#include "MediaManager.h" #include "Instance.h" #include "VideoCaptureInterfaceImpl.h" #include "VideoCapturerInterface.h" #include "CodecSelectHelper.h" #include "AudioDeviceHelper.h" #include "Message.h" #include "platform/PlatformInterface.h" #include "StaticThreads.h" #include "api/audio_codecs/audio_decoder_factory_template.h" #include "api/audio_codecs/audio_encoder_factory_template.h" #include "api/audio_codecs/opus/audio_decoder_opus.h" #include "api/audio_codecs/opus/audio_encoder_opus.h" #include "api/task_queue/default_task_queue_factory.h" #include "media/engine/webrtc_media_engine.h" #include "system_wrappers/include/field_trial.h" #include "api/video/builtin_video_bitrate_allocator_factory.h" #include "call/call.h" #include "modules/rtp_rtcp/source/rtp_utility.h" #include "api/call/audio_sink.h" #include "modules/audio_processing/audio_buffer.h" #include "modules/audio_device/include/audio_device_factory.h" namespace tgcalls { namespace { constexpr uint32_t ssrcAudioIncoming = 1; constexpr uint32_t ssrcAudioOutgoing = 2; constexpr uint32_t ssrcAudioFecIncoming = 5; constexpr uint32_t ssrcAudioFecOutgoing = 6; constexpr uint32_t ssrcVideoIncoming = 3; constexpr uint32_t ssrcVideoOutgoing = 4; constexpr uint32_t ssrcVideoFecIncoming = 7; constexpr uint32_t ssrcVideoFecOutgoing = 8; VideoCaptureInterfaceObject *GetVideoCaptureAssumingSameThread(VideoCaptureInterface *videoCapture) { return videoCapture ? static_cast(videoCapture)->object()->getSyncAssumingSameThread() : nullptr; } class AudioCaptureAnalyzer : public webrtc::CustomAudioAnalyzer { private: void Initialize(int sample_rate_hz, int num_channels) override { } // Analyzes the given capture or render signal. void Analyze(const webrtc::AudioBuffer* audio) override { _analyze(audio); } // Returns a string representation of the module state. std::string ToString() const override { return "analyzing"; } std::function _analyze; public: AudioCaptureAnalyzer(std::function analyze) : _analyze(analyze) { } virtual ~AudioCaptureAnalyzer() = default; }; } // namespace class VideoSinkInterfaceProxyImpl : public rtc::VideoSinkInterface { public: VideoSinkInterfaceProxyImpl(bool rewriteRotation) : _rewriteRotation(rewriteRotation) { } virtual ~VideoSinkInterfaceProxyImpl() { } virtual void OnFrame(const webrtc::VideoFrame& frame) override { if (_impl) { if (_rewriteRotation) { webrtc::VideoFrame updatedFrame = frame; //updatedFrame.set_rotation(webrtc::VideoRotation::kVideoRotation_90); _impl->OnFrame(updatedFrame); } else { _impl->OnFrame(frame); } } } virtual void OnDiscardedFrame() override { if (_impl) { _impl->OnDiscardedFrame(); } } void setSink(std::shared_ptr> impl) { _impl = impl; } private: bool _rewriteRotation = false; std::shared_ptr> _impl; }; class AudioTrackSinkInterfaceImpl: public webrtc::AudioSinkInterface { private: std::function _update; int _peakCount = 0; uint16_t _peak = 0; public: AudioTrackSinkInterfaceImpl(std::function update) : _update(update) { } virtual ~AudioTrackSinkInterfaceImpl() { } virtual void OnData(const Data& audio) override { if (audio.channels == 1) { int16_t *samples = (int16_t *)audio.data; int numberOfSamplesInFrame = (int)audio.samples_per_channel; for (int i = 0; i < numberOfSamplesInFrame; i++) { int16_t sample = samples[i]; if (sample < 0) { sample = -sample; } if (_peak < sample) { _peak = sample; } _peakCount += 1; } if (_peakCount >= 1200) { float level = ((float)(_peak)) / 4000.0f; _peak = 0; _peakCount = 0; _update(level); } } } }; MediaManager::MediaManager( rtc::Thread *thread, bool isOutgoing, ProtocolVersion protocolVersion, const MediaDevicesConfig &devicesConfig, std::shared_ptr videoCapture, std::function sendSignalingMessage, std::function sendTransportMessage, std::function