/* * Copyright (c) 2012 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. */ #include "webrtc/voice_engine/transmit_mixer.h" #include "webrtc/base/format_macros.h" #include "webrtc/base/logging.h" #include "webrtc/modules/utility/include/audio_frame_operations.h" #include "webrtc/system_wrappers/include/critical_section_wrapper.h" #include "webrtc/system_wrappers/include/event_wrapper.h" #include "webrtc/system_wrappers/include/trace.h" #include "webrtc/voice_engine/channel.h" #include "webrtc/voice_engine/channel_manager.h" #include "webrtc/voice_engine/include/voe_external_media.h" #include "webrtc/voice_engine/statistics.h" #include "webrtc/voice_engine/utility.h" #include "webrtc/voice_engine/voe_base_impl.h" namespace webrtc { namespace voe { // TODO(ajm): The thread safety of this is dubious... void TransmitMixer::OnPeriodicProcess() { WEBRTC_TRACE(kTraceStream, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::OnPeriodicProcess()"); #if defined(WEBRTC_VOICE_ENGINE_TYPING_DETECTION) bool send_typing_noise_warning = false; bool typing_noise_detected = false; { CriticalSectionScoped cs(&_critSect); if (_typingNoiseWarningPending) { send_typing_noise_warning = true; typing_noise_detected = _typingNoiseDetected; _typingNoiseWarningPending = false; } } if (send_typing_noise_warning) { CriticalSectionScoped cs(&_callbackCritSect); if (_voiceEngineObserverPtr) { if (typing_noise_detected) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::OnPeriodicProcess() => " "CallbackOnError(VE_TYPING_NOISE_WARNING)"); _voiceEngineObserverPtr->CallbackOnError( -1, VE_TYPING_NOISE_WARNING); } else { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::OnPeriodicProcess() => " "CallbackOnError(VE_TYPING_NOISE_OFF_WARNING)"); _voiceEngineObserverPtr->CallbackOnError( -1, VE_TYPING_NOISE_OFF_WARNING); } } } #endif bool saturationWarning = false; { // Modify |_saturationWarning| under lock to avoid conflict with write op // in ProcessAudio and also ensure that we don't hold the lock during the // callback. CriticalSectionScoped cs(&_critSect); saturationWarning = _saturationWarning; if (_saturationWarning) _saturationWarning = false; } if (saturationWarning) { CriticalSectionScoped cs(&_callbackCritSect); if (_voiceEngineObserverPtr) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::OnPeriodicProcess() =>" " CallbackOnError(VE_SATURATION_WARNING)"); _voiceEngineObserverPtr->CallbackOnError(-1, VE_SATURATION_WARNING); } } } void TransmitMixer::PlayNotification(int32_t id, uint32_t durationMs) { WEBRTC_TRACE(kTraceStream, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::PlayNotification(id=%d, durationMs=%d)", id, durationMs); // Not implement yet } void TransmitMixer::RecordNotification(int32_t id, uint32_t durationMs) { WEBRTC_TRACE(kTraceStream, kTraceVoice, VoEId(_instanceId,-1), "TransmitMixer::RecordNotification(id=%d, durationMs=%d)", id, durationMs); // Not implement yet } void TransmitMixer::PlayFileEnded(int32_t id) { WEBRTC_TRACE(kTraceStream, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::PlayFileEnded(id=%d)", id); assert(id == _filePlayerId); CriticalSectionScoped cs(&_critSect); _filePlaying = false; WEBRTC_TRACE(kTraceStateInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::PlayFileEnded() =>" "file player module is shutdown"); } void TransmitMixer::RecordFileEnded(int32_t id) { WEBRTC_TRACE(kTraceStream, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::RecordFileEnded(id=%d)", id); if (id == _fileRecorderId) { CriticalSectionScoped cs(&_critSect); _fileRecording = false; WEBRTC_TRACE(kTraceStateInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::RecordFileEnded() => fileRecorder module" "is shutdown"); } else if (id == _fileCallRecorderId) { CriticalSectionScoped cs(&_critSect); _fileCallRecording = false; WEBRTC_TRACE(kTraceStateInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::RecordFileEnded() => fileCallRecorder" "module is shutdown"); } } int32_t TransmitMixer::Create(TransmitMixer*& mixer, uint32_t instanceId) { WEBRTC_TRACE(kTraceMemory, kTraceVoice, VoEId(instanceId, -1), "TransmitMixer::Create(instanceId=%d)", instanceId); mixer = new TransmitMixer(instanceId); if (mixer == NULL) { WEBRTC_TRACE(kTraceMemory, kTraceVoice, VoEId(instanceId, -1), "TransmitMixer::Create() unable to allocate memory" "for mixer"); return -1; } return 0; } void TransmitMixer::Destroy(TransmitMixer*& mixer) { if (mixer) { delete mixer; mixer = NULL; } } TransmitMixer::TransmitMixer(uint32_t instanceId) : _engineStatisticsPtr(NULL), _channelManagerPtr(NULL), audioproc_(NULL), _voiceEngineObserverPtr(NULL), _processThreadPtr(NULL), _filePlayerPtr(NULL), _fileRecorderPtr(NULL), _fileCallRecorderPtr(NULL), // Avoid conflict with other channels by adding 1024 - 1026, // won't use as much as 1024 channels. _filePlayerId(instanceId + 1024), _fileRecorderId(instanceId + 1025), _fileCallRecorderId(instanceId + 1026), _filePlaying(false), _fileRecording(false), _fileCallRecording(false), _audioLevel(), _critSect(*CriticalSectionWrapper::CreateCriticalSection()), _callbackCritSect(*CriticalSectionWrapper::CreateCriticalSection()), #ifdef WEBRTC_VOICE_ENGINE_TYPING_DETECTION _typingNoiseWarningPending(false), _typingNoiseDetected(false), #endif _saturationWarning(false), _instanceId(instanceId), _mixFileWithMicrophone(false), _captureLevel(0), external_postproc_ptr_(NULL), external_preproc_ptr_(NULL), _mute(false), _remainingMuteMicTimeMs(0), stereo_codec_(false), swap_stereo_channels_(false) { WEBRTC_TRACE(kTraceMemory, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::TransmitMixer() - ctor"); } TransmitMixer::~TransmitMixer() { WEBRTC_TRACE(kTraceMemory, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::~TransmitMixer() - dtor"); _monitorModule.DeRegisterObserver(); if (_processThreadPtr) { _processThreadPtr->DeRegisterModule(&_monitorModule); } DeRegisterExternalMediaProcessing(kRecordingAllChannelsMixed); DeRegisterExternalMediaProcessing(kRecordingPreprocessing); { CriticalSectionScoped cs(&_critSect); if (_fileRecorderPtr) { _fileRecorderPtr->RegisterModuleFileCallback(NULL); _fileRecorderPtr->StopRecording(); FileRecorder::DestroyFileRecorder(_fileRecorderPtr); _fileRecorderPtr = NULL; } if (_fileCallRecorderPtr) { _fileCallRecorderPtr->RegisterModuleFileCallback(NULL); _fileCallRecorderPtr->StopRecording(); FileRecorder::DestroyFileRecorder(_fileCallRecorderPtr); _fileCallRecorderPtr = NULL; } if (_filePlayerPtr) { _filePlayerPtr->RegisterModuleFileCallback(NULL); _filePlayerPtr->StopPlayingFile(); FilePlayer::DestroyFilePlayer(_filePlayerPtr); _filePlayerPtr = NULL; } } delete &_critSect; delete &_callbackCritSect; } int32_t TransmitMixer::SetEngineInformation(ProcessThread& processThread, Statistics& engineStatistics, ChannelManager& channelManager) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::SetEngineInformation()"); _processThreadPtr = &processThread; _engineStatisticsPtr = &engineStatistics; _channelManagerPtr = &channelManager; _processThreadPtr->RegisterModule(&_monitorModule); _monitorModule.RegisterObserver(*this); return 0; } int32_t TransmitMixer::RegisterVoiceEngineObserver(VoiceEngineObserver& observer) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::RegisterVoiceEngineObserver()"); CriticalSectionScoped cs(&_callbackCritSect); if (_voiceEngineObserverPtr) { _engineStatisticsPtr->SetLastError( VE_INVALID_OPERATION, kTraceError, "RegisterVoiceEngineObserver() observer already enabled"); return -1; } _voiceEngineObserverPtr = &observer; return 0; } int32_t TransmitMixer::SetAudioProcessingModule(AudioProcessing* audioProcessingModule) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::SetAudioProcessingModule(" "audioProcessingModule=0x%x)", audioProcessingModule); audioproc_ = audioProcessingModule; return 0; } void TransmitMixer::GetSendCodecInfo(int* max_sample_rate, size_t* max_channels) { *max_sample_rate = 8000; *max_channels = 1; for (ChannelManager::Iterator it(_channelManagerPtr); it.IsValid(); it.Increment()) { Channel* channel = it.GetChannel(); if (channel->Sending()) { CodecInst codec; channel->GetSendCodec(codec); *max_sample_rate = std::max(*max_sample_rate, codec.plfreq); *max_channels = std::max(*max_channels, codec.channels); } } } int32_t TransmitMixer::PrepareDemux(const void* audioSamples, size_t nSamples, size_t nChannels, uint32_t samplesPerSec, uint16_t totalDelayMS, int32_t clockDrift, uint16_t currentMicLevel, bool keyPressed) { WEBRTC_TRACE(kTraceStream, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::PrepareDemux(nSamples=%" PRIuS ", " "nChannels=%" PRIuS ", samplesPerSec=%u, totalDelayMS=%u, " "clockDrift=%d, currentMicLevel=%u)", nSamples, nChannels, samplesPerSec, totalDelayMS, clockDrift, currentMicLevel); // --- Resample input audio and create/store the initial audio frame GenerateAudioFrame(static_cast(audioSamples), nSamples, nChannels, samplesPerSec); { CriticalSectionScoped cs(&_callbackCritSect); if (external_preproc_ptr_) { external_preproc_ptr_->Process(-1, kRecordingPreprocessing, _audioFrame.data_, _audioFrame.samples_per_channel_, _audioFrame.sample_rate_hz_, _audioFrame.num_channels_ == 2); } } // --- Near-end audio processing. ProcessAudio(totalDelayMS, clockDrift, currentMicLevel, keyPressed); if (swap_stereo_channels_ && stereo_codec_) // Only bother swapping if we're using a stereo codec. AudioFrameOperations::SwapStereoChannels(&_audioFrame); // --- Annoying typing detection (utilizes the APM/VAD decision) #ifdef WEBRTC_VOICE_ENGINE_TYPING_DETECTION TypingDetection(keyPressed); #endif // --- Mute during DTMF tone if direct feedback is enabled if (_remainingMuteMicTimeMs > 0) { AudioFrameOperations::Mute(_audioFrame); _remainingMuteMicTimeMs -= 10; if (_remainingMuteMicTimeMs < 0) { _remainingMuteMicTimeMs = 0; } } // --- Mute signal if (_mute) { AudioFrameOperations::Mute(_audioFrame); } // --- Mix with file (does not affect the mixing frequency) if (_filePlaying) { MixOrReplaceAudioWithFile(_audioFrame.sample_rate_hz_); } // --- Record to file bool file_recording = false; { CriticalSectionScoped cs(&_critSect); file_recording = _fileRecording; } if (file_recording) { RecordAudioToFile(_audioFrame.sample_rate_hz_); } { CriticalSectionScoped cs(&_callbackCritSect); if (external_postproc_ptr_) { external_postproc_ptr_->Process(-1, kRecordingAllChannelsMixed, _audioFrame.data_, _audioFrame.samples_per_channel_, _audioFrame.sample_rate_hz_, _audioFrame.num_channels_ == 2); } } // --- Measure audio level of speech after all processing. _audioLevel.ComputeLevel(_audioFrame); return 0; } int32_t TransmitMixer::DemuxAndMix() { WEBRTC_TRACE(kTraceStream, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::DemuxAndMix()"); for (ChannelManager::Iterator it(_channelManagerPtr); it.IsValid(); it.Increment()) { Channel* channelPtr = it.GetChannel(); if (channelPtr->Sending()) { // Demultiplex makes a copy of its input. channelPtr->Demultiplex(_audioFrame); channelPtr->PrepareEncodeAndSend(_audioFrame.sample_rate_hz_); } } return 0; } void TransmitMixer::DemuxAndMix(const int voe_channels[], size_t number_of_voe_channels) { for (size_t i = 0; i < number_of_voe_channels; ++i) { voe::ChannelOwner ch = _channelManagerPtr->GetChannel(voe_channels[i]); voe::Channel* channel_ptr = ch.channel(); if (channel_ptr) { if (channel_ptr->Sending()) { // Demultiplex makes a copy of its input. channel_ptr->Demultiplex(_audioFrame); channel_ptr->PrepareEncodeAndSend(_audioFrame.sample_rate_hz_); } } } } int32_t TransmitMixer::EncodeAndSend() { WEBRTC_TRACE(kTraceStream, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::EncodeAndSend()"); for (ChannelManager::Iterator it(_channelManagerPtr); it.IsValid(); it.Increment()) { Channel* channelPtr = it.GetChannel(); if (channelPtr->Sending()) { channelPtr->EncodeAndSend(); } } return 0; } void TransmitMixer::EncodeAndSend(const int voe_channels[], size_t number_of_voe_channels) { for (size_t i = 0; i < number_of_voe_channels; ++i) { voe::ChannelOwner ch = _channelManagerPtr->GetChannel(voe_channels[i]); voe::Channel* channel_ptr = ch.channel(); if (channel_ptr && channel_ptr->Sending()) channel_ptr->EncodeAndSend(); } } uint32_t TransmitMixer::CaptureLevel() const { return _captureLevel; } void TransmitMixer::UpdateMuteMicrophoneTime(uint32_t