/* * libjingle * Copyright 2012, Google Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "talk/app/webrtc/webrtcsession.h" #include #include #include #include "talk/app/webrtc/jsepicecandidate.h" #include "talk/app/webrtc/jsepsessiondescription.h" #include "talk/app/webrtc/mediaconstraintsinterface.h" #include "talk/app/webrtc/mediastreamsignaling.h" #include "talk/app/webrtc/peerconnectioninterface.h" #include "talk/app/webrtc/webrtcsessiondescriptionfactory.h" #include "talk/media/base/constants.h" #include "talk/media/base/videocapturer.h" #include "talk/session/media/channel.h" #include "talk/session/media/channelmanager.h" #include "talk/session/media/mediasession.h" #include "webrtc/base/basictypes.h" #include "webrtc/base/helpers.h" #include "webrtc/base/logging.h" #include "webrtc/base/stringencode.h" #include "webrtc/base/stringutils.h" using cricket::ContentInfo; using cricket::ContentInfos; using cricket::MediaContentDescription; using cricket::SessionDescription; using cricket::TransportInfo; namespace webrtc { // Error messages const char kBundleWithoutRtcpMux[] = "RTCP-MUX must be enabled when BUNDLE " "is enabled."; const char kCreateChannelFailed[] = "Failed to create channels."; const char kInvalidCandidates[] = "Description contains invalid candidates."; const char kInvalidSdp[] = "Invalid session description."; const char kMlineMismatch[] = "Offer and answer descriptions m-lines are not matching. Rejecting answer."; const char kPushDownTDFailed[] = "Failed to push down transport description:"; const char kSdpWithoutDtlsFingerprint[] = "Called with SDP without DTLS fingerprint."; const char kSdpWithoutSdesCrypto[] = "Called with SDP without SDES crypto."; const char kSdpWithoutIceUfragPwd[] = "Called with SDP without ice-ufrag and ice-pwd."; const char kSessionError[] = "Session error code: "; const char kSessionErrorDesc[] = "Session error description: "; const int kMaxUnsignalledRecvStreams = 20; // Compares |answer| against |offer|. Comparision is done // for number of m-lines in answer against offer. If matches true will be // returned otherwise false. static bool VerifyMediaDescriptions( const SessionDescription* answer, const SessionDescription* offer) { if (offer->contents().size() != answer->contents().size()) return false; for (size_t i = 0; i < offer->contents().size(); ++i) { if ((offer->contents()[i].name) != answer->contents()[i].name) { return false; } const MediaContentDescription* offer_mdesc = static_cast( offer->contents()[i].description); const MediaContentDescription* answer_mdesc = static_cast( answer->contents()[i].description); if (offer_mdesc->type() != answer_mdesc->type()) { return false; } } return true; } // Checks that each non-rejected content has SDES crypto keys or a DTLS // fingerprint. Mismatches, such as replying with a DTLS fingerprint to SDES // keys, will be caught in Transport negotiation, and backstopped by Channel's // |secure_required| check. static bool VerifyCrypto(const SessionDescription* desc, bool dtls_enabled, std::string* error) { const ContentInfos& contents = desc->contents(); for (size_t index = 0; index < contents.size(); ++index) { const ContentInfo* cinfo = &contents[index]; if (cinfo->rejected) { continue; } // If the content isn't rejected, crypto must be present. const MediaContentDescription* media = static_cast(cinfo->description); const TransportInfo* tinfo = desc->GetTransportInfoByName(cinfo->name); if (!media || !tinfo) { // Something is not right. LOG(LS_ERROR) << kInvalidSdp; *error = kInvalidSdp; return false; } if (dtls_enabled) { if (!tinfo->description.identity_fingerprint) { LOG(LS_WARNING) << "Session description must have DTLS fingerprint if DTLS enabled."; *error = kSdpWithoutDtlsFingerprint; return false; } } else { if (media->cryptos().empty()) { LOG(LS_WARNING) << "Session description must have SDES when DTLS disabled."; *error = kSdpWithoutSdesCrypto; return false; } } } return true; } // Checks that each non-rejected content has ice-ufrag and ice-pwd set. static bool VerifyIceUfragPwdPresent(const SessionDescription* desc) { const ContentInfos& contents = desc->contents(); for (size_t index = 0; index < contents.size(); ++index) { const ContentInfo* cinfo = &contents[index]; if (cinfo->rejected) { continue; } // If the content isn't rejected, ice-ufrag and ice-pwd must be present. const TransportInfo* tinfo = desc->GetTransportInfoByName(cinfo->name); if (!tinfo) { // Something is not right. LOG(LS_ERROR) << kInvalidSdp; return false; } if (tinfo->description.ice_ufrag.empty() || tinfo->description.ice_pwd.empty()) { LOG(LS_ERROR) << "Session description must have ice ufrag and pwd."; return false; } } return true; } // Forces |sdesc->crypto_required| to the appropriate state based on the // current security policy, to ensure a failure occurs if there is an error // in crypto negotiation. // Called when processing the local session description. static void UpdateSessionDescriptionSecurePolicy(cricket::CryptoType type, SessionDescription* sdesc) { if (!sdesc) { return; } // Updating the |crypto_required_| in MediaContentDescription to the // appropriate state based on the current security policy. for (cricket::ContentInfos::iterator iter = sdesc->contents().begin(); iter != sdesc->contents().end(); ++iter) { if (cricket::IsMediaContent(&*iter)) { MediaContentDescription* mdesc = static_cast (iter->description); if (mdesc) { mdesc->set_crypto_required(type); } } } } static bool GetAudioSsrcByTrackId( const SessionDescription* session_description, const std::string& track_id, uint32 *ssrc) { const cricket::ContentInfo* audio_info = cricket::GetFirstAudioContent(session_description); if (!audio_info) { LOG(LS_ERROR) << "Audio not used in this call"; return false; } const cricket::MediaContentDescription* audio_content = static_cast( audio_info->description); cricket::StreamParams stream; if (!cricket::GetStreamByIds(audio_content->streams(), "", track_id, &stream)) { return false; } *ssrc = stream.first_ssrc(); return true; } static bool GetTrackIdBySsrc(const SessionDescription* session_description, uint32 ssrc, std::string* track_id) { ASSERT(track_id != NULL); cricket::StreamParams stream_out; const cricket::ContentInfo* audio_info = cricket::GetFirstAudioContent(session_description); if (audio_info) { const cricket::MediaContentDescription* audio_content = static_cast( audio_info->description); if (cricket::GetStreamBySsrc(audio_content->streams(), ssrc, &stream_out)) { *track_id = stream_out.id; return true; } } const cricket::ContentInfo* video_info = cricket::GetFirstVideoContent(session_description); if (video_info) { const cricket::MediaContentDescription* video_content = static_cast( video_info->description); if (cricket::GetStreamBySsrc(video_content->streams(), ssrc, &stream_out)) { *track_id = stream_out.id; return true; } } return false; } static bool BadSdp(const std::string& source, const std::string& type, const std::string& reason, std::string* err_desc) { std::ostringstream desc; desc << "Failed to set " << source << " " << type << " sdp: " << reason; if (err_desc) { *err_desc = desc.str(); } LOG(LS_ERROR) << desc.str(); return false; } static bool BadSdp(cricket::ContentSource source, const std::string& type, const std::string& reason, std::string* err_desc) { if (source == cricket::CS_LOCAL) { return BadSdp("local", type, reason, err_desc); } else { return BadSdp("remote", type, reason, err_desc); } } static bool BadLocalSdp(const std::string& type, const std::string& reason, std::string* err_desc) { return BadSdp(cricket::CS_LOCAL, type, reason, err_desc); } static bool BadRemoteSdp(const std::string& type, const std::string& reason, std::string* err_desc) { return BadSdp(cricket::CS_REMOTE, type, reason, err_desc); } static bool BadOfferSdp(cricket::ContentSource source, const std::string& reason, std::string* err_desc) { return BadSdp(source, SessionDescriptionInterface::kOffer, reason, err_desc); } static bool BadPranswerSdp(cricket::ContentSource source, const std::string& reason, std::string* err_desc) { return BadSdp(source, SessionDescriptionInterface::kPrAnswer, reason, err_desc); } static bool BadAnswerSdp(cricket::ContentSource source, const std::string& reason, std::string* err_desc) { return BadSdp(source, SessionDescriptionInterface::kAnswer, reason, err_desc); } #define GET_STRING_OF_STATE(state) \ case cricket::BaseSession::state: \ result = #state; \ break; static std::string GetStateString(cricket::BaseSession::State state) { std::string result; switch (state) { GET_STRING_OF_STATE(STATE_INIT) GET_STRING_OF_STATE(STATE_SENTINITIATE) GET_STRING_OF_STATE(STATE_RECEIVEDINITIATE) GET_STRING_OF_STATE(STATE_SENTPRACCEPT) GET_STRING_OF_STATE(STATE_SENTACCEPT) GET_STRING_OF_STATE(STATE_RECEIVEDPRACCEPT) GET_STRING_OF_STATE(STATE_RECEIVEDACCEPT) GET_STRING_OF_STATE(STATE_SENTMODIFY) GET_STRING_OF_STATE(STATE_RECEIVEDMODIFY) GET_STRING_OF_STATE(STATE_SENTREJECT) GET_STRING_OF_STATE(STATE_RECEIVEDREJECT) GET_STRING_OF_STATE(STATE_SENTREDIRECT) GET_STRING_OF_STATE(STATE_SENTTERMINATE) GET_STRING_OF_STATE(STATE_RECEIVEDTERMINATE) GET_STRING_OF_STATE(STATE_INPROGRESS) GET_STRING_OF_STATE(STATE_DEINIT) default: ASSERT(false); break; } return result; } #define GET_STRING_OF_ERROR_CODE(err) \ case cricket::BaseSession::err: \ result = #err; \ break; static std::string GetErrorCodeString(cricket::BaseSession::Error err) { std::string result; switch (err) { GET_STRING_OF_ERROR_CODE(ERROR_NONE) GET_STRING_OF_ERROR_CODE(ERROR_TIME) GET_STRING_OF_ERROR_CODE(ERROR_RESPONSE) GET_STRING_OF_ERROR_CODE(ERROR_NETWORK) GET_STRING_OF_ERROR_CODE(ERROR_CONTENT) GET_STRING_OF_ERROR_CODE(ERROR_TRANSPORT) default: ASSERT(false); break; } return result; } static std::string MakeErrorString(const std::string& error, const std::string& desc) { std::ostringstream ret; ret << error << " " << desc; return ret.str(); } static std::string MakeTdErrorString(const std::string& desc) { return MakeErrorString(kPushDownTDFailed, desc); } // Set |option| to the highest-priority value of |key| in the optional // constraints if the key is found and has a valid value. template static void SetOptionFromOptionalConstraint( const MediaConstraintsInterface* constraints, const std::string& key, cricket::Settable* option) { if (!constraints) { return; } std::string string_value; T value; if (constraints->GetOptional().FindFirst(key, &string_value)) { if (rtc::FromString(string_value, &value)) { option->Set(value); } } } uint32 ConvertIceTransportTypeToCandidateFilter( PeerConnectionInterface::IceTransportsType type) { switch (type) { case PeerConnectionInterface::kNone: return cricket::CF_NONE; case PeerConnectionInterface::kRelay: return cricket::CF_RELAY; case PeerConnectionInterface::kNoHost: return (cricket::CF_ALL & ~cricket::CF_HOST); case PeerConnectionInterface::kAll: return cricket::CF_ALL; default: ASSERT(false); } return cricket::CF_NONE; } // Help class used to remember if a a remote peer has requested ice restart by // by sending a description with new ice ufrag and password. class IceRestartAnswerLatch { public: IceRestartAnswerLatch() : ice_restart_(false) { } // Returns true if CheckForRemoteIceRestart has been called with a new session // description where ice password and ufrag has changed since last time // Reset() was called. bool Get() const { return ice_restart_; } void Reset() { if (ice_restart_) { ice_restart_ = false; } } void CheckForRemoteIceRestart( const SessionDescriptionInterface* old_desc, const SessionDescriptionInterface* new_desc) { if (!old_desc || new_desc->type() != SessionDescriptionInterface::kOffer) { return; } const SessionDescription* new_sd = new_desc->description(); const SessionDescription* old_sd = old_desc->description(); const ContentInfos& contents = new_sd->contents(); for (size_t index = 0; index < contents.size(); ++index) { const ContentInfo* cinfo = &contents[index]; if (cinfo->rejected) { continue; } // If the content isn't rejected, check if ufrag and password has // changed. const cricket::TransportDescription* new_transport_desc = new_sd->GetTransportDescriptionByName(cinfo->name); const cricket::TransportDescription* old_transport_desc = old_sd->GetTransportDescriptionByName(cinfo->name); if (!new_transport_desc || !old_transport_desc) { // No transport description exist. This is not an ice restart. continue; } if (cricket::IceCredentialsChanged(old_transport_desc->ice_ufrag, old_transport_desc->ice_pwd, new_transport_desc->ice_ufrag, new_transport_desc->ice_pwd)) { LOG(LS_INFO) << "Remote peer request ice restart."; ice_restart_ = true; break; } } } private: bool ice_restart_; }; WebRtcSession::WebRtcSession( cricket::ChannelManager* channel_manager, rtc::Thread* signaling_thread, rtc::Thread* worker_thread, cricket::PortAllocator* port_allocator, MediaStreamSignaling* mediastream_signaling) : cricket::BaseSession(signaling_thread, worker_thread, port_allocator, rtc::ToString(rtc::CreateRandomId64() & LLONG_MAX), cricket::NS_JINGLE_RTP, false), // RFC 3264: The numeric value of the session id and version in the // o line MUST be representable with a "64 bit signed integer". // Due to this constraint session id |sid_| is max limited to LLONG_MAX. channel_manager_(channel_manager), mediastream_signaling_(mediastream_signaling), ice_observer_(NULL), ice_connection_state_(PeerConnectionInterface::kIceConnectionNew), older_version_remote_peer_(false), dtls_enabled_(false), data_channel_type_(cricket::DCT_NONE), ice_restart_latch_(new IceRestartAnswerLatch) { } WebRtcSession::~WebRtcSession() { // Destroy video_channel_ first since it may have