[ { "path": ".gitignore", "content": "*~\n*.o\namdcovc\n" }, { "path": "CONTRIBUTORS", "content": "CONTRIBUTORS list:\n\n-----------------------------------------\nRian Hunter - rianhunter - fixes and buffer overflow fix\nTit Petric - titpetric - fix ADL SDK include's paths\nJan Ziak - atomsymbol - report issue with ncurses on some Linux distro and fix proposal\n" }, { "path": "COPYING", "content": " GNU GENERAL PUBLIC LICENSE\n Version 2, June 1991\n\n Copyright (C) 1989, 1991 Free Software Foundation, Inc.,\n 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA\n Everyone is permitted to copy and distribute verbatim copies\n of this license document, but changing it is not allowed.\n\n Preamble\n\n The licenses for most software are designed to take away your\nfreedom to share and change it. By contrast, the GNU General Public\nLicense is intended to guarantee your freedom to share and change free\nsoftware--to make sure the software is free for all its users. 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Of course, the commands you use may\nbe called something other than `show w' and `show c'; they could even be\nmouse-clicks or menu items--whatever suits your program.\n\nYou should also get your employer (if you work as a programmer) or your\nschool, if any, to sign a \"copyright disclaimer\" for the program, if\nnecessary. Here is a sample; alter the names:\n\n Yoyodyne, Inc., hereby disclaims all copyright interest in the program\n `Gnomovision' (which makes passes at compilers) written by James Hacker.\n\n , 1 April 1989\n Ty Coon, President of Vice\n\nThis General Public License does not permit incorporating your program into\nproprietary programs. If your program is a subroutine library, you may\nconsider it more useful to permit linking proprietary applications with the\nlibrary. If this is what you want to do, use the GNU Lesser General\nPublic License instead of this License.\n" }, { "path": "Makefile", "content": "###\n# Makefile\n# Mateusz Szpakowski\n###\n\n# 1 - if you need AMD Catalyst support, 0 - if you won't\nHAVE_ADLSDK = 0\nHAVE_TERMINFO = 1\nCXX = g++\nCXXFLAGS = -Wall -O3 -std=c++11\nLDFLAGS = -Wall -O3 -std=c++11\n\nifeq ($(HAVE_TERMINFO),1)\nTINFOLIB = -lncurses -ltinfo\nTINFODEFINES = -DHAVE_TERMINFO=1\nelse\nTINFOLIB =\nTINFODEFINES =\nendif\n\nifeq ($(HAVE_ADLSDK),1)\nADLSDKDIR = /home/mat/docs/src/ADL_SDK9\nINCDIRS = -I$(ADLSDKDIR)/include\nDEFINES = -DHAVE_ADLSDK=1 $(TINFODEFINES)\n# for AMDGPU-PRO SLES/OpenSUSE\nLIBDIRS = -L/opt/amdgpu-pro/lib64\n# for AMDGPU-PRO Ubuntu\n#LIBDIRS = -L/opt/amdgpu-pro/lib/x86_64-linux-gnu\n#LIBDIRS =\nLIBS = -ldl -lpci -lm $(TINFOLIB) -lOpenCL -pthread\nelse\nLIBS = -ldl -lpci -lm $(TINFOLIB) -pthread\nLIBDIRS = \nINCDIRS = \nDEFINES = $(TINFODEFINES)\nendif\n\n.PHONY: all clean\n\nall: amdcovc\n\namdcovc: amdcovc.o\n\t$(CXX) $(LDFLAGS) $(LIBDIRS) -o $@ $^ $(LIBS)\n\n%.o: %.cpp\n\t$(CXX) $(CXXFLAGS) $(INCDIRS) $(DEFINES) -c -o $@ $<\n\nclean:\n\trm -f *.o amdcovc\n" }, { "path": "README.md", "content": "## AMDCOVC\n\nThis is program to control AMD Overdrive settings that is working if graphics cards\nare in console-mode. This program has been written to replace `amdconfig` utility\nand allow to overclock Radeon GPU's if no running X11 server. An `amdconfig`\nutility requires a running X11 server and X11 kept configuration to be working\ncorrectly. Thus, this program ease overclocking of Radeon GPU's under console environment\n(in SSH or Linux console). Nevertheless, this program can works under X11 environment.\n\n### WARNING\n\nThis program changes graphics card's clocks and voltages. This program can easily\nDAMAGE your hardware if it will be used CARELESSLY.\n\nBefore any setting of AMD Overdrive parameters (clocks, voltages, fan speeds),\nplease STOP ANY the GPU computations and the GPU renderings.\n\nYOU USE THIS PROGRAM AT YOUR OWN RISK! WE DO NOT GIVE ANY WARRANTY THAT PROGRAM\nWILL BE WORKING CORRECTLY IN ANY CASE! Read license before using this program.\n\n### DONATION\n\nIf you want to donate this project please send Bitcoins to following address:\n3M6z45UGXgimFs3QGQgbmqVZzK9s3RnfLL\n\n### Preliminary requirements\n\nProgram to work requires following things:\n\n* C++ environment compliant with C++11 standard (libraries)\n* pciutils library (libpci).\n\nOptional components that can be used by program for AMD Catalyst drivers:\n\n* OpenCL environment (to force initializing of devices)\n* libadlxx.so library (AMD ADL library)\n* ncurses library to coloring and bolding terminal outputs\n\nTo build program you need:\n\n* compiler compliant with C++11 standard\n* OpenCL headers (for AMD Catalyst drivers)\n* AMD ADL SDK (in developer.amd.com site) (for AMD Catalyst drivers)\n* pciutils developer package (includes)\n\n### Building program\n\nIf you want to use amdovc with AMD Catalyst drivers, you should enable ADLSDK\nby replacing line in Makefile:\n\n```\nHAVE_ADLSDK = 0\n```\n\nto \n\n```\nHAVE_ADLSDK = 1\n```\n\nand you should set correct place of the ADLSDK in Makefile in line:\n\n```\nADLSDKDIR = /home/mat/docs/src/ADL_SDK9\n```\n\nby replacing `/home/mat/docs/src/ADL_SDK9` by your correct path.\n\nYou can also disable or enable terminal output coloring and bolding by disabling TERMINFO\nin Makefile by setting HAVE_TERMINFO variable:\n\n```\nHAVE_TERMINFO = 0\n```\n\nNow. To build program, just type:\n\n```\nmake\n```\n\n### Invoking program\n\nNOTE for AMD Crimson/Catalyst drivers):\nIf no X11 server is running, then this program requires root privileges.\n\nNOTE for AMDGPU(-PRO) drivers:\nAny parameter settings requires root privileges.\n\nTo run program, just type:\n\n```\n./amdcovc\n```\n\nThis command prints current status of all adapters (graphics cards).\n\n```\n./amdcovc -v\n```\n\nPrints more informations about graphics cards.\n\nTo print help, type:\n\n```\n./amdcovc -?\n```\n\nTo set core clock and memory clock for first adapter, just type:\n\n```\n./amdcovc coreclk:0=1000 memclk:0=1200\n```\n\nSets core clock to 1000 MHz and memory clock to 1200 MHz.\n\n### Understanding info printed by program\n\nThe AMDCOVC by default prints following informations about graphics card:\n\n```\nAdapter 1: PCI 1:0:0: Pitcairn PRO [Radeon HD 7850 / R7 265 / R9 270 1024SP]\n Core: 1010 MHz, Mem: 1235 MHz, Vddc: 1.21 V, Load: 98%, Temp: 67 C, Fan: 54%\n Max Ranges: Core: 150 - 1050 MHz, Mem: 75 - 1450 MHz, Vddc: 0.8 - 1.225 V\n PerfLevels: Core: 300 - 1010 MHz, Mem: 150 - 1235 MHz, Vddc: 0.825 - 1.21 V\n```\n\nThe first line below adapter is current state of graphics card (core clock,\nmemory clock, voltage, load, temperature and fan speed). The new version add additonal\ninfo about device topology (for example `PCI 3:0:0`).\n\nThe `PerfLevels` is current performance level settings from lowest to highest.\nOfcourse, the highest performance levels is used while some computations/rendering.\nFirst level will be used in idle mode (if no work).\n\nThe `Max Ranges` is minimal and maximal possible settings for graphics card.\n\nFor AMDGPU mode, the AMDCOVC prints:\n\n```\nAdapter 0: PCI 1:0:0: Ellesmere [Radeon RX 470/480/570/570X/580/580X/590]\n Core: 1077 MHz, Mem: 1750 MHz, CoreOD: 0, MemOD: 0, Vddc: 1000 mV\n PerfCtrl: manual, Load: 100%, MemLoad: 23%\n Temp: 58°C, T4: 60°C, Fan: 41.9608%\n Power: 54.008 W (cap: 127 W)\n Core Clocks: 300 608 910 1077 1145 1191 1236 1290\n Memory Clocks: 300 1750\n```\n\nLikely as in AMD Catalyst mode, an AMDCOVC prints core and memory clocks,\nbut also prints core and memory overdrive factors (0-20). The `PerfCtrl` is\ncurrent performance control (can be low, manual or high). The line `Core Clocks`\ncontains all possible clocks for core. The line `Memory Clocks`\ncontains all possible clocks for memory.\n\nThe verbose informations contains:\n\n* current state of graphics (Current CoreClock,...)\n* minimal and maximal fan speed settings\n* minimal and maximal clocks\n* minimal and maximal voltages (only AMD Catalyst mode)\n* current performance level settings (only AMD Catalyst mode)\n* default performance level settings (only AMD Catalyst mode)\n\nalso, in AMDGPU mode:\n\n* list of possible core clocks\n* list of possible memory clocks\n\n### List of parameters\n\nList of parameters that can be set:\n\n* coreclk[:[ADAPTERS][:LEVEL]]=CLOCK - set core clock in MHz\n* memclk[:[ADAPTERS][:LEVEL]]=CLOCK - set memory clock in MHz\n* ccoreclk[:[ADAPTERS][:LEVEL]]=CLOCK - set current core clock in MHz (AMDGPU)\n* cmemclk[:[ADAPTERS][:LEVEL]]=CLOCK - set current memory clock in MHz (AMDGPU)\n* csocclk[:[ADAPTERS][:LEVEL]]=CLOCK - set current SOC clock in MHz (AMDGPU) (vega)\n* cdcefclk[:[ADAPTERS][:LEVEL]]=CLOCK - set current DCEF clock in MHz (AMDGPU) (vega)\n* cfclk[:[ADAPTERS][:LEVEL]]=CLOCK - set current F clock in MHz (AMDGPU) (vega2)\n* coreod[:[ADAPTERS][:LEVEL]]=PERCENT - set core clock in percents (AMDGPU)\n* memod[:[ADAPTERS][:LEVEL]]=PERCENT - set memory clock in perecents (AMDGPU)\n* corepl[:[ADAPTERS][:LEVEL]]=LEVEL - set current core performance level (AMDGPU)\n* mempl[:[ADAPTERS][:LEVEL]]=LEVEL - set current memory performance level (AMDGPU)\n* vcore[:[ADAPTERS][:LEVEL]]=VOLTAGE - set Vddc voltage in Volts\n* icoreclk[:ADAPTERS]=CLOCK - set core clock in MHz for idle level\n* imemclk[:ADAPTERS]=CLOCK - set memory clock in MHz for idle level\n* ivcore[:ADAPTERS]=VOLTAGE - set Vddc voltage in Volts for idle level\n* fanspeed[:[ADAPTERS][:THID]]=PERCENT - set fanspeed in percents\n\nExtra specifiers in parameters:\n\n* ADAPTERS - adapter (device) index list (default is 0) or `all` for all adapters\n* LEVEL - performance level (typically 0 or 1, default is last)\n* THID - thermal controller index (must be 0)\n\nThe adapter's list can be a single number (0), a single range (0-1) or list of\nnumbers and ranges, or `all` specifier (choose all adapters).\n\nYou can use 'default' in value place to set default value.\nFor fanspeed 'default' value force automatic speed setup.\n\nTo overclock graphic card on AMDGPU(-PRO) driver, can you use `coreod` and `memod`\nparameters. Parameters `coreclk` and `memclk` is available in AMDGPU(-PRO) driver mode.\n\nAMDCOVC under AMDGPU(-PRO) the `coreclk` and `memclk` paramters sets GPU core overdrive\nand a memory overdirve parameters which determines overclocking in percent.\nThese paramaters does not impact on current GPU and memory clocks, but these paramters\nimpact on their maximal values of clocks.\nTo underclock core and memory you should use `ccoreclk` and `cmemclk` parameters or\n`corepl` and `mempl` parameters. These parameters set current core and memory\nperformance level. The value default sets default automatic performance control.\n\n### List of options\n\nList of options:\n\n* -a, --adapters=LIST - print informations only for these adapters\n* -v, --verbose - print verbose informations\n* -w, --watch=SECONDS - update status on terminal for every SECONDS - replaces command 'watch'\n* --version - print version\n* -?, --help - print help\n\n### Text styling and coloring\n\nBy default AMDCOVC uses text coloring and styling (bolding) if the terminal/console\nable to display colors or text styles and if output is not the standard output/error.\nFollowing environment variables control whether coloring or text styling will be used:\n\n* AMDCOVC_NOCOLOR - disables coloring\n* AMDCOVC_NOBOLD - disables text bolding\n\nSet value of an environment variable to '1','on','y','true','t', 'on' or 'enable'\nto enable its function. For example just try by running AMDCOVC in following way:\n\n```\nAMDCOVC_NOCOLOR=1 ./amdcovc\n```\n" }, { "path": "amdcovc.cpp", "content": "/*\n * AMDCOVC - AMD Console OVerdrive control utility\n * Copyright (C) 2016 Mateusz Szpakowski\n *\n * This program is free software; you can redistribute it and/or modify\n * it under the terms of the GNU General Public License as published by\n * the Free Software Foundation; either version 2 of the License, or\n * (at your option) any later version.\n *\n * This program is distributed in the hope that it will be useful,\n * but WITHOUT ANY WARRANTY; without even the implied warranty of\n * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the\n * GNU General Public License for more details.\n *\n * You should have received a copy of the GNU General Public License along\n * with this program; if not, write to the Free Software Foundation, Inc.,\n * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.