blob: bd0fabdd28d9e069aea99e41598ea29630c42658 [file] [log] [blame]
/*
* Copyright (C) 2006-2019 Apple Inc. All rights reserved.
* Copyright (C) 2008 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/)
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "config.h"
#include "Page.h"
#include "ActivityStateChangeObserver.h"
#include "AlternativeTextClient.h"
#include "ApplicationCacheStorage.h"
#include "AuthenticatorCoordinator.h"
#include "BackForwardCache.h"
#include "BackForwardClient.h"
#include "BackForwardController.h"
#include "CSSAnimationController.h"
#include "CacheStorageProvider.h"
#include "Chrome.h"
#include "ChromeClient.h"
#include "ConstantPropertyMap.h"
#include "ContextMenuClient.h"
#include "ContextMenuController.h"
#include "CookieJar.h"
#include "CustomHeaderFields.h"
#include "DOMRect.h"
#include "DOMRectList.h"
#include "DatabaseProvider.h"
#include "DiagnosticLoggingClient.h"
#include "DiagnosticLoggingKeys.h"
#include "DocumentLoader.h"
#include "DocumentMarkerController.h"
#include "DocumentTimeline.h"
#include "DragController.h"
#include "Editing.h"
#include "Editor.h"
#include "EditorClient.h"
#include "EmptyClients.h"
#include "Event.h"
#include "EventNames.h"
#include "ExtensionStyleSheets.h"
#include "FocusController.h"
#include "FrameLoader.h"
#include "FrameLoaderClient.h"
#include "FrameSelection.h"
#include "FrameTree.h"
#include "FrameView.h"
#include "FullscreenManager.h"
#include "HTMLElement.h"
#include "HTMLMediaElement.h"
#include "HTMLTextAreaElement.h"
#include "HTMLTextFormControlElement.h"
#include "HistoryController.h"
#include "HistoryItem.h"
#include "InspectorClient.h"
#include "InspectorController.h"
#include "InspectorInstrumentation.h"
#include "LegacySchemeRegistry.h"
#include "LibWebRTCProvider.h"
#include "LoaderStrategy.h"
#include "Logging.h"
#include "LowPowerModeNotifier.h"
#include "MediaCanStartListener.h"
#include "MediaRecorderProvider.h"
#include "Navigator.h"
#include "PageConfiguration.h"
#include "PageConsoleClient.h"
#include "PageDebuggable.h"
#include "PageGroup.h"
#include "PageOverlayController.h"
#include "PaymentCoordinator.h"
#include "PerformanceLogging.h"
#include "PerformanceLoggingClient.h"
#include "PerformanceMonitor.h"
#include "PlatformMediaSessionManager.h"
#include "PlatformStrategies.h"
#include "PlugInClient.h"
#include "PluginData.h"
#include "PluginInfoProvider.h"
#include "PluginViewBase.h"
#include "PointerCaptureController.h"
#include "PointerLockController.h"
#include "ProgressTracker.h"
#include "RenderDescendantIterator.h"
#include "RenderLayerCompositor.h"
#include "RenderTheme.h"
#include "RenderView.h"
#include "RenderWidget.h"
#include "ResizeObserver.h"
#include "ResourceUsageOverlay.h"
#include "RuntimeEnabledFeatures.h"
#include "SVGDocumentExtensions.h"
#include "ScriptController.h"
#include "ScriptedAnimationController.h"
#include "ScrollLatchingState.h"
#include "ScrollingCoordinator.h"
#include "Settings.h"
#include "SharedBuffer.h"
#include "SocketProvider.h"
#include "StorageArea.h"
#include "StorageNamespace.h"
#include "StorageNamespaceProvider.h"
#include "StyleAdjuster.h"
#include "StyleResolver.h"
#include "StyleScope.h"
#include "SubframeLoader.h"
#include "TextIterator.h"
#include "TextResourceDecoder.h"
#include "UserContentProvider.h"
#include "UserContentURLPattern.h"
#include "UserInputBridge.h"
#include "ValidationMessageClient.h"
#include "VisitedLinkState.h"
#include "VisitedLinkStore.h"
#include "VoidCallback.h"
#include "WheelEventDeltaFilter.h"
#include "Widget.h"
#include <wtf/Deque.h>
#include <wtf/FileSystem.h>
#include <wtf/RefCountedLeakCounter.h>
#include <wtf/StdLibExtras.h>
#include <wtf/SystemTracing.h>
#include <wtf/text/Base64.h>
#include <wtf/text/StringHash.h>
#if ENABLE(WIRELESS_PLAYBACK_TARGET)
#include "HTMLVideoElement.h"
#include "MediaPlaybackTarget.h"
#endif
#if PLATFORM(MAC)
#include "ServicesOverlayController.h"
#endif
#if ENABLE(MEDIA_SESSION)
#include "MediaSessionManager.h"
#endif
#if ENABLE(INDEXED_DATABASE)
#include "IDBConnectionToServer.h"
#endif
#if ENABLE(DATA_INTERACTION)
#include "SelectionRect.h"
#endif
#if ENABLE(WEBGL)
#include "WebGLStateTracker.h"
#endif
namespace WebCore {
static HashSet<Page*>& allPages()
{
static NeverDestroyed<HashSet<Page*>> set;
return set;
}
static unsigned nonUtilityPageCount { 0 };
static inline bool isUtilityPageChromeClient(ChromeClient& chromeClient)
{
return chromeClient.isEmptyChromeClient() || chromeClient.isSVGImageChromeClient();
}
DEFINE_DEBUG_ONLY_GLOBAL(WTF::RefCountedLeakCounter, pageCounter, ("Page"));
void Page::forEachPage(const WTF::Function<void(Page&)>& function)
{
for (auto* page : allPages())
function(*page);
}
void Page::updateValidationBubbleStateIfNeeded()
{
if (auto* client = validationMessageClient())
client->updateValidationBubbleStateIfNeeded();
}
static void networkStateChanged(bool isOnLine)
{
Vector<Ref<Frame>> frames;
// Get all the frames of all the pages in all the page groups
for (auto* page : allPages()) {
for (Frame* frame = &page->mainFrame(); frame; frame = frame->tree().traverseNext())
frames.append(*frame);
InspectorInstrumentation::networkStateChanged(*page);
}
auto& eventName = isOnLine ? eventNames().onlineEvent : eventNames().offlineEvent;
for (auto& frame : frames) {
if (!frame->document())
continue;
frame->document()->dispatchWindowEvent(Event::create(eventName, Event::CanBubble::No, Event::IsCancelable::No));
}
}
static constexpr OptionSet<ActivityState::Flag> pageInitialActivityState()
{
