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TypeScript

// biome-ignore assist/source/organizeImports: import mocks first
import {afterAll, beforeAll, beforeEach, describe, expect, it, vi} from "vitest";
import * as data from "../mocks/data";
import {mockLogger} from "../mocks/logger";
import {events as mockMQTTEvents, mockMQTTPublishAsync} from "../mocks/mqtt";
import * as mockSleep from "../mocks/sleep";
import {flushPromises} from "../mocks/utils";
import {devices, events as mockZHEvents} from "../mocks/zigbeeHerdsman";
import stringify from "json-stable-stringify-without-jsonify";
import {Controller} from "../../lib/controller";
import * as settings from "../../lib/util/settings";
const mocksClear = [mockMQTTPublishAsync, mockLogger.warning, mockLogger.debug];
describe("Extension: Receive", () => {
let controller: Controller;
beforeAll(async () => {
vi.useFakeTimers();
controller = new Controller(vi.fn(), vi.fn());
mockSleep.mock();
await controller.start();
await vi.runOnlyPendingTimersAsync();
});
beforeEach(() => {
controller.state.clear();
data.writeDefaultConfiguration();
settings.reRead();
for (const mock of mocksClear) mock.mockClear();
delete devices.WXKG11LM.linkquality;
});
afterAll(async () => {
mockSleep.restore();
await controller?.stop();
await flushPromises();
vi.useRealTimers();
});
it("Should handle a zigbee message", async () => {
const device = devices.WXKG11LM;
device.linkquality = 10;
const data = {onOff: 1};
const payload = {data, cluster: "genOnOff", device, endpoint: device.getEndpoint(1), type: "attributeReport", linkquality: 10};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync).toHaveBeenCalledWith("zigbee2mqtt/button", stringify({action: "single", linkquality: 10}), {
retain: false,
qos: 0,
});
});
it("Should handle a zigbee message which uses ep (left)", async () => {
const device = devices.WXKG02LM_rev1;
const data = {onOff: 1};
const payload = {data, cluster: "genOnOff", device, endpoint: device.getEndpoint(1), type: "attributeReport", linkquality: 10};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/button_double_key");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({action: "single_left"});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 0, retain: false});
});
it("Should handle a zigbee message which uses ep (right)", async () => {
const device = devices.WXKG02LM_rev1;
const data = {onOff: 1};
const payload = {data, cluster: "genOnOff", device, endpoint: device.getEndpoint(2), type: "attributeReport", linkquality: 10};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/button_double_key");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({action: "single_right"});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 0, retain: false});
});
it("Should handle a zigbee message with default precision", async () => {
const device = devices.WSDCGQ11LM;
const data = {measuredValue: -85};
const payload = {
data,
cluster: "msTemperatureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/weather_sensor");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({temperature: -0.85});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 1, retain: false});
});
it("Should allow to invert cover", async () => {
const device = devices.J1_cover;
// Non-inverted (open = 100, close = 0)
await mockZHEvents.message({
data: {currentPositionLiftPercentage: 90, currentPositionTiltPercentage: 80},
cluster: "closuresWindowCovering",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
});
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync).toHaveBeenCalledWith("zigbee2mqtt/J1_cover", stringify({position: 10, tilt: 20, state: "OPEN"}), {
retain: false,
qos: 0,
});
// Inverted
mockMQTTPublishAsync.mockClear();
settings.set(["devices", device.ieeeAddr, "invert_cover"], true);
await mockZHEvents.message({
data: {currentPositionLiftPercentage: 90, currentPositionTiltPercentage: 80},
cluster: "closuresWindowCovering",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
});
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync).toHaveBeenCalledWith("zigbee2mqtt/J1_cover", stringify({position: 90, tilt: 80, state: "OPEN"}), {
retain: false,
qos: 0,
});
});
it("Should allow to disable the legacy integration", async () => {
const device = devices.WXKG11LM;
settings.set(["devices", device.ieeeAddr, "legacy"], false);
const data = {onOff: 1};
const payload = {data, cluster: "genOnOff", device, endpoint: device.getEndpoint(1), type: "attributeReport", linkquality: 10};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync).toHaveBeenCalledWith("zigbee2mqtt/button", stringify({action: "single"}), {retain: false, qos: 0});
});
it("Should debounce messages", async () => {
const device = 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 mockZHEvents.message(payload1);
const data2 = {measuredValue: 1};
const payload2 = {
data: data2,
cluster: "msRelativeHumidity",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
};
await mockZHEvents.message(payload2);
const data3 = {measuredValue: 2};
const payload3 = {
data: data3,
cluster: "msPressureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
};
await mockZHEvents.message(payload3);
await flushPromises();
