // If max77621 set DVS voltage also. if (reg->type == REGULATOR_BC0) _max7762x_set_reg(addr, reg->cfg_addr, MAX77621_VOUT_ENABLE_MASK | val); // Wait for ramp up/down delay. usleep(1000); return 0; } int max7762x_regulator_enable(u32 id, bool enable) { u8 reg_addr; u8 enable_val; u8 enable_mask; u8 enable_shift; if (id > REGULATOR_MAX) return 1; const max77620_regulator_t *reg = &_pmic_regulators[id]; // Choose the correct i2c and register addresses and mask/shift for each type. switch (reg->type) { case REGULATOR_SD: reg_addr = reg->cfg_addr; enable_val = MAX77620_POWER_MODE_NORMAL; enable_mask = MAX77620_SD_POWER_MODE_MASK; enable_shift = MAX77620_SD_POWER_MODE_SHIFT; break; case REGULATOR_LDO: reg_addr = reg->volt_addr; enable_val = MAX77620_POWER_MODE_NORMAL; enable_mask = MAX77620_LDO_POWER_MODE_MASK; enable_shift = MAX77620_LDO_POWER_MODE_SHIFT; break; case REGULATOR_BC0: reg_addr = reg->volt_addr; enable_val = MAX77621_VOUT_ENABLE; enable_mask = MAX77621_DVC_DVS_ENABLE_MASK; enable_shift = MAX77621_DVC_DVS_ENABLE_SHIFT; break; case REGULATOR_BC1: reg_addr = reg->cfg_addr; enable_val = MAX77812_EN_CTRL_ENABLE; enable_mask = reg->enable.mask; enable_shift = reg->enable.shift; break; default: return 1; } u8 addr = _max7762x_get_i2c_address(id); if (!addr) return 1; // Read and enable/disable. u8 val = i2c_recv_byte(I2C_5, addr, reg_addr); val &= ~enable_mask; if (enable) val |= (enable_val << enable_shift); // Set enable. _max7762x_set_reg(addr, reg_addr, val); // Wait for enable/disable ramp delay. usleep(1000); return 0; } void max77620_config_gpio(u32 gpio_id, bool enable) { if (gpio_id > 7) return; // Configure as standard GPIO. u8 val = i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_AME_GPIO); i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_AME_GPIO, val & ~BIT(gpio_id)); // Set GPIO configuration. if (enable) val = MAX77620_CNFG_GPIO_OUTPUT_VAL_HIGH | MAX77620_CNFG_GPIO_DIR_OUTPUT | MAX77620_CNFG_GPIO_DRV_PUSHPULL; else val = MAX77620_CNFG_GPIO_DIR_INPUT | MAX77620_CNFG_GPIO_DRV_OPENDRAIN; i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_GPIO0 + gpio_id, val); } void max77621_config_default(u32 id, bool por) { const max77620_regulator_t *reg = &_pmic_regulators[id]; if (reg->type != REGULATOR_BC0) return; u8 addr = _max7762x_get_i2c_address(id); if (!addr) return; if (por) { // Set voltage and disable power before changing the inductor. max7762x_regulator_set_voltage(id, 1000000); max7762x_regulator_enable(id, false); // Configure to default. i2c_send_byte(I2C_5, addr, MAX77621_REG_CONTROL1, reg->ctrl.ctrl1_por); i2c_send_byte(I2C_5, addr, MAX77621_REG_CONTROL2, reg->ctrl.ctrl2_por); } else { i2c_send_byte(I2C_5, addr, MAX77621_REG_CONTROL1, reg->ctrl.ctrl1_hos); i2c_send_byte(I2C_5, addr, MAX77621_REG_CONTROL2, reg->ctrl.ctrl2_hos); } } void max77620_config_default() { // Check if Erista OTP. if (i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_CID4) != 0x35) return; // Set default voltages and enable regulators. for (u32 i = REGULATOR_SD1; i <= REGULATOR_LDO8; i++) { max77620_regulator_config_fps(i); max7762x_regulator_set_voltage(i, _pmic_regulators[i].uv_default); if (_pmic_regulators[i].fps.fps_src != MAX77620_FPS_SRC_NONE) max7762x_regulator_enable(i, true); } // Enable SD0 output voltage sense and disable for SD1. Additionally disable the reserved bit. _max7762x_set_reg(MAX77620_I2C_ADDR, MAX77620_REG_SD_CFG2, MAX77620_SD_CNF2_ROVS_EN_SD0); } // Stock HOS: disabled. void max77620_low_battery_monitor_config(bool enable) { _max7762x_set_reg(MAX77620_I2C_ADDR, MAX77620_REG_CNFGGLBL1, MAX77620_CNFGGLBL1_LBDAC_EN | (enable ? MAX77620_CNFGGLBL1_MPPLD : 0) | MAX77620_CNFGGLBL1_LBHYST_200 | MAX77620_CNFGGLBL1_LBDAC_2800); } ================================================ FILE: bdk/power/max7762x.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019-2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MAX7762X_H_ #define _MAX7762X_H_ #include /* * SDx actual min is 625 mV. Multipliers 0/1 reserved. * SD0 max is 1400 mV * SD1 max is 1550 mV * SD2 max is 3787.5 mV * SD3 max is 3787.5 mV */ /* * Switch Power domains (max77620): * Name | Usage | uV step | uV min | uV default | uV max | Init *-------+---------------+---------+--------+------------+---------+------------------ * sd0 | SoC | 12500 | 600000 | 625000 | 1400000 | 1.125V (pkg1.1) * sd1 | SDRAM | 12500 | 600000 | 1125000 | 1125000 | 1.1V (pkg1.1) * sd2 | ldo{0-1, 7-8} | 12500 | 600000 | 1325000 | 1350000 | 1.325V (pcv) * sd3 | 1.8V general | 12500 | 600000 | 1800000 | 1800000 | * ldo0 | Display Panel | 25000 | 800000 | 1200000 | 1200000 | 1.2V (pkg1.1) * ldo1 | XUSB, PCIE | 25000 | 800000 | 1050000 | 1050000 | 1.05V (pcv) * ldo2 | SDMMC1 | 50000 | 800000 | 1800000 | 3300000 | * ldo3 | GC ASIC | 50000 | 800000 | 3100000 | 3100000 | 3.1V (pcv) * ldo4 | RTC | 12500 | 800000 | 850000 | 850000 | 0.85V (AO, pcv) * ldo5 | GC Card | 50000 | 800000 | 1800000 | 1800000 | 1.8V (pcv) * ldo6 | Touch, ALS | 50000 | 800000 | 2900000 | 2900000 | 2.9V (pcv) * ldo7 | XUSB | 50000 | 800000 | 1050000 | 1050000 | 1.05V (pcv) * ldo8 | XUSB, DP, MCU | 50000 | 800000 | 1050000 | 2800000 | 1.05V/2.8V (pcv) */ // GPIOs T210: 3: 3.3V, 5: CPU PMIC, 6: GPU PMIC, 7: DSI/VI 1.2V powered by ldo0. /* * OTP: T210 - T210B01: * SD0: 1.0V 1.05V - SoC. EN Based on FPSSRC. * SD1: 1.15V 1.1V - DRAM for T210. EN Based on FPSSRC. * SD2: 1.35V 1.35V * SD3: 1.8V 1.8V * All powered off? * LDO0: -- -- - Display * LDO1: 1.05V 1.05V * LDO2: -- -- - SD * LDO3: 3.1V 3.1V - GC ASIC * LDO4: 1.0V 0.8V - Needed for RTC domain on T210. * LDO5: 3.1V 3.1V * LDO6: 2.8V 2.9V - Touch. * LDO7: 1.05V 1.0V * LDO8: 1.05V 1.0V */ /* * MAX77620_AME_GPIO: control GPIO modes (bits 0 - 7 correspond to GPIO0 - GPIO7); 0 -> GPIO, 1 -> alt-mode * MAX77620_REG_GPIOx: 0x9 sets output and enable */ /*! MAX77620 partitions. */ #define REGULATOR_SD0 0 #define REGULATOR_SD1 1 #define REGULATOR_SD2 2 #define REGULATOR_SD3 3 #define REGULATOR_LDO0 4 #define REGULATOR_LDO1 5 #define REGULATOR_LDO2 6 #define REGULATOR_LDO3 7 #define REGULATOR_LDO4 8 #define REGULATOR_LDO5 9 #define REGULATOR_LDO6 10 #define REGULATOR_LDO7 11 #define REGULATOR_LDO8 12 #define REGULATOR_CPU0 13 // T210 CPU. #define REGULATOR_GPU0 14 // T210 CPU. #define REGULATOR_CPU1 15 // T210B01 CPU. #define REGULATOR_RAM0 16 // T210B01 RAM for PHASE211. //#define REGULATOR_GPU1 17 // T210B01 CPU. #define REGULATOR_MAX REGULATOR_RAM0 #define MAX77621_CPU_I2C_ADDR 0x1B #define MAX77621_GPU_I2C_ADDR 0x1C #define MAX77621_REG_VOUT 0x00 #define MAX77621_REG_VOUT_DVS 0x01 #define MAX77621_REG_CONTROL1 0x02 #define MAX77621_REG_CONTROL2 0x03 #define MAX77621_REG_CHIPID1 0x04 #define MAX77621_REG_CHIPID2 0x05 /* MAX77621_VOUT_DVC_DVS */ #define MAX77621_DVC_DVS_VOLT_MASK 0x7F #define MAX77621_DVC_DVS_ENABLE_SHIFT 7 #define MAX77621_DVC_DVS_ENABLE_MASK (1 << MAX77621_DVC_DVS_ENABLE_SHIFT) /* MAX77621_VOUT */ #define MAX77621_VOUT_DISABLE 0 #define MAX77621_VOUT_ENABLE 1 #define MAX77621_VOUT_ENABLE_MASK (MAX77621_VOUT_ENABLE << MAX77621_DVC_DVS_ENABLE_SHIFT) /* MAX77621_CONTROL1 */ #define MAX77621_RAMP_12mV_PER_US 0x0 #define MAX77621_RAMP_25mV_PER_US 0x1 #define MAX77621_RAMP_50mV_PER_US 0x2 #define MAX77621_RAMP_200mV_PER_US 0x3 #define MAX77621_RAMP_MASK 0x3 #define MAX77621_FREQSHIFT_9PER BIT(2) #define MAX77621_BIAS_ENABLE BIT(3) #define MAX77621_AD_ENABLE BIT(4) #define MAX77621_NFSR_ENABLE BIT(5) #define MAX77621_FPWM_EN_M BIT(6) #define MAX77621_SNS_ENABLE BIT(7) /* MAX77621_CONTROL2 */ #define MAX77621_INDUCTOR_MIN_30_PER 0 #define MAX77621_INDUCTOR_NOMINAL 1 #define MAX77621_INDUCTOR_PLUS_30_PER 2 #define MAX77621_INDUCTOR_PLUS_60_PER 3 #define MAX77621_INDUCTOR_MASK 3 #define MAX77621_CKKADV_TRIP_75mV_PER_US (0 << 2) #define MAX77621_CKKADV_TRIP_150mV_PER_US (1u << 2) #define MAX77621_CKKADV_TRIP_DISABLE (3u << 2) #define MAX77621_CKKADV_TRIP_MASK (3u << 2) #define MAX77621_FT_ENABLE BIT(4) #define MAX77621_DISCH_ENABLE BIT(5) #define MAX77621_WDTMR_ENABLE BIT(6) #define MAX77621_T_JUNCTION_120 BIT(7) #define MAX77621_CPU_CTRL1_POR_DEFAULT (MAX77621_RAMP_50mV_PER_US) #define MAX77621_CPU_CTRL1_HOS_DEFAULT (MAX77621_AD_ENABLE | \ MAX77621_NFSR_ENABLE | \ MAX77621_SNS_ENABLE | \ MAX77621_RAMP_12mV_PER_US) #define MAX77621_CPU_CTRL2_POR_DEFAULT (MAX77621_T_JUNCTION_120 | \ MAX77621_FT_ENABLE | \ MAX77621_CKKADV_TRIP_DISABLE | \ MAX77621_INDUCTOR_NOMINAL) #define MAX77621_CPU_CTRL2_HOS_DEFAULT (MAX77621_T_JUNCTION_120 | \ MAX77621_WDTMR_ENABLE | \ MAX77621_CKKADV_TRIP_75mV_PER_US | \ MAX77621_INDUCTOR_NOMINAL) #define MAX77621_CTRL_HOS_CFG 0 #define MAX77621_CTRL_POR_CFG 1 int max77620_regulator_get_status(u32 id); int max77620_regulator_config_fps(u32 id); int max7762x_regulator_set_voltage(u32 id, u32 uv); int max7762x_regulator_enable(u32 id, bool enable); void max77620_config_gpio(u32 id, bool enable); void max77620_config_default(); void max77620_low_battery_monitor_config(bool enable); void max77621_config_default(u32 id, bool por); #endif ================================================ FILE: bdk/power/max77812.h ================================================ /* * Copyright (c) 2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MAX77812_H_ #define _MAX77812_H_ #define MAX77812_PHASE31_CPU_I2C_ADDR 0x31 // High power GPU. 2 Outputs: 3-phase M1 + 1-phase M4. #define MAX77812_PHASE211_CPU_I2C_ADDR 0x33 // Low power GPU. 3 Outputs: 2-phase M1 + 1-phase M3 + 1-phase M4. #define MAX77812_REG_RSET 0x00 #define MAX77812_REG_INT_SRC 0x01 #define MAX77812_REG_INT_SRC_M 0x02 #define MAX77812_REG_TOPSYS_INT 0x03 #define MAX77812_REG_TOPSYS_INT_M 0x04 #define MAX77812_REG_TOPSYS_STAT 0x05 #define MAX77812_REG_EN_CTRL 0x06 #define MAX77812_EN_CTRL_ENABLE 1 #define MAX77812_EN_CTRL_EN_M1_SHIFT 0 #define MAX77812_EN_CTRL_EN_M1_MASK (1 << MAX77812_EN_CTRL_EN_M1_SHIFT) #define MAX77812_EN_CTRL_EN_M2_SHIFT 2 #define MAX77812_EN_CTRL_EN_M2_MASK (1 << MAX77812_EN_CTRL_EN_M2_SHIFT) #define MAX77812_EN_CTRL_EN_M3_SHIFT 4 #define MAX77812_EN_CTRL_EN_M3_MASK (1 << MAX77812_EN_CTRL_EN_M3_SHIFT) #define MAX77812_EN_CTRL_EN_M4_SHIFT 6 #define MAX77812_EN_CTRL_EN_M4_MASK (1 << MAX77812_EN_CTRL_EN_M4_SHIFT) #define MAX77812_REG_STUP_DLY2 0x07 #define MAX77812_REG_STUP_DLY3 0x08 #define MAX77812_REG_STUP_DLY4 0x09 #define MAX77812_REG_SHDN_DLY1 0x0A #define MAX77812_REG_SHDN_DLY2 0x0B #define MAX77812_REG_SHDN_DLY3 0x0C #define MAX77812_REG_SHDN_DLY4 0x0D #define MAX77812_REG_WDTRSTB_DEB 0x0E #define MAX77812_REG_GPI_FUNC 0x0F #define MAX77812_REG_GPI_DEB1 0x10 #define MAX77812_REG_GPI_DEB2 0x11 #define MAX77812_REG_GPI_PD_CTRL 0x12 #define MAX77812_REG_PROT_CFG 0x13 #define MAX77812_REG_VERSION 0x14 #define MAX77812_REG_I2C_CFG 0x15 #define MAX77812_REG_BUCK_INT 0x20 #define MAX77812_REG_BUCK_INT_M 0x21 #define MAX77812_REG_BUCK_STAT 0x22 #define MAX77812_REG_M1_VOUT 0x23 // GPU. #define MAX77812_REG_M2_VOUT 0x24 #define MAX77812_REG_M3_VOUT 0x25 // DRAM on PHASE211. #define MAX77812_REG_M4_VOUT 0x26 // CPU. #define MAX77812_REG_M1_VOUT_D 0x27 #define MAX77812_REG_M2_VOUT_D 0x28 #define MAX77812_REG_M3_VOUT_D 0x29 #define MAX77812_REG_M4_VOUT_D 0x2A #define MAX77812_REG_M1_VOUT_S 0x2B #define MAX77812_REG_M2_VOUT_S 0x2C #define MAX77812_REG_M3_VOUT_S 0x2D #define MAX77812_REG_M4_VOUT_S 0x2E #define MAX77812_REG_M1_CFG 0x2F // HOS: M1_ILIM - 7.2A/4.8A. #define MAX77812_REG_M2_CFG 0x30 // HOS: M2_ILIM - 7.2A/4.8A. #define MAX77812_REG_M3_CFG 0x31 // HOS: M3_ILIM - 7.2A/4.8A. #define MAX77812_REG_M4_CFG 0x32 // HOS: M4_ILIM - 7.2A/4.8A. #define MAX77812_REG_GLB_CFG1 0x33 // HOS: B_SD_SR/B_SS_SR - 5mV/us. #define MAX77812_REG_GLB_CFG2 0x34 // HOS: B_RD_SR/B_RU_SR - 5mV/us #define MAX77812_REG_GLB_CFG3 0x35 /*! Protected area and settings only for MAX77812_ES2_VERSION */ #define MAX77812_REG_GLB_CFG4 0x36 // QS: 0xBB. #define MAX77812_REG_GLB_CFG5 0x37 // QS: 0x39. ES2: Set to 0x3E. #define MAX77812_REG_GLB_CFG6 0x38 // QS: 0x88. ES2: Set to 0x90. #define MAX77812_REG_GLB_CFG7 0x39 // QS: 0x04. #define MAX77812_REG_GLB_CFG8 0x3A // QS: 0x3A. ES2: Set to 0x3A. #define MAX77812_REG_PROT_ACCESS 0xFD // 0x00: Lock, 0x5A: Unlock. #define MAX77812_REG_UNKNOWN 0xFE #define MAX77812_REG_EN_CTRL_MASK(n) BIT(n) #define MAX77812_START_SLEW_RATE_MASK 0x07 #define MAX77812_SHDN_SLEW_RATE_MASK 0x70 #define MAX77812_RAMPUP_SLEW_RATE_MASK 0x07 #define MAX77812_RAMPDOWN_SLEW_RATE_MASK 0x70 #define MAX77812_SLEW_RATE_SHIFT 4 #define MAX77812_OP_ACTIVE_DISCHARGE_MASK BIT(7) #define MAX77812_PEAK_CURRENT_LMT_MASK 0x70 #define MAX77812_SWITCH_FREQ_MASK 0x0C #define MAX77812_FORCED_PWM_MASK BIT(1) #define MAX77812_SLEW_RATE_CNTRL_MASK BIT(0) #define MAX77812_START_SHD_DELAY_MASK 0x1F #define MAX77812_VERSION_MASK 0x07 #define MAX77812_ES2_VERSION 0x04 #define MAX77812_QS_VERSION 0x05 #define MAX77812_BUCK_VOLT_MASK 0xFF #endif ================================================ FILE: bdk/power/regulator_5v.c ================================================ /* * Copyright (c) 2019-2023 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include static u8 reg_5v_dev = 0; static bool usb_src = false; void regulator_5v_enable(u8 dev) { bool tegra_t210 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210; // The power supply selection from battery or USB is automatic. if (!reg_5v_dev) { // Fan and Rail power from battery 5V regulator EN. PINMUX_AUX(PINMUX_AUX_SATA_LED_ACTIVE) = 1; gpio_direction_output(GPIO_PORT_A, GPIO_PIN_5, GPIO_HIGH); // Only Icosa has USB 5V VBUS rails. if (tegra_t210) { // Fan and Rail power from USB 5V VBUS EN. PINMUX_AUX(PINMUX_AUX_USB_VBUS_EN0) = PINMUX_LPDR | 1; gpio_direction_output(GPIO_PORT_CC, GPIO_PIN_4, GPIO_LOW); } // Make sure GPIO IO power is enabled. PMC(APBDEV_PMC_NO_IOPOWER) &= ~PMC_NO_IOPOWER_GPIO; (void)PMC(APBDEV_PMC_NO_IOPOWER); // Commit write. // Inform GPIO IO pads that we switched to 1.8V. PMC(APBDEV_PMC_PWR_DET_VAL) &= ~PMC_PWR_DET_33V_GPIO; (void)PMC(APBDEV_PMC_PWR_DET_VAL); // Commit write. usb_src = false; } reg_5v_dev |= dev; } void regulator_5v_disable(u8 dev) { bool tegra_t210 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210; reg_5v_dev &= ~dev; if (!reg_5v_dev) { // Rail power from battery 5V regulator. gpio_write(GPIO_PORT_A, GPIO_PIN_5, GPIO_LOW); // Only Icosa has USB 5V VBUS rails. if (tegra_t210) { // Rail power from USB 5V VBUS. gpio_write(GPIO_PORT_CC, GPIO_PIN_4, GPIO_LOW); usb_src = false; } } } bool regulator_5v_get_dev_enabled(u8 dev) { return (reg_5v_dev & dev); } void regulator_5v_usb_src_enable(bool enable) { // Only for Icosa. if (hw_get_chip_id() != GP_HIDREV_MAJOR_T210) return; if (enable && !usb_src) { gpio_write(GPIO_PORT_CC, GPIO_PIN_4, GPIO_HIGH); usb_src = true; } else if (!enable && usb_src) { gpio_write(GPIO_PORT_CC, GPIO_PIN_4, GPIO_LOW); usb_src = false; } } ================================================ FILE: bdk/power/regulator_5v.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _REGULATOR_5V_H_ #define _REGULATOR_5V_H_ #include enum { REGULATOR_5V_FAN = BIT(0), REGULATOR_5V_JC_R = BIT(1), REGULATOR_5V_JC_L = BIT(2), REGULATOR_5V_ALL = 0xFF }; void regulator_5v_enable(u8 dev); void regulator_5v_disable(u8 dev); bool regulator_5v_get_dev_enabled(u8 dev); void regulator_5v_usb_src_enable(bool enable); #endif ================================================ FILE: bdk/rtc/max77620-rtc.c ================================================ /* * PMIC Real Time Clock driver for Nintendo Switch's MAX77620-RTC * * Copyright (c) 2018-2025 CTCaer * Copyright (c) 2019 shchmue * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include bool auto_dst = false; int epoch_offset = 0; void max77620_rtc_prep_read() { i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_UPDATE0_REG, MAX77620_RTC_READ_UPDATE); } void max77620_rtc_get_time(rtc_time_t *time) { u8 val = 0; // Update RTC regs from RTC clock. i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_UPDATE0_REG, MAX77620_RTC_READ_UPDATE); // Get control reg config. val = i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_CONTROL_REG); // TODO: Make also sure it's binary format? // Get time. time->sec = i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_SEC_REG) & 0x7F; time->min = i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_MIN_REG) & 0x7F; u8 hour = i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_HOUR_REG) & 0x1F; time->hour = hour & 0x1F; if (!(val & MAX77620_RTC_24H)) { time->hour = hour & 0xF; if (hour & MAX77620_RTC_HOUR_PM_MASK) time->hour += 12; } // Get day of week. 1: Monday to 7: Sunday. time->weekday = 0; val = i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_WEEKDAY_REG) & 0x7F; for (int i = 0; i < 8; i++) { time->weekday++; if (val & 1) break; val >>= 1; } // Get date. time->day = i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_DAY_REG) & 0x1F; time->month = (i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_MONTH_REG) & 0xF) - 1; time->month++; // Normally minus 1, but everything else expects 1 as January. time->year = (i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_YEAR_REG) & 0x7F) + 2000; } void max77620_rtc_stop_alarm() { u8 val = 0; // Update RTC regs from RTC clock. i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_UPDATE0_REG, MAX77620_RTC_READ_UPDATE); msleep(16); // Stop alarm for both ALARM1 and ALARM2. Horizon uses ALARM2. for (int i = 0; i < (MAX77620_RTC_NR_TIME_REGS * 2); i++) { val = i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM1_SEC_REG + i); val &= ~MAX77620_RTC_ALARM_EN_MASK; i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM1_SEC_REG + i, val); } // Update RTC clock from RTC regs. i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_UPDATE0_REG, MAX77620_RTC_WRITE_UPDATE); } void max77620_rtc_epoch_to_date(u32 epoch, rtc_time_t *time) { u32 tmp, edays, year, month, day; // Set time. time->sec = epoch % 60; epoch /= 60; time->min = epoch % 60; epoch /= 60; time->hour = epoch % 24; epoch /= 24; // Calculate base date values. tmp = (u32)(((u64)4 * epoch + 102032) / 146097 + 15); tmp = (u32)((u64)epoch + 2442113 + tmp - (tmp >> 2)); year = (20 * tmp - 2442) / 7305; edays = tmp - 365 * year - (year >> 2); month = edays * 1000 / 30601; day = edays - month * 30 - month * 601 / 1000; // Month/Year offset. if (month < 14) { year -= 4716; month--; } else { year -= 4715; month -= 13; } // Set date. time->year = year; time->month = month; time->day = day; // Set weekday. time->weekday = (day + 4) % 7; } u32 max77620_rtc_date_to_epoch(const rtc_time_t *time) { u32 year, month, epoch; //Year year = time->year; //Month of year month = time->month; // Month/Year offset. if (month < 3) { month += 12; year--; } epoch = (365 * year) + (year >> 2) - (year / 100) + (year / 400); // Years to days. epoch += (30 * month) + (3 * (month + 1) / 5) + time->day; // Months to days. epoch -= 719561; // Epoch time is 1/1/1970. epoch *= 86400; // Days to seconds. epoch += (3600 * time->hour) + (60 * time->min) + time->sec; // Add hours, minutes and seconds. return epoch; } void max77620_rtc_get_time_adjusted(rtc_time_t *time) { max77620_rtc_get_time(time); if (epoch_offset) { u32 epoch = (u32)((s64)max77620_rtc_date_to_epoch(time) + epoch_offset); // Adjust for DST between 28 march and 28 october. Good enough to cover all years as week info is not valid. u16 md = (time->month << 8) | time->day; if (auto_dst && md >= 0x31C && md < 0xA1C) epoch += 3600; max77620_rtc_epoch_to_date(epoch, time); } } void max77620_rtc_set_auto_dst(bool enable) { auto_dst = enable; } void max77620_rtc_set_epoch_offset(int offset) { epoch_offset = offset; } void max77620_rtc_set_reboot_reason(rtc_reboot_reason_t *rr) { max77620_rtc_stop_alarm(); // Set reboot reason. i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM1_YEAR_REG, rr->enc.val1); i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM2_YEAR_REG, rr->enc.val2); // Set reboot reason magic. i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM1_WEEKDAY_REG, RTC_REBOOT_REASON_MAGIC); i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM2_WEEKDAY_REG, RTC_REBOOT_REASON_MAGIC); // Update RTC clock from RTC regs. i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_UPDATE0_REG, MAX77620_RTC_WRITE_UPDATE); msleep(16); } bool max77620_rtc_get_reboot_reason(rtc_reboot_reason_t *rr) { u8 magic[2]; // Get reboot reason magic. magic[0] = i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM1_WEEKDAY_REG); magic[1] = i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM2_WEEKDAY_REG); // Magic must be correct and match on both registers. if (magic[0] != RTC_REBOOT_REASON_MAGIC || magic[0] != magic[1]) return false; // Reboot reason setter is expected to have updated the actual regs already. rr->enc.val1 = i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM1_YEAR_REG); rr->enc.val2 = i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM2_YEAR_REG); // Clear magic and update actual regs. i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM1_WEEKDAY_REG, 0); i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_ALARM2_WEEKDAY_REG, 0); i2c_send_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_UPDATE0_REG, MAX77620_RTC_WRITE_UPDATE); // Return reboot reason. False if [config] was selected. return true; } ================================================ FILE: bdk/rtc/max77620-rtc.h ================================================ /* * PMIC Real Time Clock driver for Nintendo Switch's MAX77620-RTC * * Copyright (c) 2018-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MFD_MAX77620_RTC_H_ #define _MFD_MAX77620_RTC_H_ #include #define MAX77620_RTC_I2C_ADDR 0x68 #define MAX77620_RTC_NR_TIME_REGS 7 #define MAX77620_RTC_RTCINT_REG 0x00 #define MAX77620_RTC_RTCINTM_REG 0x01 #define MAX77620_RTC_CONTROLM_REG 0x02 #define MAX77620_RTC_CONTROL_REG 0x03 #define MAX77620_RTC_BIN_FORMAT BIT(0) #define MAX77620_RTC_24H BIT(1) #define MAX77620_RTC_UPDATE0_REG 0x04 #define MAX77620_RTC_WRITE_UPDATE BIT(0) #define MAX77620_RTC_READ_UPDATE BIT(4) #define MAX77620_RTC_UPDATE1_REG 0x05 #define MAX77620_RTC_RTCSMPL_REG 0x06 #define MAX77620_RTC_SEC_REG 0x07 #define MAX77620_RTC_MIN_REG 0x08 #define MAX77620_RTC_HOUR_REG 0x09 #define MAX77620_RTC_HOUR_PM_MASK BIT(6) #define MAX77620_RTC_WEEKDAY_REG 0x0A #define MAX77620_RTC_MONTH_REG 0x0B #define MAX77620_RTC_YEAR_REG 0x0C #define MAX77620_RTC_DAY_REG 0x0D #define MAX77620_ALARM1_SEC_REG 0x0E #define MAX77620_ALARM1_MIN_REG 0x0F #define MAX77620_ALARM1_HOUR_REG 0x10 #define MAX77620_ALARM1_WEEKDAY_REG 0x11 #define MAX77620_ALARM1_MONTH_REG 0x12 #define MAX77620_ALARM1_YEAR_REG 0x13 #define MAX77620_ALARM1_DATE_REG 0x14 #define MAX77620_ALARM2_SEC_REG 0x15 #define MAX77620_ALARM2_MIN_REG 0x16 #define MAX77620_ALARM2_HOUR_REG 0x17 #define MAX77620_ALARM2_WEEKDAY_REG 0x18 #define MAX77620_ALARM2_MONTH_REG 0x19 #define MAX77620_ALARM2_YEAR_REG 0x1A #define MAX77620_ALARM2_DATE_REG 0x1B #define MAX77620_RTC_ALARM_EN_MASK BIT(7) typedef struct _rtc_time_t { u8 weekday; u8 sec; u8 min; u8 hour; u8 day; u8 month; u16 year; } rtc_time_t; #define RTC_REBOOT_REASON_MAGIC 0x77 // 7-bit reg. enum { REBOOT_REASON_NOP = 0, // Use [config]. REBOOT_REASON_SELF = 1, // Use autoboot_idx/autoboot_list. REBOOT_REASON_MENU = 2, // Force menu. REBOOT_REASON_UMS = 3, // Force selected UMS partition. REBOOT_REASON_REC = 4, // Set PMC_SCRATCH0_MODE_RECOVERY and reboot to self. REBOOT_REASON_PANIC = 5 // Inform bootloader that panic occured if T210B01. }; typedef struct _rtc_rr_decoded_t { u16 reason:4; u16 autoboot_idx:4; u16 autoboot_list:1; u16 ums_idx:3; } rtc_rr_decoded_t; typedef struct _rtc_rr_encoded_t { u16 val1:6; // 6-bit reg. u16 val2:6; // 6-bit reg. } rtc_rr_encoded_t; typedef struct _rtc_reboot_reason_t { union { rtc_rr_decoded_t dec; rtc_rr_encoded_t enc; }; } rtc_reboot_reason_t; void max77620_rtc_prep_read(); void max77620_rtc_get_time(rtc_time_t *time); void max77620_rtc_get_time_adjusted(rtc_time_t *time); void max77620_rtc_set_epoch_offset(int offset); void max77620_rtc_set_auto_dst(bool enable); void max77620_rtc_stop_alarm(); void max77620_rtc_epoch_to_date(u32 epoch, rtc_time_t *time); u32 max77620_rtc_date_to_epoch(const rtc_time_t *time); void max77620_rtc_set_reboot_reason(rtc_reboot_reason_t *rr); bool max77620_rtc_get_reboot_reason(rtc_reboot_reason_t *rr); #endif /* _MFD_MAX77620_RTC_H_ */ ================================================ FILE: bdk/sec/se.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "se.h" #include #include #include #include #include #include typedef struct _se_ll_t { u32 num; u32 addr; u32 size; } se_ll_t; se_ll_t ll_src, ll_dst; // Must be u32 aligned. se_ll_t *ll_src_ptr, *ll_dst_ptr; static void _se_ls_1bit(void *buf) { u8 *block = (u8 *)buf; u32 carry = 0; for (int i = SE_AES_BLOCK_SIZE - 1; i >= 0; i--) { u8 b = block[i]; block[i] = (b << 1) | carry; carry = b >> 7; } if (carry) block[SE_AES_BLOCK_SIZE - 1] ^= 0x87; } static void _se_ls_1bit_le(void *buf) { u32 *block = (u32 *)buf; u32 carry = 0; for (u32 i = 0; i < 4; i++) { u32 b = block[i]; block[i] = (b << 1) | carry; carry = b >> 31; } if (carry) block[0x0] ^= 0x87; } static void _se_ll_set(se_ll_t *ll, u32 addr, u32 size) { ll->num = 0; ll->addr = addr; ll->size = size & 0xFFFFFF; } static int _se_op_wait() { bool tegra_t210 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210; // Wait for operation to be done. while (!(SE(SE_INT_STATUS_REG) & SE_INT_OP_DONE)) ; // Check for errors. if ((SE(SE_INT_STATUS_REG) & SE_INT_ERR_STAT) || (SE(SE_STATUS_REG) & SE_STATUS_STATE_MASK) != SE_STATUS_STATE_IDLE || (SE(SE_ERR_STATUS_REG) != 0) ) { return 1; } // WAR: Coherency flushing. if (ll_dst_ptr) { // Ensure data is out from SE. if (tegra_t210) usleep(15); // Worst case scenario. else { // T210B01 has a status bit for that. u32 retries = 500000; while (SE(SE_STATUS_REG) & SE_STATUS_MEM_IF_BUSY) { if (!retries) return 1; usleep(1); retries--; } } // Ensure data is out from AHB. u32 retries = 500000; while (AHB_GIZMO(AHB_ARBITRATION_AHB_MEM_WRQUE_MST_ID) & MEM_WRQUE_SE_MST_ID) { if (!retries) return 1; usleep(1); retries--; } } return 0; } static int _se_execute_finalize() { int res = _se_op_wait(); // Invalidate data after OP is done. bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, false); return res; } static int _se_execute(u32 op, void *dst, u32 dst_size, const void *src, u32 src_size, bool is_oneshot) { if (dst_size > SE_LL_MAX_SIZE || src_size > SE_LL_MAX_SIZE) return 1; ll_src_ptr = NULL; ll_dst_ptr = NULL; if (src) { ll_src_ptr = &ll_src; _se_ll_set(ll_src_ptr, (u32)src, src_size); } if (dst) { ll_dst_ptr = &ll_dst; _se_ll_set(ll_dst_ptr, (u32)dst, dst_size); } // Set linked list pointers. SE(SE_IN_LL_ADDR_REG) = (u32)ll_src_ptr; SE(SE_OUT_LL_ADDR_REG) = (u32)ll_dst_ptr; // Clear status. SE(SE_ERR_STATUS_REG) = SE(SE_ERR_STATUS_REG); SE(SE_INT_STATUS_REG) = SE(SE_INT_STATUS_REG); // Flush data before starting OP. bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLEAN_WAY, false); SE(SE_OPERATION_REG) = op; if (is_oneshot) return _se_execute_finalize(); return 0; } static int _se_execute_oneshot(u32 op, void *dst, u32 dst_size, const void *src, u32 src_size) { return _se_execute(op, dst, dst_size, src, src_size, true); } static int _se_execute_aes_oneshot(void *dst, const void *src, u32 size) { // Set optional memory interface. if (dst >= (void *)DRAM_START && src >= (void *)DRAM_START) SE(SE_CRYPTO_CONFIG_REG) |= SE_CRYPTO_MEMIF(MEMIF_MCCIF); u32 size_aligned = ALIGN_DOWN(size, SE_AES_BLOCK_SIZE); u32 size_residue = size % SE_AES_BLOCK_SIZE; int res = 0; // Handle initial aligned message. if (size_aligned) { SE(SE_CRYPTO_LAST_BLOCK_REG) = (size >> 4) - 1; res = _se_execute_oneshot(SE_OP_START, dst, size_aligned, src, size_aligned); } // Handle leftover partial message. if (!res && size_residue) { // Copy message to a block sized buffer in case it's partial. u32 block[SE_AES_BLOCK_SIZE / sizeof(u32)] = {0}; memcpy(block, src + size_aligned, size_residue); // Use updated IV for CBC and OFB. Ignored on others. SE(SE_CRYPTO_CONFIG_REG) |= SE_CRYPTO_IV_SEL(IV_UPDATED); SE(SE_CRYPTO_LAST_BLOCK_REG) = (SE_AES_BLOCK_SIZE >> 4) - 1; res = _se_execute_oneshot(SE_OP_START, block, SE_AES_BLOCK_SIZE, block, SE_AES_BLOCK_SIZE); // Copy result back. memcpy(dst + size_aligned, block, size_residue); } return res; } static void _se_aes_counter_set(const void *ctr) { u32 data[SE_AES_IV_SIZE / sizeof(u32)]; memcpy(data, ctr, SE_AES_IV_SIZE); for (u32 i = 0; i < SE_CRYPTO_LINEAR_CTR_REG_COUNT; i++) SE(SE_CRYPTO_LINEAR_CTR_REG + sizeof(u32) * i) = data[i]; } void se_rsa_acc_ctrl(u32 rs, u32 flags) { if (flags & SE_RSA_KEY_TBL_DIS_KEY_ACCESS_FLAG) SE(SE_RSA_KEYTABLE_ACCESS_REG + sizeof(u32) * rs) = (((flags >> 4) & SE_RSA_KEY_TBL_DIS_KEYUSE_FLAG) | (flags & SE_RSA_KEY_TBL_DIS_KEY_READ_UPDATE_FLAG)) ^ SE_RSA_KEY_TBL_DIS_KEY_READ_UPDATE_USE_FLAG; if (flags & SE_RSA_KEY_LOCK_FLAG) SE(SE_RSA_SECURITY_PERKEY_REG) &= ~BIT(rs); } void se_key_acc_ctrl(u32 ks, u32 flags) { if (flags & SE_KEY_TBL_DIS_KEY_ACCESS_FLAG) SE(SE_CRYPTO_KEYTABLE_ACCESS_REG + sizeof(u32) * ks) = ~flags; if (flags & SE_KEY_LOCK_FLAG) SE(SE_CRYPTO_SECURITY_PERKEY_REG) &= ~BIT(ks); } u32 se_key_acc_ctrl_get(u32 ks) { return SE(SE_CRYPTO_KEYTABLE_ACCESS_REG + sizeof(u32) * ks); } void se_aes_key_set(u32 ks, const void *key, u32 size) { u32 data[SE_AES_MAX_KEY_SIZE / sizeof(u32)]; memcpy(data, key, size); for (u32 i = 0; i < (size / sizeof(u32)); i++) { // QUAD KEYS_4_7 bit is automatically set by PKT macro. SE(SE_CRYPTO_KEYTABLE_ADDR_REG) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_QUAD(KEYS_0_3) | SE_KEYTABLE_PKT(i); SE(SE_CRYPTO_KEYTABLE_DATA_REG) = data[i]; } } void se_aes_iv_set(u32 ks, const void *iv, u32 size) { u32 data[SE_AES_MAX_KEY_SIZE / sizeof(u32)]; memcpy(data, iv, size); for (u32 i = 0; i < (size / sizeof(u32)); i++) { // QUAD UPDATED_IV bit is automatically set by PKT macro. SE(SE_CRYPTO_KEYTABLE_ADDR_REG) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_QUAD(ORIGINAL_IV) | SE_KEYTABLE_PKT(i); SE(SE_CRYPTO_KEYTABLE_DATA_REG) = data[i]; } } void se_aes_key_get(u32 ks, void *key, u32 size) { u32 data[SE_AES_MAX_KEY_SIZE / sizeof(u32)]; for (u32 i = 0; i < (size / sizeof(u32)); i++) { // QUAD KEYS_4_7 bit is automatically set by PKT macro. SE(SE_CRYPTO_KEYTABLE_ADDR_REG) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_QUAD(KEYS_0_3) | SE_KEYTABLE_PKT(i); data[i] = SE(SE_CRYPTO_KEYTABLE_DATA_REG); } memcpy(key, data, size); } void se_aes_key_clear(u32 ks) { for (u32 i = 0; i < (SE_AES_MAX_KEY_SIZE / sizeof(u32)); i++) { // QUAD KEYS_4_7 bit is automatically set by PKT macro. SE(SE_CRYPTO_KEYTABLE_ADDR_REG) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_QUAD(KEYS_0_3) | SE_KEYTABLE_PKT(i); SE(SE_CRYPTO_KEYTABLE_DATA_REG) = 0; } } void se_aes_iv_clear(u32 ks) { for (u32 i = 0; i < (SE_AES_MAX_KEY_SIZE / sizeof(u32)); i++) { // QUAD UPDATED_IV bit is automatically set by PKT macro. SE(SE_CRYPTO_KEYTABLE_ADDR_REG) = SE_KEYTABLE_SLOT(ks) | SE_KEYTABLE_QUAD(ORIGINAL_IV) | SE_KEYTABLE_PKT(i); SE(SE_CRYPTO_KEYTABLE_DATA_REG) = 0; } } int se_aes_unwrap_key(u32 ks_dst, u32 ks_src, const void *seed) { SE(SE_CONFIG_REG) = SE_CONFIG_DEC_MODE(MODE_KEY128) | SE_CONFIG_DEC_ALG(ALG_AES_DEC) | SE_CONFIG_DST(DST_KEYTABLE); SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks_src) | SE_CRYPTO_CORE_SEL(CORE_DECRYPT); SE(SE_CRYPTO_LAST_BLOCK_REG) = (SE_AES_BLOCK_SIZE >> 4) - 1; SE(SE_CRYPTO_KEYTABLE_DST_REG) = SE_KEYTABLE_DST_KEY_INDEX(ks_dst) | SE_KEYTABLE_DST_WORD_QUAD(KEYS_0_3); return _se_execute_oneshot(SE_OP_START, NULL, 0, seed, SE_KEY_128_SIZE); } int se_aes_crypt_ecb(u32 ks, int enc, void *dst, const void *src, u32 size) { if (enc) { SE(SE_CONFIG_REG) = SE_CONFIG_ENC_MODE(MODE_KEY128) | SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY); SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_XOR_POS(XOR_BYPASS); } else { SE(SE_CONFIG_REG) = SE_CONFIG_DEC_MODE(MODE_KEY128) | SE_CONFIG_DEC_ALG(ALG_AES_DEC) | SE_CONFIG_DST(DST_MEMORY); SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_CORE_SEL(CORE_DECRYPT) | SE_CRYPTO_XOR_POS(XOR_BYPASS); } return _se_execute_aes_oneshot(dst, src, size); } int se_aes_crypt_cbc(u32 ks, int enc, void *dst, const void *src, u32 size) { if (enc) { SE(SE_CONFIG_REG) = SE_CONFIG_ENC_MODE(MODE_KEY128) | SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY); SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_VCTRAM_SEL(VCTRAM_AESOUT) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_XOR_POS(XOR_TOP); } else { SE(SE_CONFIG_REG) = SE_CONFIG_DEC_MODE(MODE_KEY128) | SE_CONFIG_DEC_ALG(ALG_AES_DEC) | SE_CONFIG_DST(DST_MEMORY); SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_VCTRAM_SEL(VCTRAM_PREVMEM) | SE_CRYPTO_CORE_SEL(CORE_DECRYPT) | SE_CRYPTO_XOR_POS(XOR_BOTTOM); } return _se_execute_aes_oneshot(dst, src, size); } int se_aes_crypt_ofb(u32 ks, void *dst, const void *src, u32 size) { SE(SE_SPARE_REG) = SE_INPUT_NONCE_LE; SE(SE_CONFIG_REG) = SE_CONFIG_ENC_MODE(MODE_KEY128) | SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY); SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_INPUT_SEL(INPUT_AESOUT) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_XOR_POS(XOR_BOTTOM); return _se_execute_aes_oneshot(dst, src, size); } int se_aes_crypt_ctr(u32 ks, void *dst, const void *src, u32 size, void *ctr) { SE(SE_SPARE_REG) = SE_INPUT_NONCE_LE; SE(SE_CONFIG_REG) = SE_CONFIG_ENC_MODE(MODE_KEY128) | SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY); SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(ks) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_XOR_POS(XOR_BOTTOM) | SE_CRYPTO_INPUT_SEL(INPUT_LNR_CTR) | SE_CRYPTO_CTR_CNTN(1); _se_aes_counter_set(ctr); return _se_execute_aes_oneshot(dst, src, size); } int se_aes_crypt_xts_sec(u32 tweak_ks, u32 crypt_ks, int enc, u64 sec, void *dst, void *src, u32 secsize) { u32 tmp[SE_AES_BLOCK_SIZE / sizeof(u32)]; u8 *tweak = (u8 *)tmp; u8 *pdst = (u8 *)dst; u8 *psrc = (u8 *)src; // Generate tweak. for (int i = SE_AES_BLOCK_SIZE - 1; i >= 0; i--) { tweak[i] = sec & 0xFF; sec >>= 8; } if (se_aes_crypt_ecb(tweak_ks, ENCRYPT, tweak, tweak, SE_AES_BLOCK_SIZE)) return 1; // We are assuming a 0x10-aligned sector size in this implementation. for (u32 i = 0; i < secsize / SE_AES_BLOCK_SIZE; i++) { for (u32 j = 0; j < SE_AES_BLOCK_SIZE; j++) pdst[j] = psrc[j] ^ tweak[j]; if (se_aes_crypt_ecb(crypt_ks, enc, pdst, pdst, SE_AES_BLOCK_SIZE)) return 1; for (u32 j = 0; j < SE_AES_BLOCK_SIZE; j++) pdst[j] = pdst[j] ^ tweak[j]; _se_ls_1bit(tweak); psrc += SE_AES_BLOCK_SIZE; pdst += SE_AES_BLOCK_SIZE; } return 0; } int se_aes_crypt_xts_sec_nx(u32 tweak_ks, u32 crypt_ks, int enc, u64 sec, u8 *tweak, bool regen_tweak, u32 tweak_exp, void *dst, void *src, u32 sec_size) { u32 *pdst = (u32 *)dst; u32 *psrc = (u32 *)src; u32 *ptweak = (u32 *)tweak; if (regen_tweak) { for (int i = SE_AES_BLOCK_SIZE - 1; i >= 0; i--) { tweak[i] = sec & 0xFF; sec >>= 8; } if (se_aes_crypt_ecb(tweak_ks, ENCRYPT, tweak, tweak, SE_AES_BLOCK_SIZE)) return 1; } // tweak_exp allows using a saved tweak to reduce _se_ls_1bit_le calls. for (u32 i = 0; i < (tweak_exp << 5); i++) _se_ls_1bit_le(tweak); u8 orig_tweak[SE_KEY_128_SIZE] __attribute__((aligned(4))); memcpy(orig_tweak, tweak, SE_KEY_128_SIZE); // We are assuming a 16 sector aligned size in this implementation. for (u32 i = 0; i < (sec_size >> 4); i++) { for (u32 j = 0; j < (SE_AES_BLOCK_SIZE / sizeof(u32)); j++) pdst[j] = psrc[j] ^ ptweak[j]; _se_ls_1bit_le(tweak); psrc += sizeof(u32); pdst += sizeof(u32); } if (se_aes_crypt_ecb(crypt_ks, enc, dst, dst, sec_size)) return 1; pdst = (u32 *)dst; ptweak = (u32 *)orig_tweak; for (u32 i = 0; i < (sec_size >> 4); i++) { for (u32 j = 0; j < (SE_AES_BLOCK_SIZE / sizeof(u32)); j++) pdst[j] = pdst[j] ^ ptweak[j]; _se_ls_1bit_le(orig_tweak); pdst += sizeof(u32); } return 0; } int se_aes_crypt_xts(u32 tweak_ks, u32 crypt_ks, int enc, u64 sec, void *dst, void *src, u32 secsize, u32 num_secs) { u8 *pdst = (u8 *)dst; u8 *psrc = (u8 *)src; for (u32 i = 0; i < num_secs; i++) if (se_aes_crypt_xts_sec(tweak_ks, crypt_ks, enc, sec + i, pdst + secsize * i, psrc + secsize * i, secsize)) return 1; return 0; } static void _se_sha_hash_256_get_hash(void *hash) { // Copy output hash. u32 hash32[SE_SHA_256_SIZE / sizeof(u32)]; for (u32 i = 0; i < (SE_SHA_256_SIZE / sizeof(u32)); i++) hash32[i] = byte_swap_32(SE(SE_HASH_RESULT_REG + sizeof(u32) * i)); memcpy(hash, hash32, SE_SHA_256_SIZE); } static int _se_sha_hash_256(void *hash, u64 total_size, const void *src, u32 src_size, bool is_oneshot) { // Src size of 0 is not supported, so return null string sha256. if (!src_size) { const u8 null_hash[SE_SHA_256_SIZE] = { 0xE3, 0xB0, 0xC4, 0x42, 0x98, 0xFC, 0x1C, 0x14, 0x9A, 0xFB, 0xF4, 0xC8, 0x99, 0x6F, 0xB9, 0x24, 0x27, 0xAE, 0x41, 0xE4, 0x64, 0x9B, 0x93, 0x4C, 0xA4, 0x95, 0x99, 0x1B, 0x78, 0x52, 0xB8, 0x55 }; memcpy(hash, null_hash, SE_SHA_256_SIZE); return 0; } // Increase leftover size if not last message. (Engine will always stop at src_size.) u32 msg_left = src_size; if (total_size < src_size) msg_left++; // Setup config for SHA256. SE(SE_CONFIG_REG) = SE_CONFIG_ENC_MODE(MODE_SHA256) | SE_CONFIG_ENC_ALG(ALG_SHA) | SE_CONFIG_DST(DST_HASHREG); // Set total size: BITS(total_size), up to 2 EB. SE(SE_SHA_MSG_LENGTH_0_REG) = (u32)(total_size << 3); SE(SE_SHA_MSG_LENGTH_1_REG) = (u32)(total_size >> 29); SE(SE_SHA_MSG_LENGTH_2_REG) = 0; SE(SE_SHA_MSG_LENGTH_3_REG) = 0; // Set leftover size: BITS(src_size). SE(SE_SHA_MSG_LEFT_0_REG) = (u32)(msg_left << 3); SE(SE_SHA_MSG_LEFT_1_REG) = (u32)(msg_left >> 29); SE(SE_SHA_MSG_LEFT_2_REG) = 0; SE(SE_SHA_MSG_LEFT_3_REG) = 0; // Set config based on init or partial continuation. if (total_size == src_size || !total_size) SE(SE_SHA_CONFIG_REG) = SHA_INIT_HASH; else SE(SE_SHA_CONFIG_REG) = SHA_CONTINUE; // Trigger the operation. src vs total size decides if it's partial. int res = _se_execute(SE_OP_START, NULL, 0, src, src_size, is_oneshot); if (!res && is_oneshot) _se_sha_hash_256_get_hash(hash); return res; } int se_sha_hash_256_async(void *hash, const void *src, u32 size) { return _se_sha_hash_256(hash, size, src, size, false); } int se_sha_hash_256_oneshot(void *hash, const void *src, u32 size) { return _se_sha_hash_256(hash, size, src, size, true); } int se_sha_hash_256_partial_start(void *hash, const void *src, u32 size, bool is_oneshot) { // Check if aligned SHA256 block size. if (size % SE_SHA2_MIN_BLOCK_SIZE) return 1; return _se_sha_hash_256(hash, 0, src, size, is_oneshot); } int se_sha_hash_256_partial_update(void *hash, const void *src, u32 size, bool is_oneshot) { // Check if aligned to SHA256 block size. if (size % SE_SHA2_MIN_BLOCK_SIZE) return 1; return _se_sha_hash_256(hash, size - 1, src, size, is_oneshot); } int se_sha_hash_256_partial_end(void *hash, u64 total_size, const void *src, u32 src_size, bool is_oneshot) { return _se_sha_hash_256(hash, total_size, src, src_size, is_oneshot); } int se_sha_hash_256_finalize(void *hash) { int res = _se_execute_finalize(); _se_sha_hash_256_get_hash(hash); return res; } int se_rng_pseudo(void *dst, u32 size) { // Setup config for SP 800-90 PRNG. SE(SE_CONFIG_REG) = SE_CONFIG_ENC_MODE(MODE_KEY128) | SE_CONFIG_ENC_ALG(ALG_RNG) | SE_CONFIG_DST(DST_MEMORY); SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_XOR_POS(XOR_BYPASS) | SE_CRYPTO_INPUT_SEL(INPUT_RANDOM); SE(SE_RNG_CONFIG_REG) = SE_RNG_CONFIG_SRC(SRC_ENTROPY) | SE_RNG_CONFIG_MODE(MODE_NORMAL); SE(SE_RNG_SRC_CONFIG_REG) |= SE_RNG_SRC_CONFIG_ENTR_SRC(RO_ENTR_ENABLE); // DRBG. Depends on ENTROPY clock. SE(SE_RNG_RESEED_INTERVAL_REG) = 4096; u32 size_aligned = ALIGN_DOWN(size, SE_RNG_BLOCK_SIZE); u32 size_residue = size % SE_RNG_BLOCK_SIZE; int res = 0; // Handle initial aligned message. if (size_aligned) { SE(SE_CRYPTO_LAST_BLOCK_REG) = (size >> 4) - 1; res = _se_execute_oneshot(SE_OP_START, dst, size_aligned, NULL, 0); } // Handle leftover partial message. if (!res && size_residue) { // Copy message to a block sized buffer in case it's partial. u32 block[SE_RNG_BLOCK_SIZE / sizeof(u32)] = {0}; SE(SE_CRYPTO_LAST_BLOCK_REG) = (SE_AES_BLOCK_SIZE >> 4) - 1; res = _se_execute_oneshot(SE_OP_START, block, SE_RNG_BLOCK_SIZE, NULL, 0); // Copy result back. memcpy(dst + size_aligned, block, size_residue); } return res; } void se_aes_ctx_get_keys(u8 *buf, u8 *keys, u32 keysize) { u8 *aligned_buf = (u8 *)ALIGN((u32)buf, 0x40); // Set Secure Random Key. SE(SE_CONFIG_REG) = SE_CONFIG_ENC_MODE(MODE_KEY128) | SE_CONFIG_ENC_ALG(ALG_RNG) | SE_CONFIG_DST(DST_SRK); SE(SE_CRYPTO_CONFIG_REG) = SE_CRYPTO_KEY_INDEX(0) | SE_CRYPTO_CORE_SEL(CORE_ENCRYPT) | SE_CRYPTO_INPUT_SEL(INPUT_RANDOM); SE(SE_RNG_CONFIG_REG) = SE_RNG_CONFIG_SRC(SRC_ENTROPY) | SE_RNG_CONFIG_MODE(MODE_FORCE_RESEED); SE(SE_CRYPTO_LAST_BLOCK) = 0; _se_execute_oneshot(SE_OP_START, NULL, 0, NULL, 0); // Save AES keys. SE(SE_CONFIG_REG) = SE_CONFIG_ENC_MODE(MODE_KEY128) | SE_CONFIG_ENC_ALG(ALG_AES_ENC) | SE_CONFIG_DST(DST_MEMORY); for (u32 i = 0; i < SE_AES_KEYSLOT_COUNT; i++) { SE(SE_CONTEXT_SAVE_CONFIG_REG) = SE_CONTEXT_SRC(AES_KEYTABLE) | SE_KEYTABLE_DST_KEY_INDEX(i) | SE_CONTEXT_AES_KEY_INDEX(0) | SE_CONTEXT_AES_WORD_QUAD(KEYS_0_3); SE(SE_CRYPTO_LAST_BLOCK) = 0; _se_execute_oneshot(SE_OP_CTX_SAVE, aligned_buf, SE_AES_BLOCK_SIZE, NULL, 0); memcpy(keys + i * keysize, aligned_buf, SE_AES_BLOCK_SIZE); if (keysize > SE_KEY_128_SIZE) { SE(SE_CONTEXT_SAVE_CONFIG_REG) = SE_CONTEXT_SRC(AES_KEYTABLE) | SE_KEYTABLE_DST_KEY_INDEX(i) | SE_CONTEXT_AES_KEY_INDEX(0) | SE_CONTEXT_AES_WORD_QUAD(KEYS_4_7); SE(SE_CRYPTO_LAST_BLOCK) = 0; _se_execute_oneshot(SE_OP_CTX_SAVE, aligned_buf, SE_AES_BLOCK_SIZE, NULL, 0); memcpy(keys + i * keysize + SE_AES_BLOCK_SIZE, aligned_buf, SE_AES_BLOCK_SIZE); } } // Save SRK to PMC secure scratches. SE(SE_CONTEXT_SAVE_CONFIG_REG) = SE_CONTEXT_SRC(SRK); SE(SE_CRYPTO_LAST_BLOCK) = 0; _se_execute_oneshot(SE_OP_CTX_SAVE, NULL, 0, NULL, 0); // End context save. SE(SE_CONFIG_REG) = 0; _se_execute_oneshot(SE_OP_CTX_SAVE, NULL, 0, NULL, 0); // Get SRK. u32 srk[4]; srk[0] = PMC(APBDEV_PMC_SECURE_SCRATCH4); srk[1] = PMC(APBDEV_PMC_SECURE_SCRATCH5); srk[2] = PMC(APBDEV_PMC_SECURE_SCRATCH6); srk[3] = PMC(APBDEV_PMC_SECURE_SCRATCH7); // Decrypt context. se_aes_key_set(3, srk, SE_KEY_128_SIZE); se_aes_crypt_cbc(3, DECRYPT, keys, keys, SE_AES_KEYSLOT_COUNT * keysize); se_aes_key_clear(3); } int se_aes_hash_cmac(u32 ks, void *hash, const void *src, u32 size) { u32 tmp1[SE_KEY_128_SIZE / sizeof(u32)] = {0}; u32 tmp2[SE_AES_BLOCK_SIZE / sizeof(u32)] = {0}; u8 *subkey = (u8 *)tmp1; u8 *last_block = (u8 *)tmp2; // Generate sub key (CBC with zeroed IV, basically ECB). se_aes_iv_clear(ks); if (se_aes_crypt_cbc(ks, ENCRYPT, subkey, subkey, SE_KEY_128_SIZE)) return 1; // Generate K1 subkey. _se_ls_1bit(subkey); if (size & 0xF) _se_ls_1bit(subkey); // Convert to K2. // Switch to hash register. The rest of the config is already set. SE(SE_CONFIG_REG) |= SE_CONFIG_DST(DST_HASHREG); SE(SE_CRYPTO_CONFIG_REG) |= SE_CRYPTO_HASH(HASH_ENABLE); // Initial blocks. u32 num_blocks = (size + 0xF) >> 4; if (num_blocks > 1) { SE(SE_CRYPTO_LAST_BLOCK_REG) = num_blocks - 2; if (_se_execute_oneshot(SE_OP_START, NULL, 0, src, size)) return 1; // Use updated IV for next OP as a continuation. SE(SE_CRYPTO_CONFIG_REG) |= SE_CRYPTO_IV_SEL(IV_UPDATED); } // Last block. if (size & 0xF) { memcpy(last_block, src + (size & (~0xF)), size & 0xF); last_block[size & 0xF] = 0x80; } else if (size >= SE_AES_BLOCK_SIZE) memcpy(last_block, src + size - SE_AES_BLOCK_SIZE, SE_AES_BLOCK_SIZE); for (u32 i = 0; i < SE_KEY_128_SIZE; i++) last_block[i] ^= subkey[i]; SE(SE_CRYPTO_LAST_BLOCK_REG) = (SE_AES_BLOCK_SIZE >> 4) - 1; if (_se_execute_oneshot(SE_OP_START, NULL, 0, last_block, SE_AES_BLOCK_SIZE)) return 1; // Copy output hash. u32 *hash32 = (u32 *)hash; for (u32 i = 0; i < (SE_AES_CMAC_DIGEST_SIZE / sizeof(u32)); i++) hash32[i] = SE(SE_HASH_RESULT_REG + sizeof(u32) * i); return 0; } ================================================ FILE: bdk/sec/se.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _SE_H_ #define _SE_H_ #include "se_t210.h" #include void se_rsa_acc_ctrl(u32 rs, u32 flags); void se_key_acc_ctrl(u32 ks, u32 flags); u32 se_key_acc_ctrl_get(u32 ks); /*! AES Key Management Functions */ void se_aes_key_set(u32 ks, const void *key, u32 size); void se_aes_iv_set(u32 ks, const void *iv, u32 size); void se_aes_key_get(u32 ks, void *key, u32 size); void se_aes_key_clear(u32 ks); void se_aes_iv_clear(u32 ks); int se_aes_unwrap_key(u32 ks_dst, u32 ks_src, const void *seed); void se_aes_ctx_get_keys(u8 *buf, u8 *keys, u32 keysize); /*! Encryption Functions */ int se_aes_crypt_ecb(u32 ks, int enc, void *dst, const void *src, u32 size); int se_aes_crypt_cbc(u32 ks, int enc, void *dst, const void *src, u32 size); int se_aes_crypt_ofb(u32 ks, void *dst, const void *src, u32 size); int se_aes_crypt_ctr(u32 ks, void *dst, const void *src, u32 size, void *ctr); int se_aes_crypt_xts_sec(u32 tweak_ks, u32 crypt_ks, int enc, u64 sec, void *dst, void *src, u32 secsize); int se_aes_crypt_xts_sec_nx(u32 tweak_ks, u32 crypt_ks, int enc, u64 sec, u8 *tweak, bool regen_tweak, u32 tweak_exp, void *dst, void *src, u32 sec_size); int se_aes_crypt_xts(u32 tweak_ks, u32 crypt_ks, int enc, u64 sec, void *dst, void *src, u32 secsize, u32 num_secs); /*! Hashing Functions */ int se_sha_hash_256_async(void *hash, const void *src, u32 size); int se_sha_hash_256_oneshot(void *hash, const void *src, u32 size); int se_sha_hash_256_partial_start(void *hash, const void *src, u32 size, bool is_oneshot); int se_sha_hash_256_partial_update(void *hash, const void *src, u32 size, bool is_oneshot); int se_sha_hash_256_partial_end(void *hash, u64 total_size, const void *src, u32 src_size, bool is_oneshot); int se_sha_hash_256_finalize(void *hash); int se_aes_hash_cmac(u32 ks, void *hash, const void *src, u32 size); /*! Random Functions */ int se_rng_pseudo(void *dst, u32 size); #endif ================================================ FILE: bdk/sec/se_t210.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _SE_T210_H #define _SE_T210_H #include #define SE_CRYPTO_QUEUE_LENGTH 50 #define SE_MAX_SRC_SG_COUNT 50 #define SE_MAX_DST_SG_COUNT 50 #define SE_AES_KEYSLOT_COUNT 16 #define SE_RSA_KEYSLOT_COUNT 2 #define SE_AES_BLOCK_SIZE 16 #define SE_AES_IV_SIZE 16 #define SE_AES_MIN_KEY_SIZE 16 #define SE_AES_MAX_KEY_SIZE 32 #define SE_KEY_128_SIZE 16 #define SE_KEY_192_SIZE 24 #define SE_KEY_256_SIZE 32 #define SE_SHA_192_SIZE 24 #define SE_SHA_256_SIZE 32 #define SE_SHA_384_SIZE 48 #define SE_SHA_512_SIZE 64 #define SE_RNG_BLOCK_SIZE 16 #define SE_RNG_IV_SIZE 16 #define SE_RNG_DT_SIZE 16 #define SE_RNG_KEY_SIZE 16 #define SE_RNG_SEED_SIZE (SE_RNG_IV_SIZE + SE_RNG_KEY_SIZE + SE_RNG_DT_SIZE) #define SE_AES_CMAC_DIGEST_SIZE 16 #define SE_RSA512_DIGEST_SIZE 64 #define SE_RSA1024_DIGEST_SIZE 128 #define SE_RSA1536_DIGEST_SIZE 192 #define SE_RSA2048_DIGEST_SIZE 256 #define SE_SHA2_MIN_BLOCK_SIZE 64 #define SE_SHA2_MAX_BLOCK_SIZE 128 #define SE_LL_MAX_SIZE ALIGN_DOWN(0xFFFFFF, SE_SHA2_MAX_BLOCK_SIZE) #define DECRYPT 0 #define ENCRYPT 1 /* SE register definitions */ #define SE_SE_SECURITY_REG 0x000 #define SE_HARD_SETTING BIT(0) #define SE_ENG_DIS BIT(1) #define SE_PERKEY_SETTING BIT(2) #define SE_SOFT_SETTING BIT(16) #define SE_TZRAM_SECURITY_REG 0x004 #define SE_TZRAM_HARD_SETTING BIT(0) #define SE_TZRAM_ENG_DIS BIT(1) #define SE_OPERATION_REG 0x008 #define SE_OP_ABORT 0 #define SE_OP_START 1 #define SE_OP_RESTART_OUT 2 #define SE_OP_CTX_SAVE 3 #define SE_OP_RESTART_IN 4 #define SE_INT_ENABLE_REG 0x00C #define SE_INT_STATUS_REG 0x010 #define SE_INT_IN_LL_BUF_RD BIT(0) #define SE_INT_IN_DONE BIT(1) #define SE_INT_OUT_LL_BUF_WR BIT(2) #define SE_INT_OUT_DONE BIT(3) #define SE_INT_OP_DONE BIT(4) #define SE_INT_RESEED_NEEDED BIT(5) #define SE_INT_ERR_STAT BIT(16) #define SE_CONFIG_REG 0x014 #define DST_MEMORY 0 #define DST_HASHREG 1 #define DST_KEYTABLE 2 #define DST_SRK 3 #define DST_RSAREG 4 #define SE_CONFIG_DST(x) ((x) << 2) #define ALG_NOP 0 #define ALG_AES_DEC 1 #define SE_CONFIG_DEC_ALG(x) ((x) << 8) #define ALG_NOP 0 #define ALG_AES_ENC 1 #define ALG_RNG 2 #define ALG_SHA 3 #define ALG_RSA 4 #define SE_CONFIG_ENC_ALG(x) ((x) << 12) #define MODE_KEY128 0 #define MODE_KEY192 1 #define MODE_KEY256 2 #define MODE_SHA1 0 #define MODE_SHA224 4 #define MODE_SHA256 5 #define MODE_SHA384 6 #define MODE_SHA512 7 #define SE_CONFIG_DEC_MODE(x) ((x) << 16) #define SE_CONFIG_ENC_MODE(x) ((x) << 24) #define SE_IN_LL_ADDR_REG 0x018 #define SE_IN_CUR_BYTE_ADDR_REG 0x01C #define SE_IN_CUR_LL_ID_REG 0x020 #define SE_OUT_LL_ADDR_REG 0x024 #define SE_OUT_CUR_BYTE_ADDR_REG 0x028 #define SE_OUT_CUR_LL_ID_REG 0x02C #define SE_HASH_RESULT_REG 0x030 #define SE_HASH_RESULT_REG_COUNT 16 #define SE_CONTEXT_SAVE_CONFIG_REG 0x070 #define KEYS_0_3 0 #define KEYS_4_7 1 #define ORIGINAL_IV 2 #define UPDATED_IV 3 #define SE_CONTEXT_AES_WORD_QUAD(x) ((x) << 0) #define SE_CONTEXT_AES_KEY_INDEX(x) ((x) << 8) #define KEYS_0_3 0 #define KEYS_4_7 1 #define KEYS_8_11 2 #define KEYS_12_15 3 #define SE_CONTEXT_RSA_WORD_QUAD(x) ((x) << 12) #define SLOT0_EXPONENT 0 #define SLOT0_MODULUS 1 #define SLOT1_EXPONENT 2 #define SLOT1_MODULUS 3 #define SE_CONTEXT_RSA_KEY_INDEX(x) ((x) << 16) #define STICKY_0_3 0 #define STICKY_4_7 1 #define SE_CONTEXT_STICKY_WORD_QUAD(x) ((x) << 24) #define STICKY_BITS 0 #define RSA_KEYTABLE 1 #define AES_KEYTABLE 2 #define MEM 4 #define SRK 6 #define SE_CONTEXT_SRC(x) ((x) << 29) #define SE_CTX_SAVE_AUTO_T210B01_REG 0x074 #define SE_CTX_SAVE_AUTO_ENABLE BIT(0) #define SE_CTX_SAVE_AUTO_LOCK BIT(8) #define SE_CTX_SAVE_AUTO_CURR_CNT_MASK (0x3FF << 16) #define SE_CRYPTO_LAST_BLOCK 0x080 #define SE_SHA_CONFIG_REG 0x200 #define SHA_CONTINUE 0 #define SHA_INIT_HASH 1 #define SE_SHA_MSG_LENGTH_0_REG 0x204 #define SE_SHA_MSG_LENGTH_1_REG 0x208 #define SE_SHA_MSG_LENGTH_2_REG 0x20C #define SE_SHA_MSG_LENGTH_3_REG 0x210 #define SE_SHA_MSG_LEFT_0_REG 0x214 #define SE_SHA_MSG_LEFT_1_REG 0x218 #define SE_SHA_MSG_LEFT_2_REG 0x21C #define SE_SHA_MSG_LEFT_3_REG 0x220 #define SE_CRYPTO_SECURITY_PERKEY_REG 0x280 #define SE_KEY_LOCK_FLAG 0x80 #define SE_CRYPTO_KEYTABLE_ACCESS_REG 0x284 #define SE_CRYPTO_KEYTABLE_ACCESS_REG_COUNT 16 #define SE_KEY_TBL_DIS_KEYREAD_FLAG BIT(0) #define SE_KEY_TBL_DIS_KEYUPDATE_FLAG BIT(1) #define SE_KEY_TBL_DIS_OIVREAD_FLAG BIT(2) #define SE_KEY_TBL_DIS_OIVUPDATE_FLAG BIT(3) #define SE_KEY_TBL_DIS_UIVREAD_FLAG BIT(4) #define SE_KEY_TBL_DIS_UIVUPDATE_FLAG BIT(5) #define SE_KEY_TBL_DIS_KEYUSE_FLAG BIT(6) #define SE_KEY_TBL_DIS_KEY_ACCESS_FLAG 0x7F #define SE_CRYPTO_CONFIG_REG 0x304 #define HASH_DISABLE 0 #define HASH_ENABLE 1 #define SE_CRYPTO_HASH(x) ((x) << 0) #define XOR_BYPASS 0 #define XOR_TOP 2 #define XOR_BOTTOM 3 #define SE_CRYPTO_XOR_POS(x) ((x) << 1) #define INPUT_MEMORY 0 #define INPUT_RANDOM 1 #define INPUT_AESOUT 2 #define INPUT_LNR_CTR 3 #define SE_CRYPTO_INPUT_SEL(x) ((x) << 3) #define VCTRAM_MEM 0 #define VCTRAM_AESOUT 2 #define VCTRAM_PREVMEM 3 #define SE_CRYPTO_VCTRAM_SEL(x) ((x) << 5) #define IV_ORIGINAL 0 #define IV_UPDATED 1 #define SE_CRYPTO_IV_SEL(x) ((x) << 7) #define CORE_DECRYPT 0 #define CORE_ENCRYPT 1 #define SE_CRYPTO_CORE_SEL(x) ((x) << 8) #define SE_CRYPTO_KEYSCH_BYPASS BIT(10) #define SE_CRYPTO_CTR_CNTN(x) ((x) << 11) #define SE_CRYPTO_KEY_INDEX(x) ((x) << 24) #define MEMIF_AHB 0 #define MEMIF_MCCIF 1 #define SE_CRYPTO_MEMIF(x) ((x) << 31) #define SE_CRYPTO_LINEAR_CTR_REG 0x308 #define SE_CRYPTO_LINEAR_CTR_REG_COUNT 4 #define SE_CRYPTO_LAST_BLOCK_REG 0x318 #define SE_CRYPTO_KEYTABLE_ADDR_REG 0x31C #define SE_KEYTABLE_PKT(x) ((x) << 0) #define KEYS_0_3 0 #define KEYS_4_7 1 #define ORIGINAL_IV 2 #define UPDATED_IV 3 #define SE_KEYTABLE_QUAD(x) ((x) << 2) #define SE_KEYTABLE_SLOT(x) ((x) << 4) #define SE_CRYPTO_KEYTABLE_DATA_REG 0x320 #define SE_CRYPTO_KEYTABLE_DST_REG 0x330 #define KEYS_0_3 0 #define KEYS_4_7 1 #define ORIGINAL_IV 2 #define UPDATED_IV 3 #define SE_KEYTABLE_DST_WORD_QUAD(x) ((x) << 0) #define SE_KEYTABLE_DST_KEY_INDEX(x) ((x) << 8) #define SE_RNG_CONFIG_REG 0x340 #define MODE_NORMAL 0 #define MODE_FORCE_INSTANTION 1 #define MODE_FORCE_RESEED 2 #define SE_RNG_CONFIG_MODE(x) ((x) << 0) #define SRC_NONE 0 #define SRC_ENTROPY 1 #define SRC_LFSR 2 #define SE_RNG_CONFIG_SRC(x) ((x) << 2) #define SE_RNG_SRC_CONFIG_REG 0x344 #define RO_ENTR_LOCK_DISABLE 0 #define RO_ENTR_LOCK_ENABLE 1 #define SE_RNG_SRC_CONFIG_ENTR_SRC_LOCK(x) ((x) << 0) #define RO_ENTR_DISABLE 0 #define RO_ENTR_ENABLE 1 #define SE_RNG_SRC_CONFIG_ENTR_SRC(x) ((x) << 1) #define RO_HW_DIS_CYA_DISABLE 0 #define RO_HW_DIS_CYA_ENABLE 1 #define SE_RNG_SRC_CONFIG_HW_DIS_CYA(x) ((x) << 2) #define SE_RNG_SRC_CONFIG_ENTR_SUBSMPL(x) ((x) << 4) #define SE_RNG_SRC_CONFIG_ENTR_DATA_FLUSH BIT(8) #define SE_RNG_RESEED_INTERVAL_REG 0x348 #define SE_RSA_CONFIG 0x400 #define RSA_KEY_SLOT_ONE 0 #define RSA_KEY_SLOT_TW0 1 #define RSA_KEY_SLOT(x) ((x) << 24) #define SE_RSA_KEY_SIZE_REG 0x404 #define RSA_KEY_WIDTH_512 0 #define RSA_KEY_WIDTH_1024 1 #define RSA_KEY_WIDTH_1536 2 #define RSA_KEY_WIDTH_2048 3 #define SE_RSA_EXP_SIZE_REG 0x408 #define SE_RSA_SECURITY_PERKEY_REG 0x40C #define SE_RSA_KEY_LOCK_FLAG 0x80 #define SE_RSA_KEYTABLE_ACCESS_REG 0x410 #define SE_RSA_KEY_TBL_DIS_KEYREAD_FLAG BIT(0) #define SE_RSA_KEY_TBL_DIS_KEYUPDATE_FLAG BIT(1) #define SE_RSA_KEY_TBL_DIS_KEYUSE_FLAG BIT(2) #define SE_RSA_KEY_TBL_DIS_KEY_ACCESS_FLAG 0x7F #define SE_RSA_KEY_TBL_DIS_KEY_READ_UPDATE_FLAG (SE_RSA_KEY_TBL_DIS_KEYREAD_FLAG | SE_RSA_KEY_TBL_DIS_KEYUPDATE_FLAG) #define SE_RSA_KEY_TBL_DIS_KEY_READ_UPDATE_USE_FLAG (SE_RSA_KEY_TBL_DIS_KEYREAD_FLAG | SE_RSA_KEY_TBL_DIS_KEYUPDATE_FLAG | SE_RSA_KEY_TBL_DIS_KEYUSE_FLAG) #define SE_RSA_KEYTABLE_ADDR_REG 0x420 #define SE_RSA_KEYTABLE_PKT(x) ((x) << 0) #define RSA_KEY_TYPE_EXP 0 #define RSA_KEY_TYPE_MOD 1 #define SE_RSA_KEYTABLE_TYPE(x) ((x) << 6) #define RSA_KEY_NUM(x) ((x) << 7) #define RSA_KEY_INPUT_MODE_REG 0 #define RSA_KEY_INPUT_MODE_DMA 1 #define SE_RSA_KEYTABLE_INPUT_MODE(x) ((x) << 8) #define RSA_KEY_READ 0 #define RSA_KEY_WRITE 1 #define SE_RSA_KEY_OP(x) ((x) << 10) #define SE_RSA_KEYTABLE_DATA_REG 0x424 #define SE_RSA_OUTPUT_REG 0x428 #define SE_RSA_OUTPUT_REG_COUNT 64 #define SE_STATUS_REG 0x800 #define SE_STATUS_STATE_IDLE 0 #define SE_STATUS_STATE_BUSY 1 #define SE_STATUS_STATE_WAIT_OUT 2 #define SE_STATUS_STATE_WAIT_IN 3 #define SE_STATUS_STATE_MASK 3 #define SE_STATUS_MEM_IF_IDLE (0 << 2) #define SE_STATUS_MEM_IF_BUSY BIT(2) #define SE_ERR_STATUS_REG 0x804 #define SE_ERR_STATUS_SE_NS_ACCESS BIT(0) #define SE_ERR_STATUS_BUSY_REG_WR BIT(1) #define SE_ERR_STATUS_DST BIT(2) #define SE_ERR_STATUS_SRK_USAGE_LIMIT BIT(3) #define SE_ERR_STATUS_TZRAM_NS_ACCESS BIT(24) #define SE_ERR_STATUS_TZRAM_ADDRESS BIT(25) #define SE_MISC_REG 0x808 #define SE_ENTROPY_NEXT_192BIT BIT(0) #define SE_ENTROPY_VN_BYPASS BIT(1) #define SE_CLK_OVR_ON BIT(2) #define SE_SPARE_REG 0x80C #define SE_INPUT_NONCE_LE BIT(0) #endif ================================================ FILE: bdk/sec/tsec.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2024 CTCaer * Copyright (c) 2018 balika011 * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "tsec.h" #include "tsec_t210.h" #include #include #include #include #include #include #include #include #include #include #include // #include #define PKG11_MAGIC 0x31314B50 #define TSEC_HOS_KB_620 6 static int _tsec_dma_wait_idle() { u32 timeout = get_tmr_ms() + 10000; while (!(TSEC(TSEC_DMATRFCMD) & TSEC_DMATRFCMD_IDLE)) if (get_tmr_ms() > timeout) return 1; return 0; } static int _tsec_dma_pa_to_internal_100(int not_imem, int i_offset, int pa_offset) { u32 cmd; if (not_imem) cmd = TSEC_DMATRFCMD_SIZE_256B; // DMA 256 bytes else cmd = TSEC_DMATRFCMD_IMEM; // DMA IMEM (Instruction memmory) TSEC(TSEC_DMATRFMOFFS) = i_offset; TSEC(TSEC_DMATRFFBOFFS) = pa_offset; TSEC(TSEC_DMATRFCMD) = cmd; return _tsec_dma_wait_idle(); } int tsec_query(void *tsec_keys, tsec_ctxt_t *tsec_ctxt) { int res = 0; u8 *fwbuf = NULL; u32 type = tsec_ctxt->type; u32 *car, *fuse, *pmc, *flowctrl, *se, *mc, *iram, *evec; u32 *pkg11_magic_off; void *ptb; bpmp_mmu_disable(); bpmp_clk_rate_relaxed(true); // Enable clocks. clock_enable_tsec(); clock_enable_sor_safe(); clock_enable_sor0(); clock_enable_sor1(); clock_enable_kfuse(); kfuse_wait_ready(); // Disable AHB aperture. mc_disable_ahb_redirect(); if (type == TSEC_FW_TYPE_NEW) { // Disable all CCPLEX core rails. pmc_domain_pwrgate_set(POWER_RAIL_CE0, DISABLE); pmc_domain_pwrgate_set(POWER_RAIL_CE1, DISABLE); pmc_domain_pwrgate_set(POWER_RAIL_CE2, DISABLE); pmc_domain_pwrgate_set(POWER_RAIL_CE3, DISABLE); // Enable AHB aperture and set it to full mmio. mc_enable_ahb_redirect(0); } // Configure Falcon. TSEC(TSEC_DMACTL) = 0; TSEC(TSEC_IRQMSET) = TSEC_IRQMSET_EXT(0xFF) | TSEC_IRQMSET_WDTMR | TSEC_IRQMSET_HALT | TSEC_IRQMSET_EXTERR | TSEC_IRQMSET_SWGEN0 | TSEC_IRQMSET_SWGEN1; TSEC(TSEC_IRQDEST) = TSEC_IRQDEST_EXT(0xFF) | TSEC_IRQDEST_HALT | TSEC_IRQDEST_EXTERR | TSEC_IRQDEST_SWGEN0 | TSEC_IRQDEST_SWGEN1; TSEC(TSEC_ITFEN) = TSEC_ITFEN_CTXEN | TSEC_ITFEN_MTHDEN; if (_tsec_dma_wait_idle()) { res = -1; goto out; } // Load firmware or emulate memio environment for newer TSEC fw. if (type == TSEC_FW_TYPE_EMU) TSEC(TSEC_DMATRFBASE) = (u32)tsec_ctxt->fw >> 8; else { fwbuf = (u8 *)malloc(SZ_16K); u8 *fwbuf_aligned = (u8 *)ALIGN((u32)fwbuf, 0x100); memcpy(fwbuf_aligned, tsec_ctxt->fw, tsec_ctxt->size); TSEC(TSEC_DMATRFBASE) = (u32)fwbuf_aligned >> 8; } for (u32 addr = 0; addr < tsec_ctxt->size; addr += 0x100) { if (_tsec_dma_pa_to_internal_100(false, addr, addr)) { res = -2; goto out_free; } } if (type == TSEC_FW_TYPE_EMU) { // Init SMMU translation for TSEC. ptb = smmu_domain_init(MC_SMMU_TSEC_ASID, 1); smmu_init(); // Enable SMMU. smmu_enable(); // Clock reset controller. car = smmu_page_zalloc(1); memcpy(car, (void *)CLOCK_BASE, SZ_PAGE); car[CLK_RST_CONTROLLER_CLK_SOURCE_TSEC / 4] = CLK_SRC_DIV(2); smmu_map(ptb, CLOCK_BASE, (u32)car, 1, SMMU_WRITE | SMMU_READ | SMMU_NS); // Fuse driver. fuse = smmu_page_zalloc(1); memcpy((void *)&fuse[0x800/4], (void *)FUSE_BASE, SZ_1K); fuse[0x82C / 4] = 0; fuse[0x9E0 / 4] = (1 << (TSEC_HOS_KB_620 + 2)) - 1; fuse[0x9E4 / 4] = (1 << (TSEC_HOS_KB_620 + 2)) - 1; smmu_map(ptb, (FUSE_BASE - 0x800), (u32)fuse, 1, SMMU_READ | SMMU_NS); // Power management controller. pmc = smmu_page_zalloc(1); smmu_map(ptb, RTC_BASE, (u32)pmc, 1, SMMU_READ | SMMU_NS); // Flow control. flowctrl = smmu_page_zalloc(1); smmu_map(ptb, FLOW_CTLR_BASE, (u32)flowctrl, 1, SMMU_WRITE | SMMU_NS); // Security engine. se = smmu_page_zalloc(1); memcpy(se, (void *)SE_BASE, SZ_PAGE); smmu_map(ptb, SE_BASE, (u32)se, 1, SMMU_READ | SMMU_WRITE | SMMU_NS); // Memory controller. mc = smmu_page_zalloc(1); memcpy(mc, (void *)MC_BASE, SZ_PAGE); mc[MC_IRAM_BOM / 4] = 0; mc[MC_IRAM_TOM / 4] = DRAM_START; smmu_map(ptb, MC_BASE, (u32)mc, 1, SMMU_READ | SMMU_NS); // IRAM iram = smmu_page_zalloc(0x30); memcpy(iram, tsec_ctxt->pkg1, 0x30000); // PKG1.1 magic offset. pkg11_magic_off = (u32 *)(iram + ((tsec_ctxt->pkg11_off + 0x20) / sizeof(u32))); smmu_map(ptb, 0x40010000, (u32)iram, 0x30, SMMU_READ | SMMU_WRITE | SMMU_NS); // Exception vectors evec = smmu_page_zalloc(1); smmu_map(ptb, EXCP_VEC_BASE, (u32)evec, 1, SMMU_READ | SMMU_WRITE | SMMU_NS); } // Execute firmware. HOST1X(HOST1X_CH0_SYNC_SYNCPT_160) = 0x34C2E1DA; TSEC(TSEC_MAILBOX1) = 0; TSEC(TSEC_MAILBOX0) = 1; // Set HOS key version. TSEC(TSEC_BOOTVEC) = 0; TSEC(TSEC_CPUCTL) = TSEC_CPUCTL_STARTCPU; if (type == TSEC_FW_TYPE_EMU) { u32 k = se[SE_CRYPTO_KEYTABLE_DATA_REG / 4]; u32 timeout = get_tmr_us() + 125000; u32 key[16] = {0}; u32 kidx = 0; while (*pkg11_magic_off != PKG11_MAGIC) { smmu_flush_all(); if (k != se[SE_CRYPTO_KEYTABLE_DATA_REG / 4]) { k = se[SE_CRYPTO_KEYTABLE_DATA_REG / 4]; key[kidx++] = k; } // Failsafe. if ((u32)get_tmr_us() > timeout) break; } if (kidx != 8) { res = -6; smmu_domain_deinit(MC_SMMU_TSEC_ASID, 1); goto out_free; } // Give some extra time to make sure PKG1.1 is decrypted. msleep(50); memcpy(tsec_keys, &key, 0x20); memcpy(tsec_ctxt->pkg1, iram, 0x30000); smmu_domain_deinit(MC_SMMU_TSEC_ASID, 1); // for (int i = 0; i < kidx; i++) // gfx_printf("key %08X\n", key[i]); // gfx_printf("cpuctl (%08X) mbox (%08X)\n", TSEC(TSEC_CPUCTL), TSEC(TSEC_MAILBOX1)); // u32 errst = MC(MC_ERR_STATUS); // gfx_printf(" MC %08X %08X %08X\n", MC(MC_INTSTATUS), errst, MC(MC_ERR_ADR)); // gfx_printf(" type: %02X\n", errst >> 28); // gfx_printf(" smmu: %02X\n", (errst >> 25) & 3); // gfx_printf(" dir: %s\n", (errst >> 16) & 1 ? "W" : "R"); // gfx_printf(" cid: %02x\n", errst & 0xFF); } else { if (_tsec_dma_wait_idle()) { res = -3; goto out_free; } u32 timeout = get_tmr_ms() + 2000; while (!TSEC(TSEC_MAILBOX1)) { if (get_tmr_ms() > timeout) { res = -4; goto out_free; } } if (TSEC(TSEC_MAILBOX1) != 0xB0B0B0B0) { res = -5; goto out_free; } // Fetch result. HOST1X(HOST1X_CH0_SYNC_SYNCPT_160) = 0; u32 buf[4]; buf[0] = SOR1(SOR_DP_HDCP_BKSV_LSB); buf[1] = SOR1(SOR_TMDS_HDCP_BKSV_LSB); buf[2] = SOR1(SOR_TMDS_HDCP_CN_MSB); buf[3] = SOR1(SOR_TMDS_HDCP_CN_LSB); SOR1(SOR_DP_HDCP_BKSV_LSB) = 0; SOR1(SOR_TMDS_HDCP_BKSV_LSB) = 0; SOR1(SOR_TMDS_HDCP_CN_MSB) = 0; SOR1(SOR_TMDS_HDCP_CN_LSB) = 0; memcpy(tsec_keys, &buf, SE_KEY_128_SIZE); } out_free: free(fwbuf); out: // Disable clocks. clock_disable_kfuse(); clock_disable_sor1(); clock_disable_sor0(); clock_disable_sor_safe(); clock_disable_tsec(); bpmp_mmu_enable(); bpmp_clk_rate_relaxed(false); // Re-enable AHB aperture. mc_enable_ahb_redirect(1); return res; } ================================================ FILE: bdk/sec/tsec.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _TSEC_H_ #define _TSEC_H_ #include enum tsec_fw_type { // Retail Hovi Keygen. TSEC_FW_TYPE_OLD = 0, // 1.0.0 - 6.1.0. TSEC_FW_TYPE_EMU = 1, // 6.2.0 emulated environment. TSEC_FW_TYPE_NEW = 2, // 7.0.0+. }; typedef struct _tsec_ctxt_t { void *fw; u32 size; u32 type; void *pkg1; u32 pkg11_off; } tsec_ctxt_t; int tsec_query(void *tsec_keys, tsec_ctxt_t *tsec_ctxt); #endif ================================================ FILE: bdk/sec/tsec_t210.h ================================================ /* * Copyright (c) 2018-2023 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _TSEC_T210_H_ #define _TSEC_T210_H_ #define TSEC_MAILBOX0 0x1040 #define TSEC_MAILBOX1 0x1044 #define TSEC_ITFEN 0x1048 #define TSEC_ITFEN_CTXEN BIT(0) #define TSEC_ITFEN_MTHDEN BIT(1) #define TSEC_IRQMSET 0x1010 #define TSEC_IRQMSET_WDTMR BIT(1) #define TSEC_IRQMSET_HALT BIT(4) #define TSEC_IRQMSET_EXTERR BIT(5) #define TSEC_IRQMSET_SWGEN0 BIT(6) #define TSEC_IRQMSET_SWGEN1 BIT(7) #define TSEC_IRQMSET_EXT(val) (((val) & 0xFF) << 8) #define TSEC_IRQDEST 0x101C #define TSEC_IRQDEST_HALT BIT(4) #define TSEC_IRQDEST_EXTERR BIT(5) #define TSEC_IRQDEST_SWGEN0 BIT(6) #define TSEC_IRQDEST_SWGEN1 BIT(7) #define TSEC_IRQDEST_EXT(val) (((val) & 0xFF) << 8) #define TSEC_CPUCTL 0x1100 #define TSEC_CPUCTL_STARTCPU BIT(1) #define TSEC_BOOTVEC 0x1104 #define TSEC_DMACTL 0x110C #define TSEC_DMATRFBASE 0x1110 #define TSEC_DMATRFMOFFS 0x1114 #define TSEC_DMATRFCMD 0x1118 #define TSEC_DMATRFCMD_IDLE BIT(1) #define TSEC_DMATRFCMD_IMEM BIT(4) #define TSEC_DMATRFCMD_SIZE_256B (6 << 8) #define TSEC_DMATRFFBOFFS 0x111C #endif ================================================ FILE: bdk/soc/actmon.c ================================================ /* * Activity Monitor driver for Tegra X1 * * Copyright (c) 2021 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "actmon.h" #include "clock.h" #include "t210.h" /* Global registers */ #define ACTMON_GLB_STATUS 0x0 #define ACTMON_MCCPU_MON_ACT BIT(8) #define ACTMON_MCALL_MON_ACT BIT(9) #define ACTMON_CPU_FREQ_MON_ACT BIT(10) #define ACTMON_APB_MON_ACT BIT(12) #define ACTMON_AHB_MON_ACT BIT(13) #define ACTMON_BPMP_MON_ACT BIT(14) #define ACTMON_CPU_MON_ACT BIT(15) #define ACTMON_MCCPU_INTR BIT(25) #define ACTMON_MCALL_INTR BIT(26) #define ACTMON_CPU_FREQ_INTR BIT(27) #define ACTMON_APB_INTR BIT(28) #define ACTMON_AHB_INTR BIT(29) #define ACTMON_BPMP_INTR BIT(30) #define ACTMON_CPU_INTR BIT(31) #define ACTMON_GLB_PERIOD_CTRL 0x4 #define ACTMON_GLB_PERIOD_USEC BIT(8) #define ACTMON_GLB_PERIOD_SAMPLE(n) (((n) - 1) & 0xFF) /* Device Registers */ #define ACTMON_DEV_BASE ACTMON_BASE + 0x80 #define ACTMON_DEV_SIZE 0x40 /* CTRL */ #define ACTMON_DEV_CTRL_K_VAL(k) (((k) & 7) << 10) #define ACTMON_DEV_CTRL_ENB_PERIODIC BIT(18) #define ACTMON_DEV_CTRL_AT_END_EN BIT(19) #define ACTMON_DEV_CTRL_AVG_BELOW_WMARK_EN BIT(20) #define ACTMON_DEV_CTRL_AVG_ABOVE_WMARK_EN BIT(21) #define ACTMON_DEV_CTRL_WHEN_OVERFLOW_EN BIT(22) #define ACTMON_DEV_CTRL_CONSECUTIVE_BELOW_WMARK_NUM(n) (((n) & 7) << 23) #define ACTMON_DEV_CTRL_CONSECUTIVE_ABOVE_WMARK_NUM(n) (((n) & 7) << 26) #define ACTMON_DEV_CTRL_CONSECUTIVE_BELOW_WMARK_EN BIT(29) #define ACTMON_DEV_CTRL_CONSECUTIVE_ABOVE_WMARK_EN BIT(30) #define ACTMON_DEV_CTRL_ENB BIT(31) /* INTR_STATUS */ #define ACTMON_DEV_ISTS_AVG_ABOVE_WMARK BIT(24) #define ACTMON_DEV_ISTS_AVG_BELOW_WMARK BIT(25) #define ACTMON_DEV_ISTS_WHEN_OVERFLOW BIT(26) #define ACTMON_DEV_ISTS_AT_END BIT(29) #define ACTMON_DEV_ISTS_CONSECUTIVE_LOWER BIT(30) #define ACTMON_DEV_ISTS_CONSECUTIVE_UPPER BIT(31) /* Histogram Registers */ #define ACTMON_HISTOGRAM_CONFIG 0x300 #define ACTMON_HIST_CFG_ACTIVE BIT(0) #define ACTMON_HIST_CFG_LINEAR_MODE BIT(1) #define ACTMON_HIST_CFG_NO_UNDERFLOW_BUCKET BIT(2) #define ACTMON_HIST_CFG_STALL_ON_SINGLE_SATURATE BIT(3) #define ACTMON_HIST_CFG_SHIFT(s) (((s) & 0x1F) << 4) #define ACTMON_HIST_CFG_SOURCE(s) (((s) & 0xF) << 12) #define ACTMON_HISTOGRAM_CTRL 0x304 #define ACTMON_HIST_CTRL_CLEAR_ALL BIT(0) #define ACTMON_HISTOGRAM_DATA_BASE 0x380 #define ACTMON_HISTOGRAM_DATA_NUM 32 #define ACTMON_FREQ 19200000 #define ACTMON_PERIOD_MS 20 #define DEV_COUNT_WEIGHT 5 typedef struct _actmon_dev_reg_t { vu32 ctrl; vu32 upper_wnark; vu32 lower_wmark; vu32 init_avg; vu32 avg_upper_wmark; vu32 avg_lower_wmark; vu32 count_weight; vu32 count; vu32 avg_count; vu32 intr_status; vu32 ctrl2; vu32 rsvd[5]; } actmon_dev_reg_t; void actmon_hist_enable(actmon_hist_src_t src) { ACTMON(ACTMON_HISTOGRAM_CONFIG) = ACTMON_HIST_CFG_SOURCE(src) | ACTMON_HIST_CFG_ACTIVE; ACTMON(ACTMON_HISTOGRAM_CTRL) = ACTMON_HIST_CTRL_CLEAR_ALL; } void actmon_hist_disable() { ACTMON(ACTMON_HISTOGRAM_CONFIG) = 0; } void actmon_hist_get(u32 *histogram) { if (histogram) { for (u32 i = 0; i < ACTMON_HISTOGRAM_DATA_NUM; i++) histogram[i] = ACTMON(ACTMON_HISTOGRAM_DATA_BASE + i * sizeof(u32)); } } void actmon_dev_enable(actmon_dev_t dev) { actmon_dev_reg_t *regs = (actmon_dev_reg_t *)(ACTMON_DEV_BASE + (dev * ACTMON_DEV_SIZE)); regs->init_avg = ACTMON_FREQ * ACTMON_PERIOD_MS * DEV_COUNT_WEIGHT / 100; regs->count_weight = DEV_COUNT_WEIGHT; regs->ctrl = ACTMON_DEV_CTRL_ENB | ACTMON_DEV_CTRL_ENB_PERIODIC | ACTMON_DEV_CTRL_K_VAL(7); // 128 samples average. } void actmon_dev_disable(actmon_dev_t dev) { actmon_dev_reg_t *regs = (actmon_dev_reg_t *)(ACTMON_DEV_BASE + (dev * ACTMON_DEV_SIZE)); regs->ctrl = 0; } u32 actmon_dev_get_load(actmon_dev_t dev) { actmon_dev_reg_t *regs = (actmon_dev_reg_t *)(ACTMON_DEV_BASE + (dev * ACTMON_DEV_SIZE)); // Get load-based sampling. 1 decimal point precision. u32 load = regs->count * 100 / (ACTMON_FREQ / (ACTMON_PERIOD_MS * DEV_COUNT_WEIGHT)); return load; } u32 actmon_dev_get_load_avg(actmon_dev_t dev) { actmon_dev_reg_t *regs = (actmon_dev_reg_t *)(ACTMON_DEV_BASE + (dev * ACTMON_DEV_SIZE)); // Get load-based sampling. 1 decimal point precision. u32 avg_load = regs->avg_count * 100 / (ACTMON_FREQ / (ACTMON_PERIOD_MS * DEV_COUNT_WEIGHT)); return avg_load; } void atmon_dev_all_disable() { // TODO: do a global reset? } void actmon_init() { clock_enable_actmon(); // Set period. ACTMON(ACTMON_GLB_PERIOD_CTRL) = ACTMON_GLB_PERIOD_SAMPLE(ACTMON_PERIOD_MS); } void actmon_end() { clock_disable_actmon(); } ================================================ FILE: bdk/soc/actmon.h ================================================ /* * Activity Monitor driver for Tegra X1 * * Copyright (c) 2021 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef __ACTMON_H_ #define __ACTMON_H_ #include typedef enum _actmon_dev_t { ACTMON_DEV_CPU, ACTMON_DEV_BPMP, ACTMON_DEV_AHB, ACTMON_DEV_APB, ACTMON_DEV_CPU_FREQ, ACTMON_DEV_MC_ALL, ACTMON_DEV_MC_CPU, ACTMON_DEV_NUM, } actmon_dev_t; typedef enum _actmon_hist_src_t { ACTMON_HIST_SRC_NONE = 0, ACTMON_HIST_SRC_AHB = 1, ACTMON_HIST_SRC_APB = 2, ACTMON_HIST_SRC_BPMP = 3, ACTMON_HIST_SRC_CPU = 4, ACTMON_HIST_SRC_MC_ALL = 5, ACTMON_HIST_SRC_MC_CPU = 6, ACTMON_HIST_SRC_CPU_FREQ = 7, ACTMON_HIST_SRC_NA = 8, ACTMON_HIST_SRC_APB_MMIO = 9, } actmon_hist_src_t; void actmon_hist_enable(actmon_hist_src_t src); void actmon_hist_disable(); void actmon_hist_get(u32 *histogram); void actmon_dev_enable(actmon_dev_t dev); void actmon_dev_disable(actmon_dev_t dev); u32 actmon_dev_get_load(actmon_dev_t dev); u32 actmon_dev_get_load_avg(actmon_dev_t dev); void atmon_dev_all_disable(); void actmon_init(); void actmon_end(); #endif ================================================ FILE: bdk/soc/bpmp.c ================================================ /* * BPMP-Lite Cache/MMU and Frequency driver for Tegra X1 * * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #define BPMP_MMU_CACHE_LINE_SIZE 0x20 #define BPMP_CACHE_CONFIG 0x0 #define CFG_ENABLE_CACHE BIT(0) #define CFG_ENABLE_SKEW_ASSOC BIT(1) #define CFG_DISABLE_RANDOM_ALLOC BIT(2) #define CFG_FORCE_WRITE_THROUGH BIT(3) #define CFG_NEVER_ALLOCATE BIT(6) #define CFG_ENABLE_INTERRUPT BIT(7) #define CFG_MMU_TAG_MODE(x) ((x) << 8) #define TAG_MODE_PARALLEL 0 #define TAG_MODE_TAG_FIRST 1 #define TAG_MODE_MMU_FIRST 2 #define CFG_DISABLE_WRITE_BUFFER BIT(10) #define CFG_DISABLE_READ_BUFFER BIT(11) #define CFG_ENABLE_HANG_DETECT BIT(12) #define CFG_FULL_LINE_DIRTY BIT(13) #define CFG_TAG_CHK_ABRT_ON_ERR BIT(14) #define CFG_TAG_CHK_CLR_ERR BIT(15) #define CFG_DISABLE_SAMELINE BIT(16) #define CFG_OBS_BUS_EN BIT(31) #define BPMP_CACHE_LOCK 0x4 #define LOCK_LINE(x) BIT((x)) #define BPMP_CACHE_SIZE 0xC #define BPMP_CACHE_LFSR 0x10 #define BPMP_CACHE_TAG_STATUS 0x14 #define TAG_STATUS_TAG_CHECK_ERROR BIT(0) #define TAG_STATUS_CONFLICT_ADDR_MASK 0xFFFFFFE0 #define BPMP_CACHE_CLKEN_OVERRIDE 0x18 #define CLKEN_OVERRIDE_WR_MCCIF_CLKEN BIT(0) #define CLKEN_OVERRIDE_RD_MCCIF_CLKEN BIT(1) #define BPMP_CACHE_MAINT_ADDR 0x20 #define BPMP_CACHE_MAINT_DATA 0x24 #define BPMP_CACHE_MAINT_REQ 0x28 #define MAINT_REQ_WAY_BITMAP(x) ((x) << 8) #define BPMP_CACHE_INT_MASK 0x40 #define BPMP_CACHE_INT_CLEAR 0x44 #define BPMP_CACHE_INT_RAW_EVENT 0x48 #define BPMP_CACHE_INT_STATUS 0x4C #define INT_MAINT_DONE BIT(0) #define INT_MAINT_ERROR BIT(1) #define BPMP_CACHE_RB_CFG 0x80 #define BPMP_CACHE_WB_CFG 0x84 #define BPMP_CACHE_MMU_FALLBACK_ENTRY 0xA0 #define BPMP_CACHE_MMU_SHADOW_COPY_MASK 0xA4 #define BPMP_CACHE_MMU_CFG 0xAC #define MMU_CFG_BLOCK_MAIN_ENTRY_WR BIT(0) #define MMU_CFG_SEQ_EN BIT(1) #define MMU_CFG_TLB_EN BIT(2) #define MMU_CFG_SEG_CHECK_ALL_ENTRIES BIT(3) #define MMU_CFG_ABORT_STORE_LAST BIT(4) #define MMU_CFG_CLR_ABORT BIT(5) #define BPMP_CACHE_MMU_CMD 0xB0 #define MMU_CMD_NOP 0 #define MMU_CMD_INIT 1 #define MMU_CMD_COPY_SHADOW 2 #define BPMP_CACHE_MMU_ABORT_STAT 0xB4 #define ABORT_STAT_UNIT_MASK 0x7 #define ABORT_STAT_UNIT_NONE 0 #define ABORT_STAT_UNIT_CACHE 1 #define ABORT_STAT_UNIT_SEQ 2 #define ABORT_STAT_UNIT_TLB 3 #define ABORT_STAT_UNIT_SEG 4 #define ABORT_STAT_UNIT_FALLBACK 5 #define ABORT_STAT_OVERLAP BIT(3) #define ABORT_STAT_ENTRY (0x1F << 4) #define ABORT_STAT_TYPE_MASK (3 << 16) #define ABORT_STAT_TYPE_EXE (0 << 16) #define ABORT_STAT_TYPE_RD (1 << 16) #define ABORT_STAT_TYPE_WR (2 << 16) #define ABORT_STAT_SIZE (3 << 18) #define ABORT_STAT_SEQ BIT(20) #define ABORT_STAT_PROT BIT(21) #define BPMP_CACHE_MMU_ABORT_ADDR 0xB8 #define BPMP_CACHE_MMU_ACTIVE_ENTRIES 0xBC #define BPMP_MMU_SHADOW_ENTRY_BASE (BPMP_CACHE_BASE + 0x400) #define BPMP_MMU_MAIN_ENTRY_BASE (BPMP_CACHE_BASE + 0x800) #define MMU_EN_CACHED BIT(0) #define MMU_EN_EXEC BIT(1) #define MMU_EN_READ BIT(2) #define MMU_EN_WRITE BIT(3) static const bpmp_mmu_entry_t mmu_entries[] = { { DRAM_START, 0xFFFFFFFF, MMU_EN_READ | MMU_EN_WRITE | MMU_EN_EXEC | MMU_EN_CACHED, true }, { IRAM_BASE, 0x4003FFFF, MMU_EN_READ | MMU_EN_WRITE | MMU_EN_EXEC | MMU_EN_CACHED, true } }; void bpmp_mmu_maintenance(u32 op, bool force) { if (!force && !(BPMP_CACHE_CTRL(BPMP_CACHE_CONFIG) & CFG_ENABLE_CACHE)) return; BPMP_CACHE_CTRL(BPMP_CACHE_INT_CLEAR) = INT_MAINT_DONE; // This is a blocking operation. BPMP_CACHE_CTRL(BPMP_CACHE_MAINT_REQ) = MAINT_REQ_WAY_BITMAP(0xF) | op; while (!(BPMP_CACHE_CTRL(BPMP_CACHE_INT_RAW_EVENT) & INT_MAINT_DONE)) ; BPMP_CACHE_CTRL(BPMP_CACHE_INT_CLEAR) = BPMP_CACHE_CTRL(BPMP_CACHE_INT_RAW_EVENT); } void bpmp_mmu_set_entry(int idx, const bpmp_mmu_entry_t *entry, bool apply) { if (idx > 31) return; volatile bpmp_mmu_entry_t *mmu_entry = (bpmp_mmu_entry_t *)(BPMP_MMU_SHADOW_ENTRY_BASE + sizeof(bpmp_mmu_entry_t) * idx); if (entry->enable) { mmu_entry->start_addr = ALIGN(entry->start_addr, BPMP_MMU_CACHE_LINE_SIZE); mmu_entry->end_addr = ALIGN_DOWN(entry->end_addr, BPMP_MMU_CACHE_LINE_SIZE); mmu_entry->attr = entry->attr; BPMP_CACHE_CTRL(BPMP_CACHE_MMU_SHADOW_COPY_MASK) |= BIT(idx); if (apply) BPMP_CACHE_CTRL(BPMP_CACHE_MMU_CMD) = MMU_CMD_COPY_SHADOW; } } void bpmp_mmu_enable() { if (BPMP_CACHE_CTRL(BPMP_CACHE_CONFIG) & CFG_ENABLE_CACHE) return; // Init BPMP MMU. BPMP_CACHE_CTRL(BPMP_CACHE_MMU_CMD) = MMU_CMD_INIT; BPMP_CACHE_CTRL(BPMP_CACHE_MMU_FALLBACK_ENTRY) = MMU_EN_READ | MMU_EN_WRITE | MMU_EN_EXEC; // RWX for non-defined regions. BPMP_CACHE_CTRL(BPMP_CACHE_MMU_CFG) = MMU_CFG_SEQ_EN | MMU_CFG_TLB_EN | MMU_CFG_ABORT_STORE_LAST; // Init BPMP MMU entries. BPMP_CACHE_CTRL(BPMP_CACHE_MMU_SHADOW_COPY_MASK) = 0; for (u32 idx = 0; idx < ARRAY_SIZE(mmu_entries); idx++) bpmp_mmu_set_entry(idx, &mmu_entries[idx], false); BPMP_CACHE_CTRL(BPMP_CACHE_MMU_CMD) = MMU_CMD_COPY_SHADOW; // Invalidate cache. bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, true); // Enable cache. BPMP_CACHE_CTRL(BPMP_CACHE_CONFIG) = CFG_ENABLE_CACHE | CFG_FORCE_WRITE_THROUGH | CFG_MMU_TAG_MODE(TAG_MODE_PARALLEL) | CFG_TAG_CHK_ABRT_ON_ERR; // HW bug. Invalidate cache again. bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, false); } void bpmp_mmu_disable() { if (!(BPMP_CACHE_CTRL(BPMP_CACHE_CONFIG) & CFG_ENABLE_CACHE)) return; // Clean and invalidate cache. bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLN_INV_WAY, false); // Disable cache. BPMP_CACHE_CTRL(BPMP_CACHE_CONFIG) = 0; } /* * CLK_RST_CONTROLLER_SCLK_BURST_POLICY: * 0 = CLKM * 1 = PLLC_OUT1 * 2 = PLLC4_OUT3 * 3 = PLLP_OUT0 * 4 = PLLP_OUT2 * 5 = PLLC4_OUT1 * 6 = CLK_S * 7 = PLLC4_OUT2 */ bpmp_freq_t bpmp_fid_current = BPMP_CLK_NORMAL; void bpmp_clk_rate_relaxed(bool enable) { // This is a glitch-free way to reduce the SCLK timings. if (enable) { // Restore to PLLP source during PLLC configuration. CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) = 0x20003330; // PLLP_OUT. (void)CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY); usleep(100); // Wait a bit for clock source change. CLOCK(CLK_RST_CONTROLLER_CLK_SYSTEM_RATE) = 2; // S1:H1:P3. (void)CLOCK(CLK_RST_CONTROLLER_CLK_SYSTEM_RATE); } else if (bpmp_fid_current) { // Restore to PLLC_OUT1. CLOCK(CLK_RST_CONTROLLER_CLK_SYSTEM_RATE) = 3; // S1:H1:P4. CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) = 0x20003310; // PLLC_OUT1 and CLKM for idle. (void)CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY); usleep(100); // Wait a bit for clock source change. } } // APB clock affects RTC, PWM, MEMFETCH, APE, USB, SOR PWM, // I2C host, DC/DSI/DISP. UART gives extra stress. // 92: 100% success ratio. 93-94: 595-602MHz has 99% success ratio. 95: 608MHz less. // APB clock max is supposed to be 204 MHz though. static const u8 pll_divn[] = { 0, // BPMP_CLK_NORMAL: 408MHz 0% - 136MHz APB. 85, // BPMP_CLK_HIGH_BOOST: 544MHz 33% - 136MHz APB. 88, // BPMP_CLK_HIGH2_BOOST: 563MHz 38% - 141MHz APB. 90, // BPMP_CLK_SUPER_BOOST: 576MHz 41% - 144MHz APB. 92, // BPMP_CLK_HYPER_BOOST: 589MHz 44% - 147MHz APB. // Do not use for public releases! //95 // BPMP_CLK_DEV_BOOST: 608MHz 49% - 152MHz APB. }; void bpmp_clk_rate_get() { bool clk_src_is_pllp = ((CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) >> 4) & 7) == 3; if (clk_src_is_pllp) bpmp_fid_current = BPMP_CLK_NORMAL; else { bpmp_fid_current = BPMP_CLK_HIGH_BOOST; u8 pll_divn_curr = (CLOCK(CLK_RST_CONTROLLER_PLLC_BASE) >> 10) & 0xFF; for (u32 i = 1; i < sizeof(pll_divn); i++) { if (pll_divn[i] == pll_divn_curr) { bpmp_fid_current = i; break; } } } } void bpmp_clk_rate_set(bpmp_freq_t fid) { if (fid >= BPMP_CLK_NUM) fid = BPMP_CLK_NUM - 1; if (bpmp_fid_current == fid) return; bpmp_fid_current = fid; // Use default SCLK / HCLK / PCLK clocks. bpmp_clk_rate_relaxed(true); if (fid) { // Configure and enable PLLC. clock_enable_pllc(pll_divn[fid]); // Set new source and SCLK / HCLK / PCLK dividers. bpmp_clk_rate_relaxed(false); } else { // Disable PLLC to save power. clock_disable_pllc(); } } // State is reset to RUN on any clock or source set via SW. void bpmp_state_set(bpmp_state_t state) { u32 cfg = CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) & ~0xF0000000u; CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) = cfg | (state << 28u); } // The following functions halt BPMP to reduce power while sleeping. // They are not as accurate as RTC at big values but they guarantee time+ delay. void bpmp_usleep(u32 us) { u32 delay; // Each iteration takes 1us. while (us) { delay = (us > HALT_MAX_CNT) ? HALT_MAX_CNT : us; us -= delay; FLOW_CTLR(FLOW_CTLR_HALT_COP_EVENTS) = HALT_MODE_WAITEVENT | HALT_USEC | delay; } } void bpmp_msleep(u32 ms) { u32 delay; // Iteration time is variable. ~200 - 1000us. while (ms) { delay = (ms > HALT_MAX_CNT) ? HALT_MAX_CNT : ms; ms -= delay; FLOW_CTLR(FLOW_CTLR_HALT_COP_EVENTS) = HALT_MODE_WAITEVENT | HALT_MSEC | delay; } } void bpmp_halt() { FLOW_CTLR(FLOW_CTLR_HALT_COP_EVENTS) = HALT_MODE_WAITEVENT | HALT_JTAG; } ================================================ FILE: bdk/soc/bpmp.h ================================================ /* * BPMP-Lite Cache/MMU and Frequency driver for Tegra X1 * * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _BPMP_H_ #define _BPMP_H_ #include typedef enum { BPMP_MMU_MAINT_NOP = 0, BPMP_MMU_MAINT_CLEAN_PHY = 1, BPMP_MMU_MAINT_INVALID_PHY = 2, BPMP_MMU_MAINT_CLEAN_INVALID_PHY = 3, BPMP_MMU_MAINT_CLEAN_LINE = 9, BPMP_MMU_MAINT_INVALID_LINE = 10, BPMP_MMU_MAINT_CLEAN_INVALID_LINE = 11, BPMP_MMU_MAINT_CLEAN_WAY = 17, BPMP_MMU_MAINT_INVALID_WAY = 18, BPMP_MMU_MAINT_CLN_INV_WAY = 19 } bpmp_maintenance_t; typedef struct _bpmp_mmu_entry_t { u32 start_addr; u32 end_addr; u32 attr; u32 enable; } bpmp_mmu_entry_t; typedef enum { BPMP_CLK_NORMAL, // 408MHz 0% - 136MHz APB. BPMP_CLK_HIGH_BOOST, // 544MHz 33% - 136MHz APB. BPMP_CLK_HIGH2_BOOST, // 563MHz 38% - 141MHz APB. BPMP_CLK_SUPER_BOOST, // 576MHz 41% - 144MHz APB. BPMP_CLK_HYPER_BOOST, // 589MHz 44% - 147MHz APB. //BPMP_CLK_DEV_BOOST, // 608MHz 49% - 152MHz APB. BPMP_CLK_NUM } bpmp_freq_t; typedef enum { BPMP_STATE_STANDBY = 0, // 32KHz. BPMP_STATE_IDLE = 1, BPMP_STATE_RUN = 2, BPMP_STATE_IRQ = BIT(2), BPMP_STATE_FIQ = BIT(3), } bpmp_state_t; #define BPMP_CLK_BIN0_BOOST BPMP_CLK_HYPER_BOOST #define BPMP_CLK_BIN1_BOOST BPMP_CLK_SUPER_BOOST #define BPMP_CLK_BIN2_BOOST BPMP_CLK_HIGH2_BOOST #define BPMP_CLK_BIN3_BOOST BPMP_CLK_HIGH_BOOST #define BPMP_CLK_LOWEST_BOOST BPMP_CLK_BIN3_BOOST #define BPMP_CLK_LOWER_BOOST BPMP_CLK_BIN1_BOOST #define BPMP_CLK_DEFAULT_BOOST BPMP_CLK_BIN0_BOOST void bpmp_mmu_maintenance(u32 op, bool force); void bpmp_mmu_set_entry(int idx, const bpmp_mmu_entry_t *entry, bool apply); void bpmp_mmu_enable(); void bpmp_mmu_disable(); void bpmp_clk_rate_relaxed(bool enable); void bpmp_clk_rate_get(); void bpmp_clk_rate_set(bpmp_freq_t fid); void bpmp_state_set(bpmp_state_t state); void bpmp_usleep(u32 us); void bpmp_msleep(u32 ms); void bpmp_halt(); #endif ================================================ FILE: bdk/soc/ccplex.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #define CCPLEX_FLOWCTRL_POWERGATING 0 static void _ccplex_enable_power_t210() { // Configure GPIO5 and enable output in order to power CPU pmic. max77620_config_gpio(5, MAX77620_GPIO_OUTPUT_ENABLE); // Configure CPU pmic. // 1-3.x: MAX77621_NFSR_ENABLE. // 1.0.0-3.x: MAX77621_T_JUNCTION_120 | MAX77621_CKKADV_TRIP_DISABLE | MAX77621_INDUCTOR_NOMINAL. max77621_config_default(REGULATOR_CPU0, MAX77621_CTRL_HOS_CFG); // Set voltage and enable cluster power. max7762x_regulator_set_voltage(REGULATOR_CPU0, 950000); max7762x_regulator_enable(REGULATOR_CPU0, true); } static void _ccplex_enable_power_t210b01() { // Set voltage and enable cluster power. max7762x_regulator_set_voltage(REGULATOR_CPU1, 800000); max7762x_regulator_enable(REGULATOR_CPU1, true); } static void _ccplex_disable_power() { // Disable cluster power. if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210) { max7762x_regulator_enable(REGULATOR_CPU0, false); i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_GPIO5, 0); } else max7762x_regulator_enable(REGULATOR_CPU1, false); } void ccplex_boot_cpu0(u32 entry, bool lock) { // Set ACTIVE_CLUSER to FAST. FLOW_CTLR(FLOW_CTLR_BPMP_CLUSTER_CONTROL) &= ~CLUSTER_CTRL_ACTIVE_SLOW; if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210) _ccplex_enable_power_t210(); else _ccplex_enable_power_t210b01(); clock_enable_pllx(); // Configure MSELECT source and enable clock to 102MHz. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_MSELECT) = (0 << 29) | CLK_SRC_DIV(4); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_V_SET) = BIT(CLK_V_MSELECT); // Configure initial CPU clock frequency and enable clock. CLOCK(CLK_RST_CONTROLLER_CCLK_BURST_POLICY) = 0x20008888; // PLLX_OUT0_LJ. CLOCK(CLK_RST_CONTROLLER_SUPER_CCLK_DIVIDER) = BIT(31); // SUPER_CDIV_ENB. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_V_SET) = BIT(CLK_V_CPUG); clock_enable_coresight(); // CAR2PMC_CPU_ACK_WIDTH should be set to 0. CLOCK(CLK_RST_CONTROLLER_CPU_SOFTRST_CTRL2) &= 0xFFFFF000; // Enable CPU main rail. pmc_domain_pwrgate_set(POWER_RAIL_CRAIL, ENABLE); // Enable cluster 0 non-CPU rail. pmc_domain_pwrgate_set(POWER_RAIL_C0NC, ENABLE); // Enable CPU0 rail. pmc_domain_pwrgate_set(POWER_RAIL_CE0, ENABLE); // Request and wait for RAM repair. Needed for the Fast cluster. FLOW_CTLR(FLOW_CTLR_RAM_REPAIR) = RAM_REPAIR_REQ; while (!(FLOW_CTLR(FLOW_CTLR_RAM_REPAIR) & RAM_REPAIR_STS)) ; EXCP_VEC(EVP_CPU_RESET_VECTOR) = 0; // Set reset vector. SB(SB_AA64_RESET_LOW) = entry | SB_AA64_RST_AARCH64_MODE_EN; SB(SB_AA64_RESET_HIGH) = 0; // Non-secure reset vector write disable. if (lock) { SB(SB_CSR) = SB_CSR_NS_RST_VEC_WR_DIS; (void)SB(SB_CSR); } // Tighten up the security aperture. // MC(MC_TZ_SECURITY_CTRL) = TZ_SEC_CTRL_CPU_STRICT_TZ_APERTURE_CHECK; // Clear MSELECT reset. CLOCK(CLK_RST_CONTROLLER_RST_DEV_V_CLR) = BIT(CLK_V_MSELECT); // Clear NONCPU reset. CLOCK(CLK_RST_CONTROLLER_RST_CPUG_CMPLX_CLR) = BIT(29); // CLR_NONCPURESET. // Clear CPU0 reset. // < 5.x: 0x411F000F, Clear CPU{0,1,2,3} POR and CORE, CX0, L2, and DBG reset. CLOCK(CLK_RST_CONTROLLER_RST_CPUG_CMPLX_CLR) = BIT(30) | BIT(24) | BIT(16) | BIT(0); } void ccplex_powergate_cpu0() { #if CCPLEX_FLOWCTRL_POWERGATING // Halt CPU0. FLOW_CTLR(FLOW_CTLR_HALT_CPU0_EVENTS) = HALT_MODE_STOP_UNTIL_IRQ; // Powergate cluster via flow control without waiting for WFI. FLOW_CTLR(FLOW_CTLR_CPU0_CSR) = CSR_INTR_FLAG | CSR_EVENT_FLAG | CSR_ENABLE_EXT_CPU_RAIL | CSR_WAIT_WFI_NONE | CSR_ENABLE; // Wait for the rail power off to finish. while((FLOW_CTLR(FLOW_CTLR_CPU_PWR_CSR) & CPU_PWR_RAIL_STS_MASK) != CPU_PWR_RAIL_OFF); // Set CPU0 to waitevent. FLOW_CTLR(FLOW_CTLR_HALT_CPU0_EVENTS) = HALT_MODE_WAITEVENT; #endif // Set CPU0 POR and CORE, CX0, L2, and DBG reset. CLOCK(CLK_RST_CONTROLLER_RST_CPUG_CMPLX_SET) = BIT(30) | BIT(24) | BIT(16) | BIT(0); // Set NONCPU reset. CLOCK(CLK_RST_CONTROLLER_RST_CPUG_CMPLX_SET) = BIT(29); // Disable CE0. pmc_domain_pwrgate_set(POWER_RAIL_CE0, DISABLE); // Disable cluster 0 non-CPU. pmc_domain_pwrgate_set(POWER_RAIL_C0NC, DISABLE); // Disable CPU rail. pmc_domain_pwrgate_set(POWER_RAIL_CRAIL, DISABLE); clock_disable_coresight(); // Clear out MSELECT and CPU clocks. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_V_CLR) = BIT(CLK_V_CPUG); _ccplex_disable_power(); } ================================================ FILE: bdk/soc/ccplex.h ================================================ /* * Copyright (c) 2018 naehrwert * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _CCPLEX_H_ #define _CCPLEX_H_ #include void ccplex_boot_cpu0(u32 entry, bool lock); void ccplex_powergate_cpu0(); #endif ================================================ FILE: bdk/soc/clock.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #define RST_DEV_L_SET CLK_RST_CONTROLLER_RST_DEV_L_SET #define RST_DEV_H_SET CLK_RST_CONTROLLER_RST_DEV_H_SET #define RST_DEV_U_SET CLK_RST_CONTROLLER_RST_DEV_U_SET #define RST_DEV_V_SET CLK_RST_CONTROLLER_RST_DEV_V_SET #define RST_DEV_W_SET CLK_RST_CONTROLLER_RST_DEV_W_SET #define RST_DEV_X_SET CLK_RST_CONTROLLER_RST_DEV_X_SET #define RST_DEV_Y_SET CLK_RST_CONTROLLER_RST_DEV_Y_SET #define CLK_ENB_L_SET CLK_RST_CONTROLLER_CLK_ENB_L_SET #define CLK_ENB_H_SET CLK_RST_CONTROLLER_CLK_ENB_H_SET #define CLK_ENB_U_SET CLK_RST_CONTROLLER_CLK_ENB_U_SET #define CLK_ENB_V_SET CLK_RST_CONTROLLER_CLK_ENB_V_SET #define CLK_ENB_W_SET CLK_RST_CONTROLLER_CLK_ENB_W_SET #define CLK_ENB_X_SET CLK_RST_CONTROLLER_CLK_ENB_X_SET #define CLK_ENB_Y_SET CLK_RST_CONTROLLER_CLK_ENB_Y_SET #define RST_DEV_H_CLR CLK_RST_CONTROLLER_RST_DEV_H_CLR #define CLK_ENB_H_CLR CLK_RST_CONTROLLER_CLK_ENB_H_CLR typedef struct _clk_rst_mgd_t { u16 reset; // Reset SET. u16 enable; // Enable SET. u16 source; u8 index; } clk_rst_mgd_t; typedef struct _clock_osc_t { u32 freq; u16 min; u16 max; } clock_osc_t; static const clock_osc_t _clock_osc_cnt[] = { { 12000, 706, 757 }, { 13000, 766, 820 }, { 16800, 991, 1059 }, { 19200, 1133, 1210 }, { 26000, 1535, 1638 }, { 38400, 2268, 2418 }, { 48000, 2836, 3023 } }; /* * T210 rare HW Errata * A fraction of T210 silicon has an undocumented HW Errata on SDMMC clock state machine. * Specifically on enable when using the combo registers. Using SET/CLR variants is mandatory. */ static const clk_rst_mgd_t _clock_sdmmc[] = { { RST_DEV_L_SET, CLK_ENB_L_SET, CLK_RST_CONTROLLER_CLK_SOURCE_SDMMC1, CLK_L_SDMMC1 }, { RST_DEV_L_SET, CLK_ENB_L_SET, CLK_RST_CONTROLLER_CLK_SOURCE_SDMMC2, CLK_L_SDMMC2 }, { RST_DEV_U_SET, CLK_ENB_U_SET, CLK_RST_CONTROLLER_CLK_SOURCE_SDMMC3, CLK_U_SDMMC3 }, { RST_DEV_L_SET, CLK_ENB_L_SET, CLK_RST_CONTROLLER_CLK_SOURCE_SDMMC4, CLK_L_SDMMC4 }, }; /* clk_rst_t: reset, enable, source, index, clk_src, clk_div */ static const clk_rst_t _clock_uart[] = { { RST_DEV_L_SET, CLK_ENB_L_SET, CLK_RST_CONTROLLER_CLK_SOURCE_UARTA, CLK_L_UARTA, 0, CLK_SRC_DIV(2) }, { RST_DEV_L_SET, CLK_ENB_L_SET, CLK_RST_CONTROLLER_CLK_SOURCE_UARTB, CLK_L_UARTB, 0, CLK_SRC_DIV(2) }, { RST_DEV_H_SET, CLK_ENB_H_SET, CLK_RST_CONTROLLER_CLK_SOURCE_UARTC, CLK_H_UARTC, 0, CLK_SRC_DIV(2) }, { RST_DEV_U_SET, CLK_ENB_U_SET, CLK_RST_CONTROLLER_CLK_SOURCE_UARTD, CLK_U_UARTD, 0, CLK_SRC_DIV(2) }, { RST_DEV_Y_SET, CLK_ENB_Y_SET, CLK_RST_CONTROLLER_CLK_SOURCE_UARTAPE, CLK_Y_UARTAPE, 0, CLK_SRC_DIV(2) } }; // I2C Fout = Fin / (TLOW + THIGH + 2) / FM_DIV). Default parameters - TLOW: 4, THIGH: 2, DEBOUNCE: 0, FM_DIV: 6. static const clk_rst_t _clock_i2c[] = { { RST_DEV_L_SET, CLK_ENB_L_SET, CLK_RST_CONTROLLER_CLK_SOURCE_I2C1, CLK_L_I2C1, 6, CLK_I2C_SRC_DIV(4) }, // 4.8 MHz -> 100 KHz { RST_DEV_H_SET, CLK_ENB_H_SET, CLK_RST_CONTROLLER_CLK_SOURCE_I2C2, CLK_H_I2C2, 6, CLK_I2C_SRC_DIV(1) }, // 19.2 MHz -> 400 KHz { RST_DEV_U_SET, CLK_ENB_U_SET, CLK_RST_CONTROLLER_CLK_SOURCE_I2C3, CLK_U_I2C3, 6, CLK_I2C_SRC_DIV(1) }, // 19.2 MHz -> 400 KHz { RST_DEV_V_SET, CLK_ENB_V_SET, CLK_RST_CONTROLLER_CLK_SOURCE_I2C4, CLK_V_I2C4, 6, CLK_I2C_SRC_DIV(4) }, // 4.8 MHz -> 100 KHz { RST_DEV_H_SET, CLK_ENB_H_SET, CLK_RST_CONTROLLER_CLK_SOURCE_I2C5, CLK_H_I2C5, 6, CLK_I2C_SRC_DIV(1) }, // 19.2 MHz -> 400 KHz { RST_DEV_X_SET, CLK_ENB_X_SET, CLK_RST_CONTROLLER_CLK_SOURCE_I2C6, CLK_X_I2C6, 6, CLK_I2C_SRC_DIV(4) } // 4.8 MHz -> 100 KHz }; static clk_rst_t _clock_se = { RST_DEV_V_SET, CLK_ENB_V_SET, CLK_RST_CONTROLLER_CLK_SOURCE_SE, CLK_V_SE, 0, CLK_SRC_DIV(1) // 408 MHz. Max: 627.2 MHz. }; static clk_rst_t _clock_tzram = { RST_DEV_V_SET, CLK_ENB_V_SET, CLK_NO_SOURCE, CLK_V_TZRAM, 0, 0 }; static clk_rst_t _clock_host1x = { // Has idle divisor. RST_DEV_L_SET, CLK_ENB_L_SET, CLK_RST_CONTROLLER_CLK_SOURCE_HOST1X, CLK_L_HOST1X, 4, CLK_SRC_DIV(2.5) // 163.2MHz. Max: 408 MHz. }; static clk_rst_t _clock_tsec = { RST_DEV_U_SET, CLK_ENB_U_SET, CLK_RST_CONTROLLER_CLK_SOURCE_TSEC, CLK_U_TSEC, 0, CLK_SRC_DIV(2) // 204 MHz. Max: 408 MHz. }; static clk_rst_t _clock_nvdec = { RST_DEV_Y_SET, CLK_ENB_Y_SET, CLK_RST_CONTROLLER_CLK_SOURCE_NVDEC, CLK_Y_NVDEC, 4, CLK_SRC_DIV(1) // 408 MHz. Max: 716.8/979.2 MHz. }; static clk_rst_t _clock_nvjpg = { RST_DEV_Y_SET, CLK_ENB_Y_SET, CLK_RST_CONTROLLER_CLK_SOURCE_NVJPG, CLK_Y_NVJPG, 4, CLK_SRC_DIV(1) // 408 MHz. Max: 627.2/652.8 MHz. }; static clk_rst_t _clock_vic = { // Has idle divisor. RST_DEV_X_SET, CLK_ENB_X_SET, CLK_RST_CONTROLLER_CLK_SOURCE_VIC, CLK_X_VIC, 2, CLK_SRC_DIV(1) // 408 MHz. Max: 627.2/652.8 MHz. }; static clk_rst_t _clock_sor_safe = { RST_DEV_Y_SET, CLK_ENB_Y_SET, CLK_NO_SOURCE, CLK_Y_SOR_SAFE, 0, 0 // 24 MHz. }; static clk_rst_t _clock_sor0 = { RST_DEV_X_SET, CLK_ENB_X_SET, CLK_NOT_USED, CLK_X_SOR0, 0, 0 // 24 MHz (safe). }; static clk_rst_t _clock_sor1 = { RST_DEV_X_SET, CLK_ENB_X_SET, CLK_RST_CONTROLLER_CLK_SOURCE_SOR1, CLK_X_SOR1, 0, CLK_SRC_DIV(2) // 204 MHz. }; static clk_rst_t _clock_kfuse = { RST_DEV_H_SET, CLK_ENB_H_SET, CLK_NO_SOURCE, CLK_H_KFUSE, 0, 0 }; static clk_rst_t _clock_cl_dvfs = { RST_DEV_W_SET, CLK_ENB_W_SET, CLK_NO_SOURCE, CLK_W_DVFS, 0, 0 }; static clk_rst_t _clock_coresight = { RST_DEV_U_SET, CLK_ENB_U_SET, CLK_RST_CONTROLLER_CLK_SOURCE_CSITE, CLK_U_CSITE, 0, CLK_SRC_DIV(3) // 136 MHz. }; static clk_rst_t _clock_pwm = { RST_DEV_L_SET, CLK_ENB_L_SET, CLK_RST_CONTROLLER_CLK_SOURCE_PWM, CLK_L_PWM, 6, CLK_SRC_DIV(3) // Fref: 6.4MHz. HOS: PLLP / 54 = 7.55MHz. }; static clk_rst_t _clock_sdmmc_legacy_tm = { RST_DEV_Y_SET, CLK_ENB_Y_SET, CLK_RST_CONTROLLER_CLK_SOURCE_SDMMC_LEGACY_TM, CLK_Y_SDMMC_LEGACY_TM, 4, CLK_SRC_DIV(34) // 12MHz. }; static clk_rst_t _clock_apbdma = { RST_DEV_H_SET, CLK_ENB_H_SET, CLK_NO_SOURCE, CLK_H_APBDMA, 0, 0 // Max: 204 MHz. }; static clk_rst_t _clock_ahbdma = { RST_DEV_H_SET, CLK_ENB_H_SET, CLK_NO_SOURCE, CLK_H_AHBDMA, 0, 0 // Max: 408 MHz. }; static clk_rst_t _clock_actmon = { RST_DEV_V_SET, CLK_ENB_V_SET, CLK_RST_CONTROLLER_CLK_SOURCE_ACTMON, CLK_V_ACTMON, 6, CLK_SRC_DIV(1) // 19.2 MHz. }; static clk_rst_t _clock_extperiph1 = { RST_DEV_V_SET, CLK_ENB_V_SET, CLK_RST_CONTROLLER_CLK_SOURCE_EXTPERIPH1, CLK_V_EXTPERIPH1, 0, CLK_SRC_DIV(1) }; static clk_rst_t _clock_extperiph2 = { RST_DEV_V_SET, CLK_ENB_V_SET, CLK_RST_CONTROLLER_CLK_SOURCE_EXTPERIPH2, CLK_V_EXTPERIPH2, 2, CLK_SRC_DIV(102) // 4.0 MHz }; void clock_enable(const clk_rst_t *clk) { const u32 module = BIT(clk->index); // Put clock into reset. CLOCK(clk->reset) = module; // Disable. CLOCK(clk->enable + CLK_CLR_OFFSET) = module; // Configure clock source if required. if (clk->source) CLOCK(clk->source) = (clk->clk_src << 29u) | clk->clk_div; // Enable. CLOCK(clk->enable) = module; usleep(2); // Take clock off reset. CLOCK(clk->reset + CLK_CLR_OFFSET) = module; // Commit changes. (void)CLOCK(clk->reset); } void clock_disable(const clk_rst_t *clk) { const u32 module = BIT(clk->index); // Put clock into reset. CLOCK(clk->reset) = module; // Disable. CLOCK(clk->enable + CLK_CLR_OFFSET) = module; } void clock_enable_fuse(bool enable) { // Enable Fuse registers visibility. CLOCK(CLK_RST_CONTROLLER_MISC_CLK_ENB) = (CLOCK(CLK_RST_CONTROLLER_MISC_CLK_ENB) & 0xEFFFFFFF) | ((enable & 1) << 28); } void clock_enable_uart(u32 idx) { // Ease the stress to APB. bpmp_clk_rate_relaxed(true); clock_enable(&_clock_uart[idx]); // Restore sys clock. bpmp_clk_rate_relaxed(false); } void clock_disable_uart(u32 idx) { clock_disable(&_clock_uart[idx]); } #define UART_SRC_CLK_DIV_EN BIT(24) int clock_uart_use_src_div(u32 idx, u32 baud) { u32 clk_src = CLOCK(_clock_uart[idx].source) & 0xE0000000; if (baud == 3000000) CLOCK(_clock_uart[idx].source) = clk_src | UART_SRC_CLK_DIV_EN | CLK_SRC_DIV(8.5); else if (baud == 1000000) CLOCK(_clock_uart[idx].source) = clk_src | UART_SRC_CLK_DIV_EN | CLK_SRC_DIV(25.5); else { CLOCK(_clock_uart[idx].source) = clk_src | CLK_SRC_DIV(2); return 1; } return 0; } void clock_enable_i2c(u32 idx) { // Ease the stress to APB. bpmp_clk_rate_relaxed(true); clock_enable(&_clock_i2c[idx]); // Restore sys clock. bpmp_clk_rate_relaxed(false); } void clock_disable_i2c(u32 idx) { clock_disable(&_clock_i2c[idx]); } void clock_enable_se() { clock_enable(&_clock_se); // Lock clock to always enabled if T210B01. if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01) CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_SE) |= BIT(8); } void clock_enable_tzram() { clock_enable(&_clock_tzram); } void clock_enable_host1x() { clock_enable(&_clock_host1x); // Set idle frequency to 81.6 MHz. // CLOCK(_clock_host1x.clk_src) |= CLK_SRC_DIV(5) << 8; } void clock_disable_host1x() { clock_disable(&_clock_host1x); } void clock_enable_tsec() { clock_enable(&_clock_tsec); } void clock_disable_tsec() { clock_disable(&_clock_tsec); } void clock_enable_nvdec() { clock_enable(&_clock_nvdec); } void clock_disable_nvdec() { clock_disable(&_clock_nvdec); } void clock_enable_nvjpg() { clock_enable(&_clock_nvjpg); } void clock_disable_nvjpg() { clock_disable(&_clock_nvjpg); } void clock_enable_vic() { // Ease the stress to APB. bpmp_clk_rate_relaxed(true); clock_enable(&_clock_vic); // Set idle frequency to 136 MHz. // CLOCK(_clock_vic.clk_src) |= CLK_SRC_DIV(3) << 8; // Restore sys clock. bpmp_clk_rate_relaxed(false); } void clock_disable_vic() { clock_disable(&_clock_vic); } void clock_enable_sor_safe() { clock_enable(&_clock_sor_safe); } void clock_disable_sor_safe() { clock_disable(&_clock_sor_safe); } void clock_enable_sor0() { clock_enable(&_clock_sor0); } void clock_disable_sor0() { clock_disable(&_clock_sor0); } void clock_enable_sor1() { clock_enable(&_clock_sor1); } void clock_disable_sor1() { clock_disable(&_clock_sor1); } void clock_enable_kfuse() { CLOCK(RST_DEV_H_SET) = BIT(CLK_H_KFUSE); CLOCK(CLK_ENB_H_CLR) = BIT(CLK_H_KFUSE); CLOCK(CLK_ENB_H_SET) = BIT(CLK_H_KFUSE); usleep(10); // Wait 10us to prevent glitching. CLOCK(RST_DEV_H_CLR) = BIT(CLK_H_KFUSE); usleep(20); // Wait 20us for KFUSE HW to init. } void clock_disable_kfuse() { clock_disable(&_clock_kfuse); } void clock_enable_cl_dvfs() { clock_enable(&_clock_cl_dvfs); } void clock_disable_cl_dvfs() { clock_disable(&_clock_cl_dvfs); } void clock_enable_coresight() { clock_enable(&_clock_coresight); } void clock_disable_coresight() { clock_disable(&_clock_coresight); } void clock_enable_pwm() { // Ease the stress to APB. bpmp_clk_rate_relaxed(true); clock_enable(&_clock_pwm); // Restore sys clock. bpmp_clk_rate_relaxed(false); } void clock_disable_pwm() { clock_disable(&_clock_pwm); } void clock_enable_apbdma() { clock_enable(&_clock_apbdma); } void clock_disable_apbdma() { clock_disable(&_clock_apbdma); } void clock_enable_ahbdma() { clock_enable(&_clock_ahbdma); } void clock_disable_ahbdma() { clock_disable(&_clock_ahbdma); } void clock_enable_actmon() { clock_enable(&_clock_actmon); } void clock_disable_actmon() { clock_disable(&_clock_actmon); } void clock_enable_extperiph1() { clock_enable(&_clock_extperiph1); PMC(APBDEV_PMC_CLK_OUT_CNTRL) |= PMC_CLK_OUT_CNTRL_CLK1_SRC_SEL(OSC_CAR) | PMC_CLK_OUT_CNTRL_CLK1_FORCE_EN; usleep(5); } void clock_disable_extperiph1() { PMC(APBDEV_PMC_CLK_OUT_CNTRL) &= ~((PMC_CLK_OUT_CNTRL_CLK1_SRC_SEL(OSC_CAR)) | PMC_CLK_OUT_CNTRL_CLK1_FORCE_EN); clock_disable(&_clock_extperiph1); } void clock_enable_extperiph2() { clock_enable(&_clock_extperiph2); PMC(APBDEV_PMC_CLK_OUT_CNTRL) |= PMC_CLK_OUT_CNTRL_CLK2_SRC_SEL(OSC_CAR) | PMC_CLK_OUT_CNTRL_CLK2_FORCE_EN; usleep(5); } void clock_disable_extperiph2() { PMC(APBDEV_PMC_CLK_OUT_CNTRL) &= ~((PMC_CLK_OUT_CNTRL_CLK2_SRC_SEL(OSC_CAR)) | PMC_CLK_OUT_CNTRL_CLK2_FORCE_EN); clock_disable(&_clock_extperiph2); } static void _clock_pll_wait_lock(u32 base, u32 max_delay) { for (u32 i = 0; i < max_delay; i++) { if (CLOCK(base) & PLL_BASE_LOCK) break; usleep(1); } usleep(2); } void clock_enable_plld(u32 divp, u32 divn, bool lowpower, bool tegra_t210) { u32 plld_div = (divp << 20) | (divn << 11) | 1; // N divider is fractional, so N = DIVN + 1/2 + PLLD_SDM_DIN/8192. u32 misc = BIT(21) | BIT(19) | BIT(18) | BIT(16) | 0xFC00; // Clock enable and PLLD_SDM_DIN: -1024 -> DIVN + 0.375. if (lowpower && tegra_t210) misc = BIT(21) | BIT(19) | BIT(18) | BIT(16) | 0x0AAA; // Clock enable and PLLD_SDM_DIN: 2730 -> DIVN + 0.833. // Set DISP1 clock source. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_DISP1) = 2 << 29u; // PLLD_OUT0. // Set dividers and enable PLLD. CLOCK(CLK_RST_CONTROLLER_PLLD_BASE) = PLL_BASE_ENABLE | PLL_BASE_LOCK | plld_div; CLOCK(CLK_RST_CONTROLLER_PLLD_MISC1) = tegra_t210 ? 0x20 : 0; // Keep default PLLD_SETUP. // Set PLLD_SDM_DIN and enable (T210) PLLD to DSI pads. CLOCK(CLK_RST_CONTROLLER_PLLD_MISC) = misc; // Wait for PLL to stabilize. _clock_pll_wait_lock(CLK_RST_CONTROLLER_PLLD_BASE, 1000); } void clock_enable_pllx() { // Configure and enable PLLX if disabled. if (!(CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) & PLL_BASE_ENABLE)) // PLLX_ENABLE. { CLOCK(CLK_RST_CONTROLLER_PLLX_MISC_3) &= ~PLLX_MISC3_IDDQ; // Disable IDDQ. usleep(2); // Set div configuration. const u32 pllx_div_cfg = (2 << 20) | (156 << 8) | 2; // P div: 2 (3), N div: 156, M div: 2. 998.4 MHz. // Bypass dividers. CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) = PLL_BASE_BYPASS | pllx_div_cfg; // Disable bypass CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) = pllx_div_cfg; // Set PLLX_LOCK_ENABLE. CLOCK(CLK_RST_CONTROLLER_PLLX_MISC) |= PLLX_MISC_LOCK_EN; // Enable PLLX. CLOCK(CLK_RST_CONTROLLER_PLLX_BASE) = PLL_BASE_ENABLE | pllx_div_cfg; } // Wait for PLL to stabilize. _clock_pll_wait_lock(CLK_RST_CONTROLLER_PLLX_BASE, 300); } void clock_enable_pllc(u32 divn) { u32 enabled = CLOCK(CLK_RST_CONTROLLER_PLLC_BASE) & PLL_BASE_ENABLE; u8 pll_divn_curr = (CLOCK(CLK_RST_CONTROLLER_PLLC_BASE) >> 10) & 0xFF; // Check if already enabled and configured. if (enabled && (pll_divn_curr == divn)) return; // WAR: Disable first to avoid HPLL overshoot. if (enabled) clock_disable_pllc(); // Take PLLC out of reset (misc) and set misc2 parameters. CLOCK(CLK_RST_CONTROLLER_PLLC_MISC) = (0x8000 << 4); // PLLC_EXT_FRU. CLOCK(CLK_RST_CONTROLLER_PLLC_MISC_2) |= 0xF << 8; // PLLC_FLL_LD_MEM. // Disable PLL and IDDQ in case they are on. CLOCK(CLK_RST_CONTROLLER_PLLC_BASE) &= ~PLL_BASE_ENABLE; CLOCK(CLK_RST_CONTROLLER_PLLC_MISC_1) &= ~PLLC_MISC1_IDDQ; usleep(10); // Set PLLC dividers. CLOCK(CLK_RST_CONTROLLER_PLLC_BASE) = (divn << 10) | 6; // DIVM: 6, DIVP: 1. // Enable PLLC and wait for Phase and Frequency lock. CLOCK(CLK_RST_CONTROLLER_PLLC_BASE) |= PLL_BASE_ENABLE; _clock_pll_wait_lock(CLK_RST_CONTROLLER_PLLC_BASE, 300); // Disable PLLC_OUT1, enable reset and set div to 1. CLOCK(CLK_RST_CONTROLLER_PLLC_OUT) = 0; // Enable PLLC_OUT1 and bring it out of reset. CLOCK(CLK_RST_CONTROLLER_PLLC_OUT) |= PLLC_OUT1_CLKEN | PLLC_OUT1_RSTN_CLR; msleep(1); // Wait a bit for PLL to stabilize. } void clock_disable_pllc() { // Disable PLLC and PLLC_OUT1. CLOCK(CLK_RST_CONTROLLER_PLLC_OUT) &= ~PLLC_OUT1_RSTN_CLR; CLOCK(CLK_RST_CONTROLLER_PLLC_MISC) = PLLC_MISC_RESET; CLOCK(CLK_RST_CONTROLLER_PLLC_BASE) &= ~PLL_BASE_ENABLE; CLOCK(CLK_RST_CONTROLLER_PLLC_MISC_1) |= PLLC_MISC1_IDDQ; CLOCK(CLK_RST_CONTROLLER_PLLC_MISC_2) &= ~(0xFF << 8); // PLLC_FLL_LD_MEM. usleep(10); } #define PLLC4_ENABLED BIT(31) #define PLLC4_IN_USE (~PLLC4_ENABLED) u32 pllc4_enabled = 0; static void _clock_enable_pllc4(u32 mask) { pllc4_enabled |= mask; if (pllc4_enabled & PLLC4_ENABLED) return; // Enable Phase and Frequency lock detection. CLOCK(CLK_RST_CONTROLLER_PLLC4_MISC) = PLLC4_MISC_EN_LCKDET; // Disable PLL and IDDQ in case they are on. CLOCK(CLK_RST_CONTROLLER_PLLC4_BASE) &= ~PLL_BASE_ENABLE; CLOCK(CLK_RST_CONTROLLER_PLLC4_BASE) &= ~PLLC4_BASE_IDDQ; usleep(10); // Set PLLC4 dividers. CLOCK(CLK_RST_CONTROLLER_PLLC4_BASE) = (0 << 19) | (104 << 8) | 4; // DIVP: 1, DIVN: 104, DIVM: 4. 998MHz OUT0, 199MHz OUT2. // Enable PLLC4 and wait for Phase and Frequency lock. CLOCK(CLK_RST_CONTROLLER_PLLC4_BASE) |= PLL_BASE_ENABLE; _clock_pll_wait_lock(CLK_RST_CONTROLLER_PLLC4_BASE, 300 + 700); pllc4_enabled |= PLLC4_ENABLED; } static void _clock_disable_pllc4(u32 mask) { pllc4_enabled &= ~mask; // Check if currently in use or disabled. if ((pllc4_enabled & PLLC4_IN_USE) || !(pllc4_enabled & PLLC4_ENABLED)) return; // Disable PLLC4. usleep(100); // Wait at least 100us to prevent glitching. CLOCK(CLK_RST_CONTROLLER_PLLC4_BASE) &= ~PLL_BASE_ENABLE; CLOCK(CLK_RST_CONTROLLER_PLLC4_BASE) |= PLLC4_BASE_IDDQ; usleep(10); pllc4_enabled = 0; } void clock_enable_pllu() { // Configure PLLU. CLOCK(CLK_RST_CONTROLLER_PLLU_MISC) |= BIT(29); // Disable reference clock. u32 pllu_cfg = (CLOCK(CLK_RST_CONTROLLER_PLLU_BASE) & 0xFFE00000) | BIT(24) | (1 << 16) | (0x19 << 8) | 2; CLOCK(CLK_RST_CONTROLLER_PLLU_BASE) = pllu_cfg; CLOCK(CLK_RST_CONTROLLER_PLLU_BASE) = pllu_cfg | PLL_BASE_ENABLE; // Enable. // Wait for PLL to stabilize. _clock_pll_wait_lock(CLK_RST_CONTROLLER_PLLU_BASE, 1000); usleep(8); // Enable PLLU USB/HSIC/ICUSB/48M. CLOCK(CLK_RST_CONTROLLER_PLLU_BASE) |= 0x2E00000; } void clock_disable_pllu() { CLOCK(CLK_RST_CONTROLLER_PLLU_BASE) &= ~0x2E00000; // Disable PLLU USB/HSIC/ICUSB/48M. CLOCK(CLK_RST_CONTROLLER_PLLU_BASE) &= ~BIT(30); // Disable PLLU. CLOCK(CLK_RST_CONTROLLER_PLLU_MISC) &= ~BIT(29); // Enable reference clock. } void clock_enable_utmipll() { // Set UTMIPLL dividers and config based on OSC and enable it to 960 MHz. CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG0) = (CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG0) & 0xFF0000FF) | (25 << 16) | (1 << 8); // 38.4Mhz * (25 / 1) = 960 MHz. CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG2) = (CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG2) & 0xFF00003F) | (24 << 18); // Set delay count for 38.4Mhz osc crystal. CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG1) = (CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG1) & 0x7FFA000) | (1 << 15) | 375; // Wait for UTMIPLL to stabilize. u32 retries = 10; // Wait 20us while (!(CLOCK(CLK_RST_CONTROLLER_UTMIPLL_HW_PWRDN_CFG0) & UTMIPLL_LOCK) && retries) { usleep(1); retries--; } } static int _clock_sdmmc_in_reset(u32 id) { const clk_rst_mgd_t *clk = &_clock_sdmmc[id]; return CLOCK(clk->reset) & BIT(clk->index); } static void _clock_sdmmc_set_reset(u32 id) { const clk_rst_mgd_t *clk = &_clock_sdmmc[id]; CLOCK(clk->reset) = BIT(clk->index); } static void _clock_sdmmc_clr_reset(u32 id) { const clk_rst_mgd_t *clk = &_clock_sdmmc[id]; CLOCK(clk->reset + CLK_CLR_OFFSET) = BIT(clk->index); } static int _clock_sdmmc_is_enabled(u32 id) { const clk_rst_mgd_t *clk = &_clock_sdmmc[id]; return CLOCK(clk->enable) & BIT(clk->index); } static void _clock_sdmmc_set_enable(u32 id) { const clk_rst_mgd_t *clk = &_clock_sdmmc[id]; CLOCK(clk->enable) = BIT(clk->index); } static void _clock_sdmmc_clr_enable(u32 id) { const clk_rst_mgd_t *clk = &_clock_sdmmc[id]; CLOCK(clk->enable + CLK_CLR_OFFSET) = BIT(clk->index); } static void _clock_sdmmc_config_legacy_tm() { const clk_rst_t *clk = &_clock_sdmmc_legacy_tm; if (!(CLOCK(clk->enable) & BIT(clk->index))) clock_enable(clk); } typedef struct _clock_sdmmc_t { u32 clock; u32 pclock; } clock_sdmmc_t; static clock_sdmmc_t _clock_sdmmc_table[4] = { 0 }; #define SDMMC_CLOCK_SRC_PLLP_OUT0 0x0 #define SDMMC_CLOCK_SRC_PLLC4_OUT2 0x3 #define SDMMC_CLOCK_SRC_PLLC4_OUT0 0x7 #define SDMMC4_CLOCK_SRC_PLLC4_OUT2_LJ 0x1 static int _clock_sdmmc_config_clock_host(u32 *pclock, u32 id, u32 clock) { u32 divisor = 0; u32 source = SDMMC_CLOCK_SRC_PLLP_OUT0; if (id > SDMMC_4) return 1; // Get IO clock divisor. switch (clock) { case 25000: *pclock = 24728; divisor = CLK_SRC_DIV(16.5); break; case 26000: *pclock = 25500; divisor = CLK_SRC_DIV(16); break; case 50000: *pclock = 48000; divisor = CLK_SRC_DIV(8.5); break; case 52000: *pclock = 51000; divisor = CLK_SRC_DIV(8); break; case 82000: *pclock = 81600; divisor = CLK_SRC_DIV(5); break; case 100000: source = SDMMC_CLOCK_SRC_PLLC4_OUT2; *pclock = 99840; divisor = CLK_SRC_DIV(2); break; case 164000: *pclock = 163200; divisor = CLK_SRC_DIV(2.5); break; case 200000: switch (id) { case SDMMC_1: case SDMMC_3: source = SDMMC_CLOCK_SRC_PLLC4_OUT2; break; case SDMMC_2: case SDMMC_4: source = SDMMC4_CLOCK_SRC_PLLC4_OUT2_LJ; // CLK RST divisor is ignored. break; } *pclock = 199680; divisor = CLK_SRC_DIV(1); break; #ifdef BDK_SDMMC_UHS_DDR200_SUPPORT case 400000: source = SDMMC_CLOCK_SRC_PLLC4_OUT0; *pclock = 399360; divisor = CLK_SRC_DIV(2.5); break; #endif } _clock_sdmmc_table[id].clock = clock; _clock_sdmmc_table[id].pclock = *pclock; // Enable PLLC4 if in use by any SDMMC. if (source != SDMMC_CLOCK_SRC_PLLP_OUT0) _clock_enable_pllc4(BIT(id)); // Set SDMMC legacy timeout clock. _clock_sdmmc_config_legacy_tm(); // Set SDMMC clock. const clk_rst_mgd_t *clk = &_clock_sdmmc[id]; CLOCK(clk->source) = (source << 29u) | divisor; return 0; } void clock_sdmmc_config_clock_source(u32 *pclock, u32 id, u32 clock) { if (_clock_sdmmc_table[id].clock == clock) { *pclock = _clock_sdmmc_table[id].pclock; } else { // Ease the stress to APB. if (id == SDMMC_1) bpmp_clk_rate_relaxed(true); int is_enabled = _clock_sdmmc_is_enabled(id); if (is_enabled) _clock_sdmmc_clr_enable(id); _clock_sdmmc_config_clock_host(pclock, id, clock); if (is_enabled) _clock_sdmmc_set_enable(id); // Commit changes. _clock_sdmmc_in_reset(id); // Restore sys clock. if (id == SDMMC_1) bpmp_clk_rate_relaxed(false); } } void clock_sdmmc_get_card_clock_div(u32 *pclock, u16 *pdivisor, u32 type) { // Get Card clock divisor. switch (type) { case SDHCI_TIMING_MMC_ID: // Actual card clock: 386.36 KHz. *pclock = 26000; *pdivisor = 66; break; case SDHCI_TIMING_MMC_LS26: *pclock = 26000; *pdivisor = 1; break; case SDHCI_TIMING_MMC_HS52: *pclock = 52000; *pdivisor = 1; break; case SDHCI_TIMING_MMC_HS200: case SDHCI_TIMING_MMC_HS400: case SDHCI_TIMING_UHS_SDR104: *pclock = 200000; *pdivisor = 1; break; case SDHCI_TIMING_SD_ID: // Actual card clock: 386.38 KHz. *pclock = 25000; *pdivisor = 64; break; case SDHCI_TIMING_SD_DS12: case SDHCI_TIMING_UHS_SDR12: *pclock = 25000; *pdivisor = 1; break; case SDHCI_TIMING_SD_HS25: case SDHCI_TIMING_UHS_SDR25: *pclock = 50000; *pdivisor = 1; break; case SDHCI_TIMING_UHS_SDR50: *pclock = 100000; *pdivisor = 1; break; case SDHCI_TIMING_UHS_SDR82: *pclock = 164000; *pdivisor = 1; break; case SDHCI_TIMING_UHS_DDR50: // Actual card clock: 40.80 MHz. *pclock = 82000; *pdivisor = 2; break; case SDHCI_TIMING_MMC_HS100: // Actual card clock: 99.84 MHz. *pclock = 200000; *pdivisor = 2; break; #ifdef BDK_SDMMC_UHS_DDR200_SUPPORT case SDHCI_TIMING_UHS_DDR200: // Actual card clock: 199.68 KHz. *pclock = 400000; *pdivisor = 2; break; #endif } } int clock_sdmmc_is_active(u32 id) { return !_clock_sdmmc_in_reset(id) && _clock_sdmmc_is_enabled(id); } void clock_sdmmc_enable(u32 id, u32 clock) { u32 pclock = 0; // Ease the stress to APB. if (id == SDMMC_1) bpmp_clk_rate_relaxed(true); _clock_sdmmc_clr_enable(id); _clock_sdmmc_set_reset(id); _clock_sdmmc_config_clock_host(&pclock, id, clock); _clock_sdmmc_set_enable(id); // Commit changes and wait 100 cycles for reset and for clocks to stabilize. _clock_sdmmc_in_reset(id); usleep((100 * 1000 + pclock - 1) / pclock); _clock_sdmmc_clr_reset(id); _clock_sdmmc_in_reset(id); // Restore sys clock. if (id == SDMMC_1) bpmp_clk_rate_relaxed(false); } void clock_sdmmc_disable(u32 id) { _clock_sdmmc_set_reset(id); _clock_sdmmc_clr_enable(id); _clock_sdmmc_in_reset(id); _clock_disable_pllc4(BIT(id)); } u32 clock_get_osc_freq() { CLOCK(CLK_RST_CONTROLLER_OSC_FREQ_DET) = OSC_FREQ_DET_TRIG | (2 - 1); // 2 periods of 32.76KHz window. while (CLOCK(CLK_RST_CONTROLLER_OSC_FREQ_DET_STATUS) & OSC_FREQ_DET_BUSY) ; u32 cnt = (CLOCK(CLK_RST_CONTROLLER_OSC_FREQ_DET_STATUS) & OSC_FREQ_DET_CNT); CLOCK(CLK_RST_CONTROLLER_OSC_FREQ_DET) = 0; // Return frequency in KHz. for (u32 i = 0; i < ARRAY_SIZE(_clock_osc_cnt); i++) if (cnt >= _clock_osc_cnt[i].min && cnt <= _clock_osc_cnt[i].max) return _clock_osc_cnt[i].freq; return 0; } u32 clock_get_dev_freq(clock_pto_id_t id) { const u32 pto_win = 16; const u32 pto_osc = 32768; u32 val = ((id & PTO_SRC_SEL_MASK) << PTO_SRC_SEL_SHIFT) | PTO_DIV_SEL_DIV1 | PTO_CLK_ENABLE | (pto_win - 1); CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL) = val; (void)CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL); usleep(2); CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL) = val | PTO_CNT_RST; (void)CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL); usleep(2); CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL) = val; (void)CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL); usleep(2); CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL) = val | PTO_CNT_EN; (void)CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL); usleep((1000000 * pto_win / pto_osc) + 12 + 2); while (CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_STATUS) & PTO_CLK_CNT_BUSY) ; u32 cnt = CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_STATUS) & PTO_CLK_CNT; CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL) = 0; (void)CLOCK(CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL); usleep(2); u32 freq_khz = (u64)cnt * pto_osc / pto_win / 1000; return freq_khz; } ================================================ FILE: bdk/soc/clock.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _CLOCK_H_ #define _CLOCK_H_ #include /*! Clock registers. */ #define CLK_RST_CONTROLLER_RST_SOURCE 0x0 #define CLK_RST_CONTROLLER_RST_DEVICES_L 0x4 #define CLK_RST_CONTROLLER_RST_DEVICES_H 0x8 #define CLK_RST_CONTROLLER_RST_DEVICES_U 0xC #define CLK_RST_CONTROLLER_CLK_OUT_ENB_L 0x10 #define CLK_RST_CONTROLLER_CLK_OUT_ENB_H 0x14 #define CLK_RST_CONTROLLER_CLK_OUT_ENB_U 0x18 #define CLK_RST_CONTROLLER_CCLK_BURST_POLICY 0x20 #define CLK_RST_CONTROLLER_SUPER_CCLK_DIVIDER 0x24 #define CLK_RST_CONTROLLER_SCLK_BURST_POLICY 0x28 #define CLK_RST_CONTROLLER_SUPER_SCLK_DIVIDER 0x2C #define CLK_RST_CONTROLLER_CLK_SYSTEM_RATE 0x30 #define CLK_RST_CONTROLLER_MISC_CLK_ENB 0x48 #define CLK_RST_CONTROLLER_OSC_CTRL 0x50 #define CLK_RST_CONTROLLER_OSC_FREQ_DET 0x58 #define CLK_RST_CONTROLLER_OSC_FREQ_DET_STATUS 0x5C #define CLK_RST_CONTROLLER_PTO_CLK_CNT_CNTL 0x60 #define CLK_RST_CONTROLLER_PTO_CLK_CNT_STATUS 0x64 #define CLK_RST_CONTROLLER_PLLC_BASE 0x80 #define CLK_RST_CONTROLLER_PLLC_OUT 0x84 #define CLK_RST_CONTROLLER_PLLC_MISC 0x88 #define CLK_RST_CONTROLLER_PLLC_MISC_1 0x8C #define CLK_RST_CONTROLLER_PLLM_BASE 0x90 #define CLK_RST_CONTROLLER_PLLM_MISC1 0x98 #define CLK_RST_CONTROLLER_PLLM_MISC2 0x9C #define CLK_RST_CONTROLLER_PLLP_BASE 0xA0 #define CLK_RST_CONTROLLER_PLLP_OUTB 0xA8 #define CLK_RST_CONTROLLER_PLLA_BASE 0xB0 #define CLK_RST_CONTROLLER_PLLA_OUT 0xB4 #define CLK_RST_CONTROLLER_PLLA_MISC1 0xB8 #define CLK_RST_CONTROLLER_PLLA_MISC 0xBC #define CLK_RST_CONTROLLER_PLLU_BASE 0xC0 #define CLK_RST_CONTROLLER_PLLU_OUTA 0xC4 #define CLK_RST_CONTROLLER_PLLU_MISC 0xCC #define CLK_RST_CONTROLLER_PLLD_BASE 0xD0 #define CLK_RST_CONTROLLER_PLLD_MISC1 0xD8 #define CLK_RST_CONTROLLER_PLLD_MISC 0xDC #define CLK_RST_CONTROLLER_PLLX_BASE 0xE0 #define CLK_RST_CONTROLLER_PLLX_MISC 0xE4 #define CLK_RST_CONTROLLER_PLLE_BASE 0xE8 #define CLK_RST_CONTROLLER_PLLE_MISC 0xEC #define CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRA 0xF8 #define CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRB 0xFC #define CLK_RST_CONTROLLER_CLK_SOURCE_I2S2 0x100 #define CLK_RST_CONTROLLER_CLK_SOURCE_PWM 0x110 #define CLK_RST_CONTROLLER_CLK_SOURCE_I2C1 0x124 #define CLK_RST_CONTROLLER_CLK_SOURCE_I2C5 0x128 #define CLK_RST_CONTROLLER_CLK_SOURCE_DISP1 0x138 #define CLK_RST_CONTROLLER_CLK_SOURCE_VI 0x148 #define CLK_RST_CONTROLLER_CLK_SOURCE_SDMMC1 0x150 #define CLK_RST_CONTROLLER_CLK_SOURCE_SDMMC2 0x154 #define CLK_RST_CONTROLLER_CLK_SOURCE_SDMMC4 0x164 #define CLK_RST_CONTROLLER_CLK_SOURCE_UARTA 0x178 #define CLK_RST_CONTROLLER_CLK_SOURCE_UARTB 0x17C #define CLK_RST_CONTROLLER_CLK_SOURCE_HOST1X 0x180 #define CLK_RST_CONTROLLER_CLK_SOURCE_I2C2 0x198 #define CLK_RST_CONTROLLER_CLK_SOURCE_EMC 0x19C #define CLK_RST_CONTROLLER_CLK_SOURCE_UARTC 0x1A0 #define CLK_RST_CONTROLLER_CLK_SOURCE_I2C3 0x1B8 #define CLK_RST_CONTROLLER_CLK_SOURCE_SDMMC3 0x1BC #define CLK_RST_CONTROLLER_CLK_SOURCE_UARTD 0x1C0 #define CLK_RST_CONTROLLER_CLK_SOURCE_CSITE 0x1D4 #define CLK_RST_CONTROLLER_CLK_SOURCE_I2S1 0x1D8 #define CLK_RST_CONTROLLER_CLK_SOURCE_TSEC 0x1F4 #define CLK_RST_CONTROLLER_CLK_OUT_ENB_X 0x280 #define CLK_RST_CONTROLLER_CLK_ENB_X_SET 0x284 #define CLK_RST_CONTROLLER_CLK_ENB_X_CLR 0x288 #define CLK_RST_CONTROLLER_RST_DEVICES_X 0x28C #define CLK_RST_CONTROLLER_RST_DEV_X_SET 0x290 #define CLK_RST_CONTROLLER_RST_DEV_X_CLR 0x294 #define CLK_RST_CONTROLLER_CLK_OUT_ENB_Y 0x298 #define CLK_RST_CONTROLLER_CLK_ENB_Y_SET 0x29C #define CLK_RST_CONTROLLER_CLK_ENB_Y_CLR 0x2A0 #define CLK_RST_CONTROLLER_RST_DEVICES_Y 0x2A4 #define CLK_RST_CONTROLLER_RST_DEV_Y_SET 0x2A8 #define CLK_RST_CONTROLLER_RST_DEV_Y_CLR 0x2AC #define CLK_RST_CONTROLLER_RST_DEV_L_SET 0x300 #define CLK_RST_CONTROLLER_RST_DEV_L_CLR 0x304 #define CLK_RST_CONTROLLER_RST_DEV_H_SET 0x308 #define CLK_RST_CONTROLLER_RST_DEV_H_CLR 0x30C #define CLK_RST_CONTROLLER_RST_DEV_U_SET 0x310 #define CLK_RST_CONTROLLER_RST_DEV_U_CLR 0x314 #define CLK_RST_CONTROLLER_CLK_ENB_L_SET 0x320 #define CLK_RST_CONTROLLER_CLK_ENB_L_CLR 0x324 #define CLK_RST_CONTROLLER_CLK_ENB_H_SET 0x328 #define CLK_RST_CONTROLLER_CLK_ENB_H_CLR 0x32C #define CLK_RST_CONTROLLER_CLK_ENB_U_SET 0x330 #define CLK_RST_CONTROLLER_CLK_ENB_U_CLR 0x334 #define CLK_RST_CONTROLLER_RST_DEVICES_V 0x358 #define CLK_RST_CONTROLLER_RST_DEVICES_W 0x35C #define CLK_RST_CONTROLLER_CLK_OUT_ENB_V 0x360 #define CLK_RST_CONTROLLER_CLK_OUT_ENB_W 0x364 #define CLK_RST_CONTROLLER_CPU_SOFTRST_CTRL2 0x388 #define CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRC 0x3A0 #define CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRD 0x3A4 #define CLK_RST_CONTROLLER_CLK_SOURCE_MSELECT 0x3B4 #define CLK_RST_CONTROLLER_CLK_SOURCE_I2C4 0x3C4 #define CLK_RST_CONTROLLER_CLK_SOURCE_AHUB 0x3D0 #define CLK_RST_CONTROLLER_CLK_SOURCE_ACTMON 0x3E8 #define CLK_RST_CONTROLLER_CLK_SOURCE_EXTPERIPH1 0x3EC #define CLK_RST_CONTROLLER_CLK_SOURCE_EXTPERIPH2 0x3F0 #define CLK_RST_CONTROLLER_CLK_SOURCE_SYS 0x400 #define CLK_RST_CONTROLLER_CLK_SOURCE_SOR1 0x410 #define CLK_RST_CONTROLLER_CLK_SOURCE_SE 0x42C #define CLK_RST_CONTROLLER_RST_DEV_V_SET 0x430 #define CLK_RST_CONTROLLER_RST_DEV_V_CLR 0x434 #define CLK_RST_CONTROLLER_RST_DEV_W_SET 0x438 #define CLK_RST_CONTROLLER_RST_DEV_W_CLR 0x43C #define CLK_RST_CONTROLLER_CLK_ENB_V_SET 0x440 #define CLK_RST_CONTROLLER_CLK_ENB_V_CLR 0x444 #define CLK_RST_CONTROLLER_CLK_ENB_W_SET 0x448 #define CLK_RST_CONTROLLER_CLK_ENB_W_CLR 0x44C #define CLK_RST_CONTROLLER_RST_CPUG_CMPLX_SET 0x450 #define CLK_RST_CONTROLLER_RST_CPUG_CMPLX_CLR 0x454 #define CLK_RST_CONTROLLER_UTMIP_PLL_CFG0 0x480 #define CLK_RST_CONTROLLER_UTMIP_PLL_CFG1 0x484 #define CLK_RST_CONTROLLER_UTMIP_PLL_CFG2 0x488 #define CLK_RST_CONTROLLER_PLLE_AUX 0x48C #define CLK_RST_CONTROLLER_AUDIO_SYNC_CLK_I2S0 0x4A0 #define CLK_RST_CONTROLLER_UTMIP_PLL_CFG3 0x4C0 #define CLK_RST_CONTROLLER_PLLX_MISC_3 0x518 #define CLK_RST_CONTROLLER_UTMIPLL_HW_PWRDN_CFG0 0x52C #define CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRE 0x554 #define CLK_RST_CONTROLLER_SPARE_REG0 0x55C #define CLK_RST_CONTROLLER_PLLC4_BASE 0x5A4 #define CLK_RST_CONTROLLER_PLLC4_MISC 0x5A8 #define CLK_RST_CONTROLLER_PLLC_MISC_2 0x5D0 #define CLK_RST_CONTROLLER_PLLC4_OUT 0x5E4 #define CLK_RST_CONTROLLER_PLLMB_BASE 0x5E8 #define CLK_RST_CONTROLLER_PLLMB_MISC1 0x5EC #define CLK_RST_CONTROLLER_CLK_SOURCE_XUSB_FS 0x608 #define CLK_RST_CONTROLLER_CLK_SOURCE_XUSB_CORE_DEV 0x60C #define CLK_RST_CONTROLLER_CLK_SOURCE_XUSB_SS 0x610 #define CLK_RST_CONTROLLER_CLK_SOURCE_DSIA_LP 0x620 #define CLK_RST_CONTROLLER_CLK_SOURCE_I2C6 0x65C #define CLK_RST_CONTROLLER_CLK_SOURCE_EMC_DLL 0x664 #define CLK_RST_CONTROLLER_CLK_SOURCE_UART_FST_MIPI_CAL 0x66C #define CLK_RST_CONTROLLER_CLK_SOURCE_VIC 0x678 #define CLK_RST_CONTROLLER_CLK_SOURCE_SDMMC_LEGACY_TM 0x694 #define CLK_RST_CONTROLLER_CLK_SOURCE_NVDEC 0x698 #define CLK_RST_CONTROLLER_CLK_SOURCE_NVJPG 0x69C #define CLK_RST_CONTROLLER_CLK_SOURCE_NVENC 0x6A0 #define CLK_RST_CONTROLLER_CLK_SOURCE_APE 0x6C0 #define CLK_RST_CONTROLLER_CLK_SOURCE_USB2_HSIC_TRK 0x6CC #define CLK_RST_CONTROLLER_SE_SUPER_CLK_DIVIDER 0x704 #define CLK_RST_CONTROLLER_CLK_SOURCE_UARTAPE 0x710 #define CLK_NO_SOURCE 0x0 #define CLK_NOT_USED 0x0 #define CLK_CLR_OFFSET 0x4 /*! PLL control and status bits */ #define PLL_BASE_LOCK BIT(27) #define PLL_BASE_REF_DIS BIT(29) #define PLL_BASE_ENABLE BIT(30) #define PLL_BASE_BYPASS BIT(31) #define PLLX_MISC_LOCK_EN BIT(18) #define PLLX_MISC3_IDDQ BIT(3) #define PLLA_OUT0_RSTN_CLR BIT(0) #define PLLA_OUT0_CLKEN BIT(1) #define PLLA_BASE_IDDQ BIT(25) #define PLLC_OUT1_RSTN_CLR BIT(0) #define PLLC_OUT1_CLKEN BIT(1) #define PLLC_MISC1_IDDQ BIT(27) #define PLLC_MISC_RESET BIT(30) #define PLLC4_OUT3_RSTN_CLR BIT(0) #define PLLC4_OUT3_CLKEN BIT(1) #define PLLC4_BASE_IDDQ BIT(18) #define PLLC4_MISC_EN_LCKDET BIT(30) #define UTMIPLL_LOCK BIT(31) /*! Clock source */ #define CLK_SRC_DIV(d) ((d) ? ((u32)(((d) - 1) * 2)) : 0) #define CLK_I2C_SRC_DIV(d) ((d) ? ((u32)(((d) - 1))) : 0) /*! PTO_CLK_CNT */ #define PTO_REF_CLK_WIN_CFG_MASK 0xF #define PTO_REF_CLK_WIN_CFG_16P 0xF #define PTO_CNT_EN BIT(9) #define PTO_CNT_RST BIT(10) #define PTO_CLK_ENABLE BIT(13) #define PTO_SRC_SEL_SHIFT 14 #define PTO_SRC_SEL_MASK 0x1FF #define PTO_DIV_SEL_MASK (3 << 23) #define PTO_DIV_SEL_GATED (0 << 23) #define PTO_DIV_SEL_DIV1 (1 << 23) #define PTO_DIV_SEL_DIV4_RISING (2 << 23) #define PTO_DIV_SEL_DIV4_FALLING (3 << 23) #define PTO_DIV_SEL_CPU_EARLY (0 << 23) #define PTO_DIV_SEL_CPU_LATE (1 << 23) #define PTO_CLK_CNT_BUSY BIT(31) #define PTO_CLK_CNT 0xFFFFFF /*! OSC_FREQ_DET */ #define OSC_REF_CLK_WIN_CFG_MASK 0xF #define OSC_FREQ_DET_TRIG BIT(31) #define OSC_FREQ_DET_BUSY BIT(31) #define OSC_FREQ_DET_CNT 0xFFFF /*! PTO IDs. */ typedef enum _clock_pto_id_t { CLK_PTO_PCLK_SYS = 0x06, CLK_PTO_HCLK_SYS = 0x07, CLK_PTO_DMIC1 = 0x08, CLK_PTO_DMIC2 = 0x09, CLK_PTO_HDMI_SLOWCLK_DIV2 = 0x0A, CLK_PTO_JTAG_REG = 0x0B, CLK_PTO_UTMIP_240_A = 0x0C, CLK_PTO_UTMIP_240_B = 0x0D, CLK_PTO_CCLK_G = 0x12, CLK_PTO_CCLK_G_DIV2 = 0x13, CLK_PTO_MIPIBIF = 0x14, CLK_PTO_SPI1 = 0x17, CLK_PTO_SPI2 = 0x18, CLK_PTO_SPI3 = 0x19, CLK_PTO_SPI4 = 0x1A, CLK_PTO_MAUD = 0x1B, CLK_PTO_SCLK = 0x1C, CLK_PTO_SDMMC1 = 0x20, CLK_PTO_SDMMC2 = 0x21, CLK_PTO_SDMMC3 = 0x22, CLK_PTO_SDMMC4 = 0x23, CLK_PTO_EMC = 0x24, CLK_PTO_DMIC3 = 0x2A, CLK_PTO_CCLK_LP = 0x2B, CLK_PTO_CCLK_LP_DIV2 = 0x2C, CLK_PTO_MSELECT = 0x2F, CLK_PTO_VI_SENSOR2 = 0x33, CLK_PTO_VI_SENSOR = 0x34, CLK_PTO_VIC = 0x35, CLK_PTO_VIC_SKIP = 0x36, CLK_PTO_ISP_SKIP = 0x37, CLK_PTO_ISPB_SE2_SKIP = 0x38, CLK_PTO_NVDEC_SKIP = 0x39, CLK_PTO_NVENC_SKIP = 0x3A, CLK_PTO_NVJPG_SKIP = 0x3B, CLK_PTO_TSEC_SKIP = 0x3C, CLK_PTO_TSECB_SKIP = 0x3D, CLK_PTO_SE_SKIP = 0x3E, CLK_PTO_VI_SKIP = 0x3F, CLK_PTO_PLLX_OBS = 0x40, CLK_PTO_PLLC_OBS = 0x41, CLK_PTO_PLLM_OBS = 0x42, CLK_PTO_PLLP_OBS = 0x43, CLK_PTO_PLLA_OBS = 0x44, CLK_PTO_PLLMB_OBS = 0x45, CLK_PTO_SATA_OOB = 0x46, CLK_PTO_FCPU_DVFS_DIV12_CPU = 0x48, CLK_PTO_EQOS_AXI = 0x4C, CLK_PTO_EQOS_PTP_REF = 0x4D, CLK_PTO_EQOS_TX = 0x4E, CLK_PTO_EQOS_RX = 0x4F, CLK_PTO_CILAB = 0x52, CLK_PTO_CILCD = 0x53, CLK_PTO_CILEF = 0x55, CLK_PTO_PLLA1_PTO_OBS = 0x56, CLK_PTO_PLLC4_PTO_OBS = 0x57, CLK_PTO_PLLC2_PTO_OBS = 0x59, CLK_PTO_PLLC3_PTO_OBS = 0x5B, CLK_PTO_DSIA_LP = 0x62, CLK_PTO_DSIB_LP = 0x63, CLK_PTO_ISP = 0x64, CLK_PTO_PEX_PAD = 0x65, CLK_PTO_MC = 0x6A, CLK_PTO_ACTMON = 0x6B, CLK_PTO_CSITE = 0x6C, CLK_PTO_VI_I2C = 0x6D, CLK_PTO_HOST1X = 0x6F, CLK_PTO_QSPI_2X = 0x71, CLK_PTO_NVDEC = 0x72, CLK_PTO_NVJPG = 0x73, CLK_PTO_SE = 0x74, CLK_PTO_SOC_THERM = 0x75, CLK_PTO_TSEC = 0x77, CLK_PTO_TSECB = 0x78, CLK_PTO_VI = 0x79, CLK_PTO_LA = 0x7A, CLK_PTO_SCLK_SKIP = 0x7B, CLK_PTO_ADSP_SKIP = 0x7C, CLK_PTO_QSPI = 0x7D, CLK_PTO_SDMMC2_SHAPER = 0x7E, CLK_PTO_SDMMC4_SHAPER = 0x7F, CLK_PTO_I2S1 = 0x80, CLK_PTO_I2S2 = 0x81, CLK_PTO_I2S3 = 0x82, CLK_PTO_I2S4 = 0x83, CLK_PTO_I2S5 = 0x84, CLK_PTO_AHUB = 0x85, CLK_PTO_APE = 0x86, CLK_PTO_DVFS_SOC = 0x88, CLK_PTO_DVFS_REF = 0x89, CLK_PTO_ADSP_CLK = 0x8A, CLK_PTO_ADSP_DIV2_CLK = 0x8B, CLK_PTO_SPDIF_OUT = 0x8F, CLK_PTO_SPDIF_IN = 0x90, CLK_PTO_UART_FST_MIPI_CAL = 0x91, CLK_PTO_SYS2HSIO_SATA_CLK = 0x92, CLK_PTO_PWM = 0x93, CLK_PTO_I2C1 = 0x94, CLK_PTO_I2C2 = 0x95, CLK_PTO_I2C3 = 0x96, CLK_PTO_I2C4 = 0x97, CLK_PTO_I2C5 = 0x98, CLK_PTO_I2C6 = 0x99, CLK_PTO_I2C_SLOW = 0x9A, CLK_PTO_UARTAPE = 0x9B, CLK_PTO_EXTPERIPH1 = 0x9D, CLK_PTO_EXTPERIPH2 = 0x9E, CLK_PTO_EXTPERIPH3 = 0x9F, CLK_PTO_ENTROPY = 0xA0, CLK_PTO_UARTA = 0xA1, CLK_PTO_UARTB = 0xA2, CLK_PTO_UARTC = 0xA3, CLK_PTO_UARTD = 0xA4, CLK_PTO_OWR = 0xA5, CLK_PTO_TSENSOR = 0xA6, CLK_PTO_HDA2CODEC_2X = 0xA7, CLK_PTO_HDA = 0xA8, CLK_PTO_EMC_LATENCY = 0xA9, CLK_PTO_EMC_DLL = 0xAA, CLK_PTO_SDMMC_LEGACY_TM = 0xAB, CLK_PTO_DBGAPB = 0xAC, CLK_PTO_SOR0 = 0xC0, CLK_PTO_SOR1 = 0xC1, CLK_PTO_HDMI = 0xC2, CLK_PTO_DISP2 = 0xC4, CLK_PTO_DISP1 = 0xC5, // Branches: 0xD5, 0xE5, 0xF5. CLK_PTO_PLLD_OBS = 0xCA, // Branches: 0xDA, 0xEA, 0xFA. CLK_PTO_PLLD2_PTO_OBS = 0xCC, CLK_PTO_PLLDP_OBS = 0xCE, CLK_PTO_PLLE_OBS = 0x10A, CLK_PTO_PLLU_OBS = 0x10C, // Branches: 0x14C 0x18C 0x1CC. CLK_PTO_PLLREFE_OBS = 0x10E, CLK_PTO_XUSB_FALCON = 0x110, // Branches: 0x150 0x190 0x1D0. CLK_PTO_XUSB_CLK480M_HSIC = 0x111, // Branches: 0x151 0x191 0x1D1. CLK_PTO_USB_L0_RX = 0x112, CLK_PTO_USB_L3_RX = 0x113, CLK_PTO_USB_RX = 0x114, CLK_PTO_USB3_L0_TXCLKREF = 0x115, CLK_PTO_PEX_TXCLKREF_SWITCH_TMS = 0x116, CLK_PTO_PEX_TXCLKREF_SWITCH_GRP0 = 0x117, CLK_PTO_PEX_TXCLKREF_SWITCH_GRP1 = 0x118, CLK_PTO_PEX_TXCLKREF_SWITCH_GRP2 = 0x119, CLK_PTO_PEX_L4_RX = 0x11A, CLK_PTO_PEX_TXCLKREF = 0x11B, CLK_PTO_PEX_TXCLKREF_DIV2 = 0x11C, CLK_PTO_PEX_TXCLKREF2 = 0x11D, CLK_PTO_PEX_L0_RX = 0x11E, CLK_PTO_PEX_L1_RX = 0x11F, CLK_PTO_PEX_L2_RX = 0x120, CLK_PTO_PEX_L3_RX = 0x121, CLK_PTO_SATA_TXCLKREF = 0x122, CLK_PTO_SATA_TXCLKREF_DIV2 = 0x123, CLK_PTO_USB_L5_RX = 0x124, CLK_PTO_SATA_TX = 0x125, CLK_PTO_SATA_L0_RX = 0x126, CLK_PTO_USB3_L1_TXCLKREF = 0x129, CLK_PTO_USB3_L7_TXCLKREF = 0x12A, CLK_PTO_USB3_L7_RX = 0x12B, CLK_PTO_USB3_TX = 0x12C, CLK_PTO_UTMIP_PLL_PAD = 0x12D, // Branches: 0x16D 0x1AD 0x1ED. CLK_PTO_XUSB_FS = 0x136, // Branches: 0x176 0x1B6 0x1F6. CLK_PTO_XUSB_SS_HOST_DEV = 0x137, // Branches: 0x177 0x1B7 0x1F7. CLK_PTO_XUSB_CORE_HOST = 0x138, // Branches: 0x178 0x1B8 0x1F8. CLK_PTO_XUSB_CORE_DEV = 0x139, // Branches: 0x179 0x1B9 0x1F9. CLK_PTO_USB3_L2_TXCLKREF = 0x13C, CLK_PTO_USB3_L3_TXCLKREF = 0x13D, CLK_PTO_USB_L4_RX = 0x13E, CLK_PTO_USB_L6_RX = 0x13F, /* * PLL need PTO enabled in MISC registers. * Normal div is 2 so result is multiplied with it. */ CLK_PTO_PLLC_DIV2 = 0x01, CLK_PTO_PLLM_DIV2 = 0x02, CLK_PTO_PLLP_DIV2 = 0x03, CLK_PTO_PLLA_DIV2 = 0x04, CLK_PTO_PLLX_DIV2 = 0x05, CLK_PTO_PLLMB_DIV2 = 0x25, CLK_PTO_PLLC4_DIV2 = 0x51, CLK_PTO_PLLA1_DIV2 = 0x55, CLK_PTO_PLLC2_DIV2 = 0x58, CLK_PTO_PLLC3_DIV2 = 0x5A, CLK_PTO_PLLD_DIV2 = 0xCB, // Branches: 0xDB, 0xEB, 0xFB. CLK_PTO_PLLD2_DIV2 = 0xCD, CLK_PTO_PLLDP_DIV2 = 0xCF, CLK_PTO_PLLE_DIV2 = 0x10B, CLK_PTO_PLLU_DIV2 = 0x10D, // Branches: 0x14D 0x18D 0x1CD. CLK_PTO_PLLREFE_DIV2 = 0x10F, } clock_pto_id_t; /* * CLOCK Peripherals: * L 0 - 31 * H 32 - 63 * U 64 - 95 * V 96 - 127 * W 128 - 159 * X 160 - 191 * Y 192 - 223 */ enum CLK_L_DEV { CLK_L_CPU = 0, // Deprecated. CLK_L_BPMP = 1, // Only reset. CLK_L_SYS = 2, // Only reset. CLK_L_ISPB = 3, CLK_L_RTC = 4, // Only enable. CLK_L_TMR = 5, CLK_L_UARTA = 6, CLK_L_UARTB = 7, CLK_L_GPIO = 8, CLK_L_SDMMC2 = 9, CLK_L_SPDIF = 10, // Only enable. CLK_L_I2S2 = 11, // Only enable. CLK_L_I2C1 = 12, CLK_L_SDMMC1 = 14, CLK_L_SDMMC4 = 15, CLK_L_TWC = 16, // 3-Wire Controller. Deprecated. CLK_L_PWM = 17, CLK_L_I2S3 = 18, // Only enable. CLK_L_VI = 20, CLK_L_USBD = 22, CLK_L_ISP = 23, CLK_L_DISP2 = 26, CLK_L_DISP1 = 27, CLK_L_HOST1X = 28, CLK_L_I2S1 = 30, // Only enable. CLK_L_BPMP_CACHE_CTRL = 31, // Controller. }; enum CLK_H_DEV { CLK_H_MEM = 0, // MC. CLK_H_AHBDMA = 1, CLK_H_APBDMA = 2, CLK_H_STAT_MON = 5, CLK_H_PMC = 6, // Only enable. CLK_H_FUSE = 7, CLK_H_KFUSE = 8, CLK_H_SPI1 = 9, CLK_H_SPI2 = 12, CLK_H_XIO = 13, // Misc IO. Deprecated? CLK_H_SPI3 = 14, CLK_H_I2C5 = 15, CLK_H_DSI = 16, CLK_H_CSI = 20, CLK_H_I2C2 = 22, CLK_H_UARTC = 23, CLK_H_MIPI_CAL = 24, CLK_H_EMC = 25, CLK_H_USB2 = 26, CLK_H_BSEV = 31, }; enum CLK_U_DEV { //CLK_U_SPEEDO = 0, // RESERVED. Old speedo ring oscillator. CLK_U_UARTD = 1, CLK_U_I2C3 = 3, CLK_U_SPI4 = 4, CLK_U_SDMMC3 = 5, CLK_U_PCIE = 6, CLK_U_OWR = 7, // 1-Wire Controller. Deprecated. CLK_U_AFI = 8, CLK_U_CSITE = 9, CLK_U_PCIEXCLK = 10, // Only reset. CLK_U_LA = 12, // DFD. CLK_U_SOC_THERM = 14, CLK_U_DTV = 15, // Deprecated. CLK_U_I2C_SLOW = 17, CLK_U_DSIB = 18, CLK_U_TSEC = 19, CLK_U_IRAMA = 20, // Only enable. CLK_U_IRAMB = 21, // Only enable. CLK_U_IRAMC = 22, // Only enable. CLK_U_IRAMD = 23, // EMUCIF ON RESET CLK_U_BPMP_CACHE_RAM = 24, // Only enable. CLK_U_XUSB_HOST = 25, CLK_U_SUS_OUT = 28, // Only enable. VI MCLK. Deprecated? CLK_U_DEV2_OUT = 29, // Only enable. DAP MCLK. Deprecated? CLK_U_DEV1_OUT = 30, // Only enable. DAP MCLK. Deprecated? CLK_U_XUSB_DEV = 31, }; enum CLK_V_DEV { CLK_V_CPUG = 0, CLK_V_CPULP = 1, // Reserved. CLK_V_MSELECT = 3, CLK_V_TSENSOR = 4, // Only enable. CLK_V_I2S4 = 5, // Only enable. CLK_V_I2S5 = 6, // Only enable. CLK_V_I2C4 = 7, CLK_V_AHUB = 10, // AUDIO. Only enable. CLK_V_APB2APE = 11, // APBIF. Only enable. CLK_V_HDA2CODEC_2X = 15, CLK_V_ATOMICS = 16, CLK_V_SPDIF_DOUBLER = 22, // Only enable. CLK_V_ACTMON = 23, CLK_V_EXTPERIPH1 = 24, CLK_V_EXTPERIPH2 = 25, CLK_V_EXTPERIPH3 = 26, CLK_V_SATA_OOB = 27, // Only on T210. CLK_V_SATA = 28, // Only on T210. CLK_V_HDA = 29, CLK_V_TZRAM = 30, CLK_V_SE = 31, }; enum CLK_W_DEV { CLK_W_HDA2HDMICODEC = 0, CLK_W_SATACOLD = 1, // Enable reserved. Unused. CLK_W_PCIERX0 = 2, // Reset reserved. CLK_W_PCIERX1 = 3, // Reset reserved. CLK_W_PCIERX2 = 4, // Reset reserved. CLK_W_PCIERX3 = 5, // Reset reserved. CLK_W_PCIERX4 = 6, // Reset reserved. CLK_W_PCIERX5 = 7, // Reset reserved. CLK_W_CEC = 8, CLK_W_PCIE2_IOBIST = 9, // Reset reserved. CLK_W_EMC_IOBIST = 10, // Reset reserved. CLK_W_SATA_IOBIST = 12, // Reset reserved. CLK_W_MIPI_IOBIST = 13, // Reset reserved. CLK_W_XUSB_PADCTL = 14, // Only reset. CLK_W_XUSB = 15, // Only enable. CLK_W_CILAB = 16, // Only enable. CLK_W_CILCD = 17, // Only enable. CLK_W_CILEF = 18, // Only enable. CLK_W_DSIA_LP = 19, // Only enable. CLK_W_DSIB_LP = 20, // Only enable. CLK_W_ENTROPY = 21, CLK_W_DP2 = 24, // HIDDEN. CLK_W_DVFS = 27, CLK_W_XUSB_SS = 28, CLK_W_EMC_LATENCY = 29, // Only enable. CLK_W_MC1 = 30, // Only enable. }; enum CLK_X_DEV { CLK_X_SPARE = 0, CLK_X_DMIC1 = 1, // Only enable. CLK_X_DMIC2 = 2, // Only enable. CLK_X_ETR = 3, // DFD. CLK_X_CAM_MCLK = 4, // Only enable. CLK_X_CAM_MCLK2 = 5, // Only enable. CLK_X_I2C6 = 6, CLK_X_MC_CAPA = 7, // MC Clients daisy chain 1. Only enable. CLK_X_MC_CBPA = 8, // MC Clients daisy chain 2. Only enable. CLK_X_MC_CPU = 9, // MC CPU. Only enable. CLK_X_MC_BBC = 10, // MC Backbone. Only enable. CLK_X_VIM2_CLK = 11, // Only enable. CLK_X_MIPIBIF = 13, CLK_X_EMC_DLL = 14, // Only enable. CLK_X_UART_FST_MIPI_CAL = 17, // Only enable. CLK_X_VIC = 18, CLK_X_DPAUX = 21, CLK_X_SOR0 = 22, CLK_X_SOR1 = 23, CLK_X_GPU = 24, CLK_X_DBGAPB = 25, // Only enable. CLK_X_HPLL_ADSP = 26, // Only enable. CLK_X_PLLP_ADSP = 27, // Only enable. CLK_X_PLLA_ADSP = 28, // Only enable. CLK_X_PLLG_REF = 29, // Only enable. CLK_X_EQOS = 30, // T210B01 only. }; enum CLK_Y_DEV { CLK_Y_SPARE1 = 0, CLK_Y_SDMMC_LEGACY_TM = 1, // Only enable. CLK_Y_NVDEC = 2, CLK_Y_NVJPG = 3, CLK_Y_AXIAP = 4, // DFD. CLK_Y_DMIC3 = 5, // Only enable. CLK_Y_APE = 6, CLK_Y_ADSP = 7, CLK_Y_MC_CDPA = 8, // MC Clients daisy chain 4. Only enable. CLK_Y_MC_CCPA = 9, // MC Clients daisy chain 3. Only enable. CLK_Y_MAUD = 10, // Only enable. CLK_Y_SATA_USB_UPHY = 12, // Only reset. CLK_Y_PEX_USB_UPHY = 13, // Only reset. CLK_Y_TSECB = 14, CLK_Y_DPAUX1 = 15, CLK_Y_VI_I2C = 16, CLK_Y_HSIC_TRK = 17, // Only enable. CLK_Y_USB2_TRK = 18, // Only enable. CLK_Y_QSPI = 19, CLK_Y_UARTAPE = 20, // Only enable. CLK_Y_ADSPINTF = 21, // Only reset. CLK_Y_ADSPPERIPH = 22, // Only reset. CLK_Y_ADSPDBG = 23, // Only reset. CLK_Y_ADSPWDT = 24, // Only reset. CLK_Y_ADSPSCU = 25, // Only reset. CLK_Y_ADSPNEON = 26, CLK_Y_NVENC = 27, CLK_Y_IQC2 = 28, // Only enable. (Audio.) CLK_Y_IQC1 = 29, // Only enable. (Audio.) CLK_Y_SOR_SAFE = 30, // Only enable. CLK_Y_PLLP_OUT_CPU = 31, // Only enable. }; /*! Generic clock descriptor. */ typedef struct _clk_rst_t { u16 reset; // Reset SET. u16 enable; // Enable SET. u16 source; u8 index:5; u8 clk_src:3; u8 clk_div; } clk_rst_t; /*! Generic clock enable/disable. */ void clock_enable(const clk_rst_t *clk); void clock_disable(const clk_rst_t *clk); /*! Clock control for specific hardware portions. */ void clock_enable_fuse(bool enable); void clock_enable_uart(u32 idx); void clock_disable_uart(u32 idx); int clock_uart_use_src_div(u32 idx, u32 baud); void clock_enable_i2c(u32 idx); void clock_disable_i2c(u32 idx); void clock_enable_se(); void clock_enable_tzram(); void clock_enable_host1x(); void clock_disable_host1x(); void clock_enable_tsec(); void clock_disable_tsec(); void clock_enable_nvdec(); void clock_disable_nvdec(); void clock_enable_nvjpg(); void clock_disable_nvjpg(); void clock_enable_vic(); void clock_disable_vic(); void clock_enable_sor_safe(); void clock_disable_sor_safe(); void clock_enable_sor0(); void clock_disable_sor0(); void clock_enable_sor1(); void clock_disable_sor1(); void clock_enable_kfuse(); void clock_disable_kfuse(); void clock_enable_cl_dvfs(); void clock_disable_cl_dvfs(); void clock_enable_coresight(); void clock_disable_coresight(); void clock_enable_pwm(); void clock_disable_pwm(); void clock_enable_apbdma(); void clock_disable_apbdma(); void clock_enable_ahbdma(); void clock_disable_ahbdma(); void clock_enable_actmon(); void clock_disable_actmon(); void clock_enable_extperiph1(); void clock_disable_extperiph1(); void clock_enable_extperiph2(); void clock_disable_extperiph2(); void clock_enable_plld(u32 divp, u32 divn, bool lowpower, bool tegra_t210); void clock_enable_pllx(); void clock_enable_pllc(u32 divn); void clock_disable_pllc(); void clock_enable_pllu(); void clock_disable_pllu(); void clock_enable_utmipll(); void clock_sdmmc_config_clock_source(u32 *pclock, u32 id, u32 clock); void clock_sdmmc_get_card_clock_div(u32 *pclock, u16 *pdivisor, u32 type); int clock_sdmmc_is_active(u32 id); void clock_sdmmc_enable(u32 id, u32 clock); void clock_sdmmc_disable(u32 id); u32 clock_get_osc_freq(); u32 clock_get_dev_freq(clock_pto_id_t id); #endif ================================================ FILE: bdk/soc/fuse.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 shuffle2 * Copyright (c) 2018 balika011 * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include static const u32 evp_thunk_template[] = { 0xe92d0007, // STMFD SP!, {R0-R2} 0xe1a0200e, // MOV R2, LR 0xe2422002, // SUB R2, R2, #2 0xe5922000, // LDR R2, [R2] 0xe20220ff, // AND R2, R2, #0xFF 0xe1a02082, // MOV R2, R2,LSL#1 0xe59f001c, // LDR R0, =evp_thunk_template 0xe59f101c, // LDR R1, =thunk_end 0xe0411000, // SUB R1, R1, R0 0xe59f0018, // LDR R0, =iram_evp_thunks 0xe0800001, // ADD R0, R0, R1 0xe0822000, // ADD R2, R2, R0 0xe3822001, // ORR R2, R2, #1 0xe8bd0003, // LDMFD SP!, {R0,R1} 0xe12fff12, // BX R2 // idx: 15: 0x001007b0, // off_1007EC DCD evp_thunk_template 0x001007f8, // off_1007F0 DCD thunk_end 0x40004c30, // off_1007F4 DCD iram_evp_thunks // thunk_end is here }; static const u32 evp_thunk_func_offsets_t210b01[] = { 0x0010022c, // off_100268 DCD evp_thunk_template 0x00100174, // off_10026C DCD thunk_end 0x40004164, // off_100270 DCD iram_evp_thunks // thunk_end is here }; // treated as 12bit values static const u32 hash_vals[] = {1, 2, 4, 8, 0, 3, 5, 6, 7, 9, 10, 11}; void fuse_disable_program() { FUSE(FUSE_DISABLEREGPROGRAM) = 1; } u32 fuse_read_odm(u32 idx) { return FUSE(FUSE_RESERVED_ODMX(idx)); } u32 fuse_read_odm_keygen_rev() { bool has_new_keygen; // Check if it has new keygen. if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01) has_new_keygen = true; else has_new_keygen = (fuse_read_odm(4) & 0x800) && fuse_read_odm(0) == 0x8E61ECAE && fuse_read_odm(1) == 0xF2BA3BB2; if (has_new_keygen) return (fuse_read_odm(2) & 0x1F); return 0; } static bool _dramid_8gb = false; void fuse_force_8gb_dramid() { // Override fuse DRAM ID with a 8GB ID. _dramid_8gb = true; } u32 fuse_read_dramid(bool raw_id) { bool tegra_t210 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210; u32 odm4 = fuse_read_odm(4); u32 dramid = (odm4 & 0xF8) >> 3; // Get extended dram id info. if (!tegra_t210) dramid |= (odm4 & 0x7000) >> 7; if (raw_id) return dramid; if (tegra_t210) { if (dramid > 7) dramid = 0; if (_dramid_8gb) dramid = 7; } else { if (dramid > 34) dramid = 8; if (_dramid_8gb) dramid = 28; } return dramid; } u32 fuse_read_hw_state() { if ((fuse_read_odm(4) & 3) != 3) return FUSE_NX_HW_STATE_PROD; else return FUSE_NX_HW_STATE_DEV; } u32 fuse_read_hw_type() { if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01) { switch ((fuse_read_odm(4) & 0xF0000) >> 16) { case 2: return FUSE_NX_HW_TYPE_HOAG; case 4: return FUSE_NX_HW_TYPE_AULA; case 1: default: return FUSE_NX_HW_TYPE_IOWA; } } return FUSE_NX_HW_TYPE_ICOSA; } int fuse_set_sbk() { if (FUSE(FUSE_PRIVATE_KEY0) != 0xFFFFFFFF) { // Read SBK from fuses. u32 sbk[4] = { FUSE(FUSE_PRIVATE_KEY0), FUSE(FUSE_PRIVATE_KEY1), FUSE(FUSE_PRIVATE_KEY2), FUSE(FUSE_PRIVATE_KEY3) }; // Set SBK to slot 14. se_aes_key_set(14, sbk, SE_KEY_128_SIZE); // Lock SBK from being read. se_key_acc_ctrl(14, SE_KEY_TBL_DIS_KEYREAD_FLAG); return 1; } return 0; } void fuse_wait_idle() { while (((FUSE(FUSE_CTRL) >> 16) & 0x1F) != FUSE_STATUS_IDLE) ; } void fuse_sense() { clock_enable_fuse(false); FUSE(FUSE_CTRL) = (FUSE(FUSE_CTRL) & (~FUSE_CMD_MASK)) | FUSE_SENSE; usleep(1); fuse_wait_idle(); FUSE(FUSE_PRIV2INTFC) = FUSE_PRIV2INTFC_SKIP_RECORDS | FUSE_PRIV2INTFC_START_DATA; usleep(1); while (!(FUSE(FUSE_CTRL) & BIT(30)) || ((FUSE(FUSE_CTRL) >> 16) & 0x1F) != FUSE_STATUS_IDLE) ; clock_enable_fuse(true); } u32 fuse_read(u32 addr) { FUSE(FUSE_ADDR) = addr; FUSE(FUSE_CTRL) = (FUSE(FUSE_CTRL) & ~FUSE_CMD_MASK) | FUSE_READ; fuse_wait_idle(); return FUSE(FUSE_RDATA); } u32 fuse_read_array(u32 *words) { u32 array_size = (hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01) ? FUSE_ARRAY_WORDS_NUM_B01 : FUSE_ARRAY_WORDS_NUM; for (u32 i = 0; i < array_size; i++) words[i] = fuse_read(i); return array_size; } static u32 _parity32_even(const u32 *words, u32 count) { u32 acc = words[0]; for (u32 i = 1; i < count; i++) acc ^= words[i]; u32 lo = ((acc & 0xffff) ^ (acc >> 16)) & 0xff; u32 hi = ((acc & 0xffff) ^ (acc >> 16)) >> 8; u32 x = hi ^ lo; lo = ((x & 0xf) ^ (x >> 4)) & 3; hi = ((x & 0xf) ^ (x >> 4)) >> 2; x = hi ^ lo; return (x & 1) ^ (x >> 1); } static int _patch_hash_one(u32 *word) { u32 bits20_31 = *word & 0xfff00000; u32 parity_bit = _parity32_even(&bits20_31, 1); u32 hash = 0; for (u32 i = 0; i < 12; i++) { if (*word & (1 << (20 + i))) hash ^= hash_vals[i]; } if (hash == 0) { if (parity_bit == 0) return 0; *word ^= 1 << 24; return 1; } if (parity_bit == 0) return 3; for (u32 i = 0; i < ARRAY_SIZE(hash_vals); i++) { if (hash_vals[i] == hash) { *word ^= 1 << (20 + i); return 1; } } return 2; } static int _patch_hash_multi(u32 *words, u32 count) { u32 parity_bit = _parity32_even(words, count); u32 bits0_14 = words[0] & 0x7fff; u32 bit15 = words[0] & 0x8000; u32 bits16_19 = words[0] & 0xf0000; u32 hash = 0; words[0] = bits16_19; for (u32 i = 0; i < count; i++) { u32 w = words[i]; if (w) { for (u32 bitpos = 0; bitpos < 32; bitpos++) { if ((w >> bitpos) & 1) hash ^= 0x4000 + i * 32 + bitpos; } } } hash ^= bits0_14; // stupid but this is what original code does. // equivalent to original words[0] &= 0xfff00000 words[0] = bits16_19 ^ bit15 ^ bits0_14; if (hash == 0) { if (parity_bit == 0) return 0; words[0] ^= 0x8000; return 1; } if (parity_bit == 0) return 3; u32 bitcount = hash - 0x4000; if (bitcount < 16 || bitcount >= count * 32) { u32 num_set = 0; for (u32 bitpos = 0; bitpos < 15; bitpos++) { if ((hash >> bitpos) & 1) num_set++; } if (num_set != 1) return 2; words[0] ^= hash; return 1; } words[bitcount / 32] ^= 1 << (hash & 0x1f); return 1; } int fuse_read_ipatch(void (*ipatch)(u32 offset, u32 value)) { u32 words[80]; u32 word_count; u32 word_addr; u32 word0; u32 total_read = 0; word_count = FUSE(FUSE_FIRST_BOOTROM_PATCH_SIZE); word_count &= 0x7F; word_addr = FUSE_ARRAY_WORDS_NUM - 1; while (word_count) { total_read += word_count; if (total_read >= ARRAY_SIZE(words)) break; for (u32 i = 0; i < word_count; i++) { words[i] = fuse_read(word_addr--); // Parse extra T210B01 fuses when the difference is reached. if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01 && word_addr == ((FUSE_ARRAY_WORDS_NUM - 1) - (FUSE_ARRAY_WORDS_NUM_B01 - FUSE_ARRAY_WORDS_NUM) / sizeof(u32))) { word_addr = FUSE_ARRAY_WORDS_NUM_B01 - 1; } } word0 = words[0]; if (_patch_hash_multi(words, word_count) >= 2) return 1; u32 ipatch_count = (words[0] >> 16) & 0xF; if (ipatch_count) { for (u32 i = 0; i < ipatch_count; i++) { u32 word = words[i + 1]; u32 addr = (word >> 16) * 2; u32 data = word & 0xFFFF; ipatch(addr, data); } } words[0] = word0; if ((word0 >> 25) == 0) break; if (_patch_hash_one(&word0) >= 2) return 3; word_count = word0 >> 25; } return 0; } int fuse_read_evp_thunk(u32 *iram_evp_thunks, u32 *iram_evp_thunks_len) { u32 words[80]; u32 word_count; u32 word_addr; u32 word0; u32 total_read = 0; int evp_thunk_written = 0; void *evp_thunk_dst_addr = 0; bool t210b01 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01; u32 *evp_thunk_tmp = (u32 *)malloc(sizeof(evp_thunk_template)); memcpy(evp_thunk_tmp, evp_thunk_template, sizeof(evp_thunk_template)); memset(iram_evp_thunks, 0, *iram_evp_thunks_len); if (t210b01) memcpy(&evp_thunk_tmp[15], evp_thunk_func_offsets_t210b01, sizeof(evp_thunk_func_offsets_t210b01)); word_count = FUSE(FUSE_FIRST_BOOTROM_PATCH_SIZE); word_count &= 0x7F; word_addr = FUSE_ARRAY_WORDS_NUM - 1; while (word_count) { total_read += word_count; if (total_read >= ARRAY_SIZE(words)) break; for (u32 i = 0; i < word_count; i++) { words[i] = fuse_read(word_addr--); // Parse extra T210B01 fuses when the difference is reached. if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01 && word_addr == ((FUSE_ARRAY_WORDS_NUM - 1) - (FUSE_ARRAY_WORDS_NUM_B01 - FUSE_ARRAY_WORDS_NUM) / sizeof(u32))) { word_addr = FUSE_ARRAY_WORDS_NUM_B01 - 1; } } word0 = words[0]; if (_patch_hash_multi(words, word_count) >= 2) { free(evp_thunk_tmp); return 1; } u32 ipatch_count = (words[0] >> 16) & 0xF; u32 insn_count = word_count - ipatch_count - 1; if (insn_count) { if (!evp_thunk_written) { evp_thunk_dst_addr = (void *)iram_evp_thunks; memcpy(evp_thunk_dst_addr, (void *)evp_thunk_tmp, sizeof(evp_thunk_template)); evp_thunk_dst_addr += sizeof(evp_thunk_template); evp_thunk_written = 1; *iram_evp_thunks_len = sizeof(evp_thunk_template); //write32(TEGRA_EXCEPTION_VECTORS_BASE + 0x208, iram_evp_thunks); } u32 thunk_patch_len = insn_count * sizeof(u32); memcpy(evp_thunk_dst_addr, &words[ipatch_count + 1], thunk_patch_len); evp_thunk_dst_addr += thunk_patch_len; *iram_evp_thunks_len += thunk_patch_len; } words[0] = word0; if ((word0 >> 25) == 0) break; if (_patch_hash_one(&word0) >= 2) { free(evp_thunk_tmp); return 3; } word_count = word0 >> 25; } free(evp_thunk_tmp); return 0; } bool fuse_check_patched_rcm() { // Check if XUSB in use or Tegra X1+. if (FUSE(FUSE_RESERVED_SW) & (1<<7) || hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01) return true; // Check if RCM is ipatched. u32 word_count = FUSE(FUSE_FIRST_BOOTROM_PATCH_SIZE) & 0x7F; u32 word_addr = FUSE_ARRAY_WORDS_NUM - 1; while (word_count) { u32 word0 = fuse_read(word_addr); u32 ipatch_count = (word0 >> 16) & 0xF; for (u32 i = 0; i < ipatch_count; i++) { u32 word = fuse_read(word_addr - (i + 1)); u32 addr = (word >> 16) * 2; if (addr == 0x769A) return true; } word_addr -= word_count; word_count = word0 >> 25; } return false; } ================================================ FILE: bdk/soc/fuse.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 shuffle2 * Copyright (c) 2018 balika011 * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _FUSE_H_ #define _FUSE_H_ #include /*! Fuse registers. */ #define FUSE_CTRL 0x0 #define FUSE_ADDR 0x4 #define FUSE_RDATA 0x8 #define FUSE_WDATA 0xC #define FUSE_TIME_RD1 0x10 #define FUSE_TIME_RD2 0x14 #define FUSE_TIME_PGM1 0x18 #define FUSE_TIME_PGM2 0x1C #define FUSE_PRIV2INTFC 0x20 #define FUSE_PRIV2INTFC_START_DATA BIT(0) #define FUSE_PRIV2INTFC_SKIP_RECORDS BIT(1) #define FUSE_FUSEBYPASS 0x24 #define FUSE_PRIVATEKEYDISABLE 0x28 #define FUSE_PRIVKEY_DISABLE BIT(0) #define FUSE_PRIVKEY_TZ_STICKY_BIT BIT(4) #define FUSE_DISABLEREGPROGRAM 0x2C #define FUSE_WRITE_ACCESS_SW 0x30 #define FUSE_PWR_GOOD_SW 0x34 #define FUSE_PRIV2RESHIFT 0x3C #define FUSE_FUSETIME_RD0 0x40 #define FUSE_FUSETIME_RD1 0x44 #define FUSE_FUSETIME_RD2 0x48 #define FUSE_FUSETIME_RD3 0x4C #define FUSE_PRIVATE_KEY0_NONZERO 0x80 #define FUSE_PRIVATE_KEY1_NONZERO 0x84 #define FUSE_PRIVATE_KEY2_NONZERO 0x88 #define FUSE_PRIVATE_KEY3_NONZERO 0x8C #define FUSE_PRIVATE_KEY4_NONZERO 0x90 /*! Fuse Cached registers */ #define FUSE_RESERVED_ODM8_B01 0x98 // FUSE_READ_TZ Group 0. #define FUSE_RESERVED_ODM9_B01 0x9C // FUSE_READ_TZ Group 0. #define FUSE_RESERVED_ODM10_B01 0xA0 // FUSE_READ_TZ Group 0. #define FUSE_RESERVED_ODM11_B01 0xA4 // FUSE_READ_TZ Group 0. #define FUSE_RESERVED_ODM12_B01 0xA8 // FUSE_READ_TZ Group 1? Is value -1? #define FUSE_RESERVED_ODM13_B01 0xAC // FUSE_READ_TZ Group 1? Is value -1? #define FUSE_RESERVED_ODM14_B01 0xB0 // FUSE_READ_TZ Group 1? Is value -1? #define FUSE_RESERVED_ODM15_B01 0xB4 // FUSE_READ_TZ Group 1? Is value -1? #define FUSE_RESERVED_ODM16_B01 0xB8 // FUSE_READ_TZ Group 2? Is value -1? #define FUSE_RESERVED_ODM17_B01 0xBC // FUSE_READ_TZ Group 2? Is value -1? #define FUSE_RESERVED_ODM18_B01 0xC0 // FUSE_READ_TZ Group 2. #define FUSE_RESERVED_ODM19_B01 0xC4 // FUSE_READ_TZ Group 2. #define FUSE_RESERVED_ODM20_B01 0xC8 // FUSE_READ_TZ Group 3. #define FUSE_RESERVED_ODM21_B01 0xCC // FUSE_READ_TZ Group 3. #define FUSE_KEK00_B01 0xD0 #define FUSE_KEK01_B01 0xD4 #define FUSE_KEK02_B01 0xD8 #define FUSE_KEK03_B01 0xDC #define FUSE_BEK00_B01 0xE0 #define FUSE_BEK01_B01 0xE4 #define FUSE_BEK02_B01 0xE8 #define FUSE_BEK03_B01 0xEC #define FUSE_OPT_RAM_RTSEL_TSMCSP_PO4SVT_B01 0xF0 #define FUSE_OPT_RAM_WTSEL_TSMCSP_PO4SVT_B01 0xF4 #define FUSE_OPT_RAM_RTSEL_TSMCPDP_PO4SVT_B01 0xF8 #define FUSE_OPT_RAM_MTSEL_TSMCPDP_PO4SVT_B01 0xFC #define FUSE_PRODUCTION_MODE 0x100 #define FUSE_JTAG_SECUREID_VALID 0x104 #define FUSE_ODM_LOCK 0x108 #define FUSE_OPT_OPENGL_EN 0x10C #define FUSE_SKU_INFO 0x110 #define FUSE_CPU_SPEEDO_0_CALIB 0x114 #define FUSE_CPU_IDDQ_CALIB 0x118 #define FUSE_RESERVED_ODM22_B01 0x11C // FUSE_READ_TZ Group 3. #define FUSE_RESERVED_ODM23_B01 0x120 // FUSE_READ_TZ Group 3. #define FUSE_RESERVED_ODM24_B01 0x124 // FUSE_READ_TZ Group 4. #define FUSE_OPT_FT_REV 0x128 #define FUSE_CPU_SPEEDO_1_CALIB 0x12C #define FUSE_CPU_SPEEDO_2_CALIB 0x130 #define FUSE_SOC_SPEEDO_0_CALIB 0x134 #define FUSE_SOC_SPEEDO_1_CALIB 0x138 #define FUSE_SOC_SPEEDO_2_CALIB 0x13C #define FUSE_SOC_IDDQ_CALIB 0x140 #define FUSE_RESERVED_ODM25_B01 0x144 // FUSE_READ_TZ Group 4. #define FUSE_FA 0x148 #define FUSE_RESERVED_PRODUCTION 0x14C #define FUSE_HDMI_LANE0_CALIB 0x150 #define FUSE_HDMI_LANE1_CALIB 0x154 #define FUSE_HDMI_LANE2_CALIB 0x158 #define FUSE_HDMI_LANE3_CALIB 0x15C #define FUSE_ENCRYPTION_RATE 0x160 #define FUSE_PUBLIC_KEY0 0x164 #define FUSE_PUBLIC_KEY1 0x168 #define FUSE_PUBLIC_KEY2 0x16C #define FUSE_PUBLIC_KEY3 0x170 #define FUSE_PUBLIC_KEY4 0x174 #define FUSE_PUBLIC_KEY5 0x178 #define FUSE_PUBLIC_KEY6 0x17C #define FUSE_PUBLIC_KEY7 0x180 #define FUSE_TSENSOR1_CALIB 0x184 // CPU1. #define FUSE_TSENSOR2_CALIB 0x188 // CPU2. #define FUSE_OPT_SECURE_SCC_DIS_B01 0x18C #define FUSE_OPT_CP_REV 0x190 // FUSE style revision - ATE. 0x101 0x100 #define FUSE_OPT_PFG 0x194 #define FUSE_TSENSOR0_CALIB 0x198 // CPU0. #define FUSE_FIRST_BOOTROM_PATCH_SIZE 0x19C #define FUSE_SECURITY_MODE 0x1A0 #define FUSE_PRIVATE_KEY0 0x1A4 #define FUSE_PRIVATE_KEY1 0x1A8 #define FUSE_PRIVATE_KEY2 0x1AC #define FUSE_PRIVATE_KEY3 0x1B0 #define FUSE_PRIVATE_KEY4 0x1B4 #define FUSE_ARM_JTAG_DIS 0x1B8 #define FUSE_BOOT_DEVICE_INFO 0x1BC #define FUSE_RESERVED_SW 0x1C0 #define FUSE_OPT_VP9_DISABLE 0x1C4 #define FUSE_RESERVED_ODM0 0x1C8 #define FUSE_RESERVED_ODM1 0x1CC #define FUSE_RESERVED_ODM2 0x1D0 #define FUSE_RESERVED_ODM3 0x1D4 #define FUSE_RESERVED_ODM4 0x1D8 #define FUSE_RESERVED_ODM5 0x1DC #define FUSE_RESERVED_ODM6 0x1E0 #define FUSE_RESERVED_ODM7 0x1E4 #define FUSE_OBS_DIS 0x1E8 #define FUSE_OPT_NVJTAG_PROTECTION_ENABLE_B01 0x1EC #define FUSE_USB_CALIB 0x1F0 #define FUSE_SKU_DIRECT_CONFIG 0x1F4 #define FUSE_KFUSE_PRIVKEY_CTRL 0x1F8 #define FUSE_PACKAGE_INFO 0x1FC // 1: MID, 2: DSC. #define FUSE_OPT_VENDOR_CODE 0x200 #define FUSE_OPT_FAB_CODE 0x204 #define FUSE_OPT_LOT_CODE_0 0x208 #define FUSE_OPT_LOT_CODE_1 0x20C #define FUSE_OPT_WAFER_ID 0x210 #define FUSE_OPT_X_COORDINATE 0x214 #define FUSE_OPT_Y_COORDINATE 0x218 #define FUSE_OPT_SEC_DEBUG_EN 0x21C #define FUSE_OPT_OPS_RESERVED 0x220 #define FUSE_SATA_CALIB 0x224 #define FUSE_SPARE_REGISTER_ODM_B01 0x224 #define FUSE_GPU_IDDQ_CALIB 0x228 #define FUSE_TSENSOR3_CALIB 0x22C // CPU3. #define FUSE_CLOCK_BONDOUT0 0x230 #define FUSE_CLOCK_BONDOUT1 0x234 #define FUSE_RESERVED_ODM26_B01 0x238 // FUSE_READ_TZ Group 4. #define FUSE_RESERVED_ODM27_B01 0x23C // FUSE_READ_TZ Group 4. #define FUSE_RESERVED_ODM28_B01 0x240 // MAX77812 phase configuration. FUSE_READ_TZ Group 5. #define FUSE_OPT_SAMPLE_TYPE 0x244 #define FUSE_OPT_SUBREVISION 0x248 // "", "p", "q", "r". e.g: A01p. #define FUSE_OPT_SW_RESERVED_0 0x24C #define FUSE_OPT_SW_RESERVED_1 0x250 #define FUSE_TSENSOR4_CALIB 0x254 // GPU. #define FUSE_TSENSOR5_CALIB 0x258 // MEM0. #define FUSE_TSENSOR6_CALIB 0x25C // MEM1. #define FUSE_TSENSOR7_CALIB 0x260 // PLLX. #define FUSE_OPT_PRIV_SEC_DIS 0x264 #define FUSE_PKC_DISABLE 0x268 #define FUSE_BOOT_SECURITY_INFO_B01 0x268 #define FUSE_OPT_RAM_RTSEL_TSMCSP_PO4HVT_B01 0x26C #define FUSE_OPT_RAM_WTSEL_TSMCSP_PO4HVT_B01 0x270 #define FUSE_OPT_RAM_RTSEL_TSMCPDP_PO4HVT_B01 0x274 #define FUSE_OPT_RAM_MTSEL_TSMCPDP_PO4HVT_B01 0x278 #define FUSE_FUSE2TSEC_DEBUG_DISABLE 0x27C #define FUSE_TSENSOR_COMMON 0x280 #define FUSE_OPT_CP_BIN 0x284 #define FUSE_OPT_GPU_DISABLE 0x288 #define FUSE_OPT_FT_BIN 0x28C #define FUSE_OPT_DONE_MAP 0x290 #define FUSE_RESERVED_ODM29_B01 0x294 // FUSE_READ_TZ Group 5? Is value -1? #define FUSE_APB2JTAG_DISABLE 0x298 #define FUSE_ODM_INFO 0x29C // Debug features disable. #define FUSE_ARM_CRYPT_DE_FEATURE 0x2A8 #define FUSE_OPT_RAM_WTSEL_TSMCPDP_PO4SVT_B01 0x2B0 #define FUSE_OPT_RAM_RCT_TSMCDP_PO4SVT_B01 0x2B4 #define FUSE_OPT_RAM_WCT_TSMCDP_PO4SVT_B01 0x2B8 #define FUSE_OPT_RAM_KP_TSMCDP_PO4SVT_B01 0x2BC #define FUSE_WOA_SKU_FLAG 0x2C0 #define FUSE_ECO_RESERVE_1 0x2C4 #define FUSE_GCPLEX_CONFIG_FUSE 0x2C8 #define FUSE_GPU_VPR_AUTO_FETCH_DIS BIT(0) #define FUSE_GPU_VPR_ENABLED BIT(1) #define FUSE_GPU_WPR_ENABLED BIT(2) #define FUSE_PRODUCTION_MONTH 0x2CC #define FUSE_RAM_REPAIR_INDICATOR 0x2D0 #define FUSE_TSENSOR9_CALIB 0x2D4 // AOTAG. #define FUSE_VMIN_CALIBRATION 0x2DC #define FUSE_AGING_SENSOR_CALIBRATION 0x2E0 #define FUSE_DEBUG_AUTHENTICATION 0x2E4 #define FUSE_SECURE_PROVISION_INDEX 0x2E8 #define FUSE_SECURE_PROVISION_INFO 0x2EC #define FUSE_OPT_GPU_DISABLE_CP1 0x2F0 #define FUSE_SPARE_ENDIS 0x2F4 #define FUSE_ECO_RESERVE_0 0x2F8 // AID. #define FUSE_RESERVED_CALIB0 0x304 // GPCPLL ADC Calibration. #define FUSE_RESERVED_CALIB1 0x308 #define FUSE_OPT_GPU_TPC0_DISABLE 0x30C #define FUSE_OPT_GPU_TPC0_DISABLE_CP1 0x310 #define FUSE_OPT_CPU_DISABLE 0x314 #define FUSE_OPT_CPU_DISABLE_CP1 0x318 #define FUSE_TSENSOR10_CALIB 0x31C #define FUSE_TSENSOR10_CALIB_AUX 0x320 #define FUSE_OPT_RAM_SVOP_DP 0x324 #define FUSE_OPT_RAM_SVOP_PDP 0x328 #define FUSE_OPT_RAM_SVOP_REG 0x32C #define FUSE_OPT_RAM_SVOP_SP 0x330 #define FUSE_OPT_RAM_SVOP_SMPDP 0x334 #define FUSE_OPT_RAM_WTSEL_TSMCPDP_PO4HVT_B01 0x324 #define FUSE_OPT_RAM_RCT_TSMCDP_PO4HVT_B01 0x328 #define FUSE_OPT_RAM_WCT_TSMCDP_PO4HVT_B01 0x32c #define FUSE_OPT_RAM_KP_TSMCDP_PO4HVT_B01 0x330 #define FUSE_OPT_RAM_SVOP_SP_B01 0x334 #define FUSE_OPT_GPU_TPC0_DISABLE_CP2 0x338 #define FUSE_OPT_GPU_TPC1_DISABLE 0x33C #define FUSE_OPT_GPU_TPC1_DISABLE_CP1 0x340 #define FUSE_OPT_GPU_TPC1_DISABLE_CP2 0x344 #define FUSE_OPT_CPU_DISABLE_CP2 0x348 #define FUSE_OPT_GPU_DISABLE_CP2 0x34C #define FUSE_USB_CALIB_EXT 0x350 #define FUSE_RESERVED_FIELD 0x354 // RMA. #define FUSE_SPARE_REALIGNMENT_REG 0x37C #define FUSE_SPARE_BIT_0 0x380 //... #define FUSE_SPARE_BIT_31 0x3FC /*! Fuse commands. */ #define FUSE_IDLE 0x0 #define FUSE_READ 0x1 #define FUSE_WRITE 0x2 #define FUSE_SENSE 0x3 #define FUSE_CMD_MASK 0x3 /*! Fuse status. */ #define FUSE_STATUS_RESET 0 #define FUSE_STATUS_POST_RESET 1 #define FUSE_STATUS_LOAD_ROW0 2 #define FUSE_STATUS_LOAD_ROW1 3 #define FUSE_STATUS_IDLE 4 #define FUSE_STATUS_READ_SETUP 5 #define FUSE_STATUS_READ_STROBE 6 #define FUSE_STATUS_SAMPLE_FUSES 7 #define FUSE_STATUS_READ_HOLD 8 #define FUSE_STATUS_FUSE_SRC_SETUP 9 #define FUSE_STATUS_WRITE_SETUP 10 #define FUSE_STATUS_WRITE_ADDR_SETUP 11 #define FUSE_STATUS_WRITE_PROGRAM 12 #define FUSE_STATUS_WRITE_ADDR_HOLD 13 #define FUSE_STATUS_FUSE_SRC_HOLD 14 #define FUSE_STATUS_LOAD_RIR 15 #define FUSE_STATUS_READ_BEFORE_WRITE_SETUP 16 #define FUSE_STATUS_READ_DEASSERT_PD 17 /*! Fuse cache registers. */ #define FUSE_RESERVED_ODMX(x) (0x1C8 + 4 * (x)) #define FUSE_ARRAY_WORDS_NUM 192 #define FUSE_ARRAY_WORDS_NUM_B01 256 enum { FUSE_NX_HW_TYPE_ICOSA, FUSE_NX_HW_TYPE_IOWA, FUSE_NX_HW_TYPE_HOAG, FUSE_NX_HW_TYPE_AULA }; enum { FUSE_NX_HW_STATE_PROD, FUSE_NX_HW_STATE_DEV }; void fuse_disable_program(); u32 fuse_read_odm(u32 idx); u32 fuse_read_odm_keygen_rev(); void fuse_force_8gb_dramid(); u32 fuse_read_dramid(bool raw_id); u32 fuse_read_hw_state(); u32 fuse_read_hw_type(); int fuse_set_sbk(); void fuse_wait_idle(); void fuse_sense(); u32 fuse_read(u32 addr); int fuse_read_ipatch(void (*ipatch)(u32 offset, u32 value)); int fuse_read_evp_thunk(u32 *iram_evp_thunks, u32 *iram_evp_thunks_len); u32 fuse_read_array(u32 *words); bool fuse_check_patched_rcm(); #endif ================================================ FILE: bdk/soc/gpio.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019-2023 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #define GPIO_BANK_IDX(port) ((port) >> 2) #define GPIO_PORT_OFFSET(port) ((GPIO_BANK_IDX(port) << 8) + (((port) % 4) << 2)) #define GPIO_CNF_OFFSET(port) (0x00 + GPIO_PORT_OFFSET(port)) #define GPIO_OE_OFFSET(port) (0x10 + GPIO_PORT_OFFSET(port)) #define GPIO_OUT_OFFSET(port) (0x20 + GPIO_PORT_OFFSET(port)) #define GPIO_IN_OFFSET(port) (0x30 + GPIO_PORT_OFFSET(port)) #define GPIO_INT_STA_OFFSET(port) (0x40 + GPIO_PORT_OFFSET(port)) #define GPIO_INT_ENB_OFFSET(port) (0x50 + GPIO_PORT_OFFSET(port)) #define GPIO_INT_LVL_OFFSET(port) (0x60 + GPIO_PORT_OFFSET(port)) #define GPIO_INT_CLR_OFFSET(port) (0x70 + GPIO_PORT_OFFSET(port)) #define GPIO_CNF_MASKED_OFFSET(port) (0x80 + GPIO_PORT_OFFSET(port)) #define GPIO_OE_MASKED_OFFSET(port) (0x90 + GPIO_PORT_OFFSET(port)) #define GPIO_OUT_MASKED_OFFSET(port) (0xA0 + GPIO_PORT_OFFSET(port)) #define GPIO_INT_STA_MASKED_OFFSET(port) (0xC0 + GPIO_PORT_OFFSET(port)) #define GPIO_INT_ENB_MASKED_OFFSET(port) (0xD0 + GPIO_PORT_OFFSET(port)) #define GPIO_INT_LVL_MASKED_OFFSET(port) (0xE0 + GPIO_PORT_OFFSET(port)) #define GPIO_DB_CTRL_OFFSET(port) (0xB0 + GPIO_PORT_OFFSET(port)) #define GPIO_DB_CNT_OFFSET(port) (0xF0 + GPIO_PORT_OFFSET(port)) #define GPIO_IRQ_BANK1 32 #define GPIO_IRQ_BANK2 33 #define GPIO_IRQ_BANK3 34 #define GPIO_IRQ_BANK4 35 #define GPIO_IRQ_BANK5 55 #define GPIO_IRQ_BANK6 87 #define GPIO_IRQ_BANK7 89 #define GPIO_IRQ_BANK8 125 static u8 gpio_bank_irq_ids[8] = { GPIO_IRQ_BANK1, GPIO_IRQ_BANK2, GPIO_IRQ_BANK3, GPIO_IRQ_BANK4, GPIO_IRQ_BANK5, GPIO_IRQ_BANK6, GPIO_IRQ_BANK7, GPIO_IRQ_BANK8 }; void gpio_config(u32 port, u32 pins, int mode) { const u32 offset = GPIO_CNF_OFFSET(port); if (mode) GPIO(offset) |= pins; else GPIO(offset) &= ~pins; (void)GPIO(offset); // Commit the write. } void gpio_output_enable(u32 port, u32 pins, int enable) { const u32 port_offset = GPIO_OE_OFFSET(port); if (enable) GPIO(port_offset) |= pins; else GPIO(port_offset) &= ~pins; (void)GPIO(port_offset); // Commit the write. } void gpio_write(u32 port, u32 pins, int high) { const u32 port_offset = GPIO_OUT_OFFSET(port); if (high) GPIO(port_offset) |= pins; else GPIO(port_offset) &= ~pins; (void)GPIO(port_offset); // Commit the write. } void gpio_direction_input(u32 port, u32 pins) { gpio_config(port, pins, GPIO_MODE_GPIO); gpio_output_enable(port, pins, GPIO_OUTPUT_DISABLE); } void gpio_direction_output(u32 port, u32 pins, int high) { gpio_config(port, pins, GPIO_MODE_GPIO); gpio_write(port, pins, high); gpio_output_enable(port, pins, GPIO_OUTPUT_ENABLE); } int gpio_read(u32 port, u32 pins) { const u32 port_offset = GPIO_IN_OFFSET(port); return (GPIO(port_offset) & pins) ? 1 : 0; } void gpio_set_debounce(u32 port, u32 pins, u32 ms) { const u32 db_ctrl_offset = GPIO_DB_CTRL_OFFSET(port); const u32 db_cnt_offset = GPIO_DB_CNT_OFFSET(port); if (ms) { if (ms > 255) ms = 255; // Debounce time affects all pins of the same port. GPIO(db_cnt_offset) = ms; GPIO(db_ctrl_offset) = (pins << 8) | pins; } else GPIO(db_ctrl_offset) = (pins << 8) | 0; (void)GPIO(db_ctrl_offset); // Commit the write. } static void _gpio_interrupt_clear(u32 port, u32 pins) { const u32 port_offset = GPIO_INT_CLR_OFFSET(port); GPIO(port_offset) |= pins; (void)GPIO(port_offset); // Commit the write. } int gpio_interrupt_status(u32 port, u32 pins) { const u32 port_offset = GPIO_INT_STA_OFFSET(port); const u32 enabled_mask = GPIO(GPIO_INT_ENB_OFFSET(port)) & pins; int status = ((GPIO(port_offset) & pins) && enabled_mask) ? 1 : 0; // Clear the interrupt status. if (status) _gpio_interrupt_clear(port, pins); return status; } void gpio_interrupt_enable(u32 port, u32 pins, int enable) { const u32 port_offset = GPIO_INT_ENB_OFFSET(port); // Clear any possible stray interrupt. _gpio_interrupt_clear(port, pins); if (enable) GPIO(port_offset) |= pins; else GPIO(port_offset) &= ~pins; (void)GPIO(port_offset); // Commit the write. } void gpio_interrupt_level(u32 port, u32 pins, int high, int edge, int delta) { const u32 port_offset = GPIO_INT_LVL_OFFSET(port); u32 val = GPIO(port_offset); if (high) val |= pins; else val &= ~pins; if (edge) val |= pins << 8; else val &= ~(pins << 8); if (delta) val |= pins << 16; else val &= ~(pins << 16); GPIO(port_offset) = val; (void)GPIO(port_offset); // Commit the write. // Clear any possible stray interrupt. _gpio_interrupt_clear(port, pins); } u32 gpio_get_bank_irq_id(u32 port) { const u32 bank_idx = GPIO_BANK_IDX(port); return gpio_bank_irq_ids[bank_idx]; } ================================================ FILE: bdk/soc/gpio.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019-2023 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GPIO_H_ #define _GPIO_H_ #include #define GPIO_MODE_SPIO 0 #define GPIO_MODE_GPIO 1 #define GPIO_OUTPUT_DISABLE 0 #define GPIO_OUTPUT_ENABLE 1 #define GPIO_IRQ_DISABLE 0 #define GPIO_IRQ_ENABLE 1 #define GPIO_LOW 0 #define GPIO_HIGH 1 #define GPIO_FALLING 0 #define GPIO_RISING 1 #define GPIO_LEVEL 0 #define GPIO_EDGE 1 #define GPIO_CONFIGURED_EDGE 0 #define GPIO_ANY_EDGE_CHANGE 1 /*! GPIO pins (0-7 for each port). */ #define GPIO_PIN_0 BIT(0) #define GPIO_PIN_1 BIT(1) #define GPIO_PIN_2 BIT(2) #define GPIO_PIN_3 BIT(3) #define GPIO_PIN_4 BIT(4) #define GPIO_PIN_5 BIT(5) #define GPIO_PIN_6 BIT(6) #define GPIO_PIN_7 BIT(7) /*! GPIO ports (A-EE). */ #define GPIO_PORT_A 0 #define GPIO_PORT_B 1 #define GPIO_PORT_C 2 #define GPIO_PORT_D 3 #define GPIO_PORT_E 4 #define GPIO_PORT_F 5 #define GPIO_PORT_G 6 #define GPIO_PORT_H 7 #define GPIO_PORT_I 8 #define GPIO_PORT_J 9 #define GPIO_PORT_K 10 #define GPIO_PORT_L 11 #define GPIO_PORT_M 12 #define GPIO_PORT_N 13 #define GPIO_PORT_O 14 #define GPIO_PORT_P 15 #define GPIO_PORT_Q 16 #define GPIO_PORT_R 17 #define GPIO_PORT_S 18 #define GPIO_PORT_T 19 #define GPIO_PORT_U 20 #define GPIO_PORT_V 21 #define GPIO_PORT_W 22 #define GPIO_PORT_X 23 #define GPIO_PORT_Y 24 #define GPIO_PORT_Z 25 #define GPIO_PORT_AA 26 #define GPIO_PORT_BB 27 #define GPIO_PORT_CC 28 #define GPIO_PORT_DD 29 #define GPIO_PORT_EE 30 void gpio_config(u32 port, u32 pins, int mode); void gpio_output_enable(u32 port, u32 pins, int enable); void gpio_direction_input(u32 port, u32 pins); void gpio_direction_output(u32 port, u32 pins, int high); void gpio_write(u32 port, u32 pins, int high); int gpio_read(u32 port, u32 pins); void gpio_set_debounce(u32 port, u32 pins, u32 ms); int gpio_interrupt_status(u32 port, u32 pins); void gpio_interrupt_enable(u32 port, u32 pins, int enable); void gpio_interrupt_level(u32 port, u32 pins, int high, int edge, int delta); u32 gpio_get_bank_irq_id(u32 port); #endif ================================================ FILE: bdk/soc/hw_init.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include u32 hw_rst_status; u32 hw_rst_reason; u32 hw_get_chip_id() { if (((APB_MISC(APB_MISC_GP_HIDREV) >> 4) & 0xF) >= GP_HIDREV_MAJOR_T210B01) return GP_HIDREV_MAJOR_T210B01; else return GP_HIDREV_MAJOR_T210; } /* * CLK_OSC - 38.4 MHz crystal. * CLK_M - 19.2 MHz (osc/2). * CLK_S - 32.768 KHz (from PMIC). * SCLK - 204MHz init (-> 408MHz -> OC). * HCLK - 204MHz init (-> 408MHz -> OC). * PCLK - 68MHz init (-> 136MHz -> OC/4). */ static void _config_oscillators() { CLOCK(CLK_RST_CONTROLLER_SPARE_REG0) = (CLOCK(CLK_RST_CONTROLLER_SPARE_REG0) & 0xFFFFFFF3) | 4; // Set CLK_M_DIVISOR to 2. SYSCTR0(SYSCTR0_CNTFID0) = 19200000; // Set counter frequency. TMR(TIMERUS_USEC_CFG) = 0x45F; // For 19.2MHz clk_m. CLOCK(CLK_RST_CONTROLLER_OSC_CTRL) = 0x50000071; // Set OSC to 38.4MHz and drive strength. PMC(APBDEV_PMC_OSC_EDPD_OVER) = (PMC(APBDEV_PMC_OSC_EDPD_OVER) & 0xFFFFFF81) | 0xE; // Set LP0 OSC drive strength. PMC(APBDEV_PMC_OSC_EDPD_OVER) = (PMC(APBDEV_PMC_OSC_EDPD_OVER) & 0xFFBFFFFF) | PMC_OSC_EDPD_OVER_OSC_CTRL_OVER; PMC(APBDEV_PMC_CNTRL2) = (PMC(APBDEV_PMC_CNTRL2) & 0xFFFFEFFF) | PMC_CNTRL2_HOLD_CKE_LOW_EN; APB_MISC(APB_MISC_GP_ASDBGREG) = (APB_MISC(APB_MISC_GP_ASDBGREG) & 0xFCFFFFFF) | (2 << 24); // CFG2TMC_RAM_SVOP_PDP. CLOCK(CLK_RST_CONTROLLER_CLK_SYSTEM_RATE) = 0x10; // Set HCLK div to 2 and PCLK div to 1. CLOCK(CLK_RST_CONTROLLER_PLLMB_BASE) &= 0xBFFFFFFF; // PLLMB disable. PMC(APBDEV_PMC_TSC_MULT) = (PMC(APBDEV_PMC_TSC_MULT) & 0xFFFF0000) | 0x249F; // 0x249F = 19200000 * (16 / 32.768 kHz). CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_SYS) = 0; // Set BPMP/SCLK div to 1. CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) = 0x20004444; // Set BPMP/SCLK source to Run and PLLP_OUT2 (204MHz). CLOCK(CLK_RST_CONTROLLER_SUPER_SCLK_DIVIDER) = 0x80000000; // Enable SUPER_SDIV to 1. CLOCK(CLK_RST_CONTROLLER_CLK_SYSTEM_RATE) = 2; // Set HCLK div to 1 and PCLK div to 3. } void hw_config_arbiter(bool reset) { if (reset) { ARB_PRI(ARB_PRIO_CPU_PRIORITY) = 0x0040090; ARB_PRI(ARB_PRIO_COP_PRIORITY) = 0x12024C2; ARB_PRI(ARB_PRIO_VCP_PRIORITY) = 0x2201209; ARB_PRI(ARB_PRIO_DMA_PRIORITY) = 0x320365B; } else { ARB_PRI(ARB_PRIO_CPU_PRIORITY) = 0x12412D1; ARB_PRI(ARB_PRIO_COP_PRIORITY) = 0x0000000; ARB_PRI(ARB_PRIO_VCP_PRIORITY) = 0x220244A; ARB_PRI(ARB_PRIO_DMA_PRIORITY) = 0x320369B; } } // The uart is skipped for Copper, Hoag and Calcio. Used in Icosa, Iowa and Aula. static void _config_gpios(bool nx_hoag) { // Clamp inputs when tristated. APB_MISC(APB_MISC_PP_PINMUX_GLOBAL) = 0; if (!nx_hoag) { // Turn Joy-Con detect on. (GPIO mode and input logic for UARTB/C TX pins.) PINMUX_AUX(PINMUX_AUX_UART2_TX) = 0; PINMUX_AUX(PINMUX_AUX_UART3_TX) = 0; gpio_direction_input(GPIO_PORT_G, GPIO_PIN_0); gpio_direction_input(GPIO_PORT_D, GPIO_PIN_1); } // Set Joy-Con IsAttached pinmux. Shared with UARTB/UARTC TX. PINMUX_AUX(PINMUX_AUX_GPIO_PE6) = PINMUX_INPUT_ENABLE | PINMUX_TRISTATE; PINMUX_AUX(PINMUX_AUX_GPIO_PH6) = PINMUX_INPUT_ENABLE | PINMUX_TRISTATE; // Configure Joy-Con IsAttached pins. Shared with UARTB/UARTC TX. gpio_direction_input(GPIO_PORT_E, GPIO_PIN_6); gpio_direction_input(GPIO_PORT_H, GPIO_PIN_6); pinmux_config_i2c(I2C_1); pinmux_config_i2c(I2C_5); pinmux_config_uart(UART_A); // Configure volume up/down as inputs. gpio_direction_input(GPIO_PORT_X, GPIO_PIN_6 | GPIO_PIN_7); // Configure HOME as input. (Shared with UARTB RTS). PINMUX_AUX(PINMUX_AUX_BUTTON_HOME) = PINMUX_INPUT_ENABLE | PINMUX_TRISTATE; gpio_direction_input(GPIO_PORT_Y, GPIO_PIN_1); // Power button can be configured for hoag here. Only SKU where it's connected. } static void _config_pmc_scratch() { PMC(APBDEV_PMC_SCRATCH20) &= 0xFFF3FFFF; // Unset Debug console from Customer Option. PMC(APBDEV_PMC_SCRATCH190) &= 0xFFFFFFFE; // Unset WDT_DURING_BR. PMC(APBDEV_PMC_SECURE_SCRATCH21) |= PMC_FUSE_PRIVATEKEYDISABLE_TZ_STICKY_BIT; } static void _mbist_workaround_bl() { /* * DFT MBIST HW Errata for T210. * RAM Data corruption observed when MBIST_EN from DFT (Tegra X1 Si Errata) * * The MBIST_EN signals from the DFT logic can impact the functional logic of * internal rams after power-on since they are driven by non-resetable flops. * That can be worked around by enabling and then disabling the related clocks. * * The bootrom patches, already handle the LVL2 SLCG war by enabling all clocks * and all LVL2 CLK overrides (power saving disable). * The Bootloader then handles the IP block SLCG part and also restores the * state for the clocks/lvl2 slcg. * After these, per domain MBIST WAR is needed every time a domain gets * unpowergated if it was previously powergated. * * Affected power domains: all except IRAM and CCPLEX. */ // Set mux output to SOR1 clock switch (for VI). CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_SOR1) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_SOR1) & ~BIT(14)) | BIT(15); // Enable PLLD and set csi to PLLD for test pattern generation (for VI). CLOCK(CLK_RST_CONTROLLER_PLLD_BASE) |= PLL_BASE_ENABLE | BIT(23); // Make sure Audio clocks are enabled before accessing I2S. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_V_SET) = BIT(CLK_V_AHUB); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_Y_SET) = BIT(CLK_Y_APE); // Clear per-clock resets for APE/VIC/HOST1X/DISP1. CLOCK(CLK_RST_CONTROLLER_RST_DEV_Y_CLR) = BIT(CLK_Y_APE); CLOCK(CLK_RST_CONTROLLER_RST_DEV_X_CLR) = BIT(CLK_X_VIC); CLOCK(CLK_RST_CONTROLLER_RST_DEV_L_CLR) = BIT(CLK_L_HOST1X) | BIT(CLK_L_DISP1); usleep(2); // Set I2S to master to enable clocks and set SLCG overrides. for (u32 i2s_idx = 0; i2s_idx < 5; i2s_idx++) { I2S(I2S_CTRL + (i2s_idx << 8u)) |= I2S_CTRL_MASTER_EN; I2S(I2S_CG + (i2s_idx << 8u)) = I2S_CG_SLCG_DISABLE; } // Set SLCG overrides for DISPA and VIC. DISPLAY_A(DC_COM_DSC_TOP_CTL) |= BIT(2); // DSC_SLCG_OVERRIDE. VIC(VIC_THI_SLCG_OVERRIDE_LOW_A) = 0xFFFFFFFF; // Wait a bit for MBIST_EN to get unstuck (1 cycle min). usleep(2); // Reset SLCG to automatic mode. // for (u32 i2s_idx = 0; i2s_idx < 5; i2s_idx++) // I2S(I2S_CG + (i2s_idx << 8u)) = I2S_CG_SLCG_ENABLE; // DISPLAY_A(DC_COM_DSC_TOP_CTL) &= ~BIT(2); // DSC_SLCG_OVERRIDE. // VIC(VIC_THI_SLCG_OVERRIDE_LOW_A) = 0; // Set per-clock reset for APE/VIC/HOST1X/DISP1. CLOCK(CLK_RST_CONTROLLER_RST_DEV_Y_SET) = BIT(CLK_Y_APE); CLOCK(CLK_RST_CONTROLLER_RST_DEV_L_SET) = BIT(CLK_L_HOST1X) | BIT(CLK_L_DISP1); CLOCK(CLK_RST_CONTROLLER_RST_DEV_X_SET) = BIT(CLK_X_VIC); // Disable all unneeded clocks that were enabled in bootrom. // CLK L Devices. CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_H) = BIT(CLK_H_PMC) | BIT(CLK_H_FUSE); // CLK H Devices. CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_L) = BIT(CLK_L_RTC) | BIT(CLK_L_TMR) | BIT(CLK_L_GPIO) | BIT(CLK_L_BPMP_CACHE_CTRL); // CLK U Devices. CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_U) = BIT(CLK_U_CSITE) | BIT(CLK_U_IRAMA) | BIT(CLK_U_IRAMB) | BIT(CLK_U_IRAMC) | BIT(CLK_U_IRAMD) | BIT(CLK_U_BPMP_CACHE_RAM); // CLK V Devices. CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_V) = BIT(CLK_V_MSELECT) | BIT(CLK_V_APB2APE) | BIT(CLK_V_SPDIF_DOUBLER) | BIT(CLK_V_SE); // CLK W Devices. CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_W) = BIT(CLK_W_PCIERX0) | BIT(CLK_W_PCIERX1) | BIT(CLK_W_PCIERX2) | BIT(CLK_W_PCIERX3) | BIT(CLK_W_PCIERX4) | BIT(CLK_W_PCIERX5) | BIT(CLK_W_ENTROPY) | BIT(CLK_W_MC1); // CLK X Devices. CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_X) = BIT(CLK_X_MC_CAPA) | BIT(CLK_X_MC_CBPA) | BIT(CLK_X_MC_CPU) | BIT(CLK_X_MC_BBC) | BIT(CLK_X_GPU) | BIT(CLK_X_DBGAPB) | BIT(CLK_X_PLLG_REF); // CLK Y Devices. CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_Y) = BIT(CLK_Y_MC_CDPA) | BIT(CLK_Y_MC_CCPA); // Reset clock gate overrides to automatic mode. CLOCK(CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRA) = 0; CLOCK(CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRB) = 0; CLOCK(CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRC) = 0; CLOCK(CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRD) = 0; CLOCK(CLK_RST_CONTROLLER_LVL2_CLK_GATE_OVRE) = 0; // Set child clock sources. CLOCK(CLK_RST_CONTROLLER_PLLD_BASE) &= 0x1F7FFFFF; // Disable PLLD and set reference clock and csi clock. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_SOR1) &= ~(BIT(15) | BIT(14)); // Set SOR1 to automatic muxing of safe clock (24MHz) or SOR1 clk switch. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_VI) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_VI) & 0x1FFFFFFF) | (4 << 29u); // Set clock source to PLLP_OUT. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_HOST1X) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_HOST1X) & 0x1FFFFFFF) | (4 << 29u); // Set clock source to PLLP_OUT. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_NVENC) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_NVENC) & 0x1FFFFFFF) | (4 << 29u); // Set clock source to PLLP_OUT. } static void _config_se_brom() { // Enable Fuse visibility. clock_enable_fuse(true); // Try to set SBK from fuses. If patched, skip. fuse_set_sbk(); // Make SBK unreadable. //FUSE(FUSE_PRIVATEKEYDISABLE) = FUSE_PRIVKEY_TZ_STICKY_BIT | FUSE_PRIVKEY_DISABLE; // Lock SSK (although it's not set and unused anyways). // se_key_acc_ctrl(15, SE_KEY_TBL_DIS_KEYREAD_FLAG); // This memset needs to happen here, else TZRAM will behave weirdly later on. memset((void *)TZRAM_BASE, 0, TZRAM_SIZE); PMC(APBDEV_PMC_CRYPTO_OP) = PMC_CRYPTO_OP_SE_ENABLE; // Clear SE interrupts. SE(SE_INT_STATUS_REG) = SE_INT_OP_DONE | SE_INT_OUT_DONE | SE_INT_OUT_LL_BUF_WR | SE_INT_IN_DONE | SE_INT_IN_LL_BUF_RD; // Save reset reason. hw_rst_status = PMC(APBDEV_PMC_SCRATCH200); hw_rst_reason = PMC(APBDEV_PMC_RST_STATUS) & PMC_RST_STATUS_MASK; // Clear the boot reason to avoid problems later. PMC(APBDEV_PMC_SCRATCH200) = 0; PMC(APBDEV_PMC_RST_STATUS) = PMC_RST_STATUS_POR; APB_MISC(APB_MISC_PP_STRAPPING_OPT_A) = (APB_MISC(APB_MISC_PP_STRAPPING_OPT_A) & 0xF0) | (7 << 10); } static void _config_regulators(bool tegra_t210, bool nx_hoag) { // Set RTC/AO domain to POR voltage. if (tegra_t210) max7762x_regulator_set_voltage(REGULATOR_LDO4, 1000000); // Disable low battery shutdown monitor. max77620_low_battery_monitor_config(false); // Power on all relevant rails in case we came out of warmboot. Only keep MEM/MEM_COMP and SDMMC1 states. PMC(APBDEV_PMC_NO_IOPOWER) &= PMC_NO_IOPOWER_MEM_COMP | PMC_NO_IOPOWER_SDMMC1 | PMC_NO_IOPOWER_MEM; // Make sure SDMMC1 IO/Core are powered off. max7762x_regulator_enable(REGULATOR_LDO2, false); gpio_write(GPIO_PORT_E, GPIO_PIN_4, GPIO_LOW); PMC(APBDEV_PMC_NO_IOPOWER) |= PMC_NO_IOPOWER_SDMMC1; (void)PMC(APBDEV_PMC_NO_IOPOWER); sd_power_cycle_time_start = get_tmr_ms(); // Disable backup battery charger. i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_CNFGBBC, MAX77620_CNFGBBC_RESISTOR_1K); // Set PWR delay for forced shutdown off to 6s. i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG1, MAX77620_ONOFFCNFG1_RSVD | (3 << MAX77620_ONOFFCNFG1_MRT_SHIFT)); if (tegra_t210) { // Configure all Flexible Power Sequencers for MAX77620. i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_FPS_CFG0, (7 << MAX77620_FPS_TIME_PERIOD_SHIFT) | (0 << MAX77620_FPS_EN_SRC_SHIFT)); i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_FPS_CFG1, (7 << MAX77620_FPS_TIME_PERIOD_SHIFT) | (1 << MAX77620_FPS_EN_SRC_SHIFT)); i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_FPS_CFG2, (7 << MAX77620_FPS_TIME_PERIOD_SHIFT)); max77620_regulator_config_fps(REGULATOR_LDO4); max77620_regulator_config_fps(REGULATOR_LDO8); max77620_regulator_config_fps(REGULATOR_SD0); max77620_regulator_config_fps(REGULATOR_SD1); max77620_regulator_config_fps(REGULATOR_SD3); // Set GPIO3 to FPS0 for SYS 3V3 EN. Enabled when FPS0 is enabled. i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_FPS_GPIO3, (4 << MAX77620_FPS_PU_PERIOD_SHIFT) | (2 << MAX77620_FPS_PD_PERIOD_SHIFT)); // Set vdd_core voltage to 1.125V. max7762x_regulator_set_voltage(REGULATOR_SD0, 1125000); // Power down CPU/GPU regulators after L4T warmboot. max77620_config_gpio(5, MAX77620_GPIO_OUTPUT_DISABLE); max77620_config_gpio(6, MAX77620_GPIO_OUTPUT_DISABLE); // Set POR configuration. max77621_config_default(REGULATOR_CPU0, MAX77621_CTRL_POR_CFG); max77621_config_default(REGULATOR_GPU0, MAX77621_CTRL_POR_CFG); } else { // Tegra X1+ set vdd_core voltage to 1.05V. max7762x_regulator_set_voltage(REGULATOR_SD0, 1050000); // Power on SD2 regulator for supplying LDO0/1/8. max7762x_regulator_set_voltage(REGULATOR_SD2, 1325000); // Set slew rate and enable SD2 regulator. i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_SD2_CFG, (1 << MAX77620_SD_SR_SHIFT) | (MAX77620_POWER_MODE_NORMAL << MAX77620_SD_POWER_MODE_SHIFT) | MAX77620_SD_CFG1_FSRADE_SD_ENABLE); // Enable LDO8 on HOAG as it also powers I2C1 IO pads. if (nx_hoag) { max7762x_regulator_set_voltage(REGULATOR_LDO8, 2800000); max7762x_regulator_enable(REGULATOR_LDO8, true); } } } void hw_init() { // Get Chip ID and SKU. bool tegra_t210 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210; bool nx_hoag = fuse_read_hw_type() == FUSE_NX_HW_TYPE_HOAG; // Bootrom stuff we might skipped by going through rcm. _config_se_brom(); // Unset APB2JTAG_OVERRIDE_EN and OBS_OVERRIDE_EN. SYSREG(AHB_AHB_SPARE_REG) &= 0xFFFFFF9F; PMC(APBDEV_PMC_SCRATCH49) &= 0xFFFFFFFC; // Perform the bootloader part of the Memory Built-In Self Test WAR if T210. if (tegra_t210) _mbist_workaround_bl(); // Make sure PLLP_OUT3/4 is set to 408 MHz and enabled. CLOCK(CLK_RST_CONTROLLER_PLLP_OUTB) = 0x30003; // Enable Security Engine clock. clock_enable_se(); // Enable Fuse visibility. clock_enable_fuse(true); // Disable Fuse programming. fuse_disable_program(); // Enable clocks to Memory controllers and disable AHB redirect. mc_enable(); // Initialize counters, CLKM, BPMP and other clocks based on 38.4MHz oscillator. _config_oscillators(); // Initialize pin configuration. _config_gpios(nx_hoag); // Enable CL-DVFS clock unconditionally to avoid issues with I2C5 sharing. clock_enable_cl_dvfs(); // Enable clocks to I2C1 and I2CPWR. clock_enable_i2c(I2C_1); clock_enable_i2c(I2C_5); // Enable clock to TZRAM. clock_enable_tzram(); // Initialize I2C5, mandatory for PMIC. i2c_init(I2C_5); // Initialize various regulators based on Erista/Mariko platform. _config_regulators(tegra_t210, nx_hoag); // Initialize I2C1 for various power related devices. i2c_init(I2C_1); _config_pmc_scratch(); // Missing from 4.x+ // Set BPMP/SCLK to PLLP_OUT (408MHz). CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) = 0x20003333; // Disable T210B01 TZRAM power-gating and lock the reg. if (!tegra_t210) { // This is not actually needed since it's done by bootrom. The read locks are extra. PMC(APBDEV_PMC_TZRAM_PWR_CNTRL_B01) &= ~PMC_TZRAM_PWR_CNTRL_SD; PMC(APBDEV_PMC_TZRAM_NON_SEC_DISABLE_B01) = PMC_TZRAM_DISABLE_REG_WRITE | PMC_TZRAM_DISABLE_REG_READ; PMC(APBDEV_PMC_TZRAM_SEC_DISABLE_B01) = PMC_TZRAM_DISABLE_REG_WRITE | PMC_TZRAM_DISABLE_REG_READ; } // Set arbiter. hw_config_arbiter(false); // Initialize External memory controller and configure DRAM parameters. sdram_init(); bpmp_mmu_enable(); // Enable HOST1X used by every display module (DC, VIC, NVDEC, NVENC, TSEC, etc). clock_enable_host1x(); #ifdef DEBUG_UART_PORT // Setup debug uart port. #if (DEBUG_UART_PORT == UART_B) gpio_config(GPIO_PORT_G, GPIO_PIN_0, GPIO_MODE_SPIO); #elif (DEBUG_UART_PORT == UART_C) gpio_config(GPIO_PORT_D, GPIO_PIN_1, GPIO_MODE_SPIO); #endif pinmux_config_uart(DEBUG_UART_PORT); clock_enable_uart(DEBUG_UART_PORT); uart_init(DEBUG_UART_PORT, DEBUG_UART_BAUDRATE, UART_AO_TX_AO_RX); uart_invert(DEBUG_UART_PORT, DEBUG_UART_INVERT, UART_INVERT_TXD); #endif } void hw_deinit(bool keep_display) { // Seamless display or display power off. if (!keep_display) { display_end(); clock_disable_host1x(); } // Scale down BPMP clock. bpmp_clk_rate_set(BPMP_CLK_NORMAL); #ifdef BDK_HW_EXTRA_DEINIT // Disable temperature sensor, touchscreen, 5V regulators, Joy-Con and VIC. vic_end(); tmp451_end(); fan_set_duty(0); touch_power_off(); jc_deinit(); regulator_5v_disable(REGULATOR_5V_ALL); #endif // Set DRAM clock to 204MHz. minerva_deinit(); // Flush/disable MMU cache. bpmp_mmu_disable(); // Reset arbiter. hw_config_arbiter(true); // Re-enable clocks to Audio Processing Engine as a workaround to rerunning mbist war. if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210) { CLOCK(CLK_RST_CONTROLLER_CLK_ENB_V_SET) = BIT(CLK_V_AHUB); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_Y_SET) = BIT(CLK_Y_APE); } } ================================================ FILE: bdk/soc/hw_init.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _HW_INIT_H_ #define _HW_INIT_H_ #include extern u32 hw_rst_status; extern u32 hw_rst_reason; void hw_init(); void hw_deinit(bool keep_display); void hw_config_arbiter(bool reset); u32 hw_get_chip_id(); #endif ================================================ FILE: bdk/soc/i2c.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #define I2C_PACKET_PROT_I2C BIT(4) #define I2C_HEADER_CONT_XFER BIT(15) #define I2C_HEADER_REP_START BIT(16) #define I2C_HEADER_IE_ENABLE BIT(17) #define I2C_HEADER_READ BIT(19) #define I2C_CNFG (0x00 / 4) #define CMD1_WRITE (0 << 6) #define CMD1_READ BIT(6) #define NORMAL_MODE_GO BIT(9) #define PACKET_MODE_GO BIT(10) #define NEW_MASTER_FSM BIT(11) #define DEBOUNCE_CNT_4T (2 << 12) #define I2C_CMD_ADDR0 (0x04 / 4) #define ADDR0_WRITE 0 #define ADDR0_READ 1 #define I2C_CMD_DATA1 (0x0C / 4) #define I2C_CMD_DATA2 (0x10 / 4) #define I2C_STATUS (0x1C / 4) #define I2C_STATUS_NOACK (0xF << 0) #define I2C_STATUS_BUSY BIT(8) #define I2C_TX_FIFO (0x50 / 4) #define I2C_RX_FIFO (0x54 / 4) #define I2C_PACKET_TRANSFER_STATUS (0x58 / 4) #define PKT_TRANSFER_COMPLETE BIT(24) #define I2C_FIFO_CONTROL (0x5C / 4) #define RX_FIFO_FLUSH BIT(0) #define TX_FIFO_FLUSH BIT(1) #define I2C_FIFO_STATUS (0x60 / 4) #define RX_FIFO_FULL_CNT (0xF << 0) #define TX_FIFO_EMPTY_CNT (0xF << 4) #define I2C_INT_EN (0x64 / 4) #define I2C_INT_STATUS (0x68 / 4) #define I2C_INT_SOURCE (0x70 / 4) #define RX_FIFO_DATA_REQ BIT(0) #define TX_FIFO_DATA_REQ BIT(1) #define ARB_LOST BIT(2) #define NO_ACK BIT(3) #define RX_FIFO_UNDER BIT(4) #define TX_FIFO_OVER BIT(5) #define ALL_PACKETS_COMPLETE BIT(6) #define PACKET_COMPLETE BIT(7) #define BUS_CLEAR_DONE BIT(11) #define I2C_CLK_DIVISOR (0x6C / 4) #define I2C_BUS_CLEAR_CONFIG (0x84 / 4) #define BC_ENABLE BIT(0) #define BC_TERMINATE BIT(1) #define I2C_BUS_CLEAR_STATUS (0x88 / 4) #define I2C_CONFIG_LOAD (0x8C / 4) #define MSTR_CONFIG_LOAD BIT(0) #define TIMEOUT_CONFIG_LOAD BIT(2) /* I2C_1, 2, 3, 4, 5 and 6. */ static const u16 _i2c_base_offsets[6] = { 0x0, 0x400, 0x500, 0x700, 0x1000, 0x1100 }; static void _i2c_load_cfg_wait(vu32 *base) { base[I2C_CONFIG_LOAD] = BIT(5) | TIMEOUT_CONFIG_LOAD | MSTR_CONFIG_LOAD; for (u32 i = 0; i < 20; i++) { if (!(base[I2C_CONFIG_LOAD] & MSTR_CONFIG_LOAD)) break; usleep(1); } } static int _i2c_send_normal(u32 i2c_idx, u32 dev_addr, const u8 *buf, u32 size) { if (size > 8) return 1; u32 tmp = 0; vu32 *base = (vu32 *)(I2C_BASE + (u32)_i2c_base_offsets[i2c_idx]); // Set device address and send mode. base[I2C_CMD_ADDR0] = dev_addr << 1 | ADDR0_WRITE; if (size > 4) { memcpy(&tmp, buf, 4); base[I2C_CMD_DATA1] = tmp; //Set value. tmp = 0; memcpy(&tmp, buf + 4, size - 4); base[I2C_CMD_DATA2] = tmp; } else { memcpy(&tmp, buf, size); base[I2C_CMD_DATA1] = tmp; //Set value. } // Set size and send mode. base[I2C_CNFG] = ((size - 1) << 1) | DEBOUNCE_CNT_4T | NEW_MASTER_FSM | CMD1_WRITE; // Load configuration. _i2c_load_cfg_wait(base); // Initiate transaction on normal mode. base[I2C_CNFG] = (base[I2C_CNFG] & ~NORMAL_MODE_GO) | NORMAL_MODE_GO; u32 timeout = get_tmr_ms() + 100; // Actual for max 8 bytes at 100KHz is 0.74ms. while (base[I2C_STATUS] & I2C_STATUS_BUSY) { if (get_tmr_ms() > timeout) return 1; } if (base[I2C_STATUS] & I2C_STATUS_NOACK) return 1; return 0; } static int _i2c_recv_normal(u32 i2c_idx, u8 *buf, u32 size, u32 dev_addr) { if (size > 8) return 1; vu32 *base = (vu32 *)(I2C_BASE + (u32)_i2c_base_offsets[i2c_idx]); // Set device address and recv mode. base[I2C_CMD_ADDR0] = (dev_addr << 1) | ADDR0_READ; // Set size and recv mode. base[I2C_CNFG] = ((size - 1) << 1) | DEBOUNCE_CNT_4T | NEW_MASTER_FSM | CMD1_READ; // Load configuration. _i2c_load_cfg_wait(base); // Initiate transaction on normal mode. base[I2C_CNFG] = (base[I2C_CNFG] & ~NORMAL_MODE_GO) | NORMAL_MODE_GO; u32 timeout = get_tmr_ms() + 100; // Actual for max 8 bytes at 100KHz is 0.74ms. while (base[I2C_STATUS] & I2C_STATUS_BUSY) { if (get_tmr_ms() > timeout) return 1; } if (base[I2C_STATUS] & I2C_STATUS_NOACK) return 1; u32 tmp = base[I2C_CMD_DATA1]; // Get LS value. if (size > 4) { memcpy(buf, &tmp, 4); tmp = base[I2C_CMD_DATA2]; // Get MS value. memcpy(buf + 4, &tmp, size - 4); } else memcpy(buf, &tmp, size); return 0; } static int _i2c_send_packet(u32 i2c_idx, const u8 *buf, u32 size, u32 dev_addr) { if (size > 32) return 1; int res = 0; vu32 *base = (vu32 *)(I2C_BASE + (u32)_i2c_base_offsets[i2c_idx]); // Set device address and send mode. base[I2C_CMD_ADDR0] = (dev_addr << 1) | ADDR0_WRITE; // Set recv mode. base[I2C_CNFG] = DEBOUNCE_CNT_4T | NEW_MASTER_FSM | CMD1_WRITE; // Set and flush FIFO. base[I2C_FIFO_CONTROL] = RX_FIFO_FLUSH | TX_FIFO_FLUSH; // Load configuration. _i2c_load_cfg_wait(base); // Initiate transaction on packet mode. base[I2C_CNFG] = (base[I2C_CNFG] & ~NORMAL_MODE_GO) | PACKET_MODE_GO; // Send header with request. base[I2C_TX_FIFO] = I2C_PACKET_PROT_I2C; base[I2C_TX_FIFO] = size - 1; base[I2C_TX_FIFO] = I2C_HEADER_IE_ENABLE | I2C_HEADER_CONT_XFER | (dev_addr << 1); // Send data. u32 rem = size; while (rem) { u32 len = MIN(rem, sizeof(u32)); u32 word = 0; memcpy(&word, buf, len); base[I2C_TX_FIFO] = word; buf += len; rem -= len; } u32 timeout = get_tmr_ms() + 200; while (((base[I2C_PACKET_TRANSFER_STATUS] >> 4) & 0xFFF) != (size - 1)) { if (get_tmr_ms() > timeout) { res = 1; break; } } // Check if no reply. if (base[I2C_STATUS] & I2C_STATUS_NOACK) res = 1; // Wait for STOP and disable packet mode. usleep(20); base[I2C_CNFG] &= ~(PACKET_MODE_GO | NORMAL_MODE_GO); return res; } int i2c_xfer_packet(u32 i2c_idx, u32 dev_addr, const u8 *tx_buf, u32 tx_size, u8 *rx_buf, u32 rx_size) { // Max 32 bytes TX/RX fifo. if (tx_size > 20 || rx_size > 32) // Header included. return 1; int res = 0; vu32 *base = (vu32 *)(I2C_BASE + (u32)_i2c_base_offsets[i2c_idx]); // Set device address and recv mode. base[I2C_CMD_ADDR0] = (dev_addr << 1) | ADDR0_READ; // Set recv mode. base[I2C_CNFG] = DEBOUNCE_CNT_4T | NEW_MASTER_FSM | CMD1_READ; // Set and flush FIFO. base[I2C_FIFO_CONTROL] = RX_FIFO_FLUSH | TX_FIFO_FLUSH; // Load configuration. _i2c_load_cfg_wait(base); // Initiate transaction on packet mode. base[I2C_CNFG] = (base[I2C_CNFG] & ~NORMAL_MODE_GO) | PACKET_MODE_GO; // Send header with send request. base[I2C_TX_FIFO] = I2C_PACKET_PROT_I2C; base[I2C_TX_FIFO] = tx_size - 1; base[I2C_TX_FIFO] = I2C_HEADER_REP_START | (dev_addr << 1); // Send data. u32 tx_rem = tx_size; while (tx_rem) { u32 len = MIN(tx_rem, sizeof(u32)); u32 word = 0; memcpy(&word, tx_buf, len); base[I2C_TX_FIFO] = word; tx_buf += len; tx_rem -= len; } u32 timeout = get_tmr_ms() + 200; while (((base[I2C_PACKET_TRANSFER_STATUS] >> 4) & 0xFFF) != (tx_size - 1)) { if (get_tmr_ms() > timeout) { res = 1; goto out; } } // Send header with receive request base[I2C_TX_FIFO] = I2C_PACKET_PROT_I2C; base[I2C_TX_FIFO] = rx_size - 1; base[I2C_TX_FIFO] = I2C_HEADER_READ | (dev_addr << 1); // Receive data. timeout = get_tmr_ms() + 200; while (rx_size) { if (base[I2C_FIFO_STATUS] & RX_FIFO_FULL_CNT) { u32 len = MIN(rx_size, sizeof(u32)); u32 word = base[I2C_RX_FIFO]; memcpy(rx_buf, &word, len); rx_buf += len; rx_size -= len; } if (get_tmr_ms() > timeout) { res = 1; break; } } out: // Check if no reply. if (base[I2C_STATUS] & I2C_STATUS_NOACK) res = 1; // Wait for STOP and disable packet mode. usleep(20); base[I2C_CNFG] &= ~(PACKET_MODE_GO | NORMAL_MODE_GO); return res; } void i2c_init(u32 i2c_idx) { vu32 *base = (vu32 *)(I2C_BASE + (u32)_i2c_base_offsets[i2c_idx]); base[I2C_CLK_DIVISOR] = (5 << 16) | 1; // SF mode Div: 6, HS mode div: 2. base[I2C_BUS_CLEAR_CONFIG] = (9 << 16) | BC_TERMINATE | BC_ENABLE; // Load configuration. _i2c_load_cfg_wait(base); for (u32 i = 0; i < 10; i++) { if (base[I2C_INT_STATUS] & BUS_CLEAR_DONE) break; usleep(25); } (vu32)base[I2C_BUS_CLEAR_STATUS]; base[I2C_INT_STATUS] = base[I2C_INT_STATUS]; } int i2c_send_buf_big(u32 i2c_idx, u32 dev_addr, const u8 *buf, u32 size) { return _i2c_send_packet(i2c_idx, buf, size, dev_addr); } int i2c_recv_buf_big(u8 *buf, u32 size, u32 i2c_idx, u32 dev_addr, u32 reg) { return i2c_xfer_packet(i2c_idx, dev_addr, (u8 *)®, 1, buf, size); } int i2c_send_buf_small(u32 i2c_idx, u32 dev_addr, u32 reg, const u8 *buf, u32 size) { if (size > 7) return 1; u8 tmp[8]; tmp[0] = reg; memcpy(tmp + 1, buf, size); return _i2c_send_normal(i2c_idx, dev_addr, tmp, size + 1); } int i2c_recv_buf_small(u8 *buf, u32 size, u32 i2c_idx, u32 dev_addr, u32 reg) { int res = _i2c_send_normal(i2c_idx, dev_addr, (u8 *)®, 1); if (!res) res = _i2c_recv_normal(i2c_idx, buf, size, dev_addr); return res; } int i2c_send_byte(u32 i2c_idx, u32 dev_addr, u32 reg, u8 val) { return i2c_send_buf_small(i2c_idx, dev_addr, reg, &val, 1); } u8 i2c_recv_byte(u32 i2c_idx, u32 dev_addr, u32 reg) { u8 tmp = 0; i2c_recv_buf_small(&tmp, 1, i2c_idx, dev_addr, reg); return tmp; } ================================================ FILE: bdk/soc/i2c.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2020-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _I2C_H_ #define _I2C_H_ #include #define I2C_1 0 #define I2C_2 1 #define I2C_3 2 #define I2C_4 3 #define I2C_5 4 #define I2C_6 5 void i2c_init(u32 i2c_idx); int i2c_xfer_packet(u32 i2c_idx, u32 dev_addr, const u8 *tx_buf, u32 tx_size, u8 *rx_buf, u32 rx_size); int i2c_send_buf_big(u32 i2c_idx, u32 dev_addr, const u8 *buf, u32 size); int i2c_recv_buf_big(u8 *buf, u32 size, u32 i2c_idx, u32 dev_addr, u32 reg); int i2c_send_buf_small(u32 i2c_idx, u32 dev_addr, u32 reg, const u8 *buf, u32 size); int i2c_recv_buf_small(u8 *buf, u32 size, u32 i2c_idx, u32 dev_addr, u32 reg); int i2c_send_byte(u32 i2c_idx, u32 dev_addr, u32 reg, u8 val); u8 i2c_recv_byte(u32 i2c_idx, u32 dev_addr, u32 reg); #endif ================================================ FILE: bdk/soc/irq.c ================================================ /* * BPMP-Lite IRQ driver for Tegra X1 * * Copyright (c) 2019-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "irq.h" #include #include #include #include //#define DPRINTF(...) gfx_printf(__VA_ARGS__) #define DPRINTF(...) extern void excp_reset(); extern void irq_disable(); extern void irq_enable_cpu_irq_exceptions(); extern void irq_disable_cpu_irq_exceptions(); typedef struct _irq_ctxt_t { u32 irq; int (*handler)(u32 irq, void *data); void *data; u32 flags; } irq_ctxt_t; bool irq_init_done = false; irq_ctxt_t irqs[IRQ_MAX_HANDLERS]; static void _irq_enable_source(u32 irq) { u32 ctrl_idx = irq >> 5; u32 bit = irq % 32; // Set as normal IRQ. ICTLR(ctrl_idx, PRI_ICTLR_COP_IEP_CLASS) &= ~BIT(bit); // Enable IRQ source. ICTLR(ctrl_idx, PRI_ICTLR_COP_IER_SET) = BIT(bit); } static void _irq_disable_source(u32 irq) { u32 ctrl_idx = irq >> 5; u32 bit = irq % 32; // Disable IRQ source. ICTLR(ctrl_idx, PRI_ICTLR_COP_IER_CLR) = BIT(bit); } static void _irq_disable_and_ack_all() { // Disable and ack all IRQ sources. for (u32 ctrl_idx = 0; ctrl_idx < 6; ctrl_idx++) { u32 enabled_irqs = ICTLR(ctrl_idx, PRI_ICTLR_COP_IER); ICTLR(ctrl_idx, PRI_ICTLR_COP_IER_CLR) = enabled_irqs; } } void irq_free(u32 irq) { for (u32 idx = 0; idx < IRQ_MAX_HANDLERS; idx++) { if (irqs[idx].irq == irq && irqs[idx].handler) { irqs[idx].irq = 0; irqs[idx].handler = NULL; irqs[idx].data = NULL; irqs[idx].flags = 0; _irq_disable_source(irq); } } } static void _irq_free_all() { for (u32 idx = 0; idx < IRQ_MAX_HANDLERS; idx++) { if (irqs[idx].handler) { _irq_disable_source(irqs[idx].irq); irqs[idx].irq = 0; irqs[idx].handler = NULL; irqs[idx].data = NULL; irqs[idx].flags = 0; } } } static irq_status_t _irq_handle_source(u32 irq) { int status = IRQ_NONE; _irq_disable_source(irq); u32 idx; for (idx = 0; idx < IRQ_MAX_HANDLERS; idx++) { if (irqs[idx].irq == irq) { status = irqs[idx].handler(irqs[idx].irq, irqs[idx].data); if (status == IRQ_HANDLED) break; } } // Do not re-enable if not handled or error. if (status != IRQ_HANDLED) return status; if (irqs[idx].flags & IRQ_FLAG_ONE_OFF) irq_free(irq); else _irq_enable_source(irq); return status; } void irq_handler() { // Get IRQ source. u32 irq = EXCP_VEC(EVP_COP_IRQ_STS) & 0xFF; if (!irq_init_done) { _irq_disable_source(irq); return; } DPRINTF("IRQ: %d\n", irq); int err = _irq_handle_source(irq); if (err == IRQ_NONE) { DPRINTF("Unhandled IRQ got disabled: %d!\n", irq); } } static void _irq_init() { _irq_disable_and_ack_all(); memset(irqs, 0, sizeof(irq_ctxt_t) * IRQ_MAX_HANDLERS); irq_init_done = true; } void irq_end() { if (!irq_init_done) return; _irq_free_all(); irq_disable_cpu_irq_exceptions(); irq_init_done = false; } void irq_wait_event(u32 irq) { irq_disable_cpu_irq_exceptions(); _irq_enable_source(irq); // Halt BPMP and wait for the IRQ. No need to use WAIT_EVENT + LIC_IRQ when BPMP serves the IRQ. FLOW_CTLR(FLOW_CTLR_HALT_COP_EVENTS) = HALT_MODE_STOP_UNTIL_IRQ; _irq_disable_source(irq); irq_enable_cpu_irq_exceptions(); } void irq_disable_wait_event() { irq_enable_cpu_irq_exceptions(); } irq_status_t irq_request(u32 irq, irq_handler_t handler, void *data, irq_flags_t flags) { if (!irq_init_done) _irq_init(); for (u32 idx = 0; idx < IRQ_MAX_HANDLERS; idx++) { if (irqs[idx].handler == NULL || (irqs[idx].irq == irq && irqs[idx].flags & IRQ_FLAG_REPLACEABLE)) { DPRINTF("Registered handler, IRQ: %d, Slot: %d\n", irq, idx); DPRINTF("Handler: %08p, Flags: %x\n", (u32)handler, flags); irqs[idx].irq = irq; irqs[idx].handler = handler; irqs[idx].data = data; irqs[idx].flags = flags; _irq_enable_source(irq); return IRQ_ENABLED; } else if (irqs[idx].irq == irq) return IRQ_ALREADY_REGISTERED; } return IRQ_NO_SLOTS_AVAILABLE; } void __attribute__ ((target("arm"))) fiq_setup() { /* asm volatile("mrs r12, cpsr\n\t" "bic r12, r12, #0x1F\n\t" "orr r12, r12, #0x11\n\t" "msr cpsr_c, r12\n\t"); register volatile char *text asm ("r8"); register volatile char *uart_tx asm ("r9"); register int len asm ("r10"); len = 5; uart_tx = (char *)0x70006040; memcpy((char *)text, "FIQ\r\n", len); *uart_tx = 0; asm volatile("mrs r12, cpsr\n" "orr r12, r12, #0x1F\n" "msr cpsr_c, r12"); */ } void __attribute__ ((target("arm"), interrupt ("FIQ"))) fiq_handler() { /* register volatile char *text asm ("r8"); register volatile char *uart_tx asm ("r9"); register int len asm ("r10"); while (len) { *uart_tx = *text++; len--; } */ #ifdef BDK_WATCHDOG_FIQ_ENABLE // Set watchdog timeout status and disable WDT and its FIQ signal. watchdog_handle(); #ifdef BDK_RESTART_BL_ON_WDT // Restart bootloader. excp_reset(); #endif #endif } ================================================ FILE: bdk/soc/irq.h ================================================ /* * BPMP-Lite IRQ driver for Tegra X1 * * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef IRQ_H #define IRQ_H #include #define IRQ_MAX_HANDLERS 16 /* Primary interrupt controller ids */ #define IRQ_TMR1 0 #define IRQ_TMR2 1 #define IRQ_RTC 2 #define IRQ_CEC 3 #define IRQ_SHR_SEM_INBOX_FULL 4 #define IRQ_SHR_SEM_INBOX_EMPTY 5 #define IRQ_SHR_SEM_OUTBOX_FULL 6 #define IRQ_SHR_SEM_OUTBOX_EMPTY 7 #define IRQ_NVJPEG 8 #define IRQ_NVDEC 9 #define IRQ_QUAD_SPI 10 #define IRQ_DPAUX_INT1 11 #define IRQ_SATA_RX_STAT 13 #define IRQ_SDMMC1 14 #define IRQ_SDMMC2 15 #define IRQ_VGPIO_INT 16 #define IRQ_VII2C_INT 17 #define IRQ_SDMMC3 19 #define IRQ_USB 20 #define IRQ_USB2 21 #define IRQ_SATA_CTL 23 #define IRQ_PMC_INT 24 #define IRQ_FC_INT 25 #define IRQ_APB_DMA_CPU 26 #define IRQ_ARB_SEM_GNT_COP 28 #define IRQ_ARB_SEM_GNT_CPU 29 #define IRQ_SDMMC4 31 /* Secondary interrupt controller ids */ #define IRQ_GPIO1 32 #define IRQ_GPIO2 33 #define IRQ_GPIO3 34 #define IRQ_GPIO4 35 #define IRQ_UARTA 36 #define IRQ_UARTB 37 #define IRQ_I2C 38 #define IRQ_USB3_HOST_INT 39 #define IRQ_USB3_HOST_SMI 40 #define IRQ_TMR3 41 #define IRQ_TMR4 42 #define IRQ_USB3_HOST_PME 43 #define IRQ_USB3_DEV_HOST 44 #define IRQ_ACTMON 45 #define IRQ_UARTC 46 #define IRQ_THERMAL 48 #define IRQ_XUSB_PADCTL 49 #define IRQ_TSEC 50 #define IRQ_EDP 51 #define IRQ_I2C5 53 #define IRQ_GPIO5 55 #define IRQ_USB3_DEV_SMI 56 #define IRQ_USB3_DEV_PME 57 #define IRQ_SE 58 #define IRQ_SPI1 59 #define IRQ_APB_DMA_COP 60 #define IRQ_CLDVFS 62 #define IRQ_I2C6 63 /* Tertiary interrupt controller ids */ #define IRQ_HOST1X_SYNCPT_COP 64 #define IRQ_HOST1X_SYNCPT_CPU 65 #define IRQ_HOST1X_GEN_COP 66 #define IRQ_HOST1X_GEN_CPU 67 #define IRQ_NVENC 68 #define IRQ_VI 69 #define IRQ_ISPB 70 #define IRQ_ISP 71 #define IRQ_VIC 72 #define IRQ_DISPLAY 73 #define IRQ_DISPLAYB 74 #define IRQ_SOR1 75 #define IRQ_SOR 76 #define IRQ_MC 77 #define IRQ_EMC 78 #define IRQ_TSECB 80 #define IRQ_HDA 81 #define IRQ_SPI2 82 #define IRQ_SPI3 83 #define IRQ_I2C2 84 #define IRQ_PMU_EXT 86 #define IRQ_GPIO6 87 #define IRQ_GPIO7 89 #define IRQ_UARTD 90 #define IRQ_I2C3 92 #define IRQ_SPI4 93 /* Quaternary interrupt controller ids */ #define IRQ_DTV 96 #define IRQ_PCIE_INT 98 #define IRQ_PCIE_MSI 99 #define IRQ_AVP_CACHE 101 #define IRQ_APE_INT1 102 #define IRQ_APE_INT0 103 #define IRQ_APB_DMA_CH0 104 #define IRQ_APB_DMA_CH1 105 #define IRQ_APB_DMA_CH2 106 #define IRQ_APB_DMA_CH3 107 #define IRQ_APB_DMA_CH4 108 #define IRQ_APB_DMA_CH5 109 #define IRQ_APB_DMA_CH6 110 #define IRQ_APB_DMA_CH7 111 #define IRQ_APB_DMA_CH8 112 #define IRQ_APB_DMA_CH9 113 #define IRQ_APB_DMA_CH10 114 #define IRQ_APB_DMA_CH11 115 #define IRQ_APB_DMA_CH12 116 #define IRQ_APB_DMA_CH13 117 #define IRQ_APB_DMA_CH14 118 #define IRQ_APB_DMA_CH15 119 #define IRQ_I2C4 120 #define IRQ_TMR5 121 #define IRQ_WDT_CPU 123 #define IRQ_WDT_AVP 124 #define IRQ_GPIO8 125 #define IRQ_CAR 126 /* Quinary interrupt controller ids */ #define IRQ_APB_DMA_CH16 128 #define IRQ_APB_DMA_CH17 129 #define IRQ_APB_DMA_CH18 130 #define IRQ_APB_DMA_CH19 131 #define IRQ_APB_DMA_CH20 132 #define IRQ_APB_DMA_CH21 133 #define IRQ_APB_DMA_CH22 134 #define IRQ_APB_DMA_CH23 135 #define IRQ_APB_DMA_CH24 136 #define IRQ_APB_DMA_CH25 137 #define IRQ_APB_DMA_CH26 138 #define IRQ_APB_DMA_CH27 139 #define IRQ_APB_DMA_CH28 140 #define IRQ_APB_DMA_CH29 141 #define IRQ_APB_DMA_CH30 142 #define IRQ_APB_DMA_CH31 143 #define IRQ_CPU0_PMU_INTR 144 #define IRQ_CPU1_PMU_INTR 145 #define IRQ_CPU2_PMU_INTR 146 #define IRQ_CPU3_PMU_INTR 147 #define IRQ_SDMMC1_SYS 148 #define IRQ_SDMMC2_SYS 149 #define IRQ_SDMMC3_SYS 150 #define IRQ_SDMMC4_SYS 151 #define IRQ_TMR6 152 #define IRQ_TMR7 153 #define IRQ_TMR8 154 #define IRQ_TMR9 155 #define IRQ_TMR0 156 #define IRQ_GPU_STALL 157 #define IRQ_GPU_NONSTALL 158 #define IRQ_DPAUX 159 /* Senary interrupt controller ids */ #define IRQ_MPCORE_AXIERRIRQ 160 #define IRQ_MPCORE_INTERRIRQ 161 #define IRQ_EVENT_GPIO_A 162 #define IRQ_EVENT_GPIO_B 163 #define IRQ_EVENT_GPIO_C 164 #define IRQ_EVENT_GPIO_D_T210B01 165 #define IRQ_FLOW_RSM_CPU 168 #define IRQ_FLOW_RSM_COP 169 #define IRQ_TMR_SHARED 170 #define IRQ_MPCORE_CTIIRQ0 171 #define IRQ_MPCORE_CTIIRQ1 172 #define IRQ_MPCORE_CTIIRQ2 173 #define IRQ_MPCORE_CTIIRQ3 174 #define IRQ_MSELECT_ERROR 175 #define IRQ_TMR10 176 #define IRQ_TMR11 177 #define IRQ_TMR12 178 #define IRQ_TMR13 179 typedef int (*irq_handler_t)(u32 irq, void *data); typedef enum _irq_status_t { IRQ_NONE = 0, IRQ_HANDLED = 1, IRQ_ERROR = 2, IRQ_ENABLED = 0, IRQ_NO_SLOTS_AVAILABLE = 1, IRQ_ALREADY_REGISTERED = 2 } irq_status_t; typedef enum _irq_flags_t { IRQ_FLAG_NONE = 0, IRQ_FLAG_ONE_OFF = BIT(0), IRQ_FLAG_REPLACEABLE = BIT(1) } irq_flags_t; void irq_end(); void irq_free(u32 irq); void irq_wait_event(); void irq_disable_wait_event(); irq_status_t irq_request(u32 irq, irq_handler_t handler, void *data, irq_flags_t flags); #endif ================================================ FILE: bdk/soc/kfuse.c ================================================ /* * Copyright (c) 2018 naehrwert * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include int kfuse_wait_ready() { // Wait for KFUSE to finish init and verification of data. while (!(KFUSE(KFUSE_STATE) & KFUSE_STATE_DONE)) ; if (!(KFUSE(KFUSE_STATE) & KFUSE_STATE_CRCPASS)) return 1; return 0; } int kfuse_read(u32 *buf) { int res = 1; clock_enable_kfuse(); if (kfuse_wait_ready()) goto out; KFUSE(KFUSE_KEYADDR) = KFUSE_KEYADDR_AUTOINC; for (int i = 0; i < KFUSE_NUM_WORDS; i++) buf[i] = KFUSE(KFUSE_KEYS); res = 0; out: clock_disable_kfuse(); return res; } ================================================ FILE: bdk/soc/kfuse.h ================================================ /* * Copyright (c) 2018 naehrwert * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _KFUSE_H_ #define _KFUSE_H_ #include #define KFUSE_STATE_CURBLOCK_MASK 0x3F #define KFUSE_STATE_ERRBLOCK_SHIFT 8 #define KFUSE_STATE_ERRBLOCK_MASK 0x3F00 #define KFUSE_STATE_DONE BIT(16) #define KFUSE_STATE_CRCPASS BIT(17) #define KFUSE_STATE_RESTART BIT(24) #define KFUSE_STATE_STOP BIT(25) #define KFUSE_STATE_SOFTRESET BIT(31) #define KFUSE_KEYADDR_AUTOINC BIT(16) #define KFUSE_STATE 0x80 #define KFUSE_KEYADDR 0x88 #define KFUSE_KEYS 0x8C #define KFUSE_NUM_WORDS 144 int kfuse_wait_ready(); int kfuse_read(u32 *buf); #endif ================================================ FILE: bdk/soc/pinmux.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include void pinmux_config_uart(u32 idx) { PINMUX_AUX(PINMUX_AUX_UARTX_TX(idx)) = 0; PINMUX_AUX(PINMUX_AUX_UARTX_RX(idx)) = PINMUX_INPUT_ENABLE | PINMUX_TRISTATE; PINMUX_AUX(PINMUX_AUX_UARTX_RTS(idx)) = 0; PINMUX_AUX(PINMUX_AUX_UARTX_CTS(idx)) = PINMUX_INPUT_ENABLE | PINMUX_TRISTATE; } void pinmux_config_i2c(u32 idx) { PINMUX_AUX(PINMUX_AUX_X_I2C_SCL(idx)) = PINMUX_INPUT_ENABLE; PINMUX_AUX(PINMUX_AUX_X_I2C_SDA(idx)) = PINMUX_INPUT_ENABLE; // Detach I2C4 pins from I2C3 function. if (idx == I2C_3 || idx == I2C_4) { PINMUX_AUX(PINMUX_AUX_X_I2C_SCL(I2C_4)) |= 1; PINMUX_AUX(PINMUX_AUX_X_I2C_SDA(I2C_4)) |= 1; } } void pinmux_config_i2s(u32 idx) { PINMUX_AUX(PINMUX_AUX_X_I2S_LRCK(idx)) = PINMUX_DRIVE_4X | PINMUX_PULL_DOWN; PINMUX_AUX(PINMUX_AUX_X_I2C_DIN(idx)) = PINMUX_DRIVE_4X | PINMUX_INPUT_ENABLE | PINMUX_TRISTATE | PINMUX_PULL_DOWN; PINMUX_AUX(PINMUX_AUX_X_I2C_DOUT(idx)) = PINMUX_DRIVE_4X | PINMUX_PULL_DOWN; PINMUX_AUX(PINMUX_AUX_X_I2C_BCLK(idx)) = PINMUX_DRIVE_4X | PINMUX_PULL_DOWN; } ================================================ FILE: bdk/soc/pinmux.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _PINMUX_H_ #define _PINMUX_H_ #include /*! APB MISC registers. */ #define APB_MISC_GP_SDMMC1_CLK_LPBK_CONTROL 0x8D4 #define APB_MISC_GP_SDMMC3_CLK_LPBK_CONTROL 0x8D8 #define APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL 0xA98 #define APB_MISC_GP_VGPIO_GPIO_MUX_SEL 0xB74 /*! Pinmux registers. */ #define PINMUX_AUX_SDMMC1_CLK 0x00 #define PINMUX_AUX_SDMMC1_CMD 0x04 #define PINMUX_AUX_SDMMC1_DAT3 0x08 #define PINMUX_AUX_SDMMC1_DAT2 0x0C #define PINMUX_AUX_SDMMC1_DAT1 0x10 #define PINMUX_AUX_SDMMC1_DAT0 0x14 #define PINMUX_AUX_SDMMC3_CLK 0x1C #define PINMUX_AUX_SDMMC3_CMD 0x20 #define PINMUX_AUX_SDMMC3_DAT0 0x24 #define PINMUX_AUX_SDMMC3_DAT1 0x28 #define PINMUX_AUX_SDMMC3_DAT2 0x2C #define PINMUX_AUX_SDMMC3_DAT3 0x30 #define PINMUX_AUX_SATA_LED_ACTIVE 0x4C #define PINMUX_AUX_GPIO_PA5_T210B01 PINMUX_AUX_SATA_LED_ACTIVE #define PINMUX_AUX_DMIC3_CLK 0xB4 #define PINMUX_AUX_DMIC3_DAT 0xB8 #define PINMUX_AUX_CAM_I2C_SCL 0xD4 #define PINMUX_AUX_CAM_I2C_SDA 0xD8 #define PINMUX_AUX_UART2_TX 0xF4 #define PINMUX_AUX_UART3_TX 0x104 #define PINMUX_AUX_DAP4_DIN 0x148 #define PINMUX_AUX_DAP4_DOUT 0x14C #define PINMUX_AUX_DAP4_SCLK 0x150 #define PINMUX_AUX_CLK_32K_OUT 0x164 #define PINMUX_AUX_AUD_MCLK 0x180 #define PINMUX_AUX_GPIO_X1_AUD 0x18C #define PINMUX_AUX_GPIO_X3_AUD 0x190 #define PINMUX_AUX_SPDIF_IN 0x1A4 #define PINMUX_AUX_USB_VBUS_EN0 0x1A8 #define PINMUX_AUX_USB_VBUS_EN1 0x1AC #define PINMUX_AUX_WIFI_EN 0x1B4 #define PINMUX_AUX_WIFI_RST 0x1B8 #define PINMUX_AUX_AP_WAKE_NFC 0x1CC #define PINMUX_AUX_NFC_EN 0x1D0 #define PINMUX_AUX_NFC_INT 0x1D4 #define PINMUX_AUX_CAM_RST 0x1E0 #define PINMUX_AUX_CAM1_PWDN 0x1EC #define PINMUX_AUX_CAM2_PWDN 0x1F0 #define PINMUX_AUX_CAM1_STROBE 0x1F4 #define PINMUX_AUX_LCD_BL_PWM 0x1FC #define PINMUX_AUX_LCD_BL_EN 0x200 #define PINMUX_AUX_LCD_RST 0x204 #define PINMUX_AUX_LCD_GPIO1 0x208 #define PINMUX_AUX_LCD_GPIO2 0x20C #define PINMUX_AUX_TOUCH_RST 0x214 #define PINMUX_AUX_TOUCH_CLK 0x218 #define PINMUX_AUX_TOUCH_INT 0x220 #define PINMUX_AUX_MOTION_INT 0x224 #define PINMUX_AUX_ALS_PROX_INT 0x228 #define PINMUX_AUX_BUTTON_POWER_ON 0x230 #define PINMUX_AUX_BUTTON_HOME 0x240 #define PINMUX_AUX_GPIO_PE6 0x248 #define PINMUX_AUX_GPIO_PE7 0x24C #define PINMUX_AUX_GPIO_PH6 0x250 #define PINMUX_AUX_GPIO_PK3 0x260 #define PINMUX_AUX_GPIO_PK7 0x270 #define PINMUX_AUX_GPIO_PZ1 0x280 #define PINMUX_AUX_GPIO_PZ4 0x28C /* Only in T210B01 */ #define PINMUX_AUX_SDMMC2_DAT0 0x294 #define PINMUX_AUX_SDMMC2_DAT1 0x298 #define PINMUX_AUX_SDMMC2_DAT2 0x29C #define PINMUX_AUX_SDMMC2_DAT3 0x2A0 #define PINMUX_AUX_SDMMC2_DAT4 0x2A4 #define PINMUX_AUX_SDMMC2_DAT5 0x2A8 #define PINMUX_AUX_SDMMC2_DAT6 0x2AC #define PINMUX_AUX_SDMMC2_DAT7 0x2B0 #define PINMUX_AUX_SDMMC2_CLK 0x2B4 #define PINMUX_AUX_SDMMC2_CMD 0x2BC /*! 0:UART-A, 1:UART-B, 3:UART-C, 3:UART-D */ #define PINMUX_AUX_UARTX_TX(x) (0xE4 + 0x10 * (x)) #define PINMUX_AUX_UARTX_RX(x) (0xE8 + 0x10 * (x)) #define PINMUX_AUX_UARTX_RTS(x) (0xEC + 0x10 * (x)) #define PINMUX_AUX_UARTX_CTS(x) (0xF0 + 0x10 * (x)) /*! 0:GEN1, 1:GEN2, 2:GEN3, 3:CAM, 4:PWR */ #define PINMUX_AUX_X_I2C_SCL(x) (0xBC + 8 * (x)) #define PINMUX_AUX_X_I2C_SDA(x) (0xC0 + 8 * (x)) /*! 0:I2S1, 1:I2S2 */ #define PINMUX_AUX_X_I2S_LRCK(x) (0x124 + 0x10 * (x)) #define PINMUX_AUX_X_I2C_DIN(x) (0x128 + 0x10 * (x)) #define PINMUX_AUX_X_I2C_DOUT(x) (0x12c + 0x10 * (x)) #define PINMUX_AUX_X_I2C_BCLK(x) (0x130 + 0x10 * (x)) #define PINMUX_FUNC_MASK (3 << 0) #define PINMUX_PULL_MASK (3 << 2) #define PINMUX_PULL_NONE (0 << 2) #define PINMUX_PULL_DOWN (1 << 2) #define PINMUX_PULL_UP (2 << 2) #define PINMUX_TRISTATE BIT(4) #define PINMUX_PARKED BIT(5) #define PINMUX_INPUT_ENABLE BIT(6) #define PINMUX_LOCK BIT(7) #define PINMUX_LPDR BIT(8) #define PINMUX_HSM BIT(9) #define PINMUX_IO_HV BIT(10) #define PINMUX_OPEN_DRAIN BIT(11) #define PINMUX_SCHMT BIT(12) #define PINMUX_DRIVE_MASK (3 << 13) #define PINMUX_DRIVE_1X (0 << 13) #define PINMUX_DRIVE_2X (1 << 13) #define PINMUX_DRIVE_3X (2 << 13) #define PINMUX_DRIVE_4X (3 << 13) #define PINMUX_PREEMP BIT(15) void pinmux_config_uart(u32 idx); void pinmux_config_i2c(u32 idx); void pinmux_config_i2s(u32 idx); #endif ================================================ FILE: bdk/soc/pmc.c ================================================ /* * Copyright (c) 2020-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include void pmc_scratch_lock(pmc_sec_lock_t lock_mask) { // Lock Private key disable, Fuse write enable, MC carveout, Warmboot PA id and Warmboot address. // Happens on T210B01 LP0 always. if (lock_mask & PMC_SEC_LOCK_MISC) { PMC(APBDEV_PMC_SEC_DISABLE) |= 0x700FF0; // RW lock: 0-3. PMC(APBDEV_PMC_SEC_DISABLE2) |= 0xFC000000; // RW lock: 21-23. PMC(APBDEV_PMC_SEC_DISABLE3) |= 0x3F0FFF00; // RW lock: 28-33, 36-38. PMC(APBDEV_PMC_SEC_DISABLE6) |= 0xC000000; // RW lock: 85. // Default: 0xFF00FF00: RW lock: 108-111, 116-119. Gets locked in LP0. PMC(APBDEV_PMC_SEC_DISABLE8) |= 0xFF005500; // W lock: 108-111, RW lock: 116-119. } // Happens on T210B01 LP0 always. if (lock_mask & PMC_SEC_LOCK_LP0_PARAMS) { PMC(APBDEV_PMC_SEC_DISABLE2) |= 0x3FCFFFF; // RW lock: 8-15, 17-20. L4T expects 8-15 as write locked only. PMC(APBDEV_PMC_SEC_DISABLE4) |= 0x3F3FFFFF; // RW lock: 40-50, 52-54. PMC(APBDEV_PMC_SEC_DISABLE5) = 0xFFFFFFFF; // RW lock: 56-71. PMC(APBDEV_PMC_SEC_DISABLE6) |= 0xF3FFC00F; // RW lock: 72-73, 79-84, 86-87. PMC(APBDEV_PMC_SEC_DISABLE7) |= 0x3FFFFF; // RW lock: 88-98. PMC(APBDEV_PMC_SEC_DISABLE8) |= 0xFF; // RW lock: 104-107. } if (lock_mask & PMC_SEC_LOCK_RST_VECTOR) PMC(APBDEV_PMC_SEC_DISABLE3) |= 0xF00000; // RW lock: 34-35. if (lock_mask & PMC_SEC_LOCK_CARVEOUTS) { PMC(APBDEV_PMC_SEC_DISABLE2) |= 0x30000; // RW lock: 16. PMC(APBDEV_PMC_SEC_DISABLE3) |= 0xC0000000; // RW lock: 39. PMC(APBDEV_PMC_SEC_DISABLE4) |= 0xC0C00000; // RW lock: 51, 55. PMC(APBDEV_PMC_SEC_DISABLE6) |= 0x3FF0; // RW lock: 74-78. PMC(APBDEV_PMC_SEC_DISABLE7) |= 0xFFC00000; // RW lock: 99-103. } // HOS specific. if (lock_mask & PMC_SEC_LOCK_TZ_CMAC_W) PMC(APBDEV_PMC_SEC_DISABLE8) |= 0x550000; // W lock: 112-115. if (lock_mask & PMC_SEC_LOCK_TZ_CMAC_R) PMC(APBDEV_PMC_SEC_DISABLE8) |= 0xAA0000; // R lock: 112-115. if (lock_mask & PMC_SEC_LOCK_TZ_KEK_W) PMC(APBDEV_PMC_SEC_DISABLE3) |= 0x55; // W lock: 24-27. if (lock_mask & PMC_SEC_LOCK_TZ_KEK_R) PMC(APBDEV_PMC_SEC_DISABLE3) |= 0xAA; // R lock: 24-27. // End of HOS specific. if (lock_mask & PMC_SEC_LOCK_SE_SRK) PMC(APBDEV_PMC_SEC_DISABLE) |= 0xFF000; // RW lock: 4-7 if (lock_mask & PMC_SEC_LOCK_SE2_SRK_B01) PMC(APBDEV_PMC_SEC_DISABLE9_B01) |= 0x3FC; // RW lock: 120-123 (T210B01). LP0 also sets global bits (b0-1). if (lock_mask & PMC_SEC_LOCK_MISC_B01) PMC(APBDEV_PMC_SEC_DISABLE10_B01) = 0xFFFFFFFF; // RW lock: 135-150. Happens on T210B01 LP0 always. if (lock_mask & PMC_SEC_LOCK_CARVEOUTS_L4T) PMC(APBDEV_PMC_SEC_DISABLE2) |= 0x5555; // W: 8-15 LP0 and Carveouts. Superseded by LP0 lock. // NVTBOOT misses APBDEV_PMC_SCRATCH_WRITE_LOCK_DISABLE_STICKY. bit0: SCRATCH_WR_DIS_ON. // They could also use the NS write disable registers instead. if (lock_mask & PMC_SEC_LOCK_LP0_PARAMS_B01) { PMC(APBDEV_PMC_SCRATCH_WRITE_DISABLE0_B01) |= 0xCBCFE0; // W lock: 5-11, 14-17, 19, 22-23. PMC(APBDEV_PMC_SCRATCH_WRITE_DISABLE1_B01) |= 0x583FF; // W lock: 24-33, 39-40, 42. PMC(APBDEV_PMC_SCRATCH_WRITE_DISABLE2_B01) |= 0x1BE; // W lock: 44-48, 50-51. PMC(APBDEV_PMC_SCRATCH_WRITE_DISABLE3_B01) = 0xFFFFFFFF; // W lock: 56-87. PMC(APBDEV_PMC_SCRATCH_WRITE_DISABLE4_B01) |= 0xFFFFFFF; // W lock: 88-115. PMC(APBDEV_PMC_SCRATCH_WRITE_DISABLE5_B01) |= 0xFFFFFFF8; // W lock: 123-151. PMC(APBDEV_PMC_SCRATCH_WRITE_DISABLE6_B01) = 0xFFFFFFFF; // W lock: 152-183. PMC(APBDEV_PMC_SCRATCH_WRITE_DISABLE7_B01) |= 0xFC00FFFF; // W lock: 184-199, 210-215. PMC(APBDEV_PMC_SCRATCH_WRITE_DISABLE8_B01) |= 0xF; // W lock: 216-219. } } /* * !TODO: Non CCPLEX power domains power gating/ungating. * Power gating: clock should be in reset if enabled and then * pmc_domain_pwrgate_set is run. * Power ungating: run pmc_domain_pwrgate_set, enable clocks and keep in * reset, remove clamping, remove reset, run mbist war if T210 and then clocks * can be disabled. */ int pmc_domain_pwrgate_set(pmc_power_rail_t part, u32 enable) { u32 part_mask = BIT(part); u32 desired_state = enable << part; // Check if the power domain has the state we want. if ((PMC(APBDEV_PMC_PWRGATE_STATUS) & part_mask) == desired_state) return 0; int retries = 5000; while (PMC(APBDEV_PMC_PWRGATE_TOGGLE) & PMC_PWRGATE_TOGGLE_START) { usleep(1); if (--retries < 1) return 1; } // Toggle power gating. PMC(APBDEV_PMC_PWRGATE_TOGGLE) = part | PMC_PWRGATE_TOGGLE_START; retries = 5000; while ((PMC(APBDEV_PMC_PWRGATE_STATUS) & part_mask) != desired_state) { usleep(1); if (--retries < 1) return 1; } return 0; } ================================================ FILE: bdk/soc/pmc.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 st4rk * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _PMC_H_ #define _PMC_H_ #include #include typedef enum _pmc_sec_lock_t { PMC_SEC_LOCK_MISC = BIT(0), PMC_SEC_LOCK_LP0_PARAMS = BIT(1), PMC_SEC_LOCK_RST_VECTOR = BIT(2), PMC_SEC_LOCK_CARVEOUTS = BIT(3), PMC_SEC_LOCK_TZ_CMAC_W = BIT(4), PMC_SEC_LOCK_TZ_CMAC_R = BIT(5), PMC_SEC_LOCK_TZ_KEK_W = BIT(6), PMC_SEC_LOCK_TZ_KEK_R = BIT(7), PMC_SEC_LOCK_SE_SRK = BIT(8), PMC_SEC_LOCK_SE2_SRK_B01 = BIT(9), PMC_SEC_LOCK_MISC_B01 = BIT(10), PMC_SEC_LOCK_CARVEOUTS_L4T = BIT(11), PMC_SEC_LOCK_LP0_PARAMS_B01 = BIT(12), } pmc_sec_lock_t; typedef enum _pmc_power_rail_t { POWER_RAIL_CRAIL = 0, POWER_RAIL_VE = 2, POWER_RAIL_PCIE = 3, POWER_RAIL_NVENC = 6, POWER_RAIL_SATA = 8, POWER_RAIL_CE1 = 9, POWER_RAIL_CE2 = 10, POWER_RAIL_CE3 = 11, POWER_RAIL_CELP = 12, POWER_RAIL_CE0 = 14, POWER_RAIL_C0NC = 15, POWER_RAIL_C1NC = 16, POWER_RAIL_SOR = 17, POWER_RAIL_DIS = 18, POWER_RAIL_DISB = 19, POWER_RAIL_XUSBA = 20, POWER_RAIL_XUSBB = 21, POWER_RAIL_XUSBC = 22, POWER_RAIL_VIC = 23, POWER_RAIL_IRAM = 24, POWER_RAIL_NVDEC = 25, POWER_RAIL_NVJPG = 26, POWER_RAIL_AUD = 27, POWER_RAIL_DFD = 28, POWER_RAIL_VE2 = 29 } pmc_power_rail_t; void pmc_scratch_lock(pmc_sec_lock_t lock_mask); int pmc_domain_pwrgate_set(pmc_power_rail_t part, u32 enable); #endif ================================================ FILE: bdk/soc/pmc_t210.h ================================================ /* * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. */ #ifndef _PMC_T210_H_ #define _PMC_T210_H_ /*! PMC registers. */ #define APBDEV_PMC_CNTRL 0x0 #define PMC_CNTRL_RTC_CLK_DIS BIT(1) #define PMC_CNTRL_RTC_RST BIT(2) #define PMC_CNTRL_MAIN_RST BIT(4) #define PMC_CNTRL_LATCHWAKE_EN BIT(5) #define PMC_CNTRL_BLINK_EN BIT(7) #define PMC_CNTRL_PWRREQ_OE BIT(9) #define PMC_CNTRL_SYSCLK_OE BIT(11) #define PMC_CNTRL_PWRGATE_DIS BIT(12) #define PMC_CNTRL_SIDE_EFFECT_LP0 BIT(14) #define PMC_CNTRL_CPUPWRREQ_OE BIT(16) #define PMC_CNTRL_FUSE_OVERRIDE BIT(18) #define PMC_CNTRL_SHUTDOWN_OE BIT(22) #define APBDEV_PMC_SEC_DISABLE 0x4 #define APBDEV_PMC_PMC_SWRST 0x8 #define APBDEV_PMC_WAKE_MASK 0xC #define APBDEV_PMC_WAKE_LVL 0x10 #define APBDEV_PMC_WAKE_STATUS 0x14 #define APBDEV_PMC_SW_WAKE_STATUS 0x18 #define APBDEV_PMC_DPD_PADS_ORIDE 0x1C #define APBDEV_PMC_DPD_SAMPLE 0x20 #define APBDEV_PMC_DPD_ENABLE 0x24 #define APBDEV_PMC_PWRGATE_TIMER_OFF 0x28 #define APBDEV_PMC_CLAMP_STATUS 0x2C #define APBDEV_PMC_PWRGATE_TOGGLE 0x30 #define PMC_PWRGATE_TOGGLE_START BIT(8) #define APBDEV_PMC_REMOVE_CLAMPING_CMD 0x34 #define APBDEV_PMC_PWRGATE_STATUS 0x38 #define APBDEV_PMC_PWRGOOD_TIMER 0x3C #define APBDEV_PMC_BLINK_TIMER 0x40 #define PMC_BLINK_ON(n) ((n & 0x7FFF)) #define PMC_BLINK_FORCE BIT(15) #define PMC_BLINK_OFF(n) ((u32)(n & 0xFFFF) << 16) #define APBDEV_PMC_NO_IOPOWER 0x44 #define PMC_NO_IOPOWER_MEM BIT(7) #define PMC_NO_IOPOWER_SDMMC1 BIT(12) #define PMC_NO_IOPOWER_SDMMC4 BIT(14) #define PMC_NO_IOPOWER_MEM_COMP BIT(16) #define PMC_NO_IOPOWER_AUDIO_HV BIT(18) #define PMC_NO_IOPOWER_GPIO BIT(21) #define APBDEV_PMC_PWR_DET 0x48 #define APBDEV_PMC_PWR_DET_LATCH 0x4C #define APBDEV_PMC_SCRATCH0 0x50 #define PMC_SCRATCH0_MODE_WARMBOOT BIT(0) #define PMC_SCRATCH0_MODE_RCM BIT(1) #define PMC_SCRATCH0_MODE_PAYLOAD BIT(29) #define PMC_SCRATCH0_MODE_BOOTLOADER BIT(30) #define PMC_SCRATCH0_MODE_RECOVERY BIT(31) #define PMC_SCRATCH0_MODE_CUSTOM_ALL (PMC_SCRATCH0_MODE_RECOVERY | \ PMC_SCRATCH0_MODE_BOOTLOADER | \ PMC_SCRATCH0_MODE_PAYLOAD) #define APBDEV_PMC_SCRATCH1 0x54 #define APBDEV_PMC_SCRATCH2 0x58 #define APBDEV_PMC_SCRATCH3 0x5C #define APBDEV_PMC_SCRATCH4 0x60 #define APBDEV_PMC_SCRATCH5 0x64 #define APBDEV_PMC_SCRATCH6 0x68 #define APBDEV_PMC_SCRATCH7 0x6C #define APBDEV_PMC_SCRATCH8 0x70 #define APBDEV_PMC_SCRATCH9 0x74 #define APBDEV_PMC_SCRATCH10 0x78 #define APBDEV_PMC_SCRATCH11 0x7C #define APBDEV_PMC_SCRATCH12 0x80 #define APBDEV_PMC_SCRATCH13 0x84 #define APBDEV_PMC_SCRATCH14 0x88 #define APBDEV_PMC_SCRATCH15 0x8C #define APBDEV_PMC_SCRATCH16 0x90 #define APBDEV_PMC_SCRATCH17 0x94 #define APBDEV_PMC_SCRATCH18 0x98 #define APBDEV_PMC_SCRATCH19 0x9C #define APBDEV_PMC_SCRATCH20 0xA0 // ODM data/config scratch. #define APBDEV_PMC_SCRATCH21 0xA4 #define APBDEV_PMC_SCRATCH22 0xA8 #define APBDEV_PMC_SCRATCH23 0xAC #define APBDEV_PMC_SECURE_SCRATCH0 0xB0 #define APBDEV_PMC_SECURE_SCRATCH1 0xB4 #define APBDEV_PMC_SECURE_SCRATCH2 0xB8 #define APBDEV_PMC_SECURE_SCRATCH3 0xBC #define APBDEV_PMC_SECURE_SCRATCH4 0xC0 #define APBDEV_PMC_SECURE_SCRATCH5 0xC4 #define APBDEV_PMC_CPUPWRGOOD_TIMER 0xC8 #define APBDEV_PMC_CPUPWROFF_TIMER 0xCC #define APBDEV_PMC_PG_MASK 0xD0 #define APBDEV_PMC_PG_MASK_1 0xD4 #define APBDEV_PMC_AUTO_WAKE_LVL 0xD8 #define APBDEV_PMC_AUTO_WAKE_LVL_MASK 0xDC #define APBDEV_PMC_WAKE_DELAY 0xE0 #define APBDEV_PMC_PWR_DET_VAL 0xE4 #define PMC_PWR_DET_33V_SDMMC1 BIT(12) #define PMC_PWR_DET_33V_AUDIO_HV BIT(18) #define PMC_PWR_DET_33V_GPIO BIT(21) #define APBDEV_PMC_DDR_PWR 0xE8 #define APBDEV_PMC_USB_DEBOUNCE_DEL 0xEC #define APBDEV_PMC_USB_AO 0xF0 #define APBDEV_PMC_CRYPTO_OP 0xF4 #define PMC_CRYPTO_OP_SE_ENABLE 0 #define PMC_CRYPTO_OP_SE_DISABLE 1 #define APBDEV_PMC_PLLP_WB0_OVERRIDE 0xF8 #define PMC_PLLP_WB0_OVR_PLLM_OVR_ENABLE BIT(11) #define PMC_PLLP_WB0_OVR_PLLM_ENABLE BIT(12) #define APBDEV_PMC_SCRATCH24 0xFC #define APBDEV_PMC_SCRATCH25 0x100 #define APBDEV_PMC_SCRATCH26 0x104 #define APBDEV_PMC_SCRATCH27 0x108 #define APBDEV_PMC_SCRATCH28 0x10C #define APBDEV_PMC_SCRATCH29 0x110 #define APBDEV_PMC_SCRATCH30 0x114 #define APBDEV_PMC_SCRATCH31 0x118 #define APBDEV_PMC_SCRATCH32 0x11C #define APBDEV_PMC_SCRATCH33 0x120 #define APBDEV_PMC_SCRATCH34 0x124 #define APBDEV_PMC_SCRATCH35 0x128 #define APBDEV_PMC_SCRATCH36 0x12C #define APBDEV_PMC_SCRATCH37 0x130 #define PMC_SCRATCH37_KERNEL_PANIC_MAGIC 0x4E415054 // "TPAN" #define APBDEV_PMC_SCRATCH38 0x134 #define APBDEV_PMC_SCRATCH39 0x138 #define APBDEV_PMC_SCRATCH40 0x13C #define APBDEV_PMC_SCRATCH41 0x140 #define APBDEV_PMC_SCRATCH42 0x144 #define APBDEV_PMC_BONDOUT_MIRROR0 0x148 #define APBDEV_PMC_BONDOUT_MIRROR1 0x14C #define APBDEV_PMC_BONDOUT_MIRROR2 0x150 #define APBDEV_PMC_SYS_33V_EN 0x154 #define APBDEV_PMC_BONDOUT_MIRROR_ACCESS 0x158 #define APBDEV_PMC_GATE 0x15C #define APBDEV_PMC_WAKE2_MASK 0x160 #define APBDEV_PMC_WAKE2_LVL 0x164 #define APBDEV_PMC_WAKE2_STATUS 0x168 #define APBDEV_PMC_SW_WAKE2_STATUS 0x16C #define APBDEV_PMC_AUTO_WAKE2_LVL_MASK 0x170 #define APBDEV_PMC_PG_MASK_2 0x174 #define APBDEV_PMC_PG_MASK_CE1 0x178 #define APBDEV_PMC_PG_MASK_CE2 0x17C #define APBDEV_PMC_PG_MASK_CE3 0x180 #define APBDEV_PMC_PWRGATE_TIMER_CE_0 0x184 #define APBDEV_PMC_PWRGATE_TIMER_CE_1 0x188 #define APBDEV_PMC_PWRGATE_TIMER_CE_2 0x18C #define APBDEV_PMC_PWRGATE_TIMER_CE_3 0x190 #define APBDEV_PMC_PWRGATE_TIMER_CE_4 0x194 #define APBDEV_PMC_PWRGATE_TIMER_CE_5 0x198 #define APBDEV_PMC_PWRGATE_TIMER_CE_6 0x19C #define APBDEV_PMC_PCX_EDPD_CNTRL 0x1A0 #define APBDEV_PMC_OSC_EDPD_OVER 0x1A4 #define PMC_OSC_EDPD_OVER_OSC_CTRL_OVER BIT(22) #define APBDEV_PMC_CLK_OUT_CNTRL 0x1A8 #define PMC_CLK_OUT_CNTRL_CLK1_FORCE_EN BIT(2) #define PMC_CLK_OUT_CNTRL_CLK2_FORCE_EN BIT(10) #define PMC_CLK_OUT_CNTRL_CLK3_FORCE_EN BIT(18) #define PMC_CLK_OUT_CNTRL_CLK1_SRC_SEL(src) (((src) & 3) << 6) #define PMC_CLK_OUT_CNTRL_CLK2_SRC_SEL(src) (((src) & 3) << 14) #define PMC_CLK_OUT_CNTRL_CLK3_SRC_SEL(src) (((src) & 3) << 22) #define OSC_DIV1 0 #define OSC_DIV2 1 #define OSC_DIV4 2 #define OSC_CAR 3 #define APBDEV_PMC_SATA_PWRGT 0x1AC #define APBDEV_PMC_SENSOR_CTRL 0x1B0 #define APBDEV_PMC_RST_STATUS 0x1B4 #define PMC_RST_STATUS_MASK 7 #define PMC_RST_STATUS_POR 0 #define PMC_RST_STATUS_WATCHDOG 1 #define PMC_RST_STATUS_SENSOR 2 #define PMC_RST_STATUS_SW_MAIN 3 #define PMC_RST_STATUS_LP0 4 #define PMC_RST_STATUS_AOTAG 5 #define APBDEV_PMC_IO_DPD_REQ 0x1B8 #define PMC_IO_DPD_REQ_DPD_IDLE (0 << 30u) #define PMC_IO_DPD_REQ_DPD_OFF (1 << 30u) #define PMC_IO_DPD_REQ_DPD_ON (2 << 30u) #define APBDEV_PMC_IO_DPD_STATUS 0x1BC #define APBDEV_PMC_IO_DPD2_REQ 0x1C0 #define APBDEV_PMC_IO_DPD2_STATUS 0x1C4 #define APBDEV_PMC_SEL_DPD_TIM 0x1C8 #define APBDEV_PMC_VDDP_SEL 0x1CC #define APBDEV_PMC_DDR_CFG 0x1D0 #define APBDEV_PMC_E_NO_VTTGEN 0x1D4 #define APBDEV_PMC_PLLM_WB0_OVERRIDE_FREQ 0x1DC #define APBDEV_PMC_TEST_PWRGATE 0x1E0 #define APBDEV_PMC_PWRGATE_TIMER_MULT 0x1E4 #define APBDEV_PMC_DSI_SEL_DPD 0x1E8 #define APBDEV_PMC_UTMIP_UHSIC_TRIGGERS 0x1EC #define APBDEV_PMC_UTMIP_UHSIC_SAVED_STATE 0x1F0 #define APBDEV_PMC_UTMIP_TERM_PAD_CFG 0x1F8 #define APBDEV_PMC_UTMIP_UHSIC_SLEEP_CFG 0x1FC #define APBDEV_PMC_UTMIP_UHSIC_SLEEPWALK_CFG 0x200 #define APBDEV_PMC_UTMIP_SLEEPWALK_P0 0x204 #define APBDEV_PMC_UTMIP_SLEEPWALK_P1 0x208 #define APBDEV_PMC_UTMIP_SLEEPWALK_P2 0x20C #define APBDEV_PMC_UHSIC_SLEEPWALK_P0 0x210 #define APBDEV_PMC_UTMIP_UHSIC_STATUS 0x214 #define APBDEV_PMC_UTMIP_UHSIC_FAKE 0x218 #define APBDEV_PMC_BONDOUT_MIRROR3 0x21C #define APBDEV_PMC_BONDOUT_MIRROR4 0x220 #define APBDEV_PMC_SECURE_SCRATCH6 0x224 #define APBDEV_PMC_SECURE_SCRATCH7 0x228 #define APBDEV_PMC_SCRATCH43 0x22C #define APBDEV_PMC_SCRATCH44 0x230 #define APBDEV_PMC_SCRATCH45 0x234 #define APBDEV_PMC_SCRATCH46 0x238 #define APBDEV_PMC_SCRATCH47 0x23C #define APBDEV_PMC_SCRATCH48 0x240 #define APBDEV_PMC_SCRATCH49 0x244 #define APBDEV_PMC_SCRATCH50 0x248 #define APBDEV_PMC_SCRATCH51 0x24C #define APBDEV_PMC_SCRATCH52 0x250 #define APBDEV_PMC_SCRATCH53 0x254 #define APBDEV_PMC_SCRATCH54 0x258 #define APBDEV_PMC_SCRATCH55 0x25C #define APBDEV_PMC_SCRATCH0_ECO 0x260 #define APBDEV_PMC_POR_DPD_CTRL 0x264 #define APBDEV_PMC_SCRATCH2_ECO 0x268 #define APBDEV_PMC_UTMIP_UHSIC_LINE_WAKEUP 0x26C #define APBDEV_PMC_UTMIP_BIAS_MASTER_CNTRL 0x270 #define APBDEV_PMC_UTMIP_MASTER_CONFIG 0x274 #define APBDEV_PMC_TD_PWRGATE_INTER_PART_TIMER 0x278 #define APBDEV_PMC_UTMIP_UHSIC2_TRIGGERS 0x27C #define APBDEV_PMC_UTMIP_UHSIC2_SAVED_STATE 0x280 #define APBDEV_PMC_UTMIP_UHSIC2_SLEEP_CFG 0x284 #define APBDEV_PMC_UTMIP_UHSIC2_SLEEPWALK_CFG 0x288 #define APBDEV_PMC_UHSIC2_SLEEPWALK_P1 0x28C #define APBDEV_PMC_UTMIP_UHSIC2_STATUS 0x290 #define APBDEV_PMC_UTMIP_UHSIC2_FAKE 0x294 #define APBDEV_PMC_UTMIP_UHSIC2_LINE_WAKEUP 0x298 #define APBDEV_PMC_UTMIP_MASTER2_CONFIG 0x29C #define APBDEV_PMC_UTMIP_UHSIC_RPD_CFG 0x2A0 #define APBDEV_PMC_PG_MASK_CE0 0x2A4 #define APBDEV_PMC_PG_MASK_3 0x2A8 #define APBDEV_PMC_PG_MASK_4 0x2AC #define APBDEV_PMC_PLLM_WB0_OVERRIDE2 0x2B0 #define APBDEV_PMC_TSC_MULT 0x2B4 #define APBDEV_PMC_CPU_VSENSE_OVERRIDE 0x2B8 #define APBDEV_PMC_GLB_AMAP_CFG 0x2BC #define APBDEV_PMC_STICKY_BITS 0x2C0 #define PMC_STICKY_BITS_HDA_LPBK_DIS BIT(0) #define APBDEV_PMC_SEC_DISABLE2 0x2C4 #define APBDEV_PMC_WEAK_BIAS 0x2C8 #define APBDEV_PMC_REG_SHORT 0x2CC #define APBDEV_PMC_PG_MASK_ANDOR 0x2D0 #define APBDEV_PMC_GPU_RG_CNTRL 0x2D4 #define APBDEV_PMC_SEC_DISABLE3 0x2D8 #define APBDEV_PMC_PG_MASK_5 0x2DC #define APBDEV_PMC_PG_MASK_6 0x2E0 #define APBDEV_PMC_SECURE_SCRATCH8 0x300 #define APBDEV_PMC_SECURE_SCRATCH9 0x304 #define APBDEV_PMC_SECURE_SCRATCH10 0x308 #define APBDEV_PMC_SECURE_SCRATCH11 0x30C #define APBDEV_PMC_SECURE_SCRATCH12 0x310 #define APBDEV_PMC_SECURE_SCRATCH13 0x314 #define APBDEV_PMC_SECURE_SCRATCH14 0x318 #define APBDEV_PMC_SECURE_SCRATCH15 0x31C #define APBDEV_PMC_SECURE_SCRATCH16 0x320 #define APBDEV_PMC_SECURE_SCRATCH17 0x324 #define APBDEV_PMC_SECURE_SCRATCH18 0x328 #define APBDEV_PMC_SECURE_SCRATCH19 0x32C #define APBDEV_PMC_SECURE_SCRATCH20 0x330 #define APBDEV_PMC_SECURE_SCRATCH21 0x334 #define PMC_FUSE_PRIVATEKEYDISABLE_TZ_STICKY_BIT BIT(4) #define APBDEV_PMC_SECURE_SCRATCH22 0x338 // AArch32 reset address. #define APBDEV_PMC_SECURE_SCRATCH23 0x33C #define APBDEV_PMC_SECURE_SCRATCH24 0x340 #define APBDEV_PMC_SECURE_SCRATCH25 0x344 #define APBDEV_PMC_SECURE_SCRATCH26 0x348 #define APBDEV_PMC_SECURE_SCRATCH27 0x34C #define APBDEV_PMC_SECURE_SCRATCH28 0x350 #define APBDEV_PMC_SECURE_SCRATCH29 0x354 #define APBDEV_PMC_SECURE_SCRATCH30 0x358 #define APBDEV_PMC_SECURE_SCRATCH31 0x35C #define APBDEV_PMC_SECURE_SCRATCH32 0x360 #define APBDEV_PMC_SECURE_SCRATCH33 0x364 #define APBDEV_PMC_SECURE_SCRATCH34 0x368 // AArch64 reset address. #define APBDEV_PMC_SECURE_SCRATCH35 0x36C // AArch64 reset hi-address. #define APBDEV_PMC_SECURE_SCRATCH36 0x370 #define APBDEV_PMC_SECURE_SCRATCH37 0x374 #define APBDEV_PMC_SECURE_SCRATCH38 0x378 #define APBDEV_PMC_SECURE_SCRATCH39 0x37C #define APBDEV_PMC_SECURE_SCRATCH40 0x380 #define APBDEV_PMC_SECURE_SCRATCH41 0x384 #define APBDEV_PMC_SECURE_SCRATCH42 0x388 #define APBDEV_PMC_SECURE_SCRATCH43 0x38C #define APBDEV_PMC_SECURE_SCRATCH44 0x390 #define APBDEV_PMC_SECURE_SCRATCH45 0x394 #define APBDEV_PMC_SECURE_SCRATCH46 0x398 #define APBDEV_PMC_SECURE_SCRATCH47 0x39C #define APBDEV_PMC_SECURE_SCRATCH48 0x3A0 #define APBDEV_PMC_SECURE_SCRATCH49 0x3A4 #define APBDEV_PMC_SECURE_SCRATCH50 0x3A8 #define APBDEV_PMC_SECURE_SCRATCH51 0x3AC #define APBDEV_PMC_SECURE_SCRATCH52 0x3B0 #define APBDEV_PMC_SECURE_SCRATCH53 0x3B4 #define APBDEV_PMC_SECURE_SCRATCH54 0x3B8 #define APBDEV_PMC_SECURE_SCRATCH55 0x3BC #define APBDEV_PMC_SECURE_SCRATCH56 0x3C0 #define APBDEV_PMC_SECURE_SCRATCH57 0x3C4 #define APBDEV_PMC_SECURE_SCRATCH58 0x3C8 #define APBDEV_PMC_SECURE_SCRATCH59 0x3CC #define APBDEV_PMC_SECURE_SCRATCH60 0x3D0 #define APBDEV_PMC_SECURE_SCRATCH61 0x3D4 #define APBDEV_PMC_SECURE_SCRATCH62 0x3D8 #define APBDEV_PMC_SECURE_SCRATCH63 0x3DC #define APBDEV_PMC_SECURE_SCRATCH64 0x3E0 #define APBDEV_PMC_SECURE_SCRATCH65 0x3E4 #define APBDEV_PMC_SECURE_SCRATCH66 0x3E8 #define APBDEV_PMC_SECURE_SCRATCH67 0x3EC #define APBDEV_PMC_SECURE_SCRATCH68 0x3F0 #define APBDEV_PMC_SECURE_SCRATCH69 0x3F4 #define APBDEV_PMC_SECURE_SCRATCH70 0x3F8 #define APBDEV_PMC_SECURE_SCRATCH71 0x3FC #define APBDEV_PMC_SECURE_SCRATCH72 0x400 #define APBDEV_PMC_SECURE_SCRATCH73 0x404 #define APBDEV_PMC_SECURE_SCRATCH74 0x408 #define APBDEV_PMC_SECURE_SCRATCH75 0x40C #define APBDEV_PMC_SECURE_SCRATCH76 0x410 #define APBDEV_PMC_SECURE_SCRATCH77 0x414 #define APBDEV_PMC_SECURE_SCRATCH78 0x418 #define APBDEV_PMC_SECURE_SCRATCH79 0x41C #define APBDEV_PMC_CNTRL2 0x440 #define PMC_CNTRL2_WAKE_INT_EN BIT(0) #define PMC_CNTRL2_WAKE_DET_EN BIT(9) #define PMC_CNTRL2_SYSCLK_ORRIDE BIT(10) #define PMC_CNTRL2_HOLD_CKE_LOW_EN BIT(12) #define PMC_CNTRL2_ALLOW_PULSE_WAKE BIT(14) #define APBDEV_PMC_IO_DPD_OFF_MASK 0x444 #define APBDEV_PMC_IO_DPD2_OFF_MASK 0x448 #define APBDEV_PMC_EVENT_COUNTER 0x44C #define APBDEV_PMC_FUSE_CONTROL 0x450 #define PMC_FUSE_CONTROL_PS18_LATCH_SET BIT(8) #define PMC_FUSE_CONTROL_PS18_LATCH_CLR BIT(9) #define APBDEV_PMC_SCRATCH1_ECO 0x454 #define APBDEV_PMC_IO_DPD3_REQ 0x45C #define APBDEV_PMC_IO_DPD3_STATUS 0x460 #define APBDEV_PMC_IO_DPD4_REQ 0x464 #define APBDEV_PMC_IO_DPD4_STATUS 0x468 #define APBDEV_PMC_DIRECT_THERMTRIP_CFG 0x474 #define APBDEV_PMC_TSOSC_DELAY 0x478 #define APBDEV_PMC_SET_SW_CLAMP 0x47C #define APBDEV_PMC_DEBUG_AUTHENTICATION 0x480 #define APBDEV_PMC_AOTAG_CFG 0x484 #define APBDEV_PMC_AOTAG_THRESH1_CFG 0x488 #define APBDEV_PMC_AOTAG_THRESH2_CFG 0x48C #define APBDEV_PMC_AOTAG_THRESH3_CFG 0x490 #define APBDEV_PMC_AOTAG_STATUS 0x494 #define APBDEV_PMC_AOTAG_SECURITY 0x498 #define APBDEV_PMC_TSENSOR_CONFIG0 0x49C #define APBDEV_PMC_TSENSOR_CONFIG1 0x4A0 #define APBDEV_PMC_TSENSOR_CONFIG2 0x4A4 #define APBDEV_PMC_TSENSOR_STATUS0 0x4A8 #define APBDEV_PMC_TSENSOR_STATUS1 0x4AC #define APBDEV_PMC_TSENSOR_STATUS2 0x4B0 #define APBDEV_PMC_TSENSOR_PDIV 0x4B4 #define APBDEV_PMC_AOTAG_INTR_EN 0x4B8 #define APBDEV_PMC_AOTAG_INTR_DIS 0x4BC #define APBDEV_PMC_UTMIP_PAD_CFG0 0x4C0 #define APBDEV_PMC_UTMIP_PAD_CFG1 0x4C4 #define APBDEV_PMC_UTMIP_PAD_CFG2 0x4C8 #define APBDEV_PMC_UTMIP_PAD_CFG3 0x4CC #define APBDEV_PMC_UTMIP_UHSIC_SLEEP_CFG1 0x4D0 #define APBDEV_PMC_CC4_HVC_CONTROL 0x4D4 #define APBDEV_PMC_WAKE_DEBOUNCE_EN 0x4D8 #define APBDEV_PMC_RAMDUMP_CTL_STATUS 0x4DC #define APBDEV_PMC_UTMIP_SLEEPWALK_P3 0x4E0 #define APBDEV_PMC_DDR_CNTRL 0x4E4 #define APBDEV_PMC_SEC_DISABLE4 0x5B0 #define APBDEV_PMC_SEC_DISABLE5 0x5B4 #define APBDEV_PMC_SEC_DISABLE6 0x5B8 #define APBDEV_PMC_SEC_DISABLE7 0x5BC #define APBDEV_PMC_SEC_DISABLE8 0x5C0 #define APBDEV_PMC_SCRATCH56 0x600 #define APBDEV_PMC_SCRATCH57 0x604 #define APBDEV_PMC_SCRATCH58 0x608 #define APBDEV_PMC_SCRATCH59 0x60C #define APBDEV_PMC_SCRATCH60 0x610 #define APBDEV_PMC_SCRATCH61 0x614 #define APBDEV_PMC_SCRATCH62 0x618 #define APBDEV_PMC_SCRATCH63 0x61C #define APBDEV_PMC_SCRATCH64 0x620 #define APBDEV_PMC_SCRATCH65 0x624 #define APBDEV_PMC_SCRATCH66 0x628 #define APBDEV_PMC_SCRATCH67 0x62C #define APBDEV_PMC_SCRATCH68 0x630 #define APBDEV_PMC_SCRATCH69 0x634 #define APBDEV_PMC_SCRATCH70 0x638 #define APBDEV_PMC_SCRATCH71 0x63C #define APBDEV_PMC_SCRATCH72 0x640 #define APBDEV_PMC_SCRATCH73 0x644 #define APBDEV_PMC_SCRATCH74 0x648 #define APBDEV_PMC_SCRATCH75 0x64C #define APBDEV_PMC_SCRATCH76 0x650 #define APBDEV_PMC_SCRATCH77 0x654 #define APBDEV_PMC_SCRATCH78 0x658 #define APBDEV_PMC_SCRATCH79 0x65C #define APBDEV_PMC_SCRATCH80 0x660 #define APBDEV_PMC_SCRATCH81 0x664 #define APBDEV_PMC_SCRATCH82 0x668 #define APBDEV_PMC_SCRATCH83 0x66C #define APBDEV_PMC_SCRATCH84 0x670 #define APBDEV_PMC_SCRATCH85 0x674 #define APBDEV_PMC_SCRATCH86 0x678 #define APBDEV_PMC_SCRATCH87 0x67C #define APBDEV_PMC_SCRATCH88 0x680 #define APBDEV_PMC_SCRATCH89 0x684 #define APBDEV_PMC_SCRATCH90 0x688 #define APBDEV_PMC_SCRATCH91 0x68C #define APBDEV_PMC_SCRATCH92 0x690 #define APBDEV_PMC_SCRATCH93 0x694 #define APBDEV_PMC_SCRATCH94 0x698 #define APBDEV_PMC_SCRATCH95 0x69C #define APBDEV_PMC_SCRATCH96 0x6A0 #define APBDEV_PMC_SCRATCH97 0x6A4 #define APBDEV_PMC_SCRATCH98 0x6A8 #define APBDEV_PMC_SCRATCH99 0x6AC #define APBDEV_PMC_SCRATCH100 0x6B0 #define APBDEV_PMC_SCRATCH101 0x6B4 #define APBDEV_PMC_SCRATCH102 0x6B8 #define APBDEV_PMC_SCRATCH103 0x6BC #define APBDEV_PMC_SCRATCH104 0x6C0 #define APBDEV_PMC_SCRATCH105 0x6C4 #define APBDEV_PMC_SCRATCH106 0x6C8 #define APBDEV_PMC_SCRATCH107 0x6CC #define APBDEV_PMC_SCRATCH108 0x6D0 #define APBDEV_PMC_SCRATCH109 0x6D4 #define APBDEV_PMC_SCRATCH110 0x6D8 #define APBDEV_PMC_SCRATCH111 0x6DC #define APBDEV_PMC_SCRATCH112 0x6E0 #define APBDEV_PMC_SCRATCH113 0x6E4 #define APBDEV_PMC_SCRATCH114 0x6E8 #define APBDEV_PMC_SCRATCH115 0x6EC #define APBDEV_PMC_SCRATCH116 0x6F0 #define APBDEV_PMC_SCRATCH117 0x6F4 #define APBDEV_PMC_SCRATCH118 0x6F8 #define APBDEV_PMC_SCRATCH119 0x6FC #define APBDEV_PMC_SCRATCH120 0x700 #define APBDEV_PMC_SCRATCH121 0x704 #define APBDEV_PMC_SCRATCH122 0x708 #define APBDEV_PMC_SCRATCH123 0x70C #define APBDEV_PMC_SCRATCH124 0x710 #define APBDEV_PMC_SCRATCH125 0x714 #define APBDEV_PMC_SCRATCH126 0x718 #define APBDEV_PMC_SCRATCH127 0x71C #define APBDEV_PMC_SCRATCH128 0x720 #define APBDEV_PMC_SCRATCH129 0x724 #define APBDEV_PMC_SCRATCH130 0x728 #define APBDEV_PMC_SCRATCH131 0x72C #define APBDEV_PMC_SCRATCH132 0x730 #define APBDEV_PMC_SCRATCH133 0x734 #define APBDEV_PMC_SCRATCH134 0x738 #define APBDEV_PMC_SCRATCH135 0x73C #define APBDEV_PMC_SCRATCH136 0x740 #define APBDEV_PMC_SCRATCH137 0x744 #define APBDEV_PMC_SCRATCH138 0x748 #define APBDEV_PMC_SCRATCH139 0x74C #define APBDEV_PMC_SCRATCH140 0x750 #define APBDEV_PMC_SCRATCH141 0x754 #define APBDEV_PMC_SCRATCH142 0x758 #define APBDEV_PMC_SCRATCH143 0x75C #define APBDEV_PMC_SCRATCH144 0x760 #define APBDEV_PMC_SCRATCH145 0x764 #define APBDEV_PMC_SCRATCH146 0x768 #define APBDEV_PMC_SCRATCH147 0x76C #define APBDEV_PMC_SCRATCH148 0x770 #define APBDEV_PMC_SCRATCH149 0x774 #define APBDEV_PMC_SCRATCH150 0x778 #define APBDEV_PMC_SCRATCH151 0x77C #define APBDEV_PMC_SCRATCH152 0x780 #define APBDEV_PMC_SCRATCH153 0x784 #define APBDEV_PMC_SCRATCH154 0x788 #define APBDEV_PMC_SCRATCH155 0x78C #define APBDEV_PMC_SCRATCH156 0x790 #define APBDEV_PMC_SCRATCH157 0x794 #define APBDEV_PMC_SCRATCH158 0x798 #define APBDEV_PMC_SCRATCH159 0x79C #define APBDEV_PMC_SCRATCH160 0x7A0 #define APBDEV_PMC_SCRATCH161 0x7A4 #define APBDEV_PMC_SCRATCH162 0x7A8 #define APBDEV_PMC_SCRATCH163 0x7AC #define APBDEV_PMC_SCRATCH164 0x7B0 #define APBDEV_PMC_SCRATCH165 0x7B4 #define APBDEV_PMC_SCRATCH166 0x7B8 #define APBDEV_PMC_SCRATCH167 0x7BC #define APBDEV_PMC_SCRATCH168 0x7C0 #define APBDEV_PMC_SCRATCH169 0x7C4 #define APBDEV_PMC_SCRATCH170 0x7C8 #define APBDEV_PMC_SCRATCH171 0x7CC #define APBDEV_PMC_SCRATCH172 0x7D0 #define APBDEV_PMC_SCRATCH173 0x7D4 #define APBDEV_PMC_SCRATCH174 0x7D8 #define APBDEV_PMC_SCRATCH175 0x7DC #define APBDEV_PMC_SCRATCH176 0x7E0 #define APBDEV_PMC_SCRATCH177 0x7E4 #define APBDEV_PMC_SCRATCH178 0x7E8 #define APBDEV_PMC_SCRATCH179 0x7EC #define APBDEV_PMC_SCRATCH180 0x7F0 #define APBDEV_PMC_SCRATCH181 0x7F4 #define APBDEV_PMC_SCRATCH182 0x7F8 #define APBDEV_PMC_SCRATCH183 0x7FC #define APBDEV_PMC_SCRATCH184 0x800 #define APBDEV_PMC_SCRATCH185 0x804 #define APBDEV_PMC_SCRATCH186 0x808 #define APBDEV_PMC_SCRATCH187 0x80C #define APBDEV_PMC_SCRATCH188 0x810 #define APBDEV_PMC_SCRATCH189 0x814 #define APBDEV_PMC_SCRATCH190 0x818 #define APBDEV_PMC_SCRATCH191 0x81C #define APBDEV_PMC_SCRATCH192 0x820 #define APBDEV_PMC_SCRATCH193 0x824 #define APBDEV_PMC_SCRATCH194 0x828 #define APBDEV_PMC_SCRATCH195 0x82C #define APBDEV_PMC_SCRATCH196 0x830 #define APBDEV_PMC_SCRATCH197 0x834 #define APBDEV_PMC_SCRATCH198 0x838 #define APBDEV_PMC_SCRATCH199 0x83C #define APBDEV_PMC_SCRATCH200 0x840 #define PMC_NX_PANIC_SAFE_MODE 0x20 #define PMC_NX_PANIC_BYPASS_FUSES 0x21 #define APBDEV_PMC_SCRATCH201 0x844 #define APBDEV_PMC_SCRATCH202 0x848 #define APBDEV_PMC_SCRATCH203 0x84C #define APBDEV_PMC_SCRATCH204 0x850 #define APBDEV_PMC_SCRATCH205 0x854 #define APBDEV_PMC_SCRATCH206 0x858 #define APBDEV_PMC_SCRATCH207 0x85C #define APBDEV_PMC_SCRATCH208 0x860 #define APBDEV_PMC_SCRATCH209 0x864 #define APBDEV_PMC_SCRATCH210 0x868 #define APBDEV_PMC_SCRATCH211 0x86C #define APBDEV_PMC_SCRATCH212 0x870 #define APBDEV_PMC_SCRATCH213 0x874 #define APBDEV_PMC_SCRATCH214 0x878 #define APBDEV_PMC_SCRATCH215 0x87C #define APBDEV_PMC_SCRATCH216 0x880 #define APBDEV_PMC_SCRATCH217 0x884 #define APBDEV_PMC_SCRATCH218 0x888 #define APBDEV_PMC_SCRATCH219 0x88C #define APBDEV_PMC_SCRATCH220 0x890 #define APBDEV_PMC_SCRATCH221 0x894 #define APBDEV_PMC_SCRATCH222 0x898 #define APBDEV_PMC_SCRATCH223 0x89C #define APBDEV_PMC_SCRATCH224 0x8A0 #define APBDEV_PMC_SCRATCH225 0x8A4 #define APBDEV_PMC_SCRATCH226 0x8A8 #define APBDEV_PMC_SCRATCH227 0x8AC #define APBDEV_PMC_SCRATCH228 0x8B0 #define APBDEV_PMC_SCRATCH229 0x8B4 #define APBDEV_PMC_SCRATCH230 0x8B8 #define APBDEV_PMC_SCRATCH231 0x8BC #define APBDEV_PMC_SCRATCH232 0x8C0 #define APBDEV_PMC_SCRATCH233 0x8C4 #define APBDEV_PMC_SCRATCH234 0x8C8 #define APBDEV_PMC_SCRATCH235 0x8CC #define APBDEV_PMC_SCRATCH236 0x8D0 #define APBDEV_PMC_SCRATCH237 0x8D4 #define APBDEV_PMC_SCRATCH238 0x8D8 #define APBDEV_PMC_SCRATCH239 0x8DC #define APBDEV_PMC_SCRATCH240 0x8E0 #define APBDEV_PMC_SCRATCH241 0x8E4 #define APBDEV_PMC_SCRATCH242 0x8E8 #define APBDEV_PMC_SCRATCH243 0x8EC #define APBDEV_PMC_SCRATCH244 0x8F0 #define APBDEV_PMC_SCRATCH245 0x8F4 #define APBDEV_PMC_SCRATCH246 0x8F8 #define APBDEV_PMC_SCRATCH247 0x8FC #define APBDEV_PMC_SCRATCH248 0x900 #define APBDEV_PMC_SCRATCH249 0x904 #define APBDEV_PMC_SCRATCH250 0x908 #define APBDEV_PMC_SCRATCH251 0x90C #define APBDEV_PMC_SCRATCH252 0x910 #define APBDEV_PMC_SCRATCH253 0x914 #define APBDEV_PMC_SCRATCH254 0x918 #define APBDEV_PMC_SCRATCH255 0x91C #define APBDEV_PMC_SCRATCH256 0x920 #define APBDEV_PMC_SCRATCH257 0x924 #define APBDEV_PMC_SCRATCH258 0x928 #define APBDEV_PMC_SCRATCH259 0x92C #define APBDEV_PMC_SCRATCH260 0x930 #define APBDEV_PMC_SCRATCH261 0x934 #define APBDEV_PMC_SCRATCH262 0x938 #define APBDEV_PMC_SCRATCH263 0x93C #define APBDEV_PMC_SCRATCH264 0x940 #define APBDEV_PMC_SCRATCH265 0x944 #define APBDEV_PMC_SCRATCH266 0x948 #define APBDEV_PMC_SCRATCH267 0x94C #define APBDEV_PMC_SCRATCH268 0x950 #define APBDEV_PMC_SCRATCH269 0x954 #define APBDEV_PMC_SCRATCH270 0x958 #define APBDEV_PMC_SCRATCH271 0x95C #define APBDEV_PMC_SCRATCH272 0x960 #define APBDEV_PMC_SCRATCH273 0x964 #define APBDEV_PMC_SCRATCH274 0x968 #define APBDEV_PMC_SCRATCH275 0x96C #define APBDEV_PMC_SCRATCH276 0x970 #define APBDEV_PMC_SCRATCH277 0x974 #define APBDEV_PMC_SCRATCH278 0x978 #define APBDEV_PMC_SCRATCH279 0x97C #define APBDEV_PMC_SCRATCH280 0x980 #define APBDEV_PMC_SCRATCH281 0x984 #define APBDEV_PMC_SCRATCH282 0x988 #define APBDEV_PMC_SCRATCH283 0x98C #define APBDEV_PMC_SCRATCH284 0x990 #define APBDEV_PMC_SCRATCH285 0x994 #define APBDEV_PMC_SCRATCH286 0x998 #define APBDEV_PMC_SCRATCH287 0x99C #define APBDEV_PMC_SCRATCH288 0x9A0 #define APBDEV_PMC_SCRATCH289 0x9A4 #define APBDEV_PMC_SCRATCH290 0x9A8 #define APBDEV_PMC_SCRATCH291 0x9AC #define APBDEV_PMC_SCRATCH292 0x9B0 #define APBDEV_PMC_SCRATCH293 0x9B4 #define APBDEV_PMC_SCRATCH294 0x9B8 #define APBDEV_PMC_SCRATCH295 0x9BC #define APBDEV_PMC_SCRATCH296 0x9C0 #define APBDEV_PMC_SCRATCH297 0x9C4 #define APBDEV_PMC_SCRATCH298 0x9C8 #define APBDEV_PMC_SCRATCH299 0x9CC #define APBDEV_PMC_SECURE_SCRATCH80 0xA98 #define APBDEV_PMC_SECURE_SCRATCH81 0xA9C #define APBDEV_PMC_SECURE_SCRATCH82 0xAA0 #define APBDEV_PMC_SECURE_SCRATCH83 0xAA4 #define APBDEV_PMC_SECURE_SCRATCH84 0xAA8 #define APBDEV_PMC_SECURE_SCRATCH85 0xAAC #define APBDEV_PMC_SECURE_SCRATCH86 0xAB0 #define APBDEV_PMC_SECURE_SCRATCH87 0xAB4 #define APBDEV_PMC_SECURE_SCRATCH88 0xAB8 #define APBDEV_PMC_SECURE_SCRATCH89 0xABC #define APBDEV_PMC_SECURE_SCRATCH90 0xAC0 #define APBDEV_PMC_SECURE_SCRATCH91 0xAC4 #define APBDEV_PMC_SECURE_SCRATCH92 0xAC8 #define APBDEV_PMC_SECURE_SCRATCH93 0xACC #define APBDEV_PMC_SECURE_SCRATCH94 0xAD0 #define APBDEV_PMC_SECURE_SCRATCH95 0xAD4 #define APBDEV_PMC_SECURE_SCRATCH96 0xAD8 #define APBDEV_PMC_SECURE_SCRATCH97 0xADC #define APBDEV_PMC_SECURE_SCRATCH98 0xAE0 #define APBDEV_PMC_SECURE_SCRATCH99 0xAE4 #define APBDEV_PMC_SECURE_SCRATCH100 0xAE8 #define APBDEV_PMC_SECURE_SCRATCH101 0xAEC #define APBDEV_PMC_SECURE_SCRATCH102 0xAF0 #define APBDEV_PMC_SECURE_SCRATCH103 0xAF4 #define APBDEV_PMC_SECURE_SCRATCH104 0xAF8 #define APBDEV_PMC_SECURE_SCRATCH105 0xAFC #define APBDEV_PMC_SECURE_SCRATCH106 0xB00 #define APBDEV_PMC_SECURE_SCRATCH107 0xB04 #define APBDEV_PMC_SECURE_SCRATCH108 0xB08 #define APBDEV_PMC_SECURE_SCRATCH109 0xB0C #define APBDEV_PMC_SECURE_SCRATCH110 0xB10 #define APBDEV_PMC_SECURE_SCRATCH111 0xB14 #define APBDEV_PMC_SECURE_SCRATCH112 0xB18 #define APBDEV_PMC_SECURE_SCRATCH113 0xB1C #define APBDEV_PMC_SECURE_SCRATCH114 0xB20 #define APBDEV_PMC_SECURE_SCRATCH115 0xB24 #define APBDEV_PMC_SECURE_SCRATCH116 0xB28 #define APBDEV_PMC_SECURE_SCRATCH117 0xB2C #define APBDEV_PMC_SECURE_SCRATCH118 0xB30 #define APBDEV_PMC_SECURE_SCRATCH119 0xB34 /* T210B01 only registers */ #define APBDEV_PMC_SEC_DISABLE9_B01 0x5C4 #define APBDEV_PMC_SEC_DISABLE10_B01 0x5C8 #define APBDEV_PMC_SCRATCH_WRITE_DISABLE0_B01 0xA48 #define APBDEV_PMC_SCRATCH_WRITE_DISABLE1_B01 0xA4C #define APBDEV_PMC_SCRATCH_WRITE_DISABLE2_B01 0xA50 #define APBDEV_PMC_SCRATCH_WRITE_DISABLE3_B01 0xA54 #define APBDEV_PMC_SCRATCH_WRITE_DISABLE4_B01 0xA58 #define APBDEV_PMC_SCRATCH_WRITE_DISABLE5_B01 0xA5C #define APBDEV_PMC_SCRATCH_WRITE_DISABLE6_B01 0xA60 #define APBDEV_PMC_SCRATCH_WRITE_DISABLE7_B01 0xA64 #define APBDEV_PMC_SCRATCH_WRITE_DISABLE8_B01 0xA68 #define APBDEV_PMC_SCRATCH_WRITE_DISABLE9_B01 0xA6C #define APBDEV_PMC_SCRATCH_WRITE_DISABLE10_B01 0xA70 #define APBDEV_PMC_SCRATCH_WRITE_LOCK_DISABLE_STICKY_B01 0xA74 #define APBDEV_PMC_SECURE_SCRATCH120_B01 0xB38 #define APBDEV_PMC_SECURE_SCRATCH121_B01 0xB3C #define APBDEV_PMC_SECURE_SCRATCH122_B01 0xB40 #define APBDEV_PMC_SECURE_SCRATCH123_B01 0xB44 #define APBDEV_PMC_LED_BREATHING_CTRL_B01 0xB48 #define PMC_LED_BREATHING_CTRL_ENABLE BIT(0) #define PMC_LED_BREATHING_CTRL_COUNTER1_EN BIT(1) #define APBDEV_PMC_LED_BREATHING_SLOPE_STEPS_B01 0xB4C #define APBDEV_PMC_LED_BREATHING_ON_COUNTER_B01 0xB50 #define APBDEV_PMC_LED_BREATHING_OFF_COUNTER1_B01 0xB54 #define APBDEV_PMC_LED_BREATHING_OFF_COUNTER0_B01 0xB58 #define PMC_LED_BREATHING_COUNTER_HZ 32768 #define APBDEV_PMC_LED_BREATHING_STATUS_B01 0xB5C #define PMC_LED_BREATHING_FSM_STATUS_MASK 0x7 #define PMC_LED_BREATHING_FSM_STS_IDLE 0 #define PMC_LED_BREATHING_FSM_STS_UP_RAMP 1 #define PMC_LED_BREATHING_FSM_STS_PLATEAU 2 #define PMC_LED_BREATHING_FSM_STS_DOWN_RAMP 3 #define PMC_LED_BREATHING_FSM_STS_SHORT_LOW_PERIOD 4 #define PMC_LED_BREATHING_FSM_STS_LONG_LOW_PERIOD 5 #define APBDEV_PMC_SECURE_SCRATCH124_B01 0xB68 #define APBDEV_PMC_SECURE_SCRATCH125_B01 0xB6C #define APBDEV_PMC_SECURE_SCRATCH126_B01 0xB70 #define APBDEV_PMC_SECURE_SCRATCH127_B01 0xB74 #define APBDEV_PMC_SECURE_SCRATCH128_B01 0xB78 #define APBDEV_PMC_SECURE_SCRATCH129_B01 0xB7C #define APBDEV_PMC_SECURE_SCRATCH130_B01 0xB80 #define APBDEV_PMC_SECURE_SCRATCH131_B01 0xB84 #define APBDEV_PMC_SECURE_SCRATCH132_B01 0xB88 #define APBDEV_PMC_SECURE_SCRATCH133_B01 0xB8C #define APBDEV_PMC_SECURE_SCRATCH134_B01 0xB90 #define APBDEV_PMC_SECURE_SCRATCH135_B01 0xB94 #define APBDEV_PMC_SECURE_SCRATCH136_B01 0xB98 #define APBDEV_PMC_SECURE_SCRATCH137_B01 0xB9C #define APBDEV_PMC_SECURE_SCRATCH138_B01 0xBA0 #define APBDEV_PMC_SECURE_SCRATCH139_B01 0xBA4 #define APBDEV_PMC_SEC_DISABLE_NS_B01 0xBB0 #define APBDEV_PMC_SEC_DISABLE2_NS_B01 0xBB4 #define APBDEV_PMC_SEC_DISABLE3_NS_B01 0xBB8 #define APBDEV_PMC_SEC_DISABLE4_NS_B01 0xBBC #define APBDEV_PMC_SEC_DISABLE5_NS_B01 0xBC0 #define APBDEV_PMC_SEC_DISABLE6_NS_B01 0xBC4 #define APBDEV_PMC_SEC_DISABLE7_NS_B01 0xBC8 #define APBDEV_PMC_SEC_DISABLE8_NS_B01 0xBCC #define APBDEV_PMC_SEC_DISABLE9_NS_B01 0xBD0 #define APBDEV_PMC_SEC_DISABLE10_NS_B01 0xBD4 #define APBDEV_PMC_TZRAM_PWR_CNTRL_B01 0xBE8 #define PMC_TZRAM_PWR_CNTRL_SD BIT(0) #define APBDEV_PMC_TZRAM_SEC_DISABLE_B01 0xBEC #define APBDEV_PMC_TZRAM_NON_SEC_DISABLE_B01 0xBF0 #define PMC_TZRAM_DISABLE_REG_WRITE BIT(0) #define PMC_TZRAM_DISABLE_REG_READ BIT(1) typedef struct _pmc_regs_t210_t { /* 0x000 */ u32 pmc_cntrl; /* 0x004 */ u32 pmc_sec_disable; /* 0x008 */ u32 pmc_pmc_swrst; /* 0x00c */ u32 pmc_wake_mask; /* 0x010 */ u32 pmc_wake_lvl; /* 0x014 */ u32 pmc_wake_status; /* 0x018 */ u32 pmc_sw_wake_status; /* 0x01c */ u32 pmc_dpd_pads_oride; /* 0x020 */ u32 pmc_dpd_sample; /* 0x024 */ u32 pmc_dpd_enable; /* 0x028 */ u32 pmc_pwrgate_timer_off; /* 0x02c */ u32 pmc_clamp_status; /* 0x030 */ u32 pmc_pwrgate_toggle; /* 0x034 */ u32 pmc_remove_clamping_cmd; /* 0x038 */ u32 pmc_pwrgate_status; /* 0x03c */ u32 pmc_pwrgood_timer; /* 0x040 */ u32 pmc_blink_timer; /* 0x044 */ u32 pmc_no_iopower; /* 0x048 */ u32 pmc_pwr_det; /* 0x04c */ u32 pmc_pwr_det_latch; /* 0x050 */ u32 pmc_scratch0; /* 0x054 */ u32 pmc_scratch1; /* 0x058 */ u32 pmc_scratch2; /* 0x05c */ u32 pmc_scratch3; /* 0x060 */ u32 pmc_scratch4; /* 0x064 */ u32 pmc_scratch5; /* 0x068 */ u32 pmc_scratch6; /* 0x06c */ u32 pmc_scratch7; /* 0x070 */ u32 pmc_scratch8; /* 0x074 */ u32 pmc_scratch9; /* 0x078 */ u32 pmc_scratch10; /* 0x07c */ u32 pmc_scratch11; /* 0x080 */ u32 pmc_scratch12; /* 0x084 */ u32 pmc_scratch13; /* 0x088 */ u32 pmc_scratch14; /* 0x08c */ u32 pmc_scratch15; /* 0x090 */ u32 pmc_scratch16; /* 0x094 */ u32 pmc_scratch17; /* 0x098 */ u32 pmc_scratch18; /* 0x09c */ u32 pmc_scratch19; /* 0x0a0 */ u32 pmc_scratch20; // ODM data/config scratch. /* 0x0a4 */ u32 pmc_scratch21; /* 0x0a8 */ u32 pmc_scratch22; /* 0x0ac */ u32 pmc_scratch23; /* 0x0b0 */ u32 pmc_secure_scratch0; /* 0x0b4 */ u32 pmc_secure_scratch1; /* 0x0b8 */ u32 pmc_secure_scratch2; /* 0x0bc */ u32 pmc_secure_scratch3; /* 0x0c0 */ u32 pmc_secure_scratch4; /* 0x0c4 */ u32 pmc_secure_scratch5; /* 0x0c8 */ u32 pmc_cpupwrgood_timer; /* 0x0cc */ u32 pmc_cpupwroff_timer; /* 0x0d0 */ u32 pmc_pg_mask; /* 0x0d4 */ u32 pmc_pg_mask_1; /* 0x0d8 */ u32 pmc_auto_wake_lvl; /* 0x0dc */ u32 pmc_auto_wake_lvl_mask; /* 0x0e0 */ u32 pmc_wake_delay; /* 0x0e4 */ u32 pmc_pwr_det_val; /* 0x0e8 */ u32 pmc_ddr_pwr; /* 0x0ec */ u32 pmc_usb_debounce_del; /* 0x0f0 */ u32 pmc_usb_ao; /* 0x0f4 */ u32 pmc_crypto_op; /* 0x0f8 */ u32 pmc_pllp_wb0_override; /* 0x0fc */ u32 pmc_scratch24; /* 0x100 */ u32 pmc_scratch25; /* 0x104 */ u32 pmc_scratch26; /* 0x108 */ u32 pmc_scratch27; /* 0x10c */ u32 pmc_scratch28; /* 0x110 */ u32 pmc_scratch29; /* 0x114 */ u32 pmc_scratch30; /* 0x118 */ u32 pmc_scratch31; /* 0x11c */ u32 pmc_scratch32; /* 0x120 */ u32 pmc_scratch33; /* 0x124 */ u32 pmc_scratch34; /* 0x128 */ u32 pmc_scratch35; /* 0x12c */ u32 pmc_scratch36; /* 0x130 */ u32 pmc_scratch37; /* 0x134 */ u32 pmc_scratch38; /* 0x138 */ u32 pmc_scratch39; /* 0x13c */ u32 pmc_scratch40; /* 0x140 */ u32 pmc_scratch41; /* 0x144 */ u32 pmc_scratch42; /* 0x148 */ u32 pmc_bondout_mirror0; /* 0x14c */ u32 pmc_bondout_mirror1; /* 0x150 */ u32 pmc_bondout_mirror2; /* 0x154 */ u32 pmc_sys_33v_en; /* 0x158 */ u32 pmc_bondout_mirror_access; /* 0x15c */ u32 pmc_gate; /* 0x160 */ u32 pmc_wake2_mask; /* 0x164 */ u32 pmc_wake2_lvl; /* 0x168 */ u32 pmc_wake2_status; /* 0x16c */ u32 pmc_sw_wake2_status; /* 0x170 */ u32 pmc_auto_wake2_lvl_mask; /* 0x174 */ u32 pmc_pg_mask_2; /* 0x178 */ u32 pmc_pg_mask_ce1; /* 0x17c */ u32 pmc_pg_mask_ce2; /* 0x180 */ u32 pmc_pg_mask_ce3; /* 0x184 */ u32 pmc_pwrgate_timer_ce_0; /* 0x188 */ u32 pmc_pwrgate_timer_ce_1; /* 0x18c */ u32 pmc_pwrgate_timer_ce_2; /* 0x190 */ u32 pmc_pwrgate_timer_ce_3; /* 0x194 */ u32 pmc_pwrgate_timer_ce_4; /* 0x198 */ u32 pmc_pwrgate_timer_ce_5; /* 0x19c */ u32 pmc_pwrgate_timer_ce_6; /* 0x1a0 */ u32 pmc_pcx_edpd_cntrl; /* 0x1a4 */ u32 pmc_osc_edpd_over; /* 0x1a8 */ u32 pmc_clk_out_cntrl; /* 0x1ac */ u32 pmc_sata_pwrgt; /* 0x1b0 */ u32 pmc_sensor_ctrl; /* 0x1b4 */ u32 pmc_rst_status; /* 0x1b8 */ u32 pmc_io_dpd_req; /* 0x1bc */ u32 pmc_io_dpd_status; /* 0x1c0 */ u32 pmc_io_dpd2_req; /* 0x1c4 */ u32 pmc_io_dpd2_status; /* 0x1c8 */ u32 pmc_sel_dpd_tim; /* 0x1cc */ u32 pmc_vddp_sel; /* 0x1d0 */ u32 pmc_ddr_cfg; /* 0x1d4 */ u32 pmc_e_no_vttgen; /* 0x1d8 */ u32 rsvd_1d8; /* 0x1dc */ u32 pmc_pllm_wb0_override_freq; /* 0x1e0 */ u32 pmc_test_pwrgate; /* 0x1e4 */ u32 pmc_pwrgate_timer_mult; /* 0x1e8 */ u32 pmc_dsi_sel_dpd; /* 0x1ec */ u32 pmc_utmip_uhsic_triggers; /* 0x1f0 */ u32 pmc_utmip_uhsic_saved_state; /* 0x1f4 */ u32 rsvd_1f4; /* 0x1f8 */ u32 pmc_utmip_term_pad_cfg; /* 0x1fc */ u32 pmc_utmip_uhsic_sleep_cfg; /* 0x200 */ u32 pmc_utmip_uhsic_sleepwalk_cfg; /* 0x204 */ u32 pmc_utmip_sleepwalk_p0; /* 0x208 */ u32 pmc_utmip_sleepwalk_p1; /* 0x20c */ u32 pmc_utmip_sleepwalk_p2; /* 0x210 */ u32 pmc_uhsic_sleepwalk_p0; /* 0x214 */ u32 pmc_utmip_uhsic_status; /* 0x218 */ u32 pmc_utmip_uhsic_fake; /* 0x21c */ u32 pmc_bondout_mirror3; /* 0x220 */ u32 pmc_bondout_mirror4; /* 0x224 */ u32 pmc_secure_scratch6; /* 0x228 */ u32 pmc_secure_scratch7; /* 0x22c */ u32 pmc_scratch43; /* 0x230 */ u32 pmc_scratch44; /* 0x234 */ u32 pmc_scratch45; /* 0x238 */ u32 pmc_scratch46; /* 0x23c */ u32 pmc_scratch47; /* 0x240 */ u32 pmc_scratch48; /* 0x244 */ u32 pmc_scratch49; /* 0x248 */ u32 pmc_scratch50; /* 0x24c */ u32 pmc_scratch51; /* 0x250 */ u32 pmc_scratch52; /* 0x254 */ u32 pmc_scratch53; /* 0x258 */ u32 pmc_scratch54; /* 0x25c */ u32 pmc_scratch55; /* 0x260 */ u32 pmc_scratch0_eco; /* 0x264 */ u32 pmc_por_dpd_ctrl; /* 0x268 */ u32 pmc_scratch2_eco; /* 0x26c */ u32 pmc_utmip_uhsic_line_wakeup; /* 0x270 */ u32 pmc_utmip_bias_master_cntrl; /* 0x274 */ u32 pmc_utmip_master_config; /* 0x278 */ u32 pmc_td_pwrgate_inter_part_timer; /* 0x27c */ u32 pmc_utmip_uhsic2_triggers; /* 0x280 */ u32 pmc_utmip_uhsic2_saved_state; /* 0x284 */ u32 pmc_utmip_uhsic2_sleep_cfg; /* 0x288 */ u32 pmc_utmip_uhsic2_sleepwalk_cfg; /* 0x28c */ u32 pmc_uhsic2_sleepwalk_p1; /* 0x290 */ u32 pmc_utmip_uhsic2_status; /* 0x294 */ u32 pmc_utmip_uhsic2_fake; /* 0x298 */ u32 pmc_utmip_uhsic2_line_wakeup; /* 0x29c */ u32 pmc_utmip_master2_config; /* 0x2a0 */ u32 pmc_utmip_uhsic_rpd_cfg; /* 0x2a4 */ u32 pmc_pg_mask_ce0; /* 0x2a8 */ u32 pmc_pg_mask_3; /* 0x2ac */ u32 pmc_pg_mask_4; /* 0x2b0 */ u32 pmc_pllm_wb0_override2; /* 0x2b4 */ u32 pmc_tsc_mult; /* 0x2b8 */ u32 pmc_cpu_vsense_override; /* 0x2bc */ u32 pmc_glb_amap_cfg; /* 0x2c0 */ u32 pmc_sticky_bits; /* 0x2c4 */ u32 pmc_sec_disable2; /* 0x2c8 */ u32 pmc_weak_bias; /* 0x2cc */ u32 pmc_reg_short; /* 0x2d0 */ u32 pmc_pg_mask_andor; /* 0x2d4 */ u32 pmc_gpu_rg_cntrl; /* 0x2d8 */ u32 pmc_sec_disable3; /* 0x2dc */ u32 pmc_pg_mask_5; /* 0x2e0 */ u32 pmc_pg_mask_6; /* 0x2e4 */ u32 rsvd_2e4[7]; /* 0x300 */ u32 pmc_secure_scratch8; /* 0x304 */ u32 pmc_secure_scratch9; /* 0x308 */ u32 pmc_secure_scratch10; /* 0x30c */ u32 pmc_secure_scratch11; /* 0x310 */ u32 pmc_secure_scratch12; /* 0x314 */ u32 pmc_secure_scratch13; /* 0x318 */ u32 pmc_secure_scratch14; /* 0x31c */ u32 pmc_secure_scratch15; /* 0x320 */ u32 pmc_secure_scratch16; /* 0x324 */ u32 pmc_secure_scratch17; /* 0x328 */ u32 pmc_secure_scratch18; /* 0x32c */ u32 pmc_secure_scratch19; /* 0x330 */ u32 pmc_secure_scratch20; /* 0x334 */ u32 pmc_secure_scratch21; /* 0x338 */ u32 pmc_secure_scratch22; // AArch32 reset address. /* 0x33c */ u32 pmc_secure_scratch23; /* 0x340 */ u32 pmc_secure_scratch24; /* 0x344 */ u32 pmc_secure_scratch25; /* 0x348 */ u32 pmc_secure_scratch26; /* 0x34c */ u32 pmc_secure_scratch27; /* 0x350 */ u32 pmc_secure_scratch28; /* 0x354 */ u32 pmc_secure_scratch29; /* 0x358 */ u32 pmc_secure_scratch30; /* 0x35c */ u32 pmc_secure_scratch31; /* 0x360 */ u32 pmc_secure_scratch32; /* 0x364 */ u32 pmc_secure_scratch33; /* 0x368 */ u32 pmc_secure_scratch34; // AArch64 reset address. /* 0x36c */ u32 pmc_secure_scratch35; // AArch64 reset hi-address. /* 0x370 */ u32 pmc_secure_scratch36; /* 0x374 */ u32 pmc_secure_scratch37; /* 0x378 */ u32 pmc_secure_scratch38; /* 0x37c */ u32 pmc_secure_scratch39; /* 0x380 */ u32 pmc_secure_scratch40; /* 0x384 */ u32 pmc_secure_scratch41; /* 0x388 */ u32 pmc_secure_scratch42; /* 0x38c */ u32 pmc_secure_scratch43; /* 0x390 */ u32 pmc_secure_scratch44; /* 0x394 */ u32 pmc_secure_scratch45; /* 0x398 */ u32 pmc_secure_scratch46; /* 0x39c */ u32 pmc_secure_scratch47; /* 0x3a0 */ u32 pmc_secure_scratch48; /* 0x3a4 */ u32 pmc_secure_scratch49; /* 0x3a8 */ u32 pmc_secure_scratch50; /* 0x3ac */ u32 pmc_secure_scratch51; /* 0x3b0 */ u32 pmc_secure_scratch52; /* 0x3b4 */ u32 pmc_secure_scratch53; /* 0x3b8 */ u32 pmc_secure_scratch54; /* 0x3bc */ u32 pmc_secure_scratch55; /* 0x3c0 */ u32 pmc_secure_scratch56; /* 0x3c4 */ u32 pmc_secure_scratch57; /* 0x3c8 */ u32 pmc_secure_scratch58; /* 0x3cc */ u32 pmc_secure_scratch59; /* 0x3d0 */ u32 pmc_secure_scratch60; /* 0x3d4 */ u32 pmc_secure_scratch61; /* 0x3d8 */ u32 pmc_secure_scratch62; /* 0x3dc */ u32 pmc_secure_scratch63; /* 0x3e0 */ u32 pmc_secure_scratch64; /* 0x3e4 */ u32 pmc_secure_scratch65; /* 0x3e8 */ u32 pmc_secure_scratch66; /* 0x3ec */ u32 pmc_secure_scratch67; /* 0x3f0 */ u32 pmc_secure_scratch68; /* 0x3f4 */ u32 pmc_secure_scratch69; /* 0x3f8 */ u32 pmc_secure_scratch70; /* 0x3fc */ u32 pmc_secure_scratch71; /* 0x400 */ u32 pmc_secure_scratch72; /* 0x404 */ u32 pmc_secure_scratch73; /* 0x408 */ u32 pmc_secure_scratch74; /* 0x40c */ u32 pmc_secure_scratch75; /* 0x410 */ u32 pmc_secure_scratch76; /* 0x414 */ u32 pmc_secure_scratch77; /* 0x418 */ u32 pmc_secure_scratch78; /* 0x41c */ u32 pmc_secure_scratch79; /* 0x420 */ u32 rsvd_420[8]; /* 0x440 */ u32 pmc_cntrl2; /* 0x444 */ u32 pmc_io_dpd_off_mask; /* 0x448 */ u32 pmc_io_dpd2_off_mask; /* 0x44c */ u32 pmc_event_counter; /* 0x450 */ u32 pmc_fuse_control; /* 0x454 */ u32 pmc_scratch1_eco; /* 0x458 */ u32 rsvd_458; /* 0x45c */ u32 pmc_io_dpd3_req; /* 0x460 */ u32 pmc_io_dpd3_status; /* 0x464 */ u32 pmc_io_dpd4_req; /* 0x468 */ u32 pmc_io_dpd4_status; /* 0x46c */ u32 rsvd_46c[2]; /* 0x474 */ u32 pmc_direct_thermtrip_cfg; /* 0x478 */ u32 pmc_tsosc_delay; /* 0x47c */ u32 pmc_set_sw_clamp; /* 0x480 */ u32 pmc_debug_authentication; /* 0x484 */ u32 pmc_aotag_cfg; /* 0x488 */ u32 pmc_aotag_thresh1_cfg; /* 0x48c */ u32 pmc_aotag_thresh2_cfg; /* 0x490 */ u32 pmc_aotag_thresh3_cfg; /* 0x494 */ u32 pmc_aotag_status; /* 0x498 */ u32 pmc_aotag_security; /* 0x49c */ u32 pmc_tsensor_config0; /* 0x4a0 */ u32 pmc_tsensor_config1; /* 0x4a4 */ u32 pmc_tsensor_config2; /* 0x4a8 */ u32 pmc_tsensor_status0; /* 0x4ac */ u32 pmc_tsensor_status1; /* 0x4b0 */ u32 pmc_tsensor_status2; /* 0x4b4 */ u32 pmc_tsensor_pdiv; /* 0x4b8 */ u32 pmc_aotag_intr_en; /* 0x4bc */ u32 pmc_aotag_intr_dis; /* 0x4c0 */ u32 pmc_utmip_pad_cfg0; /* 0x4c4 */ u32 pmc_utmip_pad_cfg1; /* 0x4c8 */ u32 pmc_utmip_pad_cfg2; /* 0x4cc */ u32 pmc_utmip_pad_cfg3; /* 0x4d0 */ u32 pmc_utmip_uhsic_sleep_cfg1; /* 0x4d4 */ u32 pmc_cc4_hvc_control; /* 0x4d8 */ u32 pmc_wake_debounce_en; /* 0x4dc */ u32 pmc_ramdump_ctl_status; /* 0x4e0 */ u32 pmc_utmip_sleepwalk_p3; /* 0x4e4 */ u32 pmc_ddr_cntrl; /* 0x4e8 */ u32 rsvd_4e8[50]; /* 0x5b0 */ u32 pmc_sec_disable4; /* 0x5b4 */ u32 pmc_sec_disable5; /* 0x5b8 */ u32 pmc_sec_disable6; /* 0x5bc */ u32 pmc_sec_disable7; /* 0x5c0 */ u32 pmc_sec_disable8; /* 0x5c4 */ u32 pmc_sec_disable9_b01; /* 0x5c8 */ u32 pmc_sec_disable10_b01; /* 0x5cc */ u32 rsvd_5cc[13]; /* 0x600 */ u32 pmc_scratch56; /* 0x604 */ u32 pmc_scratch57; /* 0x608 */ u32 pmc_scratch58; /* 0x60c */ u32 pmc_scratch59; /* 0x610 */ u32 pmc_scratch60; /* 0x614 */ u32 pmc_scratch61; /* 0x618 */ u32 pmc_scratch62; /* 0x61c */ u32 pmc_scratch63; /* 0x620 */ u32 pmc_scratch64; /* 0x624 */ u32 pmc_scratch65; /* 0x628 */ u32 pmc_scratch66; /* 0x62c */ u32 pmc_scratch67; /* 0x630 */ u32 pmc_scratch68; /* 0x634 */ u32 pmc_scratch69; /* 0x638 */ u32 pmc_scratch70; /* 0x63c */ u32 pmc_scratch71; /* 0x640 */ u32 pmc_scratch72; /* 0x644 */ u32 pmc_scratch73; /* 0x648 */ u32 pmc_scratch74; /* 0x64c */ u32 pmc_scratch75; /* 0x650 */ u32 pmc_scratch76; /* 0x654 */ u32 pmc_scratch77; /* 0x658 */ u32 pmc_scratch78; /* 0x65c */ u32 pmc_scratch79; /* 0x660 */ u32 pmc_scratch80; /* 0x664 */ u32 pmc_scratch81; /* 0x668 */ u32 pmc_scratch82; /* 0x66c */ u32 pmc_scratch83; /* 0x670 */ u32 pmc_scratch84; /* 0x674 */ u32 pmc_scratch85; /* 0x678 */ u32 pmc_scratch86; /* 0x67c */ u32 pmc_scratch87; /* 0x680 */ u32 pmc_scratch88; /* 0x684 */ u32 pmc_scratch89; /* 0x688 */ u32 pmc_scratch90; /* 0x68c */ u32 pmc_scratch91; /* 0x690 */ u32 pmc_scratch92; /* 0x694 */ u32 pmc_scratch93; /* 0x698 */ u32 pmc_scratch94; /* 0x69c */ u32 pmc_scratch95; /* 0x6a0 */ u32 pmc_scratch96; /* 0x6a4 */ u32 pmc_scratch97; /* 0x6a8 */ u32 pmc_scratch98; /* 0x6ac */ u32 pmc_scratch99; /* 0x6b0 */ u32 pmc_scratch100; /* 0x6b4 */ u32 pmc_scratch101; /* 0x6b8 */ u32 pmc_scratch102; /* 0x6bc */ u32 pmc_scratch103; /* 0x6c0 */ u32 pmc_scratch104; /* 0x6c4 */ u32 pmc_scratch105; /* 0x6c8 */ u32 pmc_scratch106; /* 0x6cc */ u32 pmc_scratch107; /* 0x6d0 */ u32 pmc_scratch108; /* 0x6d4 */ u32 pmc_scratch109; /* 0x6d8 */ u32 pmc_scratch110; /* 0x6dc */ u32 pmc_scratch111; /* 0x6e0 */ u32 pmc_scratch112; /* 0x6e4 */ u32 pmc_scratch113; /* 0x6e8 */ u32 pmc_scratch114; /* 0x6ec */ u32 pmc_scratch115; /* 0x6f0 */ u32 pmc_scratch116; /* 0x6f4 */ u32 pmc_scratch117; /* 0x6f8 */ u32 pmc_scratch118; /* 0x6fc */ u32 pmc_scratch119; /* 0x700 */ u32 pmc_scratch120; /* 0x704 */ u32 pmc_scratch121; /* 0x708 */ u32 pmc_scratch122; /* 0x70c */ u32 pmc_scratch123; /* 0x710 */ u32 pmc_scratch124; /* 0x714 */ u32 pmc_scratch125; /* 0x718 */ u32 pmc_scratch126; /* 0x71c */ u32 pmc_scratch127; /* 0x720 */ u32 pmc_scratch128; /* 0x724 */ u32 pmc_scratch129; /* 0x728 */ u32 pmc_scratch130; /* 0x72c */ u32 pmc_scratch131; /* 0x730 */ u32 pmc_scratch132; /* 0x734 */ u32 pmc_scratch133; /* 0x738 */ u32 pmc_scratch134; /* 0x73c */ u32 pmc_scratch135; /* 0x740 */ u32 pmc_scratch136; /* 0x744 */ u32 pmc_scratch137; /* 0x748 */ u32 pmc_scratch138; /* 0x74c */ u32 pmc_scratch139; /* 0x750 */ u32 pmc_scratch140; /* 0x754 */ u32 pmc_scratch141; /* 0x758 */ u32 pmc_scratch142; /* 0x75c */ u32 pmc_scratch143; /* 0x760 */ u32 pmc_scratch144; /* 0x764 */ u32 pmc_scratch145; /* 0x768 */ u32 pmc_scratch146; /* 0x76c */ u32 pmc_scratch147; /* 0x770 */ u32 pmc_scratch148; /* 0x774 */ u32 pmc_scratch149; /* 0x778 */ u32 pmc_scratch150; /* 0x77c */ u32 pmc_scratch151; /* 0x780 */ u32 pmc_scratch152; /* 0x784 */ u32 pmc_scratch153; /* 0x788 */ u32 pmc_scratch154; /* 0x78c */ u32 pmc_scratch155; /* 0x790 */ u32 pmc_scratch156; /* 0x794 */ u32 pmc_scratch157; /* 0x798 */ u32 pmc_scratch158; /* 0x79c */ u32 pmc_scratch159; /* 0x7a0 */ u32 pmc_scratch160; /* 0x7a4 */ u32 pmc_scratch161; /* 0x7a8 */ u32 pmc_scratch162; /* 0x7ac */ u32 pmc_scratch163; /* 0x7b0 */ u32 pmc_scratch164; /* 0x7b4 */ u32 pmc_scratch165; /* 0x7b8 */ u32 pmc_scratch166; /* 0x7bc */ u32 pmc_scratch167; /* 0x7c0 */ u32 pmc_scratch168; /* 0x7c4 */ u32 pmc_scratch169; /* 0x7c8 */ u32 pmc_scratch170; /* 0x7cc */ u32 pmc_scratch171; /* 0x7d0 */ u32 pmc_scratch172; /* 0x7d4 */ u32 pmc_scratch173; /* 0x7d8 */ u32 pmc_scratch174; /* 0x7dc */ u32 pmc_scratch175; /* 0x7e0 */ u32 pmc_scratch176; /* 0x7e4 */ u32 pmc_scratch177; /* 0x7e8 */ u32 pmc_scratch178; /* 0x7ec */ u32 pmc_scratch179; /* 0x7f0 */ u32 pmc_scratch180; /* 0x7f4 */ u32 pmc_scratch181; /* 0x7f8 */ u32 pmc_scratch182; /* 0x7fc */ u32 pmc_scratch183; /* 0x800 */ u32 pmc_scratch184; /* 0x804 */ u32 pmc_scratch185; /* 0x808 */ u32 pmc_scratch186; /* 0x80c */ u32 pmc_scratch187; /* 0x810 */ u32 pmc_scratch188; /* 0x814 */ u32 pmc_scratch189; /* 0x818 */ u32 pmc_scratch190; /* 0x81c */ u32 pmc_scratch191; /* 0x820 */ u32 pmc_scratch192; /* 0x824 */ u32 pmc_scratch193; /* 0x828 */ u32 pmc_scratch194; /* 0x82c */ u32 pmc_scratch195; /* 0x830 */ u32 pmc_scratch196; /* 0x834 */ u32 pmc_scratch197; /* 0x838 */ u32 pmc_scratch198; /* 0x83c */ u32 pmc_scratch199; /* 0x840 */ u32 pmc_scratch200; /* 0x844 */ u32 pmc_scratch201; /* 0x848 */ u32 pmc_scratch202; /* 0x84c */ u32 pmc_scratch203; /* 0x850 */ u32 pmc_scratch204; /* 0x854 */ u32 pmc_scratch205; /* 0x858 */ u32 pmc_scratch206; /* 0x85c */ u32 pmc_scratch207; /* 0x860 */ u32 pmc_scratch208; /* 0x864 */ u32 pmc_scratch209; /* 0x868 */ u32 pmc_scratch210; /* 0x86c */ u32 pmc_scratch211; /* 0x870 */ u32 pmc_scratch212; /* 0x874 */ u32 pmc_scratch213; /* 0x878 */ u32 pmc_scratch214; /* 0x87c */ u32 pmc_scratch215; /* 0x880 */ u32 pmc_scratch216; /* 0x884 */ u32 pmc_scratch217; /* 0x888 */ u32 pmc_scratch218; /* 0x88c */ u32 pmc_scratch219; /* 0x890 */ u32 pmc_scratch220; /* 0x894 */ u32 pmc_scratch221; /* 0x898 */ u32 pmc_scratch222; /* 0x89c */ u32 pmc_scratch223; /* 0x8a0 */ u32 pmc_scratch224; /* 0x8a4 */ u32 pmc_scratch225; /* 0x8a8 */ u32 pmc_scratch226; /* 0x8ac */ u32 pmc_scratch227; /* 0x8b0 */ u32 pmc_scratch228; /* 0x8b4 */ u32 pmc_scratch229; /* 0x8b8 */ u32 pmc_scratch230; /* 0x8bc */ u32 pmc_scratch231; /* 0x8c0 */ u32 pmc_scratch232; /* 0x8c4 */ u32 pmc_scratch233; /* 0x8c8 */ u32 pmc_scratch234; /* 0x8cc */ u32 pmc_scratch235; /* 0x8d0 */ u32 pmc_scratch236; /* 0x8d4 */ u32 pmc_scratch237; /* 0x8d8 */ u32 pmc_scratch238; /* 0x8dc */ u32 pmc_scratch239; /* 0x8e0 */ u32 pmc_scratch240; /* 0x8e4 */ u32 pmc_scratch241; /* 0x8e8 */ u32 pmc_scratch242; /* 0x8ec */ u32 pmc_scratch243; /* 0x8f0 */ u32 pmc_scratch244; /* 0x8f4 */ u32 pmc_scratch245; /* 0x8f8 */ u32 pmc_scratch246; /* 0x8fc */ u32 pmc_scratch247; /* 0x900 */ u32 pmc_scratch248; /* 0x904 */ u32 pmc_scratch249; /* 0x908 */ u32 pmc_scratch250; /* 0x90c */ u32 pmc_scratch251; /* 0x910 */ u32 pmc_scratch252; /* 0x914 */ u32 pmc_scratch253; /* 0x918 */ u32 pmc_scratch254; /* 0x91c */ u32 pmc_scratch255; /* 0x920 */ u32 pmc_scratch256; /* 0x924 */ u32 pmc_scratch257; /* 0x928 */ u32 pmc_scratch258; /* 0x92c */ u32 pmc_scratch259; /* 0x930 */ u32 pmc_scratch260; /* 0x934 */ u32 pmc_scratch261; /* 0x938 */ u32 pmc_scratch262; /* 0x93c */ u32 pmc_scratch263; /* 0x940 */ u32 pmc_scratch264; /* 0x944 */ u32 pmc_scratch265; /* 0x948 */ u32 pmc_scratch266; /* 0x94c */ u32 pmc_scratch267; /* 0x950 */ u32 pmc_scratch268; /* 0x954 */ u32 pmc_scratch269; /* 0x958 */ u32 pmc_scratch270; /* 0x95c */ u32 pmc_scratch271; /* 0x960 */ u32 pmc_scratch272; /* 0x964 */ u32 pmc_scratch273; /* 0x968 */ u32 pmc_scratch274; /* 0x96c */ u32 pmc_scratch275; /* 0x970 */ u32 pmc_scratch276; /* 0x974 */ u32 pmc_scratch277; /* 0x978 */ u32 pmc_scratch278; /* 0x97c */ u32 pmc_scratch279; /* 0x980 */ u32 pmc_scratch280; /* 0x984 */ u32 pmc_scratch281; /* 0x988 */ u32 pmc_scratch282; /* 0x98c */ u32 pmc_scratch283; /* 0x990 */ u32 pmc_scratch284; /* 0x994 */ u32 pmc_scratch285; /* 0x998 */ u32 pmc_scratch286; /* 0x99c */ u32 pmc_scratch287; /* 0x9a0 */ u32 pmc_scratch288; /* 0x9a4 */ u32 pmc_scratch289; /* 0x9a8 */ u32 pmc_scratch290; /* 0x9ac */ u32 pmc_scratch291; /* 0x9b0 */ u32 pmc_scratch292; /* 0x9b4 */ u32 pmc_scratch293; /* 0x9b8 */ u32 pmc_scratch294; /* 0x9bc */ u32 pmc_scratch295; /* 0x9c0 */ u32 pmc_scratch296; /* 0x9c4 */ u32 pmc_scratch297; /* 0x9c8 */ u32 pmc_scratch298; /* 0x9cc */ u32 pmc_scratch299; /* 0x9d0 */ u32 rsvd_9d0[30]; /* 0xa48 */ u32 pmc_scratch_write_disable0_b01; /* 0xa4c */ u32 pmc_scratch_write_disable1_b01; /* 0xa50 */ u32 pmc_scratch_write_disable2_b01; /* 0xa54 */ u32 pmc_scratch_write_disable3_b01; /* 0xa58 */ u32 pmc_scratch_write_disable4_b01; /* 0xa5c */ u32 pmc_scratch_write_disable5_b01; /* 0xa60 */ u32 pmc_scratch_write_disable6_b01; /* 0xa64 */ u32 pmc_scratch_write_disable7_b01; /* 0xa68 */ u32 pmc_scratch_write_disable8_b01; /* 0xa6c */ u32 pmc_scratch_write_disable9_b01; /* 0xa70 */ u32 pmc_scratch_write_disable10_b01; /* 0xa74 */ u32 pmc_scratch_write_lock_disable_sticky_b01; /* 0xa78 */ u32 rsvd_a78[8]; /* 0xa98 */ u32 pmc_secure_scratch80; /* 0xa9c */ u32 pmc_secure_scratch81; /* 0xaa0 */ u32 pmc_secure_scratch82; /* 0xaa4 */ u32 pmc_secure_scratch83; /* 0xaa8 */ u32 pmc_secure_scratch84; /* 0xaac */ u32 pmc_secure_scratch85; /* 0xab0 */ u32 pmc_secure_scratch86; /* 0xab4 */ u32 pmc_secure_scratch87; /* 0xab8 */ u32 pmc_secure_scratch88; /* 0xabc */ u32 pmc_secure_scratch89; /* 0xac0 */ u32 pmc_secure_scratch90; /* 0xac4 */ u32 pmc_secure_scratch91; /* 0xac8 */ u32 pmc_secure_scratch92; /* 0xacc */ u32 pmc_secure_scratch93; /* 0xad0 */ u32 pmc_secure_scratch94; /* 0xad4 */ u32 pmc_secure_scratch95; /* 0xad8 */ u32 pmc_secure_scratch96; /* 0xadc */ u32 pmc_secure_scratch97; /* 0xae0 */ u32 pmc_secure_scratch98; /* 0xae4 */ u32 pmc_secure_scratch99; /* 0xae8 */ u32 pmc_secure_scratch100; /* 0xaec */ u32 pmc_secure_scratch101; /* 0xaf0 */ u32 pmc_secure_scratch102; /* 0xaf4 */ u32 pmc_secure_scratch103; /* 0xaf8 */ u32 pmc_secure_scratch104; /* 0xafc */ u32 pmc_secure_scratch105; /* 0xb00 */ u32 pmc_secure_scratch106; /* 0xb04 */ u32 pmc_secure_scratch107; /* 0xb08 */ u32 pmc_secure_scratch108; /* 0xb0c */ u32 pmc_secure_scratch109; /* 0xb10 */ u32 pmc_secure_scratch110; /* 0xb14 */ u32 pmc_secure_scratch111; /* 0xb18 */ u32 pmc_secure_scratch112; /* 0xb1c */ u32 pmc_secure_scratch113; /* 0xb20 */ u32 pmc_secure_scratch114; /* 0xb24 */ u32 pmc_secure_scratch115; /* 0xb28 */ u32 pmc_secure_scratch116; /* 0xb2c */ u32 pmc_secure_scratch117; /* 0xb30 */ u32 pmc_secure_scratch118; /* 0xb34 */ u32 pmc_secure_scratch119; /* 0xb38 */ u32 pmc_secure_scratch120_b01; /* 0xb3c */ u32 pmc_secure_scratch121_b01; /* 0xb40 */ u32 pmc_secure_scratch122_b01; /* 0xb44 */ u32 pmc_secure_scratch123_b01; /* 0xb48 */ u32 pmc_led_breathing_ctrl_b01; /* 0xb4c */ u32 pmc_led_breathing_counter0_b01; // Slope Steps. /* 0xb50 */ u32 pmc_led_breathing_counter1_b01; // ON counter. /* 0xb54 */ u32 pmc_led_breathing_counter2_b01; // OFF counter1. /* 0xb58 */ u32 pmc_led_breathing_counter3_b01; // OFF counter0. /* 0xb5c */ u32 pmc_led_breathing_status_b01; /* 0xb60 */ u32 rsvd_b60[2]; /* 0xb68 */ u32 pmc_secure_scratch124_b01; /* 0xb6c */ u32 pmc_secure_scratch125_b01; /* 0xb70 */ u32 pmc_secure_scratch126_b01; /* 0xb74 */ u32 pmc_secure_scratch127_b01; /* 0xb78 */ u32 pmc_secure_scratch128_b01; /* 0xb7c */ u32 pmc_secure_scratch129_b01; /* 0xb80 */ u32 pmc_secure_scratch130_b01; /* 0xb84 */ u32 pmc_secure_scratch131_b01; /* 0xb88 */ u32 pmc_secure_scratch132_b01; /* 0xb8c */ u32 pmc_secure_scratch133_b01; /* 0xb90 */ u32 pmc_secure_scratch134_b01; /* 0xb94 */ u32 pmc_secure_scratch135_b01; /* 0xb98 */ u32 pmc_secure_scratch136_b01; /* 0xb9c */ u32 pmc_secure_scratch137_b01; /* 0xba0 */ u32 pmc_secure_scratch138_b01; /* 0xba4 */ u32 pmc_secure_scratch139_b01; /* 0xba8 */ u32 rsvd_ba8[2]; /* 0xbb0 */ u32 pmc_sec_disable_ns_b01; /* 0xbb4 */ u32 pmc_sec_disable2_ns_b01; /* 0xbb8 */ u32 pmc_sec_disable3_ns_b01; /* 0xbbc */ u32 pmc_sec_disable4_ns_b01; /* 0xbc0 */ u32 pmc_sec_disable5_ns_b01; /* 0xbc4 */ u32 pmc_sec_disable6_ns_b01; /* 0xbc8 */ u32 pmc_sec_disable7_ns_b01; /* 0xbcc */ u32 pmc_sec_disable8_ns_b01; /* 0xbd0 */ u32 pmc_sec_disable9_ns_b01; /* 0xbd4 */ u32 pmc_sec_disable10_ns_b01; /* 0xbd8 */ u32 rsvd_bd8[4]; /* 0xbe8 */ u32 pmc_tzram_pwr_cntrl_b01; /* 0xbec */ u32 pmc_tzram_sec_disable_b01; /* 0xbf0 */ u32 pmc_tzram_non_sec_disable_b01; } pmc_regs_t210_t; #endif /* _PMC_T210_H_ */ ================================================ FILE: bdk/soc/t210.