/* * libjingle * Copyright 2004 Google Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef TALK_MEDIA_BASE_FAKEMEDIAENGINE_H_ #define TALK_MEDIA_BASE_FAKEMEDIAENGINE_H_ #include <list> #include <map> #include <set> #include <string> #include <vector> #include "talk/media/base/audiorenderer.h" #include "talk/media/base/mediaengine.h" #include "talk/media/base/rtputils.h" #include "talk/media/base/streamparams.h" #include "webrtc/audio/audio_sink.h" #include "webrtc/base/buffer.h" #include "webrtc/base/stringutils.h" #include "webrtc/p2p/base/sessiondescription.h" namespace cricket { class FakeMediaEngine; class FakeVideoEngine; class FakeVoiceEngine; // A common helper class that handles sending and receiving RTP/RTCP packets. template <class Base> class RtpHelper : public Base { public: RtpHelper() : sending_(false), playout_(false), fail_set_send_codecs_(false), fail_set_recv_codecs_(false), send_ssrc_(0), ready_to_send_(false) {} const std::vector<RtpHeaderExtension>& recv_extensions() { return recv_extensions_; } const std::vector<RtpHeaderExtension>& send_extensions() { return send_extensions_; } bool sending() const { return sending_; } bool playout() const { return playout_; } const std::list<std::string>& rtp_packets() const { return rtp_packets_; } const std::list<std::string>& rtcp_packets() const { return rtcp_packets_; } bool SendRtp(const void* data, int len, const rtc::PacketOptions& options) { if (!sending_) { return false; } rtc::Buffer packet(reinterpret_cast<const uint8_t*>(data), len, kMaxRtpPacketLen); return Base::SendPacket(&packet, options); } bool SendRtcp(const void* data, int len) { rtc::Buffer packet(reinterpret_cast<const uint8_t*>(data), len, kMaxRtpPacketLen); return Base::SendRtcp(&packet, rtc::PacketOptions()); } bool CheckRtp(const void* data, int len) { bool success = !rtp_packets_.empty(); if (success) { std::string packet = rtp_packets_.front(); rtp_packets_.pop_front(); success = (packet == std::string(static_cast<const char*>(data), len)); } return success; } bool CheckRtcp(const void* data, int len) { bool success = !rtcp_packets_.empty(); if (success) { std::string packet = rtcp_packets_.front(); rtcp_packets_.pop_front(); success = (packet == std::string(static_cast<const char*>(data), len)); } return success; } bool CheckNoRtp() { return rtp_packets_.empty(); } bool CheckNoRtcp() { return rtcp_packets_.empty(); } void set_fail_set_send_codecs(bool fail) { fail_set_send_codecs_ = fail; } void set_fail_set_recv_codecs(bool fail) { fail_set_recv_codecs_ = fail; } virtual bool AddSendStream(const StreamParams& sp) { if (std::find(send_streams_.begin(), send_streams_.end(), sp) != send_streams_.end()) { return false; } send_streams_.push_back(sp); return true; } virtual bool RemoveSendStream(uint32_t ssrc) { return RemoveStreamBySsrc(&send_streams_, ssrc); } virtual bool AddRecvStream(const StreamParams& sp) { if (std::find(receive_streams_.begin(), receive_streams_.end(), sp) != receive_streams_.end()) { return false; } receive_streams_.push_back(sp); return true; } virtual bool RemoveRecvStream(uint32_t ssrc) { return RemoveStreamBySsrc(&receive_streams_, ssrc); } bool IsStreamMuted(uint32_t ssrc) const { bool ret = muted_streams_.find(ssrc) != muted_streams_.end(); // If |ssrc = 0| check if the first send stream is muted. if (!ret && ssrc == 0 && !send_streams_.empty()) { return muted_streams_.find(send_streams_[0].first_ssrc()) != muted_streams_.end(); } return ret; } const std::vector<StreamParams>& send_streams() const { return send_streams_; } const std::vector<StreamParams>& recv_streams() const { return receive_streams_; } bool