1 /*
2  * libjingle
3  * Copyright 2004 Google Inc.
4  *
5  * Redistribution and use in source and binary forms, with or without
6  * modification, are permitted provided that the following conditions are met:
7  *
8  *  1. Redistributions of source code must retain the above copyright notice,
9  *     this list of conditions and the following disclaimer.
10  *  2. Redistributions in binary form must reproduce the above copyright notice,
11  *     this list of conditions and the following disclaimer in the documentation
12  *     and/or other materials provided with the distribution.
13  *  3. The name of the author may not be used to endorse or promote products
14  *     derived from this software without specific prior written permission.
15  *
16  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
17  * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
18  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
19  * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
20  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
21  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
22  * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
23  * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
24  * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
25  * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
26  */
27 
28 #include <utility>
29 
30 #include "talk/session/media/channel.h"
31 
32 #include "talk/media/base/constants.h"
33 #include "talk/media/base/rtputils.h"
34 #include "talk/session/media/channelmanager.h"
35 #include "webrtc/audio/audio_sink.h"
36 #include "webrtc/base/bind.h"
37 #include "webrtc/base/buffer.h"
38 #include "webrtc/base/byteorder.h"
39 #include "webrtc/base/common.h"
40 #include "webrtc/base/dscp.h"
41 #include "webrtc/base/logging.h"
42 #include "webrtc/base/trace_event.h"
43 #include "webrtc/p2p/base/transportchannel.h"
44 
45 namespace cricket {
46 using rtc::Bind;
47 
48 namespace {
49 // See comment below for why we need to use a pointer to a scoped_ptr.
SetRawAudioSink_w(VoiceMediaChannel * channel,uint32_t ssrc,rtc::scoped_ptr<webrtc::AudioSinkInterface> * sink)50 bool SetRawAudioSink_w(VoiceMediaChannel* channel,
51                        uint32_t ssrc,
52                        rtc::scoped_ptr<webrtc::AudioSinkInterface>* sink) {
53   channel->SetRawAudioSink(ssrc, std::move(*sink));
54   return true;
55 }
56 }  // namespace
57 
58 enum {
59   MSG_EARLYMEDIATIMEOUT = 1,
60   MSG_SCREENCASTWINDOWEVENT,
61   MSG_RTPPACKET,
62   MSG_RTCPPACKET,
63   MSG_CHANNEL_ERROR,
64   MSG_READYTOSENDDATA,
65   MSG_DATARECEIVED,
66   MSG_FIRSTPACKETRECEIVED,
67   MSG_STREAMCLOSEDREMOTELY,
68 };
69 
70 // Value specified in RFC 5764.
71 static const char kDtlsSrtpExporterLabel[] = "EXTRACTOR-dtls_srtp";
72 
73 static const int kAgcMinus10db = -10;
74 
SafeSetError(const std::string & message,std::string * error_desc)75 static void SafeSetError(const std::string& message, std::string* error_desc) {
76   if (error_desc) {
77     *error_desc = message;
78   }
79 }
80 
81 struct PacketMessageData : public rtc::MessageData {
82   rtc::Buffer packet;
83   rtc::PacketOptions options;
84 };
85 
86 struct ScreencastEventMessageData : public rtc::MessageData {
ScreencastEventMessageDatacricket::ScreencastEventMessageData87   ScreencastEventMessageData(uint32_t s, rtc::WindowEvent we)
88       : ssrc(s), event(we) {}
89   uint32_t ssrc;
90   rtc::WindowEvent event;
91 };
92 
93 struct VoiceChannelErrorMessageData : public rtc::MessageData {
VoiceChannelErrorMessageDatacricket::VoiceChannelErrorMessageData94   VoiceChannelErrorMessageData(uint32_t in_ssrc,
95                                VoiceMediaChannel::Error in_error)
96       : ssrc(in_ssrc), error(in_error) {}
97   uint32_t ssrc;
98   VoiceMediaChannel::Error error;
99 };
100 
101 struct VideoChannelErrorMessageData : public rtc::MessageData {
VideoChannelErrorMessageDatacricket::VideoChannelErrorMessageData102   VideoChannelErrorMessageData(uint32_t in_ssrc,
103                                VideoMediaChannel::Error in_error)
104       : ssrc(in_ssrc), error(in_error) {}
105   uint32_t ssrc;
106   VideoMediaChannel::Error error;
107 };
108 
109 struct DataChannelErrorMessageData : public rtc::MessageData {
DataChannelErrorMessageDatacricket::DataChannelErrorMessageData110   DataChannelErrorMessageData(uint32_t in_ssrc,
111                               DataMediaChannel::Error in_error)
112       : ssrc(in_ssrc), error(in_error) {}
113   uint32_t ssrc;
114   DataMediaChannel::Error error;
115 };
116 
PacketType(bool rtcp)117 static const char* PacketType(bool rtcp) {
118   return (!rtcp) ? "RTP" : "RTCP";
119 }
120 
ValidPacket(bool rtcp,const rtc::Buffer * packet)121 static bool ValidPacket(bool rtcp, const rtc::Buffer* packet) {
122   // Check the packet size. We could check the header too if needed.
123   return (packet &&
124           packet->size() >= (!rtcp ? kMinRtpPacketLen : kMinRtcpPacketLen) &&
125           packet->size() <= kMaxRtpPacketLen);
126 }
127 
IsReceiveContentDirection(MediaContentDirection direction)128 static bool IsReceiveContentDirection(MediaContentDirection direction) {
129   return direction == MD_SENDRECV || direction == MD_RECVONLY;
130 }
131 
IsSendContentDirection(MediaContentDirection direction)132 static bool IsSendContentDirection(MediaContentDirection direction) {
133   return direction == MD_SENDRECV || direction == MD_SENDONLY;
134 }
135 
GetContentDescription(const ContentInfo * cinfo)136 static const MediaContentDescription* GetContentDescription(
137     const ContentInfo* cinfo) {
138   if (cinfo == NULL)
139     return NULL;
140   return static_cast<const MediaContentDescription*>(cinfo->description);
141 }
142 
143 template <class Codec>
RtpParametersFromMediaDescription(const MediaContentDescriptionImpl<Codec> * desc,RtpParameters<Codec> * params)144 void RtpParametersFromMediaDescription(
145     const MediaContentDescriptionImpl<Codec>* desc,
146     RtpParameters<Codec>* params) {
147   // TODO(pthatcher): Remove this once we're sure no one will give us
148   // a description without codecs (currently a CA_UPDATE with just
149   // streams can).
150   if (desc->has_codecs()) {
151     params->codecs = desc->codecs();
152   }
153   // TODO(pthatcher): See if we really need
154   // rtp_header_extensions_set() and remove it if we don't.
155   if (desc->rtp_header_extensions_set()) {
156     params->extensions = desc->rtp_header_extensions();
157   }
158   params->rtcp.reduced_size = desc->rtcp_reduced_size();
159 }
160 
161 template <class Codec, class Options>
RtpSendParametersFromMediaDescription(const MediaContentDescriptionImpl<Codec> * desc,RtpSendParameters<Codec,Options> * send_params)162 void RtpSendParametersFromMediaDescription(
163     const MediaContentDescriptionImpl<Codec>* desc,
164     RtpSendParameters<Codec, Options>* send_params) {
165   RtpParametersFromMediaDescription(desc, send_params);
166   send_params->max_bandwidth_bps = desc->bandwidth();
167 }
168 
BaseChannel(rtc::Thread * thread,MediaChannel * media_channel,TransportController * transport_controller,const std::string & content_name,bool rtcp)169 BaseChannel::BaseChannel(rtc::Thread* thread,
170                          MediaChannel* media_channel,
171                          TransportController* transport_controller,
172                          const std::string& content_name,
173                          bool rtcp)
174     : worker_thread_(thread),
175       transport_controller_(transport_controller),
176       media_channel_(media_channel),
177       content_name_(content_name),
178       rtcp_transport_enabled_(rtcp),
179       transport_channel_(nullptr),
180       rtcp_transport_channel_(nullptr),
181       enabled_(false),
182       writable_(false),
183       rtp_ready_to_send_(false),
184       rtcp_ready_to_send_(false),
185       was_ever_writable_(false),
186       local_content_direction_(MD_INACTIVE),
187       remote_content_direction_(MD_INACTIVE),
188       has_received_packet_(false),
189       dtls_keyed_(false),
190       secure_required_(false),
191       rtp_abs_sendtime_extn_id_(-1) {
192   ASSERT(worker_thread_ == rtc::Thread::Current());
193   LOG(LS_INFO) << "Created channel for " << content_name;
194 }
195 
~BaseChannel()196 BaseChannel::~BaseChannel() {
197   ASSERT(worker_thread_ == rtc::Thread::Current());
198   Deinit();
199   StopConnectionMonitor();
200   FlushRtcpMessages();  // Send any outstanding RTCP packets.
201   worker_thread_->Clear(this);  // eats any outstanding messages or packets
202   // We must destroy the media channel before the transport channel, otherwise
203   // the media channel may try to send on the dead transport channel. NULLing
204   // is not an effective strategy since the sends will come on another thread.
205   delete media_channel_;
206   // Note that we don't just call set_transport_channel(nullptr) because that
207   // would call a pure virtual method which we can't do from a destructor.
208   if (transport_channel_) {
209     DisconnectFromTransportChannel(transport_channel_);
210     transport_controller_->DestroyTransportChannel_w(
211         transport_name_, cricket::ICE_CANDIDATE_COMPONENT_RTP);
212   }
213   if (rtcp_transport_channel_) {
214     DisconnectFromTransportChannel(rtcp_transport_channel_);
215     transport_controller_->DestroyTransportChannel_w(
216         transport_name_, cricket::ICE_CANDIDATE_COMPONENT_RTCP);
217   }
218   LOG(LS_INFO) << "Destroyed channel";
219 }
220 
Init()221 bool BaseChannel::Init() {
222   if (!SetTransport(content_name())) {
223     return false;
224   }
225 
226   if (!SetDtlsSrtpCryptoSuites(transport_channel(), false)) {
227     return false;
228   }
229   if (rtcp_transport_enabled() &&
230       !SetDtlsSrtpCryptoSuites(rtcp_transport_channel(), true)) {
231     return false;
232   }
233 
234   // Both RTP and RTCP channels are set, we can call SetInterface on
235   // media channel and it can set network options.
236   media_channel_->SetInterface(this);
237   return true;
238 }
239 
Deinit()240 void BaseChannel::Deinit() {
241   media_channel_->SetInterface(NULL);
242 }
243 
SetTransport(const std::string & transport_name)244 bool BaseChannel::SetTransport(const std::string& transport_name) {
245   return worker_thread_->Invoke<bool>(
246       Bind(&BaseChannel::SetTransport_w, this, transport_name));
247 }
248 
SetTransport_w(const std::string & transport_name)249 bool BaseChannel::SetTransport_w(const std::string& transport_name) {
250   ASSERT(worker_thread_ == rtc::Thread::Current());
251 
252   if (transport_name == transport_name_) {
253     // Nothing to do if transport name isn't changing
254     return true;
255   }
256 
257   // When using DTLS-SRTP, we must reset the SrtpFilter every time the transport
258   // changes and wait until the DTLS handshake is complete to set the newly
259   // negotiated parameters.
260   if (ShouldSetupDtlsSrtp()) {
261     // Set |writable_| to false such that UpdateWritableState_w can set up
262     // DTLS-SRTP when the writable_ becomes true again.
263     writable_ = false;
264     srtp_filter_.ResetParams();
265   }
266 
267   // TODO(guoweis): Remove this grossness when we remove non-muxed RTCP.
268   if (rtcp_transport_enabled()) {
269     LOG(LS_INFO) << "Create RTCP TransportChannel for " << content_name()
270                  << " on " << transport_name << " transport ";
271     set_rtcp_transport_channel(
272         transport_controller_->CreateTransportChannel_w(
273             transport_name, cricket::ICE_CANDIDATE_COMPONENT_RTCP),
274         false /* update_writablity */);
275     if (!rtcp_transport_channel()) {
276       return false;
277     }
278   }
279 
280   // We're not updating the writablity during the transition state.
281   set_transport_channel(transport_controller_->CreateTransportChannel_w(
282       transport_name, cricket::ICE_CANDIDATE_COMPONENT_RTP));
283   if (!transport_channel()) {
284     return false;
285   }
286 
287   // TODO(guoweis): Remove this grossness when we remove non-muxed RTCP.
288   if (rtcp_transport_enabled()) {
289     // We can only update the RTCP ready to send after set_transport_channel has
290     // handled channel writability.
