/* * Copyright 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 "pc/channel.h" #include #include #include "absl/algorithm/container.h" #include "absl/memory/memory.h" #include "api/call/audio_sink.h" #include "media/base/media_constants.h" #include "media/base/rtp_utils.h" #include "modules/rtp_rtcp/source/rtp_packet_received.h" #include "p2p/base/packet_transport_internal.h" #include "pc/channel_manager.h" #include "pc/rtp_media_utils.h" #include "rtc_base/bind.h" #include "rtc_base/byte_order.h" #include "rtc_base/checks.h" #include "rtc_base/copy_on_write_buffer.h" #include "rtc_base/dscp.h" #include "rtc_base/logging.h" #include "rtc_base/network_route.h" #include "rtc_base/strings/string_builder.h" #include "rtc_base/trace_event.h" namespace cricket { using rtc::Bind; using rtc::UniqueRandomIdGenerator; using webrtc::SdpType; namespace { struct SendPacketMessageData : public rtc::MessageData { rtc::CopyOnWriteBuffer packet; rtc::PacketOptions options; }; // Finds a stream based on target's Primary SSRC or RIDs. // This struct is used in BaseChannel::UpdateLocalStreams_w. struct StreamFinder { explicit StreamFinder(const StreamParams* target) : target_(target) { RTC_DCHECK(target); } bool operator()(const StreamParams& sp) const { if (target_->has_ssrcs() && sp.has_ssrcs()) { return sp.has_ssrc(target_->first_ssrc()); } if (!target_->has_rids() && !sp.has_rids()) { return false; } const std::vector& target_rids = target_->rids(); const std::vector& source_rids = sp.rids(); if (source_rids.size() != target_rids.size()) { return false; } // Check that all RIDs match. return std::equal(source_rids.begin(), source_rids.end(), target_rids.begin(), [](const RidDescription& lhs, const RidDescription& rhs) { return lhs.rid == rhs.rid; }); } const StreamParams* target_; }; } // namespace enum { MSG_SEND_RTP_PACKET = 1, MSG_SEND_RTCP_PACKET, MSG_READYTOSENDDATA, MSG_DATARECEIVED, MSG_FIRSTPACKETRECEIVED, }; static void SafeSetError(const std::string& message, std::string* error_desc) { if (error_desc) { *error_desc = message; } } template void RtpParametersFromMediaDescription( const MediaContentDescriptionImpl* desc, const RtpHeaderExtensions& extensions, bool is_stream_active, RtpParameters* params) { params->is_stream_active = is_stream_active; params->codecs = desc->codecs(); // TODO(bugs.webrtc.org/11513): See if we really need // rtp_header_extensions_set() and remove it if we don't. if (desc->rtp_header_extensions_set()) { params->extensions = extensions; } params->rtcp.reduced_size = desc->rtcp_reduced_size(); params->rtcp.remote_estimate = desc->remote_estimate(); } template void RtpSendParametersFromMediaDescription( const MediaContentDescriptionImpl* desc, const RtpHeaderExtensions& extensions, bool is_stream_active, RtpSendParameters* send_params) { RtpParametersFromMediaDescription(desc, extensions, is_stream_active, send_params); send_params->max_bandwidth_bps = desc->bandwidth(); send_params->extmap_allow_mixed = desc->extmap_allow_mixed(); } BaseChannel::BaseChannel(rtc::Thread* worker_thread, rtc::Thread* network_thread, rtc::Thread* signaling_thread, std::unique_ptr media_channel, const std::string& content_name, bool srtp_required, webrtc::CryptoOptions crypto_options, UniqueRandomIdGenerator* ssrc_generator) : worker_thread_(worker_thread), network_thread_(network_thread), signaling_thread_(signaling_thread), content_name_(content_name), srtp_required_(srtp_required), crypto_options_(crypto_options), media_channel_(std::move(media_channel)), ssrc_generator_(ssrc_generator) { RTC_DCHECK_RUN_ON(worker_thread_); RTC_DCHECK(ssrc_generator_); demuxer_criteria_.mid = content_name; RTC_LOG(LS_INFO) << "Created channel: " << ToString(); } BaseChannel::~BaseChannel() { TRACE_EVENT0("webrtc", "BaseChannel::~BaseChannel"); RTC_DCHECK_RUN_ON(worker_thread_); // Eats any outstanding messages or packets. worker_thread_->Clear(&invoker_); worker_thread_->Clear(this); // We must destroy the media channel before the transport channel, otherwise // the media channel may try to send on the dead transport channel. NULLing // is not an effective strategy since the sends will come on another thread. media_channel_.reset(); RTC_LOG(LS_INFO) << "Destroyed channel: " << ToString(); } std::string BaseChannel::ToString() const { rtc::StringBuilder sb; sb << "{mid: " << content_name_; if (media_channel_) { sb << ", media_type: " << MediaTypeToString(media_channel_->media_type()); } sb << "}"; return sb.Release(); } bool BaseChannel::ConnectToRtpTransport() { RTC_DCHECK(rtp_transport_); if (!RegisterRtpDemuxerSink()) { RTC_LOG(LS_ERROR) << "Failed to set up demuxing for " << ToString(); return false; } rtp_transport_->SignalReadyToSend.connect( this, &BaseChannel::OnTransportReadyToSend); rtp_transport_->SignalNetworkRouteChanged.connect( this, &BaseChannel::OnNetworkRouteChanged); rtp_transport_->SignalWritableState.connect(this, &BaseChannel::OnWritableState); rtp_transport_->SignalSentPacket.connect(this, &BaseChannel::SignalSentPacket_n); return true; } void BaseChannel::DisconnectFromRtpTransport() { RTC_DCHECK(rtp_transport_); rtp_transport_->UnregisterRtpDemuxerSink(this); rtp_transport_->SignalReadyToSend.disconnect(this); rtp_transport_->SignalNetworkRouteChanged.disconnect(this); rtp_transport_->SignalWritableState.disconnect(this); rtp_transport_->SignalSentPacket.disconnect(this); } void