HasRecvStream(uint32_t ssrc) const { return GetStreamBySsrc(receive_streams_, ssrc) != nullptr; } bool HasSendStream(uint32_t ssrc) const { return GetStreamBySsrc(send_streams_, ssrc) != nullptr; } // TODO(perkj): This is to support legacy unit test that only check one // sending stream. uint32_t send_ssrc() const { if (send_streams_.empty()) return 0; return send_streams_[0].first_ssrc(); } // TODO(perkj): This is to support legacy unit test that only check one // sending stream. const std::string rtcp_cname() { if (send_streams_.empty()) return ""; return send_streams_[0].cname; } bool ready_to_send() const { return ready_to_send_; } protected: bool MuteStream(uint32_t ssrc, bool mute) { if (!HasSendStream(ssrc) && ssrc != 0) { return false; } if (mute) { muted_streams_.insert(ssrc); } else { muted_streams_.erase(ssrc); } return true; } bool set_sending(bool send) { sending_ = send; return true; } void set_playout(bool playout) { playout_ = playout; } bool SetRecvRtpHeaderExtensions( const std::vector<RtpHeaderExtension>& extensions) { recv_extensions_ = extensions; return true; } bool SetSendRtpHeaderExtensions( const std::vector<RtpHeaderExtension>& extensions) { send_extensions_ = extensions; return true; } virtual void OnPacketReceived(rtc::Buffer* packet, const rtc::PacketTime& packet_time) { rtp_packets_.push_back(std::string(packet->data<char>(), packet->size())); } virtual void OnRtcpReceived(rtc::Buffer* packet, const rtc::PacketTime& packet_time) { rtcp_packets_.push_back(std::string(packet->data<char>(), packet->size())); } virtual void OnReadyToSend(bool ready) { ready_to_send_ = ready; } bool fail_set_send_codecs() const { return fail_set_send_codecs_; } bool fail_set_recv_codecs() const { return fail_set_recv_codecs_; } private: bool sending_; bool playout_; std::vector<RtpHeaderExtension> recv_extensions_; std::vector<RtpHeaderExtension> send_extensions_; std::list<std::string> rtp_packets_; std::list<std::string> rtcp_packets_; std::vector<StreamParams> send_streams_; std::vector<StreamParams> receive_streams_; std::set<uint32_t> muted_streams_; bool fail_set_send_codecs_; bool fail_set_recv_codecs_; uint32_t send_ssrc_; std::string rtcp_cname_; bool ready_to_send_; }; class FakeVoiceMediaChannel : public RtpHelper<VoiceMediaChannel> { public: struct DtmfInfo { DtmfInfo(uint32_t ssrc, int event_code, int duration) : ssrc(ssrc), event_code(event_code), duration(duration) {} uint32_t ssrc; int event_code; int duration; }; explicit FakeVoiceMediaChannel(FakeVoiceEngine* engine, const AudioOptions& options) : engine_(engine), time_since_last_typing_(-1) { output_scalings_[0] = 1.0; // For default channel. SetOptions(options); } ~FakeVoiceMediaChannel(); const std::vector<AudioCodec>& recv_codecs() const { return recv_codecs_; } const std::vector<AudioCodec>& send_codecs() const { return send_codecs_; } const std::vector<AudioCodec>& codecs() const { return send_codecs(); } const std::vector<DtmfInfo>& dtmf_info_queue() const { return dtmf_info_queue_; } const AudioOptions& options() const { return options_; } virtual bool SetSendParameters(const AudioSendParameters& params) { return (SetSendCodecs(params.codecs) && SetSendRtpHeaderExtensions(params.extensions) && SetMaxSendBandwidth(params.max_bandwidth_bps) && SetOptions(params.options)); } virtual bool SetRecvParameters(const AudioRecvParameters& params) { return (SetRecvCodecs(params.codecs) && SetRecvRtpHeaderExtensions(params.extensions)); } virtual bool SetPlayout(bool playout) { set_playout(playout); return true; } virtual bool SetSend(SendFlags flag) { return set_sending(flag != SEND_NOTHING); } virtual