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/*
* 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/peerconnection.h"
#include <vector>
#include "talk/app/webrtc/dtmfsender.h"
#include "talk/app/webrtc/jsepicecandidate.h"
#include "talk/app/webrtc/jsepsessiondescription.h"
#include "talk/app/webrtc/mediaconstraintsinterface.h"
#include "talk/app/webrtc/mediastreamhandler.h"
#include "talk/app/webrtc/streamcollection.h"
#include "webrtc/p2p/client/basicportallocator.h"
#include "talk/session/media/channelmanager.h"
#include "webrtc/base/logging.h"
#include "webrtc/base/stringencode.h"
#include "webrtc/system_wrappers/interface/field_trial.h"
namespace {
using webrtc::PeerConnectionInterface;
// The min number of tokens must present in Turn host uri.
// e.g. user@turn.example.org
static const size_t kTurnHostTokensNum = 2;
// Number of tokens must be preset when TURN uri has transport param.
static const size_t kTurnTransportTokensNum = 2;
// The default stun port.
static const int kDefaultStunPort = 3478;
static const int kDefaultStunTlsPort = 5349;
static const char kTransport[] = "transport";
static const char kUdpTransportType[] = "udp";
static const char kTcpTransportType[] = "tcp";
// NOTE: Must be in the same order as the ServiceType enum.
static const char* kValidIceServiceTypes[] = {
"stun", "stuns", "turn", "turns", "invalid" };
enum ServiceType {
STUN, // Indicates a STUN server.
STUNS, // Indicates a STUN server used with a TLS session.
TURN, // Indicates a TURN server
TURNS, // Indicates a TURN server used with a TLS session.
INVALID, // Unknown.
};
enum {
MSG_SET_SESSIONDESCRIPTION_SUCCESS = 0,
MSG_SET_SESSIONDESCRIPTION_FAILED,
MSG_GETSTATS,
};
struct SetSessionDescriptionMsg : public rtc::MessageData {
explicit SetSessionDescriptionMsg(
webrtc::SetSessionDescriptionObserver* observer)
: observer(observer) {
}
rtc::scoped_refptr<webrtc::SetSessionDescriptionObserver> observer;
std::string error;
};
struct GetStatsMsg : public rtc::MessageData {
GetStatsMsg(webrtc::StatsObserver* observer,
webrtc::MediaStreamTrackInterface* track)
: observer(observer), track(track) {
}
rtc::scoped_refptr<webrtc::StatsObserver> observer;
rtc::scoped_refptr<webrtc::MediaStreamTrackInterface> track;
};
// |in_str| should be of format
// stunURI = scheme ":" stun-host [ ":" stun-port ]
// scheme = "stun" / "stuns"
// stun-host = IP-literal / IPv4address / reg-name
// stun-port = *DIGIT
// draft-petithuguenin-behave-turn-uris-01
// turnURI = scheme ":" turn-host [ ":" turn-port ]
// turn-host = username@IP-literal / IPv4address / reg-name
bool GetServiceTypeAndHostnameFromUri(const std::string& in_str,
ServiceType* service_type,
std::string* hostname) {
const std::string::size_type colonpos = in_str.find(':');
if (colonpos == std::string::npos || (colonpos + 1) == in_str.length()) {
return false;
}
std::string type = in_str.substr(0, colonpos);
for (size_t i = 0; i < ARRAY_SIZE(kValidIceServiceTypes); ++i) {
if (type.compare(kValidIceServiceTypes[i]) == 0) {
*service_type = static_cast<ServiceType>(i);
break;
}
}
if (*service_type == INVALID) {
return false;
}
*hostname = in_str.substr(colonpos + 1, std::string::npos);
return true;
}
// This method parses IPv6 and IPv4 literal strings, along with hostnames in
// standard hostname:port format.
// Consider following formats as correct.