vi.advanceTimersByTime(50);
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(0);
vi.runOnlyPendingTimers();
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(2);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/weather_sensor");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({temperature: 0.08, humidity: 0.01, pressure: 2});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 1, retain: false});
expect(mockMQTTPublishAsync.mock.calls[1][0]).toStrictEqual("zigbee2mqtt/bridge/health");
});
it("Should debounce and retain messages when set via device_options", async () => {
const device = 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 mockZHEvents.message(payload1);
const data2 = {measuredValue: 1};
const payload2 = {
data: data2,
cluster: "msRelativeHumidity",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
};
await mockZHEvents.message(payload2);
const data3 = {measuredValue: 2};
const payload3 = {
data: data3,
cluster: "msPressureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
};
await mockZHEvents.message(payload3);
await flushPromises();
vi.advanceTimersByTime(50);
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(0);
vi.runOnlyPendingTimers();
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(2);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/weather_sensor");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({temperature: 0.08, humidity: 0.01, pressure: 2});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 1, retain: true});
expect(mockMQTTPublishAsync.mock.calls[1][0]).toStrictEqual("zigbee2mqtt/bridge/health");
});
it("Should debounce messages only with the same payload values for provided debounce_ignore keys", async () => {
const device = 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 mockZHEvents.message(tempMsg);
const pressureMsg = {
data: {measuredValue: 2},
cluster: "msPressureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 13,
};
await mockZHEvents.message(pressureMsg);
const tempMsg2 = {
data: {measuredValue: 7},
cluster: "msTemperatureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 13,
};
await mockZHEvents.message(tempMsg2);
const humidityMsg = {
data: {measuredValue: 3},
cluster: "msRelativeHumidity",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 13,
};
await mockZHEvents.message(humidityMsg);
await flushPromises();
vi.advanceTimersByTime(50);
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({temperature: 0.08, pressure: 2});
vi.runOnlyPendingTimers();
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(3);
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[1][1])).toStrictEqual({temperature: 0.07, pressure: 2, humidity: 0.03});
expect(mockMQTTPublishAsync.mock.calls[2][0]).toStrictEqual("zigbee2mqtt/bridge/health");
});
it("Should NOT publish old messages from State cache during debouncing", async () => {
// Summary:
// First send multiple measurements to device that is debouncing. Make sure only one message is sent out to mockMQTT. This also ensures first message is cached to "State".
// Then send another measurement to that same device and trigger asynchronous event to push data from Cache. Newest value should be sent out.
const device = devices.WSDCGQ11LM;
settings.set(["devices", device.ieeeAddr, "debounce"], 0.1);
await mockZHEvents.message({
data: {measuredValue: 8},
cluster: "msTemperatureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
});
await mockZHEvents.message({
data: {measuredValue: 1},
cluster: "msRelativeHumidity",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
});
await mockZHEvents.message({
data: {measuredValue: 2},
cluster: "msPressureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
});
await flushPromises();
vi.advanceTimersByTime(50);
// Test that measurements are combined(=debounced)
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(0);
vi.runOnlyPendingTimers();
// Test that only one MQTT is sent out and test its values.
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1 + 1 /* "bridge/health" */);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/weather_sensor");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({temperature: 0.08, humidity: 0.01, pressure: 2});
expect(mockMQTTPublishAsync.mock.calls[1][0]).toStrictEqual("zigbee2mqtt/bridge/health");
// Send another Zigbee message...
await mockZHEvents.message({
data: {measuredValue: 9},
cluster: "msTemperatureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
});
const realDevice = controller.zigbee.resolveEntity(device);
// Trigger asynchronous event while device is "debouncing" to trigger Message to be sent out from State cache.
await controller.publishEntityState(realDevice, {});
vi.runOnlyPendingTimers();
// Total of 3 messages should have triggered.
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(5);
expect(mockMQTTPublishAsync.mock.calls[1][0]).toStrictEqual("zigbee2mqtt/bridge/health");
// Test that message pushed by asynchronous message contains NEW measurement and not old.
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[2][1])).toStrictEqual({temperature: 0.09, humidity: 0.01, pressure: 2});
// Test that messages after debouncing contains NEW measurement and not old.
