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android / platform / external / chromium_org / third_party / WebKit / 06f816c / . / Source / core / html / HTMLMediaElement.cpp
blob: 1b1cee7a29a4c4ef756926dd7a4ea43230aaedb8 [file] [log] [blame]
/*
* Copyright (C) 2007, 2008, 2009, 2010, 2011, 2012, 2013 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.
*
* THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``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 COMPUTER, INC. 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 "core/html/HTMLMediaElement.h"
#include "HTMLNames.h"
#include "RuntimeEnabledFeatures.h"
#include "bindings/v8/ExceptionState.h"
#include "bindings/v8/ExceptionStatePlaceholder.h"
#include "bindings/v8/ScriptController.h"
#include "bindings/v8/ScriptEventListener.h"
#include "core/css/MediaList.h"
#include "core/css/MediaQueryEvaluator.h"
#include "core/dom/Attribute.h"
#include "core/events/Event.h"
#include "core/events/EventNames.h"
#include "core/dom/ExceptionCode.h"
#include "core/dom/FullscreenElementStack.h"
#include "core/dom/shadow/ShadowRoot.h"
#include "core/html/HTMLMediaSource.h"
#include "core/html/HTMLSourceElement.h"
#include "core/html/HTMLTrackElement.h"
#include "core/html/MediaController.h"
#include "core/html/MediaError.h"
#include "core/html/MediaFragmentURIParser.h"
#include "core/html/MediaKeyError.h"
#include "core/html/MediaKeyEvent.h"
#include "core/html/TimeRanges.h"
#include "core/html/shadow/MediaControls.h"
#include "core/html/track/InbandTextTrack.h"
#include "core/html/track/TextTrackCueList.h"
#include "core/html/track/TextTrackList.h"
#include "core/loader/FrameLoader.h"
#include "core/page/ContentSecurityPolicy.h"
#include "core/page/Frame.h"
#include "core/page/Page.h"
#include "core/page/Settings.h"
#include "core/platform/ContentType.h"
#include "core/platform/Language.h"
#include "core/platform/Logging.h"
#include "core/platform/MIMETypeFromURL.h"
#include "core/platform/MIMETypeRegistry.h"
#include "core/platform/NotImplemented.h"
#include "core/platform/graphics/InbandTextTrackPrivate.h"
#include "core/platform/graphics/MediaPlayer.h"
#include "core/rendering/RenderLayerCompositor.h"
#include "core/rendering/RenderVideo.h"
#include "core/rendering/RenderView.h"
#include "modules/mediastream/MediaStreamRegistry.h"
#include "public/platform/Platform.h"
#include "weborigin/SecurityOrigin.h"
#include "wtf/CurrentTime.h"
#include "wtf/MathExtras.h"
#include "wtf/NonCopyingSort.h"
#include "wtf/Uint8Array.h"
#include "wtf/text/CString.h"
#include <limits>
#if ENABLE(WEB_AUDIO)
#include "core/platform/audio/AudioSourceProvider.h"
#include "modules/webaudio/MediaElementAudioSourceNode.h"
#endif
#if ENABLE(ENCRYPTED_MEDIA_V2)
// FIXME: Remove dependency on modules/encryptedmedia (http://crbug.com/242754).
#include "modules/encryptedmedia/MediaKeyNeededEvent.h"
#include "modules/encryptedmedia/MediaKeys.h"
#endif
using namespace std;
using WebKit::WebMimeRegistry;
namespace WebCore {
#if !LOG_DISABLED
static String urlForLoggingMedia(const KURL& url)
{
static const unsigned maximumURLLengthForLogging = 128;
if (url.string().length() < maximumURLLengthForLogging)
return url.string();
return url.string().substring(0, maximumURLLengthForLogging) + "...";
}
static const char* boolString(bool val)
{
return val ? "true" : "false";
}
#endif
#ifndef LOG_MEDIA_EVENTS
// Default to not logging events because so many are generated they can overwhelm the rest of
// the logging.
#define LOG_MEDIA_EVENTS 0
#endif
#ifndef LOG_CACHED_TIME_WARNINGS
// Default to not logging warnings about excessive drift in the cached media time because it adds a
// fair amount of overhead and logging.
#define LOG_CACHED_TIME_WARNINGS 0
#endif
// URL protocol used to signal that the media source API is being used.
static const char* mediaSourceBlobProtocol = "blob";
using namespace HTMLNames;
using namespace std;
typedef HashMap<Document*, HashSet<HTMLMediaElement*> > DocumentElementSetMap;
static DocumentElementSetMap& documentToElementSetMap()
{
DEFINE_STATIC_LOCAL(DocumentElementSetMap, map, ());
return map;
}
static void addElementToDocumentMap(HTMLMediaElement* element, Document* document)
{
DocumentElementSetMap& map = documentToElementSetMap();
HashSet<HTMLMediaElement*> set = map.take(document);
set.add(element);
map.add(document, set);
}
static void removeElementFromDocumentMap(HTMLMediaElement* element, Document* document)
{
DocumentElementSetMap& map = documentToElementSetMap();
HashSet<HTMLMediaElement*> set = map.take(document);
set.remove(element);
if (!set.isEmpty())
map.add(document, set);
}
static void throwExceptionForMediaKeyException(MediaPlayer::MediaKeyException exception, ExceptionState& es)
{
switch (exception) {
case MediaPlayer::NoError:
return;
case MediaPlayer::InvalidPlayerState:
es.throwUninformativeAndGenericDOMException(InvalidStateError);
return;
case MediaPlayer::KeySystemNotSupported:
es.throwUninformativeAndGenericDOMException(NotSupportedError);
return;
}
ASSERT_NOT_REACHED();
return;
}
class TrackDisplayUpdateScope {
public:
TrackDisplayUpdateScope(HTMLMediaElement* mediaElement)
{
m_mediaElement = mediaElement;
m_mediaElement->beginIgnoringTrackDisplayUpdateRequests();
}
~TrackDisplayUpdateScope()
{
ASSERT(m_mediaElement);
m_mediaElement->endIgnoringTrackDisplayUpdateRequests();
}
private:
HTMLMediaElement* m_mediaElement;
};
static bool canLoadURL(const KURL& url, const ContentType& contentType, const String& keySystem)
{
DEFINE_STATIC_LOCAL(const String, codecs, ("codecs"));
String contentMIMEType = contentType.type().lower();
String contentTypeCodecs = contentType.parameter(codecs);
// If the MIME type is missing or is not meaningful, try to figure it out from the URL.
if (contentMIMEType.isEmpty() || contentMIMEType == "application/octet-stream" || contentMIMEType == "text/plain") {
if (url.protocolIsData())
contentMIMEType = mimeTypeFromDataURL(url.string());
}
// If no MIME type is specified, always attempt to load.
if (contentMIMEType.isEmpty())
return true;
// 4.8.10.3 MIME types - In the absence of a specification to the contrary, the MIME type "application/octet-stream"
// when used with parameters, e.g. "application/octet-stream;codecs=theora", is a type that the user agent knows
// it cannot render.
if (contentMIMEType != "application/octet-stream" || contentTypeCodecs.isEmpty()) {
WebMimeRegistry::SupportsType supported = WebKit::Platform::current()->mimeRegistry()->supportsMediaMIMEType(contentMIMEType, contentTypeCodecs, keySystem.lower());
return supported > WebMimeRegistry::IsNotSupported;
}
return false;
}
WebMimeRegistry::SupportsType HTMLMediaElement::supportsType(const ContentType& contentType, const String& keySystem)
{
DEFINE_STATIC_LOCAL(const String, codecs, ("codecs"));
if (!RuntimeEnabledFeatures::mediaEnabled())
return WebMimeRegistry::IsNotSupported;
String type = contentType.type().lower();
// The codecs string is not lower-cased because MP4 values are case sensitive
// per http://tools.ietf.org/html/rfc4281#page-7.
String typeCodecs = contentType.parameter(codecs);
String system = keySystem.lower();
if (type.isEmpty())
return WebMimeRegistry::IsNotSupported;
// 4.8.10.3 MIME types - The canPlayType(type) method must return the empty string if type is a type that the
// user agent knows it cannot render or is the type "application/octet-stream"
if (type == "application/octet-stream")
return WebMimeRegistry::IsNotSupported;
return WebKit::Platform::current()->mimeRegistry()->supportsMediaMIMEType(type, typeCodecs, system);
}
HTMLMediaElement::HTMLMediaElement(const QualifiedName& tagName, Document& document, bool createdByParser)
: HTMLElement(tagName, document)
, ActiveDOMObject(&document)
, m_loadTimer(this, &HTMLMediaElement::loadTimerFired)
, m_progressEventTimer(this, &HTMLMediaElement::progressEventTimerFired)
, m_playbackProgressTimer(this, &HTMLMediaElement::playbackProgressTimerFired)
, m_playedTimeRanges()
, m_asyncEventQueue(GenericEventQueue::create(this))
, m_playbackRate(1.0f)
, m_defaultPlaybackRate(1.0f)
, m_webkitPreservesPitch(true)
, m_networkState(NETWORK_EMPTY)
, m_readyState(HAVE_NOTHING)
, m_readyStateMaximum(HAVE_NOTHING)
, m_volume(1.0f)
, m_lastSeekTime(0)
, m_previousProgressTime(numeric_limits<double>::max())
, m_duration(numeric_limits<double>::quiet_NaN())
, m_lastTimeUpdateEventWallTime(0)
, m_lastTimeUpdateEventMovieTime(numeric_limits<double>::max())
, m_loadState(WaitingForSource)
, m_restrictions(RequirePageConsentToLoadMediaRestriction)
, m_preload(MediaPlayer::Auto)
, m_displayMode(Unknown)
, m_cachedTime(MediaPlayer::invalidTime())
, m_cachedTimeWallClockUpdateTime(0)
, m_minimumWallClockTimeToCacheMediaTime(0)
, m_fragmentStartTime(MediaPlayer::invalidTime())
, m_fragmentEndTime(MediaPlayer::invalidTime())
, m_pendingActionFlags(0)
, m_playing(false)
, m_shouldDelayLoadEvent(false)
, m_haveFiredLoadedData(false)
, m_inActiveDocument(true)
, m_autoplaying(true)
, m_muted(false)
, m_paused(true)
, m_seeking(false)
, m_sentStalledEvent(false)
, m_sentEndEvent(false)
, m_pausedInternal(false)
, m_sendProgressEvents(true)
, m_closedCaptionsVisible(false)
, m_dispatchingCanPlayEvent(false)
, m_loadInitiatedByUserGesture(false)
, m_completelyLoaded(false)
, m_havePreparedToPlay(false)
, m_parsingInProgress(createdByParser)
, m_tracksAreReady(true)
, m_haveVisibleTextTrack(false)
, m_processingPreferenceChange(false)
, m_lastTextTrackUpdateTime(-1)
, m_textTracks(0)
, m_ignoreTrackDisplayUpdate(0)
#if ENABLE(WEB_AUDIO)
, m_audioSourceNode(0)
#endif
{
ASSERT(RuntimeEnabledFeatures::mediaEnabled());
LOG(Media, "HTMLMediaElement::HTMLMediaElement");
ScriptWrappable::init(this);
if (document.settings()) {
if (document.settings()->mediaPlaybackRequiresUserGesture()) {
addBehaviorRestriction(RequireUserGestureForRateChangeRestriction);
addBehaviorRestriction(RequireUserGestureForLoadRestriction);
}
if (document.settings()->mediaFullscreenRequiresUserGesture()) {
addBehaviorRestriction(RequireUserGestureForFullscreenRestriction);
}
}
setHasCustomStyleCallbacks();
addElementToDocumentMap(this, &document);
}
HTMLMediaElement::~HTMLMediaElement()
{
LOG(Media, "HTMLMediaElement::~HTMLMediaElement");
m_asyncEventQueue->close();
setShouldDelayLoadEvent(false);
if (m_textTracks)
m_textTracks->clearOwner();
if (m_textTracks) {
for (unsigned i = 0; i < m_textTracks->length(); ++i)
m_textTracks->item(i)->clearClient();
}
if (m_mediaController)
m_mediaController->removeMediaElement(this);
closeMediaSource();
#if ENABLE(ENCRYPTED_MEDIA_V2)
setMediaKeys(0);
#endif
removeElementFromDocumentMap(this, &document());
// Destroying the player may cause a resource load to be canceled,
// which could result in userCancelledLoad() being called back.
// Setting m_completelyLoaded ensures that such a call will not cause
// us to dispatch an abort event, which would result in a crash.
// See http://crbug.com/233654 for more details.
m_completelyLoaded = true;
// Destroying the player may cause a resource load to be canceled,
// which could result in Document::dispatchWindowLoadEvent() being
// called via ResourceFetch::didLoadResource() then
// FrameLoader::loadDone(). To prevent load event dispatching during
// object destruction, we use Document::incrementLoadEventDelayCount().
// See http://crbug.com/275223 for more details.
document().incrementLoadEventDelayCount();
m_player.clear();
#if ENABLE(WEB_AUDIO)
if (audioSourceProvider())
audioSourceProvider()->setClient(0);
#endif
document().decrementLoadEventDelayCount();
}
void HTMLMediaElement::didMoveToNewDocument(Document* oldDocument)
{
LOG(Media, "HTMLMediaElement::didMoveToNewDocument");
if (m_shouldDelayLoadEvent) {
if (oldDocument)
oldDocument->decrementLoadEventDelayCount();
document().incrementLoadEventDelayCount();
}
if (oldDocument)
removeElementFromDocumentMap(this, oldDocument);
addElementToDocumentMap(this, &document());
// FIXME: This is a temporary fix to prevent this object from causing the
// MediaPlayer to dereference Frame and FrameLoader pointers from the
// previous document. A proper fix would provide a mechanism to allow this
// object to refresh the MediaPlayer's Frame and FrameLoader references on
// document changes so that playback can be resumed properly.
userCancelledLoad();
HTMLElement::didMoveToNewDocument(oldDocument);
}
bool HTMLMediaElement::hasCustomFocusLogic() const
{
return true;
}
bool HTMLMediaElement::supportsFocus() const
{
if (ownerDocument()->isMediaDocument())
return false;
// If no controls specified, we should still be able to focus the element if it has tabIndex.
return controls() || HTMLElement::supportsFocus();
}
bool HTMLMediaElement::isMouseFocusable() const
{
return false;
}
void HTMLMediaElement::parseAttribute(const QualifiedName& name, const AtomicString& value)
{
if (name == srcAttr) {
// Trigger a reload, as long as the 'src' attribute is present.