BaseChannel::Init_w(webrtc::RtpTransportInternal* rtp_transport) { RTC_DCHECK_RUN_ON(worker_thread_); network_thread_->Invoke( RTC_FROM_HERE, [this, rtp_transport] { SetRtpTransport(rtp_transport); }); // Both RTP and RTCP channels should be set, we can call SetInterface on // the media channel and it can set network options. media_channel_->SetInterface(this); } void BaseChannel::Deinit() { RTC_DCHECK(worker_thread_->IsCurrent()); media_channel_->SetInterface(/*iface=*/nullptr); // Packets arrive on the network thread, processing packets calls virtual // functions, so need to stop this process in Deinit that is called in // derived classes destructor. network_thread_->Invoke(RTC_FROM_HERE, [&] { FlushRtcpMessages_n(); if (rtp_transport_) { DisconnectFromRtpTransport(); } // Clear pending read packets/messages. network_thread_->Clear(&invoker_); network_thread_->Clear(this); }); } bool BaseChannel::SetRtpTransport(webrtc::RtpTransportInternal* rtp_transport) { if (rtp_transport == rtp_transport_) { return true; } if (!network_thread_->IsCurrent()) { return network_thread_->Invoke(RTC_FROM_HERE, [this, rtp_transport] { return SetRtpTransport(rtp_transport); }); } if (rtp_transport_) { DisconnectFromRtpTransport(); } rtp_transport_ = rtp_transport; if (rtp_transport_) { transport_name_ = rtp_transport_->transport_name(); if (!ConnectToRtpTransport()) { RTC_LOG(LS_ERROR) << "Failed to connect to the new RtpTransport for " << ToString() << "."; return false; } OnTransportReadyToSend(rtp_transport_->IsReadyToSend()); UpdateWritableState_n(); // Set the cached socket options. for (const auto& pair : socket_options_) { rtp_transport_->SetRtpOption(pair.first, pair.second); } if (!rtp_transport_->rtcp_mux_enabled()) { for (const auto& pair : rtcp_socket_options_) { rtp_transport_->SetRtcpOption(pair.first, pair.second); } } } return true; } bool BaseChannel::Enable(bool enable) { worker_thread_->Invoke( RTC_FROM_HERE, Bind(enable ? &BaseChannel::EnableMedia_w : &BaseChannel::DisableMedia_w, this)); return true; } bool BaseChannel::SetLocalContent(const MediaContentDescription* content, SdpType type, std::string* error_desc) { TRACE_EVENT0("webrtc", "BaseChannel::SetLocalContent"); return InvokeOnWorker( RTC_FROM_HERE, Bind(&BaseChannel::SetLocalContent_w, this, content, type, error_desc)); } bool BaseChannel::SetRemoteContent(const MediaContentDescription* content, SdpType type, std::string* error_desc) { TRACE_EVENT0("webrtc", "BaseChannel::SetRemoteContent"); return InvokeOnWorker( RTC_FROM_HERE, Bind(&BaseChannel::SetRemoteContent_w, this, content, type, error_desc)); } bool BaseChannel::IsReadyToReceiveMedia_w() const { // Receive data if we are enabled and have local content, return enabled() && webrtc::RtpTransceiverDirectionHasRecv(local_content_direction_); } bool BaseChannel::IsReadyToSendMedia_w() const { // Need to access some state updated on the network thread. return network_thread_->Invoke( RTC_FROM_HERE, Bind(&BaseChannel::IsReadyToSendMedia_n, this)); } bool BaseChannel::IsReadyToSendMedia_n() const { // Send outgoing data if we are enabled, have local and remote content, // and we have had some form of connectivity. return enabled() && webrtc::RtpTransceiverDirectionHasRecv(remote_content_direction_) && webrtc::RtpTransceiverDirectionHasSend(local_content_direction_) && was_ever_writable(); } bool BaseChannel::SendPacket(rtc::CopyOnWriteBuffer* packet, const rtc::PacketOptions& options) { return SendPacket(false, packet, options); } bool BaseChannel::SendRtcp(rtc::CopyOnWriteBuffer* packet, const rtc::PacketOptions& options) { return SendPacket(true, packet, options); } int BaseChannel::SetOption(SocketType type, rtc::Socket::Option opt, int value) { return network_thread_->Invoke( RTC_FROM_HERE, Bind(&BaseChannel::SetOption_n, this, type, opt, value)); } int BaseChannel::SetOption_n(SocketType type, rtc::Socket::Option opt, int value) { RTC_DCHECK(network_thread_->IsCurrent()); RTC_DCHECK(rtp_transport_); switch (type) { case ST_RTP: socket_options_.push_back( std::pair(opt, value)); return rtp_transport_->SetRtpOption(opt, value); case ST_RTCP: rtcp_socket_options_.push_back( std::pair(opt, value)); return rtp_transport_->SetRtcpOption(opt, value); } return -1; } void BaseChannel::OnWritableState(bool writable) { RTC_DCHECK(network_thread_->IsCurrent()); if (writable) { ChannelWritable_n(); } else { ChannelNotWritable_n(); } } void BaseChannel::OnNetworkRouteChanged( absl::optional network_route) { RTC_LOG(LS_INFO) << "Network route for " << ToString() << " was changed."; RTC_DCHECK(network_thread_->IsCurrent()); rtc::NetworkRoute new_route; if (network_route) { new_route = *(network_route); } // Note: When the RTCP-muxing is not enabled, RTCP transport and RTP transport // use the same transport name and MediaChannel::OnNetworkRouteChanged cannot // work correctly. Intentionally leave it broken to simplify the code and // encourage the users to stop using non-muxing RTCP. invoker_.AsyncInvoke(RTC_FROM_HERE, worker_thread_, [=] { media_channel_->OnNetworkRouteChanged(transport_name_, new_route); }); } void BaseChannel::OnTransportReadyToSend(bool ready) { invoker_.AsyncInvoke(RTC_FROM_HERE, worker_thread_, [=] { media_channel_->OnReadyToSend(ready); }); } bool BaseChannel::SendPacket(bool rtcp, rtc::CopyOnWriteBuffer* packet, const rtc::PacketOptions& options) { // Until all the code is migrated to use RtpPacketType instead of bool. RtpPacketType packet_type = rtcp ? RtpPacketType::kRtcp : RtpPacketType::kRtp; // SendPacket gets called from MediaEngine, on