/* * 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_processing/echo_control_mobile_impl.h" #include #include #include "api/audio/audio_processing.h" #include "modules/audio_processing/aecm/echo_control_mobile.h" #include "modules/audio_processing/audio_buffer.h" #include "rtc_base/checks.h" namespace webrtc { namespace { int16_t MapSetting(EchoControlMobileImpl::RoutingMode mode) { switch (mode) { case EchoControlMobileImpl::kQuietEarpieceOrHeadset: return 0; case EchoControlMobileImpl::kEarpiece: return 1; case EchoControlMobileImpl::kLoudEarpiece: return 2; case EchoControlMobileImpl::kSpeakerphone: return 3; case EchoControlMobileImpl::kLoudSpeakerphone: return 4; } RTC_DCHECK_NOTREACHED(); return -1; } AudioProcessing::Error MapError(int err) { switch (err) { case AECM_UNSUPPORTED_FUNCTION_ERROR: return AudioProcessing::kUnsupportedFunctionError; case AECM_NULL_POINTER_ERROR: return AudioProcessing::kNullPointerError; case AECM_BAD_PARAMETER_ERROR: return AudioProcessing::kBadParameterError; case AECM_BAD_PARAMETER_WARNING: return AudioProcessing::kBadStreamParameterWarning; default: // AECM_UNSPECIFIED_ERROR // AECM_UNINITIALIZED_ERROR return AudioProcessing::kUnspecifiedError; } } } // namespace struct EchoControlMobileImpl::StreamProperties { StreamProperties() = delete; StreamProperties(int sample_rate_hz, size_t num_reverse_channels, size_t num_output_channels) : sample_rate_hz(sample_rate_hz), num_reverse_channels(num_reverse_channels), num_output_channels(num_output_channels) {} int sample_rate_hz; size_t num_reverse_channels; size_t num_output_channels; }; class EchoControlMobileImpl::Canceller { public: Canceller() { state_ = WebRtcAecm_Create(); RTC_CHECK(state_); } ~Canceller() { RTC_DCHECK(state_); WebRtcAecm_Free(state_); } Canceller(const Canceller&) = delete; Canceller& operator=(const Canceller&) = delete; void* state() { RTC_DCHECK(state_); return state_; } void Initialize(int sample_rate_hz) { RTC_DCHECK(state_); int error = WebRtcAecm_Init(state_, sample_rate_hz); RTC_DCHECK_EQ(AudioProcessing::kNoError, error); } private: void* state_; }; EchoControlMobileImpl::EchoControlMobileImpl() : routing_mode_(kSpeakerphone), comfort_noise_enabled_(false) {} EchoControlMobileImpl::~EchoControlMobileImpl() {} void EchoControlMobileImpl::ProcessRenderAudio( rtc::ArrayView packed_render_audio) { RTC_DCHECK(stream_properties_); size_t buffer_index = 0; size_t num_frames_per_band = packed_render_audio.size() / (stream_properties_->num_output_channels * stream_properties_->num_reverse_channels); for (auto& canceller : cancellers_) { WebRtcAecm_BufferFarend(canceller->state(), &packed_render_audio[buffer_index], num_frames_per_band); buffer_index += num_frames_per_band; } } void EchoControlMobileImpl::PackRenderAudioBuffer( const AudioBuffer* audio, size_t num_output_channels, size_t num_channels, std::vector* packed_buffer) { RTC_DCHECK_GE(AudioBuffer::kMaxSplitFrameLength, audio->num_frames_per_band()); RTC_DCHECK_EQ(num_channels, audio->num_channels()); // The ordering convention must be followed to pass to the correct AECM. packed_buffer->clear(); int render_channel = 0; for (size_t i = 0; i < num_output_channels; i++) { for (size_t j = 0; j < audio->num_channels(); j++) { std::array data_to_buffer; FloatS16ToS16(audio->split_bands_const(render_channel)[kBand0To8kHz], audio->num_frames_per_band(), data_to_buffer.data()); // Buffer the samples in the render queue. packed_buffer->insert( packed_buffer->end(), data_to_buffer.data(), data_to_buffer.data() + audio->num_frames_per_band()); render_channel = (render_channel + 1) % audio->num_channels(); } } } size_t EchoControlMobileImpl::NumCancellersRequired( size_t