a pointer to the // voice_channel_. if (video_channel_.get()) { SignalVideoChannelDestroyed(); channel_manager_->DestroyVideoChannel(video_channel_.release()); } if (voice_channel_.get()) { SignalVoiceChannelDestroyed(); channel_manager_->DestroyVoiceChannel(voice_channel_.release()); } if (data_channel_.get()) { SignalDataChannelDestroyed(); channel_manager_->DestroyDataChannel(data_channel_.release()); } for (size_t i = 0; i < saved_candidates_.size(); ++i) { delete saved_candidates_[i]; } delete identity(); } bool WebRtcSession::Initialize( const PeerConnectionFactoryInterface::Options& options, const MediaConstraintsInterface* constraints, DTLSIdentityServiceInterface* dtls_identity_service, PeerConnectionInterface::IceTransportsType ice_transport) { // TODO(perkj): Take |constraints| into consideration. Return false if not all // mandatory constraints can be fulfilled. Note that |constraints| // can be null. bool value; if (options.disable_encryption) { dtls_enabled_ = false; } else { // Enable DTLS by default if |dtls_identity_service| is valid. dtls_enabled_ = (dtls_identity_service != NULL); // |constraints| can override the default |dtls_enabled_| value. if (FindConstraint( constraints, MediaConstraintsInterface::kEnableDtlsSrtp, &value, NULL)) { dtls_enabled_ = value; } } // Enable creation of RTP data channels if the kEnableRtpDataChannels is set. // It takes precendence over the disable_sctp_data_channels // PeerConnectionFactoryInterface::Options. if (FindConstraint( constraints, MediaConstraintsInterface::kEnableRtpDataChannels, &value, NULL) && value) { LOG(LS_INFO) << "Allowing RTP data engine."; data_channel_type_ = cricket::DCT_RTP; } else { // DTLS has to be enabled to use SCTP. if (!options.disable_sctp_data_channels && dtls_enabled_) { LOG(LS_INFO) << "Allowing SCTP data engine."; data_channel_type_ = cricket::DCT_SCTP; } } if (data_channel_type_ != cricket::DCT_NONE) { mediastream_signaling_->SetDataChannelFactory(this); } // Find DSCP constraint. if (FindConstraint( constraints, MediaConstraintsInterface::kEnableDscp, &value, NULL)) { audio_options_.dscp.Set(value); video_options_.dscp.Set(value); } // Find Suspend Below Min Bitrate constraint. if (FindConstraint( constraints, MediaConstraintsInterface::kEnableVideoSuspendBelowMinBitrate, &value, NULL)) { video_options_.suspend_below_min_bitrate.Set(value); } SetOptionFromOptionalConstraint(constraints, MediaConstraintsInterface::kScreencastMinBitrate, &video_options_.screencast_min_bitrate); // Find constraints for cpu overuse detection. SetOptionFromOptionalConstraint(constraints, MediaConstraintsInterface::kCpuUnderuseThreshold, &video_options_.cpu_underuse_threshold); SetOptionFromOptionalConstraint(constraints, MediaConstraintsInterface::kCpuOveruseThreshold, &video_options_.cpu_overuse_threshold); SetOptionFromOptionalConstraint(constraints, MediaConstraintsInterface::kCpuOveruseDetection, &video_options_.cpu_overuse_detection); SetOptionFromOptionalConstraint(constraints, MediaConstraintsInterface::kCpuOveruseEncodeUsage, &video_options_.cpu_overuse_encode_usage); SetOptionFromOptionalConstraint(constraints, MediaConstraintsInterface::kCpuUnderuseEncodeRsdThreshold, &video_options_.cpu_underuse_encode_rsd_threshold); SetOptionFromOptionalConstraint(constraints, MediaConstraintsInterface::kCpuOveruseEncodeRsdThreshold, &video_options_.cpu_overuse_encode_rsd_threshold); // Find payload padding constraint. SetOptionFromOptionalConstraint(constraints, MediaConstraintsInterface::kPayloadPadding, &video_options_.use_payload_padding); SetOptionFromOptionalConstraint(constraints, MediaConstraintsInterface::kNumUnsignalledRecvStreams, &video_options_.unsignalled_recv_stream_limit); if (video_options_.unsignalled_recv_stream_limit.IsSet()) { int stream_limit; video_options_.unsignalled_recv_stream_limit.Get(&stream_limit); stream_limit = rtc::_min(kMaxUnsignalledRecvStreams, stream_limit); stream_limit = rtc::_max(0, stream_limit); video_options_.unsignalled_recv_stream_limit.Set(stream_limit); } SetOptionFromOptionalConstraint(constraints, MediaConstraintsInterface::kHighStartBitrate, &video_options_.video_start_bitrate); if (FindConstraint( constraints, MediaConstraintsInterface::kVeryHighBitrate, &value, NULL)) { video_options_.video_highest_bitrate.Set( cricket::VideoOptions::VERY_HIGH); } else if (FindConstraint( constraints, MediaConstraintsInterface::kHighBitrate, &value, NULL)) { video_options_.video_highest_bitrate.Set( cricket::VideoOptions::HIGH); } SetOptionFromOptionalConstraint(constraints, MediaConstraintsInterface::kCombinedAudioVideoBwe, &audio_options_.combined_audio_video_bwe); const cricket::VideoCodec default_codec( JsepSessionDescription::kDefaultVideoCodecId, JsepSessionDescription::kDefaultVideoCodecName, JsepSessionDescription::kMaxVideoCodecWidth, JsepSessionDescription::kMaxVideoCodecHeight, JsepSessionDescription::kDefaultVideoCodecFramerate, JsepSessionDescription::kDefaultVideoCodecPreference); channel_manager_->SetDefaultVideoEncoderConfig( cricket::VideoEncoderConfig(default_codec)); webrtc_session_desc_factory_.reset(new WebRtcSessionDescriptionFactory( signaling_thread(), channel_manager_, mediastream_signaling_, dtls_identity_service, this, id(), data_channel_type_, dtls_enabled_)); webrtc_session_desc_factory_->SignalIdentityReady.connect( this, &WebRtcSession::OnIdentityReady); if (options.disable_encryption) { webrtc_session_desc_factory_->SetSdesPolicy(cricket::SEC_DISABLED); } port_allocator()->set_candidate_filter( ConvertIceTransportTypeToCandidateFilter(ice_transport)); return true; } void WebRtcSession::Terminate() { SetState(STATE_RECEIVEDTERMINATE); RemoveUnusedChannelsAndTransports(NULL); ASSERT(voice_channel_.get() == NULL); ASSERT(video_channel_.get() == NULL); ASSERT(data_channel_.get() == NULL); } bool WebRtcSession::StartCandidatesAllocation() { // SpeculativelyConnectTransportChannels, will call ConnectChannels method // from TransportProxy to start gathering ice candidates. SpeculativelyConnectAllTransportChannels(); if (!saved_candidates_.empty()) { // If there are saved candidates which arrived before local description is // set, copy those to remote description. CopySavedCandidates(remote_desc_.get()); } // Push remote candidates present in remote description to transport channels. UseCandidatesInSessionDescription(remote_desc_.get()); return true; } void WebRtcSession::SetSdesPolicy(cricket::SecurePolicy secure_policy) { webrtc_session_desc_factory_->SetSdesPolicy(secure_policy); } cricket::SecurePolicy WebRtcSession::SdesPolicy() const { return webrtc_session_desc_factory_->SdesPolicy(); } bool WebRtcSession::GetSslRole(rtc::SSLRole* role) { if (local_description() == NULL || remote_description() == NULL) { LOG(LS_INFO) << "Local and Remote descriptions must be