Repository: tzapu/WiFiManager Branch: master Commit: 4131fe617d01 Files: 47 Total size: 418.9 KB Directory structure: gitextract_mj9uku1q/ ├── .github/ │ ├── CONTRIBUTING.md │ ├── ISSUE_TEMPLATE.md │ └── workflows/ │ ├── compile_examples.yaml │ ├── compile_library.yml │ └── cpp_lint.yml ├── .travis.yml ├── CMakeLists.txt ├── LICENSE ├── README.md ├── WiFiManager.cpp ├── WiFiManager.h ├── examples/ │ ├── Advanced/ │ │ └── Advanced.ino │ ├── Basic/ │ │ └── Basic.ino │ ├── NonBlocking/ │ │ ├── AutoConnectNonBlocking/ │ │ │ └── AutoConnectNonBlocking.ino │ │ ├── AutoConnectNonBlockingwParams/ │ │ │ └── AutoConnectNonBlockingwParams.ino │ │ └── OnDemandNonBlocking/ │ │ └── OnDemandNonBlocking.ino │ ├── Old_examples/ │ │ ├── AutoConnectWithFeedback/ │ │ │ └── AutoConnectWithFeedback.ino │ │ ├── AutoConnectWithReset/ │ │ │ └── AutoConnectWithReset.ino │ │ ├── AutoConnectWithStaticIP/ │ │ │ └── AutoConnectWithStaticIP.ino │ │ └── AutoConnectWithTimeout/ │ │ └── AutoConnectWithTimeout.ino │ ├── OnDemand/ │ │ ├── OnDemandConfigPortal/ │ │ │ └── OnDemandConfigPortal.ino │ │ └── OnDemandWebPortal/ │ │ └── OnDemandWebPortal.ino │ ├── Parameters/ │ │ ├── LittleFS/ │ │ │ └── LittleFSParameters.ino │ │ └── SPIFFS/ │ │ ├── AutoConnectWithFSParameters/ │ │ │ └── AutoConnectWithFSParameters.ino │ │ └── AutoConnectWithFSParametersAndCustomIP/ │ │ └── AutoConnectWithFSParametersAndCustomIP.ino │ ├── ParamsChildClass/ │ │ └── ParamsChildClass.ino │ ├── Super/ │ │ └── OnDemandConfigPortal/ │ │ └── OnDemandConfigPortal.ino │ ├── Tests/ │ │ └── wifi_softap/ │ │ └── wifi_softap.ino │ └── Unique/ │ └── cb/ │ └── AnonymousCB.ino ├── extras/ │ ├── WiFiManager.template.html │ ├── parse.js │ ├── template.h │ └── test.html ├── keywords.txt ├── library.json ├── library.properties ├── strings_en.h ├── travis/ │ └── common.sh ├── wm_consts_de.h ├── wm_consts_en.h ├── wm_consts_fr.h ├── wm_strings_de.h ├── wm_strings_en.h ├── wm_strings_es.h ├── wm_strings_fr.h ├── wm_strings_pt.h └── wm_strings_pt_br.h ================================================ FILE CONTENTS ================================================ ================================================ FILE: .github/CONTRIBUTING.md ================================================ ## Contributing PRs and ISSUES The development branch is the active branch, no features or bugs will be fixed against master ( hotfixes may be considered ). Please test against development branch before submitting issues, issues against master will be closed, PRs against master may be kept open if provides something useful to other members. Please open issues before sumbitting PRs against development, as commits might be occuring very frequently. ### Documentation is in progress https://github.com/tzapu/WiFiManager/issues/500 ================================================ FILE: .github/ISSUE_TEMPLATE.md ================================================ ## PLEASE TRY Latest Master BRANCH before submitting bugs, in case they were already fixed. ## Issues without basic info will be ignored or closed! Please fill the info fields, it helps to get you faster support ;) if you have a stack dump decode it: https://github.com/esp8266/Arduino/blob/master/doc/Troubleshooting/stack_dump.rst for better debug messages: https://github.com/esp8266/Arduino/blob/master/doc/Troubleshooting/debugging.rst ----------------------------- Remove above ----------------------------- ### Basic Infos #### Hardware WiFimanager Branch/Release: Master Esp8266/Esp32: Hardware: ESP-12e, esp01, esp25 Core Version: 2.4.0, staging ### Description Problem description ### Settings in IDE Module: NodeMcu, Wemos D1 Additional libraries: ### Sketch ```cpp #BEGIN #include void setup() { } void loop() { } #END ``` ### Debug Messages ``` messages here ``` ================================================ FILE: .github/workflows/compile_examples.yaml ================================================ name: Compile examples on: push: paths-ignore: - '.github/workflows/cpp_lint.yml' - '.github/workflows/compile_library.yml' pull_request: paths-ignore: - '.github/workflows/cpp_lint.yml' - '.github/workflows/compile_library.yml' jobs: esp8266: runs-on: ubuntu-latest strategy: fail-fast: false matrix: example: - "examples/Parameters/SPIFFS/AutoConnectWithFSParametersAndCustomIP/AutoConnectWithFSParametersAndCustomIP.ino" - "examples/Parameters/SPIFFS/AutoConnectWithFSParameters/AutoConnectWithFSParameters.ino" - "examples/NonBlocking/OnDemandNonBlocking/OnDemandNonBlocking.ino" - "examples/NonBlocking/AutoConnectNonBlockingwParams/AutoConnectNonBlockingwParams.ino" - "examples/NonBlocking/AutoConnectNonBlocking/AutoConnectNonBlocking.ino" - "examples/Basic/Basic.ino" - "examples/Super/OnDemandConfigPortal/OnDemandConfigPortal.ino" - "examples/Advanced/Advanced.ino" - "examples/Old_examples/AutoConnectWithStaticIP/AutoConnectWithStaticIP.ino" - "examples/Old_examples/AutoConnectWithFeedback/AutoConnectWithFeedback.ino" - "examples/Old_examples/AutoConnectWithReset/AutoConnectWithReset.ino" - "examples/Old_examples/AutoConnectWithTimeout/AutoConnectWithTimeout.ino" - "examples/ParamsChildClass/ParamsChildClass.ino" - "examples/OnDemand/OnDemandConfigPortal/OnDemandConfigPortal.ino" - "examples/OnDemand/OnDemandWebPortal/OnDemandWebPortal.ino" steps: - uses: actions/checkout@v2 - name: Cache pip uses: actions/cache@v2 with: path: ~/.cache/pip key: ${{ runner.os }}-pip-${{ hashFiles('**/requirements.txt') }}-${{ github.ref }} restore-keys: | ${{ runner.os }}-pip-${{ github.ref }}- ${{ runner.os }}-pip- - name: Cache PlatformIO uses: actions/cache@v2 with: path: ~/.platformio key: ${{ runner.os }}-${{ hashFiles('**/lockfiles') }}-${{ github.ref }} restore-keys: | ${{ runner.os }}-${{ github.ref }}- ${{ runner.os }}- - name: Set up Python uses: actions/setup-python@v2 - name: Install PlatformIO run: | python -m pip install --upgrade pip pip install --upgrade platformio - name: Install 3rd party dependencies run: | pio lib -g install \ file://. \ https://github.com/bblanchon/ArduinoJson \ https://github.com/knolleary/pubsubclient - name: Run PlatformIO Examples run: pio ci --board=nodemcuv2 env: PLATFORMIO_CI_SRC: ${{ matrix.example }} esp32: runs-on: ubuntu-latest strategy: fail-fast: false matrix: example: - "examples/Parameters/SPIFFS/AutoConnectWithFSParametersAndCustomIP/AutoConnectWithFSParametersAndCustomIP.ino" - "examples/Parameters/SPIFFS/AutoConnectWithFSParameters/AutoConnectWithFSParameters.ino" - "examples/NonBlocking/OnDemandNonBlocking/OnDemandNonBlocking.ino" - "examples/NonBlocking/AutoConnectNonBlockingwParams/AutoConnectNonBlockingwParams.ino" - "examples/NonBlocking/AutoConnectNonBlocking/AutoConnectNonBlocking.ino" - "examples/Basic/Basic.ino" - "examples/Super/OnDemandConfigPortal/OnDemandConfigPortal.ino" - "examples/Advanced/Advanced.ino" - "examples/Old_examples/AutoConnectWithStaticIP/AutoConnectWithStaticIP.ino" - "examples/Old_examples/AutoConnectWithFeedback/AutoConnectWithFeedback.ino" - "examples/Old_examples/AutoConnectWithReset/AutoConnectWithReset.ino" - "examples/Old_examples/AutoConnectWithTimeout/AutoConnectWithTimeout.ino" - "examples/ParamsChildClass/ParamsChildClass.ino" - "examples/OnDemand/OnDemandConfigPortal/OnDemandConfigPortal.ino" - "examples/OnDemand/OnDemandWebPortal/OnDemandWebPortal.ino" steps: - uses: actions/checkout@v2 - name: Cache pip uses: actions/cache@v2 with: path: ~/.cache/pip key: ${{ runner.os }}-pip-${{ hashFiles('**/requirements.txt') }}-${{ github.ref }} restore-keys: | ${{ runner.os }}-pip-${{ github.ref }}- ${{ runner.os }}-pip- - name: Cache PlatformIO uses: actions/cache@v2 with: path: ~/.platformio key: ${{ runner.os }}-${{ hashFiles('**/lockfiles') }}-${{ github.ref }} restore-keys: | ${{ runner.os }}-${{ github.ref }}- ${{ runner.os }}- - name: Set up Python uses: actions/setup-python@v2 - name: Install PlatformIO run: | python -m pip install --upgrade pip pip install --upgrade platformio - name: Install 3rd party dependencies run: | pio lib -g install \ file://. \ https://github.com/bblanchon/ArduinoJson \ https://github.com/knolleary/pubsubclient - name: Run PlatformIO Examples run: pio ci --board=esp32dev env: PLATFORMIO_CI_SRC: ${{ matrix.example }} ================================================ FILE: .github/workflows/compile_library.yml ================================================ name: Compile Library on: push: paths-ignore: - '.github/workflows/cpp_lint.yml' - '.github/workflows/compile_examples.yml' - 'examples/**' pull_request: paths-ignore: - '.github/workflows/cpp_lint.yml' - '.github/workflows/compile_examples.yml' - 'examples/**' jobs: build: runs-on: ubuntu-latest strategy: fail-fast: false matrix: board: - "nodemcuv2" - "lolin32" steps: - uses: actions/checkout@v2 - name: Cache pip uses: actions/cache@v2 with: path: ~/.cache/pip key: ${{ runner.os }}-pip-${{ hashFiles('**/requirements.txt') }}-${{ matrix.board }} restore-keys: | ${{ runner.os }}-pip-${{ matrix.board }}- ${{ runner.os }}-pip- - name: Cache PlatformIO uses: actions/cache@v2 with: path: ~/.platformio key: ${{ runner.os }}-${{ hashFiles('**/lockfiles') }}-${{ matrix.board }} restore-keys: | ${{ runner.os }}-${{ matrix.board }}- ${{ runner.os }}- - name: Set up Python uses: actions/setup-python@v2 - name: Install PlatformIO run: | python -m pip install --upgrade pip pip install --upgrade platformio - name: Create main file run: | echo "#include " >> main.ino echo "void setup() {}" >> main.ino echo "void loop() {}" >> main.ino - name: Run PlatformIO run: pio ci --board=${{ matrix.board }} . ================================================ FILE: .github/workflows/cpp_lint.yml ================================================ name: cpplint on: push: paths-ignore: - '.github/workflows/compile_*.yml' pull_request: paths-ignore: - '.github/workflows/compile_*.yml' jobs: build: runs-on: ubuntu-latest steps: - uses: actions/checkout@v2 - name: cpplint uses: reviewdog/action-cpplint@master with: github_token: ${{ secrets.GITHUB_TOKEN }} reporter: github-pr-check flags: --linelength=100 target: . filter: "-whitespace/tab\ ,-readability/braces\ ,-whitespace/braces\ ,-whitespace/comments\ ,-whitespace/indent\ ,-whitespace/newline\ ,-whitespace/operators\ ,-whitespace/parens\ ,-whitespace/line_length\ " ================================================ FILE: .travis.yml ================================================ language: c sudo: false before_install: - "/sbin/start-stop-daemon --start --quiet --pidfile /tmp/custom_xvfb_1.pid --make-pidfile --background --exec /usr/bin/Xvfb -- :1 -ac -screen 0 1280x1024x16" - sleep 3 - export DISPLAY=:1.0 - wget http://downloads.arduino.cc/arduino-1.8.10-linux64.tar.xz - tar xf arduino-1.8.10-linux64.tar.xz - sudo mv arduino-1.8.10 /usr/local/share/arduino - sudo ln -s /usr/local/share/arduino/arduino /usr/local/bin/arduino install: - ln -s $PWD /usr/local/share/arduino/libraries/WiFiManager - arduino --pref "boardsmanager.additional.urls=http://arduino.esp8266.com/stable/package_esp8266com_index.json,http://dl.espressif.com/dl/package_esp32_index.json" --save-prefs - arduino --install-library "ArduinoJson:6.18.0" - arduino --install-boards esp8266:esp8266 - arduino --pref "compiler.warning_level=all" --save-prefs # install esp32 - arduino --install-boards esp32:esp32 script: - "echo $PWD" - "echo $HOME" - "ls $PWD" - source $TRAVIS_BUILD_DIR/travis/common.sh - arduino --board esp8266:esp8266:generic:xtal=80,eesz=4M1M,FlashMode=qio,FlashFreq=80,dbg=Serial,lvl=CORE --save-prefs - build_examples - arduino --board esp32:esp32:esp32:FlashFreq=80,FlashSize=4M,DebugLevel=info --save-prefs # some examples fail (SPIFFS defines differ esp32 vs esp8266) so we exclude them - build_examples # - arduino -v --verbose-build --verify $PWD/examples/AutoConnect/AutoConnect.ino # no coverage generated, no need to run # #after_success: # - bash <(curl -s https://codecov.io/bash) notifications: email: on_success: change on_failure: change ================================================ FILE: CMakeLists.txt ================================================ cmake_minimum_required(VERSION 3.5) idf_component_register( SRCS "WiFiManager.cpp" INCLUDE_DIRS "." PRIV_REQUIRES arduino ) project(WiFiManager) ================================================ FILE: LICENSE ================================================ The MIT License (MIT) Copyright (c) 2015 tzapu Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ================================================ FILE: README.md ================================================ # WiFiManager Espressif ESPx WiFi Connection manager with fallback web configuration portal :warning: This Documentation is out of date, see notes below [![Release](https://img.shields.io/github/v/release/tzapu/WiFiManager?include_prereleases)](#release) [![Build CI Status](https://github.com/tzapu/WiFiManager/actions/workflows/compile_library.yml/badge.svg)](https://github.com/tzapu/WiFiManager/actions/workflows/compile_library.yml) [![Build CI Status Examples](https://github.com/tzapu/WiFiManager/actions/workflows/compile_examples.yaml/badge.svg)](https://github.com/tzapu/WiFiManager/actions/workflows/compile_examples.yaml) [![arduino-library-badge](https://www.ardu-badge.com/badge/WiFiManager.svg?)](https://www.ardu-badge.com/WiFiManager) [![Build with PlatformIO](https://img.shields.io/badge/PlatformIO-Library-orange?)](https://platformio.org/lib/show/567/WiFiManager/installation) [![ESP8266](https://img.shields.io/badge/ESP-8266-000000.svg?longCache=true&style=flat&colorA=CC101F)](https://www.espressif.com/en/products/socs/esp8266) [![ESP32](https://img.shields.io/badge/ESP-32-000000.svg?longCache=true&style=flat&colorA=CC101F)](https://www.espressif.com/en/products/socs/esp32) [![ESP32](https://img.shields.io/badge/ESP-32S2-000000.svg?longCache=true&style=flat&colorA=CC101F)](https://www.espressif.com/en/products/socs/esp32-s2) [![ESP32](https://img.shields.io/badge/ESP-32C3-000000.svg?longCache=true&style=flat&colorA=CC101F)](https://www.espressif.com/en/products/socs/esp32-c3) [![ESP32](https://img.shields.io/badge/ESP-32S3-000000.svg?longCache=true&style=flat&colorA=CC101F)](https://www.espressif.com/en/products/socs/esp32-S3) Member to Member Support / Chat [![Join the chat at https://gitter.im/tablatronix/WiFiManager](https://badges.gitter.im/tablatronix/WiFiManager.svg)](https://gitter.im/tablatronix/WiFiManager?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge) [![Discord](https://img.shields.io/badge/Discord-WiFiManager-%237289da.svg?logo=discord)](https://discord.gg/nS5WGkaQH5) The configuration portal is of the captive variety, so on various devices it will present the configuration dialogue as soon as you connect to the created access point. Works with the [ESP8266 Arduino](https://github.com/esp8266/Arduino) and [ESP32 Arduino](https://github.com/espressif/arduino-esp32) platforms. ### Known Issues * Documentation needs to be updated, see [https://github.com/tzapu/WiFiManager/issues/500](https://github.com/tzapu/WiFiManager/issues/500) ------- ## Contents - [How it works](#how-it-works) - [Wishlist](#wishlist) - [Quick start](#quick-start) - Installing - [Arduino - Through Library Manager](#install-through-library-manager) - [Arduino - From Github](#checkout-from-github) - [PlatformIO](#install-using-platformio) - [Using](#using) - [Documentation](#documentation) - [Access Point Password](#password-protect-the-configuration-access-point) - [Callbacks](#callbacks) - [Configuration Portal Timeout](#configuration-portal-timeout) - [On Demand Configuration](#on-demand-configuration-portal) - [Custom Parameters](#custom-parameters) - [Custom IP Configuration](#custom-ip-configuration) - [Filter Low Quality Networks](#filter-networks) - [Debug Output](#debug) - [Troubleshooting](#troubleshooting) - [Releases](#releases) - [Contributors](#contributions-and-thanks) ## How It Works - When your ESP starts up, it sets it up in Station mode and tries to connect to a previously saved Access Point - if this is unsuccessful (or no previous network saved) it moves the ESP into Access Point mode and spins up a DNS and WebServer (default ip 192.168.4.1) - using any wifi enabled device with a browser (computer, phone, tablet) connect to the newly created Access Point - because of the Captive Portal and the DNS server you will either get a 'Join to network' type of popup or get any domain you try to access redirected to the configuration portal - choose one of the access points scanned, enter password, click save - ESP will try to connect. If successful, it relinquishes control back to your app. If not, reconnect to AP and reconfigure. - There are options to change this behavior or manually start the configportal and webportal independantly as well as run them in non blocking mode. ## How It Looks ![ESP8266 WiFi Captive Portal Homepage](http://i.imgur.com/YPvW9eql.png) ![ESP8266 WiFi Captive Portal Configuration](http://i.imgur.com/oicWJ4gl.png) ## Wishlist - [x] remove dependency on EEPROM library - [x] move HTML Strings to PROGMEM - [x] cleanup and streamline code (although this is ongoing) - [x] if timeout is set, extend it when a page is fetched in AP mode - [x] add ability to configure more parameters than ssid/password - [x] maybe allow setting ip of ESP after reboot - [x] add to Arduino Library Manager - [x] add to PlatformIO - [ ] add multiple sets of network credentials - [x] allow users to customize CSS - [ ] rewrite documentation for simplicity, based on scenarios/goals ### Development - [x] ESP32 support - [x] rely on the SDK's built in auto connect more than forcing a connect - [x] add non blocking mode - [x] easy customization of strings - [x] hostname support - [x] fix various bugs and workarounds for esp SDK issues - [x] additional info page items - [x] last status display / faiilure reason - [x] customizeable menu - [x] seperate custom params page - [x] ondemand webportal - [x] complete refactor of code to segment functions - [x] wiif scan icons or percentage display - [x] invert class for dark mode - [x] more template tokens - [x] progmem for all strings - [ ] new callbacks - [ ] new callouts / filters - [ ] shared web server instance - [x] latest esp idf/sdk support - [x] wm is now non persistent, will not erase or change stored esp config on esp8266 - [x] tons of debugging output / levels - [ ] disable captiveportal - [ ] preload wiifscans, faster page loads - [ ] softap stability fixes when sta is not connected ## Quick Start ### Installing You can either install through the Arduino Library Manager or checkout the latest changes or a release from github #### Install through Library Manager __Currently version 0.8+ works with release 2.4.0 or newer of the [ESP8266 core for Arduino](https://github.com/esp8266/Arduino)__ - in Arduino IDE got to Sketch/Include Library/Manage Libraries ![Manage Libraries](http://i.imgur.com/9BkEBkR.png) - search for WiFiManager ![WiFiManager package](http://i.imgur.com/18yIai8.png) - click Install and start [using it](#using) #### Checkout from github __Github version works with release 2.4.0 or newer of the [ESP8266 core for Arduino](https://github.com/esp8266/Arduino)__ - Checkout library to your Arduino libraries folder ### Using - Include in your sketch ```cpp #include //https://github.com/tzapu/WiFiManager WiFi Configuration Magic ``` - Initialize library, in your setup function add, NOTEif you are using non blocking you will make sure you create this in global scope or handle appropriatly , it will not work if in setup and using non blocking mode. ```cpp WiFiManager wifiManager; ``` - Also in the setup function add ```cpp //first parameter is name of access point, second is the password wifiManager.autoConnect("AP-NAME", "AP-PASSWORD"); ``` if you just want an unsecured access point ```cpp wifiManager.autoConnect("AP-NAME"); ``` or if you want to use and auto generated name from 'ESP' and the esp's Chip ID use ```cpp wifiManager.autoConnect(); ``` After you write your sketch and start the ESP, it will try to connect to WiFi. If it fails it starts in Access Point mode. While in AP mode, connect to it then open a browser to the gateway IP, default 192.168.4.1, configure wifi, save and it should reboot and connect. Also see [examples](https://github.com/tzapu/WiFiManager/tree/master/examples). #### Install Using PlatformIO [PlatformIO](https://platformio.org/) is an emerging ecosystem for IoT development, and is an alternative to using the Arduino IDE. Install `WiFiManager` using the platformio [library manager](https://docs.platformio.org/en/latest/librarymanager/index.html#librarymanager) in your editor, or using the [PlatformIO Core CLI](https://docs.platformio.org/en/latest/core/index.html), or by adding it to your `platformio.ini` as shown below (recommended approach). The simplest way is to open the `platformio.ini` file at the root of your project, and `WifiManager` to the common top-level env `lib_deps` key like so: ``` [env] lib_deps = WiFiManager ``` ``` [env] lib_deps = https://github.com/tzapu/WiFiManager.git ``` ## Documentation #### Switch languages for the configuration website You can switch the language for configuration website during compile time. Default is `LANG_EN` for an english setup. Within PlatformIO add the following compile parameter: ```ini [env] build_flags = -D LANG_EN ``` Currently the following language codes are available: ```ini LANG_DE LANG_EN LANG_ES LANG_FR LANG_PT LANG_PT_BR ``` #### Password protect the configuration Access Point You can and should password protect the configuration access point. Simply add the password as a second parameter to `autoConnect`. A short password seems to have unpredictable results so use one that's around 8 characters or more in length. The guidelines are that a wifi password must consist of 8 to 63 ASCII-encoded characters in the range of 32 to 126 (decimal) ```cpp wifiManager.autoConnect("AutoConnectAP", "password") ``` #### Callbacks ##### Enter Config mode Use this if you need to do something when your device enters configuration mode on failed WiFi connection attempt. Before `autoConnect()` ```cpp wifiManager.setAPCallback(configModeCallback); ``` `configModeCallback` declaration and example ```cpp void configModeCallback (WiFiManager *myWiFiManager) { Serial.println("Entered config mode"); Serial.println(WiFi.softAPIP()); Serial.println(myWiFiManager->getConfigPortalSSID()); } ``` ##### Save settings This gets called when custom parameters have been set **AND** a connection has been established. Use it to set a flag, so when all the configuration finishes, you can save the extra parameters somewhere. IF YOU NEED TO SAVE PARAMETERS EVEN ON WIFI FAIL OR EMPTY, you must set `setBreakAfterConfig` to true, or else saveConfigCallback will not be called. ```C++ //if this is set, it will exit after config, even if connection is unsuccessful. void setBreakAfterConfig(boolean shouldBreak); ``` See [AutoConnectWithFSParameters Example](https://github.com/tzapu/WiFiManager/tree/master/examples/Parameters/SPIFFS/AutoConnectWithFSParameters). ```cpp wifiManager.setSaveConfigCallback(saveConfigCallback); ``` `saveConfigCallback` declaration and example ```cpp //flag for saving data bool shouldSaveConfig = false; //callback notifying us of the need to save config void saveConfigCallback () { Serial.println("Should save config"); shouldSaveConfig = true; } ``` #### Configuration Portal Timeout If you need to set a timeout so the ESP doesn't hang waiting to be configured, for instance after a power failure, you can add ```cpp wifiManager.setConfigPortalTimeout(180); ``` which will wait 3 minutes (180 seconds). When the time passes, the autoConnect function will return, no matter the outcome. Check for connection and if it's still not established do whatever is needed (on some modules I restart them to retry, on others I enter deep sleep) #### On Demand Configuration Portal If you would rather start the configuration portal on demand rather than automatically on a failed connection attempt, then this is for you. Instead of calling `autoConnect()` which does all the connecting and failover configuration portal setup for you, you need to use `startConfigPortal()`. __Do not use BOTH.__ Example usage ```cpp void loop() { // is configuration portal requested? if ( digitalRead(TRIGGER_PIN) == LOW ) { WiFiManager wifiManager; wifiManager.startConfigPortal("OnDemandAP"); Serial.println("connected...yeey :)"); } } ``` See example for a more complex version. [OnDemandConfigPortal](https://github.com/tzapu/WiFiManager/tree/master/examples/OnDemand/OnDemandConfigPortal) #### Exiting from the Configuration Portal Normally, once entered, the configuration portal will continue to loop until WiFi credentials have been successfully entered or a timeout is reached. If you'd prefer to exit without joining a WiFi network, say becuase you're going to put the ESP into AP mode, then press the "Exit" button on the main webpage. If started via `autoConnect` or `startConfigPortal` then it will return `false (portalAbortResult)` #### Custom Parameters You can use WiFiManager to collect more parameters than just SSID and password. This could be helpful for configuring stuff like MQTT host and port, [blynk](http://www.blynk.cc) or [emoncms](http://emoncms.org) tokens, just to name a few. **You are responsible for saving and loading these custom values.** The library just collects and displays the data for you as a convenience. Usage scenario would be: - load values from somewhere (EEPROM/FS) or generate some defaults - add the custom parameters to WiFiManager using ```cpp // id/name, placeholder/prompt, default, length WiFiManagerParameter custom_mqtt_server("server", "mqtt server", mqtt_server, 40); wifiManager.addParameter(&custom_mqtt_server); ``` - if connection to AP fails, configuration portal starts and you can set /change the values (or use on demand configuration portal) - once configuration is done and connection is established save config callback() is called - once WiFiManager returns control to your application, read and save the new values using the `WiFiManagerParameter` object. ```cpp mqtt_server = custom_mqtt_server.getValue(); ``` This feature is a lot more involved than all the others, so here are some examples to fully show how it is done. You should also take a look at adding custom HTML to your form. - Save and load custom parameters to file system in json form [AutoConnectWithFSParameters](https://github.com/tzapu/WiFiManager/tree/master/examples/Parameters/SPIFFS/AutoConnectWithFSParameters) - *Save and load custom parameters to EEPROM* (not done yet) #### Custom IP Configuration You can set a custom IP for both AP (access point, config mode) and STA (station mode, client mode, normal project state) ##### Custom Access Point IP Configuration This will set your captive portal to a specific IP should you need/want such a feature. Add the following snippet before `autoConnect()` ```cpp //set custom ip for portal wifiManager.setAPStaticIPConfig(IPAddress(10,0,1,1), IPAddress(10,0,1,1), IPAddress(255,255,255,0)); ``` ##### Custom Station (client) Static IP Configuration This will make use the specified IP configuration instead of using DHCP in station mode. ```cpp wifiManager.setSTAStaticIPConfig(IPAddress(192,168,0,99), IPAddress(192,168,0,1), IPAddress(255,255,255,0)); // optional DNS 4th argument ``` There are a couple of examples in the examples folder that show you how to set a static IP and even how to configure it through the web configuration portal. NOTE: You should fill DNS server if you have HTTP requests with hostnames or syncronize time (NTP). It's the same as gateway ip or a popular (Google DNS: 8.8.8.8). #### Custom HTML, CSS, Javascript There are various ways in which you can inject custom HTML, CSS or Javascript into the configuration portal. The options are: - inject custom head element You can use this to any html bit to the head of the configuration portal. If you add a `"); ``` - inject a custom bit of html in the configuration/param form ```cpp WiFiManagerParameter custom_text("

