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      1 /*
      2  * libjingle
      3  * Copyright 2012 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 <string>
     29 #include <utility>
     30 
     31 #include "talk/app/webrtc/audiotrack.h"
     32 #include "talk/app/webrtc/jsepsessiondescription.h"
     33 #include "talk/app/webrtc/mediastream.h"
     34 #include "talk/app/webrtc/mediastreaminterface.h"
     35 #include "talk/app/webrtc/peerconnection.h"
     36 #include "talk/app/webrtc/peerconnectioninterface.h"
     37 #include "talk/app/webrtc/rtpreceiverinterface.h"
     38 #include "talk/app/webrtc/rtpsenderinterface.h"
     39 #include "talk/app/webrtc/streamcollection.h"
     40 #ifdef WEBRTC_ANDROID
     41 #include "talk/app/webrtc/test/androidtestinitializer.h"
     42 #endif
     43 #include "talk/app/webrtc/test/fakeconstraints.h"
     44 #include "talk/app/webrtc/test/fakedtlsidentitystore.h"
     45 #include "talk/app/webrtc/test/mockpeerconnectionobservers.h"
     46 #include "talk/app/webrtc/test/testsdpstrings.h"
     47 #include "talk/app/webrtc/videosource.h"
     48 #include "talk/app/webrtc/videotrack.h"
     49 #include "talk/media/base/fakevideocapturer.h"
     50 #include "talk/media/sctp/sctpdataengine.h"
     51 #include "talk/session/media/mediasession.h"
     52 #include "webrtc/base/gunit.h"
     53 #include "webrtc/base/scoped_ptr.h"
     54 #include "webrtc/base/ssladapter.h"
     55 #include "webrtc/base/sslstreamadapter.h"
     56 #include "webrtc/base/stringutils.h"
     57 #include "webrtc/base/thread.h"
     58 #include "webrtc/p2p/client/fakeportallocator.h"
     59 
     60 static const char kStreamLabel1[] = "local_stream_1";
     61 static const char kStreamLabel2[] = "local_stream_2";
     62 static const char kStreamLabel3[] = "local_stream_3";
     63 static const int kDefaultStunPort = 3478;
     64 static const char kStunAddressOnly[] = "stun:address";
     65 static const char kStunInvalidPort[] = "stun:address:-1";
     66 static const char kStunAddressPortAndMore1[] = "stun:address:port:more";
     67 static const char kStunAddressPortAndMore2[] = "stun:address:port more";
     68 static const char kTurnIceServerUri[] = "turn:user (at) turn.example.org";
     69 static const char kTurnUsername[] = "user";
     70 static const char kTurnPassword[] = "password";
     71 static const char kTurnHostname[] = "turn.example.org";
     72 static const uint32_t kTimeout = 10000U;
     73 
     74 static const char kStreams[][8] = {"stream1", "stream2"};
     75 static const char kAudioTracks[][32] = {"audiotrack0", "audiotrack1"};
     76 static const char kVideoTracks[][32] = {"videotrack0", "videotrack1"};
     77 
     78 static const char kRecvonly[] = "recvonly";
     79 static const char kSendrecv[] = "sendrecv";
     80 
     81 // Reference SDP with a MediaStream with label "stream1" and audio track with
     82 // id "audio_1" and a video track with id "video_1;
     83 static const char kSdpStringWithStream1[] =
     84     "v=0\r\n"
     85     "o=- 0 0 IN IP4 127.0.0.1\r\n"
     86     "s=-\r\n"
     87     "t=0 0\r\n"
     88     "a=ice-ufrag:e5785931\r\n"
     89     "a=ice-pwd:36fb7878390db89481c1d46daa4278d8\r\n"
     90     "a=fingerprint:sha-256 58:AB:6E:F5:F1:E4:57:B7:E9:46:F4:86:04:28:F9:A7:ED:"
     91     "BD:AB:AE:40:EF:CE:9A:51:2C:2A:B1:9B:8B:78:84\r\n"
     92     "m=audio 1 RTP/AVPF 103\r\n"
     93     "a=mid:audio\r\n"
     94     "a=sendrecv\r\n"
     95     "a=rtpmap:103 ISAC/16000\r\n"
     96     "a=ssrc:1 cname:stream1\r\n"
     97     "a=ssrc:1 mslabel:stream1\r\n"
     98     "a=ssrc:1 label:audiotrack0\r\n"
     99     "m=video 1 RTP/AVPF 120\r\n"
    100     "a=mid:video\r\n"
    101     "a=sendrecv\r\n"
    102     "a=rtpmap:120 VP8/90000\r\n"
    103     "a=ssrc:2 cname:stream1\r\n"
    104     "a=ssrc:2 mslabel:stream1\r\n"
    105     "a=ssrc:2 label:videotrack0\r\n";
    106 
    107 // Reference SDP with two MediaStreams with label "stream1" and "stream2. Each
    108 // MediaStreams have one audio track and one video track.
    109 // This uses MSID.
    110 static const char kSdpStringWithStream1And2[] =
    111     "v=0\r\n"
    112     "o=- 0 0 IN IP4 127.0.0.1\r\n"
    113     "s=-\r\n"
    114     "t=0 0\r\n"
    115     "a=ice-ufrag:e5785931\r\n"
    116     "a=ice-pwd:36fb7878390db89481c1d46daa4278d8\r\n"
    117     "a=fingerprint:sha-256 58:AB:6E:F5:F1:E4:57:B7:E9:46:F4:86:04:28:F9:A7:ED:"
    118     "BD:AB:AE:40:EF:CE:9A:51:2C:2A:B1:9B:8B:78:84\r\n"
    119     "a=msid-semantic: WMS stream1 stream2\r\n"
    120     "m=audio 1 RTP/AVPF 103\r\n"
    121     "a=mid:audio\r\n"
    122     "a=sendrecv\r\n"
    123     "a=rtpmap:103 ISAC/16000\r\n"
    124     "a=ssrc:1 cname:stream1\r\n"
    125     "a=ssrc:1 msid:stream1 audiotrack0\r\n"
    126     "a=ssrc:3 cname:stream2\r\n"
    127     "a=ssrc:3 msid:stream2 audiotrack1\r\n"
    128     "m=video 1 RTP/AVPF 120\r\n"
    129     "a=mid:video\r\n"
    130     "a=sendrecv\r\n"
    131     "a=rtpmap:120 VP8/0\r\n"
    132     "a=ssrc:2 cname:stream1\r\n"
    133     "a=ssrc:2 msid:stream1 videotrack0\r\n"
    134     "a=ssrc:4 cname:stream2\r\n"
    135     "a=ssrc:4 msid:stream2 videotrack1\r\n";
    136 
    137 // Reference SDP without MediaStreams. Msid is not supported.
    138 static const char kSdpStringWithoutStreams[] =
    139     "v=0\r\n"
    140     "o=- 0 0 IN IP4 127.0.0.1\r\n"
    141     "s=-\r\n"
    142     "t=0 0\r\n"
    143     "a=ice-ufrag:e5785931\r\n"
    144     "a=ice-pwd:36fb7878390db89481c1d46daa4278d8\r\n"
    145     "a=fingerprint:sha-256 58:AB:6E:F5:F1:E4:57:B7:E9:46:F4:86:04:28:F9:A7:ED:"
    146     "BD:AB:AE:40:EF:CE:9A:51:2C:2A:B1:9B:8B:78:84\r\n"
    147     "m=audio 1 RTP/AVPF 103\r\n"
    148     "a=mid:audio\r\n"
    149     "a=sendrecv\r\n"
    150     "a=rtpmap:103 ISAC/16000\r\n"
    151     "m=video 1 RTP/AVPF 120\r\n"
    152     "a=mid:video\r\n"
    153     "a=sendrecv\r\n"
    154     "a=rtpmap:120 VP8/90000\r\n";
    155 
    156 // Reference SDP without MediaStreams. Msid is supported.
    157 static const char kSdpStringWithMsidWithoutStreams[] =
    158     "v=0\r\n"
    159     "o=- 0 0 IN IP4 127.0.0.1\r\n"
    160     "s=-\r\n"
    161     "t=0 0\r\n"
    162     "a=ice-ufrag:e5785931\r\n"
    163     "a=ice-pwd:36fb7878390db89481c1d46daa4278d8\r\n"
    164     "a=fingerprint:sha-256 58:AB:6E:F5:F1:E4:57:B7:E9:46:F4:86:04:28:F9:A7:ED:"
    165     "BD:AB:AE:40:EF:CE:9A:51:2C:2A:B1:9B:8B:78:84\r\n"
    166     "a=msid-semantic: WMS\r\n"
    167     "m=audio 1 RTP/AVPF 103\r\n"
    168     "a=mid:audio\r\n"
    169     "a=sendrecv\r\n"
    170     "a=rtpmap:103 ISAC/16000\r\n"
    171     "m=video 1 RTP/AVPF 120\r\n"
    172     "a=mid:video\r\n"
    173     "a=sendrecv\r\n"
    174     "a=rtpmap:120 VP8/90000\r\n";
    175 
    176 // Reference SDP without MediaStreams and audio only.
    177 static const char kSdpStringWithoutStreamsAudioOnly[] =
    178     "v=0\r\n"
    179     "o=- 0 0 IN IP4 127.0.0.1\r\n"
    180     "s=-\r\n"
    181     "t=0 0\r\n"
    182     "a=ice-ufrag:e5785931\r\n"
    183     "a=ice-pwd:36fb7878390db89481c1d46daa4278d8\r\n"
    184     "a=fingerprint:sha-256 58:AB:6E:F5:F1:E4:57:B7:E9:46:F4:86:04:28:F9:A7:ED:"
    185     "BD:AB:AE:40:EF:CE:9A:51:2C:2A:B1:9B:8B:78:84\r\n"
    186     "m=audio 1 RTP/AVPF 103\r\n"
    187     "a=mid:audio\r\n"
    188     "a=sendrecv\r\n"
    189     "a=rtpmap:103 ISAC/16000\r\n";
    190 
    191 // Reference SENDONLY SDP without MediaStreams. Msid is not supported.
    192 static const char kSdpStringSendOnlyWithoutStreams[] =
    193     "v=0\r\n"
    194     "o=- 0 0 IN IP4 127.0.0.1\r\n"
    195     "s=-\r\n"
    196     "t=0 0\r\n"
    197     "a=ice-ufrag:e5785931\r\n"
    198     "a=ice-pwd:36fb7878390db89481c1d46daa4278d8\r\n"
    199     "a=fingerprint:sha-256 58:AB:6E:F5:F1:E4:57:B7:E9:46:F4:86:04:28:F9:A7:ED:"
    200     "BD:AB:AE:40:EF:CE:9A:51:2C:2A:B1:9B:8B:78:84\r\n"
    201     "m=audio 1 RTP/AVPF 103\r\n"
    202     "a=mid:audio\r\n"
    203     "a=sendrecv\r\n"
    204     "a=sendonly\r\n"
    205     "a=rtpmap:103 ISAC/16000\r\n"
    206     "m=video 1 RTP/AVPF 120\r\n"
    207     "a=mid:video\r\n"
    208     "a=sendrecv\r\n"
    209     "a=sendonly\r\n"
    210     "a=rtpmap:120 VP8/90000\r\n";
    211 
    212 static const char kSdpStringInit[] =
    213     "v=0\r\n"
    214     "o=- 0 0 IN IP4 127.0.0.1\r\n"
    215     "s=-\r\n"
    216     "t=0 0\r\n"
    217     "a=ice-ufrag:e5785931\r\n"
    218     "a=ice-pwd:36fb7878390db89481c1d46daa4278d8\r\n"
    219     "a=fingerprint:sha-256 58:AB:6E:F5:F1:E4:57:B7:E9:46:F4:86:04:28:F9:A7:ED:"
    220     "BD:AB:AE:40:EF:CE:9A:51:2C:2A:B1:9B:8B:78:84\r\n"
    221     "a=msid-semantic: WMS\r\n";
    222 
    223 static const char kSdpStringAudio[] =
    224     "m=audio 1 RTP/AVPF 103\r\n"
    225     "a=mid:audio\r\n"
    226     "a=sendrecv\r\n"
    227     "a=rtpmap:103 ISAC/16000\r\n";
    228 
    229 static const char kSdpStringVideo[] =
    230     "m=video 1 RTP/AVPF 120\r\n"
    231     "a=mid:video\r\n"
    232     "a=sendrecv\r\n"
    233     "a=rtpmap:120 VP8/90000\r\n";
    234 
    235 static const char kSdpStringMs1Audio0[] =
    236     "a=ssrc:1 cname:stream1\r\n"
    237     "a=ssrc:1 msid:stream1 audiotrack0\r\n";
    238 
    239 static const char kSdpStringMs1Video0[] =
    240     "a=ssrc:2 cname:stream1\r\n"
    241     "a=ssrc:2 msid:stream1 videotrack0\r\n";
    242 
    243 static const char kSdpStringMs1Audio1[] =
    244     "a=ssrc:3 cname:stream1\r\n"
    245     "a=ssrc:3 msid:stream1 audiotrack1\r\n";
    246 
    247 static const char kSdpStringMs1Video1[] =
    248     "a=ssrc:4 cname:stream1\r\n"
    249     "a=ssrc:4 msid:stream1 videotrack1\r\n";
    250 
    251 #define MAYBE_SKIP_TEST(feature)                    \
    252   if (!(feature())) {                               \
    253     LOG(LS_INFO) << "Feature disabled... skipping"; \
    254     return;                                         \
    255   }
    256 
    257 using rtc::scoped_ptr;
    258 using rtc::scoped_refptr;
    259 using webrtc::AudioSourceInterface;
    260 using webrtc::AudioTrack;
    261 using webrtc::AudioTrackInterface;
    262 using webrtc::DataBuffer;
    263 using webrtc::DataChannelInterface;
    264 using webrtc::FakeConstraints;
    265 using webrtc::IceCandidateInterface;
    266 using webrtc::MediaConstraintsInterface;
    267 using webrtc::MediaStream;
    268 using webrtc::MediaStreamInterface;
    269 using webrtc::MediaStreamTrackInterface;
    270 using webrtc::MockCreateSessionDescriptionObserver;
    271 using webrtc::MockDataChannelObserver;
    272 using webrtc::MockSetSessionDescriptionObserver;
    273 using webrtc::MockStatsObserver;
    274 using webrtc::PeerConnectionInterface;
    275 using webrtc::PeerConnectionObserver;
    276 using webrtc::RtpReceiverInterface;
    277 using webrtc::RtpSenderInterface;
    278 using webrtc::SdpParseError;
    279 using webrtc::SessionDescriptionInterface;
    280 using webrtc::StreamCollection;
    281 using webrtc::StreamCollectionInterface;
    282 using webrtc::VideoSourceInterface;
    283 using webrtc::VideoTrack;
    284 using webrtc::VideoTrackInterface;
    285 
    286 typedef PeerConnectionInterface::RTCOfferAnswerOptions RTCOfferAnswerOptions;
    287 
    288 namespace {
    289 
    290 // Gets the first ssrc of given content type from the ContentInfo.
    291 bool GetFirstSsrc(const cricket::ContentInfo* content_info, int* ssrc) {
    292   if (!content_info || !ssrc) {
    293     return false;
    294   }
    295   const cricket::MediaContentDescription* media_desc =
    296       static_cast<const cricket::MediaContentDescription*>(
    297           content_info->description);
    298   if (!media_desc || media_desc->streams().empty()) {
    299     return false;
    300   }
    301   *ssrc = media_desc->streams().begin()->first_ssrc();
    302   return true;
    303 }
    304 
    305 void SetSsrcToZero(std::string* sdp) {
    306   const char kSdpSsrcAtribute[] = "a=ssrc:";
    307   const char kSdpSsrcAtributeZero[] = "a=ssrc:0";
    308   size_t ssrc_pos = 0;
    309   while ((ssrc_pos = sdp->find(kSdpSsrcAtribute, ssrc_pos)) !=
    310       std::string::npos) {
    311     size_t end_ssrc = sdp->find(" ", ssrc_pos);
    312     sdp->replace(ssrc_pos, end_ssrc - ssrc_pos, kSdpSsrcAtributeZero);
    313     ssrc_pos = end_ssrc;
    314   }
    315 }
    316 
    317 // Check if |streams| contains the specified track.