num_output_channels, size_t num_reverse_channels) { return num_output_channels * num_reverse_channels; } int EchoControlMobileImpl::ProcessCaptureAudio(AudioBuffer* audio, int stream_delay_ms) { RTC_DCHECK(stream_properties_); RTC_DCHECK_GE(160, audio->num_frames_per_band()); RTC_DCHECK_EQ(audio->num_channels(), stream_properties_->num_output_channels); RTC_DCHECK_GE(cancellers_.size(), stream_properties_->num_reverse_channels * audio->num_channels()); int err = AudioProcessing::kNoError; // The ordering convention must be followed to pass to the correct AECM. size_t handle_index = 0; for (size_t capture = 0; capture < audio->num_channels(); ++capture) { // TODO(ajm): improve how this works, possibly inside AECM. // This is kind of hacked up. RTC_DCHECK_LT(capture, low_pass_reference_.size()); const int16_t* noisy = reference_copied_ ? low_pass_reference_[capture].data() : nullptr; RTC_DCHECK_GE(AudioBuffer::kMaxSplitFrameLength, audio->num_frames_per_band()); std::array split_bands_data; int16_t* split_bands = split_bands_data.data(); const int16_t* clean = split_bands_data.data(); if (audio->split_bands(capture)[kBand0To8kHz]) { FloatS16ToS16(audio->split_bands(capture)[kBand0To8kHz], audio->num_frames_per_band(), split_bands_data.data()); } else { clean = nullptr; split_bands = nullptr; } if (noisy == NULL) { noisy = clean; clean = NULL; } for (size_t render = 0; render < stream_properties_->num_reverse_channels; ++render) { err = WebRtcAecm_Process(cancellers_[handle_index]->state(), noisy, clean, split_bands, audio->num_frames_per_band(), stream_delay_ms); if (split_bands) { S16ToFloatS16(split_bands, audio->num_frames_per_band(), audio->split_bands(capture)[kBand0To8kHz]); } if (err != AudioProcessing::kNoError) { return MapError(err); } ++handle_index; } for (size_t band = 1u; band < audio->num_bands(); ++band) { memset(audio->split_bands_f(capture)[band], 0, audio->num_frames_per_band() * sizeof(audio->split_bands_f(capture)[band][0])); } } return AudioProcessing::kNoError; } int EchoControlMobileImpl::set_routing_mode(RoutingMode mode) { if (MapSetting(mode) == -1) { return AudioProcessing::kBadParameterError; } routing_mode_ = mode; return Configure(); } EchoControlMobileImpl::RoutingMode EchoControlMobileImpl::routing_mode() const { return routing_mode_; } int EchoControlMobileImpl::enable_comfort_noise(bool enable) { comfort_noise_enabled_ = enable; return Configure(); } bool EchoControlMobileImpl::is_comfort_noise_enabled() const { return comfort_noise_enabled_; } void EchoControlMobileImpl::Initialize(int sample_rate_hz, size_t num_reverse_channels, size_t num_output_channels) { low_pass_reference_.resize(num_output_channels); for (auto& reference : low_pass_reference_) { reference.fill(0); } stream_properties_.reset(new StreamProperties( sample_rate_hz, num_reverse_channels, num_output_channels)); // AECM only supports 16 kHz or lower sample rates. RTC_DCHECK_LE(stream_properties_->sample_rate_hz, AudioProcessing::kSampleRate16kHz); cancellers_.resize( NumCancellersRequired(stream_properties_->num_output_channels, stream_properties_->num_reverse_channels)); for (auto& canceller : cancellers_) { if (!canceller) { canceller.reset(new Canceller()); } canceller->Initialize(sample_rate_hz); } Configure(); } int EchoControlMobileImpl::Configure() { AecmConfig config; config.cngMode = comfort_noise_enabled_; config.echoMode = MapSetting(routing_mode_); int error = AudioProcessing::kNoError; for (auto& canceller : cancellers_) { int handle_error = WebRtcAecm_set_config(canceller->state(), config); if (handle_error != AudioProcessing::kNoError) { error = handle_error; } } return error; } } // namespace webrtc