applied to get " << "SSL Role of the session."; return false; } // TODO(mallinath) - Return role of each transport, as role may differ from // one another. // In current implementaion we just return the role of first transport in the // transport map. for (cricket::TransportMap::const_iterator iter = transport_proxies().begin(); iter != transport_proxies().end(); ++iter) { if (iter->second->impl()) { return iter->second->impl()->GetSslRole(role); } } return false; } void WebRtcSession::CreateOffer( CreateSessionDescriptionObserver* observer, const PeerConnectionInterface::RTCOfferAnswerOptions& options) { webrtc_session_desc_factory_->CreateOffer(observer, options); } void WebRtcSession::CreateAnswer(CreateSessionDescriptionObserver* observer, const MediaConstraintsInterface* constraints) { webrtc_session_desc_factory_->CreateAnswer(observer, constraints); } bool WebRtcSession::SetLocalDescription(SessionDescriptionInterface* desc, std::string* err_desc) { // Takes the ownership of |desc| regardless of the result. rtc::scoped_ptr desc_temp(desc); // Validate SDP. if (!ValidateSessionDescription(desc, cricket::CS_LOCAL, err_desc)) { return false; } // Update the initiator flag if this session is the initiator. Action action = GetAction(desc->type()); if (state() == STATE_INIT && action == kOffer) { set_initiator(true); } cricket::SecurePolicy sdes_policy = webrtc_session_desc_factory_->SdesPolicy(); cricket::CryptoType crypto_required = dtls_enabled_ ? cricket::CT_DTLS : (sdes_policy == cricket::SEC_REQUIRED ? cricket::CT_SDES : cricket::CT_NONE); // Update the MediaContentDescription crypto settings as per the policy set. UpdateSessionDescriptionSecurePolicy(crypto_required, desc->description()); set_local_description(desc->description()->Copy()); local_desc_.reset(desc_temp.release()); // Transport and Media channels will be created only when offer is set. if (action == kOffer && !CreateChannels(local_desc_->description())) { // TODO(mallinath) - Handle CreateChannel failure, as new local description // is applied. Restore back to old description. return BadLocalSdp(desc->type(), kCreateChannelFailed, err_desc); } // Remove channel and transport proxies, if MediaContentDescription is // rejected. RemoveUnusedChannelsAndTransports(local_desc_->description()); if (!UpdateSessionState(action, cricket::CS_LOCAL, err_desc)) { return false; } // Kick starting the ice candidates allocation. StartCandidatesAllocation(); // Update state and SSRC of local MediaStreams and DataChannels based on the // local session description. mediastream_signaling_->OnLocalDescriptionChanged(local_desc_.get()); rtc::SSLRole role; if (data_channel_type_ == cricket::DCT_SCTP && GetSslRole(&role)) { mediastream_signaling_->OnDtlsRoleReadyForSctp(role); } if (error() != cricket::BaseSession::ERROR_NONE) { return BadLocalSdp(desc->type(), GetSessionErrorMsg(), err_desc); } return true; } bool WebRtcSession::SetRemoteDescription(SessionDescriptionInterface* desc, std::string* err_desc) { // Takes the ownership of |desc| regardless of the result. rtc::scoped_ptr desc_temp(desc); // Validate SDP. if (!ValidateSessionDescription(desc, cricket::CS_REMOTE, err_desc)) { return false; } // Transport and Media channels will be created only when offer is set. Action action = GetAction(desc->type()); if (action == kOffer && !CreateChannels(desc->description())) { // TODO(mallinath) - Handle CreateChannel failure, as new local description // is applied. Restore back to old description. return BadRemoteSdp(desc->type(), kCreateChannelFailed, err_desc); } // Remove channel and transport proxies, if MediaContentDescription is // rejected. RemoveUnusedChannelsAndTransports(desc->description()); // NOTE: Candidates allocation will be initiated only when SetLocalDescription // is called. set_remote_description(desc->description()->Copy()); if (!UpdateSessionState(action, cricket::CS_REMOTE, err_desc)) { return false; } // Update remote MediaStreams. mediastream_signaling_->OnRemoteDescriptionChanged(desc); if (local_description() && !UseCandidatesInSessionDescription(desc)) { return BadRemoteSdp(desc->type(), kInvalidCandidates, err_desc); } // Copy all saved candidates. CopySavedCandidates(desc); // We retain all received candidates. WebRtcSessionDescriptionFactory::CopyCandidatesFromSessionDescription( remote_desc_.get(), desc); // Check if this new SessionDescription contains new ice ufrag and password // that indicates the remote peer requests ice restart. ice_restart_latch_->CheckForRemoteIceRestart(remote_desc_.get(), desc); remote_desc_.reset(desc_temp.release()); rtc::SSLRole role; if (data_channel_type_ == cricket::DCT_SCTP && GetSslRole(&role)) { mediastream_signaling_->OnDtlsRoleReadyForSctp(role); } if (error() != cricket::BaseSession::ERROR_NONE) { return BadRemoteSdp(desc->type(), GetSessionErrorMsg(), err_desc); } return true; } bool WebRtcSession::UpdateSessionState( Action action, cricket::ContentSource source, std::string* err_desc) { // If there's already a pending error then no state transition should happen. // But all call-sites should be verifying this before calling us! ASSERT(error() == cricket::BaseSession::ERROR_NONE); std::string td_err; if (action == kOffer) { if (!PushdownTransportDescription(source, cricket::CA_OFFER, &td_err)) { return BadOfferSdp(source, MakeTdErrorString(td_err), err_desc); } SetState(source == cricket::CS_LOCAL ? STATE_SENTINITIATE : STATE_RECEIVEDINITIATE); if (error() != cricket::BaseSession::ERROR_NONE) { return BadOfferSdp(source, GetSessionErrorMsg(), err_desc); } } else if (action == kPrAnswer) { if (!PushdownTransportDescription(source, cricket::CA_PRANSWER, &td_err)) { return BadPranswerSdp(source, MakeTdErrorString(td_err), err_desc); } EnableChannels(); SetState(source == cricket::CS_LOCAL ? STATE_SENTPRACCEPT : STATE_RECEIVEDPRACCEPT); if (error() != cricket::BaseSession::ERROR_NONE) { return BadPranswerSdp(source, GetSessionErrorMsg(), err_desc); } } else if (action == kAnswer) { if (!PushdownTransportDescription(source, cricket::CA_ANSWER, &td_err)) { return BadAnswerSdp(source, MakeTdErrorString(td_err), err_desc); } MaybeEnableMuxingSupport(); EnableChannels(); SetState(source == cricket::CS_LOCAL ? STATE_SENTACCEPT : STATE_RECEIVEDACCEPT); if (error() != cricket::BaseSession::ERROR_NONE) { return BadAnswerSdp(source, GetSessionErrorMsg(), err_desc); } } return true; } WebRtcSession::Action WebRtcSession::GetAction(const std::string& type) { if (type == SessionDescriptionInterface::kOffer) { return WebRtcSession::kOffer; } else if (type == SessionDescriptionInterface::kPrAnswer) { return WebRtcSession::kPrAnswer; } else if (type == SessionDescriptionInterface::kAnswer) { return WebRtcSession::kAnswer; } ASSERT(false && "unknown action type"); return WebRtcSession::kOffer; } bool