| /* |
| * 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/modules/audio_processing/audio_processing_impl.h" |
| |
| #include <assert.h> |
| #include <algorithm> |
| |
| #include "webrtc/base/checks.h" |
| #include "webrtc/base/platform_file.h" |
| #include "webrtc/base/trace_event.h" |
| #include "webrtc/common_audio/audio_converter.h" |
| #include "webrtc/common_audio/channel_buffer.h" |
| #include "webrtc/common_audio/include/audio_util.h" |
| #include "webrtc/common_audio/signal_processing/include/signal_processing_library.h" |
| #include "webrtc/modules/audio_processing/aec/aec_core.h" |
| #include "webrtc/modules/audio_processing/agc/agc_manager_direct.h" |
| #include "webrtc/modules/audio_processing/audio_buffer.h" |
| #include "webrtc/modules/audio_processing/beamformer/nonlinear_beamformer.h" |
| #include "webrtc/modules/audio_processing/common.h" |
| #include "webrtc/modules/audio_processing/echo_cancellation_impl.h" |
| #include "webrtc/modules/audio_processing/echo_control_mobile_impl.h" |
| #include "webrtc/modules/audio_processing/gain_control_for_experimental_agc.h" |
| #include "webrtc/modules/audio_processing/gain_control_impl.h" |
| #include "webrtc/modules/audio_processing/high_pass_filter_impl.h" |
| #include "webrtc/modules/audio_processing/intelligibility/intelligibility_enhancer.h" |
| #include "webrtc/modules/audio_processing/level_estimator_impl.h" |
| #include "webrtc/modules/audio_processing/noise_suppression_impl.h" |
| #include "webrtc/modules/audio_processing/transient/transient_suppressor.h" |
| #include "webrtc/modules/audio_processing/voice_detection_impl.h" |
| #include "webrtc/modules/include/module_common_types.h" |
| #include "webrtc/system_wrappers/include/file_wrapper.h" |
| #include "webrtc/system_wrappers/include/logging.h" |
| #include "webrtc/system_wrappers/include/metrics.h" |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| // Files generated at build-time by the protobuf compiler. |
| #ifdef WEBRTC_ANDROID_PLATFORM_BUILD |
| #include "external/webrtc/webrtc/modules/audio_processing/debug.pb.h" |
| #else |
| #include "webrtc/modules/audio_processing/debug.pb.h" |
| #endif |
| #endif // WEBRTC_AUDIOPROC_DEBUG_DUMP |
| |
| #define RETURN_ON_ERR(expr) \ |
| do { \ |
| int err = (expr); \ |
| if (err != kNoError) { \ |
| return err; \ |
| } \ |
| } while (0) |
| |
| namespace webrtc { |
| |
| const int AudioProcessing::kNativeSampleRatesHz[] = { |
| AudioProcessing::kSampleRate8kHz, |
| AudioProcessing::kSampleRate16kHz, |
| #ifdef WEBRTC_ARCH_ARM_FAMILY |
| AudioProcessing::kSampleRate32kHz}; |
| #else |
| AudioProcessing::kSampleRate32kHz, |
| AudioProcessing::kSampleRate48kHz}; |
| #endif // WEBRTC_ARCH_ARM_FAMILY |
| const size_t AudioProcessing::kNumNativeSampleRates = |
| arraysize(AudioProcessing::kNativeSampleRatesHz); |
| const int AudioProcessing::kMaxNativeSampleRateHz = AudioProcessing:: |
| kNativeSampleRatesHz[AudioProcessing::kNumNativeSampleRates - 1]; |
| |
| namespace { |
| |
| static bool LayoutHasKeyboard(AudioProcessing::ChannelLayout layout) { |
| switch (layout) { |
| case AudioProcessing::kMono: |
| case AudioProcessing::kStereo: |
| return false; |
| case AudioProcessing::kMonoAndKeyboard: |
| case AudioProcessing::kStereoAndKeyboard: |
| return true; |
| } |
| |
| assert(false); |
| return false; |
| } |
| |
| bool is_multi_band(int sample_rate_hz) { |
| return sample_rate_hz == AudioProcessing::kSampleRate32kHz || |
| sample_rate_hz == AudioProcessing::kSampleRate48kHz; |
| } |
| |
| int ClosestHigherNativeRate(int min_proc_rate) { |
| for (int rate : AudioProcessing::kNativeSampleRatesHz) { |
| if (rate >= min_proc_rate) { |
| return rate; |
| } |
| } |
| return AudioProcessing::kMaxNativeSampleRateHz; |
| } |
| |
| } // namespace |
| |
| // Throughout webrtc, it's assumed that success is represented by zero. |
| static_assert(AudioProcessing::kNoError == 0, "kNoError must be zero"); |
| |
| struct AudioProcessingImpl::ApmPublicSubmodules { |
| ApmPublicSubmodules() {} |
| // Accessed externally of APM without any lock acquired. |
| std::unique_ptr<EchoCancellationImpl> echo_cancellation; |
| std::unique_ptr<EchoControlMobileImpl> echo_control_mobile; |
| std::unique_ptr<GainControlImpl> gain_control; |
| std::unique_ptr<HighPassFilterImpl> high_pass_filter; |
| std::unique_ptr<LevelEstimatorImpl> level_estimator; |
| std::unique_ptr<NoiseSuppressionImpl> noise_suppression; |
| std::unique_ptr<VoiceDetectionImpl> voice_detection; |
| std::unique_ptr<GainControlForExperimentalAgc> |
| gain_control_for_experimental_agc; |
| |
| // Accessed internally from both render and capture. |
| std::unique_ptr<TransientSuppressor> transient_suppressor; |
| std::unique_ptr<IntelligibilityEnhancer> intelligibility_enhancer; |
| }; |
| |
| struct AudioProcessingImpl::ApmPrivateSubmodules { |
| explicit ApmPrivateSubmodules(Beamformer<float>* beamformer) |
| : beamformer(beamformer) {} |
| // Accessed internally from capture or during initialization |
| std::unique_ptr<Beamformer<float>> beamformer; |
| std::unique_ptr<AgcManagerDirect> agc_manager; |
| }; |
| |
| AudioProcessing* AudioProcessing::Create() { |
| Config config; |
| return Create(config, nullptr); |
| } |
| |
| AudioProcessing* AudioProcessing::Create(const Config& config) { |
| return Create(config, nullptr); |
| } |
| |
| AudioProcessing* AudioProcessing::Create(const Config& config, |
| Beamformer<float>* beamformer) { |
| AudioProcessingImpl* apm = new AudioProcessingImpl(config, beamformer); |
| if (apm->Initialize() != kNoError) { |
| delete apm; |
| apm = nullptr; |
| } |
| |
| return apm; |
| } |
| |
| AudioProcessingImpl::AudioProcessingImpl(const Config& config) |
| : AudioProcessingImpl(config, nullptr) {} |
| |
| AudioProcessingImpl::AudioProcessingImpl(const Config& config, |
| Beamformer<float>* beamformer) |
| : public_submodules_(new ApmPublicSubmodules()), |
| private_submodules_(new ApmPrivateSubmodules(beamformer)), |
| constants_(config.Get<ExperimentalAgc>().startup_min_volume, |
| #if defined(WEBRTC_ANDROID) || defined(WEBRTC_IOS) |
| false), |
| #else |
| config.Get<ExperimentalAgc>().enabled), |
| #endif |
| #if defined(WEBRTC_ANDROID) || defined(WEBRTC_IOS) |
| capture_(false, |
| #else |
| capture_(config.Get<ExperimentalNs>().enabled, |
| #endif |
| config.Get<Beamforming>().array_geometry, |
| config.Get<Beamforming>().target_direction), |
| capture_nonlocked_(config.Get<Beamforming>().enabled, |
| config.Get<Intelligibility>().enabled) |
| { |
| { |
| rtc::CritScope cs_render(&crit_render_); |
| rtc::CritScope cs_capture(&crit_capture_); |
| |
| public_submodules_->echo_cancellation.reset( |
| new EchoCancellationImpl(&crit_render_, &crit_capture_)); |
| public_submodules_->echo_control_mobile.reset( |
| new EchoControlMobileImpl(&crit_render_, &crit_capture_)); |
