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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.OtherUserSpeakingError = exports.GroupCallUnknownDeviceError = exports.GroupCallType = exports.GroupCallTerminationReason = exports.GroupCallStatsReportEvent = exports.GroupCallState = exports.GroupCallIntent = exports.GroupCallEvent = exports.GroupCallErrorCode = exports.GroupCallError = exports.GroupCall = void 0;
var _typedEventEmitter = require("../models/typed-event-emitter.js");
var _callFeed = require("./callFeed.js");
var _call = require("./call.js");
var _roomState = require("../models/room-state.js");
var _logger = require("../logger.js");
var _ReEmitter = require("../ReEmitter.js");
var _callEventTypes = require("./callEventTypes.js");
var _event = require("../@types/event.js");
var _callEventHandler = require("./callEventHandler.js");
var _groupCallEventHandler = require("./groupCallEventHandler.js");
var _utils = require("../utils.js");
var _groupCallStats = require("./stats/groupCallStats.js");
var _statsReport = require("./stats/statsReport.js");
var _summaryStatsReportGatherer = require("./stats/summaryStatsReportGatherer.js");
var _callFeedStatsReporter = require("./stats/callFeedStatsReporter.js");
var _membership = require("../@types/membership.js");
function ownKeys(e, r) { var t = Object.keys(e); if (Object.getOwnPropertySymbols) { var o = Object.getOwnPropertySymbols(e); r && (o = o.filter(function (r) { return Object.getOwnPropertyDescriptor(e, r).enumerable; })), t.push.apply(t, o); } return t; }
function _objectSpread(e) { for (var r = 1; r < arguments.length; r++) { var t = null != arguments[r] ? arguments[r] : {}; r % 2 ? ownKeys(Object(t), !0).forEach(function (r) { _defineProperty(e, r, t[r]); }) : Object.getOwnPropertyDescriptors ? Object.defineProperties(e, Object.getOwnPropertyDescriptors(t)) : ownKeys(Object(t)).forEach(function (r) { Object.defineProperty(e, r, Object.getOwnPropertyDescriptor(t, r)); }); } return e; }
function _defineProperty(e, r, t) { return (r = _toPropertyKey(r)) in e ? Object.defineProperty(e, r, { value: t, enumerable: !0, configurable: !0, writable: !0 }) : e[r] = t, e; }
function _toPropertyKey(t) { var i = _toPrimitive(t, "string"); return "symbol" == typeof i ? i : i + ""; }
function _toPrimitive(t, r) { if ("object" != typeof t || !t) return t; var e = t[Symbol.toPrimitive]; if (void 0 !== e) { var i = e.call(t, r || "default"); if ("object" != typeof i) return i; throw new TypeError("@@toPrimitive must return a primitive value."); } return ("string" === r ? String : Number)(t); }
let GroupCallIntent = exports.GroupCallIntent = /*#__PURE__*/function (GroupCallIntent) {
GroupCallIntent["Ring"] = "m.ring";
GroupCallIntent["Prompt"] = "m.prompt";
GroupCallIntent["Room"] = "m.room";
return GroupCallIntent;
}({});
let GroupCallType = exports.GroupCallType = /*#__PURE__*/function (GroupCallType) {
GroupCallType["Video"] = "m.video";
GroupCallType["Voice"] = "m.voice";
return GroupCallType;
}({});
let GroupCallTerminationReason = exports.GroupCallTerminationReason = /*#__PURE__*/function (GroupCallTerminationReason) {
GroupCallTerminationReason["CallEnded"] = "call_ended";
return GroupCallTerminationReason;
}({});
/**
* Because event names are just strings, they do need
* to be unique over all event types of event emitter.
* Some objects could emit more then one set of events.
*/
let GroupCallEvent = exports.GroupCallEvent = /*#__PURE__*/function (GroupCallEvent) {
GroupCallEvent["GroupCallStateChanged"] = "group_call_state_changed";
GroupCallEvent["ActiveSpeakerChanged"] = "active_speaker_changed";
GroupCallEvent["CallsChanged"] = "calls_changed";
GroupCallEvent["UserMediaFeedsChanged"] = "user_media_feeds_changed";
GroupCallEvent["ScreenshareFeedsChanged"] = "screenshare_feeds_changed";
GroupCallEvent["LocalScreenshareStateChanged"] = "local_screenshare_state_changed";
GroupCallEvent["LocalMuteStateChanged"] = "local_mute_state_changed";
GroupCallEvent["ParticipantsChanged"] = "participants_changed";
GroupCallEvent["Error"] = "group_call_error";
return GroupCallEvent;
}({});
let GroupCallStatsReportEvent = exports.GroupCallStatsReportEvent = /*#__PURE__*/function (GroupCallStatsReportEvent) {
GroupCallStatsReportEvent["ConnectionStats"] = "GroupCall.connection_stats";
GroupCallStatsReportEvent["ByteSentStats"] = "GroupCall.byte_sent_stats";
GroupCallStatsReportEvent["SummaryStats"] = "GroupCall.summary_stats";
GroupCallStatsReportEvent["CallFeedStats"] = "GroupCall.call_feed_stats";
return GroupCallStatsReportEvent;
}({});
/**
* The final report-events that get consumed by client.
*/
let GroupCallErrorCode = exports.GroupCallErrorCode = /*#__PURE__*/function (GroupCallErrorCode) {
GroupCallErrorCode["NoUserMedia"] = "no_user_media";
GroupCallErrorCode["UnknownDevice"] = "unknown_device";
GroupCallErrorCode["PlaceCallFailed"] = "place_call_failed";
return GroupCallErrorCode;
}({});
class GroupCallError extends Error {
constructor(code, msg, err) {
// Still don't think there's any way to have proper nested errors
if (err) {
super(msg + ": " + err);
_defineProperty(this, "code", void 0);
} else {
super(msg);
_defineProperty(this, "code", void 0);
}
this.code = code;
}
}
exports.GroupCallError = GroupCallError;
class GroupCallUnknownDeviceError extends GroupCallError {
constructor(userId) {
super(GroupCallErrorCode.UnknownDevice, "No device found for " + userId);
this.userId = userId;
}
}
exports.GroupCallUnknownDeviceError = GroupCallUnknownDeviceError;
class OtherUserSpeakingError extends Error {
constructor() {
super("Cannot unmute: another user is speaking");
}
}
// XXX: this hasn't made it into the MSC yet
exports.OtherUserSpeakingError = OtherUserSpeakingError;
let GroupCallState = exports.GroupCallState = /*#__PURE__*/function (GroupCallState) {
GroupCallState["LocalCallFeedUninitialized"] = "local_call_feed_uninitialized";
GroupCallState["InitializingLocalCallFeed"] = "initializing_local_call_feed";
GroupCallState["LocalCallFeedInitialized"] = "local_call_feed_initialized";
GroupCallState["Entered"] = "entered";
GroupCallState["Ended"] = "ended";
return GroupCallState;
}({});
const DEVICE_TIMEOUT = 1000 * 60 * 60; // 1 hour
function getCallUserId(call) {
return call.getOpponentMember()?.userId || call.invitee || null;
}
class GroupCall extends _typedEventEmitter.TypedEventEmitter {
constructor(client, room, type, isPtt, intent, groupCallId, dataChannelsEnabled, dataChannelOptions, isCallWithoutVideoAndAudio,
// this tells the js-sdk not to actually establish any calls to exchange media and just to
// create the group call signaling events, with the intention that the actual media will be
// handled using livekit. The js-sdk doesn't contain any code to do the actual livekit call though.
