Google Git
Sign in
webkit / WebKit / c3598d4cc3f1bb1233b6e772dc630bbf31094b64 / . / Source / WebCore / Modules / mediastream / libwebrtc / LibWebRTCPeerConnectionBackend.cpp
blob: 207f15e6457b9dfcac1c339ea39fea1d77859d8b [file] [log] [blame]
/*
* Copyright (C) 2017-2018 Apple 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.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS 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 APPLE INC. OR ITS 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 "LibWebRTCPeerConnectionBackend.h"
#if USE(LIBWEBRTC)
#include "Document.h"
#include "IceCandidate.h"
#include "LibWebRTCDataChannelHandler.h"
#include "LibWebRTCMediaEndpoint.h"
#include "LibWebRTCRtpReceiverBackend.h"
#include "LibWebRTCRtpSenderBackend.h"
#include "LibWebRTCRtpTransceiverBackend.h"
#include "MediaEndpointConfiguration.h"
#include "Page.h"
#include "RTCIceCandidate.h"
#include "RTCPeerConnection.h"
#include "RTCRtpCapabilities.h"
#include "RTCRtpReceiver.h"
#include "RTCSessionDescription.h"
#include "RealtimeIncomingAudioSource.h"
#include "RealtimeIncomingVideoSource.h"
#include "RealtimeOutgoingAudioSource.h"
#include "RealtimeOutgoingVideoSource.h"
#include "RuntimeEnabledFeatures.h"
#include "Settings.h"
namespace WebCore {
static std::unique_ptr<PeerConnectionBackend> createLibWebRTCPeerConnectionBackend(RTCPeerConnection& peerConnection)
{
if (!LibWebRTCProvider::webRTCAvailable())
return nullptr;
auto* page = downcast<Document>(*peerConnection.scriptExecutionContext()).page();
if (!page)
return nullptr;
page->libWebRTCProvider().setEnableWebRTCEncryption(page->settings().webRTCEncryptionEnabled());
return std::make_unique<LibWebRTCPeerConnectionBackend>(peerConnection, page->libWebRTCProvider());
}
CreatePeerConnectionBackend PeerConnectionBackend::create = createLibWebRTCPeerConnectionBackend;
Optional<RTCRtpCapabilities> PeerConnectionBackend::receiverCapabilities(ScriptExecutionContext& context, const String& kind)
{
auto* page = downcast<Document>(context).page();
if (!page)
return { };
return page->libWebRTCProvider().receiverCapabilities(kind);
}
Optional<RTCRtpCapabilities> PeerConnectionBackend::senderCapabilities(ScriptExecutionContext& context, const String& kind)
{
auto* page = downcast<Document>(context).page();
if (!page)
return { };
return page->libWebRTCProvider().senderCapabilities(kind);
}
LibWebRTCPeerConnectionBackend::LibWebRTCPeerConnectionBackend(RTCPeerConnection& peerConnection, LibWebRTCProvider& provider)
: PeerConnectionBackend(peerConnection)
, m_endpoint(LibWebRTCMediaEndpoint::create(*this, provider))
{
}
LibWebRTCPeerConnectionBackend::~LibWebRTCPeerConnectionBackend() = default;
static inline webrtc::PeerConnectionInterface::BundlePolicy bundlePolicyfromConfiguration(const MediaEndpointConfiguration& configuration)
{
switch (configuration.bundlePolicy) {
case RTCBundlePolicy::MaxCompat:
return webrtc::PeerConnectionInterface::kBundlePolicyMaxCompat;
case RTCBundlePolicy::MaxBundle:
return webrtc::PeerConnectionInterface::kBundlePolicyMaxBundle;
case RTCBundlePolicy::Balanced:
return webrtc::PeerConnectionInterface::kBundlePolicyBalanced;
}
ASSERT_NOT_REACHED();
return webrtc::PeerConnectionInterface::kBundlePolicyMaxCompat;
}
static inline webrtc::PeerConnectionInterface::RtcpMuxPolicy rtcpMuxPolicyfromConfiguration(const MediaEndpointConfiguration& configuration)
{