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[3][1])).toStrictEqual({temperature: 0.09, humidity: 0.01, pressure: 2});
expect(mockMQTTPublishAsync.mock.calls[4][0]).toStrictEqual("zigbee2mqtt/bridge/health");
});
it("Should throttle multiple messages from spamming devices", async () => {
const device = devices.SPAMMER;
const throttle_for_testing = 1;
settings.set(["device_options", "throttle"], throttle_for_testing);
settings.set(["device_options", "retain"], true);
settings.set(["devices", device.ieeeAddr, "friendly_name"], "spammer1");
const data1 = {measuredValue: 1};
const payload1 = {
data: data1,
cluster: "msTemperatureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
};
await mockZHEvents.message(payload1);
const data2 = {measuredValue: 2};
const payload2 = {
data: data2,
cluster: "msTemperatureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
};
await mockZHEvents.message(payload2);
const data3 = {measuredValue: 3};
const payload3 = {
data: data3,
cluster: "msTemperatureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
};
await mockZHEvents.message(payload3);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/spammer1");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({temperature: 0.01});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 0, retain: true});
// Now we try after elapsed time to see if it publishes next message
const timeshift = throttle_for_testing * 2000;
vi.advanceTimersByTime(timeshift);
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(2);
await flushPromises();
expect(mockMQTTPublishAsync.mock.calls[1][0]).toStrictEqual("zigbee2mqtt/spammer1");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[1][1])).toStrictEqual({temperature: 0.03});
expect(mockMQTTPublishAsync.mock.calls[1][2]).toStrictEqual({qos: 0, retain: true});
const data4 = {measuredValue: 4};
const payload4 = {
data: data4,
cluster: "msTemperatureMeasurement",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
};
await mockZHEvents.message(payload4);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(3);
expect(mockMQTTPublishAsync.mock.calls[2][0]).toStrictEqual("zigbee2mqtt/spammer1");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[2][1])).toStrictEqual({temperature: 0.04});
expect(mockMQTTPublishAsync.mock.calls[2][2]).toStrictEqual({qos: 0, retain: true});
});
it("Shouldnt republish old state", async () => {
// https://github.com/Koenkk/zigbee2mqtt/issues/3572
const device = devices.bulb;
settings.set(["devices", device.ieeeAddr, "debounce"], 0.1);
await mockZHEvents.message({
data: {onOff: 0},
cluster: "genOnOff",
device,
endpoint: device.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
});
await mockMQTTEvents.message("zigbee2mqtt/bulb/set", stringify({state: "ON"}));
await flushPromises();
vi.runOnlyPendingTimers();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(2 + 1);
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({state: "ON"});
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[1][1])).toStrictEqual({state: "ON"});
expect(mockMQTTPublishAsync.mock.calls[2][0]).toStrictEqual("zigbee2mqtt/bridge/health");
});
it("Should handle a zigbee message with 1 precision", async () => {
const device = 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 mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/weather_sensor");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({temperature: -0.8});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 1, retain: false});
});
it("Should handle a zigbee message with 0 precision", async () => {
const device = 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 mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/weather_sensor");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({temperature: -1});
expect(mockMQTTPublishAsync.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 = 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 mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/weather_sensor");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({temperature: -0.8});
expect(mockMQTTPublishAsync.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 = 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 mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/weather_sensor");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({temperature: -1});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 1, retain: false});
});
it("Should handle a zigbee message with voltage 2990", async () => {
const device = devices.WXKG02LM_rev1;
const data = {65281: {1: 2990}};
const payload = {data, cluster: "genBasic", device, endpoint: device.getEndpoint(1), type: "attributeReport", linkquality: 10};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/button_double_key");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({battery: 93, voltage: 2990});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 0, retain: false});
});
it("Should publish 1 message when converted twice", async () => {
const device = devices.RTCGQ11LM;
const data = {65281: {1: 3045, 3: 19, 5: 35, 6: [0, 3], 11: 381, 100: 0}};
const payload = {data, cluster: "genBasic", device, endpoint: device.getEndpoint(1), type: "attributeReport", linkquality: 10};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/occupancy_sensor");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({
battery: 100,
illuminance: 381,
voltage: 3045,
device_temperature: 19,
power_outage_count: 34,
});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 0, retain: false});
});
it("Should publish 1 message when converted twice", async () => {
const device = devices.RTCGQ11LM;
const data = {9999: {1: 3045}};
const payload = {data, cluster: "genBasic", device, endpoint: device.getEndpoint(1), type: "attributeReport", linkquality: 10};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(0);
});
it("Should publish last_seen epoch", async () => {
const device = devices.WXKG02LM_rev1;