bool SetAudioSend(uint32_t ssrc, bool enable, const AudioOptions* options, AudioRenderer* renderer) { if (!SetLocalRenderer(ssrc, renderer)) { return false; } if (!RtpHelper<VoiceMediaChannel>::MuteStream(ssrc, !enable)) { return false; } if (enable && options) { return SetOptions(*options); } return true; } virtual bool AddRecvStream(const StreamParams& sp) { if (!RtpHelper<VoiceMediaChannel>::AddRecvStream(sp)) return false; output_scalings_[sp.first_ssrc()] = 1.0; return true; } virtual bool RemoveRecvStream(uint32_t ssrc) { if (!RtpHelper<VoiceMediaChannel>::RemoveRecvStream(ssrc)) return false; output_scalings_.erase(ssrc); return true; } virtual bool GetActiveStreams(AudioInfo::StreamList* streams) { return true; } virtual int GetOutputLevel() { return 0; } void set_time_since_last_typing(int ms) { time_since_last_typing_ = ms; } virtual int GetTimeSinceLastTyping() { return time_since_last_typing_; } virtual void SetTypingDetectionParameters( int time_window, int cost_per_typing, int reporting_threshold, int penalty_decay, int type_event_delay) {} virtual bool CanInsertDtmf() { for (std::vector<AudioCodec>::const_iterator it = send_codecs_.begin(); it != send_codecs_.end(); ++it) { // Find the DTMF telephone event "codec". if (_stricmp(it->name.c_str(), "telephone-event") == 0) { return true; } } return false; } virtual bool InsertDtmf(uint32_t ssrc, int event_code, int duration) { dtmf_info_queue_.push_back(DtmfInfo(ssrc, event_code, duration)); return true; } virtual bool SetOutputVolume(uint32_t ssrc, double volume) { if (0 == ssrc) { std::map<uint32_t, double>::iterator it; for (it = output_scalings_.begin(); it != output_scalings_.end(); ++it) { it->second = volume; } return true; } else if (output_scalings_.find(ssrc) != output_scalings_.end()) { output_scalings_[ssrc] = volume; return true; } return false; } bool GetOutputVolume(uint32_t ssrc, double* volume) { if (output_scalings_.find(ssrc) == output_scalings_.end()) return false; *volume = output_scalings_[ssrc]; return true; } virtual bool GetStats(VoiceMediaInfo* info) { return false; } virtual void SetRawAudioSink( uint32_t ssrc, rtc::scoped_ptr<webrtc::AudioSinkInterface> sink) { sink_ = std::move(sink); } private: class VoiceChannelAudioSink : public AudioRenderer::Sink { public: explicit VoiceChannelAudioSink(AudioRenderer* renderer) : renderer_(renderer) { renderer_->SetSink(this); } virtual ~VoiceChannelAudioSink() { if (renderer_) { renderer_->SetSink(NULL); } } void OnData(const void* audio_data, int bits_per_sample, int sample_rate, size_t number_of_channels, size_t number_of_frames) override {} void OnClose() override { renderer_ = NULL; } AudioRenderer* renderer() const { return renderer_; } private: AudioRenderer* renderer_; }; bool SetRecvCodecs(const std::vector<AudioCodec>& codecs) { if (fail_set_recv_codecs()) { // Fake the failure in SetRecvCodecs. return false; } recv_codecs_ = codecs; return true; } bool SetSendCodecs(const std::vector<AudioCodec>& codecs) { if (fail_set_send_codecs()) { // Fake the failure in SetSendCodecs. return false; } send_codecs_ = codecs; return true; } bool SetMaxSendBandwidth(int bps) { return true; } bool SetOptions(const AudioOptions& options) { // Does a "merge" of current options and set options. options_.SetAll(options); return true; } bool SetLocalRenderer(uint32_t ssrc, AudioRenderer* renderer) { auto it = local_renderers_.find(ssrc); if (renderer) { if (it != local_renderers_.end()) { ASSERT(it->second->renderer() == renderer); } else { local_renderers_.insert(std::make_pair( ssrc, new VoiceChannelAudioSink(renderer))); } } else { if (it != local_renderers_.end()) { delete it->second; local_renderers_.erase(it); } } return true; } FakeVoiceEngine* engine_; std::vector<AudioCodec> recv_codecs_; std::vector<AudioCodec> send_codecs_; std::map<uint32_t, double> output_scalings_; std::vector<DtmfInfo> dtmf_info_queue_; int time_since_last_typing_; AudioOptions options_; std::map<uint32_t, VoiceChannelAudioSink*> local_renderers_; rtc::scoped_ptr<webrtc::AudioSinkInterface> sink_; }; // A helper function to compare the FakeVoiceMediaChannel::DtmfInfo. inline 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); } class FakeVideoMediaChannel : public RtpHelper<VideoMediaChannel> { public: explicit FakeVideoMediaChannel(FakeVideoEngine* engine, const VideoOptions& options) : engine_(engine), sent_intra_frame_(false), requested_intra_frame_(false), max_bps_(-1) { SetOptions(options); } ~FakeVideoMediaChannel(); const std::vector<VideoCodec>& recv_codecs() const { return recv_codecs_; } const std::vector<VideoCodec>& send_codecs() const { return send_codecs_; } const std::vector<VideoCodec>& codecs() const { return send_codecs(); } bool rendering() const { return playout(); } const VideoOptions& options() const { return options_; } const std::map<uint32_t, VideoRenderer*>& renderers() const { return renderers_; } int max_bps() const { return max_bps_; } bool GetSendStreamFormat(uint32_t ssrc, VideoFormat* format) { if (send_formats_.find(ssrc) == send_formats_.end()) { return false; } *format = send_formats_[ssrc]; return true; } virtual bool SetSendStreamFormat(uint32_t ssrc, const VideoFormat& format) { if (send_formats_.find(ssrc) == send_formats_.end()) { return false; } send_formats_[ssrc] = format; return true; } virtual bool SetSendParameters(const VideoSendParameters& params) { return (SetSendCodecs(params.codecs) && SetSendRtpHeaderExtensions(params.extensions) && SetMaxSendBandwidth(params.max_bandwidth_bps) && SetOptions(params.options)); } virtual bool SetRecvParameters(const VideoRecvParameters& params) { return (SetRecvCodecs(params.codecs) && SetRecvRtpHeaderExtensions(params.extensions)); } virtual bool AddSendStream(const StreamParams& sp) { if (!RtpHelper<VideoMediaChannel>::AddSendStream(sp)) { return false; } SetSendStreamDefaultFormat(sp.first_ssrc()); return true; } virtual bool RemoveSendStream(uint32_t ssrc) { send_formats_.erase(ssrc); return RtpHelper<VideoMediaChannel>::RemoveSendStream(ssrc); } virtual bool GetSendCodec(VideoCodec* send_codec) { if (send_codecs_.empty()) { return false; } *send_codec = send_codecs_[0]; return true; } virtual bool SetRenderer(uint32_t ssrc, VideoRenderer* r) { if (ssrc != 0 && renderers_.find(ssrc) == renderers_.end()) { return false; } if (ssrc != 0) { renderers_[ssrc] = r; } return true; } virtual bool SetSend(bool send) { return set_sending(send); } virtual bool SetVideoSend(uint32_t ssrc, bool enable, const VideoOptions* options) { if (!RtpHelper<VideoMediaChannel>::MuteStream(ssrc, !enable)) { return false; } if (enable && options) { return SetOptions(*options); } return true; } virtual bool SetCapturer(uint32_t ssrc, VideoCapturer* capturer) { capturers_[ssrc] = capturer; return true; } bool HasCapturer(uint32_t ssrc) const { return capturers_.find(ssrc) != capturers_.end(); } virtual bool AddRecvStream(const StreamParams& sp) { if (!RtpHelper<VideoMediaChannel>::AddRecvStream(sp)) return false; renderers_[sp.first_ssrc()] = NULL; return true; } virtual bool RemoveRecvStream(uint32_t ssrc) { if (!RtpHelper<VideoMediaChannel>::RemoveRecvStream(ssrc)) return false; renderers_.erase(ssrc); return true; } virtual bool GetStats(VideoMediaInfo* info) { return false; } virtual