\n */\n\n#define _DEFAULT_SOURCE\n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#include \n#ifdef HAVE_ADLSDK\n#include \n#endif\nextern \"C\" {\n#include \n}\n#ifdef HAVE_TERMINFO\n#include \n#endif\n\n#ifdef __linux__\n#define LINUX 1\n#endif\n#ifdef HAVE_ADLSDK\n#include \n#endif\n\n#define AMDCOVC_VERSION \"0.4.1.2\"\n\nenum TermColor {\n BLACK, RED, GREEN, YELLOW, BLUE, MAGENTA, CYAN, WHITE\n};\n\nenum SaneColor {\n GOOD = TermColor::GREEN,\n WARNING = TermColor::YELLOW,\n BAD = TermColor::RED\n};\n\n#ifdef HAVE_TERMINFO\nstatic const char* tinfoClrScr = nullptr; // clear screen\nstatic const char* tinfoSetAF = nullptr; // set a foreground\nstatic const char* tinfoSetF = nullptr; // set foreground\nstatic const char* tinfoSgr0 = nullptr; // exit to std mode\nstatic const char* tinfoBold = nullptr; // bold mode\nstatic const char* tinfoOrigColors = nullptr;\nstatic const char* tinfoOrigPairs = nullptr;\nstatic bool tinfoNoColor = false;\nstatic bool tinfoNoBold = false;\n\nstatic void setTermNormal();\n\nstatic const char* envTrueStrings[] =\n{\n \"1\", \"y\", \"yes\", \"true\", \"t\", \"on\", \"enable\"\n};\n\nstatic bool parseBoolEnv(const char* strValue)\n{\n if (strValue == nullptr)\n return false;\n while(*strValue == ' ') strValue++;\n if (*strValue==0)\n return false;\n const char* strEnd = strValue;\n while(*strEnd != ' ' && *strEnd != 0) strEnd++;\n \n for (const char* trueStr: envTrueStrings)\n if (strncasecmp(trueStr, strValue, strEnd-strValue)==0)\n return true;\n return false;\n}\n\nstatic void initializeTermModes()\n{\n tinfoNoColor = parseBoolEnv(getenv(\"AMDCOVC_NOCOLOR\"));\n tinfoNoBold = parseBoolEnv(getenv(\"AMDCOVC_NOBOLD\"));\n if (!isatty(1))\n return; // if no terminal\n // setup terminal\n int err;\n if (setupterm(nullptr, 1, &err) != 0)\n return;\n // get tparams\n tinfoClrScr = tigetstr(\"clear\");\n tinfoSetAF = tigetstr(\"setaf\");\n tinfoSetF = tigetstr(\"setf\");\n tinfoBold = tigetstr(\"bold\");\n tinfoSgr0 = tigetstr(\"sgr0\");\n tinfoOrigColors = tigetstr(\"oc\");\n tinfoOrigPairs = tigetstr(\"op\");\n \n // initialize to standard terminal mode\n setTermNormal();\n}\n\nstatic void flushTermOutputs()\n{\n std::cout.flush();\n std::cerr.flush();\n}\n\nstatic void clearScreen()\n{\n if (tinfoClrScr != nullptr)\n {\n flushTermOutputs();\n putp(tinfoClrScr);\n }\n}\n\nstatic void setTermForeground(int color)\n{\n if (tinfoNoColor)\n return;\n if (tinfoSetAF != nullptr)\n {\n const char* p = tiparm(tinfoSetAF, color);\n flushTermOutputs();\n putp(p);\n }\n else if (tinfoSetF != nullptr)\n {\n const char* p = tiparm(tinfoSetF, (color&2) | ((color&4)>>2) | ((color&1)<<2));\n flushTermOutputs();\n putp(p);\n }\n // do nothing if other\n}\n\nstatic void setTermBold()\n{\n if (tinfoNoBold)\n return;\n if (tinfoBold != nullptr)\n {\n flushTermOutputs();\n putp(tinfoBold);\n }\n}\n\nstatic void setTermStdForeground()\n{\n if (tinfoOrigColors != nullptr || tinfoOrigPairs != nullptr)\n flushTermOutputs();\n if (tinfoOrigColors != nullptr)\n putp(tinfoOrigColors);\n if (tinfoOrigPairs != nullptr)\n putp(tinfoOrigPairs);\n}\n\nstatic void setTermNormal()\n{\n if (tinfoSgr0 != nullptr)\n {\n flushTermOutputs();\n putp(tinfoSgr0);\n }\n}\n#else\n// if no terminal support\nstatic void initializeTermModes()\n{ }\n\nstatic void clearScreen()\n{ }\n\nstatic void setTermForeground(int color)\n{ }\n\nstatic void setTermBold()\n{ }\n\nstatic void setTermStdForeground()\n{ }\n\nstatic void setTermNormal()\n{ }\n#endif\n\nstatic bool terminalUTF8 = false;\n\nstatic void beforePrintWatch(int watch)\n{\n clearScreen();\n time_t t;\n time(&t);\n std::cout << \"Watch every \" << watch << \" seconds. Time: \" << ctime(&t) << \"\\n\";\n}\n\nstatic void printTemperature(double temp)\n{\n if (temp < 75.0)\n setTermForeground(SaneColor::GOOD);\n else if (temp < 90.0)\n setTermForeground(SaneColor::WARNING);\n else\n setTermForeground(SaneColor::BAD);\n setTermBold();\n \n if (terminalUTF8)\n std::cout << temp << \"°C\";\n else\n std::cout << temp << \"*C\";\n \n setTermStdForeground();\n setTermNormal();\n}\n\nstatic void printFanSpeed(double fanspeed)\n{\n if (fanspeed < 60.0)\n setTermForeground(SaneColor::GOOD);\n else if (fanspeed < 80.0)\n setTermForeground(SaneColor::WARNING);\n else\n setTermForeground(SaneColor::BAD);\n setTermBold();\n \n std::cout << fanspeed << \"%\";\n \n setTermStdForeground();\n setTermNormal();\n}\n\n#ifdef HAVE_ADLSDK\n// Memory allocation function\nvoid* __stdcall ADL_Main_Memory_Alloc (int iSize)\n{\n void* lpBuffer = malloc (iSize);\n return lpBuffer;\n}\n\n// Optional Memory de-allocation function\nvoid __stdcall ADL_Main_Memory_Free (void** lpBuffer)\n{\n if (nullptr != *lpBuffer)\n {\n free (*lpBuffer);\n *lpBuffer = nullptr;\n }\n}\n#endif\n\nclass Error: public std::exception\n{\nprivate:\n std::string description;\npublic:\n explicit Error(const char* _description) : description(_description)\n { }\n Error(int error, const char* _description)\n {\n char errorBuf[32];\n snprintf(errorBuf, 32, \"code %d: \", error);\n description = errorBuf;\n description += _description;\n }\n virtual ~Error() noexcept\n { }\n const char* what() const noexcept\n { return description.c_str(); }\n};\n\n#ifdef HAVE_ADLSDK\nclass ATIADLHandle\n{\nprivate:\n typedef int (*ADL_ConsoleMode_FileDescriptor_Set_T)(int fileDescriptor);\n typedef int (*ADL_Main_Control_Create_T)(ADL_MAIN_MALLOC_CALLBACK, int);\n typedef int (*ADL_Main_Control_Destroy_T)();\n typedef int (*ADL_Adapter_NumberOfAdapters_Get_T)(int* numAdapters);\n typedef int (*ADL_Adapter_Active_Get_T)(int adapterIndex, int *status);\n typedef int (*ADL_Adapter_AdapterInfo_Get_T)(LPAdapterInfo info, int inputSize);\n \n typedef int (*ADL_Overdrive5_CurrentActivity_Get_T)(int adapterIndex,\n ADLPMActivity* activity);\n typedef int (*ADL_Overdrive5_Temperature_Get_T)(int adapterIndex, int thermalCtrlIndex,\n ADLTemperature *temperature);\n typedef int (*ADL_Overdrive5_FanSpeedInfo_Get_T)(int adapterIndex, int thermalCtrlIndex,\n ADLFanSpeedInfo* fanSpeedInfo);\n typedef int (*ADL_Overdrive5_FanSpeed_Get_T)(int adapterIndex, int thermalCtrlIndex,\n ADLFanSpeedValue* fanSpeedValue);\n typedef int (*ADL_Overdrive5_ODParameters_Get_T)(int adapterIndex,\n ADLODParameters* odParameters);\n typedef int (*ADL_Overdrive5_ODPerformanceLevels_Get_T)(int adapterIndex, int idefault,\n ADLODPerformanceLevels* odPerformanceLevels);\n \n typedef int (*ADL_Overdrive5_FanSpeed_Set_T)(int adapterIndex, int thermalCtrlIndex,\n ADLFanSpeedValue* fanSpeedValue);\n typedef int (*ADL_Overdrive5_FanSpeedToDefault_Set_T)(int adapterIndex,\n int thermalCtrlIndex);\n typedef int (*ADL_Overdrive5_ODPerformanceLevels_Set_T)(int adapterIndex,\n ADLODPerformanceLevels* odPerformanceLevels);\n \n void* handle;\n void* getSym(const char* name);\n \n ADL_Main_Control_Create_T pADL_Main_Control_Create;\n ADL_Main_Control_Destroy_T pADL_Main_Control_Destroy;\n ADL_ConsoleMode_FileDescriptor_Set_T pADL_ConsoleMode_FileDescriptor_Set;\n ADL_Adapter_NumberOfAdapters_Get_T pADL_Adapter_NumberOfAdapters_Get;\n ADL_Adapter_Active_Get_T pADL_Adapter_Active_Get;\n ADL_Adapter_AdapterInfo_Get_T pADL_Adapter_AdapterInfo_Get;\n ADL_Overdrive5_CurrentActivity_Get_T pADL_Overdrive5_CurrentActivity_Get;\n ADL_Overdrive5_Temperature_Get_T pADL_Overdrive5_Temperature_Get;\n ADL_Overdrive5_FanSpeedInfo_Get_T pADL_Overdrive5_FanSpeedInfo_Get;\n ADL_Overdrive5_FanSpeed_Get_T pADL_Overdrive5_FanSpeed_Get;\n ADL_Overdrive5_ODParameters_Get_T pADL_Overdrive5_ODParameters_Get;\n ADL_Overdrive5_ODPerformanceLevels_Get_T pADL_Overdrive5_ODPerformanceLevels_Get;\n ADL_Overdrive5_FanSpeed_Set_T pADL_Overdrive5_FanSpeed_Set;\n ADL_Overdrive5_FanSpeedToDefault_Set_T pADL_Overdrive5_FanSpeedToDefault_Set;\n ADL_Overdrive5_ODPerformanceLevels_Set_T pADL_Overdrive5_ODPerformanceLevels_Set;\n \npublic:\n ATIADLHandle();\n bool open();\n ~ATIADLHandle();\n \n void Main_Control_Create(ADL_MAIN_MALLOC_CALLBACK callback,\n int iEnumConnectedAdapters) const;\n \n void Main_Control_Destroy() const;\n void ConsoleMode_FileDescriptor_Set(int fileDescriptor) const;\n void Adapter_NumberOfAdapters_Get(int* number) const;\n void Adapter_Active_Get(int adapterIndex, int* status) const;\n void Adapter_Info_Get(LPAdapterInfo info, int inputSize) const;\n void Overdrive5_CurrentActivity_Get(int adapterIndex, ADLPMActivity* activity) const;\n void Overdrive5_Temperature_Get(int adapterIndex, int thermalCtrlIndex,\n ADLTemperature* temperature) const;\n void Overdrive5_FanSpeedInfo_Get(int adapterIndex, int thermalCtrlIndex,\n ADLFanSpeedInfo* fanSpeedInfo) const;\n void Overdrive5_FanSpeed_Get(int adapterIndex, int thermalCtrlIndex,\n ADLFanSpeedValue* fanSpeedValue) const;\n void Overdrive5_ODParameters_Get(int adapterIndex, ADLODParameters* odParameters) const;\n void Overdrive5_ODPerformanceLevels_Get(int adapterIndex, int idefault,\n ADLODPerformanceLevels* odPerformanceLevels) const;\n void Overdrive5_FanSpeed_Set(int adapterIndex, int thermalCtrlIndex,\n ADLFanSpeedValue* fanSpeedValue) const;\n void Overdrive5_FanSpeedToDefault_Set(int adapterIndex, int thermalCtrlIndex) const;\n void Overdrive5_ODPerformanceLevels_Set(int adapterIndex,\n ADLODPerformanceLevels* odPerformanceLevels) const;\n};\n\nATIADLHandle::ATIADLHandle() \n : handle(nullptr),\n pADL_Main_Control_Create(nullptr), pADL_Main_Control_Destroy(nullptr),\n pADL_ConsoleMode_FileDescriptor_Set(nullptr),\n pADL_Adapter_NumberOfAdapters_Get(nullptr), pADL_Adapter_Active_Get(nullptr),\n pADL_Adapter_AdapterInfo_Get(nullptr), pADL_Overdrive5_CurrentActivity_Get(nullptr),\n pADL_Overdrive5_Temperature_Get(nullptr), pADL_Overdrive5_FanSpeedInfo_Get(nullptr),\n pADL_Overdrive5_FanSpeed_Get(nullptr), pADL_Overdrive5_ODParameters_Get(nullptr),\n pADL_Overdrive5_ODPerformanceLevels_Get(nullptr),\n pADL_Overdrive5_FanSpeed_Set(nullptr),\n pADL_Overdrive5_FanSpeedToDefault_Set(nullptr),\n pADL_Overdrive5_ODPerformanceLevels_Set(nullptr)\n{ }\n\nbool ATIADLHandle::open()\ntry\n{\n dlerror(); // clear old errors\n handle = dlopen(\"libatiadlxx.so\", RTLD_LAZY|RTLD_GLOBAL);\n if (handle == nullptr)\n return false;\n \n pADL_Main_Control_Create = (ADL_Main_Control_Create_T)\n getSym(\"ADL_Main_Control_Create\");\n pADL_Main_Control_Destroy = (ADL_Main_Control_Destroy_T)\n getSym(\"ADL_Main_Control_Destroy\");\n pADL_ConsoleMode_FileDescriptor_Set = (ADL_ConsoleMode_FileDescriptor_Set_T)\n getSym(\"ADL_ConsoleMode_FileDescriptor_Set\");\n pADL_Adapter_NumberOfAdapters_Get = (ADL_Adapter_NumberOfAdapters_Get_T)\n getSym(\"ADL_Adapter_NumberOfAdapters_Get\");\n pADL_Adapter_Active_Get = (ADL_Adapter_Active_Get_T)\n getSym(\"ADL_Adapter_Active_Get\");\n pADL_Adapter_AdapterInfo_Get = (ADL_Adapter_AdapterInfo_Get_T)\n getSym(\"ADL_Adapter_AdapterInfo_Get\");\n pADL_Overdrive5_CurrentActivity_Get = (ADL_Overdrive5_CurrentActivity_Get_T)\n getSym(\"ADL_Overdrive5_CurrentActivity_Get\");\n pADL_Overdrive5_Temperature_Get = (ADL_Overdrive5_Temperature_Get_T)\n getSym(\"ADL_Overdrive5_Temperature_Get\");\n pADL_Overdrive5_FanSpeedInfo_Get = (ADL_Overdrive5_FanSpeedInfo_Get_T)\n getSym(\"ADL_Overdrive5_FanSpeedInfo_Get\");\n pADL_Overdrive5_FanSpeed_Get = (ADL_Overdrive5_FanSpeed_Get_T)\n getSym(\"ADL_Overdrive5_FanSpeed_Get\");\n pADL_Overdrive5_ODParameters_Get = (ADL_Overdrive5_ODParameters_Get_T)\n getSym(\"ADL_Overdrive5_ODParameters_Get\");\n pADL_Overdrive5_ODPerformanceLevels_Get = (ADL_Overdrive5_ODPerformanceLevels_Get_T)\n getSym(\"ADL_Overdrive5_ODPerformanceLevels_Get\");\n pADL_Overdrive5_FanSpeed_Set = (ADL_Overdrive5_FanSpeed_Set_T)\n getSym(\"ADL_Overdrive5_FanSpeed_Set\");\n pADL_Overdrive5_FanSpeedToDefault_Set = (ADL_Overdrive5_FanSpeedToDefault_Set_T)\n getSym(\"ADL_Overdrive5_FanSpeedToDefault_Set\");\n pADL_Overdrive5_ODPerformanceLevels_Set = (ADL_Overdrive5_ODPerformanceLevels_Set_T)\n getSym(\"ADL_Overdrive5_ODPerformanceLevels_Set\");\n return true;\n}\ncatch(...)\n{\n if (handle != nullptr)\n {\n dlerror(); // clear old errors\n if (dlclose(handle)) // if closing failed\n {\n handle = nullptr;\n throw Error(dlerror());\n }\n handle = nullptr;\n }\n throw;\n}\n\nATIADLHandle::~ATIADLHandle()\n{\n if (handle != nullptr)\n {\n dlerror();\n if (dlclose(handle))\n {\n handle = nullptr;\n throw Error(dlerror());\n }\n handle = nullptr;\n }\n}\n\nvoid* ATIADLHandle::getSym(const char* symbolName)\n{\n void* symbol = nullptr;\n dlerror(); // clear old errors\n symbol = dlsym(handle, symbolName);\n const char* error = dlerror();\n if (symbol == nullptr && error != nullptr)\n throw Error(error);\n return symbol;\n}\n\nvoid ATIADLHandle::Main_Control_Create(ADL_MAIN_MALLOC_CALLBACK callback,\n int iEnumConnectedAdapters) const\n{\n int error = pADL_Main_Control_Create(callback, iEnumConnectedAdapters);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Main_Control_Create error\");\n}\n\nvoid ATIADLHandle::Main_Control_Destroy() const\n{\n int error = pADL_Main_Control_Destroy();\n if (error != ADL_OK)\n throw Error(error, \"ADL_Main_Control_Destroy error\");\n}\n\nvoid ATIADLHandle::ConsoleMode_FileDescriptor_Set(int fileDescriptor) const\n{\n int error = pADL_ConsoleMode_FileDescriptor_Set(fileDescriptor);\n if (error != ADL_OK)\n throw Error(error, \"ADL_ConsoleMode_FileDescriptor_Set error\");\n}\n\nvoid ATIADLHandle::Adapter_NumberOfAdapters_Get(int* number) const\n{\n int error = pADL_Adapter_NumberOfAdapters_Get(number);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Adapter_NumberOfAdapters_Get error\");\n}\n\nvoid ATIADLHandle::Adapter_Active_Get(int adapterIndex, int* status) const\n{\n int error = pADL_Adapter_Active_Get(adapterIndex, status);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Adapter_Active_Get error\");\n}\n\nvoid ATIADLHandle::Adapter_Info_Get(LPAdapterInfo info, int inputSize) const\n{\n int error = pADL_Adapter_AdapterInfo_Get(info, inputSize);\n if (error != ADL_OK)\n throw Error(error, \"ADL_AdapterInfo_Get error\");\n}\n\nvoid ATIADLHandle::Overdrive5_CurrentActivity_Get(int adapterIndex,\n ADLPMActivity* activity) const\n{\n int error = pADL_Overdrive5_CurrentActivity_Get(adapterIndex, activity);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Overdrive5_CurrentActivity_Get error\");\n}\n\nvoid ATIADLHandle::Overdrive5_Temperature_Get(int adapterIndex, int thermalCtrlIndex,\n ADLTemperature *temperature) const\n{\n int error = pADL_Overdrive5_Temperature_Get(adapterIndex, thermalCtrlIndex,\n temperature);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Overdrive5_Temperature_Get error\");\n}\n\nvoid ATIADLHandle::Overdrive5_FanSpeedInfo_Get(int adapterIndex, int thermalCtrlIndex,\n ADLFanSpeedInfo* fanSpeedInfo) const\n{\n int error = pADL_Overdrive5_FanSpeedInfo_Get(adapterIndex, thermalCtrlIndex,\n fanSpeedInfo);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Overdrive5_FanSpeedInfo_Get error\");\n}\n\nvoid ATIADLHandle::Overdrive5_FanSpeed_Get(int adapterIndex, int thermalCtrlIndex,\n ADLFanSpeedValue* fanSpeedValue) const\n{\n int error = pADL_Overdrive5_FanSpeed_Get(adapterIndex, thermalCtrlIndex,\n fanSpeedValue);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Overdrive5_FanSpeed_Get error\");\n}\n\nvoid ATIADLHandle::Overdrive5_ODParameters_Get(int adapterIndex,\n ADLODParameters* odParameters) const\n{\n int error = pADL_Overdrive5_ODParameters_Get(adapterIndex, odParameters);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Overdrive5_ODParameters_Get error\");\n}\n\nvoid ATIADLHandle::Overdrive5_ODPerformanceLevels_Get(int adapterIndex, int idefault,\n ADLODPerformanceLevels* odPerformanceLevels) const\n{\n int error = pADL_Overdrive5_ODPerformanceLevels_Get(adapterIndex, idefault,\n odPerformanceLevels);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Overdrive5_ODPerformanceLevels_Get error\");\n}\n\nvoid ATIADLHandle::Overdrive5_FanSpeed_Set(int adapterIndex, int thermalCtrlIndex,\n ADLFanSpeedValue* fanSpeedValue) const\n{\n int error = pADL_Overdrive5_FanSpeed_Set(adapterIndex, thermalCtrlIndex,\n fanSpeedValue);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Overdrive5_FanSpeed_Set error\");\n}\n\nvoid ATIADLHandle::Overdrive5_FanSpeedToDefault_Set(int adapterIndex,\n int thermalCtrlIndex) const\n{\n int error = pADL_Overdrive5_FanSpeedToDefault_Set(adapterIndex, thermalCtrlIndex);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Overdrive5_FanSpeedToDefault_Set error\");\n}\n\nvoid ATIADLHandle::Overdrive5_ODPerformanceLevels_Set(int adapterIndex,\n ADLODPerformanceLevels* odPerformanceLevels) const\n{\n int error = pADL_Overdrive5_ODPerformanceLevels_Set(adapterIndex, odPerformanceLevels);\n if (error != ADL_OK)\n throw Error(error, \"ADL_Overdrive5_ODPerformanceLevels_Set error\");\n}\n\nclass ADLMainControl\n{\nprivate:\n const ATIADLHandle& handle;\n int fd;\n bool mainControlCreated;\n bool withX;\npublic:\n explicit ADLMainControl(const ATIADLHandle& handle, int devId);\n ~ADLMainControl();\n \n int getAdaptersNum() const;\n bool isAdapterActive(int adapterIndex) const;\n void getAdapterInfo(AdapterInfo* infos) const;\n void getCurrentActivity(int adapterIndex, ADLPMActivity& activity) const;\n int getTemperature(int adapterIndex, int thermalCtrlIndex) const;\n void getFanSpeedInfo(int adapterIndex, int thermalCtrlIndex,\n ADLFanSpeedInfo& info) const;\n int getFanSpeed(int adapterIndex, int thermalCtrlIndex) const;\n void getODParameters(int adapterIndex, ADLODParameters& odParameters) const;\n void getODPerformanceLevels(int adapterIndex, bool isDefault, int perfLevelsNum,\n ADLODPerformanceLevel* perfLevels) const;\n void setFanSpeed(int adapterIndex, int thermalCtrlIndex, int fanSpeed) const;\n void setFanSpeedToDefault(int adapterIndex, int thermalCtrlIndex) const;\n void setODPerformanceLevels(int adapterIndex, int perfLevelsNum,\n ADLODPerformanceLevel* perfLevels) const;\n};\n\nADLMainControl::ADLMainControl(const ATIADLHandle& _handle, int devId)\ntry : handle(_handle), fd(-1), mainControlCreated(false), withX(true)\n{\n try\n { handle.Main_Control_Create(ADL_Main_Memory_Alloc, 0); }\n catch(const Error& error)\n {\n if (getuid()!