a pacer or an encoder thread. // If the thread is not our network thread, we will post to our network // so that the real work happens on our network. This avoids us having to // synchronize access to all the pieces of the send path, including // SRTP and the inner workings of the transport channels. // The only downside is that we can't return a proper failure code if // needed. Since UDP is unreliable anyway, this should be a non-issue. if (!network_thread_->IsCurrent()) { // Avoid a copy by transferring the ownership of the packet data. int message_id = rtcp ? MSG_SEND_RTCP_PACKET : MSG_SEND_RTP_PACKET; SendPacketMessageData* data = new SendPacketMessageData; data->packet = std::move(*packet); data->options = options; network_thread_->Post(RTC_FROM_HERE, this, message_id, data); return true; } TRACE_EVENT0("webrtc", "BaseChannel::SendPacket"); // Now that we are on the correct thread, ensure we have a place to send this // packet before doing anything. (We might get RTCP packets that we don't // intend to send.) If we've negotiated RTCP mux, send RTCP over the RTP // transport. if (!rtp_transport_ || !rtp_transport_->IsWritable(rtcp)) { return false; } // Protect ourselves against crazy data. if (!IsValidRtpPacketSize(packet_type, packet->size())) { RTC_LOG(LS_ERROR) << "Dropping outgoing " << ToString() << " " << RtpPacketTypeToString(packet_type) << " packet: wrong size=" << packet->size(); return false; } if (!srtp_active()) { if (srtp_required_) { // The audio/video engines may attempt to send RTCP packets as soon as the // streams are created, so don't treat this as an error for RTCP. // See: https://bugs.chromium.org/p/webrtc/issues/detail?id=6809 if (rtcp) { return false; } // However, there shouldn't be any RTP packets sent before SRTP is set up // (and SetSend(true) is called). RTC_LOG(LS_ERROR) << "Can't send outgoing RTP packet for " << ToString() << " when SRTP is inactive and crypto is required"; RTC_NOTREACHED(); return false; } std::string packet_type = rtcp ? "RTCP" : "RTP"; RTC_DLOG(LS_WARNING) << "Sending an " << packet_type << " packet without encryption for " << ToString() << "."; } // Bon voyage. return rtcp ? rtp_transport_->SendRtcpPacket(packet, options, PF_SRTP_BYPASS) : rtp_transport_->SendRtpPacket(packet, options, PF_SRTP_BYPASS); } void BaseChannel::OnRtpPacket(const webrtc::RtpPacketReceived& parsed_packet) { // Take packet time from the |parsed_packet|. // RtpPacketReceived.arrival_time_ms = (timestamp_us + 500) / 1000; int64_t packet_time_us = -1; if (parsed_packet.arrival_time_ms() > 0) { packet_time_us = parsed_packet.arrival_time_ms() * 1000; } if (!has_received_packet_) { has_received_packet_ = true; signaling_thread()->Post(RTC_FROM_HERE, this, MSG_FIRSTPACKETRECEIVED); } if (!srtp_active() && srtp_required_) { // Our session description indicates that SRTP is required, but we got a // packet before our SRTP filter is active. This means either that // a) we got SRTP packets before we received the SDES keys, in which case // we can't decrypt it anyway, or // b) we got SRTP packets before DTLS completed on both the RTP and RTCP // transports, so we haven't yet extracted keys, even if DTLS did // complete on the transport that the packets are being sent on. It's // really good practice to wait for both RTP and RTCP to be good to go // before sending media, to prevent weird failure modes, so it's fine // for us to just eat packets here. This is all sidestepped if RTCP mux // is used anyway. RTC_LOG(LS_WARNING) << "Can't process incoming RTP packet when " "SRTP is inactive and crypto is required " << ToString(); return; } auto packet_buffer = parsed_packet.Buffer(); invoker_.AsyncInvoke( RTC_FROM_HERE, worker_thread_, [this, packet_buffer, packet_time_us] { RTC_DCHECK(worker_thread_->IsCurrent()); media_channel_->OnPacketReceived(packet_buffer, packet_time_us); }); } void BaseChannel::UpdateRtpHeaderExtensionMap( const RtpHeaderExtensions& header_extensions) { RTC_DCHECK(rtp_transport_); // Update the header extension map on network thread in case there is data // race. // TODO(zhihuang): Add an rtc::ThreadChecker make sure to RtpTransport won't // be accessed from different threads. // // NOTE: This doesn't take the BUNDLE case in account meaning the RTP header // extension maps are not merged when BUNDLE is enabled. This is fine because // the ID for MID should be consistent among all the RTP transports. network_thread_->Invoke(RTC_FROM_HERE, [this, &header_extensions] { rtp_transport_->UpdateRtpHeaderExtensionMap(header_extensions); }); } bool BaseChannel::RegisterRtpDemuxerSink() { RTC_DCHECK(rtp_transport_); return network_thread_->Invoke(RTC_FROM_HERE, [this] { return rtp_transport_->RegisterRtpDemuxerSink(demuxer_criteria_, this); }); } void BaseChannel::EnableMedia_w() { RTC_DCHECK(worker_thread_ == rtc::Thread::Current()); if (enabled_) return; RTC_LOG(LS_INFO) << "Channel enabled: " << ToString(); enabled_ = true; UpdateMediaSendRecvState_w(); } void BaseChannel::DisableMedia_w() { RTC_DCHECK(worker_thread_ == rtc::Thread::Current()); if (!enabled_) return; RTC_LOG(LS_INFO) << "Channel disabled: " << ToString(); enabled_ = false; UpdateMediaSendRecvState_w(); } void BaseChannel::UpdateWritableState_n() { if (rtp_transport_->IsWritable(/*rtcp=*/true) && rtp_transport_->IsWritable(/*rtcp=*/false)) { ChannelWritable_n(); } else { ChannelNotWritable_n(); } } void BaseChannel::ChannelWritable_n() { RTC_DCHECK(network_thread_->IsCurrent()); if (writable_) { return; } RTC_LOG(LS_INFO) << "Channel writable (" << ToString() << ")" << (was_ever_writable_ ? "" : " for the first time"); was_ever_writable_ = true; writable_ = true; UpdateMediaSendRecvState(); } void BaseChannel::ChannelNotWritable_n() { RTC_DCHECK(network_thread_->IsCurrent()); if (!writable_) return; RTC_LOG(LS_INFO) << "Channel not writable (" << ToString() << ")"; writable_ = false; UpdateMediaSendRecvState(); } bool BaseChannel::AddRecvStream_w(const StreamParams& sp) { RTC_DCHECK(worker_thread() == rtc::Thread::Current()); return media_channel()->AddRecvStream(sp); } bool BaseChannel::RemoveRecvStream_w(uint32_t ssrc) { RTC_DCHECK(worker_thread() == rtc::Thread::Current()); return media_channel()->RemoveRecvStream(ssrc); } void BaseChannel::ResetUnsignaledRecvStream_w() { RTC_DCHECK(worker_thread() == rtc::Thread::Current()); media_channel()->ResetUnsignaledRecvStream(); } bool BaseChannel::UpdateLocalStreams_w(const std::vector& streams, SdpType type, std::string* error_desc) { // In the case of RIDs (where SSRCs are not negotiated), this method will // generate an SSRC for each layer in StreamParams. That representation will // be stored internally in |local_streams_|. // In subsequent offers, the same stream can appear in |streams| again // (without the SSRCs), so it should be looked up using RIDs (if available) // and then by primary SSRC. // In both scenarios, it is safe to assume that the media channel will be // created with a StreamParams object with SSRCs. However, it is not safe to // assume that |local_streams_| will always have SSRCs as there are scenarios // in which niether SSRCs or RIDs are negotiated. // Check for streams that have been removed. bool ret = true; for (const StreamParams& old_stream : local_streams_) { if (!old_stream.has_ssrcs() || GetStream(streams, StreamFinder(&old_stream))) { continue; } if (!media_channel()->RemoveSendStream(old_stream.first_ssrc())) { rtc::StringBuilder desc; desc << "Failed to remove send stream with ssrc " << old_stream.first_ssrc() << " from m-section with mid='" << content_name() << "'."; SafeSetError(desc.str(), error_desc); ret = false; } } // Check for new streams. std::vector all_streams; for (const StreamParams& stream : streams) { StreamParams* existing = GetStream(local_streams_, StreamFinder(&stream)); if (existing) { // Parameters cannot change for an existing stream. all_streams.push_back(*existing); continue; } all_streams.push_back(stream); StreamParams& new_stream = all_streams.back(); if (!new_stream.has_ssrcs() && !new_stream.has_rids()) { continue; } RTC_DCHECK(new_stream.has_ssrcs() || new_stream.has_rids()); if (new_stream.has_ssrcs() && new_stream.has_rids()) { rtc::StringBuilder desc; desc << "Failed to add send stream: " << new_stream.first_ssrc() << " into m-section with mid='" << content_name() << "'. Stream has both SSRCs and RIDs."; SafeSetError(desc.str(), error_desc); ret = false; continue; } // At this point we use the legacy simulcast group in StreamParams to // indicate that we want multiple layers to the media channel. if (!new_stream.has_ssrcs()) { // TODO(bugs.webrtc.org/10250): Indicate if flex is desired here. new_stream.GenerateSsrcs(new_stream.rids().size(), /* rtx = */ true, /* flex_fec = */ false, ssrc_generator_); } if (media_channel()->AddSendStream(new_stream)) { RTC_LOG(LS_INFO) << "Add send stream ssrc: " << new_stream.ssrcs[0] << " into " << ToString(); } else { rtc::StringBuilder desc; desc << "Failed to add send stream ssrc: " << new_stream.first_ssrc() << " into m-section with mid='" << content_name() << "'"; SafeSetError(desc.str(), error_desc); ret = false; } } local_streams_ = all_streams; return ret; } bool BaseChannel::UpdateRemoteStreams_w( const std::vector& streams, SdpType type, std::string* error_desc) { // Check for streams that have been removed. bool ret = true; for (const StreamParams& old_stream : remote_streams_) { // If we no longer have an unsignaled stream, we would like to remove // the unsignaled stream params that are cached. if (!old_stream.has_ssrcs() && !HasStreamWithNoSsrcs(streams)) { ResetUnsignaledRecvStream_w(); RTC_LOG(LS_INFO) << "Reset unsignaled remote stream for " << ToString() << "."; } else if (old_stream.has_ssrcs() && !GetStreamBySsrc(streams, old_stream.first_ssrc())) { if (RemoveRecvStream_w(old_stream.first_ssrc())) { RTC_LOG(LS_INFO) << "Remove remote ssrc: " << old_stream.first_ssrc() << " from " << ToString() << "."; } else { rtc::StringBuilder desc; desc << "Failed to remove remote stream with ssrc " << old_stream.first_ssrc() << " from m-section with mid='" << content_name() << "'."; SafeSetError(desc.str(), error_desc); ret = false; } } } demuxer_criteria_.ssrcs.clear(); // Check for new streams. for (const StreamParams& new_stream : streams) { // We allow a StreamParams with an empty list of SSRCs, in which case the // MediaChannel will cache the parameters and use them for any unsignaled // stream received later. if ((!new_stream.has_ssrcs() && !HasStreamWithNoSsrcs(remote_streams_)) || !GetStreamBySsrc(remote_streams_, new_stream.first_ssrc())) { if (AddRecvStream_w(new_stream)) { RTC_LOG(LS_INFO) << "Add remote ssrc: " << (new_stream.has_ssrcs() ? std::to_string(new_stream.first_ssrc()) : "unsignaled") << " to " << ToString(); } else { rtc::StringBuilder desc; desc << "Failed to add remote stream ssrc: " << (new_stream.has_ssrcs() ? std::to_string(new_stream.first_ssrc()) : "unsignaled") << " to " << ToString(); SafeSetError(desc.str(), error_desc); ret = false; } } // Update the receiving SSRCs. demuxer_criteria_.ssrcs.insert(new_stream.ssrcs.begin(), new_stream.ssrcs.end()); } // Re-register the sink to update the receiving ssrcs. if (!RegisterRtpDemuxerSink()) { RTC_LOG(LS_ERROR) << "Failed to set up demuxing for " << ToString(); } remote_streams_ = streams; return ret; } RtpHeaderExtensions BaseChannel::GetFilteredRtpHeaderExtensions( const RtpHeaderExtensions& extensions) { RTC_DCHECK(rtp_transport_); if (crypto_options_.srtp.enable_encrypted_rtp_header_extensions) { RtpHeaderExtensions filtered; absl::c_copy_if(extensions, std::back_inserter(filtered), [](const webrtc::RtpExtension& extension) { return !extension.encrypt; }); return filtered; } return webrtc::RtpExtension::FilterDuplicateNonEncrypted(extensions); } void BaseChannel::OnMessage(rtc::Message* pmsg) { TRACE_EVENT0("webrtc", "BaseChannel::OnMessage"); switch (pmsg->message_id) { case MSG_SEND_RTP_PACKET: case MSG_SEND_RTCP_PACKET: { RTC_DCHECK(network_thread_->IsCurrent()); SendPacketMessageData* data = static_cast(pmsg->pdata); bool rtcp = pmsg->message_id == MSG_SEND_RTCP_PACKET; SendPacket(rtcp, &data->packet, data->options); delete data; break; } case MSG_FIRSTPACKETRECEIVED: { SignalFirstPacketReceived_(this); break; } } } void BaseChannel::AddHandledPayloadType(int payload_type) { demuxer_criteria_.payload_types.insert(static_cast(payload_type)); } void BaseChannel::ClearHandledPayloadTypes() { demuxer_criteria_.payload_types.clear(); } void BaseChannel::FlushRtcpMessages_n() { // Flush all remaining RTCP messages. This should only be called in // destructor. RTC_DCHECK(network_thread_->IsCurrent()); rtc::MessageList rtcp_messages; network_thread_->Clear(this, MSG_SEND_RTCP_PACKET, &rtcp_messages); for (const auto& message : rtcp_messages) { network_thread_->Send(RTC_FROM_HERE, this, MSG_SEND_RTCP_PACKET, message.pdata); } } void BaseChannel::SignalSentPacket_n(const rtc::SentPacket& sent_packet) { RTC_DCHECK(network_thread_->IsCurrent()); invoker_.AsyncInvoke(RTC_FROM_HERE, worker_thread_, [this, sent_packet] { RTC_DCHECK(worker_thread_->IsCurrent()); SignalSentPacket(sent_packet); }); } VoiceChannel::VoiceChannel(rtc::Thread* worker_thread, rtc::Thread* network_thread, rtc::Thread* signaling_thread, std::unique_ptr media_channel, const std::string& content_name, bool srtp_required, webrtc::CryptoOptions crypto_options, UniqueRandomIdGenerator* ssrc_generator) : BaseChannel(worker_thread, network_thread, signaling_thread, std::move(media_channel), content_name, srtp_required, crypto_options, ssrc_generator) {} VoiceChannel::~VoiceChannel() { TRACE_EVENT0("webrtc", "VoiceChannel::~VoiceChannel"); // this can't be done in the base class, since it calls a virtual DisableMedia_w(); Deinit(); } void BaseChannel::UpdateMediaSendRecvState() { RTC_DCHECK(network_thread_->IsCurrent()); invoker_.AsyncInvoke(RTC_FROM_HERE, worker_thread_, [this] { UpdateMediaSendRecvState_w(); }); } void VoiceChannel::Init_w(webrtc::RtpTransportInternal* rtp_transport) { BaseChannel::Init_w(rtp_transport); } void VoiceChannel::UpdateMediaSendRecvState_w() { // Render incoming data if we're the active call, and we have the local // content. We receive data on the default channel and multiplexed streams. bool recv = IsReadyToReceiveMedia_w(); media_channel()->SetPlayout(recv); // Send outgoing data if we're the active call, we have the remote content, // and we have had some form of connectivity. bool send = IsReadyToSendMedia_w(); media_channel()->SetSend(send); RTC_LOG(LS_INFO) << "Changing voice state, recv=" << recv << " send=" << send << " for " << ToString(); } bool VoiceChannel::SetLocalContent_w(const MediaContentDescription* content, SdpType type, std::string* error_desc) { TRACE_EVENT0("webrtc", "VoiceChannel::SetLocalContent_w"); RTC_DCHECK_RUN_ON(worker_thread()); RTC_LOG(LS_INFO) << "Setting local voice description for " << ToString(); RTC_DCHECK(content); if (!content) { SafeSetError("Can't find audio content in local description.", error_desc); return false; } const AudioContentDescription* audio = content->as_audio(); RtpHeaderExtensions rtp_header_extensions = GetFilteredRtpHeaderExtensions(audio->rtp_header_extensions()); UpdateRtpHeaderExtensionMap(rtp_header_extensions); media_channel()->SetExtmapAllowMixed(audio->extmap_allow_mixed()); AudioRecvParameters recv_params = last_recv_params_; RtpParametersFromMediaDescription( audio, rtp_header_extensions, webrtc::RtpTransceiverDirectionHasRecv(audio->direction()), &recv_params); if (!media_channel()->SetRecvParameters(recv_params)) { SafeSetError( "Failed to set local audio description recv parameters for m-section " "with mid='" + content_name() + "'.", error_desc); return false; } if (webrtc::RtpTransceiverDirectionHasRecv(audio->direction())) { for (const AudioCodec& codec : audio->codecs()) { AddHandledPayloadType(codec.id); } // Need to re-register the sink to update the handled payload. if (!RegisterRtpDemuxerSink()) { RTC_LOG(LS_ERROR) << "Failed to set up audio demuxing for " << ToString(); return false; } } last_recv_params_ = recv_params; // TODO(pthatcher): Move local streams into AudioSendParameters, and // only give it to the media channel once we have a remote // description too (without a remote description, we won't be able // to send them anyway). if (!UpdateLocalStreams_w(audio->streams(), type, error_desc)) { SafeSetError( "Failed to set