zigbee2mqtt/test/receive.test.js
2020-04-15 22:34:59 +02:00

440 lines
26 KiB
JavaScript
Executable File

const data = require('./stub/data');
const logger = require('./stub/logger');
const zigbeeHerdsman = require('./stub/zigbeeHerdsman');
const MQTT = require('./stub/mqtt');
const settings = require('../lib/util/settings');
const Controller = require('../lib/controller');
const flushPromises = () => new Promise(setImmediate);
const mocksClear = [MQTT.publish, logger.warn, logger.debug];
describe('Receive', () => {
let controller;
beforeEach(async () => {
jest.useRealTimers();
data.writeDefaultConfiguration();
settings._reRead();
data.writeEmptyState();
controller = new Controller();
await controller.start();
mocksClear.forEach((m) => m.mockClear());
});
it('Should handle a zigbee message', async () => {
const device = zigbeeHerdsman.devices.WXKG11LM;
const data = {onOff: 1}
const payload = {data, cluster: 'genOnOff', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/button');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({click: 'single', linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should handle a zigbee message which uses ep (left)', async () => {
const device = zigbeeHerdsman.devices.WXKG02LM;
const data = {onOff: 1}
const payload = {data, cluster: 'genOnOff', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/button_double_key');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({click: 'left', linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should handle a zigbee message which uses ep (right)', async () => {
const device = zigbeeHerdsman.devices.WXKG02LM;
const data = {onOff: 1}
const payload = {data, cluster: 'genOnOff', device, endpoint: device.getEndpoint(2), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/button_double_key');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({click: 'right', linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should handle a zigbee message with default precision', async () => {
const device = zigbeeHerdsman.devices.WSDCGQ11LM;
const data = {measuredValue: -85}
const payload = {data, cluster: 'msTemperatureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/weather_sensor');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({temperature: -0.85, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 1, "retain": false});
});
it('Should debounce messages', async () => {
jest.useFakeTimers();
const device = zigbeeHerdsman.devices.WSDCGQ11LM;
settings.set(['devices', device.ieeeAddr, 'debounce'], 0.1);
const data1 = {measuredValue: 8}
const payload1 = {data: data1, cluster: 'msTemperatureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload1);
const data2 = {measuredValue: 1}
const payload2 = {data: data2, cluster: 'msRelativeHumidity', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload2);
const data3 = {measuredValue: 2}
const payload3 = {data: data3, cluster: 'msPressureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload3);
await flushPromises();
jest.advanceTimersByTime(50);
expect(MQTT.publish).toHaveBeenCalledTimes(0);
jest.runAllTimers();
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/weather_sensor');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({temperature: 0.08, humidity: 0.01, pressure: 2, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 1, "retain": false});
});
it('Should debounce and retain messages when set via device_options', async () => {
jest.useFakeTimers();
const device = zigbeeHerdsman.devices.WSDCGQ11LM;
settings.set(['device_options', 'debounce'], 0.1);
settings.set(['device_options', 'retain'], true);
delete settings.get().devices['0x0017880104e45522']['retain'];
const data1 = {measuredValue: 8}
const payload1 = {data: data1, cluster: 'msTemperatureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload1);
const data2 = {measuredValue: 1}
const payload2 = {data: data2, cluster: 'msRelativeHumidity', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload2);
const data3 = {measuredValue: 2}
const payload3 = {data: data3, cluster: 'msPressureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload3);
await flushPromises();
jest.advanceTimersByTime(50);
expect(MQTT.publish).toHaveBeenCalledTimes(0);
jest.runAllTimers();
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/weather_sensor');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({temperature: 0.08, humidity: 0.01, pressure: 2, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 1, "retain": true});
});
it('Should debounce messages only with the same payload values for provided debounce_ignore keys', async () => {
jest.useFakeTimers();
const device = zigbeeHerdsman.devices.WSDCGQ11LM;
settings.set(['devices', device.ieeeAddr, 'debounce'], 0.1);
settings.set(['devices', device.ieeeAddr, 'debounce_ignore'], ['temperature']);
const tempMsg = {data: {measuredValue: 8}, cluster: 'msTemperatureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 13};
await zigbeeHerdsman.events.message(tempMsg);
const pressureMsg = {data: {measuredValue: 2}, cluster: 'msPressureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 13};
await zigbeeHerdsman.events.message(pressureMsg);
const tempMsg2 = {data: {measuredValue: 7}, cluster: 'msTemperatureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 13};
await zigbeeHerdsman.events.message(tempMsg2);
const humidityMsg = {data: {measuredValue: 3}, cluster: 'msRelativeHumidity', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 13};
await zigbeeHerdsman.events.message(humidityMsg);
await flushPromises();
jest.advanceTimersByTime(50);
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({temperature: 0.08, pressure: 2, linkquality: 13});
jest.runAllTimers();
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(2);
expect(JSON.parse(MQTT.publish.mock.calls[1][1])).toStrictEqual({temperature: 0.07, pressure: 2, humidity: 0.03, linkquality: 13});