=0)\n std::cout << \"IMPORTANT: This program requires root privileges to be \"\n \"working correctly\\nif no running X11 server.\" << std::endl;\n \n withX = false;\n char devName[64];\n snprintf(devName, 64, \"/dev/ati/card%u\", devId);\n errno = 0;\n fd = open(devName, O_RDWR);\n if (fd==-1)\n {\n cl_uint platformsNum;\n /// force initializing these stupid devices\n clGetPlatformIDs(0, nullptr, &platformsNum);\n errno = 0;\n fd = open(devName, O_RDWR);\n if (fd==-1)\n throw Error(errno, \"Can't open GPU device\");\n }\n \n handle.ConsoleMode_FileDescriptor_Set(fd);\n handle.Main_Control_Create(ADL_Main_Memory_Alloc, 0);\n }\n}\ncatch(...)\n{\n if (mainControlCreated)\n handle.Main_Control_Destroy();\n if (fd!=-1)\n close(fd);\n throw;\n}\n\nADLMainControl::~ADLMainControl()\n{\n if (fd!=-1)\n close(fd);\n}\n\nint ADLMainControl::getAdaptersNum() const\n{\n int num = 0;\n handle.Adapter_NumberOfAdapters_Get(&num);\n return num;\n}\n\nbool ADLMainControl::isAdapterActive(int adapterIndex) const\n{\n if (!withX) return true;\n int status = 0;\n handle.Adapter_Active_Get(adapterIndex, &status);\n return status == ADL_TRUE;\n}\n\nvoid ADLMainControl::getAdapterInfo(AdapterInfo* infos) const\n{\n int num;\n handle.Adapter_NumberOfAdapters_Get(&num);\n for (int i = 0; i < num; i++)\n infos[i].iSize = sizeof(AdapterInfo);\n handle.Adapter_Info_Get(infos, num*sizeof(AdapterInfo));\n}\n\nvoid ADLMainControl::getCurrentActivity(int adapterIndex, ADLPMActivity& activity) const\n{\n activity.iSize = sizeof(ADLPMActivity);\n handle.Overdrive5_CurrentActivity_Get(adapterIndex, &activity);\n}\n\nint ADLMainControl::getTemperature(int adapterIndex, int thermalCtrlIndex) const\n{\n ADLTemperature temp;\n temp.iSize = sizeof(ADLTemperature);\n handle.Overdrive5_Temperature_Get(adapterIndex, thermalCtrlIndex, &temp);\n return temp.iTemperature;\n}\n\nvoid ADLMainControl::getFanSpeedInfo(int adapterIndex, int thermalCtrlIndex,\n ADLFanSpeedInfo& info) const\n{\n info.iSize = sizeof(ADLFanSpeedInfo);\n handle.Overdrive5_FanSpeedInfo_Get(adapterIndex, thermalCtrlIndex, &info);\n}\n\nint ADLMainControl::getFanSpeed(int adapterIndex, int thermalCtrlIndex) const\n{\n ADLFanSpeedValue fanSpeedValue;\n fanSpeedValue.iSpeedType = ADL_DL_FANCTRL_SPEED_TYPE_PERCENT;\n fanSpeedValue.iFlags = 0;\n fanSpeedValue.iSize = sizeof(ADLFanSpeedValue);\n handle.Overdrive5_FanSpeed_Get(adapterIndex, thermalCtrlIndex, &fanSpeedValue);\n return fanSpeedValue.iFanSpeed;\n}\n\nvoid ADLMainControl::getODParameters(int adapterIndex, ADLODParameters& odParameters) const\n{\n odParameters.iSize = sizeof(ADLODParameters);\n handle.Overdrive5_ODParameters_Get(adapterIndex, &odParameters);\n}\n\nvoid ADLMainControl::getODPerformanceLevels(int adapterIndex, bool isDefault,\n int perfLevelsNum, ADLODPerformanceLevel* perfLevels) const\n{\n const size_t odPLBufSize = sizeof(ADLODPerformanceLevels)+\n sizeof(ADLODPerformanceLevel)*(perfLevelsNum-1);\n std::unique_ptr odPlBuf(new char[odPLBufSize]);\n ADLODPerformanceLevels* odPLevels = (ADLODPerformanceLevels*)odPlBuf.get();\n odPLevels->iSize = odPLBufSize;\n handle.Overdrive5_ODPerformanceLevels_Get(adapterIndex, isDefault, odPLevels);\n std::copy(odPLevels->aLevels, odPLevels->aLevels+perfLevelsNum, perfLevels);\n}\n\nvoid ADLMainControl::setFanSpeed(int adapterIndex, int thermalCtrlIndex, int fanSpeed) const\n{\n ADLFanSpeedValue fanSpeedValue;\n fanSpeedValue.iSize = sizeof(ADLFanSpeedValue);\n fanSpeedValue.iSpeedType = ADL_DL_FANCTRL_SPEED_TYPE_PERCENT;\n fanSpeedValue.iFanSpeed = fanSpeed;\n handle.Overdrive5_FanSpeed_Set(adapterIndex, thermalCtrlIndex, &fanSpeedValue);\n}\n\nvoid ADLMainControl::setFanSpeedToDefault(int adapterIndex, int thermalCtrlIndex) const\n{\n handle.Overdrive5_FanSpeedToDefault_Set(adapterIndex, thermalCtrlIndex);\n}\n\nvoid ADLMainControl::setODPerformanceLevels(int adapterIndex, int perfLevelsNum,\n ADLODPerformanceLevel* perfLevels) const\n{\n const size_t odPLBufSize = sizeof(ADLODPerformanceLevels)+\n sizeof(ADLODPerformanceLevel)*(perfLevelsNum-1);\n std::unique_ptr odPlBuf(new char[odPLBufSize]);\n ADLODPerformanceLevels* odPLevels = (ADLODPerformanceLevels*)odPlBuf.get();\n odPLevels->iSize = odPLBufSize;\n odPLevels->iReserved = 0;\n std::copy(perfLevels, perfLevels+perfLevelsNum, odPLevels->aLevels);\n handle.Overdrive5_ODPerformanceLevels_Set(adapterIndex, odPLevels);\n}\n#endif\n\n/*\n * AMD-GPU infos\n */\n\nenum class AMDGPUPerfControl {\n AUTO = 0,\n LOW,\n MANUAL,\n HIGH,\n UNKNOWN\n};\n\nstruct AMDGPUAdapterInfo\n{\n unsigned int busNo;\n unsigned int deviceNo;\n unsigned int funcNo;\n unsigned int vendorId;\n unsigned int deviceId;\n std::string name;\n std::vector memoryClocks;\n std::vector coreClocks;\n std::vector socClocks;\n std::vector dcefClocks;\n std::vector fClocks;\n unsigned int minFanSpeed;\n unsigned int maxFanSpeed;\n bool defaultFanSpeed;\n unsigned int fanSpeed;\n unsigned int coreClock;\n unsigned int memoryClock;\n unsigned int socClock;\n unsigned int dcefClock;\n unsigned int fClock;\n unsigned int coreOD;\n unsigned int memoryOD;\n unsigned int voltage;\n AMDGPUPerfControl perfControl;\n unsigned int temperature;\n unsigned int temperature2;\n unsigned int temperature3;\n unsigned int temperature4;\n std::string tempLabel;\n std::string temp2Label;\n std::string temp3Label;\n std::string temp4Label;\n unsigned int tempCritical;\n unsigned int power;\n unsigned int powerCap;\n unsigned int busLanes;\n unsigned int busSpeed;\n int gpuLoad;\n int memLoad;\n unsigned int extraTemperatures;\n};\n\nstatic pci_access* pciAccess = nullptr;\nstatic pci_filter pciFilter;\n\nstatic void pciAccessError(char* msg, ...)\n{\n va_list ap;\n va_start(ap, msg);\n vprintf(msg, ap);\n va_end(ap);\n exit(-1);\n}\n\nstatic void initializePCIAccess()\n{\n pciAccess = pci_alloc();\n if (pciAccess==nullptr)\n throw Error(\"Can't allocate PCIAccess\");\n pciAccess->error = pciAccessError;\n pci_filter_init(pciAccess, &pciFilter);\n pci_init(pciAccess);\n pci_scan_bus(pciAccess);\n}\n\n#ifdef HAVE_ADLSDK\nstatic void getFromPCI(int deviceIndex, AdapterInfo& adapterInfo)\n{\n if (pciAccess==nullptr)\n initializePCIAccess();\n char fnameBuf[64];\n snprintf(fnameBuf, 64, \"/proc/ati/%u/name\", deviceIndex);\n std::string tmp, pciBusStr;\n {\n std::ifstream procNameIs(fnameBuf);\n procNameIs.exceptions(std::ios::badbit|std::ios::failbit);\n procNameIs >> tmp >> tmp >> pciBusStr;\n }\n unsigned int busNum, devNum, funcNum;\n if (pciBusStr.size() < 9)\n throw Error(\"Wrong PCI Bus string\");\n char* pciStrPtr = (char*)pciBusStr.data()+4;\n char* pciStrPtrNew;\n errno = 0;\n busNum = strtoul(pciStrPtr, &pciStrPtrNew, 10);\n if (errno!=0 || pciStrPtr==pciStrPtrNew)\n throw Error(errno, \"Can't parse BusID\");\n pciStrPtr = pciStrPtrNew+1;\n errno = 0;\n devNum = strtoul(pciStrPtr, &pciStrPtrNew, 10);\n if (errno!=0 || pciStrPtr==pciStrPtrNew)\n throw Error(errno, \"Can't parse DevID\");\n pciStrPtr = pciStrPtrNew+1;\n errno = 0;\n funcNum = strtoul(pciStrPtr, &pciStrPtrNew, 10);\n if (errno!=0 || pciStrPtr==pciStrPtrNew)\n throw Error(errno, \"Can't parse FuncID\");\n pci_dev* dev = pciAccess->devices;\n for (; dev!=nullptr; dev=dev->next)\n if (dev->bus==busNum && dev->dev==devNum && dev->func==funcNum)\n {\n char deviceBuf[128];\n deviceBuf[0] = 0;\n pci_lookup_name(pciAccess, deviceBuf, 128, PCI_LOOKUP_DEVICE,\n dev->vendor_id, dev->device_id);\n adapterInfo.iBusNumber = busNum;\n adapterInfo.iDeviceNumber = devNum;\n adapterInfo.iFunctionNumber = funcNum;\n adapterInfo.iVendorID = dev->vendor_id;\n strcpy(adapterInfo.strAdapterName, deviceBuf);\n break;\n }\n}\n#endif\n\n/* AMDGPU code */\n\nstatic void getFromPCI_AMDGPU(const char* rlink, AMDGPUAdapterInfo& adapterInfo)\n{\n if (pciAccess==nullptr)\n initializePCIAccess();\n unsigned int busNum, devNum, funcNum;\n size_t rlinkLen = strlen(rlink);\n if (rlinkLen < 18 || ::strncmp(rlink, \"../../../\", 9)!=0)\n throw Error(\"Wrong PCI Bus string\");\n char* pciStrPtr = (char*)rlink+9;\n char* pciStrPtrNew;\n while (isdigit(*pciStrPtr)) pciStrPtr++;\n if (*pciStrPtr!=':')\n throw Error(errno, \"Can't parse PCI location\");\n pciStrPtr++;\n errno = 0;\n busNum = strtoul(pciStrPtr, &pciStrPtrNew, 16);\n if (errno!=0 || pciStrPtr==pciStrPtrNew)\n throw Error(errno, \"Can't parse BusID\");\n pciStrPtr = pciStrPtrNew+1;\n errno = 0;\n devNum = strtoul(pciStrPtr, &pciStrPtrNew, 16);\n if (errno!=0 || pciStrPtr==pciStrPtrNew)\n throw Error(errno, \"Can't parse DevID\");\n pciStrPtr = pciStrPtrNew+1;\n errno = 0;\n funcNum = strtoul(pciStrPtr, &pciStrPtrNew, 16);\n if (errno!=0 || pciStrPtr==pciStrPtrNew)\n throw Error(errno, \"Can't parse FuncID\");\n pci_dev* dev = pciAccess->devices;\n for (; dev!=nullptr; dev=dev->next)\n if (dev->bus==busNum && dev->dev==devNum && dev->func==funcNum)\n {\n char deviceBuf[128];\n deviceBuf[0] = 0;\n pci_lookup_name(pciAccess, deviceBuf, 128, PCI_LOOKUP_DEVICE,\n dev->vendor_id, dev->device_id);\n adapterInfo.busNo = busNum;\n adapterInfo.deviceNo = devNum;\n adapterInfo.funcNo = funcNum;\n adapterInfo.vendorId = dev->vendor_id;\n adapterInfo.deviceId = dev->device_id;\n adapterInfo.name = deviceBuf;\n break;\n }\n}\n\n\nclass AMDGPUAdapterHandle\n{\nprivate:\n unsigned int totDeviceCount;\n std::vector amdDevices;\n std::vector hwmonIndices;\npublic:\n AMDGPUAdapterHandle();\n unsigned int getAdaptersNum() const\n { return amdDevices.size(); }\n AMDGPUAdapterInfo parseAdapterInfo(int index);\n \n void setFanSpeed(int index, int fanSpeed) const;\n void setFanSpeedToDefault(int adapterIndex) const;\n void setOverdriveCoreParam(int adapterIndex, unsigned int coreOD) const;\n void setOverdriveMemoryParam(int adapterIndex, unsigned int memoryOD) const;\n void setPerfCoreLevel(int adapterIndex, unsigned int corePLevel) const;\n void setPerfMemoryLevel(int adapterIndex, unsigned int memoryPLevel) const;\n void setPerfSOCLevel(int adapterIndex, unsigned int socPLevel) const;\n void setPerfDCEFLevel(int adapterIndex, unsigned int dcefPLevel) const;\n void setPerfFLevel(int adapterIndex, unsigned int fPLevel) const;\n void setPerformanceControl(int adapterIndex, AMDGPUPerfControl perfControl) const;\n void getPerformanceClocks(int adapterIndex, unsigned int& coreClock,\n unsigned int& memoryClock) const;\n};\n\nstatic bool getFileContentValue(const char* filename, unsigned int& value)\ntry\n{\n value = 0;\n std::ifstream ifs(filename, std::ios::binary);\n ifs.exceptions(std::ios::failbit);\n std::string line;\n std::getline(ifs, line);\n char* p = (char*)line.c_str();\n char* p2;\n errno = 0;\n value = strtoul(p, &p2, 0);\n if (errno != 0)\n throw Error(\"Can't parse value from file\");\n return (p != p2);\n}\ncatch(const std::exception& ex)\n{\n return false;\n}\n\nstatic bool getFileContentValue(const char* filename, int& value)\ntry\n{\n value = -1;\n std::ifstream ifs(filename, std::ios::binary);\n ifs.exceptions(std::ios::failbit);\n std::string line;\n std::getline(ifs, line);\n char* p = (char*)line.c_str();\n char* p2;\n errno = 0;\n value = strtol(p, &p2, 0);\n if (errno != 0)\n throw Error(\"Can't parse value from file\");\n return (p != p2);\n}\ncatch(const std::exception& ex)\n{\n return false;\n}\n\nstatic bool getFileContentString(const char* filename, std::string& str)\ntry\n{\n std::ifstream ifs(filename, std::ios::binary);\n ifs.exceptions(std::ios::failbit);\n str.clear();\n std::getline(ifs, str);\n return true;\n}\ncatch(const std::exception& ex)\n{\n return false;\n}\n\nstatic void writeFileContentValue(const char* filename, unsigned int value)\n{\n if (access(filename, F_OK|W_OK))\n throw Error((std::string(\"Can't write file '\")+filename+\"'\").c_str());\n std::ofstream ofs(filename, std::ios::binary);\n try\n {\n ofs.exceptions(std::ios::failbit);\n ofs << value << std::endl;\n }\n catch(const std::exception& ex)\n {\n throw Error((std::string(\"Can't write file '\")+filename+\"'\").c_str());\n }\n}\n\nstatic void writeFileContent(const char* filename, const char* content)\n{\n if (access(filename, F_OK|W_OK))\n throw Error((std::string(\"Can't write file '\")+filename+\"'\").c_str());\n std::ofstream ofs(filename, std::ios::binary);\n try\n {\n ofs.exceptions(std::ios::failbit);\n ofs << content << std::endl;\n }\n catch(const std::exception& ex)\n {\n throw Error((std::string(\"Can't write file '\")+filename+\"'\").c_str());\n }\n}\n\nAMDGPUAdapterHandle::AMDGPUAdapterHandle()\n : totDeviceCount(0)\n{\n errno = 0;\n DIR* dirp = opendir(\"/sys/class/drm\");\n if (dirp == nullptr)\n throw Error(errno, \"Can't open 'sys/class/drm' directory\");\n errno = 0;\n struct dirent* dire;\n while ((dire = readdir(dirp)) != nullptr)\n {\n if (::strncmp(dire->d_name, \"card\", 4) != 0)\n continue; // is not card directory\n const char* p;\n for (p = dire->d_name + 4; ::isdigit(*p); p++);\n if (*p != 0)\n continue; // is not card directory\n errno = 0;\n unsigned int v = ::strtoul(dire->d_name + 4, nullptr, 10);\n totDeviceCount = std::max(totDeviceCount, v+1);\n }\n if (errno != 0)\n {\n closedir(dirp);\n throw Error(errno, \"Can't read 'sys/class/drm' directory\");\n }\n closedir(dirp);\n \n // filter AMD GPU cards\n char dbuf[120];\n for (unsigned int i = 0; i < totDeviceCount; i++)\n {\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/vendor\", i);\n unsigned int vendorId = 0;\n if (!getFileContentValue(dbuf, vendorId))\n continue;\n if (vendorId != 4098) // if not AMD\n continue;\n amdDevices.push_back(i);\n }\n \n /* hwmon indices */\n for (unsigned int cardIndex: amdDevices)\n {\n // search hwmon\n errno = 0;\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon\", cardIndex);\n DIR* dirp = opendir(dbuf);\n if (dirp == nullptr)\n throw Error(errno, \"Can't open 'sys/class/drm/card?