LCOV - code coverage report
Current view: top level - lib/src/voip - call_session.dart (source / functions) Hit Total Coverage
Test: merged.info Lines: 366 819 44.7 %
Date: 2024-09-04 20:26:16 Functions: 0 0 -

          Line data    Source code
       1             : /*
       2             :  *   Famedly Matrix SDK
       3             :  *   Copyright (C) 2021 Famedly GmbH
       4             :  *
       5             :  *   This program is free software: you can redistribute it and/or modify
       6             :  *   it under the terms of the GNU Affero General Public License as
       7             :  *   published by the Free Software Foundation, either version 3 of the
       8             :  *   License, or (at your option) any later version.
       9             :  *
      10             :  *   This program is distributed in the hope that it will be useful,
      11             :  *   but WITHOUT ANY WARRANTY; without even the implied warranty of
      12             :  *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
      13             :  *   GNU Affero General Public License for more details.
      14             :  *
      15             :  *   You should have received a copy of the GNU Affero General Public License
      16             :  *   along with this program.  If not, see <https://www.gnu.org/licenses/>.
      17             :  */
      18             : 
      19             : import 'dart:async';
      20             : import 'dart:core';
      21             : import 'dart:math';
      22             : 
      23             : import 'package:collection/collection.dart';
      24             : import 'package:webrtc_interface/webrtc_interface.dart';
      25             : 
      26             : import 'package:matrix/matrix.dart';
      27             : import 'package:matrix/src/utils/cached_stream_controller.dart';
      28             : import 'package:matrix/src/voip/models/call_options.dart';
      29             : import 'package:matrix/src/voip/models/voip_id.dart';
      30             : import 'package:matrix/src/voip/utils/stream_helper.dart';
      31             : import 'package:matrix/src/voip/utils/user_media_constraints.dart';
      32             : 
      33             : /// Parses incoming matrix events to the apropriate webrtc layer underneath using
      34             : /// a `WebRTCDelegate`. This class is also responsible for sending any outgoing
      35             : /// matrix events if required (f.ex m.call.answer).
      36             : ///
      37             : /// Handles p2p calls as well individual mesh group call peer connections.
      38             : class CallSession {
      39           2 :   CallSession(this.opts);
      40             :   CallOptions opts;
      41           6 :   CallType get type => opts.type;
      42           6 :   Room get room => opts.room;
      43           6 :   VoIP get voip => opts.voip;
      44           6 :   String? get groupCallId => opts.groupCallId;
      45           6 :   String get callId => opts.callId;
      46           6 :   String get localPartyId => opts.localPartyId;
      47             : 
      48           6 :   CallDirection get direction => opts.dir;
      49             : 
      50           4 :   CallState get state => _state;
      51             :   CallState _state = CallState.kFledgling;
      52             : 
      53           0 :   bool get isOutgoing => direction == CallDirection.kOutgoing;
      54             : 
      55           0 :   bool get isRinging => state == CallState.kRinging;
      56             : 
      57             :   RTCPeerConnection? pc;
      58             : 
      59             :   final _remoteCandidates = <RTCIceCandidate>[];
      60             :   final _localCandidates = <RTCIceCandidate>[];
      61             : 
      62           0 :   AssertedIdentity? get remoteAssertedIdentity => _remoteAssertedIdentity;
      63             :   AssertedIdentity? _remoteAssertedIdentity;
      64             : 
      65           6 :   bool get callHasEnded => state == CallState.kEnded;
      66             : 
      67             :   bool _iceGatheringFinished = false;
      68             : 
      69             :   bool _inviteOrAnswerSent = false;
      70             : 
      71           0 :   bool get localHold => _localHold;
      72             :   bool _localHold = false;
      73             : 
      74           0 :   bool get remoteOnHold => _remoteOnHold;
      75             :   bool _remoteOnHold = false;
      76             : 
      77             :   bool _answeredByUs = false;
      78             : 
      79             :   bool _speakerOn = false;
      80             : 
      81             :   bool _makingOffer = false;
      82             : 
      83             :   bool _ignoreOffer = false;
      84             : 
      85           0 :   bool get answeredByUs => _answeredByUs;
      86             : 
      87           8 :   Client get client => opts.room.client;
      88             : 
      89             :   /// The local participant in the call, with id userId + deviceId
      90           6 :   CallParticipant? get localParticipant => voip.localParticipant;
      91             : 
      92             :   /// The ID of the user being called. If omitted, any user in the room can answer.
      93             :   String? remoteUserId;
      94             : 
      95           0 :   User? get remoteUser => remoteUserId != null
      96           0 :       ? room.unsafeGetUserFromMemoryOrFallback(remoteUserId!)
      97             :       : null;
      98             : 
      99             :   /// The ID of the device being called. If omitted, any device for the remoteUserId in the room can answer.
     100             :   String? remoteDeviceId;
     101             :   String? remoteSessionId; // same
     102             :   String? remotePartyId; // random string
     103             : 
     104             :   CallErrorCode? hangupReason;
     105             :   CallSession? _successor;
     106             :   int _toDeviceSeq = 0;
     107             :   int _candidateSendTries = 0;
     108           4 :   bool get isGroupCall => groupCallId != null;
     109             :   bool _missedCall = true;
     110             : 
     111             :   final CachedStreamController<CallSession> onCallStreamsChanged =
     112             :       CachedStreamController();
     113             : 
     114             :   final CachedStreamController<CallSession> onCallReplaced =
     115             :       CachedStreamController();
     116             : 
     117             :   final CachedStreamController<CallSession> onCallHangupNotifierForGroupCalls =
     118             :       CachedStreamController();
     119             : 
     120             :   final CachedStreamController<CallState> onCallStateChanged =
     121             :       CachedStreamController();
     122             : 
     123             :   final CachedStreamController<CallStateChange> onCallEventChanged =
     124             :       CachedStreamController();
     125             : 
     126             :   final CachedStreamController<WrappedMediaStream> onStreamAdd =
     127             :       CachedStreamController();
     128             : 
     129             :   final CachedStreamController<WrappedMediaStream> onStreamRemoved =
     130             :       CachedStreamController();
     131             : 
     132             :   SDPStreamMetadata? _remoteSDPStreamMetadata;
     133             :   final List<RTCRtpSender> _usermediaSenders = [];
     134             :   final List<RTCRtpSender> _screensharingSenders = [];
     135             :   final List<WrappedMediaStream> _streams = <WrappedMediaStream>[];
     136             : 
     137           2 :   List<WrappedMediaStream> get getLocalStreams =>
     138          10 :       _streams.where((element) => element.isLocal()).toList();
     139           0 :   List<WrappedMediaStream> get getRemoteStreams =>
     140           0 :       _streams.where((element) => !element.isLocal()).toList();
     141             : 
     142           0 :   bool get isLocalVideoMuted => localUserMediaStream?.isVideoMuted() ?? false;
     143             : 
     144           0 :   bool get isMicrophoneMuted => localUserMediaStream?.isAudioMuted() ?? false;
     145             : 
     146           0 :   bool get screensharingEnabled => localScreenSharingStream != null;
     147             : 
     148           2 :   WrappedMediaStream? get localUserMediaStream {
     149           4 :     final stream = getLocalStreams.where(
     150           6 :         (element) => element.purpose == SDPStreamMetadataPurpose.Usermedia);
     151           2 :     if (stream.isNotEmpty) {
     152           2 :       return stream.first;
     153             :     }
     154             :     return null;
     155             :   }
     156             : 
     157           2 :   WrappedMediaStream? get localScreenSharingStream {
     158           4 :     final stream = getLocalStreams.where(
     159           6 :         (element) => element.purpose == SDPStreamMetadataPurpose.Screenshare);
     160           2 :     if (stream.isNotEmpty) {
     161           0 :       return stream.first;
     162             :     }
     163             :     return null;
     164             :   }
     165             : 
     166           0 :   WrappedMediaStream? get remoteUserMediaStream {
     167           0 :     final stream = getRemoteStreams.where(
     168           0 :         (element) => element.purpose == SDPStreamMetadataPurpose.Usermedia);
     169           0 :     if (stream.isNotEmpty) {
     170           0 :       return stream.first;
     171             :     }
     172             :     return null;
     173             :   }
     174             : 
     175           0 :   WrappedMediaStream? get remoteScreenSharingStream {
     176           0 :     final stream = getRemoteStreams.where(
     177           0 :         (element) => element.purpose == SDPStreamMetadataPurpose.Screenshare);
     178           0 :     if (stream.isNotEmpty) {
     179           0 :       return stream.first;
     180             :     }
     181             :     return null;
     182             :   }
     183             : 
     184             :   /// returns whether a 1:1 call sender has video tracks
     185           0 :   Future<bool> hasVideoToSend() async {
     186           0 :     final transceivers = await pc!.getTransceivers();
     187           0 :     final localUserMediaVideoTrack = localUserMediaStream?.stream
     188           0 :         ?.getTracks()
     189           0 :         .singleWhereOrNull((track) => track.kind == 'video');
     190             : 
     191             :     // check if we have a video track locally and have transceivers setup correctly.
     192             :     return localUserMediaVideoTrack != null &&
     193           0 :         transceivers.singleWhereOrNull((transceiver) =>
     194           0 :                 transceiver.sender.track?.id == localUserMediaVideoTrack.id) !=
     195             :             null;
     196             :   }
     197             : 
     198             :   Timer? _inviteTimer;
     199             :   Timer? _ringingTimer;
     200             : 
     201             :   // outgoing call
     202           2 :   Future<void> initOutboundCall(CallType type) async {
     203           2 :     await _preparePeerConnection();
     204           2 :     setCallState(CallState.kCreateOffer);
     205           2 :     final stream = await _getUserMedia(type);
     206             :     if (stream != null) {
     207           2 :       await addLocalStream(stream, SDPStreamMetadataPurpose.Usermedia);
     208             :     }
     209             :   }
     210             : 
     211             :   // incoming call
     212           2 :   Future<void> initWithInvite(CallType type, RTCSessionDescription offer,
     213             :       SDPStreamMetadata? metadata, int lifetime, bool isGroupCall) async {
     214             :     if (!isGroupCall) {
     215             :       // glare fixes
     216          10 :       final prevCallId = voip.incomingCallRoomId[room.id];
     217             :       if (prevCallId != null) {
     218             :         // This is probably an outbound call, but we already have a incoming invite, so let's terminate it.