lengthMs) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::UpdateMuteMicrophoneTime(lengthMs=%d)", lengthMs); _remainingMuteMicTimeMs = lengthMs; } int32_t TransmitMixer::StopSend() { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::StopSend()"); _audioLevel.Clear(); return 0; } int TransmitMixer::StartPlayingFileAsMicrophone(const char* fileName, bool loop, FileFormats format, int startPosition, float volumeScaling, int stopPosition, const CodecInst* codecInst) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::StartPlayingFileAsMicrophone(" "fileNameUTF8[]=%s,loop=%d, format=%d, volumeScaling=%5.3f," " startPosition=%d, stopPosition=%d)", fileName, loop, format, volumeScaling, startPosition, stopPosition); if (_filePlaying) { _engineStatisticsPtr->SetLastError( VE_ALREADY_PLAYING, kTraceWarning, "StartPlayingFileAsMicrophone() is already playing"); return 0; } CriticalSectionScoped cs(&_critSect); // Destroy the old instance if (_filePlayerPtr) { _filePlayerPtr->RegisterModuleFileCallback(NULL); FilePlayer::DestroyFilePlayer(_filePlayerPtr); _filePlayerPtr = NULL; } // Dynamically create the instance _filePlayerPtr = FilePlayer::CreateFilePlayer(_filePlayerId, (const FileFormats) format); if (_filePlayerPtr == NULL) { _engineStatisticsPtr->SetLastError( VE_INVALID_ARGUMENT, kTraceError, "StartPlayingFileAsMicrophone() filePlayer format isnot correct"); return -1; } const uint32_t notificationTime(0); if (_filePlayerPtr->StartPlayingFile( fileName, loop, startPosition, volumeScaling, notificationTime, stopPosition, (const CodecInst*) codecInst) != 0) { _engineStatisticsPtr->SetLastError( VE_BAD_FILE, kTraceError, "StartPlayingFile() failed to start file playout"); _filePlayerPtr->StopPlayingFile(); FilePlayer::DestroyFilePlayer(_filePlayerPtr); _filePlayerPtr = NULL; return -1; } _filePlayerPtr->RegisterModuleFileCallback(this); _filePlaying = true; return 0; } int TransmitMixer::StartPlayingFileAsMicrophone(InStream* stream, FileFormats format, int startPosition, float volumeScaling, int stopPosition, const CodecInst* codecInst) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId,-1), "TransmitMixer::StartPlayingFileAsMicrophone(format=%d," " volumeScaling=%5.3f, startPosition=%d, stopPosition=%d)", format, volumeScaling, startPosition, stopPosition); if (stream == NULL) { _engineStatisticsPtr->SetLastError( VE_BAD_FILE, kTraceError, "StartPlayingFileAsMicrophone() NULL as input stream"); return -1; } if (_filePlaying) { _engineStatisticsPtr->SetLastError( VE_ALREADY_PLAYING, kTraceWarning, "StartPlayingFileAsMicrophone() is already playing"); return 0; } CriticalSectionScoped cs(&_critSect); // Destroy the old instance if (_filePlayerPtr) { _filePlayerPtr->RegisterModuleFileCallback(NULL); FilePlayer::DestroyFilePlayer(_filePlayerPtr); _filePlayerPtr = NULL; } // Dynamically create the instance _filePlayerPtr = FilePlayer::CreateFilePlayer(_filePlayerId, (const FileFormats) format); if (_filePlayerPtr == NULL) { _engineStatisticsPtr->SetLastError( VE_INVALID_ARGUMENT, kTraceWarning, "StartPlayingFileAsMicrophone() filePlayer format isnot correct"); return -1; } const uint32_t notificationTime(0); if (_filePlayerPtr->StartPlayingFile( (InStream&) *stream, startPosition, volumeScaling, notificationTime, stopPosition, (const CodecInst*) codecInst) != 0) { _engineStatisticsPtr->SetLastError( VE_BAD_FILE, kTraceError, "StartPlayingFile() failed to start file playout"); _filePlayerPtr->StopPlayingFile(); FilePlayer::DestroyFilePlayer(_filePlayerPtr); _filePlayerPtr = NULL; return -1; } _filePlayerPtr->RegisterModuleFileCallback(this); _filePlaying = true; return 0; } int TransmitMixer::StopPlayingFileAsMicrophone() { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId,-1), "TransmitMixer::StopPlayingFileAsMicrophone()"); if (!