useLivekit = false, livekitServiceURL) {
super();
this.client = client;
this.room = room;
this.type = type;
this.isPtt = isPtt;
this.intent = intent;
this.dataChannelsEnabled = dataChannelsEnabled;
this.dataChannelOptions = dataChannelOptions;
this.useLivekit = useLivekit;
// Config
_defineProperty(this, "activeSpeakerInterval", 1000);
_defineProperty(this, "retryCallInterval", 5000);
_defineProperty(this, "participantTimeout", 1000 * 15);
_defineProperty(this, "pttMaxTransmitTime", 1000 * 20);
_defineProperty(this, "activeSpeaker", void 0);
_defineProperty(this, "localCallFeed", void 0);
_defineProperty(this, "localScreenshareFeed", void 0);
_defineProperty(this, "localDesktopCapturerSourceId", void 0);
_defineProperty(this, "userMediaFeeds", []);
_defineProperty(this, "screenshareFeeds", []);
_defineProperty(this, "groupCallId", void 0);
_defineProperty(this, "allowCallWithoutVideoAndAudio", void 0);
_defineProperty(this, "calls", new Map());
// user_id -> device_id -> MatrixCall
_defineProperty(this, "callHandlers", new Map());
// user_id -> device_id -> ICallHandlers
_defineProperty(this, "activeSpeakerLoopInterval", void 0);
_defineProperty(this, "retryCallLoopInterval", void 0);
_defineProperty(this, "retryCallCounts", new Map());
// user_id -> device_id -> count
_defineProperty(this, "reEmitter", void 0);
_defineProperty(this, "transmitTimer", null);
_defineProperty(this, "participantsExpirationTimer", null);
_defineProperty(this, "resendMemberStateTimer", null);
_defineProperty(this, "initWithAudioMuted", false);
_defineProperty(this, "initWithVideoMuted", false);
_defineProperty(this, "initCallFeedPromise", void 0);
_defineProperty(this, "_livekitServiceURL", void 0);
_defineProperty(this, "stats", void 0);
/**
* Configure default webrtc stats collection interval in ms
* Disable collecting webrtc stats by setting interval to 0
*/
_defineProperty(this, "statsCollectIntervalTime", 0);
_defineProperty(this, "onConnectionStats", report => {
// Final emit of the summary event, to be consumed by the client
this.emit(GroupCallStatsReportEvent.ConnectionStats, {
report
});
});
_defineProperty(this, "onByteSentStats", report => {
// Final emit of the summary event, to be consumed by the client
this.emit(GroupCallStatsReportEvent.ByteSentStats, {
report
});
});
_defineProperty(this, "onSummaryStats", report => {
_summaryStatsReportGatherer.SummaryStatsReportGatherer.extendSummaryReport(report, this.participants);
// Final emit of the summary event, to be consumed by the client
this.emit(GroupCallStatsReportEvent.SummaryStats, {
report
});
});
_defineProperty(this, "onCallFeedReport", report => {
if (this.localCallFeed) {
report = _callFeedStatsReporter.CallFeedStatsReporter.expandCallFeedReport(report, [this.localCallFeed], "from-local-feed");
}
const callFeeds = [];
this.forEachCall(call => {
if (call.callId === report.callId) {
call.getFeeds().forEach(f => callFeeds.push(f));
}
});
report = _callFeedStatsReporter.CallFeedStatsReporter.expandCallFeedReport(report, callFeeds, "from-call-feed");
this.emit(GroupCallStatsReportEvent.CallFeedStats, {
report
});
});
_defineProperty(this, "_state", GroupCallState.LocalCallFeedUninitialized);
_defineProperty(this, "_participants", new Map());
_defineProperty(this, "_creationTs", null);
_defineProperty(this, "_enteredViaAnotherSession", false);
/*
* Call Setup
*
* There are two different paths for calls to be created:
* 1. Incoming calls triggered by the Call.incoming event.
* 2. Outgoing calls to the initial members of a room or new members
* as they are observed by the RoomState.members event.
*/
_defineProperty(this, "onIncomingCall", newCall => {
// The incoming calls may be for another room, which we will ignore.
if (newCall.roomId !== this.room.roomId) {
return;
}
if (newCall.state !== _call.CallState.Ringing) {
_logger.logger.warn(`GroupCall ${this.groupCallId} onIncomingCall() incoming call no longer in ringing state - ignoring`);
return;
}
if (!newCall.groupCallId || newCall.groupCallId !== this.groupCallId) {
_logger.logger.log(`GroupCall ${this.groupCallId} onIncomingCall() ignored because it doesn't match the current group call`);
newCall.reject();
return;
}
const opponentUserId = newCall.getOpponentMember()?.userId;
if (opponentUserId === undefined) {
_logger.logger.warn(`GroupCall ${this.groupCallId} onIncomingCall() incoming call with no member - ignoring`);
return;
}
if (this.useLivekit) {
_logger.logger.info("Received incoming call whilst in signaling-only mode! Ignoring.");
return;
}
const deviceMap = this.calls.get(opponentUserId) ?? new Map();
const prevCall = deviceMap.get(newCall.getOpponentDeviceId());
if (prevCall?.callId === newCall.callId) return;
_logger.logger.log(`GroupCall ${this.groupCallId} onIncomingCall() incoming call (userId=${opponentUserId}, callId=${newCall.callId})`);
if (prevCall) prevCall.hangup(_call.CallErrorCode.Replaced, false);
// We must do this before we start initialising / answering the call as we
// need to know it is the active call for this user+deviceId and to not ignore
// events from it.