// |hostname:port|, |[IPV6 address]:port|, |IPv4 address|:port,
// |hostname|, |[IPv6 address]|, |IPv4 address|
bool ParseHostnameAndPortFromString(const std::string& in_str,
std::string* host,
int* port) {
if (in_str.at(0) == '[') {
std::string::size_type closebracket = in_str.rfind(']');
if (closebracket != std::string::npos) {
*host = in_str.substr(1, closebracket - 1);
std::string::size_type colonpos = in_str.find(':', closebracket);
if (std::string::npos != colonpos) {
if (!rtc::FromString(
in_str.substr(closebracket + 2, std::string::npos), port)) {
return false;
}
}
} else {
return false;
}
} else {
std::string::size_type colonpos = in_str.find(':');
if (std::string::npos != colonpos) {
*host = in_str.substr(0, colonpos);
if (!rtc::FromString(
in_str.substr(colonpos + 1, std::string::npos), port)) {
return false;
}
} else {
*host = in_str;
}
}
return true;
}
typedef webrtc::PortAllocatorFactoryInterface::StunConfiguration
StunConfiguration;
typedef webrtc::PortAllocatorFactoryInterface::TurnConfiguration
TurnConfiguration;
bool ParseIceServerUrl(const PeerConnectionInterface::IceServer& server,
const std::string& url,
std::vector<StunConfiguration>* stun_config,
std::vector<TurnConfiguration>* turn_config) {
// draft-nandakumar-rtcweb-stun-uri-01
// stunURI = scheme ":" stun-host [ ":" stun-port ]
// scheme = "stun" / "stuns"
// stun-host = IP-literal / IPv4address / reg-name
// stun-port = *DIGIT
// draft-petithuguenin-behave-turn-uris-01
// turnURI = scheme ":" turn-host [ ":" turn-port ]
// [ "?transport=" transport ]
// scheme = "turn" / "turns"
// transport = "udp" / "tcp" / transport-ext
// transport-ext = 1*unreserved
// turn-host = IP-literal / IPv4address / reg-name
// turn-port = *DIGIT
std::vector<std::string> tokens;
std::string turn_transport_type = kUdpTransportType;
ASSERT(!url.empty());
rtc::tokenize(url, '?', &tokens);
std::string uri_without_transport = tokens[0];
// Let's look into transport= param, if it exists.
if (tokens.size() == kTurnTransportTokensNum) { // ?transport= is present.
std::string uri_transport_param = tokens[1];
rtc::tokenize(uri_transport_param, '=', &tokens);
if (tokens[0] == kTransport) {
// As per above grammar transport param will be consist of lower case
// letters.
if (tokens[1] != kUdpTransportType && tokens[1] != kTcpTransportType) {
LOG(LS_WARNING) << "Transport param should always be udp or tcp.";
return true;
}
turn_transport_type = tokens[1];
}
}
std::string hoststring;
ServiceType service_type = INVALID;
if (!GetServiceTypeAndHostnameFromUri(uri_without_transport,
&service_type,
&hoststring)) {
LOG(LS_WARNING) << "Invalid transport parameter in ICE URI: "
<< uri_without_transport;
return true;
}
ASSERT(!hoststring.empty());
// Let's break hostname.
tokens.clear();
rtc::tokenize(hoststring, '@', &tokens);
ASSERT(!tokens.empty());
std::string username(server.username);
// TODO(pthatcher): What's the right thing to do if tokens.size() is >2?
// E.g. a string like "foo@bar@bat".
if (tokens.size() >= kTurnHostTokensNum) {
username.assign(rtc::s_url_decode(tokens[0]));
hoststring = tokens[1];
} else {
hoststring = tokens[0];
}
int port = kDefaultStunPort;
if (service_type == TURNS) {
port = kDefaultStunTlsPort;
turn_transport_type = kTcpTransportType;
}
std::string address;
if (!ParseHostnameAndPortFromString(hoststring, &address, &port)) {
LOG(WARNING) << "Invalid Hostname format: " << uri_without_transport;
return true;
}
if (port <= 0 || port > 0xffff) {
LOG(WARNING) << "Invalid port: " << port;
return true;
}
switch (service_type) {
case STUN:
case STUNS:
stun_config->push_back(StunConfiguration(address, port));
break;
case TURN:
case TURNS: {
if (username.empty()) {
// Turn url example from the spec |url:"turn:user@turn.example.org"|.