if (!value.isNull()) {
clearMediaPlayer(LoadMediaResource);
scheduleDelayedAction(LoadMediaResource);
}
} else if (name == controlsAttr)
configureMediaControls();
else if (name == preloadAttr) {
if (equalIgnoringCase(value, "none"))
m_preload = MediaPlayer::None;
else if (equalIgnoringCase(value, "metadata"))
m_preload = MediaPlayer::MetaData;
else {
// The spec does not define an "invalid value default" but "auto" is suggested as the
// "missing value default", so use it for everything except "none" and "metadata"
m_preload = MediaPlayer::Auto;
}
// The attribute must be ignored if the autoplay attribute is present
if (!autoplay() && m_player)
m_player->setPreload(m_preload);
} else if (name == mediagroupAttr)
setMediaGroup(value);
else if (name == onabortAttr)
setAttributeEventListener(eventNames().abortEvent, createAttributeEventListener(this, name, value));
else if (name == onbeforeloadAttr)
setAttributeEventListener(eventNames().beforeloadEvent, createAttributeEventListener(this, name, value));
else if (name == oncanplayAttr)
setAttributeEventListener(eventNames().canplayEvent, createAttributeEventListener(this, name, value));
else if (name == oncanplaythroughAttr)
setAttributeEventListener(eventNames().canplaythroughEvent, createAttributeEventListener(this, name, value));
else if (name == ondurationchangeAttr)
setAttributeEventListener(eventNames().durationchangeEvent, createAttributeEventListener(this, name, value));
else if (name == onemptiedAttr)
setAttributeEventListener(eventNames().emptiedEvent, createAttributeEventListener(this, name, value));
else if (name == onendedAttr)
setAttributeEventListener(eventNames().endedEvent, createAttributeEventListener(this, name, value));
else if (name == onerrorAttr)
setAttributeEventListener(eventNames().errorEvent, createAttributeEventListener(this, name, value));
else if (name == onloadeddataAttr)
setAttributeEventListener(eventNames().loadeddataEvent, createAttributeEventListener(this, name, value));
else if (name == onloadedmetadataAttr)
setAttributeEventListener(eventNames().loadedmetadataEvent, createAttributeEventListener(this, name, value));
else if (name == onloadstartAttr)
setAttributeEventListener(eventNames().loadstartEvent, createAttributeEventListener(this, name, value));
else if (name == onpauseAttr)
setAttributeEventListener(eventNames().pauseEvent, createAttributeEventListener(this, name, value));
else if (name == onplayAttr)
setAttributeEventListener(eventNames().playEvent, createAttributeEventListener(this, name, value));
else if (name == onplayingAttr)
setAttributeEventListener(eventNames().playingEvent, createAttributeEventListener(this, name, value));
else if (name == onprogressAttr)
setAttributeEventListener(eventNames().progressEvent, createAttributeEventListener(this, name, value));
else if (name == onratechangeAttr)
setAttributeEventListener(eventNames().ratechangeEvent, createAttributeEventListener(this, name, value));
else if (name == onseekedAttr)
setAttributeEventListener(eventNames().seekedEvent, createAttributeEventListener(this, name, value));
else if (name == onseekingAttr)
setAttributeEventListener(eventNames().seekingEvent, createAttributeEventListener(this, name, value));
else if (name == onstalledAttr)
setAttributeEventListener(eventNames().stalledEvent, createAttributeEventListener(this, name, value));
else if (name == onsuspendAttr)
setAttributeEventListener(eventNames().suspendEvent, createAttributeEventListener(this, name, value));
else if (name == ontimeupdateAttr)
setAttributeEventListener(eventNames().timeupdateEvent, createAttributeEventListener(this, name, value));
else if (name == onvolumechangeAttr)
setAttributeEventListener(eventNames().volumechangeEvent, createAttributeEventListener(this, name, value));
else if (name == onwaitingAttr)
setAttributeEventListener(eventNames().waitingEvent, createAttributeEventListener(this, name, value));
else
HTMLElement::parseAttribute(name, value);
}
void HTMLMediaElement::finishParsingChildren()
{
HTMLElement::finishParsingChildren();
m_parsingInProgress = false;
if (!RuntimeEnabledFeatures::videoTrackEnabled())
return;
for (Node* node = firstChild(); node; node = node->nextSibling()) {
if (node->hasTagName(trackTag)) {
scheduleDelayedAction(LoadTextTrackResource);
break;
}
}
}
bool HTMLMediaElement::rendererIsNeeded(const RenderStyle& style)
{
return controls() ? HTMLElement::rendererIsNeeded(style) : false;
}
RenderObject* HTMLMediaElement::createRenderer(RenderStyle*)
{
return new RenderMedia(this);
}
bool HTMLMediaElement::childShouldCreateRenderer(const Node& child) const
{
return hasMediaControls() && HTMLElement::childShouldCreateRenderer(child);
}
Node::InsertionNotificationRequest HTMLMediaElement::insertedInto(ContainerNode* insertionPoint)
{
LOG(Media, "HTMLMediaElement::insertedInto");
HTMLElement::insertedInto(insertionPoint);
if (insertionPoint->inDocument()) {
m_inActiveDocument = true;
if (!getAttribute(srcAttr).isEmpty() && m_networkState == NETWORK_EMPTY)
scheduleDelayedAction(LoadMediaResource);
}
configureMediaControls();
return InsertionDone;
}
void HTMLMediaElement::removedFrom(ContainerNode* insertionPoint)
{
LOG(Media, "HTMLMediaElement::removedFrom");
m_inActiveDocument = false;
if (insertionPoint->inDocument()) {
configureMediaControls();
if (m_networkState > NETWORK_EMPTY)
pause();
}
HTMLElement::removedFrom(insertionPoint);
}
void HTMLMediaElement::attach(const AttachContext& context)
{
ASSERT(!attached());
HTMLElement::attach(context);
if (renderer())
renderer()->updateFromElement();
}
void HTMLMediaElement::didRecalcStyle(StyleRecalcChange)
{
if (renderer())
renderer()->updateFromElement();
}
void HTMLMediaElement::scheduleDelayedAction(DelayedActionType actionType)
{
LOG(Media, "HTMLMediaElement::scheduleLoad");
if ((actionType & LoadMediaResource) && !(m_pendingActionFlags & LoadMediaResource)) {
prepareForLoad();
m_pendingActionFlags |= LoadMediaResource;
}
if (RuntimeEnabledFeatures::videoTrackEnabled() && (actionType & LoadTextTrackResource))
m_pendingActionFlags |= LoadTextTrackResource;
if (!m_loadTimer.isActive())
m_loadTimer.startOneShot(0);
}
void HTMLMediaElement::scheduleNextSourceChild()
{
// Schedule the timer to try the next <source> element WITHOUT resetting state ala prepareForLoad.
m_pendingActionFlags |= LoadMediaResource;
m_loadTimer.startOneShot(0);
}
void HTMLMediaElement::scheduleEvent(const AtomicString& eventName)
{
#if LOG_MEDIA_EVENTS
LOG(Media, "HTMLMediaElement::scheduleEvent - scheduling '%s'", eventName.string().ascii().data());
#endif
m_asyncEventQueue->enqueueEvent(Event::createCancelable(eventName));
}
void HTMLMediaElement::loadTimerFired(Timer<HTMLMediaElement>*)
{
RefPtr<HTMLMediaElement> protect(this); // loadNextSourceChild may fire 'beforeload', which can make arbitrary DOM mutations.
if (RuntimeEnabledFeatures::videoTrackEnabled() && (m_pendingActionFlags & LoadTextTrackResource))
configureTextTracks();
if (m_pendingActionFlags & LoadMediaResource) {
if (m_loadState == LoadingFromSourceElement)
loadNextSourceChild();
else
loadInternal();
}
m_pendingActionFlags = 0;
}
PassRefPtr<MediaError> HTMLMediaElement::error() const
{
return m_error;
}
void HTMLMediaElement::setSrc(const String& url)
{
setAttribute(srcAttr, url);
}
HTMLMediaElement::NetworkState HTMLMediaElement::networkState() const
{
return m_networkState;
}
String HTMLMediaElement::canPlayType(const String& mimeType, const String& keySystem, const KURL& url) const
{
WebMimeRegistry::SupportsType support = supportsType(ContentType(mimeType), keySystem);
String canPlay;
// 4.8.10.3
switch (support)
{
case WebMimeRegistry::IsNotSupported:
canPlay = emptyString();
break;
case WebMimeRegistry::MayBeSupported:
canPlay = "maybe";
break;
case WebMimeRegistry::IsSupported:
canPlay = "probably";
break;
}
LOG(Media, "HTMLMediaElement::canPlayType(%s, %s, %s) -> %s", mimeType.utf8().data(), keySystem.utf8().data(), url.elidedString().utf8().data(), canPlay.utf8().data());
return canPlay;
}
void HTMLMediaElement::load()
{
RefPtr<HTMLMediaElement> protect(this); // loadInternal may result in a 'beforeload' event, which can make arbitrary DOM mutations.
LOG(Media, "HTMLMediaElement::load()");
if (userGestureRequiredForLoad() && !ScriptController::processingUserGesture())
return;
m_loadInitiatedByUserGesture = ScriptController::processingUserGesture();
if (m_loadInitiatedByUserGesture)
removeBehaviorsRestrictionsAfterFirstUserGesture();
prepareForLoad();
loadInternal();
prepareToPlay();
}
void HTMLMediaElement::prepareForLoad()
{
LOG(Media, "HTMLMediaElement::prepareForLoad");
// Perform the cleanup required for the resource load algorithm to run.
stopPeriodicTimers();
m_loadTimer.stop();
m_sentEndEvent = false;
m_sentStalledEvent = false;
m_haveFiredLoadedData = false;
m_completelyLoaded = false;
m_havePreparedToPlay = false;
m_displayMode = Unknown;
// 1 - Abort any already-running instance of the resource selection algorithm for this element.
m_loadState = WaitingForSource;
m_currentSourceNode = 0;
// 2 - If there are any tasks from the media element's media element event task source in
// one of the task queues, then remove those tasks.
cancelPendingEventsAndCallbacks();
// 3 - If the media element's networkState is set to NETWORK_LOADING or NETWORK_IDLE, queue
// a task to fire a simple event named abort at the media element.
if (m_networkState == NETWORK_LOADING || m_networkState == NETWORK_IDLE)
scheduleEvent(eventNames().abortEvent);
closeMediaSource();
createMediaPlayer();
// 4 - If the media element's networkState is not set to NETWORK_EMPTY, then run these substeps
if (m_networkState != NETWORK_EMPTY) {
m_networkState = NETWORK_EMPTY;
m_readyState = HAVE_NOTHING;
m_readyStateMaximum = HAVE_NOTHING;
refreshCachedTime();
m_paused = true;
m_seeking = false;
invalidateCachedTime();
scheduleEvent(eventNames().emptiedEvent);
updateMediaController();
if (RuntimeEnabledFeatures::videoTrackEnabled())
updateActiveTextTrackCues(0);
}
// 5 - Set the playbackRate attribute to the value of the defaultPlaybackRate attribute.
setPlaybackRate(defaultPlaybackRate());
// 6 - Set the error attribute to null and the autoplaying flag to true.
m_error = 0;
m_autoplaying = true;
// 7 - Invoke the media element's resource selection algorithm.
// 8 - Note: Playback of any previously playing media resource for this element stops.
// The resource selection algorithm
// 1 - Set the networkState to NETWORK_NO_SOURCE
m_networkState = NETWORK_NO_SOURCE;
// 2 - Asynchronously await a stable state.
m_playedTimeRanges = TimeRanges::create();
m_lastSeekTime = 0;
m_duration = numeric_limits<double>::quiet_NaN();
// The spec doesn't say to block the load event until we actually run the asynchronous section
// algorithm, but do it now because we won't start that until after the timer fires and the
// event may have already fired by then.
setShouldDelayLoadEvent(true);
configureMediaControls();
}
void HTMLMediaElement::loadInternal()
{
// Some of the code paths below this function dispatch the BeforeLoad event. This ASSERT helps
// us catch those bugs more quickly without needing all the branches to align to actually
// trigger the event.
ASSERT(!NoEventDispatchAssertion::isEventDispatchForbidden());
// Once the page has allowed an element to load media, it is free to load at will. This allows a
// playlist that starts in a foreground tab to continue automatically if the tab is subsequently
// put in the the background.
removeBehaviorRestriction(RequirePageConsentToLoadMediaRestriction);
// HTMLMediaElement::textTracksAreReady will need "... the text tracks whose mode was not in the
// disabled state when the element's resource selection algorithm last started".
if (RuntimeEnabledFeatures::videoTrackEnabled()) {
m_textTracksWhenResourceSelectionBegan.clear();
if (m_textTracks) {
for (unsigned i = 0; i < m_textTracks->length(); ++i) {
TextTrack* track = m_textTracks->item(i);
if (track->mode() != TextTrack::disabledKeyword())
m_textTracksWhenResourceSelectionBegan.append(track);
}
}
}
selectMediaResource();
}
void HTMLMediaElement::selectMediaResource()
{
LOG(Media, "HTMLMediaElement::selectMediaResource");
enum Mode { attribute, children };
// 3 - If the media element has a src attribute, then let mode be attribute.
Mode mode = attribute;
if (!fastHasAttribute(srcAttr)) {
Node* node;
for (node = firstChild(); node; node = node->nextSibling()) {
if (node->hasTagName(sourceTag))
break;
}
// Otherwise, if the media element does not have a src attribute but has a source
// element child, then let mode be children and let candidate be the first such
// source element child in tree order.
if (node) {
mode = children;
m_nextChildNodeToConsider = node;
m_currentSourceNode = 0;
} else {
// Otherwise the media element has neither a src attribute nor a source element
// child: set the networkState to NETWORK_EMPTY, and abort these steps; the
// synchronous section ends.
m_loadState = WaitingForSource;
setShouldDelayLoadEvent(false);
m_networkState = NETWORK_EMPTY;
LOG(Media, "HTMLMediaElement::selectMediaResource, nothing to load");
return;
}
}
// 4 - Set the media element's delaying-the-load-event flag to true (this delays the load event),
// and set its networkState to NETWORK_LOADING.
setShouldDelayLoadEvent(true);
m_networkState = NETWORK_LOADING;
// 5 - Queue a task to fire a simple event named loadstart at the media element.
scheduleEvent(eventNames().loadstartEvent);
// 6 - If mode is attribute, then run these substeps
if (mode == attribute) {
m_loadState = LoadingFromSrcAttr;
// If the src attribute's value is the empty string ... jump down to the failed step below
KURL mediaURL = getNonEmptyURLAttribute(srcAttr);
if (mediaURL.isEmpty()) {
mediaLoadingFailed(MediaPlayer::FormatError);
LOG(Media, "HTMLMediaElement::selectMediaResource, empty 'src'");
return;
}
if (!isSafeToLoadURL(mediaURL, Complain) || !dispatchBeforeLoadEvent(mediaURL.string())) {
mediaLoadingFailed(MediaPlayer::FormatError);
return;
}
// No type or key system information is available when the url comes
// from the 'src' attribute so MediaPlayer
// will have to pick a media engine based on the file extension.
ContentType contentType((String()));
loadResource(mediaURL, contentType, String());
LOG(Media, "HTMLMediaElement::selectMediaResource, using 'src' attribute url");
return;
}
// Otherwise, the source elements will be used
loadNextSourceChild();
}
void HTMLMediaElement::loadNextSourceChild()
{
ContentType contentType((String()));
String keySystem;
KURL mediaURL = selectNextSourceChild(&contentType, &keySystem, Complain);
if (!mediaURL.isValid()) {
waitForSourceChange();
return;
}
// Recreate the media player for the new url
createMediaPlayer();
m_loadState = LoadingFromSourceElement;
loadResource(mediaURL, contentType, keySystem);
}
void HTMLMediaElement::loadResource(const KURL& url, ContentType& contentType, const String& keySystem)
{
ASSERT(isSafeToLoadURL(url, Complain));
LOG(Media, "HTMLMediaElement::loadResource(%s, %s, %s)", urlForLoggingMedia(url).utf8().data(), contentType.raw().utf8().data(), keySystem.utf8().data());
Frame* frame = document().frame();
if (!frame) {
mediaLoadingFailed(MediaPlayer::FormatError);
return;
}
// The resource fetch algorithm
m_networkState = NETWORK_LOADING;
// Set m_currentSrc *before* changing to the cache url, the fact that we are loading from the app
// cache is an internal detail not exposed through the media element API.
m_currentSrc = url;
LOG(Media, "HTMLMediaElement::loadResource - m_currentSrc -> %s", urlForLoggingMedia(m_currentSrc).utf8().data());
if (MediaStreamRegistry::registry().lookupMediaStreamDescriptor(url.string()))
removeBehaviorRestriction(RequireUserGestureForRateChangeRestriction);
if (m_sendProgressEvents)
startProgressEventTimer();
// Reset display mode to force a recalculation of what to show because we are resetting the player.
setDisplayMode(Unknown);
if (!autoplay())
m_player->setPreload(m_preload);
if (fastHasAttribute(mutedAttr))
m_muted = true;
updateVolume();
ASSERT(!m_mediaSource);
if (url.protocolIs(mediaSourceBlobProtocol))
m_mediaSource = HTMLMediaSource::lookup(url.string());
if (m_mediaSource) {
if (m_mediaSource->attachToElement(this)) {
m_player->load(url, m_mediaSource);
} else {
// Forget our reference to the MediaSource, so we leave it alone
// while processing remainder of load failure.
m_mediaSource = 0;
mediaLoadingFailed(MediaPlayer::FormatError);
}
} else if (canLoadURL(url, contentType, keySystem)) {
m_player->load(url);
} else {
mediaLoadingFailed(MediaPlayer::FormatError);
}
// If there is no poster to display, allow the media engine to render video frames as soon as
// they are available.
updateDisplayState();
if (renderer())
renderer()->updateFromElement();
}
static bool trackIndexCompare(TextTrack* a,
TextTrack* b)
{
return a->trackIndex() - b->trackIndex() < 0;
}
static bool eventTimeCueCompare(const std::pair<double, TextTrackCue*>& a,
const std::pair<double, TextTrackCue*>& b)
{
// 12 - Sort the tasks in events in ascending time order (tasks with earlier
// times first).
if (a.first != b.first)
return a.first - b.first < 0;
// If the cues belong to different text tracks, it doesn't make sense to
// compare the two tracks by the relative cue order, so return the relative
// track order.
if (a.second->track() != b.second->track())
return trackIndexCompare(a.second->track(), b.second->track());
// 12 - Further sort tasks in events that have the same time by the
// relative text track cue order of the text track cues associated
// with these tasks.
return a.second->cueIndex() - b.second->cueIndex() < 0;
}
void HTMLMediaElement::updateActiveTextTrackCues(double movieTime)
{
// 4.8.10.8 Playing the media resource
// If the current playback position changes while the steps are running,
// then the user agent must wait for the steps to complete, and then must
// immediately rerun the steps.
if (ignoreTrackDisplayUpdateRequests())
return;
LOG(Media, "HTMLMediaElement::updateActiveTextTrackCues");
// 1 - Let current cues be a list of cues, initialized to contain all the
// cues of all the hidden, showing, or showing by default text tracks of the
// media element (not the disabled ones) whose start times are less than or
// equal to the current playback position and whose end times are greater
// than the current playback position.