_filePlaying) { return 0; } CriticalSectionScoped cs(&_critSect); if (_filePlayerPtr->StopPlayingFile() != 0) { _engineStatisticsPtr->SetLastError( VE_CANNOT_STOP_PLAYOUT, kTraceError, "StopPlayingFile() couldnot stop playing file"); return -1; } _filePlayerPtr->RegisterModuleFileCallback(NULL); FilePlayer::DestroyFilePlayer(_filePlayerPtr); _filePlayerPtr = NULL; _filePlaying = false; return 0; } int TransmitMixer::IsPlayingFileAsMicrophone() const { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::IsPlayingFileAsMicrophone()"); return _filePlaying; } int TransmitMixer::StartRecordingMicrophone(const char* fileName, const CodecInst* codecInst) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::StartRecordingMicrophone(fileName=%s)", fileName); CriticalSectionScoped cs(&_critSect); if (_fileRecording) { WEBRTC_TRACE(kTraceWarning, kTraceVoice, VoEId(_instanceId, -1), "StartRecordingMicrophone() is already recording"); return 0; } FileFormats format; const uint32_t notificationTime(0); // Not supported in VoE CodecInst dummyCodec = { 100, "L16", 16000, 320, 1, 320000 }; if (codecInst != NULL && codecInst->channels > 2) { _engineStatisticsPtr->SetLastError( VE_BAD_ARGUMENT, kTraceError, "StartRecordingMicrophone() invalid compression"); return (-1); } if (codecInst == NULL) { format = kFileFormatPcm16kHzFile; codecInst = &dummyCodec; } else if ((STR_CASE_CMP(codecInst->plname,"L16") == 0) || (STR_CASE_CMP(codecInst->plname,"PCMU") == 0) || (STR_CASE_CMP(codecInst->plname,"PCMA") == 0)) { format = kFileFormatWavFile; } else { format = kFileFormatCompressedFile; } // Destroy the old instance if (_fileRecorderPtr) { _fileRecorderPtr->RegisterModuleFileCallback(NULL); FileRecorder::DestroyFileRecorder(_fileRecorderPtr); _fileRecorderPtr = NULL; } _fileRecorderPtr = FileRecorder::CreateFileRecorder(_fileRecorderId, (const FileFormats) format); if (_fileRecorderPtr == NULL) { _engineStatisticsPtr->SetLastError( VE_INVALID_ARGUMENT, kTraceError, "StartRecordingMicrophone() fileRecorder format isnot correct"); return -1; } if (_fileRecorderPtr->StartRecordingAudioFile( fileName, (const CodecInst&) *codecInst, notificationTime) != 0) { _engineStatisticsPtr->SetLastError( VE_BAD_FILE, kTraceError, "StartRecordingAudioFile() failed to start file recording"); _fileRecorderPtr->StopRecording(); FileRecorder::DestroyFileRecorder(_fileRecorderPtr); _fileRecorderPtr = NULL; return -1; } _fileRecorderPtr->RegisterModuleFileCallback(this); _fileRecording = true; return 0; } int TransmitMixer::StartRecordingMicrophone(OutStream* stream, const CodecInst* codecInst) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::StartRecordingMicrophone()"); CriticalSectionScoped cs(&_critSect); if (_fileRecording) { WEBRTC_TRACE(kTraceWarning, kTraceVoice, VoEId(_instanceId, -1), "StartRecordingMicrophone() is already recording"); return 0; } FileFormats format; const uint32_t notificationTime(0); // Not supported in VoE CodecInst dummyCodec = { 100, "L16", 16000, 320, 1, 320000 }; if (codecInst != NULL && codecInst->channels != 1) { _engineStatisticsPtr->SetLastError( VE_BAD_ARGUMENT, kTraceError, "StartRecordingMicrophone() invalid compression"); return (-1); } if (codecInst == NULL) { format = kFileFormatPcm16kHzFile; codecInst = &dummyCodec; } else if ((STR_CASE_CMP(codecInst->plname,"L16") == 0) || (STR_CASE_CMP(codecInst->plname,"PCMU") == 0) || (STR_CASE_CMP(codecInst->plname,"PCMA") == 0)) { format = kFileFormatWavFile; } else { format = kFileFormatCompressedFile; } // Destroy the old instance if (_fileRecorderPtr) { _fileRecorderPtr->RegisterModuleFileCallback(NULL); FileRecorder::DestroyFileRecorder(_fileRecorderPtr); _fileRecorderPtr = NULL; } _fileRecorderPtr = FileRecorder::CreateFileRecorder(_fileRecorderId, (const FileFormats) format); if (_fileRecorderPtr == NULL) { _engineStatisticsPtr->SetLastError( VE_INVALID_ARGUMENT, kTraceError, "StartRecordingMicrophone() fileRecorder format isnot correct"); return -1; } if (_fileRecorderPtr->StartRecordingAudioFile(*stream, *codecInst, notificationTime) != 0) { _engineStatisticsPtr->SetLastError(VE_BAD_FILE, kTraceError, "StartRecordingAudioFile() failed to start file recording"); _fileRecorderPtr->StopRecording(); FileRecorder::DestroyFileRecorder(_fileRecorderPtr); _fileRecorderPtr = NULL; return -1; } _fileRecorderPtr->RegisterModuleFileCallback(this); _fileRecording = true; return 0; } int TransmitMixer::StopRecordingMicrophone() { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::StopRecordingMicrophone()"); CriticalSectionScoped cs(&_critSect); if (!