This is just a text paragraph

"); wifiManager.addParameter(&custom_text); ``` - inject a custom bit of html in a configuration form element Just add the bit you want added as the last parameter to the custom parameter constructor. ```cpp WiFiManagerParameter custom_mqtt_server("server", "mqtt server", "iot.eclipse", 40, " readonly"); wifiManager.addParameter(&custom_mqtt_server); ``` #### Theming You can customize certain elements of the default template with some builtin classes ```CPP wifiManager.setClass("invert"); // dark theme wifiManager.setScanDispPerc(true); // display percentages instead of graphs for RSSI ``` There are additional classes in the css you can use in your custom html , see the example template. #### Filter Networks You can filter networks based on signal quality and show/hide duplicate networks. - If you would like to filter low signal quality networks you can tell WiFiManager to not show networks below an arbitrary quality %; ```cpp wifiManager.setMinimumSignalQuality(10); ``` will not show networks under 10% signal quality. If you omit the parameter it defaults to 8%; - You can also remove or show duplicate networks (default is remove). Use this function to show (or hide) all networks. ```cpp wifiManager.setRemoveDuplicateAPs(false); ``` #### Debug Debug is enabled by default on `Serial` in non-stable releases. To disable add before autoConnect/startConfigPortal ```cpp wifiManager.setDebugOutput(false); ``` You can pass in a custom stream via constructor ```CPP WiFiManager wifiManager(Serial1); ``` You can customize the debug level by changing `_debugLevel` in source options are: * DEBUG_ERROR * DEBUG_NOTIFY * DEBUG_VERBOSE * DEBUG_DEV * DEBUG_MAX ## Troubleshooting If you get compilation errors, more often than not, you may need to install a newer version of the ESP8266 core for Arduino. Changes added on 0.8 should make the latest trunk work without compilation errors. Tested down to ESP8266 core 2.0.0. **Please update to version 0.8** I am trying to keep releases working with release versions of the core, so they can be installed through boards manager, but if you checkout the latest version directly from github, sometimes, the library will only work if you update the ESP8266 core to the latest version because I am using some newly added function. If you connect to the created configuration Access Point but the configuration portal does not show up, just open a browser and type in the IP of the web portal, by default `192.168.4.1`. If trying to connect ends up in an endless loop, try to add `setConnectTimeout(60)` before `autoConnect();`. The parameter is timeout to try connecting in seconds. I get stuck in ap mode when the power goes out or modem resets, try a setConfigPortalTimeout(seconds). This will cause the configportal to close after no activity, and you can reboot or attempt reconnection in your code. ## Releases ### 1.0.1 ### Development Overview #### Added Public Methods `setConfigPortalBlocking` `setShowStaticFields` `setCaptivePortalEnable` `setRestorePersistent` `setCaptivePortalClientCheck` `setWebPortalClientCheck` `startWebPortal` `stopWebPortal` `process` `disconnect` `erase` ` debugSoftAPConfig` ` debugPlatformInfo` `setScanDispPerc` `setHostname` `setMenu(menu_page_t[])` `setWiFiAutoReconnect` ` setSTAStaticIPConfig(..,dns)` `setShowDnsFields` `getLastConxResult` `getWLStatusString` `getModeString` `getWiFiIsSaved` `setShowInfoErase` `setEnableConfigPortal` `setCountry` `setClass` `htmleEtities` #### WiFiManagerParameter `WiFiManagerParameter(id,label)` `WiFiManagerParameter.setValue(value,length)` `getParameters` `getParametersCount` #### Constructors `WiFiManager(Stream& consolePort)` #### define flags ❗️ **Defines cannot be set in user sketches** `#define WM_MDNS // use MDNS` `#define WM_FIXERASECONFIG // use erase flash fix, esp8266 2.4.0` `#define WM_ERASE_NVS // esp32 erase(true) will erase NVS` `#include // esp32 info page will show last reset reasons if this file is included` #### Changes Overview - ESP32 support ( fairly stable ) - complete refactor of strings `strings_en.h` - adds new tokens for wifiscan, and some classes (left , invert icons, MSG color) - adds status callout panel default, primary, special colors - adds tons of info on info page, and erase capability - adds signal icons, replaces percentage ( has hover titles ) - adds labels to all inputs (replaces placeholders) - all html ( and eventually all strings except debug) moved to `strings_en.h` - added additional debugging, compressed debug lines, debuglevels - persistent disabled, and restored via de/con-stuctor (uses `setRestorePersistent`) - should retain all user modes including AP, should not overwrite or persist user modes or configs,even STA (`storeSTAmode`) (BUGGY) - ⚠️ return values may have changed depending on portal abort, or timeout ( `portalTimeoutResult`,`portalAbortResult`) - params memory is auto allocated by increment of `WIFI_MANAGER_MAX_PARAMS(5)` when exceeded, user no longer needs to specify this at all. - addparameter now returns bool, and it returns false if param ID is not alphanum [0-9,A-Z,a-z,_] - param field ids allow {I} token to use param_n instead of string in case someones wants to change this due to i18n or character issues - provides `#DEFINE FIXERASECONFIG` to help deal with https://github.com/esp8266/Arduino/pull/3635 - failure reason reporting on portal - set esp8266 sta hostname, esp32 sta+ap hostname ( DHCP client id) - pass in debug stream in constructor WiFiManager(Stream& consolePort) - you can force ip fields off with showxfields(false) if you set _disableIpFields=true - param menu/page (setup) added to separate params from wifi page, handled automatically by setMenu - set custom root menu - disable configportal on autoconnect - wm parameters init is now protected, allowing child classes, example included - wifiscans are precached and async for faster page loads, refresh forces rescan - adds esp32 gettemperature ( currently commented out, useful for relative measurement only ) #### 0.12 - removed 204 header response - fixed incompatibility with other libs using isnan and other std:: functions without namespace ##### 0.11 - a lot more reliable reconnecting to networks - custom html in custom parameters (for read only params) - custom html in custom parameter form (like labels) - custom head element (like custom css) - sort networks based on signal quality - remove duplicate networks ##### 0.10 - some css changes - bug fixes and speed improvements - added an alternative to waitForConnectResult() for debugging - changed `setTimeout(seconds)` to `setConfigPortalTimeout(seconds)` ### Contributions and thanks The support and help I got from the community has been nothing short of phenomenal. I can't thank you guys enough. This is my first real attept in developing open source stuff and I must say, now I understand why people are so dedicated to it, it is because of all the wonderful people involved. __THANK YOU__ The esp8266 and esp32 arduino and idf maintainers! [Shawn A aka tablatronix](https://github.com/tablatronix) [liebman](https://github.com/liebman) [Evgeny Dontsov](https://github.com/dontsovcmc) [Chris Marrin](https://github.com/cmarrin) [bbx10](https://github.com/bbx10) [kentaylor](https://github.com/kentaylor) [Maximiliano Duarte](https://github.com/domonetic) [alltheblinkythings](https://github.com/alltheblinkythings) [Niklas Wall](https://github.com/niklaswall) [Jakub Piasecki](https://github.com/zaporylie) [Peter Allan](https://github.com/alwynallan) [John Little](https://github.com/j0hnlittle) [markaswift](https://github.com/markaswift) [franklinvv](https://github.com/franklinvv) [Alberto Ricci Bitti](https://github.com/riccibitti) [SebiPanther](https://github.com/SebiPanther) [jonathanendersby](https://github.com/jonathanendersby) [walthercarsten](https://github.com/walthercarsten) And countless others #### Inspiration * http://www.esp8266.com/viewtopic.php?f=29&t=2520 * https://github.com/chriscook8/esp-arduino-apboot * https://github.com/esp8266/Arduino/tree/master/libraries/DNSServer/examples/CaptivePortalAdvanced * Built by AlexT https://github.com/tzapu ================================================ FILE: WiFiManager.cpp ================================================ /** * WiFiManager.cpp * * WiFiManager, a library for the ESP8266/Arduino platform * for configuration of WiFi credentials using a Captive Portal * * @author Creator tzapu * @author tablatronix * @version 0.0.0 * @license MIT */ #include "WiFiManager.h" #if defined(ESP8266) || defined(ESP32) #ifdef ESP32 uint8_t WiFiManager::_lastconxresulttmp = WL_IDLE_STATUS; #endif /** * -------------------------------------------------------------------------------- * WiFiManagerParameter * -------------------------------------------------------------------------------- **/ WiFiManagerParameter::WiFiManagerParameter() { WiFiManagerParameter(""); } WiFiManagerParameter::WiFiManagerParameter(const char *custom) { _id = NULL; _label = NULL; _length = 0; _value = nullptr; _labelPlacement = WFM_LABEL_DEFAULT; _customHTML = custom; } WiFiManagerParameter::WiFiManagerParameter(const char *id, const char *label) { init(id, label, "", 0, "", WFM_LABEL_DEFAULT); } WiFiManagerParameter::WiFiManagerParameter(const char *id, const char *label, const char *defaultValue, int length) { init(id, label, defaultValue, length, "", WFM_LABEL_DEFAULT); } WiFiManagerParameter::WiFiManagerParameter(const char *id, const char *label, const char *defaultValue, int length, const char *custom) { init(id, label, defaultValue, length, custom, WFM_LABEL_DEFAULT); } WiFiManagerParameter::WiFiManagerParameter(const char *id, const char *label, const char *defaultValue, int length, const char *custom, int labelPlacement) { init(id, label, defaultValue, length, custom, labelPlacement); } void WiFiManagerParameter::init(const char *id, const char *label, const char *defaultValue, int length, const char *custom, int labelPlacement) { _id = id; _label = label; _labelPlacement = labelPlacement; _customHTML = custom; _length = 0; _value = nullptr; setValue(defaultValue,length); } WiFiManagerParameter::~WiFiManagerParameter() { if (_value != NULL) { delete[] _value; } _length=0; // setting length 0, ideally the entire parameter should be removed, or added to wifimanager scope so it follows } // WiFiManagerParameter& WiFiManagerParameter::operator=(const WiFiManagerParameter& rhs){ // Serial.println("copy assignment op called"); // (*this->_value) = (*rhs._value); // return *this; // } // @note debug is not available in wmparameter class void WiFiManagerParameter::setValue(const char *defaultValue, int length) { if(!_id){ // Serial.println("cannot set value of this parameter"); return; } // if(strlen(defaultValue) > length){ // // Serial.println("defaultValue length mismatch"); // // return false; //@todo bail // } if(_length != length || _value == nullptr){ _length = length; if( _value != nullptr){ delete[] _value; } _value = new char[_length + 1]; } memset(_value, 0, _length + 1); // explicit null if (defaultValue != NULL) { strncpy(_value, defaultValue, _length); } } const char* WiFiManagerParameter::getValue() const { // Serial.println(printf("Address of _value is %p\n", (void *)_value)); return _value; } const char* WiFiManagerParameter::getID() const { return _id; } const char* WiFiManagerParameter::getPlaceholder() const { return _label; } const char* WiFiManagerParameter::getLabel() const { return _label; } int WiFiManagerParameter::getValueLength() const { return _length; } int WiFiManagerParameter::getLabelPlacement() const { return _labelPlacement; } const char* WiFiManagerParameter::getCustomHTML() const { return _customHTML; } /** * [addParameter description] * @access public * @param {[type]} WiFiManagerParameter *p [description] */ bool WiFiManager::addParameter(WiFiManagerParameter *p) { // check param id is valid, unless null if(p->getID()){ for (size_t i = 0; i < strlen(p->getID()); i++){ if(!(isAlphaNumeric(p->getID()[i])) && !(p->getID()[i]=='_')){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] parameter IDs can only contain alpha numeric chars")); #endif return false; } } } // init params if never malloc if(_params == NULL){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("allocating params bytes:"),_max_params * sizeof(WiFiManagerParameter*)); #endif _params = (WiFiManagerParameter**)malloc(_max_params * sizeof(WiFiManagerParameter*)); } // resize the params array by increment of WIFI_MANAGER_MAX_PARAMS if(_paramsCount == _max_params){ _max_params += WIFI_MANAGER_MAX_PARAMS; #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("Updated _max_params:"),_max_params); DEBUG_WM(WM_DEBUG_DEV,F("re-allocating params bytes:"),_max_params * sizeof(WiFiManagerParameter*)); #endif WiFiManagerParameter** new_params = (WiFiManagerParameter**)realloc(_params, _max_params * sizeof(WiFiManagerParameter*)); #ifdef WM_DEBUG_LEVEL // DEBUG_WM(WIFI_MANAGER_MAX_PARAMS); // DEBUG_WM(_paramsCount); // DEBUG_WM(_max_params); #endif if (new_params != NULL) { _params = new_params; } else { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] failed to realloc params, size not increased!")); #endif return false; } } _params[_paramsCount] = p; _paramsCount++; #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Added Parameter:"),p->getID()); #endif return true; } /** * [getParameters description] * @access public */ WiFiManagerParameter** WiFiManager::getParameters() { return _params; } /** * [getParametersCount description] * @access public */ int WiFiManager::getParametersCount() { return _paramsCount; } /** * -------------------------------------------------------------------------------- * WiFiManager * -------------------------------------------------------------------------------- **/ // constructors WiFiManager::WiFiManager(Print& consolePort):_debugPort(consolePort){ WiFiManagerInit(); } WiFiManager::WiFiManager() { WiFiManagerInit(); } void WiFiManager::WiFiManagerInit(){ setMenu(_menuIdsDefault); if(_debug && _debugLevel >= WM_DEBUG_DEV) debugPlatformInfo(); _max_params = WIFI_MANAGER_MAX_PARAMS; } // destructor WiFiManager::~WiFiManager() { _end(); // parameters // @todo below belongs to wifimanagerparameter if (_params != NULL){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("freeing allocated params!")); #endif free(_params); _params = NULL; } // remove event // WiFi.onEvent(std::bind(&WiFiManager::WiFiEvent,this,_1,_2)); #ifdef ESP32 WiFi.removeEvent(wm_event_id); #endif #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("unloading")); #endif } void WiFiManager::_begin(){ if(_hasBegun) return; _hasBegun = true; // _usermode = WiFi.getMode(); #ifndef ESP32 WiFi.persistent(false); // disable persistent so scannetworks and mode switching do not cause overwrites #endif } void WiFiManager::_end(){ _hasBegun = false; if(_userpersistent) WiFi.persistent(true); // reenable persistent, there is no getter we rely on _userpersistent // if(_usermode != WIFI_OFF) WiFi.mode(_usermode); } // AUTOCONNECT boolean WiFiManager::autoConnect() { String ssid = getDefaultAPName(); return autoConnect(ssid.c_str(), NULL); } /** * [autoConnect description] * @access public * @param {[type]} char const *apName [description] * @param {[type]} char const *apPassword [description] * @return {[type]} [description] */ boolean WiFiManager::autoConnect(char const *apName, char const *apPassword) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("AutoConnect")); #endif // bool wifiIsSaved = getWiFiIsSaved(); bool wifiIsSaved = true; // workaround until I can check esp32 wifiisinit and has nvs #ifdef ESP32 setupHostname(true); if(_hostname != ""){ // disable wifi if already on if(WiFi.getMode() & WIFI_STA){ WiFi.mode(WIFI_OFF); int timeout = millis()+1200; // async loop for mode change while(WiFi.getMode()!= WIFI_OFF && millis()0){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Starting AP on channel:"),channel); #endif } // start soft AP with password or anonymous // default channel is 1 here and in esplib, @todo just change to default remove conditionals if (_apPassword != "") { if(channel>0){ ret = WiFi.softAP(_apName.c_str(), _apPassword.c_str(),channel,_apHidden); } else{ ret = WiFi.softAP(_apName.c_str(), _apPassword.c_str(),1,_apHidden);//password option } } else { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("AP has anonymous access!")); #endif if(channel>0){ ret = WiFi.softAP(_apName.c_str(),"",channel,_apHidden); } else{ ret = WiFi.softAP(_apName.c_str(),"",1,_apHidden); } } if(_debugLevel >= WM_DEBUG_DEV) debugSoftAPConfig(); // @todo add softAP retry here to dela with unknown failures delay(500); // slight delay to make sure we get an AP IP #ifdef WM_DEBUG_LEVEL if(!ret) DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] There was a problem starting the AP")); DEBUG_WM(F("AP IP address:"),WiFi.softAPIP()); #endif // set ap hostname #ifdef ESP32 if(ret && _hostname != ""){ bool res = WiFi.softAPsetHostname(_hostname.c_str()); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("setting softAP Hostname:"),_hostname); if(!res)DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] hostname: AP set failed!")); DEBUG_WM(WM_DEBUG_DEV,F("hostname: AP: "),WiFi.softAPgetHostname()); #endif } #endif return ret; } /** * [startWebPortal description] * @access public * @return {[type]} [description] */ void WiFiManager::startWebPortal() { if(configPortalActive || webPortalActive) return; connect = abort = false; setupConfigPortal(); webPortalActive = true; } /** * [stopWebPortal description] * @access public * @return {[type]} [description] */ void WiFiManager::stopWebPortal() { if(!configPortalActive && !webPortalActive) return; #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Stopping Web Portal")); #endif webPortalActive = false; shutdownConfigPortal(); } boolean WiFiManager::configPortalHasTimeout(){ if(!configPortalActive) return false; uint16_t logintvl = 30000; // how often to emit timeing out counter logging // handle timeout portal client check if(_configPortalTimeout == 0 || (_apClientCheck && (WiFi_softap_num_stations() > 0))){ // debug num clients every 30s if(millis() - timer > logintvl){ timer = millis(); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("NUM CLIENTS: "),(String)WiFi_softap_num_stations()); #endif } _configPortalStart = millis(); // kludge, bump configportal start time to skew timeouts return false; } // handle timeout webclient check if(_webClientCheck && (_webPortalAccessed>_configPortalStart)>0) _configPortalStart = _webPortalAccessed; // handle timed out if(millis() > _configPortalStart + _configPortalTimeout){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("config portal has timed out")); #endif return true; // timeout bail, else do debug logging } else if(_debug && _debugLevel > 0) { // log timeout time remaining every 30s if((millis() - timer) > logintvl){ timer = millis(); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Portal Timeout In"),(String)((_configPortalStart + _configPortalTimeout-millis())/1000) + (String)F(" seconds")); #endif } } return false; } void WiFiManager::setupHTTPServer(){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("Starting Web Portal")); #endif if(_httpPort != 80) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("http server started with custom port: "),_httpPort); // @todo not showing ip #endif } server.reset(new WM_WebServer(_httpPort)); // This is not the safest way to reset the webserver, it can cause crashes on callbacks initilized before this and since its a shared pointer... if ( _webservercallback != NULL) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("[CB] _webservercallback calling")); #endif _webservercallback(); // @CALLBACK } // @todo add a new callback maybe, after webserver started, callback cannot override handlers, but can grab them first /* Setup httpd callbacks, web pages: root, wifi config pages, SO captive portal detectors and not found. */ // G macro workaround for Uri() bug https://github.com/esp8266/Arduino/issues/7102 server->on(WM_G(R_root), std::bind(&WiFiManager::handleRoot, this)); server->on(WM_G(R_wifi), std::bind(&WiFiManager::handleWifi, this, true)); server->on(WM_G(R_wifinoscan), std::bind(&WiFiManager::handleWifi, this, false)); server->on(WM_G(R_wifisave), std::bind(&WiFiManager::handleWifiSave, this)); server->on(WM_G(R_info), std::bind(&WiFiManager::handleInfo, this)); server->on(WM_G(R_param), std::bind(&WiFiManager::handleParam, this)); server->on(WM_G(R_paramsave), std::bind(&WiFiManager::handleParamSave, this)); server->on(WM_G(R_restart), std::bind(&WiFiManager::handleReset, this)); server->on(WM_G(R_exit), std::bind(&WiFiManager::handleExit, this)); server->on(WM_G(R_close), std::bind(&WiFiManager::handleClose, this)); server->on(WM_G(R_erase), std::bind(&WiFiManager::handleErase, this, false)); server->on(WM_G(R_status), std::bind(&WiFiManager::handleWiFiStatus, this)); server->onNotFound (std::bind(&WiFiManager::handleNotFound, this)); server->on(WM_G(R_update), std::bind(&WiFiManager::handleUpdate, this)); server->on(WM_G(R_updatedone), HTTP_POST, std::bind(&WiFiManager::handleUpdateDone, this), std::bind(&WiFiManager::handleUpdating, this)); server->begin(); // Web server start #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("HTTP server started")); #endif } void WiFiManager::setupDNSD(){ dnsServer.reset(new DNSServer()); /* Setup the DNS server redirecting all the domains to the apIP */ dnsServer->setErrorReplyCode(DNSReplyCode::NoError); #ifdef WM_DEBUG_LEVEL // DEBUG_WM("dns server started port: ",DNS_PORT); DEBUG_WM(WM_DEBUG_DEV,F("dns server started with ip: "),WiFi.softAPIP()); // @todo not showing ip #endif dnsServer->start(DNS_PORT, F("*"), WiFi.softAPIP()); } void WiFiManager::setupConfigPortal() { setupHTTPServer(); _lastscan = 0; // reset network scan cache if(_preloadwifiscan) WiFi_scanNetworks(true,true); // preload wifiscan , async } boolean WiFiManager::startConfigPortal() { String ssid = getDefaultAPName(); return startConfigPortal(ssid.c_str(), NULL); } /** * [startConfigPortal description] * @access public * @param {[type]} char const *apName [description] * @param {[type]} char const *apPassword [description] * @return {[type]} [description] */ boolean WiFiManager::startConfigPortal(char const *apName, char const *apPassword) { _begin(); if(configPortalActive){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Starting Config Portal FAILED, is already running")); #endif return false; } //setup AP _apName = apName; // @todo check valid apname ? _apPassword = apPassword; #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Starting Config Portal")); #endif if(_apName == "") _apName = getDefaultAPName(); if(!validApPassword()) return false; // HANDLE issues with STA connections, shutdown sta if not connected, or else this will hang channel scanning and softap will not respond if(_disableSTA || (!WiFi.isConnected() && _disableSTAConn)){ // this fixes most ap problems, however, simply doing mode(WIFI_AP) does not work if sta connection is hanging, must `wifi_station_disconnect` #ifdef WM_DISCONWORKAROUND WiFi.mode(WIFI_AP_STA); #endif WiFi_Disconnect(); WiFi_enableSTA(false); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Disabling STA")); #endif } else { // WiFi_enableSTA(true); } // init configportal globals to known states configPortalActive = true; bool result = connect = abort = false; // loop flags, connect true success, abort true break uint8_t state; _configPortalStart = millis(); // start access point #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Enabling AP")); #endif startAP(); WiFiSetCountry(); // do AP callback if set if ( _apcallback != NULL) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("[CB] _apcallback calling")); #endif _apcallback(this); } // init configportal #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("setupConfigPortal")); #endif setupConfigPortal(); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("setupDNSD")); #endif setupDNSD(); if(!_configPortalIsBlocking){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Config Portal Running, non blocking (processing)")); if(_configPortalTimeout > 0) DEBUG_WM(WM_DEBUG_VERBOSE,F("Portal Timeout In"),(String)(_configPortalTimeout/1000) + (String)F(" seconds")); #endif return result; // skip blocking loop } // enter blocking loop, waiting for config #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Config Portal Running, blocking, waiting for clients...")); if(_configPortalTimeout > 0) DEBUG_WM(WM_DEBUG_VERBOSE,F("Portal Timeout In"),(String)(_configPortalTimeout/1000) + (String)F(" seconds")); #endif while(1){ // if timed out or abort, break if(configPortalHasTimeout() || abort){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("configportal loop abort")); #endif shutdownConfigPortal(); result = abort ? portalAbortResult : portalTimeoutResult; // false, false if (_configportaltimeoutcallback != NULL) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("[CB] config portal timeout callback")); #endif _configportaltimeoutcallback(); // @CALLBACK } break; } state = processConfigPortal(); // status change, break // @todo what is this for, should be moved inside the processor // I think.. this is to detect autoconnect by esp in background, there are also many open issues about autoreconnect not working if(state != WL_IDLE_STATUS){ result = (state == WL_CONNECTED); // true if connected DEBUG_WM(WM_DEBUG_DEV,F("configportal loop break")); break; } if(!configPortalActive) break; yield(); // watchdog } #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_NOTIFY,F("config portal exiting")); #endif return result; } /** * [process description] * @access public * @return bool connected */ boolean WiFiManager::process(){ // process mdns, esp32 not required #if defined(WM_MDNS) && defined(ESP8266) MDNS.update(); #endif if(webPortalActive || (configPortalActive && !_configPortalIsBlocking)){ // if timed out or abort, break if(_allowExit && (configPortalHasTimeout() || abort)){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("process loop abort")); #endif webPortalActive = false; shutdownConfigPortal(); if (_configportaltimeoutcallback != NULL) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("[CB] config portal timeout callback")); #endif _configportaltimeoutcallback(); // @CALLBACK } return false; } uint8_t state = processConfigPortal(); // state is WL_IDLE or WL_CONNECTED/FAILED return state == WL_CONNECTED; } return false; } /** * [processConfigPortal description] * using esp wl_status enums as returns for now, should be fine * returns WL_IDLE_STATUS or WL_CONNECTED/WL_CONNECT_FAILED upon connect/save flag * * @return {[type]} [description] */ uint8_t WiFiManager::processConfigPortal(){ if(configPortalActive){ //DNS handler dnsServer->processNextRequest(); } //HTTP handler server->handleClient(); // Waiting for save... if(connect) { connect = false; #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("processing save")); #endif if(_enableCaptivePortal) delay(_cpclosedelay); // keeps the captiveportal from closing to fast. // skip wifi if no ssid if(_ssid == ""){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("No ssid, skipping wifi save")); #endif } else{ // attempt sta connection to submitted _ssid, _pass uint8_t res = connectWifi(_ssid, _pass, _connectonsave) == WL_CONNECTED; if (res || (!_connectonsave)) { #ifdef WM_DEBUG_LEVEL if(!_connectonsave){ DEBUG_WM(F("SAVED with no connect to new AP")); } else { DEBUG_WM(F("Connect to new AP [SUCCESS]")); DEBUG_WM(F("Got IP Address:")); DEBUG_WM(WiFi.localIP()); } #endif if ( _savewificallback != NULL) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("[CB] _savewificallback calling")); #endif _savewificallback(); // @CALLBACK } if(!_connectonsave) return WL_IDLE_STATUS; if(_disableConfigPortal) shutdownConfigPortal(); return WL_CONNECTED; // CONNECT SUCCESS } #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] Connect to new AP Failed")); #endif } if (_shouldBreakAfterConfig) { // do save callback // @todo this is more of an exiting callback than a save, clarify when this should actually occur // confirm or verify data was saved to make this more accurate callback if ( _savewificallback != NULL) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("[CB] WiFi/Param save callback")); #endif _savewificallback(); // @CALLBACK } if(_disableConfigPortal) shutdownConfigPortal(); return WL_CONNECT_FAILED; // CONNECT FAIL } else if(_configPortalIsBlocking){ // clear save strings _ssid = ""; _pass = ""; // if connect fails, turn sta off to stabilize AP WiFi_Disconnect(); WiFi_enableSTA(false); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Processing - Disabling STA")); #endif } else{ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Portal is non blocking - remaining open")); #endif } } return WL_IDLE_STATUS; } /** * [shutdownConfigPortal description] * @access public * @return bool success (softapdisconnect) */ bool WiFiManager::shutdownConfigPortal(){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("shutdownConfigPortal")); #endif if(webPortalActive) return false; if(configPortalActive && dnsServer){ //DNS handler dnsServer->processNextRequest(); } //HTTP handler server->handleClient(); // @todo what is the proper way to shutdown and free the server up // debug - many open issues aobut port not clearing for use with other servers server->stop(); server.reset(); WiFi.scanDelete(); // free wifi scan results if(!configPortalActive) return false; dnsServer->stop(); // free heap ? dnsServer.reset(); // turn off AP // @todo bug workaround // https://github.com/esp8266/Arduino/issues/3793 // [APdisconnect] set_config failed! *WM: disconnect configportal - softAPdisconnect failed // still no way to reproduce reliably bool ret = false; ret = WiFi.softAPdisconnect(false); #ifdef WM_DEBUG_LEVEL if(!ret)DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] disconnect configportal - softAPdisconnect FAILED")); DEBUG_WM(WM_DEBUG_VERBOSE,F("restoring usermode"),getModeString(_usermode)); #endif delay(1000); WiFi_Mode(_usermode); // restore users wifi mode, BUG https://github.com/esp8266/Arduino/issues/4372 if(WiFi.status()==WL_IDLE_STATUS){ WiFi.reconnect(); // restart wifi since we disconnected it in startconfigportal #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("WiFi Reconnect, was idle")); #endif } #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("wifi status:"),getWLStatusString(WiFi.status())); DEBUG_WM(WM_DEBUG_VERBOSE,F("wifi mode:"),getModeString(WiFi.getMode())); #endif configPortalActive = false; DEBUG_WM(WM_DEBUG_VERBOSE,F("configportal closed")); _end(); return ret; } // @todo refactor this up into seperate functions // one for connecting to flash , one for new client // clean up, flow is convoluted, and causes bugs uint8_t WiFiManager::connectWifi(String ssid, String pass, bool connect) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Connecting as wifi client...")); #endif uint8_t retry = 1; uint8_t connRes = (uint8_t)WL_NO_SSID_AVAIL; setSTAConfig(); //@todo catch failures in set_config // make sure sta is on before `begin` so it does not call enablesta->mode while persistent is ON ( which would save WM AP state to eeprom !) // WiFi.setAutoReconnect(false); if(_cleanConnect) WiFi_Disconnect(); // disconnect before begin, in case anything is hung, this causes a 2 seconds delay for connect // @todo find out what status is when this is needed, can we detect it and handle it, say in between states or idle_status to avoid these // if retry without delay (via begin()), the IDF is still busy even after returning status // E (5130) wifi:sta is connecting, return error // [E][WiFiSTA.cpp:221] begin(): connect failed! while(retry <= _connectRetries && (connRes!=WL_CONNECTED)){ if(_connectRetries > 1){ if(_aggresiveReconn) delay(1000); // add idle time before recon #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("Connect Wifi, ATTEMPT #"),(String)retry+" of "+(String)_connectRetries); #endif } // if ssid argument provided connect to that // NOTE: this also catches preload() _defaultssid @todo rework if (ssid != "") { wifiConnectNew(ssid,pass,connect); // @todo connect=false seems to disconnect sta in begin() so not sure if _connectonsave is useful at all // skip wait if not connecting // if(connect){ if(_saveTimeout > 0){ connRes = waitForConnectResult(_saveTimeout); // use default save timeout for saves to prevent bugs in esp->waitforconnectresult loop } else { connRes = waitForConnectResult(); } // } } else { // connect using saved ssid if there is one if (WiFi_hasAutoConnect()) { wifiConnectDefault(); connRes = waitForConnectResult(); } else { #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("No wifi saved, skipping")); #endif } } #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Connection result:"),getWLStatusString(connRes)); #endif retry++; } // WPS enabled? https://github.com/esp8266/Arduino/pull/4889 #ifdef NO_EXTRA_4K_HEAP // do WPS, if WPS options enabled and not connected and no password was supplied // @todo this seems like wrong place for this, is it a fallback or option? if (_tryWPS && connRes != WL_CONNECTED && pass == "") { startWPS(); // should be connected at the end of WPS connRes = waitForConnectResult(); } #endif if(connRes != WL_SCAN_COMPLETED){ updateConxResult(connRes); } return connRes; } /** * connect to a new wifi ap * @since $dev * @param String ssid * @param String pass * @return bool success * @return connect only save if false */ bool WiFiManager::wifiConnectNew(String ssid, String pass,bool connect){ bool ret = false; #ifdef WM_DEBUG_LEVEL // DEBUG_WM(WM_DEBUG_DEV,F("CONNECTED: "),WiFi.status() == WL_CONNECTED ? "Y" : "NO"); DEBUG_WM(F("Connecting to NEW AP:"),ssid); DEBUG_WM(WM_DEBUG_DEV,F("Using Password:"),pass); #endif WiFi_enableSTA(true,storeSTAmode); // storeSTAmode will also toggle STA on in default opmode (persistent) if true (default) WiFi.persistent(true); ret = WiFi.begin(ssid.c_str(), pass.c_str(), 0, NULL, connect); WiFi.persistent(false); #ifdef WM_DEBUG_LEVEL if(!ret) DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] wifi begin failed")); #endif return ret; } /** * connect to stored wifi * @since dev * @return bool success */ bool WiFiManager::wifiConnectDefault(){ bool ret = false; #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("Connecting to SAVED AP:"),WiFi_SSID(true)); DEBUG_WM(WM_DEBUG_DEV,F("Using Password:"),WiFi_psk(true)); #endif ret = WiFi_enableSTA(true,storeSTAmode); delay(500); // THIS DELAY ? #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("Mode after delay: "),getModeString(WiFi.getMode())); if(!ret) DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] wifi enableSta failed")); #endif ret = WiFi.begin(); #ifdef WM_DEBUG_LEVEL if(!ret) DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] wifi begin failed")); #endif return ret; } /** * set sta config if set * @since $dev * @return bool success */ bool WiFiManager::setSTAConfig(){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("STA static IP:"),_sta_static_ip); #endif bool ret = true; if (_sta_static_ip) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Custom static IP/GW/Subnet/DNS")); #endif if(_sta_static_dns) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Custom static DNS")); #endif ret = WiFi.config(_sta_static_ip, _sta_static_gw, _sta_static_sn, _sta_static_dns); } else { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Custom STA IP/GW/Subnet")); #endif ret = WiFi.config(_sta_static_ip, _sta_static_gw, _sta_static_sn); } #ifdef WM_DEBUG_LEVEL if(!ret) DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] wifi config failed")); else DEBUG_WM(F("STA IP set:"),WiFi.localIP()); #endif } else { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("setSTAConfig static ip not set, skipping")); #endif } return ret; } // @todo change to getLastFailureReason and do not touch conxresult void WiFiManager::updateConxResult(uint8_t status){ // hack in wrong password detection _lastconxresult = status; #ifdef ESP8266 if(_lastconxresult == WL_CONNECT_FAILED){ if(wifi_station_get_connect_status() == STATION_WRONG_PASSWORD){ _lastconxresult = WL_STATION_WRONG_PASSWORD; } } #elif defined(ESP32) // if(_lastconxresult == WL_CONNECT_FAILED){ if(_lastconxresult == WL_CONNECT_FAILED || _lastconxresult == WL_DISCONNECTED){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("lastconxresulttmp:"),getWLStatusString(_lastconxresulttmp)); #endif if(_lastconxresulttmp != WL_IDLE_STATUS){ _lastconxresult = _lastconxresulttmp; // _lastconxresulttmp = WL_IDLE_STATUS; } } DEBUG_WM(WM_DEBUG_DEV,F("lastconxresult:"),getWLStatusString(_lastconxresult)); #endif } uint8_t WiFiManager::waitForConnectResult() { #ifdef WM_DEBUG_LEVEL if(_connectTimeout > 0) DEBUG_WM(WM_DEBUG_DEV,_connectTimeout,F("ms connectTimeout set")); #endif return waitForConnectResult(_connectTimeout); } /** * waitForConnectResult * @param uint16_t timeout in seconds * @return uint8_t WL Status */ uint8_t WiFiManager::waitForConnectResult(uint32_t timeout) { if (timeout == 0){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("connectTimeout not set, ESP waitForConnectResult...")); #endif return WiFi.waitForConnectResult(); } unsigned long timeoutmillis = millis() + timeout; #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,timeout,F("ms timeout, waiting for connect...")); #endif uint8_t status = WiFi.status(); while(millis() < timeoutmillis) { status = WiFi.status(); // @todo detect additional states, connect happens, then dhcp then get ip, there is some delay here, make sure not to timeout if waiting on IP if (status == WL_CONNECTED || status == WL_CONNECT_FAILED) { return status; } #ifdef WM_DEBUG_LEVEL DEBUG_WM (WM_DEBUG_VERBOSE,F(".")); #endif delay(100); } return status; } // WPS enabled? https://github.com/esp8266/Arduino/pull/4889 #ifdef NO_EXTRA_4K_HEAP void WiFiManager::startWPS() { #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("START WPS")); #endif #ifdef ESP8266 WiFi.beginWPSConfig(); #else // @todo #endif #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("END WPS")); #endif } #endif String WiFiManager::getHTTPHead(String title, String classes){ String page; page += FPSTR(HTTP_HEAD_START); page.replace(FPSTR(T_v), title); page += FPSTR(HTTP_SCRIPT); page += FPSTR(HTTP_STYLE); page += _customHeadElement; String p = FPSTR(HTTP_HEAD_END); if (_bodyClass != "") { if (classes != "") { classes += " "; // add spacing, if necessary } classes += _bodyClass; // add class str } p.replace(FPSTR(T_c), classes); page += p; if (_customBodyHeader) { page += _customBodyHeader; } return page; } String WiFiManager::getHTTPEnd() { String end = FPSTR(HTTP_END); if (_customBodyFooter) { end = String(_customBodyFooter) + end; } return end; } void WiFiManager::HTTPSend(const String &content){ server->send(200, FPSTR(HTTP_HEAD_CT), content); } /** * HTTPD handler for page requests */ void WiFiManager::handleRequest() { _webPortalAccessed = millis(); // TESTING HTTPD AUTH RFC 2617 // BASIC_AUTH will hold onto creds, hard to "logout", but convienent // DIGEST_AUTH will require new auth often, and nonce is random // bool authenticate(const char * username, const char * password); // bool authenticateDigest(const String& username, const String& H1); // void requestAuthentication(HTTPAuthMethod mode = BASIC_AUTH, const char* realm = NULL, const String& authFailMsg = String("") ); // 2.3 NO AUTH available bool testauth = false; if(!testauth) return; DEBUG_WM(WM_DEBUG_DEV,F("DOING AUTH")); bool res = server->authenticate("admin","12345"); if(!res){ #ifndef WM_NOAUTH server->requestAuthentication(HTTPAuthMethod::BASIC_AUTH); // DIGEST_AUTH #endif DEBUG_WM(WM_DEBUG_DEV,F("AUTH FAIL")); } } /** * HTTPD CALLBACK root or redirect to captive portal */ void WiFiManager::handleRoot() { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- HTTP Root")); #endif if (captivePortal()) return; // If captive portal redirect instead of displaying the page handleRequest(); String page = getHTTPHead(_title, FPSTR(C_root)); // @token options @todo replace options with title String str = FPSTR(HTTP_ROOT_MAIN); // @todo custom title str.replace(FPSTR(T_t),_title); str.replace(FPSTR(T_v),configPortalActive ? _apName : (getWiFiHostname() + " - " + WiFi.localIP().toString())); // use ip if ap is not active for heading @todo use hostname? page += str; page += FPSTR(HTTP_PORTAL_OPTIONS); page += getMenuOut(); reportStatus(page); page += getHTTPEnd(); HTTPSend(page); if(_preloadwifiscan) WiFi_scanNetworks(_scancachetime,true); // preload wifiscan throttled, async // @todo buggy, captive portals make a query on every page load, causing this to run every time in addition to the real page load // I dont understand why, when you are already in the captive portal, I guess they want to know that its still up and not done or gone // if we can detect these and ignore them that would be great, since they come from the captive portal redirect maybe there is a refferer } /** * HTTPD CALLBACK Wifi config page handler */ void WiFiManager::handleWifi(boolean scan) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- HTTP Wifi")); #endif handleRequest(); String page = getHTTPHead(FPSTR(S_titlewifi), FPSTR(C_wifi)); // @token titlewifi if (scan) { #ifdef WM_DEBUG_LEVEL // DEBUG_WM(WM_DEBUG_DEV,"refresh flag:",server->hasArg(F("refresh"))); #endif WiFi_scanNetworks(server->hasArg(F("refresh")),false); //wifiscan, force if arg refresh page += getScanItemOut(); } String pitem = ""; pitem = FPSTR(HTTP_FORM_START); pitem.replace(FPSTR(T_v), F("wifisave")); // set form action page += pitem; pitem = FPSTR(HTTP_FORM_WIFI); pitem.replace(FPSTR(T_v), WiFi_SSID()); if(_showPassword){ pitem.replace(FPSTR(T_p), WiFi_psk()); } else if(WiFi_psk() != ""){ pitem.replace(FPSTR(T_p),FPSTR(S_passph)); } else { pitem.replace(FPSTR(T_p),""); } page += pitem; page += getStaticOut(); page += FPSTR(HTTP_FORM_WIFI_END); if(_paramsInWifi && _paramsCount>0){ page += FPSTR(HTTP_FORM_PARAM_HEAD); page += getParamOut(); } page += FPSTR(HTTP_FORM_END); page += FPSTR(HTTP_SCAN_LINK); if(_showBack) page += FPSTR(HTTP_BACKBTN); reportStatus(page); page += getHTTPEnd(); HTTPSend(page); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("Sent config page")); #endif } /** * HTTPD CALLBACK Wifi param page handler */ void WiFiManager::handleParam(){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- HTTP Param")); #endif handleRequest(); String page = getHTTPHead(FPSTR(S_titleparam), FPSTR(C_param)); // @token titlewifi String pitem = ""; pitem = FPSTR(HTTP_FORM_START); pitem.replace(FPSTR(T_v), F("paramsave")); page += pitem; page += getParamOut(); page += FPSTR(HTTP_FORM_END); if(_showBack) page += FPSTR(HTTP_BACKBTN); reportStatus(page); page += getHTTPEnd(); HTTPSend(page); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("Sent param page")); #endif } String WiFiManager::getMenuOut(){ String page; for(auto menuId :_menuIds ){ if((String)_menutokens[menuId] == "param" && _paramsCount == 0) continue; // no params set, omit params from menu, @todo this may be undesired by someone, use only menu to force? if((String)_menutokens[menuId] == "custom" && _customMenuHTML!=NULL){ page += _customMenuHTML; continue; } page += HTTP_PORTAL_MENU[menuId]; delay(0); } return page; } // // is it possible in softap mode to detect aps without scanning // bool WiFiManager::WiFi_scanNetworksForAP(bool force){ // WiFi_scanNetworks(force); // } void WiFiManager::WiFi_scanComplete(int networksFound){ _lastscan = millis(); _numNetworks = networksFound; #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("WiFi Scan ASYNC completed"), "in "+(String)(_lastscan - _startscan)+" ms"); DEBUG_WM(WM_DEBUG_VERBOSE,F("WiFi Scan ASYNC found:"),_numNetworks); #endif } bool WiFiManager::WiFi_scanNetworks(){ return WiFi_scanNetworks(false,false); } bool WiFiManager::WiFi_scanNetworks(unsigned int cachetime,bool async){ return WiFi_scanNetworks(millis()-_lastscan > cachetime,async); } bool WiFiManager::WiFi_scanNetworks(unsigned int cachetime){ return WiFi_scanNetworks(millis()-_lastscan > cachetime,false); } bool WiFiManager::WiFi_scanNetworks(bool force,bool async){ #ifdef WM_DEBUG_LEVEL // DEBUG_WM(WM_DEBUG_DEV,"scanNetworks async:",async == true); // DEBUG_WM(WM_DEBUG_DEV,_numNetworks,(millis()-_lastscan )); // DEBUG_WM(WM_DEBUG_DEV,"scanNetworks force:",force == true); #endif // if 0 networks, rescan @note this was a kludge, now disabling to test real cause ( maybe wifi not init etc) // enable only if preload failed? if(_numNetworks == 0 && _autoforcerescan){ DEBUG_WM(WM_DEBUG_DEV,"NO APs found forcing new scan"); force = true; } // if scan is empty or stale (last scantime > _scancachetime), this avoids fast reloading wifi page and constant scan delayed page loads appearing to freeze. if(!_lastscan || (_lastscan>0 && (millis()-_lastscan > _scancachetime))){ force = true; } if(force){ int8_t res; _startscan = millis(); if(async && _asyncScan){ #ifdef ESP8266 #ifndef WM_NOASYNC // no async available < 2.4.0 #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("WiFi Scan ASYNC started")); #endif using namespace std::placeholders; // for `_1` WiFi.scanNetworksAsync(std::bind(&WiFiManager::WiFi_scanComplete,this,_1)); #else DEBUG_WM(WM_DEBUG_VERBOSE,F("WiFi Scan SYNC started")); res = WiFi.scanNetworks(); #endif #else #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("WiFi Scan ASYNC started")); #endif res = WiFi.scanNetworks(true); #endif return false; } else{ DEBUG_WM(WM_DEBUG_VERBOSE,F("WiFi Scan SYNC started")); res = WiFi.scanNetworks(); } if(res == WIFI_SCAN_FAILED){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] scan failed")); #endif } else if(res == WIFI_SCAN_RUNNING){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] scan waiting")); #endif while(WiFi.scanComplete() == WIFI_SCAN_RUNNING){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_ERROR,"."); #endif delay(100); } _numNetworks = WiFi.scanComplete(); } else if(res >=0 ) _numNetworks = res; _lastscan = millis(); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("WiFi Scan completed"), "in "+(String)(_lastscan - _startscan)+" ms"); #endif return true; } else { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Scan is cached"),(String)(millis()-_lastscan )+" ms ago"); #endif } return false; } String WiFiManager::WiFiManager::getScanItemOut(){ String page; if(!_numNetworks) WiFi_scanNetworks(); // scan in case this gets called before any scans int n = _numNetworks; if (n == 0) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("No networks found")); #endif page += FPSTR(S_nonetworks); // @token nonetworks page += F("

"); } else { #ifdef WM_DEBUG_LEVEL DEBUG_WM(n,F("networks found")); #endif //sort networks int indices[n]; for (int i = 0; i < n; i++) { indices[i] = i; } // RSSI SORT for (int i = 0; i < n; i++) { for (int j = i + 1; j < n; j++) { if (WiFi.RSSI(indices[j]) > WiFi.RSSI(indices[i])) { std::swap(indices[i], indices[j]); } } } /* test std:sort std::sort(indices, indices + n, [](const int & a, const int & b) -> bool { return WiFi.RSSI(a) > WiFi.RSSI(b); }); */ // remove duplicates ( must be RSSI sorted ) if (_removeDuplicateAPs) { String cssid; for (int i = 0; i < n; i++) { if (indices[i] == -1) continue; cssid = WiFi.SSID(indices[i]); for (int j = i + 1; j < n; j++) { if (cssid == WiFi.SSID(indices[j])) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("DUP AP:"),WiFi.SSID(indices[j])); #endif indices[j] = -1; // set dup aps to index -1 } } } } // token precheck, to speed up replacements on large ap lists String HTTP_ITEM_STR = FPSTR(HTTP_ITEM); // toggle icons with percentage HTTP_ITEM_STR.replace("{qp}", FPSTR(HTTP_ITEM_QP)); HTTP_ITEM_STR.replace("{h}",_scanDispOptions ? "" : "h"); HTTP_ITEM_STR.replace("{qi}", FPSTR(HTTP_ITEM_QI)); HTTP_ITEM_STR.replace("{h}",_scanDispOptions ? "h" : ""); // set token precheck flags bool tok_r = HTTP_ITEM_STR.indexOf(FPSTR(T_r)) > 0; bool tok_R = HTTP_ITEM_STR.indexOf(FPSTR(T_R)) > 0; bool tok_e = HTTP_ITEM_STR.indexOf(FPSTR(T_e)) > 0; bool tok_q = HTTP_ITEM_STR.indexOf(FPSTR(T_q)) > 0; bool tok_i = HTTP_ITEM_STR.indexOf(FPSTR(T_i)) > 0; //display networks in page for (int i = 0; i < n; i++) { if (indices[i] == -1) continue; // skip dups #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("AP: "),(String)WiFi.RSSI(indices[i]) + " " + (String)WiFi.SSID(indices[i])); #endif int rssiperc = getRSSIasQuality(WiFi.RSSI(indices[i])); uint8_t enc_type = WiFi.encryptionType(indices[i]); if (_minimumQuality == -1 || _minimumQuality < rssiperc) { String item = HTTP_ITEM_STR; if(WiFi.SSID(indices[i]) == ""){ // Serial.println(WiFi.BSSIDstr(indices[i])); continue; // No idea why I am seeing these, lets just skip them for now } item.replace(FPSTR(T_V), htmlEntities(WiFi.SSID(indices[i]))); // ssid no encoding item.replace(FPSTR(T_v), htmlEntities(WiFi.SSID(indices[i]),true)); // ssid no encoding if(tok_e) item.replace(FPSTR(T_e), encryptionTypeStr(enc_type)); if(tok_r) item.replace(FPSTR(T_r), (String)rssiperc); // rssi percentage 0-100 if(tok_R) item.replace(FPSTR(T_R), (String)WiFi.RSSI(indices[i])); // rssi db if(tok_q) item.replace(FPSTR(T_q), (String)int(round(map(rssiperc,0,100,1,4)))); //quality icon 1-4 if(tok_i){ if (enc_type != WM_WIFIOPEN) { item.replace(FPSTR(T_i), F("l")); } else { item.replace(FPSTR(T_i), ""); } } #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,item); #endif page += item; delay(0); } else { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Skipping , does not meet _minimumQuality")); #endif } } page += FPSTR(HTTP_BR); } return page; } String WiFiManager::getIpForm(String id, String title, String value){ String item = FPSTR(HTTP_FORM_LABEL); item += FPSTR(HTTP_FORM_PARAM); item.replace(FPSTR(T_i), id); item.replace(FPSTR(T_n), id); item.replace(FPSTR(T_p), FPSTR(T_t)); // item.replace(FPSTR(T_p), default); item.replace(FPSTR(T_t), title); item.replace(FPSTR(T_l), F("15")); item.replace(FPSTR(T_v), value); item.replace(FPSTR(T_c), ""); return item; } String WiFiManager::getStaticOut(){ String page; if ((_staShowStaticFields || _sta_static_ip) && _staShowStaticFields>=0) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("_staShowStaticFields")); #endif page += FPSTR(HTTP_FORM_STATIC_HEAD); // @todo how can we get these accurate settings from memory , wifi_get_ip_info does not seem to reveal if struct ip_info is static or not page += getIpForm(FPSTR(S_ip),FPSTR(S_staticip),(_sta_static_ip ? _sta_static_ip.toString() : "")); // @token staticip // WiFi.localIP().toString(); page += getIpForm(FPSTR(S_gw),FPSTR(S_staticgw),(_sta_static_gw ? _sta_static_gw.toString() : "")); // @token staticgw // WiFi.gatewayIP().toString(); page += getIpForm(FPSTR(S_sn),FPSTR(S_subnet),(_sta_static_sn ? _sta_static_sn.toString() : "")); // @token subnet // WiFi.subnetMask().toString(); } if((_staShowDns || _sta_static_dns) && _staShowDns>=0){ page += getIpForm(FPSTR(S_dns),FPSTR(S_staticdns),(_sta_static_dns ? _sta_static_dns.toString() : "")); // @token dns } if(page!="") page += FPSTR(HTTP_BR); // @todo remove these, use css return page; } String WiFiManager::getParamOut(){ String page; #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("getParamOut"),_paramsCount); #endif if(_paramsCount > 0){ String HTTP_PARAM_temp = FPSTR(HTTP_FORM_LABEL); HTTP_PARAM_temp += FPSTR(HTTP_FORM_PARAM); bool tok_I = HTTP_PARAM_temp.indexOf(FPSTR(T_I)) > 0; bool tok_i = HTTP_PARAM_temp.indexOf(FPSTR(T_i)) > 0; bool tok_n = HTTP_PARAM_temp.indexOf(FPSTR(T_n)) > 0; bool tok_p = HTTP_PARAM_temp.indexOf(FPSTR(T_p)) > 0; bool tok_t = HTTP_PARAM_temp.indexOf(FPSTR(T_t)) > 0; bool tok_l = HTTP_PARAM_temp.indexOf(FPSTR(T_l)) > 0; bool tok_v = HTTP_PARAM_temp.indexOf(FPSTR(T_v)) > 0; bool tok_c = HTTP_PARAM_temp.indexOf(FPSTR(T_c)) > 0; char valLength[5]; for (int i = 0; i < _paramsCount; i++) { //Serial.println((String)_params[i]->_length); if (_params[i] == NULL || _params[i]->_length > 99999) { // try to detect param scope issues, doesnt always catch but works ok #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] WiFiManagerParameter is out of scope")); #endif return ""; } } // add the extra parameters to the form for (int i = 0; i < _paramsCount; i++) { // label before or after, @todo this could be done via floats or CSS and eliminated String pitem; switch (_params[i]->getLabelPlacement()) { case WFM_LABEL_BEFORE: pitem = FPSTR(HTTP_FORM_LABEL); pitem += FPSTR(HTTP_FORM_PARAM); break; case WFM_LABEL_AFTER: pitem = FPSTR(HTTP_FORM_PARAM); pitem += FPSTR(HTTP_FORM_LABEL); break; default: // WFM_NO_LABEL pitem = FPSTR(HTTP_FORM_PARAM); break; } // Input templating // "
"; // if no ID use customhtml for item, else generate from param string if (_params[i]->getID() != NULL) { if(tok_I)pitem.replace(FPSTR(T_I), (String)FPSTR(S_parampre)+(String)i); // T_I id number if(tok_i)pitem.replace(FPSTR(T_i), _params[i]->getID()); // T_i id name if(tok_n)pitem.replace(FPSTR(T_n), _params[i]->getID()); // T_n id name alias if(tok_p)pitem.replace(FPSTR(T_p), FPSTR(T_t)); // T_p replace legacy placeholder token if(tok_t)pitem.replace(FPSTR(T_t), _params[i]->getLabel()); // T_t title/label snprintf(valLength, 5, "%d", _params[i]->getValueLength()); if(tok_l)pitem.replace(FPSTR(T_l), valLength); // T_l value length if(tok_v)pitem.replace(FPSTR(T_v), _params[i]->getValue()); // T_v value if(tok_c)pitem.replace(FPSTR(T_c), _params[i]->getCustomHTML()); // T_c meant for additional attributes, not html, but can stuff } else { pitem = _params[i]->getCustomHTML(); } page += pitem; } } return page; } void WiFiManager::handleWiFiStatus(){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- HTTP WiFi status ")); #endif handleRequest(); String page; // String page = "{\"result\":true,\"count\":1}"; #ifdef WM_JSTEST page = FPSTR(HTTP_JS); #endif HTTPSend(page); } /** * HTTPD CALLBACK save form and redirect to WLAN config page again */ void WiFiManager::handleWifiSave() { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- HTTP WiFi save ")); DEBUG_WM(WM_DEBUG_DEV,F("Method:"),server->method() == HTTP_GET ? (String)FPSTR(S_GET) : (String)FPSTR(S_POST)); #endif handleRequest(); //SAVE/connect here _ssid = server->arg(F("s")).c_str(); _pass = server->arg(F("p")).c_str(); if(_ssid == "" && _pass != ""){ _ssid = WiFi_SSID(true); // password change, placeholder ssid, @todo compare pass to old?, confirm ssid is clean #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Detected WiFi password change")); #endif } #ifdef WM_DEBUG_LEVEL String requestinfo = "SERVER_REQUEST\n----------------\n"; requestinfo += "URI: "; requestinfo += server->uri(); requestinfo += "\nMethod: "; requestinfo += (server->method() == HTTP_GET) ? "GET" : "POST"; requestinfo += "\nArguments: "; requestinfo += server->args(); requestinfo += "\n"; for (uint8_t i = 0; i < server->args(); i++) { requestinfo += " " + server->argName(i) + ": " + server->arg(i) + "\n"; } DEBUG_WM(WM_DEBUG_MAX,requestinfo); #endif // set static ips from server args if (server->arg(FPSTR(S_ip)) != "") { //_sta_static_ip.fromString(server->arg(FPSTR(S_ip)); String ip = server->arg(FPSTR(S_ip)); optionalIPFromString(&_sta_static_ip, ip.c_str()); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("static ip:"),ip); #endif } if (server->arg(FPSTR(S_gw)) != "") { String gw = server->arg(FPSTR(S_gw)); optionalIPFromString(&_sta_static_gw, gw.c_str()); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("static gateway:"),gw); #endif } if (server->arg(FPSTR(S_sn)) != "") { String sn = server->arg(FPSTR(S_sn)); optionalIPFromString(&_sta_static_sn, sn.c_str()); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("static netmask:"),sn); #endif } if (server->arg(FPSTR(S_dns)) != "") { String dns = server->arg(FPSTR(S_dns)); optionalIPFromString(&_sta_static_dns, dns.c_str()); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("static DNS:"),dns); #endif } if (_presavewificallback != NULL) { _presavewificallback(); // @CALLBACK } if(_paramsInWifi) doParamSave(); String page; if(_ssid == ""){ page = getHTTPHead(FPSTR(S_titlewifisettings), FPSTR(C_wifi)); // @token titleparamsaved page += FPSTR(HTTP_PARAMSAVED); } else { page = getHTTPHead(FPSTR(S_titlewifisaved), FPSTR(C_wifi)); // @token titlewifisaved page += FPSTR(HTTP_SAVED); } if(_showBack) page += FPSTR(HTTP_BACKBTN); page += getHTTPEnd(); server->sendHeader(FPSTR(HTTP_HEAD_CORS), FPSTR(HTTP_HEAD_CORS_ALLOW_ALL)); // @HTTPHEAD send cors HTTPSend(page); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("Sent wifi save page")); #endif connect = true; //signal ready to connect/reset process in processConfigPortal } void WiFiManager::handleParamSave() { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- HTTP Param save ")); #endif #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("Method:"),server->method() == HTTP_GET ? (String)FPSTR(S_GET) : (String)FPSTR(S_POST)); #endif handleRequest(); doParamSave(); String page = getHTTPHead(FPSTR(S_titleparamsaved), FPSTR(C_param)); // @token titleparamsaved page += FPSTR(HTTP_PARAMSAVED); if(_showBack) page += FPSTR(HTTP_BACKBTN); page += getHTTPEnd(); HTTPSend(page); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("Sent param save page")); #endif } void WiFiManager::doParamSave(){ // @todo use new callback for before paramsaves, is this really needed? if ( _presaveparamscallback != NULL) { _presaveparamscallback(); // @CALLBACK } //parameters if(_paramsCount > 0){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Parameters")); DEBUG_WM(WM_DEBUG_VERBOSE,FPSTR(D_HR)); #endif for (int i = 0; i < _paramsCount; i++) { if (_params[i] == NULL || _params[i]->_length > 99999) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] WiFiManagerParameter is out of scope")); #endif break; // @todo might not be needed anymore } //read parameter from server String name = (String)FPSTR(S_parampre)+(String)i; String value; if(server->hasArg(name)) { value = server->arg(name); } else { value = server->arg(_params[i]->getID()); } //store it in params array value.toCharArray(_params[i]->_value, _params[i]->_length+1); // length+1 null terminated #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,(String)_params[i]->getID() + ":",value); #endif } #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,FPSTR(D_HR)); #endif } if ( _saveparamscallback != NULL) { _saveparamscallback(); // @CALLBACK } } /** * HTTPD CALLBACK info page */ void WiFiManager::handleInfo() { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- HTTP Info")); #endif handleRequest(); String page = getHTTPHead(FPSTR(S_titleinfo), FPSTR(C_info)); // @token titleinfo reportStatus(page); uint16_t infos = 0; //@todo convert to enum or refactor to strings //@todo wrap in build flag to remove all info code for memory saving #ifdef ESP8266 infos = 28; String infoids[] = { F("esphead"), F("uptime"), F("chipid"), F("fchipid"), F("idesize"), F("flashsize"), F("corever"), F("bootver"), F("cpufreq"), F("freeheap"), F("memsketch"), F("memsmeter"), F("lastreset"), F("wifihead"), F("conx"), F("stassid"), F("staip"), F("stagw"), F("stasub"), F("dnss"), F("host"), F("stamac"), F("autoconx"), F("wifiaphead"), F("apssid"), F("apip"), F("apbssid"), F("apmac") }; #elif defined(ESP32) // add esp_chip_info ? infos = 27; String infoids[] = { F("esphead"), F("uptime"), F("chipid"), F("chiprev"), F("idesize"), F("flashsize"), F("cpufreq"), F("freeheap"), F("memsketch"), F("memsmeter"), F("lastreset"), F("temp"), // F("hall"), F("wifihead"), F("conx"), F("stassid"), F("staip"), F("stagw"), F("stasub"), F("dnss"), F("host"), F("stamac"), F("apssid"), F("wifiaphead"), F("apip"), F("apmac"), F("aphost"), F("apbssid") }; #endif for(size_t i=0; i"); page += F("