CueList currentCues;
// The user agent must synchronously unset [the text track cue active] flag
// whenever ... the media element's readyState is changed back to HAVE_NOTHING.
if (m_readyState != HAVE_NOTHING && m_player)
currentCues = m_cueTree.allOverlaps(m_cueTree.createInterval(movieTime, movieTime));
CueList previousCues;
CueList missedCues;
// 2 - Let other cues be a list of cues, initialized to contain all the cues
// of hidden, showing, and showing by default text tracks of the media
// element that are not present in current cues.
previousCues = m_currentlyActiveCues;
// 3 - Let last time be the current playback position at the time this
// algorithm was last run for this media element, if this is not the first
// time it has run.
double lastTime = m_lastTextTrackUpdateTime;
// 4 - If the current playback position has, since the last time this
// algorithm was run, only changed through its usual monotonic increase
// during normal playback, then let missed cues be the list of cues in other
// cues whose start times are greater than or equal to last time and whose
// end times are less than or equal to the current playback position.
// Otherwise, let missed cues be an empty list.
if (lastTime >= 0 && m_lastSeekTime < movieTime) {
CueList potentiallySkippedCues =
m_cueTree.allOverlaps(m_cueTree.createInterval(lastTime, movieTime));
for (size_t i = 0; i < potentiallySkippedCues.size(); ++i) {
double cueStartTime = potentiallySkippedCues[i].low();
double cueEndTime = potentiallySkippedCues[i].high();
// Consider cues that may have been missed since the last seek time.
if (cueStartTime > max(m_lastSeekTime, lastTime) && cueEndTime < movieTime)
missedCues.append(potentiallySkippedCues[i]);
}
}
m_lastTextTrackUpdateTime = movieTime;
// 5 - If the time was reached through the usual monotonic increase of the
// current playback position during normal playback, and if the user agent
// has not fired a timeupdate event at the element in the past 15 to 250ms
// and is not still running event handlers for such an event, then the user
// agent must queue a task to fire a simple event named timeupdate at the
// element. (In the other cases, such as explicit seeks, relevant events get
// fired as part of the overall process of changing the current playback
// position.)
if (!m_seeking && m_lastSeekTime <= lastTime)
scheduleTimeupdateEvent(false);
// Explicitly cache vector sizes, as their content is constant from here.
size_t currentCuesSize = currentCues.size();
size_t missedCuesSize = missedCues.size();
size_t previousCuesSize = previousCues.size();
// 6 - If all of the cues in current cues have their text track cue active
// flag set, none of the cues in other cues have their text track cue active
// flag set, and missed cues is empty, then abort these steps.
bool activeSetChanged = missedCuesSize;
for (size_t i = 0; !activeSetChanged && i < previousCuesSize; ++i)
if (!currentCues.contains(previousCues[i]) && previousCues[i].data()->isActive())
activeSetChanged = true;
for (size_t i = 0; i < currentCuesSize; ++i) {
currentCues[i].data()->updateDisplayTree(movieTime);
if (!currentCues[i].data()->isActive())
activeSetChanged = true;
}
if (!activeSetChanged) {
// Even though the active set has not changed, it is possible that the
// the mode of a track has changed from 'hidden' to 'showing' and the
// cues have not yet been rendered.
// Note: don't call updateTextTrackDisplay() unless we have controls because it will
// create them.
if (hasMediaControls())
updateTextTrackDisplay();
return;
}
// 7 - If the time was reached through the usual monotonic increase of the
// current playback position during normal playback, and there are cues in
// other cues that have their text track cue pause-on-exi flag set and that
// either have their text track cue active flag set or are also in missed
// cues, then immediately pause the media element.
for (size_t i = 0; !m_paused && i < previousCuesSize; ++i) {
if (previousCues[i].data()->pauseOnExit()
&& previousCues[i].data()->isActive()
&& !currentCues.contains(previousCues[i]))
pause();
}
for (size_t i = 0; !m_paused && i < missedCuesSize; ++i) {
if (missedCues[i].data()->pauseOnExit())
pause();
}
// 8 - Let events be a list of tasks, initially empty. Each task in this
// list will be associated with a text track, a text track cue, and a time,
// which are used to sort the list before the tasks are queued.
Vector<std::pair<double, TextTrackCue*> > eventTasks;
// 8 - Let affected tracks be a list of text tracks, initially empty.
Vector<TextTrack*> affectedTracks;
for (size_t i = 0; i < missedCuesSize; ++i) {
// 9 - For each text track cue in missed cues, prepare an event named enter
// for the TextTrackCue object with the text track cue start time.
eventTasks.append(std::make_pair(missedCues[i].data()->startTime(),
missedCues[i].data()));
// 10 - For each text track [...] in missed cues, prepare an event
// named exit for the TextTrackCue object with the with the later of
// the text track cue end time and the text track cue start time.
// Note: An explicit task is added only if the cue is NOT a zero or
// negative length cue. Otherwise, the need for an exit event is
// checked when these tasks are actually queued below. This doesn't
// affect sorting events before dispatch either, because the exit
// event has the same time as the enter event.
if (missedCues[i].data()->startTime() < missedCues[i].data()->endTime())
eventTasks.append(std::make_pair(missedCues[i].data()->endTime(),
missedCues[i].data()));
}
for (size_t i = 0; i < previousCuesSize; ++i) {
// 10 - For each text track cue in other cues that has its text
// track cue active flag set prepare an event named exit for the
// TextTrackCue object with the text track cue end time.
if (!currentCues.contains(previousCues[i]))
eventTasks.append(std::make_pair(previousCues[i].data()->endTime(),
previousCues[i].data()));
}
for (size_t i = 0; i < currentCuesSize; ++i) {
// 11 - For each text track cue in current cues that does not have its
// text track cue active flag set, prepare an event named enter for the
// TextTrackCue object with the text track cue start time.
if (!previousCues.contains(currentCues[i]))
eventTasks.append(std::make_pair(currentCues[i].data()->startTime(),
currentCues[i].data()));
}
// 12 - Sort the tasks in events in ascending time order (tasks with earlier
// times first).
nonCopyingSort(eventTasks.begin(), eventTasks.end(), eventTimeCueCompare);
for (size_t i = 0; i < eventTasks.size(); ++i) {
if (!affectedTracks.contains(eventTasks[i].second->track()))
affectedTracks.append(eventTasks[i].second->track());
// 13 - Queue each task in events, in list order.
RefPtr<Event> event;
// Each event in eventTasks may be either an enterEvent or an exitEvent,
// depending on the time that is associated with the event. This
// correctly identifies the type of the event, if the startTime is
// less than the endTime in the cue.
if (eventTasks[i].second->startTime() >= eventTasks[i].second->endTime()) {
event = Event::create(eventNames().enterEvent);
event->setTarget(eventTasks[i].second);
m_asyncEventQueue->enqueueEvent(event.release());
event = Event::create(eventNames().exitEvent);
event->setTarget(eventTasks[i].second);
m_asyncEventQueue->enqueueEvent(event.release());
} else {
if (eventTasks[i].first == eventTasks[i].second->startTime())
event = Event::create(eventNames().enterEvent);
else
event = Event::create(eventNames().exitEvent);
event->setTarget(eventTasks[i].second);
m_asyncEventQueue->enqueueEvent(event.release());
}
}
// 14 - Sort affected tracks in the same order as the text tracks appear in
// the media element's list of text tracks, and remove duplicates.
nonCopyingSort(affectedTracks.begin(), affectedTracks.end(), trackIndexCompare);
// 15 - For each text track in affected tracks, in the list order, queue a
// task to fire a simple event named cuechange at the TextTrack object, and, ...
for (size_t i = 0; i < affectedTracks.size(); ++i) {
RefPtr<Event> event = Event::create(eventNames().cuechangeEvent);
event->setTarget(affectedTracks[i]);
m_asyncEventQueue->enqueueEvent(event.release());
// ... if the text track has a corresponding track element, to then fire a
// simple event named cuechange at the track element as well.
if (affectedTracks[i]->trackType() == TextTrack::TrackElement) {
RefPtr<Event> event = Event::create(eventNames().cuechangeEvent);
HTMLTrackElement* trackElement = static_cast<LoadableTextTrack*>(affectedTracks[i])->trackElement();
ASSERT(trackElement);
event->setTarget(trackElement);
m_asyncEventQueue->enqueueEvent(event.release());
}
}
// 16 - Set the text track cue active flag of all the cues in the current
// cues, and unset the text track cue active flag of all the cues in the
// other cues.
for (size_t i = 0; i < currentCuesSize; ++i)
currentCues[i].data()->setIsActive(true);
for (size_t i = 0; i < previousCuesSize; ++i)
if (!currentCues.contains(previousCues[i]))
previousCues[i].data()->setIsActive(false);
// Update the current active cues.
m_currentlyActiveCues = currentCues;
if (activeSetChanged)
updateTextTrackDisplay();
}
bool HTMLMediaElement::textTracksAreReady() const
{
// 4.8.10.12.1 Text track model
// ...
// The text tracks of a media element are ready if all the text tracks whose mode was not
// in the disabled state when the element's resource selection algorithm last started now
// have a text track readiness state of loaded or failed to load.
for (unsigned i = 0; i < m_textTracksWhenResourceSelectionBegan.size(); ++i) {
if (m_textTracksWhenResourceSelectionBegan[i]->readinessState() == TextTrack::Loading
|| m_textTracksWhenResourceSelectionBegan[i]->readinessState() == TextTrack::NotLoaded)
return false;
}
return true;
}
void HTMLMediaElement::textTrackReadyStateChanged(TextTrack* track)
{
if (m_player && m_textTracksWhenResourceSelectionBegan.contains(track)) {
if (track->readinessState() != TextTrack::Loading)
setReadyState(m_player->readyState());
} else {
// The track readiness state might have changed as a result of the user
// clicking the captions button. In this case, a check whether all the
// resources have failed loading should be done in order to hide the CC button.
if (hasMediaControls() && track->readinessState() == TextTrack::FailedToLoad)
mediaControls()->refreshClosedCaptionsButtonVisibility();
}
}
void HTMLMediaElement::textTrackModeChanged(TextTrack* track)
{
if (track->trackType() == TextTrack::TrackElement) {
// 4.8.10.12.3 Sourcing out-of-band text tracks
// ... when a text track corresponding to a track element is created with text track
// mode set to disabled and subsequently changes its text track mode to hidden, showing,
// or showing by default for the first time, the user agent must immediately and synchronously
// run the following algorithm ...
for (Node* node = firstChild(); node; node = node->nextSibling()) {
if (!node->hasTagName(trackTag))
continue;
HTMLTrackElement* trackElement = toHTMLTrackElement(node);
if (trackElement->track() != track)
continue;
// Mark this track as "configured" so configureTextTracks won't change the mode again.
track->setHasBeenConfigured(true);
if (track->mode() != TextTrack::disabledKeyword()) {
if (trackElement->readyState() == HTMLTrackElement::LOADED)
textTrackAddCues(track, track->cues());
// If this is the first added track, create the list of text tracks.
if (!m_textTracks)
m_textTracks = TextTrackList::create(this, ActiveDOMObject::scriptExecutionContext());
}
break;
}
} else if (track->trackType() == TextTrack::AddTrack && track->mode() != TextTrack::disabledKeyword())
textTrackAddCues(track, track->cues());
configureTextTrackDisplay();
updateActiveTextTrackCues(currentTime());
}
void HTMLMediaElement::textTrackKindChanged(TextTrack* track)
{
if (track->kind() != TextTrack::captionsKeyword() && track->kind() != TextTrack::subtitlesKeyword() && track->mode() == TextTrack::showingKeyword())
track->setMode(TextTrack::hiddenKeyword());
}
void HTMLMediaElement::beginIgnoringTrackDisplayUpdateRequests()
{
++m_ignoreTrackDisplayUpdate;
}
void HTMLMediaElement::endIgnoringTrackDisplayUpdateRequests()
{
ASSERT(m_ignoreTrackDisplayUpdate);
--m_ignoreTrackDisplayUpdate;
if (!m_ignoreTrackDisplayUpdate && m_inActiveDocument)
updateActiveTextTrackCues(currentTime());
}
void HTMLMediaElement::textTrackAddCues(TextTrack* track, const TextTrackCueList* cues)
{
LOG(Media, "HTMLMediaElement::textTrackAddCues");
if (track->mode() == TextTrack::disabledKeyword())
return;
TrackDisplayUpdateScope scope(this);
for (size_t i = 0; i < cues->length(); ++i)
textTrackAddCue(cues->item(i)->track(), cues->item(i));
}
void HTMLMediaElement::textTrackRemoveCues(TextTrack*, const TextTrackCueList* cues)
{
LOG(Media, "HTMLMediaElement::textTrackRemoveCues");
TrackDisplayUpdateScope scope(this);
for (size_t i = 0; i < cues->length(); ++i)
textTrackRemoveCue(cues->item(i)->track(), cues->item(i));
}
void HTMLMediaElement::textTrackAddCue(TextTrack* track, PassRefPtr<TextTrackCue> cue)
{
if (track->mode() == TextTrack::disabledKeyword())
return;
// Negative duration cues need be treated in the interval tree as
// zero-length cues.
double endTime = max(cue->startTime(), cue->endTime());
CueInterval interval = m_cueTree.createInterval(cue->startTime(), endTime, cue.get());
if (!m_cueTree.contains(interval))
m_cueTree.add(interval);
updateActiveTextTrackCues(currentTime());
}
void HTMLMediaElement::textTrackRemoveCue(TextTrack*, PassRefPtr<TextTrackCue> cue)
{
// Negative duration cues need to be treated in the interval tree as
// zero-length cues.
double endTime = max(cue->startTime(), cue->endTime());
CueInterval interval = m_cueTree.createInterval(cue->startTime(), endTime, cue.get());
m_cueTree.remove(interval);
size_t index = m_currentlyActiveCues.find(interval);
if (index != kNotFound) {
m_currentlyActiveCues.remove(index);
cue->setIsActive(false);
}
cue->removeDisplayTree();
updateActiveTextTrackCues(currentTime());
}
bool HTMLMediaElement::isSafeToLoadURL(const KURL& url, InvalidURLAction actionIfInvalid)
{
if (!url.isValid()) {
LOG(Media, "HTMLMediaElement::isSafeToLoadURL(%s) -> FALSE because url is invalid", urlForLoggingMedia(url).utf8().data());
return false;
}
Frame* frame = document().frame();
if (!frame || !document().securityOrigin()->canDisplay(url)) {
if (actionIfInvalid == Complain)
FrameLoader::reportLocalLoadFailed(frame, url.elidedString());
LOG(Media, "HTMLMediaElement::isSafeToLoadURL(%s) -> FALSE rejected by SecurityOrigin", urlForLoggingMedia(url).utf8().data());
return false;
}
if (!document().contentSecurityPolicy()->allowMediaFromSource(url)) {
LOG(Media, "HTMLMediaElement::isSafeToLoadURL(%s) -> rejected by Content Security Policy", urlForLoggingMedia(url).utf8().data());
return false;
}
return true;
}
void HTMLMediaElement::startProgressEventTimer()
{
if (m_progressEventTimer.isActive())
return;
m_previousProgressTime = WTF::currentTime();
// 350ms is not magic, it is in the spec!
m_progressEventTimer.startRepeating(0.350);
}
void HTMLMediaElement::waitForSourceChange()
{
LOG(Media, "HTMLMediaElement::waitForSourceChange");
stopPeriodicTimers();
m_loadState = WaitingForSource;
// 6.17 - Waiting: Set the element's networkState attribute to the NETWORK_NO_SOURCE value
m_networkState = NETWORK_NO_SOURCE;
// 6.18 - Set the element's delaying-the-load-event flag to false. This stops delaying the load event.
setShouldDelayLoadEvent(false);
updateDisplayState();
if (renderer())
renderer()->updateFromElement();
}
void HTMLMediaElement::noneSupported()
{
LOG(Media, "HTMLMediaElement::noneSupported");
stopPeriodicTimers();
m_loadState = WaitingForSource;
m_currentSourceNode = 0;
// 4.8.10.5
// 6 - Reaching this step indicates that the media resource failed to load or that the given
// URL could not be resolved. In one atomic operation, run the following steps:
// 6.1 - Set the error attribute to a new MediaError object whose code attribute is set to
// MEDIA_ERR_SRC_NOT_SUPPORTED.
m_error = MediaError::create(MediaError::MEDIA_ERR_SRC_NOT_SUPPORTED);
// 6.2 - Forget the media element's media-resource-specific text tracks.