switch (configuration.rtcpMuxPolicy) {
case RTCPMuxPolicy::Negotiate:
return webrtc::PeerConnectionInterface::kRtcpMuxPolicyNegotiate;
case RTCPMuxPolicy::Require:
return webrtc::PeerConnectionInterface::kRtcpMuxPolicyRequire;
}
ASSERT_NOT_REACHED();
return webrtc::PeerConnectionInterface::kRtcpMuxPolicyRequire;
}
static inline webrtc::PeerConnectionInterface::IceTransportsType iceTransportPolicyfromConfiguration(const MediaEndpointConfiguration& configuration)
{
switch (configuration.iceTransportPolicy) {
case RTCIceTransportPolicy::Relay:
return webrtc::PeerConnectionInterface::kRelay;
case RTCIceTransportPolicy::All:
return webrtc::PeerConnectionInterface::kAll;
}
ASSERT_NOT_REACHED();
return webrtc::PeerConnectionInterface::kNone;
}
static webrtc::PeerConnectionInterface::RTCConfiguration configurationFromMediaEndpointConfiguration(MediaEndpointConfiguration&& configuration)
{
webrtc::PeerConnectionInterface::RTCConfiguration rtcConfiguration;
rtcConfiguration.type = iceTransportPolicyfromConfiguration(configuration);
rtcConfiguration.bundle_policy = bundlePolicyfromConfiguration(configuration);
rtcConfiguration.rtcp_mux_policy = rtcpMuxPolicyfromConfiguration(configuration);
for (auto& server : configuration.iceServers) {
webrtc::PeerConnectionInterface::IceServer iceServer;
iceServer.username = server.username.utf8().data();
iceServer.password = server.credential.utf8().data();
for (auto& url : server.urls)
iceServer.urls.push_back({ url.string().utf8().data() });
rtcConfiguration.servers.push_back(WTFMove(iceServer));
}
rtcConfiguration.set_cpu_adaptation(false);
// FIXME: Activate ice candidate pool size once it no longer bothers test bots.
// rtcConfiguration.ice_candidate_pool_size = configuration.iceCandidatePoolSize;
for (auto& pem : configuration.certificates) {
rtcConfiguration.certificates.push_back(rtc::RTCCertificate::FromPEM(rtc::RTCCertificatePEM {
pem.privateKey.utf8().data(), pem.certificate.utf8().data()
}));
}
return rtcConfiguration;
}
bool LibWebRTCPeerConnectionBackend::setConfiguration(MediaEndpointConfiguration&& configuration)
{
auto* page = downcast<Document>(*m_peerConnection.scriptExecutionContext()).page();
if (!page)
return false;
return m_endpoint->setConfiguration(page->libWebRTCProvider(), configurationFromMediaEndpointConfiguration(WTFMove(configuration)));
}
void LibWebRTCPeerConnectionBackend::getStats(Ref<DeferredPromise>&& promise)
{
m_endpoint->getStats(WTFMove(promise));
}
static inline LibWebRTCRtpSenderBackend& backendFromRTPSender(RTCRtpSender& sender)
{
ASSERT(!sender.isStopped());
return static_cast<LibWebRTCRtpSenderBackend&>(*sender.backend());
}
void LibWebRTCPeerConnectionBackend::getStats(RTCRtpSender& sender, Ref<DeferredPromise>&& promise)
{
webrtc::RtpSenderInterface* rtcSender = sender.backend() ? backendFromRTPSender(sender).rtcSender() : nullptr;
if (!rtcSender) {
m_endpoint->getStats(WTFMove(promise));
return;
}
m_endpoint->getStats(*rtcSender, WTFMove(promise));
}
void LibWebRTCPeerConnectionBackend::getStats(RTCRtpReceiver& receiver, Ref<DeferredPromise>&& promise)
{
webrtc::RtpReceiverInterface* rtcReceiver = receiver.backend() ? static_cast<LibWebRTCRtpReceiverBackend*>(receiver.backend())->rtcReceiver() : nullptr;
if (!rtcReceiver) {
m_endpoint->getStats(WTFMove(promise));
return;
}
m_endpoint->getStats(*rtcReceiver, WTFMove(promise));
}
void LibWebRTCPeerConnectionBackend::doSetLocalDescription(RTCSessionDescription& description)
