Google Git
Sign in
webkit / WebKit / ecbcd311b05ac239b92fcb2f58299787a062a338 / . / Source / WebCore / Modules / mediastream / RTCPeerConnection.cpp
blob: 09b0396769f599db9909416dc4a57cd613c286f3 [file] [log] [blame]
/*
* Copyright (C) 2012 Google Inc. All rights reserved.
* Copyright (C) 2013 Nokia Corporation and/or its subsidiary(-ies).
* Copyright (C) 2015, 2016 Ericsson AB. All rights reserved.
* Copyright (C) 2017 Apple Inc. All rights reserved.
*
* 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. Neither the name of Google Inc. nor the names of its contributors
* may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "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 COPYRIGHT
* OWNER OR CONTRIBUTORS 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 "config.h"
#include "RTCPeerConnection.h"
#if ENABLE(WEB_RTC)
#include "Document.h"
#include "Event.h"
#include "EventNames.h"
#include "Frame.h"
#include "JSDOMPromiseDeferred.h"
#include "JSRTCPeerConnection.h"
#include "Logging.h"
#include "MediaEndpointConfiguration.h"
#include "MediaStream.h"
#include "MediaStreamTrack.h"
#include "Page.h"
#include "RTCConfiguration.h"
#include "RTCController.h"
#include "RTCDataChannel.h"
#include "RTCIceCandidate.h"
#include "RTCPeerConnectionIceEvent.h"
#include "RTCSessionDescription.h"
#include "Settings.h"
#include <wtf/CryptographicallyRandomNumber.h>
#include <wtf/IsoMallocInlines.h>
#include <wtf/MainThread.h>
#include <wtf/UUID.h>
#include <wtf/text/Base64.h>
namespace WebCore {
using namespace PeerConnection;
WTF_MAKE_ISO_ALLOCATED_IMPL(RTCPeerConnection);
Ref<RTCPeerConnection> RTCPeerConnection::create(ScriptExecutionContext& context)
{
auto& document = downcast<Document>(context);
auto peerConnection = adoptRef(*new RTCPeerConnection(document));
peerConnection->suspendIfNeeded();
if (!peerConnection->isClosed()) {
if (auto* page = document.page()) {
peerConnection->registerToController(page->rtcController());
page->libWebRTCProvider().setEnableLogging(!page->sessionID().isEphemeral());
}
}
return peerConnection;
}
RTCPeerConnection::RTCPeerConnection(Document& document)
: ActiveDOMObject(document)
#if !RELEASE_LOG_DISABLED
, m_logger(document.logger())
, m_logIdentifier(reinterpret_cast<const void*>(cryptographicallyRandomNumber()))
#endif
, m_backend(PeerConnectionBackend::create(*this))
{
ALWAYS_LOG(LOGIDENTIFIER);
#if !RELEASE_LOG_DISABLED
auto* page = document.page();
if (page && !page->settings().webRTCEncryptionEnabled())
ALWAYS_LOG(LOGIDENTIFIER, "encryption is disabled");
#endif
if (!m_backend)
m_connectionState = RTCPeerConnectionState::Closed;
}
RTCPeerConnection::~RTCPeerConnection()
{
ALWAYS_LOG(LOGIDENTIFIER);
unregisterFromController();
stop();
}
ExceptionOr<void> RTCPeerConnection::initializeWith(Document& document, RTCConfiguration&& configuration)
{
if (!document.frame())
return Exception { NotSupportedError };
if (!m_backend)
return Exception { NotSupportedError };
return initializeConfiguration(WTFMove(configuration));
}
ExceptionOr<Ref<RTCRtpSender>> RTCPeerConnection::addTrack(Ref<MediaStreamTrack>&& track, const Vector<std::reference_wrapper<MediaStream>>& streams)
{
INFO_LOG(LOGIDENTIFIER);
if (isClosed())
return Exception { InvalidStateError };
for (auto& transceiver : m_transceiverSet->list()) {
if (transceiver->sender().trackId() == track->id())
return Exception { InvalidAccessError };
}
Vector<String> mediaStreamIds;
for (auto stream : streams)
mediaStreamIds.append(stream.get().id());
return m_backend->addTrack(track.get(), WTFMove(mediaStreamIds));
}
ExceptionOr<void> RTCPeerConnection::removeTrack(RTCRtpSender& sender)
{
INFO_LOG(LOGIDENTIFIER);
if (isClosed())
