/* * Copyright (c) 2004 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 "media/engine/webrtc_voice_engine.h" #include #include #include #include #include #include "absl/algorithm/container.h" #include "absl/strings/match.h" #include "api/audio_codecs/audio_codec_pair_id.h" #include "api/call/audio_sink.h" #include "media/base/audio_source.h" #include "media/base/media_constants.h" #include "media/base/stream_params.h" #include "media/engine/adm_helpers.h" #include "media/engine/payload_type_mapper.h" #include "media/engine/webrtc_media_engine.h" #include "modules/audio_device/audio_device_impl.h" #include "modules/audio_mixer/audio_mixer_impl.h" #include "modules/audio_processing/aec_dump/aec_dump_factory.h" #include "modules/audio_processing/include/audio_processing.h" #include "rtc_base/arraysize.h" #include "rtc_base/byte_order.h" #include "rtc_base/constructor_magic.h" #include "rtc_base/experiments/field_trial_parser.h" #include "rtc_base/experiments/field_trial_units.h" #include "rtc_base/experiments/struct_parameters_parser.h" #include "rtc_base/helpers.h" #include "rtc_base/ignore_wundef.h" #include "rtc_base/logging.h" #include "rtc_base/race_checker.h" #include "rtc_base/strings/audio_format_to_string.h" #include "rtc_base/strings/string_builder.h" #include "rtc_base/strings/string_format.h" #include "rtc_base/third_party/base64/base64.h" #include "rtc_base/trace_event.h" #include "system_wrappers/include/field_trial.h" #include "system_wrappers/include/metrics.h" #if WEBRTC_ENABLE_PROTOBUF RTC_PUSH_IGNORING_WUNDEF() #ifdef WEBRTC_ANDROID_PLATFORM_BUILD #include "external/webrtc/webrtc/modules/audio_coding/audio_network_adaptor/config.pb.h" #else #include "modules/audio_coding/audio_network_adaptor/config.pb.h" #endif RTC_POP_IGNORING_WUNDEF() #endif namespace cricket { namespace { constexpr size_t kMaxUnsignaledRecvStreams = 4; constexpr int kNackRtpHistoryMs = 5000; const int kMinTelephoneEventCode = 0; // RFC4733 (Section 2.3.1) const int kMaxTelephoneEventCode = 255; const int kMinPayloadType = 0; const int kMaxPayloadType = 127; class ProxySink : public webrtc::AudioSinkInterface { public: explicit ProxySink(AudioSinkInterface* sink) : sink_(sink) { RTC_DCHECK(sink); } void OnData(const Data& audio) override { sink_->OnData(audio); } private: webrtc::AudioSinkInterface* sink_; }; bool ValidateStreamParams(const StreamParams& sp) { if (sp.ssrcs.empty()) { RTC_DLOG(LS_ERROR) << "No SSRCs in stream parameters: " << sp.ToString(); return false; } if (sp.ssrcs.size() > 1) { RTC_DLOG(LS_ERROR) << "Multiple SSRCs in stream parameters: " << sp.ToString(); return false; } return true; } // Dumps an AudioCodec in RFC 2327-ish format. std::string ToString(const AudioCodec& codec) { rtc::StringBuilder ss; ss << codec.name << "/" << codec.clockrate << "/" << codec.channels; if (!codec.params.empty()) { ss << " {"; for (const auto& param : codec.params) { ss << " " << param.first << "=" << param.second; } ss << " }"; } ss << " (" << codec.id << ")"; return ss.Release(); } // If this field trial is enabled, we will negotiate and use RFC 2198 // redundancy for opus audio. bool IsAudioRedForOpusFieldTrialEnabled() { return webrtc::field_trial::IsEnabled("WebRTC-Audio-Red-For-Opus"); } bool IsCodec(const AudioCodec& codec, const char* ref_name) { return absl::EqualsIgnoreCase(codec.name, ref_name); } bool FindCodec(const std::vector& codecs, const AudioCodec& codec, AudioCodec* found_codec) { for (const AudioCodec& c : codecs) { if (c.Matches(codec)) { if (found_codec != NULL) { *found_codec = c; } return true; } } return false; } bool VerifyUniquePayloadTypes(const std::vector& codecs) { if (codecs.empty()) { return true; } std::vector payload_types; absl::c_transform(codecs, std::back_inserter(payload_types), [](const AudioCodec& codec) { return codec.id; }); absl::c_sort(payload_types); return absl::c_adjacent_find(payload_types) == payload_types.end(); } absl::optional GetAudioNetworkAdaptorConfig( const AudioOptions& options) { if (options.audio_network_adaptor && *options.audio_network_adaptor && options.audio_network_adaptor_config) { // Turn on audio network adaptor only when |options_.audio_network_adaptor| // equals true and |options_.audio_network_adaptor_config| has a value. return options.audio_network_adaptor_config; } return absl::nullopt; } // Returns its smallest positive argument. If neither argument is positive, // returns an arbitrary nonpositive value. int MinPositive(int a, int b) { if (a <= 0) { return b; } if (b <= 0) { return a; } return std::min(a, b); } // |max_send_bitrate_bps| is the bitrate from "b=" in SDP. // |rtp_max_bitrate_bps| is the bitrate from RtpSender::SetParameters. absl::optional ComputeSendBitrate(int max_send_bitrate_bps, absl::optional rtp_max_bitrate_bps, const webrtc::AudioCodecSpec& spec) { // If application-configured bitrate is set, take minimum of that and SDP // bitrate. const int bps = rtp_max_bitrate_bps ? MinPositive(max_send_bitrate_bps, *rtp_max_bitrate_bps) : max_send_bitrate_bps; if (bps <= 0) { return spec.info.default_bitrate_bps; } if (bps < spec.info.min_bitrate_bps) { // If codec is not multi-rate and |bps| is less than the fixed bitrate then // fail. If codec is not multi-rate and |bps| exceeds or equal the fixed // bitrate then ignore. RTC_LOG(LS_ERROR) << "Failed to set codec " << spec.format.name << " to bitrate " << bps << " bps" ", requires at least " << spec.info.min_bitrate_bps << " bps."; return absl::nullopt; } if (spec.info.HasFixedBitrate()) { return spec.info.default_bitrate_bps; } else { // If codec is multi-rate then just set the bitrate. return std::min(bps, spec.info.max_bitrate_bps); } } struct AdaptivePtimeConfig { bool enabled = false; webrtc::DataRate min_payload_bitrate = webrtc::DataRate::KilobitsPerSec(16); webrtc::DataRate min_encoder_bitrate = webrtc::DataRate::KilobitsPerSec(12); bool use_slow_adaptation = true; absl::optional audio_network_adaptor_config; std::unique_ptr Parser() { return webrtc::StructParametersParser::Create( // "enabled", &enabled, // "min_payload_bitrate", &min_payload_bitrate, // "min_encoder_bitrate", &min_encoder_bitrate, // "use_slow_adaptation", &use_slow_adaptation); } AdaptivePtimeConfig() { Parser()->Parse( webrtc::field_trial::FindFullName("WebRTC-Audio-AdaptivePtime")); #if WEBRTC_ENABLE_PROTOBUF webrtc::audio_network_adaptor::config::ControllerManager config; auto* frame_length_controller = config.add_controllers()->mutable_frame_length_controller_v2(); frame_length_controller->set_min_payload_bitrate_bps( min_payload_bitrate.bps()); frame_length_controller->set_use_slow_adaptation(use_slow_adaptation); config.add_controllers()->mutable_bitrate_controller(); audio_network_adaptor_config = config.SerializeAsString(); #endif } }; } // namespace WebRtcVoiceEngine::WebRtcVoiceEngine( webrtc::TaskQueueFactory* task_queue_factory, webrtc::AudioDeviceModule* adm, const rtc::scoped_refptr& encoder_factory, const rtc::scoped_refptr& decoder_factory, rtc::scoped_refptr audio_mixer, rtc::scoped_refptr audio_processing) : task_queue_factory_(task_queue_factory), adm_(adm), encoder_factory_(encoder_factory), decoder_factory_(decoder_factory), audio_mixer_(audio_mixer), apm_(audio_processing) { // This may be called from any thread, so detach thread checkers. worker_thread_checker_.Detach(); signal_thread_checker_.Detach(); RTC_LOG(LS_INFO) << "WebRtcVoiceEngine::WebRtcVoiceEngine"; RTC_DCHECK(decoder_factory); RTC_DCHECK(encoder_factory); // The rest of our initialization will happen in Init. } WebRtcVoiceEngine::~WebRtcVoiceEngine() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "WebRtcVoiceEngine::~WebRtcVoiceEngine"; if (initialized_) { StopAecDump(); // Stop AudioDevice. adm()->StopPlayout(); adm()->StopRecording(); adm()->RegisterAudioCallback(nullptr); adm()->Terminate(); } } void WebRtcVoiceEngine::Init() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "WebRtcVoiceEngine::Init"; // TaskQueue expects to be created/destroyed on the same thread. low_priority_worker_queue_.reset( new rtc::TaskQueue(task_queue_factory_->CreateTaskQueue( "rtc-low-prio", webrtc::TaskQueueFactory::Priority::LOW))); // Load our audio codec lists. RTC_LOG(LS_VERBOSE) << "Supported send codecs in order of preference:"; send_codecs_ = CollectCodecs(encoder_factory_->GetSupportedEncoders()); for (const AudioCodec& codec : send_codecs_) { RTC_LOG(LS_VERBOSE) << ToString(codec); } RTC_LOG(LS_VERBOSE) << "Supported recv codecs in order of preference:"; recv_codecs_ = CollectCodecs(decoder_factory_->GetSupportedDecoders()); for (const AudioCodec& codec : recv_codecs_) { RTC_LOG(LS_VERBOSE) << ToString(codec); } #if defined(WEBRTC_INCLUDE_INTERNAL_AUDIO_DEVICE) // No ADM supplied? Create a default one. if (!adm_) { adm_ = webrtc::AudioDeviceModule::Create( webrtc::AudioDeviceModule::kPlatformDefaultAudio, task_queue_factory_); } #endif // WEBRTC_INCLUDE_INTERNAL_AUDIO_DEVICE RTC_CHECK(adm()); webrtc::adm_helpers::Init(adm()); // Set up AudioState. { webrtc::AudioState::Config config; if (audio_mixer_) { config.audio_mixer = audio_mixer_; } else { config.audio_mixer = webrtc::AudioMixerImpl::Create(); } config.audio_processing = apm_; config.audio_device_module = adm_; audio_state_ = webrtc::AudioState::Create(config); } // Connect the ADM to our audio path. adm()->RegisterAudioCallback(audio_state()->audio_transport()); // Set default engine options. { AudioOptions options; options.echo_cancellation = true; options.auto_gain_control = true; options.noise_suppression = true; options.highpass_filter = true; options.stereo_swapping = false; options.audio_jitter_buffer_max_packets = 200; options.audio_jitter_buffer_fast_accelerate = false; options.audio_jitter_buffer_min_delay_ms = 0; options.audio_jitter_buffer_enable_rtx_handling = false; options.typing_detection = true; options.experimental_agc = false; options.experimental_ns = false; options.residual_echo_detector = true; bool error = ApplyOptions(options); RTC_DCHECK(error); } initialized_ = true; } rtc::scoped_refptr WebRtcVoiceEngine::GetAudioState() const { RTC_DCHECK(worker_thread_checker_.IsCurrent()); return audio_state_; } VoiceMediaChannel* WebRtcVoiceEngine::CreateMediaChannel( webrtc::Call* call, const MediaConfig& config, const AudioOptions& options, const webrtc::CryptoOptions& crypto_options) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); return new WebRtcVoiceMediaChannel(this, config, options, crypto_options, call); } bool WebRtcVoiceEngine::ApplyOptions(const AudioOptions& options_in) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "WebRtcVoiceEngine::ApplyOptions: " << options_in.ToString(); AudioOptions options = options_in; // The options are modified below. // Set and adjust echo canceller options. // Use desktop AEC by default, when not using hardware AEC. bool use_mobile_software_aec = false; #if defined(WEBRTC_IOS) if (options.ios_force_software_aec_HACK && *options.ios_force_software_aec_HACK) { // EC may be forced on for a device known to have non-functioning platform // AEC. options.echo_cancellation = true; RTC_LOG(LS_WARNING) << "Force software AEC on iOS. May conflict with platform AEC."; } else { // On iOS, VPIO provides built-in EC. options.echo_cancellation = false; RTC_LOG(LS_INFO) << "Always disable AEC on iOS. Use built-in instead."; } #elif defined(WEBRTC_ANDROID) use_mobile_software_aec = true; #endif // Set and adjust noise suppressor options. #if defined(WEBRTC_IOS) // On iOS, VPIO provides built-in NS. options.noise_suppression = false; options.typing_detection = false; options.experimental_ns = false; RTC_LOG(LS_INFO) << "Always disable NS on iOS. Use built-in instead."; #elif defined(WEBRTC_ANDROID) options.typing_detection = false; options.experimental_ns = false; #endif // Set and adjust gain control options. #if defined(WEBRTC_IOS) // On iOS, VPIO provides built-in AGC. options.auto_gain_control = false; options.experimental_agc = false; RTC_LOG(LS_INFO) << "Always disable AGC on iOS. Use built-in instead."; #elif defined(WEBRTC_ANDROID) options.experimental_agc = false; #endif #if defined(WEBRTC_IOS) || defined(WEBRTC_ANDROID) // Turn off the gain control if specified by the field trial. // The purpose of the field trial is to reduce the amount of resampling // performed inside the audio processing module on mobile platforms by // whenever possible turning off the fixed AGC mode and the high-pass filter. // (https://bugs.chromium.org/p/webrtc/issues/detail?id=6181). if (webrtc::field_trial::IsEnabled( "WebRTC-Audio-MinimizeResamplingOnMobile")) { options.auto_gain_control = false; RTC_LOG(LS_INFO) << "Disable AGC according to field trial."; if (!(options.noise_suppression.value_or(false) || options.echo_cancellation.value_or(false))) { // If possible, turn off the high-pass filter. RTC_LOG(LS_INFO) << "Disable high-pass filter in response to field trial."; options.highpass_filter = false; } } #endif if (options.echo_cancellation) { // Check if platform supports built-in EC. Currently only supported on // Android and in combination with Java based audio layer. // TODO(henrika): investigate possibility to support built-in EC also // in combination with Open SL ES audio. const bool built_in_aec = adm()->BuiltInAECIsAvailable(); if (built_in_aec) { // Built-in EC exists on this device. Enable/Disable it according to the // echo_cancellation audio option. const bool enable_built_in_aec = *options.echo_cancellation; if (adm()->EnableBuiltInAEC(enable_built_in_aec) == 0 && enable_built_in_aec) { // Disable internal software EC if built-in EC is enabled, // i.e., replace the software EC with the built-in EC. options.echo_cancellation = false; RTC_LOG(LS_INFO) << "Disabling EC since built-in EC will be used instead"; } } } if (options.auto_gain_control) { bool built_in_agc_avaliable = adm()->BuiltInAGCIsAvailable(); if (built_in_agc_avaliable) { if (adm()->EnableBuiltInAGC(*options.auto_gain_control) == 0 && *options.auto_gain_control) { // Disable internal software AGC if built-in AGC is enabled, // i.e., replace the software AGC with the built-in AGC. options.auto_gain_control = false; RTC_LOG(LS_INFO) << "Disabling AGC since built-in AGC will be used instead"; } } } if (options.noise_suppression) { if (adm()->BuiltInNSIsAvailable()) { bool builtin_ns = *options.noise_suppression; if (adm()->EnableBuiltInNS(builtin_ns) == 0 && builtin_ns) { // Disable internal software NS if built-in NS is enabled, // i.e., replace the software NS with the built-in NS. options.noise_suppression = false; RTC_LOG(LS_INFO) << "Disabling NS since built-in NS will be used instead"; } } } if (options.stereo_swapping) { RTC_LOG(LS_INFO) << "Stereo swapping enabled? " << *options.stereo_swapping; audio_state()->SetStereoChannelSwapping(*options.stereo_swapping); } if (options.audio_jitter_buffer_max_packets) { RTC_LOG(LS_INFO) << "NetEq capacity is " << *options.audio_jitter_buffer_max_packets; audio_jitter_buffer_max_packets_ = std::max(20, *options.audio_jitter_buffer_max_packets); } if (options.audio_jitter_buffer_fast_accelerate) { RTC_LOG(LS_INFO) << "NetEq fast mode? " << *options.audio_jitter_buffer_fast_accelerate; audio_jitter_buffer_fast_accelerate_ = *options.audio_jitter_buffer_fast_accelerate; } if (options.audio_jitter_buffer_min_delay_ms) { RTC_LOG(LS_INFO) << "NetEq minimum delay is " << *options.audio_jitter_buffer_min_delay_ms; audio_jitter_buffer_min_delay_ms_ = *options.audio_jitter_buffer_min_delay_ms; } if (options.audio_jitter_buffer_enable_rtx_handling) { RTC_LOG(LS_INFO) << "NetEq handle reordered packets? " << *options.audio_jitter_buffer_enable_rtx_handling; audio_jitter_buffer_enable_rtx_handling_ = *options.audio_jitter_buffer_enable_rtx_handling; } webrtc::AudioProcessing* ap = apm(); if (!ap) { RTC_LOG(LS_INFO) << "No audio processing module present. No software-provided effects " "(AEC, NS, AGC, ...) are activated"; return true; } webrtc::Config config; if (options.experimental_ns) { experimental_ns_ = options.experimental_ns; } if (experimental_ns_) { RTC_LOG(LS_INFO) << "Experimental ns is enabled? " << *experimental_ns_; config.Set( new webrtc::ExperimentalNs(*experimental_ns_)); } webrtc::AudioProcessing::Config apm_config = ap->GetConfig(); if (options.echo_cancellation) { apm_config.echo_canceller.enabled = *options.echo_cancellation; apm_config.echo_canceller.mobile_mode = use_mobile_software_aec; } if (options.auto_gain_control) { const bool enabled = *options.auto_gain_control; apm_config.gain_controller1.enabled = enabled; #if defined(WEBRTC_IOS) || defined(WEBRTC_ANDROID) apm_config.gain_controller1.mode = apm_config.gain_controller1.kFixedDigital; #else apm_config.gain_controller1.mode = apm_config.gain_controller1.kAdaptiveAnalog; #endif constexpr int kMinVolumeLevel = 0; constexpr int kMaxVolumeLevel = 255; apm_config.gain_controller1.analog_level_minimum = kMinVolumeLevel; apm_config.gain_controller1.analog_level_maximum = kMaxVolumeLevel; } if (options.tx_agc_target_dbov) { apm_config.gain_controller1.target_level_dbfs = *options.tx_agc_target_dbov; } if (options.tx_agc_digital_compression_gain) { apm_config.gain_controller1.compression_gain_db = *options.tx_agc_digital_compression_gain; } if (options.tx_agc_limiter) { apm_config.gain_controller1.enable_limiter = *options.tx_agc_limiter; } if (options.highpass_filter) { apm_config.high_pass_filter.enabled = *options.highpass_filter; } if (options.residual_echo_detector) { apm_config.residual_echo_detector.enabled = *options.residual_echo_detector; } if (options.noise_suppression) { const bool enabled = *options.noise_suppression; apm_config.noise_suppression.enabled = enabled; apm_config.noise_suppression.level = webrtc::AudioProcessing::Config::NoiseSuppression::Level::kHigh; RTC_LOG(LS_INFO) << "NS set to " << enabled; } if (options.typing_detection) { RTC_LOG(LS_INFO) << "Typing detection is enabled? " << *options.typing_detection; apm_config.voice_detection.enabled = *options.typing_detection; } ap->SetExtraOptions(config); ap->ApplyConfig(apm_config); return true; } const std::vector& WebRtcVoiceEngine::send_codecs() const { RTC_DCHECK(signal_thread_checker_.IsCurrent()); return send_codecs_; } const std::vector& WebRtcVoiceEngine::recv_codecs() const { RTC_DCHECK(signal_thread_checker_.IsCurrent()); return recv_codecs_; } std::vector WebRtcVoiceEngine::GetRtpHeaderExtensions() const { RTC_DCHECK(signal_thread_checker_.IsCurrent()); std::vector result; int id = 1; for (const auto& uri : {webrtc::RtpExtension::kAudioLevelUri, webrtc::RtpExtension::kAbsSendTimeUri, webrtc::RtpExtension::kTransportSequenceNumberUri, webrtc::RtpExtension::kMidUri, webrtc::RtpExtension::kRidUri, webrtc::RtpExtension::kRepairedRidUri}) { result.emplace_back(uri, id++, webrtc::RtpTransceiverDirection::kSendRecv); } return result; } void WebRtcVoiceEngine::RegisterChannel(WebRtcVoiceMediaChannel* channel) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(channel); channels_.push_back(channel); } void WebRtcVoiceEngine::UnregisterChannel(WebRtcVoiceMediaChannel* channel) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); auto it = absl::c_find(channels_, channel); RTC_DCHECK(it != channels_.end()); channels_.erase(it); } bool WebRtcVoiceEngine::StartAecDump(webrtc::FileWrapper file, int64_t max_size_bytes) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); webrtc::AudioProcessing* ap = apm(); if (!ap) { RTC_LOG(LS_WARNING) << "Attempting to start aecdump when no audio processing module is " "present, hence no aecdump is started."; return false; } return ap->CreateAndAttachAecDump(file.Release(), max_size_bytes, low_priority_worker_queue_.get()); } void