element-web/test/models/Call-test.ts
Timo a26c2d3c78
Add ringing for matrixRTC (#11870)
* Add ringing for matrixRTC
 - since we are using m.mentions we start with the Notifier
 - an event in the Notifier will result in a IncomingCall toast
 -  incomingCallToast is responsible for ringing (as long as one can see the toast it rings)
 This should make sure visual and audio signal are in sync.

Signed-off-by: Timo K <toger5@hotmail.de>

* use typed CallNotifyContent

Signed-off-by: Timo K <toger5@hotmail.de>

* update tests

Signed-off-by: Timo K <toger5@hotmail.de>

* change to callId

Signed-off-by: Timo K <toger5@hotmail.de>

* fix tests

Signed-off-by: Timo K <toger5@hotmail.de>

* only ring in 1:1 calls
notify in rooms < 15 member

Signed-off-by: Timo K <toger5@hotmail.de>

* call_id fallback

Signed-off-by: Timo K <toger5@hotmail.de>

* Update src/Notifier.ts

Co-authored-by: Robin <robin@robin.town>

* review

Signed-off-by: Timo K <toger5@hotmail.de>

* add tests

Signed-off-by: Timo K <toger5@hotmail.de>

* more tests

Signed-off-by: Timo K <toger5@hotmail.de>

* unused import

Signed-off-by: Timo K <toger5@hotmail.de>

* String -> string

Signed-off-by: Timo K <toger5@hotmail.de>

---------

Signed-off-by: Timo K <toger5@hotmail.de>
Co-authored-by: Robin <robin@robin.town>
2023-11-21 17:12:08 +00:00