signalBarsUpdated, std::function audioLevelUpdated, std::function(webrtc::TaskQueueFactory*)> createAudioDeviceModule, bool enableHighBitrateVideo, std::vector preferredCodecs, std::shared_ptr platformContext) : _thread(thread), _eventLog(std::make_unique()), _taskQueueFactory(webrtc::CreateDefaultTaskQueueFactory()), _sendSignalingMessage(std::move(sendSignalingMessage)), _sendTransportMessage(std::move(sendTransportMessage)), _signalBarsUpdated(std::move(signalBarsUpdated)), _audioLevelUpdated(std::move(audioLevelUpdated)), _createAudioDeviceModule(std::move(createAudioDeviceModule)), _protocolVersion(protocolVersion), _outgoingVideoState(videoCapture ? VideoState::Active : VideoState::Inactive), _videoCapture(std::move(videoCapture)), _enableHighBitrateVideo(enableHighBitrateVideo), _platformContext(platformContext) { bool rewriteFrameRotation = false; switch (_protocolVersion) { case ProtocolVersion::V0: rewriteFrameRotation = true; break; case ProtocolVersion::V1: rewriteFrameRotation = false; break; default: break; } _incomingVideoSinkProxy.reset(new VideoSinkInterfaceProxyImpl(rewriteFrameRotation)); _ssrcAudio.incoming = isOutgoing ? ssrcAudioIncoming : ssrcAudioOutgoing; _ssrcAudio.outgoing = (!isOutgoing) ? ssrcAudioIncoming : ssrcAudioOutgoing; _ssrcAudio.fecIncoming = isOutgoing ? ssrcAudioFecIncoming : ssrcAudioFecOutgoing; _ssrcAudio.fecOutgoing = (!isOutgoing) ? ssrcAudioFecIncoming : ssrcAudioFecOutgoing; _ssrcVideo.incoming = isOutgoing ? ssrcVideoIncoming : ssrcVideoOutgoing; _ssrcVideo.outgoing = (!isOutgoing) ? ssrcVideoIncoming : ssrcVideoOutgoing; _ssrcVideo.fecIncoming = isOutgoing ? ssrcVideoFecIncoming : ssrcVideoFecOutgoing; _ssrcVideo.fecOutgoing = (!isOutgoing) ? ssrcVideoFecIncoming : ssrcVideoFecOutgoing; _audioNetworkInterface = std::unique_ptr(new MediaManager::NetworkInterfaceImpl(this, false)); _videoNetworkInterface = std::unique_ptr(new MediaManager::NetworkInterfaceImpl(this, true)); webrtc::field_trial::InitFieldTrialsFromString( "WebRTC-Audio-SendSideBwe/Enabled/" "WebRTC-Audio-Allocation/min:32kbps,max:32kbps/" "WebRTC-Audio-OpusMinPacketLossRate/Enabled-1/" "WebRTC-FlexFEC-03/Enabled/" "WebRTC-FlexFEC-03-Advertised/Enabled/" "WebRTC-Turn-AllowSystemPorts/Enabled/" ); PlatformInterface::SharedInstance()->configurePlatformAudio(); _videoBitrateAllocatorFactory = webrtc::CreateBuiltinVideoBitrateAllocatorFactory(); cricket::MediaEngineDependencies mediaDeps; mediaDeps.task_queue_factory = _taskQueueFactory.get(); mediaDeps.audio_encoder_factory = webrtc::CreateAudioEncoderFactory(); mediaDeps.audio_decoder_factory = webrtc::CreateAudioDecoderFactory(); mediaDeps.video_encoder_factory = PlatformInterface::SharedInstance()->makeVideoEncoderFactory(_platformContext); mediaDeps.video_decoder_factory = PlatformInterface::SharedInstance()->makeVideoDecoderFactory(_platformContext); _myVideoFormats = ComposeSupportedFormats( mediaDeps.video_encoder_factory->GetSupportedFormats(), mediaDeps.video_decoder_factory->GetSupportedFormats(), preferredCodecs, _platformContext); // [this] should outlive the analyzer auto analyzer = new AudioCaptureAnalyzer([this](const webrtc::AudioBuffer* buffer) { if (!buffer) { return; } if (buffer->num_channels() != 1) { return; } float peak = 0; int peakCount = 0; const float *samples = buffer->channels_const()[0]; for (int i = 0; i < buffer->num_frames(); i++) { float sample = samples[i]; if (sample < 0) { sample = -sample; } if (peak < sample) { peak = sample; } peakCount += 1; } this->_thread->PostTask(RTC_FROM_HERE, [this, peak, peakCount](){ auto strong = this; strong->_myAudioLevelPeakCount += peakCount; if (strong->_myAudioLevelPeak < peak) { strong->_myAudioLevelPeak = peak; } if (strong->_myAudioLevelPeakCount >= 1200) { float level = strong->_myAudioLevelPeak / 4000.0f; strong->_myAudioLevelPeak = 0; strong->_myAudioLevelPeakCount = 0; strong->_currentMyAudioLevel = level; } }); }); webrtc::AudioProcessingBuilder builder; builder.SetCaptureAnalyzer(std::unique_ptr(analyzer)); mediaDeps.audio_processing = builder.Create(); /*_audioDeviceModule = this->createAudioDeviceModule(); if (!