local audio description streams for m-section with " "mid='" + content_name() + "'.", error_desc); return false; } set_local_content_direction(content->direction()); UpdateMediaSendRecvState_w(); return true; } bool VoiceChannel::SetRemoteContent_w(const MediaContentDescription* content, SdpType type, std::string* error_desc) { TRACE_EVENT0("webrtc", "VoiceChannel::SetRemoteContent_w"); RTC_DCHECK_RUN_ON(worker_thread()); RTC_LOG(LS_INFO) << "Setting remote voice description for " << ToString(); RTC_DCHECK(content); if (!content) { SafeSetError("Can't find audio content in remote description.", error_desc); return false; } const AudioContentDescription* audio = content->as_audio(); RtpHeaderExtensions rtp_header_extensions = GetFilteredRtpHeaderExtensions(audio->rtp_header_extensions()); AudioSendParameters send_params = last_send_params_; RtpSendParametersFromMediaDescription( audio, rtp_header_extensions, webrtc::RtpTransceiverDirectionHasRecv(audio->direction()), &send_params); send_params.mid = content_name(); bool parameters_applied = media_channel()->SetSendParameters(send_params); if (!parameters_applied) { SafeSetError( "Failed to set remote audio description send parameters for m-section " "with mid='" + content_name() + "'.", error_desc); return false; } last_send_params_ = send_params; if (!webrtc::RtpTransceiverDirectionHasSend(content->direction())) { RTC_DLOG(LS_VERBOSE) << "SetRemoteContent_w: remote side will not send - " "disable payload type demuxing for " << ToString(); ClearHandledPayloadTypes(); if (!RegisterRtpDemuxerSink()) { RTC_LOG(LS_ERROR) << "Failed to update audio demuxing for " << ToString(); return false; } } // TODO(pthatcher): Move remote streams into AudioRecvParameters, // and only give it to the media channel once we have a local // description too (without a local description, we won't be able to // recv them anyway). if (!UpdateRemoteStreams_w(audio->streams(), type, error_desc)) { SafeSetError( "Failed to set remote audio description streams for m-section with " "mid='" + content_name() + "'.", error_desc); return false; } set_remote_content_direction(content->direction()); UpdateMediaSendRecvState_w(); return true; } VideoChannel::VideoChannel(rtc::Thread* worker_thread, rtc::Thread* network_thread, rtc::Thread* signaling_thread, std::unique_ptr media_channel, const std::string& content_name, bool srtp_required, webrtc::CryptoOptions crypto_options, UniqueRandomIdGenerator* ssrc_generator) : BaseChannel(worker_thread, network_thread, signaling_thread, std::move(media_channel), content_name, srtp_required, crypto_options, ssrc_generator) {} VideoChannel::~VideoChannel() { TRACE_EVENT0("webrtc", "VideoChannel::~VideoChannel"); // this can't be done in the base class, since it calls a virtual DisableMedia_w(); Deinit(); } void VideoChannel::UpdateMediaSendRecvState_w() { // Send outgoing data if we're the active call, we have the remote content, // and we have had some form of connectivity. bool send = IsReadyToSendMedia_w(); if (!media_channel()->SetSend(send)) { RTC_LOG(LS_ERROR) << "Failed to SetSend on video channel: " + ToString(); // TODO(gangji): Report error back to server. } RTC_LOG(LS_INFO) << "Changing video state, send=" << send << " for " << ToString(); } void VideoChannel::FillBitrateInfo(BandwidthEstimationInfo* bwe_info) { InvokeOnWorker(RTC_FROM_HERE, Bind(&VideoMediaChannel::FillBitrateInfo, media_channel(), bwe_info)); } bool VideoChannel::SetLocalContent_w(const MediaContentDescription* content, SdpType type, std::string* error_desc) { TRACE_EVENT0("webrtc", "VideoChannel::SetLocalContent_w"); RTC_DCHECK_RUN_ON(worker_thread()); RTC_LOG(LS_INFO) << "Setting local video description for " << ToString(); RTC_DCHECK(content); if (!content) { SafeSetError("Can't find video content in local description.", error_desc); return false; } const VideoContentDescription* video = content->as_video(); RtpHeaderExtensions rtp_header_extensions = GetFilteredRtpHeaderExtensions(video->rtp_header_extensions()); UpdateRtpHeaderExtensionMap(rtp_header_extensions); media_channel()->SetExtmapAllowMixed(video->extmap_allow_mixed()); VideoRecvParameters recv_params = last_recv_params_; RtpParametersFromMediaDescription( video, rtp_header_extensions, webrtc::RtpTransceiverDirectionHasRecv(video->direction()), &recv_params); VideoSendParameters send_params = last_send_params_; bool needs_send_params_update = false; if (type == SdpType::kAnswer || type == SdpType::kPrAnswer) { for (auto& send_codec : send_params.codecs) { auto* recv_codec = FindMatchingCodec(recv_params.codecs, send_codec); if (recv_codec) { if (!recv_codec->packetization && send_codec.packetization) { send_codec.packetization.reset(); needs_send_params_update = true; } else if (recv_codec->packetization != send_codec.packetization) { SafeSetError( "Failed to set local answer due to invalid codec packetization " "specified in m-section with mid='" + content_name() + "'.", error_desc); return false; } } } } if (!media_channel()->SetRecvParameters(recv_params)) { SafeSetError( "Failed to set local video description recv parameters for m-section " "with mid='" + content_name() + "'.", error_desc); return false; } if (webrtc::RtpTransceiverDirectionHasRecv(video->direction())) { for (const VideoCodec& codec : video->codecs()) { AddHandledPayloadType(codec.id); } // Need to re-register the sink to update the handled payload. if (!RegisterRtpDemuxerSink()) { RTC_LOG(LS_ERROR) << "Failed to