1040 lines
42 KiB
TypeScript

/*
Copyright 2022 The Matrix.org Foundation C.I.C.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
import EventEmitter from "events";
import { mocked } from "jest-mock";
import { waitFor } from "@testing-library/react";
import {
RoomType,
Room,
RoomEvent,
MatrixEvent,
RoomStateEvent,
PendingEventOrdering,
UNSTABLE_ELEMENT_FUNCTIONAL_USERS,
} from "matrix-js-sdk/src/matrix";
import { Widget } from "matrix-widget-api";
// eslint-disable-next-line no-restricted-imports
import { MatrixRTCSessionManagerEvents } from "matrix-js-sdk/src/matrixrtc/MatrixRTCSessionManager";
// eslint-disable-next-line no-restricted-imports
import { CallMembership } from "matrix-js-sdk/src/matrixrtc/CallMembership";
// eslint-disable-next-line no-restricted-imports
import { MatrixRTCSession, MatrixRTCSessionEvent } from "matrix-js-sdk/src/matrixrtc/MatrixRTCSession";
import type { Mocked } from "jest-mock";
import type { MatrixClient, IMyDevice, RoomMember } from "matrix-js-sdk/src/matrix";
import type { ClientWidgetApi } from "matrix-widget-api";
import {
JitsiCallMemberContent,
Layout,
Call,
CallEvent,
ConnectionState,
JitsiCall,
ElementCall,
} from "../../src/models/Call";
import { stubClient, mkEvent, mkRoomMember, setupAsyncStoreWithClient, mockPlatformPeg } from "../test-utils";
import MediaDeviceHandler, { MediaDeviceKindEnum } from "../../src/MediaDeviceHandler";
import { MatrixClientPeg } from "../../src/MatrixClientPeg";
import WidgetStore from "../../src/stores/WidgetStore";
import { WidgetMessagingStore } from "../../src/stores/widgets/WidgetMessagingStore";
import ActiveWidgetStore, { ActiveWidgetStoreEvent } from "../../src/stores/ActiveWidgetStore";
import { ElementWidgetActions } from "../../src/stores/widgets/ElementWidgetActions";
import SettingsStore from "../../src/settings/SettingsStore";
import { PosthogAnalytics } from "../../src/PosthogAnalytics";
jest.spyOn(MediaDeviceHandler, "getDevices").mockResolvedValue({
[MediaDeviceKindEnum.AudioInput]: [
{ deviceId: "1", groupId: "1", kind: "audioinput", label: "Headphones", toJSON: () => {} },
],
[MediaDeviceKindEnum.VideoInput]: [
{ deviceId: "2", groupId: "2", kind: "videoinput", label: "Built-in webcam", toJSON: () => {} },
],
[MediaDeviceKindEnum.AudioOutput]: [],
});
jest.spyOn(MediaDeviceHandler, "getAudioInput").mockReturnValue("1");
jest.spyOn(MediaDeviceHandler, "getVideoInput").mockReturnValue("2");
const enabledSettings = new Set(["feature_group_calls", "feature_video_rooms", "feature_element_call_video_rooms"]);
jest.spyOn(SettingsStore, "getValue").mockImplementation(
(settingName) => enabledSettings.has(settingName) || undefined,
);
const setUpClientRoomAndStores = (): {
client: Mocked<MatrixClient>;
room: Room;
alice: RoomMember;
bob: RoomMember;
carol: RoomMember;
} => {
stubClient();
const client = mocked<MatrixClient>(MatrixClientPeg.safeGet());
const room = new Room("!1:example.org", client, "@alice:example.org", {
pendingEventOrdering: PendingEventOrdering.Detached,
});
const alice = mkRoomMember(room.roomId, "@alice:example.org");
const bob = mkRoomMember(room.roomId, "@bob:example.org");
const carol = mkRoomMember(room.roomId, "@carol:example.org");
jest.spyOn(room, "getMember").mockImplementation((userId) => {
switch (userId) {
case alice.userId:
return alice;
case bob.userId:
return bob;
case carol.userId:
return carol;
default:
return null;
}
});
jest.spyOn(room, "getMyMembership").mockReturnValue("join");
client.getRoom.mockImplementation((roomId) => (roomId === room.roomId ? room : null));
client.getRoom.mockImplementation((roomId) => (roomId === room.roomId ? room : null));
client.matrixRTC.getRoomSession.mockImplementation((roomId) => {
const session = new EventEmitter() as MatrixRTCSession;
session.memberships = [];
return session;
});
client.getRooms.mockReturnValue([room]);
client.getUserId.mockReturnValue(alice.userId);
client.getDeviceId.mockReturnValue("alices_device");
client.reEmitter.reEmit(room, [RoomStateEvent.Events]);
client.sendStateEvent.mockImplementation(async (roomId, eventType, content, stateKey = "") => {
if (roomId !== room.roomId) throw new Error("Unknown room");
const event = mkEvent({
event: true,
type: eventType,
room: roomId,
user: alice.userId,
skey: stateKey,
content,
});
room.addLiveEvents([event]);
return { event_id: event.getId()! };
});
setupAsyncStoreWithClient(WidgetStore.instance, client);
setupAsyncStoreWithClient(WidgetMessagingStore.instance, client);
return { client, room, alice, bob, carol };
};
const cleanUpClientRoomAndStores = (client: MatrixClient, room: Room) => {