/device/hwmon' directory\");\n errno = 0;\n struct dirent* dire;\n unsigned int hwmonIndex = UINT_MAX;\n while ((dire = readdir(dirp)) != nullptr)\n {\n if (::strncmp(dire->d_name, \"hwmon\", 5) != 0)\n continue; // is not hwmon directory\n const char* p;\n for (p = dire->d_name + 5; ::isdigit(*p); p++);\n if (*p != 0)\n continue; // is not hwmon directory\n errno = 0;\n unsigned int v = ::strtoul(dire->d_name + 5, nullptr, 10);\n hwmonIndex = std::min(hwmonIndex, v);\n }\n if (errno != 0)\n {\n closedir(dirp);\n throw Error(errno, \"Can't open 'sys/class/drm/card?/hwmon' directory\");\n }\n closedir(dirp);\n if (hwmonIndex == UINT_MAX)\n throw Error(\"Can't find hwmon? directory\");\n hwmonIndices.push_back(hwmonIndex);\n }\n}\n\nstatic std::vector parseDPMFile(const char* filename, uint32_t& choosen)\n{\n std::vector out;\n std::ifstream ifs(filename, std::ios::binary);\n choosen = UINT32_MAX;\n while (ifs)\n {\n std::string line;\n std::getline(ifs, line);\n if (line.empty())\n break;\n char* p = (char*)line.c_str();\n char* p2 = (char*)line.c_str();\n errno = 0;\n unsigned int index = strtoul(p, &p2, 10);\n if (errno!=0 || p==p2)\n throw Error(errno, \"Can't parse index\");\n p = p2;\n if (*p!=':' || p[1]!=' ')\n throw Error(errno, \"Can't parse next part of line\");\n p += 2;\n unsigned int clock = strtoul(p, &p2, 10);\n if (errno!=0 || p==p2)\n throw Error(errno, \"Can't parse clock\");\n p = p2;\n if (::strncmp(p, \"Mhz\", 3) != 0)\n throw Error(errno, \"Can't parse next part of line\");\n p += 3;\n if (*p==' ' && p[1]=='*')\n choosen = index;\n out.resize(index+1);\n out[index] = clock;\n }\n return out;\n}\n\nstatic AMDGPUPerfControl parsePerfControl(const char* filename)\ntry\n{\n std::ifstream ifs(filename, std::ios::binary);\n ifs.exceptions(std::ios::failbit);\n std::string line;\n std::getline(ifs, line);\n if (line==\"auto\")\n return AMDGPUPerfControl::AUTO;\n else if (line==\"low\")\n return AMDGPUPerfControl::LOW;\n else if (line==\"high\")\n return AMDGPUPerfControl::HIGH;\n else if (line==\"manual\")\n return AMDGPUPerfControl::MANUAL;\n else\n return AMDGPUPerfControl::UNKNOWN;\n}\ncatch(const std::exception& ex)\n{\n return AMDGPUPerfControl::UNKNOWN;\n}\n\nstatic void parseDPMPCIEFile(const char* filename, unsigned int& pcieMB, unsigned int& lanes)\n{\n std::ifstream ifs(filename, std::ios::binary);\n unsigned int ilanes = 0, ipcieMB = 0;\n while (ifs)\n {\n std::string line;\n std::getline(ifs, line);\n if (line.empty())\n break;\n char* p = (char*)line.c_str();\n char* p2 = (char*)line.c_str();\n errno = 0;\n strtoul(p, &p2, 10);\n if (errno!=0 || p==p2)\n throw Error(errno, \"Can't parse index\");\n p = p2;\n if (*p!=':' || p[1]!=' ')\n throw Error(errno, \"Can't parse next part of line\");\n p += 2;\n double bandwidth = strtod(p, &p2);\n if (errno!=0 || p==p2)\n throw Error(errno, \"Can't parse bandwidth\");\n p = p2;\n if (*p=='G' && p2[1]=='B')\n ipcieMB = bandwidth*1000;\n else if (*p=='M' && p2[1]=='B')\n ipcieMB = bandwidth;\n else if (*p=='M' && p2[1]=='B')\n ipcieMB = bandwidth/1000;\n else \n throw Error(errno, \"Wrong bandwidth specifier\");\n p += 2;\n if (::strncmp(p, \", x\", 3)!=0)\n throw Error(errno, \"Can't parse next part of line\");\n errno = 0;\n ilanes = strtoul(p, &p2, 10);\n if (errno!=0 || p==p2)\n throw Error(errno, \"Can't parse lanes\");\n if (*p==' ' && p[1]=='*')\n {\n lanes = ilanes;\n pcieMB = ipcieMB;\n break;\n }\n }\n}\n\nvoid AMDGPUAdapterHandle::getPerformanceClocks(int adapterIndex, unsigned int& coreClock,\n unsigned int& memoryClock) const\n{\n char dbuf[120];\n unsigned int cardIndex = amdDevices[adapterIndex];\n \n unsigned int coreOD = 0;\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_sclk_od\", cardIndex);\n getFileContentValue(dbuf, coreOD);\n unsigned int memoryOD = 0;\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_mclk_od\", cardIndex);\n getFileContentValue(dbuf, memoryOD);\n \n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_sclk\", cardIndex);\n unsigned int activeClockIndex;\n std::vector clocks = parseDPMFile(dbuf, activeClockIndex);\n coreClock = 0;\n if (!clocks.empty())\n coreClock = int(ceil(double(clocks.back()) / (1.0 + coreOD*0.01)));\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_mclk\", cardIndex);\n clocks = parseDPMFile(dbuf, activeClockIndex);\n memoryClock = 0;\n if (!clocks.empty())\n memoryClock = int(ceil(double(clocks.back()) / (1.0 + memoryOD*0.01)));\n}\n\nAMDGPUAdapterInfo AMDGPUAdapterHandle::parseAdapterInfo(int index)\n{\n AMDGPUAdapterInfo adapterInfo{};\n unsigned int cardIndex = amdDevices[index];\n char dbuf[120];\n char rlink[120];\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device\", cardIndex);\n auto linkRead = ::readlink(dbuf, rlink, sizeof(rlink) - 1);\n if (linkRead < 0) {\n throw Error(errno, \"Can't readlink 'sys/class/drm/card?/device'\");\n }\n rlink[linkRead] = 0;\n getFromPCI_AMDGPU(rlink, adapterInfo);\n // if device_id and vendor_id is not set\n if (adapterInfo.vendorId==0 && adapterInfo.deviceId==0)\n {\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/vendor\", cardIndex);\n getFileContentValue(dbuf, adapterInfo.vendorId);\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/device\", cardIndex);\n getFileContentValue(dbuf, adapterInfo.deviceId);\n char deviceBuf[128];\n pci_lookup_name(pciAccess, deviceBuf, 128, PCI_LOOKUP_DEVICE,\n adapterInfo.vendorId, adapterInfo.deviceId);\n adapterInfo.name = deviceBuf;\n }\n // parse pp_dpm_sclk\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_sclk\", cardIndex);\n unsigned int activeCoreClockIndex;\n adapterInfo.coreClocks = parseDPMFile(dbuf, activeCoreClockIndex);\n if (activeCoreClockIndex!=UINT_MAX)\n adapterInfo.coreClock = adapterInfo.coreClocks[activeCoreClockIndex];\n else\n adapterInfo.coreClock = 0;\n // parse pp_dpm_mclk\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_mclk\", cardIndex);\n unsigned int activeMemoryClockIndex;\n adapterInfo.memoryClocks = parseDPMFile(dbuf, activeMemoryClockIndex);\n if (activeMemoryClockIndex!=UINT_MAX)\n adapterInfo.memoryClock = adapterInfo.memoryClocks[activeMemoryClockIndex];\n else\n adapterInfo.memoryClock = 0;\n // parse pp_dpm_socclk\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_socclk\", cardIndex);\n unsigned int activeSocClockIndex;\n adapterInfo.socClocks = parseDPMFile(dbuf, activeSocClockIndex);\n if (activeSocClockIndex!=UINT_MAX)\n adapterInfo.socClock = adapterInfo.socClocks[activeSocClockIndex];\n else\n adapterInfo.socClock = 0;\n // parse pp_dpm_dcefclk\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_dcefclk\", cardIndex);\n unsigned int activeDcefClockIndex;\n adapterInfo.dcefClocks = parseDPMFile(dbuf, activeDcefClockIndex);\n if (activeDcefClockIndex!=UINT_MAX)\n adapterInfo.dcefClock = adapterInfo.dcefClocks[activeDcefClockIndex];\n else\n adapterInfo.dcefClock = 0;\n // parse pp_dpm_fclk\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_fclk\", cardIndex);\n unsigned int activeFClockIndex;\n adapterInfo.fClocks = parseDPMFile(dbuf, activeFClockIndex);\n if (activeFClockIndex!=UINT_MAX)\n adapterInfo.fClock = adapterInfo.fClocks[activeFClockIndex];\n else\n adapterInfo.fClock = 0;\n \n unsigned int hwmonIndex = hwmonIndices[index];\n \n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_sclk_od\", cardIndex);\n getFileContentValue(dbuf, adapterInfo.coreOD);\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_mclk_od\", cardIndex);\n getFileContentValue(dbuf, adapterInfo.memoryOD);\n // get fanspeed\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/pwm1_min\",\n cardIndex, hwmonIndex);\n getFileContentValue(dbuf, adapterInfo.minFanSpeed);\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/pwm1_max\",\n cardIndex, hwmonIndex);\n getFileContentValue(dbuf, adapterInfo.maxFanSpeed);\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/pwm1\",\n cardIndex, hwmonIndex);\n getFileContentValue(dbuf, adapterInfo.fanSpeed);\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/pwm1_enable\",\n cardIndex, hwmonIndex);\n unsigned int pwmEnable = 0;\n getFileContentValue(dbuf, pwmEnable);\n adapterInfo.defaultFanSpeed = pwmEnable==2;\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/temp1_input\",\n cardIndex, hwmonIndex);\n getFileContentValue(dbuf, adapterInfo.temperature);\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/temp1_label\",\n cardIndex, hwmonIndex);\n getFileContentString(dbuf, adapterInfo.tempLabel);\n \n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/temp1_crit\",\n cardIndex, hwmonIndex);\n getFileContentValue(dbuf, adapterInfo.tempCritical);\n \n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/temp2_input\",\n cardIndex, hwmonIndex);\n if (getFileContentValue(dbuf, adapterInfo.temperature2))\n adapterInfo.extraTemperatures |= 1;\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/temp2_label\",\n cardIndex, hwmonIndex);\n getFileContentString(dbuf, adapterInfo.temp2Label);\n \n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/temp3_input\",\n cardIndex, hwmonIndex);\n if (getFileContentValue(dbuf, adapterInfo.temperature3))\n adapterInfo.extraTemperatures |= 2;\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/temp3_label\",\n cardIndex, hwmonIndex);\n getFileContentString(dbuf, adapterInfo.temp3Label);\n \n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/temp4_input\",\n cardIndex, hwmonIndex);\n if (getFileContentValue(dbuf, adapterInfo.temperature4))\n adapterInfo.extraTemperatures |= 4;\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/temp4_label\",\n cardIndex, hwmonIndex);\n getFileContentString(dbuf, adapterInfo.temp4Label);\n \n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/in0_label\",\n cardIndex, hwmonIndex);\n std::string in0Label;\n if (getFileContentString(dbuf, in0Label))\n {\n if (in0Label==\"vddgfx\")\n {\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/in0_input\",\n cardIndex, hwmonIndex);\n getFileContentValue(dbuf, adapterInfo.voltage);\n }\n }\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/power1_average\",\n cardIndex, hwmonIndex);\n getFileContentValue(dbuf, adapterInfo.power);\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/power1_cap\",\n cardIndex, hwmonIndex);\n getFileContentValue(dbuf, adapterInfo.powerCap);\n \n // parse GPU load\n adapterInfo.gpuLoad = -1;\n adapterInfo.memLoad = -1;\n \n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/gpu_busy_percent\",\n cardIndex);\n getFileContentValue(dbuf, adapterInfo.gpuLoad);\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/mem_busy_percent\",\n cardIndex);\n getFileContentValue(dbuf, adapterInfo.memLoad);\n \n if (adapterInfo.gpuLoad == -1 || adapterInfo.memLoad == -1)\n {\n snprintf(dbuf, 120, \"/sys/kernel/debug/dri/%u/amdgpu_pm_info\", cardIndex);\n std::ifstream ifs(dbuf, std::ios::binary);\n while (ifs)\n {\n std::string line;\n std::getline(ifs, line);\n if (line.compare(0, 10, \"GPU load: \")==0 ||\n line.compare(0, 10, \"GPU Load: \")==0)\n {\n errno = 0;\n char* endp;\n adapterInfo.gpuLoad = strtoul(line.c_str()+10, &endp, 10);\n if (errno != 0 || endp == line.c_str()+10)\n throw Error(\"Can't parse GPU load\");\n }\n if (line.compare(0, 10, \"MEM load: \")==0 ||\n line.compare(0, 10, \"MEM Load: \")==0)\n {\n errno = 0;\n char* endp;\n adapterInfo.memLoad = strtoul(line.c_str()+10, &endp, 10);\n if (errno != 0 || endp == line.c_str()+10)\n throw Error(\"Can't parse MEM load\");\n }\n }\n }\n \n snprintf(dbuf, 120, \"/sys/class/drm/card%u/pp_dpm_pcie\", cardIndex);\n parseDPMPCIEFile(dbuf, adapterInfo.busLanes, adapterInfo.busSpeed);\n \n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/power_dpm_force_performance_level\",\n cardIndex);\n adapterInfo.perfControl = parsePerfControl(dbuf);\n return adapterInfo;\n}\n\nvoid AMDGPUAdapterHandle::setFanSpeed(int index, int fanSpeed) const\n{\n char dbuf[120];\n unsigned int cardIndex = amdDevices[index];\n unsigned int hwmonIndex = hwmonIndices[index];\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/pwm1_enable\",\n cardIndex, hwmonIndex);\n writeFileContentValue(dbuf, 1);\n \n unsigned int minFanSpeed, maxFanSpeed;\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/pwm1_min\",\n cardIndex, hwmonIndex);\n getFileContentValue(dbuf, minFanSpeed);\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/pwm1_max\",\n cardIndex, hwmonIndex);\n getFileContentValue(dbuf, maxFanSpeed);\n \n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/pwm1\",\n cardIndex, hwmonIndex);\n writeFileContentValue(dbuf, int(round(\n fanSpeed/100.0 * (maxFanSpeed-minFanSpeed) + minFanSpeed)));\n}\n\nvoid AMDGPUAdapterHandle::setFanSpeedToDefault(int index) const\n{\n char dbuf[120];\n unsigned int cardIndex = amdDevices[index];\n unsigned int hwmonIndex = hwmonIndices[index];\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/hwmon/hwmon%u/pwm1_enable\",\n