WebRtcSession::ProcessIceMessage(const IceCandidateInterface* candidate) { if (state() == STATE_INIT) { LOG(LS_ERROR) << "ProcessIceMessage: ICE candidates can't be added " << "without any offer (local or remote) " << "session description."; return false; } if (!candidate) { LOG(LS_ERROR) << "ProcessIceMessage: Candidate is NULL"; return false; } bool valid = false; if (!ReadyToUseRemoteCandidate(candidate, NULL, &valid)) { if (valid) { LOG(LS_INFO) << "ProcessIceMessage: Candidate saved"; saved_candidates_.push_back( new JsepIceCandidate(candidate->sdp_mid(), candidate->sdp_mline_index(), candidate->candidate())); } return valid; } // Add this candidate to the remote session description. if (!remote_desc_->AddCandidate(candidate)) { LOG(LS_ERROR) << "ProcessIceMessage: Candidate cannot be used"; return false; } return UseCandidate(candidate); } bool WebRtcSession::SetIceTransports( PeerConnectionInterface::IceTransportsType type) { return port_allocator()->set_candidate_filter( ConvertIceTransportTypeToCandidateFilter(type)); } bool WebRtcSession::GetLocalTrackIdBySsrc(uint32 ssrc, std::string* track_id) { if (!BaseSession::local_description()) return false; return webrtc::GetTrackIdBySsrc( BaseSession::local_description(), ssrc, track_id); } bool WebRtcSession::GetRemoteTrackIdBySsrc(uint32 ssrc, std::string* track_id) { if (!BaseSession::remote_description()) return false; return webrtc::GetTrackIdBySsrc( BaseSession::remote_description(), ssrc, track_id); } std::string WebRtcSession::BadStateErrMsg(State state) { std::ostringstream desc; desc << "Called in wrong state: " << GetStateString(state); return desc.str(); } void WebRtcSession::SetAudioPlayout(uint32 ssrc, bool enable, cricket::AudioRenderer* renderer) { ASSERT(signaling_thread()->IsCurrent()); if (!voice_channel_) { LOG(LS_ERROR) << "SetAudioPlayout: No audio channel exists."; return; } if (!voice_channel_->SetRemoteRenderer(ssrc, renderer)) { // SetRenderer() can fail if the ssrc does not match any playout channel. LOG(LS_ERROR) << "SetAudioPlayout: ssrc is incorrect: " << ssrc; return; } if (!voice_channel_->SetOutputScaling(ssrc, enable ? 1 : 0, enable ? 1 : 0)) { // Allow that SetOutputScaling fail if |enable| is false but assert // otherwise. This in the normal case when the underlying media channel has // already been deleted. ASSERT(enable == false); } } void WebRtcSession::SetAudioSend(uint32 ssrc, bool enable, const cricket::AudioOptions& options, cricket::AudioRenderer* renderer) { ASSERT(signaling_thread()->IsCurrent()); if (!voice_channel_) { LOG(LS_ERROR) << "SetAudioSend: No audio channel exists."; return; } if (!voice_channel_->SetLocalRenderer(ssrc, renderer)) { // SetRenderer() can fail if the ssrc does not match any send channel. LOG(LS_ERROR) << "SetAudioSend: ssrc is incorrect: " << ssrc; return; } if (!voice_channel_->MuteStream(ssrc, !enable)) { // Allow that MuteStream fail if |enable| is false but assert otherwise. // This in the normal case when the underlying media channel has already // been deleted. ASSERT(enable == false); return; } if (enable) voice_channel_->SetChannelOptions(options); } void WebRtcSession::SetAudioPlayoutVolume(uint32 ssrc, double volume) { ASSERT(signaling_thread()->IsCurrent()); ASSERT(volume >= 0 && volume <= 10); if (!voice_channel_) { LOG(LS_ERROR) << "SetAudioPlayoutVolume: No audio channel exists."; return; } if (!voice_channel_->SetOutputScaling(ssrc, volume, volume)) ASSERT(false); } bool WebRtcSession::SetCaptureDevice(uint32 ssrc, cricket::VideoCapturer* camera) { ASSERT(signaling_thread()->IsCurrent()); if (!video_channel_.get()) { // |video_channel_| doesnt't exist. Probably because the remote end doesnt't // support video. LOG(LS_WARNING) << "Video not used in this call."; return false; } if (!video_channel_->SetCapturer(ssrc, camera)) { // Allow that SetCapturer fail if |camera| is NULL but assert otherwise. // This in the normal case when the underlying media channel has already // been deleted. ASSERT(camera == NULL); return false; } return true; } void WebRtcSession::SetVideoPlayout(uint32 ssrc, bool enable, cricket::VideoRenderer* renderer) { ASSERT(signaling_thread()->IsCurrent()); if (!video_channel_) { LOG(LS_WARNING) << "SetVideoPlayout: No video channel exists."; return; } if (!video_channel_->SetRenderer(ssrc, enable ? renderer : NULL)) { // Allow that SetRenderer fail if |renderer| is NULL but assert otherwise. // This in the normal case when the underlying media channel has already // been deleted. ASSERT(renderer == NULL); } } void WebRtcSession::SetVideoSend(uint32 ssrc, bool enable, const cricket::VideoOptions* options) { ASSERT(signaling_thread()->IsCurrent()); if (!video_channel_) { LOG(LS_WARNING) << "SetVideoSend: No video channel exists."; return; } if (!video_channel_->MuteStream(ssrc, !enable)) { // Allow that MuteStream fail if |enable| is false but assert otherwise. // This in the normal case when the underlying media channel has already // been deleted. ASSERT(enable == false); return; } if (enable && options) video_channel_->SetChannelOptions(*options); } bool WebRtcSession::CanInsertDtmf(const std::string& track_id) { ASSERT(signaling_thread()->IsCurrent()); if (!voice_channel_) { LOG(LS_ERROR) << "CanInsertDtmf: No audio channel exists."; return false; } uint32 send_ssrc = 0; // The Dtmf is negotiated per channel not ssrc, so we only check if the ssrc // exists. if (!GetAudioSsrcByTrackId(BaseSession::local_description(), track_id, &send_ssrc)) { LOG(LS_ERROR) << "CanInsertDtmf: Track does not exist: " << track_id; return false; } return voice_channel_->CanInsertDtmf(); } bool WebRtcSession::InsertDtmf(const std::string& track_id, int code, int duration) { ASSERT(signaling_thread()->IsCurrent()); if (!voice_channel_) { LOG(LS_ERROR) << "InsertDtmf: No audio channel exists."; return false; } uint32 send_ssrc = 0; if (!VERIFY(GetAudioSsrcByTrackId(BaseSession::local_description(), track_id, &send_ssrc))) { LOG(LS_ERROR) << "InsertDtmf: Track does not exist: " << track_id; return false; } if (!voice_channel_->InsertDtmf(send_ssrc, code, duration, cricket::DF_SEND)) { LOG(LS_ERROR) << "Failed to insert DTMF to channel."; return false; } return true; } sigslot::signal0<>* WebRtcSession::GetOnDestroyedSignal() { return &SignalVoiceChannelDestroyed; } bool WebRtcSession::SendData(const cricket::SendDataParams& params, const rtc::Buffer& payload, cricket::SendDataResult* result) { if (!data_channel_.get()) { LOG(LS_ERROR) << "SendData called when data_channel_ is NULL."; return false; } return data_channel_->SendData(params, payload, result); } bool WebRtcSession::ConnectDataChannel(DataChannel* webrtc_data_channel) { if (!data_channel_.get()) { LOG(LS_ERROR) << "ConnectDataChannel called when data_channel_ is NULL."; return