About

"); page += getInfoData("aboutver"); page += getInfoData("aboutarduinover"); page += getInfoData("aboutidfver"); page += getInfoData("aboutdate"); page += F("
"); if(_showInfoUpdate){ page += HTTP_PORTAL_MENU[8]; page += HTTP_PORTAL_MENU[9]; } if(_showInfoErase) page += FPSTR(HTTP_ERASEBTN); if(_showBack) page += FPSTR(HTTP_BACKBTN); page += FPSTR(HTTP_HELP); page += getHTTPEnd(); HTTPSend(page); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("Sent info page")); #endif } String WiFiManager::getInfoData(String id){ String p; if(id==F("esphead")){ p = FPSTR(HTTP_INFO_esphead); #ifdef ESP32 p.replace(FPSTR(T_1), (String)ESP.getChipModel()); #endif } else if(id==F("wifihead")){ p = FPSTR(HTTP_INFO_wifihead); p.replace(FPSTR(T_1),getModeString(WiFi.getMode())); } else if(id==F("uptime")){ // subject to rollover! p = FPSTR(HTTP_INFO_uptime); p.replace(FPSTR(T_1),(String)(millis() / 1000 / 60)); p.replace(FPSTR(T_2),(String)((millis() / 1000) % 60)); } else if(id==F("chipid")){ p = FPSTR(HTTP_INFO_chipid); p.replace(FPSTR(T_1),String(WIFI_getChipId(),HEX)); } #ifdef ESP32 else if(id==F("chiprev")){ p = FPSTR(HTTP_INFO_chiprev); String rev = (String)ESP.getChipRevision(); #ifdef _SOC_EFUSE_REG_H_ String revb = (String)(REG_READ(EFUSE_BLK0_RDATA3_REG) >> (EFUSE_RD_CHIP_VER_RESERVE_S)&&EFUSE_RD_CHIP_VER_RESERVE_V); p.replace(FPSTR(T_1),rev+"
"+revb); #else p.replace(FPSTR(T_1),rev); #endif } #endif #ifdef ESP8266 else if(id==F("fchipid")){ p = FPSTR(HTTP_INFO_fchipid); p.replace(FPSTR(T_1),(String)ESP.getFlashChipId()); } #endif else if(id==F("idesize")){ p = FPSTR(HTTP_INFO_idesize); p.replace(FPSTR(T_1),(String)ESP.getFlashChipSize()); } else if(id==F("flashsize")){ #ifdef ESP8266 p = FPSTR(HTTP_INFO_flashsize); p.replace(FPSTR(T_1),(String)ESP.getFlashChipRealSize()); #elif defined ESP32 p = FPSTR(HTTP_INFO_psrsize); p.replace(FPSTR(T_1),(String)ESP.getPsramSize()); #endif } else if(id==F("corever")){ #ifdef ESP8266 p = FPSTR(HTTP_INFO_corever); p.replace(FPSTR(T_1),(String)ESP.getCoreVersion()); #endif } #ifdef ESP8266 else if(id==F("bootver")){ p = FPSTR(HTTP_INFO_bootver); p.replace(FPSTR(T_1),(String)system_get_boot_version()); } #endif else if(id==F("cpufreq")){ p = FPSTR(HTTP_INFO_cpufreq); p.replace(FPSTR(T_1),(String)ESP.getCpuFreqMHz()); } else if(id==F("freeheap")){ p = FPSTR(HTTP_INFO_freeheap); p.replace(FPSTR(T_1),(String)ESP.getFreeHeap()); } else if(id==F("memsketch")){ p = FPSTR(HTTP_INFO_memsketch); p.replace(FPSTR(T_1),(String)(ESP.getSketchSize())); p.replace(FPSTR(T_2),(String)(ESP.getSketchSize()+ESP.getFreeSketchSpace())); } else if(id==F("memsmeter")){ p = FPSTR(HTTP_INFO_memsmeter); p.replace(FPSTR(T_1),(String)(ESP.getSketchSize())); p.replace(FPSTR(T_2),(String)(ESP.getSketchSize()+ESP.getFreeSketchSpace())); } else if(id==F("lastreset")){ #ifdef ESP8266 p = FPSTR(HTTP_INFO_lastreset); p.replace(FPSTR(T_1),(String)ESP.getResetReason()); #elif defined(ESP32) && defined(_ROM_RTC_H_) // requires #include p = FPSTR(HTTP_INFO_lastreset); for(int i=0;i<2;i++){ int reason = rtc_get_reset_reason(i); String tok = (String)T_ss+(String)(i+1)+(String)T_es; switch (reason) { //@todo move to array case 1 : p.replace(tok,F("Vbat power on reset"));break; case 3 : p.replace(tok,F("Software reset digital core"));break; case 4 : p.replace(tok,F("Legacy watch dog reset digital core"));break; case 5 : p.replace(tok,F("Deep Sleep reset digital core"));break; case 6 : p.replace(tok,F("Reset by SLC module, reset digital core"));break; case 7 : p.replace(tok,F("Timer Group0 Watch dog reset digital core"));break; case 8 : p.replace(tok,F("Timer Group1 Watch dog reset digital core"));break; case 9 : p.replace(tok,F("RTC Watch dog Reset digital core"));break; case 10 : p.replace(tok,F("Instrusion tested to reset CPU"));break; case 11 : p.replace(tok,F("Time Group reset CPU"));break; case 12 : p.replace(tok,F("Software reset CPU"));break; case 13 : p.replace(tok,F("RTC Watch dog Reset CPU"));break; case 14 : p.replace(tok,F("for APP CPU, reseted by PRO CPU"));break; case 15 : p.replace(tok,F("Reset when the vdd voltage is not stable"));break; case 16 : p.replace(tok,F("RTC Watch dog reset digital core and rtc module"));break; default : p.replace(tok,F("NO_MEAN")); } } #endif } else if(id==F("apip")){ p = FPSTR(HTTP_INFO_apip); p.replace(FPSTR(T_1),WiFi.softAPIP().toString()); } else if(id==F("apmac")){ p = FPSTR(HTTP_INFO_apmac); p.replace(FPSTR(T_1),(String)WiFi.softAPmacAddress()); } #ifdef ESP32 else if(id==F("aphost")){ p = FPSTR(HTTP_INFO_aphost); p.replace(FPSTR(T_1),WiFi.softAPgetHostname()); } #endif #ifndef WM_NOSOFTAPSSID #ifdef ESP8266 else if(id==F("apssid")){ p = FPSTR(HTTP_INFO_apssid); p.replace(FPSTR(T_1),htmlEntities(WiFi.softAPSSID())); } #endif #endif else if(id==F("apbssid")){ p = FPSTR(HTTP_INFO_apbssid); p.replace(FPSTR(T_1),(String)WiFi.BSSIDstr()); } // softAPgetHostname // esp32 // softAPSubnetCIDR // softAPNetworkID // softAPBroadcastIP else if(id==F("stassid")){ p = FPSTR(HTTP_INFO_stassid); p.replace(FPSTR(T_1),htmlEntities((String)WiFi_SSID())); } else if(id==F("staip")){ p = FPSTR(HTTP_INFO_staip); p.replace(FPSTR(T_1),WiFi.localIP().toString()); } else if(id==F("stagw")){ p = FPSTR(HTTP_INFO_stagw); p.replace(FPSTR(T_1),WiFi.gatewayIP().toString()); } else if(id==F("stasub")){ p = FPSTR(HTTP_INFO_stasub); p.replace(FPSTR(T_1),WiFi.subnetMask().toString()); } else if(id==F("dnss")){ p = FPSTR(HTTP_INFO_dnss); p.replace(FPSTR(T_1),WiFi.dnsIP().toString()); } else if(id==F("host")){ p = FPSTR(HTTP_INFO_host); #ifdef ESP32 p.replace(FPSTR(T_1),WiFi.getHostname()); #else p.replace(FPSTR(T_1),WiFi.hostname()); #endif } else if(id==F("stamac")){ p = FPSTR(HTTP_INFO_stamac); p.replace(FPSTR(T_1),WiFi.macAddress()); } else if(id==F("conx")){ p = FPSTR(HTTP_INFO_conx); p.replace(FPSTR(T_1),WiFi.isConnected() ? FPSTR(S_y) : FPSTR(S_n)); } #ifdef ESP8266 else if(id==F("autoconx")){ p = FPSTR(HTTP_INFO_autoconx); p.replace(FPSTR(T_1),WiFi.getAutoConnect() ? FPSTR(S_enable) : FPSTR(S_disable)); } #endif #if defined(ESP32) && !defined(WM_NOTEMP) else if(id==F("temp")){ // temperature is not calibrated, varying large offsets are present, use for relative temp changes only p = FPSTR(HTTP_INFO_temp); p.replace(FPSTR(T_1),(String)temperatureRead()); p.replace(FPSTR(T_2),(String)((temperatureRead()+32)*1.8f)); } // else if(id==F("hall")){ // p = FPSTR(HTTP_INFO_hall); // p.replace(FPSTR(T_1),(String)hallRead()); // hall sensor reads can cause issues with adcs // } #endif else if(id==F("aboutver")){ p = FPSTR(HTTP_INFO_aboutver); p.replace(FPSTR(T_1),FPSTR(WM_VERSION_STR)); } else if(id==F("aboutarduinover")){ #ifdef VER_ARDUINO_STR p = FPSTR(HTTP_INFO_aboutarduino); p.replace(FPSTR(T_1),String(VER_ARDUINO_STR)); #endif } // else if(id==F("aboutidfver")){ // #ifdef VER_IDF_STR // p = FPSTR(HTTP_INFO_aboutidf); // p.replace(FPSTR(T_1),String(VER_IDF_STR)); // #endif // } else if(id==F("aboutsdkver")){ p = FPSTR(HTTP_INFO_sdkver); #ifdef ESP32 p.replace(FPSTR(T_1),(String)esp_get_idf_version()); // p.replace(FPSTR(T_1),(String)system_get_sdk_version()); // deprecated #else p.replace(FPSTR(T_1),(String)system_get_sdk_version()); #endif } else if(id==F("aboutdate")){ p = FPSTR(HTTP_INFO_aboutdate); p.replace(FPSTR(T_1),String(__DATE__ " " __TIME__)); } return p; } /** * HTTPD CALLBACK exit, closes configportal if blocking, if non blocking undefined */ void WiFiManager::handleExit() { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- HTTP Exit")); #endif handleRequest(); String page = getHTTPHead(FPSTR(S_titleexit), FPSTR(C_exit)); // @token titleexit page += FPSTR(S_exiting); // @token exiting page += getHTTPEnd(); // ('Logout', 401, {'WWW-Authenticate': 'Basic realm="Login required"'}) server->sendHeader(F("Cache-Control"), F("no-cache, no-store, must-revalidate")); // @HTTPHEAD send cache HTTPSend(page); delay(2000); abort = true; } /** * HTTPD CALLBACK reset page */ void WiFiManager::handleReset() { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- HTTP Reset")); #endif handleRequest(); String page = getHTTPHead(FPSTR(S_titlereset), FPSTR(C_restart)); //@token titlereset page += FPSTR(S_resetting); //@token resetting page += getHTTPEnd(); HTTPSend(page); #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("RESETTING ESP")); #endif delay(1000); reboot(); } /** * HTTPD CALLBACK erase page */ // void WiFiManager::handleErase() { // handleErase(false); // } void WiFiManager::handleErase(boolean opt) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_NOTIFY,F("<- HTTP Erase")); #endif handleRequest(); String page = getHTTPHead(FPSTR(S_titleerase), FPSTR(C_erase)); // @token titleerase bool ret = erase(opt); if(ret) page += FPSTR(S_resetting); // @token resetting else { page += FPSTR(S_error); // @token erroroccur #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] WiFi EraseConfig failed")); #endif } page += getHTTPEnd(); HTTPSend(page); if(ret){ delay(2000); #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("RESETTING ESP")); #endif reboot(); } } /** * HTTPD CALLBACK 404 */ void WiFiManager::handleNotFound() { if (captivePortal()) return; // If captive portal redirect instead of displaying the page handleRequest(); String message = FPSTR(S_notfound); // @token notfound bool verbose404 = false; // show info in 404 body, uri,method, args if(verbose404){ message += FPSTR(S_uri); // @token uri message += server->uri(); message += FPSTR(S_method); // @token method message += ( server->method() == HTTP_GET ) ? FPSTR(S_GET) : FPSTR(S_POST); message += FPSTR(S_args); // @token args message += server->args(); message += F("\n"); for ( uint8_t i = 0; i < server->args(); i++ ) { message += " " + server->argName ( i ) + ": " + server->arg ( i ) + "\n"; } } server->sendHeader(F("Cache-Control"), F("no-cache, no-store, must-revalidate")); // @HTTPHEAD send cache server->sendHeader(F("Pragma"), F("no-cache")); server->sendHeader(F("Expires"), F("-1")); server->send ( 404, FPSTR(HTTP_HEAD_CT2), message ); } /** * HTTPD redirector * Redirect to captive portal if we got a request for another domain. * Return true in that case so the page handler do not try to handle the request again. */ boolean WiFiManager::captivePortal() { if(!_enableCaptivePortal || !configPortalActive) return false; // skip redirections if cp not enabled or not in ap mode String serverLoc = toStringIp(server->client().localIP()); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,"-> " + server->hostHeader()); DEBUG_WM(WM_DEBUG_DEV,"serverLoc " + serverLoc); #endif // fallback for ipv6 bug if(serverLoc == "0.0.0.0"){ if ((WiFi.status()) != WL_CONNECTED) serverLoc = toStringIp(WiFi.softAPIP()); else serverLoc = toStringIp(WiFi.localIP()); } if(_httpPort != 80) serverLoc += ":" + (String)_httpPort; // add port if not default bool doredirect = serverLoc != server->hostHeader(); // redirect if hostheader not server ip, prevent redirect loops if (doredirect) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- Request redirected to captive portal")); DEBUG_WM(WM_DEBUG_DEV,"serverLoc " + serverLoc); #endif server->sendHeader(F("Location"), (String)F("http://") + serverLoc, true); // @HTTPHEAD send redirect server->send ( 302, FPSTR(HTTP_HEAD_CT2), ""); // Empty content inhibits Content-length header so we have to close the socket ourselves. server->client().stop(); // Stop is needed because we sent no content length return true; } return false; } void WiFiManager::stopCaptivePortal(){ _enableCaptivePortal= false; // @todo maybe disable configportaltimeout(optional), or just provide callback for user } // HTTPD CALLBACK, handle close, stop captive portal, if not enabled undefined void WiFiManager::handleClose(){ DEBUG_WM(WM_DEBUG_VERBOSE,F("Disabling Captive Portal")); stopCaptivePortal(); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- HTTP close")); #endif handleRequest(); String page = getHTTPHead(FPSTR(S_titleclose), FPSTR(C_close)); // @token titleclose page += FPSTR(S_closing); // @token closing page += getHTTPEnd(); HTTPSend(page); } void WiFiManager::reportStatus(String &page){ // updateConxResult(WiFi.status()); // @todo: this defeats the purpose of last result, update elsewhere or add logic here DEBUG_WM(WM_DEBUG_DEV,F("[WIFI] reportStatus prev:"),getWLStatusString(_lastconxresult)); DEBUG_WM(WM_DEBUG_DEV,F("[WIFI] reportStatus current:"),getWLStatusString(WiFi.status())); String str; if (WiFi_SSID() != ""){ if (WiFi.status()==WL_CONNECTED){ str = FPSTR(HTTP_STATUS_ON); str.replace(FPSTR(T_i),WiFi.localIP().toString()); str.replace(FPSTR(T_v),htmlEntities(WiFi_SSID())); } else { str = FPSTR(HTTP_STATUS_OFF); str.replace(FPSTR(T_v),htmlEntities(WiFi_SSID())); if(_lastconxresult == WL_STATION_WRONG_PASSWORD){ // wrong password str.replace(FPSTR(T_c),"D"); // class str.replace(FPSTR(T_r),FPSTR(HTTP_STATUS_OFFPW)); } else if(_lastconxresult == WL_NO_SSID_AVAIL){ // connect failed, or ap not found str.replace(FPSTR(T_c),"D"); str.replace(FPSTR(T_r),FPSTR(HTTP_STATUS_OFFNOAP)); } else if(_lastconxresult == WL_CONNECT_FAILED){ // connect failed str.replace(FPSTR(T_c),"D"); str.replace(FPSTR(T_r),FPSTR(HTTP_STATUS_OFFFAIL)); } else if(_lastconxresult == WL_CONNECTION_LOST){ // connect failed, MOST likely 4WAY_HANDSHAKE_TIMEOUT/incorrect password, state is ambiguous however str.replace(FPSTR(T_c),"D"); str.replace(FPSTR(T_r),FPSTR(HTTP_STATUS_OFFFAIL)); } else{ str.replace(FPSTR(T_c),""); str.replace(FPSTR(T_r),""); } } } else { str = FPSTR(HTTP_STATUS_NONE); } page += str; } // PUBLIC // METHODS /** * reset wifi settings, clean stored ap password */ /** * [stopConfigPortal description] * @return {[type]} [description] */ bool WiFiManager::stopConfigPortal(){ if(_configPortalIsBlocking){ abort = true; return true; } return shutdownConfigPortal(); } /** * disconnect * @access public * @since $dev * @return bool success */ bool WiFiManager::disconnect(){ if(WiFi.status() != WL_CONNECTED){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("Disconnecting: Not connected")); #endif return false; } #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("Disconnecting")); #endif return WiFi_Disconnect(); } /** * reboot the device * @access public */ void WiFiManager::reboot(){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("Restarting")); #endif ESP.restart(); } /** * reboot the device * @access public */ bool WiFiManager::erase(){ return erase(false); } bool WiFiManager::erase(bool opt){ #ifdef WM_DEBUG_LEVEL DEBUG_WM("Erasing"); #endif #if defined(ESP32) && ((defined(WM_ERASE_NVS) || defined(nvs_flash_h))) // if opt true, do nvs erase if(opt){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("Erasing NVS")); #endif esp_err_t err; err = nvs_flash_init(); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("nvs_flash_init: "),err!=ESP_OK ? (String)err : "Success"); #endif err = nvs_flash_erase(); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("nvs_flash_erase: "), err!=ESP_OK ? (String)err : "Success"); #endif return err == ESP_OK; } #elif defined(ESP8266) && defined(spiffs_api_h) if(opt){ bool ret = false; if(SPIFFS.begin()){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("Erasing SPIFFS")); #endif bool ret = SPIFFS.format(); #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("spiffs erase: "),ret ? "Success" : "ERROR"); #endif } else{ #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("[ERROR] Could not start SPIFFS")); #endif } return ret; } #else (void)opt; #endif #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("Erasing WiFi Config")); #endif return WiFi_eraseConfig(); } /** * [resetSettings description] * ERASES STA CREDENTIALS * @access public */ void WiFiManager::resetSettings() { #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("resetSettings")); #endif WiFi_enableSTA(true,true); // must be sta to disconnect erase delay(500); // ensure sta is enabled if (_resetcallback != NULL){ _resetcallback(); // @CALLBACK } #ifdef ESP32 WiFi.disconnect(true,true); #else WiFi.persistent(true); WiFi.disconnect(true); WiFi.persistent(false); #endif #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("SETTINGS ERASED")); #endif } // SETTERS /** * [setTimeout description] * @access public * @param {[type]} unsigned long seconds [description] */ void WiFiManager::setTimeout(unsigned long seconds) { setConfigPortalTimeout(seconds); } /** * [setConfigPortalTimeout description] * @access public * @param {[type]} unsigned long seconds [description] */ void WiFiManager::setConfigPortalTimeout(unsigned long seconds) { _configPortalTimeout = seconds * 1000; } /** * [setConnectTimeout description] * @access public * @param {[type]} unsigned long seconds [description] */ void WiFiManager::setConnectTimeout(unsigned long seconds) { _connectTimeout = seconds * 1000; } /** * [setConnectRetries description] * @access public * @param {[type]} uint8_t numRetries [description] */ void WiFiManager::setConnectRetries(uint8_t numRetries){ _connectRetries = constrain(numRetries,1,10); } /** * toggle _cleanconnect, always disconnect before connecting * @param {[type]} bool enable [description] */ void WiFiManager::setCleanConnect(bool enable){ _cleanConnect = enable; } /** * [setConnectTimeout description * @access public * @param {[type]} unsigned long seconds [description] */ void WiFiManager::setSaveConnectTimeout(unsigned long seconds) { _saveTimeout = seconds * 1000; } /** * Set save portal connect on save option, * if false, will only save credentials not connect * @access public * @param {[type]} bool connect [description] */ void WiFiManager::setSaveConnect(bool connect) { _connectonsave = connect; } /** * [setDebugOutput description] * @access public * @param {[type]} boolean debug [description] */ void WiFiManager::setDebugOutput(boolean debug) { _debug = debug; if(_debug && _debugLevel == WM_DEBUG_DEV) debugPlatformInfo(); if(_debug && _debugLevel >= WM_DEBUG_NOTIFY)DEBUG_WM((__FlashStringHelper *)WM_VERSION_STR," D:"+String(_debugLevel)); } void WiFiManager::setDebugOutput(boolean debug, String prefix) { _debugPrefix = prefix; setDebugOutput(debug); } void WiFiManager::setDebugOutput(boolean debug, wm_debuglevel_t level) { _debugLevel = level; // _debugPrefix = prefix; setDebugOutput(debug); } /** * [setAPStaticIPConfig description] * @access public * @param {[type]} IPAddress ip [description] * @param {[type]} IPAddress gw [description] * @param {[type]} IPAddress sn [description] */ void WiFiManager::setAPStaticIPConfig(IPAddress ip, IPAddress gw, IPAddress sn) { _ap_static_ip = ip; _ap_static_gw = gw; _ap_static_sn = sn; } /** * [setSTAStaticIPConfig description] * @access public * @param {[type]} IPAddress ip [description] * @param {[type]} IPAddress gw [description] * @param {[type]} IPAddress sn [description] */ void WiFiManager::setSTAStaticIPConfig(IPAddress ip, IPAddress gw, IPAddress sn) { _sta_static_ip = ip; _sta_static_gw = gw; _sta_static_sn = sn; } /** * [setSTAStaticIPConfig description] * @since $dev * @access public * @param {[type]} IPAddress ip [description] * @param {[type]} IPAddress gw [description] * @param {[type]} IPAddress sn [description] * @param {[type]} IPAddress dns [description] */ void WiFiManager::setSTAStaticIPConfig(IPAddress ip, IPAddress gw, IPAddress sn, IPAddress dns) { setSTAStaticIPConfig(ip,gw,sn); _sta_static_dns = dns; } /** * [setMinimumSignalQuality description] * @access public * @param {[type]} int quality [description] */ void WiFiManager::setMinimumSignalQuality(int quality) { _minimumQuality = quality; } /** * [setBreakAfterConfig description] * @access public * @param {[type]} boolean shouldBreak [description] */ void WiFiManager::setBreakAfterConfig(boolean shouldBreak) { _shouldBreakAfterConfig = shouldBreak; } /** * setAPCallback, set a callback when softap is started * @access public * @param {[type]} void (*func)(WiFiManager* wminstance) */ void WiFiManager::setAPCallback( std::function func ) { _apcallback = func; } /** * setWebServerCallback, set a callback after webserver is reset, and before routes are setup * if we set webserver handlers before wm, they are used and wm is not by esp webserver * on events cannot be overrided once set, and are not mutiples * @access public * @param {[type]} void (*func)(void) */ void WiFiManager::setWebServerCallback( std::function func ) { _webservercallback = func; } /** * setSaveConfigCallback, set a save config callback after closing configportal * @note calls only if wifi is saved or changed, or setBreakAfterConfig(true) * @access public * @param {[type]} void (*func)(void) */ void WiFiManager::setSaveConfigCallback( std::function func ) { _savewificallback = func; } /** * setPreSaveConfigCallback, set a callback to fire before saving wifi or params * @access public * @param {[type]} void (*func)(void) */ void WiFiManager::setPreSaveConfigCallback( std::function func ) { _presavewificallback = func; } /** * setConfigResetCallback, set a callback to occur when a resetSettings() occurs * @access public * @param {[type]} void(*func)(void) */ void WiFiManager::setConfigResetCallback( std::function func ) { _resetcallback = func; } /** * setSaveParamsCallback, set a save params callback on params save in wifi or params pages * @access public * @param {[type]} void (*func)(void) */ void WiFiManager::setSaveParamsCallback( std::function func ) { _saveparamscallback = func; } /** * setPreSaveParamsCallback, set a pre save params callback on params save prior to anything else * @access public * @param {[type]} void (*func)(void) */ void WiFiManager::setPreSaveParamsCallback( std::function func ) { _presaveparamscallback = func; } /** * setPreOtaUpdateCallback, set a callback to fire before OTA update * @access public * @param {[type]} void (*func)(void) */ void WiFiManager::setPreOtaUpdateCallback( std::function func ) { _preotaupdatecallback = func; } /** * setConfigPortalTimeoutCallback, set a callback to config portal is timeout * @access public * @param {[type]} void (*func)(void) */ void WiFiManager::setConfigPortalTimeoutCallback( std::function func ) { _configportaltimeoutcallback = func; } /** * set custom head html * custom element will be added to head, eg. new meta,style,script tag etc. * @access public * @param char element */ void WiFiManager::setCustomHeadElement(const char* html) { _customHeadElement = html; } /** * set custom html at the top of the body * custom element will be added after the body tag is opened, eg. to show a logo etc. * @access public * @param char element */ void WiFiManager::setCustomBodyHeader(const char* html) { _customBodyHeader = html; } /** * set custom html at the bottom of the body * custom element will be added before the body tag is closed * @access public * @param char element */ void WiFiManager::setCustomBodyFooter(const char* html) { _customBodyFooter = html; } /** * set custom menu html * custom element will be added to menu under custom menu item. * @access public * @param char element */ void WiFiManager::setCustomMenuHTML(const char* html) { _customMenuHTML = html; } /** * toggle wifiscan hiding of duplicate ssid names * if this is false, wifiscan will remove duplicat Access Points - defaut true * @access public * @param boolean removeDuplicates [true] */ void WiFiManager::setRemoveDuplicateAPs(boolean removeDuplicates) { _removeDuplicateAPs = removeDuplicates; } /** * toggle configportal blocking loop * if enabled, then the configportal will enter a blocking loop and wait for configuration * if disabled use with process() to manually process webserver * @since $dev * @access public * @param boolean shoudlBlock [false] */ void WiFiManager::setConfigPortalBlocking(boolean shouldBlock) { _configPortalIsBlocking = shouldBlock; } /** * toggle restore persistent, track internally * sets ESP wifi.persistent so we can remember it and restore user preference on destruct * there is no getter in esp8266 platform prior to https://github.com/esp8266/Arduino/pull/3857 * @since $dev * @access public * @param boolean persistent [true] */ void WiFiManager::setRestorePersistent(boolean persistent) { _userpersistent = persistent; if(!persistent){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("persistent is off")); #endif } } /** * toggle showing static ip form fields * if enabled, then the static ip, gateway, subnet fields will be visible, even if not set in code * @since $dev * @access public * @param boolean alwaysShow [false] */ void WiFiManager::setShowStaticFields(boolean alwaysShow){ if(_disableIpFields) _staShowStaticFields = alwaysShow ? 1 : -1; else _staShowStaticFields = alwaysShow ? 1 : 0; } /** * toggle showing dns fields * if enabled, then the dns1 field will be visible, even if not set in code * @since $dev * @access public * @param boolean alwaysShow [false] */ void WiFiManager::setShowDnsFields(boolean alwaysShow){ if(_disableIpFields) _staShowDns = alwaysShow ? 1 : -1; else _staShowDns = alwaysShow ? 1 : 0; } /** * toggle showing password in wifi password field * if not enabled, placeholder will be S_passph * @since $dev * @access public * @param boolean alwaysShow [false] */ void WiFiManager::setShowPassword(boolean show){ _showPassword = show; } /** * toggle captive portal * if enabled, then devices that use captive portal checks will be redirected to root * if not you will automatically have to navigate to ip [192.168.4.1] * @since $dev * @access public * @param boolean enabled [true] */ void WiFiManager::setCaptivePortalEnable(boolean enabled){ _enableCaptivePortal = enabled; } /** * toggle wifi autoreconnect policy * if enabled, then wifi will autoreconnect automatically always * On esp8266 we force this on when autoconnect is called, see notes * On esp32 this is handled on SYSTEM_EVENT_STA_DISCONNECTED since it does not exist in core yet * @since $dev * @access public * @param boolean enabled [true] */ void WiFiManager::setWiFiAutoReconnect(boolean enabled){ _wifiAutoReconnect = enabled; } /** * toggle configportal timeout wait for station client * if enabled, then the configportal will start timeout when no stations are connected to softAP * disabled by default as rogue stations can keep it open if there is no auth * @since $dev * @access public * @param boolean enabled [false] */ void WiFiManager::setAPClientCheck(boolean enabled){ _apClientCheck = enabled; } /** * toggle configportal timeout wait for web client * if enabled, then the configportal will restart timeout when client requests come in * @since $dev * @access public * @param boolean enabled [true] */ void WiFiManager::setWebPortalClientCheck(boolean enabled){ _webClientCheck = enabled; } /** * toggle wifiscan percentages or quality icons * @since $dev * @access public * @param boolean enabled [false] */ void WiFiManager::setScanDispPerc(boolean enabled){ _scanDispOptions = enabled; } /** * toggle configportal if autoconnect failed * if enabled, then the configportal will be activated on autoconnect failure * @since $dev * @access public * @param boolean enabled [true] */ void WiFiManager::setEnableConfigPortal(boolean enable) { _enableConfigPortal = enable; } /** * toggle configportal if autoconnect failed * if enabled, then the configportal will be de-activated on wifi save * @since $dev * @access public * @param boolean enabled [true] */ void WiFiManager::setDisableConfigPortal(boolean enable) { _disableConfigPortal = enable; } /** * set the hostname (dhcp client id) * @since $dev * @access public * @param char* hostname 32 character hostname to use for sta+ap in esp32, sta in esp8266 * @return bool false if hostname is not valid */ bool WiFiManager::setHostname(const char * hostname){ //@todo max length 32 _hostname = String(hostname); return true; } bool WiFiManager::setHostname(String hostname){ //@todo max length 32 _hostname = hostname; return true; } /** * set the soft ao channel, ignored if channelsync is true and connected * @param int32_t wifi channel, 0 to disable */ void WiFiManager::setWiFiAPChannel(int32_t channel){ _apChannel = channel; } /** * set the soft ap hidden * @param bool wifi ap hidden, default is false */ void WiFiManager::setWiFiAPHidden(bool hidden){ _apHidden = hidden; } /** * toggle showing erase wifi config button on info page * @param boolean enabled */ void WiFiManager::setShowInfoErase(boolean enabled){ _showInfoErase = enabled; } /** * toggle showing update upload web ota button on info page * @param boolean enabled */ void WiFiManager::setShowInfoUpdate(boolean enabled){ _showInfoUpdate = enabled; } /** * check if the config portal is running * @return bool true if active */ bool WiFiManager::getConfigPortalActive(){ return configPortalActive; } /** * [getConfigPortalActive description] * @return bool true if active */ bool WiFiManager::getWebPortalActive(){ return webPortalActive; } String WiFiManager::getWiFiHostname(){ #ifdef ESP32 return (String)WiFi.getHostname(); #else return (String)WiFi.hostname(); #endif } /** * [setTitle description] * @param String title, set app title */ void WiFiManager::setTitle(String title){ _title = title; } /** * set menu items and order * if param is present in menu , params will be removed from wifi page automatically * eg. * const char * menu[] = {"wifi","setup","sep","info","exit"}; * WiFiManager.setMenu(menu); * @since $dev * @param uint8_t menu[] array of menu ids */ void WiFiManager::setMenu(const char * menu[], uint8_t size){ #ifdef WM_DEBUG_LEVEL // DEBUG_WM(WM_DEBUG_DEV,"setmenu array"); #endif _menuIds.clear(); for(size_t i = 0; i < size; i++){ for(size_t j = 0; j < _nummenutokens; j++){ if((String)menu[i] == (__FlashStringHelper *)(_menutokens[j])){ if((String)menu[i] == "param") _paramsInWifi = false; // param auto flag _menuIds.push_back(j); } delay(0); } delay(0); } #ifdef WM_DEBUG_LEVEL // DEBUG_WM(getMenuOut()); #endif } /** * setMenu with vector * eg. * std::vector menu = {"wifi","setup","sep","info","exit"}; * WiFiManager.setMenu(menu); * tokens can be found in _menutokens array in strings_en.h * @shiftIncrement $dev * @param {[type]} std::vector& menu [description] */ void WiFiManager::setMenu(std::vector& menu){ #ifdef WM_DEBUG_LEVEL // DEBUG_WM(WM_DEBUG_DEV,"setmenu vector"); #endif _menuIds.clear(); for(auto menuitem : menu ){ for(size_t j = 0; j < _nummenutokens; j++){ if((String)menuitem == (__FlashStringHelper *)(_menutokens[j])){ if((String)menuitem == "param") _paramsInWifi = false; // param auto flag _menuIds.push_back(j); } } } #ifdef WM_DEBUG_LEVEL // DEBUG_WM(WM_DEBUG_DEV,getMenuOut()); #endif } /** * set params as sperate page not in wifi * NOT COMPATIBLE WITH setMenu! * @todo scan menuids and insert param after wifi or something, same for ota * @param bool enable * @since $dev */ void WiFiManager::setParamsPage(bool enable){ _paramsInWifi = !enable; setMenu(enable ? _menuIdsParams : _menuIdsDefault); } // GETTERS /** * get config portal AP SSID * @since 0.0.1 * @access public * @return String the configportal ap name */ String WiFiManager::getConfigPortalSSID() { return _apName; } /** * return the last known connection result * logged on autoconnect and wifisave, can be used to check why failed * get as readable string with getWLStatusString(getLastConxResult); * @since $dev * @access public * @return bool return wl_status codes */ uint8_t WiFiManager::getLastConxResult(){ return _lastconxresult; } /** * check if wifi has a saved ap or not * @since $dev * @access public * @return bool true if a saved ap config exists */ bool WiFiManager::getWiFiIsSaved(){ return WiFi_hasAutoConnect(); } /** * getDefaultAPName * @since $dev * @return string */ String WiFiManager::getDefaultAPName(){ String hostString = String(WIFI_getChipId(),HEX); hostString.toUpperCase(); // char hostString[16] = {0}; // sprintf(hostString, "%06X", ESP.getChipId()); return _wifissidprefix + "_" + hostString; } /** * setCountry * @since $dev * @param String cc country code, must be defined in WiFiSetCountry, US, JP, CN */ void WiFiManager::setCountry(String cc){ _wificountry = cc; } /** * setClass * @param String str body class string */ void WiFiManager::setClass(String str){ _bodyClass = str; } /** * setDarkMode * @param bool enable, enable dark mode via invert class */ void WiFiManager::setDarkMode(bool enable){ _bodyClass = enable ? "invert" : ""; } /** * setHttpPort * @param uint16_t port webserver port number default 80 */ void WiFiManager::setHttpPort(uint16_t port){ _httpPort = port; } bool WiFiManager::preloadWiFi(String ssid, String pass){ _defaultssid = ssid; _defaultpass = pass; return true; } // HELPERS /** * getWiFiSSID * @since $dev * @param bool persistent * @return String */ String WiFiManager::getWiFiSSID(bool persistent){ return WiFi_SSID(persistent); } /** * getWiFiPass * @since $dev * @param bool persistent * @return String */ String WiFiManager::getWiFiPass(bool persistent){ return WiFi_psk(persistent); } // DEBUG // @todo fix DEBUG_WM(0,0); template void WiFiManager::DEBUG_WM(Generic text) { DEBUG_WM(WM_DEBUG_NOTIFY,text,""); } template void WiFiManager::DEBUG_WM(wm_debuglevel_t level,Generic text) { if(_debugLevel >= level) DEBUG_WM(level,text,""); } template void WiFiManager::DEBUG_WM(Generic text,Genericb textb) { DEBUG_WM(WM_DEBUG_NOTIFY,text,textb); } template void WiFiManager::DEBUG_WM(wm_debuglevel_t level,Generic text,Genericb textb) { if(!_debug || _debugLevel < level) return; if(_debugLevel >= WM_DEBUG_MAX){ #ifdef ESP8266 // uint32_t free; // uint16_t max; // uint8_t frag; // ESP.getHeapStats(&free, &max, &frag);// @todo Does not exist in 2.3.0 // _debugPort.printf("[MEM] free: %5d | max: %5d | frag: %3d%% \n", free, max, frag); #elif defined ESP32 // total_free_bytes; ///< Total free bytes in the heap. Equivalent to multi_free_heap_size(). // total_allocated_bytes; ///< Total bytes allocated to data in the heap. // largest_free_block; ///< Size of largest free block in the heap. This is the largest malloc-able size. // minimum_free_bytes; ///< Lifetime minimum free heap size. Equivalent to multi_minimum_free_heap_size(). // allocated_blocks; ///< Number of (variable size) blocks allocated in the heap. // free_blocks; ///< Number of (variable size) free blocks in the heap. // total_blocks; ///< Total number of (variable size) blocks in the heap. multi_heap_info_t info; heap_caps_get_info(&info, MALLOC_CAP_INTERNAL); uint32_t free = info.total_free_bytes; uint16_t max = info.largest_free_block; uint8_t frag = 100 - (max * 100) / free; _debugPort.printf("[MEM] free: %5u | max: %5u | frag: %3u%% \n", free, max, frag); #endif } _debugPort.print(_debugPrefix); if(_debugLevel >= debugLvlShow) _debugPort.print("["+(String)level+"] "); _debugPort.print(text); if(textb){ _debugPort.print(" "); _debugPort.print(textb); } _debugPort.println(); } /** * [debugSoftAPConfig description] * @access public * @return {[type]} [description] */ void WiFiManager::debugSoftAPConfig(){ #ifdef ESP8266 softap_config config; wifi_softap_get_config(&config); #if !defined(WM_NOCOUNTRY) wifi_country_t country; wifi_get_country(&country); #endif #elif defined(ESP32) wifi_country_t country; wifi_config_t conf_config; esp_wifi_get_config(WIFI_IF_AP, &conf_config); // == ESP_OK wifi_ap_config_t config = conf_config.ap; esp_wifi_get_country(&country); #endif #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("SoftAP Configuration")); DEBUG_WM(FPSTR(D_HR)); DEBUG_WM(F("ssid: "),(char *) config.ssid); DEBUG_WM(F("password: "),(char *) config.password); DEBUG_WM(F("ssid_len: "),config.ssid_len); DEBUG_WM(F("channel: "),config.channel); DEBUG_WM(F("authmode: "),config.authmode); DEBUG_WM(F("ssid_hidden: "),config.ssid_hidden); DEBUG_WM(F("max_connection: "),config.max_connection); #endif #if !defined(WM_NOCOUNTRY) #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("country: "),(String)country.cc); #endif DEBUG_WM(F("beacon_interval: "),(String)config.beacon_interval + "(ms)"); DEBUG_WM(FPSTR(D_HR)); #endif } /** * [debugPlatformInfo description] * @access public * @return {[type]} [description] */ void WiFiManager::debugPlatformInfo(){ #ifdef ESP8266 system_print_meminfo(); #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("[SYS] getCoreVersion(): "),ESP.getCoreVersion()); DEBUG_WM(F("[SYS] system_get_sdk_version(): "),system_get_sdk_version()); DEBUG_WM(F("[SYS] system_get_boot_version():"),system_get_boot_version()); DEBUG_WM(F("[SYS] getFreeHeap(): "),(String)ESP.getFreeHeap()); #endif #elif defined(ESP32) #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("[SYS] WM version: "), String((__FlashStringHelper *)WM_VERSION_STR) +" D:"+String(_debugLevel)); DEBUG_WM(F("[SYS] Arduino version: "), VER_ARDUINO_STR); DEBUG_WM(F("[SYS] ESP SDK version: "), ESP.getSdkVersion()); DEBUG_WM(F("[SYS] Free heap: "), ESP.getFreeHeap()); #endif #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("[SYS] Chip ID:"),WIFI_getChipId()); DEBUG_WM(F("[SYS] Chip Model:"), ESP.getChipModel()); DEBUG_WM(F("[SYS] Chip Cores:"), ESP.getChipCores()); DEBUG_WM(F("[SYS] Chip Rev:"), ESP.getChipRevision()); #endif #endif } int WiFiManager::getRSSIasQuality(int RSSI) { int quality = 0; if (RSSI <= -100) { quality = 0; } else if (RSSI >= -50) { quality = 100; } else { quality = 2 * (RSSI + 100); } return quality; } /** Is this an IP? */ boolean WiFiManager::isIp(String str) { for (size_t i = 0; i < str.length(); i++) { int c = str.charAt(i); if (c != '.' && (c < '0' || c > '9')) { return false; } } return true; } /** IP to String? */ String WiFiManager::toStringIp(IPAddress ip) { String res = ""; for (int i = 0; i < 3; i++) { res += String((ip >> (8 * i)) & 0xFF) + "."; } res += String(((ip >> 8 * 3)) & 0xFF); return res; } boolean WiFiManager::validApPassword(){ // check that ap password is valid, return false if (_apPassword == NULL) _apPassword = ""; if (_apPassword != "") { if (_apPassword.length() < 8 || _apPassword.length() > 63) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(F("AccessPoint set password is INVALID or <8 chars")); #endif _apPassword = ""; return false; // @todo FATAL or fallback to empty , currently fatal, fail secure. } #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("AccessPoint set password is VALID")); DEBUG_WM(WM_DEBUG_DEV,"ap pass",_apPassword); #endif } return true; } /** * encode htmlentities * @since $dev * @param string str string to replace entities * @return string encoded string */ String WiFiManager::htmlEntities(String str, bool whitespace) { str.replace("&","&"); str.replace("<","<"); str.replace(">",">"); str.replace("'","'"); if(whitespace) str.replace(" "," "); // str.replace("-","–"); // str.replace("\"","""); // str.replace("/": "/"); // str.replace("`": "`"); // str.replace("=": "="); return str; } /** * [getWLStatusString description] * @access public * @param {[type]} uint8_t status [description] * @return {[type]} [description] */ String WiFiManager::getWLStatusString(uint8_t status){ if(status <= 7) return WIFI_STA_STATUS[status]; return FPSTR(S_NA); } String WiFiManager::getWLStatusString(){ uint8_t status = WiFi.status(); if(status <= 7) return WIFI_STA_STATUS[status]; return FPSTR(S_NA); } String WiFiManager::encryptionTypeStr(uint8_t authmode) { #ifdef WM_DEBUG_LEVEL // DEBUG_WM("enc_tye: ",authmode); #endif return AUTH_MODE_NAMES[authmode]; } String WiFiManager::getModeString(uint8_t mode){ if(mode <= 3) return WIFI_MODES[mode]; return FPSTR(S_NA); } bool WiFiManager::WiFiSetCountry(){ if(_wificountry == "") return false; // skip not set #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("WiFiSetCountry to"),_wificountry); #endif /* * @return * - ESP_OK: succeed * - ESP_ERR_WIFI_NOT_INIT: WiFi is not initialized by eps_wifi_init * - ESP_ERR_WIFI_IF: invalid interface * - ESP_ERR_WIFI_ARG: invalid argument * - others: refer to error codes in esp_err.h */ // @todo move these definitions, and out of cpp `esp_wifi_set_country(&WM_COUNTRY_US)` bool ret = true; // ret = esp_wifi_set_bandwidth(WIFI_IF_AP,WIFI_BW_HT20); // WIFI_BW_HT40 #ifdef ESP32 esp_err_t err = ESP_OK; // @todo check if wifi is init, no idea how, doesnt seem to be exposed atm ( check again it might be now! ) if(WiFi.getMode() == WIFI_MODE_NULL){ DEBUG_WM(WM_DEBUG_ERROR,"[ERROR] cannot set country, wifi not init"); } // exception if wifi not init! // Assumes that _wificountry is set to one of the supported country codes : "01"(world safe mode) "AT","AU","BE","BG","BR", // "CA","CH","CN","CY","CZ","DE","DK","EE","ES","FI","FR","GB","GR","HK","HR","HU", // "IE","IN","IS","IT","JP","KR","LI","LT","LU","LV","MT","MX","NL","NO","NZ","PL","PT", // "RO","SE","SI","SK","TW","US" // If an invalid country code is passed, ESP_ERR_WIFI_ARG will be returned // This also uses 802.11d mode, which matches the