291     SetReadyToSend(
292         true, rtcp_transport_channel() && rtcp_transport_channel()->writable());
293   }
294   transport_name_ = transport_name;
295   return true;
296 }
297 
set_transport_channel(TransportChannel * new_tc)298 void BaseChannel::set_transport_channel(TransportChannel* new_tc) {
299   ASSERT(worker_thread_ == rtc::Thread::Current());
300 
301   TransportChannel* old_tc = transport_channel_;
302   if (!old_tc && !new_tc) {
303     // Nothing to do
304     return;
305   }
306   ASSERT(old_tc != new_tc);
307 
308   if (old_tc) {
309     DisconnectFromTransportChannel(old_tc);
310     transport_controller_->DestroyTransportChannel_w(
311         transport_name_, cricket::ICE_CANDIDATE_COMPONENT_RTP);
312   }
313 
314   transport_channel_ = new_tc;
315 
316   if (new_tc) {
317     ConnectToTransportChannel(new_tc);
318     for (const auto& pair : socket_options_) {
319       new_tc->SetOption(pair.first, pair.second);
320     }
321   }
322 
323   // Update aggregate writable/ready-to-send state between RTP and RTCP upon
324   // setting new channel
325   UpdateWritableState_w();
326   SetReadyToSend(false, new_tc && new_tc->writable());
327 }
328 
set_rtcp_transport_channel(TransportChannel * new_tc,bool update_writablity)329 void BaseChannel::set_rtcp_transport_channel(TransportChannel* new_tc,
330                                              bool update_writablity) {
331   ASSERT(worker_thread_ == rtc::Thread::Current());
332 
333   TransportChannel* old_tc = rtcp_transport_channel_;
334   if (!old_tc && !new_tc) {
335     // Nothing to do
336     return;
337   }
338   ASSERT(old_tc != new_tc);
339 
340   if (old_tc) {
341     DisconnectFromTransportChannel(old_tc);
342     transport_controller_->DestroyTransportChannel_w(
343         transport_name_, cricket::ICE_CANDIDATE_COMPONENT_RTCP);
344   }
345 
346   rtcp_transport_channel_ = new_tc;
347 
348   if (new_tc) {
349     RTC_CHECK(!(ShouldSetupDtlsSrtp() && srtp_filter_.IsActive()))
350         << "Setting RTCP for DTLS/SRTP after SrtpFilter is active "
351         << "should never happen.";
352     ConnectToTransportChannel(new_tc);
353     for (const auto& pair : rtcp_socket_options_) {
354       new_tc->SetOption(pair.first, pair.second);
355     }
356   }
357 
358   if (update_writablity) {
359     // Update aggregate writable/ready-to-send state between RTP and RTCP upon
360     // setting new channel
361     UpdateWritableState_w();
362     SetReadyToSend(true, new_tc && new_tc->writable());
363   }
364 }
365 
ConnectToTransportChannel(TransportChannel * tc)366 void BaseChannel::ConnectToTransportChannel(TransportChannel* tc) {
367   ASSERT(worker_thread_ == rtc::Thread::Current());
368 
369   tc->SignalWritableState.connect(this, &BaseChannel::OnWritableState);
370   tc->SignalReadPacket.connect(this, &BaseChannel::OnChannelRead);
371   tc->SignalReadyToSend.connect(this, &BaseChannel::OnReadyToSend);
372   tc->SignalDtlsState.connect(this, &BaseChannel::OnDtlsState);
373 }
374 
DisconnectFromTransportChannel(TransportChannel * tc)375 void BaseChannel::DisconnectFromTransportChannel(TransportChannel* tc) {
376   ASSERT(worker_thread_ == rtc::Thread::Current());
377 
378   tc->SignalWritableState.disconnect(this);
379   tc->SignalReadPacket.disconnect(this);
380   tc->SignalReadyToSend.disconnect(this);
381   tc->SignalDtlsState.disconnect(this);
382 }
383 
Enable(bool enable)384 bool BaseChannel::Enable(bool enable) {
385   worker_thread_->Invoke<void>(Bind(
386       enable ? &BaseChannel::EnableMedia_w : &BaseChannel::DisableMedia_w,
387       this));
388   return true;
389 }
390 
AddRecvStream(const StreamParams & sp)391 bool BaseChannel::AddRecvStream(const StreamParams& sp) {
392   return InvokeOnWorker(Bind(&BaseChannel::AddRecvStream_w, this, sp));
393 }
394 
RemoveRecvStream(uint32_t ssrc)395 bool BaseChannel::RemoveRecvStream(uint32_t ssrc) {
396   return InvokeOnWorker(Bind(&BaseChannel::RemoveRecvStream_w, this, ssrc));
397 }
398 
AddSendStream(const StreamParams & sp)399 bool BaseChannel::AddSendStream(const StreamParams& sp) {
400   return InvokeOnWorker(
401       Bind(&MediaChannel::AddSendStream, media_channel(), sp));
402 }
403 
RemoveSendStream(uint32_t ssrc)404 bool BaseChannel::RemoveSendStream(uint32_t ssrc) {
405   return InvokeOnWorker(
406       Bind(&MediaChannel::RemoveSendStream, media_channel(), ssrc));
407 }
408 
SetLocalContent(const MediaContentDescription * content,ContentAction action,std::string * error_desc)409 bool BaseChannel::SetLocalContent(const MediaContentDescription* content,
410                                   ContentAction action,
411                                   std::string* error_desc) {
412   TRACE_EVENT0("webrtc", "BaseChannel::SetLocalContent");
413   return InvokeOnWorker(Bind(&BaseChannel::SetLocalContent_w,
414                              this, content, action, error_desc));
415 }
416 
SetRemoteContent(const MediaContentDescription * content,ContentAction action,std::string * error_desc)417 bool BaseChannel::SetRemoteContent(const MediaContentDescription* content,
418                                    ContentAction action,
419                                    std::string* error_desc) {
420   TRACE_EVENT0("webrtc", "BaseChannel::SetRemoteContent");
421   return InvokeOnWorker(Bind(&BaseChannel::SetRemoteContent_w,
422                              this, content, action, error_desc));
423 }
424 
StartConnectionMonitor(int cms)425 void BaseChannel::StartConnectionMonitor(int cms) {
426   // We pass in the BaseChannel instead of the transport_channel_
427   // because if the transport_channel_ changes, the ConnectionMonitor
428   // would be pointing to the wrong TransportChannel.
429   connection_monitor_.reset(new ConnectionMonitor(
430       this, worker_thread(), rtc::Thread::Current()));
431   connection_monitor_->SignalUpdate.connect(
432       this, &BaseChannel::OnConnectionMonitorUpdate);
433   connection_monitor_->Start(cms);
434 }
435 
StopConnectionMonitor()436 void BaseChannel::StopConnectionMonitor() {
437   if (connection_monitor_) {
438     connection_monitor_->Stop();
439     connection_monitor_.reset();
440   }
441 }
442 
GetConnectionStats(ConnectionInfos * infos)443 bool BaseChannel::GetConnectionStats(ConnectionInfos* infos) {
444   ASSERT(worker_thread_ == rtc::Thread::Current());
445   return transport_channel_->GetStats(infos);
446 }
447 
IsReadyToReceive() const448 bool BaseChannel::IsReadyToReceive() const {
449   // Receive data if we are enabled and have local content,
450   return enabled() && IsReceiveContentDirection(local_content_direction_);
451 }
452 
IsReadyToSend() const453 bool BaseChannel::IsReadyToSend() const {
454   // Send outgoing data if we are enabled, have local and remote content,
455   // and we have had some form of connectivity.
456   return enabled() && IsReceiveContentDirection(remote_content_direction_) &&
457          IsSendContentDirection(local_content_direction_) &&
458          was_ever_writable() &&
459          (srtp_filter_.IsActive() || !ShouldSetupDtlsSrtp());
460 }
461 
SendPacket(rtc::Buffer * packet,const rtc::PacketOptions & options)462 bool BaseChannel::SendPacket(rtc::Buffer* packet,
463                              const rtc::PacketOptions& options) {
464   return SendPacket(false, packet, options);
465 }
466 
SendRtcp(rtc::Buffer * packet,const rtc::PacketOptions & options)467 bool BaseChannel::SendRtcp(rtc::Buffer* packet,
468                            const rtc::PacketOptions& options) {
469   return SendPacket(true, packet, options);
470 }
471 
SetOption(SocketType type,rtc::Socket::Option opt,int value)472 int BaseChannel::SetOption(SocketType type, rtc::Socket::Option opt,
473                            int value) {
474   TransportChannel* channel = NULL;
475   switch (type) {
476     case ST_RTP:
477       channel = transport_channel_;
478       socket_options_.push_back(
479           std::pair<rtc::Socket::Option, int>(opt, value));
480       break;
481     case ST_RTCP:
482       channel = rtcp_transport_channel_;
483       rtcp_socket_options_.push_back(
484           std::pair<rtc::Socket::Option, int>(opt, value));
485       break;
486   }
487   return channel ? channel->SetOption(opt, value) : -1;
488 }
489 
OnWritableState(TransportChannel * channel)490 void BaseChannel::OnWritableState(TransportChannel* channel) {
491   ASSERT(channel == transport_channel_ || channel == rtcp_transport_channel_);
492   UpdateWritableState_w();
493 }
494 
OnChannelRead(TransportChannel * channel,const char * data,size_t len,const rtc::PacketTime & packet_time,int flags)495 void BaseChannel::OnChannelRead(TransportChannel* channel,
496                                 const char* data, size_t len,
497                                 const rtc::PacketTime& packet_time,
498                                 int flags) {
499   TRACE_EVENT0("webrtc", "BaseChannel::OnChannelRead");
500   // OnChannelRead gets called from P2PSocket; now pass data to MediaEngine
501   ASSERT(worker_thread_ == rtc::Thread::Current());
502 
503   // When using RTCP multiplexing we might get RTCP packets on the RTP
504   // transport. We feed RTP traffic into the demuxer to determine if it is RTCP.
505   bool rtcp = PacketIsRtcp(channel, data, len);
506   rtc::Buffer packet(data, len);
507   HandlePacket(rtcp, &packet, packet_time);
508 }
509 
OnReadyToSend(TransportChannel * channel)510 void BaseChannel::OnReadyToSend(TransportChannel* channel) {
511   ASSERT(channel == transport_channel_ || channel == rtcp_transport_channel_);
512   SetReadyToSend(channel == rtcp_transport_channel_, true);
513 }
514 
OnDtlsState(TransportChannel * channel,DtlsTransportState state)515 void BaseChannel::OnDtlsState(TransportChannel* channel,
516                               DtlsTransportState state) {
517   if (!ShouldSetupDtlsSrtp()) {
518     return;
519   }
520 
521   // Reset the srtp filter if it's not the CONNECTED state. For the CONNECTED
522   // state, setting up DTLS-SRTP context is deferred to ChannelWritable_w to
523   // cover other scenarios like the whole channel is writable (not just this
524   // TransportChannel) or when TransportChannel is attached after DTLS is
525   // negotiated.
526   if (state != DTLS_TRANSPORT_CONNECTED) {
527     srtp_filter_.ResetParams();
528   }
529 }
530 
SetReadyToSend(bool rtcp,bool ready)531 void BaseChannel::SetReadyToSend(bool rtcp, bool ready) {
532   if (rtcp) {
533     rtcp_ready_to_send_ = ready;
534   } else {
535     rtp_ready_to_send_ = ready;
536   }
537 
538   if (rtp_ready_to_send_ &&
539       // In the case of rtcp mux |rtcp_transport_channel_| will be null.
540       (rtcp_ready_to_send_ || !rtcp_transport_channel_)) {
541     // Notify the MediaChannel when both rtp and rtcp channel can send.
542     media_channel_->OnReadyToSend(true);
543   } else {
544     // Notify the MediaChannel when either rtp or rtcp channel can't send.
545     media_channel_->OnReadyToSend(false);
546   }
547 }
548 
PacketIsRtcp(const TransportChannel * channel,const char * data,size_t len)549 bool BaseChannel::PacketIsRtcp(const TransportChannel* channel,
550                                const char* data, size_t len) {
551   return (channel == rtcp_transport_channel_ ||
552           rtcp_mux_filter_.DemuxRtcp(data, static_cast<int>(len)));
553 }
554 
SendPacket(bool rtcp,rtc::Buffer * packet,const rtc::PacketOptions & options)555 bool BaseChannel::SendPacket(bool rtcp,
556                              rtc::Buffer* packet,
557                              const rtc::PacketOptions& options) {
558   // SendPacket gets called from MediaEngine, typically on an encoder thread.
559   // If the thread is not our worker thread, we will post to our worker
560   // so that the real work happens on our worker. This avoids us having to
561   // synchronize access to all the pieces of the send path, including
562   // SRTP and the inner workings of the transport channels.
563   // The only downside is that we can't return a proper failure code if
564   // needed. Since UDP is unreliable anyway, this should be a non-issue.
565   if (rtc::Thread::Current() != worker_thread_) {
566     // Avoid a copy by transferring the ownership of the packet data.
567     int message_id = (!rtcp) ? MSG_RTPPACKET : MSG_RTCPPACKET;
568     PacketMessageData* data = new PacketMessageData;
569     data->packet = std::move(*packet);
570     data->options = options;
571     worker_thread_->Post(this, message_id, data);
572     return true;
573   }
574 
575   // Now that we are on the correct thread, ensure we have a place to send this
576   // packet before doing anything. (We might get RTCP packets that we don't
577   // intend to send.) If we've negotiated RTCP mux, send RTCP over the RTP
578   // transport.
