961b558a91
* Fix device test environment variables
Device tests were not connecting properly to WiFi because the
environment variables were not set when WiFi.connect was called.
This would result in tests sometimes working *if* the prior sketch run
on the ESP saved WiFi connection information and auto-connect was
enabled. But, in most cases, the tests would simply never connect to
any WiFi and fail.
getenv() works only after BS_RUN is called (because BS_RUN handles the
actual parsing of environment variables sent from the host).
Add a "pretest" function to all tests which is called by the host test
controller only after all environment variables are set. Move all
WiFi/etc. operations that were in each separate test's setup() into it.
So the order of operations for tests now is:
ESP: setup()
-> Set serial baud
-> Call BS_RUN()
HOST: Send environment
Send "do pretest"
ESP: pretest()
-> Set Wifi using env. ariables, etc. return "true" on success
HOST: Send "run test 1"
ESP: Run 1st test, return result
HOST: Send "run test 2"
ESP: Run 2nd test, return result
<and so forth>
If nothing is needed to be set up, just return true from the pretest
function.
All tests now run and at least connect to WiFi. There still seem to be
some actual test errors, but not because of the WiFi/environment
variables anymore.
* Remove unneeded debug prints
* Silence esptool.py output when not in V=1 mode
Esptool-ck.exe had an option to be silent, but esptool.py doesn't so the
output is very chatty and makes looking a the run logs hard (60 lines
of esptool.py output, 3 lines of actual test reports).
Redirect esptool.py STDOUT to /dev/null unless V=1 to clear this up.
* Speed up builds massively by removing old JSON
arduino-builder checks the build.options.json file and then goes off and
pegs my CPU at 100% for over a minute on each test compile checking if
files have been modified.
Simply deleting any pre-existing options.json file causes this step to
be skipped and a quick, clean recompile is done in siginificantly less
time.
* Enable compile warnings, fix any that show up
Enable all GCC warnings when building the tests and fix any that came up
(mostly signed/unsigned, unused, and deprecated ones).
* Fix UMM_MALLOC printf crash, umm_test
Printf can now handle PROGMEM addresses, so simplify and correct the
debug printouts in umm_info and elsewhere.
Arduino core for ESP8266 WiFi chip
Quick links
Arduino on ESP8266
This project brings support for ESP8266 chip to the Arduino environment. It lets you write sketches using familiar Arduino functions and libraries, and run them directly on ESP8266, no external microcontroller required.
ESP8266 Arduino core comes with libraries to communicate over WiFi using TCP and UDP, set up HTTP, mDNS, SSDP, and DNS servers, do OTA updates, use a file system in flash memory, work with SD cards, servos, SPI and I2C peripherals.
Contents
- Installing options:
- Documentation
- Issues and support
- Contributing
- License and credits
Installing with Boards Manager
Starting with 1.6.4, Arduino allows installation of third-party platform packages using Boards Manager. We have packages available for Windows, Mac OS, and Linux (32 and 64 bit).
- Install the current upstream Arduino IDE at the 1.8.7 level or later. The current version is on the Arduino website.
- Start Arduino and open the Preferences window.
- Enter
https://arduino.esp8266.com/stable/package_esp8266com_index.jsoninto the Additional Board Manager URLs field. You can add multiple URLs, separating them with commas. - Open Boards Manager from Tools > Board menu and install esp8266 platform (and don't forget to select your ESP8266 board from Tools > Board menu after installation).
Latest release 
Boards manager link: https://arduino.esp8266.com/stable/package_esp8266com_index.json
Documentation: https://arduino-esp8266.readthedocs.io/en/2.5.2/
Using git version (basic instructions)
- Install the current upstream Arduino IDE at the 1.8 level or later. The current version is on the Arduino website.
- Go to Arduino directory
- For Mac OS X, it is
Arduino.appshowing as the Arduino icon.
