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chromium / chromium / src / 9853d6c5883e860ff52b5447b17f50907ffee434 / . / third_party / WebKit / Source / modules / peerconnection / RTCPeerConnection.cpp
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/*
* Copyright (C) 2012 Google 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 "modules/peerconnection/RTCPeerConnection.h"
#include "bindings/core/v8/ExceptionMessages.h"
#include "bindings/core/v8/ExceptionState.h"
#include "bindings/core/v8/Microtask.h"
#include "bindings/core/v8/Nullable.h"
#include "bindings/core/v8/ScriptPromiseResolver.h"
#include "bindings/core/v8/ScriptState.h"
#include "bindings/core/v8/ScriptValue.h"
#include "bindings/core/v8/V8ThrowException.h"
#include "bindings/modules/v8/RTCIceCandidateInitOrRTCIceCandidate.h"
#include "bindings/modules/v8/V8MediaStreamTrack.h"
#include "bindings/modules/v8/V8RTCCertificate.h"
#include "core/dom/DOMException.h"
#include "core/dom/DOMTimeStamp.h"
#include "core/dom/Document.h"
#include "core/dom/ExceptionCode.h"
#include "core/dom/ExecutionContext.h"
#include "core/frame/HostsUsingFeatures.h"
#include "core/frame/LocalFrame.h"
#include "core/frame/UseCounter.h"
#include "core/html/VoidCallback.h"
#include "core/loader/FrameLoader.h"
#include "core/loader/FrameLoaderClient.h"
#include "modules/crypto/CryptoResultImpl.h"
#include "modules/mediastream/MediaConstraintsImpl.h"
#include "modules/mediastream/MediaStreamEvent.h"
#include "modules/peerconnection/RTCAnswerOptions.h"
#include "modules/peerconnection/RTCConfiguration.h"
#include "modules/peerconnection/RTCDTMFSender.h"
#include "modules/peerconnection/RTCDataChannel.h"
#include "modules/peerconnection/RTCDataChannelEvent.h"
#include "modules/peerconnection/RTCIceServer.h"
#include "modules/peerconnection/RTCOfferOptions.h"
#include "modules/peerconnection/RTCPeerConnectionErrorCallback.h"
#include "modules/peerconnection/RTCPeerConnectionIceEvent.h"
#include "modules/peerconnection/RTCSessionDescription.h"
#include "modules/peerconnection/RTCSessionDescriptionCallback.h"
#include "modules/peerconnection/RTCSessionDescriptionInit.h"
#include "modules/peerconnection/RTCSessionDescriptionRequestImpl.h"
#include "modules/peerconnection/RTCSessionDescriptionRequestPromiseImpl.h"
#include "modules/peerconnection/RTCStatsCallback.h"
#include "modules/peerconnection/RTCStatsReport.h"
#include "modules/peerconnection/RTCStatsRequestImpl.h"
#include "modules/peerconnection/RTCVoidRequestImpl.h"
#include "modules/peerconnection/RTCVoidRequestPromiseImpl.h"
#include "platform/RuntimeEnabledFeatures.h"
#include "platform/peerconnection/RTCAnswerOptionsPlatform.h"
#include "platform/peerconnection/RTCOfferOptionsPlatform.h"
#include "public/platform/Platform.h"
#include "public/platform/WebCryptoAlgorithmParams.h"
#include "public/platform/WebMediaStream.h"
#include "public/platform/WebRTCAnswerOptions.h"
#include "public/platform/WebRTCCertificate.h"
#include "public/platform/WebRTCCertificateGenerator.h"
#include "public/platform/WebRTCConfiguration.h"
#include "public/platform/WebRTCDataChannelHandler.h"
#include "public/platform/WebRTCDataChannelInit.h"
#include "public/platform/WebRTCError.h"
#include "public/platform/WebRTCICECandidate.h"
#include "public/platform/WebRTCKeyParams.h"
#include "public/platform/WebRTCOfferOptions.h"
#include "public/platform/WebRTCSessionDescription.h"
#include "public/platform/WebRTCSessionDescriptionRequest.h"
#include "public/platform/WebRTCStatsRequest.h"
#include "public/platform/WebRTCVoidRequest.h"
#include "wtf/CurrentTime.h"
#include "wtf/PtrUtil.h"
#include <algorithm>
#include <memory>
namespace blink {
namespace {
const char kSignalingStateClosedMessage[] =
"The RTCPeerConnection's signalingState is 'closed'.";
bool throwExceptionIfSignalingStateClosed(
RTCPeerConnection::SignalingState state,
ExceptionState& exceptionState) {
if (state == RTCPeerConnection::SignalingStateClosed) {
exceptionState.throwDOMException(InvalidStateError,
kSignalingStateClosedMessage);
return true;
}
return false;
}
void asyncCallErrorCallback(RTCPeerConnectionErrorCallback* errorCallback,
DOMException* exception) {
DCHECK(errorCallback);
Microtask::enqueueMicrotask(
WTF::bind(&RTCPeerConnectionErrorCallback::handleEvent,
wrapPersistent(errorCallback), wrapPersistent(exception)));
}
bool callErrorCallbackIfSignalingStateClosed(
RTCPeerConnection::SignalingState state,
RTCPeerConnectionErrorCallback* errorCallback) {
if (state == RTCPeerConnection::SignalingStateClosed) {
if (errorCallback)
asyncCallErrorCallback(
errorCallback, DOMException::create(InvalidStateError,
kSignalingStateClosedMessage));
return true;
}
return false;
}
bool isIceCandidateMissingSdp(
const RTCIceCandidateInitOrRTCIceCandidate& candidate) {
if (candidate.isRTCIceCandidateInit()) {
const RTCIceCandidateInit& iceCandidateInit =
candidate.getAsRTCIceCandidateInit();
return !iceCandidateInit.hasSdpMid() &&
!iceCandidateInit.hasSdpMLineIndex();
}
DCHECK(candidate.isRTCIceCandidate());
return false;
}
WebRTCOfferOptions convertToWebRTCOfferOptions(const RTCOfferOptions& options) {
return WebRTCOfferOptions(RTCOfferOptionsPlatform::create(
options.hasOfferToReceiveVideo()
? std::max(options.offerToReceiveVideo(), 0)
: -1,
options.hasOfferToReceiveAudio()
? std::max(options.offerToReceiveAudio(), 0)
: -1,
options.hasVoiceActivityDetection() ? options.voiceActivityDetection()
: true,
options.hasIceRestart() ? options.iceRestart() : false));
}
WebRTCAnswerOptions convertToWebRTCAnswerOptions(
const RTCAnswerOptions& options) {
return WebRTCAnswerOptions(RTCAnswerOptionsPlatform::create(
options.hasVoiceActivityDetection() ? options.voiceActivityDetection()
: true));
}
WebRTCICECandidate convertToWebRTCIceCandidate(
ExecutionContext* context,
const RTCIceCandidateInitOrRTCIceCandidate& candidate) {
DCHECK(!candidate.isNull());
if (candidate.isRTCIceCandidateInit()) {
const RTCIceCandidateInit& iceCandidateInit =
candidate.getAsRTCIceCandidateInit();
// TODO(guidou): Change default value to -1. crbug.com/614958.
