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index.js
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index.js
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'use strict';
const configureKey = require('./lib/configureKey');
const exposes = require('./lib/exposes');
const toZigbee = require('./converters/toZigbee');
const fromZigbee = require('./converters/fromZigbee');
const assert = require('assert');
const tz = require('./converters/toZigbee');
const fs = require('fs');
const path = require('path');
// key: zigbeeModel, value: array of definitions (most of the times 1)
const lookup = new Map();
const definitions = [];
function arrayEquals(as, bs) {
if (as.length !== bs.length) return false;
for (const a of as) if (!bs.includes(a)) return false;
return true;
}
function addToLookup(zigbeeModel, definition) {
zigbeeModel = zigbeeModel ? zigbeeModel.toLowerCase() : null;
if (!lookup.has(zigbeeModel)) {
lookup.set(zigbeeModel, []);
}
if (!lookup.get(zigbeeModel).includes(definition)) {
lookup.get(zigbeeModel).push(definition);
}
}
function getFromLookup(zigbeeModel) {
zigbeeModel = zigbeeModel ? zigbeeModel.toLowerCase() : null;
if (lookup.has(zigbeeModel)) {
return lookup.get(zigbeeModel);
}
zigbeeModel = zigbeeModel ? zigbeeModel.replace(/\0.*$/g, '').trim() : null;
return lookup.get(zigbeeModel);
}
const converterRequiredFields = {
model: 'String',
vendor: 'String',
description: 'String',
fromZigbee: 'Array',
toZigbee: 'Array',
exposes: 'Array',
};
function validateDefinition(definition) {
for (const [field, expectedType] of Object.entries(converterRequiredFields)) {
assert.notStrictEqual(null, definition[field], `Converter field ${field} is null`);
assert.notStrictEqual(undefined, definition[field], `Converter field ${field} is undefined`);
const msg = `Converter field ${field} expected type doenst match to ${definition[field]}`;
assert.strictEqual(definition[field].constructor.name, expectedType, msg);
}
}
function addDefinition(definition) {
const {extend, ...definitionWithoutExtend} = definition;
if (extend) {
if (extend.hasOwnProperty('configure') && definition.hasOwnProperty('configure')) {
console.log(`'${definition.model}' has configure in extend and device, this is not allowed`);
}
definition = {
...extend,
...definitionWithoutExtend,
meta: extend.meta || definitionWithoutExtend.meta ? {
...extend.meta,
...definitionWithoutExtend.meta,
} : undefined,
};
}
if (definition.toZigbee.length > 0) {
definition.toZigbee.push(tz.scene_store, tz.scene_recall, tz.scene_add, tz.scene_remove, tz.scene_remove_all, tz.read, tz.write);
}
if (definition.exposes) {
definition.exposes = definition.exposes.concat([exposes.presets.linkquality()]);
}
validateDefinition(definition);
definitions.push(definition);
if (definition.hasOwnProperty('fingerprint')) {
for (const fingerprint of definition.fingerprint) {
addToLookup(fingerprint.modelID, definition);
}
}
if (definition.hasOwnProperty('zigbeeModel')) {
for (const zigbeeModel of definition.zigbeeModel) {
addToLookup(zigbeeModel, definition);
}
}
}
// Load all definitions from devices folder
const devicesPath = path.join(__dirname, 'devices');
for (const file of fs.readdirSync(devicesPath)) {
for (const definition of require(path.join(devicesPath, file))) {
addDefinition(definition);
}
}
function findByZigbeeModel(zigbeeModel) {
if (!zigbeeModel) {
return null;
}
const candidates = getFromLookup(zigbeeModel);
// Multiple candidates possible, to use external converters in priority, use last one.
return candidates ? candidates[candidates.length-1] : null;
}
function findByDevice(device) {
if (!device) {
return null;
}
const candidates = getFromLookup(device.modelID);
if (!candidates) {
return null;
} else if (candidates.length === 1 && candidates[0].hasOwnProperty('zigbeeModel')) {
return candidates[0];
} else {
// Multiple candidates possible, to use external converters in priority, reverse the order of candidates before searching.