WebRtcVoiceEngine::StopAecDump() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); webrtc::AudioProcessing* ap = apm(); if (ap) { ap->DetachAecDump(); } else { RTC_LOG(LS_WARNING) << "Attempting to stop aecdump when no audio " "processing module is present"; } } webrtc::AudioDeviceModule* WebRtcVoiceEngine::adm() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(adm_); return adm_.get(); } webrtc::AudioProcessing* WebRtcVoiceEngine::apm() const { RTC_DCHECK(worker_thread_checker_.IsCurrent()); return apm_.get(); } webrtc::AudioState* WebRtcVoiceEngine::audio_state() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(audio_state_); return audio_state_.get(); } std::vector WebRtcVoiceEngine::CollectCodecs( const std::vector& specs) const { PayloadTypeMapper mapper; std::vector out; // Only generate CN payload types for these clockrates: std::map> generate_cn = { {8000, false}, {16000, false}, {32000, false}}; // Only generate telephone-event payload types for these clockrates: std::map> generate_dtmf = { {8000, false}, {16000, false}, {32000, false}, {48000, false}}; auto map_format = [&mapper](const webrtc::SdpAudioFormat& format, std::vector* out) { absl::optional opt_codec = mapper.ToAudioCodec(format); if (opt_codec) { if (out) { out->push_back(*opt_codec); } } else { RTC_LOG(LS_ERROR) << "Unable to assign payload type to format: " << rtc::ToString(format); } return opt_codec; }; for (const auto& spec : specs) { // We need to do some extra stuff before adding the main codecs to out. absl::optional opt_codec = map_format(spec.format, nullptr); if (opt_codec) { AudioCodec& codec = *opt_codec; if (spec.info.supports_network_adaption) { codec.AddFeedbackParam( FeedbackParam(kRtcpFbParamTransportCc, kParamValueEmpty)); } if (spec.info.allow_comfort_noise) { // Generate a CN entry if the decoder allows it and we support the // clockrate. auto cn = generate_cn.find(spec.format.clockrate_hz); if (cn != generate_cn.end()) { cn->second = true; } } // Generate a telephone-event entry if we support the clockrate. auto dtmf = generate_dtmf.find(spec.format.clockrate_hz); if (dtmf != generate_dtmf.end()) { dtmf->second = true; } out.push_back(codec); if (codec.name == kOpusCodecName && IsAudioRedForOpusFieldTrialEnabled()) { map_format({kRedCodecName, 48000, 2}, &out); } } } // Add CN codecs after "proper" audio codecs. for (const auto& cn : generate_cn) { if (cn.second) { map_format({kCnCodecName, cn.first, 1}, &out); } } // Add telephone-event codecs last. for (const auto& dtmf : generate_dtmf) { if (dtmf.second) { map_format({kDtmfCodecName, dtmf.first, 1}, &out); } } return out; } class WebRtcVoiceMediaChannel::WebRtcAudioSendStream : public AudioSource::Sink { public: WebRtcAudioSendStream( uint32_t ssrc, const std::string& mid, const std::string& c_name, const std::string track_id, const absl::optional& send_codec_spec, bool extmap_allow_mixed, const std::vector& extensions, int max_send_bitrate_bps, int rtcp_report_interval_ms, const absl::optional& audio_network_adaptor_config, webrtc::Call* call, webrtc::Transport* send_transport, const rtc::scoped_refptr& encoder_factory, const absl::optional codec_pair_id, rtc::scoped_refptr frame_encryptor, const webrtc::CryptoOptions& crypto_options) : call_(call), config_(send_transport), max_send_bitrate_bps_(max_send_bitrate_bps), rtp_parameters_(CreateRtpParametersWithOneEncoding()) { RTC_DCHECK(call); RTC_DCHECK(encoder_factory); config_.rtp.ssrc = ssrc; config_.rtp.mid = mid; config_.rtp.c_name = c_name; config_.rtp.extmap_allow_mixed = extmap_allow_mixed; config_.rtp.extensions = extensions; config_.has_dscp = rtp_parameters_.encodings[0].network_priority != webrtc::Priority::kLow; config_.encoder_factory = encoder_factory; config_.codec_pair_id = codec_pair_id; config_.track_id = track_id; config_.frame_encryptor = frame_encryptor; config_.crypto_options = crypto_options; config_.rtcp_report_interval_ms = rtcp_report_interval_ms; rtp_parameters_.encodings[0].ssrc = ssrc; rtp_parameters_.rtcp.cname = c_name; rtp_parameters_.header_extensions = extensions; audio_network_adaptor_config_from_options_ = audio_network_adaptor_config; UpdateAudioNetworkAdaptorConfig(); if (send_codec_spec) { UpdateSendCodecSpec(*send_codec_spec); } stream_ = call_->CreateAudioSendStream(config_); } ~WebRtcAudioSendStream() override { RTC_DCHECK(worker_thread_checker_.IsCurrent()); ClearSource(); call_->DestroyAudioSendStream(stream_); } void SetSendCodecSpec( const webrtc::AudioSendStream::Config::SendCodecSpec& send_codec_spec) { UpdateSendCodecSpec(send_codec_spec); ReconfigureAudioSendStream(); } void SetRtpExtensions(const std::vector& extensions) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); config_.rtp.extensions = extensions; rtp_parameters_.header_extensions = extensions; ReconfigureAudioSendStream(); } void SetExtmapAllowMixed(bool extmap_allow_mixed) { config_.rtp.extmap_allow_mixed = extmap_allow_mixed; ReconfigureAudioSendStream(); } void SetMid(const std::string& mid) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); if (config_.rtp.mid == mid) { return; } config_.rtp.mid = mid; ReconfigureAudioSendStream(); } void SetFrameEncryptor( rtc::scoped_refptr frame_encryptor) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); config_.frame_encryptor = frame_encryptor; ReconfigureAudioSendStream(); } void SetAudioNetworkAdaptorConfig( const absl::optional& audio_network_adaptor_config) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); if (audio_network_adaptor_config_from_options_ == audio_network_adaptor_config) { return; } audio_network_adaptor_config_from_options_ = audio_network_adaptor_config; UpdateAudioNetworkAdaptorConfig(); UpdateAllowedBitrateRange(); ReconfigureAudioSendStream(); } bool SetMaxSendBitrate(int bps) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(config_.send_codec_spec); RTC_DCHECK(audio_codec_spec_); auto send_rate = ComputeSendBitrate( bps, rtp_parameters_.encodings[0].max_bitrate_bps, *audio_codec_spec_); if (!send_rate) { return false; } max_send_bitrate_bps_ = bps; if (send_rate != config_.send_codec_spec->target_bitrate_bps) { config_.send_codec_spec->target_bitrate_bps = send_rate; ReconfigureAudioSendStream(); } return true; } bool SendTelephoneEvent(int payload_type, int payload_freq, int event, int duration_ms) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(stream_); return stream_->SendTelephoneEvent(payload_type, payload_freq, event, duration_ms); } void SetSend(bool send) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); send_ = send; UpdateSendState(); } void SetMuted(bool muted) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(stream_); stream_->SetMuted(muted); muted_ = muted; } bool muted() const { RTC_DCHECK(worker_thread_checker_.IsCurrent()); return muted_; } webrtc::AudioSendStream::Stats GetStats(bool has_remote_tracks) const { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(stream_); return stream_->GetStats(has_remote_tracks); } // Starts the sending by setting ourselves as a sink to the AudioSource to // get data callbacks. // This method is called on the libjingle worker thread. // TODO(xians): Make sure Start() is called only once. void SetSource(AudioSource* source) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(source); if (source_) { RTC_DCHECK(source_ == source); return; } source->SetSink(this); source_ = source; UpdateSendState(); } // Stops sending by setting the sink of the AudioSource to nullptr. No data // callback will be received after this method. // This method is called on the libjingle worker thread. void ClearSource() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); if (source_) { source_->SetSink(nullptr); source_ = nullptr; } UpdateSendState(); } // AudioSource::Sink implementation. // This method is called on the audio thread. void OnData(const void* audio_data, int bits_per_sample, int sample_rate, size_t number_of_channels, size_t number_of_frames, absl::optional absolute_capture_timestamp_ms) override { RTC_DCHECK_EQ(16, bits_per_sample); RTC_CHECK_RUNS_SERIALIZED(&audio_capture_race_checker_); RTC_DCHECK(stream_); std::unique_ptr audio_frame(new webrtc::AudioFrame()); audio_frame->UpdateFrame( audio_frame->timestamp_, static_cast(audio_data), number_of_frames, sample_rate, audio_frame->speech_type_, audio_frame->vad_activity_, number_of_channels); // TODO(bugs.webrtc.org/10739): add dcheck that // |absolute_capture_timestamp_ms| always receives a value. if (absolute_capture_timestamp_ms) { audio_frame->set_absolute_capture_timestamp_ms( *absolute_capture_timestamp_ms); } stream_->SendAudioData(std::move(audio_frame)); } // Callback from the |source_| when it is going away. In case Start() has // never been called, this callback won't be triggered. void OnClose() override { RTC_DCHECK(worker_thread_checker_.IsCurrent()); // Set |source_| to nullptr to make sure no more callback will get into // the source. source_ = nullptr; UpdateSendState(); } const webrtc::RtpParameters& rtp_parameters() const { return rtp_parameters_; } webrtc::RTCError SetRtpParameters(const webrtc::RtpParameters& parameters) { webrtc::RTCError error = CheckRtpParametersInvalidModificationAndValues( rtp_parameters_, parameters); if (!error.ok()) { return error; } absl::optional send_rate; if (audio_codec_spec_) { send_rate = ComputeSendBitrate(max_send_bitrate_bps_, parameters.encodings[0].max_bitrate_bps, *audio_codec_spec_); if (!send_rate) { return webrtc::RTCError(webrtc::RTCErrorType::INTERNAL_ERROR); } } const absl::optional old_rtp_max_bitrate = rtp_parameters_.encodings[0].max_bitrate_bps; double old_priority = rtp_parameters_.encodings[0].bitrate_priority; webrtc::Priority old_dscp = rtp_parameters_.encodings[0].network_priority; bool old_adaptive_ptime = rtp_parameters_.encodings[0].adaptive_ptime; rtp_parameters_ = parameters; config_.bitrate_priority = rtp_parameters_.encodings[0].bitrate_priority; config_.has_dscp = (rtp_parameters_.encodings[0].network_priority != webrtc::Priority::kLow); bool reconfigure_send_stream = (rtp_parameters_.encodings[0].max_bitrate_bps != old_rtp_max_bitrate) || (rtp_parameters_.encodings[0].bitrate_priority != old_priority) || (rtp_parameters_.encodings[0].network_priority != old_dscp) || (rtp_parameters_.encodings[0].adaptive_ptime != old_adaptive_ptime); if (rtp_parameters_.encodings[0].max_bitrate_bps != old_rtp_max_bitrate) { // Update the bitrate range. if (send_rate) { config_.send_codec_spec->target_bitrate_bps = send_rate; } } if (reconfigure_send_stream) { // Changing adaptive_ptime may update the audio network adaptor config // used. UpdateAudioNetworkAdaptorConfig(); UpdateAllowedBitrateRange(); ReconfigureAudioSendStream(); } rtp_parameters_.rtcp.cname = config_.rtp.c_name; rtp_parameters_.rtcp.reduced_size = false; // parameters.encodings[0].active could have changed. UpdateSendState(); return webrtc::RTCError::OK(); } void SetEncoderToPacketizerFrameTransformer( rtc::scoped_refptr frame_transformer) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); config_.frame_transformer = std::move(frame_transformer); ReconfigureAudioSendStream(); } private: void UpdateSendState() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(stream_); RTC_DCHECK_EQ(1UL, rtp_parameters_.encodings.size()); if (send_ && source_ != nullptr && rtp_parameters_.encodings[0].active) { stream_->Start(); } else { // !send || source_ = nullptr stream_->Stop(); } } void UpdateAllowedBitrateRange() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); // The order of precedence, from lowest to highest is: // - a reasonable default of 32kbps min/max // - fixed target bitrate from codec spec // - lower min bitrate if adaptive ptime is enabled // - bitrate configured in the rtp_parameter encodings settings const int kDefaultBitrateBps = 32000; config_.min_bitrate_bps = kDefaultBitrateBps; config_.max_bitrate_bps = kDefaultBitrateBps; if (config_.send_codec_spec && config_.send_codec_spec->target_bitrate_bps) { config_.min_bitrate_bps = *config_.send_codec_spec->target_bitrate_bps; config_.max_bitrate_bps = *config_.send_codec_spec->target_bitrate_bps; } if (rtp_parameters_.encodings[0].adaptive_ptime) { config_.min_bitrate_bps = std::min( config_.min_bitrate_bps, static_cast(adaptive_ptime_config_.min_encoder_bitrate.bps())); } if (rtp_parameters_.encodings[0].min_bitrate_bps) { config_.min_bitrate_bps = *rtp_parameters_.encodings[0].min_bitrate_bps; } if (rtp_parameters_.encodings[0].max_bitrate_bps) { config_.max_bitrate_bps = *rtp_parameters_.encodings[0].max_bitrate_bps; } } void UpdateSendCodecSpec( const webrtc::AudioSendStream::Config::SendCodecSpec& send_codec_spec) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); config_.send_codec_spec = send_codec_spec; auto info = config_.encoder_factory->QueryAudioEncoder(send_codec_spec.format); RTC_DCHECK(info); // If a specific target bitrate has been set for the stream, use that as // the new default bitrate when computing send bitrate. if (send_codec_spec.target_bitrate_bps) { info->default_bitrate_bps = std::max( info->min_bitrate_bps, std::min(info->max_bitrate_bps, *send_codec_spec.target_bitrate_bps)); } audio_codec_spec_.emplace( webrtc::AudioCodecSpec{send_codec_spec.format, *info}); config_.send_codec_spec->target_bitrate_bps = ComputeSendBitrate( max_send_bitrate_bps_, rtp_parameters_.encodings[0].max_bitrate_bps, *audio_codec_spec_); UpdateAllowedBitrateRange(); } void UpdateAudioNetworkAdaptorConfig() { if (adaptive_ptime_config_.enabled || rtp_parameters_.encodings[0].adaptive_ptime) { config_.audio_network_adaptor_config = adaptive_ptime_config_.audio_network_adaptor_config; return; } config_.audio_network_adaptor_config = audio_network_adaptor_config_from_options_; } void ReconfigureAudioSendStream() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(stream_); stream_->Reconfigure(config_); } const AdaptivePtimeConfig adaptive_ptime_config_; rtc::ThreadChecker worker_thread_checker_; rtc::RaceChecker audio_capture_race_checker_; webrtc::Call* call_ = nullptr; webrtc::AudioSendStream::Config config_; // The stream is owned by WebRtcAudioSendStream and may be reallocated if // configuration changes. webrtc::AudioSendStream* stream_ = nullptr; // Raw pointer to AudioSource owned by LocalAudioTrackHandler. // PeerConnection will make sure invalidating the pointer before the object // goes away. AudioSource* source_ = nullptr; bool send_ = false; bool muted_ = false; int max_send_bitrate_bps_; webrtc::RtpParameters rtp_parameters_; absl::optional audio_codec_spec_; // TODO(webrtc:11717): Remove this once audio_network_adaptor in AudioOptions // has been removed. absl::optional audio_network_adaptor_config_from_options_; RTC_DISALLOW_IMPLICIT_CONSTRUCTORS(WebRtcAudioSendStream); }; class WebRtcVoiceMediaChannel::WebRtcAudioReceiveStream { public: WebRtcAudioReceiveStream( uint32_t remote_ssrc, uint32_t local_ssrc, bool use_transport_cc, bool use_nack, const std::vector& stream_ids, const std::vector& extensions, webrtc::Call* call, webrtc::Transport* rtcp_send_transport, const rtc::scoped_refptr& decoder_factory, const std::map& decoder_map, absl::optional codec_pair_id, size_t jitter_buffer_max_packets, bool jitter_buffer_fast_accelerate, int jitter_buffer_min_delay_ms, bool jitter_buffer_enable_rtx_handling, rtc::scoped_refptr frame_decryptor, const webrtc::CryptoOptions& crypto_options, rtc::scoped_refptr frame_transformer) : call_(call), config_() { RTC_DCHECK(call); config_.rtp.remote_ssrc = remote_ssrc; config_.rtp.local_ssrc = local_ssrc; config_.rtp.transport_cc = use_transport_cc; config_.rtp.nack.rtp_history_ms = use_nack ? kNackRtpHistoryMs : 0; config_.rtp.extensions = extensions; config_.rtcp_send_transport = rtcp_send_transport; config_.jitter_buffer_max_packets = jitter_buffer_max_packets; config_.jitter_buffer_fast_accelerate = jitter_buffer_fast_accelerate; config_.jitter_buffer_min_delay_ms = jitter_buffer_min_delay_ms; config_.jitter_buffer_enable_rtx_handling = jitter_buffer_enable_rtx_handling; if (!stream_ids.empty()) { config_.sync_group = stream_ids[0]; } config_.decoder_factory = decoder_factory; config_.decoder_map = decoder_map; config_.codec_pair_id = codec_pair_id; config_.frame_decryptor = frame_decryptor; config_.crypto_options = crypto_options; config_.frame_transformer = std::move(frame_transformer); RecreateAudioReceiveStream(); } ~WebRtcAudioReceiveStream() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); call_->DestroyAudioReceiveStream(stream_); } void SetFrameDecryptor( rtc::scoped_refptr frame_decryptor) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); config_.frame_decryptor = frame_decryptor; RecreateAudioReceiveStream(); } void SetLocalSsrc(uint32_t local_ssrc) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); if (local_ssrc != config_.rtp.local_ssrc) { config_.rtp.local_ssrc = local_ssrc; RecreateAudioReceiveStream(); } } void SetUseTransportCcAndRecreateStream(bool use_transport_cc, bool use_nack) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); config_.rtp.transport_cc = use_transport_cc; config_.rtp.nack.rtp_history_ms = use_nack ? kNackRtpHistoryMs : 0; ReconfigureAudioReceiveStream(); } void SetRtpExtensionsAndRecreateStream( const std::vector& extensions) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); config_.rtp.extensions = extensions; RecreateAudioReceiveStream(); } // Set a new payload type -> decoder map. void SetDecoderMap(const std::map& decoder_map) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); config_.decoder_map = decoder_map; ReconfigureAudioReceiveStream(); } void MaybeRecreateAudioReceiveStream( const std::vector& stream_ids) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); std::string sync_group; if (!stream_ids.empty()) { sync_group = stream_ids[0]; } if (config_.sync_group != sync_group) { RTC_LOG(LS_INFO) << "Recreating AudioReceiveStream for SSRC=" << config_.rtp.remote_ssrc << " because of sync group change."; config_.sync_group = sync_group; RecreateAudioReceiveStream(); } } webrtc::AudioReceiveStream::Stats GetStats() const { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(stream_); return stream_->GetStats(); } void SetRawAudioSink(std::unique_ptr sink) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); // Need to update the stream's sink first; once raw_audio_sink_ is // reassigned, whatever was in there before is destroyed. stream_->SetSink(sink.get()); raw_audio_sink_ = std::move(sink); } void SetOutputVolume(double volume) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); output_volume_ = volume; stream_->SetGain(volume); } void SetPlayout(bool playout) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(stream_); if (playout) { stream_->Start(); } else { stream_->Stop(); } playout_ = playout; } bool SetBaseMinimumPlayoutDelayMs(int delay_ms) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(stream_); if (stream_->SetBaseMinimumPlayoutDelayMs(delay_ms)) { // Memorize only valid delay because during stream recreation it will be // passed to the constructor and it must be valid value. config_.jitter_buffer_min_delay_ms = delay_ms; return true; } else { RTC_LOG(LS_ERROR) << "Failed to SetBaseMinimumPlayoutDelayMs" " on AudioReceiveStream on SSRC=" << config_.rtp.remote_ssrc << " with delay_ms=" << delay_ms; return false; } } int GetBaseMinimumPlayoutDelayMs() const { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(stream_); return stream_->GetBaseMinimumPlayoutDelayMs(); } std::vector GetSources() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(stream_); return stream_->GetSources(); } webrtc::RtpParameters GetRtpParameters() const { webrtc::RtpParameters