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2023 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _T210_H_ #define _T210_H_ #include #define IROM_BASE 0x100000 #define IRAM_BASE 0x40000000 #define HOST1X_BASE 0x50000000 #define BPMP_CACHE_BASE 0x50040000 #define MSELECT_BASE 0x50060000 #define DPAUX1_BASE 0x54040000 #define TSEC2_BASE 0x54100000 #define DISPLAY_A_BASE 0x54200000 #define DISPLAY_B_BASE 0x54240000 #define DSI_BASE 0x54300000 #define VIC_BASE 0x54340000 #define NVJPG_BASE 0x54380000 #define NVDEC_BASE 0x54480000 #define NVENC_BASE 0x544C0000 #define TSEC_BASE 0x54500000 #define SOR1_BASE 0x54580000 #define GPU_BASE 0x57000000 #define GPU_USER_BASE 0x58000000 #define PG_BASE 0x60000000 #define RES_SEMAPH_BASE 0x60001000 #define ARB_SEMAPH_BASE 0x60002000 #define ARB_PRI_BASE 0x60003000 #define ICTLR_BASE 0x60004000 #define TMR_BASE 0x60005000 #define CLOCK_BASE 0x60006000 #define FLOW_CTLR_BASE 0x60007000 #define AHBDMA_BASE 0x60008000 #define SYSREG_BASE 0x6000C000 #define SB_BASE (SYSREG_BASE + 0x200) #define ACTMON_BASE 0x6000C800 #define GPIO_BASE 0x6000D000 #define EXCP_VEC_BASE 0x6000F000 #define IPATCH_BASE 0x6001DC00 #define APBDMA_BASE 0x60020000 #define VGPIO_BASE 0x60024000 #define APB_MISC_BASE 0x70000000 #define PINMUX_AUX_BASE 0x70003000 #define UART_BASE 0x70006000 #define PWM_BASE 0x7000A000 #define I2C_BASE 0x7000C000 #define RTC_BASE 0x7000E000 #define PMC_BASE 0x7000E400 #define FUSE_BASE 0x7000F800 #define KFUSE_BASE 0x7000FC00 #define SE_BASE 0x70012000 #define TSENSOR_BASE 0x70014000 #define ATOMICS_BASE 0x70016000 #define MC_BASE 0x70019000 #define EMC_BASE 0x7001B000 #define MC0_BASE 0x7001C000 #define MC1_BASE 0x7001D000 #define EMC0_BASE 0x7001E000 #define EMC1_BASE 0x7001F000 #define XUSB_HOST_BASE 0x70090000 #define XUSB_PADCTL_BASE 0x7009F000 #define XUSB_DEV_BASE 0x700D0000 #define SDMMC_BASE 0x700B0000 #define SOC_THERM_BASE 0x700E2000 #define MIPI_CAL_BASE 0x700E3000 #define SYSCTR0_BASE 0x700F0000 #define SYSCTR1_BASE 0x70100000 #define CL_DVFS_BASE 0x70110000 #define APE_BASE 0x702C0000 #define AHUB_BASE 0x702D0000 #define ADMAIF_BASE 0x702D0000 #define AXBAR_BASE 0x702D0800 #define I2S_BASE 0x702D1000 #define ADMA_BASE 0x702E2000 #define AMC_BASE 0x702EF000 #define SE2_BASE 0x70412000 #define SE_PKA1_BASE 0x70420000 #define TZRAM_BASE 0x7C010000 #define TZRAM_SIZE 0x10000 #define TZRAM_T210B01_SIZE 0x3C000 #define USB_BASE 0x7D000000 #define USB_OTG_BASE USB_BASE #define USB1_BASE 0x7D004000 #define EMEM_BASE 0x80000000 #define MMIO_REG32(base, off) *(vu32 *)((base) + (off)) #define HOST1X(off) MMIO_REG32(HOST1X_BASE, off) #define BPMP_CACHE_CTRL(off) MMIO_REG32(BPMP_CACHE_BASE, off) #define MSELECT(off) MMIO_REG32(MSELECT_BASE, off) #define DPAUX1(off) MMIO_REG32(DPAUX1_BASE, off) #define TSEC2(off) MMIO_REG32(TSEC2_BASE, off) #define DISPLAY_A(off) MMIO_REG32(DISPLAY_A_BASE, (off) << 2u) #define DISPLAY_B(off) MMIO_REG32(DISPLAY_B_BASE, (off) << 2u) #define DSI(off) MMIO_REG32(DSI_BASE, (off) << 2u) #define VIC(off) MMIO_REG32(VIC_BASE, off) #define NVJPG(off) MMIO_REG32(NVJPG_BASE, off) #define NVDEC(off) MMIO_REG32(NVDEC_BASE, off) #define NVENC(off) MMIO_REG32(NVENC_BASE, off) #define TSEC(off) MMIO_REG32(TSEC_BASE, off) #define SOR1(off) MMIO_REG32(SOR1_BASE, off) #define GPU(off) MMIO_REG32(GPU_BASE, off) #define GPU_USER(off) MMIO_REG32(GPU_USER_BASE, off) #define PG(off) MMIO_REG32(PG_BASE, off) #define ARB_PRI(off) MMIO_REG32(ARB_PRI_BASE, off) #define ICTLR(cidx, off) MMIO_REG32(ICTLR_BASE + (0x100 * (cidx)), off) #define TMR(off) MMIO_REG32(TMR_BASE, off) #define CLOCK(off) MMIO_REG32(CLOCK_BASE, off) #define FLOW_CTLR(off) MMIO_REG32(FLOW_CTLR_BASE, off) #define AHBDMA(off) MMIO_REG32(AHBDMA_BASE, off) #define SYSREG(off) MMIO_REG32(SYSREG_BASE, off) #define AHB_GIZMO(off) MMIO_REG32(SYSREG_BASE, off) #define SB(off) MMIO_REG32(SB_BASE, off) #define ACTMON(off) MMIO_REG32(ACTMON_BASE, off) #define GPIO(off) MMIO_REG32(GPIO_BASE, off) #define EXCP_VEC(off) MMIO_REG32(EXCP_VEC_BASE, off) #define APBDMA(off) MMIO_REG32(APBDMA_BASE, off) #define VGPIO(off) MMIO_REG32(VGPIO_BASE, off) #define APB_MISC(off) MMIO_REG32(APB_MISC_BASE, off) #define PINMUX_AUX(off) MMIO_REG32(PINMUX_AUX_BASE, off) #define PWM(off) MMIO_REG32(PWM_BASE, off) #define RTC(off) MMIO_REG32(RTC_BASE, off) #define PMC(off) MMIO_REG32(PMC_BASE, off) #define SYSCTR0(off) MMIO_REG32(SYSCTR0_BASE, off) #define SYSCTR1(off) MMIO_REG32(SYSCTR1_BASE, off) #define FUSE(off) MMIO_REG32(FUSE_BASE, off) #define KFUSE(off) MMIO_REG32(KFUSE_BASE, off) #define SE(off) MMIO_REG32(SE_BASE, off) #define MC(off) MMIO_REG32(MC_BASE, off) #define EMC(off) MMIO_REG32(EMC_BASE, off) #define MC_CH0(off) MMIO_REG32(MC0_BASE, off) #define MC_CH1(off) MMIO_REG32(MC1_BASE, off) #define EMC_CH0(off) MMIO_REG32(EMC0_BASE, off) #define EMC_CH1(off) MMIO_REG32(EMC1_BASE, off) #define XUSB_HOST(off) MMIO_REG32(XUSB_HOST_BASE, off) #define XUSB_PADCTL(off) MMIO_REG32(XUSB_PADCTL_BASE, off) #define XUSB_DEV(off) MMIO_REG32(XUSB_DEV_BASE, off) #define XUSB_DEV_XHCI(off) MMIO_REG32(XUSB_DEV_BASE, off) #define XUSB_DEV_PCI(off) MMIO_REG32(XUSB_DEV_BASE + 0x8000, off) #define XUSB_DEV_DEV(off) MMIO_REG32(XUSB_DEV_BASE + 0x9000, off) #define MIPI_CAL(off) MMIO_REG32(MIPI_CAL_BASE, (off) << 2u) #define CL_DVFS(off) MMIO_REG32(CL_DVFS_BASE, off) #define I2S(off) MMIO_REG32(I2S_BASE, off) #define ADMA(off) MMIO_REG32(ADMA_BASE, off) #define AMC(off) MMIO_REG32(AMC_BASE, off) #define SE2(off) MMIO_REG32(SE2_BASE, off) #define SE_PKA1(off) MMIO_REG32(SE_PKA1_BASE, off) #define USB(off) MMIO_REG32(USB_BASE, off) #define USB1(off) MMIO_REG32(USB1_BASE, off) #define TEST_REG(off) MMIO_REG32(0x0, off) /* HOST1X v3 registers. */ #define HOST1X_CH0_SYNC_BASE 0x2100 #define HOST1X_CH0_SYNC_SYNCPT_BASE (HOST1X_CH0_SYNC_BASE + 0xF80) #define HOST1X_CH0_SYNC_SYNCPT_9 (HOST1X_CH0_SYNC_SYNCPT_BASE + 0x24) #define HOST1X_CH0_SYNC_SYNCPT_160 (HOST1X_CH0_SYNC_SYNCPT_BASE + 0x280) /*! EVP registers. */ #define EVP_CPU_RESET_VECTOR 0x100 #define EVP_COP_RESET_VECTOR 0x200 #define EVP_COP_UNDEF_VECTOR 0x204 #define EVP_COP_SWI_VECTOR 0x208 #define EVP_COP_PREFETCH_ABORT_VECTOR 0x20C #define EVP_COP_DATA_ABORT_VECTOR 0x210 #define EVP_COP_RSVD_VECTOR 0x214 #define EVP_COP_IRQ_VECTOR 0x218 #define EVP_COP_FIQ_VECTOR 0x21C #define EVP_COP_IRQ_STS 0x220 /*! Primary Interrupt Controller registers. */ #define PRI_ICTLR_ISR 0x10 #define PRI_ICTLR_FIR 0x14 #define PRI_ICTLR_FIR_SET 0x18 #define PRI_ICTLR_FIR_CLR 0x1C #define PRI_ICTLR_CPU_IER 0x20 #define PRI_ICTLR_CPU_IER_SET 0x24 #define PRI_ICTLR_CPU_IER_CLR 0x28 #define PRI_ICTLR_CPU_IEP_CLASS 0x2C #define PRI_ICTLR_COP_IER 0x30 #define PRI_ICTLR_COP_IER_SET 0x34 #define PRI_ICTLR_COP_IER_CLR 0x38 #define PRI_ICTLR_COP_IEP_CLASS 0x3C /* Arbiter registers */ #define ARB_PRIO_CPU_PRIORITY 0x0 #define ARB_PRIO_COP_PRIORITY 0x4 #define ARB_PRIO_VCP_PRIORITY 0x8 #define ARB_PRIO_DMA_PRIORITY 0xC #define ARB_PRIO_UCQ_PRIORITY 0x10 /*! AHB Gizmo registers. */ #define AHB_ARBITRATION_PRIORITY_CTRL 0x8 #define PRIORITY_CTRL_WEIGHT(x) (((x) & 7) << 29) #define PRIORITY_SELECT_USB BIT(6) // USB-OTG. #define PRIORITY_SELECT_USB2 BIT(18) // USB-HSIC. #define PRIORITY_SELECT_USB3 BIT(17) // XUSB. #define AHB_GIZMO_AHB_MEM 0x10 #define AHB_MEM_ENB_FAST_REARBITRATE BIT(2) #define AHB_MEM_DONT_SPLIT_AHB_WR BIT(7) #define AHB_MEM_IMMEDIATE BIT(18) #define AHB_GIZMO_APB_DMA 0x14 #define AHB_GIZMO_USB 0x20 #define AHB_GIZMO_SDMMC4 0x48 #define AHB_GIZMO_USB2 0x7C #define AHB_GIZMO_USB3 0x80 // Doesn't exist on T21x?? #define AHB_GIZMO_IMMEDIATE BIT(18) #define AHB_ARBITRATION_XBAR_CTRL 0xE0 #define AHB_AHB_MEM_PREFETCH_CFG3 0xE4 #define AHB_AHB_MEM_PREFETCH_CFG4 0xE8 #define AHB_AHB_MEM_PREFETCH_CFG1 0xF0 #define AHB_AHB_MEM_PREFETCH_CFG2 0xF4 #define MST_ID(x) (((x) & 0x1F) << 26) #define MEM_PREFETCH_AHBDMA_MST_ID MST_ID(5) #define MEM_PREFETCH_USB_MST_ID MST_ID(6) // USB-OTG. Doesn't exist on T210B01. #define MEM_PREFETCH_USB2_MST_ID MST_ID(18) // USB-HSIC. Doesn't exist on T210B01. #define MEM_PREFETCH_USB3_MST_ID MST_ID(17) // XUSB. Doesn't exist on T210B01. #define MEM_PREFETCH_ADDR_BNDRY(x) (((x) & 0xF) << 21) #define MEM_PREFETCH_ENABLE BIT(31) #define AHB_ARBITRATION_AHB_MEM_WRQUE_MST_ID 0xFC #define MEM_WRQUE_SE_MST_ID BIT(14) #define AHB_AHB_SPARE_REG 0x110 /*! Misc registers. */ #define APB_MISC_PP_STRAPPING_OPT_A 0x8 #define APB_MISC_PP_PINMUX_GLOBAL 0x40 #define APB_MISC_GP_HIDREV 0x804 #define GP_HIDREV_MAJOR_T210 0x1 #define GP_HIDREV_MAJOR_T210B01 0x2 #define APB_MISC_GP_ASDBGREG 0x810 #define APB_MISC_GP_TRANSACTOR_SCRATCH 0x864 #define APB_MISC_GP_AVP_TRANSACTOR_SCRATCH 0x880 #define APB_MISC_GP_CPU0_TRANSACTOR_SCRATCH 0x884 #define APB_MISC_GP_CPU1_TRANSACTOR_SCRATCH 0x888 #define APB_MISC_GP_CPU2_TRANSACTOR_SCRATCH 0x88C #define APB_MISC_GP_CPU3_TRANSACTOR_SCRATCH 0x890 #define APB_MISC_GP_AUD_MCLK_CFGPADCTRL 0x8F4 #define APB_MISC_GP_LCD_BL_PWM_CFGPADCTRL 0xA34 #define APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL 0xA98 #define APB_MISC_GP_EMMC2_PAD_CFGPADCTRL 0xA9C #define APB_MISC_GP_EMMC4_PAD_CFGPADCTRL 0xAB4 #define APB_MISC_GP_EMMC4_PAD_PUPD_CFGPADCTRL 0xABC #define APB_MISC_GP_DSI_PAD_CONTROL 0xAC0 #define APB_MISC_GP_WIFI_EN_CFGPADCTRL 0xB64 #define APB_MISC_GP_WIFI_RST_CFGPADCTRL 0xB68 /*! Secure boot registers. */ #define SB_CSR 0x0 #define SB_CSR_NS_RST_VEC_WR_DIS BIT(1) #define SB_CSR_PIROM_DISABLE BIT(4) #define SB_AA64_RESET_LOW 0x30 #define SB_AA64_RST_AARCH64_MODE_EN BIT(0) #define SB_AA64_RESET_HIGH 0x34 /*! SOR registers. */ #define SOR_DP_HDCP_BKSV_LSB 0x1E8 #define SOR_TMDS_HDCP_BKSV_LSB 0x21C #define SOR_TMDS_HDCP_CN_MSB 0x208 #define SOR_TMDS_HDCP_CN_LSB 0x20C /*! RTC registers. */ #define APBDEV_RTC_SECONDS 0x8 #define APBDEV_RTC_SHADOW_SECONDS 0xC #define APBDEV_RTC_MILLI_SECONDS 0x10 /*! SYSCTR0 registers. */ #define SYSCTR0_CNTCR 0x00 #define SYSCTR0_CNTFID0 0x20 #define SYSCTR0_COUNTERS_BASE 0xFD0 #define SYSCTR0_COUNTERS 12 #define SYSCTR0_COUNTERID0 0xFE0 #define SYSCTR0_COUNTERID1 0xFE4 #define SYSCTR0_COUNTERID2 0xFE8 #define SYSCTR0_COUNTERID3 0xFEC #define SYSCTR0_COUNTERID4 0xFD0 #define SYSCTR0_COUNTERID5 0xFD4 #define SYSCTR0_COUNTERID6 0xFD8 #define SYSCTR0_COUNTERID7 0xFDC #define SYSCTR0_COUNTERID8 0xFF0 #define SYSCTR0_COUNTERID9 0xFF4 #define SYSCTR0_COUNTERID10 0xFF8 #define SYSCTR0_COUNTERID11 0xFFC /*! IPATCH registers. */ #define IPATCH_CAM_VALID 0x0 #define IPATCH_CAM_BASE 0x4 #define IPATCH_CAM(i) (IPATCH_CAM_BASE + (i) * 4) #define IPATCH_CAM_ENTRIES 12 /*! I2S registers. */ #define I2S_CG 0x88 #define I2S_CTRL 0xA0 #define I2S1_CG I2S_CG #define I2S1_CTRL I2S_CTRL #define I2S2_CG 0x188 #define I2S2_CTRL 0x1A0 #define I2S3_CG 0x288 #define I2S3_CTRL 0x2A0 #define I2S4_CG 0x388 #define I2S4_CTRL 0x3A0 #define I2S5_CG 0x488 #define I2S5_CTRL 0x4A0 #define I2S_CG_SLCG_DISABLE 0 #define I2S_CG_SLCG_ENABLE BIT(0) #define I2S_CTRL_MASTER_EN BIT(10) /*! PWM registers. */ #define PWM_CONTROLLER_PWM_CSR_0 0x00 #define PWM_CONTROLLER_PWM_CSR_1 0x10 #define PWM_CSR_EN BIT(31) /*! Special registers. */ #define EMC_SCRATCH0 0x324 #define EMC_HEKA_UPD BIT(30) /*! Flow controller registers. */ #define FLOW_CTLR_HALT_COP_EVENTS 0x4 #define FLOW_CTLR_HALT_CPU0_EVENTS 0x0 #define FLOW_CTLR_HALT_CPU1_EVENTS 0x14 #define FLOW_CTLR_HALT_CPU2_EVENTS 0x1C #define FLOW_CTLR_HALT_CPU3_EVENTS 0x24 #define HALT_GIC_IRQ BIT(9) #define HALT_LIC_IRQ BIT(11) #define HALT_SEC BIT(23) #define HALT_MSEC BIT(24) #define HALT_USEC BIT(25) #define HALT_JTAG BIT(28) #define HALT_MODE_NONE (0 << 29u) #define HALT_MODE_RUN_AND_INT (1 << 29u) #define HALT_MODE_WAITEVENT (2 << 29u) #define HALT_MODE_WAITEVENT_AND_INT (3 << 29u) #define HALT_MODE_STOP_UNTIL_IRQ (4 << 29u) #define HALT_MODE_STOP_UNTIL_IRQ_AND_INT (5 << 29u) #define HALT_MODE_STOP_UNTIL_EVENT_AND_IRQ (6 << 29u) #define HALT_MAX_CNT 0xFF #define FLOW_CTLR_COP_CSR 0xC #define FLOW_CTLR_CPU0_CSR 0x8 #define FLOW_CTLR_CPU1_CSR 0x18 #define FLOW_CTLR_CPU2_CSR 0x20 #define FLOW_CTLR_CPU3_CSR 0x28 #define CSR_ENABLE BIT(0) #define CSR_WAIT_WFI_NONE (0 << 8u) #define CSR_WAIT_WFI_CPU0 (BIT(0) << 8u) #define CSR_ENABLE_EXT_CPU_ONLY (0 << 12u) #define CSR_ENABLE_EXT_CPU_NCPU (1 << 12u) #define CSR_ENABLE_EXT_CPU_RAIL (2 << 12u) #define CSR_EVENT_FLAG BIT(14) #define CSR_INTR_FLAG BIT(15) #define CSR_HALT BIT(22) #define FLOW_CTLR_CPU_PWR_CSR 0x38 #define CPU_PWR_RAIL_STS_MASK (3 << 1u) #define CPU_PWR_RAIL_OFF 0 #define FLOW_CTLR_RAM_REPAIR 0x40 #define RAM_REPAIR_REQ BIT(0) #define RAM_REPAIR_STS BIT(1) #define FLOW_CTLR_BPMP_CLUSTER_CONTROL 0x98 #define CLUSTER_CTRL_ACTIVE_SLOW BIT(0) /* MSelect registers */ #define MSELECT_CONFIG 0x00 #define MSELECT_CFG_ERR_RESP_EN_PCIE BIT(24) #define MSELECT_CFG_ERR_RESP_EN_GPU BIT(25) #define MSELECT_CFG_WRAP_TO_INCR_BPMP BIT(27) #define MSELECT_CFG_WRAP_TO_INCR_PCIE BIT(28) #define MSELECT_CFG_WRAP_TO_INCR_GPU BIT(29) /* NVDEC registers */ #define NVDEC_SA_KEYSLOT_FALCON 0x2100 #define NVDEC_SA_KEYSLOT_TZ 0x2104 #define NVDEC_SA_KEYSLOT_OTF 0x210C #define NVDEC_SA_KEYSLOT_GLOBAL_RW 0x2118 #define NVDEC_VPR_ALL_OTF_GOTO_VPR 0x211C /* PG registers */ #define PG_UP_TAG 0x0 // Changes depending on what does the reg read request. #define TAG_PID_CCPLEX 0x55555555 #define TAG_PID_BPMP 0xAAAAAAAA #define TAG_PID_COP2 0x99999999 #define TAG_PID_OTHER 0xCCCCCCCC #endif ================================================ FILE: bdk/soc/timer.c ================================================ /* * Timer/Watchdog driver for Tegra X1 * * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #define EXCP_TYPE_ADDR 0x4003FF18 #define EXCP_TYPE_WDT 0x544457 // "WDT". #define USE_RTC_TIMER u32 get_tmr_s() { (void)RTC(APBDEV_RTC_MILLI_SECONDS); return (u32)RTC(APBDEV_RTC_SECONDS); } u32 get_tmr_ms() { // The registers must be read with the following order: // RTC_MILLI_SECONDS (0x10) -> RTC_SHADOW_SECONDS (0xC) return (u32)(RTC(APBDEV_RTC_MILLI_SECONDS) + (RTC(APBDEV_RTC_SHADOW_SECONDS) * 1000)); } u32 get_tmr_us() { return (u32)TMR(TIMERUS_CNTR_1US); } void msleep(u32 ms) { #ifdef USE_RTC_TIMER u32 start = (u32)RTC(APBDEV_RTC_MILLI_SECONDS) + (RTC(APBDEV_RTC_SHADOW_SECONDS) * 1000); // Casting to u32 is important! while (((u32)(RTC(APBDEV_RTC_MILLI_SECONDS) + (RTC(APBDEV_RTC_SHADOW_SECONDS) * 1000)) - start) <= ms) ; #else bpmp_msleep(ms); #endif } void usleep(u32 us) { #ifdef USE_RTC_TIMER u32 start = (u32)TMR(TIMERUS_CNTR_1US); // Check if timer is at upper limits and use BPMP sleep so it doesn't wake up immediately. if ((start + us) < start) bpmp_usleep(us); else while ((u32)(TMR(TIMERUS_CNTR_1US) - start) <= us) // Casting to u32 is important! ; #else bpmp_usleep(us); #endif } // Instruction wait loop. Each loop is 3 cycles (SUBS+BGT). Usage: isleep(ILOOP(instr)). Base 408MHz: 7.35ns. void __attribute__((target("arm"))) isleep(u32 is) { asm volatile( "0:" "SUBS %[is_cnt], #1;" "BGT 0b;" : [is_cnt] "+r" (is)); } void timer_usleep(u32 us) { TMR(TIMER_TMR8_TMR_PTV) = TIMER_EN | us; irq_wait_event(IRQ_TMR8); TMR(TIMER_TMR8_TMR_PCR) = TIMER_INTR_CLR; } void watchdog_start(u32 us, u32 mode) { // WDT4 is for BPMP. TMR(TIMER_WDT4_UNLOCK_PATTERN) = TIMER_MAGIC_PTRN; TMR(TIMER_TMR9_TMR_PTV) = TIMER_EN | TIMER_PER_EN | us; TMR(TIMER_WDT4_CONFIG) = TIMER_SRC(9) | TIMER_PER(1) | mode; TMR(TIMER_WDT4_COMMAND) = TIMER_START_CNT; } void watchdog_end() { // WDT4 is for BPMP. TMR(TIMER_TMR9_TMR_PTV) = 0; TMR(TIMER_WDT4_UNLOCK_PATTERN) = TIMER_MAGIC_PTRN; TMR(TIMER_WDT4_COMMAND) = TIMER_START_CNT; // Re-arm to clear any interrupts. TMR(TIMER_WDT4_COMMAND) = TIMER_CNT_DISABLE; TMR(TIMER_TMR9_TMR_PCR) = TIMER_INTR_CLR; } void watchdog_handle() { // Disable watchdog and clear its interrupts. watchdog_end(); // Set watchdog magic. *(u32 *)EXCP_TYPE_ADDR = EXCP_TYPE_WDT; } bool watchdog_fired() { // Return if watchdog got fired. User handles clearing. return (*(u32 *)EXCP_TYPE_ADDR == EXCP_TYPE_WDT); } ================================================ FILE: bdk/soc/timer.h ================================================ /* * Timer/Watchdog driver for Tegra X1 * * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _TIMER_H_ #define _TIMER_H_ #include // TMR registers. #define TIMERUS_CNTR_1US (0x10 + 0x0) #define TIMERUS_USEC_CFG (0x10 + 0x4) #define TIMER_TMR8_TMR_PTV 0x78 #define TIMER_TMR9_TMR_PTV 0x80 #define TIMER_PER_EN BIT(30) #define TIMER_EN BIT(31) #define TIMER_TMR8_TMR_PCR 0x7C #define TIMER_TMR9_TMR_PCR 0x8C #define TIMER_INTR_CLR BIT(30) // WDT registers. #define TIMER_WDT4_CONFIG (0x100 + 0x80) #define TIMER_SRC(TMR) ((TMR) & 0xF) #define TIMER_PER(PER) (((PER) & 0xFF) << 4) #define TIMER_IRQENABL_EN BIT(12) #define TIMER_FIQENABL_EN BIT(13) #define TIMER_SYSRESET_EN BIT(14) #define TIMER_PMCRESET_EN BIT(15) #define TIMER_WDT4_COMMAND (0x108 + 0x80) #define TIMER_START_CNT BIT(0) #define TIMER_CNT_DISABLE BIT(1) #define TIMER_WDT4_UNLOCK_PATTERN (0x10C + 0x80) #define TIMER_MAGIC_PTRN 0xC45A u32 get_tmr_us(); u32 get_tmr_ms(); u32 get_tmr_s(); void usleep(u32 us); void msleep(u32 ms); #define ILOOP(is) ((is) / 3) void isleep(u32 is); void timer_usleep(u32 us); void watchdog_start(u32 us, u32 mode); void watchdog_end(); void watchdog_handle(); bool watchdog_fired(); #endif ================================================ FILE: bdk/soc/uart.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include /* UART A, B, C, D and E. */ static const u16 _uart_base_offsets[5] = { 0, 0x40, 0x200, 0x300, 0x400 }; void uart_init(u32 idx, u32 baud, u32 mode) { uart_t *uart = (uart_t *)(UART_BASE + (u32)_uart_base_offsets[idx]); // Make sure no data is being sent. if (!(mode & (UART_MCR_CTS_EN | UART_MCR_DTR))) uart_wait_xfer(idx, UART_TX_IDLE); // Set clock. bool clk_type = clock_uart_use_src_div(idx, baud); // 2 STOP bits for rates > 1M. (Reduced efficiency but less errors on high baudrates). u32 uart_lcr_stop = baud > 1000000 ? UART_LCR_STOP : 0; // Misc settings. u32 div = clk_type ? ((8 * baud + 408000000) / (16 * baud)) : 1; // DIV_ROUND_CLOSEST. uart->UART_IER_DLAB = 0; // Disable interrupts. uart->UART_LCR = UART_LCR_DLAB | UART_LCR_WORD_LENGTH_8; // Enable DLAB & set 8n1 mode. uart->UART_THR_DLAB = (u8)div; // Divisor latch LSB. uart->UART_IER_DLAB = (u8)(div >> 8); // Divisor latch MSB. // Disable DLAB and set STOP bits setting if applicable. uart->UART_LCR = uart_lcr_stop | UART_LCR_WORD_LENGTH_8; (void)uart->UART_SPR; // Enable fifo. uart->UART_IIR_FCR = UART_IIR_FCR_EN_FIFO; (void)uart->UART_SPR; usleep(20); // Disable hardware flow control. uart->UART_MCR = 0; usleep(96); // Clear tx/rx fifos. uart->UART_IIR_FCR = UART_IIR_FCR_EN_FIFO | UART_IIR_FCR_TX_CLR | UART_IIR_FCR_RX_CLR; // Set hardware flow control. uart->UART_MCR = mode; // Wait 3 symbols for baudrate change. usleep(3 * ((baud + 999999) / baud)); uart_wait_xfer(idx, UART_TX_IDLE | UART_RX_RDYR); } void uart_wait_xfer(u32 idx, u32 which) { uart_t *uart = (uart_t *)(UART_BASE + (u32)_uart_base_offsets[idx]); if (UART_TX_IDLE & which) { while (!(uart->UART_LSR & UART_LSR_TMTY)) ; } if (UART_RX_RDYR & which) { while (uart->UART_LSR & UART_LSR_RDR) (void)uart->UART_THR_DLAB; } } void uart_send(u32 idx, const u8 *buf, u32 len) { uart_t *uart = (uart_t *)(UART_BASE + (u32)_uart_base_offsets[idx]); for (u32 i = 0; i != len; i++) { while (!(uart->UART_LSR & UART_LSR_THRE)) ; uart->UART_THR_DLAB = buf[i]; } } u32 uart_recv(u32 idx, u8 *buf, u32 len) { uart_t *uart = (uart_t *)(UART_BASE + (u32)_uart_base_offsets[idx]); bool manual_mode = uart->UART_MCR & UART_MCR_RTS; u32 timeout = get_tmr_us() + 250; u32 i; if (manual_mode) uart->UART_MCR &= ~UART_MCR_RTS; for (i = 0; ; i++) { if (len && len <= i) break; while (!(uart->UART_LSR & UART_LSR_RDR)) if (timeout < get_tmr_us()) goto out; buf[i] = uart->UART_THR_DLAB; timeout = get_tmr_us() + 250; } out: if (manual_mode) uart->UART_MCR |= UART_MCR_RTS; return i; } void uart_invert(u32 idx, bool enable, u32 invert_mask) { uart_t *uart = (uart_t *)(UART_BASE + (u32)_uart_base_offsets[idx]); if (enable) uart->UART_IRDA_CSR |= invert_mask; else uart->UART_IRDA_CSR &= ~invert_mask; (void)uart->UART_SPR; } void uart_set_mode(u32 idx, u32 mode) { uart_t *uart = (uart_t *)(UART_BASE + (u32)_uart_base_offsets[idx]); uart->UART_MCR = mode; (void)uart->UART_SPR; } u32 uart_get_IIR(u32 idx) { uart_t *uart = (uart_t *)(UART_BASE + (u32)_uart_base_offsets[idx]); u32 iir = uart->UART_IIR_FCR & UART_IIR_INT_MASK; if (iir & UART_IIR_NO_INT) return 0; else return ((iir >> 1) + 1); // Return encoded interrupt. } void uart_set_IIR(u32 idx) { uart_t *uart = (uart_t *)(UART_BASE + (u32)_uart_base_offsets[idx]); uart->UART_IER_DLAB &= ~UART_IER_DLAB_IE_EORD; (void)uart->UART_SPR; uart->UART_IER_DLAB |= UART_IER_DLAB_IE_EORD; (void)uart->UART_SPR; } void uart_empty_fifo(u32 idx, u32 which) { uart_t *uart = (uart_t *)(UART_BASE + (u32)_uart_base_offsets[idx]); uart->UART_MCR = 0; (void)uart->UART_SPR; usleep(96); uart->UART_IIR_FCR = UART_IIR_FCR_EN_FIFO | which; (void)uart->UART_SPR; usleep(18); u32 tries = 0; if (UART_IIR_FCR_TX_CLR & which) { while (tries < 10 && !(uart->UART_LSR & UART_LSR_TMTY)) { tries++; usleep(100); } tries = 0; } if (UART_IIR_FCR_RX_CLR & which) { while (tries < 10 && (uart->UART_LSR & UART_LSR_RDR)) { tries++; usleep(100); } } } #ifdef DEBUG_UART_PORT #include #include #include void uart_printf(const char *fmt, ...) { va_list ap; //! NOTE: Anything more and it will hang. Heap usage is out of the question. char text[256]; va_start(ap, fmt); s_vprintf(text, fmt, ap); va_end(ap); uart_send(DEBUG_UART_PORT, (u8 *)text, strlen(text)); } #endif ================================================ FILE: bdk/soc/uart.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019-2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _UART_H_ #define _UART_H_ #include #define UART_A 0 #define UART_B 1 #define UART_C 2 #define UART_D 3 #define UART_E 4 #define BAUD_115200 115200 #define UART_TX_IDLE BIT(0) #define UART_RX_RDYR BIT(1) #define UART_TX_FIFO_FULL BIT(8) #define UART_RX_FIFO_EMPTY BIT(9) #define UART_INVERT_RXD BIT(0) #define UART_INVERT_TXD BIT(1) #define UART_INVERT_CTS BIT(2) #define UART_INVERT_RTS BIT(3) #define UART_IER_DLAB_IE_EORD BIT(5) #define UART_LCR_WORD_LENGTH_8 0x3 #define UART_LCR_STOP BIT(2) #define UART_LCR_DLAB BIT(7) #define UART_LSR_RDR BIT(0) #define UART_LSR_THRE BIT(5) #define UART_LSR_TMTY BIT(6) #define UART_LSR_FIFOE BIT(7) #define UART_IIR_FCR_EN_FIFO BIT(0) #define UART_IIR_FCR_RX_CLR BIT(1) #define UART_IIR_FCR_TX_CLR BIT(2) #define UART_IIR_NO_INT BIT(0) #define UART_IIR_INT_MASK 0xF /* Custom returned interrupt results. Actual interrupts are -1 */ #define UART_IIR_NOI 0 // No interrupt. #define UART_IIR_MSI 1 // Modem status interrupt. #define UART_IIR_THRI 2 // Transmitter holding register empty. #define UART_IIR_RDI 3 // Receiver data interrupt. #define UART_IIR_ERROR 4 // Overrun Error, Parity Error, Framing Error, Break. #define UART_IIR_REDI 5 // Receiver end of data interrupt. #define UART_IIR_RDTI 7 // Receiver data timeout interrupt. #define UART_MCR_DTR BIT(0) #define UART_MCR_RTS BIT(1) #define UART_MCR_CTS_EN BIT(5) #define UART_MCR_RTS_EN BIT(6) #define UART_FIFO_SIZE 36 typedef struct _uart_t { /* 0x00 */ vu32 UART_THR_DLAB; /* 0x04 */ vu32 UART_IER_DLAB; /* 0x08 */ vu32 UART_IIR_FCR; /* 0x0C */ vu32 UART_LCR; /* 0x10 */ vu32 UART_MCR; /* 0x14 */ vu32 UART_LSR; /* 0x18 */ vu32 UART_MSR; /* 0x1C */ vu32 UART_SPR; /* 0x20 */ vu32 UART_IRDA_CSR; /* 0x24 */ vu32 UART_RX_FIFO_CFG; /* 0x28 */ vu32 UART_MIE; /* 0x2C */ vu32 UART_VENDOR_STATUS; /* 0x30 */ u8 _pad_30[0xC]; /* 0x3C */ vu32 UART_ASR; } uart_t; //! TODO: Commented out modes are not supported yet. typedef enum _uart_mode_t { UART_AO_TX_AO_RX = 0, //UART_MN_TX_AO_RX = UART_MCR_RTS | UART_MCR_DTR, UART_AO_TX_MN_RX = UART_MCR_RTS, // Up to 36 bytes read. //UART_MN_TX_AO_RX = UART_MCR_DTR, //UART_HW_TX_HW_RX = UART_MCR_RTS_EN | UART_MCR_CTS_EN, UART_AO_TX_HW_RX = UART_MCR_RTS_EN, //UART_HW_TX_AO_RX = UART_MCR_CTS_EN, } uart_mode_t; void uart_init(u32 idx, u32 baud, u32 mode); void uart_wait_xfer(u32 idx, u32 which); void uart_send(u32 idx, const u8 *buf, u32 len); u32 uart_recv(u32 idx, u8 *buf, u32 len); void uart_invert(u32 idx, bool enable, u32 invert_mask); void uart_set_mode(u32 idx, u32 mode); u32 uart_get_IIR(u32 idx); void uart_set_IIR(u32 idx); void uart_empty_fifo(u32 idx, u32 which); #ifdef DEBUG_UART_PORT void uart_printf(const char *fmt, ...); #endif #endif ================================================ FILE: bdk/storage/emmc.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "emmc.h" #include #include #include #include static u16 emmc_errors[3] = { 0 }; // Init and Read/Write errors. static u32 emmc_mode = EMMC_MMC_HS400; sdmmc_t emmc_sdmmc; sdmmc_storage_t emmc_storage; FATFS emmc_fs; #ifdef BDK_EMUMMC_ENABLE int emummc_storage_read(u32 sector, u32 num_sectors, void *buf); int emummc_storage_write(u32 sector, u32 num_sectors, void *buf); #endif void emmc_error_count_increment(u8 type) { switch (type) { case EMMC_ERROR_INIT_FAIL: emmc_errors[0]++; break; case EMMC_ERROR_RW_FAIL: emmc_errors[1]++; break; case EMMC_ERROR_RW_RETRY: emmc_errors[2]++; break; } } u16 *emmc_get_error_count() { return emmc_errors; } u32 emmc_get_mode() { return emmc_mode; } void emmc_end() { sdmmc_storage_end(&emmc_storage); } int emmc_init_retry(bool power_cycle) { u32 bus_width = SDMMC_BUS_WIDTH_8; u32 type = SDHCI_TIMING_MMC_HS400; // Power cycle SD eMMC. if (power_cycle) { emmc_mode--; emmc_end(); } // Get init parameters. switch (emmc_mode) { case EMMC_INIT_FAIL: // Reset to max. return 1; case EMMC_1BIT_HS52: bus_width = SDMMC_BUS_WIDTH_1; type = SDHCI_TIMING_MMC_HS52; break; case EMMC_8BIT_HS52: type = SDHCI_TIMING_MMC_HS52; break; case EMMC_MMC_HS200: type = SDHCI_TIMING_MMC_HS200; break; case EMMC_MMC_HS400: type = SDHCI_TIMING_MMC_HS400; break; default: emmc_mode = EMMC_MMC_HS400; } return sdmmc_storage_init_mmc(&emmc_storage, &emmc_sdmmc, bus_width, type); } int emmc_initialize(bool power_cycle) { // Reset mode in case of previous failure. if (emmc_mode == EMMC_INIT_FAIL) emmc_mode = EMMC_MMC_HS400; if (power_cycle) emmc_end(); int res = emmc_init_retry(false); while (true) { if (!res) return 0; else { emmc_errors[EMMC_ERROR_INIT_FAIL]++; if (emmc_mode == EMMC_INIT_FAIL) break; else res = emmc_init_retry(true); } } emmc_end(); return 1; } int emmc_set_partition(u32 partition) { return sdmmc_storage_set_mmc_partition(&emmc_storage, partition); } void emmc_gpt_parse(link_t *gpt) { gpt_t *gpt_buf = (gpt_t *)zalloc(GPT_NUM_BLOCKS * EMMC_BLOCKSIZE); #ifdef BDK_EMUMMC_ENABLE emummc_storage_read(GPT_FIRST_LBA, GPT_NUM_BLOCKS, gpt_buf); #else sdmmc_storage_read(&emmc_storage, GPT_FIRST_LBA, GPT_NUM_BLOCKS, gpt_buf); #endif // Check if no GPT or more than max allowed entries. if (memcmp(&gpt_buf->header.signature, "EFI PART", 8) || gpt_buf->header.num_part_ents > 128) goto out; for (u32 i = 0; i < gpt_buf->header.num_part_ents; i++) { emmc_part_t *part = (emmc_part_t *)zalloc(sizeof(emmc_part_t)); if (gpt_buf->entries[i].lba_start < gpt_buf->header.first_use_lba) continue; part->index = i; part->lba_start = gpt_buf->entries[i].lba_start; part->lba_end = gpt_buf->entries[i].lba_end; part->attrs = gpt_buf->entries[i].attrs; // ASCII conversion. Copy only the LSByte of the UTF-16LE name. for (u32 j = 0; j < 36; j++) part->name[j] = gpt_buf->entries[i].name[j]; part->name[35] = 0; list_append(gpt, &part->link); } out: free(gpt_buf); } void emmc_gpt_free(link_t *gpt) { LIST_FOREACH_SAFE(iter, gpt) free(CONTAINER_OF(iter, emmc_part_t, link)); } emmc_part_t *emmc_part_find(link_t *gpt, const char *name) { LIST_FOREACH_ENTRY(emmc_part_t, part, gpt, link) if (!strcmp(part->name, name)) return part; return NULL; } int emmc_part_read(emmc_part_t *part, u32 sector_off, u32 num_sectors, void *buf) { // The last LBA is inclusive. if (part->lba_start + sector_off > part->lba_end) return 1; #ifdef BDK_EMUMMC_ENABLE return emummc_storage_read(part->lba_start + sector_off, num_sectors, buf); #else return sdmmc_storage_read(&emmc_storage, part->lba_start + sector_off, num_sectors, buf); #endif } int emmc_part_write(emmc_part_t *part, u32 sector_off, u32 num_sectors, void *buf) { // The last LBA is inclusive. if (part->lba_start + sector_off > part->lba_end) return 1; #ifdef BDK_EMUMMC_ENABLE return emummc_storage_write(part->lba_start + sector_off, num_sectors, buf); #else return sdmmc_storage_write(&emmc_storage, part->lba_start + sector_off, num_sectors, buf); #endif } void nx_emmc_get_autorcm_masks(u8 *mod0, u8 *mod1) { if (fuse_read_hw_state() == FUSE_NX_HW_STATE_PROD) { *mod0 = 0xF7; *mod1 = 0x86; } else { *mod0 = 0x37; *mod1 = 0x84; } } ================================================ FILE: bdk/storage/emmc.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _EMMC_H_ #define _EMMC_H_ #include #include #include #include #define GPT_FIRST_LBA 1 #define GPT_NUM_BLOCKS 33 #define EMMC_BLOCKSIZE SDMMC_DAT_BLOCKSIZE enum { EMMC_INIT_FAIL = 0, EMMC_1BIT_HS52 = 1, EMMC_8BIT_HS52 = 2, EMMC_MMC_HS200 = 3, EMMC_MMC_HS400 = 4, }; enum { EMMC_ERROR_INIT_FAIL = 0, EMMC_ERROR_RW_FAIL = 1, EMMC_ERROR_RW_RETRY = 2 }; typedef struct _emmc_part_t { u32 index; u32 lba_start; u32 lba_end; u64 attrs; char name[37]; link_t link; } emmc_part_t; extern sdmmc_t emmc_sdmmc; extern sdmmc_storage_t emmc_storage; extern FATFS emmc_fs; void emmc_error_count_increment(u8 type); u16 *emmc_get_error_count(); u32 emmc_get_mode(); int emmc_init_retry(bool power_cycle); int emmc_initialize(bool power_cycle); int emmc_set_partition(u32 partition); void emmc_end(); void emmc_gpt_parse(link_t *gpt); void emmc_gpt_free(link_t *gpt); emmc_part_t *emmc_part_find(link_t *gpt, const char *name); int emmc_part_read(emmc_part_t *part, u32 sector_off, u32 num_sectors, void *buf); int emmc_part_write(emmc_part_t *part, u32 sector_off, u32 num_sectors, void *buf); void nx_emmc_get_autorcm_masks(u8 *mod0, u8 *mod1); #endif ================================================ FILE: bdk/storage/mbr_gpt.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef MBR_GPT_H #define MBR_GPT_H #include typedef struct _mbr_chs_t { u8 head; u8 sector; u8 cylinder; } __attribute__((packed)) mbr_chs_t; typedef struct _mbr_part_t { u8 status; mbr_chs_t start_sct_chs; u8 type; mbr_chs_t end_sct_chs; u32 start_sct; u32 size_sct; } __attribute__((packed)) mbr_part_t; typedef struct _mbr_t { /* 0x000 */ u8 bootstrap[440]; /* 0x1B8 */ u32 signature; /* 0x1BC */ u16 copy_protected; /* 0x1BE */ mbr_part_t partitions[4]; /* 0x1FE */ u16 boot_signature; } __attribute__((packed)) mbr_t; typedef struct _gpt_entry_t { /* 0x00 */ u8 type_guid[0x10]; /* 0x10 */ u8 part_guid[0x10]; /* 0x20 */ u64 lba_start; /* 0x28 */ u64 lba_end; /* 0x30 */ u64 attrs; /* 0x38 */ u16 name[36]; } gpt_entry_t; typedef struct _gpt_header_t { /* 0x00 */ u64 signature; // "EFI PART" /* 0x08 */ u32 revision; /* 0x0C */ u32 size; /* 0x10 */ u32 crc32; /* 0x14 */ u32 res1; /* 0x18 */ u64 my_lba; /* 0x20 */ u64 alt_lba; /* 0x28 */ u64 first_use_lba; /* 0x30 */ u64 last_use_lba; /* 0x38 */ u8 disk_guid[0x10]; /* 0x48 */ u64 part_ent_lba; /* 0x50 */ u32 num_part_ents; /* 0x54 */ u32 part_ent_size; /* 0x58 */ u32 part_ents_crc32; /* 0x5C */ u8 res2[420]; // Used as first 3 partition entries backup for HOS. } gpt_header_t; typedef struct _gpt_t { gpt_header_t header; gpt_entry_t entries[128]; } gpt_t; #endif ================================================ FILE: bdk/storage/mmc_def.h ================================================ /* * Header for MultiMediaCard (MMC) * * Copyright 2002 Hewlett-Packard Company * Copyright 2018-2021 CTCaer * * Use consistent with the GNU GPL is permitted, * provided that this copyright notice is * preserved in its entirety in all copies and derived works. * * HEWLETT-PACKARD COMPANY MAKES NO WARRANTIES, EXPRESSED OR IMPLIED, * AS TO THE USEFULNESS OR CORRECTNESS OF THIS CODE OR ITS * FITNESS FOR ANY PARTICULAR PURPOSE. * * Many thanks to Alessandro Rubini and Jonathan Corbet! * * Based strongly on code by: * * Author: Yong-iL Joh * * Author: Andrew Christian * 15 May 2002 */ #ifndef MMC_H #define MMC_H /* Standard MMC commands (4.1) type argument response */ /* class 1 */ #define MMC_GO_IDLE_STATE 0 /* bc */ #define MMC_SEND_OP_COND 1 /* bcr [31:0] OCR R3 */ #define MMC_ALL_SEND_CID 2 /* bcr R2 */ #define MMC_SET_RELATIVE_ADDR 3 /* ac [31:16] RCA R1 */ #define MMC_SET_DSR 4 /* bc [31:16] RCA */ #define MMC_SLEEP_AWAKE 5 /* ac [31:16] RCA 15:flg R1b */ #define MMC_SWITCH 6 /* ac [31:0] See below R1b */ #define MMC_SELECT_CARD 7 /* ac [31:16] RCA R1 */ #define MMC_SEND_EXT_CSD 8 /* adtc R1 */ #define MMC_SEND_CSD 9 /* ac [31:16] RCA R2 */ #define MMC_SEND_CID 10 /* ac [31:16] RCA R2 */ #define MMC_READ_DAT_UNTIL_STOP 11 /* adtc [31:0] dadr R1 */ #define MMC_STOP_TRANSMISSION 12 /* ac R1b */ #define MMC_SEND_STATUS 13 /* ac [31:16] RCA R1 */ #define MMC_BUS_TEST_R 14 /* adtc R1 */ #define MMC_GO_INACTIVE_STATE 15 /* ac [31:16] RCA */ #define MMC_BUS_TEST_W 19 /* adtc R1 */ #define MMC_SPI_READ_OCR 58 /* spi spi_R3 */ #define MMC_SPI_CRC_ON_OFF 59 /* spi [0:0] flag spi_R1 */ /* class 2 */ #define MMC_SET_BLOCKLEN 16 /* ac [31:0] block len R1 */ #define MMC_READ_SINGLE_BLOCK 17 /* adtc [31:0] data addr R1 */ #define MMC_READ_MULTIPLE_BLOCK 18 /* adtc [31:0] data addr R1 */ #define MMC_SEND_TUNING_BLOCK 19 /* adtc R1 */ #define MMC_SEND_TUNING_BLOCK_HS200 21 /* adtc R1 */ /* class 3 */ #define MMC_WRITE_DAT_UNTIL_STOP 20 /* adtc [31:0] data addr R1 */ /* class 4 */ #define MMC_SET_BLOCK_COUNT 23 /* adtc [31:0] data addr R1 */ #define MMC_WRITE_BLOCK 24 /* adtc [31:0] data addr R1 */ #define MMC_WRITE_MULTIPLE_BLOCK 25 /* adtc R1 */ #define MMC_PROGRAM_CID 26 /* adtc R1 */ #define MMC_PROGRAM_CSD 27 /* adtc R1 */ /* class 6 */ #define MMC_SET_WRITE_PROT 28 /* ac [31:0] data addr R1b */ #define MMC_CLR_WRITE_PROT 29 /* ac [31:0] data addr R1b */ #define MMC_SEND_WRITE_PROT 30 /* adtc [31:0] wpdata addr R1 */ /* class 5 */ #define MMC_ERASE_GROUP_START 35 /* ac [31:0] data addr R1 */ #define MMC_ERASE_GROUP_END 36 /* ac [31:0] data addr R1 */ #define MMC_ERASE 38 /* ac R1b */ /* class 9 */ #define MMC_FAST_IO 39 /* ac R4 */ #define MMC_GO_IRQ_STATE 40 /* bcr R5 */ /* class 7 */ #define MMC_LOCK_UNLOCK 42 /* adtc R1b */ /* class 8 */ #define MMC_APP_CMD 55 /* ac [31:16] RCA R1 */ #define MMC_GEN_CMD 56 /* adtc [0] RD/WR R1 */ #define MMC_VENDOR_60_CMD 60 /* Vendor Defined */ #define MMC_VENDOR_61_CMD 61 /* Vendor Defined */ #define MMC_VENDOR_62_CMD 62 /* Vendor Defined */ #define MMC_VENDOR_63_CMD 63 /* Vendor Defined */ /* class 11 */ #define MMC_QUE_TASK_PARAMS 44 /* ac [20:16] task id R1 */ #define MMC_QUE_TASK_ADDR 45 /* ac [31:0] data addr R1 */ #define MMC_EXECUTE_READ_TASK 46 /* adtc [20:16] task id R1 */ #define MMC_EXECUTE_WRITE_TASK 47 /* adtc [20:16] task id R1 */ #define MMC_CMDQ_TASK_MGMT 48 /* ac [20:16] task id R1b */ /* * MMC_SWITCH argument format: * * [31:26] Always 0 * [25:24] Access Mode * [23:16] Location of target Byte in EXT_CSD * [15:08] Value Byte * [07:03] Always 0 * [02:00] Command Set */ /* * MMC status in R1, for native mode (SPI bits are different) * Type * e : error bit * s : status bit * r : detected and set for the actual command response * x : detected and set during command execution. the host must poll * the card by sending status command in order to read these bits. * Clear condition * a : according to the card state * b : always related to the previous command. Reception of a valid * command will clear it (with a delay of one command) * c : clear by read */ #define R1_OUT_OF_RANGE (1 << 31) /* er, c */ #define R1_ADDRESS_ERROR (1 << 30) /* erx, c */ #define R1_BLOCK_LEN_ERROR (1 << 29) /* er, c */ #define R1_ERASE_SEQ_ERROR (1 << 28) /* er, c */ #define R1_ERASE_PARAM (1 << 27) /* ex, c */ #define R1_WP_VIOLATION (1 << 26) /* erx, c */ #define R1_CARD_IS_LOCKED (1 << 25) /* sx, a */ #define R1_LOCK_UNLOCK_FAILED (1 << 24) /* erx, c */ #define R1_COM_CRC_ERROR (1 << 23) /* er, b */ #define R1_ILLEGAL_COMMAND (1 << 22) /* er, b */ #define R1_CARD_ECC_FAILED (1 << 21) /* ex, c */ #define R1_CC_ERROR (1 << 20) /* erx, c */ #define R1_ERROR (1 << 19) /* erx, c */ #define R1_UNDERRUN (1 << 18) /* ex, c */ #define R1_OVERRUN (1 << 17) /* ex, c */ #define R1_CID_CSD_OVERWRITE (1 << 16) /* erx, c, CID/CSD overwrite */ #define R1_WP_ERASE_SKIP (1 << 15) /* sx, c */ #define R1_CARD_ECC_DISABLED (1 << 14) /* sx, a */ #define R1_ERASE_RESET (1 << 13) /* sr, c */ #define R1_STATUS(x) ((x) & 0xFFFFE000) #define R1_CURRENT_STATE(x) (((x) & 0x00001E00) >> 9) /* sx, b (4 bits) */ #define R1_READY_FOR_DATA (1 << 8) /* sx, a */ #define R1_SWITCH_ERROR (1 << 7) /* sx, c */ #define R1_EXCEPTION_EVENT (1 << 6) /* sr, a */ #define R1_APP_CMD (1 << 5) /* sr, c */ #define R1_SKIP_STATE_CHECK (1 << 4) /* Custom state to skip expected state check */ #define R1_AKE_SEQ_ERROR (1 << 3) /* R1_CURRENT_STATE 12:9 */ #define R1_STATE(x) ((x) << 9) #define R1_STATE_IDLE 0 #define R1_STATE_READY 1 #define R1_STATE_IDENT 2 #define R1_STATE_STBY 3 #define R1_STATE_TRAN 4 #define R1_STATE_DATA 5 #define R1_STATE_RCV 6 #define R1_STATE_PRG 7 #define R1_STATE_DIS 8 /* * MMC/SD in SPI mode reports R1 status always, and R2 for SEND_STATUS * R1 is the low order byte; R2 is the next highest byte, when present. */ #define R1_SPI_IDLE (1 << 0) #define R1_SPI_ERASE_RESET (1 << 1) #define R1_SPI_ILLEGAL_COMMAND (1 << 2) #define R1_SPI_COM_CRC (1 << 3) #define R1_SPI_ERASE_SEQ (1 << 4) #define R1_SPI_ADDRESS (1 << 5) #define R1_SPI_PARAMETER (1 << 6) /* R1 bit 7 is always zero */ #define R2_SPI_CARD_LOCKED (1 << 8) #define R2_SPI_WP_ERASE_SKIP (1 << 9) /* or lock/unlock fail */ #define R2_SPI_LOCK_UNLOCK_FAIL R2_SPI_WP_ERASE_SKIP #define R2_SPI_ERROR (1 << 10) #define R2_SPI_CC_ERROR (1 << 11) #define R2_SPI_CARD_ECC_ERROR (1 << 12) #define R2_SPI_WP_VIOLATION (1 << 13) #define R2_SPI_ERASE_PARAM (1 << 14) #define R2_SPI_OUT_OF_RANGE (1 << 15) /* or CSD overwrite */ #define R2_SPI_CSD_OVERWRITE R2_SPI_OUT_OF_RANGE /* * OCR bits are mostly in host.h */ #define MMC_CARD_VDD_18 (1 << 7) /* Card VDD voltage 1.8 */ #define MMC_CARD_VDD_27_34 (0x7F << 15) /* Card VDD voltage 2.7 ~ 3.4 */ #define MMC_CARD_CCS (1 << 30) /* Card Capacity status bit */ #define MMC_CARD_BUSY (1 << 31) /* Card Power up status bit */ /* * Card Command Classes (CCC) */ #define CCC_BASIC (1<<0) /* (0) Basic protocol functions */ /* (CMD0,1,2,3,4,7,9,10,12,13,15) */ /* (and for SPI, CMD58,59) */ #define CCC_STREAM_READ (1<<1) /* (1) Stream read commands */ /* (CMD11) */ #define CCC_BLOCK_READ (1<<2) /* (2) Block read commands */ /* (CMD16,17,18) */ #define CCC_STREAM_WRITE (1<<3) /* (3) Stream write commands */ /* (CMD20) */ #define CCC_BLOCK_WRITE (1<<4) /* (4) Block write commands */ /* (CMD16,24,25,26,27) */ #define CCC_ERASE (1<<5) /* (5) Ability to erase blocks */ /* (CMD32,33,34,35,36,37,38,39) */ #define CCC_WRITE_PROT (1<<6) /* (6) Able to write protect blocks */ /* (CMD28,29,30) */ #define CCC_LOCK_CARD (1<<7) /* (7) Able to lock down card */ /* (CMD16,CMD42) */ #define CCC_APP_SPEC (1<<8) /* (8) Application specific */ /* (CMD55,56,57,ACMD*) */ #define CCC_IO_MODE (1<<9) /* (9) I/O mode */ /* (CMD5,39,40,52,53) */ #define CCC_SWITCH (1<<10) /* (10) High speed switch */ /* (CMD6,34,35,36,37,50) */ /* (11) Reserved */ /* (CMD?) */ /* * CSD field definitions */ #define CSD_STRUCT_VER_1_0 0 /* Valid for system specification 1.0 - 1.2 */ #define CSD_STRUCT_VER_1_1 1 /* Valid for system specification 1.4 - 2.2 */ #define CSD_STRUCT_VER_1_2 2 /* Valid for system specification 3.1 - 3.2 - 3.31 - 4.0 - 4.1 */ #define CSD_STRUCT_EXT_CSD 3 /* Version is coded in CSD_STRUCTURE in EXT_CSD */ #define CSD_SPEC_VER_0 0 /* Implements system specification 1.0 - 1.2 */ #define CSD_SPEC_VER_1 1 /* Implements system specification 1.4 */ #define CSD_SPEC_VER_2 2 /* Implements system specification 2.0 - 2.2 */ #define CSD_SPEC_VER_3 3 /* Implements system specification 3.1 - 3.2 - 3.31 */ #define CSD_SPEC_VER_4 4 /* Implements system specification 4.0 - 4.1 */ /* * EXT_CSD fields */ #define EXT_CSD_CMDQ_MODE_EN 15 /* R/W */ #define EXT_CSD_FLUSH_CACHE 32 /* W */ #define EXT_CSD_CACHE_CTRL 33 /* R/W */ #define EXT_CSD_POWER_OFF_NOTIFICATION 34 /* R/W */ #define EXT_CSD_PACKED_FAILURE_INDEX 35 /* RO */ #define EXT_CSD_PACKED_CMD_STATUS 36 /* RO */ #define EXT_CSD_EXP_EVENTS_STATUS 54 /* RO, 2 bytes */ #define EXT_CSD_EXP_EVENTS_CTRL 56 /* R/W, 2 bytes */ #define EXT_CSD_DATA_SECTOR_SIZE 61 /* R */ #define EXT_CSD_GP_SIZE_MULT 143 /* R/W */ #define EXT_CSD_PARTITION_SETTING_COMPLETED 155 /* R/W */ #define EXT_CSD_PARTITION_ATTRIBUTE 156 /* R/W */ #define EXT_CSD_MAX_ENH_SIZE_MULT 157 /* RO, 3 bytes */ #define EXT_CSD_PARTITION_SUPPORT 160 /* RO */ #define EXT_CSD_HPI_MGMT 161 /* R/W */ #define EXT_CSD_RST_N_FUNCTION 162 /* R/W */ #define EXT_CSD_BKOPS_EN 163 /* R/W */ #define EXT_CSD_BKOPS_START 164 /* W */ #define EXT_CSD_SANITIZE_START 165 /* W */ #define EXT_CSD_WR_REL_PARAM 166 /* RO */ #define EXT_CSD_RPMB_MULT 168 /* RO */ #define EXT_CSD_FW_CONFIG 169 /* R/W */ #define EXT_CSD_BOOT_WP 173 /* R/W */ #define EXT_CSD_ERASE_GROUP_DEF 175 /* R/W */ #define EXT_CSD_PART_CONFIG 179 /* R/W */ #define EXT_CSD_ERASED_MEM_CONT 181 /* RO */ #define EXT_CSD_BUS_WIDTH 183 /* R/W */ #define EXT_CSD_STROBE_SUPPORT 184 /* RO */ #define EXT_CSD_HS_TIMING 185 /* R/W */ #define EXT_CSD_POWER_CLASS 187 /* R/W */ #define EXT_CSD_REV 192 /* RO */ #define EXT_CSD_STRUCTURE 194 /* RO */ #define EXT_CSD_CARD_TYPE 196 /* RO */ #define EXT_CSD_DRIVER_STRENGTH 197 /* RO */ #define EXT_CSD_OUT_OF_INTERRUPT_TIME 198 /* RO */ #define EXT_CSD_PART_SWITCH_TIME 199 /* RO */ #define EXT_CSD_PWR_CL_52_195 200 /* RO */ #define EXT_CSD_PWR_CL_26_195 201 /* RO */ #define EXT_CSD_PWR_CL_52_360 202 /* RO */ #define EXT_CSD_PWR_CL_26_360 203 /* RO */ #define EXT_CSD_SEC_CNT 212 /* RO, 4 bytes */ #define EXT_CSD_S_A_TIMEOUT 217 /* RO */ #define EXT_CSD_REL_WR_SEC_C 222 /* RO */ #define EXT_CSD_HC_WP_GRP_SIZE 221 /* RO */ #define EXT_CSD_ERASE_TIMEOUT_MULT 223 /* RO */ #define EXT_CSD_HC_ERASE_GRP_SIZE 224 /* RO */ #define EXT_CSD_BOOT_MULT 226 /* RO */ #define EXT_CSD_SEC_TRIM_MULT 229 /* RO */ #define EXT_CSD_SEC_ERASE_MULT 230 /* RO */ #define EXT_CSD_SEC_FEATURE_SUPPORT 231 /* RO */ #define EXT_CSD_TRIM_MULT 232 /* RO */ #define EXT_CSD_PWR_CL_200_195 236 /* RO */ #define EXT_CSD_PWR_CL_200_360 237 /* RO */ #define EXT_CSD_PWR_CL_DDR_52_195 238 /* RO */ #define EXT_CSD_PWR_CL_DDR_52_360 239 /* RO */ #define EXT_CSD_BKOPS_STATUS 246 /* RO */ #define EXT_CSD_POWER_OFF_LONG_TIME 247 /* RO */ #define EXT_CSD_GENERIC_CMD6_TIME 248 /* RO */ #define EXT_CSD_CACHE_SIZE 249 /* RO, 4 bytes */ #define EXT_CSD_PWR_CL_DDR_200_360 253 /* RO */ #define EXT_CSD_FIRMWARE_VERSION 254 /* RO, 8 bytes */ #define EXT_CSD_DEVICE_VERSION 262 /* RO, 2 bytes */ #define EXT_CSD_PRE_EOL_INFO 267 /* RO */ #define EXT_CSD_DEVICE_LIFE_TIME_EST_TYP_A 268 /* RO */ #define EXT_CSD_DEVICE_LIFE_TIME_EST_TYP_B 269 /* RO */ #define EXT_CSD_CMDQ_DEPTH 307 /* RO */ #define EXT_CSD_CMDQ_SUPPORT 308 /* RO */ #define EXT_CSD_SUPPORTED_MODE 493 /* RO */ #define EXT_CSD_TAG_UNIT_SIZE 498 /* RO */ #define EXT_CSD_DATA_TAG_SUPPORT 499 /* RO */ #define EXT_CSD_MAX_PACKED_WRITES 500 /* RO */ #define EXT_CSD_MAX_PACKED_READS 501 /* RO */ #define EXT_CSD_BKOPS_SUPPORT 502 /* RO */ #define EXT_CSD_HPI_FEATURES 503 /* RO */ /* * EXT_CSD field definitions */ #define EXT_CSD_WR_REL_PARAM_EN (1<<2) #define EXT_CSD_BOOT_WP_B_PWR_WP_DIS (0x40) #define EXT_CSD_BOOT_WP_B_PERM_WP_DIS (0x10) #define EXT_CSD_BOOT_WP_B_PERM_WP_EN (0x04) #define EXT_CSD_BOOT_WP_B_PWR_WP_EN (0x01) #define EXT_CSD_PART_CONFIG_ACC_MASK (0x7) #define EXT_CSD_PART_CONFIG_ACC_BOOT0 (0x1) #define EXT_CSD_PART_CONFIG_ACC_RPMB (0x3) #define EXT_CSD_PART_CONFIG_ACC_GP0 (0x4) #define EXT_CSD_PART_SETTING_COMPLETED (0x1) #define EXT_CSD_PART_SUPPORT_PART_EN (0x1) #define EXT_CSD_CMD_SET_NORMAL (1<<0) #define EXT_CSD_CMD_SET_SECURE (1<<1) #define EXT_CSD_CMD_SET_CPSECURE (1<<2) #define EXT_CSD_CARD_TYPE_HS_26 (1<<0) /* Card can run at 26MHz */ #define EXT_CSD_CARD_TYPE_HS_52 (1<<1) /* Card can run at 52MHz */ #define EXT_CSD_CARD_TYPE_HS (EXT_CSD_CARD_TYPE_HS_26 | \ EXT_CSD_CARD_TYPE_HS_52) #define EXT_CSD_CARD_TYPE_DDR_1_8V (1<<2) /* Card can run at 52MHz */ /* DDR mode @1.8V or 3V I/O */ #define EXT_CSD_CARD_TYPE_DDR_1_2V (1<<3) /* Card can run at 52MHz */ /* DDR mode @1.2V I/O */ #define EXT_CSD_CARD_TYPE_DDR_52 (EXT_CSD_CARD_TYPE_DDR_1_8V \ | EXT_CSD_CARD_TYPE_DDR_1_2V) #define EXT_CSD_CARD_TYPE_HS200_1_8V (1<<4) /* Card can run at 200MHz */ #define EXT_CSD_CARD_TYPE_HS200_1_2V (1<<5) /* Card can run at 200MHz */ /* SDR mode @1.2V I/O */ #define EXT_CSD_CARD_TYPE_HS200 (EXT_CSD_CARD_TYPE_HS200_1_8V | \ EXT_CSD_CARD_TYPE_HS200_1_2V) #define EXT_CSD_CARD_TYPE_HS400_1_8V (1<<6) /* Card can run at 200MHz DDR, 1.8V */ #define EXT_CSD_CARD_TYPE_HS400_1_2V (1<<7) /* Card can run at 200MHz DDR, 1.2V */ #define EXT_CSD_CARD_TYPE_HS400 (EXT_CSD_CARD_TYPE_HS400_1_8V | \ EXT_CSD_CARD_TYPE_HS400_1_2V) #define EXT_CSD_CARD_TYPE_HS400ES (1<<8) /* Card can run at HS400ES */ #define EXT_CSD_BUS_WIDTH_1 0 /* Card is in 1 bit mode */ #define EXT_CSD_BUS_WIDTH_4 1 /* Card is in 4 bit mode */ #define EXT_CSD_BUS_WIDTH_8 2 /* Card is in 8 bit mode */ #define EXT_CSD_DDR_BUS_WIDTH_4 5 /* Card is in 4 bit DDR mode */ #define EXT_CSD_DDR_BUS_WIDTH_8 6 /* Card is in 8 bit DDR mode */ #define EXT_CSD_BUS_WIDTH_STROBE (1<<7) /* Enhanced strobe mode */ #define EXT_CSD_TIMING_BC 0 /* Backwards compatility */ #define EXT_CSD_TIMING_HS 1 /* High speed */ #define EXT_CSD_TIMING_HS200 2 /* HS200 */ #define EXT_CSD_TIMING_HS400 3 /* HS400 */ #define EXT_CSD_DRV_STR_SHIFT 4 /* Driver Strength shift */ #define EXT_CSD_SEC_ER_EN (1<<0) #define EXT_CSD_SEC_BD_BLK_EN (1<<2) #define EXT_CSD_SEC_GB_CL_EN (1<<4) #define EXT_CSD_SEC_SANITIZE (1<<6) /* v4.5 only */ #define EXT_CSD_RST_N_EN_MASK 0x3 #define EXT_CSD_RST_N_ENABLED 1 /* RST_n is enabled on card */ #define EXT_CSD_NO_POWER_NOTIFICATION 0 #define EXT_CSD_POWER_ON 1 #define EXT_CSD_POWER_OFF_SHORT 2 #define EXT_CSD_POWER_OFF_LONG 3 #define EXT_CSD_PWR_CL_8BIT_MASK 0xF0 /* 8 bit PWR CLS */ #define EXT_CSD_PWR_CL_4BIT_MASK 0x0F /* 8 bit PWR CLS */ #define EXT_CSD_PWR_CL_8BIT_SHIFT 4 #define EXT_CSD_PWR_CL_4BIT_SHIFT 0 #define EXT_CSD_PACKED_EVENT_EN (1<<3) /* * EXCEPTION_EVENT_STATUS field */ #define EXT_CSD_URGENT_BKOPS (1<<0) #define EXT_CSD_DYNCAP_NEEDED (1<<1) #define EXT_CSD_SYSPOOL_EXHAUSTED (1<<2) #define EXT_CSD_PACKED_FAILURE (1<<3) #define EXT_CSD_PACKED_GENERIC_ERROR (1<<0) #define EXT_CSD_PACKED_INDEXED_ERROR (1<<1) /* * BKOPS status level */ #define EXT_CSD_BKOPS_OK 0x0 #define EXT_CSD_BKOPS_NON_CRITICAL 0x1 #define EXT_CSD_BKOPS_PERF_IMPACTED 0x2 #define EXT_CSD_BKOPS_CRITICAL 0x3 /* * BKOPS modes */ #define EXT_CSD_BKOPS_MANUAL 0x01 /* STICKY! */ #define EXT_CSD_BKOPS_AUTO 0x02 /* * Command Queue */ #define EXT_CSD_CMDQ_MODE_ENABLED (1<<0) #define EXT_CSD_CMDQ_DEPTH_MASK 0x1F #define EXT_CSD_CMDQ_SUPPORTED (1<<0) /* * MMC_SWITCH access modes */ #define MMC_SWITCH_MODE_CMD_SET 0x00 /* Change the command set */ #define MMC_SWITCH_MODE_SET_BITS 0x01 /* Set bits which are 1 in value */ #define MMC_SWITCH_MODE_CLEAR_BITS 0x02 /* Clear bits which are 1 in value */ #define MMC_SWITCH_MODE_WRITE_BYTE 0x03 /* Set target to value */ /* * Erase/trim/discard */ #define MMC_ERASE_ARG 0x00000000 #define MMC_SECURE_ERASE_ARG 0x80000000 #define MMC_TRIM_ARG 0x00000001 #define MMC_DISCARD_ARG 0x00000003 #define MMC_SECURE_TRIM1_ARG 0x80000001 #define MMC_SECURE_TRIM2_ARG 0x80008000 #define MMC_SECURE_ARGS 0x80000000 #define MMC_TRIM_ARGS 0x00008001 /* * Vendor definitions and structs */ #define MMC_SANDISK_HEALTH_REPORT 0x96C9D71C #endif /* MMC_H */ ================================================ FILE: bdk/storage/nx_emmc_bis.c ================================================ /* * eMMC BIS driver for Nintendo Switch * * Copyright (c) 2019-2020 shchmue * Copyright (c) 2019-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #define BIS_CLUSTER_SECTORS 32 #define BIS_CLUSTER_SIZE 16384 #define BIS_CACHE_MAX_ENTRIES 16384 #define BIS_CACHE_LOOKUP_TBL_EMPTY_ENTRY -1 typedef struct _cluster_cache_t { u32 cluster_idx; // Index of the cluster in the partition. bool dirty; // Has been modified without write-back flag. u8 data[BIS_CLUSTER_SIZE]; // The cached cluster itself. Aligned to 8 bytes for DMA engine. } cluster_cache_t; typedef struct _bis_cache_t { bool full; bool enabled; u32 dirty_cnt; u32 top_idx; u8 dma_buff[BIS_CLUSTER_SIZE]; // Aligned to 8 bytes for DMA engine. cluster_cache_t clusters[]; } bis_cache_t; static u8 ks_crypt = 0; static u8 ks_tweak = 0; static u32 emu_offset = 0; static emmc_part_t *system_part = NULL; static u32 *cache_lookup_tbl = (u32 *)NX_BIS_LOOKUP_ADDR; static bis_cache_t *bis_cache = (bis_cache_t *)NX_BIS_CACHE_ADDR; static int nx_emmc_bis_write_block(u32 sector, u32 count, void *buff, bool flush) { if (!system_part) return 3; // Not ready. int res; u8 tweak[SE_KEY_128_SIZE] __attribute__((aligned(4))); u32 cluster = sector / BIS_CLUSTER_SECTORS; u32 aligned_sector = cluster * BIS_CLUSTER_SECTORS; u32 sector_in_cluster = sector % BIS_CLUSTER_SECTORS; u32 lookup_idx = cache_lookup_tbl[cluster]; bool is_cached = lookup_idx != (u32)BIS_CACHE_LOOKUP_TBL_EMPTY_ENTRY; // Write to cached cluster. if (is_cached) { if (buff) memcpy(bis_cache->clusters[lookup_idx].data + sector_in_cluster * EMMC_BLOCKSIZE, buff, count * EMMC_BLOCKSIZE); else buff = bis_cache->clusters[lookup_idx].data; if (!bis_cache->clusters[lookup_idx].dirty) bis_cache->dirty_cnt++; bis_cache->clusters[lookup_idx].dirty = true; if (!flush) return 0; // Success. // Reset args to trigger a full cluster flush to emmc. sector_in_cluster = 0; sector = aligned_sector; count = BIS_CLUSTER_SECTORS; } // Encrypt cluster. if (se_aes_crypt_xts_sec_nx(ks_tweak, ks_crypt, ENCRYPT, cluster, tweak, true, sector_in_cluster, bis_cache->dma_buff, buff, count * EMMC_BLOCKSIZE)) return 1; // Encryption error. // If not reading from cache, do a regular read and decrypt. if (!emu_offset) res = emmc_part_write(system_part, sector, count, bis_cache->dma_buff); else res = sdmmc_storage_write(&sd_storage, emu_offset + system_part->lba_start + sector, count, bis_cache->dma_buff); if (res) return 1; // R/W error. // Mark cache entry not dirty if write succeeds. if (is_cached) { bis_cache->clusters[lookup_idx].dirty = false; bis_cache->dirty_cnt--; } return 0; // Success. } static void _nx_emmc_bis_cluster_cache_init(bool enable_cache) { u32 cache_lookup_tbl_size = (system_part->lba_end - system_part->lba_start + 1) / BIS_CLUSTER_SECTORS * sizeof(*cache_lookup_tbl); // Clear cache header. memset(bis_cache, 0, sizeof(bis_cache_t)); // Clear cluster lookup table. memset(cache_lookup_tbl, BIS_CACHE_LOOKUP_TBL_EMPTY_ENTRY, cache_lookup_tbl_size); // Enable cache. bis_cache->enabled = enable_cache; } static void _nx_emmc_bis_flush_cache() { if (!bis_cache->enabled || !bis_cache->dirty_cnt) return; for (u32 i = 0; i < bis_cache->top_idx && bis_cache->dirty_cnt; i++) { if (bis_cache->clusters[i].dirty) { nx_emmc_bis_write_block(bis_cache->clusters[i].cluster_idx * BIS_CLUSTER_SECTORS, BIS_CLUSTER_SECTORS, NULL, true); bis_cache->dirty_cnt--; } } _nx_emmc_bis_cluster_cache_init(true); } static int nx_emmc_bis_read_block_normal(u32 sector, u32 count, void *buff) { static u32 prev_cluster = -1; static u32 prev_sector = 0; static u8 tweak[SE_KEY_128_SIZE] __attribute__((aligned(4))); int res; bool regen_tweak = true; u32 tweak_exp = 0; u32 cluster = sector / BIS_CLUSTER_SECTORS; u32 sector_in_cluster = sector % BIS_CLUSTER_SECTORS; // If not reading from cache, do a regular read and decrypt. if (!emu_offset) res = emmc_part_read(system_part, sector, count, bis_cache->dma_buff); else res = sdmmc_storage_read(&sd_storage, emu_offset + system_part->lba_start + sector, count, bis_cache->dma_buff); if (res) return 1; // R/W error. if (prev_cluster != cluster) // Sector in different cluster than last read. { prev_cluster = cluster; tweak_exp = sector_in_cluster; } else if (sector > prev_sector) // Sector in same cluster and past last sector. { // Calculates the new tweak using the saved one, reducing expensive _gf256_mul_x_le calls. tweak_exp = sector - prev_sector - 1; regen_tweak = false; } else // Sector in same cluster and before or same as last sector. tweak_exp = sector_in_cluster; // Maximum one cluster (1 XTS crypto block 16KB). if (se_aes_crypt_xts_sec_nx(ks_tweak, ks_crypt, DECRYPT, prev_cluster, tweak, regen_tweak, tweak_exp, buff, bis_cache->dma_buff, count * EMMC_BLOCKSIZE)) return 1; // R/W error. prev_sector = sector + count - 1; return 0; // Success. } static int nx_emmc_bis_read_block_cached(u32 sector, u32 count, void *buff) { int res; u8 cache_tweak[SE_KEY_128_SIZE] __attribute__((aligned(4))); u32 cluster = sector / BIS_CLUSTER_SECTORS; u32 cluster_sector = cluster * BIS_CLUSTER_SECTORS; u32 sector_in_cluster = sector % BIS_CLUSTER_SECTORS; u32 lookup_idx = cache_lookup_tbl[cluster]; // Read from cached cluster. if (lookup_idx != (u32)BIS_CACHE_LOOKUP_TBL_EMPTY_ENTRY) { memcpy(buff, bis_cache->clusters[lookup_idx].data + sector_in_cluster * EMMC_BLOCKSIZE, count * EMMC_BLOCKSIZE); return 0; // Success. } // Flush cache if full. if (bis_cache->top_idx >= BIS_CACHE_MAX_ENTRIES) _nx_emmc_bis_flush_cache(); // Set new cached cluster parameters. bis_cache->clusters[bis_cache->top_idx].cluster_idx = cluster; bis_cache->clusters[bis_cache->top_idx].dirty = false; cache_lookup_tbl[cluster] = bis_cache->top_idx; // Read the whole cluster the sector resides in. if (!emu_offset) res = emmc_part_read(system_part, cluster_sector, BIS_CLUSTER_SECTORS, bis_cache->dma_buff); else res = sdmmc_storage_read(&sd_storage, emu_offset + system_part->lba_start + cluster_sector, BIS_CLUSTER_SECTORS, bis_cache->dma_buff); if (res) return 1; // R/W error. // Decrypt cluster. if (se_aes_crypt_xts_sec_nx(ks_tweak, ks_crypt, DECRYPT, cluster, cache_tweak, true, 0, bis_cache->dma_buff, bis_cache->dma_buff, BIS_CLUSTER_SIZE)) return 1; // Decryption error. // Copy to cluster cache. memcpy(bis_cache->clusters[bis_cache->top_idx].data, bis_cache->dma_buff, BIS_CLUSTER_SIZE); memcpy(buff, bis_cache->dma_buff + sector_in_cluster * EMMC_BLOCKSIZE, count * EMMC_BLOCKSIZE); // Increment cache count. bis_cache->top_idx++; return 0; // Success. } static int nx_emmc_bis_read_block(u32 sector, u32 count, void *buff) { if (!system_part) return 3; // Not ready. if (bis_cache->enabled) return nx_emmc_bis_read_block_cached(sector, count, buff); else return nx_emmc_bis_read_block_normal(sector, count, buff); } int nx_emmc_bis_read(u32 sector, u32 count, void *buff) { u8 *buf = (u8 *)buff; u32 curr_sct = sector; while (count) { // Get sector index in cluster and use it as boundary check. u32 cnt_max = (curr_sct % BIS_CLUSTER_SECTORS); cnt_max = BIS_CLUSTER_SECTORS - cnt_max; u32 sct_cnt = MIN(count, cnt_max); // Only allow cluster sized access. if (nx_emmc_bis_read_block(curr_sct, sct_cnt, buf)) return 1; count -= sct_cnt; curr_sct += sct_cnt; buf += sct_cnt * EMMC_BLOCKSIZE; } return 0; } int nx_emmc_bis_write(u32 sector, u32 count, void *buff) { u8 *buf = (u8 *)buff; u32 curr_sct = sector; while (count) { // Get sector index in cluster and use it as boundary check. u32 cnt_max = (curr_sct % BIS_CLUSTER_SECTORS); cnt_max = BIS_CLUSTER_SECTORS - cnt_max; u32 sct_cnt = MIN(count, cnt_max); // Only allow cluster sized access. if (nx_emmc_bis_write_block(curr_sct, sct_cnt, buf, false)) return 1; count -= sct_cnt; curr_sct += sct_cnt; buf += sct_cnt * EMMC_BLOCKSIZE; } return 0; } void nx_emmc_bis_init(emmc_part_t *part, bool enable_cache, u32 emummc_offset) { system_part = part; emu_offset = emummc_offset; _nx_emmc_bis_cluster_cache_init(enable_cache); if (!strcmp(part->name, "PRODINFO") || !strcmp(part->name, "PRODINFOF")) { ks_crypt = 0; ks_tweak = 1; } else if (!strcmp(part->name, "SAFE")) { ks_crypt = 2; ks_tweak = 3; } else if (!strcmp(part->name, "SYSTEM") || !strcmp(part->name, "USER")) { ks_crypt = 4; ks_tweak = 5; } else system_part = NULL; } void nx_emmc_bis_end() { _nx_emmc_bis_flush_cache(); system_part = NULL; } ================================================ FILE: bdk/storage/nx_emmc_bis.h ================================================ /* * Copyright (c) 2019 shchmue * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef NX_EMMC_BIS_H #define NX_EMMC_BIS_H #include #include #define NAND_PATROL_SECTOR 0xC20 typedef struct _nx_emmc_cal0_spk_t { u16 unk0; u16 unk1; u16 eq_bw_lop; u16 eq_gn_lop; u16 eq_fc_bp1; u16 eq_bw_bp1; u16 eq_gn_bp1; u16 eq_fc_bp2; u16 eq_bw_bp2; u16 eq_gn_bp2; u16 eq_fc_bp3; u16 eq_bw_bp3; u16 eq_gn_bp3; u16 eq_fc_bp4; u16 eq_bw_bp4; u16 eq_gn_bp4; u16 eq_fc_hip1; u16 eq_gn_hip1; u16 eq_fc_hip2; u16 eq_bw_hip2; u16 eq_gn_hip2; u16 eq_pre_vol; u16 eq_pst_vol; u16 eq_ctrl2; u16 eq_ctrl1; u16 drc_agc_2; u16 drc_agc_3; u16 drc_agc_1; u16 spk_vol; u16 hp_vol; u16 dac1_min_vol_spk; u16 dac1_max_vol_spk; u16 dac1_min_vol_hp; u16 dac1_max_vol_hp; u16 in1_in2; u16 adc_vol_min; u16 adc_vol_max; u8 unk4[16]; } __attribute__((packed)) nx_emmc_cal0_spk_t; typedef struct _nx_emmc_cal0_t { // Header. u32 magic; // 'CAL0'. u32 version; u32 body_size; u16 model; u16 update_cnt; u8 pad_crc16_hdr[0x10]; // SHA256 for body. u8 body_sha256[0x20]; // Body. char cfg_id1[0x1E]; u8 crc16_pad1[2]; u8 rsvd0[0x20]; u32 wlan_cc_num; u32 wlan_cc_last; char wlan_cc[128][3]; u8 crc16_pad2[8]; u8 wlan_mac[6]; u8 crc16_pad3[2]; u8 rsvd1[8]; u8 bd_mac[6]; u8 crc16_pad4[2]; u8 rsvd2[8]; u16 acc_offset[3]; u8 crc16_pad5[2]; u16 acc_scale[3]; u8 crc16_pad6[2]; u16 gyro_offset[3]; u8 crc16_pad7[2]; u16 gyro_scale[3]; u8 crc16_pad8[2]; char serial_number[0x18]; u8 crc16_pad9[8]; u8 ecc_p256_device_key[0x30]; u8 crc16_pad10[0x10]; u8 ecc_p256_device_cert[0x180]; u8 crc16_pad11[0x10]; u8 ecc_p233_device_key[0x30]; u8 crc16_pad12[0x10]; u8 ecc_p33_device_cert[0x180]; u8 crc16_pad13[0x10]; u8 ecc_p256_ticket_key[0x30]; u8 crc16_pad14[0x10]; u8 ecc_p256_ticket_cert[0x180]; u8 crc16_pad15[0x10]; u8 ecc_p233_ticket_key[0x30]; u8 crc16_pad16[0x10]; u8 ecc_p33_ticket_cert[0x180]; u8 crc16_pad17[0x10]; u8 ssl_key[0x110]; u8 crc16_pad18[0x10]; u32 ssl_cert_size; u8 crc16_pad19[0xC]; u8 ssl_cert[0x800]; u8 ssl_sha256[0x20]; u8 random_number[0x1000]; u8 random_number_sha256[0x20]; u8 gc_key[0x110]; u8 crc16_pad20[0x10]; u8 gc_cert[0x400]; u8 gc_cert_sha256[0x20]; u8 rsa2048_eticket_key[0x220]; u8 crc16_pad21[0x10]; u8 rsa2048_eticket_cert[0x240]; u8 crc16_pad22[0x10]; char battery_lot[0x1E]; u8 crc16_pad23[2]; nx_emmc_cal0_spk_t spk_cal; u8 spk_cal_rsvd[0x800 - sizeof(nx_emmc_cal0_spk_t)]; u8 crc16_pad24[0x10]; u32 region_code; u8 crc16_pad25[0xC]; u8 amiibo_key[0x50]; u8 crc16_pad26[0x10]; u8 amiibo_ecqv_cert[0x14]; u8 crc16_pad27[0xC]; u8 amiibo_ecqdsa_cert[0x70]; u8 crc16_pad28[0x10]; u8 amiibo_ecqv_bls_key[0x40]; u8 crc16_pad29[0x10]; u8 amiibo_ecqv_bls_cert[0x20]; u8 crc16_pad30[0x10]; u8 amiibo_ecqv_bls_root_cert[0x90]; u8 crc16_pad31[0x10]; u32 product_model; // 1: Nx, 2: Copper, 4: Hoag. u8 crc16_pad32[0xC]; u8 home_menu_scheme_main_color[6]; u8 crc16_pad33[0xA]; u32 lcd_bl_brightness_mapping[3]; // Floats. Normally 100%, 0% and 2%. u8 crc16_pad34[0x4]; u8 ext_ecc_b233_device_key[0x50]; u8 crc16_pad35[0x10]; u8 ext_ecc_p256_eticket_key[0x50]; u8 crc16_pad36[0x10]; u8 ext_ecc_b233_eticket_key[0x50]; u8 crc16_pad37[0x10]; u8 ext_ecc_rsa2048_eticket_key[0x240]; u8 crc16_pad38[0x10]; u8 ext_ssl_key[0x130]; u8 crc16_pad39[0x10]; u8 ext_gc_key[0x130]; u8 crc16_pad40[0x10]; u32 lcd_vendor; u8 crc16_pad41[0xC]; // 5.0.0 and up. u8 ext_rsa2048_device_key[0x240]; u8 crc16_pad42[0x10]; u8 rsa2048_device_cert[0x240]; u8 crc16_pad43[0x10]; u8 usbc_pwr_src_circuit_ver; u8 crc16_pad44[0xF]; // 9.0.0 and up. u32 home_menu_scheme_sub_color; u8 crc16_pad45[0xC]; u32 home_menu_scheme_bezel_color; u8 crc16_pad46[0xC]; u32 home_menu_scheme_main_color1; u8 crc16_pad47[0xC]; u32 home_menu_scheme_main_color2; u8 crc16_pad48[0xC]; u32 home_menu_scheme_main_color3; u8 crc16_pad49[0xC]; u8 analog_stick_type_l; u8 crc16_pad50[0xF]; u8 analog_stick_param_l[0x12]; u8 crc16_pad51[0xE]; u8 analog_stick_cal_l[0x9]; u8 crc16_pad52[0x7]; u8 analog_stick_type_r; u8 crc16_pad53[0xF]; u8 analog_stick_param_r[0x12]; u8 crc16_pad54[0xE]; u8 analog_stick_cal_r[0x9]; u8 crc16_pad55[0x7]; u8 console_6axis_sensor_type; u8 crc16_pad56[0xF]; u8 console_6axis_sensor_hor_off[0x6]; u8 crc16_pad57[0xA]; // 6.0.0 and up. u8 battery_ver; u8 crc16_pad58[0xF]; // 10.0.0 and up. u8 touch_ic_vendor_id; u8 crc16_pad59[0xF]; // 9.0.0 and up. u32 color_model; u8 crc16_pad60[0xC]; // 10.0.0 and up. u8 console_6axis_sensor_mount_type; u8 crc16_pad61[0xF]; } __attribute__((packed)) nx_emmc_cal0_t; int nx_emmc_bis_read(u32 sector, u32 count, void *buff); int nx_emmc_bis_write(u32 sector, u32 count, void *buff); void nx_emmc_bis_init(emmc_part_t *part, bool enable_cache, u32 emummc_offset); void nx_emmc_bis_end(); #endif ================================================ FILE: bdk/storage/ramdisk.c ================================================ /* * Ramdisk driver for Tegra X1 * * Copyright (c) 2019-2021 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "ramdisk.h" #include #include #include #include #include static u32 disk_size = 0; int ram_disk_init(void *ram_fs, u32 ramdisk_size) { int res = 0; disk_size = ramdisk_size; FATFS *ram_fatfs = (FATFS *)ram_fs; // If ramdisk is not raw, format it. if (ram_fs) { u8 *buf = malloc(0x400000); // Set ramdisk size. ramdisk_size >>= 9; disk_set_info(DRIVE_RAM, SET_SECTOR_COUNT, &ramdisk_size); // Unmount ramdisk. f_unmount("ram:"); // Format as exFAT w/ 32KB cluster with no MBR. res = f_mkfs("ram:", FM_EXFAT | FM_SFD, RAMDISK_CLUSTER_SZ, buf, 0x400000); // Mount ramdisk. if (!res) res = f_mount(ram_fatfs, "ram:", 1); free(buf); } return res; } int ram_disk_read(u32 sector, u32 sector_count, void *buf) { u32 sector_off = RAM_DISK_ADDR + (sector << 9); u32 bytes_count = sector_count << 9; if ((sector_off - RAM_DISK_ADDR) > disk_size) return 1; memcpy(buf, (void *)sector_off, bytes_count); return 0; } int ram_disk_write(u32 sector, u32 sector_count, const void *buf) { u32 sector_off = RAM_DISK_ADDR + (sector << 9); u32 bytes_count = sector_count << 9; if ((sector_off - RAM_DISK_ADDR) > disk_size) return 1; memcpy((void *)sector_off, buf, bytes_count); return 0; } ================================================ FILE: bdk/storage/ramdisk.h ================================================ /* * Ramdisk driver for Tegra X1 * * Copyright (c) 2019-2021 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef RAM_DISK_H #define RAM_DISK_H #include #define RAMDISK_CLUSTER_SZ 32768 int ram_disk_init(void *ram_fs, u32 ramdisk_size); int ram_disk_read(u32 sector, u32 sector_count, void *buf); int ram_disk_write(u32 sector, u32 sector_count, const void *buf); #endif ================================================ FILE: bdk/storage/sd.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2023 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #ifndef BDK_SDMMC_UHS_DDR200_SUPPORT #define SD_DEFAULT_SPEED SD_UHS_SDR104 #else #define SD_DEFAULT_SPEED SD_UHS_DDR208 #endif static bool sd_mounted = false; static bool sd_init_done = false; static bool insertion_event = false; static u16 sd_errors[3] = { 0 }; // Init and Read/Write errors. static u32 sd_mode = SD_DEFAULT_SPEED; sdmmc_t sd_sdmmc; sdmmc_storage_t sd_storage; FATFS sd_fs; void sd_error_count_increment(u8 type) { switch (type) { case SD_ERROR_INIT_FAIL: sd_errors[0]++; break; case SD_ERROR_RW_FAIL: sd_errors[1]++; break; case SD_ERROR_RW_RETRY: sd_errors[2]++; break; } } u16 *sd_get_error_count() { return sd_errors; } bool sd_get_card_removed() { if (insertion_event && !sdmmc_get_sd_inserted()) return true; return false; } bool sd_get_card_initialized() { return sd_init_done; } bool sd_get_card_mounted() { return sd_mounted; } u32 sd_get_mode() { return sd_mode; } int sd_init_retry(bool power_cycle) { u32 bus_width = SDMMC_BUS_WIDTH_4; #ifndef BDK_SDMMC_UHS_DDR200_SUPPORT u32 type = SDHCI_TIMING_UHS_SDR104; #else u32 type = SDHCI_TIMING_UHS_DDR200; #endif // Power cycle SD card. if (power_cycle) { sd_mode--; sdmmc_storage_end(&sd_storage); } // Get init parameters. switch (sd_mode) { case SD_INIT_FAIL: // Reset to max. return 1; case SD_1BIT_HS25: bus_width = SDMMC_BUS_WIDTH_1; type = SDHCI_TIMING_SD_HS25; break; case SD_4BIT_HS25: type = SDHCI_TIMING_SD_HS25; break; case SD_UHS_SDR82: type = SDHCI_TIMING_UHS_SDR82; break; case SD_UHS_SDR104: type = SDHCI_TIMING_UHS_SDR104; break; #ifdef BDK_SDMMC_UHS_DDR200_SUPPORT case SD_UHS_DDR208: type = SDHCI_TIMING_UHS_DDR200; break; #endif default: sd_mode = SD_DEFAULT_SPEED; break; } int res = sdmmc_storage_init_sd(&sd_storage, &sd_sdmmc, bus_width, type); if (!res) { sd_init_done = true; insertion_event = true; } else sd_init_done = false; return res; } int sd_initialize(bool power_cycle) { if (power_cycle) sdmmc_storage_end(&sd_storage); int res = sd_init_retry(false); while (true) { if (!res) return 0; else if (!sdmmc_get_sd_inserted()) // SD Card is not inserted. { sd_mode = SD_DEFAULT_SPEED; break; } else { sd_errors[SD_ERROR_INIT_FAIL]++; if (sd_mode == SD_INIT_FAIL) break; else res = sd_init_retry(true); } } sdmmc_storage_end(&sd_storage); return 1; } int sd_mount() { if (sd_init_done && sd_mounted) return 0; int res = 0; if (!sd_init_done) res = sd_initialize(false); if (res) { gfx_con.mute = false; EPRINTF("Failed to init SD card."); if (!sdmmc_get_sd_inserted()) EPRINTF("Make sure that it is inserted."); else EPRINTF("SD Card Reader is not properly seated!"); } else { if (!sd_mounted) res = f_mount(&sd_fs, "0:", 1); // Volume 0 is SD. if (res == FR_OK) { sd_mounted = true; return 0; } else { gfx_con.mute = false; EPRINTFARGS("Failed to mount SD card (FatFS Error %d).\nMake sure that a FAT partition exists..", res); } } return 1; } static void _sd_deinit(bool deinit) { if (deinit) { insertion_event = false; if (sd_mode == SD_INIT_FAIL) sd_mode = SD_DEFAULT_SPEED; } if (sd_init_done) { if (sd_mounted) f_unmount("0:"); // Volume 0 is SD. if (deinit) { sdmmc_storage_end(&sd_storage); sd_init_done = false; } } sd_mounted = false; } void sd_unmount() { _sd_deinit(false); } void sd_end() { _sd_deinit(true); } bool sd_is_gpt() { return sd_fs.part_type; } void *sd_file_read(const char *path, u32 *fsize) { FIL fp; if (!sd_get_card_mounted()) return NULL; if (f_open(&fp, path, FA_READ) != FR_OK) return NULL; u32 size = f_size(&fp); if (fsize) *fsize = size; void *buf = malloc(size); if (f_read(&fp, buf, size, NULL) != FR_OK) { free(buf); f_close(&fp); return NULL; } f_close(&fp); return buf; } int sd_save_to_file(const void *buf, u32 size, const char *filename) { FIL fp; u32 res = 0; if (!sd_get_card_mounted()) return FR_DISK_ERR; res = f_open(&fp, filename, FA_CREATE_ALWAYS | FA_WRITE); if (res) { EPRINTFARGS("Error (%d) creating file\n%s.\n", res, filename); return res; } f_write(&fp, buf, size, NULL); f_close(&fp); return 0; } ================================================ FILE: bdk/storage/sd.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2023 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef SD_H #define SD_H #include #include #include #define SD_BLOCKSIZE SDMMC_DAT_BLOCKSIZE enum { SD_INIT_FAIL = 0, SD_1BIT_HS25 = 1, SD_4BIT_HS25 = 2, SD_UHS_SDR82 = 3, SD_UHS_SDR104 = 4, #ifdef BDK_SDMMC_UHS_DDR200_SUPPORT SD_UHS_DDR208 = 5 #endif }; enum { SD_ERROR_INIT_FAIL = 0, SD_ERROR_RW_FAIL = 1, SD_ERROR_RW_RETRY = 2 }; extern sdmmc_t sd_sdmmc; extern sdmmc_storage_t sd_storage; extern FATFS sd_fs; void sd_error_count_increment(u8 type); u16 *sd_get_error_count(); bool sd_get_card_removed(); bool sd_get_card_initialized(); bool sd_get_card_mounted(); u32 sd_get_mode(); int sd_init_retry(bool power_cycle); int sd_initialize(bool power_cycle); int sd_mount(); void sd_unmount(); void sd_end(); bool sd_is_gpt(); void *sd_file_read(const char *path, u32 *fsize); int sd_save_to_file(const void *buf, u32 size, const char *filename); #endif ================================================ FILE: bdk/storage/sd_def.h ================================================ /* * Copyright (c) 2005-2007 Pierre Ossman, All Rights Reserved. * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or (at * your option) any later version. */ #ifndef SD_DEF_H #define SD_DEF_H /* SD commands type argument response */ /* class 0 */ /* This is basically the same command as for MMC with some quirks. */ #define SD_SEND_RELATIVE_ADDR 3 /* bcr R6 */ #define SD_SEND_IF_COND 8 /* bcr [11:0] See below R7 */ #define SD_SWITCH_VOLTAGE 11 /* ac R1 */ /* Class 2 */ #define SD_ADDR_EXT 22 /* ac [5:0] R1 */ /* class 10 */ #define SD_SWITCH 6 /* adtc [31:0] See below R1 */ /* class 5 */ #define SD_ERASE_WR_BLK_START 32 /* ac [31:0] data addr R1 */ #define SD_ERASE_WR_BLK_END 33 /* ac [31:0] data addr R1 */ /* class 11 */ #define SD_READ_EXTR_SINGLE 48 /* adtc [31:0] R1 */ #define SD_WRITE_EXTR_SINGLE 49 /* adtc [31:0] R1 */ /* Application commands */ #define SD_APP_SET_BUS_WIDTH 6 /* ac [1:0] bus width R1 */ #define SD_APP_SD_STATUS 13 /* adtc R1 */ #define SD_APP_SEND_NUM_WR_BLKS 22 /* adtc R1 */ #define SD_APP_OP_COND 41 /* bcr [31:0] OCR R3 */ #define SD_APP_SET_CLR_CARD_DETECT 42 /* adtc R1 */ #define SD_APP_SEND_SCR 51 /* adtc R1 */ /* Application secure commands */ #define SD_APP_SECURE_READ_MULTI_BLOCK 18 /* adtc R1 */ #define SD_APP_SECURE_WRITE_MULTI_BLOCK 25 /* adtc R1 */ #define SD_APP_SECURE_WRITE_MKB 26 /* adtc R1 */ #define SD_APP_SECURE_ERASE 38 /* adtc R1b */ #define SD_APP_GET_MKB 43 /* adtc [31:0] See below R1 */ #define SD_APP_GET_MID 44 /* adtc R1 */ #define SD_APP_SET_CER_RN1 45 /* adtc R1 */ #define SD_APP_GET_CER_RN2 46 /* adtc R1 */ #define SD_APP_SET_CER_RES2 47 /* adtc R1 */ #define SD_APP_GET_CER_RES1 48 /* adtc R1 */ #define SD_APP_CHANGE_SECURE_AREA 49 /* adtc R1b */ /* OCR bit definitions */ #define SD_OCR_VDD_18 (1U << 7) /* VDD voltage 1.8 */ #define SD_VHS_27_36 (1U << 8) /* VDD voltage 2.7 ~ 3.6 */ #define SD_OCR_VDD_32_33 (1U << 20) /* VDD voltage 3.2 ~ 3.3 */ #define SD_OCR_S18R (1U << 24) /* 1.8V switching request */ #define SD_ROCR_S18A SD_OCR_S18R /* 1.8V switching accepted by card */ #define SD_OCR_XPC (1U << 28) /* SDXC power control */ #define SD_OCR_CCS (1U << 30) /* Card Capacity Status */ #define SD_OCR_BUSY (1U << 31) /* Card Power up Status */ /* * SD_SWITCH argument format: * * [31] Check (0) or switch (1) * [30:24] Reserved (0) * [23:20] Function group 6 * [19:16] Function group 5 * [15:12] Function group 4 * [11:8] Function group 3 * [7:4] Function group 2 * [3:0] Function group 1 */ /* * SD_SEND_IF_COND argument format: * * [31:12] Reserved (0) * [11:8] Host Voltage Supply Flags * [7:0] Check Pattern (0xAA) */ /* * SD_APP_GET_MKB argument format: * * [31:24] Number of blocks to read (512 block size) * [23:16] MKB ID * [15:0] Block offset */ /* * SCR field definitions */ #define SCR_SPEC_VER_0 0 /* Implements system specification 1.0 - 1.01 */ #define SCR_SPEC_VER_1 1 /* Implements system specification 1.10 */ #define SCR_SPEC_VER_2 2 /* Implements system specification 2.00-3.0X */ #define SD_SCR_BUS_WIDTH_1 (1U << 0) #define SD_SCR_BUS_WIDTH_4 (1U << 2) /* * SD bus widths */ #define SD_BUS_WIDTH_1 0 #define SD_BUS_WIDTH_4 2 /* * SD bus speeds */ #define UHS_SDR12_BUS_SPEED 0 #define HIGH_SPEED_BUS_SPEED 1 #define UHS_SDR25_BUS_SPEED 1 #define UHS_SDR50_BUS_SPEED 2 #define UHS_SDR104_BUS_SPEED 3 #define UHS_DDR50_BUS_SPEED 4 #define HS400_BUS_SPEED 5 #define SD_MODE_HIGH_SPEED (1U << HIGH_SPEED_BUS_SPEED) #define SD_MODE_UHS_SDR12 (1U << UHS_SDR12_BUS_SPEED) #define SD_MODE_UHS_SDR25 (1U << UHS_SDR25_BUS_SPEED) #define SD_MODE_UHS_SDR50 (1U << UHS_SDR50_BUS_SPEED) #define SD_MODE_UHS_SDR104 (1U << UHS_SDR104_BUS_SPEED) #define SD_MODE_UHS_DDR50 (1U << UHS_DDR50_BUS_SPEED) #define SD_SET_DRIVER_TYPE_B 0 #define SD_SET_DRIVER_TYPE_A 1 #define SD_SET_DRIVER_TYPE_C 2 #define SD_SET_DRIVER_TYPE_D 3 #define SD_DRIVER_TYPE_B (1U << SD_SET_DRIVER_TYPE_B) #define SD_DRIVER_TYPE_A (1U << SD_SET_DRIVER_TYPE_A) #define SD_DRIVER_TYPE_C (1U << SD_SET_DRIVER_TYPE_C) #define SD_DRIVER_TYPE_D (1U << SD_SET_DRIVER_TYPE_D) #define SD_SET_POWER_LIMIT_0_72 0 #define SD_SET_POWER_LIMIT_1_44 1 #define SD_SET_POWER_LIMIT_2_16 2 #define SD_SET_POWER_LIMIT_2_88 3 #define SD_MAX_POWER_0_72 (1U << SD_SET_POWER_LIMIT_0_72) #define SD_MAX_POWER_1_44 (1U << SD_SET_POWER_LIMIT_1_44) #define SD_MAX_POWER_2_16 (1U << SD_SET_POWER_LIMIT_2_16) #define SD_MAX_POWER_2_88 (1U << SD_SET_POWER_LIMIT_2_88) #define SD_SET_CMD_SYSTEM_DEF 0 #define SD_SET_CMD_SYSTEM_MEC 1 #define SD_SET_CMD_SYSTEM_OTP 3 #define SD_SET_CMD_SYSTEM_OSD 3 #define SD_SET_CMD_SYSTEM_VND 14 #define UHS_DDR200_BUS_SPEED SD_SET_CMD_SYSTEM_VND #define SD_CMD_SYSTEM_DEF (1U << SD_SET_CMD_SYSTEM_DEF) #define SD_CMD_SYSTEM_MEC (1U << SD_SET_CMD_SYSTEM_MEC) #define SD_CMD_SYSTEM_OTP (1U << SD_SET_CMD_SYSTEM_OTP) #define SD_CMD_SYSTEM_OSD (1U << SD_SET_CMD_SYSTEM_OSD) #define SD_CMD_SYSTEM_VND (1U << SD_SET_CMD_SYSTEM_VND) #define SD_MODE_UHS_DDR200 SD_CMD_SYSTEM_VND /* * SD_SWITCH mode */ #define SD_SWITCH_CHECK 0 #define SD_SWITCH_SET 1 /* * SD_SWITCH function groups */ #define SD_SWITCH_GRP_ACCESS 0 #define SD_SWITCH_GRP_CMDSYS 1 #define SD_SWITCH_GRP_DRVSTR 2 #define SD_SWITCH_GRP_PWRLIM 3 /* * SD_SWITCH access modes */ #define SD_SWITCH_ACCESS_DEF 0 #define SD_SWITCH_ACCESS_HS 1 #endif /* SD_DEF_H */ ================================================ FILE: bdk/storage/sdmmc.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include //#define DPRINTF(...) gfx_printf(__VA_ARGS__) #define DPRINTF(...) //#define SDMMC_DEBUG_PRINT_SD_REGS #ifdef SDMMC_DEBUG_PRINT_SD_REGS #define DREGPRINTF(...) gfx_printf(__VA_ARGS__) #else #define DREGPRINTF(...) #endif #ifdef BDK_SDMMC_EXTRA_PRINT #define ERROR_EXTRA_PRINTING #endif u32 sd_power_cycle_time_start; static inline u32 unstuff_bits(const u32 *resp, u32 start, u32 size) { start %= 128; const u32 mask = (size < 32 ? 1 << size : 0) - 1; const u32 off = 3 - ((start) / 32); const u32 shft = (start) & 31; u32 res = resp[off] >> shft; if (size + shft > 32) res |= resp[off - 1] << ((32 - shft) % 32); return res & mask; } /* * Common functions for SD and MMC. */ static int _sdmmc_storage_check_card_status(u32 res) { //Error mask: //!WARN: R1_SWITCH_ERROR is reserved on SD. The card isn't supposed to use it. if (res & (R1_OUT_OF_RANGE | R1_ADDRESS_ERROR | R1_BLOCK_LEN_ERROR | R1_ERASE_SEQ_ERROR | R1_ERASE_PARAM | R1_WP_VIOLATION | R1_LOCK_UNLOCK_FAILED | R1_COM_CRC_ERROR | R1_ILLEGAL_COMMAND | R1_CARD_ECC_FAILED | R1_CC_ERROR | R1_ERROR | R1_CID_CSD_OVERWRITE | R1_WP_ERASE_SKIP | R1_ERASE_RESET | R1_SWITCH_ERROR)) return 1; // No errors. return 0; } static int _sdmmc_storage_execute_cmd_type1_ex(sdmmc_storage_t *storage, u32 *resp, u32 cmd, u32 arg, u32 check_busy, u32 expected_state, u32 mask) { sdmmc_cmd_t cmdbuf; sdmmc_init_cmd(&cmdbuf, cmd, arg, SDMMC_RSP_TYPE_1, check_busy); if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL)) return 1; sdmmc_get_cached_rsp(storage->sdmmc, resp, SDMMC_RSP_TYPE_1); if (mask) *resp &= ~mask; if (!_sdmmc_storage_check_card_status(*resp)) if (expected_state == R1_SKIP_STATE_CHECK || R1_CURRENT_STATE(*resp) == expected_state) return 0; return 1; } static int _sdmmc_storage_execute_cmd_type1(sdmmc_storage_t *storage, u32 cmd, u32 arg, u32 check_busy, u32 expected_state) { u32 tmp; return _sdmmc_storage_execute_cmd_type1_ex(storage, &tmp, cmd, arg, check_busy, expected_state, 0); } static int _sdmmc_storage_go_idle_state(sdmmc_storage_t *storage) { sdmmc_cmd_t cmdbuf; sdmmc_init_cmd(&cmdbuf, MMC_GO_IDLE_STATE, 0, SDMMC_RSP_TYPE_0, 0); return sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL); } static int _sdmmc_storage_get_cid(sdmmc_storage_t *storage) { sdmmc_cmd_t cmdbuf; sdmmc_init_cmd(&cmdbuf, MMC_ALL_SEND_CID, 0, SDMMC_RSP_TYPE_2, 0); if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL)) return 1; sdmmc_get_cached_rsp(storage->sdmmc, (u32 *)storage->raw_cid, SDMMC_RSP_TYPE_2); return 0; } static int _sdmmc_storage_select_card(sdmmc_storage_t *storage) { return _sdmmc_storage_execute_cmd_type1(storage, MMC_SELECT_CARD, storage->rca << 16, 1, R1_SKIP_STATE_CHECK); } static int _sdmmc_storage_get_csd(sdmmc_storage_t *storage) { sdmmc_cmd_t cmdbuf; sdmmc_init_cmd(&cmdbuf, MMC_SEND_CSD, storage->rca << 16, SDMMC_RSP_TYPE_2, 0); if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL)) return 1; sdmmc_get_cached_rsp(storage->sdmmc, (u32 *)storage->raw_csd, SDMMC_RSP_TYPE_2); return 0; } static int _sdmmc_storage_set_blocklen(sdmmc_storage_t *storage, u32 blocklen) { return _sdmmc_storage_execute_cmd_type1(storage, MMC_SET_BLOCKLEN, blocklen, 0, R1_STATE_TRAN); } static int _sdmmc_storage_get_status(sdmmc_storage_t *storage, u32 *resp, u32 mask) { return _sdmmc_storage_execute_cmd_type1_ex(storage, resp, MMC_SEND_STATUS, storage->rca << 16, 0, R1_STATE_TRAN, mask); } static int _sdmmc_storage_check_status(sdmmc_storage_t *storage) { u32 tmp; return _sdmmc_storage_get_status(storage, &tmp, 0); } int sdmmc_storage_execute_vendor_cmd(sdmmc_storage_t *storage, u32 arg) { sdmmc_cmd_t cmdbuf; sdmmc_init_cmd(&cmdbuf, MMC_VENDOR_62_CMD, arg, SDMMC_RSP_TYPE_1, 1); if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, 0, 0)) return 1; u32 resp; sdmmc_get_cached_rsp(storage->sdmmc, &resp, SDMMC_RSP_TYPE_1); resp = -1; u32 timeout = get_tmr_ms() + 1500; while (true) { _sdmmc_storage_get_status(storage, &resp, 0); if (resp == (R1_READY_FOR_DATA | R1_STATE(R1_STATE_TRAN))) break; if (get_tmr_ms() > timeout) break; msleep(10); } return _sdmmc_storage_check_card_status(resp); } int sdmmc_storage_vendor_sandisk_report(sdmmc_storage_t *storage, void *buf) { // Request health report. if (sdmmc_storage_execute_vendor_cmd(storage, MMC_SANDISK_HEALTH_REPORT)) return 2; u32 tmp = 0; sdmmc_cmd_t cmdbuf; sdmmc_req_t reqbuf; sdmmc_init_cmd(&cmdbuf, MMC_VENDOR_63_CMD, 0, SDMMC_RSP_TYPE_1, 0); // similar to CMD17 with arg 0x0. reqbuf.buf = buf; reqbuf.num_sectors = 1; reqbuf.blksize = SDMMC_DAT_BLOCKSIZE; reqbuf.is_write = 0; reqbuf.is_multi_block = 0; reqbuf.is_auto_stop_trn = 0; u32 blkcnt_out; if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, &blkcnt_out)) { sdmmc_stop_transmission(storage->sdmmc, &tmp); _sdmmc_storage_get_status(storage, &tmp, 0); return 1; } return 0; } static int _sdmmc_storage_readwrite_ex(sdmmc_storage_t *storage, u32 *blkcnt_out, u32 sector, u32 num_sectors, void *buf, u32 is_write) { u32 tmp = 0; sdmmc_cmd_t cmdbuf; sdmmc_req_t reqbuf; // If SDSC convert block address to byte address. if (!storage->has_sector_access) sector <<= 9; sdmmc_init_cmd(&cmdbuf, is_write ? MMC_WRITE_MULTIPLE_BLOCK : MMC_READ_MULTIPLE_BLOCK, sector, SDMMC_RSP_TYPE_1, 0); reqbuf.buf = buf; reqbuf.num_sectors = num_sectors; reqbuf.blksize = SDMMC_DAT_BLOCKSIZE; reqbuf.is_write = is_write; reqbuf.is_multi_block = 1; reqbuf.is_auto_stop_trn = 1; if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, blkcnt_out)) { sdmmc_stop_transmission(storage->sdmmc, &tmp); _sdmmc_storage_get_status(storage, &tmp, 0); return 1; } sdmmc_get_cached_rsp(storage->sdmmc, &tmp, SDMMC_RSP_TYPE_1); if (_sdmmc_storage_check_card_status(tmp)) return 1; return 0; } int sdmmc_storage_end(sdmmc_storage_t *storage) { DPRINTF("[SDMMC%d] end\n", storage->sdmmc->id); if (_sdmmc_storage_go_idle_state(storage)) return 1; sdmmc_end(storage->sdmmc); storage->initialized = 0; return 0; } static int _sdmmc_storage_handle_io_error(sdmmc_storage_t *storage, bool first_reinit) { int res = 1; if (storage->sdmmc->id == SDMMC_1 || storage->sdmmc->id == SDMMC_4) { if (storage->sdmmc->id == SDMMC_1) { sd_error_count_increment(SD_ERROR_RW_FAIL); if (first_reinit) res = sd_initialize(true); else { res = sd_init_retry(true); if (res) sd_error_count_increment(SD_ERROR_INIT_FAIL); } } else if (storage->sdmmc->id == SDMMC_4) { emmc_error_count_increment(EMMC_ERROR_RW_FAIL); if (first_reinit) res = emmc_initialize(true); else { res = emmc_init_retry(true); if (res) emmc_error_count_increment(EMMC_ERROR_INIT_FAIL); } } } return res; } static int _sdmmc_storage_readwrite(sdmmc_storage_t *storage, u32 sector, u32 num_sectors, void *buf, u32 is_write) { u8 *bbuf = (u8 *)buf; u32 sct_off = sector; u32 sct_total = num_sectors; bool first_reinit = true; // Exit if not initialized. if (!storage->initialized) return 1; // Check if out of bounds. if (((u64)sector + num_sectors) > storage->sec_cnt) { #ifdef ERROR_EXTRA_PRINTING EPRINTFARGS("SDMMC%d: Out of bounds!", storage->sdmmc->id + 1); #endif return 1; } while (sct_total) { u32 blkcnt = 0; // Retry 5 times if failed. u32 retries = 5; do { reinit_try: if (!_sdmmc_storage_readwrite_ex(storage, &blkcnt, sct_off, MIN(sct_total, SDMMC_AMAX_BLOCKNUM), bbuf, is_write)) goto out; else retries--; sd_error_count_increment(SD_ERROR_RW_RETRY); msleep(50); } while (retries); // Disk IO failure! Reinit SD/EMMC to a lower speed. if (!_sdmmc_storage_handle_io_error(storage, first_reinit)) { // Reset values for a retry. blkcnt = 0; retries = 3; first_reinit = false; bbuf = (u8 *)buf; sct_off = sector; sct_total = num_sectors; goto reinit_try; } // Failed. return 1; out: sct_off += blkcnt; sct_total -= blkcnt; bbuf += SDMMC_DAT_BLOCKSIZE * blkcnt; } return 0; } int sdmmc_storage_read(sdmmc_storage_t *storage, u32 sector, u32 num_sectors, void *buf) { // Ensure that SDMMC has access to buffer and it's SDMMC DMA aligned. if (mc_client_has_access(buf) && !((u32)buf % SDMMC_ADMA_ADDR_ALIGN)) return _sdmmc_storage_readwrite(storage, sector, num_sectors, buf, 0); if (num_sectors > (SDMMC_ALT_DMA_BUF_SZ / SDMMC_DAT_BLOCKSIZE)) return 1; u8 *tmp_buf = (u8 *)SDMMC_ALT_DMA_BUFFER; if (_sdmmc_storage_readwrite(storage, sector, num_sectors, tmp_buf, 0)) return 1; memcpy(buf, tmp_buf, SDMMC_DAT_BLOCKSIZE * num_sectors); return 0; } int sdmmc_storage_write(sdmmc_storage_t *storage, u32 sector, u32 num_sectors, void *buf) { // Ensure that SDMMC has access to buffer and it's SDMMC DMA aligned. if (mc_client_has_access(buf) && !((u32)buf % SDMMC_ADMA_ADDR_ALIGN)) return _sdmmc_storage_readwrite(storage, sector, num_sectors, buf, 1); if (num_sectors > (SDMMC_ALT_DMA_BUF_SZ / SDMMC_DAT_BLOCKSIZE)) return 1; u8 *tmp_buf = (u8 *)SDMMC_ALT_DMA_BUFFER; memcpy(tmp_buf, buf, SDMMC_DAT_BLOCKSIZE * num_sectors); return _sdmmc_storage_readwrite(storage, sector, num_sectors, tmp_buf, 1); } /* * MMC specific functions. */ static int _mmc_storage_get_op_cond_inner(sdmmc_storage_t *storage, u32 *pout, u32 power) { sdmmc_cmd_t cmdbuf; u32 arg = 0; switch (power) { case SDMMC_POWER_1_8: arg = MMC_CARD_CCS | MMC_CARD_VDD_18; break; case SDMMC_POWER_3_3: arg = MMC_CARD_CCS | MMC_CARD_VDD_27_34; break; default: return 1; } sdmmc_init_cmd(&cmdbuf, MMC_SEND_OP_COND, arg, SDMMC_RSP_TYPE_3, 0); if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL)) return 1; return sdmmc_get_cached_rsp(storage->sdmmc, pout, SDMMC_RSP_TYPE_3); } static int _mmc_storage_get_op_cond(sdmmc_storage_t *storage, u32 power) { u32 timeout = get_tmr_ms() + 1500; while (true) { u32 cond = 0; if (_mmc_storage_get_op_cond_inner(storage, &cond, power)) break; // Check if power up is done. if (cond & MMC_CARD_BUSY) { // Check if card is high capacity. if (cond & MMC_CARD_CCS) storage->has_sector_access = 1; return 0; } if (get_tmr_ms() > timeout) break; usleep(1000); } return 1; } static int _mmc_storage_set_relative_addr(sdmmc_storage_t *storage) { return _sdmmc_storage_execute_cmd_type1(storage, MMC_SET_RELATIVE_ADDR, storage->rca << 16, 0, R1_SKIP_STATE_CHECK); } static void _mmc_storage_parse_cid(sdmmc_storage_t *storage) { u32 *raw_cid = (u32 *)&(storage->raw_cid); switch (storage->csd.mmca_vsn) { case 0: /* MMC v1.0 - v1.2 */ case 1: /* MMC v1.4 */ storage->cid.prod_name[6] = unstuff_bits(raw_cid, 48, 8); storage->cid.manfid = unstuff_bits(raw_cid, 104, 24); storage->cid.hwrev = unstuff_bits(raw_cid, 44, 4); storage->cid.fwrev = unstuff_bits(raw_cid, 40, 4); storage->cid.serial = unstuff_bits(raw_cid, 16, 24); break; case 2: /* MMC v2.0 - v2.2 */ case 3: /* MMC v3.1 - v3.3 */ case 4: /* MMC v4 */ storage->cid.manfid = unstuff_bits(raw_cid, 120, 8); storage->cid.oemid = unstuff_bits(raw_cid, 104, 8); storage->cid.prv = unstuff_bits(raw_cid, 48, 8); storage->cid.serial = unstuff_bits(raw_cid, 16, 32); break; default: break; } storage->cid.prod_name[0] = unstuff_bits(raw_cid, 96, 8); storage->cid.prod_name[1] = unstuff_bits(raw_cid, 88, 8); storage->cid.prod_name[2] = unstuff_bits(raw_cid, 80, 8); storage->cid.prod_name[3] = unstuff_bits(raw_cid, 72, 8); storage->cid.prod_name[4] = unstuff_bits(raw_cid, 64, 8); storage->cid.prod_name[5] = unstuff_bits(raw_cid, 56, 8); storage->cid.month = unstuff_bits(raw_cid, 12, 4); storage->cid.year = unstuff_bits(raw_cid, 8, 4) + 1997; if (storage->ext_csd.rev >= 5) { if (storage->cid.year < 2010) storage->cid.year += 16; } } static void _mmc_storage_parse_csd(sdmmc_storage_t *storage) { u32 *raw_csd = (u32 *)storage->raw_csd; storage->csd.mmca_vsn = unstuff_bits(raw_csd, 122, 4); storage->csd.structure = unstuff_bits(raw_csd, 126, 2); storage->csd.cmdclass = unstuff_bits(raw_csd, 84, 12); storage->csd.read_blkbits = unstuff_bits(raw_csd, 80, 4); storage->csd.capacity = (1 + unstuff_bits(raw_csd, 62, 12)) << (unstuff_bits(raw_csd, 47, 3) + 2); storage->sec_cnt = storage->csd.capacity; } static void _mmc_storage_parse_ext_csd(sdmmc_storage_t *storage) { u8 *ext_csd = storage->raw_ext_csd; storage->ext_csd.rev = ext_csd[EXT_CSD_REV]; storage->ext_csd.ext_struct = ext_csd[EXT_CSD_STRUCTURE]; storage->ext_csd.card_type = ext_csd[EXT_CSD_CARD_TYPE]; storage->ext_csd.dev_version = *(u16 *)&ext_csd[EXT_CSD_DEVICE_VERSION]; storage->ext_csd.boot_mult = ext_csd[EXT_CSD_BOOT_MULT]; storage->ext_csd.rpmb_mult = ext_csd[EXT_CSD_RPMB_MULT]; storage->ext_csd.bkops = ext_csd[EXT_CSD_BKOPS_SUPPORT]; storage->ext_csd.bkops_en = ext_csd[EXT_CSD_BKOPS_EN]; storage->ext_csd.pre_eol_info = ext_csd[EXT_CSD_PRE_EOL_INFO]; storage->ext_csd.dev_life_est_a = ext_csd[EXT_CSD_DEVICE_LIFE_TIME_EST_TYP_A]; storage->ext_csd.dev_life_est_b = ext_csd[EXT_CSD_DEVICE_LIFE_TIME_EST_TYP_B]; storage->ext_csd.cache_size = ext_csd[EXT_CSD_CACHE_SIZE] | (ext_csd[EXT_CSD_CACHE_SIZE + 1] << 8) | (ext_csd[EXT_CSD_CACHE_SIZE + 2] << 16) | (ext_csd[EXT_CSD_CACHE_SIZE + 3] << 24); storage->ext_csd.max_enh_mult = (ext_csd[EXT_CSD_MAX_ENH_SIZE_MULT] | (ext_csd[EXT_CSD_MAX_ENH_SIZE_MULT + 1] << 8) | (ext_csd[EXT_CSD_MAX_ENH_SIZE_MULT + 2] << 16)) * ext_csd[EXT_CSD_HC_WP_GRP_SIZE] * ext_csd[EXT_CSD_HC_ERASE_GRP_SIZE]; storage->sec_cnt = *(u32 *)&ext_csd[EXT_CSD_SEC_CNT]; } int mmc_storage_get_ext_csd(sdmmc_storage_t *storage) { sdmmc_cmd_t cmdbuf; sdmmc_init_cmd(&cmdbuf, MMC_SEND_EXT_CSD, 0, SDMMC_RSP_TYPE_1, 0); sdmmc_req_t reqbuf; reqbuf.buf = storage->raw_ext_csd; reqbuf.blksize = SDMMC_DAT_BLOCKSIZE; reqbuf.num_sectors = 1; reqbuf.is_write = 0; reqbuf.is_multi_block = 0; reqbuf.is_auto_stop_trn = 0; if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, NULL)) return 1; u32 tmp = 0; sdmmc_get_cached_rsp(storage->sdmmc, &tmp, SDMMC_RSP_TYPE_1); _mmc_storage_parse_ext_csd(storage); return _sdmmc_storage_check_card_status(tmp); } int sd_storage_get_ext_reg(sdmmc_storage_t *storage, u8 fno, u8 page, u16 address, u32 len, void *buf) { if (!(storage->scr.cmds & BIT(2))) return 1; sdmmc_cmd_t cmdbuf; u32 arg = fno << 27 | page << 18 | address << 9 | (len - 1); sdmmc_init_cmd(&cmdbuf, SD_READ_EXTR_SINGLE, arg, SDMMC_RSP_TYPE_1, 0); sdmmc_req_t reqbuf; reqbuf.buf = buf; reqbuf.blksize = SDMMC_DAT_BLOCKSIZE; reqbuf.num_sectors = 1; reqbuf.is_write = 0; reqbuf.is_multi_block = 0; reqbuf.is_auto_stop_trn = 0; if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, NULL)) return 1; u32 tmp = 0; sdmmc_get_cached_rsp(storage->sdmmc, &tmp, SDMMC_RSP_TYPE_1); return _sdmmc_storage_check_card_status(tmp); } static int _mmc_storage_switch(sdmmc_storage_t *storage, u32 arg) { return _sdmmc_storage_execute_cmd_type1(storage, MMC_SWITCH, arg, 1, R1_SKIP_STATE_CHECK); } static int _mmc_storage_switch_buswidth(sdmmc_storage_t *storage, u32 bus_width) { if (bus_width == SDMMC_BUS_WIDTH_1) return 0; u32 arg = 0; switch (bus_width) { case SDMMC_BUS_WIDTH_4: arg = SDMMC_SWITCH(MMC_SWITCH_MODE_WRITE_BYTE, EXT_CSD_BUS_WIDTH, EXT_CSD_BUS_WIDTH_4); break; case SDMMC_BUS_WIDTH_8: arg = SDMMC_SWITCH(MMC_SWITCH_MODE_WRITE_BYTE, EXT_CSD_BUS_WIDTH, EXT_CSD_BUS_WIDTH_8); break; } if (!_mmc_storage_switch(storage, arg)) if (!_sdmmc_storage_check_status(storage)) { sdmmc_set_bus_width(storage->sdmmc, bus_width); return 0; } return 1; } static int _mmc_storage_enable_HS(sdmmc_storage_t *storage, bool check_sts_before_clk_setup) { if (_mmc_storage_switch(storage, SDMMC_SWITCH(MMC_SWITCH_MODE_WRITE_BYTE, EXT_CSD_HS_TIMING, EXT_CSD_TIMING_HS))) return 1; if (check_sts_before_clk_setup && _sdmmc_storage_check_status(storage)) return 1; if (sdmmc_setup_clock(storage->sdmmc, SDHCI_TIMING_MMC_HS52)) return 1; DPRINTF("[MMC] switched to HS52\n"); storage->csd.busspeed = 52; if (check_sts_before_clk_setup || !_sdmmc_storage_check_status(storage)) return 0; return 1; } static int _mmc_storage_enable_HS200(sdmmc_storage_t *storage) { if (_mmc_storage_switch(storage, SDMMC_SWITCH(MMC_SWITCH_MODE_WRITE_BYTE, EXT_CSD_HS_TIMING, EXT_CSD_TIMING_HS200))) return 1; if (sdmmc_setup_clock(storage->sdmmc, SDHCI_TIMING_MMC_HS200)) return 1; if (sdmmc_tuning_execute(storage->sdmmc, SDHCI_TIMING_MMC_HS200, MMC_SEND_TUNING_BLOCK_HS200)) return 1; DPRINTF("[MMC] switched to HS200\n"); storage->csd.busspeed = 200; return _sdmmc_storage_check_status(storage); } static int _mmc_storage_enable_HS400(sdmmc_storage_t *storage) { if (_mmc_storage_enable_HS200(storage)) return 1; sdmmc_save_tap_value(storage->sdmmc); if (_mmc_storage_enable_HS(storage, false)) return 1; if (_mmc_storage_switch(storage, SDMMC_SWITCH(MMC_SWITCH_MODE_WRITE_BYTE, EXT_CSD_BUS_WIDTH, EXT_CSD_DDR_BUS_WIDTH_8))) return 1; if (_mmc_storage_switch(storage, SDMMC_SWITCH(MMC_SWITCH_MODE_WRITE_BYTE, EXT_CSD_HS_TIMING, EXT_CSD_TIMING_HS400))) return 1; if (sdmmc_setup_clock(storage->sdmmc, SDHCI_TIMING_MMC_HS400)) return 1; DPRINTF("[MMC] switched to HS400\n"); storage->csd.busspeed = 400; return _sdmmc_storage_check_status(storage); } static int _mmc_storage_enable_highspeed(sdmmc_storage_t *storage, u32 card_type, u32 type) { if (sdmmc_get_io_power(storage->sdmmc) != SDMMC_POWER_1_8) goto hs52_mode; // HS400 needs 8-bit bus width mode. if (sdmmc_get_bus_width(storage->sdmmc) == SDMMC_BUS_WIDTH_8 && card_type & EXT_CSD_CARD_TYPE_HS400_1_8V && type == SDHCI_TIMING_MMC_HS400) return _mmc_storage_enable_HS400(storage); // Try HS200 if HS400 and 4-bit width bus or just HS200. if ((sdmmc_get_bus_width(storage->sdmmc) == SDMMC_BUS_WIDTH_8 || sdmmc_get_bus_width(storage->sdmmc) == SDMMC_BUS_WIDTH_4) && card_type & EXT_CSD_CARD_TYPE_HS200_1_8V && (type == SDHCI_TIMING_MMC_HS400 || type == SDHCI_TIMING_MMC_HS200)) return _mmc_storage_enable_HS200(storage); hs52_mode: if (card_type & EXT_CSD_CARD_TYPE_HS_52) return _mmc_storage_enable_HS(storage, true); return 0; } /* static int _mmc_storage_enable_auto_bkops(sdmmc_storage_t *storage) { if (_mmc_storage_switch(storage, SDMMC_SWITCH(MMC_SWITCH_MODE_SET_BITS, EXT_CSD_BKOPS_EN, EXT_CSD_BKOPS_AUTO))) return 1; return _sdmmc_storage_check_status(storage); } */ int sdmmc_storage_init_mmc(sdmmc_storage_t *storage, sdmmc_t *sdmmc, u32 bus_width, u32 type) { memset(storage, 0, sizeof(sdmmc_storage_t)); storage->sdmmc = sdmmc; storage->rca = 2; // Set default device address. This could be a config item. DPRINTF("[MMC]-[init: bus: %d, type: %d]\n", bus_width, type); if (sdmmc_init(sdmmc, SDMMC_4, SDMMC_POWER_1_8, SDMMC_BUS_WIDTH_1, SDHCI_TIMING_MMC_ID)) return 1; DPRINTF("[MMC] after init\n"); // Wait 1ms + 74 cycles. usleep(1000 + (74 * 1000 + sdmmc->card_clock - 1) / sdmmc->card_clock); if (_sdmmc_storage_go_idle_state(storage)) return 1; DPRINTF("[MMC] went to idle state\n"); if (_mmc_storage_get_op_cond(storage, SDMMC_POWER_1_8)) return 1; DPRINTF("[MMC] got op cond\n"); if (_sdmmc_storage_get_cid(storage)) return 1; DPRINTF("[MMC] got cid\n"); if (_mmc_storage_set_relative_addr(storage)) return 1; DPRINTF("[MMC] set relative addr\n"); if (_sdmmc_storage_get_csd(storage)) return 1; DPRINTF("[MMC] got csd\n"); _mmc_storage_parse_csd(storage); if (sdmmc_setup_clock(storage->sdmmc, SDHCI_TIMING_MMC_LS26)) return 1; DPRINTF("[MMC] after setup clock\n"); if (_sdmmc_storage_select_card(storage)) return 1; DPRINTF("[MMC] card selected\n"); if (_sdmmc_storage_set_blocklen(storage, EMMC_BLOCKSIZE)) return 1; DPRINTF("[MMC] set blocklen to EMMC_BLOCKSIZE\n"); // Check system specification version, only version 4.0 and later support below features. if (storage->csd.mmca_vsn < CSD_SPEC_VER_4) goto done; if (_mmc_storage_switch_buswidth(storage, bus_width)) return 1; DPRINTF("[MMC] switched buswidth\n"); if (mmc_storage_get_ext_csd(storage)) return 1; DPRINTF("[MMC] got ext_csd\n"); _mmc_storage_parse_cid(storage); // This needs to be after csd and ext_csd. /* if (storage->cid.manfid == 0x11 && storage->ext_csd.bkops && !(storage->ext_csd.bkops_en & EXT_CSD_BKOPS_AUTO)) { _mmc_storage_enable_auto_bkops(storage); DPRINTF("[MMC] BKOPS enabled\n"); } */ if (_mmc_storage_enable_highspeed(storage, storage->ext_csd.card_type, type)) return 1; DPRINTF("[MMC] successfully switched to HS mode\n"); sdmmc_card_clock_powersave(storage->sdmmc, SDMMC_POWER_SAVE_ENABLE); done: storage->initialized = 1; return 0; } int sdmmc_storage_set_mmc_partition(sdmmc_storage_t *storage, u32 partition) { if (_mmc_storage_switch(storage, SDMMC_SWITCH(MMC_SWITCH_MODE_WRITE_BYTE, EXT_CSD_PART_CONFIG, partition))) return 1; if (_sdmmc_storage_check_status(storage)) return 1; storage->partition = partition; return 0; } /* * SD specific functions. */ static int _sd_storage_execute_app_cmd(sdmmc_storage_t *storage, u32 expected_state, u32 mask, sdmmc_cmd_t *cmdbuf, sdmmc_req_t *req, u32 *blkcnt_out) { u32 tmp; if (_sdmmc_storage_execute_cmd_type1_ex(storage, &tmp, MMC_APP_CMD, storage->rca << 16, 0, expected_state, mask)) return 1; return sdmmc_execute_cmd(storage->sdmmc, cmdbuf, req, blkcnt_out); } static int _sd_storage_execute_app_cmd_type1(sdmmc_storage_t *storage, u32 *resp, u32 cmd, u32 arg, u32 check_busy, u32 expected_state) { if (_sdmmc_storage_execute_cmd_type1(storage, MMC_APP_CMD, storage->rca << 16, 0, R1_STATE_TRAN)) return 1; return _sdmmc_storage_execute_cmd_type1_ex(storage, resp, cmd, arg, check_busy, expected_state, 0); } #ifdef SDMMC_DEBUG_PRINT_SD_REGS void _sd_storage_debug_print_cid(const u32 *raw_cid) { gfx_printf("Card Identification\n"); gfx_printf("MID: %02X\n", unstuff_bits(raw_cid, 120, 8)); gfx_printf("OID %04X\n", unstuff_bits(raw_cid, 104, 16)); gfx_printf("PNM: %02X %02X %02X %02X %02X\n", unstuff_bits(raw_cid, 96, 8), unstuff_bits(raw_cid, 88, 8), unstuff_bits(raw_cid, 80, 8), unstuff_bits(raw_cid, 72, 8), unstuff_bits(raw_cid, 64, 8)); gfx_printf("PRV: %02X\n", unstuff_bits(raw_cid, 56, 8)); gfx_printf("PSN: %08X\n", unstuff_bits(raw_cid, 24, 32)); gfx_printf("MDT: %03X\n", unstuff_bits(raw_cid, 8, 12)); gfx_printf("--RSVD-- %X\n", unstuff_bits(raw_cid, 20, 4)); } void _sd_storage_debug_print_csd(const u32 *raw_csd) { gfx_printf("\n"); gfx_printf("\nCSD_STRUCTURE: %X\n", unstuff_bits(raw_csd, 126, 2)); gfx_printf("TAAC: %02X\n", unstuff_bits(raw_csd, 112, 8)); gfx_printf("NSAC: %02X\n", unstuff_bits(raw_csd, 104, 8)); gfx_printf("TRAN_SPEED: %02X\n", unstuff_bits(raw_csd, 96, 8)); gfx_printf("CCC: %03X\n", unstuff_bits(raw_csd, 84, 12)); gfx_printf("READ_BL_LEN: %X\n", unstuff_bits(raw_csd, 80, 4)); gfx_printf("READ_BL_PARTIAL: %X\n", unstuff_bits(raw_csd, 79, 1)); gfx_printf("WRITE_BLK_MISALIGN: %X\n", unstuff_bits(raw_csd, 78, 1)); gfx_printf("READ_BLK_MISALIGN: %X\n", unstuff_bits(raw_csd, 77, 1)); gfx_printf("DSR_IMP: %X\n", unstuff_bits(raw_csd, 76, 1)); gfx_printf("C_SIZE: %06X\n", unstuff_bits(raw_csd, 48, 28)); // CSD 3 (SDUC). gfx_printf("ERASE_BLK_LEN: %X\n", unstuff_bits(raw_csd, 46, 1)); gfx_printf("SECTOR_SIZE: %02X\n", unstuff_bits(raw_csd, 39, 6)); gfx_printf("WP_GRP_SIZE: %02X\n", unstuff_bits(raw_csd, 32, 6)); gfx_printf("WP_GRP_ENABLE: %X\n", unstuff_bits(raw_csd, 31, 1)); gfx_printf("R2W_FACTOR: %X\n", unstuff_bits(raw_csd, 26, 3)); gfx_printf("WRITE_BL_LEN: %X\n", unstuff_bits(raw_csd, 22, 4)); gfx_printf("WRITE_BL_PARTIAL: %X\n", unstuff_bits(raw_csd, 21, 1)); gfx_printf("FILE_FORMAT_GRP: %X\n", unstuff_bits(raw_csd, 15, 1)); gfx_printf("COPY: %X\n", unstuff_bits(raw_csd, 14, 1)); gfx_printf("PERM_WRITE_PROTECT: %X\n", unstuff_bits(raw_csd, 13, 1)); gfx_printf("TMP_WRITE_PROTECT: %X\n", unstuff_bits(raw_csd, 12, 1)); gfx_printf("FILE_FORMAT: %X\n", unstuff_bits(raw_csd, 10, 2)); gfx_printf("--RSVD-- %02X %X %X %02X %X\n", unstuff_bits(raw_csd, 120, 6), unstuff_bits(raw_csd, 47, 1), unstuff_bits(raw_csd, 29, 2), unstuff_bits(raw_csd, 16, 5), unstuff_bits(raw_csd, 8, 2)); } void _sd_storage_debug_print_scr(const u32 *raw_scr) { u32 resp[4]; memcpy(&resp[2], raw_scr, 8); gfx_printf("\n"); gfx_printf("SCR_STRUCTURE: %X\n", unstuff_bits(resp, 60, 4)); gfx_printf("SD_SPEC: %X\n", unstuff_bits(resp, 56, 4)); gfx_printf("DATA_STAT_AFTER_ERASE: %X\n", unstuff_bits(resp, 55, 1)); gfx_printf("SD_SECURITY: %X\n", unstuff_bits(resp, 52, 3)); gfx_printf("SD_BUS widths: %X\n", unstuff_bits(resp, 48, 4)); gfx_printf("SD_SPEC3: %X\n", unstuff_bits(resp, 47, 1)); gfx_printf("EX_SECURITY: %X\n", unstuff_bits(resp, 43, 4)); gfx_printf("SD_SPEC4: %X\n", unstuff_bits(resp, 42, 1)); gfx_printf("SD_SPECX: %X\n", unstuff_bits(resp, 38, 4)); gfx_printf("CMD_SUPPORT: %X\n", unstuff_bits(resp, 32, 4)); gfx_printf("VENDOR: %08X\n", unstuff_bits(resp, 0, 32)); gfx_printf("--RSVD-- %X\n", unstuff_bits(resp, 36, 2)); } void _sd_storage_debug_print_ssr(const u8 *raw_ssr) { u32 raw_ssr0[4]; // 511:384. u32 raw_ssr1[4]; // 383:256. u32 raw_ssr2[4]; // 255:128. u32 raw_ssr3[4]; // 127:0. memcpy(raw_ssr0, &raw_ssr[0], 16); memcpy(raw_ssr1, &raw_ssr[16], 16); memcpy(raw_ssr2, &raw_ssr[32], 16); memcpy(raw_ssr3, &raw_ssr[48], 16); gfx_printf("\nSD Status:\n"); gfx_printf("DAT_BUS_WIDTH: %X\n", unstuff_bits(raw_ssr0, 510, 2)); gfx_printf("SECURED_MODE: %X\n", unstuff_bits(raw_ssr0, 509, 1)); gfx_printf("SECURITY_FUNCTIONS: %02X\n", unstuff_bits(raw_ssr0, 502, 6)); gfx_printf("SD_CARD_TYPE: %04X\n", unstuff_bits(raw_ssr0, 480, 16)); gfx_printf("SZ_OF_PROTECTED_AREA: %08X\n", unstuff_bits(raw_ssr0, 448, 32)); gfx_printf("SPEED_CLASS: %02X\n", unstuff_bits(raw_ssr0, 440, 8)); gfx_printf("PERFORMANCE_MOVE: %02X\n", unstuff_bits(raw_ssr0, 432, 8)); gfx_printf("AU_SIZE: %X\n", unstuff_bits(raw_ssr0, 428, 4)); gfx_printf("ERAZE_SIZE: %04X\n", unstuff_bits(raw_ssr0, 408, 16)); gfx_printf("ERASE_TIMEOUT: %02X\n", unstuff_bits(raw_ssr0, 402, 6)); gfx_printf("ERASE_OFFSET: %X\n", unstuff_bits(raw_ssr0, 400, 2)); gfx_printf("UHS_SPEED_GRADE: %X\n", unstuff_bits(raw_ssr0, 396, 4)); gfx_printf("UHS_AU_SIZE: %X\n", unstuff_bits(raw_ssr0, 392, 4)); gfx_printf("VIDEO_SPEED_CLASS: %02X\n", unstuff_bits(raw_ssr0, 384, 8)); gfx_printf("VSC_AU_SIZE: %03X\n", unstuff_bits(raw_ssr1, 368, 10)); gfx_printf("SUS_ADDR: %06X\n", unstuff_bits(raw_ssr1, 346, 22)); gfx_printf("APP_PERF_CLASS: %X\n", unstuff_bits(raw_ssr1, 336, 4)); gfx_printf("PERFORMANCE_ENHANCE: %02X\n", unstuff_bits(raw_ssr1, 328, 8)); gfx_printf("DISCARD_SUPPORT: %X\n", unstuff_bits(raw_ssr1, 313, 1)); gfx_printf("FULE_SUPPORT: %X\n", unstuff_bits(raw_ssr1, 312, 1)); gfx_printf("--RSVD-- %02X %X %02X %02X %04X\n", unstuff_bits(raw_ssr0, 496, 6), unstuff_bits(raw_ssr0, 424, 4), unstuff_bits(raw_ssr1, 378, 6), unstuff_bits(raw_ssr1, 340, 6), unstuff_bits(raw_ssr1, 314, 14)); gfx_printf("VENDOR_1: %06X %08X\n", unstuff_bits(raw_ssr1, 288, 24), unstuff_bits(raw_ssr1, 256, 32)); gfx_printf("VENDOR_2: %08X %08X %08X %08X\n", unstuff_bits(raw_ssr2, 224, 32), unstuff_bits(raw_ssr2, 192, 32), unstuff_bits(raw_ssr2, 160, 32), unstuff_bits(raw_ssr2, 128, 32)); gfx_printf("VENDOR_3: %08X %08X %08X %08X\n", unstuff_bits(raw_ssr3, 96 - 0, 32), unstuff_bits(raw_ssr3, 64, 32), unstuff_bits(raw_ssr3, 32 - 0, 32), unstuff_bits(raw_ssr3, 0, 32)); } #endif static int _sd_storage_send_if_cond(sdmmc_storage_t *storage, bool *is_sdsc) { sdmmc_cmd_t cmdbuf; u16 vhd_pattern = SD_VHS_27_36 | 0xAA; sdmmc_init_cmd(&cmdbuf, SD_SEND_IF_COND, vhd_pattern, SDMMC_RSP_TYPE_7, 0); if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL)) { // The SD Card is version 1.X (SDSC) if there is no response. if (storage->sdmmc->error_sts == SDHCI_ERR_INT_CMD_TIMEOUT) { *is_sdsc = 1; return 0; } return 1; } // For Card version >= 2.0, parse results. u32 resp = 0; sdmmc_get_cached_rsp(storage->sdmmc, &resp, SDMMC_RSP_TYPE_7); // Check if VHD was accepted and pattern was properly returned. if ((resp & 0xFFF) == vhd_pattern) return 0; return 1; } static int _sd_storage_get_op_cond_once(sdmmc_storage_t *storage, u32 *cond, bool is_sdsc, int bus_uhs_support) { sdmmc_cmd_t cmdbuf; // Support for Current > 150mA. u32 arg = !is_sdsc ? SD_OCR_XPC : 0; // Support for handling block-addressed SDHC cards. arg |= !is_sdsc ? SD_OCR_CCS : 0; // Support for 1.8V signaling. arg |= (bus_uhs_support && !is_sdsc) ? SD_OCR_S18R : 0; // Support for 3.3V power supply (VDD1). arg |= SD_OCR_VDD_32_33; sdmmc_init_cmd(&cmdbuf, SD_APP_OP_COND, arg, SDMMC_RSP_TYPE_3, 0); if (_sd_storage_execute_app_cmd(storage, R1_SKIP_STATE_CHECK, is_sdsc ? R1_ILLEGAL_COMMAND : 0, &cmdbuf, NULL, NULL)) return 1; return sdmmc_get_cached_rsp(storage->sdmmc, cond, SDMMC_RSP_TYPE_3); } static int _sd_storage_get_op_cond(sdmmc_storage_t *storage, bool is_sdsc, int bus_uhs_support) { u32 timeout = get_tmr_ms() + 1500; while (true) { u32 cond = 0; if (_sd_storage_get_op_cond_once(storage, &cond, is_sdsc, bus_uhs_support)) break; // Check if power up is done. if (cond & SD_OCR_BUSY) { DPRINTF("[SD] op cond: %08X, lv: %d\n", cond, bus_uhs_support); // Check if card is high capacity. if (cond & SD_OCR_CCS) storage->has_sector_access = 1; // Check if card supports 1.8V signaling. if (cond & SD_ROCR_S18A && bus_uhs_support && !storage->is_low_voltage) { // Switch to 1.8V signaling. if (!_sdmmc_storage_execute_cmd_type1(storage, SD_SWITCH_VOLTAGE, 0, 0, R1_STATE_READY)) { if (sdmmc_setup_clock(storage->sdmmc, SDHCI_TIMING_UHS_SDR12)) return 1; if (sdmmc_enable_low_voltage(storage->sdmmc)) return 1; storage->is_low_voltage = 1; DPRINTF("-> switched to low voltage\n"); } } else { DPRINTF("[SD] no low voltage support\n"); } return 0; } if (get_tmr_ms() > timeout) break; msleep(10); // Needs to be at least 10ms for some SD Cards } return 1; } static int _sd_storage_get_rca(sdmmc_storage_t *storage) { sdmmc_cmd_t cmdbuf; sdmmc_init_cmd(&cmdbuf, SD_SEND_RELATIVE_ADDR, 0, SDMMC_RSP_TYPE_6, 0); u32 timeout = get_tmr_ms() + 1500; while (true) { if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, NULL, NULL)) break; u32 resp = 0; if (sdmmc_get_cached_rsp(storage->sdmmc, &resp, SDMMC_RSP_TYPE_6)) break; if (resp >> 16) { storage->rca = resp >> 16; return 0; } if (get_tmr_ms() > timeout) break; usleep(1000); } return 1; } static void _sd_storage_parse_scr(sdmmc_storage_t *storage) { // unstuff_bits can parse only 4 u32 u32 resp[4]; memcpy(&resp[2], storage->raw_scr, 8); #ifdef SDMMC_DEBUG_PRINT_SD_REGS _sd_storage_debug_print_scr((u32 *)storage->raw_scr); #endif storage->scr.sda_vsn = unstuff_bits(resp, 56, 4); storage->scr.bus_widths = unstuff_bits(resp, 48, 4); // If v2.0 is supported, check if Physical Layer Spec v3.0 is supported. if (storage->scr.sda_vsn == SCR_SPEC_VER_2) storage->scr.sda_spec3 = unstuff_bits(resp, 47, 1); if (storage->scr.sda_spec3) { u8 sda_spec4 = unstuff_bits(resp, 42, 1); if (sda_spec4) storage->scr.cmds = unstuff_bits(resp, 32, 4); else storage->scr.cmds = unstuff_bits(resp, 32, 2); } } int sd_storage_get_scr(sdmmc_storage_t *storage) { u8 buf[8] __attribute__ ((aligned(SDMMC_ADMA_ADDR_ALIGN))); sdmmc_cmd_t cmdbuf; sdmmc_init_cmd(&cmdbuf, SD_APP_SEND_SCR, 0, SDMMC_RSP_TYPE_1, 0); sdmmc_req_t reqbuf; reqbuf.buf = buf; reqbuf.blksize = 8; reqbuf.num_sectors = 1; reqbuf.is_write = 0; reqbuf.is_multi_block = 0; reqbuf.is_auto_stop_trn = 0; if (_sd_storage_execute_app_cmd(storage, R1_STATE_TRAN, 0, &cmdbuf, &reqbuf, NULL)) return 1; u32 tmp = 0; sdmmc_get_cached_rsp(storage->sdmmc, &tmp, SDMMC_RSP_TYPE_1); //Prepare buffer for unstuff_bits for (u32 i = 0; i < 8; i += 4) { storage->raw_scr[i + 3] = buf[i]; storage->raw_scr[i + 2] = buf[i + 1]; storage->raw_scr[i + 1] = buf[i + 2]; storage->raw_scr[i] = buf[i + 3]; } _sd_storage_parse_scr(storage); return _sdmmc_storage_check_card_status(tmp); } static int _sd_storage_switch_get(sdmmc_storage_t *storage, void *buf) { sdmmc_cmd_t cmdbuf; sdmmc_init_cmd(&cmdbuf, SD_SWITCH, 0xFFFFFF, SDMMC_RSP_TYPE_1, 0); sdmmc_req_t reqbuf; reqbuf.buf = buf; reqbuf.blksize = SDMMC_CMD_BLOCKSIZE; reqbuf.num_sectors = 1; reqbuf.is_write = 0; reqbuf.is_multi_block = 0; reqbuf.is_auto_stop_trn = 0; if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, NULL)) return 1; u32 tmp = 0; sdmmc_get_cached_rsp(storage->sdmmc, &tmp, SDMMC_RSP_TYPE_1); return _sdmmc_storage_check_card_status(tmp); } static int _sd_storage_switch(sdmmc_storage_t *storage, void *buf, int mode, int group, u32 arg) { sdmmc_cmd_t cmdbuf; u32 switchcmd = mode << 31 | 0x00FFFFFF; switchcmd &= ~(0xF << (group * 4)); switchcmd |= arg << (group * 4); sdmmc_init_cmd(&cmdbuf, SD_SWITCH, switchcmd, SDMMC_RSP_TYPE_1, 0); sdmmc_req_t reqbuf; reqbuf.buf = buf; reqbuf.blksize = SDMMC_CMD_BLOCKSIZE; reqbuf.num_sectors = 1; reqbuf.is_write = 0; reqbuf.is_multi_block = 0; reqbuf.is_auto_stop_trn = 0; if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, NULL)) return 1; u32 tmp = 0; sdmmc_get_cached_rsp(storage->sdmmc, &tmp, SDMMC_RSP_TYPE_1); return _sdmmc_storage_check_card_status(tmp); } static void _sd_storage_set_power_limit(sdmmc_storage_t *storage, u16 power_limit, u8 *buf) { u32 pwr = SD_SET_POWER_LIMIT_0_72; // If UHS-I only, anything above 1.44W defaults to 1.44W. /* if (power_limit & SD_MAX_POWER_2_88) pwr = SD_SET_POWER_LIMIT_2_88; else if (power_limit & SD_MAX_POWER_2_16) pwr = SD_SET_POWER_LIMIT_2_16; */ if (power_limit & SD_MAX_POWER_1_44) pwr = SD_SET_POWER_LIMIT_1_44; _sd_storage_switch(storage, buf, SD_SWITCH_SET, SD_SWITCH_GRP_PWRLIM, pwr); switch ((buf[15] >> 4) & 0x0F) { /* case SD_SET_POWER_LIMIT_2_88: DPRINTF("[SD] power limit raised to 2880 mW\n"); break; case SD_SET_POWER_LIMIT_2_16: DPRINTF("[SD] power limit raised to 2160 mW\n"); break; */ case SD_SET_POWER_LIMIT_1_44: DPRINTF("[SD] power limit raised to 1440 mW\n"); break; default: case SD_SET_POWER_LIMIT_0_72: DPRINTF("[SD] power limit defaulted to 720 mW\n"); break; } } __attribute__ ((unused)) static int _sd_storage_set_driver_type(sdmmc_storage_t *storage, u32 driver, u8 *buf) { if (_sd_storage_switch(storage, buf, SD_SWITCH_CHECK, SD_SWITCH_GRP_DRVSTR, driver)) return 1; u32 driver_out = buf[15] & 0xF; if (driver_out != driver) return 1; DPRINTF("[SD] supports Driver Strength %d\n", driver); if (_sd_storage_switch(storage, buf, SD_SWITCH_SET, SD_SWITCH_GRP_DRVSTR, driver)) return 1; if (driver_out != (buf[15] & 0xF)) return 1; DPRINTF("[SD] card accepted Driver Strength %d\n", driver); sdmmc_setup_drv_type(storage->sdmmc, driver); return 0; } /* * SD Card DDR200 (DDR208) support * * DLL Tuning (a) or Tuning Window (b) procedure: * 1. Check that Vendor Specific Command System is supported. * Used as Enable DDR200 Bus. * 2. Enable DDR200 bus mode via setting 14 to Group 2 via CMD6. * Access Mode group is left to default 0 (SDR12). * 3. Setup clock to 200 or 208 MHz. * 4a. Set host to DDR200/HS400 bus mode that enables DLL syncing. * Actual implementation supported by all DDR200 cards. * -- * 4b. Set host to DDR50 bus mode that supports such high clocks. * Execute Manual Tuning. * Limited to non-Sandisk cards. * * On Tegra SoCs, that can be done with DDR50 host mode. * That's because HS400 4-bit or HS400 generally, is not supported on SD SDMMC. * And also, tuning can't be done automatically on any DDR mode. * So it needs to be done manually and selected tap will be applied from the * biggest sampling window. * That allows DDR200 support on every DDR200 SD card, other than the original * maker of DDR200, Sandisk. * * On the original implementation of DDR200 from Sandisk, a DLL mechanism, * like the one in eMMC HS400 is mandatory. * So the card can start data signals whenever it wants, and the host should * synchronize to the first DAT signal edge change. * Every single other vendor that implemented that, always starts data transfers * aligned to clock. That basically makes DDR200 in such SD cards a SDR104 but * sampled on both edges. So effectively, it's an in-spec signal with DDR50, * only that is clocked at 200MHz, instead of 50MHz. * So the extra needed thing is using a tuning window, which is absent from the * original implementation, since DDL syncing does not use that. * * On DLL tuning method expected cards, the tuning window is tiny. * So check against a minimum of 8 taps window, to disallow DDR200. */ #ifdef BDK_SDMMC_UHS_DDR200_SUPPORT static int _sd_storage_enable_DDR200(sdmmc_storage_t *storage, u8 *buf) { u32 cmd_system = UHS_DDR200_BUS_SPEED; if (_sd_storage_switch(storage, buf, SD_SWITCH_CHECK, SD_SWITCH_GRP_CMDSYS, cmd_system)) return 1; u32 system_out = (buf[16] >> 4) & 0xF; if (system_out != cmd_system) return 1; DPRINTF("[SD] supports DDR200 mode\n"); u16 total_pwr_consumption = ((u16)buf[0] << 8) | buf[1]; DPRINTF("[SD] max power: %d mW\n", total_pwr_consumption * 3600 / 1000); storage->max_power = total_pwr_consumption; // Check if total is low than max and switch. if (total_pwr_consumption <= 800) { if (_sd_storage_switch(storage, buf, SD_SWITCH_SET, SD_SWITCH_GRP_CMDSYS, cmd_system)) return 1; if (system_out != ((buf[16] >> 4) & 0xF)) return 1; DPRINTF("[SD] card accepted DDR200\n"); if (sdmmc_setup_clock(storage->sdmmc, SDHCI_TIMING_UHS_DDR200)) return 1; DPRINTF("[SD] after setup clock DDR200\n"); if (sdmmc_tuning_execute(storage->sdmmc, SDHCI_TIMING_UHS_DDR200, MMC_SEND_TUNING_BLOCK)) return 1; DPRINTF("[SD] after tuning DDR200\n"); return _sdmmc_storage_check_status(storage); } DPRINTF("[SD] card max power over limit\n"); return 1; } #endif static int _sd_storage_set_card_bus_speed(sdmmc_storage_t *storage, u32 hs_type, u8 *buf) { if (_sd_storage_switch(storage, buf, SD_SWITCH_CHECK, SD_SWITCH_GRP_ACCESS, hs_type)) return 1; u32 type_out = buf[16] & 0xF; if (type_out != hs_type) return 1; DPRINTF("[SD] supports selected (U)HS mode %d\n", buf[16] & 0xF); u16 total_pwr_consumption = ((u16)buf[0] << 8) | buf[1]; DPRINTF("[SD] max power: %d mW\n", total_pwr_consumption * 3600 / 1000); storage->max_power = total_pwr_consumption; // Check if total is low than max and switch. if (total_pwr_consumption <= 800) { if (_sd_storage_switch(storage, buf, SD_SWITCH_SET, SD_SWITCH_GRP_ACCESS, hs_type)) return 1; if (type_out != (buf[16] & 0xF)) return 1; return 0; } DPRINTF("[SD] card max power over limit\n"); return 1; } int sd_storage_get_fmodes(sdmmc_storage_t *storage, u8 *buf, sd_func_modes_t *fmodes) { if (!buf) buf = (u8 *)SDMMC_ALT_DMA_BUFFER; if (_sd_storage_switch_get(storage, buf)) return 1; fmodes->access_mode = buf[13] | (buf[12] << 8); fmodes->cmd_system = buf[11] | (buf[10] << 8); fmodes->driver_strength = buf[9] | (buf[8] << 8); fmodes->power_limit = buf[7] | (buf[6] << 8); return 0; } static int _sd_storage_enable_uhs_low_volt(sdmmc_storage_t *storage, u32 type) { sd_func_modes_t fmodes; u8 *buf = storage->raw_ext_csd; if (sdmmc_get_bus_width(storage->sdmmc) != SDMMC_BUS_WIDTH_4) return 1; if (sd_storage_get_fmodes(storage, buf, &fmodes)) return 1; #ifdef BDK_SDMMC_UHS_DDR200_SUPPORT DPRINTF("[SD] access: %02X, power: %02X, cmd: %02X\n", fmodes.access_mode, fmodes.power_limit, fmodes.cmd_system); #else DPRINTF("[SD] access: %02X, power: %02X\n", fmodes.access_mode, fmodes.power_limit); #endif u32 hs_type = 0; switch (type) { #ifdef BDK_SDMMC_UHS_DDR200_SUPPORT case SDHCI_TIMING_UHS_DDR200: // Fall through if DDR200 is not supported. if (fmodes.cmd_system & SD_MODE_UHS_DDR200) { DPRINTF("[SD] setting bus speed to DDR200\n"); storage->csd.busspeed = 200; _sd_storage_set_power_limit(storage, fmodes.power_limit, buf); return _sd_storage_enable_DDR200(storage, buf); } #endif case SDHCI_TIMING_UHS_SDR104: case SDHCI_TIMING_UHS_SDR82: // Fall through if not supported. if (fmodes.access_mode & SD_MODE_UHS_SDR104) { type = SDHCI_TIMING_UHS_SDR104; hs_type = UHS_SDR104_BUS_SPEED; DPRINTF("[SD] setting bus speed to SDR104\n"); switch (type) { case SDHCI_TIMING_UHS_SDR104: storage->csd.busspeed = 104; break; case SDHCI_TIMING_UHS_SDR82: storage->csd.busspeed = 82; break; } break; } case SDHCI_TIMING_UHS_SDR50: if (fmodes.access_mode & SD_MODE_UHS_SDR50) { type = SDHCI_TIMING_UHS_SDR50; hs_type = UHS_SDR50_BUS_SPEED; DPRINTF("[SD] setting bus speed to SDR50\n"); storage->csd.busspeed = 50; break; } /* case SDHCI_TIMING_UHS_DDR50: if (fmodes.access_mode & SD_MODE_UHS_DDR50) { type = SDHCI_TIMING_UHS_DDR50; hs_type = UHS_DDR50_BUS_SPEED; DPRINTF("[SD] setting bus speed to DDR50\n"); storage->csd.busspeed = 50; break; } */ case SDHCI_TIMING_UHS_SDR25: if (fmodes.access_mode & SD_MODE_UHS_SDR25) { type = SDHCI_TIMING_UHS_SDR25; hs_type = UHS_SDR25_BUS_SPEED; DPRINTF("[SD] setting bus speed to SDR25\n"); storage->csd.busspeed = 25; break; } default: DPRINTF("[SD] bus speed defaulted to SDR12\n"); storage->csd.busspeed = 12; return 0; // Already set. } // Try to raise the power limit to let the card perform better. if (hs_type != UHS_SDR25_BUS_SPEED) // Not applicable for SDR12/SDR25. _sd_storage_set_power_limit(storage, fmodes.power_limit, buf); // Setup and set selected card and bus speed. if (_sd_storage_set_card_bus_speed(storage, hs_type, buf)) return 1; DPRINTF("[SD] card accepted UHS\n"); if (sdmmc_setup_clock(storage->sdmmc, type)) return 1; DPRINTF("[SD] after setup clock\n"); if (sdmmc_tuning_execute(storage->sdmmc, type, MMC_SEND_TUNING_BLOCK)) return 1; DPRINTF("[SD] after tuning\n"); return _sdmmc_storage_check_status(storage); } static int _sd_storage_enable_hs_high_volt(sdmmc_storage_t *storage) { sd_func_modes_t fmodes; u8 *buf = storage->raw_ext_csd; if (sd_storage_get_fmodes(storage, buf, &fmodes)) return 1; DPRINTF("[SD] access: %02X, power: %02X\n", fmodes.access_mode, fmodes.power_limit); // No support, return success. if (!(fmodes.access_mode & SD_MODE_HIGH_SPEED)) return 0; if (_sd_storage_set_card_bus_speed(storage, HIGH_SPEED_BUS_SPEED, buf)) return 1; if (_sdmmc_storage_check_status(storage)) return 1; return sdmmc_setup_clock(storage->sdmmc, SDHCI_TIMING_SD_HS25); } u32 sd_storage_get_ssr_au(sdmmc_storage_t *storage) { u32 au_size = storage->ssr.uhs_au_size; if (!au_size) au_size = storage->ssr.au_size; if (au_size <= 10) { u32 shift = au_size; au_size = shift ? 8 : 0; au_size <<= shift; } else { switch (au_size) { case 11: au_size = 12288; break; case 12: au_size = 16384; break; case 13: au_size = 24576; break; case 14: au_size = 32768; break; case 15: au_size = 65536; break; } } return au_size; } static void _sd_storage_parse_ssr(sdmmc_storage_t *storage) { // unstuff_bits supports only 4 u32 so break into 2 x u32x4 groups. u32 raw_ssr1[4]; // 511:384. u32 raw_ssr2[4]; // 383:256. memcpy(raw_ssr1, &storage->raw_ssr[0], 16); memcpy(raw_ssr2, &storage->raw_ssr[16], 16); #ifdef SDMMC_DEBUG_PRINT_SD_REGS _sd_storage_debug_print_ssr(storage->raw_ssr); #endif storage->ssr.bus_width = (unstuff_bits(raw_ssr1, 510, 2) & SD_BUS_WIDTH_4) ? 4 : 1; storage->ssr.protected_size = unstuff_bits(raw_ssr1, 448, 32); u32 speed_class = unstuff_bits(raw_ssr1, 440, 8); switch(speed_class) { case 0: case 1: case 2: case 3: storage->ssr.speed_class = speed_class << 1; break; case 4: storage->ssr.speed_class = 10; break; default: storage->ssr.speed_class = speed_class; break; } storage->ssr.uhs_grade = unstuff_bits(raw_ssr1, 396, 4); storage->ssr.video_class = unstuff_bits(raw_ssr1, 384, 8); storage->ssr.app_class = unstuff_bits(raw_ssr2, 336, 4); storage->ssr.au_size = unstuff_bits(raw_ssr1, 428, 4); storage->ssr.uhs_au_size = unstuff_bits(raw_ssr1, 392, 4); storage->ssr.perf_enhance = unstuff_bits(raw_ssr2, 328, 8); } int sd_storage_parse_perf_enhance(sdmmc_storage_t *storage, u8 fno, u8 page, u16 offset, u8 *buf) { // Check status reg for support. storage->ser.cache = (storage->ssr.perf_enhance >> 2) & BIT(0); storage->ser.cmdq = (storage->ssr.perf_enhance >> 3) & 0x1F; if (sd_storage_get_ext_reg(storage, fno, page, offset, 512, buf)) { storage->ser.cache_ext = 0; storage->ser.cmdq_ext = 0; return 1; } storage->ser.cache_ext = buf[4] & BIT(0); storage->ser.cmdq_ext = buf[6] & 0x1F; return 0; } static void _sd_storage_parse_ext_reg(sdmmc_storage_t *storage, u8 *buf, u16 *addr_next) { u16 addr = *addr_next; // Address to the next extension. *addr_next = (buf[addr + 41] << 8) | buf[addr + 40]; u16 sfc = (buf[addr + 1] << 8) | buf[addr]; u32 reg_sets = buf[addr + 42]; #ifdef SDMMC_DEBUG_PRINT_SD_REGS for (u32 i = 0; i < reg_sets; i++) { u32 reg_set_addr; memcpy(®_set_addr, &buf[addr + 44 + 4 * i], 4); u16 off = reg_set_addr & 0x1FF; u8 page = reg_set_addr >> 9 & 0xFF; u8 fno = reg_set_addr >> 18 & 0xFF; gfx_printf("Addr: %04X sfc:%02X - fno:%02X, page:%02X, off:%04X\n", addr, sfc, fno, page, off); } #endif // Parse Performance Enhance. if (sfc == 2 && reg_sets == 1) { u32 reg_set0_addr; memcpy(®_set0_addr, &buf[addr + 44], 4); u16 off = reg_set0_addr & 0x1FF; u8 page = reg_set0_addr >> 9 & 0xFF; u8 fno = reg_set0_addr >> 18 & 0xFF; if (sd_storage_parse_perf_enhance(storage, fno, page, off, buf)) storage->ser.valid = 1; } } void sd_storage_get_ext_regs(sdmmc_storage_t *storage, u8 *buf) { DREGPRINTF("SD Extension Registers:\n\n"); if (!(storage->scr.cmds & BIT(2))) { DREGPRINTF("Not Supported!\n"); return; } if (sd_storage_get_ext_reg(storage, 0, 0, 0, 512, buf)) { DREGPRINTF("Failed to get general info!\n"); return; } u16 size = (buf[3] << 8) | buf[2]; u16 addr_next = 16; u32 num_ext = buf[4]; for (u32 i = 0; i < num_ext && addr_next < size; i++) _sd_storage_parse_ext_reg(storage, buf, &addr_next); } int sd_storage_get_ssr(sdmmc_storage_t *storage) { sdmmc_cmd_t cmdbuf; u8 *buf = storage->raw_ext_csd; sdmmc_init_cmd(&cmdbuf, SD_APP_SD_STATUS, 0, SDMMC_RSP_TYPE_1, 0); sdmmc_req_t reqbuf; reqbuf.buf = buf; reqbuf.blksize = SDMMC_CMD_BLOCKSIZE; reqbuf.num_sectors = 1; reqbuf.is_write = 0; reqbuf.is_multi_block = 0; reqbuf.is_auto_stop_trn = 0; if (!(storage->csd.cmdclass & CCC_APP_SPEC)) { DPRINTF("[SD] ssr: Not supported\n"); return 1; } if (_sd_storage_execute_app_cmd(storage, R1_STATE_TRAN, 0, &cmdbuf, &reqbuf, NULL)) return 1; u32 tmp = 0; sdmmc_get_cached_rsp(storage->sdmmc, &tmp, SDMMC_RSP_TYPE_1); // Convert buffer to LE. for (u32 i = 0; i < SDMMC_CMD_BLOCKSIZE; i += 4) { storage->raw_ssr[i + 3] = buf[i]; storage->raw_ssr[i + 2] = buf[i + 1]; storage->raw_ssr[i + 1] = buf[i + 2]; storage->raw_ssr[i] = buf[i + 3]; } _sd_storage_parse_ssr(storage); return _sdmmc_storage_check_card_status(tmp); } static void _sd_storage_parse_cid(sdmmc_storage_t *storage) { u32 *raw_cid = (u32 *)&(storage->raw_cid); #ifdef SDMMC_DEBUG_PRINT_SD_REGS _sd_storage_debug_print_cid(raw_cid); #endif storage->cid.manfid = unstuff_bits(raw_cid, 120, 8); storage->cid.oemid = unstuff_bits(raw_cid, 104, 16); storage->cid.prod_name[0] = unstuff_bits(raw_cid, 96, 8); storage->cid.prod_name[1] = unstuff_bits(raw_cid, 88, 8); storage->cid.prod_name[2] = unstuff_bits(raw_cid, 80, 8); storage->cid.prod_name[3] = unstuff_bits(raw_cid, 72, 8); storage->cid.prod_name[4] = unstuff_bits(raw_cid, 64, 8); storage->cid.hwrev = unstuff_bits(raw_cid, 60, 4); storage->cid.fwrev = unstuff_bits(raw_cid, 56, 4); storage->cid.serial = unstuff_bits(raw_cid, 24, 32); storage->cid.year = unstuff_bits(raw_cid, 12, 8) + 2000; storage->cid.month = unstuff_bits(raw_cid, 8, 4); } static void _sd_storage_parse_csd(sdmmc_storage_t *storage) { u32 *raw_csd = (u32 *)&(storage->raw_csd); #ifdef SDMMC_DEBUG_PRINT_SD_REGS _sd_storage_debug_print_csd(raw_csd); #endif storage->csd.structure = unstuff_bits(raw_csd, 126, 2); storage->csd.cmdclass = unstuff_bits(raw_csd, 84, 12); storage->csd.read_blkbits = unstuff_bits(raw_csd, 80, 4); storage->csd.write_protect = unstuff_bits(raw_csd, 12, 2); switch(storage->csd.structure) { case 0: storage->csd.capacity = (1 + unstuff_bits(raw_csd, 62, 12)) << (unstuff_bits(raw_csd, 47, 3) + 2); storage->csd.capacity <<= unstuff_bits(raw_csd, 80, 4) - 9; // Convert native block size to LBA SDMMC_DAT_BLOCKSIZE. break; case 1: storage->csd.c_size = (1 + unstuff_bits(raw_csd, 48, 22)); storage->csd.capacity = storage->csd.c_size << 10; storage->csd.read_blkbits = 9; break; default: DPRINTF("[SD] unknown CSD structure %d\n", storage->csd.structure); break; } storage->sec_cnt = storage->csd.capacity; } static bool _sdmmc_storage_get_bus_uhs_support(u32 bus_width, u32 type) { switch (type) { case SDHCI_TIMING_UHS_SDR12: case SDHCI_TIMING_UHS_SDR25: case SDHCI_TIMING_UHS_SDR50: case SDHCI_TIMING_UHS_SDR104: case SDHCI_TIMING_UHS_SDR82: case SDHCI_TIMING_UHS_DDR50: case SDHCI_TIMING_UHS_DDR200: if (bus_width == SDMMC_BUS_WIDTH_4) return true; default: return false; } } void sdmmc_storage_init_wait_sd() { // T210/T210B01 WAR: Wait exactly 239ms for IO and Controller power to discharge. u32 sd_poweroff_time = (u32)get_tmr_ms() - sd_power_cycle_time_start; if (sd_poweroff_time < 239) msleep(239 - sd_poweroff_time); } int sdmmc_storage_init_sd(sdmmc_storage_t *storage, sdmmc_t *sdmmc, u32 bus_width, u32 type) { u32 tmp = 0; bool is_sdsc = 0; bool bus_uhs_support = _sdmmc_storage_get_bus_uhs_support(bus_width, type); DPRINTF("[SD]-[init: bus: %d, type: %d]\n", bus_width, type); // Some cards (SanDisk U1), do not like a fast power cycle. Wait min 100ms. sdmmc_storage_init_wait_sd(); memset(storage, 0, sizeof(sdmmc_storage_t)); storage->sdmmc = sdmmc; if (sdmmc_init(sdmmc, SDMMC_1, SDMMC_POWER_3_3, SDMMC_BUS_WIDTH_1, SDHCI_TIMING_SD_ID)) return 1; DPRINTF("[SD] after init\n"); // Wait 1ms + 74 cycles. usleep(1000 + (74 * 1000 + sdmmc->card_clock - 1) / sdmmc->card_clock); if (_sdmmc_storage_go_idle_state(storage)) return 1; DPRINTF("[SD] went to idle state\n"); if (_sd_storage_send_if_cond(storage, &is_sdsc)) return 1; DPRINTF("[SD] after send if cond\n"); if (_sd_storage_get_op_cond(storage, is_sdsc, bus_uhs_support)) return 1; DPRINTF("[SD] got op cond\n"); if (_sdmmc_storage_get_cid(storage)) return 1; DPRINTF("[SD] got cid\n"); _sd_storage_parse_cid(storage); if (_sd_storage_get_rca(storage)) return 1; DPRINTF("[SD] got rca (= %04X)\n", storage->rca); if (_sdmmc_storage_get_csd(storage)) return 1; DPRINTF("[SD] got csd\n"); _sd_storage_parse_csd(storage); if (!storage->is_low_voltage) { if (sdmmc_setup_clock(storage->sdmmc, SDHCI_TIMING_SD_DS12)) return 1; DPRINTF("[SD] after setup default clock\n"); } if (_sdmmc_storage_select_card(storage)) return 1; DPRINTF("[SD] card selected\n"); if (_sdmmc_storage_set_blocklen(storage, SD_BLOCKSIZE)) return 1; DPRINTF("[SD] set blocklen to SD_BLOCKSIZE\n"); // Disconnect Card Detect resistor from DAT3. if (_sd_storage_execute_app_cmd_type1(storage, &tmp, SD_APP_SET_CLR_CARD_DETECT, 0, 0, R1_STATE_TRAN)) return 1; DPRINTF("[SD] cleared card detect\n"); if (sd_storage_get_scr(storage)) return 1; DPRINTF("[SD] got scr\n"); // If card supports a wider bus and if it's not SD Version 1.0 switch bus width. if (bus_width == SDMMC_BUS_WIDTH_4 && (storage->scr.bus_widths & BIT(SD_BUS_WIDTH_4)) && storage->scr.sda_vsn) { if (_sd_storage_execute_app_cmd_type1(storage, &tmp, SD_APP_SET_BUS_WIDTH, SD_BUS_WIDTH_4, 0, R1_STATE_TRAN)) return 1; sdmmc_set_bus_width(storage->sdmmc, SDMMC_BUS_WIDTH_4); DPRINTF("[SD] switched to wide bus width\n"); } else { bus_width = SDMMC_BUS_WIDTH_1; DPRINTF("[SD] SD does not support wide bus width\n"); } if (storage->is_low_voltage) { if (_sd_storage_enable_uhs_low_volt(storage, type)) return 1; DPRINTF("[SD] enabled UHS\n"); } else if (type != SDHCI_TIMING_SD_DS12 && storage->scr.sda_vsn) // Not default speed and not SD Version 1.0. { if (_sd_storage_enable_hs_high_volt(storage)) return 1; DPRINTF("[SD] enabled HS\n"); switch (bus_width) { case SDMMC_BUS_WIDTH_4: storage->csd.busspeed = 25; break; case SDMMC_BUS_WIDTH_1: storage->csd.busspeed = 6; break; } } // Parse additional card info from sd status. if (!sd_storage_get_ssr(storage)) { DPRINTF("[SD] got sd status\n"); } sdmmc_card_clock_powersave(sdmmc, SDMMC_POWER_SAVE_ENABLE); storage->initialized = 1; return 0; } /* * Gamecard specific functions. */ int _gc_storage_custom_cmd(sdmmc_storage_t *storage, void *buf) { u32 resp; sdmmc_cmd_t cmdbuf; sdmmc_init_cmd(&cmdbuf, MMC_VENDOR_60_CMD, 0, SDMMC_RSP_TYPE_1, 1); sdmmc_req_t reqbuf; reqbuf.buf = buf; reqbuf.blksize = SDMMC_CMD_BLOCKSIZE; reqbuf.num_sectors = 1; reqbuf.is_write = 1; reqbuf.is_multi_block = 0; reqbuf.is_auto_stop_trn = 0; if (sdmmc_execute_cmd(storage->sdmmc, &cmdbuf, &reqbuf, NULL)) { sdmmc_stop_transmission(storage->sdmmc, &resp); return 1; } if (sdmmc_get_cached_rsp(storage->sdmmc, &resp, SDMMC_RSP_TYPE_1)) return 1; if (_sdmmc_storage_check_card_status(resp)) return 1; return _sdmmc_storage_check_status(storage); } int sdmmc_storage_init_gc(sdmmc_storage_t *storage, sdmmc_t *sdmmc) { memset(storage, 0, sizeof(sdmmc_storage_t)); storage->sdmmc = sdmmc; if (sdmmc_init(sdmmc, SDMMC_2, SDMMC_POWER_1_8, SDMMC_BUS_WIDTH_8, SDHCI_TIMING_MMC_HS100)) return 1; DPRINTF("[GC] after init\n"); // Wait 1ms + 10 clock cycles. usleep(1000 + (10 * 1000 + sdmmc->card_clock - 1) / sdmmc->card_clock); if (sdmmc_tuning_execute(storage->sdmmc, SDHCI_TIMING_MMC_HS100, MMC_SEND_TUNING_BLOCK_HS200)) return 1; DPRINTF("[GC] after tuning\n"); sdmmc_card_clock_powersave(sdmmc, SDMMC_POWER_SAVE_ENABLE); storage->initialized = 1; return 0; } ================================================ FILE: bdk/storage/sdmmc.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _SDMMC_H_ #define _SDMMC_H_ #include #include #include #define SDMMC_CMD_BLOCKSIZE 64 #define SDMMC_DAT_BLOCKSIZE 512 #define SDMMC_HMAX_BLOCKNUM 0xFFFF // HW max. #define SDMMC_AMAX_BLOCKNUM 0xF000 // Aligned max. extern u32 sd_power_cycle_time_start; typedef enum _sdmmc_type { MMC_SD = 0, MMC_EMMC = 1, EMMC_GPP = 0, EMMC_BOOT0 = 1, EMMC_BOOT1 = 2, EMMC_RPMB = 3 } sdmmc_type; typedef struct _mmc_sandisk_advanced_report_t { u32 power_inits; u32 max_erase_cycles_sys; u32 max_erase_cycles_slc; u32 max_erase_cycles_mlc; u32 min_erase_cycles_sys; u32 min_erase_cycles_slc; u32 min_erase_cycles_mlc; u32 max_erase_cycles_euda; u32 min_erase_cycles_euda; u32 avg_erase_cycles_euda; u32 read_reclaim_cnt_euda; u32 bad_blocks_euda; u32 pre_eol_euda; u32 pre_eol_sys; u32 pre_eol_mlc; u32 uncorrectable_ecc; u32 temperature_now; u32 temperature_min; u32 temperature_max; u32 health_pct_euda; u32 health_pct_sys; u32 health_pct_mlc; u32 unk0; u32 unk1; u32 unk2; u32 reserved[78]; } mmc_sandisk_advanced_report_t; typedef struct _mmc_sandisk_report_t { u32 avg_erase_cycles_sys; u32 avg_erase_cycles_slc; u32 avg_erase_cycles_mlc; u32 read_reclaim_cnt_sys; u32 read_reclaim_cnt_slc; u32 read_reclaim_cnt_mlc; u32 bad_blocks_factory; u32 bad_blocks_sys; u32 bad_blocks_slc; u32 bad_blocks_mlc; u32 fw_updates_cnt; u8 fw_update_date[12]; u8 fw_update_time[8]; u32 total_writes_100mb; u32 vdrops; u32 vdroops; u32 vdrops_failed_data_rec; u32 vdrops_data_rec_ops; u32 total_writes_slc_100mb; u32 total_writes_mlc_100mb; u32 mlc_bigfile_mode_limit_exceeded; u32 avg_erase_cycles_hybrid; mmc_sandisk_advanced_report_t advanced; } mmc_sandisk_report_t; typedef struct _mmc_cid { u32 manfid; u8 prod_name[8]; u32 serial; u16 oemid; u16 year; u8 prv; u8 hwrev; u8 fwrev; u8 month; } mmc_cid_t; typedef struct _mmc_csd { u8 structure; u8 mmca_vsn; u16 cmdclass; u32 c_size; u32 r2w_factor; u32 read_blkbits; u32 capacity; u8 write_protect; u16 busspeed; } mmc_csd_t; typedef struct _mmc_ext_csd { u8 bkops; /* background support bit */ u8 bkops_en; /* manual bkops enable bit */ u8 rev; u8 ext_struct; /* 194 */ u8 card_type; /* 196 */ u8 pre_eol_info; u8 dev_life_est_a; u8 dev_life_est_b; u8 boot_mult; u8 rpmb_mult; u16 dev_version; u32 cache_size; u32 max_enh_mult; } mmc_ext_csd_t; typedef struct _sd_scr { u8 sda_vsn; u8 sda_spec3; u8 bus_widths; u8 cmds; } sd_scr_t; typedef struct _sd_ssr { u8 bus_width; u8 speed_class; u8 uhs_grade; u8 video_class; u8 app_class; u8 au_size; u8 uhs_au_size; u8 perf_enhance; u32 protected_size; } sd_ssr_t; typedef struct _sd_ext_reg_t { u8 cmdq; u8 cmdq_ext; u8 cache; u8 cache_ext; int valid; } sd_ext_reg_t; /*! SDMMC storage context. */ typedef struct _sdmmc_storage_t { sdmmc_t *sdmmc; int initialized; int is_low_voltage; int has_sector_access; u32 rca; u32 sec_cnt; u32 partition; u32 max_power; u8 raw_cid[0x10] __attribute__((aligned(SDMMC_ADMA_ADDR_ALIGN))); u8 raw_csd[0x10] __attribute__((aligned(SDMMC_ADMA_ADDR_ALIGN))); u8 raw_scr[8] __attribute__((aligned(SDMMC_ADMA_ADDR_ALIGN))); u8 raw_ssr[SDMMC_CMD_BLOCKSIZE] __attribute__((aligned(SDMMC_ADMA_ADDR_ALIGN))); u8 raw_ext_csd[SDMMC_DAT_BLOCKSIZE] __attribute__((aligned(SDMMC_ADMA_ADDR_ALIGN))); mmc_cid_t cid; mmc_csd_t csd; mmc_ext_csd_t ext_csd; sd_scr_t scr; sd_ssr_t ssr; sd_ext_reg_t ser; } sdmmc_storage_t; typedef struct _sd_func_modes_t { u16 access_mode; u16 cmd_system; u16 driver_strength; u16 power_limit; } sd_func_modes_t; int sdmmc_storage_end(sdmmc_storage_t *storage); int sdmmc_storage_read(sdmmc_storage_t *storage, u32 sector, u32 num_sectors, void *buf); int sdmmc_storage_write(sdmmc_storage_t *storage, u32 sector, u32 num_sectors, void *buf); int sdmmc_storage_init_mmc(sdmmc_storage_t *storage, sdmmc_t *sdmmc, u32 bus_width, u32 type); int sdmmc_storage_set_mmc_partition(sdmmc_storage_t *storage, u32 partition); void sdmmc_storage_init_wait_sd(); int sdmmc_storage_init_sd(sdmmc_storage_t *storage, sdmmc_t *sdmmc, u32 bus_width, u32 type); int sdmmc_storage_init_gc(sdmmc_storage_t *storage, sdmmc_t *sdmmc); int sdmmc_storage_execute_vendor_cmd(sdmmc_storage_t *storage, u32 arg); int sdmmc_storage_vendor_sandisk_report(sdmmc_storage_t *storage, void *buf); int mmc_storage_get_ext_csd(sdmmc_storage_t *storage); int sd_storage_get_ext_reg(sdmmc_storage_t *storage, u8 fno, u8 page, u16 offset, u32 len, void *buf); int sd_storage_get_fmodes(sdmmc_storage_t *storage, u8 *buf, sd_func_modes_t *functions); int sd_storage_get_scr(sdmmc_storage_t *storage); int sd_storage_get_ssr(sdmmc_storage_t *storage); u32 sd_storage_get_ssr_au(sdmmc_storage_t *storage); void sd_storage_get_ext_regs(sdmmc_storage_t *storage, u8 *buf); int sd_storage_parse_perf_enhance(sdmmc_storage_t *storage, u8 fno, u8 page, u16 offset, u8 *buf); #endif ================================================ FILE: bdk/storage/sdmmc_driver.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #include //#define DPRINTF(...) gfx_printf(__VA_ARGS__) //#define ERROR_EXTRA_PRINTING #define DPRINTF(...) #ifdef BDK_SDMMC_EXTRA_PRINT #define ERROR_EXTRA_PRINTING #endif /*! SCMMC controller base addresses. */ static const u16 _sdmmc_base_offsets[4] = { 0x0, 0x200, 0x400, 0x600 }; int sdmmc_get_io_power(sdmmc_t *sdmmc) { u32 p = sdmmc->regs->pwrcon; if (!(p & SDHCI_POWER_ON)) return SDMMC_POWER_OFF; if (p & SDHCI_POWER_180) return SDMMC_POWER_1_8; if (p & SDHCI_POWER_330) return SDMMC_POWER_3_3; return -1; } static int _sdmmc_set_io_power(sdmmc_t *sdmmc, u32 power) { switch (power) { case SDMMC_POWER_OFF: sdmmc->regs->pwrcon &= ~SDHCI_POWER_ON; break; case SDMMC_POWER_1_8: sdmmc->regs->pwrcon = SDHCI_POWER_180; break; case SDMMC_POWER_3_3: sdmmc->regs->pwrcon = SDHCI_POWER_330; break; default: return 1; } if (power != SDMMC_POWER_OFF) sdmmc->regs->pwrcon |= SDHCI_POWER_ON; return 0; } u32 sdmmc_get_bus_width(sdmmc_t *sdmmc) { u32 h = sdmmc->regs->hostctl; if (h & SDHCI_CTRL_8BITBUS) // eMMC only (or UHS-II). return SDMMC_BUS_WIDTH_8; if (h & SDHCI_CTRL_4BITBUS) // SD only. return SDMMC_BUS_WIDTH_4; return SDMMC_BUS_WIDTH_1; } void sdmmc_set_bus_width(sdmmc_t *sdmmc, u32 bus_width) { u32 host_control = sdmmc->regs->hostctl & ~(SDHCI_CTRL_4BITBUS | SDHCI_CTRL_8BITBUS); if (bus_width == SDMMC_BUS_WIDTH_1) sdmmc->regs->hostctl = host_control; else if (bus_width == SDMMC_BUS_WIDTH_4) sdmmc->regs->hostctl = host_control | SDHCI_CTRL_4BITBUS; // SD only. else if (bus_width == SDMMC_BUS_WIDTH_8) sdmmc->regs->hostctl = host_control | SDHCI_CTRL_8BITBUS; // eMMC only (or UHS-II). } void sdmmc_save_tap_value(sdmmc_t *sdmmc) { sdmmc->venclkctl_tap = (sdmmc->regs->venclkctl & 0xFF0000) >> 16; sdmmc->venclkctl_set = 1; } static int _sdmmc_config_tap_val(sdmmc_t *sdmmc, u32 type) { static const u32 dqs_trim_val = 40; // 24 if HS533/HS667. static const u8 tap_values_t210[4] = { 4, 0, 3, 0 }; u32 tap_val = 0; if (type == SDHCI_TIMING_MMC_HS400) sdmmc->regs->vencapover = (sdmmc->regs->vencapover & ~0x3F00) | (dqs_trim_val << 8); sdmmc->regs->ventunctl0 &= ~SDHCI_TEGRA_TUNING_TAP_HW_UPDATED; if (type == SDHCI_TIMING_MMC_HS400) { // Tap is saved during HS200 switch. if (!sdmmc->venclkctl_set) return 1; tap_val = sdmmc->venclkctl_tap; } else tap_val = sdmmc->t210b01 ? 11 : tap_values_t210[sdmmc->id]; sdmmc->regs->venclkctl = (sdmmc->regs->venclkctl & ~0xFF0000) | (tap_val << 16); return 0; } static void _sdmmc_commit_changes(sdmmc_t *sdmmc) { (void)sdmmc->regs->clkcon; } static void _sdmmc_pad_config_fallback(sdmmc_t *sdmmc, u32 power) { _sdmmc_commit_changes(sdmmc); switch (sdmmc->id) { case SDMMC_1: // 50 Ohm 2X Driver. if (power == SDMMC_POWER_OFF) break; u32 sdmmc1_pad_cfg = APB_MISC(APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL) & 0xF8080FFF; if (sdmmc->t210b01) sdmmc1_pad_cfg |= (0x808 << 12); // Up: 8, Dn: 8. For 50 ohm. else if (power == SDMMC_POWER_1_8) sdmmc1_pad_cfg |= (0xB0F << 12); // Up: 11, Dn: 15. For 50 ohm. else if (power == SDMMC_POWER_3_3) sdmmc1_pad_cfg |= (0xC0C << 12); // Up: 12, Dn: 12. For 50 ohm. APB_MISC(APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL) = sdmmc1_pad_cfg; (void)APB_MISC(APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL); // Commit write. break; case SDMMC_2: if (sdmmc->t210b01) APB_MISC(APB_MISC_GP_EMMC2_PAD_CFGPADCTRL) = (APB_MISC(APB_MISC_GP_EMMC2_PAD_CFGPADCTRL) & 0xF8080FFF) | 0xA0A000; else APB_MISC(APB_MISC_GP_EMMC2_PAD_CFGPADCTRL) = (APB_MISC(APB_MISC_GP_EMMC2_PAD_CFGPADCTRL) & 0xFFFFC003) | 0x1040; // PU:16, PD:16. (void)APB_MISC(APB_MISC_GP_EMMC2_PAD_CFGPADCTRL); break; case SDMMC_4: // 50 Ohm 2X Driver. PU:16, PD:16, B01: PU:10, PD:10. APB_MISC(APB_MISC_GP_EMMC4_PAD_CFGPADCTRL) = (APB_MISC(APB_MISC_GP_EMMC4_PAD_CFGPADCTRL) & 0xFFFFC003) | (sdmmc->t210b01 ? 0xA28 : 0x1040); (void)APB_MISC(APB_MISC_GP_EMMC4_PAD_CFGPADCTRL); // Commit write. break; } } static void _sdmmc_autocal_execute(sdmmc_t *sdmmc, u32 power) { bool should_enable_sd_clock = false; if (sdmmc->regs->clkcon & SDHCI_CLOCK_CARD_EN) { should_enable_sd_clock = true; sdmmc->regs->clkcon &= ~SDHCI_CLOCK_CARD_EN; } // Enable E_INPUT (SD) or Disable E_PWRD (eMMC) power. if (!(sdmmc->regs->sdmemcmppadctl & SDHCI_TEGRA_PADCTRL_E_INPUT_PWRD)) { sdmmc->regs->sdmemcmppadctl |= SDHCI_TEGRA_PADCTRL_E_INPUT_PWRD; _sdmmc_commit_changes(sdmmc); usleep(1); } // Enable auto calibration and start auto configuration. sdmmc->regs->autocalcfg |= SDHCI_TEGRA_AUTOCAL_ENABLE | SDHCI_TEGRA_AUTOCAL_START; _sdmmc_commit_changes(sdmmc); usleep(2); u32 timeout = get_tmr_ms() + 10; while (sdmmc->regs->autocalsts & SDHCI_TEGRA_AUTOCAL_ACTIVE) { if (get_tmr_ms() > timeout) { timeout = 0; // Set timeout to 0 if we timed out. break; } } #ifdef ERROR_EXTRA_PRINTING // Check if Comp pad is open or short to ground. // SDMMC1: CZ pads - T210/T210B01: 7-bit/5-bit. SDMMC2/4: LV_CZ pads - 5-bit. // Use 0x1F mask for all. u8 autocal_pu_status = sdmmc->regs->autocalsts & 0x1F; if (!autocal_pu_status) EPRINTFARGS("SDMMC%d: Comp Pad open!", sdmmc->id + 1); // Or resistance is extreme. else if (autocal_pu_status == 0x1F) EPRINTFARGS("SDMMC%d: Comp Pad short to gnd!", sdmmc->id + 1); #endif // In case auto calibration fails, we load suggested standard values. if (!timeout) { sdmmc->regs->autocalcfg &= ~SDHCI_TEGRA_AUTOCAL_ENABLE; _sdmmc_pad_config_fallback(sdmmc, power); #ifdef ERROR_EXTRA_PRINTING EPRINTFARGS("SDMMC%d: Comp Pad cal timeout!", sdmmc->id + 1); #endif } // Disable E_INPUT (SD) or enable E_PWRD (eMMC) to conserve power. sdmmc->regs->sdmemcmppadctl &= ~SDHCI_TEGRA_PADCTRL_E_INPUT_PWRD; if (should_enable_sd_clock) sdmmc->regs->clkcon |= SDHCI_CLOCK_CARD_EN; } static int _sdmmc_dll_cal_execute(sdmmc_t *sdmmc) { int res = 0, should_disable_sd_clock = 0; if (!(sdmmc->regs->clkcon & SDHCI_CLOCK_CARD_EN)) { should_disable_sd_clock = 1; sdmmc->regs->clkcon |= SDHCI_CLOCK_CARD_EN; } // Add -4 TX_DLY_CODE_OFFSET if HS533/HS667. // if (sdmmc->id == SDMMC_4 && sdmmc->card_clock > 208000) // sdmmc->regs->vendllctl0 = sdmmc->regs->vendllctl0 &= 0xFFFFC07F | (0x7C << 7); sdmmc->regs->vendllcalcfg |= SDHCI_TEGRA_DLLCAL_CALIBRATE; _sdmmc_commit_changes(sdmmc); u32 timeout = get_tmr_ms() + 5; while (sdmmc->regs->vendllcalcfg & SDHCI_TEGRA_DLLCAL_CALIBRATE) { if (get_tmr_ms() > timeout) { res = 1; goto out; } } timeout = get_tmr_ms() + 10; while (sdmmc->regs->vendllcalcfgsts & SDHCI_TEGRA_DLLCAL_ACTIVE) { if (get_tmr_ms() > timeout) { res = 1; goto out; } } out: if (should_disable_sd_clock) sdmmc->regs->clkcon &= ~SDHCI_CLOCK_CARD_EN; return res; } static void _sdmmc_reset_cmd_data(sdmmc_t *sdmmc) { sdmmc->regs->swrst |= SDHCI_RESET_CMD | SDHCI_RESET_DATA; _sdmmc_commit_changes(sdmmc); u32 timeout = get_tmr_ms() + 2000; while ((sdmmc->regs->swrst & (SDHCI_RESET_CMD | SDHCI_RESET_DATA)) && get_tmr_ms() < timeout) ; } static void _sdmmc_reset_all(sdmmc_t *sdmmc) { sdmmc->regs->swrst |= SDHCI_RESET_ALL; _sdmmc_commit_changes(sdmmc); u32 timeout = get_tmr_ms() + 2000;//100ms while ((sdmmc->regs->swrst & SDHCI_RESET_ALL) && get_tmr_ms() < timeout) ; } void sdmmc_setup_drv_type(sdmmc_t *sdmmc, u32 type) { sdmmc->regs->hostctl2 = (sdmmc->regs->hostctl2 & (~SDHCI_CTRL_DRV_TYPE_MASK)) | SDHCI_CTRL_DRV_TYPE(type); _sdmmc_commit_changes(sdmmc); } int sdmmc_setup_clock(sdmmc_t *sdmmc, u32 type) { // Disable the SD clock if it was enabled, and reenable it later. bool should_enable_sd_clock = false; if (sdmmc->regs->clkcon & SDHCI_CLOCK_CARD_EN) { should_enable_sd_clock = true; sdmmc->regs->clkcon &= ~SDHCI_CLOCK_CARD_EN; } _sdmmc_config_tap_val(sdmmc, type); _sdmmc_reset_cmd_data(sdmmc); switch (type) { case SDHCI_TIMING_MMC_ID: case SDHCI_TIMING_MMC_LS26: case SDHCI_TIMING_SD_ID: case SDHCI_TIMING_SD_DS12: sdmmc->regs->hostctl &= ~SDHCI_CTRL_HISPD; sdmmc->regs->hostctl2 &= ~SDHCI_CTRL_VDD_180; break; case SDHCI_TIMING_MMC_HS52: case SDHCI_TIMING_SD_HS25: sdmmc->regs->hostctl |= SDHCI_CTRL_HISPD; sdmmc->regs->hostctl2 &= ~SDHCI_CTRL_VDD_180; break; case SDHCI_TIMING_MMC_HS200: case SDHCI_TIMING_UHS_SDR50: // T210 Errata: the host must be set to SDR104 to WAR a CRC issue. case SDHCI_TIMING_UHS_SDR104: case SDHCI_TIMING_UHS_SDR82: case SDHCI_TIMING_MMC_HS100: sdmmc->regs->hostctl2 = (sdmmc->regs->hostctl2 & (~SDHCI_CTRL_UHS_MASK)) | UHS_SDR104_BUS_SPEED; sdmmc->regs->hostctl2 |= SDHCI_CTRL_VDD_180; break; case SDHCI_TIMING_MMC_HS400: // Non standard. sdmmc->regs->hostctl2 = (sdmmc->regs->hostctl2 & (~SDHCI_CTRL_UHS_MASK)) | HS400_BUS_SPEED; sdmmc->regs->hostctl2 |= SDHCI_CTRL_VDD_180; break; case SDHCI_TIMING_UHS_SDR25: sdmmc->regs->hostctl2 = (sdmmc->regs->hostctl2 & (~SDHCI_CTRL_UHS_MASK)) | UHS_SDR25_BUS_SPEED; sdmmc->regs->hostctl2 |= SDHCI_CTRL_VDD_180; break; case SDHCI_TIMING_UHS_SDR12: sdmmc->regs->hostctl2 = (sdmmc->regs->hostctl2 & (~SDHCI_CTRL_UHS_MASK)) | UHS_SDR12_BUS_SPEED; sdmmc->regs->hostctl2 |= SDHCI_CTRL_VDD_180; break; case SDHCI_TIMING_UHS_DDR50: #ifdef BDK_SDMMC_UHS_DDR200_SUPPORT case SDHCI_TIMING_UHS_DDR200: #endif sdmmc->regs->hostctl2 = (sdmmc->regs->hostctl2 & (~SDHCI_CTRL_UHS_MASK)) | UHS_DDR50_BUS_SPEED; sdmmc->regs->hostctl2 |= SDHCI_CTRL_VDD_180; break; } _sdmmc_commit_changes(sdmmc); u32 clock; u16 divisor; clock_sdmmc_get_card_clock_div(&clock, &divisor, type); clock_sdmmc_config_clock_source(&clock, sdmmc->id, clock); sdmmc->card_clock = (clock + divisor - 1) / divisor; // (divisor != 1) && (divisor & 1) -> error u16 div_lo = divisor >> 1; u16 div_hi = div_lo >> 8; sdmmc->regs->clkcon = (sdmmc->regs->clkcon & ~(SDHCI_DIV_MASK | SDHCI_DIV_HI_MASK)) | (div_lo << SDHCI_DIV_LO_SHIFT) | (div_hi << SDHCI_DIV_HI_SHIFT); // Enable the SD clock again. if (should_enable_sd_clock) sdmmc->regs->clkcon |= SDHCI_CLOCK_CARD_EN; if (type == SDHCI_TIMING_MMC_HS400) return _sdmmc_dll_cal_execute(sdmmc); return 0; } static void _sdmmc_card_clock_enable(sdmmc_t *sdmmc) { // Recalibrate periodically if needed. if (sdmmc->periodic_calibration && !sdmmc->powersave_enabled) _sdmmc_autocal_execute(sdmmc, sdmmc_get_io_power(sdmmc)); if (!sdmmc->powersave_enabled) { if (!(sdmmc->regs->clkcon & SDHCI_CLOCK_CARD_EN)) sdmmc->regs->clkcon |= SDHCI_CLOCK_CARD_EN; } sdmmc->card_clock_enabled = 1; } static void _sdmmc_card_clock_disable(sdmmc_t *sdmmc) { sdmmc->card_clock_enabled = 0; sdmmc->regs->clkcon &= ~SDHCI_CLOCK_CARD_EN; } void sdmmc_card_clock_powersave(sdmmc_t *sdmmc, int powersave_enable) { // Recalibrate periodically if needed. if (sdmmc->periodic_calibration && !powersave_enable && sdmmc->card_clock_enabled) _sdmmc_autocal_execute(sdmmc, sdmmc_get_io_power(sdmmc)); sdmmc->powersave_enabled = powersave_enable; if (powersave_enable) { if (sdmmc->regs->clkcon & SDHCI_CLOCK_CARD_EN) sdmmc->regs->clkcon &= ~SDHCI_CLOCK_CARD_EN; return; } if (sdmmc->card_clock_enabled) if (!(sdmmc->regs->clkcon & SDHCI_CLOCK_CARD_EN)) sdmmc->regs->clkcon |= SDHCI_CLOCK_CARD_EN; } static int _sdmmc_cache_rsp(sdmmc_t *sdmmc, u32 *rsp, u32 type) { switch (type) { case SDMMC_RSP_TYPE_1: case SDMMC_RSP_TYPE_3: case SDMMC_RSP_TYPE_6: case SDMMC_RSP_TYPE_7: rsp[0] = sdmmc->regs->rspreg[0]; break; case SDMMC_RSP_TYPE_2: // CRC is stripped, so shifting is needed. for (u32 i = 0; i < 4; i++) { u32 tempreg = sdmmc->regs->rspreg[3 - i]; rsp[i] = tempreg << 8; if (i != 0) rsp[i - 1] |= (tempreg >> 24) & 0xFF; } break; default: return 1; } return 0; } int sdmmc_get_cached_rsp(sdmmc_t *sdmmc, u32 *rsp, u32 type) { if (sdmmc->expected_rsp_type != type) return 1; switch (type) { case SDMMC_RSP_TYPE_1: case SDMMC_RSP_TYPE_3: case SDMMC_RSP_TYPE_6: case SDMMC_RSP_TYPE_7: rsp[0] = sdmmc->rsp[0]; break; case SDMMC_RSP_TYPE_2: for (u32 i = 0; i < 4; i++) rsp[i] = sdmmc->rsp[i]; break; default: return 1; } return 0; } static int _sdmmc_wait_cmd_data_inhibit(sdmmc_t *sdmmc, bool wait_dat) { _sdmmc_commit_changes(sdmmc); u32 timeout = get_tmr_ms() + 2000; while (sdmmc->regs->prnsts & SDHCI_CMD_INHIBIT) if (get_tmr_ms() > timeout) { _sdmmc_reset_cmd_data(sdmmc); return 1; } if (wait_dat) { timeout = get_tmr_ms() + 2000; while (sdmmc->regs->prnsts & SDHCI_DATA_INHIBIT) if (get_tmr_ms() > timeout) { _sdmmc_reset_cmd_data(sdmmc); return 1; } } return 0; } static int _sdmmc_wait_card_busy(sdmmc_t *sdmmc) { _sdmmc_commit_changes(sdmmc); u32 timeout = get_tmr_ms() + 2000; while (!(sdmmc->regs->prnsts & SDHCI_DATA_0_LVL)) if (get_tmr_ms() > timeout) { _sdmmc_reset_cmd_data(sdmmc); return 1; } return 0; } static int _sdmmc_setup_read_small_block(sdmmc_t *sdmmc) { switch (sdmmc_get_bus_width(sdmmc)) { case SDMMC_BUS_WIDTH_1: return 1; case SDMMC_BUS_WIDTH_4: sdmmc->regs->blksize = 64; break; case SDMMC_BUS_WIDTH_8: sdmmc->regs->blksize = 128; break; } sdmmc->regs->blkcnt = 1; sdmmc->regs->trnmod = SDHCI_TRNS_READ; return 0; } static int _sdmmc_send_cmd(sdmmc_t *sdmmc, const sdmmc_cmd_t *cmd, bool is_data_present) { u16 cmdflags = 0; switch (cmd->rsp_type) { case SDMMC_RSP_TYPE_0: break; case SDMMC_RSP_TYPE_1: case SDMMC_RSP_TYPE_6: case SDMMC_RSP_TYPE_7: if (cmd->check_busy) cmdflags = SDHCI_CMD_RESP_LEN48_BUSY | SDHCI_CMD_INDEX | SDHCI_CMD_CRC; else cmdflags = SDHCI_CMD_RESP_LEN48 | SDHCI_CMD_INDEX | SDHCI_CMD_CRC; break; case SDMMC_RSP_TYPE_2: cmdflags = SDHCI_CMD_RESP_LEN136 | SDHCI_CMD_CRC; break; case SDMMC_RSP_TYPE_3: cmdflags = SDHCI_CMD_RESP_LEN48; break; default: return 1; } if (is_data_present) cmdflags |= SDHCI_CMD_DATA; sdmmc->regs->argument = cmd->arg; sdmmc->regs->cmdreg = SDHCI_CMD_IDX(cmd->cmd) | cmdflags; return 0; } static void _sdmmc_send_tuning_cmd(sdmmc_t *sdmmc, u32 cmd) { sdmmc_cmd_t cmdbuf; cmdbuf.cmd = cmd; cmdbuf.arg = 0; cmdbuf.rsp_type = SDMMC_RSP_TYPE_1; cmdbuf.check_busy = 0; _sdmmc_send_cmd(sdmmc, &cmdbuf, true); } static int _sdmmc_tuning_execute_once(sdmmc_t *sdmmc, u32 cmd, u32 tap) { if (_sdmmc_wait_cmd_data_inhibit(sdmmc, true)) return 1; _sdmmc_setup_read_small_block(sdmmc); sdmmc->regs->norintstsen |= SDHCI_INT_DATA_AVAIL; sdmmc->regs->norintsts = sdmmc->regs->norintsts; sdmmc->regs->clkcon &= ~SDHCI_CLOCK_CARD_EN; #ifdef BDK_SDMMC_UHS_DDR200_SUPPORT // Set tap if manual tuning. if (tap != SDMMC_HW_TAP_TUNING) { sdmmc->regs->ventunctl0 &= ~SDHCI_TEGRA_TUNING_TAP_HW_UPDATED; sdmmc->regs->venclkctl = (sdmmc->regs->venclkctl & 0xFF00FFFF) | (tap << 16); sdmmc->regs->ventunctl0 |= SDHCI_TEGRA_TUNING_TAP_HW_UPDATED; } #endif _sdmmc_send_tuning_cmd(sdmmc, cmd); _sdmmc_commit_changes(sdmmc); usleep(1); _sdmmc_reset_cmd_data(sdmmc); sdmmc->regs->clkcon |= SDHCI_CLOCK_CARD_EN; _sdmmc_commit_changes(sdmmc); u32 timeout = get_tmr_us() + 5000; while (get_tmr_us() < timeout) { // Check if we got valid data. if (sdmmc->regs->norintsts & SDHCI_INT_DATA_AVAIL) { sdmmc->regs->norintsts = SDHCI_INT_DATA_AVAIL; sdmmc->regs->norintstsen &= ~SDHCI_INT_DATA_AVAIL; _sdmmc_commit_changes(sdmmc); usleep((8 * 1000 + sdmmc->card_clock - 1) / sdmmc->card_clock); // Wait 8 cycles. return 0; } } _sdmmc_reset_cmd_data(sdmmc); sdmmc->regs->norintstsen &= ~SDHCI_INT_DATA_AVAIL; _sdmmc_commit_changes(sdmmc); usleep((8 * 1000 + sdmmc->card_clock - 1) / sdmmc->card_clock); // Wait 8 cycles. return 1; } #ifdef BDK_SDMMC_UHS_DDR200_SUPPORT typedef struct _sdmmc_manual_tuning_t { u32 result[8]; u32 num_iter; u32 tap_start; u32 tap_end; } sdmmc_manual_tuning_t; static int _sdmmc_manual_tuning_set_tap(sdmmc_t *sdmmc, sdmmc_manual_tuning_t *tuning) { u32 tap_start = SDMMC_INVALID_TAP; u32 win_size = 0; u32 best_tap = 0; u32 best_size = 0; for (u32 i = 0; i < tuning->num_iter; i++) { u32 iter_end = i == (tuning->num_iter - 1) ? 1 : 0; u32 stable = tuning->result[i / 32] & BIT(i % 32); if (stable && !iter_end) { if (tap_start == SDMMC_INVALID_TAP) tap_start = i; win_size++; } else { if (tap_start != SDMMC_INVALID_TAP) { u32 tap_end = !iter_end ? (i - 1) : i; // Check if window is wider. if (win_size > best_size) { best_tap = (tap_start + tap_end) / 2; best_size = win_size + iter_end; } tap_start = SDMMC_INVALID_TAP; win_size = 0; } } } // Check if failed or window too small. if (!best_tap || best_size < SDMMC_SAMPLE_WIN_SIZE_MIN) return 1; sdmmc->regs->clkcon &= ~SDHCI_CLOCK_CARD_EN; sdmmc->regs->ventunctl0 &= ~SDHCI_TEGRA_TUNING_TAP_HW_UPDATED; // Set tap. sdmmc->regs->venclkctl = (sdmmc->regs->venclkctl & 0xFF00FFFF) | (best_tap << 16); sdmmc->regs->ventunctl0 |= SDHCI_TEGRA_TUNING_TAP_HW_UPDATED; sdmmc->regs->clkcon |= SDHCI_CLOCK_CARD_EN; return 0; } /* * SD Card DDR200 (DDR208) support * * On Tegra X1, that can be done with DDR50 host mode. * That's because HS400 4-bit or HS400 generally, is not supported on SDMMC1/3. * And also, tuning can't be done automatically on any DDR mode. * So it needs to be done manually and selected tap will be applied from the biggest * sampling window. * That allows DDR200 support on every DDR200 sd card, other than the original maker * of DDR200, Sandisk. Since Sandisk cards mandate DLL syncing. */ static int sdmmc_tuning_execute_ddr200(sdmmc_t *sdmmc) { sdmmc_manual_tuning_t manual_tuning = { 0 }; manual_tuning.num_iter = 128; sdmmc->regs->ventunctl1 = 0; // step_size 1. sdmmc->regs->ventunctl0 = (sdmmc->regs->ventunctl0 & 0xFFFF1FFF) | (2 << 13); // 128 Tries. sdmmc->regs->ventunctl0 = (sdmmc->regs->ventunctl0 & 0xFFFFE03F) | (1 << 6); // 1x Multiplier. sdmmc->regs->ventunctl0 |= SDHCI_TEGRA_TUNING_TAP_HW_UPDATED; sdmmc->regs->hostctl2 |= SDHCI_CTRL_EXEC_TUNING; for (u32 i = 0; i < manual_tuning.num_iter; i++) { _sdmmc_tuning_execute_once(sdmmc, MMC_SEND_TUNING_BLOCK, i); // Save result for manual tuning. int sampled = (sdmmc->regs->hostctl2 >> SDHCI_CTRL_TUNED_CLK_SHIFT) & 1; manual_tuning.result[i / 32] |= sampled << (i % 32); if (!(sdmmc->regs->hostctl2 & SDHCI_CTRL_EXEC_TUNING)) break; } return _sdmmc_manual_tuning_set_tap(sdmmc, &manual_tuning); } #endif int sdmmc_tuning_execute(sdmmc_t *sdmmc, u32 type, u32 cmd) { u32 num_iter, flag; if (sdmmc->powersave_enabled) return 1; switch (type) { case SDHCI_TIMING_MMC_HS200: case SDHCI_TIMING_UHS_SDR104: case SDHCI_TIMING_UHS_SDR82: num_iter = 128; flag = (2 << 13); // 128 iterations. break; case SDHCI_TIMING_UHS_SDR50: case SDHCI_TIMING_UHS_DDR50: // HW tuning is not supported on DDR modes. But it sets tap to 0 which is proper. case SDHCI_TIMING_MMC_HS100: num_iter = 256; flag = (4 << 13); // 256 iterations. break; case SDHCI_TIMING_MMC_HS400: case SDHCI_TIMING_UHS_SDR12: case SDHCI_TIMING_UHS_SDR25: return 0; #ifdef BDK_SDMMC_UHS_DDR200_SUPPORT case SDHCI_TIMING_UHS_DDR200: return sdmmc_tuning_execute_ddr200(sdmmc); #endif default: return 1; } sdmmc->regs->ventunctl1 = 0; // step_size 1. sdmmc->regs->ventunctl0 = (sdmmc->regs->ventunctl0 & 0xFFFF1FFF) | flag; // Tries. sdmmc->regs->ventunctl0 = (sdmmc->regs->ventunctl0 & 0xFFFFE03F) | (1 << 6); // 1x Multiplier. sdmmc->regs->ventunctl0 |= SDHCI_TEGRA_TUNING_TAP_HW_UPDATED; sdmmc->regs->hostctl2 |= SDHCI_CTRL_EXEC_TUNING; for (u32 i = 0; i < num_iter; i++) { _sdmmc_tuning_execute_once(sdmmc, cmd, SDMMC_HW_TAP_TUNING); if (!(sdmmc->regs->hostctl2 & SDHCI_CTRL_EXEC_TUNING)) break; } if (sdmmc->regs->hostctl2 & SDHCI_CTRL_TUNED_CLK) return 0; return 1; } static int _sdmmc_enable_internal_clock(sdmmc_t *sdmmc) { //Enable internal clock and wait till it is stable. sdmmc->regs->clkcon |= SDHCI_CLOCK_INT_EN; _sdmmc_commit_changes(sdmmc); u32 timeout = get_tmr_ms() + 2000; while (!(sdmmc->regs->clkcon & SDHCI_CLOCK_INT_STABLE)) { if (get_tmr_ms() > timeout) return 1; } sdmmc->regs->hostctl2 &= ~SDHCI_CTRL_PRESET_VAL_EN; sdmmc->regs->clkcon &= ~SDHCI_PROG_CLOCK_MODE; // Enable 32/64bit addressing if used (sysad. if blkcnt it fallbacks to 16bit). sdmmc->regs->hostctl2 |= SDHCI_HOST_VERSION_4_EN; if (!(sdmmc->regs->capareg & SDHCI_CAP_64BIT)) return 1; sdmmc->regs->hostctl2 |= SDHCI_ADDRESSING_64BIT_EN; sdmmc->regs->hostctl &= ~SDHCI_CTRL_DMA_MASK; // Use SDMA. Host V4 enabled so adma address regs in use. sdmmc->regs->timeoutcon = (sdmmc->regs->timeoutcon & 0xF0) | 14; // TMCLK * 2^27. return 0; } static int _sdmmc_autocal_config_offset(sdmmc_t *sdmmc, u32 power) { u32 off_pd = 0; u32 off_pu = 0; switch (sdmmc->id) { case SDMMC_2: case SDMMC_4: if (power != SDMMC_POWER_1_8) return 1; off_pd = 5; off_pu = 5; break; case SDMMC_1: if (power == SDMMC_POWER_1_8) { if (!sdmmc->t210b01) { off_pd = 0x7B; // -5. off_pu = 0x7B; // -5. } else { off_pd = 6; off_pu = 6; } } else if (power == SDMMC_POWER_3_3) { if (!sdmmc->t210b01) { off_pd = 0x7D; // -3. off_pu = 0; } } else return 1; break; } sdmmc->regs->autocalcfg = (sdmmc->regs->autocalcfg & 0xFFFF8080) | (off_pd << 8) | off_pu; return 0; } static void _sdmmc_enable_interrupts(sdmmc_t *sdmmc) { sdmmc->regs->norintstsen |= SDHCI_INT_DMA_END | SDHCI_INT_DATA_END | SDHCI_INT_RESPONSE; sdmmc->regs->errintstsen |= SDHCI_ERR_INT_ALL_EXCEPT_ADMA_BUSPWR; sdmmc->regs->norintsts = sdmmc->regs->norintsts; sdmmc->regs->errintsts = sdmmc->regs->errintsts; sdmmc->error_sts = 0; } static void _sdmmc_mask_interrupts(sdmmc_t *sdmmc) { sdmmc->regs->errintstsen &= ~SDHCI_ERR_INT_ALL_EXCEPT_ADMA_BUSPWR; sdmmc->regs->norintstsen &= ~(SDHCI_INT_DMA_END | SDHCI_INT_DATA_END | SDHCI_INT_RESPONSE); } static u32 _sdmmc_check_mask_interrupt(sdmmc_t *sdmmc, u16 *pout, u16 mask) { u16 norintsts = sdmmc->regs->norintsts; u16 errintsts = sdmmc->regs->errintsts; DPRINTF("norintsts %08X, errintsts %08X\n", norintsts, errintsts); if (pout) *pout = norintsts; // Check for error interrupt. if (norintsts & SDHCI_INT_ERROR) { #ifdef ERROR_EXTRA_PRINTING EPRINTFARGS("SDMMC%d: intsts %08X, errintsts %08X", sdmmc->id + 1, norintsts, errintsts); #endif sdmmc->error_sts = errintsts; sdmmc->regs->errintsts = errintsts; return SDMMC_MASKINT_ERROR; } else if (norintsts & mask) { sdmmc->regs->norintsts = norintsts & mask; return SDMMC_MASKINT_MASKED; } return SDMMC_MASKINT_NOERROR; } static int _sdmmc_wait_response(sdmmc_t *sdmmc) { _sdmmc_commit_changes(sdmmc); u32 timeout = get_tmr_ms() + 2000; while (true) { u32 res = _sdmmc_check_mask_interrupt(sdmmc, NULL, SDHCI_INT_RESPONSE); if (res == SDMMC_MASKINT_MASKED) break; if (res != SDMMC_MASKINT_NOERROR || get_tmr_ms() > timeout) { _sdmmc_reset_cmd_data(sdmmc); return 1; } } return 0; } static int _sdmmc_stop_transmission_inner(sdmmc_t *sdmmc, u32 *rsp) { sdmmc_cmd_t cmd; if (_sdmmc_wait_cmd_data_inhibit(sdmmc, false)) return 1; _sdmmc_enable_interrupts(sdmmc); cmd.cmd = MMC_STOP_TRANSMISSION; cmd.arg = 0; cmd.rsp_type = SDMMC_RSP_TYPE_1; cmd.check_busy = 1; _sdmmc_send_cmd(sdmmc, &cmd, false); int res = _sdmmc_wait_response(sdmmc); _sdmmc_mask_interrupts(sdmmc); if (res) return 1; _sdmmc_cache_rsp(sdmmc, rsp, SDMMC_RSP_TYPE_1); return _sdmmc_wait_card_busy(sdmmc); } int sdmmc_stop_transmission(sdmmc_t *sdmmc, u32 *rsp) { if (!sdmmc->card_clock_enabled) return 1; // Recalibrate periodically if needed. if (sdmmc->periodic_calibration && sdmmc->powersave_enabled) _sdmmc_autocal_execute(sdmmc, sdmmc_get_io_power(sdmmc)); bool should_disable_sd_clock = false; if (!(sdmmc->regs->clkcon & SDHCI_CLOCK_CARD_EN)) { should_disable_sd_clock = true; sdmmc->regs->clkcon |= SDHCI_CLOCK_CARD_EN; _sdmmc_commit_changes(sdmmc); usleep((8 * 1000 + sdmmc->card_clock - 1) / sdmmc->card_clock); // Wait 8 cycles. } int res = _sdmmc_stop_transmission_inner(sdmmc, rsp); usleep((8 * 1000 + sdmmc->card_clock - 1) / sdmmc->card_clock); // Wait 8 cycles. if (should_disable_sd_clock) sdmmc->regs->clkcon &= ~SDHCI_CLOCK_CARD_EN; return res; } static int _sdmmc_config_sdma(sdmmc_t *sdmmc, u32 *blkcnt_out, const sdmmc_req_t *request) { if (!request->blksize || !request->num_sectors) return 1; u32 blkcnt = request->num_sectors; if (blkcnt >= SDMMC_HMAX_BLOCKNUM) blkcnt = SDMMC_HMAX_BLOCKNUM; u32 admaaddr = (u32)request->buf; // Check alignment. if (admaaddr & 7) return 1; sdmmc->regs->admaaddr = admaaddr; sdmmc->regs->admaaddr_hi = 0; sdmmc->dma_addr_next = ALIGN_DOWN((admaaddr + SZ_512K), SZ_512K); sdmmc->regs->blksize = request->blksize | (7u << 12); // SDMA DMA 512KB Boundary (Detects A18 carry out). sdmmc->regs->blkcnt = blkcnt; if (blkcnt_out) *blkcnt_out = blkcnt; u32 trnmode = SDHCI_TRNS_DMA | SDHCI_TRNS_RTYPE_R1; // Set multiblock request. if (request->is_multi_block) trnmode |= SDHCI_TRNS_MULTI | SDHCI_TRNS_BLK_CNT_EN; // Set request direction. if (!request->is_write) trnmode |= SDHCI_TRNS_READ; // Automatic send of stop transmission or set block count cmd. if (request->is_auto_stop_trn) trnmode |= SDHCI_TRNS_AUTO_CMD12; //else if (request->is_auto_set_blkcnt) // trnmode |= SDHCI_TRNS_AUTO_CMD23; sdmmc->regs->trnmod = trnmode; return 0; } static int _sdmmc_update_sdma(sdmmc_t *sdmmc) { u16 blkcnt = 0; do { blkcnt = sdmmc->regs->blkcnt; u32 timeout = get_tmr_ms() + 1500; do { u32 res = SDMMC_MASKINT_MASKED; while (true) { u16 intr = 0; res = _sdmmc_check_mask_interrupt(sdmmc, &intr, SDHCI_INT_DATA_END | SDHCI_INT_DMA_END); if (res != SDMMC_MASKINT_MASKED) break; if (intr & SDHCI_INT_DATA_END) return 0; // Transfer complete. if (intr & SDHCI_INT_DMA_END) { // Update DMA. sdmmc->regs->admaaddr = sdmmc->dma_addr_next; sdmmc->regs->admaaddr_hi = 0; sdmmc->dma_addr_next += SZ_512K; } } if (res != SDMMC_MASKINT_NOERROR) { #ifdef ERROR_EXTRA_PRINTING EPRINTFARGS("SDMMC%d: int error!", sdmmc->id + 1); #endif _sdmmc_reset_cmd_data(sdmmc); return 1; } } while (get_tmr_ms() < timeout); } while (sdmmc->regs->blkcnt != blkcnt); _sdmmc_reset_cmd_data(sdmmc); return 1; } static int _sdmmc_execute_cmd_inner(sdmmc_t *sdmmc, sdmmc_cmd_t *cmd, sdmmc_req_t *request, u32 *blkcnt_out) { bool has_req_or_check_busy = request || cmd->check_busy; if (_sdmmc_wait_cmd_data_inhibit(sdmmc, has_req_or_check_busy)) return 1; u32 blkcnt = 0; bool is_data_present = false; if (request) { if (_sdmmc_config_sdma(sdmmc, &blkcnt, request)) { #ifdef ERROR_EXTRA_PRINTING EPRINTFARGS("SDMMC%d: DMA Wrong cfg!", sdmmc->id + 1); #endif return 1; } // Flush cache before starting the transfer. bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLEAN_WAY, false); is_data_present = true; } _sdmmc_enable_interrupts(sdmmc); if (_sdmmc_send_cmd(sdmmc, cmd, is_data_present)) { #ifdef ERROR_EXTRA_PRINTING EPRINTFARGS("SDMMC%d: Wrong Response type %08X!", sdmmc->id + 1, cmd->rsp_type); #endif return 1; } int res = _sdmmc_wait_response(sdmmc); #ifdef ERROR_EXTRA_PRINTING if (res) EPRINTFARGS("SDMMC%d: Transfer error!", sdmmc->id + 1); #endif DPRINTF("rsp(%d): %08X, %08X, %08X, %08X\n", res, sdmmc->regs->rspreg[0], sdmmc->regs->rspreg[1], sdmmc->regs->rspreg[2], sdmmc->regs->rspreg[3]); if (!res) { if (cmd->rsp_type) { sdmmc->expected_rsp_type = cmd->rsp_type; res = _sdmmc_cache_rsp(sdmmc, sdmmc->rsp, cmd->rsp_type); } if (request && !res) { res = _sdmmc_update_sdma(sdmmc); #ifdef ERROR_EXTRA_PRINTING if (res) EPRINTFARGS("SDMMC%d: DMA Update failed!", sdmmc->id + 1); #endif } } _sdmmc_mask_interrupts(sdmmc); if (!res) { if (request) { // Invalidate cache after transfer. bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, false); if (blkcnt_out) *blkcnt_out = blkcnt; if (request->is_auto_stop_trn) sdmmc->stop_trn_rsp = sdmmc->regs->rspreg[3]; } if (has_req_or_check_busy) { res = _sdmmc_wait_card_busy(sdmmc); #ifdef ERROR_EXTRA_PRINTING if (res) EPRINTFARGS("SDMMC%d: Busy timeout!", sdmmc->id + 1); #endif } } return res; } bool sdmmc_get_sd_inserted() { return (!gpio_read(GPIO_PORT_Z, GPIO_PIN_1)); } static void _sdmmc_config_sdmmc1_schmitt() { PINMUX_AUX(PINMUX_AUX_SDMMC1_CLK) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC1_CMD) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC1_DAT3) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC1_DAT2) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC1_DAT1) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC1_DAT0) |= PINMUX_SCHMT; } static void _sdmmc_config_sdmmc2_schmitt() { PINMUX_AUX(PINMUX_AUX_SDMMC2_CLK) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC2_CMD) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC2_DAT7) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC2_DAT6) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC2_DAT5) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC2_DAT4) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC2_DAT3) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC2_DAT2) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC2_DAT1) |= PINMUX_SCHMT; PINMUX_AUX(PINMUX_AUX_SDMMC2_DAT0) |= PINMUX_SCHMT; } static void _sdmmc_config_sdmmc1_pads(bool discharge) { u32 sdmmc1_pin_mask = GPIO_PIN_0 | GPIO_PIN_1 | GPIO_PIN_2 | GPIO_PIN_3 | GPIO_PIN_4 | GPIO_PIN_5; // Set values for Reset state. u32 function = GPIO_MODE_SPIO; u32 level = GPIO_LOW; u32 output = GPIO_OUTPUT_DISABLE; // Set values for discharging. if (discharge) { function = GPIO_MODE_GPIO; level = GPIO_HIGH; output = GPIO_OUTPUT_ENABLE; } // Set all pads function. gpio_config(GPIO_PORT_M, sdmmc1_pin_mask, function); // Set all pads output level. gpio_write(GPIO_PORT_M, sdmmc1_pin_mask, level); // Set all pads output. gpio_output_enable(GPIO_PORT_M, sdmmc1_pin_mask, output); } static int _sdmmc_config_sdmmc1(bool t210b01) { // Configure SD card detect. PINMUX_AUX(PINMUX_AUX_GPIO_PZ1) = PINMUX_INPUT_ENABLE | PINMUX_PULL_UP | 2; // GPIO control, pull up. APB_MISC(APB_MISC_GP_VGPIO_GPIO_MUX_SEL) = 0; gpio_direction_input(GPIO_PORT_Z, GPIO_PIN_1); usleep(100); // Check if SD card is inserted. if (!sdmmc_get_sd_inserted()) return 1; // Enable deep loopback for SDMMC1 CLK pad so reads work. APB_MISC(APB_MISC_GP_SDMMC1_CLK_LPBK_CONTROL) = 1; // Configure SDMMC1 CLK pinmux, based on state and SoC type. PINMUX_AUX(PINMUX_AUX_SDMMC1_CLK) &= ~PINMUX_SCHMT; if (PINMUX_AUX(PINMUX_AUX_SDMMC1_CLK) != (PINMUX_DRIVE_2X | PINMUX_INPUT_ENABLE | PINMUX_PULL_DOWN)) // Check if CLK pad is already configured. PINMUX_AUX(PINMUX_AUX_SDMMC1_CLK) = PINMUX_DRIVE_2X | PINMUX_INPUT_ENABLE | (t210b01 ? PINMUX_PULL_NONE : PINMUX_PULL_DOWN); // Configure reset state of SDMMC1 pins pinmux. PINMUX_AUX(PINMUX_AUX_SDMMC1_CMD) = PINMUX_DRIVE_2X | PINMUX_INPUT_ENABLE | PINMUX_PULL_UP; PINMUX_AUX(PINMUX_AUX_SDMMC1_DAT3) = PINMUX_DRIVE_2X | PINMUX_INPUT_ENABLE | PINMUX_PULL_UP; PINMUX_AUX(PINMUX_AUX_SDMMC1_DAT2) = PINMUX_DRIVE_2X | PINMUX_INPUT_ENABLE | PINMUX_PULL_UP; PINMUX_AUX(PINMUX_AUX_SDMMC1_DAT1) = PINMUX_DRIVE_2X | PINMUX_INPUT_ENABLE | PINMUX_PULL_UP; PINMUX_AUX(PINMUX_AUX_SDMMC1_DAT0) = PINMUX_DRIVE_2X | PINMUX_INPUT_ENABLE | PINMUX_PULL_UP; // Force schmitt trigger for T210B01. if (t210b01) _sdmmc_config_sdmmc1_schmitt(); // Make sure the SDMMC1 controller is powered. PMC(APBDEV_PMC_NO_IOPOWER) |= PMC_NO_IOPOWER_SDMMC1; usleep(1000); PMC(APBDEV_PMC_NO_IOPOWER) &= ~PMC_NO_IOPOWER_SDMMC1; (void)PMC(APBDEV_PMC_NO_IOPOWER); // Commit write. // Enable SD card power. Powers LDO2 also. PINMUX_AUX(PINMUX_AUX_DMIC3_CLK) = PINMUX_PULL_DOWN | 2; gpio_direction_output(GPIO_PORT_E, GPIO_PIN_4, GPIO_HIGH); usleep(10000); // Minimum 3 to 10 ms. // Inform IO pads that voltage is gonna be 3.3V. PMC(APBDEV_PMC_PWR_DET_VAL) |= PMC_PWR_DET_33V_SDMMC1; (void)PMC(APBDEV_PMC_PWR_DET_VAL); // Commit write. // Enable SD card IO power. max7762x_regulator_set_voltage(REGULATOR_LDO2, 3300000); max7762x_regulator_enable(REGULATOR_LDO2, true); usleep(1000); // Set pad slew codes to get good quality clock. if (!t210b01) { APB_MISC(APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL) = (APB_MISC(APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL) & 0xFFFFFFF) | 0x50000000; (void)APB_MISC(APB_MISC_GP_SDMMC1_PAD_CFGPADCTRL); // Commit write. usleep(1000); } return 0; } static void _sdmmc_config_emmc(u32 id, bool t210b01) { switch (id) { case SDMMC_2: if (!t210b01) { // Unset park for pads. APB_MISC(APB_MISC_GP_EMMC2_PAD_CFGPADCTRL) &= 0xF8003FFF; (void)APB_MISC(APB_MISC_GP_EMMC2_PAD_CFGPADCTRL); // Commit write. } else // Enable schmitt trigger for T210B01. _sdmmc_config_sdmmc2_schmitt(); break; case SDMMC_4: // Unset park for pads. APB_MISC(APB_MISC_GP_EMMC4_PAD_CFGPADCTRL) &= 0xF8003FFF; // Set default pad cfg. if (t210b01) APB_MISC(APB_MISC_GP_EMMC4_PAD_PUPD_CFGPADCTRL) &= 0xFFBFFFF9; // Unset CMD/CLK/DQS weak pull up/down. // Enable schmitt trigger. APB_MISC(APB_MISC_GP_EMMC4_PAD_CFGPADCTRL) |= 1; (void)APB_MISC(APB_MISC_GP_EMMC4_PAD_CFGPADCTRL); // Commit write. break; } } int sdmmc_init(sdmmc_t *sdmmc, u32 id, u32 power, u32 bus_width, u32 type) { u32 clock; u16 divisor; u8 vref_sel = 7; static const u8 trim_values_t210[4] = { 2, 8, 3, 8 }; static const u8 trim_values_t210b01[4] = { 14, 13, 15, 13 }; const u8 *trim_values; if (id > SDMMC_4 || id == SDMMC_3) return 1; memset(sdmmc, 0, sizeof(sdmmc_t)); sdmmc->regs = (t210_sdmmc_t *)(SDMMC_BASE + (u32)_sdmmc_base_offsets[id]); sdmmc->id = id; sdmmc->clock_stopped = 1; sdmmc->t210b01 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01; trim_values = sdmmc->t210b01 ? trim_values_t210b01 : trim_values_t210; // Do specific SDMMC HW configuration. switch (id) { case SDMMC_1: if (_sdmmc_config_sdmmc1(sdmmc->t210b01)) return 1; if (sdmmc->t210b01) vref_sel = 0; else sdmmc->periodic_calibration = 1; break; case SDMMC_2: case SDMMC_4: _sdmmc_config_emmc(id, sdmmc->t210b01); break; } // Disable clock if enabled. if (clock_sdmmc_is_active(id)) { _sdmmc_card_clock_disable(sdmmc); _sdmmc_commit_changes(sdmmc); } // Configure and enable selected clock. clock_sdmmc_get_card_clock_div(&clock, &divisor, type); clock_sdmmc_enable(id, clock); sdmmc->clock_stopped = 0; // Make sure all sdmmc registers are reset. _sdmmc_reset_all(sdmmc); // Set default pad IO trimming configuration. sdmmc->regs->iospare |= BIT(19); // Enable 1 cycle delayed cmd_oen. sdmmc->regs->veniotrimctl &= ~BIT(2); // Set Band Gap VREG to supply DLL. sdmmc->regs->venclkctl = (sdmmc->regs->venclkctl & 0xE0FFFFFB) | ((u32)trim_values[sdmmc->id] << 24); sdmmc->regs->sdmemcmppadctl = (sdmmc->regs->sdmemcmppadctl & ~SDHCI_TEGRA_PADCTRL_VREF_SEL_MASK) | vref_sel; // Configure auto calibration values. if (_sdmmc_autocal_config_offset(sdmmc, power)) return 1; _sdmmc_commit_changes(sdmmc); // Calibrate pads. _sdmmc_autocal_execute(sdmmc, power); // Enable internal clock and power. if (!_sdmmc_enable_internal_clock(sdmmc)) { sdmmc_set_bus_width(sdmmc, bus_width); _sdmmc_set_io_power(sdmmc, power); if (!sdmmc_setup_clock(sdmmc, type)) { sdmmc_card_clock_powersave(sdmmc, SDMMC_POWER_SAVE_DISABLE); _sdmmc_card_clock_enable(sdmmc); _sdmmc_commit_changes(sdmmc); return 0; } } // Failed to enable clock. return 1; } void sdmmc1_disable_power() { // T210B01 WAR: Clear pull down from CLK pad. PINMUX_AUX(PINMUX_AUX_SDMMC1_CLK) &= ~PINMUX_PULL_MASK; // T210B01 WAR: Set pads to discharge state. _sdmmc_config_sdmmc1_pads(true); // Disable SD card IO power. max7762x_regulator_enable(REGULATOR_LDO2, false); usleep(4000); // Disable SD card power. gpio_write(GPIO_PORT_E, GPIO_PIN_4, GPIO_LOW); // T210/T210B01 WAR: Set start timer for IO and Controller power discharge. sd_power_cycle_time_start = get_tmr_ms(); usleep(10000); // To power cycle, min 1ms without power is needed. // Disable SDMMC1 controller power. PMC(APBDEV_PMC_NO_IOPOWER) |= PMC_NO_IOPOWER_SDMMC1; (void)PMC(APBDEV_PMC_NO_IOPOWER); // Commit write. // Inform IO pads that next voltage might be 3.3V. PMC(APBDEV_PMC_PWR_DET_VAL) |= PMC_PWR_DET_33V_SDMMC1; (void)PMC(APBDEV_PMC_PWR_DET_VAL); // Commit write. // T210B01 WAR: Restore pads to reset state. _sdmmc_config_sdmmc1_pads(false); // T210B01 WAR: Restore pull down to CLK pad. PINMUX_AUX(PINMUX_AUX_SDMMC1_CLK) |= PINMUX_PULL_DOWN; } void sdmmc_end(sdmmc_t *sdmmc) { if (!sdmmc->clock_stopped) { _sdmmc_card_clock_disable(sdmmc); // Disable SDMMC power. _sdmmc_set_io_power(sdmmc, SDMMC_POWER_OFF); _sdmmc_commit_changes(sdmmc); // Disable SD card power. if (sdmmc->id == SDMMC_1) sdmmc1_disable_power(); clock_sdmmc_disable(sdmmc->id); sdmmc->clock_stopped = 1; } } void sdmmc_init_cmd(sdmmc_cmd_t *cmdbuf, u16 cmd, u32 arg, u32 rsp_type, u32 check_busy) { cmdbuf->cmd = cmd; cmdbuf->arg = arg; cmdbuf->rsp_type = rsp_type; cmdbuf->check_busy = check_busy; } int sdmmc_execute_cmd(sdmmc_t *sdmmc, sdmmc_cmd_t *cmd, sdmmc_req_t *request, u32 *blkcnt_out) { if (!sdmmc->card_clock_enabled) return 1; // Recalibrate periodically if needed. if (sdmmc->periodic_calibration && sdmmc->powersave_enabled) _sdmmc_autocal_execute(sdmmc, sdmmc_get_io_power(sdmmc)); int should_disable_sd_clock = 0; if (!(sdmmc->regs->clkcon & SDHCI_CLOCK_CARD_EN)) { should_disable_sd_clock = 1; sdmmc->regs->clkcon |= SDHCI_CLOCK_CARD_EN; _sdmmc_commit_changes(sdmmc); usleep((8 * 1000 + sdmmc->card_clock - 1) / sdmmc->card_clock); // Wait 8 cycles. } int res = _sdmmc_execute_cmd_inner(sdmmc, cmd, request, blkcnt_out); usleep((8 * 1000 + sdmmc->card_clock - 1) / sdmmc->card_clock); // Wait 8 cycles. if (should_disable_sd_clock) sdmmc->regs->clkcon &= ~SDHCI_CLOCK_CARD_EN; return res; } int sdmmc_enable_low_voltage(sdmmc_t *sdmmc) { if (sdmmc->id != SDMMC_1) return 1; _sdmmc_commit_changes(sdmmc); // Switch to 1.8V and wait for regulator to stabilize. Assume max possible wait needed. max7762x_regulator_set_voltage(REGULATOR_LDO2, 1800000); usleep(150); // Inform IO pads that we switched to 1.8V. PMC(APBDEV_PMC_PWR_DET_VAL) &= ~PMC_PWR_DET_33V_SDMMC1; (void)PMC(APBDEV_PMC_PWR_DET_VAL); // Commit write. // Enable schmitt trigger for better duty cycle and low jitter clock. _sdmmc_config_sdmmc1_schmitt(); _sdmmc_autocal_config_offset(sdmmc, SDMMC_POWER_1_8); _sdmmc_autocal_execute(sdmmc, SDMMC_POWER_1_8); _sdmmc_set_io_power(sdmmc, SDMMC_POWER_1_8); _sdmmc_commit_changes(sdmmc); msleep(5); // Wait minimum 5ms before turning on the card clock. // Turn on SDCLK. if (sdmmc->regs->hostctl2 & SDHCI_CTRL_VDD_180) { sdmmc->regs->clkcon |= SDHCI_CLOCK_CARD_EN; _sdmmc_commit_changes(sdmmc); usleep(1000); if ((sdmmc->regs->prnsts & SDHCI_DATA_LVL_MASK) == SDHCI_DATA_LVL_MASK) return 0; } return 1; } ================================================ FILE: bdk/storage/sdmmc_driver.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _SDMMC_DRIVER_H_ #define _SDMMC_DRIVER_H_ #include #include /*! SDMMC controller IDs. */ #define SDMMC_1 0 // Version 4.00. #define SDMMC_2 1 // Version 5.0 + SW CQE + Enhanced Strobe. #define SDMMC_3 2 // Version 4.00. #define SDMMC_4 3 // Version 5.0 + SW CQE + Enhanced Strobe. /*! SDMMC power types. */ #define SDMMC_POWER_OFF 0 #define SDMMC_POWER_1_8 1 #define SDMMC_POWER_3_3 2 /*! SDMMC response types. */ #define SDMMC_RSP_TYPE_0 0 #define SDMMC_RSP_TYPE_1 1 #define SDMMC_RSP_TYPE_2 2 #define SDMMC_RSP_TYPE_3 3 #define SDMMC_RSP_TYPE_6 4 #define SDMMC_RSP_TYPE_7 5 /*! SDMMC bus widths. */ #define SDMMC_BUS_WIDTH_1 0 #define SDMMC_BUS_WIDTH_4 1 #define SDMMC_BUS_WIDTH_8 2 /*! SDMMC mask interrupt status. */ #define SDMMC_MASKINT_MASKED 0 #define SDMMC_MASKINT_NOERROR 1 #define SDMMC_MASKINT_ERROR 2 /*! SDMMC present state. 0x24. */ #define SDHCI_CMD_INHIBIT BIT(0) #define SDHCI_DATA_INHIBIT BIT(1) #define SDHCI_DAT_LINE_ACTIVE BIT(2) #define SDHCI_RETUNING_REQUEST BIT(3) #define SDHCI_EMMC_LINE_LVL_MASK (0xFU << 4) #define SDHCI_DATA_4_LVL BIT(4) // eMMC only. #define SDHCI_DATA_5_LVL BIT(5) // eMMC only. #define SDHCI_DATA_6_LVL BIT(6) // eMMC only. #define SDHCI_DATA_7_LVL BIT(7) // eMMC only. #define SDHCI_DOING_WRITE BIT(8) #define SDHCI_DOING_READ BIT(9) // SD only. #define SDHCI_SPACE_AVAILABLE BIT(10) // Write buffer empty. #define SDHCI_DATA_AVAILABLE BIT(11) // Read buffer has data. #define SDHCI_CARD_PRESENT BIT(16) #define SDHCI_CD_STABLE BIT(17) #define SDHCI_CD_LVL BIT(18) #define SDHCI_WRITE_PROTECT BIT(19) #define SDHCI_DATA_LVL_MASK 0xF00000 #define SDHCI_DATA_0_LVL BIT(20) #define SDHCI_DATA_1_LVL BIT(21) #define SDHCI_DATA_2_LVL BIT(22) #define SDHCI_DATA_3_LVL BIT(23) #define SDHCI_CMD_LVL BIT(24) /*! SDMMC transfer mode. 0x0C. */ #define SDHCI_TRNS_DMA BIT(0) #define SDHCI_TRNS_BLK_CNT_EN BIT(1) #define SDHCI_TRNS_AUTO_CMD12 (1U << 2) #define SDHCI_TRNS_AUTO_CMD23 (2U << 2) #define SDHCI_TRNS_WRITE (0U << 4) #define SDHCI_TRNS_READ BIT(4) #define SDHCI_TRNS_MULTI BIT(5) #define SDHCI_TRNS_RTYPE_R1 (0U << 6) #define SDHCI_TRNS_RTYPE_R5 BIT(6) #define SDHCI_TRNS_RSP_ERR_CHK BIT(7) #define SDHCI_TRNS_RSP_INT_DIS BIT(8) /*! SDMMC command. 0x0E. */ #define SDHCI_CMD_RESP_MASK 0x3 #define SDHCI_CMD_RESP_NO_RESP 0x0 #define SDHCI_CMD_RESP_LEN136 0x1 #define SDHCI_CMD_RESP_LEN48 0x2 #define SDHCI_CMD_RESP_LEN48_BUSY 0x3 #define SDHCI_CMD_CRC BIT(3) #define SDHCI_CMD_INDEX BIT(4) #define SDHCI_CMD_DATA BIT(5) #define SDHCI_CMD_TYPE_NORMAL (0U << 6) #define SDHCI_CMD_TYPE_SUSPEND (1U << 6) #define SDHCI_CMD_TYPE_RESUME (2U << 6) #define SDHCI_CMD_TYPE_ABORT (3U << 6) #define SDHCI_CMD_SPI_CS_LOW BIT(7) #define SDHCI_CMD_IDX(cmd) ((cmd) << 8) /*! SDMMC host control. 0x28. */ #define SDHCI_CTRL_LED BIT(0) #define SDHCI_CTRL_4BITBUS BIT(1) // SD only. #define SDHCI_CTRL_HISPD BIT(2) // SD only. #define SDHCI_CTRL_DMA_MASK (3U << 3) #define SDHCI_CTRL_SDMA (0U << 3) #define SDHCI_CTRL_ADMA1 (1U << 3) #define SDHCI_CTRL_ADMA32 (2U << 3) #define SDHCI_CTRL_ADMA64 (3U << 3) #define SDHCI_CTRL_8BITBUS BIT(5) // eMMC only (or UHS-II). #define SDHCI_CTRL_CDTEST_INS BIT(6) #define SDHCI_CTRL_CDTEST_EN BIT(7) /*! SDMMC host control 2. 0x3E. */ #define SDHCI_CTRL_UHS_MASK 0x7 #define SDHCI_CTRL_VDD_180 BIT(3) #define SDHCI_CTRL_DRV_TYPE_MASK (3U << 4) #define SDHCI_CTRL_DRV_TYPE_B (0U << 4) #define SDHCI_CTRL_DRV_TYPE_A (1U << 4) #define SDHCI_CTRL_DRV_TYPE_C (2U << 4) #define SDHCI_CTRL_DRV_TYPE_D (3U << 4) #define SDHCI_CTRL_DRV_TYPE(type) ((type) << 4) #define SDHCI_CTRL_EXEC_TUNING BIT(6) #define SDHCI_CTRL_TUNED_CLK_SHIFT 7 #define SDHCI_CTRL_TUNED_CLK BIT(7) #define SDHCI_HOST_VERSION_4_EN BIT(12) #define SDHCI_ADDRESSING_64BIT_EN BIT(13) #define SDHCI_CTRL_PRESET_VAL_EN BIT(15) /*! SDMMC power control. 0x29. */ #define SDHCI_POWER_ON BIT(0) #define SDHCI_POWER_180 (5U << 1) #define SDHCI_POWER_300 (6U << 1) #define SDHCI_POWER_330 (7U << 1) #define SDHCI_POWER_MASK 0xF1 // UHS-II only. /*! SDMMC clock control. 0x2C. */ #define SDHCI_CLOCK_INT_EN BIT(0) // Internal Clock. #define SDHCI_CLOCK_INT_STABLE BIT(1) // Internal Clock Stable. #define SDHCI_CLOCK_CARD_EN BIT(2) #define SDHCI_PROG_CLOCK_MODE BIT(5) #define SDHCI_DIV_HI_SHIFT 6 #define SDHCI_DIV_HI_MASK (3U << SDHCI_DIV_HI_SHIFT) #define SDHCI_DIV_LO_SHIFT 8 #define SDHCI_DIV_MASK (0xFFU << SDHCI_DIV_LO_SHIFT) /*! SDMMC software reset. 0x2F. */ #define SDHCI_RESET_ALL BIT(0) #define SDHCI_RESET_CMD BIT(1) #define SDHCI_RESET_DATA BIT(2) /*! SDMMC interrupt status and control. 0x30/0x34. */ #define SDHCI_INT_RESPONSE BIT(0) #define SDHCI_INT_DATA_END BIT(1) #define SDHCI_INT_BLK_GAP BIT(2) #define SDHCI_INT_DMA_END BIT(3) #define SDHCI_INT_SPACE_AVAIL BIT(4) // Write buffer empty. #define SDHCI_INT_DATA_AVAIL BIT(5) // Read buffer has data. #define SDHCI_INT_CARD_INSERT BIT(6) #define SDHCI_INT_CARD_REMOVE BIT(7) #define SDHCI_INT_CARD_INT BIT(8) #define SDHCI_INT_RETUNE BIT(12) #define SDHCI_INT_ERROR BIT(15) /*! SDMMC error interrupt status and control. 0x32/0x36. */ #define SDHCI_ERR_INT_CMD_TIMEOUT BIT(0) #define SDHCI_ERR_INT_CMD_CRC BIT(1) #define SDHCI_ERR_INT_CMD_END_BIT BIT(2) #define SDHCI_ERR_INT_CMD_INDEX BIT(3) #define SDHCI_ERR_INT_DATA_TIMEOUT BIT(4) #define SDHCI_ERR_INT_DATA_CRC BIT(5) #define SDHCI_ERR_INT_DATA_END_BIT BIT(6) #define SDHCI_ERR_INT_BUS_POWER BIT(7) #define SDHCI_ERR_INT_AUTO_CMD12 BIT(8) #define SDHCI_ERR_INT_ADMA BIT(9) #define SDHCI_ERR_INT_TUNE BIT(10) #define SDHCI_ERR_INT_RSP BIT(11) #define SDHCI_ERR_INT_TARGET_RSP BIT(12) #define SDHCI_ERR_INT_SPI BIT(13) #define SDHCI_ERR_INT_VND_BOOT_TMO BIT(14) #define SDHCI_ERR_INT_VND_BOOT_ACK BIT(15) #define SDHCI_ERR_INT_ALL_EXCEPT_ADMA_BUSPWR \ (SDHCI_ERR_INT_AUTO_CMD12 | SDHCI_ERR_INT_DATA_END_BIT | \ SDHCI_ERR_INT_DATA_CRC | SDHCI_ERR_INT_DATA_TIMEOUT | \ SDHCI_ERR_INT_CMD_INDEX | SDHCI_ERR_INT_CMD_END_BIT | \ SDHCI_ERR_INT_CMD_CRC | SDHCI_ERR_INT_CMD_TIMEOUT) /*! Host Capability 1. 0x40. */ #define SDHCI_CAP_TM_CLK_FREQ_MASK 0x3F #define SDHCI_CAP_TM_UNIT_MHZ BIT(7) #define SDHCI_CAP_BASE_CLK_FREQ_MASK (0xFFU << 8) #define SDHCI_CAP_MAX_BLK_LEN_MASK (3U << 16) #define SDHCI_CAP_EMMC_8BIT BIT(18) #define SDHCI_CAP_ADMA2 BIT(19) #define SDHCI_CAP_HISPD BIT(21) #define SDHCI_CAP_SDMA BIT(22) #define SDHCI_CAP_SUSPEND_RESUME BIT(23) #define SDHCI_CAP_3_3_V BIT(24) #define SDHCI_CAP_3_0_V BIT(25) #define SDHCI_CAP_1_8_V BIT(26) #define SDHCI_CAP_64BIT BIT(28) #define SDHCI_CAP_ASYNC_INT BIT(29) #define SDHCI_CAP_SLOT_TYPE_MASK (3U << 30) #define SDHCI_CAP_SLOT_TYPE_REMOVABLE (0U << 30) #define SDHCI_CAP_SLOT_TYPE_EMBEDDED (1U << 30) #define SDHCI_CAP_SLOT_TYPE_SHARED (2U << 30) #define SDHCI_CAP_SLOT_TYPE_UHS2 (3U << 30) /*! Host Capability 2. 0x44. */ #define SDHCI_CAP_SDR50 BIT(0) #define SDHCI_CAP_SDR5104 BIT(1) #define SDHCI_CAP_DDR50 BIT(2) #define SDHCI_CAP_UHS2 BIT(3) #define SDHCI_CAP_DRV_TYPE_A BIT(4) #define SDHCI_CAP_DRV_TYPE_C BIT(5) #define SDHCI_CAP_DRV_TYPE_D BIT(6) #define SDHCI_CAP_RSP_TIMER_CNT_MASK (0xFU << 8) #define SDHCI_CAP_SDR50_TUNING BIT(13) #define SDHCI_CAP_RSP_MODES_MASK (3U << 14) #define SDHCI_CAP_CLK_MULT (0xFFU << 16) #define SDHCI_CAP_ADMA3 BIT(27) #define SDHCI_CAP_VDD2_1_8V BIT(28) /*! SDMMC max current. 0x48 */ #define SDHCI_MAX_CURRENT_3_3_V_MASK (0xFFU << 0) #define SDHCI_MAX_CURRENT_3_0_V_MASK (0xFFU << 8) #define SDHCI_MAX_CURRENT_1_8_V_MASK (0xFFU << 16) #define SDHCI_MAX_CURRENT_MULTIPLIER 4 /*! SDMMC max current. 0x4C */ #define SDHCI_MAX_CURRENT_1_8_V_VDD2_MASK (0xFFU << 0) /*! SD bus speeds. */ #define UHS_SDR12_BUS_SPEED 0 #define HIGH_SPEED_BUS_SPEED 1 #define UHS_SDR25_BUS_SPEED 1 #define UHS_SDR50_BUS_SPEED 2 #define UHS_SDR104_BUS_SPEED 3 #define UHS_DDR50_BUS_SPEED 4 #define HS400_BUS_SPEED 5 /*! SDMMC timmings. */ #define SDHCI_TIMING_MMC_ID 0 #define SDHCI_TIMING_MMC_LS26 1 #define SDHCI_TIMING_MMC_HS52 2 #define SDHCI_TIMING_MMC_HS200 3 #define SDHCI_TIMING_MMC_HS400 4 #define SDHCI_TIMING_SD_ID 5 #define SDHCI_TIMING_SD_DS12 6 #define SDHCI_TIMING_SD_HS25 7 #define SDHCI_TIMING_UHS_SDR12 8 #define SDHCI_TIMING_UHS_SDR25 9 #define SDHCI_TIMING_UHS_SDR50 10 #define SDHCI_TIMING_UHS_SDR104 11 #define SDHCI_TIMING_UHS_DDR50 12 // SDR104 with a 163.2MHz -> 81.6MHz clock. #define SDHCI_TIMING_UHS_SDR82 13 // GC FPGA. Obsolete and Repurposed. MMC_HS50 -> SDR82. #define SDHCI_TIMING_MMC_HS100 14 // GC ASIC. #define SDHCI_TIMING_UHS_DDR200 15 /*! SDMMC Low power features. */ #define SDMMC_POWER_SAVE_DISABLE 0 #define SDMMC_POWER_SAVE_ENABLE 1 /*! Helper for SWITCH command argument. */ #define SDMMC_SWITCH(mode, index, value) (((mode) << 24) | ((index) << 16) | ((value) << 8)) #define SDMMC_HW_TAP_TUNING 0x100 #define SDMMC_INVALID_TAP 0x100 #define SDMMC_SAMPLE_WIN_SIZE_MIN 8 #define SDMMC_ADMA_ADDR_ALIGN 8 /*! SDMMC controller context. */ typedef struct _sdmmc_t { t210_sdmmc_t *regs; u32 id; u32 card_clock; u32 clock_stopped; int powersave_enabled; int periodic_calibration; int card_clock_enabled; int venclkctl_set; u32 venclkctl_tap; u32 expected_rsp_type; u32 dma_addr_next; u32 rsp[4]; u32 stop_trn_rsp; u32 error_sts; int t210b01; } sdmmc_t; /*! SDMMC command. */ typedef struct _sdmmc_cmd_t { u16 cmd; u32 arg; u32 rsp_type; u32 check_busy; } sdmmc_cmd_t; /*! SDMMC request. */ typedef struct _sdmmc_req_t { void *buf; u32 blksize; u32 num_sectors; int is_write; int is_multi_block; int is_auto_stop_trn; } sdmmc_req_t; int sdmmc_get_io_power(sdmmc_t *sdmmc); u32 sdmmc_get_bus_width(sdmmc_t *sdmmc); void sdmmc_set_bus_width(sdmmc_t *sdmmc, u32 bus_width); void sdmmc_save_tap_value(sdmmc_t *sdmmc); void sdmmc_setup_drv_type(sdmmc_t *sdmmc, u32 type); int sdmmc_setup_clock(sdmmc_t *sdmmc, u32 type); void sdmmc_card_clock_powersave(sdmmc_t *sdmmc, int powersave_enable); int sdmmc_get_cached_rsp(sdmmc_t *sdmmc, u32 *rsp, u32 type); int sdmmc_tuning_execute(sdmmc_t *sdmmc, u32 type, u32 cmd); int sdmmc_stop_transmission(sdmmc_t *sdmmc, u32 *rsp); bool sdmmc_get_sd_inserted(); int sdmmc_init(sdmmc_t *sdmmc, u32 id, u32 power, u32 bus_width, u32 type); void sdmmc_end(sdmmc_t *sdmmc); void sdmmc_init_cmd(sdmmc_cmd_t *cmdbuf, u16 cmd, u32 arg, u32 rsp_type, u32 check_busy); int sdmmc_execute_cmd(sdmmc_t *sdmmc, sdmmc_cmd_t *cmd, sdmmc_req_t *request, u32 *blkcnt_out); int sdmmc_enable_low_voltage(sdmmc_t *sdmmc); #endif ================================================ FILE: bdk/storage/sdmmc_t210.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _SDMMC_T210_H_ #define _SDMMC_T210_H_ #include #include #define SDHCI_TEGRA_TUNING_TAP_HW_UPDATED BIT(17) #define SDHCI_TEGRA_DLLCAL_CALIBRATE BIT(31) #define SDHCI_TEGRA_DLLCAL_ACTIVE BIT(31) #define SDHCI_TEGRA_PADCTRL_E_INPUT_PWRD BIT(31) #define SDHCI_TEGRA_PADCTRL_VREF_SEL_MASK 0xF #define SDHCI_TEGRA_AUTOCAL_SLW_OVERRIDE BIT(28) #define SDHCI_TEGRA_AUTOCAL_ENABLE BIT(29) #define SDHCI_TEGRA_AUTOCAL_START BIT(31) #define SDHCI_TEGRA_AUTOCAL_ACTIVE BIT(31) typedef struct _t210_sdmmc_t { /* 0x00 */ vu32 sysad; // sdma system address. /* 0x04 */ vu16 blksize; /* 0x06 */ vu16 blkcnt; /* 0x08 */ vu32 argument; /* 0x0C */ vu16 trnmod; /* 0x0E */ vu16 cmdreg; /* 0x10 */ vu32 rspreg[4]; /* 0x20 */ vu32 bdata; // Buffer data port. /* 0x24 */ vu32 prnsts; /* 0x28 */ vu8 hostctl; /* 0x29 */ vu8 pwrcon; /* 0x2A */ vu8 blkgap; /* 0x2B */ vu8 wakcon; /* 0x2C */ vu16 clkcon; /* 0x2E */ vu8 timeoutcon; /* 0x2F */ vu8 swrst; /* 0x30 */ vu16 norintsts; // Normal interrupt status. /* 0x32 */ vu16 errintsts; // Error interrupt status. /* 0x34 */ vu16 norintstsen; // Enable irq status. /* 0x36 */ vu16 errintstsen; // Enable irq status. /* 0x38 */ vu16 norintsigen; // Enable irq signal to LIC/GIC. /* 0x3A */ vu16 errintsigen; // Enable irq signal to LIC/GIC. /* 0x3C */ vu16 acmd12errsts; /* 0x3E */ vu16 hostctl2; // CAP0: 0x376CD08C. // 12 MHz timeout clock. 208 MHz max base clock. 512B max block length. 8-bit support. // ADMA2 support. HS25 support. SDMA support. No suspend/resume support. 3.3/3.0/1.8V support. // 64bit addressing for V3/V4 support. Async IRQ support. All report as removable. /* 0x40 */ vu32 capareg; // CAP1: 0x10002F73. // SDR50/SDR104 support. No DDR50 support. Drive A/B/C/D support. // Timer re-tuning info from other source. SDR50 requires re-tuning. // Tuning uses timer and transfers should be 4MB limited. // ADMA3 not supported. 1.8V VDD2 supported. /* 0x44 */ vu32 capareg_hi; /* 0x48 */ vu32 maxcurr; // Get information by another method. Can be overriden via maxcurrover and maxcurrover_hi. /* 0x4C */ vu32 maxcurr_hi; /* 0x50 */ vu16 setacmd12err; // Force error in acmd12errsts. /* 0x52 */ vu16 setinterr; /* 0x54 */ vu8 admaerr; /* 0x55 */ vu8 rsvd1[3]; // 55-57 reserved. /* 0x58 */ vu32 admaaddr; /* 0x5C */ vu32 admaaddr_hi; /* 0x60 */ vu16 presets[11]; /* 0x76 */ vu16 rsvd2; /* 0x78 */ vu32 adma3addr; /* 0x7C */ vu32 adma3addr_hi; /* 0x80 */ vu8 uhs2[124]; // 80-FB UHS-II. /* 0xFC */ vu16 slotintsts; /* 0xFE */ vu16 hcver; // 0x303 (4.00). /* UHS-II range. Used for Vendor registers here */ /* 0x100 */ vu32 venclkctl; /* 0x104 */ vu32 vensysswctl; /* 0x108 */ vu32 venerrintsts; /* 0x10C */ vu32 vencapover; /* 0x110 */ vu32 venbootctl; /* 0x114 */ vu32 venbootacktout; /* 0x118 */ vu32 venbootdattout; /* 0x11C */ vu32 vendebouncecnt; /* 0x120 */ vu32 venmiscctl; /* 0x124 */ vu32 maxcurrover; /* 0x128 */ vu32 maxcurrover_hi; /* 0x12C */ vu32 unk0[32]; // 0x12C /* 0x1AC */ vu32 veniotrimctl; /* 0x1B0 */ vu32 vendllcalcfg; /* 0x1B4 */ vu32 vendllctl0; /* 0x1B8 */ vu32 vendllctl1; /* 0x1BC */ vu32 vendllcalcfgsts; /* 0x1C0 */ vu32 ventunctl0; /* 0x1C4 */ vu32 ventunctl1; /* 0x1C8 */ vu32 ventunsts0; /* 0x1CC */ vu32 ventunsts1; /* 0x1D0 */ vu32 venclkgatehystcnt; /* 0x1D4 */ vu32 venpresetval0; /* 0x1D8 */ vu32 venpresetval1; /* 0x1DC */ vu32 venpresetval2; /* 0x1E0 */ vu32 sdmemcmppadctl; /* 0x1E4 */ vu32 autocalcfg; /* 0x1E8 */ vu32 autocalintval; /* 0x1EC */ vu32 autocalsts; /* 0x1F0 */ vu32 iospare; /* 0x1F4 */ vu32 mcciffifoctl; /* 0x1F8 */ vu32 timeoutwcoal; } t210_sdmmc_t; static_assert(sizeof(t210_sdmmc_t) == 0x1FC, "T210 SDMMC REG size is wrong!"); #endif ================================================ FILE: bdk/thermal/fan.c ================================================ /* * Fan driver for Nintendo Switch * * Copyright (c) 2018-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include void fan_set_duty(u32 duty) { static bool fan_init = false; static u16 curr_duty = -1; if (duty > 236) duty = 236; if (curr_duty == duty) return; curr_duty = duty; if (!fan_init) { // Fan tachometer. u32 pull_resistor = hw_get_chip_id() == GP_HIDREV_MAJOR_T210 ? PINMUX_PULL_UP : 0; PINMUX_AUX(PINMUX_AUX_CAM1_PWDN) = PINMUX_TRISTATE | PINMUX_INPUT_ENABLE | pull_resistor | 1; gpio_direction_input(GPIO_PORT_S, GPIO_PIN_7); // Enable PWM if disabled. if (fuse_read_hw_type() == FUSE_NX_HW_TYPE_AULA) clock_enable_pwm(); PWM(PWM_CONTROLLER_PWM_CSR_1) = PWM_CSR_EN | (0x100 << 16); // Max PWM to disable fan. PINMUX_AUX(PINMUX_AUX_LCD_GPIO2) = 1; // Set source to PWM1. gpio_config(GPIO_PORT_V, GPIO_PIN_4, GPIO_MODE_SPIO); // Fan power mode. fan_init = true; } // Inverted polarity. u32 inv_duty = 236 - duty; // If disabled send a 0 duty. if (inv_duty == 236) { PWM(PWM_CONTROLLER_PWM_CSR_1) = PWM_CSR_EN | (0x100 << 16); // Bit 24 is absolute 0%. regulator_5v_disable(REGULATOR_5V_FAN); // Disable fan. PINMUX_AUX(PINMUX_AUX_LCD_GPIO2) = PINMUX_INPUT_ENABLE | PINMUX_PARKED | PINMUX_TRISTATE | PINMUX_PULL_DOWN; // Set source to PWM1. } else // Set PWM duty. { // Fan power supply. regulator_5v_enable(REGULATOR_5V_FAN); PWM(PWM_CONTROLLER_PWM_CSR_1) = PWM_CSR_EN | (inv_duty << 16); // Enable fan. PINMUX_AUX(PINMUX_AUX_LCD_GPIO2) = 1; // Set source to PWM1. } } void fan_get_speed(u32 *duty, u32 *rpm) { if (rpm) { u32 irq_count = 0; bool should_read = true; // Poll irqs for 2 seconds. (5 seconds for accurate count). int timer = get_tmr_us() + 2000000; while ((timer - get_tmr_us()) > 0) { bool irq_val = gpio_read(GPIO_PORT_S, GPIO_PIN_7); if (irq_val && should_read) { irq_count++; should_read = false; } else if (!irq_val) should_read = true; } // Halve the irq count. irq_count /= 2; // Calculate rpm based on triggered interrupts. *rpm = irq_count * (60 / 2); } if (duty) *duty = 236 - ((PWM(PWM_CONTROLLER_PWM_CSR_1) >> 16) & 0xFF); } void fan_set_from_temp(u32 temp) { if (temp >= 52) fan_set_duty(102); else if (temp >= 47) fan_set_duty(76); else if (temp >= 42) fan_set_duty(51); else if (temp <= 39) fan_set_duty(0); } ================================================ FILE: bdk/thermal/fan.h ================================================ /* * Fan driver for Nintendo Switch * * Copyright (c) 2018-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef __FAN_H_ #define __FAN_H_ #include // Disable: 0 (0 RPM), min duty: 1 (960 RPM), max duty 235 (11000 RPM). void fan_set_duty(u32 duty); // Passing NULL ptr on either of the two, disables results. void fan_get_speed(u32 *duty, u32 *rpm); void fan_set_from_temp(u32 temp); #endif /* __FAN_H_ */ ================================================ FILE: bdk/thermal/tmp451.c ================================================ /* * SOC/PCB Temperature driver for Nintendo Switch's TI TMP451 * * Copyright (c) 2018-2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include // Remote Sensor. u16 tmp451_get_soc_temp(bool intenger) { u8 val; u16 temp = 0; val = i2c_recv_byte(I2C_1, TMP451_I2C_ADDR, TMP451_SOC_TEMP_REG); if (intenger) return val; temp = val << 8; val = i2c_recv_byte(I2C_1, TMP451_I2C_ADDR, TMP451_SOC_TMP_DEC_REG); temp |= ((val >> 4) * 625) / 100; return temp; } // Local Sensor. u16 tmp451_get_pcb_temp(bool intenger) { u8 val; u16 temp = 0; val = i2c_recv_byte(I2C_1, TMP451_I2C_ADDR, TMP451_PCB_TEMP_REG); if (intenger) return val; temp = val << 8; val = i2c_recv_byte(I2C_1, TMP451_I2C_ADDR, TMP451_PCB_TMP_DEC_REG); temp |= ((val >> 4) * 625) / 100; return temp; } void tmp451_init() { // Disable ALARM and Range to 0 - 127 oC. i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_CONFIG_REG, 0x80); // Set remote sensor offsets based on SoC. if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210) { // Set offset to 0 oC for Erista. i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_SOC_TMP_OFH_REG, 0); i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_SOC_TMP_OFL_REG, 0); } else { // Set offset to -12.5 oC for Mariko. i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_SOC_TMP_OFH_REG, 0xF3); // - 13 oC. i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_SOC_TMP_OFL_REG, 0x80); // + 0.5 oC. } // Set conversion rate to 31 ms and make a read to update the reg. i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_CNV_RATE_REG, 9); tmp451_get_soc_temp(false); // Set rate to every 4 seconds. i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_CNV_RATE_REG, 2); } void tmp451_end() { // Place into shutdown mode to conserve power. i2c_send_byte(I2C_1, TMP451_I2C_ADDR, TMP451_CONFIG_REG, 0xC0); } ================================================ FILE: bdk/thermal/tmp451.h ================================================ /* * SOC/PCB Temperature driver for Nintendo Switch's TI TMP451 * * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef __TMP451_H_ #define __TMP451_H_ #include #define TMP451_I2C_ADDR 0x4C #define TMP451_PCB_TEMP_REG 0x00 #define TMP451_SOC_TEMP_REG 0x01 #define TMP451_CONFIG_REG 0x09 #define TMP451_CNV_RATE_REG 0x0A #define TMP451_SOC_TMP_DEC_REG 0x10 #define TMP451_PCB_TMP_DEC_REG 0x15 #define TMP451_SOC_TMP_OFH_REG 0x11 #define TMP451_SOC_TMP_OFL_REG 0x12 // If input is false, the return value is packed. MSByte is the integer in oC // and the LSByte is the decimal point truncated to 2 decimal places. // Otherwise it's an integer oC. u16 tmp451_get_soc_temp(bool integer); u16 tmp451_get_pcb_temp(bool integer); void tmp451_init(); void tmp451_end(); #endif /* __TMP451_H_ */ ================================================ FILE: bdk/usb/usb_descriptor_types.h ================================================ /* * USB driver for Tegra X1 * * Copyright (c) 2019-2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _USB_DESCRIPTORS_TYPES_H_ #define _USB_DESCRIPTORS_TYPES_H_ #include typedef enum { USB_DESCRIPTOR_DEVICE = 1, USB_DESCRIPTOR_CONFIGURATION = 2, USB_DESCRIPTOR_STRING = 3, USB_DESCRIPTOR_INTERFACE = 4, USB_DESCRIPTOR_ENDPOINT = 5, USB_DESCRIPTOR_DEVICE_QUALIFIER = 6, USB_DESCRIPTOR_OTHER_SPEED_CONFIGURATION = 7, USB_DESCRIPTOR_INTERFACE_POWER = 8, USB_DESCRIPTOR_INTERFACE_OTG = 9, USB_DESCRIPTOR_DEVICE_BINARY_OBJECT = 15, USB_DESCRIPTOR_DEVICE_BINARY_OBJECT_CAP = 16, USB_DESCRIPTOR_HID = 33, USB_DESCRIPTOR_HID_REPORT = 34 } usb_desc_type_t; typedef enum { USB_DESCRIPTOR_MS_COMPAT_ID = 4, USB_DESCRIPTOR_MS_EXTENDED_PROPERTIES = 5 } usb_vendor_desc_type_t; typedef enum { USB_ATTR_REMOTE_WAKE_UP = 0x20, USB_ATTR_SELF_POWERED = 0x40, USB_ATTR_BUS_POWERED_RSVD = 0x80 } usb_cfg_attr_type_t; typedef enum { USB_EP_TYPE_CTRL = 0, USB_EP_TYPE_ISO = 1, USB_EP_TYPE_BULK = 2, USB_EP_TYPE_INTR = 3 } usb_cfg_ep_type_t; /* Device descriptor structure */ typedef struct _usb_dev_descr_t { u8 bLength; // Size of this descriptor in bytes. u8 bDescriptorType; // Device Descriptor Type. (USB_DESCRIPTOR_DEVICE) u16 bcdUSB; // USB Spec. Release number (2.1). u8 bDeviceClass; // Class is specified in the interface descriptor. u8 bDeviceSubClass; // SubClass is specified in the interface descriptor. u8 bDeviceProtocol; // Protocol is specified in the interface descriptor. u8 bMaxPacketSize; // Maximum packet size for EP0. u16 idVendor; // Vendor ID assigned by USB forum. u16 idProduct; // Product ID assigned by Organization. u16 bcdDevice; // Device Release number in BCD. u8 iManufacturer; // Index of String descriptor describing Manufacturer. u8 iProduct; // Index of String descriptor describing Product. u8 iSerialNumber; // Index of String descriptor describing Serial number. u8 bNumConfigs; // Number of possible configuration. } __attribute__((packed)) usb_dev_descr_t; /* Device Qualifier descriptor structure */ typedef struct _usb_dev_qual_descr_t { u8 bLength; // Size of this descriptor in bytes. u8 bDescriptorType; // Device Descriptor Type. (USB_DESCRIPTOR_DEVICE_QUALIFIER) u16 bcdUSB; // USB Spec. Release number (2.1). u8 bDeviceClass; // Class is specified in the interface descriptor. u8 bDeviceSubClass; // SubClass is specified in the interface descriptor. u8 bDeviceProtocol; // Protocol is specified in the interface descriptor. u8 bMaxPacketSize; // Maximum packet size for EP0. u8 bNumOtherConfigs; // Number of possible other-speed configurations. u8 bReserved; // Reserved for future use, must be zero } __attribute__((packed)) usb_dev_qual_descr_t; /* Configuration descriptor structure */ typedef struct _usb_cfg_descr_t { u8 bLength; // Length of this descriptor. u8 bDescriptorType; // CONFIGURATION descriptor type (USB_DESCRIPTOR_CONFIGURATION). u16 wTotalLength; // Total length of all descriptors for this configuration. u8 bNumInterfaces; // Number of interfaces in this configuration. u8 bConfigurationValue; // Value of this configuration (1 based). u8 iConfiguration; // Index of String Descriptor describing the configuration. u8 bmAttributes; // Configuration characteristics. u8 bMaxPower; // Maximum power consumed by this configuration. In 2mA (usb2) or 8mA (usb3). } __attribute__((packed)) usb_cfg_descr_t; /* Interface descriptor structure */ typedef struct _usb_inter_descr_t { u8 bLength; // Length of this descriptor. u8 bDescriptorType; // INTERFACE descriptor type (USB_DESCRIPTOR_INTERFACE). u8 bInterfaceNumber; // Number of this interface (0 based). u8 bAlternateSetting; // Value of this alternate interface setting. u8 bNumEndpoints; // Number of endpoints in this interface. u8 bInterfaceClass; // Class code (assigned by the USB-IF). u8 bInterfaceSubClass; // Subclass code (assigned by the USB-IF). u8 bInterfaceProtocol; // Protocol code (assigned by the USB-IF). u8 iInterface; // Index of String Descriptor describing the interface. } __attribute__((packed)) usb_inter_descr_t; /* HID descriptor structure */ typedef struct _usb_hid_descr_t { u8 bLength; // Length of this descriptor. u8 bDescriptorType; // INTERFACE descriptor type (USB_DESCRIPTOR_HID). u16 bcdHID; // HID class specification release u8 bCountryCode; // Country code. u8 bNumDescriptors; // Number of descriptors. u8 bClassDescriptorType; // Type of class descriptor (USB_DESCRIPTOR_HID_REPORT). u16 bDescriptorLength; // Report descriptor length. } __attribute__((packed)) usb_hid_descr_t; /* Endpoint descriptor structure */ typedef struct _usb_ep_descr_t { u8 bLength; // Length of this descriptor. u8 bDescriptorType; // ENDPOINT descriptor type (USB_DESCRIPTOR_ENDPOINT). u8 bEndpointAddress; // Endpoint address. bit7 indicates direction (0=OUT, 1=IN). u8 bmAttributes; // Endpoint transfer type. u16 wMaxPacketSize; // Maximum packet size. u8 bInterval; // Polling interval in frames. For Interrupt and Isochronous data transfer only. } __attribute__((packed)) usb_ep_descr_t; typedef struct _usb_cfg_simple_descr_t { usb_cfg_descr_t config; usb_inter_descr_t interface; usb_ep_descr_t endpoint[2]; } __attribute__((packed)) usb_cfg_simple_descr_t; typedef struct _usb_cfg_hid_descr_t { usb_cfg_descr_t config; usb_inter_descr_t interface; usb_hid_descr_t hid; usb_ep_descr_t endpoint[1]; } __attribute__((packed)) usb_cfg_hid_descr_t; typedef struct _usb_dev_bot_t { u8 bLength; // Size of this descriptor in bytes. u8 bDescriptorType; // Device Descriptor Type. (USB_DESCRIPTOR_DEVICE_BINARY_OBJECT) u16 wTotalLength; // Size of this descriptor in bytes. u8 bNumDeviceCaps; // Number of device capabilities in this descriptor. /* Device Capability USB 2.0 Extension Descriptor */ /* Needed for a USB2.10 device. */ u8 bLengthCap0; // Size of this capability descriptor in bytes. u8 bDescriptorTypeCap0; // Device Capability Descriptor Type. (USB_DESCRIPTOR_DEVICE_BINARY_OBJECT_CAP) u8 bDevCapabilityTypeCap0; // USB2: 2. u32 bmAttributesCap0; // bit1: Link Power Management (LPM). u8 bLengthCap1; // Size of this capability descriptor in bytes. u8 bDescriptorTypeCap1; // Device Capability Descriptor Type. (USB_DESCRIPTOR_DEVICE_BINARY_OBJECT_CAP) u8 bDevCapabilityTypeCap1; // USB3: 3. u8 bmAttributesCap1; // bit1: Latency Tolerance Messaging (LTM). u16 wSpeedsSupported; // Supported bus speeds. 1: Low Speed, 2: Full Speed, 4: High Speed, 8: Super Speed. u8 bFunctionalitySupport; // Lowest speed at which all the functionality is available. 1: Full speed and above. u8 bU1DevExitLat; // USB3.0 U1 exit latency. u16 wU2DevExitLat; // USB3.0 U2 exit latency. } __attribute__((packed)) usb_dev_bot_t; /* Microsoft OS String descriptor structure */ typedef struct _usb_ms_os_descr_t { u8 bLength; // 0x12 u8 bDescriptorType; // 3 u16 wSignature[7]; // "MSFT100" UTF16 LE u8 bVendorCode; // u8 bPadding; } __attribute__((packed)) usb_ms_os_descr_t; /* Microsoft Compatible ID Feature descriptor structure */ typedef struct _usb_ms_cid_descr_t { u32 dLength; u16 wVersion; u16 wCompatibilityId; u8 bSections; u8 bReserved0[7]; u8 bInterfaceNumber; u8 bReserved1; u8 bCompatibleId[8]; u8 bSubCompatibleId[8]; u8 bReserved2[6]; } __attribute__((packed)) usb_ms_cid_descr_t; /* Microsoft Extended Properties Feature descriptor structure */ typedef struct _usb_ms_ext_prop_descr_t { u32 dLength; u16 wVersion; u16 wExtendedProperty; u16 wSections; u32 dPropertySize; u32 dPropertyType; u16 wPropertyNameLength; u16 wPropertyName[22]; // UTF16 LE u32 dPropertyDataLength; u16 wPropertyData[2]; // UTF16 LE } __attribute__((packed)) usb_ms_ext_prop_descr_t; typedef struct _usb_desc_t { usb_dev_descr_t *dev; usb_dev_qual_descr_t *dev_qual; usb_cfg_simple_descr_t *cfg; usb_cfg_simple_descr_t *cfg_other; usb_dev_bot_t *dev_bot; u8 *vendor; u8 *product; u8 *serial; u8 *lang_id; usb_ms_os_descr_t *ms_os; usb_ms_cid_descr_t *ms_cid; usb_ms_ext_prop_descr_t *mx_ext; } usb_desc_t; #endif ================================================ FILE: bdk/usb/usb_descriptors.c ================================================ /* * USB driver for Tegra X1 * * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include static usb_dev_descr_t usb_device_descriptor_ums = { .bLength = 18, .bDescriptorType = USB_DESCRIPTOR_DEVICE, .bcdUSB = 0x210, .bDeviceClass = 0x00, .bDeviceSubClass = 0x00, .bDeviceProtocol = 0x00, .bMaxPacketSize = 0x40, .idVendor = 0x11EC, // Nintendo: 0x057E, Nvidia: 0x0955 .idProduct = 0xA7E0, // Switch: 0x2000, usbd: 0x3000 .bcdDevice = 0x0101, .iManufacturer = 1, .iProduct = 2, .iSerialNumber = 3, .bNumConfigs = 1 }; static usb_dev_qual_descr_t usb_device_qualifier_descriptor = { .bLength = 10, .bDescriptorType = USB_DESCRIPTOR_DEVICE_QUALIFIER, .bcdUSB = 0x210, .bDeviceClass = 0x00, .bDeviceSubClass = 0x00, .bDeviceProtocol = 0x00, .bMaxPacketSize = 0x40, .bNumOtherConfigs = 0x01, .bReserved = 0x00 }; static usb_cfg_simple_descr_t usb_configuration_descriptor_ums = { /* Configuration descriptor structure */ .config.bLength = 9, .config.bDescriptorType = USB_DESCRIPTOR_CONFIGURATION, .config.wTotalLength = 0x20, .config.bNumInterfaces = 0x01, .config.bConfigurationValue = 0x01, .config.iConfiguration = 0x00, .config.bmAttributes = USB_ATTR_SELF_POWERED | USB_ATTR_BUS_POWERED_RSVD, .config.bMaxPower = 32 / 2, /* Interface descriptor structure */ .interface.bLength = 9, .interface.bDescriptorType = USB_DESCRIPTOR_INTERFACE, .interface.bInterfaceNumber = 0, .interface.bAlternateSetting = 0, .interface.bNumEndpoints = 2, .interface.bInterfaceClass = 0x08, // Mass Storage Class. .interface.bInterfaceSubClass = 0x06, // SCSI Transparent Command Set. .interface.bInterfaceProtocol = 0x50, // Bulk-Only Transport. .interface.iInterface = 0x00, /* Endpoint descriptor structure EP1 IN */ .endpoint[0].bLength = 7, .endpoint[0].bDescriptorType = USB_DESCRIPTOR_ENDPOINT, .endpoint[0].bEndpointAddress = 0x81, // USB_EP_ADDR_BULK_IN. .endpoint[0].bmAttributes = USB_EP_TYPE_BULK, .endpoint[0].wMaxPacketSize = 0x200, .endpoint[0].bInterval = 0x00, /* Endpoint descriptor structure EP1 OUT */ .endpoint[1].bLength = 7, .endpoint[1].bDescriptorType = USB_DESCRIPTOR_ENDPOINT, .endpoint[1].bEndpointAddress = 0x01, // USB_EP_ADDR_BULK_OUT. .endpoint[1].bmAttributes = USB_EP_TYPE_BULK, .endpoint[1].wMaxPacketSize = 0x200, .endpoint[1].bInterval = 0x00 }; static usb_cfg_simple_descr_t usb_other_speed_config_descriptor_ums = { /* Other Speed Configuration descriptor structure */ .config.bLength = 9, .config.bDescriptorType = USB_DESCRIPTOR_OTHER_SPEED_CONFIGURATION, .config.wTotalLength = 0x20, .config.bNumInterfaces = 0x01, .config.bConfigurationValue = 0x01, .config.iConfiguration = 0x00, .config.bmAttributes = USB_ATTR_SELF_POWERED | USB_ATTR_BUS_POWERED_RSVD, .config.bMaxPower = 32 / 2, /* Interface descriptor structure */ .interface.bLength = 9, .interface.bDescriptorType = USB_DESCRIPTOR_INTERFACE, .interface.bInterfaceNumber = 0x00, .interface.bAlternateSetting = 0x00, .interface.bNumEndpoints = 2, .interface.bInterfaceClass = 0x08, // Mass Storage Class. .interface.bInterfaceSubClass = 0x06, // SCSI Transparent Command Set. .interface.bInterfaceProtocol = 0x50, // Bulk-Only Transport. .interface.iInterface = 0x00, /* Endpoint descriptor structure EP1 IN */ .endpoint[0].bLength = 7, .endpoint[0].bDescriptorType = USB_DESCRIPTOR_ENDPOINT, .endpoint[0].bEndpointAddress = 0x81, // USB_EP_ADDR_BULK_IN. .endpoint[0].bmAttributes = USB_EP_TYPE_BULK, .endpoint[0].wMaxPacketSize = 0x40, .endpoint[0].bInterval = 0, /* Endpoint descriptor structure EP1 OUT */ .endpoint[1].bLength = 7, .endpoint[1].bDescriptorType = USB_DESCRIPTOR_ENDPOINT, .endpoint[1].bEndpointAddress = 0x01, // USB_EP_ADDR_BULK_OUT. .endpoint[1].bmAttributes = USB_EP_TYPE_BULK, .endpoint[1].wMaxPacketSize = 0x40, .endpoint[1].bInterval = 0 }; static usb_dev_bot_t usb_device_binary_object_descriptor = { .bLength = 5, .bDescriptorType = USB_DESCRIPTOR_DEVICE_BINARY_OBJECT, .wTotalLength = 22, .bNumDeviceCaps = 2, /* Device Capability USB 2.0 Extension Descriptor */ .bLengthCap0 = 7, .bDescriptorTypeCap0 = USB_DESCRIPTOR_DEVICE_BINARY_OBJECT_CAP, .bDevCapabilityTypeCap0 = 2, // USB2. .bmAttributesCap0 = 0, /* Device Capability SuperSpeed Descriptor */ /* Needed for a USB2.10 device. */ .bLengthCap1 = 10, .bDescriptorTypeCap1 = USB_DESCRIPTOR_DEVICE_BINARY_OBJECT_CAP, .bDevCapabilityTypeCap1 = 3, // USB3. .bmAttributesCap1 = 0, .wSpeedsSupported = 0x6, // FS | HS. .bFunctionalitySupport = 1, // FS and above. .bU1DevExitLat = 0, .wU2DevExitLat = 0 }; static u8 usb_lang_id_string_descriptor[4] = { 4, 3, 0x09, 0x04 }; static u8 usb_serial_string_descriptor[26] = { 26, 0x03, 'C', 0x00, '7', 0x00, 'C', 0x00, '0', 0x00, '9', 0x00, '2', 0x00, '4', 0x00, '2', 0x00, 'F', 0x00, '7', 0x00, '0', 0x00, '3', 0x00 }; static u8 usb_vendor_string_descriptor_ums[32] = { 26, 0x03, 'N', 0, 'y', 0, 'x', 0, ' ', 0, 'U', 0, 'S', 0, 'B', 0, ' ', 0, 'D', 0, 'i', 0, 's', 0, 'k', 0 }; static u8 usb_product_string_descriptor_ums[22] = { 8, 0x03, 'U', 0, 'M', 0, 'S', 0 }; static usb_ms_os_descr_t usb_ms_os_descriptor = { .bLength = 0x28, .bDescriptorType = 0x03, .wSignature[0] = 'M', .wSignature[1] = 'S', .wSignature[2] = 'F', .wSignature[3] = 'T', .wSignature[4] = '1', .wSignature[5] = '0', .wSignature[6] = '0', .bVendorCode = 0x99, }; static usb_ms_cid_descr_t usb_ms_cid_descriptor = { .dLength = 0x28, .wVersion = 0x100, .wCompatibilityId = USB_DESCRIPTOR_MS_COMPAT_ID, .bSections = 1, .bInterfaceNumber = 0, .bReserved1 = 1, .bCompatibleId[0] = 'N', .bCompatibleId[1] = 'Y', .bCompatibleId[2] = 'X', .bCompatibleId[3] = 'U', .bCompatibleId[4] = 'S', .bCompatibleId[5] = 'B', }; static usb_ms_ext_prop_descr_t usb_ms_ext_prop_descriptor_ums = { .dLength = 0x48, .wVersion = 0x100, .wExtendedProperty = USB_DESCRIPTOR_MS_EXTENDED_PROPERTIES, .wSections = 1, .dPropertySize = 0x3E, .dPropertyType = 4, // DWORD .wPropertyNameLength = 0x2C, .wPropertyName[0] = 'M', // MaximumTransferLength. .wPropertyName[1] = 'a', .wPropertyName[2] = 'x', .wPropertyName[3] = 'i', .wPropertyName[4] = 'm', .wPropertyName[5] = 'u', .wPropertyName[6] = 'm', .wPropertyName[7] = 'T', .wPropertyName[8] = 'r', .wPropertyName[9] = 'a', .wPropertyName[10] = 'n', .wPropertyName[11] = 's', .wPropertyName[12] = 'f', .wPropertyName[13] = 'e', .wPropertyName[14] = 'r', .wPropertyName[15] = 'L', .wPropertyName[16] = 'e', .wPropertyName[17] = 'n', .wPropertyName[18] = 'g', .wPropertyName[19] = 't', .wPropertyName[20] = 'h', .wPropertyName[21] = 0, .dPropertyDataLength = 0x4, .wPropertyData[0] = 0x00, // 1MB. .wPropertyData[1] = 0x10, }; static usb_ms_ext_prop_descr_t usb_ms_ext_prop_descriptor_hid = { .dLength = 7, .wVersion = 0x100, .wExtendedProperty = USB_DESCRIPTOR_MS_EXTENDED_PROPERTIES, .wSections = 0, }; static usb_dev_descr_t usb_device_descriptor_hid_jc = { .bLength = 18, .bDescriptorType = USB_DESCRIPTOR_DEVICE, .bcdUSB = 0x210, .bDeviceClass = 0x00, .bDeviceSubClass = 0x00, .bDeviceProtocol = 0x00, .bMaxPacketSize = 0x40, .idVendor = 0x11EC, // Nintendo: 0x057E, Nvidia: 0x0955 .idProduct = 0xA7E1, // Switch: 0x2000, usbd: 0x3000 .bcdDevice = 0x0101, .iManufacturer = 1, .iProduct = 2, .iSerialNumber = 3, .bNumConfigs = 1 }; static usb_dev_descr_t usb_device_descriptor_hid_touch = { .bLength = 18, .bDescriptorType = USB_DESCRIPTOR_DEVICE, .bcdUSB = 0x210, .bDeviceClass = 0x00, .bDeviceSubClass = 0x00, .bDeviceProtocol = 0x00, .bMaxPacketSize = 0x40, .idVendor = 0x11EC, // Nintendo: 0x057E, Nvidia: 0x0955 .idProduct = 0xA7E2, // Switch: 0x2000, usbd: 0x3000 .bcdDevice = 0x0101, .iManufacturer = 1, .iProduct = 2, .iSerialNumber = 3, .bNumConfigs = 1 }; u8 hid_report_descriptor_jc[] = { 0x05, 0x01, // USAGE_PAGE (Generic Desktop), 0x09, 0x04, // USAGE (Joystick), 0xa1, 0x01, // COLLECTION (Application), 0xa1, 0x02, // COLLECTION (Logical), 0x75, 0x08, // REPORT_SIZE (8), 0x95, 0x04, // REPORT_COUNT (4), 0x15, 0x00, // LOGICAL_MINIMUM (0), 0x26, 0xff, 0x00, // LOGICAL_MAXIMUM (255), 0x35, 0x00, // PHYSICAL_MINIMUM (0), 0x46, 0xff, 0x00, // PHYSICAL_MAXIMUM (255), 0x09, 0x30, // USAGE (X_ID), 0x09, 0x31, // USAGE (Y_ID), 0x09, 0x32, // USAGE (Z_ID), 0x09, 0x35, // USAGE (Rz_ID), 0x81, 0x02, // INPUT (IOF_Variable), 0x75, 0x04, // REPORT_SIZE (4), 0x95, 0x01, // REPORT_COUNT (1), 0x25, 0x07, // LOGICAL_MAXIMUM (7), 0x46, 0x3b, 0x01, // PHYSICAL_MAXIMUM (315), 0x65, 0x14, // UNIT (Eng_Rot_Angular_Pos), 0x09, 0x39, // USAGE (Hat_Switch), 0x81, 0x42, // INPUT (IOF_NullposVar), 0x65, 0x00, // UNIT (Unit_None), 0x75, 0x01, // REPORT_SIZE (1), 0x95, 0x0c, // REPORT_COUNT (12), 0x25, 0x01, // LOGICAL_MAXIMUM (1), 0x45, 0x01, // PHYSICAL_MAXIMUM (1), 0x05, 0x09, // USAGE_PAGE (Button_ID), 0x19, 0x01, // USAGE_MINIMUM (1), 0x29, 0x0c, // USAGE_MAXIMUM (12), 0x81, 0x02, // INPUT (IOF_Variable), 0xc0, // END_COLLECTION(), 0xc0 // END_COLLECTION(), }; u32 hid_report_descriptor_jc_size = sizeof(hid_report_descriptor_jc); u8 hid_report_descriptor_touch[] = { 0x05, 0x0d, // USAGE_PAGE (Digitizers) 0x09, 0x05, // USAGE (Touch Pad) 0xa1, 0x01, // COLLECTION (Application) 0x85, 0x05, // REPORT_ID (Touch pad) 0x09, 0x22, // USAGE (Finger) 0xa1, 0x02, // COLLECTION (Logical) 0x15, 0x00, // LOGICAL_MINIMUM (0) 0x25, 0x01, // LOGICAL_MAXIMUM (1) 0x09, 0x42, // USAGE (Tip switch) 0x95, 0x01, // REPORT_COUNT (1) 0x75, 0x01, // REPORT_SIZE (1) 0x81, 0x02, // INPUT (Data,Var,Abs) 0x15, 0x00, // LOGICAL_MINIMUM (1) 0x25, 0x01, // LOGICAL_MAXIMUM (1) 0x75, 0x01, // REPORT_SIZE (1) 0x95, 0x07, // REPORT_COUNT (7) 0x09, 0x54, // USAGE (Contact Count) 0x81, 0x02, // INPUT (Data,Var,Abs) 0x95, 0x01, // REPORT_COUNT (1) 0x75, 0x08, // REPORT_SIZE (8) 0x15, 0x00, // LOGICAL_MINIMUM (0) 0x25, 0x0A, // LOGICAL_MAXIMUM (10) 0x09, 0x51, // USAGE (Contact Identifier) 0x81, 0x02, // INPUT (Data,Var,Abs) // 0x15, 0x00, // LOGICAL_MINIMUM (0) // 0x26, 0xF8, 0x2A, // LOGICAL_MAXIMUM (11000) // 0x95, 0x01, // REPORT_COUNT (1) // 0x75, 0x08, // REPORT_SIZE (16) // 0x09, 0x30, // USAGE (Pressure) // 0x81, 0x02, // INPUT (Data,Var,Abs) 0x05, 0x01, // USAGE_PAGE (Generic Desk.. 0x15, 0x00, // LOGICAL_MINIMUM (0) 0x26, 0xff, 0x04, // LOGICAL_MAXIMUM (1279) 0x75, 0x10, // REPORT_SIZE (16) 0x55, 0x0e, // UNIT_EXPONENT (-2) 0x65, 0x13, // UNIT(Inch,EngLinear) 0x09, 0x30, // USAGE (X) 0x35, 0x00, // PHYSICAL_MINIMUM (0) 0x46, 0xFF, 0x04, // PHYSICAL_MAXIMUM (1279) 0x95, 0x01, // REPORT_COUNT (1) 0x81, 0x02, // INPUT (Data,Var,Abs) 0x26, 0xCF, 0x02, // LOGICAL_MAXIMUM (719) 0x46, 0xCF, 0x02, // PHYSICAL_MAXIMUM (719) 0x09, 0x31, // USAGE (Y) 0x81, 0x02, // INPUT (Data,Var,Abs) 0x05, 0x0d, // USAGE PAGE (Digitizers) 0xc0, // END_COLLECTION 0xc0, // END_COLLECTION }; u32 hid_report_descriptor_touch_size = sizeof(hid_report_descriptor_touch); static usb_cfg_hid_descr_t usb_configuration_descriptor_hid_jc = { /* Configuration descriptor structure */ .config.bLength = 9, .config.bDescriptorType = USB_DESCRIPTOR_CONFIGURATION, .config.wTotalLength = sizeof(usb_cfg_hid_descr_t), .config.bNumInterfaces = 0x01, .config.bConfigurationValue = 0x01, .config.iConfiguration = 0x00, .config.bmAttributes = USB_ATTR_SELF_POWERED | USB_ATTR_BUS_POWERED_RSVD, .config.bMaxPower = 32 / 2, /* Interface descriptor structure */ .interface.bLength = 9, .interface.bDescriptorType = USB_DESCRIPTOR_INTERFACE, .interface.bInterfaceNumber = 0, .interface.bAlternateSetting = 0, .interface.bNumEndpoints = 1, .interface.bInterfaceClass = 0x03, // Human Interface Device Class. .interface.bInterfaceSubClass = 0x00, // No Subclass. .interface.bInterfaceProtocol = 0x00, // None. .interface.iInterface = 0x00, .hid.bLength = 9, .hid.bDescriptorType = USB_DESCRIPTOR_HID, .hid.bcdHID = 0x110, .hid.bCountryCode = 0, .hid.bNumDescriptors = 1, .hid.bClassDescriptorType = USB_DESCRIPTOR_HID_REPORT, .hid.bDescriptorLength = sizeof(hid_report_descriptor_jc), /* Endpoint descriptor structure EP1 IN */ .endpoint[0].bLength = 7, .endpoint[0].bDescriptorType = USB_DESCRIPTOR_ENDPOINT, .endpoint[0].bEndpointAddress = 0x81, // USB_EP_ADDR_BULK_IN. .endpoint[0].bmAttributes = USB_EP_TYPE_INTR, .endpoint[0].wMaxPacketSize = 0x200, .endpoint[0].bInterval = 4, // 8ms on HS. }; static u8 usb_vendor_string_descriptor_hid[22] = { 16, 0x03, 'N', 0, 'y', 0, 'x', 0, ' ', 0, 'U', 0, 'S', 0, 'B', 0 }; static u8 usb_product_string_descriptor_hid_jc[24] = { 24, 0x03, 'N', 0, 'y', 0, 'x', 0, ' ', 0, 'J', 0, 'o', 0, 'y', 0, '-', 0, 'C', 0, 'o', 0, 'n', 0 }; static u8 usb_product_string_descriptor_hid_touch[26] = { 26, 0x03, 'N', 0, 'y', 0, 'x', 0, ' ', 0, 'T', 0, 'o', 0, 'u', 0, 'c', 0, 'h', 0, 'p', 0, 'a', 0, 'd', 0 }; static usb_cfg_hid_descr_t usb_configuration_descriptor_hid_touch = { /* Configuration descriptor structure */ .config.bLength = 9, .config.bDescriptorType = USB_DESCRIPTOR_CONFIGURATION, .config.wTotalLength = sizeof(usb_cfg_hid_descr_t), .config.bNumInterfaces = 0x01, .config.bConfigurationValue = 0x01, .config.iConfiguration = 0x00, .config.bmAttributes = USB_ATTR_SELF_POWERED | USB_ATTR_BUS_POWERED_RSVD, .config.bMaxPower = 32 / 2, /* Interface descriptor structure */ .interface.bLength = 9, .interface.bDescriptorType = USB_DESCRIPTOR_INTERFACE, .interface.bInterfaceNumber = 0, .interface.bAlternateSetting = 0, .interface.bNumEndpoints = 1, .interface.bInterfaceClass = 0x03, // Human Interface Device Class. .interface.bInterfaceSubClass = 0x00, // No Subclass. .interface.bInterfaceProtocol = 0x00, // None. .interface.iInterface = 0x00, .hid.bLength = 9, .hid.bDescriptorType = USB_DESCRIPTOR_HID, .hid.bcdHID = 0x111, .hid.bCountryCode = 0, .hid.bNumDescriptors = 1, .hid.bClassDescriptorType = USB_DESCRIPTOR_HID_REPORT, .hid.bDescriptorLength = sizeof(hid_report_descriptor_touch), /* Endpoint descriptor structure EP1 IN */ .endpoint[0].bLength = 7, .endpoint[0].bDescriptorType = USB_DESCRIPTOR_ENDPOINT, .endpoint[0].bEndpointAddress = 0x81, // USB_EP_ADDR_BULK_IN. .endpoint[0].bmAttributes = USB_EP_TYPE_INTR, .endpoint[0].wMaxPacketSize = 0x200, .endpoint[0].bInterval = 3, // 4ms on HS. }; usb_desc_t usb_gadget_ums_descriptors = { .dev = &usb_device_descriptor_ums, .dev_qual = &usb_device_qualifier_descriptor, .cfg = &usb_configuration_descriptor_ums, .cfg_other = &usb_other_speed_config_descriptor_ums, .dev_bot = &usb_device_binary_object_descriptor, .vendor = usb_vendor_string_descriptor_ums, .product = usb_product_string_descriptor_ums, .serial = usb_serial_string_descriptor, .lang_id = usb_lang_id_string_descriptor, .ms_os = &usb_ms_os_descriptor, .ms_cid = &usb_ms_cid_descriptor, .mx_ext = &usb_ms_ext_prop_descriptor_ums }; usb_desc_t usb_gadget_hid_jc_descriptors = { .dev = &usb_device_descriptor_hid_jc, .dev_qual = &usb_device_qualifier_descriptor, .cfg = (usb_cfg_simple_descr_t *)&usb_configuration_descriptor_hid_jc, .cfg_other = NULL, .dev_bot = &usb_device_binary_object_descriptor, .vendor = usb_vendor_string_descriptor_hid, .product = usb_product_string_descriptor_hid_jc, .serial = usb_serial_string_descriptor, .lang_id = usb_lang_id_string_descriptor, .ms_os = &usb_ms_os_descriptor, .ms_cid = &usb_ms_cid_descriptor, .mx_ext = &usb_ms_ext_prop_descriptor_hid }; usb_desc_t usb_gadget_hid_touch_descriptors = { .dev = &usb_device_descriptor_hid_touch, .dev_qual = &usb_device_qualifier_descriptor, .cfg = (usb_cfg_simple_descr_t *)&usb_configuration_descriptor_hid_touch, .cfg_other = NULL, .dev_bot = &usb_device_binary_object_descriptor, .vendor = usb_vendor_string_descriptor_hid, .product = usb_product_string_descriptor_hid_touch, .serial = usb_serial_string_descriptor, .lang_id = usb_lang_id_string_descriptor, .ms_os = &usb_ms_os_descriptor, .ms_cid = &usb_ms_cid_descriptor, .mx_ext = &usb_ms_ext_prop_descriptor_hid }; ================================================ FILE: bdk/usb/usb_gadget_hid.c ================================================ /* * USB Gadget HID driver for Tegra X1 * * Copyright (c) 2019-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include //#define DPRINTF(...) gfx_printf(__VA_ARGS__) #define DPRINTF(...) typedef struct _gamepad_report_t { u8 x; u8 y; u8 z; u8 rz; u8 hat:4; u8 btn1:1; u8 btn2:1; u8 btn3:1; u8 btn4:1; u8 btn5:1; u8 btn6:1; u8 btn7:1; u8 btn8:1; u8 btn9:1; u8 btn10:1; u8 btn11:1; u8 btn12:1; } __attribute__((packed)) gamepad_report_t; typedef struct _jc_cal_t { // 15ms * JC_CAL_MAX_STEPS = 240 ms. #define JC_CAL_MAX_STEPS 16 u32 cl_step; u32 cr_step; u16 clx_max; u16 clx_min; u16 cly_max; u16 cly_min; u16 crx_max; u16 crx_min; u16 cry_max; u16 cry_min; } jc_cal_t; enum { INPUT_POLL_HAS_PACKET, INPUT_POLL_NO_PACKET, INPUT_POLL_EXIT, }; static jc_cal_t jc_cal_ctx; static usb_ops_t usb_ops; static void *rpt_buffer = (u8 *)USB_EP_BULK_IN_BUF_ADDR; static bool _jc_calibration(const jc_gamepad_rpt_t *jc_pad) { // Calibrate left stick. if (jc_cal_ctx.cl_step != JC_CAL_MAX_STEPS) { if (jc_pad->conn_l && jc_pad->lstick_x > 0x400 && jc_pad->lstick_y > 0x400 && jc_pad->lstick_x < 0xC00 && jc_pad->lstick_y < 0xC00) { jc_cal_ctx.cl_step++; jc_cal_ctx.clx_max = jc_pad->lstick_x + 0x72; jc_cal_ctx.clx_min = jc_pad->lstick_x - 0x72; jc_cal_ctx.cly_max = jc_pad->lstick_y + 0x72; jc_cal_ctx.cly_min = jc_pad->lstick_y - 0x72; if (jc_cal_ctx.cl_step != JC_CAL_MAX_STEPS) return false; } else return false; } // Calibrate right stick. if (jc_cal_ctx.cr_step != JC_CAL_MAX_STEPS) { if (jc_pad->conn_r && jc_pad->rstick_x > 0x400 && jc_pad->rstick_y > 0x400 && jc_pad->rstick_x < 0xC00 && jc_pad->rstick_y < 0xC00) { jc_cal_ctx.cr_step++; jc_cal_ctx.crx_max = jc_pad->rstick_x + 0x72; jc_cal_ctx.crx_min = jc_pad->rstick_x - 0x72; jc_cal_ctx.cry_max = jc_pad->rstick_y + 0x72; jc_cal_ctx.cry_min = jc_pad->rstick_y - 0x72; if (jc_cal_ctx.cr_step != JC_CAL_MAX_STEPS) return false; } else return false; } return true; } static int _jc_poll(gamepad_report_t *rpt) { static gamepad_report_t prev_rpt = {0}; // Poll Joy-Con. jc_gamepad_rpt_t *jc_pad = joycon_poll(); if (!jc_pad) return INPUT_POLL_NO_PACKET; // Exit emulation if Left stick and Home are pressed. if (jc_pad->l3 && jc_pad->home) return INPUT_POLL_EXIT; if (jc_cal_ctx.cl_step != JC_CAL_MAX_STEPS || jc_cal_ctx.cr_step != JC_CAL_MAX_STEPS) { if (!_jc_calibration(jc_pad)) return INPUT_POLL_NO_PACKET; } // Re-calibrate on disconnection. if (!jc_pad->conn_l) jc_cal_ctx.cl_step = 0; if (!jc_pad->conn_r) jc_cal_ctx.cr_step = 0; // Calculate left analog stick. if (jc_pad->lstick_x <= jc_cal_ctx.clx_max && jc_pad->lstick_x >= jc_cal_ctx.clx_min) rpt->x = 0x7F; else if (jc_pad->lstick_x > jc_cal_ctx.clx_max) { u16 x_raw = (jc_pad->lstick_x - jc_cal_ctx.clx_max) / 7; if (x_raw > 0x7F) x_raw = 0x7F; rpt->x = 0x7F + x_raw; } else { u16 x_raw = (jc_cal_ctx.clx_min - jc_pad->lstick_x) / 7; if (x_raw > 0x7F) x_raw = 0x7F; rpt->x = 0x7F - x_raw; } if (jc_pad->lstick_y <= jc_cal_ctx.cly_max && jc_pad->lstick_y >= jc_cal_ctx.cly_min) rpt->y = 0x7F; else if (jc_pad->lstick_y > jc_cal_ctx.cly_max) { u16 y_raw = (jc_pad->lstick_y - jc_cal_ctx.cly_max) / 7; if (y_raw > 0x7F) y_raw = 0x7F; // Hoag has inverted Y axis. if (!jc_pad->sio_mode) rpt->y = 0x7F - y_raw; else rpt->y = 0x7F + y_raw; } else { u16 y_raw = (jc_cal_ctx.cly_min - jc_pad->lstick_y) / 7; if (y_raw > 0x7F) y_raw = 0x7F; // Hoag has inverted Y axis. if (!jc_pad->sio_mode) rpt->y = 0x7F + y_raw; else rpt->y = 0x7F - y_raw; } // Calculate right analog stick. if (jc_pad->rstick_x <= jc_cal_ctx.crx_max && jc_pad->rstick_x >= jc_cal_ctx.crx_min) rpt->z = 0x7F; else if (jc_pad->rstick_x > jc_cal_ctx.crx_max) { u16 x_raw = (jc_pad->rstick_x - jc_cal_ctx.crx_max) / 7; if (x_raw > 0x7F) x_raw = 0x7F; rpt->z = 0x7F + x_raw; } else { u16 x_raw = (jc_cal_ctx.crx_min - jc_pad->rstick_x) / 7; if (x_raw > 0x7F) x_raw = 0x7F; rpt->z = 0x7F - x_raw; } if (jc_pad->rstick_y <= jc_cal_ctx.cry_max && jc_pad->rstick_y >= jc_cal_ctx.cry_min) rpt->rz = 0x7F; else if (jc_pad->rstick_y > jc_cal_ctx.cry_max) { u16 y_raw = (jc_pad->rstick_y - jc_cal_ctx.cry_max) / 7; if (y_raw > 0x7F) y_raw = 0x7F; // Hoag has inverted Y axis. if (!jc_pad->sio_mode) rpt->rz = 0x7F - y_raw; else rpt->rz = 0x7F + y_raw; } else { u16 y_raw = (jc_cal_ctx.cry_min - jc_pad->rstick_y) / 7; if (y_raw > 0x7F) y_raw = 0x7F; // Hoag has inverted Y axis. if (!jc_pad->sio_mode) rpt->rz = 0x7F + y_raw; else rpt->rz = 0x7F - y_raw; } // Set D-pad. switch ((jc_pad->buttons >> 16) & 0xF) { case 0: // none rpt->hat = 0xF; break; case 1: // down rpt->hat = 4; break; case 2: // up rpt->hat = 0; break; case 4: // right rpt->hat = 2; break; case 5: // down + right rpt->hat = 3; break; case 6: // up + right rpt->hat = 1; break; case 8: // left rpt->hat = 6; break; case 9: // down + left rpt->hat = 5; break; case 10: // up + left rpt->hat = 7; break; default: rpt->hat = 0xF; break; } // Set buttons. rpt->btn1 = jc_pad->b; // x. rpt->btn2 = jc_pad->a; // a. rpt->btn3 = jc_pad->y; // b. rpt->btn4 = jc_pad->x; // y. rpt->btn5 = jc_pad->l; rpt->btn6 = jc_pad->r; rpt->btn7 = jc_pad->zl; rpt->btn8 = jc_pad->zr; rpt->btn9 = jc_pad->minus; rpt->btn10 = jc_pad->plus; rpt->btn11 = jc_pad->l3; rpt->btn12 = jc_pad->r3; //rpt->btn13 = jc_pad->cap; //rpt->btn14 = jc_pad->home; if (!memcmp(rpt, &prev_rpt, sizeof(gamepad_report_t))) return INPUT_POLL_NO_PACKET; memcpy(&prev_rpt, rpt, sizeof(gamepad_report_t)); return INPUT_POLL_HAS_PACKET; } typedef struct _touchpad_report_t { u8 rpt_id; u8 tip_switch:1; u8 count:7; u8 id; //u16 z; u16 x; u16 y; } __attribute__((packed)) touchpad_report_t; static bool _fts_touch_read(touchpad_report_t *rpt) { static touch_event_t touchpad; if (touch_poll(&touchpad)) return false; rpt->rpt_id = 5; rpt->count = 1; // Decide touch enable. if (touchpad.touch) { rpt->x = touchpad.x; rpt->y = touchpad.y; //rpt->z = touchpad.z; rpt->id = touchpad.finger; rpt->tip_switch = 1; } else { rpt->x = touchpad.x; rpt->y = touchpad.y; //rpt->z = touchpad.z; rpt->id = touchpad.finger; rpt->tip_switch = 0; } return true; } static u8 _hid_transfer_start(usb_ctxt_t *usbs, u32 len) { u8 status = usb_ops.usb_device_ep1_in_write(rpt_buffer, len, NULL, USB_XFER_SYNCED_CMD); if (status == USB_ERROR_XFER_ERROR) { usbs->set_text(usbs->label, "#FFDD00 Error:# EP IN transfer!"); if (usb_ops.usbd_flush_endpoint) usb_ops.usbd_flush_endpoint(USB_EP_BULK_IN); } // Linux mitigation: If timed out, clear status. if (status == USB_ERROR_TIMEOUT) return 0; return status; } static bool _hid_poll_jc(usb_ctxt_t *usbs) { int res = _jc_poll(rpt_buffer); if (res == INPUT_POLL_EXIT) return true; // Send HID report. if (res == INPUT_POLL_HAS_PACKET || usbs->idle) if (_hid_transfer_start(usbs, sizeof(gamepad_report_t))) return true; // EP Error. return false; } static bool _hid_poll_touch(usb_ctxt_t *usbs) { _fts_touch_read(rpt_buffer); // Send HID report. if (_hid_transfer_start(usbs, sizeof(touchpad_report_t))) return true; // EP Error. return false; } int usb_device_gadget_hid(usb_ctxt_t *usbs) { int res = 0; u32 gadget_type; u32 polling_time; // Get USB Controller ops. if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210) usb_device_get_ops(&usb_ops); else xusb_device_get_ops(&usb_ops); // Always push packets by default. //! TODO: For now only per polling rate or on change is supported. usbs->idle = 1; if (usbs->type == USB_HID_GAMEPAD) { polling_time = 15000; gadget_type = USB_GADGET_HID_GAMEPAD; } else { polling_time = 4000; gadget_type = USB_GADGET_HID_TOUCHPAD; } usbs->set_text(usbs->label, "#C7EA46 Status:# Started USB"); if (usb_ops.usb_device_init()) { usb_ops.usbd_end(false, true); return 1; } usbs->set_text(usbs->label, "#C7EA46 Status:# Waiting for connection"); // Initialize Control Endpoint. if (usb_ops.usb_device_enumerate(gadget_type)) goto error; usbs->set_text(usbs->label, "#C7EA46 Status:# Waiting for HID report request"); u32 rpt_size = usbs->type == USB_HID_GAMEPAD ? sizeof(gamepad_report_t) : sizeof(touchpad_report_t); if (usb_ops.usb_device_class_send_hid_report(rpt_buffer, rpt_size)) goto error; usbs->set_text(usbs->label, "#C7EA46 Status:# Started HID emulation"); u32 timer_sys = get_tmr_ms() + 5000; while (true) { u32 timer = get_tmr_us(); // Check for suspended USB in case the cable was pulled. if (usb_ops.usb_device_get_suspended()) break; // Disconnected. // Handle control endpoint. usb_ops.usbd_handle_ep0_ctrl_setup(&usbs->idle); // Parse input device. if (usbs->type == USB_HID_GAMEPAD) { if (_hid_poll_jc(usbs)) break; } else { if (_hid_poll_touch(usbs)) break; } // Wait max gadget timing. timer = get_tmr_us() - timer; if (timer < polling_time) usleep(polling_time - timer); if (timer_sys < get_tmr_ms()) { usbs->system_maintenance(true); timer_sys = get_tmr_ms() + 5000; } } usbs->set_text(usbs->label, "#C7EA46 Status:# HID ended"); goto exit; error: usbs->set_text(usbs->label, "#FFDD00 Error:# Timed out or canceled"); res = 1; exit: usb_ops.usbd_end(true, false); return res; } ================================================ FILE: bdk/usb/usb_gadget_ums.c ================================================ /* * USB Gadget UMS driver for Tegra X1 * * Copyright (c) 2003-2008 Alan Stern * Copyright (c) 2009 Samsung Electronics * Author: Michal Nazarewicz * Copyright (c) 2019-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include //#define DPRINTF(...) gfx_printf(__VA_ARGS__) #define DPRINTF(...) #define UMS_MAX_LUN 1 // Only 1 disk/partition for now. #define USB_BULK_CB_WRAP_LEN 31 #define USB_BULK_CB_SIG 0x43425355 // USBC. #define USB_BULK_IN_FLAG 0x80 #define USB_BULK_CS_WRAP_LEN 13 #define USB_BULK_CS_SIG 0x53425355 // USBS. #define USB_STATUS_PASS 0 #define USB_STATUS_FAIL 1 #define USB_STATUS_PHASE_ERROR 2 #define UMS_DISK_LBA_SHIFT 9 #define UMS_DISK_LBA_SIZE (1 << UMS_DISK_LBA_SHIFT) #define UMS_DISK_MAX_IO_TRANSFER_64K (USB_EP_BUFFER_MAX_SIZE >> UMS_DISK_LBA_SHIFT) #define UMS_DISK_MAX_IO_TRANSFER_32K (UMS_DISK_MAX_IO_TRANSFER_64K / 2) #define UMS_SCSI_TRANSFER_512K (0x80000 >> UMS_DISK_LBA_SHIFT) #define UMS_EP_OUT_MAX_XFER (USB_EP_BULK_OUT_MAX_XFER) // Length of a SCSI Command Data Block. #define SCSI_MAX_CMD_SZ 16 // SCSI device types #define SCSI_TYPE_DISK 0x00 // SCSI commands. #define SC_FORMAT_UNIT 0x04 #define SC_INQUIRY 0x12 #define SC_LOG_SENSE 0x4D #define SC_MODE_SELECT_6 0x15 #define SC_MODE_SELECT_10 0x55 #define SC_MODE_SENSE_6 0x1A #define SC_MODE_SENSE_10 0x5A #define SC_PREVENT_ALLOW_MEDIUM_REMOVAL 0x1E #define SC_READ_6 0x08 #define SC_READ_10 0x28 #define SC_READ_12 0xA8 #define SC_READ_CAPACITY 0x25 #define SC_READ_FORMAT_CAPACITIES 0x23 #define SC_READ_HEADER 0x44 #define SC_READ_TOC 0x43 #define SC_RELEASE 0x17 #define SC_REQUEST_SENSE 0x03 #define SC_RESERVE 0x16 #define SC_SEND_DIAGNOSTIC 0x1D #define SC_START_STOP_UNIT 0x1B #define SC_SYNCHRONIZE_CACHE 0x35 #define SC_TEST_UNIT_READY 0x00 #define SC_VERIFY 0x2F #define SC_WRITE_6 0x0A #define SC_WRITE_10 0x2A #define SC_WRITE_12 0xAA // SCSI Sense Key/Additional Sense Code/ASC Qualifier values. #define SS_NO_SENSE 0x0 #define SS_COMMUNICATION_FAILURE 0x40800 #define SS_INVALID_COMMAND 0x52000 #define SS_INVALID_FIELD_IN_CDB 0x52400 #define SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE 0x52100 #define SS_MEDIUM_NOT_PRESENT 0x23A00 #define SS_MEDIUM_REMOVAL_PREVENTED 0x55302 #define SS_NOT_READY_TO_READY_TRANSITION 0x62800 #define SS_RESET_OCCURRED 0x62900 #define SS_SAVING_PARAMETERS_NOT_SUPPORTED 0x53900 #define SS_UNRECOVERED_READ_ERROR 0x31100 #define SS_WRITE_ERROR 0x30C02 #define SS_WRITE_PROTECTED 0x72700 #define SK(x) ((u8) ((x) >> 16)) // Sense Key byte, etc. #define ASC(x) ((u8) ((x) >> 8)) #define ASCQ(x) ((u8) (x)) enum ums_state { UMS_STATE_NORMAL = 0, UMS_STATE_ABORT_BULK_OUT, UMS_STATE_PROTOCOL_RESET, UMS_STATE_EXIT, UMS_STATE_TERMINATED }; enum ums_result { UMS_RES_OK = 0, UMS_RES_IO_ERROR = -5, UMS_RES_TIMEOUT = -3, UMS_RES_PROT_FATAL = -4, UMS_RES_INVALID_ARG = -22 }; enum data_direction { DATA_DIR_UNKNOWN = 0, DATA_DIR_FROM_HOST, DATA_DIR_TO_HOST, DATA_DIR_NONE }; enum buffer_state { BUF_STATE_EMPTY = 0, BUF_STATE_FULL, BUF_STATE_BUSY }; typedef struct _bulk_recv_pkt_t { u32 Signature; // 'USBC'. u32 Tag; // Unique per command id. u32 DataTransferLength; // Size of the data. u8 Flags; // Direction in bit 7. u8 Lun; // LUN (normally 0). u8 Length; // Of the CDB, <= SCSI_MAX_CMD_SZ. u8 CDB[16]; // Command Data Block. } bulk_recv_pkt_t; typedef struct _bulk_send_pkt_t { u32 Signature; // 'USBS'. u32 Tag; // Same as original command. u32 Residue; // Amount not transferred. u8 Status; } bulk_send_pkt_t; typedef struct _logical_unit_t { sdmmc_t *sdmmc; sdmmc_storage_t *storage; u32 num_sectors; u32 offset; int unmounted; u32 ro; u32 type; u32 partition; u32 removable; u32 prevent_medium_removal; u32 info_valid; u32 sense_data; u32 sense_data_info; u32 unit_attention_data; } logical_unit_t; typedef struct _bulk_ctxt_t { u32 bulk_in; int bulk_in_status; u32 bulk_in_length; u32 bulk_in_length_actual; u8 *bulk_in_buf; enum buffer_state bulk_in_buf_state; u32 bulk_out; int bulk_out_status; u32 bulk_out_length; u32 bulk_out_length_actual; int bulk_out_ignore; u8 *bulk_out_buf; enum buffer_state bulk_out_buf_state; } bulk_ctxt_t; typedef struct _usbd_gadget_ums_t { bulk_ctxt_t bulk_ctxt; u32 cmnd_size; u8 cmnd[SCSI_MAX_CMD_SZ]; u32 lun_idx; // lun index logical_unit_t lun; enum ums_state state; // For exception handling. enum data_direction data_dir; u32 data_size; u32 data_size_from_cmnd; u32 tag; u32 residue; u32 usb_amount_left; bool cbw_req_queued; u32 phase_error; u32 short_packet_received; int thread_wakeup_needed; int can_stall; u32 timeouts; bool xusb; void (*system_maintenance)(bool); void *label; void (*set_text)(void *, const char *); } usbd_gadget_ums_t; static usb_ops_t usb_ops; static inline void put_array_le_to_be16(u16 val, void *p) { u8 *_p = p; _p[0] = val >> 8; _p[1] = val; } static inline void put_array_le_to_be32(u32 val, void *p) { u8 *_p = p; _p[0] = val >> 24; _p[1] = val >> 16; _p[2] = val >> 8; _p[3] = val; } static inline u16 get_array_be_to_le16(const void *p) { const u8 *_p = p; u16 val = _p[0] << 8 | _p[1]; return val; } static inline u32 get_array_be_to_le24(const void *p) { const u8 *_p = p; u32 val = (_p[0] << 16) | (_p[1] << 8) | _p[2]; return val; } static inline u32 get_array_be_to_le32(const void *p) { const u8 *_p = p; u32 val = (_p[0] << 24) | (_p[1] << 16) | (_p[2] << 8) | _p[3]; return val; } static void raise_exception(usbd_gadget_ums_t *ums, enum ums_state new_state) { /* Do nothing if a higher-priority exception is already in progress. * If a lower-or-equal priority exception is in progress, preempt it * and notify the main thread by sending it a signal. */ if (ums->state <= new_state) { ums->state = new_state; ums->thread_wakeup_needed = 1; } } static void _handle_ep0_ctrl(usbd_gadget_ums_t *ums) { if (usb_ops.usbd_handle_ep0_ctrl_setup(NULL)) raise_exception(ums, UMS_STATE_PROTOCOL_RESET); } static int _wedge_bulk_in_endpoint(usbd_gadget_ums_t *ums) { /* usbd_set_ep_wedge(bulk_ctxt->bulk_in); */ return UMS_RES_OK; } static int _set_ep_stall(u32 ep) { usb_ops.usbd_set_ep_stall(ep, USB_EP_CFG_STALL); return UMS_RES_OK; } static int _clear_ep_stall(u32 ep) { usb_ops.usbd_set_ep_stall(ep, USB_EP_CFG_CLEAR); return UMS_RES_OK; } static void _flush_endpoint(u32 ep) { if (usb_ops.usbd_flush_endpoint) usb_ops.usbd_flush_endpoint(ep); } static void _transfer_start(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt, u32 ep, u32 sync_timeout) { if (ep == bulk_ctxt->bulk_in) { bulk_ctxt->bulk_in_status = usb_ops.usb_device_ep1_in_write( bulk_ctxt->bulk_in_buf, bulk_ctxt->bulk_in_length, &bulk_ctxt->bulk_in_length_actual, sync_timeout); if (bulk_ctxt->bulk_in_status == USB_ERROR_XFER_ERROR) { ums->set_text(ums->label, "#FFDD00 Error:# EP IN transfer!"); _flush_endpoint(bulk_ctxt->bulk_in); } else if (bulk_ctxt->bulk_in_status == USB2_ERROR_XFER_NOT_ALIGNED) ums->set_text(ums->label, "#FFDD00 Error:# EP IN Buffer not aligned!"); if (sync_timeout) bulk_ctxt->bulk_in_buf_state = BUF_STATE_EMPTY; } else { bulk_ctxt->bulk_out_status = usb_ops.usb_device_ep1_out_read( bulk_ctxt->bulk_out_buf, bulk_ctxt->bulk_out_length, &bulk_ctxt->bulk_out_length_actual, sync_timeout); if (bulk_ctxt->bulk_out_status == USB_ERROR_XFER_ERROR) { ums->set_text(ums->label, "#FFDD00 Error:# EP OUT transfer!"); _flush_endpoint(bulk_ctxt->bulk_out); } else if (bulk_ctxt->bulk_out_status == USB2_ERROR_XFER_NOT_ALIGNED) ums->set_text(ums->label, "#FFDD00 Error:# EP OUT Buffer not aligned!"); if (sync_timeout) bulk_ctxt->bulk_out_buf_state = BUF_STATE_FULL; } } static void _transfer_out_big_read(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { bulk_ctxt->bulk_out_status = usb_ops.usb_device_ep1_out_read_big( bulk_ctxt->bulk_out_buf, bulk_ctxt->bulk_out_length, &bulk_ctxt->bulk_out_length_actual); if (bulk_ctxt->bulk_out_status == USB_ERROR_XFER_ERROR) { ums->set_text(ums->label, "#FFDD00 Error:# EP OUT transfer!"); _flush_endpoint(bulk_ctxt->bulk_out); } bulk_ctxt->bulk_out_buf_state = BUF_STATE_FULL; } static void _transfer_finish(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt, u32 ep, u32 sync_timeout) { if (ep == bulk_ctxt->bulk_in) { bulk_ctxt->bulk_in_status = usb_ops.usb_device_ep1_in_writing_finish( &bulk_ctxt->bulk_in_length_actual, sync_timeout); if (bulk_ctxt->bulk_in_status == USB_ERROR_XFER_ERROR) { ums->set_text(ums->label, "#FFDD00 Error:# EP IN transfer!"); _flush_endpoint(bulk_ctxt->bulk_in); } bulk_ctxt->bulk_in_buf_state = BUF_STATE_EMPTY; } else { bulk_ctxt->bulk_out_status = usb_ops.usb_device_ep1_out_reading_finish( &bulk_ctxt->bulk_out_length_actual, sync_timeout); if (bulk_ctxt->bulk_out_status == USB_ERROR_XFER_ERROR) { ums->set_text(ums->label, "#FFDD00 Error:# EP OUT transfer!"); _flush_endpoint(bulk_ctxt->bulk_out); } bulk_ctxt->bulk_out_buf_state = BUF_STATE_FULL; } } static void _reset_buffer(bulk_ctxt_t *bulk_ctxt, u32 ep) { if (ep == bulk_ctxt->bulk_in) bulk_ctxt->bulk_in_buf = (u8 *)USB_EP_BULK_IN_BUF_ADDR; else bulk_ctxt->bulk_out_buf = (u8 *)USB_EP_BULK_OUT_BUF_ADDR; } /* * The following are old data based on max 64KB SCSI transfers. * The endpoint xfer is actually 41.2 MB/s and SD card max 39.2 MB/s, with higher SCSI * transfers, but the concurrency still helps and increases speeds by 20%. * * Concurrency of the SDMMC and USB xfers is very important with no cache. * The worst offender being the SD card. We are already limited by bus, so * concurrency helps minimize the SDMMC overhead. * Max achieved bulk endpoint rate on a Tegra X1 and USB2.0 is 39.4 MB/s. * * USB bulk endpoint raw max transfer rate: * 39.4MB/S - SCSI 128KB. * 38.2MB/s - SCSI 64KB. * * 128 KB, 64 KB, 32 KB, 16 KB, 8 KB - Internal SDMMC I\O Sizes * ------------------------------------------------------------------------------------- * eMMC - Toshiba - 4MB reads: 314.8 MB/s: * 225.9 MB/s, 168.6 MB/s, 114.7 MB/s, 86.4 MB/s, 50.3 MB/s - RAW SDMMC. * 33.5 MB/s, 31.9 MB/s, 29.3 MB/s, 27.1 MB/s, 22.1 MB/s - SCSI 128KB, No concurrency. * 33.5 MB/s, 35.3 MB/s, 36.3 MB/s, 37.3 MB/s, 37.8 MB/s - SCSI 128KB, Concurrency. * --.- --/-, 31.1 MB/s, 28.7 MB/s, 26.5 MB/s, 21.7 MB/s - SCSI 64KB, No concurrency. * --.- --/-, 31.1 MB/s, 32.7 MB/s, 34.4 MB/s, 35.0 MB/s - SCSI 64KB, Concurrency. * * SD Card - Samsung Evo+ 128GB - 4MB reads: 91.6 MB/s: * 72.6 MB/s, 62.8 MB/s, 47.4 MB/s, 31.1 MB/s, 18.5 MB/s - RAW SDMMC. * 25.5 MB/s, 24.2 MB/s, 21.5 MB/s, 17.4 MB/s, 12.6 MB/s - SCSI 128KB, No concurrency. * 25.5 MB/s, 30.0 MB/s, 32.6 MB/s, 28.3 MB/s, 18.0 MB/s - SCSI 128KB, Concurrency. * --.- --/-, 23.8 MB/s, 21.2 MB/s, 17.1 MB/s, 12.5 MB/s - SCSI 64KB, No concurrency. * --.- --/-, 23.8 MB/s, 27.2 MB/s, 25.8 MB/s, 17.5 MB/s - SCSI 64KB, Concurrency. */ static int _scsi_read(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { u32 lba_offset; bool first_read = true; u8 *sdmmc_buf = (u8 *)SDXC_BUF_ALIGNED; // Get the starting LBA and check that it's not too big. if (ums->cmnd[0] == SC_READ_6) lba_offset = get_array_be_to_le24(&ums->cmnd[1]); else { lba_offset = get_array_be_to_le32(&ums->cmnd[2]); // We allow DPO and FUA bypass cache bits, but we don't use them. if ((ums->cmnd[1] & ~0x18) != 0) { ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB; return UMS_RES_INVALID_ARG; } } if (lba_offset >= ums->lun.num_sectors) { ums->set_text(ums->label, "#FF8000 Warn:# Read - Out of range! Host notified."); ums->lun.sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE; return UMS_RES_INVALID_ARG; } // Check that request data size is not 0. u32 amount_left = ums->data_size_from_cmnd >> UMS_DISK_LBA_SHIFT; if (!amount_left) return UMS_RES_IO_ERROR; // No default reply. // Limit IO transfers based on request for faster concurrent reads. u32 max_io_transfer = (amount_left >= UMS_SCSI_TRANSFER_512K) ? UMS_DISK_MAX_IO_TRANSFER_64K : UMS_DISK_MAX_IO_TRANSFER_32K; while (true) { // Max io size and end sector limits. u32 amount = MIN(amount_left, max_io_transfer); amount = MIN(amount, ums->lun.num_sectors - lba_offset); // Check if it is a read past the end sector. if (!amount) { ums->lun.sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE; ums->lun.sense_data_info = lba_offset; ums->lun.info_valid = 1; bulk_ctxt->bulk_in_length = 0; bulk_ctxt->bulk_in_buf_state = BUF_STATE_FULL; break; } // Do the SDMMC read. if (sdmmc_storage_read(ums->lun.storage, ums->lun.offset + lba_offset, amount, sdmmc_buf)) amount = 0; // Wait for the async USB transfer to finish. if (!first_read) _transfer_finish(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED); lba_offset += amount; amount_left -= amount; ums->residue -= amount << UMS_DISK_LBA_SHIFT; bulk_ctxt->bulk_in_length = amount << UMS_DISK_LBA_SHIFT; bulk_ctxt->bulk_in_buf_state = BUF_STATE_FULL; bulk_ctxt->bulk_in_buf = sdmmc_buf; // If an error occurred, report it and its position. if (!amount) { ums->set_text(ums->label, "#FFDD00 Error:# SDMMC Read!"); ums->lun.sense_data = SS_UNRECOVERED_READ_ERROR; ums->lun.sense_data_info = lba_offset; ums->lun.info_valid = 1; break; } // Last SDMMC read. Last part will be sent by the finish reply function. if (!amount_left) break; // Start the USB transfer. _transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_START); first_read = false; // Increment our buffer to read new data. sdmmc_buf += amount << UMS_DISK_LBA_SHIFT; } return UMS_RES_IO_ERROR; // No default reply. } /* * Writes are another story. * Tests showed that big writes are faster than concurrent 32K usb reads + writes. * The only thing that can help here is caching the writes. But for the simplicity * of this implementation it will not be implemented yet. */ static int _scsi_write(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { static char txt_buf[256]; u32 amount_left_to_req, amount_left_to_write; u32 usb_lba_offset, lba_offset; u32 amount; if (ums->lun.ro) { ums->set_text(ums->label, "#FF8000 Warn:# Write - Read only! Host notified."); ums->lun.sense_data = SS_WRITE_PROTECTED; return UMS_RES_INVALID_ARG; } if (ums->cmnd[0] == SC_WRITE_6) lba_offset = get_array_be_to_le24(&ums->cmnd[1]); else { lba_offset = get_array_be_to_le32(&ums->cmnd[2]); // We allow DPO and FUA bypass cache bits. We only implement FUA by performing synchronous output. if (ums->cmnd[1] & ~0x18) { ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB; return UMS_RES_INVALID_ARG; } } // Check that starting LBA is not past the end sector offset. if (lba_offset >= ums->lun.num_sectors) { ums->set_text(ums->label, "#FF8000 Warn:# Write - Out of range! Host notified."); ums->lun.sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE; return UMS_RES_INVALID_ARG; } // Carry out the file writes. usb_lba_offset = lba_offset; amount_left_to_req = ums->data_size_from_cmnd; amount_left_to_write = ums->data_size_from_cmnd; while (amount_left_to_write > 0) { // Queue a request for more data from the host. if (amount_left_to_req > 0) { // Limit write to max supported read from EP OUT. amount = MIN(amount_left_to_req, UMS_EP_OUT_MAX_XFER); if (usb_lba_offset >= ums->lun.num_sectors) { ums->set_text(ums->label, "#FFDD00 Error:# Write - Past last sector!"); ums->lun.sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE; ums->lun.sense_data_info = usb_lba_offset; ums->lun.info_valid = 1; break; } // Get the next buffer. usb_lba_offset += amount >> UMS_DISK_LBA_SHIFT; ums->usb_amount_left -= amount; amount_left_to_req -= amount; bulk_ctxt->bulk_out_length = amount; _transfer_out_big_read(ums, bulk_ctxt); } if (bulk_ctxt->bulk_out_buf_state == BUF_STATE_FULL) { bulk_ctxt->bulk_out_buf_state = BUF_STATE_EMPTY; // Did something go wrong with the transfer?. if (bulk_ctxt->bulk_out_status != 0) { ums->lun.sense_data = SS_COMMUNICATION_FAILURE; ums->lun.sense_data_info = lba_offset; ums->lun.info_valid = 1; s_printf(txt_buf, "#FFDD00 Error:# Write - Comm failure %d!", bulk_ctxt->bulk_out_status); ums->set_text(ums->label, txt_buf); break; } amount = bulk_ctxt->bulk_out_length_actual; if ((ums->lun.num_sectors - lba_offset) < (amount >> UMS_DISK_LBA_SHIFT)) { DPRINTF("write %X @ %X beyond end %X\n", amount, lba_offset, ums->lun.num_sectors); amount = (ums->lun.num_sectors - lba_offset) << UMS_DISK_LBA_SHIFT; } /* * Don't accept excess data. The spec doesn't say * what to do in this case. We'll ignore the error. */ amount = MIN(amount, bulk_ctxt->bulk_out_length); // Don't write a partial block. amount -= (amount & 511); if (amount == 0) goto empty_write; // Perform the write. if (sdmmc_storage_write(ums->lun.storage, ums->lun.offset + lba_offset, amount >> UMS_DISK_LBA_SHIFT, (u8 *)bulk_ctxt->bulk_out_buf)) amount = 0; DPRINTF("file write %X @ %X\n", amount, lba_offset); lba_offset += amount >> UMS_DISK_LBA_SHIFT; amount_left_to_write -= amount; ums->residue -= amount; // If an error occurred, report it and its position. if (!amount) { ums->set_text(ums->label, "#FFDD00 Error:# SDMMC Write!"); ums->lun.sense_data = SS_WRITE_ERROR; ums->lun.sense_data_info = lba_offset; ums->lun.info_valid = 1; break; } empty_write: // Did the host decide to stop early? if (bulk_ctxt->bulk_out_length_actual < bulk_ctxt->bulk_out_length) { ums->set_text(ums->label, "#FFDD00 Error:# Empty Write!"); ums->short_packet_received = 1; break; } } } return UMS_RES_IO_ERROR; // No default reply. } static int _scsi_verify(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { // Check that start LBA is past the end sector offset. u32 lba_offset = get_array_be_to_le32(&ums->cmnd[2]); if (lba_offset >= ums->lun.num_sectors) { ums->set_text(ums->label, "#FF8000 Warn:# Verif - Out of range! Host notified."); ums->lun.sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE; return UMS_RES_INVALID_ARG; } // We allow DPO but we don't implement it. Check that nothing else is enabled. if (ums->cmnd[1] & ~0x10) { ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB; return UMS_RES_INVALID_ARG; } u32 verification_length = get_array_be_to_le16(&ums->cmnd[7]); if (verification_length == 0) return UMS_RES_IO_ERROR; // No default reply. u32 amount; while (verification_length > 0) { // Limit to EP buffer size and end sector offset. amount = MIN(verification_length, USB_EP_BUFFER_MAX_SIZE >> UMS_DISK_LBA_SHIFT); amount = MIN(amount, ums->lun.num_sectors - lba_offset); if (amount == 0) { ums->lun.sense_data = SS_LOGICAL_BLOCK_ADDRESS_OUT_OF_RANGE; ums->lun.sense_data_info = lba_offset; ums->lun.info_valid = 1; break; } if (sdmmc_storage_read(ums->lun.storage, ums->lun.offset + lba_offset, amount, bulk_ctxt->bulk_in_buf)) amount = 0; DPRINTF("File read %X @ %X\n", amount, lba_offset); if (!amount) { ums->set_text(ums->label, "#FFDD00 Error:# File verify!"); ums->lun.sense_data = SS_UNRECOVERED_READ_ERROR; ums->lun.sense_data_info = lba_offset; ums->lun.info_valid = 1; break; } lba_offset += amount; verification_length -= amount; } return UMS_RES_OK; } static int _scsi_inquiry(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { u8 *buf = (u8 *)bulk_ctxt->bulk_in_buf; memset(buf, 0, 36); // Enable Vital Product Data (EVPD) and Unit Serial Number. if (ums->cmnd[1] == 1 && ums->cmnd[2] == 0x80) { buf[0] = 0; buf[1] = ums->cmnd[2]; buf[2] = 0; buf[3] = 20; // Additional length. buf += 4; s_printf((char *)buf, "%04X%s", ums->lun.storage->cid.serial, ums->lun.type == MMC_SD ? " SD " : " eMMC "); switch (ums->lun.partition) { case 0: strcpy((char *)buf + strlen((char *)buf), "RAW"); break; case EMMC_GPP + 1: s_printf((char *)buf + strlen((char *)buf), "GPP"); break; case EMMC_BOOT0 + 1: s_printf((char *)buf + strlen((char *)buf), "BOOT0"); break; case EMMC_BOOT1 + 1: s_printf((char *)buf + strlen((char *)buf), "BOOT1"); break; } for (u32 i = strlen((char *)buf); i < 20; i++) buf[i] = ' '; return 24; } else /* if (ums->cmnd[1] == 0 && ums->cmnd[2] == 0) */ // Standard inquiry. { buf[0] = SCSI_TYPE_DISK; buf[1] = ums->lun.removable ? 0x80 : 0; buf[2] = 6; // ANSI INCITS 351-2001 (SPC-2).