unsigned short sdpMLineIndex = 0;
if (iceCandidateInit.hasSdpMLineIndex())
sdpMLineIndex = iceCandidateInit.sdpMLineIndex();
else
UseCounter::count(context,
UseCounter::RTCIceCandidateDefaultSdpMLineIndex);
return WebRTCICECandidate(iceCandidateInit.candidate(),
iceCandidateInit.sdpMid(), sdpMLineIndex);
}
DCHECK(candidate.isRTCIceCandidate());
return candidate.getAsRTCIceCandidate()->webCandidate();
}
// Helper class for RTCPeerConnection::generateCertificate.
class WebRTCCertificateObserver : public WebRTCCertificateCallback {
public:
// Takes ownership of |resolver|.
static WebRTCCertificateObserver* create(ScriptPromiseResolver* resolver) {
return new WebRTCCertificateObserver(resolver);
}
~WebRTCCertificateObserver() override {}
private:
WebRTCCertificateObserver(ScriptPromiseResolver* resolver)
: m_resolver(resolver) {}
void onSuccess(std::unique_ptr<WebRTCCertificate> certificate) override {
m_resolver->resolve(new RTCCertificate(std::move(certificate)));
}
void onError() override { m_resolver->reject(); }
Persistent<ScriptPromiseResolver> m_resolver;
};
WebRTCIceTransportPolicy iceTransportPolicyFromString(const String& policy) {
if (policy == "none")
return WebRTCIceTransportPolicy::kNone;
if (policy == "relay")
return WebRTCIceTransportPolicy::kRelay;
DCHECK_EQ(policy, "all");
return WebRTCIceTransportPolicy::kAll;
}
WebRTCConfiguration parseConfiguration(ExecutionContext* context,
const RTCConfiguration& configuration,
ExceptionState& exceptionState) {
DCHECK(context);
WebRTCIceTransportPolicy iceTransportPolicy = WebRTCIceTransportPolicy::kAll;
if (configuration.hasIceTransportPolicy()) {
UseCounter::count(context, UseCounter::RTCConfigurationIceTransportPolicy);
iceTransportPolicy =
iceTransportPolicyFromString(configuration.iceTransportPolicy());
if (iceTransportPolicy == WebRTCIceTransportPolicy::kNone) {
UseCounter::count(context,
UseCounter::RTCConfigurationIceTransportPolicyNone);
}
} else if (configuration.hasIceTransports()) {
UseCounter::count(context, UseCounter::RTCConfigurationIceTransports);
iceTransportPolicy =
iceTransportPolicyFromString(configuration.iceTransports());
if (iceTransportPolicy == WebRTCIceTransportPolicy::kNone)
UseCounter::count(context, UseCounter::RTCConfigurationIceTransportsNone);
}
WebRTCBundlePolicy bundlePolicy = WebRTCBundlePolicy::kBalanced;
String bundlePolicyString = configuration.bundlePolicy();
if (bundlePolicyString == "max-compat") {
bundlePolicy = WebRTCBundlePolicy::kMaxCompat;
} else if (bundlePolicyString == "max-bundle") {
bundlePolicy = WebRTCBundlePolicy::kMaxBundle;
} else {
DCHECK_EQ(bundlePolicyString, "balanced");
}
WebRTCRtcpMuxPolicy rtcpMuxPolicy = WebRTCRtcpMuxPolicy::kRequire;
String rtcpMuxPolicyString = configuration.rtcpMuxPolicy();
if (rtcpMuxPolicyString == "negotiate") {
rtcpMuxPolicy = WebRTCRtcpMuxPolicy::kNegotiate;
} else {
DCHECK_EQ(rtcpMuxPolicyString, "require");
}
WebRTCConfiguration webConfiguration;
webConfiguration.iceTransportPolicy = iceTransportPolicy;
webConfiguration.bundlePolicy = bundlePolicy;
webConfiguration.rtcpMuxPolicy = rtcpMuxPolicy;
if (configuration.hasIceServers()) {
Vector<WebRTCIceServer> iceServers;
for (const RTCIceServer& iceServer : configuration.iceServers()) {
Vector<String> urlStrings;
if (iceServer.hasURLs()) {
UseCounter::count(context, UseCounter::RTCIceServerURLs);
const StringOrStringSequence& urls = iceServer.urls();
if (urls.isString()) {
urlStrings.push_back(urls.getAsString());
} else {
DCHECK(urls.isStringSequence());
urlStrings = urls.getAsStringSequence();
}
} else if (iceServer.hasURL()) {
UseCounter::count(context, UseCounter::RTCIceServerURL);
urlStrings.push_back(iceServer.url());
} else {
exceptionState.throwTypeError("Malformed RTCIceServer");
return WebRTCConfiguration();
}
String username = iceServer.username();
String credential = iceServer.credential();
for (const String& urlString : urlStrings) {
KURL url(KURL(), urlString);
if (!url.isValid()) {
exceptionState.throwDOMException(
SyntaxError, "'" + urlString + "' is not a valid URL.");
return WebRTCConfiguration();
}
if (!(url.protocolIs("turn") || url.protocolIs("turns") ||
url.protocolIs("stun"))) {
exceptionState.throwDOMException(
SyntaxError, "'" + url.protocol() +
"' is not one of the supported URL schemes "
"'stun', 'turn' or 'turns'.");
return WebRTCConfiguration();
}
if ((url.protocolIs("turn") || url.protocolIs("turns")) &&
(username.isNull() || credential.isNull())) {
exceptionState.throwDOMException(InvalidAccessError,
"Both username and credential are "
"required when the URL scheme is "
"\"turn\" or \"turns\".");
}
iceServers.push_back(WebRTCIceServer{url, username, credential});
}
}
webConfiguration.iceServers = iceServers;
}
if (configuration.hasCertificates()) {
const HeapVector<Member<RTCCertificate>>& certificates =
configuration.certificates();
WebVector<std::unique_ptr<WebRTCCertificate>> certificatesCopy(
certificates.size());
for (size_t i = 0; i < certificates.size(); ++i) {
certificatesCopy[i] = certificates[i]->certificateShallowCopy();
}
webConfiguration.certificates = std::move(certificatesCopy);
}
return webConfiguration;
}
RTCOfferOptionsPlatform* parseOfferOptions(const Dictionary& options,
ExceptionState& exceptionState) {
if (options.isUndefinedOrNull())
return nullptr;
const Vector<String>& propertyNames =
options.getPropertyNames(exceptionState);
if (exceptionState.hadException())
return nullptr;
// Treat |options| as MediaConstraints if it is empty or has "optional" or
// "mandatory" properties for compatibility.