{
m_endpoint->doSetLocalDescription(description);
if (!m_isLocalDescriptionSet) {
if (m_isRemoteDescriptionSet) {
for (auto& candidate : m_pendingCandidates)
m_endpoint->addIceCandidate(*candidate);
m_pendingCandidates.clear();
}
m_isLocalDescriptionSet = true;
}
}
void LibWebRTCPeerConnectionBackend::doSetRemoteDescription(RTCSessionDescription& description)
{
m_endpoint->doSetRemoteDescription(description);
if (!m_isRemoteDescriptionSet) {
if (m_isLocalDescriptionSet) {
for (auto& candidate : m_pendingCandidates)
m_endpoint->addIceCandidate(*candidate);
}
m_isRemoteDescriptionSet = true;
}
}
void LibWebRTCPeerConnectionBackend::doCreateOffer(RTCOfferOptions&& options)
{
m_endpoint->doCreateOffer(options);
}
void LibWebRTCPeerConnectionBackend::doCreateAnswer(RTCAnswerOptions&&)
{
if (!m_isRemoteDescriptionSet) {
createAnswerFailed(Exception { InvalidStateError, "No remote description set" });
return;
}
m_endpoint->doCreateAnswer();
}
void LibWebRTCPeerConnectionBackend::doStop()
{
m_endpoint->stop();
m_pendingReceivers.clear();
}
void LibWebRTCPeerConnectionBackend::doAddIceCandidate(RTCIceCandidate& candidate)
{
webrtc::SdpParseError error;
int sdpMLineIndex = candidate.sdpMLineIndex() ? candidate.sdpMLineIndex().value() : 0;
std::unique_ptr<webrtc::IceCandidateInterface> rtcCandidate(webrtc::CreateIceCandidate(candidate.sdpMid().utf8().data(), sdpMLineIndex, candidate.candidate().utf8().data(), &error));
if (!rtcCandidate) {
addIceCandidateFailed(Exception { OperationError, String::fromUTF8(error.description.data(), error.description.length()) });
return;
}
// libwebrtc does not like that ice candidates are set before the description.
if (!m_isLocalDescriptionSet || !m_isRemoteDescriptionSet)
m_pendingCandidates.append(WTFMove(rtcCandidate));
else if (!m_endpoint->addIceCandidate(*rtcCandidate.get())) {
ASSERT_NOT_REACHED();
addIceCandidateFailed(Exception { OperationError, "Failed to apply the received candidate"_s });
return;
}
addIceCandidateSucceeded();
}
Ref<RTCRtpReceiver> LibWebRTCPeerConnectionBackend::createReceiverForSource(Ref<RealtimeMediaSource>&& source, std::unique_ptr<RTCRtpReceiverBackend>&& backend)
{
auto& document = downcast<Document>(*m_peerConnection.scriptExecutionContext());
auto trackID = source->persistentID();
auto remoteTrackPrivate = MediaStreamTrackPrivate::create(document.logger(), WTFMove(source), WTFMove(trackID));
auto remoteTrack = MediaStreamTrack::create(document, WTFMove(remoteTrackPrivate));
return RTCRtpReceiver::create(*this, WTFMove(remoteTrack), WTFMove(backend));
}
static inline Ref<RealtimeMediaSource> createEmptySource(const String& trackKind, String&& trackId)
{
// FIXME: trackKind should be an enumeration
if (trackKind == "audio")
return RealtimeIncomingAudioSource::create(nullptr, WTFMove(trackId));
ASSERT(trackKind == "video");
return RealtimeIncomingVideoSource::create(nullptr, WTFMove(trackId));
}
Ref<RTCRtpReceiver> LibWebRTCPeerConnectionBackend::createReceiver(const String& trackKind, const String& trackId)
{
auto receiver = createReceiverForSource(createEmptySource(trackKind, String(trackId)), nullptr);
m_pendingReceivers.append(receiver.copyRef());
return receiver;
}
LibWebRTCPeerConnectionBackend::VideoReceiver LibWebRTCPeerConnectionBackend::videoReceiver(String&& trackId)
{
// FIXME: Add to Vector a utility routine for that take-or-create pattern.