////////SPC2: 4, SPC4: 6 buf[3] = 2; // SCSI-2 INQUIRY data format. buf[4] = 31; // Additional length. // buf5-7: No special options. // Vendor ID. Max 8 chars. buf += 8; strcpy((char *)buf, "hekate"); // Product ID. Max 16 chars. buf += 8; switch (ums->lun.partition) { case 0: s_printf((char *)buf, "%s", "SD RAW"); break; case EMMC_GPP + 1: s_printf((char *)buf, "%s%s", ums->lun.type == MMC_SD ? "SD " : "eMMC ", "GPP"); break; case EMMC_BOOT0 + 1: s_printf((char *)buf, "%s%s", ums->lun.type == MMC_SD ? "SD " : "eMMC ", "BOOT0"); break; case EMMC_BOOT1 + 1: s_printf((char *)buf, "%s%s", ums->lun.type == MMC_SD ? "SD " : "eMMC ", "BOOT1"); break; } // Rev ID. Max 4 chars. buf += 16; strcpy((char *)buf, "1.00"); return 36; } } static int _scsi_request_sense(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { u8 *buf = (u8 *)bulk_ctxt->bulk_in_buf; u32 sd, sdinfo; int valid; sd = ums->lun.sense_data; sdinfo = ums->lun.sense_data_info; valid = ums->lun.info_valid << 7; ums->lun.sense_data = SS_NO_SENSE; ums->lun.sense_data_info = 0; ums->lun.info_valid = 0; memset(buf, 0, 18); buf[0] = valid | 0x70; // Valid, current error. buf[2] = SK(sd); put_array_le_to_be32(sdinfo, &buf[3]); // Sense information. buf[7] = 18 - 8; // Additional sense length. buf[12] = ASC(sd); buf[13] = ASCQ(sd); return 18; } static int _scsi_read_capacity(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { u8 *buf = (u8 *)bulk_ctxt->bulk_in_buf; u32 lba = get_array_be_to_le32(&ums->cmnd[2]); int pmi = ums->cmnd[8]; // Check the PMI and LBA fields. if (pmi > 1 || (pmi == 0 && lba != 0)) { ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB; return UMS_RES_INVALID_ARG; } put_array_le_to_be32(ums->lun.num_sectors - 1, &buf[0]); // Max logical block. put_array_le_to_be32(UMS_DISK_LBA_SIZE, &buf[4]); // Block length. return 8; } static int _scsi_log_sense(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { u8 *buf = (u8 *)bulk_ctxt->bulk_in_buf; u8 *buf0 = buf; bool valid_page = false; u8 pc = ums->cmnd[2] >> 6; u8 page_code = ums->cmnd[2] & 0x3F; u8 sub_page_code = ums->cmnd[3]; if (ums->cmnd[1] & 1) { ums->lun.sense_data = SS_SAVING_PARAMETERS_NOT_SUPPORTED; return UMS_RES_INVALID_ARG; } if (pc != 1) // Current cumulative values. { ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB; return UMS_RES_INVALID_ARG; } memset(buf, 0, 8); if (page_code == 0x00 && !sub_page_code) // Supported pages. { valid_page = true; buf[0] = 0x00; // Page code. buf += 4; buf[0] = 0x00; // Page 0. buf[1] = 0x0D; // Page 1. buf += 2; } else if (page_code == 0x0d && !sub_page_code) // Temperature. { valid_page = true; buf[0] = 0x0D; buf += 4; put_array_le_to_be16(0, &buf[0]); // Param code. buf[2] = 1; // Param control byte. buf[3] = 2; // Param length. buf[4] = 0; // Reserved. buf[5] = 35; // Temperature (C) current (PCB here). put_array_le_to_be16(0, &buf[6]); // PARAMETER CODE buf[8] = 1; // Param control byte. buf[9] = 2; // Param length. buf[10] = 0; // Reserved. buf[11] = 60; // Temperature (C) reference. buf += 12; } // Check that a valid page mode data length was requested. u32 len = buf - buf0; if (!valid_page) { ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB; return UMS_RES_INVALID_ARG; } put_array_le_to_be16(len - 4, &buf0[2]); return len; } static int _scsi_mode_sense(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { u8 *buf = (u8 *)bulk_ctxt->bulk_in_buf; u8 *buf0 = buf; bool valid_page = false; u8 pc = ums->cmnd[2] >> 6; u8 page_code = ums->cmnd[2] & 0x3F; bool changeable_values = pc == 1; bool all_pages = page_code == 0x3F; if ((ums->cmnd[1] & ~0x08) != 0) // Mask away DBD. { ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB; return UMS_RES_INVALID_ARG; } if (pc == 3) { ums->lun.sense_data = SS_SAVING_PARAMETERS_NOT_SUPPORTED; return UMS_RES_INVALID_ARG; } /* Write the mode parameter header. Fixed values are: default * medium type, no cache control (DPOFUA), and no block descriptors. * The only variable value is the WriteProtect bit. We will fill in * the mode data length later. */ memset(buf, 0, 8); if (ums->cmnd[0] == SC_MODE_SENSE_6) { buf[2] = (ums->lun.ro ? 0x80 : 0x00); // WP, DPOFUA. buf += 4; } else // SC_MODE_SENSE_10. { buf[3] = (ums->lun.ro ? 0x80 : 0x00); // WP, DPOFUA. buf += 8; } // The only page we support is the Caching page. // What about x1C if (page_code == 0x08 || all_pages) { valid_page = true; buf[0] = 0x08; // Page code. buf[1] = 18; // Page length. memset(buf + 2, 0, 18); // Set all parameters to 0. // None of the fields are changeable. if (!changeable_values) { // Write Cache enable, Read Cache not disabled, Multiplication Factor off. buf[2] = 0x04; // Multiplication Factor is disabled, so all values below are 1x LBA. put_array_le_to_be16(0xFFFF, &buf[4]); // Disable Prefetch if >32MB. put_array_le_to_be16(0x0000, &buf[6]); // Minimum Prefetch 0MB. put_array_le_to_be16(0xFFFF, &buf[8]); // Maximum Prefetch 32MB. put_array_le_to_be16(0xFFFF, &buf[10]); // Maximum Prefetch ceiling 32MB. } buf += 20; } // Check that a valid page mode data length was requested. u32 len = buf - buf0; if (!valid_page) { ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB; return UMS_RES_INVALID_ARG; } // Store the mode data length. if (ums->cmnd[0] == SC_MODE_SENSE_6) buf0[0] = len - 1; else put_array_le_to_be16(len - 2, buf0); return len; } static int _scsi_start_stop(usbd_gadget_ums_t *ums) { int loej, start; if (!ums->lun.removable) { ums->lun.sense_data = SS_INVALID_COMMAND; return UMS_RES_INVALID_ARG; } else if ((ums->cmnd[1] & ~0x01) != 0 || // Mask away Immed. (ums->cmnd[4] & ~0x03) != 0) // Mask LoEj, Start. { ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB; return UMS_RES_INVALID_ARG; } loej = ums->cmnd[4] & 0x02; start = ums->cmnd[4] & 0x01; // We do not support re-mounting. if (start) { if (ums->lun.unmounted) { ums->lun.sense_data = SS_MEDIUM_NOT_PRESENT; return UMS_RES_INVALID_ARG; } return UMS_RES_OK; } // Check if we are allowed to unload the media. if (ums->lun.prevent_medium_removal) { ums->set_text(ums->label, "#C7EA46 Status:# Unload attempt prevented"); ums->lun.sense_data = SS_MEDIUM_REMOVAL_PREVENTED; return UMS_RES_INVALID_ARG; } if (!loej) return UMS_RES_OK; // Unmount means we exit UMS because of ejection. ums->lun.unmounted = 1; return UMS_RES_OK; } static int _scsi_prevent_allow_removal(usbd_gadget_ums_t *ums) { int prevent; if (!ums->lun.removable) { ums->lun.sense_data = SS_INVALID_COMMAND; return UMS_RES_INVALID_ARG; } prevent = ums->cmnd[4] & 0x01; if ((ums->cmnd[4] & ~0x01) != 0) // Mask away Prevent. { ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB; return UMS_RES_INVALID_ARG; } // Notify for possible unmounting? // Normally we sync here but we do synced writes to SDMMC. if (ums->lun.prevent_medium_removal && !prevent) { /* Do nothing */ } ums->lun.prevent_medium_removal = prevent; return UMS_RES_OK; } static int _scsi_read_format_capacities(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { u8 *buf = (u8 *)bulk_ctxt->bulk_in_buf; buf[0] = buf[1] = buf[2] = 0; buf[3] = 8; // Only the Current/Maximum Capacity Descriptor. buf += 4; put_array_le_to_be32(ums->lun.num_sectors, &buf[0]); // Number of blocks. put_array_le_to_be32(UMS_DISK_LBA_SIZE, &buf[4]); // Block length. buf[4] = 0x02; // Current capacity. return 12; } // Check whether the command is properly formed and whether its data size // and direction agree with the values we already have. static int _check_scsi_cmd(usbd_gadget_ums_t *ums, u32 cmnd_size, enum data_direction data_dir, u32 mask, int needs_medium) { //const char dirletter[4] = {'u', 'o', 'i', 'n'}; DPRINTF("SCSI command: %X; Dc=%d, D%c=%X; Hc=%d, H%c=%X\n", ums->cmnd[0], cmnd_size, dirletter[(int)ums->data_dir], ums->data_size_from_cmnd, ums->cmnd_size, dirletter[(int)data_dir], ums->data_size); // We can't reply if we don't know the direction and size. if (ums->data_size_from_cmnd == 0) data_dir = DATA_DIR_NONE; // This is a phase error but we continue and only transfer as much we can. if (ums->data_size < ums->data_size_from_cmnd) { ums->data_size_from_cmnd = ums->data_size; ums->phase_error = 1; } ums->residue = ums->data_size; ums->usb_amount_left = ums->data_size; if (ums->data_dir != data_dir && ums->data_size_from_cmnd > 0) { ums->phase_error = 1; return UMS_RES_INVALID_ARG; } // Cmd length verification. if (cmnd_size != ums->cmnd_size) { // Special case workaround for Windows and Xbox 360. if (cmnd_size <= ums->cmnd_size) cmnd_size = ums->cmnd_size; else { ums->phase_error = 1; return UMS_RES_INVALID_ARG; } } // check that LUN ums->cmnd[1] >> 5 is 0 because of only one. if (ums->cmnd[0] != SC_REQUEST_SENSE) { ums->lun.sense_data = SS_NO_SENSE; ums->lun.sense_data_info = 0; ums->lun.info_valid = 0; } // If a unit attention condition exists, only INQUIRY and REQUEST SENSE // commands are allowed. if (ums->lun.unit_attention_data != SS_NO_SENSE && ums->cmnd[0] != SC_INQUIRY && ums->cmnd[0] != SC_REQUEST_SENSE) { ums->lun.sense_data = ums->lun.unit_attention_data; ums->lun.unit_attention_data = SS_NO_SENSE; return UMS_RES_INVALID_ARG; } // Check that only command bytes listed in the mask are set. ums->cmnd[1] &= 0x1F; // Mask away the LUN. for (u32 i = 1; i < cmnd_size; ++i) { if (ums->cmnd[i] && !(mask & BIT(i))) { ums->lun.sense_data = SS_INVALID_FIELD_IN_CDB; return UMS_RES_INVALID_ARG; } } // If the medium isn't mounted and the command needs to access it, return an error. if (ums->lun.unmounted && needs_medium) { ums->lun.sense_data = SS_MEDIUM_NOT_PRESENT; return UMS_RES_INVALID_ARG; } return UMS_RES_OK; } static int _parse_scsi_cmd(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { u32 len; int reply = UMS_RES_INVALID_ARG; ums->phase_error = 0; ums->short_packet_received = 0; switch (ums->cmnd[0]) { case SC_INQUIRY: ums->data_size_from_cmnd = ums->cmnd[4]; u32 mask = (1<<4); if (ums->cmnd[1] == 1 && ums->cmnd[2] == 0x80) // Inquiry S/N. mask = (1<<1) | (1<<2) | (1<<4); reply = _check_scsi_cmd(ums, 6, DATA_DIR_TO_HOST, mask, 0); if (reply == 0) reply = _scsi_inquiry(ums, bulk_ctxt); break; case SC_LOG_SENSE: ums->data_size_from_cmnd = get_array_be_to_le16(&ums->cmnd[7]); reply = _check_scsi_cmd(ums, 10, DATA_DIR_TO_HOST, (1<<1) | (1<<2) | (3<<7), 0); if (reply == 0) reply = _scsi_log_sense(ums, bulk_ctxt); break; case SC_MODE_SELECT_6: ums->data_size_from_cmnd = ums->cmnd[4]; reply = _check_scsi_cmd(ums, 6, DATA_DIR_FROM_HOST, (1<<1) | (1<<4), 0); if (reply == 0) { // We don't support MODE SELECT. ums->lun.sense_data = SS_INVALID_COMMAND; reply = UMS_RES_INVALID_ARG; } break; case SC_MODE_SELECT_10: ums->data_size_from_cmnd = get_array_be_to_le16(&ums->cmnd[7]); reply = _check_scsi_cmd(ums, 10, DATA_DIR_FROM_HOST, (1<<1) | (3<<7), 0); if (reply == 0) { // We don't support MODE SELECT. ums->lun.sense_data = SS_INVALID_COMMAND; reply = UMS_RES_INVALID_ARG; } break; case SC_MODE_SENSE_6: ums->data_size_from_cmnd = ums->cmnd[4]; reply = _check_scsi_cmd(ums, 6, DATA_DIR_TO_HOST, (1<<1) | (1<<2) | (1<<4), 0); if (reply == 0) reply = _scsi_mode_sense(ums, bulk_ctxt); break; case SC_MODE_SENSE_10: ums->data_size_from_cmnd = get_array_be_to_le16(&ums->cmnd[7]); reply = _check_scsi_cmd(ums, 10, DATA_DIR_TO_HOST, (1<<1) | (1<<2) | (3<<7), 0); if (reply == 0) reply = _scsi_mode_sense(ums, bulk_ctxt); break; case SC_PREVENT_ALLOW_MEDIUM_REMOVAL: ums->data_size_from_cmnd = 0; reply = _check_scsi_cmd(ums, 6, DATA_DIR_NONE, (1<<4), 0); if (reply == 0) reply = _scsi_prevent_allow_removal(ums); break; case SC_READ_6: len = ums->cmnd[4]; ums->data_size_from_cmnd = (len == 0 ? 256 : len) << UMS_DISK_LBA_SHIFT; reply = _check_scsi_cmd(ums, 6, DATA_DIR_TO_HOST, (7<<1) | (1<<4), 1); if (reply == 0) reply = _scsi_read(ums, bulk_ctxt); break; case SC_READ_10: ums->data_size_from_cmnd = get_array_be_to_le16(&ums->cmnd[7]) << UMS_DISK_LBA_SHIFT; reply = _check_scsi_cmd(ums, 10, DATA_DIR_TO_HOST, (1<<1) | (0xf<<2) | (3<<7), 1); if (reply == 0) reply = _scsi_read(ums, bulk_ctxt); break; case SC_READ_12: ums->data_size_from_cmnd = get_array_be_to_le32(&ums->cmnd[6]) << UMS_DISK_LBA_SHIFT; reply = _check_scsi_cmd(ums, 12, DATA_DIR_TO_HOST, (1<<1) | (0xf<<2) | (0xf<<6), 1); if (reply == 0) reply = _scsi_read(ums, bulk_ctxt); break; case SC_READ_CAPACITY: ums->data_size_from_cmnd = 8; reply = _check_scsi_cmd(ums, 10, DATA_DIR_TO_HOST, (0xf<<2) | (1<<8), 1); if (reply == 0) reply = _scsi_read_capacity(ums, bulk_ctxt); break; case SC_READ_FORMAT_CAPACITIES: ums->data_size_from_cmnd = get_array_be_to_le16(&ums->cmnd[7]); reply = _check_scsi_cmd(ums, 10, DATA_DIR_TO_HOST, (3<<7), 1); if (reply == 0) reply = _scsi_read_format_capacities(ums, bulk_ctxt); break; case SC_REQUEST_SENSE: ums->data_size_from_cmnd = ums->cmnd[4]; reply = _check_scsi_cmd(ums, 6, DATA_DIR_TO_HOST, (1<<4), 0); if (reply == 0) reply = _scsi_request_sense(ums, bulk_ctxt); break; case SC_START_STOP_UNIT: ums->data_size_from_cmnd = 0; reply = _check_scsi_cmd(ums, 6, DATA_DIR_NONE, (1<<1) | (1<<4), 0); if (reply == 0) reply = _scsi_start_stop(ums); break; case SC_SYNCHRONIZE_CACHE: ums->data_size_from_cmnd = 0; reply = _check_scsi_cmd(ums, 10, DATA_DIR_NONE, (0xf<<2) | (3<<7), 1); if (reply == 0) reply = 0; // Don't bother break; case SC_TEST_UNIT_READY: ums->data_size_from_cmnd = 0; reply = _check_scsi_cmd(ums, 6, DATA_DIR_NONE, 0, 1); break; // This command is used by Windows. We support a minimal version and BytChk must be 0. case SC_VERIFY: ums->data_size_from_cmnd = 0; reply = _check_scsi_cmd(ums, 10, DATA_DIR_NONE, (1<<1) | (0xf<<2) | (3<<7), 1); if (reply == 0) reply = _scsi_verify(ums, bulk_ctxt); break; case SC_WRITE_6: len = ums->cmnd[4]; ums->data_size_from_cmnd = (len == 0 ? 256 : len) << UMS_DISK_LBA_SHIFT; reply = _check_scsi_cmd(ums, 6, DATA_DIR_FROM_HOST, (7<<1) | (1<<4), 1); if (reply == 0) reply = _scsi_write(ums, bulk_ctxt); break; case SC_WRITE_10: ums->data_size_from_cmnd = get_array_be_to_le16(&ums->cmnd[7]) << UMS_DISK_LBA_SHIFT; reply = _check_scsi_cmd(ums, 10, DATA_DIR_FROM_HOST, (1<<1) | (0xf<<2) | (3<<7), 1); if (reply == 0) reply = _scsi_write(ums, bulk_ctxt); break; case SC_WRITE_12: ums->data_size_from_cmnd = get_array_be_to_le32(&ums->cmnd[6]) << UMS_DISK_LBA_SHIFT; reply = _check_scsi_cmd(ums, 12, DATA_DIR_FROM_HOST, (1<<1) | (0xf<<2) | (0xf<<6), 1); if (reply == 0) reply = _scsi_write(ums, bulk_ctxt); break; // Mandatory commands that we don't implement. No need. case SC_READ_HEADER: case SC_READ_TOC: case SC_FORMAT_UNIT: case SC_RELEASE: case SC_RESERVE: case SC_SEND_DIAGNOSTIC: default: ums->data_size_from_cmnd = 0; reply = _check_scsi_cmd(ums, ums->cmnd_size, DATA_DIR_UNKNOWN, 0xFF, 0); if (reply == 0) { ums->lun.sense_data = SS_INVALID_COMMAND; reply = UMS_RES_INVALID_ARG; } break; } if (reply == UMS_RES_INVALID_ARG) reply = 0; // Error reply length. // Set up reply buffer for _finish_reply(). Otherwise it's already set. if (reply >= 0 && ums->data_dir == DATA_DIR_TO_HOST) { reply = MIN((u32)reply, ums->data_size_from_cmnd); bulk_ctxt->bulk_in_length = reply; bulk_ctxt->bulk_in_buf_state = BUF_STATE_FULL; ums->residue -= reply; } return UMS_RES_OK; } static int _pad_with_zeros(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { bulk_ctxt->bulk_in_buf_state = BUF_STATE_EMPTY; // For the first iteration. u32 current_len_to_keep = bulk_ctxt->bulk_in_length; ums->usb_amount_left = current_len_to_keep + ums->residue; while (ums->usb_amount_left > 0) { u32 nsend = MIN(ums->usb_amount_left, USB_EP_BUFFER_MAX_SIZE); memset(bulk_ctxt->bulk_in_buf + current_len_to_keep, 0, nsend - current_len_to_keep); bulk_ctxt->bulk_in_length = nsend; _transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED_DATA); ums->usb_amount_left -= nsend; current_len_to_keep = 0; } return UMS_RES_OK; } static int _throw_away_data(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { if (bulk_ctxt->bulk_out_buf_state != BUF_STATE_EMPTY || ums->usb_amount_left > 0) { // Try to submit another request if we need one. if (bulk_ctxt->bulk_out_buf_state == BUF_STATE_EMPTY && ums->usb_amount_left > 0) { u32 amount = MIN(ums->usb_amount_left, USB_EP_BUFFER_MAX_SIZE); bulk_ctxt->bulk_out_length = amount; _transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_out, USB_XFER_SYNCED_DATA); ums->usb_amount_left -= amount; return UMS_RES_OK; } // Throw away the data in a filled buffer. if (bulk_ctxt->bulk_out_buf_state == BUF_STATE_FULL) bulk_ctxt->bulk_out_buf_state = BUF_STATE_EMPTY; // A short packet or an error ends everything. if (bulk_ctxt->bulk_out_length_actual != bulk_ctxt->bulk_out_length || bulk_ctxt->bulk_out_status != USB_RES_OK) { raise_exception(ums, UMS_STATE_ABORT_BULK_OUT); return UMS_RES_PROT_FATAL; } } return UMS_RES_OK; } static int _finish_reply(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { int rc = UMS_RES_OK; switch (ums->data_dir) { case DATA_DIR_NONE: break; // Nothing to send. // If this is a CB or CBI with an unknown command, we mustn't // try to send or receive any data. Stall if we can and wait reset. case DATA_DIR_UNKNOWN: if (ums->can_stall) { _set_ep_stall(bulk_ctxt->bulk_out); rc = _set_ep_stall(bulk_ctxt->bulk_in); ums->set_text(ums->label, "#FFDD00 Error:# Direction unknown. Stalled both EP!"); } // Else do nothing. break; // All but the last buffer of data have already been sent. case DATA_DIR_TO_HOST: if (ums->data_size) { // If there's no residue, simply send the last buffer. if (!ums->residue) { _transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED_DATA); /* For Bulk-only, if we're allowed to stall then send the * short packet and halt the bulk-in endpoint. If we can't * stall, pad out the remaining data with 0's. */ } else if (ums->can_stall) { _transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED_DATA); rc = _set_ep_stall(bulk_ctxt->bulk_in); ums->set_text(ums->label, "#FFDD00 Error:# Residue. Stalled EP IN!"); } else rc = _pad_with_zeros(ums, bulk_ctxt); } // In case we used SDMMC transfer, reset the buffer address. _reset_buffer(bulk_ctxt, bulk_ctxt->bulk_in); break; // We have processed all we want from the data the host has sent. // There may still be outstanding bulk-out requests. case DATA_DIR_FROM_HOST: if (ums->residue) { if (ums->short_packet_received) // Did the host stop sending unexpectedly early? { raise_exception(ums, UMS_STATE_ABORT_BULK_OUT); rc = UMS_RES_PROT_FATAL; } else // We can't stall. Read in the excess data and throw it away. rc = _throw_away_data(ums, bulk_ctxt); } break; } return rc; } /* * Medium ejection heuristics. * * Windows: * Uses Start/Stop Unit. Only Stop with LoEj. Observed ONLY on very specific windows machines. * Uses Prevent/Allow Medium Removal. (For big reads and ANY write.) //////Except trivial writes. Needs check with prefetch ON * Sends Test Unit Ready every 1s at idle. (Needs 1 EP Timeout protection: 2s) * Does not send data when ejects. In the case it does, * it loops into Request Sense and Test Unit Ready when ejects. * Line always at SE0 and only goes in J-State when it ejects. * * Linux: * Uses Start/Stop Unit. Stops with LoEj when Media prevention is off. * Uses Prevent/Allow Medium Removal. (For big read and any write.) * Sends Test Unit Ready every 2s at idle. (Needs 2 EP Timeouts protection: 4s) * Loops into Request Sense and Test Unit Ready when ejects. * Line always at SE0. * * Mac OS: * Uses Start/Stop. Stops with LoEj when Allow Medium Removal is enabled. * Uses Prevent/Allow Medium Removal. (Properly. Enables at mount and only disables it when ejects.) * Does not send Test Unit Ready at idle. But Prevent Medium Removal is enabled. * Loops into Request Sense and Test Unit Ready when ejects. * Line always at SE0. */ static int _received_cbw(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { // Was this a real packet? Should it be ignored? if (bulk_ctxt->bulk_out_status || bulk_ctxt->bulk_out_ignore || ums->lun.unmounted) { if (bulk_ctxt->bulk_out_status || ums->lun.unmounted) { DPRINTF("USB: EP timeout (%d)\n", bulk_ctxt->bulk_out_status); // In case we disconnected, exit UMS. // Raise timeout if removable and didn't got a unit ready command inside 4s. if (bulk_ctxt->bulk_out_status == USB2_ERROR_XFER_EP_DISABLED || (bulk_ctxt->bulk_out_status == USB_ERROR_TIMEOUT && ums->lun.removable && !ums->lun.prevent_medium_removal)) { if (bulk_ctxt->bulk_out_status == USB_ERROR_TIMEOUT) { if (usb_ops.usb_device_get_port_in_sleep()) { ums->set_text(ums->label, "#C7EA46 Status:# EP in sleep"); ums->timeouts += 14; } else if (!ums->xusb) // Timeout only on USB2. { ums->timeouts += 4; DPRINTF("USB: EP removable\n"); } } else { gfx_printf("USB: EP disabled\n"); msleep(500); ums->timeouts += 4; } } if (ums->lun.unmounted) { ums->set_text(ums->label, "#C7EA46 Status:# Medium unmounted"); ums->timeouts++; if (!bulk_ctxt->bulk_out_status) ums->timeouts += 3; } if (ums->timeouts > 20) raise_exception(ums, UMS_STATE_EXIT); } if (bulk_ctxt->bulk_out_status || bulk_ctxt->bulk_out_ignore) return UMS_RES_INVALID_ARG; } // Clear request flag to allow a new one to be queued. ums->cbw_req_queued = false; // Is the CBW valid? bulk_recv_pkt_t *cbw = (bulk_recv_pkt_t *)bulk_ctxt->bulk_out_buf; if (bulk_ctxt->bulk_out_length_actual != USB_BULK_CB_WRAP_LEN || cbw->Signature != USB_BULK_CB_SIG) { gfx_printf("USB: invalid CBW: len %X sig 0x%X\n", bulk_ctxt->bulk_out_length_actual, cbw->Signature); /* * The Bulk-only spec says we MUST stall the IN endpoint * (6.6.1), so it's unavoidable. It also says we must * retain this state until the next reset, but there's * no way to tell the controller driver it should ignore * Clear-Feature(HALT) requests. * * We aren't required to halt the OUT endpoint; instead * we can simply accept and discard any data received * until the next reset. */ _wedge_bulk_in_endpoint(ums); bulk_ctxt->bulk_out_ignore = 1; return UMS_RES_INVALID_ARG; } // Is the CBW meaningful? if (cbw->Lun >= UMS_MAX_LUN || cbw->Flags & ~USB_BULK_IN_FLAG || cbw->Length == 0 || cbw->Length > SCSI_MAX_CMD_SZ) { gfx_printf("USB: non-meaningful CBW: lun = %X, flags = 0x%X, cmdlen %X\n", cbw->Lun, cbw->Flags, cbw->Length); /* We can do anything we want here, so let's stall the * bulk pipes if we are allowed to. */ if (ums->can_stall) { _set_ep_stall(bulk_ctxt->bulk_out); _set_ep_stall(bulk_ctxt->bulk_in); ums->set_text(ums->label, "#FFDD00 Error:# CBW unknown - Stalled both EP!"); } return UMS_RES_INVALID_ARG; } // Save the command for later. ums->cmnd_size = cbw->Length; memcpy(ums->cmnd, cbw->CDB, ums->cmnd_size); if (cbw->Flags & USB_BULK_IN_FLAG) ums->data_dir = DATA_DIR_TO_HOST; else ums->data_dir = DATA_DIR_FROM_HOST; ums->data_size = cbw->DataTransferLength; if (ums->data_size == 0) ums->data_dir = DATA_DIR_NONE; ums->lun_idx = cbw->Lun; ums->tag = cbw->Tag; if (!ums->lun.unmounted) ums->timeouts = 0; return UMS_RES_OK; } static int _get_next_command(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { int rc = UMS_RES_OK; /* Wait for the next buffer to become available */ // while (bulk_ctxt->bulk_out_buf_state != BUF_STATE_EMPTY) // { // //wait irq. // } bulk_ctxt->bulk_out_length = USB_BULK_CB_WRAP_LEN; // Queue a request to read a Bulk-only CBW. if (!ums->cbw_req_queued) _transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_out, USB_XFER_SYNCED_CMD); else _transfer_finish(ums, bulk_ctxt, bulk_ctxt->bulk_out, USB_XFER_SYNCED_CMD); /* * On XUSB do not allow multiple requests for CBW to be done. * This avoids an issue with some XHCI controllers and OS combos (e.g. ASMedia and Linux/Mac OS) * which confuse that and concatenate an old CBW request with another write request (SCSI Write) * and create a babble error (transmit overflow). */ if (ums->xusb) ums->cbw_req_queued = true; /* We will drain the buffer in software, which means we * can reuse it for the next filling. No need to advance * next_buffhd_to_fill. */ /* Wait for the CBW to arrive */ // while (bulk_ctxt->bulk_out_buf_state != BUF_STATE_FULL) // { // //wait irq. // } rc = _received_cbw(ums, bulk_ctxt); bulk_ctxt->bulk_out_buf_state = BUF_STATE_EMPTY; return rc; } static void _send_status(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { u8 status = USB_STATUS_PASS; u32 sd = ums->lun.sense_data; if (ums->phase_error) { ums->set_text(ums->label, "#FFDD00 Error:# Phase-error!"); status = USB_STATUS_PHASE_ERROR; sd = SS_INVALID_COMMAND; } else if (sd != SS_NO_SENSE) { DPRINTF("USB: CMD fail\n"); status = USB_STATUS_FAIL; DPRINTF("USB: Sense: SK x%02X, ASC x%02X, ASCQ x%02X; info x%X\n", SK(sd), ASC(sd), ASCQ(sd), ums->lun.sense_data_info); } // Store and send the Bulk-only CSW. bulk_send_pkt_t *csw = (bulk_send_pkt_t *)bulk_ctxt->bulk_in_buf; csw->Signature = USB_BULK_CS_SIG; csw->Tag = ums->tag; csw->Residue = ums->residue; csw->Status = status; bulk_ctxt->bulk_in_length = USB_BULK_CS_WRAP_LEN; _transfer_start(ums, bulk_ctxt, bulk_ctxt->bulk_in, USB_XFER_SYNCED_CMD); } static void _handle_exception(usbd_gadget_ums_t *ums, bulk_ctxt_t *bulk_ctxt) { enum ums_state old_state; // Clear out the controller's fifos. _flush_endpoint(bulk_ctxt->bulk_in); _flush_endpoint(bulk_ctxt->bulk_out); /* Reset the I/O buffer states and pointers, the SCSI * state, and the exception. Then invoke the handler. */ bulk_ctxt->bulk_in_buf_state = BUF_STATE_EMPTY; bulk_ctxt->bulk_out_buf_state = BUF_STATE_EMPTY; old_state = ums->state; if (old_state != UMS_STATE_ABORT_BULK_OUT) { ums->lun.prevent_medium_removal = 0; ums->lun.sense_data = SS_NO_SENSE; ums->lun.unit_attention_data = SS_NO_SENSE; ums->lun.sense_data_info = 0; ums->lun.info_valid = 0; } ums->state = UMS_STATE_NORMAL; // Carry out any extra actions required for the exception. switch (old_state) { case UMS_STATE_NORMAL: break; case UMS_STATE_ABORT_BULK_OUT: _send_status(ums, bulk_ctxt); break; case UMS_STATE_PROTOCOL_RESET: /* In case we were forced against our will to halt a * bulk endpoint, clear the halt now. (The SuperH UDC * requires this.) */ if (bulk_ctxt->bulk_out_ignore) { bulk_ctxt->bulk_out_ignore = 0; _clear_ep_stall(bulk_ctxt->bulk_in); } ums->lun.unit_attention_data = SS_RESET_OCCURRED; break; case UMS_STATE_EXIT: ums->state = UMS_STATE_TERMINATED; // Stop the thread. break; default: break; } } static inline void _system_maintainance(usbd_gadget_ums_t *ums) { static u32 timer_dram = 0; static u32 timer_status_bar = 0; u32 time = get_tmr_ms(); if (timer_status_bar < time) { ums->system_maintenance(true); timer_status_bar = get_tmr_ms() + 30000; } else if (timer_dram < time) { minerva_periodic_training(); timer_dram = get_tmr_ms() + EMC_PERIODIC_TRAIN_MS; } } int usb_device_gadget_ums(usb_ctxt_t *usbs) { int res = 0; usbd_gadget_ums_t ums = {0}; // Get USB Controller ops. if (hw_get_chip_id() == GP_HIDREV_MAJOR_T210) usb_device_get_ops(&usb_ops); else { ums.xusb = true; xusb_device_get_ops(&usb_ops); } usbs->set_text(usbs->label, "#C7EA46 Status:# Started USB"); if (usb_ops.usb_device_init()) { usb_ops.usbd_end(false, true); return 1; } ums.state = UMS_STATE_NORMAL; ums.can_stall = 0; ums.bulk_ctxt.bulk_in = USB_EP_BULK_IN; ums.bulk_ctxt.bulk_in_buf = (u8 *)USB_EP_BULK_IN_BUF_ADDR; ums.bulk_ctxt.bulk_out = USB_EP_BULK_OUT; ums.bulk_ctxt.bulk_out_buf = (u8 *)USB_EP_BULK_OUT_BUF_ADDR; // Set LUN parameters. ums.lun.ro = usbs->ro; ums.lun.type = usbs->type; ums.lun.partition = usbs->partition; ums.lun.num_sectors = usbs->sectors; ums.lun.offset = usbs->offset; ums.lun.removable = 1; // Always removable to force OSes to use prevent media removal. ums.lun.unit_attention_data = SS_RESET_OCCURRED; // Set system functions ums.label = usbs->label; ums.set_text = usbs->set_text; ums.system_maintenance = usbs->system_maintenance; ums.set_text(ums.label, "#C7EA46 Status:# Mounting disk"); // Initialize sdmmc. if (usbs->type == MMC_SD) { sd_end(); if (sd_mount()) { ums.set_text(ums.label, "#FFDD00 Failed to init SD!#"); res = 1; goto init_fail; } sd_unmount(); ums.lun.sdmmc = &sd_sdmmc; ums.lun.storage = &sd_storage; } else { if (emmc_initialize(false)) { ums.set_text(ums.label, "#FFDD00 Failed to init eMMC!#"); res = 1; goto init_fail; } emmc_set_partition(ums.lun.partition - 1); ums.lun.sdmmc = &emmc_sdmmc; ums.lun.storage = &emmc_storage; } ums.set_text(ums.label, "#C7EA46 Status:# Waiting for connection"); // Initialize Control Endpoint. if (usb_ops.usb_device_enumerate(USB_GADGET_UMS)) goto usb_enum_error; ums.set_text(ums.label, "#C7EA46 Status:# Waiting for LUN"); if (usb_ops.usb_device_class_send_max_lun(0)) // One device for now. goto usb_enum_error; ums.set_text(ums.label, "#C7EA46 Status:# Started UMS"); // If partition sectors are not set get them from hardware. if (!ums.lun.num_sectors) { if (usbs->type == MMC_EMMC && (ums.lun.partition - 1)) // eMMC BOOT0/1. ums.lun.num_sectors = emmc_storage.ext_csd.boot_mult << 8; else ums.lun.num_sectors = ums.lun.storage->sec_cnt; // eMMC GPP or SD. } do { // Do DRAM training and update system tasks. _system_maintainance(&ums); // Check for force unmount button combo. if (btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) { // Check if we are allowed to unload the media. if (ums.lun.prevent_medium_removal) ums.set_text(ums.label, "#C7EA46 Status:# Unload attempt prevented"); else break; } if (ums.state != UMS_STATE_NORMAL) { _handle_exception(&ums, &ums.bulk_ctxt); continue; } _handle_ep0_ctrl(&ums); if (_get_next_command(&ums, &ums.bulk_ctxt) || (ums.state > UMS_STATE_NORMAL)) continue; _handle_ep0_ctrl(&ums); _parse_scsi_cmd(&ums, &ums.bulk_ctxt); if (ums.state > UMS_STATE_NORMAL) continue; _handle_ep0_ctrl(&ums); if (_finish_reply(&ums, &ums.bulk_ctxt) || (ums.state > UMS_STATE_NORMAL)) continue; _send_status(&ums, &ums.bulk_ctxt); } while (ums.state != UMS_STATE_TERMINATED); if (ums.lun.prevent_medium_removal) ums.set_text(ums.label, "#FFDD00 Error:# Disk unsafely ejected"); else ums.set_text(ums.label, "#C7EA46 Status:# Disk ejected"); goto exit; usb_enum_error: ums.set_text(ums.label, "#FFDD00 Error:# Timed out or canceled!"); res = 1; exit: if (ums.lun.type == MMC_EMMC) emmc_end(); init_fail: usb_ops.usbd_end(true, false); return res; } ================================================ FILE: bdk/usb/usb_t210.h ================================================ /* * Enhanced & eXtensible USB device (EDCI & XDCI) driver for Tegra X1 * * Copyright (c) 2019-2021 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _USB_T210_H_ #define _USB_T210_H_ #include /* EHCI USB */ /* General USB registers */ #define USB1_IF_USB_SUSP_CTRL 0x400 #define SUSP_CTRL_USB_WAKE_ON_CNNT_EN_DEV BIT(3) #define SUSP_CTRL_USB_WAKE_ON_DISCON_EN_DEV BIT(4) #define SUSP_CTRL_USB_PHY_CLK_VALID BIT(7) #define SUSP_CTRL_UTMIP_RESET BIT(11) #define SUSP_CTRL_UTMIP_PHY_ENB BIT(12) #define SUSP_CTRL_UTMIP_UTMIP_SUSPL1_SET BIT(25) #define USB1_IF_USB_PHY_VBUS_SENSORS 0x404 #define USB1_UTMIP_XCVR_CFG0 0x808 #define USB1_UTMIP_BIAS_CFG0 0x80C #define USB1_UTMIP_HSRX_CFG0 0x810 #define USB1_UTMIP_HSRX_CFG1 0x814 #define USB1_UTMIP_TX_CFG0 0x820 #define USB1_UTMIP_MISC_CFG1 0x828 #define USB1_UTMIP_DEBOUNCE_CFG0 0x82C #define USB1_UTMIP_BAT_CHRG_CFG0 0x830 #define BAT_CHRG_CFG0_PWRDOWN_CHRG BIT(0) #define BAT_CHRG_CFG0_OP_SRC_EN BIT(3) #define USB1_UTMIP_SPARE_CFG0 0x834 #define USB1_UTMIP_XCVR_CFG1 0x838 #define USB1_UTMIP_BIAS_CFG1 0x83C #define USB1_UTMIP_BIAS_CFG2 0x850 #define USB1_UTMIP_XCVR_CFG2 0x854 #define USB1_UTMIP_XCVR_CFG3 0x858 /* USB Queue Head Descriptor */ #define USB2_QH_USB2D_QH_EP_BASE (USB_BASE + 0x1000) #define USB_QHD_EP_CAP_IOS_ENABLE BIT(15) #define USB_QHD_EP_CAP_MAX_PKT_LEN_MASK 0x7FF #define USB_QHD_EP_CAP_ZERO_LEN_TERM_DIS BIT(29) #define USB_QHD_EP_CAP_MULTI_NON_ISO (0 << 30) #define USB_QHD_EP_CAP_MULTI_1 (1 << 30) #define USB_QHD_EP_CAP_MULTI_2 (2 << 30) #define USB_QHD_EP_CAP_MULTI_3 (3 << 30) #define USB_QHD_TOKEN_XFER_ERROR BIT(3) #define USB_QHD_TOKEN_BUFFER_ERROR BIT(5) #define USB_QHD_TOKEN_HALTED BIT(6) #define USB_QHD_TOKEN_ACTIVE BIT(7) #define USB_QHD_TOKEN_MULT_OVERR_MASK (2 << 10) #define USB_QHD_TOKEN_IRQ_ON_COMPLETE BIT(15) #define USB_QHD_TOKEN_TOTAL_BYTES_SHIFT 16 /* USB_OTG/USB_1 controllers register bits */ #define USB2D_PORTSC1_SUSP BIT(7) #define USB2D_USBCMD_RUN BIT(0) #define USB2D_USBCMD_RESET BIT(1) #define USB2D_USBCMD_ITC_MASK (0xFF << 16) #define USB2D_USBSTS_UI BIT(0) #define USB2D_USBSTS_UEI BIT(1) #define USB2D_USBSTS_PCI BIT(2) #define USB2D_USBSTS_FRI BIT(3) #define USB2D_USBSTS_SEI BIT(4) #define USB2D_USBSTS_AAI BIT(5) #define USB2D_USBSTS_URI BIT(6) #define USB2D_USBSTS_SRI BIT(7) #define USB2D_USBSTS_SLI BIT(8) #define USB2D_USBMODE_CM_MASK (3 << 0) #define USB2D_USBMODE_CM_IDLE 0 #define USB2D_USBMODE_CM_RSVD 1 #define USB2D_USBMODE_CM_DEVICE 2 #define USB2D_USBMODE_CM_HOST 3 #define USB2D_ENDPT_STATUS_RX_OFFSET BIT(0) #define USB2D_ENDPT_STATUS_TX_OFFSET BIT(16) #define USB2D_ENDPTCTRL_RX_EP_STALL BIT(0) #define USB2D_ENDPTCTRL_RX_EP_TYPE_CTRL (0 << 2) #define USB2D_ENDPTCTRL_RX_EP_TYPE_ISO (1 << 2) #define USB2D_ENDPTCTRL_RX_EP_TYPE_BULK (2 << 2) #define USB2D_ENDPTCTRL_RX_EP_TYPE_INTR (3 << 2) #define USB2D_ENDPTCTRL_RX_EP_TYPE_MASK (3 << 2) #define USB2D_ENDPTCTRL_RX_EP_INHIBIT BIT(5) #define USB2D_ENDPTCTRL_RX_EP_RESET BIT(6) #define USB2D_ENDPTCTRL_RX_EP_ENABLE BIT(7) #define USB2D_ENDPTCTRL_TX_EP_STALL BIT(16) #define USB2D_ENDPTCTRL_TX_EP_TYPE_CTRL (0 << 18) #define USB2D_ENDPTCTRL_TX_EP_TYPE_ISO (1 << 18) #define USB2D_ENDPTCTRL_TX_EP_TYPE_BULK (2 << 18) #define USB2D_ENDPTCTRL_TX_EP_TYPE_INTR (3 << 18) #define USB2D_ENDPTCTRL_TX_EP_TYPE_MASK (3 << 18) #define USB2D_ENDPTCTRL_TX_EP_INHIBIT BIT(21) #define USB2D_ENDPTCTRL_TX_EP_RESET BIT(22) #define USB2D_ENDPTCTRL_TX_EP_ENABLE BIT(23) #define USB2D_HOSTPC1_DEVLC_ASUS BIT(17) #define USB2D_HOSTPC1_DEVLC_PHCD BIT(22) #define USB2D_HOSTPC1_DEVLC_PSPD_MASK (3 << 25) #define USB2D_OTGSC_USB_ID_PULLUP BIT(5) #define USB2D_OTGSC_USB_IRQ_STS_MASK (0x7F << 16) /* USB_OTG/USB_1 controllers registers */ typedef struct _t210_usb2d_t { vu32 id; vu32 unk0; vu32 hw_host; vu32 hw_device; vu32 hw_txbuf; vu32 hw_rxbuf; vu32 unk1[26]; vu32 gptimer0ld; vu32 gptimer0ctrl; vu32 gptimer1ld; vu32 gptimer1ctrl; vu32 unk2[28]; vu16 caplength; vu16 hciversion; vu32 hcsparams; vu32 hccparams; vu32 unk3[5]; vu32 dciversion; vu32 dccparams; vu32 extsts; vu32 usbextintr; vu32 usbcmd; vu32 usbsts; vu32 usbintr; vu32 frindex; vu32 unk4; vu32 periodiclistbase; vu32 asynclistaddr; vu32 asyncttsts; vu32 burstsize; vu32 txfilltuning; vu32 unk6; vu32 icusb_ctrl; vu32 ulpi_viewport; vu32 rsvd0[4]; vu32 portsc1; vu32 rsvd1[15]; vu32 hostpc1_devlc; vu32 rsvd2[15]; vu32 otgsc; vu32 usbmode; vu32 unk10; vu32 endptnak; vu32 endptnak_enable; vu32 endptsetupstat; vu32 endptprime; vu32 endptflush; vu32 endptstatus; vu32 endptcomplete; vu32 endptctrl[16]; } t210_usb2d_t; /* XHCI USB */ /* XUSB DEV XHCI registers */ #define XUSB_DEV_XHCI_DB 0x4 #define XUSB_DEV_XHCI_ERSTSZ 0x8 #define XUSB_DEV_XHCI_ERST0BALO 0x10 #define XUSB_DEV_XHCI_ERST0BAHI 0x14 #define XUSB_DEV_XHCI_ERST1BALO 0x18 #define XUSB_DEV_XHCI_ERST1BAHI 0x1C #define XUSB_DEV_XHCI_ERDPLO 0x20 #define XHCI_ERDPLO_EHB BIT(3) #define XUSB_DEV_XHCI_ERDPHI 0x24 #define XUSB_DEV_XHCI_EREPLO 0x28 #define XCHI_ECS BIT(0) #define XUSB_DEV_XHCI_EREPHI 0x2C #define XUSB_DEV_XHCI_CTRL 0x30 #define XHCI_CTRL_RUN BIT(0) #define XHCI_CTRL_LSE BIT(1) #define XHCI_CTRL_IE BIT(4) #define XHCI_CTRL_ENABLE BIT(31) #define XUSB_DEV_XHCI_ST 0x34 #define XHCI_ST_RC BIT(0) #define XHCI_ST_IP BIT(4) #define XUSB_DEV_XHCI_RT_IMOD 0x38 #define XUSB_DEV_XHCI_PORTSC 0x3C #define XHCI_PORTSC_CCS BIT(0) #define XHCI_PORTSC_PED BIT(1) #define XHCI_PORTSC_PR BIT(4) #define XHCI_PORTSC_PLS_MASK (0xF << 5) #define XHCI_PORTSC_PLS_U0 (0 << 5) #define XHCI_PORTSC_PLS_U1 (1 << 5) #define XHCI_PORTSC_PLS_U2 (2 << 5) #define XHCI_PORTSC_PLS_U3 (3 << 5) #define XHCI_PORTSC_PLS_DISABLED (4 << 5) #define XHCI_PORTSC_PLS_RXDETECT (5 << 5) #define XHCI_PORTSC_PLS_INACTIVE (6 << 5) #define XHCI_PORTSC_PLS_POLLING (7 << 5) #define XHCI_PORTSC_PLS_RECOVERY (8 << 5) #define XHCI_PORTSC_PLS_HOTRESET (9 << 5) #define XHCI_PORTSC_PLS_COMPLIANCE (10 << 5) #define XHCI_PORTSC_PLS_LOOPBACK (11 << 5) #define XHCI_PORTSC_PLS_RESUME (15 << 5) #define XHCI_PORTSC_PS (0xF << 10) #define XHCI_PORTSC_LWS BIT(16) #define XHCI_PORTSC_CSC BIT(17) #define XHCI_PORTSC_WRC BIT(19) #define XHCI_PORTSC_PRC BIT(21) #define XHCI_PORTSC_PLC BIT(22) #define XHCI_PORTSC_CEC BIT(23) #define XHCI_PORTSC_WPR BIT(30) #define XUSB_DEV_XHCI_ECPLO 0x40 #define XUSB_DEV_XHCI_ECPHI 0x44 #define XUSB_DEV_XHCI_EP_HALT 0x50 #define XHCI_EP_HALT_DCI_EP0_IN BIT(0) #define XUSB_DEV_XHCI_EP_PAUSE 0x54 #define XUSB_DEV_XHCI_EP_RELOAD 0x58 #define XUSB_DEV_XHCI_EP_STCHG 0x5C #define XUSB_DEV_XHCI_PORTHALT 0x6C #define XUSB_DEV_XHCI_EP_STOPPED 0x78 #define XHCI_PORTHALT_HALT_LTSSM BIT(0) #define XHCI_PORTHALT_STCHG_REQ BIT(20) #define XUSB_DEV_XHCI_CFG_DEV_FE 0x85C #define XHCI_CFG_DEV_FE_PORTREGSEL_MASK (3 << 0) #define XHCI_CFG_DEV_FE_PORTREGSEL_SS (1 << 0) #define XHCI_CFG_DEV_FE_PORTREGSEL_HSFS (2 << 0) /* XUSB DEV PCI registers */ #define XUSB_CFG_1 0x4 #define CFG_1_IO_SPACE BIT(0) #define CFG_1_MEMORY_SPACE BIT(1) #define CFG_1_BUS_MASTER BIT(2) #define XUSB_CFG_4 0x10 #define CFG_4_ADDRESS_TYPE_32_BIT (0 << 1) #define CFG_4_ADDRESS_TYPE_64_BIT (2 << 1) /* XUSB DEV Device registers */ #define XUSB_DEV_CONFIGURATION 0x180 #define DEV_CONFIGURATION_EN_FPCI BIT(0) #define XUSB_DEV_INTR_MASK 0x188 #define DEV_INTR_MASK_IP_INT_MASK BIT(16) /* XUSB Pad Control registers */ #define XUSB_PADCTL_USB2_PAD_MUX 0x4 #define PADCTL_USB2_PAD_MUX_USB2_OTG_PAD_PORT0_USB2 (0 << 0) #define PADCTL_USB2_PAD_MUX_USB2_OTG_PAD_PORT0_XUSB (1 << 0) #define PADCTL_USB2_PAD_MUX_USB2_OTG_PAD_PORT0_MASK (3 << 0) #define PADCTL_USB2_PAD_MUX_USB2_BIAS_PAD_USB2 (0 << 18) #define PADCTL_USB2_PAD_MUX_USB2_BIAS_PAD_XUSB (1 << 18) #define PADCTL_USB2_PAD_MUX_USB2_BIAS_PAD_MASK (3 << 18) #define XUSB_PADCTL_USB2_PORT_CAP 0x8 #define PADCTL_USB2_PORT_CAP_PORT_0_CAP_DIS (0 << 0) #define PADCTL_USB2_PORT_CAP_PORT_0_CAP_HOST (1 << 0) #define PADCTL_USB2_PORT_CAP_PORT_0_CAP_DEV (2 << 0) #define PADCTL_USB2_PORT_CAP_PORT_0_CAP_OTG (3 << 0) #define PADCTL_USB2_PORT_CAP_PORT_0_CAP_MASK (3 << 0) #define XUSB_PADCTL_SS_PORT_MAP 0x14 #define PADCTL_SS_PORT_MAP_PORT0_MASK (0xF << 0) #define XUSB_PADCTL_ELPG_PROGRAM_0 0x20 #define XUSB_PADCTL_ELPG_PROGRAM_1 0x24 #define XUSB_PADCTL_USB2_BATTERY_CHRG_OTGPAD0_CTL0 0x80 #define XUSB_PADCTL_USB2_BATTERY_CHRG_OTGPAD0_CTL1 0x84 #define XUSB_PADCTL_USB2_OTG_PAD0_CTL_0 0x88 #define XUSB_PADCTL_USB2_OTG_PAD0_CTL_1 0x8C #define XUSB_PADCTL_USB2_BIAS_PAD_CTL_0 0x284 #define XUSB_PADCTL_USB2_BIAS_PAD_CTL_1 0x288 #define XUSB_PADCTL_USB2_VBUS_ID 0xC60 #define PADCTL_USB2_VBUS_ID_VBUS_OVR_EN (1 << 12) #define PADCTL_USB2_VBUS_ID_VBUS_OVR_MASK (3 << 12) #define PADCTL_USB2_VBUS_ID_VBUS_ON BIT(14) #define PADCTL_USB2_VBUS_ID_SRC_ID_OVR_EN (1 << 16) #define PADCTL_USB2_VBUS_ID_SRC_MASK (3 << 16) #define PADCTL_USB2_VBUS_ID_OVR_GND (0 << 18) #define PADCTL_USB2_VBUS_ID_OVR_C (1 << 18) #define PADCTL_USB2_VBUS_ID_OVR_B (2 << 18) #define PADCTL_USB2_VBUS_ID_OVR_A (4 << 18) #define PADCTL_USB2_VBUS_ID_OVR_FLOAT (8 << 18) #define PADCTL_USB2_VBUS_ID_OVR_MASK (0xF << 18) #endif ================================================ FILE: bdk/usb/usbd.c ================================================ /* * Enhanced USB Device (EDCI) driver for Tegra X1 * * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include typedef enum { USB_HW_EP0 = 0, USB_HW_EP1 = 1 } usb_hw_ep_t; typedef enum { USB_EP_STATUS_IDLE = 0, USB_EP_STATUS_ACTIVE = 1, USB_EP_STATUS_ERROR = 2, USB_EP_STATUS_NO_CONFIG = 3, USB_EP_STATUS_STALLED = 4, USB_EP_STATUS_DISABLED = 5 } usb_ep_status_t; typedef enum { USB_LOW_SPEED = 0, USB_FULL_SPEED = 1, USB_HIGH_SPEED = 2, USB_SUPER_SPEED = 3, } usb_speed_t; typedef struct _dTD_t { vu32 next_dTD; vu32 info; vu32 pages[5]; vu32 reserved; } dTD_t; typedef struct _dQH_t { vu32 ep_capabilities; vu32 curr_dTD_ptr; vu32 next_dTD_ptr; vu32 token; vu32 buffers[5]; // hmmm. vu32 reserved; vu32 setup[2]; vu32 gap[4]; } dQH_t; typedef struct _usbd_t { volatile dTD_t dtds[4 * 4]; // 4 dTD per endpoint. volatile dQH_t *qhs; int ep_configured[4]; int ep_bytes_requested[4]; } usbd_t; typedef struct _usbd_controller_t { u32 port_speed; t210_usb2d_t *regs; usb_ctrl_setup_t control_setup; usb_desc_t *desc; usb_gadget_type gadget; u8 config_num; u8 interface_num; u8 max_lun; bool usb_phy_ready; bool configuration_set; bool max_lun_set; bool bulk_reset_req; u32 intr_idle_rate; bool intr_idle_req; bool hid_report_sent; void *hid_rpt_buffer; u32 hid_rpt_size; u32 charger_detect; } usbd_controller_t; extern u8 hid_report_descriptor_jc[]; extern u8 hid_report_descriptor_touch[]; extern u32 hid_report_descriptor_jc_size; extern u32 hid_report_descriptor_touch_size; extern usb_desc_t usb_gadget_hid_jc_descriptors; extern usb_desc_t usb_gadget_hid_touch_descriptors; extern usb_desc_t usb_gadget_ums_descriptors; usbd_t *usbdaemon; usbd_controller_t *usbd_otg; usbd_controller_t usbd_usb_otg_controller_ctxt; bool usb_init_done = false; u8 *usb_ep0_ctrl_buf = (u8 *)USB_EP_CONTROL_BUF_ADDR; static int _usbd_reset_usb_otg_phy_device_mode() { usbd_otg->usb_phy_ready = false; // Clear UTMIP reset. USB(USB1_IF_USB_SUSP_CTRL) &= ~SUSP_CTRL_UTMIP_RESET; // Wait for PHY clock to get validated. u32 retries = 100000; // 200ms timeout. while (!(USB(USB1_IF_USB_SUSP_CTRL) & SUSP_CTRL_USB_PHY_CLK_VALID)) { retries--; if (!retries) return USB_ERROR_INIT; usleep(1); } usbd_otg->usb_phy_ready = true; // Clear all device addresses, enabled setup requests and transmit events. usbd_otg->regs->periodiclistbase = 0; usbd_otg->regs->endptsetupstat = usbd_otg->regs->endptsetupstat; usbd_otg->regs->endptcomplete = usbd_otg->regs->endptcomplete; // Stop device controller. usbd_otg->regs->usbcmd &= ~USB2D_USBCMD_RUN; // Set controller mode to idle. usbd_otg->regs->usbmode &= ~USB2D_USBMODE_CM_MASK; // Reset the controller. usbd_otg->regs->usbcmd |= USB2D_USBCMD_RESET; // Wait for the reset to complete. retries = 100000; // 200ms timeout. while (usbd_otg->regs->usbcmd & USB2D_USBCMD_RESET) { retries--; if (!retries) return USB_ERROR_INIT; usleep(1); } // Wait for PHY clock to get validated after reset. retries = 100000; // 200ms timeout. while (!(USB(USB1_IF_USB_SUSP_CTRL) & SUSP_CTRL_USB_PHY_CLK_VALID)) { retries--; if (!retries) return USB_ERROR_INIT; usleep(1); } // Set controller to Device mode. usbd_otg->regs->usbmode = (usbd_otg->regs->usbmode & ~USB2D_USBMODE_CM_MASK) | USB2D_USBMODE_CM_DEVICE; // Wait for the selected mode to be enabled. retries = 100000; // 200ms timeout. while ((usbd_otg->regs->usbmode & USB2D_USBMODE_CM_MASK) != USB2D_USBMODE_CM_DEVICE) { retries--; if (!retries) return USB_ERROR_INIT; usleep(1); } // Disable all interrupts. usbd_otg->regs->usbintr = 0; // Set the ID pullup and disable all OTGSC interrupts. usbd_otg->regs->otgsc = USB2D_OTGSC_USB_ID_PULLUP; // Clear all relevant interrupt statuses. usbd_otg->regs->usbsts = USB2D_USBSTS_UI | USB2D_USBSTS_UEI | USB2D_USBSTS_PCI | USB2D_USBSTS_FRI | USB2D_USBSTS_SEI | USB2D_USBSTS_AAI | USB2D_USBSTS_URI | USB2D_USBSTS_SRI | USB2D_USBSTS_SLI; // Disable and clear all OTGSC interrupts. usbd_otg->regs->otgsc = USB2D_OTGSC_USB_IRQ_STS_MASK; // Clear EP0, EP1, EP2 setup requests. usbd_otg->regs->endptsetupstat = 7; //TODO: Shouldn't this be endptsetupstat = endptsetupstat? // Set all interrupts to immediate. usbd_otg->regs->usbcmd &= ~USB2D_USBCMD_ITC_MASK; return USB_RES_OK; } static void _usb_charger_detect() { // Charger detect init. usbd_otg->charger_detect = 0; bool charger_detect_enable = FUSE(FUSE_RESERVED_SW) & 0x10; // Disabled on Switch production. if (charger_detect_enable) { usbd_otg->charger_detect |= 1; // Configure detect pin. PINMUX_AUX(PINMUX_AUX_LCD_GPIO1) &= ~(PINMUX_PARKED | PINMUX_TRISTATE | PINMUX_PULL_MASK); gpio_direction_input(GPIO_PORT_V, GPIO_PIN_3); // Configure charger pin. PINMUX_AUX(PINMUX_AUX_USB_VBUS_EN1) &= ~(PINMUX_INPUT_ENABLE | PINMUX_PARKED | PINMUX_TRISTATE | PINMUX_PULL_MASK); gpio_config(GPIO_PORT_CC, GPIO_PIN_5, GPIO_MODE_GPIO); gpio_output_enable(GPIO_PORT_CC, GPIO_PIN_5, GPIO_OUTPUT_ENABLE); // Enable charger. if (gpio_read(GPIO_PORT_V, GPIO_PIN_3)) { usbd_otg->charger_detect |= 2; gpio_write(GPIO_PORT_CC, GPIO_PIN_5, GPIO_HIGH); usbd_otg->charger_detect |= 0x100; USB(USB1_UTMIP_BAT_CHRG_CFG0) = BAT_CHRG_CFG0_OP_SRC_EN; // Clears UTMIP_PD_CHRG and enables charger detect. usleep(5000); } } } static void _usb_init_phy() { // Configure and enable PLLU. clock_enable_pllu(); // Enable USBD clock. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_L_SET) = BIT(CLK_L_USBD); usleep(2); CLOCK(CLK_RST_CONTROLLER_RST_DEV_L_SET) = BIT(CLK_L_USBD); usleep(2); CLOCK(CLK_RST_CONTROLLER_RST_DEV_L_CLR) = BIT(CLK_L_USBD); usleep(2); // Clear XUSB_PADCTL reset CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_CLR) = BIT(CLK_W_XUSB_PADCTL); // Enable USB PHY and reset for programming. u32 usb_susp_ctrl = USB(USB1_IF_USB_SUSP_CTRL); USB(USB1_IF_USB_SUSP_CTRL) = usb_susp_ctrl | SUSP_CTRL_UTMIP_RESET; USB(USB1_IF_USB_SUSP_CTRL) = usb_susp_ctrl | SUSP_CTRL_UTMIP_PHY_ENB | SUSP_CTRL_UTMIP_RESET; // Enable IDDQ control by software and disable UTMIPLL IDDQ. CLOCK(CLK_RST_CONTROLLER_UTMIPLL_HW_PWRDN_CFG0) = (CLOCK(CLK_RST_CONTROLLER_UTMIPLL_HW_PWRDN_CFG0) & 0xFFFFFFFC) | 1; usleep(10); // Disable crystal clock. USB(USB1_UTMIP_MISC_CFG1) &= 0xBFFFFFFF; CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG2) &= 0xBFFFFFFF; // Set B_SESS_VLD. USB(USB1_IF_USB_PHY_VBUS_SENSORS) |= 0x1000; USB(USB1_IF_USB_PHY_VBUS_SENSORS) |= 0x800; // Set UTMIPLL dividers and config based on OSC and enable it to 960 MHz. clock_enable_utmipll(); // Configure UTMIP Transceiver Cells. u32 fuse_usb_calib = FUSE(FUSE_USB_CALIB); USB(USB1_UTMIP_XCVR_CFG0) = (((USB(USB1_UTMIP_XCVR_CFG0) & 0xFFFFFFF0) | (fuse_usb_calib & 0xF)) & 0xFE3FFFFF) | ((fuse_usb_calib & 0x3F) << 25 >> 29 << 22); USB(USB1_UTMIP_XCVR_CFG1) = (USB(USB1_UTMIP_XCVR_CFG1) & 0xFFC3FFFF) | ((fuse_usb_calib << 21) >> 28 << 18); USB(USB1_UTMIP_XCVR_CFG3) = (USB(USB1_UTMIP_XCVR_CFG3) & 0xFFFFC1FF) | ((FUSE(FUSE_USB_CALIB_EXT) & 0x1F) << 9); USB(USB1_UTMIP_XCVR_CFG0) &= 0xFFDFFFFF; USB(USB1_UTMIP_XCVR_CFG2) = (USB(USB1_UTMIP_XCVR_CFG2) & 0xFFFFF1FF) | 0x400; usleep(1); // Configure misc UTMIP. USB(USB1_UTMIP_DEBOUNCE_CFG0) = (USB(USB1_UTMIP_DEBOUNCE_CFG0) & 0xFFFF0000) | 0xBB80; USB(USB1_UTMIP_BIAS_CFG1) = (USB(USB1_UTMIP_BIAS_CFG1) & 0xFFFFC0FF) | 0x100; // when osc is 38.4KHz //USB(USB1_UTMIP_SPARE_CFG0) &= 0xFFFFFEE7; unpatched0 USB(USB1_UTMIP_BIAS_CFG2) |= 2; //patched0 - UTMIP_HSSQUELCH_LEVEL_NEW: 2. USB(USB1_UTMIP_SPARE_CFG0) &= 0xFFFFFE67; //patched0 - FUSE_HS_IREF_CAP_CFG USB(USB1_UTMIP_TX_CFG0) |= 0x80000; //USB(USB1_UTMIP_HSRX_CFG0) = (USB(USB1_UTMIP_HSRX_CFG0) & 0xFFF003FF) | 0x88000 | 0x4000; unpatched1 USB(USB1_UTMIP_HSRX_CFG0) = (USB(USB1_UTMIP_HSRX_CFG0) & 0xF0F003FF) | 0x88000 | 0x4000; //patched1 - reset UTMIP_PCOUNT_UPDN_DIV: From 1 to 0. USB(USB1_UTMIP_BIAS_CFG2) &= 0xFFFFFFF8; //patched1 - UTMIP_HSSQUELCH_LEVEL_NEW: 0 USB(USB1_UTMIP_HSRX_CFG1) = (USB(USB1_UTMIP_HSRX_CFG1) & 0xFFFFFFC1) | 0x12; USB(USB1_UTMIP_MISC_CFG1) |= 0x40000000; // Enable crystal clock. CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG2) |= 0x40000000; // Enable USB2 tracking clock. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_Y_SET) = BIT(CLK_Y_USB2_TRK); CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_USB2_HSIC_TRK) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_USB2_HSIC_TRK) & 0xFFFFFF00) | 6; // Set trank divisor to 4. USB(USB1_UTMIP_BIAS_CFG1) = (USB(USB1_UTMIP_BIAS_CFG1) & 0xFFC03F07) | 0x78000 | 0x50; // Set delays. USB(USB1_UTMIP_BIAS_CFG0) &= 0xFFFFFBFF; // Disable Power down bias circuit. usleep(1); // Force PDTRK input into power up. USB(USB1_UTMIP_BIAS_CFG1) = (USB(USB1_UTMIP_BIAS_CFG1) & 0xFFFFFFFE) | 2; usleep(100); // TRK cycle done. Force PDTRK input into power down. USB(USB1_UTMIP_BIAS_CFG1) = (USB(USB1_UTMIP_BIAS_CFG1) & 0xFF7FFFFF) | 1; usleep(3); // Force PDTRK input into power up. USB(USB1_UTMIP_BIAS_CFG1) = USB(USB1_UTMIP_BIAS_CFG1) & 0xFFFFFFFE; usleep(100); // TRK cycle done. Force PDTRK input into power down. USB(USB1_UTMIP_BIAS_CFG1) = (USB(USB1_UTMIP_BIAS_CFG1) & 0xFF7FFFFF) | 1; // Disable USB2 tracking clock and configure UTMIP misc. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_Y_CLR) = BIT(CLK_Y_USB2_TRK); CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG2) = (CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG2) & 0xFEFFFFEA) | 0x2000000 | 0x28 | 2; usleep(1); USB(USB1_UTMIP_BIAS_CFG0) &= 0xFF3FF7FF; usleep(1); // Clear power downs on UTMIP ID and VBUS wake up, PD, PD2, PDZI, PDCHRP, PDDR. PMC(APBDEV_PMC_USB_AO) &= 0xFFFFFFF3; // UTMIP ID and VBUS wake up. usleep(1); USB(USB1_UTMIP_XCVR_CFG0) &= 0xFFFFBFFF; // UTMIP_FORCE_PD_POWERDOWN. usleep(1); USB(USB1_UTMIP_XCVR_CFG0) &= 0xFFFEFFFF; // UTMIP_FORCE_PD2_POWERDOWN. usleep(1); USB(USB1_UTMIP_XCVR_CFG0) &= 0xFFFBFFFF; // UTMIP_FORCE_PDZI_POWERDOWN. usleep(1); USB(USB1_UTMIP_XCVR_CFG1) &= 0xFFFFFFFB; // UTMIP_FORCE_PDCHRP_POWERDOWN. usleep(1); USB(USB1_UTMIP_XCVR_CFG1) &= 0xFFFFFFEF; // UTMIP_FORCE_PDDR_POWERDOWN. usleep(1); } int usb_device_init() { if (usb_init_done) return USB_RES_OK; // Ease the stress to APB. bpmp_clk_rate_relaxed(true); // Initialize USB2 controller PHY. _usb_init_phy(); // Restore OC. bpmp_clk_rate_relaxed(false); // AHB USB performance cfg. AHB_GIZMO(AHB_GIZMO_AHB_MEM) |= AHB_MEM_DONT_SPLIT_AHB_WR | AHB_MEM_ENB_FAST_REARBITRATE; AHB_GIZMO(AHB_GIZMO_USB) |= AHB_GIZMO_IMMEDIATE; AHB_GIZMO(AHB_ARBITRATION_PRIORITY_CTRL) = PRIORITY_CTRL_WEIGHT(7) | PRIORITY_SELECT_USB; AHB_GIZMO(AHB_AHB_MEM_PREFETCH_CFG1) = MEM_PREFETCH_ENABLE | MEM_PREFETCH_USB_MST_ID | MEM_PREFETCH_ADDR_BNDRY(12) | 0x1000; // Addr boundary 64KB, Inactivity 4096 cycles. // Set software and hardware context storage and clear it. usbdaemon = (usbd_t *)USBD_ADDR; // Depends on USB_TD_BUFFER_PAGE_SIZE aligned address. usbd_otg = &usbd_usb_otg_controller_ctxt; memset(usbd_otg, 0, sizeof(usbd_controller_t)); memset(usbdaemon, 0, sizeof(usbd_t)); usbd_otg->regs = (t210_usb2d_t *)USB_OTG_BASE; usbd_otg->usb_phy_ready = false; // Initialize USB PHY on the USB_OTG Controller (#1) in Device mode. int res = _usbd_reset_usb_otg_phy_device_mode(); usbd_otg->configuration_set = false; _usb_charger_detect(); if (!res) usb_init_done = true; return res; } static void _usb_device_power_down() { // Enable PHY low power suspend. usbd_otg->regs->hostpc1_devlc |= USB2D_HOSTPC1_DEVLC_PHCD; // Do not use any controller regs after the above! // A reset or clear of the PHCD suspend bit must happen. // Power down OTG and Bias circuits. USB(USB1_UTMIP_BIAS_CFG0) |= BIT(11) | BIT(10); // UTMIP_OTGPD, UTMIP_BIASPD. // Power down ID detectors. USB(USB1_UTMIP_BIAS_CFG0) |= BIT(23) | BIT(22); // UTMIP_IDPD_SEL, UTMIP_IDPD_VAL. if (usbd_otg->charger_detect) { USB(USB1_UTMIP_BAT_CHRG_CFG0) = 1; //UTMIP_PD_CHRG usbd_otg->charger_detect = 0; } // Power down the UTMIP transceivers. // UTMIP_FORCE_PDZI_POWERDOWN, UTMIP_FORCE_PD2_POWERDOWN, UTMIP_FORCE_PD_POWERDOWN. USB(USB1_UTMIP_XCVR_CFG0) |= BIT(18) | BIT(16) |BIT(14); // UTMIP_FORCE_PDDR_POWERDOWN, UTMIP_FORCE_PDCHRP_POWERDOWN, UTMIP_FORCE_PDDISC_POWERDOWN. USB(USB1_UTMIP_XCVR_CFG1) |= BIT(4) | BIT(2) | BIT(0); // Keep UTMIP in reset. USB(USB1_IF_USB_SUSP_CTRL) |= SUSP_CTRL_UTMIP_RESET; // Power down PD trunk. USB(USB1_UTMIP_BIAS_CFG1) |= BIT(0); //UTMIP_FORCE_PDTRK_POWERDOWN. // Force UTMIP_PLL power down. CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG1) |= BIT(14); // UTMIP_FORCE_PLL_ENABLE_POWERDOWN. CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG1) |= BIT(12); // UTMIP_FORCE_PLL_ACTIVE_POWERDOWN. CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG2) |= BIT(4) | BIT(0); // UTMIP_FORCE_PD_SAMP_A/C_POWERDOWN. CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG1) |= BIT(16); // UTMIP_FORCE_PLLU_POWERDOWN. // Disable crystal clock. USB(USB1_UTMIP_MISC_CFG1) &= 0xBFFFFFFF; // Force enable UTMIPLL IDDQ. CLOCK(CLK_RST_CONTROLLER_UTMIPLL_HW_PWRDN_CFG0) |= 3; // Set XUSB_PADCTL reset CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_SET) = BIT(CLK_W_XUSB_PADCTL); // Disable USBD clock. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_L_CLR) = BIT(CLK_L_USBD); // Disable PLLU. clock_disable_pllu(); usb_init_done = false; } static void _usbd_disable_ep1() { usbd_otg->regs->endptctrl[1] = 0; } static void _usbd_stall_reset_ep1(usb_dir_t direction, usb_ep_cfg_t stall) { stall &= 1; if (direction == USB_DIR_IN) { usbd_otg->regs->endptctrl[1] = (usbd_otg->regs->endptctrl[1] & ~USB2D_ENDPTCTRL_TX_EP_STALL) | ((u32)stall << 16); if (!stall) usbd_otg->regs->endptctrl[1] |= USB2D_ENDPTCTRL_TX_EP_RESET; } else { usbd_otg->regs->endptctrl[1] = (usbd_otg->regs->endptctrl[1] & ~USB2D_ENDPTCTRL_RX_EP_STALL) | stall; if (!stall) usbd_otg->regs->endptctrl[1] |= USB2D_ENDPTCTRL_RX_EP_RESET; } } void usb_device_stall_ep1_bulk_out() { _usbd_stall_reset_ep1(USB_DIR_OUT, USB_EP_CFG_STALL); } void usb_device_stall_ep1_bulk_in() { _usbd_stall_reset_ep1(USB_DIR_IN, USB_EP_CFG_STALL); } static int _usbd_get_max_pkt_length(int endpoint) { switch (endpoint) { case USB_EP_CTRL_OUT: case USB_EP_CTRL_IN: return 64; case USB_EP_BULK_OUT: case USB_EP_BULK_IN: if (usbd_otg->port_speed == USB_HIGH_SPEED) return 512; else return 64; default: return 64; } } static void _usbd_initialize_ep_ctrl(u32 endpoint) { usb_hw_ep_t actual_ep = (endpoint & 2) >> 1; usb_dir_t direction = endpoint & 1; memset((void *)&usbdaemon->qhs[endpoint], 0, sizeof(dQH_t)); if (!endpoint) usbdaemon->qhs[endpoint].ep_capabilities = USB_QHD_EP_CAP_IOS_ENABLE; usbdaemon->qhs[endpoint].next_dTD_ptr = 1; // TERMINATE_SET u32 max_packet_len = _usbd_get_max_pkt_length(endpoint) & USB_QHD_EP_CAP_MAX_PKT_LEN_MASK; usbdaemon->qhs[endpoint].ep_capabilities |= max_packet_len << 16; if (direction == USB_DIR_IN) { u32 endpoint_type = usbd_otg->regs->endptctrl[actual_ep] & ~USB2D_ENDPTCTRL_TX_EP_TYPE_MASK; if (actual_ep) endpoint_type |= usbd_otg->gadget ? USB2D_ENDPTCTRL_TX_EP_TYPE_INTR : USB2D_ENDPTCTRL_TX_EP_TYPE_BULK; else endpoint_type |= USB2D_ENDPTCTRL_TX_EP_TYPE_CTRL; usbd_otg->regs->endptctrl[actual_ep] = endpoint_type; usbd_otg->regs->endptctrl[actual_ep] &= ~USB2D_ENDPTCTRL_TX_EP_STALL; if (actual_ep == USB_HW_EP1) usbd_otg->regs->endptctrl[1] |= USB2D_ENDPTCTRL_TX_EP_RESET; usbd_otg->regs->endptctrl[actual_ep] |= USB2D_ENDPTCTRL_TX_EP_ENABLE; } else // EP Bulk OUT. { u32 endpoint_type = usbd_otg->regs->endptctrl[actual_ep] & ~USB2D_ENDPTCTRL_RX_EP_TYPE_MASK; if (actual_ep) endpoint_type |= usbd_otg->gadget ? USB2D_ENDPTCTRL_RX_EP_TYPE_INTR : USB2D_ENDPTCTRL_RX_EP_TYPE_BULK; else endpoint_type |= USB2D_ENDPTCTRL_RX_EP_TYPE_CTRL; usbd_otg->regs->endptctrl[actual_ep] = endpoint_type; usbd_otg->regs->endptctrl[actual_ep] &= ~USB2D_ENDPTCTRL_RX_EP_STALL; if (actual_ep == USB_HW_EP1) usbd_otg->regs->endptctrl[1] |= USB2D_ENDPTCTRL_RX_EP_RESET; usbd_otg->regs->endptctrl[actual_ep] |= USB2D_ENDPTCTRL_RX_EP_ENABLE; } } static int _usbd_initialize_ep0() { memset((void *)usbdaemon->qhs, 0, sizeof(dQH_t) * 4); // Clear all used EP queue heads. memset((void *)usbdaemon->dtds, 0, sizeof(dTD_t) * 4); // Clear all used EP0 token heads. usbd_otg->regs->asynclistaddr = (u32)usbdaemon->qhs; _usbd_initialize_ep_ctrl(USB_EP_CTRL_OUT); _usbd_initialize_ep_ctrl(USB_EP_CTRL_IN); // Disable Auto Low Power. usbd_otg->regs->hostpc1_devlc &= ~USB2D_HOSTPC1_DEVLC_ASUS; // Initiate an attach event. usbd_otg->regs->usbcmd |= USB2D_USBCMD_RUN; u32 retries = 100000; // 200ms timeout. while (!(usbd_otg->regs->usbcmd & USB2D_USBCMD_RUN)) { retries--; if (!retries) return USB_ERROR_TIMEOUT; usleep(1); } return USB_RES_OK; } // static void _disable_usb_wdt4() // { // if (TIMER_WDT4_STATUS & 1)// active // { // TIMER_TMR0_TMR_PTV &= 0x7FFFFFFF; // Disable timer // TIMER_WDT4_UNLOCK_PATTERN = 0xC45A; // Alow writes to disable counter bit. // TIMER_WDT4_COMMAND |= 2; // Disable counter // TIMER_TMR0_TMR_PCR |= 0x40000000;// INTR_CLR // } // } int usbd_flush_endpoint(u32 endpoint) { usb_hw_ep_t actual_ep = (endpoint & 2) >> 1; usb_dir_t direction = endpoint & 1; u32 reg_mask = endpoint; // Flash all endpoints or 1. if (endpoint != USB_EP_ALL) { if (direction == USB_DIR_IN) reg_mask = USB2D_ENDPT_STATUS_TX_OFFSET << actual_ep; else reg_mask = USB2D_ENDPT_STATUS_RX_OFFSET << actual_ep; } usbd_otg->regs->endptflush = reg_mask; u32 retries = 100000; // 200ms timeout. while (usbd_otg->regs->endptflush & reg_mask) { retries--; if (!retries) return USB_ERROR_TIMEOUT; usleep(1); } // Wait for the endpoint to finish all transactions (buffer not ready). retries = 100000; // 200ms timeout. while (usbd_otg->regs->endptstatus & reg_mask) { retries--; if (!retries) return USB_ERROR_TIMEOUT; usleep(1); } // Wait for the endpoint to clear the primed status. retries = 100000; // 200ms timeout. while (usbd_otg->regs->endptprime & reg_mask) { retries--; if (!retries) return USB_ERROR_TIMEOUT; usleep(1); } return USB_RES_OK; } static void _usb_reset_disable_ep1() { usbd_flush_endpoint(USB_EP_ALL); _usbd_stall_reset_ep1(USB_DIR_OUT, USB_EP_CFG_RESET); // EP1 Bulk OUT. _usbd_stall_reset_ep1(USB_DIR_IN, USB_EP_CFG_RESET); // EP1 Bulk IN. _usbd_disable_ep1(); usbd_otg->config_num = 0; usbd_otg->interface_num = 0; usbd_otg->configuration_set = false; usbd_otg->max_lun_set = false; } void usbd_end(bool reset_ep, bool only_controller) { if (reset_ep) _usb_reset_disable_ep1(); // Stop device controller. usbd_otg->regs->usbcmd &= ~USB2D_USBCMD_RUN; // Enable PHY auto low power suspend. usbd_otg->regs->hostpc1_devlc |= USB2D_HOSTPC1_DEVLC_ASUS; if (!only_controller) _usb_device_power_down(); } static void _usbd_mark_ep_complete(u32 endpoint) { u32 complete_bit; usb_hw_ep_t actual_ep = (endpoint & 2) >> 1; usb_dir_t direction = endpoint & 1; usbd_flush_endpoint(endpoint); memset((void *)&usbdaemon->dtds[endpoint * 4], 0, sizeof(dTD_t) * 4); memset((void *)&usbdaemon->qhs[endpoint], 0, sizeof(dQH_t)); usbdaemon->ep_configured[endpoint] = 0; usbdaemon->ep_bytes_requested[endpoint] = 0; if (direction == USB_DIR_IN) complete_bit = USB2D_ENDPT_STATUS_TX_OFFSET << actual_ep; else complete_bit = USB2D_ENDPT_STATUS_RX_OFFSET << actual_ep; usbd_otg->regs->endptcomplete |= complete_bit; } static usb_ep_status_t _usbd_get_ep_status(usb_ep_t endpoint) { bool status; u32 reg_val; u32 reg_mask; u32 actual_ep = (endpoint & 2) >> 1; usb_dir_t direction = endpoint & 1; if (direction == USB_DIR_IN) reg_mask = USB2D_ENDPT_STATUS_TX_OFFSET << actual_ep; else reg_mask = USB2D_ENDPT_STATUS_RX_OFFSET << actual_ep; if (actual_ep == USB_HW_EP1) reg_val = usbd_otg->regs->endptctrl[1]; else reg_val = usbd_otg->regs->endptctrl[0]; // Check stalled status. if (direction == USB_DIR_IN) status = reg_val & USB2D_ENDPTCTRL_TX_EP_STALL; else status = reg_val & USB2D_ENDPTCTRL_RX_EP_STALL; if (status) return USB_EP_STATUS_STALLED; // Check enabled status. if (direction == USB_DIR_IN) status = reg_val & USB2D_ENDPTCTRL_TX_EP_ENABLE; else status = reg_val & USB2D_ENDPTCTRL_RX_EP_ENABLE; if (!status) return USB_EP_STATUS_DISABLED; // CHeck qHD error status. u32 token_error_mask = USB_QHD_TOKEN_HALTED | USB_QHD_TOKEN_BUFFER_ERROR | USB_QHD_TOKEN_XFER_ERROR; if (usbdaemon->qhs[endpoint].token & token_error_mask) return USB_EP_STATUS_ERROR; // Check if endpoint has a request or a ready buffer. if ((usbd_otg->regs->endptprime & reg_mask) || (usbd_otg->regs->endptstatus & reg_mask)) return USB_EP_STATUS_ACTIVE; // RX/TX active. // Return idle or not configured status. if (!usbdaemon->ep_configured[endpoint]) return USB_EP_STATUS_NO_CONFIG; return USB_EP_STATUS_IDLE; } static int _usbd_ep_operation(usb_ep_t endpoint, u8 *buf, u32 len, u32 sync_timeout) { if (!buf) len = 0; u32 prime_bit; usb_hw_ep_t actual_ep = (endpoint & 2) >> 1; usb_dir_t direction = endpoint & 1; u32 length_left = len; u32 dtd_ep_idx = endpoint * 4; _usbd_mark_ep_complete(endpoint); if (endpoint == USB_EP_CTRL_OUT) usbdaemon->qhs[endpoint].ep_capabilities = USB_QHD_EP_CAP_IOS_ENABLE; u32 max_packet_len = _usbd_get_max_pkt_length(endpoint) & USB_QHD_EP_CAP_MAX_PKT_LEN_MASK; usbdaemon->qhs[endpoint].ep_capabilities |= (max_packet_len << 16) | USB_QHD_EP_CAP_ZERO_LEN_TERM_DIS; usbdaemon->qhs[endpoint].next_dTD_ptr = 0; // Clear terminate bit. //usbdaemon->qhs[endpoint].ep_capabilities |= USB_QHD_TOKEN_IRQ_ON_COMPLETE; usbdaemon->ep_configured[endpoint] = 1; usbdaemon->ep_bytes_requested[endpoint] = len; // Configure dTD. u32 dtd_idx = 0; do { if (dtd_idx) usbdaemon->dtds[dtd_ep_idx + dtd_idx - 1].next_dTD = (u32)&usbdaemon->dtds[dtd_ep_idx + dtd_idx]; u32 dtd_size = MIN(length_left, USB_TD_BUFFER_MAX_SIZE); // 16KB max per dTD. usbdaemon->dtds[dtd_ep_idx + dtd_idx].info = (dtd_size << 16) | USB_QHD_TOKEN_ACTIVE; // usbdaemon->dtds[dtd_ep_idx + dtd_idx].info |= USB_QHD_TOKEN_IRQ_ON_COMPLETE; // Set buffers addresses to all page pointers. u32 dt_buffer_offset = dtd_idx * USB_TD_BUFFER_MAX_SIZE; for (u32 i = 0; i < 4; i++) usbdaemon->dtds[dtd_ep_idx + dtd_idx].pages[i] = !buf ? 0 : (u32)&buf[dt_buffer_offset + (USB_TD_BUFFER_PAGE_SIZE * i)]; //usbdaemon->dtds[dtd_ep_idx + dtd_idx].pages[5] = // (u32)&buf[dt_buffer_offset + (USB_TD_BUFFER_PAGE_SIZE * 4)]; // Last buffer. Unused. length_left -= dtd_size; if (length_left) dtd_idx++; } while (length_left); // Last dTD, terminate it. usbdaemon->dtds[dtd_ep_idx + dtd_idx].next_dTD = 1; // Set first dTD address to queue head next dTD. usbdaemon->qhs[endpoint].next_dTD_ptr |= (u32)&usbdaemon->dtds[dtd_ep_idx] & 0xFFFFFFE0; // Flush AHB prefetcher. AHB_GIZMO(AHB_AHB_MEM_PREFETCH_CFG1) &= ~MEM_PREFETCH_ENABLE; AHB_GIZMO(AHB_AHB_MEM_PREFETCH_CFG1) |= MEM_PREFETCH_ENABLE; if (direction == USB_DIR_IN) prime_bit = USB2D_ENDPT_STATUS_TX_OFFSET << actual_ep; else prime_bit = USB2D_ENDPT_STATUS_RX_OFFSET << actual_ep; // Flush data before priming EP. bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLEAN_WAY, false); // Prime endpoint. usbd_otg->regs->endptprime |= prime_bit; // USB2_CONTROLLER_USB2D_ENDPTPRIME. int res = USB_RES_OK; usb_ep_status_t ep_status; if (sync_timeout) { ep_status = _usbd_get_ep_status(endpoint); if (ep_status == USB_EP_STATUS_ACTIVE) { u32 retries = sync_timeout; while (retries) { ep_status = _usbd_get_ep_status(endpoint); if (ep_status != USB_EP_STATUS_ACTIVE) { if (ep_status == USB_EP_STATUS_DISABLED) res = USB2_ERROR_XFER_EP_DISABLED; goto out; } retries--; usleep(1); } res = USB_ERROR_TIMEOUT; } else if (ep_status == USB_EP_STATUS_DISABLED) res = USB2_ERROR_XFER_EP_DISABLED; out: if (res) _usbd_mark_ep_complete(endpoint); else if (_usbd_get_ep_status(endpoint) != USB_EP_STATUS_IDLE) res = USB_ERROR_XFER_ERROR; // Invalidate data after OP is done. if (direction == USB_DIR_OUT) bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, false); } return res; } static int _usbd_ep_ack(usb_ep_t ep) { return _usbd_ep_operation(ep, NULL, 0, USB_XFER_SYNCED_ENUM); } static void _usbd_set_ep0_stall() { // EP Control endpoints must be always stalled together. usbd_otg->regs->endptctrl[0] = USB2D_ENDPTCTRL_TX_EP_ENABLE | USB2D_ENDPTCTRL_TX_EP_STALL | USB2D_ENDPTCTRL_RX_EP_ENABLE | USB2D_ENDPTCTRL_RX_EP_STALL; } int usbd_set_ep_stall(u32 endpoint, int ep_stall) { usb_hw_ep_t actual_ep = (endpoint & 2) >> 1; usb_dir_t direction = endpoint & 1; if (ep_stall) { if (direction == USB_DIR_IN) usbd_otg->regs->endptctrl[actual_ep] |= USB2D_ENDPTCTRL_TX_EP_STALL; // Stall EP Bulk IN. else usbd_otg->regs->endptctrl[actual_ep] |= USB2D_ENDPTCTRL_RX_EP_STALL; // Stall EP Bulk OUT. } else { if (direction == USB_DIR_IN) usbd_otg->regs->endptctrl[actual_ep] &= ~USB2D_ENDPTCTRL_TX_EP_STALL; // Clear stall EP Bulk IN. else usbd_otg->regs->endptctrl[actual_ep] &= ~USB2D_ENDPTCTRL_RX_EP_STALL; // Clear stall EP Bulk OUT. } return USB_RES_OK; } static void _usbd_handle_get_class_request(bool *transmit_data, u8 *desc, int *size, bool *ep_stall) { u8 _bRequest = usbd_otg->control_setup.bRequest; u16 _wIndex = usbd_otg->control_setup.wIndex; u16 _wValue = usbd_otg->control_setup.wValue; u16 _wLength = usbd_otg->control_setup.wLength; bool valid_interface = _wIndex == usbd_otg->interface_num; bool valid_val = (_bRequest >= USB_REQUEST_BULK_GET_MAX_LUN) ? (!_wValue) : true; if (!valid_interface || !valid_val) { *ep_stall = true; return; } switch (_bRequest) { case USB_REQUEST_INTR_GET_REPORT: if (usbd_otg->hid_rpt_size != _wLength) break; // _wValue unused as there's only one report type and id. *transmit_data = true; *size = usbd_otg->hid_rpt_size; memcpy(desc, usbd_otg->hid_rpt_buffer, usbd_otg->hid_rpt_size); return; case USB_REQUEST_INTR_SET_IDLE: if (_wLength) break; usbd_otg->intr_idle_rate = (_wValue & 0xFF) * 4 * 1000; // Only one interface so upper byte ignored. usbd_otg->intr_idle_req = true; _usbd_ep_ack(USB_EP_CTRL_IN); return; // DELAYED_STATUS; case USB_REQUEST_BULK_RESET: if (_wLength) break; _usbd_ep_ack(USB_EP_CTRL_IN); usbd_otg->bulk_reset_req = true; return; // DELAYED_STATUS; case USB_REQUEST_BULK_GET_MAX_LUN: if (_wLength != 1) break; *transmit_data = true; *size = 1; desc[0] = usbd_otg->max_lun; // Set 0 LUN for 1 drive supported. usbd_otg->max_lun_set = true; return; default: break; } *ep_stall = true; } static void _usbd_handle_get_descriptor(bool *transmit_data, void **desc, int *size, bool *ep_stall) { u8 descriptor_type = usbd_otg->control_setup.wValue >> 8; u8 descriptor_subtype = usbd_otg->control_setup.wValue & 0xFF; switch (descriptor_type) { case USB_DESCRIPTOR_DEVICE: { /* u32 soc_rev = APB_MISC(APB_MISC_GP_HIDREV); usb_device_descriptor.idProduct = (soc_rev >> 8) & 0xFF; // chip_id. usb_device_descriptor.idProduct |= ((soc_rev << 4) | (FUSE(FUSE_SKU_INFO) & 0xF)) << 8; // HIDFAM. usb_device_descriptor.bcdDevice = (soc_rev >> 16) & 0xF; // MINORREV. usb_device_descriptor.bcdDevice |= ((soc_rev >> 4) & 0xF) << 8; // MAJORREV. */ *desc = usbd_otg->desc->dev; *size = usbd_otg->desc->dev->bLength; *transmit_data = true; return; } case USB_DESCRIPTOR_CONFIGURATION: if (usbd_otg->gadget == USB_GADGET_UMS) { if (usbd_otg->port_speed == USB_HIGH_SPEED) // High speed. 512 bytes. { for (u32 i = 0; i < usbd_otg->desc->cfg->interface.bNumEndpoints; i++) usbd_otg->desc->cfg->endpoint[i].wMaxPacketSize = 0x200; // No burst. } else // Full speed. 64 bytes. { for (u32 i = 0; i < usbd_otg->desc->cfg->interface.bNumEndpoints; i++) usbd_otg->desc->cfg->endpoint[i].wMaxPacketSize = 0x40; } } else { usb_cfg_hid_descr_t *tmp = (usb_cfg_hid_descr_t *)usbd_otg->desc->cfg; if (usbd_otg->port_speed == USB_HIGH_SPEED) // High speed. 512 bytes. { for (u32 i = 0; i < tmp->interface.bNumEndpoints; i++) { tmp->endpoint[i].wMaxPacketSize = 0x200; tmp->endpoint[i].bInterval = usbd_otg->gadget == USB_GADGET_HID_GAMEPAD ? 4 : 3; // 8ms : 4ms. } } else // Full speed. 64 bytes. { for (u32 i = 0; i < tmp->interface.bNumEndpoints; i++) { tmp->endpoint[i].wMaxPacketSize = 0x40; tmp->endpoint[i].bInterval = usbd_otg->gadget == USB_GADGET_HID_GAMEPAD ? 8 : 4; // 8ms : 4ms. } } } *desc = usbd_otg->desc->cfg; *size = usbd_otg->desc->cfg->config.wTotalLength; *transmit_data = true; return; case USB_DESCRIPTOR_STRING: switch (descriptor_subtype) { case 1: *desc = usbd_otg->desc->vendor; *size = usbd_otg->desc->vendor[0]; break; case 2: *desc = usbd_otg->desc->product; *size = usbd_otg->desc->product[0]; break; case 3: *desc = usbd_otg->desc->serial; *size = usbd_otg->desc->serial[0]; break; case 0xEE: *desc = usbd_otg->desc->ms_os; *size = usbd_otg->desc->ms_os->bLength; break; default: *desc = usbd_otg->desc->lang_id; *size = 4; break; } *transmit_data = true; return; case USB_DESCRIPTOR_DEVICE_QUALIFIER: if (!usbd_otg->desc->dev_qual) goto exit; usbd_otg->desc->dev_qual->bNumOtherConfigs = 1; *desc = usbd_otg->desc->dev_qual; *size = usbd_otg->desc->dev_qual->bLength; *transmit_data = true; return; case USB_DESCRIPTOR_OTHER_SPEED_CONFIGURATION: if (!usbd_otg->desc->cfg_other) goto exit; if (usbd_otg->port_speed == USB_HIGH_SPEED) { for (u32 i = 0; i < usbd_otg->desc->cfg_other->interface.bNumEndpoints; i++) usbd_otg->desc->cfg_other->endpoint[i].wMaxPacketSize = 0x40; } else { for (u32 i = 0; i < usbd_otg->desc->cfg_other->interface.bNumEndpoints; i++) usbd_otg->desc->cfg_other->endpoint[i].wMaxPacketSize = 0x200; } if ((usbd_otg->charger_detect & 1) && (usbd_otg->charger_detect & 2)) usbd_otg->desc->cfg_other->config.bMaxPower = 500 / 2; *desc = usbd_otg->desc->cfg_other; *size = usbd_otg->desc->cfg_other->config.wTotalLength; *transmit_data = true; return; case USB_DESCRIPTOR_DEVICE_BINARY_OBJECT: *desc = usbd_otg->desc->dev_bot; *size = usbd_otg->desc->dev_bot->wTotalLength; *transmit_data = true; return; default: *transmit_data = false; *ep_stall = true; return; } exit: *transmit_data = false; *ep_stall = true; return; } static int _usbd_handle_set_request(bool *ep_stall) { int res = USB_RES_OK; u8 bRequest = usbd_otg->control_setup.bRequest; if (bRequest == USB_REQUEST_SET_ADDRESS) { res = _usbd_ep_ack(USB_EP_CTRL_IN); // Set USB address for device mode. if (!res) usbd_otg->regs->periodiclistbase = (usbd_otg->regs->periodiclistbase & 0x1FFFFFF) | ((usbd_otg->control_setup.wValue & 0xFF) << 25); } else if (bRequest == USB_REQUEST_SET_CONFIGURATION) { res = _usbd_ep_ack(USB_EP_CTRL_IN); if (!res) { usbd_otg->config_num = usbd_otg->control_setup.wValue; // Remove configuration. if (!usbd_otg->config_num) { //! TODO: Signal that to userspace. _usb_reset_disable_ep1(); return res; } // Initialize configuration. _usbd_initialize_ep_ctrl(USB_EP_BULK_OUT); _usbd_initialize_ep_ctrl(USB_EP_BULK_IN); usbd_otg->configuration_set = true; } } else *ep_stall = true; return res; } static int _usbd_handle_ep0_control_transfer() { int res = USB_RES_OK; bool ep_stall = false; bool transmit_data = false; u8 *desc = (u8 *)USB_DESCRIPTOR_ADDR; int size = 0; u8 _bmRequestType = usbd_otg->control_setup.bmRequestType; u8 _bRequest = usbd_otg->control_setup.bRequest; u16 _wValue = usbd_otg->control_setup.wValue; u16 _wIndex = usbd_otg->control_setup.wIndex; u16 _wLength = usbd_otg->control_setup.wLength; //gfx_printf("%02X %02X %04X %04X %04X\n", _bmRequestType, _bRequest, _wValue, _wIndex, _wLength); switch (_bmRequestType) { case (USB_SETUP_HOST_TO_DEVICE | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_DEVICE): // 0x00. res = _usbd_handle_set_request(&ep_stall); break; case (USB_SETUP_HOST_TO_DEVICE | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_INTERFACE): // 0x01. res = _usbd_ep_ack(USB_EP_CTRL_IN); if (!res) usbd_otg->interface_num = _wValue; break; case (USB_SETUP_HOST_TO_DEVICE | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_ENDPOINT): // 0x02. switch (_bRequest) { case USB_REQUEST_CLEAR_FEATURE: case USB_REQUEST_SET_FEATURE: if ((_wValue & 0xFF) == USB_FEATURE_ENDPOINT_HALT) { int direction; switch (_wIndex) // endpoint { case USB_EP_ADDR_CTRL_OUT: direction = 2; break; case USB_EP_ADDR_CTRL_IN: direction = 3; break; case USB_EP_ADDR_BULK_OUT: direction = 0; break; case USB_EP_ADDR_BULK_IN: direction = 1; break; default: _usbd_stall_reset_ep1(3, USB_EP_CFG_STALL); goto out; } if (_bRequest == USB_REQUEST_CLEAR_FEATURE) _usbd_stall_reset_ep1(direction, USB_EP_CFG_RESET); else _usbd_stall_reset_ep1(direction, USB_EP_CFG_STALL); res = _usbd_ep_ack(USB_EP_CTRL_IN); } else _usbd_stall_reset_ep1(3, USB_EP_CFG_STALL); break; default: ep_stall = true; break; } break; case (USB_SETUP_HOST_TO_DEVICE | USB_SETUP_TYPE_CLASS | USB_SETUP_RECIPIENT_INTERFACE): // 0x21. memset(desc, 0, _wLength); _usbd_handle_get_class_request(&transmit_data, desc, &size, &ep_stall); break; case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_DEVICE): // 0x80. switch (_bRequest) { case USB_REQUEST_GET_STATUS: desc[0] = USB_STATUS_DEV_SELF_POWERED; desc[1] = 0; // No support for remove wake up. transmit_data = true; size = 2; break; case USB_REQUEST_GET_DESCRIPTOR: _usbd_handle_get_descriptor(&transmit_data, (void **)&desc, &size, &ep_stall); break; case USB_REQUEST_GET_CONFIGURATION: desc = (u8 *)&usbd_otg->config_num; size = _wLength; transmit_data = true; break; default: ep_stall = true; break; } break; case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_INTERFACE): // 0x81. if (_bRequest == USB_REQUEST_GET_INTERFACE) { memset(desc, 0, _wLength); desc[0] = usbd_otg->interface_num; size = _wLength; } else if (_bRequest == USB_REQUEST_GET_STATUS) { memset(desc, 0, _wLength); size = _wLength; } else if (_bRequest == USB_REQUEST_GET_DESCRIPTOR && (_wValue >> 8) == USB_DESCRIPTOR_HID_REPORT && usbd_otg->gadget >= USB_GADGET_HID_GAMEPAD) { if (usbd_otg->gadget == USB_GADGET_HID_GAMEPAD) { desc = (u8 *)&hid_report_descriptor_jc; size = hid_report_descriptor_jc_size; } else // USB_GADGET_HID_TOUCHPAD { desc = (u8 *)&hid_report_descriptor_touch; size = hid_report_descriptor_touch_size; } usbd_otg->hid_report_sent = true; } else { ep_stall = true; break; } if (_wLength < size) size = _wLength; transmit_data = true; break; case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_ENDPOINT): // 0x82. if (_bRequest == USB_REQUEST_GET_STATUS) { int ep_req; switch (_wIndex) { case USB_EP_ADDR_CTRL_OUT: ep_req = USB_EP_CTRL_OUT; break; case USB_EP_ADDR_BULK_OUT: ep_req = USB_EP_BULK_OUT; break; case USB_EP_ADDR_CTRL_IN: ep_req = USB_EP_CTRL_IN; break; case USB_EP_ADDR_BULK_IN: ep_req = USB_EP_BULK_IN; break; default: _usbd_stall_reset_ep1(3, USB_EP_CFG_STALL); goto out; } size = _wLength; memset(desc, 0, size); if (_usbd_get_ep_status(ep_req) == USB_EP_STATUS_STALLED) desc[0] = USB_STATUS_EP_HALTED; else desc[0] = USB_STATUS_EP_OK; transmit_data = true; } else _usbd_stall_reset_ep1(3, USB_EP_CFG_STALL); break; case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_CLASS | USB_SETUP_RECIPIENT_INTERFACE): // 0xA1. memset(desc, 0, _wLength); _usbd_handle_get_class_request(&transmit_data, desc, &size, &ep_stall); break; case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_VENDOR | USB_SETUP_RECIPIENT_DEVICE): // 0xC0. case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_VENDOR | USB_SETUP_RECIPIENT_INTERFACE): // 0xC1. if (_bRequest == USB_REQUEST_GET_MS_DESCRIPTOR) { switch (_wIndex) { case USB_DESCRIPTOR_MS_COMPAT_ID: desc = (u8 *)usbd_otg->desc->ms_cid; size = usbd_otg->desc->ms_cid->dLength; transmit_data = true; break; case USB_DESCRIPTOR_MS_EXTENDED_PROPERTIES: desc = (u8 *)usbd_otg->desc->mx_ext; size = usbd_otg->desc->mx_ext->dLength; transmit_data = true; break; default: ep_stall = true; break; } } else ep_stall = true; break; default: ep_stall = true; break; } // Transmit data to HOST if any. if (transmit_data) { memcpy(usb_ep0_ctrl_buf, desc, size); if (_wLength < size) size = _wLength; res = _usbd_ep_operation(USB_EP_CTRL_IN, usb_ep0_ctrl_buf, size, USB_XFER_SYNCED_ENUM); if (!res) res = _usbd_ep_ack(USB_EP_CTRL_OUT); } out: if (ep_stall) _usbd_set_ep0_stall(); return res; } static int _usbd_ep0_initialize() { bool enter = false; if (usbd_otg->configuration_set) enter = true; else { usbdaemon->qhs = (volatile dQH_t *)USB2_QH_USB2D_QH_EP_BASE; if (!_usbd_initialize_ep0()) enter = true; } if (enter) { usbd_otg->configuration_set = false; usbd_otg->max_lun_set = false; // Timeout if cable or communication isn't started in 1.5 minutes. u32 timer = get_tmr_ms() + 90000; while (true) { u32 usb_status_irqs = usbd_otg->regs->usbsts; // Clear all interrupt statuses. usbd_otg->regs->usbsts = usb_status_irqs; // Check if a reset was received. if (usb_status_irqs & USB2D_USBSTS_URI) { //_disable_usb_wdt4(); // Clear all device addresses, enabled setup requests, transmit events and flush all endpoints. usbd_otg->regs->periodiclistbase = 0; usbd_otg->regs->endptsetupstat = usbd_otg->regs->endptsetupstat; usbd_otg->regs->endptcomplete = usbd_otg->regs->endptcomplete; usbd_flush_endpoint(USB_EP_ALL); } // Check if port change happened. if (usb_status_irqs & USB2D_USBSTS_PCI) usbd_otg->port_speed = (usbd_otg->regs->hostpc1_devlc & USB2D_HOSTPC1_DEVLC_PSPD_MASK) >> 25; // Acknowledge setup request for EP0 and copy its configuration. u32 ep0_setup_req = usbd_otg->regs->endptsetupstat; if (ep0_setup_req & 1) { usbd_otg->regs->endptsetupstat = ep0_setup_req; memcpy(&usbd_otg->control_setup, (void *)usbdaemon->qhs->setup, 8); if (_usbd_handle_ep0_control_transfer()) break; } if (usbd_otg->configuration_set) return USB_RES_OK; if (timer < get_tmr_ms() || btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) return USB_ERROR_USER_ABORT; } } return USB_ERROR_TIMEOUT; } int usb_device_enumerate(usb_gadget_type gadget) { switch (gadget) { case USB_GADGET_UMS: usbd_otg->desc = &usb_gadget_ums_descriptors; break; case USB_GADGET_HID_GAMEPAD: usbd_otg->desc = &usb_gadget_hid_jc_descriptors; break; case USB_GADGET_HID_TOUCHPAD: usbd_otg->desc = &usb_gadget_hid_touch_descriptors; break; } usbd_otg->gadget = gadget; return _usbd_ep0_initialize(); } int usbd_handle_ep0_ctrl_setup(u32 *data) { // Acknowledge setup request for EP0 and copy its configuration. u32 ep0_setup_req = usbd_otg->regs->endptsetupstat; if (ep0_setup_req & 1) { usbd_otg->regs->endptsetupstat = ep0_setup_req; memcpy(&usbd_otg->control_setup, (void *)usbdaemon->qhs->setup, 8); _usbd_handle_ep0_control_transfer(); memset(usb_ep0_ctrl_buf, 0, USB_TD_BUFFER_PAGE_SIZE); } if (usbd_otg->intr_idle_req) { if (data) *data = usbd_otg->intr_idle_rate; usbd_otg->intr_idle_req = false; return USB_RES_OK; } // Only return error if bulk reset was requested. if (usbd_otg->bulk_reset_req) { usbd_otg->bulk_reset_req = false; return USB_RES_BULK_RESET; } return USB_RES_OK; } static usb_ep_status_t _usbd_get_ep1_status(usb_dir_t dir) { usb_ep_t ep; if (dir == USB_DIR_OUT) ep = USB_EP_BULK_OUT; else ep = USB_EP_BULK_IN; return _usbd_get_ep_status(ep); } int usb_device_ep1_out_read(u8 *buf, u32 len, u32 *bytes_read, u32 sync_timeout) { if ((u32)buf % USB_EP_BUFFER_ALIGN) return USB2_ERROR_XFER_NOT_ALIGNED; if (len > USB_EP_BUFFER_MAX_SIZE) len = USB_EP_BUFFER_MAX_SIZE; int res = _usbd_ep_operation(USB_EP_BULK_OUT, buf, len, sync_timeout); if (sync_timeout && bytes_read) *bytes_read = res ? 0 : len; return res; } int usb_device_ep1_out_read_big(u8 *buf, u32 len, u32 *bytes_read) { if ((u32)buf % USB_EP_BUFFER_ALIGN) return USB2_ERROR_XFER_NOT_ALIGNED; if (len > USB_EP_BULK_OUT_MAX_XFER) len = USB_EP_BULK_OUT_MAX_XFER; int res; u32 bytes = 0; *bytes_read = 0; u8 *buf_curr = buf; while (len) { u32 len_ep = MIN(len, USB_EP_BUFFER_MAX_SIZE); res = usb_device_ep1_out_read(buf_curr, len_ep, &bytes, USB_XFER_SYNCED_DATA); if (res) return res; len -= len_ep; buf_curr += len_ep; *bytes_read = *bytes_read + bytes; } return USB_RES_OK; } static int _usbd_get_ep1_out_bytes_read() { if (_usbd_get_ep_status(USB_EP_BULK_OUT) != USB_EP_STATUS_IDLE) return 0; else return (usbdaemon->ep_bytes_requested[USB_EP_BULK_OUT] - (usbdaemon->qhs[USB_EP_BULK_OUT].token >> 16)); } int usb_device_ep1_out_reading_finish(u32 *pending_bytes, u32 sync_timeout) { usb_ep_status_t ep_status; do { ep_status = _usbd_get_ep1_status(USB_DIR_OUT); if ((ep_status == USB_EP_STATUS_IDLE) || (ep_status == USB_EP_STATUS_DISABLED)) break; usbd_handle_ep0_ctrl_setup(NULL); } while ((ep_status == USB_EP_STATUS_ACTIVE) || (ep_status == USB_EP_STATUS_STALLED)); *pending_bytes = _usbd_get_ep1_out_bytes_read(); bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, false); if (ep_status == USB_EP_STATUS_IDLE) return USB_RES_OK; else if (ep_status == USB_EP_STATUS_DISABLED) return USB2_ERROR_XFER_EP_DISABLED; else return USB_ERROR_XFER_ERROR; } int usb_device_ep1_in_write(u8 *buf, u32 len, u32 *bytes_written, u32 sync_timeout) { if ((u32)buf % USB_EP_BUFFER_ALIGN) return USB2_ERROR_XFER_NOT_ALIGNED; if (len > USB_EP_BUFFER_MAX_SIZE) len = USB_EP_BUFFER_MAX_SIZE; int res = _usbd_ep_operation(USB_EP_BULK_IN, buf, len, sync_timeout); if (sync_timeout && bytes_written) *bytes_written = res ? 0 : len; return res; } static int _usbd_get_ep1_in_bytes_written() { if (_usbd_get_ep_status(USB_EP_BULK_IN) != USB_EP_STATUS_IDLE) return 0; else return (usbdaemon->ep_bytes_requested[USB_EP_BULK_IN] - (usbdaemon->qhs[USB_EP_BULK_IN].token >> 16)); } int usb_device_ep1_in_writing_finish(u32 *pending_bytes, u32 sync_timeout) { usb_ep_status_t ep_status; do { ep_status = _usbd_get_ep1_status(USB_DIR_IN); if ((ep_status == USB_EP_STATUS_IDLE) || (ep_status == USB_EP_STATUS_DISABLED)) break; usbd_handle_ep0_ctrl_setup(NULL); } while ((ep_status == USB_EP_STATUS_ACTIVE) || (ep_status == USB_EP_STATUS_STALLED)); *pending_bytes = _usbd_get_ep1_in_bytes_written(); if (ep_status == USB_EP_STATUS_IDLE) return USB_RES_OK; else if (ep_status == USB_EP_STATUS_DISABLED) return USB2_ERROR_XFER_EP_DISABLED; usb_device_stall_ep1_bulk_out(); return USB_ERROR_XFER_ERROR; } bool usb_device_get_suspended() { bool suspended = (usbd_otg->regs->portsc1 & USB2D_PORTSC1_SUSP) == USB2D_PORTSC1_SUSP; return suspended; } bool usb_device_get_port_in_sleep() { // Windows heuristic: Forces port into suspend, sleep and J-State. return (usbd_otg->regs->portsc1) == 0x885; } int usb_device_class_send_max_lun(u8 max_lun) { // Timeout if get MAX_LUN request doesn't happen in 10s. u32 timer = get_tmr_ms() + 10000; usbd_otg->max_lun = max_lun; while (!usbd_otg->max_lun_set) { usbd_handle_ep0_ctrl_setup(NULL); if (timer < get_tmr_ms() || btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) return USB_ERROR_USER_ABORT; } return USB_RES_OK; } int usb_device_class_send_hid_report(void *rpt_buffer, u32 rpt_size) { // Set buffers. usbd_otg->hid_rpt_buffer = rpt_buffer; usbd_otg->hid_rpt_size = rpt_size; // Timeout if get GET_HID_REPORT request doesn't happen in 10s. u32 timer = get_tmr_ms() + 10000; // Wait for request and transfer start. while (!usbd_otg->hid_report_sent) { usbd_handle_ep0_ctrl_setup(NULL); if (timer < get_tmr_ms() || btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) return USB_ERROR_USER_ABORT; } return USB_RES_OK; } void usb_device_get_ops(usb_ops_t *ops) { ops->usbd_flush_endpoint = usbd_flush_endpoint; ops->usbd_set_ep_stall = usbd_set_ep_stall; ops->usbd_handle_ep0_ctrl_setup = usbd_handle_ep0_ctrl_setup; ops->usbd_end = usbd_end; ops->usb_device_init = usb_device_init; ops->usb_device_enumerate = usb_device_enumerate; ops->usb_device_class_send_max_lun = usb_device_class_send_max_lun; ops->usb_device_class_send_hid_report = usb_device_class_send_hid_report; ops->usb_device_get_suspended = usb_device_get_suspended; ops->usb_device_get_port_in_sleep = usb_device_get_port_in_sleep; ops->usb_device_ep1_out_read = usb_device_ep1_out_read; ops->usb_device_ep1_out_read_big = usb_device_ep1_out_read_big; ops->usb_device_ep1_out_reading_finish = usb_device_ep1_out_reading_finish; ops->usb_device_ep1_in_write = usb_device_ep1_in_write; ops->usb_device_ep1_in_writing_finish = usb_device_ep1_in_writing_finish; } ================================================ FILE: bdk/usb/usbd.h ================================================ /* * Enhanced & eXtensible USB Device (EDCI & XDCI) driver for Tegra X1 * * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _USB_H_ #define _USB_H_ #include #define USB_TD_BUFFER_PAGE_SIZE 0x1000 #define USB_TD_BUFFER_MAX_SIZE (USB_TD_BUFFER_PAGE_SIZE * 4) //#define USB_HW_BUFFER_5_PAGES 0x5000 #define USB_EP_BUFFER_1_TD (USB_TD_BUFFER_MAX_SIZE) #define USB_EP_BUFFER_2_TD (USB_TD_BUFFER_MAX_SIZE * 2) #define USB_EP_BUFFER_4_TD (USB_TD_BUFFER_MAX_SIZE * 4) #define USB_EP_BUFFER_MAX_SIZE (USB_EP_BUFFER_4_TD) #define USB_EP_BUFFER_ALIGN (USB_TD_BUFFER_PAGE_SIZE) #define USB_XFER_START 0 #define USB_XFER_SYNCED_ENUM 1000000 // ~2s. #define USB_XFER_SYNCED_CMD 1000000 // ~2s. #define USB_XFER_SYNCED_DATA 2000000 // ~4s. #define USB_XFER_SYNCED_CLASS 5000000 // ~10s. #define USB_XFER_SYNCED -1 // Max. typedef enum _usb_hid_type { USB_HID_GAMEPAD, USB_HID_TOUCHPAD } usb_hid_type; typedef enum _usb_gadget_type { USB_GADGET_UMS = 0, USB_GADGET_HID_GAMEPAD = 1, USB_GADGET_HID_TOUCHPAD = 2, } usb_gadget_type; typedef enum { USB_DIR_OUT = 0, USB_DIR_IN = 1, } usb_dir_t; typedef enum { XUSB_EP_CTRL_IN = 0, // EP0. XUSB_EP_CTRL_OUT = 1, // EP0. USB_EP_CTRL_OUT = 0, // EP0. USB_EP_CTRL_IN = 1, // EP0. USB_EP_BULK_OUT = 2, // EP1. USB_EP_BULK_IN = 3, // EP1. USB_EP_ALL = 0xFFFFFFFF } usb_ep_t; typedef enum { USB_EP_ADDR_CTRL_OUT = 0x00, USB_EP_ADDR_CTRL_IN = 0x80, USB_EP_ADDR_BULK_OUT = 0x01, USB_EP_ADDR_BULK_IN = 0x81, } usb_ep_addr_t; typedef enum { USB_EP_CFG_CLEAR = 0, USB_EP_CFG_RESET = 0, USB_EP_CFG_STALL = 1 } usb_ep_cfg_t; typedef enum { USB_STATUS_EP_OK = 0, USB_STATUS_EP_HALTED = 1, USB_STATUS_DEV_SELF_POWERED = 1, USB_STATUS_DEV_REMOTE_WAKE = 2, } usb_set_clear_feature_req_t; typedef enum { USB_SETUP_RECIPIENT_DEVICE = 0, USB_SETUP_RECIPIENT_INTERFACE = 1, USB_SETUP_RECIPIENT_ENDPOINT = 2, USB_SETUP_RECIPIENT_OTHER = 3, USB_SETUP_TYPE_STANDARD = 0x00, USB_SETUP_TYPE_CLASS = 0x20, USB_SETUP_TYPE_VENDOR = 0x40, USB_SETUP_TYPE_RESERVED = 0x60, USB_SETUP_HOST_TO_DEVICE = 0x00, USB_SETUP_DEVICE_TO_HOST = 0x80, } usb_setup_req_type_t; typedef enum { USB_REQUEST_GET_STATUS = 0, USB_REQUEST_CLEAR_FEATURE = 1, USB_REQUEST_SET_FEATURE = 3, USB_REQUEST_SET_ADDRESS = 5, USB_REQUEST_GET_DESCRIPTOR = 6, USB_REQUEST_SET_DESCRIPTOR = 7, USB_REQUEST_GET_CONFIGURATION = 8, USB_REQUEST_SET_CONFIGURATION = 9, USB_REQUEST_GET_INTERFACE = 10, USB_REQUEST_SET_INTERFACE = 11, USB_REQUEST_SYNCH_FRAME = 12, USB_REQUEST_SET_SEL = 13, USB_REQUEST_GET_MS_DESCRIPTOR = 0x99, USB_REQUEST_INTR_GET_REPORT = 1, USB_REQUEST_INTR_SET_IDLE = 10, USB_REQUEST_BULK_GET_MAX_LUN = 0xFE, USB_REQUEST_BULK_RESET = 0xFF } usb_standard_req_t; typedef enum { USB_FEATURE_ENDPOINT_HALT = 0, USB_FEATURE_DEVICE_REMOTE_WAKEUP = 1, USB_FEATURE_TEST_MODE = 2, } usb_get_status_req_t; typedef enum _usb_error_t { USB_RES_OK = 0, USB_RES_BULK_RESET = 1, USB_ERROR_USER_ABORT = 2, USB_ERROR_TIMEOUT = 3, USB_ERROR_INIT = 4, USB_ERROR_XFER_ERROR = 5, USB2_ERROR_XFER_EP_DISABLED = 28, USB2_ERROR_XFER_NOT_ALIGNED = 29, XUSB_ERROR_INVALID_EP = USB_ERROR_XFER_ERROR, // From 2. XUSB_ERROR_XFER_BULK_IN_RESIDUE = 7, XUSB_ERROR_INVALID_CYCLE = USB2_ERROR_XFER_EP_DISABLED, // From 8. XUSB_ERROR_BABBLE_DETECTED = 50, XUSB_ERROR_SEQ_NUM = 51, XUSB_ERROR_XFER_DIR = 52, XUSB_ERROR_PORT_CFG = 54 } usb_error_t; typedef struct _usb_ctrl_setup_t { u8 bmRequestType; u8 bRequest; u16 wValue; u16 wIndex; u16 wLength; } usb_ctrl_setup_t; typedef struct _usb_ops_t { int (*usbd_flush_endpoint)(u32); int (*usbd_set_ep_stall)(u32, int); int (*usbd_handle_ep0_ctrl_setup)(u32 *); void (*usbd_end)(bool, bool); int (*usb_device_init)(); int (*usb_device_enumerate)(usb_gadget_type); int (*usb_device_class_send_max_lun)(u8); int (*usb_device_class_send_hid_report)(void *, u32); int (*usb_device_ep1_out_read)(u8 *, u32, u32 *, u32); int (*usb_device_ep1_out_read_big)(u8 *, u32, u32 *); int (*usb_device_ep1_out_reading_finish)(u32 *, u32); int (*usb_device_ep1_in_write)(u8 *, u32, u32 *, u32); int (*usb_device_ep1_in_writing_finish)(u32 *, u32); bool (*usb_device_get_suspended)(); bool (*usb_device_get_port_in_sleep)(); } usb_ops_t; typedef struct _usb_ctxt_t { u32 type; // UMS. u32 partition; u32 offset; u32 sectors; u32 ro; // HID. u32 idle; // System. void (*system_maintenance)(bool); void *label; void (*set_text)(void *, const char *); } usb_ctxt_t; void usb_device_get_ops(usb_ops_t *ops); void xusb_device_get_ops(usb_ops_t *ops); int usb_device_gadget_ums(usb_ctxt_t *usbs); int usb_device_gadget_hid(usb_ctxt_t *usbs); #endif ================================================ FILE: bdk/usb/xusbd.c ================================================ /* * eXtensible USB Device driver (XDCI) for Tegra X1 * * Copyright (c) 2020-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define XUSB_TRB_SLOTS 16 //! TODO: Consider upping it. #define XUSB_LINK_TRB_IDX (XUSB_TRB_SLOTS - 1) #define XUSB_LAST_TRB_IDX (XUSB_TRB_SLOTS - 1) #define EP_DONT_RING 0 #define EP_RING_DOORBELL 1 typedef enum { XUSB_FULL_SPEED = 1, XUSB_HIGH_SPEED = 3, XUSB_SUPER_SPEED = 4 } xusb_speed_t; typedef enum { EP_DISABLED = 0, EP_RUNNING = 1, EP_HALTED = 2, EP_STOPPED = 3, EP_ERROR = 4 } xusb_ep_status_t; typedef enum { EP_TYPE_ISOC_OUT = 1, EP_TYPE_BULK_OUT = 2, EP_TYPE_INTR_OUT = 3, EP_TYPE_CNTRL = 4, EP_TYPE_ISOC_IN = 5, EP_TYPE_BULK_IN = 6, EP_TYPE_INTR_IN = 7 } xusb_ep_type_t; typedef enum { XUSB_DEFAULT = 0, XUSB_ADDRESSED_STS_WAIT = 1, XUSB_ADDRESSED = 2, XUSB_CONFIGURED_STS_WAIT = 3, XUSB_CONFIGURED = 4, XUSB_LUN_CONFIGURED_STS_WAIT = 5, XUSB_LUN_CONFIGURED = 6, XUSB_HID_CONFIGURED_STS_WAIT = 7, XUSB_HID_CONFIGURED = 8, // XUSB_CONNECTED = , // XUSB_DISCONNECTED = , // XUSB_RESET = , // XUSB_SUSPENDED = , } xusb_dev_state_t; typedef enum { XUSB_TRB_NONE = 0, XUSB_TRB_NORMAL = 1, XUSB_TRB_DATA = 3, XUSB_TRB_STATUS = 4, XUSB_TRB_LINK = 6, XUSB_TRB_TRANSFER = 32, XUSB_TRB_PORT_CHANGE = 34, XUSB_TRB_SETUP = 63, } xusb_trb_type_t; typedef enum { XUSB_COMP_INVALID = 0, XUSB_COMP_SUCCESS = 1, XUSB_COMP_DATA_BUFFER_ERROR = 2, XUSB_COMP_BABBLE_DETECTED_ERROR = 3, XUSB_COMP_USB_TRANSACTION_ERROR = 4, XUSB_COMP_TRB_ERROR = 5, XUSB_COMP_STALL_ERROR = 6, XUSB_COMP_RESOURCE_ERROR = 7, XUSB_COMP_BANDWIDTH_ERROR = 8, XUSB_COMP_NO_SLOTS_AVAILABLE_ERROR = 9, XUSB_COMP_INVALID_STREAM_TYPE_ERROR = 10, XUSB_COMP_SLOT_NOT_ENABLED_ERROR = 11, XUSB_COMP_EP_DISABLED_ERROR = 12, XUSB_COMP_SHORT_PKT = 13, XUSB_COMP_RING_UNDERRUN = 14, XUSB_COMP_RING_OVERRUN = 15, XUSB_COMP_VF_EVENT_RING_FULL_ERROR = 16, XUSB_COMP_PARAMETER_ERROR = 17, XUSB_COMP_BANDWIDTH_OVERRUN_ERROR = 18, XUSB_COMP_CONTEXT_STATE_ERROR = 19, XUSB_COMP_NO_PING_RESPONSE_ERROR = 20, XUSB_COMP_EVENT_RING_FULL_ERROR = 21, XUSB_COMP_INCOMPATIBLE_DEVICE_ERROR = 22, XUSB_COMP_MISSED_SERVICE_ERROR = 23, XUSB_COMP_COMMAND_RING_STOPPED = 24, XUSB_COMP_COMMAND_ABORTED = 25, XUSB_COMP_STOPPED = 26, XUSB_COMP_STOPPED_LENGTH_INVALID = 27, XUSB_COMP_STOPPED_SHORT_PACKET = 28, XUSB_COMP_EXIT_LATENCY_LARGE_ERROR = 29, XUSB_COMP_ISOCH_BUFFER_OVERRUN = 31, XUSB_COMP_EVENT_LOST_ERROR = 32, XUSB_COMP_UNDEFINED_ERROR = 33, XUSB_COMP_INVALID_STREAM_ID_ERROR = 34, XUSB_COMP_SECONDARY_BANDWIDTH_ERROR = 35, XUSB_COMP_SPLIT_TRANSACTION_ERROR = 36, XUSB_COMP_CODE_STREAM_NUMP_ERROR = 219, XUSB_COMP_PRIME_PIPE_RECEIVED = 220, XUSB_COMP_HOST_REJECTED = 221, XUSB_COMP_CTRL_DIR_ERROR = 222, XUSB_COMP_CTRL_SEQ_NUM_ERROR = 223 } xusb_comp_code_t; typedef struct _event_trb_t { u32 rsvd0; u32 rsvd1; u32 rsvd2:24; u32 comp_code:8; u32 cycle:1; u32 rsvd3:9; u32 trb_type:6; u32 ep_id:5; u32 rsvd4:11; } event_trb_t; typedef struct _transfer_event_trb_t { u32 trb_pointer_lo; u32 trb_pointer_hi; u32 trb_tx_len:24; u32 comp_code:8; u32 cycle:1; u32 rsvddw3_0:1; u32 event_data:1; u32 rsvddw3_1:7; u32 trb_type:6; u32 ep_id:5; u32 rsvddw3_2:11; } transfer_event_trb_t; typedef struct _setup_event_trb_t { usb_ctrl_setup_t ctrl_setup_data; u32 ctrl_seq_num:16; u32 rsvddw2_0:8; u32 comp_code:8; u32 cycle:1; u32 rsvddw3_0:9; u32 trb_type:6; u32 ep_id:5; u32 rsvddw3_1:11; } setup_event_trb_t; typedef struct _status_trb_t { u32 rsvd0; u32 rsvd1; u32 rsvd2:22; u32 interrupt_target:10; u32 cycle:1; u32 ent:1; u32 rsvd3_0:2; u32 chain:1; u32 ioc:1; u32 rsvd3_1:4; u32 trb_type:6; u32 dir:1; u32 rsvd3_2:15; } status_trb_t; typedef struct _normal_trb_t { u32 databufptr_lo; u32 databufptr_hi; u32 trb_tx_len:17; u32 td_size:5; u32 interrupt_target:10; u32 cycle:1; u32 ent:1; u32 isp:1; u32 no_snoop:1; u32 chain:1; u32 ioc:1; u32 idt:1; u32 rsvd0_0:2; u32 bei:1; u32 trb_type:6; u32 rsvd0_1:16; } normal_trb_t; typedef struct _data_trb_t { u32 databufptr_lo; u32 databufptr_hi; u32 trb_tx_len:17; u32 td_size:5; u32 interrupt_target:10; u32 cycle:1; u32 ent:1; u32 isp:1; u32 no_snoop:1; u32 chain:1; u32 ioc:1; u32 rsvd0_0:4; u32 trb_type:6; u32 dir:1; u32 rsvd0_1:15; } data_trb_t; typedef struct _link_trb_t { u32 rsvd0_0:4; u32 ring_seg_ptrlo:28; u32 ring_seg_ptrhi; u32 rsvd1_0:22; u32 interrupt_target:10; u32 cycle:1; u32 toggle_cycle:1; u32 rsvd3_0:2; u32 chain:1; u32 ioc:1; u32 rsvd3_1:4; u32 trb_type:6; u32 rsvd3_2:16; } link_trb_t; typedef struct _xusb_ep_ctx_t { // Common context. u32 ep_state:3; u32 rsvddW0_0:5; u32 mult:2; u32 max_pstreams:5; u32 lsa:1; u32 interval:8; u32 rsvddW0_1:8; u32 rsvddw1_0:1; u32 cerr:2; u32 ep_type:3; u32 rsvddw1_1:1; u32 hid:1; u32 max_burst_size:8; u32 max_packet_size:16; u32 dcs:1; u32 rsvddw2_0:3; u32 trd_dequeueptr_lo:28; u32 trd_dequeueptr_hi; u32 avg_trb_len:16; u32 max_esit_payload:16; // Nvidia context. u32 event_data_txlen_acc; u32 cprog:8; u32 sbyte:7; u32 tp:2; u32 rec:1; u32 cec:2; u32 ced:1; u32 hsp1:1; u32 rty1:1; u32 std:1; u32 status:8; u32 data_offset; u32 scratch_pad0; u32 scratch_pad1; u32 cping:8; u32 sping:8; u32 toggle_cycle:2; u32 no_snoop:1; u32 ro:1; u32 tlm:1; u32 dlm:1; u32 hsp2:1; u32 rty2:1; u32 stop_rec_req:8; u32 device_addr:8; u32 hub_addr:8; u32 root_port_num:8; u32 slot_id:8; u32 routing_string:20; u32 speed:4; u32 lpu:1; u32 mtt:1; u32 hub:1; u32 dci:5; u32 tthub_slot_id:8; u32 ttport_num:8; u32 ssf:4; u32 sps:2; u32 interrupt_target:10; u32 frz:1; u32 end:1; u32 elm:1; u32 mrx:1; u32 ep_linklo:28; u32 ep_linkhi; } xusb_ep_ctx_t; typedef struct _xusbd_controller_t { data_trb_t *cntrl_epenqueue_ptr; data_trb_t *cntrl_epdequeue_ptr; u32 cntrl_producer_cycle; data_trb_t *bulkout_epenqueue_ptr; data_trb_t *bulkout_epdequeue_ptr; u32 bulkout_producer_cycle; data_trb_t *bulkin_epenqueue_ptr; data_trb_t *bulkin_epdequeue_ptr; u32 bulkin_producer_cycle; event_trb_t *event_enqueue_ptr; event_trb_t *event_dequeue_ptr; u32 event_ccs; u32 device_state; u32 tx_bytes[2]; u32 tx_count[2]; u32 ctrl_seq_num; u32 config_num; u32 interface_num; u32 wait_for_event_trb; u32 port_speed; usb_desc_t *desc; usb_gadget_type gadget; u8 max_lun; bool max_lun_set; void *hid_rpt_buffer; u32 hid_rpt_size; u32 intr_idle_rate; bool intr_idle_req; bool bulk_reset_req; } xusbd_controller_t; extern u32 hid_report_descriptor_jc_size; extern u32 hid_report_descriptor_touch_size; extern u8 hid_report_descriptor_jc[]; extern u8 hid_report_descriptor_touch[]; extern usb_desc_t usb_gadget_hid_jc_descriptors; extern usb_desc_t usb_gadget_hid_touch_descriptors; extern usb_desc_t usb_gadget_ums_descriptors; // All rings and EP context must be aligned to 0x10. typedef struct _xusbd_event_queues_t { event_trb_t xusb_event_ring_seg0[XUSB_TRB_SLOTS]; event_trb_t xusb_event_ring_seg1[XUSB_TRB_SLOTS]; data_trb_t xusb_cntrl_event_queue[XUSB_TRB_SLOTS]; data_trb_t xusb_bulkin_event_queue[XUSB_TRB_SLOTS]; data_trb_t xusb_bulkout_event_queue[XUSB_TRB_SLOTS]; volatile xusb_ep_ctx_t xusb_ep_ctxt[4]; } xusbd_event_queues_t; // Set event queues context to a 0x10 aligned address. xusbd_event_queues_t *xusb_evtq = (xusbd_event_queues_t *)XUSB_RING_ADDR; xusbd_controller_t *usbd_xotg; xusbd_controller_t usbd_xotg_controller_ctxt; static int _xusb_xhci_mask_wait(u32 reg, u32 mask, u32 val, u32 retries) { do { if ((XUSB_DEV_XHCI(reg) & mask) == val) return USB_RES_OK; usleep(1); --retries; } while (retries); return USB_ERROR_TIMEOUT; } // Event rings aligned to 0x10 static void _xusbd_ep_init_event_ring() { memset(xusb_evtq->xusb_event_ring_seg0, 0, sizeof(xusb_evtq->xusb_event_ring_seg0)); memset(xusb_evtq->xusb_event_ring_seg1, 0, sizeof(xusb_evtq->xusb_event_ring_seg1)); //! TODO USB3: enable pcie regulators. // Set Event Ring Segment 0 Base Address. XUSB_DEV_XHCI(XUSB_DEV_XHCI_ERST0BALO) = (u32)xusb_evtq->xusb_event_ring_seg0; XUSB_DEV_XHCI(XUSB_DEV_XHCI_ERST0BAHI) = 0; // Set Event Ring Segment 1 Base Address. XUSB_DEV_XHCI(XUSB_DEV_XHCI_ERST1BALO) = (u32)xusb_evtq->xusb_event_ring_seg1; XUSB_DEV_XHCI(XUSB_DEV_XHCI_ERST1BAHI) = 0; // Set Event Ring Segment sizes. XUSB_DEV_XHCI(XUSB_DEV_XHCI_ERSTSZ) = (XUSB_TRB_SLOTS << 16) | XUSB_TRB_SLOTS; // Set Enqueue and Dequeue pointers. usbd_xotg->event_enqueue_ptr = xusb_evtq->xusb_event_ring_seg0; usbd_xotg->event_dequeue_ptr = xusb_evtq->xusb_event_ring_seg0; usbd_xotg->event_ccs = 1; // Event Ring Enqueue Pointer. u32 evt_ring_addr = (u32)xusb_evtq->xusb_event_ring_seg0 & 0xFFFFFFF0; XUSB_DEV_XHCI(XUSB_DEV_XHCI_EREPLO) = (XUSB_DEV_XHCI(XUSB_DEV_XHCI_EREPLO) & 0xE) | evt_ring_addr | XCHI_ECS; XUSB_DEV_XHCI(XUSB_DEV_XHCI_EREPHI) = 0; // Set Event Ring Dequeue Pointer. XUSB_DEV_XHCI(XUSB_DEV_XHCI_ERDPLO) = (XUSB_DEV_XHCI(XUSB_DEV_XHCI_ERDPLO) & 0xF) | evt_ring_addr; XUSB_DEV_XHCI(XUSB_DEV_XHCI_ERDPHI) = 0; } static void _xusb_ep_set_type_and_metrics(u32 ep_idx, volatile xusb_ep_ctx_t *ep_ctxt) { usb_ep_descr_t *ep_desc = NULL; usb_ep_descr_t *endpoints = usbd_xotg->desc->cfg->endpoint; switch (ep_idx) { case XUSB_EP_CTRL_IN: // Set EP type. ep_ctxt->ep_type = EP_TYPE_CNTRL; // Set max packet size based on port speed. ep_ctxt->avg_trb_len = 8; ep_ctxt->max_packet_size = 64; //! TODO USB3: max_packet_size = 512. break; case USB_EP_BULK_OUT: // Set default EP type. ep_ctxt->ep_type = EP_TYPE_BULK_OUT; // Check configuration descriptor. if (usbd_xotg->desc->cfg->interface.bInterfaceClass == 0x3) // HID Class. endpoints = (usb_ep_descr_t *)((void *)endpoints + sizeof(usb_hid_descr_t)); for (u32 i = 0; i < usbd_xotg->desc->cfg->interface.bNumEndpoints; i++) if (endpoints[i].bEndpointAddress == USB_EP_ADDR_BULK_OUT) { ep_desc = &endpoints[i]; break; } // Set actual EP type. if (ep_desc) { switch (ep_desc->bmAttributes) { case USB_EP_TYPE_ISO: ep_ctxt->ep_type = EP_TYPE_ISOC_OUT; break; case USB_EP_TYPE_BULK: ep_ctxt->ep_type = EP_TYPE_BULK_OUT; break; case USB_EP_TYPE_INTR: ep_ctxt->ep_type = EP_TYPE_INTR_OUT; break; } } // Set average TRB length. //TODO: Use ep type instead (we don't expect to calculate avg per gadget)? switch (usbd_xotg->gadget) { case USB_GADGET_UMS: ep_ctxt->avg_trb_len = 3072; break; case USB_GADGET_HID_GAMEPAD: case USB_GADGET_HID_TOUCHPAD: ep_ctxt->avg_trb_len = 1024; break; default: switch (usbd_xotg->port_speed) { case XUSB_SUPER_SPEED: ep_ctxt->avg_trb_len = 1024; break; case XUSB_HIGH_SPEED: case XUSB_FULL_SPEED: ep_ctxt->avg_trb_len = 512; break; } break; } // Set max burst rate. ep_ctxt->max_burst_size = (ep_desc->wMaxPacketSize >> 11) & 3; // Set max packet size based on port speed. if (usbd_xotg->port_speed == XUSB_SUPER_SPEED) { ep_ctxt->max_packet_size = 1024; //! TODO USB3: // If ISO or INTR EP, set Max Esit Payload size. // ep_ctxt->max_burst_size = bMaxBurst; //if (ep_ctxt->ep_type == EP_TYPE_INTR_OUT || ep_ctxt->ep_type == EP_TYPE_ISOC_OUT) // ep_ctxt->max_esit_payload = ep_ctxt->max_packet_size * (ep_ctxt->max_burst_size + 1); } else if (usbd_xotg->port_speed == XUSB_HIGH_SPEED) { ep_ctxt->max_packet_size = 512; // If ISO or INTR EP, set Max Esit Payload size. if (ep_ctxt->ep_type == EP_TYPE_INTR_OUT || ep_ctxt->ep_type == EP_TYPE_ISOC_OUT) ep_ctxt->max_esit_payload = ep_ctxt->max_packet_size * (ep_ctxt->max_burst_size + 1); } else { ep_ctxt->max_packet_size = 64; // If ISO or INTR EP, set Max Esit Payload size. if (ep_ctxt->ep_type == EP_TYPE_INTR_OUT || ep_ctxt->ep_type == EP_TYPE_ISOC_OUT) ep_ctxt->max_esit_payload = ep_ctxt->max_packet_size; } break; case USB_EP_BULK_IN: // Set default EP type. ep_ctxt->ep_type = EP_TYPE_BULK_IN; // Check configuration descriptor. if (usbd_xotg->desc->cfg->interface.bInterfaceClass == 0x3) // HID Class. endpoints = (usb_ep_descr_t *)((void *)endpoints + sizeof(usb_hid_descr_t)); for (u32 i = 0; i < usbd_xotg->desc->cfg->interface.bNumEndpoints; i++) if (endpoints[i].bEndpointAddress == USB_EP_ADDR_BULK_IN) { ep_desc = &endpoints[i]; break; } // Set actual EP type. if (ep_desc) { switch (ep_desc->bmAttributes) { case USB_EP_TYPE_ISO: ep_ctxt->ep_type = EP_TYPE_ISOC_IN; break; case USB_EP_TYPE_BULK: ep_ctxt->ep_type = EP_TYPE_BULK_IN; break; case USB_EP_TYPE_INTR: ep_ctxt->ep_type = EP_TYPE_INTR_IN; break; } } // Set average TRB length. //TODO: Use ep type instead (we don't expect to calculate avg per gadget)? switch (usbd_xotg->gadget) { case USB_GADGET_UMS: ep_ctxt->avg_trb_len = 3072; break; case USB_GADGET_HID_GAMEPAD: case USB_GADGET_HID_TOUCHPAD: ep_ctxt->avg_trb_len = 16; // Normal interrupt avg is 1024KB. break; default: switch (usbd_xotg->port_speed) { case XUSB_SUPER_SPEED: ep_ctxt->avg_trb_len = 1024; break; case XUSB_HIGH_SPEED: case XUSB_FULL_SPEED: ep_ctxt->avg_trb_len = 512; break; } break; } // Set max burst rate. ep_ctxt->max_burst_size = (ep_desc->wMaxPacketSize >> 11) & 3; // Set max packet size based on port speed. if (usbd_xotg->port_speed == XUSB_SUPER_SPEED) { ep_ctxt->max_packet_size = 1024; //! TODO USB3: // If ISO or INTR EP, set Max Esit Payload size. // ep_ctxt->max_burst_size = bMaxBurst; //if (ep_ctxt->ep_type == EP_TYPE_INTR_IN || ep_ctxt->ep_type == EP_TYPE_ISOC_IN) // ep_ctxt->max_esit_payload = ep_ctxt->max_packet_size * (ep_ctxt->max_burst_size + 1); } else if (usbd_xotg->port_speed == XUSB_HIGH_SPEED) { ep_ctxt->max_packet_size = 512; // If ISO or INTR EP, set Max Esit Payload size. if (ep_ctxt->ep_type == EP_TYPE_INTR_IN || ep_ctxt->ep_type == EP_TYPE_ISOC_IN) ep_ctxt->max_esit_payload = ep_ctxt->max_packet_size * (ep_ctxt->max_burst_size + 1); } else { ep_ctxt->max_packet_size = 64; // If ISO or INTR EP, set Max Esit Payload size. if (ep_ctxt->ep_type == EP_TYPE_INTR_IN || ep_ctxt->ep_type == EP_TYPE_ISOC_IN) ep_ctxt->max_esit_payload = ep_ctxt->max_packet_size; } break; } } static int _xusb_ep_init_context(u32 ep_idx) { link_trb_t *link_trb; if (ep_idx > USB_EP_BULK_IN) return USB_ERROR_INIT; if (ep_idx == XUSB_EP_CTRL_OUT) ep_idx = XUSB_EP_CTRL_IN; volatile xusb_ep_ctx_t *ep_ctxt = &xusb_evtq->xusb_ep_ctxt[ep_idx]; memset((void *)ep_ctxt, 0, sizeof(xusb_ep_ctx_t)); ep_ctxt->ep_state = EP_RUNNING; ep_ctxt->dcs = 1; ep_ctxt->cec = 3; ep_ctxt->cerr = 3; ep_ctxt->max_burst_size = 0; switch (ep_idx) { case XUSB_EP_CTRL_IN: usbd_xotg->cntrl_producer_cycle = 1; usbd_xotg->cntrl_epenqueue_ptr = xusb_evtq->xusb_cntrl_event_queue; usbd_xotg->cntrl_epdequeue_ptr = xusb_evtq->xusb_cntrl_event_queue; _xusb_ep_set_type_and_metrics(ep_idx, ep_ctxt); ep_ctxt->trd_dequeueptr_lo = (u32)xusb_evtq->xusb_cntrl_event_queue >> 4; ep_ctxt->trd_dequeueptr_hi = 0; link_trb = (link_trb_t *)&xusb_evtq->xusb_cntrl_event_queue[XUSB_LINK_TRB_IDX]; link_trb->toggle_cycle = 1; link_trb->ring_seg_ptrlo = (u32)xusb_evtq->xusb_cntrl_event_queue >> 4; link_trb->ring_seg_ptrhi = 0; link_trb->trb_type = XUSB_TRB_LINK; break; case USB_EP_BULK_OUT: usbd_xotg->bulkout_producer_cycle = 1; usbd_xotg->bulkout_epenqueue_ptr = xusb_evtq->xusb_bulkout_event_queue; usbd_xotg->bulkout_epdequeue_ptr = xusb_evtq->xusb_bulkout_event_queue; _xusb_ep_set_type_and_metrics(ep_idx, ep_ctxt); ep_ctxt->trd_dequeueptr_lo = (u32)xusb_evtq->xusb_bulkout_event_queue >> 4; ep_ctxt->trd_dequeueptr_hi = 0; link_trb = (link_trb_t *)&xusb_evtq->xusb_bulkout_event_queue[XUSB_LINK_TRB_IDX]; link_trb->toggle_cycle = 1; link_trb->ring_seg_ptrlo = (u32)xusb_evtq->xusb_bulkout_event_queue >> 4; link_trb->ring_seg_ptrhi = 0; link_trb->trb_type = XUSB_TRB_LINK; break; case USB_EP_BULK_IN: usbd_xotg->bulkin_producer_cycle = 1; usbd_xotg->bulkin_epenqueue_ptr = xusb_evtq->xusb_bulkin_event_queue; usbd_xotg->bulkin_epdequeue_ptr = xusb_evtq->xusb_bulkin_event_queue; _xusb_ep_set_type_and_metrics(ep_idx, ep_ctxt); ep_ctxt->trd_dequeueptr_lo = (u32)xusb_evtq->xusb_bulkin_event_queue >> 4; ep_ctxt->trd_dequeueptr_hi = 0; link_trb = (link_trb_t *)&xusb_evtq->xusb_bulkin_event_queue[XUSB_LINK_TRB_IDX]; link_trb->toggle_cycle = 1; link_trb->ring_seg_ptrlo = (u32)xusb_evtq->xusb_bulkin_event_queue >> 4; link_trb->ring_seg_ptrhi = 0; link_trb->trb_type = XUSB_TRB_LINK; break; } return USB_RES_OK; } static int _xusbd_ep_initialize(u32 ep_idx) { switch (ep_idx) { case XUSB_EP_CTRL_IN: case XUSB_EP_CTRL_OUT: return _xusb_ep_init_context(XUSB_EP_CTRL_IN); case USB_EP_BULK_OUT: case USB_EP_BULK_IN: _xusb_ep_init_context(ep_idx); XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_RELOAD) = BIT(ep_idx); int res = _xusb_xhci_mask_wait(XUSB_DEV_XHCI_EP_RELOAD, BIT(ep_idx), 0, 1000); if (!res) { XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_PAUSE) &= ~BIT(ep_idx); XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) &= ~BIT(ep_idx); } return res; default: return USB_ERROR_INIT; } } static void _xusbd_ep1_disable(u32 ep_idx) { volatile xusb_ep_ctx_t *ep_ctxt = &xusb_evtq->xusb_ep_ctxt[ep_idx]; u32 ep_mask = BIT(ep_idx); switch (ep_idx) { case USB_EP_BULK_OUT: case USB_EP_BULK_IN: // Skip if already disabled. if (!ep_ctxt->ep_state) return; XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) |= ep_mask; // Set EP state to disabled. ep_ctxt->ep_state = EP_DISABLED; // Wait for EP status to change. _xusb_xhci_mask_wait(XUSB_DEV_XHCI_EP_STCHG, ep_mask, ep_mask, 1000); // Clear status change. XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_STCHG) = ep_mask; break; } } static void _xusb_disable_ep1() { _xusbd_ep1_disable(USB_EP_BULK_OUT); _xusbd_ep1_disable(USB_EP_BULK_IN); // Device mode stop. XUSB_DEV_XHCI(XUSB_DEV_XHCI_CTRL) &= ~XHCI_CTRL_RUN; XUSB_DEV_XHCI(XUSB_DEV_XHCI_ST) |= XHCI_ST_RC; usbd_xotg->config_num = 0; usbd_xotg->interface_num = 0; usbd_xotg->max_lun_set = false; usbd_xotg->device_state = XUSB_DEFAULT; } static void _xusb_init_phy() { // Configure and enable PLLU. clock_enable_pllu(); // Enable IDDQ control by software and disable UTMIPLL IDDQ. CLOCK(CLK_RST_CONTROLLER_UTMIPLL_HW_PWRDN_CFG0) = (CLOCK(CLK_RST_CONTROLLER_UTMIPLL_HW_PWRDN_CFG0) & 0xFFFFFFFC) | 1; // Set UTMIPLL dividers and config based on OSC and enable it to 960 MHz. clock_enable_utmipll(); // Set UTMIP misc config. CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG2) = (CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG2) & 0xFEFFFFE8) | 0x2000008 | 0x20 | 2; usleep(2); // Set OTG PAD0 calibration. u32 fuse_usb_calib = FUSE(FUSE_USB_CALIB); // Set HS_CURR_LEVEL. XUSB_PADCTL(XUSB_PADCTL_USB2_OTG_PAD0_CTL_0) = (XUSB_PADCTL(XUSB_PADCTL_USB2_OTG_PAD0_CTL_0) & 0xFFFFFFC0) | (fuse_usb_calib & 0x3F); // Set TERM_RANGE_ADJ and RPD_CTRL. XUSB_PADCTL(XUSB_PADCTL_USB2_OTG_PAD0_CTL_1) = (XUSB_PADCTL(XUSB_PADCTL_USB2_OTG_PAD0_CTL_1) & 0x83FFFF87) | ((fuse_usb_calib & 0x780) >> 4) | ((u32)(FUSE(FUSE_USB_CALIB_EXT) << 27) >> 1); // Set VREG_LEV to 1. XUSB_PADCTL(XUSB_PADCTL_USB2_BATTERY_CHRG_OTGPAD0_CTL1) = (XUSB_PADCTL(XUSB_PADCTL_USB2_BATTERY_CHRG_OTGPAD0_CTL1) & 0xFFFFFE3F) | 0x80; // Disable power down on usb2 ports pads. XUSB_PADCTL(XUSB_PADCTL_USB2_OTG_PAD0_CTL_0) &= 0xDBFFFFFF; // Clear pad power down. XUSB_PADCTL(XUSB_PADCTL_USB2_OTG_PAD0_CTL_1) &= 0xFFFFFFFB; // Clear pad dr power down. XUSB_PADCTL(XUSB_PADCTL_USB2_BATTERY_CHRG_OTGPAD0_CTL0) &= 0xFFFFFFFE; // Clear charging power down. XUSB_PADCTL(XUSB_PADCTL_USB2_BIAS_PAD_CTL_0) &= 0xFFFFF7FF; // Clear bias power down. (void)XUSB_PADCTL(XUSB_PADCTL_USB2_OTG_PAD0_CTL_1); // Commit write. // Enable USB2 tracking clock. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_Y_SET) = BIT(CLK_Y_USB2_TRK); CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_USB2_HSIC_TRK) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_USB2_HSIC_TRK) & 0xFFFFFF00) | 6; // Set trank divisor to 4. // Set tracking parameters and trigger it. XUSB_PADCTL(XUSB_PADCTL_USB2_BIAS_PAD_CTL_1) = 0x451E000; XUSB_PADCTL(XUSB_PADCTL_USB2_BIAS_PAD_CTL_1) = 0x51E000; usleep(100); // TRK cycle done. Force PDTRK input into power down. XUSB_PADCTL(XUSB_PADCTL_USB2_BIAS_PAD_CTL_1) = 0x451E000; usleep(3); // Re-trigger it. XUSB_PADCTL(XUSB_PADCTL_USB2_BIAS_PAD_CTL_1) = 0x51E000; usleep(100); // TRK cycle done. Force PDTRK input into power down. XUSB_PADCTL(XUSB_PADCTL_USB2_BIAS_PAD_CTL_1) |= 0x4000000; // Disable USB2 tracking clock. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_Y_CLR) = BIT(CLK_Y_USB2_TRK); // Wait for XUSB PHY to stabilize. usleep(30); } static void _xusbd_init_device_clocks() { // Disable reset to PLLU_OUT1 CLOCK(CLK_RST_CONTROLLER_PLLU_OUTA) |= 1; usleep(2); // Enable XUSB device clock. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_U_SET) = BIT(CLK_U_XUSB_DEV); // Set XUSB device core clock source to PLLP for a 102MHz result. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_XUSB_CORE_DEV) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_XUSB_CORE_DEV) & 0x1FFFFF00) | (1 << 29) | 6; usleep(2); // Set XUSB Full-Speed logic clock source to FO 48MHz. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_XUSB_FS) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_XUSB_FS) & 0x1FFFFFFF) | (2 << 29); // Enable XUSB Super-Speed logic clock. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_W_SET) = BIT(CLK_W_XUSB_SS); // Set XUSB Super-Speed logic clock source to HSIC 480MHz for 120MHz result and source FS logic clock from Super-Speed. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_XUSB_SS) = (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_XUSB_SS) & 0x1FFFFF00) | (3 << 29) | 6; // Clear reset to XUSB device and Super-Speed logic. CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_CLR) = BIT(CLK_W_XUSB_SS); CLOCK(CLK_RST_CONTROLLER_RST_DEV_U_CLR) = BIT(CLK_U_XUSB_DEV); usleep(2); } int xusb_device_init() { // Ease the stress to APB. bpmp_clk_rate_relaxed(true); // Disable USB2 device controller clocks. CLOCK(CLK_RST_CONTROLLER_RST_DEV_L_SET) = BIT(CLK_L_USBD); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_L_CLR) = BIT(CLK_L_USBD); // Enable XUSB clock and clear Reset to XUSB Pad Control. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_W_SET) = BIT(CLK_W_XUSB); CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_SET) = BIT(CLK_W_XUSB); usleep(2); CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_CLR) = BIT(CLK_W_XUSB); CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_CLR) = BIT(CLK_W_XUSB_PADCTL); usleep(2); // USB2 Pads to XUSB. XUSB_PADCTL(XUSB_PADCTL_USB2_PAD_MUX) = (XUSB_PADCTL(XUSB_PADCTL_USB2_PAD_MUX) & ~(PADCTL_USB2_PAD_MUX_USB2_BIAS_PAD_MASK | PADCTL_USB2_PAD_MUX_USB2_OTG_PAD_PORT0_MASK)) | PADCTL_USB2_PAD_MUX_USB2_BIAS_PAD_XUSB | PADCTL_USB2_PAD_MUX_USB2_OTG_PAD_PORT0_XUSB; // Initialize XUSB controller PHY. _xusb_init_phy(); // Set USB2.0 Port 0 to device mode. XUSB_PADCTL(XUSB_PADCTL_USB2_PORT_CAP) = (XUSB_PADCTL(XUSB_PADCTL_USB2_PORT_CAP) & ~PADCTL_USB2_PORT_CAP_PORT_0_CAP_MASK) | PADCTL_USB2_PORT_CAP_PORT_0_CAP_DEV; //! TODO USB3 // // Set USB3.0 Port 0 cap to device. // XUSB_PADCTL(XUSB_PADCTL_SS_PORT_CAP) = (XUSB_PADCTL(XUSB_PADCTL_SS_PORT_CAP) & ~PADCTL_SS_PORT_CAP_0_PORT1_CAP_MASK) | PADCTL_SS_PORT_CAP_0_PORT1_CAP_DEVICE_ONLY; // Set Super Speed Port 0 to USB2 Port 0. XUSB_PADCTL(XUSB_PADCTL_SS_PORT_MAP) &= ~PADCTL_SS_PORT_MAP_PORT0_MASK; // 0: USB2_PORT0 // Power Up ID Wake up and Vbus Wake Up for UTMIP PMC(APBDEV_PMC_USB_AO) &= 0xFFFFFFF3; usleep(1); // Initialize device clocks. _xusbd_init_device_clocks(); // Restore OC. bpmp_clk_rate_relaxed(false); // Enable AHB redirect for access to IRAM for Event/EP ring buffers. mc_enable_ahb_redirect(1); // Enable XUSB device IPFS. XUSB_DEV_DEV(XUSB_DEV_CONFIGURATION) |= DEV_CONFIGURATION_EN_FPCI; // Configure PCI and BAR0 address space. XUSB_DEV_PCI(XUSB_CFG_1) |= CFG_1_BUS_MASTER | CFG_1_MEMORY_SPACE | CFG_1_IO_SPACE; usleep(1); XUSB_DEV_PCI(XUSB_CFG_4) = XUSB_DEV_BASE | CFG_4_ADDRESS_TYPE_32_BIT; // Mask SATA interrupt to MCORE. XUSB_DEV_DEV(XUSB_DEV_INTR_MASK) |= DEV_INTR_MASK_IP_INT_MASK; // AHB USB performance cfg. AHB_GIZMO(AHB_GIZMO_AHB_MEM) |= AHB_MEM_DONT_SPLIT_AHB_WR | AHB_MEM_ENB_FAST_REARBITRATE; AHB_GIZMO(AHB_GIZMO_USB3) |= AHB_GIZMO_IMMEDIATE; AHB_GIZMO(AHB_ARBITRATION_PRIORITY_CTRL) = PRIORITY_CTRL_WEIGHT(7) | PRIORITY_SELECT_USB3; AHB_GIZMO(AHB_AHB_MEM_PREFETCH_CFG1) = MEM_PREFETCH_ENABLE | MEM_PREFETCH_USB3_MST_ID | MEM_PREFETCH_ADDR_BNDRY(12) | 0x1000; // Addr boundary 64KB, Inactivity 4096 cycles. // Initialize context. usbd_xotg = &usbd_xotg_controller_ctxt; memset(usbd_xotg, 0, sizeof(xusbd_controller_t)); // Initialize event and EP rings. _xusbd_ep_init_event_ring(); memset(xusb_evtq->xusb_cntrl_event_queue, 0, sizeof(xusb_evtq->xusb_cntrl_event_queue)); memset(xusb_evtq->xusb_bulkin_event_queue, 0, sizeof(xusb_evtq->xusb_bulkin_event_queue)); memset(xusb_evtq->xusb_bulkout_event_queue, 0, sizeof(xusb_evtq->xusb_bulkout_event_queue)); // Initialize Control EP. int res = _xusbd_ep_initialize(XUSB_EP_CTRL_IN); if (res) return USB_ERROR_INIT; // Enable events and interrupts. XUSB_DEV_XHCI(XUSB_DEV_XHCI_CTRL) |= XHCI_CTRL_IE | XHCI_CTRL_LSE; XUSB_DEV_XHCI(XUSB_DEV_XHCI_ECPLO) = (u32)xusb_evtq->xusb_ep_ctxt & 0xFFFFFFF0; XUSB_DEV_XHCI(XUSB_DEV_XHCI_ECPHI) = 0; //! TODO USB3: // XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT) |= DEV_XHCI_PORTHALT_STCHG_INTR_EN; return USB_RES_OK; } //! TODO: Power down more stuff. static void _xusb_device_power_down() { // Disable clock for XUSB Super-Speed and set source to CLK_M. CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_SET) = BIT(CLK_W_XUSB_SS); CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_XUSB_SS) &= 0x1FFFFF00; usleep(2); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_W_CLR) = BIT(CLK_W_XUSB_SS); // Put XUSB device into reset. CLOCK(CLK_RST_CONTROLLER_RST_DEV_U_SET) = BIT(CLK_U_XUSB_DEV); usleep(2); // Reset Full-Speed clock source to CLK_M and div1. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_XUSB_FS) = 0; usleep(2); // Disable XUSB device clock. CLOCK(CLK_RST_CONTROLLER_CLK_ENB_U_CLR) = BIT(CLK_U_XUSB_DEV); // Force UTMIP_PLL power down. CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG1) &= (~BIT(15)); CLOCK(CLK_RST_CONTROLLER_UTMIP_PLL_CFG2) |= BIT(4) | BIT(0); // UTMIP_FORCE_PD_SAMP_A/C_POWERDOWN. // Force enable UTMIPLL IDDQ. CLOCK(CLK_RST_CONTROLLER_UTMIPLL_HW_PWRDN_CFG0) |= 3; // Disable PLLU. clock_disable_pllu(); // Set XUSB_PADCTL clock reset. CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_SET) = BIT(CLK_W_XUSB_PADCTL); // Disable XUSB clock. CLOCK(CLK_RST_CONTROLLER_RST_DEV_W_SET) = BIT(CLK_W_XUSB); CLOCK(CLK_RST_CONTROLLER_CLK_ENB_W_CLR) = BIT(CLK_W_XUSB); } static int _xusb_queue_trb(u32 ep_idx, const void *trb, bool ring_doorbell) { int res = USB_RES_OK; data_trb_t *next_trb; link_trb_t *link_trb; // Copy TRB and advance Enqueue list. switch (ep_idx) { case XUSB_EP_CTRL_IN: memcpy(usbd_xotg->cntrl_epenqueue_ptr, trb, sizeof(data_trb_t)); // Advance queue and if Link TRB set index to 0 and toggle cycle bit. next_trb = &usbd_xotg->cntrl_epenqueue_ptr[1]; if (next_trb->trb_type == XUSB_TRB_LINK) { link_trb = (link_trb_t *)next_trb; link_trb->cycle = usbd_xotg->cntrl_producer_cycle & 1; link_trb->toggle_cycle = 1; next_trb = (data_trb_t *)(link_trb->ring_seg_ptrlo << 4); usbd_xotg->cntrl_producer_cycle ^= 1; } usbd_xotg->cntrl_epenqueue_ptr = next_trb; break; case USB_EP_BULK_OUT: memcpy(usbd_xotg->bulkout_epenqueue_ptr, trb, sizeof(data_trb_t)); // Advance queue and if Link TRB set index to 0 and toggle cycle bit. next_trb = &usbd_xotg->bulkout_epenqueue_ptr[1]; if (next_trb->trb_type == XUSB_TRB_LINK) { link_trb = (link_trb_t *)next_trb; link_trb->cycle = usbd_xotg->bulkout_producer_cycle & 1; link_trb->toggle_cycle = 1; next_trb = (data_trb_t *)(link_trb->ring_seg_ptrlo << 4); usbd_xotg->bulkout_producer_cycle ^= 1; } usbd_xotg->bulkout_epenqueue_ptr = next_trb; break; case USB_EP_BULK_IN: memcpy(usbd_xotg->bulkin_epenqueue_ptr, trb, sizeof(data_trb_t)); // Advance queue and if Link TRB set index to 0 and toggle cycle bit. next_trb = &usbd_xotg->bulkin_epenqueue_ptr[1]; if (next_trb->trb_type == XUSB_TRB_LINK) { link_trb = (link_trb_t *)next_trb; link_trb->cycle = usbd_xotg->bulkin_producer_cycle & 1; link_trb->toggle_cycle = 1; next_trb = (data_trb_t *)(link_trb->ring_seg_ptrlo << 4); usbd_xotg->bulkin_producer_cycle ^= 1; } usbd_xotg->bulkin_epenqueue_ptr = next_trb; break; case XUSB_EP_CTRL_OUT: default: res = XUSB_ERROR_INVALID_EP; break; } // Ring doorbell. if (ring_doorbell) { // Flush data before transfer. bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLEAN_WAY, false); u32 target_id = (ep_idx << 8) & 0xFFFF; if (ep_idx == XUSB_EP_CTRL_IN) target_id |= usbd_xotg->ctrl_seq_num << 16; XUSB_DEV_XHCI(XUSB_DEV_XHCI_DB) = target_id; } return res; } static void _xusb_create_status_trb(status_trb_t *trb, usb_dir_t direction) { trb->cycle = usbd_xotg->cntrl_producer_cycle & 1; trb->ioc = 1; // Enable interrupt on completion. trb->trb_type = XUSB_TRB_STATUS; trb->dir = direction; } static void _xusb_create_normal_trb(normal_trb_t *trb, u8 *buf, u32 len, usb_dir_t direction) { u8 producer_cycle; trb->databufptr_lo = (u32)buf; trb->databufptr_hi = 0; trb->trb_tx_len = len; // Single TRB transfer. trb->td_size = 0; trb->chain = 0; if (direction == USB_DIR_IN) producer_cycle = usbd_xotg->bulkin_producer_cycle & 1; else producer_cycle = usbd_xotg->bulkout_producer_cycle & 1; trb->cycle = producer_cycle; trb->isp = 1; // Enable interrupt on short packet. trb->ioc = 1; // Enable interrupt on completion. trb->trb_type = XUSB_TRB_NORMAL; } static void _xusb_create_data_trb(data_trb_t *trb, u8 *buf, u32 len, usb_dir_t direction) { trb->databufptr_lo = (u32)buf; trb->databufptr_hi = 0; trb->trb_tx_len = len; // Single TRB transfer. trb->td_size = 0; trb->chain = 0; trb->cycle = usbd_xotg->cntrl_producer_cycle & 1; trb->isp = 1; // Enable interrupt on short packet. trb->ioc = 1; // Enable interrupt on completion. trb->trb_type = XUSB_TRB_DATA; trb->dir = direction; } static int _xusb_issue_status_trb(usb_dir_t direction) { int res = USB_RES_OK; status_trb_t trb = {0}; if (usbd_xotg->cntrl_epenqueue_ptr == usbd_xotg->cntrl_epdequeue_ptr || direction == USB_DIR_OUT) { _xusb_create_status_trb(&trb, direction); res = _xusb_queue_trb(XUSB_EP_CTRL_IN, &trb, EP_RING_DOORBELL); usbd_xotg->wait_for_event_trb = XUSB_TRB_STATUS; } return res; } static int _xusb_issue_normal_trb(u8 *buf, u32 len, usb_dir_t direction) { normal_trb_t trb = {0}; _xusb_create_normal_trb(&trb, buf, len, direction); u32 ep_idx = USB_EP_BULK_IN; if (direction == USB_DIR_OUT) ep_idx = USB_EP_BULK_OUT; int res = _xusb_queue_trb(ep_idx, &trb, EP_RING_DOORBELL); if (!res) usbd_xotg->wait_for_event_trb = XUSB_TRB_NORMAL; return res; } static int _xusb_issue_data_trb(u8 *buf, u32 len, usb_dir_t direction) { data_trb_t trb = {0}; int res = USB_RES_OK; if (usbd_xotg->cntrl_epenqueue_ptr == usbd_xotg->cntrl_epdequeue_ptr) { _xusb_create_data_trb(&trb, buf, len, direction); res = _xusb_queue_trb(XUSB_EP_CTRL_IN, &trb, EP_RING_DOORBELL); if (!res) usbd_xotg->wait_for_event_trb = XUSB_TRB_DATA; } return res; } int xusb_set_ep_stall(u32 endpoint, int ep_stall) { u32 ep_mask = BIT(endpoint); if (ep_stall) XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) |= ep_mask; else XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) &= ~ep_mask; // Wait for EP status to change. int res = _xusb_xhci_mask_wait(XUSB_DEV_XHCI_EP_STCHG, ep_mask, ep_mask, 1000); if (res) return res; // Clear status change. XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_STCHG) = ep_mask; return USB_RES_OK; } static int _xusb_wait_ep_stopped(u32 endpoint) { u32 ep_mask = BIT(endpoint); // Wait for EP status to change. _xusb_xhci_mask_wait(XUSB_DEV_XHCI_EP_STOPPED, ep_mask, ep_mask, 1000); // Clear status change. XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_STOPPED) = ep_mask; return USB_RES_OK; } static int _xusb_handle_transfer_event(const transfer_event_trb_t *trb) { // Advance dequeue list. data_trb_t *next_trb; switch (trb->ep_id) { case XUSB_EP_CTRL_IN: next_trb = &usbd_xotg->cntrl_epdequeue_ptr[1]; if (next_trb->trb_type == XUSB_TRB_LINK) next_trb = (data_trb_t *)(next_trb->databufptr_lo & 0xFFFFFFF0); usbd_xotg->cntrl_epdequeue_ptr = next_trb; break; case USB_EP_BULK_OUT: next_trb = &usbd_xotg->bulkout_epdequeue_ptr[1]; if (next_trb->trb_type == XUSB_TRB_LINK) next_trb = (data_trb_t *)(next_trb->databufptr_lo & 0xFFFFFFF0); usbd_xotg->bulkout_epdequeue_ptr = next_trb; break; case USB_EP_BULK_IN: next_trb = &usbd_xotg->bulkin_epdequeue_ptr[1]; if (next_trb->trb_type == XUSB_TRB_LINK) next_trb = (data_trb_t *)(next_trb->databufptr_lo & 0xFFFFFFF0); usbd_xotg->bulkin_epdequeue_ptr = next_trb; break; default: // Should never happen. break; } // Handle completion code. switch (trb->comp_code) { case XUSB_COMP_SUCCESS: case XUSB_COMP_SHORT_PKT: switch (trb->ep_id) { case XUSB_EP_CTRL_IN: if (usbd_xotg->wait_for_event_trb == XUSB_TRB_DATA) return _xusb_issue_status_trb(USB_DIR_OUT); else if (usbd_xotg->wait_for_event_trb == XUSB_TRB_STATUS) { switch (usbd_xotg->device_state) { case XUSB_ADDRESSED_STS_WAIT: usbd_xotg->device_state = XUSB_ADDRESSED; break; case XUSB_CONFIGURED_STS_WAIT: usbd_xotg->device_state = XUSB_CONFIGURED; break; case XUSB_LUN_CONFIGURED_STS_WAIT: usbd_xotg->device_state = XUSB_LUN_CONFIGURED; break; case XUSB_HID_CONFIGURED_STS_WAIT: usbd_xotg->device_state = XUSB_HID_CONFIGURED; break; } } break; case USB_EP_BULK_IN: usbd_xotg->tx_bytes[USB_DIR_IN] -= trb->trb_tx_len; if (usbd_xotg->tx_count[USB_DIR_IN]) usbd_xotg->tx_count[USB_DIR_IN]--; // If bytes remaining for a Bulk IN transfer, return error. if (trb->trb_tx_len) return XUSB_ERROR_XFER_BULK_IN_RESIDUE; break; case USB_EP_BULK_OUT: // If short packet and Bulk OUT, it's not an error because we prime EP for 4KB. usbd_xotg->tx_bytes[USB_DIR_OUT] -= trb->trb_tx_len; if (usbd_xotg->tx_count[USB_DIR_OUT]) usbd_xotg->tx_count[USB_DIR_OUT]--; break; } return USB_RES_OK; /* case XUSB_COMP_USB_TRANSACTION_ERROR: case XUSB_COMP_TRB_ERROR: case XUSB_COMP_RING_UNDERRUN: case XUSB_COMP_RING_OVERRUN: case XUSB_COMP_CTRL_DIR_ERROR: // Redefined. xusb_set_ep_stall(trb->ep_id, USB_EP_CFG_STALL); return USB_RES_OK; */ case XUSB_COMP_BABBLE_DETECTED_ERROR: _xusb_wait_ep_stopped(trb->ep_id); xusb_set_ep_stall(trb->ep_id, USB_EP_CFG_STALL); return XUSB_ERROR_BABBLE_DETECTED; case XUSB_COMP_CTRL_DIR_ERROR: return XUSB_ERROR_XFER_DIR; case XUSB_COMP_CTRL_SEQ_NUM_ERROR: return XUSB_ERROR_SEQ_NUM; //! TODO: Can mean a new setup packet was received. default: // Every other completion code. return USB_ERROR_XFER_ERROR; } } /* * Other XUSB impl: * CBT: PR, PRC, WPR, WRC, CSC, REQ, PLC, CEC. * LNX: REQ, PRC PR, PRC & !PR, WRC, CSC, PLC, CEC. * BRO: CSC, PR | PRC, WPR | WRC, REQ, PLC, CEC. */ static int _xusb_handle_port_change() { u32 status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC); u32 halt = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT); u32 clear_mask = XHCI_PORTSC_CEC | XHCI_PORTSC_PLC | XHCI_PORTSC_PRC | XHCI_PORTSC_WRC | XHCI_PORTSC_CSC; // Port reset (PR). if (status & XHCI_PORTSC_PR) { //! TODO: // XHCI_PORTSC_PR: device_state = XUSB_RESET //_disable_usb_wdt4(); } // Port Reset Change (PRC). if (status & XHCI_PORTSC_PRC) { // Clear PRC bit. status &= ~clear_mask; status |= XHCI_PORTSC_PRC; XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) = status; } // Warm Port Reset (WPR). if (status & XHCI_PORTSC_WPR) { //_disable_usb_wdt4(); XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT) &= ~XHCI_PORTHALT_HALT_LTSSM; (void)XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT); //! TODO: XHCI_PORTSC_WPR: device_state = XUSB_RESET } // Warm Port Reset Change (WRC). if (status & XHCI_PORTSC_WRC) { // Clear WRC bit. status &= ~clear_mask; status |= XHCI_PORTSC_WRC; XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) = status; } // Reread port status to handle more changes. status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC); // Connect Status Change (CSC). if (status & XHCI_PORTSC_CSC) { //! TODO: Check CCS. // CCS check seems to be // XHCI_PORTSC_CCS 1: device_state = XUSB_CONNECTED // XHCI_PORTSC_CCS 0: device_state = XUSB_DISCONNECTED // Always do XHCI_PORTSC_CSC bit clear. // Set port speed. usbd_xotg->port_speed = (status & XHCI_PORTSC_PS) >> 10; // In case host does not support Super Speed, revert the control EP packet size. if (usbd_xotg->port_speed != XUSB_SUPER_SPEED) { volatile xusb_ep_ctx_t *ep_ctxt = &xusb_evtq->xusb_ep_ctxt[XUSB_EP_CTRL_IN]; ep_ctxt->avg_trb_len = 8; ep_ctxt->max_packet_size = 64; //! TODO: If super speed is supported, ep context reload, unpause and unhalt must happen. } // Clear CSC bit. status &= ~clear_mask; status |= XHCI_PORTSC_CSC; XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) = status; } // Handle Config Request (STCHG_REQ). if (halt & XHCI_PORTHALT_STCHG_REQ) { // Clear Link Training Status and pending request/reject. XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT) &= ~XHCI_PORTHALT_HALT_LTSSM; (void)XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT); } // Reread port status to handle more changes. status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC); // Port link state change (PLC). if (status & XHCI_PORTSC_PLC) { // check XHCI_PORTSC_PLS_MASK // if XHCI_PORTSC_PLS_U3 // device_state = XUSB_SUSPENDED // else if XHCI_PORTSC_PLS_U0 and XUSB_SUSPENDED // val = XUSB_DEV_XHCI_EP_PAUSE // XUSB_DEV_XHCI_EP_PAUSE = 0 // XUSB_DEV_XHCI_EP_STCHG = val; // Clear PLC bit. status &= ~clear_mask; status |= XHCI_PORTSC_PLC; XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) = status; } // Port configuration link error (CEC). if (status & XHCI_PORTSC_CEC) { status = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC); status &= ~clear_mask; status |= XHCI_PORTSC_CEC; XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) = status; return XUSB_ERROR_PORT_CFG; } return USB_RES_OK; } static int _xusb_handle_get_ep_status(u32 ep_idx) { u32 ep_mask = BIT(ep_idx); static u8 xusb_ep_status_descriptor[2] = {0}; xusb_ep_status_descriptor[0] = (XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) & ep_mask) ? USB_STATUS_EP_HALTED : USB_STATUS_EP_OK; return _xusb_issue_data_trb(xusb_ep_status_descriptor, 2, USB_DIR_IN); } static int _xusb_handle_get_class_request(const usb_ctrl_setup_t *ctrl_setup) { u8 _bRequest = ctrl_setup->bRequest; u16 _wIndex = ctrl_setup->wIndex; u16 _wValue = ctrl_setup->wValue; u16 _wLength = ctrl_setup->wLength; bool valid_interface = _wIndex == usbd_xotg->interface_num; bool valid_val = (_bRequest >= USB_REQUEST_BULK_GET_MAX_LUN) ? (!_wValue) : true; if (!valid_interface || !valid_val) goto stall; switch (_bRequest) { case USB_REQUEST_INTR_GET_REPORT: if (usbd_xotg->hid_rpt_size != _wLength) goto stall; // _wValue unused as there's only one report type and id. return _xusb_issue_data_trb(usbd_xotg->hid_rpt_buffer, usbd_xotg->hid_rpt_size, USB_DIR_IN); case USB_REQUEST_INTR_SET_IDLE: if (_wLength) goto stall; usbd_xotg->intr_idle_rate = (_wValue & 0xFF) * 4 * 1000; // Only one interface so upper byte ignored. usbd_xotg->intr_idle_req = true; return _xusb_issue_status_trb(USB_DIR_IN); // DELAYED_STATUS; case USB_REQUEST_BULK_RESET: if (_wLength) goto stall; usbd_xotg->bulk_reset_req = true; return _xusb_issue_status_trb(USB_DIR_IN); // DELAYED_STATUS; case USB_REQUEST_BULK_GET_MAX_LUN: if (_wLength != 1 || !usbd_xotg->max_lun_set) goto stall; usbd_xotg->device_state = XUSB_LUN_CONFIGURED_STS_WAIT; return _xusb_issue_data_trb(&usbd_xotg->max_lun, 1, USB_DIR_IN); } stall: xusb_set_ep_stall(XUSB_EP_CTRL_IN, USB_EP_CFG_STALL); return USB_RES_OK; } static int _xusb_handle_get_descriptor(const usb_ctrl_setup_t *ctrl_setup) { u32 size; void *desc; u32 wLength = ctrl_setup->wLength; u8 descriptor_type = ctrl_setup->wValue >> 8; u8 descriptor_subtype = ctrl_setup->wValue & 0xFF; switch (descriptor_type) { case USB_DESCRIPTOR_DEVICE: //! TODO USB3: Provide a super speed descriptor. /* u32 soc_rev = APB_MISC(APB_MISC_GP_HIDREV); usb_device_descriptor.idProduct = (soc_rev >> 8) & 0xFF; // chip_id. usb_device_descriptor.idProduct |= ((soc_rev << 4) | (FUSE(FUSE_SKU_INFO) & 0xF)) << 8; // HIDFAM. usb_device_descriptor.bcdDevice = (soc_rev >> 16) & 0xF; // MINORREV. usb_device_descriptor.bcdDevice |= ((soc_rev >> 4) & 0xF) << 8; // MAJORREV. */ desc = usbd_xotg->desc->dev; size = usbd_xotg->desc->dev->bLength; break; case USB_DESCRIPTOR_CONFIGURATION: //! TODO USB3: Provide a super speed descriptor. if (usbd_xotg->gadget == USB_GADGET_UMS) { if (usbd_xotg->port_speed == XUSB_HIGH_SPEED) // High speed. 512 bytes. { for (u32 i = 0; i < usbd_xotg->desc->cfg->interface.bNumEndpoints; i++) usbd_xotg->desc->cfg->endpoint[i].wMaxPacketSize = 0x200; // No burst. } else // Full speed. 64 bytes. { for (u32 i = 0; i < usbd_xotg->desc->cfg->interface.bNumEndpoints; i++) usbd_xotg->desc->cfg->endpoint[i].wMaxPacketSize = 0x40; } } else { usb_cfg_hid_descr_t *tmp = (usb_cfg_hid_descr_t *)usbd_xotg->desc->cfg; if (usbd_xotg->port_speed == XUSB_HIGH_SPEED) // High speed. 512 bytes. { for (u32 i = 0; i < tmp->interface.bNumEndpoints; i++) { tmp->endpoint[i].wMaxPacketSize = 0x200; tmp->endpoint[i].bInterval = usbd_xotg->gadget == USB_GADGET_HID_GAMEPAD ? 4 : 3; // 8ms : 4ms. } } else // Full speed. 64 bytes. { for (u32 i = 0; i < tmp->interface.bNumEndpoints; i++) { tmp->endpoint[i].wMaxPacketSize = 0x40; tmp->endpoint[i].bInterval = usbd_xotg->gadget == USB_GADGET_HID_GAMEPAD ? 8 : 4; // 8ms : 4ms. } } } desc = usbd_xotg->desc->cfg; size = usbd_xotg->desc->cfg->config.wTotalLength; break; case USB_DESCRIPTOR_STRING: switch (descriptor_subtype) { case 1: desc = usbd_xotg->desc->vendor; size = usbd_xotg->desc->vendor[0]; break; case 2: desc = usbd_xotg->desc->product; size = usbd_xotg->desc->product[0]; break; case 3: desc = usbd_xotg->desc->serial; size = usbd_xotg->desc->serial[0]; break; case 0xEE: desc = usbd_xotg->desc->ms_os; size = usbd_xotg->desc->ms_os->bLength; break; default: desc = usbd_xotg->desc->lang_id; size = 4; break; } break; case USB_DESCRIPTOR_DEVICE_QUALIFIER: if (!usbd_xotg->desc->dev_qual) { xusb_set_ep_stall(XUSB_EP_CTRL_IN, USB_EP_CFG_STALL); return USB_RES_OK; } usbd_xotg->desc->dev_qual->bNumOtherConfigs = 0; desc = usbd_xotg->desc->dev_qual; size = usbd_xotg->desc->dev_qual->bLength; break; case USB_DESCRIPTOR_OTHER_SPEED_CONFIGURATION: if (!usbd_xotg->desc->cfg_other) { xusb_set_ep_stall(XUSB_EP_CTRL_IN, USB_EP_CFG_STALL); return USB_RES_OK; } if (usbd_xotg->port_speed == XUSB_HIGH_SPEED) { for (u32 i = 0; i < usbd_xotg->desc->cfg_other->interface.bNumEndpoints; i++) usbd_xotg->desc->cfg_other->endpoint[i].wMaxPacketSize = 0x40; } else { for (u32 i = 0; i < usbd_xotg->desc->cfg_other->interface.bNumEndpoints; i++) usbd_xotg->desc->cfg_other->endpoint[i].wMaxPacketSize = 0x200; } desc = usbd_xotg->desc->cfg_other; size = usbd_xotg->desc->cfg_other->config.wTotalLength; break; case USB_DESCRIPTOR_DEVICE_BINARY_OBJECT: desc = usbd_xotg->desc->dev_bot; size = usbd_xotg->desc->dev_bot->wTotalLength; break; default: xusb_set_ep_stall(XUSB_EP_CTRL_IN, USB_EP_CFG_STALL); return USB_RES_OK; } if (wLength < size) size = wLength; return _xusb_issue_data_trb(desc, size, USB_DIR_IN); } static void _xusb_handle_set_request_dev_address(const usb_ctrl_setup_t *ctrl_setup) { u32 addr = ctrl_setup->wValue & 0xFF; XUSB_DEV_XHCI(XUSB_DEV_XHCI_CTRL) = (XUSB_DEV_XHCI(XUSB_DEV_XHCI_CTRL) & 0x80FFFFFF) | (addr << 24); xusb_evtq->xusb_ep_ctxt[XUSB_EP_CTRL_IN].device_addr = addr; _xusb_issue_status_trb(USB_DIR_IN); usbd_xotg->device_state = XUSB_ADDRESSED_STS_WAIT; } static void _xusb_handle_set_request_configuration(const usb_ctrl_setup_t *ctrl_setup) { usbd_xotg->config_num = ctrl_setup->wValue; // Remove configuration. if (!usbd_xotg->config_num) { //! TODO: Signal that to userspace. _xusb_disable_ep1(); _xusb_issue_status_trb(USB_DIR_IN); return; } // Initialize BULK EPs. _xusbd_ep_initialize(USB_EP_BULK_OUT); _xusbd_ep_initialize(USB_EP_BULK_IN); // Device mode start. XUSB_DEV_XHCI(XUSB_DEV_XHCI_CTRL) |= XHCI_CTRL_RUN; XUSB_DEV_XHCI(XUSB_DEV_XHCI_ST) |= XHCI_ST_RC; _xusb_issue_status_trb(USB_DIR_IN); usbd_xotg->device_state = XUSB_CONFIGURED_STS_WAIT; } static int _xusbd_handle_ep0_control_transfer(usb_ctrl_setup_t *ctrl_setup) { u32 size; u8 *desc; bool ep_stall = false; bool transmit_data = false; u8 _bmRequestType = ctrl_setup->bmRequestType; u8 _bRequest = ctrl_setup->bRequest; u16 _wValue = ctrl_setup->wValue; u16 _wIndex = ctrl_setup->wIndex; u16 _wLength = ctrl_setup->wLength; static u8 xusb_dev_status_descriptor[2] = {USB_STATUS_DEV_SELF_POWERED, 0}; static u8 xusb_interface_descriptor[4] = {0}; static u8 xusb_configuration_descriptor[2] = {0}; static u8 xusb_status_descriptor[2] = {0}; //gfx_printf("ctrl: %02X %02X %04X %04X %04X\n", _bmRequestType, _bRequest, _wValue, _wIndex, _wLength); // Unhalt EP0 IN. XUSB_DEV_XHCI(XUSB_DEV_XHCI_EP_HALT) &= ~XHCI_EP_HALT_DCI_EP0_IN; u32 res = _xusb_xhci_mask_wait(XUSB_DEV_XHCI_EP_HALT, XHCI_EP_HALT_DCI_EP0_IN, 0, 1000); if (res) return res; switch (_bmRequestType) { case (USB_SETUP_HOST_TO_DEVICE | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_DEVICE): // 0x00. if (_bRequest == USB_REQUEST_SET_ADDRESS) _xusb_handle_set_request_dev_address(ctrl_setup); else if (_bRequest == USB_REQUEST_SET_CONFIGURATION) _xusb_handle_set_request_configuration(ctrl_setup); return USB_RES_OK; // What about others. case (USB_SETUP_HOST_TO_DEVICE | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_INTERFACE): // 0x01. usbd_xotg->interface_num = _wValue; return _xusb_issue_status_trb(USB_DIR_IN); case (USB_SETUP_HOST_TO_DEVICE | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_ENDPOINT): // 0x02. if ((_wValue & 0xFF) == USB_FEATURE_ENDPOINT_HALT) { if (_bRequest == USB_REQUEST_CLEAR_FEATURE || _bRequest == USB_REQUEST_SET_FEATURE) { u32 ep = 0; switch (_wIndex) // endpoint { case USB_EP_ADDR_CTRL_OUT: ep = XUSB_EP_CTRL_OUT; break; case USB_EP_ADDR_CTRL_IN: ep = XUSB_EP_CTRL_IN; break; case USB_EP_ADDR_BULK_OUT: ep = USB_EP_BULK_OUT; break; case USB_EP_ADDR_BULK_IN: ep = USB_EP_BULK_IN; break; default: xusb_set_ep_stall(XUSB_EP_CTRL_IN, USB_EP_CFG_STALL); return USB_RES_OK; } if (_bRequest == USB_REQUEST_CLEAR_FEATURE) xusb_set_ep_stall(ep, USB_EP_CFG_CLEAR); else if (_bRequest == USB_REQUEST_SET_FEATURE) xusb_set_ep_stall(ep, USB_EP_CFG_STALL); return _xusb_issue_status_trb(USB_DIR_IN); } } ep_stall = true; break; case (USB_SETUP_HOST_TO_DEVICE | USB_SETUP_TYPE_CLASS | USB_SETUP_RECIPIENT_INTERFACE): // 0x21. return _xusb_handle_get_class_request(ctrl_setup); case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_DEVICE): // 0x80. switch (_bRequest) { case USB_REQUEST_GET_STATUS: desc = xusb_dev_status_descriptor; size = sizeof(xusb_dev_status_descriptor); transmit_data = true; break; case USB_REQUEST_GET_DESCRIPTOR: return _xusb_handle_get_descriptor(ctrl_setup); case USB_REQUEST_GET_CONFIGURATION: xusb_configuration_descriptor[0] = usbd_xotg->config_num; desc = xusb_configuration_descriptor; size = sizeof(xusb_configuration_descriptor); transmit_data = true; break; default: ep_stall = true; break; } break; case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_INTERFACE): // 0x81. if (_bRequest == USB_REQUEST_GET_INTERFACE) { desc = xusb_interface_descriptor; size = sizeof(xusb_interface_descriptor); xusb_interface_descriptor[0] = usbd_xotg->interface_num; transmit_data = true; } else if (_bRequest == USB_REQUEST_GET_STATUS) { desc = xusb_status_descriptor; size = sizeof(xusb_status_descriptor); transmit_data = true; } else if (_bRequest == USB_REQUEST_GET_DESCRIPTOR && (_wValue >> 8) == USB_DESCRIPTOR_HID_REPORT && usbd_xotg->gadget >= USB_GADGET_HID_GAMEPAD) { if (usbd_xotg->gadget == USB_GADGET_HID_GAMEPAD) { desc = (u8 *)&hid_report_descriptor_jc; size = hid_report_descriptor_jc_size; } else // USB_GADGET_HID_TOUCHPAD { desc = (u8 *)&hid_report_descriptor_touch; size = hid_report_descriptor_touch_size; } transmit_data = true; usbd_xotg->device_state = XUSB_HID_CONFIGURED_STS_WAIT; } else ep_stall = true; break; case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_STANDARD | USB_SETUP_RECIPIENT_ENDPOINT): // 0x82. if (_bRequest == USB_REQUEST_GET_STATUS) { u32 ep = 0; switch (_wIndex) // endpoint { case USB_EP_ADDR_CTRL_OUT: ep = XUSB_EP_CTRL_OUT; break; case USB_EP_ADDR_CTRL_IN: ep = XUSB_EP_CTRL_IN; break; case USB_EP_ADDR_BULK_OUT: ep = USB_EP_BULK_OUT; break; case USB_EP_ADDR_BULK_IN: ep = USB_EP_BULK_IN; break; default: xusb_set_ep_stall(XUSB_EP_CTRL_IN, USB_EP_CFG_STALL); return USB_RES_OK; } return _xusb_handle_get_ep_status(ep); } ep_stall = true; break; case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_CLASS | USB_SETUP_RECIPIENT_INTERFACE): // 0xA1. return _xusb_handle_get_class_request(ctrl_setup); case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_VENDOR | USB_SETUP_RECIPIENT_DEVICE): // 0xC0. case (USB_SETUP_DEVICE_TO_HOST | USB_SETUP_TYPE_VENDOR | USB_SETUP_RECIPIENT_INTERFACE): // 0xC1. if (_bRequest == USB_REQUEST_GET_MS_DESCRIPTOR) { switch (_wIndex) { case USB_DESCRIPTOR_MS_COMPAT_ID: desc = (u8 *)usbd_xotg->desc->ms_cid; size = usbd_xotg->desc->ms_cid->dLength; transmit_data = true; break; case USB_DESCRIPTOR_MS_EXTENDED_PROPERTIES: desc = (u8 *)usbd_xotg->desc->mx_ext; size = usbd_xotg->desc->mx_ext->dLength; transmit_data = true; break; default: ep_stall = true; break; } } else ep_stall = true; break; default: ep_stall = true; break; } if (transmit_data) { memcpy((u8 *)USB_EP_CONTROL_BUF_ADDR, desc, size); if (_wLength < size) size = _wLength; return _xusb_issue_data_trb((u8 *)USB_EP_CONTROL_BUF_ADDR, size, USB_DIR_IN); } if (ep_stall) xusb_set_ep_stall(XUSB_EP_CTRL_IN, USB_EP_CFG_STALL); return USB_RES_OK; } static int _xusb_ep_operation(u32 tries) { usb_ctrl_setup_t setup_event; volatile event_trb_t *event_trb; setup_event_trb_t *setup_event_trb; // Wait for an interrupt event. int res = _xusb_xhci_mask_wait(XUSB_DEV_XHCI_ST, XHCI_ST_IP, XHCI_ST_IP, tries); if (res) return res; // Clear interrupt status. XUSB_DEV_XHCI(XUSB_DEV_XHCI_ST) |= XHCI_ST_IP; usbd_xotg->event_enqueue_ptr = (event_trb_t *)(XUSB_DEV_XHCI(XUSB_DEV_XHCI_EREPLO) & 0xFFFFFFF0); event_trb = usbd_xotg->event_dequeue_ptr; // Check if cycle matches. if ((event_trb->cycle & 1) != usbd_xotg->event_ccs) return XUSB_ERROR_INVALID_CYCLE; while ((event_trb->cycle & 1) == usbd_xotg->event_ccs) { switch (event_trb->trb_type) { case XUSB_TRB_TRANSFER: res = _xusb_handle_transfer_event((transfer_event_trb_t *)event_trb); break; case XUSB_TRB_PORT_CHANGE: res = _xusb_handle_port_change(); break; case XUSB_TRB_SETUP: setup_event_trb = (setup_event_trb_t *)event_trb; memcpy(&setup_event, &setup_event_trb->ctrl_setup_data, sizeof(usb_ctrl_setup_t)); usbd_xotg->ctrl_seq_num = setup_event_trb->ctrl_seq_num; res = _xusbd_handle_ep0_control_transfer(&setup_event); break; default: // TRB not supported. break; } // Check if last event TRB and reset to first one. if (usbd_xotg->event_dequeue_ptr == &xusb_evtq->xusb_event_ring_seg1[XUSB_LAST_TRB_IDX]) { usbd_xotg->event_dequeue_ptr = xusb_evtq->xusb_event_ring_seg0; usbd_xotg->event_ccs ^= 1; } else // Advance dequeue to next event. usbd_xotg->event_dequeue_ptr = &usbd_xotg->event_dequeue_ptr[1]; // Set next event. event_trb = usbd_xotg->event_dequeue_ptr; // If events exceed the interrupt time, handle them next interrupt. if (usbd_xotg->event_dequeue_ptr == usbd_xotg->event_enqueue_ptr) break; } // Clear Event Handler bit if enabled and set Dequeue pointer. u32 erdp = XUSB_DEV_XHCI(XUSB_DEV_XHCI_ERDPLO) & 0xF; if (erdp & XHCI_ERDPLO_EHB) erdp |= XHCI_ERDPLO_EHB; XUSB_DEV_XHCI(XUSB_DEV_XHCI_ERDPLO) = ((u32)usbd_xotg->event_dequeue_ptr & 0xFFFFFFF0) | erdp; return res; } int xusb_device_enumerate(usb_gadget_type gadget) { switch (gadget) { case USB_GADGET_UMS: usbd_xotg->desc = &usb_gadget_ums_descriptors; break; case USB_GADGET_HID_GAMEPAD: usbd_xotg->desc = &usb_gadget_hid_jc_descriptors; break; case USB_GADGET_HID_TOUCHPAD: usbd_xotg->desc = &usb_gadget_hid_touch_descriptors; break; } usbd_xotg->gadget = gadget; /* * Set interrupt moderation to 0us. * This is important because default value creates a 4.62ms latency. * Effectively hurting transfers by having 15% to 96% performance loss. */ XUSB_DEV_XHCI(XUSB_DEV_XHCI_RT_IMOD) = 0; // Disable Wake events. XUSB_PADCTL(XUSB_PADCTL_ELPG_PROGRAM_0) = 0; XUSB_PADCTL(XUSB_PADCTL_ELPG_PROGRAM_1) = 0; // Enable overrides for VBUS and ID. XUSB_PADCTL(XUSB_PADCTL_USB2_VBUS_ID) = (XUSB_PADCTL(XUSB_PADCTL_USB2_VBUS_ID) & ~(PADCTL_USB2_VBUS_ID_VBUS_OVR_MASK | PADCTL_USB2_VBUS_ID_SRC_MASK)) | PADCTL_USB2_VBUS_ID_VBUS_OVR_EN | PADCTL_USB2_VBUS_ID_SRC_ID_OVR_EN; // Clear halt for LTSSM. XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTHALT) &= ~XHCI_PORTHALT_HALT_LTSSM; // Enable device mode. XUSB_DEV_XHCI(XUSB_DEV_XHCI_CTRL) |= XHCI_CTRL_ENABLE; // Override access to High/Full Speed. XUSB_DEV_XHCI(XUSB_DEV_XHCI_CFG_DEV_FE) = (XUSB_DEV_XHCI(XUSB_DEV_XHCI_CFG_DEV_FE) & ~XHCI_CFG_DEV_FE_PORTREGSEL_MASK) | XHCI_CFG_DEV_FE_PORTREGSEL_HSFS; XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) = (XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) & ~XHCI_PORTSC_PLS_MASK) | XHCI_PORTSC_LWS | XHCI_PORTSC_PLS_RXDETECT; XUSB_DEV_XHCI(XUSB_DEV_XHCI_CFG_DEV_FE) &= ~XHCI_CFG_DEV_FE_PORTREGSEL_MASK; // Enable VBUS and set ID to Float. XUSB_PADCTL(XUSB_PADCTL_USB2_VBUS_ID) = (XUSB_PADCTL(XUSB_PADCTL_USB2_VBUS_ID) & ~PADCTL_USB2_VBUS_ID_OVR_MASK) | PADCTL_USB2_VBUS_ID_OVR_FLOAT | PADCTL_USB2_VBUS_ID_VBUS_ON; usbd_xotg->wait_for_event_trb = XUSB_TRB_SETUP; usbd_xotg->device_state = XUSB_DEFAULT; // Timeout if cable or communication isn't started in 1.5 minutes. u32 timer = get_tmr_ms() + 90000; while (true) { int res = _xusb_ep_operation(USB_XFER_SYNCED_ENUM); // 2s timeout. if (res && res != USB_ERROR_TIMEOUT) return res; if (usbd_xotg->device_state == XUSB_CONFIGURED) break; if (timer < get_tmr_ms() || btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) return USB_ERROR_USER_ABORT; } return USB_RES_OK; } void xusb_end(bool reset_ep, bool only_controller) { // Disable endpoints and stop device mode operation. _xusb_disable_ep1(); // Disable device mode. XUSB_DEV_XHCI(XUSB_DEV_XHCI_CTRL) = 0; //! TODO: Add only controller support? _xusb_device_power_down(); } int xusb_handle_ep0_ctrl_setup(u32 *data) { /* * EP0 Control handling is done by normal ep operation in XUSB. * Here we handle the interface only, except if HID. */ if (usbd_xotg->gadget >= USB_GADGET_HID_GAMEPAD) _xusb_ep_operation(1); if (usbd_xotg->intr_idle_req) { if (data) *data = usbd_xotg->intr_idle_rate; usbd_xotg->intr_idle_req = false; return USB_RES_OK; } if (usbd_xotg->bulk_reset_req) { usbd_xotg->bulk_reset_req = false; return USB_RES_BULK_RESET; } return USB_RES_OK; } int xusb_device_ep1_out_read(u8 *buf, u32 len, u32 *bytes_read, u32 sync_tries) { if (len > USB_EP_BUFFER_MAX_SIZE) len = USB_EP_BUFFER_MAX_SIZE; int res = USB_RES_OK; usbd_xotg->tx_count[USB_DIR_OUT] = 0; usbd_xotg->tx_bytes[USB_DIR_OUT] = len; _xusb_issue_normal_trb(buf, len, USB_DIR_OUT); usbd_xotg->tx_count[USB_DIR_OUT]++; if (sync_tries) { while (!res && usbd_xotg->tx_count[USB_DIR_OUT]) res = _xusb_ep_operation(sync_tries); if (bytes_read) *bytes_read = res ? 0 : usbd_xotg->tx_bytes[USB_DIR_OUT]; } // Invalidate data after transfer. bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, false); return res; } int xusb_device_ep1_out_read_big(u8 *buf, u32 len, u32 *bytes_read) { if (len > USB_EP_BULK_OUT_MAX_XFER) len = USB_EP_BULK_OUT_MAX_XFER; u32 bytes = 0; *bytes_read = 0; u8 *buf_curr = buf; while (len) { u32 len_ep = MIN(len, USB_EP_BUFFER_MAX_SIZE); int res = xusb_device_ep1_out_read(buf_curr, len_ep, &bytes, USB_XFER_SYNCED_DATA); if (res) return res; len -= len_ep; buf_curr += len_ep; *bytes_read = *bytes_read + bytes; } return USB_RES_OK; } int xusb_device_ep1_out_reading_finish(u32 *pending_bytes, u32 sync_tries) { int res = USB_RES_OK; while (!res && usbd_xotg->tx_count[USB_DIR_OUT]) res = _xusb_ep_operation(sync_tries); // Infinite retries. if (pending_bytes) *pending_bytes = res ? 0 : usbd_xotg->tx_bytes[USB_DIR_OUT]; // Invalidate data after transfer. bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, false); return res; } int xusb_device_ep1_in_write(u8 *buf, u32 len, u32 *bytes_written, u32 sync_tries) { if (len > USB_EP_BUFFER_MAX_SIZE) len = USB_EP_BUFFER_MAX_SIZE; // Flush data before transfer. bpmp_mmu_maintenance(BPMP_MMU_MAINT_CLEAN_WAY, false); int res = USB_RES_OK; usbd_xotg->tx_count[USB_DIR_IN] = 0; usbd_xotg->tx_bytes[USB_DIR_IN] = len; _xusb_issue_normal_trb(buf, len, USB_DIR_IN); usbd_xotg->tx_count[USB_DIR_IN]++; if (sync_tries) { while (!res && usbd_xotg->tx_count[USB_DIR_IN]) res = _xusb_ep_operation(sync_tries); if (bytes_written) *bytes_written = res ? 0 : usbd_xotg->tx_bytes[USB_DIR_IN]; } else { if ((usbd_xotg->port_speed == XUSB_FULL_SPEED && len == 64) || (usbd_xotg->port_speed == XUSB_HIGH_SPEED && len == 512) || (usbd_xotg->port_speed == XUSB_SUPER_SPEED && len == 1024)) { _xusb_issue_normal_trb(buf, 0, USB_DIR_IN); usbd_xotg->tx_count[USB_DIR_IN]++; } } return res; } int xusb_device_ep1_in_writing_finish(u32 *pending_bytes, u32 sync_tries) { int res = USB_RES_OK; while (!res && usbd_xotg->tx_count[USB_DIR_IN]) res = _xusb_ep_operation(sync_tries); // Infinite retries. if (pending_bytes) *pending_bytes = res ? 0 : usbd_xotg->tx_bytes[USB_DIR_IN]; return res; } bool xusb_device_get_port_in_sleep() { // Ejection heuristic. u32 link_mode = XUSB_DEV_XHCI(XUSB_DEV_XHCI_PORTSC) & XHCI_PORTSC_PLS_MASK; return (link_mode == XHCI_PORTSC_PLS_U3); } bool xusb_device_class_send_max_lun(u8 max_lun) { // Timeout if get MAX_LUN request doesn't happen in 10s. u32 timer = get_tmr_ms() + 10000; usbd_xotg->max_lun = max_lun; usbd_xotg->max_lun_set = true; // Wait for request and transfer start. while (usbd_xotg->device_state != XUSB_LUN_CONFIGURED) { _xusb_ep_operation(USB_XFER_SYNCED_CLASS); if (timer < get_tmr_ms() || btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) return true; } usbd_xotg->device_state = XUSB_CONFIGURED; return false; } bool xusb_device_class_send_hid_report(void *rpt_buffer, u32 rpt_size) { // Set buffers. usbd_xotg->hid_rpt_buffer = rpt_buffer; usbd_xotg->hid_rpt_size = rpt_size; // Timeout if get GET_HID_REPORT request doesn't happen in 10s. u32 timer = get_tmr_ms() + 10000; // Wait for request and transfer start. while (usbd_xotg->device_state != XUSB_HID_CONFIGURED) { _xusb_ep_operation(USB_XFER_SYNCED_CLASS); if (timer < get_tmr_ms() || btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) return true; } usbd_xotg->device_state = XUSB_CONFIGURED; return false; } void xusb_device_get_ops(usb_ops_t *ops) { ops->usbd_flush_endpoint = NULL; ops->usbd_set_ep_stall = xusb_set_ep_stall; ops->usbd_handle_ep0_ctrl_setup = xusb_handle_ep0_ctrl_setup; ops->usbd_end = xusb_end; ops->usb_device_init = xusb_device_init; ops->usb_device_enumerate = xusb_device_enumerate; ops->usb_device_class_send_max_lun = xusb_device_class_send_max_lun; ops->usb_device_class_send_hid_report = xusb_device_class_send_hid_report; ops->usb_device_get_suspended = xusb_device_get_port_in_sleep; ops->usb_device_get_port_in_sleep = xusb_device_get_port_in_sleep; ops->usb_device_ep1_out_read = xusb_device_ep1_out_read; ops->usb_device_ep1_out_read_big = xusb_device_ep1_out_read_big; ops->usb_device_ep1_out_reading_finish = xusb_device_ep1_out_reading_finish; ops->usb_device_ep1_in_write = xusb_device_ep1_in_write; ops->usb_device_ep1_in_writing_finish = xusb_device_ep1_in_writing_finish; } ================================================ FILE: bdk/utils/aarch64_util.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _ARM64_H_ #define _ARM64_H_ #include #define LSL0 0 #define LSL16 16 #define LSL32 32 #define _PAGEOFF(x) ((x) & 0xFFFFF000) #define _ADRP(r, o) (0x90000000 | ((((o) >> 12) & 0x3) << 29) | ((((o) >> 12) & 0x1FFFFC) << 3) | ((r) & 0x1F)) #define _BL(a, o) (0x94000000 | ((((o) - (a)) >> 2) & 0x3FFFFFF)) #define _B(a, o) (0x14000000 | ((((o) - (a)) >> 2) & 0x3FFFFFF)) #define _MOVKX(r, i, s) (0xF2800000 | (((s) & 0x30) << 17) | (((i) & 0xFFFF) << 5) | ((r) & 0x1F)) #define _MOVZX(r, i, s) (0xD2800000 | (((s) & 0x30) << 17) | (((i) & 0xFFFF) << 5) | ((r) & 0x1F)) #define _MOVZW(r, i, s) (0x52800000 | (((s) & 0x30) << 17) | (((i) & 0xFFFF) << 5) | ((r) & 0x1F)) #define _NOP() 0xD503201F #endif ================================================ FILE: bdk/utils/btn.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "btn.h" #include #include #include #include #include u8 btn_read() { u8 res = 0; if (!gpio_read(GPIO_PORT_X, GPIO_PIN_7)) res |= BTN_VOL_DOWN; if (!gpio_read(GPIO_PORT_X, GPIO_PIN_6)) res |= BTN_VOL_UP; // HOAG can use the GPIO. Icosa/Iowa/AULA cannot. Traces are there but they miss a resistor. if (i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFSTAT) & MAX77620_ONOFFSTAT_EN0) res |= BTN_POWER; return res; } u8 btn_read_vol() { u8 res = 0; if (!gpio_read(GPIO_PORT_X, GPIO_PIN_7)) res |= BTN_VOL_DOWN; if (!gpio_read(GPIO_PORT_X, GPIO_PIN_6)) res |= BTN_VOL_UP; return res; } u8 btn_read_home() { return (!gpio_read(GPIO_PORT_Y, GPIO_PIN_1)) ? BTN_HOME : 0; } u8 btn_wait() { u8 res = 0, btn = btn_read(); bool pwr = false; //Power button down, raise a filter. if (btn & BTN_POWER) { pwr = true; btn &= ~BTN_POWER; } do { res = btn_read(); //Power button up, remove filter. if (!(res & BTN_POWER) && pwr) pwr = false; else if (pwr) //Power button still down. res &= ~BTN_POWER; } while (btn == res); return res; } u8 btn_wait_timeout(u32 time_ms, u8 mask) { u32 timeout = get_tmr_ms() + time_ms; u8 res = btn_read() & mask; while (get_tmr_ms() < timeout) { if (res == mask) break; else res = btn_read() & mask; }; return res; } u8 btn_wait_timeout_single(u32 time_ms, u8 mask) { u8 single_button = mask & BTN_SINGLE; mask &= ~BTN_SINGLE; u32 timeout = get_tmr_ms() + time_ms; u8 res = btn_read(); while (get_tmr_ms() < timeout) { if ((res & mask) == mask) { if (single_button && (res & ~mask)) // Undesired button detected. res = btn_read(); else return (res & mask); } else res = btn_read(); }; // Timed out. if (!single_button || !time_ms) return (res & mask); else return 0; // Return no button press if single button requested. } ================================================ FILE: bdk/utils/btn.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _BTN_H_ #define _BTN_H_ #include #define BTN_POWER BIT(0) #define BTN_VOL_DOWN BIT(1) #define BTN_VOL_UP BIT(2) #define BTN_HOME BIT(3) #define BTN_SINGLE BIT(7) u8 btn_read(); u8 btn_read_vol(); u8 btn_read_home(); u8 btn_wait(); u8 btn_wait_timeout(u32 time_ms, u8 mask); u8 btn_wait_timeout_single(u32 time_ms, u8 mask); #endif ================================================ FILE: bdk/utils/dirlist.c ================================================ /* * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "dirlist.h" #include #include #include dirlist_t *dirlist(const char *directory, const char *pattern, u32 flags) { int res = 0; u32 k = 0; DIR dir; FILINFO fno; bool show_hidden = !!(flags & DIR_SHOW_HIDDEN); bool show_dirs = !!(flags & DIR_SHOW_DIRS); bool ascii_order = !!(flags & DIR_ASCII_ORDER); dirlist_t *dir_entries = (dirlist_t *)malloc(sizeof(dirlist_t)); // Setup pointer tree. for (u32 i = 0; i < DIR_MAX_ENTRIES; i++) dir_entries->name[i] = &dir_entries->data[i * 256]; if (!pattern && !f_opendir(&dir, directory)) { for (;;) { res = f_readdir(&dir, &fno); if (res || !fno.fname[0]) break; bool curr_parse = show_dirs ? (fno.fattrib & AM_DIR) : !(fno.fattrib & AM_DIR); if (curr_parse) { if ((fno.fname[0] != '.') && (show_hidden || !(fno.fattrib & AM_HID))) { strcpy(&dir_entries->data[k * 256], fno.fname); if (++k >= DIR_MAX_ENTRIES) break; } } } f_closedir(&dir); } else if (pattern && !f_findfirst(&dir, &fno, directory, pattern) && fno.fname[0]) { do { if (!(fno.fattrib & AM_DIR) && (fno.fname[0] != '.') && (show_hidden || !(fno.fattrib & AM_HID))) { strcpy(&dir_entries->data[k * 256], fno.fname); if (++k >= DIR_MAX_ENTRIES) break; } res = f_findnext(&dir, &fno); } while (fno.fname[0] && !res); f_closedir(&dir); } if (!k) { free(dir_entries); return NULL; } // Terminate name list. dir_entries->name[k] = NULL; // Choose list ordering. int (*strcmpex)(const char* str1, const char* str2) = ascii_order ? strcmp : strcasecmp; // Reorder ini files Alphabetically. for (u32 i = 0; i < k - 1 ; i++) { for (u32 j = i + 1; j < k; j++) { if (strcmpex(dir_entries->name[i], dir_entries->name[j]) > 0) { char *tmp = dir_entries->name[i]; dir_entries->name[i] = dir_entries->name[j]; dir_entries->name[j] = tmp; } } } return dir_entries; } ================================================ FILE: bdk/utils/dirlist.h ================================================ /* * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #ifndef _DIRLIST_H_ #define _DIRLIST_H_ #define DIR_MAX_ENTRIES 64 #define DIR_SHOW_HIDDEN BIT(0) #define DIR_SHOW_DIRS BIT(1) #define DIR_ASCII_ORDER BIT(2) typedef struct _dirlist_t { char *name[DIR_MAX_ENTRIES]; char data[DIR_MAX_ENTRIES * 256]; } dirlist_t; dirlist_t *dirlist(const char *directory, const char *pattern, u32 flags); #endif ================================================ FILE: bdk/utils/ini.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "ini.h" #include #include #include #include u32 _find_section_name(char *lbuf, u32 lblen, char schar) { u32 i; // Depends on 'FF_USE_STRFUNC 2' that removes \r. for (i = 0; i < lblen && lbuf[i] != schar && lbuf[i] != '\n'; i++) ; lbuf[i] = 0; return i; } ini_sec_t *_ini_create_section(link_t *dst, ini_sec_t *csec, char *name, u8 type) { if (csec) list_append(dst, &csec->link); // Calculate total allocation size. u32 len = name ? strlen(name) + 1 : 0; char *buf = zalloc(sizeof(ini_sec_t) + len); csec = (ini_sec_t *)buf; csec->name = strcpy_ns(buf + sizeof(ini_sec_t), name); csec->type = type; // Initialize list. list_init(&csec->kvs); return csec; } int ini_parse(link_t *dst, const char *ini_path, bool is_dir) { FIL fp; u32 lblen; u32 k = 0; u32 pathlen = strlen(ini_path); ini_sec_t *csec = NULL; char *lbuf = NULL; dirlist_t *filelist = NULL; char *filename = (char *)malloc(256); strcpy(filename, ini_path); // Get all ini filenames. if (is_dir) { filelist = dirlist(filename, "*.ini", DIR_ASCII_ORDER); if (!filelist) { free(filename); return 1; } strcpy(filename + pathlen, "/"); pathlen++; } do { // Copy ini filename in path string. if (is_dir) { if (filelist->name[k]) { strcpy(filename + pathlen, filelist->name[k]); k++; } else break; } // Open ini. if (f_open(&fp, filename, FA_READ) != FR_OK) { free(filelist); free(filename); return 1; } lbuf = malloc(512); do { // Fetch one line. lbuf[0] = 0; f_gets(lbuf, 512, &fp); lblen = strlen(lbuf); // Remove trailing newline. Depends on 'FF_USE_STRFUNC 2' that removes \r. if (lblen && lbuf[lblen - 1] == '\n') lbuf[lblen - 1] = 0; if (lblen > 2 && lbuf[0] == '[') // Create new section. { _find_section_name(lbuf, lblen, ']'); csec = _ini_create_section(dst, csec, &lbuf[1], INI_CHOICE); } else if (lblen > 1 && lbuf[0] == '{') // Create new caption. Support empty caption '{}'. { _find_section_name(lbuf, lblen, '}'); csec = _ini_create_section(dst, csec, &lbuf[1], INI_CAPTION); csec->color = 0xFF0AB9E6; } else if (lblen > 2 && lbuf[0] == '#') // Create comment. { csec = _ini_create_section(dst, csec, &lbuf[1], INI_COMMENT); } else if (lblen < 2) // Create empty line. { csec = _ini_create_section(dst, csec, NULL, INI_NEWLINE); } else if (csec && csec->type == INI_CHOICE) // Extract key/value. { u32 i = _find_section_name(lbuf, lblen, '='); // Calculate total allocation size. u32 klen = strlen(&lbuf[0]) + 1; u32 vlen = strlen(&lbuf[i + 1]) + 1; char *buf = zalloc(sizeof(ini_kv_t) + klen + vlen); ini_kv_t *kv = (ini_kv_t *)buf; buf += sizeof(ini_kv_t); kv->key = strcpy_ns(buf, &lbuf[0]); buf += klen; kv->val = strcpy_ns(buf, &lbuf[i + 1]); list_append(&csec->kvs, &kv->link); } } while (!f_eof(&fp)); free(lbuf); f_close(&fp); if (csec) { list_append(dst, &csec->link); if (is_dir) csec = NULL; } } while (is_dir); free(filename); free(filelist); return 0; } char *ini_check_special_section(ini_sec_t *cfg) { if (cfg == NULL) return NULL; LIST_FOREACH_ENTRY(ini_kv_t, kv, &cfg->kvs, link) { if (!strcmp("l4t", kv->key)) return ((kv->val[0] == '1') ? (char *)-1 : NULL); else if (!strcmp("payload", kv->key)) return kv->val; } return NULL; } void ini_free(link_t *src) { ini_sec_t *prev_sec = NULL; // Parse and free all ini sections. LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, src, link) { ini_kv_t *prev_kv = NULL; // Free all ini key allocations if they exist. LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { // Free previous key. if (prev_kv) free(prev_kv); // Set next key to free. prev_kv = kv; } // Free last key. if (prev_kv) free(prev_kv); // Free previous section. if (prev_sec) free(prev_sec); // Set next section to free. prev_sec = ini_sec; } // Free last section. if (prev_sec) free(prev_sec); } ================================================ FILE: bdk/utils/ini.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _INI_H_ #define _INI_H_ #include #include #define INI_CHOICE 3 #define INI_CAPTION 5 #define INI_CHGLINE 6 #define INI_NEWLINE 0xFE #define INI_COMMENT 0xFF typedef struct _ini_kv_t { char *key; char *val; link_t link; } ini_kv_t; typedef struct _ini_sec_t { char *name; link_t kvs; link_t link; u32 type; u32 color; } ini_sec_t; int ini_parse(link_t *dst, const char *ini_path, bool is_dir); char *ini_check_special_section(ini_sec_t *cfg); void ini_free(link_t *src); #endif ================================================ FILE: bdk/utils/list.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _LIST_H_ #define _LIST_H_ #include /*! Initialize list. */ #define LIST_INIT(name) link_t name = {&name, &name} /*! Initialize static list. */ #define LIST_INIT_STATIC(name) static link_t name = {&name, &name} /*! Iterate over all list links. */ #define LIST_FOREACH(iter, list) \ for (link_t *iter = (list)->next; iter != (list); iter = iter->next) /*! Iterate over all list links backwards. */ #define LIST_FOREACH_INVERSE(iter, list) \ for (link_t *iter = (list)->prev; iter != (list); iter = iter->prev) /*! Safely iterate over all list links. */ #define LIST_FOREACH_SAFE(iter, list) \ for (link_t *iter = (list)->next, *safe = iter->next; iter != (list); iter = safe, safe = iter->next) /*! Iterate over all list members and make sure that the list has at least one entry. */ #define LIST_FOREACH_ENTRY(etype, iter, list, mn) \ if ((list)->next != (list)) \ for (etype *iter = CONTAINER_OF((list)->next, etype, mn); &iter->mn != (list); iter = CONTAINER_OF(iter->mn.next, etype, mn)) /* Iterate over all list members backwards and make sure that the list has at least one entry. */ #define LIST_FOREACH_ENTRY_INVERSE(type, iter, list, mn) \ if ((list)->prev != (list)) \ for (type *iter = CONTAINER_OF((list)->prev, type, mn); &iter->mn != (list); iter = CONTAINER_OF(iter->mn.prev, type, mn)) typedef struct _link_t { struct _link_t *prev; struct _link_t *next; } link_t; static inline void link_init(link_t *l) { l->prev = NULL; l->next = NULL; } static inline int link_used(link_t *l) { if (l->next == NULL) return 1; return 0; } static inline void list_init(link_t *lh) { lh->prev = lh; lh->next = lh; } static inline void list_prepend(link_t *lh, link_t *l) { l->next = lh->next; l->prev = lh; lh->next->prev = l; lh->next = l; } static inline void list_append(link_t *lh, link_t *l) { l->prev = lh->prev; l->next = lh; lh->prev->next = l; lh->prev = l; } static inline void list_remove(link_t *l) { l->next->prev = l->prev; l->prev->next = l->next; link_init(l); } static inline int list_empty(link_t *lh) { if (lh->next == lh) return 1; return 0; } #endif ================================================ FILE: bdk/utils/sprintf.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2019-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include char **sout_buf; static void _s_putc(char c) { **sout_buf = c; *sout_buf += 1; } static void _s_putspace(int fcnt) { if (fcnt <= 0) return; for (int i = 0; i < fcnt; i++) _s_putc(' '); } static void _s_puts(char *s, char fill, int fcnt) { if (fcnt) { fcnt = fcnt - strlen(s); // Left padding. Check if padding is not space based (dot counts as such). if (fill != '.') _s_putspace(fcnt); } for (; *s; s++) _s_putc(*s); // Right padding. Check if padding is space based (dot counts as such). if (fill == '.') _s_putspace(fcnt); } static void _s_putn(u32 v, int base, char fill, int fcnt) { static const char digits[] = "0123456789ABCDEF"; char *p; char buf[65]; // Number char size + leftover for padding. int c = fcnt; bool negative = false; if (base != 10 && base != 16) return; // Account for negative numbers. if (base == 10 && v & 0x80000000) { negative = true; v = (int)v * -1; c--; } p = buf + 64; *p = 0; do { c--; *--p = digits[v % base]; v /= base; } while (v); if (negative) *--p = '-'; if (fill != 0) { while (c > 0 && p > buf) { *--p = fill; c--; } } _s_puts(p, 0, 0); } /* * Padding: * Numbers: * %3d: Fill: ' ', Count: 3. * % 3d: Fill: ' ', Count: 3. * %.3d: Fill: '.', Count: 3. * %23d: Fill: '2', Count: 3. * % 23d: Fill: ' ', Count: 23. * %223d: Fill: '2', Count: 23. * * Strings, Fill: ' ': * %3s: Count: 5, Left. * %23s: Count: 5, Left. * %223s: Count: 25, Left. * %.3s: Count: 5, Right. * %.23s: Count: 25, Right. * %.223s: Count: 225, Right. */ void s_printf(char *out_buf, const char *fmt, ...) { va_list ap; int fill, fcnt; sout_buf = &out_buf; va_start(ap, fmt); while (*fmt) { if (*fmt == '%') { fmt++; fill = 0; fcnt = 0; // Check for padding. Number or space based (dot count as space for string). if ((*fmt >= '0' && *fmt <= '9') || *fmt == ' ' || *fmt == '.') { fcnt = *fmt; // Padding size or padding type. fmt++; if (*fmt >= '0' && *fmt <= '9') { // Padding size exists. Previous char was type. fill = fcnt; fcnt = *fmt - '0'; fmt++; parse_padding_dec: // Parse padding size extra digits. if (*fmt >= '0' && *fmt <= '9') { fcnt = fcnt * 10 + *fmt - '0'; fmt++; goto parse_padding_dec; } } else { // No padding type, use space. (Max padding size is 9). fill = ' '; fcnt -= '0'; } } switch (*fmt) { case 'c': char c = va_arg(ap, u32); if (c != '\0') _s_putc(c); break; case 'd': _s_putn(va_arg(ap, u32), 10, fill, fcnt); break; case 's': _s_puts(va_arg(ap, char *), fill, fcnt); break; case 'p': case 'P': case 'x': case 'X': _s_putn(va_arg(ap, u32), 16, fill, fcnt); break; case '%': _s_putc('%'); break; case '\0': goto out; default: _s_putc('%'); _s_putc(*fmt); break; } } else _s_putc(*fmt); fmt++; } out: **sout_buf = '\0'; va_end(ap); } void s_vprintf(char *out_buf, const char *fmt, va_list ap) { int fill, fcnt; sout_buf = &out_buf; while (*fmt) { if (*fmt == '%') { fmt++; fill = 0; fcnt = 0; // Check for padding. Number or space based. if ((*fmt >= '0' && *fmt <= '9') || *fmt == ' ') { fcnt = *fmt; // Padding size or padding type. fmt++; if (*fmt >= '0' && *fmt <= '9') { // Padding size exists. Previous char was type. fill = fcnt; fcnt = *fmt - '0'; fmt++; parse_padding_dec: // Parse padding size extra digits. if (*fmt >= '0' && *fmt <= '9') { fcnt = fcnt * 10 + *fmt - '0'; fmt++; goto parse_padding_dec; } } else { // No padding type, use space. (Max padding size is 9). fill = ' '; fcnt -= '0'; } } switch (*fmt) { case 'c': char c = va_arg(ap, u32); if (c != '\0') _s_putc(c); break; case 'd': _s_putn(va_arg(ap, u32), 10, fill, fcnt); break; case 's': _s_puts(va_arg(ap, char *), fill, fcnt); break; case 'p': case 'P': case 'x': case 'X': _s_putn(va_arg(ap, u32), 16, fill, fcnt); break; case '%': _s_putc('%'); break; case '\0': goto out; default: _s_putc('%'); _s_putc(*fmt); break; } } else _s_putc(*fmt); fmt++; } out: **sout_buf = '\0'; } ================================================ FILE: bdk/utils/sprintf.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _SPRINTF_H_ #define _SPRINTF_H_ #include #include /* * Padding: * Numbers: * %3d: Fill: ' ', Count: 3. * % 3d: Fill: ' ', Count: 3. * %23d: Fill: '2', Count: 3. * % 23d: Fill: ' ', Count: 23. * %223d: Fill: '2', Count: 23. * * Strings, Fill: ' ': * %3s: Count: 5, Left. * %23s: Count: 5, Left. * %223s: Count: 25, Left. * %.3s: Count: 5, Right. * %.23s: Count: 25, Right. * %.223s: Count: 225, Right. */ void s_printf(char *out_buf, const char *fmt, ...) __attribute__((format(printf, 2, 3))); void s_vprintf(char *out_buf, const char *fmt, va_list ap); #endif ================================================ FILE: bdk/utils/tegra_bct.h ================================================ /* * Copyright (c) 2018-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef TEGRA_BCT_H #define TEGRA_BCT_H #include #include #include #define BCT_IRAM_ADDRESS 0x40000100 #define BCT_IRAM_ADDRESS_B01 0x40000464 #define BCT_BOOT_DEV_NONE 0 #define BCT_BOOT_DEV_SPI 3 #define BCT_BOOT_DEV_SDMMC 4 #define BCT_BOOT_DEV_USB3 9 #define BCT_BOOT_DEV_UART 11 // ECID is checked for the following. #define BCT_SEC_DBG_JTAG BIT(0) #define BCT_SEC_DBG_DEV BIT(1) #define BCT_SEC_DBG_SPNID BIT(2) #define BCT_SEC_DBG_SPID BIT(3) #define BCT_SEC_DBG_NID BIT(4) // ECID not checked for T210B01. #define BCT_SEC_DBG_DBG BIT(5) // ECID not checked for T210B01. #define BCT_SDMMC_CFG_SDR25_SINGLE_PAGE 0 #define BCT_SDMMC_CFG_SDR52_MULTI_PAGE 1 #define BCT_SDMMC_CFG_SDR25_MULTI_PAGE 2 #define BCT_SDMMC_CFG_DDR52_MULTI_PAGE 3 #define BCT_SDMMC_CFG_DDR25_MULTI_PAGE 4 #define BCT_SPI_CFG_PIO_X1_20_4MHZ_SREAD 0 #define BCT_SPI_CFG_PIO_X1_19_2MHZ_SREAD 1 #define BCT_SPI_CFG_PIO_X4_51_0MHZ_QREAD 2 typedef struct _bct_bad_blocks_t { u32 used_entries; // For block table. u8 virtual_block_size_log2; u8 block_size_log2; u8 block_table[512]; // Each bit is a block (4096 blocks). u8 padding[10]; } bct_bad_blocks_t; typedef struct _bct_sdmmc_dev_t210_t { u32 clk_div; u32 bus_width; u8 power_class_max; u8 multi_block_max; } bct_sdmmc_dev_t210_t; typedef struct _bct_sdmmc_dev_t210b01_t { u8 sdmmc_config; u8 power_class_max; } bct_sdmmc_dev_t210b01_t; typedef struct _bct_spi_dev_t210_t { u32 clk_src; u8 clk_div; u8 cmd_read_fast; u8 page_size; // 0: 2KB, 1: 16KB. } bct_spi_dev_t210_t; typedef struct _bct_spi_dev_t210b01_t { u8 spi_config; } bct_spi_dev_t210b01_t; typedef struct _bct_usb3_dev_t { u8 clk_div; u8 root_port; u8 page_size; // 0: 2KB, 1: 16KB. u8 oc_pin; u8 vbus_en; } bct_usb3_dev_t; typedef union { bct_sdmmc_dev_t210_t sdmmc_params; bct_spi_dev_t210_t spi_params; bct_usb3_dev_t usb3_params; u8 padding[64]; } bct_boot_dev_t210_t; typedef union { bct_sdmmc_dev_t210b01_t sdmmc_params; bct_spi_dev_t210b01_t spi_params; u8 padding[64]; } bct_boot_dev_t210b01_t; typedef struct _bct_bootloader_t210_t { u32 version; u32 start_block; u32 start_page; u32 length; // Should be bl size + 16 and aligned to 16. u32 load_addr; u32 entrypoint; u32 attributes; // ODM. u8 aes_cmac_hash[16]; u8 rsa_pss_signature[256]; } bct_bootloader_t210_t; typedef struct _bct_bootloader_t210b01_t { u32 start_block; u32 start_page; u32 version; u32 padding; } bct_bootloader_t210b01_t; typedef struct _tegra_bct_t210_t { /* Unsigned section */ bct_bad_blocks_t bad_block_table; u8 rsa_modulus[256]; u8 aes_cmac_hash[16]; u8 rsa_pss_signature[256]; u32 secprov_aes_key_num_insecure; u8 secprov_aes_key[32]; u8 customer_data[204]; /* Signed section */ u8 random_aes_block[16]; u32 ecid[4]; u32 data_version; // 0x210001. u32 block_size_log2; u32 page_size_log2; u32 partition_size; u32 boot_dev_params_num; u32 boot_dev_type; bct_boot_dev_t210_t boot_dev_params; u32 dram_params_num; sdram_params_t210_t dram_params[4]; u32 bootloader_num; bct_bootloader_t210_t bootLoader[4]; u32 bootloader_failback_en; u32 sec_dbg_ctrl; // Copied to APBDEV_PMC_DEBUG_AUTHENTICATION. ECID checked. u32 secprov_aes_key_num_secure; u8 padding[20]; } tegra_bct_t210_t; typedef struct _tegra_bct_t210b01_t { /* Unsigned section */ u32 rsa_key_size; u32 padding0[3]; u8 rsa_modulus[256]; u8 rsa_exponent[256]; u8 aes_cmac_hash[16]; u8 rsa_pss_signature[256]; u8 secprov_aes_key[32]; u32 secprov_aes_key_num_insecure; u8 padding_unsigned[12]; u8 customer_data0[208]; /* Signed section */ u8 random_aes_block0[16]; u32 boot_config0[4]; // Customer controlled features. /// Unused space allocated for customer usage. u32 customer_data1_signed[16]; /* Encrypted section (optionally) */ u8 random_aes_block1[16]; u32 ecid[4]; u32 data_version; // 0x210001. u32 block_size_log2; u32 page_size_log2; u32 partition_size; u32 boot_dev_params_num; u32 boot_dev_type; bct_boot_dev_t210b01_t boot_dev_params; u32 dram_params_num; sdram_params_t210b01_t dram_params[4]; u32 bootloader_num; bct_bootloader_t210b01_t bootLoader[4]; u32 sec_dbg_ctrl; // Copied to APBDEV_PMC_DEBUG_AUTHENTICATION. ECID not checked. u32 sec_dbg_ctrl_ecid; // Copied to APBDEV_PMC_DEBUG_AUTHENTICATION. ECID checked. u32 boot_config1[4]; // Customer controlled features. bit0 AON TZRAM powergating enable u32 customer_data2_signed[16]; // u32[0]: bl attributes. u32 secprov_aes_key_num_secure; u8 padding_signed[388]; } tegra_bct_t210b01_t; typedef struct _bootLoader_hdr_t210b01_t { /* Unsigned section */ u8 aes_cmac_hash[16]; u8 rsa_pss_signature[256]; /* Signed section */ u8 salt[16]; // random_aes_block. u8 bootLoader_sha256[16]; u32 version; u32 length; u32 load_addr; u32 entrypoint; u8 padding[16]; } bootLoader_hdr_t210b01_t; #endif ================================================ FILE: bdk/utils/tegra_bit.h ================================================ /* * Copyright (c) 2018-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef TEGRA_BIT_H #define TEGRA_BIT_H #include #define BIT_ADDRESS 0x40000000 #define BIT_BOOT_TYPE_NONE 0 #define BIT_BOOT_TYPE_COLD 1 #define BIT_BOOT_TYPE_RCM 2 #define BIT_BOOT_TYPE_UART 3 #define BIT_BOOT_TYPE_EXIT_RCM 4 #define BIT_READ_STATUS_NONE 0 #define BIT_READ_STATUS_SUCCESS 1 #define BIT_READ_STATUS_VALIDATION_ERROR 2 #define BIT_READ_STATUS_HW_READ_ERROR 3 #define BIT_USB_CHARGE_DETECT_EN BIT(0) #define BIT_USB_CHARGE_LOW_BATT BIT(1) #define BIT_USB_CHARGE_CONNECTED BIT(2) #define BIT_USB_CHARGE_HI_CURRENT BIT(8) // From T186 with some additions. enum { BIT_FLOW_STATUS_NONE = 0, BIT_FLOW_STATUS_IPATCHUNCORRECTED_ERROR = 1, BIT_FLOW_STATUS_IPATCHSUCCESS = 2, BIT_FLOW_STATUS_SETUPOSCCLK = 3, BIT_FLOW_STATUS_LOWBAT_NOTCHARGED = 4, BIT_FLOW_STATUS_LOWBAT_CHARGED = 5, BIT_FLOW_STATUS_PLLPENABLED = 6, BIT_FLOW_STATUS_MSSINITIALIZED = 7, BIT_FLOW_STATUS_FABRICINITIALIZED = 8, BIT_FLOW_STATUS_NONSECUREDISPATCHERENTRY = 9, BIT_FLOW_STATUS_NONSECUREDISPATCHEREXIT = 10, BIT_FLOW_STATUS_FAMODE = 11, BIT_FLOW_STATUS_PREPRODUCTIONMODEUART = 12, BIT_FLOW_STATUS_PRODUCTIONMODE = 13, BIT_FLOW_STATUS_ODMPRODUCTIONMODE = 14, BIT_FLOW_STATUS_DBGRCMMODE = 15, BIT_FLOW_STATUS_RECOVERYMODE = 16, BIT_FLOW_STATUS_SECUREDISPATCHERENTRY = 17, BIT_FLOW_STATUS_SECUREDISPATCHEREXIT = 18, BIT_FLOW_STATUS_RAMDUMPINIT = 19, BIT_FLOW_STATUS_RAMDUMPEXIT = 20, BIT_FLOW_STATUS_COLDBOOTENTRY = 21, BIT_FLOW_STATUS_COLDBOOTEXIT = 22, BIT_FLOW_STATUS_CBSETUPBOOTDEVICE = 23, BIT_FLOW_STATUS_CBBCTDONE = 24, BIT_FLOW_STATUS_MSSREGIONUNINITIALIZED = 25, BIT_FLOW_STATUS_MSSREGIONENABLEINITIALIZED = 26, BIT_FLOW_STATUS_CBMTSPREBOOTINIT = 27, BIT_FLOW_STATUS_CBREINITSUCCESS = 28, BIT_FLOW_STATUS_CBSDRAMINITSUCCESS = 29, BIT_FLOW_STATUS_CBPAYLOADSUCCESS = 30, BIT_FLOW_STATUS_RCMENTRY = 31, BIT_FLOW_STATUS_RCMEXIT = 32, BIT_FLOW_STATUS_SC7ENTRY = 33, BIT_FLOW_STATUS_SC7ACKWAYPOINT = 34, BIT_FLOW_STATUS_SC7DBELLERROR = 35, BIT_FLOW_STATUS_SC7EXIT = 36, BIT_FLOW_STATUS_SECUREBOOTENTRY = 37, BIT_FLOW_STATUS_SECUREBOOTEXIT = 38, BIT_FLOW_STATUS_DETECTEDWDTRESET = 39, BIT_FLOW_STATUS_DETECTEDAOTAG_SENSORRESET = 40, BIT_FLOW_STATUS_DETECTEDVFSENSORRESET = 41, BIT_FLOW_STATUS_DETECTEDSWMAINRESET = 42, BIT_FLOW_STATUS_DETECTEDHSMRESET = 43, BIT_FLOW_STATUS_DETECTEDCSITEDBGRESET = 44, BIT_FLOW_STATUS_DETECTEDSC7SPEWDT_0_RESET = 45, BIT_FLOW_STATUS_DETECTEDSC7SPEWDT_1_RESET = 46, BIT_FLOW_STATUS_DETECTEDSYSRESETN = 47, BIT_FLOW_STATUS_CRYPTOINITENTRY = 48, BIT_FLOW_STATUS_CRYPTOINITEXIT = 49, BIT_FLOW_STATUS_SECUREEXITSTART = 50 }; typedef struct _bit_flow_log_t { u32 Init_time; u32 exit_time; u32 func_id; u32 func_status; } bit_flow_log_t; typedef struct _bit_boot_sdmmc_status_t210_t { u8 fuses_bus_width; u8 fuses_voltage_range; u8 fuses_boo_mode_disable; u8 fuses_drd_mode; u32 card_type; u32 voltage_range; u8 bus_width; u8 power_class; u8 auto_cal_status; u8 padding; u32 cid[4]; u32 pages_read; u32 crc_errors; u8 boot_from_boot_partition; u8 boot_mode_read_success; } bit_boot_sdmmc_status_t210_t; typedef struct _bit_boot_sdmmc_status_t210b01_t { u8 clk_src; u8 clk_div; u8 clk_en; u8 clk_rst_status; u8 clk_div_internal; u8 data_mode; u8 fuses_bus_width; u8 fuses_drd_mode; u8 fuses_config; u8 fuses_read_mode; u8 card_type; u32 voltage_range; u8 bus_width; u8 power_class; u8 auto_cal_status; u32 cid[4]; u32 pages_read; u32 crc_errors; u8 boot_from_boot_partition; u32 time_init; u32 time_controller_init; u32 time_card_enumeration; u32 time_cmd1_op_cond; u32 time_cmd2_cid; u32 time_cmd9_csd; u32 time_transfer_mode; u32 time_cmd8_ext_csd; u32 time_power_class; u32 time_bus_width_and_partition; u32 time_read; u32 payload_size; } bit_boot_sdmmc_status_t210b01_t; typedef struct _bit_boot_spi_status_t210_t { u32 clk_src; u32 clk_div; u32 fast_read; u32 pages_read; u32 last_block_read; u32 last_page_read; u32 boot_status; u32 init_status; u32 read_status; u32 params_validated; } bit_boot_spi_status_t210_t; typedef struct _bit_boot_spi_status_t210b01_t { u32 clk_en; u32 clk_rst_status; u32 mode; u32 bus_width; u32 clk_src; u32 clk_div; u32 fast_read; u32 pages_read; u32 last_block_read; u32 last_page_read; u32 boot_status; u32 init_status; u32 read_status; u32 params_validated; u32 time_qspi_init; u32 time_read_time; u32 payload_size; } bit_boot_spi_status_t210b01_t; typedef struct _bit_boot_usb3_status_t { u8 port; u8 sense_key; u8 padding[2]; u32 cur_csw_tag; u32 curr_cmd_csw_status; u32 curr_ep_xfer_failed_bytes; u32 periph_dev_type; u32 block_num; u32 last_logical_block_addr; u32 block_length; u32 usb3_ctxt; u32 init_res; u32 read_page_res; u32 xusb_driver_status; u32 dev_status; u32 ep_status; } bit_boot_usb3_status_t; typedef union _bit_boot_secondary_dev_status_t210_t { bit_boot_sdmmc_status_t210_t sdmmc_status; bit_boot_spi_status_t210_t spi_status; bit_boot_usb3_status_t usb3_status; u8 padding[60]; } bit_boot_secondary_dev_status_t210_t; typedef union _bit_boot_secondary_dev_status_t210b01_t { bit_boot_sdmmc_status_t210b01_t sdmmc_status; bit_boot_spi_status_t210b01_t spi_status; u8 padding[256]; } bit_boot_secondary_dev_status_t210b01_t; typedef struct _bit_bl_state_t { u32 read_status; u32 first_ecc_block; u32 first_ecc_page; u32 first_corrected_ecc_block; u32 first_corrected_ecc_page; u8 had_ecc_error; u8 had_crc_error; u8 had_corrected_ecc_error; u8 used_for_ecc_recovery; } bit_bl_state_t; typedef struct _tegra_bit_t210_t { u32 brom_version; u32 data_version; u32 rcm_version; u32 boot_type; u32 primary_dev_type; u32 secondary_dev_type; u32 boot_time_log_init; u32 boot_time_log_exit; u32 bct_read_tick_cnt; u32 bl_read_tick_cnt; u32 osc_frequency; u8 dev_initialized; u8 dram_initialized; u8 force_recovery_bit_cleared; // APBDEV_PMC_SCRATCH0. u8 failback_bit_cleared; // APBDEV_PMC_SCRATCH0. u8 failback_invoked; u8 irom_patch_status; // bit0-3: hamming status, bit7: patches exist. u8 bct_valid; u8 bct_status[9]; // Each bit is a block (72 blocks). u32 bct_last_journal_read; u32 bct_block; u32 bct_page; u32 bct_size; u32 bct_ptr; bit_bl_state_t bl_state[4]; bit_boot_secondary_dev_status_t210_t secondary_dev_status; u32 usb_charging_status; u32 safe_start_addr; // Init: 0x400000F4 / UART: 0x40000100 / BL: 0x40002900. u8 padding[12]; } tegra_bit_t210_t; typedef struct _tegra_bit_t210b01_t { u32 brom_version; u32 data_version; u32 rcm_version; u32 boot_type; u32 primary_dev_type; u32 secondary_dev_type; u32 authentication_scheme; u32 encryption_enabled; u32 brom_flow_tracker; u32 reserved; u32 boot_time_log_exit; u32 setup_tick_cnt; u32 bct_read_tick_cnt; u32 bl_read_tick_cnt; bit_flow_log_t boot_flow_log[40]; u32 osc_frequency; u8 dev_initialized; u8 dram_initialized; u8 force_recovery_bit_cleared; u8 failback_bit_cleared; u8 failback_invoked; u8 irom_patch_status; // bit0-3: hamming status, bit7: patches exist. u8 bct_size_valid; u8 bct_size_status[9]; u32 bct_size_last_journal_read; u32 bct_size_block; u32 bct_size_page; u8 bct_valid; u8 bct_status[9]; u8 padding[2]; u32 bct_last_journal_read; u32 bct_block; u32 bct_page; u32 bct_size; u32 bct_ptr; bit_bl_state_t bl_state[4]; bit_boot_secondary_dev_status_t210b01_t secondary_dev_status; u32 usb_charging_status; u8 pmu_boot_sel_read_error; u32 safe_start_addr; // Init: 0x40000464 / UART: 0x40000464 / BL: 0x40002C64. } tegra_bit_t210b01_t; #endif ================================================ FILE: bdk/utils/types.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _TYPES_H_ #define _TYPES_H_ #include /* Types */ typedef signed char s8; typedef short s16; typedef short SHORT; typedef int s32; typedef int INT; typedef int bool; typedef long LONG; typedef long long int s64; typedef unsigned char u8; typedef unsigned char BYTE; typedef unsigned short u16; typedef unsigned short WORD; typedef unsigned short WCHAR; typedef unsigned int u32; typedef unsigned int UINT; typedef unsigned long DWORD; typedef unsigned long long QWORD; typedef unsigned long long int u64; typedef volatile unsigned char vu8; typedef volatile unsigned short vu16; typedef volatile unsigned int vu32; #ifdef __aarch64__ typedef unsigned long long uptr; #else /* __arm__ or __thumb__ */ typedef unsigned long uptr; #endif /* Important */ #define false 0 #define true 1 #define NULL ((void *)0) /* Misc */ #define DISABLE 0 #define ENABLE 1 /* Sizes */ #define SZ_1K 0x400 #define SZ_2K 0x800 #define SZ_4K 0x1000 #define SZ_8K 0x2000 #define SZ_16K 0x4000 #define SZ_32K 0x8000 #define SZ_64K 0x10000 #define SZ_128K 0x20000 #define SZ_256K 0x40000 #define SZ_512K 0x80000 #define SZ_1M 0x100000 #define SZ_2M 0x200000 #define SZ_4M 0x400000 #define SZ_8M 0x800000 #define SZ_16M 0x1000000 #define SZ_32M 0x2000000 #define SZ_64M 0x4000000 #define SZ_128M 0x8000000 #define SZ_256M 0x10000000 #define SZ_512M 0x20000000 #define SZ_1G 0x40000000 #define SZ_2G 0x80000000 #define SZ_PAGE SZ_4K /* Macros */ #define ALIGN(x, a) (((x) + (a) - 1) & ~((a) - 1)) #define ALIGN_DOWN(x, a) ((x) & ~((a) - 1)) #define BIT(n) (1U << (n)) #define MAX(a, b) ((a) > (b) ? (a) : (b)) #define MIN(a, b) ((a) < (b) ? (a) : (b)) #define ARRAY_SIZE(x) (sizeof(x) / sizeof(*(x))) #define OFFSET_OF(t, m) ((uptr)&((t *)NULL)->m) #define CONTAINER_OF(mp, t, mn) ((t *)((uptr)mp - OFFSET_OF(t, mn))) #define byte_swap_16(num) ((((num) >> 8) & 0xFF) | (((num) & 0xFF) << 8)) #define byte_swap_32(num) ((((num) >> 24) & 0xFF) | (((num) & 0xFF00) << 8 ) | \ (((num) >> 8 ) & 0xFF00) | (((num) & 0xFF) << 24)) #define likely(x) (__builtin_expect((x) != 0, 1)) #define unlikely(x) (__builtin_expect((x) != 0, 0)) /* Bootloader/Nyx */ #define BOOT_CFG_AUTOBOOT_EN BIT(0) #define BOOT_CFG_FROM_LAUNCH BIT(1) #define BOOT_CFG_FROM_ID BIT(2) #define BOOT_CFG_TO_EMUMMC BIT(3) #define EXTRA_CFG_KEYS BIT(0) #define EXTRA_CFG_PAYLOAD BIT(1) #define EXTRA_CFG_MODULE BIT(2) #define EXTRA_CFG_NYX_UMS BIT(5) #define EXTRA_CFG_NYX_RELOAD BIT(6) typedef enum _nyx_ums_type { NYX_UMS_SD_CARD = 0, NYX_UMS_EMMC_BOOT0, NYX_UMS_EMMC_BOOT1, NYX_UMS_EMMC_GPP, NYX_UMS_EMUMMC_BOOT0, NYX_UMS_EMUMMC_BOOT1, NYX_UMS_EMUMMC_GPP } nyx_ums_type; typedef struct __attribute__((__packed__)) _boot_cfg_t { u8 boot_cfg; u8 autoboot; u8 autoboot_list; u8 extra_cfg; union { struct { char id[8]; // 7 char ASCII null terminated. char emummc_path[0x78]; // emuMMC/XXX, ASCII null terminated. }; u8 ums; // nyx_ums_type. u8 xt_str[0x80]; }; } boot_cfg_t; static_assert(sizeof(boot_cfg_t) == 0x84, "Boot cfg storage size is wrong!"); #define RSVD_FLAG_DRAM_8GB BIT(0) typedef struct __attribute__((__packed__)) _rsvd_cfg_t { u16 rsvd0; u8 rsvd_flags; u8 bclk_t210:4; u8 bclk_t210b01:4; } rsvd_cfg_t; typedef struct __attribute__((__packed__)) _ipl_ver_meta_t { u32 magic; u32 version; rsvd_cfg_t rcfg; } ipl_ver_meta_t; typedef struct __attribute__((__packed__)) _reloc_meta_t { u32 start; u32 stack; u32 end; u32 ep; } reloc_meta_t; #endif ================================================ FILE: bdk/utils/util.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #include u8 bit_count(u32 val) { u8 cnt = 0; for (u32 i = 0; i < 32; i++) { if ((val >> i) & 1) cnt++; } return cnt; } u32 bit_count_mask(u8 bits) { u32 val = 0; for (u32 i = 0; i < bits; i++) val |= 1 << i; return val; } char *strcpy_ns(char *dst, char *src) { if (!src || !dst) return NULL; // Remove starting space. u32 len = strlen(src); if (len && src[0] == ' ') { len--; src++; } strcpy(dst, src); // Remove trailing space. if (len && dst[len - 1] == ' ') dst[len - 1] = 0; return dst; } // Approximate square root finder for a 64-bit number. u64 sqrt64(u64 num) { u64 base = 0; u64 limit = num; u64 square_root = 0; while (base <= limit) { u64 tmp_sqrt = (base + limit) / 2; if (tmp_sqrt * tmp_sqrt == num) { square_root = tmp_sqrt; break; } if (tmp_sqrt * tmp_sqrt < num) { square_root = base; base = tmp_sqrt + 1; } else limit = tmp_sqrt - 1; } return square_root; } #define TULONG_MAX ((unsigned long)((unsigned long)(~0L))) #define TLONG_MAX ((long)(((unsigned long)(~0L)) >> 1)) #define TLONG_MIN ((long)(~TLONG_MAX)) #define ISSPACE(ch) ((ch >= '\t' && ch <= '\r') || (ch == ' ')) #define ISDIGIT(ch) ( ch >= '0' && ch <= '9' ) #define ISALPHA(ch) ((ch >= 'a' && ch <= 'z') || (ch >= 'A' && ch <= 'Z')) #define ISUPPER(ch) ( ch >= 'A' && ch <= 'Z' ) /* * Avoid using reentrant newlib version of strol. It's only used for errno. * * strol/atoi: * Copyright (c) 1990 The Regents of the University of California. */ long strtol(const char *nptr, char **endptr, register int base) { register const char *s = nptr; register unsigned long acc; register int c; register unsigned long cutoff; register int neg = 0, any, cutlim; /* * Skip white space and pick up leading +/- sign if any. * If base is 0, allow 0x for hex and 0 for octal, else * assume decimal; if base is already 16, allow 0x. */ do { c = *s++; } while (ISSPACE(c)); if (c == '-') { neg = 1; c = *s++; } else if (c == '+') c = *s++; if ((base == 0 || base == 16) && c == '0' && (*s == 'x' || *s == 'X')) { c = s[1]; s += 2; base = 16; } if (base == 0) base = c == '0' ? 8 : 10; /* * Compute the cutoff value between legal numbers and illegal * numbers. That is the largest legal value, divided by the * base. An input number that is greater than this value, if * followed by a legal input character, is too big. One that * is equal to this value may be valid or not; the limit * between valid and invalid numbers is then based on the last * digit. For instance, if the range for longs is * [-2147483648..2147483647] and the input base is 10, * cutoff will be set to 214748364 and cutlim to either * 7 (neg==0) or 8 (neg==1), meaning that if we have accumulated * a value > 214748364, or equal but the next digit is > 7 (or 8), * the number is too big, and we will return a range error. * * Set any if any `digits' consumed; make it negative to indicate * overflow. */ cutoff = neg ? -(unsigned long)TLONG_MIN : (base == 16 ? TULONG_MAX : TLONG_MAX); cutlim = cutoff % (unsigned long)base; cutoff /= (unsigned long)base; for (acc = 0, any = 0;; c = *s++) { if (ISDIGIT(c)) c -= '0'; else if (ISALPHA(c)) c -= ISUPPER(c) ? 'A' - 10 : 'a' - 10; else break; if (c >= base) break; if (any < 0 || acc > cutoff || (acc == cutoff && c > cutlim)) any = -1; else { any = 1; acc *= base; acc += c; } } if (any < 0) { acc = neg ? TLONG_MIN : TLONG_MAX; } else if (neg) acc = -acc; if (endptr != 0) *endptr = (char *) (any ? s - 1 : nptr); return (acc); } int atoi(const char *nptr) { return (int)strtol(nptr, (char **)NULL, 10); } void reg_write_array(vu32 *base, const reg_cfg_t *cfg, u32 num_cfg) { // Expected register offset is a u32 array index. for (u32 i = 0; i < num_cfg; i++) base[cfg[i].idx] = cfg[i].val; } u32 crc32_calc(u32 crc, const u8 *buf, u32 len) { const u8 *p, *q; static u32 *table = NULL; // Calculate CRC table. if (!table) { table = zalloc(256 * sizeof(u32)); for (u32 i = 0; i < 256; i++) { u32 rem = i; for (u32 j = 0; j < 8; j++) { if (rem & 1) { rem >>= 1; rem ^= 0xedb88320; } else rem >>= 1; } table[i] = rem; } } crc = ~crc; q = buf + len; for (p = buf; p < q; p++) { u8 oct = *p; crc = (crc >> 8) ^ table[(crc & 0xff) ^ oct]; } return ~crc; } int qsort_compare_int(const void *a, const void *b) { return (*(int *)a - *(int *)b); } int qsort_compare_char(const void *a, const void *b) { return strcmp(*(const char **)a, *(const char **)b); } int qsort_compare_char_case(const void *a, const void *b) { return strcasecmp(*(const char **)a, *(const char **)b); } void panic(u32 val) { // Set panic code. PMC(APBDEV_PMC_SCRATCH200) = val; // Disable SE. //PMC(APBDEV_PMC_CRYPTO_OP) = PMC_CRYPTO_OP_SE_DISABLE; // Immediately cause a full system reset. watchdog_start(0, TIMER_PMCRESET_EN); while (true); } void power_set_state(power_state_t state) { u8 reg; // Unmount and power down sd card. sd_end(); // De-initialize and power down various hardware. hw_deinit(false); // Set power state. switch (state) { case REBOOT_RCM: PMC(APBDEV_PMC_SCRATCH0) = PMC_SCRATCH0_MODE_RCM; // Enable RCM path. PMC(APBDEV_PMC_CNTRL) |= PMC_CNTRL_MAIN_RST; // PMC reset. break; case REBOOT_BYPASS_FUSES: panic(PMC_NX_PANIC_BYPASS_FUSES); // Bypass fuse programming in package1. break; case POWER_OFF: // Initiate power down sequence and do not generate a reset (regulators retain state after POR). i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG1, MAX77620_ONOFFCNFG1_PWR_OFF); break; case POWER_OFF_RESET: case POWER_OFF_REBOOT: default: // Enable/Disable soft reset wake event. reg = i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG2); if (state == POWER_OFF_RESET) // Do not wake up after power off. reg &= ~(MAX77620_ONOFFCNFG2_SFT_RST_WK | MAX77620_ONOFFCNFG2_WK_ALARM1 | MAX77620_ONOFFCNFG2_WK_ALARM2); else // POWER_OFF_REBOOT. Wake up after power off. reg |= MAX77620_ONOFFCNFG2_SFT_RST_WK; i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG2, reg); // Initiate power down sequence and generate a reset (regulators' state resets after POR). i2c_send_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_ONOFFCNFG1, MAX77620_ONOFFCNFG1_SFT_RST); break; } while (true) bpmp_halt(); } void power_set_state_ex(void *param) { power_state_t *state = (power_state_t *)param; power_set_state(*state); } ================================================ FILE: bdk/utils/util.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _UTIL_H_ #define _UTIL_H_ #include #include typedef enum { REBOOT_RCM, // PMC reset. Enter RCM mode. REBOOT_BYPASS_FUSES, // PMC reset via watchdog. Enter Normal mode. Bypass fuse programming in package1. POWER_OFF, // Power off PMIC. Do not reset regulators. POWER_OFF_RESET, // Power off PMIC. Reset regulators. POWER_OFF_REBOOT, // Power off PMIC. Reset regulators. Power on. } power_state_t; typedef struct _reg_cfg_t { u32 idx; u32 val; } reg_cfg_t; u8 bit_count(u32 val); u32 bit_count_mask(u8 bits); char *strcpy_ns(char *dst, char *src); u64 sqrt64(u64 num); long strtol(const char *nptr, char **endptr, register int base); int atoi(const char *nptr); void reg_write_array(vu32 *base, const reg_cfg_t *cfg, u32 num_cfg); u32 crc32_calc(u32 crc, const u8 *buf, u32 len); int qsort_compare_int(const void *a, const void *b); int qsort_compare_char(const void *a, const void *b); int qsort_compare_char_case(const void *a, const void *b); void panic(u32 val); void power_set_state(power_state_t state); void power_set_state_ex(void *param); /*! hekate and Nyx common defines */ #define NYX_NEW_INFO 0x3058594E typedef enum { ERR_LIBSYS_LP0 = BIT(0), ERR_SYSOLD_NYX = BIT(1), ERR_LIBSYS_MTC = BIT(2), ERR_SD_BOOT_EN = BIT(3), ERR_PANIC_CODE = BIT(4), ERR_L4T_KERNEL = BIT(24), ERR_EXCEPTION = BIT(31), } hekate_errors_t; typedef enum { NYX_CFG_UMS = BIT(6), NYX_CFG_EXTRA = 0xFF << 24 } nyx_cfg_t; typedef struct _nyx_info_t { u32 magic; u32 sd_init; u32 sd_errors[3]; u8 rsvd[0x1000]; u32 panel_id; u32 errors; } nyx_info_t; typedef struct _nyx_info_ex_t { u32 magic; u32 rsvd_flags; } nyx_info_ex_t; typedef struct _nyx_storage_t { u32 version; u32 cfg; u8 rsdv0[0x8000]; u8 hekate[0x30000]; nyx_info_ex_t info_ex; u8 rsvd1[SZ_8M - sizeof(nyx_info_ex_t) - sizeof(nyx_info_t)]; nyx_info_t info; minerva_str_t minerva; } nyx_storage_t; #endif ================================================ FILE: bootloader/config.c ================================================ /* * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include "config.h" #include void set_default_configuration() { h_cfg.t210b01 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01; h_cfg.devmode = fuse_read_hw_state(); h_cfg.autoboot = 0; h_cfg.autoboot_list = 0; h_cfg.bootwait = 3; h_cfg.noticker = 0; //! TODO: Add GUI option. h_cfg.backlight = 100; h_cfg.autohosoff = h_cfg.t210b01 ? 1 : 0; h_cfg.autonogc = 1; h_cfg.updater2p = 0; h_cfg.bootprotect = 0; h_cfg.errors = 0; h_cfg.eks = NULL; h_cfg.rcm_patched = fuse_check_patched_rcm(); h_cfg.emummc_force_disable = false; } ================================================ FILE: bootloader/config.h ================================================ /* * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _CONFIG_H_ #define _CONFIG_H_ #include #include "hos/hos.h" typedef struct _hekate_config { // Non-volatile config. u32 autoboot; u32 autoboot_list; u32 bootwait; u32 noticker; u32 backlight; u32 autohosoff; u32 autonogc; u32 updater2p; u32 bootprotect; // Global temporary config. bool t210b01; bool devmode; bool emummc_force_disable; bool rcm_patched; u32 errors; hos_eks_mbr_t *eks; } hekate_config; extern hekate_config h_cfg; void set_default_configuration(); #endif /* _CONFIG_H_ */ ================================================ FILE: bootloader/frontend/fe_info.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "fe_info.h" #include "../config.h" #include "../hos/hos.h" #include "../hos/pkg1.h" #include #pragma GCC push_options #pragma GCC optimize ("Os") void print_fuseinfo() { u32 fuse_size = h_cfg.t210b01 ? 0x368 : 0x300; u32 fuse_address = h_cfg.t210b01 ? 0x7000F898 : 0x7000F900; gfx_clear_partial_grey(0x1B, 0, 1256); gfx_con_setpos(0, 0); gfx_printf("\nSKU: %X - ", FUSE(FUSE_SKU_INFO)); switch (h_cfg.devmode) { case FUSE_NX_HW_STATE_PROD: gfx_printf("Retail\n"); break; case FUSE_NX_HW_STATE_DEV: gfx_printf("Dev\n"); break; } gfx_printf("Sdram ID: %d\n", fuse_read_dramid(true)); gfx_printf("Burnt fuses: %d / 64\n", bit_count(fuse_read_odm(7))); gfx_printf("Secure key: %08X%08X%08X%08X\n\n\n", byte_swap_32(FUSE(FUSE_PRIVATE_KEY0)), byte_swap_32(FUSE(FUSE_PRIVATE_KEY1)), byte_swap_32(FUSE(FUSE_PRIVATE_KEY2)), byte_swap_32(FUSE(FUSE_PRIVATE_KEY3))); gfx_printf("%kFuse cache:\n\n%k", TXT_CLR_CYAN_L, TXT_CLR_DEFAULT); gfx_hexdump(fuse_address, (u8 *)fuse_address, fuse_size); btn_wait(); } void print_mmc_info() { gfx_clear_partial_grey(0x1B, 0, 1256); gfx_con_setpos(0, 0); static const u32 SECTORS_TO_MIB_COEFF = 11; if (emmc_initialize(false)) { EPRINTF("Failed to init eMMC."); goto out; } else { u16 card_type; u32 speed = 0; gfx_printf("%kCID:%k\n", TXT_CLR_CYAN_L, TXT_CLR_DEFAULT); switch (emmc_storage.csd.mmca_vsn) { case 2: /* MMC v2.0 - v2.2 */ case 3: /* MMC v3.1 - v3.3 */ case 4: /* MMC v4 */ gfx_printf( " Vendor ID: %X\n" " OEM ID: %02X\n" " Model: %c%c%c%c%c%c\n" " Prd Rev: %X\n" " S/N: %04X\n" " Month/Year: %02d/%04d\n\n", emmc_storage.cid.manfid, emmc_storage.cid.oemid, emmc_storage.cid.prod_name[0], emmc_storage.cid.prod_name[1], emmc_storage.cid.prod_name[2], emmc_storage.cid.prod_name[3], emmc_storage.cid.prod_name[4], emmc_storage.cid.prod_name[5], emmc_storage.cid.prv, emmc_storage.cid.serial, emmc_storage.cid.month, emmc_storage.cid.year); break; default: break; } if (emmc_storage.csd.structure == 0) EPRINTF("Unknown CSD structure."); else { gfx_printf("%kExtended CSD V1.%d:%k\n", TXT_CLR_CYAN_L, emmc_storage.ext_csd.ext_struct, TXT_CLR_DEFAULT); card_type = emmc_storage.ext_csd.card_type; char card_type_support[96]; card_type_support[0] = 0; if (card_type & EXT_CSD_CARD_TYPE_HS_26) { strcat(card_type_support, "HS26"); speed = (26 << 16) | 26; } if (card_type & EXT_CSD_CARD_TYPE_HS_52) { strcat(card_type_support, ", HS52"); speed = (52 << 16) | 52; } if (card_type & EXT_CSD_CARD_TYPE_DDR_1_8V) { strcat(card_type_support, ", DDR52_1.8V"); speed = (52 << 16) | 104; } if (card_type & EXT_CSD_CARD_TYPE_HS200_1_8V) { strcat(card_type_support, ", HS200_1.8V"); speed = (200 << 16) | 200; } if (card_type & EXT_CSD_CARD_TYPE_HS400_1_8V) { strcat(card_type_support, ", HS400_1.8V"); speed = (200 << 16) | 400; } gfx_printf( " Spec Version: %02X\n" " Extended Rev: 1.%d\n" " Dev Version: %d\n" " Cmd Classes: %02X\n" " Capacity: %s\n" " Max Rate: %d MB/s (%d MHz)\n" " Current Rate: %d MB/s\n" " Type Support: ", emmc_storage.csd.mmca_vsn, emmc_storage.ext_csd.rev, emmc_storage.ext_csd.dev_version, emmc_storage.csd.cmdclass, emmc_storage.csd.capacity == (4096 * EMMC_BLOCKSIZE) ? "High" : "Low", speed & 0xFFFF, (speed >> 16) & 0xFFFF, emmc_storage.csd.busspeed); gfx_con.fntsz = 8; gfx_printf("%s", card_type_support); gfx_con.fntsz = 16; gfx_printf("\n\n", card_type_support); u32 boot_size = emmc_storage.ext_csd.boot_mult << 17; u32 rpmb_size = emmc_storage.ext_csd.rpmb_mult << 17; gfx_printf("%keMMC Partitions:%k\n", TXT_CLR_CYAN_L, TXT_CLR_DEFAULT); gfx_printf(" 1: %kBOOT0 %k\n Size: %5d KiB (LBA Sectors: 0x%07X)\n", TXT_CLR_GREENISH, TXT_CLR_DEFAULT, boot_size / 1024, boot_size / EMMC_BLOCKSIZE); gfx_put_small_sep(); gfx_printf(" 2: %kBOOT1 %k\n Size: %5d KiB (LBA Sectors: 0x%07X)\n", TXT_CLR_GREENISH, TXT_CLR_DEFAULT, boot_size / 1024, boot_size / EMMC_BLOCKSIZE); gfx_put_small_sep(); gfx_printf(" 3: %kRPMB %k\n Size: %5d KiB (LBA Sectors: 0x%07X)\n", TXT_CLR_GREENISH, TXT_CLR_DEFAULT, rpmb_size / 1024, rpmb_size / EMMC_BLOCKSIZE); gfx_put_small_sep(); gfx_printf(" 0: %kGPP (USER) %k\n Size: %5d MiB (LBA Sectors: 0x%07X)\n\n", TXT_CLR_GREENISH, TXT_CLR_DEFAULT, emmc_storage.sec_cnt >> SECTORS_TO_MIB_COEFF, emmc_storage.sec_cnt); gfx_put_small_sep(); gfx_printf("%kGPP (eMMC USER) partition table:%k\n", TXT_CLR_CYAN_L, TXT_CLR_DEFAULT); emmc_set_partition(EMMC_GPP); LIST_INIT(gpt); emmc_gpt_parse(&gpt); int gpp_idx = 0; LIST_FOREACH_ENTRY(emmc_part_t, part, &gpt, link) { gfx_printf(" %02d: %k%s%k\n Size: % 5d MiB (LBA Sectors 0x%07X)\n LBA Range: %08X-%08X\n", gpp_idx++, TXT_CLR_GREENISH, part->name, TXT_CLR_DEFAULT, (part->lba_end - part->lba_start + 1) >> SECTORS_TO_MIB_COEFF, part->lba_end - part->lba_start + 1, part->lba_start, part->lba_end); gfx_put_small_sep(); } emmc_gpt_free(&gpt); } } out: emmc_end(); btn_wait(); } void print_sdcard_info() { static const u32 SECTORS_TO_MIB_COEFF = 11; gfx_clear_partial_grey(0x1B, 0, 1256); gfx_con_setpos(0, 0); if (!sd_initialize(false)) { gfx_printf("%kCard IDentification:%k\n", TXT_CLR_CYAN_L, TXT_CLR_DEFAULT); gfx_printf( " Vendor ID: %02x\n" " OEM ID: %c%c\n" " Model: %c%c%c%c%c\n" " HW rev: %X\n" " FW rev: %X\n" " S/N: %08x\n" " Month/Year: %02d/%04d\n\n", sd_storage.cid.manfid, (sd_storage.cid.oemid >> 8) & 0xFF, sd_storage.cid.oemid & 0xFF, sd_storage.cid.prod_name[0], sd_storage.cid.prod_name[1], sd_storage.cid.prod_name[2], sd_storage.cid.prod_name[3], sd_storage.cid.prod_name[4], sd_storage.cid.hwrev, sd_storage.cid.fwrev, sd_storage.cid.serial, sd_storage.cid.month, sd_storage.cid.year); u16 *sd_errors = sd_get_error_count(); gfx_printf("%kCard-Specific Data V%d.0:%k\n", TXT_CLR_CYAN_L, sd_storage.csd.structure + 1, TXT_CLR_DEFAULT); gfx_printf( " Cmd Classes: %02X\n" " Capacity: %d MiB\n" " Bus Width: %d\n" " Current Rate: %d MB/s (%d MHz)\n" " Speed Class: %d\n" " UHS Grade: U%d\n" " Video Class: V%d\n" " App perf class: A%d\n" " Write Protect: %d\n" " SDMMC Errors: %d %d %d\n\n", sd_storage.csd.cmdclass, sd_storage.sec_cnt >> 11, sd_storage.ssr.bus_width, sd_storage.csd.busspeed, sd_storage.csd.busspeed * 2, sd_storage.ssr.speed_class, sd_storage.ssr.uhs_grade, sd_storage.ssr.video_class, sd_storage.ssr.app_class, sd_storage.csd.write_protect, sd_errors[0], sd_errors[1], sd_errors[2]); // SD_ERROR_INIT_FAIL, SD_ERROR_RW_FAIL, SD_ERROR_RW_RETRY. int res = f_mount(&sd_fs, "", 1); if (!res) { gfx_puts("Acquiring FAT volume info...\n\n"); gfx_printf("%kFound %s volume:%k\n Free: %d MiB\n Cluster: %d KiB\n", TXT_CLR_CYAN_L, sd_fs.fs_type == FS_EXFAT ? "exFAT" : "FAT32", TXT_CLR_DEFAULT, sd_fs.free_clst * sd_fs.csize >> SECTORS_TO_MIB_COEFF, (sd_fs.csize > 1) ? (sd_fs.csize >> 1) : 512); f_unmount(""); } else { EPRINTFARGS("Failed to mount SD card (FatFS Error %d).\n" "Make sure that a FAT partition exists..", res); } sd_end(); } else { EPRINTF("Failed to init SD card."); if (!sdmmc_get_sd_inserted()) EPRINTF("Make sure that it is inserted."); else EPRINTF("SD Card Reader is not properly seated!"); sd_end(); } btn_wait(); } void print_fuel_gauge_info() { int value = 0; gfx_printf("%kFuel Gauge Info:\n%k", TXT_CLR_CYAN_L, TXT_CLR_DEFAULT); max17050_get_property(MAX17050_RepSOC, &value); gfx_printf("Capacity now: %3d%\n", value >> 8); max17050_get_property(MAX17050_RepCap, &value); gfx_printf("Capacity now: %4d mAh\n", value); max17050_get_property(MAX17050_FullCAP, &value); gfx_printf("Capacity full: %4d mAh\n", value); max17050_get_property(MAX17050_DesignCap, &value); gfx_printf("Capacity (design): %4d mAh\n", value); max17050_get_property(MAX17050_Current, &value); gfx_printf("Current now: %d mA\n", value / 1000); max17050_get_property(MAX17050_AvgCurrent, &value); gfx_printf("Current average: %d mA\n", value / 1000); max17050_get_property(MAX17050_VCELL, &value); gfx_printf("Voltage now: %4d mV\n", value); max17050_get_property(MAX17050_OCVInternal, &value); gfx_printf("Voltage open-circuit: %4d mV\n", value); max17050_get_property(MAX17050_MinVolt, &value); gfx_printf("Min voltage reached: %4d mV\n", value); max17050_get_property(MAX17050_MaxVolt, &value); gfx_printf("Max voltage reached: %4d mV\n", value); max17050_get_property(MAX17050_V_empty, &value); gfx_printf("Empty voltage (design): %4d mV\n", value); max17050_get_property(MAX17050_TEMP, &value); gfx_printf("Battery temperature: %d.%d oC\n", value / 10, (value >= 0 ? value : (~value)) % 10); } void print_battery_charger_info() { int value = 0; gfx_printf("%k\n\nBattery Charger Info:\n%k", TXT_CLR_CYAN_L, TXT_CLR_DEFAULT); bq24193_get_property(BQ24193_InputCurrentLimit, &value); gfx_printf("Input current limit: %4d mA\n", value); bq24193_get_property(BQ24193_SystemMinimumVoltage, &value); gfx_printf("System voltage limit: %4d mV\n", value); bq24193_get_property(BQ24193_FastChargeCurrentLimit, &value); gfx_printf("Charge current limit: %4d mA\n", value); bq24193_get_property(BQ24193_ChargeVoltageLimit, &value); gfx_printf("Charge voltage limit: %4d mV\n", value); bq24193_get_property(BQ24193_ChargeStatus, &value); gfx_printf("Charge status: "); switch (value) { case 0: gfx_printf("Not charging\n"); break; case 1: gfx_printf("Pre-charging\n"); break; case 2: gfx_printf("Fast charging\n"); break; case 3: gfx_printf("Charge terminated\n"); break; default: gfx_printf("Unknown (%d)\n", value); break; } bq24193_get_property(BQ24193_TempStatus, &value); gfx_printf("Temperature status: "); switch (value) { case 0: gfx_printf("Normal\n"); break; case 2: gfx_printf("Warm\n"); break; case 3: gfx_printf("Cool\n"); break; case 5: gfx_printf("Cold\n"); break; case 6: gfx_printf("Hot\n"); break; default: gfx_printf("Unknown (%d)\n", value); break; } } void print_battery_info() { gfx_clear_partial_grey(0x1B, 0, 1256); gfx_con_setpos(0, 0); print_fuel_gauge_info(); print_battery_charger_info(); u8 *buf = (u8 *)malloc(0x100 * 2); gfx_printf("%k\n\nBattery Fuel Gauge Registers:\n%k", TXT_CLR_CYAN_L, TXT_CLR_DEFAULT); for (int i = 0; i < 0x200; i += 2) { i2c_recv_buf_small(buf + i, 2, I2C_1, MAXIM17050_I2C_ADDR, i >> 1); usleep(2500); } gfx_hexdump(0, (u8 *)buf, 0x200); btn_wait(); } #pragma GCC pop_options ================================================ FILE: bootloader/frontend/fe_info.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _FE_INFO_H_ #define _FE_INFO_H_ void print_fuseinfo(); void print_mmc_info(); void print_sdcard_info(); void print_fuel_gauge_info(); void print_battery_charger_info(); void print_battery_info(); #endif ================================================ FILE: bootloader/frontend/fe_tools.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2024 CTCaer * Copyright (c) 2018 Reisyukaku * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include "fe_tools.h" #include "../config.h" #include "../gfx/tui.h" #include extern boot_cfg_t b_cfg; #pragma GCC push_options #pragma GCC optimize ("Os") static void _toggle_autorcm(bool enable) { gfx_clear_partial_grey(0x1B, 0, 1256); gfx_con_setpos(0, 0); int i, sect = 0; u8 corr_mod0, mod1; u8 *tempbuf = (u8 *)malloc(0x200); // Get the correct RSA modulus byte masks. nx_emmc_get_autorcm_masks(&corr_mod0, &mod1); // Iterate BCTs. for (i = 0; i < 4; i++) { sect = (0x200 + (0x4000 * i)) / EMMC_BLOCKSIZE; sdmmc_storage_read(&emmc_storage, sect, 1, tempbuf); // Check if 2nd byte of modulus is correct. if (tempbuf[0x11] != mod1) continue; if (enable) tempbuf[0x10] = 0; else tempbuf[0x10] = corr_mod0; sdmmc_storage_write(&emmc_storage, sect, 1, tempbuf); } free(tempbuf); if (enable) gfx_printf("%kAutoRCM mode enabled!%k", TXT_CLR_ORANGE, TXT_CLR_DEFAULT); else gfx_printf("%kAutoRCM mode disabled!%k", TXT_CLR_GREENISH, TXT_CLR_DEFAULT); gfx_printf("\n\nPress any key...\n"); btn_wait(); } static void _enable_autorcm() { _toggle_autorcm(true); } static void _disable_autorcm() { _toggle_autorcm(false); } bool tools_autorcm_enabled() { u8 mod0, mod1; u8 *tempbuf = (u8 *)malloc(0x200); // Get the correct RSA modulus byte masks. nx_emmc_get_autorcm_masks(&mod0, &mod1); // Get 1st RSA modulus. emmc_set_partition(EMMC_BOOT0); sdmmc_storage_read(&emmc_storage, 0x200 / EMMC_BLOCKSIZE, 1, tempbuf); // Check if 2nd byte of modulus is correct. bool enabled = false; if (tempbuf[0x11] == mod1) if (tempbuf[0x10] != mod0) enabled = true; free(tempbuf); return enabled; } void menu_autorcm() { gfx_clear_grey(0x1B); gfx_con_setpos(0, 0); if (h_cfg.rcm_patched) { WPRINTF("This device is RCM patched and the\nfunction is disabled to avoid BRICKS!\n"); btn_wait(); return; } if (emmc_initialize(false)) { EPRINTF("Failed to init eMMC."); btn_wait(); return; } // Do a simple check on the main BCT. bool enabled = tools_autorcm_enabled(); // Create AutoRCM menu. ment_t *ments = (ment_t *)malloc(sizeof(ment_t) * 6); ments[0].type = MENT_BACK; ments[0].caption = "Back"; ments[1].type = MENT_CHGLINE; ments[2].type = MENT_CAPTION; ments[3].type = MENT_CHGLINE; if (!enabled) { ments[2].caption = "Status: Disabled!"; ments[2].color = TXT_CLR_GREENISH; ments[4].caption = "Enable AutoRCM"; ments[4].handler = _enable_autorcm; } else { ments[2].caption = "Status: Enabled!"; ments[2].color = TXT_CLR_ORANGE; ments[4].caption = "Disable AutoRCM"; ments[4].handler = _disable_autorcm; } ments[4].type = MENT_HDLR_RE; ments[4].data = NULL; memset(&ments[5], 0, sizeof(ment_t)); menu_t menu = {ments, "This corrupts BOOT0!", 0, 0}; tui_do_menu(&menu); emmc_end(); free(ments); } #pragma GCC pop_options ================================================ FILE: bootloader/frontend/fe_tools.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _FE_TOOLS_H_ #define _FE_TOOLS_H_ void menu_autorcm(); bool tools_autorcm_enabled(); #endif ================================================ FILE: bootloader/gfx/gfx.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "gfx.h" // Global gfx console and context. gfx_ctxt_t gfx_ctxt; gfx_con_t gfx_con; static bool gfx_con_init_done = false; static const u8 _gfx_font[] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Char 032 ( ) 0x00, 0x30, 0x30, 0x18, 0x18, 0x00, 0x0C, 0x00, // Char 033 (!) 0x00, 0x22, 0x22, 0x22, 0x00, 0x00, 0x00, 0x00, // Char 034 (") 0x00, 0x66, 0x66, 0xFF, 0x66, 0xFF, 0x66, 0x66, // Char 035 (#) 0x00, 0x18, 0x7C, 0x06, 0x3C, 0x60, 0x3E, 0x18, // Char 036 ($) 0x00, 0x46, 0x66, 0x30, 0x18, 0x0C, 0x66, 0x62, // Char 037 (%) 0x00, 0x3C, 0x66, 0x3C, 0x1C, 0xE6, 0x66, 0xFC, // Char 038 (&) 0x00, 0x18, 0x0C, 0x06, 0x00, 0x00, 0x00, 0x00, // Char 039 (') 0x00, 0x30, 0x18, 0x0C, 0x0C, 0x18, 0x30, 0x00, // Char 040 (() 0x00, 0x0C, 0x18, 0x30, 0x30, 0x18, 0x0C, 0x00, // Char 041 ()) 0x00, 0x66, 0x3C, 0xFF, 0x3C, 0x66, 0x00, 0x00, // Char 042 (*) 0x00, 0x18, 0x18, 0x7E, 0x18, 0x18, 0x00, 0x00, // Char 043 (+) 0x00, 0x00, 0x00, 0x00, 0x18, 0x18, 0x0C, 0x00, // Char 044 (,) 0x00, 0x00, 0x00, 0x3E, 0x00, 0x00, 0x00, 0x00, // Char 045 (-) 0x00, 0x00, 0x00, 0x00, 0x00, 0x18, 0x18, 0x00, // Char 046 (.) 0x00, 0x40, 0x60, 0x30, 0x18, 0x0C, 0x06, 0x00, // Char 047 (/) 0x00, 0x3C, 0x66, 0x76, 0x6E, 0x66, 0x3C, 0x00, // Char 048 (0) 0x00, 0x18, 0x1C, 0x18, 0x18, 0x18, 0x7E, 0x00, // Char 049 (1) 0x00, 0x3C, 0x62, 0x30, 0x0C, 0x06, 0x7E, 0x00, // Char 050 (2) 0x00, 0x3C, 0x62, 0x38, 0x60, 0x66, 0x3C, 0x00, // Char 051 (3) 0x00, 0x6C, 0x6C, 0x66, 0xFE, 0x60, 0x60, 0x00, // Char 052 (4) 0x00, 0x7E, 0x06, 0x7E, 0x60, 0x66, 0x3C, 0x00, // Char 053 (5) 0x00, 0x3C, 0x06, 0x3E, 0x66, 0x66, 0x3C, 0x00, // Char 054 (6) 0x00, 0x7E, 0x30, 0x30, 0x18, 0x18, 0x18, 0x00, // Char 055 (7) 0x00, 0x3C, 0x66, 0x3C, 0x66, 0x66, 0x3C, 0x00, // Char 056 (8) 0x00, 0x3C, 0x66, 0x7C, 0x60, 0x66, 0x3C, 0x00, // Char 057 (9) 0x00, 0x00, 0x18, 0x00, 0x00, 0x00, 0x18, 0x00, // Char 058 (:) 0x00, 0x00, 0x18, 0x00, 0x18, 0x18, 0x0C, 0x00, // Char 059 (;) 0x00, 0x70, 0x1C, 0x06, 0x06, 0x1C, 0x70, 0x00, // Char 060 (<) 0x00, 0x00, 0x3E, 0x00, 0x3E, 0x00, 0x00, 0x00, // Char 061 (=) 0x00, 0x0E, 0x38, 0x60, 0x60, 0x38, 0x0E, 0x00, // Char 062 (>) 0x00, 0x3C, 0x66, 0x30, 0x18, 0x00, 0x18, 0x00, // Char 063 (?) 0x00, 0x3C, 0x66, 0x76, 0x76, 0x06, 0x46, 0x3C, // Char 064 (@) 0x00, 0x3C, 0x66, 0x7E, 0x66, 0x66, 0x66, 0x00, // Char 065 (A) 0x00, 0x3E, 0x66, 0x3E, 0x66, 0x66, 0x3E, 0x00, // Char 066 (B) 0x00, 0x3C, 0x66, 0x06, 0x06, 0x66, 0x3C, 0x00, // Char 067 (C) 0x00, 0x1E, 0x36, 0x66, 0x66, 0x36, 0x1E, 0x00, // Char 068 (D) 0x00, 0x7E, 0x06, 0x1E, 0x06, 0x06, 0x7E, 0x00, // Char 069 (E) 0x00, 0x3E, 0x06, 0x1E, 0x06, 0x06, 0x06, 0x00, // Char 070 (F) 0x00, 0x3C, 0x66, 0x06, 0x76, 0x66, 0x3C, 0x00, // Char 071 (G) 0x00, 0x66, 0x66, 0x7E, 0x66, 0x66, 0x66, 0x00, // Char 072 (H) 0x00, 0x3C, 0x18, 0x18, 0x18, 0x18, 0x3C, 0x00, // Char 073 (I) 0x00, 0x78, 0x30, 0x30, 0x30, 0x36, 0x1C, 0x00, // Char 074 (J) 0x00, 0x66, 0x36, 0x1E, 0x1E, 0x36, 0x66, 0x00, // Char 075 (K) 0x00, 0x06, 0x06, 0x06, 0x06, 0x06, 0x7E, 0x00, // Char 076 (L) 0x00, 0x46, 0x6E, 0x7E, 0x56, 0x46, 0x46, 0x00, // Char 077 (M) 0x00, 0x66, 0x6E, 0x7E, 0x76, 0x66, 0x66, 0x00, // Char 078 (N) 0x00, 0x3C, 0x66, 0x66, 0x66, 0x66, 0x3C, 0x00, // Char 079 (O) 0x00, 0x3E, 0x66, 0x3E, 0x06, 0x06, 0x06, 0x00, // Char 080 (P) 0x00, 0x3C, 0x66, 0x66, 0x66, 0x3C, 0x70, 0x00, // Char 081 (Q) 0x00, 0x3E, 0x66, 0x3E, 0x1E, 0x36, 0x66, 0x00, // Char 082 (R) 0x00, 0x3C, 0x66, 0x0C, 0x30, 0x66, 0x3C, 0x00, // Char 083 (S) 0x00, 0x7E, 0x18, 0x18, 0x18, 0x18, 0x18, 0x00, // Char 084 (T) 0x00, 0x66, 0x66, 0x66, 0x66, 0x66, 0x3C, 0x00, // Char 085 (U) 0x00, 0x66, 0x66, 0x66, 0x66, 0x3C, 0x18, 0x00, // Char 086 (V) 0x00, 0x46, 0x46, 0x56, 0x7E, 0x6E, 0x46, 0x00, // Char 087 (W) 0x00, 0x66, 0x3C, 0x18, 0x3C, 0x66, 0x66, 0x00, // Char 088 (X) 0x00, 0x66, 0x66, 0x3C, 0x18, 0x18, 0x18, 0x00, // Char 089 (Y) 0x00, 0x7E, 0x30, 0x18, 0x0C, 0x06, 0x7E, 0x00, // Char 090 (Z) 0x00, 0x3C, 0x0C, 0x0C, 0x0C, 0x0C, 0x0C, 0x3C, // Char 091 ([) 0x00, 0x06, 0x0C, 0x18, 0x30, 0x60, 0x40, 0x00, // Char 092 (\) 0x00, 0x3C, 0x30, 0x30, 0x30, 0x30, 0x30, 0x3C, // Char 093 (]) 0x00, 0x18, 0x3C, 0x66, 0x00, 0x00, 0x00, 0x00, // Char 094 (^) 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, // Char 095 (_) 0x00, 0x0C, 0x18, 0x30, 0x00, 0x00, 0x00, 0x00, // Char 096 (`) 0x00, 0x00, 0x3C, 0x60, 0x7C, 0x66, 0x7C, 0x00, // Char 097 (a) 0x00, 0x06, 0x06, 0x3E, 0x66, 0x66, 0x3E, 0x00, // Char 098 (b) 0x00, 0x00, 0x3C, 0x06, 0x06, 0x06, 0x3C, 0x00, // Char 099 (c) 0x00, 0x60, 0x60, 0x7C, 0x66, 0x66, 0x7C, 0x00, // Char 100 (d) 0x00, 0x00, 0x3C, 0x66, 0x7E, 0x06, 0x3C, 0x00, // Char 101 (e) 0x00, 0x38, 0x0C, 0x3E, 0x0C, 0x0C, 0x0C, 0x00, // Char 102 (f) 0x00, 0x00, 0x7C, 0x66, 0x7C, 0x40, 0x3C, 0x00, // Char 103 (g) 0x00, 0x06, 0x06, 0x3E, 0x66, 0x66, 0x66, 0x00, // Char 104 (h) 0x00, 0x18, 0x00, 0x1C, 0x18, 0x18, 0x3C, 0x00, // Char 105 (i) 0x00, 0x30, 0x00, 0x30, 0x30, 0x30, 0x1E, 0x00, // Char 106 (j) 0x00, 0x06, 0x06, 0x36, 0x1E, 0x36, 0x66, 0x00, // Char 107 (k) 0x00, 0x1C, 0x18, 0x18, 0x18, 0x18, 0x3C, 0x00, // Char 108 (l) 0x00, 0x00, 0x66, 0xFE, 0xFE, 0xD6, 0xC6, 0x00, // Char 109 (m) 0x00, 0x00, 0x3E, 0x66, 0x66, 0x66, 0x66, 0x00, // Char 110 (n) 0x00, 0x00, 0x3C, 0x66, 0x66, 0x66, 0x3C, 0x00, // Char 111 (o) 0x00, 0x00, 0x3E, 0x66, 0x66, 0x3E, 0x06, 0x00, // Char 112 (p) 0x00, 0x00, 0x7C, 0x66, 0x66, 0x7C, 0x60, 0x00, // Char 113 (q) 0x00, 0x00, 0x3E, 0x66, 0x06, 0x06, 0x06, 0x00, // Char 114 (r) 0x00, 0x00, 0x7C, 0x06, 0x3C, 0x60, 0x3E, 0x00, // Char 115 (s) 0x00, 0x18, 0x7E, 0x18, 0x18, 0x18, 0x70, 0x00, // Char 116 (t) 0x00, 0x00, 0x66, 0x66, 0x66, 0x66, 0x7C, 0x00, // Char 117 (u) 0x00, 0x00, 0x66, 0x66, 0x66, 0x3C, 0x18, 0x00, // Char 118 (v) 0x00, 0x00, 0xC6, 0xD6, 0xFE, 0x7C, 0x6C, 0x00, // Char 119 (w) 0x00, 0x00, 0x66, 0x3C, 0x18, 0x3C, 0x66, 0x00, // Char 120 (x) 0x00, 0x00, 0x66, 0x66, 0x7C, 0x60, 0x3C, 0x00, // Char 121 (y) 0x00, 0x00, 0x7E, 0x30, 0x18, 0x0C, 0x7E, 0x00, // Char 122 (z) 0x00, 0x18, 0x08, 0x08, 0x04, 0x08, 0x08, 0x18, // Char 123 ({) 0x00, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, // Char 124 (|) 0x00, 0x0C, 0x08, 0x08, 0x10, 0x08, 0x08, 0x0C, // Char 125 (}) 0x00, 0x00, 0x00, 0x4C, 0x32, 0x00, 0x00, 0x00 // Char 126 (~) }; void gfx_clear_grey(u8 color) { memset(gfx_ctxt.fb, color, gfx_ctxt.width * gfx_ctxt.height * 4); } void gfx_clear_partial_grey(u8 color, u32 pos_y, u32 height) { memset(gfx_ctxt.fb + pos_y * gfx_ctxt.stride, color, height * 4 * gfx_ctxt.stride); } void gfx_clear_color(u32 color) { for (u32 i = 0; i < gfx_ctxt.width * gfx_ctxt.height; i++) gfx_ctxt.fb[i] = color; } void gfx_init_ctxt(u32 *fb, u32 width, u32 height, u32 stride) { gfx_ctxt.fb = fb; gfx_ctxt.width = width; gfx_ctxt.height = height; gfx_ctxt.stride = stride; } void gfx_con_init() { gfx_con.gfx_ctxt = &gfx_ctxt; gfx_con.fntsz = 16; gfx_con.x = 0; gfx_con.y = 0; gfx_con.savedx = 0; gfx_con.savedy = 0; gfx_con.fgcol = TXT_CLR_DEFAULT; gfx_con.fillbg = 1; gfx_con.bgcol = TXT_CLR_BG; gfx_con.mute = 0; gfx_con_init_done = true; } void gfx_con_setcol(u32 fgcol, int fillbg, u32 bgcol) { gfx_con.fgcol = fgcol; gfx_con.fillbg = fillbg; gfx_con.bgcol = bgcol; } void gfx_con_getpos(u32 *x, u32 *y) { *x = gfx_con.x; *y = gfx_con.y; } void gfx_con_setpos(u32 x, u32 y) { gfx_con.x = x; gfx_con.y = y; } void gfx_putc(char c) { // Duplicate code for performance reasons. switch (gfx_con.fntsz) { case 16: if (c >= 32 && c <= 126) { u8 *cbuf = (u8 *)&_gfx_font[8 * (c - 32)]; u32 *fb = gfx_ctxt.fb + gfx_con.x + gfx_con.y * gfx_ctxt.stride; for (u32 i = 0; i < 16; i += 2) { u8 v = *cbuf; for (u32 k = 0; k < 2; k++) { for (u32 j = 0; j < 8; j++) { if (v & 1) { *fb = gfx_con.fgcol; fb++; *fb = gfx_con.fgcol; } else if (gfx_con.fillbg) { *fb = gfx_con.bgcol; fb++; *fb = gfx_con.bgcol; } else fb++; v >>= 1; fb++; } fb += gfx_ctxt.stride - 16; v = *cbuf; } cbuf++; } gfx_con.x += 16; } else if (c == '\n') { gfx_con.x = 0; gfx_con.y += 16; if (gfx_con.y > gfx_ctxt.height - 16) gfx_con.y = 0; } break; case 8: default: if (c >= 32 && c <= 126) { u8 *cbuf = (u8 *)&_gfx_font[8 * (c - 32)]; u32 *fb = gfx_ctxt.fb + gfx_con.x + gfx_con.y * gfx_ctxt.stride; for (u32 i = 0; i < 8; i++) { u8 v = *cbuf++; for (u32 j = 0; j < 8; j++) { if (v & 1) *fb = gfx_con.fgcol; else if (gfx_con.fillbg) *fb = gfx_con.bgcol; v >>= 1; fb++; } fb += gfx_ctxt.stride - 8; } gfx_con.x += 8; } else if (c == '\n') { gfx_con.x = 0; gfx_con.y += 8; if (gfx_con.y > gfx_ctxt.height - 8) gfx_con.y = 0; } break; } } void gfx_puts(const char *s) { if (!s || !gfx_con_init_done || gfx_con.mute) return; for (; *s; s++) gfx_putc(*s); } static void _gfx_putn(u32 v, int base, char fill, int fcnt) { static const char digits[] = "0123456789ABCDEF"; char *p; char buf[65]; int c = fcnt; bool negative = false; if (base != 10 && base != 16) return; // Account for negative numbers. if (base == 10 && v & 0x80000000) { negative = true; v = (int)v * -1; c--; } p = buf + 64; *p = 0; do { c--; *--p = digits[v % base]; v /= base; } while (v); if (negative) *--p = '-'; if (fill != 0) { while (c > 0 && p > buf) { *--p = fill; c--; } } gfx_puts(p); } void gfx_put_small_sep() { u8 prevFontSize = gfx_con.fntsz; gfx_con.fntsz = 8; gfx_putc('\n'); gfx_con.fntsz = prevFontSize; } void gfx_put_big_sep() { u8 prevFontSize = gfx_con.fntsz; gfx_con.fntsz = 16; gfx_putc('\n'); gfx_con.fntsz = prevFontSize; } void gfx_printf(const char *fmt, ...) { if (!gfx_con_init_done || gfx_con.mute) return; va_list ap; int fill, fcnt; va_start(ap, fmt); while (*fmt) { if (*fmt == '%') { fmt++; fill = 0; fcnt = 0; if ((*fmt >= '0' && *fmt <= '9') || *fmt == ' ') { fcnt = *fmt; fmt++; if (*fmt >= '0' && *fmt <= '9') { fill = fcnt; fcnt = *fmt - '0'; fmt++; } else { fill = ' '; fcnt -= '0'; } } switch(*fmt) { case 'c': gfx_putc(va_arg(ap, u32)); break; case 's': gfx_puts(va_arg(ap, char *)); break; case 'd': _gfx_putn(va_arg(ap, u32), 10, fill, fcnt); break; case 'p': case 'P': case 'x': case 'X': _gfx_putn(va_arg(ap, u32), 16, fill, fcnt); break; case 'k': gfx_con.fgcol = va_arg(ap, u32); break; case 'K': gfx_con.bgcol = va_arg(ap, u32); gfx_con.fillbg = 1; break; case '%': gfx_putc('%'); break; case '\0': goto out; default: gfx_putc('%'); gfx_putc(*fmt); break; } } else gfx_putc(*fmt); fmt++; } out: va_end(ap); } static void _gfx_cputs(u32 color, const char *s) { gfx_con.fgcol = color; gfx_puts(s); gfx_putc('\n'); gfx_con.fgcol = TXT_CLR_DEFAULT; } void gfx_wputs(const char *s) { _gfx_cputs(TXT_CLR_WARNING, s); } void gfx_eputs(const char *s) { _gfx_cputs(TXT_CLR_ERROR, s); } void gfx_hexdump(u32 base, const void *buf, u32 len) { if (!gfx_con_init_done || gfx_con.mute) return; u8 *buff = (u8 *)buf; u8 prevFontSize = gfx_con.fntsz; gfx_con.fntsz = 8; for (u32 i = 0; i < len; i++) { if (i % 0x10 == 0) { if (i != 0) { gfx_puts("| "); for (u32 j = 0; j < 0x10; j++) { u8 c = buff[i - 0x10 + j]; if (c >= 32 && c <= 126) gfx_putc(c); else gfx_putc('.'); } gfx_putc('\n'); } gfx_printf("%08x: ", base + i); } gfx_printf("%02x ", buff[i]); if (i == len - 1) { int ln = len % 0x10 != 0; u32 k = 0x10 - 1; if (ln) { k = (len & 0xF) - 1; for (u32 j = 0; j < 0x10 - k; j++) gfx_puts(" "); } gfx_puts("| "); for (u32 j = 0; j < (ln ? k : k + 1); j++) { u8 c = buff[i - k + j]; if (c >= 32 && c <= 126) gfx_putc(c); else gfx_putc('.'); } gfx_putc('\n'); } } gfx_putc('\n'); gfx_con.fntsz = prevFontSize; } static int abs(int x) { if (x < 0) return -x; return x; } void gfx_set_pixel(u32 x, u32 y, u32 color) { gfx_ctxt.fb[x + y * gfx_ctxt.stride] = color; } void gfx_line(int x0, int y0, int x1, int y1, u32 color) { int dx = abs(x1 - x0), sx = x0 < x1 ? 1 : -1; int dy = abs(y1 - y0), sy = y0 < y1 ? 1 : -1; int err = (dx > dy ? dx : -dy) / 2, e2; while (1) { gfx_set_pixel(x0, y0, color); if (x0 == x1 && y0 == y1) break; e2 = err; if (e2 >-dx) { err -= dy; x0 += sx; } if (e2 < dy) { err += dx; y0 += sy; } } } void gfx_set_rect_grey(const u8 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y) { u32 pos = 0; for (u32 y = pos_y; y < (pos_y + size_y); y++) { for (u32 x = pos_x; x < (pos_x + size_x); x++) { memset(&gfx_ctxt.fb[x + y*gfx_ctxt.stride], buf[pos], 4); pos++; } } } void gfx_set_rect_rgb(const u8 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y) { u32 pos = 0; for (u32 y = pos_y; y < (pos_y + size_y); y++) { for (u32 x = pos_x; x < (pos_x + size_x); x++) { gfx_ctxt.fb[x + y * gfx_ctxt.stride] = buf[pos + 2] | (buf[pos + 1] << 8) | (buf[pos] << 16); pos+=3; } } } void gfx_set_rect_argb(const u32 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y) { u32 *ptr = (u32 *)buf; for (u32 y = pos_y; y < (pos_y + size_y); y++) for (u32 x = pos_x; x < (pos_x + size_x); x++) gfx_ctxt.fb[x + y * gfx_ctxt.stride] = *ptr++; } void gfx_render_bmp_argb(const u32 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y) { for (u32 y = pos_y; y < (pos_y + size_y); y++) { for (u32 x = pos_x; x < (pos_x + size_x); x++) gfx_ctxt.fb[x + y * gfx_ctxt.stride] = buf[(size_y + pos_y - 1 - y ) * size_x + x - pos_x]; } } ================================================ FILE: bootloader/gfx/gfx.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2021 CTCaer * Copyright (c) 2018 M4xw * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GFX_H_ #define _GFX_H_ #include #define TXT_CLR_BG 0xFF1B1B1B // Dark Grey. #define TXT_CLR_DEFAULT 0xFFCCCCCC // Light Grey. #define TXT_CLR_WARNING 0xFFFFDD00 // Yellow. #define TXT_CLR_ERROR 0xFFFF0000 // Red. #define TXT_CLR_CYAN_L 0xFF00CCFF // Light Cyan. #define TXT_CLR_TURQUOISE 0xFF00FFCC // Turquoise. #define TXT_CLR_ORANGE 0xFFFFBA00 // Orange. #define TXT_CLR_GREENISH 0xFF96FF00 // Toxic Green. #define TXT_CLR_GREEN_D 0xFF008800 // Dark Green. #define TXT_CLR_RED_D 0xFF880000 // Dark Red. #define TXT_CLR_GREY_D 0xFF303030 // Darkest Grey. #define TXT_CLR_GREY_DM 0xFF444444 // Darker Grey. #define TXT_CLR_GREY_M 0xFF555555 // Dark Grey. #define TXT_CLR_GREY 0xFF888888 // Grey. #define EPRINTF(text) gfx_eputs(text) #define EPRINTFARGS(text, args...) gfx_printf("%k"text"%k\n", TXT_CLR_ERROR, args, TXT_CLR_DEFAULT) #define WPRINTF(text) gfx_wputs(text) #define WPRINTFARGS(text, args...) gfx_printf("%k"text"%k\n", TXT_CLR_WARNING, args, TXT_CLR_DEFAULT) typedef struct _gfx_ctxt_t { u32 *fb; u32 width; u32 height; u32 stride; } gfx_ctxt_t; typedef struct _gfx_con_t { gfx_ctxt_t *gfx_ctxt; u32 fntsz; u32 x; u32 y; u32 savedx; u32 savedy; u32 fgcol; int fillbg; u32 bgcol; bool mute; } gfx_con_t; // Global gfx console and context. extern gfx_ctxt_t gfx_ctxt; extern gfx_con_t gfx_con; void gfx_init_ctxt(u32 *fb, u32 width, u32 height, u32 stride); void gfx_clear_grey(u8 color); void gfx_clear_partial_grey(u8 color, u32 pos_y, u32 height); void gfx_clear_color(u32 color); void gfx_con_init(); void gfx_con_setcol(u32 fgcol, int fillbg, u32 bgcol); void gfx_con_getpos(u32 *x, u32 *y); void gfx_con_setpos(u32 x, u32 y); void gfx_putc(char c); void gfx_puts(const char *s); void gfx_wputs(const char *s); void gfx_eputs(const char *s); void gfx_printf(const char *fmt, ...) /* __attribute__((format(printf, 1, 2))) */; void gfx_hexdump(u32 base, const void *buf, u32 len); void gfx_set_pixel(u32 x, u32 y, u32 color); void gfx_line(int x0, int y0, int x1, int y1, u32 color); void gfx_put_small_sep(); void gfx_put_big_sep(); void gfx_set_rect_grey(const u8 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y); void gfx_set_rect_rgb(const u8 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y); void gfx_set_rect_argb(const u32 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y); void gfx_render_bmp_argb(const u32 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y); #endif ================================================ FILE: bootloader/gfx/logos.c ================================================ /* * Copyright (c) 2018-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include "logos.h" // 68 x 192 @8bpp Grayscale RAW. #define BOOTLOGO_WIDTH 68 #define BOOTLOGO_HEIGHT 192 #define BOOTLOGO_X ((720 - BOOTLOGO_WIDTH) / 2) #define BOOTLOGO_Y ((1280 - BOOTLOGO_HEIGHT) / 2) #define BOOTLOGO_SIZE 13056 #define BOOTLOGO_BLZ_SIZE 3988 u8 bootlogo_blz[] = { 0x0F, 0xF0, 0x80, 0x1B, 0x1B, 0x40, 0xF0, 0x1E, 0x1F, 0x48, 0x5A, 0x0F, 0xF0, 0x0F, 0xF0, 0xE4, 0x17, 0xF0, 0x91, 0x13, 0x26, 0x28, 0x23, 0x1E, 0x0A, 0xA0, 0x0F, 0xF0, 0xC3, 0x22, 0xF0, 0xC3, 0xA4, 0x1E, 0x29, 0x33, 0xDB, 0x2C, 0xEA, 0x53, 0x83, 0x0F, 0xF0, 0x38, 0xF0, 0xBC, 0x39, 0x21, 0x22, 0xB0, 0x87, 0x20, 0x2F, 0x27, 0x3E, 0xDB, 0x35, 0x01, 0xA6, 0x69, 0xF2, 0x3C, 0xFD, 0x25, 0x2D, 0x38, 0x77, 0x28, 0x15, 0x8A, 0x33, 0x45, 0xDB, 0x09, 0xEF, 0xBB, 0x44, 0xD0, 0xC0, 0x18, 0xEF, 0x2E, 0x3B, 0xF5, 0x32, 0x25, 0x41, 0xC0, 0x83, 0x52, 0xE1, 0x07, 0xCD, 0x08, 0xF4, 0xF5, 0x3B, 0x61, 0xB2, 0x95, 0xF1, 0x01, 0x10, 0xE7, 0xA3, 0x02, 0x95, 0x91, 0x3C, 0xFD, 0x41, 0x90, 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0x3C, 0xF0, 0x0F, 0xF0, 0xFF, 0x27, 0xF0, 0x3C, 0xF0, 0x3C, 0xF0, 0x30, 0xF0, 0x3C, 0xF0, 0x3C, 0xF0, 0x0F, 0xF0, 0x27, 0xF0, 0xFF, 0x3C, 0xF0, 0x3C, 0xF0, 0x30, 0xF0, 0x3C, 0xF0, 0x84, 0x90, 0x3F, 0x00, 0x00, 0x00, 0x0F, 0xF0, 0xFF, 0x09, 0x90, 0x03, 0x30, 0x00, 0x00, 0x00, 0x00, 0x00, 0x09, 0x02, 0x07, 0x01, 0xB1, 0x40, 0x81, 0x20, 0x33, 0x0C, 0x08, 0x00, 0x00, 0x0F, 0xF0, 0xC6, 0x09, 0x90, 0x03, 0x30, 0x00, 0x00, 0x0D, 0x03, 0x02, 0x2D, 0x0A, 0x07, 0x07, 0x75, 0x30, 0x39, 0x00, 0x00, 0x00, 0x0F, 0xF0, 0x0F, 0xF0, 0x1B, 0xF0, 0x03, 0x00, 0xFE, 0x39, 0x00, 0xB1, 0x29, 0x1B, 0xF3, 0x39, 0x26, 0x00, 0x00, 0x81, 0x0F, 0xF0, 0x09, 0x90, 0x03, 0x30, 0x00, 0x00, 0xFE, 0x3B, 0x27, 0xF5, 0x0F, 0x39, 0x26, 0xB3, 0x2A, 0x1C, 0x17, 0x05, 0x03, 0x00, 0xFF, 0xE4, 0x02, 0x00, 0x00, 0x0D, 0x00, 0x00, 0x00, 0x6A, 0x09, 0x00, 0x00 }; u8 *render_static_bootlogo() { // Clear background. gfx_clear_grey(0x1B); // Set default logo. u8 *logo_buf = (void *)malloc(SZ_16K); blz_uncompress_srcdest(bootlogo_blz, sizeof(bootlogo_blz), logo_buf, BOOTLOGO_SIZE); gfx_set_rect_grey(logo_buf, BOOTLOGO_WIDTH, BOOTLOGO_HEIGHT, BOOTLOGO_X, BOOTLOGO_Y); return logo_buf; } bool render_ticker_logo(u32 boot_wait, u32 backlight) { u32 btn = 0; u32 ticker_step_us = boot_wait * 1000000; ticker_step_us /= BOOTLOGO_HEIGHT; // Set default logo. u8 *logo_buf = render_static_bootlogo(); // Clear line. u8 *grey = malloc(6 * BOOTLOGO_HEIGHT); memset(grey, 0x1B, 6 * BOOTLOGO_HEIGHT); gfx_set_rect_grey(grey, 6, BOOTLOGO_HEIGHT, 362, BOOTLOGO_Y); free(grey); // Enable backlight to show first frame. display_backlight_brightness(backlight, 1000); // Animated line as ticker. for (u32 i = 1; i <= BOOTLOGO_HEIGHT; i++) { // If only VOL- was pressed, exit. btn = btn_read_vol(); if (btn == BTN_VOL_DOWN) break; // Wait before setting next tick. usleep(ticker_step_us); // Set next ticker progress. gfx_set_rect_grey(logo_buf + BOOTLOGO_WIDTH * (BOOTLOGO_HEIGHT - i) + 36, 6, 1, 362, BOOTLOGO_Y + BOOTLOGO_HEIGHT - i); } free(logo_buf); return (btn == BTN_VOL_DOWN); } bool render_ticker(u32 boot_wait, u32 backlight, bool no_ticker) { u32 btn = 0; u32 ticker_step_us = boot_wait * 1000000; ticker_step_us /= 1280; // Save bottom lines. u32 *logo_line = (u32 *)malloc(1280 * sizeof(u32) * 2); for (u32 i = 1280; !no_ticker && i >= 1; i--) { logo_line[i - 1] = gfx_ctxt.fb[i * gfx_ctxt.width - 2]; logo_line[i - 1 + 1280] = gfx_ctxt.fb[i * gfx_ctxt.width - 1]; } // Enable backlight to show first frame. display_backlight_brightness(backlight, 1000); // Animated line as ticker. for (u32 i = 1280; i >= 1; i--) { // If only VOL- was pressed, exit. btn = btn_read_vol(); if (btn == BTN_VOL_DOWN) break; // Wait before setting next tick. usleep(ticker_step_us); // Set bottom lines ticker progress. if (!no_ticker) { gfx_ctxt.fb[i * gfx_ctxt.width - 2] = TXT_CLR_DEFAULT; gfx_ctxt.fb[i * gfx_ctxt.width - 1] = TXT_CLR_DEFAULT; } } // Restore bottom lines. for (u32 i = 1280; !no_ticker && i >= 1; i--) { gfx_ctxt.fb[i * gfx_ctxt.width - 2] = logo_line[i - 1]; gfx_ctxt.fb[i * gfx_ctxt.width - 1] = logo_line[i - 1 + 1280]; } free(logo_line); return (btn == BTN_VOL_DOWN); } ================================================ FILE: bootloader/gfx/logos.h ================================================ /* * Copyright (c) 2018-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GFX_LOGOS_H_ #define _GFX_LOGOS_H_ // 21 x 50 @8bpp RGB. #define BATTERY_EMPTY_WIDTH 21 #define BATTERY_EMPTY_BATT_HEIGHT 38 #define BATTERY_EMPTY_CHRG_HEIGHT 12 #define BATTERY_EMPTY_SIZE 3150 #define BATTERY_EMPTY_BLZ_SIZE 740 extern u8 battery_icons_blz[]; u8 *render_static_bootlogo(); bool render_ticker_logo(u32 boot_wait, u32 backlight); bool render_ticker(u32 boot_wait, u32 backlight, bool no_ticker); #endif ================================================ FILE: bootloader/gfx/tui.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "tui.h" #include "../config.h" void tui_sbar(bool force_update) { u32 cx, cy; static u32 sbar_time_keeping = 0; u32 timePassed = get_tmr_s() - sbar_time_keeping; if (!force_update) if (timePassed < 5) return; u8 prevFontSize = gfx_con.fntsz; gfx_con.fntsz = 16; sbar_time_keeping = get_tmr_s(); u32 battPercent = 0; int battVoltCurr = 0; gfx_con_getpos(&cx, &cy); gfx_con_setpos(0, 1260); max17050_get_property(MAX17050_RepSOC, (int *)&battPercent); max17050_get_property(MAX17050_VCELL, &battVoltCurr); gfx_clear_partial_grey(0x30, 1256, 24); gfx_printf("%K%k Battery: %d.%d%% (%d mV) - Charge:", TXT_CLR_GREY_D, TXT_CLR_GREY, (battPercent >> 8) & 0xFF, (battPercent & 0xFF) / 26, battVoltCurr); max17050_get_property(MAX17050_Current, &battVoltCurr); gfx_printf(" %k%d mA%k%K\n", battVoltCurr >= 0 ? TXT_CLR_GREEN_D : TXT_CLR_RED_D, battVoltCurr / 1000, TXT_CLR_DEFAULT, TXT_CLR_BG); gfx_con.fntsz = prevFontSize; gfx_con_setpos(cx, cy); } void tui_pbar(int x, int y, u32 val, u32 fgcol, u32 bgcol) { u32 cx, cy; if (val > 200) val = 200; gfx_con_getpos(&cx, &cy); gfx_con_setpos(x, y); gfx_printf("%k[%3d%%]%k", fgcol, val, TXT_CLR_DEFAULT); x += 7 * gfx_con.fntsz; for (u32 i = 0; i < (gfx_con.fntsz >> 3) * 6; i++) { gfx_line(x, y + i + 1, x + 3 * val, y + i + 1, fgcol); gfx_line(x + 3 * val, y + i + 1, x + 3 * 100, y + i + 1, bgcol); } gfx_con_setpos(cx, cy); // Update status bar. tui_sbar(false); } void *tui_do_menu(menu_t *menu) { int idx = 0, prev_idx = 0, cnt = 0x7FFFFFFF; gfx_clear_partial_grey(0x1B, 0, 1256); tui_sbar(true); while (true) { gfx_con_setcol(TXT_CLR_DEFAULT, 1, TXT_CLR_BG); gfx_con_setpos(menu->x, menu->y); gfx_printf("[%s]\n\n", menu->caption); // Skip caption or seperator lines selection. while (menu->ents[idx].type == MENT_CAPTION || menu->ents[idx].type == MENT_CHGLINE) { if (prev_idx <= idx || (!idx && prev_idx == cnt - 1)) { idx++; if (idx > (cnt - 1)) { idx = 0; prev_idx = 0; } } else { idx--; if (idx < 0) { idx = cnt - 1; prev_idx = cnt; } } } prev_idx = idx; // Draw the menu. for (cnt = 0; menu->ents[cnt].type != MENT_END; cnt++) { if (cnt == idx) gfx_con_setcol(TXT_CLR_BG, 1, TXT_CLR_DEFAULT); else gfx_con_setcol(TXT_CLR_DEFAULT, 1, TXT_CLR_BG); if (menu->ents[cnt].type == MENT_CAPTION) gfx_printf("%k %s", menu->ents[cnt].color, menu->ents[cnt].caption); else if (menu->ents[cnt].type != MENT_CHGLINE) gfx_printf(" %s", menu->ents[cnt].caption); if (menu->ents[cnt].type == MENT_MENU) gfx_printf("%k...", TXT_CLR_CYAN_L); gfx_printf(" \n"); } gfx_con_setcol(TXT_CLR_DEFAULT, 1, TXT_CLR_BG); gfx_putc('\n'); // Print errors, help and battery status. gfx_con_setpos(0, 1127); gfx_printf("%k Warning: %kNyx is missing!", TXT_CLR_RED_D, TXT_CLR_GREY_M); gfx_con_setpos(0, 1191); gfx_printf("%k VOL: Move up/down\n PWR: Select option%k", TXT_CLR_GREY_M, TXT_CLR_DEFAULT); display_backlight_brightness(h_cfg.backlight, 1000); // Wait for user command. u32 btn = btn_wait(); if (btn & BTN_VOL_DOWN && idx < (cnt - 1)) idx++; else if (btn & BTN_VOL_DOWN && idx == (cnt - 1)) { idx = 0; prev_idx = -1; } if (btn & BTN_VOL_UP && idx > 0) idx--; else if (btn & BTN_VOL_UP && idx == 0) { idx = cnt - 1; prev_idx = cnt; } if (btn & BTN_POWER) { ment_t *ent = &menu->ents[idx]; switch (ent->type) { case MENT_HANDLER: ent->handler(ent->data); break; case MENT_MENU: return tui_do_menu(ent->menu); break; case MENT_DATA: return ent->data; break; case MENT_BACK: return NULL; break; case MENT_HDLR_RE: ent->handler(ent); if (!ent->data) return NULL; break; default: break; } gfx_con.fntsz = 16; gfx_clear_partial_grey(0x1B, 0, 1256); } tui_sbar(false); } return NULL; } ================================================ FILE: bootloader/gfx/tui.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _TUI_H_ #define _TUI_H_ #include #define MENT_END 0 #define MENT_HANDLER 1 #define MENT_MENU 2 #define MENT_DATA 3 #define MENT_BACK 4 #define MENT_CAPTION 5 #define MENT_CHGLINE 6 #define MENT_HDLR_RE 7 typedef struct _ment_t { u32 type; const char *caption; u32 color; void *data; union { void(*handler)(void *); struct _menu_t *menu; }; } ment_t; typedef struct _menu_t { ment_t *ents; const char *caption; u32 x; u32 y; } menu_t; #define MDEF_END() {MENT_END} #define MDEF_HANDLER(caption, _handler) { MENT_HANDLER, caption, 0, NULL, { .handler = _handler } } #define MDEF_HANDLER_EX(caption, data, _handler) { MENT_HANDLER, caption, 0, data, { .handler = _handler } } #define MDEF_MENU(caption, _menu) { MENT_MENU, caption, 0, NULL, { .menu = _menu } } #define MDEF_BACK() { MENT_BACK, "Back" } #define MDEF_CAPTION(caption, color) { MENT_CAPTION, caption, color } #define MDEF_CHGLINE() {MENT_CHGLINE} void tui_sbar(bool force_update); void tui_pbar(int x, int y, u32 val, u32 fgcol, u32 bgcol); void *tui_do_menu(menu_t *menu); #endif ================================================ FILE: bootloader/hos/hos.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 st4rk * Copyright (c) 2018 Ced2911 * Copyright (c) 2018-2026 CTCaer * Copyright (c) 2018 balika011 * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "hos.h" #include "hos_config.h" #include "secmon_exo.h" #include "../frontend/fe_tools.h" #include "../config.h" #include "../storage/emummc.h" //#define DPRINTF(...) gfx_printf(__VA_ARGS__) #define DPRINTF(...) #define EHPRINTFARGS(text, args...) \ ({ gfx_con.mute = false; \ gfx_printf("%k"text"%k\n", TXT_CLR_ERROR, args, TXT_CLR_DEFAULT); }) static const u8 eks_keyseeds[HOS_MKEY_VER_600 - HOS_MKEY_VER_100 + 1][SE_KEY_128_SIZE] = { { 0xDF, 0x20, 0x6F, 0x59, 0x44, 0x54, 0xEF, 0xDC, 0x70, 0x74, 0x48, 0x3B, 0x0D, 0xED, 0x9F, 0xD3 }, // 1.0.0. { 0x0C, 0x25, 0x61, 0x5D, 0x68, 0x4C, 0xEB, 0x42, 0x1C, 0x23, 0x79, 0xEA, 0x82, 0x25, 0x12, 0xAC }, // 3.0.0. { 0x33, 0x76, 0x85, 0xEE, 0x88, 0x4A, 0xAE, 0x0A, 0xC2, 0x8A, 0xFD, 0x7D, 0x63, 0xC0, 0x43, 0x3B }, // 3.0.1. { 0x2D, 0x1F, 0x48, 0x80, 0xED, 0xEC, 0xED, 0x3E, 0x3C, 0xF2, 0x48, 0xB5, 0x65, 0x7D, 0xF7, 0xBE }, // 4.0.0. { 0xBB, 0x5A, 0x01, 0xF9, 0x88, 0xAF, 0xF5, 0xFC, 0x6C, 0xFF, 0x07, 0x9E, 0x13, 0x3C, 0x39, 0x80 }, // 5.0.0. { 0xD8, 0xCC, 0xE1, 0x26, 0x6A, 0x35, 0x3F, 0xCC, 0x20, 0xF3, 0x2D, 0x3B, 0x51, 0x7D, 0xE9, 0xC0 } // 6.0.0. }; static const u8 cmac_keyseed[SE_KEY_128_SIZE] = { 0x59, 0xC7, 0xFB, 0x6F, 0xBE, 0x9B, 0xBE, 0x87, 0x65, 0x6B, 0x15, 0xC0, 0x53, 0x73, 0x36, 0xA5 }; static const u8 master_keyseed_retail[SE_KEY_128_SIZE] = { 0xD8, 0xA2, 0x41, 0x0A, 0xC6, 0xC5, 0x90, 0x01, 0xC6, 0x1D, 0x6A, 0x26, 0x7C, 0x51, 0x3F, 0x3C }; static const u8 master_keyseed_4xx[SE_KEY_128_SIZE] = { 0x2D, 0xC1, 0xF4, 0x8D, 0xF3, 0x5B, 0x69, 0x33, 0x42, 0x10, 0xAC, 0x65, 0xDA, 0x90, 0x46, 0x66 }; static const u8 master_kekseed_620[SE_KEY_128_SIZE] = { 0x37, 0x4B, 0x77, 0x29, 0x59, 0xB4, 0x04, 0x30, 0x81, 0xF6, 0xE5, 0x8C, 0x6D, 0x36, 0x17, 0x9A }; //!TODO: Update on tsec/mkey changes. static const u8 master_kekseed_t210_tsec_v4[HOS_MKEY_VER_MAX - HOS_MKEY_VER_810 + 1][SE_KEY_128_SIZE] = { { 0xDE, 0xDC, 0xE3, 0x39, 0x30, 0x88, 0x16, 0xF8, 0xAE, 0x97, 0xAD, 0xEC, 0x64, 0x2D, 0x41, 0x41 }, // 8.1.0. { 0x1A, 0xEC, 0x11, 0x82, 0x2B, 0x32, 0x38, 0x7A, 0x2B, 0xED, 0xBA, 0x01, 0x47, 0x7E, 0x3B, 0x67 }, // 9.0.0. { 0x30, 0x3F, 0x02, 0x7E, 0xD8, 0x38, 0xEC, 0xD7, 0x93, 0x25, 0x34, 0xB5, 0x30, 0xEB, 0xCA, 0x7A }, // 9.1.0. { 0x84, 0x67, 0xB6, 0x7F, 0x13, 0x11, 0xAE, 0xE6, 0x58, 0x9B, 0x19, 0xAF, 0x13, 0x6C, 0x80, 0x7A }, // 12.1.0. { 0x68, 0x3B, 0xCA, 0x54, 0xB8, 0x6F, 0x92, 0x48, 0xC3, 0x05, 0x76, 0x87, 0x88, 0x70, 0x79, 0x23 }, // 13.0.0. { 0xF0, 0x13, 0x37, 0x9A, 0xD5, 0x63, 0x51, 0xC3, 0xB4, 0x96, 0x35, 0xBC, 0x9C, 0xE8, 0x76, 0x81 }, // 14.0.0. { 0x6E, 0x77, 0x86, 0xAC, 0x83, 0x0A, 0x8D, 0x3E, 0x7D, 0xB7, 0x66, 0xA0, 0x22, 0xB7, 0x6E, 0x67 }, // 15.0.0. { 0x99, 0x22, 0x09, 0x57, 0xA7, 0xF9, 0x5E, 0x94, 0xFE, 0x78, 0x7F, 0x41, 0xD6, 0xE7, 0x56, 0xE6 }, // 16.0.0. { 0x71, 0xB9, 0xA6, 0xC0, 0xFF, 0x97, 0x6B, 0x0C, 0xB4, 0x40, 0xB9, 0xD5, 0x81, 0x5D, 0x81, 0x90 }, // 17.0.0. { 0x00, 0x04, 0x5D, 0xF0, 0x4D, 0xCD, 0x14, 0xA3, 0x1C, 0xBF, 0xDE, 0x48, 0x55, 0xBA, 0x35, 0xC1 }, // 18.0.0. { 0xD7, 0x63, 0x74, 0x46, 0x4E, 0xBA, 0x78, 0x0A, 0x7C, 0x9D, 0xB3, 0xE8, 0x7A, 0x3D, 0x71, 0xE3 }, // 19.0.0. { 0xA1, 0x7D, 0x34, 0xDB, 0x2D, 0x9D, 0xDA, 0xE5, 0xF8, 0x15, 0x63, 0x4C, 0x8F, 0xE7, 0x6C, 0xD8 }, // 20.0.0. { 0x66, 0xC8, 0xCB, 0x3D, 0xEC, 0xF4, 0x59, 0x73, 0x54, 0x88, 0xE1, 0x2E, 0xE6, 0x3D, 0x68, 0x46 }, // 21.0.0. { 0x15, 0xAC, 0x96, 0x34, 0xF5, 0x32, 0x56, 0x68, 0xFE, 0x5B, 0x9D, 0xD7, 0xED, 0x19, 0xB7, 0x8E }, // 22.0.0. }; //!TODO: Update on mkey changes. static const u8 master_kekseed_t210b01[HOS_MKEY_VER_MAX - HOS_MKEY_VER_600 + 1][SE_KEY_128_SIZE] = { { 0x77, 0x60, 0x5A, 0xD2, 0xEE, 0x6E, 0xF8, 0x3C, 0x3F, 0x72, 0xE2, 0x59, 0x9D, 0xAC, 0x5E, 0x56 }, // 6.0.0. { 0x1E, 0x80, 0xB8, 0x17, 0x3E, 0xC0, 0x60, 0xAA, 0x11, 0xBE, 0x1A, 0x4A, 0xA6, 0x6F, 0xE4, 0xAE }, // 6.2.0. { 0x94, 0x08, 0x67, 0xBD, 0x0A, 0x00, 0x38, 0x84, 0x11, 0xD3, 0x1A, 0xDB, 0xDD, 0x8D, 0xF1, 0x8A }, // 7.0.0. { 0x5C, 0x24, 0xE3, 0xB8, 0xB4, 0xF7, 0x00, 0xC2, 0x3C, 0xFD, 0x0A, 0xCE, 0x13, 0xC3, 0xDC, 0x23 }, // 8.1.0. { 0x86, 0x69, 0xF0, 0x09, 0x87, 0xC8, 0x05, 0xAE, 0xB5, 0x7B, 0x48, 0x74, 0xDE, 0x62, 0xA6, 0x13 }, // 9.0.0. { 0x0E, 0x44, 0x0C, 0xED, 0xB4, 0x36, 0xC0, 0x3F, 0xAA, 0x1D, 0xAE, 0xBF, 0x62, 0xB1, 0x09, 0x82 }, // 9.1.0. { 0xE5, 0x41, 0xAC, 0xEC, 0xD1, 0xA7, 0xD1, 0xAB, 0xED, 0x03, 0x77, 0xF1, 0x27, 0xCA, 0xF8, 0xF1 }, // 12.1.0. { 0x52, 0x71, 0x9B, 0xDF, 0xA7, 0x8B, 0x61, 0xD8, 0xD5, 0x85, 0x11, 0xE4, 0x8E, 0x4F, 0x74, 0xC6 }, // 13.0.0. { 0xD2, 0x68, 0xC6, 0x53, 0x9D, 0x94, 0xF9, 0xA8, 0xA5, 0xA8, 0xA7, 0xC8, 0x8F, 0x53, 0x4B, 0x7A }, // 14.0.0. { 0xEC, 0x61, 0xBC, 0x82, 0x1E, 0x0F, 0x5A, 0xC3, 0x2B, 0x64, 0x3F, 0x9D, 0xD6, 0x19, 0x22, 0x2D }, // 15.0.0. { 0xA5, 0xEC, 0x16, 0x39, 0x1A, 0x30, 0x16, 0x08, 0x2E, 0xCF, 0x09, 0x6F, 0x5E, 0x7C, 0xEE, 0xA9 }, // 16.0.0. { 0x8D, 0xEE, 0x9E, 0x11, 0x36, 0x3A, 0x9B, 0x0A, 0x6A, 0xC7, 0xBB, 0xE9, 0xD1, 0x03, 0xF7, 0x80 }, // 17.0.0. { 0x4F, 0x41, 0x3C, 0x3B, 0xFB, 0x6A, 0x01, 0x2A, 0x68, 0x9F, 0x83, 0xE9, 0x53, 0xBD, 0x16, 0xD2 }, // 18.0.0. { 0x31, 0xBE, 0x25, 0xFB, 0xDB, 0xB4, 0xEE, 0x49, 0x5C, 0x77, 0x05, 0xC2, 0x36, 0x9F, 0x34, 0x80 }, // 19.0.0. { 0x1A, 0x31, 0x62, 0x87, 0xA8, 0x09, 0xCA, 0xF8, 0x69, 0x15, 0x45, 0xC2, 0x6B, 0xAA, 0x5A, 0x8A }, // 20.0.0. { 0xEB, 0xF3, 0x5B, 0x2D, 0x4A, 0x2D, 0xCE, 0x45, 0x3A, 0x6F, 0x61, 0x38, 0x0B, 0x00, 0x3B, 0x46 }, // 21.0.0. { 0x82, 0xE2, 0x0A, 0x59, 0x67, 0xDF, 0xBF, 0x51, 0x47, 0x62, 0x11, 0xF2, 0x41, 0xD3, 0xEE, 0x13 }, // 22.0.0. }; static const u8 console_keyseed[SE_KEY_128_SIZE] = { 0x4F, 0x02, 0x5F, 0x0E, 0xB6, 0x6D, 0x11, 0x0E, 0xDC, 0x32, 0x7D, 0x41, 0x86, 0xC2, 0xF4, 0x78 }; static const u8 console_keyseed_4xx[SE_KEY_128_SIZE] = { 0x0C, 0x91, 0x09, 0xDB, 0x93, 0x93, 0x07, 0x81, 0x07, 0x3C, 0xC4, 0x16, 0x22, 0x7C, 0x6C, 0x28 }; const u8 package2_keyseed[SE_KEY_128_SIZE] = { 0xFB, 0x8B, 0x6A, 0x9C, 0x79, 0x00, 0xC8, 0x49, 0xEF, 0xD2, 0x4D, 0x85, 0x4D, 0x30, 0xA0, 0xC7 }; static void _hos_crit_error(const char *text) { gfx_con.mute = false; gfx_printf("%k%s%k\n", TXT_CLR_ERROR, text, TXT_CLR_DEFAULT); } static void _se_lock(bool lock_se) { if (lock_se) { // Disable aes key read. for (u32 i = 0; i < 16; i++) se_key_acc_ctrl(i, SE_KEY_TBL_DIS_KEYREAD_FLAG | SE_KEY_TBL_DIS_OIVREAD_FLAG | SE_KEY_TBL_DIS_UIVREAD_FLAG); // Disable RSA key read. for (u32 i = 0; i < 2; i++) se_rsa_acc_ctrl(i, SE_RSA_KEY_TBL_DIS_KEYREAD_FLAG); SE(SE_TZRAM_SECURITY_REG) = 0; // Make SE TZRAM secure only. SE(SE_CRYPTO_SECURITY_PERKEY_REG) = 0; // Make all AES keys access secure only. SE(SE_RSA_SECURITY_PERKEY_REG) = 0; // Make all RSA keys access secure only. SE(SE_SE_SECURITY_REG) &= ~SE_PERKEY_SETTING; // Make access lock regs secure only. } memset((void *)IPATCH_BASE, 0, (IPATCH_CAM_ENTRIES + 1) * sizeof(u32)); SB(SB_CSR) = SB_CSR_PIROM_DISABLE; } static int _hos_eks_rw_try(u8 *buf, bool write) { for (u32 i = 0; i < 3; i++) { if (!write) { if (!sdmmc_storage_read(&sd_storage, 0, 1, buf)) return 0; } else { if (!sdmmc_storage_write(&sd_storage, 0, 1, buf)) return 0; } } return 1; } static void _hos_eks_get() { // Check if Erista based unit. if (h_cfg.t210b01) return; // Check if EKS already found and parsed. if (!h_cfg.eks) { // Read EKS blob. u8 *mbr = malloc(SD_BLOCKSIZE); if (_hos_eks_rw_try(mbr, false)) goto out; // Decrypt EKS blob. hos_eks_mbr_t *eks = (hos_eks_mbr_t *)(mbr + 0x80); se_aes_crypt_ecb(14, DECRYPT, eks, eks, sizeof(hos_eks_mbr_t)); // Check if valid and for this unit. if (eks->magic == HOS_EKS_MAGIC && eks->lot0 == FUSE(FUSE_OPT_LOT_CODE_0)) { h_cfg.eks = eks; return; } out: free(mbr); } } static void _hos_eks_save() { // Check if Erista based unit. if (h_cfg.t210b01) return; // EKS save. Only for 7.0.0 and up. bool new_eks = false; if (!h_cfg.eks) { h_cfg.eks = zalloc(sizeof(hos_eks_mbr_t)); new_eks = true; } // If matching blob doesn't exist, create it. if (h_cfg.eks->enabled != HOS_EKS_TSEC_VER) { // Read EKS blob. u8 *mbr = malloc(SD_BLOCKSIZE); if (_hos_eks_rw_try(mbr, false)) { if (new_eks) { free(h_cfg.eks); h_cfg.eks = NULL; } goto out; } // Get keys. u8 *keys = (u8 *)zalloc(SZ_8K); se_aes_ctx_get_keys(keys + SZ_4K, keys, SE_KEY_128_SIZE); // Set magic and personalized info. h_cfg.eks->magic = HOS_EKS_MAGIC; h_cfg.eks->enabled = HOS_EKS_TSEC_VER; h_cfg.eks->lot0 = FUSE(FUSE_OPT_LOT_CODE_0); // Copy new keys. memcpy(h_cfg.eks->tsec, keys + 12 * SE_KEY_128_SIZE, SE_KEY_128_SIZE); memcpy(h_cfg.eks->troot, keys + 13 * SE_KEY_128_SIZE, SE_KEY_128_SIZE); memcpy(h_cfg.eks->troot_dev, keys + 11 * SE_KEY_128_SIZE, SE_KEY_128_SIZE); // Encrypt EKS blob. u8 *eks = malloc(sizeof(hos_eks_mbr_t)); memcpy(eks, h_cfg.eks, sizeof(hos_eks_mbr_t)); se_aes_crypt_ecb(14, ENCRYPT, eks, eks, sizeof(hos_eks_mbr_t)); // Write EKS blob to SD. memcpy(mbr + 0x80, eks, sizeof(hos_eks_mbr_t)); _hos_eks_rw_try(mbr, true); free(eks); free(keys); out: free(mbr); } } static void _hos_eks_clear(u32 mkey) { // Check if Erista based unit. if (h_cfg.t210b01) return; if (h_cfg.eks && mkey >= HOS_MKEY_VER_700) { // Check if current Master key is enabled. if (h_cfg.eks->enabled) { // Read EKS blob. u8 *mbr = malloc(SD_BLOCKSIZE); if (_hos_eks_rw_try(mbr, false)) goto out; // Disable current Master key version. h_cfg.eks->enabled = 0; // Encrypt EKS blob. u8 *eks = malloc(sizeof(hos_eks_mbr_t)); memcpy(eks, h_cfg.eks, sizeof(hos_eks_mbr_t)); se_aes_crypt_ecb(14, ENCRYPT, eks, eks, sizeof(hos_eks_mbr_t)); // Write EKS blob to SD. memcpy(mbr + 0x80, eks, sizeof(hos_eks_mbr_t)); _hos_eks_rw_try(mbr, true); free(eks); out: free(mbr); } } } typedef struct _tsec_keys_t { u8 tsec[SE_KEY_128_SIZE]; u8 tsec_root[SE_KEY_128_SIZE]; u8 tmp[SE_KEY_128_SIZE]; } tsec_keys_t; static int _hos_keygen(pkg1_eks_t *eks, u32 mkey, tsec_ctxt_t *tsec_ctxt, bool stock, bool is_exo) { static bool sbk_is_set = true; u32 retries = 0; bool use_tsec = false; tsec_keys_t tsec_keys; if (mkey > HOS_MKEY_VER_MAX) return 1; // Do Mariko keygen. if (h_cfg.t210b01) { // Use SBK as Device key 4x unsealer and KEK for mkey in T210B01 units. se_aes_unwrap_key(10, 14, console_keyseed_4xx); // Derive master key. se_aes_unwrap_key(7, 12, master_kekseed_t210b01[mkey - HOS_MKEY_VER_600]); se_aes_unwrap_key(7, 7, master_keyseed_retail); // Derive latest pkg2 key. se_aes_unwrap_key(8, 7, package2_keyseed); return 0; } // Do Erista keygen. // Check if SBK is wiped and try to restore it from fuses. if (!sbk_is_set) { if (fuse_set_sbk()) sbk_is_set = true; else return 0; // Continue with current SE keys. } // Use HOS EKS if it exists. _hos_eks_get(); // Use tsec keygen for old firmware or if EKS keys does not exist for newer. if (mkey <= HOS_MKEY_VER_620 || !h_cfg.eks || (h_cfg.eks->enabled != HOS_EKS_TSEC_VER)) use_tsec = true; if (mkey <= HOS_MKEY_VER_600) { tsec_ctxt->size = 0xF00; tsec_ctxt->type = TSEC_FW_TYPE_OLD; } else if (mkey == HOS_MKEY_VER_620) { tsec_ctxt->size = 0x2900; tsec_ctxt->type = TSEC_FW_TYPE_EMU; // Prepare smmu tsec page for 6.2.0. u8 *tsec_paged = (u8 *)smmu_page_zalloc(3); memcpy(tsec_paged, (void *)tsec_ctxt->fw, tsec_ctxt->size); tsec_ctxt->fw = tsec_paged; } else if (use_tsec) // 7.0.0+ { /* * 7.0.0/8.1.0 tsec fw are 0x3000/0x3300. * Unused here because of THK. */ // Use custom TSEC Hovi Keygen firmware. tsec_ctxt->fw = sd_file_read("bootloader/sys/thk.bin", NULL); if (!tsec_ctxt->fw) { _hos_crit_error("Failed to load thk.bin"); return 1; } tsec_ctxt->size = 0x1F00; tsec_ctxt->type = TSEC_FW_TYPE_NEW; } else if (h_cfg.eks) { // EKS found. Set TSEC keys. se_aes_key_set(12, h_cfg.eks->tsec, SE_KEY_128_SIZE); se_aes_key_set(13, h_cfg.eks->troot, SE_KEY_128_SIZE); se_aes_key_set(11, h_cfg.eks->troot_dev, SE_KEY_128_SIZE); } // Get TSEC key. while (use_tsec && tsec_query(&tsec_keys, tsec_ctxt) < 0) { memset(&tsec_keys, 0x00, 0x20); retries++; // We rely on racing conditions, make sure we cover even the unluckiest cases. if (retries > 15) { _hos_crit_error("Failed to get TSEC keys."); return 1; } } if (mkey >= HOS_MKEY_VER_700) { // For 7.0.0 and up, save EKS slot if it doesn't exist. if (use_tsec) { _hos_eks_save(); free(tsec_ctxt->fw); } // Use 8.1.0 for 7.0.0 otherwise the proper one. u32 mkey_idx = 0; if (mkey >= HOS_MKEY_VER_810) mkey_idx = mkey - HOS_MKEY_VER_810; if (!is_exo) { // Derive Package2 key in secmon compatible way. se_aes_unwrap_key(7, 13, master_kekseed_t210_tsec_v4[mkey_idx]); se_aes_unwrap_key(7, 7, master_keyseed_retail); se_aes_unwrap_key(8, 7, package2_keyseed); } else { // Decrypt eks and set keyslots. se_aes_crypt_ecb(12, DECRYPT, tsec_keys.tmp, eks_keyseeds[0], SE_KEY_128_SIZE); se_aes_unwrap_key(15, 14, tsec_keys.tmp); // Derive device keys. se_aes_unwrap_key(10, 15, console_keyseed_4xx); se_aes_unwrap_key(15, 15, console_keyseed); // Derive master kek. se_aes_unwrap_key(13, 13, master_kekseed_t210_tsec_v4[mkey_idx]); // Derive device master key and master key. se_aes_unwrap_key(12, 13, master_keyseed_4xx); se_aes_unwrap_key(13, 13, master_keyseed_retail); // Package2 key. se_aes_unwrap_key(8, 13, package2_keyseed); } } else if (mkey == HOS_MKEY_VER_620) { // Set TSEC key. se_aes_key_set(12, tsec_keys.tsec, SE_KEY_128_SIZE); // Set TSEC root key. se_aes_key_set(13, tsec_keys.tsec_root, SE_KEY_128_SIZE); if (!is_exo) { // Derive Package2 key in secmon compatible way. se_aes_key_set(8, tsec_keys.tsec_root, SE_KEY_128_SIZE); se_aes_unwrap_key(8, 8, master_kekseed_620); se_aes_unwrap_key(8, 8, master_keyseed_retail); se_aes_unwrap_key(8, 8, package2_keyseed); } else { // Decrypt eks and set keyslots for Exosphere 2. se_aes_crypt_ecb(12, DECRYPT, tsec_keys.tmp, eks_keyseeds[0], SE_KEY_128_SIZE); se_aes_unwrap_key(15, 14, tsec_keys.tmp); // Derive device keys. se_aes_unwrap_key(10, 15, console_keyseed_4xx); se_aes_unwrap_key(15, 15, console_keyseed); // Derive master kek. se_aes_unwrap_key(13, 13, master_kekseed_620); // Derive device master key and master key. se_aes_unwrap_key(12, 13, master_keyseed_4xx); se_aes_unwrap_key(13, 13, master_keyseed_retail); // Package2 key. se_aes_unwrap_key(8, 13, package2_keyseed); } } else { se_key_acc_ctrl(13, SE_KEY_TBL_DIS_KEYREAD_FLAG | SE_KEY_TBL_DIS_OIVREAD_FLAG | SE_KEY_TBL_DIS_UIVREAD_FLAG); se_key_acc_ctrl(14, SE_KEY_TBL_DIS_KEYREAD_FLAG | SE_KEY_TBL_DIS_OIVREAD_FLAG | SE_KEY_TBL_DIS_UIVREAD_FLAG); // Set TSEC key. se_aes_key_set(13, tsec_keys.tsec, SE_KEY_128_SIZE); // Derive eks keys from TSEC+SBK. se_aes_crypt_ecb(13, DECRYPT, tsec_keys.tsec, eks_keyseeds[0], SE_KEY_128_SIZE); se_aes_unwrap_key(15, 14, tsec_keys.tsec); se_aes_crypt_ecb(13, DECRYPT, tsec_keys.tsec, eks_keyseeds[mkey], SE_KEY_128_SIZE); se_aes_unwrap_key(13, 14, tsec_keys.tsec); // Clear SBK. //se_aes_key_clear(14); /* // Verify eks CMAC. u8 cmac[SE_KEY_128_SIZE]; se_aes_unwrap_key(11, 13, cmac_keyseed); se_aes_hash_cmac(cmac, SE_KEY_128_SIZE, 11, (void *)eks->ctr, sizeof(eks->ctr) + sizeof(eks->keys)); if (!memcmp(eks->cmac, cmac, SE_KEY_128_SIZE)) return 1; */ se_aes_crypt_ecb(13, DECRYPT, tsec_keys.tsec, cmac_keyseed, SE_KEY_128_SIZE); se_aes_unwrap_key(11, 13, cmac_keyseed); // Decrypt eks and set keyslots. se_aes_crypt_ctr(13, &eks->keys, &eks->keys, sizeof(eks_keys_t), eks->ctr); se_aes_key_set(11, eks->keys.package1_key, SE_KEY_128_SIZE); se_aes_key_set(12, eks->keys.master_kekseed, SE_KEY_128_SIZE); se_aes_key_set(13, eks->keys.master_kekseed, SE_KEY_128_SIZE); se_aes_crypt_ecb(12, DECRYPT, tsec_keys.tsec, master_keyseed_retail, SE_KEY_128_SIZE); if (!is_exo) { switch (mkey) { case HOS_MKEY_VER_100: case HOS_MKEY_VER_300: case HOS_MKEY_VER_301: se_aes_unwrap_key(13, 15, console_keyseed); se_aes_unwrap_key(12, 12, master_keyseed_retail); break; case HOS_MKEY_VER_400: se_aes_unwrap_key(13, 15, console_keyseed_4xx); se_aes_unwrap_key(15, 15, console_keyseed); se_aes_unwrap_key(14, 12, master_keyseed_4xx); se_aes_unwrap_key(12, 12, master_keyseed_retail); sbk_is_set = false; break; case HOS_MKEY_VER_500: case HOS_MKEY_VER_600: se_aes_unwrap_key(10, 15, console_keyseed_4xx); se_aes_unwrap_key(15, 15, console_keyseed); se_aes_unwrap_key(14, 12, master_keyseed_4xx); se_aes_unwrap_key(12, 12, master_keyseed_retail); sbk_is_set = false; break; } } else // Exosphere 2. { se_aes_unwrap_key(10, 15, console_keyseed_4xx); se_aes_unwrap_key(15, 15, console_keyseed); se_aes_unwrap_key(13, 12, master_keyseed_retail); se_aes_unwrap_key(12, 12, master_keyseed_4xx); } // Package2 key. se_key_acc_ctrl(8, SE_KEY_TBL_DIS_KEYREAD_FLAG | SE_KEY_TBL_DIS_OIVREAD_FLAG | SE_KEY_TBL_DIS_UIVREAD_FLAG); se_aes_unwrap_key(8, !is_exo ? 12 : 13, package2_keyseed); } return 0; } static int _read_emmc_pkg1(launch_ctxt_t *ctxt) { const u32 pk1_offset = h_cfg.t210b01 ? sizeof(bl_hdr_t210b01_t) : 0; // Skip T210B01 OEM header. u32 bootloader_offset = PKG1_BOOTLOADER_MAIN_OFFSET; ctxt->pkg1 = (void *)malloc(PKG1_BOOTLOADER_SIZE); try_load: // Read package1. emummc_storage_set_mmc_partition(EMMC_BOOT0); emummc_storage_read(bootloader_offset, PKG1_BOOTLOADER_SIZE / EMMC_BLOCKSIZE, ctxt->pkg1); ctxt->pkg1_id = pkg1_identify(ctxt->pkg1 + pk1_offset); if (!ctxt->pkg1_id) { // Check if wrong pkg1 was flashed. bool wrong_pkg1; const u32 pkg1_erista_check = ((bl_hdr_t210b01_t *)ctxt->pkg1)->entrypoint; const u32 pkg1_mariko_check = *(u32 *)(ctxt->pkg1 + sizeof(pk1_hdr_t) * 2); if (!h_cfg.t210b01) // For Erista check if start is 0 and entrypoint matches Mariko. wrong_pkg1 = *(u32 *)ctxt->pkg1 == 0 && pkg1_erista_check == PKG1_MARIKO_ON_ERISTA_MAGIC; else // For Mariko check if start is not 0 and build id. It works for 8.0.0 Erista pkg1 and up. wrong_pkg1 = *(u32 *)ctxt->pkg1 != 0 && pkg1_mariko_check == PKG1_ERISTA_ON_MARIKO_MAGIC; if (wrong_pkg1) { _hos_crit_error("Wrong pkg1 flashed:"); EPRINTFARGS("%s pkg1 on %s!", !h_cfg.t210b01 ? "Mariko" : "Erista", !h_cfg.t210b01 ? "Erista" : "Mariko"); } else { _hos_crit_error("Unknown pkg1 version."); EPRINTFARGS("HOS version not supported!%s", (emu_cfg.enabled && !h_cfg.emummc_force_disable) ? "\nOr emuMMC corrupt!" : ""); } // Try backup bootloader. if (bootloader_offset != PKG1_BOOTLOADER_BACKUP_OFFSET) { EPRINTF("\nTrying backup bootloader..."); bootloader_offset = PKG1_BOOTLOADER_BACKUP_OFFSET; goto try_load; } return 1; } gfx_printf("Identified pkg1 and mkey %d\n\n", ctxt->pkg1_id->mkey); // Read the correct eks for older HOS versions. if (ctxt->pkg1_id->mkey <= HOS_MKEY_VER_600) { const u32 eks_size = sizeof(pkg1_eks_t); ctxt->eks = (pkg1_eks_t *)malloc(eks_size); emummc_storage_read(PKG1_HOS_EKS_OFFSET + (ctxt->pkg1_id->mkey * eks_size) / EMMC_BLOCKSIZE, eks_size / EMMC_BLOCKSIZE, ctxt->eks); } return 0; } static u8 *_read_emmc_pkg2(launch_ctxt_t *ctxt) { u8 *nx_bc = NULL; emummc_storage_set_mmc_partition(EMMC_GPP); // Parse eMMC GPT. LIST_INIT(gpt); emmc_gpt_parse(&gpt); DPRINTF("Parsed GPT\n"); // Find package2 partition. emmc_part_t *pkg2_part = emmc_part_find(&gpt, "BCPKG2-1-Normal-Main"); if (!pkg2_part) goto out; // Read in package2 header and get package2 real size. static const u32 PKG2_OFFSET = SZ_16K; nx_bc = (u8 *)malloc(sizeof(nx_bc_t)); emmc_part_read(pkg2_part, PKG2_OFFSET / EMMC_BLOCKSIZE, 1, nx_bc); u32 *hdr = (u32 *)(nx_bc + 0x100); u32 pkg2_size = hdr[0] ^ hdr[2] ^ hdr[3]; DPRINTF("pkg2 size on emmc is %08X\n", pkg2_size); // Check that size is valid. if (!pkg2_size || pkg2_size > SZ_8M) goto out; // Read in NX Boot Config. emmc_part_read(pkg2_part, 0, sizeof(nx_bc_t) / EMMC_BLOCKSIZE, nx_bc); // Read in package2. u32 pkg2_size_aligned = ALIGN(pkg2_size, EMMC_BLOCKSIZE); DPRINTF("pkg2 size aligned is %08X\n", pkg2_size_aligned); ctxt->pkg2 = malloc(pkg2_size_aligned); ctxt->pkg2_size = pkg2_size; emmc_part_read(pkg2_part, PKG2_OFFSET / EMMC_BLOCKSIZE, pkg2_size_aligned / EMMC_BLOCKSIZE, ctxt->pkg2); out: emmc_gpt_free(&gpt); return nx_bc; } static void _free_launch_components(launch_ctxt_t *ctxt) { // Free the malloc'ed guaranteed addresses. free(ctxt->pkg3); free(ctxt->eks); free(ctxt->pkg1); free(ctxt->pkg2); free(ctxt->warmboot); free(ctxt->kip1_patches); } static bool _get_fs_exfat_compatible(link_t *info, u32 *hos_revision) { u32 fs_ids_cnt; u32 sha_buf[32 / sizeof(u32)]; kip1_id_t *kip_ids; LIST_FOREACH_ENTRY(pkg2_kip1_info_t, ki, info, link) { if (strcmp((char *)ki->kip1->name, "FS")) continue; if (se_sha_hash_256_oneshot(sha_buf, ki->kip1, ki->size)) break; pkg2_get_ids(&kip_ids, &fs_ids_cnt); for (int fs_idx = fs_ids_cnt - 1; fs_idx >= 0; fs_idx--) { if (!memcmp(sha_buf, kip_ids[fs_idx].hash, 8)) { // HOS Api special handling. if ((fs_idx & ~1) == 16) // Check if it's 5.1.0. *hos_revision = 1; else if ((fs_idx & ~1) == 34) // Check if it's 10.2.0. *hos_revision = 2; // Check if FAT32-only. if (!(fs_idx & 1)) return false; // FS is FAT32 + exFAT. break; } } break; } // FAT32 + exFAT or unknown FS version. return true; } void hos_launch(ini_sec_t *cfg) { u8 mkey; u32 secmon_base; u32 warmboot_base; bool is_exo = false; launch_ctxt_t ctxt = {0}; tsec_ctxt_t tsec_ctxt = {0}; minerva_change_freq(FREQ_1600); list_init(&ctxt.kip1_list); ctxt.cfg = cfg; if (!gfx_con.mute) gfx_clear_grey(0x1B); gfx_con_setpos(0, 0); gfx_puts("Initializing...\n\n"); // Initialize eMMC/emuMMC. int res = emummc_storage_init_mmc(); if (res) { _hos_crit_error(res == 2 ? "Failed to init eMMC." : "Failed to init emuMMC."); goto error; } // Check if SD Card is GPT. if (sd_is_gpt()) { _hos_crit_error("SD has GPT only! Run Fix Hybrid MBR!"); goto error; } // Try to parse config if present. if (hos_parse_boot_config(&ctxt)) { _hos_crit_error("Wrong ini cfg or missing/corrupt files!"); goto error; } // Read package1 and the correct eks. if (_read_emmc_pkg1(&ctxt)) { // Check if stock is enabled and device can boot in OFW. if (ctxt.stock && (h_cfg.t210b01 || !tools_autorcm_enabled())) { emmc_end(); WPRINTF("\nRebooting to OFW in 5s..."); msleep(5000); power_set_state(REBOOT_BYPASS_FUSES); } goto error; } mkey = ctxt.pkg1_id->mkey; bool emummc_enabled = emu_cfg.enabled && !h_cfg.emummc_force_disable; // Enable emummc patching. if (emummc_enabled) { if (ctxt.stock) { _hos_crit_error("Stock emuMMC is not supported yet!"); goto error; } ctxt.patch_krn_proc_id = true; // Set kernel process id patching in case of no pkg3. hos_config_kip1patch(&ctxt, "emummc"); } else if (!emu_cfg.enabled && ctxt.emummc_forced) { _hos_crit_error("emuMMC is forced but not enabled!"); goto error; } // If Auto NOGC is enabled, check if burnt fuses lower than installed HOS fuses and apply NOGC patch. // For emuMMC, unconditionally enable NOGC when burnt fuses are higher than installed HOS fuses. // Disable Auto NOGC in stock to prevent black screen (fatal error). Use kip1patch=nogc to force it. if (!ctxt.stock) { u32 fuses = fuse_read_odm(7); if ((h_cfg.autonogc && // Prevent GC fuse burning (sysMMC and emuMMC). ( (!(fuses & ~0xF) && (ctxt.pkg1_id->fuses >= 5)) || // LAFW v2, 4.0.0+ (!(fuses & ~0x3FF) && (ctxt.pkg1_id->fuses >= 11)) || // LAFW v3, 9.0.0+ (!(fuses & ~0x1FFF) && (ctxt.pkg1_id->fuses >= 14)) || // LAFW v4, 11.0.0+ // Detection broken! Use kip1patch=nogc // LAFW v5, 12.0.0+ (!