579   TransportChannel* channel = (!rtcp || rtcp_mux_filter_.IsActive()) ?
580       transport_channel_ : rtcp_transport_channel_;
581   if (!channel || !channel->writable()) {
582     return false;
583   }
584 
585   // Protect ourselves against crazy data.
586   if (!ValidPacket(rtcp, packet)) {
587     LOG(LS_ERROR) << "Dropping outgoing " << content_name_ << " "
588                   << PacketType(rtcp)
589                   << " packet: wrong size=" << packet->size();
590     return false;
591   }
592 
593   rtc::PacketOptions updated_options;
594   updated_options = options;
595   // Protect if needed.
596   if (srtp_filter_.IsActive()) {
597     bool res;
598     uint8_t* data = packet->data();
599     int len = static_cast<int>(packet->size());
600     if (!rtcp) {
601     // If ENABLE_EXTERNAL_AUTH flag is on then packet authentication is not done
602     // inside libsrtp for a RTP packet. A external HMAC module will be writing
603     // a fake HMAC value. This is ONLY done for a RTP packet.
604     // Socket layer will update rtp sendtime extension header if present in
605     // packet with current time before updating the HMAC.
606 #if !defined(ENABLE_EXTERNAL_AUTH)
607       res = srtp_filter_.ProtectRtp(
608           data, len, static_cast<int>(packet->capacity()), &len);
609 #else
610       updated_options.packet_time_params.rtp_sendtime_extension_id =
611           rtp_abs_sendtime_extn_id_;
612       res = srtp_filter_.ProtectRtp(
613           data, len, static_cast<int>(packet->capacity()), &len,
614           &updated_options.packet_time_params.srtp_packet_index);
615       // If protection succeeds, let's get auth params from srtp.
616       if (res) {
617         uint8_t* auth_key = NULL;
618         int key_len;
619         res = srtp_filter_.GetRtpAuthParams(
620             &auth_key, &key_len,
621             &updated_options.packet_time_params.srtp_auth_tag_len);
622         if (res) {
623           updated_options.packet_time_params.srtp_auth_key.resize(key_len);
624           updated_options.packet_time_params.srtp_auth_key.assign(
625               auth_key, auth_key + key_len);
626         }
627       }
628 #endif
629       if (!res) {
630         int seq_num = -1;
631         uint32_t ssrc = 0;
632         GetRtpSeqNum(data, len, &seq_num);
633         GetRtpSsrc(data, len, &ssrc);
634         LOG(LS_ERROR) << "Failed to protect " << content_name_
635                       << " RTP packet: size=" << len
636                       << ", seqnum=" << seq_num << ", SSRC=" << ssrc;
637         return false;
638       }
639     } else {
640       res = srtp_filter_.ProtectRtcp(data, len,
641                                      static_cast<int>(packet->capacity()),
642                                      &len);
643       if (!res) {
644         int type = -1;
645         GetRtcpType(data, len, &type);
646         LOG(LS_ERROR) << "Failed to protect " << content_name_
647                       << " RTCP packet: size=" << len << ", type=" << type;
648         return false;
649       }
650     }
651 
652     // Update the length of the packet now that we've added the auth tag.
653     packet->SetSize(len);
654   } else if (secure_required_) {
655     // This is a double check for something that supposedly can't happen.
656     LOG(LS_ERROR) << "Can't send outgoing " << PacketType(rtcp)
657                   << " packet when SRTP is inactive and crypto is required";
658 
659     ASSERT(false);
660     return false;
661   }
662 
663   // Bon voyage.
664   int ret =
665       channel->SendPacket(packet->data<char>(), packet->size(), updated_options,
666                           (secure() && secure_dtls()) ? PF_SRTP_BYPASS : 0);
667   if (ret != static_cast<int>(packet->size())) {
668     if (channel->GetError() == EWOULDBLOCK) {
669       LOG(LS_WARNING) << "Got EWOULDBLOCK from socket.";
670       SetReadyToSend(rtcp, false);
671     }
672     return false;
673   }
674   return true;
675 }
676 
WantsPacket(bool rtcp,rtc::Buffer * packet)677 bool BaseChannel::WantsPacket(bool rtcp, rtc::Buffer* packet) {
678   // Protect ourselves against crazy data.
679   if (!ValidPacket(rtcp, packet)) {
680     LOG(LS_ERROR) << "Dropping incoming " << content_name_ << " "
681                   << PacketType(rtcp)
682                   << " packet: wrong size=" << packet->size();
683     return false;
684   }
685   if (rtcp) {
686     // Permit all (seemingly valid) RTCP packets.
687     return true;
688   }
689   // Check whether we handle this payload.
690   return bundle_filter_.DemuxPacket(packet->data<uint8_t>(), packet->size());
691 }
692 
HandlePacket(bool rtcp,rtc::Buffer * packet,const rtc::PacketTime & packet_time)693 void BaseChannel::HandlePacket(bool rtcp, rtc::Buffer* packet,
694                                const rtc::PacketTime& packet_time) {
695   if (!WantsPacket(rtcp, packet)) {
696     return;
697   }
698 
699   // We are only interested in the first rtp packet because that
700   // indicates the media has started flowing.
701   if (!has_received_packet_ && !rtcp) {
702     has_received_packet_ = true;
703     signaling_thread()->Post(this, MSG_FIRSTPACKETRECEIVED);
704   }
705 
706   // Unprotect the packet, if needed.
707   if (srtp_filter_.IsActive()) {
708     char* data = packet->data<char>();
709     int len = static_cast<int>(packet->size());
710     bool res;
711     if (!rtcp) {
712       res = srtp_filter_.UnprotectRtp(data, len, &len);
713       if (!res) {
714         int seq_num = -1;
715         uint32_t ssrc = 0;
716         GetRtpSeqNum(data, len, &seq_num);
717         GetRtpSsrc(data, len, &ssrc);
718         LOG(LS_ERROR) << "Failed to unprotect " << content_name_
719                       << " RTP packet: size=" << len
720                       << ", seqnum=" << seq_num << ", SSRC=" << ssrc;
721         return;
722       }
723     } else {
724       res = srtp_filter_.UnprotectRtcp(data, len, &len);
725       if (!res) {
726         int type = -1;
727         GetRtcpType(data, len, &type);
728         LOG(LS_ERROR) << "Failed to unprotect " << content_name_
729                       << " RTCP packet: size=" << len << ", type=" << type;
730         return;
731       }
732     }
733 
734     packet->SetSize(len);
735   } else if (secure_required_) {
736     // Our session description indicates that SRTP is required, but we got a
737     // packet before our SRTP filter is active. This means either that
738     // a) we got SRTP packets before we received the SDES keys, in which case
739     //    we can't decrypt it anyway, or
740     // b) we got SRTP packets before DTLS completed on both the RTP and RTCP
741     //    channels, so we haven't yet extracted keys, even if DTLS did complete
742     //    on the channel that the packets are being sent on. It's really good
743     //    practice to wait for both RTP and RTCP to be good to go before sending
744     //    media, to prevent weird failure modes, so it's fine for us to just eat
745     //    packets here. This is all sidestepped if RTCP mux is used anyway.
746     LOG(LS_WARNING) << "Can't process incoming " << PacketType(rtcp)
747                     << " packet when SRTP is inactive and crypto is required";
748     return;
749   }
750 
751   // Push it down to the media channel.
752   if (!rtcp) {
753     media_channel_->OnPacketReceived(packet, packet_time);
754   } else {
755     media_channel_->OnRtcpReceived(packet, packet_time);
756   }
757 }
758 
PushdownLocalDescription(const SessionDescription * local_desc,ContentAction action,std::string * error_desc)759 bool BaseChannel::PushdownLocalDescription(
760     const SessionDescription* local_desc, ContentAction action,
761     std::string* error_desc) {
762   const ContentInfo* content_info = GetFirstContent(local_desc);
763   const MediaContentDescription* content_desc =
764       GetContentDescription(content_info);
765   if (content_desc && content_info && !content_info->rejected &&
766       !SetLocalContent(content_desc, action, error_desc)) {
767     LOG(LS_ERROR) << "Failure in SetLocalContent with action " << action;
768     return false;
769   }
770   return true;
771 }
772 
PushdownRemoteDescription(const SessionDescription * remote_desc,ContentAction action,std::string * error_desc)773 bool BaseChannel::PushdownRemoteDescription(
774     const SessionDescription* remote_desc, ContentAction action,
775     std::string* error_desc) {
776   const ContentInfo* content_info = GetFirstContent(remote_desc);
777   const MediaContentDescription* content_desc =
778       GetContentDescription(content_info);
779   if (content_desc && content_info && !content_info->rejected &&
780       !SetRemoteContent(content_desc, action, error_desc)) {
781     LOG(LS_ERROR) << "Failure in SetRemoteContent with action " << action;
782     return false;
783   }
784   return true;
785 }
786 
EnableMedia_w()787 void BaseChannel::EnableMedia_w() {
788   ASSERT(worker_thread_ == rtc::Thread::Current());
789   if (enabled_)
790     return;
791 
792   LOG(LS_INFO) << "Channel enabled";
793   enabled_ = true;
794   ChangeState();
795 }
796 
DisableMedia_w()797 void BaseChannel::DisableMedia_w() {
798   ASSERT(worker_thread_ == rtc::Thread::Current());
799   if (!enabled_)
800     return;
801 
802   LOG(LS_INFO) << "Channel disabled";
803   enabled_ = false;
804   ChangeState();
805 }
806 
UpdateWritableState_w()807 void BaseChannel::UpdateWritableState_w() {
808   if (transport_channel_ && transport_channel_->writable() &&
809       (!rtcp_transport_channel_ || rtcp_transport_channel_->writable())) {
810     ChannelWritable_w();
811   } else {
812     ChannelNotWritable_w();
813   }
814 }
815 
ChannelWritable_w()816 void BaseChannel::ChannelWritable_w() {
817   ASSERT(worker_thread_ == rtc::Thread::Current());
818   if (writable_) {
819     return;
820   }
821 
822   LOG(LS_INFO) << "Channel writable (" << content_name_ << ")"
823                << (was_ever_writable_ ? "" : " for the first time");
824 
825   std::vector<ConnectionInfo> infos;
826   transport_channel_->GetStats(&infos);
827   for (std::vector<ConnectionInfo>::const_iterator it = infos.begin();
828        it != infos.end(); ++it) {
829     if (it->best_connection) {
830       LOG(LS_INFO) << "Using " << it->local_candidate.ToSensitiveString()
831                    << "->" << it->remote_candidate.ToSensitiveString();
832       break;
833     }
834   }
835 
836   was_ever_writable_ = true;
837   MaybeSetupDtlsSrtp_w();
838   writable_ = true;
839   ChangeState();
840 }
841 
SignalDtlsSetupFailure_w(bool rtcp)842 void BaseChannel::SignalDtlsSetupFailure_w(bool rtcp) {
843   ASSERT(worker_thread() == rtc::Thread::Current());
844   signaling_thread()->Invoke<void>(Bind(
845       &BaseChannel::SignalDtlsSetupFailure_s, this, rtcp));
846 }
847 
SignalDtlsSetupFailure_s(bool rtcp)848 void BaseChannel::SignalDtlsSetupFailure_s(bool rtcp) {
849   ASSERT(signaling_thread() == rtc::Thread::Current());
850   SignalDtlsSetupFailure(this, rtcp);
851 }
852 
SetDtlsSrtpCryptoSuites(TransportChannel * tc,bool rtcp)853 bool BaseChannel::SetDtlsSrtpCryptoSuites(TransportChannel* tc, bool rtcp) {
854   std::vector<int> crypto_suites;
855   // We always use the default SRTP crypto suites for RTCP, but we may use
856   // different crypto suites for RTP depending on the media type.
857   if (!rtcp) {
858     GetSrtpCryptoSuites(&crypto_suites);
859   } else {
860     GetDefaultSrtpCryptoSuites(&crypto_suites);
861   }
862   return tc->SetSrtpCryptoSuites(crypto_suites);
863 }
864 
ShouldSetupDtlsSrtp() const865 bool BaseChannel::ShouldSetupDtlsSrtp() const {
866   // Since DTLS is applied to all channels, checking RTP should be enough.
867   return transport_channel_ && transport_channel_->IsDtlsActive();
868 }
869 
870 // This function returns true if either DTLS-SRTP is not in use
871 // *or* DTLS-SRTP is successfully set up.
