const logger = require('../util/logger'); const settings = require('../util/settings'); const utils = require('../util/utils'); const zigbeeHerdsmanConverters = require('zigbee-herdsman-converters'); const Extension = require('./extension'); // Pingable end devices, some end devices should be pinged // e.g. E11-G13 https://github.com/Koenkk/zigbee2mqtt/issues/775#issuecomment-453683846 const pingableEndDevices = [ zigbeeHerdsmanConverters.devices.find((d) => d.model === 'E11-G13'), zigbeeHerdsmanConverters.devices.find((d) => d.model === '53170161'), ]; const Hours25 = 1000 * 60 * 60 * 25; /** * This extensions pings devices to check if they are online. */ class Availability extends Extension { constructor(zigbee, mqtt, state, publishEntityState, eventBus) { super(zigbee, mqtt, state, publishEntityState, eventBus); this.availability_timeout = settings.get().advanced.availability_timeout; this.timers = {}; this.state = {}; this.blacklist = settings.get().advanced.availability_blacklist.map((e) => settings.getEntity(e).ID); this.whitelist = settings.get().advanced.availability_whitelist.map((e) => settings.getEntity(e).ID); } inWhitelistOrNotInBlacklist(device) { const ieeeAddr = device.ieeeAddr; const deviceSettings = settings.getDevice(ieeeAddr); const name = deviceSettings.friendlyName; // Whitelist is not empty and device is in it, enable availability if (this.whitelist.length > 0) { return this.whitelist.includes(ieeeAddr) || (name && this.whitelist.includes(name)); } // Device is on blacklist, disable availability if (this.blacklist.includes(ieeeAddr) || (name && this.blacklist.includes(name))) { return false; } return true; } isPingable(device) { if (pingableEndDevices.find((d) => d.hasOwnProperty('zigbeeModel') && d.zigbeeModel.includes(device.modelID))) { return true; } // Device is a mains powered router return utils.isRouter(device) && !utils.isBatteryPowered(device); } onMQTTConnected() { for (const device of this.zigbee.getClients()) { // Mark all devices as online on start this.publishAvailability(device, true); if (this.inWhitelistOrNotInBlacklist(device)) { if (this.isPingable(device)) { this.setTimerPingable(device); } else { this.timers[device.ieeeAddr] = setInterval(() => { this.handleIntervalNotPingable(device); }, utils.secondsToMilliseconds(300)); } } } } async handleIntervalPingable(device) { // When a device is already unavailable, log the ping failed on 'debug' instead of 'error'. const resolvedEntity = this.zigbee.resolveEntity(device.ieeeAddr); if (!resolvedEntity) { logger.debug(`Stop pinging '${device.ieeeAddr}', device is not known anymore`); return; } const level = this.state.hasOwnProperty(device.ieeeAddr) && !this.state[device.ieeeAddr] ? 'debug' : 'error'; try { await device.ping(); this.publishAvailability(device, true); logger.debug(`Successfully pinged '${resolvedEntity.name}'`); } catch (error) { this.publishAvailability(device, false); logger[level](`Failed to ping '${resolvedEntity.name}'`); } finally { this.setTimerPingable(device); } } async handleIntervalNotPingable(device) { const ago = Date.now() - device.lastSeen; const resolvedEntity = this.zigbee.resolveEntity(device.ieeeAddr); if (!resolvedEntity || !device.lastSeen) { return; } logger.debug(`Non-pingable device '${resolvedEntity.name}' was last seen '${ago / 1000}' seconds ago.`); if (ago > Hours25) { this.publishAvailability(device, false); } } setTimerPingable(device) { if (this.timers[device.ieeeAddr]) { clearTimeout(this.timers[device.ieeeAddr]); } this.timers[device.ieeeAddr] = setTimeout(async () => { await this.handleIntervalPingable(device); }, utils.secondsToMilliseconds(this.availability_timeout)); } async stop() { for (const timer of Object.values(this.timers)) { clearTimeout(timer); } this.zigbee.getClients().forEach((device) => this.publishAvailability(device, false)); } async onReconnect(device) { const resolvedEntity = this.zigbee.resolveEntity(device); if (resolvedEntity && resolvedEntity.definition) { const used = []; try { for (const key of ['state', 'brightness', 'color', 'color_temp']) { const converter = resolvedEntity.definition.toZigbee.find((tz) => tz.key.includes(key)); if (converter && !used.includes(converter)) { await converter.convertGet(device.endpoints[0], key, {}); used.push(converter); } } } catch (error) { logger.error(`Failed to read state of '${resolvedEntity.name}' after reconnect`); } } } publishAvailability(device, available) { const ieeeAddr = device.ieeeAddr; if (this.state.hasOwnProperty(ieeeAddr) && !this.state[ieeeAddr] && available) { this.onReconnect(device); } const deviceSettings = settings.getDevice(ieeeAddr); const name = deviceSettings ? deviceSettings.friendlyName : ieeeAddr; const topic = `${name}/availability`; const payload = available ? 'online' : 'offline'; if (this.state[ieeeAddr] !== available) { this.state[ieeeAddr] = available; this.mqtt.publish(topic, payload, {retain: true, qos: 0}); } } onZigbeeEvent(type, data, resolvedEntity) { const device = data.device; if (!device) { return; } if (this.inWhitelistOrNotInBlacklist(device)) { this.publishAvailability(data.device, true); if (this.isPingable(device)) { // When a zigbee message from a device is received we know the device is still alive. // => reset the timer. this.setTimerPingable(device); const online = this.state.hasOwnProperty(device.ieeeAddr) && this.state[device.ieeeAddr]; if (online && type === 'deviceAnnounce' && !utils.isIkeaTradfriDevice(device)) { /** * In case the device is powered off AND on within the availability timeout, * zigbee2qmtt does not detect the device as offline (device is still marked online). * When a device is turned on again the state could be out of sync. * https://github.com/Koenkk/zigbee2mqtt/issues/1383#issuecomment-489412168 * deviceAnnounce is typically send when a device comes online. * * This isn't needed for TRADFRI devices as they already send the state themself. */ this.onReconnect(device); } } } } } module.exports = Availability;