// TODO(jiayl): remove constraints when RTCOfferOptions reaches Stable and
// client code is ready.
if (propertyNames.isEmpty() || propertyNames.contains("optional") ||
propertyNames.contains("mandatory"))
return nullptr;
int32_t offerToReceiveVideo = -1;
int32_t offerToReceiveAudio = -1;
bool voiceActivityDetection = true;
bool iceRestart = false;
if (DictionaryHelper::get(options, "offerToReceiveVideo",
offerToReceiveVideo) &&
offerToReceiveVideo < 0)
offerToReceiveVideo = 0;
if (DictionaryHelper::get(options, "offerToReceiveAudio",
offerToReceiveAudio) &&
offerToReceiveAudio < 0)
offerToReceiveAudio = 0;
DictionaryHelper::get(options, "voiceActivityDetection",
voiceActivityDetection);
DictionaryHelper::get(options, "iceRestart", iceRestart);
RTCOfferOptionsPlatform* rtcOfferOptions =
RTCOfferOptionsPlatform::create(offerToReceiveVideo, offerToReceiveAudio,
voiceActivityDetection, iceRestart);
return rtcOfferOptions;
}
// Helper class for
// |RTCPeerConnection::getStats(ScriptState*, MediaStreamTrack*)|
class WebRTCStatsReportCallbackResolver : public WebRTCStatsReportCallback {
public:
// Takes ownership of |resolver|.
static std::unique_ptr<WebRTCStatsReportCallback> create(
ScriptPromiseResolver* resolver) {
return std::unique_ptr<WebRTCStatsReportCallback>(
new WebRTCStatsReportCallbackResolver(resolver));
}
~WebRTCStatsReportCallbackResolver() override {}
private:
WebRTCStatsReportCallbackResolver(ScriptPromiseResolver* resolver)
: m_resolver(resolver) {}
void OnStatsDelivered(std::unique_ptr<WebRTCStatsReport> report) override {
m_resolver->resolve(new RTCStatsReport(std::move(report)));
}
Persistent<ScriptPromiseResolver> m_resolver;
};
} // namespace
RTCPeerConnection::EventWrapper::EventWrapper(
Event* event,
std::unique_ptr<BoolFunction> function)
: m_event(event), m_setupFunction(std::move(function)) {}
bool RTCPeerConnection::EventWrapper::setup() {
if (m_setupFunction) {
return (*m_setupFunction)();
}
return true;
}
DEFINE_TRACE(RTCPeerConnection::EventWrapper) {
visitor->trace(m_event);
}
RTCPeerConnection* RTCPeerConnection::create(
ExecutionContext* context,
const RTCConfiguration& rtcConfiguration,
const Dictionary& mediaConstraints,
ExceptionState& exceptionState) {
if (mediaConstraints.isObject())
UseCounter::count(context,
UseCounter::RTCPeerConnectionConstructorConstraints);
else
UseCounter::count(context,
UseCounter::RTCPeerConnectionConstructorCompliant);
WebRTCConfiguration configuration =
parseConfiguration(context, rtcConfiguration, exceptionState);
if (exceptionState.hadException())
return 0;
// Make sure no certificates have expired.
if (configuration.certificates.size() > 0) {
DOMTimeStamp now = convertSecondsToDOMTimeStamp(currentTime());
for (const std::unique_ptr<WebRTCCertificate>& certificate :
configuration.certificates) {
DOMTimeStamp expires = certificate->expires();
if (expires <= now) {
exceptionState.throwDOMException(InvalidAccessError,
"Expired certificate(s).");
return 0;
}
}
}
MediaErrorState mediaErrorState;
WebMediaConstraints constraints =
MediaConstraintsImpl::create(context, mediaConstraints, mediaErrorState);
if (mediaErrorState.hadException()) {
mediaErrorState.raiseException(exceptionState);
return 0;
}
RTCPeerConnection* peerConnection = new RTCPeerConnection(
context, configuration, constraints, exceptionState);
peerConnection->suspendIfNeeded();
if (exceptionState.hadException())
return 0;
return peerConnection;
}
RTCPeerConnection::RTCPeerConnection(ExecutionContext* context,
const WebRTCConfiguration& configuration,
WebMediaConstraints constraints,
ExceptionState& exceptionState)
: SuspendableObject(context),
m_signalingState(SignalingStateStable),
m_iceGatheringState(ICEGatheringStateNew),
m_iceConnectionState(ICEConnectionStateNew),
m_dispatchScheduledEventRunner(
AsyncMethodRunner<RTCPeerConnection>::create(
this,
&RTCPeerConnection::dispatchScheduledEvent)),
m_stopped(false),
m_closed(false),
m_hasDataChannels(false) {
Document* document = toDocument(getExecutionContext());
// If we fail, set |m_closed| and |m_stopped| to true, to avoid hitting the
// assert in the destructor.
if (!document->frame()) {
m_closed = true;
m_stopped = true;
exceptionState.throwDOMException(
NotSupportedError,
"PeerConnections may not be created in detached documents.");
return;
}
m_peerHandler = WTF::wrapUnique(
Platform::current()->createRTCPeerConnectionHandler(this));
if (!m_peerHandler) {
m_closed = true;
m_stopped = true;
exceptionState.throwDOMException(NotSupportedError,
"No PeerConnection handler can be "
"created, perhaps WebRTC is disabled?");
return;
}
document->frame()
->loader()
.client()
->dispatchWillStartUsingPeerConnectionHandler(m_peerHandler.get());
if (!m_peerHandler->initialize(configuration, constraints)) {
m_closed = true;
m_stopped = true;
exceptionState.throwDOMException(
NotSupportedError, "Failed to initialize native PeerConnection.");
return;
}
}
RTCPeerConnection::~RTCPeerConnection() {
// This checks that close() or stop() is called before the destructor.
// We are assuming that a wrapper is always created when RTCPeerConnection is
// created.