(fuses & ~0x3FFF) && (ctxt.pkg1_id->fuses >= 15)) // LAFW v5, 12.0.2+ ) ) || ((emummc_enabled) && // Force NOGC if already burnt (only emuMMC). ( ((fuses & BIT(10)) && (ctxt.pkg1_id->fuses <= 10)) || // HOS 9.0.0+ fuses burnt. ((fuses & BIT(13)) && (ctxt.pkg1_id->fuses <= 13)) || // HOS 11.0.0+ fuses burnt. // Detection broken! Use kip1patch=nogc // HOS 12.0.0+ ((fuses & BIT(14)) && (ctxt.pkg1_id->fuses <= 14)) // HOS 12.0.2+ fuses burnt. ) )) hos_config_kip1patch(&ctxt, "nogc"); } gfx_printf("Loaded config and pkg1\n%s mode\n", ctxt.stock ? "Stock" : "CFW"); // Check if secmon is exosphere. if (ctxt.secmon) is_exo = !memcmp((void *)((u8 *)ctxt.secmon + ctxt.secmon_size - 4), "LENY", 4); // Get secmon and warmboot bases. const pkg1_id_t *pk1_latest = pkg1_get_latest(); secmon_base = is_exo ? pk1_latest->secmon_base : ctxt.pkg1_id->secmon_base; warmboot_base = is_exo ? pk1_latest->warmboot_base : ctxt.pkg1_id->warmboot_base; // Set package1 and tsec fw offsets. tsec_ctxt.fw = (u8 *)ctxt.pkg1 + ctxt.pkg1_id->tsec_off; tsec_ctxt.pkg1 = ctxt.pkg1; tsec_ctxt.pkg11_off = ctxt.pkg1_id->pkg11_off; // Generate keys. if (_hos_keygen(ctxt.eks, mkey, &tsec_ctxt, ctxt.stock, is_exo)) goto error; gfx_puts("Generated keys\n"); // Decrypt and unpack package1 if we require parts of it. if (!ctxt.warmboot || !ctxt.secmon) { // Decrypt PK1 or PK11. if (mkey <= HOS_MKEY_VER_600 || h_cfg.t210b01) { if (!pkg1_decrypt(ctxt.pkg1_id, ctxt.pkg1)) { _hos_crit_error("Pkg1 decryption failed!"); // Check if T210B01 BEK is missing or wrong. if (h_cfg.t210b01) { u32 bek_vector[4] = {0}; se_aes_crypt_ecb(13, ENCRYPT, bek_vector, bek_vector, SE_KEY_128_SIZE); if (bek_vector[0] == 0x59C14895) // Encrypted zeroes first 32bits. EPRINTF("Pkg1 corrupt?"); else EPRINTF("BEK is missing!"); } goto error; } } // Unpack PK11. if (h_cfg.t210b01 || (mkey <= HOS_MKEY_VER_620 && !emummc_enabled)) { // Skip T210B01 OEM header. u32 pk1_offset = 0; if (h_cfg.t210b01) pk1_offset = sizeof(bl_hdr_t210b01_t); pkg1_unpack((void *)warmboot_base, &ctxt.warmboot_size, !is_exo ? (void *)ctxt.pkg1_id->secmon_base : NULL, NULL, ctxt.pkg1_id, ctxt.pkg1 + pk1_offset); gfx_puts("Decrypted & unpacked pkg1\n"); } else { _hos_crit_error("No mandatory pkg1 files provided!"); goto error; } } // Configure and manage Warmboot binary. if (pkg1_warmboot_config(&ctxt, warmboot_base, ctxt.pkg1_id->fuses, mkey)) { // Can only happen on T210B01. _hos_crit_error("\nFailed to match warmboot with fuses!\nIf you continue, sleep wont work!"); gfx_puts("\nPress POWER to continue.\nPress VOL to go to the menu.\n"); display_backlight_brightness(h_cfg.backlight, 1000); if (!(btn_wait() & BTN_POWER)) goto error; } // Replace 'warmboot.bin' if requested. if (ctxt.warmboot) memcpy((void *)warmboot_base, ctxt.warmboot, ctxt.warmboot_size); else if (!h_cfg.t210b01) { // Patch warmboot on T210 to allow downgrading. if (mkey >= HOS_MKEY_VER_700) { _hos_crit_error("No warmboot provided!"); goto error; } pkg1_warmboot_patch((void *)&ctxt); } // Replace 'SecureMonitor' if requested or patch Pkg2 checks if needed. if (ctxt.secmon) memcpy((void *)secmon_base, ctxt.secmon, ctxt.secmon_size); else pkg1_secmon_patch((void *)&ctxt, secmon_base, h_cfg.t210b01); gfx_puts("Loaded warmboot and secmon\n"); // Read package2. u8 *pkg2_nx_bc = _read_emmc_pkg2(&ctxt); if (!pkg2_nx_bc) { _hos_crit_error("Pkg2 read failed!"); goto error; } gfx_puts("Read pkg2\n"); // Decrypt package2 and parse KIP1 blobs in INI1 section. pkg2_hdr_t *pkg2_hdr = pkg2_decrypt(ctxt.pkg2, mkey, is_exo); if (!pkg2_hdr) { _hos_crit_error("Pkg2 decryption failed!\npkg1/pkg2 mismatch or old hekate!"); // Clear EKS slot, in case something went wrong with tsec keygen. _hos_eks_clear(mkey); goto error; } LIST_INIT(kip1_info); if (pkg2_parse_kips(&kip1_info, pkg2_hdr, &ctxt.new_pkg2)) { _hos_crit_error("INI1 parsing failed!"); goto error; } gfx_puts("Parsed ini1\n"); // Use the kernel included in package2 in case we didn't load one already. if (!ctxt.kernel) { ctxt.kernel = pkg2_hdr->data; ctxt.kernel_size = pkg2_hdr->sec_size[PKG2_SEC_KERNEL]; if (!ctxt.stock && (ctxt.svcperm || ctxt.debugmode || ctxt.patch_krn_proc_id)) { // Hash only Kernel when it embeds INI1. u8 kernel_hash[0x20]; if (!ctxt.new_pkg2) se_sha_hash_256_oneshot(kernel_hash, ctxt.kernel, ctxt.kernel_size); else se_sha_hash_256_oneshot(kernel_hash, ctxt.kernel + PKG2_NEWKERN_START, pkg2_newkern_ini1_start - PKG2_NEWKERN_START); ctxt.pkg2_kernel_id = pkg2_identify(kernel_hash); if (!ctxt.pkg2_kernel_id) { _hos_crit_error("Failed to identify kernel!"); goto error; } // In case a kernel patch option is set; allows to disable SVC verification or/and enable debug mode. const kernel_patch_t *kernel_patchset = ctxt.pkg2_kernel_id->kernel_patchset; if (kernel_patchset != NULL) { gfx_printf("%kPatching kernel%k\n", TXT_CLR_ORANGE, TXT_CLR_DEFAULT); u32 *temp; for (u32 i = 0; kernel_patchset[i].id != 0xFFFFFFFF; i++) { if ((ctxt.svcperm && kernel_patchset[i].id == SVC_VERIFY_DS) || (ctxt.debugmode && kernel_patchset[i].id == DEBUG_MODE_EN && !(ctxt.patch_krn_proc_id && ctxt.secmon)) || (ctxt.patch_krn_proc_id && kernel_patchset[i].id == ATM_GEN_PATCH)) *(vu32 *)(ctxt.kernel + kernel_patchset[i].off) = kernel_patchset[i].val; else if (ctxt.patch_krn_proc_id && kernel_patchset[i].id == ATM_ARR_PATCH) { temp = (u32 *)kernel_patchset[i].ptr; for (u32 j = 0; j < kernel_patchset[i].val; j++) *(vu32 *)(ctxt.kernel + kernel_patchset[i].off + (j << 2)) = temp[j]; } else if (kernel_patchset[i].id < SVC_VERIFY_DS) *(vu32 *)(ctxt.kernel + kernel_patchset[i].off) = kernel_patchset[i].val; } } } } // Merge extra KIP1s into loaded ones. LIST_FOREACH_ENTRY(merge_kip_t, mki, &ctxt.kip1_list, link) pkg2_merge_kip(&kip1_info, (pkg2_kip1_t *)mki->kip1); // Check if FS is compatible with exFAT and if 5.1.0 or 10.2.0. if (!ctxt.stock && (sd_fs.fs_type == FS_EXFAT || mkey == HOS_MKEY_VER_500 || ctxt.pkg1_id->fuses == 13)) { bool exfat_compat = _get_fs_exfat_compatible(&kip1_info, &ctxt.exo_ctx.hos_revision); if (sd_fs.fs_type == FS_EXFAT && !exfat_compat) { _hos_crit_error("SD Card is exFAT but installed HOS driver\nonly supports FAT32!"); goto error; } } // Patch kip1s in memory if needed. const char *failed_patch = pkg2_patch_kips(&kip1_info, ctxt.kip1_patches); if (failed_patch != NULL) { EHPRINTFARGS("Failed to apply '%s'!", failed_patch); bool emu_patch_failed = !strcmp(failed_patch, "emummc"); if (!emu_patch_failed) { gfx_puts("\nPress POWER to continue.\nPress VOL to go to the menu.\n"); display_backlight_brightness(h_cfg.backlight, 1000); } if (emu_patch_failed || !(btn_wait() & BTN_POWER)) goto error; // MUST stop here, because if user requests 'nogc' but it's not applied, their GC controller gets updated! } // Rebuild and encrypt package2. pkg2_build_encrypt((void *)PKG2_LOAD_ADDR, &ctxt, &kip1_info, is_exo); // Configure Exosphere if secmon is replaced. if (is_exo) config_exosphere(&ctxt, warmboot_base); // Unmount SD card and eMMC. sd_end(); emmc_end(); // Close AHB aperture. Important when stock old secmon is used. mc_disable_ahb_redirect(); gfx_printf("Rebuilt & loaded pkg2\n\n%kBooting...%k\n", TXT_CLR_GREENISH, TXT_CLR_DEFAULT); // Clear pkg1/pkg2 keys. se_aes_key_clear(8); se_aes_key_clear(11); // Clear derived master key in case of Erista and 7.0.0+ se_aes_key_clear(9); // Set secmon mailbox pkg2 ready state. u32 pkg1_state_pkg2_ready = PKG1_STATE_PKG2_READY; // Finalize per firmware key access. Skip access control if Exosphere 2. switch (mkey | (is_exo << 7)) { case HOS_MKEY_VER_100: case HOS_MKEY_VER_300: case HOS_MKEY_VER_301: se_key_acc_ctrl(12, SE_KEY_TBL_DIS_KEY_ACCESS_FLAG | SE_KEY_LOCK_FLAG); se_key_acc_ctrl(13, SE_KEY_TBL_DIS_KEY_ACCESS_FLAG | SE_KEY_LOCK_FLAG); pkg1_state_pkg2_ready = PKG1_STATE_PKG2_READY_OLD; break; case HOS_MKEY_VER_400: case HOS_MKEY_VER_500: case HOS_MKEY_VER_600: se_key_acc_ctrl(12, SE_KEY_TBL_DIS_KEY_ACCESS_FLAG | SE_KEY_LOCK_FLAG); se_key_acc_ctrl(15, SE_KEY_TBL_DIS_KEY_ACCESS_FLAG | SE_KEY_LOCK_FLAG); break; } // Finalize MC carveout. if (mkey <= HOS_MKEY_VER_301 && !is_exo) mc_config_carveout_hos(); // Lock SE before starting secmon if < 6.2.0, otherwise lock bootrom and ipatches. _se_lock(mkey <= HOS_MKEY_VER_600 && !is_exo); // Reset sysctr0 counters. Mandatory for 6.2.0 and up. for (u32 i = 0; i < SYSCTR0_COUNTERS; i++) SYSCTR0(SYSCTR0_COUNTERS_BASE + i * sizeof(u32)) = 0; // NX Bootloader locks LP0 Carveout secure scratch registers. //pmc_scratch_lock(PMC_SEC_LOCK_LP0_PARAMS); // Copy the read NX BC to the correct address. nx_bc_t *nxbc = (mkey >= HOS_MKEY_VER_600 || is_exo) ? (nx_bc_t *)NX_BC6_ADDR : (nx_bc_t *)NX_BC1_ADDR; memcpy(nxbc, pkg2_nx_bc, sizeof(nx_bc_t)); // NX bootloader copies 4KB. // Set NX BIT mailbox address and clear it. nx_bit_t *nxbit = (mkey >= HOS_MKEY_VER_700 || is_exo) ? (nx_bit_t *)NX_BIT7_MAILBOX_ADDR : (nx_bit_t *)NX_BIT1_MAILBOX_ADDR; memset(nxbit, 0, sizeof(nx_bit_t)); // Set used NX BIT parameters. nxbit->bl_attribute = 0; nxbit->boot_type = BIT_BOOT_TYPE_COLD; // Start directly from PKG2 ready signal and reset secmon state. nxbit->secldr_state = pkg1_state_pkg2_ready; nxbit->secmon_state = SECMON_STATE_NOT_READY; // Disable display. display_end(); clock_disable_host1x(); // Override uCID if set. EMC(EMC_SCRATCH0) = ctxt.ucid; // Hold USBD, USB2, AHBDMA and APBDMA in reset for SoC state validation on sleep. CLOCK(CLK_RST_CONTROLLER_RST_DEV_L_SET) = BIT(CLK_L_USBD); CLOCK(CLK_RST_CONTROLLER_RST_DEV_H_SET) = BIT(CLK_H_AHBDMA) | BIT(CLK_H_APBDMA) | BIT(CLK_H_USB2); // Reset arbiter. hw_config_arbiter(true); // Scale down RAM OC if enabled. minerva_prep_boot_hos(); // Flush cache and disable MMU. bpmp_mmu_disable(); bpmp_clk_rate_set(BPMP_CLK_NORMAL); // Launch secmon. ccplex_boot_cpu0(secmon_base, true); // Halt ourselves in wait-event state. while (true) bpmp_halt(); error: _free_launch_components(&ctxt); emmc_end(); EPRINTF("\nFailed to launch HOS!"); } ================================================ FILE: bootloader/hos/hos.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _HOS_H_ #define _HOS_H_ #include #include "pkg1.h" #include "pkg2.h" #include //!TODO: Update on mkey changes. enum { HOS_MKEY_VER_100 = 0, HOS_MKEY_VER_300 = 1, HOS_MKEY_VER_301 = 2, HOS_MKEY_VER_400 = 3, HOS_MKEY_VER_500 = 4, HOS_MKEY_VER_600 = 5, HOS_MKEY_VER_620 = 6, HOS_MKEY_VER_700 = 7, HOS_MKEY_VER_810 = 8, HOS_MKEY_VER_900 = 9, HOS_MKEY_VER_910 = 10, HOS_MKEY_VER_1210 = 11, HOS_MKEY_VER_1300 = 12, HOS_MKEY_VER_1400 = 13, HOS_MKEY_VER_1500 = 14, HOS_MKEY_VER_1600 = 15, HOS_MKEY_VER_1700 = 16, HOS_MKEY_VER_1800 = 17, HOS_MKEY_VER_1900 = 18, HOS_MKEY_VER_2000 = 19, HOS_MKEY_VER_2100 = 20, HOS_MKEY_VER_2200 = 21, HOS_MKEY_VER_MAX = HOS_MKEY_VER_2200 }; #define HOS_TSEC_VERSION 4 //! TODO: Update on TSEC Root Key changes. #define HOS_PKG11_MAGIC 0x31314B50 #define HOS_EKS_MAGIC 0x31534B45 // EKS1. #define HOS_EKS_TSEC_VER (HOS_MKEY_VER_700 + HOS_TSEC_VERSION) // Use official Mariko secmon when in stock. Needs access to TZRAM. //#define HOS_MARIKO_STOCK_SECMON typedef struct _exo_ctxt_t { u32 hos_revision; bool no_user_exceptions; bool user_pmu; bool *force_mem_mode; bool *usb3_force; bool *cal0_blank; bool *cal0_allow_writes_sys; } exo_ctxt_t; typedef struct _hos_eks_mbr_t { u32 magic; u32 enabled; u32 lot0; u32 rsvd; u8 tsec[SE_KEY_128_SIZE]; u8 troot[SE_KEY_128_SIZE]; u8 troot_dev[SE_KEY_128_SIZE]; } hos_eks_mbr_t; static_assert(sizeof(hos_eks_mbr_t) == 64, "HOS EKS size is wrong!"); typedef struct _launch_ctxt_t { pkg1_eks_t *eks; void *pkg1; const pkg1_id_t *pkg1_id; const pkg2_kernel_id_t *pkg2_kernel_id; void *warmboot; u32 warmboot_size; void *secmon; u32 secmon_size; void *exofatal; u32 exofatal_size; void *pkg2; u32 pkg2_size; bool new_pkg2; void *kernel; u32 kernel_size; link_t kip1_list; char *kip1_patches; bool svcperm; bool debugmode; bool stock; bool emummc_forced; void *pkg3; u32 pkg3_hosver; bool patch_krn_proc_id; int ucid; exo_ctxt_t exo_ctx; ini_sec_t *cfg; } launch_ctxt_t; typedef struct _merge_kip_t { void *kip1; link_t link; } merge_kip_t; void hos_launch(ini_sec_t *cfg); #endif ================================================ FILE: bootloader/hos/hos_config.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "hos.h" #include "hos_config.h" #include "pkg3.h" #include //#define DPRINTF(...) gfx_printf(__VA_ARGS__) #define DPRINTF(...) static int _config_warmboot(launch_ctxt_t *ctxt, const char *value) { ctxt->warmboot = sd_file_read(value, &ctxt->warmboot_size); if (!ctxt->warmboot) return 1; return 0; } static int _config_secmon(launch_ctxt_t *ctxt, const char *value) { ctxt->secmon = sd_file_read(value, &ctxt->secmon_size); if (!ctxt->secmon) return 1; return 0; } static int _config_kernel(launch_ctxt_t *ctxt, const char *value) { ctxt->kernel = sd_file_read(value, &ctxt->kernel_size); if (!ctxt->kernel) return 1; return 0; } static int _config_kip1(launch_ctxt_t *ctxt, const char *value) { u32 size; if (value[strlen(value) - 1] == '*') { char *dir = (char *)malloc(256); strcpy(dir, value); u32 dirlen = 0; dir[strlen(dir) - 2] = 0; dirlist_t *filelist = dirlist(dir, "*.kip*", 0); strcat(dir, "/"); dirlen = strlen(dir); u32 i = 0; if (filelist) { while (true) { if (!filelist->name[i]) break; strcpy(dir + dirlen, filelist->name[i]); merge_kip_t *mkip1 = (merge_kip_t *)malloc(sizeof(merge_kip_t)); mkip1->kip1 = sd_file_read(dir, &size); if (!mkip1->kip1) { free(mkip1); free(dir); free(filelist); return 1; } DPRINTF("Loaded kip1 from SD (size %08X)\n", size); list_append(&ctxt->kip1_list, &mkip1->link); i++; } } free(dir); free(filelist); } else { merge_kip_t *mkip1 = (merge_kip_t *)malloc(sizeof(merge_kip_t)); mkip1->kip1 = sd_file_read(value, &size); if (!mkip1->kip1) { free(mkip1); return 1; } DPRINTF("Loaded kip1 from SD (size %08X)\n", size); list_append(&ctxt->kip1_list, &mkip1->link); } return 0; } int hos_config_kip1patch(launch_ctxt_t *ctxt, const char *value) { int len = strlen(value); if (!len) return 1; if (ctxt->kip1_patches == NULL) { ctxt->kip1_patches = malloc(len + 1); memcpy(ctxt->kip1_patches, value, len); ctxt->kip1_patches[len] = 0; } else { char *old_addr = ctxt->kip1_patches; int old_len = strlen(old_addr); ctxt->kip1_patches = malloc(old_len + 1 + len + 1); memcpy(ctxt->kip1_patches, old_addr, old_len); free(old_addr); ctxt->kip1_patches[old_len++] = ','; memcpy(&ctxt->kip1_patches[old_len], value, len); ctxt->kip1_patches[old_len + len] = 0; } return 0; } static int _config_svcperm(launch_ctxt_t *ctxt, const char *value) { if (*value == '1') { DPRINTF("Disabled SVC verification\n"); ctxt->svcperm = true; } return 0; } static int _config_debugmode(launch_ctxt_t *ctxt, const char *value) { if (*value == '1') { DPRINTF("Enabled Debug mode\n"); ctxt->debugmode = true; } return 0; } static int _config_stock(launch_ctxt_t *ctxt, const char *value) { if (*value == '1') { DPRINTF("Enabled stock mode\n"); ctxt->stock = true; } return 0; } static int _config_emummc_forced(launch_ctxt_t *ctxt, const char *value) { if (*value == '1') { DPRINTF("Forced emuMMC\n"); ctxt->emummc_forced = true; } return 0; } static int _config_kernel_proc_id(launch_ctxt_t *ctxt, const char *value) { if (*value == '1') { DPRINTF("Enabled kernel process id send/recv patching\n"); ctxt->patch_krn_proc_id = true; } return 0; } static int _config_dis_exo_user_exceptions(launch_ctxt_t *ctxt, const char *value) { if (*value == '1') { DPRINTF("Disabled exosphere user exception handlers\n"); ctxt->exo_ctx.no_user_exceptions = true; } return 0; } static int _config_exo_user_pmu_access(launch_ctxt_t *ctxt, const char *value) { if (*value == '1') { DPRINTF("Enabled user access to PMU\n"); ctxt->exo_ctx.user_pmu = true; } return 0; } static int _config_exo_force_mem_mode(launch_ctxt_t *ctxt, const char *value) { // Override key found. ctxt->exo_ctx.force_mem_mode = zalloc(sizeof(bool)); if (*value == '1') { DPRINTF("Enabled Auto Memory Mode\n"); *ctxt->exo_ctx.force_mem_mode = true; } return 0; } static int _config_exo_usb3_force(launch_ctxt_t *ctxt, const char *value) { // Override key found. ctxt->exo_ctx.usb3_force = zalloc(sizeof(bool)); if (*value == '1') { DPRINTF("Enabled USB 3.0\n"); *ctxt->exo_ctx.usb3_force = true; } return 0; } static int _config_exo_cal0_blanking(launch_ctxt_t *ctxt, const char *value) { // Override key found. ctxt->exo_ctx.cal0_blank = zalloc(sizeof(bool)); if (*value == '1') { DPRINTF("Enabled prodinfo blanking\n"); *ctxt->exo_ctx.cal0_blank = true; } return 0; } static int _config_exo_cal0_writes_enable(launch_ctxt_t *ctxt, const char *value) { // Override key found. ctxt->exo_ctx.cal0_allow_writes_sys = zalloc(sizeof(bool)); if (*value == '1') { DPRINTF("Enabled prodinfo writes\n"); *ctxt->exo_ctx.cal0_allow_writes_sys = true; } return 0; } static int _config_pkg3(launch_ctxt_t *ctxt, const char *value) { return parse_pkg3(ctxt, value); } static int _config_exo_fatal_payload(launch_ctxt_t *ctxt, const char *value) { ctxt->exofatal = sd_file_read(value, &ctxt->exofatal_size); if (!ctxt->exofatal) return 1; return 0; } static int _config_ucid(launch_ctxt_t *ctxt, const char *value) { // Override uCID if set. ctxt->ucid = atoi(value); return 0; } typedef struct _cfg_handler_t { const char *key; int (*handler)(launch_ctxt_t *ctxt, const char *value); } cfg_handler_t; static const cfg_handler_t _config_handlers[] = { { "stock", _config_stock }, { "warmboot", _config_warmboot }, { "secmon", _config_secmon }, { "kernel", _config_kernel }, { "kip1", _config_kip1 }, { "kip1patch", hos_config_kip1patch }, { "fullsvcperm", _config_svcperm }, { "debugmode", _config_debugmode }, { "kernelprocid", _config_kernel_proc_id }, // To override elements from PKG3, it should be set before others. { "pkg3", _config_pkg3 }, { "fss0", _config_pkg3 }, { "exofatal", _config_exo_fatal_payload}, { "emummcforce", _config_emummc_forced }, { "nouserexceptions", _config_dis_exo_user_exceptions }, { "userpmu", _config_exo_user_pmu_access }, { "memmode", _config_exo_force_mem_mode }, { "usb3force", _config_exo_usb3_force }, { "cal0blank", _config_exo_cal0_blanking }, { "cal0writesys", _config_exo_cal0_writes_enable }, { "ucid", _config_ucid }, { NULL, NULL }, }; int hos_parse_boot_config(launch_ctxt_t *ctxt) { if (!ctxt->cfg) return 0; // Check each config key. LIST_FOREACH_ENTRY(ini_kv_t, kv, &ctxt->cfg->kvs, link) { for (u32 i = 0; _config_handlers[i].key; i++) { // If key matches, call its handler. if (!strcmp(_config_handlers[i].key, kv->key)) { if (_config_handlers[i].handler(ctxt, kv->val)) { gfx_con.mute = false; EPRINTFARGS("Error while loading %s:\n%s", kv->key, kv->val); return 1; } break; } } } return 0; } ================================================ FILE: bootloader/hos/hos_config.h ================================================ /* * Copyright (c) 2018 naehrwert * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _HOS_CONFIG_H_ #define _HOS_CONFIG_H_ #include "hos.h" int hos_parse_boot_config(launch_ctxt_t *ctxt); int hos_config_kip1patch(launch_ctxt_t *ctxt, const char *value); #endif ================================================ FILE: bootloader/hos/pkg1.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 st4rk * Copyright (c) 2018-2026 CTCaer * Copyright (c) 2018 balika011 * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include "hos.h" #include "pkg1.h" #include "../config.h" #include // Secmon package2 signature/hash checks patches for Erista. #define SM_100_ADR 0x4002B020 // Original: 0x40014020. PATCHSET_DEF(_secmon_1_patchset, // Patch the relocator to be able to run from SM_100_ADR. { 0x1E0, _ADRP(0, TZRAM_BASE + 0x3000 - _PAGEOFF(SM_100_ADR)) }, // Patch package2 signature/hash checks. { 0x9F0 + 0xADC, _NOP() } ); PATCHSET_DEF(_secmon_2_patchset, // Patch package2 signature/hash checks. { 0xAC8 + 0xAAC, _NOP() } ); PATCHSET_DEF(_secmon_3_patchset, // Patch package2 signature/hash checks. { 0xAC8 + 0xA30, _NOP() } ); PATCHSET_DEF(_secmon_4_patchset, // Patch package2 signature/hash checks. { 0x2300 + 0x5EFC, _NOP() } ); PATCHSET_DEF(_secmon_5_patchset, // Patch package2 signature/hash checks. { 0xDA8 + 0xC9C, _NOP() } ); PATCHSET_DEF(_secmon_6_patchset, // Patch package2 signature/hash checks. { 0xDC8 + 0xE90, _NOP() } // Fix sleep mode for debug. // { 0x1A68 + 0x3854, 0x94000E45 }, //gpio_config_for_uart. // { 0x1A68 + 0x3858, 0x97FFFC0F }, //clkrst_reboot_uarta. // { 0x1A68 + 0x385C, 0x52A00021 }, //MOV W1, #0x10000 ; baudrate. // { 0x1A68 + 0x3860, 0x2A1F03E0 }, //MOV W0, WZR ; uart_port -> A. // { 0x1A68 + 0x3864, 0x72984001 }, //MOVK W1, #0xC200 ; baudrate. // { 0x1A68 + 0x3868, 0x94000C8C }, //uart_configure. // { 0x1A68 + 0x3A6C, _NOP() } // warmboot UARTA cfg. ); PATCHSET_DEF(_secmon_62_patchset, // Patch package2 signature/hash checks. { 0xDC8 + 0xC74, _NOP() } // Fix sleep mode for debug. // { 0x2AC8 + 0x3854, 0x94000F42 }, //gpio_config_for_uart. // { 0x2AC8 + 0x3858, 0x97FFFC0F }, //clkrst_reboot_uarta. // { 0x2AC8 + 0x385C, 0x52A00021 }, //MOV W1, #0x10000 ; baudrate. // { 0x2AC8 + 0x3860, 0x2A1F03E0 }, //MOV W0, WZR ; uart_port -> A. // { 0x2AC8 + 0x3864, 0x72984001 }, //MOVK W1, #0xC200 ; baudrate. // { 0x2AC8 + 0x3868, 0x94000D89 }, //uart_configure. // { 0x2AC8 + 0x3A6C, _NOP() } // warmboot UARTA cfg. ); // Secmon patches for Mariko. #define TZRAM_PROG_ADDR (TZRAM_BASE + 0x800) #define TZRAM_COMPR_PROG_OFF 0xE04 #define TZRAM_PROG_PK2_SIG_PATCH (TZRAM_PROG_ADDR + 0xC10) #define TZRAM_PROG_PK2_SIG_PATCH_1000 (TZRAM_PROG_ADDR + 0xD70) PATCHSET_DEF(_secmon_6_mariko_patchset, // Patch package2 decryption and signature/hash checks. { 0xDC8 + 0xE94, _NOP() } ); PATCHSET_DEF(_secmon_620_mariko_patchset, // Patch package2 decryption and signature/hash checks. { 0xDC8 + 0xC78, _NOP() } ); // From 7.0.0 and above secmon is compressed. PATCHSET_DEF(_secmon_7_mariko_patchset, // Patch out decompression of program payload. { 0x82C, _NOP() } ); const u16 _secmon_mariko_prog_comp_size[] = { 0x6B03, // 7.0.0. Patch offset: 0xC10. 0x6B16, // 7.0.1. Patch offset: 0xC10. 0x6B23, // 8.0.0. Patch offset: 0xC10. 0x6B84, // 8.1.0. Patch offset: 0xC10. 0x6C90, // 9.0.0. Patch offset: 0xC10. 0x6CE5, // 9.1.0. Patch offset: 0xC10. 0x6EE9, // 10.0.0. Patch offset: 0xD70. }; // Erista fuse check warmboot patches. #define _NOPv7() 0xE320F000 PATCHSET_DEF(_warmboot_1_patchset, { 0x4DC, _NOPv7() } // Fuse check. ); PATCHSET_DEF(_warmboot_3_patchset, { 0x4DC, _NOPv7() }, // Fuse check. { 0x4F0, _NOPv7() } // Segment id check. ); PATCHSET_DEF(_warmboot_4_patchset, { 0x544, _NOPv7() }, // Fuse check. { 0x558, _NOPv7() } // Segment id check. ); /* * package1.1 header: * package1.1 layout: * 1.0: {sm, ldr, wb} { 2, 1, 0 } * 2.0+: {wb, ldr, sm} { 0, 1, 2 } * 4.0+: {ldr, sm, wb} { 1, 2, 0 } */ static const u8 sec_map_100[3] = { PK11_SECTION_SM, PK11_SECTION_LD, PK11_SECTION_WB }; static const u8 sec_map_2xx[3] = { PK11_SECTION_WB, PK11_SECTION_LD, PK11_SECTION_SM }; static const u8 sec_map_4xx[3] = { PK11_SECTION_LD, PK11_SECTION_SM, PK11_SECTION_WB }; // Timestamp MK FU TSEC PK11 SECMON Warmboot static const pkg1_id_t _pkg1_ids[] = { { "20161121", 0, 1, 0x1900, 0x3FE0, SM_100_ADR, 0x8000D000, _secmon_1_patchset }, // 1.0.0 (Patched relocator). { "20170210", 0, 2, 0x1900, 0x3FE0, 0x4002D000, 0x8000D000, _secmon_2_patchset }, // 2.0.0 - 2.3.0. { "20170519", 1, 3, 0x1A00, 0x3FE0, 0x4002D000, 0x8000D000, _secmon_3_patchset }, // 3.0.0. { "20170710", 2, 4, 0x1A00, 0x3FE0, 0x4002D000, 0x8000D000, _secmon_3_patchset }, // 3.0.1 - 3.0.2. { "20170921", 3, 5, 0x1800, 0x3FE0, 0x4002B000, 0x4003B000, _secmon_4_patchset }, // 4.0.0 - 4.1.0. { "20180220", 4, 6, 0x1900, 0x3FE0, 0x4002B000, 0x4003B000, _secmon_5_patchset }, // 5.0.0 - 5.1.0. { "20180802", 5, 7, 0x1900, 0x3FE0, 0x4002B000, 0x4003D800, _secmon_6_patchset }, // 6.0.0 - 6.1.0. { "20181107", 6, 8, 0x0E00, 0x6FE0, 0x4002B000, 0x4003D800, _secmon_62_patchset}, // 6.2.0. { "20181218", 7, 9, 0x0F00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 7.0.0. { "20190208", 7, 9, 0x0F00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 7.0.1. { "20190314", 7, 9, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 8.0.0 - 8.0.1. { "20190531", 8, 10, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 8.1.0 - 8.1.1. { "20190809", 9, 11, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 9.0.0 - 9.0.1. { "20191021", 10, 12, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 9.1.0 - 9.2.0. { "20200303", 10, 13, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 10.0.0 - 10.2.0. { "20201030", 10, 14, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 11.0.0 - 11.0.1. { "20210129", 10, 14, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 12.0.0 - 12.0.1. { "20210422", 10, 15, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 12.0.2 - 12.0.3. { "20210607", 11, 15, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 12.1.0. { "20210805", 12, 15, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 13.0.0 - 13.2.0. { "20220105", 12, 16, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 13.2.1. { "20220209", 13, 16, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 14.0.0 - 14.1.2. { "20220801", 14, 17, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 15.0.0 - 15.0.1. { "20230111", 15, 18, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 16.0.0 - 16.1.0. { "20230906", 16, 19, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 17.0.0 - 17.0.1. { "20240207", 17, 19, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 18.0.0 - 18.1.0. { "20240808", 18, 20, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 19.0.0 - 19.0.1. { "20250206", 19, 21, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 20.0.0 - 20.5.0. { "20251009", 20, 22, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 21.0.0 - 21.2.0. { "20260123", 21, 23, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000, NULL }, // 22.0.0+ }; const pkg1_id_t *pkg1_get_latest() { return &_pkg1_ids[ARRAY_SIZE(_pkg1_ids) - 1]; } const pkg1_id_t *pkg1_identify(u8 *pkg1) { char build_date[15]; pk1_hdr_t *hdr = (pk1_hdr_t *)pkg1; memcpy(build_date, hdr->timestamp, 14); build_date[14] = 0; gfx_printf("Found pkg1 ('%s').\n\n", build_date); for (int i = ARRAY_SIZE(_pkg1_ids) - 1; i >= 0; i--) if (!memcmp(hdr->timestamp, _pkg1_ids[i].id, 8)) return &_pkg1_ids[i]; return NULL; } bool pkg1_decrypt(const pkg1_id_t *id, u8 *pkg1) { pk11_hdr_t *hdr; // Decrypt package1. if (!h_cfg.t210b01) { u8 *pkg11 = pkg1 + id->pkg11_off; u32 pkg11_size = *(u32 *)pkg11; hdr = (pk11_hdr_t *)(pkg11 + 0x20); se_aes_crypt_ctr(11, hdr, hdr, pkg11_size, pkg11 + 0x10); } else { bl_hdr_t210b01_t *oem_hdr = (bl_hdr_t210b01_t *)pkg1; pkg1 += sizeof(bl_hdr_t210b01_t); hdr = (pk11_hdr_t *)(pkg1 + id->pkg11_off + 0x20); // Use BEK for T210B01. // Additionally, skip 0x20 bytes from decryption to maintain the header. se_aes_iv_clear(13); se_aes_crypt_cbc(13, DECRYPT, pkg1 + 0x20, pkg1 + 0x20, oem_hdr->size - 0x20); } // Return if header is valid. return (hdr->magic == PKG1_MAGIC); } const u8 *pkg1_unpack(void *wm_dst, u32 *wb_sz, void *sm_dst, void *ldr_dst, const pkg1_id_t *id, u8 *pkg1) { const u8 *sec_map; const pk11_hdr_t *hdr = (pk11_hdr_t *)(pkg1 + id->pkg11_off + 0x20); u32 sec_size[3] = { hdr->wb_size, hdr->ldr_size, hdr->sm_size }; // Get correct header mapping. if (id->fuses == 1) // 1.0.0. sec_map = sec_map_100; else if (id->fuses >= 2 && id->fuses <= 4) // 2.0.0 - 3.0.2. sec_map = sec_map_2xx; else // 4.0.0+ sec_map = sec_map_4xx; // Copy secmon, warmboot and nx bootloader payloads. u8 *pdata = (u8 *)hdr + sizeof(pk11_hdr_t); for (u32 i = 0; i < 3; i++) { u32 ssize = sec_size[sec_map[i]]; switch (sec_map[i]) { case PK11_SECTION_WB: if (wm_dst) memcpy(wm_dst, pdata, ssize); if (wb_sz) *wb_sz = ssize; break; case PK11_SECTION_LD: if (ldr_dst) memcpy(ldr_dst, pdata, ssize); break; case PK11_SECTION_SM: if (sm_dst) memcpy(sm_dst, pdata, ssize); break; } pdata += ssize; } return sec_map; } void pkg1_secmon_patch(void *hos_ctxt, u32 secmon_base, bool t210b01) { const patch_t *secmon_patchset; launch_ctxt_t *ctxt = (launch_ctxt_t *)hos_ctxt; // Patch Secmon to allow for an unsigned package2 and patched kernel. if (!t210b01 && ctxt->pkg1_id->secmon_patchset) { // For T210 till 6.2.0 the patching is used as is, because of no compression. secmon_patchset = ctxt->pkg1_id->secmon_patchset; } #ifdef HOS_MARIKO_STOCK_SECMON else if (t210b01) { // For T210B01 we patch 6.X.X as is. Otherwise we decompress the program payload. if (ctxt->pkg1_id->mkey == HOS_MKEY_VER_600) secmon_patchset = _secmon_6_mariko_patchset; else if (ctxt->pkg1_id->mkey == HOS_MKEY_VER_620) secmon_patchset = _secmon_620_mariko_patchset; else { // Patch uncompress of program payload clear TZRAM. secmon_patchset = _secmon_7_mariko_patchset; memset((void *)TZRAM_PROG_ADDR, 0, 0x38800); // Get size of compressed program payload and set patch offset. u32 idx = ctxt->pkg1_id->mkey - HOS_MKEY_VER_700; u32 patch_offset = TZRAM_PROG_PK2_SIG_PATCH; if (ctxt->pkg1_id->mkey >= HOS_MKEY_VER_1210 || !memcmp(ctxt->pkg1_id->id, "20200303", 8)) //TODO: Add 11.0.0 support. { idx++; patch_offset = TZRAM_PROG_PK2_SIG_PATCH_1000; } // Uncompress directly to TZRAM. LZ4_decompress_fast((const char*)(secmon_base + TZRAM_COMPR_PROG_OFF), (char *)TZRAM_PROG_ADDR, _secmon_mariko_prog_comp_size[idx]); // Patch package2 signature/hash checks. *(vu32 *)patch_offset = _NOP(); } } #endif else return; // Patch Secmon. gfx_printf("%kPatching Secure Monitor%k\n", TXT_CLR_ORANGE, TXT_CLR_DEFAULT); for (u32 i = 0; secmon_patchset[i].off != 0xFFFFFFFF; i++) *(vu32 *)(secmon_base + secmon_patchset[i].off) = secmon_patchset[i].val; } void pkg1_warmboot_patch(void *hos_ctxt) { launch_ctxt_t *ctxt = (launch_ctxt_t *)hos_ctxt; const patch_t *warmboot_patchset; // Patch warmboot on T210 to allow downgrading. switch (ctxt->pkg1_id->mkey) { case 0: warmboot_patchset = _warmboot_1_patchset; break; case 1 ... 2: warmboot_patchset = _warmboot_3_patchset; break; default: // 4.0.0 - 6.2.0. warmboot_patchset = _warmboot_4_patchset; break; } gfx_printf("%kPatching Warmboot%k\n", TXT_CLR_ORANGE, TXT_CLR_DEFAULT); for (u32 i = 0; warmboot_patchset[i].off != 0xFFFFFFFF; i++) *(vu32 *)(ctxt->pkg1_id->warmboot_base + warmboot_patchset[i].off) = warmboot_patchset[i].val; } int pkg1_warmboot_config(void *hos_ctxt, u32 warmboot_base, u32 fuses_fw, u8 mkey) { launch_ctxt_t *ctxt = (launch_ctxt_t *)hos_ctxt; int res = 0; if (h_cfg.t210b01) { u8 burnt_fuses = bit_count(fuse_read_odm(7)); // Check if not overridden. if (!ctxt->warmboot) { char path[32]; strcpy(path, "warmboot_mariko/wb_00.bin"); itoa(fuses_fw, &path[19 + (fuses_fw < 0x10 ? 1 : 0)], 16); path[21] = '.'; //!OBSOLETE: Check if warmboot fw does not exist and save it. if (ctxt->warmboot_size && warmboot_base && f_stat(path, NULL)) { f_mkdir("warmboot_mariko"); sd_save_to_file((void *)warmboot_base, ctxt->warmboot_size, path); } // Load sc7exit-fw from storage if low. if (burnt_fuses > fuses_fw) { //!TODO: Update on fuse burns. void *warmboot_fw = sd_file_read("bootloader/sys/l4t/sc7exit_b01.bin", &ctxt->warmboot_size); fuses_fw = *(u32 *)warmboot_fw; // Check if high enough. if (!warmboot_fw || burnt_fuses > fuses_fw) res = 1; else { ctxt->warmboot = warmboot_fw + sizeof(u32); ctxt->warmboot_size -= sizeof(u32) * 2; burnt_fuses = fuses_fw; } } else // Replace burnt fuses with higher count. burnt_fuses = fuses_fw; } // Configure warmboot parameters. Anything lower than 6.0.0 is not supported. // From 7.0.0 and up, it's not derived from PA segment but it's 0x21 * fuses. u32 pa_id = 0x21 * burnt_fuses; if (burnt_fuses <= 8) // Old method. pa_id -= 0x60; // Set Warmboot Physical Address ID and lock SECURE_SCRATCH32 register. PMC(APBDEV_PMC_SECURE_SCRATCH32) = pa_id; PMC(APBDEV_PMC_SEC_DISABLE3) |= BIT(16); } else { // Set Warmboot address in PMC if required. if (mkey <= HOS_MKEY_VER_301) PMC(APBDEV_PMC_SCRATCH1) = warmboot_base; // Set Warmboot Physical Address ID for 3.0.0 - 3.0.2. For 4.0.0 and up, secmon does it. // The check is already patched so it's actually irrelevant. if (mkey == HOS_MKEY_VER_300) PMC(APBDEV_PMC_SECURE_SCRATCH32) = 0xE3; // Warmboot 3.0.0 PA ID. else if (mkey == HOS_MKEY_VER_301) PMC(APBDEV_PMC_SECURE_SCRATCH32) = 0x104; // Warmboot 3.0.1/.2 PA ID. } return res; } void pkg1_warmboot_rsa_mod(u32 warmboot_base) { // Set warmboot binary rsa modulus. u8 *rsa_mod = (u8 *)malloc(EMMC_BLOCKSIZE); emmc_set_partition(EMMC_BOOT0); u32 sector; u8 mod0, mod1; // Get the correct RSA modulus byte masks. nx_emmc_get_autorcm_masks(&mod0, &mod1); // Iterate BCTs. for (u32 i = 0; i < 4; i++) { sector = 1 + (32 * i); // 0x4000 bct + 0x200 offset. sdmmc_storage_read(&emmc_storage, sector, 1, rsa_mod); // Check if 2nd byte of modulus is correct. if (rsa_mod[0x11] != mod1) continue; // Patch AutoRCM out. rsa_mod[0x10] = mod0; break; } memcpy((void *)(warmboot_base + 0x10), rsa_mod + 0x10, 0x100); } ================================================ FILE: bootloader/hos/pkg1.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2022-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _PKG1_H_ #define _PKG1_H_ #include #define PKG1_MAGIC 0x31314B50 #define PK11_SECTION_WB 0 #define PK11_SECTION_LD 1 #define PK11_SECTION_SM 2 #define PKG1_BOOTLOADER_SIZE SZ_256K #define PKG1_BOOTLOADER_MAIN_OFFSET (0x100000 / EMMC_BLOCKSIZE) #define PKG1_BOOTLOADER_BACKUP_OFFSET (0x140000 / EMMC_BLOCKSIZE) #define PKG1_BOOTLOADER_SAFE_OFFSET (0x000000 / EMMC_BLOCKSIZE) #define PKG1_HOS_EKS_OFFSET (0x180000 / EMMC_BLOCKSIZE) #define PKG1_ERISTA_ON_MARIKO_MAGIC 0xE59FD00C // For 4.0.0 Erista and up. #define PKG1_MARIKO_ON_ERISTA_MAGIC 0x40010040 // Mariko pkg1 entrypoint. typedef struct _patch_t { u32 off; u32 val; } patch_t; #define PATCHSET_DEF(name, ...) \ const patch_t name[] = { \ __VA_ARGS__, \ { 0xFFFFFFFF, 0xFFFFFFFF } \ } typedef struct _bl_hdr_t210b01_t { /* 0x000 */ u8 aes_mac[0x10]; /* 0x010 */ u8 rsa_sig[0x100]; /* 0x110 */ u8 salt[0x20]; /* 0x130 */ u8 sha256[0x20]; /* 0x150 */ u32 version; /* 0x154 */ u32 size; /* 0x158 */ u32 load_addr; /* 0x15C */ u32 entrypoint; /* 0x160 */ u8 rsvd[0x10]; } bl_hdr_t210b01_t; typedef struct _eks_keys_t { u8 master_kekseed[SE_KEY_128_SIZE]; u8 random_data[0x70]; u8 package1_key[SE_KEY_128_SIZE]; } eks_keys_t; typedef struct _pkg1_eks_t { u8 cmac[SE_KEY_128_SIZE]; u8 ctr[SE_AES_IV_SIZE]; eks_keys_t keys; u8 padding[0x150]; } pkg1_eks_t; typedef struct _pk1_hdr_t { /* 0x00 */ u32 si_sha256; // Secure Init. /* 0x04 */ u32 sm_sha256; // Secure Monitor. /* 0x08 */ u32 sl_sha256; // Secure Loader. /* 0x0C */ u32 unk; // what's this? It's not warmboot. /* 0x10 */ char timestamp[14]; /* 0x1E */ u8 keygen; /* 0x1F */ u8 version; } pk1_hdr_t; typedef struct _pkg1_id_t { const char *id; u16 mkey; u16 fuses; u16 tsec_off; u16 pkg11_off; u32 secmon_base; u32 warmboot_base; const patch_t *secmon_patchset; } pkg1_id_t; typedef struct _pk11_hdr_t { /* 0x00 */ u32 magic; /* 0x04 */ u32 wb_size; /* 0x08 */ u32 wb_off; /* 0x0C */ u32 pad; /* 0x10 */ u32 ldr_size; /* 0x14 */ u32 ldr_off; /* 0x18 */ u32 sm_size; /* 0x1C */ u32 sm_off; } pk11_hdr_t; /* * NX BIT - Secure monitor mailbox * * On older versions the Tegra BIT was remaining intact. * The bootloader info from BCT was copied in the mailbox at 0x40002E10. * On >= 4.0.0 the boot reason was replaced by BCT boot type. * On newer versions (>= 7.0.0) the Tegra BIT is replaced with NX BIT. * That also includes secmon state mailbox and pkg1 and pkg11 headers. */ #define NX_BIT1_MAILBOX_ADDR 0x40002E00 #define NX_BIT7_MAILBOX_ADDR 0x40000000 enum { SECMON_STATE_NOT_READY = 0, PKG1_STATE_NOT_READY = 0, PKG1_STATE_NXBC_COPIED = 1, PKG1_STATE_DRAM_READY = 2, PKG1_STATE_PKG2_READY_OLD = 3, PKG1_STATE_PKG2_READY = 4 }; #define NX_BIT_BL_ATTR_SAFE_MODE BIT(0) #define NX_BIT_BL_ATTR_SMC_BLACKLIST_STANDARD BIT(1) // Accounted only on >= 8.0.0. #define NX_BIT_BL_ATTR_SMC_BLACKLIST_DEVICEUD BIT(2) // Accounted only on >= 8.0.0. #define NX_BIT_BL_ATTR_SMC_BLACKLIST_SAFEMODE BIT(3) // Accounted only on >= 8.0.0. typedef struct _nx_bit_t { /* 0x00 */ u32 secldr_tmr_start; /* 0x04 */ u32 secldr_tmr_end; /* 0x08 */ u32 secmon_tmr_start; /* 0x0C */ u32 secmon_tmr_end; /* 0x10 */ u32 bl_version; /* 0x14 */ u32 bl_start_block; /* 0x18 */ u32 bl_start_page; /* 0x1C */ u32 bl_attribute; // bit0: Safe, bit1-4: SMC blacklist mask. /* 0x20 */ u32 boot_type; // 0: None, 1: Coldboot, 2: RMC, 3: UART, 4: Exit RCM. /* 0x24 */ u8 padding_nxbit[12]; /* 0x30 */ pk1_hdr_t pk1_hdr; // (>= 7.0.0). /* 0x50 */ pk11_hdr_t pk11_hdr; // (>= 7.0.0). /* 0x70 */ u8 padding_pkg1[0x88]; /* 0xF8 */ vu32 secldr_state; /* 0xFC */ vu32 secmon_state; u8 padding_mail[0x100]; } nx_bit_t; const pkg1_id_t *pkg1_get_latest(); const pkg1_id_t *pkg1_identify(u8 *pkg1); bool pkg1_decrypt(const pkg1_id_t *id, u8 *pkg1); const u8 *pkg1_unpack(void *wm_dst, u32 *wb_sz, void *sm_dst, void *ldr_dst, const pkg1_id_t *id, u8 *pkg1); void pkg1_secmon_patch(void *hos_ctxt, u32 secmon_base, bool t210b01); void pkg1_warmboot_patch(void *hos_ctxt); int pkg1_warmboot_config(void *hos_ctxt, u32 warmboot_base, u32 fuses_fw, u8 mkey); void pkg1_warmboot_rsa_mod(u32 warmboot_base); #endif ================================================ FILE: bootloader/hos/pkg2.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "hos.h" #include "pkg2.h" #include "pkg2_ini_kippatch.h" #include "../config.h" #include #include #include "../storage/emummc.h" //#define DPRINTF(...) gfx_printf(__VA_ARGS__) #define DPRINTF(...) extern const u8 package2_keyseed[]; u32 pkg2_newkern_ini1_info; u32 pkg2_newkern_ini1_start; u32 pkg2_newkern_ini1_end; u32 pkg2_newkern_ini1_rela; #define KIP_PATCH_SECTION_SHIFT (29) #define KIP_PATCH_SECTION_MASK (7 << KIP_PATCH_SECTION_SHIFT) #define KIP_PATCH_OFFSET_MASK (~KIP_PATCH_SECTION_MASK) #define GET_KIP_PATCH_SECTION(x) (((x) >> KIP_PATCH_SECTION_SHIFT) & 7) #define GET_KIP_PATCH_OFFSET(x) ((x) & KIP_PATCH_OFFSET_MASK) #define KPS(x) ((u32)(x) << KIP_PATCH_SECTION_SHIFT) #include "pkg2_patches.inl" static kip1_id_t *_kip_id_sets = (kip1_id_t *)_kip_ids; static u32 _kip_id_sets_cnt = ARRAY_SIZE(_kip_ids); void pkg2_get_ids(kip1_id_t **ids, u32 *entries) { *ids = _kip_id_sets; *entries = _kip_id_sets_cnt; } static void parse_external_kip_patches() { static bool ext_patches_parsed = false; if (ext_patches_parsed) return; ext_patches_parsed = true; LIST_INIT(ini_kip_sections); if (ini_patch_parse(&ini_kip_sections, "bootloader/patches.ini")) return; // Copy ids into a new patchset. _kip_id_sets = zalloc(sizeof(kip1_id_t) * 256); // Max 256 kip ids. memcpy(_kip_id_sets, _kip_ids, sizeof(_kip_ids)); // Parse patchsets and glue them together. LIST_FOREACH_ENTRY(ini_kip_sec_t, ini_psec, &ini_kip_sections, link) { kip1_id_t *kip = NULL; bool found = false; for (u32 kip_idx = 0; kip_idx < _kip_id_sets_cnt + 1; kip_idx++) { kip = &_kip_id_sets[kip_idx]; // Check if reached the end of predefined list. if (!kip->name) break; // Check if name and hash match. if (!strcmp(kip->name, ini_psec->name) && !memcmp(kip->hash, ini_psec->hash, 8)) { found = true; break; } } if (!kip) continue; // If not found, create a new empty entry. if (!found) { kip->name = ini_psec->name; memcpy(kip->hash, ini_psec->hash, 8); kip->patchset = zalloc(sizeof(kip1_patchset_t)); _kip_id_sets_cnt++; } kip1_patchset_t *patchsets = (kip1_patchset_t *)zalloc(sizeof(kip1_patchset_t) * 16); // Max 16 patchsets per kip. u32 patchset_idx; for (patchset_idx = 0; kip->patchset[patchset_idx].name != NULL; patchset_idx++) { patchsets[patchset_idx].name = kip->patchset[patchset_idx].name; patchsets[patchset_idx].patches = kip->patchset[patchset_idx].patches; } kip->patchset = patchsets; bool first_ext_patch = true; u32 patch_idx = 0; // Parse patches and glue them together to a patchset. kip1_patch_t *patches = zalloc(sizeof(kip1_patch_t) * 32); // Max 32 patches per set. LIST_FOREACH_ENTRY(ini_patchset_t, pt, &ini_psec->pts, link) { if (first_ext_patch) { first_ext_patch = false; patchsets[patchset_idx].name = pt->name; patchsets[patchset_idx].patches = patches; } else if (strcmp(pt->name, patchsets[patchset_idx].name)) { // New patchset name found, create a new set. patchset_idx++; patch_idx = 0; patches = zalloc(sizeof(kip1_patch_t) * 32); // Max 32 patches per set. patchsets[patchset_idx].name = pt->name; patchsets[patchset_idx].patches = patches; } if (pt->length) { patches[patch_idx].offset = pt->offset; patches[patch_idx].length = pt->length; patches[patch_idx].src_data = (char *)pt->src_data; patches[patch_idx].dst_data = (char *)pt->dst_data; } else patches[patch_idx].src_data = malloc(1); // Empty patches check. Keep everything else as 0. patch_idx++; } patchset_idx++; patchsets[patchset_idx].name = NULL; patchsets[patchset_idx].patches = NULL; } } const pkg2_kernel_id_t *pkg2_identify(const u8 *hash) { for (u32 i = 0; i < ARRAY_SIZE(_pkg2_kernel_ids); i++) { if (!memcmp(hash, _pkg2_kernel_ids[i].hash, sizeof(_pkg2_kernel_ids[0].hash))) return &_pkg2_kernel_ids[i]; } return NULL; } static u32 _pkg2_calc_kip1_size(pkg2_kip1_t *kip1) { u32 size = sizeof(pkg2_kip1_t); for (u32 j = 0; j < KIP1_NUM_SECTIONS; j++) size += kip1->sections[j].size_comp; return size; } static void _pkg2_get_newkern_info(u8 *kern_data) { u32 crt_start = 0; pkg2_newkern_ini1_info = 0; pkg2_newkern_ini1_start = 0; pkg2_newkern_ini1_rela = 0; u32 first_op = *(u32 *)kern_data; if ((first_op & 0xFE000000) == 0x14000000) crt_start = (first_op & 0x1FFFFFF) << 2; // Find static OP offset that is close to INI1 offset. u32 counter_ops = 0x100; while (counter_ops) { if (*(u32 *)(kern_data + crt_start + 0x100 - counter_ops) == PKG2_NEWKERN_GET_INI1_HEURISTIC) { // OP found. Add 12 for the INI1 info offset. pkg2_newkern_ini1_info = crt_start + 0x100 - counter_ops + 12; // On v2 kernel with dynamic crt there's a NOP after heuristic. Offset one op. if (crt_start) pkg2_newkern_ini1_info += 4; break; } counter_ops -= 4; } // Offset not found? if (!counter_ops) return; u32 info_op = *(u32 *)(kern_data + pkg2_newkern_ini1_info); pkg2_newkern_ini1_info += ((info_op & 0xFFFF) >> 3); // Parse ADR and PC. pkg2_newkern_ini1_start = *(u32 *)(kern_data + pkg2_newkern_ini1_info); pkg2_newkern_ini1_end = *(u32 *)(kern_data + pkg2_newkern_ini1_info + 0x8); // On v2 kernel with dynamic crt, values are relative to value address. if (crt_start) { pkg2_newkern_ini1_rela = pkg2_newkern_ini1_info; pkg2_newkern_ini1_start += pkg2_newkern_ini1_info; pkg2_newkern_ini1_end += pkg2_newkern_ini1_info + 0x8; } } int pkg2_parse_kips(link_t *info, pkg2_hdr_t *pkg2, bool *new_pkg2) { u8 *ptr; // Check for new pkg2 type. if (!pkg2->sec_size[PKG2_SEC_INI1]) { _pkg2_get_newkern_info(pkg2->data); if (!pkg2_newkern_ini1_start) return 1; ptr = pkg2->data + pkg2_newkern_ini1_start; *new_pkg2 = true; } else ptr = pkg2->data + pkg2->sec_size[PKG2_SEC_KERNEL]; pkg2_ini1_t *ini1 = (pkg2_ini1_t *)ptr; ptr += sizeof(pkg2_ini1_t); for (u32 i = 0; i < ini1->num_procs; i++) { pkg2_kip1_t *kip1 = (pkg2_kip1_t *)ptr; pkg2_kip1_info_t *ki = (pkg2_kip1_info_t *)malloc(sizeof(pkg2_kip1_info_t)); ki->kip1 = kip1; ki->size = _pkg2_calc_kip1_size(kip1); list_append(info, &ki->link); ptr += ki->size; DPRINTF(" kip1 %d:%s @ %08X (%08X)\n", i, kip1->name, (u32)kip1, ki->size); } return 0; } bool pkg2_has_kip(link_t *info, u64 tid) { LIST_FOREACH_ENTRY(pkg2_kip1_info_t, ki, info, link) if (ki->kip1->tid == tid) return true; return false; } void pkg2_replace_kip(link_t *info, u64 tid, pkg2_kip1_t *kip1) { LIST_FOREACH_ENTRY(pkg2_kip1_info_t, ki, info, link) { if (ki->kip1->tid == tid) { ki->kip1 = kip1; ki->size = _pkg2_calc_kip1_size(kip1); DPRINTF("replaced kip %s (new size %08X)\n", kip1->name, ki->size); return; } } } void pkg2_add_kip(link_t *info, pkg2_kip1_t *kip1) { pkg2_kip1_info_t *ki = (pkg2_kip1_info_t *)malloc(sizeof(pkg2_kip1_info_t)); ki->kip1 = kip1; ki->size = _pkg2_calc_kip1_size(kip1); DPRINTF("added kip %s (size %08X)\n", kip1->name, ki->size); list_append(info, &ki->link); } void pkg2_merge_kip(link_t *info, pkg2_kip1_t *kip1) { if (pkg2_has_kip(info, kip1->tid)) pkg2_replace_kip(info, kip1->tid, kip1); else pkg2_add_kip(info, kip1); } static int _decompress_kip(pkg2_kip1_info_t *ki, u32 sectsToDecomp) { u32 compClearMask = ~sectsToDecomp; if ((ki->kip1->flags & compClearMask) == ki->kip1->flags) return 0; // Already decompressed, nothing to do. pkg2_kip1_t hdr; memcpy(&hdr, ki->kip1, sizeof(hdr)); u32 new_kip_size = sizeof(hdr); for (u32 sect_idx = 0; sect_idx < KIP1_NUM_SECTIONS; sect_idx++) { u32 comp_bit_mask = BIT(sect_idx); // For compressed, cant get actual decompressed size without doing it, so use safe "output size". if (sect_idx < 3 && (sectsToDecomp & comp_bit_mask) && (hdr.flags & comp_bit_mask)) new_kip_size += hdr.sections[sect_idx].size_decomp; else new_kip_size += hdr.sections[sect_idx].size_comp; } pkg2_kip1_t *new_kip = malloc(new_kip_size); u8 *dst_data = new_kip->data; const u8 *src_data = ki->kip1->data; for (u32 sect_idx = 0; sect_idx < KIP1_NUM_SECTIONS; sect_idx++) { u32 comp_bit_mask = BIT(sect_idx); // Easy copy path for uncompressed or ones we dont want to uncompress. if (sect_idx >= 3 || !(sectsToDecomp & comp_bit_mask) || !(hdr.flags & comp_bit_mask)) { u32 dataSize = hdr.sections[sect_idx].size_comp; if (dataSize == 0) continue; memcpy(dst_data, src_data, dataSize); src_data += dataSize; dst_data += dataSize; continue; } u32 comp_size = hdr.sections[sect_idx].size_comp; u32 output_size = hdr.sections[sect_idx].size_decomp; gfx_printf("Decomping '%s', sect %d, size %d..\n", (char *)hdr.name, sect_idx, comp_size); if (blz_uncompress_srcdest(src_data, comp_size, dst_data, output_size) == 0) { gfx_con.mute = false; gfx_printf("%kERROR decomping sect %d of '%s'!%k\n", TXT_CLR_ERROR, sect_idx, (char *)hdr.name, TXT_CLR_DEFAULT); free(new_kip); return 1; } else { DPRINTF("Done! Decompressed size is %d!\n", output_size); } hdr.sections[sect_idx].size_comp = output_size; src_data += comp_size; dst_data += output_size; } hdr.flags &= compClearMask; memcpy(new_kip, &hdr, sizeof(hdr)); new_kip_size = dst_data - (u8 *)(new_kip); free(ki->kip1); ki->kip1 = new_kip; ki->size = new_kip_size; return 0; } static int _kipm_inject(const char *kipm_path, char *target_name, pkg2_kip1_info_t *ki) { if (strcmp((char *)ki->kip1->name, target_name)) return 1; u32 size = 0; u8 *kipm_data = (u8 *)sd_file_read(kipm_path, &size); if (!kipm_data) return 1; u32 inject_size = size - sizeof(ki->kip1->caps); u8 *kip_patched_data = (u8 *)malloc(ki->size + inject_size); // Copy headers. memcpy(kip_patched_data, ki->kip1, sizeof(pkg2_kip1_t)); pkg2_kip1_t *fs_kip = ki->kip1; ki->kip1 = (pkg2_kip1_t *)kip_patched_data; ki->size = ki->size + inject_size; // Patch caps. memcpy(&ki->kip1->caps, kipm_data, sizeof(ki->kip1->caps)); // Copy our .text data. memcpy(&ki->kip1->data, kipm_data + sizeof(ki->kip1->caps), inject_size); u32 new_offset = 0; for (u32 section_idx = 0; section_idx < KIP1_NUM_SECTIONS - 2; section_idx++) { if (!section_idx) // .text. { memcpy(ki->kip1->data + inject_size, fs_kip->data, fs_kip->sections[0].size_comp); ki->kip1->sections[0].size_decomp += inject_size; ki->kip1->sections[0].size_comp += inject_size; } else // Others. { if (section_idx < 3) memcpy(ki->kip1->data + new_offset + inject_size, fs_kip->data + new_offset, fs_kip->sections[section_idx].size_comp); ki->kip1->sections[section_idx].offset += inject_size; } new_offset += fs_kip->sections[section_idx].size_comp; } // Patch PMC capabilities for 1.0.0. if (!emu_cfg.fs_ver) { for (u32 i = 0; i < 0x20; i++) { if (ki->kip1->caps[i] == 0xFFFFFFFF) { ki->kip1->caps[i] = 0x07000E7F; break; } } } free(kipm_data); return 0; } const char *pkg2_patch_kips(link_t *info, char *patch_names) { bool emummc_patch_selected = false; if (patch_names == NULL || patch_names[0] == 0) return NULL; gfx_printf("%kPatching kips%k\n", TXT_CLR_ORANGE, TXT_CLR_DEFAULT); static const u32 MAX_NUM_PATCHES_REQUESTED = sizeof(u32) * 8; char *patches[MAX_NUM_PATCHES_REQUESTED]; u32 patches_num = 1; patches[0] = patch_names; { for (char *p = patch_names; *p != 0; p++) { if (*p == ',') { *p = 0; patches[patches_num++] = p + 1; if (patches_num >= MAX_NUM_PATCHES_REQUESTED) return "too_many_patches"; } else if (*p >= 'A' && *p <= 'Z') // Convert to lowercase. *p += 0x20; } } u32 patches_applied = 0; // Bitset over patches. for (u32 i = 0; i < patches_num; i++) { // Eliminate leading spaces. for (const char *p = patches[i]; *p != 0; p++) { if (*p == ' ' || *p == '\t' || *p == '\r' || *p == '\n') patches[i]++; else break; } int patch_len = strlen(patches[i]); if (patch_len == 0) continue; // Eliminate trailing spaces. for (int chIdx = patch_len - 1; chIdx >= 0; chIdx--) { const char *p = patches[i] + chIdx; if (*p == ' ' || *p == '\t' || *p == '\r' || *p == '\n') patch_len = chIdx; else break; } patches[i][patch_len] = 0; DPRINTF("Requested patch: '%s'\n", patches[i]); } // Parse external patches if needed. for (u32 i = 0; i < patches_num; i++) { if (!strcmp(patches[i], "emummc")) { // emuMMC patch is managed on its own. emummc_patch_selected = true; patches_applied |= BIT(i); continue; } if (strcmp(patches[i], "nogc")) parse_external_kip_patches(); } u32 kip_hash[SE_SHA_256_SIZE / sizeof(u32)]; LIST_FOREACH_ENTRY(pkg2_kip1_info_t, ki, info, link) { // Reset hash so it can be calculated for the new kip. kip_hash[0] = 0; bool emummc_patch_apply = emummc_patch_selected && !strcmp((char *)ki->kip1->name, "FS"); // Check all SHA256 ID sets. (IDs are grouped per KIP. IDs are still unique.) for (u32 kip_id_idx = 0; kip_id_idx < _kip_id_sets_cnt; kip_id_idx++) { // Check if KIP name macthes ID's KIP name. if (strcmp((char *)ki->kip1->name, _kip_id_sets[kip_id_idx].name) != 0) continue; // Check if there are patches to apply. bool patches_found = false; const kip1_patchset_t *patchset = _kip_id_sets[kip_id_idx].patchset; while (patchset != NULL && patchset->name != NULL && !patches_found) { for (u32 i = 0; i < patches_num; i++) { // Continue if patch name does not match. if (strcmp(patchset->name, patches[i]) != 0) continue; patches_found = true; break; } patchset++; } // Don't bother hashing this KIP if no patches are enabled for it. if (!patches_found && !emummc_patch_apply) continue; // Check if current KIP not hashed and hash it. if (kip_hash[0] == 0) if (se_sha_hash_256_oneshot(kip_hash, ki->kip1, ki->size)) memset(kip_hash, 0, sizeof(kip_hash)); // Check if kip is the expected version. if (memcmp(kip_hash, _kip_id_sets[kip_id_idx].hash, sizeof(_kip_id_sets[0].hash)) != 0) continue; // Find out which sections are affected by the enabled patches, in order to decompress them. u32 sections_affected = 0; patchset = _kip_id_sets[kip_id_idx].patchset; while (patchset != NULL && patchset->name != NULL) { if (patchset->patches != NULL) { for (u32 patch_idx = 0; patch_idx < patches_num; patch_idx++) { if (strcmp(patchset->name, patches[patch_idx])) continue; for (const kip1_patch_t *patch = patchset->patches; patch != NULL && (patch->length != 0); patch++) sections_affected |= BIT(GET_KIP_PATCH_SECTION(patch->offset)); } } patchset++; } // If emuMMC is enabled, set its affected section. if (emummc_patch_apply) sections_affected |= BIT(KIP_TEXT); // Got patches to apply to this kip, have to decompress it. if (_decompress_kip(ki, sections_affected)) return (char *)ki->kip1->name; // Failed to decompress. // Apply all patches for matched ID. patchset = _kip_id_sets[kip_id_idx].patchset; while (patchset != NULL && patchset->name != NULL) { for (u32 patch_idx = 0; patch_idx < patches_num; patch_idx++) { // Check if patchset name matches requested patch. if (strcmp(patchset->name, patches[patch_idx])) continue; u32 applied_mask = BIT(patch_idx); // Check if patchset is empty. if (patchset->patches == NULL) { DPRINTF("Patch '%s' not necessary for %s\n", patchset->name, (char *)ki->kip1->name); patches_applied |= applied_mask; continue; // Continue in case it's double defined. } // Apply patches per section. u8 *kip_sect_data = ki->kip1->data; for (u32 section_idx = 0; section_idx < KIP1_NUM_SECTIONS; section_idx++) { if (sections_affected & BIT(section_idx)) { gfx_printf("Applying '%s' on %s, sect %d\n", patchset->name, (char *)ki->kip1->name, section_idx); for (const kip1_patch_t *patch = patchset->patches; patch != NULL && patch->src_data != NULL; patch++) { // Check if patch is in current section. if (GET_KIP_PATCH_SECTION(patch->offset) != section_idx) continue; // Check if patch is empty. if (!patch->length) { gfx_con.mute = false; gfx_printf("%kPatch empty!%k\n", TXT_CLR_ERROR, TXT_CLR_DEFAULT); return patchset->name; // MUST stop here as it's not probably intended. } // If source does not match and is not already patched, throw an error. u32 patch_offset = GET_KIP_PATCH_OFFSET(patch->offset); if (patch->src_data != KIP1_PATCH_SRC_NO_CHECK && (memcmp(&kip_sect_data[patch_offset], patch->src_data, patch->length) != 0) && (memcmp(&kip_sect_data[patch_offset], patch->dst_data, patch->length) != 0)) { gfx_con.mute = false; gfx_printf("%kPatch mismatch at 0x%x!%k\n", TXT_CLR_ERROR, patch_offset, TXT_CLR_DEFAULT); return patchset->name; // MUST stop here as kip is likely corrupt. } else { DPRINTF("Patching %d bytes at offset 0x%x\n", patch->length, patch_offset); memcpy(&kip_sect_data[patch_offset], patch->dst_data, patch->length); } } } kip_sect_data += ki->kip1->sections[section_idx].size_comp; } patches_applied |= applied_mask; } patchset++; } // emuMMC must be applied after all other patches, since it affects TEXT offset. if (emummc_patch_apply) { // Encode ID. emu_cfg.fs_ver = kip_id_idx; if (kip_id_idx) emu_cfg.fs_ver--; if (kip_id_idx > 17) emu_cfg.fs_ver -= 2; // Inject emuMMC code. gfx_printf("Injecting emuMMC. FS ID: %d\n", emu_cfg.fs_ver); if (_kipm_inject("bootloader/sys/emummc.kipm", "FS", ki)) return "emummc"; // Skip checking again. emummc_patch_selected = false; emummc_patch_apply = false; } } } // Check if all patches were applied. for (u32 i = 0; i < patches_num; i++) { if ((patches_applied & BIT(i)) == 0) return patches[i]; } // Check if emuMMC was applied. if (emummc_patch_selected) return "emummc"; return NULL; } // Master key 7 encrypted with 8. (7.0.0 with 8.1.0). AES-ECB static const u8 mkey_vector_7xx[SE_KEY_128_SIZE] = { 0xEA, 0x60, 0xB3, 0xEA, 0xCE, 0x8F, 0x24, 0x46, 0x7D, 0x33, 0x9C, 0xD1, 0xBC, 0x24, 0x98, 0x29 }; u8 pkg2_keyslot; pkg2_hdr_t *pkg2_decrypt(void *data, u8 mkey, bool is_exo) { u8 *pdata = (u8 *)data; // Skip signature. pdata += 0x100; pkg2_hdr_t *hdr = (pkg2_hdr_t *)pdata; // Skip header. pdata += sizeof(pkg2_hdr_t); // Set pkg2 key slot to default. If 7.0.0 it will change to 9. pkg2_keyslot = 8; // Decrypt 7.0.0 pkg2 via 8.1.0 mkey on Erista. if (!h_cfg.t210b01 && mkey == HOS_MKEY_VER_700) { u8 tmp_mkey[SE_KEY_128_SIZE]; // Decrypt 7.0.0 encrypted mkey. se_aes_crypt_ecb(!is_exo ? 7 : 13, DECRYPT, tmp_mkey, mkey_vector_7xx, SE_KEY_128_SIZE); // Set and unwrap pkg2 key. se_aes_key_set(9, tmp_mkey, SE_KEY_128_SIZE); se_aes_unwrap_key(9, 9, package2_keyseed); pkg2_keyslot = 9; } // Decrypt header. se_aes_crypt_ctr(pkg2_keyslot, hdr, hdr, sizeof(pkg2_hdr_t), hdr); if (hdr->magic != PKG2_MAGIC) return NULL; // Decrypt sections. for (u32 i = 0; i < 4; i++) { DPRINTF("sec %d has size %08X\n", i, hdr->sec_size[i]); if (!hdr->sec_size[i]) continue; se_aes_crypt_ctr(pkg2_keyslot, pdata, pdata, hdr->sec_size[i], hdr->sec_ctr[i]); pdata += hdr->sec_size[i]; } return hdr; } static u32 _pkg2_ini1_build(u8 *pdst, u8 *psec, pkg2_hdr_t *hdr, link_t *kips_info, bool new_pkg2) { // Calculate INI1 size. u32 ini1_size = sizeof(pkg2_ini1_t); LIST_FOREACH_ENTRY(pkg2_kip1_info_t, ki, kips_info, link) { ini1_size += ki->size; } // Align size and set it. ini1_size = ALIGN(ini1_size, 4); // For new kernel if INI1 fits in the old one, use it. bool use_old_ini_region = psec && ini1_size <= (pkg2_newkern_ini1_end - pkg2_newkern_ini1_start); if (use_old_ini_region) pdst = psec + pkg2_newkern_ini1_start; // Set initial header and magic. pkg2_ini1_t *ini1 = (pkg2_ini1_t *)pdst; memset(ini1, 0, sizeof(pkg2_ini1_t)); ini1->magic = INI1_MAGIC; ini1->size = ini1_size; pdst += sizeof(pkg2_ini1_t); // Merge KIPs into INI1. LIST_FOREACH_ENTRY(pkg2_kip1_info_t, ki, kips_info, link) { DPRINTF("adding kip1 '%s' @ %08X (%08X)\n", (char *)ki->kip1->name, (u32)ki->kip1, ki->size); memcpy(pdst, ki->kip1, ki->size); pdst += ki->size; ini1->num_procs++; } // Encrypt INI1 in its own section if old pkg2. Otherwise it gets embedded into Kernel. if (!new_pkg2) { hdr->sec_size[PKG2_SEC_INI1] = ini1_size; hdr->sec_off[PKG2_SEC_INI1] = 0x14080000; se_aes_crypt_ctr(8, ini1, ini1, ini1_size, hdr->sec_ctr[PKG2_SEC_INI1]); } else { hdr->sec_size[PKG2_SEC_INI1] = 0; hdr->sec_off[PKG2_SEC_INI1] = 0; } return !use_old_ini_region ? ini1_size : 0; } void pkg2_build_encrypt(void *dst, void *hos_ctxt, link_t *kips_info, bool is_exo) { launch_ctxt_t *ctxt = (launch_ctxt_t *)hos_ctxt; u32 meso_magic = *(u32 *)(ctxt->kernel + 4); u32 kernel_size = ctxt->kernel_size; u8 mkey = ctxt->pkg1_id->mkey; u8 *pdst = (u8 *)dst; // Force new Package2 if Mesosphere. bool is_meso = (meso_magic & 0xF0FFFFFF) == ATM_MESOSPHERE; if (is_meso) ctxt->new_pkg2 = true; // Set key version. For Erista 7.0.0, use 8.1.0 because of a bug in Exo2? u8 key_ver = mkey ? mkey + 1 : 0; if (pkg2_keyslot == 9) { key_ver = HOS_MKEY_VER_810 + 1; pkg2_keyslot = 8; } // Signature. memset(pdst, 0, 0x100); pdst += 0x100; // Header. pkg2_hdr_t *hdr = (pkg2_hdr_t *)pdst; memset(hdr, 0, sizeof(pkg2_hdr_t)); // Set initial header values. hdr->magic = PKG2_MAGIC; hdr->bl_ver = 0; hdr->pkg2_ver = 0xFF; if (!ctxt->new_pkg2) hdr->base = 0x10000000; else hdr->base = 0x60000; DPRINTF("%s @ %08X (%08X)\n", is_meso ? "Mesosphere": "kernel",(u32)ctxt->kernel, kernel_size); pdst += sizeof(pkg2_hdr_t); // Kernel. memcpy(pdst, ctxt->kernel, kernel_size); if (!ctxt->new_pkg2) hdr->sec_off[PKG2_SEC_KERNEL] = 0x10000000; else { // Build INI1 for new Package2. u32 ini1_size = _pkg2_ini1_build(pdst + kernel_size, is_meso ? NULL : pdst, hdr, kips_info, true); hdr->sec_off[PKG2_SEC_KERNEL] = 0x60000; // Set new INI1 offset to kernel. u32 meso_meta_offset = *(u32 *)(pdst + 8); if (is_meso && (meso_magic & 0x0F000000)) // MSS1. *(u32 *)(pdst + meso_meta_offset) = kernel_size - meso_meta_offset; else if (ini1_size) { if (is_meso) // MSS0. *(u32 *)(pdst + 8) = kernel_size; else *(u32 *)(pdst + pkg2_newkern_ini1_info) = kernel_size - pkg2_newkern_ini1_rela; } kernel_size += ini1_size; } hdr->sec_size[PKG2_SEC_KERNEL] = kernel_size; se_aes_crypt_ctr(pkg2_keyslot, pdst, pdst, kernel_size, hdr->sec_ctr[PKG2_SEC_KERNEL]); pdst += kernel_size; DPRINTF("kernel encrypted\n"); // Build INI1 for old Package2. u32 ini1_size = 0; if (!ctxt->new_pkg2) ini1_size = _pkg2_ini1_build(pdst, NULL, hdr, kips_info, false); DPRINTF("INI1 encrypted\n"); if (!is_exo) // Not needed on Exosphere 1.0.0 and up. { // Calculate SHA256 over encrypted sections. Only 3 have valid hashes. u8 *pk2_hash_data = (u8 *)dst + 0x100 + sizeof(pkg2_hdr_t); for (u32 i = PKG2_SEC_KERNEL; i <= PKG2_SEC_UNUSED; i++) { se_sha_hash_256_oneshot(hdr->sec_sha256[i], (void *)pk2_hash_data, hdr->sec_size[i]); pk2_hash_data += hdr->sec_size[i]; } } // Encrypt header. *(u32 *)hdr->ctr = 0x100 + sizeof(pkg2_hdr_t) + kernel_size + ini1_size; hdr->ctr[4] = key_ver; se_aes_crypt_ctr(pkg2_keyslot, hdr, hdr, sizeof(pkg2_hdr_t), hdr); memset(hdr->ctr, 0 , SE_AES_IV_SIZE); *(u32 *)hdr->ctr = 0x100 + sizeof(pkg2_hdr_t) + kernel_size + ini1_size; hdr->ctr[4] = key_ver; } ================================================ FILE: bootloader/hos/pkg2.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _PKG2_H_ #define _PKG2_H_ #include #define PKG2_LOAD_ADDR 0xA9800000 #define PKG2_MAGIC 0x31324B50 #define PKG2_SEC_BASE 0x80000000 #define PKG2_SEC_KERNEL 0 #define PKG2_SEC_INI1 1 #define PKG2_SEC_UNUSED 2 #define INI1_MAGIC 0x31494E49 //! TODO: Update on kernel change if needed. // Offset of OP + 12 is the INI1 offset. On v2 with dynamic crt0 it's + 16. #define PKG2_NEWKERN_GET_INI1_HEURISTIC 0xD2800015 // MOV X21, #0. #define PKG2_NEWKERN_START 0x800 #define ATM_MESOSPHERE 0x3053534D extern u32 pkg2_newkern_ini1_info; extern u32 pkg2_newkern_ini1_start; extern u32 pkg2_newkern_ini1_end; typedef struct _kernel_patch_t { u32 id; u32 off; u32 val; const u32 *ptr; } kernel_patch_t; #define KERNEL_PATCHSET_DEF(name, ...) \ static const kernel_patch_t name[] = { \ __VA_ARGS__, \ {0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, (u32 *)0xFFFFFFFF} \ } enum { // Always applied. SVC_GENERIC = 0, // Generic instruction patches. SVC_VERIFY_DS = 0x10, DEBUG_MODE_EN = 0x11, ATM_GEN_PATCH = 0x12, ATM_SYSM_INCR = ATM_GEN_PATCH, // >4 bytes patches. Value is a pointer of a u32 array. ATM_ARR_PATCH = 0x13, }; typedef struct _pkg2_hdr_t { /* 0x000 */ u8 ctr[0x10]; /* 0x010 */ u8 sec_ctr[4][SE_AES_IV_SIZE]; /* 0x050 */ u32 magic; /* 0x054 */ u32 base; /* 0x058 */ u32 pad0; /* 0x05C */ u8 pkg2_ver; /* 0x05D */ u8 bl_ver; /* 0x05E */ u16 pad1; /* 0x060 */ u32 sec_size[4]; /* 0x070 */ u32 sec_off[4]; /* 0x080 */ u8 sec_sha256[4][SE_SHA_256_SIZE]; /* 0x100 */ u8 data[]; } pkg2_hdr_t; typedef struct _pkg2_ini1_t { u32 magic; u32 size; u32 num_procs; u32 pad; } pkg2_ini1_t; enum kip_offset_section { KIP_TEXT = 0, KIP_RODATA = 1, KIP_DATA = 2, KIP_BSS = 3, KIP_UNKSEC1 = 4, KIP_UNKSEC2 = 5 }; #define KIP1_NUM_SECTIONS 6 typedef struct _pkg2_kip1_sec_t { u32 offset; u32 size_decomp; u32 size_comp; u32 attrib; } pkg2_kip1_sec_t; typedef struct _pkg2_kip1_t { /* 0x000 */ u32 magic; /* 0x004 */ char name[12]; /* 0x010 */ u64 tid; /* 0x018 */ u32 proc_cat; /* 0x01C */ u8 main_thrd_prio; /* 0x01D */ u8 def_cpu_core; /* 0x01E */ u8 res; /* 0x01F */ u8 flags; /* 0x020 */ pkg2_kip1_sec_t sections[KIP1_NUM_SECTIONS]; /* 0x080 */ u32 caps[0x20]; /* 0x100 */ u8 data[]; } pkg2_kip1_t; typedef struct _pkg2_kip1_info_t { pkg2_kip1_t *kip1; u32 size; link_t link; } pkg2_kip1_info_t; typedef struct _pkg2_kernel_id_t { u8 hash[8]; const kernel_patch_t *kernel_patchset; } pkg2_kernel_id_t; #define KIP1_PATCH_SRC_NO_CHECK (char *)(-1) typedef struct _kip1_patch_t { u32 offset; // section+offset of patch to apply. u32 length; // In bytes, 0 means last patch. char *src_data; // That must match. char *dst_data; // That it gets replaced by. } kip1_patch_t; typedef struct _kip1_patchset_t { char *name; // NULL means end. const kip1_patch_t *patches; // NULL means not necessary. } kip1_patchset_t; typedef struct _kip1_id_t { const char *name; u8 hash[8]; const kip1_patchset_t *patchset; } kip1_id_t; /* * NX NC - Package2 BOOT Configuration * * This is taken from the first 1KB of a Package2 partition. * On retail, it's not zeroes, but on devkits it has actual data. * The signed part is reserved for special in-house devkits. */ #define NX_BC1_ADDR 0x4003D000 #define NX_BC6_ADDR 0x4003F800 #define NX_BC_DBG_FLAG00_DEV_MODE BIT(1) #define NX_BC_DBG_FLAG00_SERROR BIT(2) #define NX_BC_DBG_FLAG00_ALL_FLAGS 0xFF #define NX_BC_HW_FLAG01_ALL_FLAGS 0xFF #define NX_BC_HW_FLAG03_MEM_MODE 0xFF #define NX_BC_HW_FLAG04_CNTCV_SET BIT(0) #define NX_BC_PKG2_FLAG_DECRYPTED BIT(0) #define NX_BC_PKG2_FLAG_UNSIGNED BIT(1) #define NX_BC_NCA_FLAG_UNSIGNED BIT(0) typedef struct _nx_bc_t { /* Unsigned section */ u32 version; u32 rsvd0[3]; u8 dbg_flags[0x10]; // Normally all are set to 0xFF if devkit. u8 hw_flags[0x10]; u64 cntcv_value; u8 padding0[0x1C8]; u8 rsa_pss_signature[0x100]; /* Signed section */ u32 version_signed; u32 rsvd1; u8 pkg2_flags; u8 padding1[7]; u32 ecid[4]; u8 nca_flags[0x10]; u8 unk_flags[0x10]; u8 padding2[0xC0]; } nx_bc_t; int pkg2_parse_kips(link_t *info, pkg2_hdr_t *pkg2, bool *new_pkg2); bool pkg2_has_kip(link_t *info, u64 tid); void pkg2_replace_kip(link_t *info, u64 tid, pkg2_kip1_t *kip1); void pkg2_add_kip(link_t *info, pkg2_kip1_t *kip1); void pkg2_merge_kip(link_t *info, pkg2_kip1_t *kip1); void pkg2_get_ids(kip1_id_t **ids, u32 *entries); const char *pkg2_patch_kips(link_t *info, char *patch_names); const pkg2_kernel_id_t *pkg2_identify(const u8 *hash); pkg2_hdr_t *pkg2_decrypt(void *data, u8 mkey, bool is_exo); void pkg2_build_encrypt(void *dst, void *hos_ctxt, link_t *kips_info, bool is_exo); #endif ================================================ FILE: bootloader/hos/pkg2_ini_kippatch.c ================================================ /* * Copyright (c) 2019-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include "pkg2_ini_kippatch.h" #include #define KPS(x) ((u32)(x) << 29) static u8 *_htoa(u8 *result, const char *ptr, u8 byte_len, u8 *buf) { char ch = *ptr; u32 ascii_len = byte_len * 2; if (!result) result = buf; u8 *dst = result; while (ch == ' ' || ch == '\t') ch = *(++ptr); bool shift = true; while (ascii_len) { u8 tmp = 0; if (ch >= '0' && ch <= '9') tmp = (ch - '0'); else if (ch >= 'A' && ch <= 'F') tmp = (ch - 'A' + 10); else if (ch >= 'a' && ch <= 'f') tmp = (ch - 'a' + 10); if (shift) *dst = (tmp << 4) & 0xF0; else { *dst |= (tmp & 0x0F); dst++; } ascii_len--; ch = *(++ptr); shift = !shift; } return result; } static u32 _find_patch_section_name(char *lbuf, u32 lblen, char schar) { u32 i; // Depends on 'FF_USE_STRFUNC 2' that removes \r. for (i = 0; i < lblen && lbuf[i] != schar && lbuf[i] != '\n'; i++) ; lbuf[i] = 0; return i; } static ini_kip_sec_t *_ini_create_kip_section(link_t *dst, ini_kip_sec_t *ksec, char *name) { if (ksec) list_append(dst, &ksec->link); // Calculate total allocation size. u32 len = strlen(name); char *buf = zalloc(sizeof(ini_kip_sec_t) + len + 1); ksec = (ini_kip_sec_t *)buf; u32 i = _find_patch_section_name(name, len, ':') + 1; ksec->name = strcpy_ns(buf + sizeof(ini_kip_sec_t), name); // Get hash section. _htoa(ksec->hash, &name[i], 8, NULL); // Initialize list. list_init(&ksec->pts); return ksec; } int ini_patch_parse(link_t *dst, const char *ini_path) { FIL fp; u32 lblen; char *lbuf; ini_kip_sec_t *ksec = NULL; // Open ini. if (f_open(&fp, ini_path, FA_READ) != FR_OK) return 1; lbuf = malloc(512); do { // Fetch one line. lbuf[0] = 0; f_gets(lbuf, 512, &fp); lblen = strlen(lbuf); // Remove trailing newline. Depends on 'FF_USE_STRFUNC 2' that removes \r. if (lblen && lbuf[lblen - 1] == '\n') lbuf[lblen - 1] = 0; if (lblen > 2 && lbuf[0] == '[') // Create new section. { _find_patch_section_name(lbuf, lblen, ']'); // Set patchset kip name and hash. ksec = _ini_create_kip_section(dst, ksec, &lbuf[1]); } else if (ksec && lbuf[0] == '.') // Extract key/value. { u32 str_start = 0; u32 pos = _find_patch_section_name(lbuf, lblen, '='); // Calculate total allocation size. char *buf = zalloc(sizeof(ini_patchset_t) + strlen(&lbuf[1]) + 1); ini_patchset_t *pt = (ini_patchset_t *)buf; // Set patch name. pt->name = strcpy_ns(buf + sizeof(ini_patchset_t), &lbuf[1]); u8 kip_sidx = lbuf[pos + 1] - '0'; pos += 3; if (kip_sidx < 6) { // Set patch offset. pt->offset = KPS(kip_sidx); str_start = _find_patch_section_name(&lbuf[pos], lblen - pos, ':'); pt->offset |= strtol(&lbuf[pos], NULL, 16); pos += str_start + 1; // Set patch size. str_start = _find_patch_section_name(&lbuf[pos], lblen - pos, ':'); pt->length = strtol(&lbuf[pos], NULL, 16); pos += str_start + 1; u8 *data = malloc(pt->length * 2); // Set patch source data. str_start = _find_patch_section_name(&lbuf[pos], lblen - pos, ','); pt->src_data = _htoa(NULL, &lbuf[pos], pt->length, data); pos += str_start + 1; // Set patch destination data. pt->dst_data = _htoa(NULL, &lbuf[pos], pt->length, data + pt->length); } list_append(&ksec->pts, &pt->link); } } while (!f_eof(&fp)); f_close(&fp); if (ksec) list_append(dst, &ksec->link); free(lbuf); return 0; } ================================================ FILE: bootloader/hos/pkg2_ini_kippatch.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _INIPATCH_H_ #define _INIPATCH_H_ #include typedef struct _ini_patchset_t { char *name; u32 offset; // section + offset of patch to apply. u32 length; // In bytes, 0 means last patch. u8 *src_data; // That must match. u8 *dst_data; // Gets replaced with. link_t link; } ini_patchset_t; typedef struct _ini_kip_sec_t { char *name; u8 hash[8]; link_t pts; link_t link; } ini_kip_sec_t; int ini_patch_parse(link_t *dst, const char *ini_path); #endif ================================================ FILE: bootloader/hos/pkg2_patches.inl ================================================ /* * Copyright (c) 2018-2026 CTCaer * Copyright (c) 2018 Atmosphère-NX * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ //TODO: Replace hardcoded AArch64 instructions with instruction macros. //TODO: Reduce hardcoded values without searching kernel for patterns? // The process ID send/receive kernel patches were taken from Atmosphère's kernel patches. // They should only be used when running Atmosphère. #define CODE_OFF_1ST_100 0x4797C #define CODE_OFF_1ST_200 0x6486C #define CODE_OFF_1ST_300 0x494A4 #define CODE_OFF_1ST_302 0x494BC #define CODE_OFF_1ST_400 0x52890 #define CODE_OFF_1ST_500 0x5C020 #define CODE_OFF_1ST_600 0x5EE00 #define CODE_OFF_1ST_700 0x5FEC0 #define CODE_OFF_1ST_800 0x607F0 #define CODE_OFF_1ST_900 0x65780 #define CODE_OFF_1ST_1000 0x67790 #define CODE_OFF_1ST_1100 0x49EE8 #define CODE_OFF_1ST_1200 0x48810 #define ID_SND_OFF_100 0x23CC0 #define ID_SND_OFF_200 0x3F134 #define ID_SND_OFF_300 0x26080 #define ID_SND_OFF_302 0x26080 #define ID_SND_OFF_400 0x2AF64 #define ID_SND_OFF_500 0x2AD34 #define ID_SND_OFF_600 0x2BB8C #define ID_SND_OFF_700 0x2D044 #define ID_SND_OFF_800 0x2F1FC #define ID_SND_OFF_900 0x329A0 #define ID_SND_OFF_1000 0x34404 #define ID_SND_OFF_1100 0x245B4 #define ID_SND_OFF_1101 0x245B8 #define ID_SND_OFF_1200 0x24CF4 #define ID_RCV_OFF_100 0x219F0 #define ID_RCV_OFF_200 0x3D1A8 #define ID_RCV_OFF_300 0x240F0 #define ID_RCV_OFF_302 0x240F0 #define ID_RCV_OFF_400 0x28F6C #define ID_RCV_OFF_500 0x28DAC #define ID_RCV_OFF_600 0x29B6C #define ID_RCV_OFF_700 0x2B23C #define ID_RCV_OFF_800 0x2D424 #define ID_RCV_OFF_900 0x309B4 #define ID_RCV_OFF_1000 0x322F8 #define ID_RCV_OFF_1100 0x22B24 #define ID_RCV_OFF_1101 0x22B28 #define ID_RCV_OFF_1200 0x23424 static const u32 PRC_ID_SND_100[] = { 0xA9BF2FEA, 0x2A0E03EB, 0xD37EF56B, 0xF86B6B8B, 0x92FFFFE9, 0x8A090168, 0xD2FFFFE9, 0x8A09016B, 0xD2FFFFC9, 0xEB09017F, 0x54000040, 0xF9412948, 0xA8C12FEA }; #define CODE_OFF_2ND_100 (CODE_OFF_1ST_100 + sizeof(PRC_ID_SND_100) + sizeof(u32)) static const u32 PRC_ID_RCV_100[] = { 0xA9BF2FEA, 0x2A1C03EA, 0xD37EF54A, 0xF86A69AA, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000040, 0xF9412968, 0xA8C12FEA }; static const u32 PRC_ID_SND_200[] = { 0xA9BF2FEA, 0x2A1803EB, 0xD37EF56B, 0xF86B6B8B, 0x92FFFFE9, 0x8A090168, 0xD2FFFFE9, 0x8A09016B, 0xD2FFFFC9, 0xEB09017F, 0x54000040, 0xF9413148, 0xA8C12FEA }; #define CODE_OFF_2ND_200 (CODE_OFF_1ST_200 + sizeof(PRC_ID_SND_200) + sizeof(u32)) static const u32 PRC_ID_RCV_200[] = { 0xA9BF2FEA, 0x2A0F03EA, 0xD37EF54A, 0xF9405FEB, 0xF86A696A, 0xF9407BEB, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000040, 0xF9413168, 0xA8C12FEA }; static const u32 PRC_ID_SND_300[] = { 0xA9BF2FEA, 0x2A1803EB, 0xD37EF56B, 0xF86B6B8B, 0x92FFFFE9, 0x8A090168, 0xD2FFFFE9, 0x8A09016B, 0xD2FFFFC9, 0xEB09017F, 0x54000040, 0xF9415548, 0xA8C12FEA }; #define CODE_OFF_2ND_300 (CODE_OFF_1ST_300 + sizeof(PRC_ID_SND_300) + sizeof(u32)) static const u32 PRC_ID_RCV_300[] = { 0xA9BF2FEA, 0x2A0F03EA, 0xD37EF54A, 0xF9405FEB, 0xF86A696A, 0xF9407BEB, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000040, 0xF9415568, 0xA8C12FEA }; #define CODE_OFF_2ND_302 (CODE_OFF_1ST_302 + sizeof(PRC_ID_SND_300) + sizeof(u32)) static const u32 PRC_ID_SND_400[] = { 0x2A1703EA, 0xD37EF54A, 0xF86A6B8A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000060, 0xF94053EA, 0xF9415948, 0xF94053EA }; #define CODE_OFF_2ND_400 (CODE_OFF_1ST_400 + sizeof(PRC_ID_SND_400) + sizeof(u32)) static const u32 PRC_ID_RCV_400[] = { 0xF9403BED, 0x2A0E03EA, 0xD37EF54A, 0xF86A69AA, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000040, 0xF9415B28, 0xD503201F }; static const u32 PRC_ID_SND_500[] = { 0x2A1703EA, 0xD37EF54A, 0xF86A6B6A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000060, 0xF94043EA, 0xF9415948, 0xF94043EA }; #define CODE_OFF_2ND_500 (CODE_OFF_1ST_500 + sizeof(PRC_ID_SND_500) + sizeof(u32)) static const u32 PRC_ID_RCV_500[] = { 0xF9403BED, 0x2A1503EA, 0xD37EF54A, 0xF86A69AA, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000040, 0xF9415B08, 0xF9406FEA }; static const u32 PRC_ID_SND_600[] = { 0xA9BF2FEA, 0xF94037EB, 0x2A1503EA, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF9400308, 0xF9401D08, 0xAA1803E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; #define CODE_OFF_2ND_600 (CODE_OFF_1ST_600 + sizeof(PRC_ID_SND_600) + sizeof(u32)) static const u32 PRC_ID_RCV_600[] = { 0xA9BF2FEA, 0xF94043EB, 0x2A1503EA, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF9400308, 0xF9401D08, 0xAA1803E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; static const u32 PRC_ID_SND_700[] = { 0xA9BF2FEA, 0xF9403BEB, 0x2A1903EA, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF94002A8, 0xF9401D08, 0xAA1503E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; #define CODE_OFF_2ND_700 (CODE_OFF_1ST_700 + sizeof(PRC_ID_SND_700) + sizeof(u32)) static const u32 PRC_ID_RCV_700[] = { 0xA9BF2FEA, 0xF9404FEB, 0x2A1603EA, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF9400368, 0xF9401D08, 0xAA1B03E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; #define CODE_OFF_2ND_800 (CODE_OFF_1ST_800 + sizeof(PRC_ID_SND_700) + sizeof(u32)) static const u32 PRC_ID_SND_900[] = { 0xA9BF2FEA, 0xF94037EB, 0x2A1603EA, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF94002E8, 0xF9401D08, 0xAA1703E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; #define CODE_OFF_2ND_900 (CODE_OFF_1ST_900 + sizeof(PRC_ID_SND_900) + sizeof(u32)) static const u32 PRC_ID_RCV_900[] = { 0xA9BF2FEA, 0xF9404BEB, 0x2A1703EA, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF9400368, 0xF9401D08, 0xAA1B03E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; static const u32 PRC_ID_SND_1000[] = { 0xA9BF2FEA, 0xF94063EB, 0x2A1603EA, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF94002E8, 0xF9401D08, 0xAA1703E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; #define CODE_OFF_2ND_1000 (CODE_OFF_1ST_1000 + sizeof(PRC_ID_SND_1000) + sizeof(u32)) static const u32 PRC_ID_RCV_1000[] = { 0xA9BF2FEA, 0xF94067EB, 0x2A1A03EA, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF9400388, 0xF9401D08, 0xAA1C03E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; static const u32 PRC_ID_SND_1100[] = { 0xA9BF2FEA, 0xF94043EB, 0x5280006A, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF94002A8, 0xF9401D08, 0xAA1503E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; #define CODE_OFF_2ND_1100 (CODE_OFF_1ST_1100 + sizeof(PRC_ID_SND_1100) + sizeof(u32)) static const u32 PRC_ID_RCV_1100[] = { 0xA9BF2FEA, 0xF94073EB, 0x5280006A, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF9400308, 0xF9401D08, 0xAA1803E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; static const u32 PRC_ID_SND_1200[] = { 0xA9BF2FEA, 0xF9404FEB, 0x5280006A, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF94002C8, 0xF9401D08, 0xAA1603E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; #define CODE_OFF_2ND_1200 (CODE_OFF_1ST_1200 + sizeof(PRC_ID_SND_1200) + sizeof(u32)) static const u32 PRC_ID_RCV_1200[] = { 0xA9BF2FEA, 0xF94073EB, 0x5280006A, 0xD37EF54A, 0xF86A696A, 0x92FFFFE9, 0x8A090148, 0xD2FFFFE9, 0x8A09014A, 0xD2FFFFC9, 0xEB09015F, 0x54000100, 0xA9BF27E8, 0xF9400388, 0xF9401D08, 0xAA1C03E0, 0xD63F0100, 0xA8C127E8, 0xAA0003E8, 0xA8C12FEA, 0xAA0803E0 }; // Include kernel patches here, so we can utilize pkg1 id KERNEL_PATCHSET_DEF(_kernel_1_patchset, { SVC_VERIFY_DS, 0x3764C, _NOP(), NULL }, // Disable SVC verifications { DEBUG_MODE_EN, 0x44074, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch // Atmosphère kernel patches. { ATM_GEN_PATCH, ID_SND_OFF_100, _B(ID_SND_OFF_100, CODE_OFF_1ST_100), NULL }, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_100, sizeof(PRC_ID_SND_100) >> 2, PRC_ID_SND_100 }, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_100 + sizeof(PRC_ID_SND_100), // Branch back and skip 1 instruction. _B(CODE_OFF_1ST_100 + sizeof(PRC_ID_SND_100), ID_SND_OFF_100 + 0x4), NULL }, { ATM_GEN_PATCH, ID_RCV_OFF_100, _B(ID_RCV_OFF_100, CODE_OFF_2ND_100), NULL }, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_100, sizeof(PRC_ID_RCV_100) >> 2, PRC_ID_RCV_100 }, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_100 + sizeof(PRC_ID_RCV_100), // Branch back and skip 1 instruction. _B(CODE_OFF_2ND_100 + sizeof(PRC_ID_RCV_100), ID_RCV_OFF_100 + 0x4), NULL } ); KERNEL_PATCHSET_DEF(_kernel_2_patchset, { SVC_VERIFY_DS, 0x54834, _NOP(), NULL }, // Disable SVC verifications { DEBUG_MODE_EN, 0x6086C, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch // Atmosphère kernel patches. { ATM_GEN_PATCH, ID_SND_OFF_200, _B(ID_SND_OFF_200, CODE_OFF_1ST_200), NULL }, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_200, sizeof(PRC_ID_SND_200) >> 2, PRC_ID_SND_200 }, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_200 + sizeof(PRC_ID_SND_200), // Branch back and skip 1 instruction. _B(CODE_OFF_1ST_200 + sizeof(PRC_ID_SND_200), ID_SND_OFF_200 + 0x4), NULL }, { ATM_GEN_PATCH, ID_RCV_OFF_200, _B(ID_RCV_OFF_200, CODE_OFF_2ND_200), NULL }, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_200, sizeof(PRC_ID_RCV_200) >> 2, PRC_ID_RCV_200 }, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_200 + sizeof(PRC_ID_RCV_200), // Branch back and skip 1 instruction. _B(CODE_OFF_2ND_200 + sizeof(PRC_ID_RCV_200), ID_RCV_OFF_200 + 0x4), NULL } ); KERNEL_PATCHSET_DEF(_kernel_3_patchset, { SVC_VERIFY_DS, 0x3BD24, _NOP(), NULL }, // Disable SVC verifications { DEBUG_MODE_EN, 0x483FC, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch // Atmosphère kernel patches. { ATM_GEN_PATCH, ID_SND_OFF_300, _B(ID_SND_OFF_300, CODE_OFF_1ST_300), NULL }, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_300, sizeof(PRC_ID_SND_300) >> 2, PRC_ID_SND_300 }, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_300 + sizeof(PRC_ID_SND_300), // Branch back and skip 1 instruction. _B(CODE_OFF_1ST_300 + sizeof(PRC_ID_SND_300), ID_SND_OFF_300 + 0x4), NULL }, { ATM_GEN_PATCH, ID_RCV_OFF_300, _B(ID_RCV_OFF_300, CODE_OFF_2ND_300), NULL }, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_300, sizeof(PRC_ID_RCV_300) >> 2, PRC_ID_RCV_300 }, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_300 + sizeof(PRC_ID_RCV_300), // Branch back and skip 1 instruction. _B(CODE_OFF_2ND_300 + sizeof(PRC_ID_RCV_300), ID_RCV_OFF_300 + 0x4), NULL } ); KERNEL_PATCHSET_DEF(_kernel_302_patchset, { SVC_VERIFY_DS, 0x3BD24, _NOP(), NULL }, // Disable SVC verifications { DEBUG_MODE_EN, 0x48414, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch // Atmosphère kernel patches. { ATM_GEN_PATCH, ID_SND_OFF_302, _B(ID_SND_OFF_302, CODE_OFF_1ST_302), NULL }, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_302, sizeof(PRC_ID_SND_300) >> 2, PRC_ID_SND_300 }, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_302 + sizeof(PRC_ID_SND_300), // Branch back and skip 1 instruction. _B(CODE_OFF_1ST_302 + sizeof(PRC_ID_SND_300), ID_SND_OFF_302 + 0x4), NULL }, { ATM_GEN_PATCH, ID_RCV_OFF_302, _B(ID_RCV_OFF_302, CODE_OFF_2ND_302), NULL }, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_302, sizeof(PRC_ID_RCV_300) >> 2, PRC_ID_RCV_300 }, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_302 + sizeof(PRC_ID_RCV_300), // Branch back and skip 1 instruction. _B(CODE_OFF_2ND_302 + sizeof(PRC_ID_RCV_300), ID_RCV_OFF_302 + 0x4), NULL } ); KERNEL_PATCHSET_DEF(_kernel_4_patchset, { SVC_VERIFY_DS, 0x41EB4, _NOP(), NULL }, // Disable SVC verifications { DEBUG_MODE_EN, 0x4EBFC, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch // Atmosphère kernel patches. { ATM_GEN_PATCH, ID_SND_OFF_400, _B(ID_SND_OFF_400, CODE_OFF_1ST_400), NULL }, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_400, sizeof(PRC_ID_SND_400) >> 2, PRC_ID_SND_400 }, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_400 + sizeof(PRC_ID_SND_400), // Branch back and skip 2 instructions. _B(CODE_OFF_1ST_400 + sizeof(PRC_ID_SND_400), ID_SND_OFF_400 + 0x4 * 2), NULL }, { ATM_GEN_PATCH, ID_RCV_OFF_400, _B(ID_RCV_OFF_400, CODE_OFF_2ND_400), NULL }, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_400, sizeof(PRC_ID_RCV_400) >> 2, PRC_ID_RCV_400 }, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_400 + sizeof(PRC_ID_RCV_400), // Branch back and skip 1 instruction. _B(CODE_OFF_2ND_400 + sizeof(PRC_ID_RCV_400), ID_RCV_OFF_400 + 0x4), NULL } ); KERNEL_PATCHSET_DEF(_kernel_5_patchset, { SVC_GENERIC, 0x38C2C, _NOP(), NULL }, // Allow same process on svcControlCodeMemory. { SVC_VERIFY_DS, 0x45E6C, _NOP(), NULL }, // Disable SVC verifications { DEBUG_MODE_EN, 0x5513C, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch // Atmosphère kernel patches. { ATM_SYSM_INCR, 0x54E30, _MOVZW(8, 0x1E00, LSL16), NULL }, // System memory pool increase. { ATM_GEN_PATCH, ID_SND_OFF_500, _B(ID_SND_OFF_500, CODE_OFF_1ST_500), NULL }, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_500, sizeof(PRC_ID_SND_500) >> 2, PRC_ID_SND_500 }, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_500 + sizeof(PRC_ID_SND_500), // Branch back and skip 2 instructions. _B(CODE_OFF_1ST_500 + sizeof(PRC_ID_SND_500), ID_SND_OFF_500 + 0x4 * 2), NULL }, { ATM_GEN_PATCH, ID_RCV_OFF_500, _B(ID_RCV_OFF_500, CODE_OFF_2ND_500), NULL }, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_500, sizeof(PRC_ID_RCV_500) >> 2, PRC_ID_RCV_500 }, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_500 + sizeof(PRC_ID_RCV_500), // Branch back and skip 2 instructions. _B(CODE_OFF_2ND_500 + sizeof(PRC_ID_RCV_500), ID_RCV_OFF_500 + 0x4 * 2), NULL } ); KERNEL_PATCHSET_DEF(_kernel_6_patchset, { SVC_GENERIC, 0x3A8CC, _NOP(), NULL }, // Allow same process on svcControlCodeMemory. { SVC_VERIFY_DS, 0x47EA0, _NOP(), NULL }, // Disable SVC verifications { DEBUG_MODE_EN, 0x57548, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch // Atmosphère kernel patches. { ATM_SYSM_INCR, 0x57330, _MOVZW(8, 0x1D80, LSL16), NULL }, // System memory pool increase. { ATM_GEN_PATCH, ID_SND_OFF_600, _B(ID_SND_OFF_600, CODE_OFF_1ST_600), NULL }, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_600, sizeof(PRC_ID_SND_600) >> 2, PRC_ID_SND_600 }, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_600 + sizeof(PRC_ID_SND_600), // Branch back and skip 4 instructions. _B(CODE_OFF_1ST_600 + sizeof(PRC_ID_SND_600), ID_SND_OFF_600 + 0x4 * 4), NULL }, { ATM_GEN_PATCH, ID_RCV_OFF_600, _B(ID_RCV_OFF_600, CODE_OFF_2ND_600), NULL }, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_600, sizeof(PRC_ID_RCV_600) >> 2, PRC_ID_RCV_600 }, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_600 + sizeof(PRC_ID_RCV_600), // Branch back and skip 4 instructions. _B(CODE_OFF_2ND_600 + sizeof(PRC_ID_RCV_600), ID_RCV_OFF_600 + 0x4 * 4), NULL } ); KERNEL_PATCHSET_DEF(_kernel_7_patchset, { SVC_GENERIC, 0x3C6E0, _NOP(), NULL }, // Allow same process on svcControlCodeMemory. { SVC_VERIFY_DS, 0x49E5C, _NOP(), NULL }, // Disable SVC verifications { DEBUG_MODE_EN, 0x581B0, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch // Atmosphère kernel patches. { ATM_SYSM_INCR, 0x57F98, _MOVZW(8, 0x1D80, LSL16), NULL }, // System memory pool increase. { ATM_GEN_PATCH, ID_SND_OFF_700, _B(ID_SND_OFF_700, CODE_OFF_1ST_700), NULL }, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_700, sizeof(PRC_ID_SND_700) >> 2, PRC_ID_SND_700 }, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_700 + sizeof(PRC_ID_SND_700), // Branch back and skip 4 instructions. _B(CODE_OFF_1ST_700 + sizeof(PRC_ID_SND_700), ID_SND_OFF_700 + 0x4 * 4), NULL }, { ATM_GEN_PATCH, ID_RCV_OFF_700, _B(ID_RCV_OFF_700, CODE_OFF_2ND_700), NULL }, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_700, sizeof(PRC_ID_RCV_700) >> 2, PRC_ID_RCV_700 }, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_700 + sizeof(PRC_ID_RCV_700), // Branch back and skip 4 instructions. _B(CODE_OFF_2ND_700 + sizeof(PRC_ID_RCV_700), ID_RCV_OFF_700 + 0x4 * 4), NULL } ); KERNEL_PATCHSET_DEF(_kernel_8_patchset, { SVC_GENERIC, 0x3FAD0, _NOP(), NULL }, // Allow same process on svcControlCodeMemory. { SVC_VERIFY_DS, 0x4D15C, _NOP(), NULL }, // Disable SVC verifications { DEBUG_MODE_EN, 0x5BFAC, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch // Atmosphère kernel patches. { ATM_SYSM_INCR, 0x5F9A4, _MOVZW(19, 0x1D80, LSL16), NULL }, // System memory pool increase. { ATM_GEN_PATCH, ID_SND_OFF_800, _B(ID_SND_OFF_800, CODE_OFF_1ST_800), NULL }, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_800, sizeof(PRC_ID_SND_700) >> 2, PRC_ID_SND_700 }, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_800 + sizeof(PRC_ID_SND_700), // Branch back and skip 4 instructions. _B(CODE_OFF_1ST_800 + sizeof(PRC_ID_SND_700), ID_SND_OFF_800 + 0x4 * 4), NULL }, { ATM_GEN_PATCH, ID_RCV_OFF_800, _B(ID_RCV_OFF_800, CODE_OFF_2ND_800), NULL }, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_800, sizeof(PRC_ID_RCV_700) >> 2, PRC_ID_RCV_700 }, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_800 + sizeof(PRC_ID_RCV_700), // Branch back and skip 4 instructions. _B(CODE_OFF_2ND_800 + sizeof(PRC_ID_RCV_700), ID_RCV_OFF_800 + 0x4 * 4), NULL } ); KERNEL_PATCHSET_DEF(_kernel_9_patchset, { SVC_GENERIC, 0x43DFC, _NOP(), NULL }, // Allow same process on svcControlCodeMemory. { SVC_VERIFY_DS, 0x50628, _NOP(), NULL }, // Disable SVC verifications { DEBUG_MODE_EN, 0x609E8, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch // Atmosphère kernel patches. { ATM_SYSM_INCR, 0x6493C, _MOVZW(19, 0x1D80, LSL16), NULL }, // System memory pool increase. { ATM_GEN_PATCH, ID_SND_OFF_900, _B(ID_SND_OFF_900, CODE_OFF_1ST_900), NULL }, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_900, sizeof(PRC_ID_SND_900) >> 2, PRC_ID_SND_900 }, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_900 + sizeof(PRC_ID_SND_900), // Branch back and skip 4 instructions. _B(CODE_OFF_1ST_900 + sizeof(PRC_ID_SND_900), ID_SND_OFF_900 + 0x4 * 4), NULL }, { ATM_GEN_PATCH, ID_RCV_OFF_900, _B(ID_RCV_OFF_900, CODE_OFF_2ND_900), NULL }, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_900, sizeof(PRC_ID_RCV_900) >> 2, PRC_ID_RCV_900 }, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_900 + sizeof(PRC_ID_RCV_900), // Branch back and skip 4 instructions. _B(CODE_OFF_2ND_900 + sizeof(PRC_ID_RCV_900), ID_RCV_OFF_900 + 0x4 * 4), NULL } ); KERNEL_PATCHSET_DEF(_kernel_10_patchset, { SVC_GENERIC, 0x45DAC, _NOP(), NULL }, // Allow same process on svcControlCodeMemory. { SVC_VERIFY_DS, 0x523E4, _NOP(), NULL }, // Disable SVC verifications. { DEBUG_MODE_EN, 0x62B14, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch. // Atmosphère kernel patches. { ATM_SYSM_INCR, 0x66950, _MOVZW(19, 0x1D80, LSL16), NULL }, // System memory pool increase. { ATM_GEN_PATCH, ID_SND_OFF_1000, _B(ID_SND_OFF_1000, CODE_OFF_1ST_1000), NULL }, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_1000, sizeof(PRC_ID_SND_1000) >> 2, PRC_ID_SND_1000 }, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_1000 + sizeof(PRC_ID_SND_1000), // Branch back and skip 4 instructions. _B(CODE_OFF_1ST_1000 + sizeof(PRC_ID_SND_1000), ID_SND_OFF_1000 + 0x4 * 4), NULL }, { ATM_GEN_PATCH, ID_RCV_OFF_1000, _B(ID_RCV_OFF_1000, CODE_OFF_2ND_1000), NULL }, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_1000, sizeof(PRC_ID_RCV_1000) >> 2, PRC_ID_RCV_1000 }, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_1000 + sizeof(PRC_ID_RCV_1000), // Branch back and skip 4 instructions. _B(CODE_OFF_2ND_1000 + sizeof(PRC_ID_RCV_1000), ID_RCV_OFF_1000 + 0x4 * 4), NULL } ); KERNEL_PATCHSET_DEF(_kernel_11_patchset, { SVC_GENERIC, 0x2FCE0, _NOP(), NULL }, // Allow same process on svcControlCodeMemory. { SVC_VERIFY_DS, 0x39194, _NOP(), NULL }, // Disable SVC verifications. { DEBUG_MODE_EN, 0x460C0, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch. // Atmosphère kernel patches. { ATM_SYSM_INCR, 0x490C4, _MOVZW(21, 0x1D80, LSL16), NULL }, // System memory pool increase. { ATM_GEN_PATCH, ID_SND_OFF_1100, _B(ID_SND_OFF_1100, CODE_OFF_1ST_1100), NULL}, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_1100, sizeof(PRC_ID_SND_1100) >> 2, PRC_ID_SND_1100}, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_1100 + sizeof(PRC_ID_SND_1100), // Branch back and skip 4 instructions. _B(CODE_OFF_1ST_1100 + sizeof(PRC_ID_SND_1100), ID_SND_OFF_1100 + 0x4 * 4), NULL}, { ATM_GEN_PATCH, ID_RCV_OFF_1100, _B(ID_RCV_OFF_1100, CODE_OFF_2ND_1100), NULL}, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_1100, sizeof(PRC_ID_RCV_1100) >> 2, PRC_ID_RCV_1100}, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_1100 + sizeof(PRC_ID_RCV_1100), // Branch back and skip 4 instructions. _B(CODE_OFF_2ND_1100 + sizeof(PRC_ID_RCV_1100), ID_RCV_OFF_1100 + 0x4 * 4), NULL} ); KERNEL_PATCHSET_DEF(_kernel_1101_patchset, { SVC_GENERIC, 0x2FD04, _NOP(), NULL }, // Allow same process on svcControlCodeMemory. { SVC_VERIFY_DS, 0x39194, _NOP(), NULL }, // Disable SVC verifications. { DEBUG_MODE_EN, 0x460C0, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch. // Atmosphère kernel patches. { ATM_SYSM_INCR, 0x490C4, _MOVZW(21, 0x1D80, LSL16), NULL }, // System memory pool increase. { ATM_GEN_PATCH, ID_SND_OFF_1101, _B(ID_SND_OFF_1101, CODE_OFF_1ST_1100), NULL}, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_1100, sizeof(PRC_ID_SND_1100) >> 2, PRC_ID_SND_1100}, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_1100 + sizeof(PRC_ID_SND_1100), // Branch back and skip 4 instructions. _B(CODE_OFF_1ST_1100 + sizeof(PRC_ID_SND_1100), ID_SND_OFF_1101 + 0x4 * 4), NULL}, { ATM_GEN_PATCH, ID_RCV_OFF_1101, _B(ID_RCV_OFF_1101, CODE_OFF_2ND_1100), NULL}, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_1100, sizeof(PRC_ID_RCV_1100) >> 2, PRC_ID_RCV_1100}, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_1100 + sizeof(PRC_ID_RCV_1100), // Branch back and skip 4 instructions. _B(CODE_OFF_2ND_1100 + sizeof(PRC_ID_RCV_1100), ID_RCV_OFF_1101 + 0x4 * 4), NULL} ); KERNEL_PATCHSET_DEF(_kernel_12_patchset, { SVC_GENERIC, 0x2FCB4, _NOP(), NULL }, // Allow same process on svcControlCodeMemory. { SVC_VERIFY_DS, 0x38440, _NOP(), NULL }, // Disable SVC verifications. { DEBUG_MODE_EN, 0x45118, _MOVZX(8, 1, 0), NULL }, // Enable Debug Patch. // Atmosphère kernel patches. { ATM_SYSM_INCR, 0x4809C, _MOVZW(21, 0x1D80, LSL16), NULL }, // System memory pool increase. { ATM_GEN_PATCH, ID_SND_OFF_1200, _B(ID_SND_OFF_1200, CODE_OFF_1ST_1200), NULL}, // Send process id branch. { ATM_ARR_PATCH, CODE_OFF_1ST_1200, sizeof(PRC_ID_SND_1200) >> 2, PRC_ID_SND_1200}, // Send process id code. { ATM_GEN_PATCH, CODE_OFF_1ST_1200 + sizeof(PRC_ID_SND_1200), // Branch back and skip 4 instructions. _B(CODE_OFF_1ST_1200 + sizeof(PRC_ID_SND_1200), ID_SND_OFF_1200 + 0x4 * 4), NULL}, { ATM_GEN_PATCH, ID_RCV_OFF_1200, _B(ID_RCV_OFF_1200, CODE_OFF_2ND_1200), NULL}, // Receive process id branch. { ATM_ARR_PATCH, CODE_OFF_2ND_1200, sizeof(PRC_ID_RCV_1200) >> 2, PRC_ID_RCV_1200}, // Receive process id code. { ATM_GEN_PATCH, CODE_OFF_2ND_1200 + sizeof(PRC_ID_RCV_1200), // Branch back and skip 4 instructions. _B(CODE_OFF_2ND_1200 + sizeof(PRC_ID_RCV_1200), ID_RCV_OFF_1200 + 0x4 * 4), NULL} ); // Kernel sha256 hashes. Offset 0x800 up to INI1 start. static const pkg2_kernel_id_t _pkg2_kernel_ids[] = { { "\xb8\xc5\x0c\x68\x25\xa9\xb9\x5b", _kernel_1_patchset }, // 1.0.0 { "\x64\x0b\x51\xff\x28\x01\xb8\x30", _kernel_2_patchset }, // 2.0.0 - 2.3.0 { "\x50\x84\x23\xac\x6f\xa1\x5d\x3b", _kernel_3_patchset }, // 3.0.0 - 3.0.1 { "\x81\x9d\x08\xbe\xe4\x5e\x1f\xbb", _kernel_302_patchset }, // 3.0.2 { "\xe6\xc0\xb7\xe3\x2f\xf9\x44\x51", _kernel_4_patchset }, // 4.0.0 - 4.1.0 { "\xb2\x38\x61\xa8\xe1\xe2\xe4\xe4", _kernel_5_patchset }, // 5.0.0 - 5.1.0 { "\x85\x97\x40\xf6\xc0\x3e\x3d\x44", _kernel_6_patchset }, // 6.0.0 - 6.2.0 { "\xa2\x5e\x47\x0c\x8e\x6d\x2f\xd7", _kernel_7_patchset }, // 7.0.0 - 7.0.1 { "\xf1\x5e\xc8\x34\xfd\x68\xf0\xf0", _kernel_8_patchset }, // 8.0.0 - 8.1.0. Kernel only. { "\x69\x00\x39\xdf\x21\x56\x70\x6b", _kernel_9_patchset }, // 9.0.0 - 9.1.0. Kernel only. { "\xa2\xe3\xad\x1c\x98\xd8\x7a\x62", _kernel_9_patchset }, // 9.2.0. Kernel only. { "\x21\xc1\xd7\x24\x8e\xcd\xbd\xa8", _kernel_10_patchset }, // 10.0.0 - 10.2.0. Kernel only. { "\xD5\xD0\xBA\x5D\x52\xB9\x77\x85", _kernel_11_patchset }, // 11.0.0. Kernel only. { "\xF8\x1E\xE0\x30\x3C\x7A\x08\x04", _kernel_1101_patchset },// 11.0.1. Kernel only. { "\xA6\xD8\xFF\xF3\x67\x4A\x33\xFC", _kernel_12_patchset }, // 12.0.0 - 12.1.0. Kernel only. //! TODO: Mesosphere is now mandatory. Missing patches: 13.0.0+ }; #define KIP1_FS_NOGC_PATCH_SDMMC3 "\x80" // Replace SDMMC2 with SDMMC3. #define KIP1_FS_NOGC_PATCH_NOINIT "\xE0\x03\x1F\x2A\xC0\x03\x5F\xD6" // All kip patch offsets are without the 0x100-sized header. static const kip1_patchset_t _fs_patches_100[] = { { "nogc", NULL }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_40x[] = { { KPS(KIP_TEXT) | 0xA3459, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0xAAB44, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_40x[] = { { "nogc", _fs_nogc_40x }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_410[] = { { KPS(KIP_TEXT) | 0xA34BD, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0xAABA8, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_410[] = { { "nogc", _fs_nogc_410 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_50x[] = { { KPS(KIP_TEXT) | 0xCF3C5, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0xD73A0, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_50x[] = { { "nogc", _fs_nogc_50x }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_510[] = { { KPS(KIP_TEXT) | 0xCF795, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0xD7770, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_510[] = { { "nogc", _fs_nogc_510 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_600[] = { { KPS(KIP_TEXT) | 0x12CC20, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x1538F5, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patch_t _fs_nogc_600_exfat[] = { { KPS(KIP_TEXT) | 0x138320, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x15EFF5, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_600[] = { { "nogc", _fs_nogc_600 }, { NULL, NULL } }; static const kip1_patchset_t _fs_patches_600_exfat[] = { { "nogc", _fs_nogc_600_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_700[] = { { KPS(KIP_TEXT) | 0x134160, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x15BF05, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patch_t _fs_nogc_700_exfat[] = { { KPS(KIP_TEXT) | 0x13F710, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x1674B5, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_700[] = { { "nogc", _fs_nogc_700 }, { NULL, NULL } }; static const kip1_patchset_t _fs_patches_700_exfat[] = { { "nogc", _fs_nogc_700_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_800[] = { { KPS(KIP_TEXT) | 0x136800, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x15EB95, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patch_t _fs_nogc_800_exfat[] = { { KPS(KIP_TEXT) | 0x141DB0, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x16A145, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_800[] = { { "nogc", _fs_nogc_800 }, { NULL, NULL } }; static const kip1_patchset_t _fs_patches_800_exfat[] = { { "nogc", _fs_nogc_800_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_900[] = { { KPS(KIP_TEXT) | 0x129420, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x143269, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_900[] = { { "nogc", _fs_nogc_900 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_910[] = { { KPS(KIP_TEXT) | 0x129430, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x143279, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_910[] = { { "nogc", _fs_nogc_910 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1000[] = { { KPS(KIP_TEXT) | 0x13BE90, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x14DE09, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1000[] = { { "nogc", _fs_nogc_1000 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1020[] = { { KPS(KIP_TEXT) | 0x13C2F0, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x14E269, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1020[] = { { "nogc", _fs_nogc_1020 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1100[] = { { KPS(KIP_TEXT) | 0x1398B4, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x156EB9, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1100[] = { { "nogc", _fs_nogc_1100 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1200[] = { { KPS(KIP_TEXT) | 0x13EA24, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x155369, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1200[] = { { "nogc", _fs_nogc_1200 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1203[] = { { KPS(KIP_TEXT) | 0x13EB34, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x155479, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1203[] = { { "nogc", _fs_nogc_1203 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1300[] = { { KPS(KIP_TEXT) | 0x1425D0, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x159019, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1300[] = { { "nogc", _fs_nogc_1300 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1310[] = { { KPS(KIP_TEXT) | 0x142570, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x158FB9, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1310[] = { { "nogc", _fs_nogc_1310 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1400[] = { { KPS(KIP_TEXT) | 0x164230, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x18A2E9, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1400[] = { { "nogc", _fs_nogc_1400 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1400_exfat[] = { { KPS(KIP_TEXT) | 0x16F5B0, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x195669, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1400_exfat[] = { { "nogc", _fs_nogc_1400_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1500[] = { { KPS(KIP_TEXT) | 0x15ECE4, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x184159, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1500[] = { { "nogc", _fs_nogc_1500 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1500_exfat[] = { { KPS(KIP_TEXT) | 0x169C74, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x18F0E9, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1500_exfat[] = { { "nogc", _fs_nogc_1500_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1600[] = { { KPS(KIP_TEXT) | 0x160B70, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x1865D9, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1600[] = { { "nogc", _fs_nogc_1600 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1600_exfat[] = { { KPS(KIP_TEXT) | 0x16B850, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x1912B9, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1600_exfat[] = { { "nogc", _fs_nogc_1600_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1603[] = { { KPS(KIP_TEXT) | 0x160BC0, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x186629, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1603[] = { { "nogc", _fs_nogc_1603 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1603_exfat[] = { { KPS(KIP_TEXT) | 0x16B8A0, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x191309, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1603_exfat[] = { { "nogc", _fs_nogc_1603_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1700[] = { { KPS(KIP_TEXT) | 0x165100, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x18B049, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1700[] = { { "nogc", _fs_nogc_1700 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1700_exfat[] = { { KPS(KIP_TEXT) | 0x16FF60, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x195EA9, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1700_exfat[] = { { "nogc", _fs_nogc_1700_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1800[] = { { KPS(KIP_TEXT) | 0x164A50, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x18AE49, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1800[] = { { "nogc", _fs_nogc_1800 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1800_exfat[] = { { KPS(KIP_TEXT) | 0x16FAE0, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x195ED9, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1800_exfat[] = { { "nogc", _fs_nogc_1800_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1900[] = { { KPS(KIP_TEXT) | 0x16F070, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x195B75, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0x195D75, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1900[] = { { "nogc", _fs_nogc_1900 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_1900_exfat[] = { { KPS(KIP_TEXT) | 0x17A8A0, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x1A13A5, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0x1A15A5, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_1900_exfat[] = { { "nogc", _fs_nogc_1900_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_2000[] = { { KPS(KIP_TEXT) | 0x17C150, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x1A7D25, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0x1A7F25, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_2000[] = { { "nogc", _fs_nogc_2000 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_2000_exfat[] = { { KPS(KIP_TEXT) | 0x187A70, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x1B3645, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0x1B3845, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_2000_exfat[] = { { "nogc", _fs_nogc_2000_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_2100[] = { { KPS(KIP_TEXT) | 0x17FAE0, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x1AC8ED, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0x1AC905, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_2100[] = { { "nogc", _fs_nogc_2100 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_2100_exfat[] = { { KPS(KIP_TEXT) | 0x18AC40, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x1B7A4D, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0x1B7A65, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_2100_exfat[] = { { "nogc", _fs_nogc_2100_exfat }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_2200[] = { { KPS(KIP_TEXT) | 0x182F60, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x1B013D, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0x1B0155, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_2200[] = { { "nogc", _fs_nogc_2200 }, { NULL, NULL } }; static const kip1_patch_t _fs_nogc_2200_exfat[] = { { KPS(KIP_TEXT) | 0x18E150, 8, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_NOINIT }, { KPS(KIP_TEXT) | 0x1BB32D, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { KPS(KIP_TEXT) | 0x1BB345, 1, KIP1_PATCH_SRC_NO_CHECK, KIP1_FS_NOGC_PATCH_SDMMC3 }, { 0, 0, NULL, NULL } }; static const kip1_patchset_t _fs_patches_2200_exfat[] = { { "nogc", _fs_nogc_2200_exfat }, { NULL, NULL } }; // SHA256 hashes. static const kip1_id_t _kip_ids[] = { { "FS", "\xDE\x9F\xDD\xA4\x08\x5D\xD5\xFE", _fs_patches_100 }, // FS 1.0.0 { "FS", "\xFC\x3E\x80\x99\x1D\xCA\x17\x96", _fs_patches_100 }, // FS 1.0.0 exFAT { "FS", "\xCD\x7B\xBE\x18\xD6\x13\x0B\x28", _fs_patches_100 }, // FS 2.0.0 { "FS", "\xE7\x66\x92\xDF\xAA\x04\x20\xE9", _fs_patches_100 }, // FS 2.0.0 exFAT { "FS", "\x0D\x70\x05\x62\x7B\x07\x76\x7C", _fs_patches_100 }, // FS 2.1.0 { "FS", "\xDB\xD8\x5F\xCA\xCC\x19\x3D\xA8", _fs_patches_100 }, // FS 2.1.0 exFAT { "FS", "\xA8\x6D\xA5\xE8\x7E\xF1\x09\x7B", _fs_patches_100 }, // FS 3.0.0 { "FS", "\x98\x1C\x57\xE7\xF0\x2F\x70\xF7", _fs_patches_100 }, // FS 3.0.0 exFAT { "FS", "\x57\x39\x7C\x06\x3F\x10\xB6\x31", _fs_patches_100 }, // FS 3.0.1 { "FS", "\x07\x30\x99\xD7\xC6\xAD\x7D\x89", _fs_patches_100 }, // FS 3.0.1 exFAT { "FS", "\x06\xE9\x07\x19\x59\x5A\x01\x0C", _fs_patches_40x }, // FS 4.0.1 { "FS", "\x54\x9B\x0F\x8D\x6F\x72\xC4\xE9", _fs_patches_40x }, // FS 4.0.1 exFAT { "FS", "\x80\x96\xAF\x7C\x6A\x35\xAA\x82", _fs_patches_410 }, // FS 4.1.0 { "FS", "\x02\xD5\xAB\xAA\xFD\x20\xC8\xB0", _fs_patches_410 }, // FS 4.1.0 exFAT { "FS", "\xA6\xF2\x7A\xD9\xAC\x7C\x73\xAD", _fs_patches_50x }, // FS 5.0.0 { "FS", "\xCE\x3E\xCB\xA2\xF2\xF0\x62\xF5", _fs_patches_50x }, // FS 5.0.0 exFAT { "FS", "\x76\xF8\x74\x02\xC9\x38\x7C\x0F", _fs_patches_510 }, // FS 5.1.0 { "FS", "\x10\xB2\xD8\x16\x05\x48\x85\x99", _fs_patches_510 }, // FS 5.1.0 exFAT { "FS", "\x1B\x82\xCB\x22\x18\x67\xCB\x52", _fs_patches_600 }, // FS 6.0.0-4.0 { "FS", "\x96\x6A\xDD\x3D\x20\xB6\x27\x13", _fs_patches_600_exfat }, // FS 6.0.0-4.0 exFAT { "FS", "\x3A\x57\x4D\x43\x61\x86\x19\x1D", _fs_patches_600 }, // FS 6.0.0-5.0 { "FS", "\x33\x05\x53\xF6\xB5\xFB\x55\xC4", _fs_patches_600_exfat }, // FS 6.0.0-5.0 exFAT { "FS", "\x2A\xDB\xE9\x7E\x9B\x5F\x41\x77", _fs_patches_700 }, // FS 7.0.0 { "FS", "\x2C\xCE\x65\x9C\xEC\x53\x6A\x8E", _fs_patches_700_exfat }, // FS 7.0.0 exFAT { "FS", "\xB2\xF5\x17\x6B\x35\x48\x36\x4D", _fs_patches_800 }, // FS 8.0.0 { "FS", "\xDB\xD9\x41\xC0\xC5\x3C\x52\xCC", _fs_patches_800_exfat }, // FS 8.0.0 exFAT { "FS", "\x6B\x09\xB6\x7B\x29\xC0\x20\x24", _fs_patches_800 }, // FS 8.1.0 { "FS", "\xB4\xCA\xE1\xF2\x49\x65\xD9\x2E", _fs_patches_800_exfat }, // FS 8.1.0 exFAT { "FS", "\x46\x87\x40\x76\x1E\x19\x3E\xB7", _fs_patches_900 }, // FS 9.0.0 { "FS", "\x7C\x95\x13\x76\xE5\xC1\x2D\xF8", _fs_patches_900 }, // FS 9.0.0 exFAT { "FS", "\xB5\xE7\xA6\x4C\x6F\x5C\x4F\xE3", _fs_patches_910 }, // FS 9.1.0 { "FS", "\xF1\x96\xD1\x44\xD0\x44\x45\xB6", _fs_patches_910 }, // FS 9.1.0 exFAT { "FS", "\x3E\xEB\xD9\xB7\xBC\xD1\xB5\xE0", _fs_patches_1000 }, // FS 10.0.0 { "FS", "\x81\x7E\xA2\xB0\xB7\x02\xC1\xF3", _fs_patches_1000 }, // FS 10.0.0 exFAT { "FS", "\xA9\x52\xB6\x57\xAD\xF9\xC2\xBA", _fs_patches_1020 }, // FS 10.2.0 { "FS", "\x16\x0D\x3E\x10\x4E\xAD\x61\x76", _fs_patches_1020 }, // FS 10.2.0 exFAT { "FS", "\xE3\x99\x15\x6E\x84\x4E\xB0\xAA", _fs_patches_1100 }, // FS 11.0.0 { "FS", "\x0B\xA1\x5B\xB3\x04\xB5\x05\x63", _fs_patches_1100 }, // FS 11.0.0 exFAT { "FS", "\xDC\x2A\x08\x49\x96\xBB\x3C\x01", _fs_patches_1200 }, // FS 12.0.0 { "FS", "\xD5\xA5\xBF\x36\x64\x0C\x49\xEA", _fs_patches_1200 }, // FS 12.0.0 exFAT { "FS", "\xC8\x67\x62\xBE\x19\xA5\x1F\xA0", _fs_patches_1203 }, // FS 12.0.3 { "FS", "\xE1\xE8\xD3\xD6\xA2\xFE\x0B\x10", _fs_patches_1203 }, // FS 12.0.3 exFAT { "FS", "\x7D\x20\x05\x47\x17\x8A\x83\x6A", _fs_patches_1300 }, // FS 13.0.0 { "FS", "\x51\xEB\xFA\x9C\xCF\x66\xC0\x9E", _fs_patches_1300 }, // FS 13.0.0 exFAT { "FS", "\x91\xBA\x65\xA2\x1C\x1D\x50\xAE", _fs_patches_1310 }, // FS 13.1.0 { "FS", "\x76\x38\x27\xEE\x9C\x20\x7E\x5B", _fs_patches_1310 }, // FS 13.1.0 exFAT { "FS", "\x88\x7A\xC1\x50\x80\x6C\x75\xCC", _fs_patches_1400 }, // FS 14.0.0 { "FS", "\xD4\x88\xD1\xF2\x92\x17\x35\x5C", _fs_patches_1400_exfat }, // FS 14.0.0 exFAT { "FS", "\xD0\xD4\x49\x18\x14\xB5\x62\xAF", _fs_patches_1500 }, // FS 15.0.0 { "FS", "\x34\xC0\xD9\xED\x6A\xD1\x87\x3D", _fs_patches_1500_exfat }, // FS 15.0.0 exFAT { "FS", "\x56\xE8\x56\x56\x6C\x38\xD8\xBE", _fs_patches_1600 }, // FS 16.0.0 { "FS", "\xCF\xAB\x45\x0C\x2C\x53\x9D\xA9", _fs_patches_1600_exfat }, // FS 16.0.0 exFAT { "FS", "\x39\xEE\x1F\x1E\x0E\xA7\x32\x5D", _fs_patches_1603 }, // FS 16.0.3 { "FS", "\x62\xC6\x5E\xFD\x9A\xBF\x7C\x43", _fs_patches_1603_exfat }, // FS 16.0.3 exFAT { "FS", "\x27\x07\x3B\xF0\xA1\xB8\xCE\x61", _fs_patches_1700 }, // FS 17.0.0 { "FS", "\xEE\x0F\x4B\xAC\x6D\x1F\xFC\x4B", _fs_patches_1700_exfat }, // FS 17.0.0 exFAT { "FS", "\x79\x5F\x5A\x5E\xB0\xC6\x77\x9E", _fs_patches_1800 }, // FS 18.0.0 { "FS", "\x1E\x2C\x64\xB1\xCC\xE2\x78\x24", _fs_patches_1800_exfat }, // FS 18.0.0 exFAT { "FS", "\xA3\x39\xF0\x1C\x95\xBF\xA7\x68", _fs_patches_1800 }, // FS 18.1.0 { "FS", "\x20\x4C\xBA\x86\xDE\x08\x44\x6A", _fs_patches_1800_exfat }, // FS 18.1.0 exFAT { "FS", "\xD9\x4C\x68\x15\xF8\xF5\x0A\x20", _fs_patches_1900 }, // FS 19.0.0 { "FS", "\xED\xA8\x78\x68\xA4\x49\x07\x50", _fs_patches_1900_exfat }, // FS 19.0.0 exFAT { "FS", "\x63\x54\x96\x9E\x60\xA7\x97\x7B", _fs_patches_2000 }, // FS 20.0.0 { "FS", "\x47\x41\x07\x10\x65\x4F\xA4\x3F", _fs_patches_2000_exfat }, // FS 20.0.0 exFAT { "FS", "\xED\x34\xB4\x50\x58\x4A\x5B\x43", _fs_patches_2000 }, // FS 20.1.0 { "FS", "\xA5\x1A\xA4\x92\x6C\x41\x87\x59", _fs_patches_2000_exfat }, // FS 20.1.0 exFAT { "FS", "\xEE\x4B\x30\x12\xA6\x84\x02\x25", _fs_patches_2100 }, // FS 21.0.0 { "FS", "\x6E\x2B\xD9\xBA\xA3\xB9\x10\xF1", _fs_patches_2100_exfat }, // FS 21.0.0 exFAT { "FS", "\xAF\x1D\xBD\xC7\x82\x98\x3C\xBD", _fs_patches_2100 }, // FS 21.2.0 { "FS", "\x56\x25\x17\xA1\x92\xC3\xC8\xF0", _fs_patches_2100_exfat }, // FS 21.2.0 exFAT { "FS", "\xB7\xA2\x97\x39\xB7\xED\xDE\xFC", _fs_patches_2200 }, // FS 22.0.0 { "FS", "\xFB\x0B\x68\xDB\x24\x03\xD1\x19", _fs_patches_2200_exfat }, // FS 22.0.0 exFAT }; ================================================ FILE: bootloader/hos/pkg3.c ================================================ /* * Atmosphère Package 3 parser. * * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "pkg3.h" #include "hos.h" #include "../config.h" #include #include "../storage/emummc.h" //#define DPRINTF(...) gfx_printf(__VA_ARGS__) #define DPRINTF(...) extern bool is_ipl_updated(void *buf, u32 size, const char *path, bool force); #define PKG3_KIP_SKIP_MAX 16 // PKG3 Magic and Meta header offset. #define PKG3_MAGIC 0x30535346 // FSS0. #define PKG3_META_OFFSET 0x4 #define PKG3_VERSION_0_17_0 0x110000 // PKG3 Content Types. #define CNT_TYPE_FSP 0 #define CNT_TYPE_EXO 1 // Exosphere (Secure Monitor). #define CNT_TYPE_WBT 2 // Warmboot (SC7Exit fw). #define CNT_TYPE_RBT 3 // Rebootstub (Warmboot based reboot fw). #define CNT_TYPE_SP1 4 // Sept Primary (TSEC and Sept Secondary loader). #define CNT_TYPE_SP2 5 // Sept Secondary (Acts as pkg11 and derives keys). #define CNT_TYPE_KIP 6 // KIP1 (Used for replacement or addition). #define CNT_TYPE_BMP 7 #define CNT_TYPE_EMC 8 #define CNT_TYPE_KLD 9 // Kernel Loader. #define CNT_TYPE_KRN 10 // Kernel. #define CNT_TYPE_EXF 11 // Exosphere Mariko fatal payload. #define CNT_TYPE_TKG 12 // Tsec Keygen. // PKG3 Content Flags. #define CNT_FLAG0_EXPERIMENTAL BIT(0) // PKG3 Meta Header. typedef struct _pkg3_meta_t { u32 magic; u32 size; u32 crt0_off; u32 cnt_off; u32 cnt_count; u32 hos_ver; u32 version; u32 git_rev; } pkg3_meta_t; // PKG3 Content Header. typedef struct _pkg3_content_t { u32 offset; u32 size; u8 type; u8 flags0; u8 flags1; u8 flags2; u32 rsvd1; char name[0x10]; } pkg3_content_t; static void _pkg3_update_r2p() { u32 size = 0; u8 *r2p_payload = sd_file_read("atmosphere/reboot_payload.bin", &size); is_ipl_updated(r2p_payload, size, "atmosphere/reboot_payload.bin", h_cfg.updater2p ? true : false); free(r2p_payload); } static int _pkg3_kip1_skip(char ***pkg3_kip1_skip, u32 *pkg3_kip1_skip_num, char *value) { int len = strlen(value); if (!len || (*pkg3_kip1_skip_num) >= PKG3_KIP_SKIP_MAX) return 1; // Allocate pointer list memory. if (!(*pkg3_kip1_skip)) (*pkg3_kip1_skip) = zalloc(PKG3_KIP_SKIP_MAX * sizeof(char *)); // Set first kip name. (*pkg3_kip1_skip)[(*pkg3_kip1_skip_num)++] = value; // Check if more names are set separated by comma. for (char *c = value; *c != 0; c++) { if (*c == ',') { *c = 0; // Null termination. // Set next kip name to the list. (*pkg3_kip1_skip)[(*pkg3_kip1_skip_num)++] = c + 1; if ((*pkg3_kip1_skip_num) >= PKG3_KIP_SKIP_MAX) return 1; } } return 0; } int parse_pkg3(launch_ctxt_t *ctxt, const char *path) { FIL fp; char **pkg3_kip1_skip = NULL; u32 pkg3_kip1_skip_num = 0; bool stock = false; bool experimental = false; // Skip if stock and Exosphere and warmboot are not needed. bool pkg1_old = ctxt->pkg1_id->mkey <= HOS_MKEY_VER_620; // Should check if t210b01? bool emummc_disabled = !emu_cfg.enabled || h_cfg.emummc_force_disable; LIST_FOREACH_ENTRY(ini_kv_t, kv, &ctxt->cfg->kvs, link) { if (!strcmp("stock", kv->key)) if (kv->val[0] == '1') stock = true; if (!strcmp("pkg3ex", kv->key)) if (kv->val[0] == '1') experimental = true; if (!strcmp("pkg3kip1skip", kv->key)) _pkg3_kip1_skip(&pkg3_kip1_skip, &pkg3_kip1_skip_num, kv->val); } #ifdef HOS_MARIKO_STOCK_SECMON if (stock && emummc_disabled && (pkg1_old || h_cfg.t210b01)) return 0; #else if (stock && emummc_disabled && pkg1_old) return 0; #endif // Try to open PKG3. if (f_open(&fp, path, FA_READ) != FR_OK) return 1; void *pkg3 = malloc(f_size(&fp)); // Read first 1024 bytes of the PKG3 file. f_read(&fp, pkg3, 1024, NULL); // Get PKG3 Meta header offset. u32 pkg3_meta_addr = *(u32 *)(pkg3 + PKG3_META_OFFSET); pkg3_meta_t *pkg3_meta = (pkg3_meta_t *)(pkg3 + pkg3_meta_addr); // Check if valid PKG3 and parse it. if (pkg3_meta->magic == PKG3_MAGIC) { gfx_printf("Atmosphere %d.%d.%d-%08x via PKG3\n" "Max HOS: %d.%d.%d\n" "Unpacking.. ", pkg3_meta->version >> 24, (pkg3_meta->version >> 16) & 0xFF, (pkg3_meta->version >> 8) & 0xFF, pkg3_meta->git_rev, pkg3_meta->hos_ver >> 24, (pkg3_meta->hos_ver >> 16) & 0xFF, (pkg3_meta->hos_ver >> 8) & 0xFF); ctxt->patch_krn_proc_id = true; ctxt->pkg3_hosver = pkg3_meta->hos_ver; // Parse PKG3 contents. pkg3_content_t *curr_pkg3_cnt = (pkg3_content_t *)(pkg3 + pkg3_meta->cnt_off); void *content; for (u32 i = 0; i < pkg3_meta->cnt_count; i++) { content = (void *)(pkg3 + curr_pkg3_cnt[i].offset); // Check if offset is inside limits. if ((curr_pkg3_cnt[i].offset + curr_pkg3_cnt[i].size) > pkg3_meta->size) continue; // If content is experimental and experimental config is not enabled, skip it. if ((curr_pkg3_cnt[i].flags0 & CNT_FLAG0_EXPERIMENTAL) && !experimental) continue; // Prepare content. switch (curr_pkg3_cnt[i].type) { case CNT_TYPE_KIP: if (stock) continue; bool should_skip = false; for (u32 k = 0; k < pkg3_kip1_skip_num; k++) { if (!strcmp(curr_pkg3_cnt[i].name, pkg3_kip1_skip[k])) { gfx_printf("Skipped %s.kip1 from PKG3\n", curr_pkg3_cnt[i].name); should_skip = true; break; } } if (should_skip) continue; merge_kip_t *mkip1 = (merge_kip_t *)malloc(sizeof(merge_kip_t)); mkip1->kip1 = content; list_append(&ctxt->kip1_list, &mkip1->link); DPRINTF("Loaded %s.kip1 from PKG3 (size %08X)\n", curr_pkg3_cnt[i].name, curr_pkg3_cnt[i].size); break; case CNT_TYPE_KRN: if (stock) continue; ctxt->kernel_size = curr_pkg3_cnt[i].size; ctxt->kernel = content; break; case CNT_TYPE_EXO: ctxt->secmon_size = curr_pkg3_cnt[i].size; ctxt->secmon = content; break; case CNT_TYPE_EXF: ctxt->exofatal_size = curr_pkg3_cnt[i].size; ctxt->exofatal = content; break; case CNT_TYPE_WBT: if (h_cfg.t210b01) continue; ctxt->warmboot_size = curr_pkg3_cnt[i].size; ctxt->warmboot = content; break; default: continue; } // Load content to launch context. f_lseek(&fp, curr_pkg3_cnt[i].offset); f_read(&fp, content, curr_pkg3_cnt[i].size, NULL); } gfx_printf("Done!\n"); f_close(&fp); ctxt->pkg3 = pkg3; // Update r2p if needed. _pkg3_update_r2p(); free(pkg3_kip1_skip); return 0; } // Failed. Close and free all. f_close(&fp); free(pkg3_kip1_skip); free(pkg3); return 1; } ================================================ FILE: bootloader/hos/pkg3.h ================================================ /* * Copyright (c) 2019-2021 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _PKG3_H_ #define _PKG3_H_ #include "hos.h" int parse_pkg3(launch_ctxt_t *ctxt, const char *path); #endif ================================================ FILE: bootloader/hos/secmon_exo.c ================================================ /* * Copyright (c) 2018-2026 CTCaer * Copyright (c) 2019 Atmosphère-NX * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include "hos.h" #include "../config.h" #include #include "../storage/emummc.h" enum emuMMC_Type { emuMMC_None = 0, emuMMC_Partition, emuMMC_File, emuMMC_MAX }; /* "EFS0" */ #define EMUMMC_MAGIC 0x30534645 #define EMUMMC_FILE_PATH_MAX 0x80 typedef struct { u32 magic; u32 type; u32 id; u32 fs_ver; } emummc_base_config_t; typedef struct { u64 start_sector; } emummc_partition_config_t; typedef struct { char path[EMUMMC_FILE_PATH_MAX]; } emummc_file_config_t; typedef struct { emummc_base_config_t base_cfg; union { emummc_partition_config_t partition_cfg; emummc_file_config_t file_cfg; }; char nintendo_path[EMUMMC_FILE_PATH_MAX]; } exo_emummc_config_t; typedef struct _exo_cfg_t { u32 magic; u32 fwno; u32 flags[2]; u16 display_id; u8 uart_port; u8 uart_invert; u32 uart_baudrate; u32 rsvd1[2]; exo_emummc_config_t emummc_cfg; } exo_cfg_t; typedef struct _atm_meta_t { u32 magic; u32 fwno; } wb_cfg_t; // Atmosphère reboot-to-fatal-error. typedef struct _atm_fatal_error_ctx { u32 magic; u32 error_desc; u64 title_id; union { u64 gprs[32]; struct { u64 _gprs[29]; u64 fp; u64 lr; u64 sp; }; }; u64 pc; u64 module_base; u32 pstate; u32 afsr0; u32 afsr1; u32 esr; u64 far; u64 report_identifier; // Normally just system tick. u64 stack_trace_size; u64 stack_dump_size; u64 stack_trace[0x20]; u8 stack_dump[0x100]; u8 tls[0x100]; } atm_fatal_error_ctx; #define ATM_FATAL_ERR_CTX_ADDR 0x4003E000 #define ATM_FATAL_MAGIC 0x30454641 // AFE0 #define ATM_EXO_FATAL_ADDR 0x80020000 #define ATM_EXO_FATAL_SIZE SZ_128K #define ATM_WB_HEADER_OFF 0x244 #define ATM_WB_MAGIC 0x30544257 // WBT0 // Exosphère mailbox defines. #define EXO_CFG_ADDR 0x8000F000 #define EXO_MAGIC_VAL 0x304F5845 #define EXO_FLAG_DBG_PRIV BIT(1) #define EXO_FLAG_DBG_USER BIT(2) #define EXO_FLAG_NO_USER_EXC BIT(3) #define EXO_FLAG_USER_PMU BIT(4) #define EXO_FLAG_CAL0_BLANKING BIT(5) #define EXO_FLAG_CAL0_WRITES_SYS BIT(6) #define EXO_FLAG_ENABLE_USB3 BIT(7) #define EXO_FLAG_BC_MEM_MODE BIT(8) #define EXO_FW_VER(mj, mn) (((mj) << 24) | ((mn) << 16)) void config_exosphere(launch_ctxt_t *ctxt, u32 warmboot_base) { u32 exo_fw_no; u32 exo_flags = 0; bool usb3_force = false; bool user_debug = false; bool bc_mem_mode = false; bool cal0_blanking = false; bool cal0_allow_writes_sys = false; memset((exo_cfg_t *)EXO_CFG_ADDR, 0, sizeof(exo_cfg_t)); volatile exo_cfg_t *exo_cfg = (exo_cfg_t *)EXO_CFG_ADDR; //! TODO: Replace current HOS version decoding (as it's bound to break in the future). // Old exosphere target versioning. if (ctxt->pkg1_id->mkey >= HOS_MKEY_VER_1210) // 12.1.0+ exo_fw_no = ctxt->pkg1_id->mkey + 4; else if (ctxt->pkg1_id->fuses <= 3 || ctxt->pkg1_id->fuses >= 10) // 1.0.0 - 3.0.0, 8.1.0 - 12.0.3. exo_fw_no = ctxt->pkg1_id->fuses; else exo_fw_no = ctxt->pkg1_id->fuses - 1; // 3.0.1 - 7.0.1, 8.0.x. // Handle versions that change API and do not burn new fuse. if (!memcmp(ctxt->pkg1_id->id, "20190314", 8) || // 8.0.x, same fuses with 7.0.1. !memcmp(ctxt->pkg1_id->id, "20210129", 8) // 12.0.0, same fuses with 11.0.0. ) exo_fw_no++; // Set 12.1.0 specific revision. if (ctxt->pkg1_id->mkey == HOS_MKEY_VER_1210) ctxt->exo_ctx.hos_revision = 1; // Feed old exosphere target versioning to new. switch (exo_fw_no) { case 1 ... 4: case 6: exo_fw_no = EXO_FW_VER(exo_fw_no, 0); break; case 5: exo_fw_no = EXO_FW_VER(5, ctxt->exo_ctx.hos_revision); break; case 7: exo_fw_no = EXO_FW_VER(6, 2); break; case 8 ... 9: exo_fw_no = EXO_FW_VER(exo_fw_no - 1, 0); break; case 10: exo_fw_no = EXO_FW_VER(8, 1); break; case 11: exo_fw_no = EXO_FW_VER(9, 0); break; case 12: exo_fw_no = EXO_FW_VER(9, 1); break; case 13 ... 25: //!TODO: Update on API changes. 25: 22.0.0. exo_fw_no = EXO_FW_VER(exo_fw_no - 3, ctxt->exo_ctx.hos_revision); break; } // Parse exosphere.ini. if (!ctxt->stock) { LIST_INIT(ini_exo_sections); if (!ini_parse(&ini_exo_sections, "exosphere.ini", false)) { LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_exo_sections, link) { // Only parse exosphere section. if (!(ini_sec->type == INI_CHOICE) || strcmp(ini_sec->name, "exosphere")) continue; LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { if (!strcmp("debugmode_user", kv->key)) user_debug = atoi(kv->val); else if (!strcmp("log_port", kv->key)) exo_cfg->uart_port = atoi(kv->val); else if (!strcmp("log_inverted", kv->key)) exo_cfg->uart_invert = atoi(kv->val); else if (!strcmp("log_baud_rate", kv->key)) exo_cfg->uart_baudrate = atoi(kv->val); else if (!strcmp("enable_mem_mode", kv->key)) bc_mem_mode = atoi(kv->val); else if (emu_cfg.enabled && !h_cfg.emummc_force_disable) { if (!strcmp("blank_prodinfo_emummc", kv->key)) cal0_blanking = atoi(kv->val); } else { if (!strcmp("blank_prodinfo_sysmmc", kv->key)) cal0_blanking = atoi(kv->val); else if (!strcmp("allow_writing_to_cal_sysmmc", kv->key)) cal0_allow_writes_sys = atoi(kv->val); } } break; } } // Parse usb mtim settings. Avoid parsing if it's overridden. if (!ctxt->exo_ctx.usb3_force) { LIST_INIT(ini_sys_sections); if (!ini_parse(&ini_sys_sections, "atmosphere/config/system_settings.ini", false)) { LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_sys_sections, link) { // Only parse usb section. if (!(ini_sec->type == INI_CHOICE) || strcmp(ini_sec->name, "usb")) continue; LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { if (!strcmp("usb30_force_enabled", kv->key)) { usb3_force = !strcmp("u8!0x1", kv->val); break; // Only parse usb30_force_enabled key. } } break; } } } } // Private debug mode always on for CFW mode. if (!ctxt->stock) exo_flags |= EXO_FLAG_DBG_PRIV; // Enable user debug. if (user_debug) exo_flags |= EXO_FLAG_DBG_USER; // Disable proper failure handling. if (ctxt->exo_ctx.no_user_exceptions) exo_flags |= EXO_FLAG_NO_USER_EXC; // Enable user access to PMU. if (ctxt->exo_ctx.user_pmu) exo_flags |= EXO_FLAG_USER_PMU; // Enable Boot Config Memory Mode. Check if system_settings ini value is overridden. If not, check if enabled in ini. if ((ctxt->exo_ctx.force_mem_mode && *ctxt->exo_ctx.force_mem_mode) || (!ctxt->exo_ctx.force_mem_mode && bc_mem_mode)) exo_flags |= EXO_FLAG_BC_MEM_MODE; // Enable USB 3.0. Check if system_settings ini value is overridden. If not, check if enabled in ini. if ((ctxt->exo_ctx.usb3_force && *ctxt->exo_ctx.usb3_force) || (!ctxt->exo_ctx.usb3_force && usb3_force)) exo_flags |= EXO_FLAG_ENABLE_USB3; // Enable prodinfo blanking. Check if exo ini value is overridden. If not, check if enabled in exo ini. if ((ctxt->exo_ctx.cal0_blank && *ctxt->exo_ctx.cal0_blank) || (!ctxt->exo_ctx.cal0_blank && cal0_blanking)) exo_flags |= EXO_FLAG_CAL0_BLANKING; // Allow prodinfo writes. Check if exo ini value is overridden. If not, check if enabled in exo ini. if ((ctxt->exo_ctx.cal0_allow_writes_sys && *ctxt->exo_ctx.cal0_allow_writes_sys) || (!ctxt->exo_ctx.cal0_allow_writes_sys && cal0_allow_writes_sys)) exo_flags |= EXO_FLAG_CAL0_WRITES_SYS; // Set mailbox values. exo_cfg->magic = EXO_MAGIC_VAL; exo_cfg->fwno = exo_fw_no; exo_cfg->flags[0] = exo_flags; // If warmboot is lp0fw, add in RSA modulus. volatile wb_cfg_t *wb_cfg = (wb_cfg_t *)(warmboot_base + ATM_WB_HEADER_OFF); if (wb_cfg->magic == ATM_WB_MAGIC) { wb_cfg->fwno = exo_fw_no; // Set warmboot binary rsa modulus. pkg1_warmboot_rsa_mod(warmboot_base); } if (emu_cfg.enabled && !h_cfg.emummc_force_disable) { exo_cfg->emummc_cfg.base_cfg.magic = EMUMMC_MAGIC; exo_cfg->emummc_cfg.base_cfg.type = emu_cfg.sector ? emuMMC_Partition : emuMMC_File; exo_cfg->emummc_cfg.base_cfg.fs_ver = emu_cfg.fs_ver; exo_cfg->emummc_cfg.base_cfg.id = emu_cfg.id; if (emu_cfg.sector) exo_cfg->emummc_cfg.partition_cfg.start_sector = emu_cfg.sector; else strcpy((char *)exo_cfg->emummc_cfg.file_cfg.path, emu_cfg.path); if (!ctxt->stock && emu_cfg.nintendo_path && emu_cfg.nintendo_path[0]) strcpy((char *)exo_cfg->emummc_cfg.nintendo_path, emu_cfg.nintendo_path); else strcpy((char *)exo_cfg->emummc_cfg.nintendo_path, "Nintendo"); } // Copy over exosphere fatal for Mariko. if (h_cfg.t210b01) { memset((void *)ATM_EXO_FATAL_ADDR, 0, ATM_EXO_FATAL_SIZE); if (ctxt->exofatal) memcpy((void *)ATM_EXO_FATAL_ADDR, ctxt->exofatal, ctxt->exofatal_size); // Set display id. exo_cfg->display_id = display_get_decoded_panel_id(); } #ifdef DEBUG_UART_PORT // Ovverride logging parameters if set in compile time. if (!ctxt->stock) { exo_cfg->uart_port = DEBUG_UART_PORT; exo_cfg->uart_invert = DEBUG_UART_INVERT; exo_cfg->uart_baudrate = DEBUG_UART_BAUDRATE; } #endif } static const char *get_error_desc(u32 error_desc) { switch (error_desc) { case 0x100: return "IABRT"; // Instruction Abort. case 0x101: return "DABRT"; // Data Abort. case 0x102: return "IUA"; // Instruction Unaligned Access. case 0x103: return "DUA"; // Data Unaligned Access. case 0x104: return "UDF"; // Undefined Instruction. case 0x106: return "SYS"; // System Error. case 0x301: return "SVC"; // Bad arguments or unimplemented SVC. case 0xF00: return "KRNL"; // Kernel panic. case 0xFFD: return "SO"; // Stack Overflow. case 0xFFE: return "std::abort"; default: return "UNK"; } } void secmon_exo_check_panic() { volatile atm_fatal_error_ctx *rpt = (atm_fatal_error_ctx *)ATM_FATAL_ERR_CTX_ADDR; // Mask magic to maintain compatibility with any AFE version, thanks to additive struct members. if ((rpt->magic & 0xF0FFFFFF) != ATM_FATAL_MAGIC) return; gfx_clear_grey(0x1B); gfx_con_setpos(0, 0); WPRINTF("Atmosphere panic occurred!\n\n"); WPRINTFARGS("Title ID: %08X%08X", (u32)((u64)rpt->title_id >> 32), (u32)rpt->title_id); WPRINTFARGS("Error: %s (0x%x)\n", get_error_desc(rpt->error_desc), rpt->error_desc); // Save context to the SD card. char filepath[0x40]; f_mkdir("atmosphere/fatal_errors"); strcpy(filepath, "atmosphere/fatal_errors/report_"); itoa((u32)((u64)rpt->report_identifier >> 32), filepath + strlen(filepath), 16); itoa((u32)(rpt->report_identifier), filepath + strlen(filepath), 16); strcat(filepath, ".bin"); if (!sd_save_to_file((void *)rpt, sizeof(atm_fatal_error_ctx), filepath)) { gfx_con.fntsz = 8; WPRINTFARGS("Report saved to %s\n", filepath); gfx_con.fntsz = 16; } // Change magic to invalid, to prevent double-display of error/bootlooping. rpt->magic = 0; gfx_printf("\n\nPress POWER to continue.\n"); gfx_con_setpos(0, 0); display_backlight_brightness(150, 1000); msleep(1000); while (!(btn_wait() & BTN_POWER)) ; } ================================================ FILE: bootloader/hos/secmon_exo.h ================================================ /* * Copyright (c) 2018-2021 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _SECMON_EXO_H_ #define _SECMON_EXO_H_ #include void config_exosphere(launch_ctxt_t *ctxt, u32 warmboot_base); void secmon_exo_check_panic(); #endif ================================================ FILE: bootloader/l4t/l4t.c ================================================ /* * L4T Loader for Tegra X1 * * Copyright (c) 2020-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "../hos/hos.h" #include "../hos/pkg1.h" #include "l4t.h" #include "l4t_config.inl" /* * API Revision info * * 0: Base. * 1: SDMMC1 LA programming for SDMMC1 UHS DDR200. * 2: Arachne Register Cell v1. * 3: Arachne Register Cell v2. PTSA Rework support. * 4: Arachne Register Cell v3. DRAM OPT and DDR200 changes. * 5: Arachne Register Cell v4. DRAM FREQ and DDR200 changes. * 6: Arachne Register Cell v5. Signal quality and performance changes. TZ param changes. * 7: Arachne Register Cell v6. Decouple of rd/wr latencies. */ #define L4T_LOADER_API_REV 7 #define L4T_FIRMWARE_REV 0x37524556 // REV7. #ifdef DEBUG_UART_PORT #include #define UPRINTF(...) uart_printf(__VA_ARGS__) #else #define UPRINTF(...) #endif #if CARVEOUT_NVDEC_TSEC_ENABLE && CARVEOUT_SECFW_ENABLE #error "NVDEC and SECFW carveouts can't be used together!" #endif #if CARVEOUT_NVDEC_TSEC_ENABLE #define TZDRAM_SIZE_CFG SZ_8M #else #define TZDRAM_SIZE_CFG SZ_1M #endif // TZDRAM addresses and sizes. #define TZDRAM_SIZE TZDRAM_SIZE_CFG // Secure Element. #define TZDRAM_BASE (0xFFFFFFFF - TZDRAM_SIZE + 1) // 0xFFF00000 or 0xFF800000. #define TZDRAM_COLD_ENTRY (TZDRAM_BASE) #define TZDRAM_WARM_ENTRY (TZDRAM_BASE + 0x200) #define TZ_PARAM_SIZE SZ_4K #define TZ_PARAM_BASE (0xFFFFFFFF - TZ_PARAM_SIZE + 1) // 0xFFFFF000. // Carveout sizes. #define CARVEOUT_NVDEC_SIZE SZ_1M #define CARVEOUT_TSEC_SIZE SZ_1M #define CARVEOUT_SECFW_SIZE SZ_1M #define CARVEOUT_GPUFW_SIZE SZ_256K #if CARVEOUT_NVDEC_TSEC_ENABLE #define CARVEOUT_GPUWPR_SIZE CARVEOUT_GPUWPR_SIZE_CFG #else #define CARVEOUT_GPUWPR_SIZE (SZ_512K + SZ_256K) #endif #define SC7ENTRY_HDR_SIZE 0x400 // Always start 1MB below TZDRAM for Secure Firmware or NVDEC. #define GEN_CARVEOUT_TOP (TZDRAM_BASE - SZ_1M) // NVDEC and SECFW bases. #define NVDFW_BASE GEN_CARVEOUT_TOP // 0xFF700000. #define SECFW_BASE GEN_CARVEOUT_TOP // 0xFFE00000. // Secure Elements addresses for T210. #define SC7ENTRY_HDR_BASE (SECFW_BASE + 0) #define SC7ENTRY_BASE (SECFW_BASE + SC7ENTRY_HDR_SIZE) // After header. #define SC7EXIT_BASE (SECFW_BASE + SZ_64K) // 64KB after SECFW_BASE. #define R2P_PAYLOAD_BASE (SECFW_BASE + SZ_256K) // 256KB after SECFW_BASE. #define MTCTABLE_BASE (SECFW_BASE + SZ_512K) // 512KB after SECFW_BASE. #define BPMPFW_BASE (SECFW_BASE + SZ_512K + SZ_256K) // 768KB after SECFW_BASE. #define BPMPFW_ENTRYPOINT (BPMPFW_BASE + 0x100) // Used internally also. // Secure Elements addresses for T210B01. #define BPMPFW_B01_BASE (SECFW_BASE) // !! DTS carveout-start must match !! #define BPMPFW_B01_ENTRYPOINT (BPMPFW_B01_BASE + 0x40) // Used internally also. #define BPMPFW_B01_HEAP_BASE (BPMPFW_B01_BASE + SZ_256K - SZ_1K) // 255KB after BPMPFW_B01_BASE. #define BPMPFW_B01_EDTB_BASE (BPMPFW_B01_BASE + SZ_1M - 0) // Top BPMPFW carveout minus EMC DTB size. #define BPMPFW_B01_ADTB_BASE (BPMPFW_B01_BASE + 0x26008) // Attached BPMP-FW DTB address. #define SC7EXIT_B01_BASE (BPMPFW_B01_HEAP_BASE - SZ_4K) // 4KB before BPMP heap. // BPMP-FW defines. Offsets are 0xD8 below real main binary. #define BPMPFW_B01_DTB_ADDR (BPMPFW_B01_BASE + 0x14) // u32. DTB address if not attached. #define BPMPFW_B01_CC_INIT_OP (BPMPFW_B01_BASE + 0x17324) // u8. Initial table training OP. 0: OP_SWITCH, 1: OP_TRAIN, 2: OP_TRAIN_SWITCH. Default: OP_TRAIN. #define BPMPFW_B01_LOGLEVEL (BPMPFW_B01_BASE + 0x2547C) // u32. Log level. Default 3. #define BPMPFW_B01_LOGLEVEL (BPMPFW_B01_BASE + 0x2547C) // u32. Log level. Default 3. #define BPMPFW_B01_CC_PT_TIME (BPMPFW_B01_BASE + 0x25644) // u32. Periodic training period (in ms). Default 100 ms. #define BPMPFW_B01_CC_DEBUG (BPMPFW_B01_BASE + 0x257F8) // u32. EMC Clock Change debug mask. Default: 0x50000101. // BPMP-FW attached DTB defines. Can be generalized. #define BPMPFW_B01_DTB_EMC_ENTRIES 4 #define BPMPFW_B01_DTB_SERIAL_PORT_VAL (BPMPFW_B01_ADTB_BASE + 0x5B) // u8. DTB UART port offset. 0: Disabled. #define BPMPFW_B01_DTB_SET_SERIAL_PORT(port) (*(u8 *)BPMPFW_B01_DTB_SERIAL_PORT_VAL = port) #define BPMPFW_B01_DTB_EMC_TBL_OFF (BPMPFW_B01_ADTB_BASE + 0xA0) #define BPMPFW_B01_DTB_EMC_TBL_SZ 0x1120 #define BPMPFW_B01_DTB_EMC_NAME_VAL 0xA #define BPMPFW_B01_DTB_EMC_ENABLE_OFF 0x20 #define BPMPFW_B01_DTB_EMC_VALUES_OFF 0x4C #define BPMPFW_B01_DTB_EMC_FREQ_VAL 0x8C #define BPMPFW_B01_DTB_EMC_OPT_VAL 0xEDC #define BPMPFW_B01_DTB_EMC_TBL_START(idx) (BPMPFW_B01_DTB_EMC_TBL_OFF + BPMPFW_B01_DTB_EMC_TBL_SZ * (idx)) #define BPMPFW_B01_DTB_EMC_TBL_SET_VAL(idx, off, val) (*(u32 *)(BPMPFW_B01_DTB_EMC_TBL_START(idx) + (off)) = (val)) #define BPMPFW_B01_DTB_EMC_TBL_SET_FREQ(idx, freq) (*(u32 *)(BPMPFW_B01_DTB_EMC_TBL_START(idx) + BPMPFW_B01_DTB_EMC_FREQ_VAL) = (freq)) #define BPMPFW_B01_DTB_EMC_TBL_SET_OPTC(idx, opt) (*(u32 *)(BPMPFW_B01_DTB_EMC_TBL_START(idx) + BPMPFW_B01_DTB_EMC_OPT_VAL) = (opt)) #define BPMPFW_B01_DTB_EMC_TBL_SET_NAME(idx, name) (strcpy((char *)(BPMPFW_B01_DTB_EMC_TBL_START(idx) + BPMPFW_B01_DTB_EMC_NAME_VAL), (name))) #define BPMPFW_B01_DTB_EMC_TBL_ENABLE(idx) (*(char *)(BPMPFW_B01_DTB_EMC_TBL_START(idx) + BPMPFW_B01_DTB_EMC_ENABLE_OFF) = 'n') #define BPMPFW_B01_DTB_EMC_TBL_OFFSET(idx) ((void *)(BPMPFW_B01_DTB_EMC_TBL_START(idx) + BPMPFW_B01_DTB_EMC_VALUES_OFF)) // MTC table defines for T210B01. #define BPMPFW_B01_MTC_TABLE_BASE 0xA0000000 #define BPMPFW_B01_MTC_FREQ_TABLE_SIZE 4300 #define BPMPFW_B01_MTC_TABLE_SIZE (BPMPFW_B01_MTC_FREQ_TABLE_SIZE * 3) #define BPMPFW_B01_MTC_TABLE(idx) (BPMPFW_B01_MTC_TABLE_BASE + BPMPFW_B01_MTC_TABLE_SIZE * (idx)) #define BPMPFW_B01_MTC_TABLE_OFFSET(idx, fidx) ((void *)(BPMPFW_B01_MTC_TABLE(idx) + BPMPFW_B01_MTC_FREQ_TABLE_SIZE * (fidx))) // BL31 Enable IRAM based config. #define BL31_IRAM_PARAMS 0x4D415249 // "IRAM". #define BL31_EXTRA_FEATURES_ENABLE 0x52545845 // "EXTR". // BL31 Flags. #define FLAGS_PMC_NON_SECURE BIT(0) #define FLAGS_SC7_NO_BASE_RESTRICTION BIT(1) // BL31 config. #define PARAM_EP 1 #define PARAM_BL31 3 #define PARAM_EP_SECURE 0 #define PARAM_EP_NON_SECURE 1 #define VERSION_1 1 #define SPSR_EL2T BIT(3) // BL33 config. #define BL33_LOAD_BASE 0xAA000000 // DTB is loaded at 0xA8000000, so 32MB above. #define BL33_ENV_BASE (BL33_LOAD_BASE - SZ_256K) // Before BL33_LOAD_BASE. #define BL33_ENV_MAGIC_OFFSET (BL33_ENV_BASE - 4) #define BL33_ENV_MAGIC 0x33334C42 #define BL33_DTB_OFFSET (BL33_LOAD_BASE + 0x10) // After code end. #define BL33_DTB_BASE (BL33_LOAD_BASE + *(u32 *)BL33_DTB_OFFSET) #define BL33_DTB_UART_STATUS 0x1C94 #define BL33_DTB_UART_STS_OF 0x12C #define BL33_DTB_STDOUT_PATH 0x3F34 #define BL33_DTB_STDERR_PATH 0x3F54 #define BL33_DTB_SET_UART_STATUS(port) (strcpy((char *)(BL33_DTB_BASE + BL33_DTB_UART_STATUS + (port - 1) * BL33_DTB_UART_STS_OF), "okay")) #define BL33_DTB_SET_STDOUT_PATH(path) (strcpy((char *)(BL33_DTB_BASE + BL33_DTB_STDOUT_PATH), (path))) #define BL33_DTB_SET_STDERR_PATH(path) (strcpy((char *)(BL33_DTB_BASE + BL33_DTB_STDERR_PATH), (path))) // Misc. #define DTB_MAGIC 0xEDFE0DD0 // D00DFEED. #define FALCON_DMA_PAGE_SIZE 0x100 #define SOC_ID_T210 0x210 #define SOC_ID_T210B01 0x214 #define SKU_NX 0x83 #define HDCP22 2 typedef struct _tsec_init_t { u32 sku; u32 hdcp; u32 soc; } tsec_init_t; typedef struct _param_header { u8 type; // type of the structure. u8 version; // version of this structure. u16 size; // size of this structure in bytes. u32 attr; // attributes: unused bits SBZ. } param_header_t; typedef struct _aapcs64_params { u64 x0; u64 x1; u64 x2; u64 x3; u64 x4; u64 x5; u64 x6; u64 x7; } aapcs64_params_t; typedef struct _entry_point_info { param_header_t hdr; u64 pc; u32 spsr; u32 align0; // Alignment to u64 for the above member. aapcs64_params_t args; } entry_point_info_t; typedef struct _image_info { param_header_t hdr; u64 image_base; // physical address of base of image. u32 image_size; // bytes read from image file. u32 image_max_size; } image_info_t; typedef struct _bl_v1_params { param_header_t hdr; u64 bl31_image_info; u64 bl32_ep_info; u64 bl32_image_info; u64 bl33_ep_info; u64 bl33_image_info; } bl31_v1_params_t; typedef struct _plat_params_from_bl2 { // TZDRAM. u64 tzdram_size; u64 tzdram_base; s32 uart_id; // UART port ID. s32 l2_ecc_parity_prot_dis; // L2 ECC parity protection disable flag. u64 boot_profiler_shmem_base; // SHMEM base address for storing the boot logs. // SC7-Entry firmware. u64 sc7entry_fw_size; u64 sc7entry_fw_base; s32 enable_ccplex_lock_step; // Enable dual execution. // Enable below features. s32 enable_extra_features; // MTC table. u64 emc_table_size; u64 emc_table_base; // Initial R2P payload. u64 r2p_payload_size; u64 r2p_payload_base; u64 flags; // Platform flags. } bl31_plat_params_from_bl2_t; typedef struct _l4t_fw_t { u32 addr; char *name; } l4t_fw_t; typedef struct _l4t_ctxt_t { char *path; char *ram_oc_txt; int ram_oc_freq; int ram_oc_vdd2; int ram_oc_vddq; int ram_oc_opt; u32 serial_port; bool sld_type; u32 sc7entry_size; emc_table_t *mtc_table; bl31_v1_params_t bl31_v1_params; bl31_plat_params_from_bl2_t bl31_plat_params; entry_point_info_t bl33_ep_info; } l4t_ctxt_t; #define DRAM_VDD2_OC_MIN_VOLTAGE 1050 #define DRAM_VDD2_OC_MAX_VOLTAGE 1175 #define DRAM_VDD2Q_OC_MAX_VOLTAGE 1237 #define DRAM_VDDQ_OC_MIN_VOLTAGE 550 #define DRAM_VDDQ_OC_MAX_VOLTAGE 650 #define DRAM_T210B01_TBL_MAX_FREQ 1600000 #define NA 0 // Default to 0 for incorrect dram ids. //!TODO: Update on dram config changes. static const u8 mtc_table_idx_t210b01[] = { /* 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 */ NA, NA, NA, 7, NA, 7, 7, NA, 0, 1, 2, 3, 0, 1, 2, 3, NA, 4, 5, 4, 8, 8, 8, 5, 4, 6, 6, 6, 5, 9, 9, 9, 10, 10, 10 }; #undef NA static const l4t_fw_t l4t_fw[] = { { TZDRAM_BASE, "bl31.bin" }, { BL33_LOAD_BASE, "bl33.bin" }, { SC7ENTRY_BASE, "sc7entry.bin" }, { SC7EXIT_BASE, "sc7exit.bin" }, { BPMPFW_BASE, "bpmpfw.bin" }, { BPMPFW_B01_BASE, "bpmpfw_b01.bin" }, { BPMPFW_B01_MTC_TABLE_BASE, "mtc_tbl_b01.bin" }, }; enum { BL31_FW = 0, BL33_FW = 1, SC7ENTRY_FW = 2, SC7EXIT_FW = 3, BPMPFW_FW = 4, BPMPFW_B01_FW = 5, BPMPFW_B01_MTC_TBL = 6 }; static void _l4t_crit_error(const char *text, bool needs_update) { gfx_con.mute = false; gfx_printf("%kL4T Error: %s!%sFailed to launch L4T!\n%k", TXT_CLR_ERROR, text, needs_update ? "\nUpdate bootloader folder!\n\n" : "\n\n", TXT_CLR_DEFAULT); } char *sd_path; u32 sd_path_len; static int _l4t_sd_load(u32 idx) { FIL fp; void *load_address = (void *)l4t_fw[idx].addr; strcpy(sd_path + sd_path_len, l4t_fw[idx].name); if (f_open(&fp, sd_path, FA_READ) != FR_OK) return 0; u32 size = f_size(&fp); if (f_read(&fp, load_address, size, NULL) != FR_OK) size = 0; f_close(&fp); u32 rev = *(u32 *)(load_address + size - sizeof(u32)); if (idx >= SC7ENTRY_FW && rev != L4T_FIRMWARE_REV) return 0; return size; } static void _l4t_sdram_lp0_save_params(bool t210b01) { pmc_regs_t210_t *pmc = (pmc_regs_t210_t *)PMC_BASE; #define _REG_S(base, off) *(u32 *)((base) + (off)) #define MC_S(off) _REG_S(MC_BASE, off) #define pack(src, src_bits, dst, dst_bits) { \ u32 mask = 0xFFFFFFFF >> (31 - ((1 ? src_bits) - (0 ? src_bits))); \ dst &= ~(mask << (0 ? dst_bits)); \ dst |= ((src >> (0 ? src_bits)) & mask) << (0 ? dst_bits); } #define s(param, src_bits, pmcreg, dst_bits) \ pack(MC_S(param), src_bits, pmc->pmc_ ## pmcreg, dst_bits) // 32 bits version of s macro. #define s32(param, pmcreg) pmc->pmc_ ## pmcreg = MC_S(param) // Only save changed carveout registers into PMC for SC7 Exit. // VPR. #if CARVEOUT_NVDEC_TSEC_ENABLE s32(MC_VIDEO_PROTECT_GPU_OVERRIDE_0, secure_scratch12); s(MC_VIDEO_PROTECT_GPU_OVERRIDE_1, 15:0, secure_scratch49, 15:0); #endif s(MC_VIDEO_PROTECT_BOM, 31:20, secure_scratch52, 26:15); s(MC_VIDEO_PROTECT_SIZE_MB, 11:0, secure_scratch53, 11:0); if (!t210b01) { s(MC_VIDEO_PROTECT_REG_CTRL, 1:0, secure_scratch13, 31:30); } else { s(MC_VIDEO_PROTECT_REG_CTRL, 1:0, secure_scratch14, 31:30); } // TZDRAM. s(MC_SEC_CARVEOUT_BOM, 31:20, secure_scratch53, 23:12); s(MC_SEC_CARVEOUT_SIZE_MB, 11:0, secure_scratch54, 11:0); if (!t210b01) { s(MC_SEC_CARVEOUT_REG_CTRL, 0:0, secure_scratch18, 30:30); } else { s(MC_SEC_CARVEOUT_REG_CTRL, 0:0, secure_scratch19, 29:29); } // NVDEC or SECFW. s(MC_SECURITY_CARVEOUT1_BOM, 31:17, secure_scratch50, 29:15); s(MC_SECURITY_CARVEOUT1_SIZE_128KB, 11:0, secure_scratch57, 11:0); s32(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS0, secure_scratch59); s32(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS1, secure_scratch60); s32(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS2, secure_scratch61); s32(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS3, secure_scratch62); if (!t210b01) { s(MC_SECURITY_CARVEOUT1_CFG0, 2:0, secure_scratch56, 27:25); s(MC_SECURITY_CARVEOUT1_CFG0, 6:3, secure_scratch41, 28:25); s(MC_SECURITY_CARVEOUT1_CFG0, 13:7, secure_scratch42, 31:25); s(MC_SECURITY_CARVEOUT1_CFG0, 17:14, secure_scratch43, 28:25); s(MC_SECURITY_CARVEOUT1_CFG0, 21:18, secure_scratch44, 28:25); s(MC_SECURITY_CARVEOUT1_CFG0, 25:22, secure_scratch56, 31:28); s(MC_SECURITY_CARVEOUT1_CFG0, 26:26, secure_scratch57, 24:24); } else { s(MC_SECURITY_CARVEOUT1_CFG0, 1:0, secure_scratch56, 31:30); s(MC_SECURITY_CARVEOUT1_CFG0, 2:2, secure_scratch57, 24:24); s(MC_SECURITY_CARVEOUT1_CFG0, 6:3, secure_scratch42, 28:25); s(MC_SECURITY_CARVEOUT1_CFG0, 10:7, secure_scratch43, 28:25); s(MC_SECURITY_CARVEOUT1_CFG0, 13:11, secure_scratch42, 31:29); s(MC_SECURITY_CARVEOUT1_CFG0, 17:14, secure_scratch44, 28:25); s(MC_SECURITY_CARVEOUT1_CFG0, 21:18, secure_scratch47, 25:22); s(MC_SECURITY_CARVEOUT1_CFG0, 26:22, secure_scratch57, 29:25); } // GPU FW. s(MC_SECURITY_CARVEOUT2_BOM, 31:17, secure_scratch51, 29:15); s(MC_SECURITY_CARVEOUT2_SIZE_128KB, 11:0, secure_scratch56, 23:12); if (!t210b01) { s(MC_SECURITY_CARVEOUT2_CFG0, 2:0, secure_scratch55, 27:25); s(MC_SECURITY_CARVEOUT2_CFG0, 6:3, secure_scratch19, 31:28); s(MC_SECURITY_CARVEOUT2_CFG0, 10:7, secure_scratch20, 31:28); s(MC_SECURITY_CARVEOUT2_CFG0, 13:11, secure_scratch41, 31:29); s(MC_SECURITY_CARVEOUT2_CFG0, 17:14, secure_scratch39, 30:27); s(MC_SECURITY_CARVEOUT2_CFG0, 21:18, secure_scratch40, 30:27); s(MC_SECURITY_CARVEOUT2_CFG0, 25:22, secure_scratch55, 31:28); s(MC_SECURITY_CARVEOUT2_CFG0, 26:26, secure_scratch56, 24:24); } else { s(MC_SECURITY_CARVEOUT2_CFG0, 1:0, secure_scratch55, 31:30); s(MC_SECURITY_CARVEOUT2_CFG0, 2:2, secure_scratch56, 24:24); s(MC_SECURITY_CARVEOUT2_CFG0, 6:3, secure_scratch20, 31:28); s(MC_SECURITY_CARVEOUT2_CFG0, 10:7, secure_scratch39, 30:27); s(MC_SECURITY_CARVEOUT2_CFG0, 13:11, secure_scratch41, 31:29); s(MC_SECURITY_CARVEOUT2_CFG0, 17:14, secure_scratch40, 30:27); s(MC_SECURITY_CARVEOUT2_CFG0, 21:18, secure_scratch41, 28:25); s(MC_SECURITY_CARVEOUT2_CFG0, 26:22, secure_scratch56, 29:25); } // GPU WPR. s(MC_SECURITY_CARVEOUT3_BOM, 31:17, secure_scratch50, 14:0); s(MC_SECURITY_CARVEOUT3_SIZE_128KB, 11:0, secure_scratch56, 11:0); s32(MC_SECURITY_CARVEOUT3_CLIENT_ACCESS2, secure_scratch71); s32(MC_SECURITY_CARVEOUT3_CLIENT_ACCESS4, secure_scratch73); if (!t210b01) { s(MC_SECURITY_CARVEOUT3_CFG0, 2:0, secure_scratch57, 27:25); s(MC_SECURITY_CARVEOUT3_CFG0, 10:3, secure_scratch47, 29:22); s(MC_SECURITY_CARVEOUT3_CFG0, 13:11, secure_scratch43, 31:29); s(MC_SECURITY_CARVEOUT3_CFG0, 21:14, secure_scratch48, 29:22); s(MC_SECURITY_CARVEOUT3_CFG0, 25:22, secure_scratch57, 31:28); s(MC_SECURITY_CARVEOUT3_CFG0, 26:26, secure_scratch58, 0:0); } else { s(MC_SECURITY_CARVEOUT3_CFG0, 1:0, secure_scratch57, 31:30); s(MC_SECURITY_CARVEOUT3_CFG0, 2:2, secure_scratch58, 0:0); s(MC_SECURITY_CARVEOUT3_CFG0, 6:3, secure_scratch47, 29:26); s(MC_SECURITY_CARVEOUT3_CFG0, 10:7, secure_scratch48, 25:22); s(MC_SECURITY_CARVEOUT3_CFG0, 13:11, secure_scratch43, 31:29); s(MC_SECURITY_CARVEOUT3_CFG0, 17:14, secure_scratch48, 29:26); s(MC_SECURITY_CARVEOUT3_CFG0, 21:18, secure_scratch52, 30:27); s(MC_SECURITY_CARVEOUT3_CFG0, 26:22, secure_scratch58, 5:1); } // TSECA. s(MC_SECURITY_CARVEOUT4_BOM, 31:17, secure_scratch51, 14:0); s(MC_SECURITY_CARVEOUT4_SIZE_128KB, 11:0, secure_scratch55, 23:12); s(MC_SECURITY_CARVEOUT4_CFG0, 26:0, secure_scratch39, 26:0); // TSECB. s(MC_SECURITY_CARVEOUT5_BOM, 31:17, secure_scratch52, 14:0); s(MC_SECURITY_CARVEOUT5_SIZE_128KB, 11:0, secure_scratch57, 23:12); s(MC_SECURITY_CARVEOUT5_CFG0, 26:0, secure_scratch40, 26:0); } static void _l4t_mc_config_carveout(bool t210b01) { #if CARVEOUT_NVDEC_TSEC_ENABLE // Re-enable access for TSEC clients. MC(MC_VIDEO_PROTECT_GPU_OVERRIDE_0) &= ~BIT(22); MC(MC_VIDEO_PROTECT_GPU_OVERRIDE_1) &= ~(BIT(15) | BIT(14) | BIT(13)); #endif // Disabled VPR carveout. DT decides if enabled or not. MC(MC_VIDEO_PROTECT_BOM) = 0; MC(MC_VIDEO_PROTECT_SIZE_MB) = 0; MC(MC_VIDEO_PROTECT_REG_CTRL) = VPR_CTRL_TZ_SECURE | VPR_CTRL_LOCKED; // Temporarily disable TZDRAM carveout. For launching coldboot TZ. MC(MC_SEC_CARVEOUT_BOM) = 0; MC(MC_SEC_CARVEOUT_SIZE_MB) = 0; MC(MC_SEC_CARVEOUT_REG_CTRL) = 0; // Print real one, not temp disabled. UPRINTF("TZD: TZDRAM Carveout: %08X - %08X\n", TZDRAM_BASE, TZDRAM_BASE - 1 + TZDRAM_SIZE); // Configure generalized security carveouts. u32 carveout_base = GEN_CARVEOUT_TOP; #if CARVEOUT_NVDEC_TSEC_ENABLE // Set NVDEC keyslot sticky bits. clock_enable_nvdec(); clock_enable_nvjpg(); NVDEC(NVDEC_SA_KEYSLOT_GLOBAL_RW) = 0xFFFF; // Read disable. NVDEC(NVDEC_SA_KEYSLOT_TZ) = 0xFFFFFFFF; // TZ enable. NVDEC(NVDEC_SA_KEYSLOT_FALCON) = 0; // Falcon disable. NVDEC(NVDEC_SA_KEYSLOT_OTF) = 0; // OTF disable. NVDEC(NVDEC_VPR_ALL_OTF_GOTO_VPR) = 1; // Enable. clock_disable_nvjpg(); clock_disable_nvdec(); // Set NVDEC carveout. Only for NVDEC bl/prod. carveout_base -= ALIGN(CARVEOUT_NVDEC_SIZE, SZ_1M); MC(MC_SECURITY_CARVEOUT1_BOM) = carveout_base; MC(MC_SECURITY_CARVEOUT1_BOM_HI) = 0; MC(MC_SECURITY_CARVEOUT1_SIZE_128KB) = CARVEOUT_NVDEC_SIZE / SZ_128K; MC(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS0) = 0; MC(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS1) = 0; MC(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS2) = SEC_CARVEOUT_CA2_R_TSEC | SEC_CARVEOUT_CA2_W_TSEC; MC(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS3) = SEC_CARVEOUT_CA3_R_NVDEC | SEC_CARVEOUT_CA3_W_NVDEC; MC(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS4) = 0; MC(MC_SECURITY_CARVEOUT1_CFG0) = SEC_CARVEOUT_CFG_LOCKED | SEC_CARVEOUT_CFG_UNTRANSLATED_ONLY | SEC_CARVEOUT_CFG_RD_SEC | SEC_CARVEOUT_CFG_RD_FALCON_LS | SEC_CARVEOUT_CFG_RD_FALCON_HS | SEC_CARVEOUT_CFG_WR_FALCON_HS | SEC_CARVEOUT_CFG_APERTURE_ID(1) | SEC_CARVEOUT_CFG_FORCE_APERTURE_ID_MATCH; UPRINTF("GSC1: NVDEC Carveout: %08X - %08X\n", MC(MC_SECURITY_CARVEOUT1_BOM), MC(MC_SECURITY_CARVEOUT1_BOM) + MC(MC_SECURITY_CARVEOUT1_SIZE_128KB) * SZ_128K); #elif CARVEOUT_SECFW_ENABLE // Flush data to ram. bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, false); // Set SC7-Entry/SC7-Exit/R2P/MTC Table or SC7-Exit/BPMP-FW carveout. Only BPMP, CCPLEX and AHB have R/W access. MC(MC_SECURITY_CARVEOUT1_BOM) = carveout_base; MC(MC_SECURITY_CARVEOUT1_BOM_HI) = 0; MC(MC_SECURITY_CARVEOUT1_SIZE_128KB) = CARVEOUT_SECFW_SIZE / SZ_128K; MC(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS0) = SEC_CARVEOUT_CA0_R_BPMP_C | SEC_CARVEOUT_CA0_R_PPCSAHBSLV; MC(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS1) = SEC_CARVEOUT_CA1_W_BPMP_C | SEC_CARVEOUT_CA1_R_CCPLEX_C | SEC_CARVEOUT_CA1_R_CCPLEXLP_C | SEC_CARVEOUT_CA1_W_CCPLEX_C | SEC_CARVEOUT_CA1_W_CCPLEXLP_C | SEC_CARVEOUT_CA1_W_PPCSAHBSLV; MC(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS2) = 0; MC(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS3) = 0; MC(MC_SECURITY_CARVEOUT1_CLIENT_ACCESS4) = 0; MC(MC_SECURITY_CARVEOUT1_CFG0) = SEC_CARVEOUT_CFG_RD_NS | SEC_CARVEOUT_CFG_RD_SEC | SEC_CARVEOUT_CFG_WR_NS | SEC_CARVEOUT_CFG_WR_SEC | SEC_CARVEOUT_CFG_LOCKED; UPRINTF("GSC1: SECFW Carveout: %08X - %08X\n", MC(MC_SECURITY_CARVEOUT1_BOM), MC(MC_SECURITY_CARVEOUT1_BOM) + MC(MC_SECURITY_CARVEOUT1_SIZE_128KB) * SZ_128K); #endif // Set GPU FW WPR carveout. Same value is used for GPU WPR carveout calculation if not full TOS. carveout_base -= ALIGN(CARVEOUT_GPUFW_SIZE, SZ_1M); // Sanitize it and enable GSC3 for ACR. memset((void *)carveout_base, 0, CARVEOUT_GPUFW_SIZE); *(u32 *)(carveout_base + CARVEOUT_GPUFW_SIZE - sizeof(u32)) = ACR_GSC3_ENABLE_MAGIC; tsec_init_t *tsec_init = (tsec_init_t *)(carveout_base + CARVEOUT_GPUFW_SIZE - FALCON_DMA_PAGE_SIZE); // Set TSEC init info. tsec_init->sku = SKU_NX; tsec_init->hdcp = HDCP22; tsec_init->soc = t210b01 ? SOC_ID_T210B01 : SOC_ID_T210; // Flush data to ram. bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, false); // Set carveout config. MC(MC_SECURITY_CARVEOUT2_BOM) = carveout_base; MC(MC_SECURITY_CARVEOUT2_BOM_HI) = 0; MC(MC_SECURITY_CARVEOUT2_SIZE_128KB) = CARVEOUT_GPUFW_SIZE / SZ_128K; MC(MC_SECURITY_CARVEOUT2_CLIENT_ACCESS0) = 0; MC(MC_SECURITY_CARVEOUT2_CLIENT_ACCESS1) = 0; MC(MC_SECURITY_CARVEOUT2_CLIENT_ACCESS2) = SEC_CARVEOUT_CA2_R_GPU | SEC_CARVEOUT_CA2_W_GPU | SEC_CARVEOUT_CA2_R_TSEC; MC(MC_SECURITY_CARVEOUT2_CLIENT_ACCESS3) = 0; MC(MC_SECURITY_CARVEOUT2_CLIENT_ACCESS4) = SEC_CARVEOUT_CA4_R_GPU2 | SEC_CARVEOUT_CA4_W_GPU2; MC(MC_SECURITY_CARVEOUT2_CFG0) = SEC_CARVEOUT_CFG_LOCKED | SEC_CARVEOUT_CFG_UNTRANSLATED_ONLY | SEC_CARVEOUT_CFG_RD_NS | SEC_CARVEOUT_CFG_RD_SEC | SEC_CARVEOUT_CFG_RD_FALCON_LS | SEC_CARVEOUT_CFG_RD_FALCON_HS | SEC_CARVEOUT_CFG_WR_FALCON_LS | SEC_CARVEOUT_CFG_WR_FALCON_HS | SEC_CARVEOUT_CFG_APERTURE_ID(2) | SEC_CARVEOUT_CFG_SEND_CFG_TO_GPU | SEC_CARVEOUT_CFG_FORCE_APERTURE_ID_MATCH; // SEC_CARVEOUT_CFG_IS_WPR is set from GPU. UPRINTF("GSC2: GPUFW Carveout: %08X - %08X\n", MC(MC_SECURITY_CARVEOUT2_BOM), MC(MC_SECURITY_CARVEOUT2_BOM) + MC(MC_SECURITY_CARVEOUT2_SIZE_128KB) * SZ_128K); // Set GPU WPR carveout. #if CARVEOUT_NVDEC_TSEC_ENABLE carveout_base -= ALIGN(CARVEOUT_GPUWPR_SIZE, SZ_1M); MC(MC_SECURITY_CARVEOUT3_BOM) = carveout_base; #else MC(MC_SECURITY_CARVEOUT3_BOM) = carveout_base + CARVEOUT_GPUFW_SIZE; #endif MC(MC_SECURITY_CARVEOUT3_BOM_HI) = 0x0; MC(MC_SECURITY_CARVEOUT3_SIZE_128KB) = CARVEOUT_GPUWPR_SIZE / SZ_128K; MC(MC_SECURITY_CARVEOUT3_CLIENT_ACCESS0) = 0; MC(MC_SECURITY_CARVEOUT3_CLIENT_ACCESS1) = 0; MC(MC_SECURITY_CARVEOUT3_CLIENT_ACCESS2) = 0; // HOS: SEC_CARVEOUT_CA2_R_GPU | SEC_CARVEOUT_CA2_W_GPU MC(MC_SECURITY_CARVEOUT3_CLIENT_ACCESS3) = 0; MC(MC_SECURITY_CARVEOUT3_CLIENT_ACCESS4) = 0; // HOS: SEC_CARVEOUT_CA4_R_GPU2 | SEC_CARVEOUT_CA4_W_GPU2 MC(MC_SECURITY_CARVEOUT3_CFG0) = SEC_CARVEOUT_CFG_LOCKED | SEC_CARVEOUT_CFG_UNTRANSLATED_ONLY | SEC_CARVEOUT_CFG_RD_NS | SEC_CARVEOUT_CFG_RD_SEC | SEC_CARVEOUT_CFG_RD_FALCON_LS | SEC_CARVEOUT_CFG_RD_FALCON_HS | SEC_CARVEOUT_CFG_WR_FALCON_LS | SEC_CARVEOUT_CFG_WR_FALCON_HS | SEC_CARVEOUT_CFG_APERTURE_ID(3) | SEC_CARVEOUT_CFG_SEND_CFG_TO_GPU | SEC_CARVEOUT_CFG_FORCE_APERTURE_ID_MATCH; // SEC_CARVEOUT_CFG_IS_WPR is set from GPU. UPRINTF("GSC3: GPUW2 Carveout: %08X - %08X\n", MC(MC_SECURITY_CARVEOUT3_BOM), MC(MC_SECURITY_CARVEOUT3_BOM) + MC(MC_SECURITY_CARVEOUT3_SIZE_128KB) * SZ_128K); /* * Set TSECA/B carveout. Only for NVDEC bl/prod and TSEC. * * Otherwise disabled. * * With HOS SC7-Exit fw, it gets set to disallow RAM access for BPMP. But TZ can change it. * We lock the carveout and save it in restore scratch registers so SC7-Exit can't touch it. */ carveout_base -= CARVEOUT_NVDEC_TSEC_ENABLE ? ALIGN(CARVEOUT_TSEC_SIZE, SZ_1M) : 0; MC(MC_SECURITY_CARVEOUT4_BOM) = CARVEOUT_NVDEC_TSEC_ENABLE ? carveout_base : 0; MC(MC_SECURITY_CARVEOUT4_BOM_HI) = 0x0; MC(MC_SECURITY_CARVEOUT4_SIZE_128KB) = CARVEOUT_NVDEC_TSEC_ENABLE ? CARVEOUT_TSEC_SIZE / SZ_128K : 0; MC(MC_SECURITY_CARVEOUT4_CLIENT_ACCESS2) = SEC_CARVEOUT_CA2_R_TSEC | SEC_CARVEOUT_CA2_W_TSEC; MC(MC_SECURITY_CARVEOUT4_CLIENT_ACCESS4) = SEC_CARVEOUT_CA4_R_TSECB | SEC_CARVEOUT_CA4_W_TSECB; MC(MC_SECURITY_CARVEOUT4_CFG0) = SEC_CARVEOUT_CFG_LOCKED | SEC_CARVEOUT_CFG_RD_FALCON_HS | SEC_CARVEOUT_CFG_WR_FALCON_HS | SEC_CARVEOUT_CFG_APERTURE_ID(4) | SEC_CARVEOUT_CFG_FORCE_APERTURE_ID_MATCH; UPRINTF("GSC4: TSEC1 Carveout: %08X - %08X\n", MC(MC_SECURITY_CARVEOUT4_BOM), MC(MC_SECURITY_CARVEOUT4_BOM) + MC(MC_SECURITY_CARVEOUT4_SIZE_128KB) * SZ_128K); // Set TSECA carveout. Only for NVDEC bl/prod and TSEC. Otherwise disabled. carveout_base -= CARVEOUT_NVDEC_TSEC_ENABLE ? ALIGN(CARVEOUT_TSEC_SIZE, SZ_1M) : 0; MC(MC_SECURITY_CARVEOUT5_BOM) = CARVEOUT_NVDEC_TSEC_ENABLE ? carveout_base : 0; MC(MC_SECURITY_CARVEOUT5_BOM_HI) = 0x0; MC(MC_SECURITY_CARVEOUT5_SIZE_128KB) = CARVEOUT_NVDEC_TSEC_ENABLE ? CARVEOUT_TSEC_SIZE / SZ_128K : 0; MC(MC_SECURITY_CARVEOUT5_CLIENT_ACCESS2) = SEC_CARVEOUT_CA2_R_TSEC | SEC_CARVEOUT_CA2_W_TSEC; MC(MC_SECURITY_CARVEOUT5_CFG0) = SEC_CARVEOUT_CFG_LOCKED | SEC_CARVEOUT_CFG_RD_FALCON_HS | SEC_CARVEOUT_CFG_WR_FALCON_HS | SEC_CARVEOUT_CFG_APERTURE_ID(5) | SEC_CARVEOUT_CFG_FORCE_APERTURE_ID_MATCH; UPRINTF("GSC5: TSEC2 Carveout: %08X - %08X\n", MC(MC_SECURITY_CARVEOUT5_BOM), MC(MC_SECURITY_CARVEOUT5_BOM) + MC(MC_SECURITY_CARVEOUT5_SIZE_128KB) * SZ_128K); UPRINTF("DRAM Bank 0 TOP: %08X\n", carveout_base); // Save carveouts to lp0 pmc registers. _l4t_sdram_lp0_save_params(t210b01); } static void _l4t_late_hw_config(bool t210b01) { // Reset System Counters. for (u32 i = 0; i < SYSCTR0_COUNTERS; i += sizeof(u32)) SYSCTR0(SYSCTR0_COUNTERS_BASE + i) = 0; /* * PMIC config scratch register * * bit00: active cluster slow * bit01: Set: max77621/max77812. Unset: OVR/OVR2. * bit02-07: unused * bit08-15: pmic cpu i2c address * bit16:23: pmic cpu i2c en reg * bit24:31: pmic cpu i2c en val */ PMC(APBDEV_PMC_SCRATCH201) = BIT(1); // Clear PLLM override for SC7. PMC(APBDEV_PMC_PLLP_WB0_OVERRIDE) &= ~PMC_PLLP_WB0_OVR_PLLM_OVR_ENABLE; // Set spare reg to 0xE0000 and clear everything else. if (t210b01 && (SYSREG(AHB_AHB_SPARE_REG) & 0xE0000000) != 0xE0000000) SYSREG(AHB_AHB_SPARE_REG) = 0xE0000 << 12u; // HDA loopback disable on prod. PMC(APBDEV_PMC_STICKY_BITS) = PMC_STICKY_BITS_HDA_LPBK_DIS; // Clear any MC error. MC(MC_INTSTATUS) = MC(MC_INTSTATUS); // Enable Wrap burst for BPMP, GPU and PCIE. MSELECT(MSELECT_CONFIG) = (MSELECT(MSELECT_CONFIG) & (~(MSELECT_CFG_ERR_RESP_EN_GPU | MSELECT_CFG_ERR_RESP_EN_PCIE))) | (MSELECT_CFG_WRAP_TO_INCR_GPU | MSELECT_CFG_WRAP_TO_INCR_PCIE | MSELECT_CFG_WRAP_TO_INCR_BPMP); #if LOCK_PMC_REGISTERS // Lock LP0 parameters and misc secure registers. Always happens on warmboot. #if CARVEOUT_NVDEC_TSEC_ENABLE pmc_scratch_lock(PMC_SEC_LOCK_CARVEOUTS_L4T | PMC_SEC_LOCK_SE_SRK); #else pmc_scratch_lock(PMC_SEC_LOCK_LP0_PARAMS | PMC_SEC_LOCK_MISC | PMC_SEC_LOCK_SE_SRK); #endif // Lock SE2 SRK and misc secure regs. Also lock writes on normal LP0 scratch regs. if (t210b01) pmc_scratch_lock(PMC_SEC_LOCK_MISC_B01 | PMC_SEC_LOCK_SE2_SRK_B01 | PMC_SEC_LOCK_LP0_PARAMS_B01); #endif } static void _l4t_bpmpfw_b01_config(l4t_ctxt_t *ctxt) { char *ram_oc_txt = ctxt->ram_oc_txt; u32 ram_oc_freq = ctxt->ram_oc_freq; u32 ram_oc_opt = ctxt->ram_oc_opt; u32 ram_id = fuse_read_dramid(false); // Set default parameters. *(u32 *)BPMPFW_B01_DTB_ADDR = 0; *(u8 *)BPMPFW_B01_CC_INIT_OP = OP_TRAIN; *(u32 *)BPMPFW_B01_CC_PT_TIME = 100; #if DEBUG_LOG_BPMPFW // Set default debug parameters. *(u32 *)BPMPFW_B01_LOGLEVEL = 3; *(u32 *)BPMPFW_B01_CC_DEBUG = 0x50000101; // Set serial debug port. if (*(u32 *)BPMPFW_B01_ADTB_BASE == DTB_MAGIC) BPMPFW_B01_DTB_SET_SERIAL_PORT(ctxt->serial_port); #endif // Set and copy MTC tables. u32 mtc_idx = mtc_table_idx_t210b01[ram_id]; for (u32 i = 0; i < 3; i++) { if (true) minerva_sdmmc_la_program(BPMPFW_B01_MTC_TABLE_OFFSET(mtc_idx, i), true); memcpy(BPMPFW_B01_DTB_EMC_TBL_OFFSET(i), BPMPFW_B01_MTC_TABLE_OFFSET(mtc_idx, i), BPMPFW_B01_MTC_FREQ_TABLE_SIZE); } // Always use Arachne Register Cell (ARC) for setting rated frequencies if no ram_oc is defined. if (!ram_oc_freq) { if (ram_id >= LPDDR4X_IOWA_4GB_SAMSUNG_K4U6E3S4AM_MGCJ && ram_id <= LPDDR4X_HOAG_4GB_MICRON_MT53E512M32D2NP_046_WTE) { ram_oc_txt = "1866000"; ram_oc_freq = 1866000; } else { ram_oc_txt = "2133000"; ram_oc_freq = 2133000; } } // Set DRAM voltage. if (ctxt->ram_oc_vdd2) max7762x_regulator_set_voltage(REGULATOR_SD1, ctxt->ram_oc_vdd2 * 1000); if (ctxt->ram_oc_vddq) max7762x_regulator_set_voltage(REGULATOR_RAM0, ctxt->ram_oc_vddq * 1000); // A frequency of lower or equal with stock max will skip ARC. if (ram_oc_freq > DRAM_T210B01_TBL_MAX_FREQ) { // Final table. const u32 tbl_idx = BPMPFW_B01_DTB_EMC_ENTRIES - 1; // Copy table and prep it for Arachne. memcpy(BPMPFW_B01_DTB_EMC_TBL_OFFSET(tbl_idx), BPMPFW_B01_MTC_TABLE_OFFSET(mtc_idx, 2), BPMPFW_B01_MTC_FREQ_TABLE_SIZE); BPMPFW_B01_DTB_EMC_TBL_SET_NAME(tbl_idx, ram_oc_txt); BPMPFW_B01_DTB_EMC_TBL_SET_FREQ(tbl_idx, ram_oc_freq); BPMPFW_B01_DTB_EMC_TBL_SET_OPTC(tbl_idx, ram_oc_opt); // Enable table. BPMPFW_B01_DTB_EMC_TBL_ENABLE(tbl_idx); UPRINTF("RAM Frequency set to: %d KHz. Voltage: %d mV\n", ram_oc_freq, ctxt->ram_oc_vdd2); } // Save BPMP-FW entrypoint for TZ. PMC(APBDEV_PMC_SCRATCH39) = BPMPFW_B01_ENTRYPOINT; PMC(APBDEV_PMC_SCRATCH_WRITE_DISABLE1_B01) |= BIT(15); } static int _l4t_sc7_exit_config(bool t210b01) { if (!t210b01) { // Apply Nintendo Switch (2017) RSA modulus to SC7-Exit firmware. emmc_initialize(false); pkg1_warmboot_rsa_mod(SC7EXIT_BASE); emmc_end(); // Set SC7-Exit firmware address for bootrom to find. PMC(APBDEV_PMC_SCRATCH1) = SC7EXIT_BASE; } else { // Get latest SC7-Exit if needed and setup PA id. launch_ctxt_t hos_ctxt = {0}; if (pkg1_warmboot_config(&hos_ctxt, 0, 0, 0)) { gfx_con.mute = false; gfx_wputs("\nFailed to match warmboot with fuses!\nIf you continue, sleep wont work!"); gfx_puts("\nPress POWER to continue.\nPress VOL to go to the menu.\n"); if (!(btn_wait() & BTN_POWER)) return 1; } // Copy loaded warmboot fw to address if from storage. if (hos_ctxt.warmboot) memcpy((void *)SC7EXIT_B01_BASE, hos_ctxt.warmboot, hos_ctxt.warmboot_size); // Set SC7-Exit firmware address for bootrom to find. PMC(APBDEV_PMC_SECURE_SCRATCH119) = SC7EXIT_B01_BASE; PMC(APBDEV_PMC_SEC_DISABLE8) |= BIT(30); } return 0; } static void _l4t_bl33_cfg_set_key(char *env, const char *key, const char *val) { strcat(env, key); strcat(env, "="); strcat(env, val); strcat(env, "\n"); } static void _l4t_set_config(l4t_ctxt_t *ctxt, const ini_sec_t *ini_sec, int entry_idx, int is_list, bool t210b01) { char *bl33_env = (char *)BL33_ENV_BASE; bl33_env[0] = '\0'; char val[4] = {0}; // Set default SLD type. ctxt->sld_type = true; // Parse ini section and prepare BL33 env. LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { if (!strcmp("boot_prefixes", kv->key)) ctxt->path = kv->val; else if (!strcmp("ram_oc", kv->key)) { ctxt->ram_oc_txt = kv->val; ctxt->ram_oc_freq = atoi(kv->val); } else if (!strcmp("ram_oc_vdd2", kv->key)) { ctxt->ram_oc_vdd2 = atoi(kv->val); if (t210b01 && ctxt->ram_oc_vdd2 > DRAM_VDD2_OC_MAX_VOLTAGE) ctxt->ram_oc_vdd2 = DRAM_VDD2_OC_MAX_VOLTAGE; else if (!t210b01 && ctxt->ram_oc_vdd2 > DRAM_VDD2Q_OC_MAX_VOLTAGE) ctxt->ram_oc_vdd2 = DRAM_VDD2Q_OC_MAX_VOLTAGE; else if (ctxt->ram_oc_vdd2 < DRAM_VDD2_OC_MIN_VOLTAGE) ctxt->ram_oc_vdd2 = DRAM_VDD2_OC_MIN_VOLTAGE; } else if (!strcmp("ram_oc_vddq", kv->key)) { ctxt->ram_oc_vddq = atoi(kv->val); if (ctxt->ram_oc_vddq > DRAM_VDDQ_OC_MAX_VOLTAGE) ctxt->ram_oc_vddq = DRAM_VDDQ_OC_MAX_VOLTAGE; else if (ctxt->ram_oc_vddq < DRAM_VDDQ_OC_MIN_VOLTAGE) ctxt->ram_oc_vddq = 0; } else if (!strcmp("ram_oc_opt", kv->key)) ctxt->ram_oc_opt = atoi(kv->val); else if (!strcmp("uart_port", kv->key)) ctxt->serial_port = atoi(kv->val); else if (!strcmp("sld_type", kv->key)) ctxt->sld_type = atoi(kv->val); // Set key/val to BL33 env. _l4t_bl33_cfg_set_key(bl33_env, kv->key, kv->val); } #ifdef DEBUG_UART_PORT // Override port if bootloader UART debug is enabled. ctxt->serial_port = DEBUG_UART_PORT + 1; #endif // Set r2p parameters. if (entry_idx >= 10) { val[0] = '1'; val[1] = '0' + (entry_idx % 10); } else val[0] = '0' + entry_idx; _l4t_bl33_cfg_set_key(bl33_env, "autoboot", val); // NULL terminate at single char for the next env sets. val[1] = 0; val[0] = '0' + is_list; _l4t_bl33_cfg_set_key(bl33_env, "autoboot_list", val); val[0] = '0' + L4T_LOADER_API_REV; _l4t_bl33_cfg_set_key(bl33_env, "loader_rev", val); // Enable BL33 memory env import. *(u32 *)(BL33_ENV_MAGIC_OFFSET) = BL33_ENV_MAGIC; // Set boot path. sd_path = (char *)malloc(512); sd_path_len = strlen(ctxt->path); strcpy(sd_path, ctxt->path); } void launch_l4t(const ini_sec_t *ini_sec, int entry_idx, int is_list, bool t210b01) { l4t_ctxt_t *ctxt = (l4t_ctxt_t *)TZ_PARAM_BASE; memset(ctxt, 0, TZ_PARAM_SIZE); gfx_con_setpos(0, 0); // Parse config. _l4t_set_config(ctxt, ini_sec, entry_idx, is_list, t210b01); if (!ctxt->path) { _l4t_crit_error("Path missing", false); return; } // Get MTC table. ctxt->mtc_table = minerva_get_mtc_table(); if (!t210b01 && !ctxt->mtc_table) { _l4t_crit_error("Minerva missing", true); return; } // Load BL31 (ATF/TrustZone fw). if (!_l4t_sd_load(BL31_FW)) { _l4t_crit_error("BL31 missing", false); return; } // Load BL33 (U-BOOT/CBOOT). if (!_l4t_sd_load(BL33_FW)) { _l4t_crit_error("BL33 missing", false); return; } // Set firmware path. strcpy(sd_path, "bootloader/sys/l4t/"); sd_path_len = strlen(sd_path); if (!t210b01) { // Load SC7-Entry firmware. ctxt->sc7entry_size = _l4t_sd_load(SC7ENTRY_FW); if (!ctxt->sc7entry_size) { _l4t_crit_error("loading SC7-Entry", true); return; } // Load BPMP-FW. Does power management. if (!_l4t_sd_load(BPMPFW_FW)) { _l4t_crit_error("loading BPMP-FW", true); return; } // Load SC7-Exit firmware. if (!_l4t_sd_load(SC7EXIT_FW)) { _l4t_crit_error("loading SC7-Exit", true); return; } } else { // Load BPMP-FW. Manages SC7-Entry also. if (!_l4t_sd_load(BPMPFW_B01_FW)) { _l4t_crit_error("loading BPMP-FW", true); return; } // Load BPMP-FW MTC table. if (!_l4t_sd_load(BPMPFW_B01_MTC_TBL)) { _l4t_crit_error("loading BPMP-FW MTC", true); return; } } // Set SC7-Exit firmware address to PMC for bootrom and do further setup. if (_l4t_sc7_exit_config(t210b01)) return; // Done loading bootloaders/firmware. sd_end(); // We don't need AHB aperture open. mc_disable_ahb_redirect(); // Enable debug port. if (ctxt->serial_port) { pinmux_config_uart(ctxt->serial_port - 1); clock_enable_uart(ctxt->serial_port - 1); } // Restore UARTB/C TX pins to SPIO. gpio_config(GPIO_PORT_G, GPIO_PIN_0, GPIO_MODE_SPIO); gpio_config(GPIO_PORT_D, GPIO_PIN_1, GPIO_MODE_SPIO); // Configure BL33 parameters. if (*(u32 *)BL33_DTB_BASE == DTB_MAGIC) { // Defaults are for UARTA. char *bl33_serial_port = NULL; switch (ctxt->serial_port) { case 0: // Disable. break; case 1: // UARTA. bl33_serial_port = "70006000"; break; case 2: // UARTB. bl33_serial_port = "70006040"; break; case 3: // UARTC. bl33_serial_port = "70006200"; break; } if (bl33_serial_port) { BL33_DTB_SET_STDOUT_PATH(bl33_serial_port); BL33_DTB_SET_STDERR_PATH(bl33_serial_port); BL33_DTB_SET_UART_STATUS(ctxt->serial_port); } } // Set BL31 params. ctxt->bl31_v1_params.hdr.type = PARAM_BL31; ctxt->bl31_v1_params.hdr.version = VERSION_1; ctxt->bl31_v1_params.hdr.size = sizeof(bl31_v1_params_t); ctxt->bl31_v1_params.hdr.attr = PARAM_EP_SECURE; ctxt->bl31_v1_params.bl33_ep_info = (u64)(u32)&ctxt->bl33_ep_info; // Set BL33 params. ctxt->bl33_ep_info.hdr.type = PARAM_EP; ctxt->bl33_ep_info.hdr.version = VERSION_1; ctxt->bl33_ep_info.hdr.size = sizeof(entry_point_info_t); ctxt->bl33_ep_info.hdr.attr = PARAM_EP_NON_SECURE; ctxt->bl33_ep_info.pc = BL33_LOAD_BASE; ctxt->bl33_ep_info.spsr = SPSR_EL2T; // Set Platform parameters. ctxt->bl31_plat_params.tzdram_base = TZDRAM_BASE; ctxt->bl31_plat_params.tzdram_size = TZDRAM_SIZE; #if DEBUG_LOG_ATF ctxt->bl31_plat_params.uart_id = ctxt->serial_port; #endif if (!t210b01) { // Set SC7-Entry fw parameters. For now BPMP-FW is not used on T210. ctxt->bl31_plat_params.sc7entry_fw_base = SC7ENTRY_HDR_BASE; ctxt->bl31_plat_params.sc7entry_fw_size = ALIGN(ctxt->sc7entry_size + SC7ENTRY_HDR_SIZE, SZ_PAGE); } // Enable below features. ctxt->bl31_plat_params.enable_extra_features = BL31_EXTRA_FEATURES_ENABLE; if (!t210b01) { // Set R2P payload. reloc_meta_t *reloc = (reloc_meta_t *)(IPL_LOAD_ADDR + 0x7C); memcpy((u8 *)R2P_PAYLOAD_BASE, (u8 *)reloc->start, reloc->end - reloc->start); memset((u8 *)R2P_PAYLOAD_BASE + 0x94, 0, sizeof(boot_cfg_t)); // Clear Boot Config Storage. // Set R2P payload fw parameters. ctxt->bl31_plat_params.r2p_payload_base = R2P_PAYLOAD_BASE; ctxt->bl31_plat_params.r2p_payload_size = ALIGN(reloc->end - reloc->start, SZ_PAGE); } // Set PMC access security. NS is mandatory for T210B01. ctxt->bl31_plat_params.flags = FLAGS_PMC_NON_SECURE; // Unsecure it unconditionally to reduce SMC calls to a minimum. // Lift SC7 placement restrictions. Disables TZDRAM increased carveout too. ctxt->bl31_plat_params.flags |= FLAGS_SC7_NO_BASE_RESTRICTION; // Prepare EMC table. if (ctxt->mtc_table) { // Set DRAM voltage. if (ctxt->ram_oc_vdd2) max7762x_regulator_set_voltage(REGULATOR_SD1, ctxt->ram_oc_vdd2 * 1000); // Train the rest of the table, apply FSP WAR, set RAM to 800 MHz. minerva_prep_boot_l4t(ctxt->ram_oc_freq, ctxt->ram_oc_opt, true); // Set emc table parameters and copy it. int table_entries = minerva_get_mtc_table_entries(); ctxt->bl31_plat_params.emc_table_base = MTCTABLE_BASE; ctxt->bl31_plat_params.emc_table_size = sizeof(emc_table_t) * table_entries; memcpy((u32 *)MTCTABLE_BASE, ctxt->mtc_table, sizeof(emc_table_t) * table_entries); } // Set and enable IRAM based BL31 config. PMC(APBDEV_PMC_SECURE_SCRATCH112) = PMC(APBDEV_PMC_SECURE_SCRATCH108); PMC(APBDEV_PMC_SECURE_SCRATCH114) = PMC(APBDEV_PMC_SECURE_SCRATCH109); PMC(APBDEV_PMC_SECURE_SCRATCH108) = (u32)&ctxt->bl31_v1_params; PMC(APBDEV_PMC_SECURE_SCRATCH109) = (u32)&ctxt->bl31_plat_params; PMC(APBDEV_PMC_SECURE_SCRATCH110) = BL31_IRAM_PARAMS; // Set panel model. PMC(APBDEV_PMC_SECURE_SCRATCH113) = display_get_decoded_panel_id(); // Set charging limit parameters. if (fuse_read_hw_type() == FUSE_NX_HW_TYPE_HOAG) { int in_volt_lim = 0; bq24193_get_property(BQ24193_ChargeVoltageLimit, &in_volt_lim); PMC(APBDEV_PMC_SECURE_SCRATCH113) |= in_volt_lim << 16; } // Disable writes to above registers. PMC(APBDEV_PMC_SEC_DISABLE8) |= BIT(18) | BIT(16) | BIT(12) | BIT(10) | BIT(8); // Set BPMP-FW parameters. if (t210b01) _l4t_bpmpfw_b01_config(ctxt); // Set carveouts and save them to PMC for SC7 Exit. _l4t_mc_config_carveout(t210b01); // Deinit any unneeded HW. hw_deinit(ctxt->sld_type); // Do late hardware config. _l4t_late_hw_config(t210b01); if (t210b01) { // Launch BL31. ccplex_boot_cpu0(TZDRAM_COLD_ENTRY, true); // For T210B01, prep reset vector for SC7 save state and start BPMP-FW. EXCP_VEC(EVP_COP_RESET_VECTOR) = BPMPFW_B01_ENTRYPOINT; void (*bpmp_fw_ptr)() = (void *)BPMPFW_B01_ENTRYPOINT; (*bpmp_fw_ptr)(); } else { // If T210, BPMP-FW runs BL31. void (*bpmp_fw_ptr)() = (void *)BPMPFW_ENTRYPOINT; (*bpmp_fw_ptr)(); } // Halt BPMP. while (true) bpmp_halt(); } ================================================ FILE: bootloader/l4t/l4t.h ================================================ /* * L4T Loader for Tegra X1 * * Copyright (c) 2020-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _L4T_H_ #define _L4T_H_ void launch_l4t(const ini_sec_t *ini_sec, int entry_idx, int is_list, bool t210b01); #endif ================================================ FILE: bootloader/l4t/l4t_config.inl ================================================ /* * L4T Loader for Tegra X1 * * Copyright (c) 2020-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ // Set to 1 to enable early boot debugging. #define DEBUG_LOG_ATF 0 #define DEBUG_LOG_BPMPFW 0 // Do not enable if UART setup is hindered during early boot. // Set to 1 to lock PMC registers that contain LP0 parameters. #define LOCK_PMC_REGISTERS 0 // Configurable carveout enable config. Only one can be enabled at a time. #define CARVEOUT_NVDEC_TSEC_ENABLE 0 // Enable for NVDEC bl/prod and full TOS/DRM. #define CARVEOUT_SECFW_ENABLE 1 // SECFW is always allocated even if carveout is disabled. /* * WPR Carveout size config. * * L4T: 2MB or 13MB. On non SecureOS env, only 0x100 bytes are used, probably also on full TOS. * On 4GB+ systems, it's normally placed at BANK1_TOP - SIZE; */ #define CARVEOUT_GPUWPR_SIZE_CFG (SZ_8M + SZ_4M + SZ_1M) // Mandatory when CARVEOUT_NVDEC_TSEC_ENABLE is 1. ================================================ FILE: bootloader/libs/fatfs/diskio.c ================================================ /*-----------------------------------------------------------------------*/ /* Low level disk I/O module skeleton for FatFs (C)ChaN, 2016 */ /*-----------------------------------------------------------------------*/ /* If a working storage control module is available, it should be */ /* attached to the FatFs via a glue function rather than modifying it. */ /* This is an example of glue functions to attach various exsisting */ /* storage control modules to the FatFs module with a defined API. */ /*-----------------------------------------------------------------------*/ #include #include #include /* FatFs lower layer API */ /*-----------------------------------------------------------------------*/ /* Get Drive Status */ /*-----------------------------------------------------------------------*/ DSTATUS disk_status ( BYTE pdrv /* Physical drive nmuber to identify the drive */ ) { return 0; } /*-----------------------------------------------------------------------*/ /* Inidialize a Drive */ /*-----------------------------------------------------------------------*/ DSTATUS disk_initialize ( BYTE pdrv /* Physical drive nmuber to identify the drive */ ) { return 0; } /*-----------------------------------------------------------------------*/ /* Read Sector(s) */ /*-----------------------------------------------------------------------*/ DRESULT disk_read ( BYTE pdrv, /* Physical drive nmuber to identify the drive */ BYTE *buff, /* Data buffer to store read data */ DWORD sector, /* Start sector in LBA */ UINT count /* Number of sectors to read */ ) { return sdmmc_storage_read(&sd_storage, sector, count, buff); } /*-----------------------------------------------------------------------*/ /* Write Sector(s) */ /*-----------------------------------------------------------------------*/ DRESULT disk_write ( BYTE pdrv, /* Physical drive nmuber to identify the drive */ const BYTE *buff, /* Data to be written */ DWORD sector, /* Start sector in LBA */ UINT count /* Number of sectors to write */ ) { return sdmmc_storage_write(&sd_storage, sector, count, (void *)buff); } /*-----------------------------------------------------------------------*/ /* Miscellaneous Functions */ /*-----------------------------------------------------------------------*/ DRESULT disk_ioctl ( BYTE pdrv, /* Physical drive nmuber (0..) */ BYTE cmd, /* Control code */ void *buff /* Buffer to send/receive control data */ ) { return RES_OK; } ================================================ FILE: bootloader/libs/fatfs/ffconf.h ================================================ /*---------------------------------------------------------------------------/ / FatFs Functional Configurations /---------------------------------------------------------------------------*/ #define FFCONF_DEF 86604 /* Revision ID */ /*---------------------------------------------------------------------------/ / Function Configurations /---------------------------------------------------------------------------*/ #define FF_FS_READONLY 0 /* This option switches read-only configuration. (0:Read/Write or 1:Read-only) / Read-only configuration removes writing API functions, f_write(), f_sync(), / f_unlink(), f_mkdir(), f_chmod(), f_rename(), f_truncate(), f_getfree() / and optional writing functions as well. */ #define FF_FS_MINIMIZE 0 /* This option defines minimization level to remove some basic API functions. / / 0: Basic functions are fully enabled. / 1: f_stat(), f_getfree(), f_unlink(), f_mkdir(), f_truncate() and f_rename() / are removed. / 2: f_opendir(), f_readdir() and f_closedir() are removed in addition to 1. / 3: f_lseek() function is removed in addition to 2. */ #define FF_USE_STRFUNC 2 /* This option switches string functions, f_gets(), f_putc(), f_puts() and f_printf(). / / 0: Disable string functions. / 1: Enable without LF-CRLF conversion. / 2: Enable with LF-CRLF conversion. */ #define FF_USE_FIND 1 /* This option switches filtered directory read functions, f_findfirst() and / f_findnext(). (0:Disable, 1:Enable 2:Enable with matching altname[] too) */ #define FF_USE_MKFS 0 /* This option switches f_mkfs() function. (0:Disable or 1:Enable) */ #if FF_USE_MKFS #define FF_MKFS_LABEL "SWITCH SD " #endif /* This sets FAT/FAT32 label. Exactly 11 characters, all caps. */ #define FF_USE_FASTSEEK 0 /* This option switches fast seek function. (0:Disable or 1:Enable) */ #define FF_FASTFS 0 #if FF_FASTFS #undef FF_USE_FASTSEEK #define FF_USE_FASTSEEK 1 #endif /* This option switches fast access to chained clusters. (0:Disable or 1:Enable) */ #define FF_SIMPLE_GPT 1 /* This option switches support for the first GPT partition. (0:Disable or 1:Enable) */ #define FF_USE_EXPAND 0 /* This option switches f_expand function. (0:Disable or 1:Enable) */ #define FF_USE_CHMOD 1 /* This option switches attribute manipulation functions, f_chmod() and f_utime(). / (0:Disable or 1:Enable) Also FF_FS_READONLY needs to be 0 to enable this option. */ #define FF_USE_LABEL 0 /* This option switches volume label functions, f_getlabel() and f_setlabel(). / (0:Disable or 1:Enable) */ #define FF_USE_FORWARD 0 /* This option switches f_forward() function. (0:Disable or 1:Enable) */ /*---------------------------------------------------------------------------/ / Locale and Namespace Configurations /---------------------------------------------------------------------------*/ #define FF_CODE_PAGE 850 /* This option specifies the OEM code page to be used on the target system. / Incorrect code page setting can cause a file open failure. / / 437 - U.S. / 720 - Arabic / 737 - Greek / 771 - KBL / 775 - Baltic / 850 - Latin 1 / 852 - Latin 2 / 855 - Cyrillic / 857 - Turkish / 860 - Portuguese / 861 - Icelandic / 862 - Hebrew / 863 - Canadian French / 864 - Arabic / 865 - Nordic / 866 - Russian / 869 - Greek 2 / 932 - Japanese (DBCS) / 936 - Simplified Chinese (DBCS) / 949 - Korean (DBCS) / 950 - Traditional Chinese (DBCS) / 0 - Include all code pages above and configured by f_setcp() */ #define FF_USE_LFN 3 #define FF_MAX_LFN 255 /* The FF_USE_LFN switches the support for LFN (long file name). / / 0: Disable LFN. FF_MAX_LFN has no effect. / 1: Enable LFN with static working buffer on the BSS. Always NOT thread-safe. / 2: Enable LFN with dynamic working buffer on the STACK. / 3: Enable LFN with dynamic working buffer on the HEAP. / / To enable the LFN, ffunicode.c needs to be added to the project. The LFN function / requiers certain internal working buffer occupies (FF_MAX_LFN + 1) * 2 bytes and / additional (FF_MAX_LFN + 44) / 15 * 32 bytes when exFAT is enabled. / The FF_MAX_LFN defines size of the working buffer in UTF-16 code unit and it can / be in range of 12 to 255. It is recommended to be set 255 to fully support LFN / specification. / When use stack for the working buffer, take care on stack overflow. When use heap / memory for the working buffer, memory management functions, ff_memalloc() and / ff_memfree() in ffsystem.c, need to be added to the project. */ #define FF_LFN_UNICODE 0 /* This option switches the character encoding on the API when LFN is enabled. / / 0: ANSI/OEM in current CP (TCHAR = char) / 1: Unicode in UTF-16 (TCHAR = WCHAR) / 2: Unicode in UTF-8 (TCHAR = char) / 3: Unicode in UTF-32 (TCHAR = DWORD) / / Also behavior of string I/O functions will be affected by this option. / When LFN is not enabled, this option has no effect. */ #define FF_LFN_BUF 255 #define FF_SFN_BUF 12 /* This set of options defines size of file name members in the FILINFO structure / which is used to read out directory items. These values should be suffcient for / the file names to read. The maximum possible length of the read file name depends / on character encoding. When LFN is not enabled, these options have no effect. */ #define FF_STRF_ENCODE 0 /* When FF_LFN_UNICODE >= 1 with LFN enabled, string I/O functions, f_gets(), / f_putc(), f_puts and f_printf() convert the character encoding in it. / This option selects assumption of character encoding ON THE FILE to be / read/written via those functions. / / 0: ANSI/OEM in current CP / 1: Unicode in UTF-16LE / 2: Unicode in UTF-16BE / 3: Unicode in UTF-8 */ #define FF_FS_RPATH 0 /* This option configures support for relative path. / / 0: Disable relative path and remove related functions. / 1: Enable relative path. f_chdir() and f_chdrive() are available. / 2: f_getcwd() function is available in addition to 1. */ /*---------------------------------------------------------------------------/ / Drive/Volume Configurations /---------------------------------------------------------------------------*/ #define FF_VOLUMES 1 /* Number of volumes (logical drives) to be used. (1-10) */ #define FF_STR_VOLUME_ID 0 #define FF_VOLUME_STRS "sd" /* FF_STR_VOLUME_ID switches support for volume ID in arbitrary strings. / When FF_STR_VOLUME_ID is set to 1 or 2, arbitrary strings can be used as drive / number in the path name. FF_VOLUME_STRS defines the volume ID strings for each / logical drives. Number of items must not be less than FF_VOLUMES. Valid / characters for the volume ID strings are A-Z, a-z and 0-9, however, they are / compared in case-insensitive. If FF_STR_VOLUME_ID >= 1 and FF_VOLUME_STRS is / not defined, a user defined volume string table needs to be defined as: / / const char* VolumeStr[FF_VOLUMES] = {"ram","flash","sd","usb",... / Order is important! Any change to order, must also be reflected to diskio drive enum. */ #define FF_MULTI_PARTITION 0 /* This option switches support for multiple volumes on the physical drive. / By default (0), each logical drive number is bound to the same physical drive / number and only an FAT volume found on the physical drive will be mounted. / When this function is enabled (1), each logical drive number can be bound to / arbitrary physical drive and partition listed in the VolToPart[]. Also f_fdisk() / funciton will be available. */ #define FF_MIN_SS 512 #define FF_MAX_SS 512 /* This set of options configures the range of sector size to be supported. (512, / 1024, 2048 or 4096) Always set both 512 for most systems, generic memory card and / harddisk. But a larger value may be required for on-board flash memory and some / type of optical media. When FF_MAX_SS is larger than FF_MIN_SS, FatFs is configured / for variable sector size mode and disk_ioctl() function needs to implement / GET_SECTOR_SIZE command. */ #define FF_USE_TRIM 0 /* This option switches support for ATA-TRIM. (0:Disable or 1:Enable) / To enable Trim function, also CTRL_TRIM command should be implemented to the / disk_ioctl() function. */ #define FF_FS_NOFSINFO 1 /* If you need to know correct free space on the FAT32 volume, set bit 0 of this / option, and f_getfree() function at first time after volume mount will force / a full FAT scan. Bit 1 controls the use of last allocated cluster number. / / bit0=0: Use free cluster count in the FSINFO if available. / bit0=1: Do not trust free cluster count in the FSINFO. / bit1=0: Use last allocated cluster number in the FSINFO if available. / bit1=1: Do not trust last allocated cluster number in the FSINFO. */ /*---------------------------------------------------------------------------/ / System Configurations /---------------------------------------------------------------------------*/ #define FF_FS_TINY 0 /* This option switches tiny buffer configuration. (0:Normal or 1:Tiny) / At the tiny configuration, size of file object (FIL) is shrinked FF_MAX_SS bytes. / Instead of private sector buffer eliminated from the file object, common sector / buffer in the filesystem object (FATFS) is used for the file data transfer. */ #define FF_FS_EXFAT 1 /* This option switches support for exFAT filesystem. (0:Disable or 1:Enable) / To enable exFAT, also LFN needs to be enabled. (FF_USE_LFN >= 1) / Note that enabling exFAT discards ANSI C (C89) compatibility. */ #define FF_FS_NORTC 1 #define FF_NORTC_MON 1 #define FF_NORTC_MDAY 1 #define FF_NORTC_YEAR 2026 /* The option FF_FS_NORTC switches timestamp function. If the system does not have / any RTC function or valid timestamp is not needed, set FF_FS_NORTC = 1 to disable / the timestamp function. Every object modified by FatFs will have a fixed timestamp / defined by FF_NORTC_MON, FF_NORTC_MDAY and FF_NORTC_YEAR in local time. / To enable timestamp function (FF_FS_NORTC = 0), get_fattime() function need to be / added to the project to read current time form real-time clock. FF_NORTC_MON, / FF_NORTC_MDAY and FF_NORTC_YEAR have no effect. / These options have no effect at read-only configuration (FF_FS_READONLY = 1). */ #define FF_FS_LOCK 0 /* The option FF_FS_LOCK switches file lock function to control duplicated file open / and illegal operation to open objects. This option must be 0 when FF_FS_READONLY / is 1. / / 0: Disable file lock function. To avoid volume corruption, application program / should avoid illegal open, remove and rename to the open objects. / >0: Enable file lock function. The value defines how many files/sub-directories / can be opened simultaneously under file lock control. Note that the file / lock control is independent of re-entrancy. */ /* #include // O/S definitions */ #define FF_FS_REENTRANT 0 #define FF_FS_TIMEOUT 1000 #define FF_SYNC_t HANDLE /* The option FF_FS_REENTRANT switches the re-entrancy (thread safe) of the FatFs / module itself. Note that regardless of this option, file access to different / volume is always re-entrant and volume control functions, f_mount(), f_mkfs() / and f_fdisk() function, are always not re-entrant. Only file/directory access / to the same volume is under control of this function. / / 0: Disable re-entrancy. FF_FS_TIMEOUT and FF_SYNC_t have no effect. / 1: Enable re-entrancy. Also user provided synchronization handlers, / ff_req_grant(), ff_rel_grant(), ff_del_syncobj() and ff_cre_syncobj() / function, must be added to the project. Samples are available in / option/syscall.c. / / The FF_FS_TIMEOUT defines timeout period in unit of time tick. / The FF_SYNC_t defines O/S dependent sync object type. e.g. HANDLE, ID, OS_EVENT*, / SemaphoreHandle_t and etc. A header file for O/S definitions needs to be / included somewhere in the scope of ff.h. */ /*--- End of configuration options ---*/ ================================================ FILE: bootloader/link.ld ================================================ ENTRY(_start) SECTIONS { PROVIDE(__ipl_start = IPL_LOAD_ADDR); . = __ipl_start; .text : { *(.text._start); KEEP(*(._boot_cfg)); KEEP(*(._ipl_version)); *(.text._irq_setup); *(.text*); } .data : { *(.data*); *(.rodata*); } . = ALIGN(0x10); __ipl_end = .; .bss : { __bss_start = .; *(COMMON) *(.bss*) __bss_end = .; } } ================================================ FILE: bootloader/main.c ================================================ /* * Copyright (c) 2018 naehrwert * * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include "config.h" #include "gfx/logos.h" #include "gfx/tui.h" #include "hos/hos.h" #include "hos/secmon_exo.h" #include "l4t/l4t.h" #include #include #include #include "storage/emummc.h" #include "frontend/fe_tools.h" #include "frontend/fe_info.h" hekate_config h_cfg; boot_cfg_t __attribute__((section ("._boot_cfg"))) b_cfg; const volatile ipl_ver_meta_t __attribute__((section ("._ipl_version"))) ipl_ver = { .magic = BL_MAGIC, .version = (BL_VER_MJ + '0') | ((BL_VER_MN + '0') << 8) | ((BL_VER_HF + '0') << 16) | ((BL_VER_RL) << 24), .rcfg.rsvd_flags = 0, .rcfg.bclk_t210 = BPMP_CLK_LOWER_BOOST, .rcfg.bclk_t210b01 = BPMP_CLK_DEFAULT_BOOST }; volatile nyx_storage_t *nyx_str = (nyx_storage_t *)NYX_STORAGE_ADDR; static void _check_power_off_from_hos() { // Power off on alarm wakeup from HOS shutdown. For modchips/dongles. u8 hos_wakeup = i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_IRQTOP); // Clear RTC interrupts. (void)i2c_recv_byte(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_RTC_RTCINT_REG); // Stop the alarm, in case we injected and powered off too fast. max77620_rtc_stop_alarm(); // Handle RTC wake up. if (hos_wakeup & MAX77620_IRQ_TOP_RTC_MASK) { if (h_cfg.autohosoff == 1) { render_static_bootlogo(); if (display_get_decoded_panel_id() != PANEL_SAM_AMS699VC01) { // Slow fading for LCD panels. display_backlight_brightness(10, 5000); display_backlight_brightness(100, 25000); msleep(600); display_backlight_brightness(0, 20000); } else { // Blink 3 times for OLED panel. for (u32 i = 0; i < 3; i++) { msleep(150); display_backlight_brightness(100, 0); msleep(150); display_backlight_brightness(0, 0); } } } power_set_state(POWER_OFF_RESET); } } // This is a safe and unused DRAM region for our payloads. #define RELOC_META_OFF 0x7C #define PATCHED_RELOC_SZ 0x94 #define VERSION_RCFG_OFF 0x120 #define PATCHED_RELOC_STACK 0x40007000 #define PATCHED_RELOC_ENTRY 0x40010000 #define EXT_PAYLOAD_ADDR 0xC0000000 #define RCM_PAYLOAD_ADDR (EXT_PAYLOAD_ADDR + ALIGN(PATCHED_RELOC_SZ, 0x10)) static void _reloc_append(u32 payload_dst, u32 payload_src, u32 payload_size) { memcpy((u8 *)payload_src, (u8 *)IPL_LOAD_ADDR, PATCHED_RELOC_SZ); volatile reloc_meta_t *relocator = (reloc_meta_t *)(payload_src + RELOC_META_OFF); relocator->start = payload_dst - ALIGN(PATCHED_RELOC_SZ, 0x10); relocator->stack = PATCHED_RELOC_STACK; relocator->end = payload_dst + payload_size; relocator->ep = payload_dst; } bool is_ipl_updated(void *buf, u32 size, const char *path, bool force) { ipl_ver_meta_t *update_ft = (ipl_ver_meta_t *)(buf + PATCHED_RELOC_SZ + sizeof(boot_cfg_t)); bool magic_valid = update_ft->magic == ipl_ver.magic; bool force_update = force && !magic_valid; bool is_valid_old = magic_valid && (byte_swap_32(update_ft->version) < byte_swap_32(ipl_ver.version)); // Check if newer version. if (!force && magic_valid) { // Copy reserved config. if (size && !is_valid_old && memcmp((u8 *)(IPL_LOAD_ADDR + VERSION_RCFG_OFF), (u8 *)(buf + VERSION_RCFG_OFF), sizeof(rsvd_cfg_t))) { memcpy((u8 *)(buf + VERSION_RCFG_OFF), (u8 *)(IPL_LOAD_ADDR + VERSION_RCFG_OFF), sizeof(rsvd_cfg_t)); sd_save_to_file(buf, size, path); } if (byte_swap_32(update_ft->version) > byte_swap_32(ipl_ver.version)) return false; } // Update if old or broken. if (force_update || is_valid_old) { boot_cfg_t tmp_cfg; reloc_meta_t *reloc = (reloc_meta_t *)(IPL_LOAD_ADDR + RELOC_META_OFF); // Reset boot storage configuration. memcpy(&tmp_cfg, (u8 *)(reloc->start + PATCHED_RELOC_SZ), sizeof(boot_cfg_t)); memset((u8 *)(reloc->start + PATCHED_RELOC_SZ), 0, sizeof(boot_cfg_t)); sd_save_to_file((u8 *)reloc->start, reloc->end - reloc->start, path); // Restore boot storage configuration. memcpy((u8 *)(reloc->start + PATCHED_RELOC_SZ), &tmp_cfg, sizeof(boot_cfg_t)); } return true; } static void _launch_payload(char *path, bool update, bool clear_screen) { if (clear_screen) gfx_clear_grey(0x1B); gfx_con_setpos(0, 0); // Read payload. u32 size = 0; void *buf = sd_file_read(path, &size); if (!buf) { gfx_con.mute = false; EPRINTFARGS("Payload file is missing!\n(%s)", path); goto out; } if (update && is_ipl_updated(buf, size, path, false)) goto out; // Check if it safely fits IRAM. if (size > 0x30000) { gfx_con.mute = false; EPRINTF("Payload is too big!"); goto out; } sd_end(); // Copy the payload to our chosen address. memcpy((void *)RCM_PAYLOAD_ADDR, buf, size); // Append relocator or set config. void (*payload_ptr)(); if (!update) { _reloc_append(PATCHED_RELOC_ENTRY, EXT_PAYLOAD_ADDR, ALIGN(size, 0x10)); payload_ptr = (void *)EXT_PAYLOAD_ADDR; } else { memcpy((u8 *)(RCM_PAYLOAD_ADDR + PATCHED_RELOC_SZ), &b_cfg, sizeof(boot_cfg_t)); // Transfer boot cfg. // Set updated flag to skip check on launch. EMC(EMC_SCRATCH0) |= EMC_HEKA_UPD; payload_ptr = (void *)RCM_PAYLOAD_ADDR; } hw_deinit(false); // Launch our payload. (*payload_ptr)(); out: free(buf); if (!update) { gfx_con.mute = false; EPRINTF("Failed to launch payload!"); } } static void _launch_payloads() { u8 max_entries = 61; ment_t *ments = NULL; char *file_sec = NULL; char *dir = NULL; dirlist_t *filelist = NULL; gfx_clear_grey(0x1B); gfx_con_setpos(0, 0); if (sd_mount()) goto failed_sd_mount; ments = (ment_t *)malloc(sizeof(ment_t) * (max_entries + 3)); dir = (char *)malloc(256); memcpy(dir, "bootloader/payloads", 20); filelist = dirlist(dir, NULL, 0); u32 i = 0; if (filelist) { // Build configuration menu. ments[0].type = MENT_BACK; ments[0].caption = "Back"; ments[1].type = MENT_CHGLINE; while (true) { if (i > max_entries || !filelist->name[i]) break; ments[i + 2].type = INI_CHOICE; ments[i + 2].caption = filelist->name[i]; ments[i + 2].data = filelist->name[i]; i++; } } if (i > 0) { memset(&ments[i + 2], 0, sizeof(ment_t)); menu_t menu = { ments, "Choose a payload", 0, 0 }; file_sec = (char *)tui_do_menu(&menu); if (!file_sec) { free(ments); free(dir); free(filelist); sd_end(); return; } } else EPRINTF("No payloads found."); if (file_sec) { memcpy(dir + strlen(dir), "/", 2); memcpy(dir + strlen(dir), file_sec, strlen(file_sec) + 1); _launch_payload(dir, false, true); } failed_sd_mount: free(dir); free(ments); free(filelist); sd_end(); btn_wait(); } static void _launch_ini_list() { u8 max_entries = 61; char *special_path = NULL; char *emummc_path = NULL; ment_t *ments = NULL; ini_sec_t *cfg_sec = NULL; LIST_INIT(ini_list_sections); gfx_clear_grey(0x1B); gfx_con_setpos(0, 0); if (sd_mount()) goto parse_failed; // Check that ini files exist and parse them. if (ini_parse(&ini_list_sections, "bootloader/ini", true)) { EPRINTF("No .ini files in bootloader/ini!"); goto parse_failed; } // Build configuration menu. ments = (ment_t *)malloc(sizeof(ment_t) * (max_entries + 3)); ments[0].type = MENT_BACK; ments[0].caption = "Back"; ments[1].type = MENT_CHGLINE; u32 sec_idx = 2; LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_list_sections, link) { if (ini_sec->type == INI_COMMENT || ini_sec->type == INI_NEWLINE || !strcmp(ini_sec->name, "config")) continue; ments[sec_idx].type = ini_sec->type; ments[sec_idx].caption = ini_sec->name; ments[sec_idx].data = ini_sec; if (ini_sec->type == MENT_CAPTION) ments[sec_idx].color = ini_sec->color; sec_idx++; if ((sec_idx - 1) > max_entries) break; } if (sec_idx > 2) { memset(&ments[sec_idx], 0, sizeof(ment_t)); menu_t menu = { ments, "Launch ini entries", 0, 0 }; cfg_sec = (ini_sec_t *)tui_do_menu(&menu); special_path = ini_check_special_section(cfg_sec); if (cfg_sec && !special_path) { LIST_FOREACH_ENTRY(ini_kv_t, kv, &cfg_sec->kvs, link) { if (!strcmp("emummc_force_disable", kv->key)) h_cfg.emummc_force_disable = atoi(kv->val); else if (!strcmp("emupath", kv->key)) emummc_path = kv->val; } if (emummc_path && !emummc_set_path(emummc_path)) { EPRINTF("emupath is wrong!"); goto wrong_emupath; } } if (!cfg_sec) { free(ments); return; } } else EPRINTF("No extra configs found."); parse_failed: if (!cfg_sec) goto out; if (special_path) { // Try to launch Payload or L4T. if (special_path != (char *)-1) _launch_payload(special_path, false, true); else { u32 entry_idx = 0; for (u32 i = 0; i < sec_idx; i++) { if (ments[i].data == cfg_sec) { entry_idx = i; break; } } launch_l4t(cfg_sec, entry_idx, 1, h_cfg.t210b01); } } else { hos_launch(cfg_sec); wrong_emupath: if (emummc_path) { sd_mount(); emummc_load_cfg(); // Reload emuMMC config in case of emupath. } } out: free(ments); btn_wait(); } static void _launch_config() { u8 max_entries = 61; char *special_path = NULL; char *emummc_path = NULL; ment_t *ments = NULL; ini_sec_t *cfg_sec = NULL; LIST_INIT(ini_sections); gfx_clear_grey(0x1B); gfx_con_setpos(0, 0); if (sd_mount()) goto parse_failed; // Load emuMMC configuration. emummc_load_cfg(); // Parse main configuration. ini_parse(&ini_sections, "bootloader/hekate_ipl.ini", false); // Build configuration menu. ments = (ment_t *)malloc(sizeof(ment_t) * (max_entries + 6)); ments[0].type = MENT_BACK; ments[0].caption = "Back"; ments[1].type = MENT_CHGLINE; ments[2].type = MENT_HANDLER; ments[2].caption = "Payloads..."; ments[2].handler = _launch_payloads; ments[3].type = MENT_HANDLER; ments[3].caption = "More configs..."; ments[3].handler = _launch_ini_list; ments[4].type = MENT_CHGLINE; u32 sec_idx = 5; LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_sections, link) { if (ini_sec->type == INI_COMMENT || ini_sec->type == INI_NEWLINE || !strcmp(ini_sec->name, "config")) continue; ments[sec_idx].type = ini_sec->type; ments[sec_idx].caption = ini_sec->name; ments[sec_idx].data = ini_sec; if (ini_sec->type == MENT_CAPTION) ments[sec_idx].color = ini_sec->color; sec_idx++; if ((sec_idx - 4) > max_entries) break; } if (sec_idx < 6) { ments[sec_idx].type = MENT_CAPTION; ments[sec_idx].caption = "No main configs found..."; ments[sec_idx].color = TXT_CLR_WARNING; sec_idx++; } memset(&ments[sec_idx], 0, sizeof(ment_t)); menu_t menu = { ments, "Launch configurations", 0, 0 }; cfg_sec = (ini_sec_t *)tui_do_menu(&menu); special_path = ini_check_special_section(cfg_sec); if (cfg_sec && !special_path) { LIST_FOREACH_ENTRY(ini_kv_t, kv, &cfg_sec->kvs, link) { if (!strcmp("emummc_force_disable", kv->key)) h_cfg.emummc_force_disable = atoi(kv->val); if (!strcmp("emupath", kv->key)) emummc_path = kv->val; } if (emummc_path && !emummc_set_path(emummc_path)) { EPRINTF("emupath is wrong!"); goto wrong_emupath; } } if (!cfg_sec) { free(ments); sd_end(); return; } parse_failed: if (!cfg_sec) { gfx_printf("\nPress any key...\n"); goto out; } if (special_path) { // Try to launch Payload or L4T. if (special_path != (char *)-1) _launch_payload(special_path, false, true); else { u32 entry_idx = 0; for (u32 i = 0; i < sec_idx; i++) { if (ments[i].data == cfg_sec) { entry_idx = i; break; } } launch_l4t(cfg_sec, entry_idx, 0, h_cfg.t210b01); } } else { hos_launch(cfg_sec); wrong_emupath: if (emummc_path) { sd_mount(); emummc_load_cfg(); // Reload emuMMC config in case of emupath. } } out: sd_end(); free(ments); h_cfg.emummc_force_disable = false; btn_wait(); } #define NYX_VER_OFF 0x9C static void _nyx_load_run() { u8 *nyx = sd_file_read("bootloader/sys/nyx.bin", NULL); if (!nyx) return; sd_end(); render_static_bootlogo(); display_backlight_brightness(h_cfg.backlight, 1000); // Check if Nyx version is old. u32 expected_nyx_ver = ((NYX_VER_MJ + '0') << 24) | ((NYX_VER_MN + '0') << 16) | ((NYX_VER_HF + '0') << 8); u32 nyx_ver = byte_swap_32(*(u32 *)(nyx + NYX_VER_OFF)) & 0xFFFFFF00; if (nyx_ver < expected_nyx_ver) { h_cfg.errors |= ERR_SYSOLD_NYX; gfx_con_setpos(0, 0); WPRINTF("Old Nyx GUI found! There will be dragons!\n"); WPRINTF("\nUpdate bootloader folder!\n\n"); WPRINTF("Press any key..."); msleep(1000); btn_wait(); } // Set hekate errors. nyx_str->info.errors = h_cfg.errors; // Set Nyx mode. nyx_str->cfg = 0; if (b_cfg.extra_cfg & EXTRA_CFG_NYX_UMS) { b_cfg.extra_cfg &= ~(EXTRA_CFG_NYX_UMS); nyx_str->cfg |= NYX_CFG_UMS; nyx_str->cfg |= b_cfg.ums << 24; } // Set hekate version used to boot Nyx. nyx_str->version = ipl_ver.version - 0x303030; // Convert ASCII to numbers. // Set [new] info validation magic. nyx_str->info.magic = NYX_NEW_INFO; nyx_str->info_ex.magic = NYX_NEW_INFO; // Set [new] reserved flags. nyx_str->info_ex.rsvd_flags = ipl_ver.rcfg.rsvd_flags; // Set [new] SD card initialization and error info. nyx_str->info.sd_init = sd_get_mode(); u16 *sd_errors = sd_get_error_count(); for (u32 i = 0; i < 3; i++) nyx_str->info.sd_errors[i] = sd_errors[i]; // Set Display ID info. nyx_str->info.panel_id = display_get_verbose_panel_id(); reloc_meta_t *reloc = (reloc_meta_t *)(IPL_LOAD_ADDR + RELOC_META_OFF); memcpy((u8 *)nyx_str->hekate, (u8 *)reloc->start, reloc->end - reloc->start); // Do one last training. minerva_periodic_training(); bpmp_mmu_disable(); bpmp_clk_rate_set(BPMP_CLK_NORMAL); // Some cards (Sandisk U1), do not like a fast power cycle. sdmmc_storage_init_wait_sd(); void (*nyx_ptr)() = (void *)nyx; (*nyx_ptr)(); } void launch_nyx() { sd_mount(); _nyx_load_run(); } static ini_sec_t *_get_ini_sec_from_id(ini_sec_t *ini_sec, char **bootlogoCustomEntry, char **emummc_path) { ini_sec_t *cfg_sec = NULL; LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { if (!strcmp("id", kv->key)) { if (b_cfg.id[0] && kv->val[0] && !strcmp(b_cfg.id, kv->val)) cfg_sec = ini_sec; else break; } if (!strcmp("emupath", kv->key)) *emummc_path = kv->val; else if (!strcmp("logopath", kv->key)) *bootlogoCustomEntry = kv->val; else if (!strcmp("emummc_force_disable", kv->key)) h_cfg.emummc_force_disable = atoi(kv->val); } if (!cfg_sec) { *emummc_path = NULL; *bootlogoCustomEntry = NULL; h_cfg.emummc_force_disable = false; } return cfg_sec; } static void _bootloader_corruption_protect() { FILINFO fno; if (!f_stat("bootloader", &fno)) { if (!h_cfg.bootprotect && (fno.fattrib & AM_ARC)) f_chmod("bootloader", 0, AM_ARC); else if (h_cfg.bootprotect && !(fno.fattrib & AM_ARC)) f_chmod("bootloader", AM_ARC, AM_ARC); } } static void _check_for_updated_bootloader() { // Check if already chainloaded update and clear flag. Otherwise check for updates. if (EMC(EMC_SCRATCH0) & EMC_HEKA_UPD) EMC(EMC_SCRATCH0) &= ~EMC_HEKA_UPD; else { // Check if update.bin exists and is newer and launch it. Otherwise create it. if (!f_stat("bootloader/update.bin", NULL)) _launch_payload("bootloader/update.bin", true, false); else { u8 *buf = zalloc(0x200); is_ipl_updated(buf, 0, "bootloader/update.bin", true); free(buf); } } } static void _auto_launch() { struct _bmp_data { u32 size; u32 size_x; u32 size_y; u32 offset; u32 pos_x; u32 pos_y; }; u32 boot_wait = h_cfg.bootwait; u32 boot_entry_id = 0; ini_sec_t *cfg_sec = NULL; char *emummc_path = NULL; char *bootlogoCustomEntry = NULL; bool config_entry_found = false; bool boot_from_id = (b_cfg.boot_cfg & BOOT_CFG_FROM_ID) && (b_cfg.boot_cfg & BOOT_CFG_AUTOBOOT_EN); if (boot_from_id) b_cfg.id[7] = 0; if (!(b_cfg.boot_cfg & BOOT_CFG_FROM_LAUNCH)) gfx_con.mute = true; LIST_INIT(ini_sections); LIST_INIT(ini_list_sections); // Load emuMMC configuration. emummc_load_cfg(); // Parse hekate main configuration. if (ini_parse(&ini_sections, "bootloader/hekate_ipl.ini", false)) goto out; // Can't load hekate_ipl.ini. // Load configuration. LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_sections, link) { // Skip other ini entries for autoboot. if (ini_sec->type == INI_CHOICE) { if (!config_entry_found && !strcmp(ini_sec->name, "config")) { config_entry_found = true; LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { if (!strcmp("autoboot", kv->key)) h_cfg.autoboot = atoi(kv->val); else if (!strcmp("autoboot_list", kv->key)) h_cfg.autoboot_list = atoi(kv->val); else if (!strcmp("bootwait", kv->key)) boot_wait = atoi(kv->val); else if (!strcmp("backlight", kv->key)) h_cfg.backlight = atoi(kv->val); else if (!strcmp("noticker", kv->key)) h_cfg.noticker = atoi(kv->val); else if (!strcmp("autohosoff", kv->key)) h_cfg.autohosoff = atoi(kv->val); else if (!strcmp("autonogc", kv->key)) h_cfg.autonogc = atoi(kv->val); else if (!strcmp("updater2p", kv->key)) h_cfg.updater2p = atoi(kv->val); else if (!strcmp("bootprotect", kv->key)) h_cfg.bootprotect = atoi(kv->val); } boot_entry_id++; // Override autoboot. if (b_cfg.boot_cfg & BOOT_CFG_AUTOBOOT_EN) { h_cfg.autoboot = b_cfg.autoboot; h_cfg.autoboot_list = b_cfg.autoboot_list; } // Apply bootloader protection against corruption. _bootloader_corruption_protect(); // If ini list, exit here. if (!boot_from_id && h_cfg.autoboot_list) break; continue; } if (boot_from_id) cfg_sec = _get_ini_sec_from_id(ini_sec, &bootlogoCustomEntry, &emummc_path); else if (h_cfg.autoboot == boot_entry_id && config_entry_found) { cfg_sec = ini_sec; LIST_FOREACH_ENTRY(ini_kv_t, kv, &cfg_sec->kvs, link) { if (!strcmp("logopath", kv->key)) bootlogoCustomEntry = kv->val; else if (!strcmp("emupath", kv->key)) emummc_path = kv->val; else if (!strcmp("emummc_force_disable", kv->key)) h_cfg.emummc_force_disable = atoi(kv->val); else if (!strcmp("bootwait", kv->key)) boot_wait = atoi(kv->val); } } if (cfg_sec) break; boot_entry_id++; } } if (h_cfg.autohosoff && !(b_cfg.boot_cfg & BOOT_CFG_AUTOBOOT_EN)) _check_power_off_from_hos(); if (h_cfg.autoboot_list || (boot_from_id && !cfg_sec)) { if (boot_from_id && cfg_sec) goto skip_list; cfg_sec = NULL; boot_entry_id = 1; bootlogoCustomEntry = NULL; if (ini_parse(&ini_list_sections, "bootloader/ini", true)) goto skip_list; LIST_FOREACH_ENTRY(ini_sec_t, ini_sec_list, &ini_list_sections, link) { if (ini_sec_list->type != INI_CHOICE) continue; if (!strcmp(ini_sec_list->name, "config")) continue; if (boot_from_id) cfg_sec = _get_ini_sec_from_id(ini_sec_list, &bootlogoCustomEntry, &emummc_path); else if (h_cfg.autoboot == boot_entry_id) { h_cfg.emummc_force_disable = false; cfg_sec = ini_sec_list; LIST_FOREACH_ENTRY(ini_kv_t, kv, &cfg_sec->kvs, link) { if (!strcmp("logopath", kv->key)) bootlogoCustomEntry = kv->val; else if (!strcmp("emupath", kv->key)) emummc_path = kv->val; else if (!strcmp("emummc_force_disable", kv->key)) h_cfg.emummc_force_disable = atoi(kv->val); else if (!strcmp("bootwait", kv->key)) boot_wait = atoi(kv->val); } } if (cfg_sec) break; boot_entry_id++; } } skip_list: if (!cfg_sec) goto out; // No configurations or auto boot is disabled. // Check if entry is payload or l4t special case. char *special_path = ini_check_special_section(cfg_sec); if ((!(b_cfg.boot_cfg & BOOT_CFG_FROM_LAUNCH) && boot_wait) || // Conditional for HOS/Payload. (special_path && special_path == (char *)-1)) // Always show for L4T. { u32 fsize; u8 *logo_buf = NULL; u8 *bitmap = NULL; struct _bmp_data bmpData; bool bootlogoFound = false; // Check if user set custom logo path at the boot entry. if (bootlogoCustomEntry) bitmap = (u8 *)sd_file_read(bootlogoCustomEntry, &fsize); // Custom entry bootlogo not found, trying default custom one. if (!bitmap) bitmap = (u8 *)sd_file_read("bootloader/bootlogo.bmp", &fsize); if (bitmap) { // Get values manually to avoid unaligned access. bmpData.size = bitmap[2] | bitmap[3] << 8 | bitmap[4] << 16 | bitmap[5] << 24; bmpData.offset = bitmap[10] | bitmap[11] << 8 | bitmap[12] << 16 | bitmap[13] << 24; bmpData.size_x = bitmap[18] | bitmap[19] << 8 | bitmap[20] << 16 | bitmap[21] << 24; bmpData.size_y = bitmap[22] | bitmap[23] << 8 | bitmap[24] << 16 | bitmap[25] << 24; // Sanity check. if (bitmap[0] == 'B' && bitmap[1] == 'M' && bitmap[28] == 32 && // Only 32 bit BMPs allowed. bmpData.size_x <= 720 && bmpData.size_y <= 1280) { if (bmpData.size <= fsize && ((bmpData.size - bmpData.offset) < SZ_4M)) { // Avoid unaligned access from BM 2-byte MAGIC and remove header. logo_buf = (u8 *)malloc(SZ_4M); memcpy(logo_buf, bitmap + bmpData.offset, bmpData.size - bmpData.offset); free(bitmap); // Center logo if res < 720x1280. bmpData.pos_x = (720 - bmpData.size_x) >> 1; bmpData.pos_y = (1280 - bmpData.size_y) >> 1; // Get background color from 1st pixel. if (bmpData.size_x < 720 || bmpData.size_y < 1280) gfx_clear_color(*(u32 *)logo_buf); bootlogoFound = true; } } else free(bitmap); } // Clamp value to default if it exceeds 20s to protect against corruption. if (boot_wait > 20) boot_wait = 3; // Render boot logo. if (bootlogoFound) { gfx_render_bmp_argb((u32 *)logo_buf, bmpData.size_x, bmpData.size_y, bmpData.pos_x, bmpData.pos_y); free(logo_buf); // Do animated waiting before booting. If VOL- is pressed go into bootloader menu. if (render_ticker(boot_wait, h_cfg.backlight, h_cfg.noticker)) goto out; } else { // Do animated waiting before booting. If VOL- is pressed go into bootloader menu. if (render_ticker_logo(boot_wait, h_cfg.backlight)) goto out; } } if (b_cfg.boot_cfg & BOOT_CFG_FROM_LAUNCH) display_backlight_brightness(h_cfg.backlight, 0); else if (btn_read_vol() == BTN_VOL_DOWN) // 0s bootwait VOL- check. goto out; if (special_path) { // Try to launch Payload or L4T. if (special_path != (char *)-1) _launch_payload(special_path, false, false); else launch_l4t(cfg_sec, h_cfg.autoboot, h_cfg.autoboot_list, h_cfg.t210b01); goto error; } else { if (b_cfg.boot_cfg & BOOT_CFG_TO_EMUMMC) emummc_set_path(b_cfg.emummc_path); else if (emummc_path && !emummc_set_path(emummc_path)) { gfx_con.mute = false; EPRINTF("emupath is wrong!"); goto wrong_emupath; } hos_launch(cfg_sec); wrong_emupath: if (emummc_path || b_cfg.boot_cfg & BOOT_CFG_TO_EMUMMC) { sd_mount(); emummc_load_cfg(); // Reload emuMMC config in case of emupath. } error: gfx_con.mute = false; gfx_printf("\nPress any key...\n"); display_backlight_brightness(h_cfg.backlight, 1000); msleep(500); btn_wait(); } out: gfx_con.mute = false; // Clear boot reasons from binary. if (b_cfg.boot_cfg & (BOOT_CFG_FROM_ID | BOOT_CFG_TO_EMUMMC)) memset(b_cfg.xt_str, 0, sizeof(b_cfg.xt_str)); h_cfg.emummc_force_disable = false; // L4T: Clear custom boot mode flags from PMC_SCRATCH0. PMC(APBDEV_PMC_SCRATCH0) &= ~PMC_SCRATCH0_MODE_CUSTOM_ALL; _nyx_load_run(); } #define EXCP_EN_ADDR 0x4003FF1C #define EXCP_MAGIC 0x30505645 // "EVP0". #define EXCP_TYPE_ADDR 0x4003FF18 #define EXCP_TYPE_RESET 0x545352 // "RST". #define EXCP_TYPE_UNDEF 0x464455 // "UDF". #define EXCP_TYPE_PABRT 0x54424150 // "PABT". #define EXCP_TYPE_DABRT 0x54424144 // "DABT". #define EXCP_TYPE_WDT 0x544457 // "WDT". #define EXCP_LR_ADDR 0x4003FF14 #define PSTORE_LOG_OFFSET 0x180000 #define PSTORE_RAM_SIG 0x43474244 // "DBGC". typedef struct _pstore_buf { u32 sig; u32 start; u32 size; } pstore_buf_t; static void _show_errors() { u32 *excp_lr = (u32 *)EXCP_LR_ADDR; u32 *excp_type = (u32 *)EXCP_TYPE_ADDR; u32 *excp_enabled = (u32 *)EXCP_EN_ADDR; u32 panic_status = hw_rst_status & 0xFFFFF; // Check for exception error. if (*excp_enabled == EXCP_MAGIC) h_cfg.errors |= ERR_EXCEPTION; // Check for L4T kernel panic. if (PMC(APBDEV_PMC_SCRATCH37) == PMC_SCRATCH37_KERNEL_PANIC_MAGIC) { // Set error and clear flag. h_cfg.errors |= ERR_L4T_KERNEL; PMC(APBDEV_PMC_SCRATCH37) = 0; } // Check for watchdog panic. if (hw_rst_reason == PMC_RST_STATUS_WATCHDOG && panic_status && panic_status <= 0xFF && panic_status != 0x20 && panic_status != 0x21) { h_cfg.errors |= ERR_PANIC_CODE; } // Check if we had a panic while in CFW. secmon_exo_check_panic(); // Handle errors. if (h_cfg.errors) { gfx_clear_grey(0x1B); gfx_con_setpos(0, 0); display_backlight_brightness(150, 1000); if (h_cfg.errors & ERR_SD_BOOT_EN) { WPRINTF("Failed to init or mount SD!\n"); // Clear the module bits as to not cram the error screen. h_cfg.errors &= ~(ERR_LIBSYS_LP0 | ERR_LIBSYS_MTC); } if (h_cfg.errors & ERR_LIBSYS_LP0) WPRINTF("Missing LP0 (sleep) lib!\n"); if (h_cfg.errors & ERR_LIBSYS_MTC) WPRINTF("Missing Minerva lib!\n"); if (h_cfg.errors & (ERR_LIBSYS_LP0 | ERR_LIBSYS_MTC)) WPRINTF("\nUpdate bootloader folder!\n\n"); if (h_cfg.errors & ERR_EXCEPTION) { WPRINTFARGS("hekate exception occurred (LR %08X):\n", *excp_lr); switch (*excp_type) { case EXCP_TYPE_WDT: WPRINTF("Hang detected in LP0/Minerva!"); break; case EXCP_TYPE_RESET: WPRINTF("RESET"); break; case EXCP_TYPE_UNDEF: WPRINTF("UNDEF"); break; case EXCP_TYPE_PABRT: WPRINTF("PABRT"); break; case EXCP_TYPE_DABRT: WPRINTF("DABRT"); break; } gfx_puts("\n"); // Clear the exception. *excp_enabled = 0; *excp_type = 0; } if (h_cfg.errors & ERR_L4T_KERNEL) { WPRINTF("L4T Kernel panic occurred!\n"); if (!(h_cfg.errors & ERR_SD_BOOT_EN)) { if (!sd_save_to_file((void *)PSTORE_ADDR, PSTORE_SZ, "L4T_panic.bin")) WPRINTF("PSTORE saved to L4T_panic.bin"); pstore_buf_t *buf = (pstore_buf_t *)(PSTORE_ADDR + PSTORE_LOG_OFFSET); if (buf->sig == PSTORE_RAM_SIG && buf->size && buf->size < 0x80000) { u32 log_offset = PSTORE_ADDR + PSTORE_LOG_OFFSET + sizeof(pstore_buf_t); if (!sd_save_to_file((void *)log_offset, buf->size, "L4T_panic.txt")) WPRINTF("Log saved to L4T_panic.txt"); } } gfx_puts("\n"); } if (h_cfg.errors & ERR_PANIC_CODE) { u32 r = (hw_rst_status >> 20) & 0xF; u32 g = (hw_rst_status >> 24) & 0xF; u32 b = (hw_rst_status >> 28) & 0xF; r = (r << 16) | (r << 20); g = (g << 8) | (g << 12); b = (b << 0) | (b << 4); u32 color = r | g | b; WPRINTF("HOS panic occurred!\n"); gfx_printf("Color: %k####%k, Code: %02X\n\n", color, TXT_CLR_DEFAULT, panic_status); } WPRINTF("Press any key..."); msleep(1000); // Guard against injection VOL+. btn_wait(); msleep(500); // Guard against force menu VOL-. } } static void _check_low_battery() { if (h_cfg.devmode) goto out; int enough_battery; int batt_volt = 0; int charge_status = 0; // Enable charger in case it's disabled. bq24193_enable_charger(); bq24193_get_property(BQ24193_ChargeStatus, &charge_status); max17050_get_property(MAX17050_AvgVCELL, &batt_volt); enough_battery = charge_status ? 3300 : 3100; // If battery voltage is enough, exit. if (batt_volt > enough_battery || !batt_volt) goto out; // Prepare battery icon resources. u8 *battery_res = malloc(ALIGN(BATTERY_EMPTY_SIZE, SZ_4K)); blz_uncompress_srcdest(battery_icons_blz, BATTERY_EMPTY_BLZ_SIZE, battery_res, BATTERY_EMPTY_SIZE); u8 *battery_icon = malloc(0x95A); // 21x38x3 u8 *charging_icon = malloc(0x2F4); // 21x12x3 u8 *no_charging_icon = zalloc(0x2F4); memcpy(charging_icon, battery_res, 0x2F4); memcpy(battery_icon, battery_res + 0x2F4, 0x95A); u32 battery_icon_y_pos = 1280 - 16 - BATTERY_EMPTY_BATT_HEIGHT; u32 charging_icon_y_pos = 1280 - 16 - BATTERY_EMPTY_BATT_HEIGHT - 12 - BATTERY_EMPTY_CHRG_HEIGHT; free(battery_res); charge_status = !charge_status; u32 timer = 0; bool screen_on = false; while (true) { bpmp_msleep(250); // Refresh battery stats. int current_charge_status = 0; bq24193_get_property(BQ24193_ChargeStatus, ¤t_charge_status); max17050_get_property(MAX17050_AvgVCELL, &batt_volt); enough_battery = current_charge_status ? 3300 : 3100; // If battery voltage is enough, exit. if (batt_volt > enough_battery) break; // Refresh charging icon. if (screen_on && (charge_status != current_charge_status)) { if (current_charge_status) gfx_set_rect_rgb(charging_icon, BATTERY_EMPTY_WIDTH, BATTERY_EMPTY_CHRG_HEIGHT, 16, charging_icon_y_pos); else gfx_set_rect_rgb(no_charging_icon, BATTERY_EMPTY_WIDTH, BATTERY_EMPTY_CHRG_HEIGHT, 16, charging_icon_y_pos); } // Check if it's time to turn off display. if (screen_on && timer < get_tmr_ms()) { // If battery is not charging, power off. if (!current_charge_status) { max77620_low_battery_monitor_config(true); // Handle full hw deinit and power off. power_set_state(POWER_OFF_RESET); } // If charging, just disable display. display_end(); screen_on = false; } // Check if charging status changed or Power button was pressed and enable display. if ((charge_status != current_charge_status) || (btn_wait_timeout_single(0, BTN_POWER) & BTN_POWER)) { if (!screen_on) { display_init(); u32 *fb = display_init_window_a_pitch(); gfx_init_ctxt(fb, 720, 1280, 720); gfx_set_rect_rgb(battery_icon, BATTERY_EMPTY_WIDTH, BATTERY_EMPTY_BATT_HEIGHT, 16, battery_icon_y_pos); if (current_charge_status) gfx_set_rect_rgb(charging_icon, BATTERY_EMPTY_WIDTH, BATTERY_EMPTY_CHRG_HEIGHT, 16, charging_icon_y_pos); else gfx_set_rect_rgb(no_charging_icon, BATTERY_EMPTY_WIDTH, BATTERY_EMPTY_CHRG_HEIGHT, 16, charging_icon_y_pos); display_backlight_pwm_init(); display_backlight_brightness(100, 1000); screen_on = true; } timer = get_tmr_ms() + 15000; } // Check if forcefully continuing. if (btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) break; charge_status = current_charge_status; } if (screen_on) display_end(); free(battery_icon); free(charging_icon); free(no_charging_icon); out: // Re enable Low Battery Monitor shutdown. max77620_low_battery_monitor_config(true); } static void _r2c_get_config_t210b01() { rtc_reboot_reason_t rr; if (!max77620_rtc_get_reboot_reason(&rr)) return; // Check if reason is actually set. if (rr.dec.reason != REBOOT_REASON_NOP) { // Clear boot storage. memset(&b_cfg, 0, sizeof(boot_cfg_t)); // Enable boot storage. b_cfg.boot_cfg |= BOOT_CFG_AUTOBOOT_EN; } switch (rr.dec.reason) { case REBOOT_REASON_NOP: break; case REBOOT_REASON_REC: PMC(APBDEV_PMC_SCRATCH0) |= PMC_SCRATCH0_MODE_RECOVERY; case REBOOT_REASON_SELF: b_cfg.autoboot = rr.dec.autoboot_idx; b_cfg.autoboot_list = rr.dec.autoboot_list; break; case REBOOT_REASON_MENU: break; case REBOOT_REASON_UMS: b_cfg.extra_cfg |= EXTRA_CFG_NYX_UMS; b_cfg.ums = rr.dec.ums_idx; break; case REBOOT_REASON_PANIC: PMC(APBDEV_PMC_SCRATCH37) = PMC_SCRATCH37_KERNEL_PANIC_MAGIC; break; } } static void _ipl_reload() { hw_deinit(false); // Reload hekate. void (*ipl_ptr)() = (void *)IPL_LOAD_ADDR; (*ipl_ptr)(); } static void _about() { static const char credits[] = "\nhekate (c) 2018, naehrwert, st4rk\n\n" " (c) 2018-2026, CTCaer\n\n" " ___________________________________________\n\n" "Thanks to: %kderrek, nedwill, plutoo,\n" " shuffle2, smea, thexyz, yellows8%k\n" " ___________________________________________\n\n" "Greetings to: fincs, hexkyz, SciresM,\n" " Shiny Quagsire, WinterMute\n" " ___________________________________________\n\n" "Open source and free packages used:\n\n" " - FatFs R0.13c\n" " (c) 2006-2018, ChaN\n" " (c) 2018-2022, CTCaer\n\n" " - bcl-1.2.0\n" " (c) 2003-2006, Marcus Geelnard\n\n" " - blz\n" " (c) 2018, SciresM\n\n" " - elfload\n" " (c) 2014, Owen Shepherd\n" " (c) 2018, M4xw\n" " ___________________________________________\n\n"; static const char octopus[] = " %k___\n" " .-' `'.\n" " / \\\n" " | ;\n" " | | ___.--,\n" " _.._ |0) = (0) | _.---'`__.-( (_.\n" " __.--'`_.. '.__.\\ '--. \\_.-' ,.--'` `\"\"`\n" " ( ,.--'` ',__ /./; ;, '.__.'` __\n" " _`) ) .---.__.' / | |\\ \\__..--\"\" \"\"\"--.,_\n" " `---' .'.''-._.-'`_./ /\\ '. \\ _.--''````'''--._`-.__.'\n" " | | .' _.-' | | \\ \\ '. `----`\n" " \\ \\/ .' \\ \\ '. '-._)\n" " \\/ / \\ \\ `=.__`'-.\n" " / /\\ `) ) / / `\"\".`\\\n" " , _.-'.'\\ \\ / / ( ( / /\n" " `--'` ) ) .-'.' '.'. | (\n" " (/` ( (` ) ) '-; %k[switchbrew]%k\n" " ` '-; (-'%k"; gfx_clear_grey(0x1B); gfx_con_setpos(0, 0); gfx_printf(credits, TXT_CLR_CYAN_L, TXT_CLR_DEFAULT); gfx_con.fntsz = 8; gfx_printf(octopus, TXT_CLR_CYAN_L, TXT_CLR_TURQUOISE, TXT_CLR_CYAN_L, TXT_CLR_DEFAULT); btn_wait(); } ment_t ment_cinfo[] = { MDEF_BACK(), MDEF_CHGLINE(), MDEF_CAPTION("---- SoC Info ----", TXT_CLR_CYAN_L), MDEF_HANDLER("Fuses", print_fuseinfo), MDEF_CHGLINE(), MDEF_CAPTION("-- Storage Info --", TXT_CLR_CYAN_L), MDEF_HANDLER("eMMC", print_mmc_info), MDEF_HANDLER("SD Card", print_sdcard_info), MDEF_CHGLINE(), MDEF_CAPTION("------ Misc ------", TXT_CLR_CYAN_L), MDEF_HANDLER("Battery", print_battery_info), MDEF_END() }; menu_t menu_cinfo = { ment_cinfo, "Console Info", 0, 0 }; ment_t ment_tools[] = { MDEF_BACK(), MDEF_CHGLINE(), MDEF_CAPTION("-------- Other -------", TXT_CLR_WARNING), MDEF_HANDLER("AutoRCM", menu_autorcm), MDEF_END() }; menu_t menu_tools = { ment_tools, "Tools", 0, 0 }; power_state_t STATE_POWER_OFF = POWER_OFF_RESET; power_state_t STATE_REBOOT_RCM = REBOOT_RCM; power_state_t STATE_REBOOT_BYPASS_FUSES = REBOOT_BYPASS_FUSES; ment_t ment_top[] = { MDEF_HANDLER("Launch", _launch_config), MDEF_CAPTION("---------------", TXT_CLR_GREY_DM), MDEF_MENU("Tools", &menu_tools), MDEF_MENU("Console info", &menu_cinfo), MDEF_CAPTION("---------------", TXT_CLR_GREY_DM), MDEF_HANDLER("Reload", _ipl_reload), MDEF_HANDLER("Load Nyx", launch_nyx), MDEF_HANDLER_EX("Reboot (OFW)", &STATE_REBOOT_BYPASS_FUSES, power_set_state_ex), MDEF_HANDLER_EX("Reboot (RCM)", &STATE_REBOOT_RCM, power_set_state_ex), MDEF_HANDLER_EX("Power off", &STATE_POWER_OFF, power_set_state_ex), MDEF_CAPTION("---------------", TXT_CLR_GREY_DM), MDEF_HANDLER("About", _about), MDEF_END() }; menu_t menu_top = { ment_top, "hekate v6.5.2", 0, 0 }; extern void pivot_stack(u32 stack_top); void ipl_main() { // Override DRAM ID if needed. if (ipl_ver.rcfg.rsvd_flags & RSVD_FLAG_DRAM_8GB) fuse_force_8gb_dramid(); // Do initial HW configuration. This is compatible with consecutive reruns without a reset. hw_init(); // Pivot the stack under IPL. (Only max 4KB is needed). pivot_stack(IPL_LOAD_ADDR); // Place heap at a place outside of L4T/HOS configuration and binaries. heap_init((void *)IPL_HEAP_START); #ifdef DEBUG_UART_PORT uart_send(DEBUG_UART_PORT, (u8 *)"hekate: Hello!\n", 15); uart_wait_xfer(DEBUG_UART_PORT, UART_TX_IDLE); #endif // Set bootloader's default configuration. set_default_configuration(); // Check if battery is enough. _check_low_battery(); // Prep RTC regs for read. Needed for T210B01 R2C. max77620_rtc_prep_read(); // Initialize display. display_init(); // Overclock BPMP. bpmp_clk_rate_set(h_cfg.t210b01 ? ipl_ver.rcfg.bclk_t210b01 : ipl_ver.rcfg.bclk_t210); // Mount SD Card. if (sd_mount()) h_cfg.errors |= ERR_SD_BOOT_EN; // Check if watchdog was fired previously. if (watchdog_fired()) goto skip_lp0_minerva_config; // Enable watchdog protection to avoid SD corruption based hanging in LP0/Minerva config. watchdog_start(5000000 / 2, TIMER_FIQENABL_EN); // 5 seconds. // Save sdram lp0 config. void *sdram_params = h_cfg.t210b01 ? sdram_get_params_t210b01() : sdram_get_params_patched(); if (!ianos_static_module("bootloader/sys/libsys_lp0.bso", sdram_params)) h_cfg.errors |= ERR_LIBSYS_LP0; // Train DRAM and switch to max frequency. if (minerva_init((minerva_str_t *)&nyx_str->minerva)) h_cfg.errors |= ERR_LIBSYS_MTC; // Disable watchdog protection. watchdog_end(); skip_lp0_minerva_config: // Initialize display window, backlight and gfx console. u32 *fb = display_init_window_a_pitch(); gfx_init_ctxt(fb, 720, 1280, 720); gfx_con_init(); // Initialize backlight PWM. display_backlight_pwm_init(); //display_backlight_brightness(h_cfg.backlight, 1000); // Show exceptions, HOS errors, library errors and L4T kernel panics. _show_errors(); // Get R2C config from RTC. if (h_cfg.t210b01) _r2c_get_config_t210b01(); // Load saved configuration and auto boot if enabled. if (!(h_cfg.errors & ERR_SD_BOOT_EN)) { _check_for_updated_bootloader(); _auto_launch(); } // Failed to launch Nyx, unmount SD Card. sd_end(); // Set ram to a freq that doesn't need periodic training. minerva_change_freq(FREQ_800); while (true) tui_do_menu(&menu_top); // Halt BPMP if we managed to get out of execution. while (true) bpmp_halt(); } ================================================ FILE: bootloader/start.S ================================================ /* * Copyright (c) 2018 naehrwert * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ .section .text._start .arm .extern _reloc_ipl .type _reloc_ipl, %function .extern memset .type memset, %function .extern _irq_setup .type _irq_setup, %function .globl _start .type _start, %function _start: ADR R0, _start LDR R1, =__ipl_start CMP R0, R1 BEQ _real_start /* If we are not in the right location already, copy a relocator to upper IRAM. */ ADR R2, _reloc_ipl LDR R3, =0x4003FF00 MOV R4, #(_real_start - _reloc_ipl) _copy_loop: LDMIA R2!, {R5} STMIA R3!, {R5} SUBS R4, #4 BNE _copy_loop /* Use the relocator to copy ourselves into the right place. */ LDR R2, =__ipl_end SUB R2, R2, R1 LDR R3, =_real_start LDR R4, =0x4003FF00 BX R4 _reloc_ipl: LDMIA R0!, {R4-R7} STMIA R1!, {R4-R7} SUBS R2, #0x10 BNE _reloc_ipl /* Jump to the relocated entry. */ BX R3 _real_start: /* Initially, we place our stack under relocator but will move it to under the payload. */ /* This depends on application scope. */ LDR SP, =0x4003FF00 LDR R0, =__bss_start EOR R1, R1, R1 LDR R2, =__bss_end SUB R2, R2, R0 BL memset BL _irq_setup B . .globl pivot_stack .type pivot_stack, %function pivot_stack: MOV SP, R0 BX LR ================================================ FILE: bootloader/storage/emummc.c ================================================ /* * Copyright (c) 2019-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include "emummc.h" #include "../config.h" #include emummc_cfg_t emu_cfg = { 0 }; void emummc_load_cfg() { emu_cfg.enabled = 0; emu_cfg.path = NULL; emu_cfg.sector = 0; emu_cfg.id = 0; emu_cfg.file_based_part_size = 0; emu_cfg.active_part = 0; emu_cfg.fs_ver = 0; if (!emu_cfg.nintendo_path) emu_cfg.nintendo_path = (char *)malloc(0x200); if (!emu_cfg.emummc_file_based_path) emu_cfg.emummc_file_based_path = (char *)malloc(0x200); emu_cfg.nintendo_path[0] = 0; emu_cfg.emummc_file_based_path[0] = 0; LIST_INIT(ini_sections); if (!ini_parse(&ini_sections, "emuMMC/emummc.ini", false)) { LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_sections, link) { if (ini_sec->type == INI_CHOICE) { if (strcmp(ini_sec->name, "emummc")) continue; LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { if (!strcmp("enabled", kv->key)) emu_cfg.enabled = atoi(kv->val); else if (!strcmp("sector", kv->key)) emu_cfg.sector = strtol(kv->val, NULL, 16); else if (!strcmp("id", kv->key)) emu_cfg.id = strtol(kv->val, NULL, 16); else if (!strcmp("path", kv->key)) emu_cfg.path = kv->val; else if (!strcmp("nintendo_path", kv->key)) strcpy(emu_cfg.nintendo_path, kv->val); } break; } } } } bool emummc_set_path(char *path) { FIL fp; bool found = false; strcpy(emu_cfg.emummc_file_based_path, path); strcat(emu_cfg.emummc_file_based_path, "/raw_based"); if (!f_open(&fp, emu_cfg.emummc_file_based_path, FA_READ)) { if (!f_read(&fp, &emu_cfg.sector, 4, NULL)) if (emu_cfg.sector) found = true; } else { strcpy(emu_cfg.emummc_file_based_path, path); strcat(emu_cfg.emummc_file_based_path, "/file_based"); if (!f_stat(emu_cfg.emummc_file_based_path, NULL)) { emu_cfg.sector = 0; emu_cfg.path = path; found = true; } } if (found) { emu_cfg.enabled = 1; // Get ID from path. u32 id_from_path = 0; u32 path_size = strlen(path); if (path_size >= 4) memcpy(&id_from_path, path + path_size - 4, 4); emu_cfg.id = id_from_path; strcpy(emu_cfg.nintendo_path, path); strcat(emu_cfg.nintendo_path, "/Nintendo"); } return found; } static int emummc_raw_get_part_off(int part_idx) { switch (part_idx) { case 0: return 2; case 1: return 0; case 2: return 1; } return 2; } int emummc_storage_init_mmc() { FILINFO fno; emu_cfg.active_part = 0; // Always init eMMC even when in emuMMC. eMMC is needed from the emuMMC driver anyway. if (emmc_initialize(false)) return 2; if (!emu_cfg.enabled || h_cfg.emummc_force_disable) return 0; if (sd_mount()) goto out; if (!emu_cfg.sector) { strcpy(emu_cfg.emummc_file_based_path, emu_cfg.path); strcat(emu_cfg.emummc_file_based_path, "/eMMC"); if (f_stat(emu_cfg.emummc_file_based_path, &fno)) { EPRINTF("Failed to open eMMC folder."); goto out; } f_chmod(emu_cfg.emummc_file_based_path, AM_ARC, AM_ARC); strcat(emu_cfg.emummc_file_based_path, "/00"); if (f_stat(emu_cfg.emummc_file_based_path, &fno)) { EPRINTF("Failed to open emuMMC rawnand."); goto out; } emu_cfg.file_based_part_size = fno.fsize >> 9; } return 0; out: return 1; } int emummc_storage_end() { if (!emu_cfg.enabled || h_cfg.emummc_force_disable) emmc_end(); else sd_end(); return 0; } int emummc_storage_read(u32 sector, u32 num_sectors, void *buf) { FIL fp; if (!emu_cfg.enabled || h_cfg.emummc_force_disable) return sdmmc_storage_read(&emmc_storage, sector, num_sectors, buf); else if (emu_cfg.sector) { sector += emu_cfg.sector; sector += emummc_raw_get_part_off(emu_cfg.active_part) * 0x2000; return sdmmc_storage_read(&sd_storage, sector, num_sectors, buf); } else { if (!emu_cfg.active_part) { u32 file_part = sector / emu_cfg.file_based_part_size; sector = sector % emu_cfg.file_based_part_size; if (file_part >= 10) itoa(file_part, emu_cfg.emummc_file_based_path + strlen(emu_cfg.emummc_file_based_path) - 2, 10); else { emu_cfg.emummc_file_based_path[strlen(emu_cfg.emummc_file_based_path) - 2] = '0'; itoa(file_part, emu_cfg.emummc_file_based_path + strlen(emu_cfg.emummc_file_based_path) - 1, 10); } } if (f_open(&fp, emu_cfg.emummc_file_based_path, FA_READ)) { EPRINTF("Failed to open emuMMC image."); return 1; } f_lseek(&fp, (u64)sector << 9); if (f_read(&fp, buf, (u64)num_sectors << 9, NULL)) { EPRINTF("Failed to read emuMMC image."); f_close(&fp); return 1; } f_close(&fp); return 0; } } int emummc_storage_write(u32 sector, u32 num_sectors, void *buf) { FIL fp; if (!emu_cfg.enabled || h_cfg.emummc_force_disable) return sdmmc_storage_write(&emmc_storage, sector, num_sectors, buf); else if (emu_cfg.sector) { sector += emu_cfg.sector; sector += emummc_raw_get_part_off(emu_cfg.active_part) * 0x2000; return sdmmc_storage_write(&sd_storage, sector, num_sectors, buf); } else { if (!emu_cfg.active_part) { u32 file_part = sector / emu_cfg.file_based_part_size; sector = sector % emu_cfg.file_based_part_size; if (file_part >= 10) itoa(file_part, emu_cfg.emummc_file_based_path + strlen(emu_cfg.emummc_file_based_path) - 2, 10); else { emu_cfg.emummc_file_based_path[strlen(emu_cfg.emummc_file_based_path) - 2] = '0'; itoa(file_part, emu_cfg.emummc_file_based_path + strlen(emu_cfg.emummc_file_based_path) - 1, 10); } } if (f_open(&fp, emu_cfg.emummc_file_based_path, FA_WRITE)) return 1; f_lseek(&fp, (u64)sector << 9); if (f_write(&fp, buf, (u64)num_sectors << 9, NULL)) { f_close(&fp); return 1; } f_close(&fp); return 0; } } int emummc_storage_set_mmc_partition(u32 partition) { emu_cfg.active_part = partition; emmc_set_partition(partition); if (!emu_cfg.enabled || h_cfg.emummc_force_disable || emu_cfg.sector) return 0; else { strcpy(emu_cfg.emummc_file_based_path, emu_cfg.path); strcat(emu_cfg.emummc_file_based_path, "/eMMC"); switch (partition) { case 0: strcat(emu_cfg.emummc_file_based_path, "/00"); break; case 1: strcat(emu_cfg.emummc_file_based_path, "/BOOT0"); break; case 2: strcat(emu_cfg.emummc_file_based_path, "/BOOT1"); break; } return 0; } } ================================================ FILE: bootloader/storage/emummc.h ================================================ /* * Copyright (c) 2019-2021 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef EMUMMC_H #define EMUMMC_H #include typedef enum { EMUMMC_TYPE_NONE = 0, EMUMMC_TYPE_PARTITION = 1, EMUMMC_TYPE_FILES = 2, } emummc_type_t; typedef enum { EMUMMC_MMC_NAND = 0, EMUMMC_MMC_SD = 1, EMUMMC_MMC_GC = 2, } emummc_mmc_t; typedef struct _emummc_cfg_t { int enabled; u64 sector; u32 id; char *path; char *nintendo_path; // Internal. char *emummc_file_based_path; u32 file_based_part_size; u32 active_part; int fs_ver; } emummc_cfg_t; extern emummc_cfg_t emu_cfg; void emummc_load_cfg(); bool emummc_set_path(char *path); int emummc_storage_init_mmc(); int emummc_storage_end(); int emummc_storage_read(u32 sector, u32 num_sectors, void *buf); int emummc_storage_write(u32 sector, u32 num_sectors, void *buf); int emummc_storage_set_mmc_partition(u32 partition); #endif ================================================ FILE: loader/Makefile ================================================ ifeq ($(strip $(DEVKITARM)),) $(error "Please set DEVKITARM in your environment. export DEVKITARM=devkitARM") endif include $(DEVKITARM)/base_rules ################################################################################ LDR_LOAD_ADDR := 0x40007000 IPL_MAGIC := 0x43544349 #"ICTC" include ../Versions.inc ################################################################################ TARGET := loader BUILDDIR := ../build/$(TARGET) OUTPUTDIR := ../output BDKDIR := bdk BDKINC := -I../$(BDKDIR) VPATH += $(dir $(wildcard ../$(BDKDIR)/*/)) $(dir $(wildcard ../$(BDKDIR)/*/*/)) # Main and graphics. OBJS = $(addprefix $(BUILDDIR)/, \ start.o loader.o lz.o \ ) ################################################################################ CUSTOMDEFINES := -DBL_MAGIC=$(IPL_MAGIC) CUSTOMDEFINES += -DBL_VER_MJ=$(BLVERSION_MAJOR) -DBL_VER_MN=$(BLVERSION_MINOR) -DBL_VER_HF=$(BLVERSION_HOTFX) -DBL_VER_RL=$(BLVERSION_REL) #TODO: Considering reinstating some of these when pointer warnings have been fixed. WARNINGS := -Wall -Wsign-compare -Wno-array-bounds -Wno-stringop-overflow ARCH := -march=armv4t -mtune=arm7tdmi -mthumb-interwork CFLAGS = $(ARCH) -O2 -g -nostdlib -ffunction-sections -fdata-sections -fomit-frame-pointer -std=gnu11 $(WARNINGS) $(CUSTOMDEFINES) LDFLAGS = $(ARCH) -nostartfiles -lgcc -Wl,--nmagic,--gc-sections -Xlinker --defsym=LDR_LOAD_ADDR=$(LDR_LOAD_ADDR) ################################################################################ .PHONY: all clean all: $(TARGET).bin $(TOOLSLZ) $(TOOLSB2C) clean: @rm -f payload_00.h @rm -f payload_01.h $(TARGET).bin: $(BUILDDIR)/$(TARGET).elf @$(OBJCOPY) -S -O binary $< $(OUTPUTDIR)/$(PAYLOAD_NAME).bin $(BUILDDIR)/$(TARGET).elf: $(OBJS) @$(CC) $(LDFLAGS) -T link.ld $^ -o $@ $(BUILDDIR)/%.o: %.c @$(CC) $(CFLAGS) $(BDKINC) -c $< -o $@ $(BUILDDIR)/%.o: %.S @$(CC) $(CFLAGS) -c $< -o $@ $(OBJS): $(BUILDDIR) $(BUILDDIR): @mkdir -p "$(BUILDDIR)" @mkdir -p "$(OUTPUTDIR)" ================================================ FILE: loader/link.ld ================================================ ENTRY(_start) SECTIONS { PROVIDE(__ipl_start = LDR_LOAD_ADDR); . = __ipl_start; .text : { *(.text._start); KEEP(*(._boot_cfg)); KEEP(*(._ipl_version)); KEEP(*(._octopus)); *(.text*); } .data : { *(.data*); *(.rodata*); *(._payload_00); *(._payload_01); /* * To mitigate bad injectors/chainloaders, * miss-align binary size to account for version info. * !If version text is not appended, then use ". = ALIGN(4)"! */ data_end_ua = .; . = ((data_end_ua + 0x6 + 4 - 1) & ~(4 - 1)) - 6; } __ldr_end = .; . = ALIGN(0x10); __ipl_end = .; } ================================================ FILE: loader/loader.c ================================================ /* * Copyright (c) 2019-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "payload_00.h" #include "payload_01.h" #include #include #include #include #include // 0x4003D000: Safe for panic preserving, 0x40038000: Safe for debugging needs. #define IPL_RELOC_TOP 0x40038000 #define IPL_PATCHED_RELOC_SZ 0x94 #define IPL_VERSION_RCFG_OFF 0x120 boot_cfg_t __attribute__((section ("._boot_cfg"))) b_cfg; const volatile ipl_ver_meta_t __attribute__((section ("._ipl_version"))) ipl_ver = { .magic = BL_MAGIC, .version = (BL_VER_MJ + '0') | ((BL_VER_MN + '0') << 8) | ((BL_VER_HF + '0') << 16) | ((BL_VER_RL) << 24), .rcfg.rsvd_flags = 0, .rcfg.bclk_t210 = BPMP_CLK_LOWER_BOOST, .rcfg.bclk_t210b01 = BPMP_CLK_DEFAULT_BOOST }; const char __attribute__((section ("._octopus"))) octopus[] = "\n" " ___\n" " .-' `'.\n" " / \\\n" " | ;\n" " | | ___.--,\n" " _.._ |0) = (0) | _.---'`__.-( (_.\n" " __.--'`_.. '.__.\\ '--. \\_.-' ,.--'` `\"\"`\n" " ( ,.--'` ',__ /./; ;, '.__.'` __\n" " _`) ) .---.__.' / | |\\ \\__..--\"\" \"\"\"--.,_\n" " `---' .'.''-._.-'`_./ /\\ '. \\ _.--''````'''--._`-.__.'\n" " | | .' _.-' | | \\ \\ '. `----`\n" " \\ \\/ .' \\ \\ '. '-._)\n" " \\/ / \\ \\ `=.__`'-.\n" " / /\\ `) ) / / `\"\".`\\\n" " , _.-'.'\\ \\ / / ( ( / /\n" " `--'` ) ) .-'.' '.'. | (\n" " (/` ( (` ) ) '-; [switchbrew]\n"; void loader_main() { // Preliminary BPMP clocks init. CLOCK(CLK_RST_CONTROLLER_CLK_SYSTEM_RATE) = 0x10; // Set HCLK div to 2 and PCLK div to 1. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_SYS) = 0; // Set SCLK div to 1. CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) = 0x20004444; // Set clk source to Run and PLLP_OUT2 (204MHz). CLOCK(CLK_RST_CONTROLLER_SUPER_SCLK_DIVIDER) = 0x80000000; // Enable SUPER_SDIV to 1. CLOCK(CLK_RST_CONTROLLER_CLK_SYSTEM_RATE) = 2; // Set HCLK div to 1 and PCLK div to 3. CLOCK(CLK_RST_CONTROLLER_SCLK_BURST_POLICY) = 0x20003333; // Set SCLK to PLLP_OUT (408MHz). // Set arbiter. ARB_PRI(ARB_PRIO_CPU_PRIORITY) = 0x12412D1; ARB_PRI(ARB_PRIO_COP_PRIORITY) = 0x0000000; ARB_PRI(ARB_PRIO_VCP_PRIORITY) = 0x220244A; ARB_PRI(ARB_PRIO_DMA_PRIORITY) = 0x320369B; // Get Payload size. u32 payload_size = sizeof(payload_00) + sizeof(payload_01); // Actual payload size. payload_size += (u32)payload_01 - (u32)payload_00 - sizeof(payload_00); // Add compiler alignment. payload_size = ALIGN(payload_size, 4); // Align size to 4 bytes. u32 *payload_addr = (u32 *)payload_00; // Relocate payload to a safer place. u32 words = payload_size >> 2; u32 *src = payload_addr + words - 1; u32 *dst = (u32 *)(IPL_RELOC_TOP - 4); while (words) { *dst = *src; src--; dst--; words--; } // Set source address of the first part. u8 *src_addr = (void *)(IPL_RELOC_TOP - payload_size); // Uncompress first part. u32 dst_pos = LZ_Uncompress((const u8 *)src_addr, (u8 *)IPL_LOAD_ADDR, sizeof(payload_00)); // Set source address of the second part. Includes compiler alignment. src_addr += (u32)payload_01 - (u32)payload_00; // Uncompress second part. LZ_Uncompress((const u8 *)src_addr, (u8 *)IPL_LOAD_ADDR + dst_pos, sizeof(payload_01)); // Copy over boot configuration storage. memcpy((u8 *)(IPL_LOAD_ADDR + IPL_PATCHED_RELOC_SZ), &b_cfg, sizeof(boot_cfg_t)); // Copy new reserved configuration. memcpy((u8 *)(IPL_LOAD_ADDR + IPL_VERSION_RCFG_OFF), (rsvd_cfg_t *)&ipl_ver.rcfg, sizeof(rsvd_cfg_t)); // Chainload into uncompressed payload. void (*ipl_ptr)() = (void *)IPL_LOAD_ADDR; (*ipl_ptr)(); // Halt if we managed to get out of execution. while (true) ; } ================================================ FILE: loader/start.S ================================================ /* * Copyright (c) 2018 naehrwert * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ .section .text._start .arm .extern _reloc_ipl .type _reloc_ipl, %function .extern memset .type memset, %function .extern loader_main .type loader_main, %function .globl _start .type _start, %function _start: ADR R0, _start LDR R1, =__ipl_start CMP R0, R1 BEQ _real_start /* If we are not in the right location already, copy a relocator to upper IRAM. */ ADR R2, _reloc_ipl LDR R3, =0x4003FF00 MOV R4, #(_real_start - _reloc_ipl) _copy_loop: LDMIA R2!, {R5} STMIA R3!, {R5} SUBS R4, #4 BNE _copy_loop /* Use the relocator to copy ourselves into the right place. */ LDR R2, =__ipl_end SUB R2, R2, R1 LDR R3, =_real_start LDR R4, =0x4003FF00 BX R4 _reloc_ipl: LDMIA R0!, {R4-R7} STMIA R1!, {R4-R7} SUBS R2, #0x10 BNE _reloc_ipl /* Jump to the relocated entry. */ BX R3 _real_start: /* Initially, we place our stack in IRAM but will move it to SDRAM later. */ LDR SP, =0x40007000 LDR R0, =__ldr_end BL loader_main B . .word 0 .word 0 .word 0 .word 0 .word 0 .word 0 ================================================ FILE: modules/hekate_libsys_lp0/Makefile ================================================ ifeq ($(strip $(DEVKITARM)),) $(error "Please set DEVKITARM in your environment. export DEVKITARM=devkitARM") endif include $(DEVKITARM)/base_rules TARGET := libsys_lp0 BUILDDIR := ../../build/$(TARGET) OUTPUTDIR := ../../output BDKDIR := bdk BDKINC := -I../../$(BDKDIR) # Track compiler flags TRACK_CFLAGS = $(BUILDDIR)/.cflags TRACK_LDFLAGS = $(BUILDDIR)/.ldflags OBJS = $(addprefix $(BUILDDIR)/,\ sys_sdramlp0.o \ ) ARCH := -march=armv4t -mtune=arm7tdmi -mthumb-interwork CFLAGS = $(ARCH) -O2 -nostdlib -fpie -ffunction-sections -fdata-sections -fomit-frame-pointer -std=gnu11 -Wall -Wsign-compare $(CUSTOMDEFINES) LDFLAGS = $(ARCH) -fpie -pie -nostartfiles -lgcc -Wl,-z,max-page-size=256 .PHONY: all all: $(TARGET).bso $(BUILDDIR)/%.o: ./%.c $(TRACK_CFLAGS) @$(CC) $(CFLAGS) $(BDKINC) -MMD -MP -c $< -o $@ $(TARGET).bso: $(OBJS) $(TRACK_LDFLAGS) @$(CC) $(LDFLAGS) -e sdram_lp0_entry $(OBJS) -o $(OUTPUTDIR)/$(TARGET).bso @$(STRIP) -g $(OUTPUTDIR)/$(TARGET).bso @echo "Built module: "$(TARGET)".bso" $(BUILDDIR): @mkdir -p "$(BUILDDIR)" # Non objects change detectors. $(TRACK_CFLAGS): $(BUILDDIR) @echo '$(CFLAGS)' | cmp -s - $@ || echo '$(CFLAGS)' > $@ $(TRACK_LDFLAGS): $(BUILDDIR) @echo '$(LDFLAGS)' | cmp -s - $@ || echo '$(LDFLAGS)' > $@ -include $(OBJS:.o=.d) ================================================ FILE: modules/hekate_libsys_lp0/pmc_t210.h ================================================ /* * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. */ #ifndef _PMC_T210_H_ #define _PMC_T210_H_ #include "types.h" typedef struct _pmc_regs_t210_t { /* 0x000 */ u32 pmc_cntrl; /* 0x004 */ u32 pmc_sec_disable; /* 0x008 */ u32 pmc_pmc_swrst; /* 0x00c */ u32 pmc_wake_mask; /* 0x010 */ u32 pmc_wake_lvl; /* 0x014 */ u32 pmc_wake_status; /* 0x018 */ u32 pmc_sw_wake_status; /* 0x01c */ u32 pmc_dpd_pads_oride; /* 0x020 */ u32 pmc_dpd_sample; /* 0x024 */ u32 pmc_dpd_enable; /* 0x028 */ u32 pmc_pwrgate_timer_off; /* 0x02c */ u32 pmc_clamp_status; /* 0x030 */ u32 pmc_pwrgate_toggle; /* 0x034 */ u32 pmc_remove_clamping_cmd; /* 0x038 */ u32 pmc_pwrgate_status; /* 0x03c */ u32 pmc_pwrgood_timer; /* 0x040 */ u32 pmc_blink_timer; /* 0x044 */ u32 pmc_no_iopower; /* 0x048 */ u32 pmc_pwr_det; /* 0x04c */ u32 pmc_pwr_det_latch; /* 0x050 */ u32 pmc_scratch0; /* 0x054 */ u32 pmc_scratch1; /* 0x058 */ u32 pmc_scratch2; /* 0x05c */ u32 pmc_scratch3; /* 0x060 */ u32 pmc_scratch4; /* 0x064 */ u32 pmc_scratch5; /* 0x068 */ u32 pmc_scratch6; /* 0x06c */ u32 pmc_scratch7; /* 0x070 */ u32 pmc_scratch8; /* 0x074 */ u32 pmc_scratch9; /* 0x078 */ u32 pmc_scratch10; /* 0x07c */ u32 pmc_scratch11; /* 0x080 */ u32 pmc_scratch12; /* 0x084 */ u32 pmc_scratch13; /* 0x088 */ u32 pmc_scratch14; /* 0x08c */ u32 pmc_scratch15; /* 0x090 */ u32 pmc_scratch16; /* 0x094 */ u32 pmc_scratch17; /* 0x098 */ u32 pmc_scratch18; /* 0x09c */ u32 pmc_scratch19; /* 0x0a0 */ u32 pmc_scratch20; // ODM data/config scratch. /* 0x0a4 */ u32 pmc_scratch21; /* 0x0a8 */ u32 pmc_scratch22; /* 0x0ac */ u32 pmc_scratch23; /* 0x0b0 */ u32 pmc_secure_scratch0; /* 0x0b4 */ u32 pmc_secure_scratch1; /* 0x0b8 */ u32 pmc_secure_scratch2; /* 0x0bc */ u32 pmc_secure_scratch3; /* 0x0c0 */ u32 pmc_secure_scratch4; /* 0x0c4 */ u32 pmc_secure_scratch5; /* 0x0c8 */ u32 pmc_cpupwrgood_timer; /* 0x0cc */ u32 pmc_cpupwroff_timer; /* 0x0d0 */ u32 pmc_pg_mask; /* 0x0d4 */ u32 pmc_pg_mask_1; /* 0x0d8 */ u32 pmc_auto_wake_lvl; /* 0x0dc */ u32 pmc_auto_wake_lvl_mask; /* 0x0e0 */ u32 pmc_wake_delay; /* 0x0e4 */ u32 pmc_pwr_det_val; /* 0x0e8 */ u32 pmc_ddr_pwr; /* 0x0ec */ u32 pmc_usb_debounce_del; /* 0x0f0 */ u32 pmc_usb_ao; /* 0x0f4 */ u32 pmc_crypto_op; /* 0x0f8 */ u32 pmc_pllp_wb0_override; /* 0x0fc */ u32 pmc_scratch24; /* 0x100 */ u32 pmc_scratch25; /* 0x104 */ u32 pmc_scratch26; /* 0x108 */ u32 pmc_scratch27; /* 0x10c */ u32 pmc_scratch28; /* 0x110 */ u32 pmc_scratch29; /* 0x114 */ u32 pmc_scratch30; /* 0x118 */ u32 pmc_scratch31; /* 0x11c */ u32 pmc_scratch32; /* 0x120 */ u32 pmc_scratch33; /* 0x124 */ u32 pmc_scratch34; /* 0x128 */ u32 pmc_scratch35; /* 0x12c */ u32 pmc_scratch36; /* 0x130 */ u32 pmc_scratch37; /* 0x134 */ u32 pmc_scratch38; /* 0x138 */ u32 pmc_scratch39; /* 0x13c */ u32 pmc_scratch40; /* 0x140 */ u32 pmc_scratch41; /* 0x144 */ u32 pmc_scratch42; /* 0x148 */ u32 pmc_bondout_mirror0; /* 0x14c */ u32 pmc_bondout_mirror1; /* 0x150 */ u32 pmc_bondout_mirror2; /* 0x154 */ u32 pmc_sys_33v_en; /* 0x158 */ u32 pmc_bondout_mirror_access; /* 0x15c */ u32 pmc_gate; /* 0x160 */ u32 pmc_wake2_mask; /* 0x164 */ u32 pmc_wake2_lvl; /* 0x168 */ u32 pmc_wake2_status; /* 0x16c */ u32 pmc_sw_wake2_status; /* 0x170 */ u32 pmc_auto_wake2_lvl_mask; /* 0x174 */ u32 pmc_pg_mask_2; /* 0x178 */ u32 pmc_pg_mask_ce1; /* 0x17c */ u32 pmc_pg_mask_ce2; /* 0x180 */ u32 pmc_pg_mask_ce3; /* 0x184 */ u32 pmc_pwrgate_timer_ce_0; /* 0x188 */ u32 pmc_pwrgate_timer_ce_1; /* 0x18c */ u32 pmc_pwrgate_timer_ce_2; /* 0x190 */ u32 pmc_pwrgate_timer_ce_3; /* 0x194 */ u32 pmc_pwrgate_timer_ce_4; /* 0x198 */ u32 pmc_pwrgate_timer_ce_5; /* 0x19c */ u32 pmc_pwrgate_timer_ce_6; /* 0x1a0 */ u32 pmc_pcx_edpd_cntrl; /* 0x1a4 */ u32 pmc_osc_edpd_over; /* 0x1a8 */ u32 pmc_clk_out_cntrl; /* 0x1ac */ u32 pmc_sata_pwrgt; /* 0x1b0 */ u32 pmc_sensor_ctrl; /* 0x1b4 */ u32 pmc_rst_status; /* 0x1b8 */ u32 pmc_io_dpd_req; /* 0x1bc */ u32 pmc_io_dpd_status; /* 0x1c0 */ u32 pmc_io_dpd2_req; /* 0x1c4 */ u32 pmc_io_dpd2_status; /* 0x1c8 */ u32 pmc_sel_dpd_tim; /* 0x1cc */ u32 pmc_vddp_sel; /* 0x1d0 */ u32 pmc_ddr_cfg; /* 0x1d4 */ u32 pmc_e_no_vttgen; /* 0x1d8 */ u32 rsvd_1d8; /* 0x1dc */ u32 pmc_pllm_wb0_override_freq; /* 0x1e0 */ u32 pmc_test_pwrgate; /* 0x1e4 */ u32 pmc_pwrgate_timer_mult; /* 0x1e8 */ u32 pmc_dsi_sel_dpd; /* 0x1ec */ u32 pmc_utmip_uhsic_triggers; /* 0x1f0 */ u32 pmc_utmip_uhsic_saved_state; /* 0x1f4 */ u32 rsvd_1f4; /* 0x1f8 */ u32 pmc_utmip_term_pad_cfg; /* 0x1fc */ u32 pmc_utmip_uhsic_sleep_cfg; /* 0x200 */ u32 pmc_utmip_uhsic_sleepwalk_cfg; /* 0x204 */ u32 pmc_utmip_sleepwalk_p0; /* 0x208 */ u32 pmc_utmip_sleepwalk_p1; /* 0x20c */ u32 pmc_utmip_sleepwalk_p2; /* 0x210 */ u32 pmc_uhsic_sleepwalk_p0; /* 0x214 */ u32 pmc_utmip_uhsic_status; /* 0x218 */ u32 pmc_utmip_uhsic_fake; /* 0x21c */ u32 pmc_bondout_mirror3; /* 0x220 */ u32 pmc_bondout_mirror4; /* 0x224 */ u32 pmc_secure_scratch6; /* 0x228 */ u32 pmc_secure_scratch7; /* 0x22c */ u32 pmc_scratch43; /* 0x230 */ u32 pmc_scratch44; /* 0x234 */ u32 pmc_scratch45; /* 0x238 */ u32 pmc_scratch46; /* 0x23c */ u32 pmc_scratch47; /* 0x240 */ u32 pmc_scratch48; /* 0x244 */ u32 pmc_scratch49; /* 0x248 */ u32 pmc_scratch50; /* 0x24c */ u32 pmc_scratch51; /* 0x250 */ u32 pmc_scratch52; /* 0x254 */ u32 pmc_scratch53; /* 0x258 */ u32 pmc_scratch54; /* 0x25c */ u32 pmc_scratch55; /* 0x260 */ u32 pmc_scratch0_eco; /* 0x264 */ u32 pmc_por_dpd_ctrl; /* 0x268 */ u32 pmc_scratch2_eco; /* 0x26c */ u32 pmc_utmip_uhsic_line_wakeup; /* 0x270 */ u32 pmc_utmip_bias_master_cntrl; /* 0x274 */ u32 pmc_utmip_master_config; /* 0x278 */ u32 pmc_td_pwrgate_inter_part_timer; /* 0x27c */ u32 pmc_utmip_uhsic2_triggers; /* 0x280 */ u32 pmc_utmip_uhsic2_saved_state; /* 0x284 */ u32 pmc_utmip_uhsic2_sleep_cfg; /* 0x288 */ u32 pmc_utmip_uhsic2_sleepwalk_cfg; /* 0x28c */ u32 pmc_uhsic2_sleepwalk_p1; /* 0x290 */ u32 pmc_utmip_uhsic2_status; /* 0x294 */ u32 pmc_utmip_uhsic2_fake; /* 0x298 */ u32 pmc_utmip_uhsic2_line_wakeup; /* 0x29c */ u32 pmc_utmip_master2_config; /* 0x2a0 */ u32 pmc_utmip_uhsic_rpd_cfg; /* 0x2a4 */ u32 pmc_pg_mask_ce0; /* 0x2a8 */ u32 pmc_pg_mask_3; /* 0x2ac */ u32 pmc_pg_mask_4; /* 0x2b0 */ u32 pmc_pllm_wb0_override2; /* 0x2b4 */ u32 pmc_tsc_mult; /* 0x2b8 */ u32 pmc_cpu_vsense_override; /* 0x2bc */ u32 pmc_glb_amap_cfg; /* 0x2c0 */ u32 pmc_sticky_bits; /* 0x2c4 */ u32 pmc_sec_disable2; /* 0x2c8 */ u32 pmc_weak_bias; /* 0x2cc */ u32 pmc_reg_short; /* 0x2d0 */ u32 pmc_pg_mask_andor; /* 0x2d4 */ u32 pmc_gpu_rg_cntrl; /* 0x2d8 */ u32 pmc_sec_disable3; /* 0x2dc */ u32 pmc_pg_mask_5; /* 0x2e0 */ u32 pmc_pg_mask_6; /* 0x2e4 */ u32 rsvd_2e4[7]; /* 0x300 */ u32 pmc_secure_scratch8; /* 0x304 */ u32 pmc_secure_scratch9; /* 0x308 */ u32 pmc_secure_scratch10; /* 0x30c */ u32 pmc_secure_scratch11; /* 0x310 */ u32 pmc_secure_scratch12; /* 0x314 */ u32 pmc_secure_scratch13; /* 0x318 */ u32 pmc_secure_scratch14; /* 0x31c */ u32 pmc_secure_scratch15; /* 0x320 */ u32 pmc_secure_scratch16; /* 0x324 */ u32 pmc_secure_scratch17; /* 0x328 */ u32 pmc_secure_scratch18; /* 0x32c */ u32 pmc_secure_scratch19; /* 0x330 */ u32 pmc_secure_scratch20; /* 0x334 */ u32 pmc_secure_scratch21; /* 0x338 */ u32 pmc_secure_scratch22; // AArch32 reset address. /* 0x33c */ u32 pmc_secure_scratch23; /* 0x340 */ u32 pmc_secure_scratch24; /* 0x344 */ u32 pmc_secure_scratch25; /* 0x348 */ u32 pmc_secure_scratch26; /* 0x34c */ u32 pmc_secure_scratch27; /* 0x350 */ u32 pmc_secure_scratch28; /* 0x354 */ u32 pmc_secure_scratch29; /* 0x358 */ u32 pmc_secure_scratch30; /* 0x35c */ u32 pmc_secure_scratch31; /* 0x360 */ u32 pmc_secure_scratch32; /* 0x364 */ u32 pmc_secure_scratch33; /* 0x368 */ u32 pmc_secure_scratch34; // AArch64 reset address. /* 0x36c */ u32 pmc_secure_scratch35; // AArch64 reset hi-address. /* 0x370 */ u32 pmc_secure_scratch36; /* 0x374 */ u32 pmc_secure_scratch37; /* 0x378 */ u32 pmc_secure_scratch38; /* 0x37c */ u32 pmc_secure_scratch39; /* 0x380 */ u32 pmc_secure_scratch40; /* 0x384 */ u32 pmc_secure_scratch41; /* 0x388 */ u32 pmc_secure_scratch42; /* 0x38c */ u32 pmc_secure_scratch43; /* 0x390 */ u32 pmc_secure_scratch44; /* 0x394 */ u32 pmc_secure_scratch45; /* 0x398 */ u32 pmc_secure_scratch46; /* 0x39c */ u32 pmc_secure_scratch47; /* 0x3a0 */ u32 pmc_secure_scratch48; /* 0x3a4 */ u32 pmc_secure_scratch49; /* 0x3a8 */ u32 pmc_secure_scratch50; /* 0x3ac */ u32 pmc_secure_scratch51; /* 0x3b0 */ u32 pmc_secure_scratch52; /* 0x3b4 */ u32 pmc_secure_scratch53; /* 0x3b8 */ u32 pmc_secure_scratch54; /* 0x3bc */ u32 pmc_secure_scratch55; /* 0x3c0 */ u32 pmc_secure_scratch56; /* 0x3c4 */ u32 pmc_secure_scratch57; /* 0x3c8 */ u32 pmc_secure_scratch58; /* 0x3cc */ u32 pmc_secure_scratch59; /* 0x3d0 */ u32 pmc_secure_scratch60; /* 0x3d4 */ u32 pmc_secure_scratch61; /* 0x3d8 */ u32 pmc_secure_scratch62; /* 0x3dc */ u32 pmc_secure_scratch63; /* 0x3e0 */ u32 pmc_secure_scratch64; /* 0x3e4 */ u32 pmc_secure_scratch65; /* 0x3e8 */ u32 pmc_secure_scratch66; /* 0x3ec */ u32 pmc_secure_scratch67; /* 0x3f0 */ u32 pmc_secure_scratch68; /* 0x3f4 */ u32 pmc_secure_scratch69; /* 0x3f8 */ u32 pmc_secure_scratch70; /* 0x3fc */ u32 pmc_secure_scratch71; /* 0x400 */ u32 pmc_secure_scratch72; /* 0x404 */ u32 pmc_secure_scratch73; /* 0x408 */ u32 pmc_secure_scratch74; /* 0x40c */ u32 pmc_secure_scratch75; /* 0x410 */ u32 pmc_secure_scratch76; /* 0x414 */ u32 pmc_secure_scratch77; /* 0x418 */ u32 pmc_secure_scratch78; /* 0x41c */ u32 pmc_secure_scratch79; /* 0x420 */ u32 rsvd_420[8]; /* 0x440 */ u32 pmc_cntrl2; /* 0x444 */ u32 pmc_io_dpd_off_mask; /* 0x448 */ u32 pmc_io_dpd2_off_mask; /* 0x44c */ u32 pmc_event_counter; /* 0x450 */ u32 pmc_fuse_control; /* 0x454 */ u32 pmc_scratch1_eco; /* 0x458 */ u32 rsvd_458; /* 0x45c */ u32 pmc_io_dpd3_req; /* 0x460 */ u32 pmc_io_dpd3_status; /* 0x464 */ u32 pmc_io_dpd4_req; /* 0x468 */ u32 pmc_io_dpd4_status; /* 0x46c */ u32 rsvd_46c[2]; /* 0x474 */ u32 pmc_direct_thermtrip_cfg; /* 0x478 */ u32 pmc_tsosc_delay; /* 0x47c */ u32 pmc_set_sw_clamp; /* 0x480 */ u32 pmc_debug_authentication; /* 0x484 */ u32 pmc_aotag_cfg; /* 0x488 */ u32 pmc_aotag_thresh1_cfg; /* 0x48c */ u32 pmc_aotag_thresh2_cfg; /* 0x490 */ u32 pmc_aotag_thresh3_cfg; /* 0x494 */ u32 pmc_aotag_status; /* 0x498 */ u32 pmc_aotag_security; /* 0x49c */ u32 pmc_tsensor_config0; /* 0x4a0 */ u32 pmc_tsensor_config1; /* 0x4a4 */ u32 pmc_tsensor_config2; /* 0x4a8 */ u32 pmc_tsensor_status0; /* 0x4ac */ u32 pmc_tsensor_status1; /* 0x4b0 */ u32 pmc_tsensor_status2; /* 0x4b4 */ u32 pmc_tsensor_pdiv; /* 0x4b8 */ u32 pmc_aotag_intr_en; /* 0x4bc */ u32 pmc_aotag_intr_dis; /* 0x4c0 */ u32 pmc_utmip_pad_cfg0; /* 0x4c4 */ u32 pmc_utmip_pad_cfg1; /* 0x4c8 */ u32 pmc_utmip_pad_cfg2; /* 0x4cc */ u32 pmc_utmip_pad_cfg3; /* 0x4d0 */ u32 pmc_utmip_uhsic_sleep_cfg1; /* 0x4d4 */ u32 pmc_cc4_hvc_control; /* 0x4d8 */ u32 pmc_wake_debounce_en; /* 0x4dc */ u32 pmc_ramdump_ctl_status; /* 0x4e0 */ u32 pmc_utmip_sleepwalk_p3; /* 0x4e4 */ u32 pmc_ddr_cntrl; /* 0x4e8 */ u32 rsvd_4e8[50]; /* 0x5b0 */ u32 pmc_sec_disable4; /* 0x5b4 */ u32 pmc_sec_disable5; /* 0x5b8 */ u32 pmc_sec_disable6; /* 0x5bc */ u32 pmc_sec_disable7; /* 0x5c0 */ u32 pmc_sec_disable8; /* 0x5c4 */ u32 pmc_sec_disable9_b01; /* 0x5c8 */ u32 pmc_sec_disable10_b01; /* 0x5cc */ u32 rsvd_5cc[13]; /* 0x600 */ u32 pmc_scratch56; /* 0x604 */ u32 pmc_scratch57; /* 0x608 */ u32 pmc_scratch58; /* 0x60c */ u32 pmc_scratch59; /* 0x610 */ u32 pmc_scratch60; /* 0x614 */ u32 pmc_scratch61; /* 0x618 */ u32 pmc_scratch62; /* 0x61c */ u32 pmc_scratch63; /* 0x620 */ u32 pmc_scratch64; /* 0x624 */ u32 pmc_scratch65; /* 0x628 */ u32 pmc_scratch66; /* 0x62c */ u32 pmc_scratch67; /* 0x630 */ u32 pmc_scratch68; /* 0x634 */ u32 pmc_scratch69; /* 0x638 */ u32 pmc_scratch70; /* 0x63c */ u32 pmc_scratch71; /* 0x640 */ u32 pmc_scratch72; /* 0x644 */ u32 pmc_scratch73; /* 0x648 */ u32 pmc_scratch74; /* 0x64c */ u32 pmc_scratch75; /* 0x650 */ u32 pmc_scratch76; /* 0x654 */ u32 pmc_scratch77; /* 0x658 */ u32 pmc_scratch78; /* 0x65c */ u32 pmc_scratch79; /* 0x660 */ u32 pmc_scratch80; /* 0x664 */ u32 pmc_scratch81; /* 0x668 */ u32 pmc_scratch82; /* 0x66c */ u32 pmc_scratch83; /* 0x670 */ u32 pmc_scratch84; /* 0x674 */ u32 pmc_scratch85; /* 0x678 */ u32 pmc_scratch86; /* 0x67c */ u32 pmc_scratch87; /* 0x680 */ u32 pmc_scratch88; /* 0x684 */ u32 pmc_scratch89; /* 0x688 */ u32 pmc_scratch90; /* 0x68c */ u32 pmc_scratch91; /* 0x690 */ u32 pmc_scratch92; /* 0x694 */ u32 pmc_scratch93; /* 0x698 */ u32 pmc_scratch94; /* 0x69c */ u32 pmc_scratch95; /* 0x6a0 */ u32 pmc_scratch96; /* 0x6a4 */ u32 pmc_scratch97; /* 0x6a8 */ u32 pmc_scratch98; /* 0x6ac */ u32 pmc_scratch99; /* 0x6b0 */ u32 pmc_scratch100; /* 0x6b4 */ u32 pmc_scratch101; /* 0x6b8 */ u32 pmc_scratch102; /* 0x6bc */ u32 pmc_scratch103; /* 0x6c0 */ u32 pmc_scratch104; /* 0x6c4 */ u32 pmc_scratch105; /* 0x6c8 */ u32 pmc_scratch106; /* 0x6cc */ u32 pmc_scratch107; /* 0x6d0 */ u32 pmc_scratch108; /* 0x6d4 */ u32 pmc_scratch109; /* 0x6d8 */ u32 pmc_scratch110; /* 0x6dc */ u32 pmc_scratch111; /* 0x6e0 */ u32 pmc_scratch112; /* 0x6e4 */ u32 pmc_scratch113; /* 0x6e8 */ u32 pmc_scratch114; /* 0x6ec */ u32 pmc_scratch115; /* 0x6f0 */ u32 pmc_scratch116; /* 0x6f4 */ u32 pmc_scratch117; /* 0x6f8 */ u32 pmc_scratch118; /* 0x6fc */ u32 pmc_scratch119; /* 0x700 */ u32 pmc_scratch120; /* 0x704 */ u32 pmc_scratch121; /* 0x708 */ u32 pmc_scratch122; /* 0x70c */ u32 pmc_scratch123; /* 0x710 */ u32 pmc_scratch124; /* 0x714 */ u32 pmc_scratch125; /* 0x718 */ u32 pmc_scratch126; /* 0x71c */ u32 pmc_scratch127; /* 0x720 */ u32 pmc_scratch128; /* 0x724 */ u32 pmc_scratch129; /* 0x728 */ u32 pmc_scratch130; /* 0x72c */ u32 pmc_scratch131; /* 0x730 */ u32 pmc_scratch132; /* 0x734 */ u32 pmc_scratch133; /* 0x738 */ u32 pmc_scratch134; /* 0x73c */ u32 pmc_scratch135; /* 0x740 */ u32 pmc_scratch136; /* 0x744 */ u32 pmc_scratch137; /* 0x748 */ u32 pmc_scratch138; /* 0x74c */ u32 pmc_scratch139; /* 0x750 */ u32 pmc_scratch140; /* 0x754 */ u32 pmc_scratch141; /* 0x758 */ u32 pmc_scratch142; /* 0x75c */ u32 pmc_scratch143; /* 0x760 */ u32 pmc_scratch144; /* 0x764 */ u32 pmc_scratch145; /* 0x768 */ u32 pmc_scratch146; /* 0x76c */ u32 pmc_scratch147; /* 0x770 */ u32 pmc_scratch148; /* 0x774 */ u32 pmc_scratch149; /* 0x778 */ u32 pmc_scratch150; /* 0x77c */ u32 pmc_scratch151; /* 0x780 */ u32 pmc_scratch152; /* 0x784 */ u32 pmc_scratch153; /* 0x788 */ u32 pmc_scratch154; /* 0x78c */ u32 pmc_scratch155; /* 0x790 */ u32 pmc_scratch156; /* 0x794 */ u32 pmc_scratch157; /* 0x798 */ u32 pmc_scratch158; /* 0x79c */ u32 pmc_scratch159; /* 0x7a0 */ u32 pmc_scratch160; /* 0x7a4 */ u32 pmc_scratch161; /* 0x7a8 */ u32 pmc_scratch162; /* 0x7ac */ u32 pmc_scratch163; /* 0x7b0 */ u32 pmc_scratch164; /* 0x7b4 */ u32 pmc_scratch165; /* 0x7b8 */ u32 pmc_scratch166; /* 0x7bc */ u32 pmc_scratch167; /* 0x7c0 */ u32 pmc_scratch168; /* 0x7c4 */ u32 pmc_scratch169; /* 0x7c8 */ u32 pmc_scratch170; /* 0x7cc */ u32 pmc_scratch171; /* 0x7d0 */ u32 pmc_scratch172; /* 0x7d4 */ u32 pmc_scratch173; /* 0x7d8 */ u32 pmc_scratch174; /* 0x7dc */ u32 pmc_scratch175; /* 0x7e0 */ u32 pmc_scratch176; /* 0x7e4 */ u32 pmc_scratch177; /* 0x7e8 */ u32 pmc_scratch178; /* 0x7ec */ u32 pmc_scratch179; /* 0x7f0 */ u32 pmc_scratch180; /* 0x7f4 */ u32 pmc_scratch181; /* 0x7f8 */ u32 pmc_scratch182; /* 0x7fc */ u32 pmc_scratch183; /* 0x800 */ u32 pmc_scratch184; /* 0x804 */ u32 pmc_scratch185; /* 0x808 */ u32 pmc_scratch186; /* 0x80c */ u32 pmc_scratch187; /* 0x810 */ u32 pmc_scratch188; /* 0x814 */ u32 pmc_scratch189; /* 0x818 */ u32 pmc_scratch190; /* 0x81c */ u32 pmc_scratch191; /* 0x820 */ u32 pmc_scratch192; /* 0x824 */ u32 pmc_scratch193; /* 0x828 */ u32 pmc_scratch194; /* 0x82c */ u32 pmc_scratch195; /* 0x830 */ u32 pmc_scratch196; /* 0x834 */ u32 pmc_scratch197; /* 0x838 */ u32 pmc_scratch198; /* 0x83c */ u32 pmc_scratch199; /* 0x840 */ u32 pmc_scratch200; /* 0x844 */ u32 pmc_scratch201; /* 0x848 */ u32 pmc_scratch202; /* 0x84c */ u32 pmc_scratch203; /* 0x850 */ u32 pmc_scratch204; /* 0x854 */ u32 pmc_scratch205; /* 0x858 */ u32 pmc_scratch206; /* 0x85c */ u32 pmc_scratch207; /* 0x860 */ u32 pmc_scratch208; /* 0x864 */ u32 pmc_scratch209; /* 0x868 */ u32 pmc_scratch210; /* 0x86c */ u32 pmc_scratch211; /* 0x870 */ u32 pmc_scratch212; /* 0x874 */ u32 pmc_scratch213; /* 0x878 */ u32 pmc_scratch214; /* 0x87c */ u32 pmc_scratch215; /* 0x880 */ u32 pmc_scratch216; /* 0x884 */ u32 pmc_scratch217; /* 0x888 */ u32 pmc_scratch218; /* 0x88c */ u32 pmc_scratch219; /* 0x890 */ u32 pmc_scratch220; /* 0x894 */ u32 pmc_scratch221; /* 0x898 */ u32 pmc_scratch222; /* 0x89c */ u32 pmc_scratch223; /* 0x8a0 */ u32 pmc_scratch224; /* 0x8a4 */ u32 pmc_scratch225; /* 0x8a8 */ u32 pmc_scratch226; /* 0x8ac */ u32 pmc_scratch227; /* 0x8b0 */ u32 pmc_scratch228; /* 0x8b4 */ u32 pmc_scratch229; /* 0x8b8 */ u32 pmc_scratch230; /* 0x8bc */ u32 pmc_scratch231; /* 0x8c0 */ u32 pmc_scratch232; /* 0x8c4 */ u32 pmc_scratch233; /* 0x8c8 */ u32 pmc_scratch234; /* 0x8cc */ u32 pmc_scratch235; /* 0x8d0 */ u32 pmc_scratch236; /* 0x8d4 */ u32 pmc_scratch237; /* 0x8d8 */ u32 pmc_scratch238; /* 0x8dc */ u32 pmc_scratch239; /* 0x8e0 */ u32 pmc_scratch240; /* 0x8e4 */ u32 pmc_scratch241; /* 0x8e8 */ u32 pmc_scratch242; /* 0x8ec */ u32 pmc_scratch243; /* 0x8f0 */ u32 pmc_scratch244; /* 0x8f4 */ u32 pmc_scratch245; /* 0x8f8 */ u32 pmc_scratch246; /* 0x8fc */ u32 pmc_scratch247; /* 0x900 */ u32 pmc_scratch248; /* 0x904 */ u32 pmc_scratch249; /* 0x908 */ u32 pmc_scratch250; /* 0x90c */ u32 pmc_scratch251; /* 0x910 */ u32 pmc_scratch252; /* 0x914 */ u32 pmc_scratch253; /* 0x918 */ u32 pmc_scratch254; /* 0x91c */ u32 pmc_scratch255; /* 0x920 */ u32 pmc_scratch256; /* 0x924 */ u32 pmc_scratch257; /* 0x928 */ u32 pmc_scratch258; /* 0x92c */ u32 pmc_scratch259; /* 0x930 */ u32 pmc_scratch260; /* 0x934 */ u32 pmc_scratch261; /* 0x938 */ u32 pmc_scratch262; /* 0x93c */ u32 pmc_scratch263; /* 0x940 */ u32 pmc_scratch264; /* 0x944 */ u32 pmc_scratch265; /* 0x948 */ u32 pmc_scratch266; /* 0x94c */ u32 pmc_scratch267; /* 0x950 */ u32 pmc_scratch268; /* 0x954 */ u32 pmc_scratch269; /* 0x958 */ u32 pmc_scratch270; /* 0x95c */ u32 pmc_scratch271; /* 0x960 */ u32 pmc_scratch272; /* 0x964 */ u32 pmc_scratch273; /* 0x968 */ u32 pmc_scratch274; /* 0x96c */ u32 pmc_scratch275; /* 0x970 */ u32 pmc_scratch276; /* 0x974 */ u32 pmc_scratch277; /* 0x978 */ u32 pmc_scratch278; /* 0x97c */ u32 pmc_scratch279; /* 0x980 */ u32 pmc_scratch280; /* 0x984 */ u32 pmc_scratch281; /* 0x988 */ u32 pmc_scratch282; /* 0x98c */ u32 pmc_scratch283; /* 0x990 */ u32 pmc_scratch284; /* 0x994 */ u32 pmc_scratch285; /* 0x998 */ u32 pmc_scratch286; /* 0x99c */ u32 pmc_scratch287; /* 0x9a0 */ u32 pmc_scratch288; /* 0x9a4 */ u32 pmc_scratch289; /* 0x9a8 */ u32 pmc_scratch290; /* 0x9ac */ u32 pmc_scratch291; /* 0x9b0 */ u32 pmc_scratch292; /* 0x9b4 */ u32 pmc_scratch293; /* 0x9b8 */ u32 pmc_scratch294; /* 0x9bc */ u32 pmc_scratch295; /* 0x9c0 */ u32 pmc_scratch296; /* 0x9c4 */ u32 pmc_scratch297; /* 0x9c8 */ u32 pmc_scratch298; /* 0x9cc */ u32 pmc_scratch299; /* 0x9d0 */ u32 rsvd_9d0[30]; /* 0xa48 */ u32 pmc_scratch_write_disable0_b01; /* 0xa4c */ u32 pmc_scratch_write_disable1_b01; /* 0xa50 */ u32 pmc_scratch_write_disable2_b01; /* 0xa54 */ u32 pmc_scratch_write_disable3_b01; /* 0xa58 */ u32 pmc_scratch_write_disable4_b01; /* 0xa5c */ u32 pmc_scratch_write_disable5_b01; /* 0xa60 */ u32 pmc_scratch_write_disable6_b01; /* 0xa64 */ u32 pmc_scratch_write_disable7_b01; /* 0xa68 */ u32 pmc_scratch_write_disable8_b01; /* 0xa6c */ u32 pmc_scratch_write_disable9_b01; /* 0xa70 */ u32 pmc_scratch_write_disable10_b01; /* 0xa74 */ u32 pmc_scratch_write_lock_disable_sticky_b01; /* 0xa78 */ u32 rsvd_a78[8]; /* 0xa98 */ u32 pmc_secure_scratch80; /* 0xa9c */ u32 pmc_secure_scratch81; /* 0xaa0 */ u32 pmc_secure_scratch82; /* 0xaa4 */ u32 pmc_secure_scratch83; /* 0xaa8 */ u32 pmc_secure_scratch84; /* 0xaac */ u32 pmc_secure_scratch85; /* 0xab0 */ u32 pmc_secure_scratch86; /* 0xab4 */ u32 pmc_secure_scratch87; /* 0xab8 */ u32 pmc_secure_scratch88; /* 0xabc */ u32 pmc_secure_scratch89; /* 0xac0 */ u32 pmc_secure_scratch90; /* 0xac4 */ u32 pmc_secure_scratch91; /* 0xac8 */ u32 pmc_secure_scratch92; /* 0xacc */ u32 pmc_secure_scratch93; /* 0xad0 */ u32 pmc_secure_scratch94; /* 0xad4 */ u32 pmc_secure_scratch95; /* 0xad8 */ u32 pmc_secure_scratch96; /* 0xadc */ u32 pmc_secure_scratch97; /* 0xae0 */ u32 pmc_secure_scratch98; /* 0xae4 */ u32 pmc_secure_scratch99; /* 0xae8 */ u32 pmc_secure_scratch100; /* 0xaec */ u32 pmc_secure_scratch101; /* 0xaf0 */ u32 pmc_secure_scratch102; /* 0xaf4 */ u32 pmc_secure_scratch103; /* 0xaf8 */ u32 pmc_secure_scratch104; /* 0xafc */ u32 pmc_secure_scratch105; /* 0xb00 */ u32 pmc_secure_scratch106; /* 0xb04 */ u32 pmc_secure_scratch107; /* 0xb08 */ u32 pmc_secure_scratch108; /* 0xb0c */ u32 pmc_secure_scratch109; /* 0xb10 */ u32 pmc_secure_scratch110; /* 0xb14 */ u32 pmc_secure_scratch111; /* 0xb18 */ u32 pmc_secure_scratch112; /* 0xb1c */ u32 pmc_secure_scratch113; /* 0xb20 */ u32 pmc_secure_scratch114; /* 0xb24 */ u32 pmc_secure_scratch115; /* 0xb28 */ u32 pmc_secure_scratch116; /* 0xb2c */ u32 pmc_secure_scratch117; /* 0xb30 */ u32 pmc_secure_scratch118; /* 0xb34 */ u32 pmc_secure_scratch119; /* 0xb38 */ u32 pmc_secure_scratch120_b01; /* 0xb3c */ u32 pmc_secure_scratch121_b01; /* 0xb40 */ u32 pmc_secure_scratch122_b01; /* 0xb44 */ u32 pmc_secure_scratch123_b01; /* 0xb48 */ u32 pmc_led_breathing_ctrl_b01; /* 0xb4c */ u32 pmc_led_breathing_counter0_b01; // Slope Steps. /* 0xb50 */ u32 pmc_led_breathing_counter1_b01; // ON counter. /* 0xb54 */ u32 pmc_led_breathing_counter2_b01; // OFF counter1. /* 0xb58 */ u32 pmc_led_breathing_counter3_b01; // OFF counter0. /* 0xb5c */ u32 pmc_led_breathing_status_b01; /* 0xb60 */ u32 rsvd_b60[2]; /* 0xb68 */ u32 pmc_secure_scratch124_b01; /* 0xb6c */ u32 pmc_secure_scratch125_b01; /* 0xb70 */ u32 pmc_secure_scratch126_b01; /* 0xb74 */ u32 pmc_secure_scratch127_b01; /* 0xb78 */ u32 pmc_secure_scratch128_b01; /* 0xb7c */ u32 pmc_secure_scratch129_b01; /* 0xb80 */ u32 pmc_secure_scratch130_b01; /* 0xb84 */ u32 pmc_secure_scratch131_b01; /* 0xb88 */ u32 pmc_secure_scratch132_b01; /* 0xb8c */ u32 pmc_secure_scratch133_b01; /* 0xb90 */ u32 pmc_secure_scratch134_b01; /* 0xb94 */ u32 pmc_secure_scratch135_b01; /* 0xb98 */ u32 pmc_secure_scratch136_b01; /* 0xb9c */ u32 pmc_secure_scratch137_b01; /* 0xba0 */ u32 pmc_secure_scratch138_b01; /* 0xba4 */ u32 pmc_secure_scratch139_b01; /* 0xba8 */ u32 rsvd_ba8[2]; /* 0xbb0 */ u32 pmc_sec_disable_ns_b01; /* 0xbb4 */ u32 pmc_sec_disable2_ns_b01; /* 0xbb8 */ u32 pmc_sec_disable3_ns_b01; /* 0xbbc */ u32 pmc_sec_disable4_ns_b01; /* 0xbc0 */ u32 pmc_sec_disable5_ns_b01; /* 0xbc4 */ u32 pmc_sec_disable6_ns_b01; /* 0xbc8 */ u32 pmc_sec_disable7_ns_b01; /* 0xbcc */ u32 pmc_sec_disable8_ns_b01; /* 0xbd0 */ u32 pmc_sec_disable9_ns_b01; /* 0xbd4 */ u32 pmc_sec_disable10_ns_b01; /* 0xbd8 */ u32 rsvd_bd8[4]; /* 0xbe8 */ u32 pmc_tzram_pwr_cntrl_b01; /* 0xbec */ u32 pmc_tzram_sec_disable_b01; /* 0xbf0 */ u32 pmc_tzram_non_sec_disable_b01; } pmc_regs_t210_t; #endif /* _PMC_T210_H_ */ ================================================ FILE: modules/hekate_libsys_lp0/sdram_lp0_param_t210.h ================================================ /* * Copyright (c) 2013-2015, NVIDIA CORPORATION. All rights reserved. * Copyright 2014 Google Inc. * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. */ /** * Defines the SDRAM parameter structure. * * Note that PLLM is used by EMC. The field names are in camel case to ease * directly converting BCT config files (*.cfg) into C structure. */ #ifndef __TEGRA210_SDRAM_PARAM_H__ #define __TEGRA210_SDRAM_PARAM_H__ #include "types.h" enum { /* Specifies the memory type to be undefined */ NvBootMemoryType_None = 0, /* Specifies the memory type to be DDR SDRAM */ NvBootMemoryType_Ddr = 0, /* Specifies the memory type to be LPDDR SDRAM */ NvBootMemoryType_LpDdr = 0, /* Specifies the memory type to be DDR2 SDRAM */ NvBootMemoryType_Ddr2 = 0, /* Specifies the memory type to be LPDDR2 SDRAM */ NvBootMemoryType_LpDdr2, /* Specifies the memory type to be DDR3 SDRAM */ NvBootMemoryType_Ddr3, /* Specifies the memory type to be LPDDR4 SDRAM */ NvBootMemoryType_LpDdr4, NvBootMemoryType_Num, /* Specifies an entry in the ram_code table that's not in use */ NvBootMemoryType_Unused = 0X7FFFFFF, }; /** * Defines the SDRAM parameter structure */ typedef struct _sdram_params_t210_t { /* Specifies the type of memory device */ u32 MemoryType; /* MC/EMC clock source configuration */ /* Specifies the M value for PllM */ u32 PllMInputDivider; /* Specifies the N value for PllM */ u32 PllMFeedbackDivider; /* Specifies the time to wait for PLLM to lock (in microseconds) */ u32 PllMStableTime; /* Specifies misc. control bits */ u32 PllMSetupControl; /* Specifies the P value for PLLM */ u32 PllMPostDivider; /* Specifies value for Charge Pump Gain Control */ u32 PllMKCP; /* Specifies VCO gain */ u32 PllMKVCO; /* Spare BCT param */ u32 EmcBctSpare0; /* Spare BCT param */ u32 EmcBctSpare1; /* Spare BCT param */ u32 EmcBctSpare2; /* Spare BCT param */ u32 EmcBctSpare3; /* Spare BCT param */ u32 EmcBctSpare4; /* Spare BCT param */ u32 EmcBctSpare5; /* Spare BCT param */ u32 EmcBctSpare6; /* Spare BCT param */ u32 EmcBctSpare7; /* Spare BCT param */ u32 EmcBctSpare8; /* Spare BCT param */ u32 EmcBctSpare9; /* Spare BCT param */ u32 EmcBctSpare10; /* Spare BCT param */ u32 EmcBctSpare11; /* Spare BCT param */ u32 EmcBctSpare12; /* Spare BCT param */ u32 EmcBctSpare13; /* Defines EMC_2X_CLK_SRC, EMC_2X_CLK_DIVISOR, EMC_INVERT_DCD */ u32 EmcClockSource; u32 EmcClockSourceDll; /* Defines possible override for PLLLM_MISC2 */ u32 ClkRstControllerPllmMisc2Override; /* enables override for PLLLM_MISC2 */ u32 ClkRstControllerPllmMisc2OverrideEnable; /* defines CLK_ENB_MC1 in register clk_rst_controller_clk_enb_w_clr */ u32 ClearClk2Mc1; /* Auto-calibration of EMC pads */ /* Specifies the value for EMC_AUTO_CAL_INTERVAL */ u32 EmcAutoCalInterval; /* * Specifies the value for EMC_AUTO_CAL_CONFIG * Note: Trigger bits are set by the SDRAM code. */ u32 EmcAutoCalConfig; /* Specifies the value for EMC_AUTO_CAL_CONFIG2 */ u32 EmcAutoCalConfig2; /* Specifies the value for EMC_AUTO_CAL_CONFIG3 */ u32 EmcAutoCalConfig3; /* Specifies the values for EMC_AUTO_CAL_CONFIG4-8 */ u32 EmcAutoCalConfig4; u32 EmcAutoCalConfig5; u32 EmcAutoCalConfig6; u32 EmcAutoCalConfig7; u32 EmcAutoCalConfig8; /* Specifies the value for EMC_AUTO_CAL_VREF_SEL_0 */ u32 EmcAutoCalVrefSel0; u32 EmcAutoCalVrefSel1; /* Specifies the value for EMC_AUTO_CAL_CHANNEL */ u32 EmcAutoCalChannel; /* Specifies the value for EMC_PMACRO_AUTOCAL_CFG_0 */ u32 EmcPmacroAutocalCfg0; u32 EmcPmacroAutocalCfg1; u32 EmcPmacroAutocalCfg2; u32 EmcPmacroRxTerm; u32 EmcPmacroDqTxDrv; u32 EmcPmacroCaTxDrv; u32 EmcPmacroCmdTxDrv; u32 EmcPmacroAutocalCfgCommon; u32 EmcPmacroZctrl; /* * Specifies the time for the calibration * to stabilize (in microseconds) */ u32 EmcAutoCalWait; u32 EmcXm2CompPadCtrl; u32 EmcXm2CompPadCtrl2; u32 EmcXm2CompPadCtrl3; /* * DRAM size information * Specifies the value for EMC_ADR_CFG */ u32 EmcAdrCfg; /* * Specifies the time to wait after asserting pin * CKE (in microseconds) */ u32 EmcPinProgramWait; /* Specifies the extra delay before/after pin RESET/CKE command */ u32 EmcPinExtraWait; u32 EmcPinGpioEn; u32 EmcPinGpio; /* * Specifies the extra delay after the first writing * of EMC_TIMING_CONTROL */ u32 EmcTimingControlWait; /* Timing parameters required for the SDRAM */ /* Specifies the value for EMC_RC */ u32 EmcRc; /* Specifies the value for EMC_RFC */ u32 EmcRfc; /* Specifies the value for EMC_RFC_PB */ u32 EmcRfcPb; /* Specifies the value for EMC_RFC_CTRL2 */ u32 EmcRefctrl2; /* Specifies the value for EMC_RFC_SLR */ u32 EmcRfcSlr; /* Specifies the value for EMC_RAS */ u32 EmcRas; /* Specifies the value for EMC_RP */ u32 EmcRp; /* Specifies the value for EMC_R2R */ u32 EmcR2r; /* Specifies the value for EMC_W2W */ u32 EmcW2w; /* Specifies the value for EMC_R2W */ u32 EmcR2w; /* Specifies the value for EMC_W2R */ u32 EmcW2r; /* Specifies the value for EMC_R2P */ u32 EmcR2p; /* Specifies the value for EMC_W2P */ u32 EmcW2p; u32 EmcTppd; u32 EmcCcdmw; /* Specifies the value for EMC_RD_RCD */ u32 EmcRdRcd; /* Specifies the value for EMC_WR_RCD */ u32 EmcWrRcd; /* Specifies the value for EMC_RRD */ u32 EmcRrd; /* Specifies the value for EMC_REXT */ u32 EmcRext; /* Specifies the value for EMC_WEXT */ u32 EmcWext; /* Specifies the value for EMC_WDV */ u32 EmcWdv; u32 EmcWdvChk; u32 EmcWsv; u32 EmcWev; /* Specifies the value for EMC_WDV_MASK */ u32 EmcWdvMask; u32 EmcWsDuration; u32 EmcWeDuration; /* Specifies the value for EMC_QUSE */ u32 EmcQUse; /* Specifies the value for EMC_QUSE_WIDTH */ u32 EmcQuseWidth; /* Specifies the value for EMC_IBDLY */ u32 EmcIbdly; /* Specifies the value for EMC_OBDLY */ u32 EmcObdly; /* Specifies the value for EMC_EINPUT */ u32 EmcEInput; /* Specifies the value for EMC_EINPUT_DURATION */ u32 EmcEInputDuration; /* Specifies the value for EMC_PUTERM_EXTRA */ u32 EmcPutermExtra; /* Specifies the value for EMC_PUTERM_WIDTH */ u32 EmcPutermWidth; /* Specifies the value for EMC_PUTERM_ADJ */ ////u32 EmcPutermAdj; /* Specifies the value for EMC_QRST */ u32 EmcQRst; /* Specifies the value for EMC_QSAFE */ u32 EmcQSafe; /* Specifies the value for EMC_RDV */ u32 EmcRdv; /* Specifies the value for EMC_RDV_MASK */ u32 EmcRdvMask; /* Specifies the value for EMC_RDV_EARLY */ u32 EmcRdvEarly; /* Specifies the value for EMC_RDV_EARLY_MASK */ u32 EmcRdvEarlyMask; /* Specifies the value for EMC_QPOP */ u32 EmcQpop; /* Specifies the value for EMC_REFRESH */ u32 EmcRefresh; /* Specifies the value for EMC_BURST_REFRESH_NUM */ u32 EmcBurstRefreshNum; /* Specifies the value for EMC_PRE_REFRESH_REQ_CNT */ u32 EmcPreRefreshReqCnt; /* Specifies the value for EMC_PDEX2WR */ u32 EmcPdEx2Wr; /* Specifies the value for EMC_PDEX2RD */ u32 EmcPdEx2Rd; /* Specifies the value for EMC_PCHG2PDEN */ u32 EmcPChg2Pden; /* Specifies the value for EMC_ACT2PDEN */ u32 EmcAct2Pden; /* Specifies the value for EMC_AR2PDEN */ u32 EmcAr2Pden; /* Specifies the value for EMC_RW2PDEN */ u32 EmcRw2Pden; /* Specifies the value for EMC_CKE2PDEN */ u32 EmcCke2Pden; /* Specifies the value for EMC_PDEX2CKE */ u32 EmcPdex2Cke; /* Specifies the value for EMC_PDEX2MRR */ u32 EmcPdex2Mrr; /* Specifies the value for EMC_TXSR */ u32 EmcTxsr; /* Specifies the value for EMC_TXSRDLL */ u32 EmcTxsrDll; /* Specifies the value for EMC_TCKE */ u32 EmcTcke; /* Specifies the value for EMC_TCKESR */ u32 EmcTckesr; /* Specifies the value for EMC_TPD */ u32 EmcTpd; /* Specifies the value for EMC_TFAW */ u32 EmcTfaw; /* Specifies the value for EMC_TRPAB */ u32 EmcTrpab; /* Specifies the value for EMC_TCLKSTABLE */ u32 EmcTClkStable; /* Specifies the value for EMC_TCLKSTOP */ u32 EmcTClkStop; /* Specifies the value for EMC_TREFBW */ u32 EmcTRefBw; /* FBIO configuration values */ /* Specifies the value for EMC_FBIO_CFG5 */ u32 EmcFbioCfg5; /* Specifies the value for EMC_FBIO_CFG7 */ u32 EmcFbioCfg7; /* Specifies the value for EMC_FBIO_CFG8 */ u32 EmcFbioCfg8; /* Command mapping for CMD brick 0 */ u32 EmcCmdMappingCmd0_0; u32 EmcCmdMappingCmd0_1; u32 EmcCmdMappingCmd0_2; u32 EmcCmdMappingCmd1_0; u32 EmcCmdMappingCmd1_1; u32 EmcCmdMappingCmd1_2; u32 EmcCmdMappingCmd2_0; u32 EmcCmdMappingCmd2_1; u32 EmcCmdMappingCmd2_2; u32 EmcCmdMappingCmd3_0; u32 EmcCmdMappingCmd3_1; u32 EmcCmdMappingCmd3_2; u32 EmcCmdMappingByte; /* Specifies the value for EMC_FBIO_SPARE */ u32 EmcFbioSpare; /* Specifies the value for EMC_CFG_RSV */ u32 EmcCfgRsv; /* MRS command values */ /* Specifies the value for EMC_MRS */ u32 EmcMrs; /* Specifies the MP0 command to initialize mode registers */ u32 EmcEmrs; /* Specifies the MP2 command to initialize mode registers */ u32 EmcEmrs2; /* Specifies the MP3 command to initialize mode registers */ u32 EmcEmrs3; /* Specifies the programming to LPDDR2 Mode Register 1 at cold boot */ u32 EmcMrw1; /* Specifies the programming to LPDDR2 Mode Register 2 at cold boot */ u32 EmcMrw2; /* Specifies the programming to LPDDR2 Mode Register 3 at cold boot */ u32 EmcMrw3; /* Specifies the programming to LPDDR2 Mode Register 11 at cold boot */ u32 EmcMrw4; /* Specifies the programming to LPDDR2 Mode Register 3? at cold boot */ u32 EmcMrw6; /* Specifies the programming to LPDDR2 Mode Register 11 at cold boot */ u32 EmcMrw8; /* Specifies the programming to LPDDR2 Mode Register 11? at cold boot */ u32 EmcMrw9; /* Specifies the programming to LPDDR2 Mode Register 12 at cold boot */ u32 EmcMrw10; /* Specifies the programming to LPDDR2 Mode Register 14 at cold boot */ u32 EmcMrw12; /* Specifies the programming to LPDDR2 Mode Register 14? at cold boot */ u32 EmcMrw13; /* Specifies the programming to LPDDR2 Mode Register 22 at cold boot */ u32 EmcMrw14; /* * Specifies the programming to extra LPDDR2 Mode Register * at cold boot */ u32 EmcMrwExtra; /* * Specifies the programming to extra LPDDR2 Mode Register * at warm boot */ u32 EmcWarmBootMrwExtra; /* * Specify the enable of extra Mode Register programming at * warm boot */ u32 EmcWarmBootExtraModeRegWriteEnable; /* * Specify the enable of extra Mode Register programming at * cold boot */ u32 EmcExtraModeRegWriteEnable; /* Specifies the EMC_MRW reset command value */ u32 EmcMrwResetCommand; /* Specifies the EMC Reset wait time (in microseconds) */ u32 EmcMrwResetNInitWait; /* Specifies the value for EMC_MRS_WAIT_CNT */ u32 EmcMrsWaitCnt; /* Specifies the value for EMC_MRS_WAIT_CNT2 */ u32 EmcMrsWaitCnt2; /* EMC miscellaneous configurations */ /* Specifies the value for EMC_CFG */ u32 EmcCfg; /* Specifies the value for EMC_CFG_2 */ u32 EmcCfg2; /* Specifies the pipe bypass controls */ u32 EmcCfgPipe; u32 EmcCfgPipeClk; u32 EmcFdpdCtrlCmdNoRamp; u32 EmcCfgUpdate; /* Specifies the value for EMC_DBG */ u32 EmcDbg; u32 EmcDbgWriteMux; /* Specifies the value for EMC_CMDQ */ u32 EmcCmdQ; /* Specifies the value for EMC_MC2EMCQ */ u32 EmcMc2EmcQ; /* Specifies the value for EMC_DYN_SELF_REF_CONTROL */ u32 EmcDynSelfRefControl; /* Specifies the value for MEM_INIT_DONE */ u32 AhbArbitrationXbarCtrlMemInitDone; /* Specifies the value for EMC_CFG_DIG_DLL */ u32 EmcCfgDigDll; u32 EmcCfgDigDll_1; /* Specifies the value for EMC_CFG_DIG_DLL_PERIOD */ u32 EmcCfgDigDllPeriod; /* Specifies the value of *DEV_SELECTN of various EMC registers */ u32 EmcDevSelect; /* Specifies the value for EMC_SEL_DPD_CTRL */ u32 EmcSelDpdCtrl; /* Pads trimmer delays */ u32 EmcFdpdCtrlDq; u32 EmcFdpdCtrlCmd; u32 EmcPmacroIbVrefDq_0; u32 EmcPmacroIbVrefDq_1; u32 EmcPmacroIbVrefDqs_0; u32 EmcPmacroIbVrefDqs_1; u32 EmcPmacroIbRxrt; u32 EmcCfgPipe1; u32 EmcCfgPipe2; /* Specifies the value for EMC_PMACRO_QUSE_DDLL_RANK0_0 */ u32 EmcPmacroQuseDdllRank0_0; u32 EmcPmacroQuseDdllRank0_1; u32 EmcPmacroQuseDdllRank0_2; u32 EmcPmacroQuseDdllRank0_3; u32 EmcPmacroQuseDdllRank0_4; u32 EmcPmacroQuseDdllRank0_5; u32 EmcPmacroQuseDdllRank1_0; u32 EmcPmacroQuseDdllRank1_1; u32 EmcPmacroQuseDdllRank1_2; u32 EmcPmacroQuseDdllRank1_3; u32 EmcPmacroQuseDdllRank1_4; u32 EmcPmacroQuseDdllRank1_5; u32 EmcPmacroObDdllLongDqRank0_0; u32 EmcPmacroObDdllLongDqRank0_1; u32 EmcPmacroObDdllLongDqRank0_2; u32 EmcPmacroObDdllLongDqRank0_3; u32 EmcPmacroObDdllLongDqRank0_4; u32 EmcPmacroObDdllLongDqRank0_5; u32 EmcPmacroObDdllLongDqRank1_0; u32 EmcPmacroObDdllLongDqRank1_1; u32 EmcPmacroObDdllLongDqRank1_2; u32 EmcPmacroObDdllLongDqRank1_3; u32 EmcPmacroObDdllLongDqRank1_4; u32 EmcPmacroObDdllLongDqRank1_5; u32 EmcPmacroObDdllLongDqsRank0_0; u32 EmcPmacroObDdllLongDqsRank0_1; u32 EmcPmacroObDdllLongDqsRank0_2; u32 EmcPmacroObDdllLongDqsRank0_3; u32 EmcPmacroObDdllLongDqsRank0_4; u32 EmcPmacroObDdllLongDqsRank0_5; u32 EmcPmacroObDdllLongDqsRank1_0; u32 EmcPmacroObDdllLongDqsRank1_1; u32 EmcPmacroObDdllLongDqsRank1_2; u32 EmcPmacroObDdllLongDqsRank1_3; u32 EmcPmacroObDdllLongDqsRank1_4; u32 EmcPmacroObDdllLongDqsRank1_5; u32 EmcPmacroIbDdllLongDqsRank0_0; u32 EmcPmacroIbDdllLongDqsRank0_1; u32 EmcPmacroIbDdllLongDqsRank0_2; u32 EmcPmacroIbDdllLongDqsRank0_3; u32 EmcPmacroIbDdllLongDqsRank1_0; u32 EmcPmacroIbDdllLongDqsRank1_1; u32 EmcPmacroIbDdllLongDqsRank1_2; u32 EmcPmacroIbDdllLongDqsRank1_3; u32 EmcPmacroDdllLongCmd_0; u32 EmcPmacroDdllLongCmd_1; u32 EmcPmacroDdllLongCmd_2; u32 EmcPmacroDdllLongCmd_3; u32 EmcPmacroDdllLongCmd_4; u32 EmcPmacroDdllShortCmd_0; u32 EmcPmacroDdllShortCmd_1; u32 EmcPmacroDdllShortCmd_2; /* * Specifies the delay after asserting CKE pin during a WarmBoot0 * sequence (in microseconds) */ u32 WarmBootWait; /* Specifies the value for EMC_ODT_WRITE */ u32 EmcOdtWrite; /* Periodic ZQ calibration */ /* * Specifies the value for EMC_ZCAL_INTERVAL * Value 0 disables ZQ calibration */ u32 EmcZcalInterval; /* Specifies the value for EMC_ZCAL_WAIT_CNT */ u32 EmcZcalWaitCnt; /* Specifies the value for EMC_ZCAL_MRW_CMD */ u32 EmcZcalMrwCmd; /* DRAM initialization sequence flow control */ /* Specifies the MRS command value for resetting DLL */ u32 EmcMrsResetDll; /* Specifies the command for ZQ initialization of device 0 */ u32 EmcZcalInitDev0; /* Specifies the command for ZQ initialization of device 1 */ u32 EmcZcalInitDev1; /* * Specifies the wait time after programming a ZQ initialization * command (in microseconds) */ u32 EmcZcalInitWait; /* * Specifies the enable for ZQ calibration at cold boot [bit 0] * and warm boot [bit 1] */ u32 EmcZcalWarmColdBootEnables; /* * Specifies the MRW command to LPDDR2 for ZQ calibration * on warmboot */ /* Is issued to both devices separately */ u32 EmcMrwLpddr2ZcalWarmBoot; /* * Specifies the ZQ command to DDR3 for ZQ calibration on warmboot * Is issued to both devices separately */ u32 EmcZqCalDdr3WarmBoot; u32 EmcZqCalLpDdr4WarmBoot; /* * Specifies the wait time for ZQ calibration on warmboot * (in microseconds) */ u32 EmcZcalWarmBootWait; /* * Specifies the enable for DRAM Mode Register programming * at warm boot */ u32 EmcMrsWarmBootEnable; /* * Specifies the wait time after sending an MRS DLL reset command * in microseconds) */ u32 EmcMrsResetDllWait; /* Specifies the extra MRS command to initialize mode registers */ u32 EmcMrsExtra; /* Specifies the extra MRS command at warm boot */ u32 EmcWarmBootMrsExtra; /* Specifies the EMRS command to enable the DDR2 DLL */ u32 EmcEmrsDdr2DllEnable; /* Specifies the MRS command to reset the DDR2 DLL */ u32 EmcMrsDdr2DllReset; /* Specifies the EMRS command to set OCD calibration */ u32 EmcEmrsDdr2OcdCalib; /* * Specifies the wait between initializing DDR and setting OCD * calibration (in microseconds) */ u32 EmcDdr2Wait; /* Specifies the value for EMC_CLKEN_OVERRIDE */ u32 EmcClkenOverride; /* * Specifies LOG2 of the extra refresh numbers after booting * Program 0 to disable */ u32 EmcExtraRefreshNum; /* Specifies the master override for all EMC clocks */ u32 EmcClkenOverrideAllWarmBoot; /* Specifies the master override for all MC clocks */ u32 McClkenOverrideAllWarmBoot; /* Specifies digital dll period, choosing between 4 to 64 ms */ u32 EmcCfgDigDllPeriodWarmBoot; /* Pad controls */ /* Specifies the value for PMC_VDDP_SEL */ u32 PmcVddpSel; /* Specifies the wait time after programming PMC_VDDP_SEL */ u32 PmcVddpSelWait; /* Specifies the value for PMC_DDR_PWR */ u32 PmcDdrPwr; /* Specifies the value for PMC_DDR_CFG */ u32 PmcDdrCfg; /* Specifies the value for PMC_IO_DPD3_REQ */ u32 PmcIoDpd3Req; /* Specifies the wait time after programming PMC_IO_DPD3_REQ */ u32 PmcIoDpd3ReqWait; u32 PmcIoDpd4ReqWait; /* Specifies the value for PMC_REG_SHORT */ u32 PmcRegShort; /* Specifies the value for PMC_NO_IOPOWER */ u32 PmcNoIoPower; u32 PmcDdrCntrlWait; u32 PmcDdrCntrl; /* Specifies the value for EMC_ACPD_CONTROL */ u32 EmcAcpdControl; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE_CFG */ ////u32 EmcSwizzleRank0ByteCfg; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE0 */ u32 EmcSwizzleRank0Byte0; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE1 */ u32 EmcSwizzleRank0Byte1; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE2 */ u32 EmcSwizzleRank0Byte2; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE3 */ u32 EmcSwizzleRank0Byte3; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE_CFG */ ////u32 EmcSwizzleRank1ByteCfg; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE0 */ u32 EmcSwizzleRank1Byte0; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE1 */ u32 EmcSwizzleRank1Byte1; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE2 */ u32 EmcSwizzleRank1Byte2; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE3 */ u32 EmcSwizzleRank1Byte3; /* Specifies the value for EMC_TXDSRVTTGEN */ u32 EmcTxdsrvttgen; /* Specifies the value for EMC_DATA_BRLSHFT_0 */ u32 EmcDataBrlshft0; u32 EmcDataBrlshft1; u32 EmcDqsBrlshft0; u32 EmcDqsBrlshft1; u32 EmcCmdBrlshft0; u32 EmcCmdBrlshft1; u32 EmcCmdBrlshft2; u32 EmcCmdBrlshft3; u32 EmcQuseBrlshft0; u32 EmcQuseBrlshft1; u32 EmcQuseBrlshft2; u32 EmcQuseBrlshft3; u32 EmcDllCfg0; u32 EmcDllCfg1; u32 EmcPmcScratch1; u32 EmcPmcScratch2; u32 EmcPmcScratch3; u32 EmcPmacroPadCfgCtrl; u32 EmcPmacroVttgenCtrl0; u32 EmcPmacroVttgenCtrl1; u32 EmcPmacroVttgenCtrl2; u32 EmcPmacroBrickCtrlRfu1; u32 EmcPmacroCmdBrickCtrlFdpd; u32 EmcPmacroBrickCtrlRfu2; u32 EmcPmacroDataBrickCtrlFdpd; u32 EmcPmacroBgBiasCtrl0; u32 EmcPmacroDataPadRxCtrl; u32 EmcPmacroCmdPadRxCtrl; u32 EmcPmacroDataRxTermMode; u32 EmcPmacroCmdRxTermMode; u32 EmcPmacroDataPadTxCtrl; u32 EmcPmacroCommonPadTxCtrl; u32 EmcPmacroCmdPadTxCtrl; u32 EmcCfg3; u32 EmcPmacroTxPwrd0; u32 EmcPmacroTxPwrd1; u32 EmcPmacroTxPwrd2; u32 EmcPmacroTxPwrd3; u32 EmcPmacroTxPwrd4; u32 EmcPmacroTxPwrd5; u32 EmcConfigSampleDelay; u32 EmcPmacroBrickMapping0; u32 EmcPmacroBrickMapping1; u32 EmcPmacroBrickMapping2; u32 EmcPmacroTxSelClkSrc0; u32 EmcPmacroTxSelClkSrc1; u32 EmcPmacroTxSelClkSrc2; u32 EmcPmacroTxSelClkSrc3; u32 EmcPmacroTxSelClkSrc4; u32 EmcPmacroTxSelClkSrc5; u32 EmcPmacroDdllBypass; u32 EmcPmacroDdllPwrd0; u32 EmcPmacroDdllPwrd1; u32 EmcPmacroDdllPwrd2; u32 EmcPmacroCmdCtrl0; u32 EmcPmacroCmdCtrl1; u32 EmcPmacroCmdCtrl2; /* DRAM size information */ /* Specifies the value for MC_EMEM_ADR_CFG */ u32 McEmemAdrCfg; /* Specifies the value for MC_EMEM_ADR_CFG_DEV0 */ u32 McEmemAdrCfgDev0; /* Specifies the value for MC_EMEM_ADR_CFG_DEV1 */ u32 McEmemAdrCfgDev1; u32 McEmemAdrCfgChannelMask; /* Specifies the value for MC_EMEM_BANK_SWIZZLECfg0 */ u32 McEmemAdrCfgBankMask0; /* Specifies the value for MC_EMEM_BANK_SWIZZLE_CFG1 */ u32 McEmemAdrCfgBankMask1; /* Specifies the value for MC_EMEM_BANK_SWIZZLE_CFG2 */ u32 McEmemAdrCfgBankMask2; /* * Specifies the value for MC_EMEM_CFG which holds the external memory * size (in KBytes) */ u32 McEmemCfg; /* MC arbitration configuration */ /* Specifies the value for MC_EMEM_ARB_CFG */ u32 McEmemArbCfg; /* Specifies the value for MC_EMEM_ARB_OUTSTANDING_REQ */ u32 McEmemArbOutstandingReq; u32 McEmemArbRefpbHpCtrl; u32 McEmemArbRefpbBankCtrl; /* Specifies the value for MC_EMEM_ARB_TIMING_RCD */ u32 McEmemArbTimingRcd; /* Specifies the value for MC_EMEM_ARB_TIMING_RP */ u32 McEmemArbTimingRp; /* Specifies the value for MC_EMEM_ARB_TIMING_RC */ u32 McEmemArbTimingRc; /* Specifies the value for MC_EMEM_ARB_TIMING_RAS */ u32 McEmemArbTimingRas; /* Specifies the value for MC_EMEM_ARB_TIMING_FAW */ u32 McEmemArbTimingFaw; /* Specifies the value for MC_EMEM_ARB_TIMING_RRD */ u32 McEmemArbTimingRrd; /* Specifies the value for MC_EMEM_ARB_TIMING_RAP2PRE */ u32 McEmemArbTimingRap2Pre; /* Specifies the value for MC_EMEM_ARB_TIMING_WAP2PRE */ u32 McEmemArbTimingWap2Pre; /* Specifies the value for MC_EMEM_ARB_TIMING_R2R */ u32 McEmemArbTimingR2R; /* Specifies the value for MC_EMEM_ARB_TIMING_W2W */ u32 McEmemArbTimingW2W; /* Specifies the value for MC_EMEM_ARB_TIMING_R2W */ u32 McEmemArbTimingR2W; /* Specifies the value for MC_EMEM_ARB_TIMING_W2R */ u32 McEmemArbTimingW2R; u32 McEmemArbTimingRFCPB; /* Specifies the value for MC_EMEM_ARB_DA_TURNS */ u32 McEmemArbDaTurns; /* Specifies the value for MC_EMEM_ARB_DA_COVERS */ u32 McEmemArbDaCovers; /* Specifies the value for MC_EMEM_ARB_MISC0 */ u32 McEmemArbMisc0; /* Specifies the value for MC_EMEM_ARB_MISC1 */ u32 McEmemArbMisc1; u32 McEmemArbMisc2; /* Specifies the value for MC_EMEM_ARB_RING1_THROTTLE */ u32 McEmemArbRing1Throttle; /* Specifies the value for MC_EMEM_ARB_OVERRIDE */ u32 McEmemArbOverride; /* Specifies the value for MC_EMEM_ARB_OVERRIDE_1 */ u32 McEmemArbOverride1; /* Specifies the value for MC_EMEM_ARB_RSV */ u32 McEmemArbRsv; u32 McDaCfg0; u32 McEmemArbTimingCcdmw; /* Specifies the value for MC_CLKEN_OVERRIDE */ u32 McClkenOverride; /* Specifies the value for MC_STAT_CONTROL */ u32 McStatControl; /* Specifies the value for MC_VIDEO_PROTECT_BOM */ u32 McVideoProtectBom; /* Specifies the value for MC_VIDEO_PROTECT_BOM_ADR_HI */ u32 McVideoProtectBomAdrHi; /* Specifies the value for MC_VIDEO_PROTECT_SIZE_MB */ u32 McVideoProtectSizeMb; /* Specifies the value for MC_VIDEO_PROTECT_VPR_OVERRIDE */ u32 McVideoProtectVprOverride; /* Specifies the value for MC_VIDEO_PROTECT_VPR_OVERRIDE1 */ u32 McVideoProtectVprOverride1; /* Specifies the value for MC_VIDEO_PROTECT_GPU_OVERRIDE_0 */ u32 McVideoProtectGpuOverride0; /* Specifies the value for MC_VIDEO_PROTECT_GPU_OVERRIDE_1 */ u32 McVideoProtectGpuOverride1; /* Specifies the value for MC_SEC_CARVEOUT_BOM */ u32 McSecCarveoutBom; /* Specifies the value for MC_SEC_CARVEOUT_ADR_HI */ u32 McSecCarveoutAdrHi; /* Specifies the value for MC_SEC_CARVEOUT_SIZE_MB */ u32 McSecCarveoutSizeMb; /* Specifies the value for MC_VIDEO_PROTECT_REG_CTRL. VIDEO_PROTECT_WRITEAccess */ u32 McVideoProtectWriteAccess; /* Specifies the value for MC_SEC_CARVEOUT_REG_CTRL. SEC_CARVEOUT_WRITEAccess */ u32 McSecCarveoutProtectWriteAccess; /* Write-Protect Regions (WPR) */ u32 McGeneralizedCarveout1Bom; u32 McGeneralizedCarveout1BomHi; u32 McGeneralizedCarveout1Size128kb; u32 McGeneralizedCarveout1Access0; u32 McGeneralizedCarveout1Access1; u32 McGeneralizedCarveout1Access2; u32 McGeneralizedCarveout1Access3; u32 McGeneralizedCarveout1Access4; u32 McGeneralizedCarveout1ForceInternalAccess0; u32 McGeneralizedCarveout1ForceInternalAccess1; u32 McGeneralizedCarveout1ForceInternalAccess2; u32 McGeneralizedCarveout1ForceInternalAccess3; u32 McGeneralizedCarveout1ForceInternalAccess4; u32 McGeneralizedCarveout1Cfg0; u32 McGeneralizedCarveout2Bom; u32 McGeneralizedCarveout2BomHi; u32 McGeneralizedCarveout2Size128kb; u32 McGeneralizedCarveout2Access0; u32 McGeneralizedCarveout2Access1; u32 McGeneralizedCarveout2Access2; u32 McGeneralizedCarveout2Access3; u32 McGeneralizedCarveout2Access4; u32 McGeneralizedCarveout2ForceInternalAccess0; u32 McGeneralizedCarveout2ForceInternalAccess1; u32 McGeneralizedCarveout2ForceInternalAccess2; u32 McGeneralizedCarveout2ForceInternalAccess3; u32 McGeneralizedCarveout2ForceInternalAccess4; u32 McGeneralizedCarveout2Cfg0; u32 McGeneralizedCarveout3Bom; u32 McGeneralizedCarveout3BomHi; u32 McGeneralizedCarveout3Size128kb; u32 McGeneralizedCarveout3Access0; u32 McGeneralizedCarveout3Access1; u32 McGeneralizedCarveout3Access2; u32 McGeneralizedCarveout3Access3; u32 McGeneralizedCarveout3Access4; u32 McGeneralizedCarveout3ForceInternalAccess0; u32 McGeneralizedCarveout3ForceInternalAccess1; u32 McGeneralizedCarveout3ForceInternalAccess2; u32 McGeneralizedCarveout3ForceInternalAccess3; u32 McGeneralizedCarveout3ForceInternalAccess4; u32 McGeneralizedCarveout3Cfg0; u32 McGeneralizedCarveout4Bom; u32 McGeneralizedCarveout4BomHi; u32 McGeneralizedCarveout4Size128kb; u32 McGeneralizedCarveout4Access0; u32 McGeneralizedCarveout4Access1; u32 McGeneralizedCarveout4Access2; u32 McGeneralizedCarveout4Access3; u32 McGeneralizedCarveout4Access4; u32 McGeneralizedCarveout4ForceInternalAccess0; u32 McGeneralizedCarveout4ForceInternalAccess1; u32 McGeneralizedCarveout4ForceInternalAccess2; u32 McGeneralizedCarveout4ForceInternalAccess3; u32 McGeneralizedCarveout4ForceInternalAccess4; u32 McGeneralizedCarveout4Cfg0; u32 McGeneralizedCarveout5Bom; u32 McGeneralizedCarveout5BomHi; u32 McGeneralizedCarveout5Size128kb; u32 McGeneralizedCarveout5Access0; u32 McGeneralizedCarveout5Access1; u32 McGeneralizedCarveout5Access2; u32 McGeneralizedCarveout5Access3; u32 McGeneralizedCarveout5Access4; u32 McGeneralizedCarveout5ForceInternalAccess0; u32 McGeneralizedCarveout5ForceInternalAccess1; u32 McGeneralizedCarveout5ForceInternalAccess2; u32 McGeneralizedCarveout5ForceInternalAccess3; u32 McGeneralizedCarveout5ForceInternalAccess4; u32 McGeneralizedCarveout5Cfg0; /* Specifies enable for CA training */ u32 EmcCaTrainingEnable; /* Set if bit 6 select is greater than bit 7 select; uses aremc. spec packet SWIZZLE_BIT6_GT_BIT7 */ u32 SwizzleRankByteEncode; /* Specifies enable and offset for patched boot ROM write */ u32 BootRomPatchControl; /* Specifies data for patched boot ROM write */ u32 BootRomPatchData; /* Specifies the value for MC_MTS_CARVEOUT_BOM */ u32 McMtsCarveoutBom; /* Specifies the value for MC_MTS_CARVEOUT_ADR_HI */ u32 McMtsCarveoutAdrHi; /* Specifies the value for MC_MTS_CARVEOUT_SIZE_MB */ u32 McMtsCarveoutSizeMb; /* Specifies the value for MC_MTS_CARVEOUT_REG_CTRL */ u32 McMtsCarveoutRegCtrl; /* End */ } sdram_params_t210_t; #endif /* __SOC_NVIDIA_TEGRA210_SDRAM_PARAM_H__ */ ================================================ FILE: modules/hekate_libsys_lp0/sdram_lp0_param_t210b01.h ================================================ /* * Copyright (c) 2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. */ #ifndef __TEGRA210B01_SDRAM_PARAM_H__ #define __TEGRA210B01_SDRAM_PARAM_H__ #include "types.h" typedef struct _sdram_params_t210b01_t { /* Specifies the type of memory device */ u32 memory_type; /* MC/EMC clock source configuration */ /* Specifies the M value for PllM */ u32 pllm_input_divider; /* Specifies the N value for PllM */ u32 pllm_feedback_divider; /* Specifies the time to wait for PLLM to lock (in microseconds) */ u32 pllm_stable_time; /* Specifies misc. control bits */ u32 pllm_setup_control; /* Specifies the P value for PLLM */ u32 pllm_post_divider; /* Specifies value for Charge Pump Gain Control */ u32 pllm_kcp; /* Specifies VCO gain */ u32 pllm_kvco; /* Spare BCT param */ u32 emc_bct_spare0; /* Spare BCT param */ u32 emc_bct_spare1; /* Spare BCT param */ u32 emc_bct_spare2; /* Spare BCT param */ u32 emc_bct_spare3; /* Spare BCT param */ u32 emc_bct_spare4; /* Spare BCT param */ u32 emc_bct_spare5; /* Spare BCT param */ u32 emc_bct_spare6; /* Spare BCT param */ u32 emc_bct_spare7; /* Spare BCT param */ u32 emc_bct_spare8; /* Spare BCT param */ u32 emc_bct_spare9; /* Spare BCT param */ u32 emc_bct_spare10; /* Spare BCT param */ u32 emc_bct_spare11; /* Spare BCT param */ u32 emc_bct_spare12; /* Spare BCT param */ u32 emc_bct_spare13; /* Spare BCT param */ u32 emc_bct_spare_secure0; /* Spare BCT param */ u32 emc_bct_spare_secure1; /* Spare BCT param */ u32 emc_bct_spare_secure2; /* Spare BCT param */ u32 emc_bct_spare_secure3; /* Spare BCT param */ u32 emc_bct_spare_secure4; /* Spare BCT param */ u32 emc_bct_spare_secure5; /* Spare BCT param */ u32 emc_bct_spare_secure6; /* Spare BCT param */ u32 emc_bct_spare_secure7; /* Spare BCT param */ u32 emc_bct_spare_secure8; /* Spare BCT param */ u32 emc_bct_spare_secure9; /* Spare BCT param */ u32 emc_bct_spare_secure10; /* Spare BCT param */ u32 emc_bct_spare_secure11; /* Spare BCT param */ u32 emc_bct_spare_secure12; /* Spare BCT param */ u32 emc_bct_spare_secure13; /* Spare BCT param */ u32 emc_bct_spare_secure14; /* Spare BCT param */ u32 emc_bct_spare_secure15; /* Spare BCT param */ u32 emc_bct_spare_secure16; /* Spare BCT param */ u32 emc_bct_spare_secure17; /* Spare BCT param */ u32 emc_bct_spare_secure18; /* Spare BCT param */ u32 emc_bct_spare_secure19; /* Spare BCT param */ u32 emc_bct_spare_secure20; /* Spare BCT param */ u32 emc_bct_spare_secure21; /* Spare BCT param */ u32 emc_bct_spare_secure22; /* Spare BCT param */ u32 emc_bct_spare_secure23; /* Defines EMC_2X_CLK_SRC, EMC_2X_CLK_DIVISOR, EMC_INVERT_DCD */ u32 emc_clock_source; u32 emc_clock_source_dll; /* Defines possible override for PLLLM_MISC2 */ u32 clk_rst_pllm_misc20_override; /* enables override for PLLLM_MISC2 */ u32 clk_rst_pllm_misc20_override_enable; /* defines CLK_ENB_MC1 in register clk_rst_controller_clk_enb_w_clr */ u32 clear_clock2_mc1; /* Auto-calibration of EMC pads */ /* Specifies the value for EMC_AUTO_CAL_INTERVAL */ u32 emc_auto_cal_interval; /* * Specifies the value for EMC_AUTO_CAL_CONFIG * Note: Trigger bits are set by the SDRAM code. */ u32 emc_auto_cal_config; /* Specifies the value for EMC_AUTO_CAL_CONFIG2 */ u32 emc_auto_cal_config2; /* Specifies the value for EMC_AUTO_CAL_CONFIG3 */ u32 emc_auto_cal_config3; u32 emc_auto_cal_config4; u32 emc_auto_cal_config5; u32 emc_auto_cal_config6; u32 emc_auto_cal_config7; u32 emc_auto_cal_config8; u32 emc_auto_cal_config9; /* Specifies the value for EMC_AUTO_CAL_VREF_SEL_0 */ u32 emc_auto_cal_vref_sel0; u32 emc_auto_cal_vref_sel1; /* Specifies the value for EMC_AUTO_CAL_CHANNEL */ u32 emc_auto_cal_channel; /* Specifies the value for EMC_PMACRO_AUTOCAL_CFG_0 */ u32 emc_pmacro_auto_cal_cfg0; u32 emc_pmacro_auto_cal_cfg1; u32 emc_pmacro_auto_cal_cfg2; u32 emc_pmacro_rx_term; u32 emc_pmacro_dq_tx_drive; u32 emc_pmacro_ca_tx_drive; u32 emc_pmacro_cmd_tx_drive; u32 emc_pmacro_auto_cal_common; u32 emc_pmacro_zcrtl; /* * Specifies the time for the calibration * to stabilize (in microseconds) */ u32 emc_auto_cal_wait; u32 emc_xm2_comp_pad_ctrl; u32 emc_xm2_comp_pad_ctrl2; u32 emc_xm2_comp_pad_ctrl3; /* * DRAM size information * Specifies the value for EMC_ADR_CFG */ u32 emc_adr_cfg; /* * Specifies the time to wait after asserting pin * CKE (in microseconds) */ u32 emc_pin_program_wait; /* Specifies the extra delay before/after pin RESET/CKE command */ u32 emc_pin_extra_wait; u32 emc_pin_gpio_enable; u32 emc_pin_gpio; /* * Specifies the extra delay after the first writing * of EMC_TIMING_CONTROL */ u32 emc_timing_control_wait; /* Timing parameters required for the SDRAM */ /* Specifies the value for EMC_RC */ u32 emc_rc; /* Specifies the value for EMC_RFC */ u32 emc_rfc; u32 emc_rfc_pb; u32 emc_ref_ctrl2; /* Specifies the value for EMC_RFC_SLR */ u32 emc_rfc_slr; /* Specifies the value for EMC_RAS */ u32 emc_ras; /* Specifies the value for EMC_RP */ u32 emc_rp; /* Specifies the value for EMC_R2R */ u32 emc_r2r; /* Specifies the value for EMC_W2W */ u32 emc_w2w; /* Specifies the value for EMC_R2W */ u32 emc_r2w; /* Specifies the value for EMC_W2R */ u32 emc_w2r; /* Specifies the value for EMC_R2P */ u32 emc_r2p; /* Specifies the value for EMC_W2P */ u32 emc_w2p; u32 emc_tppd; u32 emc_trtm; u32 emc_twtm; u32 emc_tratm; u32 emc_twatm; u32 emc_tr2ref; u32 emc_ccdmw; /* Specifies the value for EMC_RD_RCD */ u32 emc_rd_rcd; /* Specifies the value for EMC_WR_RCD */ u32 emc_wr_rcd; /* Specifies the value for EMC_RRD */ u32 emc_rrd; /* Specifies the value for EMC_REXT */ u32 emc_rext; /* Specifies the value for EMC_WEXT */ u32 emc_wext; /* Specifies the value for EMC_WDV */ u32 emc_wdv; u32 emc_wdv_chk; u32 emc_wsv; u32 emc_wev; /* Specifies the value for EMC_WDV_MASK */ u32 emc_wdv_mask; u32 emc_ws_duration; u32 emc_we_duration; /* Specifies the value for EMC_QUSE */ u32 emc_quse; /* Specifies the value for EMC_QUSE_WIDTH */ u32 emc_quse_width; /* Specifies the value for EMC_IBDLY */ u32 emc_ibdly; u32 emc_obdly; /* Specifies the value for EMC_EINPUT */ u32 emc_einput; /* Specifies the value for EMC_EINPUT_DURATION */ u32 emc_einput_duration; /* Specifies the value for EMC_PUTERM_EXTRA */ u32 emc_puterm_extra; /* Specifies the value for EMC_PUTERM_WIDTH */ u32 emc_puterm_width; u32 emc_qrst; u32 emc_qsafe; u32 emc_rdv; u32 emc_rdv_mask; u32 emc_rdv_early; u32 emc_rdv_early_mask; /* Specifies the value for EMC_QPOP */ u32 emc_qpop; /* Specifies the value for EMC_REFRESH */ u32 emc_refresh; /* Specifies the value for EMC_BURST_REFRESH_NUM */ u32 emc_burst_refresh_num; /* Specifies the value for EMC_PRE_REFRESH_REQ_CNT */ u32 emc_prerefresh_req_cnt; /* Specifies the value for EMC_PDEX2WR */ u32 emc_pdex2wr; /* Specifies the value for EMC_PDEX2RD */ u32 emc_pdex2rd; /* Specifies the value for EMC_PCHG2PDEN */ u32 emc_pchg2pden; /* Specifies the value for EMC_ACT2PDEN */ u32 emc_act2pden; /* Specifies the value for EMC_AR2PDEN */ u32 emc_ar2pden; /* Specifies the value for EMC_RW2PDEN */ u32 emc_rw2pden; u32 emc_cke2pden; u32 emc_pdex2che; u32 emc_pdex2mrr; /* Specifies the value for EMC_TXSR */ u32 emc_txsr; /* Specifies the value for EMC_TXSRDLL */ u32 emc_txsr_dll; /* Specifies the value for EMC_TCKE */ u32 emc_tcke; /* Specifies the value for EMC_TCKESR */ u32 emc_tckesr; /* Specifies the value for EMC_TPD */ u32 emc_tpd; /* Specifies the value for EMC_TFAW */ u32 emc_tfaw; /* Specifies the value for EMC_TRPAB */ u32 emc_trpab; /* Specifies the value for EMC_TCLKSTABLE */ u32 emc_tclkstable; /* Specifies the value for EMC_TCLKSTOP */ u32 emc_tclkstop; /* Specifies the value for EMC_TREFBW */ u32 emc_trefbw; /* FBIO configuration values */ /* Specifies the value for EMC_FBIO_CFG5 */ u32 emc_fbio_cfg5; /* Specifies the value for EMC_FBIO_CFG7 */ u32 emc_fbio_cfg7; u32 emc_fbio_cfg8; /* Command mapping for CMD brick 0 */ u32 emc_cmd_mapping_cmd0_0; u32 emc_cmd_mapping_cmd0_1; u32 emc_cmd_mapping_cmd0_2; u32 emc_cmd_mapping_cmd1_0; u32 emc_cmd_mapping_cmd1_1; u32 emc_cmd_mapping_cmd1_2; u32 emc_cmd_mapping_cmd2_0; u32 emc_cmd_mapping_cmd2_1; u32 emc_cmd_mapping_cmd2_2; u32 emc_cmd_mapping_cmd3_0; u32 emc_cmd_mapping_cmd3_1; u32 emc_cmd_mapping_cmd3_2; u32 emc_cmd_mapping_byte; /* Specifies the value for EMC_FBIO_SPARE */ u32 emc_fbio_spare; /* Specifies the value for EMC_CFG_RSV */ u32 emc_cfg_rsv; /* MRS command values */ /* Specifies the value for EMC_MRS */ u32 emc_mrs; /* Specifies the MP0 command to initialize mode registers */ u32 emc_emrs; /* Specifies the MP2 command to initialize mode registers */ u32 emc_emrs2; /* Specifies the MP3 command to initialize mode registers */ u32 emc_emrs3; /* Specifies the programming to LPDDR2 Mode Register 1 at cold boot */ u32 emc_mrw1; /* Specifies the programming to LPDDR2 Mode Register 2 at cold boot */ u32 emc_mrw2; /* Specifies the programming to LPDDR2 Mode Register 3 at cold boot */ u32 emc_mrw3; /* Specifies the programming to LPDDR2 Mode Register 11 at cold boot */ u32 emc_mrw4; /* Specifies the programming to LPDDR4 Mode Register 3 at cold boot */ u32 emc_mrw6; /* Specifies the programming to LPDDR4 Mode Register 11 at cold boot */ u32 emc_mrw8; /* Specifies the programming to LPDDR4 Mode Register 11 at cold boot */ u32 emc_mrw9; /* Specifies the programming to LPDDR4 Mode Register 12 at cold boot */ u32 emc_mrw10; /* Specifies the programming to LPDDR4 Mode Register 14 at cold boot */ u32 emc_mrw12; /* Specifies the programming to LPDDR4 Mode Register 14 at cold boot */ u32 emc_mrw13; /* Specifies the programming to LPDDR4 Mode Register 22 at cold boot */ u32 emc_mrw14; /* * Specifies the programming to extra LPDDR2 Mode Register * at cold boot */ u32 emc_mrw_extra; /* * Specifies the programming to extra LPDDR2 Mode Register * at warm boot */ u32 emc_warm_boot_mrw_extra; /* * Specify the enable of extra Mode Register programming at * warm boot */ u32 emc_warm_boot_extramode_reg_write_enable; /* * Specify the enable of extra Mode Register programming at * cold boot */ u32 emc_extramode_reg_write_enable; /* Specifies the EMC_MRW reset command value */ u32 emc_mrw_reset_command; /* Specifies the EMC Reset wait time (in microseconds) */ u32 emc_mrw_reset_ninit_wait; /* Specifies the value for EMC_MRS_WAIT_CNT */ u32 emc_mrs_wait_cnt; /* Specifies the value for EMC_MRS_WAIT_CNT2 */ u32 emc_mrs_wait_cnt2; /* EMC miscellaneous configurations */ /* Specifies the value for EMC_CFG */ u32 emc_cfg; /* Specifies the value for EMC_CFG_2 */ u32 emc_cfg2; /* Specifies the pipe bypass controls */ u32 emc_cfg_pipe; u32 emc_cfg_pipe_clk; u32 emc_fdpd_ctrl_cmd_no_ramp; u32 emc_cfg_update; /* Specifies the value for EMC_DBG */ u32 emc_dbg; u32 emc_dbg_write_mux; /* Specifies the value for EMC_CMDQ */ u32 emc_cmd_q; /* Specifies the value for EMC_MC2EMCQ */ u32 emc_mc2emc_q; /* Specifies the value for EMC_DYN_SELF_REF_CONTROL */ u32 emc_dyn_self_ref_control; /* Specifies the value for MEM_INIT_DONE */ u32 ahb_arbitration_xbar_ctrl_meminit_done; /* Specifies the value for EMC_CFG_DIG_DLL */ u32 emc_cfg_dig_dll; u32 emc_cfg_dig_dll_1; /* Specifies the value for EMC_CFG_DIG_DLL_PERIOD */ u32 emc_cfg_dig_dll_period; /* Specifies the value of *DEV_SELECTN of various EMC registers */ u32 emc_dev_select; /* Specifies the value for EMC_SEL_DPD_CTRL */ u32 emc_sel_dpd_ctrl; /* Pads trimmer delays */ u32 emc_fdpd_ctrl_dq; u32 emc_fdpd_ctrl_cmd; u32 emc_pmacro_ib_vref_dq_0; u32 emc_pmacro_ib_vref_dq_1; u32 emc_pmacro_ib_vref_dqs_0; u32 emc_pmacro_ib_vref_dqs_1; u32 emc_pmacro_ib_rxrt; u32 emc_cfg_pipe1; u32 emc_cfg_pipe2; /* Specifies the value for EMC_PMACRO_QUSE_DDLL_RANK0_0 */ u32 emc_pmacro_quse_ddll_rank0_0; u32 emc_pmacro_quse_ddll_rank0_1; u32 emc_pmacro_quse_ddll_rank0_2; u32 emc_pmacro_quse_ddll_rank0_3; u32 emc_pmacro_quse_ddll_rank0_4; u32 emc_pmacro_quse_ddll_rank0_5; u32 emc_pmacro_quse_ddll_rank1_0; u32 emc_pmacro_quse_ddll_rank1_1; u32 emc_pmacro_quse_ddll_rank1_2; u32 emc_pmacro_quse_ddll_rank1_3; u32 emc_pmacro_quse_ddll_rank1_4; u32 emc_pmacro_quse_ddll_rank1_5; u32 emc_pmacro_ob_ddll_long_dq_rank0_0; u32 emc_pmacro_ob_ddll_long_dq_rank0_1; u32 emc_pmacro_ob_ddll_long_dq_rank0_2; u32 emc_pmacro_ob_ddll_long_dq_rank0_3; u32 emc_pmacro_ob_ddll_long_dq_rank0_4; u32 emc_pmacro_ob_ddll_long_dq_rank0_5; u32 emc_pmacro_ob_ddll_long_dq_rank1_0; u32 emc_pmacro_ob_ddll_long_dq_rank1_1; u32 emc_pmacro_ob_ddll_long_dq_rank1_2; u32 emc_pmacro_ob_ddll_long_dq_rank1_3; u32 emc_pmacro_ob_ddll_long_dq_rank1_4; u32 emc_pmacro_ob_ddll_long_dq_rank1_5; u32 emc_pmacro_ob_ddll_long_dqs_rank0_0; u32 emc_pmacro_ob_ddll_long_dqs_rank0_1; u32 emc_pmacro_ob_ddll_long_dqs_rank0_2; u32 emc_pmacro_ob_ddll_long_dqs_rank0_3; u32 emc_pmacro_ob_ddll_long_dqs_rank0_4; u32 emc_pmacro_ob_ddll_long_dqs_rank0_5; u32 emc_pmacro_ob_ddll_long_dqs_rank1_0; u32 emc_pmacro_ob_ddll_long_dqs_rank1_1; u32 emc_pmacro_ob_ddll_long_dqs_rank1_2; u32 emc_pmacro_ob_ddll_long_dqs_rank1_3; u32 emc_pmacro_ob_ddll_long_dqs_rank1_4; u32 emc_pmacro_ob_ddll_long_dqs_rank1_5; u32 emc_pmacro_ib_ddll_long_dqs_rank0_0; u32 emc_pmacro_ib_ddll_long_dqs_rank0_1; u32 emc_pmacro_ib_ddll_long_dqs_rank0_2; u32 emc_pmacro_ib_ddll_long_dqs_rank0_3; u32 emc_pmacro_ib_ddll_long_dqs_rank1_0; u32 emc_pmacro_ib_ddll_long_dqs_rank1_1; u32 emc_pmacro_ib_ddll_long_dqs_rank1_2; u32 emc_pmacro_ib_ddll_long_dqs_rank1_3; u32 emc_pmacro_ddll_long_cmd_0; u32 emc_pmacro_ddll_long_cmd_1; u32 emc_pmacro_ddll_long_cmd_2; u32 emc_pmacro_ddll_long_cmd_3; u32 emc_pmacro_ddll_long_cmd_4; u32 emc_pmacro_ddll_short_cmd_0; u32 emc_pmacro_ddll_short_cmd_1; u32 emc_pmacro_ddll_short_cmd_2; u32 emc_pmacro_ddll_periodic_offset; /* * Specifies the delay after asserting CKE pin during a WarmBoot0 * sequence (in microseconds) */ u32 warm_boot_wait; /* Specifies the value for EMC_ODT_WRITE */ u32 emc_odt_write; /* Periodic ZQ calibration */ /* * Specifies the value for EMC_ZCAL_INTERVAL * Value 0 disables ZQ calibration */ u32 emc_zcal_interval; /* Specifies the value for EMC_ZCAL_WAIT_CNT */ u32 emc_zcal_wait_cnt; /* Specifies the value for EMC_ZCAL_MRW_CMD */ u32 emc_zcal_mrw_cmd; /* DRAM initialization sequence flow control */ /* Specifies the MRS command value for resetting DLL */ u32 emc_mrs_reset_dll; /* Specifies the command for ZQ initialization of device 0 */ u32 emc_zcal_init_dev0; /* Specifies the command for ZQ initialization of device 1 */ u32 emc_zcal_init_dev1; /* * Specifies the wait time after programming a ZQ initialization * command (in microseconds) */ u32 emc_zcal_init_wait; /* * Specifies the enable for ZQ calibration at cold boot [bit 0] * and warm boot [bit 1] */ u32 emc_zcal_warm_cold_boot_enables; /* * Specifies the MRW command to LPDDR2 for ZQ calibration * on warmboot */ /* Is issued to both devices separately */ u32 emc_mrw_lpddr2zcal_warm_boot; /* * Specifies the ZQ command to DDR3 for ZQ calibration on warmboot * Is issued to both devices separately */ u32 emc_zqcal_ddr3_warm_boot; u32 emc_zqcal_lpddr4_warm_boot; /* * Specifies the wait time for ZQ calibration on warmboot * (in microseconds) */ u32 emc_zcal_warm_boot_wait; /* * Specifies the enable for DRAM Mode Register programming * at warm boot */ u32 emc_mrs_warm_boot_enable; /* * Specifies the wait time after sending an MRS DLL reset command * in microseconds) */ u32 emc_mrs_reset_dll_wait; /* Specifies the extra MRS command to initialize mode registers */ u32 emc_mrs_extra; /* Specifies the extra MRS command at warm boot */ u32 emc_warm_boot_mrs_extra; /* Specifies the EMRS command to enable the DDR2 DLL */ u32 emc_emrs_ddr2_dll_enable; /* Specifies the MRS command to reset the DDR2 DLL */ u32 emc_mrs_ddr2_dll_reset; /* Specifies the EMRS command to set OCD calibration */ u32 emc_emrs_ddr2_ocd_calib; /* * Specifies the wait between initializing DDR and setting OCD * calibration (in microseconds) */ u32 emc_ddr2_wait; /* Specifies the value for EMC_CLKEN_OVERRIDE */ u32 emc_clken_override; /* * Specifies LOG2 of the extra refresh numbers after booting * Program 0 to disable */ u32 emc_extra_refresh_num; /* Specifies the master override for all EMC clocks */ u32 emc_clken_override_allwarm_boot; /* Specifies the master override for all MC clocks */ u32 mc_clken_override_allwarm_boot; /* Specifies digital dll period, choosing between 4 to 64 ms */ u32 emc_cfg_dig_dll_period_warm_boot; /* Pad controls */ /* Specifies the value for PMC_VDDP_SEL */ u32 pmc_vddp_sel; /* Specifies the wait time after programming PMC_VDDP_SEL */ u32 pmc_vddp_sel_wait; /* Specifies the value for PMC_DDR_CFG */ u32 pmc_ddr_cfg; /* Specifies the value for PMC_IO_DPD3_REQ */ u32 pmc_io_dpd3_req; /* Specifies the wait time after programming PMC_IO_DPD3_REQ */ u32 pmc_io_dpd3_req_wait; u32 pmc_io_dpd4_req_wait; /* Specifies the value for PMC_REG_SHORT */ u32 pmc_reg_short; /* Specifies the value for PMC_NO_IOPOWER */ u32 pmc_no_io_power; u32 pmc_ddr_ctrl_wait; u32 pmc_ddr_ctrl; /* Specifies the value for EMC_ACPD_CONTROL */ u32 emc_acpd_control; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE0 */ u32 emc_swizzle_rank0_byte0; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE1 */ u32 emc_swizzle_rank0_byte1; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE2 */ u32 emc_swizzle_rank0_byte2; /* Specifies the value for EMC_SWIZZLE_RANK0_BYTE3 */ u32 emc_swizzle_rank0_byte3; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE0 */ u32 emc_swizzle_rank1_byte0; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE1 */ u32 emc_swizzle_rank1_byte1; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE2 */ u32 emc_swizzle_rank1_byte2; /* Specifies the value for EMC_SWIZZLE_RANK1_BYTE3 */ u32 emc_swizzle_rank1_byte3; /* Specifies the value for EMC_TXDSRVTTGEN */ u32 emc_txdsrvttgen; /* Specifies the value for EMC_DATA_BRLSHFT_0 */ u32 emc_data_brlshft0; u32 emc_data_brlshft1; u32 emc_dqs_brlshft0; u32 emc_dqs_brlshft1; u32 emc_cmd_brlshft0; u32 emc_cmd_brlshft1; u32 emc_cmd_brlshft2; u32 emc_cmd_brlshft3; u32 emc_quse_brlshft0; u32 emc_quse_brlshft1; u32 emc_quse_brlshft2; u32 emc_quse_brlshft3; u32 emc_dll_cfg0; u32 emc_dll_cfg1; u32 emc_pmc_scratch1; u32 emc_pmc_scratch2; u32 emc_pmc_scratch3; u32 emc_pmacro_pad_cfg_ctrl; u32 emc_pmacro_vttgen_ctrl0; u32 emc_pmacro_vttgen_ctrl1; u32 emc_pmacro_vttgen_ctrl2; u32 emc_pmacro_dsr_vttgen_ctrl0; u32 emc_pmacro_brick_ctrl_rfu1; u32 emc_pmacro_cmd_brick_ctrl_fdpd; u32 emc_pmacro_brick_ctrl_rfu2; u32 emc_pmacro_data_brick_ctrl_fdpd; u32 emc_pmacro_bg_bias_ctrl0; u32 emc_pmacro_data_pad_rx_ctrl; u32 emc_pmacro_cmd_pad_rx_ctrl; u32 emc_pmacro_data_rx_term_mode; u32 emc_pmacro_cmd_rx_term_mode; u32 emc_pmacro_data_pad_tx_ctrl; u32 emc_pmacro_cmd_pad_tx_ctrl; u32 emc_cfg3; u32 emc_pmacro_tx_pwrd0; u32 emc_pmacro_tx_pwrd1; u32 emc_pmacro_tx_pwrd2; u32 emc_pmacro_tx_pwrd3; u32 emc_pmacro_tx_pwrd4; u32 emc_pmacro_tx_pwrd5; u32 emc_config_sample_delay; u32 emc_pmacro_brick_mapping0; u32 emc_pmacro_brick_mapping1; u32 emc_pmacro_brick_mapping2; u32 emc_pmacro_tx_sel_clk_src0; u32 emc_pmacro_tx_sel_clk_src1; u32 emc_pmacro_tx_sel_clk_src2; u32 emc_pmacro_tx_sel_clk_src3; u32 emc_pmacro_tx_sel_clk_src4; u32 emc_pmacro_tx_sel_clk_src5; u32 emc_pmacro_perbit_fgcg_ctrl0; u32 emc_pmacro_perbit_fgcg_ctrl1; u32 emc_pmacro_perbit_fgcg_ctrl2; u32 emc_pmacro_perbit_fgcg_ctrl3; u32 emc_pmacro_perbit_fgcg_ctrl4; u32 emc_pmacro_perbit_fgcg_ctrl5; u32 emc_pmacro_perbit_rfu_ctrl0; u32 emc_pmacro_perbit_rfu_ctrl1; u32 emc_pmacro_perbit_rfu_ctrl2; u32 emc_pmacro_perbit_rfu_ctrl3; u32 emc_pmacro_perbit_rfu_ctrl4; u32 emc_pmacro_perbit_rfu_ctrl5; u32 emc_pmacro_perbit_rfu1_ctrl0; u32 emc_pmacro_perbit_rfu1_ctrl1; u32 emc_pmacro_perbit_rfu1_ctrl2; u32 emc_pmacro_perbit_rfu1_ctrl3; u32 emc_pmacro_perbit_rfu1_ctrl4; u32 emc_pmacro_perbit_rfu1_ctrl5; u32 emc_pmacro_data_pi_ctrl; u32 emc_pmacro_cmd_pi_ctrl; u32 emc_pmacro_ddll_bypass; u32 emc_pmacro_ddll_pwrd0; u32 emc_pmacro_ddll_pwrd1; u32 emc_pmacro_ddll_pwrd2; u32 emc_pmacro_cmd_ctrl0; u32 emc_pmacro_cmd_ctrl1; u32 emc_pmacro_cmd_ctrl2; /* DRAM size information */ /* Specifies the value for MC_EMEM_ADR_CFG */ u32 mc_emem_adr_cfg; /* Specifies the value for MC_EMEM_ADR_CFG_DEV0 */ u32 mc_emem_adr_cfg_dev0; /* Specifies the value for MC_EMEM_ADR_CFG_DEV1 */ u32 mc_emem_adr_cfg_dev1; u32 mc_emem_adr_cfg_channel_mask; /* Specifies the value for MC_EMEM_BANK_SWIZZLE_CFG0 */ u32 mc_emem_adr_cfg_bank_mask0; /* Specifies the value for MC_EMEM_BANK_SWIZZLE_CFG1 */ u32 mc_emem_adr_cfg_bank_mask1; /* Specifies the value for MC_EMEM_BANK_SWIZZLE_CFG2 */ u32 mc_emem_adr_cfg_bank_mask2; /* * Specifies the value for MC_EMEM_CFG which holds the external memory * size (in KBytes) */ u32 mc_emem_cfg; /* MC arbitration configuration */ /* Specifies the value for MC_EMEM_ARB_CFG */ u32 mc_emem_arb_cfg; /* Specifies the value for MC_EMEM_ARB_OUTSTANDING_REQ */ u32 mc_emem_arb_outstanding_req; u32 emc_emem_arb_refpb_hp_ctrl; u32 emc_emem_arb_refpb_bank_ctrl; /* Specifies the value for MC_EMEM_ARB_TIMING_RCD */ u32 mc_emem_arb_timing_rcd; /* Specifies the value for MC_EMEM_ARB_TIMING_RP */ u32 mc_emem_arb_timing_rp; /* Specifies the value for MC_EMEM_ARB_TIMING_RC */ u32 mc_emem_arb_timing_rc; /* Specifies the value for MC_EMEM_ARB_TIMING_RAS */ u32 mc_emem_arb_timing_ras; /* Specifies the value for MC_EMEM_ARB_TIMING_FAW */ u32 mc_emem_arb_timing_faw; /* Specifies the value for MC_EMEM_ARB_TIMING_RRD */ u32 mc_emem_arb_timing_rrd; /* Specifies the value for MC_EMEM_ARB_TIMING_RAP2PRE */ u32 mc_emem_arb_timing_rap2pre; /* Specifies the value for MC_EMEM_ARB_TIMING_WAP2PRE */ u32 mc_emem_arb_timing_wap2pre; /* Specifies the value for MC_EMEM_ARB_TIMING_R2R */ u32 mc_emem_arb_timing_r2r; /* Specifies the value for MC_EMEM_ARB_TIMING_W2W */ u32 mc_emem_arb_timing_w2w; /* Specifies the value for MC_EMEM_ARB_TIMING_R2W */ u32 mc_emem_arb_timing_r2w; /* Specifies the value for MC_EMEM_ARB_TIMING_W2R */ u32 mc_emem_arb_timing_w2r; u32 mc_emem_arb_timing_rfcpb; /* Specifies the value for MC_EMEM_ARB_DA_TURNS */ u32 mc_emem_arb_da_turns; /* Specifies the value for MC_EMEM_ARB_DA_COVERS */ u32 mc_emem_arb_da_covers; /* Specifies the value for MC_EMEM_ARB_MISC0 */ u32 mc_emem_arb_misc0; /* Specifies the value for MC_EMEM_ARB_MISC1 */ u32 mc_emem_arb_misc1; u32 mc_emem_arb_misc2; /* Specifies the value for MC_EMEM_ARB_RING1_THROTTLE */ u32 mc_emem_arb_ring1_throttle; /* Specifies the value for MC_EMEM_ARB_OVERRIDE */ u32 mc_emem_arb_override; /* Specifies the value for MC_EMEM_ARB_OVERRIDE_1 */ u32 mc_emem_arb_override1; /* Specifies the value for MC_EMEM_ARB_RSV */ u32 mc_emem_arb_rsv; u32 mc_da_cfg0; u32 mc_emem_arb_timing_ccdmw; /* Specifies the value for MC_CLKEN_OVERRIDE */ u32 mc_clken_override; /* Specifies the value for MC_STAT_CONTROL */ u32 mc_stat_control; /* Specifies the value for MC_VIDEO_PROTECT_BOM */ u32 mc_video_protect_bom; /* Specifies the value for MC_VIDEO_PROTECT_BOM_ADR_HI */ u32 mc_video_protect_bom_adr_hi; /* Specifies the value for MC_VIDEO_PROTECT_SIZE_MB */ u32 mc_video_protect_size_mb; /* Specifies the value for MC_VIDEO_PROTECT_VPR_OVERRIDE */ u32 mc_video_protect_vpr_override; /* Specifies the value for MC_VIDEO_PROTECT_VPR_OVERRIDE1 */ u32 mc_video_protect_vpr_override1; /* Specifies the value for MC_VIDEO_PROTECT_GPU_OVERRIDE_0 */ u32 mc_video_protect_gpu_override0; /* Specifies the value for MC_VIDEO_PROTECT_GPU_OVERRIDE_1 */ u32 mc_video_protect_gpu_override1; /* Specifies the value for MC_SEC_CARVEOUT_BOM */ u32 mc_sec_carveout_bom; /* Specifies the value for MC_SEC_CARVEOUT_ADR_HI */ u32 mc_sec_carveout_adr_hi; /* Specifies the value for MC_SEC_CARVEOUT_SIZE_MB */ u32 mc_sec_carveout_size_mb; /* Specifies the value for MC_VIDEO_PROTECT_REG_CTRL.VIDEO_PROTECT_WRITE_ACCESS */ u32 mc_video_protect_write_access; /* Specifies the value for MC_SEC_CARVEOUT_REG_CTRL.SEC_CARVEOUT_WRITE_ACCESS */ u32 mc_sec_carveout_protect_write_access; u32 mc_generalized_carveout1_bom; u32 mc_generalized_carveout1_bom_hi; u32 mc_generalized_carveout1_size_128kb; u32 mc_generalized_carveout1_access0; u32 mc_generalized_carveout1_access1; u32 mc_generalized_carveout1_access2; u32 mc_generalized_carveout1_access3; u32 mc_generalized_carveout1_access4; u32 mc_generalized_carveout1_force_internal_access0; u32 mc_generalized_carveout1_force_internal_access1; u32 mc_generalized_carveout1_force_internal_access2; u32 mc_generalized_carveout1_force_internal_access3; u32 mc_generalized_carveout1_force_internal_access4; u32 mc_generalized_carveout1_cfg0; u32 mc_generalized_carveout2_bom; u32 mc_generalized_carveout2_bom_hi; u32 mc_generalized_carveout2_size_128kb; u32 mc_generalized_carveout2_access0; u32 mc_generalized_carveout2_access1; u32 mc_generalized_carveout2_access2; u32 mc_generalized_carveout2_access3; u32 mc_generalized_carveout2_access4; u32 mc_generalized_carveout2_force_internal_access0; u32 mc_generalized_carveout2_force_internal_access1; u32 mc_generalized_carveout2_force_internal_access2; u32 mc_generalized_carveout2_force_internal_access3; u32 mc_generalized_carveout2_force_internal_access4; u32 mc_generalized_carveout2_cfg0; u32 mc_generalized_carveout3_bom; u32 mc_generalized_carveout3_bom_hi; u32 mc_generalized_carveout3_size_128kb; u32 mc_generalized_carveout3_access0; u32 mc_generalized_carveout3_access1; u32 mc_generalized_carveout3_access2; u32 mc_generalized_carveout3_access3; u32 mc_generalized_carveout3_access4; u32 mc_generalized_carveout3_force_internal_access0; u32 mc_generalized_carveout3_force_internal_access1; u32 mc_generalized_carveout3_force_internal_access2; u32 mc_generalized_carveout3_force_internal_access3; u32 mc_generalized_carveout3_force_internal_access4; u32 mc_generalized_carveout3_cfg0; u32 mc_generalized_carveout4_bom; u32 mc_generalized_carveout4_bom_hi; u32 mc_generalized_carveout4_size_128kb; u32 mc_generalized_carveout4_access0; u32 mc_generalized_carveout4_access1; u32 mc_generalized_carveout4_access2; u32 mc_generalized_carveout4_access3; u32 mc_generalized_carveout4_access4; u32 mc_generalized_carveout4_force_internal_access0; u32 mc_generalized_carveout4_force_internal_access1; u32 mc_generalized_carveout4_force_internal_access2; u32 mc_generalized_carveout4_force_internal_access3; u32 mc_generalized_carveout4_force_internal_access4; u32 mc_generalized_carveout4_cfg0; u32 mc_generalized_carveout5_bom; u32 mc_generalized_carveout5_bom_hi; u32 mc_generalized_carveout5_size_128kb; u32 mc_generalized_carveout5_access0; u32 mc_generalized_carveout5_access1; u32 mc_generalized_carveout5_access2; u32 mc_generalized_carveout5_access3; u32 mc_generalized_carveout5_access4; u32 mc_generalized_carveout5_force_internal_access0; u32 mc_generalized_carveout5_force_internal_access1; u32 mc_generalized_carveout5_force_internal_access2; u32 mc_generalized_carveout5_force_internal_access3; u32 mc_generalized_carveout5_force_internal_access4; u32 mc_generalized_carveout5_cfg0; /* Specifies enable for CA training */ u32 emc_ca_training_enable; /* Set if bit 6 select is greater than bit 7 select; uses aremc.spec packet SWIZZLE_BIT6_GT_BIT7 */ u32 swizzle_rank_byte_encode; /* Specifies enable and offset for patched boot rom write */ u32 boot_rom_patch_control; /* Specifies data for patched boot rom write */ u32 boot_rom_patch_data; /* Specifies the value for MC_MTS_CARVEOUT_BOM */ u32 mc_mts_carveout_bom; /* Specifies the value for MC_MTS_CARVEOUT_ADR_HI */ u32 mc_mts_carveout_adr_hi; /* Specifies the value for MC_MTS_CARVEOUT_SIZE_MB */ u32 mc_mts_carveout_size_mb; /* Specifies the value for MC_MTS_CARVEOUT_REG_CTRL */ u32 mc_mts_carveout_reg_ctrl; /* Specifies the clients that are allowed to access untranslated memory */ u32 mc_untranslated_region_check; /* Just a place holder for special usage when there is no BCT for certain registers */ u32 bct_na; } sdram_params_t210b01_t; #endif ================================================ FILE: modules/hekate_libsys_lp0/sys_sdramlp0.c ================================================ /* * Copyright (c) 2013, NVIDIA CORPORATION. All rights reserved. * Copyright 2014 Google Inc. * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. */ #include "t210.h" #include "pmc_t210.h" #include "sdram_lp0_param_t210.h" #include "sdram_lp0_param_t210b01.h" #include #define pack(src, src_bits, dst, dst_bits) { \ u32 mask = 0xFFFFFFFF >> (31 - ((1 ? src_bits) - (0 ? src_bits))); \ dst &= ~(mask << (0 ? dst_bits)); \ dst |= ((src >> (0 ? src_bits)) & mask) << (0 ? dst_bits); \ } #define s(param, src_bits, pmcreg, dst_bits) \ pack(sdram->param, src_bits, pmc->pmc_ ## pmcreg, dst_bits) #define c(value, pmcreg, dst_bits) \ pack(value, (1 ? dst_bits) - (0 ? dst_bits) : 0, pmc->pmc_ ## pmcreg, dst_bits) /* 32 bits version of s macro */ #define s32(param, pmcreg) pmc->pmc_ ## pmcreg = sdram->param /* 32 bits version c macro */ #define c32(value, pmcreg) pmc->pmc_ ## pmcreg = value /* * This function reads SDRAM parameters from the common BCT format and * writes them into PMC scratch registers (where the BootROM expects them * on LP0 resume). */ static void _sdram_lp0_save_params_t210(sdram_params_t210_t *sdram) { pmc_regs_t210_t *pmc = (pmc_regs_t210_t *)PMC_BASE; // Patch full access to carveout parameters and unprotect their regions. sdram->McGeneralizedCarveout1Cfg0 = 0; sdram->McGeneralizedCarveout2Cfg0 = 0; sdram->McGeneralizedCarveout3Cfg0 = 0; sdram->McGeneralizedCarveout4Cfg0 = 0; sdram->McGeneralizedCarveout5Cfg0 = 0; // Patch SDRAM parameters. u32 t0 = (sdram->EmcSwizzleRank0Byte0 << 5 >> 29) > (sdram->EmcSwizzleRank0Byte0 << 1 >> 29); u32 t1 = (t0 & 0xFFFFFFEF) | (((sdram->EmcSwizzleRank1Byte0 << 5 >> 29) > (sdram->EmcSwizzleRank1Byte0 << 1 >> 29)) << 4); u32 t2 = (t1 & 0xFFFFFFFD) | (((sdram->EmcSwizzleRank0Byte1 << 5 >> 29) > (sdram->EmcSwizzleRank0Byte1 << 1 >> 29)) << 1); u32 t3 = (t2 & 0xFFFFFFDF) | (((sdram->EmcSwizzleRank1Byte1 << 5 >> 29) > (sdram->EmcSwizzleRank1Byte1 << 1 >> 29)) << 5); u32 t4 = (t3 & 0xFFFFFFFB) | (((sdram->EmcSwizzleRank0Byte2 << 5 >> 29) > (sdram->EmcSwizzleRank0Byte2 << 1 >> 29)) << 2); u32 t5 = (t4 & 0xFFFFFFBF) | (((sdram->EmcSwizzleRank1Byte2 << 5 >> 29) > (sdram->EmcSwizzleRank1Byte2 << 1 >> 29)) << 6); u32 t6 = (t5 & 0xFFFFFFF7) | (((sdram->EmcSwizzleRank0Byte3 << 5 >> 29) > (sdram->EmcSwizzleRank0Byte3 << 1 >> 29)) << 3); u32 t7 = (t6 & 0xFFFFFF7F) | (((sdram->EmcSwizzleRank1Byte3 << 5 >> 29) > (sdram->EmcSwizzleRank1Byte3 << 1 >> 29)) << 7); sdram->SwizzleRankByteEncode = t7; sdram->EmcBctSpare2 = 0x40000DD8; sdram->EmcBctSpare3 = t7; s(EmcClockSource, 7:0, scratch6, 15:8); s(EmcClockSourceDll, 7:0, scratch6, 23:16); s(EmcClockSource, 31:29, scratch6, 26:24); s(EmcClockSourceDll, 31:29, scratch6, 29:27); s(EmcClockSourceDll, 11:10, scratch6, 31:30); s(ClkRstControllerPllmMisc2Override, 9:8, scratch7, 1:0); s(ClkRstControllerPllmMisc2Override, 2:1, scratch7, 3:2); s(EmcZqCalLpDdr4WarmBoot, 31:30, scratch7, 5:4); s(EmcClockSource, 15:15, scratch7, 6:6); s(EmcClockSource, 26:26, scratch7, 7:7); s(EmcClockSource, 20:20, scratch7, 8:8); s(EmcClockSource, 19:19, scratch7, 9:9); s(ClkRstControllerPllmMisc2Override, 13:13, scratch7, 10:10); s(ClkRstControllerPllmMisc2Override, 12:12, scratch7, 11:11); s(ClkRstControllerPllmMisc2Override, 11:11, scratch7, 12:12); s(ClkRstControllerPllmMisc2Override, 10:10, scratch7, 13:13); s(ClkRstControllerPllmMisc2Override, 5:5, scratch7, 14:14); s(ClkRstControllerPllmMisc2Override, 4:4, scratch7, 15:15); s(ClkRstControllerPllmMisc2Override, 3:3, scratch7, 16:16); s(ClkRstControllerPllmMisc2Override, 0:0, scratch7, 17:17); s(EmcZqCalLpDdr4WarmBoot, 1:0, scratch7, 19:18); s(EmcZqCalLpDdr4WarmBoot, 4:4, scratch7, 20:20); s(EmcOdtWrite, 5:0, scratch7, 26:21); s(EmcOdtWrite, 11:8, scratch7, 30:27); s(EmcOdtWrite, 31:31, scratch7, 31:31); s(EmcFdpdCtrlCmdNoRamp, 0:0, scratch13, 30:30); s(EmcCfgPipeClk, 0:0, scratch13, 31:31); s(McEmemArbMisc2, 0:0, scratch14, 30:30); s(McDaCfg0, 0:0, scratch14, 31:31); s(EmcQRst, 6:0, scratch15, 26:20); s(EmcQRst, 20:16, scratch15, 31:27); s(EmcPmacroCmdTxDrv, 5:0, scratch16, 25:20); s(EmcPmacroCmdTxDrv, 13:8, scratch16, 31:26); s(EmcPmacroAutocalCfg0, 2:0, scratch17, 22:20); s(EmcPmacroAutocalCfg0, 10:8, scratch17, 25:23); s(EmcPmacroAutocalCfg0, 18:16, scratch17, 28:26); s(EmcPmacroAutocalCfg0, 26:24, scratch17, 31:29); s(EmcPmacroAutocalCfg1, 2:0, scratch18, 22:20); s(EmcPmacroAutocalCfg1, 10:8, scratch18, 25:23); s(EmcPmacroAutocalCfg1, 18:16, scratch18, 28:26); s(EmcPmacroAutocalCfg1, 26:24, scratch18, 31:29); s(EmcPmacroAutocalCfg2, 2:0, scratch19, 22:20); s(EmcPmacroAutocalCfg2, 10:8, scratch19, 25:23); s(EmcPmacroAutocalCfg2, 18:16, scratch19, 28:26); s(EmcPmacroAutocalCfg2, 26:24, scratch19, 31:29); s32(EmcCfgRsv,scratch22); s32(EmcAutoCalConfig, scratch23); s32(EmcAutoCalVrefSel0, scratch24); s32(EmcPmacroBrickCtrlRfu1, scratch25); s32(EmcPmacroBrickCtrlRfu2, scratch26); s32(EmcPmcScratch1, scratch27); s32(EmcPmcScratch2, scratch28); s32(EmcPmcScratch3, scratch29); s32(McEmemArbDaTurns, scratch30); s(EmcFbioSpare, 31:24, scratch58, 7:0); s(EmcFbioSpare, 23:16, scratch58, 15:8); s(EmcFbioSpare, 15:8, scratch58, 23:16); s(EmcFbioSpare, 7:2, scratch58, 29:24); s(EmcFbioSpare, 0:0, scratch58, 30:30); s(EmcDllCfg0, 29:0, scratch59, 29:0); s(EmcPmacroDdllBypass, 11:0, scratch60, 11:0); s(EmcPmacroDdllBypass, 27:13, scratch60, 26:12); s(EmcPmacroDdllBypass, 31:29, scratch60, 29:27); s(McEmemArbMisc0, 14:0, scratch61, 14:0); s(McEmemArbMisc0, 30:16, scratch61, 29:15); s(EmcFdpdCtrlCmd, 16:0, scratch62, 16:0); s(EmcFdpdCtrlCmd, 31:20, scratch62, 28:17); s(EmcAutoCalConfig2, 27:0, scratch63, 27:0); s(EmcBurstRefreshNum, 3:0, scratch63, 31:28); s(EmcPmacroZctrl, 27:0, scratch64, 27:0); s(EmcTppd, 3:0, scratch64, 31:28); s(EmcCfgDigDll, 10:0, scratch65, 10:0); s(EmcCfgDigDll, 25:12, scratch65, 24:11); s(EmcCfgDigDll, 27:27, scratch65, 25:25); s(EmcCfgDigDll, 31:30, scratch65, 27:26); s(EmcR2r, 3:0, scratch65, 31:28); s(EmcFdpdCtrlDq, 16:0, scratch66, 16:0); s(EmcFdpdCtrlDq, 28:20, scratch66, 25:17); s(EmcFdpdCtrlDq, 31:30, scratch66, 27:26); s(EmcW2w, 3:0, scratch66, 31:28); s(EmcPmacroTxPwrd4, 13:0, scratch67, 13:0); s(EmcPmacroTxPwrd4, 29:16, scratch67, 27:14); s(EmcPmacroCommonPadTxCtrl, 3:0, scratch67, 31:28); s(EmcPmacroTxPwrd5, 13:0, scratch68, 13:0); s(EmcPmacroTxPwrd5, 29:16, scratch68, 27:14); s(EmcPmacroDdllPwrd0, 4:0, scratch69, 4:0); s(EmcPmacroDdllPwrd0, 12:6, scratch69, 11:5); s(EmcPmacroDdllPwrd0, 20:14, scratch69, 18:12); s(EmcPmacroDdllPwrd0, 28:22, scratch69, 25:19); s(EmcPmacroDdllPwrd0, 31:30, scratch69, 27:26); s(EmcCfg, 4:4, scratch69, 31:31); s(EmcPmacroDdllPwrd1, 4:0, scratch70, 4:0); s(EmcPmacroDdllPwrd1, 12:6, scratch70, 11:5); s(EmcPmacroDdllPwrd1, 20:14, scratch70, 18:12); s(EmcPmacroDdllPwrd1, 28:22, scratch70, 25:19); s(EmcPmacroDdllPwrd1, 31:30, scratch70, 27:26); s(EmcCfg, 5:5, scratch70, 31:31); s(EmcPmacroDdllPwrd2, 4:0, scratch71, 4:0); s(EmcPmacroDdllPwrd2, 12:6, scratch71, 11:5); s(EmcPmacroDdllPwrd2, 20:14, scratch71, 18:12); s(EmcPmacroDdllPwrd2, 28:22, scratch71, 25:19); s(EmcPmacroDdllPwrd2, 31:30, scratch71, 27:26); s(EmcFbioCfg5, 23:20, scratch71, 31:28); s(EmcPmacroIbVrefDq_0, 6:0, scratch72, 6:0); s(EmcPmacroIbVrefDq_0, 14:8, scratch72, 13:7); s(EmcPmacroIbVrefDq_0, 22:16, scratch72, 20:14); s(EmcPmacroIbVrefDq_0, 30:24, scratch72, 27:21); s(EmcFbioCfg5, 15:13, scratch72, 30:28); s(EmcCfg, 6:6, scratch72, 31:31); s(EmcPmacroIbVrefDq_1, 6:0, scratch73, 6:0); s(EmcPmacroIbVrefDq_1, 14:8, scratch73, 13:7); s(EmcPmacroIbVrefDq_1, 22:16, scratch73, 20:14); s(EmcPmacroIbVrefDq_1, 30:24, scratch73, 27:21); s(EmcCfg2, 5:3, scratch73, 30:28); s(EmcCfg, 7:7, scratch73, 31:31); s(EmcPmacroIbVrefDqs_0, 6:0, scratch74, 6:0); s(EmcPmacroIbVrefDqs_0, 14:8, scratch74, 13:7); s(EmcPmacroIbVrefDqs_0, 22:16, scratch74, 20:14); s(EmcPmacroIbVrefDqs_0, 30:24, scratch74, 27:21); s(EmcCfg, 17:16, scratch74, 29:28); s(EmcFbioCfg5, 1:0, scratch74, 31:30); s(EmcPmacroIbVrefDqs_1, 6:0, scratch75, 6:0); s(EmcPmacroIbVrefDqs_1, 14:8, scratch75, 13:7); s(EmcPmacroIbVrefDqs_1, 22:16, scratch75, 20:14); s(EmcPmacroIbVrefDqs_1, 30:24, scratch75, 27:21); s(EmcFbioCfg5, 3:2, scratch75, 29:28); s(EmcCfg2, 27:26, scratch75, 31:30); s(EmcPmacroDdllShortCmd_0, 6:0, scratch76, 6:0); s(EmcPmacroDdllShortCmd_0, 14:8, scratch76, 13:7); s(EmcPmacroDdllShortCmd_0, 22:16, scratch76, 20:14); s(EmcPmacroDdllShortCmd_0, 30:24, scratch76, 27:21); s(EmcPmacroCmdPadTxCtrl, 3:2, scratch76, 29:28); s(EmcPmacroCmdPadTxCtrl, 7:6, scratch76, 31:30); s(EmcPmacroDdllShortCmd_1, 6:0, scratch77, 6:0); s(EmcPmacroDdllShortCmd_1, 14:8, scratch77, 13:7); s(EmcPmacroDdllShortCmd_1, 22:16, scratch77, 20:14); s(EmcPmacroDdllShortCmd_1, 30:24, scratch77, 27:21); s(EmcPmacroCmdPadTxCtrl, 11:10, scratch77, 29:28); s(EmcPmacroCmdPadTxCtrl, 15:14, scratch77, 31:30); s(EmcAutoCalChannel, 5:0, scratch78, 5:0); s(EmcAutoCalChannel, 11:8, scratch78, 9:6); s(EmcAutoCalChannel, 27:16, scratch78, 21:10); s(EmcAutoCalChannel, 31:29, scratch78, 24:22); s(EmcConfigSampleDelay, 6:0, scratch78, 31:25); s(EmcPmacroRxTerm, 5:0, scratch79, 5:0); s(EmcPmacroRxTerm, 13:8, scratch79, 11:6); s(EmcPmacroRxTerm, 21:16, scratch79, 17:12); s(EmcPmacroRxTerm, 29:24, scratch79, 23:18); s(EmcRc, 7:0, scratch79, 31:24); s(EmcPmacroDqTxDrv, 5:0, scratch80, 5:0); s(EmcPmacroDqTxDrv, 13:8, scratch80, 11:6); s(EmcPmacroDqTxDrv, 21:16, scratch80, 17:12); s(EmcPmacroDqTxDrv, 29:24, scratch80, 23:18); s(EmcSelDpdCtrl, 5:2, scratch80, 27:24); s(EmcSelDpdCtrl, 8:8, scratch80, 28:28); s(EmcSelDpdCtrl, 18:16, scratch80, 31:29); s(EmcPmacroCaTxDrv, 5:0, scratch81, 5:0); s(EmcPmacroCaTxDrv, 13:8, scratch81, 11:6); s(EmcPmacroCaTxDrv, 21:16, scratch81, 17:12); s(EmcPmacroCaTxDrv, 29:24, scratch81, 23:18); s(EmcObdly, 5:0, scratch81, 29:24); s(EmcObdly, 29:28, scratch81, 31:30); s(EmcZcalInterval, 23:10, scratch82, 13:0); s(EmcZcalInterval, 9:0, scratch82, 23:14); s(EmcPmacroCmdRxTermMode, 1:0, scratch82, 25:24); s(EmcPmacroCmdRxTermMode, 5:4, scratch82, 27:26); s(EmcPmacroCmdRxTermMode, 9:8, scratch82, 29:28); s(EmcPmacroCmdRxTermMode, 13:12, scratch82, 31:30); s(EmcDataBrlshft0, 23:0, scratch83, 23:0); s(EmcPmacroDataRxTermMode, 1:0, scratch83, 25:24); s(EmcPmacroDataRxTermMode, 5:4, scratch83, 27:26); s(EmcPmacroDataRxTermMode, 9:8, scratch83, 29:28); s(EmcPmacroDataRxTermMode, 13:12, scratch83, 31:30); s(EmcDataBrlshft1, 23:0, scratch84, 23:0); s(McEmemArbTimingRc, 7:0, scratch84, 31:24); s(EmcDqsBrlshft0, 23:0, scratch85, 23:0); s(McEmemArbRsv, 7:0, scratch85, 31:24); s(EmcDqsBrlshft1, 23:0, scratch86, 23:0); s(EmcCfgPipe2, 11:0, scratch87, 11:0); s(EmcCfgPipe2, 27:16, scratch87, 23:12); s(EmcCfgPipe1, 11:0, scratch88, 11:0); s(EmcCfgPipe1, 27:16, scratch88, 23:12); s(EmcPmacroCmdCtrl0, 5:0, scratch89, 5:0); s(EmcPmacroCmdCtrl0, 13:8, scratch89, 11:6); s(EmcPmacroCmdCtrl0, 21:16, scratch89, 17:12); s(EmcPmacroCmdCtrl0, 29:24, scratch89, 23:18); s(EmcPmacroCmdCtrl1, 5:0, scratch90, 5:0); s(EmcPmacroCmdCtrl1, 13:8, scratch90, 11:6); s(EmcPmacroCmdCtrl1, 21:16, scratch90, 17:12); s(EmcPmacroCmdCtrl1, 29:24, scratch90, 23:18); s(EmcRas, 6:0, scratch90, 30:24); s(EmcCfg, 8:8, scratch90, 31:31); s(EmcPmacroVttgenCtrl2, 23:0, scratch91, 23:0); s(EmcW2p, 6:0, scratch91, 30:24); s(EmcCfg, 9:9, scratch91, 31:31); s(EmcPmacroCmdPadRxCtrl, 2:0, scratch92, 2:0); s(EmcPmacroCmdPadRxCtrl, 5:4, scratch92, 4:3); s(EmcPmacroCmdPadRxCtrl, 10:8, scratch92, 7:5); s(EmcPmacroCmdPadRxCtrl, 22:12, scratch92, 18:8); s(EmcPmacroCmdPadRxCtrl, 28:24, scratch92, 23:19); s(EmcQSafe, 6:0, scratch92, 30:24); s(EmcCfg, 18:18, scratch92, 31:31); s(EmcPmacroDataPadRxCtrl, 2:0, scratch93, 2:0); s(EmcPmacroDataPadRxCtrl, 5:4, scratch93, 4:3); s(EmcPmacroDataPadRxCtrl, 10:8, scratch93, 7:5); s(EmcPmacroDataPadRxCtrl, 22:12, scratch93, 18:8); s(EmcPmacroDataPadRxCtrl, 28:24, scratch93, 23:19); s(EmcRdv, 6:0, scratch93, 30:24); s(EmcCfg, 21:21, scratch93, 31:31); s(McEmemArbDaCovers, 23:0, scratch94, 23:0); s(EmcRw2Pden, 6:0, scratch94, 30:24); s(EmcCfg, 22:22, scratch94, 31:31); s(EmcPmacroCmdCtrl2, 5:0, scratch95, 5:0); s(EmcPmacroCmdCtrl2, 13:9, scratch95, 10:6); s(EmcPmacroCmdCtrl2, 21:16, scratch95, 16:11); s(EmcPmacroCmdCtrl2, 29:24, scratch95, 22:17); s(EmcRfcPb, 8:0, scratch95, 31:23); s(EmcPmacroQuseDdllRank0_0, 10:0, scratch96, 10:0); s(EmcPmacroQuseDdllRank0_0, 26:16, scratch96, 21:11); s(EmcCfgUpdate, 2:0, scratch96, 24:22); s(EmcCfgUpdate, 10:8, scratch96, 27:25); s(EmcCfgUpdate, 31:28, scratch96, 31:28); s(EmcPmacroQuseDdllRank0_1, 10:0, scratch97, 10:0); s(EmcPmacroQuseDdllRank0_1, 26:16, scratch97, 21:11); s(EmcRfc, 9:0, scratch97, 31:22); s(EmcPmacroQuseDdllRank0_2, 10:0, scratch98, 10:0); s(EmcPmacroQuseDdllRank0_2, 26:16, scratch98, 21:11); s(EmcTxsr, 9:0, scratch98, 31:22); s(EmcPmacroQuseDdllRank0_3, 10:0, scratch99, 10:0); s(EmcPmacroQuseDdllRank0_3, 26:16, scratch99, 21:11); s(EmcMc2EmcQ, 2:0, scratch99, 24:22); s(EmcMc2EmcQ, 10:8, scratch99, 27:25); s(EmcMc2EmcQ, 27:24, scratch99, 31:28); s(EmcPmacroQuseDdllRank0_4, 10:0, scratch100, 10:0); s(EmcPmacroQuseDdllRank0_4, 26:16, scratch100, 21:11); s(McEmemArbRing1Throttle, 4:0, scratch100, 26:22); s(McEmemArbRing1Throttle, 20:16, scratch100, 31:27); s(EmcPmacroQuseDdllRank0_5, 10:0, scratch101, 10:0); s(EmcPmacroQuseDdllRank0_5, 26:16, scratch101, 21:11); s(EmcPmacroQuseDdllRank1_0, 10:0, scratch102, 10:0); s(EmcPmacroQuseDdllRank1_0, 26:16, scratch102, 21:11); s(EmcAr2Pden, 8:0, scratch102, 30:22); s(EmcCfg, 23:23, scratch102, 31:31); s(EmcPmacroQuseDdllRank1_1, 10:0, scratch103, 10:0); s(EmcPmacroQuseDdllRank1_1, 26:16, scratch103, 21:11); s(EmcRfcSlr, 8:0, scratch103, 30:22); s(EmcCfg, 24:24, scratch103, 31:31); s(EmcPmacroQuseDdllRank1_2, 10:0, scratch104, 10:0); s(EmcPmacroQuseDdllRank1_2, 26:16, scratch104, 21:11); s(EmcIbdly, 6:0, scratch104, 28:22); s(EmcIbdly, 29:28, scratch104, 30:29); s(EmcCfg, 25:25, scratch104, 31:31); s(EmcPmacroQuseDdllRank1_3, 10:0, scratch105, 10:0); s(EmcPmacroQuseDdllRank1_3, 26:16, scratch105, 21:11); s(McEmemArbTimingRFCPB, 8:0, scratch105, 30:22); s(EmcCfg, 26:26, scratch105, 31:31); s(EmcPmacroQuseDdllRank1_4, 10:0, scratch106, 10:0); s(EmcPmacroQuseDdllRank1_4, 26:16, scratch106, 21:11); s(EmcTfaw, 6:0, scratch106, 28:22); s(EmcPmacroDataPadTxCtrl, 3:2, scratch106, 30:29); s(EmcCfg, 28:28, scratch106, 31:31); s(EmcPmacroQuseDdllRank1_5, 10:0, scratch107, 10:0); s(EmcPmacroQuseDdllRank1_5, 26:16, scratch107, 21:11); s(EmcTClkStable, 6:0, scratch107, 28:22); s(EmcPmacroDataPadTxCtrl, 7:6, scratch107, 30:29); s(EmcCfg, 29:29, scratch107, 31:31); s(EmcPmacroObDdllLongDqRank0_0, 10:0, scratch108, 10:0); s(EmcPmacroObDdllLongDqRank0_0, 26:16, scratch108, 21:11); s(EmcPdex2Mrr, 6:0, scratch108, 28:22); s(EmcPmacroDataPadTxCtrl, 11:10, scratch108, 30:29); s(EmcCfg, 30:30, scratch108, 31:31); s(EmcPmacroObDdllLongDqRank0_1, 10:0, scratch109, 10:0); s(EmcPmacroObDdllLongDqRank0_1, 26:16, scratch109, 21:11); s(EmcRdvMask, 6:0, scratch109, 28:22); s(EmcPmacroDataPadTxCtrl, 15:14, scratch109, 30:29); s(EmcCfg, 31:31, scratch109, 31:31); s(EmcPmacroObDdllLongDqRank0_2, 10:0, scratch110, 10:0); s(EmcPmacroObDdllLongDqRank0_2, 26:16, scratch110, 21:11); s(EmcRdvEarlyMask, 6:0, scratch110, 28:22); s(EmcFbioCfg5, 4:4, scratch110, 29:29); s(EmcFbioCfg5, 8:8, scratch110, 30:30); s(EmcFbioCfg5, 10:10, scratch110, 31:31); s(EmcPmacroObDdllLongDqRank0_3, 10:0, scratch111, 10:0); s(EmcPmacroObDdllLongDqRank0_3, 26:16, scratch111, 21:11); s(EmcRdvEarly, 6:0, scratch111, 28:22); s(EmcFbioCfg5, 12:12, scratch111, 29:29); s(EmcFbioCfg5, 25:24, scratch111, 31:30); s(EmcPmacroObDdllLongDqRank0_4, 10:0, scratch112, 10:0); s(EmcPmacroObDdllLongDqRank0_4, 26:16, scratch112, 21:11); s(EmcPmacroDdllShortCmd_2, 6:0, scratch112, 28:22); s(EmcFbioCfg5, 28:26, scratch112, 31:29); s(EmcPmacroObDdllLongDqRank0_5, 10:0, scratch113, 10:0); s(EmcPmacroObDdllLongDqRank0_5, 26:16, scratch113, 21:11); s(McEmemArbTimingRp, 6:0, scratch113, 28:22); s(EmcFbioCfg5, 31:30, scratch113, 30:29); s(EmcCfg2, 0:0, scratch113, 31:31); s(EmcPmacroObDdllLongDqRank1_0, 10:0, scratch114, 10:0); s(EmcPmacroObDdllLongDqRank1_0, 26:16, scratch114, 21:11); s(McEmemArbTimingRas, 6:0, scratch114, 28:22); s(EmcCfg2, 2:1, scratch114, 30:29); s(EmcCfg2, 7:7, scratch114, 31:31); s(EmcPmacroObDdllLongDqRank1_1, 10:0, scratch115, 10:0); s(EmcPmacroObDdllLongDqRank1_1, 26:16, scratch115, 21:11); s(McEmemArbTimingFaw, 6:0, scratch115, 28:22); s(EmcCfg2, 11:10, scratch115, 30:29); s(EmcCfg2, 14:14, scratch115, 31:31); s(EmcPmacroObDdllLongDqRank1_2, 10:0, scratch123, 10:0); s(EmcPmacroObDdllLongDqRank1_2, 26:16, scratch123, 21:11); s(McEmemArbTimingRap2Pre, 6:0, scratch123, 28:22); s(EmcCfg2, 16:15, scratch123, 30:29); s(EmcCfg2, 20:20, scratch123, 31:31); s(EmcPmacroObDdllLongDqRank1_3, 10:0, scratch124, 10:0); s(EmcPmacroObDdllLongDqRank1_3, 26:16, scratch124, 21:11); s(McEmemArbTimingWap2Pre, 6:0, scratch124, 28:22); s(EmcCfg2, 24:22, scratch124, 31:29); s(EmcPmacroObDdllLongDqRank1_4, 10:0, scratch125, 10:0); s(EmcPmacroObDdllLongDqRank1_4, 26:16, scratch125, 21:11); s(McEmemArbTimingR2W, 6:0, scratch125, 28:22); s(EmcCfg2, 25:25, scratch125, 29:29); s(EmcCfg2, 29:28, scratch125, 31:30); s(EmcPmacroObDdllLongDqRank1_5, 10:0, scratch126, 10:0); s(EmcPmacroObDdllLongDqRank1_5, 26:16, scratch126, 21:11); s(McEmemArbTimingW2R, 6:0, scratch126, 28:22); s(EmcCfg2, 31:30, scratch126, 30:29); s(EmcCfgPipe, 0:0, scratch126, 31:31); s(EmcPmacroObDdllLongDqsRank0_0, 10:0, scratch127, 10:0); s(EmcPmacroObDdllLongDqsRank0_0, 26:16, scratch127, 21:11); s(EmcRp, 5:0, scratch127, 27:22); s(EmcCfgPipe, 4:1, scratch127, 31:28); s(EmcPmacroObDdllLongDqsRank0_1, 10:0, scratch128, 10:0); s(EmcPmacroObDdllLongDqsRank0_1, 26:16, scratch128, 21:11); s(EmcR2w, 5:0, scratch128, 27:22); s(EmcCfgPipe, 8:5, scratch128, 31:28); s(EmcPmacroObDdllLongDqsRank0_2, 10:0, scratch129, 10:0); s(EmcPmacroObDdllLongDqsRank0_2, 26:16, scratch129, 21:11); s(EmcW2r, 5:0, scratch129, 27:22); s(EmcCfgPipe, 11:9, scratch129, 30:28); s(EmcCfgPipe, 16:16, scratch129, 31:31); s(EmcPmacroObDdllLongDqsRank0_3, 10:0, scratch130, 10:0); s(EmcPmacroObDdllLongDqsRank0_3, 26:16, scratch130, 21:11); s(EmcR2p, 5:0, scratch130, 27:22); s(EmcCfgPipe, 20:17, scratch130, 31:28); s(EmcPmacroObDdllLongDqsRank0_4, 10:0, scratch131, 10:0); s(EmcPmacroObDdllLongDqsRank0_4, 26:16, scratch131, 21:11); s(EmcCcdmw, 5:0, scratch131, 27:22); s(EmcCfgPipe, 24:21, scratch131, 31:28); s(EmcPmacroObDdllLongDqsRank0_5, 10:0, scratch132, 10:0); s(EmcPmacroObDdllLongDqsRank0_5, 26:16, scratch132, 21:11); s(EmcRdRcd, 5:0, scratch132, 27:22); s(EmcCfgPipe, 27:25, scratch132, 30:28); s(EmcPmacroTxPwrd0, 0:0, scratch132, 31:31); s(EmcPmacroObDdllLongDqsRank1_0, 10:0, scratch133, 10:0); s(EmcPmacroObDdllLongDqsRank1_0, 26:16, scratch133, 21:11); s(EmcWrRcd, 5:0, scratch133, 27:22); s(EmcPmacroTxPwrd0, 4:1, scratch133, 31:28); s(EmcPmacroObDdllLongDqsRank1_1, 10:0, scratch134, 10:0); s(EmcPmacroObDdllLongDqsRank1_1, 26:16, scratch134, 21:11); s(EmcWdv, 5:0, scratch134, 27:22); s(EmcPmacroTxPwrd0, 8:5, scratch134, 31:28); s(EmcPmacroObDdllLongDqsRank1_2, 10:0, scratch135, 10:0); s(EmcPmacroObDdllLongDqsRank1_2, 26:16, scratch135, 21:11); s(EmcQUse, 5:0, scratch135, 27:22); s(EmcPmacroTxPwrd0, 12:9, scratch135, 31:28); s(EmcPmacroObDdllLongDqsRank1_3, 10:0, scratch136, 10:0); s(EmcPmacroObDdllLongDqsRank1_3, 26:16, scratch136, 21:11); s(EmcPdEx2Wr, 5:0, scratch136, 27:22); s(EmcPmacroTxPwrd0, 13:13, scratch136, 28:28); s(EmcPmacroTxPwrd0, 18:16, scratch136, 31:29); s(EmcPmacroObDdllLongDqsRank1_4, 10:0, scratch137, 10:0); s(EmcPmacroObDdllLongDqsRank1_4, 26:16, scratch137, 21:11); s(EmcPdEx2Rd, 5:0, scratch137, 27:22); s(EmcPmacroTxPwrd0, 22:19, scratch137, 31:28); s(EmcPmacroObDdllLongDqsRank1_5, 10:0, scratch138, 10:0); s(EmcPmacroObDdllLongDqsRank1_5, 26:16, scratch138, 21:11); s(EmcPdex2Cke, 5:0, scratch138, 27:22); s(EmcPmacroTxPwrd0, 26:23, scratch138, 31:28); s(EmcPmacroIbDdllLongDqsRank0_0, 10:0, scratch139, 10:0); s(EmcPmacroIbDdllLongDqsRank0_0, 26:16, scratch139, 21:11); s(EmcPChg2Pden, 5:0, scratch139, 27:22); s(EmcPmacroTxPwrd0, 29:27, scratch139, 30:28); s(EmcPmacroTxPwrd1, 0:0, scratch139, 31:31); s(EmcPmacroIbDdllLongDqsRank0_1, 10:0, scratch140, 10:0); s(EmcPmacroIbDdllLongDqsRank0_1, 26:16, scratch140, 21:11); s(EmcAct2Pden, 5:0, scratch140, 27:22); s(EmcPmacroTxPwrd1, 4:1, scratch140, 31:28); s(EmcPmacroIbDdllLongDqsRank0_2, 10:0, scratch141, 10:0); s(EmcPmacroIbDdllLongDqsRank0_2, 26:16, scratch141, 21:11); s(EmcCke2Pden, 5:0, scratch141, 27:22); s(EmcPmacroTxPwrd1, 8:5, scratch141, 31:28); s(EmcPmacroIbDdllLongDqsRank0_3, 10:0, scratch142, 10:0); s(EmcPmacroIbDdllLongDqsRank0_3, 26:16, scratch142, 21:11); s(EmcTcke, 5:0, scratch142, 27:22); s(EmcPmacroTxPwrd1, 12:9, scratch142, 31:28); s(EmcPmacroIbDdllLongDqsRank1_0, 10:0, scratch143, 10:0); s(EmcPmacroIbDdllLongDqsRank1_0, 26:16, scratch143, 21:11); s(EmcTrpab, 5:0, scratch143, 27:22); s(EmcPmacroTxPwrd1, 13:13, scratch143, 28:28); s(EmcPmacroTxPwrd1, 18:16, scratch143, 31:29); s(EmcPmacroIbDdllLongDqsRank1_1, 10:0, scratch144, 10:0); s(EmcPmacroIbDdllLongDqsRank1_1, 26:16, scratch144, 21:11); s(EmcClkenOverride, 3:1, scratch144, 24:22); s(EmcClkenOverride, 8:6, scratch144, 27:25); s(EmcPmacroTxPwrd1, 22:19, scratch144, 31:28); s(EmcPmacroIbDdllLongDqsRank1_2, 10:0, scratch145, 10:0); s(EmcPmacroIbDdllLongDqsRank1_2, 26:16, scratch145, 21:11); s(EmcEInput, 5:0, scratch145, 27:22); s(EmcPmacroTxPwrd1, 26:23, scratch145, 31:28); s(EmcPmacroIbDdllLongDqsRank1_3, 10:0, scratch146, 10:0); s(EmcPmacroIbDdllLongDqsRank1_3, 26:16, scratch146, 21:11); s(EmcEInputDuration, 5:0, scratch146, 27:22); s(EmcPmacroTxPwrd1, 29:27, scratch146, 30:28); s(EmcPmacroTxPwrd2, 0:0, scratch146, 31:31); s(EmcPmacroDdllLongCmd_0, 10:0, scratch147, 10:0); s(EmcPmacroDdllLongCmd_0, 26:16, scratch147, 21:11); s(EmcPutermExtra, 5:0, scratch147, 27:22); s(EmcPmacroTxPwrd2, 4:1, scratch147, 31:28); s(EmcPmacroDdllLongCmd_1, 10:0, scratch148, 10:0); s(EmcPmacroDdllLongCmd_1, 26:16, scratch148, 21:11); s(EmcTckesr, 5:0, scratch148, 27:22); s(EmcPmacroTxPwrd2, 8:5, scratch148, 31:28); s(EmcPmacroDdllLongCmd_2, 10:0, scratch149, 10:0); s(EmcPmacroDdllLongCmd_2, 26:16, scratch149, 21:11); s(EmcTpd, 5:0, scratch149, 27:22); s(EmcPmacroTxPwrd2, 12:9, scratch149, 31:28); s(EmcPmacroDdllLongCmd_3, 10:0, scratch150, 10:0); s(EmcPmacroDdllLongCmd_3, 26:16, scratch150, 21:11); s(EmcWdvMask, 5:0, scratch150, 27:22); s(EmcPmacroTxPwrd2, 13:13, scratch150, 28:28); s(EmcPmacroTxPwrd2, 18:16, scratch150, 31:29); s(McEmemArbCfg, 8:0, scratch151, 8:0); s(McEmemArbCfg, 20:16, scratch151, 13:9); s(McEmemArbCfg, 31:24, scratch151, 21:14); s(EmcWdvChk, 5:0, scratch151, 27:22); s(EmcPmacroTxPwrd2, 22:19, scratch151, 31:28); s(McEmemArbMisc1, 12:0, scratch152, 12:0); s(McEmemArbMisc1, 25:21, scratch152, 17:13); s(McEmemArbMisc1, 31:28, scratch152, 21:18); s(EmcCmdBrlshft0, 5:0, scratch152, 27:22); s(EmcPmacroTxPwrd2, 26:23, scratch152, 31:28); s(EmcMrsWaitCnt2, 9:0, scratch153, 9:0); s(EmcMrsWaitCnt2, 26:16, scratch153, 20:10); s(EmcPmacroIbRxrt, 10:0, scratch153, 31:21); s(EmcMrsWaitCnt, 9:0, scratch154, 9:0); s(EmcMrsWaitCnt, 26:16, scratch154, 20:10); s(EmcPmacroDdllLongCmd_4, 10:0, scratch154, 31:21); s(EmcAutoCalInterval, 20:0, scratch155, 20:0); s(McEmemArbOutstandingReq, 8:0, scratch155, 29:21); s(McEmemArbOutstandingReq, 31:30, scratch155, 31:30); s(McEmemArbRefpbHpCtrl, 6:0, scratch156, 6:0); s(McEmemArbRefpbHpCtrl, 14:8, scratch156, 13:7); s(McEmemArbRefpbHpCtrl, 22:16, scratch156, 20:14); s(EmcCmdBrlshft1, 5:0, scratch156, 26:21); s(EmcRrd, 4:0, scratch156, 31:27); s(EmcQuseBrlshft0, 19:0, scratch157, 19:0); s(EmcFbioCfg8, 27:16, scratch157, 31:20); s(EmcQuseBrlshft1, 19:0, scratch158, 19:0); s(EmcTxsrDll, 11:0, scratch158, 31:20); s(EmcQuseBrlshft2, 19:0, scratch159, 19:0); s(EmcTxdsrvttgen, 11:0, scratch159, 31:20); s(EmcQuseBrlshft3, 19:0, scratch160, 19:0); s(EmcPmacroVttgenCtrl0, 3:0, scratch160, 23:20); s(EmcPmacroVttgenCtrl0, 11:8, scratch160, 27:24); s(EmcPmacroVttgenCtrl0, 19:16, scratch160, 31:28); s(EmcPmacroVttgenCtrl1, 19:0, scratch161, 19:0); s(EmcCmdBrlshft2, 5:0, scratch161, 25:20); s(EmcCmdBrlshft3, 5:0, scratch161, 31:26); s(EmcAutoCalConfig3, 5:0, scratch162, 5:0); s(EmcAutoCalConfig3, 13:8, scratch162, 11:6); s(EmcAutoCalConfig3, 18:16, scratch162, 14:12); s(EmcAutoCalConfig3, 22:20, scratch162, 17:15); s(EmcTRefBw, 13:0, scratch162, 31:18); s(EmcAutoCalConfig4, 5:0, scratch163, 5:0); s(EmcAutoCalConfig4, 13:8, scratch163, 11:6); s(EmcAutoCalConfig4, 18:16, scratch163, 14:12); s(EmcAutoCalConfig4, 22:20, scratch163, 17:15); s(EmcQpop, 6:0, scratch163, 24:18); s(EmcQpop, 22:16, scratch163, 31:25); s(EmcAutoCalConfig5, 5:0, scratch164, 5:0); s(EmcAutoCalConfig5, 13:8, scratch164, 11:6); s(EmcAutoCalConfig5, 18:16, scratch164, 14:12); s(EmcAutoCalConfig5, 22:20, scratch164, 17:15); s(EmcPmacroAutocalCfgCommon, 5:0, scratch164, 23:18); s(EmcPmacroAutocalCfgCommon, 13:8, scratch164, 29:24); s(EmcPmacroAutocalCfgCommon, 16:16, scratch164, 30:30); s(EmcPmacroTxPwrd2, 27:27, scratch164, 31:31); s(EmcAutoCalConfig6, 5:0, scratch165, 5:0); s(EmcAutoCalConfig6, 13:8, scratch165, 11:6); s(EmcAutoCalConfig6, 18:16, scratch165, 14:12); s(EmcAutoCalConfig6, 22:20, scratch165, 17:15); s(EmcWev, 5:0, scratch165, 23:18); s(EmcWsv, 5:0, scratch165, 29:24); s(EmcPmacroTxPwrd2, 29:28, scratch165, 31:30); s(EmcAutoCalConfig7, 5:0, scratch166, 5:0); s(EmcAutoCalConfig7, 13:8, scratch166, 11:6); s(EmcAutoCalConfig7, 18:16, scratch166, 14:12); s(EmcAutoCalConfig7, 22:20, scratch166, 17:15); s(EmcCfg3, 2:0, scratch166, 20:18); s(EmcCfg3, 6:4, scratch166, 23:21); s(EmcQuseWidth, 3:0, scratch166, 27:24); s(EmcQuseWidth, 29:28, scratch166, 29:28); s(EmcPmacroTxPwrd3, 1:0, scratch166, 31:30); s(EmcAutoCalConfig8, 5:0, scratch167, 5:0); s(EmcAutoCalConfig8, 13:8, scratch167, 11:6); s(EmcAutoCalConfig8, 18:16, scratch167, 14:12); s(EmcAutoCalConfig8, 22:20, scratch167, 17:15); s(EmcPmacroBgBiasCtrl0, 2:0, scratch167, 20:18); s(EmcPmacroBgBiasCtrl0, 6:4, scratch167, 23:21); s(McEmemArbTimingRcd, 5:0, scratch167, 29:24); s(EmcPmacroTxPwrd3, 3:2, scratch167, 31:30); s(EmcXm2CompPadCtrl2, 17:0, scratch168, 17:0); s(McEmemArbTimingCcdmw, 5:0, scratch168, 23:18); s(McEmemArbOverride, 27:27, scratch168, 24:24); s(McEmemArbOverride, 26:26, scratch168, 25:25); s(McEmemArbOverride, 16:16, scratch168, 26:26); s(McEmemArbOverride, 10:10, scratch168, 27:27); s(McEmemArbOverride, 4:4, scratch168, 28:28); s(McEmemArbOverride, 3:3, scratch168, 29:29); s(EmcPmacroTxPwrd3, 5:4, scratch168, 31:30); s(EmcXm2CompPadCtrl3, 17:0, scratch169, 17:0); s(EmcRext, 4:0, scratch169, 22:18); s(EmcTClkStop, 4:0, scratch169, 27:23); s(EmcPmacroTxPwrd3, 9:6, scratch169, 31:28); s(EmcZcalWaitCnt, 10:0, scratch170, 10:0); s(EmcZcalWaitCnt, 21:16, scratch170, 16:11); s(EmcZcalWaitCnt, 31:31, scratch170, 17:17); s(EmcWext, 4:0, scratch170, 22:18); s(EmcRefctrl2, 0:0, scratch170, 23:23); s(EmcRefctrl2, 26:24, scratch170, 26:24); s(EmcRefctrl2, 31:31, scratch170, 27:27); s(EmcPmacroTxPwrd3, 13:10, scratch170, 31:28); s(EmcZcalMrwCmd, 7:0, scratch171, 7:0); s(EmcZcalMrwCmd, 23:16, scratch171, 15:8); s(EmcZcalMrwCmd, 31:30, scratch171, 17:16); s(EmcWeDuration, 4:0, scratch171, 22:18); s(EmcWsDuration, 4:0, scratch171, 27:23); s(EmcPmacroTxPwrd3, 19:16, scratch171, 31:28); s(EmcSwizzleRank0Byte0, 2:0, scratch172, 2:0); s(EmcSwizzleRank0Byte0, 6:4, scratch172, 5:3); s(EmcSwizzleRank0Byte0, 10:8, scratch172, 8:6); s(EmcSwizzleRank0Byte0, 14:12, scratch172, 11:9); s(EmcSwizzleRank0Byte0, 18:16, scratch172, 14:12); s(EmcSwizzleRank0Byte0, 22:20, scratch172, 17:15); s(EmcPutermWidth, 31:31, scratch172, 18:18); s(EmcPutermWidth, 3:0, scratch172, 22:19); s(McEmemArbTimingRrd, 4:0, scratch172, 27:23); s(EmcPmacroTxPwrd3, 23:20, scratch172, 31:28); s(EmcSwizzleRank0Byte1, 2:0, scratch173, 2:0); s(EmcSwizzleRank0Byte1, 6:4, scratch173, 5:3); s(EmcSwizzleRank0Byte1, 10:8, scratch173, 8:6); s(EmcSwizzleRank0Byte1, 14:12, scratch173, 11:9); s(EmcSwizzleRank0Byte1, 18:16, scratch173, 14:12); s(EmcSwizzleRank0Byte1, 22:20, scratch173, 17:15); s(McEmemArbTimingR2R, 4:0, scratch173, 22:18); s(McEmemArbTimingW2W, 4:0, scratch173, 27:23); s(EmcPmacroTxPwrd3, 27:24, scratch173, 31:28); s(EmcSwizzleRank0Byte2, 2:0, scratch174, 2:0); s(EmcSwizzleRank0Byte2, 6:4, scratch174, 5:3); s(EmcSwizzleRank0Byte2, 10:8, scratch174, 8:6); s(EmcSwizzleRank0Byte2, 14:12, scratch174, 11:9); s(EmcSwizzleRank0Byte2, 18:16, scratch174, 14:12); s(EmcSwizzleRank0Byte2, 22:20, scratch174, 17:15); s(EmcPmacroTxPwrd3, 29:28, scratch174, 19:18); s(EmcPmacroTxSelClkSrc0, 11:0, scratch174, 31:20); s(EmcSwizzleRank0Byte3, 2:0, scratch175, 2:0); s(EmcSwizzleRank0Byte3, 6:4, scratch175, 5:3); s(EmcSwizzleRank0Byte3, 10:8, scratch175, 8:6); s(EmcSwizzleRank0Byte3, 14:12, scratch175, 11:9); s(EmcSwizzleRank0Byte3, 18:16, scratch175, 14:12); s(EmcSwizzleRank0Byte3, 22:20, scratch175, 17:15); s(EmcPmacroTxSelClkSrc0, 27:16, scratch175, 29:18); s(EmcPmacroTxSelClkSrc1, 1:0, scratch175, 31:30); s(EmcSwizzleRank1Byte0, 2:0, scratch176, 2:0); s(EmcSwizzleRank1Byte0, 6:4, scratch176, 5:3); s(EmcSwizzleRank1Byte0, 10:8, scratch176, 8:6); s(EmcSwizzleRank1Byte0, 14:12, scratch176, 11:9); s(EmcSwizzleRank1Byte0, 18:16, scratch176, 14:12); s(EmcSwizzleRank1Byte0, 22:20, scratch176, 17:15); s(EmcPmacroTxSelClkSrc1, 11:2, scratch176, 27:18); s(EmcPmacroTxSelClkSrc1, 19:16, scratch176, 31:28); s(EmcSwizzleRank1Byte1, 2:0, scratch177, 2:0); s(EmcSwizzleRank1Byte1, 6:4, scratch177, 5:3); s(EmcSwizzleRank1Byte1, 10:8, scratch177, 8:6); s(EmcSwizzleRank1Byte1, 14:12, scratch177, 11:9); s(EmcSwizzleRank1Byte1, 18:16, scratch177, 14:12); s(EmcSwizzleRank1Byte1, 22:20, scratch177, 17:15); s(EmcPmacroTxSelClkSrc1, 27:20, scratch177, 25:18); s(EmcPmacroTxSelClkSrc3, 5:0, scratch177, 31:26); s(EmcSwizzleRank1Byte2, 2:0, scratch178, 2:0); s(EmcSwizzleRank1Byte2, 6:4, scratch178, 5:3); s(EmcSwizzleRank1Byte2, 10:8, scratch178, 8:6); s(EmcSwizzleRank1Byte2, 14:12, scratch178, 11:9); s(EmcSwizzleRank1Byte2, 18:16, scratch178, 14:12); s(EmcSwizzleRank1Byte2, 22:20, scratch178, 17:15); s(EmcPmacroTxSelClkSrc3, 11:6, scratch178, 23:18); s(EmcPmacroTxSelClkSrc3, 23:16, scratch178, 31:24); s(EmcSwizzleRank1Byte3, 2:0, scratch179, 2:0); s(EmcSwizzleRank1Byte3, 6:4, scratch179, 5:3); s(EmcSwizzleRank1Byte3, 10:8, scratch179, 8:6); s(EmcSwizzleRank1Byte3, 14:12, scratch179, 11:9); s(EmcSwizzleRank1Byte3, 18:16, scratch179, 14:12); s(EmcSwizzleRank1Byte3, 22:20, scratch179, 17:15); s(EmcPmacroTxSelClkSrc3, 27:24, scratch179, 21:18); s(EmcPmacroTxSelClkSrc2, 9:0, scratch179, 31:22); s(EmcPmacroCmdBrickCtrlFdpd, 17:0, scratch180, 17:0); s(EmcPmacroTxSelClkSrc2, 11:10, scratch180, 19:18); s(EmcPmacroTxSelClkSrc2, 27:16, scratch180, 31:20); s(EmcPmacroDataBrickCtrlFdpd, 17:0, scratch181, 17:0); s(EmcPmacroTxSelClkSrc4, 11:0, scratch181, 29:18); s(EmcPmacroTxSelClkSrc4, 17:16, scratch181, 31:30); s(EmcFbioCfg7, 16:0, scratch182, 16:0); s(McEmemArbRefpbBankCtrl, 6:0, scratch182, 23:17); s(McEmemArbRefpbBankCtrl, 14:8, scratch182, 30:24); s(McEmemArbRefpbBankCtrl, 31:31, scratch182, 31:31); s(EmcDynSelfRefControl, 15:0, scratch183, 15:0); s(EmcDynSelfRefControl, 31:31, scratch183, 16:16); s(EmcPmacroTxSelClkSrc4, 27:18, scratch183, 26:17); s(EmcPmacroTxSelClkSrc5, 4:0, scratch183, 31:27); s(EmcDllCfg1, 16:0, scratch184, 16:0); s(EmcPmacroTxSelClkSrc5, 11:5, scratch184, 23:17); s(EmcPmacroTxSelClkSrc5, 23:16, scratch184, 31:24); s(EmcPmacroPadCfgCtrl, 1:0, scratch185, 1:0); s(EmcPmacroPadCfgCtrl, 6:5, scratch185, 3:2); s(EmcPmacroPadCfgCtrl, 11:9, scratch185, 6:4); s(EmcPmacroPadCfgCtrl, 13:13, scratch185, 7:7); s(EmcPmacroPadCfgCtrl, 17:16, scratch185, 9:8); s(EmcPmacroPadCfgCtrl, 21:20, scratch185, 11:10); s(EmcPmacroPadCfgCtrl, 25:24, scratch185, 13:12); s(EmcPmacroPadCfgCtrl, 30:28, scratch185, 16:14); s(EmcPmacroTxSelClkSrc5, 27:24, scratch185, 20:17); s(EmcPmacroCmdPadTxCtrl, 1:0, scratch185, 22:21); s(EmcPmacroCmdPadTxCtrl, 5:4, scratch185, 24:23); s(EmcPmacroCmdPadTxCtrl, 9:8, scratch185, 26:25); s(EmcPmacroCmdPadTxCtrl, 13:12, scratch185, 28:27); s(EmcPmacroCmdPadTxCtrl, 16:16, scratch185, 29:29); s(EmcPmacroCmdPadTxCtrl, 21:20, scratch185, 31:30); s(EmcRefresh, 15:0, scratch186, 15:0); s(EmcCmdQ, 4:0, scratch186, 20:16); s(EmcCmdQ, 10:8, scratch186, 23:21); s(EmcCmdQ, 14:12, scratch186, 26:24); s(EmcCmdQ, 28:24, scratch186, 31:27); s(EmcAcpdControl, 15:0, scratch187, 15:0); s(EmcAutoCalVrefSel1, 15:0, scratch187, 31:16); s(EmcXm2CompPadCtrl, 1:0, scratch188, 1:0); s(EmcXm2CompPadCtrl, 6:3, scratch188, 5:2); s(EmcXm2CompPadCtrl, 9:9, scratch188, 6:6); s(EmcXm2CompPadCtrl, 19:11, scratch188, 15:7); s(EmcCfgDigDllPeriod, 15:0, scratch188, 31:16); s(EmcCfgDigDll_1, 15:0, scratch189, 15:0); s(EmcPreRefreshReqCnt, 15:0, scratch189, 31:16); s(EmcPmacroCmdPadTxCtrl, 27:24, scratch190, 19:16); s(EmcPmacroDataPadTxCtrl, 1:0, scratch190, 21:20); s(EmcPmacroDataPadTxCtrl, 5:4, scratch190, 23:22); s(EmcPmacroDataPadTxCtrl, 9:8, scratch190, 25:24); s(EmcPmacroDataPadTxCtrl, 13:12, scratch190, 27:26); s(EmcPmacroDataPadTxCtrl, 16:16, scratch190, 28:28); s(EmcPmacroDataPadTxCtrl, 21:20, scratch190, 30:29); s(EmcPmacroDataPadTxCtrl, 24:24, scratch190, 31:31); s(EmcPmacroDataPadTxCtrl, 27:25, scratch191, 2:0); s(EmcPinGpio, 1:0, scratch8, 31:30); s(EmcPinGpioEn, 1:0, scratch9, 31:30); s(EmcDevSelect, 1:0, scratch10, 31:30); s(EmcZcalWarmColdBootEnables, 1:0, scratch11, 31:30); s(EmcCfgDigDllPeriodWarmBoot, 1:0, scratch12, 31:30); s32(EmcBctSpare13, scratch31); s32(EmcBctSpare12, scratch32); s32(EmcBctSpare7, scratch33); s32(EmcBctSpare6, scratch40); s32(EmcBctSpare5, scratch42); s32(EmcBctSpare4, scratch44); s32(EmcBctSpare3, scratch45); s32(EmcBctSpare2, scratch46); s32(EmcBctSpare1, scratch47); s32(EmcBctSpare0, scratch48); s32(EmcBctSpare9, scratch50); s32(EmcBctSpare8, scratch51); s32(BootRomPatchData, scratch56); s32(BootRomPatchControl, scratch57); s(McClkenOverrideAllWarmBoot, 0:0, scratch58, 31:31); s(EmcClkenOverrideAllWarmBoot, 0:0, scratch59, 30:30); s(EmcMrsWarmBootEnable, 0:0, scratch59, 31:31); s(ClearClk2Mc1, 0:0, scratch60, 30:30); s(EmcWarmBootExtraModeRegWriteEnable, 0:0, scratch60, 31:31); s(ClkRstControllerPllmMisc2OverrideEnable, 0:0, scratch61, 30:30); s(EmcDbgWriteMux, 0:0, scratch61, 31:31); s(EmcExtraRefreshNum, 2:0, scratch62, 31:29); s(PmcIoDpd3ReqWait, 2:0, scratch68, 30:28); s(AhbArbitrationXbarCtrlMemInitDone, 0:0, scratch68, 31:31); s(MemoryType, 2:0, scratch69, 30:28); s(PmcIoDpd4ReqWait, 2:0, scratch70, 30:28); s(EmcTimingControlWait, 7:0, scratch86, 31:24); s(EmcZcalWarmBootWait, 7:0, scratch87, 31:24); s(WarmBootWait, 7:0, scratch88, 31:24); s(EmcPinProgramWait, 7:0, scratch89, 31:24); s(EmcAutoCalWait, 9:0, scratch101, 31:22); s(SwizzleRankByteEncode, 15:0, scratch190, 15:0); // LPDDR4 MRW. s(EmcMrwLpddr2ZcalWarmBoot, 23:16, scratch5, 7:0); s(EmcMrwLpddr2ZcalWarmBoot, 7:0, scratch5, 15:8); s(EmcWarmBootMrwExtra, 23:16, scratch5, 23:16); s(EmcWarmBootMrwExtra, 7:0, scratch5, 31:24); s(EmcMrwLpddr2ZcalWarmBoot, 31:30, scratch6, 1:0); s(EmcWarmBootMrwExtra, 31:30, scratch6, 3:2); s(EmcMrwLpddr2ZcalWarmBoot, 27:26, scratch6, 5:4); s(EmcWarmBootMrwExtra, 27:26, scratch6, 7:6); s(EmcMrw6, 27:0, scratch8, 27:0); s(EmcMrw6, 31:30, scratch8, 29:28); s(EmcMrw8, 27:0, scratch9, 27:0); s(EmcMrw8, 31:30, scratch9, 29:28); s(EmcMrw9, 27:0, scratch10, 27:0); s(EmcMrw9, 31:30, scratch10, 29:28); s(EmcMrw10, 27:0, scratch11, 27:0); s(EmcMrw10, 31:30, scratch11, 29:28); s(EmcMrw12, 27:0, scratch12, 27:0); s(EmcMrw12, 31:30, scratch12, 29:28); s(EmcMrw13, 27:0, scratch13, 27:0); s(EmcMrw13, 31:30, scratch13, 29:28); s(EmcMrw14, 27:0, scratch14, 27:0); s(EmcMrw14, 31:30, scratch14, 29:28); s(EmcMrw1, 7:0, scratch15, 7:0); s(EmcMrw1, 23:16, scratch15, 15:8); s(EmcMrw1, 27:26, scratch15, 17:16); s(EmcMrw1, 31:30, scratch15, 19:18); s(EmcWarmBootMrwExtra, 7:0, scratch16, 7:0); s(EmcWarmBootMrwExtra, 23:16, scratch16, 15:8); s(EmcWarmBootMrwExtra, 27:26, scratch16, 17:16); s(EmcWarmBootMrwExtra, 31:30, scratch16, 19:18); s(EmcMrw2, 7:0, scratch17, 7:0); s(EmcMrw2, 23:16, scratch17, 15:8); s(EmcMrw2, 27:26, scratch17, 17:16); s(EmcMrw2, 31:30, scratch17, 19:18); s(EmcMrw3, 7:0, scratch18, 7:0); s(EmcMrw3, 23:16, scratch18, 15:8); s(EmcMrw3, 27:26, scratch18, 17:16); s(EmcMrw3, 31:30, scratch18, 19:18); s(EmcMrw4, 7:0, scratch19, 7:0); s(EmcMrw4, 23:16, scratch19, 15:8); s(EmcMrw4, 27:26, scratch19, 17:16); s(EmcMrw4, 31:30, scratch19, 19:18); s32(EmcCmdMappingByte, secure_scratch8); s32(EmcPmacroBrickMapping0, secure_scratch9); s32(EmcPmacroBrickMapping1, secure_scratch10); s32(EmcPmacroBrickMapping2, secure_scratch11); s32(McVideoProtectGpuOverride0, secure_scratch12); s(EmcCmdMappingCmd0_0, 6:0, secure_scratch13, 6:0); s(EmcCmdMappingCmd0_0, 14:8, secure_scratch13, 13:7); s(EmcCmdMappingCmd0_0, 22:16, secure_scratch13, 20:14); s(EmcCmdMappingCmd0_0, 30:24, secure_scratch13, 27:21); s(McVideoProtectBomAdrHi, 1:0, secure_scratch13, 29:28); s(McVideoProtectWriteAccess, 1:0, secure_scratch13, 31:30); s(EmcCmdMappingCmd0_1, 6:0, secure_scratch14, 6:0); s(EmcCmdMappingCmd0_1, 14:8, secure_scratch14, 13:7); s(EmcCmdMappingCmd0_1, 22:16, secure_scratch14, 20:14); s(EmcCmdMappingCmd0_1, 30:24, secure_scratch14, 27:21); s(McSecCarveoutAdrHi, 1:0, secure_scratch14, 29:28); s(McMtsCarveoutAdrHi, 1:0, secure_scratch14, 31:30); s(EmcCmdMappingCmd1_0, 6:0, secure_scratch15, 6:0); s(EmcCmdMappingCmd1_0, 14:8, secure_scratch15, 13:7); s(EmcCmdMappingCmd1_0, 22:16, secure_scratch15, 20:14); s(EmcCmdMappingCmd1_0, 30:24, secure_scratch15, 27:21); s(McGeneralizedCarveout5BomHi, 1:0, secure_scratch15, 29:28); s(McGeneralizedCarveout3BomHi, 1:0, secure_scratch15, 31:30); s(EmcCmdMappingCmd1_1, 6:0, secure_scratch16, 6:0); s(EmcCmdMappingCmd1_1, 14:8, secure_scratch16, 13:7); s(EmcCmdMappingCmd1_1, 22:16, secure_scratch16, 20:14); s(EmcCmdMappingCmd1_1, 30:24, secure_scratch16, 27:21); s(McGeneralizedCarveout2BomHi, 1:0, secure_scratch16, 29:28); s(McGeneralizedCarveout4BomHi, 1:0, secure_scratch16, 31:30); s(EmcCmdMappingCmd2_0, 6:0, secure_scratch17, 6:0); s(EmcCmdMappingCmd2_0, 14:8, secure_scratch17, 13:7); s(EmcCmdMappingCmd2_0, 22:16, secure_scratch17, 20:14); s(EmcCmdMappingCmd2_0, 30:24, secure_scratch17, 27:21); s(McGeneralizedCarveout1BomHi, 1:0, secure_scratch17, 29:28); s(EmcAdrCfg, 0:0, secure_scratch17, 30:30); s(EmcFbioSpare, 1:1, secure_scratch17, 31:31); s(EmcCmdMappingCmd2_1, 6:0, secure_scratch18, 6:0); s(EmcCmdMappingCmd2_1, 14:8, secure_scratch18, 13:7); s(EmcCmdMappingCmd2_1, 22:16, secure_scratch18, 20:14); s(EmcCmdMappingCmd2_1, 30:24, secure_scratch18, 27:21); s(EmcFbioCfg8, 15:15, secure_scratch18, 28:28); s(McEmemAdrCfg, 0:0, secure_scratch18, 29:29); s(McSecCarveoutProtectWriteAccess, 0:0, secure_scratch18, 30:30); s(McMtsCarveoutRegCtrl, 0:0, secure_scratch18, 31:31); s(EmcCmdMappingCmd3_0, 6:0, secure_scratch19, 6:0); s(EmcCmdMappingCmd3_0, 14:8, secure_scratch19, 13:7); s(EmcCmdMappingCmd3_0, 22:16, secure_scratch19, 20:14); s(EmcCmdMappingCmd3_0, 30:24, secure_scratch19, 27:21); s(McGeneralizedCarveout2Cfg0, 6:3, secure_scratch19, 31:28); s(EmcCmdMappingCmd3_1, 6:0, secure_scratch20, 6:0); s(EmcCmdMappingCmd3_1, 14:8, secure_scratch20, 13:7); s(EmcCmdMappingCmd3_1, 22:16, secure_scratch20, 20:14); s(EmcCmdMappingCmd3_1, 30:24, secure_scratch20, 27:21); s(McGeneralizedCarveout2Cfg0, 10:7, secure_scratch20, 31:28); s(McGeneralizedCarveout4Cfg0, 26:0, secure_scratch39, 26:0); s(McGeneralizedCarveout2Cfg0, 17:14, secure_scratch39, 30:27); s(McVideoProtectVprOverride, 0:0, secure_scratch39, 31:31); s(McGeneralizedCarveout5Cfg0, 26:0, secure_scratch40, 26:0); s(McGeneralizedCarveout2Cfg0, 21:18, secure_scratch40, 30:27); s(McVideoProtectVprOverride, 1:1, secure_scratch40, 31:31); s(EmcCmdMappingCmd0_2, 6:0, secure_scratch41, 6:0); s(EmcCmdMappingCmd0_2, 14:8, secure_scratch41, 13:7); s(EmcCmdMappingCmd0_2, 22:16, secure_scratch41, 20:14); s(EmcCmdMappingCmd0_2, 27:24, secure_scratch41, 24:21); s(McGeneralizedCarveout1Cfg0, 6:3, secure_scratch41, 28:25); s(McGeneralizedCarveout2Cfg0, 13:11, secure_scratch41, 31:29); s(EmcCmdMappingCmd1_2, 6:0, secure_scratch42, 6:0); s(EmcCmdMappingCmd1_2, 14:8, secure_scratch42, 13:7); s(EmcCmdMappingCmd1_2, 22:16, secure_scratch42, 20:14); s(EmcCmdMappingCmd1_2, 27:24, secure_scratch42, 24:21); s(McGeneralizedCarveout1Cfg0, 13:7, secure_scratch42, 31:25); s(EmcCmdMappingCmd2_2, 6:0, secure_scratch43, 6:0); s(EmcCmdMappingCmd2_2, 14:8, secure_scratch43, 13:7); s(EmcCmdMappingCmd2_2, 22:16, secure_scratch43, 20:14); s(EmcCmdMappingCmd2_2, 27:24, secure_scratch43, 24:21); s(McGeneralizedCarveout1Cfg0, 17:14, secure_scratch43, 28:25); s(McGeneralizedCarveout3Cfg0, 13:11, secure_scratch43, 31:29); s(EmcCmdMappingCmd3_2, 6:0, secure_scratch44, 6:0); s(EmcCmdMappingCmd3_2, 14:8, secure_scratch44, 13:7); s(EmcCmdMappingCmd3_2, 22:16, secure_scratch44, 20:14); s(EmcCmdMappingCmd3_2, 27:24, secure_scratch44, 24:21); s(McGeneralizedCarveout1Cfg0, 21:18, secure_scratch44, 28:25); s(McVideoProtectVprOverride, 3:2, secure_scratch44, 30:29); s(McVideoProtectVprOverride, 6:6, secure_scratch44, 31:31); s(McEmemAdrCfgChannelMask, 31:9, secure_scratch45, 22:0); s(McEmemAdrCfgDev0, 2:0, secure_scratch45, 25:23); s(McEmemAdrCfgDev0, 9:8, secure_scratch45, 27:26); s(McEmemAdrCfgDev0, 19:16, secure_scratch45, 31:28); s(McEmemAdrCfgBankMask0, 31:10, secure_scratch46, 21:0); s(McEmemAdrCfgDev1, 2:0, secure_scratch46, 24:22); s(McEmemAdrCfgDev1, 9:8, secure_scratch46, 26:25); s(McEmemAdrCfgDev1, 19:16, secure_scratch46, 30:27); s(McVideoProtectVprOverride, 7:7, secure_scratch46, 31:31); s(McEmemAdrCfgBankMask1, 31:10, secure_scratch47, 21:0); s(McGeneralizedCarveout3Cfg0, 10:3, secure_scratch47, 29:22); s(McVideoProtectVprOverride, 9:8, secure_scratch47, 31:30); s(McEmemAdrCfgBankMask2, 31:10, secure_scratch48, 21:0); s(McGeneralizedCarveout3Cfg0, 21:14, secure_scratch48, 29:22); s(McVideoProtectVprOverride, 11:11, secure_scratch48, 30:30); s(McVideoProtectVprOverride, 14:14, secure_scratch48, 31:31); s(McVideoProtectGpuOverride1, 15:0, secure_scratch49, 15:0); s(McEmemCfg, 13:0, secure_scratch49, 29:16); s(McEmemCfg, 31:31, secure_scratch49, 30:30); s(McVideoProtectVprOverride, 15:15, secure_scratch49, 31:31); s(McGeneralizedCarveout3Bom, 31:17, secure_scratch50, 14:0); s(McGeneralizedCarveout1Bom, 31:17, secure_scratch50, 29:15); s(McVideoProtectVprOverride, 18:17, secure_scratch50, 31:30); s(McGeneralizedCarveout4Bom, 31:17, secure_scratch51, 14:0); s(McGeneralizedCarveout2Bom, 31:17, secure_scratch51, 29:15); s(McVideoProtectVprOverride, 20:19, secure_scratch51, 31:30); s(McGeneralizedCarveout5Bom, 31:17, secure_scratch52, 14:0); s(McVideoProtectBom, 31:20, secure_scratch52, 26:15); s(McVideoProtectVprOverride, 23:21, secure_scratch52, 29:27); s(McVideoProtectVprOverride, 26:26, secure_scratch52, 30:30); s(McVideoProtectVprOverride, 29:29, secure_scratch52, 31:31); s(McVideoProtectSizeMb, 11:0, secure_scratch53, 11:0); s(McSecCarveoutBom, 31:20, secure_scratch53, 23:12); s(McVideoProtectVprOverride, 31:30, secure_scratch53, 25:24); s(McVideoProtectVprOverride1, 1:0, secure_scratch53, 27:26); s(McVideoProtectVprOverride1, 7:4, secure_scratch53, 31:28); s(McSecCarveoutSizeMb, 11:0, secure_scratch54, 11:0); s(McMtsCarveoutBom, 31:20, secure_scratch54, 23:12); s(McVideoProtectVprOverride1, 15:8, secure_scratch54, 31:24); s(McMtsCarveoutSizeMb, 11:0, secure_scratch55, 11:0); s(McGeneralizedCarveout4Size128kb, 11:0, secure_scratch55, 23:12); s(McVideoProtectVprOverride1, 16:16, secure_scratch55, 24:24); s(McGeneralizedCarveout2Cfg0, 2:0, secure_scratch55, 27:25); s(McGeneralizedCarveout2Cfg0, 25:22, secure_scratch55, 31:28); s(McGeneralizedCarveout3Size128kb, 11:0, secure_scratch56, 11:0); s(McGeneralizedCarveout2Size128kb, 11:0, secure_scratch56, 23:12); s(McGeneralizedCarveout2Cfg0, 26:26, secure_scratch56, 24:24); s(McGeneralizedCarveout1Cfg0, 2:0, secure_scratch56, 27:25); s(McGeneralizedCarveout1Cfg0, 25:22, secure_scratch56, 31:28); s(McGeneralizedCarveout1Size128kb, 11:0, secure_scratch57, 11:0); s(McGeneralizedCarveout5Size128kb, 11:0, secure_scratch57, 23:12); s(McGeneralizedCarveout1Cfg0, 26:26, secure_scratch57, 24:24); s(McGeneralizedCarveout3Cfg0, 2:0, secure_scratch57, 27:25); s(McGeneralizedCarveout3Cfg0, 25:22, secure_scratch57, 31:28); s(McGeneralizedCarveout3Cfg0, 26:26, secure_scratch58, 0:0); s32(McGeneralizedCarveout1Access0, secure_scratch59); s32(McGeneralizedCarveout1Access1, secure_scratch60); s32(McGeneralizedCarveout1Access2, secure_scratch61); s32(McGeneralizedCarveout1Access3, secure_scratch62); s32(McGeneralizedCarveout1Access4, secure_scratch63); s32(McGeneralizedCarveout2Access0, secure_scratch64); s32(McGeneralizedCarveout2Access1, secure_scratch65); s32(McGeneralizedCarveout2Access2, secure_scratch66); s32(McGeneralizedCarveout2Access3, secure_scratch67); s32(McGeneralizedCarveout2Access4, secure_scratch68); s32(McGeneralizedCarveout3Access0, secure_scratch69); s32(McGeneralizedCarveout3Access1, secure_scratch70); s32(McGeneralizedCarveout3Access2, secure_scratch71); s32(McGeneralizedCarveout3Access3, secure_scratch72); s32(McGeneralizedCarveout3Access4, secure_scratch73); s32(McGeneralizedCarveout4Access0, secure_scratch74); s32(McGeneralizedCarveout4Access1, secure_scratch75); s32(McGeneralizedCarveout4Access2, secure_scratch76); s32(McGeneralizedCarveout4Access3, secure_scratch77); s32(McGeneralizedCarveout4Access4, secure_scratch78); s32(McGeneralizedCarveout5Access0, secure_scratch79); s32(McGeneralizedCarveout5Access1, secure_scratch80); s32(McGeneralizedCarveout5Access2, secure_scratch81); s32(McGeneralizedCarveout5Access3, secure_scratch82); s32(McGeneralizedCarveout1ForceInternalAccess0, secure_scratch84); s32(McGeneralizedCarveout1ForceInternalAccess1, secure_scratch85); s32(McGeneralizedCarveout1ForceInternalAccess2, secure_scratch86); s32(McGeneralizedCarveout1ForceInternalAccess3, secure_scratch87); s32(McGeneralizedCarveout1ForceInternalAccess4, secure_scratch88); s32(McGeneralizedCarveout2ForceInternalAccess0, secure_scratch89); s32(McGeneralizedCarveout2ForceInternalAccess1, secure_scratch90); s32(McGeneralizedCarveout2ForceInternalAccess2, secure_scratch91); s32(McGeneralizedCarveout2ForceInternalAccess3, secure_scratch92); s32(McGeneralizedCarveout2ForceInternalAccess4, secure_scratch93); s32(McGeneralizedCarveout3ForceInternalAccess0, secure_scratch94); s32(McGeneralizedCarveout3ForceInternalAccess1, secure_scratch95); s32(McGeneralizedCarveout3ForceInternalAccess2, secure_scratch96); s32(McGeneralizedCarveout3ForceInternalAccess3, secure_scratch97); s32(McGeneralizedCarveout3ForceInternalAccess4, secure_scratch98); s32(McGeneralizedCarveout4ForceInternalAccess0, secure_scratch99); s32(McGeneralizedCarveout4ForceInternalAccess1, secure_scratch100); s32(McGeneralizedCarveout4ForceInternalAccess2, secure_scratch101); s32(McGeneralizedCarveout4ForceInternalAccess3, secure_scratch102); s32(McGeneralizedCarveout4ForceInternalAccess4, secure_scratch103); s32(McGeneralizedCarveout5ForceInternalAccess0, secure_scratch104); s32(McGeneralizedCarveout5ForceInternalAccess1, secure_scratch105); s32(McGeneralizedCarveout5ForceInternalAccess2, secure_scratch106); s32(McGeneralizedCarveout5ForceInternalAccess3, secure_scratch107); // PLLM. c32(0, scratch2); s(PllMInputDivider, 7:0, scratch2, 7:0); s(PllMFeedbackDivider, 7:0, scratch2, 15:8); s(PllMPostDivider, 4:0, scratch2, 20:16); s(PllMKVCO, 0:0, scratch2, 21:21); s(PllMKCP, 1:0, scratch2, 23:22); c32(0, scratch35); s(PllMSetupControl, 15:0, scratch35, 15:0); // PLLX. c32(0, scratch3); s(PllMInputDivider, 7:0, scratch3, 7:0); c(62, scratch3, 15:8); // 62 divn. c(0, scratch3, 20:16); // 0 divp. s(PllMKVCO, 0:0, scratch3, 21:21); s(PllMKCP, 1:0, scratch3, 23:22); c32(0, scratch36); s(PllMSetupControl, 23:0, scratch36, 23:0); // PLLM/PLLX. c32(0, scratch4); s(PllMStableTime, 9:0, scratch4, 9:0); s(PllMStableTime, 9:0, scratch4, 19:10); } /* * This function reads SDRAM parameters from the common BCT format and * writes them into PMC scratch registers (where the BootROM expects them * on LP0 resume). */ static void _sdram_lp0_save_params_t210b01(sdram_params_t210b01_t *sdram) { pmc_regs_t210_t *pmc = (pmc_regs_t210_t *)PMC_BASE; // Patch full access to carveout parameters and unprotect their regions. sdram->mc_generalized_carveout1_cfg0 = 0; sdram->mc_generalized_carveout2_cfg0 = 0; sdram->mc_generalized_carveout3_cfg0 = 0; sdram->mc_generalized_carveout4_cfg0 = 0; sdram->mc_generalized_carveout5_cfg0 = 0; // Patch SDRAM parameters. u32 t0 = (sdram->emc_swizzle_rank0_byte0 << 5 >> 29) > (sdram->emc_swizzle_rank0_byte0 << 1 >> 29); u32 t1 = (t0 & 0xFFFFFFEF) | (((sdram->emc_swizzle_rank1_byte0 << 5 >> 29) > (sdram->emc_swizzle_rank1_byte0 << 1 >> 29)) << 4); u32 t2 = (t1 & 0xFFFFFFFD) | (((sdram->emc_swizzle_rank0_byte1 << 5 >> 29) > (sdram->emc_swizzle_rank0_byte1 << 1 >> 29)) << 1); u32 t3 = (t2 & 0xFFFFFFDF) | (((sdram->emc_swizzle_rank1_byte1 << 5 >> 29) > (sdram->emc_swizzle_rank1_byte1 << 1 >> 29)) << 5); u32 t4 = (t3 & 0xFFFFFFFB) | (((sdram->emc_swizzle_rank0_byte2 << 5 >> 29) > (sdram->emc_swizzle_rank0_byte2 << 1 >> 29)) << 2); u32 t5 = (t4 & 0xFFFFFFBF) | (((sdram->emc_swizzle_rank1_byte2 << 5 >> 29) > (sdram->emc_swizzle_rank1_byte2 << 1 >> 29)) << 6); u32 t6 = (t5 & 0xFFFFFFF7) | (((sdram->emc_swizzle_rank0_byte3 << 5 >> 29) > (sdram->emc_swizzle_rank0_byte3 << 1 >> 29)) << 3); u32 t7 = (t6 & 0xFFFFFF7F) | (((sdram->emc_swizzle_rank1_byte3 << 5 >> 29) > (sdram->emc_swizzle_rank1_byte3 << 1 >> 29)) << 7); sdram->swizzle_rank_byte_encode = t7; sdram->emc_bct_spare2 = 0x40000DD8; sdram->emc_bct_spare3 = t7; s(emc_clock_source, 7:0, scratch6, 15:8); s(emc_clock_source_dll, 7:0, scratch6, 23:16); s(emc_clock_source, 31:29, scratch6, 26:24); s(emc_clock_source_dll, 31:29, scratch6, 29:27); s(emc_clock_source_dll, 11:10, scratch6, 31:30); s(clk_rst_pllm_misc20_override, 9:8, scratch7, 1:0); s(clk_rst_pllm_misc20_override, 2:1, scratch7, 3:2); s(emc_zqcal_lpddr4_warm_boot, 31:30, scratch7, 5:4); s(emc_clock_source, 27:27, scratch7, 6:6); s(emc_clock_source, 26:26, scratch7, 7:7); s(emc_clock_source, 15:15, scratch7, 8:8); s(emc_clock_source, 25:25, scratch7, 9:9); s(emc_clock_source, 20:19, scratch7, 11:10); s(emc_clock_source, 16:16, scratch7, 12:12); s(clk_rst_pllm_misc20_override, 13:13, scratch7, 13:13); s(clk_rst_pllm_misc20_override, 12:12, scratch7, 14:14); s(clk_rst_pllm_misc20_override, 11:11, scratch7, 15:15); s(clk_rst_pllm_misc20_override, 10:10, scratch7, 16:16); s(clk_rst_pllm_misc20_override, 5:5, scratch7, 17:17); s(clk_rst_pllm_misc20_override, 4:4, scratch7, 18:18); s(clk_rst_pllm_misc20_override, 3:3, scratch7, 19:19); s(clk_rst_pllm_misc20_override, 0:0, scratch7, 20:20); s(emc_zqcal_lpddr4_warm_boot, 1:0, scratch7, 22:21); s(emc_zqcal_lpddr4_warm_boot, 4:4, scratch7, 23:23); s(emc_rc, 7:0, scratch7, 31:24); s(emc_pmacro_bg_bias_ctrl0, 13:12, scratch8, 31:30); s(emc_fdpd_ctrl_cmd_no_ramp, 0:0, scratch14, 30:30); s(emc_cfg_pipe_clk, 0:0, scratch14, 31:31); s(emc_qrst, 6:0, scratch15, 26:20); s(emc_qrst, 20:16, scratch15, 31:27); s(emc_pmacro_cmd_tx_drive, 5:0, scratch16, 25:20); s(emc_pmacro_cmd_tx_drive, 13:8, scratch16, 31:26); s(emc_fbio_cfg8, 27:16, scratch17, 31:20); s(emc_txsr_dll, 11:0, scratch18, 31:20); s(emc_txdsrvttgen, 11:0, scratch19, 31:20); s32(emc_cfg_rsv, scratch22); s32(emc_auto_cal_config, scratch23); s32(emc_auto_cal_vref_sel0, scratch24); s32(emc_pmacro_brick_ctrl_rfu1, scratch25); s32(emc_pmacro_brick_ctrl_rfu2, scratch26); s32(emc_pmc_scratch1, scratch27); s32(emc_pmc_scratch2, scratch28); s32(emc_pmc_scratch3, scratch29); s32(emc_pmacro_perbit_rfu_ctrl0, scratch30); s32(emc_pmacro_perbit_rfu_ctrl1, scratch31); s32(emc_pmacro_perbit_rfu_ctrl2, scratch32); s32(emc_pmacro_perbit_rfu_ctrl3, scratch33); s32(emc_pmacro_perbit_rfu_ctrl4, scratch40); s32(emc_pmacro_perbit_rfu_ctrl5, scratch42); s32(mc_emem_arb_da_turns, scratch44); s(emc_fbio_spare, 31:24, scratch64, 7:0); s(emc_fbio_spare, 23:16, scratch64, 15:8); s(emc_fbio_spare, 15:8, scratch64, 23:16); s(emc_fbio_spare, 7:2, scratch64, 29:24); s(emc_fbio_spare, 0:0, scratch64, 30:30); s(mc_emem_arb_misc2, 0:0, scratch64, 31:31); s(mc_emem_arb_misc0, 14:0, scratch65, 14:0); s(mc_emem_arb_misc0, 30:16, scratch65, 29:15); s(mc_da_cfg0, 0:0, scratch65, 30:30); s(emc_fdpd_ctrl_cmd, 16:0, scratch66, 16:0); s(emc_fdpd_ctrl_cmd, 31:20, scratch66, 28:17); s(emc_auto_cal_config2, 27:0, scratch67, 27:0); s(emc_burst_refresh_num, 3:0, scratch67, 31:28); s(emc_cfg_dig_dll, 10:0, scratch68, 10:0); s(emc_cfg_dig_dll, 25:12, scratch68, 24:11); s(emc_cfg_dig_dll, 27:27, scratch68, 25:25); s(emc_cfg_dig_dll, 31:30, scratch68, 27:26); s(emc_tppd, 3:0, scratch68, 31:28); s(emc_fdpd_ctrl_dq, 16:0, scratch69, 16:0); s(emc_fdpd_ctrl_dq, 28:20, scratch69, 25:17); s(emc_fdpd_ctrl_dq, 31:30, scratch69, 27:26); s(emc_r2r, 3:0, scratch69, 31:28); s(emc_pmacro_ib_vref_dq_0, 6:0, scratch70, 6:0); s(emc_pmacro_ib_vref_dq_0, 14:8, scratch70, 13:7); s(emc_pmacro_ib_vref_dq_0, 22:16, scratch70, 20:14); s(emc_pmacro_ib_vref_dq_0, 30:24, scratch70, 27:21); s(emc_w2w, 3:0, scratch70, 31:28); s(emc_pmacro_ib_vref_dq_1, 6:0, scratch71, 6:0); s(emc_pmacro_ib_vref_dq_1, 14:8, scratch71, 13:7); s(emc_pmacro_ib_vref_dq_1, 22:16, scratch71, 20:14); s(emc_pmacro_ib_vref_dq_1, 30:24, scratch71, 27:21); s(emc_pmacro_vttgen_ctrl0, 19:16, scratch71, 31:28); s(emc_pmacro_ib_vref_dqs_0, 6:0, scratch72, 6:0); s(emc_pmacro_ib_vref_dqs_0, 14:8, scratch72, 13:7); s(emc_pmacro_ib_vref_dqs_0, 22:16, scratch72, 20:14); s(emc_pmacro_ib_vref_dqs_0, 30:24, scratch72, 27:21); s(emc_pmacro_ib_vref_dqs_1, 6:0, scratch73, 6:0); s(emc_pmacro_ib_vref_dqs_1, 14:8, scratch73, 13:7); s(emc_pmacro_ib_vref_dqs_1, 22:16, scratch73, 20:14); s(emc_pmacro_ib_vref_dqs_1, 30:24, scratch73, 27:21); s(emc_pmacro_ddll_short_cmd_0, 6:0, scratch74, 6:0); s(emc_pmacro_ddll_short_cmd_0, 14:8, scratch74, 13:7); s(emc_pmacro_ddll_short_cmd_0, 22:16, scratch74, 20:14); s(emc_pmacro_ddll_short_cmd_0, 30:24, scratch74, 27:21); s(emc_pmacro_ddll_short_cmd_1, 6:0, scratch75, 6:0); s(emc_pmacro_ddll_short_cmd_1, 14:8, scratch75, 13:7); s(emc_pmacro_ddll_short_cmd_1, 22:16, scratch75, 20:14); s(emc_pmacro_ddll_short_cmd_1, 30:24, scratch75, 27:21); s(emc_dll_cfg0, 29:4, scratch76, 25:0); s(emc_rp, 5:0, scratch76, 31:26); s(emc_pmacro_tx_pwrd0, 10:0, scratch77, 10:0); s(emc_pmacro_tx_pwrd0, 13:12, scratch77, 12:11); s(emc_pmacro_tx_pwrd0, 26:16, scratch77, 23:13); s(emc_pmacro_tx_pwrd0, 29:28, scratch77, 25:24); s(emc_r2w, 5:0, scratch77, 31:26); s(emc_pmacro_tx_pwrd1, 10:0, scratch78, 10:0); s(emc_pmacro_tx_pwrd1, 13:12, scratch78, 12:11); s(emc_pmacro_tx_pwrd1, 26:16, scratch78, 23:13); s(emc_pmacro_tx_pwrd1, 29:28, scratch78, 25:24); s(emc_w2r, 5:0, scratch78, 31:26); s(emc_pmacro_tx_pwrd2, 10:0, scratch79, 10:0); s(emc_pmacro_tx_pwrd2, 13:12, scratch79, 12:11); s(emc_pmacro_tx_pwrd2, 26:16, scratch79, 23:13); s(emc_pmacro_tx_pwrd2, 29:28, scratch79, 25:24); s(emc_r2p, 5:0, scratch79, 31:26); s(emc_pmacro_tx_pwrd3, 10:0, scratch80, 10:0); s(emc_pmacro_tx_pwrd3, 13:12, scratch80, 12:11); s(emc_pmacro_tx_pwrd3, 26:16, scratch80, 23:13); s(emc_pmacro_tx_pwrd3, 29:28, scratch80, 25:24); s(emc_ccdmw, 5:0, scratch80, 31:26); s(emc_pmacro_tx_pwrd4, 10:0, scratch81, 10:0); s(emc_pmacro_tx_pwrd4, 13:12, scratch81, 12:11); s(emc_pmacro_tx_pwrd4, 26:16, scratch81, 23:13); s(emc_pmacro_tx_pwrd4, 29:28, scratch81, 25:24); s(emc_rd_rcd, 5:0, scratch81, 31:26); s(emc_pmacro_tx_pwrd5, 10:0, scratch82, 10:0); s(emc_pmacro_tx_pwrd5, 13:12, scratch82, 12:11); s(emc_pmacro_tx_pwrd5, 26:16, scratch82, 23:13); s(emc_pmacro_tx_pwrd5, 29:28, scratch82, 25:24); s(emc_wr_rcd, 5:0, scratch82, 31:26); s(emc_auto_cal_channel, 5:0, scratch83, 5:0); s(emc_auto_cal_channel, 11:8, scratch83, 9:6); s(emc_auto_cal_channel, 27:16, scratch83, 21:10); s(emc_auto_cal_channel, 31:29, scratch83, 24:22); s(emc_config_sample_delay, 6:0, scratch83, 31:25); s(emc_pmacro_rx_term, 5:0, scratch84, 5:0); s(emc_pmacro_rx_term, 13:8, scratch84, 11:6); s(emc_pmacro_rx_term, 21:16, scratch84, 17:12); s(emc_pmacro_rx_term, 29:24, scratch84, 23:18); s(emc_sel_dpd_ctrl, 5:2, scratch84, 27:24); s(emc_sel_dpd_ctrl, 8:8, scratch84, 28:28); s(emc_sel_dpd_ctrl, 18:16, scratch84, 31:29); s(emc_pmacro_dq_tx_drive, 5:0, scratch85, 5:0); s(emc_pmacro_dq_tx_drive, 13:8, scratch85, 11:6); s(emc_pmacro_dq_tx_drive, 21:16, scratch85, 17:12); s(emc_pmacro_dq_tx_drive, 29:24, scratch85, 23:18); s(emc_obdly, 5:0, scratch85, 29:24); s(emc_obdly, 29:28, scratch85, 31:30); s(emc_pmacro_ca_tx_drive, 5:0, scratch86, 5:0); s(emc_pmacro_ca_tx_drive, 13:8, scratch86, 11:6); s(emc_pmacro_ca_tx_drive, 21:16, scratch86, 17:12); s(emc_pmacro_ca_tx_drive, 29:24, scratch86, 23:18); s(emc_pmacro_vttgen_ctrl1, 15:10, scratch86, 29:24); s(emc_pmacro_vttgen_ctrl1, 21:20, scratch86, 31:30); s(emc_pmacro_zcrtl, 27:4, scratch87, 23:0); s(emc_pmacro_vttgen_ctrl2, 23:16, scratch87, 31:24); s(emc_zcal_interval, 23:10, scratch88, 13:0); s(emc_zcal_interval, 9:0, scratch88, 23:14); s(mc_emem_arb_timing_rc, 7:0, scratch88, 31:24); s(emc_data_brlshft0, 23:0, scratch89, 23:0); s(mc_emem_arb_rsv, 7:0, scratch89, 31:24); s(emc_data_brlshft1, 23:0, scratch90, 23:0); s(emc_dqs_brlshft0, 23:0, scratch91, 23:0); s(emc_dqs_brlshft1, 23:0, scratch92, 23:0); s(emc_swizzle_rank0_byte0, 2:0, scratch93, 2:0); s(emc_swizzle_rank0_byte0, 6:4, scratch93, 5:3); s(emc_swizzle_rank0_byte0, 10:8, scratch93, 8:6); s(emc_swizzle_rank0_byte0, 14:12, scratch93, 11:9); s(emc_swizzle_rank0_byte0, 18:16, scratch93, 14:12); s(emc_swizzle_rank0_byte0, 22:20, scratch93, 17:15); s(emc_swizzle_rank0_byte0, 26:24, scratch93, 20:18); s(emc_swizzle_rank0_byte0, 30:28, scratch93, 23:21); s(emc_swizzle_rank0_byte1, 2:0, scratch94, 2:0); s(emc_swizzle_rank0_byte1, 6:4, scratch94, 5:3); s(emc_swizzle_rank0_byte1, 10:8, scratch94, 8:6); s(emc_swizzle_rank0_byte1, 14:12, scratch94, 11:9); s(emc_swizzle_rank0_byte1, 18:16, scratch94, 14:12); s(emc_swizzle_rank0_byte1, 22:20, scratch94, 17:15); s(emc_swizzle_rank0_byte1, 26:24, scratch94, 20:18); s(emc_swizzle_rank0_byte1, 30:28, scratch94, 23:21); s(emc_ras, 6:0, scratch94, 30:24); s(emc_cfg, 4:4, scratch94, 31:31); s(emc_swizzle_rank0_byte2, 2:0, scratch95, 2:0); s(emc_swizzle_rank0_byte2, 6:4, scratch95, 5:3); s(emc_swizzle_rank0_byte2, 10:8, scratch95, 8:6); s(emc_swizzle_rank0_byte2, 14:12, scratch95, 11:9); s(emc_swizzle_rank0_byte2, 18:16, scratch95, 14:12); s(emc_swizzle_rank0_byte2, 22:20, scratch95, 17:15); s(emc_swizzle_rank0_byte2, 26:24, scratch95, 20:18); s(emc_swizzle_rank0_byte2, 30:28, scratch95, 23:21); s(emc_w2p, 6:0, scratch95, 30:24); s(emc_cfg, 5:5, scratch95, 31:31); s(emc_swizzle_rank0_byte3, 2:0, scratch96, 2:0); s(emc_swizzle_rank0_byte3, 6:4, scratch96, 5:3); s(emc_swizzle_rank0_byte3, 10:8, scratch96, 8:6); s(emc_swizzle_rank0_byte3, 14:12, scratch96, 11:9); s(emc_swizzle_rank0_byte3, 18:16, scratch96, 14:12); s(emc_swizzle_rank0_byte3, 22:20, scratch96, 17:15); s(emc_swizzle_rank0_byte3, 26:24, scratch96, 20:18); s(emc_swizzle_rank0_byte3, 30:28, scratch96, 23:21); s(emc_qsafe, 6:0, scratch96, 30:24); s(emc_cfg, 6:6, scratch96, 31:31); s(emc_swizzle_rank1_byte0, 2:0, scratch97, 2:0); s(emc_swizzle_rank1_byte0, 6:4, scratch97, 5:3); s(emc_swizzle_rank1_byte0, 10:8, scratch97, 8:6); s(emc_swizzle_rank1_byte0, 14:12, scratch97, 11:9); s(emc_swizzle_rank1_byte0, 18:16, scratch97, 14:12); s(emc_swizzle_rank1_byte0, 22:20, scratch97, 17:15); s(emc_swizzle_rank1_byte0, 26:24, scratch97, 20:18); s(emc_swizzle_rank1_byte0, 30:28, scratch97, 23:21); s(emc_rdv, 6:0, scratch97, 30:24); s(emc_cfg, 7:7, scratch97, 31:31); s(emc_swizzle_rank1_byte1, 2:0, scratch98, 2:0); s(emc_swizzle_rank1_byte1, 6:4, scratch98, 5:3); s(emc_swizzle_rank1_byte1, 10:8, scratch98, 8:6); s(emc_swizzle_rank1_byte1, 14:12, scratch98, 11:9); s(emc_swizzle_rank1_byte1, 18:16, scratch98, 14:12); s(emc_swizzle_rank1_byte1, 22:20, scratch98, 17:15); s(emc_swizzle_rank1_byte1, 26:24, scratch98, 20:18); s(emc_swizzle_rank1_byte1, 30:28, scratch98, 23:21); s(emc_rw2pden, 6:0, scratch98, 30:24); s(emc_cfg, 8:8, scratch98, 31:31); s(emc_swizzle_rank1_byte2, 2:0, scratch99, 2:0); s(emc_swizzle_rank1_byte2, 6:4, scratch99, 5:3); s(emc_swizzle_rank1_byte2, 10:8, scratch99, 8:6); s(emc_swizzle_rank1_byte2, 14:12, scratch99, 11:9); s(emc_swizzle_rank1_byte2, 18:16, scratch99, 14:12); s(emc_swizzle_rank1_byte2, 22:20, scratch99, 17:15); s(emc_swizzle_rank1_byte2, 26:24, scratch99, 20:18); s(emc_swizzle_rank1_byte2, 30:28, scratch99, 23:21); s(emc_tfaw, 6:0, scratch99, 30:24); s(emc_cfg, 9:9, scratch99, 31:31); s(emc_swizzle_rank1_byte3, 2:0, scratch100, 2:0); s(emc_swizzle_rank1_byte3, 6:4, scratch100, 5:3); s(emc_swizzle_rank1_byte3, 10:8, scratch100, 8:6); s(emc_swizzle_rank1_byte3, 14:12, scratch100, 11:9); s(emc_swizzle_rank1_byte3, 18:16, scratch100, 14:12); s(emc_swizzle_rank1_byte3, 22:20, scratch100, 17:15); s(emc_swizzle_rank1_byte3, 26:24, scratch100, 20:18); s(emc_swizzle_rank1_byte3, 30:28, scratch100, 23:21); s(emc_tclkstable, 6:0, scratch100, 30:24); s(emc_cfg, 18:18, scratch100, 31:31); s(emc_cfg_pipe2, 11:0, scratch101, 11:0); s(emc_cfg_pipe2, 27:16, scratch101, 23:12); s(emc_trtm, 6:0, scratch101, 30:24); s(emc_cfg, 21:21, scratch101, 31:31); s(emc_cfg_pipe1, 11:0, scratch102, 11:0); s(emc_cfg_pipe1, 27:16, scratch102, 23:12); s(emc_twtm, 6:0, scratch102, 30:24); s(emc_cfg, 22:22, scratch102, 31:31); s(emc_pmacro_ddll_pwrd0, 4:1, scratch103, 3:0); s(emc_pmacro_ddll_pwrd0, 7:6, scratch103, 5:4); s(emc_pmacro_ddll_pwrd0, 12:9, scratch103, 9:6); s(emc_pmacro_ddll_pwrd0, 15:14, scratch103, 11:10); s(emc_pmacro_ddll_pwrd0, 20:17, scratch103, 15:12); s(emc_pmacro_ddll_pwrd0, 23:22, scratch103, 17:16); s(emc_pmacro_ddll_pwrd0, 28:25, scratch103, 21:18); s(emc_pmacro_ddll_pwrd0, 31:30, scratch103, 23:22); s(emc_tratm, 6:0, scratch103, 30:24); s(emc_cfg, 23:23, scratch103, 31:31); s(emc_pmacro_ddll_pwrd1, 4:1, scratch104, 3:0); s(emc_pmacro_ddll_pwrd1, 7:6, scratch104, 5:4); s(emc_pmacro_ddll_pwrd1, 12:9, scratch104, 9:6); s(emc_pmacro_ddll_pwrd1, 15:14, scratch104, 11:10); s(emc_pmacro_ddll_pwrd1, 20:17, scratch104, 15:12); s(emc_pmacro_ddll_pwrd1, 23:22, scratch104, 17:16); s(emc_pmacro_ddll_pwrd1, 28:25, scratch104, 21:18); s(emc_pmacro_ddll_pwrd1, 31:30, scratch104, 23:22); s(emc_twatm, 6:0, scratch104, 30:24); s(emc_cfg, 24:24, scratch104, 31:31); s(emc_pmacro_ddll_pwrd2, 4:1, scratch105, 3:0); s(emc_pmacro_ddll_pwrd2, 7:6, scratch105, 5:4); s(emc_pmacro_ddll_pwrd2, 12:9, scratch105, 9:6); s(emc_pmacro_ddll_pwrd2, 15:14, scratch105, 11:10); s(emc_pmacro_ddll_pwrd2, 20:17, scratch105, 15:12); s(emc_pmacro_ddll_pwrd2, 23:22, scratch105, 17:16); s(emc_pmacro_ddll_pwrd2, 28:25, scratch105, 21:18); s(emc_pmacro_ddll_pwrd2, 31:30, scratch105, 23:22); s(emc_tr2ref, 6:0, scratch105, 30:24); s(emc_cfg, 25:25, scratch105, 31:31); s(emc_pmacro_ddll_periodic_offset, 5:0, scratch106, 5:0); s(emc_pmacro_ddll_periodic_offset, 16:8, scratch106, 14:6); s(emc_pmacro_ddll_periodic_offset, 28:20, scratch106, 23:15); s(emc_pdex2mrr, 6:0, scratch106, 30:24); s(emc_cfg, 26:26, scratch106, 31:31); s(mc_emem_arb_da_covers, 23:0, scratch107, 23:0); s(emc_clken_override, 3:1, scratch107, 26:24); s(emc_clken_override, 8:6, scratch107, 29:27); s(emc_clken_override, 16:16, scratch107, 30:30); s(emc_cfg, 28:28, scratch107, 31:31); s(emc_xm2_comp_pad_ctrl, 1:0, scratch108, 1:0); s(emc_xm2_comp_pad_ctrl, 6:4, scratch108, 4:2); s(emc_xm2_comp_pad_ctrl, 9:9, scratch108, 5:5); s(emc_xm2_comp_pad_ctrl, 19:11, scratch108, 14:6); s(emc_xm2_comp_pad_ctrl, 31:24, scratch108, 22:15); s(emc_rfc_pb, 8:0, scratch108, 31:23); s(emc_auto_cal_config3, 6:0, scratch109, 6:0); s(emc_auto_cal_config3, 14:8, scratch109, 13:7); s(emc_auto_cal_config3, 23:16, scratch109, 21:14); s(emc_cfg_update, 2:0, scratch109, 24:22); s(emc_cfg_update, 10:8, scratch109, 27:25); s(emc_cfg_update, 31:28, scratch109, 31:28); s(emc_auto_cal_config4, 6:0, scratch110, 6:0); s(emc_auto_cal_config4, 14:8, scratch110, 13:7); s(emc_auto_cal_config4, 23:16, scratch110, 21:14); s(emc_rfc, 9:0, scratch110, 31:22); s(emc_auto_cal_config5, 6:0, scratch111, 6:0); s(emc_auto_cal_config5, 14:8, scratch111, 13:7); s(emc_auto_cal_config5, 23:16, scratch111, 21:14); s(emc_txsr, 9:0, scratch111, 31:22); s(emc_auto_cal_config6, 6:0, scratch112, 6:0); s(emc_auto_cal_config6, 14:8, scratch112, 13:7); s(emc_auto_cal_config6, 23:16, scratch112, 21:14); s(emc_mc2emc_q, 2:0, scratch112, 24:22); s(emc_mc2emc_q, 10:8, scratch112, 27:25); s(emc_mc2emc_q, 27:24, scratch112, 31:28); s(emc_auto_cal_config7, 6:0, scratch113, 6:0); s(emc_auto_cal_config7, 14:8, scratch113, 13:7); s(emc_auto_cal_config7, 23:16, scratch113, 21:14); s(mc_emem_arb_ring1_throttle, 4:0, scratch113, 26:22); s(mc_emem_arb_ring1_throttle, 20:16, scratch113, 31:27); s(emc_auto_cal_config8, 6:0, scratch114, 6:0); s(emc_auto_cal_config8, 14:8, scratch114, 13:7); s(emc_auto_cal_config8, 23:16, scratch114, 21:14); s(emc_fbio_cfg7, 21:0, scratch115, 21:0); s(emc_ar2pden, 8:0, scratch115, 30:22); s(emc_cfg, 29:29, scratch115, 31:31); s(emc_pmacro_quse_ddll_rank0_0, 10:0, scratch123, 10:0); s(emc_pmacro_quse_ddll_rank0_0, 26:16, scratch123, 21:11); s(emc_rfc_slr, 8:0, scratch123, 30:22); s(emc_cfg, 30:30, scratch123, 31:31); s(emc_pmacro_quse_ddll_rank0_1, 10:0, scratch124, 10:0); s(emc_pmacro_quse_ddll_rank0_1, 26:16, scratch124, 21:11); s(emc_ibdly, 6:0, scratch124, 28:22); s(emc_ibdly, 29:28, scratch124, 30:29); s(emc_cfg, 31:31, scratch124, 31:31); s(emc_pmacro_quse_ddll_rank0_2, 10:0, scratch125, 10:0); s(emc_pmacro_quse_ddll_rank0_2, 26:16, scratch125, 21:11); s(mc_emem_arb_timing_rfcpb, 8:0, scratch125, 30:22); s(emc_fbio_cfg5, 4:4, scratch125, 31:31); s(emc_pmacro_quse_ddll_rank0_3, 10:0, scratch126, 10:0); s(emc_pmacro_quse_ddll_rank0_3, 26:16, scratch126, 21:11); s(emc_auto_cal_config9, 6:0, scratch126, 28:22); s(emc_fbio_cfg5, 15:13, scratch126, 31:29); s(emc_pmacro_quse_ddll_rank0_4, 10:0, scratch127, 10:0); s(emc_pmacro_quse_ddll_rank0_4, 26:16, scratch127, 21:11); s(emc_rdv_mask, 6:0, scratch127, 28:22); s(emc_cfg2, 5:3, scratch127, 31:29); s(emc_pmacro_quse_ddll_rank0_5, 10:0, scratch128, 10:0); s(emc_pmacro_quse_ddll_rank0_5, 26:16, scratch128, 21:11); s(emc_rdv_early_mask, 6:0, scratch128, 28:22); s(emc_pmacro_cmd_pad_tx_ctrl, 4:2, scratch128, 31:29); s(emc_pmacro_quse_ddll_rank1_0, 10:0, scratch129, 10:0); s(emc_pmacro_quse_ddll_rank1_0, 26:16, scratch129, 21:11); s(emc_rdv_early, 6:0, scratch129, 28:22); s(emc_pmacro_cmd_pad_tx_ctrl, 9:7, scratch129, 31:29); s(emc_pmacro_quse_ddll_rank1_1, 10:0, scratch130, 10:0); s(emc_pmacro_quse_ddll_rank1_1, 26:16, scratch130, 21:11); s(emc_quse_width, 4:0, scratch130, 26:22); s(emc_quse_width, 29:28, scratch130, 28:27); s(emc_pmacro_cmd_pad_tx_ctrl, 14:12, scratch130, 31:29); s(emc_pmacro_quse_ddll_rank1_2, 10:0, scratch131, 10:0); s(emc_pmacro_quse_ddll_rank1_2, 26:16, scratch131, 21:11); s(emc_pmacro_ddll_short_cmd_2, 6:0, scratch131, 28:22); s(emc_pmacro_cmd_pad_tx_ctrl, 19:17, scratch131, 31:29); s(emc_pmacro_quse_ddll_rank1_3, 10:0, scratch132, 10:0); s(emc_pmacro_quse_ddll_rank1_3, 26:16, scratch132, 21:11); s(emc_pmacro_cmd_rx_term_mode, 1:0, scratch132, 23:22); s(emc_pmacro_cmd_rx_term_mode, 5:4, scratch132, 25:24); s(emc_pmacro_cmd_rx_term_mode, 9:8, scratch132, 27:26); s(emc_pmacro_cmd_rx_term_mode, 13:13, scratch132, 28:28); s(emc_pmacro_data_pad_tx_ctrl, 4:2, scratch132, 31:29); s(emc_pmacro_quse_ddll_rank1_4, 10:0, scratch133, 10:0); s(emc_pmacro_quse_ddll_rank1_4, 26:16, scratch133, 21:11); s(emc_pmacro_data_rx_term_mode, 1:0, scratch133, 23:22); s(emc_pmacro_data_rx_term_mode, 5:4, scratch133, 25:24); s(emc_pmacro_data_rx_term_mode, 9:8, scratch133, 27:26); s(emc_pmacro_data_rx_term_mode, 13:13, scratch133, 28:28); s(emc_pmacro_data_pad_tx_ctrl, 9:7, scratch133, 31:29); s(emc_pmacro_quse_ddll_rank1_5, 10:0, scratch134, 10:0); s(emc_pmacro_quse_ddll_rank1_5, 26:16, scratch134, 21:11); s(mc_emem_arb_timing_rp, 6:0, scratch134, 28:22); s(emc_pmacro_data_pad_tx_ctrl, 14:12, scratch134, 31:29); s(emc_pmacro_ob_ddll_long_dq_rank0_0, 10:0, scratch135, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank0_0, 26:16, scratch135, 21:11); s(mc_emem_arb_timing_ras, 6:0, scratch135, 28:22); s(emc_pmacro_data_pad_tx_ctrl, 19:17, scratch135, 31:29); s(emc_pmacro_ob_ddll_long_dq_rank0_1, 10:0, scratch136, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank0_1, 26:16, scratch136, 21:11); s(mc_emem_arb_timing_faw, 6:0, scratch136, 28:22); s(emc_cfg, 17:16, scratch136, 30:29); s(emc_fbio_cfg5, 8:8, scratch136, 31:31); s(emc_pmacro_ob_ddll_long_dq_rank0_2, 10:0, scratch137, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank0_2, 26:16, scratch137, 21:11); s(mc_emem_arb_timing_rap2pre, 6:0, scratch137, 28:22); s(emc_fbio_cfg5, 1:0, scratch137, 30:29); s(emc_fbio_cfg5, 10:10, scratch137, 31:31); s(emc_pmacro_ob_ddll_long_dq_rank0_3, 10:0, scratch138, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank0_3, 26:16, scratch138, 21:11); s(mc_emem_arb_timing_wap2pre, 6:0, scratch138, 28:22); s(emc_fbio_cfg5, 3:2, scratch138, 30:29); s(emc_fbio_cfg5, 12:12, scratch138, 31:31); s(emc_pmacro_ob_ddll_long_dq_rank0_4, 10:0, scratch139, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank0_4, 26:16, scratch139, 21:11); s(mc_emem_arb_timing_r2w, 6:0, scratch139, 28:22); s(emc_cfg2, 27:26, scratch139, 30:29); s(emc_fbio_cfg5, 24:24, scratch139, 31:31); s(emc_pmacro_ob_ddll_long_dq_rank0_5, 10:0, scratch140, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank0_5, 26:16, scratch140, 21:11); s(mc_emem_arb_timing_w2r, 6:0, scratch140, 28:22); s(emc_fbio_cfg5, 27:25, scratch140, 31:29); s(emc_pmacro_ob_ddll_long_dq_rank1_0, 10:0, scratch141, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank1_0, 26:16, scratch141, 21:11); s(emc_wdv, 5:0, scratch141, 27:22); s(emc_fbio_cfg5, 23:20, scratch141, 31:28); s(emc_pmacro_ob_ddll_long_dq_rank1_1, 10:0, scratch142, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank1_1, 26:16, scratch142, 21:11); s(emc_quse, 5:0, scratch142, 27:22); s(emc_fbio_cfg5, 28:28, scratch142, 28:28); s(emc_fbio_cfg5, 31:30, scratch142, 30:29); s(emc_cfg2, 0:0, scratch142, 31:31); s(emc_pmacro_ob_ddll_long_dq_rank1_2, 10:0, scratch143, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank1_2, 26:16, scratch143, 21:11); s(emc_pdex2wr, 5:0, scratch143, 27:22); s(emc_cfg2, 2:1, scratch143, 29:28); s(emc_cfg2, 7:7, scratch143, 30:30); s(emc_cfg2, 10:10, scratch143, 31:31); s(emc_pmacro_ob_ddll_long_dq_rank1_3, 10:0, scratch144, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank1_3, 26:16, scratch144, 21:11); s(emc_pdex2rd, 5:0, scratch144, 27:22); s(emc_cfg2, 11:11, scratch144, 28:28); s(emc_cfg2, 16:14, scratch144, 31:29); s(emc_pmacro_ob_ddll_long_dq_rank1_4, 10:0, scratch145, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank1_4, 26:16, scratch145, 21:11); s(emc_pdex2che, 5:0, scratch145, 27:22); s(emc_cfg2, 20:20, scratch145, 28:28); s(emc_cfg2, 24:22, scratch145, 31:29); s(emc_pmacro_ob_ddll_long_dq_rank1_5, 10:0, scratch146, 10:0); s(emc_pmacro_ob_ddll_long_dq_rank1_5, 26:16, scratch146, 21:11); s(emc_pchg2pden, 5:0, scratch146, 27:22); s(emc_cfg2, 25:25, scratch146, 28:28); s(emc_cfg2, 30:28, scratch146, 31:29); s(emc_pmacro_ob_ddll_long_dqs_rank0_0, 10:0, scratch147, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank0_0, 26:16, scratch147, 21:11); s(emc_act2pden, 5:0, scratch147, 27:22); s(emc_cfg2, 31:31, scratch147, 28:28); s(emc_cfg_pipe, 2:0, scratch147, 31:29); s(emc_pmacro_ob_ddll_long_dqs_rank0_1, 10:0, scratch148, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank0_1, 26:16, scratch148, 21:11); s(emc_cke2pden, 5:0, scratch148, 27:22); s(emc_cfg_pipe, 6:3, scratch148, 31:28); s(emc_pmacro_ob_ddll_long_dqs_rank0_2, 10:0, scratch149, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank0_2, 26:16, scratch149, 21:11); s(emc_tcke, 5:0, scratch149, 27:22); s(emc_cfg_pipe, 10:7, scratch149, 31:28); s(emc_pmacro_ob_ddll_long_dqs_rank0_3, 10:0, scratch150, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank0_3, 26:16, scratch150, 21:11); s(emc_trpab, 5:0, scratch150, 27:22); s(emc_cfg_pipe, 11:11, scratch150, 28:28); s(emc_cfg_pipe, 18:16, scratch150, 31:29); s(emc_pmacro_ob_ddll_long_dqs_rank0_4, 10:0, scratch151, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank0_4, 26:16, scratch151, 21:11); s(emc_einput, 5:0, scratch151, 27:22); s(emc_cfg_pipe, 22:19, scratch151, 31:28); s(emc_pmacro_ob_ddll_long_dqs_rank0_5, 10:0, scratch152, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank0_5, 26:16, scratch152, 21:11); s(emc_einput_duration, 5:0, scratch152, 27:22); s(emc_cfg_pipe, 26:23, scratch152, 31:28); s(emc_pmacro_ob_ddll_long_dqs_rank1_0, 10:0, scratch153, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank1_0, 26:16, scratch153, 21:11); s(emc_puterm_extra, 5:0, scratch153, 27:22); s(emc_cfg_pipe, 27:27, scratch153, 28:28); s(emc_pmacro_tx_sel_clk_src0, 2:0, scratch153, 31:29); s(emc_pmacro_ob_ddll_long_dqs_rank1_1, 10:0, scratch154, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank1_1, 26:16, scratch154, 21:11); s(emc_tckesr, 5:0, scratch154, 27:22); s(emc_pmacro_tx_sel_clk_src0, 6:3, scratch154, 31:28); s(emc_pmacro_ob_ddll_long_dqs_rank1_2, 10:0, scratch155, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank1_2, 26:16, scratch155, 21:11); s(emc_tpd, 5:0, scratch155, 27:22); s(emc_pmacro_tx_sel_clk_src0, 10:7, scratch155, 31:28); s(emc_pmacro_ob_ddll_long_dqs_rank1_3, 10:0, scratch156, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank1_3, 26:16, scratch156, 21:11); s(emc_wdv_mask, 5:0, scratch156, 27:22); s(emc_pmacro_tx_sel_clk_src0, 19:16, scratch156, 31:28); s(emc_pmacro_ob_ddll_long_dqs_rank1_4, 10:0, scratch157, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank1_4, 26:16, scratch157, 21:11); s(emc_wdv_chk, 5:0, scratch157, 27:22); s(emc_pmacro_tx_sel_clk_src0, 23:20, scratch157, 31:28); s(emc_pmacro_ob_ddll_long_dqs_rank1_5, 10:0, scratch158, 10:0); s(emc_pmacro_ob_ddll_long_dqs_rank1_5, 26:16, scratch158, 21:11); s(emc_cmd_brlshft0, 5:0, scratch158, 27:22); s(emc_pmacro_tx_sel_clk_src0, 26:24, scratch158, 30:28); s(emc_pmacro_tx_sel_clk_src1, 0:0, scratch158, 31:31); s(emc_pmacro_ib_ddll_long_dqs_rank0_0, 10:0, scratch159, 10:0); s(emc_pmacro_ib_ddll_long_dqs_rank0_0, 26:16, scratch159, 21:11); s(emc_cmd_brlshft1, 5:0, scratch159, 27:22); s(emc_pmacro_tx_sel_clk_src1, 4:1, scratch159, 31:28); s(emc_pmacro_ib_ddll_long_dqs_rank0_1, 10:0, scratch160, 10:0); s(emc_pmacro_ib_ddll_long_dqs_rank0_1, 26:16, scratch160, 21:11); s(emc_cmd_brlshft2, 5:0, scratch160, 27:22); s(emc_pmacro_tx_sel_clk_src1, 8:5, scratch160, 31:28); s(emc_pmacro_ib_ddll_long_dqs_rank0_2, 10:0, scratch161, 10:0); s(emc_pmacro_ib_ddll_long_dqs_rank0_2, 26:16, scratch161, 21:11); s(emc_cmd_brlshft3, 5:0, scratch161, 27:22); s(emc_pmacro_tx_sel_clk_src1, 10:9, scratch161, 29:28); s(emc_pmacro_tx_sel_clk_src1, 17:16, scratch161, 31:30); s(emc_pmacro_ib_ddll_long_dqs_rank0_3, 10:0, scratch162, 10:0); s(emc_pmacro_ib_ddll_long_dqs_rank0_3, 26:16, scratch162, 21:11); s(emc_wev, 5:0, scratch162, 27:22); s(emc_pmacro_tx_sel_clk_src1, 21:18, scratch162, 31:28); s(emc_pmacro_ib_ddll_long_dqs_rank1_0, 10:0, scratch163, 10:0); s(emc_pmacro_ib_ddll_long_dqs_rank1_0, 26:16, scratch163, 21:11); s(emc_wsv, 5:0, scratch163, 27:22); s(emc_pmacro_tx_sel_clk_src1, 25:22, scratch163, 31:28); s(emc_pmacro_ib_ddll_long_dqs_rank1_1, 10:0, scratch164, 10:0); s(emc_pmacro_ib_ddll_long_dqs_rank1_1, 26:16, scratch164, 21:11); s(emc_cfg3, 2:0, scratch164, 24:22); s(emc_cfg3, 6:4, scratch164, 27:25); s(emc_pmacro_tx_sel_clk_src1, 26:26, scratch164, 28:28); s(emc_pmacro_tx_sel_clk_src3, 2:0, scratch164, 31:29); s(emc_pmacro_ib_ddll_long_dqs_rank1_2, 10:0, scratch165, 10:0); s(emc_pmacro_ib_ddll_long_dqs_rank1_2, 26:16, scratch165, 21:11); s(emc_puterm_width, 31:31, scratch165, 22:22); s(emc_puterm_width, 4:0, scratch165, 27:23); s(emc_pmacro_tx_sel_clk_src3, 6:3, scratch165, 31:28); s(emc_pmacro_ib_ddll_long_dqs_rank1_3, 10:0, scratch166, 10:0); s(emc_pmacro_ib_ddll_long_dqs_rank1_3, 26:16, scratch166, 21:11); s(mc_emem_arb_timing_rcd, 5:0, scratch166, 27:22); s(emc_pmacro_tx_sel_clk_src3, 10:7, scratch166, 31:28); s(emc_pmacro_ddll_long_cmd_0, 10:0, scratch167, 10:0); s(emc_pmacro_ddll_long_cmd_0, 26:16, scratch167, 21:11); s(mc_emem_arb_timing_ccdmw, 5:0, scratch167, 27:22); s(emc_pmacro_tx_sel_clk_src3, 19:16, scratch167, 31:28); s(emc_pmacro_ddll_long_cmd_1, 10:0, scratch168, 10:0); s(emc_pmacro_ddll_long_cmd_1, 26:16, scratch168, 21:11); s(mc_emem_arb_override, 27:27, scratch168, 22:22); s(mc_emem_arb_override, 26:26, scratch168, 23:23); s(mc_emem_arb_override, 16:16, scratch168, 24:24); s(mc_emem_arb_override, 10:10, scratch168, 25:25); s(mc_emem_arb_override, 4:4, scratch168, 26:26); s(mc_emem_arb_override, 3:3, scratch168, 27:27); s(emc_pmacro_tx_sel_clk_src3, 23:20, scratch168, 31:28); s(emc_pmacro_ddll_long_cmd_2, 10:0, scratch169, 10:0); s(emc_pmacro_ddll_long_cmd_2, 26:16, scratch169, 21:11); s(emc_rrd, 4:0, scratch169, 26:22); s(emc_rext, 4:0, scratch169, 31:27); s(emc_pmacro_ddll_long_cmd_3, 10:0, scratch170, 10:0); s(emc_pmacro_ddll_long_cmd_3, 26:16, scratch170, 21:11); s(emc_tclkstop, 4:0, scratch170, 26:22); s(emc_wext, 4:0, scratch170, 31:27); s(emc_pmacro_perbit_fgcg_ctrl0, 10:0, scratch171, 10:0); s(emc_pmacro_perbit_fgcg_ctrl0, 26:16, scratch171, 21:11); s(emc_ref_ctrl2, 0:0, scratch171, 22:22); s(emc_ref_ctrl2, 26:24, scratch171, 25:23); s(emc_ref_ctrl2, 31:31, scratch171, 26:26); s(emc_we_duration, 4:0, scratch171, 31:27); s(emc_pmacro_perbit_fgcg_ctrl1, 10:0, scratch172, 10:0); s(emc_pmacro_perbit_fgcg_ctrl1, 26:16, scratch172, 21:11); s(emc_ws_duration, 4:0, scratch172, 26:22); s(emc_pmacro_pad_cfg_ctrl, 0:0, scratch172, 27:27); s(emc_pmacro_pad_cfg_ctrl, 9:9, scratch172, 28:28); s(emc_pmacro_pad_cfg_ctrl, 13:13, scratch172, 29:29); s(emc_pmacro_pad_cfg_ctrl, 17:16, scratch172, 31:30); s(emc_pmacro_perbit_fgcg_ctrl2, 10:0, scratch173, 10:0); s(emc_pmacro_perbit_fgcg_ctrl2, 26:16, scratch173, 21:11); s(mc_emem_arb_timing_rrd, 4:0, scratch173, 26:22); s(mc_emem_arb_timing_r2r, 4:0, scratch173, 31:27); s(emc_pmacro_perbit_fgcg_ctrl3, 10:0, scratch174, 10:0); s(emc_pmacro_perbit_fgcg_ctrl3, 26:16, scratch174, 21:11); s(mc_emem_arb_timing_w2w, 4:0, scratch174, 26:22); s(emc_pmacro_tx_sel_clk_src3, 26:24, scratch174, 29:27); s(emc_pmacro_tx_sel_clk_src2, 1:0, scratch174, 31:30); s(emc_pmacro_perbit_fgcg_ctrl4, 10:0, scratch175, 10:0); s(emc_pmacro_perbit_fgcg_ctrl4, 26:16, scratch175, 21:11); s(emc_pmacro_tx_sel_clk_src2, 10:2, scratch175, 30:22); s(emc_pmacro_tx_sel_clk_src2, 16:16, scratch175, 31:31); s(emc_pmacro_perbit_fgcg_ctrl5, 10:0, scratch176, 10:0); s(emc_pmacro_perbit_fgcg_ctrl5, 26:16, scratch176, 21:11); s(emc_pmacro_tx_sel_clk_src2, 26:17, scratch176, 31:22); s(mc_emem_arb_cfg, 8:0, scratch177, 8:0); s(mc_emem_arb_cfg, 20:16, scratch177, 13:9); s(mc_emem_arb_cfg, 31:24, scratch177, 21:14); s(emc_pmacro_tx_sel_clk_src4, 9:0, scratch177, 31:22); s(mc_emem_arb_misc1, 12:0, scratch178, 12:0); s(mc_emem_arb_misc1, 25:21, scratch178, 17:13); s(mc_emem_arb_misc1, 31:28, scratch178, 21:18); s(emc_pmacro_tx_sel_clk_src4, 10:10, scratch178, 22:22); s(emc_pmacro_tx_sel_clk_src4, 24:16, scratch178, 31:23); s(emc_mrs_wait_cnt2, 9:0, scratch179, 9:0); s(emc_mrs_wait_cnt2, 26:16, scratch179, 20:10); s(emc_odt_write, 5:0, scratch179, 26:21); s(emc_odt_write, 11:8, scratch179, 30:27); s(emc_odt_write, 31:31, scratch179, 31:31); s(emc_mrs_wait_cnt, 9:0, scratch180, 9:0); s(emc_mrs_wait_cnt, 26:16, scratch180, 20:10); s(emc_pmacro_ib_rxrt, 10:0, scratch180, 31:21); s(emc_auto_cal_interval, 20:0, scratch181, 20:0); s(emc_pmacro_ddll_long_cmd_4, 10:0, scratch181, 31:21); s(emc_emem_arb_refpb_hp_ctrl, 6:0, scratch182, 6:0); s(emc_emem_arb_refpb_hp_ctrl, 14:8, scratch182, 13:7); s(emc_emem_arb_refpb_hp_ctrl, 22:16, scratch182, 20:14); s(mc_emem_arb_outstanding_req, 8:0, scratch182, 29:21); s(mc_emem_arb_outstanding_req, 31:30, scratch182, 31:30); s(emc_xm2_comp_pad_ctrl2, 5:0, scratch183, 5:0); s(emc_xm2_comp_pad_ctrl2, 17:12, scratch183, 11:6); s(emc_xm2_comp_pad_ctrl2, 21:20, scratch183, 13:12); s(emc_xm2_comp_pad_ctrl2, 29:24, scratch183, 19:14); s(emc_pmacro_cmd_ctrl0, 0:0, scratch183, 20:20); s(emc_pmacro_cmd_ctrl0, 5:4, scratch183, 22:21); s(emc_pmacro_cmd_ctrl0, 8:8, scratch183, 23:23); s(emc_pmacro_cmd_ctrl0, 13:12, scratch183, 25:24); s(emc_pmacro_cmd_ctrl0, 16:16, scratch183, 26:26); s(emc_pmacro_cmd_ctrl0, 21:20, scratch183, 28:27); s(emc_pmacro_cmd_ctrl0, 24:24, scratch183, 29:29); s(emc_pmacro_cmd_ctrl0, 29:28, scratch183, 31:30); s(emc_cfg_dig_dll_1, 19:0, scratch184, 19:0); s(emc_pmacro_cmd_ctrl1, 0:0, scratch184, 20:20); s(emc_pmacro_cmd_ctrl1, 5:4, scratch184, 22:21); s(emc_pmacro_cmd_ctrl1, 8:8, scratch184, 23:23); s(emc_pmacro_cmd_ctrl1, 13:12, scratch184, 25:24); s(emc_pmacro_cmd_ctrl1, 16:16, scratch184, 26:26); s(emc_pmacro_cmd_ctrl1, 21:20, scratch184, 28:27); s(emc_pmacro_cmd_ctrl1, 24:24, scratch184, 29:29); s(emc_pmacro_cmd_ctrl1, 29:28, scratch184, 31:30); s(emc_quse_brlshft0, 19:0, scratch185, 19:0); s(emc_pmacro_cmd_ctrl2, 0:0, scratch185, 20:20); s(emc_pmacro_cmd_ctrl2, 5:4, scratch185, 22:21); s(emc_pmacro_cmd_ctrl2, 8:8, scratch185, 23:23); s(emc_pmacro_cmd_ctrl2, 13:12, scratch185, 25:24); s(emc_pmacro_cmd_ctrl2, 16:16, scratch185, 26:26); s(emc_pmacro_cmd_ctrl2, 21:20, scratch185, 28:27); s(emc_pmacro_cmd_ctrl2, 24:24, scratch185, 29:29); s(emc_pmacro_cmd_ctrl2, 29:28, scratch185, 31:30); s(emc_quse_brlshft1, 19:0, scratch186, 19:0); s(emc_pmacro_dsr_vttgen_ctrl0, 3:0, scratch186, 23:20); s(emc_pmacro_dsr_vttgen_ctrl0, 15:8, scratch186, 31:24); s(emc_quse_brlshft2, 19:0, scratch187, 19:0); s(emc_pmacro_perbit_rfu1_ctrl0, 5:0, scratch187, 25:20); s(emc_pmacro_perbit_rfu1_ctrl0, 21:16, scratch187, 31:26); s(emc_quse_brlshft3, 19:0, scratch188, 19:0); s(emc_pmacro_perbit_rfu1_ctrl1, 5:0, scratch188, 25:20); s(emc_pmacro_perbit_rfu1_ctrl1, 21:16, scratch188, 31:26); s(emc_dbg, 4:0, scratch189, 4:0); s(emc_dbg, 13:9, scratch189, 9:5); s(emc_dbg, 31:24, scratch189, 17:10); s(emc_trefbw, 13:0, scratch189, 31:18); s(emc_zcal_wait_cnt, 10:0, scratch191, 10:0); s(emc_zcal_wait_cnt, 21:16, scratch191, 16:11); s(emc_zcal_wait_cnt, 31:31, scratch191, 17:17); s(emc_qpop, 6:0, scratch191, 24:18); s(emc_qpop, 22:16, scratch191, 31:25); s(emc_zcal_mrw_cmd, 7:0, scratch192, 7:0); s(emc_zcal_mrw_cmd, 23:16, scratch192, 15:8); s(emc_zcal_mrw_cmd, 31:30, scratch192, 17:16); s(emc_pmacro_auto_cal_common, 5:0, scratch192, 23:18); s(emc_pmacro_auto_cal_common, 13:8, scratch192, 29:24); s(emc_pmacro_auto_cal_common, 16:16, scratch192, 30:30); s(emc_pmacro_tx_sel_clk_src4, 25:25, scratch192, 31:31); s(emc_dll_cfg1, 10:0, scratch193, 10:0); s(emc_dll_cfg1, 13:12, scratch193, 12:11); s(emc_dll_cfg1, 17:16, scratch193, 14:13); s(emc_dll_cfg1, 21:20, scratch193, 16:15); s(emc_dll_cfg1, 24:24, scratch193, 17:17); s(emc_pmacro_perbit_rfu1_ctrl2, 5:0, scratch193, 23:18); s(emc_pmacro_perbit_rfu1_ctrl2, 21:16, scratch193, 29:24); s(emc_pmacro_tx_sel_clk_src4, 26:26, scratch193, 30:30); s(emc_pmacro_tx_sel_clk_src5, 0:0, scratch193, 31:31); s(emc_pmacro_cmd_brick_ctrl_fdpd, 17:0, scratch194, 17:0); s(emc_pmacro_perbit_rfu1_ctrl3, 5:0, scratch194, 23:18); s(emc_pmacro_perbit_rfu1_ctrl3, 21:16, scratch194, 29:24); s(emc_pmacro_tx_sel_clk_src5, 2:1, scratch194, 31:30); s(emc_pmacro_data_brick_ctrl_fdpd, 17:0, scratch195, 17:0); s(emc_pmacro_perbit_rfu1_ctrl4, 5:0, scratch195, 23:18); s(emc_pmacro_perbit_rfu1_ctrl4, 21:16, scratch195, 29:24); s(emc_pmacro_tx_sel_clk_src5, 4:3, scratch195, 31:30); s(emc_dyn_self_ref_control, 15:0, scratch196, 15:0); s(emc_dyn_self_ref_control, 31:31, scratch196, 16:16); s(emc_emem_arb_refpb_bank_ctrl, 6:0, scratch196, 23:17); s(emc_emem_arb_refpb_bank_ctrl, 14:8, scratch196, 30:24); s(emc_emem_arb_refpb_bank_ctrl, 31:31, scratch196, 31:31); s(emc_pmacro_cmd_pad_rx_ctrl, 1:0, scratch197, 1:0); s(emc_pmacro_cmd_pad_rx_ctrl, 5:4, scratch197, 3:2); s(emc_pmacro_cmd_pad_rx_ctrl, 12:12, scratch197, 4:4); s(emc_pmacro_cmd_pad_rx_ctrl, 19:15, scratch197, 9:5); s(emc_pmacro_cmd_pad_rx_ctrl, 27:21, scratch197, 16:10); s(emc_pmacro_perbit_rfu1_ctrl5, 5:0, scratch197, 22:17); s(emc_pmacro_perbit_rfu1_ctrl5, 21:16, scratch197, 28:23); s(emc_pmacro_tx_sel_clk_src5, 7:5, scratch197, 31:29); s(emc_pmacro_data_pad_rx_ctrl, 1:0, scratch198, 1:0); s(emc_pmacro_data_pad_rx_ctrl, 5:4, scratch198, 3:2); s(emc_pmacro_data_pad_rx_ctrl, 12:12, scratch198, 4:4); s(emc_pmacro_data_pad_rx_ctrl, 19:15, scratch198, 9:5); s(emc_pmacro_data_pad_rx_ctrl, 27:21, scratch198, 16:10); s(emc_pmacro_tx_sel_clk_src5, 10:8, scratch198, 19:17); s(emc_pmacro_tx_sel_clk_src5, 26:16, scratch198, 30:20); s(emc_pmacro_cmd_pad_tx_ctrl, 0:0, scratch198, 31:31); s(emc_refresh, 15:0, scratch199, 15:0); s(emc_cmd_q, 4:0, scratch199, 20:16); s(emc_cmd_q, 10:8, scratch199, 23:21); s(emc_cmd_q, 14:12, scratch199, 26:24); s(emc_cmd_q, 28:24, scratch199, 31:27); s(emc_acpd_control, 15:0, scratch210, 15:0); s(emc_auto_cal_vref_sel1, 15:0, scratch210, 31:16); s(emc_pmacro_auto_cal_cfg0, 3:0, scratch211, 3:0); s(emc_pmacro_auto_cal_cfg0, 11:8, scratch211, 7:4); s(emc_pmacro_auto_cal_cfg0, 19:16, scratch211, 11:8); s(emc_pmacro_auto_cal_cfg0, 27:24, scratch211, 15:12); s(emc_pmacro_auto_cal_cfg1, 3:0, scratch211, 19:16); s(emc_pmacro_auto_cal_cfg1, 11:8, scratch211, 23:20); s(emc_pmacro_auto_cal_cfg1, 19:16, scratch211, 27:24); s(emc_pmacro_auto_cal_cfg1, 27:24, scratch211, 31:28); s(emc_pmacro_auto_cal_cfg2, 3:0, scratch212, 3:0); s(emc_pmacro_auto_cal_cfg2, 11:8, scratch212, 7:4); s(emc_pmacro_auto_cal_cfg2, 19:16, scratch212, 11:8); s(emc_pmacro_auto_cal_cfg2, 27:24, scratch212, 15:12); s(emc_xm2_comp_pad_ctrl3, 5:0, scratch212, 21:16); s(emc_xm2_comp_pad_ctrl3, 17:12, scratch212, 27:22); s(emc_xm2_comp_pad_ctrl3, 23:20, scratch212, 31:28); s(emc_cfg_dig_dll_period, 15:0, scratch213, 15:0); s(emc_prerefresh_req_cnt, 15:0, scratch213, 31:16); s(emc_pmacro_ddll_bypass, 0:0, scratch214, 0:0); s(emc_pmacro_ddll_bypass, 11:8, scratch214, 4:1); s(emc_pmacro_ddll_bypass, 16:13, scratch214, 8:5); s(emc_pmacro_ddll_bypass, 27:24, scratch214, 12:9); s(emc_pmacro_ddll_bypass, 31:29, scratch214, 15:13); s(emc_pmacro_data_pi_ctrl, 4:0, scratch214, 20:16); s(emc_pmacro_data_pi_ctrl, 12:8, scratch214, 25:21); s(emc_pmacro_data_pi_ctrl, 21:16, scratch214, 31:26); s(emc_pmacro_cmd_pi_ctrl, 4:0, scratch215, 4:0); s(emc_pmacro_cmd_pi_ctrl, 12:8, scratch215, 9:5); s(emc_pmacro_cmd_pi_ctrl, 21:16, scratch215, 15:10); s(emc_pin_gpio, 1:0, scratch9, 31:30); s(emc_pin_gpio_enable, 1:0, scratch10, 31:30); s(emc_dev_select, 1:0, scratch11, 31:30); s(emc_zcal_warm_cold_boot_enables, 1:0, scratch12, 31:30); s(emc_cfg_dig_dll_period_warm_boot, 1:0, scratch13, 31:30); s32(emc_bct_spare13, scratch45); s32(emc_bct_spare12, scratch46); s32(emc_bct_spare7, scratch47); s32(emc_bct_spare6, scratch48); s32(emc_bct_spare5, scratch50); s32(emc_bct_spare4, scratch51); s32(emc_bct_spare3, scratch56); s32(emc_bct_spare2, scratch57); s32(emc_bct_spare1, scratch58); s32(emc_bct_spare0, scratch59); s32(emc_bct_spare9, scratch60); s32(emc_bct_spare8, scratch61); s32(boot_rom_patch_data, scratch62); s32(boot_rom_patch_control, scratch63); s(mc_clken_override_allwarm_boot, 0:0, scratch65, 31:31); s(emc_extra_refresh_num, 2:0, scratch66, 31:29); s(pmc_io_dpd3_req_wait, 2:0, scratch72, 30:28); s(emc_clken_override_allwarm_boot, 0:0, scratch72, 31:31); s(memory_type, 2:0, scratch73, 30:28); s(emc_mrs_warm_boot_enable, 0:0, scratch73, 31:31); s(pmc_io_dpd4_req_wait, 2:0, scratch74, 30:28); s(clear_clock2_mc1, 0:0, scratch74, 31:31); s(emc_warm_boot_extramode_reg_write_enable, 0:0, scratch75, 28:28); s(clk_rst_pllm_misc20_override_enable, 0:0, scratch75, 29:29); s(emc_dbg_write_mux, 0:0, scratch75, 30:30); s(ahb_arbitration_xbar_ctrl_meminit_done, 0:0, scratch75, 31:31); s(emc_timing_control_wait, 7:0, scratch90, 31:24); s(emc_zcal_warm_boot_wait, 7:0, scratch91, 31:24); s(warm_boot_wait, 7:0, scratch92, 31:24); s(emc_pin_program_wait, 7:0, scratch93, 31:24); s(emc_auto_cal_wait, 9:0, scratch114, 31:22); s(swizzle_rank_byte_encode, 15:0, scratch215, 31:16); s(emc_pmacro_cmd_pad_tx_ctrl, 6:5, scratch216, 1:0); s(emc_pmacro_cmd_pad_tx_ctrl, 10:10, scratch216, 2:2); s(emc_pmacro_cmd_pad_tx_ctrl, 16:15, scratch216, 4:3); s(emc_pmacro_cmd_pad_tx_ctrl, 30:21, scratch216, 14:5); s(emc_pmacro_data_pad_tx_ctrl, 0:0, scratch216, 15:15); s(emc_pmacro_data_pad_tx_ctrl, 6:5, scratch216, 17:16); s(emc_pmacro_data_pad_tx_ctrl, 10:10, scratch216, 18:18); s(emc_pmacro_data_pad_tx_ctrl, 16:15, scratch216, 20:19); s(emc_pmacro_data_pad_tx_ctrl, 30:21, scratch216, 30:21); // LPDDR4 MRW. s(emc_mrw_lpddr2zcal_warm_boot, 23:16, scratch5, 7:0); s(emc_mrw_lpddr2zcal_warm_boot, 7:0, scratch5, 15:8); s(emc_warm_boot_mrw_extra, 23:16, scratch5, 23:16); s(emc_warm_boot_mrw_extra, 7:0, scratch5, 31:24); s(emc_mrw_lpddr2zcal_warm_boot, 31:30, scratch6, 1:0); s(emc_warm_boot_mrw_extra, 31:30, scratch6, 3:2); s(emc_mrw_lpddr2zcal_warm_boot, 27:26, scratch6, 5:4); s(emc_warm_boot_mrw_extra, 27:26, scratch6, 7:6); s(emc_mrw6, 27:0, scratch8, 27:0); s(emc_mrw6, 31:30, scratch8, 29:28); s(emc_mrw8, 27:0, scratch9, 27:0); s(emc_mrw8, 31:30, scratch9, 29:28); s(emc_mrw9, 27:0, scratch10, 27:0); s(emc_mrw9, 31:30, scratch10, 29:28); s(emc_mrw10, 27:0, scratch11, 27:0); s(emc_mrw10, 31:30, scratch11, 29:28); s(emc_mrw12, 27:0, scratch12, 27:0); s(emc_mrw12, 31:30, scratch12, 29:28); s(emc_mrw13, 27:0, scratch13, 27:0); s(emc_mrw13, 31:30, scratch13, 29:28); s(emc_mrw14, 27:0, scratch14, 27:0); s(emc_mrw14, 31:30, scratch14, 29:28); s(emc_mrw1, 7:0, scratch15, 7:0); s(emc_mrw1, 23:16, scratch15, 15:8); s(emc_mrw1, 27:26, scratch15, 17:16); s(emc_mrw1, 31:30, scratch15, 19:18); s(emc_warm_boot_mrw_extra, 7:0, scratch16, 7:0); s(emc_warm_boot_mrw_extra, 23:16, scratch16, 15:8); s(emc_warm_boot_mrw_extra, 27:26, scratch16, 17:16); s(emc_warm_boot_mrw_extra, 31:30, scratch16, 19:18); s(emc_mrw2, 7:0, scratch17, 7:0); s(emc_mrw2, 23:16, scratch17, 15:8); s(emc_mrw2, 27:26, scratch17, 17:16); s(emc_mrw2, 31:30, scratch17, 19:18); s(emc_mrw3, 7:0, scratch18, 7:0); s(emc_mrw3, 23:16, scratch18, 15:8); s(emc_mrw3, 27:26, scratch18, 17:16); s(emc_mrw3, 31:30, scratch18, 19:18); s(emc_mrw4, 7:0, scratch19, 7:0); s(emc_mrw4, 23:16, scratch19, 15:8); s(emc_mrw4, 27:26, scratch19, 17:16); s(emc_mrw4, 31:30, scratch19, 19:18); s32(emc_cmd_mapping_byte, secure_scratch8); s32(emc_pmacro_brick_mapping0, secure_scratch9); s32(emc_pmacro_brick_mapping1, secure_scratch10); s32(emc_pmacro_brick_mapping2, secure_scratch11); s32(mc_video_protect_gpu_override0, secure_scratch12); s(emc_cmd_mapping_cmd0_0, 6:0, secure_scratch13, 6:0); s(emc_cmd_mapping_cmd0_0, 14:8, secure_scratch13, 13:7); s(emc_cmd_mapping_cmd0_0, 22:16, secure_scratch13, 20:14); s(emc_cmd_mapping_cmd0_0, 30:24, secure_scratch13, 27:21); s(mc_untranslated_region_check, 0:0, secure_scratch13, 28:28); s(mc_untranslated_region_check, 9:8, secure_scratch13, 30:29); s(emc_adr_cfg, 0:0, secure_scratch13, 31:31); s(emc_cmd_mapping_cmd0_1, 6:0, secure_scratch14, 6:0); s(emc_cmd_mapping_cmd0_1, 14:8, secure_scratch14, 13:7); s(emc_cmd_mapping_cmd0_1, 22:16, secure_scratch14, 20:14); s(emc_cmd_mapping_cmd0_1, 30:24, secure_scratch14, 27:21); s(mc_video_protect_bom_adr_hi, 1:0, secure_scratch14, 29:28); s(mc_video_protect_write_access, 1:0, secure_scratch14, 31:30); s(emc_cmd_mapping_cmd1_0, 6:0, secure_scratch15, 6:0); s(emc_cmd_mapping_cmd1_0, 14:8, secure_scratch15, 13:7); s(emc_cmd_mapping_cmd1_0, 22:16, secure_scratch15, 20:14); s(emc_cmd_mapping_cmd1_0, 30:24, secure_scratch15, 27:21); s(mc_sec_carveout_adr_hi, 1:0, secure_scratch15, 29:28); s(mc_mts_carveout_adr_hi, 1:0, secure_scratch15, 31:30); s(emc_cmd_mapping_cmd1_1, 6:0, secure_scratch16, 6:0); s(emc_cmd_mapping_cmd1_1, 14:8, secure_scratch16, 13:7); s(emc_cmd_mapping_cmd1_1, 22:16, secure_scratch16, 20:14); s(emc_cmd_mapping_cmd1_1, 30:24, secure_scratch16, 27:21); s(mc_generalized_carveout5_bom_hi, 1:0, secure_scratch16, 29:28); s(mc_generalized_carveout3_bom_hi, 1:0, secure_scratch16, 31:30); s(emc_cmd_mapping_cmd2_0, 6:0, secure_scratch17, 6:0); s(emc_cmd_mapping_cmd2_0, 14:8, secure_scratch17, 13:7); s(emc_cmd_mapping_cmd2_0, 22:16, secure_scratch17, 20:14); s(emc_cmd_mapping_cmd2_0, 30:24, secure_scratch17, 27:21); s(mc_generalized_carveout2_bom_hi, 1:0, secure_scratch17, 29:28); s(mc_generalized_carveout4_bom_hi, 1:0, secure_scratch17, 31:30); s(emc_cmd_mapping_cmd2_1, 6:0, secure_scratch18, 6:0); s(emc_cmd_mapping_cmd2_1, 14:8, secure_scratch18, 13:7); s(emc_cmd_mapping_cmd2_1, 22:16, secure_scratch18, 20:14); s(emc_cmd_mapping_cmd2_1, 30:24, secure_scratch18, 27:21); s(mc_generalized_carveout1_bom_hi, 1:0, secure_scratch18, 29:28); s(emc_fbio_spare, 1:1, secure_scratch18, 30:30); s(emc_fbio_cfg8, 15:15, secure_scratch18, 31:31); s(emc_cmd_mapping_cmd3_0, 6:0, secure_scratch19, 6:0); s(emc_cmd_mapping_cmd3_0, 14:8, secure_scratch19, 13:7); s(emc_cmd_mapping_cmd3_0, 22:16, secure_scratch19, 20:14); s(emc_cmd_mapping_cmd3_0, 30:24, secure_scratch19, 27:21); s(mc_emem_adr_cfg, 0:0, secure_scratch19, 28:28); s(mc_sec_carveout_protect_write_access, 0:0, secure_scratch19, 29:29); s(mc_mts_carveout_reg_ctrl, 0:0, secure_scratch19, 30:30); s(mc_video_protect_vpr_override, 0:0, secure_scratch19, 31:31); s(emc_cmd_mapping_cmd3_1, 6:0, secure_scratch20, 6:0); s(emc_cmd_mapping_cmd3_1, 14:8, secure_scratch20, 13:7); s(emc_cmd_mapping_cmd3_1, 22:16, secure_scratch20, 20:14); s(emc_cmd_mapping_cmd3_1, 30:24, secure_scratch20, 27:21); s(mc_generalized_carveout2_cfg0, 6:3, secure_scratch20, 31:28); s(mc_generalized_carveout4_cfg0, 26:0, secure_scratch39, 26:0); s(mc_generalized_carveout2_cfg0, 10:7, secure_scratch39, 30:27); s(mc_video_protect_vpr_override, 1:1, secure_scratch39, 31:31); s(mc_generalized_carveout5_cfg0, 26:0, secure_scratch40, 26:0); s(mc_generalized_carveout2_cfg0, 17:14, secure_scratch40, 30:27); s(mc_video_protect_vpr_override, 2:2, secure_scratch40, 31:31); s(emc_cmd_mapping_cmd0_2, 6:0, secure_scratch41, 6:0); s(emc_cmd_mapping_cmd0_2, 14:8, secure_scratch41, 13:7); s(emc_cmd_mapping_cmd0_2, 22:16, secure_scratch41, 20:14); s(emc_cmd_mapping_cmd0_2, 27:24, secure_scratch41, 24:21); s(mc_generalized_carveout2_cfg0, 21:18, secure_scratch41, 28:25); s(mc_generalized_carveout2_cfg0, 13:11, secure_scratch41, 31:29); s(emc_cmd_mapping_cmd1_2, 6:0, secure_scratch42, 6:0); s(emc_cmd_mapping_cmd1_2, 14:8, secure_scratch42, 13:7); s(emc_cmd_mapping_cmd1_2, 22:16, secure_scratch42, 20:14); s(emc_cmd_mapping_cmd1_2, 27:24, secure_scratch42, 24:21); s(mc_generalized_carveout1_cfg0, 6:3, secure_scratch42, 28:25); s(mc_generalized_carveout1_cfg0, 13:11, secure_scratch42, 31:29); s(emc_cmd_mapping_cmd2_2, 6:0, secure_scratch43, 6:0); s(emc_cmd_mapping_cmd2_2, 14:8, secure_scratch43, 13:7); s(emc_cmd_mapping_cmd2_2, 22:16, secure_scratch43, 20:14); s(emc_cmd_mapping_cmd2_2, 27:24, secure_scratch43, 24:21); s(mc_generalized_carveout1_cfg0, 10:7, secure_scratch43, 28:25); s(mc_generalized_carveout3_cfg0, 13:11, secure_scratch43, 31:29); s(emc_cmd_mapping_cmd3_2, 6:0, secure_scratch44, 6:0); s(emc_cmd_mapping_cmd3_2, 14:8, secure_scratch44, 13:7); s(emc_cmd_mapping_cmd3_2, 22:16, secure_scratch44, 20:14); s(emc_cmd_mapping_cmd3_2, 27:24, secure_scratch44, 24:21); s(mc_generalized_carveout1_cfg0, 17:14, secure_scratch44, 28:25); s(mc_video_protect_vpr_override, 3:3, secure_scratch44, 29:29); s(mc_video_protect_vpr_override, 7:6, secure_scratch44, 31:30); s(mc_emem_adr_cfg_channel_mask, 31:9, secure_scratch45, 22:0); s(mc_emem_adr_cfg_dev0, 2:0, secure_scratch45, 25:23); s(mc_emem_adr_cfg_dev0, 9:8, secure_scratch45, 27:26); s(mc_emem_adr_cfg_dev0, 19:16, secure_scratch45, 31:28); s(mc_emem_adr_cfg_bank_mask0, 31:10, secure_scratch46, 21:0); s(mc_emem_adr_cfg_dev1, 2:0, secure_scratch46, 24:22); s(mc_emem_adr_cfg_dev1, 9:8, secure_scratch46, 26:25); s(mc_emem_adr_cfg_dev1, 19:16, secure_scratch46, 30:27); s(mc_video_protect_vpr_override, 8:8, secure_scratch46, 31:31); s(mc_emem_adr_cfg_bank_mask1, 31:10, secure_scratch47, 21:0); s(mc_generalized_carveout1_cfg0, 21:18, secure_scratch47, 25:22); s(mc_generalized_carveout3_cfg0, 6:3, secure_scratch47, 29:26); s(mc_video_protect_vpr_override, 9:9, secure_scratch47, 30:30); s(mc_video_protect_vpr_override, 11:11, secure_scratch47, 31:31); s(mc_emem_adr_cfg_bank_mask2, 31:10, secure_scratch48, 21:0); s(mc_generalized_carveout3_cfg0, 10:7, secure_scratch48, 25:22); s(mc_generalized_carveout3_cfg0, 17:14, secure_scratch48, 29:26); s(mc_video_protect_vpr_override, 15:14, secure_scratch48, 31:30); s(mc_video_protect_gpu_override1, 15:0, secure_scratch49, 15:0); s(mc_emem_cfg, 13:0, secure_scratch49, 29:16); s(mc_emem_cfg, 31:31, secure_scratch49, 30:30); s(mc_video_protect_vpr_override, 17:17, secure_scratch49, 31:31); s(mc_generalized_carveout3_bom, 31:17, secure_scratch50, 14:0); s(mc_generalized_carveout1_bom, 31:17, secure_scratch50, 29:15); s(mc_video_protect_vpr_override, 19:18, secure_scratch50, 31:30); s(mc_generalized_carveout4_bom, 31:17, secure_scratch51, 14:0); s(mc_generalized_carveout2_bom, 31:17, secure_scratch51, 29:15); s(mc_video_protect_vpr_override, 21:20, secure_scratch51, 31:30); s(mc_generalized_carveout5_bom, 31:17, secure_scratch52, 14:0); s(mc_video_protect_bom, 31:20, secure_scratch52, 26:15); s(mc_generalized_carveout3_cfg0, 21:18, secure_scratch52, 30:27); s(mc_video_protect_vpr_override, 22:22, secure_scratch52, 31:31); s(mc_video_protect_size_mb, 11:0, secure_scratch53, 11:0); s(mc_sec_carveout_bom, 31:20, secure_scratch53, 23:12); s(mc_video_protect_vpr_override, 23:23, secure_scratch53, 24:24); s(mc_video_protect_vpr_override, 26:26, secure_scratch53, 25:25); s(mc_video_protect_vpr_override, 31:29, secure_scratch53, 28:26); s(mc_video_protect_vpr_override1, 1:0, secure_scratch53, 30:29); s(mc_video_protect_vpr_override1, 4:4, secure_scratch53, 31:31); s(mc_sec_carveout_size_mb, 11:0, secure_scratch54, 11:0); s(mc_mts_carveout_bom, 31:20, secure_scratch54, 23:12); s(mc_video_protect_vpr_override1, 12:5, secure_scratch54, 31:24); s(mc_mts_carveout_size_mb, 11:0, secure_scratch55, 11:0); s(mc_generalized_carveout4_size_128kb, 11:0, secure_scratch55, 23:12); s(mc_video_protect_vpr_override1, 16:13, secure_scratch55, 27:24); s(mc_video_protect_vpr_override1, 26:25, secure_scratch55, 29:28); s(mc_generalized_carveout2_cfg0, 1:0, secure_scratch55, 31:30); s(mc_generalized_carveout3_size_128kb, 11:0, secure_scratch56, 11:0); s(mc_generalized_carveout2_size_128kb, 11:0, secure_scratch56, 23:12); s(mc_generalized_carveout2_cfg0, 2:2, secure_scratch56, 24:24); s(mc_generalized_carveout2_cfg0, 26:22, secure_scratch56, 29:25); s(mc_generalized_carveout1_cfg0, 1:0, secure_scratch56, 31:30); s(mc_generalized_carveout1_size_128kb, 11:0, secure_scratch57, 11:0); s(mc_generalized_carveout5_size_128kb, 11:0, secure_scratch57, 23:12); s(mc_generalized_carveout1_cfg0, 2:2, secure_scratch57, 24:24); s(mc_generalized_carveout1_cfg0, 26:22, secure_scratch57, 29:25); s(mc_generalized_carveout3_cfg0, 1:0, secure_scratch57, 31:30); s(mc_generalized_carveout3_cfg0, 2:2, secure_scratch58, 0:0); s(mc_generalized_carveout3_cfg0, 26:22, secure_scratch58, 5:1); s32(mc_generalized_carveout1_access0, secure_scratch59); s32(mc_generalized_carveout1_access1, secure_scratch60); s32(mc_generalized_carveout1_access2, secure_scratch61); s32(mc_generalized_carveout1_access3, secure_scratch62); s32(mc_generalized_carveout1_access4, secure_scratch63); s32(mc_generalized_carveout2_access0, secure_scratch64); s32(mc_generalized_carveout2_access1, secure_scratch65); s32(mc_generalized_carveout2_access2, secure_scratch66); s32(mc_generalized_carveout2_access3, secure_scratch67); s32(mc_generalized_carveout2_access4, secure_scratch68); s32(mc_generalized_carveout3_access0, secure_scratch69); s32(mc_generalized_carveout3_access1, secure_scratch70); s32(mc_generalized_carveout3_access2, secure_scratch71); s32(mc_generalized_carveout3_access3, secure_scratch72); s32(mc_generalized_carveout3_access4, secure_scratch73); s32(mc_generalized_carveout4_access0, secure_scratch74); s32(mc_generalized_carveout4_access1, secure_scratch75); s32(mc_generalized_carveout4_access2, secure_scratch76); s32(mc_generalized_carveout4_access3, secure_scratch77); s32(mc_generalized_carveout4_access4, secure_scratch78); s32(mc_generalized_carveout5_access0, secure_scratch79); s32(mc_generalized_carveout5_access1, secure_scratch80); s32(mc_generalized_carveout5_access2, secure_scratch81); s32(mc_generalized_carveout5_access3, secure_scratch82); s32(mc_generalized_carveout1_force_internal_access0, secure_scratch84); s32(mc_generalized_carveout1_force_internal_access1, secure_scratch85); s32(mc_generalized_carveout1_force_internal_access2, secure_scratch86); s32(mc_generalized_carveout1_force_internal_access3, secure_scratch87); s32(mc_generalized_carveout1_force_internal_access4, secure_scratch88); s32(mc_generalized_carveout2_force_internal_access0, secure_scratch89); s32(mc_generalized_carveout2_force_internal_access1, secure_scratch90); s32(mc_generalized_carveout2_force_internal_access2, secure_scratch91); s32(mc_generalized_carveout2_force_internal_access3, secure_scratch92); s32(mc_generalized_carveout2_force_internal_access4, secure_scratch93); s32(mc_generalized_carveout3_force_internal_access0, secure_scratch94); s32(mc_generalized_carveout3_force_internal_access1, secure_scratch95); s32(mc_generalized_carveout3_force_internal_access2, secure_scratch96); s32(mc_generalized_carveout3_force_internal_access3, secure_scratch97); s32(mc_generalized_carveout3_force_internal_access4, secure_scratch98); s32(mc_generalized_carveout4_force_internal_access0, secure_scratch99); s32(mc_generalized_carveout4_force_internal_access1, secure_scratch100); s32(mc_generalized_carveout4_force_internal_access2, secure_scratch101); s32(mc_generalized_carveout4_force_internal_access3, secure_scratch102); s32(mc_generalized_carveout4_force_internal_access4, secure_scratch103); s32(mc_generalized_carveout5_force_internal_access0, secure_scratch104); s32(mc_generalized_carveout5_force_internal_access1, secure_scratch105); s32(mc_generalized_carveout5_force_internal_access2, secure_scratch106); s32(mc_generalized_carveout5_force_internal_access3, secure_scratch107); // PLLM. Unused, BCT is used for PLLM. c32(0, scratch2); s(pllm_input_divider, 7:0, scratch2, 7:0); s(pllm_feedback_divider, 7:0, scratch2, 15:8); s(pllm_post_divider, 0:0, scratch2, 16:16); s(pllm_kvco, 0:0, scratch2, 17:17); s(pllm_kcp, 1:0, scratch2, 19:18); c32(0, scratch35); s(pllm_setup_control, 27:0, scratch35, 27:0); // PLLX. s(pllm_input_divider, 7:0, scratch3, 7:0); c(62, scratch3, 15:8); // 62 divn. c(0, scratch3, 20:16); // 0 divp. s(pllm_kvco, 0:0, scratch3, 21:21); s(pllm_kcp, 1:0, scratch3, 23:22); // s(pllm_kcp, 9:0, scratch3, 31:22); c32(0, scratch36); s(pllm_setup_control, 23:0, scratch36, 23:0); // PLLM/PLLX. s(pllm_stable_time, 9:0, scratch4, 9:0); s(pllm_stable_time, 9:0, scratch4, 19:10); } void sdram_lp0_entry(void *sdram_config, bdk_params_t *bp) { u32 chip_id = (APB_MISC(APB_MISC_GP_HIDREV) >> 4) & 0xF; if (chip_id != GP_HIDREV_MAJOR_T210B01) _sdram_lp0_save_params_t210(sdram_config); else _sdram_lp0_save_params_t210b01(sdram_config); } ================================================ FILE: modules/hekate_libsys_lp0/t210.h ================================================ /* * Copyright (c) 2018 naehrwert * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _T210_H_ #define _T210_H_ #include "types.h" #define HOST1X_BASE 0x50000000 #define DISPLAY_A_BASE 0x54200000 #define DSI_BASE 0x54300000 #define VIC_BASE 0x54340000 #define TSEC_BASE 0x54500000 #define SOR1_BASE 0x54580000 #define TMR_BASE 0x60005000 #define CLOCK_BASE 0x60006000 #define FLOW_CTLR_BASE 0x60007000 #define SYSREG_BASE 0x6000C000 #define SB_BASE (SYSREG_BASE + 0x200) #define GPIO_BASE 0x6000D000 #define GPIO_1_BASE (GPIO_BASE) #define GPIO_2_BASE (GPIO_BASE + 0x100) #define GPIO_3_BASE (GPIO_BASE + 0x200) #define GPIO_4_BASE (GPIO_BASE + 0x300) #define GPIO_5_BASE (GPIO_BASE + 0x400) #define GPIO_6_BASE (GPIO_BASE + 0x500) #define GPIO_7_BASE (GPIO_BASE + 0x600) #define GPIO_8_BASE (GPIO_BASE + 0x700) #define EXCP_VEC_BASE 0x6000F000 #define APB_MISC_BASE 0x70000000 #define PINMUX_AUX_BASE 0x70003000 #define UART_BASE 0x70006000 #define RTC_BASE 0x7000E000 #define PMC_BASE 0x7000E400 #define SYSCTR0_BASE 0x7000F000 #define FUSE_BASE 0x7000F800 #define KFUSE_BASE 0x7000FC00 #define SE_BASE 0x70012000 #define MC_BASE 0x70019000 #define EMC_BASE 0x7001B000 #define MIPI_CAL_BASE 0x700E3000 #define I2S_BASE 0x702D1000 #define _REG(base, off) *(vu32 *)((base) + (off)) #define HOST1X(off) _REG(HOST1X_BASE, off) #define DISPLAY_A(off) _REG(DISPLAY_A_BASE, off) #define DSI(off) _REG(DSI_BASE, off) #define VIC(off) _REG(VIC_BASE, off) #define TSEC(off) _REG(TSEC_BASE, off) #define SOR1(off) _REG(SOR1_BASE, off) #define TMR(off) _REG(TMR_BASE, off) #define CLOCK(off) _REG(CLOCK_BASE, off) #define FLOW_CTLR(off) _REG(FLOW_CTLR_BASE, off) #define SYSREG(off) _REG(SYSREG_BASE, off) #define SB(off) _REG(SB_BASE, off) #define GPIO(off) _REG(GPIO_BASE, off) #define GPIO_1(off) _REG(GPIO_1_BASE, off) #define GPIO_2(off) _REG(GPIO_2_BASE, off) #define GPIO_3(off) _REG(GPIO_3_BASE, off) #define GPIO_4(off) _REG(GPIO_4_BASE, off) #define GPIO_5(off) _REG(GPIO_5_BASE, off) #define GPIO_6(off) _REG(GPIO_6_BASE, off) #define GPIO_7(off) _REG(GPIO_7_BASE, off) #define GPIO_8(off) _REG(GPIO_8_BASE, off) #define EXCP_VEC(off) _REG(EXCP_VEC_BASE, off) #define APB_MISC(off) _REG(APB_MISC_BASE, off) #define PINMUX_AUX(off) _REG(PINMUX_AUX_BASE, off) #define RTC(off) _REG(RTC_BASE, off) #define PMC(off) _REG(PMC_BASE, off) #define SYSCTR0(off) _REG(SYSCTR0_BASE, off) #define FUSE(off) _REG(FUSE_BASE, off) #define KFUSE(off) _REG(KFUSE_BASE, off) #define SE(off) _REG(SE_BASE, off) #define MC(off) _REG(MC_BASE, off) #define EMC(off) _REG(EMC_BASE, off) #define MIPI_CAL(off) _REG(MIPI_CAL_BASE, off) #define I2S(off) _REG(I2S_BASE, off) /*! Misc registers. */ #define APB_MISC_PP_PINMUX_GLOBAL 0x40 #define APB_MISC_GP_HIDREV 0x804 #define GP_HIDREV_MAJOR_T210 0x1 #define GP_HIDREV_MAJOR_T210B01 0x2 #define APB_MISC_GP_WIFI_EN_CFGPADCTRL 0xB64 #define APB_MISC_GP_WIFI_RST_CFGPADCTRL 0xB68 /*! System registers. */ #define AHB_ARBITRATION_XBAR_CTRL 0xE0 #define AHB_AHB_SPARE_REG 0x110 /*! Secure boot registers. */ #define SB_CSR 0x0 #define SB_AA64_RESET_LOW 0x30 #define SB_AA64_RESET_HIGH 0x34 /*! SYSCTR0 registers. */ #define SYSCTR0_CNTFID0 0x20 #endif ================================================ FILE: modules/hekate_libsys_lp0/types.h ================================================ /* * Copyright (c) 2018 naehrwert * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _TYPES_H_ #define _TYPES_H_ #define NULL ((void *)0) #define ALIGN(x, a) (((x) + (a) - 1) & ~((a) - 1)) #define MAX(a, b) ((a) > (b) ? (a) : (b)) #define MIN(a, b) ((a) < (b) ? (a) : (b)) #define OFFSET_OF(t, m) ((u32)&((t *)NULL)->m) #define CONTAINER_OF(mp, t, mn) ((t *)((u32)mp - OFFSET_OF(t, mn))) typedef char s8; typedef short s16; typedef short SHORT; typedef int s32; typedef int INT; typedef long LONG; typedef long long int s64; typedef unsigned char u8; typedef unsigned char BYTE; typedef unsigned short u16; typedef unsigned short WORD; typedef unsigned short WCHAR; typedef unsigned int u32; typedef unsigned int UINT; typedef unsigned long DWORD; typedef unsigned long long QWORD; typedef unsigned long long int u64; typedef volatile unsigned char vu8; typedef volatile unsigned short vu16; typedef volatile unsigned int vu32; typedef int bool; #define true 1 #define false 0 #endif ================================================ FILE: modules/hekate_libsys_minerva/Makefile ================================================ ifeq ($(strip $(DEVKITARM)),) $(error "Please set DEVKITARM in your environment. export DEVKITARM=devkitARM") endif include $(DEVKITARM)/base_rules TARGET := libsys_minerva BUILDDIR := ../../build/$(TARGET) OUTPUTDIR := ../../output BDKDIR := bdk BDKINC := -I../../$(BDKDIR) # Track compiler flags TRACK_CFLAGS = $(BUILDDIR)/.cflags TRACK_LDFLAGS = $(BUILDDIR)/.ldflags OBJS = $(addprefix $(BUILDDIR)/,\ sys_sdrammtc.o \ ) ARCH := -march=armv4t -mtune=arm7tdmi -mthumb-interwork CFLAGS = $(ARCH) -O2 -nostdlib -fpie -ffunction-sections -fdata-sections -fomit-frame-pointer -std=gnu11 -Wall -Wsign-compare $(CUSTOMDEFINES) LDFLAGS = $(ARCH) -fpie -pie -nostartfiles -lgcc -Wl,-z,max-page-size=256 .PHONY: all all: $(TARGET).bso $(BUILDDIR)/%.o: ./%.c $(TRACK_CFLAGS) @$(CC) $(CFLAGS) $(BDKINC) -MMD -MP -c $< -o $@ $(TARGET).bso: $(OBJS) $(TRACK_LDFLAGS) @$(CC) $(LDFLAGS) -e minerva_entry $(OBJS) -o $(OUTPUTDIR)/$(TARGET).bso @$(STRIP) -g $(OUTPUTDIR)/$(TARGET).bso @echo "Built module: "$(TARGET)".bso" $(BUILDDIR): @mkdir -p "$(BUILDDIR)" # Non objects change detectors. $(TRACK_CFLAGS): $(BUILDDIR) @echo '$(CFLAGS)' | cmp -s - $@ || echo '$(CFLAGS)' > $@ $(TRACK_LDFLAGS): $(BUILDDIR) @echo '$(LDFLAGS)' | cmp -s - $@ || echo '$(LDFLAGS)' > $@ -include $(OBJS:.o=.d) ================================================ FILE: modules/hekate_libsys_minerva/README.md ================================================ # Minerva Training Cell ### Custom Nvidia Tegra X1 DRAM trainer. For more, check [Here](https://github.com/CTCaer/minerva_tc). ``` Minerva Training Cell (c) 2018 CTCaer. /* Pain... And suffering. */ ``` ================================================ FILE: modules/hekate_libsys_minerva/mtc.h ================================================ /* * Minerva Training Cell * DRAM Training for Tegra X1 SoC. Supports LPDDR4. * * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MTC_H_ #define _MTC_H_ #include "mtc_table.h" #include "types.h" /* Address bases and access macros - Change these for mapped access */ #define TMR_BASE 0x60005000 #define CLOCK_BASE 0x60006000 #define APB_MISC_BASE 0x70000000 #define FUSE_BASE 0x7000F800 #define MC_BASE 0x70019000 #define EMC_BASE 0x7001B000 #define EMC0_BASE 0x7001E000 #define EMC1_BASE 0x7001F000 #define MTC_INIT_MAGIC 0x3043544D #define MTC_NEW_MAGIC 0x5243544D #define MTC_IRB_MAGIC 0x4943544D #define MTC_INIT_FREQUENCY 204000 #define _REG(base, off) *(vu32 *)((base) + (off)) #define TMR(off) _REG(TMR_BASE, off) #define CLOCK(off) _REG(CLOCK_BASE, off) #define APB_MISC(off) _REG(APB_MISC_BASE, off) #define FUSE(off) _REG(FUSE_BASE, off) #define MC(off) _REG(MC_BASE, off) #define EMC(off) _REG(EMC_BASE, off) #define EMC_CH0(off) _REG(EMC0_BASE, off) #define EMC_CH1(off) _REG(EMC1_BASE, off) /* End of addresses and access macros */ #define EMC_TABLE_ENTRY_SIZE_R7 4928 #define EMC_TABLE_ENTRY_SIZE_R3 4300 #define EMC_TABLE_SIZE_ODINX02_R7 (EMC_TABLE_ENTRY_SIZE_R7 * 7) #define EMC_STATUS_UPDATE_TIMEOUT 2000 #define EMC_PERIODIC_TRAIN_MS 100 #define EMC_TEMP_COMP_MS 1000 /* Training types */ #define NEEDS_TRAINING_CA BIT(0) #define NEEDS_TRAINING_CA_VREF BIT(1) #define NEEDS_TRAINING_QUSE BIT(2) #define NEEDS_TRAINING_QUSE_VREF BIT(3) #define NEEDS_TRAINING_WR BIT(4) #define NEEDS_TRAINING_WR_VREF BIT(5) #define NEEDS_TRAINING_RD BIT(6) #define NEEDS_TRAINING_RD_VREF BIT(7) #define NEEDS_TRAINING_SWAP_RANK BIT(8) #define NEEDS_TRAINING_IN_SELF_REFRESH BIT(9) #define NEEDS_TRAINING (NEEDS_TRAINING_CA | NEEDS_TRAINING_CA_VREF | \ NEEDS_TRAINING_QUSE | NEEDS_TRAINING_WR | \ NEEDS_TRAINING_WR_VREF | NEEDS_TRAINING_RD | \ NEEDS_TRAINING_RD_VREF) #define NEEDS_TRAINING_CA_COMBO (NEEDS_TRAINING_CA | NEEDS_TRAINING_CA_VREF) #define NEEDS_TRAINING_QUSE_COMBO (NEEDS_TRAINING_QUSE | NEEDS_TRAINING_QUSE_VREF) #define NEEDS_TRAINING_WR_COMBO (NEEDS_TRAINING_WR | NEEDS_TRAINING_WR_VREF) #define NEEDS_TRAINING_RD_COMBO (NEEDS_TRAINING_RD | NEEDS_TRAINING_RD_VREF) typedef struct { u32 rate_to; u32 rate_from; emc_table_t *mtc_table; u32 table_entries; emc_table_t *current_emc_table; u32 train_mode; u32 sdram_id; u32 prev_temp; bool emc_2X_clk_src_is_pllmb; bool fsp_for_src_freq; bool train_ram_patterns; u32 init_done; } mtc_config_t; enum train_mode_t { OP_SWITCH = 0, OP_TRAIN = 1, OP_TRAIN_SWITCH = 2, OP_PERIODIC_TRAIN = 3, OP_TEMP_COMP = 4 }; enum comp_seq_t { DVFS_SEQUENCE = 1, WRITE_TRAINING_SEQUENCE = 2, PERIODIC_TRAINING_SEQUENCE = 3 }; enum tree_update_mode_t { DVFS_PT1 = 10, DVFS_UPDATE = 11, TRAINING_PT1 = 12, TRAINING_UPDATE = 13, PERIODIC_TRAINING_UPDATE = 14 }; enum emc_channels { EMC_CHANNEL0 = 0, EMC_CHANNEL1 = 1 }; enum EMC_2X_CLK_SRC { PLLM_OUT0 = 0x0, PLLC_OUT0 = 0x1, PLLP_OUT0 = 0x2, CLK_M = 0x3, PLLM_UD = 0x4, PLLMB_UD = 0x5, PLLMB_OUT0 = 0x6, PLLP_UD = 0x7 }; enum DRAM_TYPE { DRAM_TYPE_DDR3 = 0, DRAM_TYPE_LPDDR4 = 1, DRAM_TYPE_LPDDR2 = 2, DRAM_TYPE_DDR2 = 3 }; enum DRAM_DEV_NO { ONE_RANK = 1, TWO_RANK = 2 }; enum DRAM_OVER_TEMP_REF { REFRESH_X2 = 1, REFRESH_X4 = 2 }; /* Timers for the below two compensation functions should be paused when changing timings. */ /* Change refresh rate based on dram temps. Run every 1000ms. */ /* Timer should be run only when another component reports over temperature. */ void _minerva_do_over_temp_compensation(mtc_config_t *mtc_cfg); /* Periodic compensation only for tight timings that need it. Run every 100ms. */ /* Over temp and periodic compensation, should not access EMC_MRR at the same time. */ u32 _minerva_do_periodic_compensation(emc_table_t *mtc_table_entry); #endif ================================================ FILE: modules/hekate_libsys_minerva/mtc_mc_emc_regs.h ================================================ /* * Minerva Training Cell * DRAM Training for Tegra X1 SoC. Supports LPDDR4. * * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MTC_MC_EMC_REGS_H_ #define _MTC_MC_EMC_REGS_H_ /* APB misc registers */ #define APB_MISC_GP_HIDREV 0x804 #define HIDREV_MAJOR_T210 0x1 #define HIDREV_MAJOR_T210B01 0x2 #define HIDREV_CHIPID_T210 0x21 /* Fuse registers */ #define FUSE_SKU_INFO 0x110 #define SKU_ODIN 0x83 /* Clock controller registers */ #define CLK_RST_CONTROLLER_PLLM_BASE 0x90 #define CLK_RST_CONTROLLER_PLLM_MISC2 0x9C #define PLLM_ENABLE (1 << 30) #define PLLM_LOCK (1 << 27) #define PLLM_EN_LCKDET (1 << 4) #define CLK_RST_CONTROLLER_CLK_SOURCE_EMC 0x19C #define EMC_2X_CLK_SRC_SHIFT 29 #define CLK_RST_CONTROLLER_CLK_OUT_ENB_X 0x280 #define CLK_RST_CONTROLLER_CLK_ENB_X_SET 0x284 #define CLK_RST_CONTROLLER_CLK_ENB_X_CLR 0x288 #define CLK_RST_CONTROLLER_PLLMB_BASE 0x5E8 #define CLK_RST_CONTROLLER_CLK_SOURCE_EMC_DLL 0x664 #define EMC_DLL_PLLM_VCOB (1 << 10) #define EMC_DLL_SWITCH_OUT (1 << 11) #define CLK_RST_CONTROLLER_CLK_SOURCE_EMC_SAFE 0x724 /* Memory controller registers */ #define MC_EMEM_ADR_CFG 0x54 #define MC_EMEM_ARB_CFG 0x90 #define MC_EMEM_ARB_OUTSTANDING_REQ 0x94 #define MC_EMEM_ARB_TIMING_RCD 0x98 #define MC_EMEM_ARB_TIMING_RP 0x9C #define MC_EMEM_ARB_TIMING_RC 0xA0 #define MC_EMEM_ARB_TIMING_RAS 0xA4 #define MC_EMEM_ARB_TIMING_FAW 0xA8 #define MC_EMEM_ARB_TIMING_RRD 0xAC #define MC_EMEM_ARB_TIMING_RAP2PRE 0xB0 #define MC_EMEM_ARB_TIMING_WAP2PRE 0xB4 #define MC_EMEM_ARB_TIMING_R2R 0xB8 #define MC_EMEM_ARB_TIMING_W2W 0xBC #define MC_EMEM_ARB_TIMING_R2W 0xC0 #define MC_EMEM_ARB_TIMING_W2R 0xC4 #define MC_EMEM_ARB_MISC2 0xC8 #define MC_EMEM_ARB_DA_TURNS 0xD0 #define MC_EMEM_ARB_DA_COVERS 0xD4 #define MC_EMEM_ARB_MISC0 0xD8 #define MC_EMEM_ARB_MISC1 0xDC #define MC_EMEM_ARB_RING1_THROTTLE 0xE0 #define MC_LATENCY_ALLOWANCE_AVPC_0 0x2E4 #define MC_LATENCY_ALLOWANCE_HC_0 0x310 #define MC_LATENCY_ALLOWANCE_HC_1 0x314 #define MC_LATENCY_ALLOWANCE_MPCORE_0 0x320 #define MC_LATENCY_ALLOWANCE_NVENC_0 0x328 #define MC_LATENCY_ALLOWANCE_PPCS_0 0x344 #define MC_LATENCY_ALLOWANCE_PPCS_1 0x348 #define MC_LATENCY_ALLOWANCE_ISP2_0 0x370 #define MC_LATENCY_ALLOWANCE_ISP2_1 0x374 #define MC_LATENCY_ALLOWANCE_XUSB_0 0x37C #define MC_LATENCY_ALLOWANCE_XUSB_1 0x380 #define MC_LATENCY_ALLOWANCE_TSEC_0 0x390 #define MC_LATENCY_ALLOWANCE_VIC_0 0x394 #define MC_LATENCY_ALLOWANCE_VI2_0 0x398 #define MC_LATENCY_ALLOWANCE_GPU_0 0x3AC #define MC_LATENCY_ALLOWANCE_SDMMCA_0 0x3B8 #define MC_LATENCY_ALLOWANCE_SDMMCAA_0 0x3BC #define MC_LATENCY_ALLOWANCE_SDMMC_0 0x3C0 #define MC_LATENCY_ALLOWANCE_SDMMCAB_0 0x3C4 #define MC_LATENCY_ALLOWANCE_NVDEC_0 0x3D8 #define MC_LATENCY_ALLOWANCE_GPU2_0 0x3E8 #define MC_MLL_MPCORER_PTSA_RATE 0x44C #define MC_FTOP_PTSA_RATE 0x50C #define MC_EMEM_ARB_TIMING_RFCPB 0x6C0 #define MC_EMEM_ARB_TIMING_CCDMW 0x6C4 #define MC_EMEM_ARB_REFPB_HP_CTRL 0x6F0 #define MC_EMEM_ARB_REFPB_BANK_CTRL 0x6F4 #define MC_PTSA_GRANT_DECREMENT 0x960 #define MC_EMEM_ARB_DHYST_CTRL 0xBCC #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_0 0xBD0 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_1 0xBD4 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_2 0xBD8 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_3 0xBDC #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_4 0xBE0 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_5 0xBE4 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_6 0xBE8 #define MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_7 0xBEC /* External Memory controller registers */ #define EMC_INTSTATUS 0x0 #define CLKCHANGE_COMPLETE_INT (1 << 4) #define EMC_DBG 0x8 #define EMC_DBG_READ_MUX_ASSEMBLY BIT(0) #define EMC_DBG_WRITE_MUX_ACTIVE BIT(1) #define EMC_DBG_CFG_SWAP_ACTIVE_ONLY (0 << 26u) #define EMC_DBG_CFG_SWAP_SWAP (1 << 26u) #define EMC_DBG_CFG_SWAP_ASSEMBLY_ONLY (2 << 26u) #define EMC_DBG_CFG_SWAP_MASK (3 << 26u) #define EMC_DBG_WRITE_ACTIVE_ONLY BIT(30) #define EMC_CFG 0xC #define EMC_PIN 0x24 #define EMC_TIMING_CONTROL 0x28 #define EMC_RC 0x2C #define EMC_RFC 0x30 #define EMC_RAS 0x34 #define EMC_RP 0x38 #define EMC_R2W 0x3C #define EMC_W2R 0x40 #define EMC_R2P 0x44 #define EMC_W2P 0x48 #define EMC_RD_RCD 0x4C #define EMC_WR_RCD 0x50 #define EMC_RRD 0x54 #define EMC_REXT 0x58 #define EMC_WDV 0x5C #define EMC_QUSE 0x60 #define EMC_QRST 0x64 #define EMC_QSAFE 0x68 #define EMC_RDV 0x6C #define EMC_REFRESH 0x70 #define EMC_BURST_REFRESH_NUM 0x74 #define EMC_PDEX2WR 0x78 #define EMC_PDEX2RD 0x7C #define EMC_PCHG2PDEN 0x80 #define EMC_ACT2PDEN 0x84 #define EMC_AR2PDEN 0x88 #define EMC_RW2PDEN 0x8C #define EMC_TXSR 0x90 #define EMC_TCKE 0x94 #define EMC_TFAW 0x98 #define EMC_TRPAB 0x9C #define EMC_TCLKSTABLE 0xA0 #define EMC_TCLKSTOP 0xA4 #define EMC_TREFBW 0xA8 #define EMC_TPPD 0xAC #define EMC_ODT_WRITE 0xB0 #define EMC_PDEX2MRR 0xB4 #define EMC_WEXT 0xB8 #define EMC_RFC_SLR 0xC0 #define EMC_MRS_WAIT_CNT2 0xC4 #define EMC_MRS_WAIT_CNT 0xC8 #define EMC_MRS 0xCC #define EMC_EMRS 0xD0 #define EMC_REF 0xD4 #define EMC_MRW 0xE8 #define EMC_SELF_REF 0xE0 #define EMC_MRR 0xEC #define EMC_FBIO_SPARE 0x100 #define EMC_FBIO_CFG5 0x104 #define EMC_PDEX2CKE 0x118 #define EMC_CKE2PDEN 0x11C #define EMC_MPC 0x128 #define EMC_EMRS2 0x12C #define EMC_MRW2 0x134 #define EMC_MRW3 0x138 #define EMC_MRW4 0x13C #define EMC_R2R 0x144 #define EMC_EINPUT 0x14C #define EMC_EINPUT_DURATION 0x150 #define EMC_PUTERM_EXTRA 0x154 #define EMC_TCKESR 0x158 #define EMC_TPD 0x15C #define EMC_AUTO_CAL_CONFIG 0x2A4 #define EMC_EMC_STATUS 0x2B4 #define TIMING_UPDATE_STALLED (1 << 23) #define MRR_DIVLD (1 << 20) #define IN_SELF_REFRESH_MASK (3 << 8) #define IN_POWERDOWN_BOTH_MASK (3 << 4) #define IN_POWERDOWN_1DEV_MASK (1 << 4) #define REQ_FIFO_EMPTY (1 << 0) #define EMC_CFG_2 0x2B8 #define EMC_CFG_DIG_DLL 0x2BC #define EMC_CFG_DIG_DLL_PERIOD 0x2C0 #define EMC_DIG_DLL_STATUS 0x2C4 #define EMC_RDV_MASK 0x2CC #define EMC_WDV_MASK 0x2D0 #define EMC_RDV_EARLY_MASK 0x2D4 #define EMC_RDV_EARLY 0x2D8 #define EMC_AUTO_CAL_CONFIG8 0x2DC #define EMC_ZCAL_INTERVAL 0x2E0 #define EMC_ZCAL_WAIT_CNT 0x2E4 #define EMC_ZQ_CAL 0x2EC #define EMC_FDPD_CTRL_DQ 0x310 #define EMC_FDPD_CTRL_CMD 0x314 #define EMC_PMACRO_CMD_BRICK_CTRL_FDPD 0x318 #define EMC_PMACRO_DATA_BRICK_CTRL_FDPD 0x31C #define EMC_SCRATCH0 0x324 #define EMC_PMACRO_BRICK_CTRL_RFU1 0x330 #define EMC_PMACRO_BRICK_CTRL_RFU2 0x334 #define EMC_TR_TIMING_0 0x3B4 #define EMC_TR_CTRL_0 0x3B8 #define EMC_TR_CTRL_1 0x3BC #define EMC_SWITCH_BACK_CTRL 0x3C0 #define EMC_TR_RDV 0x3C4 #define EMC_STALL_THEN_EXE_AFTER_CLKCHANGE 0x3CC #define EMC_SEL_DPD_CTRL 0x3D8 #define EMC_PRE_REFRESH_REQ_CNT 0x3DC #define EMC_DYN_SELF_REF_CONTROL 0x3E0 #define EMC_TXSRDLL 0x3E4 #define EMC_CCFIFO_ADDR 0x3E8 #define EMC_CCFIFO_DATA 0x3EC #define EMC_CCFIFO_STATUS 0x3F0 #define EMC_TR_QPOP 0x3F4 #define EMC_TR_RDV_MASK 0x3F8 #define EMC_TR_QSAFE 0x3FC #define EMC_TR_QRST 0x400 #define EMC_AUTO_CAL_CONFIG2 0x458 #define EMC_AUTO_CAL_CONFIG3 0x45C #define EMC_TR_DVFS 0x460 #define EMC_AUTO_CAL_CHANNEL 0x464 #define EMC_IBDLY 0x468 #define EMC_OBDLY 0x46c #define EMC_TXDSRVTTGEN 0x480 #define EMC_WE_DURATION 0x48C #define EMC_WS_DURATION 0x490 #define EMC_WEV 0x494 #define EMC_WSV 0x498 #define EMC_CFG_3 0x49C #define EMC_MRW6 0x4A4 #define EMC_MRW7 0x4A8 #define EMC_MRW8 0x4AC #define EMC_MRW14 0x4C4 #define EMC_MRW15 0x4D0 #define EMC_CFG_SYNC 0x4D4 #define EMC_FDPD_CTRL_CMD_NO_RAMP 0x4D8 #define EMC_WDV_CHK 0x4E0 #define EMC_CFG_PIPE_2 0x554 #define EMC_CFG_PIPE_CLK 0x558 #define EMC_CFG_PIPE_1 0x55C #define EMC_CFG_PIPE 0x560 #define EMC_QPOP 0x564 #define EMC_QUSE_WIDTH 0x568 #define EMC_PUTERM_WIDTH 0x56C #define EMC_AUTO_CAL_CONFIG7 0x574 #define EMC_REFCTRL2 0x580 #define EMC_FBIO_CFG7 0x584 #define EMC_DATA_BRLSHFT_0 0x588 #define EMC_DATA_BRLSHFT_0_RANK0_BYTE0_DATA_BRLSHFT_SHIFT 0 #define EMC_DATA_BRLSHFT_0_RANK0_BYTE1_DATA_BRLSHFT_SHIFT 3 #define EMC_DATA_BRLSHFT_0_RANK0_BYTE2_DATA_BRLSHFT_SHIFT 6 #define EMC_DATA_BRLSHFT_0_RANK0_BYTE3_DATA_BRLSHFT_SHIFT 9 #define EMC_DATA_BRLSHFT_0_RANK0_BYTE4_DATA_BRLSHFT_SHIFT 12 #define EMC_DATA_BRLSHFT_0_RANK0_BYTE5_DATA_BRLSHFT_SHIFT 15 #define EMC_DATA_BRLSHFT_0_RANK0_BYTE6_DATA_BRLSHFT_SHIFT 18 #define EMC_DATA_BRLSHFT_0_RANK0_BYTE7_DATA_BRLSHFT_SHIFT 21 #define EMC_DATA_BRLSHFT_1 0x58C #define EMC_DATA_BRLSHFT_1_RANK1_BYTE0_DATA_BRLSHFT_SHIFT 0 #define EMC_DATA_BRLSHFT_1_RANK1_BYTE1_DATA_BRLSHFT_SHIFT 3 #define EMC_DATA_BRLSHFT_1_RANK1_BYTE2_DATA_BRLSHFT_SHIFT 6 #define EMC_DATA_BRLSHFT_1_RANK1_BYTE3_DATA_BRLSHFT_SHIFT 9 #define EMC_DATA_BRLSHFT_1_RANK1_BYTE4_DATA_BRLSHFT_SHIFT 12 #define EMC_DATA_BRLSHFT_1_RANK1_BYTE5_DATA_BRLSHFT_SHIFT 15 #define EMC_DATA_BRLSHFT_1_RANK1_BYTE6_DATA_BRLSHFT_SHIFT 18 #define EMC_DATA_BRLSHFT_1_RANK1_BYTE7_DATA_BRLSHFT_SHIFT 21 #define EMC_RFCPB 0x590 #define EMC_DQS_BRLSHFT_0 0x594 #define EMC_DQS_BRLSHFT_1 0x598 #define EMC_CMD_BRLSHFT_0 0x59C #define EMC_CMD_BRLSHFT_1 0x5A0 #define EMC_CMD_BRLSHFT_2 0x5A4 #define EMC_CMD_BRLSHFT_3 0x5A8 #define EMC_QUSE_BRLSHFT_0 0x5AC #define EMC_AUTO_CAL_CONFIG4 0x5B0 #define EMC_AUTO_CAL_CONFIG5 0x5B4 #define EMC_QUSE_BRLSHFT_1 0x5B8 #define EMC_QUSE_BRLSHFT_2 0x5BC #define EMC_CCDMW 0x5C0 #define EMC_QUSE_BRLSHFT_3 0x5C4 #define EMC_AUTO_CAL_CONFIG6 0x5CC #define EMC_DLL_CFG_0 0x5E4 #define EMC_DLL_CFG_1 0x5E8 #define EMC_CONFIG_SAMPLE_DELAY 0x5F0 #define EMC_CFG_UPDATE 0x5F4 #define EMC_PMACRO_QUSE_DDLL_RANK0_0 0x600 #define EMC_PMACRO_QUSE_DDLL_RANK0_1 0x604 #define EMC_PMACRO_QUSE_DDLL_RANK0_2 0x608 #define EMC_PMACRO_QUSE_DDLL_RANK0_3 0x60C #define EMC_PMACRO_QUSE_DDLL_RANK0_4 0x610 #define EMC_PMACRO_QUSE_DDLL_RANK0_5 0x614 #define EMC_PMACRO_QUSE_DDLL_RANK1_4 0x630 #define EMC_PMACRO_QUSE_DDLL_RANK1_5 0x634 #define EMC_PMACRO_QUSE_DDLL_RANK1_0 0x620 #define EMC_PMACRO_QUSE_DDLL_RANK1_1 0x624 #define EMC_PMACRO_QUSE_DDLL_RANK1_2 0x628 #define EMC_PMACRO_QUSE_DDLL_RANK1_3 0x62C #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0 0x640 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1 0x644 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2 0x648 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3 0x64C #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_4 0x650 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_5 0x654 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0 0x660 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1 0x664 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2 0x668 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3 0x66C #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_4 0x670 #define EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_5 0x674 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_0 0x680 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_1 0x684 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_2 0x688 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_3 0x68C #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_4 0x690 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_5 0x694 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_0 0x6A0 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_1 0x6A4 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_2 0x6A8 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_3 0x6AC #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_4 0x6B0 #define EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_5 0x6B4 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_0 0x6C0 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_1 0x6C4 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_2 0x6C8 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_3 0x6CC #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_0 0x6E0 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_1 0x6E4 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_2 0x6E8 #define EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_3 0x6EC #define EMC_PMACRO_TX_PWRD_0 0x720 #define EMC_PMACRO_TX_PWRD_1 0x724 #define EMC_PMACRO_TX_PWRD_2 0x728 #define EMC_PMACRO_TX_PWRD_3 0x72C #define EMC_PMACRO_TX_PWRD_4 0x730 #define EMC_PMACRO_TX_PWRD_5 0x734 #define EMC_PMACRO_TX_SEL_CLK_SRC_0 0x740 #define EMC_PMACRO_TX_SEL_CLK_SRC_1 0x744 #define EMC_PMACRO_TX_SEL_CLK_SRC_3 0x74C #define EMC_PMACRO_TX_SEL_CLK_SRC_2 0x748 #define EMC_PMACRO_TX_SEL_CLK_SRC_4 0x750 #define EMC_PMACRO_TX_SEL_CLK_SRC_5 0x754 #define EMC_PMACRO_DDLL_BYPASS 0x760 #define EMC_PMACRO_DDLL_PWRD_0 0x770 #define EMC_PMACRO_DDLL_PWRD_1 0x774 #define EMC_PMACRO_DDLL_PWRD_2 0x778 #define EMC_PMACRO_CMD_CTRL_0 0x780 #define EMC_PMACRO_CMD_CTRL_1 0x784 #define EMC_PMACRO_CMD_CTRL_2 0x788 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_0 0x800 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_1 0x804 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_2 0x808 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_3 0x80C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_0 0x810 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_1 0x814 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_2 0x818 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_3 0x81C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_0 0x820 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_1 0x824 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_2 0x828 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_3 0x82C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_0 0x830 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_1 0x834 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_2 0x838 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_3 0x83C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_0 0x840 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_1 0x844 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_2 0x848 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_3 0x84C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_0 0x850 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_1 0x854 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_2 0x858 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_3 0x85C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_0 0x860 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_1 0x864 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_2 0x868 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_3 0x86C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_0 0x870 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_1 0x874 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_2 0x878 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_3 0x87C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_0 0x880 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_1 0x884 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_2 0x888 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_3 0x88C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_0 0x890 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_1 0x894 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_2 0x898 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_3 0x89C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_0 0x8A0 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_1 0x8A4 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_2 0x8A8 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_3 0x8AC #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_0 0x8B0 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_1 0x8B4 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_2 0x8B8 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_3 0x8BC #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_0 0x900 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_1 0x904 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_2 0x908 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_3 0x90C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_0 0x910 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_1 0x914 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_2 0x918 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_3 0x91C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_0 0x920 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_1 0x924 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_2 0x928 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_3 0x92C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_0 0x930 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_1 0x934 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_2 0x938 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_3 0x93C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_0 0x940 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_1 0x944 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_2 0x948 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_3 0x94C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_0 0x950 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_1 0x954 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_2 0x958 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_3 0x95C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_0 0x960 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_1 0x964 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_2 0x968 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_3 0x96C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_0 0x970 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_1 0x974 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_2 0x978 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_3 0x97C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_0 0x980 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_1 0x984 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_2 0x988 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_3 0x98C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_0 0x990 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_1 0x994 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_2 0x998 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_3 0x99C #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_0 0x9A0 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_1 0x9A4 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_2 0x9A8 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_3 0x9AC #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_0 0x9B0 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_1 0x9B4 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_2 0x9B8 #define EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_3 0x9BC #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_0 0xA00 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_1 0xA04 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_2 0xA08 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_0 0xA10 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_1 0xA14 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_2 0xA18 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_0 0xA20 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_1 0xA24 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_2 0xA28 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_0 0xA30 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_1 0xA34 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_2 0xA38 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_0 0xA40 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_1 0xA44 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_2 0xA48 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_0 0xA50 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_1 0xA54 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_2 0xA58 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_0 0xA60 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_1 0xA64 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_2 0xA68 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_0 0xA70 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_1 0xA74 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_2 0xA78 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_0 0xB00 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_1 0xB04 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_2 0xB08 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_0 0xB10 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_1 0xB14 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_2 0xB18 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_0 0xB20 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_1 0xB24 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_2 0xB28 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_0 0xB30 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_1 0xB34 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_2 0xB38 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_0 0xB40 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_1 0xB44 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_2 0xB48 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_0 0xB50 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_1 0xB54 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_2 0xB58 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_0 0xB60 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_1 0xB64 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_2 0xB68 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_0 0xB70 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_1 0xB74 #define EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_2 0xB78 #define EMC_PMACRO_IB_VREF_DQ_0 0xBE0 #define EMC_PMACRO_IB_VREF_DQ_1 0xBE4 #define EMC_PMACRO_IB_VREF_DQS_0 0xBF0 #define EMC_PMACRO_IB_VREF_DQS_1 0xBF4 #define EMC_PMACRO_DDLL_LONG_CMD_0 0xC00 #define EMC_PMACRO_DDLL_LONG_CMD_1 0xC04 #define EMC_PMACRO_DDLL_LONG_CMD_2 0xC08 #define EMC_PMACRO_DDLL_LONG_CMD_3 0xC0C #define EMC_PMACRO_DDLL_LONG_CMD_4 0xC10 #define EMC_PMACRO_DDLL_SHORT_CMD_0 0xC20 #define EMC_PMACRO_DDLL_SHORT_CMD_1 0xC24 #define EMC_PMACRO_DDLL_SHORT_CMD_2 0xC28 #define EMC_PMACRO_CFG_PM_GLOBAL_0 0xC30 #define EMC_PMACRO_VTTGEN_CTRL_0 0xC34 #define EMC_PMACRO_VTTGEN_CTRL_1 0xC38 #define EMC_PMACRO_BG_BIAS_CTRL_0 0xC3C #define EMC_PMACRO_PAD_CFG_CTRL 0xC40 #define EMC_PMACRO_ZCTRL 0xC44 #define EMC_PMACRO_CMD_PAD_RX_CTRL 0xC50 #define EMC_PMACRO_DATA_PAD_RX_CTRL 0xC54 #define EMC_PMACRO_CMD_RX_TERM_MODE 0xC58 #define EMC_PMACRO_DATA_RX_TERM_MODE 0xC5C #define EMC_PMACRO_CMD_PAD_TX_CTRL 0xC60 #define EMC_PMACRO_DATA_PAD_TX_CTRL 0xC64 #define EMC_PMACRO_COMMON_PAD_TX_CTRL 0xC68 #define EMC_PMACRO_AUTOCAL_CFG_COMMON 0xC78 #define EMC_PMACRO_VTTGEN_CTRL_2 0xCF0 #define EMC_PMACRO_IB_RXRT 0xCF4 #define EMC_PMACRO_TRAINING_CTRL_0 0xCF8 #define CH0_TRAINING_E_WRPTR (1 << 3) #define EMC_PMACRO_TRAINING_CTRL_1 0xCFC #define EMC_TRAINING_CMD 0xE00 #define EMC_TRAINING_CTRL 0xE04 #define EMC_TRAINING_STATUS 0xE08 #define EMC_TRAINING_QUSE_CORS_CTRL 0xE0C #define EMC_TRAINING_QUSE_FINE_CTRL 0xE10 #define EMC_TRAINING_QUSE_CTRL_MISC 0xE14 #define EMC_TRAINING_WRITE_FINE_CTRL 0xE18 #define EMC_TRAINING_WRITE_CTRL_MISC 0xE1C #define EMC_TRAINING_WRITE_VREF_CTRL 0xE20 #define EMC_TRAINING_READ_FINE_CTRL 0xE24 #define EMC_TRAINING_READ_CTRL_MISC 0xE28 #define EMC_TRAINING_READ_VREF_CTRL 0xE2C #define EMC_TRAINING_CA_FINE_CTRL 0xE30 #define EMC_TRAINING_CA_CTRL_MISC 0xE34 #define EMC_TRAINING_CA_CTRL_MISC1 0xE38 #define EMC_TRAINING_CA_VREF_CTRL 0xE3C #define EMC_TRAINING_SETTLE 0xE44 #define EMC_TRAINING_MPC 0xE5C #define EMC_TRAINING_PATRAM_CTRL 0xE60 #define EMC_TRAINING_PATRAM_DQ 0xE64 #define EMC_TRAINING_PATRAM_DMI 0xE68 #define EMC_TRAINING_VREF_SETTLE 0xE6C #define EMC_TRAINING_OPT_CA_VREF 0xEC0 #define EMC_TRAINING_OPT_DQ_OB_VREF 0xEC4 #define EMC_TRAINING_QUSE_VREF_CTRL 0xED0 #define EMC_TRAINING_OPT_DQS_IB_VREF_RANK0 0xED4 #define EMC_TRAINING_OPT_DQS_IB_VREF_RANK1 0xED8 /* Per channel registers offsets. Should be used with EMC_BASE */ #define EMC0_MRW10 0x34B4 #define EMC0_MRW11 0x34B8 #define EMC0_MRW12 0x34BC #define EMC0_MRW13 0x34C0 #define EMC0_DATA_BRLSHFT_0 0x3588 #define EMC0_DATA_BRLSHFT_1 0x358C #define EMC0_CMD_BRLSHFT_0 0x359C #define EMC0_QUSE_BRLSHFT_0 0x35AC #define EMC0_QUSE_BRLSHFT_2 0x35BC #define EMC0_TRAINING_RW_OFFSET_IB_BYTE0 0x3E98 #define EMC0_TRAINING_RW_OFFSET_IB_BYTE1 0x3E9C #define EMC0_TRAINING_RW_OFFSET_IB_BYTE2 0x3EA0 #define EMC0_TRAINING_RW_OFFSET_IB_BYTE3 0x3EA4 #define EMC0_TRAINING_RW_OFFSET_IB_MISC 0x3EA8 #define EMC0_TRAINING_RW_OFFSET_OB_BYTE0 0x3EAC #define EMC0_TRAINING_RW_OFFSET_OB_BYTE1 0x3EB0 #define EMC0_TRAINING_RW_OFFSET_OB_BYTE2 0x3EB4 #define EMC0_TRAINING_RW_OFFSET_OB_BYTE3 0x3EB8 #define EMC0_TRAINING_RW_OFFSET_OB_MISC 0x3EBC #define EMC0_TRAINING_OPT_DQS_IB_VREF_RANK0 0x3ED4 #define EMC0_TRAINING_OPT_DQS_IB_VREF_RANK1 0x3ED8 #define EMC1_MRW10 0x44B4 #define EMC1_MRW11 0x44B8 #define EMC1_MRW12 0x44BC #define EMC1_MRW13 0x44C0 #define EMC1_DATA_BRLSHFT_0 0x4588 #define EMC1_DATA_BRLSHFT_1 0x458C #define EMC1_CMD_BRLSHFT_1 0x45A0 #define EMC1_QUSE_BRLSHFT_1 0x45B8 #define EMC1_QUSE_BRLSHFT_3 0x45C4 #define EMC1_TRAINING_RW_OFFSET_IB_BYTE0 0x4E98 #define EMC1_TRAINING_RW_OFFSET_IB_BYTE1 0x4E9C #define EMC1_TRAINING_RW_OFFSET_IB_BYTE2 0x4EA0 #define EMC1_TRAINING_RW_OFFSET_IB_BYTE3 0x4EA4 #define EMC1_TRAINING_RW_OFFSET_IB_MISC 0x4EA8 #define EMC1_TRAINING_RW_OFFSET_OB_BYTE0 0x4EAC #define EMC1_TRAINING_RW_OFFSET_OB_BYTE1 0x4EB0 #define EMC1_TRAINING_RW_OFFSET_OB_BYTE2 0x4EB4 #define EMC1_TRAINING_RW_OFFSET_OB_BYTE3 0x4EB8 #define EMC1_TRAINING_RW_OFFSET_OB_MISC 0x4EBC #define EMC1_TRAINING_OPT_DQS_IB_VREF_RANK0 0x4ED4 #define EMC1_TRAINING_OPT_DQS_IB_VREF_RANK1 0x4ED8 #define EMC_PMACRO_OB_DDLL_LONG_DQ_BYTE0_SHIFT 0 #define EMC_PMACRO_OB_DDLL_LONG_DQ_BYTE1_SHIFT 16 #define EMC_PMACRO_OB_DDLL_LONG_DQ_BYTE2_SHIFT 0 #define EMC_PMACRO_OB_DDLL_LONG_DQ_BYTE3_SHIFT 16 #define EMC_PMACRO_OB_DDLL_LONG_DQ_BYTE4_SHIFT 0 #define EMC_PMACRO_OB_DDLL_LONG_DQ_BYTE5_SHIFT 16 #define EMC_PMACRO_OB_DDLL_LONG_DQ_BYTE6_SHIFT 0 #define EMC_PMACRO_OB_DDLL_LONG_DQ_BYTE7_SHIFT 16 #endif ================================================ FILE: modules/hekate_libsys_minerva/mtc_switch_tables.h ================================================ /* * Minerva Training Cell * DRAM Training for Tegra X1 SoC. Supports LPDDR4. * * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MTC_SWITCH_TABLES_H_ #define _MTC_SWITCH_TABLES_H_ #define DRAM_4GB_SAMSUNG_K4F6E304HB_MGCH 0 #define DRAM_4GB_HYNIX_H9HCNNNBPUMLHR_NLN 1 #define DRAM_4GB_MICRON_MT53B512M32D2NP_062_WT 2 #define DRAM_4GB_COPPER_SAMSUNG 3 #define DRAM_6GB_SAMSUNG_K4FHE3D4HM_MFCH 4 #define DRAM_4GB_COPPER_HYNIX 5 #define DRAM_4GB_COPPER_MICRON 6 #define DRAM_8GB_SAMSUNG_K4FBE3D4HM_MGXX 7 // odinx02_a2_0_3 and odinx02_a2_1. For sdram ids 0,2,3,4 static const unsigned char odinx02_a2_0_3_10NoCfgVersion_V9_8_7_V1_6[EMC_TABLE_SIZE_ODINX02_R7] = { 0x07, 0x00, 0x00, 0x00, 0x31, 0x30, 0x5F, 0x32, 0x30, 0x34, 0x30, 0x30, 0x30, 0x5F, 0x4E, 0x6F, 0x43, 0x66, 0x67, 0x56, 0x65, 0x72, 0x73, 0x69, 0x6F, 0x6E, 0x5F, 0x56, 0x39, 0x2E, 0x38, 0x2E, 0x37, 0x5F, 0x56, 0x31, 0x2E, 0x36, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xE0, 0x1C, 0x03, 0x00, 0x20, 0x03, 0x00, 0x00, 0x4C, 0x04, 0x00, 0x00, 0x70, 0x6C, 0x6C, 0x70, 0x5F, 0x6F, 0x75, 0x74, 0x30, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x80, 0x18, 0x40, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 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For sdram id 1. static const unsigned char odinx02_a2_2_10NoCfgVersion_V9_8_7_V1_6[EMC_TABLE_SIZE_ODINX02_R7] = { 0x07, 0x00, 0x00, 0x00, 0x31, 0x30, 0x5F, 0x32, 0x30, 0x34, 0x30, 0x30, 0x30, 0x5F, 0x4E, 0x6F, 0x43, 0x66, 0x67, 0x56, 0x65, 0x72, 0x73, 0x69, 0x6F, 0x6E, 0x5F, 0x56, 0x39, 0x2E, 0x38, 0x2E, 0x37, 0x5F, 0x56, 0x31, 0x2E, 0x36, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xE0, 0x1C, 0x03, 0x00, 0x20, 0x03, 0x00, 0x00, 0x4C, 0x04, 0x00, 0x00, 0x70, 0x6C, 0x6C, 0x70, 0x5F, 0x6F, 0x75, 0x74, 0x30, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x80, 0x18, 0x40, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 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modules/hekate_libsys_minerva/mtc_table.h ================================================ /* * Minerva Training Cell * DRAM Training for Tegra X1 SoC. Supports DDR2/3 and LPDDR3/4. * * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _MTC_TABLE_H_ #define _MTC_TABLE_H_ #include "types.h" typedef struct { u32 pll_osc_in; u32 pll_out; u32 pll_feedback_div; u32 pll_input_div; u32 pll_post_div; } pllm_clk_config_t; typedef struct { u32 emc_rc; u32 emc_rfc; u32 emc_rfcpb; u32 emc_refctrl2; u32 emc_rfc_slr; u32 emc_ras; u32 emc_rp; u32 emc_r2w; u32 emc_w2r; u32 emc_r2p; u32 emc_w2p; u32 emc_r2r; u32 emc_tppd; u32 emc_ccdmw; u32 emc_rd_rcd; u32 emc_wr_rcd; u32 emc_rrd; u32 emc_rext; u32 emc_wext; u32 emc_wdv_chk; u32 emc_wdv; u32 emc_wsv; u32 emc_wev; u32 emc_wdv_mask; u32 emc_ws_duration; u32 emc_we_duration; u32 emc_quse; u32 emc_quse_width; u32 emc_ibdly; u32 emc_obdly; u32 emc_einput; u32 emc_mrw6; u32 emc_einput_duration; u32 emc_puterm_extra; u32 emc_puterm_width; u32 emc_qrst; u32 emc_qsafe; u32 emc_rdv; u32 emc_rdv_mask; u32 emc_rdv_early; u32 emc_rdv_early_mask; u32 emc_refresh; u32 emc_burst_refresh_num; u32 emc_pre_refresh_req_cnt; u32 emc_pdex2wr; u32 emc_pdex2rd; u32 emc_pchg2pden; u32 emc_act2pden; u32 emc_ar2pden; u32 emc_rw2pden; u32 emc_cke2pden; u32 emc_pdex2cke; u32 emc_pdex2mrr; u32 emc_txsr; u32 emc_txsrdll; u32 emc_tcke; u32 emc_tckesr; u32 emc_tpd; u32 emc_tfaw; u32 emc_trpab; u32 emc_tclkstable; u32 emc_tclkstop; u32 emc_mrw7; u32 emc_trefbw; u32 emc_odt_write; u32 emc_fbio_cfg5; u32 emc_fbio_cfg7; u32 emc_cfg_dig_dll; u32 emc_cfg_dig_dll_period; u32 emc_pmacro_ib_rxrt; u32 emc_cfg_pipe_1; u32 emc_cfg_pipe_2; u32 emc_pmacro_quse_ddll_rank0_4; u32 emc_pmacro_quse_ddll_rank0_5; u32 emc_pmacro_quse_ddll_rank1_4; u32 emc_pmacro_quse_ddll_rank1_5; u32 emc_mrw8; u32 emc_pmacro_ob_ddll_long_dq_rank1_4; u32 emc_pmacro_ob_ddll_long_dq_rank1_5; u32 emc_pmacro_ob_ddll_long_dqs_rank0_0; u32 emc_pmacro_ob_ddll_long_dqs_rank0_1; u32 emc_pmacro_ob_ddll_long_dqs_rank0_2; u32 emc_pmacro_ob_ddll_long_dqs_rank0_3; u32 emc_pmacro_ob_ddll_long_dqs_rank0_4; u32 emc_pmacro_ob_ddll_long_dqs_rank0_5; u32 emc_pmacro_ob_ddll_long_dqs_rank1_0; u32 emc_pmacro_ob_ddll_long_dqs_rank1_1; u32 emc_pmacro_ob_ddll_long_dqs_rank1_2; u32 emc_pmacro_ob_ddll_long_dqs_rank1_3; u32 emc_pmacro_ob_ddll_long_dqs_rank1_4; u32 emc_pmacro_ob_ddll_long_dqs_rank1_5; u32 emc_pmacro_ddll_long_cmd_0; u32 emc_pmacro_ddll_long_cmd_1; u32 emc_pmacro_ddll_long_cmd_2; u32 emc_pmacro_ddll_long_cmd_3; u32 emc_pmacro_ddll_long_cmd_4; u32 emc_pmacro_ddll_short_cmd_0; u32 emc_pmacro_ddll_short_cmd_1; u32 emc_pmacro_ddll_short_cmd_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd0_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd1_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd2_3; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_cmd3_3; u32 emc_txdsrvttgen; u32 emc_fdpd_ctrl_dq; u32 emc_fdpd_ctrl_cmd; u32 emc_fbio_spare; u32 emc_zcal_interval; u32 emc_zcal_wait_cnt; u32 emc_mrs_wait_cnt; u32 emc_mrs_wait_cnt2; u32 emc_auto_cal_channel; u32 emc_dll_cfg_0; u32 emc_dll_cfg_1; u32 emc_pmacro_autocal_cfg_common; u32 emc_pmacro_zctrl; u32 emc_cfg; u32 emc_cfg_pipe; u32 emc_dyn_self_ref_control; u32 emc_qpop; u32 emc_dqs_brlshft_0; u32 emc_dqs_brlshft_1; u32 emc_cmd_brlshft_2; u32 emc_cmd_brlshft_3; u32 emc_pmacro_pad_cfg_ctrl; u32 emc_pmacro_data_pad_rx_ctrl; u32 emc_pmacro_cmd_pad_rx_ctrl; u32 emc_pmacro_data_rx_term_mode; u32 emc_pmacro_cmd_rx_term_mode; u32 emc_pmacro_cmd_pad_tx_ctrl; u32 emc_pmacro_data_pad_tx_ctrl; u32 emc_pmacro_common_pad_tx_ctrl; u32 emc_pmacro_vttgen_ctrl_0; u32 emc_pmacro_vttgen_ctrl_1; u32 emc_pmacro_vttgen_ctrl_2; u32 emc_pmacro_brick_ctrl_rfu1; u32 emc_pmacro_cmd_brick_ctrl_fdpd; u32 emc_pmacro_brick_ctrl_rfu2; u32 emc_pmacro_data_brick_ctrl_fdpd; u32 emc_pmacro_bg_bias_ctrl_0; u32 emc_cfg_3; u32 emc_pmacro_tx_pwrd_0; u32 emc_pmacro_tx_pwrd_1; u32 emc_pmacro_tx_pwrd_2; u32 emc_pmacro_tx_pwrd_3; u32 emc_pmacro_tx_pwrd_4; u32 emc_pmacro_tx_pwrd_5; u32 emc_config_sample_delay; u32 emc_pmacro_tx_sel_clk_src_0; u32 emc_pmacro_tx_sel_clk_src_1; u32 emc_pmacro_tx_sel_clk_src_2; u32 emc_pmacro_tx_sel_clk_src_3; u32 emc_pmacro_tx_sel_clk_src_4; u32 emc_pmacro_tx_sel_clk_src_5; u32 emc_pmacro_ddll_bypass; u32 emc_pmacro_ddll_pwrd_0; u32 emc_pmacro_ddll_pwrd_1; u32 emc_pmacro_ddll_pwrd_2; u32 emc_pmacro_cmd_ctrl_0; u32 emc_pmacro_cmd_ctrl_1; u32 emc_pmacro_cmd_ctrl_2; u32 emc_tr_timing_0; u32 emc_tr_dvfs; u32 emc_tr_ctrl_1; u32 emc_tr_rdv; u32 emc_tr_qpop; u32 emc_tr_rdv_mask; u32 emc_mrw14; u32 emc_tr_qsafe; u32 emc_tr_qrst; u32 emc_training_ctrl; u32 emc_training_settle; u32 emc_training_vref_settle; u32 emc_training_ca_fine_ctrl; u32 emc_training_ca_ctrl_misc; u32 emc_training_ca_ctrl_misc1; u32 emc_training_ca_vref_ctrl; u32 emc_training_quse_cors_ctrl; u32 emc_training_quse_fine_ctrl; u32 emc_training_quse_ctrl_misc; u32 emc_training_quse_vref_ctrl; u32 emc_training_read_fine_ctrl; u32 emc_training_read_ctrl_misc; u32 emc_training_read_vref_ctrl; u32 emc_training_write_fine_ctrl; u32 emc_training_write_ctrl_misc; u32 emc_training_write_vref_ctrl; u32 emc_training_mpc; u32 emc_mrw15; } burst_regs_t; typedef struct { u32 burst_regs[221]; u32 burst_reg_per_ch[8]; u32 shadow_regs_ca_train[221]; u32 shadow_regs_quse_train[221]; u32 shadow_regs_rdwr_train[221]; } burst_regs_table_t; typedef struct { u32 ptfv_dqsosc_movavg_c0d0u0; u32 ptfv_dqsosc_movavg_c0d0u1; u32 ptfv_dqsosc_movavg_c0d1u0; u32 ptfv_dqsosc_movavg_c0d1u1; u32 ptfv_dqsosc_movavg_c1d0u0; u32 ptfv_dqsosc_movavg_c1d0u1; u32 ptfv_dqsosc_movavg_c1d1u0; u32 ptfv_dqsosc_movavg_c1d1u1; u32 ptfv_write_samples; u32 ptfv_dvfs_samples; u32 ptfv_movavg_weight; u32 ptfv_config_ctrl; } ptfv_list_table_t; typedef struct { u32 emc0_mrw10; u32 emc1_mrw10; u32 emc0_mrw11; u32 emc1_mrw11; u32 emc0_mrw12; u32 emc1_mrw12; u32 emc0_mrw13; u32 emc1_mrw13; } burst_reg_per_ch_t; typedef struct { u32 emc_pmacro_ib_ddll_long_dqs_rank0_0; u32 emc_pmacro_ib_ddll_long_dqs_rank0_1; u32 emc_pmacro_ib_ddll_long_dqs_rank0_2; u32 emc_pmacro_ib_ddll_long_dqs_rank0_3; u32 emc_pmacro_ib_ddll_long_dqs_rank1_0; u32 emc_pmacro_ib_ddll_long_dqs_rank1_1; u32 emc_pmacro_ib_ddll_long_dqs_rank1_2; u32 emc_pmacro_ib_ddll_long_dqs_rank1_3; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte0_0; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte0_1; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte0_2; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte1_0; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte1_1; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte1_2; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte2_0; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte2_1; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte2_2; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte3_0; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte3_1; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte3_2; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte4_0; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte4_1; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte4_2; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte5_0; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte5_1; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte5_2; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte6_0; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte6_1; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte6_2; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte7_0; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte7_1; u32 emc_pmacro_ib_ddll_short_dq_rank0_byte7_2; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte0_0; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte0_1; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte0_2; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte1_0; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte1_1; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte1_2; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte2_0; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte2_1; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte2_2; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte3_0; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte3_1; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte3_2; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte4_0; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte4_1; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte4_2; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte5_0; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte5_1; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte5_2; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte6_0; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte6_1; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte6_2; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte7_0; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte7_1; u32 emc_pmacro_ib_ddll_short_dq_rank1_byte7_2; u32 emc_pmacro_ib_vref_dqs_0; u32 emc_pmacro_ib_vref_dqs_1; u32 emc_pmacro_ib_vref_dq_0; u32 emc_pmacro_ib_vref_dq_1; u32 emc_pmacro_ob_ddll_long_dq_rank0_0; u32 emc_pmacro_ob_ddll_long_dq_rank0_1; u32 emc_pmacro_ob_ddll_long_dq_rank0_2; u32 emc_pmacro_ob_ddll_long_dq_rank0_3; u32 emc_pmacro_ob_ddll_long_dq_rank0_4; u32 emc_pmacro_ob_ddll_long_dq_rank0_5; u32 emc_pmacro_ob_ddll_long_dq_rank1_0; u32 emc_pmacro_ob_ddll_long_dq_rank1_1; u32 emc_pmacro_ob_ddll_long_dq_rank1_2; u32 emc_pmacro_ob_ddll_long_dq_rank1_3; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte0_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte1_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte2_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte3_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte4_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte5_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte6_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_byte7_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd0_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd1_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd2_2; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_0; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_1; u32 emc_pmacro_ob_ddll_short_dq_rank0_cmd3_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte0_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte1_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte2_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte3_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte4_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte5_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte6_2; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_0; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_1; u32 emc_pmacro_ob_ddll_short_dq_rank1_byte7_2; u32 emc_pmacro_quse_ddll_rank0_0; u32 emc_pmacro_quse_ddll_rank0_1; u32 emc_pmacro_quse_ddll_rank0_2; u32 emc_pmacro_quse_ddll_rank0_3; u32 emc_pmacro_quse_ddll_rank1_0; u32 emc_pmacro_quse_ddll_rank1_1; u32 emc_pmacro_quse_ddll_rank1_2; u32 emc_pmacro_quse_ddll_rank1_3; } trim_regs_t; typedef struct { u32 emc_cmd_brlshft_0; u32 emc_cmd_brlshft_1; u32 emc0_data_brlshft_0; u32 emc1_data_brlshft_0; u32 emc0_data_brlshft_1; u32 emc1_data_brlshft_1; u32 emc_quse_brlshft_0; u32 emc_quse_brlshft_1; u32 emc_quse_brlshft_2; u32 emc_quse_brlshft_3; } trim_perch_regs_t; typedef struct { u32 t_rp; u32 t_fc_lpddr4; u32 t_rfc; u32 t_pdex; u32 rl; } dram_timings_t; typedef struct { u32 emc0_training_opt_dqs_ib_vref_rank0; u32 emc1_training_opt_dqs_ib_vref_rank0; u32 emc0_training_opt_dqs_ib_vref_rank1; u32 emc1_training_opt_dqs_ib_vref_rank1; } vref_perch_regs_t; typedef struct { u32 trim_regs[138]; u32 trim_perch_regs[10]; u32 vref_perch_regs[4]; } trim_regs_table_t; typedef struct { u32 rev; char dvfs_ver[60]; u32 rate_khz; u32 min_volt; u32 gpu_min_volt; char clock_src[32]; u32 clk_src_emc; u32 needs_training; u32 training_pattern; u32 trained; u32 periodic_training; u32 trained_dram_clktree_c0d0u0; u32 trained_dram_clktree_c0d0u1; u32 trained_dram_clktree_c0d1u0; u32 trained_dram_clktree_c0d1u1; u32 trained_dram_clktree_c1d0u0; u32 trained_dram_clktree_c1d0u1; u32 trained_dram_clktree_c1d1u0; u32 trained_dram_clktree_c1d1u1; u32 current_dram_clktree_c0d0u0; u32 current_dram_clktree_c0d0u1; u32 current_dram_clktree_c0d1u0; u32 current_dram_clktree_c0d1u1; u32 current_dram_clktree_c1d0u0; u32 current_dram_clktree_c1d0u1; u32 current_dram_clktree_c1d1u0; u32 current_dram_clktree_c1d1u1; u32 run_clocks; u32 tree_margin; u32 num_burst; u32 num_burst_per_ch; u32 num_trim; u32 num_trim_per_ch; u32 num_mc_regs; u32 num_up_down; u32 vref_num; u32 training_mod_num; u32 dram_timing_num; ptfv_list_table_t ptfv_list; burst_regs_t burst_regs; burst_reg_per_ch_t burst_reg_per_ch; burst_regs_t shadow_regs_ca_train; burst_regs_t shadow_regs_quse_train; burst_regs_t shadow_regs_rdwr_train; trim_regs_t trim_regs; trim_perch_regs_t trim_perch_regs; vref_perch_regs_t vref_perch_regs; dram_timings_t dram_timings; u32 training_mod_regs[20]; u32 save_restore_mod_regs[12]; u32 burst_mc_regs[33]; u32 la_scale_regs[24]; u32 min_mrs_wait; u32 emc_mrw; u32 emc_mrw2; u32 emc_mrw3; u32 emc_mrw4; u32 emc_mrw9; u32 emc_mrs; u32 emc_emrs; u32 emc_emrs2; u32 emc_auto_cal_config; u32 emc_auto_cal_config2; u32 emc_auto_cal_config3; u32 emc_auto_cal_config4; u32 emc_auto_cal_config5; u32 emc_auto_cal_config6; u32 emc_auto_cal_config7; u32 emc_auto_cal_config8; u32 emc_cfg_2; u32 emc_sel_dpd_ctrl; u32 emc_fdpd_ctrl_cmd_no_ramp; u32 dll_clk_src; u32 clk_out_enb_x_0_clk_enb_emc_dll; u32 latency; } emc_table_t; #endif ================================================ FILE: modules/hekate_libsys_minerva/sys_sdrammtc.c ================================================ /* * Minerva Training Cell * DRAM Training for Tegra X1 SoC. Supports LPDDR4. * * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "mtc.h" #include "mtc_mc_emc_regs.h" #include "mtc_switch_tables.h" #include "types.h" #include #define DVFS_T21X_CC_VERSION "Minerva Training Cell v0.2_T21X" #define DVFS_T210_CC_VERSION "Minerva Training Cell v1.6_T210" #define EPRINTF(...) #define EPRINTFARGS(...) bool train_ram_patterns; /* * REF: PLL Input reference (OSC_FREQ). * DIVN: PLL feedback divider. * DIVM: PLL input divider. * DIVP: PLL post divider. * PLL_OUT = (REF / DIVM) * DIVN / DIVP * * DIVP | DIVP * Encoded | Real * ---------------------- * 0 | 1 (DIVP off) * 1 | 2 * 2 | 3 * 3 | 4 * 4 | 5 * 5 | 6 * 6 | 8 * 7 | 10 * 8 | 12 * 9 | 16 * 10 | 12 * 11 | 16 * 12 | 20 * 13 | 24 * 14 | 32 */ static pllm_clk_config_t pllm_clk_config_table[] = { // pll_osc_in, pll_out, pll_feedback_div, pll_input_div, pll_post_div. // f_in, f_out, n, m, p. // f_out = ((f_in / m) * n) / p. Example: 1600000 = (38400 / 2) * 97. {38400, 297600, 93, 4, 2}, {38400, 400000, 125, 4, 2}, {38400, 408000, 85, 4, 1}, {38400, 532800, 111, 4, 1}, {38400, 665600, 104, 3, 1}, {38400, 800000, 125, 3, 1}, {38400, 931200, 97, 4, 0}, {38400, 1065600, 111, 4, 0}, {38400, 1200000, 125, 4, 0}, {38400, 1331200, 104, 3, 0}, {38400, 1459200, 76, 2, 0}, {38400, 1600000, 125, 3, 0}, {38400, 1728000, 90, 2, 0}, // Custom. Normalized 1733 MHz. {38400, 1795200, 187, 4, 0}, // Custom. Normalized 1800 MHz. {38400, 1862400, 97, 2, 0}, // JEDEC Standard. (T210 official max). {38400, 1894400, 148, 3, 0}, // Custom. Normalized 1900 MHz. {38400, 1932800, 151, 3, 0}, // Custom. Normalized 1933 MHz. {38400, 1958400, 102, 2, 0}, // Custom. Normalized 1966 MHz. {38400, 1996800, 104, 2, 0}, // Custom. Normalized 2000 MHz. {38400, 2035200, 106, 2, 0}, // Custom. Normalized 2033 MHz. {38400, 2064000, 215, 4, 0}, // Custom. Normalized 2066 MHz. {38400, 2099200, 164, 3, 0}, // Custom. Normalized 2100 MHz. {38400, 2131200, 111, 2, 0}, // JEDEC Standard. (T210B01 official max). {38400, 2163200, 169, 3, 0}, // Custom. Normalized 2166 MHz. {38400, 2188800, 114, 2, 0}, // Custom. Normalized 2200 MHz. {38400, 2227200, 116, 2, 0}, // Custom. Normalized 2233 MHz. {38400, 2265600, 118, 2, 0}, // Custom. Normalized 2266 MHz. {38400, 2291200, 179, 3, 0}, // Custom. Normalized 2300 MHz. {38400, 2329600, 182, 3, 0}, // Custom. Normalized 2333 MHz. {38400, 2361600, 123, 2, 0}, // Custom. Normalized 2366 MHz. {0, 0, 0, 0, 0} }; static const u32 burst_regs_emc_addr_table[221] = { EMC_RC, EMC_RFC, EMC_RFCPB, EMC_REFCTRL2, EMC_RFC_SLR, EMC_RAS, EMC_RP, EMC_R2W, EMC_W2R, EMC_R2P, EMC_W2P, EMC_R2R, EMC_TPPD, EMC_CCDMW, EMC_RD_RCD, EMC_WR_RCD, EMC_RRD, EMC_REXT, EMC_WEXT, EMC_WDV_CHK, EMC_WDV, EMC_WSV, EMC_WEV, EMC_WDV_MASK, EMC_WS_DURATION, EMC_WE_DURATION, EMC_QUSE, EMC_QUSE_WIDTH, EMC_IBDLY, EMC_OBDLY, EMC_EINPUT, EMC_MRW6, EMC_EINPUT_DURATION, EMC_PUTERM_EXTRA, EMC_PUTERM_WIDTH, EMC_QRST, EMC_QSAFE, EMC_RDV, EMC_RDV_MASK, EMC_RDV_EARLY, EMC_RDV_EARLY_MASK, EMC_REFRESH, EMC_BURST_REFRESH_NUM, EMC_PRE_REFRESH_REQ_CNT, EMC_PDEX2WR, EMC_PDEX2RD, EMC_PCHG2PDEN, EMC_ACT2PDEN, EMC_AR2PDEN, EMC_RW2PDEN, EMC_CKE2PDEN, EMC_PDEX2CKE, EMC_PDEX2MRR, EMC_TXSR, EMC_TXSRDLL, EMC_TCKE, EMC_TCKESR, EMC_TPD, EMC_TFAW, EMC_TRPAB, EMC_TCLKSTABLE, EMC_TCLKSTOP, EMC_MRW7, EMC_TREFBW, EMC_ODT_WRITE, EMC_FBIO_CFG5, EMC_FBIO_CFG7, EMC_CFG_DIG_DLL, EMC_CFG_DIG_DLL_PERIOD, EMC_PMACRO_IB_RXRT, EMC_CFG_PIPE_1, EMC_CFG_PIPE_2, EMC_PMACRO_QUSE_DDLL_RANK0_4, EMC_PMACRO_QUSE_DDLL_RANK0_5, EMC_PMACRO_QUSE_DDLL_RANK1_4, EMC_PMACRO_QUSE_DDLL_RANK1_5, EMC_MRW8, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_4, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_5, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_0, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_1, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_2, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_3, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_4, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_5, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_0, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_1, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_2, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_3, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_4, EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_5, EMC_PMACRO_DDLL_LONG_CMD_0, EMC_PMACRO_DDLL_LONG_CMD_1, EMC_PMACRO_DDLL_LONG_CMD_2, EMC_PMACRO_DDLL_LONG_CMD_3, EMC_PMACRO_DDLL_LONG_CMD_4, EMC_PMACRO_DDLL_SHORT_CMD_0, EMC_PMACRO_DDLL_SHORT_CMD_1, EMC_PMACRO_DDLL_SHORT_CMD_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_3, EMC_TXDSRVTTGEN, EMC_FDPD_CTRL_DQ, EMC_FDPD_CTRL_CMD, EMC_FBIO_SPARE, EMC_ZCAL_INTERVAL, EMC_ZCAL_WAIT_CNT, EMC_MRS_WAIT_CNT, EMC_MRS_WAIT_CNT2, EMC_AUTO_CAL_CHANNEL, EMC_DLL_CFG_0, EMC_DLL_CFG_1, EMC_PMACRO_AUTOCAL_CFG_COMMON, EMC_PMACRO_ZCTRL, EMC_CFG, EMC_CFG_PIPE, EMC_DYN_SELF_REF_CONTROL, EMC_QPOP, EMC_DQS_BRLSHFT_0, EMC_DQS_BRLSHFT_1, EMC_CMD_BRLSHFT_2, EMC_CMD_BRLSHFT_3, EMC_PMACRO_PAD_CFG_CTRL, EMC_PMACRO_DATA_PAD_RX_CTRL, EMC_PMACRO_CMD_PAD_RX_CTRL, EMC_PMACRO_DATA_RX_TERM_MODE, EMC_PMACRO_CMD_RX_TERM_MODE, EMC_PMACRO_CMD_PAD_TX_CTRL, EMC_PMACRO_DATA_PAD_TX_CTRL, EMC_PMACRO_COMMON_PAD_TX_CTRL, EMC_PMACRO_VTTGEN_CTRL_0, EMC_PMACRO_VTTGEN_CTRL_1, EMC_PMACRO_VTTGEN_CTRL_2, EMC_PMACRO_BRICK_CTRL_RFU1, EMC_PMACRO_CMD_BRICK_CTRL_FDPD, EMC_PMACRO_BRICK_CTRL_RFU2, EMC_PMACRO_DATA_BRICK_CTRL_FDPD, EMC_PMACRO_BG_BIAS_CTRL_0, EMC_CFG_3, EMC_PMACRO_TX_PWRD_0, EMC_PMACRO_TX_PWRD_1, EMC_PMACRO_TX_PWRD_2, EMC_PMACRO_TX_PWRD_3, EMC_PMACRO_TX_PWRD_4, EMC_PMACRO_TX_PWRD_5, EMC_CONFIG_SAMPLE_DELAY, EMC_PMACRO_TX_SEL_CLK_SRC_0, EMC_PMACRO_TX_SEL_CLK_SRC_1, EMC_PMACRO_TX_SEL_CLK_SRC_2, EMC_PMACRO_TX_SEL_CLK_SRC_3, EMC_PMACRO_TX_SEL_CLK_SRC_4, EMC_PMACRO_TX_SEL_CLK_SRC_5, EMC_PMACRO_DDLL_BYPASS, EMC_PMACRO_DDLL_PWRD_0, EMC_PMACRO_DDLL_PWRD_1, EMC_PMACRO_DDLL_PWRD_2, EMC_PMACRO_CMD_CTRL_0, EMC_PMACRO_CMD_CTRL_1, EMC_PMACRO_CMD_CTRL_2, EMC_TR_TIMING_0, EMC_TR_DVFS, EMC_TR_CTRL_1, EMC_TR_RDV, EMC_TR_QPOP, EMC_TR_RDV_MASK, EMC_MRW14, EMC_TR_QSAFE, EMC_TR_QRST, EMC_TRAINING_CTRL, EMC_TRAINING_SETTLE, EMC_TRAINING_VREF_SETTLE, EMC_TRAINING_CA_FINE_CTRL, EMC_TRAINING_CA_CTRL_MISC, EMC_TRAINING_CA_CTRL_MISC1, EMC_TRAINING_CA_VREF_CTRL, EMC_TRAINING_QUSE_CORS_CTRL, EMC_TRAINING_QUSE_FINE_CTRL, EMC_TRAINING_QUSE_CTRL_MISC, EMC_TRAINING_QUSE_VREF_CTRL, EMC_TRAINING_READ_FINE_CTRL, EMC_TRAINING_READ_CTRL_MISC, EMC_TRAINING_READ_VREF_CTRL, EMC_TRAINING_WRITE_FINE_CTRL, EMC_TRAINING_WRITE_CTRL_MISC, EMC_TRAINING_WRITE_VREF_CTRL, EMC_TRAINING_MPC, EMC_MRW15 }; static const u32 burst_reg_per_ch_emc01_addr_table[8] = { EMC0_MRW10, EMC1_MRW10, EMC0_MRW11, EMC1_MRW11, EMC0_MRW12, EMC1_MRW12, EMC0_MRW13, EMC1_MRW13 }; static const u32 vref_perch_regs_emc01_addr_table[4] = { EMC0_TRAINING_OPT_DQS_IB_VREF_RANK0, EMC1_TRAINING_OPT_DQS_IB_VREF_RANK0, EMC0_TRAINING_OPT_DQS_IB_VREF_RANK1, EMC1_TRAINING_OPT_DQS_IB_VREF_RANK1 }; static const u32 training_mod_regs_emc01_addr_table[20] = { EMC0_TRAINING_RW_OFFSET_IB_BYTE0, EMC1_TRAINING_RW_OFFSET_IB_BYTE0, EMC0_TRAINING_RW_OFFSET_IB_BYTE1, EMC1_TRAINING_RW_OFFSET_IB_BYTE1, EMC0_TRAINING_RW_OFFSET_IB_BYTE2, EMC1_TRAINING_RW_OFFSET_IB_BYTE2, EMC0_TRAINING_RW_OFFSET_IB_BYTE3, EMC1_TRAINING_RW_OFFSET_IB_BYTE3, EMC0_TRAINING_RW_OFFSET_IB_MISC, EMC1_TRAINING_RW_OFFSET_IB_MISC, EMC0_TRAINING_RW_OFFSET_OB_BYTE0, EMC1_TRAINING_RW_OFFSET_OB_BYTE0, EMC0_TRAINING_RW_OFFSET_OB_BYTE1, EMC1_TRAINING_RW_OFFSET_OB_BYTE1, EMC0_TRAINING_RW_OFFSET_OB_BYTE2, EMC1_TRAINING_RW_OFFSET_OB_BYTE2, EMC0_TRAINING_RW_OFFSET_OB_BYTE3, EMC1_TRAINING_RW_OFFSET_OB_BYTE3, EMC0_TRAINING_RW_OFFSET_OB_MISC, EMC1_TRAINING_RW_OFFSET_OB_MISC }; static const u32 trim_regs_emc_addr_table[138] = { EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_0, EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_1, EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_2, EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_3, EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_0, EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_1, EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_2, EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_3, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_2, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_0, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_1, EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_2, EMC_PMACRO_IB_VREF_DQS_0, EMC_PMACRO_IB_VREF_DQS_1, EMC_PMACRO_IB_VREF_DQ_0, EMC_PMACRO_IB_VREF_DQ_1, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_4, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_5, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_2, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_0, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_1, EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_2, EMC_PMACRO_QUSE_DDLL_RANK0_0, EMC_PMACRO_QUSE_DDLL_RANK0_1, EMC_PMACRO_QUSE_DDLL_RANK0_2, EMC_PMACRO_QUSE_DDLL_RANK0_3, EMC_PMACRO_QUSE_DDLL_RANK1_0, EMC_PMACRO_QUSE_DDLL_RANK1_1, EMC_PMACRO_QUSE_DDLL_RANK1_2, EMC_PMACRO_QUSE_DDLL_RANK1_3 }; static const u32 trim_perch_regs_emc01_addr_table[10] = { EMC0_CMD_BRLSHFT_0, EMC1_CMD_BRLSHFT_1, EMC0_DATA_BRLSHFT_0, EMC1_DATA_BRLSHFT_0, EMC0_DATA_BRLSHFT_1, EMC1_DATA_BRLSHFT_1, EMC0_QUSE_BRLSHFT_0, EMC1_QUSE_BRLSHFT_1, EMC0_QUSE_BRLSHFT_2, EMC1_QUSE_BRLSHFT_3 }; static const u32 burst_mc_regs_addr_table[33] = { MC_EMEM_ARB_CFG, MC_EMEM_ARB_OUTSTANDING_REQ, MC_EMEM_ARB_REFPB_HP_CTRL, MC_EMEM_ARB_REFPB_BANK_CTRL, MC_EMEM_ARB_TIMING_RCD, MC_EMEM_ARB_TIMING_RP, MC_EMEM_ARB_TIMING_RC, MC_EMEM_ARB_TIMING_RAS, MC_EMEM_ARB_TIMING_FAW, MC_EMEM_ARB_TIMING_RRD, MC_EMEM_ARB_TIMING_RAP2PRE, MC_EMEM_ARB_TIMING_WAP2PRE, MC_EMEM_ARB_TIMING_R2R, MC_EMEM_ARB_TIMING_W2W, MC_EMEM_ARB_TIMING_R2W, MC_EMEM_ARB_TIMING_CCDMW, MC_EMEM_ARB_TIMING_W2R, MC_EMEM_ARB_TIMING_RFCPB, MC_EMEM_ARB_DA_TURNS, MC_EMEM_ARB_DA_COVERS, MC_EMEM_ARB_MISC0, MC_EMEM_ARB_MISC1, MC_EMEM_ARB_MISC2, MC_EMEM_ARB_RING1_THROTTLE, MC_EMEM_ARB_DHYST_CTRL, MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_0, MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_1, MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_2, MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_3, MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_4, MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_5, MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_6, MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_7 }; static const u32 la_scale_regs_mc_addr_table[24] = { MC_MLL_MPCORER_PTSA_RATE, MC_FTOP_PTSA_RATE, MC_PTSA_GRANT_DECREMENT, MC_LATENCY_ALLOWANCE_XUSB_0, MC_LATENCY_ALLOWANCE_XUSB_1, MC_LATENCY_ALLOWANCE_TSEC_0, MC_LATENCY_ALLOWANCE_SDMMCA_0, MC_LATENCY_ALLOWANCE_SDMMCAA_0, MC_LATENCY_ALLOWANCE_SDMMC_0, MC_LATENCY_ALLOWANCE_SDMMCAB_0, MC_LATENCY_ALLOWANCE_PPCS_0, MC_LATENCY_ALLOWANCE_PPCS_1, MC_LATENCY_ALLOWANCE_MPCORE_0, MC_LATENCY_ALLOWANCE_HC_0, MC_LATENCY_ALLOWANCE_HC_1, MC_LATENCY_ALLOWANCE_AVPC_0, MC_LATENCY_ALLOWANCE_GPU_0, MC_LATENCY_ALLOWANCE_GPU2_0, MC_LATENCY_ALLOWANCE_NVENC_0, MC_LATENCY_ALLOWANCE_NVDEC_0, MC_LATENCY_ALLOWANCE_VIC_0, MC_LATENCY_ALLOWANCE_VI2_0, MC_LATENCY_ALLOWANCE_ISP2_0, MC_LATENCY_ALLOWANCE_ISP2_1 }; static const u32 periodic_training_addr[10] = { EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2, EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3, EMC_DATA_BRLSHFT_0, EMC_DATA_BRLSHFT_1 }; static const u32 ram_pattern_dq_table[0x500] = { /* DQ RAM Patterns Table 0 */ 0x18181818, 0x61616161, 0x85858585, 0x14141414, 0x51515151, 0x47474747, 0x1E1E1E1E, 0x79797979, 0xE5E5E5E5, 0x94949494, 0x51515151, 0x46464646, 0x19191919, 0x67676767, 0x9C9C9C9C, 0x71717171, 0xC5C5C5C5, 0x17171717, 0x5F5F5F5F, 0x7E7E7E7E, 0xFBFBFBFB, 0xEDEDEDED, 0xB4B4B4B4, 0xD2D2D2D2, 0x48484848, 0x21212121, 0x85858585, 0x16161616, 0x59595959, 0x66666666, 0x9A9A9A9A, 0x69696969, 0xA4A4A4A4, 0x93939393, 0x4F4F4F4F, 0x3F3F3F3F, 0xFCFCFCFC, 0xF3F3F3F3, 0xCDCDCDCD, 0x37373737, 0xDCDCDCDC, 0x70707070, 0xC3C3C3C3, 0x0F0F0F0F, 0x3E3E3E3E, 0xFAFAFAFA, 0xEBEBEBEB, 0xACACACAC, 0xB3B3B3B3, 0xCCCCCCCC, 0x31313131, 0xC5C5C5C5, 0x15151515, 0x57575757, 0x5F5F5F5F, 0x7F7F7F7F, 0xFDFDFDFD, 0xF4F4F4F4, 0xD0D0D0D0, 0x42424242, 0x08080808, 0x23232323, 0x8F8F8F8F, 0x3F3F3F3F, 0x18181818, 0x61616161, 0x85858585, 0x14141414, 0x51515151, 0x47474747, 0x1E1E1E1E, 0x79797979, 0xE5E5E5E5, 0x94949494, 0x51515151, 0x46464646, 0x19191919, 0x67676767, 0x9C9C9C9C, 0x71717171, 0xC5C5C5C5, 0x17171717, 0x5F5F5F5F, 0x7E7E7E7E, 0xFBFBFBFB, 0xEDEDEDED, 0xB4B4B4B4, 0xD2D2D2D2, 0x48484848, 0x21212121, 0x85858585, 0x16161616, 0x59595959, 0x66666666, 0x9A9A9A9A, 0x69696969, 0xA4A4A4A4, 0x93939393, 0x4F4F4F4F, 0x3F3F3F3F, 0xFCFCFCFC, 0xF3F3F3F3, 0xCDCDCDCD, 0x37373737, 0xDCDCDCDC, 0x70707070, 0xC3C3C3C3, 0x0F0F0F0F, 0x3E3E3E3E, 0xFAFAFAFA, 0xEBEBEBEB, 0xACACACAC, 0xB3B3B3B3, 0xCCCCCCCC, 0x31313131, 0xC5C5C5C5, 0x15151515, 0x57575757, 0x5F5F5F5F, 0x7F7F7F7F, 0xFDFDFDFD, 0xF4F4F4F4, 0xD0D0D0D0, 0x42424242, 0x08080808, 0x23232323, 0x8F8F8F8F, 0x3F3F3F3F, 0x06060606, 0x18181818, 0x21212121, 0x05050505, 0x14141414, 0x11111111, 0x07070707, 0x1E1E1E1E, 0x39393939, 0x25252525, 0x14141414, 0x11111111, 0x06060606, 0x19191919, 0x27272727, 0x1C1C1C1C, 0x31313131, 0x05050505, 0x17171717, 0x1F1F1F1F, 0x3E3E3E3E, 0x3B3B3B3B, 0x2D2D2D2D, 0x34343434, 0x12121212, 0x08080808, 0x21212121, 0x05050505, 0x16161616, 0x19191919, 0x26262626, 0x1A1A1A1A, 0x29292929, 0x24242424, 0x13131313, 0x0F0F0F0F, 0x3F3F3F3F, 0x3C3C3C3C, 0x33333333, 0x0D0D0D0D, 0x37373737, 0x1C1C1C1C, 0x30303030, 0x03030303, 0x0F0F0F0F, 0x3E3E3E3E, 0x3A3A3A3A, 0x2B2B2B2B, 0x2C2C2C2C, 0x33333333, 0x0C0C0C0C, 0x31313131, 0x05050505, 0x15151515, 0x17171717, 0x1F1F1F1F, 0x3F3F3F3F, 0x3D3D3D3D, 0x34343434, 0x10101010, 0x02020202, 0x08080808, 0x23232323, 0x0F0F0F0F, 0x06060606, 0x18181818, 0x21212121, 0x05050505, 0x14141414, 0x11111111, 0x07070707, 0x1E1E1E1E, 0x39393939, 0x25252525, 0x14141414, 0x11111111, 0x06060606, 0x19191919, 0x27272727, 0x1C1C1C1C, 0x31313131, 0x05050505, 0x17171717, 0x1F1F1F1F, 0x3E3E3E3E, 0x3B3B3B3B, 0x2D2D2D2D, 0x34343434, 0x12121212, 0x08080808, 0x21212121, 0x05050505, 0x16161616, 0x19191919, 0x26262626, 0x1A1A1A1A, 0x29292929, 0x24242424, 0x13131313, 0x0F0F0F0F, 0x3F3F3F3F, 0x3C3C3C3C, 0x33333333, 0x0D0D0D0D, 0x37373737, 0x1C1C1C1C, 0x30303030, 0x03030303, 0x0F0F0F0F, 0x3E3E3E3E, 0x3A3A3A3A, 0x2B2B2B2B, 0x2C2C2C2C, 0x33333333, 0x0C0C0C0C, 0x31313131, 0x05050505, 0x15151515, 0x17171717, 0x1F1F1F1F, 0x3F3F3F3F, 0x3D3D3D3D, 0x34343434, 0x10101010, 0x02020202, 0x08080808, 0x23232323, 0x0F0F0F0F, /* DQ RAM Patterns Table 1 */ 0x00000000, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x3F3F3F3F, 0x3F3F3F3F, 0x00000000, 0x00000000, 0x00000000, 0x3F3F3F3F, 0x00000000, /* DQ RAM Patterns Table 2 */ 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0xFFFFFFFF, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, 0x00000000, 0x3F3F3F3F, /* DQ RAM Patterns Table 3 */ 0x80808080, 0x00000000, 0x80808080, 0x00000000, 0x80808080, 0x00000000, 0x80808080, 0x40404040, 0x00000000, 0x40404040, 0x00000000, 0x40404040, 0x00000000, 0x40404040, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x80808080, 0x00000000, 0x80808080, 0x00000000, 0x80808080, 0x00000000, 0x80808080, 0x40404040, 0x00000000, 0x40404040, 0x00000000, 0x40404040, 0x00000000, 0x40404040, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x20202020, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x10101010, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x08080808, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x04040404, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x02020202, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x01010101, 0x00000000, 0x00000000, 0x00000000, 0x00000000, /* DQ RAM Patterns Table 4 */ 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333, 0xAAAAAAAA, 0x55555555, 0xCCCCCCCC, 0x33333333 }; static const u32 ram_pattern_dmi_table[0x500] = { /* DMI RAM Patterns Table 0 */ 0xF, 0xF, 0x0, 0xF, 0xF, 0x0, 0xF, 0xF, 0x0, 0xF, 0x0, 0xF, 0xF, 0x0, 0xF, 0xF, 0xF, 0xF, 0x0, 0xF, 0xF, 0x0, 0x0, 0x0, 0xF, 0xF, 0x0, 0xF, 0x0, 0x0, 0xF, 0x0, 0xF, 0xF, 0xF, 0x0, 0xF, 0xF, 0xF, 0x0, 0x0, 0xF, 0xF, 0x0, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0xF, 0xF, 0xF, 0xF, 0xF, 0xF, 0x0, 0x0, 0x0, 0x0, 0xF, 0xF, 0xF, 0x0, 0xF, 0xF, 0x0, 0xF, 0xF, 0x0, 0xF, 0xF, 0x0, 0xF, 0x0, 0xF, 0xF, 0x0, 0xF, 0xF, 0xF, 0xF, 0x0, 0xF, 0xF, 0x0, 0x0, 0x0, 0xF, 0xF, 0x0, 0xF, 0x0, 0x0, 0xF, 0x0, 0xF, 0xF, 0xF, 0x0, 0xF, 0xF, 0xF, 0x0, 0x0, 0xF, 0xF, 0x0, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0xF, 0xF, 0xF, 0xF, 0xF, 0xF, 0x0, 0x0, 0x0, 0x0, 0xF, 0xF, 0xF, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, /* DMI RAM Patterns Table 1 */ 0x0, 0x0, 0xF, 0x0, 0x0, 0x0, 0x0, 0x0, 0xF, 0xF, 0x0, 0x0, 0x0, 0x0, 0xF, 0x0, 0xF, 0x0, 0x0, 0x0, 0xF, 0xF, 0xF, 0xF, 0x0, 0x0, 0xF, 0x0, 0x0, 0x0, 0xF, 0x0, 0xF, 0xF, 0x0, 0x0, 0xF, 0xF, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0x0, 0xF, 0xF, 0xF, 0xF, 0xF, 0x0, 0xF, 0x0, 0x0, 0x0, 0x0, 0xF, 0xF, 0xF, 0x0, 0x0, 0x0, 0xF, 0x0, 0x0, 0x0, 0xF, 0x0, 0x0, 0x0, 0x0, 0x0, 0xF, 0xF, 0x0, 0x0, 0x0, 0x0, 0xF, 0x0, 0xF, 0x0, 0x0, 0x0, 0xF, 0xF, 0xF, 0xF, 0x0, 0x0, 0xF, 0x0, 0x0, 0x0, 0xF, 0x0, 0xF, 0xF, 0x0, 0x0, 0xF, 0xF, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0x0, 0xF, 0xF, 0xF, 0xF, 0xF, 0x0, 0xF, 0x0, 0x0, 0x0, 0x0, 0xF, 0xF, 0xF, 0x0, 0x0, 0x0, 0xF, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, /* DMI RAM Patterns Table 2 */ 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, /* DMI RAM Patterns Table 3 */ 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0xF, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, /* DMI RAM Patterns Table 4 */ 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3, 0xA, 0x5, 0xC, 0x3 }; static void _usleep(u32 microseconds) { u32 start = TMR(0x10); while ((u32)(TMR(0x10) - start) <= microseconds) ; } static u32 _div_o3(u32 a, u32 b) { u32 result = a / b; if ((b * result) < a) return result + 1; else return result; } static u32 _actual_osc_clocks(u32 in) { u32 actual_clock; actual_clock = 16 * in; if (in > 63) { actual_clock = 2048; if (in > 127) { if (in >= 192) actual_clock = 8192; else actual_clock = 4096; } } return actual_clock; } static void _ccfifo_write(u32 addr, u32 data_val, u32 delay) //addr and delay are u16 { EMC(EMC_CCFIFO_DATA) = data_val; EMC(EMC_CCFIFO_ADDR) = BIT(31) | (addr & 0xffff) | ((delay & 0x7FFF) << 16); } static bool _wait_emc_status(u32 reg_offset, u32 bit_mask, bool updated_state, u32 emc_channel) { bool err = true; for (u32 i = 0; i < EMC_STATUS_UPDATE_TIMEOUT; i++) { if (emc_channel) { if (emc_channel != 1) goto done; if (((EMC_CH1(reg_offset) & bit_mask) != 0) == updated_state) { err = false; break; } } else if (((EMC(reg_offset) & bit_mask) != 0) == updated_state) { err = false; break; } _usleep(1); } done: return err; } static void _request_mmr_data(u32 data, bool dual_channel) { EMC(EMC_MRR) = data; _wait_emc_status(EMC_EMC_STATUS, MRR_DIVLD, true, EMC_CHANNEL0); if (dual_channel) _wait_emc_status(EMC_EMC_STATUS, MRR_DIVLD, true, EMC_CHANNEL1); } static void _start_periodic_compensation() { EMC(EMC_MPC) = 0x4B; (void)EMC(EMC_MPC); } static bool _timing_update(u32 dual_channel) { bool err = 0; EMC(EMC_TIMING_CONTROL) = 1; err = _wait_emc_status(EMC_EMC_STATUS, TIMING_UPDATE_STALLED, false, EMC_CHANNEL0); if (dual_channel) err |= _wait_emc_status(EMC_EMC_STATUS, TIMING_UPDATE_STALLED, false, EMC_CHANNEL1); return err; } static u32 _get_dram_temperature() { u32 mr4_0 = 0; u32 mr4_1 = 0; bool channel1_enabled = (EMC(EMC_FBIO_CFG7) >> 2) & 1; u32 emc_cfg_o = EMC(EMC_CFG); _wait_emc_status(EMC_EMC_STATUS, MRR_DIVLD, false, EMC_CHANNEL0); if (emc_cfg_o & 0x20000000) { EMC(EMC_CFG) = emc_cfg_o & 0xDFFFFFFF; _timing_update(channel1_enabled); } _request_mmr_data(0x80040000, EMC_CHANNEL0); mr4_0 = EMC(EMC_MRR) & 0xFFFF; if (mr4_0 < 0xF001) mr4_0 &= 0x7; else { mr4_0 = -1; goto out; } if (channel1_enabled) { _request_mmr_data(0x40040000, EMC_CHANNEL1); mr4_1 = EMC(EMC_MRR) & 0xFFFF; if (mr4_1 < 0xF001) mr4_1 &= 0x7; else goto out; if (mr4_1 > mr4_0) mr4_0 = mr4_1; } out: if (emc_cfg_o & 0x20000000) { EMC(EMC_CFG) = emc_cfg_o; _timing_update(channel1_enabled); } return mr4_0; } static u32 _pllm_clk_base_cfg(u32 rate_KHz, u32 clk_src_emc, bool new_src_is_PLLMB) { u32 dividers = 0; u32 i = 0; u32 pll_ref = 38400; // Only 38.4MHz crystal is supported for T210. pllm_clk_config_t *pllm_clk_config = NULL; for (i = 0; pllm_clk_config_table[i].pll_osc_in; i++) { if (pllm_clk_config_table[i].pll_osc_in == pll_ref && (pllm_clk_config_table[i].pll_out - 19200) <= rate_KHz) pllm_clk_config = &pllm_clk_config_table[i]; } if (pllm_clk_config && pllm_clk_config->pll_osc_in) { dividers = pllm_clk_config->pll_input_div | (pllm_clk_config->pll_feedback_div << 8) | ((pllm_clk_config->pll_post_div & 0x1F) << 20); if (new_src_is_PLLMB) { CLOCK(CLK_RST_CONTROLLER_PLLMB_BASE) = dividers; CLOCK(CLK_RST_CONTROLLER_PLLMB_BASE) |= PLLM_ENABLE; if ((clk_src_emc >> EMC_2X_CLK_SRC_SHIFT) == PLLM_UD) clk_src_emc = (clk_src_emc & 0x1FFFFFFF) | (PLLMB_UD << EMC_2X_CLK_SRC_SHIFT); else if (!(clk_src_emc >> EMC_2X_CLK_SRC_SHIFT)) clk_src_emc |= (PLLMB_OUT0 << EMC_2X_CLK_SRC_SHIFT); while (!(CLOCK(CLK_RST_CONTROLLER_PLLMB_BASE) & PLLM_LOCK)) ; } else { CLOCK(CLK_RST_CONTROLLER_PLLM_BASE) = dividers; CLOCK(CLK_RST_CONTROLLER_PLLM_MISC2) |= PLLM_EN_LCKDET; CLOCK(CLK_RST_CONTROLLER_PLLM_BASE) |= PLLM_ENABLE; if ((clk_src_emc >> EMC_2X_CLK_SRC_SHIFT) == PLLM_UD) clk_src_emc = (clk_src_emc & 0x1FFFFFFF) | (PLLM_UD << EMC_2X_CLK_SRC_SHIFT); while (!(CLOCK(CLK_RST_CONTROLLER_PLLM_BASE) & PLLM_LOCK)) ; } } return clk_src_emc; } static void _change_dll_src(emc_table_t *mtc_table_entry, u32 clk_src_emc) { u32 emc_2x_clk_src = clk_src_emc >> EMC_2X_CLK_SRC_SHIFT; u32 dll_setting = ((((mtc_table_entry->dll_clk_src & 0x1FFFFFFF) | (emc_2x_clk_src << EMC_2X_CLK_SRC_SHIFT)) & 0xFFFFFF00) | (clk_src_emc & 0xFF)) & 0xFFFFF3FF; if (emc_2x_clk_src == PLLMB_UD) dll_setting |= EMC_DLL_PLLM_VCOB; else if (emc_2x_clk_src != PLLM_UD) dll_setting |= EMC_DLL_SWITCH_OUT; CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC_DLL) = dll_setting; // Commit clock write. (void)CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_X); _usleep(2); // Enable/Disable EMC DLL. if (mtc_table_entry->clk_out_enb_x_0_clk_enb_emc_dll) CLOCK(CLK_RST_CONTROLLER_CLK_ENB_X_SET) = BIT(14); else CLOCK(CLK_RST_CONTROLLER_CLK_ENB_X_CLR) = BIT(14); // Commit clock write. (void)CLOCK(CLK_RST_CONTROLLER_CLK_OUT_ENB_X); _usleep(2); } static u32 _digital_dll_prelock(emc_table_t *mtc_table_entry, bool in_training, u32 selected_clk_src_emc) { u32 dual_channel = (EMC(EMC_FBIO_CFG7) >> 1) & ((EMC(EMC_FBIO_CFG7) >> 2) & 1); EMC(EMC_CFG_DIG_DLL) = (EMC(EMC_CFG_DIG_DLL) & 0xFFFFF824) | 0x3C8; _timing_update(dual_channel); while (EMC(EMC_CFG_DIG_DLL) & 1) ; if (dual_channel) while (EMC_CH1(EMC_CFG_DIG_DLL) & 1) ; EMC(EMC_DLL_CFG_0) = mtc_table_entry->burst_regs.emc_dll_cfg_0; EMC(EMC_DLL_CFG_1) = mtc_table_entry->burst_regs.emc_dll_cfg_1; _change_dll_src(mtc_table_entry, selected_clk_src_emc); EMC(EMC_CFG_DIG_DLL) |= 1; _timing_update(dual_channel); while (!(EMC(EMC_CFG_DIG_DLL) & 1)) ; if (dual_channel) while (!(EMC_CH1(EMC_CFG_DIG_DLL) & 1)) ; while ((((EMC(EMC_DIG_DLL_STATUS) >> 17) & 1) ^ 1) | (((EMC(EMC_DIG_DLL_STATUS) >> 15) & 1) ^ 1)) ; if (in_training) { EMC(EMC_DBG) |= EMC_DBG_WRITE_MUX_ACTIVE; EMC(EMC_CFG_DIG_DLL) &= 0xFFFFFFFE; // Disable CFG_DLL_EN. EMC(EMC_DBG) &= ~EMC_DBG_WRITE_MUX_ACTIVE; while (EMC(EMC_CFG_DIG_DLL) & 1) ; if (dual_channel) while (EMC_CH1(EMC_CFG_DIG_DLL) & 1) ; } return EMC(EMC_DIG_DLL_STATUS) & 0x7FF; } static void _digital_dll_disable() { bool dual_channel = (EMC(EMC_FBIO_CFG7) >> 1) & ((EMC(EMC_FBIO_CFG7) >> 2) & 1); EMC(EMC_CFG_DIG_DLL) &= 0xFFFFFFFE; _timing_update(dual_channel); while (EMC(EMC_CFG_DIG_DLL) & 1) ; if (dual_channel) while (EMC_CH1(EMC_CFG_DIG_DLL) & 1) ; } static void _digital_dll_enable_rs(u32 channel1_enabled) { EMC(EMC_CFG_DIG_DLL) = (EMC(EMC_CFG_DIG_DLL) & 0xFFFFFF24) | 0x89; _timing_update(channel1_enabled); while (!(EMC(EMC_CFG_DIG_DLL) & 1)) ; if (channel1_enabled) while (!(EMC_CH1(EMC_CFG_DIG_DLL) & 1)) ; } static u32 _dvfs_power_ramp_down(bool flip_backward, emc_table_t *src_emc_table_entry, emc_table_t *dst_emc_table_entry, u32 src_clock_period) { u32 pmacro_cmd_pad; u32 pmacro_rfu1; u32 pmacro_cfg5; u32 pmacro_com_pad; u32 pmacro_dq_pad; u32 src_clk_per_pc = (100000 / src_clock_period) + 1; if (flip_backward) { pmacro_cmd_pad = dst_emc_table_entry->burst_regs.emc_pmacro_cmd_pad_tx_ctrl; pmacro_dq_pad = dst_emc_table_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl; pmacro_rfu1 = dst_emc_table_entry->burst_regs.emc_pmacro_brick_ctrl_rfu1; pmacro_cfg5 = dst_emc_table_entry->burst_regs.emc_fbio_cfg5; pmacro_com_pad = dst_emc_table_entry->burst_regs.emc_pmacro_common_pad_tx_ctrl; } else { pmacro_cmd_pad = src_emc_table_entry->burst_regs.emc_pmacro_cmd_pad_tx_ctrl; pmacro_dq_pad = (dst_emc_table_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl & 0x101) | src_emc_table_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl; pmacro_rfu1 = src_emc_table_entry->burst_regs.emc_pmacro_brick_ctrl_rfu1; pmacro_cfg5 = src_emc_table_entry->burst_regs.emc_fbio_cfg5; pmacro_com_pad = src_emc_table_entry->burst_regs.emc_pmacro_common_pad_tx_ctrl; } u32 pmacro_cmd_pad_drvforceon = pmacro_cmd_pad | 0x4000000; u32 ramp_down_wait = src_clock_period * 12; _ccfifo_write(EMC_PMACRO_CMD_PAD_TX_CTRL, pmacro_cmd_pad_drvforceon, 0); _ccfifo_write(EMC_FBIO_CFG5, pmacro_cfg5 | 0x100, 12); if (src_clock_period >= 1000) // Dvfs high speed threshold. { _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1 & 0xF800F800, (u32)(src_clk_per_pc + 19)); ramp_down_wait += 100000 + (src_clock_period * 20); } else { if (src_clock_period >= 416) // Iobrick dcc threshold. _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1 & 0xFEEDFEED, (u32)src_clk_per_pc); else { pmacro_dq_pad = (pmacro_dq_pad & 0xFEFEFDFD) | 0x10200; pmacro_cmd_pad_drvforceon = (pmacro_cmd_pad & 0xFAFEFDFD) | 0x4010200; _ccfifo_write(EMC_PMACRO_CMD_PAD_TX_CTRL, pmacro_cmd_pad_drvforceon, (u32)src_clk_per_pc); _ccfifo_write(EMC_PMACRO_DATA_PAD_TX_CTRL, pmacro_dq_pad, 0); _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1 & 0xFEEDFEED, 0); } ramp_down_wait += 300000; _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1 & 0xFE40FE40, (u32)src_clk_per_pc); if (src_clock_period >= 416) // Iobrick dcc threshold. _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1 & 0xF800F800, (u32)src_clk_per_pc); else { _ccfifo_write(EMC_PMACRO_CMD_PAD_TX_CTRL, pmacro_cmd_pad_drvforceon & 0xFEFEFDFD, (u32)src_clk_per_pc); _ccfifo_write(EMC_PMACRO_DATA_PAD_TX_CTRL, pmacro_dq_pad & 0xFEFEFDFD, 0); _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1 & 0xF800F800, 0); } } if (src_clock_period >= 1666) // Dvfs mid speed threshold. _ccfifo_write(EMC_PMACRO_COMMON_PAD_TX_CTRL, pmacro_com_pad & 0xFFFFFFF0, (u32)src_clk_per_pc); else { ramp_down_wait += 400000; _ccfifo_write(EMC_PMACRO_COMMON_PAD_TX_CTRL, pmacro_com_pad & 0xFFFFFFFA, (u32)src_clk_per_pc); _ccfifo_write(EMC_PMACRO_COMMON_PAD_TX_CTRL, pmacro_com_pad & 0xFFFFFFF0, (u32)src_clk_per_pc); _ccfifo_write(EMC_INTSTATUS, 0, (u32)src_clk_per_pc); } return ramp_down_wait; } static u32 _dvfs_power_ramp_up(bool flip_backward, emc_table_t *src_emc_table_entry, emc_table_t *dst_emc_table_entry, u32 needs_training, u32 dst_clock_period) { u32 pmacro_cmd_pad; u32 pmacro_dq_pad; u32 pmacro_rfu1; u32 pmacro_cfg5; u32 pmacro_com_pad; u32 pmacro_cmd_pad_data; u32 ramp_up_wait = 0; u32 dst_clk_per_pc = (100000 / dst_clock_period) + 1; if (flip_backward) { pmacro_cmd_pad = src_emc_table_entry->burst_regs.emc_pmacro_cmd_pad_tx_ctrl; pmacro_dq_pad = src_emc_table_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl; pmacro_rfu1 = src_emc_table_entry->burst_regs.emc_pmacro_brick_ctrl_rfu1; pmacro_cfg5 = src_emc_table_entry->burst_regs.emc_fbio_cfg5; pmacro_com_pad = src_emc_table_entry->burst_regs.emc_pmacro_common_pad_tx_ctrl; } else if (needs_training & NEEDS_TRAINING_CA_COMBO) { pmacro_cmd_pad = dst_emc_table_entry->shadow_regs_ca_train.emc_pmacro_cmd_pad_tx_ctrl; pmacro_dq_pad = dst_emc_table_entry->shadow_regs_ca_train.emc_pmacro_data_pad_tx_ctrl; pmacro_rfu1 = dst_emc_table_entry->shadow_regs_ca_train.emc_pmacro_brick_ctrl_rfu1; pmacro_cfg5 = dst_emc_table_entry->shadow_regs_ca_train.emc_fbio_cfg5; pmacro_com_pad = dst_emc_table_entry->shadow_regs_ca_train.emc_pmacro_common_pad_tx_ctrl; } else if (needs_training & NEEDS_TRAINING_QUSE_COMBO) { pmacro_cmd_pad = dst_emc_table_entry->shadow_regs_quse_train.emc_pmacro_cmd_pad_tx_ctrl; pmacro_dq_pad = dst_emc_table_entry->shadow_regs_quse_train.emc_pmacro_data_pad_tx_ctrl; pmacro_rfu1 = dst_emc_table_entry->shadow_regs_quse_train.emc_pmacro_brick_ctrl_rfu1; pmacro_cfg5 = dst_emc_table_entry->shadow_regs_quse_train.emc_fbio_cfg5; pmacro_com_pad = dst_emc_table_entry->shadow_regs_quse_train.emc_pmacro_common_pad_tx_ctrl; } else if (needs_training & (NEEDS_TRAINING_WR_COMBO | NEEDS_TRAINING_RD_COMBO)) { pmacro_cmd_pad = dst_emc_table_entry->shadow_regs_rdwr_train.emc_pmacro_cmd_pad_tx_ctrl; pmacro_dq_pad = dst_emc_table_entry->shadow_regs_rdwr_train.emc_pmacro_data_pad_tx_ctrl; pmacro_rfu1 = dst_emc_table_entry->shadow_regs_rdwr_train.emc_pmacro_brick_ctrl_rfu1; pmacro_cfg5 = dst_emc_table_entry->shadow_regs_rdwr_train.emc_fbio_cfg5; pmacro_com_pad = dst_emc_table_entry->shadow_regs_rdwr_train.emc_pmacro_common_pad_tx_ctrl; } else { pmacro_cmd_pad = dst_emc_table_entry->burst_regs.emc_pmacro_cmd_pad_tx_ctrl; pmacro_dq_pad = dst_emc_table_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl; pmacro_rfu1 = dst_emc_table_entry->burst_regs.emc_pmacro_brick_ctrl_rfu1; pmacro_cfg5 = dst_emc_table_entry->burst_regs.emc_fbio_cfg5; pmacro_com_pad = dst_emc_table_entry->burst_regs.emc_pmacro_common_pad_tx_ctrl; } pmacro_cmd_pad_data = (pmacro_cmd_pad & 0xFAFEFDFD) | 0x4000000; if (dst_clock_period >= 1666) // Dvfs mid speed threshold. { _ccfifo_write(EMC_PMACRO_COMMON_PAD_TX_CTRL, pmacro_com_pad | 8, 0); _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1 | 0x600, 0); _ccfifo_write(EMC_FBIO_CFG5, pmacro_cfg5 & 0xFFFFFEFF, 12); ramp_up_wait = (dst_clock_period * 12) + 0; } else { _ccfifo_write(EMC_PMACRO_COMMON_PAD_TX_CTRL, pmacro_com_pad & 0xA, 0); _ccfifo_write(EMC_PMACRO_COMMON_PAD_TX_CTRL, pmacro_com_pad & 0xF, dst_clk_per_pc); if (dst_clock_period < 1000) // Dvfs high speed threshold. { if (dst_clock_period >= 416) // Iobrick dcc threshold. _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1 & 0xFE40FE40, dst_clk_per_pc); else { _ccfifo_write(EMC_PMACRO_CMD_PAD_TX_CTRL, (pmacro_cmd_pad & 0xFAFEFDFD) | 0x4010200, dst_clk_per_pc); _ccfifo_write(EMC_PMACRO_DATA_PAD_TX_CTRL, (pmacro_dq_pad & 0xFEFEFDFD) | 0x10200, 0); _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1 & 0xFE40FE40, 0); } _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1 & 0xFEEDFEED, dst_clk_per_pc); if (dst_clock_period >= 416) // Iobrick dcc threshold. _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1, dst_clk_per_pc); else { pmacro_cmd_pad_data = pmacro_cmd_pad | 0x5010202; _ccfifo_write(EMC_PMACRO_CMD_PAD_TX_CTRL, pmacro_cmd_pad_data, dst_clk_per_pc); _ccfifo_write(EMC_PMACRO_DATA_PAD_TX_CTRL, pmacro_dq_pad | 0x1010202, 0); _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1, 0); } ramp_up_wait = 500000 + (dst_clock_period * 10); } else // 1000 > dst_clock_period < 1666. { _ccfifo_write(EMC_PMACRO_BRICK_CTRL_RFU1, pmacro_rfu1 | 0x6000600, dst_clk_per_pc); ramp_up_wait = 200000 + (dst_clock_period * 10); } _ccfifo_write(EMC_FBIO_CFG5, pmacro_cfg5 & 0xFFFFFEFF, dst_clk_per_pc + 9); } _ccfifo_write(EMC_PMACRO_CMD_PAD_TX_CTRL, pmacro_cmd_pad_data & 0xFBFFFFFF, 5); return ramp_up_wait; } static u32 _minerva_update_clock_tree_delay(emc_table_t *src_emc_entry, emc_table_t *dst_emc_entry, u32 dram_dev_num, u32 channel1_enabled, enum tree_update_mode_t update_type) { u32 cval = 0; u32 adelta = 0; s32 tdelta = 0; u32 temp_ch0_0 = 0; u32 temp_ch0_1 = 0; u32 temp_ch1_0 = 0; u32 temp_ch1_1 = 0; u32 upd_type_bits = BIT(update_type); u32 dst_rate_mhz = dst_emc_entry->rate_khz / 1000; u32 src_rate_mhz = src_emc_entry->rate_khz / 1000; u32 tval = 1000000 * _actual_osc_clocks(src_emc_entry->run_clocks) / 2; if (update_type > PERIODIC_TRAINING_UPDATE) return 0; if (upd_type_bits & 0x5400) { _request_mmr_data(0x80130000, channel1_enabled); // Dev0 MRR 19. u32 mrr = EMC(EMC_MRR); temp_ch0_0 = (mrr & 0xFF) << 8; temp_ch0_1 = mrr & 0xFF00; if (channel1_enabled) { mrr = EMC_CH1(EMC_MRR); temp_ch1_0 = (mrr & 0xFF) << 8; temp_ch1_1 = mrr & 0xFF00; } _request_mmr_data(0x80120000, channel1_enabled); // Dev0 MRR 18. mrr = EMC(EMC_MRR); temp_ch0_0 |= mrr & 0xFF; temp_ch0_1 |= (mrr & 0xFF00) >> 8; if (channel1_enabled) { mrr = EMC_CH1(EMC_MRR); temp_ch1_0 |= mrr & 0xFF; temp_ch1_1 |= (mrr & 0xFF00) >> 8; } } cval = tval / (src_rate_mhz * temp_ch0_0); switch (update_type) { case DVFS_PT1: case TRAINING_PT1: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 += 100 * cval; if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_td0_0; break; case DVFS_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 / dst_emc_entry->ptfv_list.ptfv_dvfs_samples; break; case TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 / dst_emc_entry->ptfv_list.ptfv_write_samples; break; case PERIODIC_TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 = (100 * cval + dst_emc_entry->ptfv_list.ptfv_movavg_weight * dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0) / (dst_emc_entry->ptfv_list.ptfv_movavg_weight + 1); break; default: if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_td0_0; break; } tdelta = dst_emc_entry->current_dram_clktree_c0d0u0 - (dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 / 100); if (tdelta < 0) tdelta *= -1; adelta = tdelta; if (update_type == TRAINING_UPDATE || ((dst_rate_mhz * tdelta * 128) / 1000000) > dst_emc_entry->tree_margin) dst_emc_entry->current_dram_clktree_c0d0u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 / 100; calc_td0_0: cval = tval / (src_rate_mhz * temp_ch0_1); switch (update_type) { case DVFS_PT1: case TRAINING_PT1: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 += 100 * cval; if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_td1_0; break; case DVFS_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 / dst_emc_entry->ptfv_list.ptfv_dvfs_samples; break; case TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 / dst_emc_entry->ptfv_list.ptfv_write_samples; break; case PERIODIC_TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 = (100 * cval + dst_emc_entry->ptfv_list.ptfv_movavg_weight * dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1) / (dst_emc_entry->ptfv_list.ptfv_movavg_weight + 1); break; default: if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_td1_0; break; } tdelta = dst_emc_entry->current_dram_clktree_c0d0u1 - (dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 / 100); if (tdelta < 0) tdelta *= -1; if ((u32)tdelta > adelta) adelta = tdelta; if (update_type == TRAINING_UPDATE || ((dst_rate_mhz * tdelta * 128) / 1000000) > dst_emc_entry->tree_margin) dst_emc_entry->current_dram_clktree_c0d0u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 / 100; calc_td1_0: if (channel1_enabled) { cval = tval / (src_rate_mhz * temp_ch1_0); switch (update_type) { case DVFS_PT1: case TRAINING_PT1: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 += 100 * cval; if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_td1_1; break; case DVFS_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 / dst_emc_entry->ptfv_list.ptfv_dvfs_samples; break; case TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 / dst_emc_entry->ptfv_list.ptfv_write_samples; break; case PERIODIC_TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 = (100 * cval + dst_emc_entry->ptfv_list.ptfv_movavg_weight * dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0) / (dst_emc_entry->ptfv_list.ptfv_movavg_weight + 1); break; default: if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_td1_1; break; } tdelta = dst_emc_entry->current_dram_clktree_c1d0u0 - (dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 / 100); if (tdelta < 0) tdelta *= -1; if ((u32)tdelta > adelta) adelta = tdelta; if (update_type == TRAINING_UPDATE || ((dst_rate_mhz * tdelta * 128) / 1000000) > dst_emc_entry->tree_margin) dst_emc_entry->current_dram_clktree_c1d0u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 / 100; calc_td1_1: cval = tval / (src_rate_mhz * temp_ch1_1); switch (update_type) { case DVFS_PT1: case TRAINING_PT1: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 += 100 * cval; if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_dev2; break; case DVFS_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 / dst_emc_entry->ptfv_list.ptfv_dvfs_samples; break; case TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 / dst_emc_entry->ptfv_list.ptfv_write_samples; break; case PERIODIC_TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 = (100 * cval + dst_emc_entry->ptfv_list.ptfv_movavg_weight * dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1) / (dst_emc_entry->ptfv_list.ptfv_movavg_weight + 1); break; default: if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_dev2; break; } tdelta = dst_emc_entry->current_dram_clktree_c1d0u1 - (dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 / 100); if (tdelta < 0) tdelta *= -1; if ((u32)tdelta > adelta) adelta = tdelta; if (update_type == TRAINING_UPDATE || ((dst_rate_mhz * tdelta * 128) / 1000000) > dst_emc_entry->tree_margin) dst_emc_entry->current_dram_clktree_c1d0u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 / 100; } calc_dev2: if (dram_dev_num != TWO_RANK) goto out; if (update_type <= PERIODIC_TRAINING_UPDATE && upd_type_bits & 0x5400) { _request_mmr_data(0x40130000, channel1_enabled); // Dev1 MRR 19. u32 mrr = EMC(EMC_MRR); temp_ch0_0 = (mrr & 0xFF) << 8; temp_ch0_1 = mrr & 0xFF00; if (channel1_enabled) { mrr = EMC_CH1(EMC_MRR); temp_ch1_0 = (mrr & 0xFF) << 8; temp_ch1_1 = mrr & 0xFF00; } _request_mmr_data(0x40120000, channel1_enabled); // Dev1 MRR 18 mrr = EMC(EMC_MRR); temp_ch0_0 |= mrr & 0xFF; temp_ch0_1 |= (mrr & 0xFF00) >> 8; if (channel1_enabled) { mrr = EMC_CH1(EMC_MRR); temp_ch1_0 |= mrr & 0xFF; temp_ch1_1 |= (mrr & 0xFF00) >> 8; } } cval = tval / (src_rate_mhz * temp_ch0_0); switch (update_type ) { case DVFS_PT1: case TRAINING_PT1: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 += 100 * cval; if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_tmp_td0_1; break; case DVFS_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 / dst_emc_entry->ptfv_list.ptfv_dvfs_samples; break; case TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 / dst_emc_entry->ptfv_list.ptfv_write_samples; break; case PERIODIC_TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 = (100 * cval + dst_emc_entry->ptfv_list.ptfv_movavg_weight * dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0) / (dst_emc_entry->ptfv_list.ptfv_movavg_weight + 1); break; default: if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_tmp_td0_1; break; } tdelta = dst_emc_entry->current_dram_clktree_c0d1u0 - (dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 / 100); if (tdelta < 0) tdelta *= -1; if ((u32)tdelta > adelta) adelta = tdelta; if (update_type == TRAINING_UPDATE || ((dst_rate_mhz * tdelta * 128) / 1000000) > dst_emc_entry->tree_margin) dst_emc_entry->current_dram_clktree_c0d1u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 / 100; calc_tmp_td0_1: cval = tval / (src_rate_mhz * temp_ch0_1); switch (update_type) { case DVFS_PT1: case TRAINING_PT1: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 += 100 * cval; if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_tmp_td1_0; break; case DVFS_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 / dst_emc_entry->ptfv_list.ptfv_dvfs_samples; break; case TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 / dst_emc_entry->ptfv_list.ptfv_write_samples; break; case PERIODIC_TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 = (100 * cval + dst_emc_entry->ptfv_list.ptfv_movavg_weight * dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1) / (dst_emc_entry->ptfv_list.ptfv_movavg_weight + 1); break; default: if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_tmp_td1_0; break; } tdelta = dst_emc_entry->current_dram_clktree_c0d1u1 - (dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 / 100); if (tdelta < 0) tdelta *= -1; if ((u32)tdelta > adelta) adelta = tdelta; if (update_type == TRAINING_UPDATE || ((dst_rate_mhz * tdelta * 128) / 1000000) > dst_emc_entry->tree_margin) dst_emc_entry->current_dram_clktree_c0d1u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 / 100; calc_tmp_td1_0: if (channel1_enabled) { cval = tval / (src_rate_mhz * temp_ch1_0); switch (update_type) { case DVFS_PT1: case TRAINING_PT1: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 += 100 * cval; if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_tmp_td1_1; break; case DVFS_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 / dst_emc_entry->ptfv_list.ptfv_dvfs_samples; break; case TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 / dst_emc_entry->ptfv_list.ptfv_write_samples; break; case PERIODIC_TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 = (100 * cval + dst_emc_entry->ptfv_list.ptfv_movavg_weight * dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0) / (dst_emc_entry->ptfv_list.ptfv_movavg_weight + 1); break; default: if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto calc_tmp_td1_1; break; } tdelta = dst_emc_entry->current_dram_clktree_c1d1u0 - (dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 / 100); if (tdelta < 0) tdelta *= -1; if ((u32)tdelta > adelta) adelta = tdelta; if (update_type == TRAINING_UPDATE || ((dst_rate_mhz * tdelta * 128) / 1000000) > dst_emc_entry->tree_margin) dst_emc_entry->current_dram_clktree_c1d1u0 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 / 100; calc_tmp_td1_1: cval = tval / (src_rate_mhz * temp_ch1_1); switch (update_type) { case DVFS_PT1: case TRAINING_PT1: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 += 100 * cval; if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto out; break; case DVFS_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 / dst_emc_entry->ptfv_list.ptfv_dvfs_samples; break; case TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 / dst_emc_entry->ptfv_list.ptfv_write_samples; break; case PERIODIC_TRAINING_UPDATE: dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 = (100 * cval + dst_emc_entry->ptfv_list.ptfv_movavg_weight * dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1) / (dst_emc_entry->ptfv_list.ptfv_movavg_weight + 1); break; default: if (update_type > PERIODIC_TRAINING_UPDATE || !