STA to the country code of the AP it connects to (meaning // that the country code will be overridden if connecting to a "foreign" AP) else { #ifndef WM_NOCOUNTRY err = esp_wifi_set_country_code(_wificountry.c_str(), true); #else DEBUG_WM(WM_DEBUG_ERROR,"[ERROR] esp wifi set country is not available"); err = true; #endif } #ifdef WM_DEBUG_LEVEL if(err){ if(err == ESP_ERR_WIFI_NOT_INIT) DEBUG_WM(WM_DEBUG_ERROR,"[ERROR] ESP_ERR_WIFI_NOT_INIT"); else if(err == ESP_ERR_INVALID_ARG) DEBUG_WM(WM_DEBUG_ERROR,"[ERROR] ESP_ERR_WIFI_ARG (invalid country code)"); else if(err != ESP_OK)DEBUG_WM(WM_DEBUG_ERROR,"[ERROR] unknown error",(String)err); } #endif ret = err == ESP_OK; #elif defined(ESP8266) && !defined(WM_NOCOUNTRY) // if(WiFi.getMode() == WIFI_OFF); // exception if wifi not init! if(_wificountry == "US") ret = wifi_set_country((wifi_country_t*)&WM_COUNTRY_US); else if(_wificountry == "JP") ret = wifi_set_country((wifi_country_t*)&WM_COUNTRY_JP); else if(_wificountry == "CN") ret = wifi_set_country((wifi_country_t*)&WM_COUNTRY_CN); #ifdef WM_DEBUG_LEVEL else DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] country code not found")); #endif #endif #ifdef WM_DEBUG_LEVEL if(ret) DEBUG_WM(WM_DEBUG_VERBOSE,F("[OK] esp_wifi_set_country: "),_wificountry); else DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] esp_wifi_set_country failed")); #endif return ret; } // set mode ignores WiFi.persistent bool WiFiManager::WiFi_Mode(WiFiMode_t m,bool persistent) { bool ret; #ifdef ESP8266 if((wifi_get_opmode() == (uint8) m ) && !persistent) { return true; } ETS_UART_INTR_DISABLE(); if(persistent) ret = wifi_set_opmode(m); else ret = wifi_set_opmode_current(m); ETS_UART_INTR_ENABLE(); return ret; #elif defined(ESP32) if(persistent && esp32persistent) WiFi.persistent(true); ret = WiFi.mode(m); // @todo persistent check persistant mode, was eventually added to esp lib, but have to add version checking probably if(persistent && esp32persistent) WiFi.persistent(false); return ret; #endif } bool WiFiManager::WiFi_Mode(WiFiMode_t m) { return WiFi_Mode(m,false); } // sta disconnect without persistent bool WiFiManager::WiFi_Disconnect() { #ifdef ESP8266 if((WiFi.getMode() & WIFI_STA) != 0) { bool ret; #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("WiFi station disconnect")); #endif ETS_UART_INTR_DISABLE(); // @todo possibly not needed ret = wifi_station_disconnect(); ETS_UART_INTR_ENABLE(); return ret; } #elif defined(ESP32) #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("WiFi station disconnect")); #endif return WiFi.disconnect(); // not persistent atm #endif return false; } // toggle STA without persistent bool WiFiManager::WiFi_enableSTA(bool enable,bool persistent) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("WiFi_enableSTA"),(String) enable? "enable" : "disable"); #endif #ifdef ESP8266 WiFiMode_t newMode; WiFiMode_t currentMode = WiFi.getMode(); bool isEnabled = (currentMode & WIFI_STA) != 0; if(enable) newMode = (WiFiMode_t)(currentMode | WIFI_STA); else newMode = (WiFiMode_t)(currentMode & (~WIFI_STA)); if((isEnabled != enable) || persistent) { if(enable) { #ifdef WM_DEBUG_LEVEL if(persistent) DEBUG_WM(WM_DEBUG_DEV,F("enableSTA PERSISTENT ON")); #endif return WiFi_Mode(newMode,persistent); } else { return WiFi_Mode(newMode,persistent); } } else { return true; } #elif defined(ESP32) bool ret; if(persistent && esp32persistent) WiFi.persistent(true); ret = WiFi.enableSTA(enable); // @todo handle persistent when it is implemented in platform if(persistent && esp32persistent) WiFi.persistent(false); return ret; #endif } bool WiFiManager::WiFi_enableSTA(bool enable) { return WiFi_enableSTA(enable,false); } bool WiFiManager::WiFi_eraseConfig() { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_DEV,F("WiFi_eraseConfig")); #endif #ifdef ESP8266 #ifndef WM_FIXERASECONFIG return ESP.eraseConfig(); #else // erase config BUG replacement // https://github.com/esp8266/Arduino/pull/3635 const size_t cfgSize = 0x4000; size_t cfgAddr = ESP.getFlashChipSize() - cfgSize; for (size_t offset = 0; offset < cfgSize; offset += SPI_FLASH_SEC_SIZE) { if (!ESP.flashEraseSector((cfgAddr + offset) / SPI_FLASH_SEC_SIZE)) { return false; } } return true; #endif #elif defined(ESP32) bool ret; WiFi.mode(WIFI_AP_STA); // cannot erase if not in STA mode ! WiFi.persistent(true); ret = WiFi.disconnect(true,true); // disconnect(bool wifioff, bool eraseap) delay(500); WiFi.persistent(false); return ret; #endif } uint8_t WiFiManager::WiFi_softap_num_stations(){ #ifdef ESP8266 return wifi_softap_get_station_num(); #elif defined(ESP32) return WiFi.softAPgetStationNum(); #endif } bool WiFiManager::WiFi_hasAutoConnect(){ return WiFi_SSID(true) != ""; } String WiFiManager::WiFi_SSID(bool persistent) const{ #ifdef ESP8266 struct station_config conf; if(persistent) wifi_station_get_config_default(&conf); else wifi_station_get_config(&conf); char tmp[33]; //ssid can be up to 32chars, => plus null term memcpy(tmp, conf.ssid, sizeof(conf.ssid)); tmp[32] = 0; //nullterm in case of 32 char ssid return String(reinterpret_cast(tmp)); #elif defined(ESP32) // bool res = WiFi.wifiLowLevelInit(true); // @todo fix for S3, not found // wifi_init_config_t cfg = WIFI_INIT_CONFIG_DEFAULT(); if(persistent){ wifi_config_t conf; esp_wifi_get_config(WIFI_IF_STA, &conf); return String(reinterpret_cast(conf.sta.ssid)); } else { if(WiFiGenericClass::getMode() == WIFI_MODE_NULL){ return String(); } wifi_ap_record_t info; if(!esp_wifi_sta_get_ap_info(&info)) { return String(reinterpret_cast(info.ssid)); } return String(); } #endif } String WiFiManager::WiFi_psk(bool persistent) const { #ifdef ESP8266 struct station_config conf; if(persistent) wifi_station_get_config_default(&conf); else wifi_station_get_config(&conf); char tmp[65]; //psk is 64 bytes hex => plus null term memcpy(tmp, conf.password, sizeof(conf.password)); tmp[64] = 0; //null term in case of 64 byte psk return String(reinterpret_cast(tmp)); #elif defined(ESP32) // only if wifi is init if(WiFiGenericClass::getMode() == WIFI_MODE_NULL){ return String(); } wifi_config_t conf; esp_wifi_get_config(WIFI_IF_STA, &conf); return String(reinterpret_cast(conf.sta.password)); #endif } #ifdef ESP32 #ifdef WM_ARDUINOEVENTS void WiFiManager::WiFiEvent(WiFiEvent_t event,arduino_event_info_t info){ #else void WiFiManager::WiFiEvent(WiFiEvent_t event,system_event_info_t info){ #define wifi_sta_disconnected disconnected #define ARDUINO_EVENT_WIFI_STA_DISCONNECTED SYSTEM_EVENT_STA_DISCONNECTED #define ARDUINO_EVENT_WIFI_SCAN_DONE SYSTEM_EVENT_SCAN_DONE #endif if(!_hasBegun){ #ifdef WM_DEBUG_LEVEL // DEBUG_WM(WM_DEBUG_VERBOSE,"[ERROR] WiFiEvent, not ready"); #endif // Serial.println(F("\n[EVENT] WiFiEvent logging (wm debug not available)")); // Serial.print(F("[EVENT] ID: ")); // Serial.println(event); return; } #ifdef WM_DEBUG_LEVEL // DEBUG_WM(WM_DEBUG_VERBOSE,"[EVENT]",event); #endif if(event == ARDUINO_EVENT_WIFI_STA_DISCONNECTED){ #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("[EVENT] WIFI_REASON: "),info.wifi_sta_disconnected.reason); #endif if(info.wifi_sta_disconnected.reason == WIFI_REASON_AUTH_EXPIRE || info.wifi_sta_disconnected.reason == WIFI_REASON_AUTH_FAIL){ _lastconxresulttmp = 7; // hack in wrong password internally, sdk emit WIFI_REASON_AUTH_EXPIRE on some routers on auth_fail } else _lastconxresulttmp = WiFi.status(); #ifdef WM_DEBUG_LEVEL if(info.wifi_sta_disconnected.reason == WIFI_REASON_NO_AP_FOUND) DEBUG_WM(WM_DEBUG_VERBOSE,F("[EVENT] WIFI_REASON: NO_AP_FOUND")); if(info.wifi_sta_disconnected.reason == WIFI_REASON_ASSOC_FAIL){ if(_aggresiveReconn && _connectRetries<4) _connectRetries=4; DEBUG_WM(WM_DEBUG_VERBOSE,F("[EVENT] WIFI_REASON: AUTH FAIL")); } #endif #ifdef esp32autoreconnect #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("[Event] SYSTEM_EVENT_STA_DISCONNECTED, reconnecting")); #endif WiFi.reconnect(); #endif } else if(event == ARDUINO_EVENT_WIFI_SCAN_DONE && _asyncScan){ uint16_t scans = WiFi.scanComplete(); WiFi_scanComplete(scans); } } #endif void WiFiManager::WiFi_autoReconnect(){ #ifdef ESP8266 WiFi.setAutoReconnect(_wifiAutoReconnect); #elif defined(ESP32) // if(_wifiAutoReconnect){ // @todo move to seperate method, used for event listener now #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("ESP32 event handler enabled")); #endif using namespace std::placeholders; if(wm_event_id == 0) wm_event_id = WiFi.onEvent(std::bind(&WiFiManager::WiFiEvent,this,_1,_2)); // } #endif } // Called when /update is requested void WiFiManager::handleUpdate() { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("<- Handle update")); #endif if (captivePortal()) return; // If captive portal redirect instead of displaying the page String page = getHTTPHead(_title, FPSTR(C_update)); // @token options String str = FPSTR(HTTP_ROOT_MAIN); str.replace(FPSTR(T_t), _title); str.replace(FPSTR(T_v), configPortalActive ? _apName : (getWiFiHostname() + " - " + WiFi.localIP().toString())); // use ip if ap is not active for heading page += str; page += FPSTR(HTTP_UPDATE); page += getHTTPEnd(); HTTPSend(page); } // upload via /u POST void WiFiManager::handleUpdating(){ // @todo // cannot upload files in captive portal, file select is not allowed, show message with link or hide // cannot upload if softreset after upload, maybe check for hard reset at least for dev, ERROR[11]: Invalid bootstrapping state, reset ESP8266 before updating // add upload status to webpage somehow // abort upload if error detected ? // [x] supress cp timeout on upload, so it doesnt keep uploading? // add progress handler for debugging // combine route handlers into one callback and use argument or post checking instead of mutiple functions maybe, if POST process else server upload page? // [x] add upload checking, do we need too check file? // convert output to debugger if not moving to example // if (captivePortal()) return; // If captive portal redirect instead of displaying the page bool error = false; unsigned long _configPortalTimeoutSAV = _configPortalTimeout; // store cp timeout _configPortalTimeout = 0; // disable timeout // handler for the file upload, get's the sketch bytes, and writes // them through the Update object HTTPUpload& upload = server->upload(); // UPLOAD START if (upload.status == UPLOAD_FILE_START) { // if(_debug) Serial.setDebugOutput(true); uint32_t maxSketchSpace; // Use new callback for before OTA update if (_preotaupdatecallback != NULL) { _preotaupdatecallback(); // @CALLBACK } #ifdef ESP8266 WiFiUDP::stopAll(); maxSketchSpace = (ESP.getFreeSketchSpace() - 0x1000) & 0xFFFFF000; #elif defined(ESP32) // Think we do not need to stop WiFIUDP because we haven't started a listener // maxSketchSpace = (ESP.getFlashChipSize() - 0x1000) & 0xFFFFF000; // #define UPDATE_SIZE_UNKNOWN 0xFFFFFFFF // include update.h maxSketchSpace = UPDATE_SIZE_UNKNOWN; #endif #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,"[OTA] Update file: ", upload.filename.c_str()); #endif // Update.onProgress(THandlerFunction_Progress fn); // Update.onProgress([](unsigned int progress, unsigned int total) { // Serial.printf("Progress: %u%%\r", (progress / (total / 100))); // }); if (!Update.begin(maxSketchSpace)) { // start with max available size #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] OTA Update ERROR"), Update.getError()); #endif error = true; Update.end(); // Not sure the best way to abort, I think client will keep sending.. } } // UPLOAD WRITE else if (upload.status == UPLOAD_FILE_WRITE) { // Serial.print("."); if (Update.write(upload.buf, upload.currentSize) != upload.currentSize) { #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_ERROR,F("[ERROR] OTA Update WRITE ERROR"), Update.getError()); //Update.printError(Serial); // write failure #endif error = true; } } // UPLOAD FILE END else if (upload.status == UPLOAD_FILE_END) { if (Update.end(true)) { // true to set the size to the current progress #ifdef WM_DEBUG_LEVEL DEBUG_WM(WM_DEBUG_VERBOSE,F("\n\n[OTA] OTA FILE END bytes: "), upload.totalSize); // Serial.printf("Updated: %u bytes\r\nRebooting...\r\n", upload.totalSize); #endif } else { // Update.printError(Serial); error = true; } } // UPLOAD ABORT else if (upload.status == UPLOAD_FILE_ABORTED) { Update.end(); DEBUG_WM(F("[OTA] Update was aborted")); error = true; } if(error) _configPortalTimeout = _configPortalTimeoutSAV; delay(0); } // upload and ota done, show status void WiFiManager::handleUpdateDone() { DEBUG_WM(WM_DEBUG_VERBOSE, F("<- Handle update done")); // if (captivePortal()) return; // If captive portal redirect instead of displaying the page String page = getHTTPHead(FPSTR(S_options), FPSTR(C_update)); // @token options String str = FPSTR(HTTP_ROOT_MAIN); str.replace(FPSTR(T_t),_title); str.replace(FPSTR(T_v), configPortalActive ? _apName : WiFi.localIP().toString()); // use ip if ap is not active for heading page += str; if (Update.hasError()) { page += FPSTR(HTTP_UPDATE_FAIL); #ifdef ESP32 page += "OTA Error: " + (String)Update.errorString(); #else page += "OTA Error: " + (String)Update.getError(); #endif DEBUG_WM(F("[OTA] update failed")); } else { page += FPSTR(HTTP_UPDATE_SUCCESS); DEBUG_WM(F("[OTA] update ok")); } page += getHTTPEnd(); HTTPSend(page); delay(1000); // send page if (!Update.hasError()) { ESP.restart(); } } #endif ================================================ FILE: WiFiManager.h ================================================ /** * WiFiManager.h * * WiFiManager, a library for the ESP8266/Arduino platform * for configuration of WiFi credentials using a Captive Portal * * @author Creator tzapu * @author tablatronix * @version 0.0.0 * @license MIT */ #ifndef WiFiManager_h #define WiFiManager_h #if defined(ESP8266) || defined(ESP32) #ifdef ESP8266 #include #endif #include // #define WM_MDNS // includes MDNS, also set MDNS with sethostname // #define WM_FIXERASECONFIG // use erase flash fix // #define WM_ERASE_NVS // esp32 erase(true) will erase NVS // #define WM_RTC // esp32 info page will include reset reasons // #define WM_JSTEST // build flag for enabling js xhr tests // #define WIFI_MANAGER_OVERRIDE_STRINGS // build flag for using own strings include #ifdef ARDUINO_ESP8266_RELEASE_2_3_0 #warning "ARDUINO_ESP8266_RELEASE_2_3_0, some WM features disabled" // @todo check failing on platform = espressif8266@1.7.3 #define WM_NOASYNC // esp8266 no async scan wifi #define WM_NOCOUNTRY // esp8266 no country #define WM_NOAUTH // no httpauth #define WM_NOSOFTAPSSID // no softapssid() @todo shim #endif // #ifdef CONFIG_IDF_TARGET_ESP32S2 // #warning ESP32S2 // #endif // #ifdef CONFIG_IDF_TARGET_ESP32C3 // #warning ESP32C3 // #endif // #ifdef CONFIG_IDF_TARGET_ESP32S3 // #warning ESP32S3 // #endif // #if defined(ARDUINO_ESP32S3_DEV) || defined(CONFIG_IDF_TARGET_ESP32S3) // #warning "WM_NOTEMP" // #define WM_NOTEMP // disabled temp sensor, have to determine which chip we are on // #endif // #include "soc/efuse_reg.h" // include to add efuse chip rev to info, getChipRevision() is almost always the same though, so not sure why it matters. // #define esp32autoreconnect // implement esp32 autoreconnect event listener kludge, @DEPRECATED // autoreconnect is WORKING https://github.com/espressif/arduino-esp32/issues/653#issuecomment-405604766 #define WM_WEBSERVERSHIM // use webserver shim lib #define WM_G(string_literal) (String(FPSTR(string_literal)).c_str()) #ifdef ESP8266 extern "C" { #include "user_interface.h" } #include #include #ifdef WM_MDNS #include #endif #define WIFI_getChipId() ESP.getChipId() #define WM_WIFIOPEN ENC_TYPE_NONE #elif defined(ESP32) #include #include #include #define WIFI_getChipId() (uint32_t)ESP.getEfuseMac() #define WM_WIFIOPEN WIFI_AUTH_OPEN #ifndef WEBSERVER_H #ifdef WM_WEBSERVERSHIM #include #else #include // Forthcoming official ? probably never happening // https://github.com/esp8266/ESPWebServer #endif #endif #ifdef WM_ERASE_NVS #include #include #endif #ifdef WM_MDNS #include #endif #ifdef WM_RTC #ifdef ESP_IDF_VERSION_MAJOR // IDF 4+ #if CONFIG_IDF_TARGET_ESP32 // ESP32/PICO-D4 #include "esp32/rom/rtc.h" #elif CONFIG_IDF_TARGET_ESP32S2 #include "esp32s2/rom/rtc.h" #elif CONFIG_IDF_TARGET_ESP32C3 #include "esp32c3/rom/rtc.h" #elif CONFIG_IDF_TARGET_ESP32S3 #include "esp32s3/rom/rtc.h" #else #error Target CONFIG_IDF_TARGET is not supported #endif #else // ESP32 Before IDF 4.0 #include "rom/rtc.h" #endif #endif #else #endif #include #include // Include wm strings vars // Pass in strings env override via LANG_XX #if defined(LANG_DE) #include "wm_strings_de.h" #elif defined(LANG_ES) #include "wm_strings_es.h" #elif defined(LANG_EN) #include "wm_strings_en.h" #elif defined(LANG_FR) #include "wm_strings_fr.h" #elif defined(LANG_PT) #include "wm_strings_pt.h" #elif defined(LANG_PT_BR) #include "wm_strings_pt_br.h" #else #include "wm_strings_en.h" #endif // prep string concat vars #define WM_STRING2(x) #x #define WM_STRING(x) WM_STRING2(x) // #include #ifdef ESP_IDF_VERSION // #pragma message "ESP_IDF_VERSION_MAJOR = " WM_STRING(ESP_IDF_VERSION_MAJOR) // #pragma message "ESP_IDF_VERSION_MINOR = " WM_STRING(ESP_IDF_VERSION_MINOR) // #pragma message "ESP_IDF_VERSION_PATCH = " WM_STRING(ESP_IDF_VERSION_PATCH) #define VER_IDF_STR WM_STRING(ESP_IDF_VERSION_MAJOR) "." WM_STRING(ESP_IDF_VERSION_MINOR) "." WM_STRING(ESP_IDF_VERSION_PATCH) #else #define VER_IDF_STR "Unknown" #endif #ifdef Arduino_h #ifdef ESP32 // #include "esp_arduino_version.h" // esp32 arduino > 2.x #endif // esp_get_idf_version #ifdef ESP_ARDUINO_VERSION // #pragma message "ESP_ARDUINO_VERSION_MAJOR = " WM_STRING(ESP_ARDUINO_VERSION_MAJOR) // #pragma message "ESP_ARDUINO_VERSION_MINOR = " WM_STRING(ESP_ARDUINO_VERSION_MINOR) // #pragma message "ESP_ARDUINO_VERSION_PATCH = " WM_STRING(ESP_ARDUINO_VERSION_PATCH) #ifdef ESP_ARDUINO_VERSION_MAJOR #define VER_ARDUINO_STR WM_STRING(ESP_ARDUINO_VERSION_MAJOR) "." WM_STRING(ESP_ARDUINO_VERSION_MINOR) "." WM_STRING(ESP_ARDUINO_VERSION_PATCH) #else #define VER_ARDUINO_STR "Unknown" #endif #else #include // #pragma message "ESP_ARDUINO_VERSION_GIT = " WM_STRING(ARDUINO_ESP32_GIT_VER)// 0x46d5afb1 // #pragma message "ESP_ARDUINO_VERSION_DESC = " WM_STRING(ARDUINO_ESP32_GIT_DESC) // 1.0.6 // #pragma message "ESP_ARDUINO_VERSION_REL = " WM_STRING(ARDUINO_ESP32_RELEASE) //"1_0_6" #ifdef ESP_ARDUINO_VERSION_MAJOR #define VER_ARDUINO_STR WM_STRING(ESP_ARDUINO_VERSION_MAJOR) "." WM_STRING(ESP_ARDUINO_VERSION_MINOR) "." WM_STRING(ESP_ARDUINO_VERSION_PATCH) #else #define VER_ARDUINO_STR "Unknown" #endif #endif #else #define VER_ARDUINO_STR "Unknown" #endif // #pragma message "VER_IDF_STR = " WM_STRING(VER_IDF_STR) // #pragma message "VER_ARDUINO_STR = " WM_STRING(VER_ARDUINO_STR) #ifndef WIFI_MANAGER_MAX_PARAMS #define WIFI_MANAGER_MAX_PARAMS 5 // params will autoincrement and realloc by this amount when max is reached #endif #define WFM_LABEL_BEFORE 1 #define WFM_LABEL_AFTER 2 #define WFM_NO_LABEL 0 #define WFM_LABEL_DEFAULT 1 class WiFiManagerParameter { public: /** Create custom parameters that can be added to the WiFiManager setup web page @id is used for HTTP queries and must not contain spaces nor other special characters */ WiFiManagerParameter(); WiFiManagerParameter(const char *custom); WiFiManagerParameter(const char *id, const char *label); WiFiManagerParameter(const char *id, const char *label, const char *defaultValue, int length); WiFiManagerParameter(const char *id, const char *label, const char *defaultValue, int length, const char *custom); WiFiManagerParameter(const char *id, const char *label, const char *defaultValue, int length, const char *custom, int labelPlacement); ~WiFiManagerParameter(); // WiFiManagerParameter& operator=(const WiFiManagerParameter& rhs); const char *getID() const; const char *getValue() const; const char *getLabel() const; const char *getPlaceholder() const; // @deprecated, use getLabel int getValueLength() const; int getLabelPlacement() const; virtual const char *getCustomHTML() const; void setValue(const char *defaultValue, int length); protected: void init(const char *id, const char *label, const char *defaultValue, int length, const char *custom, int labelPlacement); WiFiManagerParameter& operator=(const WiFiManagerParameter&); const char *_id; const char *_label; char *_value; int _length; int _labelPlacement; const char *_customHTML; friend class WiFiManager; }; // debugging typedef enum { WM_DEBUG_SILENT = 0, // debug OFF but still compiled for runtime WM_DEBUG_ERROR = 1, // error only WM_DEBUG_NOTIFY = 2, // default stable,INFO WM_DEBUG_VERBOSE = 3, // move verbose info WM_DEBUG_DEV = 4, // development useful debugging info WM_DEBUG_MAX = 5 // MAX extra dev auditing, var dumps etc (MAX+1 will print timing,mem and frag info) } wm_debuglevel_t; class WiFiManager { public: WiFiManager(Print& consolePort); WiFiManager(); ~WiFiManager(); void WiFiManagerInit(); // auto connect to saved wifi, or custom, and start config portal on failures boolean autoConnect(); boolean autoConnect(char const *apName, char const *apPassword = NULL); //manually start the config portal, autoconnect does this automatically on connect failure boolean startConfigPortal(); // auto generates apname boolean startConfigPortal(char const *apName, char const *apPassword = NULL); //manually stop the config portal if started manually, stop immediatly if non blocking, flag abort if blocking bool stopConfigPortal(); //manually start the web portal, autoconnect does this automatically on connect failure void startWebPortal(); //manually stop the web portal if started manually void stopWebPortal(); // Run webserver processing, if setConfigPortalBlocking(false) boolean process(); // get the AP name of the config portal, so it can be used in the callback String getConfigPortalSSID(); int getRSSIasQuality(int RSSI); // erase wifi credentials void resetSettings(); // reboot esp void reboot(); // disconnect wifi, without persistent saving or erasing bool disconnect(); // erase esp bool erase(); bool erase(bool opt); //adds a custom parameter, returns false on failure bool addParameter(WiFiManagerParameter *p); //returns the list of Parameters WiFiManagerParameter** getParameters(); // returns the Parameters Count int getParametersCount(); // SET CALLBACKS //called after AP mode and config portal has started void setAPCallback( std::function func ); //called after webserver has started void setWebServerCallback( std::function func ); //called when settings reset have been triggered void setConfigResetCallback( std::function func ); //called when wifi settings have been changed and connection was successful ( or setBreakAfterConfig(true) ) void setSaveConfigCallback( std::function func ); //called when saving params-in-wifi or params before anything else happens (eg wifi) void setPreSaveConfigCallback( std::function func ); //called when saving params before anything else happens void setPreSaveParamsCallback( std::function func ); //called when saving either params-in-wifi or params page void setSaveParamsCallback( std::function func ); //called just before doing OTA update void setPreOtaUpdateCallback( std::function func ); //called when config portal is timeout void setConfigPortalTimeoutCallback( std::function func ); //sets timeout before AP,webserver loop ends and exits even if there has been no setup. //useful for devices that failed to connect at some point and got stuck in a webserver loop //in seconds setConfigPortalTimeout is a new name for setTimeout, ! not used if setConfigPortalBlocking void setConfigPortalTimeout(unsigned long seconds); void setTimeout(unsigned long seconds); // @deprecated, alias //sets timeout for which to attempt connecting, useful if you get a lot of failed connects void setConnectTimeout(unsigned long seconds); // sets number of retries for autoconnect, force retry after wait failure exit void setConnectRetries(uint8_t numRetries); // default 1 //sets timeout for which to attempt connecting on saves, useful if there are bugs in esp waitforconnectloop void setSaveConnectTimeout(unsigned long seconds); // lets you disable automatically connecting after save from webportal void setSaveConnect(bool connect = true); // toggle debug output void setDebugOutput(boolean debug); void setDebugOutput(boolean debug, String prefix); // log line prefix, default "*wm:" void setDebugOutput(boolean debug, wm_debuglevel_t level ); // log line prefix, default "*wm:" //set min quality percentage to include in scan, defaults to 8% if not specified void setMinimumSignalQuality(int quality = 8); //sets a custom ip /gateway /subnet configuration void setAPStaticIPConfig(IPAddress ip, IPAddress gw, IPAddress sn); //sets config for a static IP void setSTAStaticIPConfig(IPAddress ip, IPAddress gw, IPAddress sn); //sets config for a static IP with DNS void setSTAStaticIPConfig(IPAddress ip, IPAddress gw, IPAddress sn, IPAddress dns); //if this is set, it will exit after config, even if connection is unsuccessful. void setBreakAfterConfig(boolean shouldBreak); // if this is set, portal will be blocking and wait until save or exit, // is false user must manually `process()` to handle config portal, // setConfigPortalTimeout is ignored in this mode, user is responsible for closing configportal void setConfigPortalBlocking(boolean shouldBlock); //add custom html at inside for all pages void setCustomHeadElement(const char* html); //add custom html at start of for all pages void setCustomBodyHeader(const char* html); //add custom html at end of for all pages void setCustomBodyFooter(const char* html); //if this is set, customise style void setCustomMenuHTML(const char* html); //if this is true, remove duplicated Access Points - defaut true void setRemoveDuplicateAPs(boolean removeDuplicates); //setter for ESP wifi.persistent so we can remember it and restore user preference, as WIFi._persistent is protected void setRestorePersistent(boolean persistent); //if true, always show static net inputs, IP, subnet, gateway, else only show if set via setSTAStaticIPConfig void setShowStaticFields(boolean alwaysShow); //if true, always show static dns, esle only show if set via setSTAStaticIPConfig void setShowDnsFields(boolean alwaysShow); // toggle showing the saved wifi password in wifi form, could be a security issue. void setShowPassword(boolean show); //if false, disable captive portal redirection void setCaptivePortalEnable(boolean enabled); //if false, timeout captive portal even if a STA client connected to softAP (false), suggest disabling if captiveportal is open void setAPClientCheck(boolean enabled); //if true, reset timeout when webclient connects (true), suggest disabling if captiveportal is open void setWebPortalClientCheck(boolean enabled); // if true, enable autoreconnecting void setWiFiAutoReconnect(boolean enabled); // if true, wifiscan will show percentage instead of quality icons, until we have better templating void setScanDispPerc(boolean enabled); // if true (default) then start the config portal from autoConnect if connection failed void setEnableConfigPortal(boolean enable); // if true (default) then stop the config portal from autoConnect when wifi is saved void setDisableConfigPortal(boolean enable); // set a custom hostname, sets sta and ap dhcp client id for esp32, and sta for esp8266 bool setHostname(const char * hostname); bool setHostname(String hostname); // show erase wifi onfig button on info page, true void setShowInfoErase(boolean enabled); // show OTA upload button on info page void setShowInfoUpdate(boolean enabled); // set ap channel void setWiFiAPChannel(int32_t channel); // set ap hidden void setWiFiAPHidden(bool hidden); // default false // clean connect, always disconnect before connecting void setCleanConnect(bool enable); // default false // set custom menu items and order, vector or arr // see _menutokens for ids void setMenu(std::vector& menu); void setMenu(const char* menu[], uint8_t size); // set the webapp title, default WiFiManager void setTitle(String title); // add params to its own menu page and remove from wifi, NOT TO BE COMBINED WITH setMenu! void setParamsPage(bool enable); // get last connection result, includes autoconnect and wifisave uint8_t getLastConxResult(); // get a status as string String getWLStatusString(uint8_t status); String getWLStatusString(); // get wifi mode as string String getModeString(uint8_t mode); // check if the module has a saved ap to connect to bool getWiFiIsSaved(); // helper to get saved password, if persistent get stored, else get current if connected String getWiFiPass(bool persistent = true); // helper to get saved ssid, if persistent get stored, else get current if connected String getWiFiSSID(bool persistent = true); // debug output the softap config void debugSoftAPConfig(); // debug output platform info and versioning void debugPlatformInfo(); // helper for html String htmlEntities(String str, bool whitespace = false); // set the country code for wifi settings, CN void setCountry(String cc); // set body class (invert), may be used for hacking in alt classes void setClass(String str); // set dark mode via invert class void setDarkMode(bool enable); // get default ap esp uses , esp_chipid etc String getDefaultAPName(); // set port of webserver, 80 void setHttpPort(uint16_t port); // check if config portal is active (true) bool getConfigPortalActive(); // check if web portal is active (true) bool getWebPortalActive(); // to preload autoconnect for test fixtures or other uses that skip esp sta config bool preloadWiFi(String ssid, String pass); // get hostname helper String getWiFiHostname(); std::unique_ptr dnsServer; #if defined(ESP32) && defined(WM_WEBSERVERSHIM) using WM_WebServer = WebServer; #else using WM_WebServer = ESP8266WebServer; #endif std::unique_ptr server; protected: // vars std::vector _menuIds; std::vector _menuIdsParams = {"wifi","param","info","exit"}; std::vector _menuIdsUpdate = {"wifi","param","info","update","exit"}; std::vector _menuIdsDefault = {"wifi","info","exit","sep","update"}; // ip configs @todo struct ? IPAddress _ap_static_ip; IPAddress _ap_static_gw; IPAddress _ap_static_sn; IPAddress _sta_static_ip; IPAddress _sta_static_gw; IPAddress _sta_static_sn; IPAddress _sta_static_dns; unsigned long _configPortalStart = 0; // ms config portal start time (updated for timeouts) unsigned long _webPortalAccessed = 0; // ms last web access time uint8_t _lastconxresult = WL_IDLE_STATUS; // store last result when doing connect operations int _numNetworks = 0; // init index for numnetworks wifiscans unsigned long _lastscan = 0; // ms for timing wifi scans unsigned long _startscan = 0; // ms for timing wifi scans unsigned long _startconn = 0; // ms for timing wifi connects // defaults const uint8_t DNS_PORT = 53; String _apName = "no-net"; String _apPassword = ""; String _ssid = ""; // var temp ssid String _pass = ""; // var temp psk String _defaultssid = ""; // preload ssid String _defaultpass = ""; // preload pass // options flags unsigned long _configPortalTimeout = 0; // ms close config portal loop if set (depending on _cp/webClientCheck options) unsigned long _connectTimeout = 0; // ms stop trying to connect to ap if set unsigned long _saveTimeout = 0; // ms stop trying to connect to ap on saves, in case bugs in esp waitforconnectresult WiFiMode_t _usermode = WIFI_STA; // Default user mode String _wifissidprefix = FPSTR(S_ssidpre); // auto apname prefix prefix+chipid int _cpclosedelay = 2000; // delay before wifisave, prevents captive portal from closing to fast. bool _cleanConnect = false; // disconnect before connect in connectwifi, increases stability on connects bool _connectonsave = true; // connect to wifi when saving creds bool _disableSTA = false; // disable sta when starting ap, always bool _disableSTAConn = true; // disable sta when starting ap, if sta is not connected ( stability ) bool _channelSync = false; // use same wifi sta channel when starting ap int32_t _apChannel = 0; // default channel to use for ap, 0 for auto bool _apHidden = false; // store softap hidden value uint16_t _httpPort = 80; // port for webserver // uint8_t _retryCount = 0; // counter for retries, probably not needed if synchronous uint8_t _connectRetries = 1; // number of sta connect retries, force reconnect, wait loop (connectimeout) does not always work and first disconnect bails bool _aggresiveReconn = false; // use an agrressive reconnect strategy, WILL delay conxs // on some conn failure modes will add delays and many retries to work around esp and ap bugs, ie, anti de-auth protections // https://github.com/tzapu/WiFiManager/issues/1067 bool _allowExit = true; // allow exit in nonblocking, else user exit/abort calls will be ignored including cptimeout #ifdef ESP32 wifi_event_id_t wm_event_id = 0; static uint8_t _lastconxresulttmp; // tmp var for esp32 callback #endif #ifndef WL_STATION_WRONG_PASSWORD uint8_t WL_STATION_WRONG_PASSWORD = 7; // @kludge define a WL status for wrong password #endif // parameter options int _minimumQuality = -1; // filter wifiscan ap by this rssi int _staShowStaticFields = 0; // ternary 1=always show static ip fields, 0=only if set, -1=never(cannot change ips via web!) int _staShowDns = 0; // ternary 1=always show dns, 0=only if set, -1=never(cannot change dns via web!) boolean _removeDuplicateAPs = true; // remove dup aps from wifiscan boolean _showPassword = false; // show or hide saved password on wifi form, might be a security issue! boolean _shouldBreakAfterConfig = false; // stop configportal on save failure boolean _configPortalIsBlocking = true; // configportal enters blocking loop boolean _enableCaptivePortal = true; // enable captive portal redirection boolean _userpersistent = true; // users preffered persistence to restore boolean _wifiAutoReconnect = true; // there is no platform getter for this, we must assume its true and make it so boolean _apClientCheck = false; // keep cp alive if ap have station boolean _webClientCheck = true; // keep cp alive if web have client boolean _scanDispOptions = false; // show percentage in scans not icons boolean _paramsInWifi = true; // show custom parameters on wifi page boolean _showInfoErase = true; // info page erase button boolean _showInfoUpdate = true; // info page update button boolean _showBack = false; // show back button boolean _enableConfigPortal = true; // FOR autoconnect - start config portal if autoconnect failed boolean _disableConfigPortal = true; // FOR autoconnect - stop config portal if cp wifi save String _hostname = ""; // hostname for esp8266 for dhcp, and or MDNS const char* _customHeadElement = ""; // store custom head element html from user inside const char* _customBodyHeader = ""; // store custom top body element html from user inside const char* _customBodyFooter = ""; // store custom bottom body element html from user inside const char* _customMenuHTML = ""; // store custom menu html from user String _bodyClass = ""; // class to add to body String _title = FPSTR(S_brand); // app title - default WiFiManager // internal options // wifiscan notes // currently disabled due to issues with caching, sometimes first scan is empty esp32 wifi not init yet race, or portals hit server nonstop flood // The following are background wifi scanning optimizations // experimental to make scans faster, preload scans after starting cp, and visiting home page, so when you click wifi its already has your list // ideally we would add async and xhr here but I am holding off on js requirements atm // might be slightly buggy since captive portals hammer the home page, @todo workaround this somehow. // cache time helps throttle this // async enables asyncronous scans, so they do not block anything // the refresh button bypasses cache // no aps found is problematic as scans are always going to want to run, leading to page load delays // // These settings really only make sense with _preloadwifiscan true // but not limited to, we could run continuous background scans on various page hits, or xhr hits // which would be better coupled with asyncscan // atm preload is only done on root hit and startcp // // preload scanning causes AP to delay showing for users, but also caches and lets the cp load faster once its open // my scan takes 7-10 seconds public: boolean _preloadwifiscan = false; // preload wifiscan if true unsigned int _scancachetime = 30000; // ms cache time for preload scans boolean _asyncScan = false; // perform wifi network scan async protected: boolean _autoforcerescan = false; // automatically force rescan if scan networks is 0, ignoring cache boolean _disableIpFields = false; // modify function of setShow_X_Fields(false), forces ip fields off instead of default show if set, eg. _staShowStaticFields=-1 String _wificountry = ""; // country code, @todo define in strings lang // wrapper functions for handling setting and unsetting persistent for now. bool esp32persistent = false; bool _hasBegun = false; // flag wm loaded,unloaded void _begin(); void _end(); void setupConfigPortal(); bool shutdownConfigPortal(); bool setupHostname(bool restart); #ifdef NO_EXTRA_4K_HEAP boolean _tryWPS = false; // try WPS on save failure, unsupported void startWPS(); #endif bool startAP(); void setupDNSD(); void setupHTTPServer(); uint8_t connectWifi(String ssid, String pass, bool connect = true); bool setSTAConfig(); bool wifiConnectDefault(); bool wifiConnectNew(String ssid, String pass,bool connect = true); uint8_t waitForConnectResult(); uint8_t waitForConnectResult(uint32_t timeout); void updateConxResult(uint8_t status); // webserver handlers public: void handleNotFound(); protected: void HTTPSend(const String &content); void handleRoot(); void handleWifi(boolean scan); void handleWifiSave(); void handleInfo(); void handleReset(); void handleExit(); void handleClose(); // void handleErase(); void handleErase(boolean opt); void handleParam(); void handleWiFiStatus(); void handleRequest(); void handleParamSave(); void doParamSave(); boolean captivePortal(); boolean configPortalHasTimeout(); uint8_t processConfigPortal(); void stopCaptivePortal(); // OTA Update handler void handleUpdate(); void handleUpdating(); void handleUpdateDone(); // wifi platform abstractions bool WiFi_Mode(WiFiMode_t m); bool WiFi_Mode(WiFiMode_t m,bool persistent); bool WiFi_Disconnect(); bool WiFi_enableSTA(bool enable); bool WiFi_enableSTA(bool enable,bool persistent); bool WiFi_eraseConfig(); uint8_t WiFi_softap_num_stations(); bool WiFi_hasAutoConnect(); void WiFi_autoReconnect(); String WiFi_SSID(bool persistent = true) const; String WiFi_psk(bool persistent = true) const; bool WiFi_scanNetworks(); bool WiFi_scanNetworks(bool force,bool async); bool WiFi_scanNetworks(unsigned int cachetime,bool async); bool WiFi_scanNetworks(unsigned int cachetime); void WiFi_scanComplete(int networksFound); bool WiFiSetCountry(); #ifdef ESP32 // check for arduino or system event system, handle esp32 arduino v2 and IDF #if defined(ESP_ARDUINO_VERSION) && defined(ESP_ARDUINO_VERSION_VAL) #define WM_ARDUINOVERCHECK ESP_ARDUINO_VERSION >= ESP_ARDUINO_VERSION_VAL(2, 0, 0) #define WM_ARDUINOVERCHECK_204 ESP_ARDUINO_VERSION <= ESP_ARDUINO_VERSION_VAL(2, 0, 5) #ifdef WM_ARDUINOVERCHECK #define WM_ARDUINOEVENTS #else #define WM_NOSOFTAPSSID #define WM_NOCOUNTRY #endif #ifdef WM_ARDUINOVERCHECK_204 #define WM_DISCONWORKAROUND #endif #else #define WM_NOCOUNTRY #endif #ifdef WM_NOCOUNTRY #warning "ESP32 set country unavailable" #endif #ifdef WM_ARDUINOEVENTS void WiFiEvent(WiFiEvent_t event, arduino_event_info_t info); #else void WiFiEvent(WiFiEvent_t event, system_event_info_t info); #endif #endif // output helpers String getParamOut(); String getIpForm(String id, String title, String value); String getScanItemOut(); String getStaticOut(); String getHTTPHead(String title, String classes = ""); String getHTTPEnd(); String getMenuOut(); //helpers boolean isIp(String str); String toStringIp(IPAddress ip); boolean validApPassword(); String encryptionTypeStr(uint8_t authmode); void reportStatus(String &page); String getInfoData(String id); // flags boolean connect = false; boolean abort = false; boolean reset = false; boolean configPortalActive = false; // these are state flags for portal mode, we are either in webportal mode(STA) or configportal mode(AP) // these are mutually exclusive as STA+AP mode is not supported due to channel restrictions and stability // if we decide to support this, these checks will need to be replaced with something client aware to check if client origin is ap or web // These state checks are critical and used for internal function checks boolean webPortalActive = false; boolean portalTimeoutResult = false; boolean portalAbortResult = false; boolean storeSTAmode = true; // option store persistent STA mode in connectwifi int timer = 0; // timer for debug throttle for numclients, and portal timeout messages // WiFiManagerParameter int _paramsCount = 0; int _max_params; WiFiManagerParameter** _params = NULL; boolean _debug = true; String _debugPrefix = FPSTR(S_debugPrefix); wm_debuglevel_t debugLvlShow = WM_DEBUG_VERBOSE; // at which level start showing [n] level tags // build debuglevel support // @todo use DEBUG_ESP_x? // Set default debug level #ifndef WM_DEBUG_LEVEL #define WM_DEBUG_LEVEL WM_DEBUG_NOTIFY #endif // override debug level OFF #ifdef WM_NODEBUG #undef WM_DEBUG_LEVEL #endif #ifdef WM_DEBUG_LEVEL uint8_t _debugLevel = (uint8_t)WM_DEBUG_LEVEL; #else uint8_t _debugLevel = 0; // default debug level #endif // @todo use DEBUG_ESP_PORT ? #ifdef WM_DEBUG_PORT Print& _debugPort = WM_DEBUG_PORT; #else Print& _debugPort = Serial; // debug output stream ref #endif template void DEBUG_WM(Generic text); template void DEBUG_WM(wm_debuglevel_t level,Generic text); template void DEBUG_WM(Generic text,Genericb textb); template void DEBUG_WM(wm_debuglevel_t level, Generic text,Genericb textb); // callbacks // @todo use cb list (vector) maybe event ids, allow no return value std::function _apcallback; std::function _webservercallback; std::function _savewificallback; std::function _presavewificallback; std::function _presaveparamscallback; std::function _saveparamscallback; std::function _resetcallback; std::function _preotaupdatecallback; std::function _configportaltimeoutcallback; template auto optionalIPFromString(T *obj, const char *s) -> decltype( obj->fromString(s) ) { return obj->fromString(s); } auto optionalIPFromString(...) -> bool { // DEBUG_WM("NO fromString METHOD ON IPAddress, you need ESP8266 core 2.1.0 or newer for Custom IP configuration to work."); return false; } }; #endif #endif ================================================ FILE: examples/Advanced/Advanced.ino ================================================ /** * WiFiManager advanced demo, contains advanced configurartion options * Implements TRIGGEN_PIN button press, press for ondemand configportal, hold for 3 seconds for reset settings. */ #include // https://github.com/tzapu/WiFiManager #define TRIGGER_PIN 0 // wifimanager can run in a blocking mode or a non blocking mode // Be sure to know how to process loops with no delay() if using non blocking bool wm_nonblocking = false; // change to true to use non blocking WiFiManager wm; // global wm instance WiFiManagerParameter custom_field; // global param ( for non blocking w params ) void setup() { WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP Serial.begin(115200); Serial.setDebugOutput(true); delay(3000); Serial.println("\n Starting"); pinMode(TRIGGER_PIN, INPUT); // wm.resetSettings(); // wipe settings if(wm_nonblocking) wm.setConfigPortalBlocking(false); // add a custom input field int customFieldLength = 40; // new (&custom_field) WiFiManagerParameter("customfieldid", "Custom Field Label", "Custom Field Value", customFieldLength,"placeholder=\"Custom Field Placeholder\""); // test custom html input type(checkbox) // new (&custom_field) WiFiManagerParameter("customfieldid", "Custom Field Label", "Custom Field Value", customFieldLength,"placeholder=\"Custom Field Placeholder\" type=\"checkbox\""); // custom html type // test custom html(radio) const char* custom_radio_str = "