const reversedCandidates = candidates.reverse();
// First try to match based on fingerprint, return the first matching one.
for (const candidate of reversedCandidates) {
if (candidate.hasOwnProperty('fingerprint')) {
for (const fingerprint of candidate.fingerprint) {
if (fingerprintMatch(fingerprint, device)) {
return candidate;
}
}
}
}
// Match based on fingerprint failed, return first matching definition based on zigbeeModel
for (const candidate of reversedCandidates) {
if (candidate.hasOwnProperty('zigbeeModel') && candidate.zigbeeModel.includes(device.modelID)) {
return candidate;
}
}
}
return null;
}
function fingerprintMatch(fingerprint, device) {
let match =
(!fingerprint.applicationVersion || device.applicationVersion === fingerprint.applicationVersion) &&
(!fingerprint.manufacturerID || device.manufacturerID === fingerprint.manufacturerID) &&
(!fingerprint.type || device.type === fingerprint.type) &&
(!fingerprint.dateCode || device.dateCode === fingerprint.dateCode) &&
(!fingerprint.hardwareVersion || device.hardwareVersion === fingerprint.hardwareVersion) &&
(!fingerprint.manufacturerName || device.manufacturerName === fingerprint.manufacturerName) &&
(!fingerprint.modelID || device.modelID === fingerprint.modelID) &&
(!fingerprint.powerSource || device.powerSource === fingerprint.powerSource) &&
(!fingerprint.softwareBuildID || device.softwareBuildID === fingerprint.softwareBuildID) &&
(!fingerprint.stackVersion || device.stackVersion === fingerprint.stackVersion) &&
(!fingerprint.zclVersion || device.zclVersion === fingerprint.zclVersion) &&
(!fingerprint.endpoints ||
arrayEquals(device.endpoints.map((e) => e.ID), fingerprint.endpoints.map((e) => e.ID)));
if (match && fingerprint.endpoints) {
for (const fingerprintEndpoint of fingerprint.endpoints) {
const deviceEndpoint = device.getEndpoint(fingerprintEndpoint.ID);
match = match &&
(!fingerprintEndpoint.deviceID || deviceEndpoint.deviceID === fingerprintEndpoint.deviceID) &&
(!fingerprintEndpoint.profileID || deviceEndpoint.profileID === fingerprintEndpoint.profileID) &&
(!fingerprintEndpoint.inputClusters ||
arrayEquals(deviceEndpoint.inputClusters, fingerprintEndpoint.inputClusters)) &&
(!fingerprintEndpoint.outputClusters ||
arrayEquals(deviceEndpoint.outputClusters, fingerprintEndpoint.outputClusters));
}
}
return match;
}
module.exports = {
getConfigureKey: configureKey.getConfigureKey,
devices: definitions,
exposes,
definitions,
findByZigbeeModel, // Legacy method, use findByDevice instead.
findByDevice,
toZigbeeConverters: toZigbee,
fromZigbeeConverters: fromZigbee,
addDeviceDefinition: addDefinition,
// Can be used to handle events for devices which are not fully paired yet (no modelID).
// Example usecase: https://github.com/Koenkk/zigbee2mqtt/issues/2399#issuecomment-570583325
onEvent: async (type, data, device) => {
// support Legrand security protocol
// when pairing, a powered device will send a read frame to every device on the network
// it expects at least one answer. The payload contains the number of seconds
// since when the device is powered. If the value is too high, it will leave & not pair
// 23 works, 200 doesn't
if (data.meta && data.meta.manufacturerCode === 0x1021 && type === 'message' && data.type === 'read' &&
data.cluster === 'genBasic' && data.data && data.data.includes(61440)) {
const endpoint = device.getEndpoint(1);
const options = {manufacturerCode: 0x1021, disableDefaultResponse: true};
const payload = {0xf00: {value: 23, type: 35}};
await endpoint.readResponse('genBasic', data.meta.zclTransactionSequenceNumber, payload, options);
}
},
};