cardIndex, hwmonIndex);\n writeFileContentValue(dbuf, 2);\n}\n\nvoid AMDGPUAdapterHandle::setOverdriveCoreParam(int index, unsigned int coreOD) const\n{\n char dbuf[120];\n unsigned int cardIndex = amdDevices[index];\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_sclk_od\", cardIndex);\n writeFileContentValue(dbuf, coreOD);\n}\n\nvoid AMDGPUAdapterHandle::setOverdriveMemoryParam(int index, unsigned int memoryOD) const\n{\n char dbuf[120];\n unsigned int cardIndex = amdDevices[index];\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_mclk_od\", cardIndex);\n writeFileContentValue(dbuf, memoryOD);\n}\n\nvoid AMDGPUAdapterHandle::setPerfCoreLevel(int index, unsigned int corePLevel) const\n{\n char dbuf[120];\n unsigned int cardIndex = amdDevices[index];\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_sclk\", cardIndex);\n \n if (access(dbuf, F_OK))\n {\n throw Error((std::string(\"File '\")+dbuf+\"' doesn't exist\").c_str());\n }\n \n setPerformanceControl(index, AMDGPUPerfControl::MANUAL);\n writeFileContentValue(dbuf, corePLevel);\n}\n\nvoid AMDGPUAdapterHandle::setPerfMemoryLevel(int index, unsigned int memoryPLevel) const\n{\n char dbuf[120];\n unsigned int cardIndex = amdDevices[index];\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_mclk\", cardIndex);\n \n if (access(dbuf, F_OK))\n {\n throw Error((std::string(\"File '\")+dbuf+\"' doesn't exist\").c_str());\n }\n \n setPerformanceControl(index, AMDGPUPerfControl::MANUAL);\n writeFileContentValue(dbuf, memoryPLevel);\n}\n\nvoid AMDGPUAdapterHandle::setPerfSOCLevel(int index, unsigned int socPLevel) const\n{\n char dbuf[120];\n unsigned int cardIndex = amdDevices[index];\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_socclk\", cardIndex);\n \n if (access(dbuf, F_OK))\n {\n throw Error((std::string(\"File '\")+dbuf+\"' doesn't exist\").c_str());\n }\n \n setPerformanceControl(index, AMDGPUPerfControl::MANUAL);\n writeFileContentValue(dbuf, socPLevel);\n}\n\nvoid AMDGPUAdapterHandle::setPerfDCEFLevel(int index, unsigned int dcefPLevel) const\n{\n char dbuf[120];\n unsigned int cardIndex = amdDevices[index];\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_dcefclk\", cardIndex);\n \n if (access(dbuf, F_OK))\n {\n throw Error((std::string(\"File '\")+dbuf+\"' doesn't exist\").c_str());\n }\n \n setPerformanceControl(index, AMDGPUPerfControl::MANUAL);\n writeFileContentValue(dbuf, dcefPLevel);\n}\n\nvoid AMDGPUAdapterHandle::setPerfFLevel(int index, unsigned int fPLevel) const\n{\n char dbuf[120];\n unsigned int cardIndex = amdDevices[index];\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/pp_dpm_fclk\", cardIndex);\n \n if (access(dbuf, F_OK))\n {\n throw Error((std::string(\"File '\")+dbuf+\"' doesn't exist\").c_str());\n }\n \n setPerformanceControl(index, AMDGPUPerfControl::MANUAL);\n writeFileContentValue(dbuf, fPLevel);\n}\n\nstatic const char* perfControlNames[] =\n{\n \"auto\", \"low\", \"manual\", \"high\", \"unknown\"\n};\n\nvoid AMDGPUAdapterHandle::setPerformanceControl(int index,\n AMDGPUPerfControl perfControl) const\n{\n char dbuf[120];\n unsigned int cardIndex = amdDevices[index];\n snprintf(dbuf, 120, \"/sys/class/drm/card%u/device/power_dpm_force_performance_level\",\n cardIndex);\n writeFileContent(dbuf, perfControlNames[int(perfControl)]);\n}\n\nstatic void printAdaptersInfo(AMDGPUAdapterHandle& handle,\n const std::vector& choosenAdapters, bool useChoosen, int watch)\n{\n int adaptersNum = handle.getAdaptersNum();\n auto choosenIter = choosenAdapters.begin();\n int i = 0;\n \n std::vector adapterInfos(adaptersNum);\n \n for (int ai = 0; ai < adaptersNum; ai++)\n {\n if (useChoosen && (choosenIter==choosenAdapters.end() || *choosenIter!=i))\n { i++; continue; }\n adapterInfos[ai] = handle.parseAdapterInfo(ai);\n }\n \n if (watch!=0)\n beforePrintWatch(watch);\n \n choosenIter = choosenAdapters.begin();\n i = 0;\n for (int ai = 0; ai < adaptersNum; ai++)\n {\n if (useChoosen && (choosenIter==choosenAdapters.end() || *choosenIter!=i))\n { i++; continue; }\n const AMDGPUAdapterInfo& adapterInfo = adapterInfos[ai];\n \n setTermBold();\n std::cout << \"Adapter \" << i << \": PCI \" <<\n adapterInfo.busNo << \":\" << adapterInfo.deviceNo << \":\" <<\n adapterInfo.funcNo << \": \" << adapterInfo.name << \"\\n\";\n setTermNormal();\n std::cout <<\n \" Core: \" << adapterInfo.coreClock << \" MHz, \"\n \"Mem: \" << adapterInfo.memoryClock << \" MHz, \"\n \"CoreOD: \" << adapterInfo.coreOD << \", \"\n \"MemOD: \" << adapterInfo.memoryOD;\n if (adapterInfo.voltage!=0)\n std::cout << \", Vddc: \" << adapterInfo.voltage << \" mV\";\n if (adapterInfo.socClock!=0 || adapterInfo.dcefClock!=0)\n {\n std::cout << \"\\n \";\n if (adapterInfo.socClock!=0)\n {\n std::cout << \"SOC: \" << adapterInfo.socClock << \" MHz\";\n if (adapterInfo.dcefClock!=0)\n std::cout << \", \";\n }\n if (adapterInfo.dcefClock!=0)\n {\n std::cout << \"DCEF: \" << adapterInfo.dcefClock << \" MHz\";\n if (adapterInfo.fClock!=0)\n std::cout << \", \";\n }\n if (adapterInfo.fClock!=0)\n std::cout << \"FClock: \" << adapterInfo.fClock << \" MHz\";\n }\n std::cout << \"\\n \"\n \"PerfCtrl: \" << perfControlNames[int(adapterInfo.perfControl)];\n if (adapterInfo.gpuLoad>=0)\n std::cout << \", Load: \" << adapterInfo.gpuLoad << \"%\";\n if (adapterInfo.memLoad>=0)\n std::cout << \", MemLoad: \" << adapterInfo.memLoad << \"%\";\n std::cout << \"\\n Temp: \";\n printTemperature(adapterInfo.temperature/1000.0);\n if ((adapterInfo.extraTemperatures&1) != 0)\n {\n std::cout << \", T2: \";\n printTemperature(adapterInfo.temperature2/1000.0);\n }\n if ((adapterInfo.extraTemperatures&2) != 0)\n {\n std::cout << \", T3: \";\n printTemperature(adapterInfo.temperature3/1000.0);\n }\n if ((adapterInfo.extraTemperatures&4) != 0)\n {\n std::cout << \", T4: \";\n printTemperature(adapterInfo.temperature4/1000.0);\n }\n std::cout << \", Fan: \";\n printFanSpeed(double(adapterInfo.fanSpeed-adapterInfo.minFanSpeed)/\n double(adapterInfo.maxFanSpeed-adapterInfo.minFanSpeed)*100.0);\n std::cout << std::endl;\n if (adapterInfo.powerCap!=0)\n std::cout << \" Power: \" << (adapterInfo.power/1000000.0) << \" W (cap: \" <<\n (adapterInfo.powerCap/1000000.0) << \" W)\\n\";\n if (!adapterInfo.coreClocks.empty())\n {\n std::cout << \" Core Clocks:\";\n for (uint32_t v: adapterInfo.coreClocks)\n std::cout << \" \" << v;\n std::cout << std::endl;\n }\n if (!adapterInfo.memoryClocks.empty())\n {\n std::cout << \" Memory Clocks:\";\n for (uint32_t v: adapterInfo.memoryClocks)\n std::cout << \" \" << v;\n std::cout << std::endl;\n }\n if (!adapterInfo.socClocks.empty())\n {\n std::cout << \" SOC Clocks:\";\n for (uint32_t v: adapterInfo.socClocks)\n std::cout << \" \" << v;\n std::cout << std::endl;\n }\n if (!adapterInfo.dcefClocks.empty())\n {\n std::cout << \" DCEF Clocks:\";\n for (uint32_t v: adapterInfo.dcefClocks)\n std::cout << \" \" << v;\n std::cout << std::endl;\n }\n if (!adapterInfo.fClocks.empty())\n {\n std::cout << \" F Clocks:\";\n for (uint32_t v: adapterInfo.fClocks)\n std::cout << \" \" << v;\n std::cout << std::endl;\n }\n if (useChoosen)\n ++choosenIter;\n i++;\n }\n}\n\nstatic void printAdaptersInfoVerbose(AMDGPUAdapterHandle& handle,\n const std::vector& choosenAdapters, bool useChoosen, int watch)\n{\n int adaptersNum = handle.getAdaptersNum();\n auto choosenIter = choosenAdapters.begin();\n int i = 0;\n \n std::vector adapterInfos(adaptersNum);\n \n for (int ai = 0; ai < adaptersNum; ai++)\n {\n if (useChoosen && (choosenIter==choosenAdapters.end() || *choosenIter!=i))\n { i++; continue; }\n adapterInfos[ai] = handle.parseAdapterInfo(ai);\n }\n \n if (watch!=0)\n beforePrintWatch(watch);\n \n choosenIter = choosenAdapters.begin();\n i = 0;\n for (int ai = 0; ai < adaptersNum; ai++)\n {\n if (useChoosen && (choosenIter==choosenAdapters.end() || *choosenIter!=i))\n { i++; continue; }\n const AMDGPUAdapterInfo& adapterInfo = adapterInfos[ai];\n \n setTermBold();\n std::cout << \"Adapter \" << i << \": \" << adapterInfo.name << \"\\n\";\n setTermNormal();\n std::cout <<\n \" Device Topology: \" << adapterInfo.busNo << \":\" <<\n adapterInfo.deviceNo << \":\" << adapterInfo.funcNo << \"\\n\"\n \" Vendor ID: \" << adapterInfo.vendorId << \" (0x\" << std::hex <<\n adapterInfo.vendorId << std::dec << \")\" << \"\\n\"\n \" Device ID: \" << adapterInfo.deviceId << \" (0x\" << std::hex <<\n adapterInfo.deviceId << std::dec << \")\" << \"\\n\"\n \" Current CoreClock: \" << adapterInfo.coreClock << \" MHz\\n\"\n \" Current MemoryClock: \" << adapterInfo.memoryClock << \" MHz\\n\";\n if (adapterInfo.socClock!=0)\n std::cout << \" Current SOCClock: \" << adapterInfo.socClock << \" MHz\\n\";\n if (adapterInfo.dcefClock!=0)\n std::cout << \" Current DCEFClock: \" << adapterInfo.dcefClock << \" MHz\\n\";\n if (adapterInfo.fClock!=0)\n std::cout << \" Current FClock: \" << adapterInfo.fClock << \" MHz\\n\";\n std::cout <<\n \" Core Overdrive: \" << adapterInfo.coreOD << \"\\n\"\n \" Memory Overdrive: \" << adapterInfo.memoryOD << \"\\n\";\n if (adapterInfo.voltage!=0)\n std::cout << \" Current Voltage: \" << adapterInfo.voltage << \" mV\\n\";\n std::cout << \" Performance Control: \" <<\n perfControlNames[int(adapterInfo.perfControl)] << \"\\n\";\n if (adapterInfo.gpuLoad>=0)\n std::cout << \" GPU Load: \" << adapterInfo.gpuLoad << \"%\\n\";\n if (adapterInfo.memLoad>=0)\n std::cout << \" Memory Load: \" << adapterInfo.memLoad << \"%\\n\";\n std::cout << \" Current BusSpeed: \" << adapterInfo.busSpeed << \"\\n\"\n \" Current BusLanes: \" << adapterInfo.busLanes << \"\\n\"\n \" Temperature\";\n if (!adapterInfo.tempLabel.empty())\n std::cout << \" (\" << adapterInfo.tempLabel << \")\";\n std::cout << \": \";\n printTemperature(adapterInfo.temperature/1000.0);\n std::cout << \"\\n\";\n if ((adapterInfo.extraTemperatures&1) != 0)\n {\n std::cout << \" Temperature2\";\n if (!adapterInfo.temp2Label.empty())\n std::cout << \" (\" << adapterInfo.temp2Label << \")\";\n std::cout << \": \";\n printTemperature(adapterInfo.temperature2/1000.0);\n std::cout << \"\\n\";\n }\n if ((adapterInfo.extraTemperatures&2) != 0)\n {\n std::cout << \" Temperature3\";\n if (!adapterInfo.temp3Label.empty())\n std::cout << \" (\" << adapterInfo.temp3Label << \")\";\n std::cout << \": \";\n printTemperature(adapterInfo.temperature3/1000.0);\n std::cout << \"\\n\";\n }\n if ((adapterInfo.extraTemperatures&4) != 0)\n {\n std::cout << \" Temperature4\";\n if (!adapterInfo.temp4Label.empty())\n std::cout << \" (\" << adapterInfo.temp4Label << \")\";\n std::cout << \": \";\n printTemperature(adapterInfo.temperature4/1000.0);\n std::cout << \"\\n\";\n }\n std::cout <<\n \" Critical temperature: \" << adapterInfo.tempCritical/1000.0 << \" C\\n\"\n \" FanSpeed Min (Value): \" << adapterInfo.minFanSpeed << \"\\n\"\n \" FanSpeed Max (Value): \" << adapterInfo.maxFanSpeed << \"\\n\"\n \" Current FanSpeed: \";\n printFanSpeed((double(adapterInfo.fanSpeed-adapterInfo.minFanSpeed)/\n double(adapterInfo.maxFanSpeed-adapterInfo.minFanSpeed)*100.0));\n std::cout << \"\\n\"\n \" Controlled FanSpeed: \" <<\n (adapterInfo.defaultFanSpeed?\"yes\":\"no\") << \"\\n\";\n if (adapterInfo.powerCap!=0)\n std::cout << \" Power: \" << (adapterInfo.power/1000000.0) << \" W (cap: \" <<\n (adapterInfo.powerCap/1000000.0) << \" W)\\n\";\n // print available core clocks\n if (!adapterInfo.coreClocks.empty())\n {\n std::cout << \" Core Clocks:\\n\";\n for (uint32_t v: adapterInfo.coreClocks)\n std::cout << \" \" << v << \"MHz\\n\";\n }\n if (!adapterInfo.memoryClocks.empty())\n {\n std::cout << \" Memory Clocks:\\n\";\n for (uint32_t v: adapterInfo.memoryClocks)\n std::cout << \" \" << v << \"MHz\\n\";\n }\n if (!adapterInfo.socClocks.empty())\n {\n std::cout << \" SOC Clocks:\\n\";\n for (uint32_t v: adapterInfo.socClocks)\n std::cout << \" \" << v << \"MHz\\n\";\n }\n if (!adapterInfo.dcefClocks.empty())\n {\n std::cout << \" DCEF Clocks:\\n\";\n for (uint32_t v: adapterInfo.dcefClocks)\n std::cout << \" \" << v << \"MHz\\n\";\n }\n if (!adapterInfo.fClocks.empty())\n {\n std::cout << \" F Clocks:\\n\";\n for (uint32_t v: adapterInfo.fClocks)\n std::cout << \" \" << v << \"MHz\\n\";\n }\n if (useChoosen)\n ++choosenIter;\n i++;\n }\n}\n\n/* end of AMDGPU code */\n\n#ifdef HAVE_ADLSDK\nstatic void getActiveAdaptersIndices(ADLMainControl& mainControl, int adaptersNum,\n std::vector& activeAdapters)\n{\n activeAdapters.clear();\n for (int i = 0; i < adaptersNum; i++)\n if (mainControl.isAdapterActive(i))\n activeAdapters.push_back(i);\n}\n\nstatic void printAdaptersInfo(ADLMainControl& mainControl, int adaptersNum,\n const std::vector& activeAdapters,\n const std::vector& choosenAdapters, bool useChoosen)\n{\n std::unique_ptr adapterInfos(new AdapterInfo[adaptersNum]);\n ::memset(adapterInfos.get(), 0, sizeof(AdapterInfo)*adaptersNum);\n mainControl.getAdapterInfo(adapterInfos.get());\n int i = 0;\n auto choosenIter = choosenAdapters.begin();\n for (int ai = 0; ai < adaptersNum; ai++)\n {\n if (!mainControl.isAdapterActive(ai))\n continue;\n if (useChoosen && (choosenIter==choosenAdapters.end() || *choosenIter!