/* * Copyright 2014 The WebRTC Project Authors. All rights reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #import "ARDAppClient+Internal.h" #import "sdk/objc/api/peerconnection/RTCAudioTrack.h" #import "sdk/objc/api/peerconnection/RTCConfiguration.h" #import "sdk/objc/api/peerconnection/RTCFileLogger.h" #import "sdk/objc/api/peerconnection/RTCIceCandidateErrorEvent.h" #import "sdk/objc/api/peerconnection/RTCIceServer.h" #import "sdk/objc/api/peerconnection/RTCMediaConstraints.h" #import "sdk/objc/api/peerconnection/RTCMediaStream.h" #import "sdk/objc/api/peerconnection/RTCPeerConnectionFactory.h" #import "sdk/objc/api/peerconnection/RTCRtpSender.h" #import "sdk/objc/api/peerconnection/RTCRtpTransceiver.h" #import "sdk/objc/api/peerconnection/RTCTracing.h" #import "sdk/objc/api/peerconnection/RTCVideoSource.h" #import "sdk/objc/api/peerconnection/RTCVideoTrack.h" #import "sdk/objc/base/RTCLogging.h" #import "sdk/objc/components/capturer/RTCCameraVideoCapturer.h" #import "sdk/objc/components/capturer/RTCFileVideoCapturer.h" #import "sdk/objc/components/video_codec/RTCDefaultVideoDecoderFactory.h" #import "sdk/objc/components/video_codec/RTCDefaultVideoEncoderFactory.h" #import "ARDAppEngineClient.h" #import "ARDExternalSampleCapturer.h" #import "ARDJoinResponse.h" #import "ARDMessageResponse.h" #import "ARDSettingsModel.h" #import "ARDSignalingMessage.h" #import "ARDTURNClient+Internal.h" #import "ARDUtilities.h" #import "ARDWebSocketChannel.h" #import "RTCIceCandidate+JSON.h" #import "RTCSessionDescription+JSON.h" static NSString * const kARDIceServerRequestUrl = @"https://appr.tc/params"; static NSString * const kARDAppClientErrorDomain = @"ARDAppClient"; static NSInteger const kARDAppClientErrorUnknown = -1; static NSInteger const kARDAppClientErrorRoomFull = -2; static NSInteger const kARDAppClientErrorCreateSDP = -3; static NSInteger const kARDAppClientErrorSetSDP = -4; static NSInteger const kARDAppClientErrorInvalidClient = -5; static NSInteger const kARDAppClientErrorInvalidRoom = -6; static NSString * const kARDMediaStreamId = @"ARDAMS"; static NSString * const kARDAudioTrackId = @"ARDAMSa0"; static NSString * const kARDVideoTrackId = @"ARDAMSv0"; static NSString * const kARDVideoTrackKind = @"video"; // TODO(tkchin): Add these as UI options. #if defined(WEBRTC_IOS) static BOOL const kARDAppClientEnableTracing = NO; static BOOL const kARDAppClientEnableRtcEventLog = YES; static int64_t const kARDAppClientAecDumpMaxSizeInBytes = 5e6; // 5 MB. static int64_t const kARDAppClientRtcEventLogMaxSizeInBytes = 5e6; // 5 MB. #endif static int const kKbpsMultiplier = 1000; // We need a proxy to NSTimer because it causes a strong retain cycle. When // using the proxy, `invalidate` must be called before it properly deallocs. @interface ARDTimerProxy : NSObject - (instancetype)initWithInterval:(NSTimeInterval)interval repeats:(BOOL)repeats timerHandler:(void (^)(void))timerHandler; - (void)invalidate; @end @implementation ARDTimerProxy { NSTimer *_timer; void (^_timerHandler)(void); } - (instancetype)initWithInterval:(NSTimeInterval)interval repeats:(BOOL)repeats timerHandler:(void (^)(void))timerHandler { NSParameterAssert(timerHandler); if (self = [super init]) { _timerHandler = timerHandler; _timer = [NSTimer scheduledTimerWithTimeInterval:interval target:self selector:@selector(timerDidFire:) userInfo:nil repeats:repeats]; } return self; } - (void)invalidate { [_timer invalidate]; } - (void)timerDidFire:(NSTimer *)timer { _timerHandler(); } @end @implementation ARDAppClient { RTC_OBJC_TYPE(RTCFileLogger) * _fileLogger; ARDTimerProxy *_statsTimer; ARDSettingsModel *_settings; RTC_OBJC_TYPE(RTCVideoTrack) * _localVideoTrack; } @synthesize shouldGetStats = _shouldGetStats; @synthesize state = _state; @synthesize delegate = _delegate; @synthesize roomServerClient = _roomServerClient; @synthesize channel = _channel; @synthesize loopbackChannel = _loopbackChannel; @synthesize turnClient = _turnClient; @synthesize peerConnection = _peerConnection; @synthesize factory = _factory; @synthesize messageQueue = _messageQueue; @synthesize isTurnComplete = _isTurnComplete; @synthesize hasReceivedSdp = _hasReceivedSdp; @synthesize roomId = _roomId; @synthesize clientId = _clientId; @synthesize isInitiator = _isInitiator; @synthesize iceServers = _iceServers; @synthesize webSocketURL = _websocketURL; @synthesize webSocketRestURL = _websocketRestURL; @synthesize defaultPeerConnectionConstraints = _defaultPeerConnectionConstraints; @synthesize isLoopback = _isLoopback; @synthesize broadcast = _broadcast; - (instancetype)init { return [self initWithDelegate:nil]; } - (instancetype)initWithDelegate:(id)delegate { if (self = [super init]) { _roomServerClient = [[ARDAppEngineClient alloc] init]; _delegate = delegate; NSURL *turnRequestURL = [NSURL URLWithString:kARDIceServerRequestUrl]; _turnClient = [[ARDTURNClient alloc] initWithURL:turnRequestURL]; [self configure]; } return self; } // TODO(tkchin): Provide signaling channel factory interface so we can recreate // channel if we need to on network failure. Also, make this the default public // constructor. - (instancetype)initWithRoomServerClient:(id)rsClient signalingChannel:(id)channel turnClient:(id)turnClient delegate:(id)delegate { NSParameterAssert(rsClient); NSParameterAssert(channel); NSParameterAssert(turnClient); if (self = [super init]) { _roomServerClient = rsClient; _channel = channel; _turnClient = turnClient; _delegate = delegate; [self configure]; } return self; } - (void)configure { _messageQueue = [NSMutableArray array]; _iceServers = [NSMutableArray array]; _fileLogger = [[RTC_OBJC_TYPE(RTCFileLogger) alloc] init]; [_fileLogger start]; } - (void)dealloc { self.shouldGetStats = NO; [self disconnect]; } - (void)setShouldGetStats:(BOOL)shouldGetStats { if (_shouldGetStats == shouldGetStats) { return; } if (shouldGetStats) { __weak ARDAppClient *weakSelf = self; _statsTimer = [[ARDTimerProxy alloc] initWithInterval:1 repeats:YES timerHandler:^{ ARDAppClient *strongSelf = weakSelf; [strongSelf.peerConnection statisticsWithCompletionHandler:^( RTC_OBJC_TYPE(RTCStatisticsReport) * stats) { dispatch_async(dispatch_get_main_queue(), ^{ ARDAppClient *strongSelf = weakSelf; [strongSelf.delegate appClient:strongSelf didGetStats:stats]; }); }]; }]; } else { [_statsTimer invalidate]; _statsTimer = nil; } _shouldGetStats = shouldGetStats; } - (void)setState:(ARDAppClientState)state { if (_state == state) { return; } _state = state; [_delegate appClient:self didChangeState:_state]; } - (void)connectToRoomWithId:(NSString *)roomId settings:(ARDSettingsModel *)settings isLoopback:(BOOL)isLoopback { NSParameterAssert(roomId.length); NSParameterAssert(_state == kARDAppClientStateDisconnected); _settings = settings; _isLoopback = isLoopback; self.state = kARDAppClientStateConnecting; RTC_OBJC_TYPE(RTCDefaultVideoDecoderFactory) *decoderFactory = [[RTC_OBJC_TYPE(RTCDefaultVideoDecoderFactory) alloc] init]; RTC_OBJC_TYPE(RTCDefaultVideoEncoderFactory) *encoderFactory = [[RTC_OBJC_TYPE(RTCDefaultVideoEncoderFactory) alloc] init]; encoderFactory.preferredCodec = [settings currentVideoCodecSettingFromStore]; _factory = [[RTC_OBJC_TYPE(RTCPeerConnectionFactory) alloc] initWithEncoderFactory:encoderFactory decoderFactory:decoderFactory]; #if defined(WEBRTC_IOS) if (kARDAppClientEnableTracing) { NSString *filePath = [self documentsFilePathForFileName:@"webrtc-trace.txt"]; RTCStartInternalCapture(filePath); } #endif // Request TURN. __weak ARDAppClient *weakSelf = self; [_turnClient requestServersWithCompletionHandler:^(NSArray *turnServers, NSError *error) { if (error) { RTCLogError(@"Error retrieving TURN servers: %@", error.localizedDescription); } ARDAppClient *strongSelf = weakSelf; [strongSelf.iceServers addObjectsFromArray:turnServers]; strongSelf.isTurnComplete = YES; [strongSelf startSignalingIfReady]; }]; // Join room on room server. [_roomServerClient joinRoomWithRoomId:roomId isLoopback:isLoopback completionHandler:^(ARDJoinResponse *response, NSError *error) { ARDAppClient *strongSelf = weakSelf; if (error) { [strongSelf.delegate appClient:strongSelf didError:error]; return; } NSError *joinError = [[strongSelf class] errorForJoinResultType:response.result]; if (joinError) { RTCLogError(@"Failed to join room:%@ on room server.", roomId); [strongSelf disconnect]; [strongSelf.delegate appClient:strongSelf didError:joinError]; return; } RTCLog(@"Joined room:%@ on room server.", roomId); strongSelf.roomId = response.roomId; strongSelf.clientId = response.clientId; strongSelf.isInitiator = response.isInitiator; for (ARDSignalingMessage *message in response.messages) { if (message.type == kARDSignalingMessageTypeOffer || message.type == kARDSignalingMessageTypeAnswer) { strongSelf.hasReceivedSdp = YES; [strongSelf.messageQueue insertObject:message atIndex:0]; } else { [strongSelf.messageQueue addObject:message]; } } strongSelf.webSocketURL = response.webSocketURL; strongSelf.webSocketRestURL = response.webSocketRestURL; [strongSelf registerWithColliderIfReady]; [strongSelf startSignalingIfReady]; }]; } - (void)disconnect { if (_state == kARDAppClientStateDisconnected) { return; } if (self.hasJoinedRoomServerRoom) { [_roomServerClient leaveRoomWithRoomId:_roomId clientId:_clientId completionHandler:nil]; } if (_channel) { if (_channel.state == kARDSignalingChannelStateRegistered) { // Tell the other client we're hanging up. ARDByeMessage *byeMessage = [[ARDByeMessage alloc] init]; [_channel sendMessage:byeMessage]; } // Disconnect from collider. _channel = nil; } _clientId = nil; _roomId = nil; _isInitiator = NO; _hasReceivedSdp = NO; _messageQueue = [NSMutableArray array]; _localVideoTrack = nil; #if defined(WEBRTC_IOS) [_factory stopAecDump]; [_peerConnection stopRtcEventLog]; #endif [_peerConnection close]; _peerConnection = nil; self.state = kARDAppClientStateDisconnected; #if defined(WEBRTC_IOS) if (kARDAppClientEnableTracing) { RTCStopInternalCapture(); } #endif } #pragma mark - ARDSignalingChannelDelegate - (void)channel:(id)channel didReceiveMessage:(ARDSignalingMessage *)message { switch (message.type) { case kARDSignalingMessageTypeOffer: case kARDSignalingMessageTypeAnswer: // Offers and answers must be processed before any other message, so we // place them at the front of the queue. _hasReceivedSdp = YES; [_messageQueue insertObject:message atIndex:0]; break; case kARDSignalingMessageTypeCandidate: case kARDSignalingMessageTypeCandidateRemoval: [_messageQueue addObject:message]; break; case kARDSignalingMessageTypeBye: // Disconnects can be processed immediately. [self processSignalingMessage:message]; return; } [self