bool SendIntraFrame() { sent_intra_frame_ = true; return true; } virtual bool RequestIntraFrame() { requested_intra_frame_ = true; return true; } virtual void UpdateAspectRatio(int ratio_w, int ratio_h) {} void set_sent_intra_frame(bool v) { sent_intra_frame_ = v; } bool sent_intra_frame() const { return sent_intra_frame_; } void set_requested_intra_frame(bool v) { requested_intra_frame_ = v; } bool requested_intra_frame() const { return requested_intra_frame_; } private: bool SetRecvCodecs(const std::vector<VideoCodec>& codecs) { if (fail_set_recv_codecs()) { // Fake the failure in SetRecvCodecs. return false; } recv_codecs_ = codecs; return true; } bool SetSendCodecs(const std::vector<VideoCodec>& codecs) { if (fail_set_send_codecs()) { // Fake the failure in SetSendCodecs. return false; } send_codecs_ = codecs; for (std::vector<StreamParams>::const_iterator it = send_streams().begin(); it != send_streams().end(); ++it) { SetSendStreamDefaultFormat(it->first_ssrc()); } return true; } bool SetOptions(const VideoOptions& options) { options_ = options; return true; } bool SetMaxSendBandwidth(int bps) { max_bps_ = bps; return true; } // Be default, each send stream uses the first send codec format. void SetSendStreamDefaultFormat(uint32_t ssrc) { if (!send_codecs_.empty()) { send_formats_[ssrc] = VideoFormat( send_codecs_[0].width, send_codecs_[0].height, cricket::VideoFormat::FpsToInterval(send_codecs_[0].framerate), cricket::FOURCC_I420); } } FakeVideoEngine* engine_; std::vector<VideoCodec> recv_codecs_; std::vector<VideoCodec> send_codecs_; std::map<uint32_t, VideoRenderer*> renderers_; std::map<uint32_t, VideoFormat> send_formats_; std::map<uint32_t, VideoCapturer*> capturers_; bool sent_intra_frame_; bool requested_intra_frame_; VideoOptions options_; int max_bps_; }; class FakeDataMediaChannel : public RtpHelper<DataMediaChannel> { public: explicit FakeDataMediaChannel(void* unused, const DataOptions& options) : send_blocked_(false), max_bps_(-1) {} ~FakeDataMediaChannel() {} const std::vector<DataCodec>& recv_codecs() const { return recv_codecs_; } const std::vector<DataCodec>& send_codecs() const { return send_codecs_; } const std::vector<DataCodec>& codecs() const { return send_codecs(); } int max_bps() const { return max_bps_; } virtual bool SetSendParameters(const DataSendParameters& params) { return (SetSendCodecs(params.codecs) && SetMaxSendBandwidth(params.max_bandwidth_bps)); } virtual bool SetRecvParameters(const DataRecvParameters& params) { return SetRecvCodecs(params.codecs); } virtual bool SetSend(bool send) { return set_sending(send); } virtual bool SetReceive(bool receive) { set_playout(receive); return true; } virtual bool AddRecvStream(const StreamParams& sp) { if (!RtpHelper<DataMediaChannel>::AddRecvStream(sp)) return false; return true; } virtual bool RemoveRecvStream(uint32_t ssrc) { if (!RtpHelper<DataMediaChannel>::RemoveRecvStream(ssrc)) return false; return true; } virtual bool SendData(const SendDataParams& params, const rtc::Buffer& payload, SendDataResult* result) { if (send_blocked_) { *result = SDR_BLOCK; return false; } else { last_sent_data_params_ = params; last_sent_data_ = std::string(payload.data<char>(), payload.size()); return true; } } SendDataParams last_sent_data_params() { return last_sent_data_params_; } std::string last_sent_data() { return last_sent_data_; } bool is_send_blocked() { return send_blocked_; } void set_send_blocked(bool blocked) { send_blocked_ = blocked; } private: bool SetRecvCodecs(const std::vector<DataCodec>& codecs) { if (fail_set_recv_codecs()) { // Fake the failure in SetRecvCodecs. return