SetupDtlsSrtp(bool rtcp_channel)872 bool BaseChannel::SetupDtlsSrtp(bool rtcp_channel) {
873   bool ret = false;
874 
875   TransportChannel* channel =
876       rtcp_channel ? rtcp_transport_channel_ : transport_channel_;
877 
878   RTC_DCHECK(channel->IsDtlsActive());
879 
880   int selected_crypto_suite;
881 
882   if (!channel->GetSrtpCryptoSuite(&selected_crypto_suite)) {
883     LOG(LS_ERROR) << "No DTLS-SRTP selected crypto suite";
884     return false;
885   }
886 
887   LOG(LS_INFO) << "Installing keys from DTLS-SRTP on "
888                << content_name() << " "
889                << PacketType(rtcp_channel);
890 
891   // OK, we're now doing DTLS (RFC 5764)
892   std::vector<unsigned char> dtls_buffer(SRTP_MASTER_KEY_KEY_LEN * 2 +
893                                          SRTP_MASTER_KEY_SALT_LEN * 2);
894 
895   // RFC 5705 exporter using the RFC 5764 parameters
896   if (!channel->ExportKeyingMaterial(
897           kDtlsSrtpExporterLabel,
898           NULL, 0, false,
899           &dtls_buffer[0], dtls_buffer.size())) {
900     LOG(LS_WARNING) << "DTLS-SRTP key export failed";
901     ASSERT(false);  // This should never happen
902     return false;
903   }
904 
905   // Sync up the keys with the DTLS-SRTP interface
906   std::vector<unsigned char> client_write_key(SRTP_MASTER_KEY_KEY_LEN +
907     SRTP_MASTER_KEY_SALT_LEN);
908   std::vector<unsigned char> server_write_key(SRTP_MASTER_KEY_KEY_LEN +
909     SRTP_MASTER_KEY_SALT_LEN);
910   size_t offset = 0;
911   memcpy(&client_write_key[0], &dtls_buffer[offset],
912     SRTP_MASTER_KEY_KEY_LEN);
913   offset += SRTP_MASTER_KEY_KEY_LEN;
914   memcpy(&server_write_key[0], &dtls_buffer[offset],
915     SRTP_MASTER_KEY_KEY_LEN);
916   offset += SRTP_MASTER_KEY_KEY_LEN;
917   memcpy(&client_write_key[SRTP_MASTER_KEY_KEY_LEN],
918     &dtls_buffer[offset], SRTP_MASTER_KEY_SALT_LEN);
919   offset += SRTP_MASTER_KEY_SALT_LEN;
920   memcpy(&server_write_key[SRTP_MASTER_KEY_KEY_LEN],
921     &dtls_buffer[offset], SRTP_MASTER_KEY_SALT_LEN);
922 
923   std::vector<unsigned char> *send_key, *recv_key;
924   rtc::SSLRole role;
925   if (!channel->GetSslRole(&role)) {
926     LOG(LS_WARNING) << "GetSslRole failed";
927     return false;
928   }
929 
930   if (role == rtc::SSL_SERVER) {
931     send_key = &server_write_key;
932     recv_key = &client_write_key;
933   } else {
934     send_key = &client_write_key;
935     recv_key = &server_write_key;
936   }
937 
938   if (rtcp_channel) {
939     ret = srtp_filter_.SetRtcpParams(selected_crypto_suite, &(*send_key)[0],
940                                      static_cast<int>(send_key->size()),
941                                      selected_crypto_suite, &(*recv_key)[0],
942                                      static_cast<int>(recv_key->size()));
943   } else {
944     ret = srtp_filter_.SetRtpParams(selected_crypto_suite, &(*send_key)[0],
945                                     static_cast<int>(send_key->size()),
946                                     selected_crypto_suite, &(*recv_key)[0],
947                                     static_cast<int>(recv_key->size()));
948   }
949 
950   if (!ret)
951     LOG(LS_WARNING) << "DTLS-SRTP key installation failed";
952   else
953     dtls_keyed_ = true;
954 
955   return ret;
956 }
957 
MaybeSetupDtlsSrtp_w()958 void BaseChannel::MaybeSetupDtlsSrtp_w() {
959   if (srtp_filter_.IsActive()) {
960     return;
961   }
962 
963   if (!ShouldSetupDtlsSrtp()) {
964     return;
965   }
966 
967   if (!SetupDtlsSrtp(false)) {
968     SignalDtlsSetupFailure_w(false);
969     return;
970   }
971 
972   if (rtcp_transport_channel_) {
973     if (!SetupDtlsSrtp(true)) {
974       SignalDtlsSetupFailure_w(true);
975       return;
976     }
977   }
978 }
979 
ChannelNotWritable_w()980 void BaseChannel::ChannelNotWritable_w() {
981   ASSERT(worker_thread_ == rtc::Thread::Current());
982   if (!writable_)
983     return;
984 
985   LOG(LS_INFO) << "Channel not writable (" << content_name_ << ")";
986   writable_ = false;
987   ChangeState();
988 }
989 
SetRtpTransportParameters_w(const MediaContentDescription * content,ContentAction action,ContentSource src,std::string * error_desc)990 bool BaseChannel::SetRtpTransportParameters_w(
991     const MediaContentDescription* content,
992     ContentAction action,
993     ContentSource src,
994     std::string* error_desc) {
995   if (action == CA_UPDATE) {
996     // These parameters never get changed by a CA_UDPATE.
997     return true;
998   }
999 
1000   // Cache secure_required_ for belt and suspenders check on SendPacket
1001   if (src == CS_LOCAL) {
1002     set_secure_required(content->crypto_required() != CT_NONE);
1003   }
1004 
1005   if (!SetSrtp_w(content->cryptos(), action, src, error_desc)) {
1006     return false;
1007   }
1008 
1009   if (!SetRtcpMux_w(content->rtcp_mux(), action, src, error_desc)) {
1010     return false;
1011   }
1012 
1013   return true;
1014 }
1015 
1016 // |dtls| will be set to true if DTLS is active for transport channel and
1017 // crypto is empty.
CheckSrtpConfig(const std::vector<CryptoParams> & cryptos,bool * dtls,std::string * error_desc)1018 bool BaseChannel::CheckSrtpConfig(const std::vector<CryptoParams>& cryptos,
1019                                   bool* dtls,
1020                                   std::string* error_desc) {
1021   *dtls = transport_channel_->IsDtlsActive();
1022   if (*dtls && !cryptos.empty()) {
1023     SafeSetError("Cryptos must be empty when DTLS is active.",
1024                  error_desc);
1025     return false;
1026   }
1027   return true;
1028 }
1029 
SetSrtp_w(const std::vector<CryptoParams> & cryptos,ContentAction action,ContentSource src,std::string * error_desc)1030 bool BaseChannel::SetSrtp_w(const std::vector<CryptoParams>& cryptos,
1031                             ContentAction action,
1032                             ContentSource src,
1033                             std::string* error_desc) {
1034   if (action == CA_UPDATE) {
1035     // no crypto params.
1036     return true;
1037   }
1038   bool ret = false;
1039   bool dtls = false;
1040   ret = CheckSrtpConfig(cryptos, &dtls, error_desc);
1041   if (!ret) {
1042     return false;
1043   }
1044   switch (action) {
1045     case CA_OFFER:
1046       // If DTLS is already active on the channel, we could be renegotiating
1047       // here. We don't update the srtp filter.
1048       if (!dtls) {
1049         ret = srtp_filter_.SetOffer(cryptos, src);
1050       }
1051       break;
1052     case CA_PRANSWER:
1053       // If we're doing DTLS-SRTP, we don't want to update the filter
1054       // with an answer, because we already have SRTP parameters.
1055       if (!dtls) {
1056         ret = srtp_filter_.SetProvisionalAnswer(cryptos, src);
1057       }
1058       break;
1059     case CA_ANSWER:
1060       // If we're doing DTLS-SRTP, we don't want to update the filter
1061       // with an answer, because we already have SRTP parameters.
1062       if (!dtls) {
1063         ret = srtp_filter_.SetAnswer(cryptos, src);
1064       }
1065       break;
1066     default:
1067       break;
1068   }
1069   if (!ret) {
1070     SafeSetError("Failed to setup SRTP filter.", error_desc);
1071     return false;
1072   }
1073   return true;
1074 }
1075 
ActivateRtcpMux()1076 void BaseChannel::ActivateRtcpMux() {
1077   worker_thread_->Invoke<void>(Bind(
1078       &BaseChannel::ActivateRtcpMux_w, this));
1079 }
1080 
ActivateRtcpMux_w()1081 void BaseChannel::ActivateRtcpMux_w() {
1082   if (!rtcp_mux_filter_.IsActive()) {
1083     rtcp_mux_filter_.SetActive();
1084     set_rtcp_transport_channel(nullptr, true);
1085     rtcp_transport_enabled_ = false;
1086   }
1087 }
1088 
SetRtcpMux_w(bool enable,ContentAction action,ContentSource src,std::string * error_desc)1089 bool BaseChannel::SetRtcpMux_w(bool enable, ContentAction action,
1090                                ContentSource src,
1091                                std::string* error_desc) {
1092   bool ret = false;
1093   switch (action) {
1094     case CA_OFFER:
1095       ret = rtcp_mux_filter_.SetOffer(enable, src);
1096       break;
1097     case CA_PRANSWER:
1098       ret = rtcp_mux_filter_.SetProvisionalAnswer(enable, src);
1099       break;
1100     case CA_ANSWER:
1101       ret = rtcp_mux_filter_.SetAnswer(enable, src);
1102       if (ret && rtcp_mux_filter_.IsActive()) {
1103         // We activated RTCP mux, close down the RTCP transport.
1104         LOG(LS_INFO) << "Enabling rtcp-mux for " << content_name()
1105                      << " by destroying RTCP transport channel for "
1106                      << transport_name();
1107         set_rtcp_transport_channel(nullptr, true);
1108         rtcp_transport_enabled_ = false;
1109       }
1110       break;
1111     case CA_UPDATE:
1112       // No RTCP mux info.
1113       ret = true;
1114       break;
1115     default:
1116       break;
1117   }
1118   if (!ret) {
1119     SafeSetError("Failed to setup RTCP mux filter.", error_desc);
1120     return false;
1121   }
1122   // |rtcp_mux_filter_| can be active if |action| is CA_PRANSWER or
1123   // CA_ANSWER, but we only want to tear down the RTCP transport channel if we
1124   // received a final answer.
1125   if (rtcp_mux_filter_.IsActive()) {
1126     // If the RTP transport is already writable, then so are we.
1127     if (transport_channel_->writable()) {
1128       ChannelWritable_w();
1129     }
1130   }
1131 
1132   return true;
1133 }
1134 
AddRecvStream_w(const StreamParams & sp)1135 bool BaseChannel::AddRecvStream_w(const StreamParams& sp) {
1136   ASSERT(worker_thread() == rtc::Thread::Current());
1137   return media_channel()->AddRecvStream(sp);
1138 }
1139 
RemoveRecvStream_w(uint32_t ssrc)1140 bool BaseChannel::RemoveRecvStream_w(uint32_t ssrc) {
1141   ASSERT(worker_thread() == rtc::Thread::Current());
1142   return media_channel()->RemoveRecvStream(ssrc);
1143 }
1144 
UpdateLocalStreams_w(const std::vector<StreamParams> & streams,ContentAction action,std::string * error_desc)1145 bool BaseChannel::UpdateLocalStreams_w(const std::vector<StreamParams>& streams,
1146                                        ContentAction action,
1147                                        std::string* error_desc) {
1148   if (!VERIFY(action == CA_OFFER || action == CA_ANSWER ||
1149               action == CA_PRANSWER || action == CA_UPDATE))
1150     return false;
1151 
1152   // If this is an update, streams only contain streams that have changed.
1153   if (action == CA_UPDATE) {
1154     for (StreamParamsVec::const_iterator it = streams.begin();
1155          it != streams.end(); ++it) {
1156       const StreamParams* existing_stream =
1157           GetStreamByIds(local_streams_, it->groupid, it->id);
1158       if (!existing_stream && it->has_ssrcs()) {
1159         if (media_channel()->AddSendStream(*it)) {
1160           local_streams_.push_back(*it);
1161           LOG(LS_INFO) << "Add send stream ssrc: " << it->first_ssrc();
1162         } else {
1163           std::ostringstream desc;
1164           desc << "Failed to add send stream ssrc: " << it->first_ssrc();
1165           SafeSetError(desc.str(), error_desc);
1166           return false;
1167         }
1168       } else if (existing_stream && !it->has_ssrcs()) {
1169         if (!media_channel()->RemoveSendStream(existing_stream->first_ssrc())) {
1170           std::ostringstream desc;
1171           desc << "Failed to remove send stream with ssrc "
1172                << it->first_ssrc() << ".";
1173           SafeSetError(desc.str(), error_desc);
1174           return false;
1175         }
1176         RemoveStreamBySsrc(&local_streams_, existing_stream->first_ssrc());
1177       } else {
1178         LOG(LS_WARNING) << "Ignore unsupported stream update";
1179       }
1180     }
1181     return true;
1182   }
1183   // Else streams are all the streams we want to send.
1184 
1185   // Check for streams that have been removed.
1186   bool ret = true;
1187   for (StreamParamsVec::const_iterator it = local_streams_.begin();
1188        it != local_streams_.end(); ++it) {
1189     if (!GetStreamBySsrc(streams, it->first_ssrc())) {
1190       if (!media_channel()->RemoveSendStream(it->first_ssrc())) {
1191         std::ostringstream desc;
1192         desc << "Failed to remove send stream with ssrc "
1193              << it->first_ssrc() << ".";
1194         SafeSetError(desc.str(), error_desc);
1195         ret = false;
1196       }
1197     }
1198   }
1199   // Check for new streams.