drainMessageQueueIfReady]; } - (void)channel:(id)channel didChangeState:(ARDSignalingChannelState)state { switch (state) { case kARDSignalingChannelStateOpen: break; case kARDSignalingChannelStateRegistered: break; case kARDSignalingChannelStateClosed: case kARDSignalingChannelStateError: // TODO(tkchin): reconnection scenarios. Right now we just disconnect // completely if the websocket connection fails. [self disconnect]; break; } } #pragma mark - RTC_OBJC_TYPE(RTCPeerConnectionDelegate) // Callbacks for this delegate occur on non-main thread and need to be // dispatched back to main queue as needed. - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didChangeSignalingState:(RTCSignalingState)stateChanged { RTCLog(@"Signaling state changed: %ld", (long)stateChanged); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didAddStream:(RTC_OBJC_TYPE(RTCMediaStream) *)stream { RTCLog(@"Stream with %lu video tracks and %lu audio tracks was added.", (unsigned long)stream.videoTracks.count, (unsigned long)stream.audioTracks.count); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didStartReceivingOnTransceiver:(RTC_OBJC_TYPE(RTCRtpTransceiver) *)transceiver { RTC_OBJC_TYPE(RTCMediaStreamTrack) *track = transceiver.receiver.track; RTCLog(@"Now receiving %@ on track %@.", track.kind, track.trackId); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didRemoveStream:(RTC_OBJC_TYPE(RTCMediaStream) *)stream { RTCLog(@"Stream was removed."); } - (void)peerConnectionShouldNegotiate:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection { RTCLog(@"WARNING: Renegotiation needed but unimplemented."); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didChangeIceConnectionState:(RTCIceConnectionState)newState { RTCLog(@"ICE state changed: %ld", (long)newState); dispatch_async(dispatch_get_main_queue(), ^{ [self.delegate appClient:self didChangeConnectionState:newState]; }); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didChangeConnectionState:(RTCPeerConnectionState)newState { RTCLog(@"ICE+DTLS state changed: %ld", (long)newState); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didChangeIceGatheringState:(RTCIceGatheringState)newState { RTCLog(@"ICE gathering state changed: %ld", (long)newState); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didGenerateIceCandidate:(RTC_OBJC_TYPE(RTCIceCandidate) *)candidate { dispatch_async(dispatch_get_main_queue(), ^{ ARDICECandidateMessage *message = [[ARDICECandidateMessage alloc] initWithCandidate:candidate]; [self sendSignalingMessage:message]; }); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didFailToGatherIceCandidate:(RTC_OBJC_TYPE(RTCIceCandidateErrorEvent) *)event { RTCLog(@"Failed to gather ICE candidate. address: %@, port: %d, url: %@, errorCode: %d, " @"errorText: %@", event.address, event.port, event.url, event.errorCode, event.errorText); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didRemoveIceCandidates:(NSArray *)candidates { dispatch_async(dispatch_get_main_queue(), ^{ ARDICECandidateRemovalMessage *message = [[ARDICECandidateRemovalMessage alloc] initWithRemovedCandidates:candidates]; [self sendSignalingMessage:message]; }); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didChangeLocalCandidate:(RTC_OBJC_TYPE(RTCIceCandidate) *)local didChangeRemoteCandidate:(RTC_OBJC_TYPE(RTCIceCandidate) *)remote lastReceivedMs:(int)lastDataReceivedMs didHaveReason:(NSString *)reason { RTCLog(@"ICE candidate pair changed because: %@", reason); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didOpenDataChannel:(RTC_OBJC_TYPE(RTCDataChannel) *)dataChannel { } #pragma mark - RTCSessionDescriptionDelegate // Callbacks for this delegate occur on non-main thread and need to be // dispatched back to main queue as needed. - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didCreateSessionDescription:(RTC_OBJC_TYPE(RTCSessionDescription) *)sdp error:(NSError *)error { dispatch_async(dispatch_get_main_queue(), ^{ if (error) { RTCLogError(@"Failed to create session description. Error: %@", error); [self disconnect]; NSDictionary *userInfo = @{ NSLocalizedDescriptionKey: @"Failed to create session description.", }; NSError *sdpError = [[NSError alloc] initWithDomain:kARDAppClientErrorDomain code:kARDAppClientErrorCreateSDP userInfo:userInfo]; [self.delegate appClient:self didError:sdpError]; return; } __weak ARDAppClient *weakSelf = self; [self.peerConnection setLocalDescription:sdp completionHandler:^(NSError *error) { ARDAppClient *strongSelf = weakSelf; [strongSelf peerConnection:strongSelf.peerConnection didSetSessionDescriptionWithError:error]; }]; ARDSessionDescriptionMessage *message = [[ARDSessionDescriptionMessage alloc] initWithDescription:sdp]; [self sendSignalingMessage:message]; [self setMaxBitrateForPeerConnectionVideoSender]; }); } - (void)peerConnection:(RTC_OBJC_TYPE(RTCPeerConnection) *)peerConnection didSetSessionDescriptionWithError:(NSError *)error { dispatch_async(dispatch_get_main_queue(), ^{ if (error) { RTCLogError(@"Failed to set session description. Error: %@", error); [self disconnect]; NSDictionary *userInfo = @{ NSLocalizedDescriptionKey: @"Failed to set session description.", }; NSError *sdpError = [[NSError alloc] initWithDomain:kARDAppClientErrorDomain code:kARDAppClientErrorSetSDP userInfo:userInfo]; [self.delegate appClient:self didError:sdpError]; return; } // If we're answering and we've just set the remote offer we need to create // an answer and set the local description. if (!self.isInitiator && !self.peerConnection.localDescription) { RTC_OBJC_TYPE(RTCMediaConstraints) *constraints = [self defaultAnswerConstraints]; __weak ARDAppClient *weakSelf = self; [self.peerConnection answerForConstraints:constraints completionHandler:^(RTC_OBJC_TYPE(RTCSessionDescription) * sdp, NSError * error) { ARDAppClient *strongSelf = weakSelf; [strongSelf peerConnection:strongSelf.peerConnection didCreateSessionDescription:sdp error:error]; }]; } }); } #pragma mark - Private #if defined(WEBRTC_IOS) - (NSString *)documentsFilePathForFileName:(NSString *)fileName { NSParameterAssert(fileName.length); NSArray *paths = NSSearchPathForDirectoriesInDomains( NSDocumentDirectory, NSUserDomainMask, YES); NSString *documentsDirPath = paths.firstObject; NSString *filePath = [documentsDirPath stringByAppendingPathComponent:fileName]; return filePath; } #endif - (BOOL)hasJoinedRoomServerRoom { return _clientId.length; } // Begins the peer connection connection process if we have both joined a room // on the room server and tried to obtain a TURN server. Otherwise does nothing. // A peer connection object will be created with a stream that contains local // audio and video capture. If this client is the caller, an offer is created as // well, otherwise the client will wait for an offer to arrive. - (void)startSignalingIfReady { if (!