     219             :         final prevCall =
     220          12 :             voip.calls[VoipId(roomId: room.id, callId: prevCallId)];
     221             :         if (prevCall != null) {
     222           2 :           if (prevCall._inviteOrAnswerSent) {
     223           4 :             Logs().d('[glare] invite or answer sent, lex compare now');
     224           8 :             if (callId.compareTo(prevCall.callId) > 0) {
     225           4 :               Logs().d(
     226           6 :                   '[glare] new call $callId needs to be canceled because the older one ${prevCall.callId} has a smaller lex');
     227           2 :               await hangup(reason: CallErrorCode.unknownError);
     228           4 :               voip.currentCID =
     229           8 :                   VoipId(roomId: room.id, callId: prevCall.callId);
     230             :             } else {
     231           0 :               Logs().d(
     232           0 :                   '[glare] nice, lex of newer call $callId is smaller auto accept this here');
     233             : 
     234             :               /// These fixes do not work all the time because sometimes the code
     235             :               /// is at an unrecoverable stage (invite already sent when we were
     236             :               /// checking if we want to send a invite), so commented out answering
     237             :               /// automatically to prevent unknown cases
     238             :               // await answer();
     239             :               // return;
     240             :             }
     241             :           } else {
     242           4 :             Logs().d(
     243           4 :                 '[glare] ${prevCall.callId} was still preparing prev call, nvm now cancel it');
     244           2 :             await prevCall.hangup(reason: CallErrorCode.unknownError);
     245             :           }
     246             :         }
     247             :       }
     248             :     }
     249             : 
     250           2 :     await _preparePeerConnection();
     251             :     if (metadata != null) {
     252           0 :       _updateRemoteSDPStreamMetadata(metadata);
     253             :     }
     254           4 :     await pc!.setRemoteDescription(offer);
     255             : 
     256             :     /// only add local stream if it is not a group call.
     257             :     if (!isGroupCall) {
     258           2 :       final stream = await _getUserMedia(type);
     259             :       if (stream != null) {
     260           2 :         await addLocalStream(stream, SDPStreamMetadataPurpose.Usermedia);
     261             :       } else {
     262             :         // we don't have a localstream, call probably crashed
     263             :         // for sanity
     264           0 :         if (state == CallState.kEnded) {
     265             :           return;
     266             :         }
     267             :       }
     268             :     }
     269             : 
     270           2 :     setCallState(CallState.kRinging);
     271             : 
     272           4 :     _ringingTimer = Timer(CallTimeouts.callInviteLifetime, () {
     273           0 :       if (state == CallState.kRinging) {
     274           0 :         Logs().v('[VOIP] Call invite has expired. Hanging up.');
     275             : 
     276           0 :         fireCallEvent(CallStateChange.kHangup);
     277           0 :         hangup(reason: CallErrorCode.inviteTimeout);
     278             :       }
     279           0 :       _ringingTimer?.cancel();
     280           0 :       _ringingTimer = null;
     281             :     });
     282             :   }
     283             : 
     284           0 :   Future<void> answerWithStreams(List<WrappedMediaStream> callFeeds) async {
     285           0 :     if (_inviteOrAnswerSent) return;
     286           0 :     Logs().d('answering call $callId');
     287           0 :     await gotCallFeedsForAnswer(callFeeds);
     288             :   }
     289             : 
     290           0 :   Future<void> replacedBy(CallSession newCall) async {
     291           0 :     if (state == CallState.kWaitLocalMedia) {
     292           0 :       Logs().v('Telling new call to wait for local media');
     293           0 :     } else if (state == CallState.kCreateOffer ||
     294           0 :         state == CallState.kInviteSent) {
     295           0 :       Logs().v('Handing local stream to new call');
     296           0 :       await newCall.gotCallFeedsForAnswer(getLocalStreams);
     297             :     }
     298           0 :     _successor = newCall;
     299           0 :     onCallReplaced.add(newCall);
     300             :     // ignore: unawaited_futures
     301           0 :     hangup(reason: CallErrorCode.replaced);
     302             :   }
     303             : 
     304           0 :   Future<void> sendAnswer(RTCSessionDescription answer) async {
     305           0 :     final callCapabilities = CallCapabilities()
     306           0 :       ..dtmf = false
     307           0 :       ..transferee = false;
     308             : 
     309           0 :     final metadata = SDPStreamMetadata({
     310           0 :       localUserMediaStream!.stream!.id: SDPStreamPurpose(
     311             :           purpose: SDPStreamMetadataPurpose.Usermedia,
     312           0 :           audio_muted: localUserMediaStream!.stream!.getAudioTracks().isEmpty,
     313           0 :           video_muted: localUserMediaStream!.stream!.getVideoTracks().isEmpty)
     314             :     });
     315             : 
     316           0 :     final res = await sendAnswerCall(room, callId, answer.sdp!, localPartyId,
     317           0 :         type: answer.type!, capabilities: callCapabilities, metadata: metadata);
     318           0 :     Logs().v('[VOIP] answer res => $res');
     319             :   }
     320             : 
     321           0 :   Future<void> gotCallFeedsForAnswer(List<WrappedMediaStream> callFeeds) async {
     322           0 :     if (state == CallState.kEnded) return;
     323             : 
     324           0 :     for (final element in callFeeds) {
     325           0 :       await addLocalStream(await element.stream!.clone(), element.purpose);
     326             :     }
     327             : 
     328           0 :     await answer();
     329             :   }
     330             : 
     331           0 :   Future<void> placeCallWithStreams(
     332             :     List<WrappedMediaStream> callFeeds, {
     333             :     bool requestScreenSharing = false,
     334             :   }) async {
     335             :     // create the peer connection now so it can be gathering candidates while we get user
     336             :     // media (assuming a candidate pool size is configured)
     337           0 :     await _preparePeerConnection();
     338           0 :     await gotCallFeedsForInvite(
     339             :       callFeeds,
     340             :       requestScreenSharing: requestScreenSharing,
     341             :     );
     342             :   }
     343             : 
     344           0 :   Future<void> gotCallFeedsForInvite(
     345             :     List<WrappedMediaStream> callFeeds, {
     346             :     bool requestScreenSharing = false,
     347             :   }) async {
     348           0 :     if (_successor != null) {
     349           0 :       await _successor!.gotCallFeedsForAnswer(callFeeds);
     350             :       return;
     351             :     }
     352           0 :     if (state == CallState.kEnded) {
     353           0 :       await cleanUp();
     354             :       return;
     355             :     }
     356             : 
     357           0 :     for (final element in callFeeds) {
     358           0 :       await addLocalStream(await element.stream!.clone(), element.purpose);
     359             :     }
     360             : 
     361             :     if (requestScreenSharing) {
     362           0 :       await pc!.addTransceiver(
     363             :           kind: RTCRtpMediaType.RTCRtpMediaTypeVideo,
     364             :           init:
     365           0 :               RTCRtpTransceiverInit(direction: TransceiverDirection.RecvOnly));
     366             :     }
     367             : 
     368           0 :     setCallState(CallState.kCreateOffer);
     369             : 
     370           0 :     Logs().d('gotUserMediaForInvite');
     371             :     // Now we wait for the negotiationneeded event
     372             :   }
     373             : 
     374           0 :   Future<void> onAnswerReceived(
     375             :       RTCSessionDescription answer, SDPStreamMetadata? metadata) async {
     376             :     if (metadata != null) {
     377           0 :       _updateRemoteSDPStreamMetadata(metadata);
     378             :     }
     379             : 
     380           0 :     if (direction == CallDirection.kOutgoing) {
     381           0 :       setCallState(CallState.kConnecting);
     382           0 :       await pc!.setRemoteDescription(answer);
     383           0 :       for (final candidate in _remoteCandidates) {
     384           0 :         await pc!.addCandidate(candidate);
     385             :       }
     386             :     }
     387           0 :     if (remotePartyId != null) {
     388             :       /// Send select_answer event.