| public_submodules_->gain_control.reset( |
| new GainControlImpl(&crit_capture_, &crit_capture_)); |
| public_submodules_->high_pass_filter.reset( |
| new HighPassFilterImpl(&crit_capture_)); |
| public_submodules_->level_estimator.reset( |
| new LevelEstimatorImpl(&crit_capture_)); |
| public_submodules_->noise_suppression.reset( |
| new NoiseSuppressionImpl(&crit_capture_)); |
| public_submodules_->voice_detection.reset( |
| new VoiceDetectionImpl(&crit_capture_)); |
| public_submodules_->gain_control_for_experimental_agc.reset( |
| new GainControlForExperimentalAgc( |
| public_submodules_->gain_control.get(), &crit_capture_)); |
| } |
| |
| SetExtraOptions(config); |
| } |
| |
| AudioProcessingImpl::~AudioProcessingImpl() { |
| // Depends on gain_control_ and |
| // public_submodules_->gain_control_for_experimental_agc. |
| private_submodules_->agc_manager.reset(); |
| // Depends on gain_control_. |
| public_submodules_->gain_control_for_experimental_agc.reset(); |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| debug_dump_.debug_file->CloseFile(); |
| #endif |
| } |
| |
| int AudioProcessingImpl::Initialize() { |
| // Run in a single-threaded manner during initialization. |
| rtc::CritScope cs_render(&crit_render_); |
| rtc::CritScope cs_capture(&crit_capture_); |
| return InitializeLocked(); |
| } |
| |
| int AudioProcessingImpl::Initialize(int input_sample_rate_hz, |
| int output_sample_rate_hz, |
| int reverse_sample_rate_hz, |
| ChannelLayout input_layout, |
| ChannelLayout output_layout, |
| ChannelLayout reverse_layout) { |
| const ProcessingConfig processing_config = { |
| {{input_sample_rate_hz, |
| ChannelsFromLayout(input_layout), |
| LayoutHasKeyboard(input_layout)}, |
| {output_sample_rate_hz, |
| ChannelsFromLayout(output_layout), |
| LayoutHasKeyboard(output_layout)}, |
| {reverse_sample_rate_hz, |
| ChannelsFromLayout(reverse_layout), |
| LayoutHasKeyboard(reverse_layout)}, |
| {reverse_sample_rate_hz, |
| ChannelsFromLayout(reverse_layout), |
| LayoutHasKeyboard(reverse_layout)}}}; |
| |
| return Initialize(processing_config); |
| } |
| |
| int AudioProcessingImpl::Initialize(const ProcessingConfig& processing_config) { |
| // Run in a single-threaded manner during initialization. |
| rtc::CritScope cs_render(&crit_render_); |
| rtc::CritScope cs_capture(&crit_capture_); |
| return InitializeLocked(processing_config); |
| } |
| |
| int AudioProcessingImpl::MaybeInitializeRender( |
| const ProcessingConfig& processing_config) { |
| return MaybeInitialize(processing_config); |
| } |
| |
| int AudioProcessingImpl::MaybeInitializeCapture( |
| const ProcessingConfig& processing_config) { |
| return MaybeInitialize(processing_config); |
| } |
| |
| // Calls InitializeLocked() if any of the audio parameters have changed from |
| // their current values (needs to be called while holding the crit_render_lock). |
| int AudioProcessingImpl::MaybeInitialize( |
| const ProcessingConfig& processing_config) { |
| // Called from both threads. Thread check is therefore not possible. |
| if (processing_config == formats_.api_format) { |
| return kNoError; |
| } |
| |
| rtc::CritScope cs_capture(&crit_capture_); |
| return InitializeLocked(processing_config); |
| } |
| |
| int AudioProcessingImpl::InitializeLocked() { |
| const int fwd_audio_buffer_channels = |
| capture_nonlocked_.beamformer_enabled |
| ? formats_.api_format.input_stream().num_channels() |
| : formats_.api_format.output_stream().num_channels(); |
| const int rev_audio_buffer_out_num_frames = |
| formats_.api_format.reverse_output_stream().num_frames() == 0 |
| ? formats_.rev_proc_format.num_frames() |
| : formats_.api_format.reverse_output_stream().num_frames(); |
| if (formats_.api_format.reverse_input_stream().num_channels() > 0) { |
| render_.render_audio.reset(new AudioBuffer( |
| formats_.api_format.reverse_input_stream().num_frames(), |
| formats_.api_format.reverse_input_stream().num_channels(), |
| formats_.rev_proc_format.num_frames(), |
| formats_.rev_proc_format.num_channels(), |
| rev_audio_buffer_out_num_frames)); |
| if (rev_conversion_needed()) { |
| render_.render_converter = AudioConverter::Create( |
| formats_.api_format.reverse_input_stream().num_channels(), |
| formats_.api_format.reverse_input_stream().num_frames(), |
| formats_.api_format.reverse_output_stream().num_channels(), |
| formats_.api_format.reverse_output_stream().num_frames()); |
| } else { |
| render_.render_converter.reset(nullptr); |
| } |
| } else { |
| render_.render_audio.reset(nullptr); |
| render_.render_converter.reset(nullptr); |
| } |
| capture_.capture_audio.reset( |
| new AudioBuffer(formats_.api_format.input_stream().num_frames(), |
| formats_.api_format.input_stream().num_channels(), |
| capture_nonlocked_.fwd_proc_format.num_frames(), |
| fwd_audio_buffer_channels, |
| formats_.api_format.output_stream().num_frames())); |
| |
| InitializeGainController(); |
| InitializeEchoCanceller(); |
| InitializeEchoControlMobile(); |
| InitializeExperimentalAgc(); |
| InitializeTransient(); |
| InitializeBeamformer(); |
| InitializeIntelligibility(); |
| InitializeHighPassFilter(); |
| InitializeNoiseSuppression(); |
| InitializeLevelEstimator(); |
| InitializeVoiceDetection(); |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| if (debug_dump_.debug_file->is_open()) { |
| int err = WriteInitMessage(); |
| if (err != kNoError) { |
| return err; |
| } |
| } |
| #endif |
| |
| return kNoError; |
| } |
| |
| int AudioProcessingImpl::InitializeLocked(const ProcessingConfig& config) { |
| for (const auto& stream : config.streams) { |
| if (stream.num_channels() > 0 && stream.sample_rate_hz() <= 0) { |
| return kBadSampleRateError; |
| } |
| } |
| |
| const size_t num_in_channels = config.input_stream().num_channels(); |
| const size_t num_out_channels = config.output_stream().num_channels(); |
| |
| // Need at least one input channel. |
| // Need either one output channel or as many outputs as there are inputs. |
| if (num_in_channels == 0 || |
| !(num_out_channels == 1 || num_out_channels == num_in_channels)) { |
| return kBadNumberChannelsError; |
| } |
| |
| if (capture_nonlocked_.beamformer_enabled && |
| num_in_channels != capture_.array_geometry.size()) { |
| return kBadNumberChannelsError; |
| } |
| |
| formats_.api_format = config; |
| |
| capture_nonlocked_.fwd_proc_format = StreamConfig(ClosestHigherNativeRate( |
| std::min(formats_.api_format.input_stream().sample_rate_hz(), |
| formats_.api_format.output_stream().sample_rate_hz()))); |
| |
| int rev_proc_rate = ClosestHigherNativeRate(std::min( |
| formats_.api_format.reverse_input_stream().sample_rate_hz(), |
| formats_.api_format.reverse_output_stream().sample_rate_hz())); |
| // TODO(aluebs): Remove this restriction once we figure out why the 3-band |
| // splitting filter degrades the AEC performance. |