deviceMap.set(newCall.getOpponentDeviceId(), newCall);
this.calls.set(opponentUserId, deviceMap);
this.initCall(newCall);
const feeds = this.getLocalFeeds().map(feed => feed.clone());
if (!this.callExpected(newCall)) {
// Disable our tracks for users not explicitly participating in the
// call but trying to receive the feeds
for (const feed of feeds) {
(0, _call.setTracksEnabled)(feed.stream.getAudioTracks(), false);
(0, _call.setTracksEnabled)(feed.stream.getVideoTracks(), false);
}
}
newCall.answerWithCallFeeds(feeds);
this.emit(GroupCallEvent.CallsChanged, this.calls);
});
_defineProperty(this, "onRetryCallLoop", () => {
let needsRetry = false;
for (const [{
userId
}, participantMap] of this.participants) {
const callMap = this.calls.get(userId);
let retriesMap = this.retryCallCounts.get(userId);
for (const [deviceId, participant] of participantMap) {
const call = callMap?.get(deviceId);
const retries = retriesMap?.get(deviceId) ?? 0;
if (call?.getOpponentSessionId() !== participant.sessionId && this.wantsOutgoingCall(userId, deviceId) && retries < 3) {
if (retriesMap === undefined) {
retriesMap = new Map();
this.retryCallCounts.set(userId, retriesMap);
}
retriesMap.set(deviceId, retries + 1);
needsRetry = true;
}
}
}
if (needsRetry) this.placeOutgoingCalls();
});
_defineProperty(this, "onCallFeedsChanged", call => {
const opponentMemberId = getCallUserId(call);
const opponentDeviceId = call.getOpponentDeviceId();
if (!opponentMemberId) {
throw new Error("Cannot change call feeds without user id");
}
const currentUserMediaFeed = this.getUserMediaFeed(opponentMemberId, opponentDeviceId);
const remoteUsermediaFeed = call.remoteUsermediaFeed;
const remoteFeedChanged = remoteUsermediaFeed !== currentUserMediaFeed;
const deviceMap = this.calls.get(opponentMemberId);
const currentCallForUserDevice = deviceMap?.get(opponentDeviceId);
if (currentCallForUserDevice?.callId !== call.callId) {
// the call in question is not the current call for this user/deviceId
// so ignore feed events from it otherwise we'll remove our real feeds
return;
}
if (remoteFeedChanged) {
if (!currentUserMediaFeed && remoteUsermediaFeed) {
this.addUserMediaFeed(remoteUsermediaFeed);
} else if (currentUserMediaFeed && remoteUsermediaFeed) {
this.replaceUserMediaFeed(currentUserMediaFeed, remoteUsermediaFeed);
} else if (currentUserMediaFeed && !remoteUsermediaFeed) {
this.removeUserMediaFeed(currentUserMediaFeed);
}
}
const currentScreenshareFeed = this.getScreenshareFeed(opponentMemberId, opponentDeviceId);
const remoteScreensharingFeed = call.remoteScreensharingFeed;
const remoteScreenshareFeedChanged = remoteScreensharingFeed !== currentScreenshareFeed;
if (remoteScreenshareFeedChanged) {
if (!currentScreenshareFeed && remoteScreensharingFeed) {
this.addScreenshareFeed(remoteScreensharingFeed);
} else if (currentScreenshareFeed && remoteScreensharingFeed) {
this.replaceScreenshareFeed(currentScreenshareFeed, remoteScreensharingFeed);
} else if (currentScreenshareFeed && !remoteScreensharingFeed) {
this.removeScreenshareFeed(currentScreenshareFeed);
}
}
});
_defineProperty(this, "onCallStateChanged", (call, state, _oldState) => {
if (state === _call.CallState.Ended) return;
const audioMuted = this.localCallFeed.isAudioMuted();
if (call.localUsermediaStream && call.isMicrophoneMuted() !== audioMuted) {
call.setMicrophoneMuted(audioMuted);
}
const videoMuted = this.localCallFeed.isVideoMuted();
if (call.localUsermediaStream && call.isLocalVideoMuted() !== videoMuted) {
call.setLocalVideoMuted(videoMuted);
}
const opponentUserId = call.getOpponentMember()?.userId;
if (state === _call.CallState.Connected && opponentUserId) {
const retriesMap = this.retryCallCounts.get(opponentUserId);
retriesMap?.delete(call.getOpponentDeviceId());
if (retriesMap?.size === 0) this.retryCallCounts.delete(opponentUserId);
}
});
_defineProperty(this, "onCallHangup", call => {
if (call.hangupReason === _call.CallErrorCode.Replaced) return;
const opponentUserId = call.getOpponentMember()?.userId ?? this.room.getMember(call.invitee).userId;
const deviceMap = this.calls.get(opponentUserId);
// Sanity check that this call is in fact in the map
if (deviceMap?.get(call.getOpponentDeviceId()) === call) {
this.disposeCall(call, call.hangupReason);
deviceMap.delete(call.getOpponentDeviceId());
if (deviceMap.size === 0) this.calls.delete(opponentUserId);
this.emit(GroupCallEvent.CallsChanged, this.calls);
}
});
_defineProperty(this, "onCallReplaced", (prevCall, newCall) => {
const opponentUserId = prevCall.getOpponentMember().userId;
let deviceMap = this.calls.get(opponentUserId);
if (deviceMap === undefined) {
deviceMap = new Map();
this.calls.set(opponentUserId, deviceMap);
}
prevCall.hangup(_call.CallErrorCode.Replaced, false);
this.initCall(newCall);
deviceMap.set(prevCall.getOpponentDeviceId(), newCall);
this.emit(GroupCallEvent.CallsChanged, this.calls);
});
_defineProperty(this, "onActiveSpeakerLoop", () => {
let topAvg = undefined;
let nextActiveSpeaker = undefined;
for (const callFeed of this.userMediaFeeds) {
if (callFeed.isLocal() && this.userMediaFeeds.length > 1) continue;
const total = callFeed.speakingVolumeSamples.reduce((acc, volume) => acc + Math.max(volume, _callFeed.SPEAKING_THRESHOLD));
const avg = total / callFeed.speakingVolumeSamples.length;
if (!topAvg || avg > topAvg) {
topAvg = avg;
nextActiveSpeaker = callFeed;
}
}
if (nextActiveSpeaker && this.activeSpeaker !== nextActiveSpeaker && topAvg && topAvg > _callFeed.SPEAKING_THRESHOLD) {
this.activeSpeaker = nextActiveSpeaker;
this.emit(GroupCallEvent.ActiveSpeakerChanged, this.activeSpeaker);
}
});
_defineProperty(this, "onRoomState", () => this.updateParticipants());
_defineProperty(this, "onParticipantsChanged", () => {
// Re-run setTracksEnabled on all calls, so that participants that just
// left get denied access to our media, and participants that just
// joined get granted access
this.forEachCall(call => {
const expected = this.callExpected(call);
for (const feed of call.getLocalFeeds()) {
(0, _call.setTracksEnabled)(feed.stream.getAudioTracks(), !feed.isAudioMuted() && expected);
(0, _call.setTracksEnabled)(feed.stream.getVideoTracks(), !feed.isVideoMuted() && expected);
}
});
if (this.state === GroupCallState.Entered && !this.useLivekit) this.placeOutgoingCalls();
// Update the participants stored in the stats object
});
_defineProperty(this, "onStateChanged", (newState, oldState) => {
if (newState === GroupCallState.Entered || oldState === GroupCallState.Entered || newState === GroupCallState.Ended) {
// We either entered, left, or ended the call
this.updateParticipants();
this.updateMemberState().catch(e => _logger.logger.error(`GroupCall ${this.groupCallId} onStateChanged() failed to update member state devices"`, e));
}
});
_defineProperty(this, "onLocalFeedsChanged", () => {
if (this.state === GroupCallState.Entered) {
this.updateMemberState().catch(e => _logger.logger.error(`GroupCall ${this.groupCallId} onLocalFeedsChanged() failed to update member state feeds`, e));
}
});
this.reEmitter = new _ReEmitter.ReEmitter(this);
this.groupCallId = groupCallId ?? (0, _call.genCallID)();
this._livekitServiceURL = livekitServiceURL;
this.creationTs = room.currentState.getStateEvents(_event.EventType.GroupCallPrefix, this.groupCallId)?.getTs() ?? null;
this.updateParticipants();
room.on(_roomState.RoomStateEvent.Update, this.onRoomState);
this.on(GroupCallEvent.ParticipantsChanged, this.onParticipantsChanged);
this.on(GroupCallEvent.GroupCallStateChanged, this.onStateChanged);
this.on(GroupCallEvent.LocalScreenshareStateChanged, this.onLocalFeedsChanged);
this.allowCallWithoutVideoAndAudio = !!isCallWithoutVideoAndAudio;
}
async create() {
this.creationTs = Date.now();
this.client.groupCallEventHandler.groupCalls.set(this.room.roomId, this);
this.client.emit(_groupCallEventHandler.GroupCallEventHandlerEvent.Outgoing, this);
await this.sendCallStateEvent();
return this;
}
async sendCallStateEvent() {
const groupCallState = {
"m.intent": this.intent,
"m.type": this.type,
"io.element.ptt": this.isPtt,
// TODO: Specify data-channels better
"dataChannelsEnabled": this.dataChannelsEnabled,
"dataChannelOptions": this.dataChannelsEnabled ? this.dataChannelOptions : undefined
};
if (this.livekitServiceURL) {
groupCallState["io.element.livekit_service_url"] = this.livekitServiceURL;
}
await this.client.sendStateEvent(this.room.roomId, _event.EventType.GroupCallPrefix, groupCallState, this.groupCallId);
}
get livekitServiceURL() {
return this._livekitServiceURL;
}
updateLivekitServiceURL(newURL) {
this._livekitServiceURL = newURL;
return this.sendCallStateEvent();
}
/**
* The group call's state.