     389           0 :       await sendSelectCallAnswer(
     390           0 :           opts.room, callId, localPartyId, remotePartyId!);
     391             :     }
     392             :   }
     393             : 
     394           0 :   Future<void> onNegotiateReceived(
     395             :       SDPStreamMetadata? metadata, RTCSessionDescription description) async {
     396           0 :     final polite = direction == CallDirection.kIncoming;
     397             : 
     398             :     // Here we follow the perfect negotiation logic from
     399             :     // https://developer.mozilla.org/en-US/docs/Web/API/WebRTC_API/Perfect_negotiation
     400           0 :     final offerCollision = ((description.type == 'offer') &&
     401           0 :         (_makingOffer ||
     402           0 :             pc!.signalingState != RTCSignalingState.RTCSignalingStateStable));
     403             : 
     404           0 :     _ignoreOffer = !polite && offerCollision;
     405           0 :     if (_ignoreOffer) {
     406           0 :       Logs().i('Ignoring colliding negotiate event because we\'re impolite');
     407             :       return;
     408             :     }
     409             : 
     410           0 :     final prevLocalOnHold = await isLocalOnHold();
     411             : 
     412             :     if (metadata != null) {
     413           0 :       _updateRemoteSDPStreamMetadata(metadata);
     414             :     }
     415             : 
     416             :     try {
     417           0 :       await pc!.setRemoteDescription(description);
     418             :       RTCSessionDescription? answer;
     419           0 :       if (description.type == 'offer') {
     420             :         try {
     421           0 :           answer = await pc!.createAnswer({});
     422             :         } catch (e) {
     423           0 :           await terminate(CallParty.kLocal, CallErrorCode.createAnswer, true);
     424             :           rethrow;
     425             :         }
     426             : 
     427           0 :         await sendCallNegotiate(
     428           0 :             room,
     429           0 :             callId,
     430           0 :             CallTimeouts.defaultCallEventLifetime.inMilliseconds,
     431           0 :             localPartyId,
     432           0 :             answer.sdp!,
     433           0 :             type: answer.type!);
     434           0 :         await pc!.setLocalDescription(answer);
     435             :       }
     436             :     } catch (e, s) {
     437           0 :       Logs().e('[VOIP] onNegotiateReceived => ', e, s);
     438           0 :       await _getLocalOfferFailed(e);
     439             :       return;
     440             :     }
     441             : 
     442           0 :     final newLocalOnHold = await isLocalOnHold();
     443           0 :     if (prevLocalOnHold != newLocalOnHold) {
     444           0 :       _localHold = newLocalOnHold;
     445           0 :       fireCallEvent(CallStateChange.kLocalHoldUnhold);
     446             :     }
     447             :   }
     448             : 
     449           0 :   Future<void> updateMediaDeviceForCall() async {
     450           0 :     await updateMediaDevice(
     451           0 :       voip.delegate,
     452             :       MediaKind.audio,
     453           0 :       _usermediaSenders,
     454             :     );
     455           0 :     await updateMediaDevice(
     456           0 :       voip.delegate,
     457             :       MediaKind.video,
     458           0 :       _usermediaSenders,
     459             :     );
     460             :   }
     461             : 
     462           0 :   void _updateRemoteSDPStreamMetadata(SDPStreamMetadata metadata) {
     463           0 :     _remoteSDPStreamMetadata = metadata;
     464           0 :     _remoteSDPStreamMetadata?.sdpStreamMetadatas
     465           0 :         .forEach((streamId, sdpStreamMetadata) {
     466           0 :       Logs().i(
     467           0 :           'Stream purpose update: \nid = "$streamId", \npurpose = "${sdpStreamMetadata.purpose}",  \naudio_muted = ${sdpStreamMetadata.audio_muted}, \nvideo_muted = ${sdpStreamMetadata.video_muted}');
     468             :     });
     469           0 :     for (final wpstream in getRemoteStreams) {
     470           0 :       final streamId = wpstream.stream!.id;
     471           0 :       final purpose = metadata.sdpStreamMetadatas[streamId];
     472             :       if (purpose != null) {
     473             :         wpstream
     474           0 :             .setAudioMuted(metadata.sdpStreamMetadatas[streamId]!.audio_muted);
     475             :         wpstream
     476           0 :             .setVideoMuted(metadata.sdpStreamMetadatas[streamId]!.video_muted);
     477           0 :         wpstream.purpose = metadata.sdpStreamMetadatas[streamId]!.purpose;
     478             :       } else {
     479           0 :         Logs().i('Not found purpose for remote stream $streamId, remove it?');
     480           0 :         wpstream.stopped = true;
     481           0 :         fireCallEvent(CallStateChange.kFeedsChanged);
     482             :       }
     483             :     }
     484             :   }
     485             : 
     486           0 :   Future<void> onSDPStreamMetadataReceived(SDPStreamMetadata metadata) async {
     487           0 :     _updateRemoteSDPStreamMetadata(metadata);
     488           0 :     fireCallEvent(CallStateChange.kFeedsChanged);
     489             :   }
     490             : 
     491           2 :   Future<void> onCandidatesReceived(List<dynamic> candidates) async {
     492           4 :     for (final json in candidates) {
     493           2 :       final candidate = RTCIceCandidate(
     494           2 :         json['candidate'],
     495           2 :         json['sdpMid'] ?? '',
     496           4 :         json['sdpMLineIndex']?.round() ?? 0,
     497             :       );
     498             : 
     499           2 :       if (!candidate.isValid) {
     500           0 :         Logs().w(
     501           0 :             '[VOIP] onCandidatesReceived => skip invalid candidate ${candidate.toMap()}');
     502             :         continue;
     503             :       }
     504             : 
     505           4 :       if (direction == CallDirection.kOutgoing &&
     506           0 :           pc != null &&
     507           0 :           await pc!.getRemoteDescription() == null) {
     508           0 :         _remoteCandidates.add(candidate);
     509             :         continue;
     510             :       }
     511             : 
     512           4 :       if (pc != null && _inviteOrAnswerSent) {
     513             :         try {
     514           0 :           await pc!.addCandidate(candidate);
     515             :         } catch (e, s) {
     516           0 :           Logs().e('[VOIP] onCandidatesReceived => ', e, s);
     517             :         }
     518             :       } else {
     519           4 :         _remoteCandidates.add(candidate);
     520             :       }
     521             :     }
     522             :   }
     523             : 
     524           0 :   void onAssertedIdentityReceived(AssertedIdentity identity) {
     525           0 :     _remoteAssertedIdentity = identity;
     526           0 :     fireCallEvent(CallStateChange.kAssertedIdentityChanged);
     527             :   }
     528             : 
     529           0 :   Future<bool> setScreensharingEnabled(bool enabled) async {
     530             :     // Skip if there is nothing to do
     531           0 :     if (enabled && localScreenSharingStream != null) {
     532           0 :       Logs().w(
     533             :           'There is already a screensharing stream - there is nothing to do!');
     534             :       return true;
     535           0 :     } else if (!enabled && localScreenSharingStream == null) {
     536           0 :       Logs().w(
     537             :           'There already isn\'t a screensharing stream - there is nothing to do!');
     538             :       return false;
     539             :     }
     540             : 
     541           0 :     Logs().d('Set screensharing enabled? $enabled');
     542             : 
     543             :     if (enabled) {
     544             :       try {
     545           0 :         final stream = await _getDisplayMedia();
     546             :         if (stream == null) {
     547             :           return false;
     548             :         }
     549           0 :         for (final track in stream.getTracks()) {
     550             :           // screen sharing should only have 1 video track anyway, so this only
     551             :           // fires once
     552           0 :           track.onEnded = () async {
     553           0 :             await setScreensharingEnabled(false);
     554             :           };
     555             :         }
     556             : 
     557           0 :         await addLocalStream(stream, SDPStreamMetadataPurpose.Screenshare);
     558             :         return true;
     559             :       } catch (err) {
     560           0 :         fireCallEvent(CallStateChange.kError);
     561             :         return false;
     562             :       }
     563             :     } else {
     564             :       try {
     565           0 :         for (final sender in _screensharingSenders) {
     566           0 :           await pc!.removeTrack(sender);
     567             :         }
     568           0 :         for (final track in localScreenSharingStream!.stream!.getTracks()) {
     569           0 :           await track.stop();
     570             :         }
     571           0 :         localScreenSharingStream!.stopped = true;
     572           0 :         await _removeStream(localScreenSharingStream!.stream!);
     573           0 :         fireCallEvent(CallStateChange.kFeedsChanged);
     574             :         return false;
     575             :       } catch (e, s) {
     576           0 :         Logs().e('[VOIP] stopping screen sharing track failed', e, s);
     577             :         return false;
     578             :       }
     579             :     }
     580             :   }
     581             : 
     582           2 :   Future<void> addLocalStream(
     583             :     MediaStream stream,
     584             :     String purpose, {
     585             :     bool addToPeerConnection = true,
     586             :   }) async {
     587             :     final existingStream =
     588           4 :         getLocalStreams.where((element) => element.purpose == purpose);
     589           2 :     if (existingStream.isNotEmpty) {
     590           0 :       existingStream.first.setNewStream(stream);
     591             :     } else {
     592           2 :       final newStream = WrappedMediaStream(
     593           2 :         participant: localParticipant!,
     594           4 :         room: opts.room,
     595             :         stream: stream,
     596             :         purpose: purpose,
     597           2 :         client: client,
     598           4 :         audioMuted: stream.getAudioTracks().isEmpty,
     599           4 :         videoMuted: stream.getVideoTracks().isEmpty,
     600           2 :         isGroupCall: groupCallId != null,
     601           2 :         pc: pc,
     602           2 :         voip: voip,
     603             :       );
     604           4 :       _streams.add(newStream);
     605           4 :       onStreamAdd.add(newStream);
     606             :     }
     607             : 
     608             :     if (addToPeerConnection) {
     609           2 :       if (purpose == SDPStreamMetadataPurpose.Screenshare) {
     610           0 :         _screensharingSenders.clear();
     611           0 :         for (final track in stream.getTracks()) {
     612           0 :           _screensharingSenders.add(await pc!.addTrack(track, stream));
     613             :         }
     614           2 :       } else if (purpose == SDPStreamMetadataPurpose.Usermedia) {
     615           4 :         _usermediaSenders.clear();
     616           2 :         for (final track in stream.getTracks()) {
     617           0 :           _usermediaSenders.add(await pc!.addTrack(track, stream));
     618             :         }
     619             :       }
     620             :     }
     621             : 
     622           2 :     if (purpose == SDPStreamMetadataPurpose.Usermedia) {
     623           6 :       _speakerOn = type == CallType.kVideo;
     624          10 :       if (!voip.delegate.isWeb && stream.getAudioTracks().isNotEmpty) {
     625           0 :         final audioTrack = stream.getAudioTracks()[0];
     626           0 :         audioTrack.enableSpeakerphone(_speakerOn);
     627             :       }
     628             :     }
     629             : 
     630           2 :     fireCallEvent(CallStateChange.kFeedsChanged);
     631             :   }
     632             : 
     633           0 :   Future<void> _addRemoteStream(MediaStream stream) async {
     634             :     //final userId = remoteUser.id;
     635           0 :     final metadata = _remoteSDPStreamMetadata?.sdpStreamMetadatas[stream.id];
     636             :     if (metadata == null) {
     637           0 :       Logs().i(
     638           0 :           'Ignoring stream with id ${stream.id} because we didn\'t get any metadata about it');
     639             :       return;
     640             :     }
     641             : 
     642           0 :     final purpose = metadata.purpose;
     643           0 :     final audioMuted = metadata.audio_muted;
     644           0 :     final videoMuted = metadata.video_muted;
     645             : 
     646             :     // Try to find a feed with the same purpose as the new stream,
     647             :     // if we find it replace the old stream with the new one