return { ActivityState::IsVisible, ActivityState::IsInWindow };
}
Page::Page(PageConfiguration&& pageConfiguration)
: m_chrome(makeUnique<Chrome>(*this, *pageConfiguration.chromeClient))
, m_dragCaretController(makeUnique<DragCaretController>())
#if ENABLE(DRAG_SUPPORT)
, m_dragController(makeUnique<DragController>(*this, WTFMove(pageConfiguration.dragClient)))
#endif
, m_focusController(makeUnique<FocusController>(*this, pageInitialActivityState()))
#if ENABLE(CONTEXT_MENUS)
, m_contextMenuController(makeUnique<ContextMenuController>(*this, *pageConfiguration.contextMenuClient))
#endif
, m_userInputBridge(makeUnique<UserInputBridge>(*this))
, m_inspectorController(makeUnique<InspectorController>(*this, pageConfiguration.inspectorClient))
#if ENABLE(POINTER_EVENTS)
, m_pointerCaptureController(makeUnique<PointerCaptureController>(*this))
#endif
#if ENABLE(POINTER_LOCK)
, m_pointerLockController(makeUnique<PointerLockController>(*this))
#endif
, m_settings(Settings::create(this))
, m_progress(makeUnique<ProgressTracker>(WTFMove(pageConfiguration.progressTrackerClient)))
, m_backForwardController(makeUnique<BackForwardController>(*this, WTFMove(pageConfiguration.backForwardClient)))
, m_mainFrame(Frame::create(this, nullptr, pageConfiguration.loaderClientForMainFrame))
, m_editorClient(WTFMove(pageConfiguration.editorClient))
, m_plugInClient(WTFMove(pageConfiguration.plugInClient))
, m_validationMessageClient(WTFMove(pageConfiguration.validationMessageClient))
, m_diagnosticLoggingClient(WTFMove(pageConfiguration.diagnosticLoggingClient))
, m_performanceLoggingClient(WTFMove(pageConfiguration.performanceLoggingClient))
#if ENABLE(WEBGL)
, m_webGLStateTracker(WTFMove(pageConfiguration.webGLStateTracker))
#endif
#if ENABLE(SPEECH_SYNTHESIS)
, m_speechSynthesisClient(WTFMove(pageConfiguration.speechSynthesisClient))
#endif
, m_mediaRecorderProvider((WTFMove(pageConfiguration.mediaRecorderProvider)))
, m_libWebRTCProvider(WTFMove(pageConfiguration.libWebRTCProvider))
, m_verticalScrollElasticity(ScrollElasticityAllowed)
, m_horizontalScrollElasticity(ScrollElasticityAllowed)
, m_domTimerAlignmentInterval(DOMTimer::defaultAlignmentInterval())
, m_domTimerAlignmentIntervalIncreaseTimer(*this, &Page::domTimerAlignmentIntervalIncreaseTimerFired)
, m_activityState(pageInitialActivityState())
, m_alternativeTextClient(WTFMove(pageConfiguration.alternativeTextClient))
, m_consoleClient(makeUnique<PageConsoleClient>(*this))
#if ENABLE(REMOTE_INSPECTOR)
, m_inspectorDebuggable(makeUnique<PageDebuggable>(*this))
#endif
, m_socketProvider(WTFMove(pageConfiguration.socketProvider))
, m_cookieJar(WTFMove(pageConfiguration.cookieJar))
, m_applicationCacheStorage(*WTFMove(pageConfiguration.applicationCacheStorage))
, m_cacheStorageProvider(WTFMove(pageConfiguration.cacheStorageProvider))
, m_databaseProvider(*WTFMove(pageConfiguration.databaseProvider))
, m_pluginInfoProvider(*WTFMove(pageConfiguration.pluginInfoProvider))
, m_storageNamespaceProvider(*WTFMove(pageConfiguration.storageNamespaceProvider))
, m_userContentProvider(*WTFMove(pageConfiguration.userContentProvider))
, m_visitedLinkStore(*WTFMove(pageConfiguration.visitedLinkStore))
, m_sessionID(pageConfiguration.sessionID)
#if ENABLE(VIDEO)
, m_playbackControlsManagerUpdateTimer(*this, &Page::playbackControlsManagerUpdateTimerFired)
#endif
, m_isUtilityPage(isUtilityPageChromeClient(chrome().client()))
, m_performanceMonitor(isUtilityPage() ? nullptr : makeUnique<PerformanceMonitor>(*this))
, m_lowPowerModeNotifier(makeUnique<LowPowerModeNotifier>([this](bool isLowPowerModeEnabled) { handleLowModePowerChange(isLowPowerModeEnabled); }))
, m_performanceLogging(makeUnique<PerformanceLogging>(*this))
#if PLATFORM(MAC) && (ENABLE(SERVICE_CONTROLS) || ENABLE(TELEPHONE_NUMBER_DETECTION))
, m_servicesOverlayController(makeUnique<ServicesOverlayController>(*this))
#endif
, m_recentWheelEventDeltaFilter(WheelEventDeltaFilter::create())
, m_pageOverlayController(makeUnique<PageOverlayController>(*this))
#if ENABLE(APPLE_PAY)
, m_paymentCoordinator(makeUnique<PaymentCoordinator>(*pageConfiguration.paymentCoordinatorClient))
#endif
#if ENABLE(WEB_AUTHN)
, m_authenticatorCoordinator(makeUniqueRef<AuthenticatorCoordinator>(WTFMove(pageConfiguration.authenticatorCoordinatorClient)))
#endif
#if ENABLE(APPLICATION_MANIFEST)
, m_applicationManifest(pageConfiguration.applicationManifest)
#endif
#if ENABLE(DEVICE_ORIENTATION) && PLATFORM(IOS_FAMILY)
, m_deviceOrientationUpdateProvider(WTFMove(pageConfiguration.deviceOrientationUpdateProvider))
#endif
{
updateTimerThrottlingState();
m_pluginInfoProvider->addPage(*this);
m_userContentProvider->addPage(*this);
m_visitedLinkStore->addPage(*this);
static bool addedListener;
if (!addedListener) {
platformStrategies()->loaderStrategy()->addOnlineStateChangeListener(&networkStateChanged);
addedListener = true;
}
ASSERT(!allPages().contains(this));
allPages().add(this);
if (!isUtilityPage()) {
++nonUtilityPageCount;
MemoryPressureHandler::setPageCount(nonUtilityPageCount);
}
#ifndef NDEBUG
pageCounter.increment();
#endif
#if ENABLE(REMOTE_INSPECTOR)
if (m_inspectorController->inspectorClient() && m_inspectorController->inspectorClient()->allowRemoteInspectionToPageDirectly())
m_inspectorDebuggable->init();
#endif
#if PLATFORM(COCOA)
platformInitialize();
#endif
#if USE(LIBWEBRTC)
m_libWebRTCProvider->supportsVP8(RuntimeEnabledFeatures::sharedFeatures().webRTCVP8CodecEnabled());
#endif
m_corsDisablingPatterns.reserveInitialCapacity(pageConfiguration.corsDisablingPatterns.size());