(upd_type_bits & 0x6800)) goto out; break; } tdelta = dst_emc_entry->current_dram_clktree_c1d1u1 - (dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 / 100); if (tdelta < 0) tdelta *= -1; if ((u32)tdelta > adelta) adelta = tdelta; if (update_type == TRAINING_UPDATE || ((dst_rate_mhz * tdelta * 128) / 1000000) > dst_emc_entry->tree_margin) dst_emc_entry->current_dram_clktree_c1d1u1 = dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 / 100; } out: if (update_type == TRAINING_UPDATE) { dst_emc_entry->trained_dram_clktree_c0d0u0 = dst_emc_entry->current_dram_clktree_c0d0u0; dst_emc_entry->trained_dram_clktree_c0d0u1 = dst_emc_entry->current_dram_clktree_c0d0u1; dst_emc_entry->trained_dram_clktree_c0d1u0 = dst_emc_entry->current_dram_clktree_c0d1u0; dst_emc_entry->trained_dram_clktree_c0d1u1 = dst_emc_entry->current_dram_clktree_c0d1u1; dst_emc_entry->trained_dram_clktree_c1d0u0 = dst_emc_entry->current_dram_clktree_c1d0u0; dst_emc_entry->trained_dram_clktree_c1d0u1 = dst_emc_entry->current_dram_clktree_c1d0u1; dst_emc_entry->trained_dram_clktree_c1d1u0 = dst_emc_entry->current_dram_clktree_c1d1u0; dst_emc_entry->trained_dram_clktree_c1d1u1 = dst_emc_entry->current_dram_clktree_c1d1u1; } return (u32)adelta; } static u32 _minerva_periodic_compensation_handler(emc_table_t *src_emc_entry, emc_table_t *dst_emc_entry, u32 dram_dev_num, u32 channel1_enabled, enum comp_seq_t seq_type) { if (!dst_emc_entry->periodic_training) return 0; u32 delay = 1000 * _actual_osc_clocks(src_emc_entry->run_clocks) / src_emc_entry->rate_khz + 2; if (seq_type == DVFS_SEQUENCE) { if (src_emc_entry->periodic_training && dst_emc_entry->ptfv_list.ptfv_config_ctrl & 1) { u32 samples = dst_emc_entry->ptfv_list.ptfv_dvfs_samples; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 = src_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 * samples; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 = src_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 * samples; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 = src_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 * samples; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 = src_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 * samples; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 = src_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 * samples; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 = src_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 * samples; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 = src_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 * samples; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 = src_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 * samples; } else { dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 = 0; for (u32 i = 0; i < dst_emc_entry->ptfv_list.ptfv_dvfs_samples; i++) { _start_periodic_compensation(); _usleep(delay); _minerva_update_clock_tree_delay(src_emc_entry, dst_emc_entry, dram_dev_num, channel1_enabled, DVFS_PT1); } } return _minerva_update_clock_tree_delay(src_emc_entry, dst_emc_entry, dram_dev_num, channel1_enabled, DVFS_UPDATE); } else if (seq_type == WRITE_TRAINING_SEQUENCE) { dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u0 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d0u1 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u0 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d0u1 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u0 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c0d1u1 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u0 = 0; dst_emc_entry->ptfv_list.ptfv_dqsosc_movavg_c1d1u1 = 0; for (u32 i = 0; i < dst_emc_entry->ptfv_list.ptfv_write_samples; i++) { _start_periodic_compensation(); _usleep(delay); _minerva_update_clock_tree_delay(src_emc_entry, dst_emc_entry, dram_dev_num, channel1_enabled, TRAINING_PT1); } return _minerva_update_clock_tree_delay(src_emc_entry, dst_emc_entry, dram_dev_num, channel1_enabled, TRAINING_UPDATE); } else if (seq_type == PERIODIC_TRAINING_SEQUENCE) { _start_periodic_compensation(); _usleep(delay); return _minerva_update_clock_tree_delay(src_emc_entry, dst_emc_entry, dram_dev_num, channel1_enabled, PERIODIC_TRAINING_UPDATE); } return seq_type; } #define STORE_TRIM_VAL(chan, rank, reg, byte) \ ((mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_long_dq_rank##rank##_##reg >> \ EMC_PMACRO_OB_DDLL_LONG_DQ_BYTE##byte##_SHIFT) & 0x7FF) \ + \ (((mtc_table_entry->trim_perch_regs.emc##chan##_data_brlshft_##rank >> \ EMC_DATA_BRLSHFT_##rank##_RANK##rank##_BYTE##byte##_DATA_BRLSHFT_SHIFT) & 0x7) << 6) static u32 _minerva_apply_periodic_compensation_trimmer(emc_table_t *mtc_table_entry, u32 trim_emc_reg_addr) { u32 trimmer = 0; s32 tree_delta[4] = {0}; s32 tree_delta_taps[4] = {0}; s32 new_trim[] = { // chan, rank, reg, byte. STORE_TRIM_VAL(0, 0, 0, 0), STORE_TRIM_VAL(0, 0, 0, 1), STORE_TRIM_VAL(0, 0, 1, 2), STORE_TRIM_VAL(0, 0, 1, 3), STORE_TRIM_VAL(1, 0, 2, 4), STORE_TRIM_VAL(1, 0, 2, 5), STORE_TRIM_VAL(1, 0, 3, 6), STORE_TRIM_VAL(1, 0, 3, 7), STORE_TRIM_VAL(0, 1, 0, 0), STORE_TRIM_VAL(0, 1, 0, 1), STORE_TRIM_VAL(0, 1, 1, 2), STORE_TRIM_VAL(0, 1, 1, 3), STORE_TRIM_VAL(1, 1, 2, 4), STORE_TRIM_VAL(1, 1, 2, 5), STORE_TRIM_VAL(1, 1, 3, 6), STORE_TRIM_VAL(1, 1, 3, 7) }; u32 dst_rate_mhz = mtc_table_entry->rate_khz / 1000; switch (trim_emc_reg_addr) { case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0: case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1: case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2: case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3: case EMC_DATA_BRLSHFT_0: tree_delta[0] = (mtc_table_entry->current_dram_clktree_c0d0u0 - mtc_table_entry->trained_dram_clktree_c0d0u0) * 128; tree_delta[1] = (mtc_table_entry->current_dram_clktree_c0d0u1 - mtc_table_entry->trained_dram_clktree_c0d0u1) * 128; tree_delta[2] = (mtc_table_entry->current_dram_clktree_c1d0u0 - mtc_table_entry->trained_dram_clktree_c1d0u0) * 128; tree_delta[3] = (mtc_table_entry->current_dram_clktree_c1d0u1 - mtc_table_entry->trained_dram_clktree_c1d0u1) * 128; tree_delta_taps[0] = (tree_delta[0] * (s32)dst_rate_mhz) / 1000000; tree_delta_taps[1] = (tree_delta[1] * (s32)dst_rate_mhz) / 1000000; tree_delta_taps[2] = (tree_delta[2] * (s32)dst_rate_mhz) / 1000000; tree_delta_taps[3] = (tree_delta[3] * (s32)dst_rate_mhz) / 1000000; for (u32 i = 0; i < 4; i++) { // Check if tap exceeds margins and apply it. if ((tree_delta_taps[i] > (s32)mtc_table_entry->tree_margin) || (tree_delta_taps[i] < (-1 * (s32)mtc_table_entry->tree_margin))) { new_trim[i * 2] += tree_delta_taps[i]; new_trim[i * 2 + 1] += tree_delta_taps[i]; } } if (trim_emc_reg_addr == EMC_DATA_BRLSHFT_0) { for (u32 i = 0; i < 8; i++) new_trim[i] /= 64; } else { for (u32 i = 0; i < 8; i++) new_trim[i] %= 64; } break; case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0: case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1: case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2: case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3: case EMC_DATA_BRLSHFT_1: tree_delta[0] = (mtc_table_entry->current_dram_clktree_c0d1u0 - mtc_table_entry->trained_dram_clktree_c0d1u0) * 128; tree_delta[1] = (mtc_table_entry->current_dram_clktree_c0d1u1 - mtc_table_entry->trained_dram_clktree_c0d1u1) * 128; tree_delta[2] = (mtc_table_entry->current_dram_clktree_c1d1u0 - mtc_table_entry->trained_dram_clktree_c1d1u0) * 128; tree_delta[3] = (mtc_table_entry->current_dram_clktree_c1d1u1 - mtc_table_entry->trained_dram_clktree_c1d1u1) * 128; tree_delta_taps[0] = (tree_delta[0] * (s32)dst_rate_mhz) / 1000000; tree_delta_taps[1] = (tree_delta[1] * (s32)dst_rate_mhz) / 1000000; tree_delta_taps[2] = (tree_delta[2] * (s32)dst_rate_mhz) / 1000000; tree_delta_taps[3] = (tree_delta[3] * (s32)dst_rate_mhz) / 1000000; for (u32 i = 0; i < 4; i++) { // Check if tap exceeds margins and apply it. if ((tree_delta_taps[i] > (s32)mtc_table_entry->tree_margin) || (tree_delta_taps[i] < (-1 * (s32)mtc_table_entry->tree_margin))) { new_trim[8 + i * 2] += tree_delta_taps[i]; new_trim[8 + i * 2 + 1] += tree_delta_taps[i]; } } if (trim_emc_reg_addr == EMC_DATA_BRLSHFT_1) { for (u32 i = 0; i < 8; i++) new_trim[i + 8] /= 64; } else { for (u32 i = 0; i < 8; i++) new_trim[i + 8] %= 64; } break; default: break; } switch (trim_emc_reg_addr) { case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0: trimmer = (new_trim[0] & 0x7FF) | ((new_trim[1] & 0x7FF) << 16); break; case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1: trimmer = (new_trim[2] & 0x7FF) | ((new_trim[3] & 0x7FF) << 16); break; case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2: trimmer = (new_trim[4] & 0x7FF) | ((new_trim[5] & 0x7FF) << 16); break; case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3: trimmer = (new_trim[6] & 0x7FF) | ((new_trim[7] & 0x7FF) << 16); break; case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0: trimmer = (new_trim[8] & 0x7FF) | ((new_trim[9] & 0x7FF) << 16); break; case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1: trimmer = (new_trim[10] & 0x7FF) | ((new_trim[11] & 0x7FF) << 16); break; case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2: trimmer = (new_trim[12] & 0x7FF) | ((new_trim[13] & 0x7FF) << 16); break; case EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3: trimmer = (new_trim[14] & 0x7FF) | ((new_trim[15] & 0x7FF) << 16); break; case EMC_DATA_BRLSHFT_0: trimmer = ((new_trim[0] & 7) << EMC_DATA_BRLSHFT_0_RANK0_BYTE0_DATA_BRLSHFT_SHIFT) | ((new_trim[1] & 7) << EMC_DATA_BRLSHFT_0_RANK0_BYTE1_DATA_BRLSHFT_SHIFT) | ((new_trim[2] & 7) << EMC_DATA_BRLSHFT_0_RANK0_BYTE2_DATA_BRLSHFT_SHIFT) | ((new_trim[3] & 7) << EMC_DATA_BRLSHFT_0_RANK0_BYTE3_DATA_BRLSHFT_SHIFT) | ((new_trim[4] & 7) << EMC_DATA_BRLSHFT_0_RANK0_BYTE4_DATA_BRLSHFT_SHIFT) | ((new_trim[5] & 7) << EMC_DATA_BRLSHFT_0_RANK0_BYTE5_DATA_BRLSHFT_SHIFT) | ((new_trim[6] & 7) << EMC_DATA_BRLSHFT_0_RANK0_BYTE6_DATA_BRLSHFT_SHIFT) | ((new_trim[7] & 7) << EMC_DATA_BRLSHFT_0_RANK0_BYTE7_DATA_BRLSHFT_SHIFT); break; case EMC_DATA_BRLSHFT_1: trimmer = ((new_trim[8] & 7) << EMC_DATA_BRLSHFT_1_RANK1_BYTE0_DATA_BRLSHFT_SHIFT) | ((new_trim[9] & 7) << EMC_DATA_BRLSHFT_1_RANK1_BYTE1_DATA_BRLSHFT_SHIFT) | ((new_trim[10] & 7) << EMC_DATA_BRLSHFT_1_RANK1_BYTE2_DATA_BRLSHFT_SHIFT) | ((new_trim[11] & 7) << EMC_DATA_BRLSHFT_1_RANK1_BYTE3_DATA_BRLSHFT_SHIFT) | ((new_trim[12] & 7) << EMC_DATA_BRLSHFT_1_RANK1_BYTE4_DATA_BRLSHFT_SHIFT) | ((new_trim[13] & 7) << EMC_DATA_BRLSHFT_1_RANK1_BYTE5_DATA_BRLSHFT_SHIFT) | ((new_trim[14] & 7) << EMC_DATA_BRLSHFT_1_RANK1_BYTE6_DATA_BRLSHFT_SHIFT) | ((new_trim[15] & 7) << EMC_DATA_BRLSHFT_1_RANK1_BYTE7_DATA_BRLSHFT_SHIFT); break; default: break; } return trimmer; } static bool _check_freq_changed(u32 dst_entry_rate_KHz, u32 dst_entry_clk_src_emc, u32 src_entry_rate_KHz, u32 src_entry_clk_src_emc) { u64 dst_div_clock; u64 src_div_clock; u32 src_end_div_clk_ratio; u32 src_entry_emc_2X_clk_src = src_entry_clk_src_emc >> EMC_2X_CLK_SRC_SHIFT; u32 dst_entry_emc_2X_clk_src = dst_entry_clk_src_emc >> EMC_2X_CLK_SRC_SHIFT; u32 src_entry_emc_2X_clk_src_div = src_entry_clk_src_emc & 0xFF; u32 dst_entry_emc_2X_clk_src_div = dst_entry_clk_src_emc & 0xFF; u32 pll_post_divider = 0; switch (CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC) >> EMC_2X_CLK_SRC_SHIFT) { case PLLM_OUT0: case PLLM_UD: pll_post_divider = (CLOCK(CLK_RST_CONTROLLER_PLLM_BASE) >> 20) & 0x1F; break; case PLLMB_UD: case PLLMB_OUT0: pll_post_divider = (CLOCK(CLK_RST_CONTROLLER_PLLMB_BASE) >> 20) & 0x1F; break; default: break; } // Hang if post div is wrong. if (pll_post_divider > 5) while (true) ; if (src_entry_emc_2X_clk_src <= PLLMB_UD) src_entry_emc_2X_clk_src_div = 0; if (dst_entry_emc_2X_clk_src <= PLLMB_UD) dst_entry_emc_2X_clk_src_div = 0; if (dst_entry_emc_2X_clk_src != src_entry_emc_2X_clk_src && (dst_entry_emc_2X_clk_src & 0xFFFFFFFB || src_entry_emc_2X_clk_src & 0xFFFFFFFB)) return true; dst_div_clock = dst_entry_rate_KHz * (pll_post_divider + 1) * ((dst_entry_emc_2X_clk_src_div >> 1) * 10 + (dst_entry_emc_2X_clk_src_div & 1) * 5 + 10) / 10; // Accounting for 7.1 div. src_div_clock = src_entry_rate_KHz * (pll_post_divider + 1) * ((src_entry_emc_2X_clk_src_div >> 1) * 10 + (src_entry_emc_2X_clk_src_div & 1) * 5 + 10) / 10; // Accounting for 7.1 div. src_end_div_clk_ratio = (src_div_clock * 1000) / dst_div_clock; if (src_end_div_clk_ratio > 1010 || src_end_div_clk_ratio < 990) return true; else return false; } static void _save_train_results(emc_table_t *mtc_table_entry, u32 needs_training, u32 dram_dev_num, bool channel1_enabled) { bool needs_ca_training = !!(needs_training & NEEDS_TRAINING_CA); bool needs_ca_vref_training = !!(needs_training & NEEDS_TRAINING_CA_VREF); bool needs_quse_training = !!(needs_training & NEEDS_TRAINING_QUSE); bool needs_quse_vref_training = !!(needs_training & NEEDS_TRAINING_QUSE_VREF); bool needs_wr_training = !!(needs_training & NEEDS_TRAINING_WR); bool needs_wr_vref_training = !!(needs_training & NEEDS_TRAINING_WR_VREF); bool needs_rd_training = !!(needs_training & NEEDS_TRAINING_RD); bool needs_rd_vref_training = !!(needs_training & NEEDS_TRAINING_RD_VREF); bool needs_training_in_self_refresh = !!(needs_training & NEEDS_TRAINING_IN_SELF_REFRESH); if (needs_ca_training) { mtc_table_entry->trim_perch_regs.emc_cmd_brlshft_0 = EMC_CH0(EMC_CMD_BRLSHFT_0); mtc_table_entry->trim_perch_regs.emc_cmd_brlshft_1 = channel1_enabled ? EMC_CH1(EMC_CMD_BRLSHFT_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_long_dq_rank0_4 = EMC_CH0(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_4); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_long_dq_rank0_5 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_5) : 0; if (needs_training_in_self_refresh) { mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd0_0 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd0_1 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd0_2 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_2); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd1_0 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd1_1 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd1_2 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_2); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd2_0 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd2_1 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd2_2 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_2); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd3_0 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd3_1 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_cmd3_2 = EMC(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_2); } } if (needs_ca_vref_training) { mtc_table_entry->burst_reg_per_ch.emc0_mrw10 = (EMC_CH0(EMC_TRAINING_OPT_CA_VREF) & 0xFFFF) | 0x880C0000; mtc_table_entry->burst_reg_per_ch.emc1_mrw10 = (channel1_enabled ? EMC_CH1(EMC_TRAINING_OPT_CA_VREF) & 0xFFFF : 0) | 0x880C0000; u32 mrw11_dev_selectn; if (dram_dev_num == TWO_RANK) mrw11_dev_selectn = 0x480C0000; else mrw11_dev_selectn = 0xC80C0000; mtc_table_entry->burst_reg_per_ch.emc0_mrw11 = ((EMC_CH0(EMC_TRAINING_OPT_CA_VREF) >> 16) & 0xFF) | (EMC_CH0(EMC_TRAINING_OPT_CA_VREF) >> 24 << 8) | (mrw11_dev_selectn & 0xFFFFFF00); mtc_table_entry->burst_reg_per_ch.emc1_mrw11 = (((channel1_enabled ? EMC_CH1(EMC_TRAINING_OPT_CA_VREF) : 0) >> 16) & 0xFF) | ((channel1_enabled ? EMC_CH1(EMC_TRAINING_OPT_CA_VREF) : 0) >> 24 << 8) | (mrw11_dev_selectn & 0xFFFFFF00); } if (needs_quse_training || needs_rd_training) { mtc_table_entry->trim_perch_regs.emc_quse_brlshft_0 = EMC_CH0(EMC_QUSE_BRLSHFT_0); mtc_table_entry->trim_perch_regs.emc_quse_brlshft_1 = channel1_enabled ? EMC_CH1(EMC_QUSE_BRLSHFT_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_quse_ddll_rank0_0 = EMC_CH0(EMC_PMACRO_QUSE_DDLL_RANK0_0); mtc_table_entry->trim_regs.emc_pmacro_quse_ddll_rank0_1 = EMC_CH0(EMC_PMACRO_QUSE_DDLL_RANK0_1); mtc_table_entry->trim_regs.emc_pmacro_quse_ddll_rank0_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_QUSE_DDLL_RANK0_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_quse_ddll_rank0_3 = channel1_enabled ? EMC_CH1(EMC_PMACRO_QUSE_DDLL_RANK0_3) : 0; if (dram_dev_num == TWO_RANK) { mtc_table_entry->trim_perch_regs.emc_quse_brlshft_2 = EMC_CH0(EMC_QUSE_BRLSHFT_2); mtc_table_entry->trim_perch_regs.emc_quse_brlshft_3 = channel1_enabled ? EMC_CH1(EMC_QUSE_BRLSHFT_3) : 0; mtc_table_entry->trim_regs.emc_pmacro_quse_ddll_rank1_0 = EMC_CH0(EMC_PMACRO_QUSE_DDLL_RANK1_0); mtc_table_entry->trim_regs.emc_pmacro_quse_ddll_rank1_1 = EMC_CH0(EMC_PMACRO_QUSE_DDLL_RANK1_1); mtc_table_entry->trim_regs.emc_pmacro_quse_ddll_rank1_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_QUSE_DDLL_RANK1_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_quse_ddll_rank1_3 = channel1_enabled ? EMC_CH1(EMC_PMACRO_QUSE_DDLL_RANK1_3) : 0; } } if (needs_quse_vref_training) { if (dram_dev_num == TWO_RANK) { u32 emc0_opt_dqs_array[4] = {0}; u32 emc1_opt_dqs_array[4] = {0}; u32 emc1_training_opt_dqs_ib_vref_rank0_val = channel1_enabled ? EMC_CH1(EMC_TRAINING_OPT_DQS_IB_VREF_RANK0) : 0; u32 emc1_training_opt_dqs_ib_vref_rank1_val = channel1_enabled ? EMC_CH1(EMC_TRAINING_OPT_DQS_IB_VREF_RANK1) : 0; for (u32 i = 0; i < 4; i++) { emc0_opt_dqs_array[i] = (EMC_CH0(EMC_TRAINING_OPT_DQS_IB_VREF_RANK0) >> (8 * i)) & 0xFF; emc1_opt_dqs_array[i] = (emc1_training_opt_dqs_ib_vref_rank0_val >> (8 * i)) & 0xFF; } u32 ib_vref_dqs_0 = 0; u32 ib_vref_dqs_1 = 0; for (u32 i = 0; i < 4; i++) { ib_vref_dqs_0 |= (emc0_opt_dqs_array[i] + ((EMC_CH0(EMC_TRAINING_OPT_DQS_IB_VREF_RANK1) >> (8 * i)) & 0xFF)) >> 1 << (8 * i); ib_vref_dqs_1 |= (emc1_opt_dqs_array[i] + ((emc1_training_opt_dqs_ib_vref_rank1_val >> (8 * i)) & 0xFF)) >> 1 << (8 * i); } mtc_table_entry->trim_regs.emc_pmacro_ib_vref_dqs_0 = ib_vref_dqs_0; mtc_table_entry->trim_regs.emc_pmacro_ib_vref_dqs_1 = ib_vref_dqs_1; } else { mtc_table_entry->trim_regs.emc_pmacro_ib_vref_dqs_0 = EMC(EMC_PMACRO_IB_VREF_DQS_0); mtc_table_entry->trim_regs.emc_pmacro_ib_vref_dqs_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_VREF_DQS_1) : 0; } } if (needs_rd_training) { mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_long_dqs_rank0_0 = EMC_CH0(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_0); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_long_dqs_rank0_1 = EMC_CH0(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_1); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_long_dqs_rank0_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_long_dqs_rank0_3 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_3) : 0; if (dram_dev_num == TWO_RANK) { mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_long_dqs_rank1_0 = EMC_CH0(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_0); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_long_dqs_rank1_1 = EMC_CH0(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_1); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_long_dqs_rank1_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_long_dqs_rank1_3 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_3) : 0; } if (needs_training_in_self_refresh) { mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte0_0 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_0); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte0_1 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_1); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte0_2 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_2); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte1_0 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_0); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte1_1 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_1); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte1_2 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_2); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte2_0 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_0); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte2_1 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_1); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte2_2 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_2); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte3_0 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_0); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte3_1 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_1); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte3_2 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_2); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte4_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte4_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte4_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte5_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte5_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte5_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte6_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte6_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte6_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte7_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte7_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank0_byte7_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_2) : 0; if (dram_dev_num == TWO_RANK) { mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte0_0 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_0); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte0_1 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_1); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte0_2 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_2); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte1_0 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_0); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte1_1 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_1); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte1_2 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_2); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte2_0 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_0); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte2_1 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_1); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte2_2 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_2); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte3_0 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_0); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte3_1 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_1); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte3_2 = EMC_CH0(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_2); mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte4_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte4_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte4_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte5_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte5_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte5_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte6_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte6_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte6_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte7_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte7_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ib_ddll_short_dq_rank1_byte7_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_2) : 0; } } if (needs_rd_vref_training) { char ib_vref_dq_byte0_icr = (EMC(EMC_PMACRO_IB_VREF_DQ_0) & 0x7F) + (mtc_table_entry->save_restore_mod_regs[0] & 0x7F); if (mtc_table_entry->save_restore_mod_regs[0] & 0x80000000) // < 0 check. ib_vref_dq_byte0_icr = (EMC(EMC_PMACRO_IB_VREF_DQ_0) & 0x7F) - (mtc_table_entry->save_restore_mod_regs[0] & 0x7F); char ib_vref_dq_byte1_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_0) >> 8) & 0x7F) + (mtc_table_entry->save_restore_mod_regs[1] & 0x7F); if (mtc_table_entry->save_restore_mod_regs[1] & 0x80000000) ib_vref_dq_byte1_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_0) >> 8) & 0x7F) - (mtc_table_entry->save_restore_mod_regs[1] & 0x7F); char ib_vref_dq_byte2_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_0) >> 16) & 0x7F) + (mtc_table_entry->save_restore_mod_regs[2] & 0x7F); if (mtc_table_entry->save_restore_mod_regs[2] & 0x80000000) ib_vref_dq_byte2_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_0) >> 16) & 0x7F) - (mtc_table_entry->save_restore_mod_regs[2] & 0x7F); char ib_vref_dq_byte3_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_0) >> 24) & 0x7F) + (mtc_table_entry->save_restore_mod_regs[3] & 0x7F); if (mtc_table_entry->save_restore_mod_regs[3] & 0x80000000) ib_vref_dq_byte3_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_0) >> 24) & 0x7F) - (mtc_table_entry->save_restore_mod_regs[3] & 0x7F); mtc_table_entry->trim_regs.emc_pmacro_ib_vref_dq_0 = ((ib_vref_dq_byte0_icr & 0x7F) | (ib_vref_dq_byte1_icr & 0x7F) << 8) | ((ib_vref_dq_byte2_icr & 0x7F) << 16) | ((ib_vref_dq_byte3_icr & 0x7F) << 24); char ib_vref_dq_byte4_icr = (EMC(EMC_PMACRO_IB_VREF_DQ_1) & 0x7F) + (mtc_table_entry->save_restore_mod_regs[4] & 0x7F); if (mtc_table_entry->save_restore_mod_regs[4] & 0x80000000) ib_vref_dq_byte4_icr = (EMC(EMC_PMACRO_IB_VREF_DQ_1) & 0x7F) - (mtc_table_entry->save_restore_mod_regs[4] & 0x7F); char ib_vref_dq_byte5_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_1) >> 8) & 0x7F) + (mtc_table_entry->save_restore_mod_regs[5] & 0x7F); if (mtc_table_entry->save_restore_mod_regs[5] & 0x80000000) ib_vref_dq_byte5_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_1) >> 8) & 0x7F) - (mtc_table_entry->save_restore_mod_regs[5] & 0x7F); char ib_vref_dq_byte6_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_1) >> 16) & 0x7F) + (mtc_table_entry->save_restore_mod_regs[6] & 0x7F); if (mtc_table_entry->save_restore_mod_regs[6] & 0x80000000) ib_vref_dq_byte6_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_1) >> 16) & 0x7F) - (mtc_table_entry->save_restore_mod_regs[6] & 0x7F); char ib_vref_dq_byte7_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_1) >> 24) & 0x7F) + (mtc_table_entry->save_restore_mod_regs[7] & 0x7F); if (mtc_table_entry->save_restore_mod_regs[7] & 0x80000000) ib_vref_dq_byte7_icr = ((EMC(EMC_PMACRO_IB_VREF_DQ_1) >> 24) & 0x7F) - (mtc_table_entry->save_restore_mod_regs[7] & 0x7F); mtc_table_entry->trim_regs.emc_pmacro_ib_vref_dq_1 = ((ib_vref_dq_byte4_icr & 0x7F) | (ib_vref_dq_byte5_icr & 0x7F) << 8) | ((ib_vref_dq_byte6_icr & 0x7F) << 16) | ((ib_vref_dq_byte7_icr & 0x7F) << 24); } } if (needs_wr_training) { mtc_table_entry->trim_perch_regs.emc0_data_brlshft_0 = EMC_CH0(EMC_DATA_BRLSHFT_0); mtc_table_entry->trim_perch_regs.emc1_data_brlshft_0 = channel1_enabled ? EMC_CH1(EMC_DATA_BRLSHFT_0) : 0; if (dram_dev_num == TWO_RANK) { mtc_table_entry->trim_perch_regs.emc0_data_brlshft_1 = EMC_CH0(EMC_DATA_BRLSHFT_1); mtc_table_entry->trim_perch_regs.emc1_data_brlshft_1 = channel1_enabled ? EMC_CH1(EMC_DATA_BRLSHFT_1) : 0; } mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_long_dq_rank0_0 = EMC_CH0(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_long_dq_rank0_1 = EMC_CH0(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_long_dq_rank0_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_long_dq_rank0_3 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3) : 0; if (dram_dev_num == TWO_RANK) { mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_long_dq_rank1_0 = EMC_CH0(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_long_dq_rank1_1 = EMC_CH0(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_long_dq_rank1_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_long_dq_rank1_3 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3) : 0; } if (needs_training_in_self_refresh) { mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte0_0 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte0_1 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte0_2 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_2); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte1_0 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte1_1 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte1_2 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_2); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte2_0 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte2_1 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte2_2 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_2); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte3_0 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte3_1 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte3_2 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_2); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte4_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte4_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte4_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte5_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte5_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte5_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte6_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte6_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte6_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte7_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte7_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank0_byte7_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_2) : 0; if (dram_dev_num == TWO_RANK) { mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte0_0 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte0_1 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte0_2 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_2); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte1_0 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte1_1 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte1_2 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_2); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte2_0 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte2_1 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte2_2 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_2); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte3_0 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_0); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte3_1 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_1); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte3_2 = EMC_CH0(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_2); mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte4_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte4_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte4_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte5_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte5_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte5_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte6_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte6_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte6_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_2) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte7_0 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_0) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte7_1 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_1) : 0; mtc_table_entry->trim_regs.emc_pmacro_ob_ddll_short_dq_rank1_byte7_2 = channel1_enabled ? EMC_CH1(EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_2) : 0; } } if (needs_wr_vref_training) // mode 12/13 (MRW). { u32 emc1_ranks_sub_partitions = 0; emc1_ranks_sub_partitions = channel1_enabled ? EMC_CH1(EMC_TRAINING_OPT_DQ_OB_VREF) : 0; u8 emc0_ib_vref_dq_byte8_modded_plus = mtc_table_entry->save_restore_mod_regs[8] + EMC_CH0(EMC_TRAINING_OPT_DQ_OB_VREF); if (mtc_table_entry->save_restore_mod_regs[8] & 0x80000000) // < 0 check. emc0_ib_vref_dq_byte8_modded_plus = EMC_CH0(EMC_TRAINING_OPT_DQ_OB_VREF) - mtc_table_entry->save_restore_mod_regs[8]; u8 emc0_mrw12_op_sp1 = ((EMC_CH0(EMC_TRAINING_OPT_DQ_OB_VREF) & 0xFFFF) >> 8) + mtc_table_entry->save_restore_mod_regs[9]; if (mtc_table_entry->save_restore_mod_regs[9] & 0x80000000) emc0_mrw12_op_sp1 = ((EMC_CH0(EMC_TRAINING_OPT_DQ_OB_VREF) & 0xFFFF) >> 8) - mtc_table_entry->save_restore_mod_regs[9]; u8 emc0_mrw13_op_sp0 = ((EMC_CH0(EMC_TRAINING_OPT_DQ_OB_VREF) >> 16) & 0xFF) + mtc_table_entry->save_restore_mod_regs[8]; if (mtc_table_entry->save_restore_mod_regs[8] & 0x80000000) emc0_mrw13_op_sp0 = ((EMC_CH0(EMC_TRAINING_OPT_DQ_OB_VREF) >> 16) & 0xFF) - mtc_table_entry->save_restore_mod_regs[8]; u8 emc0_ib_vref_dq_byte9_modded_a_plus = mtc_table_entry->save_restore_mod_regs[9] + (EMC_CH0(EMC_TRAINING_OPT_DQ_OB_VREF) >> 24); if (mtc_table_entry->save_restore_mod_regs[9] & 0x80000000) emc0_ib_vref_dq_byte9_modded_a_plus = (EMC_CH0(EMC_TRAINING_OPT_DQ_OB_VREF) >> 24) - (u8)mtc_table_entry->save_restore_mod_regs[9]; u8 emc0_ib_vref_dq_byte10_modded_plus = emc1_ranks_sub_partitions + mtc_table_entry->save_restore_mod_regs[10]; if (mtc_table_entry->save_restore_mod_regs[10] & 0x80000000) emc0_ib_vref_dq_byte10_modded_plus = emc1_ranks_sub_partitions - mtc_table_entry->save_restore_mod_regs[10]; u8 emc0_ib_vref_dq_byte11_modded_plus = ((emc1_ranks_sub_partitions & 0xFFFF) >> 8) + mtc_table_entry->save_restore_mod_regs[11]; if (mtc_table_entry->save_restore_mod_regs[11] & 0x80000000) emc0_ib_vref_dq_byte11_modded_plus = ((emc1_ranks_sub_partitions & 0xFFFF) >> 8) - mtc_table_entry->save_restore_mod_regs[11]; u8 emc1_mrw13_op_sp0 = ((emc1_ranks_sub_partitions >> 16) & 0xFF) + mtc_table_entry->save_restore_mod_regs[10]; if (mtc_table_entry->save_restore_mod_regs[10] & 0x80000000) emc1_mrw13_op_sp0 = ((emc1_ranks_sub_partitions >> 16) & 0xFF) - mtc_table_entry->save_restore_mod_regs[10]; u8 emc1_mrw13_op_sp1 = (emc1_ranks_sub_partitions >> 24) + mtc_table_entry->save_restore_mod_regs[11]; if (mtc_table_entry->save_restore_mod_regs[11] & 0x80000000) emc1_mrw13_op_sp1 = (emc1_ranks_sub_partitions >> 24) - mtc_table_entry->save_restore_mod_regs[11]; u32 mr13_dev_ext_cnt_sp_addr = 0xC80E0000; if (dram_dev_num == TWO_RANK) mr13_dev_ext_cnt_sp_addr = 0x480E0000; mtc_table_entry->burst_reg_per_ch.emc1_mrw12 = (u8)emc0_ib_vref_dq_byte10_modded_plus | 0x880E0000 | (emc0_ib_vref_dq_byte11_modded_plus << 8); mtc_table_entry->burst_reg_per_ch.emc0_mrw12 = emc0_ib_vref_dq_byte8_modded_plus | 0x880E0000 | (emc0_mrw12_op_sp1 << 8); mtc_table_entry->burst_reg_per_ch.emc0_mrw13 = emc0_ib_vref_dq_byte9_modded_a_plus << 8 | emc0_mrw13_op_sp0 | mr13_dev_ext_cnt_sp_addr; mtc_table_entry->burst_reg_per_ch.emc1_mrw13 = (emc1_mrw13_op_sp1 << 8) | emc1_mrw13_op_sp0 | mr13_dev_ext_cnt_sp_addr; } } } static u32 _minerva_change_clock(emc_table_t *src_emc_entry, emc_table_t *dst_emc_entry, u32 needs_training, u32 selected_clk_src_emc) { u32 emc_dbg_o; u32 emc_pin_o; u32 emc_cfg_pipe_clk_o; u32 emc_sel_dpd_ctrl; u32 emc_cfg; u32 emc_dbg_val; u32 emc_zq_cal = 0; u32 ramp_up_wait; u32 ramp_down_wait; u32 bg_regulator_mode_change; u32 mr13_flip_fspop; u32 mr13_flip_fspwr; u32 mr13_catr_enable; /* needs_training flags */ /* | bit | Description | |-----|----------------------------------| | 0 | Needs CA training | | 1 | Needs CA_VREF training | | 2 | Needs QUSE training | | 3 | Needs QUSE_VREF training | | 4 | Needs WR training | | 5 | Needs WR_VREF training | | 6 | Needs RD training | | 7 | Needs RD_VREF training | | 8 | Needs SWAP_RANK training | | 9 | Needs IN_SELF_REFRESH training | */ bool compensate_trimmer_applicable = false; bool in_training = !!(needs_training & NEEDS_TRAINING); bool needs_ca_combo_training = !!(needs_training & NEEDS_TRAINING_CA_COMBO); bool needs_ca_training = !!(needs_training & NEEDS_TRAINING_CA); bool needs_ca_vref_training = !!(needs_training & NEEDS_TRAINING_CA_VREF); bool needs_quse_training = !!(needs_training & NEEDS_TRAINING_QUSE); bool needs_quse_vref_training = !!(needs_training & NEEDS_TRAINING_QUSE_VREF); bool needs_wr_training = !!(needs_training & NEEDS_TRAINING_WR); bool needs_wr_vref_training = !!(needs_training & NEEDS_TRAINING_WR_VREF); bool needs_rd_training = !!(needs_training & NEEDS_TRAINING_RD); bool needs_rd_vref_training = !!(needs_training & NEEDS_TRAINING_RD_VREF); bool needs_swap_rank_training = !!(needs_training & NEEDS_TRAINING_SWAP_RANK); bool zcal_resistor_shared = (src_emc_entry->burst_regs.emc_zcal_wait_cnt >> 31) & 1; bool enable_bg_regulator = (dst_emc_entry->burst_regs.emc_pmacro_bg_bias_ctrl_0 & 1) ^ 1; bool channel1_enabled = (src_emc_entry->burst_regs.emc_fbio_cfg7 >> 2) & 1; u32 dram_type = EMC(EMC_FBIO_CFG5) & 3; u32 dram_dev_num = (MC(MC_EMEM_ADR_CFG) & 1) + 1; u32 src_clock_period = 1000000000 / src_emc_entry->rate_khz; // In picoseconds. u32 dst_clock_period = 1000000000 / dst_emc_entry->rate_khz; // In picoseconds. // Get current FSP op/write value. bool enable_fsp_opwr = !(EMC(EMC_MRW3) & 0xC0); if (dram_type != DRAM_TYPE_LPDDR4) { EPRINTF("MTC Error: DRAM is not LPDDR4"); return 5; } u32 tFC_lpddr4 = dst_emc_entry->dram_timings.t_fc_lpddr4 * 1000; u32 tZQCAL_lpddr4 = 1000000; if (dst_clock_period <= 2000) tZQCAL_lpddr4 -= tFC_lpddr4; s32 tZQCAL_lpddr4_fc_adj = tZQCAL_lpddr4 / dst_clock_period; (void)EMC(EMC_CFG); (void)EMC(EMC_AUTO_CAL_CONFIG); // Step 1 - Pre DVFS SW sequence. EPRINTF("Step 1"); emc_dbg_o = EMC(EMC_DBG); emc_pin_o = EMC(EMC_PIN); emc_cfg = dst_emc_entry->burst_regs.emc_cfg & 0xFFFFFFF; emc_sel_dpd_ctrl = dst_emc_entry->emc_sel_dpd_ctrl & 0xFFFFFEC3; emc_cfg_pipe_clk_o = EMC(EMC_CFG_PIPE_CLK); _digital_dll_disable(); // Step 1.2 - Disable AUTOCAL temporarily. EPRINTF("Step 1.2"); EMC(EMC_AUTO_CAL_CONFIG) = (dst_emc_entry->emc_auto_cal_config & 0x7FFFF9FF) | 0x600; (void)EMC(EMC_AUTO_CAL_CONFIG); // Step 1.3 - Disable other power features. EPRINTF("Step 1.3"); EMC(EMC_DBG) = emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE; EMC(EMC_CFG) = emc_cfg; EMC(EMC_SEL_DPD_CTRL) = emc_sel_dpd_ctrl; EMC(EMC_DBG) = emc_dbg_o; if (!in_training && dst_emc_entry->periodic_training) { if (dram_dev_num == TWO_RANK) { _wait_emc_status(EMC_EMC_STATUS, IN_POWERDOWN_BOTH_MASK, false, EMC_CHANNEL0); if (channel1_enabled) _wait_emc_status(EMC_EMC_STATUS, IN_POWERDOWN_BOTH_MASK, false, EMC_CHANNEL1); } else { _wait_emc_status(EMC_EMC_STATUS, IN_POWERDOWN_1DEV_MASK, false, EMC_CHANNEL0); if (channel1_enabled) _wait_emc_status(EMC_EMC_STATUS, IN_POWERDOWN_1DEV_MASK, false, EMC_CHANNEL1); } _wait_emc_status(EMC_EMC_STATUS, IN_SELF_REFRESH_MASK, false, EMC_CHANNEL0); if (channel1_enabled) _wait_emc_status(EMC_EMC_STATUS, IN_SELF_REFRESH_MASK, false, EMC_CHANNEL1); // Reset clock tree delays. dst_emc_entry->current_dram_clktree_c0d0u0 = dst_emc_entry->trained_dram_clktree_c0d0u0; dst_emc_entry->current_dram_clktree_c0d0u1 = dst_emc_entry->trained_dram_clktree_c0d0u1; dst_emc_entry->current_dram_clktree_c0d1u0 = dst_emc_entry->trained_dram_clktree_c0d1u0; dst_emc_entry->current_dram_clktree_c0d1u1 = dst_emc_entry->trained_dram_clktree_c0d1u1; dst_emc_entry->current_dram_clktree_c1d0u0 = dst_emc_entry->trained_dram_clktree_c1d0u0; dst_emc_entry->current_dram_clktree_c1d0u1 = dst_emc_entry->trained_dram_clktree_c1d0u1; dst_emc_entry->current_dram_clktree_c1d1u0 = dst_emc_entry->trained_dram_clktree_c1d1u0; dst_emc_entry->current_dram_clktree_c1d1u1 = dst_emc_entry->trained_dram_clktree_c1d1u1; u32 adelta = _minerva_periodic_compensation_handler(src_emc_entry, dst_emc_entry, dram_dev_num, channel1_enabled, DVFS_SEQUENCE); if (((dst_emc_entry->rate_khz / 1000) * 128) * adelta / 1000000 > dst_emc_entry->tree_margin) compensate_trimmer_applicable = true; } EMC(EMC_INTSTATUS) = CLKCHANGE_COMPLETE_INT; EMC(EMC_DBG) = emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE; EMC(EMC_CFG) = emc_cfg; EMC(EMC_SEL_DPD_CTRL) = emc_sel_dpd_ctrl; EMC(EMC_CFG_PIPE_CLK) = emc_cfg_pipe_clk_o | 1; // CLK_ALWAYS_ON. EMC(EMC_FDPD_CTRL_CMD_NO_RAMP) = dst_emc_entry->emc_fdpd_ctrl_cmd_no_ramp & 0xFFFFFFFE; bg_regulator_mode_change = src_emc_entry->burst_regs.emc_pmacro_bg_bias_ctrl_0 ^ dst_emc_entry->burst_regs.emc_pmacro_bg_bias_ctrl_0; bg_regulator_mode_change = (bg_regulator_mode_change | (bg_regulator_mode_change >> 2)) & 1; if (bg_regulator_mode_change) { EMC(EMC_DBG) = emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE; if (enable_bg_regulator) EMC(EMC_PMACRO_BG_BIAS_CTRL_0) = src_emc_entry->burst_regs.emc_pmacro_bg_bias_ctrl_0 & 0xFFFFFFFE; else EMC(EMC_PMACRO_BG_BIAS_CTRL_0) = src_emc_entry->burst_regs.emc_pmacro_bg_bias_ctrl_0 & 0xFFFFFFFB; } // Check if we need to turn on VREF generator. if ((!(src_emc_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl & 0x100) && (dst_emc_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl & 0x100)) || (!(src_emc_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl & 1) && (dst_emc_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl & 1))) { EMC(EMC_PMACRO_DATA_PAD_TX_CTRL) = (((dst_emc_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl & 1) | (src_emc_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl & 0xFFFFFFFE)) & 0xFFFFFEFF) | (((dst_emc_entry->burst_regs.emc_pmacro_data_pad_tx_ctrl >> 8) & 0x1) << 8); } _usleep(1); EMC(EMC_DBG) = emc_dbg_o; // Step 2 - Prelock the DLL. EPRINTF("Step 2"); if (dst_emc_entry->burst_regs.emc_cfg_dig_dll & 1) _digital_dll_prelock(dst_emc_entry, in_training, selected_clk_src_emc); // Prelock enabled for target frequency. else { _change_dll_src(dst_emc_entry, selected_clk_src_emc); _digital_dll_disable(); // Disabling DLL for target frequency. } // Step 3 - Prepare autocal for the clock change. EPRINTF("Step 3"); EMC(EMC_AUTO_CAL_CONFIG) = (dst_emc_entry->emc_auto_cal_config & 0x7FFFF9FF) | 0x600; EMC(EMC_DBG) = emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE; EMC(EMC_AUTO_CAL_CONFIG2) = dst_emc_entry->emc_auto_cal_config2; EMC(EMC_AUTO_CAL_CONFIG3) = dst_emc_entry->emc_auto_cal_config3; EMC(EMC_AUTO_CAL_CONFIG4) = dst_emc_entry->emc_auto_cal_config4; EMC(EMC_AUTO_CAL_CONFIG5) = dst_emc_entry->emc_auto_cal_config5; EMC(EMC_AUTO_CAL_CONFIG6) = dst_emc_entry->emc_auto_cal_config6; EMC(EMC_AUTO_CAL_CONFIG7) = dst_emc_entry->emc_auto_cal_config7; EMC(EMC_AUTO_CAL_CONFIG8) = dst_emc_entry->emc_auto_cal_config8; EMC(EMC_DBG) = emc_dbg_o; EMC(EMC_AUTO_CAL_CONFIG) = (dst_emc_entry->emc_auto_cal_config & 0x7FFFF9FE) | 0x601; // Step 4 - Update EMC_CFG. EPRINTF("Step 4"); if (src_clock_period <= 50000) EMC(EMC_CFG_2) = dst_emc_entry->emc_cfg_2; else _ccfifo_write(EMC_SELF_REF, 1, 0); // Step 5 - Prepare reference variables for ZQCAL regs. EPRINTF("Step 5"); // u32 zq_wait_long = 0; // u32 zq_wait_short = 0; // zq_wait_long = _fceil(1000.0f / dst_clock_period); // Step 7 - Bug 200024907 - Patch RP R2P. EPRINTF("Step 7"); if (needs_ca_combo_training && dram_dev_num == TWO_RANK) EMC(EMC_PIN) = 0x107; u32 R2P_war = 0; u32 TRPab_war = 0; u32 RP_war = 0; u32 W2P_war = 0; u32 nRTP = 8; // <= 1066MHz. if ( src_clock_period < 1000000 / 266 // 266MHz - 3759.39 ps. && src_clock_period < 1000000 / 533 // 533MHz - 1876.17 ps. && src_clock_period < 1000000 / 800 // 800MHz - 1250.00 ps. && src_clock_period < 1000000 / 1066) // 1066MHz - 938.09 ps. nRTP = 10; // 1067MHz < x <= 1333MHz. if (src_clock_period < 1000000 / 1333) // 1333MHz - 750.19 ps. nRTP = 12; // 1333MHz < x <= 1600MHz. if (src_clock_period < 1000000 / 1600) // 1600MHz - 625.00 ps. nRTP = 14; // 1600MHz < x <= 1866MHz. if (src_clock_period < 1000000 / 1866) // 1866MHz - 535.91 ps. nRTP = 16; // > 1866MHz u32 tRPST = (src_emc_entry->emc_mrw >> 7) & 1; u32 deltaTWATM = _div_o3(7500, src_clock_period); if (deltaTWATM < 8) deltaTWATM = 8; u32 tRTM = src_emc_entry->dram_timings.rl + _div_o3(3600, src_clock_period) + deltaTWATM + tRPST + nRTP + 1; if (tRTM <= src_emc_entry->burst_regs.emc_rp + src_emc_entry->burst_regs.emc_r2p) { TRPab_war = src_emc_entry->burst_regs.emc_trpab; R2P_war = src_emc_entry->burst_regs.emc_r2p; RP_war = src_emc_entry->burst_regs.emc_rp; } else { R2P_war = tRTM - src_emc_entry->burst_regs.emc_rp; TRPab_war = src_emc_entry->burst_regs.emc_trpab; RP_war = src_emc_entry->burst_regs.emc_rp; if (R2P_war > 63) { RP_war = tRTM - 63; R2P_war = 63; if (src_emc_entry->burst_regs.emc_trpab < tRTM - 63) TRPab_war = tRTM - 63; else TRPab_war = src_emc_entry->burst_regs.emc_trpab; } } if (RP_war >= deltaTWATM) W2P_war = src_emc_entry->burst_regs.emc_w2p; else { u32 W2P_war_temp = deltaTWATM + src_emc_entry->burst_regs.emc_w2p; W2P_war = W2P_war_temp - RP_war; if (W2P_war > 63) { RP_war = W2P_war_temp - 63; W2P_war = 63; if (TRPab_war < RP_war) TRPab_war = RP_war; } } if (src_emc_entry->burst_regs.emc_w2p != W2P_war || src_emc_entry->burst_regs.emc_rp != RP_war || src_emc_entry->burst_regs.emc_r2p != R2P_war || src_emc_entry->burst_regs.emc_trpab != TRPab_war) { EMC(EMC_DBG) = emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE; EMC(EMC_RP) = RP_war; EMC(EMC_R2P) = R2P_war; EMC(EMC_W2P) = W2P_war; EMC(EMC_TRPAB) = TRPab_war; EMC(EMC_DBG) = emc_dbg_o; (void)EMC(EMC_TRPAB); _usleep(1); } // Step 7.2 - Program FSP reference registers and send MRWs to new FSPWR. EPRINTF("Step 7.2"); if (enable_fsp_opwr) { mr13_flip_fspop = dst_emc_entry->emc_mrw3 | 0xC0; mr13_flip_fspwr = (dst_emc_entry->emc_mrw3 & 0xFFFFFF3F) | 0x40; } else { mr13_flip_fspop = dst_emc_entry->emc_mrw3 & 0xFFFFFF3F; mr13_flip_fspwr = mr13_flip_fspop | 0x80; } if (dram_dev_num == TWO_RANK) { if (needs_swap_rank_training) mr13_catr_enable = (mr13_flip_fspwr & 0x3FFFFFFF) | 0x40000001; else mr13_catr_enable = (mr13_flip_fspwr & 0x3FFFFFFF) | 0x80000001; if (needs_ca_combo_training) { if (needs_swap_rank_training) mr13_flip_fspop = (mr13_flip_fspop & 0x3FFFFFFF) | 0x80000000; else mr13_flip_fspop = (mr13_flip_fspop & 0x3FFFFFFF) | 0x40000000; } } else mr13_catr_enable = mr13_flip_fspwr | 1; EMC(EMC_MRW3) = mr13_flip_fspwr; EMC(EMC_MRW) = dst_emc_entry->emc_mrw; EMC(EMC_MRW2) = dst_emc_entry->emc_mrw2; // Step 8 - Program the shadow registers. EPRINTF("Step 8"); // Writing burst_regs. u32 reg_addr = 0; u32 reg_val = 0; burst_regs_table_t *dst_burst_regs = (burst_regs_table_t *)&dst_emc_entry->burst_regs; u32 *burst_val_table = dst_burst_regs->burst_regs; if (in_training) { if (needs_ca_combo_training) burst_val_table = dst_burst_regs->shadow_regs_ca_train; else if (needs_training & NEEDS_TRAINING_QUSE_COMBO) burst_val_table = dst_burst_regs->shadow_regs_quse_train; else if (needs_training & (NEEDS_TRAINING_WR_COMBO | NEEDS_TRAINING_RD_COMBO)) burst_val_table = dst_burst_regs->shadow_regs_rdwr_train; else burst_val_table = NULL; } for (u32 i = 0; burst_val_table && i < dst_emc_entry->num_burst; i++) { reg_addr = burst_regs_emc_addr_table[i]; reg_val = burst_val_table[i]; switch (reg_addr) { case EMC_CFG: reg_val &= 0xFFFFFFF; break; case EMC_ZCAL_INTERVAL: reg_val = 0; break; case EMC_PMACRO_BRICK_CTRL_RFU1: reg_val &= 0xF800F800; break; case EMC_PMACRO_CMD_PAD_TX_CTRL: reg_val = (reg_val & 0xFAFEFDFD) | BIT(26); // CMD_CMD_TX_DRVFORCEON. break; case EMC_PMACRO_DATA_PAD_TX_CTRL: reg_val &= 0xFEFEFDFD; break; case EMC_PMACRO_COMMON_PAD_TX_CTRL: reg_val &= 0xFFFFFFF0; break; case EMC_PMACRO_AUTOCAL_CFG_COMMON: reg_val |= BIT(16); // E_CAL_BYPASS_DVFS. break; case EMC_TRAINING_CTRL: reg_val |= needs_swap_rank_training << 14; break; } EMC(reg_addr) = reg_val; } if (in_training) EMC(EMC_MRW) = (src_emc_entry->run_clocks & 0xFF) | 0x170000; else EMC(EMC_MRW) = (dst_emc_entry->run_clocks & 0xFF) | 0x170000; // Writing burst_regs_per_ch. for (u32 i = 0; dst_emc_entry->num_burst_per_ch > i; i++) { reg_addr = burst_reg_per_ch_emc01_addr_table[i]; if (reg_addr && (channel1_enabled || ((reg_addr - 0x4000) > 0xFFF))) { EMC(reg_addr) = dst_burst_regs->burst_reg_per_ch[i]; } } // Writing vref_regs. trim_regs_table_t *trim_regs_table = (trim_regs_table_t *)&dst_emc_entry->trim_regs; for (u32 i = 0; dst_emc_entry->vref_num > i; i++) { reg_addr = vref_perch_regs_emc01_addr_table[i]; if (reg_addr && (channel1_enabled || (reg_addr - 0x4000) > 0xFFF)) EMC(reg_addr) = trim_regs_table->vref_perch_regs[i]; } // Writing training mod regs. if (in_training) { for (u32 i = 0; dst_emc_entry->training_mod_num > i; i++) { reg_addr = training_mod_regs_emc01_addr_table[i]; if (reg_addr && (channel1_enabled || (reg_addr - 0x4000) > 0xFFF)) EMC(reg_addr) = dst_emc_entry->training_mod_regs[i]; } } // Writing trim_regs for (u32 i = 0; dst_emc_entry->num_trim > i; i++) { reg_addr = trim_regs_emc_addr_table[i]; if (reg_addr) { if (((reg_addr & 0xFFFFFFF0) == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0 || (reg_addr & 0xFFFFFFF0) == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0 || (reg_addr & 0xFFFFFFF8) == EMC_DATA_BRLSHFT_0) && compensate_trimmer_applicable) { EMC(reg_addr) = _minerva_apply_periodic_compensation_trimmer(dst_emc_entry, reg_addr); } else EMC(reg_addr) = trim_regs_table->trim_regs[i]; } } // Writing trim_regs_per_ch for (u32 i = 0; dst_emc_entry->num_trim_per_ch > i; i++) { reg_addr = trim_perch_regs_emc01_addr_table[i]; if (reg_addr && (channel1_enabled || (reg_addr - 0x4000) > 0xFFF)) { if (((reg_addr & 0xFFFFFFF8) == EMC0_DATA_BRLSHFT_0 || (reg_addr & 0xFFFFFFF8) == EMC1_DATA_BRLSHFT_0) && compensate_trimmer_applicable) { EMC(reg_addr) = _minerva_apply_periodic_compensation_trimmer(dst_emc_entry, reg_addr & 0xFFF); } else EMC(reg_addr) = trim_regs_table->trim_perch_regs[i]; } } if (in_training) { // Check delta wrt previous values (save value if margin exceeds what is set in table). if (needs_wr_training && dst_emc_entry->periodic_training) _minerva_periodic_compensation_handler(src_emc_entry, dst_emc_entry, dram_dev_num, channel1_enabled, WRITE_TRAINING_SEQUENCE); } else { // Writing burst_mc_regs. for (u32 i = 0; dst_emc_entry->num_mc_regs > i; i++) MC(burst_mc_regs_addr_table[i]) = dst_emc_entry->burst_mc_regs[i]; // Writing la_scale_regs. if (dst_emc_entry->rate_khz < src_emc_entry->rate_khz) { for (u32 i = 0; dst_emc_entry->num_up_down > i; i++) MC(la_scale_regs_mc_addr_table[i]) = dst_emc_entry->la_scale_regs[i]; } } // Step 9 - LPDDR4. EPRINTF("Step 9"); EMC(EMC_ZCAL_INTERVAL) = src_emc_entry->burst_regs.emc_zcal_interval & 0xFF000000; EMC(EMC_ZCAL_WAIT_CNT) = dst_emc_entry->burst_regs.emc_zcal_wait_cnt & 0xFFFFF800; EMC(EMC_DBG) = emc_dbg_o | EMC_DBG_WRITE_ACTIVE_ONLY | EMC_DBG_WRITE_MUX_ACTIVE; EMC(EMC_ZCAL_INTERVAL) = src_emc_entry->burst_regs.emc_zcal_interval & 0xFF000000; EMC(EMC_DBG) = emc_dbg_o; if (in_training) { EMC(EMC_DBG) = emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE; EMC(EMC_PMACRO_AUTOCAL_CFG_COMMON) = dst_emc_entry->burst_regs.emc_pmacro_autocal_cfg_common | 0x10000; if (needs_ca_combo_training) EMC(EMC_FBIO_CFG5) = src_emc_entry->burst_regs.emc_fbio_cfg5 | 0x8000000; EMC(EMC_DBG) = emc_dbg_o; if (channel1_enabled) _ccfifo_write(EMC_CFG_SYNC, 0, 0); _ccfifo_write(EMC_DBG, (emc_dbg_o & ~EMC_DBG_CFG_SWAP_MASK) | EMC_DBG_CFG_SWAP_SWAP, 0); } // Step 10 - Self refresh EPRINTF("Step 10"); _ccfifo_write(EMC_SELF_REF, 0x101, 0); if (!needs_ca_combo_training && (dst_clock_period <= 2000)) { _ccfifo_write(EMC_MRW3, mr13_flip_fspwr ^ 0x40, 0); _ccfifo_write(EMC_MRW6, (src_emc_entry->burst_regs.emc_mrw6 & 0xC0C0) | (dst_emc_entry->burst_regs.emc_mrw6 & 0xFFFF3F3F), 0); _ccfifo_write(EMC_MRW14, (src_emc_entry->burst_regs.emc_mrw14 & 0x3838) | (dst_emc_entry->burst_regs.emc_mrw14 & 0xFFFF0707), 0); if (dram_dev_num == TWO_RANK) { _ccfifo_write(EMC_MRW7, (src_emc_entry->burst_regs.emc_mrw7 & 0xC0C0) | (dst_emc_entry->burst_regs.emc_mrw7 & 0xFFFF3F3F), 0); _ccfifo_write(EMC_MRW15, (src_emc_entry->burst_regs.emc_mrw15 & 0x3838) | (dst_emc_entry->burst_regs.emc_mrw15 & 0xFFFF0707), 0); } if (dram_dev_num == ONE_RANK || zcal_resistor_shared) emc_zq_cal = 0x80000001; else emc_zq_cal = 1; _ccfifo_write(EMC_ZQ_CAL, emc_zq_cal, 0); } emc_dbg_val = emc_dbg_o; u32 tRP_src_timing = (src_emc_entry->dram_timings.t_rp * 1000) / src_clock_period; u32 ref_delay = 0; if (in_training) { emc_dbg_val = (emc_dbg_o & ~EMC_DBG_CFG_SWAP_MASK) | EMC_DBG_WRITE_ACTIVE_ONLY | EMC_DBG_CFG_SWAP_SWAP; _ccfifo_write(EMC_DBG, emc_dbg_val, 0); } if (needs_ca_combo_training) { _ccfifo_write(EMC_PMACRO_DATA_RX_TERM_MODE, src_emc_entry->burst_regs.emc_pmacro_data_rx_term_mode & 0xFFFFFCCC, 0); if (dram_dev_num == TWO_RANK && needs_swap_rank_training) { _ccfifo_write(EMC_MRW3, mr13_flip_fspop | 8, tRP_src_timing); _ccfifo_write(EMC_MRW3, mr13_catr_enable | 8, 0); } else _ccfifo_write(EMC_MRW3, mr13_catr_enable | 8, tRP_src_timing); _ccfifo_write(EMC_TR_CTRL_0, 0x15A, 0); ref_delay = 1000000 / src_clock_period; } else { _ccfifo_write(EMC_MRW3, mr13_flip_fspop | 8, tRP_src_timing); ref_delay = tFC_lpddr4 / src_clock_period; } _ccfifo_write(EMC_INTSTATUS, 0, ref_delay); _ccfifo_write(EMC_PIN, emc_pin_o & 0xFFFFFFF8, 30); // Step 11 - Ramp down. EPRINTF("Step 11"); _ccfifo_write(EMC_CFG_SYNC, 0, 0); _ccfifo_write(EMC_DBG, emc_dbg_val | EMC_DBG_WRITE_ACTIVE_ONLY | EMC_DBG_WRITE_MUX_ACTIVE, 0); // WRITE_MUX_ACTIVE | WRITE_ACTIVE_ONLY ramp_down_wait = _dvfs_power_ramp_down(false, src_emc_entry, dst_emc_entry, src_clock_period); // Step 12 - Trigger clock change. EPRINTF("Step 12"); _ccfifo_write(EMC_STALL_THEN_EXE_AFTER_CLKCHANGE, 1, 0); if (!in_training) _ccfifo_write(EMC_DBG, (emc_dbg_val & ~EMC_DBG_WRITE_ACTIVE_ONLY) | EMC_DBG_WRITE_MUX_ACTIVE, 0); // Step 13 - Ramp up. EPRINTF("Step 13"); ramp_up_wait = _dvfs_power_ramp_up(false, src_emc_entry, dst_emc_entry, needs_training, dst_clock_period); _ccfifo_write(EMC_DBG, emc_dbg_val, 0); // Step 14 - Bringup CKE pins. EPRINTF("Step 14"); u32 emc_pin_val_final = 0; if (needs_ca_combo_training) { emc_pin_val_final = emc_pin_o & 0xFFFFFFF8; if (dram_dev_num == TWO_RANK) { if (needs_swap_rank_training) emc_pin_val_final |= 5; else emc_pin_val_final |= 6; } } else if (dram_dev_num == TWO_RANK) emc_pin_val_final = emc_pin_o | 7; else emc_pin_val_final = (emc_pin_o & 0xFFFFFFF8) | 1; _ccfifo_write(EMC_PIN, emc_pin_val_final, 0); // Step 15 - Zqlatch. EPRINTF("Step 15"); if (!needs_ca_combo_training) { s32 zq_latch_dvfs_wait_time; u32 T_PDEX_timing = _div_o3(dst_emc_entry->dram_timings.t_pdex * 1000, dst_clock_period); if (dst_clock_period > 2000) zq_latch_dvfs_wait_time = (s32)tZQCAL_lpddr4_fc_adj - (s32)T_PDEX_timing; else zq_latch_dvfs_wait_time = (s32)tZQCAL_lpddr4_fc_adj - (ramp_up_wait + ramp_down_wait) / dst_clock_period; if (dram_dev_num == ONE_RANK) { if (dst_clock_period > 2000) _ccfifo_write(EMC_ZQ_CAL, 0x80000001, T_PDEX_timing); if (!in_training) _ccfifo_write(EMC_MRW3, (mr13_flip_fspop & 0xF3FFFFF7) | 0xC000000, T_PDEX_timing); emc_zq_cal = 0x80000002; } else if (zcal_resistor_shared) { if (dst_clock_period > 2000) _ccfifo_write(EMC_ZQ_CAL, 0x80000001, T_PDEX_timing); s32 T_PDEX_timing_final = zq_latch_dvfs_wait_time + (s32)T_PDEX_timing; if (T_PDEX_timing_final < 0) T_PDEX_timing_final = 0; _ccfifo_write(EMC_ZQ_CAL, 0x80000002, T_PDEX_timing_final); _ccfifo_write(EMC_ZQ_CAL, 0x40000001, 0); if (!in_training) _ccfifo_write(EMC_MRW3, (mr13_flip_fspop & 0xF3FFFFF7) | 0xC000000, 0); emc_zq_cal = 0x40000002; zq_latch_dvfs_wait_time = 1000000 / dst_clock_period; } else { if (dst_clock_period > 2000) _ccfifo_write(EMC_ZQ_CAL, 1, T_PDEX_timing); if (!in_training) _ccfifo_write(EMC_MRW3, (mr13_flip_fspop & 0xF3FFFFF7) | 0xC000000, T_PDEX_timing); emc_zq_cal = 2; } // Disable self-refresh. if (!in_training) { _ccfifo_write(EMC_SELF_REF, 0, 0); _ccfifo_write(EMC_REF, 0, 0); } if (zq_latch_dvfs_wait_time < 0) zq_latch_dvfs_wait_time = 0; _ccfifo_write(EMC_ZQ_CAL, emc_zq_cal, (u32)zq_latch_dvfs_wait_time); } _ccfifo_write(EMC_INTSTATUS, 0, 10); // WAR: delay for zqlatch. // Step 16 - LPDDR4 Conditional training kickoff. EPRINTF("Step 16"); if (in_training) { _ccfifo_write(EMC_INTSTATUS, 0, 1020000 / dst_clock_period); u32 training_command = 0; if (needs_ca_training) training_command |= BIT(1); // CA: Initiates CA Training. if (needs_ca_vref_training) training_command |= BIT(5); // CA_VREF: Initiates CA_VREF Training. if (needs_quse_training) training_command |= BIT(4); // QUSE: Initiates QUSE Training. if (needs_quse_vref_training) training_command |= BIT(8); // QUSE_VREF: Initiates DQS_VREF Training. if (needs_wr_training) training_command |= BIT(3); // WR: Initiates WR Training. if (needs_wr_vref_training) training_command |= BIT(6); // WR_VREF: Initiates OB (write) DRAM_VREF Training. if (needs_rd_training) training_command |= BIT(2); // RD: Initiates RD Training. if (needs_rd_vref_training) training_command |= BIT(7); // RD_VREF: Initiates IB_DQ_VREF Training. training_command |= BIT(31); // GO: Start the Training. _ccfifo_write(EMC_TRAINING_CMD, training_command, 0); if (bg_regulator_mode_change) { if (enable_bg_regulator) _ccfifo_write(EMC_PMACRO_BG_BIAS_CTRL_0, src_emc_entry->burst_regs.emc_pmacro_bg_bias_ctrl_0 & 0xFFFFFFFE, 0); else _ccfifo_write(EMC_PMACRO_BG_BIAS_CTRL_0, src_emc_entry->burst_regs.emc_pmacro_bg_bias_ctrl_0 & 0xFFFFFFFB, 0); } _ccfifo_write(EMC_SWITCH_BACK_CTRL, 1, 0); if (!needs_ca_combo_training || needs_swap_rank_training) { _ccfifo_write(EMC_MRW3, mr13_flip_fspop ^ 0xC0, 0); _ccfifo_write(EMC_INTSTATUS, 0, 1000000 / dst_clock_period); } _ccfifo_write(EMC_PIN, emc_pin_o & 0xFFFFFFF8, 0); _ccfifo_write(EMC_CFG_SYNC, 0, 0); _ccfifo_write(EMC_DBG, emc_dbg_val | EMC_DBG_WRITE_ACTIVE_ONLY | EMC_DBG_WRITE_MUX_ACTIVE, 0); _dvfs_power_ramp_down(true, src_emc_entry, dst_emc_entry, dst_clock_period); _ccfifo_write(EMC_STALL_THEN_EXE_AFTER_CLKCHANGE, 1, 0); _ccfifo_write(EMC_DBG, (emc_dbg_val & ~EMC_DBG_WRITE_ACTIVE_ONLY) | EMC_DBG_WRITE_MUX_ACTIVE, 0); _dvfs_power_ramp_up(true, src_emc_entry, dst_emc_entry, needs_training, src_clock_period); _ccfifo_write(EMC_DBG, emc_dbg_val, 0); if (dram_dev_num == TWO_RANK) _ccfifo_write(EMC_PIN, emc_pin_o | 7, 0); else _ccfifo_write(EMC_PIN, (emc_pin_o & 0xFFFFFFF8) | 1, 0); if (needs_ca_combo_training) { _ccfifo_write(EMC_TR_CTRL_0, 0x4A, 200000 / src_clock_period); _ccfifo_write(EMC_TR_CTRL_0, 0x40, 1000000 / src_clock_period); _ccfifo_write(EMC_MRW3, mr13_catr_enable & 0xFFFFFFFE, 0); _ccfifo_write(EMC_INTSTATUS, 0, 1000000 / src_clock_period); _ccfifo_write(EMC_PMACRO_DATA_RX_TERM_MODE, src_emc_entry->burst_regs.emc_pmacro_data_rx_term_mode, 0); } _ccfifo_write(EMC_DBG, emc_dbg_o, 0); _ccfifo_write(EMC_ZQ_CAL, 0x80000001, 0); _ccfifo_write(EMC_ZQ_CAL, 0x80000002, 1000000 / src_clock_period); if ((!needs_ca_combo_training || needs_swap_rank_training) && dram_dev_num == TWO_RANK) { _ccfifo_write(EMC_ZQ_CAL, 0x40000001, 0); _ccfifo_write(EMC_ZQ_CAL, 0x40000002, 1000000 / src_clock_period); } if (!needs_ca_combo_training) _ccfifo_write(EMC_MRW3, (mr13_flip_fspop & 0xF3FFFFF7) ^ 0xC0000C0, 0); _ccfifo_write(EMC_SELF_REF, 0, 0); } // Step 19.2. EPRINTF("Step 19.2"); if (bg_regulator_mode_change) { _ccfifo_write(EMC_DBG, emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE, 0); u32 bg_regulator_switch_complete_wait_clks = 0; if (in_training) { bg_regulator_switch_complete_wait_clks = 1250000 / src_clock_period; _ccfifo_write(EMC_PMACRO_BG_BIAS_CTRL_0, src_emc_entry->burst_regs.emc_pmacro_bg_bias_ctrl_0, bg_regulator_switch_complete_wait_clks); } else { if (ramp_up_wait <= 1250000) bg_regulator_switch_complete_wait_clks = (1250000 - ramp_up_wait) / dst_clock_period; _ccfifo_write(EMC_PMACRO_BG_BIAS_CTRL_0, dst_emc_entry->burst_regs.emc_pmacro_bg_bias_ctrl_0, bg_regulator_switch_complete_wait_clks); } _ccfifo_write(EMC_DBG, emc_dbg_o, 0); } // Step 20 - Issue ref and optional QRST. EPRINTF("Step 20"); if (in_training) _ccfifo_write(EMC_REF, 0, 0); // Step 21 - Restore ZCAL and ZCAL interval. EPRINTF("Step 21"); _ccfifo_write(EMC_DBG, emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE, 0); if (in_training) _ccfifo_write(EMC_ZCAL_INTERVAL, src_emc_entry->burst_regs.emc_zcal_interval, 0); _ccfifo_write(EMC_CFG, dst_emc_entry->burst_regs.emc_cfg & 0xEFFFFFFF, 0); // Step 22 - Restore EMC_CFG_PIPE_CLK. EPRINTF("Step 22"); //if (in_training && dram_type == DRAM_TYPE_LPDDR4)//////////////// if (in_training) _ccfifo_write(EMC_SEL_DPD_CTRL, src_emc_entry->emc_sel_dpd_ctrl, 0); _ccfifo_write(EMC_DBG, emc_dbg_o, 0); _ccfifo_write(EMC_CFG_PIPE_CLK, emc_cfg_pipe_clk_o, 0); if (bg_regulator_mode_change) { if (enable_bg_regulator) EMC(EMC_PMACRO_BG_BIAS_CTRL_0) = dst_emc_entry->burst_regs.emc_pmacro_bg_bias_ctrl_0 & 0xFFFFFFFB; else EMC(EMC_PMACRO_BG_BIAS_CTRL_0) = dst_emc_entry->burst_regs.emc_pmacro_bg_bias_ctrl_0 & 0xFFFFFFFE; } // Step 23 - Clock Change. EPRINTF("Step 23 - Clock Change"); // During training save current clock. if (in_training) { u32 emc_clk_src = CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC); CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC_SAFE) = emc_clk_src; _change_dll_src(src_emc_entry, emc_clk_src); } // Set CFG_DLL_MODE to RUN_PERIODIC. EMC(EMC_CFG_DIG_DLL) = (EMC(EMC_CFG_DIG_DLL) & 0xFFFFFF24) | 0x88; (void)EMC(EMC_CFG_DIG_DLL); (void)EMC(EMC_FBIO_CFG7); (void)MC(MC_EMEM_ADR_CFG); (void)EMC(EMC_INTSTATUS); // Do clock change. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC) = selected_clk_src_emc; (void)CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC); if (_wait_emc_status(EMC_INTSTATUS, CLKCHANGE_COMPLETE_INT, true, 0)) return 4; // Clkchange handshake timeout error. // Step 24 - Save training results. EPRINTF("Step 24"); if (in_training) { (void)MC(MC_EMEM_ADR_CFG); emc_dbg_val = EMC(EMC_DBG); EMC(EMC_DBG) |= EMC_DBG_READ_MUX_ASSEMBLY; _save_train_results(dst_emc_entry, needs_training, dram_dev_num, channel1_enabled); EMC(EMC_DBG) = emc_dbg_val; } // Step 25 - Program MC updown regs. EPRINTF("Step 25"); if (!in_training && (dst_emc_entry->rate_khz > src_emc_entry->rate_khz)) { for (u32 i = 0; dst_emc_entry->num_up_down > i; i++) MC(la_scale_regs_mc_addr_table[i]) = dst_emc_entry->la_scale_regs[i]; bool dual_channel = (EMC(EMC_FBIO_CFG7) >> 1) & ((EMC(EMC_FBIO_CFG7) >> 2) & 1); if (_timing_update(dual_channel)) return 4; } // Step 26 - Restore ZCAL regs. EPRINTF("Step 26"); EMC(EMC_DBG) = emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE; EMC(EMC_ZCAL_WAIT_CNT) = dst_emc_entry->burst_regs.emc_zcal_wait_cnt; EMC(EMC_ZCAL_INTERVAL) = dst_emc_entry->burst_regs.emc_zcal_interval; EMC(EMC_DBG) = emc_dbg_o; // Step 27 - Restore EMC_CFG, FDPD regs. EPRINTF("Step 27"); EMC(EMC_DBG) = emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE; EMC(EMC_CFG) = dst_emc_entry->burst_regs.emc_cfg; EMC(EMC_DBG) = emc_dbg_o; EMC(EMC_FDPD_CTRL_CMD_NO_RAMP) = dst_emc_entry->emc_fdpd_ctrl_cmd_no_ramp; EMC(EMC_SEL_DPD_CTRL) = dst_emc_entry->emc_sel_dpd_ctrl; // Step 28 - Training recover. EPRINTF("Step 28"); if (in_training) { EMC(EMC_DBG) = emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE; EMC(EMC_CFG) = dst_emc_entry->burst_regs.emc_cfg; EMC(EMC_SEL_DPD_CTRL) = dst_emc_entry->emc_sel_dpd_ctrl; EMC(EMC_ZCAL_WAIT_CNT) = src_emc_entry->burst_regs.emc_zcal_wait_cnt; EMC(EMC_ZCAL_INTERVAL) = src_emc_entry->burst_regs.emc_zcal_interval; EMC(EMC_AUTO_CAL_CONFIG2) = src_emc_entry->emc_auto_cal_config2; EMC(EMC_AUTO_CAL_CONFIG3) = src_emc_entry->emc_auto_cal_config3; EMC(EMC_AUTO_CAL_CONFIG4) = src_emc_entry->emc_auto_cal_config4; EMC(EMC_AUTO_CAL_CONFIG5) = src_emc_entry->emc_auto_cal_config5; EMC(EMC_AUTO_CAL_CONFIG6) = src_emc_entry->emc_auto_cal_config6; EMC(EMC_AUTO_CAL_CONFIG7) = src_emc_entry->emc_auto_cal_config7; EMC(EMC_AUTO_CAL_CONFIG8) = src_emc_entry->emc_auto_cal_config8; EMC(EMC_DBG) = emc_dbg_o; EMC(EMC_TR_DVFS) = dst_emc_entry->burst_regs.emc_tr_dvfs & 0xFFFFFFFE; } EMC(EMC_DBG) = emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE; EMC(EMC_PMACRO_AUTOCAL_CFG_COMMON) = dst_emc_entry->burst_regs.emc_pmacro_autocal_cfg_common; EMC(EMC_DBG) = emc_dbg_o; // Step 29 - Power fix WAR. EPRINTF("Step 29"); EMC(EMC_PMACRO_CFG_PM_GLOBAL_0) = 0xFF0000; EMC(EMC_PMACRO_TRAINING_CTRL_0) = CH0_TRAINING_E_WRPTR; EMC(EMC_PMACRO_TRAINING_CTRL_1) = CH0_TRAINING_E_WRPTR; EMC(EMC_PMACRO_CFG_PM_GLOBAL_0) = 0; // Step 30 - Re-enable autocal. EPRINTF("Step 30"); if (in_training) EMC(EMC_AUTO_CAL_CONFIG) = src_emc_entry->emc_auto_cal_config; else { if (dst_emc_entry->burst_regs.emc_cfg_dig_dll & 1) _digital_dll_enable_rs(channel1_enabled); EMC(EMC_AUTO_CAL_CONFIG) = dst_emc_entry->emc_auto_cal_config; } return 0; } static void _minerva_train(emc_table_t *src_emc_entry, emc_table_t *dst_emc_entry, bool switch_rate, u32 selected_clk_src_emc) { u32 needs_training_num = 0; u32 emc_cfg_dig_dll_val = 0; u32 needs_training_emc_table[8] = {0}; u32 needs_training = dst_emc_entry->needs_training; // Must start as true. if (train_ram_patterns) { u32 train_table_off = dst_emc_entry->training_pattern * 256; for (u32 i = 0; i < 256; i++) { EMC(EMC_TRAINING_PATRAM_DQ) = ram_pattern_dq_table[train_table_off + i]; EMC(EMC_TRAINING_PATRAM_DMI) = ram_pattern_dmi_table[train_table_off + i] & 0xF; EMC(EMC_TRAINING_PATRAM_CTRL) = 0x80000000 + i; } train_ram_patterns = false; } if (!dst_emc_entry->trained) { if (needs_training & NEEDS_TRAINING_CA_COMBO) { needs_training_emc_table[needs_training_num++] = needs_training & (NEEDS_TRAINING_CA_COMBO | NEEDS_TRAINING_IN_SELF_REFRESH); if (MC(MC_EMEM_ADR_CFG) & 1) // if mapping W8 (1KB page). needs_training_emc_table[needs_training_num++] = needs_training & (NEEDS_TRAINING_CA_COMBO | NEEDS_TRAINING_SWAP_RANK | NEEDS_TRAINING_IN_SELF_REFRESH); } if (needs_training & NEEDS_TRAINING_QUSE_COMBO) { needs_training_emc_table[needs_training_num++] = needs_training & (NEEDS_TRAINING_QUSE_COMBO | NEEDS_TRAINING_IN_SELF_REFRESH); if (MC(MC_EMEM_ADR_CFG) & 1) needs_training_emc_table[needs_training_num++] = needs_training & (NEEDS_TRAINING_QUSE | NEEDS_TRAINING_IN_SELF_REFRESH); } if (needs_training & (NEEDS_TRAINING_WR_COMBO | NEEDS_TRAINING_RD_COMBO)) needs_training_emc_table[needs_training_num++] = needs_training & (NEEDS_TRAINING_WR_COMBO | NEEDS_TRAINING_RD_COMBO | NEEDS_TRAINING_IN_SELF_REFRESH); for (u32 i = 0; needs_training_num > i; i++) // Runs more than once for needs_training CA/QUSE/WR/RD. { _minerva_change_clock(src_emc_entry, dst_emc_entry, needs_training_emc_table[i], selected_clk_src_emc); bool dual_channel = (EMC(EMC_FBIO_CFG7) >> 1) & ((EMC(EMC_FBIO_CFG7) >> 2) & 1); EMC(EMC_DBG) = (EMC(EMC_DBG) & ~EMC_DBG_CFG_SWAP_MASK) | EMC_DBG_CFG_SWAP_ASSEMBLY_ONLY; EMC(EMC_CFG_UPDATE) = (EMC(EMC_CFG_UPDATE) & 0xFFFFFFF9) | 4; _timing_update(dual_channel); EMC(EMC_CFG_UPDATE) &= 0xFFFFFFF9; EMC(EMC_DBG) &= ~EMC_DBG_CFG_SWAP_MASK; // EMC_DBG_CFG_SWAP_ACTIVE_ONLY. EMC(EMC_CFG_DIG_DLL) = (EMC(EMC_CFG_DIG_DLL) & 0xFFFFFF3E) | 0x80; _timing_update(dual_channel); emc_cfg_dig_dll_val = EMC(EMC_CFG_DIG_DLL) & 0xFFFFFFFE; if (dst_emc_entry->burst_regs.emc_cfg_dig_dll == 1) emc_cfg_dig_dll_val = EMC(EMC_CFG_DIG_DLL) | 1; EMC(EMC_CFG_DIG_DLL) = (emc_cfg_dig_dll_val & 0xFFFFFF3F) | 0x80; _timing_update(dual_channel); while (!(EMC(EMC_DIG_DLL_STATUS) & 0x8000)) ; // Bug 200024907. EMC(EMC_RP) = src_emc_entry->burst_regs.emc_rp; EMC(EMC_R2P) = src_emc_entry->burst_regs.emc_r2p; EMC(EMC_W2P) = src_emc_entry->burst_regs.emc_w2p; EMC(EMC_TRPAB) = src_emc_entry->burst_regs.emc_trpab; _timing_update(dual_channel); } EPRINTF("Trained"); dst_emc_entry->trained = 1; } if (switch_rate) _minerva_change_clock(src_emc_entry, dst_emc_entry, 0, selected_clk_src_emc); } void _minerva_do_over_temp_compensation(mtc_config_t *mtc_cfg) { if (!mtc_cfg->current_emc_table) return; u32 dram_type = EMC(EMC_FBIO_CFG5) & 3; // Only LPDDR chips are supported. if (dram_type != DRAM_TYPE_LPDDR4) return; s32 dram_temp = _get_dram_temperature(); if (dram_temp < 0 || mtc_cfg->prev_temp == (u32)dram_temp) return; u32 refr = mtc_cfg->current_emc_table->burst_regs.emc_refresh; u32 pre_refr = mtc_cfg->current_emc_table->burst_regs.emc_pre_refresh_req_cnt; u32 dyn_self_ref = mtc_cfg->current_emc_table->burst_regs.emc_dyn_self_ref_control; switch (dram_temp) { // Normal temp (<= 85 oC). case 0: case 1: case 2: case 3: if (mtc_cfg->prev_temp < 4) { mtc_cfg->prev_temp = (u32)dram_temp; return; } break; // Over temp (> 85 oC). case 4: // 2x refresh. refr = (refr & 0xFFFF0000) | ((refr & 0xFFFF) >> REFRESH_X2); pre_refr = (pre_refr & 0xFFFF0000) | ((pre_refr & 0xFFFF) >> REFRESH_X2); dyn_self_ref = (dyn_self_ref & 0xFFFF0000) | ((dyn_self_ref & 0xFFFF) >> REFRESH_X2); break; case 5: // 4x refresh. case 6: // Temp 6 normally needs a derating emc table. refr = (refr & 0xFFFF0000) | ((refr & 0xFFFF) >> REFRESH_X4); pre_refr = (pre_refr & 0xFFFF0000) | ((pre_refr & 0xFFFF) >> REFRESH_X4); dyn_self_ref = (dyn_self_ref & 0xFFFF0000) | ((dyn_self_ref & 0xFFFF) >> REFRESH_X4); break; default: break; } mtc_cfg->prev_temp = dram_temp; EMC(EMC_REFRESH) = refr; EMC(EMC_PRE_REFRESH_REQ_CNT) = pre_refr; EMC(EMC_DYN_SELF_REF_CONTROL) = dyn_self_ref; } u32 _minerva_do_periodic_compensation(emc_table_t *mtc_table_entry) { if (mtc_table_entry && mtc_table_entry->periodic_training) { u32 dram_dev_num = (MC(MC_EMEM_ADR_CFG) & 1) + 1; u32 pd_mask = (dram_dev_num == TWO_RANK) ? IN_POWERDOWN_BOTH_MASK : IN_POWERDOWN_1DEV_MASK; bool channel1_enabled = (mtc_table_entry->burst_regs.emc_fbio_cfg7 >> 2) & 1; (void)EMC(EMC_DBG); // Safekeep current config. u32 emc_cfg_o = EMC(EMC_CFG); u32 emc_cfg_dig_dll_o = EMC(EMC_CFG_DIG_DLL); u32 emc_cfg_update_o = EMC(EMC_CFG_UPDATE); // Step 1 - Disable digital DLL. EMC(EMC_CFG_DIG_DLL) = emc_cfg_dig_dll_o & 0xFFFFFFFE; // Step 1.2 - Always update auto cal in clock change. EMC(EMC_CFG_UPDATE) = (emc_cfg_update_o & 0xFFFFF9FF) | 0x400; // Step 1.3 - Disable other power features. EMC(EMC_CFG) = emc_cfg_o & 0xFFFFFFF; // Timing update and wait for everything to power down. _timing_update(channel1_enabled); _wait_emc_status(EMC_EMC_STATUS, pd_mask, 0, EMC_CHANNEL0); if (channel1_enabled) _wait_emc_status(EMC_EMC_STATUS, pd_mask, 0, EMC_CHANNEL1); _wait_emc_status(EMC_EMC_STATUS, IN_SELF_REFRESH_MASK, 0, EMC_CHANNEL0); if (channel1_enabled) _wait_emc_status(EMC_EMC_STATUS, IN_SELF_REFRESH_MASK, 0, EMC_CHANNEL1); _wait_emc_status(EMC_CFG_DIG_DLL, 1, 0, EMC_CHANNEL0); if (channel1_enabled) _wait_emc_status(EMC_CFG_DIG_DLL, 1, 0, EMC_CHANNEL1); // Step 2 - Osc kick off - this assumes training and dvfs have set correct MR23. _start_periodic_compensation(); // Step 3 - Let dram capture its clock tree delays. _usleep(1000 * _actual_osc_clocks(mtc_table_entry->run_clocks) / mtc_table_entry->rate_khz + 2); // Step 4 - Check delta wrt previous values (save value if margin exceeds what is set in table). u32 adelta = _minerva_update_clock_tree_delay(mtc_table_entry, mtc_table_entry, dram_dev_num, channel1_enabled, PERIODIC_TRAINING_UPDATE); // Step 5 - Apply compensation w.r.t. trained values (if clock tree has drifted more than the set margin). if (adelta && ((mtc_table_entry->rate_khz / 1000) * 128) * adelta / 1000000 > mtc_table_entry->tree_margin) { for (u32 i = 0; i < 10; i++) { EMC(periodic_training_addr[i]) = _minerva_apply_periodic_compensation_trimmer(mtc_table_entry, periodic_training_addr[i]); } } // Step 6 - Restore other power features. EMC(EMC_CFG) = emc_cfg_o; // Step 6.1 - Restore the DLL. EMC(EMC_CFG_DIG_DLL) = emc_cfg_dig_dll_o; // Step 6.2 - Timing update for applying the new trimmers. _timing_update(channel1_enabled); // Step 6.3 - Restore the UPDATE_DLL_IN_UPDATE field. EMC(EMC_CFG_UPDATE) = emc_cfg_update_o; } return 0; } static int _minerva_set_ir_boost(mtc_config_t *mtc_cfg) { switch (mtc_cfg->train_mode) { case OP_SWITCH: break; case OP_TRAIN: return 4; case OP_TRAIN_SWITCH: break; default: return 4; } EPRINTFARGS("Requested op %d from %d to %d.", OP_SWITCH, src_rate_khz, dst_rate_khz); bool boost = mtc_cfg->rate_to > MTC_INIT_FREQUENCY; u32 clk_new = (PLLP_OUT0 << 29u) | 0x188000 | (boost ? 0 : 2); u32 clk_cur = CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC); u32 clk_cur_src = clk_cur >> 29u; // Already at requested clock. if (clk_new == clk_cur) { mtc_cfg->rate_from = mtc_cfg->rate_to; return 0; } if (clk_cur_src != PLLP_OUT0) return 3; // Clear clock change interrupt. EMC(EMC_INTSTATUS) = CLKCHANGE_COMPLETE_INT; u32 emc_dbg_o = EMC(EMC_DBG); u32 emc_dbg_c = emc_dbg_o & ~(EMC_DBG_WRITE_MUX_ACTIVE | EMC_DBG_READ_MUX_ASSEMBLY); EMC(EMC_DBG) = emc_dbg_c; (void)EMC(EMC_DBG); // Save registers. u32 emc_cfg_o = EMC(EMC_CFG); u32 emc_auto_cal_cfg_o = EMC(EMC_AUTO_CAL_CONFIG); u32 emc_sel_dpd_ctrl_o = EMC(EMC_SEL_DPD_CTRL); u32 emc_cfg_pipe_clk_o = EMC(EMC_CFG_PIPE_CLK); u32 emc_fdpd_ctl_cmd_o = EMC(EMC_FDPD_CTRL_CMD_NO_RAMP); EMC(EMC_DBG) = emc_dbg_c | EMC_DBG_WRITE_MUX_ACTIVE; (void)EMC(EMC_DBG); // Disable autocal. EMC(EMC_AUTO_CAL_CONFIG) = (emc_auto_cal_cfg_o & 0x7FFFF9FE) | 0x601; (void)EMC(EMC_AUTO_CAL_CONFIG); // Disable other power features. EMC(EMC_CFG) = emc_cfg_o & 0xFFFFFFF; EMC(EMC_SEL_DPD_CTRL) = emc_sel_dpd_ctrl_o & 0xFFFFFEC3; EMC(EMC_CFG_PIPE_CLK) = emc_cfg_pipe_clk_o | BIT(0); EMC(EMC_FDPD_CTRL_CMD_NO_RAMP) = emc_fdpd_ctl_cmd_o & ~BIT(0); EMC(EMC_DBG) = emc_dbg_c; (void)EMC(EMC_DBG); _usleep(5); if (boost) { // Program arbiter regs. MC(MC_EMEM_ARB_CFG) = 0x1000003; MC(MC_EMEM_ARB_TIMING_RP) = 1; MC(MC_EMEM_ARB_TIMING_RC) = 6; MC(MC_EMEM_ARB_TIMING_RAS) = 3; MC(MC_EMEM_ARB_TIMING_FAW) = 4; MC(MC_EMEM_ARB_TIMING_RFCPB) = 0xE; MC(MC_EMEM_ARB_DA_COVERS) = 0x30203; MC(MC_EMEM_ARB_MISC0) = 0x71E30507; // Program base timings. EMC(EMC_RP) = 8; EMC(EMC_TRPAB) = 9; EMC(EMC_RC) = 25; EMC(EMC_RAS) = 18; EMC(EMC_R2W) = 15; EMC(EMC_RD_RCD) = 8; EMC(EMC_WR_RCD) = 8; EMC(EMC_TFAW) = 17; // 13 on 2133 MHz modules. // ZQ calibration. EMC(EMC_ZCAL_WAIT_CNT) = 0xE0198; // Set refresh timings. EMC(EMC_RFC) = 115; EMC(EMC_RFCPB) = 58; EMC(EMC_TREFBW) = 0x18DD; // 0x638. EMC(EMC_REFRESH) = 0x181E; // 0x607. EMC(EMC_PRE_REFRESH_REQ_CNT) = 0x607; // 0x181. EMC(EMC_DYN_SELF_REF_CONTROL) = (EMC(EMC_DYN_SELF_REF_CONTROL) & 0xFFFF0000) | 0xD22; } else { // Program arbiter regs. MC(MC_EMEM_ARB_CFG) = 0x8000001; MC(MC_EMEM_ARB_TIMING_RP) = 0; MC(MC_EMEM_ARB_TIMING_RC) = 3; MC(MC_EMEM_ARB_TIMING_RAS) = 1; MC(MC_EMEM_ARB_TIMING_FAW) = 2; MC(MC_EMEM_ARB_TIMING_RFCPB) = 7; MC(MC_EMEM_ARB_DA_COVERS) = 0x30201; MC(MC_EMEM_ARB_MISC0) = 0x72A30504; // Program base timings. EMC(EMC_RP) = 4; EMC(EMC_TRPAB) = 5; EMC(EMC_RC) = 13; EMC(EMC_RAS) = 9; EMC(EMC_R2W) = 11; EMC(EMC_RD_RCD) = 6; EMC(EMC_WR_RCD) = 6; EMC(EMC_TFAW) = 9; // 8 on 2133 MHz modules. // Program ZQ calibration. EMC(EMC_ZCAL_WAIT_CNT) = 0x900CC; // Program refresh timings. EMC(EMC_RFC) = 58; EMC(EMC_RFCPB) = 29; EMC(EMC_TREFBW) = 0x31C; EMC(EMC_REFRESH) = 0x304; EMC(EMC_PRE_REFRESH_REQ_CNT) = 0xC1; EMC(EMC_DYN_SELF_REF_CONTROL) = (EMC(EMC_DYN_SELF_REF_CONTROL) & 0xFFFF0000) | 0x713; } // Restore power features and pipe clock. EMC(EMC_CFG) = emc_cfg_o & 0xEFFFFFFF; EMC(EMC_CFG_PIPE_CLK) = emc_cfg_pipe_clk_o; EMC(EMC_DBG) = emc_dbg_o; (void)EMC(EMC_DBG); // Do clock change. CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC) = clk_new; (void)CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC); // Clock change handshake. _wait_emc_status(EMC_INTSTATUS, CLKCHANGE_COMPLETE_INT, true, 0); // Restore regs. EMC(EMC_CFG) = emc_cfg_o; EMC(EMC_FDPD_CTRL_CMD_NO_RAMP) = emc_fdpd_ctl_cmd_o; EMC(EMC_SEL_DPD_CTRL) = emc_sel_dpd_ctrl_o; EMC(EMC_AUTO_CAL_CONFIG) = emc_auto_cal_cfg_o; EMC(EMC_TIMING_CONTROL) = 1; // Min 20us before next clock change. _usleep(20); mtc_cfg->rate_from = mtc_cfg->rate_to; return 0; } static u32 _minerva_do_training_switch(mtc_config_t *mtc_cfg) { u32 src_emc_entry_idx = 100; u32 dst_emc_entry_idx = 100; u32 selected_clk_src_emc; u32 emc_clk_src; bool freq_changed = false; bool src_is_pllmb; emc_table_t *src_emc_entry; emc_table_t *dst_emc_entry; if (mtc_cfg->table_entries > 32) return 4; if (mtc_cfg->mtc_table[0].rev == MTC_IRB_MAGIC) return _minerva_set_ir_boost(mtc_cfg); // Find tables. for (u32 i = 0; i < mtc_cfg->table_entries; i++) { u32 table_entry_rate = mtc_cfg->mtc_table[i].rate_khz; if (mtc_cfg->rate_from == table_entry_rate) src_emc_entry_idx = i; if (mtc_cfg->rate_to == table_entry_rate) dst_emc_entry_idx = i; } // Check if tables were found. if (src_emc_entry_idx >= mtc_cfg->table_entries || dst_emc_entry_idx >= mtc_cfg->table_entries) return 4; src_emc_entry = (emc_table_t *)&mtc_cfg->mtc_table[src_emc_entry_idx]; dst_emc_entry = (emc_table_t *)&mtc_cfg->mtc_table[dst_emc_entry_idx]; u32 src_rate_khz = src_emc_entry->rate_khz; u32 dst_rate_khz = dst_emc_entry->rate_khz; u32 src_clk_src_emc = src_emc_entry->clk_src_emc; u32 dst_clk_src_emc = dst_emc_entry->clk_src_emc; freq_changed = _check_freq_changed(dst_rate_khz, dst_clk_src_emc, src_rate_khz, src_clk_src_emc); EPRINTFARGS("Requested op %d from %d to %d.", mtc_cfg->train_mode, src_rate_khz, dst_rate_khz); // Get current clock source. emc_clk_src = CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC) >> EMC_2X_CLK_SRC_SHIFT; src_is_pllmb = emc_clk_src == PLLMB_UD || emc_clk_src == PLLMB_OUT0; if (freq_changed) { if (emc_clk_src == PLLM_UD || emc_clk_src == PLLM_OUT0) // Clock source is PLLM. Switch based on src_is_pllmb. { src_is_pllmb = !src_is_pllmb; } else if (emc_clk_src == PLLMB_UD || emc_clk_src == PLLMB_OUT0) // Clock source is PLLMB. Switch to PLLM. { src_is_pllmb = false; } selected_clk_src_emc = _pllm_clk_base_cfg(dst_rate_khz, dst_clk_src_emc, src_is_pllmb); } else { selected_clk_src_emc = dst_clk_src_emc; emc_clk_src = selected_clk_src_emc >> EMC_2X_CLK_SRC_SHIFT; if (src_is_pllmb) { if (emc_clk_src == PLLM_UD || emc_clk_src == PLLMB_UD) selected_clk_src_emc = (selected_clk_src_emc & 0x1FFFFFFF) | (PLLMB_UD << EMC_2X_CLK_SRC_SHIFT); else if (emc_clk_src == PLLM_OUT0 || emc_clk_src == PLLMB_OUT0) selected_clk_src_emc = (selected_clk_src_emc & 0x1FFFFFFF) | (PLLMB_OUT0 << EMC_2X_CLK_SRC_SHIFT); } } switch (mtc_cfg->train_mode) { case OP_SWITCH: _minerva_change_clock(src_emc_entry, dst_emc_entry, 0, selected_clk_src_emc); mtc_cfg->current_emc_table = dst_emc_entry; mtc_cfg->rate_from = dst_emc_entry->rate_khz; if (dst_emc_entry->periodic_training) _minerva_do_periodic_compensation(dst_emc_entry); return 0; case OP_TRAIN: _minerva_train(src_emc_entry, dst_emc_entry, false, selected_clk_src_emc); return 0; case OP_TRAIN_SWITCH: _minerva_train(src_emc_entry, dst_emc_entry, true, selected_clk_src_emc); mtc_cfg->current_emc_table = dst_emc_entry; mtc_cfg->rate_from = dst_emc_entry->rate_khz; if (dst_emc_entry->periodic_training) _minerva_do_periodic_compensation(dst_emc_entry); return 0; default: return 4; } } static void _minerva_get_table(mtc_config_t *mtc_cfg) { u32 hidrev = APB_MISC(APB_MISC_GP_HIDREV); u32 chip_id = (hidrev >> 8) & 0xFF; u32 major = (hidrev >> 4) & 0xF; // Check that SoC is T210/T210B01. if (chip_id != HIDREV_CHIPID_T210) goto error; // Check if SoC SKU is ODIN. if (FUSE(FUSE_SKU_INFO) != SKU_ODIN) goto error; // Clear table storage. memcpy(mtc_cfg->mtc_table, DVFS_T21X_CC_VERSION, sizeof(DVFS_T21X_CC_VERSION)); memcpy(mtc_cfg->mtc_table, DVFS_T210_CC_VERSION, sizeof(DVFS_T210_CC_VERSION)); memset(mtc_cfg->mtc_table, 0, EMC_TABLE_ENTRY_SIZE_R7 * 10); // Check if init rate boost mode. if (mtc_cfg->init_done == MTC_IRB_MAGIC) { mtc_cfg->mtc_table[0].rev = MTC_IRB_MAGIC; mtc_cfg->table_entries = 1; // Avoid OOB. goto init_cfg; } // Check if ODINX02. if (major != HIDREV_MAJOR_T210) goto error; // ODINX02 table: 204, 408, 666, 800, 1066, 1333, 1600 MHz. mtc_cfg->table_entries = EMC_TABLE_SIZE_ODINX02_R7 / EMC_TABLE_ENTRY_SIZE_R7; switch (mtc_cfg->sdram_id) { case DRAM_4GB_HYNIX_H9HCNNNBPUMLHR_NLN: memcpy(mtc_cfg->mtc_table, odinx02_a2_2_10NoCfgVersion_V9_8_7_V1_6, EMC_TABLE_SIZE_ODINX02_R7); break; case DRAM_8GB_SAMSUNG_K4FBE3D4HM_MGXX: memcpy(mtc_cfg->mtc_table, odinx02_a2_7_10NoCfgVersion_V9_8_7_V1_6, EMC_TABLE_SIZE_ODINX02_R7); break; case DRAM_4GB_SAMSUNG_K4F6E304HB_MGCH: case DRAM_4GB_MICRON_MT53B512M32D2NP_062_WT: case DRAM_4GB_COPPER_SAMSUNG: case DRAM_6GB_SAMSUNG_K4FHE3D4HM_MFCH: default: memcpy(mtc_cfg->mtc_table, odinx02_a2_0_3_10NoCfgVersion_V9_8_7_V1_6, EMC_TABLE_SIZE_ODINX02_R7); break; } init_cfg: mtc_cfg->rate_to = 0; mtc_cfg->rate_from = 0; mtc_cfg->train_mode = -1; mtc_cfg->prev_temp = 0; mtc_cfg->current_emc_table = NULL; // Important! mtc_cfg->train_ram_patterns = true; mtc_cfg->init_done = MTC_INIT_MAGIC; return; error: mtc_cfg->init_done = 0; return; } void minerva_entry(mtc_config_t *mtc_cfg, bdk_params_t *bp) { EPRINTF("-- Minerva Training Cell --"); train_ram_patterns = mtc_cfg->train_ram_patterns; if (mtc_cfg->init_done != MTC_INIT_MAGIC) { if (mtc_cfg->init_done == MTC_NEW_MAGIC || mtc_cfg->init_done == MTC_IRB_MAGIC) _minerva_get_table(mtc_cfg); return; } switch (mtc_cfg->train_mode) { case OP_SWITCH: EPRINTF("Switching.."); _minerva_do_training_switch(mtc_cfg); break; case OP_TRAIN: EPRINTF("Training.."); _minerva_do_training_switch(mtc_cfg); break; case OP_TRAIN_SWITCH: EPRINTF("Training and switching.."); _minerva_do_training_switch(mtc_cfg); break; case OP_PERIODIC_TRAIN: EPRINTF("Periodic training.."); _minerva_do_periodic_compensation(mtc_cfg->current_emc_table); break; case OP_TEMP_COMP: EPRINTF("Over temperature compensation.."); _minerva_do_over_temp_compensation(mtc_cfg); break; } mtc_cfg->train_ram_patterns = train_ram_patterns; } ================================================ FILE: modules/hekate_libsys_minerva/types.h ================================================ /* * Copyright (c) 2018 naehrwert * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _TYPES_H_ #define _TYPES_H_ #define NULL ((void *)0) #define ALIGN(x, a) (((x) + (a) - 1) & ~((a) - 1)) #define BIT(n) (1U << (n)) #define MAX(a, b) ((a) > (b) ? (a) : (b)) #define MIN(a, b) ((a) < (b) ? (a) : (b)) #define OFFSET_OF(t, m) ((u32)&((t *)NULL)->m) #define CONTAINER_OF(mp, t, mn) ((t *)((u32)mp - OFFSET_OF(t, mn))) typedef char s8; typedef short s16; typedef short SHORT; typedef int s32; typedef int INT; typedef long LONG; typedef long long int s64; typedef unsigned char u8; typedef unsigned char BYTE; typedef unsigned short u16; typedef unsigned short WORD; typedef unsigned short WCHAR; typedef unsigned int u32; typedef unsigned int UINT; typedef unsigned long DWORD; typedef unsigned long long QWORD; typedef unsigned long long int u64; typedef volatile unsigned char vu8; typedef volatile unsigned short vu16; typedef volatile unsigned int vu32; typedef int bool; #define true 1 #define false 0 #endif ================================================ FILE: modules/simple_sample/Makefile ================================================ ifeq ($(strip $(DEVKITARM)),) $(error "Please set DEVKITARM in your environment. export DEVKITARM=devkitARM") endif include $(DEVKITARM)/base_rules TARGET := module_sample BUILDDIR := ../../build/$(TARGET) OUTPUTDIR := ../../output SOURCEDIR = simple_sample BDKDIR := bdk BDKINC := -I../../$(BDKDIR) VPATH = $(dir ./) $(dir $(wildcard ./*/)) # Track compiler flags TRACK_CFLAGS = $(BUILDDIR)/.cflags TRACK_LDFLAGS = $(BUILDDIR)/.ldflags OBJS = $(addprefix $(BUILDDIR)/,\ module_sample.o \ gfx.o \ ) GFX_INC := '"../modules/$(SOURCEDIR)/gfx/gfx.h"' CUSTOMDEFINES := -DGFX_INC=$(GFX_INC) ARCH := -march=armv4t -mtune=arm7tdmi -mthumb-interwork CFLAGS = $(ARCH) -O2 -nostdlib -fpie -ffunction-sections -fdata-sections -fomit-frame-pointer -std=gnu11 -Wall -Wsign-compare $(CUSTOMDEFINES) LDFLAGS = $(ARCH) -fpie -pie -nostartfiles -lgcc -Wl,-z,max-page-size=256 .PHONY: clean all all: $(TARGET).bso $(BUILDDIR)/%.o: ./%.c $(TRACK_CFLAGS) @$(CC) $(CFLAGS) $(BDKINC) -MMD -MP -c $< -o $@ $(TARGET).bso: $(OBJS) $(TRACK_LDFLAGS) @$(CC) $(LDFLAGS) -e mod_entry $(OBJS) -o $(OUTPUTDIR)/$(TARGET).bso @$(STRIP) -g $(OUTPUTDIR)/$(TARGET).bso @echo "Built module: "$(TARGET)".bso" clean: @rm -rf $(BUILDDIR)/$(TARGET) @rm -rf $(OUTPUTDIR)/$(TARGET).bso $(BUILDDIR): @mkdir -p "$(BUILDDIR)" # Non objects change detectors. $(TRACK_CFLAGS): $(BUILDDIR) @echo '$(CFLAGS)' | cmp -s - $@ || echo '$(CFLAGS)' > $@ $(TRACK_LDFLAGS): $(BUILDDIR) @echo '$(LDFLAGS)' | cmp -s - $@ || echo '$(LDFLAGS)' > $@ -include $(OBJS:.o=.d) ================================================ FILE: modules/simple_sample/gfx/gfx.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2020 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "gfx.h" // Global gfx console and context. gfx_ctxt_t gfx_ctxt; gfx_con_t gfx_con; static const u8 _gfx_font[] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Char 032 ( ) 0x00, 0x30, 0x30, 0x18, 0x18, 0x00, 0x0C, 0x00, // Char 033 (!) 0x00, 0x22, 0x22, 0x22, 0x00, 0x00, 0x00, 0x00, // Char 034 (") 0x00, 0x66, 0x66, 0xFF, 0x66, 0xFF, 0x66, 0x66, // Char 035 (#) 0x00, 0x18, 0x7C, 0x06, 0x3C, 0x60, 0x3E, 0x18, // Char 036 ($) 0x00, 0x46, 0x66, 0x30, 0x18, 0x0C, 0x66, 0x62, // Char 037 (%) 0x00, 0x3C, 0x66, 0x3C, 0x1C, 0xE6, 0x66, 0xFC, // Char 038 (&) 0x00, 0x18, 0x0C, 0x06, 0x00, 0x00, 0x00, 0x00, // Char 039 (') 0x00, 0x30, 0x18, 0x0C, 0x0C, 0x18, 0x30, 0x00, // Char 040 (() 0x00, 0x0C, 0x18, 0x30, 0x30, 0x18, 0x0C, 0x00, // Char 041 ()) 0x00, 0x66, 0x3C, 0xFF, 0x3C, 0x66, 0x00, 0x00, // Char 042 (*) 0x00, 0x18, 0x18, 0x7E, 0x18, 0x18, 0x00, 0x00, // Char 043 (+) 0x00, 0x00, 0x00, 0x00, 0x18, 0x18, 0x0C, 0x00, // Char 044 (,) 0x00, 0x00, 0x00, 0x3E, 0x00, 0x00, 0x00, 0x00, // Char 045 (-) 0x00, 0x00, 0x00, 0x00, 0x00, 0x18, 0x18, 0x00, // Char 046 (.) 0x00, 0x40, 0x60, 0x30, 0x18, 0x0C, 0x06, 0x00, // Char 047 (/) 0x00, 0x3C, 0x66, 0x76, 0x6E, 0x66, 0x3C, 0x00, // Char 048 (0) 0x00, 0x18, 0x1C, 0x18, 0x18, 0x18, 0x7E, 0x00, // Char 049 (1) 0x00, 0x3C, 0x62, 0x30, 0x0C, 0x06, 0x7E, 0x00, // Char 050 (2) 0x00, 0x3C, 0x62, 0x38, 0x60, 0x66, 0x3C, 0x00, // Char 051 (3) 0x00, 0x6C, 0x6C, 0x66, 0xFE, 0x60, 0x60, 0x00, // Char 052 (4) 0x00, 0x7E, 0x06, 0x7E, 0x60, 0x66, 0x3C, 0x00, // Char 053 (5) 0x00, 0x3C, 0x06, 0x3E, 0x66, 0x66, 0x3C, 0x00, // Char 054 (6) 0x00, 0x7E, 0x30, 0x30, 0x18, 0x18, 0x18, 0x00, // Char 055 (7) 0x00, 0x3C, 0x66, 0x3C, 0x66, 0x66, 0x3C, 0x00, // Char 056 (8) 0x00, 0x3C, 0x66, 0x7C, 0x60, 0x66, 0x3C, 0x00, // Char 057 (9) 0x00, 0x00, 0x18, 0x00, 0x00, 0x00, 0x18, 0x00, // Char 058 (:) 0x00, 0x00, 0x18, 0x00, 0x18, 0x18, 0x0C, 0x00, // Char 059 (;) 0x00, 0x70, 0x1C, 0x06, 0x06, 0x1C, 0x70, 0x00, // Char 060 (<) 0x00, 0x00, 0x3E, 0x00, 0x3E, 0x00, 0x00, 0x00, // Char 061 (=) 0x00, 0x0E, 0x38, 0x60, 0x60, 0x38, 0x0E, 0x00, // Char 062 (>) 0x00, 0x3C, 0x66, 0x30, 0x18, 0x00, 0x18, 0x00, // Char 063 (?) 0x00, 0x3C, 0x66, 0x76, 0x76, 0x06, 0x46, 0x3C, // Char 064 (@) 0x00, 0x3C, 0x66, 0x7E, 0x66, 0x66, 0x66, 0x00, // Char 065 (A) 0x00, 0x3E, 0x66, 0x3E, 0x66, 0x66, 0x3E, 0x00, // Char 066 (B) 0x00, 0x3C, 0x66, 0x06, 0x06, 0x66, 0x3C, 0x00, // Char 067 (C) 0x00, 0x1E, 0x36, 0x66, 0x66, 0x36, 0x1E, 0x00, // Char 068 (D) 0x00, 0x7E, 0x06, 0x1E, 0x06, 0x06, 0x7E, 0x00, // Char 069 (E) 0x00, 0x3E, 0x06, 0x1E, 0x06, 0x06, 0x06, 0x00, // Char 070 (F) 0x00, 0x3C, 0x66, 0x06, 0x76, 0x66, 0x3C, 0x00, // Char 071 (G) 0x00, 0x66, 0x66, 0x7E, 0x66, 0x66, 0x66, 0x00, // Char 072 (H) 0x00, 0x3C, 0x18, 0x18, 0x18, 0x18, 0x3C, 0x00, // Char 073 (I) 0x00, 0x78, 0x30, 0x30, 0x30, 0x36, 0x1C, 0x00, // Char 074 (J) 0x00, 0x66, 0x36, 0x1E, 0x1E, 0x36, 0x66, 0x00, // Char 075 (K) 0x00, 0x06, 0x06, 0x06, 0x06, 0x06, 0x7E, 0x00, // Char 076 (L) 0x00, 0x46, 0x6E, 0x7E, 0x56, 0x46, 0x46, 0x00, // Char 077 (M) 0x00, 0x66, 0x6E, 0x7E, 0x76, 0x66, 0x66, 0x00, // Char 078 (N) 0x00, 0x3C, 0x66, 0x66, 0x66, 0x66, 0x3C, 0x00, // Char 079 (O) 0x00, 0x3E, 0x66, 0x3E, 0x06, 0x06, 0x06, 0x00, // Char 080 (P) 0x00, 0x3C, 0x66, 0x66, 0x66, 0x3C, 0x70, 0x00, // Char 081 (Q) 0x00, 0x3E, 0x66, 0x3E, 0x1E, 0x36, 0x66, 0x00, // Char 082 (R) 0x00, 0x3C, 0x66, 0x0C, 0x30, 0x66, 0x3C, 0x00, // Char 083 (S) 0x00, 0x7E, 0x18, 0x18, 0x18, 0x18, 0x18, 0x00, // Char 084 (T) 0x00, 0x66, 0x66, 0x66, 0x66, 0x66, 0x3C, 0x00, // Char 085 (U) 0x00, 0x66, 0x66, 0x66, 0x66, 0x3C, 0x18, 0x00, // Char 086 (V) 0x00, 0x46, 0x46, 0x56, 0x7E, 0x6E, 0x46, 0x00, // Char 087 (W) 0x00, 0x66, 0x3C, 0x18, 0x3C, 0x66, 0x66, 0x00, // Char 088 (X) 0x00, 0x66, 0x66, 0x3C, 0x18, 0x18, 0x18, 0x00, // Char 089 (Y) 0x00, 0x7E, 0x30, 0x18, 0x0C, 0x06, 0x7E, 0x00, // Char 090 (Z) 0x00, 0x3C, 0x0C, 0x0C, 0x0C, 0x0C, 0x0C, 0x3C, // Char 091 ([) 0x00, 0x06, 0x0C, 0x18, 0x30, 0x60, 0x40, 0x00, // Char 092 (\) 0x00, 0x3C, 0x30, 0x30, 0x30, 0x30, 0x30, 0x3C, // Char 093 (]) 0x00, 0x18, 0x3C, 0x66, 0x00, 0x00, 0x00, 0x00, // Char 094 (^) 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, // Char 095 (_) 0x00, 0x0C, 0x18, 0x30, 0x00, 0x00, 0x00, 0x00, // Char 096 (`) 0x00, 0x00, 0x3C, 0x60, 0x7C, 0x66, 0x7C, 0x00, // Char 097 (a) 0x00, 0x06, 0x06, 0x3E, 0x66, 0x66, 0x3E, 0x00, // Char 098 (b) 0x00, 0x00, 0x3C, 0x06, 0x06, 0x06, 0x3C, 0x00, // Char 099 (c) 0x00, 0x60, 0x60, 0x7C, 0x66, 0x66, 0x7C, 0x00, // Char 100 (d) 0x00, 0x00, 0x3C, 0x66, 0x7E, 0x06, 0x3C, 0x00, // Char 101 (e) 0x00, 0x38, 0x0C, 0x3E, 0x0C, 0x0C, 0x0C, 0x00, // Char 102 (f) 0x00, 0x00, 0x7C, 0x66, 0x7C, 0x40, 0x3C, 0x00, // Char 103 (g) 0x00, 0x06, 0x06, 0x3E, 0x66, 0x66, 0x66, 0x00, // Char 104 (h) 0x00, 0x18, 0x00, 0x1C, 0x18, 0x18, 0x3C, 0x00, // Char 105 (i) 0x00, 0x30, 0x00, 0x30, 0x30, 0x30, 0x1E, 0x00, // Char 106 (j) 0x00, 0x06, 0x06, 0x36, 0x1E, 0x36, 0x66, 0x00, // Char 107 (k) 0x00, 0x1C, 0x18, 0x18, 0x18, 0x18, 0x3C, 0x00, // Char 108 (l) 0x00, 0x00, 0x66, 0xFE, 0xFE, 0xD6, 0xC6, 0x00, // Char 109 (m) 0x00, 0x00, 0x3E, 0x66, 0x66, 0x66, 0x66, 0x00, // Char 110 (n) 0x00, 0x00, 0x3C, 0x66, 0x66, 0x66, 0x3C, 0x00, // Char 111 (o) 0x00, 0x00, 0x3E, 0x66, 0x66, 0x3E, 0x06, 0x00, // Char 112 (p) 0x00, 0x00, 0x7C, 0x66, 0x66, 0x7C, 0x60, 0x00, // Char 113 (q) 0x00, 0x00, 0x3E, 0x66, 0x06, 0x06, 0x06, 0x00, // Char 114 (r) 0x00, 0x00, 0x7C, 0x06, 0x3C, 0x60, 0x3E, 0x00, // Char 115 (s) 0x00, 0x18, 0x7E, 0x18, 0x18, 0x18, 0x70, 0x00, // Char 116 (t) 0x00, 0x00, 0x66, 0x66, 0x66, 0x66, 0x7C, 0x00, // Char 117 (u) 0x00, 0x00, 0x66, 0x66, 0x66, 0x3C, 0x18, 0x00, // Char 118 (v) 0x00, 0x00, 0xC6, 0xD6, 0xFE, 0x7C, 0x6C, 0x00, // Char 119 (w) 0x00, 0x00, 0x66, 0x3C, 0x18, 0x3C, 0x66, 0x00, // Char 120 (x) 0x00, 0x00, 0x66, 0x66, 0x7C, 0x60, 0x3C, 0x00, // Char 121 (y) 0x00, 0x00, 0x7E, 0x30, 0x18, 0x0C, 0x7E, 0x00, // Char 122 (z) 0x00, 0x18, 0x08, 0x08, 0x04, 0x08, 0x08, 0x18, // Char 123 ({) 0x00, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, // Char 124 (|) 0x00, 0x0C, 0x08, 0x08, 0x10, 0x08, 0x08, 0x0C, // Char 125 (}) 0x00, 0x00, 0x00, 0x4C, 0x32, 0x00, 0x00, 0x00 // Char 126 (~) }; void gfx_clear_grey(u8 color) { memset(gfx_ctxt.fb, color, gfx_ctxt.width * gfx_ctxt.height * 4); } void gfx_clear_partial_grey(u8 color, u32 pos_x, u32 height) { memset(gfx_ctxt.fb + pos_x * gfx_ctxt.stride, color, height * 4 * gfx_ctxt.stride); } void gfx_clear_color(u32 color) { for (u32 i = 0; i < gfx_ctxt.width * gfx_ctxt.height; i++) gfx_ctxt.fb[i] = color; } void gfx_init_ctxt(u32 *fb, u32 width, u32 height, u32 stride) { gfx_ctxt.fb = fb; gfx_ctxt.width = width; gfx_ctxt.height = height; gfx_ctxt.stride = stride; } void gfx_con_init() { gfx_con.gfx_ctxt = &gfx_ctxt; gfx_con.fntsz = 16; gfx_con.x = 0; gfx_con.y = 0; gfx_con.savedx = 0; gfx_con.savedy = 0; gfx_con.fgcol = 0xFFCCCCCC; gfx_con.fillbg = 1; gfx_con.bgcol = 0xFF1B1B1B; gfx_con.mute = 0; } void gfx_con_setcol(u32 fgcol, int fillbg, u32 bgcol) { gfx_con.fgcol = fgcol; gfx_con.fillbg = fillbg; gfx_con.bgcol = bgcol; } void gfx_con_getpos(u32 *x, u32 *y) { *x = gfx_con.x; *y = gfx_con.y; } void gfx_con_setpos(u32 x, u32 y) { gfx_con.x = x; gfx_con.y = y; } void gfx_putc(char c) { // Duplicate code for performance reasons. switch (gfx_con.fntsz) { case 16: if (c >= 32 && c <= 126) { u8 *cbuf = (u8 *)&_gfx_font[8 * (c - 32)]; u32 *fb = gfx_ctxt.fb + gfx_con.x + gfx_con.y * gfx_ctxt.stride; for (u32 i = 0; i < 16; i += 2) { u8 v = *cbuf; for (u32 k = 0; k < 2; k++) { for (u32 j = 0; j < 8; j++) { if (v & 1) { *fb = gfx_con.fgcol; fb++; *fb = gfx_con.fgcol; } else if (gfx_con.fillbg) { *fb = gfx_con.bgcol; fb++; *fb = gfx_con.bgcol; } else fb++; v >>= 1; fb++; } fb += gfx_ctxt.stride - 16; v = *cbuf; } cbuf++; } gfx_con.x += 16; } else if (c == '\n') { gfx_con.x = 0; gfx_con.y += 16; if (gfx_con.y > gfx_ctxt.height - 16) gfx_con.y = 0; } break; case 8: default: if (c >= 32 && c <= 126) { u8 *cbuf = (u8 *)&_gfx_font[8 * (c - 32)]; u32 *fb = gfx_ctxt.fb + gfx_con.x + gfx_con.y * gfx_ctxt.stride; for (u32 i = 0; i < 8; i++) { u8 v = *cbuf++; for (u32 j = 0; j < 8; j++) { if (v & 1) *fb = gfx_con.fgcol; else if (gfx_con.fillbg) *fb = gfx_con.bgcol; v >>= 1; fb++; } fb += gfx_ctxt.stride - 8; } gfx_con.x += 8; } else if (c == '\n') { gfx_con.x = 0; gfx_con.y += 8; if (gfx_con.y > gfx_ctxt.height - 8) gfx_con.y = 0; } break; } } void gfx_puts(char *s) { if (!s || gfx_con.mute) return; for (; *s; s++) gfx_putc(*s); } static void _gfx_putn(u32 v, int base, char fill, int fcnt) { char buf[65]; static const char digits[] = "0123456789ABCDEFghijklmnopqrstuvwxyz"; char *p; int c = fcnt; if (base > 36) return; p = buf + 64; *p = 0; do { c--; *--p = digits[v % base]; v /= base; } while (v); if (fill != 0) { while (c > 0) { *--p = fill; c--; } } gfx_puts(p); } void gfx_put_small_sep() { u8 prevFontSize = gfx_con.fntsz; gfx_con.fntsz = 8; gfx_putc('\n'); gfx_con.fntsz = prevFontSize; } void gfx_put_big_sep() { u8 prevFontSize = gfx_con.fntsz; gfx_con.fntsz = 16; gfx_putc('\n'); gfx_con.fntsz = prevFontSize; } void gfx_printf(const char *fmt, ...) { if (gfx_con.mute) return; va_list ap; int fill, fcnt; va_start(ap, fmt); while (*fmt) { if (*fmt == '%') { fmt++; fill = 0; fcnt = 0; if ((*fmt >= '0' && *fmt <= '9') || *fmt == ' ') { fcnt = *fmt; fmt++; if (*fmt >= '0' && *fmt <= '9') { fill = fcnt; fcnt = *fmt - '0'; fmt++; } else { fill = ' '; fcnt -= '0'; } } switch(*fmt) { case 'c': gfx_putc(va_arg(ap, u32)); break; case 's': gfx_puts(va_arg(ap, char *)); break; case 'd': _gfx_putn(va_arg(ap, u32), 10, fill, fcnt); break; case 'p': case 'P': case 'x': case 'X': _gfx_putn(va_arg(ap, u32), 16, fill, fcnt); break; case 'k': gfx_con.fgcol = va_arg(ap, u32); break; case 'K': gfx_con.bgcol = va_arg(ap, u32); gfx_con.fillbg = 1; break; case '%': gfx_putc('%'); break; case '\0': goto out; default: gfx_putc('%'); gfx_putc(*fmt); break; } } else gfx_putc(*fmt); fmt++; } out: va_end(ap); } void gfx_hexdump(u32 base, const u8 *buf, u32 len) { if (gfx_con.mute) return; u8 prevFontSize = gfx_con.fntsz; gfx_con.fntsz = 8; for (u32 i = 0; i < len; i++) { if (i % 0x10 == 0) { if (i != 0) { gfx_puts("| "); for (u32 j = 0; j < 0x10; j++) { u8 c = buf[i - 0x10 + j]; if (c >= 32 && c <= 126) gfx_putc(c); else gfx_putc('.'); } gfx_putc('\n'); } gfx_printf("%08x: ", base + i); } gfx_printf("%02x ", buf[i]); if (i == len - 1) { int ln = len % 0x10 != 0; u32 k = 0x10 - 1; if (ln) { k = (len & 0xF) - 1; for (u32 j = 0; j < 0x10 - k; j++) gfx_puts(" "); } gfx_puts("| "); for (u32 j = 0; j < (ln ? k : k + 1); j++) { u8 c = buf[i - k + j]; if (c >= 32 && c <= 126) gfx_putc(c); else gfx_putc('.'); } gfx_putc('\n'); } } gfx_putc('\n'); gfx_con.fntsz = prevFontSize; } static int abs(int x) { if (x < 0) return -x; return x; } void gfx_set_pixel(u32 x, u32 y, u32 color) { gfx_ctxt.fb[x + y * gfx_ctxt.stride] = color; } void gfx_line(int x0, int y0, int x1, int y1, u32 color) { int dx = abs(x1 - x0), sx = x0 < x1 ? 1 : -1; int dy = abs(y1 - y0), sy = y0 < y1 ? 1 : -1; int err = (dx > dy ? dx : -dy) / 2, e2; while (1) { gfx_set_pixel(x0, y0, color); if (x0 == x1 && y0 == y1) break; e2 = err; if (e2 >-dx) { err -= dy; x0 += sx; } if (e2 < dy) { err += dx; y0 += sy; } } } void gfx_set_rect_grey(const u8 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y) { u32 pos = 0; for (u32 y = pos_y; y < (pos_y + size_y); y++) { for (u32 x = pos_x; x < (pos_x + size_x); x++) { memset(&gfx_ctxt.fb[x + y*gfx_ctxt.stride], buf[pos], 4); pos++; } } } void gfx_set_rect_rgb(const u8 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y) { u32 pos = 0; for (u32 y = pos_y; y < (pos_y + size_y); y++) { for (u32 x = pos_x; x < (pos_x + size_x); x++) { gfx_ctxt.fb[x + y * gfx_ctxt.stride] = buf[pos + 2] | (buf[pos + 1] << 8) | (buf[pos] << 16); pos+=3; } } } void gfx_set_rect_argb(const u32 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y) { u32 *ptr = (u32 *)buf; for (u32 y = pos_y; y < (pos_y + size_y); y++) for (u32 x = pos_x; x < (pos_x + size_x); x++) gfx_ctxt.fb[x + y * gfx_ctxt.stride] = *ptr++; } void gfx_render_bmp_argb(const u32 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y) { for (u32 y = pos_y; y < (pos_y + size_y); y++) { for (u32 x = pos_x; x < (pos_x + size_x); x++) gfx_ctxt.fb[x + y * gfx_ctxt.stride] = buf[(size_y + pos_y - 1 - y ) * size_x + x - pos_x]; } } ================================================ FILE: modules/simple_sample/gfx/gfx.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2020 CTCaer * Copyright (c) 2018 M4xw * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GFX_H_ #define _GFX_H_ #include #define EPRINTF(text) gfx_printf("%k"text"%k\n", 0xFFFF0000, 0xFFCCCCCC) #define EPRINTFARGS(text, args...) gfx_printf("%k"text"%k\n", 0xFFFF0000, args, 0xFFCCCCCC) #define WPRINTF(text) gfx_printf("%k"text"%k\n", 0xFFFFDD00, 0xFFCCCCCC) #define WPRINTFARGS(text, args...) gfx_printf("%k"text"%k\n", 0xFFFFDD00, args, 0xFFCCCCCC) typedef struct _gfx_ctxt_t { u32 *fb; u32 width; u32 height; u32 stride; } gfx_ctxt_t; typedef struct _gfx_con_t { gfx_ctxt_t *gfx_ctxt; u32 fntsz; u32 x; u32 y; u32 savedx; u32 savedy; u32 fgcol; int fillbg; u32 bgcol; bool mute; } gfx_con_t; // Global gfx console and context. extern gfx_ctxt_t gfx_ctxt; extern gfx_con_t gfx_con; void gfx_init_ctxt(u32 *fb, u32 width, u32 height, u32 stride); void gfx_clear_grey(u8 color); void gfx_clear_partial_grey(u8 color, u32 pos_x, u32 height); void gfx_clear_color(u32 color); void gfx_con_init(); void gfx_con_setcol(u32 fgcol, int fillbg, u32 bgcol); void gfx_con_getpos(u32 *x, u32 *y); void gfx_con_setpos(u32 x, u32 y); void gfx_putc(char c); void gfx_puts(char *s); void gfx_printf(const char *fmt, ...); void gfx_hexdump(u32 base, const u8 *buf, u32 len); void gfx_set_pixel(u32 x, u32 y, u32 color); void gfx_line(int x0, int y0, int x1, int y1, u32 color); void gfx_put_small_sep(); void gfx_put_big_sep(); void gfx_set_rect_grey(const u8 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y); void gfx_set_rect_rgb(const u8 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y); void gfx_set_rect_argb(const u32 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y); void gfx_render_bmp_argb(const u32 *buf, u32 size_x, u32 size_y, u32 pos_x, u32 pos_y); #endif ================================================ FILE: modules/simple_sample/module_sample.c ================================================ /* Sample Hekate Module 2018 - M4xw */ #include #include #include void mod_entry(void *moduleConfig, bdk_params_t *bp) { memcpy(&gfx_con, bp->gfx_con, sizeof(gfx_con_t)); memcpy(&gfx_ctxt, bp->gfx_ctx, sizeof(gfx_ctxt_t)); gfx_puts("Hello World!"); memcpy(bp->gfx_con, &gfx_con, sizeof(gfx_con_t)); memcpy(bp->gfx_ctx, &gfx_ctxt, sizeof(gfx_ctxt_t)); } ================================================ FILE: nyx/Makefile ================================================ ifeq ($(strip $(DEVKITARM)),) $(error "Please set DEVKITARM in your environment. export DEVKITARM=devkitARM") endif include $(DEVKITARM)/base_rules ################################################################################ NYX_LOAD_ADDR := 0x81000000 NYX_MAGIC := 0x43544347 #"GCTC" include ./../Versions.inc ################################################################################ TARGET := nyx BUILDDIR := ./../build/$(TARGET) OUTPUTDIR := ./../output SOURCEDIR = nyx_gui BDKDIR := bdk BDKINC := -I../$(BDKDIR) VPATH = $(dir $(wildcard ./$(SOURCEDIR)/)) $(dir $(wildcard ./$(SOURCEDIR)/*/)) $(dir $(wildcard ./$(SOURCEDIR)/*/*/)) VPATH += $(dir $(wildcard ./$(SOURCEDIR)/*/*/*/)) $(dir $(wildcard ./$(SOURCEDIR)/*/*/*/*/)) VPATH += $(dir $(wildcard ../$(BDKDIR)/)) $(dir $(wildcard ../$(BDKDIR)/*/)) $(dir $(wildcard ../$(BDKDIR)/*/*/)) $(dir $(wildcard ../$(BDKDIR)/*/*/*/)) # Track compiler flags TRACK_CFLAGS = $(BUILDDIR)/.cflags TRACK_LDFLAGS = $(BUILDDIR)/.ldflags # Main and graphics. OBJS = start exception_handlers nyx heap gfx \ gui gui_info gui_tools gui_options gui_emmc_tools gui_emummc_tools gui_tools_partition_manager \ fe_emummc_tools fe_emmc_tools # Hardware. OBJS += actmon bpmp ccplex clock di vic i2c irq timer \ gpio pinmux pmc se smmu tsec uart \ fuse kfuse \ mc sdram minerva ramdisk \ sdmmc sdmmc_driver emmc sd nx_emmc_bis \ bm92t36 bq24193 max17050 max7762x max77620-rtc regulator_5v \ touch joycon tmp451 fan \ usbd xusbd usb_descriptors usb_gadget_ums usb_gadget_hid \ hw_init # Utilities. OBJS += btn dirlist ianos ini util config sprintf # Horizon. OBJS += hos pkg1 pkg2 # Libraries. OBJS += diskio ff ffunicode ffsystem \ elfload elfreloc_arm blz \ lv_group lv_indev lv_obj lv_refr lv_style lv_vdb \ lv_draw lv_draw_rbasic lv_draw_vbasic lv_draw_arc lv_draw_img \ lv_draw_label lv_draw_line lv_draw_rect lv_draw_triangle \ lv_hal_disp lv_hal_indev lv_hal_tick \ interui_20 interui_30 ubuntu_mono hekate_symbol_20 hekate_symbol_30 hekate_symbol_120 lv_font_builtin \ lv_anim lv_area lv_circ lv_color lv_font lv_ll lv_math lv_mem lv_task lv_txt lv_gc \ lv_bar lv_btn lv_btnm lv_cb lv_cont lv_ddlist lv_img lv_label lv_line lv_list lv_lmeter lv_mbox \ lv_page lv_roller lv_slider lv_sw lv_tabview lv_ta lv_win lv_log lv_imgbtn \ lv_theme lv_theme_hekate OBJS := $(addsuffix .o, $(OBJS)) OBJS := $(addprefix $(BUILDDIR)/, $(OBJS)) GFX_INC := '"../nyx/$(SOURCEDIR)/gfx/gfx.h"' FFCFG_INC := '"../nyx/$(SOURCEDIR)/libs/fatfs/ffconf.h"' ################################################################################ CUSTOMDEFINES := -DNYX_LOAD_ADDR=$(NYX_LOAD_ADDR) -DNYX_MAGIC=$(NYX_MAGIC) CUSTOMDEFINES += -DNYX_VER_MJ=$(NYXVERSION_MAJOR) -DNYX_VER_MN=$(NYXVERSION_MINOR) -DNYX_VER_HF=$(NYXVERSION_HOTFX) -DNYX_VER_RL=$(NYXVERSION_REL) # BDK defines. CUSTOMDEFINES += -DBDK_MINERVA_CFG_FROM_RAM -DBDK_HW_EXTRA_DEINIT -DBDK_SDMMC_EXTRA_PRINT CUSTOMDEFINES += -DGFX_INC=$(GFX_INC) -DFFCFG_INC=$(FFCFG_INC) #CUSTOMDEFINES += -DDEBUG # UART Logging: Max baudrate 12.5M. Disables Joycon on Nyx if UARTB or UARTC. # DEBUG_UART_PORT - 0: UART_A, 1: UART_B, 2: UART_C. #CUSTOMDEFINES += -DDEBUG_UART_BAUDRATE=115200 -DDEBUG_UART_INVERT=0 -DDEBUG_UART_PORT=0 # LvGL UART LOG. #CUSTOMDEFINES += -DDEBUG_UART_LV_LOG #TODO: Considering reinstating some of these when pointer warnings have been fixed. WARNINGS := -Wall -Wsign-compare -Wtype-limits -Wno-array-bounds -Wno-stringop-overread -Wno-stringop-overflow #-fno-delete-null-pointer-checks #-Wstack-usage=byte-size -fstack-usage ARCH := -march=armv4t -mtune=arm7tdmi -mthumb-interwork $(WARNINGS) CFLAGS = $(ARCH) -O2 -g -gdwarf-4 -nostdlib -ffunction-sections -fdata-sections -fomit-frame-pointer -std=gnu11 $(CUSTOMDEFINES) LDFLAGS = $(ARCH) -nostartfiles -lgcc -Wl,--nmagic,--gc-sections -Xlinker --defsym=NYX_LOAD_ADDR=$(NYX_LOAD_ADDR) ifndef NYXECHO T := $(shell $(MAKE) $(BUILDDIR)/$(TARGET).elf --no-print-directory -nrRf $(firstword $(MAKEFILE_LIST)) NYXECHO="NYXOBJ" | grep -c "NYXOBJ") N := x C = $(words $N)$(eval N := x $N) NYXECHO = echo -ne "\r`expr " [\`expr $C '*' 100 / $T\`" : '.*\(....\)$$'`%]\033[K" endif ################################################################################ .PHONY: all clean all: $(TARGET).bin @echo "--------------------------------------" @echo -n "Nyx size: " $(eval BIN_SIZE = $(shell wc -c < $(OUTPUTDIR)/$(TARGET).bin)) @echo $(BIN_SIZE)" Bytes" @echo "--------------------------------------" clean: @rm -rf $(OBJS) @rm -rf $(BUILDDIR) @rm -rf $(OUTPUTDIR) $(TARGET).bin: $(BUILDDIR)/$(TARGET).elf @$(OBJCOPY) -S -O binary $< $(OUTPUTDIR)/$@ $(BUILDDIR)/$(TARGET).elf: $(OBJS) $(TRACK_LDFLAGS) @echo -ne "\r[100%] Linking $(TARGET).elf\033[K" @$(CC) $(LDFLAGS) -T $(SOURCEDIR)/link.ld $(OBJS) -o $@ @printf "\n$(TARGET) was built with the following flags:\nCFLAGS: $(CFLAGS)\nLDFLAGS: $(LDFLAGS)\n" $(BUILDDIR)/%.o: %.c $(TRACK_CFLAGS) | $(BUILDDIR) @$(NYXECHO) Building $@ @$(CC) $(CFLAGS) $(BDKINC) -MMD -MP -c $< -o $@ $(BUILDDIR)/%.o: %.S $(TRACK_CFLAGS) | $(BUILDDIR) @$(NYXECHO) Building $@ @$(CC) $(CFLAGS) -MMD -MP -c $< -o $@ $(BUILDDIR): @mkdir -p "$(BUILDDIR)" @mkdir -p "$(OUTPUTDIR)" # Non objects change detectors. $(TRACK_CFLAGS): $(BUILDDIR) @echo '$(CFLAGS)' | cmp -s - $@ || echo '$(CFLAGS)' > $@ $(TRACK_LDFLAGS): $(BUILDDIR) @echo '$(LDFLAGS)' | cmp -s - $@ || echo '$(LDFLAGS)' > $@ -include $(OBJS:.o=.d) ================================================ FILE: nyx/README_RES.md ================================================ # Nyx - Background - Icons The background for Nyx, must be a 1280 x 720 32-bit BMP. Alpha blending is taken into account. For that reason, if a solid background is required, that value must be 0xFF. There are sites that can produce the correct bmp. The icons supported are 192 x 192 32-bit BMP. You can utilize transparency at will and make nice mixes with the button background. Additionally, using the `icon={sd path}`, the icon will get colorized if the name ends in `_hue.bmp`. That only works nicely if the icon is a white layout with transparency. If `_nobox.bmp` is used then the button background is removed. Useful for icon themes that aim for a specific style. A combo of both can be enabled via `_hue_nobox.bmp` suffix. The default system icons (`icon_switch.bmp` and `icon_payload.bmp`) can be replaced with white layouts that have transparency. They can also be replaced with normal icons if the following exist: `icon_switch_custom.bmp` or/and `icon_payload_custom.bmp` ## How to configure The background must go to /bootloader/res/background.bmp The icons can be utilized either via `[boot entries names]` -> `boot entries names.bmp` or by using `icon={sd path}` (preferred method), which should point at a bmp. ================================================ FILE: nyx/nyx_gui/config.c ================================================ /* * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include "config.h" #include void set_default_configuration() { h_cfg.t210b01 = hw_get_chip_id() == GP_HIDREV_MAJOR_T210B01; h_cfg.devmode = fuse_read_hw_state(); h_cfg.autoboot = 0; h_cfg.autoboot_list = 0; h_cfg.bootwait = 3; h_cfg.noticker = 0; //! TODO: Add GUI option. h_cfg.backlight = 100; h_cfg.autohosoff = h_cfg.t210b01 ? 1 : 0; h_cfg.autonogc = 1; h_cfg.updater2p = 0; h_cfg.bootprotect = 0; h_cfg.errors = 0; h_cfg.eks = NULL; h_cfg.rcm_patched = fuse_check_patched_rcm(); h_cfg.autorcm_enabled = false; h_cfg.emummc_force_disable = false; sd_power_cycle_time_start = 0; } void set_nyx_default_configuration() { n_cfg.theme_bg = 0x2D2D2D; n_cfg.theme_color = 167; n_cfg.entries_5_col = 0; n_cfg.timeoffset = 0; n_cfg.timedst = 1; n_cfg.home_screen = 0; n_cfg.verification = 1; n_cfg.ums_emmc_rw = 0; n_cfg.jc_disable = 0; n_cfg.jc_force_right = 0; n_cfg.bpmp_clock = 0; } int create_config_entry() { char lbuf[64]; FIL fp; bool ini_found = false; LIST_INIT(ini_sections); if (!ini_parse(&ini_sections, "bootloader/hekate_ipl.ini", false)) ini_found = true; else { u8 res = f_open(&fp, "bootloader/hekate_ipl.ini", FA_READ); if (res == FR_NO_FILE || res == FR_NO_PATH) { f_mkdir("bootloader"); f_mkdir("bootloader/ini"); f_mkdir("bootloader/payloads"); f_mkdir("bootloader/sys"); } else { if (!res) f_close(&fp); return 1; } } if (f_open(&fp, "bootloader/hekate_ipl.ini", FA_WRITE | FA_CREATE_ALWAYS) != FR_OK) return 1; // Add config entry. f_puts("[config]\nautoboot=", &fp); itoa(h_cfg.autoboot, lbuf, 10); f_puts(lbuf, &fp); f_puts("\nautoboot_list=", &fp); itoa(h_cfg.autoboot_list, lbuf, 10); f_puts(lbuf, &fp); /* * Clamp value to default if it exceeds 20s to protect against corruption. * Allow up to 20s though for use in cases where user needs lots of time. * For example dock-only use and r2p with enough time to reach dock and cancel it. */ if (h_cfg.bootwait > 20) h_cfg.bootwait = 3; f_puts("\nbootwait=", &fp); itoa(h_cfg.bootwait, lbuf, 10); f_puts(lbuf, &fp); f_puts("\nbacklight=", &fp); itoa(h_cfg.backlight, lbuf, 10); f_puts(lbuf, &fp); f_puts("\nnoticker=", &fp); itoa(h_cfg.noticker, lbuf, 10); f_puts(lbuf, &fp); f_puts("\nautohosoff=", &fp); itoa(h_cfg.autohosoff, lbuf, 10); f_puts(lbuf, &fp); f_puts("\nautonogc=", &fp); itoa(h_cfg.autonogc, lbuf, 10); f_puts(lbuf, &fp); f_puts("\nupdater2p=", &fp); itoa(h_cfg.updater2p, lbuf, 10); f_puts(lbuf, &fp); f_puts("\nbootprotect=", &fp); itoa(h_cfg.bootprotect, lbuf, 10); f_puts(lbuf, &fp); f_puts("\n", &fp); if (ini_found) { // Re-construct existing entries. LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_sections, link) { if (!strcmp(ini_sec->name, "config")) continue; switch (ini_sec->type) { case INI_CHOICE: // Re-construct Boot entry [ ]. f_puts("[", &fp); f_puts(ini_sec->name, &fp); f_puts("]\n", &fp); // Re-construct boot entry's config. LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { f_puts(kv->key, &fp); f_puts("=", &fp); f_puts(kv->val, &fp); f_puts("\n", &fp); } break; case INI_CAPTION: // Re-construct caption entry { }. f_puts("{", &fp); f_puts(ini_sec->name, &fp); f_puts("}\n", &fp); break; case INI_NEWLINE: // Re-construct cosmetic newline \n. f_puts("\n", &fp); break; case INI_COMMENT: // Re-construct comment entry #. f_puts("#", &fp); f_puts(ini_sec->name, &fp); f_puts("\n", &fp); break; } } ini_free(&ini_sections); } f_close(&fp); return 0; } int create_nyx_config_entry(bool force_unmount) { bool sd_mounted = sd_get_card_mounted(); if (sd_mount()) return 1; char lbuf[64]; FIL fp; // Make sure that bootloader folder exists. f_mkdir("bootloader"); if (f_open(&fp, "bootloader/nyx.ini", FA_WRITE | FA_CREATE_ALWAYS) != FR_OK) return 1; // Add config entry. f_puts("[config]\nthemebg=", &fp); itoa(n_cfg.theme_bg, lbuf, 16); f_puts(lbuf, &fp); f_puts("\nthemecolor=", &fp); itoa(n_cfg.theme_color, lbuf, 10); f_puts(lbuf, &fp); f_puts("\nentries5col=", &fp); itoa(n_cfg.entries_5_col, lbuf, 10); f_puts(lbuf, &fp); f_puts("\ntimeoffset=", &fp); itoa(n_cfg.timeoffset, lbuf, 16); f_puts(lbuf, &fp); f_puts("\ntimedst=", &fp); itoa(n_cfg.timedst, lbuf, 10); f_puts(lbuf, &fp); f_puts("\nhomescreen=", &fp); itoa(n_cfg.home_screen, lbuf, 10); f_puts(lbuf, &fp); f_puts("\nverification=", &fp); itoa(n_cfg.verification, lbuf, 10); f_puts(lbuf, &fp); f_puts("\numsemmcrw=", &fp); itoa(n_cfg.ums_emmc_rw, lbuf, 10); f_puts(lbuf, &fp); f_puts("\njcdisable=", &fp); itoa(n_cfg.jc_disable, lbuf, 10); f_puts(lbuf, &fp); f_puts("\njcforceright=", &fp); itoa(n_cfg.jc_force_right, lbuf, 10); f_puts(lbuf, &fp); f_puts("\nbpmpclock=", &fp); itoa(n_cfg.bpmp_clock, lbuf, 10); f_puts(lbuf, &fp); f_puts("\n", &fp); f_close(&fp); if (force_unmount || !sd_mounted) sd_unmount(); return 0; } ================================================ FILE: nyx/nyx_gui/config.h ================================================ /* * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _CONFIG_H_ #define _CONFIG_H_ #include #include "hos/hos.h" typedef struct _hekate_config { // Non-volatile config. u32 autoboot; u32 autoboot_list; u32 bootwait; u32 noticker; u32 backlight; u32 autohosoff; u32 autonogc; u32 updater2p; u32 bootprotect; // Global temporary config. bool t210b01; bool devmode; bool emummc_force_disable; bool rcm_patched; bool autorcm_enabled; u32 errors; hos_eks_mbr_t *eks; } hekate_config; typedef struct _nyx_config { u32 theme_bg; // COLOR_BG_BASE_MIN - COLOR_BG_BASE_MAX. u32 theme_color; u32 entries_5_col; u32 timeoffset; u32 timedst; u32 home_screen; u32 verification; u32 ums_emmc_rw; u32 jc_disable; u32 jc_force_right; u32 bpmp_clock; } nyx_config; extern hekate_config h_cfg; extern nyx_config n_cfg; void set_default_configuration(); void set_nyx_default_configuration(); int create_config_entry(); int create_nyx_config_entry(bool force_unmount); #endif /* _CONFIG_H_ */ ================================================ FILE: nyx/nyx_gui/frontend/fe_emmc_tools.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 Rajko Stojadinovic * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ //! fix the dram stuff and the pop ups #include #include #include #include "gui.h" #include "fe_emmc_tools.h" #include "fe_emummc_tools.h" #include "../config.h" #include #define VERIF_STATUS_OK 0 #define VERIF_STATUS_ERROR 1 #define VERIF_STATUS_ABORT 2 #define NUM_SECTORS_PER_ITER 8192 // 4MB Cache. #define OUT_FILENAME_SZ 128 #define HASH_FILENAME_SZ (OUT_FILENAME_SZ + 11) // 11 == strlen(".sha256sums") extern nyx_config n_cfg; extern char *emmcsn_path_impl(char *path, char *sub_dir, char *filename, sdmmc_storage_t *storage); static void _get_valid_partition(u32 *sector_start, u32 *sector_size, u32 *part_idx, bool backup) { sd_mount(); mbr_t *mbr = (mbr_t *)zalloc(sizeof(mbr_t)); sdmmc_storage_read(&sd_storage, 0, 1, mbr); *part_idx = 0; int i = 0; u32 curr_part_size = 0; // Find first partition with emuMMC GPP. for (i = 1; i < 4; i++) { curr_part_size = mbr->partitions[i].size_sct; *sector_start = mbr->partitions[i].start_sct; u8 type = mbr->partitions[i].type; u32 sector_size_safe = backup ? 0x400000 : (*sector_size) + 0x8000; // 2GB min safe size for backup. if ((curr_part_size >= sector_size_safe) && (*sector_start) && type != 0x83 && (!backup || type == 0xE0)) { if (backup) { u8 gpt_check[SD_BLOCKSIZE] = { 0 }; sdmmc_storage_read(&sd_storage, (*sector_start) + 0xC001, 1, gpt_check); if (!memcmp(gpt_check, "EFI PART", 8)) { *sector_size = curr_part_size; *sector_start = (*sector_start) + 0x8000; break; } sdmmc_storage_read(&sd_storage, (*sector_start) + 0x4001, 1, gpt_check); if (!memcmp(gpt_check, "EFI PART", 8)) { *sector_size = curr_part_size; break; } } else break; } } free(mbr); if (i < 4) *part_idx = i; else { *sector_start = 0; *sector_size = 0; *part_idx = 0; } // Get emuMMC GPP size. if (backup && *part_idx && *sector_size) { gpt_t *gpt = (gpt_t *)zalloc(sizeof(gpt_t)); sdmmc_storage_read(&sd_storage, (*sector_start) + 0x4001, 1, gpt); u32 new_size = gpt->header.alt_lba + 1; if (*sector_size > new_size) *sector_size = new_size; else *sector_size = 0; free(gpt); } else if (!backup && *part_idx) *sector_start = (*sector_start) + 0x8000; } static lv_obj_t *create_mbox_text(const char *text, bool button_ok) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, text); if (button_ok) lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return dark_bg; } static void _update_filename(char *outFilename, u32 sdPathLen, u32 currPartIdx) { if (currPartIdx < 10) { outFilename[sdPathLen] = '0'; itoa(currPartIdx, &outFilename[sdPathLen + 1], 10); } else itoa(currPartIdx, &outFilename[sdPathLen], 10); } static int _emmc_sd_copy_verify(emmc_tool_gui_t *gui, sdmmc_storage_t *storage, u32 lba_curr, const char *outFilename, const emmc_part_t *part) { FIL fp; FIL hashFp; u8 sparseShouldVerify = 4; u32 prevPct = 200; u32 sdFileSector = 0; int res = 0; static const char hexa[] = "0123456789abcdef"; DWORD *clmt = NULL; u8 hashEm[SE_SHA_256_SIZE]; u8 hashSd[SE_SHA_256_SIZE]; if (f_open(&fp, outFilename, FA_READ) == FR_OK) { if (n_cfg.verification == 3) { char hashFilename[HASH_FILENAME_SZ]; strncpy(hashFilename, outFilename, OUT_FILENAME_SZ - 1); strcat(hashFilename, ".sha256sums"); res = f_open(&hashFp, hashFilename, FA_CREATE_ALWAYS | FA_WRITE); if (res) { f_close(&fp); s_printf(gui->txt_buf, "\n#FF0000 Hash file could not be written (error %d)!#\n" "#FF0000 Aborting..#\n", res); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return VERIF_STATUS_ERROR; } char chunkSizeAscii[10]; itoa(NUM_SECTORS_PER_ITER * EMMC_BLOCKSIZE, chunkSizeAscii, 10); chunkSizeAscii[9] = '\0'; f_puts("# chunksize: ", &hashFp); f_puts(chunkSizeAscii, &hashFp); f_puts("\n", &hashFp); } u32 totalSectorsVer = (u32)((u64)f_size(&fp) >> (u64)9); u8 *bufEm = (u8 *)EMMC_BUF_ALIGNED; u8 *bufSd = (u8 *)SDXC_BUF_ALIGNED; u32 pct = (u64)((u64)(lba_curr - part->lba_start) * 100u) / (u64)(part->lba_end - part->lba_start); lv_bar_set_value(gui->bar, pct); lv_bar_set_style(gui->bar, LV_BAR_STYLE_BG, gui->bar_teal_bg); lv_bar_set_style(gui->bar, LV_BAR_STYLE_INDIC, gui->bar_teal_ind); s_printf(gui->txt_buf, " "SYMBOL_DOT" %d%%", pct); lv_label_set_text(gui->label_pct, gui->txt_buf); manual_system_maintenance(true); clmt = f_expand_cltbl(&fp, SZ_4M, 0); u32 num = 0; while (totalSectorsVer > 0) { num = MIN(totalSectorsVer, NUM_SECTORS_PER_ITER); // Check every time or every 4. // Every 4 protects from fake sd, sector corruption and frequent I/O corruption. // Full provides all that, plus protection from extremely rare I/O corruption. if ((n_cfg.verification >= 2) || !(sparseShouldVerify % 4)) { if (sdmmc_storage_read(storage, lba_curr, num, bufEm)) { s_printf(gui->txt_buf, "\n#FF0000 Failed to read %d blocks (@LBA %08X),#\n" "#FF0000 from eMMC! Verification failed..#\n", num, lba_curr); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); free(clmt); f_close(&fp); if (n_cfg.verification == 3) f_close(&hashFp); return VERIF_STATUS_ERROR; } manual_system_maintenance(false); se_sha_hash_256_async(hashEm, bufEm, num << 9); f_lseek(&fp, (u64)sdFileSector << (u64)9); if (f_read_fast(&fp, bufSd, num << 9)) { s_printf(gui->txt_buf, "\n#FF0000 Failed to read %d blocks (@LBA %08X),#\n" "#FF0000 from SD card! Verification failed..#\n", num, lba_curr); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); free(clmt); f_close(&fp); if (n_cfg.verification == 3) f_close(&hashFp); return VERIF_STATUS_ERROR; } manual_system_maintenance(false); se_sha_hash_256_finalize(hashEm); se_sha_hash_256_oneshot(hashSd, bufSd, num << 9); res = memcmp(hashEm, hashSd, SE_SHA_256_SIZE / 2); if (res) { s_printf(gui->txt_buf, "\n#FF0000 SD & eMMC data (@LBA %08X) do not match!#\n" "\n#FF0000 Verification failed..#\n", lba_curr); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); free(clmt); f_close(&fp); if (n_cfg.verification == 3) f_close(&hashFp); return VERIF_STATUS_ERROR; } if (n_cfg.verification == 3) { // Transform computed hash to readable hexadecimal char hashStr[SE_SHA_256_SIZE * 2 + 1]; char *hashStrPtr = hashStr; for (int i = 0; i < SE_SHA_256_SIZE; i++) { *(hashStrPtr++) = hexa[hashSd[i] >> 4]; *(hashStrPtr++) = hexa[hashSd[i] & 0x0F]; } hashStr[SE_SHA_256_SIZE * 2] = '\0'; f_puts(hashStr, &hashFp); f_puts("\n", &hashFp); } } pct = (u64)((u64)(lba_curr - part->lba_start) * 100u) / (u64)(part->lba_end - part->lba_start); if (pct != prevPct) { lv_bar_set_value(gui->bar, pct); s_printf(gui->txt_buf, " "SYMBOL_DOT" %d%%", pct); lv_label_set_text(gui->label_pct, gui->txt_buf); manual_system_maintenance(true); prevPct = pct; } manual_system_maintenance(false); lba_curr += num; totalSectorsVer -= num; sdFileSector += num; sparseShouldVerify++; // Check for cancellation combo. if (btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) { strcpy(gui->txt_buf, "#FFDD00 Verification was cancelled!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); msleep(1000); free(clmt); f_close(&fp); f_close(&hashFp); return VERIF_STATUS_ABORT; } } free(clmt); f_close(&fp); f_close(&hashFp); lv_bar_set_value(gui->bar, pct); s_printf(gui->txt_buf, " "SYMBOL_DOT" %d%%", pct); lv_label_set_text(gui->label_pct, gui->txt_buf); manual_system_maintenance(true); return VERIF_STATUS_OK; } else { strcpy(gui->txt_buf, "\n#FFDD00 File not found or could not be loaded!#\n#FFDD00 Verification failed..#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return VERIF_STATUS_ERROR; } } bool partial_sd_full_unmount = false; static int _dump_emmc_part(emmc_tool_gui_t *gui, char *sd_path, int active_part, sdmmc_storage_t *storage, emmc_part_t *part) { static const u32 FAT32_FILESIZE_LIMIT = 0xFFFFFFFF; static const u32 SECTORS_TO_MIB_COEFF = 11; partial_sd_full_unmount = false; u32 verification = n_cfg.verification; u32 multipartSplitSize = (1u << 31); u32 lba_end = part->lba_end; u32 totalSectors = part->lba_end - part->lba_start + 1; u32 currPartIdx = 0; u32 numSplitParts = 0; u32 maxSplitParts = 0; bool isSmallSdCard = false; bool partialDumpInProgress = false; int res = 0; char *outFilename = sd_path; u32 sdPathLen = strlen(sd_path); u32 sector_start = 0, part_idx = 0; u32 sector_size = totalSectors; u32 sd_sector_off = 0; FIL partialIdxFp; char partialIdxFilename[12]; strcpy(partialIdxFilename, "partial.idx"); if (gui->raw_emummc) { _get_valid_partition(§or_start, §or_size, &part_idx, true); if (!part_idx || !sector_size) { strcpy(gui->txt_buf, "\n#FFDD00 Failed to find a partition...#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } sd_sector_off = sector_start + (0x2000 * active_part); if (active_part == 2) { // Set new total sectors and lba end sector for percentage calculations. totalSectors = sector_size; lba_end = sector_size + part->lba_start - 1; } } s_printf(gui->txt_buf, "#96FF00 SD Card free space:# %d MiB\n#96FF00 Total backup size:# %d MiB\n\n", (u32)(sd_fs.free_clst * sd_fs.csize >> SECTORS_TO_MIB_COEFF), totalSectors >> SECTORS_TO_MIB_COEFF); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); lv_bar_set_value(gui->bar, 0); lv_label_set_text(gui->label_pct, " "SYMBOL_DOT" 0%"); lv_bar_set_style(gui->bar, LV_BAR_STYLE_BG, gui->bar_white_bg); lv_bar_set_style(gui->bar, LV_BAR_STYLE_INDIC, gui->bar_white_ind); manual_system_maintenance(true); // 1GB parts for sd cards 8GB and less. if ((sd_storage.csd.capacity >> (20 - sd_storage.csd.read_blkbits)) <= 8192) multipartSplitSize = (1u << 30); // Maximum parts fitting the free space available. maxSplitParts = (sd_fs.free_clst * sd_fs.csize) / (multipartSplitSize / EMMC_BLOCKSIZE); // Check if the USER partition or the RAW eMMC fits the sd card free space. if (totalSectors > (sd_fs.free_clst * sd_fs.csize)) { isSmallSdCard = true; strcpy(gui->txt_buf, "\n#FFBA00 Free space is smaller than backup size.#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); if (!maxSplitParts) { strcpy(gui->txt_buf, "#FFDD00 Not enough free space for Partial Backup!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } } // Check if we are continuing a previous raw eMMC or USER partition backup in progress. if (f_open(&partialIdxFp, partialIdxFilename, FA_READ) == FR_OK && totalSectors > (FAT32_FILESIZE_LIMIT / EMMC_BLOCKSIZE)) { strcpy(gui->txt_buf, "\n#AEFD14 Partial Backup in progress. Continuing...#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); partialDumpInProgress = true; // Force partial dumping, even if the card is larger. isSmallSdCard = true; f_read(&partialIdxFp, &currPartIdx, 4, NULL); f_close(&partialIdxFp); if (!maxSplitParts) { strcpy(gui->txt_buf, "\n#FFDD00 Not enough free space for Partial Backup!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } // Increase maxSplitParts to accommodate previously backed up parts. maxSplitParts += currPartIdx; } else if (isSmallSdCard) { s_printf(gui->txt_buf, "\n#FFBA00 Partial Backup enabled (%d MiB parts)...#\n", multipartSplitSize >> 20); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); } // Check if filesystem is FAT32 or the free space is smaller and backup in parts. if (((sd_fs.fs_type != FS_EXFAT) && totalSectors > (FAT32_FILESIZE_LIMIT / EMMC_BLOCKSIZE)) || isSmallSdCard) { u32 multipartSplitSectors = multipartSplitSize / EMMC_BLOCKSIZE; numSplitParts = (totalSectors + multipartSplitSectors - 1) / multipartSplitSectors; outFilename[sdPathLen++] = '.'; // Continue from where we left, if Partial Backup in progress. _update_filename(outFilename, sdPathLen, partialDumpInProgress ? currPartIdx : 0); } FIL fp; if (!f_open(&fp, outFilename, FA_READ)) { f_close(&fp); lv_obj_t *warn_mbox_bg = create_mbox_text( "#FFDD00 An existing backup has been detected!#\n\n" "Press #FF8000 POWER# to Continue.\nPress #FF8000 VOL# to abort.", false); manual_system_maintenance(true); if (!(btn_wait() & BTN_POWER)) { lv_obj_del(warn_mbox_bg); return 1; } lv_obj_del(warn_mbox_bg); } s_printf(gui->txt_buf, "#96FF00 Filepath:#\n%s\n#96FF00 Filename:# #FF8000 %s#", gui->base_path, outFilename + strlen(gui->base_path)); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); res = f_open(&fp, outFilename, FA_CREATE_ALWAYS | FA_WRITE); if (res) { s_printf(gui->txt_buf, "\n#FF0000 Error (%d) while creating#\n#FFDD00 %s#\n", res, outFilename); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } u8 *buf = (u8 *)MIXD_BUF_ALIGNED; u32 lba_curr = part->lba_start; u32 lbaStartPart = part->lba_start; u32 bytesWritten = 0; u32 prevPct = 200; int retryCount = 0; DWORD *clmt = NULL; // Continue from where we left, if Partial Backup in progress. if (partialDumpInProgress) { lba_curr += currPartIdx * (multipartSplitSize / EMMC_BLOCKSIZE); totalSectors -= currPartIdx * (multipartSplitSize / EMMC_BLOCKSIZE); lbaStartPart = lba_curr; // Update the start LBA for verification. } u64 totalSize = (u64)((u64)totalSectors << 9); if (!isSmallSdCard && (sd_fs.fs_type == FS_EXFAT || totalSize <= FAT32_FILESIZE_LIMIT)) clmt = f_expand_cltbl(&fp, SZ_4M, totalSize); else clmt = f_expand_cltbl(&fp, SZ_4M, MIN(totalSize, multipartSplitSize)); u32 num = 0; u32 pct = 0; lv_obj_set_opa_scale(gui->bar, LV_OPA_COVER); lv_obj_set_opa_scale(gui->label_pct, LV_OPA_COVER); while (totalSectors > 0) { if (numSplitParts != 0 && bytesWritten >= multipartSplitSize) { f_close(&fp); free(clmt); memset(&fp, 0, sizeof(fp)); currPartIdx++; if (verification && !gui->raw_emummc) { // Verify part. res = _emmc_sd_copy_verify(gui, storage, lbaStartPart, outFilename, part); switch (res) { case VERIF_STATUS_OK: break; case VERIF_STATUS_ERROR: strcpy(gui->txt_buf, "\n#FFDD00 Please try again...#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; case VERIF_STATUS_ABORT: verification = 0; break; } lv_bar_set_style(gui->bar, LV_BAR_STYLE_BG, gui->bar_white_bg); lv_bar_set_style(gui->bar, LV_BAR_STYLE_INDIC, gui->bar_white_ind); } _update_filename(outFilename, sdPathLen, currPartIdx); // Always create partial.idx before next part, in case a fatal error occurs. if (isSmallSdCard) { // Create partial backup index file. if (f_open(&partialIdxFp, partialIdxFilename, FA_CREATE_ALWAYS | FA_WRITE) == FR_OK) { f_write(&partialIdxFp, &currPartIdx, 4, NULL); f_close(&partialIdxFp); } else { strcpy(gui->txt_buf, "\n#FF0000 Error creating partial.idx file!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } // More parts to backup that do not currently fit the sd card free space or fatal error. if (currPartIdx >= maxSplitParts) { create_mbox_text( "#96FF00 Partial Backup in progress!#\n\n" "#96FF00 1.# Press OK to unmount SD Card.\n" "#96FF00 2.# Remove SD Card and move files to free space.\n" "#FFDD00 Don\'t move the partial.idx file!#\n" "#96FF00 3.# Re-insert SD Card.\n" "#96FF00 4.# Select the SAME option again to continue.", true); partial_sd_full_unmount = true; return 0; } } // Create next part. s_printf(gui->txt_buf, "%s#", outFilename + strlen(gui->base_path)); lv_label_cut_text(gui->label_info, strlen(lv_label_get_text(gui->label_info)) - strlen(outFilename + strlen(gui->base_path)) - 1, strlen(outFilename + strlen(gui->base_path)) + 1); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); lbaStartPart = lba_curr; res = f_open(&fp, outFilename, FA_CREATE_ALWAYS | FA_WRITE); if (res) { s_printf(gui->txt_buf, "\n#FF0000 Error (%d) while creating#\n#FFDD00 %s#\n", res, outFilename); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } bytesWritten = 0; totalSize = (u64)((u64)totalSectors << 9); clmt = f_expand_cltbl(&fp, SZ_4M, MIN(totalSize, multipartSplitSize)); } retryCount = 0; num = MIN(totalSectors, NUM_SECTORS_PER_ITER); int res_read; if (!gui->raw_emummc) res_read = sdmmc_storage_read(storage, lba_curr, num, buf); else res_read = sdmmc_storage_read(&sd_storage, lba_curr + sd_sector_off, num, buf); while (res_read) { if (!gui->raw_emummc) { s_printf(gui->txt_buf, "\n#FFDD00 Error reading %d blocks @ LBA %08X,#\n" "#FFDD00 from eMMC (try %d). #", num, lba_curr, ++retryCount); } else { s_printf(gui->txt_buf, "\n#FFDD00 Error reading %d blocks @ LBA %08X,#\n" "#FFDD00 from emuMMC @ %08X (try %d). #", num, lba_curr + sd_sector_off, lba_curr, ++retryCount); } lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); msleep(150); if (retryCount >= 3) { strcpy(gui->txt_buf, "#FF0000 Aborting...#\nPlease try again...\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); f_close(&fp); free(clmt); f_unlink(outFilename); return 1; } else { strcpy(gui->txt_buf, "#FFDD00 Retrying...#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); } if (!gui->raw_emummc) res_read = sdmmc_storage_read(storage, lba_curr, num, buf); else res_read = sdmmc_storage_read(&sd_storage, lba_curr + sd_sector_off, num, buf); manual_system_maintenance(false); } res = f_write_fast(&fp, buf, EMMC_BLOCKSIZE * num); if (res) { s_printf(gui->txt_buf, "\n#FF0000 Fatal error (%d) when writing to SD Card#\nPlease try again...\n", res); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); f_close(&fp); free(clmt); f_unlink(outFilename); return 1; } manual_system_maintenance(false); pct = (u64)((u64)(lba_curr - part->lba_start) * 100u) / (u64)(lba_end - part->lba_start); if (pct != prevPct) { lv_bar_set_value(gui->bar, pct); s_printf(gui->txt_buf, " "SYMBOL_DOT" %d%%", pct); lv_label_set_text(gui->label_pct, gui->txt_buf); manual_system_maintenance(true); prevPct = pct; } lba_curr += num; totalSectors -= num; bytesWritten += num * EMMC_BLOCKSIZE; // Force a flush after a lot of data if not splitting. if (numSplitParts == 0 && bytesWritten >= multipartSplitSize) { f_sync(&fp); bytesWritten = 0; } // Check for cancellation combo. if (btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) { strcpy(gui->txt_buf, "\n#FFDD00 The backup was cancelled!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); msleep(1500); f_close(&fp); free(clmt); f_unlink(outFilename); return 1; } } lv_bar_set_value(gui->bar, 100); lv_label_set_text(gui->label_pct, " "SYMBOL_DOT" 100%"); manual_system_maintenance(true); // Backup operation ended successfully. f_close(&fp); free(clmt); if (verification && !gui->raw_emummc) { // Verify last part or single file backup. if (_emmc_sd_copy_verify(gui, storage, lbaStartPart, outFilename, part) == VERIF_STATUS_ERROR) { strcpy(gui->txt_buf, "\n#FFDD00 Please try again...#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } lv_bar_set_value(gui->bar, 100); lv_label_set_text(gui->label_pct, " "SYMBOL_DOT" 100%"); manual_system_maintenance(true); } // Remove partial backup index file if no fatal errors occurred. if (isSmallSdCard) { f_unlink(partialIdxFilename); create_mbox_text( "#96FF00 Partial Backup done!#\n\n" "You can now join the files if needed\nand get the complete eMMC RAW GPP backup.", true); partial_sd_full_unmount = true; } return 0; } void dump_emmc_selected(emmcPartType_t dumpType, emmc_tool_gui_t *gui) { int res = 1; u32 timer = 0; char *txt_buf = (char *)malloc(SZ_16K); gui->txt_buf = txt_buf; txt_buf[0] = 0; lv_label_set_text(gui->label_log, txt_buf); lv_label_set_text(gui->label_info, "Checking for available free space..."); manual_system_maintenance(true); if (sd_mount()) { lv_label_set_text(gui->label_info, "#FFDD00 Failed to init SD!#"); goto out; } // Get SD Card free space for Partial Backup. f_getfree("", &sd_fs.free_clst, NULL); if (emmc_initialize(false)) { lv_label_set_text(gui->label_info, "#FFDD00 Failed to init eMMC!#"); goto out; } int i = 0; char sdPath[OUT_FILENAME_SZ]; // Create Restore folders, if they do not exist. emmcsn_path_impl(sdPath, "/restore", "", &emmc_storage); emmcsn_path_impl(sdPath, "/restore/emummc", "", &emmc_storage); emmcsn_path_impl(sdPath, "/restore/partitions", "", &emmc_storage); // Set folder to backup/{emmc_sn}. emmcsn_path_impl(sdPath, "", "", &emmc_storage); gui->base_path = (char *)malloc(strlen(sdPath) + 1); strcpy(gui->base_path, sdPath); timer = get_tmr_s(); if (dumpType & PART_BOOT) { const u32 BOOT_PART_SIZE = emmc_storage.ext_csd.boot_mult << 17; const u32 BOOT_PART_SECTORS = 0x2000; // Force 4 MiB for emuMMC. emmc_part_t bootPart; memset(&bootPart, 0, sizeof(bootPart)); bootPart.lba_start = 0; if (!gui->raw_emummc) bootPart.lba_end = (BOOT_PART_SIZE / EMMC_BLOCKSIZE) - 1; else bootPart.lba_end = BOOT_PART_SECTORS - 1; for (i = 0; i < 2; i++) { strcpy(bootPart.name, "BOOT"); bootPart.name[4] = (u8)('0' + i); bootPart.name[5] = 0; s_printf(txt_buf, "#00DDFF %02d: %s#\n#00DDFF Range: 0x%08X - 0x%08X#\n\n", i, bootPart.name, bootPart.lba_start, bootPart.lba_end); lv_label_set_text(gui->label_info, txt_buf); s_printf(txt_buf, "%02d: %s... ", i, bootPart.name); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); emmc_set_partition(i + 1); // Set filename to backup/{emmc_sn}/BOOT0/1 or backup/{emmc_sn}/emummc/BOOT0/1. if (!gui->raw_emummc) emmcsn_path_impl(sdPath, "", bootPart.name, &emmc_storage); else emmcsn_path_impl(sdPath, "/emummc", bootPart.name, &emmc_storage); res = _dump_emmc_part(gui, sdPath, i, &emmc_storage, &bootPart); if (res) strcpy(txt_buf, "#FFDD00 Failed!#\n"); else strcpy(txt_buf, "Done!\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); } } if ((dumpType & PART_SYSTEM) || (dumpType & PART_USER) || (dumpType & PART_RAW)) { emmc_set_partition(EMMC_GPP); if ((dumpType & PART_SYSTEM) || (dumpType & PART_USER)) { emmcsn_path_impl(sdPath, "/partitions", "", &emmc_storage); gui->base_path = (char *)malloc(strlen(sdPath) + 1); strcpy(gui->base_path, sdPath); LIST_INIT(gpt); emmc_gpt_parse(&gpt); LIST_FOREACH_ENTRY(emmc_part_t, part, &gpt, link) { if ((dumpType & PART_USER) == 0 && !strcmp(part->name, "USER")) continue; if ((dumpType & PART_SYSTEM) == 0 && strcmp(part->name, "USER")) continue; s_printf(txt_buf, "#00DDFF %02d: %s#\n#00DDFF Range: 0x%08X - 0x%08X#\n\n", i, part->name, part->lba_start, part->lba_end); lv_label_set_text(gui->label_info, txt_buf); s_printf(txt_buf, "%02d: %s... ", i, part->name); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); i++; emmcsn_path_impl(sdPath, "/partitions", part->name, &emmc_storage); res = _dump_emmc_part(gui, sdPath, 0, &emmc_storage, part); // If a part failed, don't continue. if (res) { strcpy(txt_buf, "#FFDD00 Failed!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); break; } else strcpy(txt_buf, "Done!\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); } emmc_gpt_free(&gpt); } if (dumpType & PART_RAW) { // Get GP partition size dynamically. const u32 RAW_AREA_NUM_SECTORS = emmc_storage.sec_cnt; emmc_part_t rawPart; memset(&rawPart, 0, sizeof(rawPart)); rawPart.lba_start = 0; rawPart.lba_end = RAW_AREA_NUM_SECTORS - 1; strcpy(rawPart.name, "rawnand.bin"); { s_printf(txt_buf, "#00DDFF %02d: %s#\n#00DDFF Range: 0x%08X - 0x%08X#\n\n", i, rawPart.name, rawPart.lba_start, rawPart.lba_end); lv_label_set_text(gui->label_info, txt_buf); s_printf(txt_buf, "%02d: %s... ", i, rawPart.name); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); i++; // Set filename to backup/{emmc_sn}/rawnand.bin or backup/{emmc_sn}/emummc/rawnand.bin. if (!gui->raw_emummc) emmcsn_path_impl(sdPath, "", rawPart.name, &emmc_storage); else emmcsn_path_impl(sdPath, "/emummc", rawPart.name, &emmc_storage); res = _dump_emmc_part(gui, sdPath, 2, &emmc_storage, &rawPart); if (res) strcpy(txt_buf, "#FFDD00 Failed!#\n"); else strcpy(txt_buf, "Done!\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); } } } timer = get_tmr_s() - timer; emmc_end(); if (!res && n_cfg.verification && !gui->raw_emummc) s_printf(txt_buf, "Time taken: %dm %ds.\n#96FF00 Finished and verified!#", timer / 60, timer % 60); else if (!res) s_printf(txt_buf, "Time taken: %dm %ds.\nFinished!", timer / 60, timer % 60); else s_printf(txt_buf, "Time taken: %dm %ds.", timer / 60, timer % 60); lv_label_set_text(gui->label_finish, txt_buf); out: free(txt_buf); free(gui->base_path); if (!partial_sd_full_unmount) sd_unmount(); else { partial_sd_full_unmount = false; sd_end(); } } static int _restore_emmc_part(emmc_tool_gui_t *gui, char *sd_path, int active_part, sdmmc_storage_t *storage, emmc_part_t *part, bool allow_multi_part) { static const u32 SECTORS_TO_MIB_COEFF = 11; u32 verification = n_cfg.verification; u32 lba_end = part->lba_end; u32 totalSectors = part->lba_end - part->lba_start + 1; u32 currPartIdx = 0; u32 numSplitParts = 0; u32 lbaStartPart = part->lba_start; int res = 0; char *outFilename = sd_path; u32 sdPathLen = strlen(sd_path); u64 fileSize = 0; u64 totalCheckFileSize = 0; FIL fp; FILINFO fno; lv_bar_set_value(gui->bar, 0); lv_label_set_text(gui->label_pct, " "SYMBOL_DOT" 0%"); lv_bar_set_style(gui->bar, LV_BAR_STYLE_BG, gui->bar_orange_bg); lv_bar_set_style(gui->bar, LV_BAR_STYLE_INDIC, gui->bar_orange_ind); manual_system_maintenance(true); bool use_multipart = false; bool check_4MB_aligned = true; if (!allow_multi_part) goto multipart_not_allowed; // Check to see if there is a combined file and if so then use that. if (f_stat(outFilename, &fno)) { // If not, check if there are partial files and the total size matches. strcpy(gui->txt_buf, "\nNo single file, checking for part files...\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); outFilename[sdPathLen++] = '.'; _update_filename(outFilename, sdPathLen, numSplitParts); s_printf(gui->txt_buf, "#96FF00 Filepath:#\n%s\n#96FF00 Filename:# #FF8000 %s#", gui->base_path, outFilename + strlen(gui->base_path)); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); // Stat total size of the part files. while ((u32)((u64)totalCheckFileSize >> (u64)9) != totalSectors) { _update_filename(outFilename, sdPathLen, numSplitParts); s_printf(gui->txt_buf, "%s#", outFilename + strlen(gui->base_path)); lv_label_cut_text(gui->label_info, strlen(lv_label_get_text(gui->label_info)) - strlen(outFilename + strlen(gui->base_path)) - 1, strlen(outFilename + strlen(gui->base_path)) + 1); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); if ((u32)((u64)totalCheckFileSize >> (u64)9) > totalSectors) { strcpy(gui->txt_buf, "\n#FF8000 Size of SD Card split backup exceeds#\n#FF8000 eMMC's selected part size!#\n#FFDD00 Aborting...#"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } else if (f_stat(outFilename, &fno)) { if (!gui->raw_emummc) { s_printf(gui->txt_buf, "\n#FFDD00 Error file not found#\n#FFDD00 %s.#\n\n", outFilename); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); // Attempt a smaller restore. if (numSplitParts) break; } else { // Set new total sectors and lba end sector for percentage calculations. totalSectors = (u32)((u64)totalCheckFileSize >> (u64)9); part->lba_end = totalSectors + part->lba_start - 1; lba_end = part->lba_end; } // Restore folder is empty. if (!numSplitParts) { strcpy(gui->txt_buf, "\n#FFDD00 Restore folder is empty.#\n\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } } else { totalCheckFileSize += (u64)fno.fsize; if (check_4MB_aligned && (((u64)fno.fsize) % SZ_4M)) { strcpy(gui->txt_buf, "\n#FFDD00 The split file must be a#\n#FFDD00 multiple of 4 MiB.#\n#FFDD00 Aborting...#"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } check_4MB_aligned = false; } numSplitParts++; } s_printf(gui->txt_buf, "%X sectors total.\n", (u32)((u64)totalCheckFileSize >> (u64)9)); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); if ((u32)((u64)totalCheckFileSize >> (u64)9) != totalSectors) { lv_obj_t *warn_mbox_bg = create_mbox_text( "#FF8000 Size of SD Card split backup does not match#\n#FF8000 eMMC's selected part size!#\n\n" "#FFDD00 The backup might be corrupted,#\n#FFDD00 or missing files!#\n#FFDD00 Aborting is suggested!#\n\n" "Press #FF8000 POWER# to Continue.\nPress #FF8000 VOL# to abort.", false); manual_system_maintenance(true); if (!(btn_wait() & BTN_POWER)) { lv_obj_del(warn_mbox_bg); strcpy(gui->txt_buf, "\n#FF0000 Size of SD Card split backup does not match#\n#FF0000 eMMC's selected part size!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } lv_obj_del(warn_mbox_bg); // Set new total sectors and lba end sector for percentage calculations. totalSectors = (u32)((u64)totalCheckFileSize >> (u64)9); part->lba_end = totalSectors + part->lba_start - 1; lba_end = part->lba_end; } use_multipart = true; _update_filename(outFilename, sdPathLen, 0); } multipart_not_allowed: res = f_open(&fp, outFilename, FA_READ); if (use_multipart) { s_printf(gui->txt_buf, "%s#", outFilename + strlen(gui->base_path)); lv_label_cut_text(gui->label_info, strlen(lv_label_get_text(gui->label_info)) - strlen(outFilename + strlen(gui->base_path)) - 1, strlen(outFilename + strlen(gui->base_path)) + 1); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); } else { s_printf(gui->txt_buf, "#96FF00 Filepath:#\n%s\n#96FF00 Filename:# #FF8000 %s#", gui->base_path, outFilename + strlen(gui->base_path)); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); } manual_system_maintenance(true); if (res) { if (res != FR_NO_FILE) { s_printf(gui->txt_buf, "\n#FF0000 Error (%d) while opening file. Continuing...#\n", res); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); } else { s_printf(gui->txt_buf, "\n#FFDD00 Error (%d) file not found. Continuing...#\n", res); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); } return 2; } else if (!use_multipart && (((u32)((u64)f_size(&fp) >> (u64)9)) != totalSectors)) // Check total restore size vs emmc size. { if (((u32)((u64)f_size(&fp) >> (u64)9)) > totalSectors) { strcpy(gui->txt_buf, "\n#FF8000 Size of SD Card backup exceeds#\n#FF8000 eMMC's selected part size!#\n#FFDD00 Aborting...#"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); f_close(&fp); return 1; } else if (!gui->raw_emummc) { lv_obj_t *warn_mbox_bg = create_mbox_text( "#FF8000 Size of the SD Card backup does not match#\n#FF8000 eMMC's selected part size!#\n\n" "#FFDD00 The backup might be corrupted!#\n#FFDD00 Aborting is suggested!#\n\n" "Press #FF8000 POWER# to Continue.\nPress #FF8000 VOL# to abort.", false); manual_system_maintenance(true); if (!(btn_wait() & BTN_POWER)) { lv_obj_del(warn_mbox_bg); strcpy(gui->txt_buf, "\n#FF0000 Size of the SD Card backup does not match#\n#FF0000 eMMC's selected part size.#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); f_close(&fp); return 1; } lv_obj_del(warn_mbox_bg); } // Set new total sectors and lba end sector for percentage calculations. totalSectors = (u32)((u64)f_size(&fp) >> (u64)9); lba_end = totalSectors + part->lba_start - 1; } else { fileSize = (u64)f_size(&fp); s_printf(gui->txt_buf, "\nTotal restore size: %d MiB.\n", (u32)((use_multipart ? (u64)totalCheckFileSize : fileSize) >> (u64)9) >> SECTORS_TO_MIB_COEFF); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); } u8 *buf = (u8 *)MIXD_BUF_ALIGNED; u32 lba_curr = part->lba_start; u32 bytesWritten = 0; u32 prevPct = 200; int retryCount = 0; u32 num = 0; u32 pct = 0; DWORD *clmt = f_expand_cltbl(&fp, SZ_4M, 0); u32 sector_start = 0, part_idx = 0; u32 sector_size = totalSectors; u32 sd_sector_off = 0; if (gui->raw_emummc) { _get_valid_partition(§or_start, §or_size, &part_idx, false); if (!part_idx || !sector_size) { strcpy(gui->txt_buf, "\n#FFDD00 Failed to find a partition...#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } sd_sector_off = sector_start + (0x2000 * active_part); } lv_obj_set_opa_scale(gui->bar, LV_OPA_COVER); lv_obj_set_opa_scale(gui->label_pct, LV_OPA_COVER); while (totalSectors > 0) { // If we have more than one part, check the size for the split parts and make sure that the bytes written is not more than that. if (numSplitParts != 0 && bytesWritten >= fileSize) { // If we have more bytes written then close the file pointer and increase the part index we are using f_close(&fp); free(clmt); memset(&fp, 0, sizeof(fp)); currPartIdx++; if (verification && !gui->raw_emummc) { // Verify part. res = _emmc_sd_copy_verify(gui, storage, lbaStartPart, outFilename, part); switch (res) { case VERIF_STATUS_OK: break; case VERIF_STATUS_ERROR: strcpy(gui->txt_buf, "\n#FFDD00 Please try again...#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; case VERIF_STATUS_ABORT: verification = 0; break; } lv_bar_set_style(gui->bar, LV_BAR_STYLE_BG, gui->bar_orange_bg); lv_bar_set_style(gui->bar, LV_BAR_STYLE_INDIC, gui->bar_orange_ind); } _update_filename(outFilename, sdPathLen, currPartIdx); // Read from next part. s_printf(gui->txt_buf, "%s#", outFilename + strlen(gui->base_path)); lv_label_cut_text(gui->label_info, strlen(lv_label_get_text(gui->label_info)) - strlen(outFilename + strlen(gui->base_path)) - 1, strlen(outFilename + strlen(gui->base_path)) + 1); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); lbaStartPart = lba_curr; // Try to open the next file part res = f_open(&fp, outFilename, FA_READ); if (res) { s_printf(gui->txt_buf, "\n#FF0000 Error (%d) while opening file#\n#FFDD00 %s!#\n", res, outFilename); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } fileSize = (u64)f_size(&fp); bytesWritten = 0; clmt = f_expand_cltbl(&fp, SZ_4M, 0); } retryCount = 0; num = MIN(totalSectors, NUM_SECTORS_PER_ITER); res = f_read_fast(&fp, buf, num << 9); manual_system_maintenance(false); if (res) { s_printf(gui->txt_buf, "\n#FF0000 Fatal error (%d) when reading from SD!#\n" "#FF0000 This device may be in an inoperative state!#\n" "#FFDD00 Please try again now!#\n", res); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); f_close(&fp); free(clmt); return 1; } if (!gui->raw_emummc) res = sdmmc_storage_write(storage, lba_curr, num, buf); else res = sdmmc_storage_write(&sd_storage, lba_curr + sd_sector_off, num, buf); manual_system_maintenance(false); while (res) { s_printf(gui->txt_buf, "\n#FFDD00 Error writing %d blocks @ LBA %08X,#\n" "#FFDD00 from eMMC (try %d). #", num, lba_curr, ++retryCount); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); msleep(150); if (retryCount >= 3) { strcpy(gui->txt_buf, "#FF0000 Aborting...#\n" "#FF0000 This device may be in an inoperative state!#\n" "#FFDD00 Please try again now!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); f_close(&fp); free(clmt); return 1; } else { strcpy(gui->txt_buf, "#FFDD00 Retrying...#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); } if (!gui->raw_emummc) res = sdmmc_storage_write(storage, lba_curr, num, buf); else res = sdmmc_storage_write(&sd_storage, lba_curr + sd_sector_off, num, buf); manual_system_maintenance(false); } pct = (u64)((u64)(lba_curr - part->lba_start) * 100u) / (u64)(lba_end - part->lba_start); if (pct != prevPct) { lv_bar_set_value(gui->bar, pct); s_printf(gui->txt_buf, " "SYMBOL_DOT" %d%%", pct); lv_label_set_text(gui->label_pct, gui->txt_buf); manual_system_maintenance(true); prevPct = pct; } lba_curr += num; totalSectors -= num; bytesWritten += num * EMMC_BLOCKSIZE; } lv_bar_set_value(gui->bar, 100); lv_label_set_text(gui->label_pct, " "SYMBOL_DOT" 100%"); manual_system_maintenance(true); // Restore operation ended successfully. f_close(&fp); free(clmt); if (verification && !gui->raw_emummc) { // Verify restored data. if (_emmc_sd_copy_verify(gui, storage, lbaStartPart, outFilename, part) == VERIF_STATUS_ERROR) { strcpy(gui->txt_buf, "\n#FFDD00 Please try again...#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } lv_bar_set_value(gui->bar, 100); lv_label_set_text(gui->label_pct, " "SYMBOL_DOT" 100%"); manual_system_maintenance(true); } if (gui->raw_emummc) { char sdPath[OUT_FILENAME_SZ]; // Create Restore folders, if they do not exist. f_mkdir("emuMMC"); s_printf(sdPath, "emuMMC/RAW%d", part_idx); f_mkdir(sdPath); strcat(sdPath, "/raw_based"); FIL fp_raw; f_open(&fp_raw, sdPath, FA_CREATE_ALWAYS | FA_WRITE); f_write(&fp_raw, §or_start, 4, NULL); f_close(&fp_raw); s_printf(sdPath, "emuMMC/RAW%d", part_idx); save_emummc_cfg(part_idx, sector_start, sdPath); } return 0; } void restore_emmc_selected(emmcPartType_t restoreType, emmc_tool_gui_t *gui) { int res = 0; u32 timer = 0; char *txt_buf = (char *)malloc(SZ_16K); gui->txt_buf = txt_buf; txt_buf[0] = 0; lv_label_set_text(gui->label_log, txt_buf); manual_system_maintenance(true); if (!gui->raw_emummc) strcpy(txt_buf, "#FFDD00 This may render the device inoperative!#"); else strcpy(txt_buf, "#FFDD00 This may render the emuMMC inoperative!#"); strcat(txt_buf, "\n\n#FFDD00 Are you really sure?#"); if (gui->raw_emummc) strcat(txt_buf, "\n\nOnly the 1st emuMMC found can be restored!"); if ((restoreType & PART_BOOT) || (restoreType & PART_GP_ALL)) { strcat(txt_buf, "\n\nThe mode you selected will only restore\nthe partitions that it can find.\n" "If it is not found, it will be skipped\nand continue with the next."); } u32 orig_msg_len = strlen(txt_buf); lv_obj_t *warn_mbox_bg = create_mbox_text(txt_buf, false); lv_obj_t *warn_mbox = lv_obj_get_child(warn_mbox_bg, NULL); u8 failsafe_wait = 6; while (failsafe_wait > 0) { s_printf(txt_buf + orig_msg_len, "\n\n#888888 Wait... (%ds)#", failsafe_wait); lv_mbox_set_text(warn_mbox, txt_buf); msleep(1000); manual_system_maintenance(true); failsafe_wait--; } s_printf(txt_buf + orig_msg_len, "\n\nPress #FF8000 POWER# to Continue.\nPress #FF8000 VOL# to abort."); lv_mbox_set_text(warn_mbox, txt_buf); manual_system_maintenance(true); if (!(btn_wait() & BTN_POWER)) { lv_label_set_text(gui->label_info, "#FFDD00 Restore operation was aborted!#"); lv_obj_del(warn_mbox_bg); goto out; } lv_obj_del(warn_mbox_bg); manual_system_maintenance(true); if (sd_mount()) { lv_label_set_text(gui->label_info, "#FFDD00 Failed to init SD!#"); goto out; } if (emmc_initialize(false)) { lv_label_set_text(gui->label_info, "#FFDD00 Failed to init eMMC!#"); goto out; } int i = 0; char sdPath[OUT_FILENAME_SZ]; if (!gui->raw_emummc) emmcsn_path_impl(sdPath, "/restore", "", &emmc_storage); else emmcsn_path_impl(sdPath, "/restore/emummc", "", &emmc_storage); gui->base_path = (char *)malloc(strlen(sdPath) + 1); strcpy(gui->base_path, sdPath); timer = get_tmr_s(); if (restoreType & PART_BOOT) { const u32 BOOT_PART_SIZE = emmc_storage.ext_csd.boot_mult << 17; const u32 BOOT_PART_SECTORS = 0x2000; // Force 4 MiB for emuMMC. emmc_part_t bootPart; memset(&bootPart, 0, sizeof(bootPart)); bootPart.lba_start = 0; if (!gui->raw_emummc) bootPart.lba_end = (BOOT_PART_SIZE / EMMC_BLOCKSIZE) - 1; else bootPart.lba_end = BOOT_PART_SECTORS - 1; for (i = 0; i < 2; i++) { strcpy(bootPart.name, "BOOT"); bootPart.name[4] = (u8)('0' + i); bootPart.name[5] = 0; s_printf(txt_buf, "#00DDFF %02d: %s#\n#00DDFF Range: 0x%08X - 0x%08X#\n\n\n\n\n", i, bootPart.name, bootPart.lba_start, bootPart.lba_end); lv_label_set_text(gui->label_info, txt_buf); s_printf(txt_buf, "%02d: %s... ", i, bootPart.name); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); emmc_set_partition(i + 1); if (!gui->raw_emummc) emmcsn_path_impl(sdPath, "/restore", bootPart.name, &emmc_storage); else emmcsn_path_impl(sdPath, "/restore/emummc", bootPart.name, &emmc_storage); res = _restore_emmc_part(gui, sdPath, i, &emmc_storage, &bootPart, false); if (res == 1) strcpy(txt_buf, "#FFDD00 Failed!#\n"); else if (!res) strcpy(txt_buf, "Done!\n"); if (res <= 1) lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); } } if (restoreType & PART_GP_ALL) { emmcsn_path_impl(sdPath, "/restore/partitions", "", &emmc_storage); gui->base_path = (char *)malloc(strlen(sdPath) + 1); strcpy(gui->base_path, sdPath); emmc_set_partition(EMMC_GPP); LIST_INIT(gpt); emmc_gpt_parse(&gpt); LIST_FOREACH_ENTRY(emmc_part_t, part, &gpt, link) { s_printf(txt_buf, "#00DDFF %02d: %s#\n#00DDFF Range: 0x%08X - 0x%08X#\n\n\n\n\n", i, part->name, part->lba_start, part->lba_end); lv_label_set_text(gui->label_info, txt_buf); s_printf(txt_buf, "%02d: %s... ", i, part->name); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); i++; emmcsn_path_impl(sdPath, "/restore/partitions", part->name, &emmc_storage); res = _restore_emmc_part(gui, sdPath, 0, &emmc_storage, part, false); if (res == 1) strcpy(txt_buf, "#FFDD00 Failed!#\n"); else if (!res) strcpy(txt_buf, "Done!\n"); if (res <= 1) lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); } emmc_gpt_free(&gpt); } if (restoreType & PART_RAW) { // Get GP partition size dynamically. const u32 RAW_AREA_NUM_SECTORS = emmc_storage.sec_cnt; emmc_part_t rawPart; memset(&rawPart, 0, sizeof(rawPart)); rawPart.lba_start = 0; rawPart.lba_end = RAW_AREA_NUM_SECTORS - 1; strcpy(rawPart.name, "rawnand.bin"); { s_printf(txt_buf, "#00DDFF %02d: %s#\n#00DDFF Range: 0x%08X - 0x%08X#\n\n\n\n\n", i, rawPart.name, rawPart.lba_start, rawPart.lba_end); lv_label_set_text(gui->label_info, txt_buf); s_printf(txt_buf, "%02d: %s... ", i, rawPart.name); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); i++; if (!gui->raw_emummc) emmcsn_path_impl(sdPath, "/restore", rawPart.name, &emmc_storage); else emmcsn_path_impl(sdPath, "/restore/emummc", rawPart.name, &emmc_storage); res = _restore_emmc_part(gui, sdPath, 2, &emmc_storage, &rawPart, true); if (res == 1) strcpy(txt_buf, "#FFDD00 Failed!#\n"); else if (!res) strcpy(txt_buf, "Done!\n"); if (res <= 1) lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); } } timer = get_tmr_s() - timer; emmc_end(); if (!res && n_cfg.verification && !gui->raw_emummc) s_printf(txt_buf, "Time taken: %dm %ds.\n#96FF00 Finished and verified!#", timer / 60, timer % 60); else if (!res) s_printf(txt_buf, "Time taken: %dm %ds.\nFinished!", timer / 60, timer % 60); else s_printf(txt_buf, "Time taken: %dm %ds.", timer / 60, timer % 60); lv_label_set_text(gui->label_finish, txt_buf); out: free(txt_buf); free(gui->base_path); sd_unmount(); } ================================================ FILE: nyx/nyx_gui/frontend/fe_emmc_tools.h ================================================ /* * Copyright (c) 2018 Rajko Stojadinovic * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _FE_EMMC_TOOLS_H_ #define _FE_EMMC_TOOLS_H_ #include "gui.h" typedef enum { PART_BOOT = BIT(0), PART_SYSTEM = BIT(1), PART_USER = BIT(2), PART_RAW = BIT(3), PART_GP_ALL = BIT(7) } emmcPartType_t; void dump_emmc_selected(emmcPartType_t dumpType, emmc_tool_gui_t *gui); void restore_emmc_selected(emmcPartType_t restoreType, emmc_tool_gui_t *gui); #endif ================================================ FILE: nyx/nyx_gui/frontend/fe_emummc_tools.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 Rajko Stojadinovic * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ //! fix the dram stuff and the pop ups #include #include #include #include "gui.h" #include "fe_emummc_tools.h" #include "../config.h" #include "../hos/hos.h" #include #include #define OUT_FILENAME_SZ 128 #define NUM_SECTORS_PER_ITER 8192 // 4MB Cache. void load_emummc_cfg(emummc_cfg_t *emu_info) { memset(emu_info, 0, sizeof(emummc_cfg_t)); // Parse emuMMC configuration. LIST_INIT(ini_sections); if (ini_parse(&ini_sections, "emuMMC/emummc.ini", false)) return; LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_sections, link) { if (!strcmp(ini_sec->name, "emummc")) { LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { if (!strcmp("enabled", kv->key)) emu_info->enabled = atoi(kv->val); else if (!strcmp("sector", kv->key)) emu_info->sector = strtol(kv->val, NULL, 16); else if (!strcmp("id", kv->key)) emu_info->id = strtol(kv->val, NULL, 16); else if (!strcmp("path", kv->key)) { emu_info->path = (char *)malloc(strlen(kv->val) + 1); strcpy(emu_info->path, kv->val); } else if (!strcmp("nintendo_path", kv->key)) { emu_info->nintendo_path = (char *)malloc(strlen(kv->val) + 1); strcpy(emu_info->nintendo_path, kv->val); } } break; } } ini_free(&ini_sections); } void save_emummc_cfg(u32 part_idx, u32 sector_start, const char *path) { sd_mount(); char lbuf[16]; FIL fp; if (f_open(&fp, "emuMMC/emummc.ini", FA_WRITE | FA_CREATE_ALWAYS) != FR_OK) return; // Add config entry. f_puts("[emummc]\nenabled=", &fp); if (part_idx && sector_start) { itoa(part_idx, lbuf, 10); f_puts(lbuf, &fp); } else if (path) f_puts("1", &fp); else f_puts("0", &fp); if (!sector_start) f_puts("\nsector=0x0", &fp); else { f_puts("\nsector=0x", &fp); itoa(sector_start, lbuf, 16); f_puts(lbuf, &fp); } if (path) { f_puts("\npath=", &fp); f_puts(path, &fp); } // Get ID from path. u32 id_from_path = 0; if (path && strlen(path) >= 4) memcpy(&id_from_path, path + strlen(path) - 4, 4); f_puts("\nid=0x", &fp); itoa(id_from_path, lbuf, 16); f_puts(lbuf, &fp); f_puts("\nnintendo_path=", &fp); if (path) { f_puts(path, &fp); f_puts("/Nintendo\n", &fp); } else f_puts("\n", &fp); f_close(&fp); } void update_emummc_base_folder(char *outFilename, u32 sdPathLen, u32 currPartIdx) { if (currPartIdx < 10) { outFilename[sdPathLen] = '0'; itoa(currPartIdx, &outFilename[sdPathLen + 1], 10); } else itoa(currPartIdx, &outFilename[sdPathLen], 10); } static int _dump_emummc_file_part(emmc_tool_gui_t *gui, char *sd_path, sdmmc_storage_t *storage, const emmc_part_t *part) { static const u32 FAT32_FILESIZE_LIMIT = 0xFFFFFFFF; static const u32 SECTORS_TO_MIB_COEFF = 11; u32 multipartSplitSize = 0xFE000000; u32 totalSectors = part->lba_end - part->lba_start + 1; u32 currPartIdx = 0; u32 numSplitParts = 0; int res = 0; char *outFilename = sd_path; u32 sdPathLen = strlen(sd_path); s_printf(gui->txt_buf, "#96FF00 SD Card free space:# %d MiB\n#96FF00 Total size:# %d MiB\n\n", (u32)(sd_fs.free_clst * sd_fs.csize >> SECTORS_TO_MIB_COEFF), totalSectors >> SECTORS_TO_MIB_COEFF); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); lv_bar_set_value(gui->bar, 0); lv_label_set_text(gui->label_pct, " "SYMBOL_DOT" 0%"); manual_system_maintenance(true); // Check if the USER partition or the RAW eMMC fits the sd card free space. if (totalSectors > (sd_fs.free_clst * sd_fs.csize)) { s_printf(gui->txt_buf, "\n#FFDD00 Not enough free space for file based emuMMC!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } // Check if filesystem is FAT32 or the free space is smaller and dump in parts. if (totalSectors > (FAT32_FILESIZE_LIMIT / EMMC_BLOCKSIZE)) { u32 multipartSplitSectors = multipartSplitSize / EMMC_BLOCKSIZE; numSplitParts = (totalSectors + multipartSplitSectors - 1) / multipartSplitSectors; // Get first part filename. update_emummc_base_folder(outFilename, sdPathLen, 0); } FIL fp; s_printf(gui->txt_buf, "#96FF00 Filepath:#\n%s\n#96FF00 Filename:# #FF8000 %s#", gui->base_path, outFilename + strlen(gui->base_path)); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); res = f_open(&fp, outFilename, FA_CREATE_ALWAYS | FA_WRITE); if (res) { s_printf(gui->txt_buf, "\n#FF0000 Error (%d) while creating#\n#FFDD00 %s#\n", res, outFilename); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } u8 *buf = (u8 *)MIXD_BUF_ALIGNED; u32 lba_curr = part->lba_start; u32 bytesWritten = 0; u32 prevPct = 200; int retryCount = 0; DWORD *clmt = NULL; u64 totalSize = (u64)((u64)totalSectors << 9); if (totalSize <= FAT32_FILESIZE_LIMIT) clmt = f_expand_cltbl(&fp, SZ_4M, totalSize); else clmt = f_expand_cltbl(&fp, SZ_4M, MIN(totalSize, multipartSplitSize)); u32 num = 0; u32 pct = 0; lv_obj_set_opa_scale(gui->bar, LV_OPA_COVER); lv_obj_set_opa_scale(gui->label_pct, LV_OPA_COVER); while (totalSectors > 0) { if (numSplitParts != 0 && bytesWritten >= multipartSplitSize) { f_close(&fp); free(clmt); memset(&fp, 0, sizeof(fp)); currPartIdx++; update_emummc_base_folder(outFilename, sdPathLen, currPartIdx); // Create next part. s_printf(gui->txt_buf, "%s#", outFilename + strlen(gui->base_path)); lv_label_cut_text(gui->label_info, strlen(lv_label_get_text(gui->label_info)) - 3, 3); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); res = f_open(&fp, outFilename, FA_CREATE_ALWAYS | FA_WRITE); if (res) { s_printf(gui->txt_buf, "\n#FF0000 Error (%d) while creating#\n#FFDD00 %s#\n", res, outFilename); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } bytesWritten = 0; totalSize = (u64)((u64)totalSectors << 9); clmt = f_expand_cltbl(&fp, SZ_4M, MIN(totalSize, multipartSplitSize)); } // Check for cancellation combo. if (btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) { s_printf(gui->txt_buf, "\n#FFDD00 The emuMMC was cancelled!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); f_close(&fp); free(clmt); f_unlink(outFilename); msleep(1000); return 1; } retryCount = 0; num = MIN(totalSectors, NUM_SECTORS_PER_ITER); while (sdmmc_storage_read(storage, lba_curr, num, buf)) { s_printf(gui->txt_buf, "\n#FFDD00 Error reading %d blocks @ LBA %08X,#\n" "#FFDD00 from eMMC (try %d). #", num, lba_curr, ++retryCount); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); msleep(150); if (retryCount >= 3) { s_printf(gui->txt_buf, "#FF0000 Aborting...#\nPlease try again...\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); f_close(&fp); free(clmt); f_unlink(outFilename); return 1; } else { s_printf(gui->txt_buf, "#FFDD00 Retrying...#"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); } } manual_system_maintenance(false); res = f_write_fast(&fp, buf, EMMC_BLOCKSIZE * num); manual_system_maintenance(false); if (res) { s_printf(gui->txt_buf, "\n#FF0000 Fatal error (%d) when writing to SD Card#\nPlease try again...\n", res); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); f_close(&fp); free(clmt); f_unlink(outFilename); return 1; } pct = (u64)((u64)(lba_curr - part->lba_start) * 100u) / (u64)(part->lba_end - part->lba_start); if (pct != prevPct) { lv_bar_set_value(gui->bar, pct); s_printf(gui->txt_buf, " "SYMBOL_DOT" %d%%", pct); lv_label_set_text(gui->label_pct, gui->txt_buf); manual_system_maintenance(true); prevPct = pct; } lba_curr += num; totalSectors -= num; bytesWritten += num * EMMC_BLOCKSIZE; // Force a flush after a lot of data if not splitting. if (numSplitParts == 0 && bytesWritten >= multipartSplitSize) { f_sync(&fp); bytesWritten = 0; } manual_system_maintenance(false); } lv_bar_set_value(gui->bar, 100); lv_label_set_text(gui->label_pct, " "SYMBOL_DOT" 100%"); manual_system_maintenance(true); // Operation ended successfully. f_close(&fp); free(clmt); return 0; } void dump_emummc_file(emmc_tool_gui_t *gui) { int res = 1; int base_len = 0; u32 timer = 0; char *txt_buf = (char *)malloc(SZ_16K); gui->base_path = (char *)malloc(OUT_FILENAME_SZ); gui->txt_buf = txt_buf; txt_buf[0] = 0; lv_label_set_text(gui->label_log, txt_buf); manual_system_maintenance(true); if (sd_mount()) { lv_label_set_text(gui->label_info, "#FFDD00 Failed to init SD!#"); goto out; } lv_label_set_text(gui->label_info, "Checking for available free space..."); manual_system_maintenance(true); // Get SD Card free space for file based emuMMC. f_getfree("", &sd_fs.free_clst, NULL); if (emmc_initialize(false)) { lv_label_set_text(gui->label_info, "#FFDD00 Failed to init eMMC!#"); goto out; } int i = 0; char sdPath[OUT_FILENAME_SZ]; // Create Restore folders, if they do not exist. f_mkdir("emuMMC"); strcpy(sdPath, "emuMMC/SD"); base_len = strlen(sdPath); for (int j = 0; j < 100; j++) { update_emummc_base_folder(sdPath, base_len, j); if (f_stat(sdPath, NULL) == FR_NO_FILE) break; } f_mkdir(sdPath); strcat(sdPath, "/eMMC"); f_mkdir(sdPath); strcat(sdPath, "/"); strcpy(gui->base_path, sdPath); timer = get_tmr_s(); const u32 BOOT_PART_SECTORS = 0x2000; // Force 4 MiB. emmc_part_t bootPart; memset(&bootPart, 0, sizeof(bootPart)); bootPart.lba_start = 0; bootPart.lba_end = BOOT_PART_SECTORS - 1; for (i = 0; i < 2; i++) { strcpy(bootPart.name, "BOOT"); bootPart.name[4] = (u8)('0' + i); bootPart.name[5] = 0; s_printf(txt_buf, "#00DDFF %02d: %s#\n#00DDFF Range: 0x%08X - 0x%08X#\n\n", i, bootPart.name, bootPart.lba_start, bootPart.lba_end); lv_label_set_text(gui->label_info, txt_buf); s_printf(txt_buf, "%02d: %s... ", i, bootPart.name); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); emmc_set_partition(i + 1); strcat(sdPath, bootPart.name); res = _dump_emummc_file_part(gui, sdPath, &emmc_storage, &bootPart); if (res) { s_printf(txt_buf, "#FFDD00 Failed!#\n"); goto out_failed; } else s_printf(txt_buf, "Done!\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); strcpy(sdPath, gui->base_path); } // Get GP partition size dynamically. emmc_set_partition(EMMC_GPP); // Get GP partition size dynamically. const u32 RAW_AREA_NUM_SECTORS = emmc_storage.sec_cnt; emmc_part_t rawPart; memset(&rawPart, 0, sizeof(rawPart)); rawPart.lba_start = 0; rawPart.lba_end = RAW_AREA_NUM_SECTORS - 1; strcpy(rawPart.name, "GPP"); s_printf(txt_buf, "#00DDFF %02d: %s#\n#00DDFF Range: 0x%08X - 0x%08X#\n\n", i, rawPart.name, rawPart.lba_start, rawPart.lba_end); lv_label_set_text(gui->label_info, txt_buf); s_printf(txt_buf, "%02d: %s... ", i, rawPart.name); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); res = _dump_emummc_file_part(gui, sdPath, &emmc_storage, &rawPart); if (res) s_printf(txt_buf, "#FFDD00 Failed!#\n"); else s_printf(txt_buf, "Done!\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); out_failed: timer = get_tmr_s() - timer; emmc_end(); if (!res) { s_printf(txt_buf, "Time taken: %dm %ds.\nFinished!", timer / 60, timer % 60); gui->base_path[strlen(gui->base_path) - 5] = '\0'; strcpy(sdPath, gui->base_path); strcat(sdPath, "file_based"); FIL fp; f_open(&fp, sdPath, FA_CREATE_ALWAYS | FA_WRITE); f_close(&fp); gui->base_path[strlen(gui->base_path) - 1] = 0; save_emummc_cfg(0, 0, gui->base_path); } else s_printf(txt_buf, "Time taken: %dm %ds.", timer / 60, timer % 60); lv_label_set_text(gui->label_finish, txt_buf); out: free(txt_buf); free(gui->base_path); sd_unmount(); } static int _dump_emummc_raw_part(emmc_tool_gui_t *gui, int active_part, int part_idx, u32 sd_part_off, emmc_part_t *part, u32 resized_count) { u32 num = 0; u32 pct = 0; u32 prevPct = 200; int retryCount = 0; u32 sd_sector_off = sd_part_off + (0x2000 * active_part); u32 lba_curr = part->lba_start; u8 *buf = (u8 *)MIXD_BUF_ALIGNED; s_printf(gui->txt_buf, "\n\n\n"); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); lv_bar_set_value(gui->bar, 0); lv_label_set_text(gui->label_pct, " "SYMBOL_DOT" 0%"); manual_system_maintenance(true); s_printf(gui->txt_buf, "#96FF00 Base folder:#\n%s\n#96FF00 Partition offset:# #FF8000 0x%08X#", gui->base_path, sd_part_off); lv_label_ins_text(gui->label_info, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); lv_obj_set_opa_scale(gui->bar, LV_OPA_COVER); lv_obj_set_opa_scale(gui->label_pct, LV_OPA_COVER); u32 user_offset = 0; if (resized_count) { // Get USER partition info. LIST_INIT(gpt_parsed); emmc_gpt_parse(&gpt_parsed); emmc_part_t *user_part = emmc_part_find(&gpt_parsed, "USER"); if (!user_part) { s_printf(gui->txt_buf, "\n#FFDD00 USER partition not found!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } user_offset = user_part->lba_start; part->lba_end = user_offset - 1; emmc_gpt_free(&gpt_parsed); } u32 totalSectors = part->lba_end - part->lba_start + 1; while (totalSectors > 0) { // Check for cancellation combo. if (btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) { s_printf(gui->txt_buf, "\n#FFDD00 emuMMC creation was cancelled!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); msleep(1000); return 1; } retryCount = 0; num = MIN(totalSectors, NUM_SECTORS_PER_ITER); // Read data from eMMC. while (sdmmc_storage_read(&emmc_storage, lba_curr, num, buf)) { s_printf(gui->txt_buf, "\n#FFDD00 Error reading %d blocks @LBA %08X,#\n" "#FFDD00 from eMMC (try %d). #", num, lba_curr, ++retryCount); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); msleep(150); if (retryCount >= 3) { s_printf(gui->txt_buf, "#FF0000 Aborting...#\nPlease try again...\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } else { s_printf(gui->txt_buf, "#FFDD00 Retrying...#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); } } manual_system_maintenance(false); // Write data to SD card. retryCount = 0; while (sdmmc_storage_write(&sd_storage, sd_sector_off + lba_curr, num, buf)) { s_printf(gui->txt_buf, "\n#FFDD00 Error writing %d blocks @LBA %08X,#\n" "#FFDD00 to SD (try %d). #", num, lba_curr, ++retryCount); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); msleep(150); if (retryCount >= 3) { s_printf(gui->txt_buf, "#FF0000 Aborting...#\nPlease try again...\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); return 1; } else { s_printf(gui->txt_buf, "#FFDD00 Retrying...#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); } } manual_system_maintenance(false); pct = (u64)((u64)(lba_curr - part->lba_start) * 100u) / (u64)(part->lba_end - part->lba_start); if (pct != prevPct) { lv_bar_set_value(gui->bar, pct); s_printf(gui->txt_buf, " "SYMBOL_DOT" %d%%", pct); lv_label_set_text(gui->label_pct, gui->txt_buf); manual_system_maintenance(true); prevPct = pct; } lba_curr += num; totalSectors -= num; } lv_bar_set_value(gui->bar, 100); lv_label_set_text(gui->label_pct, " "SYMBOL_DOT" 100%"); manual_system_maintenance(true); // Set partition type to emuMMC (0xE0). if (active_part == 2) { mbr_t mbr; sdmmc_storage_read(&sd_storage, 0, 1, &mbr); mbr.partitions[part_idx].type = 0xE0; sdmmc_storage_write(&sd_storage, 0, 1, &mbr); } if (resized_count) { lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, "Done!\n"); // Calculate USER size and set it for FatFS. u32 user_sectors = resized_count - user_offset - 33; user_sectors = ALIGN_DOWN(user_sectors, 0x20); // Align down to cluster size. disk_set_info(DRIVE_EMU, SET_SECTOR_COUNT, &user_sectors); // Initialize BIS for emuMMC. BIS keys should be already in place. emmc_part_t user_part = {0}; user_part.lba_start = user_offset; user_part.lba_end = user_offset + user_sectors - 1; strcpy(user_part.name, "USER"); nx_emmc_bis_init(&user_part, true, sd_sector_off); s_printf(gui->txt_buf, "Formatting USER... "); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); // Format USER partition as FAT32 with 16KB cluster and PRF2SAFE. u8 *buff = malloc(SZ_4M); int mkfs_error = f_mkfs("emu:", FM_FAT32 | FM_SFD | FM_PRF2, 16384, buff, SZ_4M); free(buff); // Mount sd card back. sd_mount(); if (mkfs_error) { s_printf(gui->txt_buf, "#FF0000 Failed (%d)!#\nPlease try again...\n", mkfs_error); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); return 1; } lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, "Done!\n"); // Flush BIS cache, deinit, clear BIS keys slots and reinstate SBK. nx_emmc_bis_end(); hos_bis_keys_clear(); s_printf(gui->txt_buf, "Writing new GPT... "); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); manual_system_maintenance(true); // Read MBR, GPT and backup GPT. mbr_t mbr; gpt_t *gpt = zalloc(sizeof(gpt_t)); gpt_header_t gpt_hdr_backup; sdmmc_storage_read(&emmc_storage, 0, 1, &mbr); sdmmc_storage_read(&emmc_storage, 1, sizeof(gpt_t) >> 9, gpt); sdmmc_storage_read(&emmc_storage, gpt->header.alt_lba, 1, &gpt_hdr_backup); // Find USER partition. u32 gpt_entry_idx = 0; for (gpt_entry_idx = 0; gpt_entry_idx < gpt->header.num_part_ents; gpt_entry_idx++) if (!memcmp(gpt->entries[gpt_entry_idx].name, (char[]) { 'U', 0, 'S', 0, 'E', 0, 'R', 0 }, 8)) break; if (gpt_entry_idx >= gpt->header.num_part_ents) { s_printf(gui->txt_buf, "\n#FF0000 No USER partition...#\nPlease try again...\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); free(gpt); return 1; } // Set new emuMMC size and USER size. mbr.partitions[0].size_sct = resized_count - 1; // Exclude MBR sector. gpt->entries[gpt_entry_idx].lba_end = user_part.lba_end; // Update Main GPT. gpt->header.alt_lba = resized_count - 1; gpt->header.last_use_lba = resized_count - 34; gpt->header.part_ents_crc32 = crc32_calc(0, (const u8 *)gpt->entries, sizeof(gpt_entry_t) * gpt->header.num_part_ents); gpt->header.crc32 = 0; // Set to 0 for calculation. gpt->header.crc32 = crc32_calc(0, (const u8 *)&gpt->header, gpt->header.size); // Update Backup GPT. memcpy(&gpt_hdr_backup, &gpt->header, sizeof(gpt_header_t)); gpt_hdr_backup.my_lba = resized_count - 1; gpt_hdr_backup.alt_lba = 1; gpt_hdr_backup.part_ent_lba = resized_count - 33; gpt_hdr_backup.crc32 = 0; // Set to 0 for calculation. gpt_hdr_backup.crc32 = crc32_calc(0, (const u8 *)&gpt_hdr_backup, gpt_hdr_backup.size); // Write main GPT. sdmmc_storage_write(&sd_storage, sd_sector_off + gpt->header.my_lba, sizeof(gpt_t) >> 9, gpt); // Write backup GPT partition table. sdmmc_storage_write(&sd_storage, sd_sector_off + gpt_hdr_backup.part_ent_lba, ((sizeof(gpt_entry_t) * 128) >> 9), gpt->entries); // Write backup GPT header. sdmmc_storage_write(&sd_storage, sd_sector_off + gpt_hdr_backup.my_lba, 1, &gpt_hdr_backup); // Write MBR. sdmmc_storage_write(&sd_storage, sd_sector_off, 1, &mbr); // Clear nand patrol. memset(buf, 0, EMMC_BLOCKSIZE); sdmmc_storage_write(&sd_storage, sd_part_off + NAND_PATROL_SECTOR, 1, buf); free(gpt); } return 0; } int emummc_raw_derive_bis_keys() { u8 *cal0_buff = malloc(SZ_64K); // Generate BIS keys. if (hos_bis_keygen()) goto error; // Read and decrypt CAL0 for validation of working BIS keys. emmc_set_partition(EMMC_GPP); LIST_INIT(gpt); emmc_gpt_parse(&gpt); emmc_part_t *cal0_part = emmc_part_find(&gpt, "PRODINFO"); // check if null nx_emmc_bis_init(cal0_part, false, 0); nx_emmc_bis_read(0, 0x40, cal0_buff); nx_emmc_bis_end(); emmc_gpt_free(&gpt); nx_emmc_cal0_t *cal0 = (nx_emmc_cal0_t *)cal0_buff; // Check keys validity. if (memcmp(&cal0->magic, "CAL0", 4)) { error: // Clear EKS keys. hos_eks_clear(HOS_MKEY_VER_MAX); lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222Close", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_mbox_set_text(mbox, "#C7EA46 BIS Keys Generation#"); lv_obj_t * lb_desc = lv_label_create(mbox, NULL); lv_label_set_long_mode(lb_desc, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc, true); lv_label_set_style(lb_desc, &monospace_text); lv_obj_set_width(lb_desc, LV_HOR_RES / 9 * 4); lv_label_set_text(lb_desc, "#FFDD00 BIS keys validation failed!#\n"); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); free(cal0_buff); return 0; } free(cal0_buff); return 1; } void dump_emummc_raw(emmc_tool_gui_t *gui, int part_idx, u32 sector_start, u32 resized_count) { int res = 1; u32 timer = 0; char *txt_buf = (char *)malloc(SZ_16K); gui->base_path = (char *)malloc(OUT_FILENAME_SZ); gui->txt_buf = txt_buf; txt_buf[0] = 0; lv_label_set_text(gui->label_log, txt_buf); manual_system_maintenance(true); if (sd_mount()) { lv_label_set_text(gui->label_info, "#FFDD00 Failed to init SD!#"); goto out; } if (emmc_initialize(false)) { lv_label_set_text(gui->label_info, "#FFDD00 Failed to init eMMC!#"); goto out; } if (resized_count && !emummc_raw_derive_bis_keys()) { s_printf(gui->txt_buf, "#FFDD00 For formatting USER partition,#\n#FFDD00 BIS keys are needed!#\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, gui->txt_buf); emmc_end(); goto out; } int i = 0; char sdPath[OUT_FILENAME_SZ]; // Create Restore folders, if they do not exist. f_mkdir("emuMMC"); s_printf(sdPath, "emuMMC/RAW%d", part_idx); f_mkdir(sdPath); strcat(sdPath, "/"); strcpy(gui->base_path, sdPath); timer = get_tmr_s(); const u32 BOOT_PART_SECTORS = 0x2000; // Force 4 MiB. emmc_part_t bootPart; memset(&bootPart, 0, sizeof(bootPart)); bootPart.lba_start = 0; bootPart.lba_end = BOOT_PART_SECTORS - 1; // Clear partition start. memset((u8 *)MIXD_BUF_ALIGNED, 0, SZ_16M); sdmmc_storage_write(&sd_storage, sector_start - 0x8000, 0x8000, (u8 *)MIXD_BUF_ALIGNED); for (i = 0; i < 2; i++) { strcpy(bootPart.name, "BOOT"); bootPart.name[4] = (u8)('0' + i); bootPart.name[5] = 0; s_printf(txt_buf, "#00DDFF %02d: %s#\n#00DDFF Range: 0x%08X - 0x%08X#\n\n", i, bootPart.name, bootPart.lba_start, bootPart.lba_end); lv_label_set_text(gui->label_info, txt_buf); s_printf(txt_buf, "%02d: %s... ", i, bootPart.name); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); emmc_set_partition(i + 1); strcat(sdPath, bootPart.name); res = _dump_emummc_raw_part(gui, i, part_idx, sector_start, &bootPart, 0); if (res) { s_printf(txt_buf, "#FFDD00 Failed!#\n"); goto out_failed; } else s_printf(txt_buf, "Done!\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); strcpy(sdPath, gui->base_path); } emmc_set_partition(EMMC_GPP); // Get GP partition size dynamically. const u32 RAW_AREA_NUM_SECTORS = emmc_storage.sec_cnt; emmc_part_t rawPart; memset(&rawPart, 0, sizeof(rawPart)); rawPart.lba_start = 0; rawPart.lba_end = RAW_AREA_NUM_SECTORS - 1; strcpy(rawPart.name, "GPP"); { s_printf(txt_buf, "#00DDFF %02d: %s#\n#00DDFF Range: 0x%08X - 0x%08X#\n\n", i, rawPart.name, rawPart.lba_start, rawPart.lba_end); lv_label_set_text(gui->label_info, txt_buf); s_printf(txt_buf, "%02d: %s... ", i, rawPart.name); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); res = _dump_emummc_raw_part(gui, 2, part_idx, sector_start, &rawPart, resized_count); if (res) s_printf(txt_buf, "#FFDD00 Failed!#\n"); else s_printf(txt_buf, "Done!\n"); lv_label_ins_text(gui->label_log, LV_LABEL_POS_LAST, txt_buf); manual_system_maintenance(true); } out_failed: timer = get_tmr_s() - timer; emmc_end(); if (!res) { s_printf(txt_buf, "Time taken: %dm %ds.\nFinished!", timer / 60, timer % 60); strcpy(sdPath, gui->base_path); strcat(sdPath, "raw_based"); FIL fp; f_open(&fp, sdPath, FA_CREATE_ALWAYS | FA_WRITE); f_write(&fp, §or_start, 4, NULL); f_close(&fp); gui->base_path[strlen(gui->base_path) - 1] = 0; save_emummc_cfg(part_idx, sector_start, gui->base_path); } else s_printf(txt_buf, "Time taken: %dm %ds.", timer / 60, timer % 60); lv_label_set_text(gui->label_finish, txt_buf); out: free(txt_buf); free(gui->base_path); sd_unmount(); } ================================================ FILE: nyx/nyx_gui/frontend/fe_emummc_tools.h ================================================ /* * Copyright (c) 2018 Rajko Stojadinovic * Copyright (c) 2018 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _FE_EMUMMC_TOOLS_H_ #define _FE_EMUMMC_TOOLS_H_ #include "gui.h" typedef struct _emummc_cfg_t { int enabled; u32 sector; u16 id; char *path; char *nintendo_path; } emummc_cfg_t; void load_emummc_cfg(emummc_cfg_t *emu_info); void save_emummc_cfg(u32 part_idx, u32 sector_start, const char *path); void dump_emummc_file(emmc_tool_gui_t *gui); void dump_emummc_raw(emmc_tool_gui_t *gui, int part_idx, u32 sector_start, u32 resized_count); void update_emummc_base_folder(char *outFilename, u32 sdPathLen, u32 currPartIdx); int emummc_raw_derive_bis_keys(); #endif ================================================ FILE: nyx/nyx_gui/frontend/gui.c ================================================ /* * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "gui.h" #include "gui_emummc_tools.h" #include "gui_tools.h" #include "gui_info.h" #include "gui_options.h" #include #include #include "../gfx/logos-gui.h" #include "../config.h" #include extern volatile boot_cfg_t *b_cfg; extern volatile nyx_storage_t *nyx_str; extern lv_res_t launch_payload(lv_obj_t *list); static bool disp_init_done = false; static bool do_auto_reload = false; lv_style_t hint_small_style; lv_style_t hint_small_style_white; lv_style_t monospace_text; lv_obj_t *payload_list; lv_obj_t *autorcm_btn; lv_obj_t *close_btn; lv_img_dsc_t *icon_switch; lv_img_dsc_t *icon_payload; lv_img_dsc_t *icon_lakka; lv_img_dsc_t *hekate_bg; lv_style_t btn_transp_rel, btn_transp_pr, btn_transp_tgl_rel, btn_transp_tgl_pr, btn_transp_ina; lv_style_t ddlist_transp_bg, ddlist_transp_sel; lv_style_t tabview_btn_pr, tabview_btn_tgl_pr; lv_style_t mbox_darken; char *text_color; typedef struct _jc_lv_driver_t { lv_indev_t *indev_jc; lv_indev_t *indev_touch; // LV_INDEV_READ_PERIOD * JC_CAL_MAX_STEPS = 264 ms. #define JC_CAL_MAX_STEPS 8 u32 calibration_step; u16 cx_max; u16 cx_min; u16 cy_max; u16 cy_min; s16 pos_x; s16 pos_y; s16 pos_last_x; s16 pos_last_y; lv_obj_t *cursor; u32 cursor_timeout; bool cursor_hidden; u32 console_timeout; } jc_lv_driver_t; static jc_lv_driver_t jc_drv_ctx; gui_status_bar_ctx status_bar; static void _nyx_disp_init() { vic_surface_t vic_sfc; vic_sfc.src_buf = NYX_FB2_ADDRESS; vic_sfc.dst_buf = NYX_FB_ADDRESS; vic_sfc.width = 1280; vic_sfc.height = 720; vic_sfc.pix_fmt = VIC_PIX_FORMAT_X8R8G8B8; vic_sfc.rotation = VIC_ROTATION_270; // Set hardware rotation via VIC. vic_init(); vic_set_surface(&vic_sfc); // Turn off backlight to hide the transition. display_backlight_brightness(0, 1000); // Rotate and copy the first frame. vic_compose(); vic_wait_idle(); // Switch to new window configuration. display_init_window_a_pitch_vic(); // Enable logging on window D. display_init_window_d_console(); // Switch back the backlight. display_backlight_brightness(h_cfg.backlight - 20, 1000); } static void _save_log_to_bmp(char *fname) { u32 *fb_ptr = (u32 *)LOG_FB_ADDRESS; // Check if there's log written. bool log_changed = false; for (u32 i = 0; i < 0xCD000; i++) { if (fb_ptr[i] != 0) { log_changed = true; break; } } if (!log_changed) return; const u32 file_size = LOG_FB_SZ + 0x36; u8 *bitmap = malloc(file_size); // Reconstruct FB for bottom-top, landscape bmp. Rotation: 656x1280 -> 1280x656. u32 *fb = malloc(LOG_FB_SZ); for (int x = 1279; x > - 1; x--) { for (int y = 655; y > -1; y--) fb[y * 1280 + x] = *fb_ptr++; } manual_system_maintenance(true); memcpy(bitmap + 0x36, fb, LOG_FB_SZ); typedef struct _bmp_t { u16 magic; u32 size; u32 rsvd; u32 data_off; u32 hdr_size; u32 width; u32 height; u16 planes; u16 pxl_bits; u32 comp; u32 img_size; u32 res_h; u32 res_v; u64 rsvd2; } __attribute__((packed)) bmp_t; bmp_t *bmp = (bmp_t *)bitmap; bmp->magic = 0x4D42; bmp->size = file_size; bmp->rsvd = 0; bmp->data_off = 0x36; bmp->hdr_size = 40; bmp->width = 1280; bmp->height = 656; bmp->planes = 1; bmp->pxl_bits = 32; bmp->comp = 0; bmp->img_size = LOG_FB_SZ; bmp->res_h = 2834; bmp->res_v = 2834; bmp->rsvd2 = 0; char path[0x80]; strcpy(path, "bootloader/screenshots"); s_printf(path + strlen(path), "/nyx%s_log.bmp", fname); sd_save_to_file(bitmap, file_size, path); free(bitmap); free(fb); } static void _save_fb_to_bmp() { // Disallow screenshots if less than 2s passed. static u32 timer = 0; if (get_tmr_ms() < timer) return; if (do_auto_reload) goto exit; // Invalidate data. bpmp_mmu_maintenance(BPMP_MMU_MAINT_INVALID_WAY, false); const u32 file_size = NYX_FB_SZ + 0x36; u8 *bitmap = malloc(file_size); u32 *fb = malloc(NYX_FB_SZ); u32 *fb_ptr = (u32 *)NYX_FB2_ADDRESS; u32 line_bytes = 1280 * sizeof(u32); // Reconstruct FB for bottom-top, landscape bmp. No rotation. for (int y = 719; y > -1; y--) { memcpy(&fb[y * 1280], fb_ptr, line_bytes); fb_ptr += line_bytes / sizeof(u32); } // Create notification box. lv_obj_t * mbox = lv_mbox_create(lv_layer_top(), NULL); lv_mbox_set_recolor_text(mbox, true); lv_mbox_set_text(mbox, SYMBOL_CAMERA" #FFDD00 Saving screenshot...#"); lv_obj_set_width(mbox, LV_DPI * 4); lv_obj_set_top(mbox, true); lv_obj_align(mbox, NULL, LV_ALIGN_IN_TOP_LEFT, 0, 0); // Capture effect. display_backlight_brightness(255, 100); msleep(150); display_backlight_brightness(h_cfg.backlight - 20, 100); manual_system_maintenance(true); memcpy(bitmap + 0x36, fb, NYX_FB_SZ); typedef struct _bmp_t { u16 magic; u32 size; u32 rsvd; u32 data_off; u32 hdr_size; u32 width; u32 height; u16 planes; u16 pxl_bits; u32 comp; u32 img_size; u32 res_h; u32 res_v; u64 rsvd2; } __attribute__((packed)) bmp_t; bmp_t *bmp = (bmp_t *)bitmap; bmp->magic = 0x4D42; bmp->size = file_size; bmp->rsvd = 0; bmp->data_off = 0x36; bmp->hdr_size = 40; bmp->width = 1280; bmp->height = 720; bmp->planes = 1; bmp->pxl_bits = 32; bmp->comp = 0; bmp->img_size = NYX_FB_SZ; bmp->res_h = 2834; bmp->res_v = 2834; bmp->rsvd2 = 0; sd_mount(); char path[0x80]; strcpy(path, "bootloader"); f_mkdir(path); strcat(path, "/screenshots"); f_mkdir(path); // Create date/time name. char fname[32]; rtc_time_t time; max77620_rtc_get_time_adjusted(&time); s_printf(fname, "%04d%02d%02d_%02d%02d%02d", time.year, time.month, time.day, time.hour, time.min, time.sec); s_printf(path + strlen(path), "/nyx%s.bmp", fname); // Save screenshot and log. int res = sd_save_to_file(bitmap, file_size, path); if (!res) _save_log_to_bmp(fname); sd_unmount(); free(bitmap); free(fb); if (!res) lv_mbox_set_text(mbox, SYMBOL_CAMERA" #96FF00 Screenshot saved!#"); else lv_mbox_set_text(mbox, SYMBOL_WARNING" #FFDD00 Screenshot failed!#"); manual_system_maintenance(true); lv_mbox_start_auto_close(mbox, 4000); exit: // Set timer to 2s. timer = get_tmr_ms() + 2000; } static void _disp_fb_flush(int32_t x1, int32_t y1, int32_t x2, int32_t y2, const lv_color_t *color_p) { // Draw to intermediate non-rotated framebuffer. gfx_set_rect_pitch((u32 *)NYX_FB2_ADDRESS, (u32 *)color_p, 1280, x1, y1, x2, y2); // Rotate and copy to visible framebuffer. if (disp_init_done) vic_compose(); // Check if display init was done. If it's the first big draw, init. if (!disp_init_done && ((x2 - x1 + 1) > 600)) { disp_init_done = true; _nyx_disp_init(); } lv_flush_ready(); } static touch_event_t touchpad; static bool touch_enabled; static bool console_enabled = false; static bool _fts_touch_read(lv_indev_data_t *data) { if (!touch_enabled) return false; int res = touch_poll(&touchpad); // Take a screenshot if 3rd finger. if (touchpad.finger > 2) { _save_fb_to_bmp(); data->state = LV_INDEV_STATE_REL; return false; } if (console_enabled) { // If no event, keep last debug message. if (res) return false; // Print input debugging in console. gfx_con_getpos(&gfx_con.savedx, &gfx_con.savedy, &gfx_con.savedcol); gfx_con_setpos(32, 638, GFX_COL_AUTO); gfx_con.fntsz = 8; gfx_printf("x: %4d, y: %4d | z: %3d | ", touchpad.x, touchpad.y, touchpad.z); gfx_printf("0: %02X, 1: %02X, 2: %02X, ", touchpad.raw[0], touchpad.raw[1], touchpad.raw[2]); gfx_printf("3: %02X, 4: %02X, 5: %02X, 6: %02X", touchpad.raw[3], touchpad.raw[4], touchpad.raw[5], touchpad.raw[6]); gfx_con_setpos(gfx_con.savedx, gfx_con.savedy, gfx_con.savedcol); gfx_con.fntsz = 16; return false; } // Always set touch points. data->point.x = touchpad.x; data->point.y = touchpad.y; // Decide touch enable. if (touchpad.touch) data->state = LV_INDEV_STATE_PR; else data->state = LV_INDEV_STATE_REL; return false; // No buffering so no more data read. } static bool _jc_virt_mouse_read(lv_indev_data_t *data) { // Poll Joy-Con. jc_gamepad_rpt_t *jc_pad = joycon_poll(); if (!jc_pad) { data->state = LV_INDEV_STATE_REL; return false; } // Take a screenshot if Capture button is pressed. if (jc_pad->cap) { _save_fb_to_bmp(); data->state = LV_INDEV_STATE_REL; return false; } // Calibrate left stick. if (jc_drv_ctx.calibration_step != JC_CAL_MAX_STEPS) { if (n_cfg.jc_force_right) { if (jc_pad->conn_r && jc_pad->rstick_x > 0x400 && jc_pad->rstick_y > 0x400 && jc_pad->rstick_x < 0xC00 && jc_pad->rstick_y < 0xC00) { jc_drv_ctx.calibration_step++; jc_drv_ctx.cx_max = jc_pad->rstick_x + 0x96; jc_drv_ctx.cx_min = jc_pad->rstick_x - 0x96; jc_drv_ctx.cy_max = jc_pad->rstick_y + 0x96; jc_drv_ctx.cy_min = jc_pad->rstick_y - 0x96; jc_drv_ctx.cursor_timeout = 0; } } else if (jc_pad->conn_l && jc_pad->lstick_x > 0x400 && jc_pad->lstick_y > 0x400 && jc_pad->lstick_x < 0xC00 && jc_pad->lstick_y < 0xC00) { jc_drv_ctx.calibration_step++; jc_drv_ctx.cx_max = jc_pad->lstick_x + 0x96; jc_drv_ctx.cx_min = jc_pad->lstick_x - 0x96; jc_drv_ctx.cy_max = jc_pad->lstick_y + 0x96; jc_drv_ctx.cy_min = jc_pad->lstick_y - 0x96; jc_drv_ctx.cursor_timeout = 0; } if (jc_drv_ctx.calibration_step != JC_CAL_MAX_STEPS) { if (jc_pad->plus || jc_pad->minus) goto handle_console; if (console_enabled) goto console; data->state = LV_INDEV_STATE_REL; return false; } } // Re-calibrate on disconnection. if (n_cfg.jc_force_right && !jc_pad->conn_r) jc_drv_ctx.calibration_step = 0; else if (!n_cfg.jc_force_right && !jc_pad->conn_l) jc_drv_ctx.calibration_step = 0; // Set button presses. if (jc_pad->a || jc_pad->zl || jc_pad->zr) data->state = LV_INDEV_STATE_PR; else data->state = LV_INDEV_STATE_REL; // Enable console. if (jc_pad->plus || jc_pad->minus) { handle_console: if (((u32)get_tmr_ms() - jc_drv_ctx.console_timeout) > 1000) { if (!console_enabled) { display_window_d_console_enable(); console_enabled = true; gfx_con_getpos(&gfx_con.savedx, &gfx_con.savedy, &gfx_con.savedcol); gfx_con_setpos(964, 630, GFX_COL_AUTO); gfx_printf("Press -/+ to close"); gfx_con_setpos(gfx_con.savedx, gfx_con.savedy, gfx_con.savedcol); } else { display_window_d_console_disable(); console_enabled = false; } jc_drv_ctx.console_timeout = get_tmr_ms(); } data->state = LV_INDEV_STATE_REL; return false; } if (console_enabled) { console: // Print input debugging in console. gfx_con_getpos(&gfx_con.savedx, &gfx_con.savedy, &gfx_con.savedcol); gfx_con_setpos(32, 630, GFX_COL_AUTO); gfx_con.fntsz = 8; gfx_printf("x: %4X, y: %4X | rx: %4X, ry: %4X | b: %06X | c: %d (%d), %d (%d)", jc_pad->lstick_x, jc_pad->lstick_y, jc_pad->rstick_x, jc_pad->rstick_y, jc_pad->buttons, jc_pad->batt_info_l, jc_pad->batt_chrg_l, jc_pad->batt_info_r, jc_pad->batt_chrg_r); gfx_con_setpos(gfx_con.savedx, gfx_con.savedy, gfx_con.savedcol); gfx_con.fntsz = 16; data->state = LV_INDEV_STATE_REL; return false; } // Calculate new cursor position. if (!n_cfg.jc_force_right) { // Left stick X. if (jc_pad->lstick_x <= jc_drv_ctx.cx_max && jc_pad->lstick_x >= jc_drv_ctx.cx_min) jc_drv_ctx.pos_x += 0; else if (jc_pad->lstick_x > jc_drv_ctx.cx_max) jc_drv_ctx.pos_x += ((jc_pad->lstick_x - jc_drv_ctx.cx_max) / 30); else jc_drv_ctx.pos_x -= ((jc_drv_ctx.cx_min - jc_pad->lstick_x) / 30); // Left stick Y. if (jc_pad->lstick_y <= jc_drv_ctx.cy_max && jc_pad->lstick_y >= jc_drv_ctx.cy_min) jc_drv_ctx.pos_y += 0; else if (jc_pad->lstick_y > jc_drv_ctx.cy_max) { s16 val = (jc_pad->lstick_y - jc_drv_ctx.cy_max) / 30; // Hoag has inverted Y axis. if (jc_pad->sio_mode) val *= -1; jc_drv_ctx.pos_y -= val; } else { s16 val = (jc_drv_ctx.cy_min - jc_pad->lstick_y) / 30; // Hoag has inverted Y axis. if (jc_pad->sio_mode) val *= -1; jc_drv_ctx.pos_y += val; } } else { // Right stick X. if (jc_pad->rstick_x <= jc_drv_ctx.cx_max && jc_pad->rstick_x >= jc_drv_ctx.cx_min) jc_drv_ctx.pos_x += 0; else if (jc_pad->rstick_x > jc_drv_ctx.cx_max) jc_drv_ctx.pos_x += ((jc_pad->rstick_x - jc_drv_ctx.cx_max) / 30); else jc_drv_ctx.pos_x -= ((jc_drv_ctx.cx_min - jc_pad->rstick_x) / 30); // Right stick Y. if (jc_pad->rstick_y <= jc_drv_ctx.cy_max && jc_pad->rstick_y >= jc_drv_ctx.cy_min) jc_drv_ctx.pos_y += 0; else if (jc_pad->rstick_y > jc_drv_ctx.cy_max) { s16 val = (jc_pad->rstick_y - jc_drv_ctx.cy_max) / 30; // Hoag has inverted Y axis. if (jc_pad->sio_mode) val *= -1; jc_drv_ctx.pos_y -= val; } else { s16 val = (jc_drv_ctx.cy_min - jc_pad->rstick_y) / 30; // Hoag has inverted Y axis. if (jc_pad->sio_mode) val *= -1; jc_drv_ctx.pos_y += val; } } // Ensure value inside screen limits. if (jc_drv_ctx.pos_x < 0) jc_drv_ctx.pos_x = 0; else if (jc_drv_ctx.pos_x > 1279) jc_drv_ctx.pos_x = 1279; if (jc_drv_ctx.pos_y < 0) jc_drv_ctx.pos_y = 0; else if (jc_drv_ctx.pos_y > 719) jc_drv_ctx.pos_y = 719; // Set cursor position. data->point.x = jc_drv_ctx.pos_x; data->point.y = jc_drv_ctx.pos_y; // Auto hide cursor. if (jc_drv_ctx.pos_x != jc_drv_ctx.pos_last_x || jc_drv_ctx.pos_y != jc_drv_ctx.pos_last_y) { jc_drv_ctx.pos_last_x = jc_drv_ctx.pos_x; jc_drv_ctx.pos_last_y = jc_drv_ctx.pos_y; jc_drv_ctx.cursor_hidden = false; jc_drv_ctx.cursor_timeout = get_tmr_ms(); lv_indev_set_cursor(jc_drv_ctx.indev_jc, jc_drv_ctx.cursor); // Un hide cursor. lv_obj_set_opa_scale_enable(jc_drv_ctx.cursor, false); } else { if (!jc_drv_ctx.cursor_hidden) { if (((u32)get_tmr_ms() - jc_drv_ctx.cursor_timeout) > 3000) { // Remove cursor and hide it. lv_indev_set_cursor(jc_drv_ctx.indev_jc, NULL); lv_obj_set_opa_scale_enable(jc_drv_ctx.cursor, true); lv_obj_set_opa_scale(jc_drv_ctx.cursor, LV_OPA_TRANSP); jc_drv_ctx.cursor_hidden = true; } } else data->state = LV_INDEV_STATE_REL; // Ensure that no clicks are allowed. } if (jc_pad->b && close_btn) { lv_action_t close_btn_action = lv_btn_get_action(close_btn, LV_BTN_ACTION_CLICK); close_btn_action(close_btn); close_btn = NULL; } return false; // No buffering so no more data read. } typedef struct _system_maintenance_tasks_t { union { lv_task_t *tasks[2]; struct { lv_task_t *status_bar; lv_task_t *dram_periodic_comp; } task; }; } system_maintenance_tasks_t; static system_maintenance_tasks_t system_tasks; void manual_system_maintenance(bool refresh) { for (u32 task_idx = 0; task_idx < (sizeof(system_maintenance_tasks_t) / sizeof(lv_task_t *)); task_idx++) { lv_task_t *task = system_tasks.tasks[task_idx]; if (task && (lv_tick_elaps(task->last_run) >= task->period)) { task->last_run = lv_tick_get(); task->task(task->param); } } if (refresh) lv_refr_now(); } lv_img_dsc_t *bmp_to_lvimg_obj(const char *path) { u32 fsize; u8 *bitmap = sd_file_read(path, &fsize); if (!bitmap) return NULL; struct _bmp_data { u32 size; u32 size_x; u32 size_y; u32 offset; }; struct _bmp_data bmpData; // Get values manually to avoid unaligned access. bmpData.size = bitmap[2] | bitmap[3] << 8 | bitmap[4] << 16 | bitmap[5] << 24; bmpData.offset = bitmap[10] | bitmap[11] << 8 | bitmap[12] << 16 | bitmap[13] << 24; bmpData.size_x = bitmap[18] | bitmap[19] << 8 | bitmap[20] << 16 | bitmap[21] << 24; bmpData.size_y = bitmap[22] | bitmap[23] << 8 | bitmap[24] << 16 | bitmap[25] << 24; // Sanity check. if (bitmap[0] == 'B' && bitmap[1] == 'M' && bitmap[28] == 32 && // Only 32 bit BMPs allowed. bmpData.size <= fsize) { // Check if non-default Bottom-Top. bool flipped = false; if (bmpData.size_y & 0x80000000) { bmpData.size_y = ~(bmpData.size_y) + 1; flipped = true; } lv_img_dsc_t *img_desc = (lv_img_dsc_t *)bitmap; uptr offset_copy = ALIGN((uptr)bitmap + sizeof(lv_img_dsc_t), 0x10); img_desc->header.always_zero = 0; img_desc->header.w = bmpData.size_x; img_desc->header.h = bmpData.size_y; img_desc->header.cf = (bitmap[28] == 32) ? LV_IMG_CF_TRUE_COLOR_ALPHA : LV_IMG_CF_TRUE_COLOR; // Only LV_IMG_CF_TRUE_COLOR_ALPHA is actually allowed. img_desc->data_size = bmpData.size - bmpData.offset; img_desc->data = (u8 *)offset_copy; u32 *tmp = malloc(bmpData.size); u32 *tmp2 = (u32 *)offset_copy; // Copy the unaligned data to an aligned buffer. memcpy((u8 *)tmp, bitmap + bmpData.offset, img_desc->data_size); u32 j = 0; if (!flipped) { for (u32 y = 0; y < bmpData.size_y; y++) { for (u32 x = 0; x < bmpData.size_x; x++) tmp2[j++] = tmp[(bmpData.size_y - 1 - y ) * bmpData.size_x + x]; } } else { for (u32 y = 0; y < bmpData.size_y; y++) { for (u32 x = 0; x < bmpData.size_x; x++) tmp2[j++] = tmp[y * bmpData.size_x + x]; } } free(tmp); } else { free(bitmap); return NULL; } return (lv_img_dsc_t *)bitmap; } lv_res_t nyx_generic_onoff_toggle(lv_obj_t *btn) { lv_obj_t *label_btn = lv_obj_get_child(btn, NULL); lv_obj_t *label_btn2 = lv_obj_get_child(btn, label_btn); char label_text[64]; if (!label_btn2) { strcpy(label_text, lv_label_get_text(label_btn)); label_text[strlen(label_text) - 15] = 0; if (!(lv_btn_get_state(btn) & LV_BTN_STATE_TGL_REL)) { strcat(label_text, "#D0D0D0 OFF#"); lv_label_set_text(label_btn, label_text); } else { s_printf(label_text, "%s%s%s", label_text, text_color, " ON #"); lv_label_set_text(label_btn, label_text); } } else { if (!(lv_btn_get_state(btn) & LV_BTN_STATE_TGL_REL)) lv_label_set_text(label_btn, "#D0D0D0 OFF#"); else { s_printf(label_text, "%s%s", text_color, " ON #"); lv_label_set_text(label_btn, label_text); } } return LV_RES_OK; } lv_res_t nyx_mbox_action(lv_obj_t *btns, const char *txt) { lv_obj_t *mbox = lv_mbox_get_from_btn(btns); lv_obj_t *dark_bg = lv_obj_get_parent(mbox); lv_obj_del(dark_bg); // Deletes children also (mbox). return LV_RES_INV; } bool nyx_emmc_check_battery_enough() { if (h_cfg.devmode) return true; int batt_volt = 0; max17050_get_property(MAX17050_VCELL, &batt_volt); if (batt_volt && batt_volt < 3650) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_mbox_set_text(mbox, "#FF8000 Battery Check#\n\n" "#FFDD00 Battery is not enough to carry on#\n" "#FFDD00 with selected operation!#\n\n" "Charge to at least #C7EA46 3650 mV#, and try again!"); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return false; } return true; } static void _nyx_sd_card_issues_warning(void *param) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_mbox_set_text(mbox, "#FF8000 SD Card Issues Warning#\n\n" "#FFDD00 The SD Card is initialized in 1-bit mode!#\n" "#FFDD00 This might mean detached or broken connector!#\n\n" "You might want to check\n#C7EA46 Console Info# -> #C7EA46 microSD#"); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); } void nyx_window_toggle_buttons(lv_obj_t *win, bool disable) { lv_win_ext_t * ext = lv_obj_get_ext_attr(win); lv_obj_t * hbtn; hbtn = lv_obj_get_child_back(ext->header, NULL); hbtn = lv_obj_get_child_back(ext->header, hbtn); // Skip the title. if (disable) { while (hbtn != NULL) { lv_obj_set_opa_scale(hbtn, LV_OPA_40); lv_obj_set_opa_scale_enable(hbtn, true); lv_obj_set_click(hbtn, false); hbtn = lv_obj_get_child_back(ext->header, hbtn); } } else { while (hbtn != NULL) { lv_obj_set_opa_scale(hbtn, LV_OPA_COVER); lv_obj_set_click(hbtn, true); hbtn = lv_obj_get_child_back(ext->header, hbtn); } } } lv_res_t nyx_win_close_action(lv_obj_t * btn) { close_btn = NULL; return lv_win_close_action(btn); } lv_obj_t *nyx_create_standard_window(const char *win_title, lv_action_t close_action) { static lv_style_t win_bg_style; lv_style_copy(&win_bg_style, &lv_style_plain); win_bg_style.body.main_color = lv_theme_get_current()->bg->body.main_color; win_bg_style.body.grad_color = win_bg_style.body.main_color; lv_obj_t *win = lv_win_create(lv_scr_act(), NULL); lv_win_set_title(win, win_title); lv_win_set_style(win, LV_WIN_STYLE_BG, &win_bg_style); lv_obj_set_size(win, LV_HOR_RES, LV_VER_RES); if (!close_action) close_btn = lv_win_add_btn(win, NULL, SYMBOL_CLOSE" Close", nyx_win_close_action); else close_btn = lv_win_add_btn(win, NULL, SYMBOL_CLOSE" Close", close_action); return win; } static bool launch_logs_enable = false; static void _launch_hos(u8 autoboot, u8 autoboot_list) { b_cfg->boot_cfg = BOOT_CFG_AUTOBOOT_EN; if (launch_logs_enable) b_cfg->boot_cfg |= BOOT_CFG_FROM_LAUNCH; b_cfg->autoboot = autoboot; b_cfg->autoboot_list = autoboot_list; void (*main_ptr)() = (void *)nyx_str->hekate; sd_end(); hw_deinit(false); (*main_ptr)(); } void reload_nyx(lv_obj_t *obj, bool force) { if (!force) { sd_mount(); // Check that Nyx still exists. if (f_stat("bootloader/sys/nyx.bin", NULL)) { sd_unmount(); // Remove lvgl object in case of being invoked from a window. if (obj) lv_obj_del(obj); do_auto_reload = false; return; } } b_cfg->boot_cfg = BOOT_CFG_AUTOBOOT_EN; b_cfg->autoboot = 0; b_cfg->autoboot_list = 0; b_cfg->extra_cfg = 0; void (*main_ptr)() = (void *)nyx_str->hekate; sd_end(); hw_deinit(false); (*main_ptr)(); } static lv_res_t reload_action(lv_obj_t *btns, const char *txt) { if (!lv_btnm_get_pressed(btns)) reload_nyx(NULL, false); return nyx_mbox_action(btns, txt); } static lv_res_t _removed_sd_action(lv_obj_t *btns, const char *txt) { u32 btnidx = lv_btnm_get_pressed(btns); switch (btnidx) { case 0: if (h_cfg.rcm_patched) power_set_state(POWER_OFF_REBOOT); else power_set_state(REBOOT_RCM); break; case 1: power_set_state(POWER_OFF_RESET); break; case 2: sd_end(); do_auto_reload = false; break; } return nyx_mbox_action(btns, txt); } static void _check_sd_card_removed(void *params) { static lv_obj_t *dark_bg = NULL; // The following checks if SDMMC_1 is initialized. // If yes and card was removed, shows a message box, // that will reload Nyx, when the card is inserted again. if (!do_auto_reload && sd_get_card_removed()) { dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\221Reboot (RCM)", "\221Power Off", "\221Do not reload", "" }; static const char * mbox_btn_map_rcm_patched[] = { "\221Reboot", "\221Power Off", "\221Do not reload", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES * 6 / 9); lv_mbox_set_text(mbox, "\n#FF8000 SD card was removed!#\n\n#96FF00 Nyx will reload after inserting it.#\n\nReminder that you can use UMS instead of removing it.\n"); lv_mbox_add_btns(mbox, h_cfg.rcm_patched ? mbox_btn_map_rcm_patched : mbox_btn_map, _removed_sd_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); do_auto_reload = true; } // If in reload state and card was inserted, reload nyx. if (do_auto_reload && !sd_get_card_removed()) reload_nyx(dark_bg, false); } lv_task_t *task_emmc_errors; static void _nyx_emmc_issues_warning(void *params) { if (emmc_get_mode() < EMMC_MMC_HS400) { // Remove task. lv_task_del(task_emmc_errors); lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_mbox_set_text(mbox, "#FF8000 eMMC Issues Warning#\n\n" "#FFDD00 Your eMMC is initialized in a slower mode!#\n" "#FFDD00 This might mean hardware issues!#\n\n" "You might want to check\n#C7EA46 Console Info# -> #C7EA46 eMMC#"); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); } } static lv_res_t _reboot_ofw_action(lv_obj_t *btns, const char *txt) { if (!lv_btnm_get_pressed(btns)) power_set_state(REBOOT_BYPASS_FUSES); return nyx_mbox_action(btns, txt); } static lv_res_t _create_mbox_reboot_ofw() { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\221OK", "\221Cancel", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES * 2 / 3); lv_mbox_set_text(mbox, "#FF8000 Warning#\n\n" "#FFDD00 Your real DRAM ID does not match your RAM!#\n" "#FFDD00 Density and rank differ!#\n\n" "#FFDD00 Choosing to boot that way will cause #\n" "#FFDD00 performance degradation or even crashes.#\n\n" "Do you really want to boot via OFW method?#"); lv_mbox_add_btns(mbox, mbox_btn_map, _reboot_ofw_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } static lv_res_t _reboot_action(lv_obj_t *btns, const char *txt) { u32 btnidx = lv_btnm_get_pressed(btns); u8 dram_id = fuse_read_dramid(true); u8 dram_id_adj = fuse_read_dramid(false); // No OFW support if fuses burnt to 7. Custom secmon is mandatory. bool t210_8gb_dramid = !h_cfg.t210b01 && dram_id == LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX; // Warn against OFW if T210B01 and dram id has the wrong density and ranks with actual ram. bool unmatched_fuses = h_cfg.t210b01 && dram_id_adj == LPDDR4X_AULA_8GB_SAMSUNG_K4UBE3D4AA_MGCL && dram_id != dram_id_adj; switch (btnidx) { case 0: if (unmatched_fuses) _create_mbox_reboot_ofw(); else power_set_state(REBOOT_BYPASS_FUSES); break; case 1: if (h_cfg.rcm_patched && !t210_8gb_dramid) power_set_state(POWER_OFF_REBOOT); else power_set_state(REBOOT_RCM); break; } return nyx_mbox_action(btns, txt); } static lv_res_t _poweroff_action(lv_obj_t *btns, const char *txt) { if (!lv_btnm_get_pressed(btns)) power_set_state(POWER_OFF_RESET); return nyx_mbox_action(btns, txt); } static lv_res_t _create_mbox_reload(lv_obj_t *btn) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\221Reload", "\221Cancel", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES * 4 / 10); lv_mbox_set_text(mbox, "#FF8000 Do you really want#\n#FF8000 to reload hekate & Nyx?#\n\n" "This also checks\n#96FF00 bootloader/update.bin#\nfor hekate updates"); lv_mbox_add_btns(mbox, mbox_btn_map, reload_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } static lv_res_t _create_mbox_reboot(lv_obj_t *btn) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\221OFW", "\221RCM", "\221Cancel", "" }; static const char * mbox_btn_map_autorcm[] = { "\261OFW", "\221RCM", "\221Cancel", "" }; static const char * mbox_btn_map_patched[] = { "\221OFW", "\221Normal", "\221Cancel", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 2); lv_mbox_set_text(mbox, "#FF8000 Choose where to reboot:#"); // No OFW support if fuses burnt to 7. Custom secmon is mandatory. bool t210_8gb_dramid = !h_cfg.t210b01 && fuse_read_dramid(true) == LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX; if (h_cfg.rcm_patched && !t210_8gb_dramid) lv_mbox_add_btns(mbox, mbox_btn_map_patched, _reboot_action); else if (t210_8gb_dramid) lv_mbox_add_btns(mbox, mbox_btn_map_autorcm, _reboot_action); else lv_mbox_add_btns(mbox, !h_cfg.autorcm_enabled ? mbox_btn_map : mbox_btn_map_autorcm, _reboot_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } static lv_res_t _create_mbox_poweroff(lv_obj_t *btn) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\221Power Off", "\221Cancel", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES * 4 / 10); lv_mbox_set_text(mbox, "#FF8000 Do you really want#\n#FF8000 to power off?#"); lv_mbox_add_btns(mbox, mbox_btn_map, _poweroff_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } void nyx_create_onoff_button(lv_theme_t *th, lv_obj_t *parent, lv_obj_t *btn, const char *btn_name, lv_action_t action, bool transparent) { // Create buttons that are flat and text, plus On/Off switch. static lv_style_t btn_onoff_rel_hos_style, btn_onoff_pr_hos_style; lv_style_copy(&btn_onoff_rel_hos_style, th->btn.rel); btn_onoff_rel_hos_style.body.shadow.width = 0; btn_onoff_rel_hos_style.body.border.width = 0; btn_onoff_rel_hos_style.body.padding.hor = 0; btn_onoff_rel_hos_style.body.radius = 0; btn_onoff_rel_hos_style.body.empty = 1; lv_style_copy(&btn_onoff_pr_hos_style, &btn_onoff_rel_hos_style); if (transparent) { btn_onoff_pr_hos_style.body.main_color = LV_COLOR_HEX(0xFFFFFF); btn_onoff_pr_hos_style.body.opa = 35; } else btn_onoff_pr_hos_style.body.main_color = LV_COLOR_HEX(theme_bg_color ? (theme_bg_color + 0x101010) : 0x2D2D2D); // COLOR_HOS_BG_LIGHT. btn_onoff_pr_hos_style.body.grad_color = btn_onoff_pr_hos_style.body.main_color; btn_onoff_pr_hos_style.text.color = th->btn.pr->text.color; btn_onoff_pr_hos_style.body.empty = 0; lv_obj_t *label_btn = lv_label_create(btn, NULL); lv_obj_t *label_btnsw = NULL; lv_label_set_recolor(label_btn, true); label_btnsw = lv_label_create(btn, NULL); lv_label_set_recolor(label_btnsw, true); lv_btn_set_layout(btn, LV_LAYOUT_OFF); lv_btn_set_style(btn, LV_BTN_STYLE_REL, &btn_onoff_rel_hos_style); lv_btn_set_style(btn, LV_BTN_STYLE_PR, &btn_onoff_pr_hos_style); lv_btn_set_style(btn, LV_BTN_STYLE_TGL_REL, &btn_onoff_rel_hos_style); lv_btn_set_style(btn, LV_BTN_STYLE_TGL_PR, &btn_onoff_pr_hos_style); lv_btn_set_fit(btn, false, true); lv_obj_set_width(btn, lv_obj_get_width(parent)); lv_btn_set_toggle(btn, true); lv_label_set_text(label_btn, btn_name); lv_label_set_text(label_btnsw, "#D0D0D0 OFF#"); lv_obj_align(label_btn, btn, LV_ALIGN_IN_LEFT_MID, LV_DPI / 4, 0); lv_obj_align(label_btnsw, btn, LV_ALIGN_IN_RIGHT_MID, -LV_DPI / 4, -LV_DPI / 10); if (action) lv_btn_set_action(btn, LV_BTN_ACTION_CLICK, action); } static void _create_text_button(lv_theme_t *th, lv_obj_t *parent, lv_obj_t *btn, const char *btn_name, lv_action_t action) { // Create buttons that are flat and only have a text label. static lv_style_t btn_onoff_rel_hos_style, btn_onoff_pr_hos_style; lv_style_copy(&btn_onoff_rel_hos_style, th->btn.rel); btn_onoff_rel_hos_style.body.shadow.width = 0; btn_onoff_rel_hos_style.body.border.width = 0; btn_onoff_rel_hos_style.body.radius = 0; btn_onoff_rel_hos_style.body.padding.hor = LV_DPI / 4; btn_onoff_rel_hos_style.body.empty = 1; lv_style_copy(&btn_onoff_pr_hos_style, &btn_onoff_rel_hos_style); if (hekate_bg) { btn_onoff_pr_hos_style.body.main_color = LV_COLOR_HEX(0xFFFFFF); btn_onoff_pr_hos_style.body.opa = 35; } else btn_onoff_pr_hos_style.body.main_color = LV_COLOR_HEX(theme_bg_color ? (theme_bg_color + 0x101010) : 0x2D2D2D); // COLOR_HOS_BG_LIGHT btn_onoff_pr_hos_style.body.grad_color = btn_onoff_pr_hos_style.body.main_color; btn_onoff_pr_hos_style.text.color = th->btn.pr->text.color; btn_onoff_pr_hos_style.body.empty = 0; lv_obj_t *label_btn = lv_label_create(btn, NULL); lv_label_set_recolor(label_btn, true); lv_btn_set_style(btn, LV_BTN_STYLE_REL, &btn_onoff_rel_hos_style); lv_btn_set_style(btn, LV_BTN_STYLE_PR, &btn_onoff_pr_hos_style); lv_btn_set_style(btn, LV_BTN_STYLE_TGL_REL, &btn_onoff_rel_hos_style); lv_btn_set_style(btn, LV_BTN_STYLE_TGL_PR, &btn_onoff_pr_hos_style); lv_btn_set_fit(btn, true, true); lv_label_set_text(label_btn, btn_name); if (action) lv_btn_set_action(btn, LV_BTN_ACTION_CLICK, action); } static void _create_tab_about(lv_theme_t * th, lv_obj_t * parent) { lv_obj_t * lbl_credits = lv_label_create(parent, NULL); lv_obj_align(lbl_credits, NULL, LV_ALIGN_IN_TOP_LEFT, LV_DPI / 2, LV_DPI / 2); lv_label_set_style(lbl_credits, &monospace_text); lv_label_set_recolor(lbl_credits, true); lv_label_set_static_text(lbl_credits, "#C7EA46 hekate# (c) 2018, #C7EA46 naehrwert#, #C7EA46 st4rk#\n" " (c) 2018-2026, #C7EA46 CTCaer#\n" "\n" "#C7EA46 Nyx# (c) 2019-2026, #C7EA46 CTCaer#\n" "\n" "Thanks to: #00CCFF derrek, nedwill, plutoo, #\n" " #00CCFF shuffle2, smea, thexyz, yellows8 #\n" "\n" "Greetings to: fincs, hexkyz, SciresM,\n" " Shiny Quagsire, WinterMute\n" "\n" "Open source and free packages used: \n" // Label width alignment padding. " - Littlev Graphics Library,\n" " Copyright (c) 2016-2018, Gabor Kiss-Vamosi\n\n" " - FatFs R0.13c,\n" " Copyright (c) 2006-2018, ChaN\n" " Copyright (c) 2018-2022, CTCaer\n\n" " - bcl-1.2.0,\n" " Copyright (c) 2003-2006, Marcus Geelnard\n\n" " - blz,\n" " Copyright (c) 2018, SciresM\n\n" " - elfload,\n" " Copyright (c) 2014, Owen Shepherd\n" " Copyright (c) 2018, M4xw" ); lv_obj_t * lbl_octopus = lv_label_create(parent, NULL); lv_obj_align(lbl_octopus, lbl_credits, LV_ALIGN_OUT_RIGHT_TOP, -LV_DPI / 10, 0); lv_label_set_style(lbl_octopus, &monospace_text); lv_label_set_recolor(lbl_octopus, true); lv_label_set_static_text(lbl_octopus, "\n#00CCFF ___#\n" "#00CCFF .-' `'.#\n" "#00CCFF / \\#\n" "#00CCFF | ;#\n" "#00CCFF | | ___.--,#\n" "#00CCFF _.._ |0) = (0) | _.---'`__.-( (_.#\n" "#00CCFF __.--'`_.. '.__.\\ '--. \\_.-' ,.--'` `\"\"`#\n" "#00CCFF ( ,.--'` ',__ /./; ;, '.__.'` __#\n" "#00CCFF _`) ) .---.__.' / | |\\ \\__..--\"\" \"\"\"--.,_#\n" "#00CCFF `---' .'.''-._.-'`_./ /\\ '. \\ _.--''````'''--._`-.__.'#\n" "#00CCFF | | .' _.-' | | \\ \\ '. `----`#\n" "#00CCFF \\ \\/ .' \\ \\ '. '-._)#\n" "#00CCFF \\/ / \\ \\ `=.__`'-.#\n" "#00CCFF / /\\ `) ) / / `\"\".`\\#\n" "#00CCFF , _.-'.'\\ \\ / / ( ( / /#\n" "#00CCFF `--'` ) ) .-'.' '.'. | (#\n" "#00CCFF (/` ( (` ) ) '-; ##00FFCC [switchbrew]#\n" "#00CCFF ` '-; (-'#" ); lv_obj_t *hekate_img = lv_img_create(parent, NULL); lv_img_set_src(hekate_img, &hekate_logo); lv_obj_align(hekate_img, lbl_octopus, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI * 2 / 3); lv_obj_t *ctcaer_img = lv_img_create(parent, NULL); lv_img_set_src(ctcaer_img, &ctcaer_logo); lv_obj_align(ctcaer_img, lbl_octopus, LV_ALIGN_OUT_BOTTOM_RIGHT, 0, LV_DPI * 2 / 3); char version[32]; s_printf(version, "Nyx %s%d.%d.%d%c", NYX_VER_RL ? "v" : "", NYX_VER_MJ, NYX_VER_MN, NYX_VER_HF, NYX_VER_RL > 'A' ? NYX_VER_RL : 0); lv_obj_t * lbl_ver = lv_label_create(parent, NULL); lv_obj_align(lbl_ver, ctcaer_img, LV_ALIGN_OUT_BOTTOM_RIGHT, -LV_DPI / 20, LV_DPI / 4); lv_label_set_style(lbl_ver, &monospace_text); lv_label_set_text(lbl_ver, version); } static void _update_status_bar(void *params) { static char *label = NULL; u16 soc_temp = 0; u32 batt_percent = 0; int charge_status = 0; int batt_volt = 0; int batt_curr = 0; rtc_time_t time; // Get sensor data. max77620_rtc_get_time_adjusted(&time); soc_temp = tmp451_get_soc_temp(false); bq24193_get_property(BQ24193_ChargeStatus, &charge_status); max17050_get_property(MAX17050_RepSOC, (int *)&batt_percent); max17050_get_property(MAX17050_VCELL, &batt_volt); max17050_get_property(MAX17050_Current, &batt_curr); // Enable fan if more than 41 oC. u32 soc_temp_dec = soc_temp >> 8; fan_set_from_temp(soc_temp_dec); if (!label) label = (char *)malloc(512); // Set time and SoC temperature. s_printf(label, "%02d:%02d "SYMBOL_DOT" "SYMBOL_TEMPERATURE" %02d.%d", time.hour, time.min, soc_temp_dec, (soc_temp & 0xFF) / 10); lv_label_set_text(status_bar.time_temp, label); lv_obj_realign(status_bar.temp_symbol); lv_obj_realign(status_bar.temp_degrees); // Set battery percent and charging symbol. s_printf(label, " "SYMBOL_DOT" %d.%d%% ", (batt_percent >> 8) & 0xFF, (batt_percent & 0xFF) / 26); u8 batt_level = (batt_percent >> 8) & 0xFF; if (batt_level > 80) strcat(label, SYMBOL_BATTERY_FULL); else if (batt_level > 60) strcat(label, SYMBOL_BATTERY_3); else if (batt_level > 40) strcat(label, SYMBOL_BATTERY_2); else if (batt_level > 15) strcat(label, SYMBOL_BATTERY_1); else strcat(label, "#FF3C28 "SYMBOL_BATTERY_EMPTY"#"); // Set charging symbol. if (charge_status) strcat(label, " #FFDD00 "SYMBOL_CHARGE"#"); lv_label_set_text(status_bar.battery, label); lv_obj_realign(status_bar.battery); // Set battery current draw and voltage. s_printf(label, "#%s%d", batt_curr >= 0 ? "96FF00 +" : "FF3C28 ", batt_curr / 1000); bool voltage_empty = batt_volt < 3200; s_printf(label + strlen(label), " mA# (%s%d mV%s)", voltage_empty ? "#FF8000 " : "", batt_volt, voltage_empty ? " "SYMBOL_WARNING"#" : ""); lv_label_set_text(status_bar.battery_more, label); lv_obj_realign(status_bar.battery_more); } static lv_res_t _create_mbox_payloads(lv_obj_t *btn) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222Cancel", "\251", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES * 5 / 9); lv_mbox_set_text(mbox, "Select a payload to launch:"); // Create a list with all found payloads. //! TODO: SHould that be tabs with buttons? + Icon support? lv_obj_t *list = lv_list_create(mbox, NULL); payload_list = list; lv_obj_set_size(list, LV_HOR_RES * 3 / 7, LV_VER_RES * 3 / 7); lv_list_set_single_mode(list, true); if (sd_mount()) { lv_mbox_set_text(mbox, "#FFDD00 Failed to init SD!#"); goto out_end; } dirlist_t *filelist = dirlist("bootloader/payloads", NULL, 0); sd_unmount(); u32 i = 0; if (filelist) { while (true) { if (!filelist->name[i]) break; lv_list_add(list, NULL, filelist->name[i], launch_payload); i++; } free(filelist); } out_end: lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } typedef struct _launch_menu_entries_t { lv_obj_t *btn[20]; lv_obj_t *label[20]; } launch_menu_entries_t; static launch_menu_entries_t launch_ctxt; static lv_obj_t *launch_bg = NULL; static bool launch_bg_done = false; static lv_res_t _launch_more_cfg_action(lv_obj_t *btn) { lv_btn_ext_t *ext = lv_obj_get_ext_attr(btn); _launch_hos(ext->idx, 1); return LV_RES_OK; } static lv_res_t _win_launch_close_action(lv_obj_t * btn) { // Cleanup icons. for (u32 i = 0; i < (n_cfg.entries_5_col ? 10 : 8); i++) { lv_obj_t *btns = launch_ctxt.btn[i]; lv_btn_ext_t *ext = lv_obj_get_ext_attr(btns); if (ext->idx) { // This gets latest object, which is the button overlay. So iterate 2 times. lv_obj_t * img = lv_obj_get_child(btns, NULL); img = lv_obj_get_child(btns, img); lv_img_dsc_t *src = (lv_img_dsc_t *)lv_img_get_src(img); // Avoid freeing base icons. if ((src != icon_switch) && (src != icon_payload)) free(src); } } lv_obj_t * win = lv_win_get_from_btn(btn); lv_obj_del(win); if (n_cfg.home_screen && !launch_bg_done && hekate_bg) { lv_obj_set_opa_scale_enable(launch_bg, true); lv_obj_set_opa_scale(launch_bg, LV_OPA_TRANSP); //if (launch_bg) // lv_obj_del(launch_bg); //! TODO: Find why it hangs. launch_bg_done = true; } close_btn = NULL; return LV_RES_INV; } static lv_obj_t *create_window_launch(const char *win_title) { static lv_style_t win_bg_style, win_header; lv_style_copy(&win_bg_style, &lv_style_plain); win_bg_style.body.main_color = lv_theme_get_current()->bg->body.main_color; win_bg_style.body.grad_color = win_bg_style.body.main_color; if (n_cfg.home_screen && !launch_bg_done && hekate_bg) { lv_obj_t *img = lv_img_create(lv_scr_act(), NULL); lv_img_set_src(img, hekate_bg); launch_bg = img; } lv_obj_t *win = lv_win_create(lv_scr_act(), NULL); lv_win_set_title(win, win_title); lv_obj_set_size(win, LV_HOR_RES, LV_VER_RES); if (n_cfg.home_screen && !launch_bg_done && hekate_bg) { lv_style_copy(&win_header, lv_theme_get_current()->win.header); win_header.body.opa = LV_OPA_TRANSP; win_bg_style.body.opa = LV_OPA_TRANSP; lv_win_set_style(win, LV_WIN_STYLE_HEADER, &win_header); } lv_win_set_style(win, LV_WIN_STYLE_BG, &win_bg_style); close_btn = lv_win_add_btn(win, NULL, SYMBOL_CLOSE" Close", _win_launch_close_action); return win; } static lv_res_t _launch_action(lv_obj_t *btn) { lv_btn_ext_t *ext = lv_obj_get_ext_attr(btn); _launch_hos(ext->idx, 0); return LV_RES_OK; } static lv_res_t logs_onoff_toggle(lv_obj_t *btn) { launch_logs_enable = !launch_logs_enable; lv_obj_t *label_btn = lv_obj_get_child(btn, NULL); char label_text[64]; strcpy(label_text, lv_label_get_text(label_btn)); label_text[strlen(label_text) - 12] = 0; if (!launch_logs_enable) { strcat(label_text, "#D0D0D0 OFF#"); lv_label_set_text(label_btn, label_text); } else { s_printf(label_text, "%s%s%s", label_text, text_color, " ON #"); lv_label_set_text(label_btn, label_text); } return LV_RES_OK; } typedef struct _launch_button_pos_t { u16 btn_x; u16 btn_y; u16 lbl_x; u16 lbl_y; } launch_button_pos_t; static const launch_button_pos_t launch_button_pos8[8] = { // First row. { 19, 36, 0, 245 }, { 340, 36, 321, 245 }, { 661, 36, 642, 245 }, { 982, 36, 963, 245 }, // Second row. { 19, 313, 0, 522 }, { 340, 313, 321, 522 }, { 661, 313, 642, 522 }, { 982, 313, 963, 522 } }; static const launch_button_pos_t launch_button_pos10[10] = { // First row. { 19, 36, 0, 245}, {260, 36, 241, 245}, {501, 36, 482, 245}, {742, 36, 723, 245}, {983, 36, 964, 245}, // Second row. { 19, 313, 0, 522}, {260, 313, 241, 522}, {501, 313, 482, 522}, {742, 313, 723, 522}, {983, 313, 964, 522} }; static lv_res_t _create_window_home_launch(lv_obj_t *btn) { const u32 max_entries = n_cfg.entries_5_col ? 10 : 8; const launch_button_pos_t *launch_button_pos = n_cfg.entries_5_col ? launch_button_pos10 : launch_button_pos8; char *icon_path; static lv_style_t btn_home_noborder_rel; lv_style_copy(&btn_home_noborder_rel, lv_theme_get_current()->btn.rel); btn_home_noborder_rel.body.opa = LV_OPA_0; btn_home_noborder_rel.body.border.width = 4; btn_home_noborder_rel.body.border.opa = LV_OPA_0; static lv_style_t btn_home_transp_rel; lv_style_copy(&btn_home_transp_rel, lv_theme_get_current()->btn.rel); btn_home_transp_rel.body.opa = LV_OPA_0; btn_home_transp_rel.body.border.width = 4; static lv_style_t btn_home_transp_pr; lv_style_copy(&btn_home_transp_pr, lv_theme_get_current()->btn.pr); btn_home_transp_pr.body.main_color = LV_COLOR_HEX(0xFFFFFF); btn_home_transp_pr.body.grad_color = btn_home_transp_pr.body.main_color; btn_home_transp_pr.body.opa = LV_OPA_30; static lv_style_t btn_label_home_transp; lv_style_copy(&btn_label_home_transp, lv_theme_get_current()->cont); btn_label_home_transp.body.opa = LV_OPA_TRANSP; lv_obj_t *win; bool more_cfg = false; bool combined_cfg = false; if (btn) { if (strcmp(lv_label_get_text(lv_obj_get_child(btn, NULL)) + 8,"Launch#")) more_cfg = true; } else { switch (n_cfg.home_screen) { case 1: // All configs. combined_cfg = true; break; case 3: // More configs more_cfg = true; break; } } if (!btn) win = create_window_launch(SYMBOL_GPS" hekate - Launch"); else if (!more_cfg) win = create_window_launch(SYMBOL_GPS" Launch"); else win = create_window_launch(SYMBOL_GPS" More Configurations"); lv_win_add_btn(win, NULL, SYMBOL_LIST" Logs #D0D0D0 OFF#", logs_onoff_toggle); launch_logs_enable = false; lv_cont_set_fit(lv_page_get_scrl(lv_win_get_content(win)), false, false); lv_page_set_scrl_height(lv_win_get_content(win), 572); lv_btn_ext_t * ext; lv_obj_t *btn_boot_entry; lv_obj_t *boot_entry_lbl_cont; lv_obj_t *boot_entry_label; bool no_boot_entries = false; // Create Boot Entry buttons. // Buttons are 200 x 200 with 4 pixel borders. // Icons must be <= 192 x 192. // Create first Button. btn_boot_entry = lv_btn_create(win, NULL); launch_ctxt.btn[0] = btn_boot_entry; lv_obj_set_size(btn_boot_entry, 200, 200); lv_obj_set_pos(btn_boot_entry, launch_button_pos[0].btn_x, launch_button_pos[0].btn_y); lv_obj_set_opa_scale(btn_boot_entry, LV_OPA_0); lv_obj_set_opa_scale_enable(btn_boot_entry, true); lv_btn_set_layout(btn_boot_entry, LV_LAYOUT_OFF); boot_entry_lbl_cont = lv_cont_create(win, NULL); boot_entry_label = lv_label_create(boot_entry_lbl_cont, NULL); lv_obj_set_style(boot_entry_label, &hint_small_style_white); lv_label_set_text(boot_entry_label, ""); launch_ctxt.label[0] = boot_entry_label; lv_cont_set_fit(boot_entry_lbl_cont, false, false); lv_cont_set_layout(boot_entry_lbl_cont, LV_LAYOUT_CENTER); lv_obj_set_size(boot_entry_lbl_cont, 238, 20); lv_obj_set_pos(boot_entry_lbl_cont, launch_button_pos[0].lbl_x, launch_button_pos[0].lbl_y); lv_obj_set_style(boot_entry_lbl_cont, &btn_label_home_transp); // Create the rest of the buttons. for (u32 btn_idx = 1; btn_idx < (n_cfg.entries_5_col ? 10 : 8); btn_idx++) { btn_boot_entry = lv_btn_create(win, btn_boot_entry); launch_ctxt.btn[btn_idx] = btn_boot_entry; lv_obj_set_pos(btn_boot_entry, launch_button_pos[btn_idx].btn_x, launch_button_pos[btn_idx].btn_y); boot_entry_lbl_cont = lv_cont_create(win, boot_entry_lbl_cont); boot_entry_label = lv_label_create(boot_entry_lbl_cont, boot_entry_label); lv_obj_set_pos(boot_entry_lbl_cont, launch_button_pos[btn_idx].lbl_x, launch_button_pos[btn_idx].lbl_y); launch_ctxt.label[btn_idx] = boot_entry_label; } // Create colorized icon style based on its parent style. static lv_style_t img_style; lv_style_copy(&img_style, &lv_style_plain); img_style.image.color = COLOR_HOS_TURQUOISE_EX(n_cfg.theme_color); img_style.image.intense = LV_OPA_COVER; // Parse ini boot entries and set buttons/icons. char *tmp_path = malloc(1024); u32 curr_btn_idx = 0; // Active buttons. LIST_INIT(ini_sections); if (sd_mount()) goto failed_sd_mount; // Check if we use custom system icons. bool icon_sw_custom = !f_stat("bootloader/res/icon_switch_custom.bmp", NULL); bool icon_pl_custom = !f_stat("bootloader/res/icon_payload_custom.bmp", NULL); // Choose what to parse. bool ini_parse_success = false; if (!more_cfg) ini_parse_success = !ini_parse(&ini_sections, "bootloader/hekate_ipl.ini", false); else ini_parse_success = !ini_parse(&ini_sections, "bootloader/ini", true); if (combined_cfg && !ini_parse_success) { ini_parsing: list_init(&ini_sections); ini_parse_success = !ini_parse(&ini_sections, "bootloader/ini", true); more_cfg = true; } if (!ini_parse_success) goto ini_parse_failed; // Iterate to all boot entries and load icons. u32 entry_idx = 1; LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_sections, link) { if (!strcmp(ini_sec->name, "config") || (ini_sec->type != INI_CHOICE)) continue; icon_path = NULL; bool payload = false; bool img_colorize = false; bool img_noborder = false; lv_img_dsc_t *bmp = NULL; lv_obj_t *img = NULL; // Check for icons. LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { if (!strcmp("icon", kv->key)) icon_path = kv->val; else if (!strcmp("payload", kv->key)) payload = true; } // If icon not found, check res folder for section_name.bmp. // If not, use defaults. if (!icon_path) { s_printf(tmp_path, "bootloader/res/%s.bmp", ini_sec->name); bmp = bmp_to_lvimg_obj(tmp_path); if (!bmp) { s_printf(tmp_path, "bootloader/res/%s_hue_nobox.bmp", ini_sec->name); bmp = bmp_to_lvimg_obj(tmp_path); if (bmp) { img_noborder = true; img_colorize = true; } if (!bmp) { s_printf(tmp_path, "bootloader/res/%s_hue.bmp", ini_sec->name); bmp = bmp_to_lvimg_obj(tmp_path); if (bmp) img_colorize = true; } if (!bmp) { s_printf(tmp_path, "bootloader/res/%s_nobox.bmp", ini_sec->name); bmp = bmp_to_lvimg_obj(tmp_path); if (bmp) img_noborder = true; } } if (!bmp && payload) { bmp = icon_payload; if (!icon_pl_custom) img_colorize = true; } } else { bmp = bmp_to_lvimg_obj(icon_path); // Check if both colorization and border are enabled. if (bmp && strlen(icon_path) > 14 && !memcmp(icon_path + strlen(icon_path) - 14, "_hue_nobox", 10)) { img_colorize = true; img_noborder = true; } else { // Check if colorization is enabled. if (bmp && strlen(icon_path) > 8 && !memcmp(icon_path + strlen(icon_path) - 8, "_hue", 4)) img_colorize = true; // Check if no border is enabled. if (bmp && strlen(icon_path) > 10 && !memcmp(icon_path + strlen(icon_path) - 10, "_nobox", 6)) img_noborder = true; } } // Enable button. lv_obj_set_opa_scale(launch_ctxt.btn[curr_btn_idx], LV_OPA_COVER); // Default to switch logo if no icon found at all. if (!bmp) { bmp = icon_switch; if (!icon_sw_custom) img_colorize = true; } //Set icon. if (bmp) { img = lv_img_create(launch_ctxt.btn[curr_btn_idx], NULL); if (img_colorize) lv_img_set_style(img, &img_style); lv_img_set_src(img, bmp); } // Add button mask/radius and align icon. lv_obj_t *btns = lv_btn_create(launch_ctxt.btn[curr_btn_idx], NULL); u32 btn_width = 200; u32 btn_height = 200; if (img_noborder) { btn_width = bmp->header.w + 4; btn_height = bmp->header.h + 4; if (btn_width > 200) btn_width = 200; if (btn_height > 200) btn_height = 200; lv_btn_set_style(launch_ctxt.btn[curr_btn_idx], LV_BTN_STYLE_REL, &btn_home_noborder_rel); lv_btn_set_style(launch_ctxt.btn[curr_btn_idx], LV_BTN_STYLE_PR, &btn_home_noborder_rel); } lv_obj_set_size(btns, btn_width, btn_height); lv_btn_set_style(btns, LV_BTN_STYLE_REL, img_noborder ? &btn_home_noborder_rel : &btn_home_transp_rel); lv_btn_set_style(btns, LV_BTN_STYLE_PR, &btn_home_transp_pr); // Button transparency if custom background, but loses color. // if (!btn && hekate_bg && !img_noborder) // { // lv_btn_set_style(launch_ctxt.btn[curr_btn_idx], LV_BTN_STYLE_REL, &btn_transp_rel); // lv_btn_set_style(launch_ctxt.btn[curr_btn_idx], LV_BTN_STYLE_PR, &btn_transp_pr); // lv_btn_set_style(btns, LV_BTN_STYLE_REL, &btn_home_noborder_rel); // } if (img) lv_obj_align(img, NULL, LV_ALIGN_CENTER, 0, 0); if (img_noborder) lv_obj_align(btns, NULL, LV_ALIGN_CENTER, 0, 0); // Set autoboot index. ext = lv_obj_get_ext_attr(btns); ext->idx = entry_idx; ext = lv_obj_get_ext_attr(launch_ctxt.btn[curr_btn_idx]); // Redundancy. ext->idx = entry_idx; // Set action. if (!more_cfg) lv_btn_set_action(btns, LV_BTN_ACTION_CLICK, _launch_action); else lv_btn_set_action(btns, LV_BTN_ACTION_CLICK, _launch_more_cfg_action); // Set button's label text. lv_label_set_text(launch_ctxt.label[curr_btn_idx], ini_sec->name); lv_obj_set_opa_scale(launch_ctxt.label[curr_btn_idx], LV_OPA_COVER); // Set rolling text if name is too big. int max_label_size = 238 - (n_cfg.entries_5_col ? 12 : 0); if (lv_obj_get_width(launch_ctxt.label[curr_btn_idx]) > max_label_size) { lv_label_set_long_mode(launch_ctxt.label[curr_btn_idx], LV_LABEL_LONG_ROLL); lv_obj_set_width(launch_ctxt.label[curr_btn_idx], max_label_size); } entry_idx++; curr_btn_idx++; // Check if we exceed max buttons. if (curr_btn_idx >= max_entries) break; } ini_free(&ini_sections); ini_parse_failed: // Reiterate the loop with more cfgs if combined. if (combined_cfg && (curr_btn_idx < (n_cfg.entries_5_col ? 10 : 8)) && !more_cfg) goto ini_parsing; failed_sd_mount: if (curr_btn_idx < 1) no_boot_entries = true; sd_unmount(); free(tmp_path); // No boot entries found. if (no_boot_entries) { lv_obj_t *label_error = lv_label_create(win, NULL); lv_label_set_recolor(label_error, true); if (!more_cfg) { lv_label_set_static_text(label_error, "#FFDD00 No main boot entries found...#\n" "Check that #96FF00 bootloader/hekate_ipl.ini# has boot entries\n" "or use #C7EA46 More configs# button for more boot entries."); } else { lv_label_set_static_text(label_error, "#FFDD00 No .ini or boot entries found...#\n" "Check that a .ini file exists in #96FF00 bootloader/ini/#\n" "and that it contains at least one entry."); } lv_obj_set_pos(label_error, 19, 0); } return LV_RES_OK; } static void _create_tab_home(lv_theme_t *th, lv_obj_t *parent) { lv_page_set_scrl_layout(parent, LV_LAYOUT_OFF); lv_page_set_scrl_fit(parent, false, false); lv_page_set_scrl_height(parent, 592); char btn_colored_text[64]; // Set brand label. lv_obj_t *label_brand = lv_label_create(parent, NULL); lv_label_set_recolor(label_brand, true); s_printf(btn_colored_text, "%s%s", text_color, " hekate#"); lv_label_set_text(label_brand, btn_colored_text); lv_obj_set_pos(label_brand, 50, 48); // Set tagline label. lv_obj_t *label_tagline = lv_label_create(parent, NULL); lv_obj_set_style(label_tagline, &hint_small_style_white); lv_label_set_static_text(label_tagline, "THE ALL IN ONE BOOTLOADER FOR ALL YOUR NEEDS"); lv_obj_set_pos(label_tagline, 50, 82); static lv_style_t icons; lv_style_copy(&icons, th->label.prim); icons.text.font = &hekate_symbol_120; // Launch button. lv_obj_t *btn_launch = lv_btn_create(parent, NULL); if (hekate_bg) { lv_btn_set_style(btn_launch, LV_BTN_STYLE_REL, &btn_transp_rel); lv_btn_set_style(btn_launch, LV_BTN_STYLE_PR, &btn_transp_pr); } lv_obj_t *label_btn = lv_label_create(btn_launch, NULL); lv_label_set_recolor(label_btn, true); lv_obj_set_style(label_btn, &icons); s_printf(btn_colored_text, "%s%s", text_color, " "SYMBOL_DOT"#"); lv_label_set_text(label_btn, btn_colored_text); lv_btn_set_action(btn_launch, LV_BTN_ACTION_CLICK, _create_window_home_launch); lv_obj_set_size(btn_launch, 256, 256); lv_obj_set_pos(btn_launch, 50, 160); lv_btn_set_layout(btn_launch, LV_LAYOUT_OFF); lv_obj_align(label_btn, NULL, LV_ALIGN_CENTER, 0, -28); lv_obj_t *label_btn2 = lv_label_create(btn_launch, NULL); lv_label_set_recolor(label_btn2, true); s_printf(btn_colored_text, "%s%s", text_color, " Launch#"); lv_label_set_text(label_btn2, btn_colored_text); lv_obj_align(label_btn2, NULL, LV_ALIGN_IN_TOP_MID, 0, 174); // More Configs button. lv_obj_t *btn_more_cfg = lv_btn_create(parent, btn_launch); label_btn = lv_label_create(btn_more_cfg, label_btn); s_printf(btn_colored_text, "%s%s", text_color, " "SYMBOL_CLOCK"#"); lv_label_set_text(label_btn, btn_colored_text); lv_btn_set_action(btn_more_cfg, LV_BTN_ACTION_CLICK, _create_window_home_launch); lv_btn_set_layout(btn_more_cfg, LV_LAYOUT_OFF); lv_obj_align(label_btn, NULL, LV_ALIGN_CENTER, 0, -28); label_btn2 = lv_label_create(btn_more_cfg, label_btn2); s_printf(btn_colored_text, "%s%s", text_color, " More Configs#"); lv_label_set_text(label_btn2, btn_colored_text); lv_obj_set_pos(btn_more_cfg, 341, 160); lv_obj_align(label_btn2, NULL, LV_ALIGN_IN_TOP_MID, 0, 174); // Quick Launch button. // lv_obj_t *btn_quick_launch = lv_btn_create(parent, NULL); // lv_obj_t *label_quick_launch = lv_label_create(btn_quick_launch, NULL); // lv_label_set_static_text(label_quick_launch, SYMBOL_EDIT" Quick Launch"); // lv_obj_set_width(btn_quick_launch, 256); // lv_obj_set_pos(btn_quick_launch, 343, 448); // lv_btn_set_action(btn_quick_launch, LV_BTN_ACTION_CLICK, NULL); // if (hekate_bg) // { // lv_btn_set_style(btn_quick_launch, LV_BTN_STYLE_REL, &btn_transp_rel); // lv_btn_set_style(btn_quick_launch, LV_BTN_STYLE_PR, &btn_transp_pr); // lv_btn_set_style(btn_quick_launch, LV_BTN_STYLE_INA, &btn_transp_ina); // } lv_obj_t *btn_nyx_options = lv_btn_create(parent, NULL); _create_text_button(th, NULL, btn_nyx_options, SYMBOL_SETTINGS" Nyx Settings", NULL); //lv_obj_set_width(btn_nyx_options, 256); lv_btn_set_action(btn_nyx_options, LV_BTN_ACTION_CLICK, create_win_nyx_options); lv_obj_align(btn_nyx_options, NULL, LV_ALIGN_IN_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI / 12); // Payloads button. lv_obj_t *btn_payloads = lv_btn_create(parent, btn_launch); label_btn = lv_label_create(btn_payloads, label_btn); s_printf(btn_colored_text, "%s%s", text_color, " "SYMBOL_OK"#"); lv_label_set_text(label_btn, btn_colored_text); lv_btn_set_action(btn_payloads, LV_BTN_ACTION_CLICK, _create_mbox_payloads); lv_btn_set_layout(btn_payloads, LV_LAYOUT_OFF); lv_obj_align(label_btn, NULL, LV_ALIGN_CENTER, 0, -28); label_btn2 = lv_label_create(btn_payloads, label_btn2); s_printf(btn_colored_text, "%s%s", text_color, " Payloads#"); lv_label_set_text(label_btn2, btn_colored_text); lv_obj_set_pos(btn_payloads, 632, 160); lv_obj_align(label_btn2, NULL, LV_ALIGN_IN_TOP_MID, 0, 174); lv_obj_t *line_sep = lv_line_create(parent, NULL); static const lv_point_t line_pp[] = { {0, 0}, {0, LV_DPI * 3} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, th->line.decor); lv_obj_align(line_sep, btn_payloads, LV_ALIGN_OUT_RIGHT_MID, 35, 0); // emuMMC manage button. lv_obj_t *btn_emummc = lv_btn_create(parent, btn_launch); label_btn = lv_label_create(btn_emummc, label_btn); s_printf(btn_colored_text, "%s%s", text_color, " "SYMBOL_LIST"#"); lv_label_set_text(label_btn, btn_colored_text); lv_btn_set_action(btn_emummc, LV_BTN_ACTION_CLICK, create_win_emummc_tools); lv_btn_set_layout(btn_emummc, LV_LAYOUT_OFF); lv_obj_align(label_btn, NULL, LV_ALIGN_CENTER, 0, -28); lv_obj_set_pos(btn_emummc, 959, 160); label_btn2 = lv_label_create(btn_emummc, label_btn2); s_printf(btn_colored_text, "%s%s", text_color, " emuMMC#"); lv_label_set_text(label_btn2, btn_colored_text); lv_obj_align(label_btn2, NULL, LV_ALIGN_IN_TOP_MID, 0, 174); // Create bottom right power buttons. lv_obj_t *btn_reboot = lv_btn_create(parent, NULL); lv_obj_t *btn_power_off = lv_btn_create(parent, NULL); lv_obj_t *btn_reload = lv_btn_create(parent, NULL); _create_text_button(th, NULL, btn_power_off, SYMBOL_POWER" Power Off", _create_mbox_poweroff); lv_obj_align(btn_power_off, NULL, LV_ALIGN_IN_BOTTOM_RIGHT, -LV_DPI / 4, -LV_DPI / 12); _create_text_button(th, NULL, btn_reboot, SYMBOL_REBOOT" Reboot", _create_mbox_reboot); lv_obj_align(btn_reboot, btn_power_off, LV_ALIGN_OUT_LEFT_MID, 0, 0); _create_text_button(th, NULL, btn_reload, SYMBOL_REFRESH" Reload", _create_mbox_reload); lv_obj_align(btn_reload, btn_reboot, LV_ALIGN_OUT_LEFT_MID, 0, 0); } static lv_res_t _save_options_action(lv_obj_t *btn) { static const char * mbox_btn_map[] = {"\251", "\222OK!", "\251", ""}; lv_obj_t * mbox = lv_mbox_create(lv_scr_act(), NULL); lv_mbox_set_recolor_text(mbox, true); int res = 0; if (!sd_mount()) res = create_config_entry(); if (!res) lv_mbox_set_text(mbox, "#FF8000 hekate Configuration#\n\n#96FF00 The configuration was saved to sd card!#"); else lv_mbox_set_text(mbox, "#FF8000 hekate Configuration#\n\n#FFDD00 Failed to save the configuration#\n#FFDD00 to sd card!#"); lv_mbox_add_btns(mbox, mbox_btn_map, NULL); lv_obj_set_top(mbox, true); nyx_options_clear_ini_changes_made(); sd_unmount(); return LV_RES_OK; } static void _create_status_bar(lv_theme_t * th) { static lv_obj_t *status_bar_bg; status_bar_bg = lv_cont_create(lv_layer_top(), NULL); status_bar.bar_bg = status_bar_bg; static lv_style_t status_bar_style; lv_style_copy(&status_bar_style, &lv_style_plain_color); status_bar_style.body.opa = LV_OPA_0; status_bar_style.body.shadow.width = 0; lv_obj_set_style(status_bar_bg, &status_bar_style); lv_obj_set_size(status_bar_bg, LV_HOR_RES, LV_DPI * 9 / 14); lv_obj_align(status_bar_bg, NULL, LV_ALIGN_IN_BOTTOM_LEFT, 0, 0); // Battery percentages. lv_obj_t *lbl_battery = lv_label_create(status_bar_bg, NULL); lv_label_set_recolor(lbl_battery, true); lv_label_set_text(lbl_battery, " "SYMBOL_DOT" 00.0% "SYMBOL_BATTERY_1" #FFDD00 "SYMBOL_CHARGE"#"); lv_obj_align(lbl_battery, NULL, LV_ALIGN_IN_RIGHT_MID, -LV_DPI * 6 / 11, 0); status_bar.battery = lbl_battery; // Amperages, voltages. lbl_battery = lv_label_create(status_bar_bg, lbl_battery); lv_obj_set_style(lbl_battery, &hint_small_style_white); lv_label_set_text(lbl_battery, "#96FF00 +0 mA# (0 mV)"); lv_obj_align(lbl_battery, status_bar.battery, LV_ALIGN_OUT_LEFT_MID, -LV_DPI / 25, -1); status_bar.battery_more = lbl_battery; lv_obj_t *lbl_left = lv_label_create(status_bar_bg, NULL); lv_label_set_text(lbl_left, SYMBOL_CLOCK" "); lv_obj_align(lbl_left, NULL, LV_ALIGN_IN_LEFT_MID, LV_DPI * 6 / 11, 0); // Time, temperature. lv_obj_t *lbl_time_temp = lv_label_create(status_bar_bg, NULL); lv_label_set_text(lbl_time_temp, "00:00 "SYMBOL_DOT" "SYMBOL_TEMPERATURE" 00.0"); lv_obj_align(lbl_time_temp, lbl_left, LV_ALIGN_OUT_RIGHT_MID, 0, 0); status_bar.time_temp = lbl_time_temp; lbl_left = lv_label_create(status_bar_bg, NULL); lv_label_set_text(lbl_left, " "SYMBOL_DOT); lv_obj_align(lbl_left, lbl_time_temp, LV_ALIGN_OUT_RIGHT_MID, 0, -LV_DPI / 14); status_bar.temp_symbol = lbl_left; lv_obj_t *lbl_degrees = lv_label_create(status_bar_bg, NULL); lv_label_set_text(lbl_degrees, "C"); lv_obj_align(lbl_degrees, lbl_left, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 50, LV_DPI / 14); status_bar.temp_degrees = lbl_degrees; // Middle button. //! TODO: Utilize it for more. lv_obj_t *btn_mid = lv_btn_create(status_bar_bg, NULL); lv_obj_t *lbl_mid = lv_label_create(btn_mid, NULL); lv_label_set_static_text(lbl_mid, "Save Options"); lv_obj_set_size(btn_mid, LV_DPI * 17 / 8, LV_DPI / 2); lv_obj_align(btn_mid, NULL, LV_ALIGN_CENTER, 0, 0); status_bar.mid = btn_mid; lv_obj_set_opa_scale(btn_mid, LV_OPA_0); lv_obj_set_opa_scale_enable(btn_mid, true); lv_obj_set_click(btn_mid, false); lv_btn_set_action(btn_mid, LV_BTN_ACTION_CLICK, _save_options_action); } static lv_res_t _create_mbox_save_changes_action(lv_obj_t *btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); nyx_mbox_action(btns, txt); if (!btn_idx) _save_options_action(NULL); return LV_RES_INV; } void nyx_check_ini_changes() { if (nyx_options_get_ini_changes_made()) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\222Save", "\222Cancel", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_mbox_set_text(mbox, "#FF8000 Main configuration#\n\n" "You changed the configuration!\n\n" "Do you want to save it?"); lv_mbox_add_btns(mbox, mbox_btn_map, _create_mbox_save_changes_action); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); nyx_options_clear_ini_changes_made(); } } static lv_res_t _show_hide_save_button(lv_obj_t *tv, uint16_t tab_idx) { if (tab_idx == 4) // Options. { lv_btn_set_action(status_bar.mid, LV_BTN_ACTION_CLICK, _save_options_action); lv_obj_set_opa_scale(status_bar.mid, LV_OPA_COVER); lv_obj_set_click(status_bar.mid, true); } else { lv_obj_set_opa_scale(status_bar.mid, LV_OPA_0); lv_obj_set_click(status_bar.mid, false); } nyx_check_ini_changes(); return LV_RES_OK; } static void _nyx_set_default_styles(lv_theme_t * th) { lv_style_copy(&mbox_darken, &lv_style_plain); mbox_darken.body.main_color = LV_COLOR_BLACK; mbox_darken.body.grad_color = mbox_darken.body.main_color; mbox_darken.body.opa = LV_OPA_30; lv_style_copy(&hint_small_style, th->label.hint); hint_small_style.text.letter_space = 1; hint_small_style.text.font = &interui_20; lv_style_copy(&hint_small_style_white, th->label.prim); hint_small_style_white.text.letter_space = 1; hint_small_style_white.text.font = &interui_20; lv_style_copy(&monospace_text, &lv_style_plain); monospace_text.body.main_color = COLOR_HOS_BG_DARKER; monospace_text.body.grad_color = COLOR_HOS_BG_DARKER; monospace_text.body.border.color = COLOR_HOS_BG_DARKER; monospace_text.body.border.width = 0; monospace_text.body.opa = LV_OPA_TRANSP; monospace_text.text.color = LV_COLOR_HEX(0xD8D8D8); monospace_text.text.font = &ubuntu_mono; monospace_text.text.letter_space = 0; monospace_text.text.line_space = 0; lv_style_copy(&btn_transp_rel, th->btn.rel); btn_transp_rel.body.main_color = LV_COLOR_HEX(0x444444); btn_transp_rel.body.grad_color = btn_transp_rel.body.main_color; btn_transp_rel.body.shadow.color = LV_COLOR_HEX(0x0F0F0F); btn_transp_rel.body.opa = LV_OPA_50; lv_style_copy(&btn_transp_pr, th->btn.pr); btn_transp_pr.body.main_color = LV_COLOR_HEX(0x888888); btn_transp_pr.body.grad_color = btn_transp_pr.body.main_color; btn_transp_pr.body.shadow.color = LV_COLOR_HEX(0x0F0F0F); btn_transp_pr.body.opa = LV_OPA_50; lv_style_copy(&btn_transp_tgl_rel, th->btn.tgl_rel); btn_transp_tgl_rel.body.main_color = LV_COLOR_HEX(0x444444); btn_transp_tgl_rel.body.grad_color = btn_transp_tgl_rel.body.main_color; btn_transp_tgl_rel.body.shadow.color = LV_COLOR_HEX(0x0F0F0F); btn_transp_tgl_rel.body.opa = LV_OPA_50; lv_style_copy(&btn_transp_tgl_pr, th->btn.tgl_pr); btn_transp_tgl_pr.body.main_color = LV_COLOR_HEX(0x888888); btn_transp_tgl_pr.body.grad_color = btn_transp_tgl_pr.body.main_color; btn_transp_tgl_pr.body.shadow.color = LV_COLOR_HEX(0x0F0F0F); btn_transp_tgl_pr.body.opa = LV_OPA_50; lv_style_copy(&btn_transp_ina, th->btn.ina); btn_transp_ina.body.main_color = LV_COLOR_HEX(0x292929); btn_transp_ina.body.grad_color = btn_transp_ina.body.main_color; btn_transp_ina.body.border.color = LV_COLOR_HEX(0x444444); btn_transp_ina.body.shadow.color = LV_COLOR_HEX(0x0F0F0F); btn_transp_ina.body.opa = LV_OPA_50; lv_style_copy(&ddlist_transp_bg, th->ddlist.bg); ddlist_transp_bg.body.main_color = LV_COLOR_HEX(0x2D2D2D); ddlist_transp_bg.body.grad_color = ddlist_transp_bg.body.main_color; ddlist_transp_bg.body.opa = 180; // 70.6%. lv_style_copy(&ddlist_transp_sel, th->ddlist.sel); ddlist_transp_sel.body.main_color = LV_COLOR_HEX(0x4D4D4D); ddlist_transp_sel.body.grad_color = ddlist_transp_sel.body.main_color; ddlist_transp_sel.body.opa = 180; // 70.6%. lv_style_copy(&tabview_btn_pr, th->tabview.btn.pr); tabview_btn_pr.body.main_color = LV_COLOR_HEX(0xFFFFFF); tabview_btn_pr.body.grad_color = tabview_btn_pr.body.main_color; tabview_btn_pr.body.opa = 35; // 13.7%. lv_style_copy(&tabview_btn_tgl_pr, th->tabview.btn.tgl_pr); tabview_btn_tgl_pr.body.main_color = LV_COLOR_HEX(0xFFFFFF); tabview_btn_tgl_pr.body.grad_color = tabview_btn_tgl_pr.body.main_color; tabview_btn_tgl_pr.body.opa = 35; // 13.7%. lv_color_t tmp_color = COLOR_HOS_TURQUOISE_EX(n_cfg.theme_color); text_color = malloc(32); s_printf(text_color, "#%06X", (u32)(tmp_color.full & 0xFFFFFF)); } lv_task_t *task_bpmp_clock; void first_time_bpmp_clock(void *param) { // Remove task. lv_task_del(task_bpmp_clock); // Max clock seems fine. Save it. n_cfg.bpmp_clock = 1; create_nyx_config_entry(false); } static void _nyx_main_menu(lv_theme_t * th) { static lv_style_t no_padding; lv_style_copy(&no_padding, &lv_style_transp); no_padding.body.padding.hor = 0; // Initialize global styles. _nyx_set_default_styles(th); // Create screen container. lv_obj_t *scr = lv_cont_create(NULL, NULL); lv_scr_load(scr); lv_cont_set_style(scr, th->bg); // Create base background and add a custom one if exists. lv_obj_t *cnr = lv_cont_create(scr, NULL); static lv_style_t base_bg_style; lv_style_copy(&base_bg_style, &lv_style_plain_color); base_bg_style.body.main_color = th->bg->body.main_color; base_bg_style.body.grad_color = base_bg_style.body.main_color; lv_cont_set_style(cnr, &base_bg_style); lv_obj_set_size(cnr, LV_HOR_RES, LV_VER_RES); if (hekate_bg) { lv_obj_t *img = lv_img_create(cnr, NULL); lv_img_set_src(img, hekate_bg); } // Add tabview page to screen. lv_obj_t *tv = lv_tabview_create(scr, NULL); if (hekate_bg) { lv_tabview_set_style(tv, LV_TABVIEW_STYLE_BTN_PR, &tabview_btn_pr); lv_tabview_set_style(tv, LV_TABVIEW_STYLE_BTN_TGL_PR, &tabview_btn_tgl_pr); } lv_tabview_set_sliding(tv, false); lv_obj_set_size(tv, LV_HOR_RES, LV_VER_RES); // Add all tabs content. char version[32]; char rel = (nyx_str->version >> 24) & 0xFF; s_printf(version, "hekate %s%d.%d.