One
Two
Three"; new (&custom_field) WiFiManagerParameter(custom_radio_str); // custom html input wm.addParameter(&custom_field); wm.setSaveParamsCallback(saveParamCallback); // custom menu via array or vector // // menu tokens, "wifi","wifinoscan","info","param","close","sep","erase","restart","exit" (sep is seperator) (if param is in menu, params will not show up in wifi page!) // const char* menu[] = {"wifi","info","param","sep","restart","exit"}; // wm.setMenu(menu,6); std::vector menu = {"wifi","info","param","sep","restart","exit"}; wm.setMenu(menu); // set dark theme wm.setClass("invert"); //set static ip // wm.setSTAStaticIPConfig(IPAddress(10,0,1,99), IPAddress(10,0,1,1), IPAddress(255,255,255,0)); // set static ip,gw,sn // wm.setShowStaticFields(true); // force show static ip fields // wm.setShowDnsFields(true); // force show dns field always // wm.setConnectTimeout(20); // how long to try to connect for before continuing wm.setConfigPortalTimeout(30); // auto close configportal after n seconds // wm.setCaptivePortalEnable(false); // disable captive portal redirection // wm.setAPClientCheck(true); // avoid timeout if client connected to softap // wifi scan settings // wm.setRemoveDuplicateAPs(false); // do not remove duplicate ap names (true) // wm.setMinimumSignalQuality(20); // set min RSSI (percentage) to show in scans, null = 8% // wm.setShowInfoErase(false); // do not show erase button on info page // wm.setScanDispPerc(true); // show RSSI as percentage not graph icons // wm.setBreakAfterConfig(true); // always exit configportal even if wifi save fails bool res; // res = wm.autoConnect(); // auto generated AP name from chipid // res = wm.autoConnect("AutoConnectAP"); // anonymous ap res = wm.autoConnect("AutoConnectAP","password"); // password protected ap if(!res) { Serial.println("Failed to connect or hit timeout"); // ESP.restart(); } else { //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); } } void checkButton(){ // check for button press if ( digitalRead(TRIGGER_PIN) == LOW ) { // poor mans debounce/press-hold, code not ideal for production delay(50); if( digitalRead(TRIGGER_PIN) == LOW ){ Serial.println("Button Pressed"); // still holding button for 3000 ms, reset settings, code not ideaa for production delay(3000); // reset delay hold if( digitalRead(TRIGGER_PIN) == LOW ){ Serial.println("Button Held"); Serial.println("Erasing Config, restarting"); wm.resetSettings(); ESP.restart(); } // start portal w delay Serial.println("Starting config portal"); wm.setConfigPortalTimeout(120); if (!wm.startConfigPortal("OnDemandAP","password")) { Serial.println("failed to connect or hit timeout"); delay(3000); // ESP.restart(); } else { //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); } } } } String getParam(String name){ //read parameter from server, for customhmtl input String value; if(wm.server->hasArg(name)) { value = wm.server->arg(name); } return value; } void saveParamCallback(){ Serial.println("[CALLBACK] saveParamCallback fired"); Serial.println("PARAM customfieldid = " + getParam("customfieldid")); } void loop() { if(wm_nonblocking) wm.process(); // avoid delays() in loop when non-blocking and other long running code checkButton(); // put your main code here, to run repeatedly: } ================================================ FILE: examples/Basic/Basic.ino ================================================ #include // https://github.com/tzapu/WiFiManager void setup() { // WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP // it is a good practice to make sure your code sets wifi mode how you want it. // put your setup code here, to run once: Serial.begin(115200); //WiFiManager, Local intialization. Once its business is done, there is no need to keep it around WiFiManager wm; // reset settings - wipe stored credentials for testing // these are stored by the esp library // wm.resetSettings(); // Automatically connect using saved credentials, // if connection fails, it starts an access point with the specified name ( "AutoConnectAP"), // if empty will auto generate SSID, if password is blank it will be anonymous AP (wm.autoConnect()) // then goes into a blocking loop awaiting configuration and will return success result bool res; // res = wm.autoConnect(); // auto generated AP name from chipid // res = wm.autoConnect("AutoConnectAP"); // anonymous ap res = wm.autoConnect("AutoConnectAP","password"); // password protected ap if(!res) { Serial.println("Failed to connect"); // ESP.restart(); } else { //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); } } void loop() { // put your main code here, to run repeatedly: } ================================================ FILE: examples/NonBlocking/AutoConnectNonBlocking/AutoConnectNonBlocking.ino ================================================ #include // https://github.com/tzapu/WiFiManager WiFiManager wm; void setup() { WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP // put your setup code here, to run once: Serial.begin(115200); //reset settings - wipe credentials for testing //wm.resetSettings(); wm.setConfigPortalBlocking(false); wm.setConfigPortalTimeout(60); //automatically connect using saved credentials if they exist //If connection fails it starts an access point with the specified name if(wm.autoConnect("AutoConnectAP")){ Serial.println("connected...yeey :)"); } else { Serial.println("Configportal running"); } } void loop() { wm.process(); // put your main code here, to run repeatedly: } ================================================ FILE: examples/NonBlocking/AutoConnectNonBlockingwParams/AutoConnectNonBlockingwParams.ino ================================================ #include // https://github.com/tzapu/WiFiManager WiFiManager wm; WiFiManagerParameter custom_mqtt_server("server", "mqtt server", "", 40); void setup() { WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP // put your setup code here, to run once: Serial.begin(115200); //reset settings - wipe credentials for testing //wm.resetSettings(); wm.addParameter(&custom_mqtt_server); wm.setConfigPortalBlocking(false); wm.setSaveParamsCallback(saveParamsCallback); //automatically connect using saved credentials if they exist //If connection fails it starts an access point with the specified name if(wm.autoConnect("AutoConnectAP")){ Serial.println("connected...yeey :)"); } else { Serial.println("Configportal running"); } } void loop() { wm.process(); // put your main code here, to run repeatedly: } void saveParamsCallback () { Serial.println("Get Params:"); Serial.print(custom_mqtt_server.getID()); Serial.print(" : "); Serial.println(custom_mqtt_server.getValue()); } ================================================ FILE: examples/NonBlocking/OnDemandNonBlocking/OnDemandNonBlocking.ino ================================================ /** * OnDemandNonBlocking.ino * example of running the webportal or configportal manually and non blocking * trigger pin will start a webportal for 120 seconds then turn it off. * startAP = true will start both the configportal AP and webportal */ #include // https://github.com/tzapu/WiFiManager // include MDNS #ifdef ESP8266 #include #elif defined(ESP32) #include #endif // select which pin will trigger the configuration portal when set to LOW #define TRIGGER_PIN 0 WiFiManager wm; unsigned int timeout = 120; // seconds to run for unsigned int startTime = millis(); bool portalRunning = false; bool startAP = false; // start AP and webserver if true, else start only webserver void setup() { WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP // put your setup code here, to run once Serial.begin(115200); Serial.setDebugOutput(true); delay(1000); Serial.println("\n Starting"); pinMode(TRIGGER_PIN, INPUT_PULLUP); // wm.resetSettings(); wm.setHostname("MDNSEXAMPLE"); // wm.setEnableConfigPortal(false); // wm.setConfigPortalBlocking(false); wm.autoConnect(); } void loop() { #ifdef ESP8266 MDNS.update(); #endif doWiFiManager(); // put your main code here, to run repeatedly: } void doWiFiManager(){ // is auto timeout portal running if(portalRunning){ wm.process(); // do processing // check for timeout if((millis()-startTime) > (timeout*1000)){ Serial.println("portaltimeout"); portalRunning = false; if(startAP){ wm.stopConfigPortal(); } else{ wm.stopWebPortal(); } } } // is configuration portal requested? if(digitalRead(TRIGGER_PIN) == LOW && (!portalRunning)) { if(startAP){ Serial.println("Button Pressed, Starting Config Portal"); wm.setConfigPortalBlocking(false); wm.startConfigPortal(); } else{ Serial.println("Button Pressed, Starting Web Portal"); wm.startWebPortal(); } portalRunning = true; startTime = millis(); } } ================================================ FILE: examples/Old_examples/AutoConnectWithFeedback/AutoConnectWithFeedback.ino ================================================ #include // https://github.com/tzapu/WiFiManager void configModeCallback (WiFiManager *myWiFiManager) { Serial.println("Entered config mode"); Serial.println(WiFi.softAPIP()); //if you used auto generated SSID, print it Serial.println(myWiFiManager->getConfigPortalSSID()); } void setup() { // put your setup code here, to run once: Serial.begin(115200); //WiFiManager //Local intialization. Once its business is done, there is no need to keep it around WiFiManager wifiManager; //reset settings - for testing //wifiManager.resetSettings(); //set callback that gets called when connecting to previous WiFi fails, and enters Access Point mode wifiManager.setAPCallback(configModeCallback); //fetches ssid and pass and tries to connect //if it does not connect it starts an access point with the specified name //here "AutoConnectAP" //and goes into a blocking loop awaiting configuration if(!wifiManager.autoConnect()) { Serial.println("failed to connect and hit timeout"); //reset and try again, or maybe put it to deep sleep ESP.restart(); delay(1000); } //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); } void loop() { // put your main code here, to run repeatedly: } ================================================ FILE: examples/Old_examples/AutoConnectWithReset/AutoConnectWithReset.ino ================================================ #include // this needs to be first, or it all crashes and burns... #include // https://github.com/tzapu/WiFiManager void setup() { // put your setup code here, to run once: Serial.begin(115200); Serial.println(); //WiFiManager //Local intialization. Once its business is done, there is no need to keep it around WiFiManager wifiManager; //exit after config instead of connecting wifiManager.setBreakAfterConfig(true); //reset settings - for testing //wifiManager.resetSettings(); //tries to connect to last known settings //if it does not connect it starts an access point with the specified name //here "AutoConnectAP" with password "password" //and goes into a blocking loop awaiting configuration if (!wifiManager.autoConnect("AutoConnectAP", "password")) { Serial.println("failed to connect, we should reset as see if it connects"); delay(3000); ESP.restart(); delay(5000); } //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); Serial.println("local ip"); Serial.println(WiFi.localIP()); } void loop() { // put your main code here, to run repeatedly: } ================================================ FILE: examples/Old_examples/AutoConnectWithStaticIP/AutoConnectWithStaticIP.ino ================================================ #include // this needs to be first, or it all crashes and burns... #include // https://github.com/tzapu/WiFiManager /************************************************************************************** * this example shows how to set a static IP configuration for the ESP * although the IP shows in the config portal, the changes will revert * to the IP set in the source file. * if you want the ability to configure and persist the new IP configuration * look at the FS examples, which save the config to file *************************************************************************************/ //default custom static IP //char static_ip[16] = "10.0.1.59"; //char static_gw[16] = "10.0.1.1"; //char static_sn[16] = "255.255.255.0"; void setup() { // put your setup code here, to run once: Serial.begin(115200); Serial.println(); //WiFiManager //Local intialization. Once its business is done, there is no need to keep it around WiFiManager wifiManager; //reset settings - for testing //wifiManager.resetSettings(); //set static ip //block1 should be used for ESP8266 core 2.1.0 or newer, otherwise use block2 //start-block1 //IPAddress _ip,_gw,_sn; //_ip.fromString(static_ip); //_gw.fromString(static_gw); //_sn.fromString(static_sn); //end-block1 //start-block2 IPAddress _ip = IPAddress(10, 0, 1, 78); IPAddress _gw = IPAddress(10, 0, 1, 1); IPAddress _sn = IPAddress(255, 255, 255, 0); //end-block2 wifiManager.setSTAStaticIPConfig(_ip, _gw, _sn); //tries to connect to last known settings //if it does not connect it starts an access point with the specified name //here "AutoConnectAP" with password "password" //and goes into a blocking loop awaiting configuration if (!wifiManager.autoConnect("AutoConnectAP", "password")) { Serial.println("failed to connect, we should reset as see if it connects"); delay(3000); ESP.restart(); delay(5000); } //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); Serial.println("local ip"); Serial.println(WiFi.localIP()); } void loop() { // put your main code here, to run repeatedly: } ================================================ FILE: examples/Old_examples/AutoConnectWithTimeout/AutoConnectWithTimeout.ino ================================================ #include // https://github.com/tzapu/WiFiManager void setup() { // put your setup code here, to run once: Serial.begin(115200); //WiFiManager //Local intialization. Once its business is done, there is no need to keep it around WiFiManager wifiManager; //reset settings - for testing //wifiManager.resetSettings(); //sets timeout until configuration portal gets turned off //useful to make it all retry or go to sleep //in seconds wifiManager.setConfigPortalTimeout(180); //fetches ssid and pass and tries to connect //if it does not connect it starts an access point with the specified name //here "AutoConnectAP" //and goes into a blocking loop awaiting configuration if(!wifiManager.autoConnect("AutoConnectAP")) { Serial.println("failed to connect and hit timeout"); delay(3000); //reset and try again, or maybe put it to deep sleep ESP.restart(); delay(5000); } //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); } void loop() { // put your main code here, to run repeatedly: } ================================================ FILE: examples/OnDemand/OnDemandConfigPortal/OnDemandConfigPortal.ino ================================================ /** * OnDemandConfigPortal.ino * example of running the configPortal AP manually, independantly from the captiveportal * trigger pin will start a configPortal AP for 120 seconds then turn it off. * */ #include // https://github.com/tzapu/WiFiManager // select which pin will trigger the configuration portal when set to LOW #define TRIGGER_PIN 0 int timeout = 120; // seconds to run for void setup() { WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP // put your setup code here, to run once: Serial.begin(115200); Serial.println("\n Starting"); pinMode(TRIGGER_PIN, INPUT_PULLUP); } void loop() { // is configuration portal requested? if ( digitalRead(TRIGGER_PIN) == LOW) { WiFiManager wm; //reset settings - for testing //wm.resetSettings(); // set configportal timeout wm.setConfigPortalTimeout(timeout); if (!wm.startConfigPortal("OnDemandAP")) { Serial.println("failed to connect and hit timeout"); delay(3000); //reset and try again, or maybe put it to deep sleep ESP.restart(); delay(5000); } //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); } // put your main code here, to run repeatedly: } ================================================ FILE: examples/OnDemand/OnDemandWebPortal/OnDemandWebPortal.ino ================================================ /** * OnDemandWebPortal.ino * example of running the webportal (always NON blocking) */ #include // https://github.com/tzapu/WiFiManager // select which pin will trigger the configuration portal when set to LOW #define TRIGGER_PIN 0 WiFiManager wm; bool portalRunning = false; void setup() { WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP // put your setup code here, to run once Serial.begin(115200); Serial.println("\n Starting"); pinMode(TRIGGER_PIN, INPUT_PULLUP); } void loop() { checkButton(); // put your main code here, to run repeatedly: } void checkButton(){ // is auto timeout portal running if(portalRunning){ wm.process(); } // is configuration portal requested? if(digitalRead(TRIGGER_PIN) == LOW) { delay(50); if(digitalRead(TRIGGER_PIN) == LOW) { if(!portalRunning){ Serial.println("Button Pressed, Starting Portal"); wm.startWebPortal(); portalRunning = true; } else{ Serial.println("Button Pressed, Stopping Portal"); wm.stopWebPortal(); portalRunning = false; } } } } ================================================ FILE: examples/Parameters/LittleFS/LittleFSParameters.ino ================================================ /** * Basic example using LittleFS to store data */ #include #include #include String readFile(fs::FS &fs, const char * path){ Serial.printf("Reading file: %s\r\n", path); File file = fs.open(path, "r"); if(!file || file.isDirectory()){ Serial.println("- empty file or failed to open file"); return String(); } Serial.println("- read from file:"); String fileContent; while(file.available()){ fileContent+=String((char)file.read()); } file.close(); Serial.println(fileContent); return fileContent; } void writeFile(fs::FS &fs, const char * path, const char * message){ Serial.printf("Writing file: %s\r\n", path); File file = fs.open(path, "w"); if(!file){ Serial.println("- failed to open file for writing"); return; } if(file.print(message)){ Serial.println("- file written"); } else { Serial.println("- write failed"); } file.close(); } int data = 4; #include #define TRIGGER_PIN 2 int timeout = 120; // seconds to run for void setup() { if (!LittleFS.begin()) { //to start littlefs Serial.println("LittleFS mount failed"); return; } data = readFile(LittleFS, "/data.txt").toInt(); WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP // put your setup code here, to run once: pinMode(TRIGGER_PIN, INPUT_PULLUP); WiFiManager wm; //wm.resetSettings(); bool res; res = wm.autoConnect("Setup"); if(!res) { Serial.println("Failed to connect"); // ESP.restart(); } } void loop() { if ( digitalRead(TRIGGER_PIN) == LOW) { WiFiManager wm; //wm.resetSettings(); wm.setConfigPortalTimeout(timeout); if (!wm.startConfigPortal("Sharmander")) { Serial.println("failed to connect and hit timeout"); delay(3000); ESP.restart(); delay(5000); } Serial.println("connected...yeey :)"); } } ================================================ FILE: examples/Parameters/SPIFFS/AutoConnectWithFSParameters/AutoConnectWithFSParameters.ino ================================================ #include //this needs to be first, or it all crashes and burns... #include //https://github.com/tzapu/WiFiManager #ifdef ESP32 #include #endif #include //https://github.com/bblanchon/ArduinoJson //define your default values here, if there are different values in config.json, they are overwritten. char mqtt_server[40]; char mqtt_port[6] = "8080"; char api_token[34] = "YOUR_API_TOKEN"; //flag for saving data bool shouldSaveConfig = false; //callback notifying us of the need to save config void saveConfigCallback () { Serial.println("Should save config"); shouldSaveConfig = true; } void setup() { // put your setup code here, to run once: Serial.begin(115200); Serial.println(); //clean FS, for testing //SPIFFS.format(); //read configuration from FS json Serial.println("mounting FS..."); if (SPIFFS.begin()) { Serial.println("mounted file system"); if (SPIFFS.exists("/config.json")) { //file exists, reading and loading Serial.println("reading config file"); File configFile = SPIFFS.open("/config.json", "r"); if (configFile) { Serial.println("opened config file"); size_t size = configFile.size(); // Allocate a buffer to store contents of the file. std::unique_ptr buf(new char[size]); configFile.readBytes(buf.get(), size); #if defined(ARDUINOJSON_VERSION_MAJOR) && ARDUINOJSON_VERSION_MAJOR >= 6 DynamicJsonDocument json(1024); auto deserializeError = deserializeJson(json, buf.get()); serializeJson(json, Serial); if ( ! deserializeError ) { #else DynamicJsonBuffer jsonBuffer; JsonObject& json = jsonBuffer.parseObject(buf.get()); json.printTo(Serial); if (json.success()) { #endif Serial.println("\nparsed json"); strcpy(mqtt_server, json["mqtt_server"]); strcpy(mqtt_port, json["mqtt_port"]); strcpy(api_token, json["api_token"]); } else { Serial.println("failed to load json config"); } configFile.close(); } } } else { Serial.println("failed to mount FS"); } //end read // The extra parameters to be configured (can be either global or just in the setup) // After connecting, parameter.getValue() will get you the configured value // id/name placeholder/prompt default length WiFiManagerParameter custom_mqtt_server("server", "mqtt server", mqtt_server, 40); WiFiManagerParameter custom_mqtt_port("port", "mqtt port", mqtt_port, 6); WiFiManagerParameter custom_api_token("apikey", "API token", api_token, 32); //WiFiManager //Local intialization. Once its business is done, there is no need to keep it around WiFiManager wifiManager; //set config save notify callback wifiManager.setSaveConfigCallback(saveConfigCallback); //set static ip wifiManager.setSTAStaticIPConfig(IPAddress(10, 0, 1, 99), IPAddress(10, 0, 1, 1), IPAddress(255, 255, 255, 0)); //add all your parameters here wifiManager.addParameter(&custom_mqtt_server); wifiManager.addParameter(&custom_mqtt_port); wifiManager.addParameter(&custom_api_token); //reset settings - for testing //wifiManager.resetSettings(); //set minimu quality of signal so it ignores AP's under that quality //defaults to 8% //wifiManager.setMinimumSignalQuality(); //sets timeout until configuration portal gets turned off //useful to make it all retry or go to sleep //in seconds //wifiManager.setTimeout(120); //fetches ssid and pass and tries to connect //if it does not connect it starts an access point with the specified name //here "AutoConnectAP" //and goes into a blocking loop awaiting configuration if (!wifiManager.autoConnect("AutoConnectAP", "password")) { Serial.println("failed to connect and hit timeout"); delay(3000); //reset and try again, or maybe put it to deep sleep ESP.restart(); delay(5000); } //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); //read updated parameters strcpy(mqtt_server, custom_mqtt_server.getValue()); strcpy(mqtt_port, custom_mqtt_port.getValue()); strcpy(api_token, custom_api_token.getValue()); Serial.println("The values in the file are: "); Serial.println("\tmqtt_server : " + String(mqtt_server)); Serial.println("\tmqtt_port : " + String(mqtt_port)); Serial.println("\tapi_token : " + String(api_token)); //save the custom parameters to FS if (shouldSaveConfig) { Serial.println("saving config"); #if defined(ARDUINOJSON_VERSION_MAJOR) && ARDUINOJSON_VERSION_MAJOR >= 6 DynamicJsonDocument json(1024); #else DynamicJsonBuffer jsonBuffer; JsonObject& json = jsonBuffer.createObject(); #endif json["mqtt_server"] = mqtt_server; json["mqtt_port"] = mqtt_port; json["api_token"] = api_token; File configFile = SPIFFS.open("/config.json", "w"); if (!configFile) { Serial.println("failed to open config file for writing"); } #if defined(ARDUINOJSON_VERSION_MAJOR) && ARDUINOJSON_VERSION_MAJOR >= 6 serializeJson(json, Serial); serializeJson(json, configFile); #else json.printTo(Serial); json.printTo(configFile); #endif configFile.close(); //end save } Serial.println("local ip"); Serial.println(WiFi.localIP()); } void loop() { // put your main code here, to run repeatedly: } ================================================ FILE: examples/Parameters/SPIFFS/AutoConnectWithFSParametersAndCustomIP/AutoConnectWithFSParametersAndCustomIP.ino ================================================ #include //this needs to be first, or it all crashes and burns... #include //https://github.com/tzapu/WiFiManager #ifdef ESP32 #include #endif #include //https://github.com/bblanchon/ArduinoJson //define your default values here, if there are different values in config.json, they are overwritten. //length should be max size + 1 char mqtt_server[40]; char mqtt_port[6] = "8080"; char api_token[34] = "YOUR_APITOKEN"; //default custom static IP char static_ip[16] = "10.0.1.56"; char static_gw[16] = "10.0.1.1"; char static_sn[16] = "255.255.255.0"; //flag for saving data bool shouldSaveConfig = false; //callback notifying us of the need to save config void saveConfigCallback () { Serial.println("Should save config"); shouldSaveConfig = true; } void setup() { // put your setup code here, to run once: Serial.begin(115200); Serial.println(); //clean FS, for testing //SPIFFS.format(); //read configuration from FS json Serial.println("mounting FS..."); if (SPIFFS.begin()) { Serial.println("mounted file system"); if (SPIFFS.exists("/config.json")) { //file exists, reading and loading Serial.println("reading config file"); File configFile = SPIFFS.open("/config.json", "r"); if (configFile) { Serial.println("opened config file"); size_t size = configFile.size(); // Allocate a buffer to store contents of the file. std::unique_ptr buf(new char[size]); configFile.readBytes(buf.get(), size); #if defined(ARDUINOJSON_VERSION_MAJOR) && ARDUINOJSON_VERSION_MAJOR >= 6 DynamicJsonDocument json(1024); auto deserializeError = deserializeJson(json, buf.get()); serializeJson(json, Serial); if ( ! deserializeError ) { #else DynamicJsonBuffer jsonBuffer; JsonObject& json = jsonBuffer.parseObject(buf.get()); json.printTo(Serial); if (json.success()) { #endif Serial.println("\nparsed json"); strcpy(mqtt_server, json["mqtt_server"]); strcpy(mqtt_port, json["mqtt_port"]); strcpy(api_token, json["api_token"]); if (json["ip"]) { Serial.println("setting custom ip from config"); strcpy(static_ip, json["ip"]); strcpy(static_gw, json["gateway"]); strcpy(static_sn, json["subnet"]); Serial.println(static_ip); } else { Serial.println("no custom ip in config"); } } else { Serial.println("failed to load json config"); } } } } else { Serial.println("failed to mount FS"); } //end read Serial.println(static_ip); Serial.println(api_token); Serial.println(mqtt_server); // The extra parameters to be configured (can be either global or just in the setup) // After connecting, parameter.getValue() will get you the configured value // id/name placeholder/prompt default length WiFiManagerParameter custom_mqtt_server("server", "mqtt server", mqtt_server, 40); WiFiManagerParameter custom_mqtt_port("port", "mqtt port", mqtt_port, 5); WiFiManagerParameter custom_api_token("apikey", "API token", api_token, 34); //WiFiManager //Local intialization. Once its business is done, there is no need to keep it around WiFiManager wifiManager; //set config save notify callback wifiManager.setSaveConfigCallback(saveConfigCallback); //set static ip IPAddress _ip, _gw, _sn; _ip.fromString(static_ip); _gw.fromString(static_gw); _sn.fromString(static_sn); wifiManager.setSTAStaticIPConfig(_ip, _gw, _sn); //add all your parameters here wifiManager.addParameter(&custom_mqtt_server); wifiManager.addParameter(&custom_mqtt_port); wifiManager.addParameter(&custom_api_token); //reset settings - for testing //wifiManager.resetSettings(); //set minimu quality of signal so it ignores AP's under that quality //defaults to 8% wifiManager.setMinimumSignalQuality(); //sets timeout until configuration portal gets turned off //useful to make it all retry or go to sleep //in seconds //wifiManager.setTimeout(120); //fetches ssid and pass and tries to connect //if it does not connect it starts an access point with the specified name //here "AutoConnectAP" //and goes into a blocking loop awaiting configuration if (!wifiManager.autoConnect("AutoConnectAP", "password")) { Serial.println("failed to connect and hit timeout"); delay(3000); //reset and try again, or maybe put it to deep sleep ESP.restart(); delay(5000); } //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); //read updated parameters strcpy(mqtt_server, custom_mqtt_server.getValue()); strcpy(mqtt_port, custom_mqtt_port.getValue()); strcpy(api_token, custom_api_token.getValue()); //save the custom parameters to FS if (shouldSaveConfig) { Serial.println("saving config"); #if defined(ARDUINOJSON_VERSION_MAJOR) && ARDUINOJSON_VERSION_MAJOR >= 6 DynamicJsonDocument json(1024); #else DynamicJsonBuffer jsonBuffer; JsonObject& json = jsonBuffer.createObject(); #endif json["mqtt_server"] = mqtt_server; json["mqtt_port"] = mqtt_port; json["api_token"] = api_token; json["ip"] = WiFi.localIP().toString(); json["gateway"] = WiFi.gatewayIP().toString(); json["subnet"] = WiFi.subnetMask().toString(); File configFile = SPIFFS.open("/config.json", "w"); if (!configFile) { Serial.println("failed to open config file for writing"); } #if defined(ARDUINOJSON_VERSION_MAJOR) && ARDUINOJSON_VERSION_MAJOR >= 6 serializeJson(json, Serial); serializeJson(json, configFile); #else json.printTo(Serial); json.printTo(configFile); #endif configFile.close(); //end save } Serial.println("local ip"); Serial.println(WiFi.localIP()); Serial.println(WiFi.gatewayIP()); Serial.println(WiFi.subnetMask()); } void loop() { // put your main code here, to run repeatedly: } ================================================ FILE: examples/ParamsChildClass/ParamsChildClass.ino ================================================ /** * WiFiManagerParameter child class example */ #include // https://github.com/tzapu/WiFiManager #include #include #define SETUP_PIN 0 class IPAddressParameter : public WiFiManagerParameter { public: IPAddressParameter(const char *id, const char *placeholder, IPAddress address) : WiFiManagerParameter("") { init(id, placeholder, address.toString().c_str(), 16, "", WFM_LABEL_BEFORE); } bool getValue(IPAddress &ip) { return ip.fromString(WiFiManagerParameter::getValue()); } }; class IntParameter : public WiFiManagerParameter { public: IntParameter(const char *id, const char *placeholder, long value, const uint8_t length = 10) : WiFiManagerParameter("") { init(id, placeholder, String(value).c_str(), length, "", WFM_LABEL_BEFORE); } long getValue() { return String(WiFiManagerParameter::getValue()).toInt(); } }; class FloatParameter : public WiFiManagerParameter { public: FloatParameter(const char *id, const char *placeholder, float value, const uint8_t length = 10) : WiFiManagerParameter("") { init(id, placeholder, String(value).c_str(), length, "", WFM_LABEL_BEFORE); } float getValue() { return String(WiFiManagerParameter::getValue()).toFloat(); } }; struct Settings { float f; int i; char s[20]; uint32_t ip; } sett; void setup() { WiFi.mode(WIFI_STA); // explicitly set mode, esp defaults to STA+AP pinMode(SETUP_PIN, INPUT_PULLUP); Serial.begin(115200); //Delay to push SETUP button Serial.println("Press setup button"); for (int sec = 3; sec > 0; sec--) { Serial.print(sec); Serial.print(".."); delay(1000); } // warning for example only, this will initialize empty memory into your vars // always init flash memory or add some checksum bits EEPROM.begin( 512 ); EEPROM.get(0, sett); Serial.println("Settings loaded"); if (digitalRead(SETUP_PIN) == LOW) { // Button pressed Serial.println("SETUP"); WiFiManager wm; sett.s[19] = '\0'; //add null terminator at the end cause overflow WiFiManagerParameter param_str( "str", "param_string", sett.s, 20); FloatParameter param_float( "float", "param_float", sett.f); IntParameter param_int( "int", "param_int", sett.i); IPAddress ip(sett.ip); IPAddressParameter param_ip("ip", "param_ip", ip); wm.addParameter( ¶m_str ); wm.addParameter( ¶m_float ); wm.addParameter( ¶m_int ); wm.addParameter( ¶m_ip ); //SSID & password parameters already included wm.startConfigPortal(); strncpy(sett.s, param_str.getValue(), 20); sett.s[19] = '\0'; sett.f = param_float.getValue(); sett.i = param_int.getValue(); Serial.print("String param: "); Serial.println(sett.s); Serial.print("Float param: "); Serial.println(sett.f); Serial.print("Int param: "); Serial.println(sett.i, DEC); if (param_ip.getValue(ip)) { sett.ip = ip; Serial.print("IP param: "); Serial.println(ip); } else { Serial.println("Incorrect IP"); } EEPROM.put(0, sett); if (EEPROM.commit()) { Serial.println("Settings saved"); } else { Serial.println("EEPROM error"); } } else { Serial.println("WORK"); //connect to saved SSID WiFi.begin(); //do smth Serial.print("String param: "); Serial.println(sett.s); Serial.print("Float param: "); Serial.println(sett.f); Serial.print("Int param: "); Serial.println(sett.i, DEC); Serial.print("IP param: "); IPAddress ip(sett.ip); Serial.println(ip); } } void loop() { } ================================================ FILE: examples/Super/OnDemandConfigPortal/OnDemandConfigPortal.ino ================================================ /** * This is a kind of unit test for DEV for now * It contains many of the public methods * */ #include // https://github.com/tzapu/WiFiManager #include #include #define USEOTA // enable OTA #ifdef USEOTA #include #include #endif const char* modes[] = { "NULL", "STA", "AP", "STA+AP" }; unsigned long mtime = 0; WiFiManager wm; // TEST OPTION FLAGS bool TEST_CP = false; // always start the configportal, even if ap found int TESP_CP_TIMEOUT = 90; // test cp timeout bool TEST_NET = true; // do a network test after connect, (gets ntp time) bool ALLOWONDEMAND = true; // enable on demand int ONDDEMANDPIN = 0; // gpio for button bool WMISBLOCKING = true; // use blocking or non blocking mode, non global params wont work in non blocking uint8_t BUTTONFUNC = 1; // 0 resetsettings, 1 configportal, 2 autoconnect // char ssid[] = "*************"; // your network SSID (name) // char pass[] = "********"; // your network password //callbacks // called after AP mode and config portal has started // setAPCallback( std::function func ); // called after webserver has started // setWebServerCallback( std::function func ); // called when settings reset have been triggered // setConfigResetCallback( std::function func ); // called when wifi settings have been changed and connection was successful ( or setBreakAfterConfig(true) ) // setSaveConfigCallback( std::function func ); // called when saving either params-in-wifi or params page // setSaveParamsCallback( std::function func ); // called when saving params-in-wifi or params before anything else happens (eg wifi) // setPreSaveConfigCallback( std::function func ); // called just before doing OTA update // setPreOtaUpdateCallback( std::function func ); void saveWifiCallback(){ Serial.println("[CALLBACK] saveCallback fired"); } //gets called when WiFiManager enters configuration mode void configModeCallback (WiFiManager *myWiFiManager) { Serial.println("[CALLBACK] configModeCallback fired"); // myWiFiManager->setAPStaticIPConfig(IPAddress(10,0,1,1), IPAddress(10,0,1,1), IPAddress(255,255,255,0)); // Serial.println(WiFi.softAPIP()); //if you used auto generated SSID, print it // Serial.println(myWiFiManager->getConfigPortalSSID()); // // esp_wifi_set_bandwidth(WIFI_IF_AP, WIFI_BW_HT20); } void saveParamCallback(){ Serial.println("[CALLBACK] saveParamCallback fired"); // wm.stopConfigPortal(); } void bindServerCallback(){ wm.server->on("/custom",handleRoute); // you can override wm route endpoints, I have not found a way to remove handlers, but this would let you disable them or add auth etc. // wm.server->on("/info",handleNotFound); // wm.server->on("/update",handleNotFound); wm.server->on("/erase",handleNotFound); // disable erase } void handleRoute(){ Serial.println("[HTTP] handle custom route"); wm.server->send(200, "text/plain", "hello from user code"); } void handleNotFound(){ Serial.println("[HTTP] override handle route"); wm.handleNotFound(); } void handlePreOtaUpdateCallback(){ Update.onProgress([](unsigned int progress, unsigned int total) { Serial.printf("CUSTOM Progress: %u%%\r", (progress / (total / 100))); }); } void setup() { // WiFi.mode(WIFI_STA); // explicitly set mode, esp can default to STA+AP // put your setup code here, to run once: Serial.begin(115200); delay(3000); // Serial.setDebugOutput(true); // WiFi.setTxPower(WIFI_POWER_8_5dBm); Serial.println("\n Starting"); // WiFi.setSleepMode(WIFI_NONE_SLEEP); // disable sleep, can improve ap stability Serial.println("Error - TEST"); Serial.println("Information- - TEST"); Serial.println("[ERROR] TEST"); Serial.println("[INFORMATION] TEST"); // WiFi.setScanMethod(WIFI_ALL_CHANNEL_SCAN); // wifi_scan_method_t scanMethod // WiFi.setSortMethod(WIFI_CONNECT_AP_BY_SIGNAL); // wifi_sort_method_t sortMethod - WIFI_CONNECT_AP_BY_SIGNAL,WIFI_CONNECT_AP_BY_SECURITY // WiFi.setMinSecurity(WIFI_AUTH_WPA2_PSK); wm.setDebugOutput(true, WM_DEBUG_DEV); wm.debugPlatformInfo(); //reset settings - for testing // wm.resetSettings(); // wm.erase(); // setup some parameters WiFiManagerParameter custom_html("