_audioDeviceModule) { return; } mediaDeps.adm = _audioDeviceModule;*/ _mediaEngine = cricket::CreateMediaEngine(std::move(mediaDeps)); _mediaEngine->Init(); /*setAudioInputDevice(devicesConfig.audioInputId); setAudioOutputDevice(devicesConfig.audioOutputId); setInputVolume(devicesConfig.inputVolume); setOutputVolume(devicesConfig.outputVolume);*/ webrtc::Call::Config callConfig(_eventLog.get()); callConfig.task_queue_factory = _taskQueueFactory.get(); callConfig.trials = &_fieldTrials; callConfig.audio_state = _mediaEngine->voice().GetAudioState(); _call.reset(webrtc::Call::Create(callConfig)); cricket::AudioOptions audioOptions; audioOptions.echo_cancellation = true; audioOptions.noise_suppression = true; audioOptions.audio_jitter_buffer_fast_accelerate = true; std::vector streamIds; streamIds.push_back("1"); _audioChannel.reset(_mediaEngine->voice().CreateMediaChannel(_call.get(), cricket::MediaConfig(), audioOptions, webrtc::CryptoOptions::NoGcm())); _videoChannel.reset(_mediaEngine->video().CreateMediaChannel(_call.get(), cricket::MediaConfig(), cricket::VideoOptions(), webrtc::CryptoOptions::NoGcm(), _videoBitrateAllocatorFactory.get())); const uint32_t opusClockrate = 48000; const uint16_t opusSdpPayload = 111; const char *opusSdpName = "opus"; const uint8_t opusSdpChannels = 2; const uint32_t opusSdpBitrate = 0; const uint8_t opusMinBitrateKbps = 6; const uint8_t opusMaxBitrateKbps = 32; const uint8_t opusStartBitrateKbps = 8; const uint8_t opusPTimeMs = 120; cricket::AudioCodec opusCodec(opusSdpPayload, opusSdpName, opusClockrate, opusSdpBitrate, opusSdpChannels); opusCodec.AddFeedbackParam(cricket::FeedbackParam(cricket::kRtcpFbParamTransportCc)); opusCodec.SetParam(cricket::kCodecParamMinBitrate, opusMinBitrateKbps); opusCodec.SetParam(cricket::kCodecParamStartBitrate, opusStartBitrateKbps); opusCodec.SetParam(cricket::kCodecParamMaxBitrate, opusMaxBitrateKbps); opusCodec.SetParam(cricket::kCodecParamUseInbandFec, 1); opusCodec.SetParam(cricket::kCodecParamPTime, opusPTimeMs); cricket::AudioSendParameters audioSendPrameters; audioSendPrameters.codecs.push_back(opusCodec); audioSendPrameters.extensions.emplace_back(webrtc::RtpExtension::kTransportSequenceNumberUri, 1); audioSendPrameters.options.echo_cancellation = true; //audioSendPrameters.options.experimental_ns = false; audioSendPrameters.options.noise_suppression = true; audioSendPrameters.options.auto_gain_control = true; //audioSendPrameters.options.highpass_filter = false; audioSendPrameters.options.typing_detection = false; //audioSendPrameters.max_bandwidth_bps = 16000; audioSendPrameters.rtcp.reduced_size = true; audioSendPrameters.rtcp.remote_estimate = true; _audioChannel->SetSendParameters(audioSendPrameters); _audioChannel->AddSendStream(cricket::StreamParams::CreateLegacy(_ssrcAudio.outgoing)); _audioChannel->SetInterface(_audioNetworkInterface.get()); cricket::AudioRecvParameters audioRecvParameters; audioRecvParameters.codecs.emplace_back(opusSdpPayload, opusSdpName, opusClockrate, opusSdpBitrate, opusSdpChannels); audioRecvParameters.extensions.emplace_back(webrtc::RtpExtension::kTransportSequenceNumberUri, 1); audioRecvParameters.rtcp.reduced_size = true; audioRecvParameters.rtcp.remote_estimate = true; _audioChannel->SetRecvParameters(audioRecvParameters); cricket::StreamParams audioRecvStreamParams = cricket::StreamParams::CreateLegacy(_ssrcAudio.incoming); audioRecvStreamParams.set_stream_ids(streamIds); _audioChannel->AddRecvStream(audioRecvStreamParams); _audioChannel->SetPlayout(true); _videoChannel->SetInterface(_videoNetworkInterface.get()); adjustBitratePreferences(true); } rtc::scoped_refptr MediaManager::createAudioDeviceModule() { const auto create = [&](webrtc::AudioDeviceModule::AudioLayer layer) { return webrtc::AudioDeviceModule::Create( layer, _taskQueueFactory.get()); }; const auto check = [&](const rtc::scoped_refptr &result) { return (result && result->Init() == 0) ? result : nullptr; }; if (_createAudioDeviceModule) { if (const auto result = check(_createAudioDeviceModule(_taskQueueFactory.get()))) { return result; } } return check(create(webrtc::AudioDeviceModule::kPlatformDefaultAudio)); } void MediaManager::start() { const auto weak = std::weak_ptr(shared_from_this()); // Here we hope that thread outlives the sink rtc::Thread *thread = _thread; std::unique_ptr incomingSink(new AudioTrackSinkInterfaceImpl([weak, thread](float level) { thread->PostTask(RTC_FROM_HERE, [weak, level] { if (const auto strong = weak.lock()) { strong->_currentAudioLevel = level; } }); })); _audioChannel->SetRawAudioSink(_ssrcAudio.incoming, std::move(incomingSink)); _sendSignalingMessage({ _myVideoFormats }); if (_videoCapture != nullptr) { setSendVideo(_videoCapture); } beginStatsTimer(3000); if (_audioLevelUpdated != nullptr) { beginLevelsTimer(100); } } MediaManager::~MediaManager() { assert(_thread->IsCurrent()); RTC_LOG(LS_INFO) << "MediaManager::~MediaManager()"; _call->SignalChannelNetworkState(webrtc::MediaType::AUDIO, webrtc::kNetworkDown); _call->SignalChannelNetworkState(webrtc::MediaType::VIDEO, webrtc::kNetworkDown); _audioChannel->OnReadyToSend(false); _audioChannel->SetSend(false); _audioChannel->SetAudioSend(_ssrcAudio.outgoing, false, nullptr, &_audioSource); _audioChannel->SetPlayout(false); _audioChannel->RemoveRecvStream(_ssrcAudio.incoming); _audioChannel->RemoveSendStream(_ssrcAudio.outgoing); _audioChannel->SetInterface(nullptr); setSendVideo(nullptr); if (computeIsReceivingVideo()) { _videoChannel->RemoveRecvStream(_ssrcVideo.incoming); if (_enableFlexfec) { _videoChannel->RemoveRecvStream(_ssrcVideo.fecIncoming); } } if (_didConfigureVideo) { _videoChannel->OnReadyToSend(false); _videoChannel->SetSend(false); if (_enableFlexfec) { _videoChannel->RemoveSendStream(_ssrcVideo.outgoing); _videoChannel->RemoveSendStream(_ssrcVideo.fecOutgoing); } else { _videoChannel->RemoveSendStream(_ssrcVideo.outgoing); } } _videoChannel->SetInterface(nullptr); _audioDeviceModule = nullptr; } void MediaManager::setIsConnected(bool isConnected) { if (_isConnected == isConnected) { return; } bool isFirstConnection = false; if (!_isConnected && isConnected) { _didConnectOnce = true; isFirstConnection = true; } _isConnected = isConnected; if (_isConnected) { _call->SignalChannelNetworkState(webrtc::MediaType::AUDIO, webrtc::kNetworkUp); _call->SignalChannelNetworkState(webrtc::MediaType::VIDEO, webrtc::kNetworkUp); } else { _call->SignalChannelNetworkState(webrtc::MediaType::AUDIO, webrtc::kNetworkDown); _call->SignalChannelNetworkState(webrtc::MediaType::VIDEO, webrtc::kNetworkDown); } if (_audioChannel) { _audioChannel->OnReadyToSend(_isConnected); _audioChannel->SetSend(_isConnected); _audioChannel->SetAudioSend(_ssrcAudio.outgoing, _isConnected && (_outgoingAudioState == AudioState::Active), nullptr, &_audioSource); } if (computeIsSendingVideo() && _videoChannel) { _videoChannel->OnReadyToSend(_isConnected); _videoChannel->SetSend(_isConnected); } if (isFirstConnection) { sendVideoParametersMessage(); sendOutgoingMediaStateMessage(); } } void MediaManager::sendVideoParametersMessage() { const auto aspectRatioValue = uint32_t(_localPreferredVideoAspectRatio * 1000.0); _sendTransportMessage({ VideoParametersMessage{ aspectRatioValue } }); } void MediaManager::sendOutgoingMediaStateMessage() { _sendTransportMessage({ RemoteMediaStateMessage{ _outgoingAudioState, _outgoingVideoState } }); } void MediaManager::beginStatsTimer(int timeoutMs) { const auto weak = std::weak_ptr(shared_from_this()); _thread->PostDelayedTask(RTC_FROM_HERE, [weak]() { auto strong = weak.lock(); if (!strong) { return; } strong->collectStats(); }, timeoutMs); } void MediaManager::beginLevelsTimer(int timeoutMs) { const auto weak = std::weak_ptr(shared_from_this()); _thread->PostDelayedTask(RTC_FROM_HERE, [weak]() { auto strong = weak.lock(); if (!strong) { return; } float effectiveLevel = fmaxf(strong->_currentAudioLevel, strong->_currentMyAudioLevel); strong->_audioLevelUpdated(effectiveLevel); strong->beginLevelsTimer(100); }, timeoutMs); } void MediaManager::collectStats() { auto stats = _call->GetStats(); float bitrateNorm = 16.0f; switch (_outgoingVideoState) { case VideoState::Active: bitrateNorm = 600.0f; break; default: break; } float sendBitrateKbps = ((float)stats.send_bandwidth_bps / 1000.0f); RTC_LOG(LS_INFO) << "MediaManager sendBitrateKbps=" << (stats.send_bandwidth_bps / 1000); float signalBarsNorm = 4.0f; float adjustedQuality = sendBitrateKbps / bitrateNorm; adjustedQuality = fmaxf(0.0f, adjustedQuality); adjustedQuality = fminf(1.0f, adjustedQuality); if (_signalBarsUpdated) { _signalBarsUpdated((int)(adjustedQuality * signalBarsNorm)); } _bitrateRecords.push_back(CallStatsBitrateRecord { (int32_t)(rtc::TimeMillis() / 1000), stats.send_bandwidth_bps / 1000 }); beginStatsTimer(2000); } void MediaManager::notifyPacketSent(const rtc::SentPacket &sentPacket) { _call->OnSentPacket(sentPacket); } void MediaManager::setPeerVideoFormats(VideoFormatsMessage &&peerFormats) { if (!_videoCodecs.empty()) { return; } bool wasReceivingVideo = computeIsReceivingVideo(); assert(!_videoCodecOut.has_value()); auto formats = ComputeCommonFormats( _myVideoFormats, std::move(peerFormats)); auto codecs = AssignPayloadTypesAndDefaultCodecs(std::move(formats)); if (codecs.myEncoderIndex >= 0) { assert(codecs.myEncoderIndex < codecs.list.size()); _videoCodecOut = codecs.list[codecs.myEncoderIndex]; } _videoCodecs = std::move(codecs.list); if (_videoCodecOut.has_value()) { checkIsSendingVideoChanged(false); } if (_videoCodecs.size() != 0) { checkIsReceivingVideoChanged(wasReceivingVideo); } } bool MediaManager::videoCodecsNegotiated() const { return !_videoCodecs.empty(); } bool MediaManager::computeIsSendingVideo() const { return _videoCapture != nullptr && _videoCodecOut.has_value(); } bool MediaManager::computeIsReceivingVideo() const { return _videoCodecs.size() != 0; } void MediaManager::setSendVideo(std::shared_ptr videoCapture) { const auto wasSending = computeIsSendingVideo(); const auto wasReceiving = computeIsReceivingVideo(); if (_videoCapture) { GetVideoCaptureAssumingSameThread(_videoCapture.get())->setStateUpdated(nullptr); } _videoCapture = videoCapture; if (_videoCapture) { _videoCapture->setPreferredAspectRatio(_preferredAspectRatio); const auto thread = _thread; const auto weak = std::weak_ptr(shared_from_this()); GetVideoCaptureAssumingSameThread(_videoCapture.get())->setStateUpdated([=](VideoState state) { thread->PostTask(RTC_FROM_HERE, [=] { if (const auto strong = weak.lock()) { strong->setOutgoingVideoState(state); } }); }); setOutgoingVideoState(VideoState::Active); } else { setOutgoingVideoState(VideoState::Inactive); } checkIsSendingVideoChanged(wasSending); checkIsReceivingVideoChanged(wasReceiving); } void MediaManager::setRequestedVideoAspect(float aspect) { if (_localPreferredVideoAspectRatio != aspect) { _localPreferredVideoAspectRatio = aspect; if (_didConnectOnce) { sendVideoParametersMessage(); } } } void MediaManager::configureSendingVideoIfNeeded() { if (_didConfigureVideo) { return; } if (!