false; } data_channel_->SignalReadyToSendData.connect(webrtc_data_channel, &DataChannel::OnChannelReady); data_channel_->SignalDataReceived.connect(webrtc_data_channel, &DataChannel::OnDataReceived); return true; } void WebRtcSession::DisconnectDataChannel(DataChannel* webrtc_data_channel) { if (!data_channel_.get()) { LOG(LS_ERROR) << "DisconnectDataChannel called when data_channel_ is NULL."; return; } data_channel_->SignalReadyToSendData.disconnect(webrtc_data_channel); data_channel_->SignalDataReceived.disconnect(webrtc_data_channel); } void WebRtcSession::AddSctpDataStream(uint32 sid) { if (!data_channel_.get()) { LOG(LS_ERROR) << "AddDataChannelStreams called when data_channel_ is NULL."; return; } data_channel_->AddRecvStream(cricket::StreamParams::CreateLegacy(sid)); data_channel_->AddSendStream(cricket::StreamParams::CreateLegacy(sid)); } void WebRtcSession::RemoveSctpDataStream(uint32 sid) { mediastream_signaling_->RemoveSctpDataChannel(static_cast(sid)); if (!data_channel_.get()) { LOG(LS_ERROR) << "RemoveDataChannelStreams called when data_channel_ is " << "NULL."; return; } data_channel_->RemoveRecvStream(sid); data_channel_->RemoveSendStream(sid); } bool WebRtcSession::ReadyToSendData() const { return data_channel_.get() && data_channel_->ready_to_send_data(); } rtc::scoped_refptr WebRtcSession::CreateDataChannel( const std::string& label, const InternalDataChannelInit* config) { if (state() == STATE_RECEIVEDTERMINATE) { return NULL; } if (data_channel_type_ == cricket::DCT_NONE) { LOG(LS_ERROR) << "CreateDataChannel: Data is not supported in this call."; return NULL; } InternalDataChannelInit new_config = config ? (*config) : InternalDataChannelInit(); if (data_channel_type_ == cricket::DCT_SCTP) { if (new_config.id < 0) { rtc::SSLRole role; if (GetSslRole(&role) && !mediastream_signaling_->AllocateSctpSid(role, &new_config.id)) { LOG(LS_ERROR) << "No id can be allocated for the SCTP data channel."; return NULL; } } else if (!mediastream_signaling_->IsSctpSidAvailable(new_config.id)) { LOG(LS_ERROR) << "Failed to create a SCTP data channel " << "because the id is already in use or out of range."; return NULL; } } rtc::scoped_refptr channel(DataChannel::Create( this, data_channel_type_, label, new_config)); if (channel && !mediastream_signaling_->AddDataChannel(channel)) return NULL; return channel; } cricket::DataChannelType WebRtcSession::data_channel_type() const { return data_channel_type_; } bool WebRtcSession::IceRestartPending() const { return ice_restart_latch_->Get(); } void WebRtcSession::ResetIceRestartLatch() { ice_restart_latch_->Reset(); } void WebRtcSession::OnIdentityReady(rtc::SSLIdentity* identity) { SetIdentity(identity); } bool WebRtcSession::waiting_for_identity() const { return webrtc_session_desc_factory_->waiting_for_identity(); } void WebRtcSession::SetIceConnectionState( PeerConnectionInterface::IceConnectionState state) { if (ice_connection_state_ == state) { return; } // ASSERT that the requested transition is allowed. Note that // WebRtcSession does not implement "kIceConnectionClosed" (that is handled // within PeerConnection). This switch statement should compile away when // ASSERTs are disabled. switch (ice_connection_state_) { case PeerConnectionInterface::kIceConnectionNew: ASSERT(state == PeerConnectionInterface::kIceConnectionChecking); break; case PeerConnectionInterface::kIceConnectionChecking: ASSERT(state == PeerConnectionInterface::kIceConnectionFailed || state == PeerConnectionInterface::kIceConnectionConnected); break; case PeerConnectionInterface::kIceConnectionConnected: ASSERT(state == PeerConnectionInterface::kIceConnectionDisconnected || state == PeerConnectionInterface::kIceConnectionChecking || state == PeerConnectionInterface::kIceConnectionCompleted); break; case PeerConnectionInterface::kIceConnectionCompleted: ASSERT(state == PeerConnectionInterface::kIceConnectionConnected || state == PeerConnectionInterface::kIceConnectionDisconnected); break; case PeerConnectionInterface::kIceConnectionFailed: ASSERT(state == PeerConnectionInterface::kIceConnectionNew); break; case PeerConnectionInterface::kIceConnectionDisconnected: ASSERT(state == PeerConnectionInterface::kIceConnectionChecking || state == PeerConnectionInterface::kIceConnectionConnected || state == PeerConnectionInterface::kIceConnectionCompleted || state == PeerConnectionInterface::kIceConnectionFailed); break; case PeerConnectionInterface::kIceConnectionClosed: ASSERT(false); break; default: ASSERT(false); break; } ice_connection_state_ = state; if (ice_observer_) { ice_observer_->OnIceConnectionChange(ice_connection_state_); } } void WebRtcSession::OnTransportRequestSignaling( cricket::Transport* transport) { ASSERT(signaling_thread()->IsCurrent()); transport->OnSignalingReady(); if (ice_observer_) { ice_observer_->OnIceGatheringChange( PeerConnectionInterface::kIceGatheringGathering); } } void WebRtcSession::OnTransportConnecting(cricket::Transport* transport) { ASSERT(signaling_thread()->IsCurrent()); // start monitoring for the write state of the transport. OnTransportWritable(transport); } void WebRtcSession::OnTransportWritable(cricket::Transport* transport) { ASSERT(signaling_thread()->IsCurrent()); if (transport->all_channels_writable()) { SetIceConnectionState(PeerConnectionInterface::kIceConnectionConnected); } else if (transport->HasChannels()) { // If the current state is Connected or Completed, then there were writable // channels but now there are not, so the next state must be Disconnected. if (ice_connection_state_ == PeerConnectionInterface::kIceConnectionConnected || ice_connection_state_ == PeerConnectionInterface::kIceConnectionCompleted) { SetIceConnectionState( PeerConnectionInterface::kIceConnectionDisconnected); } } } void WebRtcSession::OnTransportCompleted(cricket::Transport* transport) { ASSERT(signaling_thread()->IsCurrent()); SetIceConnectionState(PeerConnectionInterface::kIceConnectionCompleted); } void WebRtcSession::OnTransportFailed(cricket::Transport* transport) { ASSERT(signaling_thread()->IsCurrent()); SetIceConnectionState(PeerConnectionInterface::kIceConnectionFailed); } void WebRtcSession::OnTransportProxyCandidatesReady( cricket::TransportProxy* proxy, const cricket::Candidates& candidates) { ASSERT(signaling_thread()->IsCurrent()); ProcessNewLocalCandidate(proxy->content_name(), candidates); } void WebRtcSession::OnCandidatesAllocationDone() { ASSERT(signaling_thread()->IsCurrent()); if (ice_observer_) { ice_observer_->OnIceGatheringChange( PeerConnectionInterface::kIceGatheringComplete); ice_observer_->OnIceComplete(); } } // Enabling voice and video channel. void WebRtcSession::EnableChannels() { if (voice_channel_ && !voice_channel_->enabled()) voice_channel_->Enable(true); if (video_channel_ && !video_channel_->enabled()) video_channel_->Enable(true); if (data_channel_.get() && !data_channel_->enabled()) data_channel_->Enable(true); } void WebRtcSession::ProcessNewLocalCandidate( const std::string& content_name, const cricket::Candidates& candidates) { int sdp_mline_index; if (!GetLocalCandidateMediaIndex(content_name, &sdp_mline_index)) { LOG(LS_ERROR) << "ProcessNewLocalCandidate: content name " << content_name << " not found"; return; } for (cricket::Candidates::const_iterator citer = candidates.begin(); citer != candidates.end(); ++citer) { // Use content_name as the candidate media id. JsepIceCandidate candidate(content_name, sdp_mline_index, *citer); if (ice_observer_) { ice_observer_->OnIceCandidate(&candidate); } if (local_desc_) { local_desc_->AddCandidate(&candidate); } } } // Returns the media index for a local ice candidate given the content name. bool WebRtcSession::GetLocalCandidateMediaIndex(const std::string& content_name, int* sdp_mline_index) { if (!BaseSession::local_description() || !sdp_mline_index) return false; bool content_found = false; const ContentInfos& contents = BaseSession::local_description()->contents(); for (size_t index = 0; index < contents.size(); ++index) { if (contents[index].name == content_name) { *sdp_mline_index = static_cast(index); content_found = true; break; } } return content_found; } bool WebRtcSession::UseCandidatesInSessionDescription( const SessionDescriptionInterface* remote_desc) { if (!remote_desc) return true; bool ret = true; for (size_t m = 0; m < remote_desc->number_of_mediasections(); ++m) { const IceCandidateCollection* candidates = remote_desc->candidates(m); for (size_t n = 0; n < candidates->count(); ++n) { const IceCandidateInterface* candidate = candidates->at(n); bool valid = false; if (!ReadyToUseRemoteCandidate(candidate, remote_desc, &valid)) { if (valid) { LOG(LS_INFO) << "UseCandidatesInSessionDescription: Candidate saved."; saved_candidates_.push_back( new JsepIceCandidate(candidate->sdp_mid(), candidate->sdp_mline_index(), candidate->candidate())); } continue; } ret = UseCandidate(candidate); if (!ret) break; } } return ret; } bool WebRtcSession::UseCandidate( const IceCandidateInterface* candidate) { size_t mediacontent_index = static_cast(candidate->sdp_mline_index()); size_t remote_content_size = BaseSession::remote_description()->contents().size(); if (mediacontent_index >= remote_content_size) { LOG(LS_ERROR) << "UseRemoteCandidateInSession: Invalid candidate media index."; return false; } cricket::ContentInfo content = BaseSession::remote_description()->contents()[mediacontent_index]; std::vector candidates; candidates.push_back(candidate->candidate()); // Invoking BaseSession method to handle remote candidates. std::string error; if (OnRemoteCandidates(content.name, candidates, &error)) { // Candidates successfully submitted for checking. if (ice_connection_state_ == PeerConnectionInterface::kIceConnectionNew || ice_connection_state_ == PeerConnectionInterface::kIceConnectionDisconnected) { // If state is New, then the session has just gotten its first remote ICE // candidates, so go to Checking. // If state is Disconnected, the session is re-using old candidates or // receiving additional ones, so go to Checking. // If state is Connected, stay Connected. // TODO(bemasc): If state is Connected, and the new candidates are for a // newly added transport, then the state actually _should_ move to // checking. Add a way to distinguish that case. SetIceConnectionState(PeerConnectionInterface::kIceConnectionChecking); } // TODO(bemasc): If state is Completed, go back to Connected. } else { if (!error.empty()) { LOG(LS_WARNING) << error; } } return true; } void WebRtcSession::RemoveUnusedChannelsAndTransports( const SessionDescription* desc) { // Destroy video_channel_ first since it may have a pointer to the // voice_channel_. const cricket::ContentInfo* video_info = cricket::GetFirstVideoContent(desc); if ((!video_info || video_info->rejected) && video_channel_) { mediastream_signaling_->OnVideoChannelClose(); SignalVideoChannelDestroyed(); const std::string content_name = video_channel_->content_name(); channel_manager_->DestroyVideoChannel(video_channel_.release()); DestroyTransportProxy(content_name); } const cricket::ContentInfo* voice_info = cricket::GetFirstAudioContent(desc); if ((!voice_info || voice_info->rejected) && voice_channel_) { mediastream_signaling_->OnAudioChannelClose(); SignalVoiceChannelDestroyed(); const std::string content_name = voice_channel_->content_name(); channel_manager_->DestroyVoiceChannel(voice_channel_.release()); DestroyTransportProxy(content_name); } const cricket::ContentInfo* data_info = cricket::GetFirstDataContent(desc); if ((!data_info || data_info->rejected) && data_channel_) { mediastream_signaling_->OnDataChannelClose(); SignalDataChannelDestroyed(); const std::string content_name = data_channel_->content_name(); channel_manager_->DestroyDataChannel(data_channel_.release()); DestroyTransportProxy(content_name); } } // TODO(mallinath) - Add a correct error code if the channels are not creatued // due to BUNDLE is enabled but rtcp-mux is disabled. bool WebRtcSession::CreateChannels(const SessionDescription* desc) { // Disabling the BUNDLE flag in PortAllocator if offer disabled it. bool bundle_enabled = desc->HasGroup(cricket::GROUP_TYPE_BUNDLE); if (state() == STATE_INIT && !bundle_enabled) { port_allocator()->set_flags(port_allocator()->flags() & ~cricket::PORTALLOCATOR_ENABLE_BUNDLE); } // Creating the media channels and transport proxies. const cricket::ContentInfo* voice = cricket::GetFirstAudioContent(desc); if (voice && !voice->rejected && !voice_channel_) { if (!CreateVoiceChannel(voice)) { LOG(LS_ERROR) << "Failed to create voice channel."; return false; } } const cricket::ContentInfo* video = cricket::GetFirstVideoContent(desc); if (video && !video->rejected && !video_channel_) { if (!CreateVideoChannel(video)) { LOG(LS_ERROR) << "Failed to create video channel."; return false; } } const cricket::ContentInfo* data = cricket::GetFirstDataContent(desc); if (data_channel_type_ != cricket::DCT_NONE && data && !data->rejected && !data_channel_.get()) { if (!CreateDataChannel(data)) { LOG(LS_ERROR) << "Failed to create data channel."; return false; } } return true; } bool WebRtcSession::CreateVoiceChannel(const cricket::ContentInfo* content) { voice_channel_.reset(channel_manager_->CreateVoiceChannel( this, content->name, true)); if (!voice_channel_.get()) return false; voice_channel_->SetChannelOptions(audio_options_); return true; } bool WebRtcSession::CreateVideoChannel(const cricket::ContentInfo* content) { video_channel_.reset(channel_manager_->CreateVideoChannel( this, content->name, true, video_options_, voice_channel_.get())); return video_channel_.get() != NULL; } bool WebRtcSession::CreateDataChannel(const