_fileRecording) { WEBRTC_TRACE(kTraceWarning, kTraceVoice, VoEId(_instanceId, -1), "StopRecordingMicrophone() isnot recording"); return 0; } if (_fileRecorderPtr->StopRecording() != 0) { _engineStatisticsPtr->SetLastError( VE_STOP_RECORDING_FAILED, kTraceError, "StopRecording(), could not stop recording"); return -1; } _fileRecorderPtr->RegisterModuleFileCallback(NULL); FileRecorder::DestroyFileRecorder(_fileRecorderPtr); _fileRecorderPtr = NULL; _fileRecording = false; return 0; } int TransmitMixer::StartRecordingCall(const char* fileName, const CodecInst* codecInst) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::StartRecordingCall(fileName=%s)", fileName); if (_fileCallRecording) { WEBRTC_TRACE(kTraceWarning, kTraceVoice, VoEId(_instanceId, -1), "StartRecordingCall() is already recording"); return 0; } FileFormats format; const uint32_t notificationTime(0); // Not supported in VoE CodecInst dummyCodec = { 100, "L16", 16000, 320, 1, 320000 }; if (codecInst != NULL && codecInst->channels != 1) { _engineStatisticsPtr->SetLastError( VE_BAD_ARGUMENT, kTraceError, "StartRecordingCall() invalid compression"); return (-1); } if (codecInst == NULL) { format = kFileFormatPcm16kHzFile; codecInst = &dummyCodec; } else if ((STR_CASE_CMP(codecInst->plname,"L16") == 0) || (STR_CASE_CMP(codecInst->plname,"PCMU") == 0) || (STR_CASE_CMP(codecInst->plname,"PCMA") == 0)) { format = kFileFormatWavFile; } else { format = kFileFormatCompressedFile; } CriticalSectionScoped cs(&_critSect); // Destroy the old instance if (_fileCallRecorderPtr) { _fileCallRecorderPtr->RegisterModuleFileCallback(NULL); FileRecorder::DestroyFileRecorder(_fileCallRecorderPtr); _fileCallRecorderPtr = NULL; } _fileCallRecorderPtr = FileRecorder::CreateFileRecorder(_fileCallRecorderId, (const FileFormats) format); if (_fileCallRecorderPtr == NULL) { _engineStatisticsPtr->SetLastError( VE_INVALID_ARGUMENT, kTraceError, "StartRecordingCall() fileRecorder format isnot correct"); return -1; } if (_fileCallRecorderPtr->StartRecordingAudioFile( fileName, (const CodecInst&) *codecInst, notificationTime) != 0) { _engineStatisticsPtr->SetLastError( VE_BAD_FILE, kTraceError, "StartRecordingAudioFile() failed to start file recording"); _fileCallRecorderPtr->StopRecording(); FileRecorder::DestroyFileRecorder(_fileCallRecorderPtr); _fileCallRecorderPtr = NULL; return -1; } _fileCallRecorderPtr->RegisterModuleFileCallback(this); _fileCallRecording = true; return 0; } int TransmitMixer::StartRecordingCall(OutStream* stream, const CodecInst* codecInst) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::StartRecordingCall()"); if (_fileCallRecording) { WEBRTC_TRACE(kTraceWarning, kTraceVoice, VoEId(_instanceId, -1), "StartRecordingCall() is already recording"); return 0; } FileFormats format; const uint32_t notificationTime(0); // Not supported in VoE CodecInst dummyCodec = { 100, "L16", 16000, 320, 1, 320000 }; if (codecInst != NULL && codecInst->channels != 1) { _engineStatisticsPtr->SetLastError( VE_BAD_ARGUMENT, kTraceError, "StartRecordingCall() invalid compression"); return (-1); } if (codecInst == NULL) { format = kFileFormatPcm16kHzFile; codecInst = &dummyCodec; } else if ((STR_CASE_CMP(codecInst->plname,"L16") == 0) || (STR_CASE_CMP(codecInst->plname,"PCMU") == 0) || (STR_CASE_CMP(codecInst->plname,"PCMA") == 0)) { format = kFileFormatWavFile; } else { format = kFileFormatCompressedFile; } CriticalSectionScoped cs(&_critSect); // Destroy the old instance if (_fileCallRecorderPtr) { _fileCallRecorderPtr->RegisterModuleFileCallback(NULL); FileRecorder::DestroyFileRecorder(_fileCallRecorderPtr); _fileCallRecorderPtr = NULL; } _fileCallRecorderPtr = FileRecorder::CreateFileRecorder(_fileCallRecorderId, (const FileFormats) format); if (_fileCallRecorderPtr == NULL) { _engineStatisticsPtr->SetLastError( VE_INVALID_ARGUMENT, kTraceError, "StartRecordingCall() fileRecorder format isnot correct"); return -1; } if (_fileCallRecorderPtr->StartRecordingAudioFile(*stream, *codecInst, notificationTime) != 0) { _engineStatisticsPtr->SetLastError(VE_BAD_FILE, kTraceError, "StartRecordingAudioFile() failed to start file recording"); _fileCallRecorderPtr->StopRecording(); FileRecorder::DestroyFileRecorder(_fileCallRecorderPtr); _fileCallRecorderPtr = NULL; return -1; } _fileCallRecorderPtr->RegisterModuleFileCallback(this); _fileCallRecording = true; return 0; } int TransmitMixer::StopRecordingCall() { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::StopRecordingCall()"); if (!