*/
get state() {
return this._state;
}
set state(value) {
const prevValue = this._state;
if (value !== prevValue) {
this._state = value;
this.emit(GroupCallEvent.GroupCallStateChanged, value, prevValue);
}
}
/**
* The current participants in the call, as a map from members to device IDs
* to participant info.
*/
get participants() {
return this._participants;
}
set participants(value) {
const prevValue = this._participants;
const participantStateEqual = (x, y) => x.sessionId === y.sessionId && x.screensharing === y.screensharing;
const deviceMapsEqual = (x, y) => (0, _utils.mapsEqual)(x, y, participantStateEqual);
// Only update if the map actually changed
if (!(0, _utils.mapsEqual)(value, prevValue, deviceMapsEqual)) {
this._participants = value;
this.emit(GroupCallEvent.ParticipantsChanged, value);
}
}
/**
* The timestamp at which the call was created, or null if it has not yet
* been created.
*/
get creationTs() {
return this._creationTs;
}
set creationTs(value) {
this._creationTs = value;
}
/**
* Whether the local device has entered this call via another session, such
* as a widget.
*/
get enteredViaAnotherSession() {
return this._enteredViaAnotherSession;
}
set enteredViaAnotherSession(value) {
this._enteredViaAnotherSession = value;
this.updateParticipants();
}
/**
* Executes the given callback on all calls in this group call.
* @param f - The callback.
*/
forEachCall(f) {
for (const deviceMap of this.calls.values()) {
for (const call of deviceMap.values()) f(call);
}
}
getLocalFeeds() {
const feeds = [];
if (this.localCallFeed) feeds.push(this.localCallFeed);
if (this.localScreenshareFeed) feeds.push(this.localScreenshareFeed);
return feeds;
}
hasLocalParticipant() {
return this.participants.get(this.room.getMember(this.client.getUserId()))?.has(this.client.getDeviceId()) ?? false;
}
/**
* Determines whether the given call is one that we were expecting to exist
* given our knowledge of who is participating in the group call.
*/
callExpected(call) {
const userId = getCallUserId(call);
const member = userId === null ? null : this.room.getMember(userId);
const deviceId = call.getOpponentDeviceId();
return member !== null && deviceId !== undefined && this.participants.get(member)?.get(deviceId) !== undefined;
}
async initLocalCallFeed() {
if (this.useLivekit) {
_logger.logger.info("Livekit group call: not starting local call feed.");
return;
}
if (this.state !== GroupCallState.LocalCallFeedUninitialized) {
throw new Error(`Cannot initialize local call feed in the "${this.state}" state.`);
}
this.state = GroupCallState.InitializingLocalCallFeed;
// wraps the real method to serialise calls, because we don't want to try starting
// multiple call feeds at once
if (this.initCallFeedPromise) return this.initCallFeedPromise;
try {
this.initCallFeedPromise = this.initLocalCallFeedInternal();
await this.initCallFeedPromise;
} finally {
this.initCallFeedPromise = undefined;
}
}
async initLocalCallFeedInternal() {
_logger.logger.log(`GroupCall ${this.groupCallId} initLocalCallFeedInternal() running`);
let stream;
try {
stream = await this.client.getMediaHandler().getUserMediaStream(true, this.type === GroupCallType.Video);
} catch (error) {
// If is allowed to join a call without a media stream, then we
// don't throw an error here. But we need an empty Local Feed to establish
// a connection later.
if (this.allowCallWithoutVideoAndAudio) {
stream = new MediaStream();
} else {
this.state = GroupCallState.LocalCallFeedUninitialized;
throw error;
}
}
// The call could've been disposed while we were waiting, and could
// also have been started back up again (hello, React 18) so if we're
// still in this 'initializing' state, carry on, otherwise bail.
