No Description

Nathaniel Wesley Filardo bad4bdf390 Merge remote-tracking branch 'origin/release' 1 year ago
.github 35b850e050 Update 1 year ago
app 9dae0e6725 MQTT: trigger conn failure callback if DNS success but connection failed (#3477) 1 year ago
bin c972d86ea9 Update to sdk 2.2 5 years ago
docs 21ab6eddc3 ow: add alarm scans and timing tweaking (#3461) 1 year ago
ld bbeb09b695 Squashed updates do get Lua51 and Lua53 working (#3075) 3 years ago
local 91656c3d76 create luac.cross.{integer|float} (#2450) 5 years ago
lua_examples c2b3710f60 Add pipeutils example (#3354) 2 years ago
lua_modules 1a1a4da212 File LFS Lua module initial commit (#3332) 1 year ago
msvc a92da3c33c Lua 5.1 / 5.3 alignment and document (#3193) 3 years ago
sdk-overrides 60f0150736 Add snprintf and remove our sprintf 3 years ago
tests 1a1a4da212 File LFS Lua module initial commit (#3332) 1 year ago
tools d4ae3c364b README 'spissimg' tool: fix broken link (#3430) 2 years ago
.gdbinit d77666c0e8 trailing spaces cleanup (#2659) 4 years ago
.gdbinitlua 1f2e5bba4a Implement panic call handling for all modules (#3163) 3 years ago
.gitignore 2ccce2395d Update RTD MkDocs (#3458) 1 year ago
.gitmodules 53283d189e Add the submodule properly 3 years ago
.readthedocs.yaml 2ccce2395d Update RTD MkDocs (#3458) 1 year ago 63d82131a7 Doc fixes (#3333) 3 years ago
LICENSE b249b8d5fe update doc 9 years ago
Makefile cb1b40fffa Bump toolchain to 20190731.0 (#3172) 3 years ago e584a23319 Remove Travis CI remnants 1 year ago
mkdocs.yml 2ccce2395d Update RTD MkDocs (#3458) 1 year ago
rtd-requirements.txt d77666c0e8 trailing spaces cleanup (#2659) 4 years ago

NodeMCU 3.0.0

CI Documentation Status License

A Lua based firmware for ESP8266 WiFi SOC

NodeMCU is an open source Lua based firmware for the ESP8266 WiFi SOC from Espressif and uses an on-module flash-based SPIFFS file system. NodeMCU is implemented in C and is layered on the Espressif NON-OS SDK.

The firmware was initially developed as is a companion project to the popular ESP8266-based NodeMCU development modules, but the project is now community-supported, and the firmware can now be run on any ESP module.


  • Easy to program wireless node and/or access point
  • Based on Lua 5.1.4 or Lua 5.3 but without debug, io, os and (most of the) math modules
  • Asynchronous event-driven programming model
  • more than 70 built-in C modules and close to 20 Lua modules
  • Firmware available with or without floating point support (integer-only uses less memory)
  • Up-to-date documentation at

LFS support

In July 2018 support for a Lua Flash Store (LFS) was introduced. LFS allows Lua code and its associated constant data to be executed directly out of flash-memory; just as the firmware itself is executed. This now enables NodeMCU developers to create Lua applications with up to 256Kb Lua code and read-only constants executing out of flash. All of the RAM is available for read-write data!

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(sck, payload)
		sck:send("HTTP/1.0 200 OK\r\nContent-Type: text/html\r\n\r\n<h1> Hello, NodeMCU.</h1>")
	conn:on("sent", function(sck) sck:close() end)
-- connect to WiFi access point
wifi.sta.config{ssid="SSID", pwd="password"}


The entire NodeMCU documentation is maintained right in this repository at /docs. The fact that the API documentation is maintained 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


Due to the ever-growing number of modules available within NodeMCU, pre-built binaries are no longer made available. Use the automated custom firmware build service to get the specific firmware configuration you need, or consult the documentation for other options to build your own firmware.

This project uses two main branches, release and dev. dev is actively worked on and it’s also where PRs should be created against. release thus can be considered «stable» even though there are no automated regression tests. The goal is to merge back to release roughly every 2 months. Depending on the current «heat» (issues, PRs) we accept changes to dev for 5-6 weeks and then hold back for 2-3 weeks before the next snap is completed.

A new tag is created every time dev is merged back to release. They are listed in the releases section here on GitHub. Tag names follow the <SDK-version>-release_yyyymmdd pattern.




MIT © zeroday/