_fileCallRecording) { WEBRTC_TRACE(kTraceError, kTraceVoice, VoEId(_instanceId, -1), "StopRecordingCall() file isnot recording"); return -1; } CriticalSectionScoped cs(&_critSect); if (_fileCallRecorderPtr->StopRecording() != 0) { _engineStatisticsPtr->SetLastError( VE_STOP_RECORDING_FAILED, kTraceError, "StopRecording(), could not stop recording"); return -1; } _fileCallRecorderPtr->RegisterModuleFileCallback(NULL); FileRecorder::DestroyFileRecorder(_fileCallRecorderPtr); _fileCallRecorderPtr = NULL; _fileCallRecording = false; return 0; } void TransmitMixer::SetMixWithMicStatus(bool mix) { _mixFileWithMicrophone = mix; } int TransmitMixer::RegisterExternalMediaProcessing( VoEMediaProcess* object, ProcessingTypes type) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::RegisterExternalMediaProcessing()"); CriticalSectionScoped cs(&_callbackCritSect); if (!object) { return -1; } // Store the callback object according to the processing type. if (type == kRecordingAllChannelsMixed) { external_postproc_ptr_ = object; } else if (type == kRecordingPreprocessing) { external_preproc_ptr_ = object; } else { return -1; } return 0; } int TransmitMixer::DeRegisterExternalMediaProcessing(ProcessingTypes type) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::DeRegisterExternalMediaProcessing()"); CriticalSectionScoped cs(&_callbackCritSect); if (type == kRecordingAllChannelsMixed) { external_postproc_ptr_ = NULL; } else if (type == kRecordingPreprocessing) { external_preproc_ptr_ = NULL; } else { return -1; } return 0; } int TransmitMixer::SetMute(bool enable) { WEBRTC_TRACE(kTraceInfo, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::SetMute(enable=%d)", enable); _mute = enable; return 0; } bool TransmitMixer::Mute() const { return _mute; } int8_t TransmitMixer::AudioLevel() const { // Speech + file level [0,9] return _audioLevel.Level(); } int16_t TransmitMixer::AudioLevelFullRange() const { // Speech + file level [0,32767] return _audioLevel.LevelFullRange(); } bool TransmitMixer::IsRecordingCall() { return _fileCallRecording; } bool TransmitMixer::IsRecordingMic() { CriticalSectionScoped cs(&_critSect); return _fileRecording; } void TransmitMixer::GenerateAudioFrame(const int16_t* audio, size_t samples_per_channel, size_t num_channels, int sample_rate_hz) { int codec_rate; size_t num_codec_channels; GetSendCodecInfo(&codec_rate, &num_codec_channels); stereo_codec_ = num_codec_channels == 2; // We want to process at the lowest rate possible without losing information. // Choose the lowest native rate at least equal to the input and codec rates. const int min_processing_rate = std::min(sample_rate_hz, codec_rate); for (size_t i = 0; i < AudioProcessing::kNumNativeSampleRates; ++i) { _audioFrame.sample_rate_hz_ = AudioProcessing::kNativeSampleRatesHz[i]; if (_audioFrame.sample_rate_hz_ >= min_processing_rate) { break; } } if (audioproc_->echo_control_mobile()->is_enabled()) { // AECM only supports 8 and 16 kHz. _audioFrame.sample_rate_hz_ = std::min( _audioFrame.sample_rate_hz_, AudioProcessing::kMaxAECMSampleRateHz); } _audioFrame.num_channels_ = std::min(num_channels, num_codec_channels); RemixAndResample(audio, samples_per_channel, num_channels, sample_rate_hz, &resampler_, &_audioFrame); } int32_t TransmitMixer::RecordAudioToFile( uint32_t mixingFrequency) { CriticalSectionScoped cs(&_critSect); if (_fileRecorderPtr == NULL) { WEBRTC_TRACE(kTraceWarning, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::RecordAudioToFile() filerecorder doesnot" "exist"); return -1; } if (_fileRecorderPtr->RecordAudioToFile(_audioFrame) != 