std::vector<std::string> turn_tokens;
rtc::tokenize(address, '@', &turn_tokens);
if (turn_tokens.size() == kTurnHostTokensNum) {
username.assign(rtc::s_url_decode(turn_tokens[0]));
address = turn_tokens[1];
}
}
bool secure = (service_type == TURNS);
turn_config->push_back(TurnConfiguration(address, port,
username,
server.password,
turn_transport_type,
secure));
break;
}
case INVALID:
default:
LOG(WARNING) << "Configuration not supported: " << url;
return false;
}
return true;
}
bool ParseIceServers(const PeerConnectionInterface::IceServers& servers,
std::vector<StunConfiguration>* stun_config,
std::vector<TurnConfiguration>* turn_config) {
for (const webrtc::PeerConnectionInterface::IceServer& server : servers) {
if (!server.urls.empty()) {
for (const std::string& url : server.urls) {
if (url.empty()) {
LOG(WARNING) << "Empty uri.";
continue;
}
if (!ParseIceServerUrl(server, url, stun_config, turn_config)) {
return false;
}
}
} else if (!server.uri.empty()) {
// Fallback to old .uri if new .urls isn't present.
if (!ParseIceServerUrl(server, server.uri, stun_config, turn_config)) {
return false;
}
} else {
LOG(WARNING) << "Empty uri.";
}
}
return true;
}
// Check if we can send |new_stream| on a PeerConnection.
// Currently only one audio but multiple video track is supported per
// PeerConnection.
bool CanAddLocalMediaStream(webrtc::StreamCollectionInterface* current_streams,
webrtc::MediaStreamInterface* new_stream) {
if (!new_stream || !current_streams)
return false;
if (current_streams->find(new_stream->label()) != NULL) {
LOG(LS_ERROR) << "MediaStream with label " << new_stream->label()
<< " is already added.";
return false;
}
return true;
}
} // namespace
namespace webrtc {
PeerConnection::PeerConnection(PeerConnectionFactory* factory)
: factory_(factory),
observer_(NULL),
uma_observer_(NULL),
signaling_state_(kStable),
ice_state_(kIceNew),
ice_connection_state_(kIceConnectionNew),
ice_gathering_state_(kIceGatheringNew) {
}
PeerConnection::~PeerConnection() {
ASSERT(signaling_thread()->IsCurrent());
if (mediastream_signaling_)
mediastream_signaling_->TearDown();
if (stream_handler_container_)
stream_handler_container_->TearDown();
}
bool PeerConnection::Initialize(
const PeerConnectionInterface::RTCConfiguration& configuration,
const MediaConstraintsInterface* constraints,
PortAllocatorFactoryInterface* allocator_factory,
rtc::scoped_ptr<DtlsIdentityStoreInterface> dtls_identity_store,
PeerConnectionObserver* observer) {
ASSERT(observer != NULL);
if (!observer)
return false;
observer_ = observer;
std::vector<PortAllocatorFactoryInterface::StunConfiguration> stun_config;
std::vector<PortAllocatorFactoryInterface::TurnConfiguration> turn_config;
if (!ParseIceServers(configuration.servers, &stun_config, &turn_config)) {
return false;
}
port_allocator_.reset(
allocator_factory->CreatePortAllocator(stun_config, turn_config));
// To handle both internal and externally created port allocator, we will
// enable BUNDLE here.
int portallocator_flags = port_allocator_->flags();
portallocator_flags |= cricket::PORTALLOCATOR_ENABLE_SHARED_UFRAG |
cricket::PORTALLOCATOR_ENABLE_SHARED_SOCKET |
cricket::PORTALLOCATOR_ENABLE_IPV6;
bool value;
// If IPv6 flag was specified, we'll not override it by experiment.