client.reEmitter.stopReEmitting(room, [RoomStateEvent.Events]);
};
const setUpWidget = (
call: Call,
): {
widget: Widget;
messaging: Mocked<ClientWidgetApi>;
audioMutedSpy: jest.SpyInstance<boolean, []>;
videoMutedSpy: jest.SpyInstance<boolean, []>;
} => {
const widget = new Widget(call.widget);
const eventEmitter = new EventEmitter();
const messaging = {
on: eventEmitter.on.bind(eventEmitter),
off: eventEmitter.off.bind(eventEmitter),
once: eventEmitter.once.bind(eventEmitter),
emit: eventEmitter.emit.bind(eventEmitter),
stop: jest.fn(),
transport: {
send: jest.fn(),
reply: jest.fn(),
},
} as unknown as Mocked<ClientWidgetApi>;
WidgetMessagingStore.instance.storeMessaging(widget, call.roomId, messaging);
const audioMutedSpy = jest.spyOn(MediaDeviceHandler, "startWithAudioMuted", "get");
const videoMutedSpy = jest.spyOn(MediaDeviceHandler, "startWithVideoMuted", "get");
return { widget, messaging, audioMutedSpy, videoMutedSpy };
};
const cleanUpCallAndWidget = (
call: Call,
widget: Widget,
audioMutedSpy: jest.SpyInstance<boolean, []>,
videoMutedSpy: jest.SpyInstance<boolean, []>,
) => {
call.destroy();
jest.clearAllMocks();
WidgetMessagingStore.instance.stopMessaging(widget, call.roomId);
audioMutedSpy.mockRestore();
videoMutedSpy.mockRestore();
};
describe("JitsiCall", () => {
mockPlatformPeg({ supportsJitsiScreensharing: () => true });
let client: Mocked<MatrixClient>;
let room: Room;
let alice: RoomMember;
let bob: RoomMember;
let carol: RoomMember;
beforeEach(() => {
({ client, room, alice, bob, carol } = setUpClientRoomAndStores());
jest.spyOn(room, "getType").mockReturnValue(RoomType.ElementVideo);
});
afterEach(() => cleanUpClientRoomAndStores(client, room));
describe("get", () => {
it("finds no calls", () => {
expect(Call.get(room)).toBeNull();
});
it("finds calls", async () => {
await JitsiCall.create(room);
expect(Call.get(room)).toBeInstanceOf(JitsiCall);
});
it("ignores terminated calls", async () => {
await JitsiCall.create(room);
// Terminate the call
const [event] = room.currentState.getStateEvents("im.vector.modular.widgets");
await client.sendStateEvent(room.roomId, "im.vector.modular.widgets", {}, event.getStateKey()!);
expect(Call.get(room)).toBeNull();
});
});
describe("instance in a video room", () => {
let call: JitsiCall;
let widget: Widget;
let messaging: Mocked<ClientWidgetApi>;
let audioMutedSpy: jest.SpyInstance<boolean, []>;
let videoMutedSpy: jest.SpyInstance<boolean, []>;
beforeEach(async () => {
jest.useFakeTimers();
jest.setSystemTime(0);
await JitsiCall.create(room);
const maybeCall = JitsiCall.get(room);
if (maybeCall === null) throw new Error("Failed to create call");
call = maybeCall;
({ widget, messaging, audioMutedSpy, videoMutedSpy } = setUpWidget(call));
mocked(messaging.transport).send.mockImplementation(async (action: string): Promise<any> => {
if (action === ElementWidgetActions.JoinCall) {
messaging.emit(
`action:${ElementWidgetActions.JoinCall}`,
new CustomEvent("widgetapirequest", { detail: {} }),
);
} else if (action === ElementWidgetActions.HangupCall) {
messaging.emit(
`action:${ElementWidgetActions.HangupCall}`,
new CustomEvent("widgetapirequest", { detail: {} }),
);
}
return {};
});
});
afterEach(() => cleanUpCallAndWidget(call, widget, audioMutedSpy, videoMutedSpy));
it("connects muted", async () => {
expect(call.connectionState).toBe(ConnectionState.Disconnected);
audioMutedSpy.mockReturnValue(true);
videoMutedSpy.mockReturnValue(true);
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
expect(messaging.transport.send).toHaveBeenCalledWith(ElementWidgetActions.JoinCall, {
audioInput: null,
videoInput: null,
});
});
it("connects unmuted", async () => {
expect(call.connectionState).toBe(ConnectionState.Disconnected);
audioMutedSpy.mockReturnValue(false);
videoMutedSpy.mockReturnValue(false);
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
expect(messaging.transport.send).toHaveBeenCalledWith(ElementWidgetActions.JoinCall, {
audioInput: "Headphones",
videoInput: "Built-in webcam",
});
});
it("waits for messaging when connecting", async () => {
// Temporarily remove the messaging to simulate connecting while the
// widget is still initializing
WidgetMessagingStore.instance.stopMessaging(widget, room.roomId);
expect(call.connectionState).toBe(ConnectionState.Disconnected);
const connect = call.connect();
expect(call.connectionState).toBe(ConnectionState.Connecting);
WidgetMessagingStore.instance.storeMessaging(widget, room.roomId, messaging);
await connect;
expect(call.connectionState).toBe(ConnectionState.Connected);
});
it("fails to connect if the widget returns an error", async () => {