This Is Custom HTML

"); // only custom html WiFiManagerParameter custom_mqtt_server("server", "mqtt server", "", 40); WiFiManagerParameter custom_mqtt_port("port", "mqtt port", "", 6); WiFiManagerParameter custom_token("api_token", "api token", "", 16); WiFiManagerParameter custom_tokenb("invalid token", "invalid token", "", 0); // id is invalid, cannot contain spaces WiFiManagerParameter custom_ipaddress("input_ip", "input IP", "", 15,"pattern='\\d{1,3}\\.\\d{1,3}\\.\\d{1,3}\\.\\d{1,3}'"); // custom input attrs (ip mask) WiFiManagerParameter custom_input_type("input_pwd", "input pass", "", 15,"type='password'"); // custom input attrs (ip mask) const char _customHtml_checkbox[] = "type=\"checkbox\""; WiFiManagerParameter custom_checkbox("my_checkbox", "My Checkbox", "T", 2, _customHtml_checkbox, WFM_LABEL_AFTER); const char *bufferStr = R"(

Select Choice




)"; WiFiManagerParameter custom_html_inputs(bufferStr); // callbacks wm.setAPCallback(configModeCallback); wm.setWebServerCallback(bindServerCallback); wm.setSaveConfigCallback(saveWifiCallback); wm.setSaveParamsCallback(saveParamCallback); wm.setPreOtaUpdateCallback(handlePreOtaUpdateCallback); // add all your parameters here wm.addParameter(&custom_html); wm.addParameter(&custom_mqtt_server); wm.addParameter(&custom_mqtt_port); wm.addParameter(&custom_token); wm.addParameter(&custom_tokenb); wm.addParameter(&custom_ipaddress); wm.addParameter(&custom_checkbox); wm.addParameter(&custom_input_type); wm.addParameter(&custom_html_inputs); // set values later if you want custom_html.setValue("test",4); custom_token.setValue("test",4); // const char* icon = " // "; // set custom html head content , inside // examples of favicon, or meta tags etc // const char* headhtml = ""; // const char* headhtml = ""; // wm.setCustomHeadElement(headhtml); // set custom html menu content , inside menu item "custom", see setMenu() const char* menuhtml = "

\n"; wm.setCustomMenuHTML(menuhtml); // invert theme, dark wm.setDarkMode(true); // show scan RSSI as percentage, instead of signal stength graphic // wm.setScanDispPerc(true); /* Set cutom menu via menu[] or vector const char* menu[] = {"wifi","wifinoscan","info","param","close","sep","erase","restart","exit"}; wm.setMenu(menu,9); // custom menu array must provide length */ std::vector menu = {"wifi","wifinoscan","info","param","custom","close","sep","erase","update","restart","exit"}; // wm.setMenu(menu); // custom menu, pass vector // wm.setParamsPage(true); // move params to seperate page, not wifi, do not combine with setmenu! // set STA static ip // wm.setSTAStaticIPConfig(IPAddress(10,0,1,99), IPAddress(10,0,1,1), IPAddress(255,255,255,0)); // wm.setShowStaticFields(false); // wm.setShowDnsFields(false); // set AP static ip // wm.setAPStaticIPConfig(IPAddress(10,0,1,1), IPAddress(10,0,1,1), IPAddress(255,255,255,0)); // wm.setAPStaticIPConfig(IPAddress(10,0,1,99), IPAddress(10,0,1,1), IPAddress(255,255,255,0)); // set country // setting wifi country seems to improve OSX soft ap connectivity, // may help others as well, default is CN which has different channels // wm.setCountry("US"); // crashing on esp32 2.0 // set Hostname // wm.setHostname(("WM_"+wm.getDefaultAPName()).c_str()); // wm.setHostname("WM_RANDO_1234"); // set custom channel // wm.setWiFiAPChannel(13); // set AP hidden // wm.setAPHidden(true); // show password publicly in form // wm.setShowPassword(true); // sets wether wm configportal is a blocking loop(legacy) or not, use wm.process() in loop if false // wm.setConfigPortalBlocking(false); if(!WMISBLOCKING){ wm.setConfigPortalBlocking(false); } //sets timeout until configuration portal gets turned off //useful to make it all retry or go to sleep in seconds wm.setConfigPortalTimeout(TESP_CP_TIMEOUT); // set min quality to show in web list, default 8% // wm.setMinimumSignalQuality(50); // set connection timeout // wm.setConnectTimeout(20); // set wifi connect retries // wm.setConnectRetries(2); // connect after portal save toggle // wm.setSaveConnect(false); // do not connect, only save // show static ip fields // wm.setShowStaticFields(true); // wm.startConfigPortal("AutoConnectAP", "password"); // This is sometimes necessary, it is still unknown when and why this is needed but it may solve some race condition or bug in esp SDK/lib // wm.setCleanConnect(true); // disconnect before connect, clean connect wm.setBreakAfterConfig(true); // needed to use saveWifiCallback // set custom webserver port, automatic captive portal does not work with custom ports! // wm.setHttpPort(8080); //fetches ssid and pass and tries to connect //if it does not connect it starts an access point with the specified name //here "AutoConnectAP" //and goes into a blocking loop awaiting configuration // use autoconnect, but prevent configportal from auto starting // wm.setEnableConfigPortal(false); wifiInfo(); // to preload autoconnect with credentials // wm.preloadWiFi("ssid","password"); if(!wm.autoConnect("WM_AutoConnectAP","12345678")) { Serial.println("failed to connect and hit timeout"); } else if(TEST_CP) { // start configportal always delay(1000); Serial.println("TEST_CP ENABLED"); wm.setConfigPortalTimeout(TESP_CP_TIMEOUT); wm.startConfigPortal("WM_ConnectAP","12345678"); } else { //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); } wifiInfo(); pinMode(ONDDEMANDPIN, INPUT_PULLUP); #ifdef USEOTA ArduinoOTA.begin(); #endif } void wifiInfo(){ // can contain gargbage on esp32 if wifi is not ready yet Serial.println("[WIFI] WIFI_INFO DEBUG"); WiFi.printDiag(Serial); Serial.println("[WIFI] MODE: " + (String)(wm.getModeString(WiFi.getMode()))); Serial.println("[WIFI] SAVED: " + (String)(wm.getWiFiIsSaved() ? "YES" : "NO")); Serial.println("[WIFI] SSID: " + (String)wm.getWiFiSSID()); Serial.println("[WIFI] PASS: " + (String)wm.getWiFiPass()); // Serial.println("[WIFI] HOSTNAME: " + (String)WiFi.getHostname()); } void loop() { if(!WMISBLOCKING){ wm.process(); } #ifdef USEOTA ArduinoOTA.handle(); #endif // is configuration portal requested? if (ALLOWONDEMAND && digitalRead(ONDDEMANDPIN) == LOW ) { delay(100); if ( digitalRead(ONDDEMANDPIN) == LOW || BUTTONFUNC == 2){ Serial.println("BUTTON PRESSED"); // button reset/reboot if(BUTTONFUNC == 0){ wm.resetSettings(); wm.reboot(); delay(200); return; } // start configportal if(BUTTONFUNC == 1){ if (!wm.startConfigPortal("OnDemandAP","12345678")) { Serial.println("failed to connect and hit timeout"); delay(3000); } return; } //test autoconnect as reconnect etc. if(BUTTONFUNC == 2){ wm.setConfigPortalTimeout(TESP_CP_TIMEOUT); wm.autoConnect(); return; } } else { //if you get here you have connected to the WiFi Serial.println("connected...yeey :)"); getTime(); } } // every 10 seconds if(millis()-mtime > 10000 ){ if(WiFi.status() == WL_CONNECTED){ getTime(); } else Serial.println("No Wifi"); mtime = millis(); } // put your main code here, to run repeatedly: delay(100); } void getTime() { int tz = -5; int dst = 0; time_t now = time(nullptr); unsigned timeout = 5000; // try for timeout unsigned start = millis(); configTime(tz * 3600, dst * 3600, "pool.ntp.org", "time.nist.gov"); Serial.print("Waiting for NTP time sync: "); while (now < 8 * 3600 * 2 ) { // what is this ? delay(100); Serial.print("."); now = time(nullptr); if((millis() - start) > timeout){ Serial.println("\n[ERROR] Failed to get NTP time."); return; } } Serial.println(""); struct tm timeinfo; gmtime_r(&now, &timeinfo); Serial.print("Current time: "); Serial.print(asctime(&timeinfo)); } void debugchipid(){ // WiFi.mode(WIFI_STA); // WiFi.printDiag(Serial); // Serial.println(modes[WiFi.getMode()]); // ESP.eraseConfig(); // wm.resetSettings(); // wm.erase(true); WiFi.mode(WIFI_AP); // WiFi.softAP(); WiFi.enableAP(true); delay(500); // esp_wifi_start(); delay(1000); WiFi.printDiag(Serial); delay(60000); ESP.restart(); // AP esp_267751 // 507726A4AE30 // ESP32 Chip ID = 507726A4AE30 } ================================================ FILE: examples/Tests/wifi_softap/wifi_softap.ino ================================================ // wifi_basic.ino #include #include // #define NVSERASE #ifdef NVSERASE #include #include #endif void setup(){ Serial.begin(115200); delay(2000); Serial.println("Startup...."); #ifdef NVSERASE esp_err_t err; err = nvs_flash_init(); err = nvs_flash_erase(); #endif Serial.setDebugOutput(true); WiFi.begin("hellowifi","noonehere"); while (WiFi.status() != WL_CONNECTED && millis()<15000) { delay(500); Serial.print("."); } if(WiFi.status() == WL_CONNECTED){ Serial.println(""); Serial.println("WiFi connected."); Serial.println("IP address: "); // Serial.println(WiFi.localIP()); } else { Serial.println("WiFi NOT CONNECTED, starting ap"); /////////////// /// BUG // WiFi.enableSTA(false); // BREAKS softap start, says ok BUT no ap found delay(2000); WiFi.softAP("espsoftap","12345678"); } } void loop(){ } ================================================ FILE: examples/Unique/cb/AnonymousCB.ino ================================================ #include // https://github.com/tzapu/WiFiManager bool _enteredConfigMode = false; void setup(){ Serial.begin(115200); WiFiManager wifiManager; // wifiManager.setAPCallback([this](WiFiManager* wifiManager) { wifiManager.setAPCallback([&](WiFiManager* wifiManager) { Serial.printf("Entered config mode:ip=%s, ssid='%s'\n", WiFi.softAPIP().toString().c_str(), wifiManager->getConfigPortalSSID().c_str()); _enteredConfigMode = true; }); wifiManager.resetSettings(); if (!wifiManager.autoConnect()) { Serial.printf("*** Failed to connect and hit timeout\n"); ESP.restart(); delay(1000); } } void loop(){ } ================================================ FILE: extras/WiFiManager.template.html ================================================ {v}

/












/wifi




custom parameter







Saving Credentials

Trying to connect ESP to network.
If it fails reconnect to AP to try again
Connected to {v}
with IP {i}
Not Connected to {v}{r}
Not Connected to apname
Authentication Failure
AP not found
Could not Connect
No AP set

H4 Color Header P

content

H4 Color Header S

content

Heading 1

Heading 2

Heading 3

Heading 4

WIFI HEAD (WIFI_OFF)

Chip ID
123456
Flash Chip ID
1234556
IDE Flash Size
4194304 bytes
Real Flash Size
4194304 bytes
Empty
Soft AP IP
192.168.4.1
Soft AP MAC
00:00:00:00:00:00
Station MAC
00:00:00:00:00:00

Available Pages

PageFunction
/ Menu page.
/wifi Show WiFi scan results and enter WiFi configuration.(/0wifi noscan)
/wifisave Save WiFi configuration information and configure device. Needs variables supplied.
/close Close the configuration server and configuration WiFi network.
/info Information page
/close Close the captiveportal popup,configportal will remain active
/exit Exit Config Portal, configportal will close
/restart Reboot the device
/erase Erase WiFi configuration and reboot Device. Device will not reconnect to a network until new WiFi configuration data is entered.

About

Version v1.x.x-xxxxx
Build_date
Build_file
Arduino_version

Github https://github.com/tzapu/WiFiManager

Form UPLOAD

* Upload may not function inside captive portal, Open in browser - http://192.168.4.1






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================================================ FILE: extras/parse.js ================================================ 'use strict'; const fs = require('fs'); console.log('starting'); const inFile = 'WiFiManager.template.html'; const outFile = 'template.h'; const defineRegEx = //gm; console.log('parsing', inFile); fs.readFile(inFile, 'utf8', function (err,data) { if (err) { return console.log(err); } //console.log(data); let defines = data.match(defineRegEx); //console.log(defines); var stream = fs.createWriteStream(outFile); stream.once('open', function(fd) { for (const i in defines) { const start = defines[i]; const end = start.replace('













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================================================ FILE: keywords.txt ================================================ ####################################### # Syntax Coloring Map For WifiManager ####################################### ####################################### # Datatypes (KEYWORD1) ####################################### WiFiManager KEYWORD1 WiFiManagerParameter KEYWORD1 ####################################### # Methods and Functions (KEYWORD2) ####################################### autoConnect KEYWORD2 getSSID KEYWORD2 getPassword KEYWORD2 getConfigPortalSSID KEYWORD2 resetSettings KEYWORD2 setConfigPortalTimeout KEYWORD2 setConnectTimeout KEYWORD2 setDebugOutput KEYWORD2 setMinimumSignalQuality KEYWORD2 setAPStaticIPConfig KEYWORD2 setSTAStaticIPConfig KEYWORD2 setAPCallback KEYWORD2 setSaveConfigCallback KEYWORD2 addParameter KEYWORD2 getID KEYWORD2 getValue KEYWORD2 getPlaceholder KEYWORD2 getValueLength KEYWORD2 ####################################### # Constants (LITERAL1) ####################################### # LITERAL1 ================================================ FILE: library.json ================================================ { "name": "WiFiManager", "version": "2.0.17", "keywords": "wifi,wi-fi,esp,esp8266,esp32,espressif8266,espressif32,nodemcu,wemos,arduino", "description": "WiFi Configuration manager with web configuration portal for ESP boards", "authors": [ { "name": "tzapu", "url": "https://github.com/tzapu" }, { "name": "tablatronix", "url": "https://github.com/tablatronix", "maintainer": true } ], "repository": { "type": "git", "url": "https://github.com/tzapu/WiFiManager.git" }, "frameworks": "arduino", "platforms": [ "espressif8266", "espressif32" ] } ================================================ FILE: library.properties ================================================ name=WiFiManager version=2.0.17 author=tzapu maintainer=tablatronix sentence=WiFi Configuration manager with web configuration portal for Espressif ESPx boards, by tzapu paragraph=Library for configuring ESP8266/ESP32 modules WiFi credentials and custom parameters at runtime with captive portal. category=Communication url=https://github.com/tzapu/WiFiManager.git architectures=esp8266,esp32 ================================================ FILE: strings_en.h ================================================ /** * Contents of this file have moved to 2 new locations * wm_strings_nn.h * wm_consts_nn.h */ #warning "This file is deprecated" #ifndef _STRINGS_EN_H_ #define _STRINGS_EN_H_ // strings files must include a consts file! #include "wm_strings_en.h" // include constants, tokens, routes #endif ================================================ FILE: travis/common.sh ================================================ #!/bin/bash function build_examples() { excludes=("$@") # track the exit code for this platform local exit_code=0 # loop through results and add them to the array examples=($(find $PWD/examples/ -name "*.pde" -o -name "*.ino")) # get the last example in the array local last="${examples[@]:(-1)}" # loop through example sketches for example in "${examples[@]}"; do # store the full path to the example's sketch directory local example_dir=$(dirname $example) # store the filename for the example without the path local example_file=$(basename $example) # skip files listed as excludes for exclude in "${excludes[@]}"; do if [ "${example_file}" == "${exclude}" ] ; then echo ">>>>>>>>>>>>>>>>>>>>>>>> Skipping ${example_file} <<<<<<<<<<<<<<<<<<<<<<<<<<" continue 2 fi done echo "$example_file: " local sketch="$example_dir/$example_file" echo "$sketch" #arduino -v --verbose-build --verify $sketch # verify the example, and save stdout & stderr to a variable # we have to avoid reading the exit code of local: # "when declaring a local variable in a function, the local acts as a command in its own right" local build_stdout build_stdout=$(arduino --verify $sketch 2>&1) # echo output if the build failed if [ $? -ne 0 ]; then # heavy X echo -e "\xe2\x9c\x96" echo -e "----------------------------- DEBUG OUTPUT -----------------------------\n" echo "$build_stdout" echo -e "\n------------------------------------------------------------------------\n" # mark as fail exit_code=1 else # heavy checkmark echo -e "\xe2\x9c\x93" fi done return $exit_code } ================================================ FILE: wm_consts_de.h ================================================ /** * wm_consts_de.h * internal const strings/tokens * WiFiManager, a library for the ESP8266/Arduino platform * for configuration of WiFi credentials using a Captive Portal * * @author Creator tzapu * @author tablatronix * @author Sascha Münch * @version 0.0.0 * @license MIT */ #ifndef _WM_CONSTS_H #define _WM_CONSTS_H // ----------------------------------------------------------------------------------------------- // TOKENS const char WM_VERSION_STR[] PROGMEM = "v2.0.17"; static const char _wifi_token[] PROGMEM = "wifi"; static const char _wifinoscan_token[] PROGMEM = "wifinoscan"; static const char _info_token[] PROGMEM = "info"; static const char _param_token[] PROGMEM = "param"; static const char _close_token[] PROGMEM = "close"; static const char _restart_token[] PROGMEM = "restart"; static const char _exit_token[] PROGMEM = "exit"; static const char _erase_token[] PROGMEM = "erase"; static const char _update_token[] PROGMEM = "update"; static const char _sep_token[] PROGMEM = "sep"; static const char _custom_token[] PROGMEM = "custom"; static PGM_P _menutokens[] PROGMEM = { _wifi_token, _wifinoscan_token, _info_token, _param_token, _close_token, _restart_token, _exit_token, _erase_token, _update_token, _sep_token, _custom_token }; const uint8_t _nummenutokens = (sizeof(_menutokens) / sizeof(PGM_P)); // Routes const char R_root[] PROGMEM = "/"; const char R_wifi[] PROGMEM = "/wifi"; const char R_wifinoscan[] PROGMEM = "/0wifi"; const char R_wifisave[] PROGMEM = "/wifisave"; const char R_info[] PROGMEM = "/info"; const char R_param[] PROGMEM = "/param"; const char R_paramsave[] PROGMEM = "/paramsave"; const char R_restart[] PROGMEM = "/restart"; const char R_exit[] PROGMEM = "/exit"; const char R_close[] PROGMEM = "/close"; const char R_erase[] PROGMEM = "/erase"; const char R_status[] PROGMEM = "/status"; const char R_update[] PROGMEM = "/update"; const char R_updatedone[] PROGMEM = "/u"; // Classes const char C_root[] PROGMEM = "home"; const char C_wifi[] PROGMEM = "wifi"; const char C_info[] PROGMEM = "info"; const char C_param[] PROGMEM = "param"; const char C_close[] PROGMEM = "close"; const char C_restart[] PROGMEM = "restart"; const char C_exit[] PROGMEM = "exit"; const char C_erase[] PROGMEM = "erase"; const char C_update[] PROGMEM = "update"; //Strings const char S_ip[] PROGMEM = "ip"; const char S_gw[] PROGMEM = "gw"; const char S_sn[] PROGMEM = "sn"; const char S_dns[] PROGMEM = "dns"; //Tokens //@todo consolidate and reduce const char T_ss[] PROGMEM = "{"; // token start sentinel const char T_es[] PROGMEM = "}"; // token end sentinel const char T_1[] PROGMEM = "{1}"; // @token 1 const char T_2[] PROGMEM = "{2}"; // @token 2 const char T_3[] PROGMEM = "{3}"; // @token 2 const char T_v[] PROGMEM = "{v}"; // @token v const char T_V[] PROGMEM = "{V}"; // @token v const char T_I[] PROGMEM = "{I}"; // @token I const char T_i[] PROGMEM = "{i}"; // @token i const char T_n[] PROGMEM = "{n}"; // @token n const char T_p[] PROGMEM = "{p}"; // @token p const char T_t[] PROGMEM = "{t}"; // @token t const char T_l[] PROGMEM = "{l}"; // @token l const char T_c[] PROGMEM = "{c}"; // @token c const char T_e[] PROGMEM = "{e}"; // @token e const char T_q[] PROGMEM = "{q}"; // @token q const char T_r[] PROGMEM = "{r}"; // @token r const char T_R[] PROGMEM = "{R}"; // @token R const char T_h[] PROGMEM = "{h}"; // @token h // http const char HTTP_HEAD_CL[] PROGMEM = "Content-Length"; const char HTTP_HEAD_CT[] PROGMEM = "text/html"; const char HTTP_HEAD_CT2[] PROGMEM = "text/plain"; const char HTTP_HEAD_CORS[] PROGMEM = "Access-Control-Allow-Origin"; const char HTTP_HEAD_CORS_ALLOW_ALL[] PROGMEM = "*"; const char * const WIFI_STA_STATUS[] PROGMEM { "WL_IDLE_STATUS", // 0 STATION_IDLE "WL_NO_SSID_AVAIL", // 1 STATION_NO_AP_FOUND "WL_SCAN_COMPLETED", // 2 "WL_CONNECTED", // 3 STATION_GOT_IP "WL_CONNECT_FAILED", // 4 STATION_CONNECT_FAIL, STATION_WRONG_PASSWORD(NI) "WL_CONNECTION_LOST", // 5 "WL_DISCONNECTED", // 6 "WL_STATION_WRONG_PASSWORD" // 7 KLUDGE }; #ifdef ESP32 const char * const AUTH_MODE_NAMES[] PROGMEM { "OPEN", "WEP", "WPA_PSK", "WPA2_PSK", "WPA_WPA2_PSK", "WPA2_ENTERPRISE", "MAX" }; #elif defined(ESP8266) const char * const AUTH_MODE_NAMES[] PROGMEM { "", "", "WPA_PSK", // 2 ENC_TYPE_TKIP "", "WPA2_PSK", // 4 ENC_TYPE_CCMP "WEP", // 5 ENC_TYPE_WEP "", "OPEN", //7 ENC_TYPE_NONE "WPA_WPA2_PSK", // 8 ENC_TYPE_AUTO }; #endif const char* const WIFI_MODES[] PROGMEM = { "NULL", "STA", "AP", "STA+AP" }; #ifdef ESP32 // as 2.5.2 // typedef struct { // char cc[3]; /**< country code string */ // uint8_t schan; /**< start channel */ // uint8_t nchan; /**< total channel number */ // int8_t max_tx_power; /**< This field is used for getting WiFi maximum transmitting power, call esp_wifi_set_max_tx_power to set the maximum transmitting power. */ // wifi_country_policy_t policy; /**< country policy */ // } wifi_country_t; const wifi_country_t WM_COUNTRY_US{"US",1,11,CONFIG_ESP32_PHY_MAX_WIFI_TX_POWER,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_CN{"CN",1,13,CONFIG_ESP32_PHY_MAX_WIFI_TX_POWER,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_JP{"JP",1,14,CONFIG_ESP32_PHY_MAX_WIFI_TX_POWER,WIFI_COUNTRY_POLICY_AUTO}; #elif defined(ESP8266) && !defined(WM_NOCOUNTRY) // typedef struct { // char cc[3]; /**< country code string */ // uint8_t schan; /**< start channel */ // uint8_t nchan; /**< total channel number */ // uint8_t policy; /**< country policy */ // } wifi_country_t; const wifi_country_t WM_COUNTRY_US{"US",1,11,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_CN{"CN",1,13,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_JP{"JP",1,14,WIFI_COUNTRY_POLICY_AUTO}; #endif /* * ESP32 WiFi Events 0 SYSTEM_EVENT_WIFI_READY < ESP32 WiFi ready 1 SYSTEM_EVENT_SCAN_DONE < ESP32 finish scanning AP 2 SYSTEM_EVENT_STA_START < ESP32 station start 3 SYSTEM_EVENT_STA_STOP < ESP32 station stop 4 SYSTEM_EVENT_STA_CONNECTED < ESP32 station connected to AP 5 SYSTEM_EVENT_STA_DISCONNECTED < ESP32 station disconnected from AP 6 SYSTEM_EVENT_STA_AUTHMODE_CHANGE < the auth mode of AP connected by ESP32 station changed 7 SYSTEM_EVENT_STA_GOT_IP < ESP32 station got IP from connected AP 8 SYSTEM_EVENT_STA_LOST_IP < ESP32 station lost IP and the IP is reset to 0 9 SYSTEM_EVENT_STA_WPS_ER_SUCCESS < ESP32 station wps succeeds in enrollee mode 10 SYSTEM_EVENT_STA_WPS_ER_FAILED < ESP32 station wps fails in enrollee mode 11 SYSTEM_EVENT_STA_WPS_ER_TIMEOUT < ESP32 station wps timeout in enrollee mode 12 SYSTEM_EVENT_STA_WPS_ER_PIN < ESP32 station wps pin code in enrollee mode 13 SYSTEM_EVENT_AP_START < ESP32 soft-AP start 14 SYSTEM_EVENT_AP_STOP < ESP32 soft-AP stop 15 SYSTEM_EVENT_AP_STACONNECTED < a station connected to ESP32 soft-AP 16 SYSTEM_EVENT_AP_STADISCONNECTED < a station disconnected from ESP32 soft-AP 17 SYSTEM_EVENT_AP_STAIPASSIGNED < ESP32 soft-AP assign an IP to a connected station 18 SYSTEM_EVENT_AP_PROBEREQRECVED < Receive probe request packet in soft-AP interface 19 SYSTEM_EVENT_GOT_IP6 < ESP32 station or ap or ethernet interface v6IP addr is preferred 20 SYSTEM_EVENT_ETH_START < ESP32 ethernet start 21 SYSTEM_EVENT_ETH_STOP < ESP32 ethernet stop 22 SYSTEM_EVENT_ETH_CONNECTED < ESP32 ethernet phy link up 23 SYSTEM_EVENT_ETH_DISCONNECTED < ESP32 ethernet phy link down 24 SYSTEM_EVENT_ETH_GOT_IP < ESP32 ethernet got IP from connected AP 25 SYSTEM_EVENT_MAX typedef enum { ARDUINO_EVENT_WIFI_READY = 0, ARDUINO_EVENT_WIFI_SCAN_DONE, ARDUINO_EVENT_WIFI_STA_START, ARDUINO_EVENT_WIFI_STA_STOP, ARDUINO_EVENT_WIFI_STA_CONNECTED, ARDUINO_EVENT_WIFI_STA_DISCONNECTED, ARDUINO_EVENT_WIFI_STA_AUTHMODE_CHANGE, ARDUINO_EVENT_WIFI_STA_GOT_IP, ARDUINO_EVENT_WIFI_STA_GOT_IP6, ARDUINO_EVENT_WIFI_STA_LOST_IP, ARDUINO_EVENT_WIFI_AP_START, ARDUINO_EVENT_WIFI_AP_STOP, ARDUINO_EVENT_WIFI_AP_STACONNECTED, ARDUINO_EVENT_WIFI_AP_STADISCONNECTED, ARDUINO_EVENT_WIFI_AP_STAIPASSIGNED, ARDUINO_EVENT_WIFI_AP_PROBEREQRECVED, ARDUINO_EVENT_WIFI_AP_GOT_IP6, ARDUINO_EVENT_WIFI_FTM_REPORT, ARDUINO_EVENT_ETH_START, ARDUINO_EVENT_ETH_STOP, ARDUINO_EVENT_ETH_CONNECTED, ARDUINO_EVENT_ETH_DISCONNECTED, ARDUINO_EVENT_ETH_GOT_IP, ARDUINO_EVENT_ETH_GOT_IP6, ARDUINO_EVENT_WPS_ER_SUCCESS, ARDUINO_EVENT_WPS_ER_FAILED, ARDUINO_EVENT_WPS_ER_TIMEOUT, ARDUINO_EVENT_WPS_ER_PIN, ARDUINO_EVENT_WPS_ER_PBC_OVERLAP, ARDUINO_EVENT_SC_SCAN_DONE, ARDUINO_EVENT_SC_FOUND_CHANNEL, ARDUINO_EVENT_SC_GOT_SSID_PSWD, ARDUINO_EVENT_SC_SEND_ACK_DONE, ARDUINO_EVENT_PROV_INIT, ARDUINO_EVENT_PROV_DEINIT, ARDUINO_EVENT_PROV_START, ARDUINO_EVENT_PROV_END, ARDUINO_EVENT_PROV_CRED_RECV, ARDUINO_EVENT_PROV_CRED_FAIL, ARDUINO_EVENT_PROV_CRED_SUCCESS, ARDUINO_EVENT_MAX } arduino_event_id_t; typedef union { wifi_event_sta_scan_done_t wifi_scan_done; wifi_event_sta_authmode_change_t wifi_sta_authmode_change; wifi_event_sta_connected_t wifi_sta_connected; wifi_event_sta_disconnected_t wifi_sta_disconnected; wifi_event_sta_wps_er_pin_t wps_er_pin; wifi_event_sta_wps_fail_reason_t wps_fail_reason; wifi_event_ap_probe_req_rx_t wifi_ap_probereqrecved; wifi_event_ap_staconnected_t wifi_ap_staconnected; wifi_event_ap_stadisconnected_t wifi_ap_stadisconnected; wifi_event_ftm_report_t wifi_ftm_report; ip_event_ap_staipassigned_t wifi_ap_staipassigned; ip_event_got_ip_t got_ip; ip_event_got_ip6_t got_ip6; smartconfig_event_got_ssid_pswd_t sc_got_ssid_pswd; esp_eth_handle_t eth_connected; wifi_sta_config_t prov_cred_recv; wifi_prov_sta_fail_reason_t prov_fail_reason; } arduino_event_info_t; */ #endif ================================================ FILE: wm_consts_en.h ================================================ /** * wm_consts.h * internal const strings/tokens * WiFiManager, a library for the ESP8266/Arduino platform * for configuration of WiFi credentials using a Captive Portal * * @author Creator tzapu * @author tablatronix * @version 0.0.0 * @license MIT */ #ifndef _WM_CONSTS_H #define _WM_CONSTS_H // ----------------------------------------------------------------------------------------------- // TOKENS const char WM_VERSION_STR[] PROGMEM = "v2.0.17"; static const char _wifi_token[] PROGMEM = "wifi"; static const char _wifinoscan_token[] PROGMEM = "wifinoscan"; static const char _info_token[] PROGMEM = "info"; static const char _param_token[] PROGMEM = "param"; static const char _close_token[] PROGMEM = "close"; static const char _restart_token[] PROGMEM = "restart"; static const char _exit_token[] PROGMEM = "exit"; static const char _erase_token[] PROGMEM = "erase"; static const char _update_token[] PROGMEM = "update"; static const char _sep_token[] PROGMEM = "sep"; static const char _custom_token[] PROGMEM = "custom"; static PGM_P _menutokens[] PROGMEM = { _wifi_token, _wifinoscan_token, _info_token, _param_token, _close_token, _restart_token, _exit_token, _erase_token, _update_token, _sep_token, _custom_token }; const uint8_t _nummenutokens = (sizeof(_menutokens) / sizeof(PGM_P)); // Routes const char R_root[] PROGMEM = "/"; const char R_wifi[] PROGMEM = "/wifi"; const char R_wifinoscan[] PROGMEM = "/0wifi"; const char R_wifisave[] PROGMEM = "/wifisave"; const char R_info[] PROGMEM = "/info"; const char R_param[] PROGMEM = "/param"; const char R_paramsave[] PROGMEM = "/paramsave"; const char R_restart[] PROGMEM = "/restart"; const char R_exit[] PROGMEM = "/exit"; const char R_close[] PROGMEM = "/close"; const char R_erase[] PROGMEM = "/erase"; const char R_status[] PROGMEM = "/status"; const char R_update[] PROGMEM = "/update"; const char R_updatedone[] PROGMEM = "/u"; // Classes const char C_root[] PROGMEM = "home"; const char C_wifi[] PROGMEM = "wifi"; const char C_info[] PROGMEM = "info"; const char C_param[] PROGMEM = "param"; const char C_close[] PROGMEM = "close"; const char C_restart[] PROGMEM = "restart"; const char C_exit[] PROGMEM = "exit"; const char C_erase[] PROGMEM = "erase"; const char C_update[] PROGMEM = "update"; //Strings const char S_ip[] PROGMEM = "ip"; const char S_gw[] PROGMEM = "gw"; const char S_sn[] PROGMEM = "sn"; const char S_dns[] PROGMEM = "dns"; //Tokens //@todo consolidate and reduce const char T_ss[] PROGMEM = "{"; // token start sentinel const char T_es[] PROGMEM = "}"; // token end sentinel const char T_1[] PROGMEM = "{1}"; // @token 1 const char T_2[] PROGMEM = "{2}"; // @token 2 const char T_3[] PROGMEM = "{3}"; // @token 2 const char T_v[] PROGMEM = "{v}"; // @token v const char T_V[] PROGMEM = "{V}"; // @token v const char T_I[] PROGMEM = "{I}"; // @token I const char T_i[] PROGMEM = "{i}"; // @token i const char T_n[] PROGMEM = "{n}"; // @token n const char T_p[] PROGMEM = "{p}"; // @token p const char T_t[] PROGMEM = "{t}"; // @token t const char T_l[] PROGMEM = "{l}"; // @token l const char T_c[] PROGMEM = "{c}"; // @token c const char T_e[] PROGMEM = "{e}"; // @token e const char T_q[] PROGMEM = "{q}"; // @token q const char T_r[] PROGMEM = "{r}"; // @token r const char T_R[] PROGMEM = "{R}"; // @token R const char T_h[] PROGMEM = "{h}"; // @token h // http const char HTTP_HEAD_CL[] PROGMEM = "Content-Length"; const char HTTP_HEAD_CT[] PROGMEM = "text/html"; const char HTTP_HEAD_CT2[] PROGMEM = "text/plain"; const char HTTP_HEAD_CORS[] PROGMEM = "Access-Control-Allow-Origin"; const char HTTP_HEAD_CORS_ALLOW_ALL[] PROGMEM = "*"; const char * const WIFI_STA_STATUS[] PROGMEM { "WL_IDLE_STATUS", // 0 STATION_IDLE "WL_NO_SSID_AVAIL", // 1 STATION_NO_AP_FOUND "WL_SCAN_COMPLETED", // 2 "WL_CONNECTED", // 3 STATION_GOT_IP "WL_CONNECT_FAILED", // 4 STATION_CONNECT_FAIL, STATION_WRONG_PASSWORD(NI) "WL_CONNECTION_LOST", // 5 "WL_DISCONNECTED", // 6 "WL_STATION_WRONG_PASSWORD" // 7 KLUDGE }; #ifdef ESP32 const char * const AUTH_MODE_NAMES[] PROGMEM { "OPEN", "WEP", "WPA_PSK", "WPA2_PSK", "WPA_WPA2_PSK", "WPA2_ENTERPRISE", "MAX" }; #elif defined(ESP8266) const char * const AUTH_MODE_NAMES[] PROGMEM { "", "", "WPA_PSK", // 2 ENC_TYPE_TKIP "", "WPA2_PSK", // 4 ENC_TYPE_CCMP "WEP", // 5 ENC_TYPE_WEP "", "OPEN", //7 ENC_TYPE_NONE "WPA_WPA2_PSK", // 8 ENC_TYPE_AUTO }; #endif const char* const WIFI_MODES[] PROGMEM = { "NULL", "STA", "AP", "STA+AP" }; #ifdef ESP32 // as 2.5.2 // typedef struct { // char cc[3]; /**< country code string */ // uint8_t schan; /**< start channel */ // uint8_t nchan; /**< total channel number */ // int8_t max_tx_power; /**< This field is used for getting WiFi maximum transmitting power, call esp_wifi_set_max_tx_power to set the maximum transmitting power. */ // wifi_country_policy_t policy; /**< country policy */ // } wifi_country_t; const wifi_country_t WM_COUNTRY_US{"US",1,11,CONFIG_ESP32_PHY_MAX_WIFI_TX_POWER,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_CN{"CN",1,13,CONFIG_ESP32_PHY_MAX_WIFI_TX_POWER,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_JP{"JP",1,14,CONFIG_ESP32_PHY_MAX_WIFI_TX_POWER,WIFI_COUNTRY_POLICY_AUTO}; #elif defined(ESP8266) && !defined(WM_NOCOUNTRY) // typedef struct { // char cc[3]; /**< country code string */ // uint8_t schan; /**< start channel */ // uint8_t nchan; /**< total channel number */ // uint8_t policy; /**< country policy */ // } wifi_country_t; const wifi_country_t WM_COUNTRY_US{"US",1,11,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_CN{"CN",1,13,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_JP{"JP",1,14,WIFI_COUNTRY_POLICY_AUTO}; #endif /* * ESP32 WiFi Events 0 SYSTEM_EVENT_WIFI_READY < ESP32 WiFi ready 1 SYSTEM_EVENT_SCAN_DONE < ESP32 finish scanning AP 2 SYSTEM_EVENT_STA_START < ESP32 station start 3 SYSTEM_EVENT_STA_STOP < ESP32 station stop 4 SYSTEM_EVENT_STA_CONNECTED < ESP32 station connected to AP 5 SYSTEM_EVENT_STA_DISCONNECTED < ESP32 station disconnected from AP 6 SYSTEM_EVENT_STA_AUTHMODE_CHANGE < the auth mode of AP connected by ESP32 station changed 7 SYSTEM_EVENT_STA_GOT_IP < ESP32 station got IP from connected AP 8 SYSTEM_EVENT_STA_LOST_IP < ESP32 station lost IP and the IP is reset to 0 9 SYSTEM_EVENT_STA_WPS_ER_SUCCESS < ESP32 station wps succeeds in enrollee mode 10 SYSTEM_EVENT_STA_WPS_ER_FAILED < ESP32 station wps fails in enrollee mode 11 SYSTEM_EVENT_STA_WPS_ER_TIMEOUT < ESP32 station wps timeout in enrollee mode 12 SYSTEM_EVENT_STA_WPS_ER_PIN < ESP32 station wps pin code in enrollee mode 13 SYSTEM_EVENT_AP_START < ESP32 soft-AP start 14 SYSTEM_EVENT_AP_STOP < ESP32 soft-AP stop 15 SYSTEM_EVENT_AP_STACONNECTED < a station connected to ESP32 soft-AP 16 SYSTEM_EVENT_AP_STADISCONNECTED < a station disconnected from ESP32 soft-AP 17 SYSTEM_EVENT_AP_STAIPASSIGNED < ESP32 soft-AP assign an IP to a connected station 18 SYSTEM_EVENT_AP_PROBEREQRECVED < Receive probe request packet in soft-AP interface 19 SYSTEM_EVENT_GOT_IP6 < ESP32 station or ap or ethernet interface v6IP addr is preferred 20 SYSTEM_EVENT_ETH_START < ESP32 ethernet start 21 SYSTEM_EVENT_ETH_STOP < ESP32 ethernet stop 22 SYSTEM_EVENT_ETH_CONNECTED < ESP32 ethernet phy link up 23 SYSTEM_EVENT_ETH_DISCONNECTED < ESP32 ethernet phy link down 24 SYSTEM_EVENT_ETH_GOT_IP < ESP32 ethernet got IP from connected AP 25 SYSTEM_EVENT_MAX typedef enum { ARDUINO_EVENT_WIFI_READY = 0, ARDUINO_EVENT_WIFI_SCAN_DONE, ARDUINO_EVENT_WIFI_STA_START, ARDUINO_EVENT_WIFI_STA_STOP, ARDUINO_EVENT_WIFI_STA_CONNECTED, ARDUINO_EVENT_WIFI_STA_DISCONNECTED, ARDUINO_EVENT_WIFI_STA_AUTHMODE_CHANGE, ARDUINO_EVENT_WIFI_STA_GOT_IP, ARDUINO_EVENT_WIFI_STA_GOT_IP6, ARDUINO_EVENT_WIFI_STA_LOST_IP, ARDUINO_EVENT_WIFI_AP_START, ARDUINO_EVENT_WIFI_AP_STOP, ARDUINO_EVENT_WIFI_AP_STACONNECTED, ARDUINO_EVENT_WIFI_AP_STADISCONNECTED, ARDUINO_EVENT_WIFI_AP_STAIPASSIGNED, ARDUINO_EVENT_WIFI_AP_PROBEREQRECVED, ARDUINO_EVENT_WIFI_AP_GOT_IP6, ARDUINO_EVENT_WIFI_FTM_REPORT, ARDUINO_EVENT_ETH_START, ARDUINO_EVENT_ETH_STOP, ARDUINO_EVENT_ETH_CONNECTED, ARDUINO_EVENT_ETH_DISCONNECTED, ARDUINO_EVENT_ETH_GOT_IP, ARDUINO_EVENT_ETH_GOT_IP6, ARDUINO_EVENT_WPS_ER_SUCCESS, ARDUINO_EVENT_WPS_ER_FAILED, ARDUINO_EVENT_WPS_ER_TIMEOUT, ARDUINO_EVENT_WPS_ER_PIN, ARDUINO_EVENT_WPS_ER_PBC_OVERLAP, ARDUINO_EVENT_SC_SCAN_DONE, ARDUINO_EVENT_SC_FOUND_CHANNEL, ARDUINO_EVENT_SC_GOT_SSID_PSWD, ARDUINO_EVENT_SC_SEND_ACK_DONE, ARDUINO_EVENT_PROV_INIT, ARDUINO_EVENT_PROV_DEINIT, ARDUINO_EVENT_PROV_START, ARDUINO_EVENT_PROV_END, ARDUINO_EVENT_PROV_CRED_RECV, ARDUINO_EVENT_PROV_CRED_FAIL, ARDUINO_EVENT_PROV_CRED_SUCCESS, ARDUINO_EVENT_MAX } arduino_event_id_t; typedef union { wifi_event_sta_scan_done_t wifi_scan_done; wifi_event_sta_authmode_change_t wifi_sta_authmode_change; wifi_event_sta_connected_t wifi_sta_connected; wifi_event_sta_disconnected_t wifi_sta_disconnected; wifi_event_sta_wps_er_pin_t wps_er_pin; wifi_event_sta_wps_fail_reason_t wps_fail_reason; wifi_event_ap_probe_req_rx_t wifi_ap_probereqrecved; wifi_event_ap_staconnected_t wifi_ap_staconnected; wifi_event_ap_stadisconnected_t wifi_ap_stadisconnected; wifi_event_ftm_report_t wifi_ftm_report; ip_event_ap_staipassigned_t wifi_ap_staipassigned; ip_event_got_ip_t got_ip; ip_event_got_ip6_t got_ip6; smartconfig_event_got_ssid_pswd_t sc_got_ssid_pswd; esp_eth_handle_t eth_connected; wifi_sta_config_t prov_cred_recv; wifi_prov_sta_fail_reason_t prov_fail_reason; } arduino_event_info_t; */ #endif ================================================ FILE: wm_consts_fr.h ================================================ /** * wm_consts.h * internal const strings/tokens * WiFiManager, a library for the ESP8266/Arduino platform * for configuration of WiFi credentials using a Captive Portal * * @author Creator tzapu * @author tablatronix * @version 0.0.1 * @translated AByGCreation * @license MIT */ #ifndef _WM_CONSTS_H #define _WM_CONSTS_H // ----------------------------------------------------------------------------------------------- // TOKENS const char WM_VERSION_STR[] PROGMEM = "v2.0.17"; static const char _wifi_token[] PROGMEM = "wifi"; static const char _wifinoscan_token[] PROGMEM = "wifinoscan"; static const char _info_token[] PROGMEM = "info"; static const char _param_token[] PROGMEM = "param"; static const char _close_token[] PROGMEM = "close"; static const char _restart_token[] PROGMEM = "restart"; static const char _exit_token[] PROGMEM = "exit"; static const char _erase_token[] PROGMEM = "erase"; static const char _update_token[] PROGMEM = "update"; static const char _sep_token[] PROGMEM = "sep"; static const char _custom_token[] PROGMEM = "custom"; static PGM_P _menutokens[] PROGMEM = { _wifi_token, _wifinoscan_token, _info_token, _param_token, _close_token, _restart_token, _exit_token, _erase_token, _update_token, _sep_token, _custom_token }; const uint8_t _nummenutokens = (sizeof(_menutokens) / sizeof(PGM_P)); // Routes const char R_root[] PROGMEM = "/"; const char R_wifi[] PROGMEM = "/wifi"; const char R_wifinoscan[] PROGMEM = "/0wifi"; const char R_wifisave[] PROGMEM = "/wifisave"; const char R_info[] PROGMEM = "/info"; const char R_param[] PROGMEM = "/param"; const char R_paramsave[] PROGMEM = "/paramsave"; const char R_restart[] PROGMEM = "/restart"; const char R_exit[] PROGMEM = "/exit"; const char R_close[] PROGMEM = "/close"; const char R_erase[] PROGMEM = "/erase"; const char R_status[] PROGMEM = "/status"; const char R_update[] PROGMEM = "/update"; const char R_updatedone[] PROGMEM = "/u"; // Classes const char C_root[] PROGMEM = "home"; const char C_wifi[] PROGMEM = "wifi"; const char C_info[] PROGMEM = "info"; const char C_param[] PROGMEM = "param"; const char C_close[] PROGMEM = "close"; const char C_restart[] PROGMEM = "restart"; const char C_exit[] PROGMEM = "exit"; const char C_erase[] PROGMEM = "erase"; const char C_update[] PROGMEM = "update"; //Strings const char S_ip[] PROGMEM = "ip"; const char S_gw[] PROGMEM = "gw"; const char S_sn[] PROGMEM = "sn"; const char S_dns[] PROGMEM = "dns"; //Tokens //@todo consolidate and reduce const char T_ss[] PROGMEM = "{"; // token start sentinel const char T_es[] PROGMEM = "}"; // token end sentinel const char T_1[] PROGMEM = "{1}"; // @token 1 const char T_2[] PROGMEM = "{2}"; // @token 2 const char T_3[] PROGMEM = "{3}"; // @token 2 const char T_v[] PROGMEM = "{v}"; // @token v const char T_V[] PROGMEM = "{V}"; // @token v const char T_I[] PROGMEM = "{I}"; // @token I const char T_i[] PROGMEM = "{i}"; // @token i const char T_n[] PROGMEM = "{n}"; // @token n const char T_p[] PROGMEM = "{p}"; // @token p const char T_t[] PROGMEM = "{t}"; // @token t const char T_l[] PROGMEM = "{l}"; // @token l const char T_c[] PROGMEM = "{c}"; // @token c const char T_e[] PROGMEM = "{e}"; // @token e const char T_q[] PROGMEM = "{q}"; // @token q const char T_r[] PROGMEM = "{r}"; // @token r const char T_R[] PROGMEM = "{R}"; // @token R const char T_h[] PROGMEM = "{h}"; // @token h // http const char HTTP_HEAD_CL[] PROGMEM = "Content-Length"; const char HTTP_HEAD_CT[] PROGMEM = "text/html"; const char HTTP_HEAD_CT2[] PROGMEM = "text/plain"; const char HTTP_HEAD_CORS[] PROGMEM = "Access-Control-Allow-Origin"; const char HTTP_HEAD_CORS_ALLOW_ALL[] PROGMEM = "*"; const char * const WIFI_STA_STATUS[] PROGMEM { "WL_IDLE_STATUS", // 0 STATION_IDLE "WL_NO_SSID_AVAIL", // 1 STATION_NO_AP_FOUND "WL_SCAN_COMPLETED", // 2 "WL_CONNECTED", // 3 STATION_GOT_IP "WL_CONNECT_FAILED", // 4 STATION_CONNECT_FAIL, STATION_WRONG_PASSWORD(NI) "WL_CONNECTION_LOST", // 5 "WL_DISCONNECTED", // 6 "WL_STATION_WRONG_PASSWORD" // 7 KLUDGE }; #ifdef ESP32 const char * const AUTH_MODE_NAMES[] PROGMEM { "OPEN", "WEP", "WPA_PSK", "WPA2_PSK", "WPA_WPA2_PSK", "WPA2_ENTERPRISE", "MAX" }; #elif defined(ESP8266) const char * const AUTH_MODE_NAMES[] PROGMEM { "", "", "WPA_PSK", // 2 ENC_TYPE_TKIP "", "WPA2_PSK", // 4 ENC_TYPE_CCMP "WEP", // 5 ENC_TYPE_WEP "", "OPEN", //7 ENC_TYPE_NONE "WPA_WPA2_PSK", // 8 ENC_TYPE_AUTO }; #endif const char* const WIFI_MODES[] PROGMEM = { "NULL", "STA", "AP", "STA+AP" }; #ifdef ESP32 // as 2.5.2 // typedef struct { // char cc[3]; /**< country code string */ // uint8_t schan; /**< start channel */ // uint8_t nchan; /**< total channel number */ // int8_t max_tx_power; /**< This field is used for getting WiFi maximum transmitting power, call esp_wifi_set_max_tx_power to set the maximum transmitting power. */ // wifi_country_policy_t policy; /**< country policy */ // } wifi_country_t; const wifi_country_t WM_COUNTRY_US{"US",1,11,CONFIG_ESP32_PHY_MAX_WIFI_TX_POWER,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_CN{"CN",1,13,CONFIG_ESP32_PHY_MAX_WIFI_TX_POWER,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_JP{"JP",1,14,CONFIG_ESP32_PHY_MAX_WIFI_TX_POWER,WIFI_COUNTRY_POLICY_AUTO}; #elif defined(ESP8266) && !defined(WM_NOCOUNTRY) // typedef struct { // char cc[3]; /**< country code string */ // uint8_t schan; /**< start channel */ // uint8_t nchan; /**< total channel number */ // uint8_t policy; /**< country policy */ // } wifi_country_t; const wifi_country_t WM_COUNTRY_US{"US",1,11,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_CN{"CN",1,13,WIFI_COUNTRY_POLICY_AUTO}; const wifi_country_t WM_COUNTRY_JP{"JP",1,14,WIFI_COUNTRY_POLICY_AUTO}; #endif /* * ESP32 WiFi Events 0 SYSTEM_EVENT_WIFI_READY < ESP32 WiFi ready 1 SYSTEM_EVENT_SCAN_DONE < ESP32 finish scanning AP 2 SYSTEM_EVENT_STA_START < ESP32 station start 3 SYSTEM_EVENT_STA_STOP < ESP32 station stop 4 SYSTEM_EVENT_STA_CONNECTED < ESP32 station connected to AP 5 SYSTEM_EVENT_STA_DISCONNECTED < ESP32 station disconnected from AP 6 SYSTEM_EVENT_STA_AUTHMODE_CHANGE < the auth mode of AP connected by ESP32 station changed 7 SYSTEM_EVENT_STA_GOT_IP < ESP32 station got IP from connected AP 8 SYSTEM_EVENT_STA_LOST_IP < ESP32 station lost IP and the IP is reset to 0 9 SYSTEM_EVENT_STA_WPS_ER_SUCCESS < ESP32 station wps succeeds in enrollee mode 10 SYSTEM_EVENT_STA_WPS_ER_FAILED < ESP32 station wps fails in enrollee mode 11 SYSTEM_EVENT_STA_WPS_ER_TIMEOUT < ESP32 station wps timeout in enrollee mode 12 SYSTEM_EVENT_STA_WPS_ER_PIN < ESP32 station wps pin code in enrollee mode 13 SYSTEM_EVENT_AP_START < ESP32 soft-AP start 14 SYSTEM_EVENT_AP_STOP < ESP32 soft-AP stop 15 SYSTEM_EVENT_AP_STACONNECTED < a station connected to ESP32 soft-AP 16 SYSTEM_EVENT_AP_STADISCONNECTED < a station disconnected from ESP32 soft-AP 17 SYSTEM_EVENT_AP_STAIPASSIGNED < ESP32 soft-AP assign an IP to a connected station 18 SYSTEM_EVENT_AP_PROBEREQRECVED < Receive probe request packet in soft-AP interface 19 SYSTEM_EVENT_GOT_IP6 < ESP32 station or ap or ethernet interface v6IP addr is preferred 20 SYSTEM_EVENT_ETH_START < ESP32 ethernet start 21 SYSTEM_EVENT_ETH_STOP < ESP32 ethernet stop 22 SYSTEM_EVENT_ETH_CONNECTED < ESP32 ethernet phy link up 23 SYSTEM_EVENT_ETH_DISCONNECTED < ESP32 ethernet phy link down 24 SYSTEM_EVENT_ETH_GOT_IP < ESP32 ethernet got IP from connected AP 25 SYSTEM_EVENT_MAX typedef enum { ARDUINO_EVENT_WIFI_READY = 0, ARDUINO_EVENT_WIFI_SCAN_DONE, ARDUINO_EVENT_WIFI_STA_START, ARDUINO_EVENT_WIFI_STA_STOP, ARDUINO_EVENT_WIFI_STA_CONNECTED, ARDUINO_EVENT_WIFI_STA_DISCONNECTED, ARDUINO_EVENT_WIFI_STA_AUTHMODE_CHANGE, ARDUINO_EVENT_WIFI_STA_GOT_IP, ARDUINO_EVENT_WIFI_STA_GOT_IP6, ARDUINO_EVENT_WIFI_STA_LOST_IP, ARDUINO_EVENT_WIFI_AP_START, ARDUINO_EVENT_WIFI_AP_STOP, ARDUINO_EVENT_WIFI_AP_STACONNECTED, ARDUINO_EVENT_WIFI_AP_STADISCONNECTED, ARDUINO_EVENT_WIFI_AP_STAIPASSIGNED, ARDUINO_EVENT_WIFI_AP_PROBEREQRECVED, ARDUINO_EVENT_WIFI_AP_GOT_IP6, ARDUINO_EVENT_WIFI_FTM_REPORT, ARDUINO_EVENT_ETH_START, ARDUINO_EVENT_ETH_STOP, ARDUINO_EVENT_ETH_CONNECTED, ARDUINO_EVENT_ETH_DISCONNECTED, ARDUINO_EVENT_ETH_GOT_IP, ARDUINO_EVENT_ETH_GOT_IP6, ARDUINO_EVENT_WPS_ER_SUCCESS, ARDUINO_EVENT_WPS_ER_FAILED, ARDUINO_EVENT_WPS_ER_TIMEOUT, ARDUINO_EVENT_WPS_ER_PIN, ARDUINO_EVENT_WPS_ER_PBC_OVERLAP, ARDUINO_EVENT_SC_SCAN_DONE, ARDUINO_EVENT_SC_FOUND_CHANNEL, ARDUINO_EVENT_SC_GOT_SSID_PSWD, ARDUINO_EVENT_SC_SEND_ACK_DONE, ARDUINO_EVENT_PROV_INIT, ARDUINO_EVENT_PROV_DEINIT, ARDUINO_EVENT_PROV_START, ARDUINO_EVENT_PROV_END, ARDUINO_EVENT_PROV_CRED_RECV, ARDUINO_EVENT_PROV_CRED_FAIL, ARDUINO_EVENT_PROV_CRED_SUCCESS, ARDUINO_EVENT_MAX } arduino_event_id_t; typedef union { wifi_event_sta_scan_done_t wifi_scan_done; wifi_event_sta_authmode_change_t wifi_sta_authmode_change; wifi_event_sta_connected_t wifi_sta_connected; wifi_event_sta_disconnected_t wifi_sta_disconnected; wifi_event_sta_wps_er_pin_t wps_er_pin; wifi_event_sta_wps_fail_reason_t wps_fail_reason; wifi_event_ap_probe_req_rx_t wifi_ap_probereqrecved; wifi_event_ap_staconnected_t wifi_ap_staconnected; wifi_event_ap_stadisconnected_t wifi_ap_stadisconnected; wifi_event_ftm_report_t wifi_ftm_report; ip_event_ap_staipassigned_t wifi_ap_staipassigned; ip_event_got_ip_t got_ip; ip_event_got_ip6_t got_ip6; smartconfig_event_got_ssid_pswd_t sc_got_ssid_pswd; esp_eth_handle_t eth_connected; wifi_sta_config_t prov_cred_recv; wifi_prov_sta_fail_reason_t prov_fail_reason; } arduino_event_info_t; */ #endif ================================================ FILE: wm_strings_de.h ================================================ /** * wm_strings_de.h * gernab strings for * WiFiManager, a library for the ESP8266/Arduino platform * for configuration of WiFi credentials using a Captive Portal * * @author Creator tzapu * @author tablatronix * @author Sascha Münch * @version 0.0.0 * @license MIT */ #ifndef _WM_STRINGS_DE_H_ #define _WM_STRINGS_DE_H_ #ifndef WIFI_MANAGER_OVERRIDE_STRINGS // !!! ABOVE WILL NOT WORK if you define in your sketch, must be build flag, if anyone one knows how to order includes to be able to do this it would be neat.. I have seen it done.. // strings files must include a consts file! #include "wm_consts_de.h" // include constants, tokens, routes const char WM_LANGUAGE[] PROGMEM = "de-DE"; // i18n lang code const char HTTP_HEAD_START[] PROGMEM = "" "" "" "" "" "{v}"; const char HTTP_SCRIPT[] PROGMEM = ""; // @todo add button states, disable on click , show ack , spinner etc const char HTTP_HEAD_END[] PROGMEM = "
"; // {c} = _bodyclass // example of embedded logo, base64 encoded inline, No styling here // const char HTTP_ROOT_MAIN[] PROGMEM = "