_isTurnComplete || !self.hasJoinedRoomServerRoom) { return; } self.state = kARDAppClientStateConnected; // Create peer connection. RTC_OBJC_TYPE(RTCMediaConstraints) *constraints = [self defaultPeerConnectionConstraints]; RTC_OBJC_TYPE(RTCConfiguration) *config = [[RTC_OBJC_TYPE(RTCConfiguration) alloc] init]; RTC_OBJC_TYPE(RTCCertificate) *pcert = [RTC_OBJC_TYPE(RTCCertificate) generateCertificateWithParams:@{@"expires" : @100000, @"name" : @"RSASSA-PKCS1-v1_5"}]; config.iceServers = _iceServers; config.sdpSemantics = RTCSdpSemanticsUnifiedPlan; config.certificate = pcert; _peerConnection = [_factory peerConnectionWithConfiguration:config constraints:constraints delegate:self]; // Create AV senders. [self createMediaSenders]; if (_isInitiator) { // Send offer. __weak ARDAppClient *weakSelf = self; [_peerConnection offerForConstraints:[self defaultOfferConstraints] completionHandler:^(RTC_OBJC_TYPE(RTCSessionDescription) * sdp, NSError * error) { ARDAppClient *strongSelf = weakSelf; [strongSelf peerConnection:strongSelf.peerConnection didCreateSessionDescription:sdp error:error]; }]; } else { // Check if we've received an offer. [self drainMessageQueueIfReady]; } #if defined(WEBRTC_IOS) // Start event log. if (kARDAppClientEnableRtcEventLog) { NSString *filePath = [self documentsFilePathForFileName:@"webrtc-rtceventlog"]; if (![_peerConnection startRtcEventLogWithFilePath:filePath maxSizeInBytes:kARDAppClientRtcEventLogMaxSizeInBytes]) { RTCLogError(@"Failed to start event logging."); } } // Start aecdump diagnostic recording. if ([_settings currentCreateAecDumpSettingFromStore]) { NSString *filePath = [self documentsFilePathForFileName:@"webrtc-audio.aecdump"]; if (![_factory startAecDumpWithFilePath:filePath maxSizeInBytes:kARDAppClientAecDumpMaxSizeInBytes]) { RTCLogError(@"Failed to start aec dump."); } } #endif } // Processes the messages that we've received from the room server and the // signaling channel. The offer or answer message must be processed before other // signaling messages, however they can arrive out of order. Hence, this method // only processes pending messages if there is a peer connection object and // if we have received either an offer or answer. - (void)drainMessageQueueIfReady { if (!_peerConnection || !_hasReceivedSdp) { return; } for (ARDSignalingMessage *message in _messageQueue) { [self processSignalingMessage:message]; } [_messageQueue removeAllObjects]; } // Processes the given signaling message based on its type. - (void)processSignalingMessage:(ARDSignalingMessage *)message { NSParameterAssert(_peerConnection || message.type == kARDSignalingMessageTypeBye); switch (message.type) { case kARDSignalingMessageTypeOffer: case kARDSignalingMessageTypeAnswer: { ARDSessionDescriptionMessage *sdpMessage = (ARDSessionDescriptionMessage *)message; RTC_OBJC_TYPE(RTCSessionDescription) *description = sdpMessage.sessionDescription; __weak ARDAppClient *weakSelf = self; [_peerConnection setRemoteDescription:description completionHandler:^(NSError *error) { ARDAppClient *strongSelf = weakSelf; [strongSelf peerConnection:strongSelf.peerConnection didSetSessionDescriptionWithError:error]; }]; break; } case kARDSignalingMessageTypeCandidate: { ARDICECandidateMessage *candidateMessage = (ARDICECandidateMessage *)message; __weak ARDAppClient *weakSelf = self; [_peerConnection addIceCandidate:candidateMessage.candidate completionHandler:^(NSError *error) { ARDAppClient *strongSelf = weakSelf; if (error) { [strongSelf.delegate appClient:strongSelf didError:error]; } }]; break; } case kARDSignalingMessageTypeCandidateRemoval: { ARDICECandidateRemovalMessage *candidateMessage = (ARDICECandidateRemovalMessage *)message; [_peerConnection removeIceCandidates:candidateMessage.candidates]; break; } case kARDSignalingMessageTypeBye: // Other client