});
it('Should handle a zigbee message with 1 precision', async () => {
const device = zigbeeHerdsman.devices.WSDCGQ11LM;
settings.set(['devices', device.ieeeAddr, 'temperature_precision'], 1);
const data = {measuredValue: -85}
const payload = {data, cluster: 'msTemperatureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/weather_sensor');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({temperature: -0.8, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 1, "retain": false});
});
it('Should handle a zigbee message with 0 precision', async () => {
const device = zigbeeHerdsman.devices.WSDCGQ11LM;
settings.set(['devices', device.ieeeAddr, 'temperature_precision'], 0);
const data = {measuredValue: -85}
const payload = {data, cluster: 'msTemperatureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/weather_sensor');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({temperature: -1, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 1, "retain": false});
});
it('Should handle a zigbee message with 1 precision when set via device_options', async () => {
const device = zigbeeHerdsman.devices.WSDCGQ11LM;
settings.set(['device_options', 'temperature_precision'], 1);
const data = {measuredValue: -85}
const payload = {data, cluster: 'msTemperatureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/weather_sensor');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({temperature: -0.8, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 1, "retain": false});
});
it('Should handle a zigbee message with 2 precision when overrides device_options', async () => {
const device = zigbeeHerdsman.devices.WSDCGQ11LM;
settings.set(['device_options', 'temperature_precision'], 1);
settings.set(['devices', device.ieeeAddr, 'temperature_precision'], 0);
const data = {measuredValue: -85}
const payload = {data, cluster: 'msTemperatureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/weather_sensor');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({temperature: -1, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 1, "retain": false});
});
it('WSDCGQ11LM pressure precision from non ZCL properties', async () => {
const device = zigbeeHerdsman.devices.WSDCGQ11LM;
settings.set(['devices', device.ieeeAddr, 'temperature_precision'], 1);
MQTT.publish.mockClear();
let payload = {data: {"65281":{"1":2985,"4":5032,"5":9,"6":[0,1],"10":0,"100":2345,"101":4608,"102":91552}}, cluster: 'genBasic', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({"battery":91,"voltage":2985,"temperature":23.5,"humidity":46.08,"pressure":915.5,"linkquality":10});
MQTT.publish.mockClear();
payload = {data: {"16":9354,"20":-1,"measuredValue":915}, cluster: 'msPressureMeasurement', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({"battery":91,"voltage":2985,"temperature":23.5,"humidity":46.08,"pressure":935.4,"linkquality":10});
});
it('Should handle a zigbee message with voltage 3010', async () => {
const device = zigbeeHerdsman.devices.WXKG02LM;
const data = {'65281': {'1': 3010}}
const payload = {data, cluster: 'genBasic', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/button_double_key');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({battery: 100, voltage: 3010, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should handle a zigbee message with voltage 2850', async () => {
const device = zigbeeHerdsman.devices.WXKG02LM;
const data = {'65281': {'1': 2850}}
const payload = {data, cluster: 'genBasic', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/button_double_key');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({battery: 35, voltage: 2850, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should handle a zigbee message with voltage 2650', async () => {
const device = zigbeeHerdsman.devices.WXKG02LM;
const data = {'65281': {'1': 2650}}
const payload = {data, cluster: 'genBasic', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/button_double_key');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({battery: 14, voltage: 2650, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should handle a zigbee message with voltage 2000', async () => {
const device = zigbeeHerdsman.devices.WXKG02LM;
const data = {'65281': {'1': 2000}}
const payload = {data, cluster: 'genBasic', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/button_double_key');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({battery: 0, voltage: 2000, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should publish 1 message when converted twice', async () => {
const device = zigbeeHerdsman.devices.RTCGQ11LM;
const data = {'65281': {'1': 3045, '3': 19, '4': 17320, '5': 35, '6': [0, 3], '10': 51107, '11': 381, '100': 0}}
const payload = {data, cluster: 'genBasic', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/occupancy_sensor');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({'battery': 100, 'illuminance': 381, "illuminance_lux": 381, 'voltage': 3045, linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should publish 1 message when converted twice', async () => {
const device = zigbeeHerdsman.devices.RTCGQ11LM;
const data = {'9999': {'1': 3045}};
const payload = {data, cluster: 'genBasic', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(0);
});
it('Should publish last_seen epoch', async () => {
const device = zigbeeHerdsman.devices.WXKG02LM;
settings.set(['advanced', 'last_seen'], 'epoch');
const data = {onOff: 1};
const payload = {data, cluster: 'genOnOff', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/button_double_key');
expect(typeof JSON.parse(MQTT.publish.mock.calls[0][1]).last_seen).toBe('number')
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should publish last_seen ISO_8601', async () => {
const device = zigbeeHerdsman.devices.WXKG02LM;