    318 bool ContainsTrack(const std::vector<cricket::StreamParams>& streams,
    319                    const std::string& stream_label,
    320                    const std::string& track_id) {
    321   for (const cricket::StreamParams& params : streams) {
    322     if (params.sync_label == stream_label && params.id == track_id) {
    323       return true;
    324     }
    325   }
    326   return false;
    327 }
    328 
    329 // Check if |senders| contains the specified sender, by id.
    330 bool ContainsSender(
    331     const std::vector<rtc::scoped_refptr<RtpSenderInterface>>& senders,
    332     const std::string& id) {
    333   for (const auto& sender : senders) {
    334     if (sender->id() == id) {
    335       return true;
    336     }
    337   }
    338   return false;
    339 }
    340 
    341 // Create a collection of streams.
    342 // CreateStreamCollection(1) creates a collection that
    343 // correspond to kSdpStringWithStream1.
    344 // CreateStreamCollection(2) correspond to kSdpStringWithStream1And2.
    345 rtc::scoped_refptr<StreamCollection> CreateStreamCollection(
    346     int number_of_streams) {
    347   rtc::scoped_refptr<StreamCollection> local_collection(
    348       StreamCollection::Create());
    349 
    350   for (int i = 0; i < number_of_streams; ++i) {
    351     rtc::scoped_refptr<webrtc::MediaStreamInterface> stream(
    352         webrtc::MediaStream::Create(kStreams[i]));
    353 
    354     // Add a local audio track.
    355     rtc::scoped_refptr<webrtc::AudioTrackInterface> audio_track(
    356         webrtc::AudioTrack::Create(kAudioTracks[i], nullptr));
    357     stream->AddTrack(audio_track);
    358 
    359     // Add a local video track.
    360     rtc::scoped_refptr<webrtc::VideoTrackInterface> video_track(
    361         webrtc::VideoTrack::Create(kVideoTracks[i], nullptr));
    362     stream->AddTrack(video_track);
    363 
    364     local_collection->AddStream(stream);
    365   }
    366   return local_collection;
    367 }
    368 
    369 // Check equality of StreamCollections.
    370 bool CompareStreamCollections(StreamCollectionInterface* s1,
    371                               StreamCollectionInterface* s2) {
    372   if (s1 == nullptr || s2 == nullptr || s1->count() != s2->count()) {
    373     return false;
    374   }
    375 
    376   for (size_t i = 0; i != s1->count(); ++i) {
    377     if (s1->at(i)->label() != s2->at(i)->label()) {
    378       return false;
    379     }
    380     webrtc::AudioTrackVector audio_tracks1 = s1->at(i)->GetAudioTracks();
    381     webrtc::AudioTrackVector audio_tracks2 = s2->at(i)->GetAudioTracks();
    382     webrtc::VideoTrackVector video_tracks1 = s1->at(i)->GetVideoTracks();
    383     webrtc::VideoTrackVector video_tracks2 = s2->at(i)->GetVideoTracks();
    384 
    385     if (audio_tracks1.size() != audio_tracks2.size()) {
    386       return false;
    387     }
    388     for (size_t j = 0; j != audio_tracks1.size(); ++j) {
    389       if (audio_tracks1[j]->id() != audio_tracks2[j]->id()) {
    390         return false;
    391       }
    392     }
    393     if (video_tracks1.size() != video_tracks2.size()) {
    394       return false;
    395     }
    396     for (size_t j = 0; j != video_tracks1.size(); ++j) {
    397       if (video_tracks1[j]->id() != video_tracks2[j]->id()) {
    398         return false;
    399       }
    400     }
    401   }
    402   return true;
    403 }
    404 
    405 class MockPeerConnectionObserver : public PeerConnectionObserver {
    406  public:
    407   MockPeerConnectionObserver() : remote_streams_(StreamCollection::Create()) {}
    408   ~MockPeerConnectionObserver() {
    409   }
    410   void SetPeerConnectionInterface(PeerConnectionInterface* pc) {
    411     pc_ = pc;
    412     if (pc) {
    413       state_ = pc_->signaling_state();
    414     }
    415   }
    416   virtual void OnSignalingChange(
    417       PeerConnectionInterface::SignalingState new_state) {
    418     EXPECT_EQ(pc_->signaling_state(), new_state);
    419     state_ = new_state;
    420   }
    421   // TODO(bemasc): Remove this once callers transition to OnIceGatheringChange.
    422   virtual void OnStateChange(StateType state_changed) {
    423     if (pc_.get() == NULL)
    424       return;
    425     switch (state_changed) {
    426       case kSignalingState:
    427         // OnSignalingChange and OnStateChange(kSignalingState) should always
    428         // be called approximately simultaneously.  To ease testing, we require
    429         // that they always be called in that order.  This check verifies
    430         // that OnSignalingChange has just been called.
    431         EXPECT_EQ(pc_->signaling_state(), state_);
    432         break;
    433       case kIceState:
    434         ADD_FAILURE();
    435         break;
    436       default:
    437         ADD_FAILURE();
    438         break;
    439     }
    440   }
    441 
    442   MediaStreamInterface* RemoteStream(const std::string& label) {
    443     return remote_streams_->find(label);
    444   }
    445   StreamCollectionInterface* remote_streams() const { return remote_streams_; }
    446   virtual void OnAddStream(MediaStreamInterface* stream) {
    447     last_added_stream_ = stream;
    448     remote_streams_->AddStream(stream);
    449   }
    450   virtual void OnRemoveStream(MediaStreamInterface* stream) {
    451     last_removed_stream_ = stream;
    452     remote_streams_->RemoveStream(stream);
    453   }
    454   virtual void OnRenegotiationNeeded() {
    455     renegotiation_needed_ = true;
    456   }
    457   virtual void OnDataChannel(DataChannelInterface* data_channel) {
    458     last_datachannel_ = data_channel;
    459   }
    460 
    461   virtual void OnIceConnectionChange(
    462       PeerConnectionInterface::IceConnectionState new_state) {
    463     EXPECT_EQ(pc_->ice_connection_state(), new_state);
    464   }
    465   virtual void OnIceGatheringChange(
    466       PeerConnectionInterface::IceGatheringState new_state) {
    467     EXPECT_EQ(pc_->ice_gathering_state(), new_state);
    468   }
    469   virtual void OnIceCandidate(const webrtc::IceCandidateInterface* candidate) {
    470     EXPECT_NE(PeerConnectionInterface::kIceGatheringNew,
    471               pc_->ice_gathering_state());
    472 
    473     std::string sdp;
    474     EXPECT_TRUE(candidate->ToString(&sdp));
    475     EXPECT_LT(0u, sdp.size());
    476     last_candidate_.reset(webrtc::CreateIceCandidate(candidate->sdp_mid(),
    477         candidate->sdp_mline_index(), sdp, NULL));
    478     EXPECT_TRUE(last_candidate_.get() != NULL);
    479   }
    480   // TODO(bemasc): Remove this once callers transition to OnSignalingChange.
    481   virtual void OnIceComplete() {
    482     ice_complete_ = true;
    483     // OnIceGatheringChange(IceGatheringCompleted) and OnIceComplete() should
    484     // be called approximately simultaneously.  For ease of testing, this
    485     // check additionally requires that they be called in the above order.
    486     EXPECT_EQ(PeerConnectionInterface::kIceGatheringComplete,
    487       pc_->ice_gathering_state());
    488   }
    489 
    490   // Returns the label of the last added stream.
    491   // Empty string if no stream have been added.
    492   std::string GetLastAddedStreamLabel() {
    493     if (last_added_stream_.get())
    494       return last_added_stream_->label();
    495     return "";
    496   }
    497   std::string GetLastRemovedStreamLabel() {
    498     if (last_removed_stream_.get())
    499       return last_removed_stream_->label();
    500     return "";
    501   }
    502 
    503   scoped_refptr<PeerConnectionInterface> pc_;
    504   PeerConnectionInterface::SignalingState state_;
    505   scoped_ptr<IceCandidateInterface> last_candidate_;
    506   scoped_refptr<DataChannelInterface> last_datachannel_;
    507   rtc::scoped_refptr<StreamCollection> remote_streams_;
    508   bool renegotiation_needed_ = false;
    509   bool ice_complete_ = false;
    510 
    511  private:
    512   scoped_refptr<MediaStreamInterface> last_added_stream_;
    513   scoped_refptr<MediaStreamInterface> last_removed_stream_;
    514 };
    515 
    516 }  // namespace
    517 
    518 class PeerConnectionInterfaceTest : public testing::Test {
    519  protected:
    520   PeerConnectionInterfaceTest() {
    521 #ifdef WEBRTC_ANDROID
    522     webrtc::InitializeAndroidObjects();
    523 #endif
    524   }
    525 
    526   virtual void SetUp() {
    527     pc_factory_ = webrtc::CreatePeerConnectionFactory(
    528         rtc::Thread::Current(), rtc::Thread::Current(), NULL, NULL,
    529         NULL);
    530     ASSERT_TRUE(pc_factory_.get() != NULL);
    531   }
    532 
    533   void CreatePeerConnection() {
    534     CreatePeerConnection("", "", NULL);
    535   }
    536 
    537   void CreatePeerConnection(webrtc::MediaConstraintsInterface* constraints) {
    538     CreatePeerConnection("", "", constraints);
    539   }
    540 
    541   void CreatePeerConnection(const std::string& uri,
    542                             const std::string& password,
    543                             webrtc::MediaConstraintsInterface* constraints) {
    544     PeerConnectionInterface::RTCConfiguration config;
    545     PeerConnectionInterface::IceServer server;
    546     if (!uri.empty()) {
    547       server.uri = uri;
    548       server.password = password;
    549       config.servers.push_back(server);
    550     }
    551 
    552     rtc::scoped_ptr<cricket::FakePortAllocator> port_allocator(
    553         new cricket::FakePortAllocator(rtc::Thread::Current(), nullptr));
    554     port_allocator_ = port_allocator.get();
    555 
    556     // DTLS does not work in a loopback call, so is disabled for most of the
    557     // tests in this file. We only create a FakeIdentityService if the test
    558     // explicitly sets the constraint.
    559     FakeConstraints default_constraints;
    560     if (!constraints) {
    561       constraints = &default_constraints;
    562 
    563       default_constraints.AddMandatory(
    564           webrtc::MediaConstraintsInterface::kEnableDtlsSrtp, false);
    565     }
    566 
    567     scoped_ptr<webrtc::DtlsIdentityStoreInterface> dtls_identity_store;
    568     bool dtls;
    569     if (FindConstraint(constraints,
    570                        webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
    571                        &dtls,
    572                        nullptr) && dtls) {
    573       dtls_identity_store.reset(new FakeDtlsIdentityStore());
    574     }
    575     pc_ = pc_factory_->CreatePeerConnection(
    576         config, constraints, std::move(port_allocator),
    577         std::move(dtls_identity_store), &observer_);
    578     ASSERT_TRUE(pc_.get() != NULL);
    579     observer_.SetPeerConnectionInterface(pc_.get());
    580     EXPECT_EQ(PeerConnectionInterface::kStable, observer_.state_);
    581   }
    582 
    583   void CreatePeerConnectionExpectFail(const std::string& uri) {
    584     PeerConnectionInterface::RTCConfiguration config;
    585     PeerConnectionInterface::IceServer server;
    586     server.uri = uri;
    587     config.servers.push_back(server);
    588 
    589     scoped_refptr<PeerConnectionInterface> pc;
    590     pc = pc_factory_->CreatePeerConnection(config, nullptr, nullptr, nullptr,
    591                                            &observer_);
    592     EXPECT_EQ(nullptr, pc);
    593   }
    594 
    595   void CreatePeerConnectionWithDifferentConfigurations() {
    596     CreatePeerConnection(kStunAddressOnly, "", NULL);
    597     EXPECT_EQ(1u, port_allocator_->stun_servers().size());
    598     EXPECT_EQ(0u, port_allocator_->turn_servers().size());
    599     EXPECT_EQ("address", port_allocator_->stun_servers().begin()->hostname());
    600     EXPECT_EQ(kDefaultStunPort,
    601               port_allocator_->stun_servers().begin()->port());
    602 
    603     CreatePeerConnectionExpectFail(kStunInvalidPort);
    604     CreatePeerConnectionExpectFail(kStunAddressPortAndMore1);
    605     CreatePeerConnectionExpectFail(kStunAddressPortAndMore2);
    606 
    607     CreatePeerConnection(kTurnIceServerUri, kTurnPassword, NULL);
    608     EXPECT_EQ(0u, port_allocator_->stun_servers().size());
    609     EXPECT_EQ(1u, port_allocator_->turn_servers().size());
    610     EXPECT_EQ(kTurnUsername,
    611               port_allocator_->turn_servers()[0].credentials.username);
    612     EXPECT_EQ(kTurnPassword,
    613               port_allocator_->turn_servers()[0].credentials.password);
    614     EXPECT_EQ(kTurnHostname,
    615               port_allocator_->turn_servers()[0].ports[0].address.hostname());
    616   }
    617 
    618   void ReleasePeerConnection() {
    619     pc_ = NULL;
    620     observer_.SetPeerConnectionInterface(NULL);
    621   }
    622 
    623   void AddVideoStream(const std::string& label) {
    624     // Create a local stream.
    625     scoped_refptr<MediaStreamInterface> stream(
    626         pc_factory_->CreateLocalMediaStream(label));
    627     scoped_refptr<VideoSourceInterface> video_source(
    628         pc_factory_->CreateVideoSource(new cricket::FakeVideoCapturer(), NULL));
    629     scoped_refptr<VideoTrackInterface> video_track(
    630         pc_factory_->CreateVideoTrack(label + "v0", video_source));
    631     stream->AddTrack(video_track.get());
    632     EXPECT_TRUE(pc_->AddStream(stream));
    633     EXPECT_TRUE_WAIT(observer_.renegotiation_needed_, kTimeout);
    634     observer_.renegotiation_needed_ = false;
    635   }
    636 
    637   void AddVoiceStream(const std::string& label) {
    638     // Create a local stream.
    639     scoped_refptr<MediaStreamInterface> stream(
    640         pc_factory_->CreateLocalMediaStream(label));
    641     scoped_refptr<AudioTrackInterface> audio_track(
    642         pc_factory_->CreateAudioTrack(label + "a0", NULL));
    643     stream->AddTrack(audio_track.get());
    644     EXPECT_TRUE(pc_->AddStream(stream));
    645     EXPECT_TRUE_WAIT(observer_.renegotiation_needed_, kTimeout);
    646     observer_.renegotiation_needed_ = false;
    647   }
    648 
    649   void AddAudioVideoStream(const std::string& stream_label,
    650                            const std::string& audio_track_label,
    651                            const std::string& video_track_label) {
    652     // Create a local stream.