mocked(messaging.transport).send.mockRejectedValue(new Error("never!!1! >:("));
await expect(call.connect()).rejects.toBeDefined();
});
it("fails to disconnect if the widget returns an error", async () => {
await call.connect();
mocked(messaging.transport).send.mockRejectedValue(new Error("never!!1! >:("));
await expect(call.disconnect()).rejects.toBeDefined();
});
it("handles remote disconnection", async () => {
expect(call.connectionState).toBe(ConnectionState.Disconnected);
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
messaging.emit(
`action:${ElementWidgetActions.HangupCall}`,
new CustomEvent("widgetapirequest", { detail: {} }),
);
await waitFor(() => expect(call.connectionState).toBe(ConnectionState.Disconnected), { interval: 5 });
});
it("handles instant remote disconnection when connecting", async () => {
mocked(messaging.transport).send.mockImplementation(async (action): Promise<any> => {
if (action === ElementWidgetActions.JoinCall) {
// Emit the hangup event *before* the join event to fully
// exercise the race condition
messaging.emit(
`action:${ElementWidgetActions.HangupCall}`,
new CustomEvent("widgetapirequest", { detail: {} }),
);
messaging.emit(
`action:${ElementWidgetActions.JoinCall}`,
new CustomEvent("widgetapirequest", { detail: {} }),
);
}
return {};
});
expect(call.connectionState).toBe(ConnectionState.Disconnected);
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
// Should disconnect on its own almost instantly
await waitFor(() => expect(call.connectionState).toBe(ConnectionState.Disconnected), { interval: 5 });
});
it("disconnects", async () => {
expect(call.connectionState).toBe(ConnectionState.Disconnected);
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
await call.disconnect();
expect(call.connectionState).toBe(ConnectionState.Disconnected);
});
it("disconnects when we leave the room", async () => {
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
room.emit(RoomEvent.MyMembership, room, "leave");
expect(call.connectionState).toBe(ConnectionState.Disconnected);
});
it("remains connected if we stay in the room", async () => {
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
room.emit(RoomEvent.MyMembership, room, "join");
expect(call.connectionState).toBe(ConnectionState.Connected);
});
it("tracks participants in room state", async () => {
expect(call.participants).toEqual(new Map());
// A participant with multiple devices (should only show up once)
await client.sendStateEvent(
room.roomId,
JitsiCall.MEMBER_EVENT_TYPE,
{ devices: ["bobweb", "bobdesktop"], expires_ts: 1000 * 60 * 10 },
bob.userId,
);
// A participant with an expired device (should not show up)
await client.sendStateEvent(
room.roomId,
JitsiCall.MEMBER_EVENT_TYPE,
{ devices: ["carolandroid"], expires_ts: -1000 * 60 },
carol.userId,
);
// Now, stub out client.sendStateEvent so we can test our local echo
client.sendStateEvent.mockReset();
await call.connect();
expect(call.participants).toEqual(
new Map([
[alice, new Set(["alices_device"])],
[bob, new Set(["bobweb", "bobdesktop"])],
]),
);
await call.disconnect();
expect(call.participants).toEqual(new Map([[bob, new Set(["bobweb", "bobdesktop"])]]));
});
it("updates room state when connecting and disconnecting", async () => {
const now1 = Date.now();
await call.connect();
await waitFor(
() =>
expect(
room.currentState.getStateEvents(JitsiCall.MEMBER_EVENT_TYPE, alice.userId)?.getContent(),
).toEqual({
devices: [client.getDeviceId()],
expires_ts: now1 + call.STUCK_DEVICE_TIMEOUT_MS,
}),
{ interval: 5 },
);
const now2 = Date.now();
await call.disconnect();
await waitFor(
() =>
expect(
room.currentState.getStateEvents(JitsiCall.MEMBER_EVENT_TYPE, alice.userId)?.getContent(),
).toEqual({
devices: [],
expires_ts: now2 + call.STUCK_DEVICE_TIMEOUT_MS,
}),
{ interval: 5 },
);
});
it("repeatedly updates room state while connected", async () => {
await call.connect();
await waitFor(
() =>
expect(client.sendStateEvent).toHaveBeenLastCalledWith(
room.roomId,
JitsiCall.MEMBER_EVENT_TYPE,
{ devices: [client.getDeviceId()], expires_ts: expect.any(Number) },
alice.userId,
),
{ interval: 5 },
);
client.sendStateEvent.mockClear();
jest.advanceTimersByTime(call.STUCK_DEVICE_TIMEOUT_MS);
await waitFor(
() =>
expect(client.sendStateEvent).toHaveBeenLastCalledWith(
room.roomId,
JitsiCall.MEMBER_EVENT_TYPE,
{ devices: [client.getDeviceId()], expires_ts: expect.any(Number) },
alice.userId,
),
{ interval: 5 },
);
});
it("emits events when connection state changes", async () => {
const onConnectionState = jest.fn();
call.on(CallEvent.ConnectionState, onConnectionState);