if (FindConstraint(
constraints, MediaConstraintsInterface::kEnableIPv6, &value, NULL)) {
if (!value) {
portallocator_flags &= ~(cricket::PORTALLOCATOR_ENABLE_IPV6);
}
} else if (webrtc::field_trial::FindFullName("WebRTC-IPv6Default") ==
"Disabled") {
portallocator_flags &= ~(cricket::PORTALLOCATOR_ENABLE_IPV6);
}
if (configuration.tcp_candidate_policy == kTcpCandidatePolicyDisabled) {
portallocator_flags |= cricket::PORTALLOCATOR_DISABLE_TCP;
LOG(LS_INFO) << "TCP candidates are disabled.";
}
port_allocator_->set_flags(portallocator_flags);
// No step delay is used while allocating ports.
port_allocator_->set_step_delay(cricket::kMinimumStepDelay);
mediastream_signaling_.reset(new MediaStreamSignaling(
factory_->signaling_thread(), this, factory_->channel_manager()));
session_.reset(new WebRtcSession(factory_->channel_manager(),
factory_->signaling_thread(),
factory_->worker_thread(),
port_allocator_.get(),
mediastream_signaling_.get()));
stream_handler_container_.reset(new MediaStreamHandlerContainer(
session_.get(), session_.get()));
stats_.reset(new StatsCollector(session_.get()));
// Initialize the WebRtcSession. It creates transport channels etc.
if (!session_->Initialize(factory_->options(), constraints,
dtls_identity_store.Pass(), configuration))
return false;
// Register PeerConnection as receiver of local ice candidates.
// All the callbacks will be posted to the application from PeerConnection.
session_->RegisterIceObserver(this);
session_->SignalState.connect(this, &PeerConnection::OnSessionStateChange);
return true;
}
rtc::scoped_refptr<StreamCollectionInterface>
PeerConnection::local_streams() {
return mediastream_signaling_->local_streams();
}
rtc::scoped_refptr<StreamCollectionInterface>
PeerConnection::remote_streams() {
return mediastream_signaling_->remote_streams();
}
bool PeerConnection::AddStream(MediaStreamInterface* local_stream) {
if (IsClosed()) {
return false;
}
if (!CanAddLocalMediaStream(mediastream_signaling_->local_streams(),
local_stream))
return false;
if (!mediastream_signaling_->AddLocalStream(local_stream)) {
return false;
}
stats_->AddStream(local_stream);
observer_->OnRenegotiationNeeded();
return true;
}
void PeerConnection::RemoveStream(MediaStreamInterface* local_stream) {
mediastream_signaling_->RemoveLocalStream(local_stream);
if (IsClosed()) {
return;
}
observer_->OnRenegotiationNeeded();
}
rtc::scoped_refptr<DtmfSenderInterface> PeerConnection::CreateDtmfSender(
AudioTrackInterface* track) {
if (!track) {
LOG(LS_ERROR) << "CreateDtmfSender - track is NULL.";
return NULL;
}
if (!mediastream_signaling_->local_streams()->FindAudioTrack(track->id())) {
LOG(LS_ERROR) << "CreateDtmfSender is called with a non local audio track.";
return NULL;
}
rtc::scoped_refptr<DtmfSenderInterface> sender(
DtmfSender::Create(track, signaling_thread(), session_.get()));
if (!sender.get()) {
LOG(LS_ERROR) << "CreateDtmfSender failed on DtmfSender::Create.";
return NULL;
}
return DtmfSenderProxy::Create(signaling_thread(), sender.get());
}
bool PeerConnection::GetStats(StatsObserver* observer,
MediaStreamTrackInterface* track,
StatsOutputLevel level) {
ASSERT(signaling_thread()->IsCurrent());
if (!VERIFY(observer != NULL)) {
LOG(LS_ERROR) << "GetStats - observer is NULL.";
return false;
}
stats_->UpdateStats(level);
signaling_thread()->Post(this, MSG_GETSTATS,
new GetStatsMsg(observer, track));
return true;