    653     scoped_refptr<MediaStreamInterface> stream(
    654         pc_factory_->CreateLocalMediaStream(stream_label));
    655     scoped_refptr<AudioTrackInterface> audio_track(
    656         pc_factory_->CreateAudioTrack(
    657             audio_track_label, static_cast<AudioSourceInterface*>(NULL)));
    658     stream->AddTrack(audio_track.get());
    659     scoped_refptr<VideoTrackInterface> video_track(
    660         pc_factory_->CreateVideoTrack(video_track_label, NULL));
    661     stream->AddTrack(video_track.get());
    662     EXPECT_TRUE(pc_->AddStream(stream));
    663     EXPECT_TRUE_WAIT(observer_.renegotiation_needed_, kTimeout);
    664     observer_.renegotiation_needed_ = false;
    665   }
    666 
    667   bool DoCreateOfferAnswer(SessionDescriptionInterface** desc,
    668                            bool offer,
    669                            MediaConstraintsInterface* constraints) {
    670     rtc::scoped_refptr<MockCreateSessionDescriptionObserver>
    671         observer(new rtc::RefCountedObject<
    672             MockCreateSessionDescriptionObserver>());
    673     if (offer) {
    674       pc_->CreateOffer(observer, constraints);
    675     } else {
    676       pc_->CreateAnswer(observer, constraints);
    677     }
    678     EXPECT_EQ_WAIT(true, observer->called(), kTimeout);
    679     *desc = observer->release_desc();
    680     return observer->result();
    681   }
    682 
    683   bool DoCreateOffer(SessionDescriptionInterface** desc,
    684                      MediaConstraintsInterface* constraints) {
    685     return DoCreateOfferAnswer(desc, true, constraints);
    686   }
    687 
    688   bool DoCreateAnswer(SessionDescriptionInterface** desc,
    689                       MediaConstraintsInterface* constraints) {
    690     return DoCreateOfferAnswer(desc, false, constraints);
    691   }
    692 
    693   bool DoSetSessionDescription(SessionDescriptionInterface* desc, bool local) {
    694     rtc::scoped_refptr<MockSetSessionDescriptionObserver>
    695         observer(new rtc::RefCountedObject<
    696             MockSetSessionDescriptionObserver>());
    697     if (local) {
    698       pc_->SetLocalDescription(observer, desc);
    699     } else {
    700       pc_->SetRemoteDescription(observer, desc);
    701     }
    702     EXPECT_EQ_WAIT(true, observer->called(), kTimeout);
    703     return observer->result();
    704   }
    705 
    706   bool DoSetLocalDescription(SessionDescriptionInterface* desc) {
    707     return DoSetSessionDescription(desc, true);
    708   }
    709 
    710   bool DoSetRemoteDescription(SessionDescriptionInterface* desc) {
    711     return DoSetSessionDescription(desc, false);
    712   }
    713 
    714   // Calls PeerConnection::GetStats and check the return value.
    715   // It does not verify the values in the StatReports since a RTCP packet might
    716   // be required.
    717   bool DoGetStats(MediaStreamTrackInterface* track) {
    718     rtc::scoped_refptr<MockStatsObserver> observer(
    719         new rtc::RefCountedObject<MockStatsObserver>());
    720     if (!pc_->GetStats(
    721         observer, track, PeerConnectionInterface::kStatsOutputLevelStandard))
    722       return false;
    723     EXPECT_TRUE_WAIT(observer->called(), kTimeout);
    724     return observer->called();
    725   }
    726 
    727   void InitiateCall() {
    728     CreatePeerConnection();
    729     // Create a local stream with audio&video tracks.
    730     AddAudioVideoStream(kStreamLabel1, "audio_label", "video_label");
    731     CreateOfferReceiveAnswer();
    732   }
    733 
    734   // Verify that RTP Header extensions has been negotiated for audio and video.
    735   void VerifyRemoteRtpHeaderExtensions() {
    736     const cricket::MediaContentDescription* desc =
    737         cricket::GetFirstAudioContentDescription(
    738             pc_->remote_description()->description());
    739     ASSERT_TRUE(desc != NULL);
    740     EXPECT_GT(desc->rtp_header_extensions().size(), 0u);
    741 
    742     desc = cricket::GetFirstVideoContentDescription(
    743         pc_->remote_description()->description());
    744     ASSERT_TRUE(desc != NULL);
    745     EXPECT_GT(desc->rtp_header_extensions().size(), 0u);
    746   }
    747 
    748   void CreateOfferAsRemoteDescription() {
    749     rtc::scoped_ptr<SessionDescriptionInterface> offer;
    750     ASSERT_TRUE(DoCreateOffer(offer.use(), nullptr));
    751     std::string sdp;
    752     EXPECT_TRUE(offer->ToString(&sdp));
    753     SessionDescriptionInterface* remote_offer =
    754         webrtc::CreateSessionDescription(SessionDescriptionInterface::kOffer,
    755                                          sdp, NULL);
    756     EXPECT_TRUE(DoSetRemoteDescription(remote_offer));
    757     EXPECT_EQ(PeerConnectionInterface::kHaveRemoteOffer, observer_.state_);
    758   }
    759 
    760   void CreateAndSetRemoteOffer(const std::string& sdp) {
    761     SessionDescriptionInterface* remote_offer =
    762         webrtc::CreateSessionDescription(SessionDescriptionInterface::kOffer,
    763                                          sdp, nullptr);
    764     EXPECT_TRUE(DoSetRemoteDescription(remote_offer));
    765     EXPECT_EQ(PeerConnectionInterface::kHaveRemoteOffer, observer_.state_);
    766   }
    767 
    768   void CreateAnswerAsLocalDescription() {
    769     scoped_ptr<SessionDescriptionInterface> answer;
    770     ASSERT_TRUE(DoCreateAnswer(answer.use(), nullptr));
    771 
    772     // TODO(perkj): Currently SetLocalDescription fails if any parameters in an
    773     // audio codec change, even if the parameter has nothing to do with
    774     // receiving. Not all parameters are serialized to SDP.
    775     // Since CreatePrAnswerAsLocalDescription serialize/deserialize
    776     // the SessionDescription, it is necessary to do that here to in order to
    777     // get ReceiveOfferCreatePrAnswerAndAnswer and RenegotiateAudioOnly to pass.
    778     // https://code.google.com/p/webrtc/issues/detail?id=1356
    779     std::string sdp;
    780     EXPECT_TRUE(answer->ToString(&sdp));
    781     SessionDescriptionInterface* new_answer =
    782         webrtc::CreateSessionDescription(SessionDescriptionInterface::kAnswer,
    783                                          sdp, NULL);
    784     EXPECT_TRUE(DoSetLocalDescription(new_answer));
    785     EXPECT_EQ(PeerConnectionInterface::kStable, observer_.state_);
    786   }
    787 
    788   void CreatePrAnswerAsLocalDescription() {
    789     scoped_ptr<SessionDescriptionInterface> answer;
    790     ASSERT_TRUE(DoCreateAnswer(answer.use(), nullptr));
    791 
    792     std::string sdp;
    793     EXPECT_TRUE(answer->ToString(&sdp));
    794     SessionDescriptionInterface* pr_answer =
    795         webrtc::CreateSessionDescription(SessionDescriptionInterface::kPrAnswer,
    796                                          sdp, NULL);
    797     EXPECT_TRUE(DoSetLocalDescription(pr_answer));
    798     EXPECT_EQ(PeerConnectionInterface::kHaveLocalPrAnswer, observer_.state_);
    799   }
    800 
    801   void CreateOfferReceiveAnswer() {
    802     CreateOfferAsLocalDescription();
    803     std::string sdp;
    804     EXPECT_TRUE(pc_->local_description()->ToString(&sdp));
    805     CreateAnswerAsRemoteDescription(sdp);
    806   }
    807 
    808   void CreateOfferAsLocalDescription() {
    809     rtc::scoped_ptr<SessionDescriptionInterface> offer;
    810     ASSERT_TRUE(DoCreateOffer(offer.use(), nullptr));
    811     // TODO(perkj): Currently SetLocalDescription fails if any parameters in an
    812     // audio codec change, even if the parameter has nothing to do with
    813     // receiving. Not all parameters are serialized to SDP.
    814     // Since CreatePrAnswerAsLocalDescription serialize/deserialize
    815     // the SessionDescription, it is necessary to do that here to in order to
    816     // get ReceiveOfferCreatePrAnswerAndAnswer and RenegotiateAudioOnly to pass.
    817     // https://code.google.com/p/webrtc/issues/detail?id=1356
    818     std::string sdp;
    819     EXPECT_TRUE(offer->ToString(&sdp));
    820     SessionDescriptionInterface* new_offer =
    821             webrtc::CreateSessionDescription(
    822                 SessionDescriptionInterface::kOffer,
    823                 sdp, NULL);
    824 
    825     EXPECT_TRUE(DoSetLocalDescription(new_offer));
    826     EXPECT_EQ(PeerConnectionInterface::kHaveLocalOffer, observer_.state_);
    827     // Wait for the ice_complete message, so that SDP will have candidates.
    828     EXPECT_TRUE_WAIT(observer_.ice_complete_, kTimeout);
    829   }
    830 
    831   void CreateAnswerAsRemoteDescription(const std::string& sdp) {
    832     webrtc::JsepSessionDescription* answer = new webrtc::JsepSessionDescription(
    833         SessionDescriptionInterface::kAnswer);
    834     EXPECT_TRUE(answer->Initialize(sdp, NULL));
    835     EXPECT_TRUE(DoSetRemoteDescription(answer));
    836     EXPECT_EQ(PeerConnectionInterface::kStable, observer_.state_);
    837   }
    838 
    839   void CreatePrAnswerAndAnswerAsRemoteDescription(const std::string& sdp) {
    840     webrtc::JsepSessionDescription* pr_answer =
    841         new webrtc::JsepSessionDescription(
    842             SessionDescriptionInterface::kPrAnswer);
    843     EXPECT_TRUE(pr_answer->Initialize(sdp, NULL));
    844     EXPECT_TRUE(DoSetRemoteDescription(pr_answer));
    845     EXPECT_EQ(PeerConnectionInterface::kHaveRemotePrAnswer, observer_.state_);
    846     webrtc::JsepSessionDescription* answer =
    847         new webrtc::JsepSessionDescription(
    848             SessionDescriptionInterface::kAnswer);
    849     EXPECT_TRUE(answer->Initialize(sdp, NULL));
    850     EXPECT_TRUE(DoSetRemoteDescription(answer));
    851     EXPECT_EQ(PeerConnectionInterface::kStable, observer_.state_);
    852   }
    853 
    854   // Help function used for waiting until a the last signaled remote stream has
    855   // the same label as |stream_label|. In a few of the tests in this file we
    856   // answer with the same session description as we offer and thus we can
    857   // check if OnAddStream have been called with the same stream as we offer to
    858   // send.
    859   void WaitAndVerifyOnAddStream(const std::string& stream_label) {
    860     EXPECT_EQ_WAIT(stream_label, observer_.GetLastAddedStreamLabel(), kTimeout);
    861   }
    862 
    863   // Creates an offer and applies it as a local session description.
    864   // Creates an answer with the same SDP an the offer but removes all lines
    865   // that start with a:ssrc"
    866   void CreateOfferReceiveAnswerWithoutSsrc() {
    867     CreateOfferAsLocalDescription();
    868     std::string sdp;
    869     EXPECT_TRUE(pc_->local_description()->ToString(&sdp));
    870     SetSsrcToZero(&sdp);
    871     CreateAnswerAsRemoteDescription(sdp);
    872   }
    873 
    874   // This function creates a MediaStream with label kStreams[0] and
    875   // |number_of_audio_tracks| and |number_of_video_tracks| tracks and the
    876   // corresponding SessionDescriptionInterface. The SessionDescriptionInterface
    877   // is returned in |desc| and the MediaStream is stored in
    878   // |reference_collection_|
    879   void CreateSessionDescriptionAndReference(
    880       size_t number_of_audio_tracks,
    881       size_t number_of_video_tracks,
    882       SessionDescriptionInterface** desc) {
    883     ASSERT_TRUE(desc != nullptr);
    884     ASSERT_LE(number_of_audio_tracks, 2u);
    885     ASSERT_LE(number_of_video_tracks, 2u);
    886 
    887     reference_collection_ = StreamCollection::Create();
    888     std::string sdp_ms1 = std::string(kSdpStringInit);
    889 
    890     std::string mediastream_label = kStreams[0];
    891 
    892     rtc::scoped_refptr<webrtc::MediaStreamInterface> stream(
    893         webrtc::MediaStream::Create(mediastream_label));
    894     reference_collection_->AddStream(stream);
    895 
    896     if (number_of_audio_tracks > 0) {
    897       sdp_ms1 += std::string(kSdpStringAudio);
    898       sdp_ms1 += std::string(kSdpStringMs1Audio0);
    899       AddAudioTrack(kAudioTracks[0], stream);
    900     }
    901     if (number_of_audio_tracks > 1) {
    902       sdp_ms1 += kSdpStringMs1Audio1;
    903       AddAudioTrack(kAudioTracks[1], stream);
    904     }
    905 
    906     if (number_of_video_tracks > 0) {
    907       sdp_ms1 += std::string(kSdpStringVideo);
    908       sdp_ms1 += std::string(kSdpStringMs1Video0);
    909       AddVideoTrack(kVideoTracks[0], stream);
    910     }
    911     if (number_of_video_tracks > 1) {
    912       sdp_ms1 += kSdpStringMs1Video1;
    913       AddVideoTrack(kVideoTracks[1], stream);
    914     }
    915 
    916     *desc = webrtc::CreateSessionDescription(
    917         SessionDescriptionInterface::kOffer, sdp_ms1, nullptr);
    918   }
    919 
    920   void AddAudioTrack(const std::string& track_id,
    921                      MediaStreamInterface* stream) {
    922     rtc::scoped_refptr<webrtc::AudioTrackInterface> audio_track(
    923         webrtc::AudioTrack::Create(track_id, nullptr));
    924     ASSERT_TRUE(stream->AddTrack(audio_track));
    925   }
    926 
    927   void AddVideoTrack(const std::string& track_id,
    928                      MediaStreamInterface* stream) {
    929     rtc::scoped_refptr<webrtc::VideoTrackInterface> video_track(
    930         webrtc::VideoTrack::Create(track_id, nullptr));
    931     ASSERT_TRUE(stream->AddTrack(video_track));
    932   }
    933 
    934   cricket::FakePortAllocator* port_allocator_ = nullptr;
    935   scoped_refptr<webrtc::PeerConnectionFactoryInterface> pc_factory_;
    936   scoped_refptr<PeerConnectionInterface> pc_;
    937   MockPeerConnectionObserver observer_;
    938   rtc::scoped_refptr<StreamCollection> reference_collection_;
    939 };
    940 
    941 TEST_F(PeerConnectionInterfaceTest,
    942        CreatePeerConnectionWithDifferentConfigurations) {
    943   CreatePeerConnectionWithDifferentConfigurations();
    944 }
    945 
    946 TEST_F(PeerConnectionInterfaceTest, AddStreams) {
    947   CreatePeerConnection();
    948   AddVideoStream(kStreamLabel1);
    949   AddVoiceStream(kStreamLabel2);
    950   ASSERT_EQ(2u, pc_->local_streams()->count());
    951 
    952   // Test we can add multiple local streams to one peerconnection.
    953   scoped_refptr<MediaStreamInterface> stream(
    954       pc_factory_->CreateLocalMediaStream(kStreamLabel3));
    955   scoped_refptr<AudioTrackInterface> audio_track(
    956       pc_factory_->CreateAudioTrack(
    957           kStreamLabel3, static_cast<AudioSourceInterface*>(NULL)));
    958   stream->AddTrack(audio_track.get());
    959   EXPECT_TRUE(pc_->AddStream(stream));
    960   EXPECT_EQ(3u, pc_->local_streams()->count());
    961 
    962   // Remove the third stream.
    963   pc_->RemoveStream(pc_->local_streams()->at(2));
    964   EXPECT_EQ(2u, pc_->local_streams()->count());
    965 
    966   // Remove the second stream.
    967   pc_->RemoveStream(pc_->local_streams()->at(1));
    968   EXPECT_EQ(1u, pc_->local_streams()->count());
    969 
    970   // Remove the first stream.