1200   for (StreamParamsVec::const_iterator it = streams.begin();
1201        it != streams.end(); ++it) {
1202     if (!GetStreamBySsrc(local_streams_, it->first_ssrc())) {
1203       if (media_channel()->AddSendStream(*it)) {
1204         LOG(LS_INFO) << "Add send stream ssrc: " << it->ssrcs[0];
1205       } else {
1206         std::ostringstream desc;
1207         desc << "Failed to add send stream ssrc: " << it->first_ssrc();
1208         SafeSetError(desc.str(), error_desc);
1209         ret = false;
1210       }
1211     }
1212   }
1213   local_streams_ = streams;
1214   return ret;
1215 }
1216 
UpdateRemoteStreams_w(const std::vector<StreamParams> & streams,ContentAction action,std::string * error_desc)1217 bool BaseChannel::UpdateRemoteStreams_w(
1218     const std::vector<StreamParams>& streams,
1219     ContentAction action,
1220     std::string* error_desc) {
1221   if (!VERIFY(action == CA_OFFER || action == CA_ANSWER ||
1222               action == CA_PRANSWER || action == CA_UPDATE))
1223     return false;
1224 
1225   // If this is an update, streams only contain streams that have changed.
1226   if (action == CA_UPDATE) {
1227     for (StreamParamsVec::const_iterator it = streams.begin();
1228          it != streams.end(); ++it) {
1229       const StreamParams* existing_stream =
1230           GetStreamByIds(remote_streams_, it->groupid, it->id);
1231       if (!existing_stream && it->has_ssrcs()) {
1232         if (AddRecvStream_w(*it)) {
1233           remote_streams_.push_back(*it);
1234           LOG(LS_INFO) << "Add remote stream ssrc: " << it->first_ssrc();
1235         } else {
1236           std::ostringstream desc;
1237           desc << "Failed to add remote stream ssrc: " << it->first_ssrc();
1238           SafeSetError(desc.str(), error_desc);
1239           return false;
1240         }
1241       } else if (existing_stream && !it->has_ssrcs()) {
1242         if (!RemoveRecvStream_w(existing_stream->first_ssrc())) {
1243           std::ostringstream desc;
1244           desc << "Failed to remove remote stream with ssrc "
1245                << it->first_ssrc() << ".";
1246           SafeSetError(desc.str(), error_desc);
1247           return false;
1248         }
1249         RemoveStreamBySsrc(&remote_streams_, existing_stream->first_ssrc());
1250       } else {
1251         LOG(LS_WARNING) << "Ignore unsupported stream update."
1252                         << " Stream exists? " << (existing_stream != nullptr)
1253                         << " new stream = " << it->ToString();
1254       }
1255     }
1256     return true;
1257   }
1258   // Else streams are all the streams we want to receive.
1259 
1260   // Check for streams that have been removed.
1261   bool ret = true;
1262   for (StreamParamsVec::const_iterator it = remote_streams_.begin();
1263        it != remote_streams_.end(); ++it) {
1264     if (!GetStreamBySsrc(streams, it->first_ssrc())) {
1265       if (!RemoveRecvStream_w(it->first_ssrc())) {
1266         std::ostringstream desc;
1267         desc << "Failed to remove remote stream with ssrc "
1268              << it->first_ssrc() << ".";
1269         SafeSetError(desc.str(), error_desc);
1270         ret = false;
1271       }
1272     }
1273   }
1274   // Check for new streams.
1275   for (StreamParamsVec::const_iterator it = streams.begin();
1276       it != streams.end(); ++it) {
1277     if (!GetStreamBySsrc(remote_streams_, it->first_ssrc())) {
1278       if (AddRecvStream_w(*it)) {
1279         LOG(LS_INFO) << "Add remote ssrc: " << it->ssrcs[0];
1280       } else {
1281         std::ostringstream desc;
1282         desc << "Failed to add remote stream ssrc: " << it->first_ssrc();
1283         SafeSetError(desc.str(), error_desc);
1284         ret = false;
1285       }
1286     }
1287   }
1288   remote_streams_ = streams;
1289   return ret;
1290 }
1291 
MaybeCacheRtpAbsSendTimeHeaderExtension(const std::vector<RtpHeaderExtension> & extensions)1292 void BaseChannel::MaybeCacheRtpAbsSendTimeHeaderExtension(
1293     const std::vector<RtpHeaderExtension>& extensions) {
1294   const RtpHeaderExtension* send_time_extension =
1295       FindHeaderExtension(extensions, kRtpAbsoluteSenderTimeHeaderExtension);
1296   rtp_abs_sendtime_extn_id_ =
1297       send_time_extension ? send_time_extension->id : -1;
1298 }
1299 
OnMessage(rtc::Message * pmsg)1300 void BaseChannel::OnMessage(rtc::Message *pmsg) {
1301   TRACE_EVENT0("webrtc", "BaseChannel::OnMessage");
1302   switch (pmsg->message_id) {
1303     case MSG_RTPPACKET:
1304     case MSG_RTCPPACKET: {
1305       PacketMessageData* data = static_cast<PacketMessageData*>(pmsg->pdata);
1306       SendPacket(pmsg->message_id == MSG_RTCPPACKET, &data->packet,
1307                  data->options);
1308       delete data;  // because it is Posted
1309       break;
1310     }
1311     case MSG_FIRSTPACKETRECEIVED: {
1312       SignalFirstPacketReceived(this);
1313       break;
1314     }
1315   }
1316 }
1317 
FlushRtcpMessages()1318 void BaseChannel::FlushRtcpMessages() {
1319   // Flush all remaining RTCP messages. This should only be called in
1320   // destructor.
1321   ASSERT(rtc::Thread::Current() == worker_thread_);
1322   rtc::MessageList rtcp_messages;
1323   worker_thread_->Clear(this, MSG_RTCPPACKET, &rtcp_messages);
1324   for (rtc::MessageList::iterator it = rtcp_messages.begin();
1325        it != rtcp_messages.end(); ++it) {
1326     worker_thread_->Send(this, MSG_RTCPPACKET, it->pdata);
1327   }
1328 }
1329 
VoiceChannel(rtc::Thread * thread,MediaEngineInterface * media_engine,VoiceMediaChannel * media_channel,TransportController * transport_controller,const std::string & content_name,bool rtcp)1330 VoiceChannel::VoiceChannel(rtc::Thread* thread,
1331                            MediaEngineInterface* media_engine,
1332                            VoiceMediaChannel* media_channel,
1333                            TransportController* transport_controller,
1334                            const std::string& content_name,
1335                            bool rtcp)
1336     : BaseChannel(thread,
1337                   media_channel,
1338                   transport_controller,
1339                   content_name,
1340                   rtcp),
1341       media_engine_(media_engine),
1342       received_media_(false) {}
1343 
~VoiceChannel()1344 VoiceChannel::~VoiceChannel() {
1345   StopAudioMonitor();
1346   StopMediaMonitor();
1347   // this can't be done in the base class, since it calls a virtual
1348   DisableMedia_w();
1349   Deinit();
1350 }
1351 
Init()1352 bool VoiceChannel::Init() {
1353   if (!BaseChannel::Init()) {
1354     return false;
1355   }
1356   return true;
1357 }
1358 
SetAudioSend(uint32_t ssrc,bool enable,const AudioOptions * options,AudioRenderer * renderer)1359 bool VoiceChannel::SetAudioSend(uint32_t ssrc,
1360                                 bool enable,
1361                                 const AudioOptions* options,
1362                                 AudioRenderer* renderer) {
1363   return InvokeOnWorker(Bind(&VoiceMediaChannel::SetAudioSend, media_channel(),
1364                              ssrc, enable, options, renderer));
1365 }
1366 
1367 // TODO(juberti): Handle early media the right way. We should get an explicit
1368 // ringing message telling us to start playing local ringback, which we cancel
1369 // if any early media actually arrives. For now, we do the opposite, which is
1370 // to wait 1 second for early media, and start playing local ringback if none
1371 // arrives.
SetEarlyMedia(bool enable)1372 void VoiceChannel::SetEarlyMedia(bool enable) {
1373   if (enable) {
1374     // Start the early media timeout
1375     worker_thread()->PostDelayed(kEarlyMediaTimeout, this,
1376                                 MSG_EARLYMEDIATIMEOUT);
1377   } else {
1378     // Stop the timeout if currently going.
1379     worker_thread()->Clear(this, MSG_EARLYMEDIATIMEOUT);
1380   }
1381 }
1382 
CanInsertDtmf()1383 bool VoiceChannel::CanInsertDtmf() {
1384   return InvokeOnWorker(Bind(&VoiceMediaChannel::CanInsertDtmf,
1385                              media_channel()));
1386 }
1387 
InsertDtmf(uint32_t ssrc,int event_code,int duration)1388 bool VoiceChannel::InsertDtmf(uint32_t ssrc,
1389                               int event_code,
1390                               int duration) {
1391   return InvokeOnWorker(Bind(&VoiceChannel::InsertDtmf_w, this,
1392                              ssrc, event_code, duration));
1393 }
1394 
SetOutputVolume(uint32_t ssrc,double volume)1395 bool VoiceChannel::SetOutputVolume(uint32_t ssrc, double volume) {
1396   return InvokeOnWorker(Bind(&VoiceMediaChannel::SetOutputVolume,
1397                              media_channel(), ssrc, volume));
1398 }
1399 
SetRawAudioSink(uint32_t ssrc,rtc::scoped_ptr<webrtc::AudioSinkInterface> sink)1400 void VoiceChannel::SetRawAudioSink(
1401     uint32_t ssrc,
1402     rtc::scoped_ptr<webrtc::AudioSinkInterface> sink) {
1403   // We need to work around Bind's lack of support for scoped_ptr and ownership
1404   // passing.  So we invoke to our own little routine that gets a pointer to
1405   // our local variable.  This is OK since we're synchronously invoking.
1406   InvokeOnWorker(Bind(&SetRawAudioSink_w, media_channel(), ssrc, &sink));
1407 }
1408 
GetStats(VoiceMediaInfo * stats)1409 bool VoiceChannel::GetStats(VoiceMediaInfo* stats) {
1410   return InvokeOnWorker(Bind(&VoiceMediaChannel::GetStats,
1411                              media_channel(), stats));
1412 }
1413 
StartMediaMonitor(int cms)1414 void VoiceChannel::StartMediaMonitor(int cms) {
1415   media_monitor_.reset(new VoiceMediaMonitor(media_channel(), worker_thread(),
1416       rtc::Thread::Current()));
1417   media_monitor_->SignalUpdate.connect(
1418       this, &VoiceChannel::OnMediaMonitorUpdate);
1419   media_monitor_->Start(cms);
1420 }
1421 
StopMediaMonitor()1422 void VoiceChannel::StopMediaMonitor() {
1423   if (media_monitor_) {
1424     media_monitor_->Stop();
1425     media_monitor_->SignalUpdate.disconnect(this);
1426     media_monitor_.reset();
1427   }
1428 }
1429 
StartAudioMonitor(int cms)1430 void VoiceChannel::StartAudioMonitor(int cms) {
1431   audio_monitor_.reset(new AudioMonitor(this, rtc::Thread::Current()));
1432   audio_monitor_
1433     ->SignalUpdate.connect(this, &VoiceChannel::OnAudioMonitorUpdate);
1434   audio_monitor_->Start(cms);
1435 }
1436 
StopAudioMonitor()1437 void VoiceChannel::StopAudioMonitor() {
1438   if (audio_monitor_) {
1439     audio_monitor_->Stop();
1440     audio_monitor_.reset();
1441   }
1442 }
1443 
IsAudioMonitorRunning() const1444 bool VoiceChannel::IsAudioMonitorRunning() const {
1445   return (audio_monitor_.get() != NULL);
1446 }
1447 
GetInputLevel_w()1448 int VoiceChannel::GetInputLevel_w() {
1449   return media_engine_->GetInputLevel();
1450 }
1451 
GetOutputLevel_w()1452 int VoiceChannel::GetOutputLevel_w() {
1453   return media_channel()->GetOutputLevel();
1454 }
1455 
GetActiveStreams_w(AudioInfo::StreamList * actives)1456 void VoiceChannel::GetActiveStreams_w(AudioInfo::StreamList* actives) {
1457   media_channel()->GetActiveStreams(actives);
1458 }
1459 
OnChannelRead(TransportChannel * channel,const char * data,size_t len,const rtc::PacketTime & packet_time,int flags)1460 void VoiceChannel::OnChannelRead(TransportChannel* channel,
1461                                  const char* data, size_t len,
1462                                  const rtc::PacketTime& packet_time,
1463                                 int flags) {
1464   BaseChannel::OnChannelRead(channel, data, len, packet_time, flags);
1465 
1466   // Set a flag when we've received an RTP packet. If we're waiting for early
1467   // media, this will disable the timeout.