=i))\n { i++; continue; }\n \n if (adapterInfos[ai].strAdapterName[0]==0)\n getFromPCI(adapterInfos[ai].iAdapterIndex, adapterInfos[ai]);\n \n ADLPMActivity activity;\n mainControl.getCurrentActivity(ai, activity);\n setTermBold();\n std::cout << \"Adapter \" << i << \": PCI \" <<\n adapterInfos[ai].iBusNumber << \":\" <<\n adapterInfos[ai].iDeviceNumber << \":\" <<\n adapterInfos[ai].iFunctionNumber <<\n \": \" << adapterInfos[ai].strAdapterName << \"\\n\";\n setTermNormal();\n std::cout <<\n \" Core: \" << activity.iEngineClock/100.0 << \" MHz, \"\n \"Mem: \" << activity.iMemoryClock/100.0 << \" MHz, \"\n \"Vddc: \" << activity.iVddc/1000.0 << \" V, \"\n \"Load: \" << activity.iActivityPercent << \"%, \"\n \"Temp: \";\n printTemperature(mainControl.getTemperature(ai, 0)/1000.0);\n std::cout << \", Fan: \";\n printFanSpeed(mainControl.getFanSpeed(ai, 0));\n std::cout << std::endl;\n ADLODParameters odParams;\n mainControl.getODParameters(ai, odParams);\n std::cout << \" Max Ranges: Core: \" << odParams.sEngineClock.iMin/100.0 << \" - \" <<\n odParams.sEngineClock.iMax/100.0 << \" MHz, \"\n \"Mem: \" << odParams.sMemoryClock.iMin/100.0 << \" - \" <<\n odParams.sMemoryClock.iMax/100.0 << \" MHz, \" <<\n \"Vddc: \" << odParams.sVddc.iMin/1000.0 << \" - \" <<\n odParams.sVddc.iMax/1000.0 << \" V\\n\";\n int levelsNum = odParams.iNumberOfPerformanceLevels;\n std::unique_ptr odPLevels(\n new ADLODPerformanceLevel[levelsNum]);\n mainControl.getODPerformanceLevels(ai, false, levelsNum, odPLevels.get());\n std::cout << \" PerfLevels: Core: \" << odPLevels[0].iEngineClock/100.0 << \" - \" <<\n odPLevels[levelsNum-1].iEngineClock/100.0 << \" MHz, \"\n \"Mem: \" << odPLevels[0].iMemoryClock/100.0 << \" - \" <<\n odPLevels[levelsNum-1].iMemoryClock/100.0 << \" MHz, \"\n \"Vddc: \" << odPLevels[0].iVddc/1000.0 << \" - \" <<\n odPLevels[levelsNum-1].iVddc/1000.0 << \" V\\n\";\n if (useChoosen)\n ++choosenIter;\n i++;\n }\n}\n\nstatic void printAdaptersInfoVerbose(ADLMainControl& mainControl, int adaptersNum,\n const std::vector& activeAdapters,\n const std::vector& choosenAdapters, bool useChoosen)\n{\n std::unique_ptr adapterInfos(new AdapterInfo[adaptersNum]);\n ::memset(adapterInfos.get(), 0, sizeof(AdapterInfo)*adaptersNum);\n mainControl.getAdapterInfo(adapterInfos.get());\n int i = 0;\n auto choosenIter = choosenAdapters.begin();\n for (int ai = 0; ai < adaptersNum; ai++)\n {\n if (!mainControl.isAdapterActive(ai))\n continue;\n if (useChoosen && (choosenIter==choosenAdapters.end() || *choosenIter!=i))\n { i++; continue; }\n if (adapterInfos[ai].strAdapterName[0]==0)\n getFromPCI(adapterInfos[ai].iAdapterIndex, adapterInfos[ai]);\n setTermBold();\n std::cout << \"Adapter \" << i << \": \" << adapterInfos[ai].strAdapterName << \"\\n\";\n setTermNormal();\n std::cout << \" Device Topology: \" << adapterInfos[ai].iBusNumber << \":\" <<\n adapterInfos[ai].iDeviceNumber << \":\" <<\n adapterInfos[ai].iFunctionNumber << \"\\n\"\n \" Vendor ID: \" << adapterInfos[ai].iVendorID << \" (0x\" << std::hex <<\n adapterInfos[ai].iVendorID << std::dec << \")\" << std::endl;\n ADLFanSpeedInfo fsInfo;\n ADLPMActivity activity;\n mainControl.getCurrentActivity(ai, activity);\n std::cout << \" Current CoreClock: \" << activity.iEngineClock/100.0 << \" MHz\\n\"\n \" Current MemoryClock: \" << activity.iMemoryClock/100.0 << \" MHz\\n\"\n \" Current Voltage: \" << activity.iVddc/1000.0 << \" V\\n\"\n \" GPU Load: \" << activity.iActivityPercent << \"%\\n\"\n \" Current PerfLevel: \" << activity.iCurrentPerformanceLevel << \"\\n\"\n \" Current BusSpeed: \" << activity.iCurrentBusSpeed << \"\\n\"\n \" Current BusLanes: \" << activity.iCurrentBusLanes<< \"\\n\";\n \n int temperature = mainControl.getTemperature(ai, 0);\n std::cout << \" Temperature: \";\n printTemperature(temperature/1000.0);\n std::cout << \"\\n\";\n mainControl.getFanSpeedInfo(ai, 0, fsInfo);\n std::cout << \" FanSpeed Min: \" << fsInfo.iMinPercent << \"%\\n\"\n \" FanSpeed Max: \" << fsInfo.iMaxPercent << \"%\\n\"\n \" FanSpeed MinRPM: \" << fsInfo.iMinRPM << \" RPM\\n\"\n \" FanSpeed MaxRPM: \" << fsInfo.iMaxRPM << \" RPM\" << \"\\n\";\n std::cout << \" Current FanSpeed: \";\n printFanSpeed(mainControl.getFanSpeed(ai, 0));\n std::cout << \"\\n\";\n ADLODParameters odParams;\n mainControl.getODParameters(ai, odParams);\n std::cout << \" CoreClock: \" << odParams.sEngineClock.iMin/100.0 << \" - \" <<\n odParams.sEngineClock.iMax/100.0 << \" MHz, step: \" <<\n odParams.sEngineClock.iStep/100.0 << \" MHz\\n\"\n \" MemClock: \" << odParams.sMemoryClock.iMin/100.0 << \" - \" <<\n odParams.sMemoryClock.iMax/100.0 << \" MHz, step: \" <<\n odParams.sMemoryClock.iStep/100.0 << \" MHz\\n\"\n \" Voltage: \" << odParams.sVddc.iMin/1000.0 << \" - \" <<\n odParams.sVddc.iMax/1000.0 << \" V, step: \" <<\n odParams.sVddc.iStep/1000.0 << \" V\\n\";\n std::unique_ptr odPLevels(\n new ADLODPerformanceLevel[odParams.iNumberOfPerformanceLevels]);\n mainControl.getODPerformanceLevels(ai, false, odParams.iNumberOfPerformanceLevels,\n odPLevels.get());\n std::cout << \" Performance levels: \" << odParams.iNumberOfPerformanceLevels << \"\\n\";\n for (int j = 0; j < odParams.iNumberOfPerformanceLevels; j++)\n std::cout << \" Performance Level: \" << j << \"\\n\"\n \" CoreClock: \" << odPLevels[j].iEngineClock/100.0 << \" MHz\\n\"\n \" MemClock: \" << odPLevels[j].iMemoryClock/100.0 << \" MHz\\n\"\n \" Voltage: \" << odPLevels[j].iVddc/1000.0 << \" V\\n\";\n mainControl.getODPerformanceLevels(ai, true, odParams.iNumberOfPerformanceLevels,\n odPLevels.get());\n std::cout << \" Default Performance levels: \" <<\n odParams.iNumberOfPerformanceLevels << \"\\n\";\n for (int j = 0; j < odParams.iNumberOfPerformanceLevels; j++)\n std::cout << \" Performance Level: \" << j << \"\\n\"\n \" CoreClock: \" << odPLevels[j].iEngineClock/100.0 << \" MHz\\n\"\n \" MemClock: \" << odPLevels[j].iMemoryClock/100.0 << \" MHz\\n\"\n \" Voltage: \" << odPLevels[j].iVddc/1000.0 << \" V\\n\";\n std::cout.flush();\n if (useChoosen)\n ++choosenIter;\n i++;\n }\n}\n#endif\n\nstatic void parseAdaptersList(const char* string, std::vector& adapters,\n bool& allAdapters)\n{\n adapters.clear();\n allAdapters = false;\n if (::strcmp(string, \"all\")==0)\n {\n allAdapters = true;\n return;\n }\n while (true)\n {\n char* endptr;\n errno = 0;\n int adapterIndex = strtol(string, &endptr, 10);\n if (errno!=0 || endptr==string)\n throw Error(\"Can't parse adapter index\");\n \n string = endptr;\n if (*string == '-')\n { // if range\n string++;\n errno = 0;\n int adapterIndexEnd = strtol(string, &endptr, 10);\n if (errno!=0 || endptr==string)\n throw Error(\"Can't parse adapter index\");\n string = endptr;\n if (adapterIndex>adapterIndexEnd)\n throw Error(\"Wrong range of adapter indices in adapter list\");\n for (int i = adapterIndex; i <= adapterIndexEnd; i++)\n adapters.push_back(i);\n }\n else\n adapters.push_back(adapterIndex);\n if (*string==0)\n break;\n if (*string==',')\n string++;\n else\n throw Error(\"Garbages at adapter list\");\n }\n std::sort(adapters.begin(), adapters.end());\n adapters.resize(std::unique(adapters.begin(), adapters.end()) - adapters.begin());\n}\n\nenum class OVCParamType\n{\n CORE_CLOCK,\n MEMORY_CLOCK,\n VDDC_VOLTAGE,\n FAN_SPEED,\n CORE_OD,\n MEMORY_OD,\n CUR_CORE_CLOCK,\n CUR_MEMORY_CLOCK,\n CUR_SOC_CLOCK,\n CUR_DCEF_CLOCK,\n CUR_F_CLOCK,\n CORE_PERF_LEVEL,\n MEMORY_PERF_LEVEL\n};\n\nenum: int {\n LAST_PERFLEVEL = -1\n};\n\nstruct OVCParameter\n{\n OVCParamType type;\n std::vector adapters;\n bool allAdapters;\n int partId;\n double value;\n bool useDefault;\n std::string argText;\n};\n\nstatic bool parseOVCParameter(const char* string, OVCParameter& param)\n{\n const char* afterName = strchr(string, ':');\n if (afterName==nullptr)\n {\n afterName = strchr(string, '=');\n if (afterName==nullptr)\n {\n std::cerr << \"This is not parameter: '\" << string << \"'!\" << std::endl;\n return false;\n }\n }\n std::string name(string, afterName);\n param.argText = string;\n param.adapters.clear();\n param.adapters.push_back(0); // default is 0\n param.allAdapters = false;\n param.partId = 0;\n param.useDefault = false;\n bool partIdSet = false;\n if (name==\"coreclk\")\n {\n param.type = OVCParamType::CORE_CLOCK;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"memclk\")\n {\n param.type = OVCParamType::MEMORY_CLOCK;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"ccoreclk\")\n {\n param.type = OVCParamType::CUR_CORE_CLOCK;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"cmemclk\")\n {\n param.type = OVCParamType::CUR_MEMORY_CLOCK;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"csocclk\")\n {\n param.type = OVCParamType::CUR_SOC_CLOCK;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"cdcefclk\")\n {\n param.type = OVCParamType::CUR_DCEF_CLOCK;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"cfclk\")\n {\n param.type = OVCParamType::CUR_F_CLOCK;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"coreod\")\n {\n param.type = OVCParamType::CORE_OD;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"memod\")\n {\n param.type = OVCParamType::MEMORY_OD;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"corepl\")\n {\n param.type = OVCParamType::CORE_PERF_LEVEL;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"mempl\")\n {\n param.type = OVCParamType::MEMORY_PERF_LEVEL;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"vcore\")\n {\n param.type = OVCParamType::VDDC_VOLTAGE;\n param.partId = LAST_PERFLEVEL;\n }\n else if (name==\"fanspeed\")\n {\n param.type = OVCParamType::FAN_SPEED;\n partIdSet = false;\n }\n else if (name==\"icoreclk\")\n {\n param.type = OVCParamType::CORE_CLOCK;\n partIdSet = true;\n }\n else if (name==\"imemclk\")\n {\n param.type = OVCParamType::MEMORY_CLOCK;\n partIdSet = true;\n }\n else if (name==\"ivcore\")\n {\n param.type = OVCParamType::VDDC_VOLTAGE;\n partIdSet = true;\n }\n else\n {\n std::cerr << \"Wrong parameter name in '\" << string << \"'!\" << std::endl;\n return false;\n }\n \n char* next;\n if (*afterName==':')\n { // if is\n afterName++;\n try\n {\n const char* afterList = ::strchr(afterName, ':');\n if (afterList==nullptr)\n afterList = ::strchr(afterName, '=');\n if (afterList==nullptr)\n afterList = afterName + strlen(afterName); // to end\n if (afterList!=afterName)\n {\n std::string listString(afterName, afterList);\n parseAdaptersList(listString.c_str(), param.adapters, param.allAdapters);\n afterName = afterList;\n }\n }\n catch(const Error& error)\n {\n std::cerr << \"Can't parse adapter list for '\" << string << \"': \" <<\n error.what() << std::endl;\n return false;\n }\n }\n else if (*afterName==0)\n {\n std::cerr << \"Unterminated parameter '\" << string << \"'!\" << std::endl;\n return false;\n }\n \n if (*afterName==':' && !partIdSet)\n {\n afterName++;\n errno = 0;\n int value = strtol(afterName, &next, 10);\n if (errno!=0)\n {\n std::cerr << \"Can't parse partId in '\" << string << \"'!\" << std::endl;\n return false;\n }\n if (afterName != next)\n param.partId = value;\n afterName = next;\n }\n else if (*afterName==0)\n {\n std::cerr << \"Unterminated parameter '\" << string << \"'!\" << std::endl;\n return false;\n }\n \n if (*afterName=='=')\n {\n afterName++;\n errno = 0;\n if (::strcmp(afterName, \"default\")==0)\n {\n param.useDefault = true;\n afterName += 7;\n }\n else\n {\n param.value = strtod(afterName, &next);\n if (errno!=0 || afterName==next)\n {\n std::cerr << \"Can't parse value in '\" << string << \"'!\" << std::endl;\n return false;\n }\n if (std::isinf(param.value) || std::isnan(param.value))\n {\n std::cerr << \"Value of '\" << string << \"' is not finite!\" << std::endl;\n return false;\n }\n afterName = next;\n }\n if (*afterName!=0)\n {\n std::cerr << \"Garbages in '\" << string << \"'!\" << std::endl;\n return false;\n }\n }\n else\n {\n std::cerr << \"Unterminated parameter '\" << string << \"'!\" << std::endl;\n return false;\n }\n /*std::cout << \"param: \" << int(param.type) << \", dev: \" << param.adapterIndex <<\n \", pid: \" << param.partId << \", value=\" << param.value << std::endl;*/\n return true;\n}\n\nstruct FanSpeedSetup\n{\n double value;\n bool useDefault;\n bool isSet;\n};\n\nstruct AdapterIterator\n{\n const std::vector& adapters;\n bool allAdapters;\n int allAdaptersNum;\n int position;\n \n AdapterIterator(const std::vector& _adapters, bool _allAdapters,\n int _allAdaptersNum) : adapters(_adapters), allAdapters(_allAdapters),\n allAdaptersNum(_allAdaptersNum), position(0)\n { }\n \n AdapterIterator& operator++()\n {\n position++;\n return *this;\n }\n \n operator bool() const\n {\n return (!allAdapters && position < int(adapters.size())) ||\n (allAdapters && position < allAdaptersNum);\n }\n bool operator!() const\n {\n return !((!allAdapters && position < int(adapters.size())) ||\n (allAdapters && position < allAdaptersNum));\n }\n int operator*() const\n { return allAdapters ? position : adapters[position]; }\n};\n\n#ifdef HAVE_ADLSDK\nstatic void setOVCParameters(ADLMainControl& mainControl, int adaptersNum,\n const std::vector& activeAdapters,\n const std::vector& ovcParams)\n{\n setTermBold();\n std::cout << \"WARNING: setting AMD Overdrive parameters!\" << std::endl;\n std::cout <<\n \"\\nIMPORTANT NOTICE: Before any setting of AMD Overdrive parameters,\\n\"\n \"please STOP ANY GPU computations and GPU renderings.\\n\"\n \"Please use this utility CAREFULLY, because it can DAMAGE your hardware!\\n\" \n << std::endl;\n \n setTermForeground(SaneColor::BAD);\n \n const int realAdaptersNum = activeAdapters.size();\n std::vector odParams(realAdaptersNum);\n std::vector > perfLevels(realAdaptersNum);\n std::vector > defaultPerfLevels(realAdaptersNum);\n std::vector changedDevices(realAdaptersNum);\n std::fill(changedDevices.begin(), changedDevices.end(), false);\n \n bool failed = false;\n for (OVCParameter param: ovcParams)\n if (!param.allAdapters)\n {\n bool listFailed = false;\n for (int adapterIndex: param.adapters)\n if (!listFailed && (adapterIndex>=realAdaptersNum || adapterIndex<0))\n {\n std::cerr << \"Some adapter indices out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n listFailed = failed = true;\n }\n }\n \n // check fanspeed\n for (OVCParameter param: ovcParams)\n if (param.type==OVCParamType::FAN_SPEED)\n {\n if(param.partId!=0)\n {\n std::cerr << \"Thermal Control Index is not 0 in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n if(!param.useDefault && (param.value<0.0 || param.value>100.0))\n {\n std::cerr << \"FanSpeed value out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n }\n \n for (int ai = 0; ai < realAdaptersNum; ai++)\n {\n int i = activeAdapters[ai];\n mainControl.getODParameters(i, odParams[ai]);\n perfLevels[ai].resize(odParams[ai].iNumberOfPerformanceLevels);\n defaultPerfLevels[ai].resize(odParams[ai].iNumberOfPerformanceLevels);\n mainControl.getODPerformanceLevels(i, 0, odParams[ai].iNumberOfPerformanceLevels,\n perfLevels[ai].data());\n mainControl.getODPerformanceLevels(i, 1, odParams[ai].iNumberOfPerformanceLevels,\n defaultPerfLevels[ai].data());\n }\n \n // check other params\n for (OVCParameter param: ovcParams)\n if (param.type!=OVCParamType::FAN_SPEED)\n for (AdapterIterator ait(param.adapters, param.allAdapters, realAdaptersNum);\n ait; ++ait)\n {\n int i = *ait;\n if (i>=realAdaptersNum)\n continue;\n int partId = (param.partId!