    971   pc_->RemoveStream(pc_->local_streams()->at(0));
    972   EXPECT_EQ(0u, pc_->local_streams()->count());
    973 }
    974 
    975 // Test that the created offer includes streams we added.
    976 TEST_F(PeerConnectionInterfaceTest, AddedStreamsPresentInOffer) {
    977   CreatePeerConnection();
    978   AddAudioVideoStream(kStreamLabel1, "audio_track", "video_track");
    979   scoped_ptr<SessionDescriptionInterface> offer;
    980   ASSERT_TRUE(DoCreateOffer(offer.accept(), nullptr));
    981 
    982   const cricket::ContentInfo* audio_content =
    983       cricket::GetFirstAudioContent(offer->description());
    984   const cricket::AudioContentDescription* audio_desc =
    985       static_cast<const cricket::AudioContentDescription*>(
    986           audio_content->description);
    987   EXPECT_TRUE(
    988       ContainsTrack(audio_desc->streams(), kStreamLabel1, "audio_track"));
    989 
    990   const cricket::ContentInfo* video_content =
    991       cricket::GetFirstVideoContent(offer->description());
    992   const cricket::VideoContentDescription* video_desc =
    993       static_cast<const cricket::VideoContentDescription*>(
    994           video_content->description);
    995   EXPECT_TRUE(
    996       ContainsTrack(video_desc->streams(), kStreamLabel1, "video_track"));
    997 
    998   // Add another stream and ensure the offer includes both the old and new
    999   // streams.
   1000   AddAudioVideoStream(kStreamLabel2, "audio_track2", "video_track2");
   1001   ASSERT_TRUE(DoCreateOffer(offer.accept(), nullptr));
   1002 
   1003   audio_content = cricket::GetFirstAudioContent(offer->description());
   1004   audio_desc = static_cast<const cricket::AudioContentDescription*>(
   1005       audio_content->description);
   1006   EXPECT_TRUE(
   1007       ContainsTrack(audio_desc->streams(), kStreamLabel1, "audio_track"));
   1008   EXPECT_TRUE(
   1009       ContainsTrack(audio_desc->streams(), kStreamLabel2, "audio_track2"));
   1010 
   1011   video_content = cricket::GetFirstVideoContent(offer->description());
   1012   video_desc = static_cast<const cricket::VideoContentDescription*>(
   1013       video_content->description);
   1014   EXPECT_TRUE(
   1015       ContainsTrack(video_desc->streams(), kStreamLabel1, "video_track"));
   1016   EXPECT_TRUE(
   1017       ContainsTrack(video_desc->streams(), kStreamLabel2, "video_track2"));
   1018 }
   1019 
   1020 TEST_F(PeerConnectionInterfaceTest, RemoveStream) {
   1021   CreatePeerConnection();
   1022   AddVideoStream(kStreamLabel1);
   1023   ASSERT_EQ(1u, pc_->local_streams()->count());
   1024   pc_->RemoveStream(pc_->local_streams()->at(0));
   1025   EXPECT_EQ(0u, pc_->local_streams()->count());
   1026 }
   1027 
   1028 TEST_F(PeerConnectionInterfaceTest, CreateOfferReceiveAnswer) {
   1029   InitiateCall();
   1030   WaitAndVerifyOnAddStream(kStreamLabel1);
   1031   VerifyRemoteRtpHeaderExtensions();
   1032 }
   1033 
   1034 TEST_F(PeerConnectionInterfaceTest, CreateOfferReceivePrAnswerAndAnswer) {
   1035   CreatePeerConnection();
   1036   AddVideoStream(kStreamLabel1);
   1037   CreateOfferAsLocalDescription();
   1038   std::string offer;
   1039   EXPECT_TRUE(pc_->local_description()->ToString(&offer));
   1040   CreatePrAnswerAndAnswerAsRemoteDescription(offer);
   1041   WaitAndVerifyOnAddStream(kStreamLabel1);
   1042 }
   1043 
   1044 TEST_F(PeerConnectionInterfaceTest, ReceiveOfferCreateAnswer) {
   1045   CreatePeerConnection();
   1046   AddVideoStream(kStreamLabel1);
   1047 
   1048   CreateOfferAsRemoteDescription();
   1049   CreateAnswerAsLocalDescription();
   1050 
   1051   WaitAndVerifyOnAddStream(kStreamLabel1);
   1052 }
   1053 
   1054 TEST_F(PeerConnectionInterfaceTest, ReceiveOfferCreatePrAnswerAndAnswer) {
   1055   CreatePeerConnection();
   1056   AddVideoStream(kStreamLabel1);
   1057 
   1058   CreateOfferAsRemoteDescription();
   1059   CreatePrAnswerAsLocalDescription();
   1060   CreateAnswerAsLocalDescription();
   1061 
   1062   WaitAndVerifyOnAddStream(kStreamLabel1);
   1063 }
   1064 
   1065 TEST_F(PeerConnectionInterfaceTest, Renegotiate) {
   1066   InitiateCall();
   1067   ASSERT_EQ(1u, pc_->remote_streams()->count());
   1068   pc_->RemoveStream(pc_->local_streams()->at(0));
   1069   CreateOfferReceiveAnswer();
   1070   EXPECT_EQ(0u, pc_->remote_streams()->count());
   1071   AddVideoStream(kStreamLabel1);
   1072   CreateOfferReceiveAnswer();
   1073 }
   1074 
   1075 // Tests that after negotiating an audio only call, the respondent can perform a
   1076 // renegotiation that removes the audio stream.
   1077 TEST_F(PeerConnectionInterfaceTest, RenegotiateAudioOnly) {
   1078   CreatePeerConnection();
   1079   AddVoiceStream(kStreamLabel1);
   1080   CreateOfferAsRemoteDescription();
   1081   CreateAnswerAsLocalDescription();
   1082 
   1083   ASSERT_EQ(1u, pc_->remote_streams()->count());
   1084   pc_->RemoveStream(pc_->local_streams()->at(0));
   1085   CreateOfferReceiveAnswer();
   1086   EXPECT_EQ(0u, pc_->remote_streams()->count());
   1087 }
   1088 
   1089 // Test that candidates are generated and that we can parse our own candidates.
   1090 TEST_F(PeerConnectionInterfaceTest, IceCandidates) {
   1091   CreatePeerConnection();
   1092 
   1093   EXPECT_FALSE(pc_->AddIceCandidate(observer_.last_candidate_.get()));
   1094   // SetRemoteDescription takes ownership of offer.
   1095   SessionDescriptionInterface* offer = NULL;
   1096   AddVideoStream(kStreamLabel1);
   1097   EXPECT_TRUE(DoCreateOffer(&offer, nullptr));
   1098   EXPECT_TRUE(DoSetRemoteDescription(offer));
   1099 
   1100   // SetLocalDescription takes ownership of answer.
   1101   SessionDescriptionInterface* answer = NULL;
   1102   EXPECT_TRUE(DoCreateAnswer(&answer, nullptr));
   1103   EXPECT_TRUE(DoSetLocalDescription(answer));
   1104 
   1105   EXPECT_TRUE_WAIT(observer_.last_candidate_.get() != NULL, kTimeout);
   1106   EXPECT_TRUE_WAIT(observer_.ice_complete_, kTimeout);
   1107 
   1108   EXPECT_TRUE(pc_->AddIceCandidate(observer_.last_candidate_.get()));
   1109 }
   1110 
   1111 // Test that CreateOffer and CreateAnswer will fail if the track labels are
   1112 // not unique.
   1113 TEST_F(PeerConnectionInterfaceTest, CreateOfferAnswerWithInvalidStream) {
   1114   CreatePeerConnection();
   1115   // Create a regular offer for the CreateAnswer test later.
   1116   SessionDescriptionInterface* offer = NULL;
   1117   EXPECT_TRUE(DoCreateOffer(&offer, nullptr));
   1118   EXPECT_TRUE(offer != NULL);
   1119   delete offer;
   1120   offer = NULL;
   1121 
   1122   // Create a local stream with audio&video tracks having same label.
   1123   AddAudioVideoStream(kStreamLabel1, "track_label", "track_label");
   1124 
   1125   // Test CreateOffer
   1126   EXPECT_FALSE(DoCreateOffer(&offer, nullptr));
   1127 
   1128   // Test CreateAnswer
   1129   SessionDescriptionInterface* answer = NULL;
   1130   EXPECT_FALSE(DoCreateAnswer(&answer, nullptr));
   1131 }
   1132 
   1133 // Test that we will get different SSRCs for each tracks in the offer and answer
   1134 // we created.
   1135 TEST_F(PeerConnectionInterfaceTest, SsrcInOfferAnswer) {
   1136   CreatePeerConnection();
   1137   // Create a local stream with audio&video tracks having different labels.
   1138   AddAudioVideoStream(kStreamLabel1, "audio_label", "video_label");
   1139 
   1140   // Test CreateOffer
   1141   scoped_ptr<SessionDescriptionInterface> offer;
   1142   ASSERT_TRUE(DoCreateOffer(offer.use(), nullptr));
   1143   int audio_ssrc = 0;
   1144   int video_ssrc = 0;
   1145   EXPECT_TRUE(GetFirstSsrc(GetFirstAudioContent(offer->description()),
   1146                            &audio_ssrc));
   1147   EXPECT_TRUE(GetFirstSsrc(GetFirstVideoContent(offer->description()),
   1148                            &video_ssrc));
   1149   EXPECT_NE(audio_ssrc, video_ssrc);
   1150 
   1151   // Test CreateAnswer
   1152   EXPECT_TRUE(DoSetRemoteDescription(offer.release()));
   1153   scoped_ptr<SessionDescriptionInterface> answer;
   1154   ASSERT_TRUE(DoCreateAnswer(answer.use(), nullptr));
   1155   audio_ssrc = 0;
   1156   video_ssrc = 0;
   1157   EXPECT_TRUE(GetFirstSsrc(GetFirstAudioContent(answer->description()),
   1158                            &audio_ssrc));
   1159   EXPECT_TRUE(GetFirstSsrc(GetFirstVideoContent(answer->description()),
   1160                            &video_ssrc));
   1161   EXPECT_NE(audio_ssrc, video_ssrc);
   1162 }
   1163 
   1164 // Test that it's possible to call AddTrack on a MediaStream after adding
   1165 // the stream to a PeerConnection.
   1166 // TODO(deadbeef): Remove this test once this behavior is no longer supported.
   1167 TEST_F(PeerConnectionInterfaceTest, AddTrackAfterAddStream) {
   1168   CreatePeerConnection();
   1169   // Create audio stream and add to PeerConnection.
   1170   AddVoiceStream(kStreamLabel1);
   1171   MediaStreamInterface* stream = pc_->local_streams()->at(0);
   1172 
   1173   // Add video track to the audio-only stream.
   1174   scoped_refptr<VideoTrackInterface> video_track(
   1175       pc_factory_->CreateVideoTrack("video_label", nullptr));
   1176   stream->AddTrack(video_track.get());
   1177 
   1178   scoped_ptr<SessionDescriptionInterface> offer;
   1179   ASSERT_TRUE(DoCreateOffer(offer.use(), nullptr));
   1180 
   1181   const cricket::MediaContentDescription* video_desc =
   1182       cricket::GetFirstVideoContentDescription(offer->description());
   1183   EXPECT_TRUE(video_desc != nullptr);
   1184 }
   1185 
   1186 // Test that it's possible to call RemoveTrack on a MediaStream after adding
   1187 // the stream to a PeerConnection.
   1188 // TODO(deadbeef): Remove this test once this behavior is no longer supported.
   1189 TEST_F(PeerConnectionInterfaceTest, RemoveTrackAfterAddStream) {
   1190   CreatePeerConnection();
   1191   // Create audio/video stream and add to PeerConnection.
   1192   AddAudioVideoStream(kStreamLabel1, "audio_label", "video_label");
   1193   MediaStreamInterface* stream = pc_->local_streams()->at(0);
   1194 
   1195   // Remove the video track.
   1196   stream->RemoveTrack(stream->GetVideoTracks()[0]);
   1197 
   1198   scoped_ptr<SessionDescriptionInterface> offer;
   1199   ASSERT_TRUE(DoCreateOffer(offer.use(), nullptr));
   1200 
   1201   const cricket::MediaContentDescription* video_desc =
   1202       cricket::GetFirstVideoContentDescription(offer->description());
   1203   EXPECT_TRUE(video_desc == nullptr);
   1204 }
   1205 
   1206 // Test creating a sender with a stream ID, and ensure the ID is populated
   1207 // in the offer.
   1208 TEST_F(PeerConnectionInterfaceTest, CreateSenderWithStream) {
   1209   CreatePeerConnection();
   1210   pc_->CreateSender("video", kStreamLabel1);
   1211 
   1212   scoped_ptr<SessionDescriptionInterface> offer;
   1213   ASSERT_TRUE(DoCreateOffer(offer.use(), nullptr));
   1214 
   1215   const cricket::MediaContentDescription* video_desc =
   1216       cricket::GetFirstVideoContentDescription(offer->description());
   1217   ASSERT_TRUE(video_desc != nullptr);
   1218   ASSERT_EQ(1u, video_desc->streams().size());
   1219   EXPECT_EQ(kStreamLabel1, video_desc->streams()[0].sync_label);
   1220 }
   1221 
   1222 // Test that we can specify a certain track that we want statistics about.
   1223 TEST_F(PeerConnectionInterfaceTest, GetStatsForSpecificTrack) {
   1224   InitiateCall();
   1225   ASSERT_LT(0u, pc_->remote_streams()->count());
   1226   ASSERT_LT(0u, pc_->remote_streams()->at(0)->GetAudioTracks().size());
   1227   scoped_refptr<MediaStreamTrackInterface> remote_audio =
   1228       pc_->remote_streams()->at(0)->GetAudioTracks()[0];
   1229   EXPECT_TRUE(DoGetStats(remote_audio));
   1230 
   1231   // Remove the stream. Since we are sending to our selves the local
   1232   // and the remote stream is the same.
   1233   pc_->RemoveStream(pc_->local_streams()->at(0));
   1234   // Do a re-negotiation.
   1235   CreateOfferReceiveAnswer();
   1236 
   1237   ASSERT_EQ(0u, pc_->remote_streams()->count());
   1238 
   1239   // Test that we still can get statistics for the old track. Even if it is not
   1240   // sent any longer.
   1241   EXPECT_TRUE(DoGetStats(remote_audio));
   1242 }
   1243 
   1244 // Test that we can get stats on a video track.
   1245 TEST_F(PeerConnectionInterfaceTest, GetStatsForVideoTrack) {
   1246   InitiateCall();
   1247   ASSERT_LT(0u, pc_->remote_streams()->count());
   1248   ASSERT_LT(0u, pc_->remote_streams()->at(0)->GetVideoTracks().size());
   1249   scoped_refptr<MediaStreamTrackInterface> remote_video =
   1250       pc_->remote_streams()->at(0)->GetVideoTracks()[0];
   1251   EXPECT_TRUE(DoGetStats(remote_video));
   1252 }
   1253 
   1254 // Test that we don't get statistics for an invalid track.
   1255 // TODO(tommi): Fix this test.  DoGetStats will return true
   1256 // for the unknown track (since GetStats is async), but no
   1257 // data is returned for the track.
   1258 TEST_F(PeerConnectionInterfaceTest, DISABLED_GetStatsForInvalidTrack) {
   1259   InitiateCall();
   1260   scoped_refptr<AudioTrackInterface> unknown_audio_track(
   1261       pc_factory_->CreateAudioTrack("unknown track", NULL));
   1262   EXPECT_FALSE(DoGetStats(unknown_audio_track));
   1263 }
   1264 
   1265 // This test setup two RTP data channels in loop back.