%d%c%c", rel ? "v" : "", nyx_str->version & 0xFF, (nyx_str->version >> 8) & 0xFF, (nyx_str->version >> 16) & 0xFF, rel > 'a' ? rel : 0, (nyx_str->info_ex.rsvd_flags & RSVD_FLAG_DRAM_8GB) ? '*' : 0); lv_obj_t *tab_about = lv_tabview_add_tab(tv, version); lv_obj_t *tab_home = lv_tabview_add_tab(tv, SYMBOL_HOME" Home"); lv_obj_t *tab_tools = lv_tabview_add_tab(tv, SYMBOL_TOOLS" Tools"); lv_page_set_style(tab_tools, LV_PAGE_STYLE_BG, &no_padding); lv_page_set_style(tab_tools, LV_PAGE_STYLE_SCRL, &no_padding); lv_obj_t *tab_info = lv_tabview_add_tab(tv, SYMBOL_INFO" Console Info"); lv_page_set_style(tab_info, LV_PAGE_STYLE_BG, &no_padding); lv_page_set_style(tab_info, LV_PAGE_STYLE_SCRL, &no_padding); lv_obj_t *tab_options = lv_tabview_add_tab(tv, SYMBOL_SETTINGS" Options"); _create_tab_about(th, tab_about); _create_tab_home(th, tab_home); create_tab_tools(th, tab_tools); create_tab_info(th, tab_info); create_tab_options(th, tab_options); lv_tabview_set_tab_act(tv, 1, false); // Create status bar. _create_status_bar(th); // Create tasks. system_tasks.task.dram_periodic_comp = lv_task_create(minerva_periodic_training, EMC_PERIODIC_TRAIN_MS, LV_TASK_PRIO_HIGHEST, NULL); lv_task_ready(system_tasks.task.dram_periodic_comp); system_tasks.task.status_bar = lv_task_create(_update_status_bar, 5000, LV_TASK_PRIO_LOW, NULL); lv_task_ready(system_tasks.task.status_bar); lv_task_create(_check_sd_card_removed, 2000, LV_TASK_PRIO_LOWEST, NULL); task_emmc_errors = lv_task_create(_nyx_emmc_issues_warning, 2000, LV_TASK_PRIO_LOWEST, NULL); lv_task_ready(task_emmc_errors); // Create top level global line separators. lv_obj_t *line = lv_cont_create(lv_layer_top(), NULL); static lv_style_t line_style; lv_style_copy(&line_style, &lv_style_plain_color); line_style.body.main_color = LV_COLOR_HEX(0xDDDDDD); // 0x505050 line_style.body.grad_color = line_style.body.main_color; line_style.body.shadow.width = 0; lv_cont_set_style(line, &line_style); lv_obj_set_size(line, LV_HOR_RES - LV_DPI * 3 / 5, 1); lv_obj_set_pos(line, LV_DPI * 3 / 10, 63); lv_obj_set_top(line, true); line = lv_cont_create(lv_layer_top(), line); lv_obj_set_pos(line, LV_DPI * 3 / 10, 656); lv_obj_set_top(line, true); // Option save button. lv_tabview_set_tab_load_action(tv, _show_hide_save_button); // Check if Nyx was launched with a function set. if (nyx_str->cfg & NYX_CFG_UMS) { nyx_str->cfg &= ~(NYX_CFG_UMS); lv_task_t *task_run_ums = lv_task_create(nyx_run_ums, LV_TASK_ONESHOT, LV_TASK_PRIO_LOWEST, (void *)&nyx_str->cfg); lv_task_once(task_run_ums); } else if (n_cfg.home_screen) _create_window_home_launch(NULL); if (!n_cfg.timeoffset) { lv_task_t *task_run_clock = lv_task_create(first_time_clock_edit, LV_TASK_ONESHOT, LV_TASK_PRIO_MID, NULL); lv_task_once(task_run_clock); } if (!n_cfg.bpmp_clock) task_bpmp_clock = lv_task_create(first_time_bpmp_clock, 10000, LV_TASK_PRIO_LOWEST, NULL); } void nyx_load_and_run() { memset(&system_tasks, 0, sizeof(system_maintenance_tasks_t)); lv_init(); gfx_con.fillbg = 1; // Initialize framebuffer drawing functions. lv_disp_drv_t disp_drv; lv_disp_drv_init(&disp_drv); disp_drv.disp_flush = _disp_fb_flush; lv_disp_drv_register(&disp_drv); // Initialize Joy-Con. if (!n_cfg.jc_disable) { lv_task_t *task_jc_init_hw = lv_task_create(jc_init_hw, LV_TASK_ONESHOT, LV_TASK_PRIO_LOWEST, NULL); lv_task_once(task_jc_init_hw); } lv_indev_drv_t indev_drv_jc; lv_indev_drv_init(&indev_drv_jc); indev_drv_jc.type = LV_INDEV_TYPE_POINTER; indev_drv_jc.read = _jc_virt_mouse_read; memset(&jc_drv_ctx, 0, sizeof(jc_lv_driver_t)); jc_drv_ctx.indev_jc = lv_indev_drv_register(&indev_drv_jc); close_btn = NULL; // Initialize touch. touch_enabled = !touch_power_on(); lv_indev_drv_t indev_drv_touch; lv_indev_drv_init(&indev_drv_touch); indev_drv_touch.type = LV_INDEV_TYPE_POINTER; indev_drv_touch.read = _fts_touch_read; jc_drv_ctx.indev_touch = lv_indev_drv_register(&indev_drv_touch); touchpad.touch = false; // Initialize temperature sensor. tmp451_init(); // Set hekate theme based on chosen hue. lv_theme_t *th = lv_theme_hekate_init(n_cfg.theme_bg, n_cfg.theme_color, NULL); lv_theme_set_current(th); // Create main menu _nyx_main_menu(th); jc_drv_ctx.cursor = lv_img_create(lv_scr_act(), NULL); lv_img_set_src(jc_drv_ctx.cursor, &touch_cursor); lv_obj_set_opa_scale(jc_drv_ctx.cursor, LV_OPA_TRANSP); lv_obj_set_opa_scale_enable(jc_drv_ctx.cursor, true); // Check if sd card issues. if (sd_get_mode() == SD_1BIT_HS25) { lv_task_t *task_run_sd_errors = lv_task_create(_nyx_sd_card_issues_warning, LV_TASK_ONESHOT, LV_TASK_PRIO_LOWEST, NULL); lv_task_once(task_run_sd_errors); } // Gui loop. if (h_cfg.t210b01) { // Minerva not supported on T210B01 yet. Slight power saving via spinlock. while (true) { lv_task_handler(); usleep(400); } } else { // Alternate DRAM frequencies. Total stall < 1ms. Saves 300+ mW. while (true) { minerva_change_freq(FREQ_1600); // Takes 295 us. lv_task_handler(); minerva_change_freq(FREQ_800); // Takes 80 us. usleep(125); // Min 20us. } } } ================================================ FILE: nyx/nyx_gui/frontend/gui.h ================================================ /* * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GUI_H_ #define _GUI_H_ #include typedef struct _emmc_tool_gui_t { lv_obj_t *label_log; lv_obj_t *label_info; lv_obj_t *label_pct; lv_obj_t *label_finish; lv_obj_t *bar; lv_style_t *bar_teal_bg; lv_style_t *bar_teal_ind; lv_style_t *bar_white_bg; lv_style_t *bar_white_ind; lv_style_t *bar_orange_bg; lv_style_t *bar_orange_ind; char *txt_buf; char *base_path; bool raw_emummc; } emmc_tool_gui_t; typedef struct _gui_status_bar_ctx { lv_obj_t *bar_bg; lv_obj_t *mid; lv_obj_t *time_temp; lv_obj_t *temp_symbol; lv_obj_t *temp_degrees; lv_obj_t *battery; lv_obj_t *battery_more; } gui_status_bar_ctx; extern lv_style_t hint_small_style; extern lv_style_t hint_small_style_white; extern lv_style_t monospace_text; extern lv_obj_t *payload_list; extern lv_obj_t *autorcm_btn; extern lv_obj_t *close_btn; extern lv_img_dsc_t *icon_switch; extern lv_img_dsc_t *icon_payload; extern lv_img_dsc_t *icon_lakka; extern lv_img_dsc_t *hekate_bg; extern lv_style_t btn_transp_rel, btn_transp_pr, btn_transp_tgl_rel, btn_transp_tgl_pr, btn_transp_ina; extern lv_style_t ddlist_transp_bg, ddlist_transp_sel; extern lv_style_t tabview_btn_pr, tabview_btn_tgl_pr; extern lv_style_t mbox_darken; extern char *text_color; extern gui_status_bar_ctx status_bar; void reload_nyx(lv_obj_t *obj, bool force); lv_img_dsc_t *bmp_to_lvimg_obj(const char *path); bool nyx_emmc_check_battery_enough(); lv_res_t nyx_mbox_action(lv_obj_t * btns, const char * txt); lv_res_t nyx_win_close_action(lv_obj_t * btn); void nyx_window_toggle_buttons(lv_obj_t *win, bool disable); lv_obj_t *nyx_create_standard_window(const char *win_title, lv_action_t close_action); void nyx_create_onoff_button(lv_theme_t *th, lv_obj_t *parent, lv_obj_t *btn, const char *btn_name, lv_action_t action, bool transparent); lv_res_t nyx_generic_onoff_toggle(lv_obj_t *btn); void manual_system_maintenance(bool refresh); void nyx_load_and_run(); #endif ================================================ FILE: nyx/nyx_gui/frontend/gui_emmc_tools.c ================================================ /* * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "gui.h" #include "gui_emmc_tools.h" #include "gui_tools.h" #include "fe_emmc_tools.h" #include "../config.h" #include "../hos/pkg1.h" #include "../hos/pkg2.h" #include "../hos/hos.h" #include extern char *emmcsn_path_impl(char *path, char *sub_dir, char *filename, sdmmc_storage_t *storage); typedef struct _emmc_backup_buttons_t { lv_obj_t *emmc_boot; lv_obj_t *emmc_raw_gpp; lv_obj_t *emmc_sys; lv_obj_t *emmc_usr; bool raw_emummc; bool restore; } emmc_backup_buttons_t; static emmc_backup_buttons_t emmc_btn_ctxt; static void _create_window_backup_restore(emmcPartType_t type, const char* win_label) { emmc_tool_gui_t emmc_tool_gui_ctxt; emmc_tool_gui_ctxt.raw_emummc = emmc_btn_ctxt.raw_emummc; char win_label_full[80]; s_printf(win_label_full, "%s%s", emmc_btn_ctxt.restore ? SYMBOL_DOWNLOAD" Restore " : SYMBOL_UPLOAD" Backup ", win_label+3); lv_obj_t *win = nyx_create_standard_window(win_label_full, NULL); //Disable buttons. nyx_window_toggle_buttons(win, true); // Create important info container. lv_obj_t *h1 = lv_cont_create(win, NULL); lv_cont_set_fit(h1, false, true); lv_obj_set_width(h1, (LV_HOR_RES / 9) * 5); lv_obj_set_click(h1, false); lv_cont_set_layout(h1, LV_LAYOUT_OFF); static lv_style_t h_style; lv_style_copy(&h_style, lv_cont_get_style(h1)); h_style.body.main_color = LV_COLOR_HEX(0x1d1d1d); h_style.body.grad_color = h_style.body.main_color; h_style.body.opa = LV_OPA_COVER; // Create log container. lv_obj_t *h2 = lv_cont_create(win, h1); lv_cont_set_style(h2, &h_style); lv_cont_set_fit(h2, false, false); lv_obj_set_size(h2, (LV_HOR_RES / 11) * 4, LV_DPI * 5); lv_cont_set_layout(h2, LV_LAYOUT_OFF); lv_obj_align(h2, h1, LV_ALIGN_OUT_RIGHT_TOP, 0, LV_DPI / 5); lv_obj_t *label_log = lv_label_create(h2, NULL); lv_label_set_recolor(label_log, true); lv_obj_set_style(label_log, &monospace_text); lv_label_set_long_mode(label_log, LV_LABEL_LONG_BREAK); lv_label_set_static_text(label_log, ""); lv_obj_set_width(label_log, lv_obj_get_width(h2)); lv_obj_align(label_log, h2, LV_ALIGN_IN_TOP_LEFT, LV_DPI / 10, LV_DPI / 10); emmc_tool_gui_ctxt.label_log = label_log; lv_obj_t *label_sep = lv_label_create(h1, NULL); lv_label_set_static_text(label_sep, ""); // Create info elements. lv_obj_t *label_info = lv_label_create(h1, NULL); lv_label_set_recolor(label_info, true); lv_obj_set_width(label_info, lv_obj_get_width(h1)); lv_label_set_static_text(label_info, "\n\n\n\n\n\n\n\n\n"); lv_obj_set_style(label_info, lv_theme_get_current()->label.prim); lv_obj_align(label_info, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 10); emmc_tool_gui_ctxt.label_info = label_info; static lv_style_t bar_teal_bg, bar_teal_ind, bar_orange_bg, bar_orange_ind, bar_white_ind; lv_style_copy(&bar_teal_bg, lv_theme_get_current()->bar.bg); bar_teal_bg.body.main_color = LV_COLOR_HEX(0x005a47); bar_teal_bg.body.grad_color = bar_teal_bg.body.main_color; lv_style_copy(&bar_teal_ind, lv_theme_get_current()->bar.indic); bar_teal_ind.body.main_color = LV_COLOR_HEX(0x00FFC9); bar_teal_ind.body.grad_color = bar_teal_ind.body.main_color; lv_style_copy(&bar_orange_bg, lv_theme_get_current()->bar.bg); bar_orange_bg.body.main_color = LV_COLOR_HEX(0x755000); bar_orange_bg.body.grad_color = bar_orange_bg.body.main_color; lv_style_copy(&bar_orange_ind, lv_theme_get_current()->bar.indic); bar_orange_ind.body.main_color = LV_COLOR_HEX(0xFFAE00); bar_orange_ind.body.grad_color = bar_orange_ind.body.main_color; lv_style_copy(&bar_white_ind, lv_theme_get_current()->bar.indic); bar_white_ind.body.main_color = LV_COLOR_HEX(0xF0F0F0); bar_white_ind.body.grad_color = bar_white_ind.body.main_color; emmc_tool_gui_ctxt.bar_teal_bg = &bar_teal_bg; emmc_tool_gui_ctxt.bar_teal_ind = &bar_teal_ind; emmc_tool_gui_ctxt.bar_orange_bg = &bar_orange_bg; emmc_tool_gui_ctxt.bar_orange_ind = &bar_orange_ind; emmc_tool_gui_ctxt.bar_white_bg = lv_theme_get_current()->bar.bg; emmc_tool_gui_ctxt.bar_white_ind = &bar_white_ind; lv_obj_t *bar = lv_bar_create(h1, NULL); lv_obj_set_size(bar, LV_DPI * 38 / 10, LV_DPI / 5); lv_bar_set_range(bar, 0, 100); lv_bar_set_value(bar, 0); lv_obj_align(bar, label_info, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 8); lv_obj_set_opa_scale(bar, LV_OPA_0); lv_obj_set_opa_scale_enable(bar, true); emmc_tool_gui_ctxt.bar = bar; lv_obj_t *label_pct= lv_label_create(h1, NULL); lv_label_set_recolor(label_pct, true); lv_label_set_static_text(label_pct, " "SYMBOL_DOT" 0%"); lv_obj_set_style(label_pct, lv_theme_get_current()->label.prim); lv_obj_align(label_pct, bar, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 20, 0); lv_obj_set_opa_scale(label_pct, LV_OPA_0); lv_obj_set_opa_scale_enable(label_pct, true); emmc_tool_gui_ctxt.label_pct = label_pct; lv_obj_t *label_finish = lv_label_create(h1, NULL); lv_label_set_recolor(label_finish, true); lv_label_set_static_text(label_finish, ""); lv_obj_set_style(label_finish, lv_theme_get_current()->label.prim); lv_obj_align(label_finish, bar, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI * 9 / 20); emmc_tool_gui_ctxt.label_finish = label_finish; if (!emmc_btn_ctxt.restore) dump_emmc_selected(type, &emmc_tool_gui_ctxt); else restore_emmc_selected(type, &emmc_tool_gui_ctxt); nyx_window_toggle_buttons(win, false); // Refresh AutoRCM button. if (emmc_btn_ctxt.restore && (type == PART_BOOT) && !emmc_btn_ctxt.raw_emummc) { if (get_set_autorcm_status(false)) lv_btn_set_state(autorcm_btn, LV_BTN_STATE_TGL_REL); else lv_btn_set_state(autorcm_btn, LV_BTN_STATE_REL); nyx_generic_onoff_toggle(autorcm_btn); if (h_cfg.rcm_patched) { lv_obj_set_click(autorcm_btn, false); lv_btn_set_state(autorcm_btn, LV_BTN_STATE_INA); } } } static lv_res_t _emmc_backup_buttons_decider(lv_obj_t *btn) { if (!nyx_emmc_check_battery_enough()) return LV_RES_OK; char *win_label = lv_label_get_text(lv_obj_get_child(btn, NULL)); if (emmc_btn_ctxt.emmc_boot == btn) _create_window_backup_restore(PART_BOOT, win_label); else if (emmc_btn_ctxt.emmc_raw_gpp == btn) _create_window_backup_restore(PART_RAW, win_label); else if (emmc_btn_ctxt.emmc_sys == btn) { if (!emmc_btn_ctxt.restore) _create_window_backup_restore(PART_SYSTEM, win_label); else _create_window_backup_restore(PART_GP_ALL, win_label); } else if (!emmc_btn_ctxt.restore && emmc_btn_ctxt.emmc_usr == btn) _create_window_backup_restore(PART_USER, win_label); return LV_RES_OK; } static lv_res_t _emmc_backup_buttons_raw_toggle(lv_obj_t *btn) { nyx_generic_onoff_toggle(btn); lv_obj_set_click(emmc_btn_ctxt.emmc_boot, true); lv_btn_set_state(emmc_btn_ctxt.emmc_boot, LV_BTN_STATE_REL); lv_obj_set_click(emmc_btn_ctxt.emmc_raw_gpp, true); lv_btn_set_state(emmc_btn_ctxt.emmc_raw_gpp, LV_BTN_STATE_REL); lv_obj_set_click(emmc_btn_ctxt.emmc_sys, true); lv_btn_set_state(emmc_btn_ctxt.emmc_sys, LV_BTN_STATE_REL); // Backup/Restore from and to eMMC. if (!(lv_btn_get_state(btn) & LV_BTN_STATE_TGL_REL)) { if (!emmc_btn_ctxt.restore) lv_label_set_static_text(lv_obj_get_child(emmc_btn_ctxt.emmc_boot, NULL), SYMBOL_UPLOAD" eMMC BOOT0 & BOOT1"); else lv_label_set_static_text(lv_obj_get_child(emmc_btn_ctxt.emmc_boot, NULL), SYMBOL_DOWNLOAD" eMMC BOOT0 & BOOT1"); lv_obj_realign(emmc_btn_ctxt.emmc_boot); if (!emmc_btn_ctxt.restore) lv_label_set_static_text(lv_obj_get_child(emmc_btn_ctxt.emmc_raw_gpp, NULL), SYMBOL_UPLOAD" eMMC RAW GPP"); else lv_label_set_static_text(lv_obj_get_child(emmc_btn_ctxt.emmc_raw_gpp, NULL), SYMBOL_DOWNLOAD" eMMC RAW GPP"); lv_obj_realign(emmc_btn_ctxt.emmc_raw_gpp); if (!emmc_btn_ctxt.restore) lv_label_set_static_text(lv_obj_get_child(emmc_btn_ctxt.emmc_sys, NULL), SYMBOL_MODULES" eMMC SYS"); else lv_label_set_static_text(lv_obj_get_child(emmc_btn_ctxt.emmc_sys, NULL), SYMBOL_MODULES" eMMC ALL"); lv_obj_realign(emmc_btn_ctxt.emmc_sys); if (!emmc_btn_ctxt.restore) { lv_label_set_static_text(lv_obj_get_child(emmc_btn_ctxt.emmc_usr, NULL), SYMBOL_MODULES_ALT" eMMC USER"); lv_obj_realign(emmc_btn_ctxt.emmc_usr); lv_obj_set_click(emmc_btn_ctxt.emmc_usr, true); lv_btn_set_state(emmc_btn_ctxt.emmc_usr, LV_BTN_STATE_REL); } emmc_btn_ctxt.raw_emummc = false; } else // Backup/Restore from and to emuMMC. { if (!emmc_btn_ctxt.restore) lv_label_set_static_text(lv_obj_get_child(emmc_btn_ctxt.emmc_boot, NULL), SYMBOL_UPLOAD" SD emuMMC BOOT0 & BOOT1"); else lv_label_set_static_text(lv_obj_get_child(emmc_btn_ctxt.emmc_boot, NULL), SYMBOL_DOWNLOAD" SD emuMMC BOOT0 & BOOT1"); lv_obj_realign(emmc_btn_ctxt.emmc_boot); if (!emmc_btn_ctxt.restore) lv_label_set_static_text(lv_obj_get_child(emmc_btn_ctxt.emmc_raw_gpp, NULL), SYMBOL_UPLOAD" SD emuMMC RAW GPP"); else lv_label_set_static_text(lv_obj_get_child(emmc_btn_ctxt.emmc_raw_gpp, NULL), SYMBOL_DOWNLOAD" SD emuMMC RAW GPP"); lv_obj_realign(emmc_btn_ctxt.emmc_raw_gpp); lv_obj_set_click(emmc_btn_ctxt.emmc_sys, false); lv_btn_set_state(emmc_btn_ctxt.emmc_sys, LV_BTN_STATE_INA); if (!emmc_btn_ctxt.restore) { lv_obj_set_click(emmc_btn_ctxt.emmc_usr, false); lv_btn_set_state(emmc_btn_ctxt.emmc_usr, LV_BTN_STATE_INA); } emmc_btn_ctxt.raw_emummc = true; } return LV_RES_OK; } lv_res_t create_window_backup_restore_tool(lv_obj_t *btn) { lv_obj_t *win; emmc_btn_ctxt.restore = false; if (strcmp(lv_label_get_text(lv_obj_get_child(btn, NULL)), SYMBOL_UPLOAD" Backup eMMC")) emmc_btn_ctxt.restore = true; if (!emmc_btn_ctxt.restore) win = nyx_create_standard_window(SYMBOL_SD" Backup", NULL); else win = nyx_create_standard_window(SYMBOL_SD" Restore", NULL); static lv_style_t h_style; lv_style_copy(&h_style, &lv_style_transp); h_style.body.padding.inner = 0; h_style.body.padding.hor = LV_DPI - (LV_DPI / 4); h_style.body.padding.ver = LV_DPI / 9; // Create Full container. lv_obj_t *h1 = lv_cont_create(win, NULL); lv_cont_set_style(h1, &h_style); lv_cont_set_fit(h1, false, true); lv_obj_set_width(h1, (LV_HOR_RES / 9) * 4); lv_obj_set_click(h1, false); lv_cont_set_layout(h1, LV_LAYOUT_OFF); lv_obj_t *label_sep = lv_label_create(h1, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt = lv_label_create(h1, NULL); lv_label_set_static_text(label_txt, "Full"); lv_obj_set_style(label_txt, lv_theme_get_current()->label.prim); lv_obj_align(label_txt, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI * 3 / 10); lv_obj_t *line_sep = lv_line_create(h1, NULL); static const lv_point_t line_pp[] = { {0, 0}, { LV_HOR_RES - (LV_DPI - (LV_DPI / 4)) * 2, 0} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, lv_theme_get_current()->line.decor); lv_obj_align(line_sep, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create BOOT0 & BOOT1 button. lv_obj_t *btn1 = lv_btn_create(h1, NULL); lv_obj_t *label_btn = lv_label_create(btn1, NULL); lv_btn_set_fit(btn1, true, true); if (!emmc_btn_ctxt.restore) lv_label_set_static_text(label_btn, SYMBOL_UPLOAD" eMMC BOOT0 & BOOT1"); else lv_label_set_static_text(label_btn, SYMBOL_DOWNLOAD" eMMC BOOT0 & BOOT1"); lv_obj_align(btn1, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_btn_set_action(btn1, LV_BTN_ACTION_CLICK, _emmc_backup_buttons_decider); emmc_btn_ctxt.emmc_boot = btn1; lv_obj_t *label_txt2 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt2, true); if (!emmc_btn_ctxt.restore) { lv_label_set_static_text(label_txt2, "Allows you to backup the BOOT physical partitions.\n" "They contain the BCT, keys and various package1.\n" "#FF8000 These are paired with the RAW GPP backup.#"); } else { lv_label_set_static_text(label_txt2, "Allows you to restore the BOOT physical partitions.\n" "They contain the BCT, keys and various package1.\n" "#FF8000 These are paired with the RAW GPP restore.#"); } lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn1, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create RAW GPP button. lv_obj_t *btn2 = lv_btn_create(h1, btn1); label_btn = lv_label_create(btn2, NULL); if (!emmc_btn_ctxt.restore) lv_label_set_static_text(label_btn, SYMBOL_UPLOAD" eMMC RAW GPP"); else lv_label_set_static_text(label_btn, SYMBOL_DOWNLOAD" eMMC RAW GPP"); lv_obj_align(btn2, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn2, LV_BTN_ACTION_CLICK, _emmc_backup_buttons_decider); emmc_btn_ctxt.emmc_raw_gpp= btn2; label_txt2 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt2, true); if (!emmc_btn_ctxt.restore) { lv_label_set_static_text(label_txt2, "Allows you to backup the GPP physical partition.\n" "It contains, CAL0, various package2, SYSTEM, USER, etc.\n" "#FF8000 This is paired with the BOOT0/1 backups.#"); } else { lv_label_set_static_text(label_txt2, "Allows you to restore the GPP physical partition.\n" "It contains, CAL0, various package2, SYSTEM, USER, etc.\n" "#FF8000 This is paired with the BOOT0/1 restore.#"); } lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn2, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create GPP Partitions container. lv_obj_t *h2 = lv_cont_create(win, NULL); lv_cont_set_style(h2, &h_style); lv_cont_set_fit(h2, false, true); lv_obj_set_width(h2, (LV_HOR_RES / 9) * 4); lv_obj_set_click(h2, false); lv_cont_set_layout(h2, LV_LAYOUT_OFF); lv_obj_align(h2, h1, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI * 17 / 29, 0); label_sep = lv_label_create(h2, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt3 = lv_label_create(h2, NULL); lv_label_set_static_text(label_txt3, "GPP Partitions"); lv_obj_set_style(label_txt3, lv_theme_get_current()->label.prim); lv_obj_align(label_txt3, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI * 4 / 21); line_sep = lv_line_create(h2, line_sep); lv_obj_align(line_sep, label_txt3, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create SYS/ALL button. lv_obj_t *btn3 = lv_btn_create(h2, NULL); label_btn = lv_label_create(btn3, NULL); lv_btn_set_fit(btn3, true, true); if (!emmc_btn_ctxt.restore) lv_label_set_static_text(label_btn, SYMBOL_MODULES" eMMC SYS"); else lv_label_set_static_text(label_btn, SYMBOL_MODULES" eMMC ALL"); lv_obj_align(btn3, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_btn_set_action(btn3, LV_BTN_ACTION_CLICK, _emmc_backup_buttons_decider); emmc_btn_ctxt.emmc_sys = btn3; lv_obj_t *label_txt4 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt4, true); if (!emmc_btn_ctxt.restore) { lv_label_set_static_text(label_txt4, "Allows you to backup the partitions from RAW GPP except\n" "USER. It contains, CAL0, various package2, SYSTEM, etc.\n" "#FF8000 This is an incomplete backup.#"); } else { lv_label_set_static_text(label_txt4, "Allows you to restore ALL partitions from RAW GPP\n" "It contains, CAL0, various package2, SYSTEM, USER, etc.\n"); } lv_obj_set_style(label_txt4, &hint_small_style); lv_obj_align(label_txt4, btn3, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create USER button. if (!emmc_btn_ctxt.restore) { lv_obj_t *btn4 = lv_btn_create(h2, btn1); label_btn = lv_label_create(btn4, NULL); lv_label_set_static_text(label_btn, SYMBOL_MODULES_ALT" eMMC USER"); lv_obj_align(btn4, label_txt4, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn4, LV_BTN_ACTION_CLICK, _emmc_backup_buttons_decider); emmc_btn_ctxt.emmc_usr = btn4; label_txt4 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt4, true); lv_label_set_static_text(label_txt4, "Allows you to backup the USER partition from RAW GPP.\n" "#FF8000 This is an incomplete backup.#\n"); lv_obj_set_style(label_txt4, &hint_small_style); lv_obj_align(label_txt4, btn4, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); } else { emmc_btn_ctxt.emmc_usr = NULL; } // Create eMMC/emuMMC On/Off button. lv_obj_t *h3 = lv_cont_create(win, NULL); lv_cont_set_style(h3, &h_style); lv_cont_set_fit(h3, false, true); lv_obj_set_width(h3, (LV_HOR_RES / 10) * 4); lv_obj_set_click(h3, false); lv_cont_set_layout(h3, LV_LAYOUT_OFF); lv_obj_align(h3, h1, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI * 38 / 11, LV_DPI / 7); lv_obj_t *sd_emummc_raw = lv_btn_create(h3, NULL); nyx_create_onoff_button(lv_theme_get_current(), h3, sd_emummc_raw, SYMBOL_SD" SD emuMMC Raw Partition", _emmc_backup_buttons_raw_toggle, false); emmc_btn_ctxt.raw_emummc = false; return LV_RES_OK; } ================================================ FILE: nyx/nyx_gui/frontend/gui_emmc_tools.h ================================================ /* * Copyright (c) 2018-2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GUI_EMMC_TOOLS_H_ #define _GUI_EMMC_TOOLS_H_ #include lv_res_t create_window_backup_restore_tool(lv_obj_t *btn); #endif ================================================ FILE: nyx/nyx_gui/frontend/gui_emummc_tools.c ================================================ /* * Copyright (c) 2019-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "gui.h" #include "fe_emummc_tools.h" #include "gui_tools_partition_manager.h" #include extern char *emmcsn_path_impl(char *path, char *sub_dir, char *filename, sdmmc_storage_t *storage); typedef struct _mbr_ctxt_t { u32 available; u32 sector[3]; u32 resized_cnt[3]; int part_idx; u32 sector_start; } mbr_ctxt_t; static bool emummc_backup; static mbr_ctxt_t mbr_ctx; static lv_obj_t *emummc_manage_window; static lv_res_t (*emummc_tools)(lv_obj_t *btn); static lv_res_t _action_emummc_window_close(lv_obj_t *btn) { nyx_win_close_action(btn); // Delete and relaunch main emuMMC window. lv_obj_del(emummc_manage_window); (*emummc_tools)(NULL); return LV_RES_INV; } static void _create_window_emummc() { emmc_tool_gui_t emmc_tool_gui_ctxt; lv_obj_t *win; if (!mbr_ctx.part_idx) win = nyx_create_standard_window(SYMBOL_DRIVE" Create SD File emuMMC", _action_emummc_window_close); else win = nyx_create_standard_window(SYMBOL_DRIVE" Create SD Partition emuMMC", _action_emummc_window_close); //Disable buttons. nyx_window_toggle_buttons(win, true); // Create important info container. lv_obj_t *h1 = lv_cont_create(win, NULL); lv_cont_set_fit(h1, false, true); lv_obj_set_width(h1, (LV_HOR_RES / 9) * 5); lv_obj_set_click(h1, false); lv_cont_set_layout(h1, LV_LAYOUT_OFF); static lv_style_t h_style; lv_style_copy(&h_style, lv_cont_get_style(h1)); h_style.body.main_color = LV_COLOR_HEX(0x1d1d1d); h_style.body.grad_color = h_style.body.main_color; h_style.body.opa = LV_OPA_COVER; // Chreate log container. lv_obj_t *h2 = lv_cont_create(win, h1); lv_cont_set_style(h2, &h_style); lv_cont_set_fit(h2, false, false); lv_obj_set_size(h2, (LV_HOR_RES / 11) * 4, LV_DPI * 5); lv_cont_set_layout(h2, LV_LAYOUT_OFF); lv_obj_align(h2, h1, LV_ALIGN_OUT_RIGHT_TOP, 0, LV_DPI / 5); lv_obj_t *label_log = lv_label_create(h2, NULL); lv_label_set_recolor(label_log, true); lv_obj_set_style(label_log, &monospace_text); lv_label_set_long_mode(label_log, LV_LABEL_LONG_BREAK); lv_label_set_static_text(label_log, ""); lv_obj_set_width(label_log, lv_obj_get_width(h2)); lv_obj_align(label_log, h2, LV_ALIGN_IN_TOP_LEFT, LV_DPI / 10, LV_DPI / 10); emmc_tool_gui_ctxt.label_log = label_log; // Create elements for info container. lv_obj_t *label_sep = lv_label_create(h1, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_info = lv_label_create(h1, NULL); lv_label_set_recolor(label_info, true); lv_obj_set_width(label_info, lv_obj_get_width(h1)); lv_label_set_static_text(label_info, "\n\n\n\n\n\n\n\n\n"); lv_obj_set_style(label_info, lv_theme_get_current()->label.prim); lv_obj_align(label_info, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 10); emmc_tool_gui_ctxt.label_info = label_info; lv_obj_t *bar = lv_bar_create(h1, NULL); lv_obj_set_size(bar, LV_DPI * 38 / 10, LV_DPI / 5); lv_bar_set_range(bar, 0, 100); lv_bar_set_value(bar, 0); lv_obj_align(bar, label_info, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 8); lv_obj_set_opa_scale(bar, LV_OPA_0); lv_obj_set_opa_scale_enable(bar, true); emmc_tool_gui_ctxt.bar = bar; lv_obj_t *label_pct= lv_label_create(h1, NULL); lv_label_set_recolor(label_pct, true); lv_label_set_static_text(label_pct, " "SYMBOL_DOT" 0%"); lv_obj_set_style(label_pct, lv_theme_get_current()->label.prim); lv_obj_align(label_pct, bar, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 20, 0); lv_obj_set_opa_scale(label_pct, LV_OPA_0); lv_obj_set_opa_scale_enable(label_pct, true); emmc_tool_gui_ctxt.label_pct = label_pct; lv_obj_t *label_finish = lv_label_create(h1, NULL); lv_label_set_recolor(label_finish, true); lv_label_set_static_text(label_finish, ""); lv_obj_set_style(label_finish, lv_theme_get_current()->label.prim); lv_obj_align(label_finish, bar, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI * 9 / 20); emmc_tool_gui_ctxt.label_finish = label_finish; if (!mbr_ctx.part_idx) dump_emummc_file(&emmc_tool_gui_ctxt); else dump_emummc_raw(&emmc_tool_gui_ctxt, mbr_ctx.part_idx, mbr_ctx.sector_start, mbr_ctx.resized_cnt[mbr_ctx.part_idx - 1]); nyx_window_toggle_buttons(win, false); } static lv_res_t _create_emummc_raw_format(lv_obj_t * btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); // Delete parent mbox. nyx_mbox_action(btns, txt); // Create partition window. if (!btn_idx) create_window_sd_partition_manager(btns); mbr_ctx.part_idx = 0; mbr_ctx.sector_start = 0; return LV_RES_INV; } static lv_res_t _create_emummc_raw_action(lv_obj_t * btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); lv_obj_t *bg = lv_obj_get_parent(lv_obj_get_parent(btns)); mbr_ctx.sector_start = 0x8000; // Protective offset. switch (btn_idx) { case 0: mbr_ctx.part_idx = 1; mbr_ctx.sector_start += mbr_ctx.sector[0]; break; case 1: mbr_ctx.part_idx = 2; mbr_ctx.sector_start += mbr_ctx.sector[1]; break; case 2: mbr_ctx.part_idx = 3; mbr_ctx.sector_start += mbr_ctx.sector[2]; break; default: break; } if (btn_idx < 3) { lv_obj_set_style(bg, &lv_style_transp); _create_window_emummc(); } mbr_ctx.part_idx = 0; mbr_ctx.sector_start = 0; nyx_mbox_action(btns, txt); return LV_RES_INV; } static void _create_mbox_emummc_raw() { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_format[] = { "\222Continue", "\222Cancel", "" }; static char *mbox_btn_parts[] = { "\262Part 1", "\262Part 2", "\262Part 3", "\222Cancel", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); char *txt_buf = (char *)malloc(SZ_16K); mbr_t *mbr = (mbr_t *)malloc(sizeof(mbr_t)); memset(&mbr_ctx, 0, sizeof(mbr_ctxt_t)); sd_mount(); sdmmc_storage_read(&sd_storage, 0, 1, mbr); sd_unmount(); emmc_initialize(false); u32 emmc_size_safe = emmc_storage.sec_cnt + 0xC000; // eMMC GPP size + BOOT0/1. emmc_end(); for (int i = 1; i < 4; i++) { u32 part_size = mbr->partitions[i].size_sct; u32 part_start = mbr->partitions[i].start_sct; u8 part_type = mbr->partitions[i].type; // Skip Linux, GPT (Android) and SFD partitions. bool valid_part = (part_type != 0x83) && (part_type != 0xEE) && (part_type != 0xFF); // Check if at least 4GB and start above 16MB. if ((part_size >= 0x80F000) && part_start > 0x8000 && valid_part) { mbr_ctx.available |= BIT(i - 1); mbr_ctx.sector[i - 1] = part_start; // Only allow up to 28GB resized emuMMC. if (part_size <= 0x3810000) mbr_ctx.resized_cnt[i - 1] = part_size - 0xC000; // Save sectors count without protective size and BOOT0/1. else if (part_size >= emmc_size_safe) mbr_ctx.resized_cnt[i - 1] = 0; else { mbr_ctx.available &= ~BIT(i - 1); mbr_ctx.sector[i - 1] = 0; } } } if (mbr_ctx.available) { s_printf(txt_buf, "#C7EA46 Found applicable partition(s)!#\n" "#FF8000 Choose a partition to continue:#\n\n"); } else s_printf(txt_buf, "#FFDD00 Failed to find applicable partition!#\n\n"); s_printf(txt_buf + strlen(txt_buf), "Partition table:\n" "#C0C0C0 Part 0: Type: %02x, Start: %08x, Size: %08x#\n" "#%s Part 1: Type: %02x, Start: %08x, Size: %08x#\n" "#%s Part 2: Type: %02x, Start: %08x, Size: %08x#\n" "#%s Part 3: Type: %02x, Start: %08x, Size: %08x#", mbr->partitions[0].type, mbr->partitions[0].start_sct, mbr->partitions[0].size_sct, (mbr_ctx.available & BIT(0)) ? (mbr_ctx.resized_cnt[0] ? "FFDD00" : "C7EA46") : "C0C0C0", mbr->partitions[1].type, mbr->partitions[1].start_sct, mbr->partitions[1].size_sct, (mbr_ctx.available & BIT(1)) ? (mbr_ctx.resized_cnt[1] ? "FFDD00" : "C7EA46") : "C0C0C0", mbr->partitions[2].type, mbr->partitions[2].start_sct, mbr->partitions[2].size_sct, (mbr_ctx.available & BIT(2)) ? (mbr_ctx.resized_cnt[2] ? "FFDD00" : "C7EA46") : "C0C0C0", mbr->partitions[3].type, mbr->partitions[3].start_sct, mbr->partitions[3].size_sct); if (mbr_ctx.resized_cnt[0] || mbr_ctx.resized_cnt[1] || mbr_ctx.resized_cnt[2]) strcat(txt_buf, "\n\n#FFDD00 Note:# Yellow entries have USER partition resized."); if (!mbr_ctx.available) strcat(txt_buf, "\n#FF8000 Do you want to partition the SD card?#\n" "#FF8000 (You will be asked on how to proceed)#"); lv_mbox_set_text(mbox, txt_buf); free(txt_buf); free(mbr); if (mbr_ctx.available) { // Check available partitions and enable the corresponding buttons. if (mbr_ctx.available & 1) mbox_btn_parts[0][0] = '\222'; else mbox_btn_parts[0][0] = '\262'; if (mbr_ctx.available & 2) mbox_btn_parts[1][0] = '\222'; else mbox_btn_parts[1][0] = '\262'; if (mbr_ctx.available & 4) mbox_btn_parts[2][0] = '\222'; else mbox_btn_parts[2][0] = '\262'; lv_mbox_add_btns(mbox, (const char **)mbox_btn_parts, _create_emummc_raw_action); } else lv_mbox_add_btns(mbox, mbox_btn_format, _create_emummc_raw_format); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); } static lv_res_t _create_emummc_action(lv_obj_t * btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); lv_obj_t *bg = lv_obj_get_parent(lv_obj_get_parent(btns)); mbr_ctx.part_idx = 0; mbr_ctx.sector_start = 0; switch (btn_idx) { case 0: lv_obj_set_style(bg, &lv_style_transp); _create_window_emummc(); break; case 1: _create_mbox_emummc_raw(); break; } nyx_mbox_action(btns, txt); return LV_RES_INV; } static lv_res_t _create_mbox_emummc_create(lv_obj_t *btn) { if (!nyx_emmc_check_battery_enough()) return LV_RES_OK; lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\222SD File", "\222SD Partition", "\222Cancel", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, "Welcome to #C7EA46 emuMMC# creation tool!\n\n" "Please choose what type of emuMMC you want to create.\n" "#FF8000 SD File# is saved as files in the FAT partition.\n" "#FF8000 SD Partition# is saved as raw image in an available partition."); lv_mbox_add_btns(mbox, mbox_btn_map, _create_emummc_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } static void _change_raw_emummc_part_type() { mbr_t *mbr = (mbr_t *)malloc(sizeof(mbr_t)); sdmmc_storage_read(&sd_storage, 0, 1, mbr); mbr->partitions[mbr_ctx.part_idx].type = 0xE0; sdmmc_storage_write(&sd_storage, 0, 1, mbr); free(mbr); } static lv_res_t _save_emummc_cfg_mig_mbox_action(lv_obj_t *btns, const char *txt) { // Delete main emuMMC and popup windows and relaunch main emuMMC window. lv_obj_del(emummc_manage_window); nyx_mbox_action(btns, txt); (*emummc_tools)(NULL); return LV_RES_INV; } static void _create_emummc_migrated_mbox() { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 4); lv_mbox_set_text(mbox, "#FF8000 emuMMC Configuration#\n\n" "#96FF00 The emuMMC configuration#\n#96FF00 was saved to sd card!#"); lv_mbox_add_btns(mbox, mbox_btn_map, _save_emummc_cfg_mig_mbox_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); } static void _migrate_sd_raw_emummc_based() { char *tmp = (char *)malloc(0x80); s_printf(tmp, "emuMMC/RAW%d", mbr_ctx.part_idx); sd_mount(); f_mkdir("emuMMC"); f_mkdir(tmp); strcat(tmp, "/raw_based"); FIL fp; if (!f_open(&fp, tmp, FA_CREATE_ALWAYS | FA_WRITE)) { f_write(&fp, &mbr_ctx.sector_start, 4, NULL); f_close(&fp); } s_printf(tmp, "emuMMC/RAW%d", mbr_ctx.part_idx); _change_raw_emummc_part_type(); save_emummc_cfg(mbr_ctx.part_idx, mbr_ctx.sector_start, tmp); _create_emummc_migrated_mbox(); free(tmp); sd_unmount(); } static void _migrate_sd_backup_file_based() { char *emu_path = (char *)malloc(128); char *parts_path = (char *)malloc(128); char *backup_path = (char *)malloc(128); char *backup_file_path = (char *)malloc(128); sd_mount(); f_mkdir("emuMMC"); strcpy(emu_path, "emuMMC/BK"); u32 base_len = strlen(emu_path); for (int j = 0; j < 100; j++) { update_emummc_base_folder(emu_path, base_len, j); if (f_stat(emu_path, NULL) == FR_NO_FILE) break; } base_len = strlen(emu_path); f_mkdir(emu_path); strcat(emu_path, "/eMMC"); f_mkdir(emu_path); FIL fp; // Create file based flag. strcpy(emu_path + base_len, "/file_based"); f_open(&fp, "emuMMC/BK00/file_based", FA_CREATE_ALWAYS | FA_WRITE); f_close(&fp); if (!emummc_backup) emmcsn_path_impl(backup_path, "", "", NULL); else emmcsn_path_impl(backup_path, "/emummc", "", NULL); // Move BOOT0. s_printf(backup_file_path, "%s/BOOT0", backup_path); strcpy(emu_path + base_len, "/eMMC/BOOT0"); f_rename(backup_file_path, emu_path); // Move BOOT1. s_printf(backup_file_path, "%s/BOOT1", backup_path); strcpy(emu_path + base_len, "/eMMC/BOOT1"); f_rename(backup_file_path, emu_path); // Move raw GPP. bool multipart = false; s_printf(backup_file_path, "%s/rawnand.bin", backup_path); if (f_stat(backup_file_path, NULL)) multipart = true; if (!multipart) { strcpy(emu_path + base_len, "/eMMC/00"); f_rename(backup_file_path, emu_path); } else { emu_path[base_len] = 0; for (int i = 0; i < 32; i++) { s_printf(backup_file_path, "%s/rawnand.bin.%02d", backup_path, i); s_printf(parts_path, "%s/eMMC/%02d", emu_path, i); if (f_rename(backup_file_path, parts_path)) break; } } free(emu_path); free(parts_path); free(backup_path); free(backup_file_path); save_emummc_cfg(0, 0, "emuMMC/BK00"); _create_emummc_migrated_mbox(); sd_unmount(); } static lv_res_t _create_emummc_mig0_action(lv_obj_t * btns, const char * txt) { switch (lv_btnm_get_pressed(btns)) { case 0: _migrate_sd_raw_emummc_based(); break; } mbr_ctx.part_idx = 0; mbr_ctx.sector_start = 0; nyx_mbox_action(btns, txt); return LV_RES_INV; } static lv_res_t _create_emummc_mig1_action(lv_obj_t * btns, const char * txt) { switch (lv_btnm_get_pressed(btns)) { case 0: _migrate_sd_backup_file_based(); break; } mbr_ctx.part_idx = 0; mbr_ctx.sector_start = 0; nyx_mbox_action(btns, txt); return LV_RES_INV; } static lv_res_t _create_emummc_migrate_action(lv_obj_t * btns, const char * txt) { bool backup = false; bool emummc = false; switch (lv_btnm_get_pressed(btns)) { case 0: backup = true; break; case 1: emummc = true; break; case 2: nyx_mbox_action(btns, txt); return LV_RES_INV; } lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\222Continue", "\222Cancel", "" }; static const char *mbox_btn_map1[] = { "\251", "OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); char *txt_buf = (char *)malloc(SZ_16K); if (backup) { if (!emummc_backup) s_printf(txt_buf, "#C7EA46 Found suitable eMMC backup!#\n\n" "#FF8000 Do you want to migrate it?#\n"); else s_printf(txt_buf, "#C7EA46 Found suitable emuMMC backup!#\n\n" "#FF8000 Do you want to migrate it?#\n"); lv_mbox_add_btns(mbox, mbox_btn_map, _create_emummc_mig1_action); } else if (emummc) { s_printf(txt_buf, "#C7EA46 Found SD Partition based emuMMC!#\n\n" "#FF8000 Do you want to repair the config and partition type for it?#\n"); lv_mbox_add_btns(mbox, mbox_btn_map, _create_emummc_mig0_action); } else { s_printf(txt_buf, "No emuMMC found!\n"); lv_mbox_add_btns(mbox, mbox_btn_map1, nyx_mbox_action); } lv_mbox_set_text(mbox, txt_buf); free(txt_buf); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); nyx_mbox_action(btns, txt); return LV_RES_INV; } typedef struct _emummc_images_t { dirlist_t *dirlist; u32 part_sector[3]; u32 part_type[3]; u32 part_end[3]; char part_path[3 * 128]; lv_obj_t *win; } emummc_images_t; static lv_res_t _create_mbox_emummc_migrate(lv_obj_t *btn) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static char *mbox_btn_map[] = { "\262Backup", "\262Fix RAW", "\222Cancel", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, "Welcome to #C7EA46 emuMMC# migration tool!\n\n" "Please choose what type of migration you want to do.\n" "Anything that was not found will have the button disabled."); char *path_buf = (char *)malloc(0x512); mbr_t *mbr = (mbr_t *)malloc(sizeof(mbr_t)); u8 *efi_part = (u8 *)malloc(0x200); sd_mount(); sdmmc_storage_read(&sd_storage, 0, 1, mbr); emmc_initialize(false); bool backup = false; bool emummc = false; bool rawnand_backup = false; mbr_ctx.sector_start = 0; mbr_ctx.part_idx = 0; // Try to find a partition based emuMMC. for (int i = 1; i < 4; i++) { mbr_ctx.sector_start = mbr->partitions[i].start_sct; if (!mbr_ctx.sector_start) continue; sdmmc_storage_read(&sd_storage, mbr_ctx.sector_start + 0xC001, 1, efi_part); if (!memcmp(efi_part, "EFI PART", 8)) { mbr_ctx.sector_start += 0x8000; emummc = true; mbr_ctx.part_idx = i; break; } else { sdmmc_storage_read(&sd_storage, mbr_ctx.sector_start + 0x4001, 1, efi_part); if (!memcmp(efi_part, "EFI PART", 8)) { emummc = true; mbr_ctx.part_idx = i; break; } } } emummc_backup = false; emmcsn_path_impl(path_buf, "", "BOOT0", &emmc_storage); if (!f_stat(path_buf, NULL)) backup = true; emmcsn_path_impl(path_buf, "", "rawnand.bin", &emmc_storage); if (!f_stat(path_buf, NULL)) rawnand_backup = true; emmcsn_path_impl(path_buf, "", "rawnand.bin.00", &emmc_storage); if (!f_stat(path_buf, NULL)) rawnand_backup = true; backup = backup && rawnand_backup; if (!backup) { rawnand_backup = false; emummc_backup = true; emmcsn_path_impl(path_buf, "/emummc", "BOOT0", &emmc_storage); if (!f_stat(path_buf, NULL)) backup = true; emmcsn_path_impl(path_buf, "/emummc", "rawnand.bin", &emmc_storage); if (!f_stat(path_buf, NULL)) rawnand_backup = true; emmcsn_path_impl(path_buf, "/emummc", "rawnand.bin.00", &emmc_storage); if (!f_stat(path_buf, NULL)) rawnand_backup = true; backup = backup && rawnand_backup; } sd_unmount(); emmc_end(); // Check available types and enable the corresponding buttons. if (backup) mbox_btn_map[0][0] = '\222'; else mbox_btn_map[0][0] = '\262'; if (emummc) mbox_btn_map[1][0] = '\222'; else mbox_btn_map[1][0] = '\262'; free(path_buf); free(mbr); free(efi_part); lv_mbox_add_btns(mbox, (const char **)mbox_btn_map, _create_emummc_migrate_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } static emummc_images_t *emummc_img; static lv_res_t _save_emummc_cfg_mbox_action(lv_obj_t *btns, const char *txt) { // Free components, delete main emuMMC and popup windows and relaunch main emuMMC window. lv_obj_del(emummc_img->win); lv_obj_del(emummc_manage_window); free(emummc_img->dirlist); free(emummc_img); nyx_mbox_action(btns, txt); (*emummc_tools)(NULL); return LV_RES_INV; } static void _create_emummc_saved_mbox() { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 4); lv_mbox_set_text(mbox, "#FF8000 emuMMC Configuration#\n\n" "#96FF00 The emuMMC configuration#\n#96FF00 was saved to sd card!#"); lv_mbox_add_btns(mbox, mbox_btn_map, _save_emummc_cfg_mbox_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); } static lv_res_t _save_raw_emummc_cfg_action(lv_obj_t * btn) { lv_btn_ext_t *ext = lv_obj_get_ext_attr(btn); switch (ext->idx) { case 0: save_emummc_cfg(1, emummc_img->part_sector[0], &emummc_img->part_path[0]); break; case 1: save_emummc_cfg(2, emummc_img->part_sector[1], &emummc_img->part_path[128]); break; case 2: save_emummc_cfg(3, emummc_img->part_sector[2], &emummc_img->part_path[256]); break; } _create_emummc_saved_mbox(); sd_unmount(); return LV_RES_INV; } static lv_res_t _save_disable_emummc_cfg_action(lv_obj_t * btn) { save_emummc_cfg(0, 0, NULL); _create_emummc_saved_mbox(); sd_unmount(); return LV_RES_INV; } static lv_res_t _save_file_emummc_cfg_action(lv_obj_t *btn) { save_emummc_cfg(0, 0, lv_list_get_btn_text(btn)); _create_emummc_saved_mbox(); sd_unmount(); return LV_RES_INV; } static lv_res_t _action_win_change_emummc_close(lv_obj_t *btn) { free(emummc_img->dirlist); free(emummc_img); return nyx_win_close_action(btn); } static lv_res_t _create_change_emummc_window(lv_obj_t *btn_caller) { lv_obj_t *win = nyx_create_standard_window(SYMBOL_SETTINGS" Change emuMMC", _action_win_change_emummc_close); lv_win_add_btn(win, NULL, SYMBOL_POWER" Disable", _save_disable_emummc_cfg_action); sd_mount(); emummc_img = malloc(sizeof(emummc_images_t)); emummc_img->win = win; mbr_t *mbr = (mbr_t *)malloc(sizeof(mbr_t)); char *path = malloc(512); sdmmc_storage_read(&sd_storage, 0, 1, mbr); memset(emummc_img->part_path, 0, 3 * 128); for (int i = 1; i < 4; i++) { emummc_img->part_sector[i - 1] = mbr->partitions[i].start_sct; emummc_img->part_end[i - 1] = emummc_img->part_sector[i - 1] + mbr->partitions[i].size_sct - 1; emummc_img->part_type[i - 1] = mbr->partitions[i].type; } free(mbr); emummc_img->dirlist = dirlist("emuMMC", NULL, DIR_SHOW_DIRS); if (!emummc_img->dirlist) goto out0; u32 emummc_idx = 0; FIL fp; // Check for sd raw partitions, based on the folders in /emuMMC. while (emummc_img->dirlist->name[emummc_idx]) { s_printf(path, "emuMMC/%s/raw_based", emummc_img->dirlist->name[emummc_idx]); if (!f_stat(path, NULL)) { f_open(&fp, path, FA_READ); u32 curr_list_sector = 0; f_read(&fp, &curr_list_sector, 4, NULL); f_close(&fp); // Check if there's a HOS image there. if ((curr_list_sector == 2) || (emummc_img->part_sector[0] && curr_list_sector >= emummc_img->part_sector[0] && curr_list_sector < emummc_img->part_end[0] && emummc_img->part_type[0] != 0x83)) { s_printf(&emummc_img->part_path[0], "emuMMC/%s", emummc_img->dirlist->name[emummc_idx]); emummc_img->part_sector[0] = curr_list_sector; emummc_img->part_end[0] = 0; } else if (emummc_img->part_sector[1] && curr_list_sector >= emummc_img->part_sector[1] && curr_list_sector < emummc_img->part_end[1] && emummc_img->part_type[1] != 0x83) { s_printf(&emummc_img->part_path[1 * 128], "emuMMC/%s", emummc_img->dirlist->name[emummc_idx]); emummc_img->part_sector[1] = curr_list_sector; emummc_img->part_end[1] = 0; } else if (emummc_img->part_sector[2] && curr_list_sector >= emummc_img->part_sector[2] && curr_list_sector < emummc_img->part_end[2] && emummc_img->part_type[2] != 0x83) { s_printf(&emummc_img->part_path[2 * 128], "emuMMC/%s", emummc_img->dirlist->name[emummc_idx]); emummc_img->part_sector[2] = curr_list_sector; emummc_img->part_end[2] = 0; } } emummc_idx++; } emummc_idx = 0; u32 file_based_idx = 0; // Sanitize the directory list with sd file based ones. while (emummc_img->dirlist->name[emummc_idx]) { s_printf(path, "emuMMC/%s/file_based", emummc_img->dirlist->name[emummc_idx]); if (!f_stat(path, NULL)) { char *tmp = emummc_img->dirlist->name[emummc_idx]; memcpy(emummc_img->dirlist->name[file_based_idx], tmp, strlen(tmp) + 1); file_based_idx++; } emummc_idx++; } emummc_img->dirlist->name[file_based_idx] = NULL; out0:; static lv_style_t h_style; lv_style_copy(&h_style, &lv_style_transp); h_style.body.padding.inner = 0; h_style.body.padding.hor = LV_DPI - (LV_DPI / 4); h_style.body.padding.ver = LV_DPI / 6; // Create SD Raw Partitions container. lv_obj_t *h1 = lv_cont_create(win, NULL); lv_cont_set_style(h1, &h_style); lv_cont_set_fit(h1, false, true); lv_obj_set_width(h1, (LV_HOR_RES / 9) * 4); lv_obj_set_click(h1, false); lv_cont_set_layout(h1, LV_LAYOUT_OFF); lv_obj_t *label_sep = lv_label_create(h1, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt = lv_label_create(h1, NULL); lv_label_set_static_text(label_txt, "SD Raw Partitions"); lv_obj_set_style(label_txt, lv_theme_get_current()->label.prim); lv_obj_align(label_txt, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -(LV_DPI / 2)); lv_obj_t *line_sep = lv_line_create(h1, NULL); static const lv_point_t line_pp[] = { {0, 0}, { LV_HOR_RES - (LV_DPI - (LV_DPI / 4)) * 2, 0} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, lv_theme_get_current()->line.decor); lv_obj_align(line_sep, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); lv_obj_t *btn = NULL; lv_btn_ext_t *ext; lv_obj_t *btn_label = NULL; lv_obj_t *lv_desc = NULL; char *txt_buf = malloc(SZ_16K); // Create RAW buttons. for (u32 raw_btn_idx = 0; raw_btn_idx < 3; raw_btn_idx++) { btn = lv_btn_create(h1, btn); ext = lv_obj_get_ext_attr(btn); ext->idx = raw_btn_idx; btn_label = lv_label_create(btn, btn_label); lv_btn_set_state(btn, LV_BTN_STATE_REL); lv_obj_set_click(btn, true); if (emummc_img->part_type[raw_btn_idx] != 0x83) { s_printf(txt_buf, "SD RAW %d", raw_btn_idx + 1); lv_label_set_text(btn_label, txt_buf); } if (!emummc_img->part_sector[raw_btn_idx] || emummc_img->part_type[raw_btn_idx] == 0x83 || !emummc_img->part_path[raw_btn_idx * 128]) { lv_btn_set_state(btn, LV_BTN_STATE_INA); lv_obj_set_click(btn, false); if (emummc_img->part_type[raw_btn_idx] == 0x83) lv_label_set_static_text(btn_label, "Linux"); } if (!raw_btn_idx) { lv_btn_set_fit(btn, false, true); lv_obj_set_width(btn, LV_DPI * 3); lv_obj_align(btn, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 2, LV_DPI / 5); } else lv_obj_align(btn, lv_desc, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); lv_btn_set_action(btn, LV_BTN_ACTION_CLICK, _save_raw_emummc_cfg_action); lv_desc = lv_label_create(h1, lv_desc); lv_label_set_recolor(lv_desc, true); lv_obj_set_style(lv_desc, &hint_small_style); s_printf(txt_buf, "Sector start: 0x%08X\nFolder: %s", emummc_img->part_sector[raw_btn_idx], &emummc_img->part_path[raw_btn_idx * 128]); lv_label_set_text(lv_desc, txt_buf); lv_obj_align(lv_desc, btn, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 5); } free(txt_buf); // Create SD File Based container. lv_obj_t *h2 = lv_cont_create(win, NULL); lv_cont_set_style(h2, &h_style); lv_cont_set_fit(h2, false, true); lv_obj_set_width(h2, (LV_HOR_RES / 9) * 4); lv_obj_set_click(h2, false); lv_cont_set_layout(h2, LV_LAYOUT_OFF); lv_obj_align(h2, h1, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI * 17 / 29, 0); label_sep = lv_label_create(h2, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt3 = lv_label_create(h2, NULL); lv_label_set_static_text(label_txt3, "SD File Based"); lv_obj_set_style(label_txt3, lv_theme_get_current()->label.prim); lv_obj_align(label_txt3, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI / 7); line_sep = lv_line_create(h2, line_sep); lv_obj_align(line_sep, label_txt3, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 2), LV_DPI / 8); lv_line_set_style(line_sep, lv_theme_get_current()->line.decor); lv_obj_t *list_sd_based = lv_list_create(h2, NULL); lv_obj_align(list_sd_based, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 2, LV_DPI / 4); lv_obj_set_size(list_sd_based, LV_HOR_RES * 4 / 10, LV_VER_RES * 6 / 10); lv_list_set_single_mode(list_sd_based, true); if (!emummc_img->dirlist) goto out1; emummc_idx = 0; // Add file based to the list. while (emummc_img->dirlist->name[emummc_idx]) { s_printf(path, "emuMMC/%s", emummc_img->dirlist->name[emummc_idx]); lv_list_add(list_sd_based, NULL, path, _save_file_emummc_cfg_action); emummc_idx++; } out1: free(path); sd_unmount(); return LV_RES_OK; } lv_res_t create_win_emummc_tools(lv_obj_t *btn) { lv_obj_t *win = nyx_create_standard_window(SYMBOL_EDIT" emuMMC Manage", NULL); // Set resources to be managed by other windows. emummc_manage_window = win; emummc_tools = (void *)create_win_emummc_tools; sd_mount(); emummc_cfg_t emu_info; load_emummc_cfg(&emu_info); sd_unmount(); static lv_style_t h_style; lv_style_copy(&h_style, &lv_style_transp); h_style.body.padding.inner = 0; h_style.body.padding.hor = LV_DPI - (LV_DPI / 4); h_style.body.padding.ver = LV_DPI / 9; // Create emuMMC Info & Selection container. lv_obj_t *h1 = lv_cont_create(win, NULL); lv_cont_set_style(h1, &h_style); lv_cont_set_fit(h1, false, true); lv_obj_set_width(h1, (LV_HOR_RES / 9) * 4); lv_obj_set_click(h1, false); lv_cont_set_layout(h1, LV_LAYOUT_OFF); lv_obj_t *label_sep = lv_label_create(h1, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt = lv_label_create(h1, NULL); lv_label_set_static_text(label_txt, "emuMMC Info & Selection"); lv_obj_set_style(label_txt, lv_theme_get_current()->label.prim); lv_obj_align(label_txt, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 11); lv_obj_t *line_sep = lv_line_create(h1, NULL); static const lv_point_t line_pp[] = { {0, 0}, { LV_HOR_RES - (LV_DPI - (LV_DPI / 4)) * 2, 0} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, lv_theme_get_current()->line.decor); lv_obj_align(line_sep, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create emuMMC info labels. lv_obj_t *label_btn = lv_label_create(h1, NULL); lv_label_set_recolor(label_btn, true); lv_label_set_static_text(label_btn, emu_info.enabled ? "#96FF00 "SYMBOL_OK" Enabled!#" : "#FF8000 "SYMBOL_CLOSE" Disabled!#"); lv_obj_align(label_btn, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_obj_t *label_txt2 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt2, true); char *txt_buf = (char *)malloc(SZ_16K); if (emu_info.enabled) { if (emu_info.sector) s_printf(txt_buf, "#00DDFF Type:# SD Raw Partition\n#00DDFF Sector:# 0x%08X\n#00DDFF Nintendo folder:# %s\n", emu_info.sector, emu_info.nintendo_path ? emu_info.nintendo_path : ""); else s_printf(txt_buf, "#00DDFF Type:# SD File\n#00DDFF Base folder:# %s\n#00DDFF Nintendo folder:# %s\n", emu_info.path ? emu_info.path : "", emu_info.nintendo_path ? emu_info.nintendo_path : ""); lv_label_set_text(label_txt2, txt_buf); } else { lv_label_set_static_text(label_txt2, "emuMMC is disabled and eMMC will be used for boot.\n\n\n"); } if (emu_info.path) free(emu_info.path); if (emu_info.nintendo_path) free(emu_info.nintendo_path); free(txt_buf); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, label_btn, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create Change emuMMC button. lv_obj_t *btn2 = lv_btn_create(h1, NULL); lv_btn_set_fit(btn2, true, true); label_btn = lv_label_create(btn2, NULL); lv_label_set_static_text(label_btn, SYMBOL_SETTINGS" Change emuMMC"); lv_obj_align(btn2, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI * 6 / 10); lv_btn_set_action(btn2, LV_BTN_ACTION_CLICK, _create_change_emummc_window); label_txt2 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Choose between images created in the emuMMC folder\n" "or in SD card partitions. You can have at most 3 partition\n" "based and countless file based."); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn2, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create emuMMC Tools container. lv_obj_t *h2 = lv_cont_create(win, NULL); lv_cont_set_style(h2, &h_style); lv_cont_set_fit(h2, false, true); lv_obj_set_width(h2, (LV_HOR_RES / 9) * 4); lv_obj_set_click(h2, false); lv_cont_set_layout(h2, LV_LAYOUT_OFF); lv_obj_align(h2, h1, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI * 17 / 29, 0); label_sep = lv_label_create(h2, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt3 = lv_label_create(h2, NULL); lv_label_set_static_text(label_txt3, "emuMMC Tools"); lv_obj_set_style(label_txt3, lv_theme_get_current()->label.prim); lv_obj_align(label_txt3, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 5); line_sep = lv_line_create(h2, line_sep); lv_obj_align(line_sep, label_txt3, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create Create emuMMC button. lv_obj_t *btn3 = lv_btn_create(h2, btn2); label_btn = lv_label_create(btn3, NULL); lv_btn_set_fit(btn3, true, true); lv_label_set_static_text(label_btn, SYMBOL_DRIVE" Create emuMMC"); lv_obj_align(btn3, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_btn_set_action(btn3, LV_BTN_ACTION_CLICK, _create_mbox_emummc_create); lv_obj_t *label_txt4 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt4, true); lv_label_set_static_text(label_txt4, "Allows you to create a new #C7EA46 SD File# or #C7EA46 SD Raw Partition#\n" "emuMMC. You can create it from eMMC or a eMMC Backup.\n"); lv_obj_set_style(label_txt4, &hint_small_style); lv_obj_align(label_txt4, btn3, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create Migrate emuMMC button. lv_obj_t *btn4 = lv_btn_create(h2, btn2); label_btn = lv_label_create(btn4, NULL); lv_label_set_static_text(label_btn, SYMBOL_SHUFFLE" Migrate emuMMC"); lv_obj_align(btn4, label_txt4, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn4, LV_BTN_ACTION_CLICK, NULL); lv_btn_set_action(btn4, LV_BTN_ACTION_CLICK, _create_mbox_emummc_migrate); label_txt4 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt4, true); lv_label_set_static_text(label_txt4, "Migrate a backup to a #C7EA46 SD File emuMMC# or repair an existing\n#C7EA46 SD Raw Partition emuMMC#.\n"); lv_obj_set_style(label_txt4, &hint_small_style); lv_obj_align(label_txt4, btn4, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); return LV_RES_OK; } ================================================ FILE: nyx/nyx_gui/frontend/gui_emummc_tools.h ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GUI_EMUMMC_TOOLS_H_ #define _GUI_EMUMMC_TOOLS_H_ #include lv_res_t create_win_emummc_tools(lv_obj_t *btn); #endif ================================================ FILE: nyx/nyx_gui/frontend/gui_info.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * Copyright (c) 2018 balika011 * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "gui.h" #include "../config.h" #include "../hos/hos.h" #include "../hos/pkg1.h" #include #include #define SECTORS_TO_MIB_COEFF 11 static const char base36[37] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"; extern volatile nyx_storage_t *nyx_str; extern lv_res_t launch_payload(lv_obj_t *list); extern char *emmcsn_path_impl(char *path, char *sub_dir, char *filename, sdmmc_storage_t *storage); static lv_res_t _create_window_dump_done(int error, char *dump_filenames) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); char *txt_buf = (char *)malloc(SZ_4K); if (error) s_printf(txt_buf, "#FFDD00 Failed to dump to# %s#FFDD00 !#\nError: %d", dump_filenames, error); else { char *sn = emmcsn_path_impl(NULL, NULL, NULL, NULL); s_printf(txt_buf, "Dumping to SD card finished!\nFiles: #C7EA46 backup/%s/dumps/#\n%s", sn, dump_filenames); } lv_mbox_set_text(mbox, txt_buf); free(txt_buf); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); // Important. After set_text. lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } static lv_res_t _cal0_dump_window_action(lv_obj_t *btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); nyx_mbox_action(btns, txt); if (btn_idx == 1) { int error = sd_mount(); if (!error) { char path[64]; emmcsn_path_impl(path, "/dumps", "cal0.bin", NULL); error = sd_save_to_file((u8 *)cal0_buf, SZ_32K, path); sd_unmount(); } _create_window_dump_done(error, "cal0.bin"); } return LV_RES_INV; } static lv_res_t _battery_dump_window_action(lv_obj_t * btn) { int error = sd_mount(); if (!error) { char path[64]; void *buf = malloc(0x100 * 2); max17050_dump_regs(buf); emmcsn_path_impl(path, "/dumps", "fuel_gauge.bin", NULL); error = sd_save_to_file((u8 *)buf, 0x200, path); sd_unmount(); } _create_window_dump_done(error, "fuel_gauge.bin"); return LV_RES_OK; } static lv_res_t _bootrom_dump_window_action(lv_obj_t * btn) { static const u32 BOOTROM_SIZE = 0x18000; int error = sd_mount(); if (!error) { char path[64]; u32 iram_evp_thunks[0x200]; u32 iram_evp_thunks_len = sizeof(iram_evp_thunks); error = fuse_read_evp_thunk(iram_evp_thunks, &iram_evp_thunks_len); if (!error) { emmcsn_path_impl(path, "/dumps", "evp_thunks.bin", NULL); error = sd_save_to_file((u8 *)iram_evp_thunks, iram_evp_thunks_len, path); } else error = 255; emmcsn_path_impl(path, "/dumps", "bootrom_patched.bin", NULL); int res = sd_save_to_file((u8 *)IROM_BASE, BOOTROM_SIZE, path); if (!error) error = res; u32 ipatch_cam[IPATCH_CAM_ENTRIES + 1]; memcpy(ipatch_cam, (void *)IPATCH_BASE, sizeof(ipatch_cam)); memset((void*)IPATCH_BASE, 0, sizeof(ipatch_cam)); // Zeroing valid entries is enough but zero everything. emmcsn_path_impl(path, "/dumps", "bootrom_unpatched.bin", NULL); res = sd_save_to_file((u8 *)IROM_BASE, BOOTROM_SIZE, path); if (!error) error = res; memcpy((void*)IPATCH_BASE, ipatch_cam, sizeof(ipatch_cam)); sd_unmount(); } _create_window_dump_done(error, "evp_thunks.bin, bootrom_patched.bin, bootrom_unpatched.bin"); return LV_RES_OK; } static u8 _ccplex_set_fuse_rd_tz[] = { 0xC1, 0x00, 0x00, 0x18, // 0x00: LDR W1, =APB_MISC_PP_FUSE_READ_TZ 0xE0, 0x03, 0x80, 0xD2, // 0x04: MOV X0, #0x1F 0x20, 0x00, 0x00, 0xB9, // 0x08: STR W0, [X1] 0x1F, 0x71, 0x08, 0xD5, // 0x0C: IC IALLUIS 0x9F, 0x3B, 0x03, 0xD5, // 0x10: DSB ISH 0xFE, 0xFF, 0xFF, 0x17, // 0x14: B loop 0xA4, 0x00, 0x00, 0x70, // 0x18: APB_MISC_PP_FUSE_READ_TZ/////////////////////check default value for sure }; static void _unlock_reserved_odm_fuses(bool lock) { _ccplex_set_fuse_rd_tz[4] = lock ? 0xE0 : 0x00; _ccplex_set_fuse_rd_tz[5] = lock ? 0x03 : 0x00; // Launch payload on CCPLEX EL3 in order to unlock reserved ODM8-29 fuses. ccplex_boot_cpu0((u32)_ccplex_set_fuse_rd_tz, false); msleep(100); ccplex_powergate_cpu0(); } static lv_res_t _fuse_dump_window_action(lv_obj_t * btn) { int error = sd_mount(); if (!error) { char path[128]; if (!h_cfg.t210b01) { emmcsn_path_impl(path, "/dumps", "fuse_cached_t210.bin", NULL); error = sd_save_to_file((u8 *)0x7000F900, 0x300, path); emmcsn_path_impl(path, "/dumps", "fuse_array_raw_t210.bin", NULL); } else { // Unlock all reserved ODM fuses. _unlock_reserved_odm_fuses(false); emmcsn_path_impl(path, "/dumps", "fuse_cached_t210b01_x898.bin", NULL); error = sd_save_to_file((u8 *)0x7000F898, 0x68, path); emmcsn_path_impl(path, "/dumps", "fuse_cached_t210b01_x900.bin", NULL); if (!error) error = sd_save_to_file((u8 *)0x7000F900, 0x300, path); emmcsn_path_impl(path, "/dumps", "fuse_array_raw_t210b01.bin", NULL); } if (!error) { u32 words[FUSE_ARRAY_WORDS_NUM_B01]; u32 array_size = fuse_read_array(words); error = sd_save_to_file((u8 *)words, array_size * sizeof(u32), path); } // Relock. if (h_cfg.t210b01) _unlock_reserved_odm_fuses(true); sd_unmount(); } if (!h_cfg.t210b01) _create_window_dump_done(error, "fuse_cached_t210.bin, fuse_array_raw_t210.bin"); else _create_window_dump_done(error, "fuse_cached_t210b01_x*.bin, fuse_array_raw_t210b01.bin"); return LV_RES_OK; } static lv_res_t _kfuse_dump_window_action(lv_obj_t * btn) { u32 buf[KFUSE_NUM_WORDS]; int error = kfuse_read(buf); if (!error) error = sd_mount(); if (!error) { char path[64]; emmcsn_path_impl(path, "/dumps", "kfuses.bin", NULL); error = sd_save_to_file((u8 *)buf, KFUSE_NUM_WORDS * 4, path); sd_unmount(); } _create_window_dump_done(error, "kfuses.bin"); return LV_RES_OK; } static lv_res_t _create_mbox_cal0(lv_obj_t *btn) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222Dump", "\222Close", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_mbox_set_text(mbox, "#C7EA46 CAL0 Info#"); char *txt_buf = (char *)malloc(SZ_16K); txt_buf[0] = 0; lv_obj_t * lb_desc = lv_label_create(mbox, NULL); lv_label_set_long_mode(lb_desc, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc, true); lv_label_set_style(lb_desc, &monospace_text); lv_obj_set_width(lb_desc, LV_HOR_RES / 9 * 4); sd_mount(); // Dump CAL0. int cal0_res = hos_dump_cal0(); // Check result. Don't error if hash doesn't match. if (cal0_res == 1) { lv_label_set_text(lb_desc, "#FFDD00 Failed to init eMMC!#"); goto out; } else if (cal0_res == 2) { lv_label_set_text(lb_desc, "#FFDD00 CAL0 is corrupt or wrong keys!#\n"); goto out; } nx_emmc_cal0_t *cal0 = (nx_emmc_cal0_t *)cal0_buf; u32 hash[8]; se_sha_hash_256_oneshot(hash, (u8 *)&cal0->cfg_id1, cal0->body_size); s_printf(txt_buf, "#FF8000 CAL0 Version:# %d\n" "#FF8000 Update Count:# %d\n" "#FF8000 Serial Number:# %s\n" "#FF8000 WLAN MAC:# %02X:%02X:%02X:%02X:%02X:%02X\n" "#FF8000 Bluetooth MAC:# %02X:%02X:%02X:%02X:%02X:%02X\n" "#FF8000 Battery LOT:# %s (%d)\n" "#FF8000 LCD Vendor:# ", cal0->version, cal0->update_cnt, cal0->serial_number, cal0->wlan_mac[0], cal0->wlan_mac[1], cal0->wlan_mac[2], cal0->wlan_mac[3], cal0->wlan_mac[4], cal0->wlan_mac[5], cal0->bd_mac[0], cal0->bd_mac[1], cal0->bd_mac[2], cal0->bd_mac[3], cal0->bd_mac[4], cal0->bd_mac[5], cal0->battery_lot, cal0->battery_ver); // Prepare display info. u32 display_id = (cal0->lcd_vendor & 0xFF) << 8 | (cal0->lcd_vendor & 0xFF0000) >> 16; switch (display_id) { case PANEL_JDI_LAM062M109A: strcat(txt_buf, "JDI LAM062M109A"); break; case PANEL_JDI_LPM062M326A: strcat(txt_buf, "JDI LPM062M326A"); break; case PANEL_INL_P062CCA_AZ1: strcat(txt_buf, "InnoLux P062CCA-AZX"); break; case PANEL_AUO_A062TAN01: strcat(txt_buf, "AUO A062TAN0X"); break; case PANEL_INL_2J055IA_27A: strcat(txt_buf, "InnoLux 2J055IA-27A"); break; case PANEL_AUO_A055TAN01: strcat(txt_buf, "AUO A055TAN0X"); break; case PANEL_SHP_LQ055T1SW10: strcat(txt_buf, "Sharp LQ055T1SW10"); break; case PANEL_SAM_AMS699VC01: strcat(txt_buf, "Samsung AMS699VC01"); break; default: switch (cal0->lcd_vendor & 0xFF) { case 0: case PANEL_JDI_XXX062M: strcat(txt_buf, "JDI "); break; case (PANEL_INL_P062CCA_AZ1 & 0xFF): strcat(txt_buf, "InnoLux "); break; case (PANEL_AUO_A062TAN01 & 0xFF): strcat(txt_buf, "AUO "); break; case (PANEL_SAM_AMS699VC01 & 0xFF): strcat(txt_buf, "Samsung "); break; } strcat(txt_buf, "Unknown"); break; } s_printf(txt_buf + strlen(txt_buf), " (%06X)\n#FF8000 Touch Vendor:# %d\n" "#FF8000 IMU Type/Mount:# %d / %d\n" "#FF8000 Stick L/R Type:# %02X / %02X\n", cal0->lcd_vendor, cal0->touch_ic_vendor_id, cal0->console_6axis_sensor_type, cal0->console_6axis_sensor_mount_type, cal0->analog_stick_type_l, cal0->analog_stick_type_r); bool valid_cal0 = !memcmp(hash, cal0->body_sha256, 0x20); s_printf(txt_buf + strlen(txt_buf), "#FF8000 SHA256 Hash Match:# %s", valid_cal0 ? "Pass" : "Failed"); lv_label_set_text(lb_desc, txt_buf); out: free(txt_buf); sd_unmount(); lv_mbox_add_btns(mbox, mbox_btn_map, _cal0_dump_window_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } u32 wafer16nm[] = { 0x0003F800, 0x001FFF00, 0x007FFFC0, 0x00FFFFE0, 0x01FFFFF0, 0x03FFFFF8, 0x07FFFFFC, 0x07FFFFFC, 0x0FFFFFFE, 0x0FFFFFFE, 0x0FFFFFFE, 0x1FFFFFFF, 0x1FFFFFFF, 0x1FFFFFFF, 0x1FFFFFFF, 0x1FFFFFFF, 0x1FFFFFFF, 0x1FFFFFFF, 0x0FFFFFFE, 0x0FFFFFFE, 0x0FFFFFFE, 0x07FFFFFC, 0x07FFFFFC, 0x03FFFFF8, 0x01FFFFF0, 0x00FFFFE0, 0x007FFFC0, 0x001FFF00, 0x0000E000 }; u32 wafer20nm[] = { 0x0001FE00, 0x0007FF80, 0x001FFFE0, 0x003FFFF0, 0x007FFFF8, 0x00FFFFFC, 0x00FFFFFC, 0x01FFFFFE, 0x01FFFFFE, 0x03FFFFFF, 0x03FFFFFF, 0x03FFFFFF, 0x03FFFFFF, 0x03FFFFFF, 0x03FFFFFF, 0x03FFFFFF, 0x03FFFFFF, 0x01FFFFFE, 0x01FFFFFE, 0x00FFFFFC, 0x00FFFFFC, 0x007FFFF8, 0x003FFFF0, 0x001FFFE0, 0x0007FF80, 0x00000000, }; typedef struct _hw_info_t { lv_obj_t *ver; lv_obj_t *wafer_img; lv_obj_t *wafer_txt; } hw_info_t; hw_info_t *hw_info = NULL; //! TODO: Limits assumed based on known samples. #define WAFER_20NM_X_MIN -9 #define WAFER_20NM_X_MAX 15 #define WAFER_20NM_Y_MIN 1 #define WAFER_20NM_Y_MAX 24 // Limits validated based on known samples. #define WAFER_16NM_X_MIN -11 #define WAFER_16NM_X_MAX 17 #define WAFER_16NM_Y_MIN 0 #define WAFER_16NM_Y_MAX 28 void _hw_info_wafer(int die_x, int die_y) { static lv_img_dsc_t wafer_desc = { 0 }; int diameter; if (h_cfg.t210b01) { if (die_x < WAFER_16NM_X_MIN || die_x > WAFER_16NM_X_MAX || die_y < WAFER_16NM_Y_MIN || die_y > WAFER_16NM_Y_MAX) die_x = WAFER_16NM_X_MIN - 1; die_x += -WAFER_16NM_X_MIN; diameter = 29; } else { if (die_x < WAFER_20NM_X_MIN || die_x > WAFER_20NM_X_MAX || die_y < 0 || die_y > WAFER_20NM_Y_MAX) die_x = WAFER_20NM_X_MIN - 1; die_x += -WAFER_20NM_X_MIN; diameter = 26; } const u32 die_size = 2; const u32 die_side = die_size + 1; const u32 die_line = die_side * diameter + 1; const int align_off = (die_size - 2) * diameter; const u32 die_color = (die_x == -1) ? 0xFFFF0000 : 0x30FFFFFF; // Red for OOB. const u32 str_color = 0x10FFFFFF; const u32 hit_color = 0xFFFF8000; u32 *wafer_map = zalloc(die_line * die_line * sizeof(u32)); for (int y = 0; y < diameter; y++) { u32 wafer_row_next = -1; u32 wafer_row = h_cfg.t210b01 ? wafer16nm[y] : wafer20nm[y]; if ((y + 1) < diameter) wafer_row_next = h_cfg.t210b01 ? wafer16nm[y + 1] : wafer20nm[y + 1]; // Paint the first row of dies. int pos_y = y * die_line * die_side + die_line; for (int x = 0; x < diameter; x++) { bool in_wafer = wafer_row & (1u << x); bool die_found = x == die_x && die_y == y; u32 die_column = x * die_side; // Paint street rows; if (in_wafer) for (u32 i = 0; i < die_size + 2; i++) { wafer_map[pos_y - die_line + die_column + i] = str_color; if (wafer_row > wafer_row_next) wafer_map[pos_y - die_line + die_column + i + die_line * die_side] = str_color; } // Paint street column; if (in_wafer) wafer_map[pos_y + die_column] = str_color; u32 color; if (in_wafer && !die_found) color = die_color; else color = !die_found ? 0 : hit_color; // Paint die row0; for (u32 i = 0; i < die_size; i++) wafer_map[pos_y + die_column + 1 + i] = color; // Paint street column; if (in_wafer) wafer_map[pos_y + die_column + 1 + die_size] = str_color; } // Paint the rest of die rows. for (u32 i = 1; i < die_size; i++) memcpy(&wafer_map[pos_y + die_line * i], &wafer_map[pos_y], die_line * sizeof(u32)); } wafer_desc.header.always_zero = 0; wafer_desc.header.w = die_line; wafer_desc.header.h = die_line; wafer_desc.header.cf = LV_IMG_CF_TRUE_COLOR_ALPHA; wafer_desc.data_size = die_line * die_line * sizeof(u32); wafer_desc.data = (u8 *)wafer_map; lv_obj_t *wafer_img = lv_img_create(lv_scr_act(), NULL); lv_img_set_src(wafer_img, &wafer_desc); if (h_cfg.t210b01) lv_obj_align(wafer_img, NULL, LV_ALIGN_IN_TOP_LEFT, LV_DPI * 58 / 11 - align_off, LV_DPI * 44 / 9 - align_off / 2); else lv_obj_align(wafer_img, NULL, LV_ALIGN_IN_TOP_LEFT, LV_DPI * 59 / 11 - align_off, LV_DPI * 74 / 15 - align_off / 2); hw_info->wafer_img = wafer_img; lv_obj_t *wafer_txt = lv_label_create(lv_scr_act(), NULL); lv_label_set_style(wafer_txt, &monospace_text); lv_label_set_static_text(wafer_txt, (die_x == -1) ? "Error" : "Wafer"); lv_obj_align(wafer_txt, wafer_img, LV_ALIGN_OUT_BOTTOM_MID, 0, 0); hw_info->wafer_txt = wafer_txt; } static lv_res_t _action_win_hw_info_status_close(lv_obj_t *btn) { if (hw_info) { lv_img_dsc_t *wafer_dsc = (lv_img_dsc_t *)lv_img_get_src(hw_info->wafer_img); lv_obj_del(hw_info->ver); lv_obj_del(hw_info->wafer_img); lv_obj_del(hw_info->wafer_txt); free((u32 *)wafer_dsc->data); free(hw_info); hw_info = NULL; } return nyx_win_close_action(btn); } static lv_res_t _create_window_hw_info_status(lv_obj_t *btn) { u32 uptime_s = get_tmr_s(); lv_obj_t *win = nyx_create_standard_window(SYMBOL_CHIP" HW & Fuses Info", _action_win_hw_info_status_close); lv_win_add_btn(win, NULL, SYMBOL_DOWNLOAD" Dump fuses", _fuse_dump_window_action); lv_win_add_btn(win, NULL, SYMBOL_INFO" CAL0 Info", _create_mbox_cal0); lv_obj_t *desc = lv_cont_create(win, NULL); lv_obj_set_size(desc, LV_HOR_RES / 2 / 5 * 2, LV_VER_RES - (LV_DPI * 11 / 7) - 5); lv_obj_t * lb_desc = lv_label_create(desc, NULL); lv_label_set_long_mode(lb_desc, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc, true); lv_label_set_style(lb_desc, &monospace_text); char version[32]; s_printf(version, "%s%d.%d.%d%c", NYX_VER_RL ? "v" : "", NYX_VER_MJ, NYX_VER_MN, NYX_VER_HF, NYX_VER_RL > 'a' ? NYX_VER_RL : 0); lv_obj_t * lbl_ver = lv_label_create(lv_scr_act(), NULL); lv_label_set_style(lbl_ver, &hint_small_style_white); lv_label_set_text(lbl_ver, version); lv_obj_align(lbl_ver, status_bar.bar_bg, LV_ALIGN_OUT_TOP_RIGHT, -LV_DPI * 9 / 23, -LV_DPI * 2 / 13); hw_info = zalloc(sizeof(hw_info_t)); hw_info->ver = lbl_ver; lv_label_set_static_text(lb_desc, "#FF8000 SoC:#\n" "#FF8000 SKU:#\n" "#FF8000 DRAM ID:#\n" "#FF8000 Burnt Fuses (ODM 7/6):#\n" "ODM Fields (4/6/7):\n" "Secure Boot Key (SBK):\n" "Device Key (DK):\n" "Public Key (PK SHA256):\n\n" "HOS Keygen Revision:\n" "USB Controller (BROM):\n" "Final Test Revision:\n" "Chip Probing Revision:\n" "BootROM Revision:\n\n" "#FF8000 CPU/GPU/SoC Speedo:#\n" "CPU/GPU/SoC IDDQ:\n" "CPU Speedo 1:\n" "SoC Speedo 2:\n\n" "Product Code:\n" "Vendor Code:\n" "FAB/LOT Code:\n" "Wafer ID:\n" "X Coordinate:\n" "Y Coordinate:\n\n" "Uptime:" ); lv_obj_set_width(lb_desc, lv_obj_get_width(desc)); lv_obj_t *val = lv_cont_create(win, NULL); lv_obj_set_size(val, LV_HOR_RES / 7 * 2 + LV_DPI / 11, LV_VER_RES - (LV_DPI * 11 / 7) - 5); lv_obj_t * lb_val = lv_label_create(val, lb_desc); char *txt_buf = (char *)malloc(SZ_16K); // Decode fuses. char *sku; char dram_model[64]; char fuses_hos_version[64]; u8 dram_id = fuse_read_dramid(true); u8 dram_id_adj = fuse_read_dramid(false); switch (fuse_read_hw_type()) { case FUSE_NX_HW_TYPE_ICOSA: sku = "Icosa - Odin"; break; case FUSE_NX_HW_TYPE_IOWA: sku = "Iowa - Modin"; break; case FUSE_NX_HW_TYPE_HOAG: sku = "Hoag - Vali"; break; case FUSE_NX_HW_TYPE_AULA: sku = "Aula - Fric"; break; default: sku = "#FF8000 Unknown#"; break; } // Prepare dram id info. if (!h_cfg.t210b01) { switch (dram_id) { // LPDDR4 3200Mbps. case LPDDR4_ICOSA_4GB_SAMSUNG_K4F6E304HB_MGCH: strcpy(dram_model, "Samsung K4F6E304HB-MGCH 4GB"); break; case LPDDR4_ICOSA_4GB_HYNIX_H9HCNNNBPUMLHR_NLE: strcpy(dram_model, "Hynix H9HCNNNBPUMLHR-NLE 4GB"); break; case LPDDR4_ICOSA_4GB_MICRON_MT53B512M32D2NP_062_WTC: strcpy(dram_model, "Micron MT53B512M32D2NP-062 WT:C"); break; case LPDDR4_ICOSA_6GB_SAMSUNG_K4FHE3D4HM_MGCH: strcpy(dram_model, "Samsung K4FHE3D4HM-MGCH 6GB"); break; case LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX: strcpy(dram_model, "Samsung K4FBE3D4HM-MGXX 8GB"); break; default: strcpy(dram_model, "#FF8000 Unknown#"); break; } } else { switch (dram_id) { // LPDDR4X 3733Mbps. case LPDDR4X_IOWA_4GB_SAMSUNG_K4U6E3S4AM_MGCJ: case LPDDR4X_HOAG_4GB_SAMSUNG_K4U6E3S4AM_MGCJ: strcpy(dram_model, "Samsung K4U6E3S4AM-MGCJ 4GB"); break; case LPDDR4X_IOWA_8GB_SAMSUNG_K4UBE3D4AM_MGCJ: case LPDDR4X_HOAG_8GB_SAMSUNG_K4UBE3D4AM_MGCJ: strcpy(dram_model, "Samsung K4UBE3D4AM-MGCJ 8GB"); break; case LPDDR4X_IOWA_4GB_HYNIX_H9HCNNNBKMMLHR_NME: case LPDDR4X_HOAG_4GB_HYNIX_H9HCNNNBKMMLHR_NME: strcpy(dram_model, "Hynix H9HCNNNBKMMLHR-NME 4GB"); break; case LPDDR4X_IOWA_4GB_MICRON_MT53E512M32D2NP_046_WTE: // 4266Mbps. case LPDDR4X_HOAG_4GB_MICRON_MT53E512M32D2NP_046_WTE: // 4266Mbps. strcpy(dram_model, "Micron MT53E512M32D2NP-046 WT:E"); break; // LPDDR4X 4266Mbps case LPDDR4X_IOWA_4GB_SAMSUNG_K4U6E3S4AA_MGCL: case LPDDR4X_HOAG_4GB_SAMSUNG_K4U6E3S4AA_MGCL: case LPDDR4X_AULA_4GB_SAMSUNG_K4U6E3S4AA_MGCL: strcpy(dram_model, "Samsung K4U6E3S4AA-MGCL 4GB"); break; case LPDDR4X_IOWA_8GB_SAMSUNG_K4UBE3D4AA_MGCL: case LPDDR4X_HOAG_8GB_SAMSUNG_K4UBE3D4AA_MGCL: case LPDDR4X_AULA_8GB_SAMSUNG_K4UBE3D4AA_MGCL: strcpy(dram_model, "Samsung K4UBE3D4AA-MGCL 8GB"); break; case LPDDR4X_IOWA_4GB_SAMSUNG_K4U6E3S4AB_MGCL: case LPDDR4X_HOAG_4GB_SAMSUNG_K4U6E3S4AB_MGCL: case LPDDR4X_AULA_4GB_SAMSUNG_K4U6E3S4AB_MGCL: strcpy(dram_model, "Samsung K4U6E3S4AB-MGCL 4GB"); break; case LPDDR4X_IOWA_4GB_MICRON_MT53E512M32D2NP_046_WTF: case LPDDR4X_HOAG_4GB_MICRON_MT53E512M32D2NP_046_WTF: case LPDDR4X_AULA_4GB_MICRON_MT53E512M32D2NP_046_WTF: strcpy(dram_model, "Micron MT53E512M32D2NP-046 WT:F"); break; case LPDDR4X_HOAG_4GB_HYNIX_H9HCNNNBKMMLXR_NEE: // Replaced from Copper. case LPDDR4X_AULA_4GB_HYNIX_H9HCNNNBKMMLXR_NEE: // Replaced from Copper. case LPDDR4X_IOWA_4GB_HYNIX_H9HCNNNBKMMLXR_NEE: // Replaced from Copper. strcpy(dram_model, "Hynix H9HCNNNBKMMLXR-NEE 4GB"); break; case LPDDR4X_IOWA_4GB_HYNIX_H54G46CYRBX267: case LPDDR4X_HOAG_4GB_HYNIX_H54G46CYRBX267: case LPDDR4X_AULA_4GB_HYNIX_H54G46CYRBX267: strcpy(dram_model, "Hynix H54G46CYRBX267 4GB"); break; case LPDDR4X_IOWA_4GB_MICRON_MT53E512M32D1NP_046_WTB: case LPDDR4X_HOAG_4GB_MICRON_MT53E512M32D1NP_046_WTB: case LPDDR4X_AULA_4GB_MICRON_MT53E512M32D1NP_046_WTB: strcpy(dram_model, "Micron MT53E512M32D1NP-046 WT:B"); break; default: strcpy(dram_model, "#FF8000 Contact me!#"); break; } } // Check if DRAM config is forced to 8GB. if (dram_id != dram_id_adj && ((!h_cfg.t210b01 && dram_id_adj == LPDDR4_ICOSA_8GB_SAMSUNG_K4FBE3D4HM_MGXX) || ( h_cfg.t210b01 && dram_id_adj == LPDDR4X_AULA_8GB_SAMSUNG_K4UBE3D4AA_MGCL)) ) strcpy(dram_model, "#FF8000 Forced DRAM Config 8GB#"); // Count burnt fuses. u8 burnt_fuses_7 = bit_count(fuse_read_odm(7)); u8 burnt_fuses_6 = bit_count(fuse_read_odm(6)); // Check if overburnt. u8 burnt_fuses_hos = (fuse_read_odm(7) & ~bit_count_mask(burnt_fuses_7)) ? 255 : burnt_fuses_7; //! TODO: Update on anti-downgrade fuses change. switch (burnt_fuses_hos) { case 0: strcpy(fuses_hos_version, "#96FF00 Golden sample#"); break; case 1: strcpy(fuses_hos_version, "1.0.0"); break; case 2: strcpy(fuses_hos_version, "2.0.0 - 2.3.0"); break; case 3: strcpy(fuses_hos_version, "3.0.0"); break; case 4: strcpy(fuses_hos_version, "3.0.1 - 3.0.2"); break; case 5: strcpy(fuses_hos_version, "4.0.0 - 4.1.0"); break; case 6: strcpy(fuses_hos_version, "5.0.0 - 5.1.0"); break; case 7: strcpy(fuses_hos_version, "6.0.0 - 6.1.0"); break; case 8: strcpy(fuses_hos_version, "6.2.0"); break; case 9: strcpy(fuses_hos_version, "7.0.0 - 8.0.1"); break; case 10: strcpy(fuses_hos_version, "8.1.0 - 8.1.1"); break; case 11: strcpy(fuses_hos_version, "9.0.0 - 9.0.1"); break; case 12: strcpy(fuses_hos_version, "9.1.0 - 9.2.0"); break; case 13: strcpy(fuses_hos_version, "10.0.0 - 10.2.0"); break; case 14: strcpy(fuses_hos_version, "11.0.0 - 12.0.1"); break; case 15: strcpy(fuses_hos_version, "12.0.2 - 13.2.0"); break; case 16: strcpy(fuses_hos_version, "13.2.1 - 14.1.2"); break; case 17: strcpy(fuses_hos_version, "15.0.0 - 15.0.1"); break; case 18: strcpy(fuses_hos_version, "16.0.0 - 16.1.0"); break; case 19: strcpy(fuses_hos_version, "17.0.0 - 18.1.0"); break; case 20: strcpy(fuses_hos_version, "19.0.0 - 19.0.1"); break; case 21: strcpy(fuses_hos_version, "20.0.0 - 20.5.0"); break; case 22: strcpy(fuses_hos_version, "21.0.0 - 21.2.0"); break; case 23: strcpy(fuses_hos_version, "22.0.0+"); break; case 255: strcpy(fuses_hos_version, "#FFD000 Overburnt#"); break; default: strcpy(fuses_hos_version, "#FF8000 Unknown#"); break; } u32 fab = FUSE(FUSE_OPT_FAB_CODE); // Convert LOT from base36 BCD to binary. u32 lot_enc = FUSE(FUSE_OPT_LOT_CODE_0); u32 lot_dec = 0; char lot_bcd[6] = {0}; for (int i = 0; i < 5; ++i) { u32 digit = (lot_enc & 0x3F000000) >> 24; lot_dec *= 36; lot_dec += digit; lot_enc <<= 6; lot_bcd[i] = base36[digit]; } char sbk_key[64]; char dev_key[32]; if (FUSE(FUSE_PRIVATE_KEY0) == 0xFFFFFFFF && FUSE(FUSE_PRIVATE_KEY1) == 0xFFFFFFFF && FUSE(FUSE_PRIVATE_KEY2) == 0xFFFFFFFF && FUSE(FUSE_PRIVATE_KEY3) == 0xFFFFFFFF && FUSE(FUSE_PRIVATE_KEY4) == 0xFFFFFFFF) { strcpy(sbk_key, "Can't be read (locked out)"); strcpy(dev_key, "Can't be read (locked out)"); } else { s_printf(sbk_key, "%08X%08X%08X%08X", byte_swap_32(FUSE(FUSE_PRIVATE_KEY0)), byte_swap_32(FUSE(FUSE_PRIVATE_KEY1)), byte_swap_32(FUSE(FUSE_PRIVATE_KEY2)), byte_swap_32(FUSE(FUSE_PRIVATE_KEY3))); s_printf(dev_key, "%08X", byte_swap_32(FUSE(FUSE_PRIVATE_KEY4))); } u32 chip_id = APB_MISC(APB_MISC_GP_HIDREV); u32 chip_major = (chip_id >> 4) & 0xF; u32 chip_minor = (chip_id >> 16) & 0xF; char *chip_name = !h_cfg.t210b01 ? "T210 (Erista)" : "T210B01 (Mariko)"; u32 brom_rev = FUSE(FUSE_SOC_SPEEDO_1_CALIB); u32 prod_rev = !h_cfg.t210b01 ? (brom_rev < 0x7F ? 1 : 2) : 10; char product_part[16]; s_printf(product_part, "ODNX%02d-A%d", prod_rev, chip_minor); char iddq[3][8]; s_printf(iddq[0], "%d", FUSE(FUSE_CPU_IDDQ_CALIB) * 4); s_printf(iddq[1], "%d", FUSE(FUSE_GPU_IDDQ_CALIB) * 5); s_printf(iddq[2], "%d", FUSE(FUSE_SOC_IDDQ_CALIB) * 4); int die_x = FUSE(FUSE_OPT_X_COORDINATE); int die_y = FUSE(FUSE_OPT_Y_COORDINATE); // X Coordinate is 9-bit 2s complement. die_x = (die_x & BIT(8)) ? (die_x - 512) : die_x; // Render the wafer. _hw_info_wafer(die_x, die_y); // Parse fuses and display them. s_printf(txt_buf, "%02X - %s - M%d A%02d\n" "%X - %s - %s\n" "%02d - %s\n" "%d | %d - HOS: %s\n" "%08X %08X %08X\n" "%s\n%s\n" "%08X%08X%08X%08X\n" "%08X%08X%08X%08X\n" "%d\n" "%s\n" "%d.%02d (0x%X)\n" "%d.%02d (0x%X)\n" "0x%X\n\n" "%4d %4d %4d\n" "%.4s %.4s %.4s\n" "%d\n%d\n\n" "%s\n%d\n%c%s (%d/%d)\n" "%d\n%d\n%d\n\n" "%dh %02dm %02ds", (chip_id >> 8) & 0xFF, chip_name, chip_major, chip_minor, FUSE(FUSE_SKU_INFO), sku, fuse_read_hw_state() ? "Dev" : "Retail", dram_id, dram_model, burnt_fuses_7, burnt_fuses_6, fuses_hos_version, fuse_read_odm(4), fuse_read_odm(6), fuse_read_odm(7), sbk_key, dev_key, byte_swap_32(FUSE(FUSE_PUBLIC_KEY0)), byte_swap_32(FUSE(FUSE_PUBLIC_KEY1)), byte_swap_32(FUSE(FUSE_PUBLIC_KEY2)), byte_swap_32(FUSE(FUSE_PUBLIC_KEY3)), byte_swap_32(FUSE(FUSE_PUBLIC_KEY4)), byte_swap_32(FUSE(FUSE_PUBLIC_KEY5)), byte_swap_32(FUSE(FUSE_PUBLIC_KEY6)), byte_swap_32(FUSE(FUSE_PUBLIC_KEY7)), fuse_read_odm_keygen_rev(), ((FUSE(FUSE_RESERVED_SW) & 0x80) || h_cfg.t210b01) ? "XUSB" : "USB2", (FUSE(FUSE_OPT_FT_REV) >> 5) & 0x3F, FUSE(FUSE_OPT_FT_REV) & 0x1F, FUSE(FUSE_OPT_FT_REV), (FUSE(FUSE_OPT_CP_REV) >> 5) & 0x3F, FUSE(FUSE_OPT_CP_REV) & 0x1F, FUSE(FUSE_OPT_CP_REV), brom_rev, FUSE(FUSE_CPU_SPEEDO_0_CALIB), FUSE(FUSE_CPU_SPEEDO_2_CALIB), FUSE(FUSE_SOC_SPEEDO_0_CALIB), iddq[0], iddq[1], iddq[2], FUSE(FUSE_CPU_SPEEDO_1_CALIB), FUSE(FUSE_SOC_SPEEDO_2_CALIB), product_part, FUSE(FUSE_OPT_VENDOR_CODE), base36[fab], lot_bcd, fab, lot_dec, FUSE(FUSE_OPT_WAFER_ID), die_x, die_y, uptime_s / 3600, (uptime_s / 60) % 60, uptime_s % 60); lv_label_set_text(lb_val, txt_buf); lv_obj_set_width(lb_val, lv_obj_get_width(val)); lv_obj_align(val, desc, LV_ALIGN_OUT_RIGHT_MID, 0, 0); lv_obj_t *desc2 = lv_cont_create(win, NULL); lv_obj_set_size(desc2, LV_HOR_RES / 2 / 5 * 4, LV_VER_RES - (LV_DPI * 11 / 7) - 5); lv_obj_t * lb_desc2 = lv_label_create(desc2, NULL); lv_label_set_long_mode(lb_desc2, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc2, true); // Prepare DRAM info. emc_mr_data_t ram_vendor = sdram_read_mrx(MR5_MAN_ID); emc_mr_data_t ram_rev0 = sdram_read_mrx(MR6_REV_ID1); emc_mr_data_t ram_rev1 = sdram_read_mrx(MR7_REV_ID2); emc_mr_data_t ram_density = sdram_read_mrx(MR8_DENSITY); u32 ranks = EMC(EMC_ADR_CFG) + 1; u32 channels = (EMC(EMC_FBIO_CFG7) >> 1) & 3; channels = (channels & 1) + ((channels & 2) >> 1); s_printf(txt_buf, "#00DDFF %s SDRAM ##FF8000 (Module 0 | 1):#\n#FF8000 Vendor:# ", h_cfg.t210b01 ? "LPDDR4X" : "LPDDR4"); switch (ram_vendor.chip0.rank0_ch0) { case 1: strcat(txt_buf, "Samsung"); break; /* case 5: strcat(txt_buf, "Nanya"); break; */ case 6: strcat(txt_buf, "Hynix"); break; /* case 8: strcat(txt_buf, "Winbond"); break; case 9: strcat(txt_buf, "ESMT"); break; case 19: strcat(txt_buf, "CXMT"); break; case 26: strcat(txt_buf, "Xi'an UniIC"); break; case 27: strcat(txt_buf, "ISSI"); break; case 28: strcat(txt_buf, "JSC"); break; case 197: strcat(txt_buf, "SINKER"); break; case 229: strcat(txt_buf, "Dosilicon"); break; case 248: strcat(txt_buf, "Fidelix"); break; case 249: strcat(txt_buf, "Ultra Memory"); break; case 253: strcat(txt_buf, "AP Memory"); break; */ case 255: strcat(txt_buf, "Micron"); break; default: s_printf(txt_buf + strlen(txt_buf), "#FF8000 Unknown# (%d)", ram_vendor.chip0.rank0_ch0); break; } strcat(txt_buf, " #FF8000 |# "); switch (ram_vendor.chip1.rank0_ch0) { case 1: strcat(txt_buf, "Samsung"); break; case 6: strcat(txt_buf, "Hynix"); break; case 255: strcat(txt_buf, "Micron"); break; default: s_printf(txt_buf + strlen(txt_buf), "#FF8000 Unknown# (%d)", ram_vendor.chip1.rank0_ch0); break; } s_printf(txt_buf + strlen(txt_buf), "\n#FF8000 Rev ID:# %X.%02X #FF8000 |# %X.%02X\n#FF8000 Density:# ", ram_rev0.chip0.rank0_ch0, ram_rev1.chip0.rank0_ch0, ram_rev0.chip1.rank0_ch0, ram_rev1.chip1.rank0_ch0); u32 actual_ranks = (ram_vendor.chip0.rank0_ch0 == ram_vendor.chip0.rank1_ch0 && ram_vendor.chip0.rank0_ch1 == ram_vendor.chip0.rank1_ch1 && ram_rev0.chip0.rank0_ch0 == ram_rev0.chip0.rank1_ch0 && ram_rev0.chip0.rank0_ch1 == ram_rev0.chip0.rank1_ch1 && ram_rev1.chip0.rank0_ch0 == ram_rev1.chip0.rank1_ch0 && ram_rev1.chip0.rank0_ch1 == ram_rev1.chip0.rank1_ch1 && ram_density.chip0.rank0_ch0 == ram_density.chip0.rank1_ch0 && ram_density.chip0.rank0_ch1 == ram_density.chip0.rank1_ch1) ? 2 : 1; bool rank_bad = ranks != actual_ranks; s_printf(txt_buf + strlen(txt_buf), "%s %d x %s", rank_bad ? "#FFDD00" : "", actual_ranks * channels, rank_bad ? "#" : ""); switch ((ram_density.chip0.rank0_ch0 & 0x3C) >> 2) { case 2: strcat(txt_buf, "512MB"); break; case 3: strcat(txt_buf, "768MB"); break; case 4: strcat(txt_buf, "1GB"); break; case 5: strcat(txt_buf, "1.5GB"); break; case 6: strcat(txt_buf, "2GB"); break; default: s_printf(txt_buf + strlen(txt_buf), "Unk (%d)", (ram_density.chip0.rank0_ch0 & 0x3C) >> 2); break; } actual_ranks = (ram_vendor.chip1.rank0_ch0 == ram_vendor.chip1.rank1_ch0 && ram_vendor.chip1.rank0_ch1 == ram_vendor.chip1.rank1_ch1 && ram_rev0.chip1.rank0_ch0 == ram_rev0.chip1.rank1_ch0 && ram_rev0.chip1.rank0_ch1 == ram_rev0.chip1.rank1_ch1 && ram_rev1.chip1.rank0_ch0 == ram_rev1.chip1.rank1_ch0 && ram_rev1.chip1.rank0_ch1 == ram_rev1.chip1.rank1_ch1 && ram_density.chip1.rank0_ch0 == ram_density.chip1.rank1_ch0 && ram_density.chip1.rank0_ch1 == ram_density.chip1.rank1_ch1) ? 2 : 1; rank_bad = ranks != actual_ranks; s_printf(txt_buf + strlen(txt_buf), " #FF8000 |# %s %d x %s", rank_bad ? "#FFDD00" : "", actual_ranks * channels, rank_bad ? "#" : ""); switch ((ram_density.chip1.rank0_ch0 & 0x3C) >> 2) { case 2: strcat(txt_buf, "512MB"); break; case 3: strcat(txt_buf, "768MB"); break; case 4: strcat(txt_buf, "1GB"); break; case 5: strcat(txt_buf, "1.5GB"); break; case 6: strcat(txt_buf, "2GB"); break; default: s_printf(txt_buf + strlen(txt_buf), "Unk (%d)", (ram_density.chip1.rank0_ch0 & 0x3C) >> 2); break; } strcat(txt_buf, "\n\n"); // Prepare display info. u8 display_rev = (nyx_str->info.panel_id >> 8) & 0xFF; u32 display_id = ((nyx_str->info.panel_id >> 8) & 0xFF00) | (nyx_str->info.panel_id & 0xFF); // For OLED LCD 7" OEM clone use touch to identify it. touch_info_t *touch_info = touch_get_chip_info(); bool touch_clone_oled = touch_info->chip_id == FTS4_I2C_CHIP_ID && touch_info->clone; if (touch_clone_oled) display_id = 0x10000; strcat(txt_buf, "#00DDFF Display Panel:#\n#FF8000 Model:# "); switch (display_id) { case PANEL_JDI_LAM062M109A: strcat(txt_buf, "JDI LAM062M109A"); break; case PANEL_JDI_LPM062M326A: strcat(txt_buf, "JDI LPM062M326A"); break; case PANEL_INL_P062CCA_AZ1: strcat(txt_buf, "InnoLux P062CCA"); switch (display_rev) { case 0x93: strcat(txt_buf, "-AZ1"); break; case 0x95: strcat(txt_buf, "-AZ2"); break; case 0x96: strcat(txt_buf, "-AZ3"); break; case 0x97: strcat(txt_buf, "-???"); break; case 0x98: strcat(txt_buf, "-???"); break; case 0x99: strcat(txt_buf, "-???"); break; default: strcat(txt_buf, " #FFDD00 Contact me!#"); break; } break; case PANEL_AUO_A062TAN01: strcat(txt_buf, "AUO A062TAN"); switch (display_rev) { case 0x93: strcat(txt_buf, "00"); break; case 0x94: strcat(txt_buf, "01"); break; case 0x95: strcat(txt_buf, "02"); break; case 0x96: strcat(txt_buf, "??"); break; case 0x97: strcat(txt_buf, "??"); break; case 0x98: strcat(txt_buf, "??"); break; default: strcat(txt_buf, " #FFDD00 Contact me!#"); break; } break; case PANEL_INL_2J055IA_27A: strcat(txt_buf, "InnoLux 2J055IA-27A"); break; case PANEL_AUO_A055TAN01: strcat(txt_buf, "AUO A055TAN"); s_printf(txt_buf + strlen(txt_buf), "%02d", display_rev - 0x92); break; case PANEL_SHP_LQ055T1SW10: strcat(txt_buf, "Sharp LQ055T1SW10"); break; case PANEL_SAM_AMS699VC01: strcat(txt_buf, "Samsung AMS699VC01"); break; case PANEL_OEM_CLONE_6_2: strcat(txt_buf, "#FFDD00 OEM Clone 6.2\"#"); break; case PANEL_OEM_CLONE_5_5: strcat(txt_buf, "#FFDD00 OEM Clone 5.5\"#"); break; case PANEL_OEM_CLONE: strcat(txt_buf, "#FFDD00 OEM Clone#"); break; case 0xCCCC: strcat(txt_buf, "#FFDD00 Failed to get info!#"); break; case 0x10000: // Custom ID for LCD OEM Clone for Switch OLED. strcat(txt_buf, "#FFDD00 LCD OEM Clone 7\"#"); break; default: switch (display_id & 0xFF) { case PANEL_JDI_XXX062M: strcat(txt_buf, "JDI "); break; case (PANEL_INL_P062CCA_AZ1 & 0xFF): strcat(txt_buf, "InnoLux "); break; case (PANEL_AUO_A062TAN01 & 0xFF): strcat(txt_buf, "AUO "); break; case (PANEL_SAM_AMS699VC01 & 0xFF): strcat(txt_buf, "Samsung "); break; } strcat(txt_buf, "Unknown #FFDD00 Contact me!#"); break; } s_printf(txt_buf + strlen(txt_buf), "\n#FF8000 ID:# #96FF00 %02X# %02X #96FF00 %02X#", nyx_str->info.panel_id & 0xFF, (nyx_str->info.panel_id >> 8) & 0xFF, (nyx_str->info.panel_id >> 16) & 0xFF); // Prepare touch panel/ic info. touch_fw_info_t touch_fw; if (!touch_get_fw_info(&touch_fw)) { strcat(txt_buf, "\n\n#00DDFF Touch Panel:#\n#FF8000 Model:# "); touch_panel_info_t *touch_panel = touch_get_panel_vendor(); if (touch_clone_oled) strcat(txt_buf, "#FFDD00 OEM Clone TSP#"); else if (touch_panel) { if ((u8)touch_panel->idx == (u8)-2) // Touch panel not found, print gpios. { s_printf(txt_buf + strlen(txt_buf), "%2X%2X%2X #FFDD00 Contact me!#", touch_panel->gpio0, touch_panel->gpio1, touch_panel->gpio2); touch_panel = NULL; } else strcat(txt_buf, touch_panel->vendor); } else strcat(txt_buf, "#FFDD00 Error!#"); s_printf(txt_buf + strlen(txt_buf), "\n#FF8000 ID:# %02X.%02X.%02X.%02X (", (touch_fw.fw_id >> 24) & 0xFF, (touch_fw.fw_id >> 16) & 0xFF, (touch_fw.fw_id >> 8) & 0xFF, touch_fw.fw_id & 0xFF); if (touch_clone_oled) touch_fw.fw_id = 0xFFFFFFFF; // Check panel pair info. bool panel_ic_paired = false; switch (touch_fw.fw_id) { case 0x00100100: strcat(txt_buf, "4CD60D/0"); if (touch_panel) panel_ic_paired = (u8)touch_panel->idx == (u8)-1; break; case 0x00100200: // 4CD 1602. case 0x00120100: case 0x32000001: strcat(txt_buf, "4CD60D/1"); if (touch_panel) panel_ic_paired = touch_panel->idx == 0; // NISSHA NFT-K12D. break; // case 0x98000004: // New 6.2" panel? // case 0x50000001: // case 0x50000002: // strcat(txt_buf, "FST2 UNK"); // if (touch_panel) // panel_ic_paired = touch_panel->idx == 0; // break; case 0x001A0300: case 0x32000102: strcat(txt_buf, "4CD60D/2"); if (touch_panel) panel_ic_paired = touch_panel->idx == 1; // GiS GGM6 B2X. break; case 0x00290100: case 0x32000302: strcat(txt_buf, "4CD60D/3"); if (touch_panel) panel_ic_paired = touch_panel->idx == 2; // NISSHA NBF-K9A. break; case 0x31051820: case 0x32000402: strcat(txt_buf, "4CD60D/4"); if (touch_panel) panel_ic_paired = touch_panel->idx == 3; // GiS 5.5". break; case 0x32000501: case 0x33000502: case 0x33000503: case 0x33000510: strcat(txt_buf, "4CD60D/5"); if (touch_panel) panel_ic_paired = touch_panel->idx == 4; // Samsung BH2109. break; case 0xFFFFFFFF: // Custom for OLED clone. strcat(txt_buf, "Clone"); panel_ic_paired = true; break; default: strcat(txt_buf, "#FF8000 Contact me#"); break; } s_printf(txt_buf + strlen(txt_buf), " - %s)\n#FF8000 FTB ver:# %04X\n#FF8000 FW rev:# %04X", panel_ic_paired ? "Paired" : "#FFDD00 Error#", touch_fw.ftb_ver, byte_swap_16(touch_fw.fw_rev)); // Byte swapping makes more sense here. } else strcat(txt_buf, "\n\n#FFDD00 Failed to get touch info!#"); // Check if patched unit. if (!fuse_check_patched_rcm()) strcat(txt_buf, "\n\n#96FF00 This unit is exploitable#\n#96FF00 to the RCM bug!#"); else strcat(txt_buf, "\n\n#FF8000 This unit is patched#\n#FF8000 to the RCM bug!#"); lv_label_set_text(lb_desc2, txt_buf); free(txt_buf); lv_obj_set_width(lb_desc2, lv_obj_get_width(desc2)); lv_obj_align(desc2, val, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 4, 0); return LV_RES_OK; } static char *ipatches_txt; static void _ipatch_process(u32 offset, u32 value) { s_printf(ipatches_txt + strlen(ipatches_txt), "%6X %4X ", IROM_BASE + offset, value); u8 lo = value & 0xFF; switch (value >> 8) { case 0x20: s_printf(ipatches_txt + strlen(ipatches_txt), "MOVS R0, ##0x%02X", lo); break; case 0x21: s_printf(ipatches_txt + strlen(ipatches_txt), "MOVS R1, ##0x%02X", lo); break; case 0xDF: s_printf(ipatches_txt + strlen(ipatches_txt), "SVC ##0x%02X", lo); break; } strcat(ipatches_txt, "\n"); } static lv_res_t _create_window_bootrom_info_status(lv_obj_t *btn) { lv_obj_t *win = nyx_create_standard_window(SYMBOL_CHIP" Bootrom Info", NULL); lv_win_add_btn(win, NULL, SYMBOL_DOWNLOAD" Dump Bootrom", _bootrom_dump_window_action); lv_obj_t *desc = lv_cont_create(win, NULL); lv_obj_set_size(desc, LV_HOR_RES / 2 / 3 * 2, LV_VER_RES - (LV_DPI * 11 / 7) - 5); lv_obj_t * lb_desc = lv_label_create(desc, NULL); lv_label_set_long_mode(lb_desc, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc, true); lv_label_set_style(lb_desc, &monospace_text); char *txt_buf = (char *)malloc(SZ_4K); ipatches_txt = txt_buf; s_printf(txt_buf, "#00DDFF Ipatches:#\n#FF8000 Address "SYMBOL_DOT" Val "SYMBOL_DOT" Instruction#\n"); u32 res = fuse_read_ipatch(_ipatch_process); if (res != 0) s_printf(txt_buf + strlen(txt_buf), "#FFDD00 Failed to read ipatches. Error: %d#", res); lv_label_set_text(lb_desc, txt_buf); free(txt_buf); lv_obj_set_width(lb_desc, lv_obj_get_width(desc)); return LV_RES_OK; } static lv_res_t _launch_lockpick_action(lv_obj_t *btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); nyx_mbox_action(btns, txt); if (btn_idx == 1) { lv_obj_t *list = lv_list_create(NULL, NULL); lv_obj_set_size(list, 1, 1); lv_list_set_single_mode(list, true); lv_list_add(list, NULL, "Lockpick_RCM.bin", NULL); lv_obj_t *btn; btn = lv_list_get_prev_btn(list, NULL); launch_payload(btn); lv_obj_del(list); } return LV_RES_INV; } static lv_res_t _create_mbox_lockpick(lv_obj_t *btn) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222Continue", "\222Close", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_mbox_set_text(mbox, "#FF8000 Lockpick RCM#\n\nThis will launch Lockpick RCM.\nDo you want to continue?\n\n" "To return back from lockpick use\n#96FF00 Reboot to hekate#."); lv_mbox_add_btns(mbox, mbox_btn_map, _launch_lockpick_action); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } static lv_res_t _create_mbox_emmc_sandisk_report(lv_obj_t * btn) { static lv_style_t h_style; lv_style_copy(&h_style, &lv_style_transp); h_style.body.padding.inner = 0; h_style.body.padding.hor = LV_DPI - (LV_DPI / 4); h_style.body.padding.ver = LV_DPI / 6; lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222Close", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 8); lv_mbox_set_text(mbox, "#C7EA46 Sandisk Device Report#"); u8 *buf = zalloc(EMMC_BLOCKSIZE); char *txt_buf = (char *)malloc(SZ_32K); char *txt_buf2 = (char *)malloc(SZ_32K); txt_buf[0] = 0; txt_buf2[0] = 0; // Create SoC Info container. lv_obj_t *h1 = lv_cont_create(mbox, NULL); lv_cont_set_style(h1, &h_style); lv_cont_set_fit(h1, false, true); lv_obj_set_width(h1, (LV_HOR_RES / 9) * 7); lv_obj_set_click(h1, false); lv_cont_set_layout(h1, LV_LAYOUT_OFF); lv_obj_t * lb_desc = lv_label_create(h1, NULL); lv_label_set_long_mode(lb_desc, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc, true); lv_label_set_style(lb_desc, &monospace_text); lv_obj_set_width(lb_desc, LV_HOR_RES / 9 * 4); lv_obj_t * lb_desc2 = lv_label_create(h1, NULL); lv_label_set_long_mode(lb_desc2, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc2, true); lv_label_set_style(lb_desc2, &monospace_text); lv_obj_set_width(lb_desc2, LV_HOR_RES / 9 * 3); lv_obj_align(lb_desc2, lb_desc, LV_ALIGN_OUT_RIGHT_TOP, 0, 0); if (emmc_initialize(false)) { lv_label_set_text(lb_desc, "#FFDD00 Failed to init eMMC!#"); goto out; } int res = sdmmc_storage_vendor_sandisk_report(&emmc_storage, buf); emmc_end(); if (res) { lv_label_set_text(lb_desc, "#FFDD00 Device Report not supported!#"); lv_label_set_text(lb_desc2, " "); goto out; } mmc_sandisk_report_t *rpt = (mmc_sandisk_report_t *)buf; u8 fw_update_date[13] = {0}; u8 fw_update_time[9] = {0}; memcpy(fw_update_date, rpt->fw_update_date, sizeof(rpt->fw_update_date)); memcpy(fw_update_time, rpt->fw_update_time, sizeof(rpt->fw_update_time)); s_printf(txt_buf, "#00DDFF Device report#\n" //"#FF8000 Average Erases SYS:# %d\n" "#FF8000 Average Erases SLC:# %d\n" "#FF8000 Average Erases MLC:# %d\n" //"#FF8000 Read Reclaims SYS:# %d\n" "#FF8000 Read Reclaims SLC:# %d\n" "#FF8000 Read Reclaims MLC:# %d\n" "#FF8000 Bad Blocks Factory:# %d\n" "#FF8000 Bad Blocks SYS:# %d\n" "#FF8000 Bad Blocks SLC:# %d\n" "#FF8000 Bad Blocks MLC:# %d\n" "#FF8000 FW Updates:# %d\n" "#FF8000 FW Buildtime:# %s %s\n" "#FF8000 Total Writes:# %d MB\n" //"#FF8000 Voltage Drops:# %d\n" //"#FF8000 Voltage Droops:# %d\n" //"#FF8000 VD Failed Recovers:# %d\n" //"#FF8000 VD Recover Operations:# %d\n" "#FF8000 Total Writes SLC:# %d MB\n" "#FF8000 Total Writes MLC:# %d MB\n" "#FF8000 BigFile limit status:# %d\n" "#FF8000 Average Erases Hybrid:# %d", //rpt->avg_erase_cycles_sys, rpt->avg_erase_cycles_slc, rpt->avg_erase_cycles_mlc, //rpt->read_reclaim_cnt_sys, rpt->read_reclaim_cnt_slc, rpt->read_reclaim_cnt_mlc, rpt->bad_blocks_factory, rpt->bad_blocks_sys, rpt->bad_blocks_slc, rpt->bad_blocks_mlc, rpt->fw_updates_cnt, fw_update_date, fw_update_time, rpt->total_writes_100mb * 100, //rpt->vdrops, //rpt->vdroops, //rpt->vdrops_failed_data_rec, //rpt->vdrops_data_rec_ops, rpt->total_writes_slc_100mb * 100, rpt->total_writes_mlc_100mb * 100, rpt->mlc_bigfile_mode_limit_exceeded, rpt->avg_erase_cycles_hybrid); u8 advanced_report = 0; for (u32 i = 0; i < sizeof(mmc_sandisk_advanced_report_t); i++) advanced_report |= *(u8 *)((u8 *)&rpt->advanced + i); if (advanced_report) { s_printf(txt_buf2, "#00DDFF Advanced Health Status#\n" "#FF8000 Power ups:# %d\n" //"#FF8000 Maximum Erases SYS:# %d\n" "#FF8000 Maximum Erases SLC:# %d\n" "#FF8000 Maximum Erases MLC:# %d\n" //"#FF8000 Minimum Erases SYS:# %d\n" "#FF8000 Minimum Erases SLC:# %d\n" "#FF8000 Minimum Erases MLC:# %d\n" "#FF8000 Maximum Erases EUDA:# %d\n" "#FF8000 Minimum Erases EUDA:# %d\n" "#FF8000 Average Erases EUDA:# %d\n" "#FF8000 Read Reclaims EUDA:# %d\n" "#FF8000 Bad Blocks EUDA:# %d\n" //"#FF8000 Pre EOL State EUDA:# %d\n" //"#FF8000 Pre EOL State SYS:# %d\n" //"#FF8000 Pre EOL State MLC:# %d\n" "#FF8000 Uncorrectable ECC:# %d\n" "#FF8000 Temperature Now:# %d oC\n" //"#FF8000 Temperature Min:# %d oC\n" "#FF8000 Temperature Max:# %d oC\n" "#FF8000 Health Level EUDA:# %d%%\n" //"#FF8000 Health Level SYS:# %d%%\n" "#FF8000 Health Level MLC:# %d%%", rpt->advanced.power_inits, //rpt->advanced.max_erase_cycles_sys, rpt->advanced.max_erase_cycles_slc, rpt->advanced.max_erase_cycles_mlc, //rpt->advanced.min_erase_cycles_sys, rpt->advanced.min_erase_cycles_slc, rpt->advanced.min_erase_cycles_mlc, rpt->advanced.max_erase_cycles_euda, rpt->advanced.min_erase_cycles_euda, rpt->advanced.avg_erase_cycles_euda, rpt->advanced.read_reclaim_cnt_euda, rpt->advanced.bad_blocks_euda, //rpt->advanced.pre_eol_euda, //rpt->advanced.pre_eol_sys, //rpt->advanced.pre_eol_mlc, rpt->advanced.uncorrectable_ecc, rpt->advanced.temperature_now, //rpt->advanced.temperature_min, rpt->advanced.temperature_max, rpt->advanced.health_pct_euda ? 101 - rpt->advanced.health_pct_euda : 0, //rpt->advanced.health_pct_sys ? 101 - rpt->advanced.health_pct_sys : 0, rpt->advanced.health_pct_mlc ? 101 - rpt->advanced.health_pct_mlc : 0); } else strcpy(txt_buf2, "#00DDFF Advanced Health Status#\n#FFDD00 Empty!#"); lv_label_set_text(lb_desc, txt_buf); lv_label_set_text(lb_desc2, txt_buf2); out: free(buf); free (txt_buf); free (txt_buf2); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); // Important. After set_text. lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } static lv_obj_t *bench_sd_err_label = NULL; static lv_res_t _create_mbox_benchmark(bool sd_bench) { sdmmc_storage_t *storage; lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES * 3 / 7); char *txt_buf = (char *)malloc(SZ_16K); s_printf(txt_buf, "#FF8000 %s Benchmark#\n[Raw Reads] Abort: VOL- & VOL+", sd_bench ? "SD Card" : "eMMC"); lv_mbox_set_text(mbox, txt_buf); txt_buf[0] = 0; lv_obj_t *h1 = lv_cont_create(mbox, NULL); lv_cont_set_fit(h1, false, true); lv_cont_set_style(h1, &lv_style_transp_tight); lv_obj_set_width(h1, lv_obj_get_width(mbox) - LV_DPI / 10); lv_obj_t *lbl_status = lv_label_create(h1, NULL); lv_label_set_style(lbl_status, &monospace_text); lv_label_set_recolor(lbl_status, true); lv_label_set_text(lbl_status, " "); lv_obj_align(lbl_status, h1, LV_ALIGN_IN_TOP_MID, 0, 0); lv_obj_t *bar = lv_bar_create(mbox, NULL); lv_obj_set_size(bar, LV_DPI * 2, LV_DPI / 5); lv_bar_set_range(bar, 0, 100); lv_bar_set_value(bar, 0); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); manual_system_maintenance(true); int res = 0; if (sd_bench) { storage = &sd_storage; // Re-initialize to update trimmers. sd_end(); res = sd_mount(); } else { storage = &emmc_storage; res = emmc_initialize(false); if (!res) emmc_set_partition(EMMC_GPP); } if (res) { lv_mbox_set_text(mbox, "#FFDD00 Failed to init Storage!#"); goto out; } // Set benchmark parameters. const u32 sct_blk_seq = 0x8000; // 16MB. A2 spec denotes 4MB, but using older big AU. const u32 sct_blk_4kb = 8; // 4KB. const u32 sct_rem_seq = 0x200000; // 1GB. A2 spec. const u32 sct_rem_4kb = 0x80000; // 256MB. A2 spec. const u32 sct_num_1mb = 0x800; // 1MB. const u32 size_bytes_seq = sct_rem_seq * SDMMC_DAT_BLOCKSIZE; const u32 size_bytes_4kb = sct_rem_4kb * SDMMC_DAT_BLOCKSIZE; // Set calculation divider. 1000 or 1024. (Does not affect IOPS). u32 mb_div = 1000; // Unfortunately most software uses fake MB. char *mbs_text; switch (mb_div) { case 1000: mbs_text = "MB/s"; break; case 1024: mbs_text = "MiB/s"; break; } // Set actual div in MB/MiB. mb_div *= mb_div; int error = 0; u32 iters = 3; u32 offset_chunk_start = ALIGN_DOWN(storage->sec_cnt / 3, sct_blk_seq); // Align to block. if (storage->sec_cnt < 0xC00000) iters -= 2; // 4GB card. u32 rnd_off_cnt = sct_rem_4kb / sct_blk_4kb; u32 *random_offsets = malloc(rnd_off_cnt * sizeof(u32)); u32 *times_taken_4k = malloc(rnd_off_cnt * sizeof(u32)); for (u32 iter_curr = 0; iter_curr < iters; iter_curr++) { u32 pct = 0; u32 prevPct = 200; u32 timer = 0; u32 lba_curr = 0; u32 sector_off = offset_chunk_start * iter_curr; u32 sector_num = sct_blk_seq; u32 data_remaining = sct_rem_seq; s_printf(txt_buf + strlen(txt_buf), "#C7EA46 %d/3# - Sector Offset #C7EA46 %08X#:\n", iter_curr + 1, sector_off); u32 render_min_ms = 66; u32 render_timer = get_tmr_ms() + render_min_ms; while (data_remaining) { u32 time_taken = get_tmr_us(); error = sdmmc_storage_read(storage, sector_off + lba_curr, sector_num, (u8 *)MIXD_BUF_ALIGNED); time_taken = get_tmr_us() - time_taken; timer += time_taken; manual_system_maintenance(false); data_remaining -= sector_num; lba_curr += sector_num; pct = (lba_curr * 100) / sct_rem_seq; if (pct != prevPct && render_timer < get_tmr_ms()) { lv_bar_set_value(bar, pct); manual_system_maintenance(true); render_timer = get_tmr_ms() + render_min_ms; prevPct = pct; if (btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) error = -1; } if (error) goto error; } lv_bar_set_value(bar, 100); // Calculate rate for transfer. u32 rate_1k = (u64)size_bytes_seq * 1000 * 1000 * 1000 / mb_div / timer; s_printf(txt_buf + strlen(txt_buf), " SEQ 16MB - Rate: #C7EA46 %3d.%02d %s#", rate_1k / 1000, (rate_1k % 1000) / 10, mbs_text); lv_label_set_text(lbl_status, txt_buf); lv_obj_align(lbl_status, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); manual_system_maintenance(true); pct = 0; prevPct = 200; timer = 0; lba_curr = 0; sector_num = sct_blk_4kb; data_remaining = sct_rem_4kb; u32 loop_idx = 0; render_timer = get_tmr_ms() + render_min_ms; while (data_remaining) { u32 time_taken = get_tmr_us(); error = sdmmc_storage_read(storage, sector_off + lba_curr, sector_num, (u8 *)MIXD_BUF_ALIGNED); time_taken = get_tmr_us() - time_taken; timer += time_taken; times_taken_4k[loop_idx++] = time_taken; manual_system_maintenance(false); data_remaining -= sector_num; lba_curr += sector_num; pct = (lba_curr * 100) / sct_rem_4kb; if (pct != prevPct && render_timer < get_tmr_ms()) { lv_bar_set_value(bar, pct); manual_system_maintenance(true); render_timer = get_tmr_ms() + render_min_ms; prevPct = pct; if (btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) error = -1; } if (error) goto error; } lv_bar_set_value(bar, 100); qsort(times_taken_4k, loop_idx, sizeof(u32), qsort_compare_int); // Use int for faster compare. Value can't exceed 2s. u32 pct95 = 0; for (u32 i = 0; i < loop_idx * 95 / 100; i++) pct95 += times_taken_4k[i]; pct95 /= loop_idx * 95 / 100; u32 pct05 = 0; for (u32 i = 0; i < loop_idx * 5 / 100; i++) pct05 += times_taken_4k[loop_idx - 1 - i]; pct05 /= loop_idx * 5 / 100; // Calculate rate and IOPS for transfer. rate_1k = (u64)size_bytes_4kb * 1000 * 1000 * 1000 / mb_div / timer; u32 iops = ((u64)(sct_rem_4kb / sct_num_1mb) * 1024 * 1000 * 1000 * 1000) / (4096 / 1024) / timer / 1000; s_printf(txt_buf + strlen(txt_buf), " AVG #C7EA46 95th# #FF3C28 5th#\n"); s_printf(txt_buf + strlen(txt_buf), " SEQ 4KB - Rate: #C7EA46 %3d.%02d %s# IOPS: #C7EA46 %4d# %4d %4d \n", rate_1k / 1000, (rate_1k % 1000) / 10, mbs_text, iops, 1000000 / pct95, 1000000 / pct05); lv_label_set_text(lbl_status, txt_buf); lv_obj_align(lbl_status, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); manual_system_maintenance(true); u32 lba_idx = 0; u32 random_numbers[4]; for (u32 i = 0; i < rnd_off_cnt; i += 4) { // Generate new random numbers. while (se_rng_pseudo(random_numbers, SE_RNG_BLOCK_SIZE)) ; // Clamp offsets to 256MB range. random_offsets[i + 0] = random_numbers[0] % sct_rem_4kb; random_offsets[i + 1] = random_numbers[1] % sct_rem_4kb; random_offsets[i + 2] = random_numbers[2] % sct_rem_4kb; random_offsets[i + 3] = random_numbers[3] % sct_rem_4kb; } pct = 0; prevPct = 200; timer = 0; data_remaining = sct_rem_4kb; loop_idx = 0; render_timer = get_tmr_ms() + render_min_ms; while (data_remaining) { u32 time_taken = get_tmr_us(); error = sdmmc_storage_read(storage, sector_off + random_offsets[lba_idx], sector_num, (u8 *)MIXD_BUF_ALIGNED); time_taken = get_tmr_us() - time_taken; timer += time_taken; times_taken_4k[loop_idx++] = time_taken; manual_system_maintenance(false); data_remaining -= sector_num; lba_idx++; pct = (lba_idx * 100) / rnd_off_cnt; if (pct != prevPct && render_timer < get_tmr_ms()) { lv_bar_set_value(bar, pct); manual_system_maintenance(true); render_timer = get_tmr_ms() + render_min_ms; prevPct = pct; if (btn_read_vol() == (BTN_VOL_UP | BTN_VOL_DOWN)) error = -1; } if (error) goto error; } lv_bar_set_value(bar, 100); qsort(times_taken_4k, loop_idx, sizeof(u32), qsort_compare_int); // Use int for faster compare. Value can't exceed 2s. pct95 = 0; for (u32 i = 0; i < loop_idx * 95 / 100; i++) pct95 += times_taken_4k[i]; pct95 /= loop_idx * 95 / 100; pct05 = 0; for (u32 i = 0; i < loop_idx * 5 / 100; i++) pct05 += times_taken_4k[loop_idx - 1 - i]; pct05 /= loop_idx * 5 / 100; // Calculate rate and IOPS for transfer. rate_1k = (u64)size_bytes_4kb * 1000 * 1000 * 1000 / mb_div / timer; iops = ((u64)(sct_rem_4kb / sct_num_1mb) * 1024 * 1000 * 1000 * 1000) / (4096 / 1024) / timer / 1000; s_printf(txt_buf + strlen(txt_buf), " RND 4KB - Rate: #C7EA46 %3d.%02d %s# IOPS: #C7EA46 %4d# %4d %4d \n", rate_1k / 1000, (rate_1k % 1000) / 10, mbs_text, iops, 1000000 / pct95, 1000000 / pct05); if (iter_curr == iters - 1) txt_buf[strlen(txt_buf) - 1] = 0; // Cut off last new line. lv_label_set_text(lbl_status, txt_buf); lv_obj_align(lbl_status, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); manual_system_maintenance(true); } error: free(random_offsets); free(times_taken_4k); if (error) { if (error == -1) s_printf(txt_buf + strlen(txt_buf), "\n#FFDD00 Aborted! #"); else s_printf(txt_buf + strlen(txt_buf), "\n#FFDD00 IO Error occurred! #"); lv_label_set_text(lbl_status, txt_buf); lv_obj_align(lbl_status, NULL, LV_ALIGN_CENTER, 0, 0); } lv_obj_del(bar); if (sd_bench && error && error != -1) sd_end(); if (sd_bench) { if (error && error != -1) sd_end(); else sd_unmount(); } else emmc_end(); out: s_printf(txt_buf, "#FF8000 %s Benchmark#\n[Raw Reads]", sd_bench ? "SD Card" : "eMMC"); lv_mbox_set_text(mbox, txt_buf); // Update SDMMC error info in case it changed. if (sd_bench && bench_sd_err_label) { u16 *sd_errors = sd_get_error_count(); s_printf(txt_buf, "\n%d (%d)\n%d (%d)\n%d (%d)", sd_errors[SD_ERROR_INIT_FAIL], nyx_str->info.sd_errors[SD_ERROR_INIT_FAIL], sd_errors[SD_ERROR_RW_FAIL], nyx_str->info.sd_errors[SD_ERROR_RW_FAIL], sd_errors[SD_ERROR_RW_RETRY], nyx_str->info.sd_errors[SD_ERROR_RW_RETRY]); lv_label_set_text(bench_sd_err_label, txt_buf); } free(txt_buf); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); // Important. After set_text. lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); return LV_RES_OK; } static lv_res_t _create_mbox_emmc_bench(lv_obj_t * btn) { _create_mbox_benchmark(false); return LV_RES_OK; } static lv_res_t _create_mbox_sd_bench(lv_obj_t * btn) { _create_mbox_benchmark(true); return LV_RES_OK; } static lv_res_t _create_window_emmc_info_status(lv_obj_t *btn) { lv_obj_t *win = nyx_create_standard_window(SYMBOL_CHIP" Internal eMMC Info", NULL); lv_win_add_btn(win, NULL, SYMBOL_CHIP" Benchmark", _create_mbox_emmc_bench); lv_obj_t *desc = lv_cont_create(win, NULL); lv_obj_set_size(desc, LV_HOR_RES / 2 / 6 * 2, LV_VER_RES - (LV_DPI * 11 / 7) - 5); lv_obj_t * lb_desc = lv_label_create(desc, NULL); lv_label_set_long_mode(lb_desc, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc, true); char *txt_buf = (char *)malloc(SZ_16K); txt_buf[0] = '\n'; txt_buf[1] = 0; u16 *emmc_errors; if (emmc_initialize(false)) { lv_label_set_text(lb_desc, "#FFDD00 Failed to init eMMC!#"); lv_obj_set_width(lb_desc, lv_obj_get_width(desc)); emmc_errors = emmc_get_error_count(); goto out_error; } u32 bus_clock = 0; char *rsvd_blocks; char life_a_txt[8]; char life_b_txt[8]; char bkops[64]; u32 cache = emmc_storage.ext_csd.cache_size; u32 life_a = emmc_storage.ext_csd.dev_life_est_a; u32 life_b = emmc_storage.ext_csd.dev_life_est_b; u16 card_type = emmc_storage.ext_csd.card_type; char *max_bus_support = "Unknown"; // Identify manufacturer. Only official eMMCs. switch (emmc_storage.cid.manfid) { case 0x11: strcat(txt_buf, "Toshiba "); break; case 0x15: strcat(txt_buf, "Samsung "); break; case 0x45: // Unofficial. strcat(txt_buf, "SanDisk "); lv_win_add_btn(win, NULL, SYMBOL_FILE_ALT" Device Report", _create_mbox_emmc_sandisk_report); break; case 0x89: // Unofficial. strcat(txt_buf, "Silicon Motion "); break; case 0x90: strcat(txt_buf, "SK Hynix "); break; default: strcat(txt_buf, "Unknown "); break; } s_printf(txt_buf + strlen(txt_buf), "(%02X)\n%c%c%c%c%c%c (%02X)\n%d.%d\n%04X\n%02d/%04d\n\n", emmc_storage.cid.manfid, emmc_storage.cid.prod_name[0], emmc_storage.cid.prod_name[1], emmc_storage.cid.prod_name[2], emmc_storage.cid.prod_name[3], emmc_storage.cid.prod_name[4], emmc_storage.cid.prod_name[5], emmc_storage.cid.oemid, emmc_storage.cid.prv & 0xF, emmc_storage.cid.prv >> 4, emmc_storage.cid.serial, emmc_storage.cid.month, emmc_storage.cid.year); if (card_type & EXT_CSD_CARD_TYPE_HS400_1_8V) max_bus_support = "HS400"; else if (card_type & EXT_CSD_CARD_TYPE_HS200_1_8V) max_bus_support = "HS200"; else if (card_type & EXT_CSD_CARD_TYPE_DDR_1_8V) max_bus_support = "DDR52"; else if (card_type & EXT_CSD_CARD_TYPE_HS_52) max_bus_support = "HS52"; else if (card_type & EXT_CSD_CARD_TYPE_HS_26) max_bus_support = "HS26"; if (emmc_storage.csd.busspeed == 400) bus_clock = 200; else bus_clock = emmc_storage.csd.busspeed; // Except DDR52 where it's 26 MHz. strcpy(bkops, "-"); if (emmc_storage.ext_csd.bkops) { if (emmc_storage.ext_csd.bkops_en & EXT_CSD_BKOPS_AUTO) { strcpy(bkops, "Auto"); if (emmc_storage.ext_csd.bkops_en & EXT_CSD_BKOPS_MANUAL) strcat(bkops, " + Manual"); } else strcpy(bkops, "Off"); strcat(bkops, ": "); switch (emmc_storage.raw_ext_csd[EXT_CSD_BKOPS_STATUS]) { case 0: strcat(bkops, "OK"); break; case 1: strcat(bkops, "Minor"); break; case 2: strcat(bkops, "#FFDD00 Degraded#"); break; case 3: strcat(bkops, "#FFDD00 Critical#"); break; } } strcpy(life_a_txt, "-"); strcpy(life_b_txt, "-"); // Normalize cells life (Used -> Left). if (life_a) // If 0 no NAND Type A. { life_a = (10 - (life_a - 1)) * 10; s_printf(life_a_txt, "%d%%", life_a); } if (life_b) // If 0 no NAND Type B. { life_b = (10 - (life_b - 1)) * 10; s_printf(life_b_txt, "%d%%", life_b); } // Reserved blocks used. switch (emmc_storage.ext_csd.pre_eol_info) { case 1: rsvd_blocks = "Normal (< 80%)"; break; case 2: rsvd_blocks = "Warning (> 80%)"; break; case 3: rsvd_blocks = "Critical (> 90%)"; break; default: rsvd_blocks = "#FF8000 Unknown#"; break; } s_printf(txt_buf + strlen(txt_buf), "#00DDFF V1.%d (rev 1.%d)#\n%02X\n%s\n%d MB/s (%d MHz)\n%d MiB\n%d %s\n\n%s\nA: %s, B: %s\n%s", emmc_storage.ext_csd.ext_struct, emmc_storage.ext_csd.rev, emmc_storage.csd.cmdclass, max_bus_support, emmc_storage.csd.busspeed, bus_clock, emmc_storage.ext_csd.max_enh_mult * EMMC_BLOCKSIZE / 1024, !(cache % 1024) ? (cache / 1024) : cache, !(cache % 1024) ? "MiB" : "KiB", bkops, life_a_txt, life_b_txt, rsvd_blocks); lv_label_set_static_text(lb_desc, "#00DDFF CID:#\n" "Vendor ID:\n" "Model:\n" "Prod Rev:\n" "S/N:\n" "Month/Year:\n\n" "#00DDFF Ext CSD:#\n" "Cmd Classes:\n" "Max Bus Rate:\n" "Current Rate:\n" "Enhanced Area:\n" "Write Cache:\n\n" "Maintenance:\n" "Estimated Life:\n" "Reserved Used:" ); lv_obj_set_width(lb_desc, lv_obj_get_width(desc)); lv_obj_t *info = lv_cont_create(win, NULL); lv_obj_set_size(info, LV_HOR_RES / 11 * 3, LV_VER_RES - (LV_DPI * 11 / 7) - 5); lv_obj_t * lb_val = lv_label_create(info, lb_desc); lv_label_set_text(lb_val, txt_buf); lv_obj_set_width(lb_val, lv_obj_get_width(info)); lv_obj_align(info, desc, LV_ALIGN_OUT_RIGHT_MID, 0, 0); lv_obj_t *desc2 = lv_cont_create(win, NULL); lv_obj_set_size(desc2, LV_HOR_RES / 2 / 4 * 4, LV_VER_RES - (LV_DPI * 11 / 7) - 5); lv_obj_t * lb_desc2 = lv_label_create(desc2, lb_desc); lv_label_set_style(lb_desc2, &monospace_text); u32 boot_size = emmc_storage.ext_csd.boot_mult << 17; u32 rpmb_size = emmc_storage.ext_csd.rpmb_mult << 17; strcpy(txt_buf, "#00DDFF eMMC Physical Partitions:#\n"); s_printf(txt_buf + strlen(txt_buf), "1: #96FF00 BOOT0# Size: %6d KiB Sectors: 0x%08X\n", boot_size / 1024, boot_size / EMMC_BLOCKSIZE); s_printf(txt_buf + strlen(txt_buf), "2: #96FF00 BOOT1# Size: %6d KiB Sectors: 0x%08X\n", boot_size / 1024, boot_size / EMMC_BLOCKSIZE); s_printf(txt_buf + strlen(txt_buf), "3: #96FF00 RPMB# Size: %6d KiB Sectors: 0x%08X\n", rpmb_size / 1024, rpmb_size / EMMC_BLOCKSIZE); s_printf(txt_buf + strlen(txt_buf), "0: #96FF00 GPP# Size: %6d MiB Sectors: 0x%08X\n", emmc_storage.sec_cnt >> SECTORS_TO_MIB_COEFF, emmc_storage.sec_cnt); strcat(txt_buf, "\n#00DDFF GPP (eMMC USER) Partition Table:#\n"); emmc_set_partition(EMMC_GPP); LIST_INIT(gpt); emmc_gpt_parse(&gpt); u32 idx = 0; int lines_left = 20; s_printf(txt_buf + strlen(txt_buf), "#FFBA00 Idx Name Size Offset Sectors#\n"); LIST_FOREACH_ENTRY(emmc_part_t, part, &gpt, link) { int lines = strlen(part->name) > 25 ? 2 : 1; if ((lines_left - lines) <= 0) { strcat(txt_buf, "#FFDD00 Table does not fit on screen...#"); break; } if (lines == 2) { s_printf(txt_buf + strlen(txt_buf), "%02d: #96FF00 %s#\n %6d MiB %8Xh %8Xh\n", part->index, part->name, (part->lba_end - part->lba_start + 1) >> SECTORS_TO_MIB_COEFF, part->lba_start, part->lba_end - part->lba_start + 1); } else { s_printf(txt_buf + strlen(txt_buf), "%02d: #96FF00 %.25s# %6d MiB %8Xh %8Xh\n", part->index, part->name, (part->lba_end - part->lba_start + 1) >> SECTORS_TO_MIB_COEFF, part->lba_start, part->lba_end - part->lba_start + 1); } lines_left -= lines; idx++; } if (!idx) strcat(txt_buf, "#FFDD00 Partition table is empty!#"); emmc_gpt_free(&gpt); lv_label_set_text(lb_desc2, txt_buf); lv_obj_set_width(lb_desc2, lv_obj_get_width(desc2)); lv_obj_align(desc2, info, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 6, 0); emmc_errors = emmc_get_error_count(); if (emmc_get_mode() < EMMC_MMC_HS400 || emmc_errors[EMMC_ERROR_INIT_FAIL] || emmc_errors[EMMC_ERROR_RW_FAIL] || emmc_errors[EMMC_ERROR_RW_RETRY]) { out_error: lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); s_printf(txt_buf, "#FF8000 eMMC Issues Warning#\n\n" "#FFDD00 Your eMMC is initialized in a slower mode,#\n" "#FFDD00 or init/read/write errors occurred!#\n" "#FFDD00 This might mean hardware issues!#\n\n" "#00DDFF Bus Speed:# %d MB/s\n\n" "#00DDFF SDMMC4 Errors:#\n" "Init fails: %d\n" "Read/Write fails: %d\n" "Read/Write errors: %d", emmc_storage.csd.busspeed, emmc_errors[EMMC_ERROR_INIT_FAIL], emmc_errors[EMMC_ERROR_RW_FAIL], emmc_errors[EMMC_ERROR_RW_RETRY]); lv_mbox_set_text(mbox, txt_buf); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); } emmc_end(); free(txt_buf); return LV_RES_OK; } static lv_res_t _create_window_sdcard_info_status(lv_obj_t *btn) { lv_obj_t *win = nyx_create_standard_window(SYMBOL_SD" microSD Card Info", NULL); lv_win_add_btn(win, NULL, SYMBOL_SD" Benchmark", _create_mbox_sd_bench); lv_obj_t *desc = lv_cont_create(win, NULL); lv_obj_set_size(desc, LV_HOR_RES / 2 / 6 * 2, LV_VER_RES - (LV_DPI * 11 / 8) * 5 / 2); lv_obj_t * lb_desc = lv_label_create(desc, NULL); lv_label_set_long_mode(lb_desc, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc, true); lv_label_set_text(lb_desc, "#D4FF00 Please wait...#"); lv_obj_set_width(lb_desc, lv_obj_get_width(desc)); // Disable buttons. nyx_window_toggle_buttons(win, true); manual_system_maintenance(true); if (sd_mount()) { lv_label_set_text(lb_desc, "#FFDD00 Failed to init SD!#"); goto failed; } lv_label_set_text(lb_desc, "#00DDFF Card ID:#\n" "Vendor ID:\n" "Model:\n" "OEM ID:\n" "HW rev:\n" "FW rev:\n" "S/N:\n" "Month/Year:\n\n" "Max Power:\n" "Initial bus:" ); lv_obj_t *val = lv_cont_create(win, NULL); lv_obj_set_size(val, LV_HOR_RES / 12 * 3, LV_VER_RES - (LV_DPI * 11 / 8) * 5 / 2); lv_obj_t * lb_val = lv_label_create(val, lb_desc); char *txt_buf = (char *)malloc(SZ_16K); txt_buf[0] = '\n'; txt_buf[1] = 0; // Identify manufacturer. switch (sd_storage.cid.manfid) { case 0x00: strcat(txt_buf, "#FFDD00 Fake# "); break; case 0x01: strcat(txt_buf, "Panasonic "); break; case 0x02: strcat(txt_buf, "Toshiba "); break; case 0x03: if (!memcmp(&sd_storage.cid.oemid, "DW", 2)) strcat(txt_buf, "Western Digital "); // WD. else strcat(txt_buf, "SanDisk "); break; case 0x06: strcat(txt_buf, "Ritek "); break; case 0x09: strcat(txt_buf, "ATP "); break; case 0x13: strcat(txt_buf, "Kingmax "); break; case 0x19: strcat(txt_buf, "Dynacard "); break; case 0x1A: strcat(txt_buf, "Power Quotient "); break; case 0x1B: strcat(txt_buf, "Samsung "); break; case 0x1D: strcat(txt_buf, "AData "); break; case 0x27: strcat(txt_buf, "Phison "); break; case 0x28: strcat(txt_buf, "Barun Electronics "); break; case 0x31: strcat(txt_buf, "Silicon Power "); break; case 0x41: strcat(txt_buf, "Kingston "); break; case 0x51: strcat(txt_buf, "STEC "); break; case 0x5D: strcat(txt_buf, "SwissBit "); break; case 0x61: strcat(txt_buf, "Netlist "); break; case 0x63: strcat(txt_buf, "Cactus "); break; case 0x73: strcat(txt_buf, "Bongiovi "); break; case 0x74: strcat(txt_buf, "Jiaelec "); break; case 0x76: strcat(txt_buf, "Patriot "); break; case 0x82: strcat(txt_buf, "Jiang Tay "); break; case 0x83: strcat(txt_buf, "Netcom "); break; case 0x84: strcat(txt_buf, "Strontium "); break; case 0x9C: if (!memcmp(&sd_storage.cid.oemid, "OS", 2)) strcat(txt_buf, "Sony "); // SO. else strcat(txt_buf, "Barun Electronics "); // BE. break; case 0x9F: strcat(txt_buf, "Taishin "); break; case 0xAD: strcat(txt_buf, "Longsys "); break; default: strcat(txt_buf, "Unknown "); break; } // UHS-I max power limit is 400mA, no matter what the card says. u32 max_power_nominal = sd_storage.max_power > 400 ? 400 : sd_storage.max_power; s_printf(txt_buf + strlen(txt_buf), "(%02X)\n%c%c%c%c%c\n%c%c (%04X)\n%X\n%X\n%08x\n%02d/%04d\n\n%d mW (%d mA)\n", sd_storage.cid.manfid, sd_storage.cid.prod_name[0], sd_storage.cid.prod_name[1], sd_storage.cid.prod_name[2], sd_storage.cid.prod_name[3], sd_storage.cid.prod_name[4], (sd_storage.cid.oemid >> 8) & 0xFF, sd_storage.cid.oemid & 0xFF, sd_storage.cid.oemid, sd_storage.cid.hwrev, sd_storage.cid.fwrev, sd_storage.cid.serial, sd_storage.cid.month, sd_storage.cid.year, max_power_nominal * 3600 / 1000, sd_storage.max_power); switch (nyx_str->info.sd_init) { case SD_1BIT_HS25: strcat(txt_buf, "HS25 1bit"); break; case SD_4BIT_HS25: strcat(txt_buf, "HS25"); break; case SD_UHS_SDR82: // Report as SDR104. case SD_UHS_SDR104: strcat(txt_buf, "SDR104"); break; case 0: default: strcat(txt_buf, "Undefined"); break; } lv_label_set_text(lb_val, txt_buf); lv_obj_set_width(lb_val, lv_obj_get_width(val)); lv_obj_align(val, desc, LV_ALIGN_OUT_RIGHT_MID, 0, 0); lv_obj_t *desc2 = lv_cont_create(win, NULL); lv_obj_set_size(desc2, LV_HOR_RES / 2 / 11 * 5, LV_VER_RES - (LV_DPI * 11 / 8) * 5 / 2); lv_obj_t * lb_desc2 = lv_label_create(desc2, lb_desc); lv_label_set_static_text(lb_desc2, "#00DDFF Card-Specific Data#\n" "Cmd Classes:\n" "Capacity:\n" "Capacity (LBA):\n" "Bus Width:\n" "Current Rate:\n" "Speed Class:\n" "UHS Classes:\n" "Max Bus Speed:\n\n" "Write Protect:" ); lv_obj_set_width(lb_desc2, lv_obj_get_width(desc2)); lv_obj_align(desc2, val, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 5 * 3, 0); lv_obj_t *val2 = lv_cont_create(win, NULL); lv_obj_set_size(val2, LV_HOR_RES / 4, LV_VER_RES - (LV_DPI * 11 / 8) * 5 / 2); lv_obj_t * lb_val2 = lv_label_create(val2, lb_desc); char *wp_info; switch (sd_storage.csd.write_protect) { case 1: wp_info = "Temporary"; break; case 2: case 3: wp_info = "Permanent"; break; default: wp_info = "None"; break; } bool uhs_au_mb = false; u32 uhs_au_size = sd_storage_get_ssr_au(&sd_storage); if (uhs_au_size >= 1024) { uhs_au_mb = true; uhs_au_size /= 1024; } sd_func_modes_t fmodes = { 0 }; sd_storage_get_fmodes(&sd_storage, NULL, &fmodes); char *bus_speed; if (fmodes.cmd_system & SD_MODE_UHS_DDR200) bus_speed = "DDR200"; else if (fmodes.access_mode & SD_MODE_UHS_SDR104) bus_speed = "SDR104"; else if (fmodes.access_mode & SD_MODE_UHS_SDR50) bus_speed = "SDR50"; else if (fmodes.access_mode & SD_MODE_UHS_DDR50) bus_speed = "DDR50"; else if (fmodes.access_mode & SD_MODE_UHS_SDR25) bus_speed = "SDR25"; else bus_speed = "SDR12"; char *cpe = NULL; if (sd_storage.ssr.app_class == 2) { u8 *buf = zalloc(512); // Directly get and parse ext reg for performance enhance. sd_storage_parse_perf_enhance(&sd_storage, 2, 0, 0, buf); bool has_perf_enhance = sd_storage.ser.cache && sd_storage.ser.cmdq && sd_storage.ser.cache == sd_storage.ser.cache_ext && sd_storage.ser.cmdq == sd_storage.ser.cmdq_ext; if (has_perf_enhance) cpe = "#FFDD00 "; // CMDQ/CACHE support via a quirk. else cpe = "#FF3C28 "; // Broken. // Get and parse ext reg for performance enhance in spec. sd_storage_get_ext_regs(&sd_storage, buf); if (sd_storage.ser.valid) { has_perf_enhance = sd_storage.ser.cache && sd_storage.ser.cmdq && sd_storage.ser.cache == sd_storage.ser.cache_ext && sd_storage.ser.cmdq == sd_storage.ser.cmdq_ext; if (has_perf_enhance) cpe = NULL; // CMDQ/CACHE support in spec. else cpe = "#FF3C28 "; // Broken. } free(buf); } s_printf(txt_buf, "#00DDFF v%d.0#\n" "%02X\n" "%d MiB\n" "%X (CP %X)\n" "%d\n" "%d MB/s (%d MHz)\n" "%d (AU: %d %s\n" "U%d V%d %sA%d%s\n" "%s\n\n" "%s", sd_storage.csd.structure + 1, sd_storage.csd.cmdclass, sd_storage.sec_cnt >> 11, sd_storage.sec_cnt, sd_storage.ssr.protected_size >> 9, sd_storage.ssr.bus_width, sd_storage.csd.busspeed, (sd_storage.csd.busspeed > 10) ? (sd_storage.csd.busspeed * 2) : 50, sd_storage.ssr.speed_class, uhs_au_size, uhs_au_mb ? "MiB)" : "KiB)", sd_storage.ssr.uhs_grade, sd_storage.ssr.video_class, cpe ? cpe : "", sd_storage.ssr.app_class, cpe ? "#" : "", bus_speed, wp_info); lv_label_set_text(lb_val2, txt_buf); lv_obj_set_width(lb_val2, lv_obj_get_width(val2)); lv_obj_align(val2, desc2, LV_ALIGN_OUT_RIGHT_MID, 0, 0); lv_obj_t *line_sep = lv_line_create(win, NULL); static const lv_point_t line_pp[] = { {0, 0}, { LV_HOR_RES - (LV_DPI - (LV_DPI / 4)) * 12, 0} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, lv_theme_get_current()->line.decor); lv_obj_align(line_sep, desc, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI * 410 / 100, LV_DPI / 7); lv_obj_t *desc3 = lv_cont_create(win, NULL); lv_obj_set_size(desc3, LV_HOR_RES / 2 / 2 * 2, LV_VER_RES - (LV_DPI * 11 / 8) * 4); lv_obj_t * lb_desc3 = lv_label_create(desc3, lb_desc); lv_label_set_text(lb_desc3, "#D4FF00 Acquiring info...#"); lv_obj_set_width(lb_desc3, lv_obj_get_width(desc3)); lv_obj_align(desc3, desc, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); manual_system_maintenance(true); lv_obj_set_size(desc3, LV_HOR_RES / 2 / 6 * 2, LV_VER_RES - (LV_DPI * 11 / 8) * 4); lv_obj_align(desc3, desc, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_obj_t *val3 = lv_cont_create(win, NULL); lv_obj_set_size(val3, LV_HOR_RES / 12 * 3, LV_VER_RES - (LV_DPI * 11 / 8) * 4); lv_obj_t * lb_val3 = lv_label_create(val3, lb_desc); lv_label_set_text(lb_val3, ""); lv_obj_align(val3, desc3, LV_ALIGN_OUT_RIGHT_MID, 0, 0); lv_obj_t *desc4 = lv_cont_create(win, NULL); lv_obj_set_size(desc4, LV_HOR_RES / 2 / 2 * 2, LV_VER_RES - (LV_DPI * 11 / 8) * 4); lv_obj_t * lb_desc4 = lv_label_create(desc4, lb_desc); lv_label_set_text(lb_desc4, " "); lv_obj_set_width(lb_desc4, lv_obj_get_width(desc4)); lv_label_set_text(lb_desc4, "#00DDFF SDMMC1 Errors:#\n" "Init fails:\n" "Read/Write fails:\n" "Read/Write errors:" ); lv_obj_set_size(desc4, LV_HOR_RES / 2 / 11 * 5, LV_VER_RES - (LV_DPI * 11 / 8) * 4); lv_obj_set_width(lb_desc4, lv_obj_get_width(desc4)); lv_obj_align(desc4, val3, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 5 * 3, 0); lv_obj_t *val4 = lv_cont_create(win, NULL); lv_obj_set_size(val4, LV_HOR_RES / 4, LV_VER_RES - (LV_DPI * 11 / 8) * 4); lv_obj_t *lb_val4 = lv_label_create(val4, lb_desc); bench_sd_err_label = lb_val4; u16 *sd_errors = sd_get_error_count(); s_printf(txt_buf, "\n%d (%d)\n%d (%d)\n%d (%d)", sd_errors[SD_ERROR_INIT_FAIL], nyx_str->info.sd_errors[SD_ERROR_INIT_FAIL], sd_errors[SD_ERROR_RW_FAIL], nyx_str->info.sd_errors[SD_ERROR_RW_FAIL], sd_errors[SD_ERROR_RW_RETRY], nyx_str->info.sd_errors[SD_ERROR_RW_RETRY]); lv_label_set_text(lb_val4, txt_buf); lv_obj_set_width(lb_val4, lv_obj_get_width(val4)); lv_obj_align(val4, desc4, LV_ALIGN_OUT_RIGHT_MID, 0, 0); manual_system_maintenance(true); f_getfree("", &sd_fs.free_clst, NULL); lv_label_set_text(lb_desc3, "#00DDFF Found FAT FS:#\n" "Filesystem:\n" "Cluster:\n" "Size free/total:" ); lv_obj_set_width(lb_desc3, lv_obj_get_width(desc3)); s_printf(txt_buf, "\n%s\n%d %s\n%d/%d MiB", sd_fs.fs_type == FS_EXFAT ? ("exFAT "SYMBOL_SHRK) : ("FAT32"), (sd_fs.csize > 1) ? (sd_fs.csize >> 1) : SD_BLOCKSIZE, (sd_fs.csize > 1) ? "KiB" : "B", (u32)(sd_fs.free_clst * sd_fs.csize >> SECTORS_TO_MIB_COEFF), (u32)(sd_fs.n_fatent * sd_fs.csize >> SECTORS_TO_MIB_COEFF)); lv_label_set_text(lb_val3, txt_buf); lv_obj_set_width(lb_val3, lv_obj_get_width(val3)); free(txt_buf); sd_unmount(); failed: nyx_window_toggle_buttons(win, false); return LV_RES_OK; } static lv_res_t _create_window_battery_status(lv_obj_t *btn) { lv_obj_t *win = nyx_create_standard_window(SYMBOL_BATTERY_FULL" Battery Info", NULL); lv_win_add_btn(win, NULL, SYMBOL_DOWNLOAD" Dump Fuel Regs", _battery_dump_window_action); lv_obj_t *desc = lv_cont_create(win, NULL); lv_obj_set_size(desc, LV_HOR_RES / 2 / 4 * 2, LV_VER_RES - (LV_DPI * 11 / 7) - 5); lv_obj_t * lb_desc = lv_label_create(desc, NULL); lv_label_set_long_mode(lb_desc, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc, true); lv_label_set_static_text(lb_desc, "#00DDFF Fuel Gauge IC Info:#\n" "Capacity now:\n" "Capacity full:\n" "Capacity (design):\n" "Current now:\n" "Current average:\n" "Voltage now:\n" "Voltage open-circuit:\n" "Min voltage reached:\n" "Max voltage reached:\n" "Empty voltage:\n" "Battery temp:\n\n" "#00DDFF PMIC IC Info:#\n" "Main PMIC:\n\n" "CPU/GPU PMIC:\n" ); lv_obj_set_width(lb_desc, lv_obj_get_width(desc)); lv_obj_t *val = lv_cont_create(win, NULL); lv_obj_set_size(val, LV_HOR_RES / 5, LV_VER_RES - (LV_DPI * 11 / 7)); lv_obj_t * lb_val = lv_label_create(val, lb_desc); char *txt_buf = (char *)malloc(SZ_16K); int value = 0; // Fuel gauge IC info. if (!max17050_get_version(NULL)) { int cap_pct = 0; max17050_get_property(MAX17050_RepSOC, &cap_pct); max17050_get_property(MAX17050_RepCap, &value); s_printf(txt_buf, "\n%d mAh [%d %%]\n", value, cap_pct >> 8); max17050_get_property(MAX17050_FullCAP, &value); s_printf(txt_buf + strlen(txt_buf), "%d mAh\n", value); max17050_get_property(MAX17050_DesignCap, &value); bool design_cap_init = value == 1000; s_printf(txt_buf + strlen(txt_buf), "%s%d mAh%s\n", design_cap_init ? "#FF8000 " : "", value, design_cap_init ? " - Init "SYMBOL_WARNING"#" : ""); max17050_get_property(MAX17050_Current, &value); s_printf(txt_buf + strlen(txt_buf), "%d mA\n", value / 1000); max17050_get_property(MAX17050_AvgCurrent, &value); s_printf(txt_buf + strlen(txt_buf), "%d mA\n", value / 1000); max17050_get_property(MAX17050_VCELL, &value); bool voltage_empty = value < 3200; s_printf(txt_buf + strlen(txt_buf), "%s%d mV%s\n", voltage_empty ? "#FF8000 " : "", value, voltage_empty ? " - Low "SYMBOL_WARNING"#" : ""); max17050_get_property(MAX17050_OCVInternal, &value); s_printf(txt_buf + strlen(txt_buf), "%d mV\n", value); max17050_get_property(MAX17050_MinVolt, &value); s_printf(txt_buf + strlen(txt_buf), "%d mV\n", value); max17050_get_property(MAX17050_MaxVolt, &value); s_printf(txt_buf + strlen(txt_buf), "%d mV\n", value); max17050_get_property(MAX17050_V_empty, &value); s_printf(txt_buf + strlen(txt_buf), "%d mV\n", value); max17050_get_property(MAX17050_TEMP, &value); s_printf(txt_buf + strlen(txt_buf), "%d.%d oC\n\n\n", value / 10, (value >= 0 ? value : (~value + 1)) % 10); } else strcpy(txt_buf, "\n#FF8000 "SYMBOL_WARNING" Error!#\n\n\n\n\n\n\n\n\n\n\n\n\n"); // Main Pmic IC info. value = i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_CID4); u32 main_pmic_version = i2c_recv_byte(I2C_5, MAX77620_I2C_ADDR, MAX77620_REG_CID3) & 0xF; if (value == 0x35) s_printf(txt_buf + strlen(txt_buf), "max77620 v%d\nErista OTP\n", main_pmic_version); else if (value == 0x53) s_printf(txt_buf + strlen(txt_buf), "max77620 v%d\nMariko OTP\n", main_pmic_version); else s_printf(txt_buf + strlen(txt_buf), "max77620 v%d\n#FF8000 Unknown OTP# (%02X)\n", main_pmic_version, value); // CPU/GPU/DRAM Pmic IC info. u32 cpu_gpu_pmic_type = h_cfg.t210b01 ? (FUSE(FUSE_RESERVED_ODM28_B01) & 1) + 1 : 0; switch (cpu_gpu_pmic_type) { case 0: s_printf(txt_buf + strlen(txt_buf), "max77621 v%d", i2c_recv_byte(I2C_5, MAX77621_CPU_I2C_ADDR, MAX77621_REG_CHIPID1)); break; case 1: s_printf(txt_buf + strlen(txt_buf), "max77812-2 v%d", // High power GPU. 2 Outputs, phases 3 1. i2c_recv_byte(I2C_5, MAX77812_PHASE31_CPU_I2C_ADDR, MAX77812_REG_VERSION) & 7); break; case 2: s_printf(txt_buf + strlen(txt_buf), "max77812-3 v%d.0", // Low power GPU. 3 Outputs, phases 2 1 1. i2c_recv_byte(I2C_5, MAX77812_PHASE211_CPU_I2C_ADDR, MAX77812_REG_VERSION) & 7); break; } lv_label_set_text(lb_val, txt_buf); lv_obj_set_width(lb_val, lv_obj_get_width(val)); lv_obj_align(val, desc, LV_ALIGN_OUT_RIGHT_MID, 0, 0); lv_obj_t *desc2 = lv_cont_create(win, NULL); lv_obj_set_size(desc2, LV_HOR_RES / 2 / 7 * 4, LV_VER_RES - (LV_DPI * 11 / 7) - 5); lv_obj_t * lb_desc2 = lv_label_create(desc2, lb_desc); lv_label_set_static_text(lb_desc2, "#00DDFF Battery Charger IC Info:#\n" "Input current limit:\n" "System voltage limit:\n" "Charge current limit:\n" "Charge voltage limit:\n" "Charge status:\n" "Temperature status:\n\n" "#00DDFF USB-PD IC Info:#\n" "Connection status:\n" "Input Wattage Limit:\n" "USB-PD Profiles:" ); lv_obj_set_width(lb_desc2, lv_obj_get_width(desc2)); lv_obj_align(desc2, val, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 2, 0); lv_obj_t *val2 = lv_cont_create(win, NULL); lv_obj_set_size(val2, LV_HOR_RES / 2 / 3, LV_VER_RES - (LV_DPI * 11 / 7) - 5); lv_obj_t * lb_val2 = lv_label_create(val2, lb_desc); int iinlim = 0; // Charger IC info. if (!bq24193_get_version(NULL)) { bq24193_get_property(BQ24193_InputCurrentLimit, &iinlim); s_printf(txt_buf, "\n%d mA\n", iinlim); bq24193_get_property(BQ24193_SystemMinimumVoltage, &value); s_printf(txt_buf + strlen(txt_buf), "%d mV\n", value); bq24193_get_property(BQ24193_FastChargeCurrentLimit, &value); s_printf(txt_buf + strlen(txt_buf), "%d mA\n", value); bq24193_get_property(BQ24193_ChargeVoltageLimit, &value); s_printf(txt_buf + strlen(txt_buf), "%d mV\n", value); bq24193_get_property(BQ24193_ChargeStatus, &value); switch (value) { case 0: strcat(txt_buf, "Not charging\n"); break; case 1: strcat(txt_buf, "Pre-charging\n"); break; case 2: strcat(txt_buf, "Fast charging\n"); break; case 3: strcat(txt_buf, "Charge terminated\n"); break; default: s_printf(txt_buf + strlen(txt_buf), "Unknown (%d)\n", value); break; } bq24193_get_property(BQ24193_TempStatus, &value); switch (value) { case 0: strcat(txt_buf, "Normal"); break; case 2: strcat(txt_buf, "Warm"); break; case 3: strcat(txt_buf, "Cool"); break; case 5: strcat(txt_buf, "#FF8000 Cold#"); break; case 6: strcat(txt_buf, "#FF8000 Hot#"); break; default: s_printf(txt_buf + strlen(txt_buf), "Unknown (%d)", value); break; } } else strcpy(txt_buf, "\n#FF8000 "SYMBOL_WARNING" Error!#\n\n\n\n\n"); strcat(txt_buf, "\n\n\n"); // USB-PD IC info. if (!bm92t36_get_version(NULL)) { bool inserted; u32 wattage = 0; usb_pd_objects_t usb_pd; bm92t36_get_source_info(&inserted, &usb_pd); strcat(txt_buf, inserted ? "Connected" : "Disconnected"); // Select 5V is no PD contract. wattage = iinlim * (usb_pd.pdo_no ? usb_pd.selected_pdo.voltage : 5); s_printf(txt_buf + strlen(txt_buf), "\n%d.%d W", wattage / 1000, (wattage % 1000) / 100); if (!usb_pd.pdo_no) strcat(txt_buf, "\nNon PD"); // Show 6 profiles max so they can fit. usb_pd.pdo_no = MIN(usb_pd.pdo_no, 6); for (u32 i = 0; i < usb_pd.pdo_no; i++) { bool selected = usb_pd.pdos[i].amperage == usb_pd.selected_pdo.amperage && usb_pd.pdos[i].voltage == usb_pd.selected_pdo.voltage; s_printf(txt_buf + strlen(txt_buf), "\n%s%d mA, %2d V%s", selected ? "#D4FF00 " : "", usb_pd.pdos[i].amperage, usb_pd.pdos[i].voltage, selected ? "#" : ""); } } else strcat(txt_buf, "#FF8000 "SYMBOL_WARNING" Error!#"); lv_label_set_text(lb_val2, txt_buf); lv_obj_set_width(lb_val2, lv_obj_get_width(val2)); lv_obj_align(val2, desc2, LV_ALIGN_OUT_RIGHT_MID, 0, 0); free(txt_buf); return LV_RES_OK; } static bool _lockpick_exists_check() { #define LOCKPICK_MAGIC_OFFSET 0x118 #define LOCKPICK_VERSION_OFFSET 0x11C #define LOCKPICK_MAGIC 0x4B434F4C // LOCK. #define LOCKPICK_MIN_VERSION 0x1090500 // 1.9.5. bool found = false; void *buf = malloc(0x200); if (!sd_mount()) { FIL fp; if (f_open(&fp, "bootloader/payloads/Lockpick_RCM.bin", FA_READ)) goto out; // Read Lockpick payload and check versioning. if (f_read(&fp, buf, 0x200, NULL)) { f_close(&fp); goto out; } u32 magic = *(u32 *)(buf + LOCKPICK_MAGIC_OFFSET); u32 version = byte_swap_32(*(u32 *)(buf + LOCKPICK_VERSION_OFFSET) - 0x303030); if (magic == LOCKPICK_MAGIC && version >= LOCKPICK_MIN_VERSION) found = true; f_close(&fp); } out: free(buf); sd_unmount(); return found; } void create_tab_info(lv_theme_t *th, lv_obj_t *parent) { lv_page_set_scrl_layout(parent, LV_LAYOUT_PRETTY); static lv_style_t h_style; lv_style_copy(&h_style, &lv_style_transp); h_style.body.padding.inner = 0; h_style.body.padding.hor = LV_DPI - (LV_DPI / 4); h_style.body.padding.ver = LV_DPI / 6; // Create SoC Info container. lv_obj_t *h1 = lv_cont_create(parent, NULL); lv_cont_set_style(h1, &h_style); lv_cont_set_fit(h1, false, true); lv_obj_set_width(h1, (LV_HOR_RES / 9) * 4); lv_obj_set_click(h1, false); lv_cont_set_layout(h1, LV_LAYOUT_OFF); lv_obj_t *label_sep = lv_label_create(h1, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt = lv_label_create(h1, NULL); lv_label_set_static_text(label_txt, "SoC & HW Info"); lv_obj_set_style(label_txt, th->label.prim); lv_obj_align(label_txt, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, 0); lv_obj_t *line_sep = lv_line_create(h1, NULL); static const lv_point_t line_pp[] = { {0, 0}, { LV_HOR_RES - (LV_DPI - (LV_DPI / 4)) * 2, 0} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, th->line.decor); lv_obj_align(line_sep, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create Bootrom button. lv_obj_t *btn = lv_btn_create(h1, NULL); if (hekate_bg) { lv_btn_set_style(btn, LV_BTN_STYLE_REL, &btn_transp_rel); lv_btn_set_style(btn, LV_BTN_STYLE_PR, &btn_transp_pr); lv_btn_set_style(btn, LV_BTN_STYLE_INA, &btn_transp_ina); } lv_obj_t *label_btn = lv_label_create(btn, NULL); lv_btn_set_fit(btn, true, true); lv_label_set_static_text(label_btn, SYMBOL_CHIP" Bootrom"); lv_obj_align(btn, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_btn_set_action(btn, LV_BTN_ACTION_CLICK, _create_window_bootrom_info_status); // Create TSEC Keys button. lv_obj_t *btn2 = lv_btn_create(h1, btn); label_btn = lv_label_create(btn2, NULL); lv_label_set_static_text(label_btn, SYMBOL_KEY" Lockpick"); lv_obj_align(btn2, btn, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI * 11 / 15, 0); lv_btn_set_action(btn2, LV_BTN_ACTION_CLICK, _create_mbox_lockpick); bool lockpick_found = _lockpick_exists_check(); if (!lockpick_found) lv_btn_set_state(btn2, LV_BTN_STATE_INA); lv_obj_t *label_txt2 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt2, true); if (lockpick_found) { lv_label_set_static_text(label_txt2, "View Ipatches and dump the unpatched and patched versions\nof BootROM.\n" "Or dump every single key via #C7EA46 Lockpick RCM#.\n"); } else { lv_label_set_static_text(label_txt2, "View Ipatches and dump the unpatched and patched versions\nof BootROM. Or dump every single key via #C7EA46 Lockpick RCM#.\n" "#FFDD00 bootloader/payloads/Lockpick_RCM.bin is missing or old!#\n"); } lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); static lv_style_t line_style; lv_style_copy(&line_style, th->line.decor); line_style.line.color = LV_COLOR_HEX(theme_bg_color ? (theme_bg_color + 0x171717) : 0x343434); line_sep = lv_line_create(h1, line_sep); lv_obj_align(line_sep, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 16); lv_line_set_style(line_sep, &line_style); // Create HW info button. lv_obj_t *btn3 = lv_btn_create(h1, btn); label_btn = lv_label_create(btn3, NULL); lv_btn_set_fit(btn3, true, true); lv_label_set_static_text(label_btn, SYMBOL_CIRCUIT" HW & Fuses"); lv_obj_align(btn3, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 2); lv_btn_set_action(btn3, LV_BTN_ACTION_CLICK, _create_window_hw_info_status); // Create KFuses button. lv_obj_t *btn4 = lv_btn_create(h1, btn); label_btn = lv_label_create(btn4, NULL); lv_label_set_static_text(label_btn, SYMBOL_SHUFFLE" KFuses"); lv_obj_align(btn4, btn3, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI * 46 / 100, 0); lv_btn_set_action(btn4, LV_BTN_ACTION_CLICK, _kfuse_dump_window_action); lv_obj_t *label_txt4 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt4, true); lv_label_set_static_text(label_txt4, "View and dump the cached #C7EA46 Fuses# and #C7EA46 KFuses#.\n" "Fuses contain info about the SoC/SKU and KFuses HDCP keys.\n" "You can also see info about #C7EA46 DRAM#, #C7EA46 Screen# and #C7EA46 Touch panel#."); lv_obj_set_style(label_txt4, &hint_small_style); lv_obj_align(label_txt4, btn3, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create Storage & Battery Info container. lv_obj_t *h2 = lv_cont_create(parent, NULL); lv_cont_set_style(h2, &h_style); lv_cont_set_fit(h2, false, true); lv_obj_set_width(h2, (LV_HOR_RES / 9) * 4); lv_obj_set_click(h2, false); lv_cont_set_layout(h2, LV_LAYOUT_OFF); lv_obj_align(h2, h1, LV_ALIGN_OUT_RIGHT_TOP, 0, 0); label_sep = lv_label_create(h2, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt3 = lv_label_create(h2, NULL); lv_label_set_static_text(label_txt3, "Storage & Battery Info"); lv_obj_set_style(label_txt3, th->label.prim); lv_obj_align(label_txt3, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, 0); line_sep = lv_line_create(h2, line_sep); lv_obj_align(line_sep, label_txt3, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 2), LV_DPI / 8); lv_line_set_style(line_sep, th->line.decor); // Create eMMC button. lv_obj_t *btn5 = lv_btn_create(h2, NULL); if (hekate_bg) { lv_btn_set_style(btn5, LV_BTN_STYLE_REL, &btn_transp_rel); lv_btn_set_style(btn5, LV_BTN_STYLE_PR, &btn_transp_pr); } label_btn = lv_label_create(btn5, NULL); lv_btn_set_fit(btn5, true, true); lv_label_set_static_text(label_btn, SYMBOL_CHIP" eMMC "); lv_obj_align(btn5, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 2, LV_DPI / 4); lv_btn_set_action(btn5, LV_BTN_ACTION_CLICK, _create_window_emmc_info_status); // Create microSD button. lv_obj_t *btn6 = lv_btn_create(h2, btn); label_btn = lv_label_create(btn6, NULL); lv_label_set_static_text(label_btn, SYMBOL_SD" microSD "); lv_obj_align(btn6, btn5, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI * 3 / 4, 0); lv_btn_set_action(btn6, LV_BTN_ACTION_CLICK, _create_window_sdcard_info_status); lv_obj_t *label_txt5 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt5, true); lv_label_set_static_text(label_txt5, "View info about the eMMC or microSD and their partition list.\n" "Additionally you can benchmark read speeds."); lv_obj_set_style(label_txt5, &hint_small_style); lv_obj_align(label_txt5, btn5, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); line_sep = lv_line_create(h2, line_sep); lv_obj_align(line_sep, label_txt5, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 2); lv_line_set_style(line_sep, &line_style); // Create Battery button. lv_obj_t *btn7 = lv_btn_create(h2, NULL); if (hekate_bg) { lv_btn_set_style(btn7, LV_BTN_STYLE_REL, &btn_transp_rel); lv_btn_set_style(btn7, LV_BTN_STYLE_PR, &btn_transp_pr); } label_btn = lv_label_create(btn7, NULL); lv_btn_set_fit(btn7, true, true); lv_label_set_static_text(label_btn, SYMBOL_BATTERY_FULL" Battery"); lv_obj_align(btn7, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 2); lv_btn_set_action(btn7, LV_BTN_ACTION_CLICK, _create_window_battery_status); lv_obj_t *label_txt6 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt6, true); lv_label_set_static_text(label_txt6, "View battery and battery charger related info.\n" "Additionally you can dump battery charger's registers.\n"); lv_obj_set_style(label_txt6, &hint_small_style); lv_obj_align(label_txt6, btn7, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); } ================================================ FILE: nyx/nyx_gui/frontend/gui_info.h ================================================ /* * Copyright (c) 2018-2021 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GUI_INFO_H_ #define _GUI_INFO_H_ #include void create_tab_info(lv_theme_t *th, lv_obj_t *parent); int dump_cal0(); #endif ================================================ FILE: nyx/nyx_gui/frontend/gui_options.c ================================================ /* * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "gui.h" #include "gui_info.h" #include "../config.h" #include #include #define CLOCK_MIN_YEAR 2025 #define CLOCK_MAX_YEAR (CLOCK_MIN_YEAR + 10) #define CLOCK_YEARLIST "2025\n2026\n2027\n2028\n2029\n2030\n2031\n2032\n2033\n2034\n2035" static lv_obj_t *autoboot_btn; static bool autoboot_first_time = true; static bool ini_changes_made = false; static bool nyx_changes_made = false; void nyx_options_clear_ini_changes_made() { ini_changes_made = false; } bool nyx_options_get_ini_changes_made() { return ini_changes_made; } static lv_res_t auto_hos_poweroff_toggle(lv_obj_t *btn) { h_cfg.autohosoff = !h_cfg.autohosoff; ini_changes_made = true; if (!h_cfg.autohosoff) lv_btn_set_state(btn, LV_BTN_STATE_REL); else lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); nyx_generic_onoff_toggle(btn); return LV_RES_OK; } static lv_res_t auto_nogc_toggle(lv_obj_t *btn) { h_cfg.autonogc = !h_cfg.autonogc; ini_changes_made = true; if (!h_cfg.autonogc) lv_btn_set_state(btn, LV_BTN_STATE_REL); else lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); nyx_generic_onoff_toggle(btn); return LV_RES_OK; } static lv_res_t _update_r2p_action(lv_obj_t *btn) { h_cfg.updater2p = !h_cfg.updater2p; ini_changes_made = true; if (!h_cfg.updater2p) lv_btn_set_state(btn, LV_BTN_STATE_REL); else lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); nyx_generic_onoff_toggle(btn); return LV_RES_OK; } static lv_res_t _win_autoboot_close_action(lv_obj_t * btn) { if (!h_cfg.autoboot) lv_btn_set_state(autoboot_btn, LV_BTN_STATE_REL); else lv_btn_set_state(autoboot_btn, LV_BTN_STATE_TGL_REL); nyx_generic_onoff_toggle(autoboot_btn); lv_obj_t * win = lv_win_get_from_btn(btn); lv_obj_del(win); close_btn = NULL; return LV_RES_INV; } lv_obj_t *create_window_autoboot(const char *win_title) { static lv_style_t win_bg_style; lv_style_copy(&win_bg_style, &lv_style_plain); win_bg_style.body.main_color = LV_COLOR_HEX(theme_bg_color); win_bg_style.body.grad_color = win_bg_style.body.main_color; lv_obj_t *win = lv_win_create(lv_scr_act(), NULL); lv_win_set_title(win, win_title); lv_win_set_style(win, LV_WIN_STYLE_BG, &win_bg_style); lv_obj_set_size(win, LV_HOR_RES, LV_VER_RES); close_btn = lv_win_add_btn(win, NULL, SYMBOL_CLOSE" Close", _win_autoboot_close_action); return win; } static lv_res_t _autoboot_disable_action(lv_obj_t *btn) { h_cfg.autoboot = 0; h_cfg.autoboot_list = 0; ini_changes_made = true; lv_btn_set_state(autoboot_btn, LV_BTN_STATE_REL); nyx_generic_onoff_toggle(autoboot_btn); lv_obj_t * win = lv_win_get_from_btn(btn); lv_obj_del(win); close_btn = NULL; return LV_RES_OK; } lv_obj_t *auto_main_list; lv_obj_t *auto_more_list; static lv_res_t _autoboot_enable_main_action(lv_obj_t *btn) { h_cfg.autoboot = lv_list_get_btn_index(auto_main_list, btn) + 1; h_cfg.autoboot_list = 0; ini_changes_made = true; lv_btn_set_state(autoboot_btn, LV_BTN_STATE_TGL_REL); nyx_generic_onoff_toggle(autoboot_btn); lv_obj_t *obj = lv_obj_get_parent(btn); for (int i = 0; i < 5; i++) obj = lv_obj_get_parent(obj); lv_obj_del(obj); close_btn = NULL; return LV_RES_INV; } static lv_res_t _autoboot_enable_more_action(lv_obj_t *btn) { h_cfg.autoboot = lv_list_get_btn_index(auto_more_list, btn) + 1; h_cfg.autoboot_list = 1; ini_changes_made = true; lv_btn_set_state(autoboot_btn, LV_BTN_STATE_TGL_REL); nyx_generic_onoff_toggle(autoboot_btn); lv_obj_t *obj = lv_obj_get_parent(btn); for (int i = 0; i < 5; i++) obj = lv_obj_get_parent(obj); lv_obj_del(obj); close_btn = NULL; return LV_RES_INV; } static void _create_autoboot_window() { lv_obj_t *win = create_window_autoboot(SYMBOL_GPS" Auto Boot"); lv_win_add_btn(win, NULL, SYMBOL_POWER" Disable", _autoboot_disable_action); static lv_style_t h_style; lv_style_copy(&h_style, &lv_style_transp); h_style.body.padding.inner = 0; h_style.body.padding.hor = LV_DPI - (LV_DPI / 4); h_style.body.padding.ver = LV_DPI / 6; // Main configurations container. lv_obj_t *h1 = lv_cont_create(win, NULL); lv_cont_set_style(h1, &h_style); lv_cont_set_fit(h1, false, true); lv_obj_set_width(h1, (LV_HOR_RES / 9) * 4); lv_obj_set_click(h1, false); lv_cont_set_layout(h1, LV_LAYOUT_OFF); lv_obj_t *label_sep = lv_label_create(h1, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt = lv_label_create(h1, NULL); lv_label_set_static_text(label_txt, "Main configurations"); lv_obj_set_style(label_txt, lv_theme_get_current()->label.prim); lv_obj_align(label_txt, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -(LV_DPI / 4)); lv_obj_t *line_sep = lv_line_create(h1, NULL); static const lv_point_t line_pp[] = { {0, 0}, { LV_HOR_RES - (LV_DPI - (LV_DPI / 4)) * 2, 0} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, lv_theme_get_current()->line.decor); lv_obj_align(line_sep, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create list and populate it with Main boot entries. lv_obj_t *list_main = lv_list_create(h1, NULL); auto_main_list = list_main; lv_obj_align(list_main, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_obj_set_size(list_main, LV_HOR_RES * 4 / 10, LV_VER_RES * 4 / 7); lv_list_set_single_mode(list_main, true); sd_mount(); // Parse hekate main configuration. LIST_INIT(ini_sections); if (!ini_parse(&ini_sections, "bootloader/hekate_ipl.ini", false)) { LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_sections, link) { if (!strcmp(ini_sec->name, "config") || (ini_sec->type != INI_CHOICE)) continue; lv_list_add(list_main, NULL, ini_sec->name, _autoboot_enable_main_action); } ini_free(&ini_sections); } // More configuration container. lv_obj_t *h2 = lv_cont_create(win, NULL); lv_cont_set_style(h2, &h_style); lv_cont_set_fit(h2, false, true); lv_obj_set_width(h2, (LV_HOR_RES / 9) * 4); lv_obj_set_click(h2, false); lv_cont_set_layout(h2, LV_LAYOUT_OFF); lv_obj_align(h2, h1, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI * 17 / 29, 0); label_sep = lv_label_create(h2, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt3 = lv_label_create(h2, NULL); lv_label_set_static_text(label_txt3, "Ini folder configurations"); lv_obj_set_style(label_txt3, lv_theme_get_current()->label.prim); lv_obj_align(label_txt3, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI / 11); line_sep = lv_line_create(h2, line_sep); lv_obj_align(line_sep, label_txt3, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 2), LV_DPI / 8); lv_line_set_style(line_sep, lv_theme_get_current()->line.decor); // Create list and populate it with more cfg boot entries. lv_obj_t *list_more_cfg = lv_list_create(h2, NULL); auto_more_list = list_more_cfg; lv_obj_align(list_more_cfg, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 2, LV_DPI / 4); lv_obj_set_size(list_more_cfg, LV_HOR_RES * 4 / 10, LV_VER_RES * 4 / 7); lv_list_set_single_mode(list_more_cfg, true); // Parse all .ini files in ini folder. LIST_INIT(ini_list_sections); if (!ini_parse(&ini_list_sections, "bootloader/ini", true)) { LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_list_sections, link) { if (!strcmp(ini_sec->name, "config") || (ini_sec->type != INI_CHOICE)) continue; lv_list_add(list_more_cfg, NULL, ini_sec->name, _autoboot_enable_more_action); } ini_free(&ini_list_sections); } sd_unmount(); } static lv_res_t _autoboot_hide_delay_action(lv_obj_t *btn) { if (!autoboot_first_time) _create_autoboot_window(); if (!h_cfg.autoboot && autoboot_first_time) lv_btn_set_state(btn, LV_BTN_STATE_REL); else lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); autoboot_first_time = false; nyx_generic_onoff_toggle(btn); return LV_RES_INV; } static lv_res_t _autoboot_delay_action(lv_obj_t *ddlist) { u32 new_selection = lv_ddlist_get_selected(ddlist); if (h_cfg.bootwait != new_selection) { h_cfg.bootwait = new_selection; ini_changes_made = true; } return LV_RES_OK; } static lv_res_t _slider_brightness_action(lv_obj_t * slider) { display_backlight_brightness(lv_slider_get_value(slider) - 20, 0); h_cfg.backlight = lv_slider_get_value(slider); ini_changes_made = true; return LV_RES_OK; } static lv_res_t _data_verification_action(lv_obj_t *ddlist) { u32 new_selection = lv_ddlist_get_selected(ddlist); if (n_cfg.verification != new_selection) { n_cfg.verification = new_selection; nyx_changes_made = true; } return LV_RES_OK; } static lv_res_t _entries_columns_action(lv_obj_t *btn) { n_cfg.entries_5_col = !n_cfg.entries_5_col; nyx_changes_made = true; if (!n_cfg.entries_5_col) lv_btn_set_state(btn, LV_BTN_STATE_REL); else lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); nyx_generic_onoff_toggle(btn); return LV_RES_OK; } static lv_res_t _save_nyx_options_action(lv_obj_t *btn) { static const char * mbox_btn_map[] = {"\251", "\222OK!", "\251", ""}; lv_obj_t * mbox = lv_mbox_create(lv_scr_act(), NULL); lv_mbox_set_recolor_text(mbox, true); int res = !create_nyx_config_entry(true); nyx_changes_made = false; if (res) lv_mbox_set_text(mbox, "#FF8000 Nyx Configuration#\n\n#96FF00 The configuration was saved to sd card!#"); else lv_mbox_set_text(mbox, "#FF8000 Nyx Configuration#\n\n#FFDD00 Failed to save the configuration#\n#FFDD00 to sd card!#"); lv_mbox_add_btns(mbox, mbox_btn_map, NULL); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } void create_flat_button(lv_obj_t *btn, int color_idx, lv_action_t action) { lv_color_t color = color_idx ? lv_color_hsv_to_rgb(color_idx, 100, 100) : lv_color_hsv_to_rgb(53, 8, 90); lv_style_t *btn_onoff_rel_hos_style = malloc(sizeof(lv_style_t)); lv_style_t *btn_onoff_pr_hos_style = malloc(sizeof(lv_style_t)); lv_style_copy(btn_onoff_rel_hos_style, lv_theme_get_current()->btn.rel); btn_onoff_rel_hos_style->body.main_color = color; btn_onoff_rel_hos_style->body.grad_color = btn_onoff_rel_hos_style->body.main_color; btn_onoff_rel_hos_style->body.padding.hor = 0; btn_onoff_rel_hos_style->body.radius = 0; if (color_idx == 167) { btn_onoff_rel_hos_style->body.border.color = LV_COLOR_HEX(0x000000); btn_onoff_rel_hos_style->body.border.opa = LV_OPA_20; btn_onoff_rel_hos_style->body.border.width = 3; } lv_style_copy(btn_onoff_pr_hos_style, lv_theme_get_current()->btn.pr); btn_onoff_pr_hos_style->body.main_color = color; btn_onoff_pr_hos_style->body.grad_color = btn_onoff_pr_hos_style->body.main_color; btn_onoff_pr_hos_style->body.padding.hor = 0; btn_onoff_pr_hos_style->body.border.color = LV_COLOR_HEX(0xFFFFFF); btn_onoff_pr_hos_style->body.border.opa = LV_OPA_50; btn_onoff_pr_hos_style->body.border.width = 4; btn_onoff_pr_hos_style->body.radius = 0; lv_btn_set_style(btn, LV_BTN_STYLE_REL, btn_onoff_rel_hos_style); lv_btn_set_style(btn, LV_BTN_STYLE_PR, btn_onoff_pr_hos_style); lv_btn_set_style(btn, LV_BTN_STYLE_TGL_REL, btn_onoff_rel_hos_style); lv_btn_set_style(btn, LV_BTN_STYLE_TGL_PR, btn_onoff_pr_hos_style); lv_btn_set_fit(btn, false, false); lv_obj_set_size(btn, LV_DPI * 7 / 11, LV_DPI * 7 / 11); lv_btn_set_toggle(btn, true); if (action) lv_btn_set_action(btn, LV_BTN_ACTION_CLICK, action); } typedef struct _color_test_ctxt { u32 bg; u16 hue; u8 r; u8 g; u8 b; lv_obj_t *window; lv_obj_t *header1; lv_obj_t *header2; lv_obj_t *label; lv_obj_t *icons; lv_obj_t *slider; lv_obj_t *button; lv_obj_t *hue_slider; lv_obj_t *hue_label; lv_obj_t *r_slider; lv_obj_t *r_label; lv_obj_t *g_slider; lv_obj_t *g_label; lv_obj_t *b_slider; lv_obj_t *b_label; lv_style_t box_style; lv_obj_t *box; lv_obj_t *btn_reset; lv_obj_t *btn_apply; lv_obj_t *btn_black; } color_test_ctxt; color_test_ctxt color_test; static lv_res_t _action_win_nyx_colors_save(lv_obj_t *btn) { n_cfg.theme_bg = color_test.bg; n_cfg.theme_color = color_test.hue; // Save nyx config. create_nyx_config_entry(true); reload_nyx(NULL, false); return LV_RES_OK; } static void _show_new_nyx_color(bool update_bg) { u32 bg = color_test.bg; u16 hue = color_test.hue; lv_color_t bgc = LV_COLOR_HEX(bg); // COLOR_HOS_BG. lv_color_t bgc_light = LV_COLOR_HEX(bg ? (bg + 0x101010) : 0x2D2D2D); // COLOR_HOS_BG_LIGHT. lv_color_t bgc_press = LV_COLOR_HEX(bg ? (bg + 0x232323) : 0x404040); // 0x505050. lv_color_t bg_border = LV_COLOR_HEX(bg ? (bg + 0x202020) : 0x3D3D3D); // COLOR_HOS_BG_LIGHTER. lv_color_t color = hue ? lv_color_hsv_to_rgb(hue, 100, 100) : lv_color_hsv_to_rgb(53, 8, 90); static lv_style_t btn_tgl_pr_test; lv_style_copy(&btn_tgl_pr_test, lv_btn_get_style(color_test.button, LV_BTN_STATE_TGL_PR)); btn_tgl_pr_test.body.main_color = bgc_press; btn_tgl_pr_test.body.grad_color = btn_tgl_pr_test.body.main_color; btn_tgl_pr_test.body.border.color = color; btn_tgl_pr_test.text.color = color; if (update_bg) { static lv_style_t win_bg_test; lv_style_copy(&win_bg_test, lv_win_get_style(color_test.window, LV_WIN_STYLE_BG)); win_bg_test.body.main_color = bgc; win_bg_test.body.grad_color = win_bg_test.body.main_color; lv_win_set_style(color_test.window, LV_WIN_STYLE_BG, &win_bg_test); static lv_style_t win_hdr_test; lv_style_copy(&win_hdr_test, lv_win_get_style(color_test.window, LV_WIN_STYLE_HEADER)); win_hdr_test.body.main_color = bgc; win_hdr_test.body.grad_color = win_hdr_test.body.main_color; lv_win_set_style(color_test.window, LV_WIN_STYLE_HEADER, &win_hdr_test); static lv_style_t hdr1_bg_test; lv_style_copy(&hdr1_bg_test, lv_cont_get_style(color_test.header1)); hdr1_bg_test.body.main_color = bgc; hdr1_bg_test.body.grad_color = hdr1_bg_test.body.main_color; lv_cont_set_style(color_test.header1, &hdr1_bg_test); static lv_style_t hdr2_bg_test; lv_style_copy(&hdr2_bg_test, lv_cont_get_style(color_test.header2)); hdr2_bg_test.body.main_color = bgc; hdr2_bg_test.body.grad_color = hdr2_bg_test.body.main_color; lv_cont_set_style(color_test.header2, &hdr2_bg_test); static lv_style_t btn_tgl_rel_test; lv_style_copy(&btn_tgl_rel_test, lv_btn_get_style(color_test.btn_reset, LV_BTN_STATE_REL)); btn_tgl_rel_test.body.main_color = bgc_light; btn_tgl_rel_test.body.grad_color = btn_tgl_rel_test.body.main_color; lv_btn_set_style(color_test.btn_reset, LV_BTN_STATE_REL, &btn_tgl_rel_test); lv_btn_set_style(color_test.btn_reset, LV_BTN_STATE_PR, &btn_tgl_pr_test); lv_btn_set_style(color_test.btn_apply, LV_BTN_STATE_REL, &btn_tgl_rel_test); lv_btn_set_style(color_test.btn_apply, LV_BTN_STATE_PR, &btn_tgl_pr_test); lv_btn_set_style(color_test.btn_black, LV_BTN_STATE_REL, &btn_tgl_rel_test); lv_btn_set_style(color_test.btn_black, LV_BTN_STATE_PR, &btn_tgl_pr_test); static lv_style_t slider_bg; lv_style_copy(&slider_bg, lv_slider_get_style(color_test.slider, LV_SLIDER_STYLE_BG)); slider_bg.body.main_color = bg_border; slider_bg.body.grad_color = slider_bg.body.main_color; lv_slider_set_style(color_test.hue_slider, LV_SLIDER_STYLE_BG, &slider_bg); lv_slider_set_style(color_test.slider, LV_SLIDER_STYLE_BG, &slider_bg); lv_slider_set_style(color_test.r_slider, LV_SLIDER_STYLE_BG, &slider_bg); lv_slider_set_style(color_test.g_slider, LV_SLIDER_STYLE_BG, &slider_bg); lv_slider_set_style(color_test.b_slider, LV_SLIDER_STYLE_BG, &slider_bg); } else { static lv_style_t txt_test; lv_style_copy(&txt_test, lv_label_get_style(color_test.label)); txt_test.text.color = color; lv_obj_set_style(color_test.label, &txt_test); lv_obj_set_style(color_test.icons, &txt_test); static lv_style_t slider_knb; lv_style_copy(&slider_knb, lv_slider_get_style(color_test.slider, LV_SLIDER_STYLE_KNOB)); slider_knb.body.main_color = color; slider_knb.body.grad_color = slider_knb.body.main_color; lv_slider_set_style(color_test.hue_slider, LV_SLIDER_STYLE_KNOB, &slider_knb); lv_slider_set_style(color_test.slider, LV_SLIDER_STYLE_KNOB, &slider_knb); lv_slider_set_style(color_test.r_slider, LV_SLIDER_STYLE_KNOB, &slider_knb); lv_slider_set_style(color_test.g_slider, LV_SLIDER_STYLE_KNOB, &slider_knb); lv_slider_set_style(color_test.b_slider, LV_SLIDER_STYLE_KNOB, &slider_knb); static lv_style_t slider_ind; lv_style_copy(&slider_ind, lv_slider_get_style(color_test.slider, LV_SLIDER_STYLE_INDIC)); slider_ind.body.main_color = hue ? lv_color_hsv_to_rgb(hue, 100, 72) : lv_color_hsv_to_rgb(53, 8, 65); slider_ind.body.grad_color = slider_ind.body.main_color; lv_slider_set_style(color_test.hue_slider, LV_SLIDER_STYLE_INDIC, &slider_ind); lv_slider_set_style(color_test.slider, LV_SLIDER_STYLE_INDIC, &slider_ind); lv_slider_set_style(color_test.r_slider, LV_SLIDER_STYLE_INDIC, &slider_ind); lv_slider_set_style(color_test.g_slider, LV_SLIDER_STYLE_INDIC, &slider_ind); lv_slider_set_style(color_test.b_slider, LV_SLIDER_STYLE_INDIC, &slider_ind); } lv_btn_set_style(color_test.button, LV_BTN_STATE_TGL_PR, &btn_tgl_pr_test); } static lv_res_t _slider_hue_action(lv_obj_t *slider) { if (color_test.hue != lv_slider_get_value(slider)) { color_test.hue = lv_slider_get_value(slider); _show_new_nyx_color(false); char hue[8]; s_printf(hue, "%03d", color_test.hue); lv_label_set_text(color_test.hue_label, hue); } return LV_RES_OK; } static lv_res_t _slider_r_action(lv_obj_t *slider) { if (color_test.r != lv_slider_get_value(slider)) { color_test.r = lv_slider_get_value(slider); color_test.box_style.body.main_color = LV_COLOR_HEX((color_test.r << 16) | (color_test.g << 8) | color_test.b); color_test.box_style.body.grad_color = color_test.box_style.body.main_color; lv_obj_set_style(color_test.box, &color_test.box_style); char shade[8]; s_printf(shade, "%03d", color_test.r); lv_label_set_text(color_test.r_label, shade); } return LV_RES_OK; } static lv_res_t _slider_g_action(lv_obj_t *slider) { if (color_test.g != lv_slider_get_value(slider)) { color_test.g = lv_slider_get_value(slider); color_test.box_style.body.main_color = LV_COLOR_HEX((color_test.r << 16) | (color_test.g << 8) | color_test.b); color_test.box_style.body.grad_color = color_test.box_style.body.main_color; lv_obj_set_style(color_test.box, &color_test.box_style); char shade[8]; s_printf(shade, "%03d", color_test.g); lv_label_set_text(color_test.g_label, shade); } return LV_RES_OK; } static lv_res_t _slider_b_action(lv_obj_t *slider) { if (color_test.b != lv_slider_get_value(slider)) { color_test.b = lv_slider_get_value(slider); color_test.box_style.body.main_color = LV_COLOR_HEX((color_test.r << 16) | (color_test.g << 8) | color_test.b); color_test.box_style.body.grad_color = color_test.box_style.body.main_color; lv_obj_set_style(color_test.box, &color_test.box_style); char shade[8]; s_printf(shade, "%03d", color_test.b); lv_label_set_text(color_test.b_label, shade); } return LV_RES_OK; } static lv_res_t _preset_bg_apply(lv_obj_t *btn) { color_test.bg = (color_test.r << 16) | (color_test.g << 8) | color_test.b; _show_new_nyx_color(true); return LV_RES_OK; } static lv_res_t _preset_bg_black(lv_obj_t *btn) { color_test.bg = 0; _show_new_nyx_color(true); return LV_RES_OK; } static lv_res_t _preset_bg_reset(lv_obj_t *btn) { color_test.r = 0x2D; color_test.g = 0x2D; color_test.b = 0x2D; color_test.bg = 0x2D2D2D; color_test.box_style.body.main_color = LV_COLOR_HEX(color_test.bg); color_test.box_style.body.grad_color = color_test.box_style.body.main_color; lv_obj_set_style(color_test.box, &color_test.box_style); lv_bar_set_value(color_test.r_slider, color_test.r); lv_bar_set_value(color_test.g_slider, color_test.g); lv_bar_set_value(color_test.b_slider, color_test.b); char shade[8]; s_printf(shade, "%03d", color_test.r); lv_label_set_text(color_test.r_label, shade); lv_label_set_text(color_test.g_label, shade); lv_label_set_text(color_test.b_label, shade); _show_new_nyx_color(true); return LV_RES_OK; } static lv_res_t _preset_hue_action(lv_obj_t *btn) { lv_btn_ext_t *ext = lv_obj_get_ext_attr(btn); if (color_test.hue != ext->idx) { color_test.hue = ext->idx; char hue[8]; s_printf(hue, "%03d", color_test.hue); lv_label_set_text(color_test.hue_label, hue); lv_bar_set_value(color_test.hue_slider, color_test.hue); _show_new_nyx_color(false); } return LV_RES_OK; } static const u16 theme_colors[18] = { 0, 4, 13, 23, 33, 43, 54, 66, 89, 124, 167, 187, 200, 208, 231, 261, 291, 341 }; lv_res_t _action_win_nyx_colors_close(lv_obj_t * btn) { lv_obj_set_opa_scale(status_bar.mid, LV_OPA_COVER); lv_obj_set_click(status_bar.mid, true); return nyx_win_close_action(btn); } static lv_res_t _create_window_nyx_colors(lv_obj_t *btn) { lv_obj_t *win = nyx_create_standard_window(SYMBOL_COPY" Nyx Color Theme", _action_win_nyx_colors_close); lv_win_add_btn(win, NULL, SYMBOL_SAVE" Save & Reload", _action_win_nyx_colors_save); color_test.window = win; // Set current theme colors. color_test.bg = n_cfg.theme_bg; color_test.hue = n_cfg.theme_color; u32 bg = n_cfg.theme_bg ? n_cfg.theme_bg : 0x2D2D2D; color_test.r = (bg >> 16) & 0xFF; color_test.g = (bg >> 8) & 0xFF; color_test.b = (bg >> 0) & 0xFF; lv_style_copy(&color_test.box_style, &lv_style_plain_color); color_test.box_style.body.main_color = LV_COLOR_HEX(color_test.bg); color_test.box_style.body.grad_color = color_test.box_style.body.main_color; color_test.box_style.body.border.color = LV_COLOR_HEX(0xFFFFFF); color_test.box_style.body.border.opa = LV_OPA_20; color_test.box_style.body.border.width = 2; // Create container to keep content inside. lv_obj_t *h1 = lv_cont_create(win, NULL); lv_obj_set_size(h1, LV_DPI * 299 / 25, LV_DPI * 27 / 26); color_test.header1 = h1; lv_obj_t *acc_label = lv_label_create(h1, NULL); lv_label_set_static_text(acc_label, "Accent color:"); // Create color preset buttons. lv_obj_t *color_btn = lv_btn_create(h1, NULL); lv_btn_ext_t *ext = lv_obj_get_ext_attr(color_btn); ext->idx = theme_colors[0]; create_flat_button(color_btn, ext->idx, _preset_hue_action); lv_obj_align(color_btn, acc_label, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 10); lv_obj_t *color_btn2; for (u32 i = 1; i < ARRAY_SIZE(theme_colors); i++) { color_btn2 = lv_btn_create(h1, NULL); ext = lv_obj_get_ext_attr(color_btn2); ext->idx = theme_colors[i]; create_flat_button(color_btn2, ext->idx, _preset_hue_action); lv_obj_align(color_btn2, color_btn, LV_ALIGN_OUT_RIGHT_MID, 0, 0); color_btn = color_btn2; } lv_obj_align(h1, NULL, LV_ALIGN_IN_TOP_MID, 0, LV_DPI / 5); // Create hue slider. lv_obj_t *h_slider = lv_slider_create(win, NULL); lv_obj_set_width(h_slider, LV_DPI * 213 / 20); lv_obj_set_height(h_slider, LV_DPI * 4 / 10); lv_bar_set_range(h_slider, 0, 359); lv_bar_set_value(h_slider, color_test.hue); lv_slider_set_action(h_slider, _slider_hue_action); lv_obj_align(h_slider, h1, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 5); color_test.hue_slider = h_slider; // Create hue label. lv_obj_t *hue_text_label = lv_label_create(win, NULL); lv_obj_align(hue_text_label, h_slider, LV_ALIGN_OUT_RIGHT_MID, LV_DPI * 24 / 100, 0); char txt[8]; s_printf(txt, "%03d", color_test.hue); lv_label_set_text(hue_text_label, txt); color_test.hue_label = hue_text_label; lv_obj_t *bg_label = lv_label_create(win, NULL); lv_label_set_static_text(bg_label, "Theme color:"); lv_obj_align(bg_label, h_slider, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI * 6 / 25); // Create red slider. lv_obj_t *r_slider = lv_slider_create(win, NULL); lv_obj_set_width(r_slider, LV_DPI * 85 / 16); lv_obj_set_height(r_slider, LV_DPI * 4 / 10); lv_bar_set_range(r_slider, 11, 100); lv_bar_set_value(r_slider, color_test.r); lv_slider_set_action(r_slider, _slider_r_action); lv_obj_align(r_slider, bg_label, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 21); color_test.r_slider = r_slider; // Create red label. lv_obj_t *r_text_label = lv_label_create(win, NULL); lv_obj_align(r_text_label, r_slider, LV_ALIGN_OUT_RIGHT_MID, LV_DPI * 24 / 100, 0); s_printf(txt, "%03d", color_test.r); lv_label_set_text(r_text_label, txt); color_test.r_label = r_text_label; // Create green slider. lv_obj_t *g_slider = lv_slider_create(win, r_slider); lv_bar_set_value(g_slider, color_test.g); lv_slider_set_action(g_slider, _slider_g_action); lv_obj_align(g_slider, r_slider, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 7); color_test.g_slider = g_slider; // Create green label. lv_obj_t *g_text_label = lv_label_create(win, NULL); lv_obj_align(g_text_label, g_slider, LV_ALIGN_OUT_RIGHT_MID, LV_DPI * 24 / 100, 0); s_printf(txt, "%03d", color_test.g); lv_label_set_text(g_text_label, txt); color_test.g_label = g_text_label; // Create blue slider. lv_obj_t *b_slider = lv_slider_create(win, r_slider); lv_bar_set_value(b_slider, color_test.b); lv_slider_set_action(b_slider, _slider_b_action); lv_obj_align(b_slider, g_slider, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 7); color_test.b_slider = b_slider; // Create blue label. lv_obj_t *b_text_label = lv_label_create(win, NULL); lv_obj_align(b_text_label, b_slider, LV_ALIGN_OUT_RIGHT_MID, LV_DPI * 24 / 100, 0); s_printf(txt, "%03d", color_test.b); lv_label_set_text(b_text_label, txt); color_test.b_label = b_text_label; // Create theme color box. lv_obj_t * bg_box = lv_obj_create(win, NULL); lv_obj_set_size(bg_box, LV_DPI * 10 / 7, LV_DPI * 18 / 13); lv_obj_align(bg_box, r_text_label, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI / 4, 0); lv_obj_set_style(bg_box, &color_test.box_style); color_test.box = bg_box; // Create theme color buttons. lv_obj_t *btn_reset = lv_btn_create(win, NULL); lv_obj_t *label_btn = lv_label_create(btn_reset, NULL); lv_label_set_static_text(label_btn, SYMBOL_REFRESH" Grey"); lv_btn_set_fit(btn_reset, false, true); lv_obj_set_width(btn_reset, LV_DPI * 5 / 3); lv_btn_set_action(btn_reset, LV_BTN_ACTION_CLICK, _preset_bg_reset); lv_obj_align(btn_reset, bg_box, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI / 5, 0); color_test.btn_reset = btn_reset; lv_obj_t *btn_black = lv_btn_create(win, btn_reset); label_btn = lv_label_create(btn_black, NULL); lv_label_set_static_text(label_btn, SYMBOL_BRIGHTNESS" Black"); lv_btn_set_action(btn_black, LV_BTN_ACTION_CLICK, _preset_bg_black); lv_obj_align(btn_black, btn_reset, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI / 5, 0); color_test.btn_black = btn_black; lv_obj_t *btn_apply = lv_btn_create(win, btn_reset); label_btn = lv_label_create(btn_apply, NULL); lv_label_set_static_text(label_btn, SYMBOL_LIST" Custom Color"); lv_obj_set_width(btn_apply, LV_DPI * 10 / 3 + LV_DPI / 5); lv_btn_set_action(btn_apply, LV_BTN_ACTION_CLICK, _preset_bg_apply); lv_obj_align(btn_apply, btn_reset, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 7); color_test.btn_apply = btn_apply; // Create sample text. lv_obj_t *h2 = lv_cont_create(win, NULL); lv_obj_set_size(h2, LV_DPI * 12, LV_DPI * 18 / 10); lv_obj_align(h2, b_slider, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI * 6 / 25); color_test.header2 = h2; lv_obj_t *lbl_sample = lv_label_create(h2, NULL); lv_label_set_static_text(lbl_sample, "Accent sample:"); lv_obj_t *lbl_test = lv_label_create(h2, NULL); lv_label_set_long_mode(lbl_test, LV_LABEL_LONG_BREAK); lv_label_set_static_text(lbl_test, "Lorem ipsum dolor sit amet, consectetur adipisicing elit, " "sed do eiusmod tempor incididunt ut labore et dolore magna aliqua."); lv_obj_set_width(lbl_test, LV_DPI * 261 / 23); lv_obj_align(lbl_test, lbl_sample, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 34); color_test.label = lbl_test; // Create sample icons. lv_obj_t *lbl_icons = lv_label_create(h2, NULL); lv_label_set_static_text(lbl_icons, SYMBOL_BRIGHTNESS SYMBOL_CHARGE SYMBOL_FILE SYMBOL_DRIVE SYMBOL_FILE_CODE SYMBOL_EDIT SYMBOL_HINT SYMBOL_DRIVE SYMBOL_KEYBOARD SYMBOL_POWER); lv_obj_align(lbl_icons, lbl_test, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 5); color_test.icons = lbl_icons; // Create sample slider. lv_obj_t *slider_test = lv_slider_create(h2, NULL); lv_obj_align(slider_test, lbl_test, LV_ALIGN_OUT_BOTTOM_MID, 0, LV_DPI / 5); lv_obj_set_click(slider_test, false); lv_bar_set_value(slider_test, 60); color_test.slider = slider_test; // Create sample button. lv_obj_t *btn_test = lv_btn_create(h2, NULL); lv_btn_set_state(btn_test, LV_BTN_STATE_TGL_PR); lv_label_create(btn_test, NULL); lv_btn_set_fit(btn_test, false, true); lv_obj_set_width(btn_test, LV_DPI * 5 / 3); lv_obj_align(btn_test, lbl_test, LV_ALIGN_OUT_BOTTOM_RIGHT, 0, LV_DPI / 20); lv_obj_set_click(btn_test, false); color_test.button = btn_test; _show_new_nyx_color(false); lv_obj_set_opa_scale(status_bar.mid, LV_OPA_0); lv_obj_set_click(status_bar.mid, false); return LV_RES_OK; } typedef struct _time_edit_obj_t { lv_obj_t *year; lv_obj_t *month; lv_obj_t *day; lv_obj_t *hour; lv_obj_t *min; } time_edit_obj_t; time_edit_obj_t clock_ctxt; static lv_res_t _action_clock_edit(lv_obj_t *btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); if (btn_idx == 1) { rtc_time_t time; max77620_rtc_get_time(&time); u32 epoch = max77620_rtc_date_to_epoch(&time); u32 year = lv_roller_get_selected(clock_ctxt.year) + CLOCK_MIN_YEAR; u32 month = lv_roller_get_selected(clock_ctxt.month) + 1; u32 day = lv_roller_get_selected(clock_ctxt.day) + 1; u32 hour = lv_roller_get_selected(clock_ctxt.hour); u32 min = lv_roller_get_selected(clock_ctxt.min); switch (month) { case 2: if (!(year % 4) && day > 29) day = 29; else if (day > 28) day = 28; break; case 4: case 6: case 9: case 11: if (day > 30) day = 30; break; } time.year = year; time.month = month; time.day = day; time.hour = hour; time.min = min; u32 new_epoch = max77620_rtc_date_to_epoch(&time); // Stored in u32 and allow overflow for integer offset casting. n_cfg.timeoffset = new_epoch - epoch; // If canceled set 1 for invalidating first boot clock edit. if (!n_cfg.timeoffset) n_cfg.timeoffset = 1; else { // Adjust for DST between 28 march and 28 october. // Good enough to cover all years as week info is not valid. u16 md = (time.month << 8) | time.day; if (n_cfg.timedst && md >= 0x31C && md < 0xA1C) n_cfg.timeoffset -= 3600; // Store time in non DST. max77620_rtc_set_epoch_offset((int)n_cfg.timeoffset); } nyx_changes_made = true; } nyx_mbox_action(btns, txt); return LV_RES_INV; } static lv_res_t _action_clock_edit_save(lv_obj_t *btns, const char * txt) { _action_clock_edit(btns, txt); // Save if changes were made. if (nyx_changes_made) _save_nyx_options_action(NULL); return LV_RES_INV; } static lv_res_t _action_auto_dst_toggle(lv_obj_t *btn) { n_cfg.timedst = !n_cfg.timedst; max77620_rtc_set_auto_dst(n_cfg.timedst); if (!n_cfg.timedst) lv_btn_set_state(btn, LV_BTN_STATE_REL); else lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); nyx_generic_onoff_toggle(btn); return LV_RES_OK; } static const u32 month_days[12] = { 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; static lv_res_t _action_date_validation(lv_obj_t *roller) { u32 year = lv_roller_get_selected(clock_ctxt.year) + CLOCK_MIN_YEAR; u32 month = lv_roller_get_selected(clock_ctxt.month) + 1; u32 day = lv_roller_get_selected(clock_ctxt.day) + 1; // Adjust max day based on year and month. u32 max_mon_day = month_days[month - 1]; u32 max_feb_day = !(year % 4) ? 29 : 28; if (month == 2 && day > max_feb_day) lv_roller_set_selected(clock_ctxt.day, max_feb_day - 1, false); else if (day > max_mon_day) lv_roller_set_selected(clock_ctxt.day, max_mon_day - 1, false); return LV_RES_OK; } static lv_res_t _create_mbox_clock_edit(lv_obj_t *btn) { static lv_style_t mbox_style; lv_theme_t *th = lv_theme_get_current(); lv_style_copy(&mbox_style, th->mbox.bg); mbox_style.body.padding.inner = LV_DPI / 10; lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222Done", "\222Cancel", "\251", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_style(mbox, LV_MBOX_STYLE_BG, &mbox_style); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, "Enter #C7EA46 Date# and #C7EA46 Time# for Nyx\n" "Used in all file operations and menu.\n" "This doesn't alter the actual HW clock!"); lv_obj_t *padding = lv_cont_create(mbox, NULL); lv_cont_set_fit(padding, true, false); lv_cont_set_style(padding, &lv_style_transp); lv_obj_set_height(padding, LV_DPI / 10); // Get current time. rtc_time_t time; max77620_rtc_get_time_adjusted(&time); // Normalize year if out of range. if (time.year < CLOCK_MIN_YEAR) time.year = CLOCK_MIN_YEAR; else if (time.year > CLOCK_MAX_YEAR) time.year = CLOCK_MAX_YEAR; time.year -= CLOCK_MIN_YEAR; lv_obj_t *h1 = lv_cont_create(mbox, NULL); lv_cont_set_fit(h1, true, true); // Create year roller. lv_obj_t *roller_year = lv_roller_create(h1, NULL); lv_roller_set_options(roller_year, CLOCK_YEARLIST); lv_roller_set_selected(roller_year, time.year, false); lv_roller_set_visible_row_count(roller_year, 3); lv_roller_set_action(roller_year, _action_date_validation); clock_ctxt.year = roller_year; // Create month roller. lv_obj_t *roller_month = lv_roller_create(h1, roller_year); lv_roller_set_options(roller_month, "January\n" "February\n" "March\n" "April\n" "May\n" "June\n" "July\n" "August\n" "September\n" "October\n" "November\n" "December"); lv_roller_set_selected(roller_month, time.month - 1, false); lv_obj_align(roller_month, roller_year, LV_ALIGN_OUT_RIGHT_MID, 0, 0); lv_roller_set_action(roller_month, _action_date_validation); clock_ctxt.month = roller_month; // Create day roller. static char days[256]; days[0] = 0; for (u32 i = 1; i < 32; i++) s_printf(days + strlen(days), " %d \n", i); days[strlen(days) - 1] = 0; lv_obj_t *roller_day = lv_roller_create(h1, roller_year); lv_roller_set_options(roller_day, days); lv_roller_set_selected(roller_day, time.day - 1, false); lv_roller_set_action(roller_day, _action_date_validation); lv_obj_align(roller_day, roller_month, LV_ALIGN_OUT_RIGHT_MID, 0, 0); clock_ctxt.day = roller_day; // Create hours roller. static char hours[256]; hours[0] = 0; for (u32 i = 0; i < 24; i++) s_printf(hours + strlen(hours), " %d \n", i); hours[strlen(hours) - 1] = 0; lv_obj_t *roller_hour = lv_roller_create(h1, roller_year); lv_roller_set_options(roller_hour, hours); lv_roller_set_selected(roller_hour, time.hour, false); lv_obj_align(roller_hour, roller_day, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 2, 0); clock_ctxt.hour = roller_hour; // Create minutes roller. static char minutes[512]; minutes[0] = 0; for (u32 i = 0; i < 60; i++) s_printf(minutes + strlen(minutes), " %02d \n", i); minutes[strlen(minutes) - 1] = 0; lv_obj_t *roller_minute = lv_roller_create(h1, roller_year); lv_roller_set_options(roller_minute, minutes); lv_roller_set_selected(roller_minute, time.min, false); lv_obj_align(roller_minute, roller_hour, LV_ALIGN_OUT_RIGHT_MID, 0, 0); clock_ctxt.min = roller_minute; // Add DST option. lv_obj_t *btn_dst = lv_btn_create(mbox, NULL); nyx_create_onoff_button(th, h1, btn_dst, SYMBOL_BRIGHTNESS" Auto Daylight Saving Time", _action_auto_dst_toggle, true); if (n_cfg.timedst) lv_btn_set_state(btn_dst, LV_BTN_STATE_TGL_REL); nyx_generic_onoff_toggle(btn_dst); // If btn is empty, save options also because it was launched from boot. lv_mbox_add_btns(mbox, mbox_btn_map, btn ? _action_clock_edit : _action_clock_edit_save); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } void first_time_clock_edit(void *param) { _create_mbox_clock_edit(NULL); } static lv_res_t _joycon_info_dump_action(lv_obj_t * btn) { FIL fp; int error = 0; int cal_error = 0; bool is_l_hos = false; bool is_r_hos = false; u32 joycon_found = 0; bool nx_hoag = fuse_read_hw_type() == FUSE_NX_HW_TYPE_HOAG; jc_gamepad_rpt_t *jc_pad = jc_get_bt_pairing_info(&is_l_hos, &is_r_hos); char *data = (char *)malloc(SZ_16K); char *txt_buf = (char *)malloc(SZ_4K); if (!nx_hoag && !jc_pad) error = 255; // Try 2 times to get factory calibration data. for (u32 i = 0; i < 2; i++) { if (!error) cal_error = hos_dump_cal0(); if (!cal_error) break; } if (cal_error && nx_hoag) error = cal_error; if (error) goto disabled_or_cal0_issue; if (nx_hoag) goto save_data; // Count valid joycon. joycon_found = jc_pad->bt_conn_l.type ? 1 : 0; if (jc_pad->bt_conn_r.type) joycon_found++; // Reset PC based for dumping. jc_pad->bt_conn_l.type = is_l_hos ? jc_pad->bt_conn_l.type : 0; jc_pad->bt_conn_r.type = is_r_hos ? jc_pad->bt_conn_r.type : 0; save_data: error = sd_mount() ? 5 : 0; if (!error) { nx_emmc_cal0_t *cal0 = (nx_emmc_cal0_t *)cal0_buf; f_mkdir("switchroot"); if (!nx_hoag) { // Save binary dump. memcpy(data, &jc_pad->bt_conn_l, sizeof(jc_bt_conn_t)); memcpy(data + sizeof(jc_bt_conn_t), &jc_pad->bt_conn_r, sizeof(jc_bt_conn_t)); error = sd_save_to_file((u8 *)data, sizeof(jc_bt_conn_t) * 2, "switchroot/joycon_mac.bin") ? 4 : 0; // Save readable dump. data[0] = 0; for (u32 i = 0; i < 2; i++) { jc_bt_conn_t *bt = !i ? &jc_pad->bt_conn_l : &jc_pad->bt_conn_r; s_printf(data + strlen(data), "[joycon_0%d]\ntype=%d\nmac=%02X:%02X:%02X:%02X:%02X:%02X\n" "host=%02X:%02X:%02X:%02X:%02X:%02X\n" "ltk=%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X\n\n", i, bt->type, bt->mac[0], bt->mac[1], bt->mac[2], bt->mac[3], bt->mac[4], bt->mac[5], bt->host_mac[0], bt->host_mac[1], bt->host_mac[2], bt->host_mac[3], bt->host_mac[4], bt->host_mac[5], bt->ltk[0], bt->ltk[1], bt->ltk[2], bt->ltk[3], bt->ltk[4], bt->ltk[5], bt->ltk[6], bt->ltk[7], bt->ltk[8], bt->ltk[9], bt->ltk[10], bt->ltk[11], bt->ltk[12], bt->ltk[13], bt->ltk[14], bt->ltk[15]); } if (!error) error = f_open(&fp, "switchroot/joycon_mac.ini", FA_WRITE | FA_CREATE_ALWAYS) ? 4 : 0; if (!error) { f_puts(data, &fp); f_close(&fp); } // Save IMU Calibration data. if (!error && !cal_error) { s_printf(data, "imu_type=%d\n\n" "acc_cal_off_x=0x%X\n" "acc_cal_off_y=0x%X\n" "acc_cal_off_z=0x%X\n" "acc_cal_scl_x=0x%X\n" "acc_cal_scl_y=0x%X\n" "acc_cal_scl_z=0x%X\n\n" "gyr_cal_off_x=0x%X\n" "gyr_cal_off_y=0x%X\n" "gyr_cal_off_z=0x%X\n" "gyr_cal_scl_x=0x%X\n" "gyr_cal_scl_y=0x%X\n" "gyr_cal_scl_z=0x%X\n\n" "device_bt_mac=%02X:%02X:%02X:%02X:%02X:%02X\n", cal0->console_6axis_sensor_type, cal0->acc_offset[0], cal0->acc_offset[1], cal0->acc_offset[2], cal0->acc_scale[0], cal0->acc_scale[1], cal0->acc_scale[2], cal0->gyro_offset[0], cal0->gyro_offset[1], cal0->gyro_offset[2], cal0->gyro_scale[0], cal0->gyro_scale[1], cal0->gyro_scale[2], cal0->bd_mac[0], cal0->bd_mac[1], cal0->bd_mac[2], cal0->bd_mac[3], cal0->bd_mac[4], cal0->bd_mac[5]); error = f_open(&fp, "switchroot/switch.cal", FA_WRITE | FA_CREATE_ALWAYS) ? 4 : 0; if (!error) { f_puts(data, &fp); f_close(&fp); } } } else { jc_calib_t *stick_cal_l = (jc_calib_t *)cal0->analog_stick_cal_l; jc_calib_t *stick_cal_r = (jc_calib_t *)cal0->analog_stick_cal_r; // Save Lite Gamepad and IMU Calibration data. // Actual max/min are right/left and up/down offsets. // Sticks: 0x23: H1 (Hosiden), 0x25: H5 (Hosiden), 0x41: F1 (FIT), ?add missing? s_printf(data, "lite_cal_l_type=0x%X\n" "lite_cal_lx_lof=0x%X\n" "lite_cal_lx_cnt=0x%X\n" "lite_cal_lx_rof=0x%X\n" "lite_cal_ly_dof=0x%X\n" "lite_cal_ly_cnt=0x%X\n" "lite_cal_ly_uof=0x%X\n\n" "lite_cal_r_type=0x%X\n" "lite_cal_rx_lof=0x%X\n" "lite_cal_rx_cnt=0x%X\n" "lite_cal_rx_rof=0x%X\n" "lite_cal_ry_dof=0x%X\n" "lite_cal_ry_cnt=0x%X\n" "lite_cal_ry_uof=0x%X\n\n" "imu_type=%d\n\n" "acc_cal_off_x=0x%X\n" "acc_cal_off_y=0x%X\n" "acc_cal_off_z=0x%X\n" "acc_cal_scl_x=0x%X\n" "acc_cal_scl_y=0x%X\n" "acc_cal_scl_z=0x%X\n\n" "gyr_cal_off_x=0x%X\n" "gyr_cal_off_y=0x%X\n" "gyr_cal_off_z=0x%X\n" "gyr_cal_scl_x=0x%X\n" "gyr_cal_scl_y=0x%X\n" "gyr_cal_scl_z=0x%X\n\n" "device_bt_mac=%02X:%02X:%02X:%02X:%02X:%02X\n", cal0->analog_stick_type_l, stick_cal_l->x_min, stick_cal_l->x_center, stick_cal_l->x_max, stick_cal_l->y_min, stick_cal_l->y_center, stick_cal_l->y_max, cal0->analog_stick_type_r, stick_cal_r->x_min, stick_cal_r->x_center, stick_cal_r->x_max, stick_cal_r->y_min, stick_cal_r->y_center, stick_cal_r->y_max, cal0->console_6axis_sensor_type, cal0->acc_offset[0], cal0->acc_offset[1], cal0->acc_offset[2], cal0->acc_scale[0], cal0->acc_scale[1], cal0->acc_scale[2], cal0->gyro_offset[0], cal0->gyro_offset[1], cal0->gyro_offset[2], cal0->gyro_scale[0], cal0->gyro_scale[1], cal0->gyro_scale[2], cal0->bd_mac[0], cal0->bd_mac[1], cal0->bd_mac[2], cal0->bd_mac[3], cal0->bd_mac[4], cal0->bd_mac[5]); if (!error) error = f_open(&fp, "switchroot/switch.cal", FA_WRITE | FA_CREATE_ALWAYS) ? 4 : 0; if (!error) { f_puts(data, &fp); f_close(&fp); } } sd_unmount(); } disabled_or_cal0_issue:; lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); if (!error) { if (!nx_hoag) { s_printf(txt_buf, "Dumping to SD card finished!\n" "Saved to: #C7EA46 switchroot/joycon_mac.[bin/ini]#\n\n"); bool success = true; // Check if pairing info was found. if (joycon_found == 2) strcat(txt_buf, "#C7EA46 Success!#\n#C7EA46 Found 2 out of 2 Joy-Con pairing data!#\n"); else { s_printf(txt_buf + strlen(txt_buf), "#FF8000 Failed!#\n#FF8000 Warning:# Found #FFDD00 %d out of 2# pairing data!\n", joycon_found); success = false; } // Check if pairing was done in HOS. if (is_l_hos && is_r_hos) strcat(txt_buf, "#C7EA46 Both pairing data are HOS based!#"); else if (!is_l_hos && is_r_hos) { strcat(txt_buf, "#FF8000 Warning:# #FFDD00 Left# pairing data is not HOS based!"); success = false; } else if (is_l_hos && !is_r_hos) { strcat(txt_buf, "#FF8000 Warning:# #FFDD00 Right# pairing data is not HOS based!"); success = false; } else { strcat(txt_buf, "#FF8000 Warning:# #FFDD00 No# pairing data is HOS based!"); success = false; } if (!success) strcat(txt_buf, "\n\n#FFDD00 Make sure that both Joy-Con are connected,#\n" "#FFDD00 and that you paired them in HOS!#"); if (cal_error) s_printf(txt_buf + strlen(txt_buf), "\n\n#FF8000 Warning: Failed (%d) to get IMU calibration!#", cal_error); } else { s_printf(txt_buf, "Dumping to SD card finished!\n" "Saved to: #C7EA46 switchroot/switch.cal#\n\n"); strcat(txt_buf, "#C7EA46 Success!#\n#C7EA46 Found Lite Gamepad data!#\n"); } } else { if (!nx_hoag) s_printf(txt_buf, "#FFDD00 Failed to dump Joy-Con pairing info!#\n#FFDD00 Error: %d#", error); else s_printf(txt_buf, "#FFDD00 Failed to get Lite Gamepad info!#\n#FFDD00 Error: %d#", error); } lv_mbox_set_text(mbox, txt_buf); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); // Important. After set_text. lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); free(txt_buf); free(data); return LV_RES_OK; } static lv_res_t _home_screen_action(lv_obj_t *ddlist) { u32 new_selection = lv_ddlist_get_selected(ddlist); if (n_cfg.home_screen != new_selection) { n_cfg.home_screen = new_selection; nyx_changes_made = true; } return LV_RES_OK; } static lv_res_t _action_nyx_options_save(lv_obj_t *btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); nyx_mbox_action(btns, txt); if (!btn_idx) _save_nyx_options_action(NULL); return LV_RES_INV; } static void _check_nyx_changes() { if (nyx_changes_made) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\222Save", "\222Cancel", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_mbox_set_text(mbox, "#FF8000 Nyx configuration#\n\n" "You changed the configuration!\n\n" "Do you want to save it?"); lv_mbox_add_btns(mbox, mbox_btn_map, _action_nyx_options_save); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); nyx_changes_made = false; } } static lv_res_t _action_win_nyx_options_close(lv_obj_t *btn) { // Hide status bar options save button. lv_obj_set_opa_scale(status_bar.mid, LV_OPA_0); lv_obj_set_click(status_bar.mid, false); lv_res_t res = nyx_win_close_action(btn); _check_nyx_changes(); return res; } lv_res_t create_win_nyx_options(lv_obj_t *parrent_btn) { lv_theme_t *th = lv_theme_get_current(); lv_obj_t *win = nyx_create_standard_window(SYMBOL_HOME" Nyx Settings", _action_win_nyx_options_close); static lv_style_t h_style; lv_style_copy(&h_style, &lv_style_transp); h_style.body.padding.inner = 0; h_style.body.padding.hor = LV_DPI - (LV_DPI / 4); h_style.body.padding.ver = LV_DPI / 6; // Create containers to keep content inside. lv_obj_t * sw_h2 = lv_cont_create(win, NULL); lv_cont_set_style(sw_h2, &h_style); lv_cont_set_fit(sw_h2, false, true); lv_obj_set_width(sw_h2, (LV_HOR_RES / 9) * 4); lv_obj_set_click(sw_h2, false); lv_cont_set_layout(sw_h2, LV_LAYOUT_OFF); lv_obj_t * sw_h3 = lv_cont_create(win, NULL); lv_cont_set_style(sw_h3, &h_style); lv_cont_set_fit(sw_h3, false, true); lv_obj_set_width(sw_h3, (LV_HOR_RES / 9) * 4); lv_obj_set_click(sw_h3, false); lv_cont_set_layout(sw_h3, LV_LAYOUT_OFF); lv_obj_align(sw_h3, sw_h2, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI * 11 / 25, 0); lv_obj_t * l_cont = lv_cont_create(sw_h2, NULL); lv_cont_set_style(l_cont, &lv_style_transp_tight); lv_cont_set_fit(l_cont, true, true); lv_obj_set_click(l_cont, false); lv_cont_set_layout(l_cont, LV_LAYOUT_OFF); lv_obj_set_opa_scale(l_cont, LV_OPA_40); lv_obj_t *label_sep = lv_label_create(sw_h2, NULL); lv_label_set_static_text(label_sep, ""); // Create theme button. lv_obj_t *btn = lv_btn_create(sw_h2, NULL); lv_obj_t *label_btn = lv_label_create(btn, NULL); lv_btn_set_fit(btn, true, true); lv_label_set_static_text(label_btn, SYMBOL_COPY" Color Theme"); lv_obj_align(btn, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI / 5 + 3); lv_btn_set_action(btn, LV_BTN_ACTION_CLICK, _create_window_nyx_colors); lv_obj_t *label_txt2 = lv_label_create(sw_h2, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Customize #C7EA46 Theme# and #C7EA46 Accent# colors in Nyx.\n"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3 - 8); // Create home screen settings list. lv_obj_t *line_sep = lv_line_create(sw_h2, NULL); static const lv_point_t line_pp[] = { {0, 0}, { LV_HOR_RES - (LV_DPI - (LV_DPI / 4)) * 2, 0} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, th->line.decor); lv_obj_align(line_sep, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 4); lv_obj_t *label_txt = lv_label_create(l_cont, NULL); lv_label_set_static_text(label_txt, SYMBOL_HOME" Home Screen"); lv_obj_set_style(label_txt, th->label.prim); lv_obj_align(label_txt, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_obj_t *ddlist = lv_ddlist_create(l_cont, NULL); lv_obj_set_top(ddlist, true); lv_ddlist_set_draw_arrow(ddlist, true); lv_ddlist_set_options(ddlist, "Main menu \n" "All Configs\n" "Launch\n" "More Configs"); lv_ddlist_set_selected(ddlist, n_cfg.home_screen); lv_ddlist_set_action(ddlist, _home_screen_action); lv_obj_align(ddlist, label_txt, LV_ALIGN_OUT_RIGHT_MID, LV_DPI * 2 / 3, 0); label_txt2 = lv_label_create(l_cont, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Select what screen to show on Nyx boot.\n" "#FF8000 All Configs:# #C7EA46 Combines More configs into Launch empty slots.#\n" "#FF8000 Launch / More Configs:# #C7EA46 Uses the classic divided view.#"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 4); line_sep = lv_line_create(sw_h2, line_sep); lv_obj_align(line_sep, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 4); // Create entries per line button. lv_obj_t *btn2 = lv_btn_create(sw_h2, NULL); nyx_create_onoff_button(th, sw_h2, btn2, SYMBOL_GPS" Extended Boot Entries", _entries_columns_action, true); lv_obj_align(btn2, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 10); if (n_cfg.entries_5_col) lv_btn_set_state(btn2, LV_BTN_STATE_TGL_REL); nyx_generic_onoff_toggle(btn2); label_txt2 = lv_label_create(sw_h2, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Sets the boot entries per line to 5. (Default is 4)\n" "#C7EA46 This allows a total of 10 boot entries to be shown in Launch#\n" "#C7EA46 and More Configs sections.#\n\n\n"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn2, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 12); // Create the second column. label_sep = lv_label_create(sw_h3, NULL); lv_label_set_static_text(label_sep, ""); // Create Dump Joy-Con BT button. lv_obj_t *btn3 = lv_btn_create(sw_h3, NULL); lv_obj_t *label_btn3 = lv_label_create(btn3, NULL); lv_btn_set_fit(btn3, true, true); lv_label_set_static_text(label_btn3, SYMBOL_DOWNLOAD" Dump Joy-Con BT"); lv_obj_align(btn3, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI / 3); lv_btn_set_action(btn3, LV_BTN_ACTION_CLICK, _joycon_info_dump_action); label_txt2 = lv_label_create(sw_h3, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Allows you to save the Switch and Joy-Con MAC addresses\n" "and the LTKs associated with them. For #C7EA46 Android# and #C7EA46 Linux#."); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn3, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 4); line_sep = lv_line_create(sw_h3, line_sep); lv_obj_align(line_sep, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 4); // Create Backup/Restore Verification list. label_txt = lv_label_create(sw_h3, NULL); lv_label_set_static_text(label_txt, SYMBOL_MODULES_ALT" Data Verification"); lv_obj_set_style(label_txt, th->label.prim); lv_obj_align(label_txt, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_obj_t *ddlist2 = lv_ddlist_create(sw_h3, NULL); lv_obj_set_top(ddlist2, true); lv_ddlist_set_draw_arrow(ddlist2, true); lv_ddlist_set_options(ddlist2, "Off (Fastest)\n" "Sparse (Fast) \n" "Full (Slow)\n" "Full (Hashes)"); lv_ddlist_set_selected(ddlist2, n_cfg.verification); lv_obj_align(ddlist2, label_txt, LV_ALIGN_OUT_RIGHT_MID, LV_DPI * 3 / 8, 0); lv_ddlist_set_action(ddlist2, _data_verification_action); label_txt2 = lv_label_create(sw_h3, NULL); lv_label_set_static_text(label_txt2, "Set the type of data verification done for backup and restore.\n" "Can be canceled without losing the backup/restore.\n"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 4); line_sep = lv_line_create(sw_h3, line_sep); lv_obj_align(line_sep, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 4); // Create clock edit button. lv_obj_t *btn5 = lv_btn_create(sw_h3, NULL); lv_obj_t *label_btn5 = lv_label_create(btn5, NULL); lv_btn_set_fit(btn5, true, true); lv_label_set_static_text(label_btn5, SYMBOL_CLOCK" Clock (Offset)"); lv_obj_align(btn5, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_btn_set_action(btn5, LV_BTN_ACTION_CLICK, _create_mbox_clock_edit); label_txt2 = lv_label_create(sw_h3, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Change clock offset manually.\n" "#C7EA46 The entered Date and Time will be converted to an offset#\n" "#C7EA46 automatically. This will be also used for FatFS operations.#"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn5, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 4); // Enable save options button in status bar and set action. lv_btn_set_action(status_bar.mid, LV_BTN_ACTION_CLICK, _save_nyx_options_action); lv_obj_set_opa_scale(status_bar.mid, LV_OPA_COVER); lv_obj_set_click(status_bar.mid, true); lv_obj_set_top(l_cont, true); // Set the ddlist container at top. lv_obj_set_parent(ddlist, l_cont); // Reorder ddlist. lv_obj_set_top(ddlist, true); lv_obj_set_top(ddlist2, true); return LV_RES_OK; } void create_tab_options(lv_theme_t *th, lv_obj_t *parent) { lv_page_set_scrl_layout(parent, LV_LAYOUT_PRETTY); static lv_style_t h_style; lv_style_copy(&h_style, &lv_style_transp); h_style.body.padding.inner = 0; h_style.body.padding.hor = LV_DPI - (LV_DPI / 4); h_style.body.padding.ver = LV_DPI / 6; // Create containers to keep content inside. lv_obj_t * sw_h2 = lv_cont_create(parent, NULL); lv_cont_set_style(sw_h2, &h_style); lv_cont_set_fit(sw_h2, false, true); lv_obj_set_width(sw_h2, (LV_HOR_RES / 9) * 4); lv_obj_set_click(sw_h2, false); lv_cont_set_layout(sw_h2, LV_LAYOUT_OFF); lv_obj_t * sw_h3 = lv_cont_create(parent, NULL); lv_cont_set_style(sw_h3, &h_style); lv_cont_set_fit(sw_h3, false, true); lv_obj_set_width(sw_h3, (LV_HOR_RES / 9) * 4); lv_obj_set_click(sw_h3, false); lv_cont_set_layout(sw_h3, LV_LAYOUT_OFF); lv_obj_t * l_cont = lv_cont_create(sw_h2, NULL); lv_cont_set_style(l_cont, &lv_style_transp_tight); lv_cont_set_fit(l_cont, true, true); lv_obj_set_click(l_cont, false); lv_cont_set_layout(l_cont, LV_LAYOUT_OFF); lv_obj_set_opa_scale(l_cont, LV_OPA_40); lv_obj_t *label_sep = lv_label_create(sw_h2, NULL); lv_label_set_static_text(label_sep, ""); // Create Auto Boot button. lv_obj_t *btn = lv_btn_create(sw_h2, NULL); if (hekate_bg) { lv_btn_set_style(btn, LV_BTN_STYLE_REL, &btn_transp_rel); lv_btn_set_style(btn, LV_BTN_STYLE_PR, &btn_transp_pr); lv_btn_set_style(btn, LV_BTN_STYLE_TGL_REL, &btn_transp_tgl_rel); lv_btn_set_style(btn, LV_BTN_STYLE_TGL_PR, &btn_transp_tgl_pr); } lv_btn_set_layout(btn, LV_LAYOUT_OFF); lv_obj_t *label_btn = lv_label_create(btn, NULL); lv_label_set_recolor(label_btn, true); lv_btn_set_fit(btn, true, true); lv_btn_set_toggle(btn, true); lv_label_set_static_text(label_btn, SYMBOL_GPS" Auto Boot #00FFC9 ON #"); lv_btn_set_action(btn, LV_BTN_ACTION_CLICK, _autoboot_hide_delay_action); lv_obj_align(btn, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI / 18 + 6); lv_btn_set_fit(btn, false, false); autoboot_btn = btn; lv_obj_t *label_txt2 = lv_label_create(sw_h2, NULL); lv_label_set_static_text(label_txt2, "Choose which boot entry or payload to automatically boot\nwhen injecting."); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3 - 4); lv_obj_t *line_sep = lv_line_create(sw_h2, NULL); static const lv_point_t line_pp[] = { {0, 0}, { LV_HOR_RES - (LV_DPI - (LV_DPI / 4)) * 2, 0} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, th->line.decor); lv_obj_align(line_sep, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 4); // Create Boot time delay list. lv_obj_t *label_txt = lv_label_create(l_cont, NULL); lv_label_set_static_text(label_txt, SYMBOL_CLOCK" Boot Time Delay "); lv_obj_set_style(label_txt, th->label.prim); lv_obj_align(label_txt, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_obj_t *ddlist = lv_ddlist_create(l_cont, NULL); lv_obj_set_top(ddlist, true); lv_ddlist_set_draw_arrow(ddlist, true); lv_ddlist_set_options(ddlist, "No bootlogo \n" "1 second\n" "2 seconds\n" "3 seconds\n" "4 seconds\n" "5 seconds\n" "6 seconds"); lv_ddlist_set_selected(ddlist, 3); lv_obj_align(ddlist, label_txt, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 4, 0); lv_ddlist_set_action(ddlist, _autoboot_delay_action); lv_ddlist_set_selected(ddlist, h_cfg.bootwait); if (hekate_bg) { lv_ddlist_set_style(ddlist, LV_DDLIST_STYLE_BG, &ddlist_transp_bg); lv_ddlist_set_style(ddlist, LV_DDLIST_STYLE_BGO, &ddlist_transp_bg); lv_ddlist_set_style(ddlist, LV_DDLIST_STYLE_PR, &ddlist_transp_sel); lv_ddlist_set_style(ddlist, LV_DDLIST_STYLE_SEL, &ddlist_transp_sel); } label_txt2 = lv_label_create(l_cont, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Set how long to show bootlogo when autoboot is enabled.\n" "#C7EA46 You can press# #FF8000 VOL-# #C7EA46 during that time to enter hekate's menu.#\n"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 4); line_sep = lv_line_create(sw_h2, line_sep); lv_obj_align(line_sep, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 4); // Create Auto NoGC button. lv_obj_t *btn2 = lv_btn_create(sw_h2, NULL); nyx_create_onoff_button(th, sw_h2, btn2, SYMBOL_CHIP" Auto NoGC", auto_nogc_toggle, true); lv_obj_align(btn2, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 10); label_txt2 = lv_label_create(sw_h2, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "It checks fuses and applies the patch automatically\n" "if higher firmware. It is now a global config and set\n" "at auto by default. (ON: Auto)\n\n\n"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn2, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 12); label_sep = lv_label_create(sw_h3, NULL); lv_label_set_static_text(label_sep, ""); // Create Auto HOS Power Off button. lv_obj_t *btn3 = lv_btn_create(sw_h3, NULL); nyx_create_onoff_button(th, sw_h3, btn3, SYMBOL_POWER" Auto HOS Power Off", auto_hos_poweroff_toggle, true); lv_obj_align(btn3, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, 0, 0); label_txt2 = lv_label_create(sw_h3, NULL); lv_label_set_static_text(label_txt2, "When Shutdown is used from HOS, the device wakes up after\n" "15s. Enable this to automatically power off on the next\npayload injection."); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn3, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 12); line_sep = lv_line_create(sw_h3, line_sep); lv_obj_align(line_sep, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 4); // Create Backlight slider. label_txt = lv_label_create(sw_h3, NULL); lv_label_set_static_text(label_txt, SYMBOL_BRIGHTNESS" Backlight"); lv_obj_set_style(label_txt, th->label.prim); lv_obj_align(label_txt, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_obj_t * slider = lv_slider_create(sw_h3, NULL); lv_obj_set_width(slider, LV_DPI * 80 / 34); //lv_obj_set_height(slider, LV_DPI * 4 / 10); lv_bar_set_range(slider, 30, 220); lv_bar_set_value(slider, h_cfg.backlight); lv_slider_set_action(slider, _slider_brightness_action); lv_obj_align(slider, label_txt, LV_ALIGN_OUT_RIGHT_MID, LV_DPI * 20 / 15, 0); label_txt2 = lv_label_create(sw_h3, NULL); lv_label_set_static_text(label_txt2, "Set backlight brightness.\n\n"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 4); line_sep = lv_line_create(sw_h3, line_sep); lv_obj_align(line_sep, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 4); // Create Update r2p button. lv_obj_t *btn4 = lv_btn_create(sw_h3, NULL); nyx_create_onoff_button(th, sw_h3, btn4, SYMBOL_REFRESH" Update Reboot 2 Payload", _update_r2p_action, true); lv_obj_align(btn4, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 10); label_txt2 = lv_label_create(sw_h3, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "If #FF8000 FSS0# is used in the selected boot entry, the reboot 2 payload\n" "binary will be checked and forced to be updated to hekate.\n\n\n\n"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn4, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 12); // Set default loaded states. if (h_cfg.autohosoff) lv_btn_set_state(btn3, LV_BTN_STATE_TGL_REL); if (h_cfg.autonogc) lv_btn_set_state(btn2, LV_BTN_STATE_TGL_REL); if (h_cfg.updater2p) lv_btn_set_state(btn4, LV_BTN_STATE_TGL_REL); nyx_generic_onoff_toggle(btn2); nyx_generic_onoff_toggle(btn3); nyx_generic_onoff_toggle(btn4); _autoboot_hide_delay_action(btn); lv_obj_set_top(l_cont, true); // Set the ddlist container at top. lv_obj_set_parent(ddlist, l_cont); // Reorder ddlist. lv_obj_set_top(ddlist, true); } ================================================ FILE: nyx/nyx_gui/frontend/gui_options.h ================================================ /* * Copyright (c) 2018-2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GUI_OPTIONS_H_ #define _GUI_OPTIONS_H_ #include void nyx_options_clear_ini_changes_made(); bool nyx_options_get_ini_changes_made(); void first_time_clock_edit(void *param); lv_res_t create_win_nyx_options(lv_obj_t *parrent_btn); void create_tab_options(lv_theme_t *th, lv_obj_t *parent); #endif ================================================ FILE: nyx/nyx_gui/frontend/gui_tools.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "gui.h" #include "gui_tools.h" #include "gui_tools_partition_manager.h" #include "gui_emmc_tools.h" #include "fe_emummc_tools.h" #include "../config.h" #include "../hos/pkg1.h" #include "../hos/pkg2.h" #include "../hos/hos.h" #include #include lv_obj_t *ums_mbox; extern char *emmcsn_path_impl(char *path, char *sub_dir, char *filename, sdmmc_storage_t *storage); static lv_obj_t *_create_container(lv_obj_t *parent) { static lv_style_t h_style; lv_style_copy(&h_style, &lv_style_transp); h_style.body.padding.inner = 0; h_style.body.padding.hor = LV_DPI - (LV_DPI / 4); h_style.body.padding.ver = LV_DPI / 6; lv_obj_t *h1 = lv_cont_create(parent, NULL); lv_cont_set_style(h1, &h_style); lv_cont_set_fit(h1, false, true); lv_obj_set_width(h1, (LV_HOR_RES / 9) * 4); lv_obj_set_click(h1, false); lv_cont_set_layout(h1, LV_LAYOUT_OFF); return h1; } bool get_set_autorcm_status(bool toggle) { u32 sector; u8 corr_mod0, mod1; bool enabled = false; if (h_cfg.t210b01) return false; emmc_initialize(false); u8 *tempbuf = (u8 *)malloc(0x200); emmc_set_partition(EMMC_BOOT0); sdmmc_storage_read(&emmc_storage, 0x200 / EMMC_BLOCKSIZE, 1, tempbuf); // Get the correct RSA modulus byte masks. nx_emmc_get_autorcm_masks(&corr_mod0, &mod1); // Check if 2nd byte of modulus is correct. if (tempbuf[0x11] != mod1) goto out; if (tempbuf[0x10] != corr_mod0) enabled = true; // Toggle autorcm status if requested. if (toggle) { // Iterate BCTs. for (u32 i = 0; i < 4; i++) { sector = (0x200 + (0x4000 * i)) / EMMC_BLOCKSIZE; // 0x4000 bct + 0x200 offset. sdmmc_storage_read(&emmc_storage, sector, 1, tempbuf); if (!enabled) tempbuf[0x10] = 0; else tempbuf[0x10] = corr_mod0; sdmmc_storage_write(&emmc_storage, sector, 1, tempbuf); } enabled = !enabled; } // Check if RCM is patched and protect from a possible brick. if (enabled && h_cfg.rcm_patched && hw_get_chip_id() != GP_HIDREV_MAJOR_T210B01) { // Iterate BCTs. for (u32 i = 0; i < 4; i++) { sector = (0x200 + (0x4000 * i)) / EMMC_BLOCKSIZE; // 0x4000 bct + 0x200 offset. sdmmc_storage_read(&emmc_storage, sector, 1, tempbuf); // Check if 2nd byte of modulus is correct. if (tempbuf[0x11] != mod1) continue; // If AutoRCM is enabled, disable it. if (tempbuf[0x10] != corr_mod0) { tempbuf[0x10] = corr_mod0; sdmmc_storage_write(&emmc_storage, sector, 1, tempbuf); } } enabled = false; } out: free(tempbuf); emmc_end(); h_cfg.autorcm_enabled = enabled; return enabled; } static lv_res_t _create_mbox_autorcm_status(lv_obj_t *btn) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char * mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); bool enabled = get_set_autorcm_status(true); if (enabled) { lv_mbox_set_text(mbox, "AutoRCM is now #C7EA46 ENABLED!#\n\n" "You can now automatically enter RCM by only pressing #FF8000 POWER#.\n" "Use the AutoRCM button here again if you want to remove it later on."); } else { lv_mbox_set_text(mbox, "AutoRCM is now #FF8000 DISABLED!#\n\n" "The boot process is now normal and you need the #FF8000 VOL+# + #FF8000 HOME# (jig) combo to enter RCM.\n"); } lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); if (enabled) lv_btn_set_state(btn, LV_BTN_STATE_TGL_REL); else lv_btn_set_state(btn, LV_BTN_STATE_REL); nyx_generic_onoff_toggle(btn); return LV_RES_OK; } static lv_res_t _create_mbox_hid(usb_ctxt_t *usbs) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map_dis[] = { "\251", "\262Close", "\251", "" }; static const char *mbox_btn_map[] = { "\251", "\222Close", "\251", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); char *txt_buf = malloc(SZ_4K); s_printf(txt_buf, "#FF8000 HID Emulation#\n\n#C7EA46 Device:# "); if (usbs->type == USB_HID_GAMEPAD) strcat(txt_buf, "Gamepad"); else strcat(txt_buf, "Touchpad"); lv_mbox_set_text(mbox, txt_buf); free(txt_buf); lv_obj_t *lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); lv_label_set_text(lbl_status, " "); usbs->label = (void *)lbl_status; lv_obj_t *lbl_tip = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_tip, true); lv_label_set_static_text(lbl_tip, "Note: To end it, press #C7EA46 L3# + #C7EA46 HOME# or remove the cable."); lv_obj_set_style(lbl_tip, &hint_small_style); lv_mbox_add_btns(mbox, mbox_btn_map_dis, nyx_mbox_action); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); usb_device_gadget_hid(usbs); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); return LV_RES_OK; } static lv_res_t _create_mbox_ums(usb_ctxt_t *usbs) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map_dis[] = { "\251", "\262Close", "\251", "" }; static const char *mbox_btn_map[] = { "\251", "\222Close", "\251", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); char *txt_buf = malloc(SZ_4K); s_printf(txt_buf, "#FF8000 USB Mass Storage#\n\n#C7EA46 Device:# "); if (usbs->type == MMC_SD) { switch (usbs->partition) { case 0: strcat(txt_buf, "SD Card"); break; case EMMC_GPP + 1: strcat(txt_buf, "emuMMC GPP"); break; case EMMC_BOOT0 + 1: strcat(txt_buf, "emuMMC BOOT0"); break; case EMMC_BOOT1 + 1: strcat(txt_buf, "emuMMC BOOT1"); break; } } else { switch (usbs->partition) { case EMMC_GPP + 1: strcat(txt_buf, "eMMC GPP"); break; case EMMC_BOOT0 + 1: strcat(txt_buf, "eMMC BOOT0"); break; case EMMC_BOOT1 + 1: strcat(txt_buf, "eMMC BOOT1"); break; } } lv_mbox_set_text(mbox, txt_buf); free(txt_buf); lv_obj_t *lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); lv_label_set_text(lbl_status, " "); usbs->label = (void *)lbl_status; lv_obj_t *lbl_tip = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_tip, true); if (!usbs->ro) { if (usbs->type == MMC_SD) { lv_label_set_static_text(lbl_tip, "Note: To end it, #C7EA46 safely eject# from inside the OS.\n" " #FFDD00 DO NOT remove the cable!#"); } else { lv_label_set_static_text(lbl_tip, "Note: To end it, #C7EA46 safely eject# from inside the OS.\n" " #FFDD00 If it's not mounted, you might need to remove the cable!#"); } } else { lv_label_set_static_text(lbl_tip, "Note: To end it, #C7EA46 safely eject# from inside the OS\n" " or by removing the cable!#"); } lv_obj_set_style(lbl_tip, &hint_small_style); lv_mbox_add_btns(mbox, mbox_btn_map_dis, nyx_mbox_action); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); // Dim backlight. display_backlight_brightness(20, 1000); usb_device_gadget_ums(usbs); // Restore backlight. display_backlight_brightness(h_cfg.backlight - 20, 1000); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); ums_mbox = dark_bg; return LV_RES_OK; } static lv_res_t _create_mbox_ums_error(int error) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); switch (error) { case 1: lv_mbox_set_text(mbox, "#FF8000 USB Mass Storage#\n\n#FFFF00 Error mounting SD Card!#"); break; case 2: lv_mbox_set_text(mbox, "#FF8000 USB Mass Storage#\n\n#FFFF00 No emuMMC found active!#"); break; case 3: lv_mbox_set_text(mbox, "#FF8000 USB Mass Storage#\n\n#FFFF00 Active emuMMC is not partition based!#"); break; } lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 5); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } static void usb_gadget_set_text(void *lbl, const char *text) { lv_label_set_text((lv_obj_t *)lbl, text); manual_system_maintenance(true); } static lv_res_t _action_hid_jc(lv_obj_t *btn) { // Reduce BPMP, RAM and backlight and power off SDMMC1 to conserve power. sd_end(); minerva_change_freq(FREQ_800); bpmp_clk_rate_relaxed(true); display_backlight_brightness(10, 1000); usb_ctxt_t usbs; usbs.type = USB_HID_GAMEPAD; usbs.system_maintenance = &manual_system_maintenance; usbs.set_text = &usb_gadget_set_text; _create_mbox_hid(&usbs); // Restore BPMP, RAM and backlight. minerva_change_freq(FREQ_1600); bpmp_clk_rate_relaxed(false); display_backlight_brightness(h_cfg.backlight - 20, 1000); return LV_RES_OK; } /* static lv_res_t _action_hid_touch(lv_obj_t *btn) { // Reduce BPMP, RAM and backlight and power off SDMMC1 to conserve power. sd_end(); minerva_change_freq(FREQ_800); bpmp_clk_rate_relaxed(true); display_backlight_brightness(10, 1000); usb_ctxt_t usbs; usbs.type = USB_HID_TOUCHPAD; usbs.system_maintenance = &manual_system_maintenance; usbs.set_text = &usb_gadget_set_text; _create_mbox_hid(&usbs); // Restore BPMP, RAM and backlight. minerva_change_freq(FREQ_1600); bpmp_clk_rate_relaxed(false); display_backlight_brightness(h_cfg.backlight - 20, 1000); return LV_RES_OK; } */ static bool usb_msc_emmc_read_only; lv_res_t action_ums_sd(lv_obj_t *btn) { usb_ctxt_t usbs; usbs.type = MMC_SD; usbs.partition = 0; usbs.offset = 0; usbs.sectors = 0; usbs.ro = 0; usbs.system_maintenance = &manual_system_maintenance; usbs.set_text = &usb_gadget_set_text; _create_mbox_ums(&usbs); return LV_RES_OK; } static lv_res_t _action_ums_emmc_boot0(lv_obj_t *btn) { if (!nyx_emmc_check_battery_enough()) return LV_RES_OK; usb_ctxt_t usbs; usbs.type = MMC_EMMC; usbs.partition = EMMC_BOOT0 + 1; usbs.offset = 0; usbs.sectors = 0; usbs.ro = usb_msc_emmc_read_only; usbs.system_maintenance = &manual_system_maintenance; usbs.set_text = &usb_gadget_set_text; _create_mbox_ums(&usbs); return LV_RES_OK; } static lv_res_t _action_ums_emmc_boot1(lv_obj_t *btn) { if (!nyx_emmc_check_battery_enough()) return LV_RES_OK; usb_ctxt_t usbs; usbs.type = MMC_EMMC; usbs.partition = EMMC_BOOT1 + 1; usbs.offset = 0; usbs.sectors = 0; usbs.ro = usb_msc_emmc_read_only; usbs.system_maintenance = &manual_system_maintenance; usbs.set_text = &usb_gadget_set_text; _create_mbox_ums(&usbs); return LV_RES_OK; } static lv_res_t _action_ums_emmc_gpp(lv_obj_t *btn) { if (!nyx_emmc_check_battery_enough()) return LV_RES_OK; usb_ctxt_t usbs; usbs.type = MMC_EMMC; usbs.partition = EMMC_GPP + 1; usbs.offset = 0; usbs.sectors = 0; usbs.ro = usb_msc_emmc_read_only; usbs.system_maintenance = &manual_system_maintenance; usbs.set_text = &usb_gadget_set_text; _create_mbox_ums(&usbs); return LV_RES_OK; } static lv_res_t _action_ums_emuemmc_boot0(lv_obj_t *btn) { if (!nyx_emmc_check_battery_enough()) return LV_RES_OK; usb_ctxt_t usbs; int error = sd_mount(); if (!error) { emummc_cfg_t emu_info; load_emummc_cfg(&emu_info); error = 2; if (emu_info.enabled) { error = 3; if (emu_info.sector) { error = 0; usbs.offset = emu_info.sector; } } if (emu_info.path) free(emu_info.path); if (emu_info.nintendo_path) free(emu_info.nintendo_path); } sd_unmount(); if (error) _create_mbox_ums_error(error); else { usbs.type = MMC_SD; usbs.partition = EMMC_BOOT0 + 1; usbs.sectors = 0x2000; // Forced 4MB. usbs.ro = usb_msc_emmc_read_only; usbs.system_maintenance = &manual_system_maintenance; usbs.set_text = &usb_gadget_set_text; _create_mbox_ums(&usbs); } return LV_RES_OK; } static lv_res_t _action_ums_emuemmc_boot1(lv_obj_t *btn) { if (!nyx_emmc_check_battery_enough()) return LV_RES_OK; usb_ctxt_t usbs; int error = sd_mount(); if (!error) { emummc_cfg_t emu_info; load_emummc_cfg(&emu_info); error = 2; if (emu_info.enabled) { error = 3; if (emu_info.sector) { error = 0; usbs.offset = emu_info.sector + 0x2000; } } if (emu_info.path) free(emu_info.path); if (emu_info.nintendo_path) free(emu_info.nintendo_path); } sd_unmount(); if (error) _create_mbox_ums_error(error); else { usbs.type = MMC_SD; usbs.partition = EMMC_BOOT1 + 1; usbs.sectors = 0x2000; // Forced 4MB. usbs.ro = usb_msc_emmc_read_only; usbs.system_maintenance = &manual_system_maintenance; usbs.set_text = &usb_gadget_set_text; _create_mbox_ums(&usbs); } return LV_RES_OK; } static lv_res_t _action_ums_emuemmc_gpp(lv_obj_t *btn) { if (!nyx_emmc_check_battery_enough()) return LV_RES_OK; usb_ctxt_t usbs; int error = sd_mount(); if (!error) { emummc_cfg_t emu_info; load_emummc_cfg(&emu_info); error = 2; if (emu_info.enabled) { error = 3; if (emu_info.sector) { error = 1; usbs.offset = emu_info.sector + 0x4000; u8 *gpt = malloc(SD_BLOCKSIZE); if (!sdmmc_storage_read(&sd_storage, usbs.offset + 1, 1, gpt)) { if (!memcmp(gpt, "EFI PART", 8)) { error = 0; usbs.sectors = *(u32 *)(gpt + 0x20) + 1; // Backup LBA + 1. } } } } if (emu_info.path) free(emu_info.path); if (emu_info.nintendo_path) free(emu_info.nintendo_path); } sd_unmount(); if (error) _create_mbox_ums_error(error); else { usbs.type = MMC_SD; usbs.partition = EMMC_GPP + 1; usbs.ro = usb_msc_emmc_read_only; usbs.system_maintenance = &manual_system_maintenance; usbs.set_text = &usb_gadget_set_text; _create_mbox_ums(&usbs); } return LV_RES_OK; } void nyx_run_ums(void *param) { u32 *cfg = (u32 *)param; u8 type = (*cfg) >> 24; *cfg = *cfg & (~NYX_CFG_EXTRA); // Disable read only flag. usb_msc_emmc_read_only = false; switch (type) { case NYX_UMS_SD_CARD: action_ums_sd(NULL); break; case NYX_UMS_EMMC_BOOT0: _action_ums_emmc_boot0(NULL); break; case NYX_UMS_EMMC_BOOT1: _action_ums_emmc_boot1(NULL); break; case NYX_UMS_EMMC_GPP: _action_ums_emmc_gpp(NULL); break; case NYX_UMS_EMUMMC_BOOT0: _action_ums_emuemmc_boot0(NULL); break; case NYX_UMS_EMUMMC_BOOT1: _action_ums_emuemmc_boot1(NULL); break; case NYX_UMS_EMUMMC_GPP: _action_ums_emuemmc_gpp(NULL); break; } } static lv_res_t _emmc_read_only_toggle(lv_obj_t *btn) { nyx_generic_onoff_toggle(btn); usb_msc_emmc_read_only = lv_btn_get_state(btn) & LV_BTN_STATE_TGL_REL ? 1 : 0; return LV_RES_OK; } static lv_res_t _create_window_usb_tools(lv_obj_t *parent) { lv_obj_t *win = nyx_create_standard_window(SYMBOL_USB" USB Tools", NULL); static lv_style_t h_style; lv_style_copy(&h_style, &lv_style_transp); h_style.body.padding.inner = 0; h_style.body.padding.hor = LV_DPI - (LV_DPI / 4); h_style.body.padding.ver = LV_DPI / 9; // Create USB Mass Storage container. lv_obj_t *h1 = lv_cont_create(win, NULL); lv_cont_set_style(h1, &h_style); lv_cont_set_fit(h1, false, true); lv_obj_set_width(h1, (LV_HOR_RES / 9) * 5); lv_obj_set_click(h1, false); lv_cont_set_layout(h1, LV_LAYOUT_OFF); lv_obj_t *label_sep = lv_label_create(h1, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt = lv_label_create(h1, NULL); lv_label_set_static_text(label_txt, "USB Mass Storage"); lv_obj_set_style(label_txt, lv_theme_get_current()->label.prim); lv_obj_align(label_txt, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI * 3 / 10); lv_obj_t *line_sep = lv_line_create(h1, NULL); static const lv_point_t line_pp[] = { {0, 0}, { LV_HOR_RES - (LV_DPI - (LV_DPI / 4)) * 2, 0} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, lv_theme_get_current()->line.decor); lv_obj_align(line_sep, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create SD UMS button. lv_obj_t *btn1 = lv_btn_create(h1, NULL); lv_obj_t *label_btn = lv_label_create(btn1, NULL); lv_btn_set_fit(btn1, true, true); lv_label_set_static_text(label_btn, SYMBOL_SD" SD Card"); lv_obj_align(btn1, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_btn_set_action(btn1, LV_BTN_ACTION_CLICK, action_ums_sd); lv_obj_t *label_txt2 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Allows you to mount the SD Card to a PC/Phone.\n" "#C7EA46 All operating systems are supported. Access is# #FF8000 Read/Write.#"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn1, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create RAW GPP button. lv_obj_t *btn_gpp = lv_btn_create(h1, btn1); label_btn = lv_label_create(btn_gpp, NULL); lv_label_set_static_text(label_btn, SYMBOL_CHIP" eMMC RAW GPP"); lv_obj_align(btn_gpp, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn_gpp, LV_BTN_ACTION_CLICK, _action_ums_emmc_gpp); // Create BOOT0 button. lv_obj_t *btn_boot0 = lv_btn_create(h1, btn1); label_btn = lv_label_create(btn_boot0, NULL); lv_label_set_static_text(label_btn, "BOOT0"); lv_obj_align(btn_boot0, btn_gpp, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 10, 0); lv_btn_set_action(btn_boot0, LV_BTN_ACTION_CLICK, _action_ums_emmc_boot0); // Create BOOT1 button. lv_obj_t *btn_boot1 = lv_btn_create(h1, btn1); label_btn = lv_label_create(btn_boot1, NULL); lv_label_set_static_text(label_btn, "BOOT1"); lv_obj_align(btn_boot1, btn_boot0, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 10, 0); lv_btn_set_action(btn_boot1, LV_BTN_ACTION_CLICK, _action_ums_emmc_boot1); // Create emuMMC RAW GPP button. lv_obj_t *btn_emu_gpp = lv_btn_create(h1, btn1); label_btn = lv_label_create(btn_emu_gpp, NULL); lv_label_set_static_text(label_btn, SYMBOL_MODULES_ALT" emu RAW GPP"); lv_obj_align(btn_emu_gpp, btn_gpp, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn_emu_gpp, LV_BTN_ACTION_CLICK, _action_ums_emuemmc_gpp); // Create emuMMC BOOT0 button. lv_obj_t *btn_emu_boot0 = lv_btn_create(h1, btn1); label_btn = lv_label_create(btn_emu_boot0, NULL); lv_label_set_static_text(label_btn, "BOOT0"); lv_obj_align(btn_emu_boot0, btn_boot0, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn_emu_boot0, LV_BTN_ACTION_CLICK, _action_ums_emuemmc_boot0); // Create emuMMC BOOT1 button. lv_obj_t *btn_emu_boot1 = lv_btn_create(h1, btn1); label_btn = lv_label_create(btn_emu_boot1, NULL); lv_label_set_static_text(label_btn, "BOOT1"); lv_obj_align(btn_emu_boot1, btn_boot1, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn_emu_boot1, LV_BTN_ACTION_CLICK, _action_ums_emuemmc_boot1); label_txt2 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Allows you to mount the eMMC/emuMMC.\n" "#C7EA46 Default access is# #FF8000 read-only.#"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn_emu_gpp, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); lv_obj_t *h_write = lv_cont_create(win, NULL); lv_cont_set_style(h_write, &h_style); lv_cont_set_fit(h_write, false, true); lv_obj_set_width(h_write, (LV_HOR_RES / 9) * 2); lv_obj_set_click(h_write, false); lv_cont_set_layout(h_write, LV_LAYOUT_OFF); lv_obj_align(h_write, label_txt2, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 10, 0); // Create read/write access button. lv_obj_t *btn_write_access = lv_btn_create(h_write, NULL); nyx_create_onoff_button(lv_theme_get_current(), h_write, btn_write_access, SYMBOL_EDIT" Read-Only", _emmc_read_only_toggle, false); if (!n_cfg.ums_emmc_rw) lv_btn_set_state(btn_write_access, LV_BTN_STATE_TGL_REL); _emmc_read_only_toggle(btn_write_access); // Create USB Input Devices container. lv_obj_t *h2 = lv_cont_create(win, NULL); lv_cont_set_style(h2, &h_style); lv_cont_set_fit(h2, false, true); lv_obj_set_width(h2, (LV_HOR_RES / 9) * 3); lv_obj_set_click(h2, false); lv_cont_set_layout(h2, LV_LAYOUT_OFF); lv_obj_align(h2, h1, LV_ALIGN_OUT_RIGHT_TOP, LV_DPI * 17 / 29, 0); label_sep = lv_label_create(h2, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt3 = lv_label_create(h2, NULL); lv_label_set_static_text(label_txt3, "USB Input Devices"); lv_obj_set_style(label_txt3, lv_theme_get_current()->label.prim); lv_obj_align(label_txt3, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI * 4 / 21); line_sep = lv_line_create(h2, line_sep); lv_obj_align(line_sep, label_txt3, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create Gamepad button. lv_obj_t *btn3 = lv_btn_create(h2, NULL); label_btn = lv_label_create(btn3, NULL); lv_btn_set_fit(btn3, true, true); lv_label_set_static_text(label_btn, SYMBOL_CIRCUIT" Gamepad"); lv_obj_align(btn3, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_btn_set_action(btn3, LV_BTN_ACTION_CLICK, _action_hid_jc); lv_obj_t *label_txt4 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt4, true); lv_label_set_static_text(label_txt4, "Plug-in the Joy-Con and convert the device\n" "into a gamepad for PC or Phone.\n" "#C7EA46 Needs both Joy-Con in order to function.#"); lv_obj_set_style(label_txt4, &hint_small_style); lv_obj_align(label_txt4, btn3, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); /* // Create Touchpad button. lv_obj_t *btn4 = lv_btn_create(h2, btn1); label_btn = lv_label_create(btn4, NULL); lv_label_set_static_text(label_btn, SYMBOL_KEYBOARD" Touchpad"); lv_obj_align(btn4, label_txt4, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn4, LV_BTN_ACTION_CLICK, _action_hid_touch); lv_btn_set_state(btn4, LV_BTN_STATE_INA); label_txt4 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt4, true); lv_label_set_static_text(label_txt4, "Control the PC via the device\'s touchscreen.\n" "#C7EA46 Two fingers tap acts like a# #FF8000 Right click##C7EA46 .#\n"); lv_obj_set_style(label_txt4, &hint_small_style); lv_obj_align(label_txt4, btn4, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); */ return LV_RES_OK; } static int _fix_attributes(lv_obj_t *lb_val, char *path, u32 *total) { FRESULT res; DIR dir; u32 dirLength = 0; static FILINFO fno; // Open directory. res = f_opendir(&dir, path); if (res != FR_OK) return res; dirLength = strlen(path); // Hard limit path to 1024 characters. Do not result to error. if (dirLength > 1024) { total[2]++; goto out; } for (;;) { // Clear file or folder path. path[dirLength] = 0; // Read a directory item. res = f_readdir(&dir, &fno); // Break on error or end of dir. if (res != FR_OK || fno.fname[0] == 0) break; // Set new directory or file. memcpy(&path[dirLength], "/", 1); strcpy(&path[dirLength + 1], fno.fname); // Is it a directory? if (fno.fattrib & AM_DIR) { // Check if it's a HOS single file folder. strcat(path, "/00"); bool is_hos_special = !f_stat(path, NULL); path[strlen(path) - 3] = 0; // Set archive bit to HOS single file folders. if (is_hos_special) { if (!(fno.fattrib & AM_ARC)) { if (!f_chmod(path, AM_ARC, AM_ARC)) total[0]++; else total[3]++; } } else if (fno.fattrib & AM_ARC) // If not, clear the archive bit. { if (!f_chmod(path, 0, AM_ARC)) total[1]++; else total[3]++; } lv_label_set_text(lb_val, path); manual_system_maintenance(true); // Enter the directory. res = _fix_attributes(lb_val, path, total); if (res != FR_OK) break; } } out: f_closedir(&dir); return res; } static lv_res_t _create_window_unset_abit_tool(lv_obj_t *btn) { lv_obj_t *win = nyx_create_standard_window(SYMBOL_COPY" Fix Archive Bit (All folders)", NULL); // Disable buttons. nyx_window_toggle_buttons(win, true); lv_obj_t *desc = lv_cont_create(win, NULL); lv_obj_set_size(desc, LV_HOR_RES * 10 / 11, LV_VER_RES - (LV_DPI * 11 / 7) * 4); lv_obj_t * lb_desc = lv_label_create(desc, NULL); lv_label_set_long_mode(lb_desc, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc, true); if (sd_mount()) { lv_label_set_text(lb_desc, "#FFDD00 Failed to init SD!#"); lv_obj_set_width(lb_desc, lv_obj_get_width(desc)); } else { lv_label_set_text(lb_desc, "#00DDFF Traversing all SD card files!#\nThis may take some time..."); lv_obj_set_width(lb_desc, lv_obj_get_width(desc)); lv_obj_t *val = lv_cont_create(win, NULL); lv_obj_set_size(val, LV_HOR_RES * 10 / 11, LV_VER_RES - (LV_DPI * 11 / 7) * 4); lv_obj_t * lb_val = lv_label_create(val, lb_desc); char *path = malloc(0x1000); path[0] = 0; lv_label_set_text(lb_val, ""); lv_obj_set_width(lb_val, lv_obj_get_width(val)); lv_obj_align(val, desc, LV_ALIGN_OUT_BOTTOM_LEFT, 0, 0); u32 total[4] = { 0 }; _fix_attributes(lb_val, path, total); sd_unmount(); lv_obj_t *desc2 = lv_cont_create(win, NULL); lv_obj_set_size(desc2, LV_HOR_RES * 10 / 11, LV_VER_RES - (LV_DPI * 11 / 7) * 4); lv_obj_t * lb_desc2 = lv_label_create(desc2, lb_desc); char *txt_buf = (char *)malloc(0x500); if (!total[0] && !total[1]) s_printf(txt_buf, "#96FF00 Done! No change was needed.#"); else s_printf(txt_buf, "#96FF00 Done! Archive bits fixed:# #FF8000 %d unset and %d set!#", total[1], total[0]); // Check errors. if (total[2] || total[3]) { s_printf(txt_buf, "\n\n#FFDD00 Errors: folder accesses: %d, arc bit fixes: %d!#\n" "#FFDD00 Filesystem should be checked for errors.#", total[2], total[3]); } lv_label_set_text(lb_desc2, txt_buf); lv_obj_set_width(lb_desc2, lv_obj_get_width(desc2)); lv_obj_align(desc2, val, LV_ALIGN_OUT_BOTTOM_RIGHT, 0, 0); free(path); } // Enable buttons. nyx_window_toggle_buttons(win, false); return LV_RES_OK; } static lv_res_t _create_mbox_fix_touchscreen(lv_obj_t *btn) { int res = 1; lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); char *txt_buf = malloc(SZ_16K); strcpy(txt_buf, "#FF8000 Don't touch the screen!#\n\nThe tuning process will start in "); u32 text_idx = strlen(txt_buf); lv_mbox_set_text(mbox, txt_buf); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); lv_mbox_set_text(mbox, "#FFDD00 Warning: Only run this if you really have issues!#\n\n" "Press #FF8000 POWER# to Continue.\nPress #FF8000 VOL# to abort."); manual_system_maintenance(true); if (!(btn_wait() & BTN_POWER)) goto out; manual_system_maintenance(true); lv_mbox_set_text(mbox, txt_buf); u32 seconds = 5; while (seconds) { s_printf(txt_buf + text_idx, "%d seconds...", seconds); lv_mbox_set_text(mbox, txt_buf); manual_system_maintenance(true); msleep(1000); seconds--; } u8 err[2]; if (touch_panel_ito_test(err)) goto ito_failed; if (!err[0] && !err[1]) { res = touch_execute_autotune(); if (!res) goto out; } else { touch_sense_enable(); s_printf(txt_buf, "#FFFF00 ITO Test: "); switch (err[0]) { case ITO_FORCE_OPEN: strcat(txt_buf, "Force Open"); break; case ITO_SENSE_OPEN: strcat(txt_buf, "Sense Open"); break; case ITO_FORCE_SHRT_GND: strcat(txt_buf, "Force Short to GND"); break; case ITO_SENSE_SHRT_GND: strcat(txt_buf, "Sense Short to GND"); break; case ITO_FORCE_SHRT_VCM: strcat(txt_buf, "Force Short to VDD"); break; case ITO_SENSE_SHRT_VCM: strcat(txt_buf, "Sense Short to VDD"); break; case ITO_FORCE_SHRT_FORCE: strcat(txt_buf, "Force Short to Force"); break; case ITO_SENSE_SHRT_SENSE: strcat(txt_buf, "Sense Short to Sense"); break; case ITO_F2E_SENSE: strcat(txt_buf, "Force Short to Sense"); break; case ITO_FPC_FORCE_OPEN: strcat(txt_buf, "FPC Force Open"); break; case ITO_FPC_SENSE_OPEN: strcat(txt_buf, "FPC Sense Open"); break; default: strcat(txt_buf, "Unknown"); break; } s_printf(txt_buf + strlen(txt_buf), " (%d), Chn: %d#\n\n", err[0], err[1]); strcat(txt_buf, "#FFFF00 The touchscreen calibration failed!"); lv_mbox_set_text(mbox, txt_buf); goto out2; } ito_failed: touch_sense_enable(); out: if (!res) lv_mbox_set_text(mbox, "#C7EA46 The touchscreen calibration finished!"); else lv_mbox_set_text(mbox, "#FFFF00 The touchscreen calibration failed!"); out2: lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); free(txt_buf); return LV_RES_OK; } static lv_res_t _create_window_dump_pk12_tool(lv_obj_t *btn) { lv_obj_t *win = nyx_create_standard_window(SYMBOL_MODULES" Dump package1/2", NULL); // Disable buttons. nyx_window_toggle_buttons(win, true); lv_obj_t *desc = lv_cont_create(win, NULL); lv_obj_set_size(desc, LV_HOR_RES * 10 / 11, LV_VER_RES - (LV_DPI * 12 / 7)); lv_obj_t *lb_desc = lv_label_create(desc, NULL); lv_obj_set_style(lb_desc, &monospace_text); lv_label_set_long_mode(lb_desc, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc, true); lv_obj_set_width(lb_desc, lv_obj_get_width(desc) / 2); lv_obj_t *lb_desc2 = lv_label_create(desc, NULL); lv_obj_set_style(lb_desc2, &monospace_text); lv_label_set_long_mode(lb_desc2, LV_LABEL_LONG_BREAK); lv_label_set_recolor(lb_desc2, true); lv_obj_set_width(lb_desc2, lv_obj_get_width(desc) / 2); lv_label_set_text(lb_desc2, " "); lv_obj_align(lb_desc2, lb_desc, LV_ALIGN_OUT_RIGHT_TOP, 0, 0); if (sd_mount()) { lv_label_set_text(lb_desc, "#FFDD00 Failed to init SD!#"); goto out_end; } char path[128]; u8 mkey = 0; u8 *pkg1 = (u8 *)zalloc(SZ_256K); u8 *warmboot = (u8 *)zalloc(SZ_256K); u8 *secmon = (u8 *)zalloc(SZ_256K); u8 *loader = (u8 *)zalloc(SZ_256K); u8 *pkg2 = (u8 *)zalloc(SZ_8M); char *txt_buf = (char *)malloc(SZ_16K); if (emmc_initialize(false)) { lv_label_set_text(lb_desc, "#FFDD00 Failed to init eMMC!#"); goto out_free; } char *bct_paths[2] = { "/pkg/main", "/pkg/safe" }; char *pkg1_paths[2] = { "/pkg/main/pkg1", "/pkg/safe/pkg1" }; char *pkg2_partitions[2] = { "BCPKG2-1-Normal-Main", "BCPKG2-3-SafeMode-Main" }; char *pkg2_paths[2] = { "/pkg/main/pkg2", "/pkg/safe/pkg2" }; char *pkg2ini_paths[2] = { "/pkg/main/pkg2/ini", "/pkg/safe/pkg2/ini" }; // Create main directories. emmcsn_path_impl(path, "/pkg", "", &emmc_storage); emmcsn_path_impl(path, "/pkg/main", "", &emmc_storage); emmcsn_path_impl(path, "/pkg/safe", "", &emmc_storage); // Parse eMMC GPT. emmc_set_partition(EMMC_GPP); LIST_INIT(gpt); emmc_gpt_parse(&gpt); lv_obj_t *lb_log = lb_desc; for (u32 idx = 0; idx < 2; idx++) { if (idx) lb_log = lb_desc2; // Read package1. char *build_date = malloc(32); u32 pk1_offset = h_cfg.t210b01 ? sizeof(bl_hdr_t210b01_t) : 0; // Skip T210B01 OEM header. emmc_set_partition(!idx ? EMMC_BOOT0 : EMMC_BOOT1); sdmmc_storage_read(&emmc_storage, !idx ? PKG1_BOOTLOADER_MAIN_OFFSET : PKG1_BOOTLOADER_SAFE_OFFSET, PKG1_BOOTLOADER_SIZE / EMMC_BLOCKSIZE, pkg1); const pkg1_id_t *pkg1_id = pkg1_identify(pkg1 + pk1_offset, build_date); s_printf(txt_buf, "#00DDFF Found %s pkg1 ('%s')#\n\n", !idx ? "Main" : "Safe", build_date); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); free(build_date); // Dump package1 in its encrypted state. emmcsn_path_impl(path, pkg1_paths[idx], "pkg1_enc.bin", &emmc_storage); bool res = sd_save_to_file(pkg1, PKG1_BOOTLOADER_SIZE, path); // Exit if unknown. if (!pkg1_id) { strcat(txt_buf, "#FFDD00 Unknown pkg1 version!#"); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); if (!res) { strcat(txt_buf, "\nEncrypted pkg1 extracted to pkg1_enc.bin"); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); } goto out; } mkey = pkg1_id->mkey; tsec_ctxt_t tsec_ctxt = {0}; tsec_ctxt.fw = (void *)(pkg1 + pkg1_id->tsec_off); tsec_ctxt.pkg1 = (void *)pkg1; tsec_ctxt.pkg11_off = pkg1_id->pkg11_off; // Read the correct eks for older HOS versions. const u32 eks_size = sizeof(pkg1_eks_t); pkg1_eks_t *eks = (pkg1_eks_t *)malloc(eks_size); emmc_set_partition(EMMC_BOOT0); sdmmc_storage_read(&emmc_storage, PKG1_HOS_EKS_OFFSET + (mkey * eks_size) / EMMC_BLOCKSIZE, eks_size / EMMC_BLOCKSIZE, eks); // Generate keys. hos_keygen(eks, mkey, &tsec_ctxt); free(eks); // Decrypt. if (h_cfg.t210b01 || mkey <= HOS_MKEY_VER_600) { if (!pkg1_decrypt(pkg1_id, pkg1)) { strcat(txt_buf, "#FFDD00 Pkg1 decryption failed!#\n"); if (h_cfg.t210b01) strcat(txt_buf, "#FFDD00 Is BEK missing?#\n"); lv_label_set_text(lb_log, txt_buf); goto out; } } // Dump the BCTs from blocks 2/3 (backup) which are normally valid. static const u32 BCT_SIZE = 0x2800; static const u32 BLK_SIZE = SZ_16K / EMMC_BLOCKSIZE; u8 *bct = (u8 *)zalloc(BCT_SIZE); sdmmc_storage_read(&emmc_storage, BLK_SIZE * 2 + BLK_SIZE * idx, BCT_SIZE / EMMC_BLOCKSIZE, bct); emmcsn_path_impl(path, bct_paths[idx], "bct.bin", &emmc_storage); if (sd_save_to_file(bct, 0x2800, path)) goto out; if (h_cfg.t210b01) { se_aes_iv_clear(13); se_aes_crypt_cbc(13, DECRYPT, bct + 0x480, bct + 0x480, BCT_SIZE - 0x480); emmcsn_path_impl(path, bct_paths[idx], "bct_decr.bin", &emmc_storage); if (sd_save_to_file(bct, 0x2800, path)) goto out; } // Dump package1.1 contents. if (h_cfg.t210b01 || mkey <= HOS_MKEY_VER_620) { pkg1_unpack(warmboot, secmon, loader, pkg1_id, pkg1 + pk1_offset); pk11_hdr_t *hdr_pk11 = (pk11_hdr_t *)(pkg1 + pk1_offset + pkg1_id->pkg11_off + 0x20); // Display info. s_printf(txt_buf + strlen(txt_buf), "#C7EA46 NX Bootloader size: #0x%05X\n" "#C7EA46 Secure monitor size: #0x%05X\n" "#C7EA46 Warmboot size: #0x%05X\n\n", hdr_pk11->ldr_size, hdr_pk11->sm_size, hdr_pk11->wb_size); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); // Dump package1.1. emmcsn_path_impl(path, pkg1_paths[idx], "pkg1_decr.bin", &emmc_storage); if (sd_save_to_file(pkg1, SZ_256K, path)) goto out; strcat(txt_buf, "Package1 extracted to pkg1_decr.bin\n"); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); // Dump nxbootloader. emmcsn_path_impl(path, pkg1_paths[idx], "nxloader.bin", &emmc_storage); if (sd_save_to_file(loader, hdr_pk11->ldr_size, path)) goto out; strcat(txt_buf, "NX Bootloader extracted to nxloader.bin\n"); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); // Dump secmon. emmcsn_path_impl(path, pkg1_paths[idx], "secmon.bin", &emmc_storage); if (sd_save_to_file(secmon, hdr_pk11->sm_size, path)) goto out; strcat(txt_buf, "Secure Monitor extracted to secmon.bin\n"); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); // Dump warmboot. emmcsn_path_impl(path, pkg1_paths[idx], "warmboot.bin", &emmc_storage); if (sd_save_to_file(warmboot, hdr_pk11->wb_size, path)) goto out; // If T210B01, save a copy of decrypted warmboot binary also. if (h_cfg.t210b01) { se_aes_iv_clear(13); se_aes_crypt_cbc(13, DECRYPT, warmboot + 0x330, warmboot + 0x330, hdr_pk11->wb_size - 0x330); emmcsn_path_impl(path, pkg1_paths[idx], "warmboot_dec.bin", &emmc_storage); if (sd_save_to_file(warmboot, hdr_pk11->wb_size, path)) goto out; } strcat(txt_buf, "Warmboot extracted to warmboot.bin\n\n"); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); } // Find and dump package2 partition. emmc_set_partition(EMMC_GPP); emmc_part_t *pkg2_part = emmc_part_find(&gpt, pkg2_partitions[idx]); if (!pkg2_part) goto out; // Read in package2 header and get package2 real size. static const u32 PKG2_OFFSET = 0x4000; u8 *tmp = (u8 *)malloc(EMMC_BLOCKSIZE); emmc_part_read(pkg2_part, PKG2_OFFSET / EMMC_BLOCKSIZE, 1, tmp); u32 *hdr_pkg2_raw = (u32 *)(tmp + 0x100); u32 pkg2_size = hdr_pkg2_raw[0] ^ hdr_pkg2_raw[2] ^ hdr_pkg2_raw[3]; free(tmp); // Read in package2. u32 pkg2_size_aligned = ALIGN(pkg2_size, EMMC_BLOCKSIZE); emmc_part_read(pkg2_part, PKG2_OFFSET / EMMC_BLOCKSIZE, pkg2_size_aligned / EMMC_BLOCKSIZE, pkg2); // Dump encrypted package2. emmcsn_path_impl(path, pkg2_paths[idx], "pkg2_encr.bin", &emmc_storage); res = sd_save_to_file(pkg2, pkg2_size, path); // Decrypt package2 and parse KIP1 blobs in INI1 section. pkg2_hdr_t *pkg2_hdr = pkg2_decrypt(pkg2, mkey); if (!pkg2_hdr) { strcat(txt_buf, "#FFDD00 Pkg2 decryption failed!#"); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); if (!res) { strcat(txt_buf, "\npkg2 encrypted extracted to pkg2_encr.bin\n"); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); } // Clear EKS slot, in case something went wrong with tsec keygen. hos_eks_clear(mkey); goto out; } // Display info. s_printf(txt_buf + strlen(txt_buf), "#C7EA46 Kernel size: #0x%06X\n" "#C7EA46 INI1 size: #0x%06X\n\n", pkg2_hdr->sec_size[PKG2_SEC_KERNEL], pkg2_hdr->sec_size[PKG2_SEC_INI1]); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); // Dump pkg2.1. emmcsn_path_impl(path, pkg2_paths[idx], "pkg2_decr.bin", &emmc_storage); if (sd_save_to_file(pkg2, pkg2_hdr->sec_size[PKG2_SEC_KERNEL] + pkg2_hdr->sec_size[PKG2_SEC_INI1], path)) goto out; strcat(txt_buf, "Package2 extracted to pkg2_decr.bin\n"); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); // Dump kernel. emmcsn_path_impl(path, pkg2_paths[idx], "kernel.bin", &emmc_storage); if (sd_save_to_file(pkg2_hdr->data, pkg2_hdr->sec_size[PKG2_SEC_KERNEL], path)) goto out; strcat(txt_buf, "Kernel extracted to kernel.bin\n"); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); // Dump INI1. u32 ini1_off = pkg2_hdr->sec_size[PKG2_SEC_KERNEL]; u32 ini1_size = pkg2_hdr->sec_size[PKG2_SEC_INI1]; if (!ini1_size) { pkg2_get_newkern_info(pkg2_hdr->data); ini1_off = pkg2_newkern_ini1_start; ini1_size = pkg2_newkern_ini1_end - pkg2_newkern_ini1_start; } if (!ini1_off) { strcat(txt_buf, "#FFDD00 Failed to dump INI1 and kips!#\n"); goto out; } pkg2_ini1_t *ini1 = (pkg2_ini1_t *)(pkg2_hdr->data + ini1_off); emmcsn_path_impl(path, pkg2_paths[idx], "ini1.bin", &emmc_storage); if (sd_save_to_file(ini1, ini1_size, path)) goto out; strcat(txt_buf, "INI1 extracted to ini1.bin\n"); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); char filename[32]; u8 *ptr = (u8 *)ini1; ptr += sizeof(pkg2_ini1_t); // Dump all kips. for (u32 i = 0; i < ini1->num_procs; i++) { pkg2_kip1_t *kip1 = (pkg2_kip1_t *)ptr; u32 kip1_size = pkg2_calc_kip1_size(kip1); char *kip_name = kip1->name; // Check if FS supports exFAT. if (!strcmp("FS", kip_name)) { u8 *ro_data = malloc(SZ_4M); u32 offset = (kip1->flags & BIT(KIP_TEXT)) ? kip1->sections[KIP_TEXT].size_comp : kip1->sections[KIP_TEXT].size_decomp; u32 size_comp = kip1->sections[KIP_RODATA].size_comp; u32 size_decomp = kip1->sections[KIP_RODATA].size_decomp; if (kip1->flags & BIT(KIP_RODATA)) blz_uncompress_srcdest(&kip1->data[offset], size_comp, ro_data, size_decomp); else memcpy(ro_data, &kip1->data[offset], size_decomp); for (u32 i = 0; i < 0x100; i+= sizeof(u32)) { // Check size and name of nss matches. if (*(u32 *)&ro_data[i] == 8 && !memcmp("fs.exfat", &ro_data[i + 4], 8)) { kip_name = "FS_exfat"; break; } } free(ro_data); } s_printf(filename, "%s.kip1", kip_name); emmcsn_path_impl(path, pkg2ini_paths[idx], filename, &emmc_storage); if (sd_save_to_file(kip1, kip1_size, path)) goto out; s_printf(txt_buf + strlen(txt_buf), "- Extracted %s.kip1\n", kip_name); lv_label_set_text(lb_log, txt_buf); manual_system_maintenance(true); ptr += kip1_size; } } out: emmc_gpt_free(&gpt); out_free: free(pkg1); free(secmon); free(warmboot); free(loader); free(pkg2); free(txt_buf); emmc_end(); sd_unmount(); if (mkey >= HOS_MKEY_VER_620) se_aes_key_clear(8); out_end: // Enable buttons. nyx_window_toggle_buttons(win, false); return LV_RES_OK; } static void _create_tab_tools_emmc_sd_usb(lv_theme_t *th, lv_obj_t *parent) { lv_page_set_scrl_layout(parent, LV_LAYOUT_PRETTY); // Create Backup & Restore container. lv_obj_t *h1 = _create_container(parent); lv_obj_t *label_sep = lv_label_create(h1, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt = lv_label_create(h1, NULL); lv_label_set_static_text(label_txt, "Backup & Restore"); lv_obj_set_style(label_txt, th->label.prim); lv_obj_align(label_txt, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI * 3 / 10); lv_obj_t *line_sep = lv_line_create(h1, NULL); static const lv_point_t line_pp[] = { {0, 0}, { LV_HOR_RES - (LV_DPI - (LV_DPI / 4)) * 2, 0} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, th->line.decor); lv_obj_align(line_sep, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create Backup eMMC button. lv_obj_t *btn = lv_btn_create(h1, NULL); if (hekate_bg) { lv_btn_set_style(btn, LV_BTN_STYLE_REL, &btn_transp_rel); lv_btn_set_style(btn, LV_BTN_STYLE_PR, &btn_transp_pr); } lv_obj_t *label_btn = lv_label_create(btn, NULL); lv_btn_set_fit(btn, true, true); lv_label_set_static_text(label_btn, SYMBOL_UPLOAD" Backup eMMC"); lv_obj_align(btn, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_btn_set_action(btn, LV_BTN_ACTION_CLICK, create_window_backup_restore_tool); lv_obj_t *label_txt2 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Allows you to backup eMMC/emuMMC partitions individually\n" "or as a whole raw image to the SD card.\n" "#C7EA46 Supports SD cards from# #FF8000 4GB# #C7EA46 and up. #" "#FF8000 FAT32# #C7EA46 and ##FF8000 exFAT##C7EA46 .#"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create Restore eMMC button. lv_obj_t *btn2 = lv_btn_create(h1, btn); label_btn = lv_label_create(btn2, NULL); lv_label_set_static_text(label_btn, SYMBOL_DOWNLOAD" Restore eMMC"); lv_obj_align(btn2, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn2, LV_BTN_ACTION_CLICK, create_window_backup_restore_tool); label_txt2 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Allows you to restore eMMC/emuMMC partitions individually\n" "or as a whole raw image from the SD card.\n" "#C7EA46 Supports SD cards from# #FF8000 4GB# #C7EA46 and up. #" "#FF8000 FAT32# #C7EA46 and ##FF8000 exFAT##C7EA46 .#"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn2, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create Misc container. lv_obj_t *h2 = _create_container(parent); lv_obj_align(h2, h1, LV_ALIGN_OUT_RIGHT_TOP, 0, 0); label_sep = lv_label_create(h2, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt3 = lv_label_create(h2, NULL); lv_label_set_static_text(label_txt3, "SD Partitions & USB"); lv_obj_set_style(label_txt3, th->label.prim); lv_obj_align(label_txt3, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI * 3 / 10); line_sep = lv_line_create(h2, line_sep); lv_obj_align(line_sep, label_txt3, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create Partition SD Card button. lv_obj_t *btn3 = lv_btn_create(h2, NULL); if (hekate_bg) { lv_btn_set_style(btn3, LV_BTN_STYLE_REL, &btn_transp_rel); lv_btn_set_style(btn3, LV_BTN_STYLE_PR, &btn_transp_pr); } label_btn = lv_label_create(btn3, NULL); lv_btn_set_fit(btn3, true, true); lv_label_set_static_text(label_btn, SYMBOL_SD" Partition SD Card"); lv_obj_align(btn3, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_btn_set_action(btn3, LV_BTN_ACTION_CLICK, create_window_sd_partition_manager); lv_btn_set_action(btn3, LV_BTN_ACTION_LONG_PR, create_window_emmc_partition_manager); lv_obj_t *label_txt4 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt4, true); lv_label_set_static_text(label_txt4, "Allows you to partition the SD Card for using it with #C7EA46 emuMMC#,\n" "#C7EA46 Android# and #C7EA46 Linux#. You can also flash Linux and Android.\n"); lv_obj_set_style(label_txt4, &hint_small_style); lv_obj_align(label_txt4, btn3, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create USB Tools button. lv_obj_t *btn4 = lv_btn_create(h2, btn3); label_btn = lv_label_create(btn4, NULL); lv_label_set_static_text(label_btn, SYMBOL_USB" USB Tools"); lv_obj_align(btn4, label_txt4, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn4, LV_BTN_ACTION_CLICK, _create_window_usb_tools); label_txt4 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt4, true); lv_label_set_static_text(label_txt4, "#C7EA46 USB mass storage#, #C7EA46 gamepad# and other USB tools.\n" "Mass storage can mount SD, eMMC and emuMMC. The\n" "gamepad transforms the Switch into an input device.#"); lv_obj_set_style(label_txt4, &hint_small_style); lv_obj_align(label_txt4, btn4, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); } static void _create_tab_tools_arc_rcm_pkg12(lv_theme_t *th, lv_obj_t *parent) { lv_page_set_scrl_layout(parent, LV_LAYOUT_PRETTY); // Create Misc container. lv_obj_t *h1 = _create_container(parent); lv_obj_t *label_sep = lv_label_create(h1, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt = lv_label_create(h1, NULL); lv_label_set_static_text(label_txt, "Misc"); lv_obj_set_style(label_txt, th->label.prim); lv_obj_align(label_txt, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI * 3 / 10); lv_obj_t *line_sep = lv_line_create(h1, NULL); static const lv_point_t line_pp[] = { {0, 0}, { LV_HOR_RES - (LV_DPI - (LV_DPI / 4)) * 2, 0} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, th->line.decor); lv_obj_align(line_sep, label_txt, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create fix archive bit button. lv_obj_t *btn = lv_btn_create(h1, NULL); if (hekate_bg) { lv_btn_set_style(btn, LV_BTN_STYLE_REL, &btn_transp_rel); lv_btn_set_style(btn, LV_BTN_STYLE_PR, &btn_transp_pr); } lv_obj_t *label_btn = lv_label_create(btn, NULL); lv_btn_set_fit(btn, true, true); lv_label_set_static_text(label_btn, SYMBOL_DIRECTORY" Fix Archive Bit"); lv_obj_align(btn, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_btn_set_action(btn, LV_BTN_ACTION_CLICK, _create_window_unset_abit_tool); lv_obj_t *label_txt2 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Allows you to fix the archive bit for all folders including the\n" "root and emuMMC \'Nintendo\' folders.\n" "#C7EA46 It sets the archive bit to folders named with ##FF8000 .[ext]#\n" "#FF8000 Use that option when you have corruption messages.#"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create Fix touch calibration button. lv_obj_t *btn2 = lv_btn_create(h1, btn); label_btn = lv_label_create(btn2, NULL); lv_label_set_static_text(label_btn, SYMBOL_KEYBOARD" Calibrate Touchscreen"); lv_obj_align(btn2, label_txt2, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn2, LV_BTN_ACTION_CLICK, _create_mbox_fix_touchscreen); label_txt2 = lv_label_create(h1, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Allows you to calibrate the touchscreen module.\n" "#FF8000 This can fix any issues with touchscreen in Nyx and HOS.#"); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn2, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create Others container. lv_obj_t *h2 = _create_container(parent); lv_obj_align(h2, h1, LV_ALIGN_OUT_RIGHT_TOP, 0, 0); label_sep = lv_label_create(h2, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_t *label_txt3 = lv_label_create(h2, NULL); lv_label_set_static_text(label_txt3, "Others"); lv_obj_set_style(label_txt3, th->label.prim); lv_obj_align(label_txt3, label_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, -LV_DPI * 3 / 10); line_sep = lv_line_create(h2, line_sep); lv_obj_align(line_sep, label_txt3, LV_ALIGN_OUT_BOTTOM_LEFT, -(LV_DPI / 4), LV_DPI / 8); // Create AutoRCM On/Off button. lv_obj_t *btn3 = lv_btn_create(h2, NULL); if (hekate_bg) { lv_btn_set_style(btn3, LV_BTN_STYLE_REL, &btn_transp_rel); lv_btn_set_style(btn3, LV_BTN_STYLE_PR, &btn_transp_pr); lv_btn_set_style(btn3, LV_BTN_STYLE_TGL_REL, &btn_transp_tgl_rel); lv_btn_set_style(btn3, LV_BTN_STYLE_TGL_PR, &btn_transp_tgl_pr); lv_btn_set_style(btn3, LV_BTN_STYLE_INA, &btn_transp_ina); } label_btn = lv_label_create(btn3, NULL); lv_btn_set_fit(btn3, true, true); lv_label_set_recolor(label_btn, true); lv_label_set_text(label_btn, SYMBOL_REFRESH" AutoRCM #00FFC9 ON #"); lv_obj_align(btn3, line_sep, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI / 4, LV_DPI / 4); lv_btn_set_action(btn3, LV_BTN_ACTION_CLICK, _create_mbox_autorcm_status); // Set default state for AutoRCM and lock it out if patched unit. if (get_set_autorcm_status(false)) lv_btn_set_state(btn3, LV_BTN_STATE_TGL_REL); else lv_btn_set_state(btn3, LV_BTN_STATE_REL); nyx_generic_onoff_toggle(btn3); if (h_cfg.rcm_patched) { lv_obj_set_click(btn3, false); lv_btn_set_state(btn3, LV_BTN_STATE_INA); } autorcm_btn = btn3; char *txt_buf = (char *)malloc(SZ_4K); s_printf(txt_buf, "Allows you to enter RCM without using #C7EA46 VOL+# & #C7EA46 HOME# (jig).\n" "#FF8000 It can restore all versions of AutoRCM whenever requested.#\n" "#FF3C28 This corrupts the BCT and you can't boot without a custom#\n" "#FF3C28 bootloader.#"); if (h_cfg.rcm_patched) strcat(txt_buf, " #FF8000 This is disabled because this unit is patched!#"); lv_obj_t *label_txt4 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt4, true); lv_label_set_text(label_txt4, txt_buf); free(txt_buf); lv_obj_set_style(label_txt4, &hint_small_style); lv_obj_align(label_txt4, btn3, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); label_sep = lv_label_create(h2, NULL); lv_label_set_static_text(label_sep, ""); lv_obj_align(label_sep, label_txt4, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI * 11 / 7); // Create Dump Package1/2 button. lv_obj_t *btn4 = lv_btn_create(h2, btn); label_btn = lv_label_create(btn4, NULL); lv_label_set_static_text(label_btn, SYMBOL_MODULES" Dump Package1/2"); lv_obj_align(btn4, label_txt4, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_btn_set_action(btn4, LV_BTN_ACTION_CLICK, _create_window_dump_pk12_tool); label_txt2 = lv_label_create(h2, NULL); lv_label_set_recolor(label_txt2, true); lv_label_set_static_text(label_txt2, "Allows you to dump and decrypt pkg1 and pkg2 and further\n" "split it up into their individual parts. It also dumps the kip1."); lv_obj_set_style(label_txt2, &hint_small_style); lv_obj_align(label_txt2, btn4, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); } void create_tab_tools(lv_theme_t *th, lv_obj_t *parent) { lv_obj_t *tv = lv_tabview_create(parent, NULL); lv_obj_set_size(tv, LV_HOR_RES, 572); static lv_style_t tabview_style; lv_style_copy(&tabview_style, th->tabview.btn.rel); tabview_style.body.padding.ver = LV_DPI / 8; lv_tabview_set_style(tv, LV_TABVIEW_STYLE_BTN_REL, &tabview_style); if (hekate_bg) { lv_tabview_set_style(tv, LV_TABVIEW_STYLE_BTN_PR, &tabview_btn_pr); lv_tabview_set_style(tv, LV_TABVIEW_STYLE_BTN_TGL_PR, &tabview_btn_tgl_pr); } lv_tabview_set_sliding(tv, false); lv_tabview_set_btns_pos(tv, LV_TABVIEW_BTNS_POS_BOTTOM); lv_obj_t *tab1= lv_tabview_add_tab(tv, "eMMC "SYMBOL_DOT" SD Partitions "SYMBOL_DOT" USB"); lv_obj_t *tab2 = lv_tabview_add_tab(tv, "Arch bit "SYMBOL_DOT" RCM "SYMBOL_DOT" Touch "SYMBOL_DOT" Pkg1/2"); lv_obj_t *line_sep = lv_line_create(tv, NULL); static const lv_point_t line_pp[] = { {0, 0}, { 0, LV_DPI / 4} }; lv_line_set_points(line_sep, line_pp, 2); lv_line_set_style(line_sep, lv_theme_get_current()->line.decor); lv_obj_align(line_sep, tv, LV_ALIGN_IN_BOTTOM_MID, -1, -LV_DPI * 2 / 12); _create_tab_tools_emmc_sd_usb(th, tab1); _create_tab_tools_arc_rcm_pkg12(th, tab2); lv_tabview_set_tab_act(tv, 0, false); } ================================================ FILE: nyx/nyx_gui/frontend/gui_tools.h ================================================ /* * Copyright (c) 2018-2021 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GUI_TOOLS_H_ #define _GUI_TOOLS_H_ #include extern lv_obj_t *ums_mbox; void create_tab_tools(lv_theme_t *th, lv_obj_t *parent); void nyx_run_ums(void *param); bool get_set_autorcm_status(bool change); lv_res_t action_ums_sd(lv_obj_t *btn); #endif ================================================ FILE: nyx/nyx_gui/frontend/gui_tools_partition_manager.c ================================================ /* * Copyright (c) 2019-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "gui.h" #include "gui_tools.h" #include "fe_emummc_tools.h" #include "gui_tools_partition_manager.h" #include "../hos/hos.h" #include #include #define SECTORS_PER_GB 0x200000 #define AU_ALIGN_SECTORS 0x8000 // 16MB. #define AU_ALIGN_BYTES (AU_ALIGN_SECTORS * SD_BLOCKSIZE) #define HOS_USER_SECTOR 0x53C000 #define HOS_FAT_MIN_SIZE_MB 2048 #define HOS_USER_MIN_SIZE_MB 1024 #define EMU_SLIDER_MIN 0 #define EMU_SLIDER_MAX 44 // 24 GB. Always an even number. #define EMU_SLIDER_1X_MAX (EMU_SLIDER_MAX / 2) #define EMU_SLIDER_1X_FULL EMU_SLIDER_1X_MAX #define EMU_SLIDER_2X_MIN (EMU_SLIDER_1X_MAX + 1) #define EMU_SLIDER_2X_FULL EMU_SLIDER_MAX #define EMU_SLIDER_OFFSET 3 // Min 4GB. #define EMU_RSVD_MB (4 + 4 + 16 + 8) // BOOT0 + BOOT1 + 16MB offset + 8MB alignment. #define EMU_32GB_FULL 29856 // Actual: 29820 MB. #define EMU_64GB_FULL 59680 // Actual: 59640 MB. #define AND_SYS_SIZE_MB 6144 // 6 GB. Fits both Legacy (4912MB) and Dynamic (6144MB) partition schemes. extern volatile boot_cfg_t *b_cfg; extern volatile nyx_storage_t *nyx_str; typedef struct _partition_ctxt_t { bool emmc; sdmmc_storage_t *storage; u32 total_sct; u32 alignment; u32 emmc_size_mb; int backup_possible; s32 hos_min_size; s32 hos_size; u32 emu_size; u32 l4t_size; u32 and_size; bool emu_double; bool emmc_is_64gb; bool and_dynamic; mbr_t mbr_old; lv_obj_t *bar_hos; lv_obj_t *bar_emu; lv_obj_t *bar_l4t; lv_obj_t *bar_and; lv_obj_t *sep_emu; lv_obj_t *sep_l4t; lv_obj_t *sep_and; lv_obj_t *slider_bar_hos; lv_obj_t *cont_lbl; lv_obj_t *lbl_hos; lv_obj_t *lbl_emu; lv_obj_t *lbl_l4t; lv_obj_t *lbl_and; lv_obj_t *partition_button; } partition_ctxt_t; typedef struct _l4t_flasher_ctxt_t { u32 offset_sct; u32 image_size_sct; } l4t_flasher_ctxt_t; partition_ctxt_t part_info; l4t_flasher_ctxt_t l4t_flash_ctxt; lv_obj_t *btn_flash_l4t; lv_obj_t *btn_flash_android; static FRESULT _copy_file(const char *src, const char *dst, const char *path) { FIL fp_src; FIL fp_dst; FRESULT res; // Open file for reading. f_chdrive(src); res = f_open(&fp_src, path, FA_READ); if (res != FR_OK) return res; u32 file_bytes_left = f_size(&fp_src); // Open file for writing. f_chdrive(dst); f_open(&fp_dst, path, FA_CREATE_ALWAYS | FA_WRITE); f_lseek(&fp_dst, f_size(&fp_src)); f_lseek(&fp_dst, 0); while (file_bytes_left) { u32 chunk_size = MIN(file_bytes_left, SZ_4M); // 4MB chunks. file_bytes_left -= chunk_size; // Copy file to buffer. f_read(&fp_src, (void *)SDXC_BUF_ALIGNED, chunk_size, NULL); // Write file to disk. f_write(&fp_dst, (void *)SDXC_BUF_ALIGNED, chunk_size, NULL); } f_close(&fp_dst); f_chdrive(src); f_close(&fp_src); return FR_OK; } static int _stat_and_copy_files(const char *src, const char *dst, char *path, u32 *total_files, u32 *total_size, lv_obj_t **labels) { FRESULT res; DIR dir; u32 dirLength = 0; static FILINFO fno; f_chdrive(src); // Open directory. res = f_opendir(&dir, path); if (res != FR_OK) return res; if (labels) lv_label_set_text(labels[0], path); dirLength = strlen(path); // Hard limit path to 1024 characters. Do not result to error. if (dirLength > 1024) goto out; for (;;) { // Clear file path. path[dirLength] = 0; // Read a directory item. res = f_readdir(&dir, &fno); // Break on error or end of dir. if (res != FR_OK || fno.fname[0] == 0) break; // Set new directory or file. memcpy(&path[dirLength], "/", 1); strcpy(&path[dirLength + 1], fno.fname); if (labels) { lv_label_set_text(labels[1], fno.fname); manual_system_maintenance(true); } // Copy file to destination disk. if (!