// 6.3 - Set the element's networkState attribute to the NETWORK_NO_SOURCE value.
m_networkState = NETWORK_NO_SOURCE;
// 7 - Queue a task to fire a simple event named error at the media element.
scheduleEvent(eventNames().errorEvent);
closeMediaSource();
// 8 - Set the element's delaying-the-load-event flag to false. This stops delaying the load event.
setShouldDelayLoadEvent(false);
// 9 - Abort these steps. Until the load() method is invoked or the src attribute is changed,
// the element won't attempt to load another resource.
updateDisplayState();
if (renderer())
renderer()->updateFromElement();
}
void HTMLMediaElement::mediaEngineError(PassRefPtr<MediaError> err)
{
LOG(Media, "HTMLMediaElement::mediaEngineError(%d)", static_cast<int>(err->code()));
// 1 - The user agent should cancel the fetching process.
stopPeriodicTimers();
m_loadState = WaitingForSource;
// 2 - Set the error attribute to a new MediaError object whose code attribute is
// set to MEDIA_ERR_NETWORK/MEDIA_ERR_DECODE.
m_error = err;
// 3 - Queue a task to fire a simple event named error at the media element.
scheduleEvent(eventNames().errorEvent);
closeMediaSource();
// 4 - Set the element's networkState attribute to the NETWORK_EMPTY value and queue a
// task to fire a simple event called emptied at the element.
m_networkState = NETWORK_EMPTY;
scheduleEvent(eventNames().emptiedEvent);
// 5 - Set the element's delaying-the-load-event flag to false. This stops delaying the load event.
setShouldDelayLoadEvent(false);
// 6 - Abort the overall resource selection algorithm.
m_currentSourceNode = 0;
}
void HTMLMediaElement::cancelPendingEventsAndCallbacks()
{
LOG(Media, "HTMLMediaElement::cancelPendingEventsAndCallbacks");
m_asyncEventQueue->cancelAllEvents();
for (Node* node = firstChild(); node; node = node->nextSibling()) {
if (node->hasTagName(sourceTag))
toHTMLSourceElement(node)->cancelPendingErrorEvent();
}
}
void HTMLMediaElement::mediaPlayerNetworkStateChanged()
{
setNetworkState(m_player->networkState());
}
void HTMLMediaElement::mediaLoadingFailed(MediaPlayer::NetworkState error)
{
stopPeriodicTimers();
// If we failed while trying to load a <source> element, the movie was never parsed, and there are more
// <source> children, schedule the next one
if (m_readyState < HAVE_METADATA && m_loadState == LoadingFromSourceElement) {
if (m_currentSourceNode)
m_currentSourceNode->scheduleErrorEvent();
else
LOG(Media, "HTMLMediaElement::setNetworkState - error event not sent, <source> was removed");
if (havePotentialSourceChild()) {
LOG(Media, "HTMLMediaElement::setNetworkState - scheduling next <source>");
scheduleNextSourceChild();
} else {
LOG(Media, "HTMLMediaElement::setNetworkState - no more <source> elements, waiting");
waitForSourceChange();
}
return;
}
if (error == MediaPlayer::NetworkError && m_readyState >= HAVE_METADATA)
mediaEngineError(MediaError::create(MediaError::MEDIA_ERR_NETWORK));
else if (error == MediaPlayer::DecodeError)
mediaEngineError(MediaError::create(MediaError::MEDIA_ERR_DECODE));
else if ((error == MediaPlayer::FormatError || error == MediaPlayer::NetworkError) && m_loadState == LoadingFromSrcAttr)
noneSupported();
updateDisplayState();
if (hasMediaControls()) {
mediaControls()->reset();
mediaControls()->reportedError();
}
}
void HTMLMediaElement::setNetworkState(MediaPlayer::NetworkState state)
{
LOG(Media, "HTMLMediaElement::setNetworkState(%d) - current state is %d", static_cast<int>(state), static_cast<int>(m_networkState));
if (state == MediaPlayer::Empty) {
// Just update the cached state and leave, we can't do anything.
m_networkState = NETWORK_EMPTY;
return;
}
if (state == MediaPlayer::FormatError || state == MediaPlayer::NetworkError || state == MediaPlayer::DecodeError) {
mediaLoadingFailed(state);
return;
}
if (state == MediaPlayer::Idle) {
if (m_networkState > NETWORK_IDLE) {
changeNetworkStateFromLoadingToIdle();
setShouldDelayLoadEvent(false);
} else {
m_networkState = NETWORK_IDLE;
}
}
if (state == MediaPlayer::Loading) {
if (m_networkState < NETWORK_LOADING || m_networkState == NETWORK_NO_SOURCE)
startProgressEventTimer();
m_networkState = NETWORK_LOADING;
}
if (state == MediaPlayer::Loaded) {
if (m_networkState != NETWORK_IDLE)
changeNetworkStateFromLoadingToIdle();
m_completelyLoaded = true;
}
if (hasMediaControls())
mediaControls()->updateStatusDisplay();
}
void HTMLMediaElement::changeNetworkStateFromLoadingToIdle()
{
m_progressEventTimer.stop();
if (hasMediaControls() && m_player->didLoadingProgress())
mediaControls()->bufferingProgressed();
// Schedule one last progress event so we guarantee that at least one is fired
// for files that load very quickly.
scheduleEvent(eventNames().progressEvent);
scheduleEvent(eventNames().suspendEvent);
m_networkState = NETWORK_IDLE;
}
void HTMLMediaElement::mediaPlayerReadyStateChanged()
{
setReadyState(m_player->readyState());
}
void HTMLMediaElement::setReadyState(MediaPlayer::ReadyState state)
{
LOG(Media, "HTMLMediaElement::setReadyState(%d) - current state is %d,", static_cast<int>(state), static_cast<int>(m_readyState));
// Set "wasPotentiallyPlaying" BEFORE updating m_readyState, potentiallyPlaying() uses it
bool wasPotentiallyPlaying = potentiallyPlaying();
ReadyState oldState = m_readyState;
ReadyState newState = static_cast<ReadyState>(state);
bool tracksAreReady = !RuntimeEnabledFeatures::videoTrackEnabled() || textTracksAreReady();
if (newState == oldState && m_tracksAreReady == tracksAreReady)
return;
m_tracksAreReady = tracksAreReady;
if (tracksAreReady)
m_readyState = newState;
else {
// If a media file has text tracks the readyState may not progress beyond HAVE_FUTURE_DATA until
// the text tracks are ready, regardless of the state of the media file.
if (newState <= HAVE_METADATA)
m_readyState = newState;
else
m_readyState = HAVE_CURRENT_DATA;
}
if (oldState > m_readyStateMaximum)
m_readyStateMaximum = oldState;
if (m_networkState == NETWORK_EMPTY)
return;
if (m_seeking) {
// 4.8.10.9, step 9 note: If the media element was potentially playing immediately before
// it started seeking, but seeking caused its readyState attribute to change to a value
// lower than HAVE_FUTURE_DATA, then a waiting will be fired at the element.
if (wasPotentiallyPlaying && m_readyState < HAVE_FUTURE_DATA)
scheduleEvent(eventNames().waitingEvent);
// 4.8.10.9 steps 12-14
if (m_readyState >= HAVE_CURRENT_DATA)
finishSeek();
} else {
if (wasPotentiallyPlaying && m_readyState < HAVE_FUTURE_DATA) {
// 4.8.10.8
scheduleTimeupdateEvent(false);
scheduleEvent(eventNames().waitingEvent);
}
}
if (m_readyState >= HAVE_METADATA && oldState < HAVE_METADATA) {
prepareMediaFragmentURI();
scheduleEvent(eventNames().durationchangeEvent);
scheduleEvent(eventNames().loadedmetadataEvent);
if (hasMediaControls())
mediaControls()->loadedMetadata();
if (renderer())
renderer()->updateFromElement();
}
bool shouldUpdateDisplayState = false;
if (m_readyState >= HAVE_CURRENT_DATA && oldState < HAVE_CURRENT_DATA && !m_haveFiredLoadedData) {
m_haveFiredLoadedData = true;
shouldUpdateDisplayState = true;
scheduleEvent(eventNames().loadeddataEvent);
setShouldDelayLoadEvent(false);
applyMediaFragmentURI();
}
bool isPotentiallyPlaying = potentiallyPlaying();
if (m_readyState == HAVE_FUTURE_DATA && oldState <= HAVE_CURRENT_DATA && tracksAreReady) {
scheduleEvent(eventNames().canplayEvent);
if (isPotentiallyPlaying)
scheduleEvent(eventNames().playingEvent);
shouldUpdateDisplayState = true;
}
if (m_readyState == HAVE_ENOUGH_DATA && oldState < HAVE_ENOUGH_DATA && tracksAreReady) {
if (oldState <= HAVE_CURRENT_DATA)
scheduleEvent(eventNames().canplayEvent);
scheduleEvent(eventNames().canplaythroughEvent);
if (isPotentiallyPlaying && oldState <= HAVE_CURRENT_DATA)
scheduleEvent(eventNames().playingEvent);
if (m_autoplaying && m_paused && autoplay() && !document().isSandboxed(SandboxAutomaticFeatures) && !userGestureRequiredForRateChange()) {
m_paused = false;
invalidateCachedTime();
scheduleEvent(eventNames().playEvent);
scheduleEvent(eventNames().playingEvent);
}
shouldUpdateDisplayState = true;
}
if (shouldUpdateDisplayState) {
updateDisplayState();
if (hasMediaControls()) {
mediaControls()->refreshClosedCaptionsButtonVisibility();
mediaControls()->updateStatusDisplay();
}
}
updatePlayState();
updateMediaController();
if (RuntimeEnabledFeatures::videoTrackEnabled())
updateActiveTextTrackCues(currentTime());
}
void HTMLMediaElement::mediaPlayerKeyAdded(const String& keySystem, const String& sessionId)
{
MediaKeyEventInit initializer;
initializer.keySystem = keySystem;
initializer.sessionId = sessionId;
initializer.bubbles = false;
initializer.cancelable = false;
RefPtr<Event> event = MediaKeyEvent::create(eventNames().webkitkeyaddedEvent, initializer);
event->setTarget(this);
m_asyncEventQueue->enqueueEvent(event.release());
}
void HTMLMediaElement::mediaPlayerKeyError(const String& keySystem, const String& sessionId, MediaPlayerClient::MediaKeyErrorCode errorCode, unsigned short systemCode)
{
MediaKeyError::Code mediaKeyErrorCode = MediaKeyError::MEDIA_KEYERR_UNKNOWN;
switch (errorCode) {
case MediaPlayerClient::UnknownError:
mediaKeyErrorCode = MediaKeyError::MEDIA_KEYERR_UNKNOWN;
break;
case MediaPlayerClient::ClientError:
mediaKeyErrorCode = MediaKeyError::MEDIA_KEYERR_CLIENT;
break;
case MediaPlayerClient::ServiceError:
mediaKeyErrorCode = MediaKeyError::MEDIA_KEYERR_SERVICE;
break;
case MediaPlayerClient::OutputError:
mediaKeyErrorCode = MediaKeyError::MEDIA_KEYERR_OUTPUT;
break;
case MediaPlayerClient::HardwareChangeError:
mediaKeyErrorCode = MediaKeyError::MEDIA_KEYERR_HARDWARECHANGE;
break;
case MediaPlayerClient::DomainError:
mediaKeyErrorCode = MediaKeyError::MEDIA_KEYERR_DOMAIN;
break;
}
MediaKeyEventInit initializer;
initializer.keySystem = keySystem;
initializer.sessionId = sessionId;
initializer.errorCode = MediaKeyError::create(mediaKeyErrorCode);
initializer.systemCode = systemCode;
initializer.bubbles = false;
initializer.cancelable = false;
RefPtr<Event> event = MediaKeyEvent::create(eventNames().webkitkeyerrorEvent, initializer);
event->setTarget(this);
m_asyncEventQueue->enqueueEvent(event.release());
}
void HTMLMediaElement::mediaPlayerKeyMessage(const String& keySystem, const String& sessionId, const unsigned char* message, unsigned messageLength, const KURL& defaultURL)
{
MediaKeyEventInit initializer;
initializer.keySystem = keySystem;
initializer.sessionId = sessionId;
initializer.message = Uint8Array::create(message, messageLength);
initializer.defaultURL = defaultURL;
initializer.bubbles = false;
initializer.cancelable = false;
RefPtr<Event> event = MediaKeyEvent::create(eventNames().webkitkeymessageEvent, initializer);
event->setTarget(this);
m_asyncEventQueue->enqueueEvent(event.release());
}
bool HTMLMediaElement::mediaPlayerKeyNeeded(const String& keySystem, const String& sessionId, const unsigned char* initData, unsigned initDataLength)
{
if (!hasEventListeners(eventNames().webkitneedkeyEvent)) {
m_error = MediaError::create(MediaError::MEDIA_ERR_ENCRYPTED);
scheduleEvent(eventNames().errorEvent);
return false;
}
MediaKeyEventInit initializer;
initializer.keySystem = keySystem;
initializer.sessionId = sessionId;
initializer.initData = Uint8Array::create(initData, initDataLength);
initializer.bubbles = false;
initializer.cancelable = false;
RefPtr<Event> event = MediaKeyEvent::create(eventNames().webkitneedkeyEvent, initializer);
event->setTarget(this);
m_asyncEventQueue->enqueueEvent(event.release());
return true;
}
#if ENABLE(ENCRYPTED_MEDIA_V2)
bool HTMLMediaElement::mediaPlayerKeyNeeded(Uint8Array* initData)
{
if (!hasEventListeners("webkitneedkey")) {
m_error = MediaError::create(MediaError::MEDIA_ERR_ENCRYPTED);
scheduleEvent(eventNames().errorEvent);
return false;
}
MediaKeyNeededEventInit initializer;
initializer.initData = initData;
initializer.bubbles = false;
initializer.cancelable = false;
RefPtr<Event> event = MediaKeyNeededEvent::create(eventNames().webkitneedkeyEvent, initializer);
event->setTarget(this);
m_asyncEventQueue->enqueueEvent(event.release());
return true;
}
void HTMLMediaElement::setMediaKeys(MediaKeys* mediaKeys)
{
if (m_mediaKeys == mediaKeys)
return;
if (m_mediaKeys)
m_mediaKeys->setMediaElement(0);
m_mediaKeys = mediaKeys;
if (m_mediaKeys)
m_mediaKeys->setMediaElement(this);
}
#endif
void HTMLMediaElement::progressEventTimerFired(Timer<HTMLMediaElement>*)
{
ASSERT(m_player);
if (m_networkState != NETWORK_LOADING)
return;
double time = WTF::currentTime();
double timedelta = time - m_previousProgressTime;
if (m_player->didLoadingProgress()) {
scheduleEvent(eventNames().progressEvent);
m_previousProgressTime = time;
m_sentStalledEvent = false;
if (renderer())
renderer()->updateFromElement();
if (hasMediaControls())
mediaControls()->bufferingProgressed();
} else if (timedelta > 3.0 && !m_sentStalledEvent) {
scheduleEvent(eventNames().stalledEvent);
m_sentStalledEvent = true;
setShouldDelayLoadEvent(false);
}
}
void HTMLMediaElement::addPlayedRange(double start, double end)
{
LOG(Media, "HTMLMediaElement::addPlayedRange(%f, %f)", start, end);
if (!m_playedTimeRanges)
m_playedTimeRanges = TimeRanges::create();
m_playedTimeRanges->add(start, end);
}
bool HTMLMediaElement::supportsSave() const
{
return m_player ? m_player->supportsSave() : false;
}
void HTMLMediaElement::prepareToPlay()
{
LOG(Media, "HTMLMediaElement::prepareToPlay(%p)", this);
if (m_havePreparedToPlay)
return;
m_havePreparedToPlay = true;
m_player->prepareToPlay();
}
void HTMLMediaElement::seek(double time, ExceptionState& es)
{
LOG(Media, "HTMLMediaElement::seek(%f)", time);
// 4.8.10.9 Seeking
// 1 - If the media element's readyState is HAVE_NOTHING, then raise an InvalidStateError exception.
if (m_readyState == HAVE_NOTHING || !m_player) {
es.throwUninformativeAndGenericDOMException(InvalidStateError);
return;
}
// If the media engine has been told to postpone loading data, let it go ahead now.
if (m_preload < MediaPlayer::Auto && m_readyState < HAVE_FUTURE_DATA)
prepareToPlay();
// Get the current time before setting m_seeking, m_lastSeekTime is returned once it is set.
refreshCachedTime();
double now = currentTime();
// 2 - If the element's seeking IDL attribute is true, then another instance of this algorithm is
// already running. Abort that other instance of the algorithm without waiting for the step that
// it is running to complete.