false; } recv_codecs_ = codecs; return true; } bool SetSendCodecs(const std::vector<DataCodec>& codecs) { if (fail_set_send_codecs()) { // Fake the failure in SetSendCodecs. return false; } send_codecs_ = codecs; return true; } bool SetMaxSendBandwidth(int bps) { max_bps_ = bps; return true; } std::vector<DataCodec> recv_codecs_; std::vector<DataCodec> send_codecs_; SendDataParams last_sent_data_params_; std::string last_sent_data_; bool send_blocked_; int max_bps_; }; // A base class for all of the shared parts between FakeVoiceEngine // and FakeVideoEngine. class FakeBaseEngine { public: FakeBaseEngine() : options_changed_(false), fail_create_channel_(false) {} void set_fail_create_channel(bool fail) { fail_create_channel_ = fail; } RtpCapabilities GetCapabilities() const { return capabilities_; } void set_rtp_header_extensions( const std::vector<RtpHeaderExtension>& extensions) { capabilities_.header_extensions = extensions; } protected: // Flag used by optionsmessagehandler_unittest for checking whether any // relevant setting has been updated. // TODO(thaloun): Replace with explicit checks of before & after values. bool options_changed_; bool fail_create_channel_; RtpCapabilities capabilities_; }; class FakeVoiceEngine : public FakeBaseEngine { public: FakeVoiceEngine() : output_volume_(-1) { // Add a fake audio codec. Note that the name must not be "" as there are // sanity checks against that. codecs_.push_back(AudioCodec(101, "fake_audio_codec", 0, 0, 1, 0)); } bool Init(rtc::Thread* worker_thread) { return true; } void Terminate() {} rtc::scoped_refptr<webrtc::AudioState> GetAudioState() const { return rtc::scoped_refptr<webrtc::AudioState>(); } VoiceMediaChannel* CreateChannel(webrtc::Call* call, const AudioOptions& options) { if (fail_create_channel_) { return nullptr; } FakeVoiceMediaChannel* ch = new FakeVoiceMediaChannel(this, options); channels_.push_back(ch); return ch; } FakeVoiceMediaChannel* GetChannel(size_t index) { return (channels_.size() > index) ? channels_[index] : NULL; } void UnregisterChannel(VoiceMediaChannel* channel) { channels_.erase(std::find(channels_.begin(), channels_.end(), channel)); } const std::vector<AudioCodec>& codecs() { return codecs_; } void SetCodecs(const std::vector<AudioCodec> codecs) { codecs_ = codecs; } bool GetOutputVolume(int* level) { *level = output_volume_; return true; } bool SetOutputVolume(int level) { output_volume_ = level; return true; } int GetInputLevel() { return 0; } bool StartAecDump(rtc::PlatformFile file) { return false; } void StopAecDump() {} bool StartRtcEventLog(rtc::PlatformFile file) { return false; } void StopRtcEventLog() {} private: std::vector<FakeVoiceMediaChannel*> channels_; std::vector<AudioCodec> codecs_; int output_volume_; friend class FakeMediaEngine; }; class FakeVideoEngine : public FakeBaseEngine { public: FakeVideoEngine() : capture_(false) { // Add a fake video codec. Note that the name must not be "" as there are // sanity checks against that. codecs_.push_back(VideoCodec(0, "fake_video_codec", 0, 0, 0, 0)); } void Init() {} bool SetOptions(const VideoOptions& options) { options_ = options; options_changed_ = true; return true; } VideoMediaChannel* CreateChannel(webrtc::Call* call, const VideoOptions& options) { if (fail_create_channel_) { return NULL; } FakeVideoMediaChannel* ch = new FakeVideoMediaChannel(this, options); channels_.push_back(ch); return ch; } FakeVideoMediaChannel* GetChannel(size_t index) { return (channels_.size() > index) ? channels_[index] : NULL; } void UnregisterChannel(VideoMediaChannel* channel) { channels_.erase(std::find(channels_.begin(), channels_.end(), channel)); } const