/* * Copyright 2018 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/base/fake_media_engine.h" #include #include #include "absl/algorithm/container.h" #include "absl/strings/match.h" #include "rtc_base/checks.h" namespace cricket { using webrtc::TaskQueueBase; FakeVoiceMediaChannel::DtmfInfo::DtmfInfo(uint32_t ssrc, int event_code, int duration) : ssrc(ssrc), event_code(event_code), duration(duration) {} FakeVoiceMediaChannel::VoiceChannelAudioSink::VoiceChannelAudioSink( AudioSource* source) : source_(source) { source_->SetSink(this); } FakeVoiceMediaChannel::VoiceChannelAudioSink::~VoiceChannelAudioSink() { if (source_) { source_->SetSink(nullptr); } } void FakeVoiceMediaChannel::VoiceChannelAudioSink::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) {} void FakeVoiceMediaChannel::VoiceChannelAudioSink::OnClose() { source_ = nullptr; } AudioSource* FakeVoiceMediaChannel::VoiceChannelAudioSink::source() const { return source_; } FakeVoiceMediaChannel::FakeVoiceMediaChannel(FakeVoiceEngine* engine, const AudioOptions& options, TaskQueueBase* network_thread) : RtpHelper(network_thread), engine_(engine), max_bps_(-1) { output_scalings_[0] = 1.0; // For default channel. SetOptions(options); } FakeVoiceMediaChannel::~FakeVoiceMediaChannel() { if (engine_) { engine_->UnregisterChannel(this); } } const std::vector& FakeVoiceMediaChannel::recv_codecs() const { return recv_codecs_; } const std::vector& FakeVoiceMediaChannel::send_codecs() const { return send_codecs_; } const std::vector& FakeVoiceMediaChannel::codecs() const { return send_codecs(); } const std::vector& FakeVoiceMediaChannel::dtmf_info_queue() const { return dtmf_info_queue_; } const AudioOptions& FakeVoiceMediaChannel::options() const { return options_; } int FakeVoiceMediaChannel::max_bps() const { return max_bps_; } bool FakeVoiceMediaChannel::SetSendParameters( const AudioSendParameters& params) { set_send_rtcp_parameters(params.rtcp); return (SetSendCodecs(params.codecs) && SetSendExtmapAllowMixed(params.extmap_allow_mixed) && SetSendRtpHeaderExtensions(params.extensions) && SetMaxSendBandwidth(params.max_bandwidth_bps) && SetOptions(params.options)); } bool FakeVoiceMediaChannel::SetRecvParameters( const AudioRecvParameters& params) { set_recv_rtcp_parameters(params.rtcp); return (SetRecvCodecs(params.codecs) && SetRecvRtpHeaderExtensions(params.extensions)); } void FakeVoiceMediaChannel::SetPlayout(bool playout) { set_playout(playout); } void FakeVoiceMediaChannel::SetSend(bool send) { set_sending(send); } bool FakeVoiceMediaChannel::SetAudioSend(uint32_t ssrc, bool enable, const AudioOptions* options, AudioSource* source) { if (!SetLocalSource(ssrc, source)) { return false; } if (!RtpHelper::MuteStream(ssrc, !enable)) { return false; } if (enable && options) { return SetOptions(*options); } return true; } bool FakeVoiceMediaChannel::HasSource(uint32_t ssrc) const { return local_sinks_.find(ssrc) != local_sinks_.end(); } bool FakeVoiceMediaChannel::AddRecvStream(const StreamParams& sp) { if (!RtpHelper::AddRecvStream(sp)) return false; output_scalings_[sp.first_ssrc()] = 1.0; output_delays_[sp.first_ssrc()] = 0; return true; } bool FakeVoiceMediaChannel::RemoveRecvStream(uint32_t ssrc) { if (!RtpHelper::RemoveRecvStream(ssrc)) return false; output_scalings_.erase(ssrc); output_delays_.erase(ssrc); return true; } bool FakeVoiceMediaChannel::CanInsertDtmf() { for (std::vector::const_iterator it = send_codecs_.begin(); it != send_codecs_.end(); ++it) { // Find the DTMF telephone event "codec". if (absl::EqualsIgnoreCase(it->name, "telephone-event")) { return true; } } return false; } bool FakeVoiceMediaChannel::InsertDtmf(uint32_t ssrc, int event_code, int duration) { dtmf_info_queue_.push_back(DtmfInfo(ssrc, event_code, duration)); return true; } bool FakeVoiceMediaChannel::SetOutputVolume(uint32_t ssrc, double volume) { if (output_scalings_.find(ssrc) != output_scalings_.end()) { output_scalings_[ssrc] = volume; return true; } return false; } bool FakeVoiceMediaChannel::SetDefaultOutputVolume(double volume) { for (auto& entry : output_scalings_) { entry.second = volume; } return true; } bool FakeVoiceMediaChannel::GetOutputVolume(uint32_t ssrc, double* volume) { if (output_scalings_.find(ssrc) == output_scalings_.end()) return false; *volume = output_scalings_[ssrc]; return true; } bool FakeVoiceMediaChannel::SetBaseMinimumPlayoutDelayMs(uint32_t ssrc, int delay_ms) { if (output_delays_.find(ssrc) == output_delays_.end()) { return false; } else { output_delays_[ssrc] = delay_ms; return true; } } absl::optional FakeVoiceMediaChannel::GetBaseMinimumPlayoutDelayMs( uint32_t ssrc) const { const auto it = output_delays_.find(ssrc); if (it != output_delays_.end()) { return it->second; } return absl::nullopt; } bool FakeVoiceMediaChannel::GetStats(VoiceMediaInfo* info, bool get_and_clear_legacy_stats) { return false; } void FakeVoiceMediaChannel::SetRawAudioSink( uint32_t ssrc, std::unique_ptr sink) { sink_ = std::move(sink); } void FakeVoiceMediaChannel::SetDefaultRawAudioSink( std::unique_ptr sink) { sink_ = std::move(sink); } std::vector FakeVoiceMediaChannel::GetSources( uint32_t ssrc) const { return std::vector(); } bool FakeVoiceMediaChannel::SetRecvCodecs( const std::vector& codecs) { if (fail_set_recv_codecs()) { // Fake the failure in SetRecvCodecs. return false; } recv_codecs_ = codecs; return true; } bool FakeVoiceMediaChannel::SetSendCodecs( const std::vector& codecs) { if (fail_set_send_codecs()) { // Fake the failure in SetSendCodecs. return false; } send_codecs_ = codecs; return true; } bool FakeVoiceMediaChannel::SetMaxSendBandwidth(int bps) { max_bps_ = bps; return true; } bool FakeVoiceMediaChannel::SetOptions(const AudioOptions& options) { // Does a "merge" of current options and set options. options_.SetAll(options); return true; } bool FakeVoiceMediaChannel::SetLocalSource(uint32_t ssrc, AudioSource* source) { auto it = local_sinks_.find(ssrc); if (source) { if (it != local_sinks_.end()) { RTC_CHECK(it->second->source() == source); } else { local_sinks_.insert(std::make_pair( ssrc, std::make_unique(source))); } } else { if (it != local_sinks_.end()) { local_sinks_.erase(it); } } return true; } bool CompareDtmfInfo(const FakeVoiceMediaChannel::DtmfInfo& info, uint32_t ssrc, int event_code, int duration) { return (info.duration == duration && info.event_code == event_code && info.ssrc == ssrc); } FakeVideoMediaChannel::FakeVideoMediaChannel(FakeVideoEngine* engine, const VideoOptions& options, TaskQueueBase* network_thread) : RtpHelper(network_thread), engine_(engine), max_bps_(-1) { SetOptions(options); } FakeVideoMediaChannel::~FakeVideoMediaChannel() { if (engine_) { engine_->UnregisterChannel(this); } } const std::vector& FakeVideoMediaChannel::recv_codecs() const { return recv_codecs_; } const std::vector& FakeVideoMediaChannel::send_codecs() const { return send_codecs_; } const std::vector& FakeVideoMediaChannel::codecs() const { return send_codecs(); } bool FakeVideoMediaChannel::rendering() const { return playout(); } const VideoOptions& FakeVideoMediaChannel::options() const { return options_; } const std::map*>& FakeVideoMediaChannel::sinks() const { return sinks_; } int FakeVideoMediaChannel::max_bps() const { return max_bps_; } bool FakeVideoMediaChannel::SetSendParameters( const VideoSendParameters& params) { set_send_rtcp_parameters(params.rtcp); return (SetSendCodecs(params.codecs) && SetSendExtmapAllowMixed(params.extmap_allow_mixed) && SetSendRtpHeaderExtensions(params.extensions) && SetMaxSendBandwidth(params.max_bandwidth_bps)); } bool FakeVideoMediaChannel::SetRecvParameters( const VideoRecvParameters& params) { set_recv_rtcp_parameters(params.rtcp); return (SetRecvCodecs(params.codecs) && SetRecvRtpHeaderExtensions(params.extensions)); } bool