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/*
* Copyright (C) 2011 Google Inc. All rights reserved.
* Copyright (C) 2011, 2015 Ericsson AB. All rights reserved.
* Copyright (C) 2013-2019 Apple Inc. All rights reserved.
* Copyright (C) 2013 Nokia Corporation and/or its subsidiary(-ies).
*
* 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 "MediaStreamTrack.h"
#if ENABLE(MEDIA_STREAM)
#include "Document.h"
#include "Event.h"
#include "EventNames.h"
#include "JSDOMPromiseDeferred.h"
#include "JSOverconstrainedError.h"
#include "Logging.h"
#include "MediaConstraints.h"
#include "MediaStream.h"
#include "MediaStreamPrivate.h"
#include "NotImplemented.h"
#include "OverconstrainedError.h"
#include "Page.h"
#include "RealtimeMediaSourceCenter.h"
#include "ScriptExecutionContext.h"
#include <wtf/CompletionHandler.h>
#include <wtf/IsoMallocInlines.h>
#include <wtf/NeverDestroyed.h>
namespace WebCore {
static HashSet<MediaStreamTrack*>& allCaptureTracks()
{
static NeverDestroyed<HashSet<MediaStreamTrack*>> captureTracks;
return captureTracks;
}
static MediaProducer::MediaStateFlags sourceCaptureState(RealtimeMediaSource&);
WTF_MAKE_ISO_ALLOCATED_IMPL(MediaStreamTrack);
Ref<MediaStreamTrack> MediaStreamTrack::create(ScriptExecutionContext& context, Ref<MediaStreamTrackPrivate>&& privateTrack)
{
return adoptRef(*new MediaStreamTrack(context, WTFMove(privateTrack)));
}
MediaStreamTrack::MediaStreamTrack(ScriptExecutionContext& context, Ref<MediaStreamTrackPrivate>&& privateTrack)
: ActiveDOMObject(&context)
, m_private(WTFMove(privateTrack))
, m_taskQueue(context)
, m_isCaptureTrack(m_private->isCaptureTrack())
, m_mediaSession(PlatformMediaSession::create(*this))
{
ALWAYS_LOG(LOGIDENTIFIER);
suspendIfNeeded();
m_private->addObserver(*this);
if (!isCaptureTrack())
return;
allCaptureTracks().add(this);
if (auto document = this->document()) {
if (document->page() && document->page()->mutedState())
setMuted(true);
}
}
MediaStreamTrack::~MediaStreamTrack()
{
m_private->removeObserver(*this);
if (!isCaptureTrack())
return;
allCaptureTracks().remove(this);
}
const AtomString& MediaStreamTrack::kind() const
{
static NeverDestroyed<AtomString> audioKind("audio", AtomString::ConstructFromLiteral);
static NeverDestroyed<AtomString> videoKind("video", AtomString::ConstructFromLiteral);
if (m_private->type() == RealtimeMediaSource::Type::Audio)
return audioKind;
return videoKind;
}
const String& MediaStreamTrack::id() const
{
return m_private->id();
}
const String& MediaStreamTrack::label() const
{
return m_private->label();
}
const AtomString& MediaStreamTrack::contentHint() const
{
static NeverDestroyed<const AtomString> speechHint("speech", AtomString::ConstructFromLiteral);
static NeverDestroyed<const AtomString> musicHint("music", AtomString::ConstructFromLiteral);
static NeverDestroyed<const AtomString> detailHint("detail", AtomString::ConstructFromLiteral);
static NeverDestroyed<const AtomString> textHint("text", AtomString::ConstructFromLiteral);
static NeverDestroyed<const AtomString> motionHint("motion", AtomString::ConstructFromLiteral);
switch (m_private->contentHint()) {
case MediaStreamTrackPrivate::HintValue::Empty:
return emptyAtom();
case MediaStreamTrackPrivate::HintValue::Speech:
return speechHint;
case MediaStreamTrackPrivate::HintValue::Music:
return musicHint;
case MediaStreamTrackPrivate::HintValue::Motion:
return motionHint;
case MediaStreamTrackPrivate::HintValue::Detail:
return detailHint;
case MediaStreamTrackPrivate::HintValue::Text:
return textHint;
default:
return emptyAtom();