   1266 TEST_F(PeerConnectionInterfaceTest, TestDataChannel) {
   1267   FakeConstraints constraints;
   1268   constraints.SetAllowRtpDataChannels();
   1269   CreatePeerConnection(&constraints);
   1270   scoped_refptr<DataChannelInterface> data1  =
   1271       pc_->CreateDataChannel("test1", NULL);
   1272   scoped_refptr<DataChannelInterface> data2  =
   1273       pc_->CreateDataChannel("test2", NULL);
   1274   ASSERT_TRUE(data1 != NULL);
   1275   rtc::scoped_ptr<MockDataChannelObserver> observer1(
   1276       new MockDataChannelObserver(data1));
   1277   rtc::scoped_ptr<MockDataChannelObserver> observer2(
   1278       new MockDataChannelObserver(data2));
   1279 
   1280   EXPECT_EQ(DataChannelInterface::kConnecting, data1->state());
   1281   EXPECT_EQ(DataChannelInterface::kConnecting, data2->state());
   1282   std::string data_to_send1 = "testing testing";
   1283   std::string data_to_send2 = "testing something else";
   1284   EXPECT_FALSE(data1->Send(DataBuffer(data_to_send1)));
   1285 
   1286   CreateOfferReceiveAnswer();
   1287   EXPECT_TRUE_WAIT(observer1->IsOpen(), kTimeout);
   1288   EXPECT_TRUE_WAIT(observer2->IsOpen(), kTimeout);
   1289 
   1290   EXPECT_EQ(DataChannelInterface::kOpen, data1->state());
   1291   EXPECT_EQ(DataChannelInterface::kOpen, data2->state());
   1292   EXPECT_TRUE(data1->Send(DataBuffer(data_to_send1)));
   1293   EXPECT_TRUE(data2->Send(DataBuffer(data_to_send2)));
   1294 
   1295   EXPECT_EQ_WAIT(data_to_send1, observer1->last_message(), kTimeout);
   1296   EXPECT_EQ_WAIT(data_to_send2, observer2->last_message(), kTimeout);
   1297 
   1298   data1->Close();
   1299   EXPECT_EQ(DataChannelInterface::kClosing, data1->state());
   1300   CreateOfferReceiveAnswer();
   1301   EXPECT_FALSE(observer1->IsOpen());
   1302   EXPECT_EQ(DataChannelInterface::kClosed, data1->state());
   1303   EXPECT_TRUE(observer2->IsOpen());
   1304 
   1305   data_to_send2 = "testing something else again";
   1306   EXPECT_TRUE(data2->Send(DataBuffer(data_to_send2)));
   1307 
   1308   EXPECT_EQ_WAIT(data_to_send2, observer2->last_message(), kTimeout);
   1309 }
   1310 
   1311 // This test verifies that sendnig binary data over RTP data channels should
   1312 // fail.
   1313 TEST_F(PeerConnectionInterfaceTest, TestSendBinaryOnRtpDataChannel) {
   1314   FakeConstraints constraints;
   1315   constraints.SetAllowRtpDataChannels();
   1316   CreatePeerConnection(&constraints);
   1317   scoped_refptr<DataChannelInterface> data1  =
   1318       pc_->CreateDataChannel("test1", NULL);
   1319   scoped_refptr<DataChannelInterface> data2  =
   1320       pc_->CreateDataChannel("test2", NULL);
   1321   ASSERT_TRUE(data1 != NULL);
   1322   rtc::scoped_ptr<MockDataChannelObserver> observer1(
   1323       new MockDataChannelObserver(data1));
   1324   rtc::scoped_ptr<MockDataChannelObserver> observer2(
   1325       new MockDataChannelObserver(data2));
   1326 
   1327   EXPECT_EQ(DataChannelInterface::kConnecting, data1->state());
   1328   EXPECT_EQ(DataChannelInterface::kConnecting, data2->state());
   1329 
   1330   CreateOfferReceiveAnswer();
   1331   EXPECT_TRUE_WAIT(observer1->IsOpen(), kTimeout);
   1332   EXPECT_TRUE_WAIT(observer2->IsOpen(), kTimeout);
   1333 
   1334   EXPECT_EQ(DataChannelInterface::kOpen, data1->state());
   1335   EXPECT_EQ(DataChannelInterface::kOpen, data2->state());
   1336 
   1337   rtc::Buffer buffer("test", 4);
   1338   EXPECT_FALSE(data1->Send(DataBuffer(buffer, true)));
   1339 }
   1340 
   1341 // This test setup a RTP data channels in loop back and test that a channel is
   1342 // opened even if the remote end answer with a zero SSRC.
   1343 TEST_F(PeerConnectionInterfaceTest, TestSendOnlyDataChannel) {
   1344   FakeConstraints constraints;
   1345   constraints.SetAllowRtpDataChannels();
   1346   CreatePeerConnection(&constraints);
   1347   scoped_refptr<DataChannelInterface> data1  =
   1348       pc_->CreateDataChannel("test1", NULL);
   1349   rtc::scoped_ptr<MockDataChannelObserver> observer1(
   1350       new MockDataChannelObserver(data1));
   1351 
   1352   CreateOfferReceiveAnswerWithoutSsrc();
   1353 
   1354   EXPECT_TRUE_WAIT(observer1->IsOpen(), kTimeout);
   1355 
   1356   data1->Close();
   1357   EXPECT_EQ(DataChannelInterface::kClosing, data1->state());
   1358   CreateOfferReceiveAnswerWithoutSsrc();
   1359   EXPECT_EQ(DataChannelInterface::kClosed, data1->state());
   1360   EXPECT_FALSE(observer1->IsOpen());
   1361 }
   1362 
   1363 // This test that if a data channel is added in an answer a receive only channel
   1364 // channel is created.
   1365 TEST_F(PeerConnectionInterfaceTest, TestReceiveOnlyDataChannel) {
   1366   FakeConstraints constraints;
   1367   constraints.SetAllowRtpDataChannels();
   1368   CreatePeerConnection(&constraints);
   1369 
   1370   std::string offer_label = "offer_channel";
   1371   scoped_refptr<DataChannelInterface> offer_channel  =
   1372       pc_->CreateDataChannel(offer_label, NULL);
   1373 
   1374   CreateOfferAsLocalDescription();
   1375 
   1376   // Replace the data channel label in the offer and apply it as an answer.
   1377   std::string receive_label = "answer_channel";
   1378   std::string sdp;
   1379   EXPECT_TRUE(pc_->local_description()->ToString(&sdp));
   1380   rtc::replace_substrs(offer_label.c_str(), offer_label.length(),
   1381                              receive_label.c_str(), receive_label.length(),
   1382                              &sdp);
   1383   CreateAnswerAsRemoteDescription(sdp);
   1384 
   1385   // Verify that a new incoming data channel has been created and that
   1386   // it is open but can't we written to.
   1387   ASSERT_TRUE(observer_.last_datachannel_ != NULL);
   1388   DataChannelInterface* received_channel = observer_.last_datachannel_;
   1389   EXPECT_EQ(DataChannelInterface::kConnecting, received_channel->state());
   1390   EXPECT_EQ(receive_label, received_channel->label());
   1391   EXPECT_FALSE(received_channel->Send(DataBuffer("something")));
   1392 
   1393   // Verify that the channel we initially offered has been rejected.
   1394   EXPECT_EQ(DataChannelInterface::kClosed, offer_channel->state());
   1395 
   1396   // Do another offer / answer exchange and verify that the data channel is
   1397   // opened.
   1398   CreateOfferReceiveAnswer();
   1399   EXPECT_EQ_WAIT(DataChannelInterface::kOpen, received_channel->state(),
   1400                  kTimeout);
   1401 }
   1402 
   1403 // This test that no data channel is returned if a reliable channel is
   1404 // requested.
   1405 // TODO(perkj): Remove this test once reliable channels are implemented.
   1406 TEST_F(PeerConnectionInterfaceTest, CreateReliableRtpDataChannelShouldFail) {
   1407   FakeConstraints constraints;
   1408   constraints.SetAllowRtpDataChannels();
   1409   CreatePeerConnection(&constraints);
   1410 
   1411   std::string label = "test";
   1412   webrtc::DataChannelInit config;
   1413   config.reliable = true;
   1414   scoped_refptr<DataChannelInterface> channel  =
   1415       pc_->CreateDataChannel(label, &config);
   1416   EXPECT_TRUE(channel == NULL);
   1417 }
   1418 
   1419 // Verifies that duplicated label is not allowed for RTP data channel.
   1420 TEST_F(PeerConnectionInterfaceTest, RtpDuplicatedLabelNotAllowed) {
   1421   FakeConstraints constraints;
   1422   constraints.SetAllowRtpDataChannels();
   1423   CreatePeerConnection(&constraints);
   1424 
   1425   std::string label = "test";
   1426   scoped_refptr<DataChannelInterface> channel =
   1427       pc_->CreateDataChannel(label, nullptr);
   1428   EXPECT_NE(channel, nullptr);
   1429 
   1430   scoped_refptr<DataChannelInterface> dup_channel =
   1431       pc_->CreateDataChannel(label, nullptr);
   1432   EXPECT_EQ(dup_channel, nullptr);
   1433 }
   1434 
   1435 // This tests that a SCTP data channel is returned using different
   1436 // DataChannelInit configurations.
   1437 TEST_F(PeerConnectionInterfaceTest, CreateSctpDataChannel) {
   1438   FakeConstraints constraints;
   1439   constraints.SetAllowDtlsSctpDataChannels();
   1440   CreatePeerConnection(&constraints);
   1441 
   1442   webrtc::DataChannelInit config;
   1443 
   1444   scoped_refptr<DataChannelInterface> channel =
   1445       pc_->CreateDataChannel("1", &config);
   1446   EXPECT_TRUE(channel != NULL);
   1447   EXPECT_TRUE(channel->reliable());
   1448   EXPECT_TRUE(observer_.renegotiation_needed_);
   1449   observer_.renegotiation_needed_ = false;
   1450 
   1451   config.ordered = false;
   1452   channel = pc_->CreateDataChannel("2", &config);
   1453   EXPECT_TRUE(channel != NULL);
   1454   EXPECT_TRUE(channel->reliable());
   1455   EXPECT_FALSE(observer_.renegotiation_needed_);
   1456 
   1457   config.ordered = true;
   1458   config.maxRetransmits = 0;
   1459   channel = pc_->CreateDataChannel("3", &config);
   1460   EXPECT_TRUE(channel != NULL);
   1461   EXPECT_FALSE(channel->reliable());
   1462   EXPECT_FALSE(observer_.renegotiation_needed_);
   1463 
   1464   config.maxRetransmits = -1;
   1465   config.maxRetransmitTime = 0;
   1466   channel = pc_->CreateDataChannel("4", &config);
   1467   EXPECT_TRUE(channel != NULL);
   1468   EXPECT_FALSE(channel->reliable());
   1469   EXPECT_FALSE(observer_.renegotiation_needed_);
   1470 }
   1471 
   1472 // This tests that no data channel is returned if both maxRetransmits and
   1473 // maxRetransmitTime are set for SCTP data channels.
   1474 TEST_F(PeerConnectionInterfaceTest,
   1475        CreateSctpDataChannelShouldFailForInvalidConfig) {
   1476   FakeConstraints constraints;
   1477   constraints.SetAllowDtlsSctpDataChannels();
   1478   CreatePeerConnection(&constraints);
   1479 
   1480   std::string label = "test";
   1481   webrtc::DataChannelInit config;
   1482   config.maxRetransmits = 0;
   1483   config.maxRetransmitTime = 0;
   1484 
   1485   scoped_refptr<DataChannelInterface> channel =
   1486       pc_->CreateDataChannel(label, &config);
   1487   EXPECT_TRUE(channel == NULL);
   1488 }
   1489 
   1490 // The test verifies that creating a SCTP data channel with an id already in use
   1491 // or out of range should fail.
   1492 TEST_F(PeerConnectionInterfaceTest,
   1493        CreateSctpDataChannelWithInvalidIdShouldFail) {
   1494   FakeConstraints constraints;
   1495   constraints.SetAllowDtlsSctpDataChannels();
   1496   CreatePeerConnection(&constraints);
   1497 
   1498   webrtc::DataChannelInit config;
   1499   scoped_refptr<DataChannelInterface> channel;
   1500 
   1501   config.id = 1;
   1502   channel = pc_->CreateDataChannel("1", &config);
   1503   EXPECT_TRUE(channel != NULL);
   1504   EXPECT_EQ(1, channel->id());
   1505 
   1506   channel = pc_->CreateDataChannel("x", &config);
   1507   EXPECT_TRUE(channel == NULL);
   1508 
   1509   config.id = cricket::kMaxSctpSid;
   1510   channel = pc_->CreateDataChannel("max", &config);
   1511   EXPECT_TRUE(channel != NULL);
   1512   EXPECT_EQ(config.id, channel->id());
   1513 
   1514   config.id = cricket::kMaxSctpSid + 1;
   1515   channel = pc_->CreateDataChannel("x", &config);
   1516   EXPECT_TRUE(channel == NULL);
   1517 }
   1518 
   1519 // Verifies that duplicated label is allowed for SCTP data channel.
   1520 TEST_F(PeerConnectionInterfaceTest, SctpDuplicatedLabelAllowed) {
   1521   FakeConstraints constraints;
   1522   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   1523                            true);
   1524   CreatePeerConnection(&constraints);
   1525 
   1526   std::string label = "test";
   1527   scoped_refptr<DataChannelInterface> channel =
   1528       pc_->CreateDataChannel(label, nullptr);
   1529   EXPECT_NE(channel, nullptr);
   1530 
   1531   scoped_refptr<DataChannelInterface> dup_channel =
   1532       pc_->CreateDataChannel(label, nullptr);
   1533   EXPECT_NE(dup_channel, nullptr);
   1534 }
   1535 
   1536 // This test verifies that OnRenegotiationNeeded is fired for every new RTP
   1537 // DataChannel.
   1538 TEST_F(PeerConnectionInterfaceTest, RenegotiationNeededForNewRtpDataChannel) {
   1539   FakeConstraints constraints;
   1540   constraints.SetAllowRtpDataChannels();
   1541   CreatePeerConnection(&constraints);
   1542 
   1543   scoped_refptr<DataChannelInterface> dc1  =
   1544       pc_->CreateDataChannel("test1", NULL);
   1545   EXPECT_TRUE(observer_.renegotiation_needed_);
   1546   observer_.renegotiation_needed_ = false;
   1547 
   1548   scoped_refptr<DataChannelInterface> dc2  =
   1549       pc_->CreateDataChannel("test2", NULL);
   1550   EXPECT_TRUE(observer_.renegotiation_needed_);
   1551 }
   1552 
   1553 // This test that a data channel closes when a PeerConnection is deleted/closed.
   1554 TEST_F(PeerConnectionInterfaceTest, DataChannelCloseWhenPeerConnectionClose) {
   1555   FakeConstraints constraints;
   1556   constraints.SetAllowRtpDataChannels();
   1557   CreatePeerConnection(&constraints);
   1558 
   1559   scoped_refptr<DataChannelInterface> data1  =
   1560       pc_->CreateDataChannel("test1", NULL);
   1561   scoped_refptr<DataChannelInterface> data2  =
   1562       pc_->CreateDataChannel("test2", NULL);
   1563   ASSERT_TRUE(data1 != NULL);
   1564   rtc::scoped_ptr<MockDataChannelObserver> observer1(
   1565       new MockDataChannelObserver(data1));
   1566   rtc::scoped_ptr<MockDataChannelObserver> observer2(
   1567       new MockDataChannelObserver(data2));
   1568 
   1569   CreateOfferReceiveAnswer();
   1570   EXPECT_TRUE_WAIT(observer1->IsOpen(), kTimeout);
   1571   EXPECT_TRUE_WAIT(observer2->IsOpen(), kTimeout);
   1572 
   1573   ReleasePeerConnection();
   1574   EXPECT_EQ(DataChannelInterface::kClosed, data1->state());
   1575   EXPECT_EQ(DataChannelInterface::kClosed, data2->state());
   1576 }
   1577 
   1578 // This test that data channels can be rejected in an answer.
