zigbee2mqtt/lib/extension/devicePublish.js

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const settings = require('../util/settings');
const zigbeeShepherdConverters = require('zigbee-shepherd-converters');
const logger = require('../util/logger');
const utils = require('../util/utils');
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const topicRegex = new RegExp(`^${settings.get().mqtt.base_topic}/.+/(set|get)$`);
const postfixes = [
'left', 'right', 'center', 'bottom_left', 'bottom_right',
'top_left', 'top_right', 'white', 'rgb', 'system', 'top', 'bottom',
];
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const maxDepth = 20;
const groupConverters = [
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{
from: (converted) => {
if (converted.cid === 'genOnOff') {
return {state: converted.cmd.toUpperCase()};
} else if (converted.cid === 'genLevelCtrl') {
return {state: 'ON', brightness: Number(converted.zclData.level)};
}
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},
to: zigbeeShepherdConverters.toZigbeeConverters.light_onoff_brightness,
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},
{
from: (converted) => {
return {color_temp: Number(converted.zclData.colortemp)};
},
to: zigbeeShepherdConverters.toZigbeeConverters.light_colortemp,
},
{
from: (converted) => {
if (converted.zclData.hasOwnProperty('colorx') && converted.zclData.hasOwnProperty('colory')) {
return {
color: {
x: converted.zclData.colorx / 65535,
y: converted.zclData.colory / 65535,
},
};
}
},
to: zigbeeShepherdConverters.toZigbeeConverters.light_color,
},
{
from: () => null,
to: zigbeeShepherdConverters.toZigbeeConverters.ignore_transition,
},
];
class DevicePublish {
constructor(zigbee, mqtt, state, publishEntityState) {
this.zigbee = zigbee;
this.mqtt = mqtt;
this.state = state;
this.publishEntityState = publishEntityState;
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}
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onMQTTConnected() {
// Subscribe to topics.
for (let step = 1; step < maxDepth; step++) {
const topic = `${settings.get().mqtt.base_topic}/${'+/'.repeat(step)}`;
this.mqtt.subscribe(`${topic}set`);
this.mqtt.subscribe(`${topic}get`);
}
}
parseTopic(topic) {
if (!topic.match(topicRegex)) {
return null;
}
// Remove base from topic
topic = topic.replace(`${settings.get().mqtt.base_topic}/`, '');
// Parse type from topic
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const type = topic.substr(topic.lastIndexOf('/') + 1, topic.length);
// Remove type from topic
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topic = topic.replace(`/${type}`, '');
// Check if we have to deal with a postfix.
let postfix = '';
if (postfixes.find((p) => topic.endsWith(`/${p}`))) {
postfix = topic.substr(topic.lastIndexOf('/') + 1, topic.length);
// Remove postfix from topic
topic = topic.replace(`/${postfix}`, '');
}
const ID = topic;
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return {type: type, ID: ID, postfix: postfix};
}
handlePublishError(entity, message, error) {
const meta = {
entity,
message: message.toString(),
};
this.mqtt.log('zigbee_publish_error', error.toString(), meta);
}
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handlePublished(entity, topic, converter, converted) {
if (entity.type === 'device' && topic.type === 'set') {
// Devices do not report when they go off, this ensures state (on/off) is always in sync.
// Brightness onoff converters also control the state. (do a moveToLevelWithOnOff)
const msg = {};
const _key = topic.postfix ? `state_${topic.postfix}` : 'state';
if (converted.cid === 'genOnOff') {
msg[_key] = converted.cmd.toUpperCase();
} else if (converted.cid === 'genLevelCtrl' && converted.cmd === 'moveToLevelWithOnOff') {
msg[_key] = 'ON';
msg['brightness'] = Number(converted.zclData.level);
} else if (converted.cid === 'genLevelCtrl' && converted.cmd === 'moveToLevel') {
msg['brightness'] = Number(converted.zclData.level);
}
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if (Object.keys(msg).length > 0) {
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this.publishEntityState(entity.ID, msg, true);
}
} else if (entity.type === 'group' && topic.type === 'set') {
// As a group doesn't confirm it's state, we mock the state here.