set up video demuxing for " << ToString(); return false; } } last_recv_params_ = recv_params; if (needs_send_params_update) { if (!media_channel()->SetSendParameters(send_params)) { SafeSetError("Failed to set send parameters for m-section with mid='" + content_name() + "'.", error_desc); return false; } last_send_params_ = send_params; } // TODO(pthatcher): Move local streams into VideoSendParameters, and // only give it to the media channel once we have a remote // description too (without a remote description, we won't be able // to send them anyway). if (!UpdateLocalStreams_w(video->streams(), type, error_desc)) { SafeSetError( "Failed to set local video description streams for m-section with " "mid='" + content_name() + "'.", error_desc); return false; } set_local_content_direction(content->direction()); UpdateMediaSendRecvState_w(); return true; } bool VideoChannel::SetRemoteContent_w(const MediaContentDescription* content, SdpType type, std::string* error_desc) { TRACE_EVENT0("webrtc", "VideoChannel::SetRemoteContent_w"); RTC_DCHECK_RUN_ON(worker_thread()); RTC_LOG(LS_INFO) << "Setting remote video description for " << ToString(); RTC_DCHECK(content); if (!content) { SafeSetError("Can't find video content in remote description.", error_desc); return false; } const VideoContentDescription* video = content->as_video(); RtpHeaderExtensions rtp_header_extensions = GetFilteredRtpHeaderExtensions(video->rtp_header_extensions()); VideoSendParameters send_params = last_send_params_; RtpSendParametersFromMediaDescription( video, rtp_header_extensions, webrtc::RtpTransceiverDirectionHasRecv(video->direction()), &send_params); if (video->conference_mode()) { send_params.conference_mode = true; } send_params.mid = content_name(); VideoRecvParameters recv_params = last_recv_params_; bool needs_recv_params_update = false; if (type == SdpType::kAnswer || type == SdpType::kPrAnswer) { for (auto& recv_codec : recv_params.codecs) { auto* send_codec = FindMatchingCodec(send_params.codecs, recv_codec); if (send_codec) { if (!send_codec->packetization && recv_codec.packetization) { recv_codec.packetization.reset(); needs_recv_params_update = true; } else if (send_codec->packetization != recv_codec.packetization) { SafeSetError( "Failed to set remote answer due to invalid codec packetization " "specifid in m-section with mid='" + content_name() + "'.", error_desc); return false; } } } } if (!media_channel()->SetSendParameters(send_params)) { SafeSetError( "Failed to set remote video description send parameters for m-section " "with mid='" + content_name() + "'.", error_desc); return false; } last_send_params_ = send_params; if (needs_recv_params_update) { if (!media_channel()->SetRecvParameters(recv_params)) { SafeSetError("Failed to set recv parameters for m-section with mid='" + content_name() + "'.", error_desc); return false; } last_recv_params_ = recv_params; } if (!webrtc::RtpTransceiverDirectionHasSend(content->direction())) { RTC_DLOG(LS_VERBOSE) << "SetRemoteContent_w: remote side will not send - " "disable payload type demuxing for " << ToString(); ClearHandledPayloadTypes(); if (!RegisterRtpDemuxerSink()) { RTC_LOG(LS_ERROR) << "Failed to update video demuxing for " << ToString(); return false; } } // TODO(pthatcher): Move remote streams into VideoRecvParameters, // and only give it to the media channel once we have a local // description too (without a local description, we won't be able to // recv them anyway). if (!UpdateRemoteStreams_w(video->streams(), type, error_desc)) { SafeSetError( "Failed to set remote video description streams for m-section with " "mid='" + content_name() + "'.", error_desc); return false; } set_remote_content_direction(content->direction()); UpdateMediaSendRecvState_w(); return true; } RtpDataChannel::RtpDataChannel(rtc::Thread* worker_thread, rtc::Thread* network_thread, rtc::Thread* signaling_thread, std::unique_ptr media_channel, const std::string& content_name, bool srtp_required, webrtc::CryptoOptions crypto_options, UniqueRandomIdGenerator* ssrc_generator) : BaseChannel(worker_thread, network_thread, signaling_thread, std::move(media_channel), content_name, srtp_required, crypto_options, ssrc_generator) {} RtpDataChannel::~RtpDataChannel() { TRACE_EVENT0("webrtc", "RtpDataChannel::~RtpDataChannel"); // this can't be done in the base class, since it calls a virtual DisableMedia_w(); Deinit(); } void RtpDataChannel::Init_w(webrtc::RtpTransportInternal* rtp_transport) { BaseChannel::Init_w(rtp_transport); media_channel()->SignalDataReceived.connect(this, &RtpDataChannel::OnDataReceived); media_channel()->SignalReadyToSend.connect( this, &RtpDataChannel::OnDataChannelReadyToSend); } bool RtpDataChannel::SendData(const SendDataParams& params, const rtc::CopyOnWriteBuffer& payload, SendDataResult* result) { return InvokeOnWorker( RTC_FROM_HERE, Bind(&DataMediaChannel::SendData, media_channel(), params, payload, result)); } bool RtpDataChannel::CheckDataChannelTypeFromContent( const MediaContentDescription* content, std::string* error_desc) { if (!content->as_rtp_data()) { if (content->as_sctp()) { SafeSetError("Data channel type mismatch. Expected RTP, got SCTP.", error_desc); } else { SafeSetError("Data channel is not RTP or SCTP.", error_desc); } return false; } return true; } bool RtpDataChannel::SetLocalContent_w(const MediaContentDescription* content, SdpType type, std::string* error_desc) { TRACE_EVENT0("webrtc", "RtpDataChannel::SetLocalContent_w"); RTC_DCHECK_RUN_ON(worker_thread()); RTC_LOG(LS_INFO) << "Setting