   1579 TEST_F(PeerConnectionInterfaceTest, TestRejectDataChannelInAnswer) {
   1580   FakeConstraints constraints;
   1581   constraints.SetAllowRtpDataChannels();
   1582   CreatePeerConnection(&constraints);
   1583 
   1584   scoped_refptr<DataChannelInterface> offer_channel(
   1585       pc_->CreateDataChannel("offer_channel", NULL));
   1586 
   1587   CreateOfferAsLocalDescription();
   1588 
   1589   // Create an answer where the m-line for data channels are rejected.
   1590   std::string sdp;
   1591   EXPECT_TRUE(pc_->local_description()->ToString(&sdp));
   1592   webrtc::JsepSessionDescription* answer = new webrtc::JsepSessionDescription(
   1593       SessionDescriptionInterface::kAnswer);
   1594   EXPECT_TRUE(answer->Initialize(sdp, NULL));
   1595   cricket::ContentInfo* data_info =
   1596       answer->description()->GetContentByName("data");
   1597   data_info->rejected = true;
   1598 
   1599   DoSetRemoteDescription(answer);
   1600   EXPECT_EQ(DataChannelInterface::kClosed, offer_channel->state());
   1601 }
   1602 
   1603 // Test that we can create a session description from an SDP string from
   1604 // FireFox, use it as a remote session description, generate an answer and use
   1605 // the answer as a local description.
   1606 TEST_F(PeerConnectionInterfaceTest, ReceiveFireFoxOffer) {
   1607   MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);
   1608   FakeConstraints constraints;
   1609   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   1610                            true);
   1611   CreatePeerConnection(&constraints);
   1612   AddAudioVideoStream(kStreamLabel1, "audio_label", "video_label");
   1613   SessionDescriptionInterface* desc =
   1614       webrtc::CreateSessionDescription(SessionDescriptionInterface::kOffer,
   1615                                        webrtc::kFireFoxSdpOffer, nullptr);
   1616   EXPECT_TRUE(DoSetSessionDescription(desc, false));
   1617   CreateAnswerAsLocalDescription();
   1618   ASSERT_TRUE(pc_->local_description() != NULL);
   1619   ASSERT_TRUE(pc_->remote_description() != NULL);
   1620 
   1621   const cricket::ContentInfo* content =
   1622       cricket::GetFirstAudioContent(pc_->local_description()->description());
   1623   ASSERT_TRUE(content != NULL);
   1624   EXPECT_FALSE(content->rejected);
   1625 
   1626   content =
   1627       cricket::GetFirstVideoContent(pc_->local_description()->description());
   1628   ASSERT_TRUE(content != NULL);
   1629   EXPECT_FALSE(content->rejected);
   1630 #ifdef HAVE_SCTP
   1631   content =
   1632       cricket::GetFirstDataContent(pc_->local_description()->description());
   1633   ASSERT_TRUE(content != NULL);
   1634   EXPECT_TRUE(content->rejected);
   1635 #endif
   1636 }
   1637 
   1638 // Test that we can create an audio only offer and receive an answer with a
   1639 // limited set of audio codecs and receive an updated offer with more audio
   1640 // codecs, where the added codecs are not supported.
   1641 TEST_F(PeerConnectionInterfaceTest, ReceiveUpdatedAudioOfferWithBadCodecs) {
   1642   CreatePeerConnection();
   1643   AddVoiceStream("audio_label");
   1644   CreateOfferAsLocalDescription();
   1645 
   1646   SessionDescriptionInterface* answer =
   1647       webrtc::CreateSessionDescription(SessionDescriptionInterface::kAnswer,
   1648                                        webrtc::kAudioSdp, nullptr);
   1649   EXPECT_TRUE(DoSetSessionDescription(answer, false));
   1650 
   1651   SessionDescriptionInterface* updated_offer =
   1652       webrtc::CreateSessionDescription(SessionDescriptionInterface::kOffer,
   1653                                        webrtc::kAudioSdpWithUnsupportedCodecs,
   1654                                        nullptr);
   1655   EXPECT_TRUE(DoSetSessionDescription(updated_offer, false));
   1656   CreateAnswerAsLocalDescription();
   1657 }
   1658 
   1659 // Test that if we're receiving (but not sending) a track, subsequent offers
   1660 // will have m-lines with a=recvonly.
   1661 TEST_F(PeerConnectionInterfaceTest, CreateSubsequentRecvOnlyOffer) {
   1662   FakeConstraints constraints;
   1663   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   1664                            true);
   1665   CreatePeerConnection(&constraints);
   1666   CreateAndSetRemoteOffer(kSdpStringWithStream1);
   1667   CreateAnswerAsLocalDescription();
   1668 
   1669   // At this point we should be receiving stream 1, but not sending anything.
   1670   // A new offer should be recvonly.
   1671   SessionDescriptionInterface* offer;
   1672   DoCreateOffer(&offer, nullptr);
   1673 
   1674   const cricket::ContentInfo* video_content =
   1675       cricket::GetFirstVideoContent(offer->description());
   1676   const cricket::VideoContentDescription* video_desc =
   1677       static_cast<const cricket::VideoContentDescription*>(
   1678           video_content->description);
   1679   ASSERT_EQ(cricket::MD_RECVONLY, video_desc->direction());
   1680 
   1681   const cricket::ContentInfo* audio_content =
   1682       cricket::GetFirstAudioContent(offer->description());
   1683   const cricket::AudioContentDescription* audio_desc =
   1684       static_cast<const cricket::AudioContentDescription*>(
   1685           audio_content->description);
   1686   ASSERT_EQ(cricket::MD_RECVONLY, audio_desc->direction());
   1687 }
   1688 
   1689 // Test that if we're receiving (but not sending) a track, and the
   1690 // offerToReceiveVideo/offerToReceiveAudio constraints are explicitly set to
   1691 // false, the generated m-lines will be a=inactive.
   1692 TEST_F(PeerConnectionInterfaceTest, CreateSubsequentInactiveOffer) {
   1693   FakeConstraints constraints;
   1694   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   1695                            true);
   1696   CreatePeerConnection(&constraints);
   1697   CreateAndSetRemoteOffer(kSdpStringWithStream1);
   1698   CreateAnswerAsLocalDescription();
   1699 
   1700   // At this point we should be receiving stream 1, but not sending anything.
   1701   // A new offer would be recvonly, but we'll set the "no receive" constraints
   1702   // to make it inactive.
   1703   SessionDescriptionInterface* offer;
   1704   FakeConstraints offer_constraints;
   1705   offer_constraints.AddMandatory(
   1706       webrtc::MediaConstraintsInterface::kOfferToReceiveVideo, false);
   1707   offer_constraints.AddMandatory(
   1708       webrtc::MediaConstraintsInterface::kOfferToReceiveAudio, false);
   1709   DoCreateOffer(&offer, &offer_constraints);
   1710 
   1711   const cricket::ContentInfo* video_content =
   1712       cricket::GetFirstVideoContent(offer->description());
   1713   const cricket::VideoContentDescription* video_desc =
   1714       static_cast<const cricket::VideoContentDescription*>(
   1715           video_content->description);
   1716   ASSERT_EQ(cricket::MD_INACTIVE, video_desc->direction());
   1717 
   1718   const cricket::ContentInfo* audio_content =
   1719       cricket::GetFirstAudioContent(offer->description());
   1720   const cricket::AudioContentDescription* audio_desc =
   1721       static_cast<const cricket::AudioContentDescription*>(
   1722           audio_content->description);
   1723   ASSERT_EQ(cricket::MD_INACTIVE, audio_desc->direction());
   1724 }
   1725 
   1726 // Test that we can use SetConfiguration to change the ICE servers of the
   1727 // PortAllocator.
   1728 TEST_F(PeerConnectionInterfaceTest, SetConfigurationChangesIceServers) {
   1729   CreatePeerConnection();
   1730 
   1731   PeerConnectionInterface::RTCConfiguration config;
   1732   PeerConnectionInterface::IceServer server;
   1733   server.uri = "stun:test_hostname";
   1734   config.servers.push_back(server);
   1735   EXPECT_TRUE(pc_->SetConfiguration(config));
   1736 
   1737   EXPECT_EQ(1u, port_allocator_->stun_servers().size());
   1738   EXPECT_EQ("test_hostname",
   1739             port_allocator_->stun_servers().begin()->hostname());
   1740 }
   1741 
   1742 // Test that PeerConnection::Close changes the states to closed and all remote
   1743 // tracks change state to ended.
   1744 TEST_F(PeerConnectionInterfaceTest, CloseAndTestStreamsAndStates) {
   1745   // Initialize a PeerConnection and negotiate local and remote session
   1746   // description.
   1747   InitiateCall();
   1748   ASSERT_EQ(1u, pc_->local_streams()->count());
   1749   ASSERT_EQ(1u, pc_->remote_streams()->count());
   1750 
   1751   pc_->Close();
   1752 
   1753   EXPECT_EQ(PeerConnectionInterface::kClosed, pc_->signaling_state());
   1754   EXPECT_EQ(PeerConnectionInterface::kIceConnectionClosed,
   1755             pc_->ice_connection_state());
   1756   EXPECT_EQ(PeerConnectionInterface::kIceGatheringComplete,
   1757             pc_->ice_gathering_state());
   1758 
   1759   EXPECT_EQ(1u, pc_->local_streams()->count());
   1760   EXPECT_EQ(1u, pc_->remote_streams()->count());
   1761 
   1762   scoped_refptr<MediaStreamInterface> remote_stream =
   1763           pc_->remote_streams()->at(0);
   1764   EXPECT_EQ(MediaStreamTrackInterface::kEnded,
   1765             remote_stream->GetVideoTracks()[0]->state());
   1766   EXPECT_EQ(MediaStreamTrackInterface::kEnded,
   1767             remote_stream->GetAudioTracks()[0]->state());
   1768 }
   1769 
   1770 // Test that PeerConnection methods fails gracefully after
   1771 // PeerConnection::Close has been called.
   1772 TEST_F(PeerConnectionInterfaceTest, CloseAndTestMethods) {
   1773   CreatePeerConnection();
   1774   AddAudioVideoStream(kStreamLabel1, "audio_label", "video_label");
   1775   CreateOfferAsRemoteDescription();
   1776   CreateAnswerAsLocalDescription();
   1777 
   1778   ASSERT_EQ(1u, pc_->local_streams()->count());
   1779   scoped_refptr<MediaStreamInterface> local_stream =
   1780       pc_->local_streams()->at(0);
   1781 
   1782   pc_->Close();
   1783 
   1784   pc_->RemoveStream(local_stream);
   1785   EXPECT_FALSE(pc_->AddStream(local_stream));
   1786 
   1787   ASSERT_FALSE(local_stream->GetAudioTracks().empty());
   1788   rtc::scoped_refptr<webrtc::DtmfSenderInterface> dtmf_sender(
   1789       pc_->CreateDtmfSender(local_stream->GetAudioTracks()[0]));
   1790   EXPECT_TRUE(NULL == dtmf_sender);  // local stream has been removed.
   1791 
   1792   EXPECT_TRUE(pc_->CreateDataChannel("test", NULL) == NULL);
   1793 
   1794   EXPECT_TRUE(pc_->local_description() != NULL);
   1795   EXPECT_TRUE(pc_->remote_description() != NULL);
   1796 
   1797   rtc::scoped_ptr<SessionDescriptionInterface> offer;
   1798   EXPECT_TRUE(DoCreateOffer(offer.use(), nullptr));
   1799   rtc::scoped_ptr<SessionDescriptionInterface> answer;
   1800   EXPECT_TRUE(DoCreateAnswer(answer.use(), nullptr));
   1801 
   1802   std::string sdp;
   1803   ASSERT_TRUE(pc_->remote_description()->ToString(&sdp));
   1804   SessionDescriptionInterface* remote_offer =
   1805       webrtc::CreateSessionDescription(SessionDescriptionInterface::kOffer,
   1806                                        sdp, NULL);
   1807   EXPECT_FALSE(DoSetRemoteDescription(remote_offer));
   1808 
   1809   ASSERT_TRUE(pc_->local_description()->ToString(&sdp));
   1810   SessionDescriptionInterface* local_offer =
   1811         webrtc::CreateSessionDescription(SessionDescriptionInterface::kOffer,
   1812                                          sdp, NULL);
   1813   EXPECT_FALSE(DoSetLocalDescription(local_offer));
   1814 }
   1815 
   1816 // Test that GetStats can still be called after PeerConnection::Close.
   1817 TEST_F(PeerConnectionInterfaceTest, CloseAndGetStats) {
   1818   InitiateCall();
   1819   pc_->Close();
   1820   DoGetStats(NULL);
   1821 }
   1822 
   1823 // NOTE: The series of tests below come from what used to be
   1824 // mediastreamsignaling_unittest.cc, and are mostly aimed at testing that
   1825 // setting a remote or local description has the expected effects.
   1826 
   1827 // This test verifies that the remote MediaStreams corresponding to a received
   1828 // SDP string is created. In this test the two separate MediaStreams are
   1829 // signaled.
   1830 TEST_F(PeerConnectionInterfaceTest, UpdateRemoteStreams) {
   1831   FakeConstraints constraints;
   1832   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   1833                            true);
   1834   CreatePeerConnection(&constraints);
   1835   CreateAndSetRemoteOffer(kSdpStringWithStream1);
   1836 
   1837   rtc::scoped_refptr<StreamCollection> reference(CreateStreamCollection(1));
   1838   EXPECT_TRUE(
   1839       CompareStreamCollections(observer_.remote_streams(), reference.get()));
   1840   MediaStreamInterface* remote_stream = observer_.remote_streams()->at(0);
   1841   EXPECT_TRUE(remote_stream->GetVideoTracks()[0]->GetSource() != nullptr);
   1842 
   1843   // Create a session description based on another SDP with another
   1844   // MediaStream.
   1845   CreateAndSetRemoteOffer(kSdpStringWithStream1And2);
   1846 
   1847   rtc::scoped_refptr<StreamCollection> reference2(CreateStreamCollection(2));
   1848   EXPECT_TRUE(
   1849       CompareStreamCollections(observer_.remote_streams(), reference2.get()));
   1850 }
   1851 
   1852 // This test verifies that when remote tracks are added/removed from SDP, the
   1853 // created remote streams are updated appropriately.
   1854 TEST_F(PeerConnectionInterfaceTest,
   1855        AddRemoveTrackFromExistingRemoteMediaStream) {
   1856   FakeConstraints constraints;
   1857   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   1858                            true);
   1859   CreatePeerConnection(&constraints);
   1860   rtc::scoped_ptr<SessionDescriptionInterface> desc_ms1;
   1861   CreateSessionDescriptionAndReference(1, 1, desc_ms1.accept());
   1862   EXPECT_TRUE(DoSetRemoteDescription(desc_ms1.release()));
   1863   EXPECT_TRUE(CompareStreamCollections(observer_.remote_streams(),
   1864                                        reference_collection_));
   1865 
   1866   // Add extra audio and video tracks to the same MediaStream.
   1867   rtc::scoped_ptr<SessionDescriptionInterface> desc_ms1_two_tracks;
   1868   CreateSessionDescriptionAndReference(2, 2, desc_ms1_two_tracks.accept());
   1869   EXPECT_TRUE(DoSetRemoteDescription(desc_ms1_two_tracks.release()));
   1870   EXPECT_TRUE(CompareStreamCollections(observer_.remote_streams(),
   1871                                        reference_collection_));
   1872 
   1873   // Remove the extra audio and video tracks.