disconnected. // TODO(tkchin): support waiting in room for next client. For now just // disconnect. [self disconnect]; break; } } // Sends a signaling message to the other client. The caller will send messages // through the room server, whereas the callee will send messages over the // signaling channel. - (void)sendSignalingMessage:(ARDSignalingMessage *)message { if (_isInitiator) { __weak ARDAppClient *weakSelf = self; [_roomServerClient sendMessage:message forRoomId:_roomId clientId:_clientId completionHandler:^(ARDMessageResponse *response, NSError *error) { ARDAppClient *strongSelf = weakSelf; if (error) { [strongSelf.delegate appClient:strongSelf didError:error]; return; } NSError *messageError = [[strongSelf class] errorForMessageResultType:response.result]; if (messageError) { [strongSelf.delegate appClient:strongSelf didError:messageError]; return; } }]; } else { [_channel sendMessage:message]; } } - (void)setMaxBitrateForPeerConnectionVideoSender { for (RTC_OBJC_TYPE(RTCRtpSender) * sender in _peerConnection.senders) { if (sender.track != nil) { if ([sender.track.kind isEqualToString:kARDVideoTrackKind]) { [self setMaxBitrate:[_settings currentMaxBitrateSettingFromStore] forVideoSender:sender]; } } } } - (void)setMaxBitrate:(NSNumber *)maxBitrate forVideoSender:(RTC_OBJC_TYPE(RTCRtpSender) *)sender { if (maxBitrate.intValue <= 0) { return; } RTC_OBJC_TYPE(RTCRtpParameters) *parametersToModify = sender.parameters; for (RTC_OBJC_TYPE(RTCRtpEncodingParameters) * encoding in parametersToModify.encodings) { encoding.maxBitrateBps = @(maxBitrate.intValue * kKbpsMultiplier); } [sender setParameters:parametersToModify]; } - (RTC_OBJC_TYPE(RTCRtpTransceiver) *)videoTransceiver { for (RTC_OBJC_TYPE(RTCRtpTransceiver) * transceiver in _peerConnection.transceivers) { if (transceiver.mediaType == RTCRtpMediaTypeVideo) { return transceiver; } } return nil; } - (void)createMediaSenders { RTC_OBJC_TYPE(RTCMediaConstraints) *constraints = [self defaultMediaAudioConstraints]; RTC_OBJC_TYPE(RTCAudioSource) *source = [_factory audioSourceWithConstraints:constraints]; RTC_OBJC_TYPE(RTCAudioTrack) *track = [_factory audioTrackWithSource:source trackId:kARDAudioTrackId]; [_peerConnection addTrack:track streamIds:@[ kARDMediaStreamId ]]; _localVideoTrack = [self createLocalVideoTrack]; if (_localVideoTrack) { [_peerConnection addTrack:_localVideoTrack streamIds:@[ kARDMediaStreamId ]]; [_delegate appClient:self didReceiveLocalVideoTrack:_localVideoTrack]; // We can set up rendering for the remote track right away since the transceiver already has an // RTC_OBJC_TYPE(RTCRtpReceiver) with a track. The track will automatically get unmuted and // produce frames once RTP is received. RTC_OBJC_TYPE(RTCVideoTrack) *track = (RTC_OBJC_TYPE(RTCVideoTrack) *)([self videoTransceiver].receiver.track); [_delegate appClient:self didReceiveRemoteVideoTrack:track]; } } - (RTC_OBJC_TYPE(RTCVideoTrack) *)createLocalVideoTrack { if ([_settings currentAudioOnlySettingFromStore]) { return nil; } RTC_OBJC_TYPE(RTCVideoSource) *source = [_factory videoSource]; #if !TARGET_IPHONE_SIMULATOR if (self.isBroadcast) { ARDExternalSampleCapturer *capturer = [[ARDExternalSampleCapturer alloc] initWithDelegate:source]; [_delegate appClient:self didCreateLocalExternalSampleCapturer:capturer]; } else { RTC_OBJC_TYPE(RTCCameraVideoCapturer) *capturer = [[RTC_OBJC_TYPE(RTCCameraVideoCapturer) alloc] initWithDelegate:source]; [_delegate appClient:self didCreateLocalCapturer:capturer]; } #else #if defined(__IPHONE_11_0) && (__IPHONE_OS_VERSION_MAX_ALLOWED >= __IPHONE_11_0) if (@available(iOS 10, *)) { RTC_OBJC_TYPE(RTCFileVideoCapturer) *fileCapturer = [[RTC_OBJC_TYPE(RTCFileVideoCapturer) alloc] initWithDelegate:source]; [_delegate appClient:self didCreateLocalFileCapturer:fileCapturer]; } #endif #endif return [_factory videoTrackWithSource:source trackId:kARDVideoTrackId]; } #pragma mark - Collider methods - (void)registerWithColliderIfReady { if (!self.hasJoinedRoomServerRoom) { return; } // Open WebSocket connection. if (!