}
PeerConnectionInterface::SignalingState PeerConnection::signaling_state() {
return signaling_state_;
}
PeerConnectionInterface::IceState PeerConnection::ice_state() {
return ice_state_;
}
PeerConnectionInterface::IceConnectionState
PeerConnection::ice_connection_state() {
return ice_connection_state_;
}
PeerConnectionInterface::IceGatheringState
PeerConnection::ice_gathering_state() {
return ice_gathering_state_;
}
rtc::scoped_refptr<DataChannelInterface>
PeerConnection::CreateDataChannel(
const std::string& label,
const DataChannelInit* config) {
bool first_datachannel = !mediastream_signaling_->HasDataChannels();
rtc::scoped_ptr<InternalDataChannelInit> internal_config;
if (config) {
internal_config.reset(new InternalDataChannelInit(*config));
}
rtc::scoped_refptr<DataChannelInterface> channel(
session_->CreateDataChannel(label, internal_config.get()));
if (!channel.get())
return NULL;
// Trigger the onRenegotiationNeeded event for every new RTP DataChannel, or
// the first SCTP DataChannel.
if (session_->data_channel_type() == cricket::DCT_RTP || first_datachannel) {
observer_->OnRenegotiationNeeded();
}
return DataChannelProxy::Create(signaling_thread(), channel.get());
}
void PeerConnection::CreateOffer(CreateSessionDescriptionObserver* observer,
const MediaConstraintsInterface* constraints) {
if (!VERIFY(observer != NULL)) {
LOG(LS_ERROR) << "CreateOffer - observer is NULL.";
return;
}
RTCOfferAnswerOptions options;
bool value;
size_t mandatory_constraints = 0;
if (FindConstraint(constraints,
MediaConstraintsInterface::kOfferToReceiveAudio,
&value,
&mandatory_constraints)) {
options.offer_to_receive_audio =
value ? RTCOfferAnswerOptions::kOfferToReceiveMediaTrue : 0;
}
if (FindConstraint(constraints,
MediaConstraintsInterface::kOfferToReceiveVideo,
&value,
&mandatory_constraints)) {
options.offer_to_receive_video =
value ? RTCOfferAnswerOptions::kOfferToReceiveMediaTrue : 0;
}
if (FindConstraint(constraints,
MediaConstraintsInterface::kVoiceActivityDetection,
&value,
&mandatory_constraints)) {
options.voice_activity_detection = value;
}
if (FindConstraint(constraints,
MediaConstraintsInterface::kIceRestart,
&value,
&mandatory_constraints)) {
options.ice_restart = value;
}
if (FindConstraint(constraints,
MediaConstraintsInterface::kUseRtpMux,
&value,
&mandatory_constraints)) {
options.use_rtp_mux = value;
}
CreateOffer(observer, options);
}
void PeerConnection::CreateOffer(CreateSessionDescriptionObserver* observer,
const RTCOfferAnswerOptions& options) {
if (!VERIFY(observer != NULL)) {
LOG(LS_ERROR) << "CreateOffer - observer is NULL.";
return;
}
session_->CreateOffer(observer, options);
}
void PeerConnection::CreateAnswer(
CreateSessionDescriptionObserver* observer,
const MediaConstraintsInterface* constraints) {
if (!VERIFY(observer != NULL)) {
LOG(LS_ERROR) << "CreateAnswer - observer is NULL.";
return;
}
session_->CreateAnswer(observer, constraints);
}
void PeerConnection::SetLocalDescription(
SetSessionDescriptionObserver* observer,
SessionDescriptionInterface* desc) {
if (!VERIFY(observer != NULL)) {
LOG(LS_ERROR) << "SetLocalDescription - observer is NULL.";
return;
}
if (!desc) {
PostSetSessionDescriptionFailure(observer, "SessionDescription is NULL.");
return;
}
// Update stats here so that we have the most recent stats for tracks and
// streams that might be removed by updating the session description.