_videoCodecOut.has_value()) { return; } _didConfigureVideo = true; auto codec = *_videoCodecOut; codec.SetParam(cricket::kCodecParamMinBitrate, 64); codec.SetParam(cricket::kCodecParamStartBitrate, 400); codec.SetParam(cricket::kCodecParamMaxBitrate, _enableHighBitrateVideo ? 2000 : 800); cricket::VideoSendParameters videoSendParameters; videoSendParameters.codecs.push_back(codec); if (_enableFlexfec) { for (auto &c : _videoCodecs) { if (c.name == cricket::kFlexfecCodecName) { videoSendParameters.codecs.push_back(c); break; } } } videoSendParameters.extensions.emplace_back(webrtc::RtpExtension::kTransportSequenceNumberUri, 2); switch (_protocolVersion) { case ProtocolVersion::V1: videoSendParameters.extensions.emplace_back(webrtc::RtpExtension::kVideoRotationUri, 3); videoSendParameters.extensions.emplace_back( webrtc::RtpExtension::kTimestampOffsetUri, 4); break; default: break; } videoSendParameters.rtcp.remote_estimate = true; _videoChannel->SetSendParameters(videoSendParameters); if (_enableFlexfec) { cricket::StreamParams videoSendStreamParams; cricket::SsrcGroup videoSendSsrcGroup(cricket::kFecFrSsrcGroupSemantics, {_ssrcVideo.outgoing, _ssrcVideo.fecOutgoing}); videoSendStreamParams.ssrcs = {_ssrcVideo.outgoing}; videoSendStreamParams.ssrc_groups.push_back(videoSendSsrcGroup); videoSendStreamParams.cname = "cname"; _videoChannel->AddSendStream(videoSendStreamParams); } else { _videoChannel->AddSendStream(cricket::StreamParams::CreateLegacy(_ssrcVideo.outgoing)); } adjustBitratePreferences(true); } void MediaManager::checkIsSendingVideoChanged(bool wasSending) { const auto sending = computeIsSendingVideo(); if (sending == wasSending) { return; } else if (sending) { configureSendingVideoIfNeeded(); if (_enableFlexfec) { _videoChannel->SetVideoSend(_ssrcVideo.outgoing, NULL, GetVideoCaptureAssumingSameThread(_videoCapture.get())->source()); _videoChannel->SetVideoSend(_ssrcVideo.fecOutgoing, NULL, nullptr); } else { _videoChannel->SetVideoSend(_ssrcVideo.outgoing, NULL, GetVideoCaptureAssumingSameThread(_videoCapture.get())->source()); } _videoChannel->OnReadyToSend(_isConnected); _videoChannel->SetSend(_isConnected); } else { _videoChannel->SetVideoSend(_ssrcVideo.outgoing, NULL, nullptr); _videoChannel->SetVideoSend(_ssrcVideo.fecOutgoing, NULL, nullptr); } adjustBitratePreferences(true); } int MediaManager::getMaxVideoBitrate() const { return (_enableHighBitrateVideo && _isLowCostNetwork) ? 2000000 : 800000; } int MediaManager::getMaxAudioBitrate() const { if (_isDataSavingActive) { return 16000; } else { return 32000; } } void MediaManager::adjustBitratePreferences(bool resetStartBitrate) { if (computeIsSendingVideo()) { webrtc::BitrateConstraints preferences; preferences.min_bitrate_bps = 64000; if (resetStartBitrate) { preferences.start_bitrate_bps = 400000; } preferences.max_bitrate_bps = getMaxVideoBitrate(); _call->GetTransportControllerSend()->SetSdpBitrateParameters(preferences); } else { webrtc::BitrateConstraints preferences; if (_didConfigureVideo) { // After we have configured outgoing video, RTCP stops working for outgoing audio // TODO: investigate preferences.min_bitrate_bps = 16000; if (resetStartBitrate) { preferences.start_bitrate_bps = 16000; } preferences.max_bitrate_bps = 32000; } else { preferences.min_bitrate_bps = 8000; if (resetStartBitrate) { preferences.start_bitrate_bps = 16000; } preferences.max_bitrate_bps = getMaxAudioBitrate(); } _call->GetTransportControllerSend()->SetSdpBitrateParameters(preferences); } } void MediaManager::checkIsReceivingVideoChanged(bool wasReceiving) { const auto receiving = computeIsReceivingVideo(); if (receiving == wasReceiving) { return; } else { cricket::VideoRecvParameters videoRecvParameters; const auto codecs = { cricket::kFlexfecCodecName, cricket::kH264CodecName, #ifndef WEBRTC_DISABLE_H265 cricket::kH265CodecName, #endif cricket::kVp8CodecName, cricket::kVp9CodecName, cricket::kAv1CodecName, }; for (const auto &c : _videoCodecs) { for (const auto known : codecs) { if (c.name == known) { videoRecvParameters.codecs.push_back(c); break; } } } videoRecvParameters.extensions.emplace_back(webrtc::RtpExtension::kTransportSequenceNumberUri, 2); switch (_protocolVersion) { case ProtocolVersion::V1: videoRecvParameters.extensions.emplace_back(webrtc::RtpExtension::kVideoRotationUri, 3); videoRecvParameters.extensions.emplace_back( webrtc::RtpExtension::kTimestampOffsetUri, 4); break; default: break; } videoRecvParameters.rtcp.reduced_size = true; videoRecvParameters.rtcp.remote_estimate = true; cricket::StreamParams videoRecvStreamParams; cricket::SsrcGroup videoRecvSsrcGroup(cricket::kFecFrSsrcGroupSemantics, {_ssrcVideo.incoming, _ssrcVideo.fecIncoming}); videoRecvStreamParams.ssrcs = {_ssrcVideo.incoming}; videoRecvStreamParams.ssrc_groups.push_back(videoRecvSsrcGroup); videoRecvStreamParams.cname = "cname"; std::vector streamIds; streamIds.push_back("1"); videoRecvStreamParams.set_stream_ids(streamIds); _videoChannel->SetRecvParameters(videoRecvParameters); _videoChannel->AddRecvStream(videoRecvStreamParams); _readyToReceiveVideo = true; _videoChannel->SetSink(_ssrcVideo.incoming, _incomingVideoSinkProxy.get()); } } void MediaManager::setMuteOutgoingAudio(bool mute) { setOutgoingAudioState(mute ? AudioState::Muted : AudioState::Active); _audioChannel->SetAudioSend(_ssrcAudio.outgoing, _isConnected && (_outgoingAudioState == AudioState::Active), nullptr, &_audioSource); } void MediaManager::setOutgoingAudioState(AudioState state) { if (_outgoingAudioState == state) { return; } _outgoingAudioState = state; sendOutgoingMediaStateMessage(); } void MediaManager::setOutgoingVideoState(VideoState state) { if (_outgoingVideoState == state) { return; } _outgoingVideoState = state; sendOutgoingMediaStateMessage(); } void MediaManager::setIncomingVideoOutput(std::shared_ptr> sink) { _incomingVideoSinkProxy->setSink(sink); } static bool IsRtcp(const uint8_t* packet, size_t length) { webrtc::RtpUtility::RtpHeaderParser rtp_parser(packet, length); return rtp_parser.RTCP(); } void MediaManager::receiveMessage(DecryptedMessage &&message) { const auto data = &message.message.data; if (const auto formats = absl::get_if(data)) { setPeerVideoFormats(std::move(*formats)); } else if (const auto audio = absl::get_if(data)) { if (IsRtcp(audio->data.data(), audio->data.size())) { RTC_LOG(LS_VERBOSE) << "Deliver audio RTCP"; } _call->Receiver()->DeliverPacket(webrtc::MediaType::AUDIO, audio->data, -1); } else if (const auto video = absl::get_if(data)) { if (_videoChannel) { if (_readyToReceiveVideo) { _call->Receiver()->DeliverPacket(webrtc::MediaType::VIDEO, video->data, -1); } else { // maybe we need to queue packets for some time? } } } else if (const auto videoParameters = absl::get_if(data)) { float value = ((float)videoParameters->aspectRatio) / 1000.0; _preferredAspectRatio = value; if (_videoCapture) { _videoCapture->setPreferredAspectRatio(value); } } } void MediaManager::remoteVideoStateUpdated(VideoState videoState) { switch (videoState) { case VideoState::Active: case VideoState::Paused: configureSendingVideoIfNeeded(); break; default: break; } } void MediaManager::setNetworkParameters(bool isLowCost, bool isDataSavingActive) { if (_isLowCostNetwork != isLowCost || _isDataSavingActive != isDataSavingActive) { _isLowCostNetwork = isLowCost; _isDataSavingActive = isDataSavingActive; RTC_LOG(LS_INFO) << "MediaManager isLowCostNetwork: " << (isLowCost ? 