for (auto&& pattern : WTFMove(pageConfiguration.corsDisablingPatterns)) {
UserContentURLPattern parsedPattern(WTFMove(pattern));
if (parsedPattern.isValid())
m_corsDisablingPatterns.uncheckedAppend(WTFMove(parsedPattern));
}
m_corsDisablingPatterns.shrinkToFit();
}
Page::~Page()
{
ASSERT(!m_nestedRunLoopCount);
ASSERT(!m_unnestCallback);
m_validationMessageClient = nullptr;
m_diagnosticLoggingClient = nullptr;
m_performanceLoggingClient = nullptr;
m_mainFrame->setView(nullptr);
setGroupName(String());
allPages().remove(this);
if (!isUtilityPage()) {
--nonUtilityPageCount;
MemoryPressureHandler::setPageCount(nonUtilityPageCount);
}
m_settings->pageDestroyed();
m_inspectorController->inspectedPageDestroyed();
for (Frame* frame = &mainFrame(); frame; frame = frame->tree().traverseNext()) {
frame->willDetachPage();
frame->detachFromPage();
}
if (m_scrollingCoordinator)
m_scrollingCoordinator->pageDestroyed();
backForward().close();
if (!isUtilityPage())
BackForwardCache::singleton().removeAllItemsForPage(*this);
#ifndef NDEBUG
pageCounter.decrement();
#endif
m_pluginInfoProvider->removePage(*this);
m_userContentProvider->removePage(*this);
m_visitedLinkStore->removePage(*this);
}
void Page::clearPreviousItemFromAllPages(HistoryItem* item)
{
for (auto* page : allPages()) {
auto& controller = page->mainFrame().loader().history();
if (item == controller.previousItem()) {
controller.clearPreviousItem();
return;
}
}
}
uint64_t Page::renderTreeSize() const
{
uint64_t total = 0;
forEachDocument([&] (Document& document) {
if (auto* renderView = document.renderView())
total += renderView->rendererCount();
});
return total;
}
OptionSet<DisabledAdaptations> Page::disabledAdaptations() const
{
if (mainFrame().document())
return mainFrame().document()->disabledAdaptations();
return { };
}
ViewportArguments Page::viewportArguments() const
{
return mainFrame().document() ? mainFrame().document()->viewportArguments() : ViewportArguments();
}
void Page::setOverrideViewportArguments(const Optional<ViewportArguments>& viewportArguments)
{
if (viewportArguments == m_overrideViewportArguments)
return;
m_overrideViewportArguments = viewportArguments;
if (auto* document = mainFrame().document())
document->updateViewportArguments();
}
ScrollingCoordinator* Page::scrollingCoordinator()
{
if (!m_scrollingCoordinator && m_settings->scrollingCoordinatorEnabled()) {
m_scrollingCoordinator = chrome().client().createScrollingCoordinator(*this);
if (!m_scrollingCoordinator)
m_scrollingCoordinator = ScrollingCoordinator::create(this);
}
return m_scrollingCoordinator.get();
}
String Page::scrollingStateTreeAsText()
{
if (Document* document = m_mainFrame->document())
document->updateLayout();
if (ScrollingCoordinator* scrollingCoordinator = this->scrollingCoordinator())
return scrollingCoordinator->scrollingStateTreeAsText();
return String();
}
String Page::synchronousScrollingReasonsAsText()
{
if (Document* document = m_mainFrame->document())
document->updateLayout();
if (ScrollingCoordinator* scrollingCoordinator = this->scrollingCoordinator())
return scrollingCoordinator->synchronousScrollingReasonsAsText();
return String();
}
Ref<DOMRectList> Page::nonFastScrollableRects()
{
if (Document* document = m_mainFrame->document())
document->updateLayout();
Vector<IntRect> rects;
if (ScrollingCoordinator* scrollingCoordinator = this->scrollingCoordinator()) {
const EventTrackingRegions& eventTrackingRegions = scrollingCoordinator->absoluteEventTrackingRegions();
for (const auto& synchronousEventRegion : eventTrackingRegions.eventSpecificSynchronousDispatchRegions)
rects.appendVector(synchronousEventRegion.value.rects());
}
Vector<FloatQuad> quads(rects.size());
for (size_t i = 0; i < rects.size(); ++i)
quads[i] = FloatRect(rects[i]);
return DOMRectList::create(quads);
}
Ref<DOMRectList> Page::touchEventRectsForEvent(const String& eventName)
{
if (Document* document = m_mainFrame->document()) {
document->updateLayout();
#if ENABLE(IOS_TOUCH_EVENTS)
document->updateTouchEventRegions();
#endif
}
Vector<IntRect> rects;
if (ScrollingCoordinator* scrollingCoordinator = this->scrollingCoordinator()) {
const EventTrackingRegions& eventTrackingRegions = scrollingCoordinator->absoluteEventTrackingRegions();
const auto& region = eventTrackingRegions.eventSpecificSynchronousDispatchRegions.get(eventName);
rects.appendVector(region.rects());
}
Vector<FloatQuad> quads(rects.size());
for (size_t i = 0; i < rects.size(); ++i)
quads[i] = FloatRect(rects[i]);
return DOMRectList::create(quads);
}
Ref<DOMRectList> Page::passiveTouchEventListenerRects()
{
if (Document* document = m_mainFrame->document()) {
document->updateLayout();
#if ENABLE(IOS_TOUCH_EVENTS)
document->updateTouchEventRegions();
#endif
}
Vector<IntRect> rects;
if (ScrollingCoordinator* scrollingCoordinator = this->scrollingCoordinator())
rects.appendVector(scrollingCoordinator->absoluteEventTrackingRegions().asynchronousDispatchRegion.rects());
Vector<FloatQuad> quads(rects.size());
for (size_t i = 0; i < rects.size(); ++i)
quads[i] = FloatRect(rects[i]);
return DOMRectList::create(quads);
}
bool Page::openedByDOM() const
{
return m_openedByDOM;
}
void Page::setOpenedByDOM()
{
m_openedByDOM = true;
}
void Page::goToItem(HistoryItem& item, FrameLoadType type, ShouldTreatAsContinuingLoad shouldTreatAsContinuingLoad)
{
// stopAllLoaders may end up running onload handlers, which could cause further history traversals that may lead to the passed in HistoryItem
// being deref()-ed. Make sure we can still use it with HistoryController::goToItem later.