return Exception { InvalidStateError, "RTCPeerConnection is closed"_s };
if (!sender.isCreatedBy(*m_backend))
return Exception { InvalidAccessError, "RTCPeerConnection did not create the given sender"_s };
bool shouldAbort = true;
RTCRtpTransceiver* senderTransceiver = nullptr;
for (auto& transceiver : m_transceiverSet->list()) {
if (&sender == &transceiver->sender()) {
senderTransceiver = transceiver.get();
shouldAbort = sender.isStopped() || !sender.track();
break;
}
}
if (shouldAbort)
return { };
sender.setTrackToNull();
senderTransceiver->disableSendingDirection();
m_backend->removeTrack(sender);
return { };
}
ExceptionOr<Ref<RTCRtpTransceiver>> RTCPeerConnection::addTransceiver(AddTransceiverTrackOrKind&& withTrack, const RTCRtpTransceiverInit& init)
{
INFO_LOG(LOGIDENTIFIER);
if (WTF::holds_alternative<String>(withTrack)) {
const String& kind = WTF::get<String>(withTrack);
if (kind != "audio"_s && kind != "video"_s)
return Exception { TypeError };
if (isClosed())
return Exception { InvalidStateError };
return m_backend->addTransceiver(kind, init);
}
if (isClosed())
return Exception { InvalidStateError };
auto track = WTF::get<RefPtr<MediaStreamTrack>>(withTrack).releaseNonNull();
return m_backend->addTransceiver(WTFMove(track), init);
}
void RTCPeerConnection::queuedCreateOffer(RTCOfferOptions&& options, SessionDescriptionPromise&& promise)
{
ALWAYS_LOG(LOGIDENTIFIER);
if (isClosed()) {
promise.reject(InvalidStateError);
return;
}
addPendingPromise(promise);
m_backend->createOffer(WTFMove(options), WTFMove(promise));
}
void RTCPeerConnection::queuedCreateAnswer(RTCAnswerOptions&& options, SessionDescriptionPromise&& promise)
{
ALWAYS_LOG(LOGIDENTIFIER);
if (isClosed()) {
promise.reject(InvalidStateError);
return;
}
addPendingPromise(promise);
m_backend->createAnswer(WTFMove(options), WTFMove(promise));
}
void RTCPeerConnection::queuedSetLocalDescription(RTCSessionDescription& description, DOMPromiseDeferred<void>&& promise)
{
ALWAYS_LOG(LOGIDENTIFIER, "Setting local description to:\n", description.sdp());
if (isClosed()) {
promise.reject(InvalidStateError);
return;
}
addPendingPromise(promise);
m_backend->setLocalDescription(description, WTFMove(promise));
}
RefPtr<RTCSessionDescription> RTCPeerConnection::localDescription() const
{
return m_backend->localDescription();
}
RefPtr<RTCSessionDescription> RTCPeerConnection::currentLocalDescription() const
{
return m_backend->currentLocalDescription();
}
RefPtr<RTCSessionDescription> RTCPeerConnection::pendingLocalDescription() const
{
return m_backend->pendingLocalDescription();
}
void RTCPeerConnection::queuedSetRemoteDescription(RTCSessionDescription& description, DOMPromiseDeferred<void>&& promise)
{
ALWAYS_LOG(LOGIDENTIFIER, "Setting remote description to:\n", description.sdp());
if (isClosed()) {
promise.reject(InvalidStateError);
return;
}
addPendingPromise(promise);
m_backend->setRemoteDescription(description, WTFMove(promise));
}
RefPtr<RTCSessionDescription> RTCPeerConnection::remoteDescription() const
{
return m_backend->remoteDescription();
}
RefPtr<RTCSessionDescription> RTCPeerConnection::currentRemoteDescription() const
{
return m_backend->currentRemoteDescription();
}
RefPtr<RTCSessionDescription> RTCPeerConnection::pendingRemoteDescription() const
{
return m_backend->pendingRemoteDescription();
}
void RTCPeerConnection::queuedAddIceCandidate(RTCIceCandidate* rtcCandidate, DOMPromiseDeferred<void>&& promise)
{
ALWAYS_LOG(LOGIDENTIFIER, "Received ice candidate:\n", rtcCandidate ? rtcCandidate->candidate() : "null");
if (isClosed()) {
promise.reject(InvalidStateError);
return;
}
addPendingPromise(promise);
m_backend->addIceCandidate(rtcCandidate, WTFMove(promise));
}