| if (rev_proc_rate > kSampleRate32kHz) { |
| rev_proc_rate = is_rev_processed() ? kSampleRate32kHz : kSampleRate16kHz; |
| } |
| // If the forward sample rate is 8 kHz, the reverse stream is also processed |
| // at this rate. |
| if (capture_nonlocked_.fwd_proc_format.sample_rate_hz() == kSampleRate8kHz) { |
| rev_proc_rate = kSampleRate8kHz; |
| } else { |
| rev_proc_rate = std::max(rev_proc_rate, static_cast<int>(kSampleRate16kHz)); |
| } |
| |
| // Always downmix the reverse stream to mono for analysis. This has been |
| // demonstrated to work well for AEC in most practical scenarios. |
| formats_.rev_proc_format = StreamConfig(rev_proc_rate, 1); |
| |
| if (capture_nonlocked_.fwd_proc_format.sample_rate_hz() == kSampleRate32kHz || |
| capture_nonlocked_.fwd_proc_format.sample_rate_hz() == kSampleRate48kHz) { |
| capture_nonlocked_.split_rate = kSampleRate16kHz; |
| } else { |
| capture_nonlocked_.split_rate = |
| capture_nonlocked_.fwd_proc_format.sample_rate_hz(); |
| } |
| |
| return InitializeLocked(); |
| } |
| |
| void AudioProcessingImpl::SetExtraOptions(const Config& config) { |
| // Run in a single-threaded manner when setting the extra options. |
| rtc::CritScope cs_render(&crit_render_); |
| rtc::CritScope cs_capture(&crit_capture_); |
| |
| public_submodules_->echo_cancellation->SetExtraOptions(config); |
| |
| if (capture_.transient_suppressor_enabled != |
| config.Get<ExperimentalNs>().enabled) { |
| capture_.transient_suppressor_enabled = |
| config.Get<ExperimentalNs>().enabled; |
| InitializeTransient(); |
| } |
| |
| if(capture_nonlocked_.intelligibility_enabled != |
| config.Get<Intelligibility>().enabled) { |
| capture_nonlocked_.intelligibility_enabled = |
| config.Get<Intelligibility>().enabled; |
| InitializeIntelligibility(); |
| } |
| |
| #ifdef WEBRTC_ANDROID_PLATFORM_BUILD |
| if (capture_nonlocked_.beamformer_enabled != |
| config.Get<Beamforming>().enabled) { |
| capture_nonlocked_.beamformer_enabled = config.Get<Beamforming>().enabled; |
| if (config.Get<Beamforming>().array_geometry.size() > 1) { |
| capture_.array_geometry = config.Get<Beamforming>().array_geometry; |
| } |
| capture_.target_direction = config.Get<Beamforming>().target_direction; |
| InitializeBeamformer(); |
| } |
| #endif // WEBRTC_ANDROID_PLATFORM_BUILD |
| } |
| |
| int AudioProcessingImpl::proc_sample_rate_hz() const { |
| // Used as callback from submodules, hence locking is not allowed. |
| return capture_nonlocked_.fwd_proc_format.sample_rate_hz(); |
| } |
| |
| int AudioProcessingImpl::proc_split_sample_rate_hz() const { |
| // Used as callback from submodules, hence locking is not allowed. |
| return capture_nonlocked_.split_rate; |
| } |
| |
| size_t AudioProcessingImpl::num_reverse_channels() const { |
| // Used as callback from submodules, hence locking is not allowed. |
| return formats_.rev_proc_format.num_channels(); |
| } |
| |
| size_t AudioProcessingImpl::num_input_channels() const { |
| // Used as callback from submodules, hence locking is not allowed. |
| return formats_.api_format.input_stream().num_channels(); |
| } |
| |
| size_t AudioProcessingImpl::num_proc_channels() const { |
| // Used as callback from submodules, hence locking is not allowed. |
| return capture_nonlocked_.beamformer_enabled ? 1 : num_output_channels(); |
| } |
| |
| size_t AudioProcessingImpl::num_output_channels() const { |
| // Used as callback from submodules, hence locking is not allowed. |
| return formats_.api_format.output_stream().num_channels(); |
| } |
| |
| void AudioProcessingImpl::set_output_will_be_muted(bool muted) { |
| rtc::CritScope cs(&crit_capture_); |
| capture_.output_will_be_muted = muted; |
| if (private_submodules_->agc_manager.get()) { |
| private_submodules_->agc_manager->SetCaptureMuted( |
| capture_.output_will_be_muted); |
| } |
| } |
| |
| |
| int AudioProcessingImpl::ProcessStream(const float* const* src, |
| size_t samples_per_channel, |
| int input_sample_rate_hz, |
| ChannelLayout input_layout, |
| int output_sample_rate_hz, |
| ChannelLayout output_layout, |
| float* const* dest) { |
| TRACE_EVENT0("webrtc", "AudioProcessing::ProcessStream_ChannelLayout"); |
| StreamConfig input_stream; |
| StreamConfig output_stream; |
| { |
| // Access the formats_.api_format.input_stream beneath the capture lock. |
| // The lock must be released as it is later required in the call |
| // to ProcessStream(,,,); |
| rtc::CritScope cs(&crit_capture_); |
| input_stream = formats_.api_format.input_stream(); |
| output_stream = formats_.api_format.output_stream(); |
| } |
| |
| input_stream.set_sample_rate_hz(input_sample_rate_hz); |
| input_stream.set_num_channels(ChannelsFromLayout(input_layout)); |
| input_stream.set_has_keyboard(LayoutHasKeyboard(input_layout)); |
| output_stream.set_sample_rate_hz(output_sample_rate_hz); |
| output_stream.set_num_channels(ChannelsFromLayout(output_layout)); |
| output_stream.set_has_keyboard(LayoutHasKeyboard(output_layout)); |
| |
| if (samples_per_channel != input_stream.num_frames()) { |
| return kBadDataLengthError; |
| } |
| return ProcessStream(src, input_stream, output_stream, dest); |
| } |
| |
| int AudioProcessingImpl::ProcessStream(const float* const* src, |
| const StreamConfig& input_config, |
| const StreamConfig& output_config, |
| float* const* dest) { |
| TRACE_EVENT0("webrtc", "AudioProcessing::ProcessStream_StreamConfig"); |
| ProcessingConfig processing_config; |
| { |
| // Acquire the capture lock in order to safely call the function |
| // that retrieves the render side data. This function accesses apm |
| // getters that need the capture lock held when being called. |
| rtc::CritScope cs_capture(&crit_capture_); |
| public_submodules_->echo_cancellation->ReadQueuedRenderData(); |
| public_submodules_->echo_control_mobile->ReadQueuedRenderData(); |
| public_submodules_->gain_control->ReadQueuedRenderData(); |
| |
| if (!src || !dest) { |
| return kNullPointerError; |
| } |
| |
| processing_config = formats_.api_format; |
| } |
| |
| processing_config.input_stream() = input_config; |
| processing_config.output_stream() = output_config; |
| |
| { |
| // Do conditional reinitialization. |
| rtc::CritScope cs_render(&crit_render_); |
| RETURN_ON_ERR(MaybeInitializeCapture(processing_config)); |
| } |
| rtc::CritScope cs_capture(&crit_capture_); |
| assert(processing_config.input_stream().num_frames() == |
| formats_.api_format.input_stream().num_frames()); |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| if (debug_dump_.debug_file->is_open()) { |
| RETURN_ON_ERR(WriteConfigMessage(false)); |
| |
| debug_dump_.capture.event_msg->set_type(audioproc::Event::STREAM); |
| audioproc::Stream* msg = debug_dump_.capture.event_msg->mutable_stream(); |
| const size_t channel_size = |
| sizeof(float) * formats_.api_format.input_stream().num_frames(); |