FakeVideoMediaChannel::AddSendStream(const StreamParams& sp) { return RtpHelper::AddSendStream(sp); } bool FakeVideoMediaChannel::RemoveSendStream(uint32_t ssrc) { return RtpHelper::RemoveSendStream(ssrc); } bool FakeVideoMediaChannel::GetSendCodec(VideoCodec* send_codec) { if (send_codecs_.empty()) { return false; } *send_codec = send_codecs_[0]; return true; } bool FakeVideoMediaChannel::SetSink( uint32_t ssrc, rtc::VideoSinkInterface* sink) { auto it = sinks_.find(ssrc); if (it == sinks_.end()) { return false; } it->second = sink; return true; } void FakeVideoMediaChannel::SetDefaultSink( rtc::VideoSinkInterface* sink) {} bool FakeVideoMediaChannel::HasSink(uint32_t ssrc) const { return sinks_.find(ssrc) != sinks_.end() && sinks_.at(ssrc) != nullptr; } bool FakeVideoMediaChannel::SetSend(bool send) { return set_sending(send); } bool FakeVideoMediaChannel::SetVideoSend( uint32_t ssrc, const VideoOptions* options, rtc::VideoSourceInterface* source) { if (options) { if (!SetOptions(*options)) { return false; } } sources_[ssrc] = source; return true; } bool FakeVideoMediaChannel::HasSource(uint32_t ssrc) const { return sources_.find(ssrc) != sources_.end() && sources_.at(ssrc) != nullptr; } bool FakeVideoMediaChannel::AddRecvStream(const StreamParams& sp) { if (!RtpHelper::AddRecvStream(sp)) return false; sinks_[sp.first_ssrc()] = NULL; output_delays_[sp.first_ssrc()] = 0; return true; } bool FakeVideoMediaChannel::RemoveRecvStream(uint32_t ssrc) { if (!RtpHelper::RemoveRecvStream(ssrc)) return false; sinks_.erase(ssrc); output_delays_.erase(ssrc); return true; } void FakeVideoMediaChannel::FillBitrateInfo(BandwidthEstimationInfo* bwe_info) { } bool FakeVideoMediaChannel::GetStats(VideoMediaInfo* info) { return false; } std::vector FakeVideoMediaChannel::GetSources( uint32_t ssrc) const { return {}; } bool FakeVideoMediaChannel::SetBaseMinimumPlayoutDelayMs(uint32_t ssrc, int delay_ms) { if (output_delays_.find(ssrc) == output_delays_.end()) { return false; } else { output_delays_[ssrc] = delay_ms; return true; } } absl::optional FakeVideoMediaChannel::GetBaseMinimumPlayoutDelayMs( uint32_t ssrc) const { const auto it = output_delays_.find(ssrc); if (it != output_delays_.end()) { return it->second; } return absl::nullopt; } bool FakeVideoMediaChannel::SetRecvCodecs( const std::vector& codecs) { if (fail_set_recv_codecs()) { // Fake the failure in SetRecvCodecs. return false; } recv_codecs_ = codecs; return true; } bool FakeVideoMediaChannel::SetSendCodecs( const std::vector& codecs) { if (fail_set_send_codecs()) { // Fake the failure in SetSendCodecs. return false; } send_codecs_ = codecs; return true; } bool FakeVideoMediaChannel::SetOptions(const VideoOptions& options) { options_ = options; return true; } bool FakeVideoMediaChannel::SetMaxSendBandwidth(int bps) { max_bps_ = bps; return true; } void FakeVideoMediaChannel::SetRecordableEncodedFrameCallback( uint32_t ssrc, std::function callback) {} void FakeVideoMediaChannel::ClearRecordableEncodedFrameCallback(uint32_t ssrc) { } void FakeVideoMediaChannel::RequestRecvKeyFrame(uint32_t ssrc) {} void FakeVideoMediaChannel::GenerateSendKeyFrame( uint32_t ssrc, const std::vector& rids) {} FakeVoiceEngine::FakeVoiceEngine() : fail_create_channel_(false) { // Add a fake audio codec. Note that the name must not be "" as there are // sanity checks against that. SetCodecs({AudioCodec(101, "fake_audio_codec", 0, 0, 1)}); } void FakeVoiceEngine::Init() {} rtc::scoped_refptr FakeVoiceEngine::GetAudioState() const { return rtc::scoped_refptr(); } VoiceMediaChannel* FakeVoiceEngine::CreateMediaChannel( webrtc::Call* call, const MediaConfig& config, const AudioOptions& options, const webrtc::CryptoOptions& crypto_options) { if (fail_create_channel_) { return nullptr; } FakeVoiceMediaChannel* ch = new FakeVoiceMediaChannel(this, options, call->network_thread()); channels_.push_back(ch); return