rtp_parameters; rtp_parameters.encodings.emplace_back(); rtp_parameters.encodings[0].ssrc = config_.rtp.remote_ssrc; rtp_parameters.header_extensions = config_.rtp.extensions; return rtp_parameters; } void SetDepacketizerToDecoderFrameTransformer( rtc::scoped_refptr frame_transformer) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); config_.frame_transformer = std::move(frame_transformer); ReconfigureAudioReceiveStream(); } private: void RecreateAudioReceiveStream() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); if (stream_) { call_->DestroyAudioReceiveStream(stream_); } stream_ = call_->CreateAudioReceiveStream(config_); RTC_CHECK(stream_); stream_->SetGain(output_volume_); SetPlayout(playout_); stream_->SetSink(raw_audio_sink_.get()); } void ReconfigureAudioReceiveStream() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(stream_); stream_->Reconfigure(config_); } rtc::ThreadChecker worker_thread_checker_; webrtc::Call* call_ = nullptr; webrtc::AudioReceiveStream::Config config_; // The stream is owned by WebRtcAudioReceiveStream and may be reallocated if // configuration changes. webrtc::AudioReceiveStream* stream_ = nullptr; bool playout_ = false; float output_volume_ = 1.0; std::unique_ptr raw_audio_sink_; RTC_DISALLOW_IMPLICIT_CONSTRUCTORS(WebRtcAudioReceiveStream); }; WebRtcVoiceMediaChannel::WebRtcVoiceMediaChannel( WebRtcVoiceEngine* engine, const MediaConfig& config, const AudioOptions& options, const webrtc::CryptoOptions& crypto_options, webrtc::Call* call) : VoiceMediaChannel(config), engine_(engine), call_(call), audio_config_(config.audio), crypto_options_(crypto_options) { RTC_LOG(LS_VERBOSE) << "WebRtcVoiceMediaChannel::WebRtcVoiceMediaChannel"; RTC_DCHECK(call); engine->RegisterChannel(this); SetOptions(options); } WebRtcVoiceMediaChannel::~WebRtcVoiceMediaChannel() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_VERBOSE) << "WebRtcVoiceMediaChannel::~WebRtcVoiceMediaChannel"; // TODO(solenberg): Should be able to delete the streams directly, without // going through RemoveNnStream(), once stream objects handle // all (de)configuration. while (!send_streams_.empty()) { RemoveSendStream(send_streams_.begin()->first); } while (!recv_streams_.empty()) { RemoveRecvStream(recv_streams_.begin()->first); } engine()->UnregisterChannel(this); } bool WebRtcVoiceMediaChannel::SetSendParameters( const AudioSendParameters& params) { TRACE_EVENT0("webrtc", "WebRtcVoiceMediaChannel::SetSendParameters"); RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "WebRtcVoiceMediaChannel::SetSendParameters: " << params.ToString(); // TODO(pthatcher): Refactor this to be more clean now that we have // all the information at once. if (!SetSendCodecs(params.codecs)) { return false; } if (!ValidateRtpExtensions(params.extensions)) { return false; } if (ExtmapAllowMixed() != params.extmap_allow_mixed) { SetExtmapAllowMixed(params.extmap_allow_mixed); for (auto& it : send_streams_) { it.second->SetExtmapAllowMixed(params.extmap_allow_mixed); } } std::vector filtered_extensions = FilterRtpExtensions( params.extensions, webrtc::RtpExtension::IsSupportedForAudio, true); if (send_rtp_extensions_ != filtered_extensions) { send_rtp_extensions_.swap(filtered_extensions); for (auto& it : send_streams_) { it.second->SetRtpExtensions(send_rtp_extensions_); } } if (!params.mid.empty()) { mid_ = params.mid; for (auto& it : send_streams_) { it.second->SetMid(params.mid); } } if (!SetMaxSendBitrate(params.max_bandwidth_bps)) { return false; } return SetOptions(params.options); } bool WebRtcVoiceMediaChannel::SetRecvParameters( const AudioRecvParameters& params) { TRACE_EVENT0("webrtc", "WebRtcVoiceMediaChannel::SetRecvParameters"); RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "WebRtcVoiceMediaChannel::SetRecvParameters: " << params.ToString(); // TODO(pthatcher): Refactor this to be more clean now that we have // all the information at once. if (!SetRecvCodecs(params.codecs)) { return false; } if (!ValidateRtpExtensions(params.extensions)) { return false; } std::vector filtered_extensions = FilterRtpExtensions( params.extensions, webrtc::RtpExtension::IsSupportedForAudio, false); if (recv_rtp_extensions_ != filtered_extensions) { recv_rtp_extensions_.swap(filtered_extensions); for (auto& it : recv_streams_) { it.second->SetRtpExtensionsAndRecreateStream(recv_rtp_extensions_); } } return true; } webrtc::RtpParameters WebRtcVoiceMediaChannel::GetRtpSendParameters( uint32_t ssrc) const { RTC_DCHECK(worker_thread_checker_.IsCurrent()); auto it = send_streams_.find(ssrc); if (it == send_streams_.end()) { RTC_LOG(LS_WARNING) << "Attempting to get RTP send parameters for stream " "with ssrc " << ssrc << " which doesn't exist."; return webrtc::RtpParameters(); } webrtc::RtpParameters rtp_params = it->second->rtp_parameters(); // Need to add the common list of codecs to the send stream-specific // RTP parameters. for (const AudioCodec& codec : send_codecs_) { rtp_params.codecs.push_back(codec.ToCodecParameters()); } return rtp_params; } webrtc::RTCError WebRtcVoiceMediaChannel::SetRtpSendParameters( uint32_t ssrc, const webrtc::RtpParameters& parameters) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); auto it = send_streams_.find(ssrc); if (it == send_streams_.end()) { RTC_LOG(LS_WARNING) << "Attempting to set RTP send parameters for stream " "with ssrc " << ssrc << " which doesn't exist."; return webrtc::RTCError(webrtc::RTCErrorType::INTERNAL_ERROR); } // TODO(deadbeef): Handle setting parameters with a list of codecs in a // different order (which should change the send codec). webrtc::RtpParameters current_parameters = GetRtpSendParameters(ssrc); if (current_parameters.codecs != parameters.codecs) { RTC_DLOG(LS_ERROR) << "Using SetParameters to change the set of codecs " "is not currently supported."; return webrtc::RTCError(webrtc::RTCErrorType::UNSUPPORTED_PARAMETER); } if (!parameters.encodings.empty()) { // Note that these values come from: // https://tools.ietf.org/html/draft-ietf-tsvwg-rtcweb-qos-16#section-5 rtc::DiffServCodePoint new_dscp = rtc::DSCP_DEFAULT; switch (parameters.encodings[0].network_priority) { case webrtc::Priority::kVeryLow: new_dscp = rtc::DSCP_CS1; break; case webrtc::Priority::kLow: new_dscp = rtc::DSCP_DEFAULT; break; case webrtc::Priority::kMedium: new_dscp = rtc::DSCP_EF; break; case webrtc::Priority::kHigh: new_dscp = rtc::DSCP_EF; break; } SetPreferredDscp(new_dscp); } // TODO(minyue): The following legacy actions go into // |WebRtcAudioSendStream::SetRtpParameters()| which is called at the end, // though there are two difference: // 1. |WebRtcVoiceMediaChannel::SetChannelSendParameters()| only calls // |SetSendCodec| while |WebRtcAudioSendStream::SetRtpParameters()| calls // |SetSendCodecs|. The outcome should be the same. // 2. AudioSendStream can be recreated. // Codecs are handled at the WebRtcVoiceMediaChannel level. webrtc::RtpParameters reduced_params = parameters; reduced_params.codecs.clear(); return it->second->SetRtpParameters(reduced_params); } webrtc::RtpParameters WebRtcVoiceMediaChannel::GetRtpReceiveParameters( uint32_t ssrc) const { RTC_DCHECK(worker_thread_checker_.IsCurrent()); webrtc::RtpParameters rtp_params; auto it = recv_streams_.find(ssrc); if (it == recv_streams_.end()) { RTC_LOG(LS_WARNING) << "Attempting to get RTP receive parameters for stream " "with ssrc " << ssrc << " which doesn't exist."; return webrtc::RtpParameters(); } rtp_params = it->second->GetRtpParameters(); for (const AudioCodec& codec : recv_codecs_) { rtp_params.codecs.push_back(codec.ToCodecParameters()); } return rtp_params; } webrtc::RtpParameters WebRtcVoiceMediaChannel::GetDefaultRtpReceiveParameters() const { RTC_DCHECK(worker_thread_checker_.IsCurrent()); webrtc::RtpParameters rtp_params; if (!default_sink_) { RTC_LOG(LS_WARNING) << "Attempting to get RTP parameters for the default, " "unsignaled audio receive stream, but not yet " "configured to receive such a stream."; return rtp_params; } rtp_params.encodings.emplace_back(); for (const AudioCodec& codec : recv_codecs_) { rtp_params.codecs.push_back(codec.ToCodecParameters()); } return rtp_params; } bool WebRtcVoiceMediaChannel::SetOptions(const AudioOptions& options) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "Setting voice channel options: " << options.ToString(); // We retain all of the existing options, and apply the given ones // on top. This means there is no way to "clear" options such that // they go back to the engine default. options_.SetAll(options); if (!engine()->ApplyOptions(options_)) { RTC_LOG(LS_WARNING) << "Failed to apply engine options during channel SetOptions."; return false; } absl::optional audio_network_adaptor_config = GetAudioNetworkAdaptorConfig(options_); for (auto& it : send_streams_) { it.second->SetAudioNetworkAdaptorConfig(audio_network_adaptor_config); } RTC_LOG(LS_INFO) << "Set voice channel options. Current options: " << options_.ToString(); return true; } bool WebRtcVoiceMediaChannel::SetRecvCodecs( const std::vector& codecs) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); // Set the payload types to be used for incoming media. RTC_LOG(LS_INFO) << "Setting receive voice codecs."; if (!VerifyUniquePayloadTypes(codecs)) { RTC_LOG(LS_ERROR) << "Codec payload types overlap."; return false; } // Create a payload type -> SdpAudioFormat map with all the decoders. Fail // unless the factory claims to support all decoders. std::map decoder_map; for (const AudioCodec& codec : codecs) { // Log a warning if a codec's payload type is changing. This used to be // treated as an error. It's abnormal, but not really illegal. AudioCodec old_codec; if (FindCodec(recv_codecs_, codec, &old_codec) && old_codec.id != codec.id) { RTC_LOG(LS_WARNING) << codec.name << " mapped to a second payload type (" << codec.id << ", was already mapped to " << old_codec.id << ")"; } auto