DCHECK(m_closed || m_stopped);
}
void RTCPeerConnection::dispose() {
// Promptly clears a raw reference from content/ to an on-heap object
// so that content/ doesn't access it in a lazy sweeping phase.
m_peerHandler.reset();
}
ScriptPromise RTCPeerConnection::createOffer(ScriptState* scriptState,
const RTCOfferOptions& options) {
if (m_signalingState == SignalingStateClosed)
return ScriptPromise::rejectWithDOMException(
scriptState,
DOMException::create(InvalidStateError, kSignalingStateClosedMessage));
ScriptPromiseResolver* resolver = ScriptPromiseResolver::create(scriptState);
ScriptPromise promise = resolver->promise();
RTCSessionDescriptionRequest* request =
RTCSessionDescriptionRequestPromiseImpl::create(this, resolver);
if (options.hasOfferToReceiveAudio() || options.hasOfferToReceiveVideo()) {
ExecutionContext* context = scriptState->getExecutionContext();
UseCounter::count(
context, UseCounter::RTCPeerConnectionCreateOfferOptionsOfferToReceive);
}
m_peerHandler->createOffer(request, convertToWebRTCOfferOptions(options));
return promise;
}
ScriptPromise RTCPeerConnection::createOffer(
ScriptState* scriptState,
RTCSessionDescriptionCallback* successCallback,
RTCPeerConnectionErrorCallback* errorCallback,
const Dictionary& rtcOfferOptions,
ExceptionState& exceptionState) {
DCHECK(successCallback);
DCHECK(errorCallback);
ExecutionContext* context = scriptState->getExecutionContext();
UseCounter::count(
context, UseCounter::RTCPeerConnectionCreateOfferLegacyFailureCallback);
if (callErrorCallbackIfSignalingStateClosed(m_signalingState, errorCallback))
return ScriptPromise::castUndefined(scriptState);
RTCOfferOptionsPlatform* offerOptions =
parseOfferOptions(rtcOfferOptions, exceptionState);
if (exceptionState.hadException())
return ScriptPromise();
RTCSessionDescriptionRequest* request =
RTCSessionDescriptionRequestImpl::create(getExecutionContext(), this,
successCallback, errorCallback);
if (offerOptions) {
if (offerOptions->offerToReceiveAudio() != -1 ||
offerOptions->offerToReceiveVideo() != -1)
UseCounter::count(
context, UseCounter::RTCPeerConnectionCreateOfferLegacyOfferOptions);
else
UseCounter::count(
context, UseCounter::RTCPeerConnectionCreateOfferLegacyCompliant);
m_peerHandler->createOffer(request, WebRTCOfferOptions(offerOptions));
} else {
MediaErrorState mediaErrorState;
WebMediaConstraints constraints =
MediaConstraintsImpl::create(context, rtcOfferOptions, mediaErrorState);
// Report constraints parsing errors via the callback, but ignore
// unknown/unsupported constraints as they would be silently discarded by
// WebIDL.
if (mediaErrorState.canGenerateException()) {
String errorMsg = mediaErrorState.getErrorMessage();
asyncCallErrorCallback(errorCallback,
DOMException::create(OperationError, errorMsg));
return ScriptPromise::castUndefined(scriptState);
}
if (!constraints.isEmpty())
UseCounter::count(
context, UseCounter::RTCPeerConnectionCreateOfferLegacyConstraints);
else
UseCounter::count(
context, UseCounter::RTCPeerConnectionCreateOfferLegacyCompliant);
m_peerHandler->createOffer(request, constraints);
}
return ScriptPromise::castUndefined(scriptState);
}
ScriptPromise RTCPeerConnection::createAnswer(ScriptState* scriptState,
const RTCAnswerOptions& options) {
if (m_signalingState == SignalingStateClosed)
return ScriptPromise::rejectWithDOMException(
scriptState,
DOMException::create(InvalidStateError, kSignalingStateClosedMessage));
ScriptPromiseResolver* resolver = ScriptPromiseResolver::create(scriptState);
ScriptPromise promise = resolver->promise();
RTCSessionDescriptionRequest* request =
RTCSessionDescriptionRequestPromiseImpl::create(this, resolver);
m_peerHandler->createAnswer(request, convertToWebRTCAnswerOptions(options));
return promise;
}
ScriptPromise RTCPeerConnection::createAnswer(
ScriptState* scriptState,
RTCSessionDescriptionCallback* successCallback,
RTCPeerConnectionErrorCallback* errorCallback,
const Dictionary& mediaConstraints) {
DCHECK(successCallback);
DCHECK(errorCallback);
ExecutionContext* context = scriptState->getExecutionContext();
UseCounter::count(
context, UseCounter::RTCPeerConnectionCreateAnswerLegacyFailureCallback);
if (mediaConstraints.isObject())
UseCounter::count(
context, UseCounter::RTCPeerConnectionCreateAnswerLegacyConstraints);
else
UseCounter::count(context,
UseCounter::RTCPeerConnectionCreateAnswerLegacyCompliant);
if (callErrorCallbackIfSignalingStateClosed(m_signalingState, errorCallback))
return ScriptPromise::castUndefined(scriptState);
MediaErrorState mediaErrorState;
WebMediaConstraints constraints =
MediaConstraintsImpl::create(context, mediaConstraints, mediaErrorState);
// Report constraints parsing errors via the callback, but ignore
// unknown/unsupported constraints as they would be silently discarded by
// WebIDL.
