/* * 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 "modules/audio_device/audio_device_impl.h" #include #include "api/scoped_refptr.h" #include "modules/audio_device/audio_device_config.h" // IWYU pragma: keep #include "modules/audio_device/audio_device_generic.h" #include "rtc_base/checks.h" #include "rtc_base/logging.h" #include "rtc_base/ref_counted_object.h" #include "system_wrappers/include/metrics.h" #if defined(_WIN32) #if defined(WEBRTC_WINDOWS_CORE_AUDIO_BUILD) #include "modules/audio_device/win/audio_device_core_win.h" #endif #elif defined(WEBRTC_ANDROID) #include #if defined(WEBRTC_AUDIO_DEVICE_INCLUDE_ANDROID_AAUDIO) #include "modules/audio_device/android/aaudio_player.h" #include "modules/audio_device/android/aaudio_recorder.h" #endif #include "modules/audio_device/android/audio_device_template.h" #include "modules/audio_device/android/audio_manager.h" #include "modules/audio_device/android/audio_record_jni.h" #include "modules/audio_device/android/audio_track_jni.h" #include "modules/audio_device/android/opensles_player.h" #include "modules/audio_device/android/opensles_recorder.h" #elif defined(WEBRTC_LINUX) #if defined(WEBRTC_ENABLE_LINUX_ALSA) #include "modules/audio_device/linux/audio_device_alsa_linux.h" #endif #if defined(WEBRTC_ENABLE_LINUX_PULSE) #include "modules/audio_device/linux/audio_device_pulse_linux.h" #endif #elif defined(WEBRTC_IOS) #include "sdk/objc/native/src/audio/audio_device_ios.h" #elif defined(WEBRTC_MAC) #include "modules/audio_device/mac/audio_device_mac.h" #endif #if defined(WEBRTC_DUMMY_FILE_DEVICES) #include "modules/audio_device/dummy/file_audio_device.h" #include "modules/audio_device/dummy/file_audio_device_factory.h" #endif #include "modules/audio_device/dummy/audio_device_dummy.h" #define CHECKinitialized_() \ { \ if (!initialized_) { \ return -1; \ } \ } #define CHECKinitialized__BOOL() \ { \ if (!initialized_) { \ return false; \ } \ } namespace webrtc { rtc::scoped_refptr AudioDeviceModule::Create( AudioLayer audio_layer, TaskQueueFactory* task_queue_factory) { RTC_LOG(INFO) << __FUNCTION__; return AudioDeviceModule::CreateForTest(audio_layer, task_queue_factory); } // static rtc::scoped_refptr AudioDeviceModule::CreateForTest( AudioLayer audio_layer, TaskQueueFactory* task_queue_factory) { RTC_LOG(INFO) << __FUNCTION__; // The "AudioDeviceModule::kWindowsCoreAudio2" audio layer has its own // dedicated factory method which should be used instead. if (audio_layer == AudioDeviceModule::kWindowsCoreAudio2) { RTC_LOG(LS_ERROR) << "Use the CreateWindowsCoreAudioAudioDeviceModule() " "factory method instead for this option."; return nullptr; } // Create the generic reference counted (platform independent) implementation. rtc::scoped_refptr audioDevice( new rtc::RefCountedObject(audio_layer, task_queue_factory)); // Ensure that the current platform is supported. if (audioDevice->CheckPlatform() == -1) { return nullptr; } // Create the platform-dependent implementation. if (audioDevice->CreatePlatformSpecificObjects() == -1) { return nullptr; } // Ensure that the generic audio buffer can communicate with the platform // specific parts. if (audioDevice->AttachAudioBuffer() == -1) { return nullptr; } return audioDevice; } AudioDeviceModuleImpl::AudioDeviceModuleImpl( AudioLayer audio_layer, TaskQueueFactory* task_queue_factory) : audio_layer_(audio_layer), audio_device_buffer_(task_queue_factory) { RTC_LOG(INFO) << __FUNCTION__; } int32_t