format = AudioCodecToSdpAudioFormat(codec); if (!IsCodec(codec, kCnCodecName) && !IsCodec(codec, kDtmfCodecName) && (!IsAudioRedForOpusFieldTrialEnabled() || !IsCodec(codec, kRedCodecName)) && !engine()->decoder_factory_->IsSupportedDecoder(format)) { RTC_LOG(LS_ERROR) << "Unsupported codec: " << rtc::ToString(format); return false; } // We allow adding new codecs but don't allow changing the payload type of // codecs that are already configured since we might already be receiving // packets with that payload type. See RFC3264, Section 8.3.2. // TODO(deadbeef): Also need to check for clashes with previously mapped // payload types, and not just currently mapped ones. For example, this // should be illegal: // 1. {100: opus/48000/2, 101: ISAC/16000} // 2. {100: opus/48000/2} // 3. {100: opus/48000/2, 101: ISAC/32000} // Though this check really should happen at a higher level, since this // conflict could happen between audio and video codecs. auto existing = decoder_map_.find(codec.id); if (existing != decoder_map_.end() && !existing->second.Matches(format)) { RTC_LOG(LS_ERROR) << "Attempting to use payload type " << codec.id << " for " << codec.name << ", but it is already used for " << existing->second.name; return false; } decoder_map.insert({codec.id, std::move(format)}); } if (decoder_map == decoder_map_) { // There's nothing new to configure. return true; } if (playout_) { // Receive codecs can not be changed while playing. So we temporarily // pause playout. ChangePlayout(false); } decoder_map_ = std::move(decoder_map); for (auto& kv : recv_streams_) { kv.second->SetDecoderMap(decoder_map_); } recv_codecs_ = codecs; if (desired_playout_ && !playout_) { ChangePlayout(desired_playout_); } return true; } // Utility function called from SetSendParameters() to extract current send // codec settings from the given list of codecs (originally from SDP). Both send // and receive streams may be reconfigured based on the new settings. bool WebRtcVoiceMediaChannel::SetSendCodecs( const std::vector& codecs) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); dtmf_payload_type_ = absl::nullopt; dtmf_payload_freq_ = -1; // Validate supplied codecs list. for (const AudioCodec& codec : codecs) { // TODO(solenberg): Validate more aspects of input - that payload types // don't overlap, remove redundant/unsupported codecs etc - // the same way it is done for RtpHeaderExtensions. if (codec.id < kMinPayloadType || codec.id > kMaxPayloadType) { RTC_LOG(LS_WARNING) << "Codec payload type out of range: " << ToString(codec); return false; } } // Find PT of telephone-event codec with lowest clockrate, as a fallback, in // case we don't have a DTMF codec with a rate matching the send codec's, or // if this function returns early. std::vector dtmf_codecs; for (const AudioCodec& codec : codecs) { if (IsCodec(codec, kDtmfCodecName)) { dtmf_codecs.push_back(codec); if (!dtmf_payload_type_ || codec.clockrate < dtmf_payload_freq_) { dtmf_payload_type_ = codec.id; dtmf_payload_freq_ = codec.clockrate; } } } // Scan through the list to figure out the codec to use for sending. absl::optional send_codec_spec; webrtc::BitrateConstraints bitrate_config; absl::optional voice_codec_info; size_t send_codec_position = 0; for (const AudioCodec& voice_codec : codecs) { if (!(IsCodec(voice_codec, kCnCodecName) || IsCodec(voice_codec, kDtmfCodecName) || IsCodec(voice_codec, kRedCodecName))) { webrtc::SdpAudioFormat format(voice_codec.name, voice_codec.clockrate, voice_codec.channels, voice_codec.params); voice_codec_info = engine()->encoder_factory_->QueryAudioEncoder(format); if (!voice_codec_info) { RTC_LOG(LS_WARNING) << "Unknown codec " << ToString(voice_codec); continue; } send_codec_spec = webrtc::AudioSendStream::Config::SendCodecSpec( voice_codec.id, format); if (voice_codec.bitrate > 0) { send_codec_spec->target_bitrate_bps = voice_codec.bitrate; } send_codec_spec->transport_cc_enabled = HasTransportCc(voice_codec); send_codec_spec->nack_enabled = HasNack(voice_codec); bitrate_config = GetBitrateConfigForCodec(voice_codec); break; } send_codec_position++; } if (!send_codec_spec) { return false; } RTC_DCHECK(voice_codec_info); if (voice_codec_info->allow_comfort_noise) { // Loop through the codecs list again to find the CN codec. // TODO(solenberg): Break out into a separate function? for (const AudioCodec& cn_codec : codecs) { if (IsCodec(cn_codec, kCnCodecName) && cn_codec.clockrate == send_codec_spec->format.clockrate_hz && cn_codec.channels == voice_codec_info->num_channels) { if (cn_codec.channels != 1) { RTC_LOG(LS_WARNING) << "CN #channels " << cn_codec.channels << " not supported."; } else if (cn_codec.clockrate != 8000 && cn_codec.clockrate != 16000 && cn_codec.clockrate != 32000) { RTC_LOG(LS_WARNING) << "CN frequency " << cn_codec.clockrate << " not supported."; } else { send_codec_spec->cng_payload_type = cn_codec.id; } break; } } // Find the telephone-event PT exactly matching the preferred send codec. for (const AudioCodec& dtmf_codec : dtmf_codecs) { if (dtmf_codec.clockrate == send_codec_spec->format.clockrate_hz) { dtmf_payload_type_ = dtmf_codec.id; dtmf_payload_freq_ = dtmf_codec.clockrate; break; } } } if (IsAudioRedForOpusFieldTrialEnabled()) { // Loop through the codecs to find the RED codec that matches opus // with respect to clockrate and number of channels. size_t red_codec_position = 0; for (const AudioCodec& red_codec : codecs) { if (red_codec_position < send_codec_position && IsCodec(red_codec, kRedCodecName) && red_codec.clockrate == send_codec_spec->format.clockrate_hz && red_codec.channels == send_codec_spec->format.num_channels) { send_codec_spec->red_payload_type = red_codec.id; break; } red_codec_position++; } } if (send_codec_spec_ != send_codec_spec) { send_codec_spec_ = std::move(send_codec_spec); // Apply new settings to all streams. for (const auto& kv : send_streams_) { kv.second->SetSendCodecSpec(*send_codec_spec_); } } else { // If the codec isn't changing, set the start bitrate to -1 which means // "unchanged" so that BWE isn't affected. bitrate_config.start_bitrate_bps = -1; } call_->GetTransportControllerSend()->SetSdpBitrateParameters(bitrate_config); // Check if the transport cc feedback or NACK status has changed on the // preferred send codec, and in that case reconfigure all receive streams. if (recv_transport_cc_enabled_ != send_codec_spec_->transport_cc_enabled || recv_nack_enabled_ != send_codec_spec_->nack_enabled) { RTC_LOG(LS_INFO) << "Recreate all the receive streams because the send " "codec has changed."; recv_transport_cc_enabled_ = send_codec_spec_->transport_cc_enabled; recv_nack_enabled_ = send_codec_spec_->nack_enabled; for (auto& kv : recv_streams_) { kv.second->SetUseTransportCcAndRecreateStream(recv_transport_cc_enabled_, recv_nack_enabled_); } } send_codecs_ = codecs; return true; } void WebRtcVoiceMediaChannel::SetPlayout(bool playout) { desired_playout_ = playout; return ChangePlayout(desired_playout_); } void WebRtcVoiceMediaChannel::ChangePlayout(bool playout) { TRACE_EVENT0("webrtc", "WebRtcVoiceMediaChannel::ChangePlayout"); RTC_DCHECK(worker_thread_checker_.IsCurrent()); if (playout_ == playout) { return; } for (const auto& kv : recv_streams_) { kv.second->SetPlayout(playout); } playout_ = playout; } void WebRtcVoiceMediaChannel::SetSend(bool send) { TRACE_EVENT0("webrtc", "WebRtcVoiceMediaChannel::SetSend"); if (send_ == send) { return; } // Apply channel specific options, and initialize the ADM for recording (this // may take time on some platforms, e.g. Android). if (send) { engine()->ApplyOptions(options_); // InitRecording() may return an error if the ADM is already recording. if (!engine()->adm()->RecordingIsInitialized() && !engine()->adm()->Recording()) { if (engine()->adm()->InitRecording() != 0) { RTC_LOG(LS_WARNING) << "Failed to initialize recording"; } } } // Change the settings on each send channel. for (auto& kv : send_streams_) { kv.second->SetSend(send); } send_ = send; } bool WebRtcVoiceMediaChannel::SetAudioSend(uint32_t ssrc, bool enable, const AudioOptions* options, AudioSource* source) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); // TODO(solenberg): The state change should be fully rolled back if any one of // these calls fail. if (!SetLocalSource(ssrc, source)) { return false; } if (!MuteStream(ssrc, !enable)) { return false; } if (enable && options) { return SetOptions(*options); } return true; } bool WebRtcVoiceMediaChannel::AddSendStream(const StreamParams& sp) { TRACE_EVENT0("webrtc", "WebRtcVoiceMediaChannel::AddSendStream"); RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "AddSendStream: " << sp.ToString(); uint32_t ssrc = sp.first_ssrc(); RTC_DCHECK(0 != ssrc); if (send_streams_.find(ssrc) != send_streams_.end()) { RTC_LOG(LS_ERROR) << "Stream already exists with ssrc " << ssrc; return false; } absl::optional audio_network_adaptor_config = GetAudioNetworkAdaptorConfig(options_); WebRtcAudioSendStream* stream = new WebRtcAudioSendStream( ssrc, mid_, sp.cname, sp.id, send_codec_spec_, ExtmapAllowMixed(), send_rtp_extensions_, max_send_bitrate_bps_, audio_config_.rtcp_report_interval_ms, audio_network_adaptor_config, call_, this, engine()->encoder_factory_, codec_pair_id_, nullptr, crypto_options_); send_streams_.insert(std::make_pair(ssrc, stream)); // At this point the stream's local SSRC has been updated. If it is the first // send stream, make sure that all the receive streams are updated with the // same SSRC in order to send receiver reports. if (send_streams_.size() == 1) { receiver_reports_ssrc_ = ssrc; for (const auto& kv : recv_streams_) { // TODO(solenberg): Allow applications to set the RTCP SSRC of receive // streams instead, so we can avoid reconfiguring the streams here. kv.second->SetLocalSsrc(ssrc); } } send_streams_[ssrc]->SetSend(send_); return true; } bool