=LAST_PERFLEVEL)?param.partId:\n odParams[i].iNumberOfPerformanceLevels-1;\n if (partId >= odParams[i].iNumberOfPerformanceLevels || partId < 0)\n {\n std::cerr << \"Performance level out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n continue;\n }\n switch(param.type)\n {\n case OVCParamType::CORE_CLOCK:\n if (!param.useDefault &&\n (param.value < odParams[i].sEngineClock.iMin/100.0 ||\n param.value > odParams[i].sEngineClock.iMax/100.0))\n {\n std::cerr << \"Core clock out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::MEMORY_CLOCK:\n if (!param.useDefault &&\n (param.value < odParams[i].sMemoryClock.iMin/100.0 ||\n param.value > odParams[i].sMemoryClock.iMax/100.0))\n {\n std::cerr << \"Memory clock out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::VDDC_VOLTAGE:\n if (!param.useDefault &&\n (param.value < odParams[i].sVddc.iMin/1000.0 ||\n param.value > odParams[i].sVddc.iMax/1000.0))\n {\n std::cerr << \"Voltage out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n default:\n break;\n }\n }\n if (failed)\n {\n std::cerr << \"NO ANY settings applied. Error in parameters!\" << std::endl;\n throw Error(\"Wrong parameters!\");\n }\n \n setTermStdForeground();\n \n // print what has been changed\n for (OVCParameter param: ovcParams)\n if (param.type==OVCParamType::FAN_SPEED)\n for (AdapterIterator ait(param.adapters, param.allAdapters, realAdaptersNum);\n ait; ++ait)\n {\n std::cout << \"Setting fanspeed to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \"%\";\n std::cout << \" for adapter \" << *ait << \" at thermal controller \" <<\n param.partId << std::endl;\n }\n for (OVCParameter param: ovcParams)\n if (param.type!=OVCParamType::FAN_SPEED)\n for (AdapterIterator ait(param.adapters, param.allAdapters, realAdaptersNum);\n ait; ++ait)\n {\n int i = *ait;\n int partId = (param.partId!=LAST_PERFLEVEL)?param.partId:\n odParams[i].iNumberOfPerformanceLevels-1;\n switch(param.type)\n {\n case OVCParamType::CORE_CLOCK:\n std::cout << \"Setting core clock to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \" MHz\";\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::MEMORY_CLOCK:\n std::cout << \"Setting memory clock to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \" MHz\";\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::CUR_CORE_CLOCK:\n std::cout << \"Current core clock available only for \"\n \"AMDGPU-(PRO) drivers.\" << std::endl;\n break;\n case OVCParamType::CUR_MEMORY_CLOCK:\n std::cout << \"Current memory clock available only for \"\n \"AMDGPU-(PRO) drivers.\" << std::endl;\n break;\n case OVCParamType::CORE_OD:\n std::cout << \"Core OD available only for \"\n \"AMDGPU-(PRO) drivers.\" << std::endl;\n break;\n case OVCParamType::MEMORY_OD:\n std::cout << \"Memory OD available only for \"\n \"AMDGPU-(PRO) drivers.\" << std::endl;\n break;\n case OVCParamType::VDDC_VOLTAGE:\n std::cout << \"Setting Vddc voltage to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \" V\";\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::CORE_PERF_LEVEL:\n std::cout << \"Core perf level available only for \"\n \"AMDGPU-(PRO) drivers.\" << std::endl;\n break;\n case OVCParamType::MEMORY_PERF_LEVEL:\n std::cout << \"Memory perf level available only for \"\n \"AMDGPU-(PRO) drivers.\" << std::endl;\n break;\n default:\n break;\n }\n }\n \n std::vector fanSpeedSetups(realAdaptersNum);\n std::fill(fanSpeedSetups.begin(), fanSpeedSetups.end(),\n FanSpeedSetup{ 0.0, false, false });\n for (OVCParameter param: ovcParams)\n if (param.type==OVCParamType::FAN_SPEED)\n for (AdapterIterator ait(param.adapters, param.allAdapters, realAdaptersNum);\n ait; ++ait)\n {\n fanSpeedSetups[*ait].value = param.value;\n fanSpeedSetups[*ait].useDefault = param.useDefault;\n fanSpeedSetups[*ait].isSet = true;\n }\n \n for (OVCParameter param: ovcParams)\n if (param.type!=OVCParamType::FAN_SPEED)\n for (AdapterIterator ait(param.adapters, param.allAdapters, realAdaptersNum);\n ait; ++ait)\n {\n int i = *ait;\n int partId = (param.partId!=LAST_PERFLEVEL)?param.partId:\n odParams[i].iNumberOfPerformanceLevels-1;\n ADLODPerformanceLevel& perfLevel = perfLevels[i][partId];\n const ADLODPerformanceLevel& defaultPerfLevel = defaultPerfLevels[i][partId];\n switch(param.type)\n {\n case OVCParamType::CORE_CLOCK:\n if (param.useDefault)\n perfLevel.iEngineClock = defaultPerfLevel.iEngineClock;\n else\n perfLevel.iEngineClock = int(round(param.value*100.0));\n break;\n case OVCParamType::MEMORY_CLOCK:\n if (param.useDefault)\n perfLevel.iMemoryClock = defaultPerfLevel.iMemoryClock;\n else\n perfLevel.iMemoryClock = int(round(param.value*100.0));\n break;\n case OVCParamType::VDDC_VOLTAGE:\n if (param.useDefault)\n perfLevel.iVddc = defaultPerfLevel.iVddc;\n else if (perfLevel.iVddc==0)\n std::cout << \"Voltage for adapter \" << i <<\n \" is not set!\" << std::endl;\n else\n perfLevel.iVddc = int(round(param.value*1000.0));\n break;\n default:\n break;\n }\n changedDevices[i] = true;\n }\n \n setTermNormal(); // reset terminal mode\n /// set fan speeds\n for (int i = 0; i < realAdaptersNum; i++)\n if (fanSpeedSetups[i].isSet)\n {\n if (!fanSpeedSetups[i].useDefault)\n mainControl.setFanSpeed(activeAdapters[i], 0 /* must be zero */,\n int(round(fanSpeedSetups[i].value)));\n else\n mainControl.setFanSpeedToDefault(activeAdapters[i], 0);\n }\n \n // set od perflevels\n for (int i = 0; i < realAdaptersNum; i++)\n if (changedDevices[i])\n mainControl.setODPerformanceLevels(activeAdapters[i],\n odParams[i].iNumberOfPerformanceLevels, perfLevels[i].data());\n}\n#endif\n\n/* AMDGPU code */\n\nstruct PerfClocks\n{\n unsigned int coreClock;\n unsigned int memoryClock;\n unsigned int curCoreClock;\n unsigned int curMemoryClock;\n};\n\nstatic void setOVCParameters(AMDGPUAdapterHandle& handle,\n const std::vector& ovcParams,\n const std::vector& perfClocks,\n const std::vector& adapterInfos)\n{\n setTermBold();\n std::cout << \"WARNING: setting AMD Overdrive parameters!\" << std::endl;\n std::cout <<\n \"\\nIMPORTANT NOTICE: Before any setting of AMD Overdrive parameters,\\n\"\n \"please STOP ANY GPU computations and GPU renderings.\\n\"\n \"Please use this utility CAREFULLY, because it can DAMAGE your hardware!\\n\" \n << std::endl;\n \n setTermForeground(SaneColor::BAD);\n \n bool failed = false;\n int adaptersNum = handle.getAdaptersNum();\n for (OVCParameter param: ovcParams)\n if (!param.allAdapters)\n {\n bool listFailed = false;\n for (int adapterIndex: param.adapters)\n if (!listFailed && (adapterIndex>=adaptersNum || adapterIndex<0))\n {\n std::cerr << \"Some adapter indices out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n listFailed = failed = true;\n }\n }\n \n // check fanspeed\n for (OVCParameter param: ovcParams)\n if (param.type==OVCParamType::FAN_SPEED)\n {\n if(param.partId!=0)\n {\n std::cerr << \"Thermal Control Index is not 0 in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n if(!param.useDefault && (param.value<0.0 || param.value>100.0))\n {\n std::cerr << \"FanSpeed value out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n }\n \n // check other params\n for (OVCParameter param: ovcParams)\n if (param.type!=OVCParamType::FAN_SPEED)\n {\n for (AdapterIterator ait(param.adapters, param.allAdapters, adaptersNum);\n ait; ++ait)\n {\n int i = *ait;\n if (i>=adaptersNum)\n continue;\n \n int partId = (param.partId!=LAST_PERFLEVEL)?param.partId:0;\n if (partId != 0)\n {\n std::cerr << \"Performance level out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n continue;\n }\n \n const PerfClocks& perfClks = perfClocks[i];\n const std::vector& coreClocks =\n adapterInfos[i].coreClocks;\n const std::vector& memoryClocks =\n adapterInfos[i].memoryClocks;\n const std::vector& socClocks =\n adapterInfos[i].socClocks;\n const std::vector& dcefClocks =\n adapterInfos[i].dcefClocks;\n const std::vector& fClocks =\n adapterInfos[i].fClocks;\n \n switch(param.type)\n {\n case OVCParamType::CORE_CLOCK:\n if (!param.useDefault &&\n (param.value < perfClks.coreClock ||\n param.value > perfClks.coreClock*1.20))\n {\n std::cerr << \"Core clock out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::MEMORY_CLOCK:\n if (!param.useDefault &&\n (param.value < perfClks.memoryClock ||\n param.value > perfClks.memoryClock*1.20))\n {\n std::cerr << \"Memory clock out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::CUR_CORE_CLOCK:\n if (!param.useDefault &&\n (size_t(param.value) != param.value ||\n std::find(coreClocks.begin(), coreClocks.end(),\n (unsigned int)param.value) == coreClocks.end()))\n {\n std::cerr << \"Wrong current core clock '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::CUR_MEMORY_CLOCK:\n if (!param.useDefault &&\n (size_t(param.value) != param.value ||\n std::find(memoryClocks.begin(), memoryClocks.end(),\n (unsigned int)param.value) == memoryClocks.end()))\n {\n std::cerr << \"Wrong current memory clock '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::CUR_SOC_CLOCK:\n if (!param.useDefault &&\n (size_t(param.value) != param.value ||\n std::find(socClocks.begin(), socClocks.end(),\n (unsigned int)param.value) == socClocks.end()))\n {\n std::cerr << \"Wrong current SOC clock '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::CUR_DCEF_CLOCK:\n if (!param.useDefault &&\n (size_t(param.value) != param.value ||\n std::find(dcefClocks.begin(), dcefClocks.end(),\n (unsigned int)param.value) == dcefClocks.end()))\n {\n std::cerr << \"Wrong current DCEF clock '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::CUR_F_CLOCK:\n if (!param.useDefault &&\n (size_t(param.value) != param.value ||\n std::find(fClocks.begin(), fClocks.end(),\n (unsigned int)param.value) == fClocks.end()))\n {\n std::cerr << \"Wrong current F clock '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::CORE_OD:\n if (!param.useDefault &&\n (param.value < 0.0 || param.value > 20.0))\n {\n std::cerr << \"Core Overdrive out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::MEMORY_OD:\n if (!param.useDefault &&\n (param.value < 0.0 || param.value > 20.0))\n {\n std::cerr << \"Memory Overdrive out of range in '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::CORE_PERF_LEVEL:\n if (!param.useDefault &&\n (param.value < 0.0 || param.value >= coreClocks.size() ||\n size_t(param.value) != param.value))\n {\n std::cerr << \"Wrong core performance level '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n case OVCParamType::MEMORY_PERF_LEVEL:\n if (!param.useDefault &&\n (param.value < 0.0 || param.value >= memoryClocks.size() ||\n size_t(param.value) != param.value))\n {\n std::cerr << \"Wrong memory performance level '\" <<\n param.argText << \"'!\" << std::endl;\n failed = true;\n }\n break;\n default:\n break;\n }\n }\n }\n \n if (failed)\n {\n std::cerr << \"NO ANY settings applied. Error in parameters!\" << std::endl;\n throw Error(\"Wrong parameters!\");\n }\n \n // print informations in bold\n setTermStdForeground();\n \n // print what has been changed\n for (OVCParameter param: ovcParams)\n if (param.type==OVCParamType::FAN_SPEED)\n for (AdapterIterator ait(param.adapters, param.allAdapters, adaptersNum);\n ait; ++ait)\n {\n std::cout << \"Setting fanspeed to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \"%\";\n std::cout << \" for adapter \" << *ait << \" at thermal controller \" <<\n param.partId << std::endl;\n }\n for (OVCParameter param: ovcParams)\n if (param.type!=OVCParamType::FAN_SPEED)\n for (AdapterIterator ait(param.adapters, param.allAdapters, adaptersNum);\n ait; ++ait)\n {\n int i = *ait;\n int partId = (param.partId!=LAST_PERFLEVEL)?param.partId:0;\n switch(param.type)\n {\n case OVCParamType::CORE_CLOCK:\n std::cout << \"Setting core clock to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \" MHz\";\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::MEMORY_CLOCK:\n std::cout << \"Setting memory clock to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \" MHz\";\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::CUR_CORE_CLOCK:\n std::cout << \"Setting current core clock to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \" MHz\";\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::CUR_MEMORY_CLOCK:\n std::cout << \"Setting current memory clock to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \" MHz\";\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::CUR_SOC_CLOCK:\n std::cout << \"Setting current SOC clock to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \" MHz\";\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::CUR_DCEF_CLOCK:\n std::cout << \"Setting current DCEF clock to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \" MHz\";\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::CUR_F_CLOCK:\n std::cout << \"Setting current F clock to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value << \" MHz\";\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::CORE_OD:\n std::cout << \"Setting core overdrive to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value;\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::MEMORY_OD:\n std::cout << \"Setting memory overdrive to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value;\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::VDDC_VOLTAGE:\n std::cout << \"VDDC voltage available only for \"\n \"AMD Catalyst/Crimson drivers.\" << std::endl;\n break;\n case OVCParamType::CORE_PERF_LEVEL:\n std::cout << \"Setting core performance level to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value;\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n case OVCParamType::MEMORY_PERF_LEVEL:\n std::cout << \"Setting memory performance level to \";\n if (param.useDefault)\n std::cout << \"default\";\n else\n std::cout << param.value;\n std::cout << \" for adapter \" << i <<\n \" at performance level \" << partId << std::endl;\n break;\n default:\n break;\n }\n }\n setTermNormal(); // reset terminal modes\n \n std::vector fanSpeedSetups(adaptersNum);\n std::fill(fanSpeedSetups.begin(), fanSpeedSetups.end(),\n FanSpeedSetup{ 0.0, false, false });\n for (OVCParameter param: ovcParams)\n if (param.type==OVCParamType::FAN_SPEED)\n for (AdapterIterator ait(param.adapters, param.allAdapters, adaptersNum);\n ait; ++ait)\n {\n fanSpeedSetups[*ait].value = param.value;\n fanSpeedSetups[*ait].useDefault = param.useDefault;\n fanSpeedSetups[*ait].isSet = true;\n }\n \n for (OVCParameter param: ovcParams)\n if (param.type!