Files
zigbee2mqtt/lib/extension/availability.ts
T
Koen Kanters ca3c6ce32f More TypeScript refactoring (#8797)
* ts

* Updates
2021-09-18 18:23:28 +02:00

195 lines
8.3 KiB
TypeScript

import ExtensionTS from './extensionts';
import logger from '../util/logger';
import {sleep, hours, minutes, seconds, isAvailabilityEnabledForDevice} from '../util/utils';
import * as settings from '../util/settings';
import debounce from 'debounce';
import bind from 'bind-decorator';
// TODO
// - Enable for HA addon
// - Add to setting schema (when old availability is removed)
export default class Availability extends ExtensionTS {
private timers: {[s: string]: NodeJS.Timeout} = {};
private availabilityCache: {[s: string]: boolean} = {};
private retrieveStateDebouncers: {[s: string]: () => void} = {};
private pingQueue: Device[] = [];
private pingQueueExecuting = false;
private getTimeout(device: Device): number {
if (typeof device.settings.availability === 'object' && device.settings.availability?.timeout != null) {
return minutes(device.settings.availability.timeout);
}
const key = this.isActiveDevice(device) ? 'active' : 'passive';
const availabilitySettings = settings.get().availability;
if (typeof availabilitySettings === 'object' && availabilitySettings[key]?.timeout != null) {
return minutes(availabilitySettings[key]?.timeout);
}
return key === 'active' ? minutes(10) : hours(25);
}
private isActiveDevice(device: Device): boolean {
return (device.type === 'Router' && device.powerSource !== 'Battery') ||
device.powerSource === 'Mains (single phase)';
}
private isAvailable(device: Device): boolean {
const ago = Date.now() - device.lastSeen;
return ago < this.getTimeout(device);
}
private resetTimer(device: Device): void {
clearTimeout(this.timers[device.ieeeAddr]);
// If the timer triggers, the device is not avaiable anymore otherwise resetTimer already have been called
if (this.isActiveDevice(device)) {
// If device did not check in, ping it, if that fails it will be marked as offline
this.timers[device.ieeeAddr] = setTimeout(
() => this.addToPingQueue(device), this.getTimeout(device) + seconds(1));
} else {
this.timers[device.ieeeAddr] = setTimeout(
() => this.publishAvailability(device, true), this.getTimeout(device) + seconds(1));
}
}
private addToPingQueue(device: Device): void {
this.pingQueue.push(device);
this.pingQueueExecuteNext();
}
private removeFromPingQueue(device: Device): void {
const index = this.pingQueue.findIndex((d) => d.ieeeAddr === device.ieeeAddr);
index != -1 && this.pingQueue.splice(index, 1);
}
private async pingQueueExecuteNext(): Promise<void> {
if (this.pingQueue.length === 0 || this.pingQueueExecuting) return;
this.pingQueueExecuting = true;
const device = this.pingQueue[0];
let pingedSuccessfully = false;
const available = this.availabilityCache[device.ieeeAddr] || this.isAvailable(device);
const attempts = available ? 2 : 1;
for (let i = 0; i < attempts; i++) {
try {
// Enable recovery if device is marked as available and first ping fails.
const disableRecovery = !(i == 1 && available);
await device.ping(disableRecovery);
pingedSuccessfully = true;
logger.debug(`Succesfully pinged '${device.name}' (attempt ${i + 1}/${attempts})`);
break;
} catch (error) {
logger.error(`Failed to ping '${device.name}' (attempt ${i + 1}/${attempts}, ${error.message})`);
// Try again in 3 seconds.
const lastAttempt = i - 1 === attempts;
!lastAttempt && await sleep(3);
}
}
this.publishAvailability(device, !pingedSuccessfully);
this.resetTimer(device);
this.removeFromPingQueue(device);
// Sleep 2 seconds before executing next ping
await sleep(2);
this.pingQueueExecuting = false;
this.pingQueueExecuteNext();
}
override async start(): Promise<void> {
logger.warn('Using experimental new availability feature');
this.eventBus.onDeviceRenamed(this, (data: EventDeviceRenamed) =>
this.publishAvailability(data.device, false, true));
this.eventBus.onDeviceLeave(this, (data: EventDeviceLeave) => clearTimeout(this.timers[data.ieeeAddr]));
this.eventBus.onDeviceAnnounce(this, (data: EventDeviceAnnounce) => this.retrieveState(data.device));
this.eventBus.onLastSeenChanged(this, this.onLastSeenChanged);
for (const device of this.zigbee.getClients()) {
if (isAvailabilityEnabledForDevice(device, settings.get())) {
// Publish initial availablility
this.publishAvailability(device, true);
this.resetTimer(device);
// If an active device is initially unavailable, ping it.
if (this.isActiveDevice(device) && !this.isAvailable(device)) {
this.addToPingQueue(device);
}
}
}
}
private publishAvailability(device: Device, logLastSeen: boolean, forcePublish=false): void {
if (logLastSeen) {
const ago = Date.now() - device.lastSeen;
if (this.isActiveDevice(device)) {
logger.debug(
`Active device '${device.name}' was last seen '${(ago / minutes(1)).toFixed(2)}' minutes ago.`);
} else {
logger.debug(
`Passive device '${device.name}' was last seen '${(ago / hours(1)).toFixed(2)}' hours ago.`);
}
}
const available = this.isAvailable(device);
if (!forcePublish && this.availabilityCache[device.ieeeAddr] == available) {
return;
}
if (device.ieeeAddr in this.availabilityCache && available &&
this.availabilityCache[device.ieeeAddr] === false) {
logger.debug(`Device '${device.name}' reconnected`);
this.retrieveState(device);
}
const topic = `${device.name}/availability`;
const payload = available ? 'online' : 'offline';
this.availabilityCache[device.ieeeAddr] = available;
this.mqtt.publish(topic, payload, {retain: true, qos: 0});
}
@bind private onLastSeenChanged(data: EventLastSeenChanged): void {
if (isAvailabilityEnabledForDevice(data.device, settings.get())) {
// Remove from ping queue, not necessary anymore since we know the device is online.
this.removeFromPingQueue(data.device);
this.resetTimer(data.device);
this.publishAvailability(data.device, false);
}
}
override async stop(): Promise<void> {
super.stop();
Object.values(this.timers).forEach((t) => clearTimeout(t));
}
private retrieveState(device: Device): void {
/**
* Retrieve state of a device in a debounced manner, this function is called on a 'deviceAnnounce' which a
* device can send multiple times after each other.
*/
if (device.definition && !device.interviewing && !this.retrieveStateDebouncers[device.ieeeAddr]) {
this.retrieveStateDebouncers[device.ieeeAddr] = debounce(async () => {
try {
logger.debug(`Retrieving state of '${device.name}' after reconnect`);
// Color and color temperature converters do both, only needs to be called once.
const keySet = [['state'], ['brightness'], ['color', 'color_temp']];
for (const keys of keySet) {
const converter = device.definition.toZigbee.find((c) => c.key.find((k) => keys.includes(k)));
await converter?.convertGet?.(device.endpoint(), keys[0],
{message: this.state.get(device.ieeeAddr) || {}, mapped: device.definition});
}
} catch (error) {
logger.error(`Failed to read state of '${device.name}' after reconnect (${error.message})`);
}
}, seconds(2));
}
this.retrieveStateDebouncers[device.ieeeAddr]?.();
}
}
// TODO_finished: : change class to export default
module.exports = Availability;