if (this._state !== GroupCallState.InitializingLocalCallFeed) {
this.client.getMediaHandler().stopUserMediaStream(stream);
throw new Error("Group call disposed while gathering media stream");
}
const callFeed = new _callFeed.CallFeed({
client: this.client,
roomId: this.room.roomId,
userId: this.client.getUserId(),
deviceId: this.client.getDeviceId(),
stream,
purpose: _callEventTypes.SDPStreamMetadataPurpose.Usermedia,
audioMuted: this.initWithAudioMuted || stream.getAudioTracks().length === 0 || this.isPtt,
videoMuted: this.initWithVideoMuted || stream.getVideoTracks().length === 0
});
(0, _call.setTracksEnabled)(stream.getAudioTracks(), !callFeed.isAudioMuted());
(0, _call.setTracksEnabled)(stream.getVideoTracks(), !callFeed.isVideoMuted());
this.localCallFeed = callFeed;
this.addUserMediaFeed(callFeed);
this.state = GroupCallState.LocalCallFeedInitialized;
}
async updateLocalUsermediaStream(stream) {
if (this.localCallFeed) {
const oldStream = this.localCallFeed.stream;
this.localCallFeed.setNewStream(stream);
const micShouldBeMuted = this.localCallFeed.isAudioMuted();
const vidShouldBeMuted = this.localCallFeed.isVideoMuted();
_logger.logger.log(`GroupCall ${this.groupCallId} updateLocalUsermediaStream() (oldStreamId=${oldStream.id}, newStreamId=${stream.id}, micShouldBeMuted=${micShouldBeMuted}, vidShouldBeMuted=${vidShouldBeMuted})`);
(0, _call.setTracksEnabled)(stream.getAudioTracks(), !micShouldBeMuted);
(0, _call.setTracksEnabled)(stream.getVideoTracks(), !vidShouldBeMuted);
this.client.getMediaHandler().stopUserMediaStream(oldStream);
}
}
async enter() {
if (this.state === GroupCallState.LocalCallFeedUninitialized) {
await this.initLocalCallFeed();
} else if (this.state !== GroupCallState.LocalCallFeedInitialized) {
throw new Error(`Cannot enter call in the "${this.state}" state`);
}
_logger.logger.log(`GroupCall ${this.groupCallId} enter() running`);
this.state = GroupCallState.Entered;
this.client.on(_callEventHandler.CallEventHandlerEvent.Incoming, this.onIncomingCall);
for (const call of this.client.callEventHandler.calls.values()) {
this.onIncomingCall(call);
}
if (!this.useLivekit) {
this.retryCallLoopInterval = setInterval(this.onRetryCallLoop, this.retryCallInterval);
this.activeSpeaker = undefined;
this.onActiveSpeakerLoop();
this.activeSpeakerLoopInterval = setInterval(this.onActiveSpeakerLoop, this.activeSpeakerInterval);
}
}
dispose() {
if (this.localCallFeed) {
this.removeUserMediaFeed(this.localCallFeed);
this.localCallFeed = undefined;
}
if (this.localScreenshareFeed) {
this.client.getMediaHandler().stopScreensharingStream(this.localScreenshareFeed.stream);
this.removeScreenshareFeed(this.localScreenshareFeed);
this.localScreenshareFeed = undefined;
this.localDesktopCapturerSourceId = undefined;
}
this.client.getMediaHandler().stopAllStreams();
if (this.transmitTimer !== null) {
clearTimeout(this.transmitTimer);
this.transmitTimer = null;
}
if (this.retryCallLoopInterval !== undefined) {
clearInterval(this.retryCallLoopInterval);
this.retryCallLoopInterval = undefined;
}
if (this.participantsExpirationTimer !== null) {
clearTimeout(this.participantsExpirationTimer);
this.participantsExpirationTimer = null;
}
if (this.state !== GroupCallState.Entered) {
return;
}
this.forEachCall(call => call.hangup(_call.CallErrorCode.UserHangup, false));
this.activeSpeaker = undefined;
clearInterval(this.activeSpeakerLoopInterval);
this.retryCallCounts.clear();
clearInterval(this.retryCallLoopInterval);
this.client.removeListener(_callEventHandler.CallEventHandlerEvent.Incoming, this.onIncomingCall);
this.stats?.stop();
}
leave() {
this.dispose();
this.state = GroupCallState.LocalCallFeedUninitialized;
}
async terminate(emitStateEvent = true) {
this.dispose();
this.room.off(_roomState.RoomStateEvent.Update, this.onRoomState);
this.client.groupCallEventHandler.groupCalls.delete(this.room.roomId);
this.client.emit(_groupCallEventHandler.GroupCallEventHandlerEvent.Ended, this);
this.state = GroupCallState.Ended;
if (emitStateEvent) {
const existingStateEvent = this.room.currentState.getStateEvents(_event.EventType.GroupCallPrefix, this.groupCallId);
await this.client.sendStateEvent(this.room.roomId, _event.EventType.GroupCallPrefix, _objectSpread(_objectSpread({}, existingStateEvent.getContent()), {}, {
"m.terminated": GroupCallTerminationReason.CallEnded
}), this.groupCallId);
}
}
/*
* Local Usermedia
*/
isLocalVideoMuted() {
if (this.localCallFeed) {
return this.localCallFeed.isVideoMuted();
}
return true;
}
isMicrophoneMuted() {
if (this.localCallFeed) {
return this.localCallFeed.isAudioMuted();
}
return true;
}
/**
* Sets the mute state of the local participants's microphone.
* @param muted - Whether to mute the microphone
* @returns Whether muting/unmuting was successful
*/
async setMicrophoneMuted(muted) {
// hasAudioDevice can block indefinitely if the window has lost focus,
// and it doesn't make much sense to keep a device from being muted, so
// we always allow muted = true changes to go through
if (!muted && !(await this.client.getMediaHandler().hasAudioDevice())) {
return false;
}
const sendUpdatesBefore = !muted && this.isPtt;
// set a timer for the maximum transmit time on PTT calls
if (this.isPtt) {
// Set or clear the max transmit timer
if (!muted && this.isMicrophoneMuted()) {
this.transmitTimer = setTimeout(() => {
this.setMicrophoneMuted(true);
}, this.pttMaxTransmitTime);
} else if (muted && !this.isMicrophoneMuted()) {
if (this.transmitTimer !== null) clearTimeout(this.transmitTimer);
this.transmitTimer = null;
}
}
this.forEachCall(call => call.localUsermediaFeed?.setAudioVideoMuted(muted, null));
const sendUpdates = async () => {
const updates = [];
this.forEachCall(call => updates.push(call.sendMetadataUpdate()));
await Promise.all(updates).catch(e => _logger.logger.info(`GroupCall ${this.groupCallId} setMicrophoneMuted() failed to send some metadata updates`, e));
};
if (sendUpdatesBefore) await sendUpdates();
if (this.localCallFeed) {
_logger.logger.log(`GroupCall ${this.groupCallId} setMicrophoneMuted() (streamId=${this.localCallFeed.stream.id}, muted=${muted})`);
const hasPermission = await this.checkAudioPermissionIfNecessary(muted);
if (!hasPermission) {
return false;
}
this.localCallFeed.setAudioVideoMuted(muted, null);
// I don't believe its actually necessary to enable these tracks: they
// are the one on the GroupCall's own CallFeed and are cloned before being
// given to any of the actual calls, so these tracks don't actually go
// anywhere. Let's do it anyway to avoid confusion.
(0, _call.setTracksEnabled)(this.localCallFeed.stream.getAudioTracks(), !muted);
} else {
_logger.logger.log(`GroupCall ${this.groupCallId} setMicrophoneMuted() no stream muted (muted=${muted})`);
this.initWithAudioMuted = muted;
}
this.forEachCall(call => (0, _call.setTracksEnabled)(call.localUsermediaFeed.stream.getAudioTracks(), !muted && this.callExpected(call)));
this.emit(GroupCallEvent.LocalMuteStateChanged, muted, this.isLocalVideoMuted());
if (!sendUpdatesBefore) await sendUpdates();
return true;
}
/**
* If we allow entering a call without a camera and without video, it can happen that the access rights to the
* devices have not yet been queried. If a stream does not yet have an audio track, we assume that the rights have
* not yet been checked.
*
* `this.client.getMediaHandler().getUserMediaStream` clones the current stream, so it only wanted to be called when
* not Audio Track exists.
* As such, this is a compromise, because, the access rights should always be queried before the call.