if (mediaErrorState.canGenerateException()) {
String errorMsg = mediaErrorState.getErrorMessage();
asyncCallErrorCallback(errorCallback,
DOMException::create(OperationError, errorMsg));
return ScriptPromise::castUndefined(scriptState);
}
RTCSessionDescriptionRequest* request =
RTCSessionDescriptionRequestImpl::create(getExecutionContext(), this,
successCallback, errorCallback);
m_peerHandler->createAnswer(request, constraints);
return ScriptPromise::castUndefined(scriptState);
}
ScriptPromise RTCPeerConnection::setLocalDescription(
ScriptState* scriptState,
const RTCSessionDescriptionInit& sessionDescriptionInit) {
if (m_signalingState == SignalingStateClosed)
return ScriptPromise::rejectWithDOMException(
scriptState,
DOMException::create(InvalidStateError, kSignalingStateClosedMessage));
ScriptPromiseResolver* resolver = ScriptPromiseResolver::create(scriptState);
ScriptPromise promise = resolver->promise();
RTCVoidRequest* request = RTCVoidRequestPromiseImpl::create(this, resolver);
m_peerHandler->setLocalDescription(
request, WebRTCSessionDescription(sessionDescriptionInit.type(),
sessionDescriptionInit.sdp()));
return promise;
}
ScriptPromise RTCPeerConnection::setLocalDescription(
ScriptState* scriptState,
const RTCSessionDescriptionInit& sessionDescriptionInit,
VoidCallback* successCallback,
RTCPeerConnectionErrorCallback* errorCallback) {
ExecutionContext* context = scriptState->getExecutionContext();
if (successCallback && errorCallback) {
UseCounter::count(
context,
UseCounter::RTCPeerConnectionSetLocalDescriptionLegacyCompliant);
} else {
if (!successCallback)
UseCounter::count(
context,
UseCounter::
RTCPeerConnectionSetLocalDescriptionLegacyNoSuccessCallback);
if (!errorCallback)
UseCounter::count(
context,
UseCounter::
RTCPeerConnectionSetLocalDescriptionLegacyNoFailureCallback);
}
if (callErrorCallbackIfSignalingStateClosed(m_signalingState, errorCallback))
return ScriptPromise::castUndefined(scriptState);
RTCVoidRequest* request = RTCVoidRequestImpl::create(
getExecutionContext(), this, successCallback, errorCallback);
m_peerHandler->setLocalDescription(
request, WebRTCSessionDescription(sessionDescriptionInit.type(),
sessionDescriptionInit.sdp()));
return ScriptPromise::castUndefined(scriptState);
}
RTCSessionDescription* RTCPeerConnection::localDescription() {
WebRTCSessionDescription webSessionDescription =
m_peerHandler->localDescription();
if (webSessionDescription.isNull())
return nullptr;
return RTCSessionDescription::create(webSessionDescription);
}
ScriptPromise RTCPeerConnection::setRemoteDescription(
ScriptState* scriptState,
const RTCSessionDescriptionInit& sessionDescriptionInit) {
if (m_signalingState == SignalingStateClosed)
return ScriptPromise::rejectWithDOMException(
scriptState,
DOMException::create(InvalidStateError, kSignalingStateClosedMessage));
ScriptPromiseResolver* resolver = ScriptPromiseResolver::create(scriptState);
ScriptPromise promise = resolver->promise();
RTCVoidRequest* request = RTCVoidRequestPromiseImpl::create(this, resolver);
m_peerHandler->setRemoteDescription(
request, WebRTCSessionDescription(sessionDescriptionInit.type(),
sessionDescriptionInit.sdp()));
return promise;
}
ScriptPromise RTCPeerConnection::setRemoteDescription(
ScriptState* scriptState,
const RTCSessionDescriptionInit& sessionDescriptionInit,
VoidCallback* successCallback,
RTCPeerConnectionErrorCallback* errorCallback) {
ExecutionContext* context = scriptState->getExecutionContext();
if (successCallback && errorCallback) {
UseCounter::count(
context,
UseCounter::RTCPeerConnectionSetRemoteDescriptionLegacyCompliant);
} else {
if (!successCallback)
UseCounter::count(
context,
UseCounter::
RTCPeerConnectionSetRemoteDescriptionLegacyNoSuccessCallback);
if (!errorCallback)
UseCounter::count(
context,
UseCounter::
RTCPeerConnectionSetRemoteDescriptionLegacyNoFailureCallback);
}
if (callErrorCallbackIfSignalingStateClosed(m_signalingState, errorCallback))
return ScriptPromise::castUndefined(scriptState);
RTCVoidRequest* request = RTCVoidRequestImpl::create(
getExecutionContext(), this, successCallback, errorCallback);
m_peerHandler->setRemoteDescription(
request, WebRTCSessionDescription(sessionDescriptionInit.type(),
sessionDescriptionInit.sdp()));
return ScriptPromise::castUndefined(scriptState);
}
RTCSessionDescription* RTCPeerConnection::remoteDescription() {
WebRTCSessionDescription webSessionDescription =
m_peerHandler->remoteDescription();
if (webSessionDescription.isNull())
return nullptr;
return RTCSessionDescription::create(webSessionDescription);
}
void RTCPeerConnection::setConfiguration(
ExecutionContext* context,
const RTCConfiguration& rtcConfiguration,
ExceptionState& exceptionState) {
if (throwExceptionIfSignalingStateClosed(m_signalingState, exceptionState))
return;
WebRTCConfiguration configuration =
parseConfiguration(context, rtcConfiguration, exceptionState);
if (exceptionState.hadException())
return;
MediaErrorState mediaErrorState;
if (mediaErrorState.hadException()) {
mediaErrorState.raiseException(exceptionState);
return;
}
WebRTCErrorType error = m_peerHandler->setConfiguration(configuration);
if (error != WebRTCErrorType::kNone) {
// All errors besides InvalidModification should have been detected above.
if (error == WebRTCErrorType::kInvalidModification) {
exceptionState.throwDOMException(
InvalidModificationError,
"Attempted to modify the PeerConnection's "
"configuration in an unsupported way.");
} else {
exceptionState.throwDOMException(
OperationError,
"Could not update the PeerConnection with the given configuration.");
}
}
}
ScriptPromise RTCPeerConnection::generateCertificate(
ScriptState* scriptState,
const AlgorithmIdentifier& keygenAlgorithm,
ExceptionState& exceptionState) {
// Normalize |keygenAlgorithm| with WebCrypto, making sure it is a recognized
// AlgorithmIdentifier.
WebCryptoAlgorithm cryptoAlgorithm;
AlgorithmError error;
if (!normalizeAlgorithm(keygenAlgorithm, WebCryptoOperationGenerateKey,
cryptoAlgorithm, &error)) {
// Reject generateCertificate with the same error as was produced by
// WebCrypto. |result| is garbage collected, no need to delete.
CryptoResultImpl* result = CryptoResultImpl::create(scriptState);
ScriptPromise promise = result->promise();
result->completeWithError(error.errorType, error.errorDetails);
return promise;
}
// Check if |keygenAlgorithm| contains the optional DOMTimeStamp |expires|
// attribute.
Nullable<DOMTimeStamp> expires;
if (keygenAlgorithm.isDictionary()) {
Dictionary keygenAlgorithmDict = keygenAlgorithm.getAsDictionary();
if (keygenAlgorithmDict.hasProperty("expires", exceptionState)) {
v8::Local<v8::Value> expiresValue;
keygenAlgorithmDict.get("expires", expiresValue);
if (expiresValue->IsNumber()) {
double expiresDouble =
expiresValue->ToNumber(scriptState->isolate()->GetCurrentContext())
.ToLocalChecked()
->Value();
if (expiresDouble >= 0) {
expires.set(static_cast<DOMTimeStamp>(expiresDouble));
}
}
}
}
if (exceptionState.hadException()) {
return ScriptPromise();
}
// Convert from WebCrypto representation to recognized WebRTCKeyParams. WebRTC
// supports a small subset of what are valid AlgorithmIdentifiers.
const char* unsupportedParamsString =
"The 1st argument provided is an AlgorithmIdentifier with a supported "
"algorithm name, but the parameters are not supported.";
Nullable<WebRTCKeyParams> keyParams;
switch (cryptoAlgorithm.id()) {
case WebCryptoAlgorithmIdRsaSsaPkcs1v1_5:
// name: "RSASSA-PKCS1-v1_5"
unsigned publicExponent;
// "publicExponent" must fit in an unsigned int. The only recognized
// "hash" is "SHA-256".