1468   if (!received_media_ && !PacketIsRtcp(channel, data, len)) {
1469     received_media_ = true;
1470   }
1471 }
1472 
ChangeState()1473 void VoiceChannel::ChangeState() {
1474   // Render incoming data if we're the active call, and we have the local
1475   // content. We receive data on the default channel and multiplexed streams.
1476   bool recv = IsReadyToReceive();
1477   media_channel()->SetPlayout(recv);
1478 
1479   // Send outgoing data if we're the active call, we have the remote content,
1480   // and we have had some form of connectivity.
1481   bool send = IsReadyToSend();
1482   SendFlags send_flag = send ? SEND_MICROPHONE : SEND_NOTHING;
1483   if (!media_channel()->SetSend(send_flag)) {
1484     LOG(LS_ERROR) << "Failed to SetSend " << send_flag << " on voice channel";
1485   }
1486 
1487   LOG(LS_INFO) << "Changing voice state, recv=" << recv << " send=" << send;
1488 }
1489 
GetFirstContent(const SessionDescription * sdesc)1490 const ContentInfo* VoiceChannel::GetFirstContent(
1491     const SessionDescription* sdesc) {
1492   return GetFirstAudioContent(sdesc);
1493 }
1494 
SetLocalContent_w(const MediaContentDescription * content,ContentAction action,std::string * error_desc)1495 bool VoiceChannel::SetLocalContent_w(const MediaContentDescription* content,
1496                                      ContentAction action,
1497                                      std::string* error_desc) {
1498   TRACE_EVENT0("webrtc", "VoiceChannel::SetLocalContent_w");
1499   ASSERT(worker_thread() == rtc::Thread::Current());
1500   LOG(LS_INFO) << "Setting local voice description";
1501 
1502   const AudioContentDescription* audio =
1503       static_cast<const AudioContentDescription*>(content);
1504   ASSERT(audio != NULL);
1505   if (!audio) {
1506     SafeSetError("Can't find audio content in local description.", error_desc);
1507     return false;
1508   }
1509 
1510   if (!SetRtpTransportParameters_w(content, action, CS_LOCAL, error_desc)) {
1511     return false;
1512   }
1513 
1514   AudioRecvParameters recv_params = last_recv_params_;
1515   RtpParametersFromMediaDescription(audio, &recv_params);
1516   if (!media_channel()->SetRecvParameters(recv_params)) {
1517     SafeSetError("Failed to set local audio description recv parameters.",
1518                  error_desc);
1519     return false;
1520   }
1521   for (const AudioCodec& codec : audio->codecs()) {
1522     bundle_filter()->AddPayloadType(codec.id);
1523   }
1524   last_recv_params_ = recv_params;
1525 
1526   // TODO(pthatcher): Move local streams into AudioSendParameters, and
1527   // only give it to the media channel once we have a remote
1528   // description too (without a remote description, we won't be able
1529   // to send them anyway).
1530   if (!UpdateLocalStreams_w(audio->streams(), action, error_desc)) {
1531     SafeSetError("Failed to set local audio description streams.", error_desc);
1532     return false;
1533   }
1534 
1535   set_local_content_direction(content->direction());
1536   ChangeState();
1537   return true;
1538 }
1539 
SetRemoteContent_w(const MediaContentDescription * content,ContentAction action,std::string * error_desc)1540 bool VoiceChannel::SetRemoteContent_w(const MediaContentDescription* content,
1541                                       ContentAction action,
1542                                       std::string* error_desc) {
1543   TRACE_EVENT0("webrtc", "VoiceChannel::SetRemoteContent_w");
1544   ASSERT(worker_thread() == rtc::Thread::Current());
1545   LOG(LS_INFO) << "Setting remote voice description";
1546 
1547   const AudioContentDescription* audio =
1548       static_cast<const AudioContentDescription*>(content);
1549   ASSERT(audio != NULL);
1550   if (!audio) {
1551     SafeSetError("Can't find audio content in remote description.", error_desc);
1552     return false;
1553   }
1554 
1555   if (!SetRtpTransportParameters_w(content, action, CS_REMOTE, error_desc)) {
1556     return false;
1557   }
1558 
1559   AudioSendParameters send_params = last_send_params_;
1560   RtpSendParametersFromMediaDescription(audio, &send_params);
1561   if (audio->agc_minus_10db()) {
1562     send_params.options.adjust_agc_delta = rtc::Optional<int>(kAgcMinus10db);
1563   }
1564   if (!media_channel()->SetSendParameters(send_params)) {
1565     SafeSetError("Failed to set remote audio description send parameters.",
1566                  error_desc);
1567     return false;
1568   }
1569   last_send_params_ = send_params;
1570 
1571   // TODO(pthatcher): Move remote streams into AudioRecvParameters,
1572   // and only give it to the media channel once we have a local
1573   // description too (without a local description, we won't be able to
1574   // recv them anyway).
1575   if (!UpdateRemoteStreams_w(audio->streams(), action, error_desc)) {
1576     SafeSetError("Failed to set remote audio description streams.", error_desc);
1577     return false;
1578   }
1579 
1580   if (audio->rtp_header_extensions_set()) {
1581     MaybeCacheRtpAbsSendTimeHeaderExtension(audio->rtp_header_extensions());
1582   }
1583 
1584   set_remote_content_direction(content->direction());
1585   ChangeState();
1586   return true;
1587 }
1588 
HandleEarlyMediaTimeout()1589 void VoiceChannel::HandleEarlyMediaTimeout() {
1590   // This occurs on the main thread, not the worker thread.
1591   if (!received_media_) {
1592     LOG(LS_INFO) << "No early media received before timeout";
1593     SignalEarlyMediaTimeout(this);
1594   }
1595 }
1596 
InsertDtmf_w(uint32_t ssrc,int event,int duration)1597 bool VoiceChannel::InsertDtmf_w(uint32_t ssrc,
1598                                 int event,
1599                                 int duration) {
1600   if (!enabled()) {
1601     return false;
1602   }
1603   return media_channel()->InsertDtmf(ssrc, event, duration);
1604 }
1605 
OnMessage(rtc::Message * pmsg)1606 void VoiceChannel::OnMessage(rtc::Message *pmsg) {
1607   switch (pmsg->message_id) {
1608     case MSG_EARLYMEDIATIMEOUT:
1609       HandleEarlyMediaTimeout();
1610       break;
1611     case MSG_CHANNEL_ERROR: {
1612       VoiceChannelErrorMessageData* data =
1613           static_cast<VoiceChannelErrorMessageData*>(pmsg->pdata);
1614       delete data;
1615       break;
1616     }
1617     default:
1618       BaseChannel::OnMessage(pmsg);
1619       break;
1620   }
1621 }
1622 
OnConnectionMonitorUpdate(ConnectionMonitor * monitor,const std::vector<ConnectionInfo> & infos)1623 void VoiceChannel::OnConnectionMonitorUpdate(
1624     ConnectionMonitor* monitor, const std::vector<ConnectionInfo>& infos) {
1625   SignalConnectionMonitor(this, infos);
1626 }
1627 
OnMediaMonitorUpdate(VoiceMediaChannel * media_channel,const VoiceMediaInfo & info)1628 void VoiceChannel::OnMediaMonitorUpdate(
1629     VoiceMediaChannel* media_channel, const VoiceMediaInfo& info) {
1630   ASSERT(media_channel == this->media_channel());
1631   SignalMediaMonitor(this, info);
1632 }
1633 
OnAudioMonitorUpdate(AudioMonitor * monitor,const AudioInfo & info)1634 void VoiceChannel::OnAudioMonitorUpdate(AudioMonitor* monitor,
1635                                         const AudioInfo& info) {
1636   SignalAudioMonitor(this, info);
1637 }
1638 
GetSrtpCryptoSuites(std::vector<int> * crypto_suites) const1639 void VoiceChannel::GetSrtpCryptoSuites(std::vector<int>* crypto_suites) const {
1640   GetSupportedAudioCryptoSuites(crypto_suites);
1641 }
1642 
VideoChannel(rtc::Thread * thread,VideoMediaChannel * media_channel,TransportController * transport_controller,const std::string & content_name,bool rtcp)1643 VideoChannel::VideoChannel(rtc::Thread* thread,
1644                            VideoMediaChannel* media_channel,
1645                            TransportController* transport_controller,
1646                            const std::string& content_name,
1647                            bool rtcp)
1648     : BaseChannel(thread,
1649                   media_channel,
1650                   transport_controller,
1651                   content_name,
1652                   rtcp),
1653       renderer_(NULL),
1654       previous_we_(rtc::WE_CLOSE) {}
1655 
Init()1656 bool VideoChannel::Init() {
1657   if (!BaseChannel::Init()) {
1658     return false;
1659   }
1660   return true;
1661 }
1662 
~VideoChannel()1663 VideoChannel::~VideoChannel() {
1664   std::vector<uint32_t> screencast_ssrcs;
1665   ScreencastMap::iterator iter;
1666   while (!screencast_capturers_.empty()) {
1667     if (!RemoveScreencast(screencast_capturers_.begin()->first)) {
1668       LOG(LS_ERROR) << "Unable to delete screencast with ssrc "
1669                     << screencast_capturers_.begin()->first;
1670       ASSERT(false);
1671       break;
1672     }
1673   }
1674 
1675   StopMediaMonitor();
1676   // this can't be done in the base class, since it calls a virtual
1677   DisableMedia_w();
1678 
1679   Deinit();
1680 }
1681 
SetRenderer(uint32_t ssrc,VideoRenderer * renderer)1682 bool VideoChannel::SetRenderer(uint32_t ssrc, VideoRenderer* renderer) {
1683   worker_thread()->Invoke<void>(Bind(
1684       &VideoMediaChannel::SetRenderer, media_channel(), ssrc, renderer));
1685   return true;
1686 }
1687 
ApplyViewRequest(const ViewRequest & request)1688 bool VideoChannel::ApplyViewRequest(const ViewRequest& request) {
1689   return InvokeOnWorker(Bind(&VideoChannel::ApplyViewRequest_w, this, request));
1690 }
1691 
AddScreencast(uint32_t ssrc,VideoCapturer * capturer)1692 bool VideoChannel::AddScreencast(uint32_t ssrc, VideoCapturer* capturer) {
1693   return worker_thread()->Invoke<bool>(Bind(
1694       &VideoChannel::AddScreencast_w, this, ssrc, capturer));
1695 }
1696 
SetCapturer(uint32_t ssrc,VideoCapturer * capturer)1697 bool VideoChannel::SetCapturer(uint32_t ssrc, VideoCapturer* capturer) {
1698   return InvokeOnWorker(Bind(&VideoMediaChannel::SetCapturer,
1699                              media_channel(), ssrc, capturer));
1700 }
1701 
RemoveScreencast(uint32_t ssrc)1702 bool VideoChannel::RemoveScreencast(uint32_t ssrc) {
1703   return InvokeOnWorker(Bind(&VideoChannel::RemoveScreencast_w, this, ssrc));
1704 }
1705 
IsScreencasting()1706 bool VideoChannel::IsScreencasting() {
1707   return InvokeOnWorker(Bind(&VideoChannel::IsScreencasting_w, this));
1708 }
1709 
SendIntraFrame()1710 bool VideoChannel::SendIntraFrame() {
1711   worker_thread()->Invoke<void>(Bind(
1712       &VideoMediaChannel::SendIntraFrame, media_channel()));
1713   return true;
1714 }
1715 
RequestIntraFrame()1716 bool VideoChannel::RequestIntraFrame() {
1717   worker_thread()->Invoke<void>(Bind(
1718       &VideoMediaChannel::RequestIntraFrame, media_channel()));
1719   return true;
1720 }
1721 
SetVideoSend(uint32_t ssrc,bool mute,const VideoOptions * options)1722 bool VideoChannel::SetVideoSend(uint32_t ssrc,
1723                                 bool mute,
1724                                 const VideoOptions* options) {
1725   return InvokeOnWorker(Bind(&VideoMediaChannel::SetVideoSend, media_channel(),
1726                              ssrc, mute, options));
1727 }
1728 
ChangeState()1729 void VideoChannel::ChangeState() {
1730   // Send outgoing data if we're the active call, we have the remote content,
1731   // and we have had some form of connectivity.
1732   bool send = IsReadyToSend();
1733   if (!media_channel()->SetSend(send)) {
1734     LOG(LS_ERROR) << "Failed to SetSend on video channel";
1735     // TODO(gangji): Report error back to server.