*/
async checkAudioPermissionIfNecessary(muted) {
// We needed this here to avoid an error in case user join a call without a device.
try {
if (!muted && this.localCallFeed && !this.localCallFeed.hasAudioTrack) {
const stream = await this.client.getMediaHandler().getUserMediaStream(true, !this.localCallFeed.isVideoMuted());
if (stream?.getTracks().length === 0) {
// if case permission denied to get a stream stop this here
/* istanbul ignore next */
_logger.logger.log(`GroupCall ${this.groupCallId} setMicrophoneMuted() no device to receive local stream, muted=${muted}`);
return false;
}
}
} catch {
/* istanbul ignore next */
_logger.logger.log(`GroupCall ${this.groupCallId} setMicrophoneMuted() no device or permission to receive local stream, muted=${muted}`);
return false;
}
return true;
}
/**
* Sets the mute state of the local participants's video.
* @param muted - Whether to mute the video
* @returns Whether muting/unmuting was successful
*/
async setLocalVideoMuted(muted) {
// hasAudioDevice can block indefinitely if the window has lost focus,
// and it doesn't make much sense to keep a device from being muted, so
// we always allow muted = true changes to go through
if (!muted && !(await this.client.getMediaHandler().hasVideoDevice())) {
return false;
}
if (this.localCallFeed) {
/* istanbul ignore next */
_logger.logger.log(`GroupCall ${this.groupCallId} setLocalVideoMuted() (stream=${this.localCallFeed.stream.id}, muted=${muted})`);
try {
const stream = await this.client.getMediaHandler().getUserMediaStream(true, !muted);
await this.updateLocalUsermediaStream(stream);
this.localCallFeed.setAudioVideoMuted(null, muted);
(0, _call.setTracksEnabled)(this.localCallFeed.stream.getVideoTracks(), !muted);
} catch {
// No permission to video device
/* istanbul ignore next */
_logger.logger.log(`GroupCall ${this.groupCallId} setLocalVideoMuted() no device or permission to receive local stream, muted=${muted}`);
return false;
}
} else {
_logger.logger.log(`GroupCall ${this.groupCallId} setLocalVideoMuted() no stream muted (muted=${muted})`);
this.initWithVideoMuted = muted;
}
const updates = [];
this.forEachCall(call => updates.push(call.setLocalVideoMuted(muted)));
await Promise.all(updates);
// We setTracksEnabled again, independently from the call doing it
// internally, since we might not be expecting the call
this.forEachCall(call => (0, _call.setTracksEnabled)(call.localUsermediaFeed.stream.getVideoTracks(), !muted && this.callExpected(call)));
this.emit(GroupCallEvent.LocalMuteStateChanged, this.isMicrophoneMuted(), muted);
return true;
}
async setScreensharingEnabled(enabled, opts = {}) {
if (enabled === this.isScreensharing()) {
return enabled;
}
if (enabled) {
try {
_logger.logger.log(`GroupCall ${this.groupCallId} setScreensharingEnabled() is asking for screensharing permissions`);
const stream = await this.client.getMediaHandler().getScreensharingStream(opts);
for (const track of stream.getTracks()) {
const onTrackEnded = () => {
this.setScreensharingEnabled(false);
track.removeEventListener("ended", onTrackEnded);
};
track.addEventListener("ended", onTrackEnded);
}
_logger.logger.log(`GroupCall ${this.groupCallId} setScreensharingEnabled() granted screensharing permissions. Setting screensharing enabled on all calls`);
this.localDesktopCapturerSourceId = opts.desktopCapturerSourceId;
this.localScreenshareFeed = new _callFeed.CallFeed({
client: this.client,
roomId: this.room.roomId,
userId: this.client.getUserId(),
deviceId: this.client.getDeviceId(),
stream,
purpose: _callEventTypes.SDPStreamMetadataPurpose.Screenshare,
audioMuted: false,
videoMuted: false
});
this.addScreenshareFeed(this.localScreenshareFeed);
this.emit(GroupCallEvent.LocalScreenshareStateChanged, true, this.localScreenshareFeed, this.localDesktopCapturerSourceId);
// TODO: handle errors
this.forEachCall(call => call.pushLocalFeed(this.localScreenshareFeed.clone()));
return true;
} catch (error) {
if (opts.throwOnFail) throw error;
_logger.logger.error(`GroupCall ${this.groupCallId} setScreensharingEnabled() enabling screensharing error`, error);
this.emit(GroupCallEvent.Error, new GroupCallError(GroupCallErrorCode.NoUserMedia, "Failed to get screen-sharing stream: ", error));
return false;
}
} else {
this.forEachCall(call => {
if (call.localScreensharingFeed) call.removeLocalFeed(call.localScreensharingFeed);
});
this.client.getMediaHandler().stopScreensharingStream(this.localScreenshareFeed.stream);
this.removeScreenshareFeed(this.localScreenshareFeed);
this.localScreenshareFeed = undefined;
this.localDesktopCapturerSourceId = undefined;
this.emit(GroupCallEvent.LocalScreenshareStateChanged, false, undefined, undefined);
return false;
}
}
isScreensharing() {
return !!this.localScreenshareFeed;
}
/**
* Determines whether a given participant expects us to call them (versus
* them calling us).
* @param userId - The participant's user ID.
* @param deviceId - The participant's device ID.
* @returns Whether we need to place an outgoing call to the participant.
*/
wantsOutgoingCall(userId, deviceId) {
const localUserId = this.client.getUserId();
const localDeviceId = this.client.getDeviceId();
return (
// If a user's ID is less than our own, they'll call us
userId >= localUserId && (
// If this is another one of our devices, compare device IDs to tell whether it'll call us
userId !== localUserId || deviceId > localDeviceId)
);
}
/**
* Places calls to all participants that we're responsible for calling.