     648             :     final existingStream =
     649           0 :         getRemoteStreams.where((element) => element.purpose == purpose);
     650           0 :     if (existingStream.isNotEmpty) {
     651           0 :       existingStream.first.setNewStream(stream);
     652             :     } else {
     653           0 :       final newStream = WrappedMediaStream(
     654           0 :         participant: CallParticipant(
     655           0 :           voip,
     656           0 :           userId: remoteUserId!,
     657           0 :           deviceId: remoteDeviceId,
     658             :         ),
     659           0 :         room: opts.room,
     660             :         stream: stream,
     661             :         purpose: purpose,
     662           0 :         client: client,
     663             :         audioMuted: audioMuted,
     664             :         videoMuted: videoMuted,
     665           0 :         isGroupCall: groupCallId != null,
     666           0 :         pc: pc,
     667           0 :         voip: voip,
     668             :       );
     669           0 :       _streams.add(newStream);
     670           0 :       onStreamAdd.add(newStream);
     671             :     }
     672           0 :     fireCallEvent(CallStateChange.kFeedsChanged);
     673           0 :     Logs().i('Pushed remote stream (id="${stream.id}", purpose=$purpose)');
     674             :   }
     675             : 
     676           0 :   Future<void> deleteAllStreams() async {
     677           0 :     for (final stream in _streams) {
     678           0 :       if (stream.isLocal() || groupCallId == null) {
     679           0 :         await stream.dispose();
     680             :       }
     681             :     }
     682           0 :     _streams.clear();
     683           0 :     fireCallEvent(CallStateChange.kFeedsChanged);
     684             :   }
     685             : 
     686           0 :   Future<void> deleteFeedByStream(MediaStream stream) async {
     687             :     final index =
     688           0 :         _streams.indexWhere((element) => element.stream!.id == stream.id);
     689           0 :     if (index == -1) {
     690           0 :       Logs().w('Didn\'t find the feed with stream id ${stream.id} to delete');
     691             :       return;
     692             :     }
     693           0 :     final wstream = _streams.elementAt(index);
     694           0 :     onStreamRemoved.add(wstream);
     695           0 :     await deleteStream(wstream);
     696             :   }
     697             : 
     698           0 :   Future<void> deleteStream(WrappedMediaStream stream) async {
     699           0 :     await stream.dispose();
     700           0 :     _streams.removeAt(_streams.indexOf(stream));
     701           0 :     fireCallEvent(CallStateChange.kFeedsChanged);
     702             :   }
     703             : 
     704           0 :   Future<void> removeLocalStream(WrappedMediaStream callFeed) async {
     705           0 :     final senderArray = callFeed.purpose == SDPStreamMetadataPurpose.Usermedia
     706           0 :         ? _usermediaSenders
     707           0 :         : _screensharingSenders;
     708             : 
     709           0 :     for (final element in senderArray) {
     710           0 :       await pc!.removeTrack(element);
     711             :     }
     712             : 
     713           0 :     if (callFeed.purpose == SDPStreamMetadataPurpose.Screenshare) {
     714           0 :       await stopMediaStream(callFeed.stream);
     715             :     }
     716             : 
     717             :     // Empty the array
     718           0 :     senderArray.removeRange(0, senderArray.length);
     719           0 :     onStreamRemoved.add(callFeed);
     720           0 :     await deleteStream(callFeed);
     721             :   }
     722             : 
     723           2 :   void setCallState(CallState newState) {
     724           2 :     _state = newState;
     725           4 :     onCallStateChanged.add(newState);
     726           2 :     fireCallEvent(CallStateChange.kState);
     727             :   }
     728             : 
     729           0 :   Future<void> setLocalVideoMuted(bool muted) async {
     730             :     if (!muted) {
     731           0 :       final videoToSend = await hasVideoToSend();
     732             :       if (!videoToSend) {
     733           0 :         if (_remoteSDPStreamMetadata == null) return;
     734           0 :         await insertVideoTrackToAudioOnlyStream();
     735             :       }
     736             :     }
     737           0 :     localUserMediaStream?.setVideoMuted(muted);
     738           0 :     await updateMuteStatus();
     739             :   }
     740             : 
     741             :   // used for upgrading 1:1 calls
     742           0 :   Future<void> insertVideoTrackToAudioOnlyStream() async {
     743           0 :     if (localUserMediaStream != null && localUserMediaStream!.stream != null) {
     744           0 :       final stream = await _getUserMedia(CallType.kVideo);
     745             :       if (stream != null) {
     746           0 :         Logs().d('[VOIP] running replaceTracks() on stream: ${stream.id}');
     747           0 :         _setTracksEnabled(stream.getVideoTracks(), true);
     748             :         // replace local tracks
     749           0 :         for (final track in localUserMediaStream!.stream!.getTracks()) {
     750             :           try {
     751           0 :             await localUserMediaStream!.stream!.removeTrack(track);
     752           0 :             await track.stop();
     753             :           } catch (e) {
     754           0 :             Logs().w('failed to stop track');
     755             :           }
     756             :         }
     757           0 :         final streamTracks = stream.getTracks();
     758           0 :         for (final newTrack in streamTracks) {
     759           0 :           await localUserMediaStream!.stream!.addTrack(newTrack);
     760             :         }
     761             : 
     762             :         // remove any screen sharing or remote transceivers, these don't need
     763             :         // to be replaced anyway.
     764           0 :         final transceivers = await pc!.getTransceivers();
     765           0 :         transceivers.removeWhere((transceiver) =>
     766           0 :             transceiver.sender.track == null ||
     767           0 :             (localScreenSharingStream != null &&
     768           0 :                 localScreenSharingStream!.stream != null &&
     769           0 :                 localScreenSharingStream!.stream!
     770           0 :                     .getTracks()
     771           0 :                     .map((e) => e.id)
     772           0 :                     .contains(transceiver.sender.track?.id)));
     773             : 
     774             :         // in an ideal case the following should happen
     775             :         // - audio track gets replaced
     776             :         // - new video track gets added
     777           0 :         for (final newTrack in streamTracks) {
     778           0 :           final transceiver = transceivers.singleWhereOrNull(
     779           0 :               (transceiver) => transceiver.sender.track!.kind == newTrack.kind);
     780             :           if (transceiver != null) {
     781           0 :             Logs().d(
     782           0 :                 '[VOIP] replacing ${transceiver.sender.track} in transceiver');
     783           0 :             final oldSender = transceiver.sender;
     784           0 :             await oldSender.replaceTrack(newTrack);
     785           0 :             await transceiver.setDirection(
     786           0 :               await transceiver.getDirection() ==
     787             :                       TransceiverDirection.Inactive // upgrade, send now
     788             :                   ? TransceiverDirection.SendOnly
     789             :                   : TransceiverDirection.SendRecv,
     790             :             );
     791             :           } else {
     792             :             // adding transceiver
     793           0 :             Logs().d('[VOIP] adding track $newTrack to pc');
     794           0 :             await pc!.addTrack(newTrack, localUserMediaStream!.stream!);
     795             :           }
     796             :         }
     797             :         // for renderer to be able to show new video track
     798           0 :         localUserMediaStream?.onStreamChanged
     799           0 :             .add(localUserMediaStream!.stream!);
     800             :       }
     801             :     }
     802             :   }
     803             : 
     804           0 :   Future<void> setMicrophoneMuted(bool muted) async {
     805           0 :     localUserMediaStream?.setAudioMuted(muted);
     806           0 :     await updateMuteStatus();
     807             :   }
     808             : 
     809           0 :   Future<void> setRemoteOnHold(bool onHold) async {
     810           0 :     if (remoteOnHold == onHold) return;
     811           0 :     _remoteOnHold = onHold;
     812           0 :     final transceivers = await pc!.getTransceivers();
     813           0 :     for (final transceiver in transceivers) {
     814           0 :       await transceiver.setDirection(onHold
     815             :           ? TransceiverDirection.SendOnly
     816             :           : TransceiverDirection.SendRecv);
     817             :     }
     818           0 :     await updateMuteStatus();
     819           0 :     fireCallEvent(CallStateChange.kRemoteHoldUnhold);
     820             :   }
     821             : 
     822           0 :   Future<bool> isLocalOnHold() async {
     823           0 :     if (state != CallState.kConnected) return false;
     824             :     var callOnHold = true;
     825             :     // We consider a call to be on hold only if *all* the tracks are on hold
     826             :     // (is this the right thing to do?)
     827           0 :     final transceivers = await pc!.getTransceivers();
     828           0 :     for (final transceiver in transceivers) {
     829           0 :       final currentDirection = await transceiver.getCurrentDirection();
     830           0 :       final trackOnHold = (currentDirection == TransceiverDirection.Inactive ||
     831           0 :           currentDirection == TransceiverDirection.RecvOnly);
     832             :       if (!trackOnHold) {
     833             :         callOnHold = false;
     834             :       }
     835             :     }
     836             :     return callOnHold;
     837             :   }
     838             : 
     839           2 :   Future<void> answer({String? txid}) async {
     840           2 :     if (_inviteOrAnswerSent) {
     841             :       return;
     842             :     }
     843             :     // stop play ringtone
     844           6 :     await voip.delegate.stopRingtone();
     845             : 
     846           4 :     if (direction == CallDirection.kIncoming) {
     847           2 :       setCallState(CallState.kCreateAnswer);
     848             : 
     849           6 :       final answer = await pc!.createAnswer({});
     850           4 :       for (final candidate in _remoteCandidates) {
     851           4 :         await pc!.addCandidate(candidate);
     852             :       }
     853             : 
     854           2 :       final callCapabilities = CallCapabilities()
     855           2 :         ..dtmf = false
     856           2 :         ..transferee = false;
     857             : 
     858           4 :       final metadata = SDPStreamMetadata({
     859           2 :         if (localUserMediaStream != null)
     860          10 :           localUserMediaStream!.stream!.id: SDPStreamPurpose(
     861             :               purpose: SDPStreamMetadataPurpose.Usermedia,
     862           4 :               audio_muted: localUserMediaStream!.audioMuted,
     863           4 :               video_muted: localUserMediaStream!.videoMuted),
     864           2 :         if (localScreenSharingStream != null)
     865           0 :           localScreenSharingStream!.stream!.id: SDPStreamPurpose(
     866             :               purpose: SDPStreamMetadataPurpose.Screenshare,
     867           0 :               audio_muted: localScreenSharingStream!.audioMuted,
     868           0 :               video_muted: localScreenSharingStream!.videoMuted),
     869             :       });
     870             : 
     871           4 :       await pc!.setLocalDescription(answer);
     872           2 :       setCallState(CallState.kConnecting);
     873             : 
     874             :       // Allow a short time for initial candidates to be gathered
     875           4 :       await Future.delayed(Duration(milliseconds: 200));
     876             : 
     877           2 :       final res = await sendAnswerCall(
     878           2 :         room,
     879           2 :         callId,
     880           2 :         answer.sdp!,
     881           2 :         localPartyId,
     882           2 :         type: answer.type!,
     883             :         capabilities: callCapabilities,
     884             :         metadata: metadata,
     885             :         txid: txid,
     886             :       );
     887           6 :       Logs().v('[VOIP] answer res => $res');
     888             : 
     889           2 :       _inviteOrAnswerSent = true;
     890           2 :       _answeredByUs = true;
     891             :     }
     892             :   }
     893             : 
     894             :   /// Reject a call
     895             :   /// This used to be done by calling hangup, but is a separate method and protocol
     896             :   /// event as of MSC2746.