// Implementation of https://w3c.github.io/webrtc-pc/#set-pc-configuration
static inline ExceptionOr<Vector<MediaEndpointConfiguration::IceServerInfo>> iceServersFromConfiguration(RTCConfiguration& newConfiguration, const RTCConfiguration* existingConfiguration, bool isLocalDescriptionSet)
{
if (existingConfiguration && newConfiguration.bundlePolicy != existingConfiguration->bundlePolicy)
return Exception { InvalidModificationError, "BundlePolicy does not match existing policy" };
if (existingConfiguration && newConfiguration.rtcpMuxPolicy != existingConfiguration->rtcpMuxPolicy)
return Exception { InvalidModificationError, "RTCPMuxPolicy does not match existing policy" };
if (existingConfiguration && newConfiguration.iceCandidatePoolSize != existingConfiguration->iceCandidatePoolSize && isLocalDescriptionSet)
return Exception { InvalidModificationError, "IceTransportPolicy pool size does not match existing pool size" };
Vector<MediaEndpointConfiguration::IceServerInfo> servers;
if (newConfiguration.iceServers) {
servers.reserveInitialCapacity(newConfiguration.iceServers->size());
for (auto& server : newConfiguration.iceServers.value()) {
Vector<URL> serverURLs;
WTF::switchOn(server.urls, [&serverURLs] (const String& string) {
serverURLs.reserveInitialCapacity(1);
serverURLs.uncheckedAppend(URL { URL { }, string });
}, [&serverURLs] (const Vector<String>& vector) {
serverURLs.reserveInitialCapacity(vector.size());
for (auto& string : vector)
serverURLs.uncheckedAppend(URL { URL { }, string });
});
for (auto& serverURL : serverURLs) {
if (serverURL.isNull())
return Exception { TypeError, "Bad ICE server URL" };
if (serverURL.protocolIs("turn") || serverURL.protocolIs("turns")) {
if (server.credential.isNull() || server.username.isNull())
return Exception { InvalidAccessError, "TURN/TURNS server requires both username and credential" };
} else if (!serverURL.protocolIs("stun"))
return Exception { NotSupportedError, "ICE server protocol not supported" };
}
if (serverURLs.size())
servers.uncheckedAppend({ WTFMove(serverURLs), server.credential, server.username });
}
}
return servers;
}
ExceptionOr<Vector<MediaEndpointConfiguration::CertificatePEM>> RTCPeerConnection::certificatesFromConfiguration(const RTCConfiguration& configuration)
{
auto currentMilliSeconds = WallTime::now().secondsSinceEpoch().milliseconds();
auto& origin = document()->securityOrigin();
Vector<MediaEndpointConfiguration::CertificatePEM> certificates;
certificates.reserveInitialCapacity(configuration.certificates.size());
for (auto& certificate : configuration.certificates) {
if (!origin.isSameOriginAs(certificate->origin()))
return Exception { InvalidAccessError, "Certificate does not have a valid origin" };
if (currentMilliSeconds > certificate->expires())
return Exception { InvalidAccessError, "Certificate has expired"_s };
certificates.uncheckedAppend(MediaEndpointConfiguration::CertificatePEM { certificate->pemCertificate(), certificate->pemPrivateKey(), });
}
return certificates;
}
ExceptionOr<void> RTCPeerConnection::initializeConfiguration(RTCConfiguration&& configuration)
{
INFO_LOG(LOGIDENTIFIER);
auto servers = iceServersFromConfiguration(configuration, nullptr, false);
if (servers.hasException())
return servers.releaseException();
auto certificates = certificatesFromConfiguration(configuration);
if (certificates.hasException())
return certificates.releaseException();
if (!m_backend->setConfiguration({ servers.releaseReturnValue(), configuration.iceTransportPolicy, configuration.bundlePolicy, configuration.rtcpMuxPolicy, configuration.iceCandidatePoolSize, certificates.releaseReturnValue() }))
return Exception { InvalidAccessError, "Bad Configuration Parameters" };