// Nothing specific to be done here.
// 3 - Set the seeking IDL attribute to true.
// The flag will be cleared when the engine tells us the time has actually changed.
m_seeking = true;
// 5 - If the new playback position is later than the end of the media resource, then let it be the end
// of the media resource instead.
time = min(time, duration());
// 6 - If the new playback position is less than the earliest possible position, let it be that position instead.
time = max(time, 0.0);
// Ask the media engine for the time value in the movie's time scale before comparing with current time. This
// is necessary because if the seek time is not equal to currentTime but the delta is less than the movie's
// time scale, we will ask the media engine to "seek" to the current movie time, which may be a noop and
// not generate a timechanged callback. This means m_seeking will never be cleared and we will never
// fire a 'seeked' event.
#if !LOG_DISABLED
double mediaTime = m_player->mediaTimeForTimeValue(time);
if (time != mediaTime)
LOG(Media, "HTMLMediaElement::seek(%f) - media timeline equivalent is %f", time, mediaTime);
#endif
time = m_player->mediaTimeForTimeValue(time);
// 7 - If the (possibly now changed) new playback position is not in one of the ranges given in the
// seekable attribute, then let it be the position in one of the ranges given in the seekable attribute
// that is the nearest to the new playback position. ... If there are no ranges given in the seekable
// attribute then set the seeking IDL attribute to false and abort these steps.
RefPtr<TimeRanges> seekableRanges = seekable();
// Short circuit seeking to the current time by just firing the events if no seek is required.
// Don't skip calling the media engine if we are in poster mode because a seek should always
// cancel poster display.
bool noSeekRequired = !seekableRanges->length() || (time == now && displayMode() != Poster);
// Always notify the media engine of a seek if the source is not closed. This ensures that the source is
// always in a flushed state when the 'seeking' event fires.
if (m_mediaSource && m_mediaSource->isClosed())
noSeekRequired = false;
if (noSeekRequired) {
if (time == now) {
scheduleEvent(eventNames().seekingEvent);
// FIXME: There must be a stable state before timeupdate+seeked are dispatched and seeking
// is reset to false. See http://crbug.com/266631
scheduleTimeupdateEvent(false);
scheduleEvent(eventNames().seekedEvent);
}
m_seeking = false;
return;
}
time = seekableRanges->nearest(time);
if (m_playing) {
if (m_lastSeekTime < now)
addPlayedRange(m_lastSeekTime, now);
}
m_lastSeekTime = time;
m_sentEndEvent = false;
// 8 - Queue a task to fire a simple event named seeking at the element.
scheduleEvent(eventNames().seekingEvent);
// 9 - Set the current playback position to the given new playback position
m_player->seek(time);
// 10-14 are handled, if necessary, when the engine signals a readystate change or otherwise
// satisfies seek completion and signals a time change.
}
void HTMLMediaElement::finishSeek()
{
LOG(Media, "HTMLMediaElement::finishSeek");
// 4.8.10.9 Seeking completion
// 12 - Set the seeking IDL attribute to false.
m_seeking = false;
// 13 - Queue a task to fire a simple event named timeupdate at the element.
scheduleTimeupdateEvent(false);
// 14 - Queue a task to fire a simple event named seeked at the element.
scheduleEvent(eventNames().seekedEvent);
setDisplayMode(Video);
}
HTMLMediaElement::ReadyState HTMLMediaElement::readyState() const
{
return m_readyState;
}
bool HTMLMediaElement::hasAudio() const
{
return m_player ? m_player->hasAudio() : false;
}
bool HTMLMediaElement::seeking() const
{
return m_seeking;
}
void HTMLMediaElement::refreshCachedTime() const
{
m_cachedTime = m_player->currentTime();
m_cachedTimeWallClockUpdateTime = WTF::currentTime();
}
void HTMLMediaElement::invalidateCachedTime()
{
LOG(Media, "HTMLMediaElement::invalidateCachedTime");
// Don't try to cache movie time when playback first starts as the time reported by the engine
// sometimes fluctuates for a short amount of time, so the cached time will be off if we take it
// too early.
static const double minimumTimePlayingBeforeCacheSnapshot = 0.5;
m_minimumWallClockTimeToCacheMediaTime = WTF::currentTime() + minimumTimePlayingBeforeCacheSnapshot;
m_cachedTime = MediaPlayer::invalidTime();
}
// playback state
double HTMLMediaElement::currentTime() const
{
#if LOG_CACHED_TIME_WARNINGS
static const double minCachedDeltaForWarning = 0.01;
#endif
if (!m_player)
return 0;
if (m_seeking) {
LOG(Media, "HTMLMediaElement::currentTime - seeking, returning %f", m_lastSeekTime);
return m_lastSeekTime;
}
if (m_cachedTime != MediaPlayer::invalidTime() && m_paused) {
#if LOG_CACHED_TIME_WARNINGS
double delta = m_cachedTime - m_player->currentTime();
if (delta > minCachedDeltaForWarning)
LOG(Media, "HTMLMediaElement::currentTime - WARNING, cached time is %f seconds off of media time when paused", delta);
#endif
return m_cachedTime;
}
refreshCachedTime();
return m_cachedTime;
}
void HTMLMediaElement::setCurrentTime(double time, ExceptionState& es)
{
if (m_mediaController) {
es.throwUninformativeAndGenericDOMException(InvalidStateError);
return;
}
seek(time, es);
}
double HTMLMediaElement::startTime() const
{
return 0;
}
double HTMLMediaElement::initialTime() const
{
if (m_fragmentStartTime != MediaPlayer::invalidTime())
return m_fragmentStartTime;
return 0;
}
double HTMLMediaElement::duration() const
{
if (!m_player || m_readyState < HAVE_METADATA)
return numeric_limits<double>::quiet_NaN();
// FIXME: Refactor so m_duration is kept current (in both MSE and
// non-MSE cases) once we have transitioned from HAVE_NOTHING ->
// HAVE_METADATA. Currently, m_duration may be out of date for at least MSE
// case because MediaSourceBase and SourceBuffer do not notify the element
// directly upon duration changes caused by endOfStream, remove, or append
// operations; rather the notification is triggered by the WebMediaPlayer
// implementation observing that the underlying engine has updated duration
// and notifying the element to consult its MediaSource for current
// duration. See http://crbug.com/266644
if (m_mediaSource)
return m_mediaSource->duration();
return m_player->duration();
}
bool HTMLMediaElement::paused() const
{
return m_paused;
}
double HTMLMediaElement::defaultPlaybackRate() const
{
return m_defaultPlaybackRate;
}
void HTMLMediaElement::setDefaultPlaybackRate(double rate)
{
if (m_defaultPlaybackRate != rate) {
m_defaultPlaybackRate = rate;
scheduleEvent(eventNames().ratechangeEvent);
}
}
double HTMLMediaElement::playbackRate() const
{
return m_playbackRate;
}
void HTMLMediaElement::setPlaybackRate(double rate)
{
LOG(Media, "HTMLMediaElement::setPlaybackRate(%f)", rate);
if (m_playbackRate != rate) {
m_playbackRate = rate;
invalidateCachedTime();
scheduleEvent(eventNames().ratechangeEvent);
}
if (m_player && potentiallyPlaying() && m_player->rate() != rate && !m_mediaController)
m_player->setRate(rate);
}
void HTMLMediaElement::updatePlaybackRate()
{
double effectiveRate = m_mediaController ? m_mediaController->playbackRate() : m_playbackRate;
if (m_player && potentiallyPlaying() && m_player->rate() != effectiveRate)
m_player->setRate(effectiveRate);
}
bool HTMLMediaElement::webkitPreservesPitch() const
{
return m_webkitPreservesPitch;
}
void HTMLMediaElement::setWebkitPreservesPitch(bool preservesPitch)
{
LOG(Media, "HTMLMediaElement::setWebkitPreservesPitch(%s)", boolString(preservesPitch));
m_webkitPreservesPitch = preservesPitch;
notImplemented();
}
bool HTMLMediaElement::ended() const
{
// 4.8.10.8 Playing the media resource
// The ended attribute must return true if the media element has ended
// playback and the direction of playback is forwards, and false otherwise.
return endedPlayback() && m_playbackRate > 0;
}
bool HTMLMediaElement::autoplay() const
{
return fastHasAttribute(autoplayAttr);
}
void HTMLMediaElement::setAutoplay(bool b)
{
LOG(Media, "HTMLMediaElement::setAutoplay(%s)", boolString(b));
setBooleanAttribute(autoplayAttr, b);
}
String HTMLMediaElement::preload() const
{
switch (m_preload) {
case MediaPlayer::None:
return "none";
break;
case MediaPlayer::MetaData:
return "metadata";
break;
case MediaPlayer::Auto:
return "auto";
break;
}
ASSERT_NOT_REACHED();
return String();
}
void HTMLMediaElement::setPreload(const String& preload)
{
LOG(Media, "HTMLMediaElement::setPreload(%s)", preload.utf8().data());
setAttribute(preloadAttr, preload);
}
void HTMLMediaElement::play()
{
LOG(Media, "HTMLMediaElement::play()");
if (userGestureRequiredForRateChange() && !ScriptController::processingUserGesture())
return;
if (ScriptController::processingUserGesture())
removeBehaviorsRestrictionsAfterFirstUserGesture();
Settings* settings = document().settings();
if (settings && settings->needsSiteSpecificQuirks() && m_dispatchingCanPlayEvent && !m_loadInitiatedByUserGesture) {
// It should be impossible to be processing the canplay event while handling a user gesture
// since it is dispatched asynchronously.
ASSERT(!ScriptController::processingUserGesture());
String host = document().baseURL().host();
if (host.endsWith(".npr.org", false) || equalIgnoringCase(host, "npr.org"))
return;
}
playInternal();
}
void HTMLMediaElement::playInternal()
{
LOG(Media, "HTMLMediaElement::playInternal");
// 4.8.10.9. Playing the media resource
if (!m_player || m_networkState == NETWORK_EMPTY)
scheduleDelayedAction(LoadMediaResource);
if (endedPlayback())
seek(0, IGNORE_EXCEPTION);
if (m_mediaController)
m_mediaController->bringElementUpToSpeed(this);
if (m_paused) {
m_paused = false;
invalidateCachedTime();
scheduleEvent(eventNames().playEvent);
if (m_readyState <= HAVE_CURRENT_DATA)
scheduleEvent(eventNames().waitingEvent);
else if (m_readyState >= HAVE_FUTURE_DATA)
scheduleEvent(eventNames().playingEvent);
}
m_autoplaying = false;
updatePlayState();
updateMediaController();
}
void HTMLMediaElement::pause()
{
LOG(Media, "HTMLMediaElement::pause()");
if (userGestureRequiredForRateChange() && !ScriptController::processingUserGesture())
return;
pauseInternal();
}
void HTMLMediaElement::pauseInternal()
{
LOG(Media, "HTMLMediaElement::pauseInternal");
// 4.8.10.9. Playing the media resource
if (!m_player || m_networkState == NETWORK_EMPTY)
scheduleDelayedAction(LoadMediaResource);
m_autoplaying = false;
if (!m_paused) {
m_paused = true;
scheduleTimeupdateEvent(false);
scheduleEvent(eventNames().pauseEvent);
}
updatePlayState();
}
void HTMLMediaElement::closeMediaSource()
{
if (!m_mediaSource)
return;
m_mediaSource->close();
m_mediaSource = 0;
}
void HTMLMediaElement::webkitGenerateKeyRequest(const String& keySystem, PassRefPtr<Uint8Array> initData, ExceptionState& es)
{
if (keySystem.isEmpty()) {
es.throwUninformativeAndGenericDOMException(SyntaxError);
return;
}
if (!m_player) {
es.throwUninformativeAndGenericDOMException(InvalidStateError);
return;
}
const unsigned char* initDataPointer = 0;
unsigned initDataLength = 0;
if (initData) {
initDataPointer = initData->data();
initDataLength = initData->length();
}
MediaPlayer::MediaKeyException result = m_player->generateKeyRequest(keySystem, initDataPointer, initDataLength);
throwExceptionForMediaKeyException(result, es);
}
void HTMLMediaElement::webkitGenerateKeyRequest(const String& keySystem, ExceptionState& es)
{
webkitGenerateKeyRequest(keySystem, Uint8Array::create(0), es);
}
void HTMLMediaElement::webkitAddKey(const String& keySystem, PassRefPtr<Uint8Array> key, PassRefPtr<Uint8Array> initData, const String& sessionId, ExceptionState& es)
{
if (keySystem.isEmpty()) {
es.throwUninformativeAndGenericDOMException(SyntaxError);
return;
}
if (!key) {
es.throwUninformativeAndGenericDOMException(SyntaxError);
return;
}
if (!key->length()) {
es.throwUninformativeAndGenericDOMException(TypeMismatchError);
return;
}
if (!m_player) {
es.throwUninformativeAndGenericDOMException(InvalidStateError);
return;
}
const unsigned char* initDataPointer = 0;
unsigned initDataLength = 0;
if (initData) {
initDataPointer = initData->data();
initDataLength = initData->length();
}
MediaPlayer::MediaKeyException result = m_player->addKey(keySystem, key->data(), key->length(), initDataPointer, initDataLength, sessionId);
throwExceptionForMediaKeyException(result, es);
}
void HTMLMediaElement::webkitAddKey(const String& keySystem, PassRefPtr<Uint8Array> key, ExceptionState& es)
{
webkitAddKey(keySystem, key, Uint8Array::create(0), String(), es);
}
void HTMLMediaElement::webkitCancelKeyRequest(const String& keySystem, const String& sessionId, ExceptionState& es)
{
if (keySystem.isEmpty()) {
es.throwUninformativeAndGenericDOMException(SyntaxError);
return;
}
if (!m_player) {
es.throwUninformativeAndGenericDOMException(InvalidStateError);
return;
}
MediaPlayer::MediaKeyException result = m_player->cancelKeyRequest(keySystem, sessionId);
throwExceptionForMediaKeyException(result, es);
}
bool HTMLMediaElement::loop() const
{
return fastHasAttribute(loopAttr);
}
void HTMLMediaElement::setLoop(bool b)
{
LOG(Media, "HTMLMediaElement::setLoop(%s)", boolString(b));
setBooleanAttribute(loopAttr, b);
}
bool HTMLMediaElement::controls() const
{
Frame* frame = document().frame();
// always show controls when scripting is disabled
if (frame && !frame->script()->canExecuteScripts(NotAboutToExecuteScript))
return true;
// Always show controls when in full screen mode.
if (isFullscreen())
return true;
return fastHasAttribute(controlsAttr);
}
void HTMLMediaElement::setControls(bool b)
{
LOG(Media, "HTMLMediaElement::setControls(%s)", boolString(b));
setBooleanAttribute(controlsAttr, b);
}
double HTMLMediaElement::volume() const
{
return m_volume;
}
void HTMLMediaElement::setVolume(double vol, ExceptionState& es)
{
LOG(Media, "HTMLMediaElement::setVolume(%f)", vol);
if (vol < 0.0f || vol > 1.0f) {
es.throwUninformativeAndGenericDOMException(IndexSizeError);
return;
}
if (m_volume != vol) {
m_volume = vol;
updateVolume();
scheduleEvent(eventNames().volumechangeEvent);
}
}
bool HTMLMediaElement::muted() const
{
return m_muted;
}
void HTMLMediaElement::setMuted(bool muted)
{
LOG(Media, "HTMLMediaElement::setMuted(%s)", boolString(muted));
if (m_muted != muted) {
m_muted = muted;
if (m_player) {
m_player->setMuted(m_muted);
if (hasMediaControls())
mediaControls()->changedMute();
}
scheduleEvent(eventNames().volumechangeEvent);
}
}
void HTMLMediaElement::togglePlayState()
{
LOG(Media, "HTMLMediaElement::togglePlayState - canPlay() is %s", boolString(canPlay()));
// We can safely call the internal play/pause methods, which don't check restrictions, because
// this method is only called from the built-in media controller
if (canPlay()) {
updatePlaybackRate();
playInternal();
} else
pauseInternal();
}
void HTMLMediaElement::beginScrubbing()
{
LOG(Media, "HTMLMediaElement::beginScrubbing - paused() is %s", boolString(paused()));
if (!paused()) {
if (ended()) {
// Because a media element stays in non-paused state when it reaches end, playback resumes
// when the slider is dragged from the end to another position unless we pause first. Do
// a "hard pause" so an event is generated, since we want to stay paused after scrubbing finishes.