     897           2 :   Future<void> reject({CallErrorCode? reason, bool shouldEmit = true}) async {
     898           2 :     setCallState(CallState.kEnding);
     899           8 :     if (state != CallState.kRinging && state != CallState.kFledgling) {
     900           4 :       Logs().e(
     901           6 :           '[VOIP] Call must be in \'ringing|fledgling\' state to reject! (current state was: ${state.toString()}) Calling hangup instead');
     902           2 :       await hangup(reason: CallErrorCode.userHangup, shouldEmit: shouldEmit);
     903             :       return;
     904             :     }
     905           0 :     Logs().d('[VOIP] Rejecting call: $callId');
     906           0 :     await terminate(CallParty.kLocal, CallErrorCode.userHangup, shouldEmit);
     907             :     if (shouldEmit) {
     908           0 :       await sendCallReject(room, callId, localPartyId);
     909             :     }
     910             :   }
     911             : 
     912           2 :   Future<void> hangup(
     913             :       {required CallErrorCode reason, bool shouldEmit = true}) async {
     914           2 :     setCallState(CallState.kEnding);
     915           2 :     await terminate(CallParty.kLocal, reason, shouldEmit);
     916             :     try {
     917             :       final res =
     918           8 :           await sendHangupCall(room, callId, localPartyId, 'userHangup');
     919           6 :       Logs().v('[VOIP] hangup res => $res');
     920             :     } catch (e) {
     921           0 :       Logs().v('[VOIP] hangup error => ${e.toString()}');
     922             :     }
     923             :   }
     924             : 
     925           0 :   Future<void> sendDTMF(String tones) async {
     926           0 :     final senders = await pc!.getSenders();
     927           0 :     for (final sender in senders) {
     928           0 :       if (sender.track != null && sender.track!.kind == 'audio') {
     929           0 :         await sender.dtmfSender.insertDTMF(tones);
     930             :         return;
     931             :       } else {
     932           0 :         Logs().w('[VOIP] Unable to find a track to send DTMF on');
     933             :       }
     934             :     }
     935             :   }
     936             : 
     937           2 :   Future<void> terminate(
     938             :     CallParty party,
     939             :     CallErrorCode reason,
     940             :     bool shouldEmit,
     941             :   ) async {
     942           4 :     if (state == CallState.kConnected) {
     943           0 :       await hangup(
     944             :         reason: CallErrorCode.userHangup,
     945             :         shouldEmit: true,
     946             :       );
     947             :       return;
     948             :     }
     949             : 
     950           4 :     Logs().d('[VOIP] terminating call');
     951           4 :     _inviteTimer?.cancel();
     952           2 :     _inviteTimer = null;
     953             : 
     954           4 :     _ringingTimer?.cancel();
     955           2 :     _ringingTimer = null;
     956             : 
     957             :     try {
     958           6 :       await voip.delegate.stopRingtone();
     959             :     } catch (e) {
     960             :       // maybe rigntone never started (group calls) or has been stopped already
     961           0 :       Logs().d('stopping ringtone failed ', e);
     962             :     }
     963             : 
     964           2 :     hangupReason = reason;
     965             : 
     966             :     // don't see any reason to wrap this with shouldEmit atm,
     967             :     // looks like a local state change only
     968           2 :     setCallState(CallState.kEnded);
     969             : 
     970           2 :     if (!isGroupCall) {
     971             :       // when a call crash and this call is already terminated the currentCId is null.
     972             :       // So don't return bc the hangup or reject will not proceed anymore.
     973           4 :       if (voip.currentCID != null &&
     974          14 :           voip.currentCID != VoipId(roomId: room.id, callId: callId)) return;
     975           4 :       voip.currentCID = null;
     976          12 :       voip.incomingCallRoomId.removeWhere((key, value) => value == callId);
     977             :     }
     978             : 
     979          14 :     voip.calls.removeWhere((key, value) => key.callId == callId);
     980             : 
     981           2 :     await cleanUp();
     982             :     if (shouldEmit) {
     983           4 :       onCallHangupNotifierForGroupCalls.add(this);
     984           6 :       await voip.delegate.handleCallEnded(this);
     985           2 :       fireCallEvent(CallStateChange.kHangup);
     986           2 :       if ((party == CallParty.kRemote &&
     987           2 :           _missedCall &&
     988           2 :           reason != CallErrorCode.answeredElsewhere)) {
     989           0 :         await voip.delegate.handleMissedCall(this);
     990             :       }
     991             :     }
     992             :   }
     993             : 
     994           0 :   Future<void> onRejectReceived(CallErrorCode? reason) async {
     995           0 :     Logs().v('[VOIP] Reject received for call ID $callId');
     996             :     // No need to check party_id for reject because if we'd received either
     997             :     // an answer or reject, we wouldn't be in state InviteSent
     998           0 :     final shouldTerminate = (state == CallState.kFledgling &&
     999           0 :             direction == CallDirection.kIncoming) ||
    1000           0 :         CallState.kInviteSent == state ||
    1001           0 :         CallState.kRinging == state;
    1002             : 
    1003             :     if (shouldTerminate) {
    1004           0 :       await terminate(
    1005             :           CallParty.kRemote, reason ?? CallErrorCode.userHangup, true);
    1006             :     } else {
    1007           0 :       Logs().e('[VOIP] Call is in state: ${state.toString()}: ignoring reject');
    1008             :     }
    1009             :   }
    1010             : 
    1011           2 :   Future<void> _gotLocalOffer(RTCSessionDescription offer) async {
    1012           2 :     if (callHasEnded) {
    1013           0 :       Logs().d(
    1014           0 :           'Ignoring newly created offer on call ID ${opts.callId} because the call has ended');
    1015             :       return;
    1016             :     }
    1017             : 
    1018             :     try {
    1019           4 :       await pc!.setLocalDescription(offer);
    1020             :     } catch (err) {
    1021           0 :       Logs().d('Error setting local description! ${err.toString()}');
    1022           0 :       await terminate(
    1023             :           CallParty.kLocal, CallErrorCode.setLocalDescription, true);
    1024             :       return;
    1025             :     }
    1026             : 
    1027           6 :     if (pc!.iceGatheringState ==
    1028             :         RTCIceGatheringState.RTCIceGatheringStateGathering) {
    1029             :       // Allow a short time for initial candidates to be gathered
    1030           0 :       await Future.delayed(CallTimeouts.iceGatheringDelay);
    1031             :     }
    1032             : 
    1033           2 :     if (callHasEnded) return;
    1034             : 
    1035           2 :     final callCapabilities = CallCapabilities()
    1036           2 :       ..dtmf = false
    1037           2 :       ..transferee = false;
    1038           2 :     final metadata = _getLocalSDPStreamMetadata();
    1039           4 :     if (state == CallState.kCreateOffer) {
    1040           2 :       await sendInviteToCall(
    1041           2 :           room,
    1042           2 :           callId,
    1043           2 :           CallTimeouts.callInviteLifetime.inMilliseconds,
    1044           2 :           localPartyId,
    1045           2 :           offer.sdp!,
    1046             :           capabilities: callCapabilities,
    1047             :           metadata: metadata);
    1048             :       // just incase we ended the call but already sent the invite
    1049             :       // raraley happens during glares
    1050           4 :       if (state == CallState.kEnded) {
    1051           0 :         await hangup(reason: CallErrorCode.replaced);
    1052             :         return;
    1053             :       }
    1054           2 :       _inviteOrAnswerSent = true;
    1055             : 
    1056           2 :       if (!isGroupCall) {
    1057           4 :         Logs().d('[glare] set callid because new invite sent');
    1058          12 :         voip.incomingCallRoomId[room.id] = callId;
    1059             :       }
    1060             : 
    1061           2 :       setCallState(CallState.kInviteSent);
    1062             : 
    1063           4 :       _inviteTimer = Timer(CallTimeouts.callInviteLifetime, () {
    1064           0 :         if (state == CallState.kInviteSent) {
    1065           0 :           hangup(reason: CallErrorCode.inviteTimeout);
    1066             :         }
    1067           0 :         _inviteTimer?.cancel();
    1068           0 :         _inviteTimer = null;
    1069             :       });
    1070             :     } else {
    1071           0 :       await sendCallNegotiate(
    1072           0 :           room,
    1073           0 :           callId,
    1074           0 :           CallTimeouts.defaultCallEventLifetime.inMilliseconds,
    1075           0 :           localPartyId,
    1076           0 :           offer.sdp!,
    1077           0 :           type: offer.type!,
    1078             :           capabilities: callCapabilities,
    1079             :           metadata: metadata);
    1080             :     }
    1081             :   }
    1082             : 
    1083           2 :   Future<void> onNegotiationNeeded() async {
    1084           4 :     Logs().d('Negotiation is needed!');
    1085           2 :     _makingOffer = true;
    1086             :     try {
    1087             :       // The first addTrack(audio track) on iOS will trigger
    1088             :       // onNegotiationNeeded, which causes creatOffer to only include
    1089             :       // audio m-line, add delay and wait for video track to be added,
    1090             :       // then createOffer can get audio/video m-line correctly.