}
}
void MediaStreamTrack::setContentHint(const String& hintValue)
{
MediaStreamTrackPrivate::HintValue value;
if (m_private->type() == RealtimeMediaSource::Type::Audio) {
if (hintValue == "")
value = MediaStreamTrackPrivate::HintValue::Empty;
else if (hintValue == "speech")
value = MediaStreamTrackPrivate::HintValue::Speech;
else if (hintValue == "music")
value = MediaStreamTrackPrivate::HintValue::Music;
else
return;
} else {
if (hintValue == "")
value = MediaStreamTrackPrivate::HintValue::Empty;
else if (hintValue == "detail")
value = MediaStreamTrackPrivate::HintValue::Detail;
else if (hintValue == "motion")
value = MediaStreamTrackPrivate::HintValue::Motion;
else if (hintValue == "text")
value = MediaStreamTrackPrivate::HintValue::Text;
else
return;
}
m_private->setContentHint(value);
}
bool MediaStreamTrack::enabled() const
{
return m_private->enabled();
}
void MediaStreamTrack::setEnabled(bool enabled)
{
m_private->setEnabled(enabled);
}
bool MediaStreamTrack::muted() const
{
return m_private->muted();
}
void MediaStreamTrack::setMuted(MediaProducer::MutedStateFlags state)
{
bool trackMuted = false;
switch (source().deviceType()) {
case CaptureDevice::DeviceType::Microphone:
case CaptureDevice::DeviceType::Camera:
trackMuted = state & MediaProducer::AudioAndVideoCaptureIsMuted;
break;
case CaptureDevice::DeviceType::Screen:
case CaptureDevice::DeviceType::Window:
trackMuted = state & MediaProducer::ScreenCaptureIsMuted;
break;
case CaptureDevice::DeviceType::Unknown:
ASSERT_NOT_REACHED();
break;
}
m_private->setMuted(trackMuted);
}
auto MediaStreamTrack::readyState() const -> State
{
return ended() ? State::Ended : State::Live;
}
bool MediaStreamTrack::ended() const
{
return m_ended || m_private->ended();
}
RefPtr<MediaStreamTrack> MediaStreamTrack::clone()
{
if (!scriptExecutionContext())
return nullptr;
return MediaStreamTrack::create(*scriptExecutionContext(), m_private->clone());
}
void MediaStreamTrack::stopTrack(StopMode mode)
{
// NOTE: this method is called when the "stop" method is called from JS, using the "ImplementedAs" IDL attribute.
// This is done because ActiveDOMObject requires a "stop" method.
if (ended())
return;
// An 'ended' event is not posted if m_ended is true when trackEnded is called, so set it now if we are
// not supposed to post the event.
if (mode == StopMode::Silently)
m_ended = true;
m_private->endTrack();
m_ended = true;
configureTrackRendering();
}
MediaStreamTrack::TrackSettings MediaStreamTrack::getSettings() const
{
auto& settings = m_private->settings();
TrackSettings result;
if (settings.supportsWidth())
result.width = settings.width();
if (settings.supportsHeight())
result.height = settings.height();
if (settings.supportsAspectRatio() && settings.aspectRatio()) // FIXME: Why the check for zero here?
result.aspectRatio = settings.aspectRatio();
if (settings.supportsFrameRate())
result.frameRate = settings.frameRate();
if (settings.supportsFacingMode())
result.facingMode = RealtimeMediaSourceSettings::facingMode(settings.facingMode());
if (settings.supportsVolume())
result.volume = settings.volume();
if (settings.supportsSampleRate())
result.sampleRate = settings.sampleRate();
if (settings.supportsSampleSize())
result.sampleSize = settings.sampleSize();
if (settings.supportsEchoCancellation())
result.echoCancellation = settings.echoCancellation();
if (settings.supportsDeviceId())
result.deviceId = settings.deviceId();
if (settings.supportsGroupId())
result.groupId = settings.groupId();
// FIXME: shouldn't this include displaySurface and logicalSurface?