const payload = groupConverters.find((g) => g.to === converter).from(converted);
if (payload) {
this.publishEntityState(entity.ID, payload, true);
}
}
}
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onMQTTMessage(topic, message) {
topic = this.parseTopic(topic);
if (!topic) {
return false;
}
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// Resolve the entity
const entity = utils.resolveEntity(topic.ID);
// Get entity details
let endpoint = null;
let converters = null;
let device = null;
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if (entity.type === 'device') {
device = this.zigbee.getDevice(entity.ID);
if (!device) {
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logger.error(`Failed to find device with ieeAddr: '${entity.ID}'`);
this.mqtt.log('entity_not_found', entity.ID);
return;
}
// Map device to a model
const model = zigbeeShepherdConverters.findByZigbeeModel(device.modelId);
if (!model) {
logger.warn(`Device with modelID '${device.modelId}' is not supported.`);
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logger.warn(`Please see: https://www.zigbee2mqtt.io/how_tos/how_to_support_new_devices.html`);
return;
}
// Determine endpoint to publish to.
if (model.hasOwnProperty('ep')) {
const eps = model.ep(device);
endpoint = eps.hasOwnProperty(topic.postfix) ? eps[topic.postfix] : null;
if (endpoint === null && eps.hasOwnProperty('default')) {
endpoint = eps['default'];
}
}
converters = model.toZigbee;
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} else if (entity.type === 'group') {
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converters = groupConverters.map((g) => g.to);
}
// Convert the MQTT message to a Zigbee message.
let json = null;
try {
json = JSON.parse(message);
} catch (e) {
// Cannot be parsed to JSON, assume state message.
json = {state: message.toString()};
}
// Ensure that state and brightness are executed before other commands.
const keys = Object.keys(json);
keys.sort((a, b) => (['state', 'brightness'].includes(a) ? -1 : 1));
// For each key in the JSON message find the matching converter.
const usedConverters = [];
keys.forEach((key) => {
const converter = converters.find((c) => c.key.includes(key));
if (usedConverters.includes(converter)) {
// Use a converter only once (e.g. light_onoff_brightness converters can convert state and brightness)
return;
}
if (!converter) {
logger.error(`No converter available for '${key}' (${json[key]})`);
return;
}
// Converter didn't return a result, skip
const converted = converter.convert(key, json[key], json, topic.type, topic.postfix);
if (!converted) {
return;
}
this.zigbee.publish(
entity.ID,
entity.type,
converted.cid,
converted.cmd,
converted.cmdType,
converted.zclData,
converted.cfg,
endpoint,
(error, rsp) => {
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if (!error) {
this.handlePublished(entity, topic, converter, converted);
} else {
this.handlePublishError(entity, message, error);
}
}
);
// It's possible for devices to get out of sync when writing an attribute that's not reportable.
// So here we re-read the value after a specified timeout, this timeout could for example be the
// transition time of a color change or for forcing a state read for devices that don't
// automatically report a new state when set.
// When reporting is requested for a device (report: true in device-specific settings) we won't
// ever issue a read here, as we assume the device will properly report changes.
const deviceSettings = settings.getDevice(entity.ID);
if (topic.type === 'set' && entity.type === 'device'
&& converted.hasOwnProperty('readAfterWriteTime')
&& !(deviceSettings && deviceSettings.report)) {
const getConverted = converter.convert(key, json[key], json, 'get');
setTimeout(() => {
this.zigbee.publish(
entity.ID, entity.type, getConverted.cid, getConverted.cmd, getConverted.cmdType,
getConverted.zclData, getConverted.cfg, endpoint, () => {}
);
}, converted.readAfterWriteTime);
}
usedConverters.push(converter);
});
return true;
}
}
module.exports = DevicePublish;