if (cryptoAlgorithm.rsaHashedKeyGenParams()
->convertPublicExponentToUnsigned(publicExponent) &&
cryptoAlgorithm.rsaHashedKeyGenParams()->hash().id() ==
WebCryptoAlgorithmIdSha256) {
unsigned modulusLength =
cryptoAlgorithm.rsaHashedKeyGenParams()->modulusLengthBits();
keyParams.set(
WebRTCKeyParams::createRSA(modulusLength, publicExponent));
} else {
return ScriptPromise::rejectWithDOMException(
scriptState,
DOMException::create(NotSupportedError, unsupportedParamsString));
}
break;
case WebCryptoAlgorithmIdEcdsa:
// name: "ECDSA"
// The only recognized "namedCurve" is "P-256".
if (cryptoAlgorithm.ecKeyGenParams()->namedCurve() ==
WebCryptoNamedCurveP256) {
keyParams.set(WebRTCKeyParams::createECDSA(WebRTCECCurveNistP256));
} else {
return ScriptPromise::rejectWithDOMException(
scriptState,
DOMException::create(NotSupportedError, unsupportedParamsString));
}
break;
default:
return ScriptPromise::rejectWithDOMException(
scriptState, DOMException::create(NotSupportedError,
"The 1st argument provided is an "
"AlgorithmIdentifier, but the "
"algorithm is not supported."));
break;
}
DCHECK(!keyParams.isNull());
std::unique_ptr<WebRTCCertificateGenerator> certificateGenerator =
WTF::wrapUnique(Platform::current()->createRTCCertificateGenerator());
// |keyParams| was successfully constructed, but does the certificate
// generator support these parameters?
if (!certificateGenerator->isSupportedKeyParams(keyParams.get())) {
return ScriptPromise::rejectWithDOMException(
scriptState,
DOMException::create(NotSupportedError, unsupportedParamsString));
}
ScriptPromiseResolver* resolver = ScriptPromiseResolver::create(scriptState);
ScriptPromise promise = resolver->promise();
std::unique_ptr<WebRTCCertificateObserver> certificateObserver(
WebRTCCertificateObserver::create(resolver));
// Generate certificate. The |certificateObserver| will resolve the promise
// asynchronously upon completion. The observer will manage its own
// destruction as well as the resolver's destruction.
if (expires.isNull()) {
certificateGenerator->generateCertificate(keyParams.get(),
std::move(certificateObserver));
} else {
certificateGenerator->generateCertificateWithExpiration(
keyParams.get(), expires.get(), std::move(certificateObserver));
}
return promise;
}
ScriptPromise RTCPeerConnection::addIceCandidate(
ScriptState* scriptState,
const RTCIceCandidateInitOrRTCIceCandidate& candidate) {
if (m_signalingState == SignalingStateClosed)
return ScriptPromise::rejectWithDOMException(
scriptState,
DOMException::create(InvalidStateError, kSignalingStateClosedMessage));
if (isIceCandidateMissingSdp(candidate))
return ScriptPromise::reject(
scriptState,
V8ThrowException::createTypeError(
scriptState->isolate(),
"Candidate missing values for both sdpMid and sdpMLineIndex"));
ScriptPromiseResolver* resolver = ScriptPromiseResolver::create(scriptState);
ScriptPromise promise = resolver->promise();
RTCVoidRequest* request = RTCVoidRequestPromiseImpl::create(this, resolver);
WebRTCICECandidate webCandidate = convertToWebRTCIceCandidate(
scriptState->getExecutionContext(), candidate);
bool implemented = m_peerHandler->addICECandidate(request, webCandidate);
if (!implemented)
resolver->reject(DOMException::create(
OperationError, "This operation could not be completed."));
return promise;
}
ScriptPromise RTCPeerConnection::addIceCandidate(
ScriptState* scriptState,
const RTCIceCandidateInitOrRTCIceCandidate& candidate,
VoidCallback* successCallback,
RTCPeerConnectionErrorCallback* errorCallback) {
DCHECK(successCallback);
DCHECK(errorCallback);
if (callErrorCallbackIfSignalingStateClosed(m_signalingState, errorCallback))
return ScriptPromise::castUndefined(scriptState);
if (isIceCandidateMissingSdp(candidate))
return ScriptPromise::reject(
scriptState,
V8ThrowException::createTypeError(
scriptState->isolate(),
"Candidate missing values for both sdpMid and sdpMLineIndex"));
RTCVoidRequest* request = RTCVoidRequestImpl::create(
getExecutionContext(), this, successCallback, errorCallback);
WebRTCICECandidate webCandidate = convertToWebRTCIceCandidate(
scriptState->getExecutionContext(), candidate);
bool implemented = m_peerHandler->addICECandidate(request, webCandidate);
if (!implemented)
asyncCallErrorCallback(
errorCallback,
DOMException::create(OperationError,
"This operation could not be completed."));
return ScriptPromise::castUndefined(scriptState);
}
String RTCPeerConnection::signalingState() const {
switch (m_signalingState) {
case SignalingStateStable:
return "stable";
case SignalingStateHaveLocalOffer:
return "have-local-offer";
case SignalingStateHaveRemoteOffer:
return "have-remote-offer";
case SignalingStateHaveLocalPrAnswer:
return "have-local-pranswer";
case SignalingStateHaveRemotePrAnswer:
return "have-remote-pranswer";
case SignalingStateClosed:
return "closed";
}
NOTREACHED();
return String();
}
String RTCPeerConnection::iceGatheringState() const {
switch (m_iceGatheringState) {
case ICEGatheringStateNew:
return "new";
case ICEGatheringStateGathering:
return "gathering";
case ICEGatheringStateComplete:
return "complete";
}
NOTREACHED();
return String();
}
String RTCPeerConnection::iceConnectionState() const {
switch (m_iceConnectionState) {
case ICEConnectionStateNew:
return "new";
case ICEConnectionStateChecking:
return "checking";
case ICEConnectionStateConnected:
return "connected";
case ICEConnectionStateCompleted:
return "completed";
case ICEConnectionStateFailed:
return "failed";
case ICEConnectionStateDisconnected:
return "disconnected";
case ICEConnectionStateClosed:
return "closed";
}
NOTREACHED();
return String();
}
void RTCPeerConnection::addStream(ExecutionContext* context,
MediaStream* stream,
const Dictionary& mediaConstraints,
ExceptionState& exceptionState) {
if (throwExceptionIfSignalingStateClosed(m_signalingState, exceptionState))
return;
if (!stream) {
exceptionState.throwDOMException(
TypeMismatchError,