return result;
}
static DoubleRange capabilityDoubleRange(const CapabilityValueOrRange& value)
{
DoubleRange range;
switch (value.type()) {
case CapabilityValueOrRange::Double:
range.min = value.value().asDouble;
range.max = range.min;
break;
case CapabilityValueOrRange::DoubleRange:
range.min = value.rangeMin().asDouble;
range.max = value.rangeMax().asDouble;
break;
case CapabilityValueOrRange::Undefined:
case CapabilityValueOrRange::ULong:
case CapabilityValueOrRange::ULongRange:
ASSERT_NOT_REACHED();
}
return range;
}
static LongRange capabilityIntRange(const CapabilityValueOrRange& value)
{
LongRange range;
switch (value.type()) {
case CapabilityValueOrRange::ULong:
range.min = value.value().asInt;
range.max = range.min;
break;
case CapabilityValueOrRange::ULongRange:
range.min = value.rangeMin().asInt;
range.max = value.rangeMax().asInt;
break;
case CapabilityValueOrRange::Undefined:
case CapabilityValueOrRange::Double:
case CapabilityValueOrRange::DoubleRange:
ASSERT_NOT_REACHED();
}
return range;
}
static Vector<String> capabilityStringVector(const Vector<RealtimeMediaSourceSettings::VideoFacingMode>& modes)
{
Vector<String> result;
result.reserveCapacity(modes.size());
for (auto& mode : modes)
result.uncheckedAppend(RealtimeMediaSourceSettings::facingMode(mode));
return result;
}
static Vector<bool> capabilityBooleanVector(RealtimeMediaSourceCapabilities::EchoCancellation cancellation)
{
Vector<bool> result;
result.reserveCapacity(2);
result.uncheckedAppend(true);
result.uncheckedAppend(cancellation == RealtimeMediaSourceCapabilities::EchoCancellation::ReadWrite);
return result;
}
MediaStreamTrack::TrackCapabilities MediaStreamTrack::getCapabilities() const
{
auto capabilities = m_private->capabilities();
TrackCapabilities result;
if (capabilities.supportsWidth())
result.width = capabilityIntRange(capabilities.width());
if (capabilities.supportsHeight())
result.height = capabilityIntRange(capabilities.height());
if (capabilities.supportsAspectRatio())
result.aspectRatio = capabilityDoubleRange(capabilities.aspectRatio());
if (capabilities.supportsFrameRate())
result.frameRate = capabilityDoubleRange(capabilities.frameRate());
if (capabilities.supportsFacingMode())
result.facingMode = capabilityStringVector(capabilities.facingMode());
if (capabilities.supportsVolume())
result.volume = capabilityDoubleRange(capabilities.volume());
if (capabilities.supportsSampleRate())
result.sampleRate = capabilityIntRange(capabilities.sampleRate());
if (capabilities.supportsSampleSize())
result.sampleSize = capabilityIntRange(capabilities.sampleSize());
if (capabilities.supportsEchoCancellation())
result.echoCancellation = capabilityBooleanVector(capabilities.echoCancellation());
if (capabilities.supportsDeviceId())
result.deviceId = capabilities.deviceId();
if (capabilities.supportsGroupId())
result.groupId = capabilities.groupId();
return result;
}
static MediaConstraints createMediaConstraints(const Optional<MediaTrackConstraints>& constraints)
{
if (!constraints) {
MediaConstraints validConstraints;
validConstraints.isValid = true;
return validConstraints;
}
return createMediaConstraints(constraints.value());
}
void MediaStreamTrack::applyConstraints(const Optional<MediaTrackConstraints>& constraints, DOMPromiseDeferred<void>&& promise)
{
m_promise = WTF::makeUnique<DOMPromiseDeferred<void>>(WTFMove(promise));
auto completionHandler = [this, protectedThis = makeRef(*this), constraints](auto&& error) mutable {
if (!m_promise)
return;
if (error) {
m_promise->rejectType<IDLInterface<OverconstrainedError>>(OverconstrainedError::create(WTFMove(error->badConstraint), WTFMove(error->message)));