    1091           2 :       await Future.delayed(CallTimeouts.delayBeforeOffer);
    1092           6 :       final offer = await pc!.createOffer({});
    1093           2 :       await _gotLocalOffer(offer);
    1094             :     } catch (e) {
    1095           0 :       await _getLocalOfferFailed(e);
    1096             :       return;
    1097             :     } finally {
    1098           2 :       _makingOffer = false;
    1099             :     }
    1100             :   }
    1101             : 
    1102           2 :   Future<void> _preparePeerConnection() async {
    1103             :     int iceRestartedCount = 0;
    1104             : 
    1105             :     try {
    1106           4 :       pc = await _createPeerConnection();
    1107           6 :       pc!.onRenegotiationNeeded = onNegotiationNeeded;
    1108             : 
    1109           4 :       pc!.onIceCandidate = (RTCIceCandidate candidate) async {
    1110           0 :         if (callHasEnded) return;
    1111           0 :         _localCandidates.add(candidate);
    1112             : 
    1113           0 :         if (state == CallState.kRinging || !_inviteOrAnswerSent) return;
    1114             : 
    1115             :         // MSC2746 recommends these values (can be quite long when calling because the
    1116             :         // callee will need a while to answer the call)
    1117           0 :         final delay = direction == CallDirection.kIncoming ? 500 : 2000;
    1118           0 :         if (_candidateSendTries == 0) {
    1119           0 :           Timer(Duration(milliseconds: delay), () {
    1120           0 :             _sendCandidateQueue();
    1121             :           });
    1122             :         }
    1123             :       };
    1124             : 
    1125           6 :       pc!.onIceGatheringState = (RTCIceGatheringState state) async {
    1126           8 :         Logs().v('[VOIP] IceGatheringState => ${state.toString()}');
    1127           2 :         if (state == RTCIceGatheringState.RTCIceGatheringStateGathering) {
    1128           0 :           Timer(Duration(seconds: 3), () async {
    1129           0 :             if (!_iceGatheringFinished) {
    1130           0 :               _iceGatheringFinished = true;
    1131           0 :               await _sendCandidateQueue();
    1132             :             }
    1133             :           });
    1134             :         }
    1135           2 :         if (state == RTCIceGatheringState.RTCIceGatheringStateComplete) {
    1136           2 :           if (!_iceGatheringFinished) {
    1137           2 :             _iceGatheringFinished = true;
    1138           2 :             await _sendCandidateQueue();
    1139             :           }
    1140             :         }
    1141             :       };
    1142           6 :       pc!.onIceConnectionState = (RTCIceConnectionState state) async {
    1143           8 :         Logs().v('[VOIP] RTCIceConnectionState => ${state.toString()}');
    1144           2 :         if (state == RTCIceConnectionState.RTCIceConnectionStateConnected) {
    1145           4 :           _localCandidates.clear();
    1146           4 :           _remoteCandidates.clear();
    1147             :           iceRestartedCount = 0;
    1148           2 :           setCallState(CallState.kConnected);
    1149             :           // fix any state/race issues we had with sdp packets and cloned streams
    1150           2 :           await updateMuteStatus();
    1151           2 :           _missedCall = false;
    1152             :         } else if ({
    1153           2 :           RTCIceConnectionState.RTCIceConnectionStateFailed,
    1154           2 :           RTCIceConnectionState.RTCIceConnectionStateDisconnected
    1155           2 :         }.contains(state)) {
    1156           0 :           if (iceRestartedCount < 3) {
    1157           0 :             await restartIce();
    1158           0 :             iceRestartedCount++;
    1159             :           } else {
    1160           0 :             await hangup(reason: CallErrorCode.iceFailed);
    1161             :           }
    1162             :         }
    1163             :       };
    1164             :     } catch (e) {
    1165           0 :       Logs().v('[VOIP] prepareMediaStream error => ${e.toString()}');
    1166             :     }
    1167             :   }
    1168             : 
    1169           0 :   Future<void> onAnsweredElsewhere() async {
    1170           0 :     Logs().d('Call ID $callId answered elsewhere');
    1171           0 :     await terminate(CallParty.kRemote, CallErrorCode.answeredElsewhere, true);
    1172             :   }
    1173             : 
    1174           2 :   Future<void> cleanUp() async {
    1175             :     try {
    1176           4 :       for (final stream in _streams) {
    1177           2 :         await stream.dispose();
    1178             :       }
    1179           4 :       _streams.clear();
    1180             :     } catch (e, s) {
    1181           0 :       Logs().e('[VOIP] cleaning up streams failed', e, s);
    1182             :     }
    1183             : 
    1184             :     try {
    1185           2 :       if (pc != null) {
    1186           4 :         await pc!.close();
    1187           4 :         await pc!.dispose();
    1188             :       }
    1189             :     } catch (e, s) {
    1190           0 :       Logs().e('[VOIP] removing pc failed', e, s);
    1191             :     }
    1192             :   }
    1193             : 
    1194           2 :   Future<void> updateMuteStatus() async {
    1195           2 :     final micShouldBeMuted = (localUserMediaStream != null &&
    1196           0 :             localUserMediaStream!.isAudioMuted()) ||
    1197           2 :         _remoteOnHold;
    1198           2 :     final vidShouldBeMuted = (localUserMediaStream != null &&
    1199           0 :             localUserMediaStream!.isVideoMuted()) ||
    1200           2 :         _remoteOnHold;
    1201             : 
    1202           6 :     _setTracksEnabled(localUserMediaStream?.stream?.getAudioTracks() ?? [],
    1203             :         !micShouldBeMuted);
    1204           6 :     _setTracksEnabled(localUserMediaStream?.stream?.getVideoTracks() ?? [],
    1205             :         !vidShouldBeMuted);
    1206             : 
    1207           2 :     await sendSDPStreamMetadataChanged(
    1208           2 :       room,
    1209           2 :       callId,
    1210           2 :       localPartyId,
    1211           2 :       _getLocalSDPStreamMetadata(),
    1212             :     );
    1213             :   }
    1214             : 
    1215           2 :   void _setTracksEnabled(List<MediaStreamTrack> tracks, bool enabled) {
    1216           2 :     for (final track in tracks) {
    1217           0 :       track.enabled = enabled;
    1218             :     }
    1219             :   }
    1220             : 
    1221           2 :   SDPStreamMetadata _getLocalSDPStreamMetadata() {
    1222           2 :     final sdpStreamMetadatas = <String, SDPStreamPurpose>{};
    1223           4 :     for (final wpstream in getLocalStreams) {
    1224           2 :       if (wpstream.stream != null) {
    1225           8 :         sdpStreamMetadatas[wpstream.stream!.id] = SDPStreamPurpose(
    1226           2 :           purpose: wpstream.purpose,
    1227           2 :           audio_muted: wpstream.audioMuted,
    1228           2 :           video_muted: wpstream.videoMuted,
    1229             :         );
    1230             :       }
    1231             :     }
    1232           2 :     final metadata = SDPStreamMetadata(sdpStreamMetadatas);
    1233          10 :     Logs().v('Got local SDPStreamMetadata ${metadata.toJson().toString()}');
    1234             :     return metadata;
    1235             :   }
    1236             : 
    1237           0 :   Future<void> restartIce() async {
    1238           0 :     Logs().v('[VOIP] iceRestart.');
    1239             :     // Needs restart ice on session.pc and renegotiation.
    1240           0 :     _iceGatheringFinished = false;
    1241           0 :     _localCandidates.clear();
    1242           0 :     await pc!.restartIce();
    1243             :   }
    1244             : 
    1245           2 :   Future<MediaStream?> _getUserMedia(CallType type) async {
    1246           2 :     final mediaConstraints = {
    1247             :       'audio': UserMediaConstraints.micMediaConstraints,
    1248           2 :       'video': type == CallType.kVideo
    1249             :           ? UserMediaConstraints.camMediaConstraints
    1250             :           : false,
    1251             :     };
    1252             :     try {
    1253           8 :       return await voip.delegate.mediaDevices.getUserMedia(mediaConstraints);
    1254             :     } catch (e) {
    1255           0 :       await _getUserMediaFailed(e);
    1256             :       rethrow;
    1257             :     }
    1258             :   }
    1259             : 
    1260           0 :   Future<MediaStream?> _getDisplayMedia() async {
    1261             :     try {
    1262           0 :       return await voip.delegate.mediaDevices
    1263           0 :           .getDisplayMedia(UserMediaConstraints.screenMediaConstraints);
    1264             :     } catch (e) {
    1265           0 :       await _getUserMediaFailed(e);
    1266             :     }
    1267             :     return null;
    1268             :   }
    1269             : 
    1270           2 :   Future<RTCPeerConnection> _createPeerConnection() async {
    1271           2 :     final configuration = <String, dynamic>{
    1272           4 :       'iceServers': opts.iceServers,
    1273             :       'sdpSemantics': 'unified-plan'
    1274             :     };
    1275           6 :     final pc = await voip.delegate.createPeerConnection(configuration);
    1276           2 :     pc.onTrack = (RTCTrackEvent event) async {
    1277           0 :       for (final stream in event.streams) {
    1278           0 :         await _addRemoteStream(stream);
    1279           0 :         for (final track in stream.getTracks()) {
    1280           0 :           track.onEnded = () async {
    1281           0 :             if (stream.getTracks().isEmpty) {
    1282           0 :               Logs().d('[VOIP] detected a empty stream, removing it');
    1283           0 :               await _removeStream(stream);
    1284             :             }
    1285             :           };
    1286             :         }
    1287             :       }
    1288             :     };
    1289             :     return pc;
    1290             :   }
    1291             : 
    1292           0 :   Future<void> createDataChannel(
    1293             :       String label, RTCDataChannelInit dataChannelDict) async {
    1294           0 :     await pc?.createDataChannel(label, dataChannelDict);
    1295             :   }
    1296             : 
    1297           0 :   Future<void> tryRemoveStopedStreams() async {
    1298           0 :     final removedStreams = <String, WrappedMediaStream>{};
    1299           0 :     for (final stream in _streams) {
    1300           0 :       if (stream.stopped) {
    1301           0 :         removedStreams[stream.stream!.id] = stream;
    1302             :       }
    1303             :     }
    1304           0 :     _streams
    1305           0 :         .removeWhere((stream) => removedStreams.containsKey(stream.stream!.id));
    1306           0 :     for (final element in removedStreams.entries) {
    1307           0 :       await _removeStream(element.value.stream!);
    1308             :     }
    1309             :   }
    1310             : 
    1311           0 :   Future<void> _removeStream(MediaStream stream) async {
    1312           0 :     Logs().v('Removing feed with stream id ${stream.id}');
    1313             : 
    1314           0 :     final it = _streams.where((element) => element.stream!.id == stream.id);
    1315           0 :     if (it.isEmpty) {
    1316           0 :       Logs().v('Didn\'t find the feed with stream id ${stream.id} to delete');
    1317             :       return;
    1318             :     }
    1319           0 :     final wpstream = it.first;
    1320           0 :     _streams.removeWhere((element) => element.stream!.id == stream.id);
    1321           0 :     onStreamRemoved.add(wpstream);
    1322           0 :     fireCallEvent(CallStateChange.kFeedsChanged);
    1323           0 :     await wpstream.dispose();
    1324             :   }
    1325             : 
    1326           2 :   Future<void> _sendCandidateQueue() async {
    1327           2 :     if (callHasEnded) return;
    1328             :     /*
    1329             :     Currently, trickle-ice is not supported, so it will take a
    1330             :     long time to wait to collect all the canidates, set the
    1331             :     timeout for collection canidates to speed up the connection.