await call.connect();
await call.disconnect();
expect(onConnectionState.mock.calls).toEqual([
[ConnectionState.Connecting, ConnectionState.Disconnected],
[ConnectionState.Connected, ConnectionState.Connecting],
[ConnectionState.Disconnecting, ConnectionState.Connected],
[ConnectionState.Disconnected, ConnectionState.Disconnecting],
]);
call.off(CallEvent.ConnectionState, onConnectionState);
});
it("emits events when participants change", async () => {
const onParticipants = jest.fn();
call.on(CallEvent.Participants, onParticipants);
await call.connect();
await call.disconnect();
expect(onParticipants.mock.calls).toEqual([
[new Map([[alice, new Set(["alices_device"])]]), new Map()],
[new Map([[alice, new Set(["alices_device"])]]), new Map([[alice, new Set(["alices_device"])]])],
[new Map(), new Map([[alice, new Set(["alices_device"])]])],
[new Map(), new Map()],
]);
call.off(CallEvent.Participants, onParticipants);
});
it("switches to spotlight layout when the widget becomes a PiP", async () => {
await call.connect();
ActiveWidgetStore.instance.emit(ActiveWidgetStoreEvent.Undock);
expect(messaging.transport.send).toHaveBeenCalledWith(ElementWidgetActions.SpotlightLayout, {});
ActiveWidgetStore.instance.emit(ActiveWidgetStoreEvent.Dock);
expect(messaging.transport.send).toHaveBeenCalledWith(ElementWidgetActions.TileLayout, {});
});
describe("clean", () => {
const aliceWeb: IMyDevice = {
device_id: "aliceweb",
last_seen_ts: 0,
};
const aliceDesktop: IMyDevice = {
device_id: "alicedesktop",
last_seen_ts: 0,
};
const aliceDesktopOffline: IMyDevice = {
device_id: "alicedesktopoffline",
last_seen_ts: 1000 * 60 * 60 * -2, // 2 hours ago
};
const aliceDesktopNeverOnline: IMyDevice = {
device_id: "alicedesktopneveronline",
};
const mkContent = (devices: IMyDevice[]): JitsiCallMemberContent => ({
expires_ts: 1000 * 60 * 10,
devices: devices.map((d) => d.device_id),
});
const expectDevices = (devices: IMyDevice[]) =>
expect(
room.currentState.getStateEvents(JitsiCall.MEMBER_EVENT_TYPE, alice.userId)?.getContent(),
).toEqual({
expires_ts: expect.any(Number),
devices: devices.map((d) => d.device_id),
});
beforeEach(() => {
client.getDeviceId.mockReturnValue(aliceWeb.device_id);
client.getDevices.mockResolvedValue({
devices: [aliceWeb, aliceDesktop, aliceDesktopOffline, aliceDesktopNeverOnline],
});
});
it("doesn't clean up valid devices", async () => {
await call.connect();
await client.sendStateEvent(
room.roomId,
JitsiCall.MEMBER_EVENT_TYPE,
mkContent([aliceWeb, aliceDesktop]),
alice.userId,
);
await call.clean();
expectDevices([aliceWeb, aliceDesktop]);
});
it("cleans up our own device if we're disconnected", async () => {
await client.sendStateEvent(
room.roomId,
JitsiCall.MEMBER_EVENT_TYPE,
mkContent([aliceWeb, aliceDesktop]),
alice.userId,
);
await call.clean();
expectDevices([aliceDesktop]);
});
it("cleans up devices that have been offline for too long", async () => {
await client.sendStateEvent(
room.roomId,
JitsiCall.MEMBER_EVENT_TYPE,
mkContent([aliceDesktop, aliceDesktopOffline]),
alice.userId,
);
await call.clean();
expectDevices([aliceDesktop]);
});
it("cleans up devices that have never been online", async () => {
await client.sendStateEvent(
room.roomId,
JitsiCall.MEMBER_EVENT_TYPE,
mkContent([aliceDesktop, aliceDesktopNeverOnline]),
alice.userId,
);
await call.clean();
expectDevices([aliceDesktop]);
});
it("no-ops if there are no state events", async () => {
await call.clean();
expect(room.currentState.getStateEvents(JitsiCall.MEMBER_EVENT_TYPE, alice.userId)).toBe(null);
});
});
});
});
describe("ElementCall", () => {
let client: Mocked<MatrixClient>;
let room: Room;
let alice: RoomMember;
beforeEach(() => {
({ client, room, alice } = setUpClientRoomAndStores());
});
afterEach(() => cleanUpClientRoomAndStores(client, room));
describe("get", () => {
it("finds no calls", () => {
expect(Call.get(room)).toBeNull();
});
it("finds calls", async () => {
await ElementCall.create(room);
expect(Call.get(room)).toBeInstanceOf(ElementCall);
Call.get(room)?.destroy();
});
it("finds ongoing calls that are created by the session manager", async () => {
// There is an existing session created by another user in this room.
client.matrixRTC.getRoomSession.mockReturnValue({
on: (ev: any, fn: any) => {},
off: (ev: any, fn: any) => {},
memberships: [{ fakeVal: "fake membership" }],
} as unknown as MatrixRTCSession);
const call = Call.get(room);
if (!(call instanceof ElementCall)) throw new Error("Failed to create call");
call.destroy();
});
it("passes font settings through widget URL", async () => {
const originalGetValue = SettingsStore.getValue;