=OVCParamType::FAN_SPEED)\n for (AdapterIterator ait(param.adapters, param.allAdapters, adaptersNum);\n ait; ++ait)\n {\n int i = *ait;\n const PerfClocks& perfClks = perfClocks[i];\n const std::vector& coreClocks =\n adapterInfos[i].coreClocks;\n const std::vector& memoryClocks =\n adapterInfos[i].memoryClocks;\n const std::vector& socClocks =\n adapterInfos[i].socClocks;\n const std::vector& dcefClocks =\n adapterInfos[i].dcefClocks;\n const std::vector& fClocks =\n adapterInfos[i].fClocks;\n \n switch(param.type)\n {\n case OVCParamType::CORE_CLOCK:\n if (param.useDefault)\n handle.setOverdriveCoreParam(i, 0);\n else\n handle.setOverdriveCoreParam(i,\n int(round((double(param.value - perfClks.coreClock) /\n perfClks.coreClock)*100.0)));\n break;\n case OVCParamType::MEMORY_CLOCK:\n if (param.useDefault)\n handle.setOverdriveMemoryParam(i, 0);\n else\n handle.setOverdriveMemoryParam(i,\n int(round((double(param.value - perfClks.memoryClock) /\n perfClks.memoryClock)*100.0)));\n break;\n case OVCParamType::CUR_CORE_CLOCK:\n if (param.useDefault)\n handle.setPerformanceControl(i, AMDGPUPerfControl::AUTO);\n else\n {\n auto ccit = std::find(coreClocks.begin(), coreClocks.end(),\n (unsigned int)round(param.value));\n if (ccit != coreClocks.end())\n handle.setPerfCoreLevel(i, ccit-coreClocks.begin());\n }\n break;\n case OVCParamType::CUR_MEMORY_CLOCK:\n if (param.useDefault)\n handle.setPerformanceControl(i, AMDGPUPerfControl::AUTO);\n else\n {\n auto cmit = std::find(memoryClocks.begin(), memoryClocks.end(),\n (unsigned int)round(param.value));\n if (cmit != memoryClocks.end())\n handle.setPerfMemoryLevel(i, cmit-memoryClocks.begin());\n }\n break;\n case OVCParamType::CUR_SOC_CLOCK:\n if (param.useDefault)\n handle.setPerformanceControl(i, AMDGPUPerfControl::AUTO);\n else\n {\n auto cmit = std::find(socClocks.begin(), socClocks.end(),\n (unsigned int)round(param.value));\n if (cmit != socClocks.end())\n handle.setPerfSOCLevel(i, cmit-socClocks.begin());\n }\n break;\n case OVCParamType::CUR_DCEF_CLOCK:\n if (param.useDefault)\n handle.setPerformanceControl(i, AMDGPUPerfControl::AUTO);\n else\n {\n auto cmit = std::find(dcefClocks.begin(), dcefClocks.end(),\n (unsigned int)round(param.value));\n if (cmit != dcefClocks.end())\n handle.setPerfDCEFLevel(i, cmit-dcefClocks.begin());\n }\n break;\n case OVCParamType::CUR_F_CLOCK:\n if (param.useDefault)\n handle.setPerformanceControl(i, AMDGPUPerfControl::AUTO);\n else\n {\n auto cmit = std::find(fClocks.begin(), fClocks.end(),\n (unsigned int)round(param.value));\n if (cmit != fClocks.end())\n handle.setPerfFLevel(i, cmit-fClocks.begin());\n }\n break;\n case OVCParamType::CORE_OD:\n if (param.useDefault)\n handle.setOverdriveCoreParam(i, 0);\n else\n handle.setOverdriveCoreParam(i, int(round(param.value)));\n break;\n case OVCParamType::MEMORY_OD:\n if (param.useDefault)\n handle.setOverdriveMemoryParam(i, 0);\n else\n handle.setOverdriveMemoryParam(i, int(round(param.value)));\n break;\n case OVCParamType::CORE_PERF_LEVEL:\n if (param.useDefault)\n handle.setPerformanceControl(i, AMDGPUPerfControl::AUTO);\n else\n handle.setPerfCoreLevel(i, int(round(param.value)));\n break;\n case OVCParamType::MEMORY_PERF_LEVEL:\n if (param.useDefault)\n handle.setPerformanceControl(i, AMDGPUPerfControl::AUTO);\n else\n handle.setPerfMemoryLevel(i, int(round(param.value)));\n break;\n default:\n break;\n }\n }\n\n /// set fan speeds\n for (int i = 0; i < adaptersNum; i++)\n if (fanSpeedSetups[i].isSet)\n {\n if (!fanSpeedSetups[i].useDefault)\n handle.setFanSpeed(i, int(round(fanSpeedSetups[i].value)));\n else\n handle.setFanSpeedToDefault(i);\n }\n}\n\n/* AMDGPU code */\n\nstatic const char* helpAndUsageString =\n\"amdcovc \" AMDCOVC_VERSION \" by Mateusz Szpakowski (matszpk@interia.pl)\\n\"\n\"Program is distributed under terms of the GPLv2.\\n\"\n\"Program available at https://github.com/matszpk/amdcovc.\\n\"\n\"\\n\"\n\"Usage: amdcovc [--help|-?] [-v|--verbose] [-a LIST|--adapters=LIST]\\n\"\n\"[-w N|--watch=N] [PARAM ...]\\n\"\n\"Print AMD Overdrive informations if no parameter given.\\n\"\n\"Set AMD Overdrive parameters (clocks, fanspeeds,...) if any parameter given.\\n\"\n\"\\n\"\n\"List of parameters:\\n\"\n\" coreclk[:[ADAPTERS][:LEVEL]]=CLOCK set core clock in MHz\\n\"\n\" memclk[:[ADAPTERS][:LEVEL]]=CLOCK set memory clock in MHz\\n\"\n\" ccoreclk[:[ADAPTERS][:LEVEL]]=CLOCK set current core clock in MHz (AMDGPU)\\n\"\n\" cmemclk[:[ADAPTERS][:LEVEL]]=CLOCK set current memory clock in MHz (AMDGPU)\\n\"\n\" csocclk[:[ADAPTERS][:LEVEL]]=CLOCK set current SOC clock in MHz (AMDGPU) (vega)\\n\"\n\" cdcefclk[:[ADAPTERS][:LEVEL]]=CLOCK set current DCEF clock in MHz (AMDGPU) (vega)\\n\"\n\" cfclk[:[ADAPTERS][:LEVEL]]=CLOCK set current F clock in MHz (AMDGPU) (vega2)\\n\"\n\" coreod[:[ADAPTERS][:LEVEL]]=PERCENT set core Overdrive in percent (AMDGPU)\\n\"\n\" memod[:[ADAPTERS][:LEVEL]]=PERCENT set memory Overdrive in percent (AMDGPU)\\n\"\n\" coreod[:[ADAPTERS][:LEVEL]]=LEVEL set core performance level (AMDGPU)\\n\"\n\" memod[:[ADAPTERS][:LEVEL]]=LEVEL set memory performance level (AMDGPU)\\n\"\n\" vcore[:[ADAPTERS][:LEVEL]]=VOLTAGE set Vddc voltage in Volts\\n\"\n\" icoreclk[:ADAPTERS]=CLOCK set core clock in MHz for idle level\\n\"\n\" imemclk[:ADAPTERS]=CLOCK set memory clock in MHz for idle level\\n\"\n\" ivcore[:ADAPTERS]=VOLTAGE set Vddc voltage in Volts for idle level\\n\"\n\" fanspeed[:[ADAPTERS][:THID]]=PERCENT set fanspeed in percents\\n\"\n\"Extra specifiers in parameters:\\n\"\n\" ADAPTERS adapter (devices) index list (default is 0)\\n\"\n\" LEVEL performance level (typically 0 or 1, default is last)\\n\"\n\" THID thermal controller index (must be 0)\\n\"\n\"You can use 'default' in value place to set default value.\\n\"\n\"For fanspeed 'default' value force automatic speed setup.\\n\"\n\"\\n\"\n\"List of options:\\n\"\n\" -a, --adapters=LIST print informations only for these adapters\\n\"\n\" -v, --verbose print verbose informations\\n\"\n\" -w, --watch=SECONDS print status every SECONDS seconds to terminal\\n\"\n\" --version print version\\n\"\n\" -?, --help print help\\n\"\n\"\\n\"\n\"Adapter list specified in parameters and '--adapter' option is comma-separated list\\n\"\n\"with ranges 'first-last' or 'all'. Examples: 'all', '0-2', '0,1,3-5'\\n\"\n\"\\n\"\n\"Sample usage:\\n\"\n\"amdcovc\\n\"\n\" print short informations about state of the all adapters\\n\"\n\"amdcovc -a 1,2,4-6\\n\"\n\" print short informations about adapter 1, 2 and 4 to 6\\n\"\n\"amdcovc coreclk:1=900 coreclk=1000\\n\"\n\" set core clock to 900 for adapter 1, set core clock to 1000 for adapter 0\\n\"\n\"amdcovc coreclk:1:0=900 coreclk:0:1=1000\\n\"\n\" set core clock to 900 for adapter 1 at performance level 0,\\n\"\n\" set core clock to 1000 for adapter 0 at performance level 1\\n\"\n\"amdcovc coreclk:1:0=default coreclk:0:1=default\\n\"\n\" set core clock to default for adapter 0 and 1\\n\"\n\"amdcovc fanspeed=75 fanspeed:2=60 fanspeed:1=default\\n\"\n\" set fanspeed to 75% for adapter 0 and set fanspeed to 60% for adapter 2\\n\"\n\" set fanspeed to default for adapter 1\\n\"\n\"amdcovc vcore=1.111 vcore::0=0.81\\n\"\n\" set Vddc voltage to 1.111 V for adapter 0\\n\"\n\" set Vddc voltage to 0.81 for adapter 0 for performance level 0\\n\"\n\"\\n\"\n\"Coloring and text styles:\\n\"\n\"AMDCOVC allow to control terminal text styling by two environment variables:\\n\"\n\" AMDCOVC_NOBOLD disable bold fonts\\n\"\n\" AMDCOVC_NOCOLOR disable text coloring\\n\"\n\"Set value of an environment variable to '1','on','y','true','t', 'on' or 'enable'\\n\"\n\"to enable its function.\\n\"\n\"\\n\";\nstatic const char* helpAndUsageStringCaution =\n\"IMPORTANT NOTICE: Before any setting of AMD Overdrive parameters,\\n\"\n\"please STOP ANY GPU computations and GPU renderings.\\n\"\n\"Please use this utility CAREFULLY, because it can DAMAGE your hardware!\\n\"\n\"\\n\";\nstatic const char* helpAndUsageStringNotes =\n\"NOTICE FOR AMD Crimson/Catalyst drivers:\\n\"\n\"If no X11 server is running, then this program requires root privileges.\\n\"\n\"NOTICE FOR AMDGPU(-PRO) drivers:\\n\"\n\"Any parameter settings requires root privileges.\\n\";\n\nint main(int argc, const char** argv)\ntry\n{\n initializeTermModes();\n bool printHelp = false;\n bool printVerbose = false;\n std::vector ovcParameters;\n std::vector choosenAdapters;\n bool useAdaptersList = false;\n bool chooseAllAdapters = false;\n int watch=0;\n \n {\n const char* loc = setlocale(LC_CTYPE, \"\");\n const size_t locLen = loc != nullptr ? ::strlen(loc) : 0;\n terminalUTF8 = locLen>=6 && ::strcmp(loc+locLen-6, \".UTF-8\")==0;\n loc = setlocale(LC_CTYPE, \"C\");\n }\n \n bool failed = false;\n for (int i = 1; i < argc; i++)\n if (::strcmp(argv[i], \"--help\")==0 || ::strcmp(argv[i], \"-?\")==0)\n printHelp = true;\n else if (::strcmp(argv[i], \"--verbose\")==0 || ::strcmp(argv[i], \"-v\")==0)\n printVerbose = true;\n else if (::strncmp(argv[i], \"--adapters=\", 11)==0)\n {\n parseAdaptersList(argv[i]+11, choosenAdapters, chooseAllAdapters);\n useAdaptersList = true;\n }\n else if (::strcmp(argv[i], \"--adapters\")==0)\n {\n if (i+1 < argc)\n {\n parseAdaptersList(argv[++i], choosenAdapters, chooseAllAdapters);\n useAdaptersList = true;\n }\n else\n throw Error(\"Adapter list not supplied\");\n }\n else if (::strncmp(argv[i], \"-a\", 2)==0)\n {\n if (argv[i][2]!=0)\n parseAdaptersList(argv[i]+2, choosenAdapters, chooseAllAdapters);\n else if (i+1 < argc)\n parseAdaptersList(argv[++i], choosenAdapters, chooseAllAdapters);\n else\n throw Error(\"Adapter list not supplied\");\n useAdaptersList = true;\n }\n else if (::strncmp(argv[i], \"--watch=\", 8)==0)\n {\n errno = 0;\n watch = strtoul(argv[i]+8, nullptr, 10);\n if (errno!=0)\n throw Error(\"Can't parse watch seconds\");\n }\n else if (::strcmp(argv[i], \"--watch\")==0)\n {\n if (i+1 < argc)\n {\n errno = 0;\n watch = strtoul(argv[++i], nullptr, 10);\n if (errno!=0)\n throw Error(\"Can't parse watch seconds\");\n }\n else\n throw Error(\"Watch seconds not supplied\");\n }\n else if (::strncmp(argv[i], \"-w\", 2)==0)\n {\n const char* p = 0;\n if (argv[i][2]!=0)\n p = argv[i]+2;\n else if (i+1 < argc)\n p = argv[++i];\n else\n throw Error(\"Watch seconds not supplied\");\n errno = 0;\n watch = strtoul(p, nullptr, 10);\n if (errno!=0)\n throw Error(\"Can't parse watch seconds\");\n }\n else if (::strcmp(argv[i], \"--version\")==0)\n {\n std::cout << \"amdcovc \" AMDCOVC_VERSION\n \" by Mateusz Szpakowski (matszpk@interia.pl)\\n\"\n \"Program is distributed under terms of the GPLv2.\\n\"\n \"Program available at https://github.com/matszpk/amdcovc.\\n\" << std::endl;\n return 0;\n }\n else\n {\n OVCParameter param;\n \n setTermBold();\n setTermForeground(SaneColor::BAD);\n \n if (parseOVCParameter(argv[i], param))\n ovcParameters.push_back(param);\n else\n failed = true;\n \n setTermStdForeground();\n setTermNormal();\n }\n if (printHelp)\n {\n std::cout << helpAndUsageString;\n setTermBold();\n std::cout << helpAndUsageStringCaution;\n setTermNormal();\n std::cout << helpAndUsageStringNotes;\n std::cout.flush();\n return 0;\n }\n \n if (failed)\n throw Error(\"Can't parse parameters\");\n \n#ifdef HAVE_ADLSDK\n ATIADLHandle handle;\n if (handle.open())\n { // AMD Catalyst/Crimson\n ADLMainControl mainControl(handle, 0);\n int adaptersNum = mainControl.getAdaptersNum();\n /* list for converting user indices to input indices to ADL interface */\n std::vector activeAdapters;\n getActiveAdaptersIndices(mainControl, adaptersNum, activeAdapters);\n \n if (useAdaptersList)\n // sort and check adapter list\n for (int adapterIndex: choosenAdapters)\n if (adapterIndex>=int(activeAdapters.size()) || adapterIndex<0)\n throw Error(\"Some adapter indices out of range\");\n \n if (!ovcParameters.empty())\n setOVCParameters(mainControl, adaptersNum, activeAdapters, ovcParameters);\n else\n {\n do {\n auto tstart = std::chrono::system_clock::now();\n if (watch!=0)\n beforePrintWatch(watch);\n if (printVerbose)\n printAdaptersInfoVerbose(mainControl, adaptersNum, activeAdapters,\n choosenAdapters, useAdaptersList && !chooseAllAdapters);\n else\n printAdaptersInfo(mainControl, adaptersNum, activeAdapters,\n choosenAdapters, useAdaptersList && !chooseAllAdapters);\n if (watch!=0)\n {\n auto tend = std::chrono::system_clock::now();\n auto dur = std::chrono::seconds(watch)-(tend-tstart);\n if (dur>std::chrono::seconds(0))\n std::this_thread::sleep_for(dur);\n }\n } while (watch!=0);\n }\n }\n else\n#endif\n { // AMD GPU(-PRO)\n AMDGPUAdapterHandle handle;\n if (!ovcParameters.empty())\n {\n std::vector perfClocks;\n for (unsigned int i = 0; i < handle.getAdaptersNum(); i++)\n {\n unsigned int coreClock, memoryClock;\n handle.getPerformanceClocks(i, coreClock, memoryClock);\n //std::cout << \"PerfClocks: \" << coreClock << \", \" << memoryClock << std::endl;\n perfClocks.push_back(PerfClocks{ coreClock, memoryClock });\n }\n std::vector adapterInfos;\n for (unsigned int i = 0; i < handle.getAdaptersNum(); i++)\n adapterInfos.push_back(handle.parseAdapterInfo(i));\n setOVCParameters(handle, ovcParameters, perfClocks, adapterInfos);\n }\n else\n {\n if (useAdaptersList)\n // sort and check adapter list\n for (int adapterIndex: choosenAdapters)\n if (adapterIndex>=int(handle.getAdaptersNum()) || adapterIndex<0)\n throw Error(\"Some adapter indices out of range\");\n \n do {\n auto tstart = std::chrono::system_clock::now();\n if (printVerbose)\n printAdaptersInfoVerbose(handle, choosenAdapters,\n useAdaptersList && !chooseAllAdapters, watch);\n else\n printAdaptersInfo(handle, choosenAdapters,\n useAdaptersList && !chooseAllAdapters, watch);\n if (watch!=0)\n {\n auto tend = std::chrono::system_clock::now();\n auto dur = std::chrono::seconds(watch)-(tend-tstart);\n if (dur>std::chrono::seconds(0))\n std::this_thread::sleep_for(dur);\n }\n } while (watch!=0);\n }\n }\n if (pciAccess!=nullptr)\n pci_cleanup(pciAccess);\n return 0;\n}\ncatch(const std::exception& ex)\n{\n if (pciAccess!=nullptr)\n pci_cleanup(pciAccess);\n setTermBold();\n setTermForeground(SaneColor::BAD);\n std::cerr << ex.what() << std::endl;\n setTermStdForeground();\n setTermNormal();\n return 1;\n}\n" } ]