ExceptionMessages::argumentNullOrIncorrectType(1, "MediaStream"));
return;
}
if (m_localStreams.contains(stream))
return;
MediaErrorState mediaErrorState;
WebMediaConstraints constraints =
MediaConstraintsImpl::create(context, mediaConstraints, mediaErrorState);
if (mediaErrorState.hadException()) {
mediaErrorState.raiseException(exceptionState);
return;
}
m_localStreams.push_back(stream);
bool valid = m_peerHandler->addStream(stream->descriptor(), constraints);
if (!valid)
exceptionState.throwDOMException(SyntaxError,
"Unable to add the provided stream.");
}
void RTCPeerConnection::removeStream(MediaStream* stream,
ExceptionState& exceptionState) {
if (throwExceptionIfSignalingStateClosed(m_signalingState, exceptionState))
return;
if (!stream) {
exceptionState.throwDOMException(
TypeMismatchError,
ExceptionMessages::argumentNullOrIncorrectType(1, "MediaStream"));
return;
}
size_t pos = m_localStreams.find(stream);
if (pos == kNotFound)
return;
m_localStreams.remove(pos);
m_peerHandler->removeStream(stream->descriptor());
}
MediaStreamVector RTCPeerConnection::getLocalStreams() const {
return m_localStreams;
}
MediaStreamVector RTCPeerConnection::getRemoteStreams() const {
return m_remoteStreams;
}
MediaStream* RTCPeerConnection::getStreamById(const String& streamId) {
for (MediaStreamVector::iterator iter = m_localStreams.begin();
iter != m_localStreams.end(); ++iter) {
if ((*iter)->id() == streamId)
return iter->get();
}
for (MediaStreamVector::iterator iter = m_remoteStreams.begin();
iter != m_remoteStreams.end(); ++iter) {
if ((*iter)->id() == streamId)
return iter->get();
}
return 0;
}
ScriptPromise RTCPeerConnection::getStats(ScriptState* scriptState,
RTCStatsCallback* successCallback,
MediaStreamTrack* selector) {
ExecutionContext* context = scriptState->getExecutionContext();
ScriptPromiseResolver* resolver = ScriptPromiseResolver::create(scriptState);
ScriptPromise promise = resolver->promise();
UseCounter::count(context,
UseCounter::RTCPeerConnectionGetStatsLegacyNonCompliant);
RTCStatsRequest* statsRequest = RTCStatsRequestImpl::create(
getExecutionContext(), this, successCallback, selector);
// FIXME: Add passing selector as part of the statsRequest.
m_peerHandler->getStats(statsRequest);
resolver->resolve();
return promise;
}
ScriptPromise RTCPeerConnection::getStats(ScriptState* scriptState) {
ExecutionContext* context = scriptState->getExecutionContext();
UseCounter::count(context, UseCounter::RTCPeerConnectionGetStats);
ScriptPromiseResolver* resolver = ScriptPromiseResolver::create(scriptState);
ScriptPromise promise = resolver->promise();
m_peerHandler->getStats(WebRTCStatsReportCallbackResolver::create(resolver));
return promise;
}
RTCDataChannel* RTCPeerConnection::createDataChannel(
ExecutionContext* context,
String label,
const Dictionary& options,
ExceptionState& exceptionState) {
if (throwExceptionIfSignalingStateClosed(m_signalingState, exceptionState))
return nullptr;
WebRTCDataChannelInit init;
DictionaryHelper::get(options, "ordered", init.ordered);
DictionaryHelper::get(options, "negotiated", init.negotiated);
unsigned short value = 0;
if (DictionaryHelper::get(options, "id", value))
init.id = value;
if (DictionaryHelper::get(options, "maxRetransmits", value)) {
UseCounter::count(
context, UseCounter::RTCPeerConnectionCreateDataChannelMaxRetransmits);
init.maxRetransmits = value;
}
if (DictionaryHelper::get(options, "maxRetransmitTime", value)) {
UseCounter::count(
context,
UseCounter::RTCPeerConnectionCreateDataChannelMaxRetransmitTime);
init.maxRetransmitTime = value;
}
String protocolString;
DictionaryHelper::get(options, "protocol", protocolString);
init.protocol = protocolString;
RTCDataChannel* channel = RTCDataChannel::create(
getExecutionContext(), m_peerHandler.get(), label, init, exceptionState);
if (exceptionState.hadException())
return nullptr;
RTCDataChannel::ReadyState handlerState = channel->getHandlerState();
if (handlerState != RTCDataChannel::ReadyStateConnecting) {
// There was an early state transition. Don't miss it!
channel->didChangeReadyState(handlerState);
}
m_hasDataChannels = true;
return channel;
}
bool RTCPeerConnection::hasLocalStreamWithTrackId(const String& trackId) {
for (MediaStreamVector::iterator iter = m_localStreams.begin();
iter != m_localStreams.end(); ++iter) {
if ((*iter)->getTrackById(trackId))
return true;
}
return false;
}
RTCDTMFSender* RTCPeerConnection::createDTMFSender(
MediaStreamTrack* track,
ExceptionState& exceptionState) {
if (throwExceptionIfSignalingStateClosed(m_signalingState, exceptionState))
return nullptr;
DCHECK(track);
if (!hasLocalStreamWithTrackId(track->id())) {
exceptionState.throwDOMException(
SyntaxError, "No local stream is available for the track provided.");
return nullptr;
}
RTCDTMFSender* dtmfSender = RTCDTMFSender::create(
getExecutionContext(), m_peerHandler.get(), track, exceptionState);
if (exceptionState.hadException())
return nullptr;
return dtmfSender;
}
void RTCPeerConnection::close(ExceptionState& exceptionState) {
if (throwExceptionIfSignalingStateClosed(m_signalingState, exceptionState))
return;
closeInternal();
}
void RTCPeerConnection::negotiationNeeded() {
DCHECK(!m_closed);
scheduleDispatchEvent(Event::create(EventTypeNames::negotiationneeded));
}
void RTCPeerConnection::didGenerateICECandidate(
const WebRTCICECandidate& webCandidate) {
DCHECK(!m_closed);
DCHECK(getExecutionContext()->isContextThread());
if (webCandidate.isNull()) {
scheduleDispatchEvent(
RTCPeerConnectionIceEvent::create(false, false, nullptr));
} else {
RTCIceCandidate* iceCandidate = RTCIceCandidate::create(webCandidate);
scheduleDispatchEvent(
RTCPeerConnectionIceEvent::create(false, false, iceCandidate));
}
}
void RTCPeerConnection::didChangeSignalingState(SignalingState newState) {
DCHECK(!m_closed);
DCHECK(getExecutionContext()->isContextThread());
changeSignalingState(newState);
}
