This is a NodeJS port of the Homie convention for lightweight IoT device interaction on an MQTT message bus.
It is modeled after the great work done for ESP8266 devices, with the goal of not only following the Homie Convention, but at adhering to the implementation interface so both message and API interfaces are familiar.
It's great for mixing ESP8266 devices with Raspberry Pi and other linux or windows based systems on the same MQTT network.
- Device, Node, and Property with ESP8266-like interface
- Auto MQTT connect with optional username/password
- Auto MQTT re-connect
- Device config matching ESP8266 config JSON
- Periodic $stats/uptime publishing
- $online will
- Device topic events
- Broadcast message events
- Periodic stats interval events
- Device/node/property announcement on connect
- Property send with retained value
- Settable properties
- Property ranges
- Lightweight
- Full test coverage
First, get a local MQTT broker running and a window opened subscribing to the 'devices/#' topic.
Next, add these lines to an index.js file and run it:
var HomieDevice = require('homie-device');
var myDevice = new HomieDevice('bare-minimum');
myDevice.setup();
Congratulations, you've got a running Homie device!
Take a look at the messages on your MQTT bus under devices/bare-minimum. Then ctrl-c the program and watch the broker administer the will.
To publish the firmware name & version, call myDevice.setFirmware()
:
var HomieDevice = require('homie-device');
var myDevice = new HomieDevice('bare-minimum');
myDevice.setFirmware('nodejs-test', '0.0.1');
myDevice.setup();
Devices aren't much use until they have some nodes and properties. Place the following into the index.js file and run it again:
var HomieDevice = require('homie-device');
var myDevice = new HomieDevice('my-device');
var myNode = myDevice.node('my-node', 'test node friendly name', 'test-node');
myNode.advertise('my-property-1').setName('Friendly Prop Name').setUnit('W').setDatatype('integer');
myNode.advertiseRange('my-property-2', 0, 10);
myDevice.setup();
Publishing properties has the same interface as the Homie ESP8266 implementation:
var HomieDevice = require('homie-device');
var myDevice = new HomieDevice('my-device');
var myNode = myDevice.node('my-node', 'test node friendly name', 'test-node');
myNode.advertise('my-property-1').setName('Friendly Prop Name').setUnit('W').setDatatype('integer');
myDevice.setup();
myNode.setProperty('my-property-1').send('property-value');
To set properties from MQTT messages, add a setter function when advertising the property:
var HomieDevice = require('homie-device');
var myDevice = new HomieDevice('my-device');
var myNode = myDevice.node('my-node', 'test node friendly name', 'test-node');
myNode.advertise('my-property-1').setName('Friendly Prop Name').setUnit('W').setDatatype('string').settable(function(range, value) {
myNode.setProperty('my-property-1').setRetained().send(value);
});
myDevice.setup();
Once running, publish a message to the devices/my-device/my-node/my-property-1/set
topic.
Range properties work just like the Homie ESP8266 implementation:
var HomieDevice = require('homie-device');
var myDevice = new HomieDevice('my-device');
var myNode = myDevice.node('my-node', 'test-node', 1,10);
myNode.advertise('my-property-2').settable(function(range, value) {
var index = range.index;
myNode.setProperty('my-property-2').setRange(index).send(value);
});
myDevice.setup();
Now publish a message to the devices/my-device/my-node_8/my-property-2/set
topic.
Incoming messages to the device emit messasge
events. You can listen for all messages to the devices/my-device/#
topic like this:
var HomieDevice = require('homie-device');
var myDevice = new HomieDevice('my-device');
myDevice.on('message', function(topic, value) {
console.log('A message arrived on topic: ' + topic + ' with value: ' + value);
});
myDevice.setup();
Now publish a message to the devices/my-device/my-node/my-property-2_8/set
topic.
You can listen for specific incoming topics by adding a listener to the message:{topic}
event for the device:
var HomieDevice = require('homie-device');
var myDevice = new HomieDevice('my-device');
myDevice.on('message:my/topic', function(value) {
console.log('A message arrived on the my/topic topic with value: ' + value);
});
myDevice.setup();
Now publish a message to the devices/my-device/my/topic
topic.
You can listen to all devices/$broadcast/#
messages by adding a listener to the broadcast
event:
var HomieDevice = require('homie-device');
var myDevice = new HomieDevice('my-device');
myDevice.on('broadcast', function(topic, value) {
console.log('A broadcast message arrived on topic: ' + topic + ' with value: ' + value);
});
myDevice.setup();
Now publish a broadcast message to the devices/$broadcast/some-topic
topic. All homie devices are exposed to broadcast messages.
To configure your device with external settings, pass a full or partial config object to the HomieDevice constructor. If you've worked with the Homie ESP8266 implementation, this will be familiar:
var HomieDevice = require('homie-device');
var config = {
"name": "Bare Minimum",
"device_id": "bare-minimum",
"mqtt": {
"host": "localhost",
"port": 1883,
"base_topic": "devices/",
"auth": false,
"username": "user",
"password": "pass"
},
"settings": {
"percentage": 55
}
}
var myDevice = new HomieDevice(config);
myDevice.setup();
The Homie device maintains an isConnected
(true/false) state, and emits
a connect
and disconnect
event as the device becomes connected with MQTT.
If you don't want the startup message, pass the quiet flag of true
to setup myDevice.setup(true)
.
var HomieDevice = require('homie-device');
var myDevice = new HomieDevice('bare-minimum');
myDevice.setup(true);
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May be freely distributed under the MIT license.
Copyright (c) 2017-2018 Loren West and other contributors