| for (size_t i = 0; i < formats_.api_format.input_stream().num_channels(); |
| ++i) |
| msg->add_input_channel(src[i], channel_size); |
| } |
| #endif |
| |
| capture_.capture_audio->CopyFrom(src, formats_.api_format.input_stream()); |
| RETURN_ON_ERR(ProcessStreamLocked()); |
| capture_.capture_audio->CopyTo(formats_.api_format.output_stream(), dest); |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| if (debug_dump_.debug_file->is_open()) { |
| audioproc::Stream* msg = debug_dump_.capture.event_msg->mutable_stream(); |
| const size_t channel_size = |
| sizeof(float) * formats_.api_format.output_stream().num_frames(); |
| for (size_t i = 0; i < formats_.api_format.output_stream().num_channels(); |
| ++i) |
| msg->add_output_channel(dest[i], channel_size); |
| RETURN_ON_ERR(WriteMessageToDebugFile(debug_dump_.debug_file.get(), |
| &debug_dump_.num_bytes_left_for_log_, |
| &crit_debug_, &debug_dump_.capture)); |
| } |
| #endif |
| |
| return kNoError; |
| } |
| |
| int AudioProcessingImpl::ProcessStream(AudioFrame* frame) { |
| TRACE_EVENT0("webrtc", "AudioProcessing::ProcessStream_AudioFrame"); |
| { |
| // Acquire the capture lock in order to safely call the function |
| // that retrieves the render side data. This function accesses apm |
| // getters that need the capture lock held when being called. |
| // The lock needs to be released as |
| // public_submodules_->echo_control_mobile->is_enabled() aquires this lock |
| // as well. |
| rtc::CritScope cs_capture(&crit_capture_); |
| public_submodules_->echo_cancellation->ReadQueuedRenderData(); |
| public_submodules_->echo_control_mobile->ReadQueuedRenderData(); |
| public_submodules_->gain_control->ReadQueuedRenderData(); |
| } |
| |
| if (!frame) { |
| return kNullPointerError; |
| } |
| // Must be a native rate. |
| if (frame->sample_rate_hz_ != kSampleRate8kHz && |
| frame->sample_rate_hz_ != kSampleRate16kHz && |
| frame->sample_rate_hz_ != kSampleRate32kHz && |
| frame->sample_rate_hz_ != kSampleRate48kHz) { |
| return kBadSampleRateError; |
| } |
| |
| ProcessingConfig processing_config; |
| { |
| // Aquire lock for the access of api_format. |
| // The lock is released immediately due to the conditional |
| // reinitialization. |
| rtc::CritScope cs_capture(&crit_capture_); |
| // TODO(ajm): The input and output rates and channels are currently |
| // constrained to be identical in the int16 interface. |
| processing_config = formats_.api_format; |
| } |
| processing_config.input_stream().set_sample_rate_hz(frame->sample_rate_hz_); |
| processing_config.input_stream().set_num_channels(frame->num_channels_); |
| processing_config.output_stream().set_sample_rate_hz(frame->sample_rate_hz_); |
| processing_config.output_stream().set_num_channels(frame->num_channels_); |
| |
| { |
| // Do conditional reinitialization. |
| rtc::CritScope cs_render(&crit_render_); |
| RETURN_ON_ERR(MaybeInitializeCapture(processing_config)); |
| } |
| rtc::CritScope cs_capture(&crit_capture_); |
| if (frame->samples_per_channel_ != |
| formats_.api_format.input_stream().num_frames()) { |
| return kBadDataLengthError; |
| } |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| if (debug_dump_.debug_file->is_open()) { |
| debug_dump_.capture.event_msg->set_type(audioproc::Event::STREAM); |
| audioproc::Stream* msg = debug_dump_.capture.event_msg->mutable_stream(); |
| const size_t data_size = |
| sizeof(int16_t) * frame->samples_per_channel_ * frame->num_channels_; |
| msg->set_input_data(frame->data_, data_size); |
| } |
| #endif |
| |
| capture_.capture_audio->DeinterleaveFrom(frame); |
| RETURN_ON_ERR(ProcessStreamLocked()); |
| capture_.capture_audio->InterleaveTo(frame, output_copy_needed()); |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| if (debug_dump_.debug_file->is_open()) { |
| audioproc::Stream* msg = debug_dump_.capture.event_msg->mutable_stream(); |
| const size_t data_size = |
| sizeof(int16_t) * frame->samples_per_channel_ * frame->num_channels_; |
| msg->set_output_data(frame->data_, data_size); |
| RETURN_ON_ERR(WriteMessageToDebugFile(debug_dump_.debug_file.get(), |
| &debug_dump_.num_bytes_left_for_log_, |
| &crit_debug_, &debug_dump_.capture)); |
| } |
| #endif |
| |
| return kNoError; |
| } |
| |
| int AudioProcessingImpl::ProcessStreamLocked() { |
| // Ensure that not both the AEC and AECM are active at the same time. |
| // TODO(peah): Simplify once the public API Enable functions for these |
| // are moved to APM. |
| RTC_DCHECK(!(public_submodules_->echo_cancellation->is_enabled() && |
| public_submodules_->echo_control_mobile->is_enabled())); |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| if (debug_dump_.debug_file->is_open()) { |
| audioproc::Stream* msg = debug_dump_.capture.event_msg->mutable_stream(); |
| msg->set_delay(capture_nonlocked_.stream_delay_ms); |
| msg->set_drift( |
| public_submodules_->echo_cancellation->stream_drift_samples()); |
| msg->set_level(gain_control()->stream_analog_level()); |
| msg->set_keypress(capture_.key_pressed); |
| } |
| #endif |
| |
| MaybeUpdateHistograms(); |
| |
| AudioBuffer* ca = capture_.capture_audio.get(); // For brevity. |
| |
| if (constants_.use_experimental_agc && |
| public_submodules_->gain_control->is_enabled()) { |
| private_submodules_->agc_manager->AnalyzePreProcess( |
| ca->channels()[0], ca->num_channels(), |
| capture_nonlocked_.fwd_proc_format.num_frames()); |
| } |
| |
| if (fwd_analysis_needed()) { |
| ca->SplitIntoFrequencyBands(); |
| } |
| |
| if (capture_nonlocked_.beamformer_enabled) { |
| private_submodules_->beamformer->ProcessChunk(*ca->split_data_f(), |
| ca->split_data_f()); |
| ca->set_num_channels(1); |
| } |
| |
| public_submodules_->high_pass_filter->ProcessCaptureAudio(ca); |
| RETURN_ON_ERR(public_submodules_->gain_control->AnalyzeCaptureAudio(ca)); |
| public_submodules_->noise_suppression->AnalyzeCaptureAudio(ca); |
| |
| // Ensure that the stream delay was set before the call to the |
| // AEC ProcessCaptureAudio function. |
| if (public_submodules_->echo_cancellation->is_enabled() && |
| !was_stream_delay_set()) { |
| return AudioProcessing::kStreamParameterNotSetError; |
| } |
| |
| RETURN_ON_ERR(public_submodules_->echo_cancellation->ProcessCaptureAudio( |
| ca, stream_delay_ms())); |
| |
| if (public_submodules_->echo_control_mobile->is_enabled() && |
| public_submodules_->noise_suppression->is_enabled()) { |
| ca->CopyLowPassToReference(); |
| } |
| public_submodules_->noise_suppression->ProcessCaptureAudio(ca); |
| if (capture_nonlocked_.intelligibility_enabled) { |
| RTC_DCHECK(public_submodules_->noise_suppression->is_enabled()); |
| int gain_db = public_submodules_->gain_control->is_enabled() ? |
| public_submodules_->gain_control->compression_gain_db() : |
| 0; |
| public_submodules_->intelligibility_enhancer->SetCaptureNoiseEstimate( |