1736   }
1737 
1738   LOG(LS_INFO) << "Changing video state, send=" << send;
1739 }
1740 
GetStats(VideoMediaInfo * stats)1741 bool VideoChannel::GetStats(VideoMediaInfo* stats) {
1742   return InvokeOnWorker(
1743       Bind(&VideoMediaChannel::GetStats, media_channel(), stats));
1744 }
1745 
StartMediaMonitor(int cms)1746 void VideoChannel::StartMediaMonitor(int cms) {
1747   media_monitor_.reset(new VideoMediaMonitor(media_channel(), worker_thread(),
1748       rtc::Thread::Current()));
1749   media_monitor_->SignalUpdate.connect(
1750       this, &VideoChannel::OnMediaMonitorUpdate);
1751   media_monitor_->Start(cms);
1752 }
1753 
StopMediaMonitor()1754 void VideoChannel::StopMediaMonitor() {
1755   if (media_monitor_) {
1756     media_monitor_->Stop();
1757     media_monitor_.reset();
1758   }
1759 }
1760 
GetFirstContent(const SessionDescription * sdesc)1761 const ContentInfo* VideoChannel::GetFirstContent(
1762     const SessionDescription* sdesc) {
1763   return GetFirstVideoContent(sdesc);
1764 }
1765 
SetLocalContent_w(const MediaContentDescription * content,ContentAction action,std::string * error_desc)1766 bool VideoChannel::SetLocalContent_w(const MediaContentDescription* content,
1767                                      ContentAction action,
1768                                      std::string* error_desc) {
1769   TRACE_EVENT0("webrtc", "VideoChannel::SetLocalContent_w");
1770   ASSERT(worker_thread() == rtc::Thread::Current());
1771   LOG(LS_INFO) << "Setting local video description";
1772 
1773   const VideoContentDescription* video =
1774       static_cast<const VideoContentDescription*>(content);
1775   ASSERT(video != NULL);
1776   if (!video) {
1777     SafeSetError("Can't find video content in local description.", error_desc);
1778     return false;
1779   }
1780 
1781   if (!SetRtpTransportParameters_w(content, action, CS_LOCAL, error_desc)) {
1782     return false;
1783   }
1784 
1785   VideoRecvParameters recv_params = last_recv_params_;
1786   RtpParametersFromMediaDescription(video, &recv_params);
1787   if (!media_channel()->SetRecvParameters(recv_params)) {
1788     SafeSetError("Failed to set local video description recv parameters.",
1789                  error_desc);
1790     return false;
1791   }
1792   for (const VideoCodec& codec : video->codecs()) {
1793     bundle_filter()->AddPayloadType(codec.id);
1794   }
1795   last_recv_params_ = recv_params;
1796 
1797   // TODO(pthatcher): Move local streams into VideoSendParameters, and
1798   // only give it to the media channel once we have a remote
1799   // description too (without a remote description, we won't be able
1800   // to send them anyway).
1801   if (!UpdateLocalStreams_w(video->streams(), action, error_desc)) {
1802     SafeSetError("Failed to set local video description streams.", error_desc);
1803     return false;
1804   }
1805 
1806   set_local_content_direction(content->direction());
1807   ChangeState();
1808   return true;
1809 }
1810 
SetRemoteContent_w(const MediaContentDescription * content,ContentAction action,std::string * error_desc)1811 bool VideoChannel::SetRemoteContent_w(const MediaContentDescription* content,
1812                                       ContentAction action,
1813                                       std::string* error_desc) {
1814   TRACE_EVENT0("webrtc", "VideoChannel::SetRemoteContent_w");
1815   ASSERT(worker_thread() == rtc::Thread::Current());
1816   LOG(LS_INFO) << "Setting remote video description";
1817 
1818   const VideoContentDescription* video =
1819       static_cast<const VideoContentDescription*>(content);
1820   ASSERT(video != NULL);
1821   if (!video) {
1822     SafeSetError("Can't find video content in remote description.", error_desc);
1823     return false;
1824   }
1825 
1826 
1827   if (!SetRtpTransportParameters_w(content, action, CS_REMOTE, error_desc)) {
1828     return false;
1829   }
1830 
1831   VideoSendParameters send_params = last_send_params_;
1832   RtpSendParametersFromMediaDescription(video, &send_params);
1833   if (video->conference_mode()) {
1834     send_params.options.conference_mode = rtc::Optional<bool>(true);
1835   }
1836   if (!media_channel()->SetSendParameters(send_params)) {
1837     SafeSetError("Failed to set remote video description send parameters.",
1838                  error_desc);
1839     return false;
1840   }
1841   last_send_params_ = send_params;
1842 
1843   // TODO(pthatcher): Move remote streams into VideoRecvParameters,
1844   // and only give it to the media channel once we have a local
1845   // description too (without a local description, we won't be able to
1846   // recv them anyway).
1847   if (!UpdateRemoteStreams_w(video->streams(), action, error_desc)) {
1848     SafeSetError("Failed to set remote video description streams.", error_desc);
1849     return false;
1850   }
1851 
1852   if (video->rtp_header_extensions_set()) {
1853     MaybeCacheRtpAbsSendTimeHeaderExtension(video->rtp_header_extensions());
1854   }
1855 
1856   set_remote_content_direction(content->direction());
1857   ChangeState();
1858   return true;
1859 }
1860 
ApplyViewRequest_w(const ViewRequest & request)1861 bool VideoChannel::ApplyViewRequest_w(const ViewRequest& request) {
1862   bool ret = true;
1863   // Set the send format for each of the local streams. If the view request
1864   // does not contain a local stream, set its send format to 0x0, which will
1865   // drop all frames.
1866   for (std::vector<StreamParams>::const_iterator it = local_streams().begin();
1867       it != local_streams().end(); ++it) {
1868     VideoFormat format(0, 0, 0, cricket::FOURCC_I420);
1869     StaticVideoViews::const_iterator view;
1870     for (view = request.static_video_views.begin();
1871          view != request.static_video_views.end(); ++view) {
1872       if (view->selector.Matches(*it)) {
1873         format.width = view->width;
1874         format.height = view->height;
1875         format.interval = cricket::VideoFormat::FpsToInterval(view->framerate);
1876         break;
1877       }
1878     }
1879 
1880     ret &= media_channel()->SetSendStreamFormat(it->first_ssrc(), format);
1881   }
1882 
1883   // Check if the view request has invalid streams.
1884   for (StaticVideoViews::const_iterator it = request.static_video_views.begin();
1885       it != request.static_video_views.end(); ++it) {
1886     if (!GetStream(local_streams(), it->selector)) {
1887       LOG(LS_WARNING) << "View request for ("
1888                       << it->selector.ssrc << ", '"
1889                       << it->selector.groupid << "', '"
1890                       << it->selector.streamid << "'"
1891                       << ") is not in the local streams.";
1892     }
1893   }
1894 
1895   return ret;
1896 }
1897 
AddScreencast_w(uint32_t ssrc,VideoCapturer * capturer)1898 bool VideoChannel::AddScreencast_w(uint32_t ssrc, VideoCapturer* capturer) {
1899   if (screencast_capturers_.find(ssrc) != screencast_capturers_.end()) {
1900     return false;
1901   }
1902   capturer->SignalStateChange.connect(this, &VideoChannel::OnStateChange);
1903   screencast_capturers_[ssrc] = capturer;
1904   return true;
1905 }
1906 
RemoveScreencast_w(uint32_t ssrc)1907 bool VideoChannel::RemoveScreencast_w(uint32_t ssrc) {
1908   ScreencastMap::iterator iter = screencast_capturers_.find(ssrc);
1909   if (iter  == screencast_capturers_.end()) {
1910     return false;
1911   }
1912   // Clean up VideoCapturer.
1913   delete iter->second;
1914   screencast_capturers_.erase(iter);
1915   return true;
1916 }
1917 
IsScreencasting_w() const1918 bool VideoChannel::IsScreencasting_w() const {
1919   return !screencast_capturers_.empty();
1920 }
1921 
OnScreencastWindowEvent_s(uint32_t ssrc,rtc::WindowEvent we)1922 void VideoChannel::OnScreencastWindowEvent_s(uint32_t ssrc,
1923                                              rtc::WindowEvent we) {
1924   ASSERT(signaling_thread() == rtc::Thread::Current());
1925   SignalScreencastWindowEvent(ssrc, we);
1926 }
1927 
OnMessage(rtc::Message * pmsg)1928 void VideoChannel::OnMessage(rtc::Message *pmsg) {
1929   switch (pmsg->message_id) {
1930     case MSG_SCREENCASTWINDOWEVENT: {
1931       const ScreencastEventMessageData* data =
1932           static_cast<ScreencastEventMessageData*>(pmsg->pdata);
1933       OnScreencastWindowEvent_s(data->ssrc, data->event);
1934       delete data;
1935       break;
1936     }
1937     case MSG_CHANNEL_ERROR: {
1938       const VideoChannelErrorMessageData* data =
1939           static_cast<VideoChannelErrorMessageData*>(pmsg->pdata);
1940       delete data;
1941       break;
1942     }
1943     default:
1944       BaseChannel::OnMessage(pmsg);
1945       break;
1946   }
1947 }
1948 
OnConnectionMonitorUpdate(ConnectionMonitor * monitor,const std::vector<ConnectionInfo> & infos)1949 void VideoChannel::OnConnectionMonitorUpdate(
1950     ConnectionMonitor* monitor, const std::vector<ConnectionInfo> &infos) {
1951   SignalConnectionMonitor(this, infos);
1952 }
1953 
1954 // TODO(pthatcher): Look into removing duplicate code between
1955 // audio, video, and data, perhaps by using templates.
OnMediaMonitorUpdate(VideoMediaChannel * media_channel,const VideoMediaInfo & info)1956 void VideoChannel::OnMediaMonitorUpdate(
1957     VideoMediaChannel* media_channel, const VideoMediaInfo &info) {
1958   ASSERT(media_channel == this->media_channel());
1959   SignalMediaMonitor(this, info);
1960 }
1961 
OnScreencastWindowEvent(uint32_t ssrc,rtc::WindowEvent event)1962 void VideoChannel::OnScreencastWindowEvent(uint32_t ssrc,
1963                                            rtc::WindowEvent event) {
1964   ScreencastEventMessageData* pdata =
1965       new ScreencastEventMessageData(ssrc, event);
1966   signaling_thread()->Post(this, MSG_SCREENCASTWINDOWEVENT, pdata);
1967 }
1968 
OnStateChange(VideoCapturer * capturer,CaptureState ev)1969 void VideoChannel::OnStateChange(VideoCapturer* capturer, CaptureState ev) {
1970   // Map capturer events to window events. In the future we may want to simply
1971   // pass these events up directly.
1972   rtc::WindowEvent we;
1973   if (ev == CS_STOPPED) {
1974     we = rtc::WE_CLOSE;
1975   } else if (ev == CS_PAUSED) {
1976     we = rtc::WE_MINIMIZE;
1977   } else if (ev == CS_RUNNING && previous_we_ == rtc::WE_MINIMIZE) {
1978     we = rtc::WE_RESTORE;
1979   } else {
1980     return;
1981   }
1982   previous_we_ = we;
1983 
1984   uint32_t ssrc = 0;
1985   if (!GetLocalSsrc(capturer, &ssrc)) {
1986     return;
1987   }
1988 
1989   OnScreencastWindowEvent(ssrc, we);
1990 }
1991 
GetLocalSsrc(const VideoCapturer * capturer,uint32_t * ssrc)1992 bool VideoChannel::GetLocalSsrc(const VideoCapturer* capturer, uint32_t* ssrc) {
1993   *ssrc = 0;
1994   for (ScreencastMap::iterator iter = screencast_capturers_.begin();
1995        iter != screencast_capturers_.end(); ++iter) {
1996     if (iter->second == capturer) {
1997       *ssrc = iter->first;
1998       return true;
1999     }
2000   }
2001   return false;
2002 }
2003 
GetSrtpCryptoSuites(std::vector<int> * crypto_suites) const2004 void VideoChannel::GetSrtpCryptoSuites(std::vector<int>* crypto_suites) const {
2005   GetSupportedVideoCryptoSuites(crypto_suites);
2006 }
2007 
DataChannel(rtc::Thread * thread,DataMediaChannel * media_channel,TransportController * transport_controller,const std::string & content_name,bool rtcp)2008 DataChannel::DataChannel(rtc::Thread* thread,
2009                          DataMediaChannel* media_channel,
2010                          TransportController* transport_controller,
2011                          const std::string& content_name,
2012                          bool rtcp)
2013     : BaseChannel(thread,
2014                   media_channel,
2015                   transport_controller,
2016                   content_name,
2017                   rtcp),
2018       data_channel_type_(cricket::DCT_NONE),
2019       ready_to_send_data_(false) {}
2020 
~DataChannel()2021 DataChannel::~DataChannel() {
2022   StopMediaMonitor();
2023   // this can't be done in the base class, since it calls a virtual
2024   DisableMedia_w();
2025 
2026   Deinit();
2027 }
2028 
Init()2029 bool DataChannel::Init() {
2030   if (!BaseChannel::Init()) {
2031     return false;
2032   }
2033   media_channel()->SignalDataReceived.connect(
2034       this, &DataChannel::OnDataReceived);
2035   media_channel()->SignalReadyToSend.connect(
2036       this, &DataChannel::OnDataChannelReadyToSend);
2037   media_channel()->SignalStreamClosedRemotely.connect(
2038       this, &DataChannel::OnStreamClosedRemotely);
2039   return true;
2040 }
2041 
SendData(const SendDataParams & params,const rtc::Buffer & payload,SendDataResult * result)2042 bool DataChannel::SendData(const SendDataParams& params,
2043                            const rtc::Buffer& payload,
2044                            SendDataResult* result) {
2045   return InvokeOnWorker(Bind(&DataMediaChannel::SendData,
2046                              media_channel(), params, payload, result));
2047 }
2048 
GetFirstContent(const SessionDescription * sdesc)2049 const ContentInfo* DataChannel::GetFirstContent(
2050     const SessionDescription* sdesc) {
2051   return GetFirstDataContent(sdesc);
2052 }
2053 
WantsPacket(bool rtcp,rtc::Buffer * packet)2054 bool DataChannel::WantsPacket(bool rtcp, rtc::Buffer* packet) {
2055   if (data_channel_type_ == DCT_SCTP) {
2056     // TODO(pthatcher): Do this in a more robust way by checking for
2057     // SCTP or DTLS.