void RTCPeerConnection::didChangeICEGatheringState(ICEGatheringState newState) {
DCHECK(!m_closed);
DCHECK(getExecutionContext()->isContextThread());
changeIceGatheringState(newState);
}
void RTCPeerConnection::didChangeICEConnectionState(
ICEConnectionState newState) {
DCHECK(!m_closed);
DCHECK(getExecutionContext()->isContextThread());
changeIceConnectionState(newState);
}
void RTCPeerConnection::didAddRemoteStream(const WebMediaStream& remoteStream) {
DCHECK(!m_closed);
DCHECK(getExecutionContext()->isContextThread());
if (m_signalingState == SignalingStateClosed)
return;
MediaStream* stream =
MediaStream::create(getExecutionContext(), remoteStream);
m_remoteStreams.push_back(stream);
scheduleDispatchEvent(
MediaStreamEvent::create(EventTypeNames::addstream, stream));
}
void RTCPeerConnection::didRemoveRemoteStream(
const WebMediaStream& remoteStream) {
DCHECK(!m_closed);
DCHECK(getExecutionContext()->isContextThread());
MediaStreamDescriptor* streamDescriptor = remoteStream;
DCHECK(streamDescriptor->client());
MediaStream* stream = static_cast<MediaStream*>(streamDescriptor->client());
stream->streamEnded();
if (m_signalingState == SignalingStateClosed)
return;
size_t pos = m_remoteStreams.find(stream);
DCHECK(pos != kNotFound);
m_remoteStreams.remove(pos);
scheduleDispatchEvent(
MediaStreamEvent::create(EventTypeNames::removestream, stream));
}
void RTCPeerConnection::didAddRemoteDataChannel(
WebRTCDataChannelHandler* handler) {
DCHECK(!m_closed);
DCHECK(getExecutionContext()->isContextThread());
if (m_signalingState == SignalingStateClosed)
return;
RTCDataChannel* channel =
RTCDataChannel::create(getExecutionContext(), WTF::wrapUnique(handler));
scheduleDispatchEvent(RTCDataChannelEvent::create(EventTypeNames::datachannel,
false, false, channel));
m_hasDataChannels = true;
}
void RTCPeerConnection::releasePeerConnectionHandler() {
if (m_stopped)
return;
m_stopped = true;
m_iceConnectionState = ICEConnectionStateClosed;
m_signalingState = SignalingStateClosed;
m_dispatchScheduledEventRunner->stop();
m_peerHandler.reset();
}
void RTCPeerConnection::closePeerConnection() {
DCHECK(m_signalingState != RTCPeerConnection::SignalingStateClosed);
closeInternal();
}
const AtomicString& RTCPeerConnection::interfaceName() const {
return EventTargetNames::RTCPeerConnection;
}
ExecutionContext* RTCPeerConnection::getExecutionContext() const {
return SuspendableObject::getExecutionContext();
}
void RTCPeerConnection::suspend() {
m_dispatchScheduledEventRunner->suspend();
}
void RTCPeerConnection::resume() {
m_dispatchScheduledEventRunner->resume();
}
void RTCPeerConnection::contextDestroyed(ExecutionContext*) {
releasePeerConnectionHandler();
}
void RTCPeerConnection::changeSignalingState(SignalingState signalingState) {
if (m_signalingState != SignalingStateClosed &&
m_signalingState != signalingState) {
m_signalingState = signalingState;
scheduleDispatchEvent(Event::create(EventTypeNames::signalingstatechange));
}
}
void RTCPeerConnection::changeIceGatheringState(
ICEGatheringState iceGatheringState) {
m_iceGatheringState = iceGatheringState;
}
bool RTCPeerConnection::setIceConnectionState(
ICEConnectionState iceConnectionState) {
if (m_iceConnectionState != ICEConnectionStateClosed &&
m_iceConnectionState != iceConnectionState) {
m_iceConnectionState = iceConnectionState;
if (m_iceConnectionState == ICEConnectionStateConnected)
recordRapporMetrics();
return true;
}
return false;
}
void RTCPeerConnection::changeIceConnectionState(
ICEConnectionState iceConnectionState) {
if (m_iceConnectionState != ICEConnectionStateClosed) {
scheduleDispatchEvent(
Event::create(EventTypeNames::iceconnectionstatechange),
WTF::bind(&RTCPeerConnection::setIceConnectionState,
wrapPersistent(this), iceConnectionState));
}
}
void RTCPeerConnection::closeInternal() {
DCHECK(m_signalingState != RTCPeerConnection::SignalingStateClosed);
m_peerHandler->stop();
m_closed = true;
changeIceConnectionState(ICEConnectionStateClosed);
changeIceGatheringState(ICEGatheringStateComplete);
changeSignalingState(SignalingStateClosed);
}
void RTCPeerConnection::scheduleDispatchEvent(Event* event) {
scheduleDispatchEvent(event, nullptr);
}
void RTCPeerConnection::scheduleDispatchEvent(
Event* event,
std::unique_ptr<BoolFunction> setupFunction) {
m_scheduledEvents.push_back(
new EventWrapper(event, std::move(setupFunction)));
m_dispatchScheduledEventRunner->runAsync();
}
void RTCPeerConnection::dispatchScheduledEvent() {
if (m_stopped)
return;
HeapVector<Member<EventWrapper>> events;
events.swap(m_scheduledEvents);
HeapVector<Member<EventWrapper>>::iterator it = events.begin();
for (; it != events.end(); ++it) {
if ((*it)->setup()) {
dispatchEvent((*it)->m_event.release());
}
}
events.clear();
}
void RTCPeerConnection::recordRapporMetrics() {
Document* document = toDocument(getExecutionContext());
for (const auto& stream : m_localStreams) {
if (stream->getAudioTracks().size() > 0)
HostsUsingFeatures::countAnyWorld(
*document, HostsUsingFeatures::Feature::RTCPeerConnectionAudio);
if (stream->getVideoTracks().size() > 0)
HostsUsingFeatures::countAnyWorld(
*document, HostsUsingFeatures::Feature::RTCPeerConnectionVideo);
}
for (const auto& stream : m_remoteStreams) {
if (stream->getAudioTracks().size() > 0)
HostsUsingFeatures::countAnyWorld(
*document, HostsUsingFeatures::Feature::RTCPeerConnectionAudio);
if (stream->getVideoTracks().size() > 0)
HostsUsingFeatures::countAnyWorld(
*document, HostsUsingFeatures::Feature::RTCPeerConnectionVideo);
}
if (m_hasDataChannels)
HostsUsingFeatures::countAnyWorld(
*document, HostsUsingFeatures::Feature::RTCPeerConnectionDataChannel);
}
DEFINE_TRACE(RTCPeerConnection) {
visitor->trace(m_localStreams);
visitor->trace(m_remoteStreams);
visitor->trace(m_dispatchScheduledEventRunner);
visitor->trace(m_scheduledEvents);
EventTargetWithInlineData::trace(visitor);
SuspendableObject::trace(visitor);
}
} // namespace blink