// FIXME: We should be selecting the receiver based on track id.
for (size_t cptr = 0; cptr < m_pendingReceivers.size(); ++cptr) {
if (m_pendingReceivers[cptr]->track().source().type() == RealtimeMediaSource::Type::Video) {
Ref<RTCRtpReceiver> receiver = m_pendingReceivers[cptr].copyRef();
m_pendingReceivers.remove(cptr);
Ref<RealtimeIncomingVideoSource> source = static_cast<RealtimeIncomingVideoSource&>(receiver->track().source());
return { WTFMove(receiver), WTFMove(source) };
}
}
auto source = RealtimeIncomingVideoSource::create(nullptr, WTFMove(trackId));
auto receiver = createReceiverForSource(source.copyRef(), nullptr);
auto senderBackend = std::make_unique<LibWebRTCRtpSenderBackend>(*this, nullptr);
auto transceiver = RTCRtpTransceiver::create(RTCRtpSender::create(*this, "video"_s, { }, WTFMove(senderBackend)), receiver.copyRef(), nullptr);
transceiver->disableSendingDirection();
m_peerConnection.addTransceiver(WTFMove(transceiver));
return { WTFMove(receiver), WTFMove(source) };
}
LibWebRTCPeerConnectionBackend::AudioReceiver LibWebRTCPeerConnectionBackend::audioReceiver(String&& trackId)
{
// FIXME: Add to Vector a utility routine for that take-or-create pattern.
// FIXME: We should be selecting the receiver based on track id.
for (size_t cptr = 0; cptr < m_pendingReceivers.size(); ++cptr) {
if (m_pendingReceivers[cptr]->track().source().type() == RealtimeMediaSource::Type::Audio) {
Ref<RTCRtpReceiver> receiver = m_pendingReceivers[cptr].copyRef();
m_pendingReceivers.remove(cptr);
Ref<RealtimeIncomingAudioSource> source = static_cast<RealtimeIncomingAudioSource&>(receiver->track().source());
return { WTFMove(receiver), WTFMove(source) };
}
}
auto source = RealtimeIncomingAudioSource::create(nullptr, WTFMove(trackId));
auto receiver = createReceiverForSource(source.copyRef(), nullptr);
auto senderBackend = std::make_unique<LibWebRTCRtpSenderBackend>(*this, nullptr);
auto transceiver = RTCRtpTransceiver::create(RTCRtpSender::create(*this, "audio"_s, { }, WTFMove(senderBackend)), receiver.copyRef(), nullptr);
transceiver->disableSendingDirection();
m_peerConnection.addTransceiver(WTFMove(transceiver));
return { WTFMove(receiver), WTFMove(source) };
}
std::unique_ptr<RTCDataChannelHandler> LibWebRTCPeerConnectionBackend::createDataChannelHandler(const String& label, const RTCDataChannelInit& options)
{
return m_endpoint->createDataChannel(label, options);
}
RefPtr<RTCSessionDescription> LibWebRTCPeerConnectionBackend::currentLocalDescription() const
{
auto description = m_endpoint->currentLocalDescription();
if (description)
description->setSdp(filterSDP(String(description->sdp())));
return description;
}
RefPtr<RTCSessionDescription> LibWebRTCPeerConnectionBackend::currentRemoteDescription() const
{
return m_endpoint->currentRemoteDescription();
}
RefPtr<RTCSessionDescription> LibWebRTCPeerConnectionBackend::pendingLocalDescription() const
{
auto description = m_endpoint->pendingLocalDescription();
if (description)
description->setSdp(filterSDP(String(description->sdp())));
return description;
}
RefPtr<RTCSessionDescription> LibWebRTCPeerConnectionBackend::pendingRemoteDescription() const
{
return m_endpoint->pendingRemoteDescription();
}
RefPtr<RTCSessionDescription> LibWebRTCPeerConnectionBackend::localDescription() const
{
auto description = m_endpoint->localDescription();
if (description)
description->setSdp(filterSDP(String(description->sdp())));
return description;
}
RefPtr<RTCSessionDescription> LibWebRTCPeerConnectionBackend::remoteDescription() const
{
return m_endpoint->remoteDescription();
}
static inline RefPtr<RTCRtpSender> findExistingSender(const Vector<RefPtr<RTCRtpTransceiver>>& transceivers, LibWebRTCRtpSenderBackend& senderBackend)
{
ASSERT(senderBackend.rtcSender());
for (auto& transceiver : transceivers) {
auto& sender = transceiver->sender();
if (!sender.isStopped() && senderBackend.rtcSender() == backendFromRTPSender(sender).rtcSender())
return makeRef(sender);
}
return nullptr;
}
ExceptionOr<Ref<RTCRtpSender>> LibWebRTCPeerConnectionBackend::addTrack(MediaStreamTrack& track, Vector<String>&& mediaStreamIds)
{
if (RuntimeEnabledFeatures::sharedFeatures().webRTCUnifiedPlanEnabled()) {
auto senderBackend = std::make_unique<LibWebRTCRtpSenderBackend>(*this, nullptr);
if (!m_endpoint->addTrack(*senderBackend, track, mediaStreamIds))
return Exception { TypeError, "Unable to add track"_s };
if (auto sender = findExistingSender(m_peerConnection.currentTransceivers(), *senderBackend)) {
backendFromRTPSender(*sender).takeSource(*senderBackend);
sender->setTrack(makeRef(track));
sender->setMediaStreamIds(WTFMove(mediaStreamIds));
return sender.releaseNonNull();
}
auto transceiverBackend = m_endpoint->transceiverBackendFromSender(*senderBackend);
auto sender = RTCRtpSender::create(*this, makeRef(track), WTFMove(mediaStreamIds), WTFMove(senderBackend));
auto receiver = createReceiverForSource(createEmptySource(track.kind(), createCanonicalUUIDString()), transceiverBackend->createReceiverBackend());
auto transceiver = RTCRtpTransceiver::create(sender.copyRef(), WTFMove(receiver), WTFMove(transceiverBackend));
m_peerConnection.addInternalTransceiver(WTFMove(transceiver));
return sender;
}
RTCRtpSender* sender = nullptr;
// Reuse an existing sender with the same track kind if it has never been used to send before.