SettingsStore.getValue = <T>(name: string, roomId?: string, excludeDefault?: boolean) => {
switch (name) {
case "baseFontSizeV2":
return 12 as T;
case "useSystemFont":
return true as T;
case "systemFont":
return "OpenDyslexic, DejaVu Sans" as T;
default:
return originalGetValue<T>(name, roomId, excludeDefault);
}
};
await ElementCall.create(room);
const call = Call.get(room);
if (!(call instanceof ElementCall)) throw new Error("Failed to create call");
const urlParams = new URLSearchParams(new URL(call.widget.url).hash.slice(1));
expect(urlParams.get("fontScale")).toBe("0.75");
expect(urlParams.getAll("font")).toEqual(["OpenDyslexic", "DejaVu Sans"]);
SettingsStore.getValue = originalGetValue;
});
it("passes ICE fallback preference through widget URL", async () => {
// Test with the preference set to false
await ElementCall.create(room);
const call1 = Call.get(room);
if (!(call1 instanceof ElementCall)) throw new Error("Failed to create call");
const urlParams1 = new URLSearchParams(new URL(call1.widget.url).hash.slice(1));
expect(urlParams1.has("allowIceFallback")).toBe(false);
call1.destroy();
// Now test with the preference set to true
const originalGetValue = SettingsStore.getValue;
SettingsStore.getValue = <T>(name: string, roomId?: string, excludeDefault?: boolean) => {
switch (name) {
case "fallbackICEServerAllowed":
return true as T;
default:
return originalGetValue<T>(name, roomId, excludeDefault);
}
};
ElementCall.create(room);
const call2 = Call.get(room);
if (!(call2 instanceof ElementCall)) throw new Error("Failed to create call");
const urlParams2 = new URLSearchParams(new URL(call2.widget.url).hash.slice(1));
expect(urlParams2.has("allowIceFallback")).toBe(true);
call2.destroy();
SettingsStore.getValue = originalGetValue;
});
it("passes analyticsID through widget URL", async () => {
client.getAccountData.mockImplementation((eventType: string) => {
if (eventType === PosthogAnalytics.ANALYTICS_EVENT_TYPE) {
return new MatrixEvent({ content: { id: "123456789987654321", pseudonymousAnalyticsOptIn: true } });
}
return undefined;
});
await ElementCall.create(room);
const call = Call.get(room);
if (!(call instanceof ElementCall)) throw new Error("Failed to create call");
const urlParams = new URLSearchParams(new URL(call.widget.url).hash.slice(1));
expect(urlParams.get("analyticsID")).toBe("123456789987654321");
call.destroy();
});
it("does not pass analyticsID if `pseudonymousAnalyticsOptIn` set to false", async () => {
client.getAccountData.mockImplementation((eventType: string) => {
if (eventType === PosthogAnalytics.ANALYTICS_EVENT_TYPE) {
return new MatrixEvent({
content: { id: "123456789987654321", pseudonymousAnalyticsOptIn: false },
});
}
return undefined;
});
await ElementCall.create(room);
const call = Call.get(room);
if (!(call instanceof ElementCall)) throw new Error("Failed to create call");
const urlParams = new URLSearchParams(new URL(call.widget.url).hash.slice(1));
expect(urlParams.get("analyticsID")).toBe("");
});
it("passes empty analyticsID if the id is not in the account data", async () => {
client.getAccountData.mockImplementation((eventType: string) => {
if (eventType === PosthogAnalytics.ANALYTICS_EVENT_TYPE) {
return new MatrixEvent({ content: {} });
}
return undefined;
});
await ElementCall.create(room);
const call = Call.get(room);
if (!(call instanceof ElementCall)) throw new Error("Failed to create call");
const urlParams = new URLSearchParams(new URL(call.widget.url).hash.slice(1));
expect(urlParams.get("analyticsID")).toBe("");
});
});
describe("instance in a non-video room", () => {
let call: ElementCall;
let widget: Widget;
let messaging: Mocked<ClientWidgetApi>;
let audioMutedSpy: jest.SpyInstance<boolean, []>;
let videoMutedSpy: jest.SpyInstance<boolean, []>;
beforeEach(async () => {
jest.useFakeTimers();
jest.setSystemTime(0);
await ElementCall.create(room);
const maybeCall = ElementCall.get(room);
if (maybeCall === null) throw new Error("Failed to create call");
call = maybeCall;
({ widget, messaging, audioMutedSpy, videoMutedSpy } = setUpWidget(call));
});
afterEach(() => cleanUpCallAndWidget(call, widget, audioMutedSpy, videoMutedSpy));
it("connects muted", async () => {
expect(call.connectionState).toBe(ConnectionState.Disconnected);
audioMutedSpy.mockReturnValue(true);
videoMutedSpy.mockReturnValue(true);
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
expect(messaging.transport.send).toHaveBeenCalledWith(ElementWidgetActions.JoinCall, {
audioInput: null,
videoInput: null,
});
});
it("connects unmuted", async () => {