| public_submodules_->noise_suppression->NoiseEstimate(), gain_db); |
| } |
| |
| // Ensure that the stream delay was set before the call to the |
| // AECM ProcessCaptureAudio function. |
| if (public_submodules_->echo_control_mobile->is_enabled() && |
| !was_stream_delay_set()) { |
| return AudioProcessing::kStreamParameterNotSetError; |
| } |
| |
| RETURN_ON_ERR(public_submodules_->echo_control_mobile->ProcessCaptureAudio( |
| ca, stream_delay_ms())); |
| |
| public_submodules_->voice_detection->ProcessCaptureAudio(ca); |
| |
| if (constants_.use_experimental_agc && |
| public_submodules_->gain_control->is_enabled() && |
| (!capture_nonlocked_.beamformer_enabled || |
| private_submodules_->beamformer->is_target_present())) { |
| private_submodules_->agc_manager->Process( |
| ca->split_bands_const(0)[kBand0To8kHz], ca->num_frames_per_band(), |
| capture_nonlocked_.split_rate); |
| } |
| RETURN_ON_ERR(public_submodules_->gain_control->ProcessCaptureAudio( |
| ca, echo_cancellation()->stream_has_echo())); |
| |
| if (fwd_synthesis_needed()) { |
| ca->MergeFrequencyBands(); |
| } |
| |
| // TODO(aluebs): Investigate if the transient suppression placement should be |
| // before or after the AGC. |
| if (capture_.transient_suppressor_enabled) { |
| float voice_probability = |
| private_submodules_->agc_manager.get() |
| ? private_submodules_->agc_manager->voice_probability() |
| : 1.f; |
| |
| public_submodules_->transient_suppressor->Suppress( |
| ca->channels_f()[0], ca->num_frames(), ca->num_channels(), |
| ca->split_bands_const_f(0)[kBand0To8kHz], ca->num_frames_per_band(), |
| ca->keyboard_data(), ca->num_keyboard_frames(), voice_probability, |
| capture_.key_pressed); |
| } |
| |
| // The level estimator operates on the recombined data. |
| public_submodules_->level_estimator->ProcessStream(ca); |
| |
| capture_.was_stream_delay_set = false; |
| return kNoError; |
| } |
| |
| int AudioProcessingImpl::AnalyzeReverseStream(const float* const* data, |
| size_t samples_per_channel, |
| int rev_sample_rate_hz, |
| ChannelLayout layout) { |
| TRACE_EVENT0("webrtc", "AudioProcessing::AnalyzeReverseStream_ChannelLayout"); |
| rtc::CritScope cs(&crit_render_); |
| const StreamConfig reverse_config = { |
| rev_sample_rate_hz, ChannelsFromLayout(layout), LayoutHasKeyboard(layout), |
| }; |
| if (samples_per_channel != reverse_config.num_frames()) { |
| return kBadDataLengthError; |
| } |
| return AnalyzeReverseStreamLocked(data, reverse_config, reverse_config); |
| } |
| |
| int AudioProcessingImpl::ProcessReverseStream( |
| const float* const* src, |
| const StreamConfig& reverse_input_config, |
| const StreamConfig& reverse_output_config, |
| float* const* dest) { |
| TRACE_EVENT0("webrtc", "AudioProcessing::ProcessReverseStream_StreamConfig"); |
| rtc::CritScope cs(&crit_render_); |
| RETURN_ON_ERR(AnalyzeReverseStreamLocked(src, reverse_input_config, |
| reverse_output_config)); |
| if (is_rev_processed()) { |
| render_.render_audio->CopyTo(formats_.api_format.reverse_output_stream(), |
| dest); |
| } else if (render_check_rev_conversion_needed()) { |
| render_.render_converter->Convert(src, reverse_input_config.num_samples(), |
| dest, |
| reverse_output_config.num_samples()); |
| } else { |
| CopyAudioIfNeeded(src, reverse_input_config.num_frames(), |
| reverse_input_config.num_channels(), dest); |
| } |
| |
| return kNoError; |
| } |
| |
| int AudioProcessingImpl::AnalyzeReverseStreamLocked( |
| const float* const* src, |
| const StreamConfig& reverse_input_config, |
| const StreamConfig& reverse_output_config) { |
| if (src == nullptr) { |
| return kNullPointerError; |
| } |
| |
| if (reverse_input_config.num_channels() == 0) { |
| return kBadNumberChannelsError; |
| } |
| |
| ProcessingConfig processing_config = formats_.api_format; |
| processing_config.reverse_input_stream() = reverse_input_config; |
| processing_config.reverse_output_stream() = reverse_output_config; |
| |
| RETURN_ON_ERR(MaybeInitializeRender(processing_config)); |
| assert(reverse_input_config.num_frames() == |
| formats_.api_format.reverse_input_stream().num_frames()); |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| if (debug_dump_.debug_file->is_open()) { |
| debug_dump_.render.event_msg->set_type(audioproc::Event::REVERSE_STREAM); |
| audioproc::ReverseStream* msg = |
| debug_dump_.render.event_msg->mutable_reverse_stream(); |
| const size_t channel_size = |
| sizeof(float) * formats_.api_format.reverse_input_stream().num_frames(); |
| for (size_t i = 0; |
| i < formats_.api_format.reverse_input_stream().num_channels(); ++i) |
| msg->add_channel(src[i], channel_size); |
| RETURN_ON_ERR(WriteMessageToDebugFile(debug_dump_.debug_file.get(), |
| &debug_dump_.num_bytes_left_for_log_, |
| &crit_debug_, &debug_dump_.render)); |
| } |
| #endif |
| |
| render_.render_audio->CopyFrom(src, |
| formats_.api_format.reverse_input_stream()); |
| return ProcessReverseStreamLocked(); |
| } |
| |
| int AudioProcessingImpl::ProcessReverseStream(AudioFrame* frame) { |
| TRACE_EVENT0("webrtc", "AudioProcessing::ProcessReverseStream_AudioFrame"); |
| rtc::CritScope cs(&crit_render_); |
| if (frame == nullptr) { |
| return kNullPointerError; |
| } |
| // Must be a native rate. |
| if (frame->sample_rate_hz_ != kSampleRate8kHz && |
| frame->sample_rate_hz_ != kSampleRate16kHz && |
| frame->sample_rate_hz_ != kSampleRate32kHz && |
| frame->sample_rate_hz_ != kSampleRate48kHz) { |
| return kBadSampleRateError; |
| } |
| |
| if (frame->num_channels_ <= 0) { |
| return kBadNumberChannelsError; |
| } |
| |
| ProcessingConfig processing_config = formats_.api_format; |
| processing_config.reverse_input_stream().set_sample_rate_hz( |
| frame->sample_rate_hz_); |
| processing_config.reverse_input_stream().set_num_channels( |
| frame->num_channels_); |
| processing_config.reverse_output_stream().set_sample_rate_hz( |
| frame->sample_rate_hz_); |
| processing_config.reverse_output_stream().set_num_channels( |
| frame->num_channels_); |
| |
| RETURN_ON_ERR(MaybeInitializeRender(processing_config)); |
| if (frame->samples_per_channel_ != |
| formats_.api_format.reverse_input_stream().num_frames()) { |
| return kBadDataLengthError; |
| } |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| if (debug_dump_.debug_file->is_open()) { |
| debug_dump_.render.event_msg->set_type(audioproc::Event::REVERSE_STREAM); |
| audioproc::ReverseStream* msg = |
| debug_dump_.render.event_msg->mutable_reverse_stream(); |
| const size_t data_size = |
| sizeof(int16_t) * frame->samples_per_channel_ * frame->num_channels_; |
| msg->set_data(frame->data_, data_size); |
| RETURN_ON_ERR(WriteMessageToDebugFile(debug_dump_.debug_file.get(), |
| &debug_dump_.num_bytes_left_for_log_, |
| &crit_debug_, &debug_dump_.render)); |
| } |
| #endif |
| render_.render_audio->DeinterleaveFrom(frame); |
