476 lines
15 KiB
Markdown
476 lines
15 KiB
Markdown
# **NodeMCU** #
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version 0.9.5
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[![Join the chat at https://gitter.im/nodemcu/nodemcu-firmware](https://badges.gitter.im/Join%20Chat.svg)](https://gitter.im/nodemcu/nodemcu-firmware?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge)
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[![Build Status](https://travis-ci.org/nodemcu/nodemcu-firmware.svg)](https://travis-ci.org/nodemcu/nodemcu-firmware) [![Download](https://img.shields.io/badge/download-~400k-orange.svg)](https://github.com/nodemcu/nodemcu-firmware/releases/latest)
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###A lua based firmware for wifi-soc esp8266
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Build on [ESP8266 sdk 0.9.5](http://bbs.espressif.com/viewtopic.php?f=5&t=154)<br />
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Lua core based on [eLua project](http://www.eluaproject.net/)<br />
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cjson based on [lua-cjson](https://github.com/mpx/lua-cjson)<br />
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File system based on [spiffs](https://github.com/pellepl/spiffs)<br />
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Open source development kit for NodeMCU [nodemcu-devkit](https://github.com/nodemcu/nodemcu-devkit)<br />
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Flash tool for NodeMCU [nodemcu-flasher](https://github.com/nodemcu/nodemcu-flasher)<br />
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wiki: [NodeMCU wiki](https://github.com/nodemcu/nodemcu-firmware/wiki)<br />
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api: [NodeMCU api](https://github.com/nodemcu/nodemcu-firmware/wiki/nodemcu_api_en)<br />
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home: [nodemcu.com](http://www.nodemcu.com)<br />
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bbs: [Chinese bbs](http://bbs.nodemcu.com)<br />
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docs: [NodeMCU docs](http://www.nodemcu.com/docs/)<br />
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Tencent QQ group: 309957875<br />
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# Summary
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- Easy to access wireless router
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- Based on Lua 5.1.4 (without *debug, os* module.)
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- Event-Drive programming preferred.
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- Build-in json, file, timer, pwm, i2c, spi, 1-wire, net, mqtt, coap, gpio, wifi, adc, uart and system api.
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- GPIO pin re-mapped, use the index to access gpio, i2c, pwm.
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- Both Integer(less memory usage) and Float version firmware provided.
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# To Do List (pull requests are very welcomed)
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- loadable c module
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- fix wifi smart connect
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- add spi module (done)
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- add mqtt module (done)
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- add coap module (done)
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- cross compiler (done)
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# Change log
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2015-03-31<br />
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polish mqtt module, add queue for mqtt module.<br />
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add reconnect option to mqtt.connect api, :connect( host, port, secure, auto_reconnect, function(client) )<br />
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move node.readvdd33 to adc.readvdd33.<br />
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tools/esptool.py supported NodeMCU devkit automatic flash.
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2015-03-18<br />
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update u8glib.<br />
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merge everything to master.
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2015-03-17<br />
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add cjson module, only cjson.encode() and cjson.decode() is implemented.<br />
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read doc [here](https://github.com/nodemcu/nodemcu-firmware/blob/master/app/cjson/manual.txt)
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2015-03-15<br />
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bugs fixed: #239, #273.<br />
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reduce coap module memory usage, add coap module to default built.
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2015-03-11<br />
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fix bugs of spiffs.<br />
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build both float and integer version [latest releases](https://github.com/nodemcu/nodemcu-firmware/releases/latest).<br />
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fix tmr.time().<br />
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fix memory leak when DNS fail.
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2015-03-10<br />
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update to the recent spiffs.<br />
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add file.fsinfo() api, usage: remain, used, total = file.fsinfo().<br />
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add Travis CI. please download the latest firmware from [releases](https://github.com/nodemcu/nodemcu-firmware/releases).<br />
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add math lib, partial api work.<br />
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u8g module, ws2812 module default enabled in dev-branch build.
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2015-02-13<br />
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add node.compile() api to compile lua text file into lua bytecode file.<br />
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this will reduce memory usage noticeably when require modules into NodeMCU.<br />
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raise internal LUA_BUFFERSIZE from 1024 to 4096.<br />
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lua require("mod") will load "mod.lc" file first if exist.<br />
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build latest pre_build bin.