0) { WEBRTC_TRACE(kTraceWarning, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::RecordAudioToFile() file recording" "failed"); return -1; } return 0; } int32_t TransmitMixer::MixOrReplaceAudioWithFile( int mixingFrequency) { rtc::scoped_ptr fileBuffer(new int16_t[640]); size_t fileSamples(0); { CriticalSectionScoped cs(&_critSect); if (_filePlayerPtr == NULL) { WEBRTC_TRACE(kTraceWarning, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::MixOrReplaceAudioWithFile()" "fileplayer doesnot exist"); return -1; } if (_filePlayerPtr->Get10msAudioFromFile(fileBuffer.get(), fileSamples, mixingFrequency) == -1) { WEBRTC_TRACE(kTraceWarning, kTraceVoice, VoEId(_instanceId, -1), "TransmitMixer::MixOrReplaceAudioWithFile() file" " mixing failed"); return -1; } } assert(_audioFrame.samples_per_channel_ == fileSamples); if (_mixFileWithMicrophone) { // Currently file stream is always mono. // TODO(xians): Change the code when FilePlayer supports real stereo. MixWithSat(_audioFrame.data_, _audioFrame.num_channels_, fileBuffer.get(), 1, fileSamples); } else { // Replace ACM audio with file. // Currently file stream is always mono. // TODO(xians): Change the code when FilePlayer supports real stereo. _audioFrame.UpdateFrame(-1, 0xFFFFFFFF, fileBuffer.get(), fileSamples, mixingFrequency, AudioFrame::kNormalSpeech, AudioFrame::kVadUnknown, 1); } return 0; } void TransmitMixer::ProcessAudio(int delay_ms, int clock_drift, int current_mic_level, bool key_pressed) { if (audioproc_->set_stream_delay_ms(delay_ms) != 0) { // Silently ignore this failure to avoid flooding the logs. } GainControl* agc = audioproc_->gain_control(); if (agc->set_stream_analog_level(current_mic_level) != 0) { LOG(LS_ERROR) << "set_stream_analog_level failed: current_mic_level = " << current_mic_level; assert(false); } EchoCancellation* aec = audioproc_->echo_cancellation(); if (aec->is_drift_compensation_enabled()) { aec->set_stream_drift_samples(clock_drift); } audioproc_->set_stream_key_pressed(key_pressed); int err = audioproc_->ProcessStream(&_audioFrame); if (err != 0) { LOG(LS_ERROR) << "ProcessStream() error: " << err; assert(false); } // Store new capture level. Only updated when analog AGC is enabled. _captureLevel = agc->stream_analog_level(); CriticalSectionScoped cs(&_critSect); // Triggers a callback in OnPeriodicProcess(). _saturationWarning |= agc->stream_is_saturated(); } #ifdef WEBRTC_VOICE_ENGINE_TYPING_DETECTION void TransmitMixer::TypingDetection(bool keyPressed) { // We let the VAD determine if we're using this feature or not. if (_audioFrame.vad_activity_ == AudioFrame::kVadUnknown) { return; } bool vadActive = _audioFrame.vad_activity_ == AudioFrame::kVadActive; if (_typingDetection.Process(keyPressed, vadActive)) { CriticalSectionScoped cs(&_critSect); _typingNoiseWarningPending = true; _typingNoiseDetected = true; } else { CriticalSectionScoped cs(&_critSect); // If there is already a warning pending, do not change the state. // Otherwise set a warning pending if last callback was for noise detected. if (!_typingNoiseWarningPending && _typingNoiseDetected) { _typingNoiseWarningPending = true; _typingNoiseDetected = false; } } } #endif int TransmitMixer::GetMixingFrequency() { assert(_audioFrame.sample_rate_hz_ != 0); return _audioFrame.sample_rate_hz_; } #ifdef WEBRTC_VOICE_ENGINE_TYPING_DETECTION int TransmitMixer::TimeSinceLastTyping(int &seconds) { // We check in VoEAudioProcessingImpl that this is only called when // typing detection is active. seconds = _typingDetection.TimeSinceLastDetectionInSeconds(); return 0; } #endif #ifdef WEBRTC_VOICE_ENGINE_TYPING_DETECTION int TransmitMixer::SetTypingDetectionParameters(int timeWindow, int costPerTyping, int reportingThreshold, int penaltyDecay, int typeEventDelay) { _typingDetection.SetParameters(timeWindow, costPerTyping, reportingThreshold, penaltyDecay, typeEventDelay, 0); return 0; } #endif void TransmitMixer::EnableStereoChannelSwapping(bool enable) { swap_stereo_channels_ = enable; } bool TransmitMixer::IsStereoChannelSwappingEnabled() { return swap_stereo_channels_; } } // namespace voe } // namespace webrtc