Ref<HistoryItem> protector(item);
auto& frameLoader = m_mainFrame->loader();
if (frameLoader.history().shouldStopLoadingForHistoryItem(item))
m_mainFrame->loader().stopAllLoadersAndCheckCompleteness();
m_mainFrame->loader().history().goToItem(item, type, shouldTreatAsContinuingLoad);
}
void Page::setGroupName(const String& name)
{
if (m_group && !m_group->name().isEmpty()) {
ASSERT(m_group != m_singlePageGroup.get());
ASSERT(!m_singlePageGroup);
m_group->removePage(*this);
}
if (name.isEmpty())
m_group = m_singlePageGroup.get();
else {
m_singlePageGroup = nullptr;
m_group = PageGroup::pageGroup(name);
m_group->addPage(*this);
}
}
const String& Page::groupName() const
{
return m_group ? m_group->name() : nullAtom().string();
}
void Page::initGroup()
{
ASSERT(!m_singlePageGroup);
ASSERT(!m_group);
m_singlePageGroup = makeUnique<PageGroup>(*this);
m_group = m_singlePageGroup.get();
}
void Page::updateStyleAfterChangeInEnvironment()
{
forEachDocument([] (Document& document) {
if (auto* styleResolver = document.styleScope().resolverIfExists())
styleResolver->invalidateMatchedDeclarationsCache();
document.scheduleFullStyleRebuild();
document.styleScope().didChangeStyleSheetEnvironment();
document.scheduleTimedRenderingUpdate();
});
}
void Page::updateStyleForAllPagesAfterGlobalChangeInEnvironment()
{
for (auto* page : allPages())
page->updateStyleAfterChangeInEnvironment();
}
void Page::setNeedsRecalcStyleInAllFrames()
{
// FIXME: Figure out what this function is actually trying to add in different call sites.
forEachDocument([] (Document& document) {
document.styleScope().didChangeStyleSheetEnvironment();
});
}
void Page::refreshPlugins(bool reload)
{
HashSet<PluginInfoProvider*> pluginInfoProviders;
for (auto* page : allPages())
pluginInfoProviders.add(&page->pluginInfoProvider());
for (auto& pluginInfoProvider : pluginInfoProviders)
pluginInfoProvider->refresh(reload);
}
PluginData& Page::pluginData()
{
if (!m_pluginData)
m_pluginData = PluginData::create(*this);
return *m_pluginData;
}
void Page::clearPluginData()
{
m_pluginData = nullptr;
}
bool Page::showAllPlugins() const
{
if (m_showAllPlugins)
return true;
if (Document* document = mainFrame().document())
return document->securityOrigin().isLocal();
return false;
}
inline Optional<std::pair<MediaCanStartListener&, Document&>> Page::takeAnyMediaCanStartListener()
{
for (Frame* frame = &mainFrame(); frame; frame = frame->tree().traverseNext()) {
if (!frame->document())
continue;
if (MediaCanStartListener* listener = frame->document()->takeAnyMediaCanStartListener())
return { { *listener, *frame->document() } };
}
return WTF::nullopt;
}
void Page::setCanStartMedia(bool canStartMedia)
{
if (m_canStartMedia == canStartMedia)
return;
m_canStartMedia = canStartMedia;
while (m_canStartMedia) {
auto listener = takeAnyMediaCanStartListener();
if (!listener)
break;
listener->first.mediaCanStart(listener->second);
}
}
static Frame* incrementFrame(Frame* curr, bool forward, CanWrap canWrap, DidWrap* didWrap = nullptr)
{
return forward
? curr->tree().traverseNext(canWrap, didWrap)
: curr->tree().traversePrevious(canWrap, didWrap);
}
bool Page::findString(const String& target, FindOptions options, DidWrap* didWrap)
{
if (target.isEmpty())
return false;
CanWrap canWrap = options.contains(WrapAround) ? CanWrap::Yes : CanWrap::No;
Frame* frame = &focusController().focusedOrMainFrame();
Frame* startFrame = frame;
do {
if (frame->editor().findString(target, (options - WrapAround) | StartInSelection)) {
if (frame != startFrame)
startFrame->selection().clear();
focusController().setFocusedFrame(frame);
return true;
}
frame = incrementFrame(frame, !options.contains(Backwards), canWrap, didWrap);
} while (frame && frame != startFrame);
// Search contents of startFrame, on the other side of the selection that we did earlier.
// We cheat a bit and just research with wrap on
if (canWrap == CanWrap::Yes && !startFrame->selection().isNone()) {
if (didWrap)
*didWrap = DidWrap::Yes;
bool found = startFrame->editor().findString(target, options | WrapAround | StartInSelection);
focusController().setFocusedFrame(frame);
return found;
}
return false;
}
void Page::findStringMatchingRanges(const String& target, FindOptions options, int limit, Vector<RefPtr<Range>>& matchRanges, int& indexForSelection)
{
indexForSelection = 0;
Frame* frame = &mainFrame();
Frame* frameWithSelection = nullptr;
do {
frame->editor().countMatchesForText(target, 0, options, limit ? (limit - matchRanges.size()) : 0, true, &matchRanges);
if (frame->selection().isRange())
frameWithSelection = frame;
frame = incrementFrame(frame, true, CanWrap::No);
} while (frame);
if (matchRanges.isEmpty())
return;
if (frameWithSelection) {
indexForSelection = NoMatchAfterUserSelection;
RefPtr<Range> selectedRange = frameWithSelection->selection().selection().firstRange();
if (options.contains(Backwards)) {
for (size_t i = matchRanges.size(); i > 0; --i) {
auto result = selectedRange->compareBoundaryPoints(Range::END_TO_START, *matchRanges[i - 1]);
if (!result.hasException() && result.releaseReturnValue() > 0) {
indexForSelection = i - 1;
break;
}
}
} else {
for (size_t i = 0, size = matchRanges.size(); i < size; ++i) {
auto result = selectedRange->compareBoundaryPoints(Range::START_TO_END, *matchRanges[i]);
if (!result.hasException() && result.releaseReturnValue() < 0) {
indexForSelection = i;
break;
}
}
}
} else {
if (options.contains(Backwards))
indexForSelection = matchRanges.size() - 1;
else
indexForSelection = 0;
}
}
RefPtr<Range> Page::rangeOfString(const String& target, Range* referenceRange, FindOptions options)
{
if (target.isEmpty())
return nullptr;
if (referenceRange && referenceRange->ownerDocument().page() != this)
return nullptr;
CanWrap canWrap = options.contains(WrapAround) ? CanWrap::Yes : CanWrap::No;
Frame* frame = referenceRange ? referenceRange->ownerDocument().frame() : &mainFrame();
Frame* startFrame = frame;
do {
if (RefPtr<Range> resultRange = frame->editor().rangeOfString(target, frame == startFrame ? referenceRange : 0, options - WrapAround))
return resultRange;
frame = incrementFrame(frame, !options.contains(Backwards), canWrap);
} while (frame && frame != startFrame);
// Search contents of startFrame, on the other side of the reference range that we did earlier.