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[more change log](https://github.com/nodemcu/nodemcu-firmware/wiki)<br />
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##GPIO NEW TABLE ( Build 20141219 and later)
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<a id="new_gpio_map"></a>
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<table>
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<tr>
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<th scope="col">IO index</th><th scope="col">ESP8266 pin</th><th scope="col">IO index</th><th scope="col">ESP8266 pin</th>
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</tr>
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<tr>
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<td>0 [*]</td><td>GPIO16</td><td>8</td><td>GPIO15</td>
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</tr>
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<tr>
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<td>1</td><td>GPIO5</td><td>9</td><td>GPIO3</td>
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</tr>
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<tr>
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<td>2</td><td>GPIO4</td><td>10</td><td>GPIO1</td>
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</tr>
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<tr>
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<td>3</td><td>GPIO0</td><td>11</td><td>GPIO9</td>
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</tr>
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<tr>
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<td>4</td><td>GPIO2</td><td>12</td><td>GPIO10</td>
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</tr>
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<tr>
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<td>5</td><td>GPIO14</td><td></td><td></td>
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</tr>
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<tr>
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<td>6</td><td>GPIO12</td><td></td><td></td>
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</tr>
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<tr>
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<td>7</td><td>GPIO13</td><td></td><td></td>
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</tr>
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</table>
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#### [*] D0(GPIO16) can only be used as gpio read/write. no interrupt supported. no pwm/i2c/ow supported.
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#Build option
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####file ./app/include/user_modules.h
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```c
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#define LUA_USE_BUILTIN_STRING // for string.xxx()
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#define LUA_USE_BUILTIN_TABLE // for table.xxx()
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#define LUA_USE_BUILTIN_COROUTINE // for coroutine.xxx()
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#define LUA_USE_BUILTIN_MATH // for math.xxx(), partially work
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// #define LUA_USE_BUILTIN_IO // for io.xxx(), partially work
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// #define LUA_USE_BUILTIN_OS // for os.xxx(), not work
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// #define LUA_USE_BUILTIN_DEBUG // for debug.xxx(), not work
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#define LUA_USE_MODULES
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#ifdef LUA_USE_MODULES
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#define LUA_USE_MODULES_NODE
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#define LUA_USE_MODULES_FILE
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#define LUA_USE_MODULES_GPIO
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#define LUA_USE_MODULES_WIFI
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#define LUA_USE_MODULES_NET
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#define LUA_USE_MODULES_PWM
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#define LUA_USE_MODULES_I2C
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#define LUA_USE_MODULES_SPI
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#define LUA_USE_MODULES_TMR
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#define LUA_USE_MODULES_ADC
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#define LUA_USE_MODULES_UART
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#define LUA_USE_MODULES_OW
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#define LUA_USE_MODULES_BIT
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#define LUA_USE_MODULES_MQTT
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// #define LUA_USE_MODULES_COAP
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#define LUA_USE_MODULES_U8G
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#define LUA_USE_MODULES_WS2812
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#define LUA_USE_MODULES_CJSON
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#endif /* LUA_USE_MODULES */
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```
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#Flash the firmware
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nodemcu_latest.bin: 0x00000<br />
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for most esp8266 modules, just pull GPIO0 down and restart.<br />
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You can use the [nodemcu-flasher](https://github.com/nodemcu/nodemcu-flasher) to burn the firmware.
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Or, if you build your own bin from source code.<br />
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0x00000.bin: 0x00000<br />
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0x10000.bin: 0x10000<br />
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*Better run file.format() after flash*
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#Connect the hardware in serial
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baudrate:9600
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#Start play
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####Connect to your ap
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```lua
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ip = wifi.sta.getip()
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print(ip)
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--nil
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wifi.setmode(wifi.STATION)
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wifi.sta.config("SSID","password")
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ip = wifi.sta.getip()
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print(ip)
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--192.168.18.110
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```
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####Manipulate hardware like a arduino
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```lua
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pin = 1
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gpio.mode(pin,gpio.OUTPUT)
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gpio.write(pin,gpio.HIGH)
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print(gpio.read(pin))
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```
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####Write network application in nodejs style
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```lua
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-- A simple http client
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conn=net.createConnection(net.TCP, 0)
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conn:on("receive", function(conn, payload) print(payload) end )
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conn:connect(80,"115.239.210.27")
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conn:send("GET / HTTP/1.1\r\nHost: www.baidu.com\r\n"
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.."Connection: keep-alive\r\nAccept: */*\r\n\r\n")
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```
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####Or a simple http server
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```lua
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-- A simple http server
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srv=net.createServer(net.TCP)
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srv:listen(80,function(conn)
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conn:on("receive",function(conn,payload)
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print(payload)
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conn:send("<h1> Hello, NodeMcu.</h1>")
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end)
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conn:on("sent",function(conn) conn:close() end)
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end)
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```
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####Connect to MQTT Broker
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```lua
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-- init mqtt client with keepalive timer 120sec
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m = mqtt.Client("clientid", 120, "user", "password")
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-- setup Last Will and Testament (optional)
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-- Broker will publish a message with qos = 0, retain = 0, data = "offline"
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-- to topic "/lwt" if client don't send keepalive packet
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m:lwt("/lwt", "offline", 0, 0)
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m:on("connect", function(con) print ("connected") end)
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m:on("offline", function(con) print ("offline") end)
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-- on publish message receive event
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m:on("message", function(conn, topic, data)
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print(topic .. ":" )
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if data ~= nil then
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print(data)
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end
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end)
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-- m:connect( host, port, secure, auto_reconnect, function(client) )
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-- for secure: m:connect("192.168.11.118", 1880, 1, 0)
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-- for auto-reconnect: m:connect("192.168.11.118", 1880, 0, 1)
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m:connect("192.168.11.118", 1880, 0, 0, function(conn) print("connected") end)
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-- subscribe topic with qos = 0
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m:subscribe("/topic",0, function(conn) print("subscribe success") end)
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-- or subscribe multiple topic (topic/0, qos = 0; topic/1, qos = 1; topic2 , qos = 2)
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-- m:subscribe({["topic/0"]=0,["topic/1"]=1,topic2=2}, function(conn) print("subscribe success") end)
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-- publish a message with data = hello, QoS = 0, retain = 0
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m:publish("/topic","hello",0,0, function(conn) print("sent") end)
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m:close(); -- if auto-reconnect == 1, will disable auto-reconnect and then disconnect from host.