local data description for " << ToString(); RTC_DCHECK(content); if (!content) { SafeSetError("Can't find data content in local description.", error_desc); return false; } if (!CheckDataChannelTypeFromContent(content, error_desc)) { return false; } const RtpDataContentDescription* data = content->as_rtp_data(); RtpHeaderExtensions rtp_header_extensions = GetFilteredRtpHeaderExtensions(data->rtp_header_extensions()); DataRecvParameters recv_params = last_recv_params_; RtpParametersFromMediaDescription( data, rtp_header_extensions, webrtc::RtpTransceiverDirectionHasRecv(data->direction()), &recv_params); if (!media_channel()->SetRecvParameters(recv_params)) { SafeSetError( "Failed to set remote data description recv parameters for m-section " "with mid='" + content_name() + "'.", error_desc); return false; } for (const DataCodec& codec : data->codecs()) { AddHandledPayloadType(codec.id); } // Need to re-register the sink to update the handled payload. if (!RegisterRtpDemuxerSink()) { RTC_LOG(LS_ERROR) << "Failed to set up data demuxing for " << ToString(); return false; } last_recv_params_ = recv_params; // TODO(pthatcher): Move local streams into DataSendParameters, and // only give it to the media channel once we have a remote // description too (without a remote description, we won't be able // to send them anyway). if (!UpdateLocalStreams_w(data->streams(), type, error_desc)) { SafeSetError( "Failed to set local data description streams for m-section with " "mid='" + content_name() + "'.", error_desc); return false; } set_local_content_direction(content->direction()); UpdateMediaSendRecvState_w(); return true; } bool RtpDataChannel::SetRemoteContent_w(const MediaContentDescription* content, SdpType type, std::string* error_desc) { TRACE_EVENT0("webrtc", "RtpDataChannel::SetRemoteContent_w"); RTC_DCHECK_RUN_ON(worker_thread()); RTC_LOG(LS_INFO) << "Setting remote data description for " << ToString(); RTC_DCHECK(content); if (!content) { SafeSetError("Can't find data content in remote description.", error_desc); return false; } if (!CheckDataChannelTypeFromContent(content, error_desc)) { return false; } const RtpDataContentDescription* data = content->as_rtp_data(); // If the remote data doesn't have codecs, it must be empty, so ignore it. if (!data->has_codecs()) { return true; } RtpHeaderExtensions rtp_header_extensions = GetFilteredRtpHeaderExtensions(data->rtp_header_extensions()); RTC_LOG(LS_INFO) << "Setting remote data description for " << ToString(); DataSendParameters send_params = last_send_params_; RtpSendParametersFromMediaDescription( data, rtp_header_extensions, webrtc::RtpTransceiverDirectionHasRecv(data->direction()), &send_params); if (!media_channel()->SetSendParameters(send_params)) { SafeSetError( "Failed to set remote data description send parameters for m-section " "with mid='" + content_name() + "'.", error_desc); return false; } last_send_params_ = send_params; // TODO(pthatcher): Move remote streams into DataRecvParameters, // and only give it to the media channel once we have a local // description too (without a local description, we won't be able to // recv them anyway). if (!UpdateRemoteStreams_w(data->streams(), type, error_desc)) { SafeSetError( "Failed to set remote data description streams for m-section with " "mid='" + content_name() + "'.", error_desc); return false; } set_remote_content_direction(content->direction()); UpdateMediaSendRecvState_w(); return true; } void RtpDataChannel::UpdateMediaSendRecvState_w() { // Render incoming data if we're the active call, and we have the local // content. We receive data on the default channel and multiplexed streams. bool recv = IsReadyToReceiveMedia_w(); if (!media_channel()->SetReceive(recv)) { RTC_LOG(LS_ERROR) << "Failed to SetReceive on data channel: " << ToString(); } // Send outgoing data if we're the active call, we have the remote content, // and we have had some form of connectivity. bool send = IsReadyToSendMedia_w(); if (!media_channel()->SetSend(send)) { RTC_LOG(LS_ERROR) << "Failed to SetSend on data channel: " << ToString(); } // Trigger SignalReadyToSendData asynchronously. OnDataChannelReadyToSend(send); RTC_LOG(LS_INFO) << "Changing data state, recv=" << recv << " send=" << send << " for " << ToString(); } void RtpDataChannel::OnMessage(rtc::Message* pmsg) { switch (pmsg->message_id) { case MSG_READYTOSENDDATA: { DataChannelReadyToSendMessageData* data = static_cast(pmsg->pdata); ready_to_send_data_ = data->data(); SignalReadyToSendData(ready_to_send_data_); delete data; break; } case MSG_DATARECEIVED: { DataReceivedMessageData* data = static_cast(pmsg->pdata); SignalDataReceived(data->params, data->payload); delete data; break; } default: BaseChannel::OnMessage(pmsg); break; } } void RtpDataChannel::OnDataReceived(const ReceiveDataParams& params, const char* data, size_t len) { DataReceivedMessageData* msg = new DataReceivedMessageData(params, data, len); signaling_thread()->Post(RTC_FROM_HERE, this, MSG_DATARECEIVED, msg); } void RtpDataChannel::OnDataChannelReadyToSend(bool writable) { // This is usded for congestion control to indicate that the stream is ready // to send by the MediaChannel, as opposed to OnReadyToSend, which indicates // that the transport channel is ready. signaling_thread()->Post(RTC_FROM_HERE, this, MSG_READYTOSENDDATA, new DataChannelReadyToSendMessageData(writable)); } } // namespace cricket