ch; } FakeVoiceMediaChannel* FakeVoiceEngine::GetChannel(size_t index) { return (channels_.size() > index) ? channels_[index] : NULL; } void FakeVoiceEngine::UnregisterChannel(VoiceMediaChannel* channel) { channels_.erase(absl::c_find(channels_, channel)); } const std::vector& FakeVoiceEngine::send_codecs() const { return send_codecs_; } const std::vector& FakeVoiceEngine::recv_codecs() const { return recv_codecs_; } void FakeVoiceEngine::SetCodecs(const std::vector& codecs) { send_codecs_ = codecs; recv_codecs_ = codecs; } void FakeVoiceEngine::SetRecvCodecs(const std::vector& codecs) { recv_codecs_ = codecs; } void FakeVoiceEngine::SetSendCodecs(const std::vector& codecs) { send_codecs_ = codecs; } int FakeVoiceEngine::GetInputLevel() { return 0; } bool FakeVoiceEngine::StartAecDump(webrtc::FileWrapper file, int64_t max_size_bytes) { return false; } void FakeVoiceEngine::StopAecDump() {} std::vector FakeVoiceEngine::GetRtpHeaderExtensions() const { return header_extensions_; } void FakeVoiceEngine::SetRtpHeaderExtensions( std::vector header_extensions) { header_extensions_ = std::move(header_extensions); } FakeVideoEngine::FakeVideoEngine() : capture_(false), fail_create_channel_(false) { // Add a fake video codec. Note that the name must not be "" as there are // sanity checks against that. send_codecs_.push_back(VideoCodec(0, "fake_video_codec")); recv_codecs_.push_back(VideoCodec(0, "fake_video_codec")); } bool FakeVideoEngine::SetOptions(const VideoOptions& options) { options_ = options; return true; } VideoMediaChannel* FakeVideoEngine::CreateMediaChannel( webrtc::Call* call, const MediaConfig& config, const VideoOptions& options, const webrtc::CryptoOptions& crypto_options, webrtc::VideoBitrateAllocatorFactory* video_bitrate_allocator_factory) { if (fail_create_channel_) { return nullptr; } FakeVideoMediaChannel* ch = new FakeVideoMediaChannel(this, options, call->network_thread()); channels_.emplace_back(ch); return ch; } FakeVideoMediaChannel* FakeVideoEngine::GetChannel(size_t index) { return (channels_.size() > index) ? channels_[index] : nullptr; } void FakeVideoEngine::UnregisterChannel(VideoMediaChannel* channel) { auto it = absl::c_find(channels_, channel); RTC_DCHECK(it != channels_.end()); channels_.erase(it); } std::vector FakeVideoEngine::send_codecs(bool use_rtx) const { return send_codecs_; } std::vector FakeVideoEngine::recv_codecs(bool use_rtx) const { return recv_codecs_; } void FakeVideoEngine::SetSendCodecs(const std::vector& codecs) { send_codecs_ = codecs; } void FakeVideoEngine::SetRecvCodecs(const std::vector& codecs) { recv_codecs_ = codecs; } bool FakeVideoEngine::SetCapture(bool capture) { capture_ = capture; return true; } std::vector FakeVideoEngine::GetRtpHeaderExtensions() const { return header_extensions_; } void FakeVideoEngine::SetRtpHeaderExtensions( std::vector header_extensions) { header_extensions_ = std::move(header_extensions); } FakeMediaEngine::FakeMediaEngine() : CompositeMediaEngine(std::make_unique(), std::make_unique()), voice_(static_cast(&voice())), video_(static_cast(&video())) {} FakeMediaEngine::~FakeMediaEngine() {} void FakeMediaEngine::SetAudioCodecs(const std::vector& codecs) { voice_->SetCodecs(codecs); } void FakeMediaEngine::SetAudioRecvCodecs( const std::vector& codecs) { voice_->SetRecvCodecs(codecs); } void FakeMediaEngine::SetAudioSendCodecs( const std::vector& codecs) { voice_->SetSendCodecs(codecs); } void FakeMediaEngine::SetVideoCodecs(const std::vector& codecs) { video_->SetSendCodecs(codecs); video_->SetRecvCodecs(codecs); } FakeVoiceMediaChannel* FakeMediaEngine::GetVoiceChannel(size_t index) { return voice_->GetChannel(index); } FakeVideoMediaChannel* FakeMediaEngine::GetVideoChannel(size_t index) { return video_->GetChannel(index); } void FakeMediaEngine::set_fail_create_channel(bool fail) { voice_->fail_create_channel_ = fail; video_->fail_create_channel_ = fail; } } // namespace cricket