{v}

WiFiManager

"; const char HTTP_ROOT_MAIN[] PROGMEM = "

{t}

{v}

"; const char * const HTTP_PORTAL_MENU[] PROGMEM = { "

\n", // MENU_WIFI "

\n", // MENU_WIFINOSCAN "

\n", // MENU_INFO "

\n",//MENU_PARAM "

\n", // MENU_CLOSE "

\n",// MENU_RESTART "

\n", // MENU_EXIT "

\n", // MENU_ERASE "

\n",// MENU_UPDATE "

" // MENU_SEP }; // const char HTTP_PORTAL_OPTIONS[] PROGMEM = strcat(HTTP_PORTAL_MENU[0] , HTTP_PORTAL_MENU[3] , HTTP_PORTAL_MENU[7]); const char HTTP_PORTAL_OPTIONS[] PROGMEM = ""; const char HTTP_ITEM_QI[] PROGMEM = ""; // rssi icons const char HTTP_ITEM_QP[] PROGMEM = "
{r}%
"; // rssi percentage {h} = hidden showperc pref const char HTTP_ITEM[] PROGMEM = "
{v}{qi}{qp}
"; // {q} = HTTP_ITEM_QI, {r} = HTTP_ITEM_QP // const char HTTP_ITEM[] PROGMEM = "
{v} {R} {r}% {q} {e}
"; // test all tokens const char HTTP_FORM_START[] PROGMEM = "
"; const char HTTP_FORM_WIFI[] PROGMEM = "

"; const char HTTP_FORM_WIFI_END[] PROGMEM = ""; const char HTTP_FORM_STATIC_HEAD[] PROGMEM = "

"; const char HTTP_FORM_END[] PROGMEM = "

"; const char HTTP_FORM_LABEL[] PROGMEM = ""; const char HTTP_FORM_PARAM_HEAD[] PROGMEM = "

"; const char HTTP_FORM_PARAM[] PROGMEM = "
\n"; // do not remove newline! const char HTTP_SCAN_LINK[] PROGMEM = "
"; const char HTTP_SAVED[] PROGMEM = "
Zugangsdaten speichern
Versuche ESP mit dem Netzwerk zu verbinden.
Wenn dies fehlschlägt, stellen Sie die Verbindung zum AP wieder her, um es erneut zu versuchen.
"; const char HTTP_PARAMSAVED[] PROGMEM = "
Gespeichert
"; const char HTTP_END[] PROGMEM = "
"; const char HTTP_ERASEBTN[] PROGMEM = "
"; const char HTTP_UPDATEBTN[] PROGMEM = "
"; const char HTTP_BACKBTN[] PROGMEM = "

"; const char HTTP_STATUS_ON[] PROGMEM = "
Verbunden mit {v}
mit IP {i}
"; const char HTTP_STATUS_OFF[] PROGMEM = "
Nicht verbunden mit {v}{r}
"; // {c=class} {v=ssid} {r=status_off} const char HTTP_STATUS_OFFPW[] PROGMEM = "
Authentifizierungsfehler"; // STATION_WRONG_PASSWORD, no eps32 const char HTTP_STATUS_OFFNOAP[] PROGMEM = "
AP nicht gefunden"; // WL_NO_SSID_AVAIL const char HTTP_STATUS_OFFFAIL[] PROGMEM = "
Verbindung konnte nicht hergestellt werden"; // WL_CONNECT_FAILED const char HTTP_STATUS_NONE[] PROGMEM = "
Kein AP gesetzt
"; const char HTTP_BR[] PROGMEM = "
"; const char HTTP_STYLE[] PROGMEM = ""; #ifndef WM_NOHELP const char HTTP_HELP[] PROGMEM = "

Verfügbare Seiten

" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "
SeiteFunktion
/Menüseite.
/wifiErgebnisse des WLAN-Scans anzeigen und WLAN-Konfiguration eingeben. (/0wifi kein Scan)
/wifisaveWLAN-Konfigurationsinformationen speichern und Gerät konfigurieren. Benötigt die Angabe von Variablen.
/paramParameter Seite
/infoInformationsseite
/uOTA Update
/closeSchließen Sie das Captiveportal-Popup, das Konfigurationsportal bleibt aktiv
/exitKonfigurationsportal verlassen, Konfigurationsportal wird geschlossen
/restartNeustart vom Gerät
/eraseLöschen der WLAN-Konfiguration und Neustart vom Gerät. Das Gerät stellt erst wieder eine Verbindung zum Netzwerk her, wenn neue WLAN-Konfigurationsdaten eingegeben wurden.
" "

Github https://github.com/tzapu/WiFiManager."; #else const char HTTP_HELP[] PROGMEM = ""; #endif const char HTTP_UPDATE[] PROGMEM = "Neue Firmware hochladen

* Funktioniert möglicherweise nicht im Captive Portal, öffnen Sie im Browser http://192.168.4.1"; const char HTTP_UPDATE_FAIL[] PROGMEM = "
Update fehlgeschlagen!
Starten Sie das Gerät neu und versuchen Sie es erneut
"; const char HTTP_UPDATE_SUCCESS[] PROGMEM = "
Update erfolgreich.
Gerät wird jetzt neu gestartet...
"; #ifdef WM_JSTEST const char HTTP_JS[] PROGMEM = ""; #endif // Info html // @todo remove html elements from progmem, repetetive strings #ifdef ESP32 const char HTTP_INFO_esphead[] PROGMEM = "

esp32

"; const char HTTP_INFO_chiprev[] PROGMEM = "
Chip rev
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Grund für die letzte Zurücksetzung
CPU0: {1}
CPU1: {2}
"; const char HTTP_INFO_aphost[] PROGMEM = "
Hostname des Access Points
{1}
"; const char HTTP_INFO_psrsize[] PROGMEM = "
PSRAM Größe
{1} bytes
"; const char HTTP_INFO_temp[] PROGMEM = "
Temperatur
{1} C° / {2} F°
"; const char HTTP_INFO_hall[] PROGMEM = "
Halle
{1}
"; #else const char HTTP_INFO_esphead[] PROGMEM = "

esp8266

"; const char HTTP_INFO_fchipid[] PROGMEM = "
Flash chip ID
{1}
"; const char HTTP_INFO_corever[] PROGMEM = "
Core version
{1}
"; const char HTTP_INFO_bootver[] PROGMEM = "
Boot version
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Grund für die letzte Zurücksetzung
{1}
"; const char HTTP_INFO_flashsize[] PROGMEM = "
Real Flash Größe
{1} bytes
"; #endif const char HTTP_INFO_memsmeter[] PROGMEM = "
"; const char HTTP_INFO_memsketch[] PROGMEM = "
Memory - Sketch size
Used / Total bytes
{1} / {2}"; const char HTTP_INFO_freeheap[] PROGMEM = "
Memory - Free heap
{1} bytes available
"; const char HTTP_INFO_wifihead[] PROGMEM = "

WiFi

"; const char HTTP_INFO_uptime[] PROGMEM = "
Uptime
{1} mins {2} secs
"; const char HTTP_INFO_chipid[] PROGMEM = "
Chip ID
{1}
"; const char HTTP_INFO_idesize[] PROGMEM = "
Flash size
{1} bytes
"; const char HTTP_INFO_sdkver[] PROGMEM = "
SDK version
{1}
"; const char HTTP_INFO_cpufreq[] PROGMEM = "
CPU frequency
{1}MHz
"; const char HTTP_INFO_apip[] PROGMEM = "
Access point IP
{1}
"; const char HTTP_INFO_apmac[] PROGMEM = "
Access point MAC
{1}
"; const char HTTP_INFO_apssid[] PROGMEM = "
Access point SSID
{1}
"; const char HTTP_INFO_apbssid[] PROGMEM = "
BSSID
{1}
"; const char HTTP_INFO_stassid[] PROGMEM = "
Station SSID
{1}
"; const char HTTP_INFO_staip[] PROGMEM = "
Station IP
{1}
"; const char HTTP_INFO_stagw[] PROGMEM = "
Station gateway
{1}
"; const char HTTP_INFO_stasub[] PROGMEM = "
Station subnet
{1}
"; const char HTTP_INFO_dnss[] PROGMEM = "
DNS Server
{1}
"; const char HTTP_INFO_host[] PROGMEM = "
Hostname
{1}
"; const char HTTP_INFO_stamac[] PROGMEM = "
Station MAC
{1}
"; const char HTTP_INFO_conx[] PROGMEM = "
Connected
{1}
"; const char HTTP_INFO_autoconx[] PROGMEM = "
Autoconnect
{1}
"; const char HTTP_INFO_aboutver[] PROGMEM = "
WiFiManager
{1}
"; const char HTTP_INFO_aboutarduino[] PROGMEM = "
Arduino
{1}
"; const char HTTP_INFO_aboutsdk[] PROGMEM = "
ESP-SDK/IDF
{1}
"; const char HTTP_INFO_aboutdate[] PROGMEM = "
Build date
{1}
"; const char S_brand[] PROGMEM = "WiFiManager"; const char S_debugPrefix[] PROGMEM = "*wm:"; const char S_y[] PROGMEM = "Yes"; const char S_n[] PROGMEM = "No"; const char S_enable[] PROGMEM = "Enabled"; const char S_disable[] PROGMEM = "Disabled"; const char S_GET[] PROGMEM = "GET"; const char S_POST[] PROGMEM = "POST"; const char S_NA[] PROGMEM = "Unbekannt"; const char S_passph[] PROGMEM = "********"; const char S_titlewifisaved[] PROGMEM = "Zugangsdaten gespeichert"; const char S_titlewifisettings[] PROGMEM = "Einstellungen gespeichert"; const char S_titlewifi[] PROGMEM = "ESP Konfiguration"; const char S_titleinfo[] PROGMEM = "Info"; const char S_titleparam[] PROGMEM = "Setup"; const char S_titleparamsaved[] PROGMEM = "Setup gespeichert"; const char S_titleexit[] PROGMEM = "Exit"; const char S_titlereset[] PROGMEM = "Zurücksetzen"; const char S_titleerase[] PROGMEM = "Löschen"; const char S_titleclose[] PROGMEM = "Schließen"; const char S_options[] PROGMEM = "Optionen"; const char S_nonetworks[] PROGMEM = "Keine Netzwerke gefunden. Aktualisieren, um erneut zu suchen."; const char S_staticip[] PROGMEM = "Static IP"; const char S_staticgw[] PROGMEM = "Static gateway"; const char S_staticdns[] PROGMEM = "Static DNS"; const char S_subnet[] PROGMEM = "Subnet"; const char S_exiting[] PROGMEM = "Exiting"; const char S_resetting[] PROGMEM = "Das Modul wird in wenigen Sekunden zurückgesetzt."; const char S_closing[] PROGMEM = "Sie können die Seite schließen, das Portal läuft weiter"; const char S_error[] PROGMEM = "Ein Fehler ist aufgetreten"; const char S_notfound[] PROGMEM = "File nicht gefunden\n\n"; const char S_uri[] PROGMEM = "URI: "; const char S_method[] PROGMEM = "\nMethod: "; const char S_args[] PROGMEM = "\nArguments: "; const char S_parampre[] PROGMEM = "param_"; // debug strings const char D_HR[] PROGMEM = "--------------------"; // softap ssid default prefix #ifdef ESP8266 const char S_ssidpre[] PROGMEM = "ESP"; #elif defined(ESP32) const char S_ssidpre[] PROGMEM = "ESP32"; #else const char S_ssidpre[] PROGMEM = "WM"; #endif // END WIFI_MANAGER_OVERRIDE_STRINGS #endif #endif ================================================ FILE: wm_strings_en.h ================================================ /** * wm_strings_en.h * engligh strings for * WiFiManager, a library for the ESP8266/Arduino platform * for configuration of WiFi credentials using a Captive Portal * * @author Creator tzapu * @author tablatronix * @version 0.0.0 * @license MIT */ #ifndef _WM_STRINGS_EN_H_ #define _WM_STRINGS_EN_H_ #ifndef WIFI_MANAGER_OVERRIDE_STRINGS // !!! ABOVE WILL NOT WORK if you define in your sketch, must be build flag, if anyone one knows how to order includes to be able to do this it would be neat.. I have seen it done.. // strings files must include a consts file! #include "wm_consts_en.h" // include constants, tokens, routes const char WM_LANGUAGE[] PROGMEM = "en-US"; // i18n lang code const char HTTP_HEAD_START[] PROGMEM = "" "" "" "" "" "{v}"; const char HTTP_SCRIPT[] PROGMEM = ""; // @todo add button states, disable on click , show ack , spinner etc const char HTTP_HEAD_END[] PROGMEM = "
"; // {c} = _bodyclass // example of embedded logo, base64 encoded inline, No styling here // const char HTTP_ROOT_MAIN[] PROGMEM = "

{v}

WiFiManager

"; const char HTTP_ROOT_MAIN[] PROGMEM = "

{t}

{v}

"; const char * const HTTP_PORTAL_MENU[] PROGMEM = { "

\n", // MENU_WIFI "

\n", // MENU_WIFINOSCAN "

\n", // MENU_INFO "

\n",//MENU_PARAM "

\n", // MENU_CLOSE "

\n",// MENU_RESTART "

\n", // MENU_EXIT "

\n", // MENU_ERASE "

\n",// MENU_UPDATE "

" // MENU_SEP }; // const char HTTP_PORTAL_OPTIONS[] PROGMEM = strcat(HTTP_PORTAL_MENU[0] , HTTP_PORTAL_MENU[3] , HTTP_PORTAL_MENU[7]); const char HTTP_PORTAL_OPTIONS[] PROGMEM = ""; const char HTTP_ITEM_QI[] PROGMEM = ""; // rssi icons const char HTTP_ITEM_QP[] PROGMEM = "
{r}%
"; // rssi percentage {h} = hidden showperc pref const char HTTP_ITEM[] PROGMEM = "
{v}{qi}{qp}
"; // {q} = HTTP_ITEM_QI, {r} = HTTP_ITEM_QP // const char HTTP_ITEM[] PROGMEM = "
{v} {R} {r}% {q} {e}
"; // test all tokens const char HTTP_FORM_START[] PROGMEM = "
"; const char HTTP_FORM_WIFI[] PROGMEM = "

"; const char HTTP_FORM_WIFI_END[] PROGMEM = ""; const char HTTP_FORM_STATIC_HEAD[] PROGMEM = "

"; const char HTTP_FORM_END[] PROGMEM = "

"; const char HTTP_FORM_LABEL[] PROGMEM = ""; const char HTTP_FORM_PARAM_HEAD[] PROGMEM = "

"; const char HTTP_FORM_PARAM[] PROGMEM = "
\n"; // do not remove newline! const char HTTP_SCAN_LINK[] PROGMEM = "
"; const char HTTP_SAVED[] PROGMEM = "
Saving Credentials
Trying to connect ESP to network.
If it fails reconnect to AP to try again
"; const char HTTP_PARAMSAVED[] PROGMEM = "
Saved
"; const char HTTP_END[] PROGMEM = "
"; const char HTTP_ERASEBTN[] PROGMEM = "
"; const char HTTP_UPDATEBTN[] PROGMEM = "
"; const char HTTP_BACKBTN[] PROGMEM = "

"; const char HTTP_STATUS_ON[] PROGMEM = "
Connected to {v}
with IP {i}
"; const char HTTP_STATUS_OFF[] PROGMEM = "
Not connected to {v}{r}
"; // {c=class} {v=ssid} {r=status_off} const char HTTP_STATUS_OFFPW[] PROGMEM = "
Authentication failure"; // STATION_WRONG_PASSWORD, no eps32 const char HTTP_STATUS_OFFNOAP[] PROGMEM = "
AP not found"; // WL_NO_SSID_AVAIL const char HTTP_STATUS_OFFFAIL[] PROGMEM = "
Could not connect"; // WL_CONNECT_FAILED const char HTTP_STATUS_NONE[] PROGMEM = "
No AP set
"; const char HTTP_BR[] PROGMEM = "
"; const char HTTP_STYLE[] PROGMEM = ""; #ifndef WM_NOHELP const char HTTP_HELP[] PROGMEM = "

Available pages

" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "
PageFunction
/Menu page.
/wifiShow WiFi scan results and enter WiFi configuration.(/0wifi noscan)
/wifisaveSave WiFi configuration information and configure device. Needs variables supplied.
/paramParameter page
/infoInformation page
/uOTA Update
/closeClose the captiveportal popup, config portal will remain active
/exitExit Config portal, config portal will close
/restartReboot the device
/eraseErase WiFi configuration and reboot device. Device will not reconnect to a network until new WiFi configuration data is entered.
" "

Github https://github.com/tzapu/WiFiManager."; #else const char HTTP_HELP[] PROGMEM = ""; #endif const char HTTP_UPDATE[] PROGMEM = "Upload new firmware

* May not function inside captive portal, open in browser http://192.168.4.1"; const char HTTP_UPDATE_FAIL[] PROGMEM = "
Update failed!
Reboot device and try again
"; const char HTTP_UPDATE_SUCCESS[] PROGMEM = "
Update successful.
Device rebooting now...
"; #ifdef WM_JSTEST const char HTTP_JS[] PROGMEM = ""; #endif // Info html // @todo remove html elements from progmem, repetetive strings #ifdef ESP32 const char HTTP_INFO_esphead[] PROGMEM = "

esp32

"; const char HTTP_INFO_chiprev[] PROGMEM = "
Chip rev
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Last reset reason
CPU0: {1}
CPU1: {2}
"; const char HTTP_INFO_aphost[] PROGMEM = "
Access point hostname
{1}
"; const char HTTP_INFO_psrsize[] PROGMEM = "
PSRAM Size
{1} bytes
"; const char HTTP_INFO_temp[] PROGMEM = "
Temperature
{1} C° / {2} F°
"; const char HTTP_INFO_hall[] PROGMEM = "
Hall
{1}
"; #else const char HTTP_INFO_esphead[] PROGMEM = "

esp8266

"; const char HTTP_INFO_fchipid[] PROGMEM = "
Flash chip ID
{1}
"; const char HTTP_INFO_corever[] PROGMEM = "
Core version
{1}
"; const char HTTP_INFO_bootver[] PROGMEM = "
Boot version
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Last reset reason
{1}
"; const char HTTP_INFO_flashsize[] PROGMEM = "
Real flash size
{1} bytes
"; #endif const char HTTP_INFO_memsmeter[] PROGMEM = "
"; const char HTTP_INFO_memsketch[] PROGMEM = "
Memory - Sketch size
Used / Total bytes
{1} / {2}"; const char HTTP_INFO_freeheap[] PROGMEM = "
Memory - Free heap
{1} bytes available
"; const char HTTP_INFO_wifihead[] PROGMEM = "

WiFi

"; const char HTTP_INFO_uptime[] PROGMEM = "
Uptime
{1} mins {2} secs
"; const char HTTP_INFO_chipid[] PROGMEM = "
Chip ID
{1}
"; const char HTTP_INFO_idesize[] PROGMEM = "
Flash size
{1} bytes
"; const char HTTP_INFO_sdkver[] PROGMEM = "
SDK version
{1}
"; const char HTTP_INFO_cpufreq[] PROGMEM = "
CPU frequency
{1}MHz
"; const char HTTP_INFO_apip[] PROGMEM = "
Access point IP
{1}
"; const char HTTP_INFO_apmac[] PROGMEM = "
Access point MAC
{1}
"; const char HTTP_INFO_apssid[] PROGMEM = "
Access point SSID
{1}
"; const char HTTP_INFO_apbssid[] PROGMEM = "
BSSID
{1}
"; const char HTTP_INFO_stassid[] PROGMEM = "
Station SSID
{1}
"; const char HTTP_INFO_staip[] PROGMEM = "
Station IP
{1}
"; const char HTTP_INFO_stagw[] PROGMEM = "
Station gateway
{1}
"; const char HTTP_INFO_stasub[] PROGMEM = "
Station subnet
{1}
"; const char HTTP_INFO_dnss[] PROGMEM = "
DNS Server
{1}
"; const char HTTP_INFO_host[] PROGMEM = "
Hostname
{1}
"; const char HTTP_INFO_stamac[] PROGMEM = "
Station MAC
{1}
"; const char HTTP_INFO_conx[] PROGMEM = "
Connected
{1}
"; const char HTTP_INFO_autoconx[] PROGMEM = "
Autoconnect
{1}
"; const char HTTP_INFO_aboutver[] PROGMEM = "
WiFiManager
{1}
"; const char HTTP_INFO_aboutarduino[] PROGMEM = "
Arduino
{1}
"; const char HTTP_INFO_aboutsdk[] PROGMEM = "
ESP-SDK/IDF
{1}
"; const char HTTP_INFO_aboutdate[] PROGMEM = "
Build date
{1}
"; const char S_brand[] PROGMEM = "WiFiManager"; const char S_debugPrefix[] PROGMEM = "*wm:"; const char S_y[] PROGMEM = "Yes"; const char S_n[] PROGMEM = "No"; const char S_enable[] PROGMEM = "Enabled"; const char S_disable[] PROGMEM = "Disabled"; const char S_GET[] PROGMEM = "GET"; const char S_POST[] PROGMEM = "POST"; const char S_NA[] PROGMEM = "Unknown"; const char S_passph[] PROGMEM = "********"; const char S_titlewifisaved[] PROGMEM = "Credentials saved"; const char S_titlewifisettings[] PROGMEM = "Settings saved"; const char S_titlewifi[] PROGMEM = "Config ESP"; const char S_titleinfo[] PROGMEM = "Info"; const char S_titleparam[] PROGMEM = "Setup"; const char S_titleparamsaved[] PROGMEM = "Setup saved"; const char S_titleexit[] PROGMEM = "Exit"; const char S_titlereset[] PROGMEM = "Reset"; const char S_titleerase[] PROGMEM = "Erase"; const char S_titleclose[] PROGMEM = "Close"; const char S_options[] PROGMEM = "options"; const char S_nonetworks[] PROGMEM = "No networks found. Refresh to scan again."; const char S_staticip[] PROGMEM = "Static IP"; const char S_staticgw[] PROGMEM = "Static gateway"; const char S_staticdns[] PROGMEM = "Static DNS"; const char S_subnet[] PROGMEM = "Subnet"; const char S_exiting[] PROGMEM = "Exiting"; const char S_resetting[] PROGMEM = "Module will reset in a few seconds."; const char S_closing[] PROGMEM = "You can close the page, portal will continue to run"; const char S_error[] PROGMEM = "An error occured"; const char S_notfound[] PROGMEM = "File not found\n\n"; const char S_uri[] PROGMEM = "URI: "; const char S_method[] PROGMEM = "\nMethod: "; const char S_args[] PROGMEM = "\nArguments: "; const char S_parampre[] PROGMEM = "param_"; // debug strings const char D_HR[] PROGMEM = "--------------------"; // softap ssid default prefix #ifdef ESP8266 const char S_ssidpre[] PROGMEM = "ESP"; #elif defined(ESP32) const char S_ssidpre[] PROGMEM = "ESP32"; #else const char S_ssidpre[] PROGMEM = "WM"; #endif // END WIFI_MANAGER_OVERRIDE_STRINGS #endif #endif ================================================ FILE: wm_strings_es.h ================================================ /** * SAMPLE SAMPLE SAMPLE * * wm_strings_es.h * spanish strings for * WiFiManager, a library for the ESPX/Arduino platform * for configuration of WiFi credentials using a Captive Portal * * @author Creator tzapu * @author tablatronix * @version 0.0.0 * @license MIT */ #ifndef _WM_STRINGS_EN_H_ #define _WM_STRINGS_EN_H_ /** * ADD TO BUILD FLAGS * -DWM_STRINGS_FILE="\"wm_strings_es.h\"" */ #ifndef WIFI_MANAGER_OVERRIDE_STRINGS // !!! ABOVE WILL NOT WORK if you define in your sketch, must be build flag, if anyone one knows how to order includes to be able to do this it would be neat.. I have seen it done.. // strings files must include a consts file! // Copy and change to custom locale tokens if necessary, but strings should be good enough #include "wm_consts_en.h" // include constants, tokens, routes const char WM_LANGUAGE[] PROGMEM = "es-ES"; // i18n lang code const char HTTP_HEAD_START[] PROGMEM = "" "" "" "" "" "{v}"; const char HTTP_SCRIPT[] PROGMEM = ""; // @todo add button states, disable on click , show ack , spinner etc const char HTTP_HEAD_END[] PROGMEM = "
"; // {c} = _bodyclass // example of embedded logo, base64 encoded inline, No styling here // const char HTTP_ROOT_MAIN[] PROGMEM = "

{v}

WiFiManager

"; const char HTTP_ROOT_MAIN[] PROGMEM = "

{t}

{v}

"; const char * const HTTP_PORTAL_MENU[] PROGMEM = { "

\n", // MENU_WIFI "

\n", // MENU_WIFINOSCAN "

\n", // MENU_INFO "

\n",//MENU_PARAM "

\n", // MENU_CLOSE "

\n",// MENU_RESTART "

\n", // MENU_EXIT "

\n", // MENU_ERASE "

\n",// MENU_UPDATE "

" // MENU_SEP }; // const char HTTP_PORTAL_OPTIONS[] PROGMEM = strcat(HTTP_PORTAL_MENU[0] , HTTP_PORTAL_MENU[3] , HTTP_PORTAL_MENU[7]); const char HTTP_PORTAL_OPTIONS[] PROGMEM = ""; const char HTTP_ITEM_QI[] PROGMEM = ""; // rssi icons const char HTTP_ITEM_QP[] PROGMEM = "
{r}%
"; // rssi percentage {h} = hidden showperc pref const char HTTP_ITEM[] PROGMEM = "
{v}{qi}{qp}
"; // {q} = HTTP_ITEM_QI, {r} = HTTP_ITEM_QP // const char HTTP_ITEM[] PROGMEM = "
{v} {R} {r}% {q} {e}
"; // test all tokens const char HTTP_FORM_START[] PROGMEM = "
"; const char HTTP_FORM_WIFI[] PROGMEM = "
Mostrar contraseña"; const char HTTP_FORM_WIFI_END[] PROGMEM = ""; const char HTTP_FORM_STATIC_HEAD[] PROGMEM = "

"; const char HTTP_FORM_END[] PROGMEM = "

"; const char HTTP_FORM_LABEL[] PROGMEM = ""; const char HTTP_FORM_PARAM_HEAD[] PROGMEM = "

"; const char HTTP_FORM_PARAM[] PROGMEM = "
\n"; // do not remove newline! const char HTTP_SCAN_LINK[] PROGMEM = "
"; const char HTTP_SAVED[] PROGMEM = "
Saving Credentials
Trying to connect ESP to network.
If it fails reconnect to AP to try again
"; const char HTTP_PARAMSAVED[] PROGMEM = "
Saved
"; const char HTTP_END[] PROGMEM = "
"; const char HTTP_ERASEBTN[] PROGMEM = "
"; const char HTTP_UPDATEBTN[] PROGMEM = "
"; const char HTTP_BACKBTN[] PROGMEM = "

"; const char HTTP_STATUS_ON[] PROGMEM = "
Conectado a {v}
con IP {i}
"; const char HTTP_STATUS_OFF[] PROGMEM = "
No conectado a {v}{r}
"; // {c=class} {v=ssid} {r=status_off} const char HTTP_STATUS_OFFPW[] PROGMEM = "
Authentication Failure"; // STATION_WRONG_PASSWORD, no eps32 const char HTTP_STATUS_OFFNOAP[] PROGMEM = "
No Encontrado"; // WL_NO_SSID_AVAIL const char HTTP_STATUS_OFFFAIL[] PROGMEM = "
No se pudo conectar"; // WL_CONNECT_FAILED const char HTTP_STATUS_NONE[] PROGMEM = "
Sin AP establecido
"; const char HTTP_BR[] PROGMEM = "
"; const char HTTP_STYLE[] PROGMEM = ""; #ifndef WM_NOHELP const char HTTP_HELP[] PROGMEM = "

Available Pages

" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "
PageFunction
/Menu page.
/wifiShow WiFi scan results and enter WiFi configuration.(/0wifi noscan)
/wifisaveSave WiFi configuration information and configure device. Needs variables supplied.
/paramParameter page
/infoInformation page
/uOTA Update
/closeClose the captiveportal popup,configportal will remain active
/exitExit Config Portal, configportal will close
/restartReboot the device
/eraseErase WiFi configuration and reboot Device. Device will not reconnect to a network until new WiFi configuration data is entered.
" "

Github https://github.com/tzapu/WiFiManager."; #else const char HTTP_HELP[] PROGMEM = ""; #endif const char HTTP_UPDATE[] PROGMEM = "Upload New Firmware