for (auto& transceiver : m_peerConnection.currentTransceivers()) {
auto& existingSender = transceiver->sender();
if (!existingSender.isStopped() && existingSender.trackKind() == track.kind() && existingSender.trackId().isNull() && !transceiver->hasSendingDirection()) {
existingSender.setTrack(makeRef(track));
existingSender.setMediaStreamIds(WTFMove(mediaStreamIds));
transceiver->enableSendingDirection();
sender = &existingSender;
break;
}
}
if (!sender) {
const String& trackKind = track.kind();
String trackId = createCanonicalUUIDString();
auto senderBackend = std::make_unique<LibWebRTCRtpSenderBackend>(*this, nullptr);
auto newSender = RTCRtpSender::create(*this, makeRef(track), Vector<String> { mediaStreamIds }, WTFMove(senderBackend));
auto receiver = createReceiver(trackKind, trackId);
auto transceiver = RTCRtpTransceiver::create(WTFMove(newSender), WTFMove(receiver), nullptr);
sender = &transceiver->sender();
m_peerConnection.addInternalTransceiver(WTFMove(transceiver));
}
if (!m_endpoint->addTrack(backendFromRTPSender(*sender), track, mediaStreamIds))
return Exception { TypeError, "Unable to add track"_s };
return makeRef(*sender);
}
template<typename T>
ExceptionOr<Ref<RTCRtpTransceiver>> LibWebRTCPeerConnectionBackend::addUnifiedPlanTransceiver(T&& trackOrKind, const RTCRtpTransceiverInit& init)
{
auto backends = m_endpoint->addTransceiver(trackOrKind, init);
if (!backends)
return Exception { InvalidAccessError, "Unable to add transceiver"_s };
auto sender = RTCRtpSender::create(*this, WTFMove(trackOrKind), Vector<String> { }, WTFMove(backends->senderBackend));
auto receiver = createReceiverForSource(createEmptySource(sender->trackKind(), createCanonicalUUIDString()), WTFMove(backends->receiverBackend));
auto transceiver = RTCRtpTransceiver::create(WTFMove(sender), WTFMove(receiver), WTFMove(backends->transceiverBackend));
m_peerConnection.addInternalTransceiver(transceiver.copyRef());
return transceiver;
}
ExceptionOr<Ref<RTCRtpTransceiver>> LibWebRTCPeerConnectionBackend::addTransceiver(const String& trackKind, const RTCRtpTransceiverInit& init)
{
if (RuntimeEnabledFeatures::sharedFeatures().webRTCUnifiedPlanEnabled())
return addUnifiedPlanTransceiver(String { trackKind }, init);
auto senderBackend = std::make_unique<LibWebRTCRtpSenderBackend>(*this, nullptr);
auto newSender = RTCRtpSender::create(*this, String(trackKind), Vector<String>(), WTFMove(senderBackend));
return completeAddTransceiver(WTFMove(newSender), init, createCanonicalUUIDString(), trackKind);
}
ExceptionOr<Ref<RTCRtpTransceiver>> LibWebRTCPeerConnectionBackend::addTransceiver(Ref<MediaStreamTrack>&& track, const RTCRtpTransceiverInit& init)
{
if (RuntimeEnabledFeatures::sharedFeatures().webRTCUnifiedPlanEnabled())
return addUnifiedPlanTransceiver(WTFMove(track), init);
auto senderBackend = std::make_unique<LibWebRTCRtpSenderBackend>(*this, nullptr);
auto& backend = *senderBackend;
auto sender = RTCRtpSender::create(*this, track.copyRef(), Vector<String>(), WTFMove(senderBackend));
if (!m_endpoint->addTrack(backend, track, Vector<String> { }))
return Exception { InvalidAccessError, "Unable to add track"_s };