AudioDeviceModuleImpl::CheckPlatform() { RTC_LOG(INFO) << __FUNCTION__; // Ensure that the current platform is supported PlatformType platform(kPlatformNotSupported); #if defined(_WIN32) platform = kPlatformWin32; RTC_LOG(INFO) << "current platform is Win32"; #elif defined(WEBRTC_ANDROID) platform = kPlatformAndroid; RTC_LOG(INFO) << "current platform is Android"; #elif defined(WEBRTC_LINUX) platform = kPlatformLinux; RTC_LOG(INFO) << "current platform is Linux"; #elif defined(WEBRTC_IOS) platform = kPlatformIOS; RTC_LOG(INFO) << "current platform is IOS"; #elif defined(WEBRTC_MAC) platform = kPlatformMac; RTC_LOG(INFO) << "current platform is Mac"; #endif if (platform == kPlatformNotSupported) { RTC_LOG(LERROR) << "current platform is not supported => this module will self " "destruct!"; return -1; } platform_type_ = platform; return 0; } int32_t AudioDeviceModuleImpl::CreatePlatformSpecificObjects() { RTC_LOG(INFO) << __FUNCTION__; // Dummy ADM implementations if build flags are set. #if defined(WEBRTC_DUMMY_AUDIO_BUILD) audio_device_.reset(new AudioDeviceDummy()); RTC_LOG(INFO) << "Dummy Audio APIs will be utilized"; #elif defined(WEBRTC_DUMMY_FILE_DEVICES) audio_device_.reset(FileAudioDeviceFactory::CreateFileAudioDevice()); if (audio_device_) { RTC_LOG(INFO) << "Will use file-playing dummy device."; } else { // Create a dummy device instead. audio_device_.reset(new AudioDeviceDummy()); RTC_LOG(INFO) << "Dummy Audio APIs will be utilized"; } // Real (non-dummy) ADM implementations. #else AudioLayer audio_layer(PlatformAudioLayer()); // Windows ADM implementation. #if defined(WEBRTC_WINDOWS_CORE_AUDIO_BUILD) if ((audio_layer == kWindowsCoreAudio) || (audio_layer == kPlatformDefaultAudio)) { RTC_LOG(INFO) << "Attempting to use the Windows Core Audio APIs..."; if (AudioDeviceWindowsCore::CoreAudioIsSupported()) { audio_device_.reset(new AudioDeviceWindowsCore()); RTC_LOG(INFO) << "Windows Core Audio APIs will be utilized"; } } #endif // defined(WEBRTC_WINDOWS_CORE_AUDIO_BUILD) #if defined(WEBRTC_ANDROID) // Create an Android audio manager. audio_manager_android_.reset(new AudioManager()); // Select best possible combination of audio layers. if (audio_layer == kPlatformDefaultAudio) { if (audio_manager_android_->IsAAudioSupported()) { // Use of AAudio for both playout and recording has highest priority. audio_layer = kAndroidAAudioAudio; } else if (audio_manager_android_->IsLowLatencyPlayoutSupported() && audio_manager_android_->IsLowLatencyRecordSupported()) { // Use OpenSL ES for both playout and recording. audio_layer = kAndroidOpenSLESAudio; } else if (audio_manager_android_->IsLowLatencyPlayoutSupported() && !audio_manager_android_->IsLowLatencyRecordSupported()) { // Use OpenSL ES for output on devices that only supports the // low-latency output audio path. audio_layer = kAndroidJavaInputAndOpenSLESOutputAudio; } else { // Use Java-based audio in both directions when low-latency output is // not supported. audio_layer = kAndroidJavaAudio; } } AudioManager* audio_manager = audio_manager_android_.get(); if (audio_layer == kAndroidJavaAudio) { // Java audio for both input and output audio. audio_device_.reset(new AudioDeviceTemplate( audio_layer, audio_manager)); } else if (audio_layer == kAndroidOpenSLESAudio) { // OpenSL ES based audio for