224788b642
A fair bit of reshuffling with include paths and overrides was necessary, as the two RTOS SDKs (ESP8266 and ESP32) don't have the same header structure (or even libraries for that matter). Uses the xtensa-esp108-elf toolchain to build. Completely untested beyond linking, as I still can't flash the ESP32 module I have :( I'd be most surprised if it does anything useful at this point considering I've spent almost no time on the linker script or UART setup. Anything using espconn has been ifdef'd out since espconn is not (and probably will not be) available. Notably this includes the entire net module as well as coap, mqtt and enduser_setup. Many (most?) hardware bus drivers and related modules are also ifdef'd out for now due to hardware differences. Functions surrounding sleep, rtc and RF modes have also been hit by the ifdef hammer. Grep'ing for __ESP8266__ and/or FIXME is a quick way of finding these places. With time I hope all of these will be reinstated. |
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|---|---|---|
| .github | ||
| app | ||
| bin | ||
| docs | ||
| esp32-rtos-sdk@8a83c7b706 | ||
| esp8266-rtos-sdk@efd2819870 | ||
| examples | ||
| ld | ||
| lua_examples | ||
| lua_modules | ||
| sdk-overrides | ||
| tools | ||
| .gitignore | ||
| .gitmodules | ||
| .travis.yml | ||
| CONTRIBUTING.md | ||
| LICENSE | ||
| Makefile | ||
| README.md | ||
| mkdocs.yml | ||
README.md
NodeMCU 1.5.1
A Lua based firmware for ESP8266 WiFi SOC
NodeMCU is an eLua based firmware for the ESP8266 WiFi SOC from Espressif. The firmware is based on the Espressif NON-OS SDK 1.5.1 and uses a file system based on spiffs. The code repository consists of 98.1% C-code that glues the thin Lua veneer to the SDK.
The NodeMCU firmware is a companion project to the popular NodeMCU dev kits, ready-made open source development boards with ESP8266-12E chips.
Summary
- Easy to program wireless node and/or access point
- Based on Lua 5.1.4 (without debug, os modules)
- Asynchronous event-driven programming model
- 40+ built-in modules
- Firmware available with or without floating point support (integer-only uses less memory)
- Up-to-date documentation at https://nodemcu.readthedocs.io
Programming Model
The NodeMCU programming model is similar to that of Node.js, only in Lua. It is asynchronous and event-driven. Many functions, therefore, have parameters for callback functions. To give you an idea what a NodeMCU program looks like study the short snippets below. For more extensive examples have a look at the /lua_examples folder in the repository on GitHub.
-- a simple HTTP server
srv = net.createServer(net.TCP)
srv:listen(80, function(conn)
conn:on("receive", function(conn, payload)
print(payload)
conn:send("<h1> Hello, NodeMCU.</h1>")
end)
conn:on("sent", function(conn) conn:close() end)
end)
-- connect to WiFi access point
wifi.setmode(wifi.STATION)
wifi.sta.config("SSID", "password")
Documentation
The entire NodeMCU documentation is maintained right in this repository at /docs. The fact that the API documentation is mainted in the same repository as the code that provides the API ensures consistency between the two. With every commit the documentation is rebuilt by Read the Docs and thus transformed from terse Markdown into a nicely browsable HTML site at https://nodemcu.readthedocs.io.
- How to build the firmware
- How to flash the firmware
- How to upload code and NodeMCU IDEs
- API documentation for every module
Support
See https://nodemcu.readthedocs.io/en/dev/en/support/.
License
Build Options
The following sections explain some of the options you have if you want to build your own NodeMCU firmware.
Select Modules
Disable modules you won't be using to reduce firmware size and free up some RAM. The ESP8266 is quite limited in available RAM and running out of memory can cause a system panic. The default configuration is designed to run on all ESP modules including the 512 KB modules like ESP-01 and only includes general purpose interface modules which require at most two GPIO pins.
Edit app/include/user_modules.h and comment-out the #define statement for modules you don't need. Example:
...
#define LUA_USE_MODULES_MQTT
// #define LUA_USE_MODULES_COAP
// #define LUA_USE_MODULES_U8G
...
Tag Your Build
Identify your firmware builds by editing app/include/user_version.h
#define NODE_VERSION "NodeMCU 1.5.1+myname"
#ifndef BUILD_DATE
#define BUILD_DATE "YYYYMMDD"
#endif
Set UART Bit Rate
The initial baud rate at boot time is 115200bps. You can change this by
editing BIT_RATE_DEFAULT in app/include/user_config.h:
#define BIT_RATE_DEFAULT BIT_RATE_115200
Note that, by default, the firmware runs an auto-baudrate detection algorithm so that typing a few characters at boot time will cause the firmware to lock onto that baud rate (between 1200 and 230400).
Debugging
To enable runtime debug messages to serial console edit app/include/user_config.h
#define DEVELOP_VERSION