return completeAddTransceiver(WTFMove(sender), init, track->id(), track->kind());
}
void LibWebRTCPeerConnectionBackend::setSenderSourceFromTrack(LibWebRTCRtpSenderBackend& sender, MediaStreamTrack& track)
{
m_endpoint->setSenderSourceFromTrack(sender, track);
}
static inline LibWebRTCRtpTransceiverBackend& backendFromRTPTransceiver(RTCRtpTransceiver& transceiver)
{
return static_cast<LibWebRTCRtpTransceiverBackend&>(*transceiver.backend());
}
RTCRtpTransceiver* LibWebRTCPeerConnectionBackend::existingTransceiver(WTF::Function<bool(LibWebRTCRtpTransceiverBackend&)>&& matchingFunction)
{
for (auto& transceiver : m_peerConnection.currentTransceivers()) {
if (matchingFunction(backendFromRTPTransceiver(*transceiver)))
return transceiver.get();
}
return nullptr;
}
RTCRtpTransceiver& LibWebRTCPeerConnectionBackend::newRemoteTransceiver(std::unique_ptr<LibWebRTCRtpTransceiverBackend>&& transceiverBackend, Ref<RealtimeMediaSource>&& receiverSource)
{
auto sender = RTCRtpSender::create(*this, receiverSource->type() == RealtimeMediaSource::Type::Audio ? "audio"_s : "video"_s, Vector<String> { }, transceiverBackend->createSenderBackend(*this, nullptr));
auto receiver = createReceiverForSource(WTFMove(receiverSource), transceiverBackend->createReceiverBackend());
auto transceiver = RTCRtpTransceiver::create(WTFMove(sender), WTFMove(receiver), WTFMove(transceiverBackend));
m_peerConnection.addInternalTransceiver(transceiver.copyRef());
return transceiver.get();
}
Ref<RTCRtpTransceiver> LibWebRTCPeerConnectionBackend::completeAddTransceiver(Ref<RTCRtpSender>&& sender, const RTCRtpTransceiverInit& init, const String& trackId, const String& trackKind)
{
auto transceiver = RTCRtpTransceiver::create(WTFMove(sender), createReceiver(trackKind, trackId), nullptr);
transceiver->setDirection(init.direction);
m_peerConnection.addInternalTransceiver(transceiver.copyRef());
return transceiver;
}
void LibWebRTCPeerConnectionBackend::collectTransceivers()
{
m_endpoint->collectTransceivers();
}
void LibWebRTCPeerConnectionBackend::removeTrack(RTCRtpSender& sender)
{
m_endpoint->removeTrack(backendFromRTPSender(sender));
}
void LibWebRTCPeerConnectionBackend::applyRotationForOutgoingVideoSources()
{
for (auto& transceiver : m_peerConnection.currentTransceivers()) {
if (!transceiver->sender().isStopped()) {
if (auto* videoSource = backendFromRTPSender(transceiver->sender()).videoSource())
videoSource->setApplyRotation(true);
}
}
}
bool LibWebRTCPeerConnectionBackend::shouldOfferAllowToReceive(const char* kind) const
{
ASSERT(!RuntimeEnabledFeatures::sharedFeatures().webRTCUnifiedPlanEnabled());
for (const auto& transceiver : m_peerConnection.currentTransceivers()) {
if (transceiver->sender().trackKind() != kind)
continue;
if (transceiver->direction() == RTCRtpTransceiverDirection::Recvonly)
return true;
if (transceiver->direction() != RTCRtpTransceiverDirection::Sendrecv)
continue;
auto* backend = static_cast<LibWebRTCRtpSenderBackend*>(transceiver->sender().backend());
if (backend && !backend->rtcSender())
return true;
}
return false;
}
} // namespace WebCore
#endif // USE(LIBWEBRTC)