/* * Copyright (c) 2011 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 "echo_control_mobile_impl.h" #include #include #include "critical_section_wrapper.h" #include "echo_control_mobile.h" #include "audio_processing_impl.h" #include "audio_buffer.h" namespace webrtc { typedef void Handle; namespace { WebRtc_Word16 MapSetting(EchoControlMobile::RoutingMode mode) { switch (mode) { case EchoControlMobile::kQuietEarpieceOrHeadset: return 0; case EchoControlMobile::kEarpiece: return 1; case EchoControlMobile::kLoudEarpiece: return 2; case EchoControlMobile::kSpeakerphone: return 3; case EchoControlMobile::kLoudSpeakerphone: return 4; default: return -1; } } int 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 size_t EchoControlMobile::echo_path_size_bytes() { return WebRtcAecm_echo_path_size_bytes(); } EchoControlMobileImpl::EchoControlMobileImpl(const AudioProcessingImpl* apm) : ProcessingComponent(apm), apm_(apm), routing_mode_(kSpeakerphone), comfort_noise_enabled_(true), external_echo_path_(NULL) {} EchoControlMobileImpl::~EchoControlMobileImpl() { if (external_echo_path_ != NULL) { delete [] external_echo_path_; external_echo_path_ = NULL; } } int EchoControlMobileImpl::ProcessRenderAudio(const AudioBuffer* audio) { if (!is_component_enabled()) { return apm_->kNoError; } assert(audio->samples_per_split_channel() <= 160); assert(audio->num_channels() == apm_->num_reverse_channels()); int err = apm_->kNoError; // The ordering convention must be followed to pass to the correct AECM. size_t handle_index = 0; for (int i = 0; i < apm_->num_output_channels(); i++) { for (int j = 0; j < audio->num_channels(); j++) { Handle* my_handle = static_cast(handle(handle_index)); err = WebRtcAecm_BufferFarend( my_handle, audio->low_pass_split_data(j), static_cast(audio->samples_per_split_channel())); if (err != apm_->kNoError) { return GetHandleError(my_handle); // TODO(ajm): warning possible? } handle_index++; } } return apm_->kNoError; } int EchoControlMobileImpl::ProcessCaptureAudio(AudioBuffer* audio) { if (!is_component_enabled()) { return apm_->kNoError; } if (!apm_->was_stream_delay_set()) { return apm_->kStreamParameterNotSetError; } assert(audio->samples_per_split_channel() <= 160); assert(audio->num_channels() == apm_->num_output_channels()); int err = apm_->kNoError; // The ordering convention must be followed to pass to the correct AECM. size_t handle_index = 0; for (int i = 0; i < audio->num_channels(); i++) { // TODO(ajm): improve how this works, possibly inside AECM. // This is kind of hacked up. WebRtc_Word16* noisy = audio->low_pass_reference(i); WebRtc_Word16* clean = audio->low_pass_split_data(i); if (noisy == NULL) { noisy = clean; clean = NULL; } for (int j = 0; j < apm_->num_reverse_channels(); j++) { Handle* my_handle = static_cast(handle(handle_index)); err = WebRtcAecm_Process( my_handle, noisy, clean, audio->low_pass_split_data(i), static_cast(audio->samples_per_split_channel()), apm_->stream_delay_ms()); if (err != apm_->kNoError) { return GetHandleError(my_handle); // TODO(ajm): warning possible? } handle_index++; } } return apm_->kNoError; } int EchoControlMobileImpl::Enable(bool enable) { CriticalSectionScoped crit_scoped(*apm_->crit()); // Ensure AEC and AECM are not both enabled. if (enable && apm_->echo_cancellation()->is_enabled()) { return apm_->kBadParameterError; } return EnableComponent(enable); } bool EchoControlMobileImpl::is_enabled() const { return is_component_enabled(); } int EchoControlMobileImpl::set_routing_mode(RoutingMode mode) { CriticalSectionScoped crit_scoped(*apm_->crit()); if (MapSetting(mode) == -1) { return apm_->kBadParameterError; } routing_mode_ = mode; return Configure(); } EchoControlMobile::RoutingMode EchoControlMobileImpl::routing_mode() const { return routing_mode_; } int EchoControlMobileImpl::enable_comfort_noise(bool enable) { CriticalSectionScoped crit_scoped(*apm_->crit()); comfort_noise_enabled_ = enable; return Configure(); } bool EchoControlMobileImpl::is_comfort_noise_enabled() const { return comfort_noise_enabled_; } int EchoControlMobileImpl::SetEchoPath(const void* echo_path, size_t size_bytes) { CriticalSectionScoped crit_scoped(*apm_->crit()); if (echo_path == NULL) { return apm_->kNullPointerError; } if (size_bytes != echo_path_size_bytes()) { // Size mismatch return apm_->kBadParameterError; } if (external_echo_path_ == NULL) { external_echo_path_ = new unsigned char[size_bytes]; } memcpy(external_echo_path_, echo_path, size_bytes); return Initialize(); } int EchoControlMobileImpl::GetEchoPath(void* echo_path, size_t size_bytes) const { CriticalSectionScoped crit_scoped(*apm_->crit()); if (echo_path == NULL) { return apm_->kNullPointerError; } if (size_bytes != echo_path_size_bytes()) { // Size mismatch return apm_->kBadParameterError; } if (!is_component_enabled()) { return apm_->kNotEnabledError; } // Get the echo path from the first channel Handle* my_handle = static_cast(handle(0)); if (WebRtcAecm_GetEchoPath(my_handle, echo_path, size_bytes) != 0) { return GetHandleError(my_handle); } return apm_->kNoError; } int EchoControlMobileImpl::Initialize() { if (!is_component_enabled()) { return apm_->kNoError; } if (apm_->sample_rate_hz() == apm_->kSampleRate32kHz) { // AECM doesn't support super-wideband. return apm_->kBadSampleRateError; } return ProcessingComponent::Initialize(); } int EchoControlMobileImpl::get_version(char* version, int version_len_bytes) const { if (WebRtcAecm_get_version(version, version_len_bytes) != 0) { return apm_->kBadParameterError; } return apm_->kNoError; } void* EchoControlMobileImpl::CreateHandle() const { Handle* handle = NULL; if (WebRtcAecm_Create(&handle) != apm_->kNoError) { handle = NULL; } else { assert(handle != NULL); } return handle; } int EchoControlMobileImpl::DestroyHandle(void* handle) const { return WebRtcAecm_Free(static_cast(handle)); } int EchoControlMobileImpl::InitializeHandle(void* handle) const { assert(handle != NULL); Handle* my_handle = static_cast(handle); if (WebRtcAecm_Init(my_handle, apm_->sample_rate_hz()) != 0) { return GetHandleError(my_handle); } if (external_echo_path_ != NULL) { if (WebRtcAecm_InitEchoPath(my_handle, external_echo_path_, echo_path_size_bytes()) != 0) { return GetHandleError(my_handle); } } return apm_->kNoError; } int EchoControlMobileImpl::ConfigureHandle(void* handle) const { AecmConfig config; config.cngMode = comfort_noise_enabled_; config.echoMode = MapSetting(routing_mode_); return WebRtcAecm_set_config(static_cast(handle), config); } int EchoControlMobileImpl::num_handles_required() const { return apm_->num_output_channels() * apm_->num_reverse_channels(); } int EchoControlMobileImpl::GetHandleError(void* handle) const { assert(handle != NULL); return MapError(WebRtcAecm_get_error_code(static_cast(handle))); } } // namespace webrtc