    1332             :     */
    1333           2 :     final candidatesQueue = _localCandidates;
    1334             :     try {
    1335           2 :       if (candidatesQueue.isNotEmpty) {
    1336           0 :         final candidates = <Map<String, dynamic>>[];
    1337           0 :         for (final element in candidatesQueue) {
    1338           0 :           candidates.add(element.toMap());
    1339             :         }
    1340           0 :         _localCandidates.clear();
    1341           0 :         final res = await sendCallCandidates(
    1342           0 :             opts.room, callId, localPartyId, candidates);
    1343           0 :         Logs().v('[VOIP] sendCallCandidates res => $res');
    1344             :       }
    1345             :     } catch (e) {
    1346           0 :       Logs().v('[VOIP] sendCallCandidates e => ${e.toString()}');
    1347           0 :       _candidateSendTries++;
    1348           0 :       _localCandidates.clear();
    1349           0 :       _localCandidates.addAll(candidatesQueue);
    1350             : 
    1351           0 :       if (_candidateSendTries > 5) {
    1352           0 :         Logs().d(
    1353           0 :             'Failed to send candidates on attempt $_candidateSendTries Giving up on this call.');
    1354           0 :         await hangup(reason: CallErrorCode.iceTimeout);
    1355             :         return;
    1356             :       }
    1357             : 
    1358           0 :       final delay = 500 * pow(2, _candidateSendTries);
    1359           0 :       Timer(Duration(milliseconds: delay as int), () {
    1360           0 :         _sendCandidateQueue();
    1361             :       });
    1362             :     }
    1363             :   }
    1364             : 
    1365           2 :   void fireCallEvent(CallStateChange event) {
    1366           4 :     onCallEventChanged.add(event);
    1367           8 :     Logs().i('CallStateChange: ${event.toString()}');
    1368             :     switch (event) {
    1369           2 :       case CallStateChange.kFeedsChanged:
    1370           4 :         onCallStreamsChanged.add(this);
    1371             :         break;
    1372           2 :       case CallStateChange.kState:
    1373          10 :         Logs().i('CallState: ${state.toString()}');
    1374             :         break;
    1375           2 :       case CallStateChange.kError:
    1376             :         break;
    1377           2 :       case CallStateChange.kHangup:
    1378             :         break;
    1379           0 :       case CallStateChange.kReplaced:
    1380             :         break;
    1381           0 :       case CallStateChange.kLocalHoldUnhold:
    1382             :         break;
    1383           0 :       case CallStateChange.kRemoteHoldUnhold:
    1384             :         break;
    1385           0 :       case CallStateChange.kAssertedIdentityChanged:
    1386             :         break;
    1387             :     }
    1388             :   }
    1389             : 
    1390           0 :   Future<void> _getLocalOfferFailed(dynamic err) async {
    1391           0 :     Logs().e('Failed to get local offer ${err.toString()}');
    1392           0 :     fireCallEvent(CallStateChange.kError);
    1393             : 
    1394           0 :     await terminate(CallParty.kLocal, CallErrorCode.localOfferFailed, true);
    1395             :   }
    1396             : 
    1397           0 :   Future<void> _getUserMediaFailed(dynamic err) async {
    1398           0 :     Logs().w('Failed to get user media - ending call ${err.toString()}');
    1399           0 :     fireCallEvent(CallStateChange.kError);
    1400           0 :     await terminate(CallParty.kLocal, CallErrorCode.userMediaFailed, true);
    1401             :   }
    1402             : 
    1403           2 :   Future<void> onSelectAnswerReceived(String? selectedPartyId) async {
    1404           4 :     if (direction != CallDirection.kIncoming) {
    1405           0 :       Logs().w('Got select_answer for an outbound call: ignoring');
    1406             :       return;
    1407             :     }
    1408             :     if (selectedPartyId == null) {
    1409           0 :       Logs().w(
    1410             :           'Got nonsensical select_answer with null/undefined selected_party_id: ignoring');
    1411             :       return;
    1412             :     }
    1413             : 
    1414           4 :     if (selectedPartyId != localPartyId) {
    1415           4 :       Logs().w(
    1416           4 :           'Got select_answer for party ID $selectedPartyId: we are party ID $localPartyId.');
    1417             :       // The other party has picked somebody else's answer
    1418           2 :       await terminate(CallParty.kRemote, CallErrorCode.answeredElsewhere, true);
    1419             :     }
    1420             :   }
    1421             : 
    1422             :   /// This is sent by the caller when they wish to establish a call.
    1423             :   /// [callId] is a unique identifier for the call.
    1424             :   /// [version] is the version of the VoIP specification this message adheres to. This specification is version 1.
    1425             :   /// [lifetime] is the time in milliseconds that the invite is valid for. Once the invite age exceeds this value,
    1426             :   /// clients should discard it. They should also no longer show the call as awaiting an answer in the UI.
    1427             :   /// [type] The type of session description. Must be 'offer'.
    1428             :   /// [sdp] The SDP text of the session description.
    1429             :   /// [invitee] The user ID of the person who is being invited. Invites without an invitee field are defined to be
    1430             :   /// intended for any member of the room other than the sender of the event.
    1431             :   /// [party_id] The party ID for call, Can be set to client.deviceId.
    1432           2 :   Future<String?> sendInviteToCall(
    1433             :       Room room, String callId, int lifetime, String party_id, String sdp,
    1434             :       {String type = 'offer',
    1435             :       String version = voipProtoVersion,
    1436             :       String? txid,
    1437             :       CallCapabilities? capabilities,
    1438             :       SDPStreamMetadata? metadata}) async {
    1439           2 :     final content = {
    1440           2 :       'call_id': callId,
    1441           2 :       'party_id': party_id,
    1442           2 :       if (groupCallId != null) 'conf_id': groupCallId!,
    1443           2 :       'version': version,
    1444           2 :       'lifetime': lifetime,
    1445           4 :       'offer': {'sdp': sdp, 'type': type},
    1446           2 :       if (remoteUserId != null)
    1447           2 :         'invitee':
    1448           2 :             remoteUserId!, // TODO: rename this to invitee_user_id? breaks spec though
    1449           2 :       if (remoteDeviceId != null) 'invitee_device_id': remoteDeviceId!,
    1450           2 :       if (remoteDeviceId != null)
    1451           0 :         'device_id': client
    1452           0 :             .deviceID!, // Having a remoteDeviceId means you are doing to-device events, so you want to send your deviceId too
    1453           4 :       if (capabilities != null) 'capabilities': capabilities.toJson(),
    1454           4 :       if (metadata != null) sdpStreamMetadataKey: metadata.toJson(),
    1455             :     };
    1456           2 :     return await _sendContent(
    1457             :       room,
    1458           2 :       isGroupCall ? EventTypes.GroupCallMemberInvite : EventTypes.CallInvite,
    1459             :       content,
    1460             :       txid: txid,
    1461             :     );
    1462             :   }
    1463             : 
    1464             :   /// The calling party sends the party_id of the first selected answer.
    1465             :   ///
    1466             :   /// Usually after receiving the first answer sdp in the client.onCallAnswer event,
    1467             :   /// save the `party_id`, and then send `CallSelectAnswer` to others peers that the call has been picked up.
    1468             :   ///
    1469             :   /// [callId] is a unique identifier for the call.
    1470             :   /// [version] is the version of the VoIP specification this message adheres to. This specification is version 1.
    1471             :   /// [party_id] The party ID for call, Can be set to client.deviceId.
    1472             :   /// [selected_party_id] The party ID for the selected answer.
    1473           2 :   Future<String?> sendSelectCallAnswer(
    1474             :       Room room, String callId, String party_id, String selected_party_id,
    1475             :       {String version = voipProtoVersion, String? txid}) async {
    1476           2 :     final content = {
    1477           2 :       'call_id': callId,
    1478           2 :       'party_id': party_id,
    1479           2 :       if (groupCallId != null) 'conf_id': groupCallId!,
    1480           2 :       'version': version,
    1481           2 :       'selected_party_id': selected_party_id,
    1482             :     };
    1483             : 
    1484           2 :     return await _sendContent(
    1485             :       room,
    1486           2 :       isGroupCall
    1487             :           ? EventTypes.GroupCallMemberSelectAnswer
    1488             :           : EventTypes.CallSelectAnswer,
    1489             :       content,
    1490             :       txid: txid,
    1491             :     );
    1492             :   }
    1493             : 
    1494             :   /// Reject a call
    1495             :   /// [callId] is a unique identifier for the call.
    1496             :   /// [version] is the version of the VoIP specification this message adheres to. This specification is version 1.
    1497             :   /// [party_id] The party ID for call, Can be set to client.deviceId.
    1498           2 :   Future<String?> sendCallReject(Room room, String callId, String party_id,
    1499             :       {String version = voipProtoVersion, String? txid}) async {
    1500           2 :     final content = {
    1501           2 :       'call_id': callId,
    1502           2 :       'party_id': party_id,
    1503           2 :       if (groupCallId != null) 'conf_id': groupCallId!,
    1504           2 :       'version': version,
    1505             :     };
    1506             : 
    1507           2 :     return await _sendContent(
    1508             :       room,
    1509           2 :       isGroupCall ? EventTypes.GroupCallMemberReject : EventTypes.CallReject,
    1510             :       content,
    1511             :       txid: txid,
    1512             :     );
    1513             :   }
    1514             : 
    1515             :   /// When local audio/video tracks are added/deleted or hold/unhold,
    1516             :   /// need to createOffer and renegotiation.
    1517             :   /// [callId] is a unique identifier for the call.
    1518             :   /// [version] is the version of the VoIP specification this message adheres to. This specification is version 1.
    1519             :   /// [party_id] The party ID for call, Can be set to client.deviceId.
    1520           2 :   Future<String?> sendCallNegotiate(
    1521             :       Room room, String callId, int lifetime, String party_id, String sdp,
    1522             :       {String type = 'offer',
    1523             :       String version = voipProtoVersion,
    1524             :       String? txid,
    1525             :       CallCapabilities? capabilities,
    1526             :       SDPStreamMetadata? metadata}) async {
    1527           2 :     final content = {
    1528           2 :       'call_id': callId,
    1529           2 :       'party_id': party_id,
    1530           2 :       if (groupCallId != null) 'conf_id': groupCallId!,
    1531           2 :       'version': version,
    1532           2 :       'lifetime': lifetime,
    1533           4 :       'description': {'sdp': sdp, 'type': type},
    1534           0 :       if (capabilities != null) 'capabilities': capabilities.toJson(),
    1535           0 :       if (metadata != null) sdpStreamMetadataKey: metadata.toJson(),
    1536             :     };
    1537           2 :     return await _sendContent(
    1538             :       room,
    1539           2 :       isGroupCall
    1540             :           ? EventTypes.GroupCallMemberNegotiate
    1541             :           : EventTypes.CallNegotiate,
    1542             :       content,
    1543             :       txid: txid,
    1544             :     );
    1545             :   }
    1546             : 
    1547             :   /// This is sent by callers after sending an invite and by the callee after answering.
    1548             :   /// Its purpose is to give the other party additional ICE candidates to try using to communicate.
    1549             :   ///
    1550             :   /// [callId] The ID of the call this event relates to.
    1551             :   ///
    1552             :   /// [version] The version of the VoIP specification this messages adheres to. This specification is version 1.
    1553             :   ///
    1554             :   /// [party_id] The party ID for call, Can be set to client.deviceId.