// We cheat a bit and just search again with wrap on.
if (canWrap == CanWrap::Yes && referenceRange) {
if (RefPtr<Range> resultRange = startFrame->editor().rangeOfString(target, referenceRange, options | WrapAround | StartInSelection))
return resultRange;
}
return nullptr;
}
unsigned Page::findMatchesForText(const String& target, FindOptions options, unsigned maxMatchCount, ShouldHighlightMatches shouldHighlightMatches, ShouldMarkMatches shouldMarkMatches)
{
if (target.isEmpty())
return 0;
unsigned matchCount = 0;
Frame* frame = &mainFrame();
do {
if (shouldMarkMatches == MarkMatches)
frame->editor().setMarkedTextMatchesAreHighlighted(shouldHighlightMatches == HighlightMatches);
matchCount += frame->editor().countMatchesForText(target, 0, options, maxMatchCount ? (maxMatchCount - matchCount) : 0, shouldMarkMatches == MarkMatches, 0);
frame = incrementFrame(frame, true, CanWrap::No);
} while (frame);
return matchCount;
}
unsigned Page::markAllMatchesForText(const String& target, FindOptions options, bool shouldHighlight, unsigned maxMatchCount)
{
return findMatchesForText(target, options, maxMatchCount, shouldHighlight ? HighlightMatches : DoNotHighlightMatches, MarkMatches);
}
unsigned Page::countFindMatches(const String& target, FindOptions options, unsigned maxMatchCount)
{
return findMatchesForText(target, options, maxMatchCount, DoNotHighlightMatches, DoNotMarkMatches);
}
struct FindReplacementRange {
RefPtr<ContainerNode> root;
size_t location { notFound };
size_t length { 0 };
};
static void replaceRanges(Page& page, const Vector<FindReplacementRange>& ranges, const String& replacementText)
{
HashMap<RefPtr<ContainerNode>, Vector<FindReplacementRange>> rangesByContainerNode;
for (auto& range : ranges) {
auto& rangeList = rangesByContainerNode.ensure(range.root, [] {
return Vector<FindReplacementRange> { };
}).iterator->value;
// Ensure that ranges are sorted by their end offsets, per editing container.
auto endOffsetForRange = range.location + range.length;
auto insertionIndex = rangeList.size();
for (auto iterator = rangeList.rbegin(); iterator != rangeList.rend(); ++iterator) {
auto endOffsetBeforeInsertionIndex = iterator->location + iterator->length;
if (endOffsetForRange >= endOffsetBeforeInsertionIndex)
break;
insertionIndex--;
}
rangeList.insert(insertionIndex, range);
}
HashMap<RefPtr<Frame>, unsigned> frameToTraversalIndexMap;
unsigned currentFrameTraversalIndex = 0;
for (Frame* frame = &page.mainFrame(); frame; frame = frame->tree().traverseNext())
frameToTraversalIndexMap.set(frame, currentFrameTraversalIndex++);
// Likewise, iterate backwards (in document and frame order) through editing containers that contain text matches,
// so that we're consistent with our backwards iteration behavior per editing container when replacing text.
auto containerNodesInOrderOfReplacement = copyToVector(rangesByContainerNode.keys());
std::sort(containerNodesInOrderOfReplacement.begin(), containerNodesInOrderOfReplacement.end(), [frameToTraversalIndexMap] (auto& firstNode, auto& secondNode) {
if (firstNode == secondNode)
return false;
auto firstFrame = makeRefPtr(firstNode->document().frame());
if (!firstFrame)
return true;
auto secondFrame = makeRefPtr(secondNode->document().frame());
if (!secondFrame)
return false;
if (firstFrame == secondFrame) {
// comparePositions is used here instead of Node::compareDocumentPosition because some editing roots may exist inside shadow roots.
return comparePositions({ firstNode.get(), Position::PositionIsBeforeChildren }, { secondNode.get(), Position::PositionIsBeforeChildren }) > 0;
}
return frameToTraversalIndexMap.get(firstFrame) > frameToTraversalIndexMap.get(secondFrame);
});
for (auto& container : containerNodesInOrderOfReplacement) {
auto frame = makeRefPtr(container->document().frame());
if (!frame)
continue;
// Iterate backwards through ranges when replacing text, such that earlier text replacements don't clobber replacement ranges later on.
auto& ranges = rangesByContainerNode.find(container)->value;
for (auto iterator = ranges.rbegin(); iterator != ranges.rend(); ++iterator) {
auto range = TextIterator::rangeFromLocationAndLength(container.get(), iterator->location, iterator->length);
if (!range || range->collapsed())
continue;
frame->selection().setSelectedRange(range.get(), DOWNSTREAM, FrameSelection::ShouldCloseTyping::Yes);
frame->editor().replaceSelectionWithText(replacementText, Editor::SelectReplacement::Yes, Editor::SmartReplace::No, EditAction::InsertReplacement);
}
}
}
uint32_t Page::replaceRangesWithText(const Vector<Ref<Range>>& rangesToReplace, const String& replacementText, bool selectionOnly)
{
// FIXME: In the future, we should respect the `selectionOnly` flag by checking whether each range being replaced is
// contained within its frame's selection.
UNUSED_PARAM(selectionOnly);
Vector<FindReplacementRange> replacementRanges;
replacementRanges.reserveInitialCapacity(rangesToReplace.size());
for (auto& range : rangesToReplace) {
auto highestRoot = makeRefPtr(highestEditableRoot(range->startPosition()));
if (!highestRoot || highestRoot != highestEditableRoot(range->endPosition()))
continue;
auto frame = makeRefPtr(highestRoot->document().frame());
if (!frame)
continue;
size_t replacementLocation = notFound;
size_t replacementLength = 0;
if (!TextIterator::getLocationAndLengthFromRange(highestRoot.get(), range.ptr(), replacementLocation, replacementLength))
continue;
if (replacementLocation == notFound || !replacementLength)
continue;
replacementRanges.append({ WTFMove(highestRoot), replacementLocation, replacementLength });
}
replaceRanges(*this, replacementRanges, replacementText);
return rangesToReplace.size();
}
uint32_t Page::replaceSelectionWithText(const String& replacementText)
{
auto frame = makeRef(focusController().focusedOrMainFrame());
auto selection = frame->selection().selection();
if (!selection.isContentEditable())
return 0;
auto editAction = selection.isRange() ? EditAction::InsertReplacement : EditAction::Insert;
frame->editor().replaceSelectionWithText(replacementText, Editor::SelectReplacement::Yes, Editor::SmartReplace::No, editAction);
return 1;
}
void Page::unmarkAllTextMatches()
{
forEachDocument([] (Document& document) {
document.markers().removeMarkers(DocumentMarker::TextMatch);
});
}
static bool isEditableTextInputElement(const Element& element)
{
if (is<HTMLTextFormControlElement>(element)) {
if (!element.isTextField() && !is<HTMLTextAreaElement>(element))
return false;
return downcast<HTMLTextFormControlElement>(element).isInnerTextElementEditable();
}
return element.isRootEditableElement();
}
Vector<Ref<Element>> Page::editableElementsInRect(const FloatRect& searchRectInRootViewCoordinates) const
{
Vector<Ref<Element>> result;
forEachDocument([&] (Document& document) {
Deque<Node*> nodesToSearch;
nodesToSearch.append(&document);
while (!nodesToSearch.isEmpty()) {
auto* node = nodesToSearch.takeFirst();
// It is possible to have nested text input contexts (e.g. <input type='text'> inside contenteditable) but
// in this case we just take the outermost context and skip the rest.