expect(call.connectionState).toBe(ConnectionState.Disconnected);
audioMutedSpy.mockReturnValue(false);
videoMutedSpy.mockReturnValue(false);
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
expect(messaging.transport.send).toHaveBeenCalledWith(ElementWidgetActions.JoinCall, {
audioInput: "Headphones",
videoInput: "Built-in webcam",
});
});
it("waits for messaging when connecting", async () => {
// Temporarily remove the messaging to simulate connecting while the
// widget is still initializing
WidgetMessagingStore.instance.stopMessaging(widget, room.roomId);
expect(call.connectionState).toBe(ConnectionState.Disconnected);
const connect = call.connect();
expect(call.connectionState).toBe(ConnectionState.Connecting);
WidgetMessagingStore.instance.storeMessaging(widget, room.roomId, messaging);
await connect;
expect(call.connectionState).toBe(ConnectionState.Connected);
});
it("fails to connect if the widget returns an error", async () => {
mocked(messaging.transport).send.mockRejectedValue(new Error("never!!1! >:("));
await expect(call.connect()).rejects.toBeDefined();
});
it("fails to disconnect if the widget returns an error", async () => {
await call.connect();
mocked(messaging.transport).send.mockRejectedValue(new Error("never!!1! >:("));
await expect(call.disconnect()).rejects.toBeDefined();
});
it("handles remote disconnection", async () => {
expect(call.connectionState).toBe(ConnectionState.Disconnected);
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
messaging.emit(
`action:${ElementWidgetActions.HangupCall}`,
new CustomEvent("widgetapirequest", { detail: {} }),
);
await waitFor(() => expect(call.connectionState).toBe(ConnectionState.Disconnected), { interval: 5 });
});
it("disconnects", async () => {
expect(call.connectionState).toBe(ConnectionState.Disconnected);
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
await call.disconnect();
expect(call.connectionState).toBe(ConnectionState.Disconnected);
});
it("disconnects when we leave the room", async () => {
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
room.emit(RoomEvent.MyMembership, room, "leave");
expect(call.connectionState).toBe(ConnectionState.Disconnected);
});
it("remains connected if we stay in the room", async () => {
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
room.emit(RoomEvent.MyMembership, room, "join");
expect(call.connectionState).toBe(ConnectionState.Connected);
});
it("disconnects if the widget dies", async () => {
await call.connect();
expect(call.connectionState).toBe(ConnectionState.Connected);
WidgetMessagingStore.instance.stopMessaging(widget, room.roomId);
expect(call.connectionState).toBe(ConnectionState.Disconnected);
});
it("tracks layout", async () => {
await call.connect();
expect(call.layout).toBe(Layout.Tile);
messaging.emit(
`action:${ElementWidgetActions.SpotlightLayout}`,
new CustomEvent("widgetapirequest", { detail: {} }),
);
expect(call.layout).toBe(Layout.Spotlight);
messaging.emit(
`action:${ElementWidgetActions.TileLayout}`,
new CustomEvent("widgetapirequest", { detail: {} }),
);
expect(call.layout).toBe(Layout.Tile);
});
it("sets layout", async () => {
await call.connect();
await call.setLayout(Layout.Spotlight);
expect(messaging.transport.send).toHaveBeenCalledWith(ElementWidgetActions.SpotlightLayout, {});
await call.setLayout(Layout.Tile);
expect(messaging.transport.send).toHaveBeenCalledWith(ElementWidgetActions.TileLayout, {});
});
it("emits events when connection state changes", async () => {
const onConnectionState = jest.fn();
call.on(CallEvent.ConnectionState, onConnectionState);
await call.connect();
await call.disconnect();
expect(onConnectionState.mock.calls).toEqual([
[ConnectionState.Connecting, ConnectionState.Disconnected],
[ConnectionState.Connected, ConnectionState.Connecting],
[ConnectionState.Disconnecting, ConnectionState.Connected],
[ConnectionState.Disconnected, ConnectionState.Disconnecting],
]);
call.off(CallEvent.ConnectionState, onConnectionState);
});
it("emits events when participants change", async () => {
const onParticipants = jest.fn();
call.session.memberships = [{ sender: alice.userId, deviceId: "alices_device" } as CallMembership];
call.on(CallEvent.Participants, onParticipants);
call.session.emit(MatrixRTCSessionEvent.MembershipsChanged, [], []);
expect(onParticipants.mock.calls).toEqual([[new Map([[alice, new Set(["alices_device"])]]), new Map()]]);
call.off(CallEvent.Participants, onParticipants);
});
it("emits events when layout changes", async () => {
await call.connect();
const onLayout = jest.fn();
call.on(CallEvent.Layout, onLayout);
messaging.emit(