stats_->UpdateStats(kStatsOutputLevelStandard);
std::string error;
if (!session_->SetLocalDescription(desc, &error)) {
PostSetSessionDescriptionFailure(observer, error);
return;
}
SetSessionDescriptionMsg* msg = new SetSessionDescriptionMsg(observer);
signaling_thread()->Post(this, MSG_SET_SESSIONDESCRIPTION_SUCCESS, msg);
}
void PeerConnection::SetRemoteDescription(
SetSessionDescriptionObserver* observer,
SessionDescriptionInterface* desc) {
if (!VERIFY(observer != NULL)) {
LOG(LS_ERROR) << "SetRemoteDescription - observer is NULL.";
return;
}
if (!desc) {
PostSetSessionDescriptionFailure(observer, "SessionDescription is NULL.");
return;
}
// Update stats here so that we have the most recent stats for tracks and
// streams that might be removed by updating the session description.
stats_->UpdateStats(kStatsOutputLevelStandard);
std::string error;
if (!session_->SetRemoteDescription(desc, &error)) {
PostSetSessionDescriptionFailure(observer, error);
return;
}
SetSessionDescriptionMsg* msg = new SetSessionDescriptionMsg(observer);
signaling_thread()->Post(this, MSG_SET_SESSIONDESCRIPTION_SUCCESS, msg);
}
void PeerConnection::PostSetSessionDescriptionFailure(
SetSessionDescriptionObserver* observer,
const std::string& error) {
SetSessionDescriptionMsg* msg = new SetSessionDescriptionMsg(observer);
msg->error = error;
signaling_thread()->Post(this, MSG_SET_SESSIONDESCRIPTION_FAILED, msg);
}
bool PeerConnection::UpdateIce(const IceServers& configuration,
const MediaConstraintsInterface* constraints) {
return false;
}
bool PeerConnection::UpdateIce(const RTCConfiguration& config) {
if (port_allocator_) {
std::vector<PortAllocatorFactoryInterface::StunConfiguration> stuns;
std::vector<PortAllocatorFactoryInterface::TurnConfiguration> turns;
if (!ParseIceServers(config.servers, &stuns, &turns)) {
return false;
}
std::vector<rtc::SocketAddress> stun_hosts;
typedef std::vector<StunConfiguration>::const_iterator StunIt;
for (StunIt stun_it = stuns.begin(); stun_it != stuns.end(); ++stun_it) {
stun_hosts.push_back(stun_it->server);
}
rtc::SocketAddress stun_addr;
if (!stun_hosts.empty()) {
stun_addr = stun_hosts.front();
LOG(LS_INFO) << "UpdateIce: StunServer Address: " << stun_addr.ToString();
}
for (size_t i = 0; i < turns.size(); ++i) {
cricket::RelayCredentials credentials(turns[i].username,
turns[i].password);
cricket::RelayServerConfig relay_server(cricket::RELAY_TURN);
cricket::ProtocolType protocol;
if (cricket::StringToProto(turns[i].transport_type.c_str(), &protocol)) {
relay_server.ports.push_back(cricket::ProtocolAddress(
turns[i].server, protocol, turns[i].secure));
relay_server.credentials = credentials;
LOG(LS_INFO) << "UpdateIce: TurnServer Address: "
<< turns[i].server.ToString();
} else {
LOG(LS_WARNING) << "Ignoring TURN server " << turns[i].server << ". "
<< "Reason= Incorrect " << turns[i].transport_type
<< " transport parameter.";
}
}
}
session_->SetIceConnectionReceivingTimeout(
config.ice_connection_receiving_timeout);
return session_->SetIceTransports(config.type);
}
bool PeerConnection::AddIceCandidate(
const IceCandidateInterface* ice_candidate) {
return session_->ProcessIceMessage(ice_candidate);
}
void PeerConnection::RegisterUMAObserver(UMAObserver* observer) {
uma_observer_ = observer;
if (session_) {
session_->set_metrics_observer(uma_observer_);
}
// Send information about IPv4/IPv6 status.