(fno.fattrib & AM_DIR)) { u64 file_size = fno.fsize > RAMDISK_CLUSTER_SZ ? fno.fsize : RAMDISK_CLUSTER_SZ; // Check for FAT32 or total overflow. if ((file_size + *total_size) > 0xFFFFFFFFu) { // Set size to > 1GB, skip next folders and return. *total_size = SZ_2G; res = -1; break; } *total_size += file_size; *total_files += 1; // Create a copy to destination. if (dst) { FIL fp_src; FIL fp_dst; u32 file_bytes_left = fno.fsize; // Open file for writing. f_chdrive(dst); f_open(&fp_dst, path, FA_CREATE_ALWAYS | FA_WRITE); f_lseek(&fp_dst, fno.fsize); f_lseek(&fp_dst, 0); // Open file for reading. f_chdrive(src); f_open(&fp_src, path, FA_READ); while (file_bytes_left) { u32 chunk_size = MIN(file_bytes_left, SZ_4M); // 4MB chunks. file_bytes_left -= chunk_size; // Copy file to buffer. f_read(&fp_src, (void *)SDXC_BUF_ALIGNED, chunk_size, NULL); manual_system_maintenance(true); // Write file to disk. f_write(&fp_dst, (void *)SDXC_BUF_ALIGNED, chunk_size, NULL); } // Finalize copied file. f_close(&fp_dst); f_chdrive(dst); f_chmod(path, fno.fattrib, 0xFF); f_chdrive(src); f_close(&fp_src); } // If total is > 1.2GB exit. if (*total_size > (RAM_DISK_SZ - SZ_16M)) // Account for alignment. { // Skip next folders and return. res = -1; break; } } else // It's a directory. { if (!memcmp("System Volume Information", fno.fname, 25)) continue; // Create folder to destination. if (dst) { f_chdrive(dst); f_mkdir(path); f_chmod(path, fno.fattrib, 0xFF); } // Enter the directory. res = _stat_and_copy_files(src, dst, path, total_files, total_size, labels); if (res != FR_OK) break; if (labels) { // Clear folder path. path[dirLength] = 0; lv_label_set_text(labels[0], path); } } } out: f_closedir(&dir); return res; } static void _create_gpt_partition(gpt_t *gpt, u8 *gpt_idx, u32 *curr_part_lba, u32 size_lba, const char *name, int name_size) { static const u8 linux_part_guid[] = { 0xAF, 0x3D, 0xC6, 0x0F, 0x83, 0x84, 0x72, 0x47, 0x8E, 0x79, 0x3D, 0x69, 0xD8, 0x47, 0x7D, 0xE4 }; // Reset partition. memset(&gpt->entries[*gpt_idx], 0, sizeof(gpt_entry_t)); // Create GPT partition. memcpy(gpt->entries[*gpt_idx].type_guid, linux_part_guid, 16); // Set randomly created GUID. u8 random_number[SE_RNG_BLOCK_SIZE]; se_rng_pseudo(random_number, SE_RNG_BLOCK_SIZE); memcpy(gpt->entries[*gpt_idx].part_guid, random_number, SE_RNG_BLOCK_SIZE); // Set partition start and end. gpt->entries[*gpt_idx].lba_start = *curr_part_lba; gpt->entries[*gpt_idx].lba_end = *curr_part_lba + size_lba - 1; // Set name. u16 name_utf16[36] = {0}; u32 name_lenth = strlen(name); for (u32 i = 0; i < name_lenth; i++) name_utf16[i] = name[i]; memcpy(gpt->entries[*gpt_idx].name, name_utf16, name_lenth * sizeof(u16)); // Wipe the first 1MB to sanitize it as raw-empty partition. sdmmc_storage_write(part_info.storage, *curr_part_lba, 0x800, (void *)SDMMC_ALT_DMA_BUFFER); // Prepare for next. (*curr_part_lba) += size_lba; (*gpt_idx)++; } static void _sd_prepare_and_flash_mbr_gpt() { mbr_t mbr; u8 random_number[SE_RNG_BLOCK_SIZE]; // Read current MBR. sdmmc_storage_read(&sd_storage, 0, 1, &mbr); // Copy over metadata if they exist. if (*(u32 *)&part_info.mbr_old.bootstrap[0x80]) memcpy(&mbr.bootstrap[0x80], &part_info.mbr_old.bootstrap[0x80], 64); if (*(u32 *)&part_info.mbr_old.bootstrap[0xE0]) memcpy(&mbr.bootstrap[0xE0], &part_info.mbr_old.bootstrap[0xE0], 208); // Clear the first 16MB. memset((void *)SDMMC_ALT_DMA_BUFFER, 0, AU_ALIGN_BYTES); sdmmc_storage_write(&sd_storage, 0, AU_ALIGN_SECTORS, (void *)SDMMC_ALT_DMA_BUFFER); // Set disk signature. se_rng_pseudo(random_number, sizeof(u32)); memcpy(&mbr.signature, random_number, sizeof(u32)); // FAT partition as first. u8 mbr_idx = 1; // Apply L4T Linux second to MBR if no Android. if (part_info.l4t_size && !part_info.and_size) { mbr.partitions[mbr_idx].type = 0x83; // Linux system partition. mbr.partitions[mbr_idx].start_sct = AU_ALIGN_SECTORS + ((u32)part_info.hos_size << 11); mbr.partitions[mbr_idx].size_sct = part_info.l4t_size << 11; sdmmc_storage_write(&sd_storage, mbr.partitions[mbr_idx].start_sct, 0x800, (void *)SDMMC_ALT_DMA_BUFFER); // Clear the first 1MB. mbr_idx++; } // emuMMC goes second or third. Next to L4T if no Android. if (part_info.emu_size) { mbr.partitions[mbr_idx].type = 0xE0; // emuMMC partition. mbr.partitions[mbr_idx].start_sct = AU_ALIGN_SECTORS + ((u32)part_info.hos_size << 11) + (part_info.l4t_size << 11) + (part_info.and_size << 11); if (!part_info.emu_double) mbr.partitions[mbr_idx].size_sct = (part_info.emu_size << 11) - 0x800; // Reserve 1MB. else { mbr.partitions[mbr_idx].size_sct = part_info.emu_size << 10; mbr_idx++; // 2nd emuMMC. mbr.partitions[mbr_idx].type = 0xE0; // emuMMC partition. mbr.partitions[mbr_idx].start_sct = mbr.partitions[mbr_idx - 1].start_sct + (part_info.emu_size << 10); mbr.partitions[mbr_idx].size_sct = (part_info.emu_size << 10) - 0x800; // Reserve 1MB. } mbr_idx++; } if (part_info.and_size) { gpt_t *gpt = zalloc(sizeof(gpt_t)); gpt_header_t gpt_hdr_backup = { 0 }; // Set GPT protective partition in MBR. mbr.partitions[mbr_idx].type = 0xEE; mbr.partitions[mbr_idx].start_sct = 1; mbr.partitions[mbr_idx].size_sct = sd_storage.sec_cnt - 1; mbr_idx++; // Set GPT header. memcpy(&gpt->header.signature, "EFI PART", 8); gpt->header.revision = 0x10000; gpt->header.size = 92; gpt->header.my_lba = 1; gpt->header.alt_lba = sd_storage.sec_cnt - 1; gpt->header.first_use_lba = (sizeof(mbr_t) + sizeof(gpt_t)) >> 9; gpt->header.last_use_lba = sd_storage.sec_cnt - 0x800 - 1; // sd_storage.sec_cnt - 33 is start of backup gpt partition entries. se_rng_pseudo(random_number, SE_RNG_BLOCK_SIZE); memcpy(gpt->header.disk_guid, random_number, 10); memcpy(gpt->header.disk_guid + 10, "NYXGPT", 6); gpt->header.part_ent_lba = 2; gpt->header.part_ent_size = 128; // Set FAT GPT partition manually. const u8 basic_part_guid[] = { 0xA2, 0xA0, 0xD0, 0xEB, 0xE5, 0xB9, 0x33, 0x44, 0x87, 0xC0, 0x68, 0xB6, 0xB7, 0x26, 0x99, 0xC7 }; memcpy(gpt->entries[0].type_guid, basic_part_guid, 16); se_rng_pseudo(random_number, SE_RNG_BLOCK_SIZE); memcpy(gpt->entries[0].part_guid, random_number, SE_RNG_BLOCK_SIZE); // Clear non-standard Windows MBR attributes. bit4: Read only, bit5: Shadow copy, bit6: Hidden, bit7: No drive letter. gpt->entries[0].part_guid[7] = 0; gpt->entries[0].lba_start = mbr.partitions[0].start_sct; gpt->entries[0].lba_end = mbr.partitions[0].start_sct + mbr.partitions[0].size_sct - 1; memcpy(gpt->entries[0].name, (u16[]) { 'h', 'o', 's', '_', 'd', 'a', 't', 'a' }, 16); // Set the rest of GPT partitions. u8 gpt_idx = 1; u32 curr_part_lba = AU_ALIGN_SECTORS + ((u32)part_info.hos_size << 11); // L4T partition. if (part_info.l4t_size) _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, part_info.l4t_size << 11, "l4t", 6); if (part_info.and_dynamic) { // Android Linux Kernel partition. 64MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x20000, "boot", 8); // Android Recovery partition. 64MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x20000, "recovery", 16); // Android Device Tree Reference partition. 1MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x800, "dtb", 6); // Android Misc partition. 3MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x1800, "misc", 8); // Android Cache partition. 60MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x1E000, "cache", 10); // Android Super dynamic partition. 5952MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0xBA0000, "super", 10); // Android Userdata partition. u32 uda_size = (part_info.and_size << 11) - 0xC00000; // Subtract the other partitions (6144MB). if (!part_info.emu_size) uda_size -= 0x800; // Reserve 1MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, uda_size, "userdata", 16); } else { // Android Vendor partition. 1GB _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x200000, "vendor", 12); // Android System partition. 3GB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x600000, "APP", 6); // Android Linux Kernel partition. 32MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x10000, "LNX", 6); // Android Recovery partition. 64MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x20000, "SOS", 6); // Android Device Tree Reference partition. 1MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x800, "DTB", 6); // Android Encryption partition. 16MB. // Note: 16MB size is for aligning UDA. If any other tiny partition must be added, it should split the MDA one. sdmmc_storage_write(&sd_storage, curr_part_lba, 0x8000, (void *)SDMMC_ALT_DMA_BUFFER); // Clear the whole of it. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x8000, "MDA", 6); // Android Cache partition. 700MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x15E000, "CAC", 6); // Android Misc partition. 3MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x1800, "MSC", 6); // Android Userdata partition. u32 uda_size = (part_info.and_size << 11) - 0x998000; // Subtract the other partitions (4912MB). if (!part_info.emu_size) uda_size -= 0x800; // Reserve 1MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, uda_size, "UDA", 6); } // Handle emuMMC partitions manually. if (part_info.emu_size) { // Set 1st emuMMC. u8 emu_part_guid[] = { 0x00, 0x7E, 0xCA, 0x11, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 'e', 'm', 'u', 'M', 'M', 'C' }; memcpy(gpt->entries[gpt_idx].type_guid, emu_part_guid, 16); se_rng_pseudo(random_number, SE_RNG_BLOCK_SIZE); memcpy(gpt->entries[gpt_idx].part_guid, random_number, SE_RNG_BLOCK_SIZE); gpt->entries[gpt_idx].lba_start = curr_part_lba; if (!part_info.emu_double) gpt->entries[gpt_idx].lba_end = curr_part_lba + (part_info.emu_size << 11) - 0x800 - 1; // Reserve 1MB. else gpt->entries[gpt_idx].lba_end = curr_part_lba + (part_info.emu_size << 10) - 1; memcpy(gpt->entries[gpt_idx].name, (u16[]) { 'e', 'm', 'u', 'm', 'm', 'c' }, 12); gpt_idx++; // Set 2nd emuMMC. if (part_info.emu_double) { curr_part_lba += (part_info.emu_size << 10); memcpy(gpt->entries[gpt_idx].type_guid, emu_part_guid, 16); se_rng_pseudo(random_number, SE_RNG_BLOCK_SIZE); memcpy(gpt->entries[gpt_idx].part_guid, random_number, SE_RNG_BLOCK_SIZE); gpt->entries[gpt_idx].lba_start = curr_part_lba; gpt->entries[gpt_idx].lba_end = curr_part_lba + (part_info.emu_size << 10) - 0x800 - 1; // Reserve 1MB. memcpy(gpt->entries[gpt_idx].name, (u16[]) { 'e', 'm', 'u', 'm', 'm', 'c', '2' }, 14); gpt_idx++; } } // Set final GPT header parameters. gpt->header.num_part_ents = gpt_idx; gpt->header.part_ents_crc32 = crc32_calc(0, (const u8 *)gpt->entries, sizeof(gpt_entry_t) * gpt->header.num_part_ents); gpt->header.crc32 = 0; // Set to 0 for calculation. gpt->header.crc32 = crc32_calc(0, (const u8 *)&gpt->header, gpt->header.size); // Set final backup GPT header parameters. memcpy(&gpt_hdr_backup, &gpt->header, sizeof(gpt_header_t)); gpt_hdr_backup.my_lba = sd_storage.sec_cnt - 1; gpt_hdr_backup.alt_lba = 1; gpt_hdr_backup.part_ent_lba = sd_storage.sec_cnt - 33; gpt_hdr_backup.crc32 = 0; // Set to 0 for calculation. gpt_hdr_backup.crc32 = crc32_calc(0, (const u8 *)&gpt_hdr_backup, gpt_hdr_backup.size); // Write main GPT. sdmmc_storage_write(&sd_storage, gpt->header.my_lba, sizeof(gpt_t) >> 9, gpt); // Write backup GPT partition table. sdmmc_storage_write(&sd_storage, gpt_hdr_backup.part_ent_lba, ((sizeof(gpt_entry_t) * 128) >> 9), gpt->entries); // Write backup GPT header. sdmmc_storage_write(&sd_storage, gpt_hdr_backup.my_lba, 1, &gpt_hdr_backup); free(gpt); } // Write MBR. sdmmc_storage_write(&sd_storage, 0, 1, &mbr); } static int _emmc_prepare_and_flash_mbr_gpt() { gpt_t *gpt = zalloc(sizeof(gpt_t)); gpt_header_t gpt_hdr_backup = { 0 }; memset((void *)SDMMC_ALT_DMA_BUFFER, 0, AU_ALIGN_BYTES); // Read main GPT. sdmmc_storage_read(&emmc_storage, 1, sizeof(gpt_t) >> 9, gpt); // Set GPT header. gpt->header.alt_lba = emmc_storage.sec_cnt - 1; gpt->header.last_use_lba = emmc_storage.sec_cnt - 0x800 - 1; // emmc_storage.sec_cnt - 33 is start of backup gpt partition entries. // Calculate HOS USER partition u32 part_rsvd_size = (part_info.l4t_size << 11) + (part_info.and_size << 11); part_rsvd_size += part_rsvd_size ? part_info.alignment : 0x800; // Only reserve 1MB if no extra partitions. u32 hos_user_size = emmc_storage.sec_cnt - HOS_USER_SECTOR - part_rsvd_size; // Get HOS USER partition index. LIST_INIT(gpt_emmc); emmc_gpt_parse(&gpt_emmc); emmc_part_t *user_part = emmc_part_find(&gpt_emmc, "USER"); if (!user_part) { emmc_gpt_free(&gpt_emmc); free(gpt); return 1; } u8 gpt_idx = user_part->index; emmc_gpt_free(&gpt_emmc); // HOS USER partition. u32 curr_part_lba = gpt->entries[gpt_idx].lba_start; gpt->entries[gpt_idx].lba_end = curr_part_lba + hos_user_size - 1; curr_part_lba += hos_user_size; gpt_idx++; // L4T partition. if (part_info.l4t_size) { u32 l4t_size = part_info.l4t_size << 11; if (!part_info.and_size) l4t_size -= 0x800; // Reserve 1MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, l4t_size, "l4t", 6); } if (part_info.and_size && part_info.and_dynamic) { // Android Linux Kernel partition. 64MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x20000, "boot", 8); // Android Recovery partition. 64MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x20000, "recovery", 16); // Android Device Tree Reference partition. 1MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x800, "dtb", 6); // Android Misc partition. 3MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x1800, "misc", 8); // Android Cache partition. 60MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x1E000, "cache", 10); // Android Super dynamic partition. 5952MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0xBA0000, "super", 10); // Android Userdata partition. u32 uda_size = (part_info.and_size << 11) - 0xC00000; // Subtract the other partitions (6144MB). uda_size -= 0x800; // Reserve 1MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, uda_size, "userdata", 16); } else if (part_info.and_size) { // Android Vendor partition. 1GB _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x200000, "vendor", 12); // Android System partition. 3GB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x600000, "APP", 6); // Android Linux Kernel partition. 32MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x10000, "LNX", 6); // Android Recovery partition. 64MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x20000, "SOS", 6); // Android Device Tree Reference partition. 1MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x800, "DTB", 6); // Android Encryption partition. 16MB. // Note: 16MB size is for aligning UDA. If any other tiny partition must be added, it should split the MDA one. sdmmc_storage_write(&emmc_storage, curr_part_lba, 0x8000, (void *)SDMMC_ALT_DMA_BUFFER); // Clear the whole of it. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x8000, "MDA", 6); // Android Cache partition. 700MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x15E000, "CAC", 6); // Android Misc partition. 3MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, 0x1800, "MSC", 6); // Android Userdata partition. u32 uda_size = (part_info.and_size << 11) - 0x998000; // Subtract the other partitions (4912MB). uda_size -= 0x800; // Reserve 1MB. _create_gpt_partition(gpt, &gpt_idx, &curr_part_lba, uda_size, "UDA", 6); } // Clear the rest of GPT partition table. for (u32 i = gpt_idx; i < 128; i++) memset(&gpt->entries[i], 0, sizeof(gpt_entry_t)); // Set final GPT header parameters. gpt->header.num_part_ents = gpt_idx; gpt->header.part_ents_crc32 = crc32_calc(0, (const u8 *)gpt->entries, sizeof(gpt_entry_t) * gpt->header.num_part_ents); gpt->header.crc32 = 0; // Set to 0 for calculation. gpt->header.crc32 = crc32_calc(0, (const u8 *)&gpt->header, gpt->header.size); // Set final backup GPT header parameters. memcpy(&gpt_hdr_backup, &gpt->header, sizeof(gpt_header_t)); gpt_hdr_backup.my_lba = emmc_storage.sec_cnt - 1; gpt_hdr_backup.alt_lba = 1; gpt_hdr_backup.part_ent_lba = emmc_storage.sec_cnt - 33; gpt_hdr_backup.crc32 = 0; // Set to 0 for calculation. gpt_hdr_backup.crc32 = crc32_calc(0, (const u8 *)&gpt_hdr_backup, gpt_hdr_backup.size); // Write main GPT. sdmmc_storage_write(&emmc_storage, gpt->header.my_lba, sizeof(gpt_t) >> 9, gpt); // Write backup GPT partition table. sdmmc_storage_write(&emmc_storage, gpt_hdr_backup.part_ent_lba, ((sizeof(gpt_entry_t) * 128) >> 9), gpt->entries); // Write backup GPT header. sdmmc_storage_write(&emmc_storage, gpt_hdr_backup.my_lba, 1, &gpt_hdr_backup); // Clear nand patrol. u8 *buf = (u8 *)gpt; memset(buf, 0, EMMC_BLOCKSIZE); emmc_set_partition(EMMC_BOOT0); sdmmc_storage_write(&emmc_storage, NAND_PATROL_SECTOR, 1, buf); emmc_set_partition(EMMC_GPP); free(gpt); return 0; } static lv_res_t _action_part_manager_ums_sd(lv_obj_t *btn) { action_ums_sd(NULL); // Close and reopen partition manager. lv_action_t close_btn_action = lv_btn_get_action(close_btn, LV_BTN_ACTION_CLICK); close_btn_action(close_btn); lv_obj_del(ums_mbox); create_window_sd_partition_manager(NULL); return LV_RES_INV; } static lv_res_t _action_delete_linux_installer_files(lv_obj_t * btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); // Delete parent mbox. nyx_mbox_action(btns, txt); // Flash Linux. if (!btn_idx) { char path[128]; sd_mount(); strcpy(path, "switchroot/install/l4t."); // Delete all l4t.xx files. u32 idx = 0; while (true) { if (idx < 10) { path[23] = '0'; itoa(idx, &path[23 + 1], 10); } else itoa(idx, &path[23], 10); if (!f_stat(path, NULL)) { f_unlink(path); } else break; idx++; } sd_unmount(); } return LV_RES_INV; } static lv_res_t _action_flash_linux_data(lv_obj_t * btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); // Delete parent mbox. nyx_mbox_action(btns, txt); bool succeeded = false; if (btn_idx) return LV_RES_INV; // Flash Linux. lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; static const char *mbox_btn_map2[] = { "\223Delete Installation Files", "\221OK", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 10 * 5); lv_mbox_set_text(mbox, "#FF8000 Linux Flasher#"); lv_obj_t *lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); lv_label_set_text(lbl_status, "#C7EA46 Status:# Flashing Linux..."); // Create container to keep content inside. lv_obj_t *h1 = lv_cont_create(mbox, NULL); lv_cont_set_fit(h1, true, true); lv_cont_set_style(h1, &lv_style_transp_tight); lv_obj_t *bar = lv_bar_create(h1, NULL); lv_obj_set_size(bar, LV_DPI * 30 / 10, LV_DPI / 5); lv_bar_set_range(bar, 0, 100); lv_bar_set_value(bar, 0); lv_obj_t *label_pct = lv_label_create(h1, NULL); lv_label_set_recolor(label_pct, true); lv_label_set_text(label_pct, " "SYMBOL_DOT" 0%"); lv_label_set_style(label_pct, lv_theme_get_current()->label.prim); lv_obj_align(label_pct, bar, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 20, 0); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); sd_mount(); if (part_info.emmc) emmc_initialize(false); int res = 0; char *path = malloc(1024); char *txt_buf = malloc(SZ_4K); strcpy(path, "switchroot/install/l4t.00"); u32 path_len = strlen(path) - 2; FIL fp; res = f_open(&fp, path, FA_READ); if (res) { lv_label_set_text(lbl_status, "#FFDD00 Error:# Failed to open 1st part!"); goto exit; } u64 fileSize = (u64)f_size(&fp); u32 num = 0; u32 pct = 0; u32 lba_curr = 0; u32 bytesWritten = 0; u32 currPartIdx = 0; u32 prevPct = 200; int retryCount = 0; u32 total_size_sct = l4t_flash_ctxt.image_size_sct; u8 *buf = (u8 *)MIXD_BUF_ALIGNED; DWORD *clmt = f_expand_cltbl(&fp, SZ_4M, 0); // Start flashing L4T. while (total_size_sct > 0) { // If we have more than one part, check the size for the split parts and make sure that the bytes written is not more than that. if (bytesWritten >= fileSize) { // If we have more bytes written then close the file pointer and increase the part index we are using f_close(&fp); free(clmt); memset(&fp, 0, sizeof(fp)); currPartIdx++; if (currPartIdx < 10) { path[path_len] = '0'; itoa(currPartIdx, &path[path_len + 1], 10); } else itoa(currPartIdx, &path[path_len], 10); // Try to open the next file part res = f_open(&fp, path, FA_READ); if (res) { s_printf(txt_buf, "#FFDD00 Error:# Failed to open part %d#", currPartIdx); lv_label_set_text(lbl_status, txt_buf); manual_system_maintenance(true); goto exit; } fileSize = (u64)f_size(&fp); bytesWritten = 0; clmt = f_expand_cltbl(&fp, SZ_4M, 0); } retryCount = 0; num = MIN(total_size_sct, 8192); // Read next data block from SD. res = f_read_fast(&fp, buf, num << 9); manual_system_maintenance(false); if (res) { lv_label_set_text(lbl_status, "#FFDD00 Error:# Reading from SD!"); manual_system_maintenance(true); f_close(&fp); free(clmt); goto exit; } // Write data block to L4T partition. res = sdmmc_storage_write(part_info.storage, lba_curr + l4t_flash_ctxt.offset_sct, num, buf); manual_system_maintenance(false); // If failed, retry 3 more times. while (res) { msleep(150); manual_system_maintenance(true); if (retryCount >= 3) { lv_label_set_text(lbl_status, "#FFDD00 Error:# Writing to SD!"); manual_system_maintenance(true); f_close(&fp); free(clmt); goto exit; } res = sdmmc_storage_write(part_info.storage, lba_curr + l4t_flash_ctxt.offset_sct, num, buf); manual_system_maintenance(false); } // Update completion percentage. pct = (u64)((u64)lba_curr * 100u) / (u64)l4t_flash_ctxt.image_size_sct; if (pct != prevPct) { lv_bar_set_value(bar, pct); s_printf(txt_buf, " #DDDDDD "SYMBOL_DOT"# %d%%", pct); lv_label_set_text(label_pct, txt_buf); manual_system_maintenance(true); prevPct = pct; } lba_curr += num; total_size_sct -= num; bytesWritten += num * EMMC_BLOCKSIZE; } lv_bar_set_value(bar, 100); lv_label_set_text(label_pct, " "SYMBOL_DOT" 100%"); manual_system_maintenance(true); // Restore operation ended successfully. f_close(&fp); free(clmt); succeeded = true; exit: free(path); free(txt_buf); if (!succeeded) lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); else lv_mbox_add_btns(mbox, mbox_btn_map2, _action_delete_linux_installer_files); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); sd_unmount(); if (part_info.emmc) emmc_end(); return LV_RES_INV; } static u32 _get_available_l4t_partition() { mbr_t mbr = { 0 }; gpt_t *gpt = zalloc(sizeof(gpt_t)); memset(&l4t_flash_ctxt, 0, sizeof(l4t_flasher_ctxt_t)); // Read MBR. sdmmc_storage_read(part_info.storage, 0, 1, &mbr); // Read main GPT. sdmmc_storage_read(part_info.storage, 1, sizeof(gpt_t) >> 9, gpt); // Search for a suitable partition. u32 size_sct = 0; if (!memcmp(&gpt->header.signature, "EFI PART", 8) || gpt->header.num_part_ents > 128) { for (u32 i = 0; i < gpt->header.num_part_ents; i++) { if (!memcmp(gpt->entries[i].name, (u16[]) { 'l', '4', 't' }, 6)) { l4t_flash_ctxt.offset_sct = gpt->entries[i].lba_start; size_sct = (gpt->entries[i].lba_end + 1) - gpt->entries[i].lba_start; break; } } } else { for (u32 i = 1; i < 4; i++) { if (mbr.partitions[i].type == 0x83) { l4t_flash_ctxt.offset_sct = mbr.partitions[i].start_sct; size_sct = mbr.partitions[i].size_sct; break; } } } free(gpt); return size_sct; } static int _get_available_android_partition() { gpt_t *gpt = zalloc(sizeof(gpt_t)); // Read main GPT. sdmmc_storage_read(part_info.storage, 1, sizeof(gpt_t) >> 9, gpt); // Check if GPT. if (memcmp(&gpt->header.signature, "EFI PART", 8) || gpt->header.num_part_ents > 128) goto out; // Find kernel partition. for (u32 i = 0; i < gpt->header.num_part_ents; i++) { if (gpt->entries[i].lba_start) { int found = !memcmp(gpt->entries[i].name, (u16[]) { 'b', 'o', 'o', 't' }, 8) ? 2 : 0; found |= !memcmp(gpt->entries[i].name, (u16[]) { 'L', 'N', 'X' }, 6) ? 1 : 0; if (found) { free(gpt); return found; } } } out: free(gpt); return false; } static lv_res_t _action_check_flash_linux(lv_obj_t *btn) { FILINFO fno; char path[128]; lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; static const char *mbox_btn_map2[] = { "\222Continue", "\222Cancel", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, "#FF8000 Linux Flasher#"); lv_obj_t *lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); lv_label_set_text(lbl_status, "#C7EA46 Status:# Searching for files and partitions..."); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); manual_system_maintenance(true); sd_mount(); if (part_info.emmc) emmc_initialize(false); // Check if L4T image exists. strcpy(path, "switchroot/install/l4t.00"); if (f_stat(path, NULL)) { lv_label_set_text(lbl_status, "#FFDD00 Error:# Installation files not found!"); goto error; } // Find an applicable partition for L4T. u32 size_sct = _get_available_l4t_partition(); if (!l4t_flash_ctxt.offset_sct || size_sct < 0x800000) { lv_label_set_text(lbl_status, "#FFDD00 Error:# No partition found!"); goto error; } u32 idx = 0; path[23] = 0; // Validate L4T images and consolidate their info. while (true) { if (idx < 10) { path[23] = '0'; itoa(idx, &path[23 + 1], 10); } else itoa(idx, &path[23], 10); // Check for alignment. if (f_stat(path, &fno)) break; // Check if current part is unaligned. if ((u64)fno.fsize % SZ_4M) { // Get next part filename. idx++; if (idx < 10) { path[23] = '0'; itoa(idx, &path[23 + 1], 10); } else itoa(idx, &path[23], 10); // If it exists, unaligned size for current part is not permitted. if (!f_stat(path, NULL)) // NULL: Don't override current part fs info. { lv_label_set_text(lbl_status, "#FFDD00 Error:# The image is not aligned to 4 MiB!"); goto error; } // Last part. Align size to LBA (SD_BLOCKSIZE). fno.fsize = ALIGN((u64)fno.fsize, SD_BLOCKSIZE); idx--; } l4t_flash_ctxt.image_size_sct += (u64)fno.fsize >> 9; idx++; } // Check if image size is bigger than the partition available. if (l4t_flash_ctxt.image_size_sct > size_sct) { lv_label_set_text(lbl_status, "#FFDD00 Error:# The image is bigger than the partition!"); goto error; } char *txt_buf = malloc(SZ_4K); s_printf(txt_buf, "#C7EA46 Status:# Found installation files and partition.\n" "#00DDFF Offset:# %08x, #00DDFF Size:# %X, #00DDFF Image size:# %d MiB\n" "\nDo you want to continue?", l4t_flash_ctxt.offset_sct, size_sct, l4t_flash_ctxt.image_size_sct >> 11); lv_label_set_text(lbl_status, txt_buf); free(txt_buf); lv_mbox_add_btns(mbox, mbox_btn_map2, _action_flash_linux_data); goto exit; error: lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); exit: lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); sd_unmount(); if (part_info.emmc) emmc_end(); return LV_RES_OK; } static lv_res_t _action_reboot_recovery(lv_obj_t * btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); // Delete parent mbox. nyx_mbox_action(btns, txt); if (!btn_idx) { // Set custom reboot type to Android Recovery. PMC(APBDEV_PMC_SCRATCH0) |= PMC_SCRATCH0_MODE_RECOVERY; // Enable hekate boot configuration. b_cfg->boot_cfg = BOOT_CFG_FROM_ID | BOOT_CFG_AUTOBOOT_EN; // Set id to Android. strcpy((char *)b_cfg->id, "SWANDR"); void (*main_ptr)() = (void *)nyx_str->hekate; // Deinit hardware. sd_end(); hw_deinit(false); // Chainload to hekate main. (*main_ptr)(); } return LV_RES_INV; } static lv_res_t _action_flash_android_data(lv_obj_t * btns, const char * txt) { int btn_idx = lv_btnm_get_pressed(btns); bool boot_recovery = false; // Delete parent mbox. nyx_mbox_action(btns, txt); if (btn_idx) return LV_RES_INV; // Flash Android components. char path[128]; gpt_t *gpt = zalloc(sizeof(gpt_t)); char *txt_buf = malloc(SZ_4K); lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; static const char *mbox_btn_map2[] = { "\222Continue", "\222No", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, "#FF8000 Android Flasher#"); lv_obj_t *lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); lv_label_set_text(lbl_status, "#C7EA46 Status:# Searching for files and partitions..."); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); manual_system_maintenance(true); sd_mount(); if (part_info.emmc) emmc_initialize(false); // Read main GPT. sdmmc_storage_read(part_info.storage, 1, sizeof(gpt_t) >> 9, gpt); // Validate GPT header. if (memcmp(&gpt->header.signature, "EFI PART", 8) || gpt->header.num_part_ents > 128) { lv_label_set_text(lbl_status, "#FFDD00 Error:# No Android GPT was found!"); goto error; } u32 offset_sct = 0; u32 size_sct = 0; // Check if Kernel image should be flashed. strcpy(path, "switchroot/install/boot.img"); if (f_stat(path, NULL)) { s_printf(txt_buf, "#FF8000 Warning:# Kernel image not found!\n"); goto boot_img_not_found; } // Find Kernel partition. for (u32 i = 0; i < gpt->header.num_part_ents; i++) { if (!memcmp(gpt->entries[i].name, (u16[]) { 'L', 'N', 'X' }, 6) || !memcmp(gpt->entries[i].name, (u16[]) { 'b', 'o', 'o', 't' }, 8)) { offset_sct = gpt->entries[i].lba_start; size_sct = (gpt->entries[i].lba_end + 1) - gpt->entries[i].lba_start; break; } } // Flash Kernel. if (offset_sct && size_sct) { u32 file_size = 0; u8 *buf = sd_file_read(path, &file_size); if (file_size % 0x200) { file_size = ALIGN(file_size, 0x200); u8 *buf_tmp = zalloc(file_size); memcpy(buf_tmp, buf, file_size); free(buf); buf = buf_tmp; } if ((file_size >> 9) > size_sct) s_printf(txt_buf, "#FF8000 Warning:# Kernel image too big!\n"); else { sdmmc_storage_write(part_info.storage, offset_sct, file_size >> 9, buf); s_printf(txt_buf, "#C7EA46 Success:# Kernel image flashed!\n"); f_unlink(path); } free(buf); } else s_printf(txt_buf, "#FF8000 Warning:# Kernel partition not found!\n"); boot_img_not_found: lv_label_set_text(lbl_status, txt_buf); manual_system_maintenance(true); // Check if Recovery should be flashed. strcpy(path, "switchroot/install/recovery.img"); if (f_stat(path, NULL)) { // Not found, try twrp.img instead. strcpy(path, "switchroot/install/twrp.img"); if (f_stat(path, NULL)) { strcat(txt_buf, "#FF8000 Warning:# Recovery image not found!\n"); goto recovery_not_found; } } offset_sct = 0; size_sct = 0; // Find Recovery partition. for (u32 i = 0; i < gpt->header.num_part_ents; i++) { if (!memcmp(gpt->entries[i].name, (u16[]) { 'S', 'O', 'S' }, 6) || !memcmp(gpt->entries[i].name, (u16[]) { 'r', 'e', 'c', 'o', 'v', 'e', 'r', 'y' }, 16)) { offset_sct = gpt->entries[i].lba_start; size_sct = (gpt->entries[i].lba_end + 1) - gpt->entries[i].lba_start; break; } } // Flash Recovery. if (offset_sct && size_sct) { u32 file_size = 0; u8 *buf = sd_file_read(path, &file_size); if (file_size % 0x200) { file_size = ALIGN(file_size, 0x200); u8 *buf_tmp = zalloc(file_size); memcpy(buf_tmp, buf, file_size); free(buf); buf = buf_tmp; } if ((file_size >> 9) > size_sct) strcat(txt_buf, "#FF8000 Warning:# Recovery image too big!\n"); else { sdmmc_storage_write(part_info.storage, offset_sct, file_size >> 9, buf); strcat(txt_buf, "#C7EA46 Success:# Recovery image flashed!\n"); f_unlink(path); } free(buf); } else strcat(txt_buf, "#FF8000 Warning:# Recovery partition not found!\n"); recovery_not_found: lv_label_set_text(lbl_status, txt_buf); manual_system_maintenance(true); // Check if Device Tree should be flashed. strcpy(path, "switchroot/install/nx-plat.dtimg"); if (f_stat(path, NULL)) { strcpy(path, "switchroot/install/tegra210-icosa.dtb"); if (f_stat(path, NULL)) { strcat(txt_buf, "#FF8000 Warning:# DTB image not found!"); goto dtb_not_found; } } offset_sct = 0; size_sct = 0; // Find Device Tree partition. for (u32 i = 0; i < gpt->header.num_part_ents; i++) { if (!memcmp(gpt->entries[i].name, (u16[]) { 'D', 'T', 'B' }, 6) || !memcmp(gpt->entries[i].name, (u16[]) { 'd', 't', 'b' }, 6)) { offset_sct = gpt->entries[i].lba_start; size_sct = (gpt->entries[i].lba_end + 1) - gpt->entries[i].lba_start; break; } } // Flash Device Tree. if (offset_sct && size_sct) { u32 file_size = 0; u8 *buf = sd_file_read(path, &file_size); if (file_size % 0x200) { file_size = ALIGN(file_size, 0x200); u8 *buf_tmp = zalloc(file_size); memcpy(buf_tmp, buf, file_size); free(buf); buf = buf_tmp; } if ((file_size >> 9) > size_sct) strcat(txt_buf, "#FF8000 Warning:# DTB image too big!"); else { sdmmc_storage_write(part_info.storage, offset_sct, file_size >> 9, buf); strcat(txt_buf, "#C7EA46 Success:# DTB image flashed!"); f_unlink(path); } free(buf); } else strcat(txt_buf, "#FF8000 Warning:# DTB partition not found!"); dtb_not_found: lv_label_set_text(lbl_status, txt_buf); // Check if Recovery is flashed unconditionally. u8 *rec = malloc(SD_BLOCKSIZE); for (u32 i = 0; i < gpt->header.num_part_ents; i++) { if (!memcmp(gpt->entries[i].name, (u16[]) { 'S', 'O', 'S' }, 6) || !memcmp(gpt->entries[i].name, (u16[]) { 'r', 'e', 'c', 'o', 'v', 'e', 'r', 'y' }, 16)) { sdmmc_storage_read(part_info.storage, gpt->entries[i].lba_start, 1, rec); if (!memcmp(rec, "ANDROID", 7)) boot_recovery = true; break; } } free(rec); error: if (boot_recovery) { // If a Recovery partition was found, ask user if rebooting into it is wanted. strcat(txt_buf,"\n\nDo you want to reboot into Recovery\nto finish Android installation?"); lv_label_set_text(lbl_status, txt_buf); lv_mbox_add_btns(mbox, mbox_btn_map2, _action_reboot_recovery); } else lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); free(txt_buf); free(gpt); sd_unmount(); if (part_info.emmc) emmc_end(); return LV_RES_INV; } static lv_res_t _action_flash_android(lv_obj_t *btn) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\222Continue", "\222Cancel", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, "#FF8000 Android Flasher#"); lv_obj_t *lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); lv_label_set_text(lbl_status, "This will flash #C7EA46 Kernel#, #C7EA46 DTB# and #C7EA46 Recovery# if found.\n" "These will be deleted after a successful flash.\n" "Do you want to continue?"); lv_mbox_add_btns(mbox, mbox_btn_map, _action_flash_android_data); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } static lv_res_t _action_part_manager_flash_options0(lv_obj_t *btns, const char *txt) { int btn_idx = lv_btnm_get_pressed(btns); if (part_info.emmc) btn_idx++; switch (btn_idx) { case 0: action_ums_sd(NULL); lv_obj_del(ums_mbox); break; case 1: _action_check_flash_linux(NULL); break; case 2: _action_flash_android(NULL); break; case 3: nyx_mbox_action(btns, txt); return LV_RES_INV; } return LV_RES_OK; } static lv_res_t _action_part_manager_flash_options1(lv_obj_t *btns, const char *txt) { int btn_idx = lv_btnm_get_pressed(btns); if (part_info.emmc) btn_idx++; switch (btn_idx) { case 0: action_ums_sd(NULL); lv_obj_del(ums_mbox); break; case 1: nyx_mbox_action(btns, txt); _action_check_flash_linux(NULL); return LV_RES_INV; case 2: nyx_mbox_action(btns, txt); return LV_RES_INV; } return LV_RES_OK; } static lv_res_t _action_part_manager_flash_options2(lv_obj_t *btns, const char *txt) { int btn_idx = lv_btnm_get_pressed(btns); if (part_info.emmc) btn_idx++; switch (btn_idx) { case 0: action_ums_sd(NULL); lv_obj_del(ums_mbox); break; case 1: nyx_mbox_action(btns, txt); _action_flash_android(NULL); return LV_RES_INV; case 2: nyx_mbox_action(btns, txt); return LV_RES_INV; } return LV_RES_OK; } static int _backup_and_restore_files(bool backup, lv_obj_t **labels) { const char *src_drv = backup ? "sd:" : "ram:"; const char *dst_drv = backup ? "ram:" : "sd:"; int res = 0; u32 total_size = 0; u32 total_files = 0; char *path = malloc(0x1000); path[0] = 0; // Set default as root folder. // Check if Mariko Warmboot Storage exists in source drive. f_chdrive(src_drv); bool backup_pld = !part_info.backup_possible && !f_stat("payload.bin", NULL); if (!part_info.backup_possible) { // Change path to hekate/Nyx. strcpy(path, "bootloader"); // Create hekate/Nyx/MWS folders in destination drive. f_chdrive(dst_drv); f_mkdir("bootloader"); } // Copy all or hekate/Nyx files. res = _stat_and_copy_files(src_drv, dst_drv, path, &total_files, &total_size, labels); // If incomplete backup mode, copy MWS and payload.bin also. if (!res) { if (!res && backup_pld) { strcpy(path, "payload.bin"); res = _copy_file(src_drv, dst_drv, path); } } free(path); return res; } static lv_res_t _sd_create_mbox_start_partitioning() { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; static const char *mbox_btn_map1[] = { "\222SD UMS", "\222Flash Linux", "\222Flash Android", "\221OK", "" }; static const char *mbox_btn_map2[] = { "\222SD UMS", "\222Flash Linux", "\221OK", "" }; static const char *mbox_btn_map3[] = { "\222SD UMS", "\222Flash Android", "\221OK", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, "#FF8000 SD Partition Manager#"); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); bool buttons_set = false; // Use safety wait if backup is not possible. char *txt_buf = malloc(SZ_4K); strcpy(txt_buf, "#FF8000 SD Partition Manager#\n\nSafety wait ends in "); lv_mbox_set_text(mbox, txt_buf); u32 seconds = 5; u32 text_idx = strlen(txt_buf); while (seconds) { s_printf(txt_buf + text_idx, "%d seconds...", seconds); lv_mbox_set_text(mbox, txt_buf); manual_system_maintenance(true); msleep(1000); seconds--; } lv_mbox_set_text(mbox, "#FF8000 SD Partition Manager#\n\n" "#FFDD00 Warning: Do you really want to continue?!#\n\n" "Press #FF8000 POWER# to Continue.\nPress #FF8000 VOL# to abort."); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); manual_system_maintenance(true); free(txt_buf); if (!(btn_wait() & BTN_POWER)) goto exit; // Start partitioning. lv_mbox_set_text(mbox, "#FF8000 SD Partition Manager#"); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); manual_system_maintenance(true); lv_obj_t *lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); lv_obj_t *lbl_paths[2]; // Create backup/restore paths labels. lbl_paths[0] = lv_label_create(mbox, NULL); lv_label_set_text(lbl_paths[0], "/"); lv_label_set_long_mode(lbl_paths[0], LV_LABEL_LONG_DOT); lv_cont_set_fit(lbl_paths[0], false, true); lv_obj_set_width(lbl_paths[0], (LV_HOR_RES / 9 * 6) - LV_DPI / 2); lv_label_set_align(lbl_paths[0], LV_LABEL_ALIGN_CENTER); lbl_paths[1] = lv_label_create(mbox, NULL); lv_label_set_text(lbl_paths[1], " "); lv_label_set_long_mode(lbl_paths[1], LV_LABEL_LONG_DOT); lv_cont_set_fit(lbl_paths[1], false, true); lv_obj_set_width(lbl_paths[1], (LV_HOR_RES / 9 * 6) - LV_DPI / 2); lv_label_set_align(lbl_paths[1], LV_LABEL_ALIGN_CENTER); sd_mount(); FATFS ram_fs; // Read current MBR. sdmmc_storage_read(part_info.storage, 0, 1, &part_info.mbr_old); lv_label_set_text(lbl_status, "#00DDFF Status:# Initializing Ramdisk..."); lv_label_set_text(lbl_paths[0], "Please wait..."); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); manual_system_maintenance(true); // Initialize RAM disk. if (ram_disk_init(&ram_fs, RAM_DISK_SZ)) { lv_label_set_text(lbl_status, "#FFDD00 Error:# Failed to initialize Ramdisk!"); goto error; } lv_label_set_text(lbl_status, "#00DDFF Status:# Backing up files..."); manual_system_maintenance(true); // Do full or hekate/Nyx backup. if (_backup_and_restore_files(true, lbl_paths)) { if (part_info.backup_possible) lv_label_set_text(lbl_status, "#FFDD00 Error:# Failed to back up files!"); else lv_label_set_text(lbl_status, "#FFDD00 Error:# Failed to back up files!\nBootloader folder exceeds 1.2GB or corrupt!"); goto error; } f_unmount("sd:"); // Unmount SD card. lv_label_set_text(lbl_status, "#00DDFF Status:# Formatting FAT32 partition..."); lv_label_set_text(lbl_paths[0], "Please wait..."); lv_label_set_text(lbl_paths[1], " "); manual_system_maintenance(true); // Set reserved size. u32 part_rsvd_size = (part_info.emu_size << 11) + (part_info.l4t_size << 11) + (part_info.and_size << 11); part_rsvd_size += part_rsvd_size ? part_info.alignment : 0; // Do not reserve alignment space if no extra partitions. disk_set_info(DRIVE_SD, SET_SECTOR_COUNT, &part_rsvd_size); u8 *buf = malloc(SZ_4M); // Set cluster size to 64KB and try to format. u32 cluster_size = 65536; u32 mkfs_error = f_mkfs("sd:", FM_FAT32, cluster_size, buf, SZ_4M); if (!mkfs_error) goto mkfs_no_error; // Retry formatting by halving cluster size, until one succeeds. while (cluster_size > 4096) { cluster_size /= 2; mkfs_error = f_mkfs("sd:", FM_FAT32, cluster_size, buf, SZ_4M); if (!mkfs_error) break; } if (mkfs_error) { // Failed to format. s_printf((char *)buf, "#FFDD00 Error:# Failed to format disk (%d)!\n\n" "Remove the SD card and check that is OK.\nIf not, format it, reinsert it and\npress #FF8000 POWER#!", mkfs_error); lv_label_set_text(lbl_status, (char *)buf); lv_label_set_text(lbl_paths[0], " "); manual_system_maintenance(true); sd_end(); while (!(btn_wait() & BTN_POWER)); sd_mount(); lv_label_set_text(lbl_status, "#00DDFF Status:# Restoring files..."); manual_system_maintenance(true); // Restore backed up files back to SD. if (_backup_and_restore_files(false, lbl_paths)) { // Failed to restore files. Try again once more. if (_backup_and_restore_files(false, lbl_paths)) { lv_label_set_text(lbl_status, "#FFDD00 Error:# Failed to restore files!"); free(buf); goto error; } } lv_label_set_text(lbl_status, "#00DDFF Status:# Restored files but the operation failed!"); f_unmount("ram:"); free(buf); goto error; } mkfs_no_error: free(buf); // Remount sd card as it was unmounted from formatting it. f_mount(&sd_fs, "sd:", 1); // Mount SD card. lv_label_set_text(lbl_status, "#00DDFF Status:# Restoring files..."); manual_system_maintenance(true); // Restore backed up files back to SD. if (_backup_and_restore_files(false, lbl_paths)) { // Failed to restore files. Try again once more. if (_backup_and_restore_files(false, lbl_paths)) { lv_label_set_text(lbl_status, "#FFDD00 Error:# Failed to restore files!"); goto error; } } // Unmount ramdisk. f_unmount("ram:"); f_chdrive("sd:"); // Set Volume label. f_setlabel("0:SWITCH SD"); lv_label_set_text(lbl_status, "#00DDFF Status:# Flashing partition table..."); lv_label_set_text(lbl_paths[0], "Please wait..."); lv_label_set_text(lbl_paths[1], " "); manual_system_maintenance(true); // Prepare MBR and GPT header and partition entries and flash them. _sd_prepare_and_flash_mbr_gpt(); // Enable/Disable buttons depending on partition layout. if (part_info.l4t_size) { lv_obj_set_click(btn_flash_l4t, true); lv_btn_set_state(btn_flash_l4t, LV_BTN_STATE_REL); } else { lv_obj_set_click(btn_flash_l4t, false); lv_btn_set_state(btn_flash_l4t, LV_BTN_STATE_INA); } // Enable/Disable buttons depending on partition layout. if (part_info.and_size) { lv_obj_set_click(btn_flash_android, true); lv_btn_set_state(btn_flash_android, LV_BTN_STATE_REL); } else { lv_obj_set_click(btn_flash_android, false); lv_btn_set_state(btn_flash_android, LV_BTN_STATE_INA); } sd_unmount(); lv_label_set_text(lbl_status, "#00DDFF Status:# Done!"); manual_system_maintenance(true); // Set buttons depending on what user chose to create. if (part_info.l4t_size && part_info.and_size) lv_mbox_add_btns(mbox, mbox_btn_map1, _action_part_manager_flash_options0); else if (part_info.l4t_size) lv_mbox_add_btns(mbox, mbox_btn_map2, _action_part_manager_flash_options1); else if (part_info.and_size) lv_mbox_add_btns(mbox, mbox_btn_map3, _action_part_manager_flash_options2); if (part_info.l4t_size || part_info.and_size) buttons_set = true; goto out; error: f_chdrive("sd:"); out: lv_obj_del(lbl_paths[0]); lv_obj_del(lbl_paths[1]); exit: if (!buttons_set) lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); // Disable partitioning button. if (part_info.partition_button) lv_btn_set_state(part_info.partition_button, LV_BTN_STATE_INA); return LV_RES_OK; } static lv_res_t _emmc_create_mbox_start_partitioning() { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; static const char *mbox_btn_map1[] = { "\222Flash Linux", "\222Flash Android", "\221OK", "" }; static const char *mbox_btn_map2[] = { "\222Flash Linux", "\221OK", "" }; static const char *mbox_btn_map3[] = { "\222Flash Android", "\221OK", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, "#FF8000 eMMC Partition Manager#"); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); bool buttons_set = false; // Use safety wait if backup is not possible. char *txt_buf = malloc(SZ_4K); strcpy(txt_buf, "#FF8000 eMMC Partition Manager#\n\nSafety wait ends in "); lv_mbox_set_text(mbox, txt_buf); u32 seconds = 5; u32 text_idx = strlen(txt_buf); while (seconds) { s_printf(txt_buf + text_idx, "%d seconds...", seconds); lv_mbox_set_text(mbox, txt_buf); manual_system_maintenance(true); msleep(1000); seconds--; } lv_mbox_set_text(mbox, "#FF8000 eMMC Partition Manager#\n\n" "#FFDD00 Warning: Do you really want to continue?!#\n\n" "Press #FF8000 POWER# to Continue.\nPress #FF8000 VOL# to abort."); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); manual_system_maintenance(true); if (!(btn_wait() & BTN_POWER)) goto exit; // Start partitioning. lv_mbox_set_text(mbox, "#FF8000 eMMC Partition Manager#"); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); manual_system_maintenance(true); lv_obj_t *lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); lv_obj_t *lbl_extra = lv_label_create(mbox, NULL); lv_label_set_long_mode(lbl_extra, LV_LABEL_LONG_DOT); lv_cont_set_fit(lbl_extra, false, true); lv_obj_set_width(lbl_extra, (LV_HOR_RES / 9 * 6) - LV_DPI / 2); lv_label_set_align(lbl_extra, LV_LABEL_ALIGN_CENTER); lv_label_set_text(lbl_status, "#00DDFF Status:# Initializing..."); lv_label_set_text(lbl_extra, "Please wait..."); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); manual_system_maintenance(true); if (emmc_initialize(false)) { lv_label_set_text(lbl_extra, "#FFDD00 Failed to init eMMC!#"); goto exit; } emmc_set_partition(EMMC_GPP); if (!emummc_raw_derive_bis_keys()) { lv_label_set_text(lbl_extra, "#FFDD00 For formatting USER partition,#\n#FFDD00 BIS keys are needed!#"); emmc_end(); goto exit; } lv_label_set_text(lbl_status, "#00DDFF Status:# Flashing partition table..."); lv_label_set_text(lbl_extra, "Please wait..."); manual_system_maintenance(true); // Prepare MBR and GPT header and partition entries and flash them. if (_emmc_prepare_and_flash_mbr_gpt()) goto no_hos_user_part; lv_label_set_text(lbl_status, "#00DDFF Status:# Formatting USER partition..."); lv_label_set_text(lbl_extra, "Please wait..."); manual_system_maintenance(true); // Get USER partition and configure BIS and FatFS. LIST_INIT(gpt); emmc_gpt_parse(&gpt); emmc_part_t *user_part = emmc_part_find(&gpt, "USER"); if (!user_part) { no_hos_user_part: s_printf(txt_buf, "#FF0000 HOS USER partition doesn't exist!#\nRestore HOS backup first..."); lv_label_set_text(lbl_extra, txt_buf); emmc_gpt_free(&gpt); emmc_end(); goto exit; } // Initialize BIS for eMMC. BIS keys should be already in place. nx_emmc_bis_init(user_part, true, 0); // Set BIS size for FatFS. u32 user_sectors = user_part->lba_end - user_part->lba_start + 1; disk_set_info(DRIVE_BIS, SET_SECTOR_COUNT, &user_sectors); // Enable writing. bool allow_writes = true; disk_set_info(DRIVE_BIS, SET_WRITE_PROTECT, &allow_writes); // Format USER partition as FAT32 with 16KB cluster and PRF2SAFE. u8 *buff = malloc(SZ_4M); int mkfs_error = f_mkfs("bis:", FM_FAT32 | FM_SFD | FM_PRF2, 16384, buff, SZ_4M); if (mkfs_error) { s_printf(txt_buf, "#FF0000 Failed (%d)!#\nPlease try again...\n", mkfs_error); lv_label_set_text(lbl_extra, txt_buf); free(buff); emmc_end(); goto exit; } // Disable writes to BIS. allow_writes = false; disk_set_info(DRIVE_BIS, SET_WRITE_PROTECT, &allow_writes); // Flush BIS cache, deinit, clear BIS keys slots and reinstate SBK. nx_emmc_bis_end(); hos_bis_keys_clear(); emmc_gpt_free(&gpt); emmc_end(); // Enable/Disable buttons depending on partition layout. if (part_info.l4t_size) { lv_obj_set_click(btn_flash_l4t, true); lv_btn_set_state(btn_flash_l4t, LV_BTN_STATE_REL); } else { lv_obj_set_click(btn_flash_l4t, false); lv_btn_set_state(btn_flash_l4t, LV_BTN_STATE_INA); } // Enable/Disable buttons depending on partition layout. if (part_info.and_size) { lv_obj_set_click(btn_flash_android, true); lv_btn_set_state(btn_flash_android, LV_BTN_STATE_REL); } else { lv_obj_set_click(btn_flash_android, false); lv_btn_set_state(btn_flash_android, LV_BTN_STATE_INA); } lv_label_set_text(lbl_status, "#00DDFF Status:# Done!"); manual_system_maintenance(true); // Set buttons depending on what user chose to create. if (part_info.l4t_size && part_info.and_size) lv_mbox_add_btns(mbox, mbox_btn_map1, _action_part_manager_flash_options0); else if (part_info.l4t_size) lv_mbox_add_btns(mbox, mbox_btn_map2, _action_part_manager_flash_options1); else if (part_info.and_size) lv_mbox_add_btns(mbox, mbox_btn_map3, _action_part_manager_flash_options2); if (part_info.l4t_size || part_info.and_size) buttons_set = true; lv_obj_del(lbl_extra); exit: free(txt_buf); if (!buttons_set) lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); // Disable partitioning button. if (part_info.partition_button) lv_btn_set_state(part_info.partition_button, LV_BTN_STATE_INA); return LV_RES_OK; } static lv_res_t _create_mbox_partitioning_option0(lv_obj_t *btns, const char *txt) { int btn_idx = lv_btnm_get_pressed(btns); switch (btn_idx) { case 0: action_ums_sd(NULL); return LV_RES_OK; case 1: nyx_mbox_action(btns, txt); _sd_create_mbox_start_partitioning(); break; case 2: nyx_mbox_action(btns, txt); break; } return LV_RES_INV; } static lv_res_t _create_mbox_partitioning_option1(lv_obj_t *btns, const char *txt) { int btn_idx = lv_btnm_get_pressed(btns); nyx_mbox_action(btns, txt); if (!btn_idx) { if (!part_info.emmc) _sd_create_mbox_start_partitioning(); else _emmc_create_mbox_start_partitioning(); return LV_RES_INV; } return LV_RES_OK; } static lv_res_t _create_mbox_partitioning_warn() { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\222SD UMS", "\222Start", "\222Cancel", "" }; static const char *mbox_btn_map1[] = { "\222Start", "\222Cancel", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); char *txt_buf = malloc(SZ_4K); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, "#FF8000 Partition Manager#"); lv_obj_t *lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); if (!part_info.emmc) { s_printf(txt_buf, "#FFDD00 Warning: This will partition the SD Card!#\n\n"); if (part_info.backup_possible) { strcat(txt_buf, "#C7EA46 Your files will be backed up and restored!#\n" "#FFDD00 Any other partition will be wiped!#"); } else { strcat(txt_buf, "#FFDD00 Your files will be wiped!#\n" "#FFDD00 Any other partition will be also wiped!#\n" "#FFDD00 Use USB UMS to copy them over!#"); } lv_label_set_text(lbl_status, txt_buf); if (part_info.backup_possible) lv_mbox_add_btns(mbox, mbox_btn_map1, _create_mbox_partitioning_option1); else lv_mbox_add_btns(mbox, mbox_btn_map, _create_mbox_partitioning_option0); } else { s_printf(txt_buf, "#FFDD00 Warning: This will partition the eMMC!#\n\n" "#FFDD00 The USER partition will also be formatted!#"); lv_label_set_text(lbl_status, txt_buf); lv_mbox_add_btns(mbox, mbox_btn_map1, _create_mbox_partitioning_option1); } lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); free(txt_buf); return LV_RES_OK; } static lv_res_t _create_mbox_partitioning_android(lv_obj_t *btns, const char *txt) { part_info.and_dynamic = lv_btnm_get_pressed(btns); nyx_mbox_action(btns, txt); _create_mbox_partitioning_warn(); return LV_RES_INV; } static lv_res_t _create_mbox_partitioning_andr_part() { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\222Legacy", "\222Dynamic", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 10 * 5); lv_mbox_set_text(mbox, "#FF8000 Android Partitioning#"); lv_obj_t *lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); lv_label_set_text(lbl_status, "Please select a partition scheme:\n\n" "#C7EA46 Dynamic:# Android 13+ (Preferred)\n" "#C7EA46 Legacy:# Android 11\n"); lv_mbox_add_btns(mbox, mbox_btn_map, _create_mbox_partitioning_android); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } static lv_res_t _create_mbox_partitioning_next(lv_obj_t *btn) { if (part_info.and_size) return _create_mbox_partitioning_andr_part(); else return _create_mbox_partitioning_warn(); } static void _update_partition_bar() { lv_obj_t *h1 = lv_obj_get_parent(part_info.bar_hos); // Set widths based on max bar width. u32 total_size = (part_info.total_sct - AU_ALIGN_SECTORS) / SECTORS_PER_GB; u32 bar_hos_size = lv_obj_get_width(h1) * (part_info.hos_size >> 10) / total_size; u32 bar_emu_size = lv_obj_get_width(h1) * (part_info.emu_size >> 10) / total_size; u32 bar_l4t_size = lv_obj_get_width(h1) * (part_info.l4t_size >> 10) / total_size; u32 bar_and_size = lv_obj_get_width(h1) * (part_info.and_size >> 10) / total_size; // Update bar widths. lv_obj_set_width(part_info.bar_hos, bar_hos_size); lv_obj_set_width(part_info.bar_emu, bar_emu_size); lv_obj_set_width(part_info.bar_l4t, bar_l4t_size); lv_obj_set_width(part_info.bar_and, bar_and_size); // Re-align bars. lv_obj_realign(part_info.bar_emu); lv_obj_realign(part_info.bar_l4t); lv_obj_realign(part_info.bar_and); // Set emuMMC blending separator sizes and realign. lv_obj_set_width(part_info.sep_emu, bar_emu_size ? 8 : 0); lv_obj_realign(part_info.sep_emu); // Set L4T blending separator sizes and realign. lv_obj_set_width(part_info.sep_l4t, bar_l4t_size ? 8 : 0); lv_obj_realign(part_info.sep_l4t); // Set Android blending separator sizes and realign. lv_obj_set_width(part_info.sep_and, bar_and_size ? 8 : 0); lv_obj_realign(part_info.sep_and); // Re-align size labels. lv_obj_realign(part_info.lbl_hos); lv_obj_realign(part_info.lbl_emu); lv_obj_realign(part_info.lbl_l4t); lv_obj_realign(part_info.lbl_and); lv_obj_align(part_info.cont_lbl, part_info.bar_hos, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI * 11 - LV_DPI / 2, LV_DPI * 9 / 23); } static lv_res_t _action_slider_emu(lv_obj_t *slider) { u32 size; char lbl_text[64]; bool prev_emu_double = part_info.emu_double; int slide_val = lv_slider_get_value(slider); u32 max_emmc_size = !part_info.emmc_is_64gb ? EMU_32GB_FULL : EMU_64GB_FULL; part_info.emu_double = false; // Check that eMMC exists. if (!part_info.emmc_size_mb) { lv_slider_set_value(slider, 0); return LV_RES_OK; } // In case of upgraded eMMC, do not allow FULL sizes. Max size is always bigger than official eMMCs. if (max_emmc_size < part_info.emmc_size_mb) { if (slide_val == EMU_SLIDER_1X_FULL) { if (prev_emu_double) slide_val--; else slide_val++; lv_slider_set_value(slider, slide_val); } else if (slide_val == EMU_SLIDER_2X_FULL) { slide_val--; lv_slider_set_value(slider, slide_val); } } size = (slide_val > EMU_SLIDER_1X_MAX ? (slide_val - EMU_SLIDER_1X_MAX) : slide_val) + EMU_SLIDER_OFFSET; size *= 1024; // Convert to GB. size += EMU_RSVD_MB; // Add reserved size. if (slide_val == EMU_SLIDER_MIN) size = 0; // Reset if 0. else if (slide_val >= EMU_SLIDER_2X_MIN) { size *= 2; part_info.emu_double = true; } // Handle special cases. 2nd value is for 64GB Aula. Values already include reserved space. if (slide_val == EMU_SLIDER_1X_FULL) size = max_emmc_size; else if (slide_val == EMU_SLIDER_2X_FULL) size = 2 * max_emmc_size; // Sanitize sizes based on new HOS size. s32 hos_size = (part_info.total_sct >> 11) - 16 - size - part_info.l4t_size - part_info.and_size; if (hos_size > part_info.hos_min_size) { part_info.emu_size = size; part_info.hos_size = hos_size; s_printf(lbl_text, "#96FF00 %4d GiB#", hos_size >> 10); lv_label_set_text(part_info.lbl_hos, lbl_text); lv_bar_set_value(part_info.slider_bar_hos, hos_size >> 10); if (!part_info.emu_double) { if (slide_val != EMU_SLIDER_1X_FULL) s_printf(lbl_text, "#FF3C28 %4d GiB#", size >> 10); else s_printf(lbl_text, "#FF3C28 %d FULL#", size >> 10); } else s_printf(lbl_text, "#FFDD00 2x##FF3C28 %d GiB#", size >> 11); lv_label_set_text(part_info.lbl_emu, lbl_text); } else { u32 emu_size = part_info.emu_size; if (emu_size == max_emmc_size) emu_size = EMU_SLIDER_1X_FULL; else if (emu_size == 2 * max_emmc_size) emu_size = EMU_SLIDER_2X_FULL; else if (emu_size) { if (prev_emu_double) emu_size /= 2; emu_size -= EMU_RSVD_MB; emu_size /= 1024; emu_size -= EMU_SLIDER_OFFSET; if (prev_emu_double) emu_size += EMU_SLIDER_2X_MIN; } int new_slider_val = emu_size; part_info.emu_double = prev_emu_double ? true : false; lv_slider_set_value(slider, new_slider_val); } _update_partition_bar(); return LV_RES_OK; } static lv_res_t _action_slider_l4t(lv_obj_t *slider) { char lbl_text[64]; u32 size = (u32)lv_slider_get_value(slider) << 10; if (size < 4096) size = 0; else if (size < 8192) size = 8192; s32 hos_size = (part_info.total_sct >> 11) - 16 - part_info.emu_size - size - part_info.and_size; // Sanitize sizes based on new HOS size. if (hos_size > part_info.hos_min_size) { if (size <= 8192) lv_slider_set_value(slider, size >> 10); } else { size = (part_info.total_sct >> 11) - 16 - part_info.emu_size - part_info.and_size - 2048; hos_size = (part_info.total_sct >> 11) - 16 - part_info.emu_size - part_info.and_size - size; if (hos_size < part_info.hos_min_size || size < 8192) { lv_slider_set_value(slider, part_info.l4t_size >> 10); goto out; } lv_slider_set_value(slider, size >> 10); } part_info.l4t_size = size; part_info.hos_size = hos_size; s_printf(lbl_text, "#96FF00 %4d GiB#", hos_size >> 10); lv_label_set_text(part_info.lbl_hos, lbl_text); lv_bar_set_value(part_info.slider_bar_hos, hos_size >> 10); s_printf(lbl_text, "#00DDFF %4d GiB#", size >> 10); lv_label_set_text(part_info.lbl_l4t, lbl_text); _update_partition_bar(); out: return LV_RES_OK; } static lv_res_t _action_slider_and(lv_obj_t *slider) { char lbl_text[64]; u32 user_size = (u32)lv_slider_get_value(slider) << 10; if (user_size < 2048) user_size = 0; else if (user_size < 4096) user_size = 4096; u32 and_size = user_size ? (user_size + AND_SYS_SIZE_MB) : 0; s32 hos_size = (part_info.total_sct >> 11) - 16 - part_info.emu_size - part_info.l4t_size - and_size; // Sanitize sizes based on new HOS size. if (hos_size > part_info.hos_min_size) { if (user_size <= 4096) lv_slider_set_value(slider, user_size >> 10); } else { and_size = (part_info.total_sct >> 11) - 16 - part_info.emu_size - part_info.l4t_size - 2048; hos_size = (part_info.total_sct >> 11) - 16 - part_info.emu_size - part_info.l4t_size - and_size; if (hos_size < part_info.hos_min_size || and_size < 8192) { lv_slider_set_value(slider, part_info.and_size >> 10); goto out; } user_size = and_size - AND_SYS_SIZE_MB; lv_slider_set_value(slider, user_size >> 10); } part_info.and_size = and_size; part_info.hos_size = hos_size; s_printf(lbl_text, "#96FF00 %4d GiB#", hos_size >> 10); lv_label_set_text(part_info.lbl_hos, lbl_text); lv_bar_set_value(part_info.slider_bar_hos, hos_size >> 10); s_printf(lbl_text, "#FF8000 %4d GiB#", user_size >> 10); lv_label_set_text(part_info.lbl_and, lbl_text); _update_partition_bar(); out: return LV_RES_OK; } static lv_res_t _mbox_check_files_total_size_option(lv_obj_t *btns, const char *txt) { // If "don't backup" button was pressed, disable backup/restore of files. if (!lv_btnm_get_pressed(btns)) part_info.backup_possible = false; nyx_mbox_action(btns, txt); return LV_RES_INV; } static void _create_mbox_check_files_total_size() { static lv_style_t bar_hos_ind, bar_emu_ind, bar_l4t_ind, bar_and_ind; static lv_style_t sep_emu_bg, sep_l4t_bg, sep_and_bg; // Set HOS bar style. lv_style_copy(&bar_hos_ind, lv_theme_get_current()->bar.indic); bar_hos_ind.body.main_color = LV_COLOR_HEX(0x96FF00); bar_hos_ind.body.grad_color = bar_hos_ind.body.main_color; // Set emuMMC bar style. lv_style_copy(&bar_emu_ind, lv_theme_get_current()->bar.indic); bar_emu_ind.body.main_color = LV_COLOR_HEX(0xFF3C28); bar_emu_ind.body.grad_color = bar_emu_ind.body.main_color; // Set L4T bar style. lv_style_copy(&bar_l4t_ind, lv_theme_get_current()->bar.indic); bar_l4t_ind.body.main_color = LV_COLOR_HEX(0x00DDFF); bar_l4t_ind.body.grad_color = bar_l4t_ind.body.main_color; // Set GPT bar style. lv_style_copy(&bar_and_ind, lv_theme_get_current()->bar.indic); bar_and_ind.body.main_color = LV_COLOR_HEX(0xC000FF); bar_and_ind.body.grad_color = bar_and_ind.body.main_color; // Set separator styles. lv_style_copy(&sep_emu_bg, lv_theme_get_current()->cont); sep_emu_bg.body.main_color = LV_COLOR_HEX(0xFF3C28); sep_emu_bg.body.grad_color = sep_emu_bg.body.main_color; sep_emu_bg.body.radius = 0; lv_style_copy(&sep_l4t_bg, &sep_emu_bg); sep_l4t_bg.body.main_color = LV_COLOR_HEX(0x00DDFF); sep_l4t_bg.body.grad_color = sep_l4t_bg.body.main_color; lv_style_copy(&sep_and_bg, &sep_emu_bg); sep_and_bg.body.main_color = LV_COLOR_HEX(0xC000FF); sep_and_bg.body.grad_color = sep_and_bg.body.main_color; char *txt_buf = malloc(SZ_8K); lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; static const char *mbox_btn_map2[] = { "\222Don't Backup", "\222OK", "" }; lv_obj_t *mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, "Analyzing SD card usage. This might take a while..."); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); manual_system_maintenance(true); char *path = malloc(0x1000); u32 total_files = 0; u32 total_size = 0; path[0] = 0; // Check total size of files. int res = _stat_and_copy_files("sd:", NULL, path, &total_files, &total_size, NULL); // Not more than 1.2GB. part_info.backup_possible = !res && !(total_size > (RAM_DISK_SZ - SZ_16M)); // Account for alignment. if (part_info.backup_possible) { s_printf(txt_buf, "#96FF00 The SD Card files will be backed up automatically!#\n" "#FFDD00 Any other partition will be wiped!#\n" "#00DDFF Total files:# %d, #00DDFF Total size:# %d MiB", total_files, total_size >> 20); lv_mbox_set_text(mbox, txt_buf); } else { lv_mbox_set_text(mbox, "#FFDD00 The SD Card cannot be backed up automatically!#\n" "#FFDD00 Any other partition will be also wiped!#\n\n" "You will be asked to back up your files later via UMS."); } // Create container to keep content inside. lv_obj_t *h1 = lv_cont_create(mbox, NULL); lv_cont_set_fit(h1, false, true); lv_cont_set_style(h1, &lv_style_transp_tight); lv_obj_set_width(h1, lv_obj_get_width(mbox) - LV_DPI * 3); lv_obj_t *lbl_part = lv_label_create(h1, NULL); lv_label_set_recolor(lbl_part, true); lv_label_set_text(lbl_part, "#00DDFF Current MBR partition layout:#"); // Read current MBR. mbr_t mbr = { 0 }; sdmmc_storage_read(&sd_storage, 0, 1, &mbr); // Calculate MBR partitions size. total_size = (sd_storage.sec_cnt - AU_ALIGN_SECTORS) / SECTORS_PER_GB; u32 bar_hos_size = lv_obj_get_width(h1) * (mbr.partitions[0].size_sct / SECTORS_PER_GB) / total_size; u32 bar_emu_size = 0; for (u32 i = 1; i < 4; i++) if (mbr.partitions[i].type == 0xE0) bar_emu_size += mbr.partitions[i].size_sct; bar_emu_size = lv_obj_get_width(h1) * (bar_emu_size / SECTORS_PER_GB) / total_size; u32 bar_l4t_size = 0; for (u32 i = 1; i < 4; i++) if (mbr.partitions[i].type == 0x83) bar_l4t_size += mbr.partitions[i].size_sct; bar_l4t_size = lv_obj_get_width(h1) * (bar_l4t_size / SECTORS_PER_GB) / total_size; u32 bar_and_size = lv_obj_get_width(h1) - bar_hos_size - bar_emu_size - bar_l4t_size; // Create HOS bar. lv_obj_t *bar_mbr_hos = lv_bar_create(h1, NULL); lv_obj_set_size(bar_mbr_hos, bar_hos_size, LV_DPI / 3); lv_bar_set_range(bar_mbr_hos, 0, 1); lv_bar_set_value(bar_mbr_hos, 1); lv_bar_set_style(bar_mbr_hos, LV_BAR_STYLE_INDIC, &bar_hos_ind); lv_obj_align(bar_mbr_hos, lbl_part, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 6); // Create emuMMC bar. lv_obj_t *bar_mbr_emu = lv_bar_create(h1, bar_mbr_hos); lv_obj_set_size(bar_mbr_emu, bar_emu_size, LV_DPI / 3); lv_bar_set_style(bar_mbr_emu, LV_BAR_STYLE_INDIC, &bar_emu_ind); lv_obj_align(bar_mbr_emu, bar_mbr_hos, LV_ALIGN_OUT_RIGHT_MID, 0, 0); // Create L4T bar. lv_obj_t *bar_mbr_l4t = lv_bar_create(h1, bar_mbr_hos); lv_obj_set_size(bar_mbr_l4t, bar_l4t_size, LV_DPI / 3); lv_bar_set_style(bar_mbr_l4t, LV_BAR_STYLE_INDIC, &bar_l4t_ind); lv_obj_align(bar_mbr_l4t, bar_mbr_emu, LV_ALIGN_OUT_RIGHT_MID, 0, 0); // Create GPT bar. lv_obj_t *bar_mbr_gpt = lv_bar_create(h1, bar_mbr_hos); lv_obj_set_size(bar_mbr_gpt, bar_and_size > 1 ? bar_and_size : 0, LV_DPI / 3); lv_bar_set_style(bar_mbr_gpt, LV_BAR_STYLE_INDIC, &bar_and_ind); lv_obj_align(bar_mbr_gpt, bar_mbr_l4t, LV_ALIGN_OUT_RIGHT_MID, 0, 0); // Create emuMMC separator. lv_obj_t *sep_mbr_emu = lv_cont_create(h1, NULL); lv_obj_set_size(sep_mbr_emu, bar_emu_size ? 8 : 0, LV_DPI / 3); lv_obj_set_style(sep_mbr_emu, &sep_emu_bg); lv_obj_align(sep_mbr_emu, bar_mbr_hos, LV_ALIGN_OUT_RIGHT_MID, -4, 0); // Create L4T separator. lv_obj_t *sep_mbr_l4t = lv_cont_create(h1, sep_mbr_emu); lv_obj_set_size(sep_mbr_l4t, bar_l4t_size ? 8 : 0, LV_DPI / 3); lv_obj_set_style(sep_mbr_l4t, &sep_l4t_bg); lv_obj_align(sep_mbr_l4t, bar_mbr_emu, LV_ALIGN_OUT_RIGHT_MID, -4, 0); // Create GPT separator. lv_obj_t *sep_mbr_gpt = lv_cont_create(h1, sep_mbr_emu); lv_obj_set_size(sep_mbr_gpt, bar_and_size ? (bar_and_size > 1 ? 8 : 0) : 0, LV_DPI / 3); lv_obj_set_style(sep_mbr_gpt, &sep_and_bg); lv_obj_align(sep_mbr_gpt, bar_mbr_l4t, LV_ALIGN_OUT_RIGHT_MID, -4, 0); // Print partition table info. s_printf(txt_buf, "Partition 0 - Type: %02x, Start: %08x, Size: %08x\n" "Partition 1 - Type: %02x, Start: %08x, Size: %08x\n" "Partition 2 - Type: %02x, Start: %08x, Size: %08x\n" "Partition 3 - Type: %02x, Start: %08x, Size: %08x", mbr.partitions[0].type, mbr.partitions[0].start_sct, mbr.partitions[0].size_sct, mbr.partitions[1].type, mbr.partitions[1].start_sct, mbr.partitions[1].size_sct, mbr.partitions[2].type, mbr.partitions[2].start_sct, mbr.partitions[2].size_sct, mbr.partitions[3].type, mbr.partitions[3].start_sct, mbr.partitions[3].size_sct); lv_obj_t *lbl_table = lv_label_create(h1, NULL); lv_label_set_style(lbl_table, &monospace_text); lv_label_set_text(lbl_table, txt_buf); lv_obj_align(lbl_table, h1, LV_ALIGN_IN_TOP_MID, 0, LV_DPI); if (!part_info.backup_possible) lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); else lv_mbox_add_btns(mbox, mbox_btn_map2, _mbox_check_files_total_size_option); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); free(txt_buf); free(path); } static lv_res_t _action_fix_mbr_gpt(lv_obj_t *btn) { lv_obj_t *dark_bg = lv_obj_create(lv_scr_act(), NULL); lv_obj_set_style(dark_bg, &mbox_darken); lv_obj_set_size(dark_bg, LV_HOR_RES, LV_VER_RES); static const char *mbox_btn_map[] = { "\251", "\222OK", "\251", "" }; lv_obj_t * mbox = lv_mbox_create(dark_bg, NULL); lv_mbox_set_recolor_text(mbox, true); lv_obj_set_width(mbox, LV_HOR_RES / 9 * 6); lv_mbox_set_text(mbox, "#FF8000 Fix Hybrid MBR#"); lv_obj_t *lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); mbr_t mbr[2] = { 0 }; gpt_t *gpt = zalloc(sizeof(gpt_t)); gpt_header_t gpt_hdr_backup = { 0 }; bool has_mbr_attributes = false; bool hybrid_mbr_changed = false; bool gpt_partition_exists = false; int gpt_oob_empty_part_no = 0; int gpt_emummc_migrate_no = 0; // Try to init sd card. No need for valid MBR. if (sd_mount() && !sd_get_card_initialized()) { lv_label_set_text(lbl_status, "#FFDD00 Failed to init SD!#"); goto out; } sdmmc_storage_read(&sd_storage, 0, 1, &mbr[0]); sdmmc_storage_read(&sd_storage, 1, sizeof(gpt_t) >> 9, gpt); memcpy(&mbr[1], &mbr[0], sizeof(mbr_t)); sd_unmount(); // Check for secret MBR attributes. if (gpt->entries[0].part_guid[7]) has_mbr_attributes = true; // Check if there's a GPT Protective partition. for (u32 i = 0; i < 4; i++) { if (mbr[0].partitions[i].type == 0xEE) gpt_partition_exists = true; } // Check if GPT is valid. if (!gpt_partition_exists || memcmp(&gpt->header.signature, "EFI PART", 8) || gpt->header.num_part_ents > 128) { lv_label_set_text(lbl_status, "#FFDD00 Warning:# No valid GPT was found!"); gpt_partition_exists = false; if (has_mbr_attributes) goto check_changes; else goto out; } sdmmc_storage_read(&sd_storage, gpt->header.alt_lba, 1, &gpt_hdr_backup); // Parse GPT. LIST_INIT(gpt_parsed); for (u32 i = 0; i < gpt->header.num_part_ents; i++) { // Check if partition is out of bounds or empty. if ( gpt->entries[i].lba_start < gpt->header.first_use_lba || gpt->entries[i].lba_start >= gpt->entries[i].lba_end || !gpt->entries[i].lba_end) { gpt_oob_empty_part_no++; continue; } emmc_part_t *part = (emmc_part_t *)zalloc(sizeof(emmc_part_t)); part->index = i; part->lba_start = gpt->entries[i].lba_start; part->lba_end = gpt->entries[i].lba_end; // ASCII conversion. Copy only the LSByte of the UTF-16LE name. for (u32 j = 0; j < 36; j++) part->name[j] = gpt->entries[i].name[j]; part->name[35] = 0; list_append(&gpt_parsed, &part->link); } // Set FAT and emuMMC partitions. u32 mbr_idx = 1; bool found_hos_data = false; u32 emummc_mbr_part_idx[2] = {0}; LIST_FOREACH_ENTRY(emmc_part_t, part, &gpt_parsed, link) { // FatFS simple GPT found a fat partition, set it. if (sd_fs.part_type && !part->index) { mbr[1].partitions[0].type = sd_fs.fs_type == FS_EXFAT ? 0x7 : 0xC; mbr[1].partitions[0].start_sct = part->lba_start; mbr[1].partitions[0].size_sct = part->lba_end - part->lba_start + 1; } // FatFS simple GPT didn't find a fat partition as the first one. if (!sd_fs.part_type && !found_hos_data && !strcmp(part->name, "hos_data")) { mbr[1].partitions[0].type = 0xC; mbr[1].partitions[0].start_sct = part->lba_start; mbr[1].partitions[0].size_sct = part->lba_end - part->lba_start + 1; found_hos_data = true; } // Set up to max 2 emuMMC partitions. if (!strcmp(part->name, "emummc") || !strcmp(part->name, "emummc2")) { mbr[1].partitions[mbr_idx].type = 0xE0; mbr[1].partitions[mbr_idx].start_sct = part->lba_start; mbr[1].partitions[mbr_idx].size_sct = part->lba_end - part->lba_start + 1; if (!strcmp(part->name, "emummc")) emummc_mbr_part_idx[0] = mbr_idx; else emummc_mbr_part_idx[1] = mbr_idx; mbr_idx++; } // Total reached last slot. if (mbr_idx >= 3) break; } emmc_gpt_free(&gpt_parsed); // Set GPT protective partition. mbr[1].partitions[mbr_idx].type = 0xEE; mbr[1].partitions[mbr_idx].start_sct = 1; mbr[1].partitions[mbr_idx].size_sct = sd_storage.sec_cnt - 1; // Check for differences. for (u32 i = 1; i < 4; i++) { if ((mbr[0].partitions[i].type != mbr[1].partitions[i].type) || (mbr[0].partitions[i].start_sct != mbr[1].partitions[i].start_sct) || (mbr[0].partitions[i].size_sct != mbr[1].partitions[i].size_sct)) { // Check if original MBR already has an emuMMC and use it as source of truth. if (mbr[0].partitions[i].type == 0xE0) { memcpy(&mbr[1].partitions[i], &mbr[0].partitions[i], sizeof(mbr_part_t)); gpt_emummc_migrate_no++; continue; } else hybrid_mbr_changed = true; break; } } check_changes: if (!hybrid_mbr_changed && !has_mbr_attributes && !gpt_emummc_migrate_no) { lv_label_set_text(lbl_status, "#96FF00 Warning:# The Hybrid MBR needs no change!#"); goto out; } char *txt_buf = malloc(SZ_16K); if (hybrid_mbr_changed) { // Current MBR info. s_printf(txt_buf, "#00DDFF Current MBR Layout:#\n"); s_printf(txt_buf + strlen(txt_buf), "Partition 0 - Type: %02x, Start: %08x, Size: %08x\n" "Partition 1 - Type: %02x, Start: %08x, Size: %08x\n" "Partition 2 - Type: %02x, Start: %08x, Size: %08x\n" "Partition 3 - Type: %02x, Start: %08x, Size: %08x\n\n", mbr[0].partitions[0].type, mbr[0].partitions[0].start_sct, mbr[0].partitions[0].size_sct, mbr[0].partitions[1].type, mbr[0].partitions[1].start_sct, mbr[0].partitions[1].size_sct, mbr[0].partitions[2].type, mbr[0].partitions[2].start_sct, mbr[0].partitions[2].size_sct, mbr[0].partitions[3].type, mbr[0].partitions[3].start_sct, mbr[0].partitions[3].size_sct); // New MBR info. s_printf(txt_buf + strlen(txt_buf), "#00DDFF New MBR Layout:#\n"); s_printf(txt_buf + strlen(txt_buf), "Partition 0 - Type: %02x, Start: %08x, Size: %08x\n" "Partition 1 - Type: %02x, Start: %08x, Size: %08x\n" "Partition 2 - Type: %02x, Start: %08x, Size: %08x\n" "Partition 3 - Type: %02x, Start: %08x, Size: %08x", mbr[1].partitions[0].type, mbr[1].partitions[0].start_sct, mbr[1].partitions[0].size_sct, mbr[1].partitions[1].type, mbr[1].partitions[1].start_sct, mbr[1].partitions[1].size_sct, mbr[1].partitions[2].type, mbr[1].partitions[2].start_sct, mbr[1].partitions[2].size_sct, mbr[1].partitions[3].type, mbr[1].partitions[3].start_sct, mbr[1].partitions[3].size_sct); } else if (has_mbr_attributes || gpt_emummc_migrate_no || gpt_oob_empty_part_no) { s_printf(txt_buf, "#00DDFF The following need to be corrected:#\n"); if (has_mbr_attributes) s_printf(txt_buf + strlen(txt_buf), "- MBR attributes\n"); if (gpt_emummc_migrate_no) s_printf(txt_buf + strlen(txt_buf), "- emuMMC GPT Partition address and size\n"); if (gpt_oob_empty_part_no) s_printf(txt_buf + strlen(txt_buf), "- GPT OOB/Empty Partitions (removal)\n"); } lv_label_set_text(lbl_status, txt_buf); lv_label_set_style(lbl_status, &monospace_text); free(txt_buf); lbl_status = lv_label_create(mbox, NULL); lv_label_set_recolor(lbl_status, true); lv_label_set_align(lbl_status, LV_LABEL_ALIGN_CENTER); lv_label_set_text(lbl_status, "#FF8000 Warning: Do you really want to continue?!#\n\n" "Press #FF8000 POWER# to Continue.\nPress #FF8000 VOL# to abort."); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); manual_system_maintenance(true); if (btn_wait() & BTN_POWER) { bool has_gpt_changes = false; sd_mount(); // Write MBR. if (hybrid_mbr_changed) sdmmc_storage_write(&sd_storage, 0, 1, &mbr[1]); // Fix MBR secret attributes. if (has_mbr_attributes) { // Clear secret attributes. gpt->entries[0].part_guid[7] = 0; has_gpt_changes = gpt_partition_exists; if (!has_gpt_changes) { // Only write the relevant sector if the only change is MBR attributes. sdmmc_storage_write(&sd_storage, 2, 1, &gpt->entries[0]); } } if (gpt_emummc_migrate_no) { u32 emu_idx = 0; for (u32 i = 0; i < gpt->header.num_part_ents; i++) { if (!memcmp(gpt->entries[i].name, (u16[]) { 'e', 'm', 'u', 'm', 'm', 'c' }, 12)) { u32 idx = emummc_mbr_part_idx[emu_idx]; gpt->entries[i].lba_start = mbr[0].partitions[idx].start_sct; gpt->entries[i].lba_end = mbr[0].partitions[idx].start_sct + mbr[0].partitions[idx].size_sct - 1; gpt_emummc_migrate_no--; emu_idx++; has_gpt_changes = true; } if (i > 126 || !gpt_emummc_migrate_no) break; } } if (gpt_oob_empty_part_no) { u32 part_idx = 0; for (u32 i = 0; i < gpt->header.num_part_ents; i++) { if ( gpt->entries[i].lba_start < gpt->header.first_use_lba || gpt->entries[i].lba_start >= gpt->entries[i].lba_end || !gpt->entries[i].lba_end) { continue; } if (part_idx != i) memcpy(&gpt->entries[part_idx], &gpt->entries[i], sizeof(gpt_entry_t)); part_idx++; } gpt->header.num_part_ents -= gpt_oob_empty_part_no; has_gpt_changes = true; } if (has_gpt_changes) { // Fix GPT CRC32s. u32 entries_size = sizeof(gpt_entry_t) * gpt->header.num_part_ents; gpt->header.part_ents_crc32 = crc32_calc(0, (const u8 *)gpt->entries, entries_size); gpt->header.crc32 = 0; // Set to 0 for calculation. gpt->header.crc32 = crc32_calc(0, (const u8 *)&gpt->header, gpt->header.size); gpt_hdr_backup.part_ents_crc32 = gpt->header.part_ents_crc32; gpt_hdr_backup.crc32 = 0; // Set to 0 for calculation. gpt_hdr_backup.crc32 = crc32_calc(0, (const u8 *)&gpt_hdr_backup, gpt_hdr_backup.size); // Write main GPT. u32 aligned_entries_size = ALIGN(entries_size, SD_BLOCKSIZE); sdmmc_storage_write(&sd_storage, gpt->header.my_lba, (sizeof(gpt_header_t) + aligned_entries_size) >> 9, gpt); // Write backup GPT partition table. sdmmc_storage_write(&sd_storage, gpt_hdr_backup.part_ent_lba, aligned_entries_size >> 9, gpt->entries); // Write backup GPT header. sdmmc_storage_write(&sd_storage, gpt_hdr_backup.my_lba, 1, &gpt_hdr_backup); } sd_unmount(); lv_label_set_text(lbl_status, "#96FF00 The new Hybrid MBR was written successfully!#"); } else lv_label_set_text(lbl_status, "#FFDD00 Warning: The Hybrid MBR Fix was canceled!#"); out: free(gpt); lv_mbox_add_btns(mbox, mbox_btn_map, nyx_mbox_action); lv_obj_align(mbox, NULL, LV_ALIGN_CENTER, 0, 0); lv_obj_set_top(mbox, true); return LV_RES_OK; } lv_res_t create_window_partition_manager(bool emmc) { lv_obj_t *win; if (!emmc) { win = nyx_create_standard_window(SYMBOL_SD" SD Partition Manager", NULL); lv_win_add_btn(win, NULL, SYMBOL_MODULES_ALT" Fix Hybrid MBR/GPT", _action_fix_mbr_gpt); } else win = nyx_create_standard_window(SYMBOL_CHIP" eMMC Partition Manager", NULL); static lv_style_t bar_hos_bg, bar_emu_bg, bar_l4t_bg, bar_and_bg; static lv_style_t bar_hos_ind, bar_emu_ind, bar_l4t_ind, bar_and_ind; static lv_style_t bar_emu_btn, bar_l4t_btn, bar_and_btn; static lv_style_t sep_emu_bg, sep_l4t_bg, sep_and_bg; // Set HOS bar styles. lv_style_copy(&bar_hos_bg, lv_theme_get_current()->bar.bg); bar_hos_bg.body.main_color = LV_COLOR_HEX(0x4A8000); bar_hos_bg.body.grad_color = bar_hos_bg.body.main_color; lv_style_copy(&bar_hos_ind, lv_theme_get_current()->bar.indic); bar_hos_ind.body.main_color = LV_COLOR_HEX(0x96FF00); bar_hos_ind.body.grad_color = bar_hos_ind.body.main_color; // Set eMUMMC bar styles. lv_style_copy(&bar_emu_bg, lv_theme_get_current()->bar.bg); bar_emu_bg.body.main_color = LV_COLOR_HEX(0x940F00); bar_emu_bg.body.grad_color = bar_emu_bg.body.main_color; lv_style_copy(&bar_emu_ind, lv_theme_get_current()->bar.indic); bar_emu_ind.body.main_color = LV_COLOR_HEX(0xFF3C28); bar_emu_ind.body.grad_color = bar_emu_ind.body.main_color; lv_style_copy(&bar_emu_btn, lv_theme_get_current()->slider.knob); bar_emu_btn.body.main_color = LV_COLOR_HEX(0xB31200); bar_emu_btn.body.grad_color = bar_emu_btn.body.main_color; lv_style_copy(&sep_emu_bg, lv_theme_get_current()->cont); sep_emu_bg.body.main_color = LV_COLOR_HEX(0xFF3C28); sep_emu_bg.body.grad_color = sep_emu_bg.body.main_color; sep_emu_bg.body.radius = 0; // Set L4T bar styles. lv_style_copy(&bar_l4t_bg, lv_theme_get_current()->bar.bg); bar_l4t_bg.body.main_color = LV_COLOR_HEX(0x006E80); bar_l4t_bg.body.grad_color = bar_l4t_bg.body.main_color; lv_style_copy(&bar_l4t_ind, lv_theme_get_current()->bar.indic); bar_l4t_ind.body.main_color = LV_COLOR_HEX(0x00DDFF); bar_l4t_ind.body.grad_color = bar_l4t_ind.body.main_color; lv_style_copy(&bar_l4t_btn, lv_theme_get_current()->slider.knob); bar_l4t_btn.body.main_color = LV_COLOR_HEX(0x00B1CC); bar_l4t_btn.body.grad_color = bar_l4t_btn.body.main_color; lv_style_copy(&sep_l4t_bg, &sep_emu_bg); sep_l4t_bg.body.main_color = LV_COLOR_HEX(0x00DDFF); sep_l4t_bg.body.grad_color = sep_l4t_bg.body.main_color; // Set Android bar styles. lv_style_copy(&bar_and_bg, lv_theme_get_current()->bar.bg); bar_and_bg.body.main_color = LV_COLOR_HEX(0x804000); bar_and_bg.body.grad_color = bar_and_bg.body.main_color; lv_style_copy(&bar_and_ind, lv_theme_get_current()->bar.indic); bar_and_ind.body.main_color = LV_COLOR_HEX(0xFF8000); bar_and_ind.body.grad_color = bar_and_ind.body.main_color; lv_style_copy(&bar_and_btn, lv_theme_get_current()->slider.knob); bar_and_btn.body.main_color = LV_COLOR_HEX(0xCC6600); bar_and_btn.body.grad_color = bar_and_btn.body.main_color; lv_style_copy(&sep_and_bg, &sep_emu_bg); sep_and_bg.body.main_color = LV_COLOR_HEX(0xFF8000); sep_and_bg.body.grad_color = sep_and_bg.body.main_color; lv_obj_t *sep = lv_label_create(win, NULL); lv_label_set_static_text(sep, ""); lv_obj_align(sep, NULL, LV_ALIGN_IN_TOP_MID, 0, 0); // Create container to keep content inside. lv_obj_t *h1 = lv_cont_create(win, NULL); lv_obj_set_size(h1, LV_HOR_RES - (LV_DPI * 8 / 10), LV_VER_RES - LV_DPI); u32 emmc_size = 0; if (!emmc) { if (sd_mount()) { lv_obj_t *lbl = lv_label_create(h1, NULL); lv_label_set_recolor(lbl, true); lv_label_set_text(lbl, "#FFDD00 Failed to init SD!#"); return LV_RES_OK; } if (!emmc_initialize(false)) { emmc_set_partition(EMMC_GPP); emmc_size = emmc_storage.sec_cnt >> 11; emmc_end(); } } else { if (emmc_initialize(false)) { lv_obj_t *lbl = lv_label_create(h1, NULL); lv_label_set_recolor(lbl, true); lv_label_set_text(lbl, "#FFDD00 Failed to init eMMC!#"); return LV_RES_OK; } emmc_set_partition(EMMC_GPP); } memset(&part_info, 0, sizeof(partition_ctxt_t)); if (!emmc) _create_mbox_check_files_total_size(); char *txt_buf = malloc(SZ_8K); part_info.emmc = emmc; part_info.storage = !emmc ? &sd_storage : &emmc_storage; part_info.total_sct = part_info.storage->sec_cnt; if (emmc) part_info.total_sct -= HOS_USER_SECTOR; // Reserved HOS partitions. // Align down total size to ensure alignment of all partitions after HOS one. part_info.alignment = part_info.total_sct - ALIGN_DOWN(part_info.total_sct, AU_ALIGN_SECTORS); part_info.total_sct -= part_info.alignment; u32 extra_sct = AU_ALIGN_SECTORS + 0x400000; // Reserved 16MB alignment for FAT partition + 2GB. // Set initial HOS partition size, so the correct cluster size can be selected. part_info.hos_size = (part_info.total_sct >> 11) - 16; // Important if there's no slider change. // Check if eMMC should be 64GB (Aula). part_info.emmc_is_64gb = fuse_read_hw_type() == FUSE_NX_HW_TYPE_AULA; // Set actual eMMC size. part_info.emmc_size_mb = emmc_size; // Set HOS FAT or USER minimum size. part_info.hos_min_size = !emmc? HOS_FAT_MIN_SIZE_MB : HOS_USER_MIN_SIZE_MB; // Read current MBR. mbr_t mbr = { 0 }; sdmmc_storage_read(part_info.storage, 0, 1, &mbr); u32 bar_hos_size = lv_obj_get_width(h1); u32 bar_emu_size = 0; u32 bar_l4t_size = 0; u32 bar_and_size = 0; lv_obj_t *lbl = lv_label_create(h1, NULL); lv_label_set_recolor(lbl, true); lv_label_set_text(lbl, "Choose #FFDD00 new# partition layout:"); // Create disk layout blocks. // HOS partition block. lv_obj_t *bar_hos = lv_bar_create(h1, NULL); lv_obj_set_size(bar_hos, bar_hos_size, LV_DPI / 2); lv_bar_set_range(bar_hos, 0, 1); lv_bar_set_value(bar_hos, 1); lv_bar_set_style(bar_hos, LV_BAR_STYLE_INDIC, &bar_hos_ind); lv_obj_align(bar_hos, lbl, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 6); part_info.bar_hos = bar_hos; // emuMMC partition block. lv_obj_t *bar_emu = lv_bar_create(h1, bar_hos); lv_obj_set_size(bar_emu, bar_emu_size, LV_DPI / 2); lv_bar_set_style(bar_emu, LV_BAR_STYLE_INDIC, &bar_emu_ind); lv_obj_align(bar_emu, bar_hos, LV_ALIGN_OUT_RIGHT_MID, 0, 0); part_info.bar_emu = bar_emu; // L4T partition block. lv_obj_t *bar_l4t = lv_bar_create(h1, bar_hos); lv_obj_set_size(bar_l4t, bar_l4t_size, LV_DPI / 2); lv_bar_set_style(bar_l4t, LV_BAR_STYLE_INDIC, &bar_l4t_ind); lv_obj_align(bar_l4t, bar_emu, LV_ALIGN_OUT_RIGHT_MID, 0, 0); part_info.bar_l4t = bar_l4t; // Android partition block. lv_obj_t *bar_and = lv_bar_create(h1, bar_hos); lv_obj_set_size(bar_and, bar_and_size, LV_DPI / 2); lv_bar_set_style(bar_and, LV_BAR_STYLE_INDIC, &bar_and_ind); lv_obj_align(bar_and, bar_l4t, LV_ALIGN_OUT_RIGHT_MID, 0, 0); part_info.bar_and = bar_and; // HOS partition block. lv_obj_t *sep_emu = lv_cont_create(h1, NULL); lv_cont_set_fit(sep_emu, false, false); lv_obj_set_size(sep_emu, 0, LV_DPI / 2); // 8. lv_obj_set_style(sep_emu, &sep_emu_bg); lv_obj_align(sep_emu, bar_hos, LV_ALIGN_OUT_RIGHT_MID, -4, 0); part_info.sep_emu = sep_emu; // Create disk layout blending separators. lv_obj_t *sep_l4t = lv_cont_create(h1, sep_emu); lv_obj_set_style(sep_l4t, &sep_l4t_bg); lv_obj_align(sep_l4t, bar_emu, LV_ALIGN_OUT_RIGHT_MID, -4, 0); part_info.sep_l4t = sep_l4t; lv_obj_t *sep_and = lv_cont_create(h1, sep_emu); lv_obj_set_style(sep_and, &sep_and_bg); lv_obj_align(sep_and, bar_l4t, LV_ALIGN_OUT_RIGHT_MID, -4, 0); part_info.sep_and = sep_and; // Create slider type labels. lv_obj_t *cont_lbl_hos = lv_cont_create(h1, NULL); lv_cont_set_fit(cont_lbl_hos, false, true); lv_obj_set_width(cont_lbl_hos, LV_DPI * 17 / 7); lv_obj_t *lbl_hos = lv_label_create(cont_lbl_hos, NULL); lv_label_set_recolor(lbl_hos, true); lv_label_set_static_text(lbl_hos, !emmc ? "#96FF00 "SYMBOL_DOT" HOS (FAT32):#" : "#96FF00 "SYMBOL_DOT" eMMC (USER):#"); lv_obj_align(lbl_hos, bar_hos, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 2); lv_obj_t *lbl_emu = lbl_hos; if (!emmc) { lbl_emu = lv_label_create(h1, lbl_hos); lv_label_set_static_text(lbl_emu, "#FF3C28 "SYMBOL_DOT" emuMMC (RAW):#"); lv_obj_align(lbl_emu, lbl_hos, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); } lv_obj_t *lbl_l4t = lv_label_create(h1, lbl_hos); lv_label_set_static_text(lbl_l4t, "#00DDFF "SYMBOL_DOT" Linux (EXT4):#"); lv_obj_align(lbl_l4t, lbl_emu, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); lv_obj_t *lbl_and = lv_label_create(h1, lbl_hos); lv_label_set_static_text(lbl_and, "#FF8000 "SYMBOL_DOT" Android (USER):#"); lv_obj_align(lbl_and, lbl_l4t, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3); // Create HOS size slider. Non-interactive. lv_obj_t *slider_bar_hos = lv_bar_create(h1, NULL); lv_obj_set_size(slider_bar_hos, LV_DPI * 7, LV_DPI * 3 / 17); lv_bar_set_range(slider_bar_hos, 0, (part_info.total_sct - AU_ALIGN_SECTORS) / SECTORS_PER_GB); lv_bar_set_value(slider_bar_hos, (part_info.total_sct - AU_ALIGN_SECTORS) / SECTORS_PER_GB); lv_bar_set_style(slider_bar_hos, LV_SLIDER_STYLE_BG, &bar_hos_bg); lv_bar_set_style(slider_bar_hos, LV_SLIDER_STYLE_INDIC, &bar_hos_ind); lv_obj_align(slider_bar_hos, cont_lbl_hos, LV_ALIGN_OUT_RIGHT_MID, LV_DPI, 0); part_info.slider_bar_hos = slider_bar_hos; lv_obj_t *slider_emu = slider_bar_hos; if (!emmc) { // Create emuMMC size slider. slider_emu = lv_slider_create(h1, NULL); lv_obj_set_size(slider_emu, LV_DPI * 7, LV_DPI / 3); lv_slider_set_range(slider_emu, EMU_SLIDER_MIN, EMU_SLIDER_MAX); lv_slider_set_value(slider_emu, EMU_SLIDER_MIN); lv_slider_set_style(slider_emu, LV_SLIDER_STYLE_BG, &bar_emu_bg); lv_slider_set_style(slider_emu, LV_SLIDER_STYLE_INDIC, &bar_emu_ind); lv_slider_set_style(slider_emu, LV_SLIDER_STYLE_KNOB, &bar_emu_btn); lv_obj_align(slider_emu, slider_bar_hos, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3 + 5); lv_slider_set_action(slider_emu, _action_slider_emu); } // Create L4T size slider. lv_obj_t *slider_l4t = lv_slider_create(h1, NULL); lv_obj_set_size(slider_l4t, LV_DPI * 7, LV_DPI / 3); lv_slider_set_range(slider_l4t, 0, (part_info.total_sct - extra_sct) / SECTORS_PER_GB); lv_slider_set_value(slider_l4t, 0); lv_slider_set_style(slider_l4t, LV_SLIDER_STYLE_BG, &bar_l4t_bg); lv_slider_set_style(slider_l4t, LV_SLIDER_STYLE_INDIC, &bar_l4t_ind); lv_slider_set_style(slider_l4t, LV_SLIDER_STYLE_KNOB, &bar_l4t_btn); lv_obj_align(slider_l4t, slider_emu, LV_ALIGN_OUT_BOTTOM_LEFT, 0, !emmc ? (LV_DPI / 3 - 3) : (LV_DPI / 3 + 5)); lv_slider_set_action(slider_l4t, _action_slider_l4t); // Create Android size slider. lv_obj_t *slider_and = lv_slider_create(h1, NULL); lv_obj_set_size(slider_and, LV_DPI * 7, LV_DPI / 3); lv_slider_set_range(slider_and, 0, (part_info.total_sct - extra_sct) / SECTORS_PER_GB - (AND_SYS_SIZE_MB / 1024)); // Subtract android reserved size. lv_slider_set_value(slider_and, 0); lv_slider_set_style(slider_and, LV_SLIDER_STYLE_BG, &bar_and_bg); lv_slider_set_style(slider_and, LV_SLIDER_STYLE_INDIC, &bar_and_ind); lv_slider_set_style(slider_and, LV_SLIDER_STYLE_KNOB, &bar_and_btn); lv_obj_align(slider_and, slider_l4t, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 3 - 3); lv_slider_set_action(slider_and, _action_slider_and); // Create container for the labels. lv_obj_t *cont_lbl = lv_cont_create(h1, NULL); lv_cont_set_fit(cont_lbl, false, true); lv_obj_set_width(cont_lbl, LV_DPI * 3 / 2); part_info.cont_lbl = cont_lbl; // Create HOS size label. lv_obj_t *lbl_sl_hos = lv_label_create(cont_lbl, NULL); lv_label_set_recolor(lbl_sl_hos, true); lv_label_set_align(lbl_sl_hos, LV_LABEL_ALIGN_RIGHT); s_printf(txt_buf, "#96FF00 %4d GiB#", (part_info.total_sct - AU_ALIGN_SECTORS) >> 11 >> 10); lv_label_set_text(lbl_sl_hos, txt_buf); lv_obj_align(lbl_sl_hos, cont_lbl, LV_ALIGN_IN_TOP_RIGHT, 0, 0); part_info.lbl_hos = lbl_sl_hos; // Create emuMMC size label. part_info.lbl_emu = lbl_sl_hos; if (!emmc) { lv_obj_t *lbl_sl_emu = lv_label_create(cont_lbl, lbl_sl_hos); lv_label_set_text(lbl_sl_emu, "#FF3C28 0 GiB#"); lv_obj_align(lbl_sl_emu, lbl_sl_hos, LV_ALIGN_OUT_BOTTOM_RIGHT, 0, LV_DPI / 3); part_info.lbl_emu = lbl_sl_emu; } // Create L4T size label. lv_obj_t *lbl_sl_l4t = lv_label_create(cont_lbl, lbl_sl_hos); lv_label_set_text(lbl_sl_l4t, "#00DDFF 0 GiB#"); lv_obj_align(lbl_sl_l4t, part_info.lbl_emu, LV_ALIGN_OUT_BOTTOM_RIGHT, 0, LV_DPI / 3); part_info.lbl_l4t = lbl_sl_l4t; // Create Android size label. lv_obj_t *lbl_sl_and = lv_label_create(cont_lbl, lbl_sl_hos); lv_label_set_text(lbl_sl_and, "#FF8000 0 GiB#"); lv_obj_align(lbl_sl_and, lbl_sl_l4t, LV_ALIGN_OUT_BOTTOM_RIGHT, 0, LV_DPI / 3); part_info.lbl_and = lbl_sl_and; lv_obj_align(cont_lbl, bar_hos, LV_ALIGN_OUT_BOTTOM_LEFT, LV_DPI * 11 - LV_DPI / 2, LV_DPI * 9 / 23); // Set partition manager notes. lv_obj_t *lbl_notes = lv_label_create(h1, NULL); lv_label_set_recolor(lbl_notes, true); lv_label_set_style(lbl_notes, &hint_small_style); if (!emmc) { lv_label_set_static_text(lbl_notes, "Note 1: Only up to #C7EA46 1.2GB# can be backed up. If more, you will be asked to back them manually at the next step.\n" "Note 2: Resized emuMMC formats the USER partition. A save data manager can be used to move them over.\n" "Note 3: The #C7EA46 Flash Linux# and #C7EA46 Flash Android# will flash files if suitable partitions and installer files are found.\n"); lv_obj_align(lbl_notes, lbl_and, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 6 * 2); } else { lv_label_set_static_text(lbl_notes, "Note 1: Any partition existing after the selected ones gets removed from the table.\n" "Note 2: The HOS USER partition gets formatted. A save data manager can be used to move them over.\n" "Note 3: The #C7EA46 Flash Linux# and #C7EA46 Flash Android# will flash files if suitable partitions and installer files are found.\n"); lv_obj_align(lbl_notes, lbl_and, LV_ALIGN_OUT_BOTTOM_LEFT, 0, LV_DPI / 6 * 4); } lv_obj_t *btn1 = NULL; lv_obj_t *label_btn = NULL; if (!emmc) { // Create UMS button. btn1 = lv_btn_create(h1, NULL); lv_obj_t *label_btn = lv_label_create(btn1, NULL); lv_btn_set_fit(btn1, true, true); lv_label_set_static_text(label_btn, SYMBOL_USB" SD UMS"); lv_obj_align(btn1, h1, LV_ALIGN_IN_TOP_LEFT, 0, LV_DPI * 5); lv_btn_set_action(btn1, LV_BTN_ACTION_CLICK, _action_part_manager_ums_sd); } // Create Flash Linux button. btn_flash_l4t = lv_btn_create(h1, NULL); label_btn = lv_label_create(btn_flash_l4t, NULL); lv_btn_set_fit(btn_flash_l4t, true, true); lv_label_set_static_text(label_btn, SYMBOL_DOWNLOAD" Flash Linux"); if (!emmc) lv_obj_align(btn_flash_l4t, btn1, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 3, 0); else lv_obj_align(btn_flash_l4t, h1, LV_ALIGN_IN_TOP_LEFT, 0, LV_DPI * 5); lv_btn_set_action(btn_flash_l4t, LV_BTN_ACTION_CLICK, _action_check_flash_linux); // Disable Flash Linux button if partition not found. u32 size_sct = _get_available_l4t_partition(); if (!l4t_flash_ctxt.offset_sct || size_sct < 0x800000) { lv_obj_set_click(btn_flash_l4t, false); lv_btn_set_state(btn_flash_l4t, LV_BTN_STATE_INA); } int part_type_and = _get_available_android_partition(); // Create Flash Android button. btn_flash_android = lv_btn_create(h1, NULL); label_btn = lv_label_create(btn_flash_android, NULL); lv_btn_set_fit(btn_flash_android, true, true); switch (part_type_and) { case 0: // Disable Flash Android button if partition not found. lv_label_set_static_text(label_btn, SYMBOL_DOWNLOAD" Flash Android"); lv_obj_set_click(btn_flash_android, false); lv_btn_set_state(btn_flash_android, LV_BTN_STATE_INA); break; case 1: // Android 11. lv_label_set_static_text(label_btn, SYMBOL_DOWNLOAD" Flash Android 11"); break; case 2: // Android 13+ lv_label_set_static_text(label_btn, SYMBOL_DOWNLOAD" Flash Android 13+"); break; } lv_obj_align(btn_flash_android, btn_flash_l4t, LV_ALIGN_OUT_RIGHT_MID, LV_DPI / 3, 0); lv_btn_set_action(btn_flash_android, LV_BTN_ACTION_CLICK, _action_flash_android); // Create next step button. btn1 = lv_btn_create(h1, NULL); label_btn = lv_label_create(btn1, NULL); lv_btn_set_fit(btn1, true, true); lv_label_set_static_text(label_btn, SYMBOL_SD" Next Step"); lv_obj_align(btn1, h1, LV_ALIGN_IN_TOP_RIGHT, 0, LV_DPI * 5); lv_btn_set_action(btn1, LV_BTN_ACTION_CLICK, _create_mbox_partitioning_next); part_info.partition_button = btn1; free(txt_buf); if (!emmc) sd_unmount(); else emmc_end(); return LV_RES_OK; } lv_res_t create_window_sd_partition_manager(lv_obj_t *btn) { return create_window_partition_manager(false); } lv_res_t create_window_emmc_partition_manager(lv_obj_t *btn) { return create_window_partition_manager(true); } ================================================ FILE: nyx/nyx_gui/frontend/gui_tools_partition_manager.h ================================================ /* * Copyright (c) 2019-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GUI_TOOLS_PART_MANAGER_H_ #define _GUI_TOOLS_PART_MANAGER_H_ lv_res_t create_window_sd_partition_manager(lv_obj_t *btn); lv_res_t create_window_emmc_partition_manager(lv_obj_t *btn); #endif ================================================ FILE: nyx/nyx_gui/gfx/gfx.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2022 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "gfx.h" #define COLUMN2_X 640 // Global gfx console and context. gfx_ctxt_t gfx_ctxt; gfx_con_t gfx_con; static bool gfx_con_init_done = false; static const u8 _gfx_font[] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // Char 032 ( ) 0x00, 0x30, 0x30, 0x18, 0x18, 0x00, 0x0C, 0x00, // Char 033 (!) 0x00, 0x22, 0x22, 0x22, 0x00, 0x00, 0x00, 0x00, // Char 034 (") 0x00, 0x66, 0x66, 0xFF, 0x66, 0xFF, 0x66, 0x66, // Char 035 (#) 0x00, 0x18, 0x7C, 0x06, 0x3C, 0x60, 0x3E, 0x18, // Char 036 ($) 0x00, 0x46, 0x66, 0x30, 0x18, 0x0C, 0x66, 0x62, // Char 037 (%) 0x00, 0x3C, 0x66, 0x3C, 0x1C, 0xE6, 0x66, 0xFC, // Char 038 (&) 0x00, 0x18, 0x0C, 0x06, 0x00, 0x00, 0x00, 0x00, // Char 039 (') 0x00, 0x30, 0x18, 0x0C, 0x0C, 0x18, 0x30, 0x00, // Char 040 (() 0x00, 0x0C, 0x18, 0x30, 0x30, 0x18, 0x0C, 0x00, // Char 041 ()) 0x00, 0x66, 0x3C, 0xFF, 0x3C, 0x66, 0x00, 0x00, // Char 042 (*) 0x00, 0x18, 0x18, 0x7E, 0x18, 0x18, 0x00, 0x00, // Char 043 (+) 0x00, 0x00, 0x00, 0x00, 0x18, 0x18, 0x0C, 0x00, // Char 044 (,) 0x00, 0x00, 0x00, 0x3E, 0x00, 0x00, 0x00, 0x00, // Char 045 (-) 0x00, 0x00, 0x00, 0x00, 0x00, 0x18, 0x18, 0x00, // Char 046 (.) 0x00, 0x40, 0x60, 0x30, 0x18, 0x0C, 0x06, 0x00, // Char 047 (/) 0x00, 0x3C, 0x66, 0x76, 0x6E, 0x66, 0x3C, 0x00, // Char 048 (0) 0x00, 0x18, 0x1C, 0x18, 0x18, 0x18, 0x7E, 0x00, // Char 049 (1) 0x00, 0x3C, 0x62, 0x30, 0x0C, 0x06, 0x7E, 0x00, // Char 050 (2) 0x00, 0x3C, 0x62, 0x38, 0x60, 0x66, 0x3C, 0x00, // Char 051 (3) 0x00, 0x6C, 0x6C, 0x66, 0xFE, 0x60, 0x60, 0x00, // Char 052 (4) 0x00, 0x7E, 0x06, 0x7E, 0x60, 0x66, 0x3C, 0x00, // Char 053 (5) 0x00, 0x3C, 0x06, 0x3E, 0x66, 0x66, 0x3C, 0x00, // Char 054 (6) 0x00, 0x7E, 0x30, 0x30, 0x18, 0x18, 0x18, 0x00, // Char 055 (7) 0x00, 0x3C, 0x66, 0x3C, 0x66, 0x66, 0x3C, 0x00, // Char 056 (8) 0x00, 0x3C, 0x66, 0x7C, 0x60, 0x66, 0x3C, 0x00, // Char 057 (9) 0x00, 0x00, 0x18, 0x00, 0x00, 0x00, 0x18, 0x00, // Char 058 (:) 0x00, 0x00, 0x18, 0x00, 0x18, 0x18, 0x0C, 0x00, // Char 059 (;) 0x00, 0x70, 0x1C, 0x06, 0x06, 0x1C, 0x70, 0x00, // Char 060 (<) 0x00, 0x00, 0x3E, 0x00, 0x3E, 0x00, 0x00, 0x00, // Char 061 (=) 0x00, 0x0E, 0x38, 0x60, 0x60, 0x38, 0x0E, 0x00, // Char 062 (>) 0x00, 0x3C, 0x66, 0x30, 0x18, 0x00, 0x18, 0x00, // Char 063 (?) 0x00, 0x3C, 0x66, 0x76, 0x76, 0x06, 0x46, 0x3C, // Char 064 (@) 0x00, 0x3C, 0x66, 0x7E, 0x66, 0x66, 0x66, 0x00, // Char 065 (A) 0x00, 0x3E, 0x66, 0x3E, 0x66, 0x66, 0x3E, 0x00, // Char 066 (B) 0x00, 0x3C, 0x66, 0x06, 0x06, 0x66, 0x3C, 0x00, // Char 067 (C) 0x00, 0x1E, 0x36, 0x66, 0x66, 0x36, 0x1E, 0x00, // Char 068 (D) 0x00, 0x7E, 0x06, 0x1E, 0x06, 0x06, 0x7E, 0x00, // Char 069 (E) 0x00, 0x3E, 0x06, 0x1E, 0x06, 0x06, 0x06, 0x00, // Char 070 (F) 0x00, 0x3C, 0x66, 0x06, 0x76, 0x66, 0x3C, 0x00, // Char 071 (G) 0x00, 0x66, 0x66, 0x7E, 0x66, 0x66, 0x66, 0x00, // Char 072 (H) 0x00, 0x3C, 0x18, 0x18, 0x18, 0x18, 0x3C, 0x00, // Char 073 (I) 0x00, 0x78, 0x30, 0x30, 0x30, 0x36, 0x1C, 0x00, // Char 074 (J) 0x00, 0x66, 0x36, 0x1E, 0x1E, 0x36, 0x66, 0x00, // Char 075 (K) 0x00, 0x06, 0x06, 0x06, 0x06, 0x06, 0x7E, 0x00, // Char 076 (L) 0x00, 0x46, 0x6E, 0x7E, 0x56, 0x46, 0x46, 0x00, // Char 077 (M) 0x00, 0x66, 0x6E, 0x7E, 0x76, 0x66, 0x66, 0x00, // Char 078 (N) 0x00, 0x3C, 0x66, 0x66, 0x66, 0x66, 0x3C, 0x00, // Char 079 (O) 0x00, 0x3E, 0x66, 0x3E, 0x06, 0x06, 0x06, 0x00, // Char 080 (P) 0x00, 0x3C, 0x66, 0x66, 0x66, 0x3C, 0x70, 0x00, // Char 081 (Q) 0x00, 0x3E, 0x66, 0x3E, 0x1E, 0x36, 0x66, 0x00, // Char 082 (R) 0x00, 0x3C, 0x66, 0x0C, 0x30, 0x66, 0x3C, 0x00, // Char 083 (S) 0x00, 0x7E, 0x18, 0x18, 0x18, 0x18, 0x18, 0x00, // Char 084 (T) 0x00, 0x66, 0x66, 0x66, 0x66, 0x66, 0x3C, 0x00, // Char 085 (U) 0x00, 0x66, 0x66, 0x66, 0x66, 0x3C, 0x18, 0x00, // Char 086 (V) 0x00, 0x46, 0x46, 0x56, 0x7E, 0x6E, 0x46, 0x00, // Char 087 (W) 0x00, 0x66, 0x3C, 0x18, 0x3C, 0x66, 0x66, 0x00, // Char 088 (X) 0x00, 0x66, 0x66, 0x3C, 0x18, 0x18, 0x18, 0x00, // Char 089 (Y) 0x00, 0x7E, 0x30, 0x18, 0x0C, 0x06, 0x7E, 0x00, // Char 090 (Z) 0x00, 0x3C, 0x0C, 0x0C, 0x0C, 0x0C, 0x0C, 0x3C, // Char 091 ([) 0x00, 0x06, 0x0C, 0x18, 0x30, 0x60, 0x40, 0x00, // Char 092 (\) 0x00, 0x3C, 0x30, 0x30, 0x30, 0x30, 0x30, 0x3C, // Char 093 (]) 0x00, 0x18, 0x3C, 0x66, 0x00, 0x00, 0x00, 0x00, // Char 094 (^) 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xFF, // Char 095 (_) 0x00, 0x0C, 0x18, 0x30, 0x00, 0x00, 0x00, 0x00, // Char 096 (`) 0x00, 0x00, 0x3C, 0x60, 0x7C, 0x66, 0x7C, 0x00, // Char 097 (a) 0x00, 0x06, 0x06, 0x3E, 0x66, 0x66, 0x3E, 0x00, // Char 098 (b) 0x00, 0x00, 0x3C, 0x06, 0x06, 0x06, 0x3C, 0x00, // Char 099 (c) 0x00, 0x60, 0x60, 0x7C, 0x66, 0x66, 0x7C, 0x00, // Char 100 (d) 0x00, 0x00, 0x3C, 0x66, 0x7E, 0x06, 0x3C, 0x00, // Char 101 (e) 0x00, 0x38, 0x0C, 0x3E, 0x0C, 0x0C, 0x0C, 0x00, // Char 102 (f) 0x00, 0x00, 0x7C, 0x66, 0x7C, 0x40, 0x3C, 0x00, // Char 103 (g) 0x00, 0x06, 0x06, 0x3E, 0x66, 0x66, 0x66, 0x00, // Char 104 (h) 0x00, 0x18, 0x00, 0x1C, 0x18, 0x18, 0x3C, 0x00, // Char 105 (i) 0x00, 0x30, 0x00, 0x30, 0x30, 0x30, 0x1E, 0x00, // Char 106 (j) 0x00, 0x06, 0x06, 0x36, 0x1E, 0x36, 0x66, 0x00, // Char 107 (k) 0x00, 0x1C, 0x18, 0x18, 0x18, 0x18, 0x3C, 0x00, // Char 108 (l) 0x00, 0x00, 0x66, 0xFE, 0xFE, 0xD6, 0xC6, 0x00, // Char 109 (m) 0x00, 0x00, 0x3E, 0x66, 0x66, 0x66, 0x66, 0x00, // Char 110 (n) 0x00, 0x00, 0x3C, 0x66, 0x66, 0x66, 0x3C, 0x00, // Char 111 (o) 0x00, 0x00, 0x3E, 0x66, 0x66, 0x3E, 0x06, 0x00, // Char 112 (p) 0x00, 0x00, 0x7C, 0x66, 0x66, 0x7C, 0x60, 0x00, // Char 113 (q) 0x00, 0x00, 0x3E, 0x66, 0x06, 0x06, 0x06, 0x00, // Char 114 (r) 0x00, 0x00, 0x7C, 0x06, 0x3C, 0x60, 0x3E, 0x00, // Char 115 (s) 0x00, 0x18, 0x7E, 0x18, 0x18, 0x18, 0x70, 0x00, // Char 116 (t) 0x00, 0x00, 0x66, 0x66, 0x66, 0x66, 0x7C, 0x00, // Char 117 (u) 0x00, 0x00, 0x66, 0x66, 0x66, 0x3C, 0x18, 0x00, // Char 118 (v) 0x00, 0x00, 0xC6, 0xD6, 0xFE, 0x7C, 0x6C, 0x00, // Char 119 (w) 0x00, 0x00, 0x66, 0x3C, 0x18, 0x3C, 0x66, 0x00, // Char 120 (x) 0x00, 0x00, 0x66, 0x66, 0x7C, 0x60, 0x3C, 0x00, // Char 121 (y) 0x00, 0x00, 0x7E, 0x30, 0x18, 0x0C, 0x7E, 0x00, // Char 122 (z) 0x00, 0x18, 0x08, 0x08, 0x04, 0x08, 0x08, 0x18, // Char 123 ({) 0x00, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, // Char 124 (|) 0x00, 0x0C, 0x08, 0x08, 0x10, 0x08, 0x08, 0x0C, // Char 125 (}) 0x00, 0x00, 0x00, 0x4C, 0x32, 0x00, 0x00, 0x00 // Char 126 (~) }; void gfx_clear_grey(u8 color) { memset(gfx_ctxt.fb, color, gfx_ctxt.width * gfx_ctxt.height * 4); } void gfx_clear_color(u32 color) { for (u32 i = 0; i < gfx_ctxt.width * gfx_ctxt.height; i++) gfx_ctxt.fb[i] = color; } void gfx_init_ctxt(u32 *fb, u32 width, u32 height, u32 stride) { gfx_ctxt.fb = fb; gfx_ctxt.width = width; gfx_ctxt.height = height; gfx_ctxt.stride = stride; gfx_clear_grey(0); } void gfx_con_init() { gfx_con.gfx_ctxt = &gfx_ctxt; gfx_con.fntsz = 16; gfx_con.x = 0; gfx_con.y = 0; gfx_con.col = 0; gfx_con.savedx = 0; gfx_con.savedy = 0; gfx_con.fgcol = TXT_CLR_DEFAULT; gfx_con.fillbg = 1; gfx_con.bgcol = TXT_CLR_BG; gfx_con.mute = 0; gfx_con_init_done = true; } void gfx_con_setcol(u32 fgcol, int fillbg, u32 bgcol) { gfx_con.fgcol = fgcol; gfx_con.fillbg = fillbg; gfx_con.bgcol = bgcol; } void gfx_con_getpos(u32 *x, u32 *y, u32 *c) { *x = gfx_con.x; *y = gfx_con.y; *c = gfx_con.col; } void gfx_con_setpos(u32 x, u32 y, u32 c) { gfx_con.x = x; gfx_con.y = y; switch (c) { case GFX_COL_KEEP: break; case GFX_COL_AUTO: if (x < COLUMN2_X) gfx_con.col = 0; else gfx_con.col = COLUMN2_X; break; default: gfx_con.col = c; break; } } void gfx_putc(char c) { // Duplicate code for performance reasons. switch (gfx_con.fntsz) { case 16: if (c >= 32 && c <= 126) { u8 *cbuf = (u8 *)&_gfx_font[8 * (c - 32)]; for (u32 i = 0; i < 16; i += 2) { u8 v = *cbuf; for (u32 k = 0; k < 2; k++) { u32 fb_off = gfx_con.y + i + k + (gfx_ctxt.width - gfx_con.x) * gfx_ctxt.stride; for (u32 j = 0; j < 16; j += 2) { for (u32 l = 0; l < 2; l++) { if (v & 1) gfx_ctxt.fb[fb_off - (j + l) * gfx_ctxt.stride] = gfx_con.fgcol; else if (gfx_con.fillbg) gfx_ctxt.fb[fb_off - (j + l) * gfx_ctxt.stride] = gfx_con.bgcol; } v >>= 1; } v = *cbuf; } cbuf++; } gfx_con.x += 16; if (gfx_con.x > gfx_ctxt.width - 16) { gfx_con.x = gfx_con.col; gfx_con.y += 16; if (gfx_con.y > gfx_ctxt.height - 33) { gfx_con.y = 0; if (!gfx_con.col) gfx_con.col = COLUMN2_X; else gfx_con.col = 0; gfx_con.x = gfx_con.col; } } } else if (c == '\n') { gfx_con.x = gfx_con.col; gfx_con.y += 16; if (gfx_con.y > gfx_ctxt.height - 33) { gfx_con.y = 0; if (!gfx_con.col) gfx_con.col = COLUMN2_X; else gfx_con.col = 0; gfx_con.x = gfx_con.col; } } break; case 8: default: if (c >= 32 && c <= 126) { u8 *cbuf = (u8 *)&_gfx_font[8 * (c - 32)]; for (u32 i = 0; i < 8; i++) { u8 v = *cbuf++; u32 fb_off = gfx_con.y + i + (gfx_ctxt.width - gfx_con.x) * gfx_ctxt.stride; for (u32 j = 0; j < 8; j++) { if (v & 1) gfx_ctxt.fb[fb_off - (j * gfx_ctxt.stride)] = gfx_con.fgcol; else if (gfx_con.fillbg) gfx_ctxt.fb[fb_off - (j * gfx_ctxt.stride)] = gfx_con.bgcol; v >>= 1; } } gfx_con.x += 8; if (gfx_con.x > gfx_ctxt.width / 2 + gfx_con.col - 8) { gfx_con.x = gfx_con.col; gfx_con.y += 8; if (gfx_con.y > gfx_ctxt.height - 33) { gfx_con.y = 0; if (!gfx_con.col) gfx_con.col = COLUMN2_X; else gfx_con.col = 0; gfx_con.x = gfx_con.col; } } } else if (c == '\n') { gfx_con.x = gfx_con.col; gfx_con.y += 8; if (gfx_con.y > gfx_ctxt.height - 33) { gfx_con.y = 0; if (!gfx_con.col) gfx_con.col = COLUMN2_X; else gfx_con.col = 0; gfx_con.x = gfx_con.col; } } break; } } void gfx_puts(const char *s) { if (!s || !gfx_con_init_done || gfx_con.mute) return; for (; *s; s++) gfx_putc(*s); } static void _gfx_putn(u32 v, int base, char fill, int fcnt) { static const char digits[] = "0123456789ABCDEF"; char *p; char buf[65]; int c = fcnt; bool negative = false; if (base != 10 && base != 16) return; // Account for negative numbers. if (base == 10 && v & 0x80000000) { negative = true; v = (int)v * -1; c--; } p = buf + 64; *p = 0; do { c--; *--p = digits[v % base]; v /= base; } while (v); if (negative) *--p = '-'; if (fill != 0) { while (c > 0 && p > buf) { *--p = fill; c--; } } gfx_puts(p); } void gfx_printf(const char *fmt, ...) { if (!gfx_con_init_done || gfx_con.mute) return; va_list ap; int fill, fcnt; va_start(ap, fmt); while (*fmt) { if (*fmt == '%') { fmt++; fill = 0; fcnt = 0; if ((*fmt >= '0' && *fmt <= '9') || *fmt == ' ') { fcnt = *fmt; fmt++; if (*fmt >= '0' && *fmt <= '9') { fill = fcnt; fcnt = *fmt - '0'; fmt++; } else { fill = ' '; fcnt -= '0'; } } switch(*fmt) { case 'c': gfx_putc(va_arg(ap, u32)); break; case 's': gfx_puts(va_arg(ap, char *)); break; case 'd': _gfx_putn(va_arg(ap, u32), 10, fill, fcnt); break; case 'p': case 'P': case 'x': case 'X': _gfx_putn(va_arg(ap, u32), 16, fill, fcnt); break; case 'k': gfx_con.fgcol = va_arg(ap, u32); break; case 'K': gfx_con.bgcol = va_arg(ap, u32); gfx_con.fillbg = 1; break; case '%': gfx_putc('%'); break; case '\0': goto out; default: gfx_putc('%'); gfx_putc(*fmt); break; } } else gfx_putc(*fmt); fmt++; } out: va_end(ap); } static void _gfx_cputs(u32 color, const char *s) { gfx_con.fgcol = color; gfx_puts(s); gfx_putc('\n'); gfx_con.fgcol = TXT_CLR_DEFAULT; } void gfx_wputs(const char *s) { _gfx_cputs(TXT_CLR_WARNING, s); } void gfx_eputs(const char *s) { _gfx_cputs(TXT_CLR_ERROR, s); } void gfx_hexdump(u32 base, const void *buf, u32 len) { if (!gfx_con_init_done || gfx_con.mute) return; u8 *buff = (u8 *)buf; u8 prevFontSize = gfx_con.fntsz; gfx_con.fntsz = 8; for (u32 i = 0; i < len; i++) { if (i % 0x10 == 0) { if (i != 0) { gfx_puts("| "); for (u32 j = 0; j < 0x10; j++) { u8 c = buff[i - 0x10 + j]; if (c >= 32 && c <= 126) gfx_putc(c); else gfx_putc('.'); } gfx_putc('\n'); } gfx_printf("%08x: ", base + i); } gfx_printf("%02x ", buff[i]); if (i == len - 1) { int ln = len % 0x10 != 0; u32 k = 0x10 - 1; if (ln) { k = (len & 0xF) - 1; for (u32 j = 0; j < 0x10 - k; j++) gfx_puts(" "); } gfx_puts("| "); for (u32 j = 0; j < (ln ? k : k + 1); j++) { u8 c = buff[i - k + j]; if (c >= 32 && c <= 126) gfx_putc(c); else gfx_putc('.'); } gfx_putc('\n'); } } gfx_putc('\n'); gfx_con.fntsz = prevFontSize; } void gfx_set_pixel(u32 x, u32 y, u32 color) { gfx_ctxt.fb[y + (gfx_ctxt.width - x) * gfx_ctxt.stride] = color; } void gfx_set_rect_pitch(u32 *fb, const u32 *buf, u32 stride, u32 pos_x, u32 pos_y, u32 pos_x2, u32 pos_y2) { u32 *ptr = (u32 *)buf; u32 line_size = pos_x2 - pos_x + 1; //ptr = gfx_debug_rect(buf, pos_x, pos_y, pos_x2, pos_y2); for (u32 y = pos_y; y <= pos_y2; y++) { memcpy(&fb[pos_x + y * stride], ptr, line_size * sizeof(u32)); ptr += line_size; } } void gfx_set_rect_land_pitch(u32 *fb, const u32 *buf, u32 stride, u32 pos_x, u32 pos_y, u32 pos_x2, u32 pos_y2) { u32 *ptr = (u32 *)buf; u32 pixels_w = pos_x2 - pos_x + 1; if (!(pixels_w % 8)) { for (u32 y = pos_y; y <= pos_y2; y++) for (u32 x = pos_x; x <= pos_x2; x += 8) { u32 *fbx = &fb[x * stride + y]; fbx[0] = *ptr++; fbx[stride] = *ptr++; fbx[stride * 2] = *ptr++; fbx[stride * 3] = *ptr++; fbx[stride * 4] = *ptr++; fbx[stride * 5] = *ptr++; fbx[stride * 6] = *ptr++; fbx[stride * 7] = *ptr++; } } else { for (u32 y = pos_y; y < (pos_y2 + 1); y++) for (u32 x = pos_x; x < (pos_x2 + 1); x++) fb[x * stride + y] = *ptr++; } } void gfx_set_rect_land_block(u32 *fb, const u32 *buf, u32 pos_x, u32 pos_y, u32 pos_x2, u32 pos_y2) { u32 *ptr = (u32 *)buf; u32 GOB_address = 0; u32 addr = 0; u32 x2 = 0; // Optimized u32 image_width_in_gobs = 655360; //1280 for (u32 y = pos_y; y <= pos_y2; y++) { for (u32 x = pos_x; x <= pos_x2; x++) { GOB_address = (y >> 7) * image_width_in_gobs + ((x >> 4) << 13) + (((y % 128) >> 3) << 9); x2 = x << 2; addr = GOB_address + (((x2 % 64) >> 5) << 8) + (((y % 8) >> 1) << 6) + (((x2 % 32) >> 4) << 5) + ((y % 2) << 4) + (x2 % 16); *(u32 *)(fb + (addr >> 2)) = *ptr++; } } // Proper // u32 block_height = 16; // u32 image_width_in_gobs = (512 * block_height * 1280 * 4) / 64; // for (u32 y = pos_y; y <= pos_y2; y++) // { // for (int x = pos_x; x <= pos_x2; x++) // { // GOB_address = (y / (8 * block_height)) * image_width_in_gobs + ((x * 4 / 64) * 512 * block_height) + ((y % (8 * block_height) / 8) * 512); // x2 = x << 2; // addr = GOB_address // + (((x2 % 64) >> 5) << 8) // + (((y % 8) >> 1) << 6) // + (((x2 % 32) >> 4) << 5) // + ((y % 2) << 4) + (x2 % 16); // *(u32 *)(gfx_ctxt.fb + (addr >> 2)) = *ptr++; // } // } } ================================================ FILE: nyx/nyx_gui/gfx/gfx.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2021 CTCaer * Copyright (c) 2018 M4xw * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _GFX_H_ #define _GFX_H_ #include #define GFX_COL_KEEP 0xFFFE #define GFX_COL_AUTO 0xFFFF #define TXT_CLR_BG 0xFF000000 // Black. #define TXT_CLR_DEFAULT 0xFFFFFFFF // White. #define TXT_CLR_WARNING 0xFFFFDD00 // Yellow. #define TXT_CLR_ERROR 0xFFFF0000 // Red. #define TXT_CLR_CYAN_L 0xFF00CCFF // Light Cyan. 0xFF0099EE 0xFF00DDFF FF0AB9E6 #define TXT_CLR_TURQUOISE 0xFF00FFCC // Turquoise. #define TXT_CLR_ORANGE 0xFFFFBA00 // Orange. #define TXT_CLR_GREENISH 0xFF96FF00 // Toxic Green. 0xFFAEFD14 0xFFC7EA46 #define TXT_CLR_GREEN_D 0xFF008800 // Dark Green. #define TXT_CLR_RED_D 0xFF880000 // Dark Red. 0xFF800000 #define TXT_CLR_GREY_D 0xFF303030 // Darkest Grey. #define TXT_CLR_GREY_DM 0xFF444444 // Darker Grey. #define TXT_CLR_GREY_M 0xFF555555 // Dark Grey. #define TXT_CLR_GREY 0xFF888888 // Grey. #define EPRINTF(text) gfx_eputs(text) #define EPRINTFARGS(text, args...) gfx_printf("%k"text"%k\n", TXT_CLR_ERROR, args, TXT_CLR_DEFAULT) #define WPRINTF(text) gfx_wputs(text) #define WPRINTFARGS(text, args...) gfx_printf("%k"text"%k\n", TXT_CLR_WARNING, args, TXT_CLR_DEFAULT) typedef struct _gfx_ctxt_t { u32 *fb; u32 width; u32 height; u32 stride; } gfx_ctxt_t; typedef struct _gfx_con_t { gfx_ctxt_t *gfx_ctxt; u32 fntsz; u32 x; u32 y; u32 col; u32 savedx; u32 savedy; u32 savedcol; u32 fgcol; int fillbg; u32 bgcol; bool mute; } gfx_con_t; // Global gfx console and context. extern gfx_ctxt_t gfx_ctxt; extern gfx_con_t gfx_con; void gfx_init_ctxt(u32 *fb, u32 width, u32 height, u32 stride); void gfx_clear_grey(u8 color); void gfx_clear_color(u32 color); void gfx_con_init(); void gfx_con_setcol(u32 fgcol, int fillbg, u32 bgcol); void gfx_con_getpos(u32 *x, u32 *y, u32 *c); void gfx_con_setpos(u32 x, u32 y, u32 c); void gfx_putc(char c); void gfx_puts(const char *s); void gfx_wputs(const char *s); void gfx_eputs(const char *s); void gfx_printf(const char *fmt, ...) /* __attribute__((format(printf, 1, 2))) */; void gfx_hexdump(u32 base, const void *buf, u32 len); void gfx_set_pixel(u32 x, u32 y, u32 color); void gfx_set_rect_pitch(u32 *fb, const u32 *buf, u32 stride, u32 pos_x, u32 pos_y, u32 pos_x2, u32 pos_y2); void gfx_set_rect_land_pitch(u32 *fb, const u32 *buf, u32 stride, u32 pos_x, u32 pos_y, u32 pos_x2, u32 pos_y2); void gfx_set_rect_land_block(u32 *fb, const u32 *buf, u32 pos_x, u32 pos_y, u32 pos_x2, u32 pos_y2); #endif ================================================ FILE: nyx/nyx_gui/gfx/logos-gui.h ================================================ /* * Copyright (c) 2018-2024 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _LOGOS_GUI_H_ #define _LOGOS_GUI_H_ #include #include #include #define HEKATE_LOGO const u8 touch_cursor_map[] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x04, 0x00, 0x00, 0x00, 0x07, 0x00, 0x00, 0x00, 0x07, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x07, 0x00, 0x00, 0x00, 0x04, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x04, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x0c, 0x00, 0x00, 0x00, 0x13, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x18, 0x00, 0x00, 0x00, 0x1b, 0x00, 0x00, 0x00, 0x1b, 0x00, 0x00, 0x00, 0x1b, 0x00, 0x00, 0x00, 0x18, 0x00, 0x00, 0x00, 0x18, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x13, 0x00, 0x00, 0x00, 0x0c, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x04, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x04, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x0f, 0x00, 0x00, 0x00, 0x17, 0x00, 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0x00, 0x00, 0x07, 0x00, 0x00, 0x00, 0x07, 0x00, 0x00, 0x00, 0x04, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; const lv_img_dsc_t touch_cursor = { .header.always_zero = 0, .header.w = 33, .header.h = 33, .data_size = 1089 * LV_IMG_PX_SIZE_ALPHA_BYTE, .header.cf = LV_IMG_CF_TRUE_COLOR_ALPHA, .data = touch_cursor_map, }; #ifdef HEKATE_LOGO const lv_img_dsc_t hekate_logo = { .header.always_zero = 0, .header.w = 193, .header.h = 76, .data_size = 14668 * LV_IMG_PX_SIZE_ALPHA_BYTE, .header.cf = LV_IMG_CF_TRUE_COLOR_ALPHA, .data = (const uint8_t *)(NYX_RES_ADDR + 0x1D900), }; const lv_img_dsc_t ctcaer_logo = { .header.always_zero = 0, .header.w = 147, .header.h = 76, .data_size = 11172 * LV_IMG_PX_SIZE_ALPHA_BYTE, .header.cf = LV_IMG_CF_TRUE_COLOR_ALPHA, .data = (const uint8_t *)(NYX_RES_ADDR + 0x2BF00), }; #endif #endif ================================================ FILE: nyx/nyx_gui/hos/hos.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 st4rk * Copyright (c) 2018 Ced2911 * Copyright (c) 2018-2025 CTCaer * Copyright (c) 2018 balika011 * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "hos.h" #include "../config.h" u8 *cal0_buf = NULL; static const u8 eks_keyseeds[HOS_MKEY_VER_600 - HOS_MKEY_VER_100 + 1][SE_KEY_128_SIZE] = { { 0xDF, 0x20, 0x6F, 0x59, 0x44, 0x54, 0xEF, 0xDC, 0x70, 0x74, 0x48, 0x3B, 0x0D, 0xED, 0x9F, 0xD3 }, // 1.0.0. { 0x0C, 0x25, 0x61, 0x5D, 0x68, 0x4C, 0xEB, 0x42, 0x1C, 0x23, 0x79, 0xEA, 0x82, 0x25, 0x12, 0xAC }, // 3.0.0. { 0x33, 0x76, 0x85, 0xEE, 0x88, 0x4A, 0xAE, 0x0A, 0xC2, 0x8A, 0xFD, 0x7D, 0x63, 0xC0, 0x43, 0x3B }, // 3.0.1. { 0x2D, 0x1F, 0x48, 0x80, 0xED, 0xEC, 0xED, 0x3E, 0x3C, 0xF2, 0x48, 0xB5, 0x65, 0x7D, 0xF7, 0xBE }, // 4.0.0. { 0xBB, 0x5A, 0x01, 0xF9, 0x88, 0xAF, 0xF5, 0xFC, 0x6C, 0xFF, 0x07, 0x9E, 0x13, 0x3C, 0x39, 0x80 }, // 5.0.0. { 0xD8, 0xCC, 0xE1, 0x26, 0x6A, 0x35, 0x3F, 0xCC, 0x20, 0xF3, 0x2D, 0x3B, 0x51, 0x7D, 0xE9, 0xC0 } // 6.0.0. }; static const u8 cmac_keyseed[SE_KEY_128_SIZE] = { 0x59, 0xC7, 0xFB, 0x6F, 0xBE, 0x9B, 0xBE, 0x87, 0x65, 0x6B, 0x15, 0xC0, 0x53, 0x73, 0x36, 0xA5 }; static const u8 master_keyseed_retail[SE_KEY_128_SIZE] = { 0xD8, 0xA2, 0x41, 0x0A, 0xC6, 0xC5, 0x90, 0x01, 0xC6, 0x1D, 0x6A, 0x26, 0x7C, 0x51, 0x3F, 0x3C }; // Unused in this context. //static const u8 master_keyseed_4xx[SE_KEY_128_SIZE] = // { 0x2D, 0xC1, 0xF4, 0x8D, 0xF3, 0x5B, 0x69, 0x33, 0x42, 0x10, 0xAC, 0x65, 0xDA, 0x90, 0x46, 0x66 }; static const u8 master_kekseed_620[SE_KEY_128_SIZE] = { 0x37, 0x4B, 0x77, 0x29, 0x59, 0xB4, 0x04, 0x30, 0x81, 0xF6, 0xE5, 0x8C, 0x6D, 0x36, 0x17, 0x9A }; //!TODO: Update on mkey changes. static const u8 master_kekseed_t210_max[SE_KEY_128_SIZE] = { 0x15, 0xAC, 0x96, 0x34, 0xF5, 0x32, 0x56, 0x68, 0xFE, 0x5B, 0x9D, 0xD7, 0xED, 0x19, 0xB7, 0x8E }; // 22.0.0. //!TODO: Update on mkey changes. static const u8 master_kekseed_t210b01[HOS_MKEY_VER_MAX - HOS_MKEY_VER_600 + 1][SE_KEY_128_SIZE] = { { 0x77, 0x60, 0x5A, 0xD2, 0xEE, 0x6E, 0xF8, 0x3C, 0x3F, 0x72, 0xE2, 0x59, 0x9D, 0xAC, 0x5E, 0x56 }, // 6.0.0. { 0x1E, 0x80, 0xB8, 0x17, 0x3E, 0xC0, 0x60, 0xAA, 0x11, 0xBE, 0x1A, 0x4A, 0xA6, 0x6F, 0xE4, 0xAE }, // 6.2.0. { 0x94, 0x08, 0x67, 0xBD, 0x0A, 0x00, 0x38, 0x84, 0x11, 0xD3, 0x1A, 0xDB, 0xDD, 0x8D, 0xF1, 0x8A }, // 7.0.0. { 0x5C, 0x24, 0xE3, 0xB8, 0xB4, 0xF7, 0x00, 0xC2, 0x3C, 0xFD, 0x0A, 0xCE, 0x13, 0xC3, 0xDC, 0x23 }, // 8.1.0. { 0x86, 0x69, 0xF0, 0x09, 0x87, 0xC8, 0x05, 0xAE, 0xB5, 0x7B, 0x48, 0x74, 0xDE, 0x62, 0xA6, 0x13 }, // 9.0.0. { 0x0E, 0x44, 0x0C, 0xED, 0xB4, 0x36, 0xC0, 0x3F, 0xAA, 0x1D, 0xAE, 0xBF, 0x62, 0xB1, 0x09, 0x82 }, // 9.1.0. { 0xE5, 0x41, 0xAC, 0xEC, 0xD1, 0xA7, 0xD1, 0xAB, 0xED, 0x03, 0x77, 0xF1, 0x27, 0xCA, 0xF8, 0xF1 }, // 12.1.0. { 0x52, 0x71, 0x9B, 0xDF, 0xA7, 0x8B, 0x61, 0xD8, 0xD5, 0x85, 0x11, 0xE4, 0x8E, 0x4F, 0x74, 0xC6 }, // 13.0.0. { 0xD2, 0x68, 0xC6, 0x53, 0x9D, 0x94, 0xF9, 0xA8, 0xA5, 0xA8, 0xA7, 0xC8, 0x8F, 0x53, 0x4B, 0x7A }, // 14.0.0. { 0xEC, 0x61, 0xBC, 0x82, 0x1E, 0x0F, 0x5A, 0xC3, 0x2B, 0x64, 0x3F, 0x9D, 0xD6, 0x19, 0x22, 0x2D }, // 15.0.0. { 0xA5, 0xEC, 0x16, 0x39, 0x1A, 0x30, 0x16, 0x08, 0x2E, 0xCF, 0x09, 0x6F, 0x5E, 0x7C, 0xEE, 0xA9 }, // 16.0.0. { 0x8D, 0xEE, 0x9E, 0x11, 0x36, 0x3A, 0x9B, 0x0A, 0x6A, 0xC7, 0xBB, 0xE9, 0xD1, 0x03, 0xF7, 0x80 }, // 17.0.0. { 0x4F, 0x41, 0x3C, 0x3B, 0xFB, 0x6A, 0x01, 0x2A, 0x68, 0x9F, 0x83, 0xE9, 0x53, 0xBD, 0x16, 0xD2 }, // 18.0.0. { 0x31, 0xBE, 0x25, 0xFB, 0xDB, 0xB4, 0xEE, 0x49, 0x5C, 0x77, 0x05, 0xC2, 0x36, 0x9F, 0x34, 0x80 }, // 19.0.0. { 0x1A, 0x31, 0x62, 0x87, 0xA8, 0x09, 0xCA, 0xF8, 0x69, 0x15, 0x45, 0xC2, 0x6B, 0xAA, 0x5A, 0x8A }, // 20.0.0. { 0xEB, 0xF3, 0x5B, 0x2D, 0x4A, 0x2D, 0xCE, 0x45, 0x3A, 0x6F, 0x61, 0x38, 0x0B, 0x00, 0x3B, 0x46 }, // 21.0.0. { 0x82, 0xE2, 0x0A, 0x59, 0x67, 0xDF, 0xBF, 0x51, 0x47, 0x62, 0x11, 0xF2, 0x41, 0xD3, 0xEE, 0x13 }, // 22.0.0. }; static const u8 console_keyseed[SE_KEY_128_SIZE] = { 0x4F, 0x02, 0x5F, 0x0E, 0xB6, 0x6D, 0x11, 0x0E, 0xDC, 0x32, 0x7D, 0x41, 0x86, 0xC2, 0xF4, 0x78 }; static const u8 console_keyseed_4xx[SE_KEY_128_SIZE] = { 0x0C, 0x91, 0x09, 0xDB, 0x93, 0x93, 0x07, 0x81, 0x07, 0x3C, 0xC4, 0x16, 0x22, 0x7C, 0x6C, 0x28 }; const u8 package2_keyseed[SE_KEY_128_SIZE] = { 0xFB, 0x8B, 0x6A, 0x9C, 0x79, 0x00, 0xC8, 0x49, 0xEF, 0xD2, 0x4D, 0x85, 0x4D, 0x30, 0xA0, 0xC7 }; //!TODO: Update on mkey changes. static const u8 mkey_vectors[HOS_MKEY_VER_MAX + 1][SE_KEY_128_SIZE] = { { 0x0C, 0xF0, 0x59, 0xAC, 0x85, 0xF6, 0x26, 0x65, 0xE1, 0xE9, 0x19, 0x55, 0xE6, 0xF2, 0x67, 0x3D }, // Zeroes encrypted with mkey 00. { 0x29, 0x4C, 0x04, 0xC8, 0xEB, 0x10, 0xED, 0x9D, 0x51, 0x64, 0x97, 0xFB, 0xF3, 0x4D, 0x50, 0xDD }, // Mkey 00 encrypted with mkey 01. { 0xDE, 0xCF, 0xEB, 0xEB, 0x10, 0xAE, 0x74, 0xD8, 0xAD, 0x7C, 0xF4, 0x9E, 0x62, 0xE0, 0xE8, 0x72 }, // Mkey 01 encrypted with mkey 02. { 0x0A, 0x0D, 0xDF, 0x34, 0x22, 0x06, 0x6C, 0xA4, 0xE6, 0xB1, 0xEC, 0x71, 0x85, 0xCA, 0x4E, 0x07 }, // Mkey 02 encrypted with mkey 03. { 0x6E, 0x7D, 0x2D, 0xC3, 0x0F, 0x59, 0xC8, 0xFA, 0x87, 0xA8, 0x2E, 0xD5, 0x89, 0x5E, 0xF3, 0xE9 }, // Mkey 03 encrypted with mkey 04. { 0xEB, 0xF5, 0x6F, 0x83, 0x61, 0x9E, 0xF8, 0xFA, 0xE0, 0x87, 0xD7, 0xA1, 0x4E, 0x25, 0x36, 0xEE }, // Mkey 04 encrypted with mkey 05. { 0x1E, 0x1E, 0x22, 0xC0, 0x5A, 0x33, 0x3C, 0xB9, 0x0B, 0xA9, 0x03, 0x04, 0xBA, 0xDB, 0x07, 0x57 }, // Mkey 05 encrypted with mkey 06. { 0xA4, 0xD4, 0x52, 0x6F, 0xD1, 0xE4, 0x36, 0xAA, 0x9F, 0xCB, 0x61, 0x27, 0x1C, 0x67, 0x65, 0x1F }, // Mkey 06 encrypted with mkey 07. { 0xEA, 0x60, 0xB3, 0xEA, 0xCE, 0x8F, 0x24, 0x46, 0x7D, 0x33, 0x9C, 0xD1, 0xBC, 0x24, 0x98, 0x29 }, // Mkey 07 encrypted with mkey 08. { 0x4D, 0xD9, 0x98, 0x42, 0x45, 0x0D, 0xB1, 0x3C, 0x52, 0x0C, 0x9A, 0x44, 0xBB, 0xAD, 0xAF, 0x80 }, // Mkey 08 encrypted with mkey 09. { 0xB8, 0x96, 0x9E, 0x4A, 0x00, 0x0D, 0xD6, 0x28, 0xB3, 0xD1, 0xDB, 0x68, 0x5F, 0xFB, 0xE1, 0x2A }, // Mkey 09 encrypted with mkey 10. { 0xC1, 0x8D, 0x16, 0xBB, 0x2A, 0xE4, 0x1D, 0xD4, 0xC2, 0xC1, 0xB6, 0x40, 0x94, 0x35, 0x63, 0x98 }, // Mkey 10 encrypted with mkey 11. { 0xA3, 0x24, 0x65, 0x75, 0xEA, 0xCC, 0x6E, 0x8D, 0xFB, 0x5A, 0x16, 0x50, 0x74, 0xD2, 0x15, 0x06 }, // Mkey 11 encrypted with mkey 12. { 0x83, 0x67, 0xAF, 0x01, 0xCF, 0x93, 0xA1, 0xAB, 0x80, 0x45, 0xF7, 0x3F, 0x72, 0xFD, 0x3B, 0x38 }, // Mkey 12 encrypted with mkey 13. { 0xB1, 0x81, 0xA6, 0x0D, 0x72, 0xC7, 0xEE, 0x15, 0x21, 0xF3, 0xC0, 0xB5, 0x6B, 0x61, 0x6D, 0xE7 }, // Mkey 13 encrypted with mkey 14. { 0xAF, 0x11, 0x4C, 0x67, 0x17, 0x7A, 0x52, 0x43, 0xF7, 0x70, 0x2F, 0xC7, 0xEF, 0x81, 0x72, 0x16 }, // Mkey 14 encrypted with mkey 15. { 0x25, 0x12, 0x8B, 0xCB, 0xB5, 0x46, 0xA1, 0xF8, 0xE0, 0x52, 0x15, 0xB7, 0x0B, 0x57, 0x00, 0xBD }, // Mkey 15 encrypted with mkey 16. { 0x58, 0x15, 0xD2, 0xF6, 0x8A, 0xE8, 0x19, 0xAB, 0xFB, 0x2D, 0x52, 0x9D, 0xE7, 0x55, 0xF3, 0x93 }, // Mkey 16 encrypted with mkey 17. { 0x4A, 0x01, 0x3B, 0xC7, 0x44, 0x6E, 0x45, 0xBD, 0xE6, 0x5E, 0x2B, 0xEC, 0x07, 0x37, 0x52, 0x86 }, // Mkey 17 encrypted with mkey 18. { 0x97, 0xE4, 0x11, 0xAB, 0x22, 0x72, 0x1A, 0x1F, 0x70, 0x5C, 0x00, 0xB3, 0x96, 0x30, 0x05, 0x28 }, // Mkey 18 encrypted with mkey 19. { 0xF7, 0x92, 0xC0, 0xEC, 0xF3, 0xA4, 0x8C, 0xB7, 0x0D, 0xB3, 0xF3, 0xAB, 0x10, 0x9B, 0x18, 0xBA }, // Mkey 19 encrypted with mkey 20. { 0x14, 0xCB, 0x60, 0x29, 0x3D, 0xE0, 0xFB, 0xF2, 0x5B, 0x60, 0xB6, 0xC5, 0x2E, 0x77, 0x8F, 0x98 }, // Mkey 20 encrypted with mkey 21. }; //!TODO: Update on mkey changes. static const u8 new_console_keyseed[HOS_MKEY_VER_MAX - HOS_MKEY_VER_400 + 1][SE_KEY_128_SIZE] = { { 0x8B, 0x4E, 0x1C, 0x22, 0x42, 0x07, 0xC8, 0x73, 0x56, 0x94, 0x08, 0x8B, 0xCC, 0x47, 0x0F, 0x5D }, // 4.x New Device Key Source. { 0x6C, 0xEF, 0xC6, 0x27, 0x8B, 0xEC, 0x8A, 0x91, 0x99, 0xAB, 0x24, 0xAC, 0x4F, 0x1C, 0x8F, 0x1C }, // 5.x New Device Key Source. { 0x70, 0x08, 0x1B, 0x97, 0x44, 0x64, 0xF8, 0x91, 0x54, 0x9D, 0xC6, 0x84, 0x8F, 0x1A, 0xB2, 0xE4 }, // 6.x New Device Key Source. { 0x8E, 0x09, 0x1F, 0x7A, 0xBB, 0xCA, 0x6A, 0xFB, 0xB8, 0x9B, 0xD5, 0xC1, 0x25, 0x9C, 0xA9, 0x17 }, // 6.2.0 New Device Key Source. { 0x8F, 0x77, 0x5A, 0x96, 0xB0, 0x94, 0xFD, 0x8D, 0x28, 0xE4, 0x19, 0xC8, 0x16, 0x1C, 0xDB, 0x3D }, // 7.0.0 New Device Key Source. { 0x67, 0x62, 0xD4, 0x8E, 0x55, 0xCF, 0xFF, 0x41, 0x31, 0x15, 0x3B, 0x24, 0x0C, 0x7C, 0x07, 0xAE }, // 8.1.0 New Device Key Source. { 0x4A, 0xC3, 0x4E, 0x14, 0x8B, 0x96, 0x4A, 0xD5, 0xD4, 0x99, 0x73, 0xC4, 0x45, 0xAB, 0x8B, 0x49 }, // 9.0.0 New Device Key Source. { 0x14, 0xB8, 0x74, 0x12, 0xCB, 0xBD, 0x0B, 0x8F, 0x20, 0xFB, 0x30, 0xDA, 0x27, 0xE4, 0x58, 0x94 }, // 9.1.0 New Device Key Source. { 0xAA, 0xFD, 0xBC, 0xBB, 0x25, 0xC3, 0xA4, 0xEF, 0xE3, 0xEE, 0x58, 0x53, 0xB7, 0xF8, 0xDD, 0xD6 }, // 12.1.0 New Device Key Source. { 0xE4, 0xF3, 0x45, 0x6F, 0x18, 0xA1, 0x89, 0xF8, 0xDA, 0x4C, 0x64, 0x75, 0x68, 0xE6, 0xBD, 0x4F }, // 13.0.0 New Device Key Source. { 0x5B, 0x94, 0x63, 0xF7, 0xAD, 0x96, 0x1B, 0xA6, 0x23, 0x30, 0x06, 0x4D, 0x01, 0xE4, 0xCE, 0x1D }, // 14.0.0 New Device Key Source. { 0x5E, 0xC9, 0xC5, 0x0A, 0xD0, 0x5F, 0x8B, 0x7B, 0xA7, 0x39, 0xEA, 0xBC, 0x60, 0x0F, 0x74, 0xE6 }, // 15.0.0 New Device Key Source. { 0xEA, 0x90, 0x6E, 0xA8, 0xAE, 0x92, 0x99, 0x64, 0x36, 0xC1, 0xF3, 0x1C, 0xC6, 0x32, 0x83, 0x8C }, // 16.0.0 New Device Key Source. { 0xDA, 0xB9, 0xD6, 0x77, 0x52, 0x2D, 0x1F, 0x78, 0x73, 0xC9, 0x98, 0x5B, 0x06, 0xFE, 0xA0, 0x52 }, // 17.0.0 New Device Key Source. { 0x14, 0xF5, 0xA5, 0xD0, 0x73, 0x6D, 0x44, 0x80, 0x5F, 0x31, 0x5A, 0x8F, 0x1E, 0xD4, 0x0D, 0x63 }, // 18.0.0 New Device Key Source. { 0x07, 0x38, 0x9A, 0xEC, 0x9C, 0xBD, 0x50, 0x4A, 0x4C, 0x1F, 0x04, 0xDA, 0x40, 0x68, 0x29, 0xE3 }, // 19.0.0 New Device Key Source. { 0xA3, 0x6B, 0x0A, 0xB5, 0x6F, 0x57, 0x4C, 0x5E, 0x00, 0xFD, 0x56, 0x21, 0xF5, 0x06, 0x6B, 0xD1 }, // 20.0.0 New Device Key Source. { 0xF9, 0x62, 0x05, 0x99, 0xE0, 0xB9, 0xA6, 0x9B, 0x9D, 0xAA, 0xB4, 0x12, 0x0B, 0x0F, 0xF5, 0x8F }, // 21.0.0 New Device Key Source. { 0xF8, 0xF4, 0x22, 0xA4, 0x34, 0xAE, 0x0E, 0x0C, 0x4D, 0x5C, 0x5B, 0xA1, 0x1B, 0x46, 0x1C, 0x78 }, // 22.0.0 New Device Key Source. }; //!TODO: Update on mkey changes. static const u8 new_console_kekseed[HOS_MKEY_VER_MAX - HOS_MKEY_VER_400 + 1][SE_KEY_128_SIZE] = { { 0x88, 0x62, 0x34, 0x6E, 0xFA, 0xF7, 0xD8, 0x3F, 0xE1, 0x30, 0x39, 0x50, 0xF0, 0xB7, 0x5D, 0x5D }, // 4.x New Device Keygen Source. { 0x06, 0x1E, 0x7B, 0xE9, 0x6D, 0x47, 0x8C, 0x77, 0xC5, 0xC8, 0xE7, 0x94, 0x9A, 0xA8, 0x5F, 0x2E }, // 5.x New Device Keygen Source. { 0x99, 0xFA, 0x98, 0xBD, 0x15, 0x1C, 0x72, 0xFD, 0x7D, 0x9A, 0xD5, 0x41, 0x00, 0xFD, 0xB2, 0xEF }, // 6.x New Device Keygen Source. { 0x81, 0x3C, 0x6C, 0xBF, 0x5D, 0x21, 0xDE, 0x77, 0x20, 0xD9, 0x6C, 0xE3, 0x22, 0x06, 0xAE, 0xBB }, // 6.2.0 New Device Keygen Source. { 0x86, 0x61, 0xB0, 0x16, 0xFA, 0x7A, 0x9A, 0xEA, 0xF6, 0xF5, 0xBE, 0x1A, 0x13, 0x5B, 0x6D, 0x9E }, // 7.0.0 New Device Keygen Source. { 0xA6, 0x81, 0x71, 0xE7, 0xB5, 0x23, 0x74, 0xB0, 0x39, 0x8C, 0xB7, 0xFF, 0xA0, 0x62, 0x9F, 0x8D }, // 8.1.0 New Device Keygen Source. { 0x03, 0xE7, 0xEB, 0x43, 0x1B, 0xCF, 0x5F, 0xB5, 0xED, 0xDC, 0x97, 0xAE, 0x21, 0x8D, 0x19, 0xED }, // 9.0.0 New Device Keygen Source. { 0xCE, 0xFE, 0x41, 0x0F, 0x46, 0x9A, 0x30, 0xD6, 0xF2, 0xE9, 0x0C, 0x6B, 0xB7, 0x15, 0x91, 0x36 }, // 9.1.0 New Device Keygen Source. { 0xC2, 0x65, 0x34, 0x6E, 0xC7, 0xC6, 0x5D, 0x97, 0x3E, 0x34, 0x5C, 0x6B, 0xB3, 0x7E, 0xC6, 0xE3 }, // 12.1.0 New Device Keygen Source. { 0x77, 0x52, 0x92, 0xF0, 0xAA, 0xE3, 0xFB, 0xE0, 0x60, 0x16, 0xB3, 0x78, 0x68, 0x53, 0xF7, 0xA8 }, // 13.0.0 New Device Keygen Source. { 0x67, 0xD5, 0xD6, 0x0C, 0x08, 0xF5, 0xA3, 0x11, 0xBD, 0x6D, 0x5A, 0xEB, 0x96, 0x24, 0xB0, 0xD2 }, // 14.0.0 New Device Keygen Source. { 0x7C, 0x30, 0xED, 0x8B, 0x39, 0x25, 0x2C, 0x08, 0x8F, 0x48, 0xDC, 0x28, 0xE6, 0x1A, 0x6B, 0x49 }, // 15.0.0 New Device Keygen Source. { 0xF0, 0xF3, 0xFF, 0x52, 0x75, 0x2F, 0xBA, 0x4D, 0x09, 0x72, 0x30, 0x89, 0xA9, 0xDF, 0xFE, 0x1F }, // 16.0.0 New Device Keygen Source. { 0x21, 0xD6, 0x35, 0xF1, 0x0F, 0x7A, 0xF0, 0x5D, 0xDF, 0x79, 0x1C, 0x7A, 0xE4, 0x32, 0x82, 0x9E }, // 17.0.0 New Device Keygen Source. { 0xE7, 0x85, 0x8C, 0xA2, 0xF4, 0x49, 0xCB, 0x07, 0xD1, 0x8E, 0x48, 0x1B, 0xE8, 0x1E, 0x28, 0x3B }, // 18.0.0 New Device Keygen Source. { 0x9B, 0xA5, 0xFD, 0x74, 0x7F, 0xCD, 0x23, 0xD1, 0xD9, 0xBD, 0x6C, 0x51, 0x72, 0x5F, 0x3D, 0x1F }, // 19.0.0 New Device Keygen Source. { 0xDA, 0xFB, 0x61, 0x39, 0x48, 0x2D, 0xC2, 0x7E, 0x0D, 0x8E, 0x8F, 0x98, 0x57, 0x20, 0xB8, 0x15 }, // 20.0.0 New Device Keygen Source. { 0x92, 0xBF, 0x37, 0x80, 0x0E, 0x79, 0x56, 0x8C, 0x57, 0x75, 0x72, 0x0A, 0x48, 0xD8, 0x15, 0x39 }, // 21.0.0 New Device Keygen Source. { 0xC4, 0x6F, 0x0E, 0x72, 0x43, 0xCE, 0x87, 0xFC, 0x38, 0x95, 0x9B, 0xC9, 0x31, 0x44, 0x97, 0x63 }, // 22.0.0 New Device Keygen Source. }; static const u8 gen_keyseed[SE_KEY_128_SIZE] = { 0x89, 0x61, 0x5E, 0xE0, 0x5C, 0x31, 0xB6, 0x80, 0x5F, 0xE5, 0x8F, 0x3D, 0xA2, 0x4F, 0x7A, 0xA8 }; static const u8 gen_kekseed[SE_KEY_128_SIZE] = { 0x4D, 0x87, 0x09, 0x86, 0xC4, 0x5D, 0x20, 0x72, 0x2F, 0xBA, 0x10, 0x53, 0xDA, 0x92, 0xE8, 0xA9 }; static const u8 gen_keyseed_retail[SE_KEY_128_SIZE] = { 0xE2, 0xD6, 0xB8, 0x7A, 0x11, 0x9C, 0xB8, 0x80, 0xE8, 0x22, 0x88, 0x8A, 0x46, 0xFB, 0xA1, 0x95 }; static const u8 bis_kekseed[SE_KEY_128_SIZE] = { 0x34, 0xC1, 0xA0, 0xC4, 0x82, 0x58, 0xF8, 0xB4, 0xFA, 0x9E, 0x5E, 0x6A, 0xDA, 0xFC, 0x7E, 0x4F }; static const u8 bis_keyseed[][SE_KEY_128_SIZE] = { { 0xF8, 0x3F, 0x38, 0x6E, 0x2C, 0xD2, 0xCA, 0x32, 0xA8, 0x9A, 0xB9, 0xAA, 0x29, 0xBF, 0xC7, 0x48 }, // BIS 0 Crypt seed. { 0x7D, 0x92, 0xB0, 0x3A, 0xA8, 0xBF, 0xDE, 0xE1, 0xA7, 0x4C, 0x3B, 0x6E, 0x35, 0xCB, 0x71, 0x06 }, // BIS 0 Tweak seed. { 0x41, 0x00, 0x30, 0x49, 0xDD, 0xCC, 0xC0, 0x65, 0x64, 0x7A, 0x7E, 0xB4, 0x1E, 0xED, 0x9C, 0x5F }, // BIS 1 Crypt seed. { 0x44, 0x42, 0x4E, 0xDA, 0xB4, 0x9D, 0xFC, 0xD9, 0x87, 0x77, 0x24, 0x9A, 0xDC, 0x9F, 0x7C, 0xA4 }, // BIS 1 Tweak seed. { 0x52, 0xC2, 0xE9, 0xEB, 0x09, 0xE3, 0xEE, 0x29, 0x32, 0xA1, 0x0C, 0x1F, 0xB6, 0xA0, 0x92, 0x6C }, // BIS 2/3 Crypt seed. { 0x4D, 0x12, 0xE1, 0x4B, 0x2A, 0x47, 0x4C, 0x1C, 0x09, 0xCB, 0x03, 0x59, 0xF0, 0x15, 0xF4, 0xE4 } // BIS 2/3 Tweak seed. }; static int _hos_eks_rw_try(u8 *buf, bool write) { for (u32 i = 0; i < 3; i++) { if (!write) { if (!sdmmc_storage_read(&sd_storage, 0, 1, buf)) return 0; } else { if (!sdmmc_storage_write(&sd_storage, 0, 1, buf)) return 0; } } return 1; } static void _hos_eks_get() { // Check if Erista based unit. if (h_cfg.t210b01) return; // Check if EKS already found and parsed. if (!h_cfg.eks) { // Read EKS blob. u8 *mbr = malloc(SD_BLOCKSIZE); if (_hos_eks_rw_try(mbr, false)) goto out; // Decrypt EKS blob. hos_eks_mbr_t *eks = (hos_eks_mbr_t *)(mbr + 0x80); se_aes_crypt_ecb(14, DECRYPT, eks, eks, sizeof(hos_eks_mbr_t)); // Check if valid and for this unit. if (eks->magic == HOS_EKS_MAGIC && eks->lot0 == FUSE(FUSE_OPT_LOT_CODE_0)) { h_cfg.eks = eks; return; } out: free(mbr); } } static void _hos_eks_save() { // Check if Erista based unit. if (h_cfg.t210b01) return; // EKS save. Only for 7.0.0 and up. bool new_eks = false; if (!h_cfg.eks) { h_cfg.eks = zalloc(sizeof(hos_eks_mbr_t)); new_eks = true; } // If matching blob doesn't exist, create it. if (h_cfg.eks->enabled != HOS_EKS_TSEC_VER) { // Read EKS blob. u8 *mbr = malloc(SD_BLOCKSIZE); if (_hos_eks_rw_try(mbr, false)) { if (new_eks) { free(h_cfg.eks); h_cfg.eks = NULL; } goto out; } // Get keys. u8 *keys = (u8 *)zalloc(SZ_8K); se_aes_ctx_get_keys(keys + SZ_4K, keys, SE_KEY_128_SIZE); // Set magic and personalized info. h_cfg.eks->magic = HOS_EKS_MAGIC; h_cfg.eks->enabled = HOS_EKS_TSEC_VER; h_cfg.eks->lot0 = FUSE(FUSE_OPT_LOT_CODE_0); // Copy new keys. memcpy(h_cfg.eks->tsec, keys + 12 * SE_KEY_128_SIZE, SE_KEY_128_SIZE); memcpy(h_cfg.eks->troot, keys + 13 * SE_KEY_128_SIZE, SE_KEY_128_SIZE); memcpy(h_cfg.eks->troot_dev, keys + 11 * SE_KEY_128_SIZE, SE_KEY_128_SIZE); // Encrypt EKS blob. u8 *eks = malloc(sizeof(hos_eks_mbr_t)); memcpy(eks, h_cfg.eks, sizeof(hos_eks_mbr_t)); se_aes_crypt_ecb(14, ENCRYPT, eks, eks, sizeof(hos_eks_mbr_t)); // Write EKS blob to SD. memcpy(mbr + 0x80, eks, sizeof(hos_eks_mbr_t)); _hos_eks_rw_try(mbr, true); free(eks); free(keys); out: free(mbr); } } void hos_eks_clear(u32 mkey) { // Check if Erista based unit. if (h_cfg.t210b01) return; if (h_cfg.eks && mkey >= HOS_MKEY_VER_700) { // Check if current Master key is enabled. if (h_cfg.eks->enabled) { // Read EKS blob. u8 *mbr = malloc(SD_BLOCKSIZE); if (_hos_eks_rw_try(mbr, false)) goto out; // Disable current Master key version. h_cfg.eks->enabled = 0; // Encrypt EKS blob. u8 *eks = malloc(sizeof(hos_eks_mbr_t)); memcpy(eks, h_cfg.eks, sizeof(hos_eks_mbr_t)); se_aes_crypt_ecb(14, ENCRYPT, eks, eks, sizeof(hos_eks_mbr_t)); // Write EKS blob to SD. memcpy(mbr + 0x80, eks, sizeof(hos_eks_mbr_t)); _hos_eks_rw_try(mbr, true); free(eks); out: free(mbr); } } } typedef struct _tsec_keys_t { u8 tsec[SE_KEY_128_SIZE]; u8 tsec_root[SE_KEY_128_SIZE]; u8 tmp[SE_KEY_128_SIZE]; } tsec_keys_t; int hos_keygen(pkg1_eks_t *eks, u32 mkey, tsec_ctxt_t *tsec_ctxt) { u32 retries = 0; bool use_tsec = false; tsec_keys_t tsec_keys; if (mkey > HOS_MKEY_VER_MAX) return 1; // Do Mariko keygen. if (h_cfg.t210b01) { // Use SBK as Device key 4x unsealer and KEK for mkey in T210B01 units. se_aes_unwrap_key(10, 14, console_keyseed_4xx); // Derive master key. se_aes_unwrap_key(7, 12, master_kekseed_t210b01[mkey - HOS_MKEY_VER_600]); se_aes_unwrap_key(7, 7, master_keyseed_retail); // Derive latest pkg2 key. se_aes_unwrap_key(8, 7, package2_keyseed); return 0; } // Do Erista keygen. // Use HOS EKS if it exists. _hos_eks_get(); // Use tsec keygen for old firmware or if EKS keys does not exist for newer. if (mkey <= HOS_MKEY_VER_620 || !h_cfg.eks || (h_cfg.eks->enabled != HOS_EKS_TSEC_VER)) use_tsec = true; if (mkey <= HOS_MKEY_VER_600) { tsec_ctxt->size = 0xF00; tsec_ctxt->type = TSEC_FW_TYPE_OLD; } else if (mkey == HOS_MKEY_VER_620) { tsec_ctxt->size = 0x2900; tsec_ctxt->type = TSEC_FW_TYPE_EMU; // Prepare smmu tsec page for 6.2.0. u8 *tsec_paged = (u8 *)smmu_page_zalloc(3); memcpy(tsec_paged, (void *)tsec_ctxt->fw, tsec_ctxt->size); tsec_ctxt->fw = tsec_paged; } else if (use_tsec) // 7.0.0+ { /* * 7.0.0/8.1.0 tsec fw are 0x3000/0x3300. * Unused here because of THK. */ // Use custom TSEC Hovi Keygen firmware. tsec_ctxt->fw = sd_file_read("bootloader/sys/thk.bin", NULL); if (!tsec_ctxt->fw) { EPRINTF("\nFailed to load thk.bin"); return 1; } tsec_ctxt->size = 0x1F00; tsec_ctxt->type = TSEC_FW_TYPE_NEW; } else if (h_cfg.eks) { // EKS found. Set TSEC keys. se_aes_key_set(12, h_cfg.eks->tsec, SE_KEY_128_SIZE); se_aes_key_set(13, h_cfg.eks->troot, SE_KEY_128_SIZE); se_aes_key_set(11, h_cfg.eks->troot_dev, SE_KEY_128_SIZE); } // Get TSEC key. while (use_tsec && tsec_query(&tsec_keys, tsec_ctxt) < 0) { memset(&tsec_keys, 0x00, 0x20); retries++; // We rely on racing conditions, make sure we cover even the unluckiest cases. if (retries > 15) { EPRINTF("\nFailed to get TSEC keys. Please try again."); return 1; } } if (mkey >= HOS_MKEY_VER_700) { // For 7.0.0 and up, save EKS slot if it doesn't exist. if (use_tsec) { _hos_eks_save(); free(tsec_ctxt->fw); } // Decrypt eks and set keyslots. se_aes_crypt_ecb(12, DECRYPT, tsec_keys.tmp, eks_keyseeds[0], SE_KEY_128_SIZE); se_aes_unwrap_key(15, 14, tsec_keys.tmp); // Derive device keys. se_aes_unwrap_key(10, 15, console_keyseed_4xx); se_aes_unwrap_key(15, 15, console_keyseed); // Derive master kek. se_aes_unwrap_key(7, 13, master_kekseed_t210_max); // Derive master key. se_aes_unwrap_key(7, 7, master_keyseed_retail); // Package2 key. se_aes_unwrap_key(8, 7, package2_keyseed); } else if (mkey == HOS_MKEY_VER_620) { // Set TSEC key. se_aes_key_set(12, tsec_keys.tsec, SE_KEY_128_SIZE); // Set TSEC root key. se_aes_key_set(13, tsec_keys.tsec_root, SE_KEY_128_SIZE); // Decrypt eks and set keyslots. se_aes_crypt_ecb(12, DECRYPT, tsec_keys.tmp, eks_keyseeds[0], SE_KEY_128_SIZE); se_aes_unwrap_key(15, 14, tsec_keys.tmp); // Derive device keys. se_aes_unwrap_key(10, 15, console_keyseed_4xx); se_aes_unwrap_key(15, 15, console_keyseed); // Derive master kek. se_aes_unwrap_key(7, 13, master_kekseed_620); // Derive master key. se_aes_unwrap_key(7, 7, master_keyseed_retail); // Package2 key. se_aes_unwrap_key(8, 7, package2_keyseed); } else { // Set TSEC key. se_aes_key_set(13, tsec_keys.tsec, SE_KEY_128_SIZE); // Derive eks keys from TSEC+SBK. se_aes_crypt_ecb(13, DECRYPT, tsec_keys.tsec, eks_keyseeds[0], SE_KEY_128_SIZE); se_aes_unwrap_key(15, 14, tsec_keys.tsec); se_aes_crypt_ecb(13, DECRYPT, tsec_keys.tsec, eks_keyseeds[mkey], SE_KEY_128_SIZE); se_aes_unwrap_key(13, 14, tsec_keys.tsec); /* // Verify eks CMAC. u8 cmac[SE_KEY_128_SIZE]; se_aes_unwrap_key(11, 13, cmac_keyseed); se_aes_hash_cmac(cmac, SE_KEY_128_SIZE, 11, (void *)eks->ctr, sizeof(eks->ctr) + sizeof(eks->keys)); if (!memcmp(eks->cmac, cmac, SE_KEY_128_SIZE)) return 1; */ se_aes_crypt_ecb(13, DECRYPT, tsec_keys.tsec, cmac_keyseed, SE_KEY_128_SIZE); se_aes_unwrap_key(11, 13, cmac_keyseed); // Decrypt eks and set keyslots. se_aes_crypt_ctr(13, &eks->keys, &eks->keys, sizeof(eks_keys_t), eks->ctr); se_aes_key_set(11, eks->keys.package1_key, SE_KEY_128_SIZE); se_aes_key_set(12, eks->keys.master_kekseed, SE_KEY_128_SIZE); se_aes_key_set(13, eks->keys.master_kekseed, SE_KEY_128_SIZE); se_aes_crypt_ecb(12, DECRYPT, tsec_keys.tsec, master_keyseed_retail, SE_KEY_128_SIZE); switch (mkey) { case HOS_MKEY_VER_100: case HOS_MKEY_VER_300: case HOS_MKEY_VER_301: se_aes_unwrap_key(13, 15, console_keyseed); se_aes_unwrap_key(12, 12, master_keyseed_retail); break; case HOS_MKEY_VER_400: se_aes_unwrap_key(13, 15, console_keyseed_4xx); se_aes_unwrap_key(15, 15, console_keyseed); //se_aes_unwrap_key(14, 12, master_keyseed_4xx); // In this context it's useless. So don't kill SBK. se_aes_unwrap_key(12, 12, master_keyseed_retail); break; case HOS_MKEY_VER_500: case HOS_MKEY_VER_600: se_aes_unwrap_key(10, 15, console_keyseed_4xx); se_aes_unwrap_key(15, 15, console_keyseed); //se_aes_unwrap_key(14, 12, master_keyseed_4xx); // In this context it's useless. So don't kill SBK. se_aes_unwrap_key(12, 12, master_keyseed_retail); break; } // Package2 key. se_aes_unwrap_key(8, 12, package2_keyseed); } return 0; } static void _hos_validate_mkey() { u8 tmp_mkey[SE_KEY_128_SIZE]; u32 mkey_idx = sizeof(mkey_vectors) / SE_KEY_128_SIZE; do { mkey_idx--; se_aes_crypt_ecb(7, DECRYPT, tmp_mkey, mkey_vectors[mkey_idx], SE_KEY_128_SIZE); for (u32 idx = 0; idx < mkey_idx; idx++) { se_aes_key_set(2, tmp_mkey, SE_KEY_128_SIZE); se_aes_crypt_ecb(2, DECRYPT, tmp_mkey, mkey_vectors[mkey_idx - 1 - idx], SE_KEY_128_SIZE); } if (!memcmp(tmp_mkey, "\x00\x00\x00\x00\x00\x00\x00\x00", 8)) { se_aes_key_clear(2); return; } } while (mkey_idx - 1); se_aes_key_clear(2); hos_eks_clear(HOS_MKEY_VER_MAX); } static void _hos_bis_print_key(u32 idx, u8 *key) { gfx_printf("BIS %d Crypt: ", idx); for (int i = 0; i < SE_KEY_128_SIZE; i++) gfx_printf("%02X", key[((idx * 2 + 0) * SE_KEY_128_SIZE) + i]); gfx_puts("\n"); gfx_printf("BIS %d Tweak: ", idx); for (int i = 0; i < SE_KEY_128_SIZE; i++) gfx_printf("%02X", key[((idx * 2 + 1) * SE_KEY_128_SIZE) + i]); gfx_puts("\n"); } int hos_bis_keygen() { u32 keygen_rev = 0; u32 console_key_slot = 15; // HOS_MKEY_VER_MAX. Only for Erista. tsec_ctxt_t tsec_ctxt = {0}; // Run initial keygen. if (hos_keygen(NULL, HOS_MKEY_VER_MAX, &tsec_ctxt)) return 1; // All Mariko use new device keygen. New keygen was introduced in 4.0.0. // We check unconditionally in order to support downgrades. keygen_rev = fuse_read_odm_keygen_rev(); gfx_printf("Keygen rev: %d\n", keygen_rev); if (keygen_rev) { u8 tmp_mkey[SE_KEY_128_SIZE]; u32 mkey_idx = sizeof(mkey_vectors) / SE_KEY_128_SIZE; // Keygen revision uses bootloader version, which starts from 1. keygen_rev -= (HOS_MKEY_VER_400 + 1); // Derive mkey 0. do { mkey_idx--; se_aes_crypt_ecb(7, DECRYPT, tmp_mkey, mkey_vectors[mkey_idx], SE_KEY_128_SIZE); for (u32 idx = 0; idx < mkey_idx; idx++) { se_aes_key_set(2, tmp_mkey, SE_KEY_128_SIZE); se_aes_crypt_ecb(2, DECRYPT, tmp_mkey, mkey_vectors[mkey_idx - 1 - idx], SE_KEY_128_SIZE); } } while (memcmp(tmp_mkey, "\x00\x00\x00\x00\x00\x00\x00\x00", 8) != 0 && (mkey_idx - 1)); // Derive new device key. se_aes_unwrap_key(1, 10, new_console_keyseed[keygen_rev]); // Uses Device key 4x. se_aes_crypt_ecb(10, DECRYPT, tmp_mkey, new_console_keyseed[keygen_rev], SE_KEY_128_SIZE); // Uses Device key 4x. se_aes_unwrap_key(1, 2, new_console_kekseed[keygen_rev]); // Uses Master Key 0. se_aes_unwrap_key(1, 1, tmp_mkey); console_key_slot = 1; } // Generate generic key. se_aes_unwrap_key(2, console_key_slot, gen_keyseed_retail); // Clear bis keys storage. u8 *bis_keys = malloc(SE_KEY_128_SIZE * 6); memset(bis_keys, 0, SE_KEY_128_SIZE * 6); // Generate BIS 0 Keys. se_aes_crypt_ecb(2, DECRYPT, bis_keys + (0 * SE_KEY_128_SIZE), bis_keyseed[0], SE_KEY_128_SIZE); se_aes_crypt_ecb(2, DECRYPT, bis_keys + (1 * SE_KEY_128_SIZE), bis_keyseed[1], SE_KEY_128_SIZE); // Generate generic kek. se_aes_unwrap_key(2, console_key_slot, gen_kekseed); se_aes_unwrap_key(2, 2, bis_kekseed); se_aes_unwrap_key(2, 2, gen_keyseed); // Generate BIS 1 Keys. se_aes_crypt_ecb(2, DECRYPT, bis_keys + (2 * SE_KEY_128_SIZE), bis_keyseed[2], SE_KEY_128_SIZE); se_aes_crypt_ecb(2, DECRYPT, bis_keys + (3 * SE_KEY_128_SIZE), bis_keyseed[3], SE_KEY_128_SIZE); // Generate BIS 2/3 Keys. se_aes_crypt_ecb(2, DECRYPT, bis_keys + (4 * SE_KEY_128_SIZE), bis_keyseed[4], SE_KEY_128_SIZE); se_aes_crypt_ecb(2, DECRYPT, bis_keys + (5 * SE_KEY_128_SIZE), bis_keyseed[5], SE_KEY_128_SIZE); // Validate key because HOS_MKEY_VER_MAX. if (!h_cfg.t210b01) _hos_validate_mkey(); // Print keys to console. _hos_bis_print_key(0, bis_keys); _hos_bis_print_key(1, bis_keys); _hos_bis_print_key(2, bis_keys); // Clear all AES tmp and bis keyslots. for (u32 i = 0; i < 6; i++) se_aes_key_clear(i); // Set BIS keys. se_aes_key_set(0, bis_keys + (0 * SE_KEY_128_SIZE), SE_KEY_128_SIZE); se_aes_key_set(1, bis_keys + (1 * SE_KEY_128_SIZE), SE_KEY_128_SIZE); se_aes_key_set(2, bis_keys + (2 * SE_KEY_128_SIZE), SE_KEY_128_SIZE); se_aes_key_set(3, bis_keys + (3 * SE_KEY_128_SIZE), SE_KEY_128_SIZE); se_aes_key_set(4, bis_keys + (4 * SE_KEY_128_SIZE), SE_KEY_128_SIZE); se_aes_key_set(5, bis_keys + (5 * SE_KEY_128_SIZE), SE_KEY_128_SIZE); return 0; } void hos_bis_keys_clear() { // Clear all aes bis keyslots. for (u32 i = 0; i < 6; i++) se_aes_key_clear(i); } int hos_dump_cal0() { // Init eMMC. if (emmc_initialize(false)) return 1; // Generate BIS keys if (hos_bis_keygen()) return 2; if (!cal0_buf) cal0_buf = malloc(SZ_64K); // Read and decrypt CAL0. emmc_set_partition(EMMC_GPP); LIST_INIT(gpt); emmc_gpt_parse(&gpt); emmc_part_t *cal0_part = emmc_part_find(&gpt, "PRODINFO"); // check if null nx_emmc_bis_init(cal0_part, false, 0); nx_emmc_bis_read(0, 0x40, cal0_buf); nx_emmc_bis_end(); emmc_gpt_free(&gpt); emmc_end(); // Clear BIS keys slots. hos_bis_keys_clear(); nx_emmc_cal0_t *cal0 = (nx_emmc_cal0_t *)cal0_buf; // Check keys validity. if (memcmp(&cal0->magic, "CAL0", 4)) { free(cal0_buf); cal0_buf = NULL; // Clear EKS keys. hos_eks_clear(HOS_MKEY_VER_MAX); return 2; } u32 hash[8]; se_sha_hash_256_oneshot(hash, (u8 *)&cal0->cfg_id1, cal0->body_size); if (memcmp(hash, cal0->body_sha256, 0x20)) return 3; return 0; } ================================================ FILE: nyx/nyx_gui/hos/hos.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _HOS_H_ #define _HOS_H_ #include #include "pkg1.h" #include "pkg2.h" #include //!TODO: Update on mkey changes. enum { HOS_MKEY_VER_100 = 0, HOS_MKEY_VER_300 = 1, HOS_MKEY_VER_301 = 2, HOS_MKEY_VER_400 = 3, HOS_MKEY_VER_500 = 4, HOS_MKEY_VER_600 = 5, HOS_MKEY_VER_620 = 6, HOS_MKEY_VER_700 = 7, HOS_MKEY_VER_810 = 8, HOS_MKEY_VER_900 = 9, HOS_MKEY_VER_910 = 10, HOS_MKEY_VER_1210 = 11, HOS_MKEY_VER_1300 = 12, HOS_MKEY_VER_1400 = 13, HOS_MKEY_VER_1500 = 14, HOS_MKEY_VER_1600 = 15, HOS_MKEY_VER_1700 = 16, HOS_MKEY_VER_1800 = 17, HOS_MKEY_VER_1900 = 18, HOS_MKEY_VER_2000 = 19, HOS_MKEY_VER_2100 = 20, HOS_MKEY_VER_2200 = 21, HOS_MKEY_VER_MAX = HOS_MKEY_VER_2200 }; #define HOS_TSEC_VERSION 4 //! TODO: Update on TSEC Root Key changes. #define HOS_PKG11_MAGIC 0x31314B50 #define HOS_EKS_MAGIC 0x31534B45 // EKS1. #define HOS_EKS_TSEC_VER (HOS_MKEY_VER_700 + HOS_TSEC_VERSION) typedef struct _hos_eks_mbr_t { u32 magic; u32 enabled; u32 lot0; u32 rsvd; u8 tsec[SE_KEY_128_SIZE]; u8 troot[SE_KEY_128_SIZE]; u8 troot_dev[SE_KEY_128_SIZE]; } hos_eks_mbr_t; static_assert(sizeof(hos_eks_mbr_t) == 64, "HOS EKS size is wrong!"); typedef struct _launch_ctxt_t { void *pkg1; const pkg1_id_t *pkg1_id; void *warmboot; u32 warmboot_size; void *secmon; u32 secmon_size; void *pkg2; u32 pkg2_size; bool new_pkg2; void *kernel; u32 kernel_size; link_t kip1_list; char *kip1_patches; ini_sec_t *cfg; } launch_ctxt_t; extern u8 *cal0_buf; void hos_eks_clear(u32 mkey); int hos_keygen(pkg1_eks_t *eks, u32 mkey, tsec_ctxt_t *tsec_ctxt); int hos_bis_keygen(); void hos_bis_keys_clear(); int hos_dump_cal0(); #endif ================================================ FILE: nyx/nyx_gui/hos/pkg1.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018 st4rk * Copyright (c) 2018-2025 CTCaer * Copyright (c) 2018 balika011 * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "hos.h" #include "pkg1.h" #include "../config.h" /* * package1.1 header: * package1.1 layout: * 1.0: {sm, ldr, wb} { 2, 1, 0 } * 2.0+: {wb, ldr, sm} { 0, 1, 2 } * 4.0+: {ldr, sm, wb} { 1, 2, 0 } */ static const u8 sec_map_100[3] = { PK11_SECTION_SM, PK11_SECTION_LD, PK11_SECTION_WB }; static const u8 sec_map_2xx[3] = { PK11_SECTION_WB, PK11_SECTION_LD, PK11_SECTION_SM }; static const u8 sec_map_4xx[3] = { PK11_SECTION_LD, PK11_SECTION_SM, PK11_SECTION_WB }; // Timestamp MK TSEC PK11 SECMON Warmboot static const pkg1_id_t _pkg1_ids[] = { { "20161121", 0, 0x1900, 0x3FE0, 0x40014020, 0x8000D000 }, // 1.0.0. { "20170210", 0, 0x1900, 0x3FE0, 0x4002D000, 0x8000D000 }, // 2.0.0 - 2.3.0. { "20170519", 1, 0x1A00, 0x3FE0, 0x4002D000, 0x8000D000 }, // 3.0.0. { "20170710", 2, 0x1A00, 0x3FE0, 0x4002D000, 0x8000D000 }, // 3.0.1 - 3.0.2. { "20170921", 3, 0x1800, 0x3FE0, 0x4002B000, 0x4003B000 }, // 4.0.0 - 4.1.0. { "20180220", 4, 0x1900, 0x3FE0, 0x4002B000, 0x4003B000 }, // 5.0.0 - 5.1.0. { "20180802", 5, 0x1900, 0x3FE0, 0x4002B000, 0x4003D800 }, // 6.0.0 - 6.1.0. { "20181107", 6, 0x0E00, 0x6FE0, 0x4002B000, 0x4003D800 }, // 6.2.0. { "20181218", 7, 0x0F00, 0x6FE0, 0x40030000, 0x4003E000 }, // 7.0.0. { "20190208", 7, 0x0F00, 0x6FE0, 0x40030000, 0x4003E000 }, // 7.0.1. { "20190314", 7, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 8.0.0 - 8.0.1. { "20190531", 8, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 8.1.0 - 8.1.1. { "20190809", 9, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 9.0.0 - 9.0.1. { "20191021", 10, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 9.1.0 - 9.2.0. { "20200303", 10, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 10.0.0 - 10.2.0. { "20201030", 10, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 11.0.0 - 11.0.1. { "20210129", 10, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 12.0.0 - 12.0.1. { "20210422", 10, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 12.0.2 - 12.0.3. { "20210607", 11, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 12.1.0. { "20210805", 12, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 13.0.0 - 13.2.0 { "20220105", 12, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 13.2.1. { "20220209", 13, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 14.0.0 - 14.1.2. { "20220801", 14, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 15.0.0 - 15.0.1. { "20230111", 15, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 16.0.0 - 16.1.0. { "20230906", 16, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 17.0.0 - 17.0.1. { "20240207", 17, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 18.0.0 - 18.1.0. { "20240808", 18, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 19.0.0 - 19.0.1. { "20250206", 19, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 20.0.0 - 20.5.0. { "20251009", 20, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 21.0.0 - 21.2.0. { "20260123", 21, 0x0E00, 0x6FE0, 0x40030000, 0x4003E000 }, // 22.0.0+ }; const pkg1_id_t *pkg1_identify(u8 *pkg1, char *build_date) { pk1_hdr_t *hdr = (pk1_hdr_t *)pkg1; if (build_date) { memcpy(build_date, hdr->timestamp, 14); build_date[14] = 0; } for (u32 i = 0; i < ARRAY_SIZE(_pkg1_ids); i++) if (!memcmp(hdr->timestamp, _pkg1_ids[i].id, 8)) return &_pkg1_ids[i]; return NULL; } bool pkg1_decrypt(const pkg1_id_t *id, u8 *pkg1) { pk11_hdr_t *hdr; // Decrypt package1. if (!h_cfg.t210b01) { u8 *pkg11 = pkg1 + id->pkg11_off; u32 pkg11_size = *(u32 *)pkg11; hdr = (pk11_hdr_t *)(pkg11 + 0x20); se_aes_crypt_ctr(11, hdr, hdr, pkg11_size, pkg11 + 0x10); } else { bl_hdr_t210b01_t *oem_hdr = (bl_hdr_t210b01_t *)pkg1; pkg1 += sizeof(bl_hdr_t210b01_t); hdr = (pk11_hdr_t *)(pkg1 + id->pkg11_off + 0x20); // Use BEK for T210B01. // Additionally, skip 0x20 bytes from decryption to maintain the header. se_aes_iv_clear(13); se_aes_crypt_cbc(13, DECRYPT, pkg1 + 0x20, pkg1 + 0x20, oem_hdr->size - 0x20); } // Return if header is valid. return (hdr->magic == PKG1_MAGIC); } const u8 *pkg1_unpack(void *wm_dst, void *sm_dst, void *ldr_dst, const pkg1_id_t *id, u8 *pkg1) { const u8 *sec_map; const pk11_hdr_t *hdr = (pk11_hdr_t *)(pkg1 + id->pkg11_off + 0x20); u32 sec_size[3] = { hdr->wb_size, hdr->ldr_size, hdr->sm_size }; // Get correct header mapping. if (id->mkey == HOS_MKEY_VER_100 && !memcmp(id->id, "20161121", 8)) sec_map = sec_map_100; else if (id->mkey <= HOS_MKEY_VER_301) sec_map = sec_map_2xx; else sec_map = sec_map_4xx; // Copy secmon, warmboot and nx bootloader payloads. u8 *pdata = (u8 *)hdr + sizeof(pk11_hdr_t); for (u32 i = 0; i < 3; i++) { u32 ssize = sec_size[sec_map[i]]; switch (sec_map[i]) { case PK11_SECTION_WB: if (wm_dst) memcpy(wm_dst, pdata, ssize); break; case PK11_SECTION_LD: if (ldr_dst) memcpy(ldr_dst, pdata, ssize); break; case PK11_SECTION_SM: if (sm_dst) memcpy(sm_dst, pdata, ssize); break; } pdata += ssize; } return sec_map; } ================================================ FILE: nyx/nyx_gui/hos/pkg1.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2022-2025 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _PKG1_H_ #define _PKG1_H_ #include #define PKG1_MAGIC 0x31314B50 #define PK11_SECTION_WB 0 #define PK11_SECTION_LD 1 #define PK11_SECTION_SM 2 #define PKG1_BOOTLOADER_SIZE SZ_256K #define PKG1_BOOTLOADER_MAIN_OFFSET (0x100000 / EMMC_BLOCKSIZE) #define PKG1_BOOTLOADER_BACKUP_OFFSET (0x140000 / EMMC_BLOCKSIZE) #define PKG1_BOOTLOADER_SAFE_OFFSET (0x000000 / EMMC_BLOCKSIZE) #define PKG1_HOS_EKS_OFFSET (0x180000 / EMMC_BLOCKSIZE) typedef struct _bl_hdr_t210b01_t { /* 0x000 */ u8 aes_mac[0x10]; /* 0x010 */ u8 rsa_sig[0x100]; /* 0x110 */ u8 salt[0x20]; /* 0x130 */ u8 sha256[0x20]; /* 0x150 */ u32 version; /* 0x154 */ u32 size; /* 0x158 */ u32 load_addr; /* 0x15C */ u32 entrypoint; /* 0x160 */ u8 rsvd[0x10]; } bl_hdr_t210b01_t; typedef struct _eks_keys_t { u8 master_kekseed[SE_KEY_128_SIZE]; u8 random_data[0x70]; u8 package1_key[SE_KEY_128_SIZE]; } eks_keys_t; typedef struct _pkg1_eks_t { u8 cmac[SE_KEY_128_SIZE]; u8 ctr[SE_AES_IV_SIZE]; eks_keys_t keys; u8 padding[0x150]; } pkg1_eks_t; typedef struct _pk1_hdr_t { /* 0x00 */ u32 si_sha256; // Secure Init. /* 0x04 */ u32 sm_sha256; // Secure Monitor. /* 0x08 */ u32 sl_sha256; // Secure Loader. /* 0x0C */ u32 unk; // what's this? It's not warmboot. /* 0x10 */ char timestamp[14]; /* 0x1E */ u8 keygen; /* 0x1F */ u8 version; } pk1_hdr_t; typedef struct _pkg1_id_t { const char *id; u16 mkey; u16 tsec_off; u32 pkg11_off; u32 secmon_base; u32 warmboot_base; } pkg1_id_t; typedef struct _pk11_hdr_t { /* 0x00 */ u32 magic; /* 0x04 */ u32 wb_size; /* 0x08 */ u32 wb_off; /* 0x0C */ u32 pad; /* 0x10 */ u32 ldr_size; /* 0x14 */ u32 ldr_off; /* 0x18 */ u32 sm_size; /* 0x1C */ u32 sm_off; } pk11_hdr_t; const pkg1_id_t *pkg1_identify(u8 *pkg1, char *build_date); bool pkg1_decrypt(const pkg1_id_t *id, u8 *pkg1); const u8 *pkg1_unpack(void *wm_dst, void *sm_dst, void *ldr_dst, const pkg1_id_t *id, u8 *pkg1); #endif ================================================ FILE: nyx/nyx_gui/hos/pkg2.c ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "pkg2.h" #include "hos.h" #include "../config.h" #include #include extern const u8 package2_keyseed[]; u32 pkg2_newkern_ini1_start; u32 pkg2_newkern_ini1_end; /*#define DPRINTF(...) gfx_printf(__VA_ARGS__) #define DEBUG_PRINTING*/ #define DPRINTF(...) u32 pkg2_calc_kip1_size(pkg2_kip1_t *kip1) { u32 size = sizeof(pkg2_kip1_t); for (u32 j = 0; j < KIP1_NUM_SECTIONS; j++) size += kip1->sections[j].size_comp; return size; } void pkg2_get_newkern_info(u8 *kern_data) { u32 crt_start = 0; u32 pkg2_newkern_ini1_info = 0; pkg2_newkern_ini1_start = 0; u32 first_op = *(u32 *)kern_data; if ((first_op & 0xFE000000) == 0x14000000) crt_start = (first_op & 0x1FFFFFF) << 2; // Find static OP offset that is close to INI1 offset. u32 counter_ops = 0x100; while (counter_ops) { if (*(u32 *)(kern_data + crt_start + 0x100 - counter_ops) == PKG2_NEWKERN_GET_INI1_HEURISTIC) { // OP found. Add 12 for the INI1 info offset. pkg2_newkern_ini1_info = crt_start + 0x100 - counter_ops + 12; // On v2 kernel with dynamic crt there's a NOP after heuristic. Offset one op. if (crt_start) pkg2_newkern_ini1_info += 4; break; } counter_ops -= 4; } // Offset not found? if (!counter_ops) return; u32 info_op = *(u32 *)(kern_data + pkg2_newkern_ini1_info); pkg2_newkern_ini1_info += ((info_op & 0xFFFF) >> 3); // Parse ADR and PC. pkg2_newkern_ini1_start = *(u32 *)(kern_data + pkg2_newkern_ini1_info); pkg2_newkern_ini1_end = *(u32 *)(kern_data + pkg2_newkern_ini1_info + 0x8); // On v2 kernel with dynamic crt, values are relative to value address. if (crt_start) { pkg2_newkern_ini1_start += pkg2_newkern_ini1_info; pkg2_newkern_ini1_end += pkg2_newkern_ini1_info + 0x8; } } //!TODO: Update on mkey changes. static const u8 mkey_vector_7xx[HOS_MKEY_VER_MAX - HOS_MKEY_VER_810 + 1][SE_KEY_128_SIZE] = { // Master key 7 encrypted with 8. (7.0.0 with 8.1.0) { 0xEA, 0x60, 0xB3, 0xEA, 0xCE, 0x8F, 0x24, 0x46, 0x7D, 0x33, 0x9C, 0xD1, 0xBC, 0x24, 0x98, 0x29 }, // Master key 8 encrypted with 9. (8.1.0 with 9.0.0) { 0x4D, 0xD9, 0x98, 0x42, 0x45, 0x0D, 0xB1, 0x3C, 0x52, 0x0C, 0x9A, 0x44, 0xBB, 0xAD, 0xAF, 0x80 }, // Master key 9 encrypted with 10. (9.0.0 with 9.1.0) { 0xB8, 0x96, 0x9E, 0x4A, 0x00, 0x0D, 0xD6, 0x28, 0xB3, 0xD1, 0xDB, 0x68, 0x5F, 0xFB, 0xE1, 0x2A }, // Master key 10 encrypted with 11. (9.1.0 with 12.1.0) { 0xC1, 0x8D, 0x16, 0xBB, 0x2A, 0xE4, 0x1D, 0xD4, 0xC2, 0xC1, 0xB6, 0x40, 0x94, 0x35, 0x63, 0x98 }, // Master key 11 encrypted with 12. (12.1.0 with 13.0.0) { 0xA3, 0x24, 0x65, 0x75, 0xEA, 0xCC, 0x6E, 0x8D, 0xFB, 0x5A, 0x16, 0x50, 0x74, 0xD2, 0x15, 0x06 }, // Master key 12 encrypted with 13. (13.0.0 with 14.0.0) { 0x83, 0x67, 0xAF, 0x01, 0xCF, 0x93, 0xA1, 0xAB, 0x80, 0x45, 0xF7, 0x3F, 0x72, 0xFD, 0x3B, 0x38 }, // Master key 13 encrypted with 14. (14.0.0 with 15.0.0) { 0xB1, 0x81, 0xA6, 0x0D, 0x72, 0xC7, 0xEE, 0x15, 0x21, 0xF3, 0xC0, 0xB5, 0x6B, 0x61, 0x6D, 0xE7 }, // Master key 14 encrypted with 15. (15.0.0 with 16.0.0) { 0xAF, 0x11, 0x4C, 0x67, 0x17, 0x7A, 0x52, 0x43, 0xF7, 0x70, 0x2F, 0xC7, 0xEF, 0x81, 0x72, 0x16 }, // Master key 15 encrypted with 16. (16.0.0 with 17.0.0) { 0x25, 0x12, 0x8B, 0xCB, 0xB5, 0x46, 0xA1, 0xF8, 0xE0, 0x52, 0x15, 0xB7, 0x0B, 0x57, 0x00, 0xBD }, // Master key 16 encrypted with 17. (17.0.0 with 18.0.0) { 0x58, 0x15, 0xD2, 0xF6, 0x8A, 0xE8, 0x19, 0xAB, 0xFB, 0x2D, 0x52, 0x9D, 0xE7, 0x55, 0xF3, 0x93 }, // Master key 17 encrypted with 18. (18.0.0 with 19.0.0) { 0x4A, 0x01, 0x3B, 0xC7, 0x44, 0x6E, 0x45, 0xBD, 0xE6, 0x5E, 0x2B, 0xEC, 0x07, 0x37, 0x52, 0x86 }, // Master key 18 encrypted with 19. (19.0.0 with 20.0.0) { 0x97, 0xE4, 0x11, 0xAB, 0x22, 0x72, 0x1A, 0x1F, 0x70, 0x5C, 0x00, 0xB3, 0x96, 0x30, 0x05, 0x28 }, // Master key 19 encrypted with 20. (20.0.0 with 21.0.0) { 0xF7, 0x92, 0xC0, 0xEC, 0xF3, 0xA4, 0x8C, 0xB7, 0x0D, 0xB3, 0xF3, 0xAB, 0x10, 0x9B, 0x18, 0xBA }, // Master key 20 encrypted with 21. (21.0.0 with 22.0.0) { 0x14, 0xCB, 0x60, 0x29, 0x3D, 0xE0, 0xFB, 0xF2, 0x5B, 0x60, 0xB6, 0xC5, 0x2E, 0x77, 0x8F, 0x98 }, }; static bool _pkg2_key_unwrap_validate(pkg2_hdr_t *tmp_test, pkg2_hdr_t *hdr, u8 src_slot, u8 *mkey, const u8 *key_seed) { // Decrypt older encrypted mkey. se_aes_crypt_ecb(src_slot, DECRYPT, mkey, key_seed, SE_KEY_128_SIZE); // Set and unwrap pkg2 key. se_aes_key_set(9, mkey, SE_KEY_128_SIZE); se_aes_unwrap_key(9, 9, package2_keyseed); // Decrypt header. se_aes_crypt_ctr(9, tmp_test, hdr, sizeof(pkg2_hdr_t), hdr); // Return if header is valid. return (tmp_test->magic == PKG2_MAGIC); } pkg2_hdr_t *pkg2_decrypt(void *data, u8 mkey) { pkg2_hdr_t mkey_test; u8 *pdata = (u8 *)data; u8 pkg2_keyslot = 8; // Skip signature. pdata += 0x100; pkg2_hdr_t *hdr = (pkg2_hdr_t *)pdata; // Skip header. pdata += sizeof(pkg2_hdr_t); // Check if we need to decrypt with newer mkeys. Valid for THK for 7.0.0 and up. se_aes_crypt_ctr(8, &mkey_test, hdr, sizeof(pkg2_hdr_t), hdr); if (mkey_test.magic == PKG2_MAGIC) goto key_found; // Decrypt older pkg2 via new mkeys. if ((mkey >= HOS_MKEY_VER_700) && (mkey < HOS_MKEY_VER_MAX)) { u8 tmp_mkey[SE_KEY_128_SIZE]; u8 decr_slot = 7; // THK mkey or T210B01 mkey. u8 mkey_seeds_cnt = sizeof(mkey_vector_7xx) / SE_KEY_128_SIZE; u8 mkey_seeds_idx = mkey_seeds_cnt; // Real index + 1. u8 mkey_seeds_min_idx = mkey_seeds_cnt - (HOS_MKEY_VER_MAX - mkey); while (mkey_seeds_cnt) { // Decrypt and validate mkey. int res = _pkg2_key_unwrap_validate(&mkey_test, hdr, decr_slot, tmp_mkey, mkey_vector_7xx[mkey_seeds_idx - 1]); if (res) { pkg2_keyslot = 9; goto key_found; } else { // Set current mkey in order to decrypt a lower mkey. mkey_seeds_idx--; se_aes_key_set(9, tmp_mkey, SE_KEY_128_SIZE); decr_slot = 9; // Temp key. // Check if we tried last key for that pkg2 version. // And start with a lower mkey in case mkey is older. if (mkey_seeds_idx == mkey_seeds_min_idx) { mkey_seeds_cnt--; mkey_seeds_idx = mkey_seeds_cnt; decr_slot = 7; // THK mkey or T210B01 mkey. } } } } key_found: // Decrypt header. se_aes_crypt_ctr(pkg2_keyslot, hdr, hdr, sizeof(pkg2_hdr_t), hdr); if (hdr->magic != PKG2_MAGIC) return NULL; // Decrypt sections. for (u32 i = 0; i < 4; i++) { DPRINTF("sec %d has size %08X\n", i, hdr->sec_size[i]); if (!hdr->sec_size[i]) continue; se_aes_crypt_ctr(pkg2_keyslot, pdata, pdata, hdr->sec_size[i], hdr->sec_ctr[i]); pdata += hdr->sec_size[i]; } return hdr; } ================================================ FILE: nyx/nyx_gui/hos/pkg2.h ================================================ /* * Copyright (c) 2018 naehrwert * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef _PKG2_H_ #define _PKG2_H_ #include #define PKG2_MAGIC 0x31324B50 #define PKG2_SEC_BASE 0x80000000 #define PKG2_SEC_KERNEL 0 #define PKG2_SEC_INI1 1 #define PKG2_SEC_UNUSED 2 #define INI1_MAGIC 0x31494E49 //! TODO: Update on kernel change if needed. // Offset of OP + 12 is the INI1 offset. On v2 with dynamic crt0 it's + 16. #define PKG2_NEWKERN_GET_INI1_HEURISTIC 0xD2800015 // MOV X21, #0. #define PKG2_NEWKERN_START 0x800 extern u32 pkg2_newkern_ini1_start; extern u32 pkg2_newkern_ini1_end; typedef struct _pkg2_hdr_t { /* 0x000 */ u8 ctr[0x10]; /* 0x010 */ u8 sec_ctr[4][SE_AES_IV_SIZE]; /* 0x050 */ u32 magic; /* 0x054 */ u32 base; /* 0x058 */ u32 pad0; /* 0x05C */ u8 pkg2_ver; /* 0x05D */ u8 bl_ver; /* 0x05E */ u16 pad1; /* 0x060 */ u32 sec_size[4]; /* 0x070 */ u32 sec_off[4]; /* 0x080 */ u8 sec_sha256[4][SE_SHA_256_SIZE]; /* 0x100 */ u8 data[]; } pkg2_hdr_t; typedef struct _pkg2_ini1_t { u32 magic; u32 size; u32 num_procs; u32 pad; } pkg2_ini1_t; enum kip_offset_section { KIP_TEXT = 0, KIP_RODATA = 1, KIP_DATA = 2, KIP_BSS = 3, KIP_UNKSEC1 = 4, KIP_UNKSEC2 = 5 }; #define KIP1_NUM_SECTIONS 6 typedef struct _pkg2_kip1_sec_t { u32 offset; u32 size_decomp; u32 size_comp; u32 attrib; } pkg2_kip1_sec_t; typedef struct _pkg2_kip1_t { /* 0x000 */ u32 magic; /* 0x004 */ char name[12]; /* 0x010 */ u64 tid; /* 0x018 */ u32 proc_cat; /* 0x01C */ u8 main_thrd_prio; /* 0x01D */ u8 def_cpu_core; /* 0x01E */ u8 res; /* 0x01F */ u8 flags; /* 0x020 */ pkg2_kip1_sec_t sections[KIP1_NUM_SECTIONS]; /* 0x080 */ u32 caps[0x20]; /* 0x100 */ u8 data[]; } pkg2_kip1_t; typedef struct _pkg2_kip1_info_t { pkg2_kip1_t *kip1; u32 size; link_t link; } pkg2_kip1_info_t; void pkg2_get_newkern_info(u8 *kern_data); u32 pkg2_calc_kip1_size(pkg2_kip1_t *kip1); pkg2_hdr_t *pkg2_decrypt(void *data, u8 mkey); #endif ================================================ FILE: nyx/nyx_gui/libs/fatfs/diskio.c ================================================ /*-----------------------------------------------------------------------*/ /* Low level disk I/O module skeleton for FatFs */ /* (C) ChaN, 2016 */ /* (C) CTCaer, 2018-2025 */ /*-----------------------------------------------------------------------*/ /* If a working storage control module is available, it should be */ /* attached to the FatFs via a glue function rather than modifying it. */ /* This is an example of glue functions to attach various exsisting */ /* storage control modules to the FatFs module with a defined API. */ /*-----------------------------------------------------------------------*/ #include #include #include /* FatFs lower layer API */ static u32 sd_rsvd_sectors = 0; static u32 ramdisk_sectors = 0; static u32 bis_sectors = 0; static u32 emummc_sectors = 0; static bool bis_write_allowed = false; /*-----------------------------------------------------------------------*/ /* Get Drive Status */ /*-----------------------------------------------------------------------*/ DSTATUS disk_status ( BYTE pdrv /* Physical drive nmuber to identify the drive */ ) { return 0; } /*-----------------------------------------------------------------------*/ /* Inidialize a Drive */ /*-----------------------------------------------------------------------*/ DSTATUS disk_initialize ( BYTE pdrv /* Physical drive nmuber to identify the drive */ ) { return 0; } /*-----------------------------------------------------------------------*/ /* Read Sector(s) */ /*-----------------------------------------------------------------------*/ DRESULT disk_read ( BYTE pdrv, /* Physical drive nmuber to identify the drive */ BYTE *buff, /* Data buffer to store read data */ DWORD sector, /* Start sector in LBA */ UINT count /* Number of sectors to read */ ) { switch (pdrv) { case DRIVE_SD: return sdmmc_storage_read(&sd_storage, sector, count, (void *)buff); case DRIVE_RAM: return ram_disk_read(sector, count, (void *)buff); case DRIVE_EMMC: return sdmmc_storage_read(&emmc_storage, sector, count, (void *)buff); case DRIVE_BIS: case DRIVE_EMU: return nx_emmc_bis_read(sector, count, (void *)buff); } return RES_ERROR; } /*-----------------------------------------------------------------------*/ /* Write Sector(s) */ /*-----------------------------------------------------------------------*/ DRESULT disk_write ( BYTE pdrv, /* Physical drive nmuber to identify the drive */ const BYTE *buff, /* Data to be written */ DWORD sector, /* Start sector in LBA */ UINT count /* Number of sectors to write */ ) { switch (pdrv) { case DRIVE_SD: return sdmmc_storage_write(&sd_storage, sector, count, (void *)buff); case DRIVE_RAM: return ram_disk_write(sector, count, (void *)buff); case DRIVE_EMMC: return RES_WRPRT; case DRIVE_BIS: case DRIVE_EMU: if (pdrv == DRIVE_BIS && !bis_write_allowed) return RES_WRPRT; return nx_emmc_bis_write(sector, count, (void *)buff); } return RES_ERROR; } /*-----------------------------------------------------------------------*/ /* Miscellaneous Functions */ /*-----------------------------------------------------------------------*/ DRESULT disk_ioctl ( BYTE pdrv, /* Physical drive nmuber (0..) */ BYTE cmd, /* Control code */ void *buff /* Buffer to send/receive control data */ ) { DWORD *buf = (DWORD *)buff; switch (pdrv) { case DRIVE_SD: switch (cmd) { case GET_SECTOR_COUNT: *buf = sd_storage.sec_cnt - sd_rsvd_sectors; break; case GET_BLOCK_SIZE: *buf = 32768; // Align to 16MB. break; } break; case DRIVE_RAM: switch (cmd) { case GET_SECTOR_COUNT: *buf = ramdisk_sectors; break; case GET_BLOCK_SIZE: *buf = 2048; // Align to 1MB. break; } break; case DRIVE_BIS: switch (cmd) { case GET_SECTOR_COUNT: *buf = bis_sectors; break; case GET_BLOCK_SIZE: *buf = 32768; // Align to 16MB. break; } break; case DRIVE_EMU: switch (cmd) { case GET_SECTOR_COUNT: *buf = emummc_sectors; break; case GET_BLOCK_SIZE: *buf = 16384; // Align to 8MB (With BOOT0/1 data will be at 16MB BU). break; } break; default: // Catch all for unknown devices. switch (cmd) { case CTRL_SYNC: break; case GET_SECTOR_COUNT: case GET_BLOCK_SIZE: *buf = 0; // Zero value to force default or abort. break; } break; } return RES_OK; } DRESULT disk_set_info ( BYTE pdrv, /* Physical drive nmuber (0..) */ BYTE cmd, /* Control code */ void *buff /* Buffer to send/receive control data */ ) { DWORD *buf = (DWORD *)buff; if (cmd == SET_SECTOR_COUNT) { switch (pdrv) { case DRIVE_SD: sd_rsvd_sectors = *buf; break; case DRIVE_RAM: ramdisk_sectors = *buf; break; case DRIVE_BIS: bis_sectors = *buf; break; case DRIVE_EMU: emummc_sectors = *buf; break; } } else if (cmd == SET_WRITE_PROTECT && pdrv == DRIVE_BIS) bis_write_allowed = *(bool *)buff; return RES_OK; } ================================================ FILE: nyx/nyx_gui/libs/fatfs/ffconf.h ================================================ /*---------------------------------------------------------------------------/ / FatFs Functional Configurations /---------------------------------------------------------------------------*/ #define FFCONF_DEF 86604 /* Revision ID */ /*---------------------------------------------------------------------------/ / Function Configurations /---------------------------------------------------------------------------*/ #define FF_FS_READONLY 0 /* This option switches read-only configuration. (0:Read/Write or 1:Read-only) / Read-only configuration removes writing API functions, f_write(), f_sync(), / f_unlink(), f_mkdir(), f_chmod(), f_rename(), f_truncate(), f_getfree() / and optional writing functions as well. */ #define FF_FS_MINIMIZE 0 /* This option defines minimization level to remove some basic API functions. / / 0: Basic functions are fully enabled. / 1: f_stat(), f_getfree(), f_unlink(), f_mkdir(), f_truncate() and f_rename() / are removed. / 2: f_opendir(), f_readdir() and f_closedir() are removed in addition to 1. / 3: f_lseek() function is removed in addition to 2. */ #define FF_USE_STRFUNC 2 /* This option switches string functions, f_gets(), f_putc(), f_puts() and f_printf(). / / 0: Disable string functions. / 1: Enable without LF-CRLF conversion. / 2: Enable with LF-CRLF conversion. */ #define FF_USE_FIND 1 /* This option switches filtered directory read functions, f_findfirst() and / f_findnext(). (0:Disable, 1:Enable 2:Enable with matching altname[] too) */ #define FF_USE_MKFS 1 /* This option switches f_mkfs() function. (0:Disable or 1:Enable) */ #if FF_USE_MKFS #define FF_MKFS_LABEL "SWITCH SD " #endif /* This sets FAT/FAT32 label. Exactly 11 characters, all caps. */ #define FF_USE_FASTSEEK 0 /* This option switches fast seek function. (0:Disable or 1:Enable) */ #define FF_FASTFS 1 #if FF_FASTFS #undef FF_USE_FASTSEEK #define FF_USE_FASTSEEK 1 #endif /* This option switches fast access to chained clusters. (0:Disable or 1:Enable) */ #define FF_SIMPLE_GPT 1 /* This option switches support for the first GPT partition. (0:Disable or 1:Enable) */ #define FF_USE_EXPAND 0 /* This option switches f_expand function. (0:Disable or 1:Enable) */ #define FF_USE_CHMOD 1 /* This option switches attribute manipulation functions, f_chmod() and f_utime(). / (0:Disable or 1:Enable) Also FF_FS_READONLY needs to be 0 to enable this option. */ #define FF_USE_LABEL 1 /* This option switches volume label functions, f_getlabel() and f_setlabel(). / (0:Disable or 1:Enable) */ #define FF_USE_FORWARD 0 /* This option switches f_forward() function. (0:Disable or 1:Enable) */ /*---------------------------------------------------------------------------/ / Locale and Namespace Configurations /---------------------------------------------------------------------------*/ #define FF_CODE_PAGE 850 /* This option specifies the OEM code page to be used on the target system. / Incorrect code page setting can cause a file open failure. / / 437 - U.S. / 720 - Arabic / 737 - Greek / 771 - KBL / 775 - Baltic / 850 - Latin 1 / 852 - Latin 2 / 855 - Cyrillic / 857 - Turkish / 860 - Portuguese / 861 - Icelandic / 862 - Hebrew / 863 - Canadian French / 864 - Arabic / 865 - Nordic / 866 - Russian / 869 - Greek 2 / 932 - Japanese (DBCS) / 936 - Simplified Chinese (DBCS) / 949 - Korean (DBCS) / 950 - Traditional Chinese (DBCS) / 0 - Include all code pages above and configured by f_setcp() */ #define FF_USE_LFN 3 #define FF_MAX_LFN 255 /* The FF_USE_LFN switches the support for LFN (long file name). / / 0: Disable LFN. FF_MAX_LFN has no effect. / 1: Enable LFN with static working buffer on the BSS. Always NOT thread-safe. / 2: Enable LFN with dynamic working buffer on the STACK. / 3: Enable LFN with dynamic working buffer on the HEAP. / / To enable the LFN, ffunicode.c needs to be added to the project. The LFN function / requiers certain internal working buffer occupies (FF_MAX_LFN + 1) * 2 bytes and / additional (FF_MAX_LFN + 44) / 15 * 32 bytes when exFAT is enabled. / The FF_MAX_LFN defines size of the working buffer in UTF-16 code unit and it can / be in range of 12 to 255. It is recommended to be set 255 to fully support LFN / specification. / When use stack for the working buffer, take care on stack overflow. When use heap / memory for the working buffer, memory management functions, ff_memalloc() and / ff_memfree() in ffsystem.c, need to be added to the project. */ #define FF_LFN_UNICODE 0 /* This option switches the character encoding on the API when LFN is enabled. / / 0: ANSI/OEM in current CP (TCHAR = char) / 1: Unicode in UTF-16 (TCHAR = WCHAR) / 2: Unicode in UTF-8 (TCHAR = char) / 3: Unicode in UTF-32 (TCHAR = DWORD) / / Also behavior of string I/O functions will be affected by this option. / When LFN is not enabled, this option has no effect. */ #define FF_LFN_BUF 255 #define FF_SFN_BUF 12 /* This set of options defines size of file name members in the FILINFO structure / which is used to read out directory items. These values should be suffcient for / the file names to read. The maximum possible length of the read file name depends / on character encoding. When LFN is not enabled, these options have no effect. */ #define FF_STRF_ENCODE 0 /* When FF_LFN_UNICODE >= 1 with LFN enabled, string I/O functions, f_gets(), / f_putc(), f_puts and f_printf() convert the character encoding in it. / This option selects assumption of character encoding ON THE FILE to be / read/written via those functions. / / 0: ANSI/OEM in current CP / 1: Unicode in UTF-16LE / 2: Unicode in UTF-16BE / 3: Unicode in UTF-8 */ #define FF_FS_RPATH 1 /* This option configures support for relative path. / / 0: Disable relative path and remove related functions. / 1: Enable relative path. f_chdir() and f_chdrive() are available. / 2: f_getcwd() function is available in addition to 1. */ /*---------------------------------------------------------------------------/ / Drive/Volume Configurations /---------------------------------------------------------------------------*/ #define FF_VOLUMES 5 /* Number of volumes (logical drives) to be used. (1-10) */ #define FF_STR_VOLUME_ID 1 #define FF_VOLUME_STRS "sd","ram","emmc","bis","emu" /* FF_STR_VOLUME_ID switches support for volume ID in arbitrary strings. / When FF_STR_VOLUME_ID is set to 1 or 2, arbitrary strings can be used as drive / number in the path name. FF_VOLUME_STRS defines the volume ID strings for each / logical drives. Number of items must not be less than FF_VOLUMES. Valid / characters for the volume ID strings are A-Z, a-z and 0-9, however, they are / compared in case-insensitive. If FF_STR_VOLUME_ID >= 1 and FF_VOLUME_STRS is / not defined, a user defined volume string table needs to be defined as: / / const char* VolumeStr[FF_VOLUMES] = {"ram","flash","sd","usb",... / Order is important! Any change to order, must also be reflected to diskio drive enum. */ #define FF_MULTI_PARTITION 0 /* This option switches support for multiple volumes on the physical drive. / By default (0), each logical drive number is bound to the same physical drive / number and only an FAT volume found on the physical drive will be mounted. / When this function is enabled (1), each logical drive number can be bound to / arbitrary physical drive and partition listed in the VolToPart[]. Also f_fdisk() / funciton will be available. */ #define FF_MIN_SS 512 #define FF_MAX_SS 512 /* This set of options configures the range of sector size to be supported. (512, / 1024, 2048 or 4096) Always set both 512 for most systems, generic memory card and / harddisk. But a larger value may be required for on-board flash memory and some / type of optical media. When FF_MAX_SS is larger than FF_MIN_SS, FatFs is configured / for variable sector size mode and disk_ioctl() function needs to implement / GET_SECTOR_SIZE command. */ #define FF_USE_TRIM 0 /* This option switches support for ATA-TRIM. (0:Disable or 1:Enable) / To enable Trim function, also CTRL_TRIM command should be implemented to the / disk_ioctl() function. */ #define FF_FS_NOFSINFO 1 /* If you need to know correct free space on the FAT32 volume, set bit 0 of this / option, and f_getfree() function at first time after volume mount will force / a full FAT scan. Bit 1 controls the use of last allocated cluster number. / / bit0=0: Use free cluster count in the FSINFO if available. / bit0=1: Do not trust free cluster count in the FSINFO. / bit1=0: Use last allocated cluster number in the FSINFO if available. / bit1=1: Do not trust last allocated cluster number in the FSINFO. */ /*---------------------------------------------------------------------------/ / System Configurations /---------------------------------------------------------------------------*/ #define FF_FS_TINY 0 /* This option switches tiny buffer configuration. (0:Normal or 1:Tiny) / At the tiny configuration, size of file object (FIL) is shrinked FF_MAX_SS bytes. / Instead of private sector buffer eliminated from the file object, common sector / buffer in the filesystem object (FATFS) is used for the file data transfer. */ #define FF_FS_EXFAT 1 /* This option switches support for exFAT filesystem. (0:Disable or 1:Enable) / To enable exFAT, also LFN needs to be enabled. (FF_USE_LFN >= 1) / Note that enabling exFAT discards ANSI C (C89) compatibility. */ #define FF_FS_NORTC 0 #define FF_NORTC_MON 1 #define FF_NORTC_MDAY 1 #define FF_NORTC_YEAR 2026 /* The option FF_FS_NORTC switches timestamp function. If the system does not have / any RTC function or valid timestamp is not needed, set FF_FS_NORTC = 1 to disable / the timestamp function. Every object modified by FatFs will have a fixed timestamp / defined by FF_NORTC_MON, FF_NORTC_MDAY and FF_NORTC_YEAR in local time. / To enable timestamp function (FF_FS_NORTC = 0), get_fattime() function need to be / added to the project to read current time form real-time clock. FF_NORTC_MON, / FF_NORTC_MDAY and FF_NORTC_YEAR have no effect. / These options have no effect at read-only configuration (FF_FS_READONLY = 1). */ #define FF_FS_LOCK 0 /* The option FF_FS_LOCK switches file lock function to control duplicated file open / and illegal operation to open objects. This option must be 0 when FF_FS_READONLY / is 1. / / 0: Disable file lock function. To avoid volume corruption, application program / should avoid illegal open, remove and rename to the open objects. / >0: Enable file lock function. The value defines how many files/sub-directories / can be opened simultaneously under file lock control. Note that the file / lock control is independent of re-entrancy. */ /* #include // O/S definitions */ #define FF_FS_REENTRANT 0 #define FF_FS_TIMEOUT 1000 #define FF_SYNC_t HANDLE /* The option FF_FS_REENTRANT switches the re-entrancy (thread safe) of the FatFs / module itself. Note that regardless of this option, file access to different / volume is always re-entrant and volume control functions, f_mount(), f_mkfs() / and f_fdisk() function, are always not re-entrant. Only file/directory access / to the same volume is under control of this function. / / 0: Disable re-entrancy. FF_FS_TIMEOUT and FF_SYNC_t have no effect. / 1: Enable re-entrancy. Also user provided synchronization handlers, / ff_req_grant(), ff_rel_grant(), ff_del_syncobj() and ff_cre_syncobj() / function, must be added to the project. Samples are available in / option/syscall.c. / / The FF_FS_TIMEOUT defines timeout period in unit of time tick. / The FF_SYNC_t defines O/S dependent sync object type. e.g. HANDLE, ID, OS_EVENT*, / SemaphoreHandle_t and etc. A header file for O/S definitions needs to be / included somewhere in the scope of ff.h. */ /*--- End of configuration options ---*/ ================================================ FILE: nyx/nyx_gui/link.ld ================================================ ENTRY(_start) SECTIONS { PROVIDE(__ipl_start = NYX_LOAD_ADDR); . = __ipl_start; .text : { *(.text._start); KEEP(*(._ipl_version)); *(.text._irq_setup); *(.text*); } .data : { *(.data*); *(.rodata*); } . = ALIGN(0x10); __ipl_end = .; .bss : { __bss_start = .; *(COMMON) *(.bss*) __bss_end = .; } } ================================================ FILE: nyx/nyx_gui/nyx.c ================================================ /* * Copyright (c) 2018 naehrwert * * Copyright (c) 2018-2026 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include "config.h" #include "hos/hos.h" #include #include #include #include "frontend/fe_emmc_tools.h" #include "frontend/gui.h" nyx_config n_cfg; hekate_config h_cfg; const volatile ipl_ver_meta_t __attribute__((section ("._ipl_version"))) ipl_ver = { .magic = NYX_MAGIC, .version = (NYX_VER_MJ + '0') | ((NYX_VER_MN + '0') << 8) | ((NYX_VER_HF + '0') << 16) | ((NYX_VER_RL) << 24), }; volatile nyx_storage_t *nyx_str = (nyx_storage_t *)NYX_STORAGE_ADDR; volatile boot_cfg_t *b_cfg; char *emmcsn_path_impl(char *path, char *sub_dir, char *filename, sdmmc_storage_t *storage) { static char emmc_sn[9] = {0}; // Check if eMMC S/N storage has valid data and skip parsing in that case. if (emmc_sn[0] && strcmp(emmc_sn, "00000000")) goto create_dir; // Get actual eMMC S/N. if (!storage) { if (emmc_initialize(false)) strcpy(emmc_sn, "00000000"); else { itoa(emmc_storage.cid.serial, emmc_sn, 16); emmc_end(); } } else itoa(storage->cid.serial, emmc_sn, 16); create_dir: // Check if only eMMC S/N was requested. if (!path) return emmc_sn; // Create main folder. strcpy(path, "backup"); f_mkdir(path); // Create eMMC S/N folder. strcat(path, "/"); strcat(path, emmc_sn); f_mkdir(path); // Create sub folder if defined. Dir slash must be included. strcat(path, sub_dir); // Can be a null-terminator. if (strlen(sub_dir)) f_mkdir(path); // Add filename. strcat(path, "/"); strcat(path, filename); // Can be a null-terminator. return emmc_sn; } // This is a safe and unused DRAM region for our payloads. #define RELOC_META_OFF 0x7C #define PATCHED_RELOC_SZ 0x94 #define PATCHED_RELOC_STACK 0x40007000 #define PATCHED_RELOC_ENTRY 0x40010000 #define EXT_PAYLOAD_ADDR 0xC0000000 #define RCM_PAYLOAD_ADDR (EXT_PAYLOAD_ADDR + ALIGN(PATCHED_RELOC_SZ, 0x10)) static void _reloc_append(u32 payload_dst, u32 payload_src, u32 payload_size) { memcpy((u8 *)payload_src, (u8 *)nyx_str->hekate, PATCHED_RELOC_SZ); volatile reloc_meta_t *relocator = (reloc_meta_t *)(payload_src + RELOC_META_OFF); relocator->start = payload_dst - ALIGN(PATCHED_RELOC_SZ, 0x10); relocator->stack = PATCHED_RELOC_STACK; relocator->end = payload_dst + payload_size; relocator->ep = payload_dst; } lv_res_t launch_payload(lv_obj_t *list) { const char *filename = lv_list_get_btn_text(list); if (!filename || !filename[0]) goto out; char path[128]; strcpy(path,"bootloader/payloads/"); strcat(path, filename); if (sd_mount()) goto out; // Read payload. u32 size = 0; void *buf = sd_file_read(path, &size); if (!buf) { EPRINTFARGS("Payload file is missing!\n(%s)", path); goto out; } // Check if it safely fits IRAM. if (size > 0x30000) { EPRINTF("Payload is too big!"); goto out; } sd_end(); // Copy the payload to our chosen address. memcpy((void *)RCM_PAYLOAD_ADDR, buf, size); // Append relocator. _reloc_append(PATCHED_RELOC_ENTRY, EXT_PAYLOAD_ADDR, ALIGN(size, 0x10)); hw_deinit(false); // Launch our payload. void (*payload_ptr)() = (void *)EXT_PAYLOAD_ADDR; (*payload_ptr)(); out: sd_unmount(); return LV_RES_OK; } static void _load_saved_configuration() { LIST_INIT(ini_sections); LIST_INIT(ini_nyx_sections); if (ini_parse(&ini_sections, "bootloader/hekate_ipl.ini", false)) { create_config_entry(); goto skip_main_cfg_parse; } // Load hekate configuration. LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_sections, link) { // Only parse config section. if (ini_sec->type == INI_CHOICE && !strcmp(ini_sec->name, "config")) { LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { if (!strcmp("autoboot", kv->key)) h_cfg.autoboot = atoi(kv->val); else if (!strcmp("autoboot_list", kv->key)) h_cfg.autoboot_list = atoi(kv->val); else if (!strcmp("bootwait", kv->key)) h_cfg.bootwait = atoi(kv->val); else if (!strcmp("backlight", kv->key)) { h_cfg.backlight = atoi(kv->val); if (h_cfg.backlight <= 20) h_cfg.backlight = 30; } else if (!strcmp("noticker", kv->key)) h_cfg.noticker = atoi(kv->val); else if (!strcmp("autohosoff", kv->key)) h_cfg.autohosoff = atoi(kv->val); else if (!strcmp("autonogc", kv->key)) h_cfg.autonogc = atoi(kv->val); else if (!strcmp("updater2p", kv->key)) h_cfg.updater2p = atoi(kv->val); else if (!strcmp("bootprotect", kv->key)) h_cfg.bootprotect = atoi(kv->val); } break; } } ini_free(&ini_sections); skip_main_cfg_parse: if (ini_parse(&ini_nyx_sections, "bootloader/nyx.ini", false)) return; // Load Nyx configuration. LIST_FOREACH_ENTRY(ini_sec_t, ini_sec, &ini_nyx_sections, link) { // Only parse config section. if (ini_sec->type == INI_CHOICE && !strcmp(ini_sec->name, "config")) { bool time_old_raw = false; LIST_FOREACH_ENTRY(ini_kv_t, kv, &ini_sec->kvs, link) { if (!strcmp("themebg", kv->key)) n_cfg.theme_bg = strtol(kv->val, NULL, 16); else if (!strcmp("themecolor", kv->key)) n_cfg.theme_color = atoi(kv->val); else if (!strcmp("entries5col", kv->key)) n_cfg.entries_5_col = atoi(kv->val) == 1; else if (!strcmp("timeoffset", kv->key)) { n_cfg.timeoffset = strtol(kv->val, NULL, 16); if (n_cfg.timeoffset != 1) max77620_rtc_set_epoch_offset((int)n_cfg.timeoffset); } else if (!strcmp("timeoff", kv->key)) { if (strtol(kv->val, NULL, 16) == 1) time_old_raw = true; } else if (!strcmp("timedst", kv->key)) n_cfg.timedst = atoi(kv->val); else if (!strcmp("homescreen", kv->key)) n_cfg.home_screen = atoi(kv->val); else if (!strcmp("verification", kv->key)) n_cfg.verification = atoi(kv->val); else if (!strcmp("umsemmcrw", kv->key)) n_cfg.ums_emmc_rw = atoi(kv->val) == 1; else if (!strcmp("jcdisable", kv->key)) n_cfg.jc_disable = atoi(kv->val) == 1; else if (!strcmp("jcforceright", kv->key)) n_cfg.jc_force_right = atoi(kv->val) == 1; else if (!strcmp("bpmpclock", kv->key)) n_cfg.bpmp_clock = atoi(kv->val); } // Check if user canceled time setting before. if (time_old_raw && !n_cfg.timeoffset) n_cfg.timeoffset = 1; break; } } // Set auto DST here in case it's missing. max77620_rtc_set_auto_dst(n_cfg.timedst); ini_free(&ini_nyx_sections); } static int nyx_load_resources() { FIL fp; int res; res = f_open(&fp, "bootloader/sys/res.pak", FA_READ); if (res) return res; res = f_read(&fp, (void *)NYX_RES_ADDR, f_size(&fp), NULL); f_close(&fp); return res; } static void nyx_load_bg_icons() { // If no custom switch icon exists, load normal. if (!f_stat("bootloader/res/icon_switch_custom.bmp", NULL)) icon_switch = bmp_to_lvimg_obj("bootloader/res/icon_switch_custom.bmp"); else icon_switch = bmp_to_lvimg_obj("bootloader/res/icon_switch.bmp"); // If no custom payload icon exists, load normal. if (!f_stat("bootloader/res/icon_payload_custom.bmp", NULL)) icon_payload = bmp_to_lvimg_obj("bootloader/res/icon_payload_custom.bmp"); else icon_payload = bmp_to_lvimg_obj("bootloader/res/icon_payload.bmp"); // Load background resource if any. hekate_bg = bmp_to_lvimg_obj("bootloader/res/background.bmp"); } #define EXCP_EN_ADDR 0x4003FF1C #define EXCP_MAGIC 0x30505645 // EVP0 #define EXCP_TYPE_ADDR 0x4003FF18 #define EXCP_TYPE_RESET 0x545352 // RST #define EXCP_TYPE_UNDEF 0x464455 // UDF #define EXCP_TYPE_PABRT 0x54424150 // PABT #define EXCP_TYPE_DABRT 0x54424144 // DABT #define EXCP_LR_ADDR 0x4003FF14 enum { SD_NO_ERROR = 0, SD_MOUNT_ERROR = 1, SD_FILE_ERROR = 2 }; static void _show_errors(int sd_error) { u32 *excp_enabled = (u32 *)EXCP_EN_ADDR; u32 *excp_type = (u32 *)EXCP_TYPE_ADDR; u32 *excp_lr = (u32 *)EXCP_LR_ADDR; if (*excp_enabled == EXCP_MAGIC || sd_error) { gfx_clear_grey(0); gfx_con_setpos(0, 0, 0); display_backlight_brightness(150, 1000); display_init_window_d_console(); display_window_d_console_enable(); } switch (sd_error) { case SD_MOUNT_ERROR: WPRINTF("Failed to init or mount SD!\n"); goto error_occured; case SD_FILE_ERROR: WPRINTF("Failed to load GUI resources!\nres.pak not found or corrupted.\n"); goto error_occured; case SD_NO_ERROR: default: break; } if (*excp_enabled == EXCP_MAGIC) { WPRINTFARGS("Nyx exception occurred (LR %08X):\n", *excp_lr); switch (*excp_type) { case EXCP_TYPE_RESET: WPRINTF("RESET"); break; case EXCP_TYPE_UNDEF: WPRINTF("UNDEF"); break; case EXCP_TYPE_PABRT: WPRINTF("PABRT"); break; case EXCP_TYPE_DABRT: WPRINTF("DABRT"); break; } gfx_puts("\n"); // Clear the exception. *excp_lr = 0; *excp_type = 0; *excp_enabled = 0; error_occured: WPRINTF("Press any key to reload Nyx..."); msleep(1000); btn_wait(); reload_nyx(NULL, true); } } void nyx_init_load_res() { bpmp_mmu_enable(); bpmp_clk_rate_get(); // Set a modest clock for init. It will be restored later if possible. bpmp_clk_rate_set(BPMP_CLK_LOWEST_BOOST); // Set bootloader's default configuration. set_default_configuration(); set_nyx_default_configuration(); // Reset new info if magic not correct. if (nyx_str->info.magic != NYX_NEW_INFO) { nyx_str->info.sd_init = 0; for (u32 i = 0; i < 3; i++) nyx_str->info.sd_errors[i] = 0; } // Reset new extended info if magic not correct. if (nyx_str->info_ex.magic != NYX_NEW_INFO) nyx_str->info_ex.rsvd_flags = 0; // Clear info magic. nyx_str->info.magic = 0; nyx_str->info_ex.magic = 0; // Override DRAM ID if needed. if (nyx_str->info_ex.rsvd_flags & RSVD_FLAG_DRAM_8GB) fuse_force_8gb_dramid(); // Set display id from previous initialization. display_set_decoded_panel_id(nyx_str->info.panel_id); // Initialize gfx console. gfx_init_ctxt((u32 *)LOG_FB_ADDRESS, 1280, 656, 656); gfx_con_init(); // Show exception errors if any. _show_errors(SD_NO_ERROR); // Try 2 times to mount SD card. if (sd_mount()) { // Restore speed to SDR104. sd_end(); // Retry. if (sd_mount()) _show_errors(SD_MOUNT_ERROR); // Fatal. } // Train DRAM and switch to max frequency. minerva_init((minerva_str_t *)&nyx_str->minerva); minerva_change_freq(FREQ_1600); // Load hekate/Nyx configuration. _load_saved_configuration(); // Load Nyx resources. if (nyx_load_resources()) { // Try again. if (nyx_load_resources()) _show_errors(SD_FILE_ERROR); // Fatal since resources are mandatory. } // Initialize nyx cfg to lower clock on first boot. // In case of lower binned SoC, this can help with hangs. if (!n_cfg.bpmp_clock) { // Set lower clock and save it. n_cfg.bpmp_clock = 2; create_nyx_config_entry(false); // Start at max clock and test it. n_cfg.bpmp_clock = 0; } // Set selected clock. switch (n_cfg.bpmp_clock) { case 0: case 1: bpmp_clk_rate_set(BPMP_CLK_BIN0_BOOST); break; case 2: bpmp_clk_rate_set(BPMP_CLK_BIN1_BOOST); break; case 3: bpmp_clk_rate_set(BPMP_CLK_BIN2_BOOST); break; case 4: bpmp_clk_rate_set(BPMP_CLK_BIN3_BOOST); break; case 5: default: bpmp_clk_rate_set(BPMP_CLK_NORMAL); break; } // Load default launch icons and background if it exists. nyx_load_bg_icons(); // Unmount FAT partition. sd_unmount(); } void ipl_main() { // Set heap address. heap_init((void *)IPL_HEAP_START); b_cfg = (boot_cfg_t *)(nyx_str->hekate + 0x94); #ifdef DEBUG_UART_PORT // Enable the selected uart debug port. #if (DEBUG_UART_PORT == UART_B) gpio_config(GPIO_PORT_G, GPIO_PIN_0, GPIO_MODE_SPIO); #elif (DEBUG_UART_PORT == UART_C) gpio_config(GPIO_PORT_D, GPIO_PIN_1, GPIO_MODE_SPIO); #endif pinmux_config_uart(DEBUG_UART_PORT); clock_enable_uart(DEBUG_UART_PORT); uart_init(DEBUG_UART_PORT, DEBUG_UART_BAUDRATE, UART_AO_TX_AO_RX); uart_invert(DEBUG_UART_PORT, DEBUG_UART_INVERT, UART_INVERT_TXD); uart_send(DEBUG_UART_PORT, (u8 *)"hekate-NYX: Hello!\r\n", 20); uart_wait_xfer(DEBUG_UART_PORT, UART_TX_IDLE); #endif // Initialize the rest of hw and load Nyx resources. nyx_init_load_res(); // Initialize Nyx GUI and show it. nyx_load_and_run(); // Halt BPMP if we managed to get out of execution. while (true) bpmp_halt(); } ================================================ FILE: nyx/nyx_gui/start.S ================================================ /* * Copyright (c) 2018 naehrwert * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ .section .text._start .arm .extern _reloc_ipl .type _reloc_ipl, %function .extern memset .type memset, %function .extern _irq_setup .type _irq_setup, %function .globl _start .type _start, %function _start: ADR R0, _start LDR R1, =__ipl_start CMP R0, R1 BEQ _real_start /* If we are not in the right location already, copy a relocator to upper IRAM. */ ADR R2, _reloc_ipl LDR R3, =0x4003FF00 MOV R4, #(_real_start - _reloc_ipl) _copy_loop: LDMIA R2!, {R5} STMIA R3!, {R5} SUBS R4, #4 BNE _copy_loop /* Use the relocator to copy ourselves into the right place. */ LDR R2, =__ipl_end SUB R2, R2, R1 LDR R3, =_real_start LDR R4, =0x4003FF00 BX R4 _reloc_ipl: LDMIA R0!, {R4-R7} STMIA R1!, {R4-R7} SUBS R2, #0x10 BNE _reloc_ipl /* Jump to the relocated entry. */ BX R3 _real_start: /* We place our stack in SDRAM. */ LDR SP, =0x4003F000 LDR R0, =__bss_start EOR R1, R1, R1 LDR R2, =__bss_end SUB R2, R2, R0 BL memset BL _irq_setup B . .globl pivot_stack .type pivot_stack, %function pivot_stack: MOV SP, R0 BX LR ================================================ FILE: res/hekate_ipl_template.ini ================================================ [config] autoboot=0 autoboot_list=0 bootwait=3 noticker=0 backlight=100 autohosoff=1 autonogc=1 updater2p=1 bootprotect=0 # Only include above what you want to change from defaults. # config.c in bootloader and Nyx have all the defaults. {-------- Stock -------} [Stock] pkg3=atmosphere/package3 stock=1 emummc_force_disable=1 # This disables kernel patching and CFW kips. # Includes exosphere and warmboot, ONLY when >= 7.0.0 and Erista. # Includes exosphere on Mariko. # Exosphere/warmboot are not identifiable as it is now. # This is the closest to OFW, especially when AutoRCM is needed. {-- Custom Firmwares --} [Atmo Vanilla] pkg3=atmosphere/package3 kip1=atmosphere/kips/* # Note: # The above adheres to emummc.ini. It will launch emuMMC if enabled, otherwise sysMMC. # The kip1 line can be omitted if wanted. It's in example in order to mimic fusee behavior. [Atmo EMU] pkg3=atmosphere/package3 emummcforce=1 [Atmo SYS] pkg3=atmosphere/package3 emummc_force_disable=1 # Note: # You can have 2 entries of everything where one can boot with emuMMC and one without, # via the emummc_force_disable=1 and emummcforce=1 keys. Like the examples above. # These 2 entries allow user to easily boot enforceable SYS or EMU CFW # emummcforce=1 makes sure that emuMMC is enabled otherwise it will error out # in order to protect user from booting SYS without knowing. # emummc_force_disable=1 disables emuMMC and allows user to boot SYS CFW # even if emuMMC is enabled. [Atmo EMU2] pkg3=atmosphere/package3 emupath=emuMMC/SD02 emummcforce=1 # Note: # The above allows you to swap emuMMC on the fly while booting. # The path defined is the main path of emuMMC folder, for example # emuMMC/RAW1, emuMMC/RAW2, emuMMC/SD00, emuMMC/TEST, etc. # Only works with emuMMC created/migrated via hekate. [Atmo with extra kips] pkg3=atmosphere/package3 kip1=cfw/mods/mods_extra/* kip1=cfw/mods/mods_extra/single/extra.kip # Note: # The above can be used with any pkg3 entry. Like the ones above. # You can even override atmosphere (pkg3) kips with this. # The wildcard '*' like above can be used to load all kips from a selected directory. {-- Custom Firmwares Old methods --} [CFW PKG3 extra kips & patches] pkg3=atmosphere/package3 kip1patch=name_of_patch kip1=cfw/mods/mods_extra/* kip1=cfw/mods/mods_extra/single/extra.kip # Note: # Both options for kip1 can be used. Wildcard and single. # You can override kips loaded from PKG3/FSS0 if you define them after the pkg3 key. # If kip1 patch resides in patches.ini and that file OR the patch for # current HOS version does not exist, it will error out. [CFW KIPs method] secmon=cfw/mods/exosphere.bin warmboot=cfw/mods/lp0fw.bin kip1=cfw/mods/loader.kip kip1=cfw/mods/boot.kip kip1=cfw/mods/spl.kip kip1=cfw/mods/sm.kip kip1=cfw/mods/pm.kip kip1=cfw/mods/ams_mitm.kip atmosphere=1 # Note: # All kips defined method. This can be changed to what is below also. # atmosphere=1 key is IMPORTANT when no PKG3/FSS0 is defined. [CFW KIPs method with wildcard] secmon=cfw/mods/exosphere.bin warmboot=cfw/mods/lp0fw.bin kip1=cfw/mods/* kip1=cfw/mods/extra/extra.kip atmosphere=1 # Note: # All kips parsed from a directory, plus extra added. {------- Tools -------} [Lockpick RCM] payload=bootloader/payloads/Lockpick_RCM.bin # hekate - CTCaer mod v5.8.0 .ini template # # All entries in this template can have these stylistic keys: # like logopath= key which is for bootlogo and icon= key for Nyx icon. # Other than these, there many other keys to choose from, like the exosphere configuration keys. # All of them are descibed in the main README. # # You can disable a key in a boot entry by using ; in front of it # Do not use # because that will break it. # # Do not use newline between keys or spaces before and after a key name/var. # That will break the boot entry of config entry. # # NOT TO BE USED AS IS! # Pick [config] and then only the needed [sections]. # or { } lines can be ommited. # If [config] is not copied, hekate will create one with defaults. # If wanted, only the changed [config] defaults can be set. The rest will be created automatically. # # Note: The keys in a section are parsed sequentially. # This is important for override order of keys (if any double or matching functionality). # Disclaimer: There are many combos, that allow hekate to basically boot everything NATIVELY. # hekate will ALWAYS do what YOU tell it to do. If you get an error, # that means that hekate_ipl.ini was wrongly made or files are missing/corrupt/etc! ================================================ FILE: res/patches_template.ini ================================================ # ASCII non-extended # A KIP section is [kip1_name:sha256_hex_8bytes] # A patchset is .patch_name=kip_section_dec:offset_hex_0x:length_hex_0x:src_data_hex,dst_data_hex # # _dec: 1 char decimal | _hex_0x: max u32 prefixed with 0x | _hex: hex array. # Kip1 section decimals: TEXT: 0, RODATA: 1, DATA: 2. # # Careful when editing this, otherwise it will fail to be parsed. # # Note: the below patches is an obsolete method that was used # to install homebrew for a qlaunch icon or 3.5GB RAM access. # This is useless nowadays, because title override or custom qlaunch are a more proper solution. #FS Patches for 1.0.0 [FS:de9fdda4085dd5fe] .nosigchk=0:0x194A0:0x4:BA090094,E0031F2A .nosigchk=0:0x3A79C:0x4:E0060036,1F2003D5 #FS Patches for 1.0.0 exfat [FS:fc3e80991dca1796] .nosigchk=0:0x194A0:0x4:BA090094,E0031F2A .nosigchk=0:0x3A79C:0x4:E0060036,1F2003D5 ================================================ FILE: tools/bin2c/Makefile ================================================ NATIVE_CC ?= gcc ifeq (, $(shell which $(NATIVE_CC) 2>/dev/null)) $(error "Native GCC is missing. Please install it first. If it's path is custom, set it with export NATIVE_CC=") endif .PHONY: all clean all: bin2c @echo > /dev/null clean: @rm -f bin2c bin2c: bin2c.c @$(NATIVE_CC) -o $@ bin2c.c ================================================ FILE: tools/bin2c/bin2c.c ================================================ /* * This is bin2c program, which allows you to convert binary file to * C language array, for use as embedded resource, for instance you can * embed graphics or audio file directly into your program. * This is public domain software, use it on your own risk. * Contact Serge Fukanchik at fuxx@mail.ru if you have any questions. */ #include #include #include #include #include /* Replace . with _ */ char* make_ident ( char* name ) { char* ret; char* p; ret = strdup ( name ); for ( p = ret; p[0]; p++ ) { if ( !isalnum ( p[0] ) ) p[0] = '_'; } return ret; } int main ( int argc, char* argv[] ) { unsigned char buf[BUFSIZ]; char* ident; FILE *fd; size_t size, i, total, blksize = BUFSIZ; int need_comma = 0; if ( argc != 2 ) { fprintf ( stderr, "Usage: %s binary_file > output_file\n", argv[0] ); return -1; } fd = fopen ( argv[1], "rb" ); if ( fd == NULL ) { fprintf ( stderr, "%s: can't open %s for reading\n", argv[0], argv[1] ); return -1; } fseek(fd, 0, SEEK_END); size = ftell(fd); rewind(fd); ident = make_ident ( argv[1] ); printf ( "static const unsigned char __attribute__((section (\"._%s\"))) %s[] = {", ident, ident ); for ( total = 0; total < size; ) { if ( size - total < blksize ) blksize = size - total; if ( fread ( buf, 1, blksize, fd ) != blksize ) { fprintf ( stderr, "%s: file read error\n", argv[0] ); return -1; } for ( i = 0; i < blksize; i++ ) { if ( need_comma ) printf ( ", " ); else need_comma = 1; if ( ( total % 11 ) == 0 ) printf ( "\n\t" ); printf ( "0x%.2x", buf[i] ); total++; } } printf ( "\n};\n" ); fclose ( fd ); free ( ident ); return 0; } ================================================ FILE: tools/emc.def ================================================ EMC_DBG 8 EMC_CFG C EMC_CONFIG_SAMPLE_DELAY 5f0 EMC_CFG_UPDATE 5f4 EMC_ADR_CFG 10 EMC_REFCTRL 20 EMC_PIN 24 EMC_TIMING_CONTROL 28 EMC_RC 2c EMC_RFC 30 EMC_RFCPB 590 EMC_RAS 34 EMC_RP 38 EMC_R2W 3c EMC_W2R 40 EMC_R2P 44 EMC_W2P 48 EMC_CCDMW 5c0 EMC_RD_RCD 4c EMC_WR_RCD 50 EMC_RRD 54 EMC_REXT 58 EMC_WDV 5c EMC_QUSE 60 EMC_QRST 64 EMC_ISSUE_QRST 428 EMC_QSAFE 68 EMC_RDV 6c EMC_REFRESH 70 EMC_BURST_REFRESH_NUM 74 EMC_PDEX2WR 78 EMC_PDEX2RD 7c EMC_PDEX2CKE 118 EMC_PCHG2PDEN 80 EMC_ACT2PDEN 84 EMC_AR2PDEN 88 EMC_RW2PDEN 8c EMC_CKE2PDEN 11c EMC_TXSR 90 EMC_TCKE 94 EMC_TFAW 98 EMC_TRPAB 9c EMC_TCLKSTABLE a0 EMC_TCLKSTOP a4 EMC_TREFBW a8 EMC_TPPD ac EMC_PDEX2MRR b4 EMC_ODT_WRITE b0 EMC_WEXT b8 EMC_RFC_SLR c0 EMC_MRS_WAIT_CNT2 c4 EMC_MRS_WAIT_CNT c8 EMC_MRS cc EMC_EMRS d0 EMC_REF d4 EMC_PRE d8 EMC_NOP dc EMC_SELF_REF e0 EMC_DPD e4 EMC_MRW e8 EMC_MRR ec EMC_CMDQ f0 EMC_MC2EMCQ f4 EMC_FBIO_SPARE 100 EMC_FBIO_CFG5 104 EMC_CFG_RSV 120 EMC_ACPD_CONTROL 124 EMC_MPC 128 EMC_EMRS2 12c EMC_EMRS3 130 EMC_MRW2 134 EMC_MRW3 138 EMC_MRW4 13c EMC_MRW5 4a0 EMC_MRW6 4a4 EMC_MRW7 4a8 EMC_MRW8 4ac EMC_MRW9 4b0 EMC_MRW10 4b4 EMC_MRW11 4b8 EMC_MRW12 4bc EMC_MRW13 4c0 EMC_MRW14 4c4 EMC_MRW15 4d0 EMC_CFG_SYNC 4d4 EMC_CLKEN_OVERRIDE 140 EMC_R2R 144 EMC_W2W 148 EMC_EINPUT 14c EMC_EINPUT_DURATION 150 EMC_PUTERM_EXTRA 154 EMC_TCKESR 158 EMC_TPD 15c EMC_STAT_CONTROL 160 EMC_STAT_STATUS 164 EMC_STAT_DRAM_CLOCK_LIMIT_LO 19c EMC_STAT_DRAM_CLOCK_LIMIT_HI 1a0 EMC_STAT_DRAM_CLOCKS_LO 1a4 EMC_STAT_DRAM_CLOCKS_HI 1a8 EMC_STAT_DRAM_DEV0_ACTIVATE_CNT_LO 1ac EMC_STAT_DRAM_DEV0_ACTIVATE_CNT_HI 1b0 EMC_STAT_DRAM_DEV0_READ_CNT_LO 1b4 EMC_STAT_DRAM_DEV0_READ_CNT_HI 1b8 EMC_STAT_DRAM_DEV0_READ8_CNT_LO 1bc EMC_STAT_DRAM_DEV0_READ8_CNT_HI 1c0 EMC_STAT_DRAM_DEV0_WRITE_CNT_LO 1c4 EMC_STAT_DRAM_DEV0_WRITE_CNT_HI 1c8 EMC_STAT_DRAM_DEV0_WRITE8_CNT_LO 1cc EMC_STAT_DRAM_DEV0_WRITE8_CNT_HI 1d0 EMC_STAT_DRAM_DEV0_REF_CNT_LO 1d4 EMC_STAT_DRAM_DEV0_REF_CNT_HI 1d8 EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO 1dc EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI 1e0 EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO 1e4 EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI 1e8 EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO 1ec EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI 1f0 EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO 1f4 EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI 1f8 EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO 1fc EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI 200 EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO 204 EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI 208 EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO 20c EMC_STAT_DRAM_DEV0_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI 210 EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO 214 EMC_STAT_DRAM_DEV0_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI 218 EMC_STAT_DRAM_DEV0_SR_CKE_EQ0_CLKS_LO 21c EMC_STAT_DRAM_DEV0_SR_CKE_EQ0_CLKS_HI 220 EMC_STAT_DRAM_DEV0_DSR 224 EMC_STAT_DRAM_DEV1_ACTIVATE_CNT_LO 228 EMC_STAT_DRAM_DEV1_ACTIVATE_CNT_HI 22c EMC_STAT_DRAM_DEV1_READ_CNT_LO 230 EMC_STAT_DRAM_DEV1_READ_CNT_HI 234 EMC_STAT_DRAM_DEV1_READ8_CNT_LO 238 EMC_STAT_DRAM_DEV1_READ8_CNT_HI 23c EMC_STAT_DRAM_DEV1_WRITE_CNT_LO 240 EMC_STAT_DRAM_DEV1_WRITE_CNT_HI 244 EMC_STAT_DRAM_DEV1_WRITE8_CNT_LO 248 EMC_STAT_DRAM_DEV1_WRITE8_CNT_HI 24c EMC_STAT_DRAM_DEV1_REF_CNT_LO 250 EMC_STAT_DRAM_DEV1_REF_CNT_HI 254 EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO 258 EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI 25c EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO 260 EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI 264 EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO 268 EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI 26c EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO 270 EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI 274 EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO 278 EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI 27c EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO 280 EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI 284 EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO 288 EMC_STAT_DRAM_DEV1_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI 28c EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO 290 EMC_STAT_DRAM_DEV1_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI 294 EMC_STAT_DRAM_DEV1_SR_CKE_EQ0_CLKS_LO 298 EMC_STAT_DRAM_DEV1_SR_CKE_EQ0_CLKS_HI 29c EMC_STAT_DRAM_DEV1_DSR 2a0 EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO c8c EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI c90 EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_LO c94 EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ0_NO_BANKS_ACTIVE_CLKS_HI c98 EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO c9c EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI ca0 EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_LO ca4 EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ1_NO_BANKS_ACTIVE_CLKS_HI ca8 EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO cac EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI cb0 EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_LO cb4 EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ0_SOME_BANKS_ACTIVE_CLKS_HI cb8 EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO cbc EMC_STAT_DRAM_IO_EXTCLKS_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI cc0 EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_LO cc4 EMC_STAT_DRAM_IO_CLKSTOP_CKE_EQ1_SOME_BANKS_ACTIVE_CLKS_HI cc8 EMC_STAT_DRAM_IO_SR_CKE_EQ0_CLKS_LO ccc EMC_STAT_DRAM_IO_SR_CKE_EQ0_CLKS_HI cd0 EMC_STAT_DRAM_IO_DSR cd4 EMC_AUTO_CAL_CONFIG 2a4 EMC_AUTO_CAL_CONFIG2 458 EMC_AUTO_CAL_CONFIG3 45c EMC_AUTO_CAL_CONFIG4 5b0 EMC_AUTO_CAL_CONFIG5 5b4 EMC_AUTO_CAL_CONFIG6 5cc EMC_AUTO_CAL_CONFIG7 574 EMC_AUTO_CAL_CONFIG8 2dc EMC_AUTO_CAL_VREF_SEL_0 2f8 EMC_AUTO_CAL_VREF_SEL_1 300 EMC_AUTO_CAL_INTERVAL 2a8 EMC_AUTO_CAL_STATUS 2ac EMC_AUTO_CAL_STATUS2 3d4 EMC_AUTO_CAL_CHANNEL 464 EMC_PMACRO_RX_TERM c48 EMC_PMACRO_DQ_TX_DRV c70 EMC_PMACRO_CA_TX_DRV c74 EMC_PMACRO_CMD_TX_DRV c4c EMC_PMACRO_AUTOCAL_CFG_0 700 EMC_PMACRO_AUTOCAL_CFG_1 704 EMC_PMACRO_AUTOCAL_CFG_2 708 EMC_PMACRO_AUTOCAL_CFG_COMMON c78 EMC_PMACRO_ZCTRL c44 EMC_XM2COMPPADCTRL 30c EMC_XM2COMPPADCTRL2 578 EMC_XM2COMPPADCTRL3 2f4 EMC_COMP_PAD_SW_CTRL 57c EMC_REQ_CTRL 2b0 EMC_EMC_STATUS 2b4 EMC_CFG_2 2b8 EMC_CFG_DIG_DLL 2bc EMC_CFG_DIG_DLL_PERIOD 2c0 EMC_DIG_DLL_STATUS 2c4 EMC_CFG_DIG_DLL_1 2c8 EMC_RDV_MASK 2cc EMC_WDV_MASK 2d0 EMC_RDV_EARLY_MASK 2d4 EMC_RDV_EARLY 2d8 EMC_WDV_CHK 4e0 EMC_ZCAL_INTERVAL 2e0 EMC_ZCAL_WAIT_CNT 2e4 EMC_ZCAL_MRW_CMD 2e8 EMC_ZQ_CAL 2ec EMC_SCRATCH0 324 EMC_STALL_THEN_EXE_BEFORE_CLKCHANGE 3c8 EMC_STALL_THEN_EXE_AFTER_CLKCHANGE 3cc EMC_UNSTALL_RW_AFTER_CLKCHANGE 3d0 EMC_FDPD_CTRL_CMD_NO_RAMP 4d8 EMC_SEL_DPD_CTRL 3d8 EMC_FDPD_CTRL_DQ 310 EMC_FDPD_CTRL_CMD 314 EMC_PRE_REFRESH_REQ_CNT 3dc EMC_REFCTRL2 580 EMC_FBIO_CFG7 584 EMC_DATA_BRLSHFT_0 588 EMC_DATA_BRLSHFT_1 58c EMC_DQS_BRLSHFT_0 594 EMC_DQS_BRLSHFT_1 598 EMC_CMD_BRLSHFT_0 59c EMC_CMD_BRLSHFT_1 5a0 EMC_CMD_BRLSHFT_2 5a4 EMC_CMD_BRLSHFT_3 5a8 EMC_QUSE_BRLSHFT_0 5ac EMC_QUSE_BRLSHFT_1 5b8 EMC_QUSE_BRLSHFT_2 5bc EMC_QUSE_BRLSHFT_3 5c4 EMC_FBIO_CFG8 5c8 EMC_CMD_MAPPING_CMD0_0 380 EMC_CMD_MAPPING_CMD0_1 384 EMC_CMD_MAPPING_CMD0_2 388 EMC_CMD_MAPPING_CMD1_0 38c EMC_CMD_MAPPING_CMD1_1 390 EMC_CMD_MAPPING_CMD1_2 394 EMC_CMD_MAPPING_CMD2_0 398 EMC_CMD_MAPPING_CMD2_1 39c EMC_CMD_MAPPING_CMD2_2 3a0 EMC_CMD_MAPPING_CMD3_0 3a4 EMC_CMD_MAPPING_CMD3_1 3a8 EMC_CMD_MAPPING_CMD3_2 3ac EMC_CMD_MAPPING_BYTE 3b0 EMC_DYN_SELF_REF_CONTROL 3e0 EMC_TXSRDLL 3e4 EMC_CCFIFO_ADDR 3e8 EMC_CCFIFO_DATA 3ec EMC_CCFIFO_STATUS 3f0 EMC_SWIZZLE_RANK0_BYTE0 404 EMC_SWIZZLE_RANK0_BYTE1 408 EMC_SWIZZLE_RANK0_BYTE2 40c EMC_SWIZZLE_RANK0_BYTE3 410 EMC_SWIZZLE_RANK1_BYTE0 418 EMC_SWIZZLE_RANK1_BYTE1 41c EMC_SWIZZLE_RANK1_BYTE2 420 EMC_SWIZZLE_RANK1_BYTE3 424 EMC_TR_TIMING_0 3b4 EMC_TR_CTRL_0 3b8 EMC_TR_CTRL_1 3bc EMC_TR_DVFS 460 EMC_SWITCH_BACK_CTRL 3c0 EMC_TR_RDV 3c4 EMC_TR_QPOP 3f4 EMC_TR_RDV_MASK 3f8 EMC_TR_QSAFE 3fc EMC_TR_QRST 400 EMC_IBDLY 468 EMC_OBDLY 46c EMC_TXDSRVTTGEN 480 EMC_WE_DURATION 48c EMC_WS_DURATION 490 EMC_WEV 494 EMC_WSV 498 EMC_CFG_3 49c EMC_CFG_PIPE_2 554 EMC_CFG_PIPE_CLK 558 EMC_CFG_PIPE_1 55c EMC_CFG_PIPE 560 EMC_QPOP 564 EMC_QUSE_WIDTH 568 EMC_PUTERM_WIDTH 56c EMC_PROTOBIST_CONFIG_ADR_1 5d0 EMC_PROTOBIST_CONFIG_ADR_2 5d4 EMC_PROTOBIST_MISC 5d8 EMC_PROTOBIST_WDATA_LOWER 5dc EMC_PROTOBIST_WDATA_UPPER 5e0 EMC_PROTOBIST_RDATA 5ec EMC_DLL_CFG_0 5e4 EMC_DLL_CFG_1 5e8 EMC_TRAINING_CMD e00 EMC_TRAINING_CTRL e04 EMC_TRAINING_STATUS e08 EMC_TRAINING_QUSE_CORS_CTRL e0c EMC_TRAINING_QUSE_FINE_CTRL e10 EMC_TRAINING_QUSE_CTRL_MISC e14 EMC_TRAINING_WRITE_FINE_CTRL e18 EMC_TRAINING_WRITE_CTRL_MISC e1c EMC_TRAINING_WRITE_VREF_CTRL e20 EMC_TRAINING_READ_FINE_CTRL e24 EMC_TRAINING_READ_CTRL_MISC e28 EMC_TRAINING_READ_VREF_CTRL e2c EMC_TRAINING_CA_FINE_CTRL e30 EMC_TRAINING_CA_CTRL_MISC e34 EMC_TRAINING_CA_CTRL_MISC1 e38 EMC_TRAINING_CA_VREF_CTRL e3c EMC_TRAINING_CA_TADR_CTRL e40 EMC_TRAINING_SETTLE e44 EMC_TRAINING_DEBUG_CTRL e48 EMC_TRAINING_DEBUG_DQ0 e4c EMC_TRAINING_DEBUG_DQ1 e50 EMC_TRAINING_DEBUG_DQ2 e54 EMC_TRAINING_DEBUG_DQ3 e58 EMC_TRAINING_MPC e5c EMC_TRAINING_PATRAM_CTRL e60 EMC_TRAINING_PATRAM_DQ e64 EMC_TRAINING_PATRAM_DMI e68 EMC_TRAINING_VREF_SETTLE e6c EMC_TRAINING_RW_EYE_CENTER_IB_BYTE0 e70 EMC_TRAINING_RW_EYE_CENTER_IB_BYTE1 e74 EMC_TRAINING_RW_EYE_CENTER_IB_BYTE2 e78 EMC_TRAINING_RW_EYE_CENTER_IB_BYTE3 e7c EMC_TRAINING_RW_EYE_CENTER_IB_MISC e80 EMC_TRAINING_RW_EYE_CENTER_OB_BYTE0 e84 EMC_TRAINING_RW_EYE_CENTER_OB_BYTE1 e88 EMC_TRAINING_RW_EYE_CENTER_OB_BYTE2 e8c EMC_TRAINING_RW_EYE_CENTER_OB_BYTE3 e90 EMC_TRAINING_RW_EYE_CENTER_OB_MISC e94 EMC_TRAINING_RW_OFFSET_IB_BYTE0 e98 EMC_TRAINING_RW_OFFSET_IB_BYTE1 e9c EMC_TRAINING_RW_OFFSET_IB_BYTE2 ea0 EMC_TRAINING_RW_OFFSET_IB_BYTE3 ea4 EMC_TRAINING_RW_OFFSET_IB_MISC ea8 EMC_TRAINING_RW_OFFSET_OB_BYTE0 eac EMC_TRAINING_RW_OFFSET_OB_BYTE1 eb0 EMC_TRAINING_RW_OFFSET_OB_BYTE2 eb4 EMC_TRAINING_RW_OFFSET_OB_BYTE3 eb8 EMC_TRAINING_RW_OFFSET_OB_MISC ebc EMC_TRAINING_OPT_CA_VREF ec0 EMC_TRAINING_OPT_DQ_OB_VREF ec4 EMC_TRAINING_OPT_DQ_IB_VREF_RANK0 ec8 EMC_TRAINING_OPT_DQ_IB_VREF_RANK1 ecc EMC_TRAINING_QUSE_VREF_CTRL ed0 EMC_TRAINING_OPT_DQS_IB_VREF_RANK0 ed4 EMC_TRAINING_OPT_DQS_IB_VREF_RANK1 ed8 EMC_TRAINING_DRAMC_TIMING edc EMC_PMACRO_QUSE_DDLL_RANK0_0 600 EMC_PMACRO_QUSE_DDLL_RANK0_1 604 EMC_PMACRO_QUSE_DDLL_RANK0_2 608 EMC_PMACRO_QUSE_DDLL_RANK0_3 60c EMC_PMACRO_QUSE_DDLL_RANK0_4 610 EMC_PMACRO_QUSE_DDLL_RANK0_5 614 EMC_PMACRO_QUSE_DDLL_RANK1_0 620 EMC_PMACRO_QUSE_DDLL_RANK1_1 624 EMC_PMACRO_QUSE_DDLL_RANK1_2 628 EMC_PMACRO_QUSE_DDLL_RANK1_3 62c EMC_PMACRO_QUSE_DDLL_RANK1_4 630 EMC_PMACRO_QUSE_DDLL_RANK1_5 634 EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0 640 EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1 644 EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2 648 EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3 64c EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_4 650 EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_5 654 EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0 660 EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1 664 EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2 668 EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3 66c EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_4 670 EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_5 674 EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_0 680 EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_1 684 EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_2 688 EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_3 68c EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_4 690 EMC_PMACRO_OB_DDLL_LONG_DQS_RANK0_5 694 EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_0 6a0 EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_1 6a4 EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_2 6a8 EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_3 6ac EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_4 6b0 EMC_PMACRO_OB_DDLL_LONG_DQS_RANK1_5 6b4 EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_0 6c0 EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_1 6c4 EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_2 6c8 EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_3 6cc EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_4 6d0 EMC_PMACRO_IB_DDLL_LONG_DQS_RANK0_5 6d4 EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_0 6e0 EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_1 6e4 EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_2 6e8 EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_3 6ec EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_4 6f0 EMC_PMACRO_IB_DDLL_LONG_DQS_RANK1_5 6f4 EMC_PMACRO_TX_PWRD_0 720 EMC_PMACRO_TX_PWRD_1 724 EMC_PMACRO_TX_PWRD_2 728 EMC_PMACRO_TX_PWRD_3 72c EMC_PMACRO_TX_PWRD_4 730 EMC_PMACRO_TX_PWRD_5 734 EMC_PMACRO_TX_SEL_CLK_SRC_0 740 EMC_PMACRO_TX_SEL_CLK_SRC_1 744 EMC_PMACRO_TX_SEL_CLK_SRC_3 74c EMC_PMACRO_TX_SEL_CLK_SRC_2 748 EMC_PMACRO_TX_SEL_CLK_SRC_4 750 EMC_PMACRO_TX_SEL_CLK_SRC_5 754 EMC_PMACRO_DDLL_BYPASS 760 EMC_PMACRO_DDLL_PWRD_0 770 EMC_PMACRO_DDLL_PWRD_1 774 EMC_PMACRO_DDLL_PWRD_2 778 EMC_PMACRO_CMD_CTRL_0 780 EMC_PMACRO_CMD_CTRL_1 784 EMC_PMACRO_CMD_CTRL_2 788 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_0 800 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_1 804 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_2 808 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE0_3 80c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_0 810 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_1 814 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_2 818 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE1_3 81c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_0 820 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_1 824 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_2 828 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE2_3 82c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_0 830 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_1 834 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_2 838 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE3_3 83c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_0 840 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_1 844 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_2 848 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE4_3 84c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_0 850 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_1 854 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_2 858 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE5_3 85c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_0 860 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_1 864 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_2 868 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE6_3 86c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_0 870 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_1 874 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_2 878 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_BYTE7_3 87c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_0 880 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_1 884 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_2 888 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD0_3 88c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_0 890 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_1 894 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_2 898 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD1_3 89c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_0 8a0 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_1 8a4 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_2 8a8 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD2_3 8ac EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_0 8b0 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_1 8b4 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_2 8b8 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK0_CMD3_3 8bc EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_0 900 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_1 904 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_2 908 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE0_3 90c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_0 910 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_1 914 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_2 918 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE1_3 91c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_0 920 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_1 924 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_2 928 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE2_3 92c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_0 930 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_1 934 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_2 938 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE3_3 93c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_0 940 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_1 944 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_2 948 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE4_3 94c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_0 950 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_1 954 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_2 958 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE5_3 95c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_0 960 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_1 964 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_2 968 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE6_3 96c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_0 970 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_1 974 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_2 978 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_BYTE7_3 97c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_0 980 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_1 984 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_2 988 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD0_3 98c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_0 990 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_1 994 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_2 998 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD1_3 99c EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_0 9a0 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_1 9a4 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_2 9a8 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD2_3 9ac EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_0 9b0 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_1 9b4 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_2 9b8 EMC_PMACRO_OB_DDLL_SHORT_DQ_RANK1_CMD3_3 9bc EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_0 a00 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_1 a04 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE0_2 a08 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_0 a10 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_1 a14 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE1_2 a18 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_0 a20 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_1 a24 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE2_2 a28 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_0 a30 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_1 a34 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE3_2 a38 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_0 a40 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_1 a44 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE4_2 a48 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_0 a50 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_1 a54 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE5_2 a58 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_0 a60 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_1 a64 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE6_2 a68 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_0 a70 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_1 a74 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_BYTE7_2 a78 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD0_0 a80 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD0_1 a84 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD0_2 a88 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD1_0 a90 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD1_1 a94 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD1_2 a98 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD2_0 aa0 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD2_1 aa4 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD2_2 aa8 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD3_0 ab0 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD3_1 ab4 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK0_CMD3_2 ab8 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_0 b00 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_1 b04 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE0_2 b08 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_0 b10 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_1 b14 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE1_2 b18 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_0 b20 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_1 b24 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE2_2 b28 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_0 b30 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_1 b34 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE3_2 b38 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_0 b40 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_1 b44 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE4_2 b48 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_0 b50 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_1 b54 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE5_2 b58 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_0 b60 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_1 b64 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE6_2 b68 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_0 b70 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_1 b74 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_BYTE7_2 b78 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD0_0 b80 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD0_1 b84 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD0_2 b88 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD1_0 b90 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD1_1 b94 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD1_2 b98 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD2_0 ba0 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD2_1 ba4 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD2_2 ba8 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD3_0 bb0 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD3_1 bb4 EMC_PMACRO_IB_DDLL_SHORT_DQ_RANK1_CMD3_2 bb8 EMC_PMACRO_IB_VREF_DQ_0 be0 EMC_PMACRO_IB_VREF_DQ_1 be4 EMC_PMACRO_IB_VREF_DQ_2 be8 EMC_PMACRO_IB_VREF_DQS_0 bf0 EMC_PMACRO_IB_VREF_DQS_1 bf4 EMC_PMACRO_IB_VREF_DQS_2 bf8 EMC_PMACRO_IB_RXRT cf4 EMC_PMACRO_DDLL_LONG_CMD_0 c00 EMC_PMACRO_DDLL_LONG_CMD_1 c04 EMC_PMACRO_DDLL_LONG_CMD_2 c08 EMC_PMACRO_DDLL_LONG_CMD_3 c0c EMC_PMACRO_DDLL_LONG_CMD_4 c10 EMC_PMACRO_DDLL_LONG_CMD_5 c14 EMC_PMACRO_DDLL_SHORT_CMD_0 c20 EMC_PMACRO_DDLL_SHORT_CMD_1 c24 EMC_PMACRO_DDLL_SHORT_CMD_2 c28 EMC_PMACRO_CFG_PM_GLOBAL_0 c30 EMC_PMACRO_VTTGEN_CTRL_0 c34 EMC_PMACRO_VTTGEN_CTRL_1 c38 EMC_PMACRO_VTTGEN_CTRL_2 cf0 EMC_PMACRO_BG_BIAS_CTRL_0 c3c EMC_PMACRO_PAD_CFG_CTRL c40 EMC_PMACRO_CMD_PAD_RX_CTRL c50 EMC_PMACRO_DATA_PAD_RX_CTRL c54 EMC_PMACRO_CMD_RX_TERM_MODE c58 EMC_PMACRO_DATA_RX_TERM_MODE c5c EMC_PMACRO_CMD_PAD_TX_CTRL c60 EMC_PMACRO_DATA_PAD_TX_CTRL c64 EMC_PMACRO_COMMON_PAD_TX_CTRL c68 EMC_PMACRO_BRICK_MAPPING_0 c80 EMC_PMACRO_BRICK_MAPPING_1 c84 EMC_PMACRO_BRICK_MAPPING_2 c88 EMC_PMACRO_DDLLCAL_CAL ce0 EMC_PMACRO_DDLL_OFFSET ce4 EMC_PMACRO_DDLL_PERIODIC_OFFSET ce8 EMC_PMACRO_BRICK_CTRL_RFU1 330 EMC_PMACRO_BRICK_CTRL_RFU2 334 EMC_PMACRO_CMD_BRICK_CTRL_FDPD 318 EMC_PMACRO_DATA_BRICK_CTRL_FDPD 31c EMC_PMACRO_TRAINING_CTRL_0 cf8 EMC_PMACRO_TRAINING_CTRL_1 cfc EMC_PMC_SCRATCH1 440 EMC_PMC_SCRATCH2 444 EMC_PMC_SCRATCH3 448 ================================================ FILE: tools/fix_regs.py ================================================ import re import sys def parse_defs(fname): f = open(fname, "r") lines = f.readlines() f.close() res = {} for l in lines: p = [str(_.strip()) for _ in l.strip().split(" ", 1)] res[int(p[1], 16)] = p[0] return res mc = parse_defs("mc.def") emc = parse_defs("emc.def") f = open(sys.argv[1], "r") buf = f.read() f.close() def fix(m): what = m.groups()[0] off = int(m.groups()[1], 16) if what == "MC": if off in mc: return "MC({0})".format(mc[off]) elif what == "EMC": if off in emc: return "EMC({0})".format(emc[off]) return "{0}(0x{1:X})".format(what, off) buf = re.sub(r'([A-Z]+)\(0x([0-9a-fA-F]+)\)', fix, buf) f = open(sys.argv[2], "w") f.write(buf) f.close() ================================================ FILE: tools/lz/Makefile ================================================ NATIVE_CC ?= gcc ifeq (, $(shell which $(NATIVE_CC) 2>/dev/null)) $(error "Native GCC is missing. Please install it first. If it's path is custom, set it with export NATIVE_CC=") endif .PHONY: all clean all: lz77 @echo > /dev/null clean: @rm -f lz77 lz77: lz.c lz77.c @$(NATIVE_CC) -o $@ lz.c lz77.c ================================================ FILE: tools/lz/lz.c ================================================ // // Name: lz.c // Author: Marcus Geelnard // Description: LZ77 coder/decoder implementation. // Reentrant: Yes // $ATH_LICENSE_NULL$ // // The LZ77 compression scheme is a substitutional compression scheme // proposed by Abraham Lempel and Jakob Ziv in 1977. It is very simple in // its design, and uses no fancy bit level compression. // // This is my first attempt at an implementation of a LZ77 code/decoder. // // The principle of the LZ77 compression algorithm is to store repeated // occurrences of strings as references to previous occurrences of the same // string. The point is that the reference consumes less space than the // string itself, provided that the string is long enough (in this // implementation, the string has to be at least 4 bytes long, since the // minimum coded reference is 3 bytes long). Also note that the term // "string" refers to any kind of byte sequence (it does not have to be // an ASCII string, for instance). // // The coder uses a brute force approach to finding string matches in the // history buffer (or "sliding window", if you wish), which is very, very // slow. I recon the complexity is somewhere between O(n^2) and O(n^3), // depending on the input data. // // There is also a faster implementation that uses a large working buffer // in which a "jump table" is stored, which is used to quickly find // possible string matches (see the source code for LZ_CompressFast() for // more information). The faster method is an order of magnitude faster, // but still quite slow compared to other compression methods. // // The upside is that decompression is very fast, and the compression ratio // is often very good. // // The reference to a string is coded as a (length,offset) pair, where the // length indicates the length of the string, and the offset gives the // offset from the current data position. To distinguish between string // references and literal strings (uncompressed bytes), a string reference // is preceded by a marker byte, which is chosen as the least common byte // symbol in the input data stream (this marker byte is stored in the // output stream as the first byte). // // Occurrences of the marker byte in the stream are encoded as the marker // byte followed by a zero byte, which means that occurrences of the marker // byte have to be coded with two bytes. // // The lengths and offsets are coded in a variable length fashion, allowing // values of any magnitude (up to 4294967295 in this implementation). // // With this compression scheme, the worst case compression result is // (257/256)*insize + 1. // //------------------------------------------------------------------------ // Copyright (c) 2003-2006 Marcus Geelnard // // This software is provided 'as-is', without any express or implied // warranty. In no event will the authors be held liable for any damages // arising from the use of this software. // // Permission is granted to anyone to use this software for any purpose, // including commercial applications, and to alter it and redistribute it // freely, subject to the following restrictions: // // 1. The origin of this software must not be misrepresented; you must not // claim that you wrote the original software. If you use this software // in a product, an acknowledgment in the product documentation would // be appreciated but is not required. // // 2. Altered source versions must be plainly marked as such, and must not // be misrepresented as being the original software. // // 3. This notice may not be removed or altered from any source // distribution. // // Marcus Geelnard // marcus.geelnard at home.se // // // This file has been altered from the original version. // /************************************************************************* * Constants used for LZ77 coding *************************************************************************/ /* Maximum offset (can be any size < 2^31). Lower values give faster compression, while higher values gives better compression. The default value of 100000 is quite high. Experiment to see what works best for you. */ #define LZ_MAX_OFFSET 100000 /************************************************************************* * INTERNAL FUNCTIONS * *************************************************************************/ /************************************************************************* * _LZ_StringCompare() - Return maximum length string match. *************************************************************************/ static unsigned int _LZ_StringCompare( unsigned char * str1, unsigned char * str2, unsigned int minlen, unsigned int maxlen ) { unsigned int len; for( len = minlen; (len < maxlen) && (str1[len] == str2[len]); ++ len ); return len; } /************************************************************************* * _LZ_WriteVarSize() - Write unsigned integer with variable number of * bytes depending on value. *************************************************************************/ static int _LZ_WriteVarSize( unsigned int x, unsigned char * buf ) { unsigned int y; int num_bytes, i, b; /* Determine number of bytes needed to store the number x */ y = x >> 3; for( num_bytes = 5; num_bytes >= 2; -- num_bytes ) { if( y & 0xfe000000 ) break; y <<= 7; } /* Write all bytes, seven bits in each, with 8:th bit set for all */ /* but the last byte. */ for( i = num_bytes-1; i >= 0; -- i ) { b = (x >> (i*7)) & 0x0000007f; if( i > 0 ) { b |= 0x00000080; } *buf ++ = (unsigned char) b; } /* Return number of bytes written */ return num_bytes; } /************************************************************************* * _LZ_ReadVarSize() - Read unsigned integer with variable number of * bytes depending on value. *************************************************************************/ static int _LZ_ReadVarSize( unsigned int * x, unsigned char * buf ) { unsigned int y, b, num_bytes; /* Read complete value (stop when byte contains zero in 8:th bit) */ y = 0; num_bytes = 0; do { b = (unsigned int) (*buf ++); y = (y << 7) | (b & 0x0000007f); ++ num_bytes; } while( b & 0x00000080 ); /* Store value in x */ *x = y; /* Return number of bytes read */ return num_bytes; } /************************************************************************* * PUBLIC FUNCTIONS * *************************************************************************/ /************************************************************************* * LZ_Compress() - Compress a block of data using an LZ77 coder. * in - Input (uncompressed) buffer. * out - Output (compressed) buffer. This buffer must be 0.4% larger * than the input buffer, plus one byte. * insize - Number of input bytes. * The function returns the size of the compressed data. *************************************************************************/ int LZ_Compress( unsigned char *in, unsigned char *out, unsigned int insize ) { unsigned char marker, symbol; unsigned int inpos, outpos, bytesleft, i; unsigned int maxoffset, offset, bestoffset; unsigned int maxlength, length, bestlength; unsigned int histogram[ 256 ]; unsigned char *ptr1, *ptr2; /* Do we have anything to compress? */ if( insize < 1 ) { return 0; } /* Create histogram */ for( i = 0; i < 256; ++ i ) { histogram[ i ] = 0; } for( i = 0; i < insize; ++ i ) { ++ histogram[ in[ i ] ]; } /* Find the least common byte, and use it as the marker symbol */ marker = 0; for( i = 1; i < 256; ++ i ) { if( histogram[ i ] < histogram[ marker ] ) { marker = i; } } /* Remember the marker symbol for the decoder */ out[ 0 ] = marker; /* Start of compression */ inpos = 0; outpos = 1; /* Main compression loop */ bytesleft = insize; do { /* Determine most distant position */ if( inpos > LZ_MAX_OFFSET ) maxoffset = LZ_MAX_OFFSET; else maxoffset = inpos; /* Get pointer to current position */ ptr1 = &in[ inpos ]; /* Search history window for maximum length string match */ bestlength = 3; bestoffset = 0; for( offset = 3; offset <= maxoffset; ++ offset ) { /* Get pointer to candidate string */ ptr2 = &ptr1[ -(int)offset ]; /* Quickly determine if this is a candidate (for speed) */ if( (ptr1[ 0 ] == ptr2[ 0 ]) && (ptr1[ bestlength ] == ptr2[ bestlength ]) ) { /* Determine maximum length for this offset */ maxlength = (bytesleft < offset ? bytesleft : offset); /* Count maximum length match at this offset */ length = _LZ_StringCompare( ptr1, ptr2, 0, maxlength ); /* Better match than any previous match? */ if( length > bestlength ) { bestlength = length; bestoffset = offset; } } } /* Was there a good enough match? */ if( (bestlength >= 8) || ((bestlength == 4) && (bestoffset <= 0x0000007f)) || ((bestlength == 5) && (bestoffset <= 0x00003fff)) || ((bestlength == 6) && (bestoffset <= 0x001fffff)) || ((bestlength == 7) && (bestoffset <= 0x0fffffff)) ) { out[ outpos ++ ] = (unsigned char) marker; outpos += _LZ_WriteVarSize( bestlength, &out[ outpos ] ); outpos += _LZ_WriteVarSize( bestoffset, &out[ outpos ] ); inpos += bestlength; bytesleft -= bestlength; } else { /* Output single byte (or two bytes if marker byte) */ symbol = in[ inpos ++ ]; out[ outpos ++ ] = symbol; if( symbol == marker ) { out[ outpos ++ ] = 0; } -- bytesleft; } } while( bytesleft > 3 ); /* Dump remaining bytes, if any */ while( inpos < insize ) { if( in[ inpos ] == marker ) { out[ outpos ++ ] = marker; out[ outpos ++ ] = 0; } else { out[ outpos ++ ] = in[ inpos ]; } ++ inpos; } return outpos; } /************************************************************************* * LZ_CompressFast() - Compress a block of data using an LZ77 coder. * in - Input (uncompressed) buffer. * out - Output (compressed) buffer. This buffer must be 0.4% larger * than the input buffer, plus one byte. * insize - Number of input bytes. * work - Pointer to a temporary buffer (internal working buffer), which * must be able to hold (insize+65536) unsigned integers. * The function returns the size of the compressed data. *************************************************************************/ int LZ_CompressFast( unsigned char *in, unsigned char *out, unsigned int insize, unsigned int *work ) { unsigned char marker, symbol; unsigned int inpos, outpos, bytesleft, i, index, symbols; unsigned int offset, bestoffset; unsigned int maxlength, length, bestlength; unsigned int histogram[ 256 ], *lastindex, *jumptable; unsigned char *ptr1, *ptr2; /* Do we have anything to compress? */ if( insize < 1 ) { return 0; } /* Assign arrays to the working area */ lastindex = work; jumptable = &work[ 65536 ]; /* Build a "jump table". Here is how the jump table works: jumptable[i] points to the nearest previous occurrence of the same symbol pair as in[i]:in[i+1], so in[i] == in[jumptable[i]] and in[i+1] == in[jumptable[i]+1], and so on... Following the jump table gives a dramatic boost for the string search'n'match loop compared to doing a brute force search. The jump table is built in O(n) time, so it is a cheap operation in terms of time, but it is expensice in terms of memory consumption. */ for( i = 0; i < 65536; ++ i ) { lastindex[ i ] = 0xffffffff; } for( i = 0; i < insize-1; ++ i ) { symbols = (((unsigned int)in[i]) << 8) | ((unsigned int)in[i+1]); index = lastindex[ symbols ]; lastindex[ symbols ] = i; jumptable[ i ] = index; } jumptable[ insize-1 ] = 0xffffffff; /* Create histogram */ for( i = 0; i < 256; ++ i ) { histogram[ i ] = 0; } for( i = 0; i < insize; ++ i ) { ++ histogram[ in[ i ] ]; } /* Find the least common byte, and use it as the marker symbol */ marker = 0; for( i = 1; i < 256; ++ i ) { if( histogram[ i ] < histogram[ marker ] ) { marker = i; } } /* Remember the marker symbol for the decoder */ out[ 0 ] = marker; /* Start of compression */ inpos = 0; outpos = 1; /* Main compression loop */ bytesleft = insize; do { /* Get pointer to current position */ ptr1 = &in[ inpos ]; /* Search history window for maximum length string match */ bestlength = 3; bestoffset = 0; index = jumptable[ inpos ]; while( (index != 0xffffffff) && ((inpos - index) < LZ_MAX_OFFSET) ) { /* Get pointer to candidate string */ ptr2 = &in[ index ]; /* Quickly determine if this is a candidate (for speed) */ if( ptr2[ bestlength ] == ptr1[ bestlength ] ) { /* Determine maximum length for this offset */ offset = inpos - index; maxlength = (bytesleft < offset ? bytesleft : offset); /* Count maximum length match at this offset */ length = _LZ_StringCompare( ptr1, ptr2, 2, maxlength ); /* Better match than any previous match? */ if( length > bestlength ) { bestlength = length; bestoffset = offset; } } /* Get next possible index from jump table */ index = jumptable[ index ]; } /* Was there a good enough match? */ if( (bestlength >= 8) || ((bestlength == 4) && (bestoffset <= 0x0000007f)) || ((bestlength == 5) && (bestoffset <= 0x00003fff)) || ((bestlength == 6) && (bestoffset <= 0x001fffff)) || ((bestlength == 7) && (bestoffset <= 0x0fffffff)) ) { out[ outpos ++ ] = (unsigned char) marker; outpos += _LZ_WriteVarSize( bestlength, &out[ outpos ] ); outpos += _LZ_WriteVarSize( bestoffset, &out[ outpos ] ); inpos += bestlength; bytesleft -= bestlength; } else { /* Output single byte (or two bytes if marker byte) */ symbol = in[ inpos ++ ]; out[ outpos ++ ] = symbol; if( symbol == marker ) { out[ outpos ++ ] = 0; } -- bytesleft; } } while( bytesleft > 3 ); /* Dump remaining bytes, if any */ while( inpos < insize ) { if( in[ inpos ] == marker ) { out[ outpos ++ ] = marker; out[ outpos ++ ] = 0; } else { out[ outpos ++ ] = in[ inpos ]; } ++ inpos; } return outpos; } /************************************************************************* * LZ_Uncompress() - Uncompress a block of data using an LZ77 decoder. * in - Input (compressed) buffer. * out - Output (uncompressed) buffer. This buffer must be large * enough to hold the uncompressed data. * insize - Number of input bytes. *************************************************************************/ int LZ_Uncompress( unsigned char *in, unsigned char *out, unsigned int insize ) { unsigned char marker, symbol; unsigned int i, inpos, outpos, length, offset; /* Do we have anything to uncompress? */ if( insize < 1 ) { return 0; } /* Get marker symbol from input stream */ marker = in[ 0 ]; inpos = 1; /* Main decompression loop */ outpos = 0; do { symbol = in[ inpos ++ ]; if( symbol == marker ) { /* We had a marker byte */ if( in[ inpos ] == 0 ) { /* It was a single occurrence of the marker byte */ out[ outpos ++ ] = marker; ++ inpos; } else { /* Extract true length and offset */ inpos += _LZ_ReadVarSize( &length, &in[ inpos ] ); inpos += _LZ_ReadVarSize( &offset, &in[ inpos ] ); /* Copy corresponding data from history window */ for( i = 0; i < length; ++ i ) { out[ outpos ] = out[ outpos - offset ]; ++ outpos; } } } else { /* No marker, plain copy */ out[ outpos ++ ] = symbol; } } while( inpos < insize ); return outpos; } ================================================ FILE: tools/lz/lz.h ================================================ // // Name: lz.h // Author: Marcus Geelnard // Description: LZ77 coder/decoder interface. // Reentrant: Yes // ------------------------------------------------------------------------ // $ATH_LICENSE_NULL$ // Copyright (c) 2003-2006 Marcus Geelnard // // This software is provided 'as-is', without any express or implied // warranty. In no event will the authors be held liable for any damages // arising from the use of this software. // // Permission is granted to anyone to use this software for any purpose, // including commercial applications, and to alter it and redistribute it // freely, subject to the following restrictions: // // 1. The origin of this software must not be misrepresented; you must not // claim that you wrote the original software. If you use this software // in a product, an acknowledgment in the product documentation would // be appreciated but is not required. // // 2. Altered source versions must be plainly marked as such, and must not // be misrepresented as being the original software. // // 3. This notice may not be removed or altered from any source // distribution. // // Marcus Geelnard // marcus.geelnard at home.se // // // This file has been altered from the original version. // #ifndef _lz_h_ #define _lz_h_ #ifdef __cplusplus extern "C" { #endif /************************************************************************* * Function prototypes *************************************************************************/ int LZ_Compress( unsigned char *in, unsigned char *out, unsigned int insize ); int LZ_CompressFast( unsigned char *in, unsigned char *out, unsigned int insize, unsigned int *work ); int LZ_Uncompress( unsigned char *in, unsigned char *out, unsigned int insize ); #ifdef __cplusplus } #endif #endif /* _lz_h_ */ ================================================ FILE: tools/lz/lz77.c ================================================ /* * Copyright (c) 2019 CTCaer * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include "lz.h" char filename[1024]; int main(int argc, char *argv[]) { int nbytes; int filename_len; struct stat statbuf; FILE *in_file, *out_file; if(stat(argv[1], &statbuf)) goto error; if((in_file=fopen(argv[1], "rb")) == NULL) goto error; strcpy(filename, argv[1]); filename_len = strlen(filename); uint32_t in_size = statbuf.st_size; uint8_t *in_buf = (uint8_t *)malloc(in_size); uint32_t out_size = statbuf.st_size + 257; uint8_t *out_buf = (uint8_t *)malloc(out_size); if(!(in_buf && out_buf)) goto error; if(fread(in_buf, 1, in_size, in_file) != in_size) goto error; fclose(in_file); uint32_t *work = (uint32_t*)malloc(sizeof(uint32_t) * (in_size + 65536)); for (int i = 0; i < 2; i++) { uint32_t in_size_tmp; if (!i) { in_size_tmp = in_size / 2; strcpy(filename + filename_len, ".00.lz"); } else { in_size_tmp = in_size - (in_size / 2); strcpy(filename + filename_len, ".01.lz"); } if (work) nbytes = LZ_CompressFast(in_buf + (in_size / 2) * i, out_buf, in_size_tmp, work); else goto error; if (nbytes > out_size) goto error; if((out_file = fopen(filename,"wb")) == NULL) goto error; if (fwrite(out_buf, 1, nbytes, out_file) != nbytes) goto error; fclose(out_file); } return 0; error: fprintf(stderr, "Failed to compress: %s\n", argv[1]); exit(1); } ================================================ FILE: tools/mc.def ================================================ MC_INTSTATUS 0 MC_INTMASK 4 MC_ERR_STATUS 8 MC_ERR_ADR c MC_PCFIFO_CLIENT_CONFIG0 dd0 MC_PCFIFO_CLIENT_CONFIG1 dd4 MC_PCFIFO_CLIENT_CONFIG2 dd8 MC_PCFIFO_CLIENT_CONFIG3 ddc MC_PCFIFO_CLIENT_CONFIG4 de0 MC_EMEM_CFG 50 MC_EMEM_ADR_CFG 54 MC_EMEM_ADR_CFG_DEV0 58 MC_EMEM_ADR_CFG_DEV1 5c MC_EMEM_ADR_CFG_CHANNEL_MASK 60 MC_EMEM_ADR_CFG_BANK_MASK_0 64 MC_EMEM_ADR_CFG_BANK_MASK_1 68 MC_EMEM_ADR_CFG_BANK_MASK_2 6c MC_SECURITY_CFG0 70 MC_SECURITY_CFG1 74 MC_SECURITY_CFG3 9bc MC_SECURITY_RSV 7c MC_EMEM_ARB_CFG 90 MC_EMEM_ARB_OUTSTANDING_REQ 94 MC_EMEM_ARB_TIMING_RCD 98 MC_EMEM_ARB_TIMING_RP 9c MC_EMEM_ARB_TIMING_RC a0 MC_EMEM_ARB_TIMING_RAS a4 MC_EMEM_ARB_TIMING_FAW a8 MC_EMEM_ARB_TIMING_RRD ac MC_EMEM_ARB_TIMING_RAP2PRE b0 MC_EMEM_ARB_TIMING_WAP2PRE b4 MC_EMEM_ARB_TIMING_R2R b8 MC_EMEM_ARB_TIMING_W2W bc MC_EMEM_ARB_TIMING_R2W c0 MC_EMEM_ARB_TIMING_W2R c4 MC_EMEM_ARB_TIMING_RFCPB 6c0 MC_EMEM_ARB_TIMING_CCDMW 6c4 MC_EMEM_ARB_REFPB_HP_CTRL 6f0 MC_EMEM_ARB_REFPB_BANK_CTRL 6f4 MC_EMEM_ARB_DA_TURNS d0 MC_EMEM_ARB_DA_COVERS d4 MC_EMEM_ARB_MISC0 d8 MC_EMEM_ARB_MISC1 dc MC_EMEM_ARB_MISC2 c8 MC_EMEM_ARB_RING1_THROTTLE e0 MC_EMEM_ARB_RING3_THROTTLE e4 MC_EMEM_ARB_NISO_THROTTLE 6b0 MC_EMEM_ARB_OVERRIDE e8 MC_EMEM_ARB_RSV ec MC_CLKEN_OVERRIDE f4 MC_TIMING_CONTROL_DBG f8 MC_TIMING_CONTROL fc MC_STAT_CONTROL 100 MC_STAT_STATUS 104 MC_STAT_EMC_CLOCK_LIMIT 108 MC_STAT_EMC_CLOCK_LIMIT_MSBS 10c MC_STAT_EMC_CLOCKS 110 MC_STAT_EMC_CLOCKS_MSBS 114 MC_STAT_EMC_FILTER_SET0_ADR_LIMIT_LO 118 MC_STAT_EMC_FILTER_SET1_ADR_LIMIT_LO 158 MC_STAT_EMC_FILTER_SET0_ADR_LIMIT_HI 11c MC_STAT_EMC_FILTER_SET1_ADR_LIMIT_HI 15c MC_STAT_EMC_FILTER_SET0_ADR_LIMIT_UPPER a20 MC_STAT_EMC_FILTER_SET1_ADR_LIMIT_UPPER a24 MC_STAT_EMC_FILTER_SET0_VIRTUAL_ADR_LIMIT_LO 198 MC_STAT_EMC_FILTER_SET1_VIRTUAL_ADR_LIMIT_LO 1a8 MC_STAT_EMC_FILTER_SET0_VIRTUAL_ADR_LIMIT_HI 19c MC_STAT_EMC_FILTER_SET1_VIRTUAL_ADR_LIMIT_HI 1ac MC_STAT_EMC_FILTER_SET0_VIRTUAL_ADR_LIMIT_UPPER a28 MC_STAT_EMC_FILTER_SET1_VIRTUAL_ADR_LIMIT_UPPER a2c MC_STAT_EMC_FILTER_SET0_ASID 1a0 MC_STAT_EMC_FILTER_SET1_ASID 1b0 MC_STAT_EMC_FILTER_SET0_SLACK_LIMIT 120 MC_STAT_EMC_FILTER_SET1_SLACK_LIMIT 160 MC_STAT_EMC_FILTER_SET0_CLIENT_0 128 MC_STAT_EMC_FILTER_SET1_CLIENT_0 168 MC_STAT_EMC_FILTER_SET0_CLIENT_1 12c MC_STAT_EMC_FILTER_SET1_CLIENT_1 16c MC_STAT_EMC_FILTER_SET0_CLIENT_2 130 MC_STAT_EMC_FILTER_SET1_CLIENT_2 170 MC_STAT_EMC_FILTER_SET0_CLIENT_3 134 MC_STAT_EMC_FILTER_SET0_CLIENT_4 b88 MC_STAT_EMC_FILTER_SET1_CLIENT_3 174 MC_STAT_EMC_FILTER_SET1_CLIENT_4 b8c MC_STAT_EMC_SET0_COUNT 138 MC_STAT_EMC_SET0_COUNT_MSBS 13c MC_STAT_EMC_SET1_COUNT 178 MC_STAT_EMC_SET1_COUNT_MSBS 17c MC_STAT_EMC_SET0_SLACK_ACCUM 140 MC_STAT_EMC_SET0_SLACK_ACCUM_MSBS 144 MC_STAT_EMC_SET1_SLACK_ACCUM 180 MC_STAT_EMC_SET1_SLACK_ACCUM_MSBS 184 MC_STAT_EMC_SET0_HISTO_COUNT 148 MC_STAT_EMC_SET0_HISTO_COUNT_MSBS 14c MC_STAT_EMC_SET1_HISTO_COUNT 188 MC_STAT_EMC_SET1_HISTO_COUNT_MSBS 18c MC_STAT_EMC_SET0_MINIMUM_SLACK_OBSERVED 150 MC_STAT_EMC_SET1_MINIMUM_SLACK_OBSERVED 190 MC_STAT_EMC_SET0_IDLE_CYCLE_COUNT 1b8 MC_STAT_EMC_SET0_IDLE_CYCL_COUNT_MSBS 1bc MC_STAT_EMC_SET1_IDLE_CYCLE_COUNT 1c8 MC_STAT_EMC_SET1_IDLE_CYCL_COUNT_MSBS 1cc MC_STAT_EMC_SET0_IDLE_CYCLE_PARTITION_SELECT 1c0 MC_STAT_EMC_SET1_IDLE_CYCLE_PARTITION_SELECT 1d0 MC_CLIENT_HOTRESET_CTRL 200 MC_CLIENT_HOTRESET_CTRL_1 970 MC_CLIENT_HOTRESET_STATUS 204 MC_CLIENT_HOTRESET_STATUS_1 974 MC_EMEM_ARB_ISOCHRONOUS_0 208 MC_EMEM_ARB_ISOCHRONOUS_1 20c MC_EMEM_ARB_ISOCHRONOUS_2 210 MC_EMEM_ARB_ISOCHRONOUS_3 214 MC_EMEM_ARB_ISOCHRONOUS_4 b94 MC_EMEM_ARB_HYSTERESIS_0 218 MC_EMEM_ARB_HYSTERESIS_1 21c MC_EMEM_ARB_HYSTERESIS_2 220 MC_EMEM_ARB_HYSTERESIS_3 224 MC_EMEM_ARB_HYSTERESIS_4 b84 MC_EMEM_ARB_DHYSTERESIS_0 bb0 MC_EMEM_ARB_DHYSTERESIS_1 bb4 MC_EMEM_ARB_DHYSTERESIS_2 bb8 MC_EMEM_ARB_DHYSTERESIS_3 bbc MC_EMEM_ARB_DHYSTERESIS_4 bc0 MC_EMEM_ARB_DHYST_CTRL bcc MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_0 bd0 MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_1 bd4 MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_2 bd8 MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_3 bdc MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_4 be0 MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_5 be4 MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_6 be8 MC_EMEM_ARB_DHYST_TIMEOUT_UTIL_7 bec MC_RESERVED_RSV 3fc MC_DISB_EXTRA_SNAP_LEVELS 408 MC_APB_EXTRA_SNAP_LEVELS 2a4 MC_AHB_EXTRA_SNAP_LEVELS 2a0 MC_USBD_EXTRA_SNAP_LEVELS a18 MC_ISP_EXTRA_SNAP_LEVELS a08 MC_AUD_EXTRA_SNAP_LEVELS a10 MC_MSE_EXTRA_SNAP_LEVELS 40c MC_GK2_EXTRA_SNAP_LEVELS a40 MC_A9AVPPC_EXTRA_SNAP_LEVELS 414 MC_FTOP_EXTRA_SNAP_LEVELS 2bc MC_JPG_EXTRA_SNAP_LEVELS a3c MC_HOST_EXTRA_SNAP_LEVELS a14 MC_SAX_EXTRA_SNAP_LEVELS 2c0 MC_DIS_EXTRA_SNAP_LEVELS 2ac MC_VICPC_EXTRA_SNAP_LEVELS a1c MC_HDAPC_EXTRA_SNAP_LEVELS a48 MC_AVP_EXTRA_SNAP_LEVELS 2a8 MC_USBX_EXTRA_SNAP_LEVELS 404 MC_PCX_EXTRA_SNAP_LEVELS 2b8 MC_SD_EXTRA_SNAP_LEVELS a04 MC_DFD_EXTRA_SNAP_LEVELS a4c MC_VE_EXTRA_SNAP_LEVELS 2d8 MC_GK_EXTRA_SNAP_LEVELS a00 MC_VE2_EXTRA_SNAP_LEVELS 410 MC_SDM_EXTRA_SNAP_LEVELS a44 MC_VIDEO_PROTECT_BOM 648 MC_VIDEO_PROTECT_SIZE_MB 64c MC_VIDEO_PROTECT_BOM_ADR_HI 978 MC_VIDEO_PROTECT_REG_CTRL 650 MC_ERR_VPR_STATUS 654 MC_ERR_VPR_ADR 658 MC_VIDEO_PROTECT_VPR_OVERRIDE 418 MC_VIDEO_PROTECT_VPR_OVERRIDE1 590 MC_IRAM_BOM 65c MC_IRAM_TOM 660 MC_IRAM_ADR_HI 980 MC_IRAM_REG_CTRL 964 MC_EMEM_CFG_ACCESS_CTRL 664 MC_TZ_SECURITY_CTRL 668 MC_EMEM_ARB_OUTSTANDING_REQ_RING3 66c MC_EMEM_ARB_OUTSTANDING_REQ_NISO 6b4 MC_EMEM_ARB_RING0_THROTTLE_MASK 6bc MC_EMEM_ARB_NISO_THROTTLE_MASK 6b8 MC_EMEM_ARB_NISO_THROTTLE_MASK_1 b80 MC_SEC_CARVEOUT_BOM 670 MC_SEC_CARVEOUT_SIZE_MB 674 MC_SEC_CARVEOUT_ADR_HI 9d4 MC_SEC_CARVEOUT_REG_CTRL 678 MC_ERR_SEC_STATUS 67c MC_ERR_SEC_ADR 680 MC_PC_IDLE_CLOCK_GATE_CONFIG 684 MC_STUTTER_CONTROL 688 MC_RESERVED_RSV_1 958 MC_DVFS_PIPE_SELECT 95c MC_AHB_PTSA_MIN 4e0 MC_AUD_PTSA_MIN 54c MC_MLL_MPCORER_PTSA_RATE 44c MC_RING2_PTSA_RATE 440 MC_USBD_PTSA_RATE 530 MC_USBX_PTSA_MIN 528 MC_USBD_PTSA_MIN 534 MC_APB_PTSA_MAX 4f0 MC_JPG_PTSA_RATE 584 MC_DIS_PTSA_MIN 420 MC_AVP_PTSA_MAX 4fc MC_AVP_PTSA_RATE 4f4 MC_RING1_PTSA_MIN 480 MC_DIS_PTSA_MAX 424 MC_SD_PTSA_MAX 4d8 MC_MSE_PTSA_RATE 4c4 MC_VICPC_PTSA_MIN 558 MC_PCX_PTSA_MAX 4b4 MC_ISP_PTSA_RATE 4a0 MC_A9AVPPC_PTSA_MIN 48c MC_RING2_PTSA_MAX 448 MC_AUD_PTSA_RATE 548 MC_HOST_PTSA_MIN 51c MC_MLL_MPCORER_PTSA_MAX 454 MC_SD_PTSA_MIN 4d4 MC_RING1_PTSA_RATE 47c MC_JPG_PTSA_MIN 588 MC_HDAPC_PTSA_MIN 62c MC_AVP_PTSA_MIN 4f8 MC_JPG_PTSA_MAX 58c MC_VE_PTSA_MAX 43c MC_DFD_PTSA_MAX 63c MC_VICPC_PTSA_RATE 554 MC_GK_PTSA_MAX 544 MC_VICPC_PTSA_MAX 55c MC_SDM_PTSA_MAX 624 MC_SAX_PTSA_RATE 4b8 MC_PCX_PTSA_MIN 4b0 MC_APB_PTSA_MIN 4ec MC_GK2_PTSA_MIN 614 MC_PCX_PTSA_RATE 4ac MC_RING1_PTSA_MAX 484 MC_HDAPC_PTSA_RATE 628 MC_MLL_MPCORER_PTSA_MIN 450 MC_GK2_PTSA_MAX 618 MC_AUD_PTSA_MAX 550 MC_GK2_PTSA_RATE 610 MC_ISP_PTSA_MAX 4a8 MC_DISB_PTSA_RATE 428 MC_VE2_PTSA_MAX 49c MC_DFD_PTSA_MIN 638 MC_FTOP_PTSA_RATE 50c MC_A9AVPPC_PTSA_RATE 488 MC_VE2_PTSA_MIN 498 MC_USBX_PTSA_MAX 52c MC_DIS_PTSA_RATE 41c MC_USBD_PTSA_MAX 538 MC_A9AVPPC_PTSA_MAX 490 MC_USBX_PTSA_RATE 524 MC_FTOP_PTSA_MAX 514 MC_HDAPC_PTSA_MAX 630 MC_SD_PTSA_RATE 4d0 MC_DFD_PTSA_RATE 634 MC_FTOP_PTSA_MIN 510 MC_SDM_PTSA_RATE 61c MC_AHB_PTSA_RATE 4dc MC_SMMU_SMMU_PTSA_MAX 460 MC_RING2_PTSA_MIN 444 MC_SDM_PTSA_MIN 620 MC_APB_PTSA_RATE 4e8 MC_MSE_PTSA_MIN 4c8 MC_HOST_PTSA_RATE 518 MC_VE_PTSA_RATE 434 MC_AHB_PTSA_MAX 4e4 MC_SAX_PTSA_MIN 4bc MC_SMMU_SMMU_PTSA_MIN 45c MC_ISP_PTSA_MIN 4a4 MC_HOST_PTSA_MAX 520 MC_SAX_PTSA_MAX 4c0 MC_VE_PTSA_MIN 438 MC_GK_PTSA_MIN 540 MC_MSE_PTSA_MAX 4cc MC_DISB_PTSA_MAX 430 MC_DISB_PTSA_MIN 42c MC_SMMU_SMMU_PTSA_RATE 458 MC_VE2_PTSA_RATE 494 MC_GK_PTSA_RATE 53c MC_PTSA_GRANT_DECREMENT 960 MC_LATENCY_ALLOWANCE_AVPC_0 2e4 MC_LATENCY_ALLOWANCE_AXIAP_0 3a0 MC_LATENCY_ALLOWANCE_XUSB_1 380 MC_LATENCY_ALLOWANCE_ISP2B_0 384 MC_LATENCY_ALLOWANCE_SDMMCAA_0 3bc MC_LATENCY_ALLOWANCE_SDMMCA_0 3b8 MC_LATENCY_ALLOWANCE_ISP2_0 370 MC_LATENCY_ALLOWANCE_SE_0 3e0 MC_LATENCY_ALLOWANCE_ISP2_1 374 MC_LATENCY_ALLOWANCE_DC_0 2e8 MC_LATENCY_ALLOWANCE_VIC_0 394 MC_LATENCY_ALLOWANCE_DCB_1 2f8 MC_LATENCY_ALLOWANCE_NVDEC_0 3d8 MC_LATENCY_ALLOWANCE_DCB_2 2fc MC_LATENCY_ALLOWANCE_TSEC_0 390 MC_LATENCY_ALLOWANCE_DC_2 2f0 MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0AB 694 MC_LATENCY_ALLOWANCE_PPCS_1 348 MC_LATENCY_ALLOWANCE_XUSB_0 37c MC_LATENCY_ALLOWANCE_PPCS_0 344 MC_LATENCY_ALLOWANCE_TSECB_0 3f0 MC_LATENCY_ALLOWANCE_AFI_0 2e0 MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0B 698 MC_LATENCY_ALLOWANCE_DC_1 2ec MC_LATENCY_ALLOWANCE_APE_0 3dc MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0C 6a0 MC_LATENCY_ALLOWANCE_A9AVP_0 3a4 MC_LATENCY_ALLOWANCE_GPU2_0 3e8 MC_LATENCY_ALLOWANCE_DCB_0 2f4 MC_LATENCY_ALLOWANCE_HC_1 314 MC_LATENCY_ALLOWANCE_SDMMC_0 3c0 MC_LATENCY_ALLOWANCE_NVJPG_0 3e4 MC_LATENCY_ALLOWANCE_PTC_0 34c MC_LATENCY_ALLOWANCE_ETR_0 3ec MC_LATENCY_ALLOWANCE_MPCORE_0 320 MC_LATENCY_ALLOWANCE_VI2_0 398 MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0BB 69c MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0CB 6a4 MC_LATENCY_ALLOWANCE_SATA_0 350 MC_SCALED_LATENCY_ALLOWANCE_DISPLAY0A 690 MC_LATENCY_ALLOWANCE_HC_0 310 MC_LATENCY_ALLOWANCE_DC_3 3c8 MC_LATENCY_ALLOWANCE_GPU_0 3ac MC_LATENCY_ALLOWANCE_SDMMCAB_0 3c4 MC_LATENCY_ALLOWANCE_ISP2B_1 388 MC_LATENCY_ALLOWANCE_NVENC_0 328 MC_LATENCY_ALLOWANCE_HDA_0 318 MC_MIN_LENGTH_APE_0 b34 MC_MIN_LENGTH_DCB_2 8a8 MC_MIN_LENGTH_A9AVP_0 950 MC_MIN_LENGTH_TSEC_0 93c MC_MIN_LENGTH_DC_1 898 MC_MIN_LENGTH_AXIAP_0 94c MC_MIN_LENGTH_ISP2B_0 930 MC_MIN_LENGTH_VI2_0 944 MC_MIN_LENGTH_DCB_0 8a0 MC_MIN_LENGTH_DCB_1 8a4 MC_MIN_LENGTH_PPCS_1 8f4 MC_MIN_LENGTH_NVJPG_0 b3c MC_MIN_LENGTH_HDA_0 8c4 MC_MIN_LENGTH_NVENC_0 8d4 MC_MIN_LENGTH_SDMMC_0 b18 MC_MIN_LENGTH_ISP2B_1 934 MC_MIN_LENGTH_HC_1 8c0 MC_MIN_LENGTH_DC_3 b20 MC_MIN_LENGTH_AVPC_0 890 MC_MIN_LENGTH_VIC_0 940 MC_MIN_LENGTH_ISP2_0 91c MC_MIN_LENGTH_HC_0 8bc MC_MIN_LENGTH_SE_0 b38 MC_MIN_LENGTH_NVDEC_0 b30 MC_MIN_LENGTH_SATA_0 8fc MC_MIN_LENGTH_DC_0 894 MC_MIN_LENGTH_XUSB_1 92c MC_MIN_LENGTH_DC_2 89c MC_MIN_LENGTH_SDMMCAA_0 b14 MC_MIN_LENGTH_GPU_0 b04 MC_MIN_LENGTH_ETR_0 b44 MC_MIN_LENGTH_AFI_0 88c MC_MIN_LENGTH_PPCS_0 8f0 MC_MIN_LENGTH_ISP2_1 920 MC_MIN_LENGTH_XUSB_0 928 MC_MIN_LENGTH_MPCORE_0 8cc MC_MIN_LENGTH_TSECB_0 b48 MC_MIN_LENGTH_SDMMCA_0 b10 MC_MIN_LENGTH_GPU2_0 b40 MC_MIN_LENGTH_SDMMCAB_0 b1c MC_MIN_LENGTH_PTC_0 8f8 MC_EMEM_ARB_OVERRIDE_1 968 MC_VIDEO_PROTECT_GPU_OVERRIDE_0 984 MC_VIDEO_PROTECT_GPU_OVERRIDE_1 988 MC_EMEM_ARB_STATS_0 990 MC_EMEM_ARB_STATS_1 994 MC_MTS_CARVEOUT_BOM 9a0 MC_MTS_CARVEOUT_SIZE_MB 9a4 MC_MTS_CARVEOUT_ADR_HI 9a8 MC_MTS_CARVEOUT_REG_CTRL 9ac MC_ERR_MTS_STATUS 9b0 MC_ERR_MTS_ADR 9b4 MC_ERR_GENERALIZED_CARVEOUT_STATUS c00 MC_ERR_GENERALIZED_CARVEOUT_ADR c04 MC_SECURITY_CARVEOUT5_CLIENT_FORCE_INTERNAL_ACCESS2 d74 MC_SECURITY_CARVEOUT4_CFG0 cf8 MC_SECURITY_CARVEOUT4_CLIENT_ACCESS2 d10 MC_SECURITY_CARVEOUT4_SIZE_128KB d04 MC_SECURITY_CARVEOUT1_CLIENT_ACCESS4 c28 MC_SECURITY_CARVEOUT1_CLIENT_FORCE_INTERNAL_ACCESS1 c30 MC_SECURITY_CARVEOUT2_CLIENT_FORCE_INTERNAL_ACCESS4 c8c MC_SECURITY_CARVEOUT4_CLIENT_FORCE_INTERNAL_ACCESS0 d1c MC_SECURITY_CARVEOUT5_CLIENT_FORCE_INTERNAL_ACCESS1 d70 MC_SECURITY_CARVEOUT1_CLIENT_FORCE_INTERNAL_ACCESS0 c2c MC_SECURITY_CARVEOUT5_CLIENT_FORCE_INTERNAL_ACCESS4 d7c MC_SECURITY_CARVEOUT3_SIZE_128KB cb4 MC_SECURITY_CARVEOUT2_CFG0 c58 MC_SECURITY_CARVEOUT1_CFG0 c08 MC_SECURITY_CARVEOUT2_CLIENT_FORCE_INTERNAL_ACCESS2 c84 MC_SECURITY_CARVEOUT2_CLIENT_ACCESS0 c68 MC_SECURITY_CARVEOUT3_BOM cac MC_SECURITY_CARVEOUT2_CLIENT_ACCESS2 c70 MC_SECURITY_CARVEOUT5_CLIENT_FORCE_INTERNAL_ACCESS3 d78 MC_SECURITY_CARVEOUT2_CLIENT_FORCE_INTERNAL_ACCESS0 c7c MC_SECURITY_CARVEOUT4_CLIENT_ACCESS4 d18 MC_SECURITY_CARVEOUT3_CLIENT_ACCESS1 cbc MC_SECURITY_CARVEOUT1_CLIENT_FORCE_INTERNAL_ACCESS3 c38 MC_SECURITY_CARVEOUT1_CLIENT_FORCE_INTERNAL_ACCESS2 c34 MC_SECURITY_CARVEOUT3_CLIENT_ACCESS2 cc0 MC_SECURITY_CARVEOUT5_CLIENT_ACCESS2 d60 MC_SECURITY_CARVEOUT3_CFG0 ca8 MC_SECURITY_CARVEOUT3_CLIENT_ACCESS0 cb8 MC_SECURITY_CARVEOUT2_CLIENT_FORCE_INTERNAL_ACCESS3 c88 MC_SECURITY_CARVEOUT2_SIZE_128KB c64 MC_SECURITY_CARVEOUT5_BOM_HI d50 MC_SECURITY_CARVEOUT1_SIZE_128KB c14 MC_SECURITY_CARVEOUT4_CLIENT_ACCESS3 d14 MC_SECURITY_CARVEOUT1_BOM c0c MC_SECURITY_CARVEOUT4_CLIENT_FORCE_INTERNAL_ACCESS4 d2c MC_SECURITY_CARVEOUT5_CLIENT_ACCESS4 d68 MC_SECURITY_CARVEOUT3_CLIENT_ACCESS4 cc8 MC_SECURITY_CARVEOUT5_CLIENT_ACCESS0 d58 MC_SECURITY_CARVEOUT4_CLIENT_FORCE_INTERNAL_ACCESS2 d24 MC_SECURITY_CARVEOUT3_CLIENT_ACCESS3 cc4 MC_SECURITY_CARVEOUT2_CLIENT_ACCESS4 c78 MC_SECURITY_CARVEOUT1_CLIENT_ACCESS1 c1c MC_SECURITY_CARVEOUT1_CLIENT_ACCESS0 c18 MC_SECURITY_CARVEOUT4_CLIENT_FORCE_INTERNAL_ACCESS3 d28 MC_SECURITY_CARVEOUT5_CLIENT_ACCESS1 d5c MC_SECURITY_CARVEOUT3_BOM_HI cb0 MC_SECURITY_CARVEOUT3_CLIENT_FORCE_INTERNAL_ACCESS3 cd8 MC_SECURITY_CARVEOUT2_BOM_HI c60 MC_SECURITY_CARVEOUT4_BOM_HI d00 MC_SECURITY_CARVEOUT5_CLIENT_ACCESS3 d64 MC_SECURITY_CARVEOUT3_CLIENT_FORCE_INTERNAL_ACCESS4 cdc MC_SECURITY_CARVEOUT2_CLIENT_FORCE_INTERNAL_ACCESS1 c80 MC_SECURITY_CARVEOUT5_SIZE_128KB d54 MC_SECURITY_CARVEOUT4_CLIENT_FORCE_INTERNAL_ACCESS1 d20 MC_SECURITY_CARVEOUT3_CLIENT_FORCE_INTERNAL_ACCESS2 cd4 MC_SECURITY_CARVEOUT4_CLIENT_ACCESS1 d0c MC_SECURITY_CARVEOUT2_CLIENT_ACCESS3 c74 MC_SECURITY_CARVEOUT3_CLIENT_FORCE_INTERNAL_ACCESS0 ccc MC_SECURITY_CARVEOUT4_BOM cfc MC_SECURITY_CARVEOUT5_CFG0 d48 MC_SECURITY_CARVEOUT2_BOM c5c MC_SECURITY_CARVEOUT5_BOM d4c MC_SECURITY_CARVEOUT1_CLIENT_ACCESS3 c24 MC_SECURITY_CARVEOUT5_CLIENT_FORCE_INTERNAL_ACCESS0 d6c MC_SECURITY_CARVEOUT3_CLIENT_FORCE_INTERNAL_ACCESS1 cd0 MC_SECURITY_CARVEOUT1_BOM_HI c10 MC_SECURITY_CARVEOUT1_CLIENT_ACCESS2 c20 MC_SECURITY_CARVEOUT1_CLIENT_FORCE_INTERNAL_ACCESS4 c3c MC_SECURITY_CARVEOUT2_CLIENT_ACCESS1 c6c MC_SECURITY_CARVEOUT4_CLIENT_ACCESS0 d08 MC_ERR_APB_ASID_UPDATE_STATUS 9d0 MC_DA_CONFIG0 9dc ================================================ FILE: tools/smmu_payload.py ================================================ ''' Copyright (c) 2018 balika011 This program is free software; you can redistribute it and/or modify it under the terms and conditions of the GNU General Public License, version 2, as published by the Free Software Foundation. This program is distributed in the hope it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . ''' from keystone import * CODE = b''' LDR X1, =0x70019010 MOV X0, #0x1 STR W0, [X1] loop: IC IALLUIS DSB ISH B loop MOV X0, #0x0 STR W0, [X1] LDR X0, =0x4002B000 BR X0 ''' try: ks = Ks(KS_ARCH_ARM64, KS_MODE_LITTLE_ENDIAN) encoding, count = ks.asm(CODE, 0x0) print("%s = %s (number of statements: %u)" %(CODE, ', '.join([('0x%02x' % (x)) for x in encoding]), count)) except KsError as e: print("ERROR: %s" %e)