settings.set(['advanced', 'last_seen'], 'ISO_8601');
const data = {onOff: 1};
const payload = {data, cluster: 'genOnOff', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/button_double_key');
expect(typeof JSON.parse(MQTT.publish.mock.calls[0][1]).last_seen).toBe('string')
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should publish last_seen ISO_8601_local', async () => {
const device = zigbeeHerdsman.devices.WXKG02LM;
settings.set(['advanced', 'last_seen'], 'ISO_8601_local');
const data = {onOff: 1};
const payload = {data, cluster: 'genOnOff', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/button_double_key');
expect(typeof JSON.parse(MQTT.publish.mock.calls[0][1]).last_seen).toBe('string')
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should not handle messages forwarded Xiaomi messages', async () => {
const device = zigbeeHerdsman.devices.ZNCZ02LM;
const data = {onOff: 1};
const payload = {data, cluster: 'genOnOff', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10, groupID: 599};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(0);
});
it('Should handle messages from Xiaomi router devices', async () => {
const device = zigbeeHerdsman.devices.ZNCZ02LM;
const data = {onOff: 1};
const payload = {data, cluster: 'genOnOff', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 20};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/power_plug');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({'state': 'ON', linkquality: 20});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should not handle messages from coordinator', async () => {
const device = zigbeeHerdsman.devices.coordinator;
const data = {onOff: 1};
const payload = {data, cluster: 'genOnOff', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(0);
});
it('Should not handle messages from unsupported devices', async () => {
const device = zigbeeHerdsman.devices.unsupported;
const data = {onOff: 1};
const payload = {data, cluster: 'genOnOff', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(0);
});
it('Should not handle messages from still interviewing devices with unknown modelID', async () => {
const device = zigbeeHerdsman.devices.interviewing;
const data = {onOff: 1};
const payload = {data, cluster: 'genOnOff', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(0);
expect(logger.debug).toHaveBeenCalledWith(`Skipping message, modelID is undefined and still interviewing`);
});
it('Should handle a command', async () => {
const device = zigbeeHerdsman.devices.E1743;
const data = {};
const payload = {data, cluster: 'genLevelCtrl', device, endpoint: device.getEndpoint(1), type: 'commandStopWithOnOff', linkquality: 10};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/ikea_onoff');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({'click': 'brightness_stop', linkquality: 10});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
});
it('Should add elapsed', async () => {
settings.set(['advanced', 'elapsed'], true);
const device = zigbeeHerdsman.devices.E1743;
const payload = {data: {}, cluster: 'genLevelCtrl', device, endpoint: device.getEndpoint(1), type: 'commandStopWithOnOff'};
const oldNow = Date.now;
Date.now = jest.fn()
Date.now.mockReturnValue(new Date(150));
await zigbeeHerdsman.events.message(payload);
await flushPromises();
Date.now.mockReturnValue(new Date(200));
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(2);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/ikea_onoff');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({'click': 'brightness_stop'});
expect(MQTT.publish.mock.calls[0][2]).toStrictEqual({"qos": 0, "retain": false});
expect(MQTT.publish.mock.calls[1][0]).toStrictEqual('zigbee2mqtt/ikea_onoff');
expect(JSON.parse(MQTT.publish.mock.calls[1][1])).toMatchObject({'click': 'brightness_stop'});
expect(JSON.parse(MQTT.publish.mock.calls[1][1]).elapsed).toBe(50);
expect(MQTT.publish.mock.calls[1][2]).toStrictEqual({"qos": 0, "retain": false});
Date.now = oldNow;
});
it('Should log when message is from supported device but has no converters', async () => {
const device = zigbeeHerdsman.devices.ZNCZ02LM;
const data = {inactiveText: 'hello'};
const payload = {data, cluster: 'genBinaryOutput', device, endpoint: device.getEndpoint(1), type: 'attributeReport', linkquality: 20};
await zigbeeHerdsman.events.message(payload);
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(0);
expect(logger.debug).toHaveBeenCalledWith('No converter available for \'ZNCZ02LM\' with cluster \'genBinaryOutput\' and type \'attributeReport\' and data \'{"inactiveText":"hello"}\'');
});
it('Should report correct energy and power values for different versions of SP600', async () => {
// https://github.com/Koenkk/zigbee-herdsman-converters/issues/915, OLD and NEW use different date code
// divisor of OLD is not correct and therefore underreports by factor 10.
const data = {instantaneousDemand:496,currentSummDelivered:[0,6648]}
const SP600_NEW = zigbeeHerdsman.devices.SP600_NEW;
await zigbeeHerdsman.events.message({data, cluster: 'seMetering', device: SP600_NEW, endpoint: SP600_NEW.getEndpoint(1), type: 'attributeReport', linkquality: 10});
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/SP600_NEW');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({energy: 0.66, power: 49.6, linkquality: 10});
MQTT.publish.mockClear();
const SP600_OLD = zigbeeHerdsman.devices.SP600_OLD;
await zigbeeHerdsman.events.message({data, cluster: 'seMetering', device: SP600_OLD, endpoint: SP600_OLD.getEndpoint(1), type: 'attributeReport', linkquality: 10});
await flushPromises();
expect(MQTT.publish).toHaveBeenCalledTimes(1);
expect(MQTT.publish.mock.calls[0][0]).toStrictEqual('zigbee2mqtt/SP600_OLD');
expect(JSON.parse(MQTT.publish.mock.calls[0][1])).toStrictEqual({energy: 6.648, power: 496, linkquality: 10});
});
});