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 mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/button_double_key");
expect(typeof JSON.parse(mockMQTTPublishAsync.mock.calls[0][1]).last_seen).toBe("number");
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 0, retain: false});
});
it("Should publish last_seen ISO_8601", async () => {
const device = devices.WXKG02LM_rev1;
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 mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/button_double_key");
expect(typeof JSON.parse(mockMQTTPublishAsync.mock.calls[0][1]).last_seen).toBe("string");
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 0, retain: false});
});
it("Should publish last_seen ISO_8601_local", async () => {
const device = devices.WXKG02LM_rev1;
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 mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/button_double_key");
expect(typeof JSON.parse(mockMQTTPublishAsync.mock.calls[0][1]).last_seen).toBe("string");
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 0, retain: false});
});
it("Should handle messages from Xiaomi router devices", async () => {
const device = devices.ZNCZ02LM;
const data = {onOff: 1};
const payload = {data, cluster: "genOnOff", device, endpoint: device.getEndpoint(1), type: "attributeReport", linkquality: 20};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(2);
expect(mockMQTTPublishAsync).toHaveBeenCalledWith("zigbee2mqtt/power_plug", stringify({state: "ON"}), {retain: false, qos: 0});
expect(mockMQTTPublishAsync).toHaveBeenCalledWith("zigbee2mqtt/switch_group", stringify({state: "ON"}), {retain: false, qos: 0});
});
it("Should not handle messages from coordinator", async () => {
const device = devices.coordinator;
const data = {onOff: 1};
const payload = {data, cluster: "genOnOff", device, endpoint: device.getEndpoint(1), type: "attributeReport", linkquality: 10};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(0);
});
it("Should not handle messages from still interviewing devices with unknown definition", async () => {
const device = devices.interviewing;
const data = {onOff: 1};
mockLogger.debug.mockClear();
const payload = {data, cluster: "genOnOff", device, endpoint: device.getEndpoint(1), type: "attributeReport", linkquality: 10};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(0);
expect(mockLogger.debug).toHaveBeenCalledWith("Skipping message, still interviewing");
});
it("Should handle a command", async () => {
const device = devices.E1743;
const data = {};
const payload = {
data,
cluster: "genLevelCtrl",
device,
endpoint: device.getEndpoint(1),
type: "commandStopWithOnOff",
linkquality: 10,
meta: {zclTransactionSequenceNumber: 1},
};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/ikea_onoff");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({action: "brightness_stop"});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 0, retain: false});
});
it("Should add elapsed", async () => {
settings.set(["advanced", "elapsed"], true);
const device = devices.E1743;
const payload = {data: {}, cluster: "genLevelCtrl", device, endpoint: device.getEndpoint(1), type: "commandStopWithOnOff"};
vi.spyOn(Date, "now").mockReturnValueOnce(150).mockReturnValueOnce(200);
await mockZHEvents.message({...payload, meta: {zclTransactionSequenceNumber: 2}});
await flushPromises();
await mockZHEvents.message({...payload, meta: {zclTransactionSequenceNumber: 3}});
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(2);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/ikea_onoff");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({action: "brightness_stop"});
expect(mockMQTTPublishAsync.mock.calls[0][2]).toStrictEqual({qos: 0, retain: false});
expect(mockMQTTPublishAsync.mock.calls[1][0]).toStrictEqual("zigbee2mqtt/ikea_onoff");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[1][1])).toMatchObject({action: "brightness_stop"});
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[1][1]).elapsed).toBe(50);
expect(mockMQTTPublishAsync.mock.calls[1][2]).toStrictEqual({qos: 0, retain: false});
});
it("Should log when message is from supported device but has no converters", async () => {
const device = devices.ZNCZ02LM;
const data = {inactiveText: "hello"};
const payload = {data, cluster: "genBinaryOutput", device, endpoint: device.getEndpoint(1), type: "attributeReport", linkquality: 20};
await mockZHEvents.message(payload);
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(0);
expect(mockLogger.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: 6648};
const SP600_NEW = devices.SP600_NEW;
await mockZHEvents.message({
data,
cluster: "seMetering",
device: SP600_NEW,
endpoint: SP600_NEW.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
meta: {zclTransactionSequenceNumber: 1},
});
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/SP600_NEW");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({energy: 0.66, power: 49.6});
mockMQTTPublishAsync.mockClear();
const SP600_OLD = devices.SP600_OLD;
await mockZHEvents.message({
data,
cluster: "seMetering",
device: SP600_OLD,
endpoint: SP600_OLD.getEndpoint(1),
type: "attributeReport",
linkquality: 10,
meta: {zclTransactionSequenceNumber: 2},
});
await flushPromises();
expect(mockMQTTPublishAsync).toHaveBeenCalledTimes(1);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/SP600_OLD");
expect(JSON.parse(mockMQTTPublishAsync.mock.calls[0][1])).toStrictEqual({energy: 6.65, power: 496});
});
it("Should emit DevicesChanged event when a converter announces changed exposes", async () => {
const device = devices["BMCT-SLZ"];
const data = {deviceMode: 0};
const payload = {data, cluster: "boschEnergyDevice", device, endpoint: device.getEndpoint(1), type: "attributeReport", linkquality: 10};
await mockZHEvents.message(payload);
expect(mockMQTTPublishAsync.mock.calls[0][0]).toStrictEqual("zigbee2mqtt/bridge/devices");
});
});