WebRtcVoiceMediaChannel::RemoveSendStream(uint32_t ssrc) { TRACE_EVENT0("webrtc", "WebRtcVoiceMediaChannel::RemoveSendStream"); RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "RemoveSendStream: " << ssrc; auto it = send_streams_.find(ssrc); if (it == send_streams_.end()) { RTC_LOG(LS_WARNING) << "Try to remove stream with ssrc " << ssrc << " which doesn't exist."; return false; } it->second->SetSend(false); // TODO(solenberg): If we're removing the receiver_reports_ssrc_ stream, find // the first active send stream and use that instead, reassociating receive // streams. delete it->second; send_streams_.erase(it); if (send_streams_.empty()) { SetSend(false); } return true; } bool WebRtcVoiceMediaChannel::AddRecvStream(const StreamParams& sp) { TRACE_EVENT0("webrtc", "WebRtcVoiceMediaChannel::AddRecvStream"); RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "AddRecvStream: " << sp.ToString(); if (!sp.has_ssrcs()) { // This is a StreamParam with unsignaled SSRCs. Store it, so it can be used // later when we know the SSRCs on the first packet arrival. unsignaled_stream_params_ = sp; return true; } if (!ValidateStreamParams(sp)) { return false; } const uint32_t ssrc = sp.first_ssrc(); // If this stream was previously received unsignaled, we promote it, possibly // recreating the AudioReceiveStream, if stream ids have changed. if (MaybeDeregisterUnsignaledRecvStream(ssrc)) { recv_streams_[ssrc]->MaybeRecreateAudioReceiveStream(sp.stream_ids()); return true; } if (recv_streams_.find(ssrc) != recv_streams_.end()) { RTC_LOG(LS_ERROR) << "Stream already exists with ssrc " << ssrc; return false; } // Create a new channel for receiving audio data. recv_streams_.insert(std::make_pair( ssrc, new WebRtcAudioReceiveStream( ssrc, receiver_reports_ssrc_, recv_transport_cc_enabled_, recv_nack_enabled_, sp.stream_ids(), recv_rtp_extensions_, call_, this, engine()->decoder_factory_, decoder_map_, codec_pair_id_, engine()->audio_jitter_buffer_max_packets_, engine()->audio_jitter_buffer_fast_accelerate_, engine()->audio_jitter_buffer_min_delay_ms_, engine()->audio_jitter_buffer_enable_rtx_handling_, unsignaled_frame_decryptor_, crypto_options_, nullptr))); recv_streams_[ssrc]->SetPlayout(playout_); return true; } bool WebRtcVoiceMediaChannel::RemoveRecvStream(uint32_t ssrc) { TRACE_EVENT0("webrtc", "WebRtcVoiceMediaChannel::RemoveRecvStream"); RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "RemoveRecvStream: " << ssrc; const auto it = recv_streams_.find(ssrc); if (it == recv_streams_.end()) { RTC_LOG(LS_WARNING) << "Try to remove stream with ssrc " << ssrc << " which doesn't exist."; return false; } MaybeDeregisterUnsignaledRecvStream(ssrc); it->second->SetRawAudioSink(nullptr); delete it->second; recv_streams_.erase(it); return true; } void WebRtcVoiceMediaChannel::ResetUnsignaledRecvStream() { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "ResetUnsignaledRecvStream."; unsignaled_stream_params_ = StreamParams(); } bool WebRtcVoiceMediaChannel::SetLocalSource(uint32_t ssrc, AudioSource* source) { auto it = send_streams_.find(ssrc); if (it == send_streams_.end()) { if (source) { // Return an error if trying to set a valid source with an invalid ssrc. RTC_LOG(LS_ERROR) << "SetLocalSource failed with ssrc " << ssrc; return false; } // The channel likely has gone away, do nothing. return true; } if (source) { it->second->SetSource(source); } else { it->second->ClearSource(); } return true; } bool WebRtcVoiceMediaChannel::SetOutputVolume(uint32_t ssrc, double volume) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << rtc::StringFormat("WRVMC::%s({ssrc=%u}, {volume=%.2f})", __func__, ssrc, volume); const auto it = recv_streams_.find(ssrc); if (it == recv_streams_.end()) { RTC_LOG(LS_WARNING) << rtc::StringFormat( "WRVMC::%s => (WARNING: no receive stream for SSRC %u)", __func__, ssrc); return false; } it->second->SetOutputVolume(volume); RTC_LOG(LS_INFO) << rtc::StringFormat( "WRVMC::%s => (stream with SSRC %u now uses volume %.2f)", __func__, ssrc, volume); return true; } bool WebRtcVoiceMediaChannel::SetDefaultOutputVolume(double volume) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); default_recv_volume_ = volume; for (uint32_t ssrc : unsignaled_recv_ssrcs_) { const auto it = recv_streams_.find(ssrc); if (it == recv_streams_.end()) { RTC_LOG(LS_WARNING) << "SetDefaultOutputVolume: no recv stream " << ssrc; return false; } it->second->SetOutputVolume(volume); RTC_LOG(LS_INFO) << "SetDefaultOutputVolume() to " << volume << " for recv stream with ssrc " << ssrc; } return true; } bool WebRtcVoiceMediaChannel::SetBaseMinimumPlayoutDelayMs(uint32_t ssrc, int delay_ms) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); std::vector ssrcs(1, ssrc); // SSRC of 0 represents the default receive stream. if (ssrc == 0) { default_recv_base_minimum_delay_ms_ = delay_ms; ssrcs = unsignaled_recv_ssrcs_; } for (uint32_t ssrc : ssrcs) { const auto it = recv_streams_.find(ssrc); if (it == recv_streams_.end()) { RTC_LOG(LS_WARNING) << "SetBaseMinimumPlayoutDelayMs: no recv stream " << ssrc; return false; } it->second->SetBaseMinimumPlayoutDelayMs(delay_ms); RTC_LOG(LS_INFO) << "SetBaseMinimumPlayoutDelayMs() to " << delay_ms << " for recv stream with ssrc " << ssrc; } return true; } absl::optional WebRtcVoiceMediaChannel::GetBaseMinimumPlayoutDelayMs( uint32_t ssrc) const { // SSRC of 0 represents the default receive stream. if (ssrc == 0) { return default_recv_base_minimum_delay_ms_; } const auto it = recv_streams_.find(ssrc); if (it != recv_streams_.end()) { return it->second->GetBaseMinimumPlayoutDelayMs(); } return absl::nullopt; } bool WebRtcVoiceMediaChannel::CanInsertDtmf() { return dtmf_payload_type_.has_value() && send_; } void WebRtcVoiceMediaChannel::SetFrameDecryptor( uint32_t ssrc, rtc::scoped_refptr frame_decryptor) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); auto matching_stream = recv_streams_.find(ssrc); if (matching_stream != recv_streams_.end()) { matching_stream->second->SetFrameDecryptor(frame_decryptor); } // Handle unsignaled frame decryptors. if (ssrc == 0) { unsignaled_frame_decryptor_ = frame_decryptor; } } void WebRtcVoiceMediaChannel::SetFrameEncryptor( uint32_t ssrc, rtc::scoped_refptr frame_encryptor) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); auto matching_stream = send_streams_.find(ssrc); if (matching_stream != send_streams_.end()) { matching_stream->second->SetFrameEncryptor(frame_encryptor); } } bool WebRtcVoiceMediaChannel::InsertDtmf(uint32_t ssrc, int event, int duration) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_INFO) << "WebRtcVoiceMediaChannel::InsertDtmf"; if (!CanInsertDtmf()) { return false; } // Figure out which WebRtcAudioSendStream to send the event on. auto it = ssrc != 0 ? send_streams_.find(ssrc) : send_streams_.begin(); if (it == send_streams_.end()) { RTC_LOG(LS_WARNING) << "The specified ssrc " << ssrc << " is not in use."; return false; } if (event < kMinTelephoneEventCode || event > kMaxTelephoneEventCode) { RTC_LOG(LS_WARNING) << "DTMF event code " << event << " out of range."; return false; } RTC_DCHECK_NE(-1, dtmf_payload_freq_); return it->second->SendTelephoneEvent(*dtmf_payload_type_, dtmf_payload_freq_, event, duration); } void WebRtcVoiceMediaChannel::OnPacketReceived(rtc::CopyOnWriteBuffer packet, int64_t packet_time_us) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); webrtc::PacketReceiver::DeliveryStatus delivery_result = call_->Receiver()->DeliverPacket(webrtc::MediaType::AUDIO, packet, packet_time_us); if (delivery_result != webrtc::PacketReceiver::DELIVERY_UNKNOWN_SSRC) { return; } // Create an unsignaled receive stream for this previously not received ssrc. // If there already is N unsignaled receive streams, delete the oldest. // See: https://bugs.chromium.org/p/webrtc/issues/detail?id=5208 uint32_t ssrc = 0; if (!GetRtpSsrc(packet.cdata(), packet.size(), &ssrc)) { return; } RTC_DCHECK(!absl::c_linear_search(unsignaled_recv_ssrcs_, ssrc)); // Add new stream. StreamParams sp = unsignaled_stream_params_; sp.ssrcs.push_back(ssrc); RTC_LOG(LS_INFO) << "Creating unsignaled receive stream for SSRC=" << ssrc; if (!AddRecvStream(sp)) { RTC_LOG(LS_WARNING) << "Could not create unsignaled receive stream."; return; } unsignaled_recv_ssrcs_.push_back(ssrc); RTC_HISTOGRAM_COUNTS_LINEAR("WebRTC.Audio.NumOfUnsignaledStreams", unsignaled_recv_ssrcs_.size(), 1, 100, 101); // Remove oldest unsignaled stream, if we have too many. if (unsignaled_recv_ssrcs_.size() > kMaxUnsignaledRecvStreams) { uint32_t remove_ssrc = unsignaled_recv_ssrcs_.front(); RTC_DLOG(LS_INFO) << "Removing unsignaled receive stream with SSRC=" << remove_ssrc; RemoveRecvStream(remove_ssrc); } RTC_DCHECK_GE(kMaxUnsignaledRecvStreams, unsignaled_recv_ssrcs_.size()); SetOutputVolume(ssrc, default_recv_volume_); SetBaseMinimumPlayoutDelayMs(ssrc, default_recv_base_minimum_delay_ms_); // The default sink can only be attached to one stream at a time, so we hook // it up to the *latest* unsignaled stream we've seen, in order to support the // case where the SSRC of one unsignaled stream changes. if (default_sink_) { for (uint32_t drop_ssrc : unsignaled_recv_ssrcs_) { auto it = recv_streams_.find(drop_ssrc); it->second->SetRawAudioSink(nullptr); } std::unique_ptr proxy_sink( new ProxySink(default_sink_.get())); SetRawAudioSink(ssrc, std::move(proxy_sink)); } delivery_result = call_->Receiver()->DeliverPacket(webrtc::MediaType::AUDIO, packet, packet_time_us); RTC_DCHECK_NE(webrtc::PacketReceiver::DELIVERY_UNKNOWN_SSRC, delivery_result); } void WebRtcVoiceMediaChannel::OnNetworkRouteChanged( const std::string& transport_name, const rtc::NetworkRoute& network_route) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); call_->GetTransportControllerSend()->OnNetworkRouteChanged(transport_name, network_route); call_->OnAudioTransportOverheadChanged(network_route.packet_overhead); } bool