* May not function inside captive portal, Open in browser http://192.168.4.1"; const char HTTP_UPDATE_FAIL[] PROGMEM = "
Update Failed!
Reboot device and try again
"; const char HTTP_UPDATE_SUCCESS[] PROGMEM = "
Update Successful.
Device Rebooting now...
"; #ifdef WM_JSTEST const char HTTP_JS[] PROGMEM = ""; #endif // Info html // @todo remove html elements from progmem, repetetive strings #ifdef ESP32 const char HTTP_INFO_esphead[] PROGMEM = "

esp32

"; const char HTTP_INFO_chiprev[] PROGMEM = "
Chip Rev
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Last reset reason
CPU0: {1}
CPU1: {2}
"; const char HTTP_INFO_aphost[] PROGMEM = "
Access Point Hostname
{1}
"; const char HTTP_INFO_psrsize[] PROGMEM = "
PSRAM Size
{1} bytes
"; const char HTTP_INFO_temp[] PROGMEM = "
Temperature
{1} C° / {2} F°
Hall
{3}
"; #else const char HTTP_INFO_esphead[] PROGMEM = "

esp8266

"; const char HTTP_INFO_fchipid[] PROGMEM = "
Flash Chip ID
{1}
"; const char HTTP_INFO_corever[] PROGMEM = "
Core Version
{1}
"; const char HTTP_INFO_bootver[] PROGMEM = "
Boot Version
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Last reset reason
{1}
"; const char HTTP_INFO_flashsize[] PROGMEM = "
Real Flash Size
{1} bytes
"; #endif const char HTTP_INFO_memsmeter[] PROGMEM = "
"; const char HTTP_INFO_memsketch[] PROGMEM = "
Memory - Sketch Size
Used / Total bytes
{1} / {2}"; const char HTTP_INFO_freeheap[] PROGMEM = "
Memory - Free Heap
{1} bytes available
"; const char HTTP_INFO_wifihead[] PROGMEM = "

WiFi

"; const char HTTP_INFO_uptime[] PROGMEM = "
Uptime
{1} Mins {2} Secs
"; const char HTTP_INFO_chipid[] PROGMEM = "
Chip ID
{1}
"; const char HTTP_INFO_idesize[] PROGMEM = "
Flash Size
{1} bytes
"; const char HTTP_INFO_sdkver[] PROGMEM = "
SDK Version
{1}
"; const char HTTP_INFO_cpufreq[] PROGMEM = "
CPU Frequency
{1}MHz
"; const char HTTP_INFO_apip[] PROGMEM = "
Access Point IP
{1}
"; const char HTTP_INFO_apmac[] PROGMEM = "
Access Point MAC
{1}
"; const char HTTP_INFO_apssid[] PROGMEM = "
Access Point SSID
{1}
"; const char HTTP_INFO_apbssid[] PROGMEM = "
BSSID
{1}
"; const char HTTP_INFO_stassid[] PROGMEM = "
Station SSID
{1}
"; const char HTTP_INFO_staip[] PROGMEM = "
Station IP
{1}
"; const char HTTP_INFO_stagw[] PROGMEM = "
Station Gateway
{1}
"; const char HTTP_INFO_stasub[] PROGMEM = "
Station Subnet
{1}
"; const char HTTP_INFO_dnss[] PROGMEM = "
DNS Server
{1}
"; const char HTTP_INFO_host[] PROGMEM = "
Hostname
{1}
"; const char HTTP_INFO_stamac[] PROGMEM = "
Station MAC
{1}
"; const char HTTP_INFO_conx[] PROGMEM = "
Connected
{1}
"; const char HTTP_INFO_autoconx[] PROGMEM = "
Autoconnect
{1}
"; const char HTTP_INFO_aboutver[] PROGMEM = "
WiFiManager
{1}
"; const char HTTP_INFO_aboutarduino[] PROGMEM = "
Arduino
{1}
"; const char HTTP_INFO_aboutsdk[] PROGMEM = "
ESP-SDK/IDF
{1}
"; const char HTTP_INFO_aboutdate[] PROGMEM = "
Build Date
{1}
"; const char S_brand[] PROGMEM = "WiFiManager"; const char S_debugPrefix[] PROGMEM = "*wm:"; const char S_y[] PROGMEM = "Yes"; const char S_n[] PROGMEM = "No"; const char S_enable[] PROGMEM = "Enabled"; const char S_disable[] PROGMEM = "Disabled"; const char S_GET[] PROGMEM = "GET"; const char S_POST[] PROGMEM = "POST"; const char S_NA[] PROGMEM = "Unknown"; const char S_passph[] PROGMEM = "********"; const char S_titlewifisaved[] PROGMEM = "Credentials Saved"; const char S_titlewifisettings[] PROGMEM = "Settings Saved"; const char S_titlewifi[] PROGMEM = "Config ESP"; const char S_titleinfo[] PROGMEM = "Info"; const char S_titleparam[] PROGMEM = "Setup"; const char S_titleparamsaved[] PROGMEM = "Setup Saved"; const char S_titleexit[] PROGMEM = "Exit"; const char S_titlereset[] PROGMEM = "Reset"; const char S_titleerase[] PROGMEM = "Erase"; const char S_titleclose[] PROGMEM = "Close"; const char S_options[] PROGMEM = "options"; const char S_nonetworks[] PROGMEM = "No networks found. Refresh to scan again."; const char S_staticip[] PROGMEM = "Static IP"; const char S_staticgw[] PROGMEM = "Static Gateway"; const char S_staticdns[] PROGMEM = "Static DNS"; const char S_subnet[] PROGMEM = "Subnet"; const char S_exiting[] PROGMEM = "Exiting"; const char S_resetting[] PROGMEM = "Module will reset in a few seconds."; const char S_closing[] PROGMEM = "You can close the page, portal will continue to run"; const char S_error[] PROGMEM = "An Error Occured"; const char S_notfound[] PROGMEM = "File Not Found\n\n"; const char S_uri[] PROGMEM = "URI: "; const char S_method[] PROGMEM = "\nMethod: "; const char S_args[] PROGMEM = "\nArguments: "; const char S_parampre[] PROGMEM = "param_"; // debug strings const char D_HR[] PROGMEM = "--------------------"; // softap ssid default prefix #ifdef ESP8266 const char S_ssidpre[] PROGMEM = "ESP"; #elif defined(ESP32) const char S_ssidpre[] PROGMEM = "ESP32"; #else const char S_ssidpre[] PROGMEM = "WM"; #endif // END WIFI_MANAGER_OVERRIDE_STRINGS #endif #endif ================================================ FILE: wm_strings_fr.h ================================================ /** * wm_strings_fr.h * French strings for * WiFiManager, a library for the ESP8266/Arduino platform * for configuration of WiFi credentials using a Captive Portal * * @author Creator tzapu * @author tablatronix * @version 0.0.1 * @translated AByGCreation * @license MIT */ #ifndef _WM_STRINGS_EN_H_ #define _WM_STRINGS_EN_H_ #ifndef WIFI_MANAGER_OVERRIDE_STRINGS // !!! ABOVE WILL NOT WORK if you define in your sketch, must be build flag, if anyone one knows how to order includes to be able to do this it would be neat.. I have seen it done.. // strings files must include a consts file! #include "wm_consts_en.h" // include constants, tokens, routes const char WM_LANGUAGE[] PROGMEM = "fr-FR"; // i18n lang code const char HTTP_HEAD_START[] PROGMEM = "" "" "" "" "" "{v}"; const char HTTP_SCRIPT[] PROGMEM = ""; // @todo add button states, disable on click , show ack , spinner etc const char HTTP_HEAD_END[] PROGMEM = "
"; // {c} = _bodyclass // example of embedded logo, base64 encoded inline, No styling here // const char HTTP_ROOT_MAIN[] PROGMEM = "

{v}

WiFiManager

"; const char HTTP_ROOT_MAIN[] PROGMEM = "

{t}

{v}

"; const char * const HTTP_PORTAL_MENU[] PROGMEM = { "

\n", // MENU_WIFI "

\n", // MENU_WIFINOSCAN "

\n", // MENU_INFO "

\n",//MENU_PARAM "

\n", // MENU_CLOSE "

\n",// MENU_RESTART "

\n", // MENU_EXIT "

\n", // MENU_ERASE "

\n",// MENU_UPDATE "

" // MENU_SEP }; // const char HTTP_PORTAL_OPTIONS[] PROGMEM = strcat(HTTP_PORTAL_MENU[0] , HTTP_PORTAL_MENU[3] , HTTP_PORTAL_MENU[7]); const char HTTP_PORTAL_OPTIONS[] PROGMEM = ""; const char HTTP_ITEM_QI[] PROGMEM = ""; // rssi icons const char HTTP_ITEM_QP[] PROGMEM = "
{r}%
"; // rssi percentage {h} = hidden showperc pref const char HTTP_ITEM[] PROGMEM = "
{v}{qi}{qp}
"; // {q} = HTTP_ITEM_QI, {r} = HTTP_ITEM_QP // const char HTTP_ITEM[] PROGMEM = "
{v} {R} {r}% {q} {e}
"; // test all tokens const char HTTP_FORM_START[] PROGMEM = "
"; const char HTTP_FORM_WIFI[] PROGMEM = "

"; const char HTTP_FORM_WIFI_END[] PROGMEM = ""; const char HTTP_FORM_STATIC_HEAD[] PROGMEM = "

"; const char HTTP_FORM_END[] PROGMEM = "

"; const char HTTP_FORM_LABEL[] PROGMEM = ""; const char HTTP_FORM_PARAM_HEAD[] PROGMEM = "

"; const char HTTP_FORM_PARAM[] PROGMEM = "
\n"; // do not remove newline! const char HTTP_SCAN_LINK[] PROGMEM = "
"; const char HTTP_SAVED[] PROGMEM = "
Enregistrer l'accès
L'ESP essai de se connecter au réseau.
Si échec, merci de vous reconnecter à nouveau.
"; const char HTTP_PARAMSAVED[] PROGMEM = "
Enregistré
"; const char HTTP_END[] PROGMEM = "
"; const char HTTP_ERASEBTN[] PROGMEM = "
"; const char HTTP_UPDATEBTN[] PROGMEM = "
"; const char HTTP_BACKBTN[] PROGMEM = "

"; const char HTTP_STATUS_ON[] PROGMEM = "
Connecté to {v}
with IP {i}
"; const char HTTP_STATUS_OFF[] PROGMEM = "
Non connecté à {v}{r}
"; // {c=class} {v=ssid} {r=status_off} const char HTTP_STATUS_OFFPW[] PROGMEM = "
Echec d'authentication"; // STATION_WRONG_PASSWORD, no eps32 const char HTTP_STATUS_OFFNOAP[] PROGMEM = "
Point d'accès introuvable"; // WL_NO_SSID_AVAIL const char HTTP_STATUS_OFFFAIL[] PROGMEM = "
Impossible de se connecter"; // WL_CONNECT_FAILED const char HTTP_STATUS_NONE[] PROGMEM = "
Aucune borne sélectionnée
"; const char HTTP_BR[] PROGMEM = "
"; const char HTTP_STYLE[] PROGMEM = ""; #ifndef WM_NOHELP const char HTTP_HELP[] PROGMEM = "

Pages disponibles

" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "
Fonctions
/Menu.
/wifiAfficher les résultats de l'analyse WiFi et entrer dans la configuration WiFi.(/0wifi noscan)
/wifisaveSauvegarde les informations de configuration WiFi et configure l'appareil. Veuillez entrer vos informations de connexion
/paramParametres
/infoInformations
/uMise à jour OTA
/closeFermer la fenêtre contextuelle du portail captif, le portail de configuration reste actif.
/exitQuitter le portail de configuration, le portail de configuration se ferme
/restartRedémarrer l'appareil
/eraseEffacer la configuration WiFi et redémarrer l'appareil. L'appareil ne se reconnectera pas à un réseau tant que de nouvelles données de configuration WiFi n'auront pas été saisies.
" "

Github https://github.com/tzapu/WiFiManager."; #else const char HTTP_HELP[] PROGMEM = ""; #endif const char HTTP_UPDATE[] PROGMEM = "Charger le nouveau firmware

* Peut ne pas fonctionner à l'intérieur du portail captif, ouvrir dans le navigateur http://192.168.4.1"; const char HTTP_UPDATE_FAIL[] PROGMEM = "
Echec de la mise à jour !
Redémarrer l'appareil et réessayer
"; const char HTTP_UPDATE_SUCCESS[] PROGMEM = "
Mise à jour réussie.
L'appareil redémarre maintenant...
"; #ifdef WM_JSTEST const char HTTP_JS[] PROGMEM = ""; #endif // Info html // @todo remove html elements from progmem, repetetive strings #ifdef ESP32 const char HTTP_INFO_esphead[] PROGMEM = "

esp32

"; const char HTTP_INFO_chiprev[] PROGMEM = "
Version Puce
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Motif de la dernière réinitialisation
CPU0: {1}
CPU1: {2}
"; const char HTTP_INFO_aphost[] PROGMEM = "
Nom du point d'accès
{1}
"; const char HTTP_INFO_psrsize[] PROGMEM = "
Taille PSRAM
{1} octets
"; const char HTTP_INFO_temp[] PROGMEM = "
Temperature
{1} C° / {2} F°
"; const char HTTP_INFO_hall[] PROGMEM = "
Hall
{1}
"; #else const char HTTP_INFO_esphead[] PROGMEM = "

esp8266

"; const char HTTP_INFO_fchipid[] PROGMEM = "
ID de la puce flash
{1}
"; const char HTTP_INFO_corever[] PROGMEM = "
Version Core
{1}
"; const char HTTP_INFO_bootver[] PROGMEM = "
Version Boot
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Motif de la dernière réinitialisation
{1}
"; const char HTTP_INFO_flashsize[] PROGMEM = "
Taille réelle de la mémoire Flash
{1} octets
"; #endif const char HTTP_INFO_memsmeter[] PROGMEM = "
"; const char HTTP_INFO_memsketch[] PROGMEM = "
Mémoire - Taille du programme
Utilisée / Total
{1} / {2}"; const char HTTP_INFO_freeheap[] PROGMEM = "
Mémoire - Tampon
{1} octets disponibles
"; const char HTTP_INFO_wifihead[] PROGMEM = "

WiFi

"; const char HTTP_INFO_uptime[] PROGMEM = "
Temps de fonctionnement
{1} mins {2} secs
"; const char HTTP_INFO_chipid[] PROGMEM = "
ID de l'ESP
{1}
"; const char HTTP_INFO_idesize[] PROGMEM = "
Taille mémoire Flash
{1} octets
"; const char HTTP_INFO_sdkver[] PROGMEM = "
Version SDK
{1}
"; const char HTTP_INFO_cpufreq[] PROGMEM = "
Fréquence processeur
{1}MHz
"; const char HTTP_INFO_apip[] PROGMEM = "
IP du point d'accès
{1}
"; const char HTTP_INFO_apmac[] PROGMEM = "
Adresse MAC du point d'accès
{1}
"; const char HTTP_INFO_apssid[] PROGMEM = "
SSID du point d'accès
{1}
"; const char HTTP_INFO_apbssid[] PROGMEM = "
BSSID
{1}
"; const char HTTP_INFO_stassid[] PROGMEM = "
Identifiant réseau WiFi
{1}
"; const char HTTP_INFO_staip[] PROGMEM = "
Adresse IP
{1}
"; const char HTTP_INFO_stagw[] PROGMEM = "
Passerelle
{1}
"; const char HTTP_INFO_stasub[] PROGMEM = "
Masque de sous-réseau
{1}
"; const char HTTP_INFO_dnss[] PROGMEM = "
Serveur DNS
{1}
"; const char HTTP_INFO_host[] PROGMEM = "
Nom d'hôte
{1}
"; const char HTTP_INFO_stamac[] PROGMEM = "
Adresse MAC
{1}
"; const char HTTP_INFO_conx[] PROGMEM = "
Connecté
{1}
"; const char HTTP_INFO_autoconx[] PROGMEM = "
Autoconnect
{1}
"; const char HTTP_INFO_aboutver[] PROGMEM = "
WiFiManager
{1}
"; const char HTTP_INFO_aboutarduino[] PROGMEM = "
Arduino
{1}
"; const char HTTP_INFO_aboutsdk[] PROGMEM = "
ESP-SDK/IDF
{1}
"; const char HTTP_INFO_aboutdate[] PROGMEM = "
Date de compilation
{1}
"; const char S_brand[] PROGMEM = "WiFiManager"; const char S_debugPrefix[] PROGMEM = "*wm:"; const char S_y[] PROGMEM = "Oui"; const char S_n[] PROGMEM = "Non"; const char S_enable[] PROGMEM = "Activé"; const char S_disable[] PROGMEM = "Desactivé"; const char S_GET[] PROGMEM = "GET"; const char S_POST[] PROGMEM = "POST"; const char S_NA[] PROGMEM = "Inconnue"; const char S_passph[] PROGMEM = "********"; const char S_titlewifisaved[] PROGMEM = "Identifiants sauvegardés"; const char S_titlewifisettings[] PROGMEM = "Paramètres enregistrés"; const char S_titlewifi[] PROGMEM = "Configuration ESP"; const char S_titleinfo[] PROGMEM = "Info"; const char S_titleparam[] PROGMEM = "Configuration"; const char S_titleparamsaved[] PROGMEM = "Configuration sauvegardée"; const char S_titleexit[] PROGMEM = "Quitter"; const char S_titlereset[] PROGMEM = "Réinitialiser"; const char S_titleerase[] PROGMEM = "Effacer"; const char S_titleclose[] PROGMEM = "Fermer"; const char S_options[] PROGMEM = "options"; const char S_nonetworks[] PROGMEM = "Aucun réseau trouvé. Rafraîchir pour scanner à nouveau."; const char S_staticip[] PROGMEM = "IP Statique"; const char S_staticgw[] PROGMEM = "Passerelle"; const char S_staticdns[] PROGMEM = "DNS"; const char S_subnet[] PROGMEM = "Sous réseau"; const char S_exiting[] PROGMEM = "Exiting"; const char S_resetting[] PROGMEM = "Module will reset in a few seconds."; const char S_closing[] PROGMEM = "You can close the page, portal will continue to run"; const char S_error[] PROGMEM = "An error occured"; const char S_notfound[] PROGMEM = "File not found\n\n"; const char S_uri[] PROGMEM = "URI: "; const char S_method[] PROGMEM = "\nMethod: "; const char S_args[] PROGMEM = "\nArguments: "; const char S_parampre[] PROGMEM = "param_"; // debug strings const char D_HR[] PROGMEM = "--------------------"; // softap ssid default prefix #ifdef ESP8266 const char S_ssidpre[] PROGMEM = "ESP"; #elif defined(ESP32) const char S_ssidpre[] PROGMEM = "ESP32"; #else const char S_ssidpre[] PROGMEM = "WM"; #endif // END WIFI_MANAGER_OVERRIDE_STRINGS #endif #endif ================================================ FILE: wm_strings_pt.h ================================================ /** * SAMPLE SAMPLE SAMPLE * * wm_strings_pt.h * portuguese strings for * WiFiManager, a library for the ESPX/Arduino platform * for configuration of WiFi credentials using a Captive Portal * * @author Creator tzapu * @author tablatronix * @version 0.0.0 * @translated airlomba * @license MIT */ #ifndef _WM_STRINGS_EN_H_ #define _WM_STRINGS_EN_H_ /** * ADD TO BUILD FLAGS * -DWM_STRINGS_FILE="\"wm_strings_pt.h\"" */ #ifndef WIFI_MANAGER_OVERRIDE_STRINGS // !!! ABOVE WILL NOT WORK if you define in your sketch, must be build flag, if anyone one knows how to order includes to be able to do this it would be neat.. I have seen it done.. // strings files must include a consts file! // Copy and change to custom locale tokens if necessary, but strings should be good enough #include "wm_consts_en.h" // include constants, tokens, routes const char WM_LANGUAGE[] PROGMEM = "pt-PT"; // i18n lang code const char HTTP_HEAD_START[] PROGMEM = "" "" "" "" "" "{v}"; const char HTTP_SCRIPT[] PROGMEM = ""; // @todo add button states, disable on click , show ack , spinner etc const char HTTP_HEAD_END[] PROGMEM = "
"; // {c} = _bodyclass // example of embedded logo, base64 encoded inline, No styling here // const char HTTP_ROOT_MAIN[] PROGMEM = "

{v}

WiFiManager

"; const char HTTP_ROOT_MAIN[] PROGMEM = "

{t}

{v}

"; const char * const HTTP_PORTAL_MENU[] PROGMEM = { "

\n", // MENU_WIFI "

\n", // MENU_WIFINOSCAN "

\n", // MENU_INFO "

\n",//MENU_PARAM "

\n", // MENU_CLOSE "

\n",// MENU_RESTART "

\n", // MENU_EXIT "

\n", // MENU_ERASE "

\n",// MENU_UPDATE "

" // MENU_SEP }; // const char HTTP_PORTAL_OPTIONS[] PROGMEM = strcat(HTTP_PORTAL_MENU[0] , HTTP_PORTAL_MENU[3] , HTTP_PORTAL_MENU[7]); const char HTTP_PORTAL_OPTIONS[] PROGMEM = ""; const char HTTP_ITEM_QI[] PROGMEM = ""; // rssi icons const char HTTP_ITEM_QP[] PROGMEM = "
{r}%
"; // rssi percentage {h} = hidden showperc pref const char HTTP_ITEM[] PROGMEM = "
{v}{qi}{qp}
"; // {q} = HTTP_ITEM_QI, {r} = HTTP_ITEM_QP // const char HTTP_ITEM[] PROGMEM = "
{v} {R} {r}% {q} {e}
"; // test all tokens const char HTTP_FORM_START[] PROGMEM = "
"; const char HTTP_FORM_WIFI[] PROGMEM = "
Mostrar palavra-passe"; const char HTTP_FORM_WIFI_END[] PROGMEM = ""; const char HTTP_FORM_STATIC_HEAD[] PROGMEM = "

"; const char HTTP_FORM_END[] PROGMEM = "

"; const char HTTP_FORM_LABEL[] PROGMEM = ""; const char HTTP_FORM_PARAM_HEAD[] PROGMEM = "

"; const char HTTP_FORM_PARAM[] PROGMEM = "
\n"; // do not remove newline! const char HTTP_SCAN_LINK[] PROGMEM = "
"; const char HTTP_SAVED[] PROGMEM = "
Guardando as credenciais
Tentando ligar à rede ESP.
Se falhar, volte a ligar ao AP para nova tentativa
"; const char HTTP_PARAMSAVED[] PROGMEM = "
Guardado
"; const char HTTP_END[] PROGMEM = "
"; const char HTTP_ERASEBTN[] PROGMEM = "
"; const char HTTP_UPDATEBTN[] PROGMEM = "
"; const char HTTP_BACKBTN[] PROGMEM = "

"; const char HTTP_STATUS_ON[] PROGMEM = "
Conectado a {v}
com IP {i}
"; const char HTTP_STATUS_OFF[] PROGMEM = "
Não conectado a {v}{r}
"; // {c=class} {v=ssid} {r=status_off} const char HTTP_STATUS_OFFPW[] PROGMEM = "
Autenticação falhada"; // STATION_WRONG_PASSWORD, no eps32 const char HTTP_STATUS_OFFNOAP[] PROGMEM = "
Não Encontrado"; // WL_NO_SSID_AVAIL const char HTTP_STATUS_OFFFAIL[] PROGMEM = "
Não foi possível conectar"; // WL_CONNECT_FAILED const char HTTP_STATUS_NONE[] PROGMEM = "
Sem AP atribuído
"; const char HTTP_BR[] PROGMEM = "
"; const char HTTP_STYLE[] PROGMEM = ""; #ifndef WM_NOHELP const char HTTP_HELP[] PROGMEM = "

Páginas encontradas

" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "
PageFunção
/Menu.
/wifiExibir resultados da pesquisa WiFi e inserir configuração WiFi.(/0wifi noscan)
/wifisaveGuardar configuração WiFi e configurar dispositivo. Necessita os dados fornecidos.
/paramParâmetros
/infoInformação
/uActualização OTA
/closeFechar o popup captiveportal, configportal continua activo
/exitSair da Configuração
/restartReiniciar o dispositivo
/eraseApagar a configuração WiFi e reiniciar o dispositivo. O dispositivo não se conectará à rede até que uma nova configuração WiFi seja inserida.
" "

Github https://github.com/tzapu/WiFiManager."; #else const char HTTP_HELP[] PROGMEM = ""; #endif const char HTTP_UPDATE[] PROGMEM = "Upload Novo Firmware

* Pode não funcionar dentro do captive portal, Abrir no browser http://192.168.4.1"; const char HTTP_UPDATE_FAIL[] PROGMEM = "
Falhou a actualização!
Reinicie o dispositivo e volte a tentar
"; const char HTTP_UPDATE_SUCCESS[] PROGMEM = "
Actualizado!
Dispositivo a reiniciar...
"; #ifdef WM_JSTEST const char HTTP_JS[] PROGMEM = ""; #endif // Info html // @todo remove html elements from progmem, repetetive strings #ifdef ESP32 const char HTTP_INFO_esphead[] PROGMEM = "

esp32

"; const char HTTP_INFO_chiprev[] PROGMEM = "
Chip Rev
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Motivo do último reset
CPU0: {1}
CPU1: {2}
"; const char HTTP_INFO_aphost[] PROGMEM = "
Access Point Hostname
{1}
"; const char HTTP_INFO_psrsize[] PROGMEM = "
Tamanho PSRAM
{1} bytes
"; const char HTTP_INFO_temp[] PROGMEM = "
Temperatura
{1} C° / {2} F°
Hall
{3}
"; #else const char HTTP_INFO_esphead[] PROGMEM = "

esp8266

"; const char HTTP_INFO_fchipid[] PROGMEM = "
ID do chip Flash
{1}
"; const char HTTP_INFO_corever[] PROGMEM = "
Versão do Core
{1}
"; const char HTTP_INFO_bootver[] PROGMEM = "
Versão do Boot
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Motivo do último reset
{1}
"; const char HTTP_INFO_flashsize[] PROGMEM = "
Tamanho real da Flash
{1} bytes
"; #endif const char HTTP_INFO_memsmeter[] PROGMEM = "
"; const char HTTP_INFO_memsketch[] PROGMEM = "
Memória - Tamanho do Sketch
Usado / Total bytes
{1} / {2}"; const char HTTP_INFO_freeheap[] PROGMEM = "
Memória - Livre
{1} bytes disponíveis
"; const char HTTP_INFO_wifihead[] PROGMEM = "

WiFi

"; const char HTTP_INFO_uptime[] PROGMEM = "
Tempo ligado
{1} Mins {2} Secs
"; const char HTTP_INFO_chipid[] PROGMEM = "
ID do chip
{1}
"; const char HTTP_INFO_idesize[] PROGMEM = "
Tamanho da Flash
{1} bytes
"; const char HTTP_INFO_sdkver[] PROGMEM = "
Versão do SDK
{1}
"; const char HTTP_INFO_cpufreq[] PROGMEM = "
Frequência do CPU
{1}MHz
"; const char HTTP_INFO_apip[] PROGMEM = "
IP do Access Point
{1}
"; const char HTTP_INFO_apmac[] PROGMEM = "
MAC do Access Point
{1}
"; const char HTTP_INFO_apssid[] PROGMEM = "
SSID do Access Point
{1}
"; const char HTTP_INFO_apbssid[] PROGMEM = "
BSSID
{1}
"; const char HTTP_INFO_stassid[] PROGMEM = "
SSID do nó
{1}
"; const char HTTP_INFO_staip[] PROGMEM = "
IP do nó
{1}
"; const char HTTP_INFO_stagw[] PROGMEM = "
Gateway do nó
{1}
"; const char HTTP_INFO_stasub[] PROGMEM = "
Subnet do nó
{1}
"; const char HTTP_INFO_dnss[] PROGMEM = "
Servidor DNS
{1}
"; const char HTTP_INFO_host[] PROGMEM = "
Hostname
{1}
"; const char HTTP_INFO_stamac[] PROGMEM = "
MAC do nó
{1}
"; const char HTTP_INFO_conx[] PROGMEM = "
Conectado
{1}
"; const char HTTP_INFO_autoconx[] PROGMEM = "
Autoconnect
{1}
"; const char HTTP_INFO_aboutver[] PROGMEM = "
WiFiManager
{1}
"; const char HTTP_INFO_aboutarduino[] PROGMEM = "
Arduino
{1}
"; const char HTTP_INFO_aboutsdk[] PROGMEM = "
ESP-SDK/IDF
{1}
"; const char HTTP_INFO_aboutdate[] PROGMEM = "
Data da versão
{1}
"; const char S_brand[] PROGMEM = "WiFiManager"; const char S_debugPrefix[] PROGMEM = "*wm:"; const char S_y[] PROGMEM = "Sim"; const char S_n[] PROGMEM = "Não"; const char S_enable[] PROGMEM = "Activado"; const char S_disable[] PROGMEM = "Desactivado"; const char S_GET[] PROGMEM = "GET"; const char S_POST[] PROGMEM = "POST"; const char S_NA[] PROGMEM = "Desconhecido"; const char S_passph[] PROGMEM = "********"; const char S_titlewifisaved[] PROGMEM = "Credenciais Guardadas"; const char S_titlewifisettings[] PROGMEM = "Configuração Guardada"; const char S_titlewifi[] PROGMEM = "Config ESP"; const char S_titleinfo[] PROGMEM = "Info"; const char S_titleparam[] PROGMEM = "Configuração"; const char S_titleparamsaved[] PROGMEM = "Configuração Guardada"; const char S_titleexit[] PROGMEM = "Sair"; const char S_titlereset[] PROGMEM = "Reiniciar"; const char S_titleerase[] PROGMEM = "Apagar"; const char S_titleclose[] PROGMEM = "Fechar"; const char S_options[] PROGMEM = "opções"; const char S_nonetworks[] PROGMEM = "Nenhuma rede encontrada. Actualize para nova procura."; const char S_staticip[] PROGMEM = "IP estático"; const char S_staticgw[] PROGMEM = "Gateway estática"; const char S_staticdns[] PROGMEM = "DNS estático"; const char S_subnet[] PROGMEM = "Subnet"; const char S_exiting[] PROGMEM = "Saindo"; const char S_resetting[] PROGMEM = "O dispositivo reiniciará dentro de segundos."; const char S_closing[] PROGMEM = "Pode fechar a página, o portal continuará a funcionar"; const char S_error[] PROGMEM = "Ocorreu um erro"; const char S_notfound[] PROGMEM = "Ficheiro não encontrado\n\n"; const char S_uri[] PROGMEM = "URI: "; const char S_method[] PROGMEM = "\nMétodo: "; const char S_args[] PROGMEM = "\nArgumentos: "; const char S_parampre[] PROGMEM = "param_"; // debug strings const char D_HR[] PROGMEM = "--------------------"; // softap ssid default prefix #ifdef ESP8266 const char S_ssidpre[] PROGMEM = "ESP"; #elif defined(ESP32) const char S_ssidpre[] PROGMEM = "ESP32"; #else const char S_ssidpre[] PROGMEM = "WM"; #endif // END WIFI_MANAGER_OVERRIDE_STRINGS #endif #endif ================================================ FILE: wm_strings_pt_br.h ================================================ /** * SAMPLE SAMPLE SAMPLE * * wm_strings_pt_br.h * portuguese strings for * WiFiManager, a library for the ESPX/Arduino platform * for configuration of WiFi credentials using a Captive Portal * * @author Creator tzapu * @author tablatronix * @author Caio Hamamura * @version 0.0.0 * @license MIT */ #ifndef _WM_STRINGS_EN_H_ #define _WM_STRINGS_EN_H_ /** * ADD TO BUILD FLAGS * -DWM_STRINGS_FILE="\"wm_strings_pt_br.h\"" */ #ifndef WIFI_MANAGER_OVERRIDE_STRINGS // !!! ABOVE WILL NOT WORK if you define in your sketch, must be build flag, if anyone one knows how to order includes to be able to do this it would be neat.. I have seen it done.. // strings files must include a consts file! // Copy and change to custom locale tokens if necessary, but strings should be good enough #include "wm_consts_en.h" // include constants, tokens, routes const char WM_LANGUAGE[] PROGMEM = "pt-BR"; // i18n lang code const char HTTP_HEAD_START[] PROGMEM = "" "" "" "" "" "{v}"; const char HTTP_SCRIPT[] PROGMEM = ""; // @todo add button states, disable on click , show ack , spinner etc const char HTTP_HEAD_END[] PROGMEM = "
"; // {c} = _bodyclass // example of embedded logo, base64 encoded inline, No styling here // const char HTTP_ROOT_MAIN[] PROGMEM = "

{v}

WiFiManager

"; const char HTTP_ROOT_MAIN[] PROGMEM = "

{t}

{v}

"; const char * const HTTP_PORTAL_MENU[] PROGMEM = { "

\n", // MENU_WIFI "

\n", // MENU_WIFINOSCAN "

\n", // MENU_INFO "

\n",//MENU_PARAM "

\n", // MENU_CLOSE "

\n",// MENU_RESTART "

\n", // MENU_EXIT "

\n", // MENU_ERASE "

\n",// MENU_UPDATE "

" // MENU_SEP }; // const char HTTP_PORTAL_OPTIONS[] PROGMEM = strcat(HTTP_PORTAL_MENU[0] , HTTP_PORTAL_MENU[3] , HTTP_PORTAL_MENU[7]); const char HTTP_PORTAL_OPTIONS[] PROGMEM = ""; const char HTTP_ITEM_QI[] PROGMEM = ""; // rssi icons const char HTTP_ITEM_QP[] PROGMEM = "
{r}%
"; // rssi percentage {h} = hidden showperc pref const char HTTP_ITEM[] PROGMEM = "
{v}{qi}{qp}
"; // {q} = HTTP_ITEM_QI, {r} = HTTP_ITEM_QP // const char HTTP_ITEM[] PROGMEM = "
{v} {R} {r}% {q} {e}
"; // test all tokens const char HTTP_FORM_START[] PROGMEM = "
"; const char HTTP_FORM_WIFI[] PROGMEM = "
Mostrar senha"; const char HTTP_FORM_WIFI_END[] PROGMEM = ""; const char HTTP_FORM_STATIC_HEAD[] PROGMEM = "

"; const char HTTP_FORM_END[] PROGMEM = "

"; const char HTTP_FORM_LABEL[] PROGMEM = ""; const char HTTP_FORM_PARAM_HEAD[] PROGMEM = "

"; const char HTTP_FORM_PARAM[] PROGMEM = "
\n"; // do not remove newline! const char HTTP_SCAN_LINK[] PROGMEM = "
"; const char HTTP_SAVED[] PROGMEM = "
Salvando as credenciais
Tentando se conectar à rede ESP.
Se falhar, conecte-se ao AP para tentar novamente.
"; const char HTTP_PARAMSAVED[] PROGMEM = "
Salvo
"; const char HTTP_END[] PROGMEM = "
"; const char HTTP_ERASEBTN[] PROGMEM = "
"; const char HTTP_UPDATEBTN[] PROGMEM = "
"; const char HTTP_BACKBTN[] PROGMEM = "

"; const char HTTP_STATUS_ON[] PROGMEM = "
Conectado a {v}
com o IP {i}
"; const char HTTP_STATUS_OFF[] PROGMEM = "
Não conectado a {v}{r}
"; // {c=class} {v=ssid} {r=status_off} const char HTTP_STATUS_OFFPW[] PROGMEM = "
Autenticação falhou"; // STATION_WRONG_PASSWORD, no eps32 const char HTTP_STATUS_OFFNOAP[] PROGMEM = "
Não Encontrado"; // WL_NO_SSID_AVAIL const char HTTP_STATUS_OFFFAIL[] PROGMEM = "
Não foi possível se conectar"; // WL_CONNECT_FAILED const char HTTP_STATUS_NONE[] PROGMEM = "
Nenhum AP configurado
"; const char HTTP_BR[] PROGMEM = "
"; const char HTTP_STYLE[] PROGMEM = ""; #ifndef WM_NOHELP const char HTTP_HELP[] PROGMEM = "

Páginas disponíveis

" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "" "
PageFunção
/Menu.
/wifiExibir resultados da busca WiFi e inserir configuração WiFi.(/0wifi noscan)
/wifisaveSalvar configuração WiFi e configurar dispositivo. Os dados precisam ser fornecidos.
/paramParâmetros
/infoInformações
/uAtualização OTA
/closeFechar o popup captiveportal, configportal continua ativo
/exitSair da Configuração
/restartReiniciar o dispositivo
/eraseApagar a configuração WiFi e reiniciar o dispositivo. O dispositivo não se conectará à rede até que uma nova configuração WiFi seja inserida.
" "

Github https://github.com/tzapu/WiFiManager."; #else const char HTTP_HELP[] PROGMEM = ""; #endif const char HTTP_UPDATE[] PROGMEM = "Upload do Novo Firmware

* Pode não funcionar dentro do captive portal, Abrir no browser http://192.168.4.1"; const char HTTP_UPDATE_FAIL[] PROGMEM = "
Falha na atualização!
Reinicie o dispositivo e tente novamente
"; const char HTTP_UPDATE_SUCCESS[] PROGMEM = "
Atualizado!
Dispositivo reiniciando...
"; #ifdef WM_JSTEST const char HTTP_JS[] PROGMEM = ""; #endif // Info html // @todo remove html elements from progmem, repetetive strings #ifdef ESP32 const char HTTP_INFO_esphead[] PROGMEM = "

esp32

"; const char HTTP_INFO_chiprev[] PROGMEM = "
Chip Rev
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Motivo do último reset
CPU0: {1}
CPU1: {2}
"; const char HTTP_INFO_aphost[] PROGMEM = "
Hostname do Access Point
{1}
"; const char HTTP_INFO_psrsize[] PROGMEM = "
Tamanho do PSRAM
{1} bytes
"; const char HTTP_INFO_temp[] PROGMEM = "
Temperatura
{1} C° / {2} F°
Hall
{3}
"; #else const char HTTP_INFO_esphead[] PROGMEM = "

esp8266

"; const char HTTP_INFO_fchipid[] PROGMEM = "
ID do chip Flash
{1}
"; const char HTTP_INFO_corever[] PROGMEM = "
Versão do Core
{1}
"; const char HTTP_INFO_bootver[] PROGMEM = "
Versão do Boot
{1}
"; const char HTTP_INFO_lastreset[] PROGMEM = "
Motivo do último reset
{1}
"; const char HTTP_INFO_flashsize[] PROGMEM = "
Tamanho real da Flash
{1} bytes
"; #endif const char HTTP_INFO_memsmeter[] PROGMEM = "
"; const char HTTP_INFO_memsketch[] PROGMEM = "
Memória - Tamanho do Sketch
Usado / Total bytes
{1} / {2}"; const char HTTP_INFO_freeheap[] PROGMEM = "
Memória - Livre
{1} bytes disponíveis
"; const char HTTP_INFO_wifihead[] PROGMEM = "

WiFi

"; const char HTTP_INFO_uptime[] PROGMEM = "
Tempo ligado
{1} Mins {2} Secs
"; const char HTTP_INFO_chipid[] PROGMEM = "
ID do chip
{1}
"; const char HTTP_INFO_idesize[] PROGMEM = "
Tamanho da Flash
{1} bytes
"; const char HTTP_INFO_sdkver[] PROGMEM = "
Versão do SDK
{1}
"; const char HTTP_INFO_cpufreq[] PROGMEM = "
Frequência da CPU
{1}MHz
"; const char HTTP_INFO_apip[] PROGMEM = "
IP do Access Point
{1}
"; const char HTTP_INFO_apmac[] PROGMEM = "
MAC do Access Point
{1}
"; const char HTTP_INFO_apssid[] PROGMEM = "
SSID do Access Point
{1}
"; const char HTTP_INFO_apbssid[] PROGMEM = "
BSSID
{1}
"; const char HTTP_INFO_stassid[] PROGMEM = "
SSID da estação
{1}
"; const char HTTP_INFO_staip[] PROGMEM = "
IP da estação
{1}
"; const char HTTP_INFO_stagw[] PROGMEM = "
Gateway da estação
{1}
"; const char HTTP_INFO_stasub[] PROGMEM = "
Subnet da estação
{1}
"; const char HTTP_INFO_dnss[] PROGMEM = "
Servidor DNS
{1}
"; const char HTTP_INFO_host[] PROGMEM = "
Hostname
{1}
"; const char HTTP_INFO_stamac[] PROGMEM = "
MAC da estação
{1}
"; const char HTTP_INFO_conx[] PROGMEM = "
Conectado
{1}
"; const char HTTP_INFO_autoconx[] PROGMEM = "
Conexão automática
{1}
"; const char HTTP_INFO_aboutver[] PROGMEM = "
WiFiManager
{1}
"; const char HTTP_INFO_aboutarduino[] PROGMEM = "
Arduino
{1}
"; const char HTTP_INFO_aboutsdk[] PROGMEM = "
ESP-SDK/IDF
{1}
"; const char HTTP_INFO_aboutdate[] PROGMEM = "
Data da versão
{1}
"; const char S_brand[] PROGMEM = "WiFiManager"; const char S_debugPrefix[] PROGMEM = "*wm:"; const char S_y[] PROGMEM = "Sim"; const char S_n[] PROGMEM = "Não"; const char S_enable[] PROGMEM = "Ativado"; const char S_disable[] PROGMEM = "Desativado"; const char S_GET[] PROGMEM = "GET"; const char S_POST[] PROGMEM = "POST"; const char S_NA[] PROGMEM = "Desconhecido"; const char S_passph[] PROGMEM = "********"; const char S_titlewifisaved[] PROGMEM = "Credenciais Salvas"; const char S_titlewifisettings[] PROGMEM = "Configuração Salva"; const char S_titlewifi[] PROGMEM = "Config ESP"; const char S_titleinfo[] PROGMEM = "Info"; const char S_titleparam[] PROGMEM = "Configuração"; const char S_titleparamsaved[] PROGMEM = "Configuração Salva"; const char S_titleexit[] PROGMEM = "Sair"; const char S_titlereset[] PROGMEM = "Reiniciar"; const char S_titleerase[] PROGMEM = "Apagar"; const char S_titleclose[] PROGMEM = "Fechar"; const char S_options[] PROGMEM = "opções"; const char S_nonetworks[] PROGMEM = "Nenhuma rede encontrada. Atualize para nova busca."; const char S_staticip[] PROGMEM = "IP estático"; const char S_staticgw[] PROGMEM = "Gateway estática"; const char S_staticdns[] PROGMEM = "DNS estático"; const char S_subnet[] PROGMEM = "Subnet"; const char S_exiting[] PROGMEM = "Saindo"; const char S_resetting[] PROGMEM = "O dispositivo reiniciará dentro de segundos."; const char S_closing[] PROGMEM = "A página pode ser fechada, o portal continuará funcionando"; const char S_error[] PROGMEM = "Ocorreu um erro"; const char S_notfound[] PROGMEM = "Arquivo não encontrado\n\n"; const char S_uri[] PROGMEM = "URI: "; const char S_method[] PROGMEM = "\nMétodo: "; const char S_args[] PROGMEM = "\nArgumentos: "; const char S_parampre[] PROGMEM = "param_"; // debug strings const char D_HR[] PROGMEM = "--------------------"; // softap ssid default prefix #ifdef ESP8266 const char S_ssidpre[] PROGMEM = "ESP"; #elif defined(ESP32) const char S_ssidpre[] PROGMEM = "ESP32"; #else const char S_ssidpre[] PROGMEM = "WM"; #endif // END WIFI_MANAGER_OVERRIDE_STRINGS #endif #endif