m_configuration = WTFMove(configuration);
return { };
}
ExceptionOr<void> RTCPeerConnection::setConfiguration(RTCConfiguration&& configuration)
{
if (isClosed())
return Exception { InvalidStateError };
INFO_LOG(LOGIDENTIFIER);
auto servers = iceServersFromConfiguration(configuration, &m_configuration, m_backend->isLocalDescriptionSet());
if (servers.hasException())
return servers.releaseException();
if (configuration.certificates.size()) {
if (configuration.certificates.size() != m_configuration.certificates.size())
return Exception { InvalidModificationError, "Certificates parameters are different" };
for (auto& certificate : configuration.certificates) {
bool isThere = m_configuration.certificates.findMatching([&certificate](const auto& item) {
return item.get() == certificate.get();
}) != notFound;
if (!isThere)
return Exception { InvalidModificationError, "A certificate given in constructor is not present" };
}
}
if (!m_backend->setConfiguration({ servers.releaseReturnValue(), configuration.iceTransportPolicy, configuration.bundlePolicy, configuration.rtcpMuxPolicy, configuration.iceCandidatePoolSize, { } }))
return Exception { InvalidAccessError, "Bad Configuration Parameters" };
m_configuration = WTFMove(configuration);
return { };
}
void RTCPeerConnection::getStats(MediaStreamTrack* selector, Ref<DeferredPromise>&& promise)
{
if (selector) {
for (auto& transceiver : m_transceiverSet->list()) {
if (transceiver->sender().track() == selector) {
m_backend->getStats(transceiver->sender(), WTFMove(promise));
return;
}
if (&transceiver->receiver().track() == selector) {
m_backend->getStats(transceiver->receiver(), WTFMove(promise));
return;
}
}
}
addPendingPromise(promise.get());
m_backend->getStats(WTFMove(promise));
}
ExceptionOr<Ref<RTCDataChannel>> RTCPeerConnection::createDataChannel(String&& label, RTCDataChannelInit&& options)
{
ALWAYS_LOG(LOGIDENTIFIER);
if (isClosed())
return Exception { InvalidStateError };
if (options.negotiated && !options.negotiated.value() && (label.length() > 65535 || options.protocol.length() > 65535))
return Exception { TypeError };
if (options.maxPacketLifeTime && options.maxRetransmits)
return Exception { TypeError };
if (options.id && options.id.value() > 65534)
return Exception { TypeError };
auto channelHandler = m_backend->createDataChannelHandler(label, options);
if (!channelHandler)
return Exception { NotSupportedError };
return RTCDataChannel::create(*document(), WTFMove(channelHandler), WTFMove(label), WTFMove(options));
}
bool RTCPeerConnection::doClose()
{
if (isClosed())
return false;
m_shouldDelayTasks = false;
m_connectionState = RTCPeerConnectionState::Closed;
m_iceConnectionState = RTCIceConnectionState::Closed;
m_signalingState = RTCSignalingState::Closed;
for (auto& transceiver : m_transceiverSet->list()) {
transceiver->stop();
transceiver->sender().stop();
transceiver->receiver().stop();
}
return true;
}
void RTCPeerConnection::close()
{
if (!doClose())
return;
updateConnectionState();
ASSERT(isClosed());
doStop();
}
void RTCPeerConnection::emulatePlatformEvent(const String& action)
{
m_backend->emulatePlatformEvent(action);
}
void RTCPeerConnection::stop()
{
if (!doClose())
return;
doStop();
}
void RTCPeerConnection::doStop()
{
if (m_isStopped)
return;
m_isStopped = true;
m_backend->stop();
}
void RTCPeerConnection::registerToController(RTCController& controller)
{
m_controller = &controller;
m_controller->add(*this);
}
void RTCPeerConnection::unregisterFromController()
{
if (m_controller)
m_controller->remove(*this);
}
const char* RTCPeerConnection::activeDOMObjectName() const
{
return "RTCPeerConnection";
}
// FIXME: This should never prevent entering the back/forward cache.