both input and output audio. audio_device_.reset( new AudioDeviceTemplate( audio_layer, audio_manager)); } else if (audio_layer == kAndroidJavaInputAndOpenSLESOutputAudio) { // Java audio for input and OpenSL ES for output audio (i.e. mixed APIs). // This combination provides low-latency output audio and at the same // time support for HW AEC using the AudioRecord Java API. audio_device_.reset(new AudioDeviceTemplate( audio_layer, audio_manager)); } else if (audio_layer == kAndroidAAudioAudio) { #if defined(WEBRTC_AUDIO_DEVICE_INCLUDE_ANDROID_AAUDIO) // AAudio based audio for both input and output. audio_device_.reset(new AudioDeviceTemplate( audio_layer, audio_manager)); #endif } else if (audio_layer == kAndroidJavaInputAndAAudioOutputAudio) { #if defined(WEBRTC_AUDIO_DEVICE_INCLUDE_ANDROID_AAUDIO) // Java audio for input and AAudio for output audio (i.e. mixed APIs). audio_device_.reset(new AudioDeviceTemplate( audio_layer, audio_manager)); #endif } else { RTC_LOG(LS_ERROR) << "The requested audio layer is not supported"; audio_device_.reset(nullptr); } // END #if defined(WEBRTC_ANDROID) // Linux ADM implementation. // Note that, WEBRTC_ENABLE_LINUX_ALSA is always defined by default when // WEBRTC_LINUX is defined. WEBRTC_ENABLE_LINUX_PULSE depends on the // 'rtc_include_pulse_audio' build flag. // TODO(bugs.webrtc.org/9127): improve support and make it more clear that // PulseAudio is the default selection. #elif defined(WEBRTC_LINUX) #if !defined(WEBRTC_ENABLE_LINUX_PULSE) // Build flag 'rtc_include_pulse_audio' is set to false. In this mode: // - kPlatformDefaultAudio => ALSA, and // - kLinuxAlsaAudio => ALSA, and // - kLinuxPulseAudio => Invalid selection. RTC_LOG(WARNING) << "PulseAudio is disabled using build flag."; if ((audio_layer == kLinuxAlsaAudio) || (audio_layer == kPlatformDefaultAudio)) { audio_device_.reset(new AudioDeviceLinuxALSA()); RTC_LOG(INFO) << "Linux ALSA APIs will be utilized."; } #else // Build flag 'rtc_include_pulse_audio' is set to true (default). In this // mode: // - kPlatformDefaultAudio => PulseAudio, and // - kLinuxPulseAudio => PulseAudio, and // - kLinuxAlsaAudio => ALSA (supported but not default). RTC_LOG(INFO) << "PulseAudio support is enabled."; if ((audio_layer == kLinuxPulseAudio) || (audio_layer == kPlatformDefaultAudio)) { // Linux PulseAudio implementation is default. audio_device_.reset(new AudioDeviceLinuxPulse()); RTC_LOG(INFO) << "Linux PulseAudio APIs will be utilized"; } else if (audio_layer == kLinuxAlsaAudio) { audio_device_.reset(new AudioDeviceLinuxALSA()); RTC_LOG(WARNING) << "Linux ALSA APIs will be utilized."; } #endif // #if !defined(WEBRTC_ENABLE_LINUX_PULSE) #endif // #if defined(WEBRTC_LINUX) // iOS ADM implementation. #if defined(WEBRTC_IOS) if (audio_layer == kPlatformDefaultAudio) { audio_device_.reset(new ios_adm::AudioDeviceIOS()); RTC_LOG(INFO) << "iPhone Audio APIs will be utilized."; } // END #if defined(WEBRTC_IOS) // Mac OS X ADM implementation. #elif defined(WEBRTC_MAC) if (audio_layer == kPlatformDefaultAudio) { audio_device_.reset(new AudioDeviceMac()); RTC_LOG(INFO) << "Mac OS X Audio APIs will be utilized."; } #endif // WEBRTC_MAC // Dummy ADM implementation. if (audio_layer == kDummyAudio) { audio_device_.reset(new AudioDeviceDummy()); RTC_LOG(INFO) << "Dummy Audio APIs will be utilized."; } #endif // if defined(WEBRTC_DUMMY_AUDIO_BUILD) if (!audio_device_) { RTC_LOG(LS_ERROR) << "Failed to create the platform specific ADM implementation."; return -1; } return 0; } int32_t AudioDeviceModuleImpl::AttachAudioBuffer() { RTC_LOG(INFO) << __FUNCTION__; audio_device_->AttachAudioBuffer(&audio_device_buffer_); return 0; } AudioDeviceModuleImpl::~AudioDeviceModuleImpl() { RTC_LOG(INFO) << __FUNCTION__; } int32_t AudioDeviceModuleImpl::ActiveAudioLayer(AudioLayer* audioLayer) const { RTC_LOG(INFO) << __FUNCTION__; AudioLayer activeAudio; if (audio_device_->ActiveAudioLayer(activeAudio) == -1) { return -1; } *audioLayer = activeAudio; return 0; } int32_t AudioDeviceModuleImpl::Init() { RTC_LOG(INFO) << __FUNCTION__; if (initialized_) return 0; RTC_CHECK(audio_device_); AudioDeviceGeneric::InitStatus status = audio_device_->Init(); RTC_HISTOGRAM_ENUMERATION( "WebRTC.Audio.InitializationResult", static_cast(status), static_cast(AudioDeviceGeneric::InitStatus::NUM_STATUSES)); if (status != AudioDeviceGeneric::InitStatus::OK) { RTC_LOG(LS_ERROR) << "Audio device initialization failed."; return -1; } initialized_ = true; return 0; } int32_t AudioDeviceModuleImpl::Terminate() { RTC_LOG(INFO) << __FUNCTION__; if (!initialized_) return 0; if (audio_device_->Terminate() == -1) { return -1; } initialized_ = false; return 0; } bool AudioDeviceModuleImpl::Initialized() const { RTC_LOG(INFO) << __FUNCTION__ << ": " << initialized_; return initialized_; } int32_t AudioDeviceModuleImpl::InitSpeaker() { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); return audio_device_->InitSpeaker(); } int32_t AudioDeviceModuleImpl::InitMicrophone() { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); return audio_device_->InitMicrophone(); } int32_t AudioDeviceModuleImpl::SpeakerVolumeIsAvailable(bool* available) { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool isAvailable = false; if (audio_device_->SpeakerVolumeIsAvailable(isAvailable) == -1) { return -1; } *available = isAvailable; RTC_LOG(INFO) << "output: " << isAvailable; return 0; } int32_t AudioDeviceModuleImpl::SetSpeakerVolume(uint32_t volume) { RTC_LOG(INFO) << __FUNCTION__ << "(" << volume << ")"; CHECKinitialized_(); return audio_device_->SetSpeakerVolume(volume); } int32_t AudioDeviceModuleImpl::SpeakerVolume(uint32_t* volume) const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); uint32_t level = 0; if (audio_device_->SpeakerVolume(level) == -1) { return -1; } *volume = level; RTC_LOG(INFO) << "output: " << *volume; return 0; } bool AudioDeviceModuleImpl::SpeakerIsInitialized() const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized__BOOL(); bool isInitialized = audio_device_->SpeakerIsInitialized(); RTC_LOG(INFO) << "output: " << isInitialized; return isInitialized; } bool AudioDeviceModuleImpl::MicrophoneIsInitialized() const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized__BOOL(); bool isInitialized = audio_device_->MicrophoneIsInitialized(); RTC_LOG(INFO) << "output: " << isInitialized; return isInitialized; } int32_t AudioDeviceModuleImpl::MaxSpeakerVolume(uint32_t* maxVolume) const { CHECKinitialized_(); uint32_t maxVol = 0; if (audio_device_->MaxSpeakerVolume(maxVol) == -1) { return -1; } *maxVolume = maxVol; return 0; } int32_t AudioDeviceModuleImpl::MinSpeakerVolume(uint32_t* minVolume) const { CHECKinitialized_(); uint32_t minVol = 0; if (audio_device_->MinSpeakerVolume(minVol) == -1) { return -1; } *minVolume = minVol; return 0; } int32_t AudioDeviceModuleImpl::SpeakerMuteIsAvailable(bool* available) { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool isAvailable = false; if (audio_device_->SpeakerMuteIsAvailable(isAvailable) == -1) { return -1; } *available = isAvailable; RTC_LOG(INFO) << "output: " << isAvailable; return 0; } int32_t AudioDeviceModuleImpl::SetSpeakerMute(bool enable) { RTC_LOG(INFO) << __FUNCTION__ << "(" << enable << ")"; CHECKinitialized_(); return audio_device_->SetSpeakerMute(enable); } int32_t AudioDeviceModuleImpl::SpeakerMute(bool* enabled) const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool muted = false; if (audio_device_->SpeakerMute(muted) == -1) { return -1; } *enabled = muted; RTC_LOG(INFO) << "output: " << muted; return 0; } int32_t AudioDeviceModuleImpl::MicrophoneMuteIsAvailable(bool* available) { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool isAvailable = false; if (audio_device_->MicrophoneMuteIsAvailable(isAvailable) == -1) { return -1; } *available = isAvailable; RTC_LOG(INFO) << "output: " << isAvailable; return 0; } int32_t AudioDeviceModuleImpl::SetMicrophoneMute(bool enable) { RTC_LOG(INFO) << __FUNCTION__ << "(" << enable << ")"; CHECKinitialized_(); return (audio_device_->SetMicrophoneMute(enable)); } int32_t AudioDeviceModuleImpl::MicrophoneMute(bool* enabled) const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool muted = false; if (audio_device_->MicrophoneMute(muted) == -1) { return -1; } *enabled = muted; RTC_LOG(INFO) << "output: " << muted; return 0; } int32_t AudioDeviceModuleImpl::MicrophoneVolumeIsAvailable(bool* available) { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool isAvailable = false; if (audio_device_->MicrophoneVolumeIsAvailable(isAvailable) == -1) { return -1; } *available = isAvailable; RTC_LOG(INFO) << "output: " << isAvailable; return 0; } int32_t AudioDeviceModuleImpl::SetMicrophoneVolume(uint32_t volume) { RTC_LOG(INFO) << __FUNCTION__ << "(" << volume << ")"; CHECKinitialized_(); return (audio_device_->SetMicrophoneVolume(volume)); } int32_t AudioDeviceModuleImpl::MicrophoneVolume(uint32_t* volume) const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); uint32_t level = 0; if (audio_device_->MicrophoneVolume(level) == -1) { return -1; } *volume = level; RTC_LOG(INFO) << "output: " << *volume; return 0; } int32_t AudioDeviceModuleImpl::StereoRecordingIsAvailable( bool* available) const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool isAvailable = false; if (audio_device_->StereoRecordingIsAvailable(isAvailable) == -1) { return -1; } *available = isAvailable; RTC_LOG(INFO) << "output: " << isAvailable; return 0; } int32_t AudioDeviceModuleImpl::SetStereoRecording(bool enable) { RTC_LOG(INFO) << __FUNCTION__ << "(" << enable << ")"; CHECKinitialized_(); if (audio_device_->RecordingIsInitialized()) { RTC_LOG(LERROR) << "unable to set stereo mode after recording is initialized"; return -1; } if (audio_device_->SetStereoRecording(enable) == -1) { if (enable) { RTC_LOG(WARNING) << "failed to enable stereo recording"; } return -1; } int8_t nChannels(1); if (enable) { nChannels = 2; } audio_device_buffer_.SetRecordingChannels(nChannels); return 0; } int32_t AudioDeviceModuleImpl::StereoRecording(bool* enabled) const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool stereo = false; if (audio_device_->StereoRecording(stereo) == -1) { return -1; } *enabled = stereo; RTC_LOG(INFO) << "output: " << stereo; return 0; } int32_t AudioDeviceModuleImpl::StereoPlayoutIsAvailable(bool* available) const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool isAvailable = false; if (audio_device_->StereoPlayoutIsAvailable(isAvailable) == -1) { return -1; } *available = isAvailable; RTC_LOG(INFO) << "output: " << isAvailable; return 0; } int32_t AudioDeviceModuleImpl::SetStereoPlayout(bool enable) { RTC_LOG(INFO) << __FUNCTION__ << "(" << enable << ")"; CHECKinitialized_(); if (audio_device_->PlayoutIsInitialized()) { RTC_LOG(LERROR) << "unable to set stereo mode while playing side is initialized"; return -1; } if (audio_device_->SetStereoPlayout(enable)) { RTC_LOG(WARNING) << "stereo playout is not supported"; return -1; } int8_t nChannels(1); if (enable) { nChannels = 2; } audio_device_buffer_.SetPlayoutChannels(nChannels); return 0; } int32_t AudioDeviceModuleImpl::StereoPlayout(bool* enabled) const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool stereo = false; if (audio_device_->StereoPlayout(stereo) == -1) { return -1; } *enabled = stereo; RTC_LOG(INFO) << "output: " << stereo; return 0; } int32_t AudioDeviceModuleImpl::PlayoutIsAvailable(bool* available) { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool isAvailable = false; if (audio_device_->PlayoutIsAvailable(isAvailable) == -1) { return -1; } *available = isAvailable; RTC_LOG(INFO) << "output: " << isAvailable; return 0; } int32_t AudioDeviceModuleImpl::RecordingIsAvailable(bool* available) { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); bool isAvailable = false; if (audio_device_->RecordingIsAvailable(isAvailable) == -1) { return -1; } *available = isAvailable; RTC_LOG(INFO) << "output: " << isAvailable; return 0; } int32_t AudioDeviceModuleImpl::MaxMicrophoneVolume(uint32_t* maxVolume) const { CHECKinitialized_(); uint32_t maxVol(0); if (audio_device_->MaxMicrophoneVolume(maxVol) == -1) { return -1; } *maxVolume = maxVol; return 0; } int32_t AudioDeviceModuleImpl::MinMicrophoneVolume(uint32_t* minVolume) const { CHECKinitialized_(); uint32_t minVol(0); if (audio_device_->MinMicrophoneVolume(minVol) == -1) { return -1; } *minVolume = minVol; return 0; } int16_t AudioDeviceModuleImpl::PlayoutDevices() { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); uint16_t nPlayoutDevices = audio_device_->PlayoutDevices(); RTC_LOG(INFO) << "output: " << nPlayoutDevices; return (int16_t)(nPlayoutDevices); } int32_t AudioDeviceModuleImpl::SetPlayoutDevice(uint16_t index) { RTC_LOG(INFO) << __FUNCTION__ << "(" << index << ")"; CHECKinitialized_(); return audio_device_->SetPlayoutDevice(index); } int32_t AudioDeviceModuleImpl::SetPlayoutDevice(WindowsDeviceType device) { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); return audio_device_->SetPlayoutDevice(device); } int32_t AudioDeviceModuleImpl::PlayoutDeviceName( uint16_t index, char name[kAdmMaxDeviceNameSize], char guid[kAdmMaxGuidSize]) { RTC_LOG(INFO) << __FUNCTION__ << "(" << index << ", ...)"; CHECKinitialized_(); if (name == NULL) { return -1; } if (audio_device_->PlayoutDeviceName(index, name, guid) == -1) { return -1; } if (name != NULL) { RTC_LOG(INFO) << "output: name = " << name; } if (guid != NULL) { RTC_LOG(INFO) << "output: guid = " << guid; } return 