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-- you can call m:connect again
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```
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#### UDP client and server
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```lua
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-- a udp server
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s=net.createServer(net.UDP)
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s:on("receive",function(s,c) print(c) end)
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s:listen(5683)
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-- a udp client
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cu=net.createConnection(net.UDP)
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cu:on("receive",function(cu,c) print(c) end)
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cu:connect(5683,"192.168.18.101")
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cu:send("hello")
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```
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####Do something shining
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```lua
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function led(r,g,b)
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pwm.setduty(1,r)
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pwm.setduty(2,g)
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pwm.setduty(3,b)
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end
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pwm.setup(1,500,512)
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pwm.setup(2,500,512)
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pwm.setup(3,500,512)
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pwm.start(1)
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pwm.start(2)
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pwm.start(3)
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led(512,0,0) -- red
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led(0,0,512) -- blue
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```
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####And blink it
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```lua
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lighton=0
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tmr.alarm(1,1000,1,function()
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if lighton==0 then
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lighton=1
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led(512,512,512)
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else
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lighton=0
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led(0,0,0)
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end
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end)
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```
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####If you want to run something when system started
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```lua
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--init.lua will be excuted
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file.open("init.lua","w")
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file.writeline([[print("Hello, do this at the beginning.")]])
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file.close()
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node.restart() -- this will restart the module.
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```
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####With below code, you can telnet to your esp8266 now
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```lua
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-- a simple telnet server
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s=net.createServer(net.TCP,180)
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s:listen(2323,function(c)
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function s_output(str)
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if(c~=nil)
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then c:send(str)
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end
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end
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node.output(s_output, 0) -- re-direct output to function s_ouput.
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c:on("receive",function(c,l)
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node.input(l) -- works like pcall(loadstring(l)) but support multiple separate line
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end)
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c:on("disconnection",function(c)
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node.output(nil) -- un-regist the redirect output function, output goes to serial
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end)
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print("Welcome to NodeMcu world.")
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end)
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```
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####Use DS18B20 module extends your esp8266
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```lua
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-- read temperature with DS18B20
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node.compile("ds18b20.lua") -- run this only once to compile and save to "ds18b20.lc"
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t=require("ds18b20")
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t.setup(9)
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addrs=t.addrs()
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-- Total DS18B20 numbers, assume it is 2
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print(table.getn(addrs))
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-- The first DS18B20
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print(t.read(addrs[1],t.C))
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print(t.read(addrs[1],t.F))
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print(t.read(addrs[1],t.K))
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-- The second DS18B20
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print(t.read(addrs[2],t.C))
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print(t.read(addrs[2],t.F))
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print(t.read(addrs[2],t.K))
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-- Just read
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print(t.read())
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-- Just read as centigrade
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print(t.read(nil,t.C))
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-- Don't forget to release it after use
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t = nil
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ds18b20 = nil
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package.loaded["ds18b20"]=nil
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```
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####Operate a display via I2c with u8glib
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u8glib is a graphics library with support for many different displays.
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The integration in nodemcu is developed for SSD1306 based display attached via the I2C port. Further display types and SPI connectivity will be added in the future.