std::vector<VideoCodec>& codecs() const { return codecs_; } bool FindCodec(const VideoCodec& in) { for (size_t i = 0; i < codecs_.size(); ++i) { if (codecs_[i].Matches(in)) { return true; } } return false; } void SetCodecs(const std::vector<VideoCodec> codecs) { codecs_ = codecs; } bool SetCaptureDevice(const Device* device) { in_device_ = (device) ? device->name : ""; options_changed_ = true; return true; } bool SetCapture(bool capture) { capture_ = capture; return true; } private: std::vector<FakeVideoMediaChannel*> channels_; std::vector<VideoCodec> codecs_; std::string in_device_; bool capture_; VideoOptions options_; friend class FakeMediaEngine; }; class FakeMediaEngine : public CompositeMediaEngine<FakeVoiceEngine, FakeVideoEngine> { public: FakeMediaEngine() {} virtual ~FakeMediaEngine() {} void SetAudioCodecs(const std::vector<AudioCodec>& codecs) { voice_.SetCodecs(codecs); } void SetVideoCodecs(const std::vector<VideoCodec>& codecs) { video_.SetCodecs(codecs); } void SetAudioRtpHeaderExtensions( const std::vector<RtpHeaderExtension>& extensions) { voice_.set_rtp_header_extensions(extensions); } void SetVideoRtpHeaderExtensions( const std::vector<RtpHeaderExtension>& extensions) { video_.set_rtp_header_extensions(extensions); } FakeVoiceMediaChannel* GetVoiceChannel(size_t index) { return voice_.GetChannel(index); } FakeVideoMediaChannel* GetVideoChannel(size_t index) { return video_.GetChannel(index); } int output_volume() const { return voice_.output_volume_; } bool capture() const { return video_.capture_; } bool options_changed() const { return video_.options_changed_; } void clear_options_changed() { video_.options_changed_ = false; } void set_fail_create_channel(bool fail) { voice_.set_fail_create_channel(fail); video_.set_fail_create_channel(fail); } }; // CompositeMediaEngine with FakeVoiceEngine to expose SetAudioCodecs to // establish a media connectionwith minimum set of audio codes required template <class VIDEO> class CompositeMediaEngineWithFakeVoiceEngine : public CompositeMediaEngine<FakeVoiceEngine, VIDEO> { public: CompositeMediaEngineWithFakeVoiceEngine() {} virtual ~CompositeMediaEngineWithFakeVoiceEngine() {} virtual void SetAudioCodecs(const std::vector<AudioCodec>& codecs) { CompositeMediaEngine<FakeVoiceEngine, VIDEO>::voice_.SetCodecs(codecs); } }; // Have to come afterwards due to declaration order inline FakeVoiceMediaChannel::~FakeVoiceMediaChannel() { if (engine_) { engine_->UnregisterChannel(this); } } inline FakeVideoMediaChannel::~FakeVideoMediaChannel() { if (engine_) { engine_->UnregisterChannel(this); } } class FakeDataEngine : public DataEngineInterface { public: FakeDataEngine() : last_channel_type_(DCT_NONE) {} virtual DataMediaChannel* CreateChannel(DataChannelType data_channel_type) { last_channel_type_ = data_channel_type; FakeDataMediaChannel* ch = new FakeDataMediaChannel(this, DataOptions()); channels_.push_back(ch); return ch; } FakeDataMediaChannel* GetChannel(size_t index) { return (channels_.size() > index) ? channels_[index] : NULL; } void UnregisterChannel(DataMediaChannel* channel) { channels_.erase(std::find(channels_.begin(), channels_.end(), channel)); } virtual void SetDataCodecs(const std::vector<DataCodec>& data_codecs) { data_codecs_ = data_codecs; } virtual const std::vector<DataCodec>& data_codecs() { return data_codecs_; } DataChannelType last_channel_type() const { return last_channel_type_; } private: std::vector<FakeDataMediaChannel*> channels_; std::vector<DataCodec> data_codecs_; DataChannelType last_channel_type_; }; } // namespace cricket #endif // TALK_MEDIA_BASE_FAKEMEDIAENGINE_H_