This location may be your~/Downloads,~/Desktopor even/Applications.cd <application-directory>/Arduino.app/Contents/Java - For Linux, it is ~/Arduino by default.
cd ~/Arduino
- For Mac OS X, it is
- Clone this repository into hardware/esp8266com/esp8266 directory (or clone it elsewhere and create a symlink)
cd hardware
mkdir esp8266com
cd esp8266com
git clone https://github.com/esp8266/Arduino.git esp8266
cd esp8266
git submodule update --init
- Download binary tools (you need Python 2.7)
cd esp8266/tools
python get.py
- Restart Arduino
Using PlatformIO
PlatformIO is an open source ecosystem for IoT development with a cross-platform build system, library manager and full support for Espressif (ESP8266) development. It works on the popular host OS: macOS, Windows, Linux 32/64, Linux ARM (like Raspberry Pi, BeagleBone, CubieBoard).
- What is PlatformIO?
- PlatformIO IDE
- PlatformIO Core (command line tool)
- Advanced usage - custom settings, uploading to SPIFFS, Over-the-Air (OTA), staging version
- Integration with Cloud and Standalone IDEs - Cloud9, Codeanywhere, Eclipse Che (Codenvy), Atom, CLion, Eclipse, Emacs, NetBeans, Qt Creator, Sublime Text, VIM, Visual Studio, and VSCode
- Project Examples
Building with make
makeEspArduino is a generic makefile for any ESP8266 Arduino project. Using make instead of the Arduino IDE makes it easier to do automated and production builds.
Documentation
Documentation for latest development version: https://arduino-esp8266.readthedocs.io/en/latest/
Issues and support
ESP8266 Community Forum is a well-established community for questions and answers about Arduino for ESP8266. If you need help, have a "How do I..." type question, have a problem with a 3rd party lib not hosted in this repo, or just want to discuss how to approach a problem, please ask there.
If you find the forum useful, please consider supporting it with a donation.
If you encounter an issue which you think is a bug in the ESP8266 Arduino Core or the associated libraries, or if you want to propose an enhancement, you are welcome to submit it here on Github: https://github.com/esp8266/Arduino/issues.
Please provide as much context as possible, as well as the information requested in the issue template:
- ESP8266 Arduino core version which you are using (you can check it in Boards Manager)
- your sketch code; please wrap it into a code block, see Github markdown manual
- when encountering an issue that happens at run time, attach the serial output. Wrap it into a code block, just like the code.
- for issues which happen at compile time, enable verbose compiler output in the IDE preferences, and attach that output (also inside a code block)
- ESP8266 development board model
- IDE settings (board choice, flash size)
- etc
Contributing
For minor fixes of code and documentation, please go ahead and submit a pull request.
Check out the list of issues that are easy to fix — easy issues pending. Working on them is a great way to move the project forward.
Larger changes (rewriting parts of existing code from scratch, adding new functions to the core, adding new libraries) should generally be discussed by opening an issue first.
Feature branches with lots of small commits (especially titled "oops", "fix typo", "forgot to add file", etc.) should be squashed before opening a pull request. At the same time, please refrain from putting multiple unrelated changes into a single pull request.
License and credits
Arduino IDE is developed and maintained by the Arduino team. The IDE is licensed under GPL.
ESP8266 core includes an xtensa gcc toolchain, which is also under GPL.
Esptool written by Christian Klippel is licensed under GPLv2, currently maintained by Ivan Grokhotkov: https://github.com/igrr/esptool-ck.
Espressif SDK included in this build is under Espressif MIT License.
ESP8266 core files are licensed under LGPL.
SPI Flash File System (SPIFFS) written by Peter Andersson is used in this project. It is distributed under the MIT license.
umm_malloc memory management library written by Ralph Hempel is used in this project. It is distributed under the MIT license.
SoftwareSerial library and examples written by Peter Lerup. Distributed under LGPL 2.1.
axTLS library written by Cameron Rich, built from https://github.com/igrr/axtls-8266, is used in this project. It is distributed under BSD license.
BearSSL library written by Thomas Pornin, built from https://github.com/earlephilhower/bearssl-esp8266, is used in this project. It is distributed under the MIT License.
LittleFS library written by ARM Limited and released under the BSD 3-clause license.