pause();
} else {
// Not at the end but we still want to pause playback so the media engine doesn't try to
// continue playing during scrubbing. Pause without generating an event as we will
// unpause after scrubbing finishes.
setPausedInternal(true);
}
}
}
void HTMLMediaElement::endScrubbing()
{
LOG(Media, "HTMLMediaElement::endScrubbing - m_pausedInternal is %s", boolString(m_pausedInternal));
if (m_pausedInternal)
setPausedInternal(false);
}
// The spec says to fire periodic timeupdate events (those sent while playing) every
// "15 to 250ms", we choose the slowest frequency
static const double maxTimeupdateEventFrequency = 0.25;
void HTMLMediaElement::startPlaybackProgressTimer()
{
if (m_playbackProgressTimer.isActive())
return;
m_previousProgressTime = WTF::currentTime();
m_playbackProgressTimer.startRepeating(maxTimeupdateEventFrequency);
}
void HTMLMediaElement::playbackProgressTimerFired(Timer<HTMLMediaElement>*)
{
ASSERT(m_player);
if (m_fragmentEndTime != MediaPlayer::invalidTime() && currentTime() >= m_fragmentEndTime && m_playbackRate > 0) {
m_fragmentEndTime = MediaPlayer::invalidTime();
if (!m_mediaController && !m_paused) {
// changes paused to true and fires a simple event named pause at the media element.
pauseInternal();
}
}
if (!m_seeking)
scheduleTimeupdateEvent(true);
if (!m_playbackRate)
return;
if (!m_paused && hasMediaControls())
mediaControls()->playbackProgressed();
if (RuntimeEnabledFeatures::videoTrackEnabled())
updateActiveTextTrackCues(currentTime());
}
void HTMLMediaElement::scheduleTimeupdateEvent(bool periodicEvent)
{
double now = WTF::currentTime();
double timedelta = now - m_lastTimeUpdateEventWallTime;
// throttle the periodic events
if (periodicEvent && timedelta < maxTimeupdateEventFrequency)
return;
// Some media engines make multiple "time changed" callbacks at the same time, but we only want one
// event at a given time so filter here
double movieTime = currentTime();
if (movieTime != m_lastTimeUpdateEventMovieTime) {
scheduleEvent(eventNames().timeupdateEvent);
m_lastTimeUpdateEventWallTime = now;
m_lastTimeUpdateEventMovieTime = movieTime;
}
}
bool HTMLMediaElement::canPlay() const
{
return paused() || ended() || m_readyState < HAVE_METADATA;
}
double HTMLMediaElement::percentLoaded() const
{
if (!m_player)
return 0;
double duration = m_player->duration();
if (!duration || std::isinf(duration))
return 0;
double buffered = 0;
RefPtr<TimeRanges> timeRanges = m_player->buffered();
for (unsigned i = 0; i < timeRanges->length(); ++i) {
double start = timeRanges->start(i, IGNORE_EXCEPTION);
double end = timeRanges->end(i, IGNORE_EXCEPTION);
buffered += end - start;
}
return buffered / duration;
}
void HTMLMediaElement::mediaPlayerDidAddTrack(PassRefPtr<InbandTextTrackPrivate> prpTrack)
{
if (!RuntimeEnabledFeatures::videoTrackEnabled())
return;
// 4.8.10.12.2 Sourcing in-band text tracks
// 1. Associate the relevant data with a new text track and its corresponding new TextTrack object.
RefPtr<InbandTextTrack> textTrack = InbandTextTrack::create(ActiveDOMObject::scriptExecutionContext(), this, prpTrack);
// 2. Set the new text track's kind, label, and language based on the semantics of the relevant data,
// as defined by the relevant specification. If there is no label in that data, then the label must
// be set to the empty string.
// 3. Associate the text track list of cues with the rules for updating the text track rendering appropriate
// for the format in question.
// 4. If the new text track's kind is metadata, then set the text track in-band metadata track dispatch type
// as follows, based on the type of the media resource:
// 5. Populate the new text track's list of cues with the cues parsed so far, folllowing the guidelines for exposing
// cues, and begin updating it dynamically as necessary.
// - Thess are all done by the media engine.
// 6. Set the new text track's readiness state to loaded.
textTrack->setReadinessState(TextTrack::Loaded);
// 7. Set the new text track's mode to the mode consistent with the user's preferences and the requirements of
// the relevant specification for the data.
// - This will happen in configureTextTracks()
scheduleDelayedAction(LoadTextTrackResource);
// 8. Add the new text track to the media element's list of text tracks.
// 9. Fire an event with the name addtrack, that does not bubble and is not cancelable, and that uses the TrackEvent
// interface, with the track attribute initialized to the text track's TextTrack object, at the media element's
// textTracks attribute's TextTrackList object.
addTrack(textTrack.get());
}
void HTMLMediaElement::mediaPlayerDidRemoveTrack(PassRefPtr<InbandTextTrackPrivate> prpTrack)
{
if (!RuntimeEnabledFeatures::videoTrackEnabled())
return;
if (!m_textTracks)
return;
// This cast is safe because we created the InbandTextTrack with the InbandTextTrackPrivate
// passed to mediaPlayerDidAddTrack.
RefPtr<InbandTextTrack> textTrack = static_cast<InbandTextTrack*>(prpTrack->client());
if (!textTrack)
return;
removeTrack(textTrack.get());
}
void HTMLMediaElement::closeCaptionTracksChanged()
{
if (hasMediaControls())
mediaControls()->closedCaptionTracksChanged();
}
void HTMLMediaElement::addTrack(TextTrack* track)
{
textTracks()->append(track);
closeCaptionTracksChanged();
}
void HTMLMediaElement::removeTrack(TextTrack* track)
{
TrackDisplayUpdateScope scope(this);
TextTrackCueList* cues = track->cues();
if (cues)
textTrackRemoveCues(track, cues);
m_textTracks->remove(track);
closeCaptionTracksChanged();
}
void HTMLMediaElement::removeAllInbandTracks()
{
if (!m_textTracks)
return;
TrackDisplayUpdateScope scope(this);
for (int i = m_textTracks->length() - 1; i >= 0; --i) {
TextTrack* track = m_textTracks->item(i);
if (track->trackType() == TextTrack::InBand)
removeTrack(track);
}
}
PassRefPtr<TextTrack> HTMLMediaElement::addTextTrack(const String& kind, const String& label, const String& language, ExceptionState& es)
{
if (!RuntimeEnabledFeatures::videoTrackEnabled())
return 0;
// 4.8.10.12.4 Text track API
// The addTextTrack(kind, label, language) method of media elements, when invoked, must run the following steps:
// 1. If kind is not one of the following strings, then throw a SyntaxError exception and abort these steps
if (!TextTrack::isValidKindKeyword(kind)) {
es.throwUninformativeAndGenericDOMException(SyntaxError);
return 0;
}
// 2. If the label argument was omitted, let label be the empty string.
// 3. If the language argument was omitted, let language be the empty string.
// 4. Create a new TextTrack object.
// 5. Create a new text track corresponding to the new object, and set its text track kind to kind, its text
// track label to label, its text track language to language...
RefPtr<TextTrack> textTrack = TextTrack::create(ActiveDOMObject::scriptExecutionContext(), this, kind, label, language);
// Note, due to side effects when changing track parameters, we have to
// first append the track to the text track list.
// 6. Add the new text track to the media element's list of text tracks.
addTrack(textTrack.get());
// ... its text track readiness state to the text track loaded state ...
textTrack->setReadinessState(TextTrack::Loaded);
// ... its text track mode to the text track hidden mode, and its text track list of cues to an empty list ...
textTrack->setMode(TextTrack::hiddenKeyword());
return textTrack.release();
}
TextTrackList* HTMLMediaElement::textTracks()
{
if (!RuntimeEnabledFeatures::videoTrackEnabled())
return 0;
if (!m_textTracks)
m_textTracks = TextTrackList::create(this, ActiveDOMObject::scriptExecutionContext());
return m_textTracks.get();
}
void HTMLMediaElement::didAddTrack(HTMLTrackElement* trackElement)
{
ASSERT(trackElement->hasTagName(trackTag));
if (!RuntimeEnabledFeatures::videoTrackEnabled())
return;
// 4.8.10.12.3 Sourcing out-of-band text tracks
// When a track element's parent element changes and the new parent is a media element,
// then the user agent must add the track element's corresponding text track to the
// media element's list of text tracks ... [continues in TextTrackList::append]
RefPtr<TextTrack> textTrack = trackElement->track();
if (!textTrack)
return;
addTrack(textTrack.get());
// Do not schedule the track loading until parsing finishes so we don't start before all tracks
// in the markup have been added.
if (!m_parsingInProgress)
scheduleDelayedAction(LoadTextTrackResource);
if (hasMediaControls())
mediaControls()->closedCaptionTracksChanged();
}
void HTMLMediaElement::didRemoveTrack(HTMLTrackElement* trackElement)
{
ASSERT(trackElement->hasTagName(trackTag));
if (!RuntimeEnabledFeatures::videoTrackEnabled())
return;
#if !LOG_DISABLED
if (trackElement->hasTagName(trackTag)) {
KURL url = trackElement->getNonEmptyURLAttribute(srcAttr);
LOG(Media, "HTMLMediaElement::didRemoveTrack - 'src' is %s", urlForLoggingMedia(url).utf8().data());
}
#endif
RefPtr<TextTrack> textTrack = trackElement->track();
if (!textTrack)
return;
textTrack->setHasBeenConfigured(false);
if (!m_textTracks)
return;
// 4.8.10.12.3 Sourcing out-of-band text tracks
// When a track element's parent element changes and the old parent was a media element,
// then the user agent must remove the track element's corresponding text track from the
// media element's list of text tracks.
removeTrack(textTrack.get());
size_t index = m_textTracksWhenResourceSelectionBegan.find(textTrack.get());
if (index != kNotFound)
m_textTracksWhenResourceSelectionBegan.remove(index);
}
static int textTrackLanguageSelectionScore(const TextTrack& track)
{
if (track.language().isEmpty())
return 0;
Vector<String> languages = userPreferredLanguages();
size_t languageMatchIndex = indexOfBestMatchingLanguageInList(track.language(), languages);
if (languageMatchIndex >= languages.size())
return 0;
// Matching a track language is more important than matching track type, so this multiplier must be
// greater than the maximum value returned by textTrackSelectionScore.
return (languages.size() - languageMatchIndex) * 10;
}
static int textTrackSelectionScore(const TextTrack& track, Settings* settings)
{
int trackScore = 0;
if (!settings)
return trackScore;
if (track.kind() != TextTrack::captionsKeyword() && track.kind() != TextTrack::subtitlesKeyword())
return trackScore;
if (track.kind() == TextTrack::subtitlesKeyword() && settings->shouldDisplaySubtitles())
trackScore = 1;
else if (track.kind() == TextTrack::captionsKeyword() && settings->shouldDisplayCaptions())
trackScore = 1;
return trackScore + textTrackLanguageSelectionScore(track);
}
void HTMLMediaElement::configureTextTrackGroup(const TrackGroup& group)
{
ASSERT(group.tracks.size());
LOG(Media, "HTMLMediaElement::configureTextTrackGroup(%d)", group.kind);
Page* page = document().page();
Settings* settings = page ? &page->settings() : 0;
// First, find the track in the group that should be enabled (if any).
Vector<RefPtr<TextTrack> > currentlyEnabledTracks;
RefPtr<TextTrack> trackToEnable;
RefPtr<TextTrack> defaultTrack;
RefPtr<TextTrack> fallbackTrack;
int highestTrackScore = 0;
for (size_t i = 0; i < group.tracks.size(); ++i) {
RefPtr<TextTrack> textTrack = group.tracks[i];
if (m_processingPreferenceChange && textTrack->mode() == TextTrack::showingKeyword())
currentlyEnabledTracks.append(textTrack);
int trackScore = textTrackSelectionScore(*textTrack, settings);
if (trackScore) {
// * If the text track kind is { [subtitles or captions] [descriptions] } and the user has indicated an interest in having a
// track with this text track kind, text track language, and text track label enabled, and there is no
// other text track in the media element's list of text tracks with a text track kind of either subtitles
// or captions whose text track mode is showing
// ...
// * If the text track kind is chapters and the text track language is one that the user agent has reason
// to believe is appropriate for the user, and there is no other text track in the media element's list of
// text tracks with a text track kind of chapters whose text track mode is showing
// Let the text track mode be showing.
if (trackScore > highestTrackScore) {
highestTrackScore = trackScore;
trackToEnable = textTrack;
}
if (!defaultTrack && textTrack->isDefault())
defaultTrack = textTrack;
if (!defaultTrack && !fallbackTrack)
fallbackTrack = textTrack;
} else if (!group.visibleTrack && !defaultTrack && textTrack->isDefault()) {
// * If the track element has a default attribute specified, and there is no other text track in the media
// element's list of text tracks whose text track mode is showing or showing by default
// Let the text track mode be showing by default.
defaultTrack = textTrack;
}
}
if (!trackToEnable && defaultTrack)
trackToEnable = defaultTrack;
// If no track matches the user's preferred language and non was marked 'default', enable the first track
// because the user has explicitly stated a preference for this kind of track.
if (!fallbackTrack && m_closedCaptionsVisible && group.kind == TrackGroup::CaptionsAndSubtitles)
fallbackTrack = group.tracks[0];
if (!trackToEnable && fallbackTrack)
trackToEnable = fallbackTrack;
if (currentlyEnabledTracks.size()) {
for (size_t i = 0; i < currentlyEnabledTracks.size(); ++i) {
RefPtr<TextTrack> textTrack = currentlyEnabledTracks[i];
if (textTrack != trackToEnable)
textTrack->setMode(TextTrack::disabledKeyword());
}
}
if (trackToEnable)
trackToEnable->setMode(TextTrack::showingKeyword());
}
void HTMLMediaElement::configureTextTracks()
{
TrackGroup captionAndSubtitleTracks(TrackGroup::CaptionsAndSubtitles);
TrackGroup descriptionTracks(TrackGroup::Description);
TrackGroup chapterTracks(TrackGroup::Chapter);
TrackGroup metadataTracks(TrackGroup::Metadata);
TrackGroup otherTracks(TrackGroup::Other);
if (!m_textTracks)
return;
for (size_t i = 0; i < m_textTracks->length(); ++i) {
RefPtr<TextTrack> textTrack = m_textTracks->item(i);
if (!textTrack)
continue;
String kind = textTrack->kind();
TrackGroup* currentGroup;
if (kind == TextTrack::subtitlesKeyword() || kind == TextTrack::captionsKeyword())
currentGroup = &captionAndSubtitleTracks;
else if (kind == TextTrack::descriptionsKeyword())
currentGroup = &descriptionTracks;
else if (kind == TextTrack::chaptersKeyword())
currentGroup = &chapterTracks;
else if (kind == TextTrack::metadataKeyword())
currentGroup = &metadataTracks;
else
currentGroup = &otherTracks;
if (!currentGroup->visibleTrack && textTrack->mode() == TextTrack::showingKeyword())
currentGroup->visibleTrack = textTrack;
if (!currentGroup->defaultTrack && textTrack->isDefault())
currentGroup->defaultTrack = textTrack;
// Do not add this track to the group if it has already been automatically configured
// as we only want to call configureTextTrack once per track so that adding another
// track after the initial configuration doesn't reconfigure every track - only those
// that should be changed by the new addition. For example all metadata tracks are
// disabled by default, and we don't want a track that has been enabled by script
// to be disabled automatically when a new metadata track is added later.
if (textTrack->hasBeenConfigured())
continue;
if (textTrack->language().length())
currentGroup->hasSrcLang = true;
currentGroup->tracks.append(textTrack);
}
if (captionAndSubtitleTracks.tracks.size())
configureTextTrackGroup(captionAndSubtitleTracks);
if (descriptionTracks.tracks.size())
configureTextTrackGroup(descriptionTracks);
if (chapterTracks.tracks.size())
configureTextTrackGroup(chapterTracks);
if (metadataTracks.tracks.size())
configureTextTrackGroup(metadataTracks);
if (otherTracks.tracks.size())
configureTextTrackGroup(otherTracks);
if (hasMediaControls())
mediaControls()->closedCaptionTracksChanged();
}
bool HTMLMediaElement::havePotentialSourceChild()
{
// Stash the current <source> node and next nodes so we can restore them after checking
// to see there is another potential.