return;
}
m_promise->resolve();
m_constraints = constraints.valueOr(MediaTrackConstraints { });
};
m_private->applyConstraints(createMediaConstraints(constraints), WTFMove(completionHandler));
}
void MediaStreamTrack::addObserver(Observer& observer)
{
m_observers.append(&observer);
}
void MediaStreamTrack::removeObserver(Observer& observer)
{
m_observers.removeFirst(&observer);
}
MediaProducer::MediaStateFlags MediaStreamTrack::mediaState() const
{
if (m_ended || !isCaptureTrack())
return MediaProducer::IsNotPlaying;
auto* document = this->document();
if (!document || !document->page())
return MediaProducer::IsNotPlaying;
return sourceCaptureState(source());
}
MediaProducer::MediaStateFlags sourceCaptureState(RealtimeMediaSource& source)
{
switch (source.deviceType()) {
case CaptureDevice::DeviceType::Microphone:
if (source.muted())
return MediaProducer::HasMutedAudioCaptureDevice;
if (source.interrupted())
return MediaProducer::HasInterruptedAudioCaptureDevice;
if (source.isProducingData())
return MediaProducer::HasActiveAudioCaptureDevice;
break;
case CaptureDevice::DeviceType::Camera:
if (source.muted())
return MediaProducer::HasMutedVideoCaptureDevice;
if (source.interrupted())
return MediaProducer::HasInterruptedVideoCaptureDevice;
if (source.isProducingData())
return MediaProducer::HasActiveVideoCaptureDevice;
break;
case CaptureDevice::DeviceType::Screen:
case CaptureDevice::DeviceType::Window:
if (source.muted())
return MediaProducer::HasMutedDisplayCaptureDevice;
if (source.interrupted())
return MediaProducer::HasInterruptedDisplayCaptureDevice;
if (source.isProducingData())
return MediaProducer::HasActiveDisplayCaptureDevice;
break;
case CaptureDevice::DeviceType::Unknown:
ASSERT_NOT_REACHED();
}
return MediaProducer::IsNotPlaying;
}
MediaProducer::MediaStateFlags MediaStreamTrack::captureState(Document& document)
{
MediaProducer::MediaStateFlags state = MediaProducer::IsNotPlaying;
for (auto* captureTrack : allCaptureTracks()) {
if (captureTrack->document() != &document || captureTrack->ended())
continue;
state |= sourceCaptureState(captureTrack->source());
}
return state;
}
void MediaStreamTrack::updateCaptureAccordingToMutedState(Document& document)
{
for (auto* captureTrack : allCaptureTracks()) {
if (captureTrack->document() != &document || captureTrack->ended())
continue;
captureTrack->setMuted(document.page()->mutedState());
}
}
void MediaStreamTrack::endCapture(Document& document)
{
bool didEndCapture = false;
for (auto* captureTrack : allCaptureTracks()) {
if (captureTrack->document() != &document)
continue;
captureTrack->stopTrack(MediaStreamTrack::StopMode::PostEvent);
didEndCapture = true;
}
if (didEndCapture)
document.updateIsPlayingMedia();
}
void MediaStreamTrack::trackStarted(MediaStreamTrackPrivate&)
{
configureTrackRendering();
}
void MediaStreamTrack::trackEnded(MediaStreamTrackPrivate&)
{
// http://w3c.github.io/mediacapture-main/#life-cycle
// When a MediaStreamTrack track ends for any reason other than the stop() method being invoked, the User Agent must queue a task that runs the following steps:
// 1. If the track's readyState attribute has the value ended already, then abort these steps.
if (m_ended)
return;
// 2. Set track's readyState attribute to ended.
m_ended = true;
if (scriptExecutionContext()->activeDOMObjectsAreSuspended() || scriptExecutionContext()->activeDOMObjectsAreStopped())
return;
// 3. Notify track's source that track is ended so that the source may be stopped, unless other MediaStreamTrack objects depend on it.