*/
placeOutgoingCalls() {
let callsChanged = false;
for (const [{
userId
}, participantMap] of this.participants) {
const callMap = this.calls.get(userId) ?? new Map();
for (const [deviceId, participant] of participantMap) {
const prevCall = callMap.get(deviceId);
if (prevCall?.getOpponentSessionId() !== participant.sessionId && this.wantsOutgoingCall(userId, deviceId)) {
callsChanged = true;
if (prevCall !== undefined) {
_logger.logger.debug(`GroupCall ${this.groupCallId} placeOutgoingCalls() replacing call (userId=${userId}, deviceId=${deviceId}, callId=${prevCall.callId})`);
prevCall.hangup(_call.CallErrorCode.NewSession, false);
}
const newCall = (0, _call.createNewMatrixCall)(this.client, this.room.roomId, {
invitee: userId,
opponentDeviceId: deviceId,
opponentSessionId: participant.sessionId,
groupCallId: this.groupCallId
});
if (newCall === null) {
_logger.logger.error(`GroupCall ${this.groupCallId} placeOutgoingCalls() failed to create call (userId=${userId}, device=${deviceId})`);
callMap.delete(deviceId);
} else {
this.initCall(newCall);
callMap.set(deviceId, newCall);
_logger.logger.debug(`GroupCall ${this.groupCallId} placeOutgoingCalls() placing call (userId=${userId}, deviceId=${deviceId}, sessionId=${participant.sessionId})`);
newCall.placeCallWithCallFeeds(this.getLocalFeeds().map(feed => feed.clone()), participant.screensharing).then(() => {
if (this.dataChannelsEnabled) {
newCall.createDataChannel("datachannel", this.dataChannelOptions);
}
}).catch(e => {
_logger.logger.warn(`GroupCall ${this.groupCallId} placeOutgoingCalls() failed to place call (userId=${userId})`, e);
if (e instanceof _call.CallError && e.code === GroupCallErrorCode.UnknownDevice) {
this.emit(GroupCallEvent.Error, e);
} else {
this.emit(GroupCallEvent.Error, new GroupCallError(GroupCallErrorCode.PlaceCallFailed, `Failed to place call to ${userId}`));
}
newCall.hangup(_call.CallErrorCode.SignallingFailed, false);
if (callMap.get(deviceId) === newCall) callMap.delete(deviceId);
});
}
}
}
if (callMap.size > 0) {
this.calls.set(userId, callMap);
} else {
this.calls.delete(userId);
}
}
if (callsChanged) this.emit(GroupCallEvent.CallsChanged, this.calls);
}
/*
* Room Member State
*/
getMemberStateEvents(userId) {
return userId === undefined ? this.room.currentState.getStateEvents(_event.EventType.GroupCallMemberPrefix) : this.room.currentState.getStateEvents(_event.EventType.GroupCallMemberPrefix, userId);
}
initCall(call) {
const opponentMemberId = getCallUserId(call);
if (!opponentMemberId) {
throw new Error("Cannot init call without user id");
}
const onCallFeedsChanged = () => this.onCallFeedsChanged(call);
const onCallStateChanged = (state, oldState) => this.onCallStateChanged(call, state, oldState);
const onCallHangup = this.onCallHangup;
const onCallReplaced = newCall => this.onCallReplaced(call, newCall);
let deviceMap = this.callHandlers.get(opponentMemberId);
if (deviceMap === undefined) {
deviceMap = new Map();
this.callHandlers.set(opponentMemberId, deviceMap);
}
deviceMap.set(call.getOpponentDeviceId(), {
onCallFeedsChanged,
onCallStateChanged,
onCallHangup,
onCallReplaced
});
call.on(_call.CallEvent.FeedsChanged, onCallFeedsChanged);
call.on(_call.CallEvent.State, onCallStateChanged);
call.on(_call.CallEvent.Hangup, onCallHangup);
call.on(_call.CallEvent.Replaced, onCallReplaced);
call.isPtt = this.isPtt;
this.reEmitter.reEmit(call, Object.values(_call.CallEvent));
call.initStats(this.getGroupCallStats());
onCallFeedsChanged();
}
disposeCall(call, hangupReason) {
const opponentMemberId = getCallUserId(call);
const opponentDeviceId = call.getOpponentDeviceId();
if (!opponentMemberId) {
throw new Error("Cannot dispose call without user id");
}
const deviceMap = this.callHandlers.get(opponentMemberId);
const {
onCallFeedsChanged,
onCallStateChanged,
onCallHangup,
onCallReplaced
} = deviceMap.get(opponentDeviceId);
call.removeListener(_call.CallEvent.FeedsChanged, onCallFeedsChanged);
call.removeListener(_call.CallEvent.State, onCallStateChanged);
call.removeListener(_call.CallEvent.Hangup, onCallHangup);
call.removeListener(_call.CallEvent.Replaced, onCallReplaced);
deviceMap.delete(opponentMemberId);
if (deviceMap.size === 0) this.callHandlers.delete(opponentMemberId);
if (call.hangupReason === _call.CallErrorCode.Replaced) {
return;
}
const usermediaFeed = this.getUserMediaFeed(opponentMemberId, opponentDeviceId);
if (usermediaFeed) {
this.removeUserMediaFeed(usermediaFeed);
}
const screenshareFeed = this.getScreenshareFeed(opponentMemberId, opponentDeviceId);
if (screenshareFeed) {
this.removeScreenshareFeed(screenshareFeed);
}
}
/*
* UserMedia CallFeed Event Handlers
*/
getUserMediaFeed(userId, deviceId) {
return this.userMediaFeeds.find(f => f.userId === userId && f.deviceId === deviceId);
}
addUserMediaFeed(callFeed) {
this.userMediaFeeds.push(callFeed);
callFeed.measureVolumeActivity(true);
this.emit(GroupCallEvent.UserMediaFeedsChanged, this.userMediaFeeds);
}
replaceUserMediaFeed(existingFeed, replacementFeed) {
const feedIndex = this.userMediaFeeds.findIndex(f => f.userId === existingFeed.userId && f.deviceId === existingFeed.deviceId);
if (feedIndex === -1) {
throw new Error("Couldn't find user media feed to replace");
}
this.userMediaFeeds.splice(feedIndex, 1, replacementFeed);
existingFeed.dispose();
replacementFeed.measureVolumeActivity(true);
this.emit(GroupCallEvent.UserMediaFeedsChanged, this.userMediaFeeds);
}
removeUserMediaFeed(callFeed) {
const feedIndex = this.userMediaFeeds.findIndex(f => f.userId === callFeed.userId && f.deviceId === callFeed.deviceId);
if (feedIndex === -1) {
throw new Error("Couldn't find user media feed to remove");
}
this.userMediaFeeds.splice(feedIndex, 1);
callFeed.dispose();
this.emit(GroupCallEvent.UserMediaFeedsChanged, this.userMediaFeeds);
if (this.activeSpeaker === callFeed) {
this.activeSpeaker = this.userMediaFeeds[0];
this.emit(GroupCallEvent.ActiveSpeakerChanged, this.activeSpeaker);
}
}
/*
* Screenshare Call Feed Event Handlers
*/
getScreenshareFeed(userId, deviceId) {
return this.screenshareFeeds.find(f => f.userId === userId && f.deviceId === deviceId);
}
addScreenshareFeed(callFeed) {
this.screenshareFeeds.push(callFeed);
this.emit(GroupCallEvent.ScreenshareFeedsChanged, this.screenshareFeeds);
}
replaceScreenshareFeed(existingFeed, replacementFeed) {
const feedIndex = this.screenshareFeeds.findIndex(f => f.userId === existingFeed.userId && f.deviceId === existingFeed.deviceId);
if (feedIndex === -1) {
throw new Error("Couldn't find screenshare feed to replace");
}
this.screenshareFeeds.splice(feedIndex, 1, replacementFeed);
existingFeed.dispose();
this.emit(GroupCallEvent.ScreenshareFeedsChanged, this.screenshareFeeds);
}
removeScreenshareFeed(callFeed) {
const feedIndex = this.screenshareFeeds.findIndex(f => f.userId === callFeed.userId && f.deviceId === callFeed.deviceId);
if (feedIndex === -1) {
throw new Error("Couldn't find screenshare feed to remove");
}
this.screenshareFeeds.splice(feedIndex, 1);
callFeed.dispose();
this.emit(GroupCallEvent.ScreenshareFeedsChanged, this.screenshareFeeds);
}
/**
* Recalculates and updates the participant map to match the room state.
*/
updateParticipants() {
const localMember = this.room.getMember(this.client.getUserId());
if (!localMember) {
// The client hasn't fetched enough of the room state to get our own member
// event. This probably shouldn't happen, but sanity check & exit for now.
