nodemcu-firmware/README.md

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# **NodeMCU 1.5.4.1** #
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### A Lua based firmware for ESP8266 WiFi SOC
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NodeMCU is an [eLua](http://www.eluaproject.net/) based firmware for the [ESP8266 WiFi SOC from Espressif](http://espressif.com/en/products/esp8266/). The firmware is based on the [Espressif NON-OS SDK 1.5.4.1](http://bbs.espressif.com/viewtopic.php?f=46&t=2376) and uses a file system based on [spiffs](https://github.com/pellepl/spiffs). The code repository consists of 98.1% C-code that glues the thin Lua veneer to the SDK.
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The NodeMCU *firmware* is a companion project to the popular [NodeMCU dev kits](https://github.com/nodemcu/nodemcu-devkit-v1.0), ready-made open source development boards with ESP8266-12E chips.
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# Summary
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- Easy to program wireless node and/or access point
- Based on Lua 5.1.4 (without *debug, os* modules)
- Asynchronous event-driven programming model
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- 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](https://nodemcu.readthedocs.io)
# Programming Model
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The NodeMCU programming model is similar to that of [Node.js](https://en.wikipedia.org/wiki/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`](lua_examples) folder in the repository on GitHub.
```lua
-- a simple HTTP server
srv = net.createServer(net.TCP)
srv:listen(80, function(conn)
conn:on("receive", function(sck, payload)
print(payload)
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sck:send("HTTP/1.0 200 OK\r\nContent-Type: text/html\r\n\r\n<h1> Hello, NodeMCU.</h1>")
end)
conn:on("sent", function(sck) sck:close() end)
end)
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```
```lua
-- connect to WiFi access point
wifi.setmode(wifi.STATION)
wifi.sta.config("SSID", "password")
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```
# Documentation
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The entire [NodeMCU documentation](https://nodemcu.readthedocs.io) is maintained right in this repository at [/docs](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](https://nodemcu.readthedocs.io).
- How to [build the firmware](https://nodemcu.readthedocs.io/en/dev/en/build/)
- How to [build the filesystem](https://nodemcu.readthedocs.io/en/dev/en/spiffs/)
- How to [flash the firmware](https://nodemcu.readthedocs.io/en/dev/en/flash/)
- How to [upload code and NodeMCU IDEs](https://nodemcu.readthedocs.io/en/dev/en/upload/)
- API documentation for every module
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# Releases
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](http://nodemcu-build.com/) to get the specific firmware configuration you need, or consult the [documentation](http://nodemcu.readthedocs.io/en/dev/en/build/) for other options to build your own firmware.
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This project uses two main branches, `master` and `dev`. `dev` is actively worked on and it's also where PRs should be created against. `master` thus can be considered "stable" even though there are no automated regression tests. The goal is to merge back to `master` 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.
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A new tag is created every time `dev` is merged back to `master`. They are listed in the [releases section here on GitHub](https://github.com/nodemcu/nodemcu-firmware/releases). Tag names follow the \<SDK-version\>-master_yyyymmdd pattern.
# Support
See [https://nodemcu.readthedocs.io/en/dev/en/support/](https://nodemcu.readthedocs.io/en/dev/en/support/).
# License
[MIT](https://github.com/nodemcu/nodemcu-firmware/blob/master/LICENSE) © [zeroday](https://github.com/NodeMCU)/[nodemcu.com](http://nodemcu.com/index_en.html)
# Build Options
The following sections explain some of the options you have if you want to [build your own NodeMCU firmware](http://nodemcu.readthedocs.io/en/dev/en/build/).
### Select Modules
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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:
```c
...
#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`
```c
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#define NODE_VERSION "NodeMCU 1.5.4.1+myname"
#ifndef BUILD_DATE
#define BUILD_DATE "YYYYMMDD"
#endif
```
### Set UART Bit Rate
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The initial baud rate at boot time is 115200bps. You can change this by
editing `BIT_RATE_DEFAULT` in `app/include/user_config.h`:
```c
#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`
```c
#define DEVELOP_VERSION
```