0; } int32_t AudioDeviceModuleImpl::RecordingDeviceName( uint16_t index, char name[kAdmMaxDeviceNameSize], char guid[kAdmMaxGuidSize]) { RTC_LOG(INFO) << __FUNCTION__ << "(" << index << ", ...)"; CHECKinitialized_(); if (name == NULL) { return -1; } if (audio_device_->RecordingDeviceName(index, name, guid) == -1) { return -1; } if (name != NULL) { RTC_LOG(INFO) << "output: name = " << name; } if (guid != NULL) { RTC_LOG(INFO) << "output: guid = " << guid; } return 0; } int16_t AudioDeviceModuleImpl::RecordingDevices() { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); uint16_t nRecordingDevices = audio_device_->RecordingDevices(); RTC_LOG(INFO) << "output: " << nRecordingDevices; return (int16_t)nRecordingDevices; } int32_t AudioDeviceModuleImpl::SetRecordingDevice(uint16_t index) { RTC_LOG(INFO) << __FUNCTION__ << "(" << index << ")"; CHECKinitialized_(); return audio_device_->SetRecordingDevice(index); } int32_t AudioDeviceModuleImpl::SetRecordingDevice(WindowsDeviceType device) { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); return audio_device_->SetRecordingDevice(device); } int32_t AudioDeviceModuleImpl::InitPlayout() { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); if (PlayoutIsInitialized()) { return 0; } int32_t result = audio_device_->InitPlayout(); RTC_LOG(INFO) << "output: " << result; RTC_HISTOGRAM_BOOLEAN("WebRTC.Audio.InitPlayoutSuccess", static_cast(result == 0)); return result; } int32_t AudioDeviceModuleImpl::InitRecording() { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); if (RecordingIsInitialized()) { return 0; } int32_t result = audio_device_->InitRecording(); RTC_LOG(INFO) << "output: " << result; RTC_HISTOGRAM_BOOLEAN("WebRTC.Audio.InitRecordingSuccess", static_cast(result == 0)); return result; } bool AudioDeviceModuleImpl::PlayoutIsInitialized() const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized__BOOL(); return audio_device_->PlayoutIsInitialized(); } bool AudioDeviceModuleImpl::RecordingIsInitialized() const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized__BOOL(); return audio_device_->RecordingIsInitialized(); } int32_t AudioDeviceModuleImpl::StartPlayout() { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); if (Playing()) { return 0; } audio_device_buffer_.StartPlayout(); int32_t result = audio_device_->StartPlayout(); RTC_LOG(INFO) << "output: " << result; RTC_HISTOGRAM_BOOLEAN("WebRTC.Audio.StartPlayoutSuccess", static_cast(result == 0)); return result; } int32_t AudioDeviceModuleImpl::StopPlayout() { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); int32_t result = audio_device_->StopPlayout(); audio_device_buffer_.StopPlayout(); RTC_LOG(INFO) << "output: " << result; RTC_HISTOGRAM_BOOLEAN("WebRTC.Audio.StopPlayoutSuccess", static_cast(result == 0)); return result; } bool AudioDeviceModuleImpl::Playing() const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized__BOOL(); return audio_device_->Playing(); } int32_t AudioDeviceModuleImpl::StartRecording() { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); if (Recording()) { return 0; } audio_device_buffer_.StartRecording(); int32_t result = audio_device_->StartRecording(); RTC_LOG(INFO) << "output: " << result; RTC_HISTOGRAM_BOOLEAN("WebRTC.Audio.StartRecordingSuccess", static_cast(result == 0)); return result; } int32_t