`action:${ElementWidgetActions.SpotlightLayout}`,
new CustomEvent("widgetapirequest", { detail: {} }),
);
messaging.emit(
`action:${ElementWidgetActions.TileLayout}`,
new CustomEvent("widgetapirequest", { detail: {} }),
);
expect(onLayout.mock.calls).toEqual([[Layout.Spotlight], [Layout.Tile]]);
call.off(CallEvent.Layout, onLayout);
});
it("ends the call immediately if the session ended", async () => {
await call.connect();
const onDestroy = jest.fn();
call.on(CallEvent.Destroy, onDestroy);
await call.disconnect();
// this will be called automatically
// disconnect -> widget sends state event -> session manager notices no-one left
client.matrixRTC.emit(
MatrixRTCSessionManagerEvents.SessionEnded,
room.roomId,
{} as unknown as MatrixRTCSession,
);
expect(onDestroy).toHaveBeenCalled();
call.off(CallEvent.Destroy, onDestroy);
});
it("clears widget persistence when destroyed", async () => {
const destroyPersistentWidgetSpy = jest.spyOn(ActiveWidgetStore.instance, "destroyPersistentWidget");
call.destroy();
expect(destroyPersistentWidgetSpy).toHaveBeenCalled();
});
it("the perParticipantE2EE url flag is used in encrypted rooms while respecting the feature_disable_call_per_sender_encryption flag", async () => {
// We destroy the call created in beforeEach because we test the call creation process.
call.destroy();
const addWidgetSpy = jest.spyOn(WidgetStore.instance, "addVirtualWidget");
// If a room is not encrypted we will never add the perParticipantE2EE flag.
client.isRoomEncrypted.mockReturnValue(true);
// should create call with perParticipantE2EE flag
ElementCall.create(room);
expect(addWidgetSpy.mock.calls[0][0].url).toContain("perParticipantE2EE=true");
ElementCall.get(room)?.destroy();
// should create call without perParticipantE2EE flag
enabledSettings.add("feature_disable_call_per_sender_encryption");
await ElementCall.create(room);
enabledSettings.delete("feature_disable_call_per_sender_encryption");
expect(addWidgetSpy.mock.calls[1][0].url).not.toContain("perParticipantE2EE=true");
client.isRoomEncrypted.mockClear();
addWidgetSpy.mockRestore();
});
});
describe("instance in a video room", () => {
let call: ElementCall;
let widget: Widget;
let audioMutedSpy: jest.SpyInstance<boolean, []>;
let videoMutedSpy: jest.SpyInstance<boolean, []>;
beforeEach(async () => {
jest.useFakeTimers();
jest.setSystemTime(0);
jest.spyOn(room, "getType").mockReturnValue(RoomType.UnstableCall);
await ElementCall.create(room);
const maybeCall = ElementCall.get(room);
if (maybeCall === null) throw new Error("Failed to create call");
call = maybeCall;
({ widget, audioMutedSpy, videoMutedSpy } = setUpWidget(call));
});
afterEach(() => cleanUpCallAndWidget(call, widget, audioMutedSpy, videoMutedSpy));
it("doesn't end the call when the last participant leaves", async () => {
await call.connect();
const onDestroy = jest.fn();
call.on(CallEvent.Destroy, onDestroy);
await call.disconnect();
expect(onDestroy).not.toHaveBeenCalled();
call.off(CallEvent.Destroy, onDestroy);
});
});
describe("create call", () => {
function setFunctionalMembers(members: string[]) {
room.currentState.setStateEvents([
mkEvent({
event: true,
type: UNSTABLE_ELEMENT_FUNCTIONAL_USERS.name,
user: "@user:example.com",
room: room.roomId,
skey: "",
content: { service_members: members },
}),
]);
}
beforeEach(async () => {
setFunctionalMembers(["@user:example.com", "@user2:example.com", "@user4:example.com"]);
});
it("sends notify event on create in a room with more than two members", async () => {
const sendEventSpy = jest.spyOn(room.client, "sendEvent");
await ElementCall.create(room);
expect(sendEventSpy).toHaveBeenCalledWith("!1:example.org", "org.matrix.msc4075.call.notify", {
"application": "m.call",
"call_id": "",
"m.mentions": { room: true, user_ids: [] },
"notify_type": "notify",
});
});
it("sends ring on create in a DM (two participants) room", async () => {
setFunctionalMembers(["@user:example.com", "@user2:example.com"]);
const sendEventSpy = jest.spyOn(room.client, "sendEvent");
await ElementCall.create(room);
expect(sendEventSpy).toHaveBeenCalledWith("!1:example.org", "org.matrix.msc4075.call.notify", {
"application": "m.call",
"call_id": "",
"m.mentions": { room: true, user_ids: [] },
"notify_type": "ring",
});
});
it("don't sent notify event if there are existing room call members", async () => {
jest.spyOn(MatrixRTCSession, "callMembershipsForRoom").mockReturnValue([
{ application: "m.call", callId: "" } as unknown as CallMembership,
]);
const sendEventSpy = jest.spyOn(room.client, "sendEvent");
await ElementCall.create(room);
expect(sendEventSpy).not.toHaveBeenCalled();
});
});
});