if (uma_observer_ && port_allocator_) {
if (port_allocator_->flags() & cricket::PORTALLOCATOR_ENABLE_IPV6) {
uma_observer_->IncrementEnumCounter(
kEnumCounterAddressFamily, kPeerConnection_IPv6,
kPeerConnectionAddressFamilyCounter_Max);
} else {
uma_observer_->IncrementEnumCounter(
kEnumCounterAddressFamily, kPeerConnection_IPv4,
kPeerConnectionAddressFamilyCounter_Max);
}
}
}
const SessionDescriptionInterface* PeerConnection::local_description() const {
return session_->local_description();
}
const SessionDescriptionInterface* PeerConnection::remote_description() const {
return session_->remote_description();
}
void PeerConnection::Close() {
// Update stats here so that we have the most recent stats for tracks and
// streams before the channels are closed.
stats_->UpdateStats(kStatsOutputLevelStandard);
session_->Terminate();
}
void PeerConnection::OnSessionStateChange(cricket::BaseSession* /*session*/,
cricket::BaseSession::State state) {
switch (state) {
case cricket::BaseSession::STATE_INIT:
ChangeSignalingState(PeerConnectionInterface::kStable);
break;
case cricket::BaseSession::STATE_SENTINITIATE:
ChangeSignalingState(PeerConnectionInterface::kHaveLocalOffer);
break;
case cricket::BaseSession::STATE_SENTPRACCEPT:
ChangeSignalingState(PeerConnectionInterface::kHaveLocalPrAnswer);
break;
case cricket::BaseSession::STATE_RECEIVEDINITIATE:
ChangeSignalingState(PeerConnectionInterface::kHaveRemoteOffer);
break;
case cricket::BaseSession::STATE_RECEIVEDPRACCEPT:
ChangeSignalingState(PeerConnectionInterface::kHaveRemotePrAnswer);
break;
case cricket::BaseSession::STATE_SENTACCEPT:
case cricket::BaseSession::STATE_RECEIVEDACCEPT:
ChangeSignalingState(PeerConnectionInterface::kStable);
break;
case cricket::BaseSession::STATE_RECEIVEDTERMINATE:
ChangeSignalingState(PeerConnectionInterface::kClosed);
break;
default:
break;
}
}
void PeerConnection::OnMessage(rtc::Message* msg) {
switch (msg->message_id) {
case MSG_SET_SESSIONDESCRIPTION_SUCCESS: {
SetSessionDescriptionMsg* param =
static_cast<SetSessionDescriptionMsg*>(msg->pdata);
param->observer->OnSuccess();
delete param;
break;
}
case MSG_SET_SESSIONDESCRIPTION_FAILED: {
SetSessionDescriptionMsg* param =
static_cast<SetSessionDescriptionMsg*>(msg->pdata);
param->observer->OnFailure(param->error);
delete param;
break;
}
case MSG_GETSTATS: {
GetStatsMsg* param = static_cast<GetStatsMsg*>(msg->pdata);
StatsReports reports;
stats_->GetStats(param->track, &reports);
param->observer->OnComplete(reports);
delete param;
break;
}
default:
ASSERT(false && "Not implemented");
break;
}
}
void PeerConnection::OnAddRemoteStream(MediaStreamInterface* stream) {
stats_->AddStream(stream);
observer_->OnAddStream(stream);
}
void PeerConnection::OnRemoveRemoteStream(MediaStreamInterface* stream) {
stream_handler_container_->RemoveRemoteStream(stream);
observer_->OnRemoveStream(stream);
}
void PeerConnection::OnAddDataChannel(DataChannelInterface* data_channel) {
observer_->OnDataChannel(DataChannelProxy::Create(signaling_thread(),
data_channel));
}
void PeerConnection::OnAddRemoteAudioTrack(MediaStreamInterface* stream,
AudioTrackInterface* audio_track,