AudioDeviceModuleImpl::StopRecording() { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); int32_t result = audio_device_->StopRecording(); audio_device_buffer_.StopRecording(); RTC_LOG(INFO) << "output: " << result; RTC_HISTOGRAM_BOOLEAN("WebRTC.Audio.StopRecordingSuccess", static_cast(result == 0)); return result; } bool AudioDeviceModuleImpl::Recording() const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized__BOOL(); return audio_device_->Recording(); } int32_t AudioDeviceModuleImpl::RegisterAudioCallback( AudioTransport* audioCallback) { RTC_LOG(INFO) << __FUNCTION__; return audio_device_buffer_.RegisterAudioCallback(audioCallback); } int32_t AudioDeviceModuleImpl::PlayoutDelay(uint16_t* delayMS) const { CHECKinitialized_(); uint16_t delay = 0; if (audio_device_->PlayoutDelay(delay) == -1) { RTC_LOG(LERROR) << "failed to retrieve the playout delay"; return -1; } *delayMS = delay; return 0; } bool AudioDeviceModuleImpl::BuiltInAECIsAvailable() const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized__BOOL(); bool isAvailable = audio_device_->BuiltInAECIsAvailable(); RTC_LOG(INFO) << "output: " << isAvailable; return isAvailable; } int32_t AudioDeviceModuleImpl::EnableBuiltInAEC(bool enable) { RTC_LOG(INFO) << __FUNCTION__ << "(" << enable << ")"; CHECKinitialized_(); int32_t ok = audio_device_->EnableBuiltInAEC(enable); RTC_LOG(INFO) << "output: " << ok; return ok; } bool AudioDeviceModuleImpl::BuiltInAGCIsAvailable() const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized__BOOL(); bool isAvailable = audio_device_->BuiltInAGCIsAvailable(); RTC_LOG(INFO) << "output: " << isAvailable; return isAvailable; } int32_t AudioDeviceModuleImpl::EnableBuiltInAGC(bool enable) { RTC_LOG(INFO) << __FUNCTION__ << "(" << enable << ")"; CHECKinitialized_(); int32_t ok = audio_device_->EnableBuiltInAGC(enable); RTC_LOG(INFO) << "output: " << ok; return ok; } bool AudioDeviceModuleImpl::BuiltInNSIsAvailable() const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized__BOOL(); bool isAvailable = audio_device_->BuiltInNSIsAvailable(); RTC_LOG(INFO) << "output: " << isAvailable; return isAvailable; } int32_t AudioDeviceModuleImpl::EnableBuiltInNS(bool enable) { RTC_LOG(INFO) << __FUNCTION__ << "(" << enable << ")"; CHECKinitialized_(); int32_t ok = audio_device_->EnableBuiltInNS(enable); RTC_LOG(INFO) << "output: " << ok; return ok; } int32_t AudioDeviceModuleImpl::GetPlayoutUnderrunCount() const { RTC_LOG(INFO) << __FUNCTION__; CHECKinitialized_(); int32_t underrunCount = audio_device_->GetPlayoutUnderrunCount(); RTC_LOG(INFO) << "output: " << underrunCount; return underrunCount; } #if defined(WEBRTC_IOS) int AudioDeviceModuleImpl::GetPlayoutAudioParameters( AudioParameters* params) const { RTC_LOG(INFO) << __FUNCTION__; int r = audio_device_->GetPlayoutAudioParameters(params); RTC_LOG(INFO) << "output: " << r; return r; } int AudioDeviceModuleImpl::GetRecordAudioParameters( AudioParameters* params) const { RTC_LOG(INFO) << __FUNCTION__; int r = audio_device_->GetRecordAudioParameters(params); RTC_LOG(INFO) << "output: " << r; return r; } #endif // WEBRTC_IOS AudioDeviceModuleImpl::PlatformType AudioDeviceModuleImpl::Platform() const { RTC_LOG(INFO) << __FUNCTION__; return platform_type_; } AudioDeviceModule::AudioLayer AudioDeviceModuleImpl::PlatformAudioLayer() const { RTC_LOG(INFO) << __FUNCTION__; return audio_layer_; } } // namespace webrtc