if (!is<Element>(node) || !isEditableTextInputElement(downcast<Element>(*node))) {
for (auto* child = node->firstChild(); child; child = child->nextSibling())
nodesToSearch.append(child);
continue;
}
auto& element = downcast<Element>(*node);
if (searchRectInRootViewCoordinates.intersects(element.clientRect()))
result.append(element);
}
});
return result;
}
const VisibleSelection& Page::selection() const
{
return focusController().focusedOrMainFrame().selection().selection();
}
void Page::setDefersLoading(bool defers)
{
if (!m_settings->loadDeferringEnabled())
return;
if (m_settings->wantsBalancedSetDefersLoadingBehavior()) {
ASSERT(defers || m_defersLoadingCallCount);
if (defers && ++m_defersLoadingCallCount > 1)
return;
if (!defers && --m_defersLoadingCallCount)
return;
} else {
ASSERT(!m_defersLoadingCallCount);
if (defers == m_defersLoading)
return;
}
m_defersLoading = defers;
for (Frame* frame = &mainFrame(); frame; frame = frame->tree().traverseNext())
frame->loader().setDefersLoading(defers);
}
void Page::clearUndoRedoOperations()
{
m_editorClient->clearUndoRedoOperations();
}
bool Page::inLowQualityImageInterpolationMode() const
{
return m_inLowQualityInterpolationMode;
}
void Page::setInLowQualityImageInterpolationMode(bool mode)
{
m_inLowQualityInterpolationMode = mode;
}
DiagnosticLoggingClient& Page::diagnosticLoggingClient() const
{
if (!settings().diagnosticLoggingEnabled() || !m_diagnosticLoggingClient)
return emptyDiagnosticLoggingClient();
return *m_diagnosticLoggingClient;
}
void Page::setMediaVolume(float volume)
{
if (!(volume >= 0 && volume <= 1))
return;
if (m_mediaVolume == volume)
return;
m_mediaVolume = volume;
#if ENABLE(VIDEO)
forEachMediaElement([] (HTMLMediaElement& element) {
element.mediaVolumeDidChange();
});
#endif
}
void Page::setZoomedOutPageScaleFactor(float scale)
{
if (m_zoomedOutPageScaleFactor == scale)
return;
m_zoomedOutPageScaleFactor = scale;
mainFrame().deviceOrPageScaleFactorChanged();
}
void Page::setPageScaleFactor(float scale, const IntPoint& origin, bool inStableState)
{
LOG(Viewports, "Page::setPageScaleFactor %.2f - inStableState %d", scale, inStableState);
Document* document = mainFrame().document();
RefPtr<FrameView> view = document->view();
if (scale == m_pageScaleFactor) {
if (view && view->scrollPosition() != origin && !view->delegatesPageScaling())
document->updateLayoutIgnorePendingStylesheets();
} else {
m_pageScaleFactor = scale;
if (view && !view->delegatesPageScaling()) {
view->setNeedsLayoutAfterViewConfigurationChange();
view->setNeedsCompositingGeometryUpdate();
document->resolveStyle(Document::ResolveStyleType::Rebuild);
// Transform change on RenderView doesn't trigger repaint on non-composited contents.
mainFrame().view()->invalidateRect(IntRect(LayoutRect::infiniteRect()));
}
mainFrame().deviceOrPageScaleFactorChanged();
if (view && view->fixedElementsLayoutRelativeToFrame())
view->setViewportConstrainedObjectsNeedLayout();
if (view && view->scrollPosition() != origin && !view->delegatesPageScaling() && document->renderView() && document->renderView()->needsLayout() && view->didFirstLayout())
view->layoutContext().layout();
}
if (view && view->scrollPosition() != origin) {
if (!view->delegatesScrolling())
view->setScrollPosition(origin);
#if USE(COORDINATED_GRAPHICS)
else
view->requestScrollPositionUpdate(origin);
#endif
}
#if ENABLE(MEDIA_CONTROLS_SCRIPT)
if (inStableState) {
forEachMediaElement([] (HTMLMediaElement& element) {
element.pageScaleFactorChanged();
});
}
#else
UNUSED_PARAM(inStableState);
#endif
}
void Page::setViewScaleFactor(float scale)
{
if (m_viewScaleFactor == scale)
return;
m_viewScaleFactor = scale;
BackForwardCache::singleton().markPagesForDeviceOrPageScaleChanged(*this);
}
void Page::setDeviceScaleFactor(float scaleFactor)
{
ASSERT(scaleFactor > 0);
if (scaleFactor <= 0)
return;
if (m_deviceScaleFactor == scaleFactor)
return;
m_deviceScaleFactor = scaleFactor;
setNeedsRecalcStyleInAllFrames();
mainFrame().deviceOrPageScaleFactorChanged();
BackForwardCache::singleton().markPagesForDeviceOrPageScaleChanged(*this);
pageOverlayController().didChangeDeviceScaleFactor();
}
void Page::setInitialScale(float initialScale)
{
m_initialScale = initialScale;
}
void Page::setUserInterfaceLayoutDirection(UserInterfaceLayoutDirection userInterfaceLayoutDirection)
{
if (m_userInterfaceLayoutDirection == userInterfaceLayoutDirection)
return;
m_userInterfaceLayoutDirection = userInterfaceLayoutDirection;
#if ENABLE(MEDIA_CONTROLS_SCRIPT)
forEachMediaElement([] (HTMLMediaElement& element) {
element.userInterfaceLayoutDirectionChanged();
});
#endif
}
#if ENABLE(VIDEO)
void Page::updateMediaElementRateChangeRestrictions()
{
// FIXME: This used to call this on all media elements, seemingly by accident. But was there some advantage to that for elements in the back/forward cache?