1 : 0) << ", isDataSavingActive: " << (isDataSavingActive ? 1 : 0); adjustBitratePreferences(false); } } void MediaManager::fillCallStats(CallStats &callStats) { if (_videoCodecOut.has_value()) { callStats.outgoingCodec = _videoCodecOut->name; } callStats.bitrateRecords = std::move(_bitrateRecords); } void MediaManager::setAudioInputDevice(std::string id) { #if defined(WEBRTC_IOS) #else SetAudioInputDeviceById(_audioDeviceModule.get(), id); #endif } void MediaManager::setAudioOutputDevice(std::string id) { #if defined(WEBRTC_IOS) #else SetAudioOutputDeviceById(_audioDeviceModule.get(), id); #endif } void MediaManager::setInputVolume(float level) { // This is not what we want, it changes OS volume on macOS. // auto min = uint32_t(); // auto max = uint32_t(); // if (const auto result = _audioDeviceModule->MinMicrophoneVolume(&min)) { // RTC_LOG(LS_ERROR) << "setInputVolume(" << level << "): MinMicrophoneVolume failed: " << result << "."; // return; // } else if (const auto result = _audioDeviceModule->MaxMicrophoneVolume(&max)) { // RTC_LOG(LS_ERROR) << "setInputVolume(" << level << "): MaxMicrophoneVolume failed: " << result << "."; // return; // } // const auto volume = min + uint32_t(std::round((max - min) * std::min(std::max(level, 0.f), 1.f))); // if (const auto result = _audioDeviceModule->SetMicrophoneVolume(volume)) { // RTC_LOG(LS_ERROR) << "setInputVolume(" << level << "): SetMicrophoneVolume(" << volume << ") failed: " << result << "."; // } else { // RTC_LOG(LS_INFO) << "setInputVolume(" << level << ") volume " << volume << " success."; // } } void MediaManager::setOutputVolume(float level) { // This is not what we want, it changes OS volume on macOS. // auto min = uint32_t(); // auto max = uint32_t(); // if (const auto result = _audioDeviceModule->MinSpeakerVolume(&min)) { // RTC_LOG(LS_ERROR) << "setOutputVolume(" << level << "): MinSpeakerVolume failed: " << result << "."; // return; // } else if (const auto result = _audioDeviceModule->MaxSpeakerVolume(&max)) { // RTC_LOG(LS_ERROR) << "setOutputVolume(" << level << "): MaxSpeakerVolume failed: " << result << "."; // return; // } // const auto volume = min + uint32_t(std::round((max - min) * std::min(std::max(level, 0.f), 1.f))); // if (const auto result = _audioDeviceModule->SetSpeakerVolume(volume)) { // RTC_LOG(LS_ERROR) << "setOutputVolume(" << level << "): SetSpeakerVolume(" << volume << ") failed: " << result << "."; // } else { // RTC_LOG(LS_INFO) << "setOutputVolume(" << level << ") volume " << volume << " success."; // } } MediaManager::NetworkInterfaceImpl::NetworkInterfaceImpl(MediaManager *mediaManager, bool isVideo) : _mediaManager(mediaManager), _isVideo(isVideo) { } bool MediaManager::NetworkInterfaceImpl::SendPacket(rtc::CopyOnWriteBuffer *packet, const rtc::PacketOptions& options) { return sendTransportMessage(packet, options); } bool MediaManager::NetworkInterfaceImpl::SendRtcp(rtc::CopyOnWriteBuffer *packet, const rtc::PacketOptions& options) { return sendTransportMessage(packet, options); } bool MediaManager::NetworkInterfaceImpl::sendTransportMessage(rtc::CopyOnWriteBuffer *packet, const rtc::PacketOptions& options) { if (_isVideo) { RTC_LOG(LS_VERBOSE) << "Send video packet"; } _mediaManager->_sendTransportMessage(_isVideo ? Message{ VideoDataMessage{ *packet } } : Message{ AudioDataMessage{ *packet } }); rtc::SentPacket sentPacket(options.packet_id, rtc::TimeMillis(), options.info_signaled_after_sent); _mediaManager->notifyPacketSent(sentPacket); return true; } int MediaManager::NetworkInterfaceImpl::SetOption(cricket::MediaChannel::NetworkInterface::SocketType, rtc::Socket::Option, int) { return -1; } } // namespace tgcalls