RefPtr<HTMLSourceElement> currentSourceNode = m_currentSourceNode;
RefPtr<Node> nextNode = m_nextChildNodeToConsider;
KURL nextURL = selectNextSourceChild(0, 0, DoNothing);
m_currentSourceNode = currentSourceNode;
m_nextChildNodeToConsider = nextNode;
return nextURL.isValid();
}
KURL HTMLMediaElement::selectNextSourceChild(ContentType* contentType, String* keySystem, InvalidURLAction actionIfInvalid)
{
#if !LOG_DISABLED
// Don't log if this was just called to find out if there are any valid <source> elements.
bool shouldLog = actionIfInvalid != DoNothing;
if (shouldLog)
LOG(Media, "HTMLMediaElement::selectNextSourceChild");
#endif
if (!m_nextChildNodeToConsider) {
#if !LOG_DISABLED
if (shouldLog)
LOG(Media, "HTMLMediaElement::selectNextSourceChild -> 0x0000, \"\"");
#endif
return KURL();
}
KURL mediaURL;
Node* node;
HTMLSourceElement* source = 0;
String type;
String system;
bool lookingForStartNode = m_nextChildNodeToConsider;
bool canUseSourceElement = false;
bool okToLoadSourceURL;
NodeVector potentialSourceNodes;
getChildNodes(this, potentialSourceNodes);
for (unsigned i = 0; !canUseSourceElement && i < potentialSourceNodes.size(); ++i) {
node = potentialSourceNodes[i].get();
if (lookingForStartNode && m_nextChildNodeToConsider != node)
continue;
lookingForStartNode = false;
if (!node->hasTagName(sourceTag))
continue;
if (node->parentNode() != this)
continue;
source = toHTMLSourceElement(node);
// If candidate does not have a src attribute, or if its src attribute's value is the empty string ... jump down to the failed step below
mediaURL = source->getNonEmptyURLAttribute(srcAttr);
#if !LOG_DISABLED
if (shouldLog)
LOG(Media, "HTMLMediaElement::selectNextSourceChild - 'src' is %s", urlForLoggingMedia(mediaURL).utf8().data());
#endif
if (mediaURL.isEmpty())
goto check_again;
if (source->fastHasAttribute(mediaAttr)) {
MediaQueryEvaluator screenEval("screen", document().frame(), renderer() ? renderer()->style() : 0);
RefPtr<MediaQuerySet> media = MediaQuerySet::create(source->media());
#if !LOG_DISABLED
if (shouldLog)
LOG(Media, "HTMLMediaElement::selectNextSourceChild - 'media' is %s", source->media().utf8().data());
#endif
if (!screenEval.eval(media.get()))
goto check_again;
}
type = source->type();
// FIXME(82965): Add support for keySystem in <source> and set system from source.
if (type.isEmpty() && mediaURL.protocolIsData())
type = mimeTypeFromDataURL(mediaURL);
if (!type.isEmpty() || !system.isEmpty()) {
#if !LOG_DISABLED
if (shouldLog)
LOG(Media, "HTMLMediaElement::selectNextSourceChild - 'type' is '%s' - key system is '%s'", type.utf8().data(), system.utf8().data());
#endif
if (!supportsType(ContentType(type), system))
goto check_again;
}
// Is it safe to load this url?
okToLoadSourceURL = isSafeToLoadURL(mediaURL, actionIfInvalid) && dispatchBeforeLoadEvent(mediaURL.string());
// A 'beforeload' event handler can mutate the DOM, so check to see if the source element is still a child node.
if (node->parentNode() != this) {
LOG(Media, "HTMLMediaElement::selectNextSourceChild : 'beforeload' removed current element");
source = 0;
goto check_again;
}
if (!okToLoadSourceURL)
goto check_again;
// Making it this far means the <source> looks reasonable.
canUseSourceElement = true;
check_again:
if (!canUseSourceElement && actionIfInvalid == Complain && source)
source->scheduleErrorEvent();
}
if (canUseSourceElement) {
if (contentType)
*contentType = ContentType(type);
if (keySystem)
*keySystem = system;
m_currentSourceNode = source;
m_nextChildNodeToConsider = source->nextSibling();
} else {
m_currentSourceNode = 0;
m_nextChildNodeToConsider = 0;
}
#if !LOG_DISABLED
if (shouldLog)
LOG(Media, "HTMLMediaElement::selectNextSourceChild -> %p, %s", m_currentSourceNode.get(), canUseSourceElement ? urlForLoggingMedia(mediaURL).utf8().data() : "");
#endif
return canUseSourceElement ? mediaURL : KURL();
}
void HTMLMediaElement::sourceWasAdded(HTMLSourceElement* source)
{
LOG(Media, "HTMLMediaElement::sourceWasAdded(%p)", source);
#if !LOG_DISABLED
if (source->hasTagName(sourceTag)) {
KURL url = source->getNonEmptyURLAttribute(srcAttr);
LOG(Media, "HTMLMediaElement::sourceWasAdded - 'src' is %s", urlForLoggingMedia(url).utf8().data());
}
#endif
// We should only consider a <source> element when there is not src attribute at all.
if (fastHasAttribute(srcAttr))
return;
// 4.8.8 - If a source element is inserted as a child of a media element that has no src
// attribute and whose networkState has the value NETWORK_EMPTY, the user agent must invoke
// the media element's resource selection algorithm.
if (networkState() == HTMLMediaElement::NETWORK_EMPTY) {
scheduleDelayedAction(LoadMediaResource);
m_nextChildNodeToConsider = source;
return;
}
if (m_currentSourceNode && source == m_currentSourceNode->nextSibling()) {
LOG(Media, "HTMLMediaElement::sourceWasAdded - <source> inserted immediately after current source");
m_nextChildNodeToConsider = source;
return;
}
if (m_nextChildNodeToConsider)
return;
// 4.8.9.5, resource selection algorithm, source elements section:
// 21. Wait until the node after pointer is a node other than the end of the list. (This step might wait forever.)
// 22. Asynchronously await a stable state...
// 23. Set the element's delaying-the-load-event flag back to true (this delays the load event again, in case
// it hasn't been fired yet).
setShouldDelayLoadEvent(true);
// 24. Set the networkState back to NETWORK_LOADING.
m_networkState = NETWORK_LOADING;
// 25. Jump back to the find next candidate step above.
m_nextChildNodeToConsider = source;
scheduleNextSourceChild();
}
void HTMLMediaElement::sourceWasRemoved(HTMLSourceElement* source)
{
LOG(Media, "HTMLMediaElement::sourceWasRemoved(%p)", source);
#if !LOG_DISABLED
if (source->hasTagName(sourceTag)) {
KURL url = source->getNonEmptyURLAttribute(srcAttr);
LOG(Media, "HTMLMediaElement::sourceWasRemoved - 'src' is %s", urlForLoggingMedia(url).utf8().data());
}
#endif
if (source != m_currentSourceNode && source != m_nextChildNodeToConsider)
return;
if (source == m_nextChildNodeToConsider) {
if (m_currentSourceNode)
m_nextChildNodeToConsider = m_currentSourceNode->nextSibling();
LOG(Media, "HTMLMediaElement::sourceRemoved - m_nextChildNodeToConsider set to %p", m_nextChildNodeToConsider.get());
} else if (source == m_currentSourceNode) {
// Clear the current source node pointer, but don't change the movie as the spec says:
// 4.8.8 - Dynamically modifying a source element and its attribute when the element is already
// inserted in a video or audio element will have no effect.
m_currentSourceNode = 0;
LOG(Media, "HTMLMediaElement::sourceRemoved - m_currentSourceNode set to 0");
}
}
void HTMLMediaElement::mediaPlayerTimeChanged()
{
LOG(Media, "HTMLMediaElement::mediaPlayerTimeChanged");
if (RuntimeEnabledFeatures::videoTrackEnabled())
updateActiveTextTrackCues(currentTime());
invalidateCachedTime();
// 4.8.10.9 steps 12-14. Needed if no ReadyState change is associated with the seek.
if (m_seeking && m_readyState >= HAVE_CURRENT_DATA && !m_player->seeking())
finishSeek();
// Always call scheduleTimeupdateEvent when the media engine reports a time discontinuity,
// it will only queue a 'timeupdate' event if we haven't already posted one at the current
// movie time.
scheduleTimeupdateEvent(false);
double now = currentTime();
double dur = duration();
// When the current playback position reaches the end of the media resource when the direction of
// playback is forwards, then the user agent must follow these steps:
if (!std::isnan(dur) && dur && now >= dur && m_playbackRate > 0) {
// If the media element has a loop attribute specified and does not have a current media controller,
if (loop() && !m_mediaController) {
m_sentEndEvent = false;
// then seek to the earliest possible position of the media resource and abort these steps.
seek(startTime(), IGNORE_EXCEPTION);
} else {
// If the media element does not have a current media controller, and the media element
// has still ended playback, and the direction of playback is still forwards, and paused
// is false,
if (!m_mediaController && !m_paused) {
// changes paused to true and fires a simple event named pause at the media element.
m_paused = true;
scheduleEvent(eventNames().pauseEvent);
}
// Queue a task to fire a simple event named ended at the media element.
if (!m_sentEndEvent) {
m_sentEndEvent = true;
scheduleEvent(eventNames().endedEvent);
}
// If the media element has a current media controller, then report the controller state
// for the media element's current media controller.
updateMediaController();
}
}
else
m_sentEndEvent = false;
updatePlayState();
}
void HTMLMediaElement::mediaPlayerDurationChanged()
{
LOG(Media, "HTMLMediaElement::mediaPlayerDurationChanged");
durationChanged(duration());
}
void HTMLMediaElement::durationChanged(double duration)
{
LOG(Media, "HTMLMediaElement::durationChanged(%f)", duration);
// Abort if duration unchanged.
if (m_duration == duration)
return;
m_duration = duration;
scheduleEvent(eventNames().durationchangeEvent);
if (hasMediaControls())
mediaControls()->reset();
if (renderer())
renderer()->updateFromElement();
if (currentTime() > duration)
seek(duration, IGNORE_EXCEPTION);
}
void HTMLMediaElement::mediaPlayerPlaybackStateChanged()
{
LOG(Media, "HTMLMediaElement::mediaPlayerPlaybackStateChanged");
if (!m_player || m_pausedInternal)
return;
if (m_player->paused())
pauseInternal();
else
playInternal();
}
void HTMLMediaElement::mediaPlayerRequestSeek(double time)
{
// The player is the source of this seek request.
if (m_mediaController) {
m_mediaController->setCurrentTime(time, IGNORE_EXCEPTION);
return;
}
setCurrentTime(time, IGNORE_EXCEPTION);
}
// MediaPlayerPresentation methods
void HTMLMediaElement::mediaPlayerRepaint()
{
updateDisplayState();
if (renderer())
renderer()->repaint();
}
void HTMLMediaElement::mediaPlayerSizeChanged()
{
LOG(Media, "HTMLMediaElement::mediaPlayerSizeChanged");
if (renderer())
renderer()->updateFromElement();
}
void HTMLMediaElement::mediaPlayerEngineUpdated()
{
LOG(Media, "HTMLMediaElement::mediaPlayerEngineUpdated");
if (renderer())
renderer()->updateFromElement();
}
PassRefPtr<TimeRanges> HTMLMediaElement::buffered() const
{
if (!m_player)
return TimeRanges::create();
if (m_mediaSource)
return m_mediaSource->buffered();
return m_player->buffered();
}
PassRefPtr<TimeRanges> HTMLMediaElement::played()
{
if (m_playing) {
double time = currentTime();
if (time > m_lastSeekTime)
addPlayedRange(m_lastSeekTime, time);
}
if (!m_playedTimeRanges)
m_playedTimeRanges = TimeRanges::create();
return m_playedTimeRanges->copy();
}
PassRefPtr<TimeRanges> HTMLMediaElement::seekable() const
{
double maxSeekable = maxTimeSeekable();
return maxSeekable ? TimeRanges::create(0, maxSeekable) : TimeRanges::create();
}
bool HTMLMediaElement::potentiallyPlaying() const
{
// "pausedToBuffer" means the media engine's rate is 0, but only because it had to stop playing
// when it ran out of buffered data. A movie is this state is "potentially playing", modulo the
// checks in couldPlayIfEnoughData().
bool pausedToBuffer = m_readyStateMaximum >= HAVE_FUTURE_DATA && m_readyState < HAVE_FUTURE_DATA;
return (pausedToBuffer || m_readyState >= HAVE_FUTURE_DATA) && couldPlayIfEnoughData() && !isBlockedOnMediaController();
}
bool HTMLMediaElement::couldPlayIfEnoughData() const
{
return !paused() && !endedPlayback() && !stoppedDueToErrors() && !pausedForUserInteraction();
}
bool HTMLMediaElement::endedPlayback() const
{
double dur = duration();
if (!m_player || std::isnan(dur))
return false;
// 4.8.10.8 Playing the media resource
// A media element is said to have ended playback when the element's
// readyState attribute is HAVE_METADATA or greater,
if (m_readyState < HAVE_METADATA)
return false;
// and the current playback position is the end of the media resource and the direction
// of playback is forwards, Either the media element does not have a loop attribute specified,
// or the media element has a current media controller.
double now = currentTime();
if (m_playbackRate > 0)
return dur > 0 && now >= dur && (!loop() || m_mediaController);
// or the current playback position is the earliest possible position and the direction
// of playback is backwards
if (m_playbackRate < 0)
return now <= 0;
return false;
}
bool HTMLMediaElement::stoppedDueToErrors() const
{
if (m_readyState >= HAVE_METADATA && m_error) {
RefPtr<TimeRanges> seekableRanges = seekable();
if (!seekableRanges->contain(currentTime()))
return true;
}
return false;
}
bool HTMLMediaElement::pausedForUserInteraction() const
{
// return !paused() && m_readyState >= HAVE_FUTURE_DATA && [UA requires a decitions from the user]
return false;
}
double HTMLMediaElement::minTimeSeekable() const
{
return 0;
}
double HTMLMediaElement::maxTimeSeekable() const
{
return m_player ? m_player->maxTimeSeekable() : 0;
}
void HTMLMediaElement::updateVolume()
{
if (!m_player)
return;
double volumeMultiplier = 1;
bool shouldMute = m_muted;
if (m_mediaController) {
volumeMultiplier *= m_mediaController->volume();
shouldMute = m_mediaController->muted();
}
m_player->setMuted(shouldMute);
m_player->setVolume(m_volume * volumeMultiplier);
if (hasMediaControls())
mediaControls()->changedVolume();
}
void HTMLMediaElement::updatePlayState()
{
if (!m_player)
return;
if (m_pausedInternal) {
if (!m_player->paused())
m_player->pause();
refreshCachedTime();
m_playbackProgressTimer.stop();
if (hasMediaControls())
mediaControls()->playbackStopped();
return;
}
bool shouldBePlaying = potentiallyPlaying();
bool playerPaused = m_player->paused();
LOG(Media, "HTMLMediaElement::updatePlayState - shouldBePlaying = %s, playerPaused = %s",
boolString(shouldBePlaying), boolString(playerPaused));
if (shouldBePlaying) {
setDisplayMode(Video);
invalidateCachedTime();
if (playerPaused) {
// Set rate, muted before calling play in case they were set before the media engine was setup.