_logger.logger.warn(`GroupCall ${this.groupCallId} updateParticipants() tried to update participants before local room member is available`);
return;
}
if (this.participantsExpirationTimer !== null) {
clearTimeout(this.participantsExpirationTimer);
this.participantsExpirationTimer = null;
}
if (this.state === GroupCallState.Ended) {
this.participants = new Map();
return;
}
const participants = new Map();
const now = Date.now();
const entered = this.state === GroupCallState.Entered || this.enteredViaAnotherSession;
let nextExpiration = Infinity;
for (const e of this.getMemberStateEvents()) {
const member = this.room.getMember(e.getStateKey());
const content = e.getContent();
const calls = Array.isArray(content["m.calls"]) ? content["m.calls"] : [];
const call = calls.find(call => call["m.call_id"] === this.groupCallId);
const devices = Array.isArray(call?.["m.devices"]) ? call["m.devices"] : [];
// Filter out invalid and expired devices
let validDevices = devices.filter(d => typeof d.device_id === "string" && typeof d.session_id === "string" && typeof d.expires_ts === "number" && d.expires_ts > now && Array.isArray(d.feeds));
// Apply local echo for the unentered case
if (!entered && member?.userId === this.client.getUserId()) {
validDevices = validDevices.filter(d => d.device_id !== this.client.getDeviceId());
}
// Must have a connected device and be joined to the room
if (validDevices.length > 0 && member?.membership === _membership.KnownMembership.Join) {
const deviceMap = new Map();
participants.set(member, deviceMap);
for (const d of validDevices) {
deviceMap.set(d.device_id, {
sessionId: d.session_id,
screensharing: d.feeds.some(f => f.purpose === _callEventTypes.SDPStreamMetadataPurpose.Screenshare)
});
if (d.expires_ts < nextExpiration) nextExpiration = d.expires_ts;
}
}
}
// Apply local echo for the entered case
if (entered) {
let deviceMap = participants.get(localMember);
if (deviceMap === undefined) {
deviceMap = new Map();
participants.set(localMember, deviceMap);
}
if (!deviceMap.has(this.client.getDeviceId())) {
deviceMap.set(this.client.getDeviceId(), {
sessionId: this.client.getSessionId(),
screensharing: this.getLocalFeeds().some(f => f.purpose === _callEventTypes.SDPStreamMetadataPurpose.Screenshare)
});
}
}
this.participants = participants;
if (nextExpiration < Infinity) {
this.participantsExpirationTimer = setTimeout(() => this.updateParticipants(), nextExpiration - now);
}
}
/**
* Updates the local user's member state with the devices returned by the given function.
* @param fn - A function from the current devices to the new devices. If it
* returns null, the update will be skipped.
* @param keepAlive - Whether the request should outlive the window.
*/
async updateDevices(fn, keepAlive = false) {
const now = Date.now();
const localUserId = this.client.getUserId();
const event = this.getMemberStateEvents(localUserId);
const content = event?.getContent() ?? {};
const calls = Array.isArray(content["m.calls"]) ? content["m.calls"] : [];
let call = null;
const otherCalls = [];
for (const c of calls) {
if (c["m.call_id"] === this.groupCallId) {
call = c;
} else {
otherCalls.push(c);
}
}
if (call === null) call = {};
const devices = Array.isArray(call["m.devices"]) ? call["m.devices"] : [];
// Filter out invalid and expired devices
const validDevices = devices.filter(d => typeof d.device_id === "string" && typeof d.session_id === "string" && typeof d.expires_ts === "number" && d.expires_ts > now && Array.isArray(d.feeds));
const newDevices = fn(validDevices);
if (newDevices === null) return;
const newCalls = [...otherCalls];
if (newDevices.length > 0) {
newCalls.push(_objectSpread(_objectSpread({}, call), {}, {
"m.call_id": this.groupCallId,
"m.devices": newDevices
}));
}
const newContent = {
"m.calls": newCalls
};
await this.client.sendStateEvent(this.room.roomId, _event.EventType.GroupCallMemberPrefix, newContent, localUserId, {
keepAlive
});
}
async addDeviceToMemberState() {
await this.updateDevices(devices => [...devices.filter(d => d.device_id !== this.client.getDeviceId()), {
device_id: this.client.getDeviceId(),
session_id: this.client.getSessionId(),
expires_ts: Date.now() + DEVICE_TIMEOUT,
feeds: this.getLocalFeeds().map(feed => ({
purpose: feed.purpose
}))
// TODO: Add data channels
}]);
}
async updateMemberState() {
// Clear the old update interval before proceeding
if (this.resendMemberStateTimer !== null) {
clearInterval(this.resendMemberStateTimer);
this.resendMemberStateTimer = null;
}
if (this.state === GroupCallState.Entered) {
// Add the local device
await this.addDeviceToMemberState();
// Resend the state event every so often so it doesn't become stale
this.resendMemberStateTimer = setInterval(async () => {
_logger.logger.log(`GroupCall ${this.groupCallId} updateMemberState() resending call member state"`);
try {
await this.addDeviceToMemberState();
} catch (e) {
_logger.logger.error(`GroupCall ${this.groupCallId} updateMemberState() failed to resend call member state`, e);
}
}, DEVICE_TIMEOUT * 3 / 4);
} else {
// Remove the local device
await this.updateDevices(devices => devices.filter(d => d.device_id !== this.client.getDeviceId()), true);
}
}
/**
* Cleans up our member state by filtering out logged out devices, inactive
* devices, and our own device (if we know we haven't entered).
*/
async cleanMemberState() {
const {
devices: myDevices
} = await this.client.getDevices();
const deviceMap = new Map(myDevices.map(d => [d.device_id, d]));
// updateDevices takes care of filtering out inactive devices for us
await this.updateDevices(devices => {
const newDevices = devices.filter(d => {
const device = deviceMap.get(d.device_id);
return device?.last_seen_ts !== undefined && !(d.device_id === this.client.getDeviceId() && this.state !== GroupCallState.Entered && !this.enteredViaAnotherSession);
});
// Skip the update if the devices are unchanged
return newDevices.length === devices.length ? null : newDevices;
});
}
getGroupCallStats() {
if (this.stats === undefined) {
const userID = this.client.getUserId() || "unknown";
this.stats = new _groupCallStats.GroupCallStats(this.groupCallId, userID, this.statsCollectIntervalTime);
this.stats.reports.on(_statsReport.StatsReport.CONNECTION_STATS, this.onConnectionStats);
this.stats.reports.on(_statsReport.StatsReport.BYTE_SENT_STATS, this.onByteSentStats);
this.stats.reports.on(_statsReport.StatsReport.SUMMARY_STATS, this.onSummaryStats);
this.stats.reports.on(_statsReport.StatsReport.CALL_FEED_REPORT, this.onCallFeedReport);
}
return this.stats;
}
setGroupCallStatsInterval(interval) {
this.statsCollectIntervalTime = interval;
if (this.stats !== undefined) {
this.stats.stop();
this.stats.setInterval(interval);
if (interval > 0) {
this.stats.start();
}
}
}
}
exports.GroupCall = GroupCall;