   1874   rtc::scoped_ptr<SessionDescriptionInterface> desc_ms2;
   1875   CreateSessionDescriptionAndReference(1, 1, desc_ms2.accept());
   1876   EXPECT_TRUE(DoSetRemoteDescription(desc_ms2.release()));
   1877   EXPECT_TRUE(CompareStreamCollections(observer_.remote_streams(),
   1878                                        reference_collection_));
   1879 }
   1880 
   1881 // This tests that remote tracks are ended if a local session description is set
   1882 // that rejects the media content type.
   1883 TEST_F(PeerConnectionInterfaceTest, RejectMediaContent) {
   1884   FakeConstraints constraints;
   1885   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   1886                            true);
   1887   CreatePeerConnection(&constraints);
   1888   // First create and set a remote offer, then reject its video content in our
   1889   // answer.
   1890   CreateAndSetRemoteOffer(kSdpStringWithStream1);
   1891   ASSERT_EQ(1u, observer_.remote_streams()->count());
   1892   MediaStreamInterface* remote_stream = observer_.remote_streams()->at(0);
   1893   ASSERT_EQ(1u, remote_stream->GetVideoTracks().size());
   1894   ASSERT_EQ(1u, remote_stream->GetAudioTracks().size());
   1895 
   1896   rtc::scoped_refptr<webrtc::VideoTrackInterface> remote_video =
   1897       remote_stream->GetVideoTracks()[0];
   1898   EXPECT_EQ(webrtc::MediaStreamTrackInterface::kLive, remote_video->state());
   1899   rtc::scoped_refptr<webrtc::AudioTrackInterface> remote_audio =
   1900       remote_stream->GetAudioTracks()[0];
   1901   EXPECT_EQ(webrtc::MediaStreamTrackInterface::kLive, remote_audio->state());
   1902 
   1903   rtc::scoped_ptr<SessionDescriptionInterface> local_answer;
   1904   EXPECT_TRUE(DoCreateAnswer(local_answer.accept(), nullptr));
   1905   cricket::ContentInfo* video_info =
   1906       local_answer->description()->GetContentByName("video");
   1907   video_info->rejected = true;
   1908   EXPECT_TRUE(DoSetLocalDescription(local_answer.release()));
   1909   EXPECT_EQ(webrtc::MediaStreamTrackInterface::kEnded, remote_video->state());
   1910   EXPECT_EQ(webrtc::MediaStreamTrackInterface::kLive, remote_audio->state());
   1911 
   1912   // Now create an offer where we reject both video and audio.
   1913   rtc::scoped_ptr<SessionDescriptionInterface> local_offer;
   1914   EXPECT_TRUE(DoCreateOffer(local_offer.accept(), nullptr));
   1915   video_info = local_offer->description()->GetContentByName("video");
   1916   ASSERT_TRUE(video_info != nullptr);
   1917   video_info->rejected = true;
   1918   cricket::ContentInfo* audio_info =
   1919       local_offer->description()->GetContentByName("audio");
   1920   ASSERT_TRUE(audio_info != nullptr);
   1921   audio_info->rejected = true;
   1922   EXPECT_TRUE(DoSetLocalDescription(local_offer.release()));
   1923   EXPECT_EQ(webrtc::MediaStreamTrackInterface::kEnded, remote_video->state());
   1924   EXPECT_EQ(webrtc::MediaStreamTrackInterface::kEnded, remote_audio->state());
   1925 }
   1926 
   1927 // This tests that we won't crash if the remote track has been removed outside
   1928 // of PeerConnection and then PeerConnection tries to reject the track.
   1929 TEST_F(PeerConnectionInterfaceTest, RemoveTrackThenRejectMediaContent) {
   1930   FakeConstraints constraints;
   1931   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   1932                            true);
   1933   CreatePeerConnection(&constraints);
   1934   CreateAndSetRemoteOffer(kSdpStringWithStream1);
   1935   MediaStreamInterface* remote_stream = observer_.remote_streams()->at(0);
   1936   remote_stream->RemoveTrack(remote_stream->GetVideoTracks()[0]);
   1937   remote_stream->RemoveTrack(remote_stream->GetAudioTracks()[0]);
   1938 
   1939   rtc::scoped_ptr<SessionDescriptionInterface> local_answer(
   1940       webrtc::CreateSessionDescription(SessionDescriptionInterface::kAnswer,
   1941                                        kSdpStringWithStream1, nullptr));
   1942   cricket::ContentInfo* video_info =
   1943       local_answer->description()->GetContentByName("video");
   1944   video_info->rejected = true;
   1945   cricket::ContentInfo* audio_info =
   1946       local_answer->description()->GetContentByName("audio");
   1947   audio_info->rejected = true;
   1948   EXPECT_TRUE(DoSetLocalDescription(local_answer.release()));
   1949 
   1950   // No crash is a pass.
   1951 }
   1952 
   1953 // This tests that if a recvonly remote description is set, no remote streams
   1954 // will be created, even if the description contains SSRCs/MSIDs.
   1955 // See: https://code.google.com/p/webrtc/issues/detail?id=5054
   1956 TEST_F(PeerConnectionInterfaceTest, RecvonlyDescriptionDoesntCreateStream) {
   1957   FakeConstraints constraints;
   1958   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   1959                            true);
   1960   CreatePeerConnection(&constraints);
   1961 
   1962   std::string recvonly_offer = kSdpStringWithStream1;
   1963   rtc::replace_substrs(kSendrecv, strlen(kSendrecv), kRecvonly,
   1964                        strlen(kRecvonly), &recvonly_offer);
   1965   CreateAndSetRemoteOffer(recvonly_offer);
   1966 
   1967   EXPECT_EQ(0u, observer_.remote_streams()->count());
   1968 }
   1969 
   1970 // This tests that a default MediaStream is created if a remote session
   1971 // description doesn't contain any streams and no MSID support.
   1972 // It also tests that the default stream is updated if a video m-line is added
   1973 // in a subsequent session description.
   1974 TEST_F(PeerConnectionInterfaceTest, SdpWithoutMsidCreatesDefaultStream) {
   1975   FakeConstraints constraints;
   1976   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   1977                            true);
   1978   CreatePeerConnection(&constraints);
   1979   CreateAndSetRemoteOffer(kSdpStringWithoutStreamsAudioOnly);
   1980 
   1981   ASSERT_EQ(1u, observer_.remote_streams()->count());
   1982   MediaStreamInterface* remote_stream = observer_.remote_streams()->at(0);
   1983 
   1984   EXPECT_EQ(1u, remote_stream->GetAudioTracks().size());
   1985   EXPECT_EQ(0u, remote_stream->GetVideoTracks().size());
   1986   EXPECT_EQ("default", remote_stream->label());
   1987 
   1988   CreateAndSetRemoteOffer(kSdpStringWithoutStreams);
   1989   ASSERT_EQ(1u, observer_.remote_streams()->count());
   1990   ASSERT_EQ(1u, remote_stream->GetAudioTracks().size());
   1991   EXPECT_EQ("defaulta0", remote_stream->GetAudioTracks()[0]->id());
   1992   ASSERT_EQ(1u, remote_stream->GetVideoTracks().size());
   1993   EXPECT_EQ("defaultv0", remote_stream->GetVideoTracks()[0]->id());
   1994 }
   1995 
   1996 // This tests that a default MediaStream is created if a remote session
   1997 // description doesn't contain any streams and media direction is send only.
   1998 TEST_F(PeerConnectionInterfaceTest,
   1999        SendOnlySdpWithoutMsidCreatesDefaultStream) {
   2000   FakeConstraints constraints;
   2001   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   2002                            true);
   2003   CreatePeerConnection(&constraints);
   2004   CreateAndSetRemoteOffer(kSdpStringSendOnlyWithoutStreams);
   2005 
   2006   ASSERT_EQ(1u, observer_.remote_streams()->count());
   2007   MediaStreamInterface* remote_stream = observer_.remote_streams()->at(0);
   2008 
   2009   EXPECT_EQ(1u, remote_stream->GetAudioTracks().size());
   2010   EXPECT_EQ(1u, remote_stream->GetVideoTracks().size());
   2011   EXPECT_EQ("default", remote_stream->label());
   2012 }
   2013 
   2014 // This tests that it won't crash when PeerConnection tries to remove
   2015 // a remote track that as already been removed from the MediaStream.
   2016 TEST_F(PeerConnectionInterfaceTest, RemoveAlreadyGoneRemoteStream) {
   2017   FakeConstraints constraints;
   2018   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   2019                            true);
   2020   CreatePeerConnection(&constraints);
   2021   CreateAndSetRemoteOffer(kSdpStringWithStream1);
   2022   MediaStreamInterface* remote_stream = observer_.remote_streams()->at(0);
   2023   remote_stream->RemoveTrack(remote_stream->GetAudioTracks()[0]);
   2024   remote_stream->RemoveTrack(remote_stream->GetVideoTracks()[0]);
   2025 
   2026   CreateAndSetRemoteOffer(kSdpStringWithoutStreams);
   2027 
   2028   // No crash is a pass.
   2029 }
   2030 
   2031 // This tests that a default MediaStream is created if the remote session
   2032 // description doesn't contain any streams and don't contain an indication if
   2033 // MSID is supported.
   2034 TEST_F(PeerConnectionInterfaceTest,
   2035        SdpWithoutMsidAndStreamsCreatesDefaultStream) {
   2036   FakeConstraints constraints;
   2037   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   2038                            true);
   2039   CreatePeerConnection(&constraints);
   2040   CreateAndSetRemoteOffer(kSdpStringWithoutStreams);
   2041 
   2042   ASSERT_EQ(1u, observer_.remote_streams()->count());
   2043   MediaStreamInterface* remote_stream = observer_.remote_streams()->at(0);
   2044   EXPECT_EQ(1u, remote_stream->GetAudioTracks().size());
   2045   EXPECT_EQ(1u, remote_stream->GetVideoTracks().size());
   2046 }
   2047 
   2048 // This tests that a default MediaStream is not created if the remote session
   2049 // description doesn't contain any streams but does support MSID.
   2050 TEST_F(PeerConnectionInterfaceTest, SdpWithMsidDontCreatesDefaultStream) {
   2051   FakeConstraints constraints;
   2052   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   2053                            true);
   2054   CreatePeerConnection(&constraints);
   2055   CreateAndSetRemoteOffer(kSdpStringWithMsidWithoutStreams);
   2056   EXPECT_EQ(0u, observer_.remote_streams()->count());
   2057 }
   2058 
   2059 // This tests that when setting a new description, the old default tracks are
   2060 // not destroyed and recreated.
   2061 // See: https://bugs.chromium.org/p/webrtc/issues/detail?id=5250
   2062 TEST_F(PeerConnectionInterfaceTest, DefaultTracksNotDestroyedAndRecreated) {
   2063   FakeConstraints constraints;
   2064   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   2065                            true);
   2066   CreatePeerConnection(&constraints);
   2067   CreateAndSetRemoteOffer(kSdpStringWithoutStreamsAudioOnly);
   2068 
   2069   ASSERT_EQ(1u, observer_.remote_streams()->count());
   2070   MediaStreamInterface* remote_stream = observer_.remote_streams()->at(0);
   2071   ASSERT_EQ(1u, remote_stream->GetAudioTracks().size());
   2072 
   2073   // Set the track to "disabled", then set a new description and ensure the
   2074   // track is still disabled, which ensures it hasn't been recreated.
   2075   remote_stream->GetAudioTracks()[0]->set_enabled(false);
   2076   CreateAndSetRemoteOffer(kSdpStringWithoutStreamsAudioOnly);
   2077   ASSERT_EQ(1u, remote_stream->GetAudioTracks().size());
   2078   EXPECT_FALSE(remote_stream->GetAudioTracks()[0]->enabled());
   2079 }
   2080 
   2081 // This tests that a default MediaStream is not created if a remote session
   2082 // description is updated to not have any MediaStreams.
   2083 TEST_F(PeerConnectionInterfaceTest, VerifyDefaultStreamIsNotCreated) {
   2084   FakeConstraints constraints;
   2085   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   2086                            true);
   2087   CreatePeerConnection(&constraints);
   2088   CreateAndSetRemoteOffer(kSdpStringWithStream1);
   2089   rtc::scoped_refptr<StreamCollection> reference(CreateStreamCollection(1));
   2090   EXPECT_TRUE(
   2091       CompareStreamCollections(observer_.remote_streams(), reference.get()));
   2092 
   2093   CreateAndSetRemoteOffer(kSdpStringWithoutStreams);
   2094   EXPECT_EQ(0u, observer_.remote_streams()->count());
   2095 }
   2096 
   2097 // This tests that an RtpSender is created when the local description is set
   2098 // after adding a local stream.
   2099 // TODO(deadbeef): This test and the one below it need to be updated when
   2100 // an RtpSender's lifetime isn't determined by when a local description is set.
   2101 TEST_F(PeerConnectionInterfaceTest, LocalDescriptionChanged) {
   2102   FakeConstraints constraints;
   2103   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   2104                            true);
   2105   CreatePeerConnection(&constraints);
   2106   // Create an offer just to ensure we have an identity before we manually
   2107   // call SetLocalDescription.
   2108   rtc::scoped_ptr<SessionDescriptionInterface> throwaway;
   2109   ASSERT_TRUE(DoCreateOffer(throwaway.accept(), nullptr));
   2110 
   2111   rtc::scoped_ptr<SessionDescriptionInterface> desc_1;
   2112   CreateSessionDescriptionAndReference(2, 2, desc_1.accept());
   2113 
   2114   pc_->AddStream(reference_collection_->at(0));
   2115   EXPECT_TRUE(DoSetLocalDescription(desc_1.release()));
   2116   auto senders = pc_->GetSenders();
   2117   EXPECT_EQ(4u, senders.size());
   2118   EXPECT_TRUE(ContainsSender(senders, kAudioTracks[0]));
   2119   EXPECT_TRUE(ContainsSender(senders, kVideoTracks[0]));
   2120   EXPECT_TRUE(ContainsSender(senders, kAudioTracks[1]));
   2121   EXPECT_TRUE(ContainsSender(senders, kVideoTracks[1]));
   2122 
   2123   // Remove an audio and video track.
   2124   pc_->RemoveStream(reference_collection_->at(0));
   2125   rtc::scoped_ptr<SessionDescriptionInterface> desc_2;
   2126   CreateSessionDescriptionAndReference(1, 1, desc_2.accept());
   2127   pc_->AddStream(reference_collection_->at(0));
   2128   EXPECT_TRUE(DoSetLocalDescription(desc_2.release()));
   2129   senders = pc_->GetSenders();
   2130   EXPECT_EQ(2u, senders.size());
   2131   EXPECT_TRUE(ContainsSender(senders, kAudioTracks[0]));
   2132   EXPECT_TRUE(ContainsSender(senders, kVideoTracks[0]));
   2133   EXPECT_FALSE(ContainsSender(senders, kAudioTracks[1]));
   2134   EXPECT_FALSE(ContainsSender(senders, kVideoTracks[1]));
   2135 }
   2136 
   2137 // This tests that an RtpSender is created when the local description is set
   2138 // before adding a local stream.
   2139 TEST_F(PeerConnectionInterfaceTest,
   2140        AddLocalStreamAfterLocalDescriptionChanged) {
   2141   FakeConstraints constraints;
   2142   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   2143                            true);
   2144   CreatePeerConnection(&constraints);
   2145   // Create an offer just to ensure we have an identity before we manually
   2146   // call SetLocalDescription.