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U8glib v1.17
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#####I2C connection
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Hook up SDA and SCL to any free GPIOs. Eg. `lua_examples/u8glib/graphics_test.lua` expects SDA=5 (GPIO14) and SCL=6 (GPIO12). They are used to set up nodemcu's I2C driver before accessing the display:
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```lua
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sda = 5
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scl = 6
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i2c.setup(0, sda, scl, i2c.SLOW)
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```
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#####SPI connection
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The HSPI module is used, so certain pins are fixed:
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* HSPI CLK = GPIO14
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* HSPI MOSI = GPIO13
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* HSPI MISO = GPIO12 (not used)
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All other pins can be assigned to any available GPIO:
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* CS
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* D/C
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* RES (optional for some displays)
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Also refer to the initialization sequence eg in `lua_examples/u8glib/graphics_test.lua`:
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```lua
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spi.setup(1, spi.MASTER, spi.CPOL_LOW, spi.CPHA_LOW, spi.DATABITS_8, 0)
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```
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#####Library usage
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The Lua bindings for this library closely follow u8glib's object oriented C++ API. Based on the u8g class, you create an object for your display type.
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SSD1306 via I2C:
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```lua
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sla = 0x3c
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disp = u8g.ssd1306_128x64_i2c(sla)
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```
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SSD1306 via SPI:
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```lua
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cs = 8 -- GPIO15, pull-down 10k to GND
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dc = 4 -- GPIO2
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res = 0 -- GPIO16, RES is optional YMMV
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disp = u8g.ssd1306_128x64_spi(cs, dc, res)
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```
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This object provides all of u8glib's methods to control the display.
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Again, refer to `lua_examples/u8glib/graphics_test.lua` to get an impression how this is achieved with Lua code. Visit the [u8glib homepage](https://code.google.com/p/u8glib/) for technical details.
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#####Fonts
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u8glib comes with a wide range of fonts for small displays. Since they need to be compiled into the firmware image, you'd need to include them in `app/include/u8g_config.h` and recompile. Simply add the desired fonts to the font table:
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```c
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#define U8G_FONT_TABLE \
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U8G_FONT_TABLE_ENTRY(font_6x10) \
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U8G_FONT_TABLE_ENTRY(font_chikita)
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```
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They'll be available as `u8g.<font_name>` in Lua.
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#####Bitmaps
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Bitmaps and XBMs are supplied as strings to `drawBitmap()` and `drawXBM()`. This off-loads all data handling from the u8g module to generic methods for binary files. See `lua_examples/u8glib/u8g_bitmaps.lua`.
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In contrast to the source code based inclusion of XBMs into u8glib, it's required to provide precompiled binary files. This can be performed online with [Online-Utility's Image Converter](http://www.online-utility.org/image_converter.jsp): Convert from XBM to MONO format and upload the binary result with [nodemcu-uploader.py](https://github.com/kmpm/nodemcu-uploader).
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#####Unimplemented functions
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- [ ] Cursor handling
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- [ ] disableCursor()
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- [ ] enableCursor()
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- [ ] setCursorColor()
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- [ ] setCursorFont()
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- [ ] setCursorPos()
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- [ ] setCursorStyle()
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- [ ] General functions
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- [ ] setContrast()
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- [ ] setPrintPos()
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- [ ] setHardwareBackup()
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- [ ] setRGB()
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####Control a WS2812 based light strip
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```lua
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-- set the color of one LED on GPIO2 to red
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ws2812.writergb(4, string.char(255, 0, 0))
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-- set the color of 10 LEDs on GPIO0 to blue
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ws2812.writergb(3, string.char(0, 0, 255):rep(10))
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-- first LED green, second LED white
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ws2812.writergb(4, string.char(0, 255, 0, 255, 255, 255))
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```
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####coap client and server
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```lua
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-- use copper addon for firefox
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cs=coap.Server()
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cs:listen(5683)
|
|
|
|
myvar=1
|
|
cs:var("myvar") -- get coap://192.168.18.103:5683/v1/v/myvar will return the value of myvar: 1
|
|
|
|
-- function should tack one string, return one string.
|
|
function myfun(payload)
|
|
print("myfun called")
|
|
respond = "hello"
|
|
return respond
|
|
end
|
|
cs:func("myfun") -- post coap://192.168.18.103:5683/v1/f/myfun will call myfun
|
|
|
|
cc = coap.Client()
|
|
cc:get(coap.CON, "coap://192.168.18.100:5683/.well-known/core")
|
|
cc:post(coap.NON, "coap://192.168.18.100:5683/", "Hello")
|
|
```
|
|
|
|
####cjson
|
|
|
|
```lua
|
|
-- Translate Lua value to/from JSON
|
|
-- text = cjson.encode(value)
|
|
-- value = cjson.decode(text)
|
|
json_text = '[ true, { "foo": "bar" } ]'
|
|
value = cjson.decode(json_text)
|
|
-- Returns: { true, { foo = "bar" } }
|
|
value = { true, { foo = "bar" } }
|
|
json_text = cjson.encode(value)
|
|
-- Returns: '[true,{"foo":"bar"}]'
|
|
```
|