    1555             :   ///
    1556             :   /// [candidates] Array of objects describing the candidates. Example:
    1557             :   ///
    1558             :   /// ```
    1559             :   /// [
    1560             :   ///       {
    1561             :   ///           "candidate": "candidate:863018703 1 udp 2122260223 10.9.64.156 43670 typ host generation 0",
    1562             :   ///           "sdpMLineIndex": 0,
    1563             :   ///           "sdpMid": "audio"
    1564             :   ///       }
    1565             :   ///   ],
    1566             :   /// ```
    1567           2 :   Future<String?> sendCallCandidates(
    1568             :     Room room,
    1569             :     String callId,
    1570             :     String party_id,
    1571             :     List<Map<String, dynamic>> candidates, {
    1572             :     String version = voipProtoVersion,
    1573             :     String? txid,
    1574             :   }) async {
    1575           2 :     final content = {
    1576           2 :       'call_id': callId,
    1577           2 :       'party_id': party_id,
    1578           2 :       if (groupCallId != null) 'conf_id': groupCallId!,
    1579           2 :       'version': version,
    1580           2 :       'candidates': candidates,
    1581             :     };
    1582           2 :     return await _sendContent(
    1583             :       room,
    1584           2 :       isGroupCall
    1585             :           ? EventTypes.GroupCallMemberCandidates
    1586             :           : EventTypes.CallCandidates,
    1587             :       content,
    1588             :       txid: txid,
    1589             :     );
    1590             :   }
    1591             : 
    1592             :   /// This event is sent by the callee when they wish to answer the call.
    1593             :   /// [callId] is a unique identifier for the call.
    1594             :   /// [version] is the version of the VoIP specification this message adheres to. This specification is version 1.
    1595             :   /// [type] The type of session description. Must be 'answer'.
    1596             :   /// [sdp] The SDP text of the session description.
    1597             :   /// [party_id] The party ID for call, Can be set to client.deviceId.
    1598           2 :   Future<String?> sendAnswerCall(
    1599             :       Room room, String callId, String sdp, String party_id,
    1600             :       {String type = 'answer',
    1601             :       String version = voipProtoVersion,
    1602             :       String? txid,
    1603             :       CallCapabilities? capabilities,
    1604             :       SDPStreamMetadata? metadata}) async {
    1605           2 :     final content = {
    1606           2 :       'call_id': callId,
    1607           2 :       'party_id': party_id,
    1608           2 :       if (groupCallId != null) 'conf_id': groupCallId!,
    1609           2 :       'version': version,
    1610           4 :       'answer': {'sdp': sdp, 'type': type},
    1611           4 :       if (capabilities != null) 'capabilities': capabilities.toJson(),
    1612           4 :       if (metadata != null) sdpStreamMetadataKey: metadata.toJson(),
    1613             :     };
    1614           2 :     return await _sendContent(
    1615             :       room,
    1616           2 :       isGroupCall ? EventTypes.GroupCallMemberAnswer : EventTypes.CallAnswer,
    1617             :       content,
    1618             :       txid: txid,
    1619             :     );
    1620             :   }
    1621             : 
    1622             :   /// This event is sent by the callee when they wish to answer the call.
    1623             :   /// [callId] The ID of the call this event relates to.
    1624             :   /// [version] is the version of the VoIP specification this message adheres to. This specification is version 1.
    1625             :   /// [party_id] The party ID for call, Can be set to client.deviceId.
    1626           2 :   Future<String?> sendHangupCall(
    1627             :       Room room, String callId, String party_id, String? hangupCause,
    1628             :       {String version = voipProtoVersion, String? txid}) async {
    1629           2 :     final content = {
    1630           2 :       'call_id': callId,
    1631           2 :       'party_id': party_id,
    1632           2 :       if (groupCallId != null) 'conf_id': groupCallId!,
    1633           2 :       'version': version,
    1634           2 :       if (hangupCause != null) 'reason': hangupCause,
    1635             :     };
    1636           2 :     return await _sendContent(
    1637             :       room,
    1638           2 :       isGroupCall ? EventTypes.GroupCallMemberHangup : EventTypes.CallHangup,
    1639             :       content,
    1640             :       txid: txid,
    1641             :     );
    1642             :   }
    1643             : 
    1644             :   /// Send SdpStreamMetadata Changed event.
    1645             :   ///
    1646             :   /// This MSC also adds a new call event m.call.sdp_stream_metadata_changed,
    1647             :   /// which has the common VoIP fields as specified in
    1648             :   /// MSC2746 (version, call_id, party_id) and a sdp_stream_metadata object which
    1649             :   /// is the same thing as sdp_stream_metadata in m.call.negotiate, m.call.invite
    1650             :   /// and m.call.answer. The client sends this event the when sdp_stream_metadata
    1651             :   /// has changed but no negotiation is required
    1652             :   ///  (e.g. the user mutes their camera/microphone).
    1653             :   ///
    1654             :   /// [callId] The ID of the call this event relates to.
    1655             :   /// [version] is the version of the VoIP specification this message adheres to. This specification is version 1.
    1656             :   /// [party_id] The party ID for call, Can be set to client.deviceId.
    1657             :   /// [metadata] The sdp_stream_metadata object.
    1658           2 :   Future<String?> sendSDPStreamMetadataChanged(
    1659             :       Room room, String callId, String party_id, SDPStreamMetadata metadata,
    1660             :       {String version = voipProtoVersion, String? txid}) async {
    1661           2 :     final content = {
    1662           2 :       'call_id': callId,
    1663           2 :       'party_id': party_id,
    1664           2 :       if (groupCallId != null) 'conf_id': groupCallId!,
    1665           2 :       'version': version,
    1666           4 :       sdpStreamMetadataKey: metadata.toJson(),
    1667             :     };
    1668           2 :     return await _sendContent(
    1669             :       room,
    1670           2 :       isGroupCall
    1671             :           ? EventTypes.GroupCallMemberSDPStreamMetadataChanged
    1672             :           : EventTypes.CallSDPStreamMetadataChanged,
    1673             :       content,
    1674             :       txid: txid,
    1675             :     );
    1676             :   }
    1677             : 
    1678             :   /// CallReplacesEvent for Transfered calls
    1679             :   ///
    1680             :   /// [callId] The ID of the call this event relates to.
    1681             :   /// [version] is the version of the VoIP specification this message adheres to. This specification is version 1.
    1682             :   /// [party_id] The party ID for call, Can be set to client.deviceId.
    1683             :   /// [callReplaces] transfer info
    1684           2 :   Future<String?> sendCallReplaces(
    1685             :       Room room, String callId, String party_id, CallReplaces callReplaces,
    1686             :       {String version = voipProtoVersion, String? txid}) async {
    1687           2 :     final content = {
    1688           2 :       'call_id': callId,
    1689           2 :       'party_id': party_id,
    1690           2 :       if (groupCallId != null) 'conf_id': groupCallId!,
    1691           2 :       'version': version,
    1692           2 :       ...callReplaces.toJson(),
    1693             :     };
    1694           2 :     return await _sendContent(
    1695             :       room,
    1696           2 :       isGroupCall
    1697             :           ? EventTypes.GroupCallMemberReplaces
    1698             :           : EventTypes.CallReplaces,
    1699             :       content,
    1700             :       txid: txid,
    1701             :     );
    1702             :   }
    1703             : 
    1704             :   /// send AssertedIdentity event
    1705             :   ///
    1706             :   /// [callId] The ID of the call this event relates to.
    1707             :   /// [version] is the version of the VoIP specification this message adheres to. This specification is version 1.
    1708             :   /// [party_id] The party ID for call, Can be set to client.deviceId.
    1709             :   /// [assertedIdentity] the asserted identity
    1710           2 :   Future<String?> sendAssertedIdentity(Room room, String callId,
    1711             :       String party_id, AssertedIdentity assertedIdentity,
    1712             :       {String version = voipProtoVersion, String? txid}) async {
    1713           2 :     final content = {
    1714           2 :       'call_id': callId,
    1715           2 :       'party_id': party_id,
    1716           2 :       if (groupCallId != null) 'conf_id': groupCallId!,
    1717           2 :       'version': version,
    1718           4 :       'asserted_identity': assertedIdentity.toJson(),
    1719             :     };
    1720           2 :     return await _sendContent(
    1721             :       room,
    1722           2 :       isGroupCall
    1723             :           ? EventTypes.GroupCallMemberAssertedIdentity
    1724             :           : EventTypes.CallAssertedIdentity,
    1725             :       content,
    1726             :       txid: txid,
    1727             :     );
    1728             :   }
    1729             : 
    1730           2 :   Future<String?> _sendContent(
    1731             :     Room room,
    1732             :     String type,
    1733             :     Map<String, Object> content, {
    1734             :     String? txid,
    1735             :   }) async {
    1736           6 :     Logs().d('[VOIP] sending content type $type, with conf: $content');
    1737           0 :     txid ??= VoIP.customTxid ?? client.generateUniqueTransactionId();
    1738           2 :     final mustEncrypt = room.encrypted && client.encryptionEnabled;
    1739             : 
    1740             :     // opponentDeviceId is only set for a few events during group calls,
    1741             :     // therefore only group calls use to-device messages for call events
    1742           2 :     if (isGroupCall && remoteDeviceId != null) {
    1743           0 :       final toDeviceSeq = _toDeviceSeq++;
    1744           0 :       final Map<String, Object> data = {
    1745             :         ...content,
    1746           0 :         'seq': toDeviceSeq,
    1747           0 :         if (remoteSessionId != null) 'dest_session_id': remoteSessionId!,
    1748           0 :         'sender_session_id': voip.currentSessionId,
    1749           0 :         'room_id': room.id,
    1750             :       };
    1751             : 
    1752             :       if (mustEncrypt) {
    1753           0 :         await client.userDeviceKeysLoading;
    1754           0 :         if (client.userDeviceKeys[remoteUserId]?.deviceKeys[remoteDeviceId] !=
    1755             :             null) {
    1756           0 :           await client.sendToDeviceEncrypted([
    1757           0 :             client.userDeviceKeys[remoteUserId]!.deviceKeys[remoteDeviceId]!
    1758             :           ], type, data);
    1759             :         } else {
    1760           0 :           Logs().w(
    1761           0 :               '[VOIP] _sendCallContent missing device keys for $remoteUserId');
    1762             :         }
    1763             :       } else {
    1764           0 :         await client.sendToDevice(
    1765             :           type,
    1766             :           txid,
    1767           0 :           {
    1768           0 :             remoteUserId!: {remoteDeviceId!: data}
    1769             :           },
    1770             :         );
    1771             :       }
    1772             :       return '';
    1773             :     } else {
    1774             :       final sendMessageContent = mustEncrypt
    1775           0 :           ? await client.encryption!
    1776           0 :               .encryptGroupMessagePayload(room.id, content, type: type)
    1777             :           : content;
    1778           4 :       return await client.sendMessage(
    1779           2 :         room.id,
    1780           2 :         sendMessageContent.containsKey('ciphertext')
    1781             :             ? EventTypes.Encrypted
    1782             :             : type,
    1783             :         txid,
    1784             :         sendMessageContent,
    1785             :       );
    1786             :     }
    1787             :   }
    1788             : }

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