2058     return !IsRtpPacket(packet->data(), packet->size());
2059   } else if (data_channel_type_ == DCT_RTP) {
2060     return BaseChannel::WantsPacket(rtcp, packet);
2061   }
2062   return false;
2063 }
2064 
SetDataChannelType(DataChannelType new_data_channel_type,std::string * error_desc)2065 bool DataChannel::SetDataChannelType(DataChannelType new_data_channel_type,
2066                                      std::string* error_desc) {
2067   // It hasn't been set before, so set it now.
2068   if (data_channel_type_ == DCT_NONE) {
2069     data_channel_type_ = new_data_channel_type;
2070     return true;
2071   }
2072 
2073   // It's been set before, but doesn't match.  That's bad.
2074   if (data_channel_type_ != new_data_channel_type) {
2075     std::ostringstream desc;
2076     desc << "Data channel type mismatch."
2077          << " Expected " << data_channel_type_
2078          << " Got " << new_data_channel_type;
2079     SafeSetError(desc.str(), error_desc);
2080     return false;
2081   }
2082 
2083   // It's hasn't changed.  Nothing to do.
2084   return true;
2085 }
2086 
SetDataChannelTypeFromContent(const DataContentDescription * content,std::string * error_desc)2087 bool DataChannel::SetDataChannelTypeFromContent(
2088     const DataContentDescription* content,
2089     std::string* error_desc) {
2090   bool is_sctp = ((content->protocol() == kMediaProtocolSctp) ||
2091                   (content->protocol() == kMediaProtocolDtlsSctp));
2092   DataChannelType data_channel_type = is_sctp ? DCT_SCTP : DCT_RTP;
2093   return SetDataChannelType(data_channel_type, error_desc);
2094 }
2095 
SetLocalContent_w(const MediaContentDescription * content,ContentAction action,std::string * error_desc)2096 bool DataChannel::SetLocalContent_w(const MediaContentDescription* content,
2097                                     ContentAction action,
2098                                     std::string* error_desc) {
2099   TRACE_EVENT0("webrtc", "DataChannel::SetLocalContent_w");
2100   ASSERT(worker_thread() == rtc::Thread::Current());
2101   LOG(LS_INFO) << "Setting local data description";
2102 
2103   const DataContentDescription* data =
2104       static_cast<const DataContentDescription*>(content);
2105   ASSERT(data != NULL);
2106   if (!data) {
2107     SafeSetError("Can't find data content in local description.", error_desc);
2108     return false;
2109   }
2110 
2111   if (!SetDataChannelTypeFromContent(data, error_desc)) {
2112     return false;
2113   }
2114 
2115   if (data_channel_type_ == DCT_RTP) {
2116     if (!SetRtpTransportParameters_w(content, action, CS_LOCAL, error_desc)) {
2117       return false;
2118     }
2119   }
2120 
2121   // FYI: We send the SCTP port number (not to be confused with the
2122   // underlying UDP port number) as a codec parameter.  So even SCTP
2123   // data channels need codecs.
2124   DataRecvParameters recv_params = last_recv_params_;
2125   RtpParametersFromMediaDescription(data, &recv_params);
2126   if (!media_channel()->SetRecvParameters(recv_params)) {
2127     SafeSetError("Failed to set remote data description recv parameters.",
2128                  error_desc);
2129     return false;
2130   }
2131   if (data_channel_type_ == DCT_RTP) {
2132     for (const DataCodec& codec : data->codecs()) {
2133       bundle_filter()->AddPayloadType(codec.id);
2134     }
2135   }
2136   last_recv_params_ = recv_params;
2137 
2138   // TODO(pthatcher): Move local streams into DataSendParameters, and
2139   // only give it to the media channel once we have a remote
2140   // description too (without a remote description, we won't be able
2141   // to send them anyway).
2142   if (!UpdateLocalStreams_w(data->streams(), action, error_desc)) {
2143     SafeSetError("Failed to set local data description streams.", error_desc);
2144     return false;
2145   }
2146 
2147   set_local_content_direction(content->direction());
2148   ChangeState();
2149   return true;
2150 }
2151 
SetRemoteContent_w(const MediaContentDescription * content,ContentAction action,std::string * error_desc)2152 bool DataChannel::SetRemoteContent_w(const MediaContentDescription* content,
2153                                      ContentAction action,
2154                                      std::string* error_desc) {
2155   TRACE_EVENT0("webrtc", "DataChannel::SetRemoteContent_w");
2156   ASSERT(worker_thread() == rtc::Thread::Current());
2157 
2158   const DataContentDescription* data =
2159       static_cast<const DataContentDescription*>(content);
2160   ASSERT(data != NULL);
2161   if (!data) {
2162     SafeSetError("Can't find data content in remote description.", error_desc);
2163     return false;
2164   }
2165 
2166   // If the remote data doesn't have codecs and isn't an update, it
2167   // must be empty, so ignore it.
2168   if (!data->has_codecs() && action != CA_UPDATE) {
2169     return true;
2170   }
2171 
2172   if (!SetDataChannelTypeFromContent(data, error_desc)) {
2173     return false;
2174   }
2175 
2176   LOG(LS_INFO) << "Setting remote data description";
2177   if (data_channel_type_ == DCT_RTP &&
2178       !SetRtpTransportParameters_w(content, action, CS_REMOTE, error_desc)) {
2179     return false;
2180   }
2181 
2182 
2183   DataSendParameters send_params = last_send_params_;
2184   RtpSendParametersFromMediaDescription<DataCodec>(data, &send_params);
2185   if (!media_channel()->SetSendParameters(send_params)) {
2186     SafeSetError("Failed to set remote data description send parameters.",
2187                  error_desc);
2188     return false;
2189   }
2190   last_send_params_ = send_params;
2191 
2192   // TODO(pthatcher): Move remote streams into DataRecvParameters,
2193   // and only give it to the media channel once we have a local
2194   // description too (without a local description, we won't be able to
2195   // recv them anyway).
2196   if (!UpdateRemoteStreams_w(data->streams(), action, error_desc)) {
2197     SafeSetError("Failed to set remote data description streams.",
2198                  error_desc);
2199     return false;
2200   }
2201 
2202   set_remote_content_direction(content->direction());
2203   ChangeState();
2204   return true;
2205 }
2206 
ChangeState()2207 void DataChannel::ChangeState() {
2208   // Render incoming data if we're the active call, and we have the local
2209   // content. We receive data on the default channel and multiplexed streams.
2210   bool recv = IsReadyToReceive();
2211   if (!media_channel()->SetReceive(recv)) {
2212     LOG(LS_ERROR) << "Failed to SetReceive on data channel";
2213   }
2214 
2215   // Send outgoing data if we're the active call, we have the remote content,
2216   // and we have had some form of connectivity.
2217   bool send = IsReadyToSend();
2218   if (!media_channel()->SetSend(send)) {
2219     LOG(LS_ERROR) << "Failed to SetSend on data channel";
2220   }
2221 
2222   // Trigger SignalReadyToSendData asynchronously.
2223   OnDataChannelReadyToSend(send);
2224 
2225   LOG(LS_INFO) << "Changing data state, recv=" << recv << " send=" << send;
2226 }
2227 
OnMessage(rtc::Message * pmsg)2228 void DataChannel::OnMessage(rtc::Message *pmsg) {
2229   switch (pmsg->message_id) {
2230     case MSG_READYTOSENDDATA: {
2231       DataChannelReadyToSendMessageData* data =
2232           static_cast<DataChannelReadyToSendMessageData*>(pmsg->pdata);
2233       ready_to_send_data_ = data->data();
2234       SignalReadyToSendData(ready_to_send_data_);
2235       delete data;
2236       break;
2237     }
2238     case MSG_DATARECEIVED: {
2239       DataReceivedMessageData* data =
2240           static_cast<DataReceivedMessageData*>(pmsg->pdata);
2241       SignalDataReceived(this, data->params, data->payload);
2242       delete data;
2243       break;
2244     }
2245     case MSG_CHANNEL_ERROR: {
2246       const DataChannelErrorMessageData* data =
2247           static_cast<DataChannelErrorMessageData*>(pmsg->pdata);
2248       delete data;
2249       break;
2250     }
2251     case MSG_STREAMCLOSEDREMOTELY: {
2252       rtc::TypedMessageData<uint32_t>* data =
2253           static_cast<rtc::TypedMessageData<uint32_t>*>(pmsg->pdata);
2254       SignalStreamClosedRemotely(data->data());
2255       delete data;
2256       break;
2257     }
2258     default:
2259       BaseChannel::OnMessage(pmsg);
2260       break;
2261   }
2262 }
2263 
OnConnectionMonitorUpdate(ConnectionMonitor * monitor,const std::vector<ConnectionInfo> & infos)2264 void DataChannel::OnConnectionMonitorUpdate(
2265     ConnectionMonitor* monitor, const std::vector<ConnectionInfo>& infos) {
2266   SignalConnectionMonitor(this, infos);
2267 }
2268 
StartMediaMonitor(int cms)2269 void DataChannel::StartMediaMonitor(int cms) {
2270   media_monitor_.reset(new DataMediaMonitor(media_channel(), worker_thread(),
2271       rtc::Thread::Current()));
2272   media_monitor_->SignalUpdate.connect(
2273       this, &DataChannel::OnMediaMonitorUpdate);
2274   media_monitor_->Start(cms);
2275 }
2276 
StopMediaMonitor()2277 void DataChannel::StopMediaMonitor() {
2278   if (media_monitor_) {
2279     media_monitor_->Stop();
2280     media_monitor_->SignalUpdate.disconnect(this);
2281     media_monitor_.reset();
2282   }
2283 }
2284 
OnMediaMonitorUpdate(DataMediaChannel * media_channel,const DataMediaInfo & info)2285 void DataChannel::OnMediaMonitorUpdate(
2286     DataMediaChannel* media_channel, const DataMediaInfo& info) {
2287   ASSERT(media_channel == this->media_channel());
2288   SignalMediaMonitor(this, info);
2289 }
2290 
OnDataReceived(const ReceiveDataParams & params,const char * data,size_t len)2291 void DataChannel::OnDataReceived(
2292     const ReceiveDataParams& params, const char* data, size_t len) {
2293   DataReceivedMessageData* msg = new DataReceivedMessageData(
2294       params, data, len);
2295   signaling_thread()->Post(this, MSG_DATARECEIVED, msg);
2296 }
2297 
OnDataChannelError(uint32_t ssrc,DataMediaChannel::Error err)2298 void DataChannel::OnDataChannelError(uint32_t ssrc,
2299                                      DataMediaChannel::Error err) {
2300   DataChannelErrorMessageData* data = new DataChannelErrorMessageData(
2301       ssrc, err);
2302   signaling_thread()->Post(this, MSG_CHANNEL_ERROR, data);
2303 }
2304 
OnDataChannelReadyToSend(bool writable)2305 void DataChannel::OnDataChannelReadyToSend(bool writable) {
2306   // This is usded for congestion control to indicate that the stream is ready
2307   // to send by the MediaChannel, as opposed to OnReadyToSend, which indicates
2308   // that the transport channel is ready.
2309   signaling_thread()->Post(this, MSG_READYTOSENDDATA,
2310                            new DataChannelReadyToSendMessageData(writable));
2311 }
2312 
GetSrtpCryptoSuites(std::vector<int> * crypto_suites) const2313 void DataChannel::GetSrtpCryptoSuites(std::vector<int>* crypto_suites) const {
2314   GetSupportedDataCryptoSuites(crypto_suites);
2315 }
2316 
ShouldSetupDtlsSrtp() const2317 bool DataChannel::ShouldSetupDtlsSrtp() const {
2318   return (data_channel_type_ == DCT_RTP) && BaseChannel::ShouldSetupDtlsSrtp();
2319 }
2320 
OnStreamClosedRemotely(uint32_t sid)2321 void DataChannel::OnStreamClosedRemotely(uint32_t sid) {
2322   rtc::TypedMessageData<uint32_t>* message =
2323       new rtc::TypedMessageData<uint32_t>(sid);
2324   signaling_thread()->Post(this, MSG_STREAMCLOSEDREMOTELY, message);
2325 }
2326 
2327 }  // namespace cricket
2328