forEachMediaElement([] (HTMLMediaElement& element) {
element.updateRateChangeRestrictions();
});
}
#endif
void Page::didStartProvisionalLoad()
{
if (m_performanceMonitor)
m_performanceMonitor->didStartProvisionalLoad();
}
void Page::didFinishLoad()
{
resetRelevantPaintedObjectCounter();
if (m_performanceMonitor)
m_performanceMonitor->didFinishLoad();
}
bool Page::isOnlyNonUtilityPage() const
{
return !isUtilityPage() && nonUtilityPageCount == 1;
}
bool Page::isLowPowerModeEnabled() const
{
if (m_lowPowerModeEnabledOverrideForTesting)
return m_lowPowerModeEnabledOverrideForTesting.value();
return m_lowPowerModeNotifier->isLowPowerModeEnabled();
}
void Page::setLowPowerModeEnabledOverrideForTesting(Optional<bool> isEnabled)
{
m_lowPowerModeEnabledOverrideForTesting = isEnabled;
handleLowModePowerChange(m_lowPowerModeEnabledOverrideForTesting.valueOr(false));
}
void Page::setTopContentInset(float contentInset)
{
if (m_topContentInset == contentInset)
return;
m_topContentInset = contentInset;
if (FrameView* view = mainFrame().view())
view->topContentInsetDidChange(m_topContentInset);
}
void Page::setShouldSuppressScrollbarAnimations(bool suppressAnimations)
{
if (suppressAnimations == m_suppressScrollbarAnimations)
return;
lockAllOverlayScrollbarsToHidden(suppressAnimations);
m_suppressScrollbarAnimations = suppressAnimations;
}
void Page::lockAllOverlayScrollbarsToHidden(bool lockOverlayScrollbars)
{
FrameView* view = mainFrame().view();
if (!view)
return;
view->lockOverlayScrollbarStateToHidden(lockOverlayScrollbars);
for (Frame* frame = &mainFrame(); frame; frame = frame->tree().traverseNext()) {
FrameView* frameView = frame->view();
if (!frameView)
continue;
const HashSet<ScrollableArea*>* scrollableAreas = frameView->scrollableAreas();
if (!scrollableAreas)
continue;
for (auto& scrollableArea : *scrollableAreas)
scrollableArea->lockOverlayScrollbarStateToHidden(lockOverlayScrollbars);
}
}
void Page::setVerticalScrollElasticity(ScrollElasticity elasticity)
{
if (m_verticalScrollElasticity == elasticity)
return;
m_verticalScrollElasticity = elasticity;
if (FrameView* view = mainFrame().view())
view->setVerticalScrollElasticity(elasticity);
}
void Page::setHorizontalScrollElasticity(ScrollElasticity elasticity)
{
if (m_horizontalScrollElasticity == elasticity)
return;
m_horizontalScrollElasticity = elasticity;
if (FrameView* view = mainFrame().view())
view->setHorizontalScrollElasticity(elasticity);
}
void Page::setPagination(const Pagination& pagination)
{
if (m_pagination == pagination)
return;
m_pagination = pagination;
setNeedsRecalcStyleInAllFrames();
}
void Page::setPaginationLineGridEnabled(bool enabled)
{
if (m_paginationLineGridEnabled == enabled)
return;
m_paginationLineGridEnabled = enabled;
setNeedsRecalcStyleInAllFrames();
}
unsigned Page::pageCount() const
{
if (m_pagination.mode == Pagination::Unpaginated)
return 0;
if (Document* document = mainFrame().document())
document->updateLayoutIgnorePendingStylesheets();
RenderView* contentRenderer = mainFrame().contentRenderer();
return contentRenderer ? contentRenderer->pageCount() : 0;
}
void Page::setIsInWindow(bool isInWindow)
{
setActivityState(isInWindow ? m_activityState | ActivityState::IsInWindow : m_activityState - ActivityState::IsInWindow);
}
void Page::setIsInWindowInternal(bool isInWindow)
{
for (Frame* frame = &mainFrame(); frame; frame = frame->tree().traverseNext()) {
if (FrameView* frameView = frame->view())
frameView->setIsInWindow(isInWindow);
}
if (isInWindow)
resumeAnimatingImages();
}
void Page::addActivityStateChangeObserver(ActivityStateChangeObserver& observer)
{
m_activityStateChangeObservers.add(&observer);
}
void Page::removeActivityStateChangeObserver(ActivityStateChangeObserver& observer)
{
m_activityStateChangeObservers.remove(&observer);
}
void Page::layoutIfNeeded()
{
if (FrameView* view = m_mainFrame->view())
view->updateLayoutAndStyleIfNeededRecursive();
}
// https://html.spec.whatwg.org/multipage/webappapis.html#update-the-rendering
void Page::updateRendering()
{
// This function is not reentrant, e.g. a rAF callback may force repaint.
if (m_inUpdateRendering) {
layoutIfNeeded();
return;
}
TraceScope traceScope(RenderingUpdateStart, RenderingUpdateEnd);
SetForScope<bool> change(m_inUpdateRendering, true);
layoutIfNeeded();
// Flush autofocus candidates
forEachDocument([] (Document& document) {
document.runResizeSteps();
});
forEachDocument([] (Document& document) {
document.runScrollSteps();
});
forEachDocument([] (Document& document) {
document.evaluateMediaQueriesAndReportChanges();
});
forEachDocument([] (Document& document) {
DOMHighResTimeStamp timestamp = document.domWindow()->nowTimestamp();
document.updateAnimationsAndSendEvents(timestamp);
// FIXME: Run the fullscreen steps.