// 4. Fire a simple event named ended at the object.
dispatchEvent(Event::create(eventNames().endedEvent, Event::CanBubble::No, Event::IsCancelable::No));
for (auto& observer : m_observers)
observer->trackDidEnd();
configureTrackRendering();
}
void MediaStreamTrack::trackMutedChanged(MediaStreamTrackPrivate&)
{
if (scriptExecutionContext()->activeDOMObjectsAreSuspended() || scriptExecutionContext()->activeDOMObjectsAreStopped() || m_ended)
return;
m_eventTaskQueue.enqueueTask([this, muted = this->muted()] {
AtomString eventType = muted ? eventNames().muteEvent : eventNames().unmuteEvent;
dispatchEvent(Event::create(eventType, Event::CanBubble::No, Event::IsCancelable::No));
});
configureTrackRendering();
}
void MediaStreamTrack::trackSettingsChanged(MediaStreamTrackPrivate&)
{
configureTrackRendering();
}
void MediaStreamTrack::trackEnabledChanged(MediaStreamTrackPrivate&)
{
configureTrackRendering();
}
void MediaStreamTrack::configureTrackRendering()
{
m_taskQueue.enqueueTask([this] {
if (m_mediaSession && m_private->type() == RealtimeMediaSource::Type::Audio)
m_mediaSession->canProduceAudioChanged();
if (auto document = this->document())
document->updateIsPlayingMedia();
});
// 4.3.1
// ... media from the source only flows when a MediaStreamTrack object is both unmuted and enabled
}
void MediaStreamTrack::stop()
{
stopTrack();
m_taskQueue.close();
}
const char* MediaStreamTrack::activeDOMObjectName() const
{
return "MediaStreamTrack";
}
// FIXME: This should never prevent entering the back/forward cache.
bool MediaStreamTrack::shouldPreventEnteringBackForwardCache_DEPRECATED() const
{
return hasPendingActivity();
}
bool MediaStreamTrack::hasPendingActivity() const
{
return !m_ended;
}
AudioSourceProvider* MediaStreamTrack::audioSourceProvider()
{
return m_private->audioSourceProvider();
}
Document* MediaStreamTrack::document() const
{
return downcast<Document>(scriptExecutionContext());
}
PlatformMediaSession::MediaType MediaStreamTrack::mediaType() const
{
return (isCaptureTrack() && canProduceAudio()) ? PlatformMediaSession::MediaStreamCapturingAudio : PlatformMediaSession::None;
}
PlatformMediaSession::MediaType MediaStreamTrack::presentationType() const
{
return mediaType();
}
PlatformMediaSession::CharacteristicsFlags MediaStreamTrack::characteristics() const
{
if (!m_private->isActive())
return PlatformMediaSession::HasNothing;
return m_private->type() == RealtimeMediaSource::Type::Audio ? PlatformMediaSession::HasAudio : PlatformMediaSession::HasVideo;
}
void MediaStreamTrack::mayResumePlayback(bool)
{
// FIXME: should a media stream track pay attention to this directly, or only when attached to a media element?
}
void MediaStreamTrack::suspendPlayback()
{
// FIXME: should a media stream track pay attention to this directly, or only when attached to a media element?
}
String MediaStreamTrack::sourceApplicationIdentifier() const
{
auto* document = this->document();
if (document && document->frame()) {
if (auto* networkingContext = document->frame()->loader().networkingContext())
return networkingContext->sourceApplicationIdentifier();
}
return emptyString();
}
bool MediaStreamTrack::canProduceAudio() const
{
return m_private->type() == RealtimeMediaSource::Type::Audio && !ended() && !muted();
}
bool MediaStreamTrack::processingUserGestureForMedia() const
{
return document() ? document()->processingUserGestureForMedia() : false;
}
#if !RELEASE_LOG_DISABLED
WTFLogChannel& MediaStreamTrack::logChannel() const
{
return LogWebRTC;
}
#endif
} // namespace WebCore
#endif // ENABLE(MEDIA_STREAM)