cricket::ContentInfo* content) { bool sctp = (data_channel_type_ == cricket::DCT_SCTP); data_channel_.reset(channel_manager_->CreateDataChannel( this, content->name, !sctp, data_channel_type_)); if (!data_channel_.get()) { return false; } if (sctp) { mediastream_signaling_->OnDataTransportCreatedForSctp(); data_channel_->SignalDataReceived.connect( this, &WebRtcSession::OnDataChannelMessageReceived); data_channel_->SignalStreamClosedRemotely.connect( mediastream_signaling_, &MediaStreamSignaling::OnRemoteSctpDataChannelClosed); } return true; } void WebRtcSession::CopySavedCandidates( SessionDescriptionInterface* dest_desc) { if (!dest_desc) { ASSERT(false); return; } for (size_t i = 0; i < saved_candidates_.size(); ++i) { dest_desc->AddCandidate(saved_candidates_[i]); delete saved_candidates_[i]; } saved_candidates_.clear(); } void WebRtcSession::OnDataChannelMessageReceived( cricket::DataChannel* channel, const cricket::ReceiveDataParams& params, const rtc::Buffer& payload) { ASSERT(data_channel_type_ == cricket::DCT_SCTP); if (params.type == cricket::DMT_CONTROL && mediastream_signaling_->IsSctpSidAvailable(params.ssrc)) { // Received CONTROL on unused sid, process as an OPEN message. mediastream_signaling_->AddDataChannelFromOpenMessage(params, payload); } // otherwise ignore the message. } // Returns false if bundle is enabled and rtcp_mux is disabled. bool WebRtcSession::ValidateBundleSettings(const SessionDescription* desc) { bool bundle_enabled = desc->HasGroup(cricket::GROUP_TYPE_BUNDLE); if (!bundle_enabled) return true; const cricket::ContentGroup* bundle_group = desc->GetGroupByName(cricket::GROUP_TYPE_BUNDLE); ASSERT(bundle_group != NULL); const cricket::ContentInfos& contents = desc->contents(); for (cricket::ContentInfos::const_iterator citer = contents.begin(); citer != contents.end(); ++citer) { const cricket::ContentInfo* content = (&*citer); ASSERT(content != NULL); if (bundle_group->HasContentName(content->name) && !content->rejected && content->type == cricket::NS_JINGLE_RTP) { if (!HasRtcpMuxEnabled(content)) return false; } } // RTCP-MUX is enabled in all the contents. return true; } bool WebRtcSession::HasRtcpMuxEnabled( const cricket::ContentInfo* content) { const cricket::MediaContentDescription* description = static_cast(content->description); return description->rtcp_mux(); } bool WebRtcSession::ValidateSessionDescription( const SessionDescriptionInterface* sdesc, cricket::ContentSource source, std::string* err_desc) { std::string type; if (error() != cricket::BaseSession::ERROR_NONE) { return BadSdp(source, type, GetSessionErrorMsg(), err_desc); } if (!sdesc || !sdesc->description()) { return BadSdp(source, type, kInvalidSdp, err_desc); } type = sdesc->type(); Action action = GetAction(sdesc->type()); if (source == cricket::CS_LOCAL) { if (!ExpectSetLocalDescription(action)) return BadLocalSdp(type, BadStateErrMsg(state()), err_desc); } else { if (!ExpectSetRemoteDescription(action)) return BadRemoteSdp(type, BadStateErrMsg(state()), err_desc); } // Verify crypto settings. std::string crypto_error; if ((webrtc_session_desc_factory_->SdesPolicy() == cricket::SEC_REQUIRED || dtls_enabled_) && !VerifyCrypto(sdesc->description(), dtls_enabled_, &crypto_error)) { return BadSdp(source, type, crypto_error, err_desc); } // Verify ice-ufrag and ice-pwd. if (!VerifyIceUfragPwdPresent(sdesc->description())) { return BadSdp(source, type, kSdpWithoutIceUfragPwd, err_desc); } if (!ValidateBundleSettings(sdesc->description())) { return BadSdp(source, type, kBundleWithoutRtcpMux, err_desc); } // Verify m-lines in Answer when compared against Offer. if (action == kAnswer) { const cricket::SessionDescription* offer_desc = (source == cricket::CS_LOCAL) ? remote_description()->description() : local_description()->description(); if (!VerifyMediaDescriptions(sdesc->description(), offer_desc)) { return BadAnswerSdp(source, kMlineMismatch, err_desc); } } return true; } bool WebRtcSession::ExpectSetLocalDescription(Action action) { return ((action == kOffer && state() == STATE_INIT) || // update local offer (action == kOffer && state() == STATE_SENTINITIATE) || // update the current ongoing session. (action == kOffer && state() == STATE_RECEIVEDACCEPT) || (action == kOffer && state() == STATE_SENTACCEPT) || (action == kOffer && state() == STATE_INPROGRESS) || // accept remote offer (action == kAnswer && state() == STATE_RECEIVEDINITIATE) || (action == kAnswer && state() == STATE_SENTPRACCEPT) || (action == kPrAnswer && state() == STATE_RECEIVEDINITIATE) || (action == kPrAnswer && state() == STATE_SENTPRACCEPT)); } bool WebRtcSession::ExpectSetRemoteDescription(Action action) { return ((action == kOffer && state() == STATE_INIT) || // update remote offer (action == kOffer && state() == STATE_RECEIVEDINITIATE) || // update the current ongoing session (action == kOffer && state() == STATE_RECEIVEDACCEPT) || (action == kOffer && state() == STATE_SENTACCEPT) || (action == kOffer && state() == STATE_INPROGRESS) || // accept local offer (action == kAnswer && state() == STATE_SENTINITIATE) || (action == kAnswer && state() == STATE_RECEIVEDPRACCEPT) || (action == kPrAnswer && state() == STATE_SENTINITIATE) || (action == kPrAnswer && state() == STATE_RECEIVEDPRACCEPT)); } std::string WebRtcSession::GetSessionErrorMsg() { std::ostringstream desc; desc << kSessionError << GetErrorCodeString(error()) << ". "; desc << kSessionErrorDesc << error_desc() << "."; return desc.str(); } // We need to check the local/remote description for the Transport instead of // the session, because a new Transport added during renegotiation may have // them unset while the session has them set from the previous negotiation. // Not doing so may trigger the auto generation of transport description and // mess up DTLS identity information, ICE credential, etc. bool WebRtcSession::ReadyToUseRemoteCandidate( const IceCandidateInterface* candidate, const SessionDescriptionInterface* remote_desc, bool* valid) { *valid = true;; cricket::TransportProxy* transport_proxy = NULL; const SessionDescriptionInterface* current_remote_desc = remote_desc ? remote_desc : remote_description(); if (!current_remote_desc) return false; size_t mediacontent_index = static_cast(candidate->sdp_mline_index()); size_t remote_content_size = current_remote_desc->description()->contents().size(); if (mediacontent_index >= remote_content_size) { LOG(LS_ERROR) << "ReadyToUseRemoteCandidate: Invalid candidate media index."; *valid = false; return false; } cricket::ContentInfo content = current_remote_desc->description()->contents()[mediacontent_index]; transport_proxy = GetTransportProxy(content.name); return transport_proxy && transport_proxy->local_description_set() && transport_proxy->remote_description_set(); } } // namespace webrtc