WebRtcVoiceMediaChannel::MuteStream(uint32_t ssrc, bool muted) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); const auto it = send_streams_.find(ssrc); if (it == send_streams_.end()) { RTC_LOG(LS_WARNING) << "The specified ssrc " << ssrc << " is not in use."; return false; } it->second->SetMuted(muted); // TODO(solenberg): // We set the AGC to mute state only when all the channels are muted. // This implementation is not ideal, instead we should signal the AGC when // the mic channel is muted/unmuted. We can't do it today because there // is no good way to know which stream is mapping to the mic channel. bool all_muted = muted; for (const auto& kv : send_streams_) { all_muted = all_muted && kv.second->muted(); } webrtc::AudioProcessing* ap = engine()->apm(); if (ap) { ap->set_output_will_be_muted(all_muted); } return true; } bool WebRtcVoiceMediaChannel::SetMaxSendBitrate(int bps) { RTC_LOG(LS_INFO) << "WebRtcVoiceMediaChannel::SetMaxSendBitrate."; max_send_bitrate_bps_ = bps; bool success = true; for (const auto& kv : send_streams_) { if (!kv.second->SetMaxSendBitrate(max_send_bitrate_bps_)) { success = false; } } return success; } void WebRtcVoiceMediaChannel::OnReadyToSend(bool ready) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_VERBOSE) << "OnReadyToSend: " << (ready ? "Ready." : "Not ready."); call_->SignalChannelNetworkState( webrtc::MediaType::AUDIO, ready ? webrtc::kNetworkUp : webrtc::kNetworkDown); } bool WebRtcVoiceMediaChannel::GetStats(VoiceMediaInfo* info) { TRACE_EVENT0("webrtc", "WebRtcVoiceMediaChannel::GetStats"); RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_DCHECK(info); // Get SSRC and stats for each sender. RTC_DCHECK_EQ(info->senders.size(), 0U); for (const auto& stream : send_streams_) { webrtc::AudioSendStream::Stats stats = stream.second->GetStats(recv_streams_.size() > 0); VoiceSenderInfo sinfo; sinfo.add_ssrc(stats.local_ssrc); sinfo.payload_bytes_sent = stats.payload_bytes_sent; sinfo.header_and_padding_bytes_sent = stats.header_and_padding_bytes_sent; sinfo.retransmitted_bytes_sent = stats.retransmitted_bytes_sent; sinfo.packets_sent = stats.packets_sent; sinfo.retransmitted_packets_sent = stats.retransmitted_packets_sent; sinfo.packets_lost = stats.packets_lost; sinfo.fraction_lost = stats.fraction_lost; sinfo.codec_name = stats.codec_name; sinfo.codec_payload_type = stats.codec_payload_type; sinfo.jitter_ms = stats.jitter_ms; sinfo.rtt_ms = stats.rtt_ms; sinfo.audio_level = stats.audio_level; sinfo.total_input_energy = stats.total_input_energy; sinfo.total_input_duration = stats.total_input_duration; sinfo.typing_noise_detected = (send_ ? stats.typing_noise_detected : false); sinfo.ana_statistics = stats.ana_statistics; sinfo.apm_statistics = stats.apm_statistics; sinfo.report_block_datas = std::move(stats.report_block_datas); info->senders.push_back(sinfo); } // Get SSRC and stats for each receiver. RTC_DCHECK_EQ(info->receivers.size(), 0U); for (const auto& stream : recv_streams_) { uint32_t ssrc = stream.first; // When SSRCs are unsignaled, there's only one audio MediaStreamTrack, but // multiple RTP streams can be received over time (if the SSRC changes for // whatever reason). We only want the RTCMediaStreamTrackStats to represent // the stats for the most recent stream (the one whose audio is actually // routed to the MediaStreamTrack), so here we ignore any unsignaled SSRCs // except for the most recent one (last in the vector). This is somewhat of // a hack, and means you don't get *any* stats for these inactive streams, // but it's slightly better than the previous behavior, which was "highest // SSRC wins". // See: https://bugs.chromium.org/p/webrtc/issues/detail?id=8158 if (!unsignaled_recv_ssrcs_.empty()) { auto end_it = --unsignaled_recv_ssrcs_.end(); if (absl::linear_search(unsignaled_recv_ssrcs_.begin(), end_it, ssrc)) { continue; } } webrtc::AudioReceiveStream::Stats stats = stream.second->GetStats(); VoiceReceiverInfo rinfo; rinfo.add_ssrc(stats.remote_ssrc); rinfo.payload_bytes_rcvd = stats.payload_bytes_rcvd; rinfo.header_and_padding_bytes_rcvd = stats.header_and_padding_bytes_rcvd; rinfo.packets_rcvd = stats.packets_rcvd; rinfo.fec_packets_received = stats.fec_packets_received; rinfo.fec_packets_discarded = stats.fec_packets_discarded; rinfo.packets_lost = stats.packets_lost; rinfo.codec_name = stats.codec_name; rinfo.codec_payload_type = stats.codec_payload_type; rinfo.jitter_ms = stats.jitter_ms; rinfo.jitter_buffer_ms = stats.jitter_buffer_ms; rinfo.jitter_buffer_preferred_ms = stats.jitter_buffer_preferred_ms; rinfo.delay_estimate_ms = stats.delay_estimate_ms; rinfo.audio_level = stats.audio_level; rinfo.total_output_energy = stats.total_output_energy; rinfo.total_samples_received = stats.total_samples_received; rinfo.total_output_duration = stats.total_output_duration; rinfo.concealed_samples = stats.concealed_samples; rinfo.silent_concealed_samples = stats.silent_concealed_samples; rinfo.concealment_events = stats.concealment_events; rinfo.jitter_buffer_delay_seconds = stats.jitter_buffer_delay_seconds; rinfo.jitter_buffer_emitted_count = stats.jitter_buffer_emitted_count; rinfo.jitter_buffer_target_delay_seconds = stats.jitter_buffer_target_delay_seconds; rinfo.inserted_samples_for_deceleration = stats.inserted_samples_for_deceleration; rinfo.removed_samples_for_acceleration = stats.removed_samples_for_acceleration; rinfo.expand_rate = stats.expand_rate; rinfo.speech_expand_rate = stats.speech_expand_rate; rinfo.secondary_decoded_rate = stats.secondary_decoded_rate; rinfo.secondary_discarded_rate = stats.secondary_discarded_rate; rinfo.accelerate_rate = stats.accelerate_rate; rinfo.preemptive_expand_rate = stats.preemptive_expand_rate; rinfo.delayed_packet_outage_samples = stats.delayed_packet_outage_samples; rinfo.decoding_calls_to_silence_generator = stats.decoding_calls_to_silence_generator; rinfo.decoding_calls_to_neteq = stats.decoding_calls_to_neteq; rinfo.decoding_normal = stats.decoding_normal; rinfo.decoding_plc = stats.decoding_plc; rinfo.decoding_codec_plc = stats.decoding_codec_plc; rinfo.decoding_cng = stats.decoding_cng; rinfo.decoding_plc_cng = stats.decoding_plc_cng; rinfo.decoding_muted_output = stats.decoding_muted_output; rinfo.capture_start_ntp_time_ms = stats.capture_start_ntp_time_ms; rinfo.last_packet_received_timestamp_ms = stats.last_packet_received_timestamp_ms; rinfo.estimated_playout_ntp_timestamp_ms = stats.estimated_playout_ntp_timestamp_ms; rinfo.jitter_buffer_flushes = stats.jitter_buffer_flushes; rinfo.relative_packet_arrival_delay_seconds = stats.relative_packet_arrival_delay_seconds; rinfo.interruption_count = stats.interruption_count; rinfo.total_interruption_duration_ms = stats.total_interruption_duration_ms; info->receivers.push_back(rinfo); } // Get codec info for (const AudioCodec& codec : send_codecs_) { webrtc::RtpCodecParameters codec_params = codec.ToCodecParameters(); info->send_codecs.insert( std::make_pair(codec_params.payload_type, std::move(codec_params))); } for (const AudioCodec& codec : recv_codecs_) { webrtc::RtpCodecParameters codec_params = codec.ToCodecParameters(); info->receive_codecs.insert( std::make_pair(codec_params.payload_type, std::move(codec_params))); } info->device_underrun_count = engine_->adm()->GetPlayoutUnderrunCount(); return true; } void WebRtcVoiceMediaChannel::SetRawAudioSink( uint32_t ssrc, std::unique_ptr sink) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_VERBOSE) << "WebRtcVoiceMediaChannel::SetRawAudioSink: ssrc:" << ssrc << " " << (sink ? "(ptr)" : "NULL"); const auto it = recv_streams_.find(ssrc); if (it == recv_streams_.end()) { RTC_LOG(LS_WARNING) << "SetRawAudioSink: no recv stream " << ssrc; return; } it->second->SetRawAudioSink(std::move(sink)); } void WebRtcVoiceMediaChannel::SetDefaultRawAudioSink( std::unique_ptr sink) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); RTC_LOG(LS_VERBOSE) << "WebRtcVoiceMediaChannel::SetDefaultRawAudioSink:"; if (!unsignaled_recv_ssrcs_.empty()) { std::unique_ptr proxy_sink( sink ? new ProxySink(sink.get()) : nullptr); SetRawAudioSink(unsignaled_recv_ssrcs_.back(), std::move(proxy_sink)); } default_sink_ = std::move(sink); } std::vector WebRtcVoiceMediaChannel::GetSources( uint32_t ssrc) const { auto it = recv_streams_.find(ssrc); if (it == recv_streams_.end()) { RTC_LOG(LS_ERROR) << "Attempting to get contributing sources for SSRC:" << ssrc << " which doesn't exist."; return std::vector(); } return it->second->GetSources(); } void WebRtcVoiceMediaChannel::SetEncoderToPacketizerFrameTransformer( uint32_t ssrc, rtc::scoped_refptr frame_transformer) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); auto matching_stream = send_streams_.find(ssrc); if (matching_stream == send_streams_.end()) { RTC_LOG(LS_INFO) << "Attempting to set frame transformer for SSRC:" << ssrc << " which doesn't exist."; return; } matching_stream->second->SetEncoderToPacketizerFrameTransformer( std::move(frame_transformer)); } void WebRtcVoiceMediaChannel::SetDepacketizerToDecoderFrameTransformer( uint32_t ssrc, rtc::scoped_refptr frame_transformer) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); auto matching_stream = recv_streams_.find(ssrc); if (matching_stream == recv_streams_.end()) { RTC_LOG(LS_INFO) << "Attempting to set frame transformer for SSRC:" << ssrc << " which doesn't exist."; return; } matching_stream->second->SetDepacketizerToDecoderFrameTransformer( std::move(frame_transformer)); } bool WebRtcVoiceMediaChannel::MaybeDeregisterUnsignaledRecvStream( uint32_t ssrc) { RTC_DCHECK(worker_thread_checker_.IsCurrent()); auto it = absl::c_find(unsignaled_recv_ssrcs_, ssrc); if (it != unsignaled_recv_ssrcs_.end()) { unsignaled_recv_ssrcs_.erase(it); return true; } return false; } } // namespace cricket