| RETURN_ON_ERR(ProcessReverseStreamLocked()); |
| if (is_rev_processed()) { |
| render_.render_audio->InterleaveTo(frame, true); |
| } |
| return kNoError; |
| } |
| |
| int AudioProcessingImpl::ProcessReverseStreamLocked() { |
| AudioBuffer* ra = render_.render_audio.get(); // For brevity. |
| if (rev_analysis_needed()) { |
| ra->SplitIntoFrequencyBands(); |
| } |
| |
| if (capture_nonlocked_.intelligibility_enabled) { |
| public_submodules_->intelligibility_enhancer->ProcessRenderAudio( |
| ra->split_channels_f(kBand0To8kHz), capture_nonlocked_.split_rate, |
| ra->num_channels()); |
| } |
| |
| RETURN_ON_ERR(public_submodules_->echo_cancellation->ProcessRenderAudio(ra)); |
| RETURN_ON_ERR( |
| public_submodules_->echo_control_mobile->ProcessRenderAudio(ra)); |
| if (!constants_.use_experimental_agc) { |
| RETURN_ON_ERR(public_submodules_->gain_control->ProcessRenderAudio(ra)); |
| } |
| |
| if (rev_synthesis_needed()) { |
| ra->MergeFrequencyBands(); |
| } |
| |
| return kNoError; |
| } |
| |
| int AudioProcessingImpl::set_stream_delay_ms(int delay) { |
| rtc::CritScope cs(&crit_capture_); |
| Error retval = kNoError; |
| capture_.was_stream_delay_set = true; |
| delay += capture_.delay_offset_ms; |
| |
| if (delay < 0) { |
| delay = 0; |
| retval = kBadStreamParameterWarning; |
| } |
| |
| // TODO(ajm): the max is rather arbitrarily chosen; investigate. |
| if (delay > 500) { |
| delay = 500; |
| retval = kBadStreamParameterWarning; |
| } |
| |
| capture_nonlocked_.stream_delay_ms = delay; |
| return retval; |
| } |
| |
| int AudioProcessingImpl::stream_delay_ms() const { |
| // Used as callback from submodules, hence locking is not allowed. |
| return capture_nonlocked_.stream_delay_ms; |
| } |
| |
| bool AudioProcessingImpl::was_stream_delay_set() const { |
| // Used as callback from submodules, hence locking is not allowed. |
| return capture_.was_stream_delay_set; |
| } |
| |
| void AudioProcessingImpl::set_stream_key_pressed(bool key_pressed) { |
| rtc::CritScope cs(&crit_capture_); |
| capture_.key_pressed = key_pressed; |
| } |
| |
| void AudioProcessingImpl::set_delay_offset_ms(int offset) { |
| rtc::CritScope cs(&crit_capture_); |
| capture_.delay_offset_ms = offset; |
| } |
| |
| int AudioProcessingImpl::delay_offset_ms() const { |
| rtc::CritScope cs(&crit_capture_); |
| return capture_.delay_offset_ms; |
| } |
| |
| int AudioProcessingImpl::StartDebugRecording( |
| const char filename[AudioProcessing::kMaxFilenameSize], |
| int64_t max_log_size_bytes) { |
| // Run in a single-threaded manner. |
| rtc::CritScope cs_render(&crit_render_); |
| rtc::CritScope cs_capture(&crit_capture_); |
| static_assert(kMaxFilenameSize == FileWrapper::kMaxFileNameSize, ""); |
| |
| if (filename == nullptr) { |
| return kNullPointerError; |
| } |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| debug_dump_.num_bytes_left_for_log_ = max_log_size_bytes; |
| // Stop any ongoing recording. |
| debug_dump_.debug_file->CloseFile(); |
| |
| if (!debug_dump_.debug_file->OpenFile(filename, false)) { |
| return kFileError; |
| } |
| |
| RETURN_ON_ERR(WriteConfigMessage(true)); |
| RETURN_ON_ERR(WriteInitMessage()); |
| return kNoError; |
| #else |
| return kUnsupportedFunctionError; |
| #endif // WEBRTC_AUDIOPROC_DEBUG_DUMP |
| } |
| |
| int AudioProcessingImpl::StartDebugRecording(FILE* handle, |
| int64_t max_log_size_bytes) { |
| // Run in a single-threaded manner. |
| rtc::CritScope cs_render(&crit_render_); |
| rtc::CritScope cs_capture(&crit_capture_); |
| |
| if (handle == nullptr) { |
| return kNullPointerError; |
| } |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| debug_dump_.num_bytes_left_for_log_ = max_log_size_bytes; |
| |
| // Stop any ongoing recording. |
| debug_dump_.debug_file->CloseFile(); |
| |
| if (!debug_dump_.debug_file->OpenFromFileHandle(handle)) { |
| return kFileError; |
| } |
| |
| RETURN_ON_ERR(WriteConfigMessage(true)); |
| RETURN_ON_ERR(WriteInitMessage()); |
| return kNoError; |
| #else |
| return kUnsupportedFunctionError; |
| #endif // WEBRTC_AUDIOPROC_DEBUG_DUMP |
| } |
| |
| int AudioProcessingImpl::StartDebugRecordingForPlatformFile( |
| rtc::PlatformFile handle) { |
| // Run in a single-threaded manner. |
| rtc::CritScope cs_render(&crit_render_); |
| rtc::CritScope cs_capture(&crit_capture_); |
| FILE* stream = rtc::FdopenPlatformFileForWriting(handle); |
| return StartDebugRecording(stream, -1); |
| } |
| |
| int AudioProcessingImpl::StopDebugRecording() { |
| // Run in a single-threaded manner. |
| rtc::CritScope cs_render(&crit_render_); |
| rtc::CritScope cs_capture(&crit_capture_); |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| // We just return if recording hasn't started. |
| debug_dump_.debug_file->CloseFile(); |
| return kNoError; |
| #else |
| return kUnsupportedFunctionError; |
| #endif // WEBRTC_AUDIOPROC_DEBUG_DUMP |
| } |
| |
| EchoCancellation* AudioProcessingImpl::echo_cancellation() const { |
| // Adding a lock here has no effect as it allows any access to the submodule |
| // from the returned pointer. |
| return public_submodules_->echo_cancellation.get(); |
| } |
| |
| EchoControlMobile* AudioProcessingImpl::echo_control_mobile() const { |
| // Adding a lock here has no effect as it allows any access to the submodule |
| // from the returned pointer. |
| return public_submodules_->echo_control_mobile.get(); |
| } |
| |
| GainControl* AudioProcessingImpl::gain_control() const { |
| // Adding a lock here has no effect as it allows any access to the submodule |
| // from the returned pointer. |
| if (constants_.use_experimental_agc) { |
| return public_submodules_->gain_control_for_experimental_agc.get(); |
| } |
| return public_submodules_->gain_control.get(); |
| } |
| |
| HighPassFilter* AudioProcessingImpl::high_pass_filter() const { |
| // Adding a lock here has no effect as it allows any access to the submodule |
| // from the returned pointer. |
| return public_submodules_->high_pass_filter.get(); |
| } |
| |
| LevelEstimator* AudioProcessingImpl::level_estimator() const { |
| // Adding a lock here has no effect as it allows any access to the submodule |
| // from the returned pointer. |
| return public_submodules_->level_estimator.get(); |
| } |
| |
| NoiseSuppression* AudioProcessingImpl::noise_suppression() const { |
| // Adding a lock here has no effect as it allows any access to the submodule |
| // from the returned pointer. |
| return public_submodules_->noise_suppression.get(); |
| } |
| |
| VoiceDetection* AudioProcessingImpl::voice_detection() const { |
| // Adding a lock here has no effect as it allows any access to the submodule |
| // from the returned pointer. |
| return public_submodules_->voice_detection.get(); |
| } |
| |
| bool AudioProcessingImpl::is_fwd_processed() const { |
| // The beamformer, noise suppressor and highpass filter |