// The media engine should just stash the rate and muted values since it isn't already playing.
m_player->setRate(m_playbackRate);
m_player->setMuted(m_muted);
m_player->play();
}
if (hasMediaControls())
mediaControls()->playbackStarted();
startPlaybackProgressTimer();
m_playing = true;
} else { // Should not be playing right now
if (!playerPaused)
m_player->pause();
refreshCachedTime();
m_playbackProgressTimer.stop();
m_playing = false;
double time = currentTime();
if (time > m_lastSeekTime)
addPlayedRange(m_lastSeekTime, time);
if (couldPlayIfEnoughData())
prepareToPlay();
if (hasMediaControls())
mediaControls()->playbackStopped();
}
updateMediaController();
if (renderer())
renderer()->updateFromElement();
}
void HTMLMediaElement::setPausedInternal(bool b)
{
m_pausedInternal = b;
updatePlayState();
}
void HTMLMediaElement::stopPeriodicTimers()
{
m_progressEventTimer.stop();
m_playbackProgressTimer.stop();
}
void HTMLMediaElement::userCancelledLoad()
{
LOG(Media, "HTMLMediaElement::userCancelledLoad");
// If the media data fetching process is aborted by the user:
// 1 - The user agent should cancel the fetching process.
clearMediaPlayer(-1);
if (m_networkState == NETWORK_EMPTY || m_completelyLoaded)
return;
// 2 - Set the error attribute to a new MediaError object whose code attribute is set to MEDIA_ERR_ABORTED.
m_error = MediaError::create(MediaError::MEDIA_ERR_ABORTED);
// 3 - Queue a task to fire a simple event named error at the media element.
scheduleEvent(eventNames().abortEvent);
closeMediaSource();
// 4 - If the media element's readyState attribute has a value equal to HAVE_NOTHING, set the
// element's networkState attribute to the NETWORK_EMPTY value and queue a task to fire a
// simple event named emptied at the element. Otherwise, set the element's networkState
// attribute to the NETWORK_IDLE value.
if (m_readyState == HAVE_NOTHING) {
m_networkState = NETWORK_EMPTY;
scheduleEvent(eventNames().emptiedEvent);
}
else
m_networkState = NETWORK_IDLE;
// 5 - Set the element's delaying-the-load-event flag to false. This stops delaying the load event.
setShouldDelayLoadEvent(false);
// 6 - Abort the overall resource selection algorithm.
m_currentSourceNode = 0;
// Reset m_readyState since m_player is gone.
m_readyState = HAVE_NOTHING;
updateMediaController();
if (RuntimeEnabledFeatures::videoTrackEnabled())
updateActiveTextTrackCues(0);
}
void HTMLMediaElement::clearMediaPlayer(int flags)
{
removeAllInbandTracks();
closeMediaSource();
m_player.clear();
#if ENABLE(WEB_AUDIO)
if (audioSourceProvider())
audioSourceProvider()->setClient(0);
#endif
stopPeriodicTimers();
m_loadTimer.stop();
m_pendingActionFlags &= ~flags;
m_loadState = WaitingForSource;
if (m_textTracks)
configureTextTrackDisplay();
}
bool HTMLMediaElement::canSuspend() const
{
return true;
}
void HTMLMediaElement::stop()
{
LOG(Media, "HTMLMediaElement::stop");
m_inActiveDocument = false;
userCancelledLoad();
// Stop the playback without generating events
m_playing = false;
setPausedInternal(true);
if (renderer())
renderer()->updateFromElement();
stopPeriodicTimers();
cancelPendingEventsAndCallbacks();
m_asyncEventQueue->close();
}
void HTMLMediaElement::suspend(ReasonForSuspension why)
{
LOG(Media, "HTMLMediaElement::suspend");
switch (why)
{
case DocumentWillBecomeInactive:
stop();
break;
case JavaScriptDebuggerPaused:
case WillDeferLoading:
// Do nothing, we don't pause media playback in these cases.
break;
}
}
void HTMLMediaElement::resume()
{
LOG(Media, "HTMLMediaElement::resume");
m_inActiveDocument = true;
setPausedInternal(false);
if (m_error && m_error->code() == MediaError::MEDIA_ERR_ABORTED) {
// Restart the load if it was aborted in the middle by moving the document to the page cache.
// m_error is only left at MEDIA_ERR_ABORTED when the document becomes inactive (it is set to
// MEDIA_ERR_ABORTED while the abortEvent is being sent, but cleared immediately afterwards).
// This behavior is not specified but it seems like a sensible thing to do.
// As it is not safe to immedately start loading now, let's schedule a load.
scheduleDelayedAction(LoadMediaResource);
}
if (renderer())
renderer()->updateFromElement();
}
bool HTMLMediaElement::hasPendingActivity() const
{
return (hasAudio() && isPlaying()) || m_asyncEventQueue->hasPendingEvents();
}
bool HTMLMediaElement::isFullscreen() const
{
return FullscreenElementStack::isActiveFullScreenElement(this);
}
void HTMLMediaElement::enterFullscreen()
{
LOG(Media, "HTMLMediaElement::enterFullscreen");
if (document().settings() && document().settings()->fullScreenEnabled())
FullscreenElementStack::from(&document())->requestFullScreenForElement(this, 0, FullscreenElementStack::ExemptIFrameAllowFullScreenRequirement);
}
void HTMLMediaElement::exitFullscreen()
{
LOG(Media, "HTMLMediaElement::exitFullscreen");
if (document().settings() && document().settings()->fullScreenEnabled() && isFullscreen())
FullscreenElementStack::from(&document())->webkitCancelFullScreen();
}
void HTMLMediaElement::didBecomeFullscreenElement()
{
if (hasMediaControls())
mediaControls()->enteredFullscreen();
if (RuntimeEnabledFeatures::overlayFullscreenVideoEnabled() && isVideo())
document().renderView()->compositor()->setCompositingLayersNeedRebuild(true);
}
void HTMLMediaElement::willStopBeingFullscreenElement()
{
if (hasMediaControls())
mediaControls()->exitedFullscreen();
if (RuntimeEnabledFeatures::overlayFullscreenVideoEnabled() && isVideo())
document().renderView()->compositor()->setCompositingLayersNeedRebuild(true);
}
WebKit::WebLayer* HTMLMediaElement::platformLayer() const
{
return m_player ? m_player->platformLayer() : 0;
}
bool HTMLMediaElement::hasClosedCaptions() const
{
if (RuntimeEnabledFeatures::videoTrackEnabled() && m_textTracks) {
for (unsigned i = 0; i < m_textTracks->length(); ++i) {
if (m_textTracks->item(i)->readinessState() == TextTrack::FailedToLoad)
continue;
if (m_textTracks->item(i)->kind() == TextTrack::captionsKeyword()
|| m_textTracks->item(i)->kind() == TextTrack::subtitlesKeyword())
return true;
}
}
return false;
}
bool HTMLMediaElement::closedCaptionsVisible() const
{
return m_closedCaptionsVisible;
}
void HTMLMediaElement::updateTextTrackDisplay()
{
LOG(Media, "HTMLMediaElement::updateTextTrackDisplay");
if (!hasMediaControls() && !createMediaControls())
return;
mediaControls()->updateTextTrackDisplay();
}
void HTMLMediaElement::setClosedCaptionsVisible(bool closedCaptionVisible)
{
LOG(Media, "HTMLMediaElement::setClosedCaptionsVisible(%s)", boolString(closedCaptionVisible));
if (!m_player || !hasClosedCaptions())
return;
m_closedCaptionsVisible = closedCaptionVisible;
if (RuntimeEnabledFeatures::videoTrackEnabled()) {
m_processingPreferenceChange = true;
markCaptionAndSubtitleTracksAsUnconfigured();
m_processingPreferenceChange = false;
updateTextTrackDisplay();
}
}
void HTMLMediaElement::setWebkitClosedCaptionsVisible(bool visible)
{
setClosedCaptionsVisible(visible);
}
bool HTMLMediaElement::webkitClosedCaptionsVisible() const
{
return closedCaptionsVisible();
}
bool HTMLMediaElement::webkitHasClosedCaptions() const
{
return hasClosedCaptions();
}
unsigned HTMLMediaElement::webkitAudioDecodedByteCount() const
{
if (!m_player)
return 0;
return m_player->audioDecodedByteCount();
}
unsigned HTMLMediaElement::webkitVideoDecodedByteCount() const
{
if (!m_player)
return 0;
return m_player->videoDecodedByteCount();
}
bool HTMLMediaElement::isURLAttribute(const Attribute& attribute) const
{
return attribute.name() == srcAttr || HTMLElement::isURLAttribute(attribute);
}
void HTMLMediaElement::setShouldDelayLoadEvent(bool shouldDelay)
{
if (m_shouldDelayLoadEvent == shouldDelay)
return;
LOG(Media, "HTMLMediaElement::setShouldDelayLoadEvent(%s)", boolString(shouldDelay));
m_shouldDelayLoadEvent = shouldDelay;
if (shouldDelay)
document().incrementLoadEventDelayCount();
else
document().decrementLoadEventDelayCount();
}
MediaControls* HTMLMediaElement::mediaControls() const
{
return toMediaControls(userAgentShadowRoot()->firstChild());
}
bool HTMLMediaElement::hasMediaControls() const
{
if (ShadowRoot* userAgent = userAgentShadowRoot()) {
Node* node = userAgent->firstChild();
ASSERT_WITH_SECURITY_IMPLICATION(!node || node->isMediaControls());
return node;
}
return false;
}
bool HTMLMediaElement::createMediaControls()
{
if (hasMediaControls())
return true;
RefPtr<MediaControls> mediaControls = MediaControls::create(document());
if (!mediaControls)
return false;
mediaControls->setMediaController(m_mediaController ? m_mediaController.get() : static_cast<MediaControllerInterface*>(this));
mediaControls->reset();
if (isFullscreen())
mediaControls->enteredFullscreen();
ensureUserAgentShadowRoot()->appendChild(mediaControls);
if (!controls() || !inDocument())
mediaControls->hide();
return true;
}
void HTMLMediaElement::configureMediaControls()
{
if (!controls() || !inDocument()) {
if (hasMediaControls())
mediaControls()->hide();
return;
}
if (!hasMediaControls() && !createMediaControls())
return;
mediaControls()->show();
}
void HTMLMediaElement::configureTextTrackDisplay()
{
ASSERT(m_textTracks);
LOG(Media, "HTMLMediaElement::configureTextTrackDisplay");
if (m_processingPreferenceChange)
return;
bool haveVisibleTextTrack = false;
for (unsigned i = 0; i < m_textTracks->length(); ++i) {
if (m_textTracks->item(i)->mode() == TextTrack::showingKeyword()) {
haveVisibleTextTrack = true;
break;
}
}
if (m_haveVisibleTextTrack == haveVisibleTextTrack)
return;
m_haveVisibleTextTrack = haveVisibleTextTrack;
m_closedCaptionsVisible = m_haveVisibleTextTrack;
if (!m_haveVisibleTextTrack && !hasMediaControls())
return;
if (!hasMediaControls() && !createMediaControls())
return;
mediaControls()->changedClosedCaptionsVisibility();
if (RuntimeEnabledFeatures::videoTrackEnabled())
updateTextTrackDisplay();
}
void HTMLMediaElement::markCaptionAndSubtitleTracksAsUnconfigured()
{
if (!m_textTracks)
return;
// Mark all tracks as not "configured" so that configureTextTracks()
// will reconsider which tracks to display in light of new user preferences
// (e.g. default tracks should not be displayed if the user has turned off
// captions and non-default tracks should be displayed based on language
// preferences if the user has turned captions on).
for (unsigned i = 0; i < m_textTracks->length(); ++i) {
RefPtr<TextTrack> textTrack = m_textTracks->item(i);
String kind = textTrack->kind();
if (kind == TextTrack::subtitlesKeyword() || kind == TextTrack::captionsKeyword())
textTrack->setHasBeenConfigured(false);
}
configureTextTracks();
}
void* HTMLMediaElement::preDispatchEventHandler(Event* event)
{
if (event && event->type() == eventNames().webkitfullscreenchangeEvent)
configureMediaControls();
return 0;
}
void HTMLMediaElement::createMediaPlayer()
{
#if ENABLE(WEB_AUDIO)
if (m_audioSourceNode)
m_audioSourceNode->lock();
#endif
if (m_mediaSource)
closeMediaSource();
m_player = MediaPlayer::create(this);
#if ENABLE(WEB_AUDIO)
if (m_audioSourceNode) {
// When creating the player, make sure its AudioSourceProvider knows about the MediaElementAudioSourceNode.
if (audioSourceProvider())
audioSourceProvider()->setClient(m_audioSourceNode);
m_audioSourceNode->unlock();
}
#endif
}
#if ENABLE(WEB_AUDIO)
void HTMLMediaElement::setAudioSourceNode(MediaElementAudioSourceNode* sourceNode)
{
m_audioSourceNode = sourceNode;
if (audioSourceProvider())
audioSourceProvider()->setClient(m_audioSourceNode);
}
AudioSourceProvider* HTMLMediaElement::audioSourceProvider()
{
if (m_player)
return m_player->audioSourceProvider();
return 0;
}
#endif
const String& HTMLMediaElement::mediaGroup() const
{
return m_mediaGroup;
}
void HTMLMediaElement::setMediaGroup(const String& group)
{
if (m_mediaGroup == group)
return;
m_mediaGroup = group;
// When a media element is created with a mediagroup attribute, and when a media element's mediagroup
// attribute is set, changed, or removed, the user agent must run the following steps:
// 1. Let m [this] be the media element in question.
// 2. Let m have no current media controller, if it currently has one.
setController(0);
// 3. If m's mediagroup attribute is being removed, then abort these steps.
if (group.isNull() || group.isEmpty())
return;
// 4. If there is another media element whose Document is the same as m's Document (even if one or both
// of these elements are not actually in the Document),
HashSet<HTMLMediaElement*> elements = documentToElementSetMap().get(&document());
for (HashSet<HTMLMediaElement*>::iterator i = elements.begin(); i != elements.end(); ++i) {
if (*i == this)
continue;
// and which also has a mediagroup attribute, and whose mediagroup attribute has the same value as
// the new value of m's mediagroup attribute,
if ((*i)->mediaGroup() == group) {
// then let controller be that media element's current media controller.
setController((*i)->controller());
return;
}
}
// Otherwise, let controller be a newly created MediaController.
setController(MediaController::create(Node::scriptExecutionContext()));
}
MediaController* HTMLMediaElement::controller() const
{
return m_mediaController.get();
}
void HTMLMediaElement::setController(PassRefPtr<MediaController> controller)
{
if (m_mediaController)
m_mediaController->removeMediaElement(this);
m_mediaController = controller;
if (m_mediaController)
m_mediaController->addMediaElement(this);
if (hasMediaControls())
mediaControls()->setMediaController(m_mediaController ? m_mediaController.get() : static_cast<MediaControllerInterface*>(this));
}
void HTMLMediaElement::updateMediaController()
{
if (m_mediaController)
m_mediaController->reportControllerState();
}
bool HTMLMediaElement::dispatchEvent(PassRefPtr<Event> event)
{
bool dispatchResult;
bool isCanPlayEvent;
isCanPlayEvent = (event->type() == eventNames().canplayEvent);
if (isCanPlayEvent)
m_dispatchingCanPlayEvent = true;
dispatchResult = HTMLElement::dispatchEvent(event);
if (isCanPlayEvent)
m_dispatchingCanPlayEvent = false;
return dispatchResult;
}
bool HTMLMediaElement::isBlocked() const
{
// A media element is a blocked media element if its readyState attribute is in the
// HAVE_NOTHING state, the HAVE_METADATA state, or the HAVE_CURRENT_DATA state,
if (m_readyState <= HAVE_CURRENT_DATA)
return true;
// or if the element has paused for user interaction.
return pausedForUserInteraction();
}
bool HTMLMediaElement::isBlockedOnMediaController() const
{
if (!m_mediaController)
return false;
// A media element is blocked on its media controller if the MediaController is a blocked
// media controller,
if (m_mediaController->isBlocked())
return true;
// or if its media controller position is either before the media resource's earliest possible
// position relative to the MediaController's timeline or after the end of the media resource
// relative to the MediaController's timeline.
double mediaControllerPosition = m_mediaController->currentTime();
if (mediaControllerPosition < startTime() || mediaControllerPosition > startTime() + duration())
return true;
return false;
}
void HTMLMediaElement::prepareMediaFragmentURI()
{
MediaFragmentURIParser fragmentParser(m_currentSrc);
double dur = duration();
double start = fragmentParser.startTime();
if (start != MediaFragmentURIParser::invalidTimeValue() && start > 0) {
m_fragmentStartTime = start;
if (m_fragmentStartTime > dur)
m_fragmentStartTime = dur;
} else
m_fragmentStartTime = MediaPlayer::invalidTime();
double end = fragmentParser.endTime();
if (end != MediaFragmentURIParser::invalidTimeValue() && end > 0 && end > m_fragmentStartTime) {
m_fragmentEndTime = end;
if (m_fragmentEndTime > dur)
m_fragmentEndTime = dur;
} else
m_fragmentEndTime = MediaPlayer::invalidTime();
if (m_fragmentStartTime != MediaPlayer::invalidTime() && m_readyState < HAVE_FUTURE_DATA)
prepareToPlay();
}
void HTMLMediaElement::applyMediaFragmentURI()
{
if (m_fragmentStartTime != MediaPlayer::invalidTime()) {
m_sentEndEvent = false;
seek(m_fragmentStartTime, IGNORE_EXCEPTION);
}
}
MediaPlayerClient::CORSMode HTMLMediaElement::mediaPlayerCORSMode() const
{
if (!fastHasAttribute(HTMLNames::crossoriginAttr))
return Unspecified;
if (equalIgnoringCase(fastGetAttribute(HTMLNames::crossoriginAttr), "use-credentials"))
return UseCredentials;
return Anonymous;
}
void HTMLMediaElement::removeBehaviorsRestrictionsAfterFirstUserGesture()
{
m_restrictions = NoRestrictions;
}
void HTMLMediaElement::mediaPlayerScheduleLayerUpdate()
{
scheduleLayerUpdate();
}
}