   2147   rtc::scoped_ptr<SessionDescriptionInterface> throwaway;
   2148   ASSERT_TRUE(DoCreateOffer(throwaway.accept(), nullptr));
   2149 
   2150   rtc::scoped_ptr<SessionDescriptionInterface> desc_1;
   2151   CreateSessionDescriptionAndReference(2, 2, desc_1.accept());
   2152 
   2153   EXPECT_TRUE(DoSetLocalDescription(desc_1.release()));
   2154   auto senders = pc_->GetSenders();
   2155   EXPECT_EQ(0u, senders.size());
   2156 
   2157   pc_->AddStream(reference_collection_->at(0));
   2158   senders = pc_->GetSenders();
   2159   EXPECT_EQ(4u, senders.size());
   2160   EXPECT_TRUE(ContainsSender(senders, kAudioTracks[0]));
   2161   EXPECT_TRUE(ContainsSender(senders, kVideoTracks[0]));
   2162   EXPECT_TRUE(ContainsSender(senders, kAudioTracks[1]));
   2163   EXPECT_TRUE(ContainsSender(senders, kVideoTracks[1]));
   2164 }
   2165 
   2166 // This tests that the expected behavior occurs if the SSRC on a local track is
   2167 // changed when SetLocalDescription is called.
   2168 TEST_F(PeerConnectionInterfaceTest,
   2169        ChangeSsrcOnTrackInLocalSessionDescription) {
   2170   FakeConstraints constraints;
   2171   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   2172                            true);
   2173   CreatePeerConnection(&constraints);
   2174   // Create an offer just to ensure we have an identity before we manually
   2175   // call SetLocalDescription.
   2176   rtc::scoped_ptr<SessionDescriptionInterface> throwaway;
   2177   ASSERT_TRUE(DoCreateOffer(throwaway.accept(), nullptr));
   2178 
   2179   rtc::scoped_ptr<SessionDescriptionInterface> desc;
   2180   CreateSessionDescriptionAndReference(1, 1, desc.accept());
   2181   std::string sdp;
   2182   desc->ToString(&sdp);
   2183 
   2184   pc_->AddStream(reference_collection_->at(0));
   2185   EXPECT_TRUE(DoSetLocalDescription(desc.release()));
   2186   auto senders = pc_->GetSenders();
   2187   EXPECT_EQ(2u, senders.size());
   2188   EXPECT_TRUE(ContainsSender(senders, kAudioTracks[0]));
   2189   EXPECT_TRUE(ContainsSender(senders, kVideoTracks[0]));
   2190 
   2191   // Change the ssrc of the audio and video track.
   2192   std::string ssrc_org = "a=ssrc:1";
   2193   std::string ssrc_to = "a=ssrc:97";
   2194   rtc::replace_substrs(ssrc_org.c_str(), ssrc_org.length(), ssrc_to.c_str(),
   2195                        ssrc_to.length(), &sdp);
   2196   ssrc_org = "a=ssrc:2";
   2197   ssrc_to = "a=ssrc:98";
   2198   rtc::replace_substrs(ssrc_org.c_str(), ssrc_org.length(), ssrc_to.c_str(),
   2199                        ssrc_to.length(), &sdp);
   2200   rtc::scoped_ptr<SessionDescriptionInterface> updated_desc(
   2201       webrtc::CreateSessionDescription(SessionDescriptionInterface::kOffer, sdp,
   2202                                        nullptr));
   2203 
   2204   EXPECT_TRUE(DoSetLocalDescription(updated_desc.release()));
   2205   senders = pc_->GetSenders();
   2206   EXPECT_EQ(2u, senders.size());
   2207   EXPECT_TRUE(ContainsSender(senders, kAudioTracks[0]));
   2208   EXPECT_TRUE(ContainsSender(senders, kVideoTracks[0]));
   2209   // TODO(deadbeef): Once RtpSenders expose parameters, check that the SSRC
   2210   // changed.
   2211 }
   2212 
   2213 // This tests that the expected behavior occurs if a new session description is
   2214 // set with the same tracks, but on a different MediaStream.
   2215 TEST_F(PeerConnectionInterfaceTest, SignalSameTracksInSeparateMediaStream) {
   2216   FakeConstraints constraints;
   2217   constraints.AddMandatory(webrtc::MediaConstraintsInterface::kEnableDtlsSrtp,
   2218                            true);
   2219   CreatePeerConnection(&constraints);
   2220   // Create an offer just to ensure we have an identity before we manually
   2221   // call SetLocalDescription.
   2222   rtc::scoped_ptr<SessionDescriptionInterface> throwaway;
   2223   ASSERT_TRUE(DoCreateOffer(throwaway.accept(), nullptr));
   2224 
   2225   rtc::scoped_ptr<SessionDescriptionInterface> desc;
   2226   CreateSessionDescriptionAndReference(1, 1, desc.accept());
   2227   std::string sdp;
   2228   desc->ToString(&sdp);
   2229 
   2230   pc_->AddStream(reference_collection_->at(0));
   2231   EXPECT_TRUE(DoSetLocalDescription(desc.release()));
   2232   auto senders = pc_->GetSenders();
   2233   EXPECT_EQ(2u, senders.size());
   2234   EXPECT_TRUE(ContainsSender(senders, kAudioTracks[0]));
   2235   EXPECT_TRUE(ContainsSender(senders, kVideoTracks[0]));
   2236 
   2237   // Add a new MediaStream but with the same tracks as in the first stream.
   2238   rtc::scoped_refptr<webrtc::MediaStreamInterface> stream_1(
   2239       webrtc::MediaStream::Create(kStreams[1]));
   2240   stream_1->AddTrack(reference_collection_->at(0)->GetVideoTracks()[0]);
   2241   stream_1->AddTrack(reference_collection_->at(0)->GetAudioTracks()[0]);
   2242   pc_->AddStream(stream_1);
   2243 
   2244   // Replace msid in the original SDP.
   2245   rtc::replace_substrs(kStreams[0], strlen(kStreams[0]), kStreams[1],
   2246                        strlen(kStreams[1]), &sdp);
   2247 
   2248   rtc::scoped_ptr<SessionDescriptionInterface> updated_desc(
   2249       webrtc::CreateSessionDescription(SessionDescriptionInterface::kOffer, sdp,
   2250                                        nullptr));
   2251 
   2252   EXPECT_TRUE(DoSetLocalDescription(updated_desc.release()));
   2253   senders = pc_->GetSenders();
   2254   EXPECT_EQ(2u, senders.size());
   2255   EXPECT_TRUE(ContainsSender(senders, kAudioTracks[0]));
   2256   EXPECT_TRUE(ContainsSender(senders, kVideoTracks[0]));
   2257 }
   2258 
   2259 // The following tests verify that session options are created correctly.
   2260 // TODO(deadbeef): Convert these tests to be more end-to-end. Instead of
   2261 // "verify options are converted correctly", should be "pass options into
   2262 // CreateOffer and verify the correct offer is produced."
   2263 
   2264 TEST(CreateSessionOptionsTest, GetOptionsForOfferWithInvalidAudioOption) {
   2265   RTCOfferAnswerOptions rtc_options;
   2266   rtc_options.offer_to_receive_audio = RTCOfferAnswerOptions::kUndefined - 1;
   2267 
   2268   cricket::MediaSessionOptions options;
   2269   EXPECT_FALSE(ConvertRtcOptionsForOffer(rtc_options, &options));
   2270 
   2271   rtc_options.offer_to_receive_audio =
   2272       RTCOfferAnswerOptions::kMaxOfferToReceiveMedia + 1;
   2273   EXPECT_FALSE(ConvertRtcOptionsForOffer(rtc_options, &options));
   2274 }
   2275 
   2276 TEST(CreateSessionOptionsTest, GetOptionsForOfferWithInvalidVideoOption) {
   2277   RTCOfferAnswerOptions rtc_options;
   2278   rtc_options.offer_to_receive_video = RTCOfferAnswerOptions::kUndefined - 1;
   2279 
   2280   cricket::MediaSessionOptions options;
   2281   EXPECT_FALSE(ConvertRtcOptionsForOffer(rtc_options, &options));
   2282 
   2283   rtc_options.offer_to_receive_video =
   2284       RTCOfferAnswerOptions::kMaxOfferToReceiveMedia + 1;
   2285   EXPECT_FALSE(ConvertRtcOptionsForOffer(rtc_options, &options));
   2286 }
   2287 
   2288 // Test that a MediaSessionOptions is created for an offer if
   2289 // OfferToReceiveAudio and OfferToReceiveVideo options are set.
   2290 TEST(CreateSessionOptionsTest, GetMediaSessionOptionsForOfferWithAudioVideo) {
   2291   RTCOfferAnswerOptions rtc_options;
   2292   rtc_options.offer_to_receive_audio = 1;
   2293   rtc_options.offer_to_receive_video = 1;
   2294 
   2295   cricket::MediaSessionOptions options;
   2296   EXPECT_TRUE(ConvertRtcOptionsForOffer(rtc_options, &options));
   2297   EXPECT_TRUE(options.has_audio());
   2298   EXPECT_TRUE(options.has_video());
   2299   EXPECT_TRUE(options.bundle_enabled);
   2300 }
   2301 
   2302 // Test that a correct MediaSessionOptions is created for an offer if
   2303 // OfferToReceiveAudio is set.
   2304 TEST(CreateSessionOptionsTest, GetMediaSessionOptionsForOfferWithAudio) {
   2305   RTCOfferAnswerOptions rtc_options;
   2306   rtc_options.offer_to_receive_audio = 1;
   2307 
   2308   cricket::MediaSessionOptions options;
   2309   EXPECT_TRUE(ConvertRtcOptionsForOffer(rtc_options, &options));
   2310   EXPECT_TRUE(options.has_audio());
   2311   EXPECT_FALSE(options.has_video());
   2312   EXPECT_TRUE(options.bundle_enabled);
   2313 }
   2314 
   2315 // Test that a correct MediaSessionOptions is created for an offer if
   2316 // the default OfferOptions are used.
   2317 TEST(CreateSessionOptionsTest, GetDefaultMediaSessionOptionsForOffer) {
   2318   RTCOfferAnswerOptions rtc_options;
   2319 
   2320   cricket::MediaSessionOptions options;
   2321   EXPECT_TRUE(ConvertRtcOptionsForOffer(rtc_options, &options));
   2322   EXPECT_TRUE(options.has_audio());
   2323   EXPECT_FALSE(options.has_video());
   2324   EXPECT_TRUE(options.bundle_enabled);
   2325   EXPECT_TRUE(options.vad_enabled);
   2326   EXPECT_FALSE(options.audio_transport_options.ice_restart);
   2327   EXPECT_FALSE(options.video_transport_options.ice_restart);
   2328   EXPECT_FALSE(options.data_transport_options.ice_restart);
   2329 }
   2330 
   2331 // Test that a correct MediaSessionOptions is created for an offer if
   2332 // OfferToReceiveVideo is set.
   2333 TEST(CreateSessionOptionsTest, GetMediaSessionOptionsForOfferWithVideo) {
   2334   RTCOfferAnswerOptions rtc_options;
   2335   rtc_options.offer_to_receive_audio = 0;
   2336   rtc_options.offer_to_receive_video = 1;
   2337 
   2338   cricket::MediaSessionOptions options;
   2339   EXPECT_TRUE(ConvertRtcOptionsForOffer(rtc_options, &options));
   2340   EXPECT_FALSE(options.has_audio());
   2341   EXPECT_TRUE(options.has_video());
   2342   EXPECT_TRUE(options.bundle_enabled);
   2343 }
   2344 
   2345 // Test that a correct MediaSessionOptions is created for an offer if
   2346 // UseRtpMux is set to false.
   2347 TEST(CreateSessionOptionsTest,
   2348      GetMediaSessionOptionsForOfferWithBundleDisabled) {
   2349   RTCOfferAnswerOptions rtc_options;
   2350   rtc_options.offer_to_receive_audio = 1;
   2351   rtc_options.offer_to_receive_video = 1;
   2352   rtc_options.use_rtp_mux = false;
   2353 
   2354   cricket::MediaSessionOptions options;
   2355   EXPECT_TRUE(ConvertRtcOptionsForOffer(rtc_options, &options));
   2356   EXPECT_TRUE(options.has_audio());
   2357   EXPECT_TRUE(options.has_video());
   2358   EXPECT_FALSE(options.bundle_enabled);
   2359 }
   2360 
   2361 // Test that a correct MediaSessionOptions is created to restart ice if
   2362 // IceRestart is set. It also tests that subsequent MediaSessionOptions don't
   2363 // have |audio_transport_options.ice_restart| etc. set.
   2364 TEST(CreateSessionOptionsTest, GetMediaSessionOptionsForOfferWithIceRestart) {
   2365   RTCOfferAnswerOptions rtc_options;
   2366   rtc_options.ice_restart = true;
   2367 
   2368   cricket::MediaSessionOptions options;
   2369   EXPECT_TRUE(ConvertRtcOptionsForOffer(rtc_options, &options));
   2370   EXPECT_TRUE(options.audio_transport_options.ice_restart);
   2371   EXPECT_TRUE(options.video_transport_options.ice_restart);
   2372   EXPECT_TRUE(options.data_transport_options.ice_restart);
   2373 
   2374   rtc_options = RTCOfferAnswerOptions();
   2375   EXPECT_TRUE(ConvertRtcOptionsForOffer(rtc_options, &options));
   2376   EXPECT_FALSE(options.audio_transport_options.ice_restart);
   2377   EXPECT_FALSE(options.video_transport_options.ice_restart);
   2378   EXPECT_FALSE(options.data_transport_options.ice_restart);
   2379 }
   2380 
   2381 // Test that the MediaConstraints in an answer don't affect if audio and video
   2382 // is offered in an offer but that if kOfferToReceiveAudio or
   2383 // kOfferToReceiveVideo constraints are true in an offer, the media type will be
   2384 // included in subsequent answers.
   2385 TEST(CreateSessionOptionsTest, MediaConstraintsInAnswer) {
   2386   FakeConstraints answer_c;
   2387   answer_c.SetMandatoryReceiveAudio(true);
   2388   answer_c.SetMandatoryReceiveVideo(true);
   2389 
   2390   cricket::MediaSessionOptions answer_options;
   2391   EXPECT_TRUE(ParseConstraintsForAnswer(&answer_c, &answer_options));
   2392   EXPECT_TRUE(answer_options.has_audio());
   2393   EXPECT_TRUE(answer_options.has_video());
   2394 
   2395   RTCOfferAnswerOptions rtc_offer_options;
   2396 
   2397   cricket::MediaSessionOptions offer_options;
   2398   EXPECT_TRUE(ConvertRtcOptionsForOffer(rtc_offer_options, &offer_options));
   2399   EXPECT_TRUE(offer_options.has_audio());
   2400   EXPECT_FALSE(offer_options.has_video());
   2401 
   2402   RTCOfferAnswerOptions updated_rtc_offer_options;
   2403   updated_rtc_offer_options.offer_to_receive_audio = 1;
   2404   updated_rtc_offer_options.offer_to_receive_video = 1;
   2405 
   2406   cricket::MediaSessionOptions updated_offer_options;
   2407   EXPECT_TRUE(ConvertRtcOptionsForOffer(updated_rtc_offer_options,
   2408                                         &updated_offer_options));
   2409   EXPECT_TRUE(updated_offer_options.has_audio());
   2410   EXPECT_TRUE(updated_offer_options.has_video());
   2411 
   2412   // Since an offer has been created with both audio and video, subsequent
   2413   // offers and answers should contain both audio and video.
   2414   // Answers will only contain the media types that exist in the offer
   2415   // regardless of the value of |updated_answer_options.has_audio| and
   2416   // |updated_answer_options.has_video|.
   2417   FakeConstraints updated_answer_c;
   2418   answer_c.SetMandatoryReceiveAudio(false);
   2419   answer_c.SetMandatoryReceiveVideo(false);
   2420 
   2421   cricket::MediaSessionOptions updated_answer_options;
   2422   EXPECT_TRUE(
   2423       ParseConstraintsForAnswer(&updated_answer_c, &updated_answer_options));
   2424   EXPECT_TRUE(updated_answer_options.has_audio());
   2425   EXPECT_TRUE(updated_answer_options.has_video());
   2426 }
   2427