| // modify the data. |
| if (capture_nonlocked_.beamformer_enabled || |
| public_submodules_->high_pass_filter->is_enabled() || |
| public_submodules_->noise_suppression->is_enabled() || |
| public_submodules_->echo_cancellation->is_enabled() || |
| public_submodules_->echo_control_mobile->is_enabled() || |
| public_submodules_->gain_control->is_enabled()) { |
| return true; |
| } |
| |
| // The capture data is otherwise unchanged. |
| return false; |
| } |
| |
| bool AudioProcessingImpl::output_copy_needed() const { |
| // Check if we've upmixed or downmixed the audio. |
| return ((formats_.api_format.output_stream().num_channels() != |
| formats_.api_format.input_stream().num_channels()) || |
| is_fwd_processed() || capture_.transient_suppressor_enabled); |
| } |
| |
| bool AudioProcessingImpl::fwd_synthesis_needed() const { |
| return (is_fwd_processed() && |
| is_multi_band(capture_nonlocked_.fwd_proc_format.sample_rate_hz())); |
| } |
| |
| bool AudioProcessingImpl::fwd_analysis_needed() const { |
| if (!is_fwd_processed() && |
| !public_submodules_->voice_detection->is_enabled() && |
| !capture_.transient_suppressor_enabled) { |
| // Only public_submodules_->level_estimator is enabled. |
| return false; |
| } else if (is_multi_band( |
| capture_nonlocked_.fwd_proc_format.sample_rate_hz())) { |
| // Something besides public_submodules_->level_estimator is enabled, and we |
| // have super-wb. |
| return true; |
| } |
| return false; |
| } |
| |
| bool AudioProcessingImpl::is_rev_processed() const { |
| return capture_nonlocked_.intelligibility_enabled; |
| } |
| |
| bool AudioProcessingImpl::rev_synthesis_needed() const { |
| return (is_rev_processed() && |
| is_multi_band(formats_.rev_proc_format.sample_rate_hz())); |
| } |
| |
| bool AudioProcessingImpl::rev_analysis_needed() const { |
| return is_multi_band(formats_.rev_proc_format.sample_rate_hz()) && |
| (is_rev_processed() || |
| public_submodules_->echo_cancellation |
| ->is_enabled_render_side_query() || |
| public_submodules_->echo_control_mobile |
| ->is_enabled_render_side_query() || |
| public_submodules_->gain_control->is_enabled_render_side_query()); |
| } |
| |
| bool AudioProcessingImpl::render_check_rev_conversion_needed() const { |
| return rev_conversion_needed(); |
| } |
| |
| bool AudioProcessingImpl::rev_conversion_needed() const { |
| return (formats_.api_format.reverse_input_stream() != |
| formats_.api_format.reverse_output_stream()); |
| } |
| |
| void AudioProcessingImpl::InitializeExperimentalAgc() { |
| if (constants_.use_experimental_agc) { |
| if (!private_submodules_->agc_manager.get()) { |
| private_submodules_->agc_manager.reset(new AgcManagerDirect( |
| public_submodules_->gain_control.get(), |
| public_submodules_->gain_control_for_experimental_agc.get(), |
| constants_.agc_startup_min_volume)); |
| } |
| private_submodules_->agc_manager->Initialize(); |
| private_submodules_->agc_manager->SetCaptureMuted( |
| capture_.output_will_be_muted); |
| } |
| } |
| |
| void AudioProcessingImpl::InitializeTransient() { |
| if (capture_.transient_suppressor_enabled) { |
| if (!public_submodules_->transient_suppressor.get()) { |
| public_submodules_->transient_suppressor.reset(new TransientSuppressor()); |
| } |
| public_submodules_->transient_suppressor->Initialize( |
| capture_nonlocked_.fwd_proc_format.sample_rate_hz(), |
| capture_nonlocked_.split_rate, |
| num_proc_channels()); |
| } |
| } |
| |
| void AudioProcessingImpl::InitializeBeamformer() { |
| if (capture_nonlocked_.beamformer_enabled) { |
| if (!private_submodules_->beamformer) { |
| private_submodules_->beamformer.reset(new NonlinearBeamformer( |
| capture_.array_geometry, capture_.target_direction)); |
| } |
| private_submodules_->beamformer->Initialize(kChunkSizeMs, |
| capture_nonlocked_.split_rate); |
| } |
| } |
| |
| void AudioProcessingImpl::InitializeIntelligibility() { |
| if (capture_nonlocked_.intelligibility_enabled) { |
| public_submodules_->intelligibility_enhancer.reset( |
| new IntelligibilityEnhancer(capture_nonlocked_.split_rate, |
| render_.render_audio->num_channels(), |
| NoiseSuppressionImpl::num_noise_bins())); |
| } |
| } |
| |
| void AudioProcessingImpl::InitializeHighPassFilter() { |
| public_submodules_->high_pass_filter->Initialize(num_proc_channels(), |
| proc_sample_rate_hz()); |
| } |
| |
| void AudioProcessingImpl::InitializeNoiseSuppression() { |
| public_submodules_->noise_suppression->Initialize(num_proc_channels(), |
| proc_sample_rate_hz()); |
| } |
| |
| void AudioProcessingImpl::InitializeEchoCanceller() { |
| public_submodules_->echo_cancellation->Initialize( |
| proc_sample_rate_hz(), num_reverse_channels(), num_output_channels(), |
| num_proc_channels()); |
| } |
| |
| void AudioProcessingImpl::InitializeGainController() { |
| public_submodules_->gain_control->Initialize(num_proc_channels(), |
| proc_sample_rate_hz()); |
| } |
| |
| void AudioProcessingImpl::InitializeEchoControlMobile() { |
| public_submodules_->echo_control_mobile->Initialize( |
| proc_split_sample_rate_hz(), |
| num_reverse_channels(), |
| num_output_channels()); |
| } |
| |
| void AudioProcessingImpl::InitializeLevelEstimator() { |
| public_submodules_->level_estimator->Initialize(); |
| } |
| |
| void AudioProcessingImpl::InitializeVoiceDetection() { |
| public_submodules_->voice_detection->Initialize(proc_split_sample_rate_hz()); |
| } |
| |
| void AudioProcessingImpl::MaybeUpdateHistograms() { |
| static const int kMinDiffDelayMs = 60; |
| |
| if (echo_cancellation()->is_enabled()) { |
| // Activate delay_jumps_ counters if we know echo_cancellation is runnning. |
| // If a stream has echo we know that the echo_cancellation is in process. |
| if (capture_.stream_delay_jumps == -1 && |
| echo_cancellation()->stream_has_echo()) { |
| capture_.stream_delay_jumps = 0; |
| } |
| if (capture_.aec_system_delay_jumps == -1 && |
| echo_cancellation()->stream_has_echo()) { |
| capture_.aec_system_delay_jumps = 0; |
| } |
| |
| // Detect a jump in platform reported system delay and log the difference. |
| const int diff_stream_delay_ms = |
| capture_nonlocked_.stream_delay_ms - capture_.last_stream_delay_ms; |
| if (diff_stream_delay_ms > kMinDiffDelayMs && |
| capture_.last_stream_delay_ms != 0) { |
| RTC_HISTOGRAM_COUNTS("WebRTC.Audio.PlatformReportedStreamDelayJump", |
| diff_stream_delay_ms, kMinDiffDelayMs, 1000, 100); |
| if (capture_.stream_delay_jumps == -1) { |
| capture_.stream_delay_jumps = 0; // Activate counter if needed. |
| } |
| capture_.stream_delay_jumps++; |
| } |
| capture_.last_stream_delay_ms = capture_nonlocked_.stream_delay_ms; |
| |
| // Detect a jump in AEC system delay and log the difference. |
| const int samples_per_ms = |
| rtc::CheckedDivExact(capture_nonlocked_.split_rate, 1000); |
| RTC_DCHECK_LT(0, samples_per_ms); |