_channel) { _channel = [[ARDWebSocketChannel alloc] initWithURL:_websocketURL restURL:_websocketRestURL delegate:self]; if (_isLoopback) { _loopbackChannel = [[ARDLoopbackWebSocketChannel alloc] initWithURL:_websocketURL restURL:_websocketRestURL]; } } [_channel registerForRoomId:_roomId clientId:_clientId]; if (_isLoopback) { [_loopbackChannel registerForRoomId:_roomId clientId:@"LOOPBACK_CLIENT_ID"]; } } #pragma mark - Defaults - (RTC_OBJC_TYPE(RTCMediaConstraints) *)defaultMediaAudioConstraints { NSDictionary *mandatoryConstraints = @{}; RTC_OBJC_TYPE(RTCMediaConstraints) *constraints = [[RTC_OBJC_TYPE(RTCMediaConstraints) alloc] initWithMandatoryConstraints:mandatoryConstraints optionalConstraints:nil]; return constraints; } - (RTC_OBJC_TYPE(RTCMediaConstraints) *)defaultAnswerConstraints { return [self defaultOfferConstraints]; } - (RTC_OBJC_TYPE(RTCMediaConstraints) *)defaultOfferConstraints { NSDictionary *mandatoryConstraints = @{ @"OfferToReceiveAudio" : @"true", @"OfferToReceiveVideo" : @"true" }; RTC_OBJC_TYPE(RTCMediaConstraints) *constraints = [[RTC_OBJC_TYPE(RTCMediaConstraints) alloc] initWithMandatoryConstraints:mandatoryConstraints optionalConstraints:nil]; return constraints; } - (RTC_OBJC_TYPE(RTCMediaConstraints) *)defaultPeerConnectionConstraints { if (_defaultPeerConnectionConstraints) { return _defaultPeerConnectionConstraints; } NSString *value = _isLoopback ? @"false" : @"true"; NSDictionary *optionalConstraints = @{ @"DtlsSrtpKeyAgreement" : value }; RTC_OBJC_TYPE(RTCMediaConstraints) *constraints = [[RTC_OBJC_TYPE(RTCMediaConstraints) alloc] initWithMandatoryConstraints:nil optionalConstraints:optionalConstraints]; return constraints; } #pragma mark - Errors + (NSError *)errorForJoinResultType:(ARDJoinResultType)resultType { NSError *error = nil; switch (resultType) { case kARDJoinResultTypeSuccess: break; case kARDJoinResultTypeUnknown: { error = [[NSError alloc] initWithDomain:kARDAppClientErrorDomain code:kARDAppClientErrorUnknown userInfo:@{ NSLocalizedDescriptionKey: @"Unknown error.", }]; break; } case kARDJoinResultTypeFull: { error = [[NSError alloc] initWithDomain:kARDAppClientErrorDomain code:kARDAppClientErrorRoomFull userInfo:@{ NSLocalizedDescriptionKey: @"Room is full.", }]; break; } } return error; } + (NSError *)errorForMessageResultType:(ARDMessageResultType)resultType { NSError *error = nil; switch (resultType) { case kARDMessageResultTypeSuccess: break; case kARDMessageResultTypeUnknown: error = [[NSError alloc] initWithDomain:kARDAppClientErrorDomain code:kARDAppClientErrorUnknown userInfo:@{ NSLocalizedDescriptionKey: @"Unknown error.", }]; break; case kARDMessageResultTypeInvalidClient: error = [[NSError alloc] initWithDomain:kARDAppClientErrorDomain code:kARDAppClientErrorInvalidClient userInfo:@{ NSLocalizedDescriptionKey: @"Invalid client.", }]; break; case kARDMessageResultTypeInvalidRoom: error = [[NSError alloc] initWithDomain:kARDAppClientErrorDomain code:kARDAppClientErrorInvalidRoom userInfo:@{ NSLocalizedDescriptionKey: @"Invalid room.", }]; break; } return error; } @end