bool RTCPeerConnection::shouldPreventEnteringBackForwardCache_DEPRECATED() const
{
return m_iceConnectionState == RTCIceConnectionState::Completed || m_iceConnectionState == RTCIceConnectionState::Connected;
}
void RTCPeerConnection::suspend(ReasonForSuspension reason)
{
if (reason != ReasonForSuspension::BackForwardCache)
return;
m_shouldDelayTasks = true;
m_backend->suspend();
}
void RTCPeerConnection::resume()
{
if (!m_shouldDelayTasks)
return;
m_shouldDelayTasks = false;
m_backend->resume();
scriptExecutionContext()->postTask([this, protectedThis = makeRef(*this)](auto&) {
if (m_isStopped || m_shouldDelayTasks)
return;
auto tasks = WTFMove(m_pendingTasks);
for (auto& task : tasks)
task();
});
}
bool RTCPeerConnection::hasPendingActivity() const
{
if (m_isStopped)
return false;
// This returns true if we have pending promises to be resolved.
if (ActiveDOMObject::hasPendingActivity())
return true;
// As long as the connection is not stopped and it has event listeners, it may dispatch events.
return hasEventListeners();
}
void RTCPeerConnection::addTransceiver(Ref<RTCRtpTransceiver>&& transceiver)
{
INFO_LOG(LOGIDENTIFIER);
m_transceiverSet->append(WTFMove(transceiver));
}
void RTCPeerConnection::setSignalingState(RTCSignalingState newState)
{
ALWAYS_LOG(LOGIDENTIFIER, newState);
m_signalingState = newState;
}
void RTCPeerConnection::updateIceGatheringState(RTCIceGatheringState newState)
{
ALWAYS_LOG(LOGIDENTIFIER, newState);
scriptExecutionContext()->postTask([protectedThis = makeRef(*this), newState](ScriptExecutionContext&) {
if (protectedThis->isClosed() || protectedThis->m_iceGatheringState == newState)
return;
protectedThis->m_iceGatheringState = newState;
protectedThis->dispatchEventWhenFeasible(Event::create(eventNames().icegatheringstatechangeEvent, Event::CanBubble::No, Event::IsCancelable::No));
protectedThis->updateConnectionState();
});
}
void RTCPeerConnection::updateIceConnectionState(RTCIceConnectionState newState)
{
ALWAYS_LOG(LOGIDENTIFIER, newState);
scriptExecutionContext()->postTask([protectedThis = makeRef(*this), newState](ScriptExecutionContext&) {
if (protectedThis->isClosed() || protectedThis->m_iceConnectionState == newState)
return;
protectedThis->m_iceConnectionState = newState;
protectedThis->dispatchEventWhenFeasible(Event::create(eventNames().iceconnectionstatechangeEvent, Event::CanBubble::No, Event::IsCancelable::No));
protectedThis->updateConnectionState();
});
}
void RTCPeerConnection::updateConnectionState()
{
RTCPeerConnectionState state;
if (m_iceConnectionState == RTCIceConnectionState::Closed)
state = RTCPeerConnectionState::Closed;
else if (m_iceConnectionState == RTCIceConnectionState::Disconnected)
state = RTCPeerConnectionState::Disconnected;
else if (m_iceConnectionState == RTCIceConnectionState::Failed)
state = RTCPeerConnectionState::Failed;
else if (m_iceConnectionState == RTCIceConnectionState::New && m_iceGatheringState == RTCIceGatheringState::New)
state = RTCPeerConnectionState::New;
else if (m_iceConnectionState == RTCIceConnectionState::Checking || m_iceGatheringState == RTCIceGatheringState::Gathering)
state = RTCPeerConnectionState::Connecting;
else if ((m_iceConnectionState == RTCIceConnectionState::Completed || m_iceConnectionState == RTCIceConnectionState::Connected) && m_iceGatheringState == RTCIceGatheringState::Complete)
state = RTCPeerConnectionState::Connected;
else
return;
if (state == m_connectionState)
return;
INFO_LOG(LOGIDENTIFIER, "state changed from: " , m_connectionState, " to ", state);
m_connectionState = state;
dispatchEventWhenFeasible(Event::create(eventNames().connectionstatechangeEvent, Event::CanBubble::No, Event::IsCancelable::No));
}
void RTCPeerConnection::scheduleNegotiationNeededEvent()
{
scriptExecutionContext()->postTask([protectedThis = makeRef(*this)](ScriptExecutionContext&) {
if (protectedThis->isClosed())
return;