| const int aec_system_delay_ms = |
| public_submodules_->echo_cancellation->GetSystemDelayInSamples() / |
| samples_per_ms; |
| const int diff_aec_system_delay_ms = |
| aec_system_delay_ms - capture_.last_aec_system_delay_ms; |
| if (diff_aec_system_delay_ms > kMinDiffDelayMs && |
| capture_.last_aec_system_delay_ms != 0) { |
| RTC_HISTOGRAM_COUNTS("WebRTC.Audio.AecSystemDelayJump", |
| diff_aec_system_delay_ms, kMinDiffDelayMs, 1000, |
| 100); |
| if (capture_.aec_system_delay_jumps == -1) { |
| capture_.aec_system_delay_jumps = 0; // Activate counter if needed. |
| } |
| capture_.aec_system_delay_jumps++; |
| } |
| capture_.last_aec_system_delay_ms = aec_system_delay_ms; |
| } |
| } |
| |
| void AudioProcessingImpl::UpdateHistogramsOnCallEnd() { |
| // Run in a single-threaded manner. |
| rtc::CritScope cs_render(&crit_render_); |
| rtc::CritScope cs_capture(&crit_capture_); |
| |
| if (capture_.stream_delay_jumps > -1) { |
| RTC_HISTOGRAM_ENUMERATION( |
| "WebRTC.Audio.NumOfPlatformReportedStreamDelayJumps", |
| capture_.stream_delay_jumps, 51); |
| } |
| capture_.stream_delay_jumps = -1; |
| capture_.last_stream_delay_ms = 0; |
| |
| if (capture_.aec_system_delay_jumps > -1) { |
| RTC_HISTOGRAM_ENUMERATION("WebRTC.Audio.NumOfAecSystemDelayJumps", |
| capture_.aec_system_delay_jumps, 51); |
| } |
| capture_.aec_system_delay_jumps = -1; |
| capture_.last_aec_system_delay_ms = 0; |
| } |
| |
| #ifdef WEBRTC_AUDIOPROC_DEBUG_DUMP |
| int AudioProcessingImpl::WriteMessageToDebugFile( |
| FileWrapper* debug_file, |
| int64_t* filesize_limit_bytes, |
| rtc::CriticalSection* crit_debug, |
| ApmDebugDumpThreadState* debug_state) { |
| int32_t size = debug_state->event_msg->ByteSize(); |
| if (size <= 0) { |
| return kUnspecifiedError; |
| } |
| #if defined(WEBRTC_ARCH_BIG_ENDIAN) |
| // TODO(ajm): Use little-endian "on the wire". For the moment, we can be |
| // pretty safe in assuming little-endian. |
| #endif |
| |
| if (!debug_state->event_msg->SerializeToString(&debug_state->event_str)) { |
| return kUnspecifiedError; |
| } |
| |
| { |
| // Ensure atomic writes of the message. |
| rtc::CritScope cs_debug(crit_debug); |
| |
| RTC_DCHECK(debug_file->is_open()); |
| // Update the byte counter. |
| if (*filesize_limit_bytes >= 0) { |
| *filesize_limit_bytes -= |
| (sizeof(int32_t) + debug_state->event_str.length()); |
| if (*filesize_limit_bytes < 0) { |
| // Not enough bytes are left to write this message, so stop logging. |
| debug_file->CloseFile(); |
| return kNoError; |
| } |
| } |
| // Write message preceded by its size. |
| if (!debug_file->Write(&size, sizeof(int32_t))) { |
| return kFileError; |
| } |
| if (!debug_file->Write(debug_state->event_str.data(), |
| debug_state->event_str.length())) { |
| return kFileError; |
| } |
| } |
| |
| debug_state->event_msg->Clear(); |
| |
| return kNoError; |
| } |
| |
| int AudioProcessingImpl::WriteInitMessage() { |
| debug_dump_.capture.event_msg->set_type(audioproc::Event::INIT); |
| audioproc::Init* msg = debug_dump_.capture.event_msg->mutable_init(); |
| msg->set_sample_rate(formats_.api_format.input_stream().sample_rate_hz()); |
| |
| msg->set_num_input_channels(static_cast<google::protobuf::int32>( |
| formats_.api_format.input_stream().num_channels())); |
| msg->set_num_output_channels(static_cast<google::protobuf::int32>( |
| formats_.api_format.output_stream().num_channels())); |
| msg->set_num_reverse_channels(static_cast<google::protobuf::int32>( |
| formats_.api_format.reverse_input_stream().num_channels())); |
| msg->set_reverse_sample_rate( |
| formats_.api_format.reverse_input_stream().sample_rate_hz()); |
| msg->set_output_sample_rate( |
| formats_.api_format.output_stream().sample_rate_hz()); |
| msg->set_reverse_output_sample_rate( |
| formats_.api_format.reverse_output_stream().sample_rate_hz()); |
| msg->set_num_reverse_output_channels( |
| formats_.api_format.reverse_output_stream().num_channels()); |
| |
| RETURN_ON_ERR(WriteMessageToDebugFile(debug_dump_.debug_file.get(), |
| &debug_dump_.num_bytes_left_for_log_, |
| &crit_debug_, &debug_dump_.capture)); |
| return kNoError; |
| } |
| |
| int AudioProcessingImpl::WriteConfigMessage(bool forced) { |
| audioproc::Config config; |
| |
| config.set_aec_enabled(public_submodules_->echo_cancellation->is_enabled()); |
| config.set_aec_delay_agnostic_enabled( |
| public_submodules_->echo_cancellation->is_delay_agnostic_enabled()); |
| config.set_aec_drift_compensation_enabled( |
| public_submodules_->echo_cancellation->is_drift_compensation_enabled()); |
| config.set_aec_extended_filter_enabled( |
| public_submodules_->echo_cancellation->is_extended_filter_enabled()); |
| config.set_aec_suppression_level(static_cast<int>( |
| public_submodules_->echo_cancellation->suppression_level())); |
| |
| config.set_aecm_enabled( |
| public_submodules_->echo_control_mobile->is_enabled()); |
| config.set_aecm_comfort_noise_enabled( |
| public_submodules_->echo_control_mobile->is_comfort_noise_enabled()); |
| config.set_aecm_routing_mode(static_cast<int>( |
| public_submodules_->echo_control_mobile->routing_mode())); |
| |
| config.set_agc_enabled(public_submodules_->gain_control->is_enabled()); |
| config.set_agc_mode( |
| static_cast<int>(public_submodules_->gain_control->mode())); |
| config.set_agc_limiter_enabled( |
| public_submodules_->gain_control->is_limiter_enabled()); |
| config.set_noise_robust_agc_enabled(constants_.use_experimental_agc); |
| |
| config.set_hpf_enabled(public_submodules_->high_pass_filter->is_enabled()); |
| |
| config.set_ns_enabled(public_submodules_->noise_suppression->is_enabled()); |
| config.set_ns_level( |
| static_cast<int>(public_submodules_->noise_suppression->level())); |
| |
| config.set_transient_suppression_enabled( |
| capture_.transient_suppressor_enabled); |
| config.set_intelligibility_enhancer_enabled( |
| capture_nonlocked_.intelligibility_enabled); |
| |
| std::string experiments_description = |
| public_submodules_->echo_cancellation->GetExperimentsDescription(); |
| // TODO(peah): Add semicolon-separated concatenations of experiment |
| // descriptions for other submodules. |
| config.set_experiments_description(experiments_description); |
| |
| std::string serialized_config = config.SerializeAsString(); |
| if (!forced && |
| debug_dump_.capture.last_serialized_config == serialized_config) { |
| return kNoError; |
| } |
| |
| debug_dump_.capture.last_serialized_config = serialized_config; |
| |
| debug_dump_.capture.event_msg->set_type(audioproc::Event::CONFIG); |
| debug_dump_.capture.event_msg->mutable_config()->CopyFrom(config); |
| |
| RETURN_ON_ERR(WriteMessageToDebugFile(debug_dump_.debug_file.get(), |
| &debug_dump_.num_bytes_left_for_log_, |
| &crit_debug_, &debug_dump_.capture)); |
| return kNoError; |
| } |
| #endif // WEBRTC_AUDIOPROC_DEBUG_DUMP |
| |
| } // namespace webrtc |