uint32 ssrc) {
stream_handler_container_->AddRemoteAudioTrack(stream, audio_track, ssrc);
}
void PeerConnection::OnAddRemoteVideoTrack(MediaStreamInterface* stream,
VideoTrackInterface* video_track,
uint32 ssrc) {
stream_handler_container_->AddRemoteVideoTrack(stream, video_track, ssrc);
}
void PeerConnection::OnRemoveRemoteAudioTrack(
MediaStreamInterface* stream,
AudioTrackInterface* audio_track) {
stream_handler_container_->RemoveRemoteTrack(stream, audio_track);
}
void PeerConnection::OnRemoveRemoteVideoTrack(
MediaStreamInterface* stream,
VideoTrackInterface* video_track) {
stream_handler_container_->RemoveRemoteTrack(stream, video_track);
}
void PeerConnection::OnAddLocalAudioTrack(MediaStreamInterface* stream,
AudioTrackInterface* audio_track,
uint32 ssrc) {
stream_handler_container_->AddLocalAudioTrack(stream, audio_track, ssrc);
stats_->AddLocalAudioTrack(audio_track, ssrc);
}
void PeerConnection::OnAddLocalVideoTrack(MediaStreamInterface* stream,
VideoTrackInterface* video_track,
uint32 ssrc) {
stream_handler_container_->AddLocalVideoTrack(stream, video_track, ssrc);
}
void PeerConnection::OnRemoveLocalAudioTrack(MediaStreamInterface* stream,
AudioTrackInterface* audio_track,
uint32 ssrc) {
stream_handler_container_->RemoveLocalTrack(stream, audio_track);
stats_->RemoveLocalAudioTrack(audio_track, ssrc);
}
void PeerConnection::OnRemoveLocalVideoTrack(MediaStreamInterface* stream,
VideoTrackInterface* video_track) {
stream_handler_container_->RemoveLocalTrack(stream, video_track);
}
void PeerConnection::OnRemoveLocalStream(MediaStreamInterface* stream) {
stream_handler_container_->RemoveLocalStream(stream);
}
void PeerConnection::OnIceConnectionChange(
PeerConnectionInterface::IceConnectionState new_state) {
ASSERT(signaling_thread()->IsCurrent());
ice_connection_state_ = new_state;
observer_->OnIceConnectionChange(ice_connection_state_);
}
void PeerConnection::OnIceGatheringChange(
PeerConnectionInterface::IceGatheringState new_state) {
ASSERT(signaling_thread()->IsCurrent());
if (IsClosed()) {
return;
}
ice_gathering_state_ = new_state;
observer_->OnIceGatheringChange(ice_gathering_state_);
}
void PeerConnection::OnIceCandidate(const IceCandidateInterface* candidate) {
ASSERT(signaling_thread()->IsCurrent());
observer_->OnIceCandidate(candidate);
}
void PeerConnection::OnIceComplete() {
ASSERT(signaling_thread()->IsCurrent());
observer_->OnIceComplete();
}
void PeerConnection::OnIceConnectionReceivingChange(bool receiving) {
ASSERT(signaling_thread()->IsCurrent());
observer_->OnIceConnectionReceivingChange(receiving);
}
void PeerConnection::ChangeSignalingState(
PeerConnectionInterface::SignalingState signaling_state) {
signaling_state_ = signaling_state;
if (signaling_state == kClosed) {
ice_connection_state_ = kIceConnectionClosed;
observer_->OnIceConnectionChange(ice_connection_state_);
if (ice_gathering_state_ != kIceGatheringComplete) {
ice_gathering_state_ = kIceGatheringComplete;
observer_->OnIceGatheringChange(ice_gathering_state_);
}
}
observer_->OnSignalingChange(signaling_state_);
observer_->OnStateChange(PeerConnectionObserver::kSignalingState);
}
} // namespace webrtc