if (!protectedThis->m_backend->isNegotiationNeeded())
return;
protectedThis->m_backend->clearNegotiationNeededState();
protectedThis->dispatchEventWhenFeasible(Event::create(eventNames().negotiationneededEvent, Event::CanBubble::No, Event::IsCancelable::No));
});
}
void RTCPeerConnection::doTask(Function<void()>&& task)
{
if (m_shouldDelayTasks || !m_pendingTasks.isEmpty()) {
m_pendingTasks.append(WTFMove(task));
return;
}
task();
}
void RTCPeerConnection::dispatchEventWhenFeasible(Ref<Event>&& event)
{
doTask([this, event = WTFMove(event)] {
dispatchEvent(event);
});
}
void RTCPeerConnection::dispatchEvent(Event& event)
{
INFO_LOG(LOGIDENTIFIER, "dispatching '", event.type(), "'");
EventTarget::dispatchEvent(event);
}
static inline ExceptionOr<PeerConnectionBackend::CertificateInformation> certificateTypeFromAlgorithmIdentifier(JSC::ExecState& state, RTCPeerConnection::AlgorithmIdentifier&& algorithmIdentifier)
{
if (WTF::holds_alternative<String>(algorithmIdentifier))
return Exception { NotSupportedError, "Algorithm is not supported"_s };
auto& value = WTF::get<JSC::Strong<JSC::JSObject>>(algorithmIdentifier);
JSC::VM& vm = state.vm();
auto scope = DECLARE_CATCH_SCOPE(vm);
auto parameters = convertDictionary<RTCPeerConnection::CertificateParameters>(state, value.get());
if (UNLIKELY(scope.exception())) {
scope.clearException();
return Exception { TypeError, "Unable to read certificate parameters"_s };
}
if (parameters.expires && *parameters.expires < 0)
return Exception { TypeError, "Expire value is invalid"_s };
if (parameters.name == "RSASSA-PKCS1-v1_5"_s) {
if (!parameters.hash.isNull() && parameters.hash != "SHA-256"_s)
return Exception { NotSupportedError, "Only SHA-256 is supported for RSASSA-PKCS1-v1_5"_s };
auto result = PeerConnectionBackend::CertificateInformation::RSASSA_PKCS1_v1_5();
if (parameters.modulusLength && parameters.publicExponent) {
int publicExponent = 0;
int value = 1;
for (unsigned counter = 0; counter < parameters.publicExponent->byteLength(); ++counter) {
publicExponent += parameters.publicExponent->data()[counter] * value;
value <<= 8;
}
result.rsaParameters = PeerConnectionBackend::CertificateInformation::RSA { *parameters.modulusLength, publicExponent };
}
result.expires = parameters.expires;
return result;
}
if (parameters.name == "ECDSA"_s && parameters.namedCurve == "P-256"_s) {
auto result = PeerConnectionBackend::CertificateInformation::ECDSA_P256();
result.expires = parameters.expires;
return result;
}
return Exception { NotSupportedError, "Algorithm is not supported"_s };
}
void RTCPeerConnection::generateCertificate(JSC::ExecState& state, AlgorithmIdentifier&& algorithmIdentifier, DOMPromiseDeferred<IDLInterface<RTCCertificate>>&& promise)
{
auto parameters = certificateTypeFromAlgorithmIdentifier(state, WTFMove(algorithmIdentifier));
if (parameters.hasException()) {
promise.reject(parameters.releaseException());
return;
}
auto& document = downcast<Document>(*JSC::jsCast<JSDOMGlobalObject*>(state.lexicalGlobalObject())->scriptExecutionContext());
PeerConnectionBackend::generateCertificate(document, parameters.returnValue(), WTFMove(promise));
}
Vector<std::reference_wrapper<RTCRtpSender>> RTCPeerConnection::getSenders() const
{
m_backend->collectTransceivers();
return m_transceiverSet->senders();
}
Vector<std::reference_wrapper<RTCRtpReceiver>> RTCPeerConnection::getReceivers() const
{
m_backend->collectTransceivers();
return m_transceiverSet->receivers();
}
const Vector<RefPtr<RTCRtpTransceiver>>& RTCPeerConnection::getTransceivers() const
{
m_backend->collectTransceivers();
return m_transceiverSet->list();
}
Document* RTCPeerConnection::document()
{
return downcast<Document>(scriptExecutionContext());
}
#if !RELEASE_LOG_DISABLED
WTFLogChannel& RTCPeerConnection::logChannel() const
{
return LogWebRTC;
}
#endif
} // namespace WebCore
#endif // ENABLE(WEB_RTC)