zigbee2mqtt/lib/extension/deviceConfigure.js

117 lines
3.8 KiB
JavaScript

const settings = require('../util/settings');
const logger = require('../util/logger');
const zigbeeHerdsmanConverters = require('zigbee-herdsman-converters');
const BaseExtension = require('./baseExtension');
class DeviceConfigure extends BaseExtension {
constructor(zigbee, mqtt, state, publishEntityState, eventBus) {
super(zigbee, mqtt, state, publishEntityState, eventBus);
this.configuring = new Set();
this.attempts = {};
this.topic = `${settings.get().mqtt.base_topic}/bridge/configure`;
}
shouldConfigure(device, mappedDevice) {
if (!device || !mappedDevice) {
return false;
}
if (device.meta &&
device.meta.hasOwnProperty('configured') &&
device.meta.configured === mappedDevice.meta.configureKey) {
return false;
}
if (!mappedDevice || !mappedDevice.configure) {
return false;
}
if (device.interviewing === true) {
return false;
}
return true;
}
onMQTTConnected() {
this.mqtt.subscribe(this.topic);
}
async onMQTTMessage(topic, message) {
if (topic !== this.topic) {
return;
}
const entity = this.zigbee.resolveEntity(message);
if (!entity || !entity.type === 'device') {
logger.error(`Device '${message}' does not exist`);
return;
}
const mappedDevice = zigbeeHerdsmanConverters.findByZigbeeModel(entity.device.modelID);
if (!mappedDevice.configure) {
logger.warn(`Skipping configure of '${entity.name}', device does not require this.`);
return;
}
this.configure(entity.device, mappedDevice, entity.settings, true);
}
async onZigbeeStarted() {
this.coordinatorEndpoint = this.zigbee.getDevicesByType('Coordinator')[0].getEndpoint(1);
for (const device of this.zigbee.getClients()) {
const mappedDevice = zigbeeHerdsmanConverters.findByZigbeeModel(device.modelID);
const settingsDevice = settings.getDevice(device.ieeeAddr);
if (this.shouldConfigure(device, mappedDevice)) {
await this.configure(device, mappedDevice, settingsDevice);
}
}
}
onZigbeeEvent(type, data, mappedDevice, settingsDevice) {
const device = data.device;
if (type === 'deviceJoined' && device.meta.hasOwnProperty('configured')) {
delete device.meta.configured;
device.save();
}
if (this.shouldConfigure(device, mappedDevice)) {
this.configure(device, mappedDevice, settingsDevice);
}
}
async configure(device, mappedDevice, settingsDevice, force=false) {
if (this.configuring.has(device.ieeeAddr) || (this.attempts[device.ieeeAddr] >= 3 && !force)) {
return false;
}
this.configuring.add(device.ieeeAddr);
if (!this.attempts.hasOwnProperty(device.ieeeAddr)) {
this.attempts[device.ieeeAddr] = 0;
}
logger.info(`Configuring '${settingsDevice.friendlyName}'`);
try {
await mappedDevice.configure(device, this.coordinatorEndpoint);
logger.info(`Successfully configured '${settingsDevice.friendlyName}'`);
// eslint-disable-next-line
device.meta.configured = mappedDevice.meta.configureKey;
device.save();
} catch (error) {
logger.error(
`Failed to configure '${settingsDevice.friendlyName}', ` +
`attempt ${this.attempts[device.ieeeAddr] + 1} (${error.stack})`,
);
this.attempts[device.ieeeAddr]++;
}
this.configuring.delete(device.ieeeAddr);
}
}
module.exports = DeviceConfigure;