document.serviceRequestAnimationFrameCallbacks(timestamp);
});
layoutIfNeeded();
#if ENABLE(INTERSECTION_OBSERVER)
forEachDocument([] (Document& document) {
document.updateIntersectionObservations();
});
#endif
#if ENABLE(RESIZE_OBSERVER)
forEachDocument([&] (Document& document) {
document.updateResizeObservations(*this);
});
#endif
layoutIfNeeded();
}
void Page::suspendScriptedAnimations()
{
m_scriptedAnimationsSuspended = true;
forEachDocument([] (Document& document) {
document.suspendScriptedAnimationControllerCallbacks();
});
}
void Page::resumeScriptedAnimations()
{
m_scriptedAnimationsSuspended = false;
forEachDocument([] (Document& document) {
document.resumeScriptedAnimationControllerCallbacks();
});
}
enum class ThrottlingReasonOperation { Add, Remove };
static void updateScriptedAnimationsThrottlingReason(Page& page, ThrottlingReasonOperation operation, ScriptedAnimationController::ThrottlingReason reason)
{
page.forEachDocument([&] (Document& document) {
if (auto* controller = document.scriptedAnimationController()) {
if (operation == ThrottlingReasonOperation::Add)
controller->addThrottlingReason(reason);
else
controller->removeThrottlingReason(reason);
}
});
}
void Page::setIsVisuallyIdleInternal(bool isVisuallyIdle)
{
updateScriptedAnimationsThrottlingReason(*this, isVisuallyIdle ? ThrottlingReasonOperation::Add : ThrottlingReasonOperation::Remove, ScriptedAnimationController::ThrottlingReason::VisuallyIdle);
}
void Page::handleLowModePowerChange(bool isLowPowerModeEnabled)
{
updateScriptedAnimationsThrottlingReason(*this, isLowPowerModeEnabled ? ThrottlingReasonOperation::Add : ThrottlingReasonOperation::Remove, ScriptedAnimationController::ThrottlingReason::LowPowerMode);
if (RuntimeEnabledFeatures::sharedFeatures().webAnimationsCSSIntegrationEnabled()) {
forEachDocument([] (Document& document) {
if (auto timeline = document.existingTimeline())
timeline->updateThrottlingState();
});
} else
mainFrame().animation().updateThrottlingState();
updateDOMTimerAlignmentInterval();
}
void Page::userStyleSheetLocationChanged()
{
// FIXME: Eventually we will move to a model of just being handed the sheet
// text instead of loading the URL ourselves.
URL url = m_settings->userStyleSheetLocation();
// Allow any local file URL scheme to be loaded.
if (LegacySchemeRegistry::shouldTreatURLSchemeAsLocal(url.protocol().toStringWithoutCopying()))
m_userStyleSheetPath = url.fileSystemPath();
else
m_userStyleSheetPath = String();
m_didLoadUserStyleSheet = false;
m_userStyleSheet = String();
m_userStyleSheetModificationTime = WTF::nullopt;
// Data URLs with base64-encoded UTF-8 style sheets are common. We can process them
// synchronously and avoid using a loader.
if (url.protocolIsData() && url.string().startsWith("data:text/css;charset=utf-8;base64,")) {
m_didLoadUserStyleSheet = true;
Vector<char> styleSheetAsUTF8;
if (base64Decode(decodeURLEscapeSequences(url.string().substring(35)), styleSheetAsUTF8, Base64IgnoreSpacesAndNewLines))
m_userStyleSheet = String::fromUTF8(styleSheetAsUTF8.data(), styleSheetAsUTF8.size());
}
forEachDocument([] (Document& document) {
document.extensionStyleSheets().updatePageUserSheet();
});
}
const String& Page::userStyleSheet() const
{
if (m_userStyleSheetPath.isEmpty())
return m_userStyleSheet;
auto modificationTime = FileSystem::getFileModificationTime(m_userStyleSheetPath);
if (!modificationTime) {
// The stylesheet either doesn't exist, was just deleted, or is
// otherwise unreadable. If we've read the stylesheet before, we should
// throw away that data now as it no longer represents what's on disk.
m_userStyleSheet = String();
return m_userStyleSheet;
}
// If the stylesheet hasn't changed since the last time we read it, we can
// just return the old data.
if (m_didLoadUserStyleSheet && (m_userStyleSheetModificationTime && modificationTime.value() <= m_userStyleSheetModificationTime.value()))
return m_userStyleSheet;
m_didLoadUserStyleSheet = true;
m_userStyleSheet = String();
m_userStyleSheetModificationTime = modificationTime;
// FIXME: It would be better to load this asynchronously to avoid blocking
// the process, but we will first need to create an asynchronous loading
// mechanism that is not tied to a particular Frame. We will also have to
// determine what our behavior should be before the stylesheet is loaded
// and what should happen when it finishes loading, especially with respect
// to when the load event fires, when Document::close is called, and when
// layout/paint are allowed to happen.
auto data = SharedBuffer::createWithContentsOfFile(m_userStyleSheetPath);
if (!data)
return m_userStyleSheet;
m_userStyleSheet = TextResourceDecoder::create("text/css")->decodeAndFlush(data->data(), data->size());
return m_userStyleSheet;
}
void Page::userAgentChanged()
{
for (auto* frame = &m_mainFrame.get(); frame; frame = frame->tree().traverseNext()) {
auto* window = frame->window();
if (!window)
continue;
if (auto* navigator = window->optionalNavigator())
navigator->userAgentChanged();
}
}
void Page::invalidateStylesForAllLinks()
{
forEachDocument([] (Document& document) {
document.visitedLinkState().invalidateStyleForAllLinks();
});
}
void Page::invalidateStylesForLink(SharedStringHash linkHash)
{
forEachDocument([&] (Document& document) {
document.visitedLinkState().invalidateStyleForLink(linkHash);
});
}
void Page::invalidateInjectedStyleSheetCacheInAllFrames()
{
forEachDocument([] (Document& document) {
document.extensionStyleSheets().invalidateInjectedStyleSheetCache();
});
}
void Page::setDebugger(JSC::Debugger* debugger)
{
if (m_debugger == debugger)
return;
m_debugger = debugger;
for (Frame* frame = &m_mainFrame.get(); frame; frame = frame->tree().traverseNext())
frame->windowProxy().attachDebugger(m_debugger);
}
StorageNamespace* Page::sessionStorage(bool optionalCreate)
{
if (!m_sessionStorage && optionalCreate)
m_sessionStorage = m_storageNamespaceProvider->createSessionStorageNamespace(*this, m_settings->sessionStorageQuota());
return m_sessionStorage.get();
}
void Page::setSessionStorage(RefPtr<StorageNamespace>&& newStorage)
{
m_sessionStorage = WTFMove(newStorage);
}
bool Page::hasCustomHTMLTokenizerTimeDelay() const
{
return m_settings->maxParseDuration() != -1;
}
double Page::customHTMLTokenizerTimeDelay() const
{
ASSERT(m_settings->maxParseDuration() != -1);
return m_settings->maxParseDuration();
}
void Page::setMemoryCacheClientCallsEnabled(bool enabled)
{
if (m_areMemoryCacheClientCallsEnabled == enabled)
return;
m_areMemoryCacheClientCallsEnabled = enabled;
if (!enabled)
return;
for (RefPtr<Frame> frame = &mainFrame(); frame; frame = frame->tree().traverseNext())
frame->loader().tellClientAboutPastMemoryCacheLoads();
}
void Page::hiddenPageDOMTimerThrottlingStateChanged()
{
// Disable & reengage to ensure state is updated.
setTimerThrottlingState(TimerThrottlingState::Disabled);
updateTimerThrottlingState();
}
void Page::updateTimerThrottlingState()
{
// Timer throttling disabled if page is visually active, or disabled by setting.
if (!m_settings->hiddenPageDOMTimerThrottlingEnabled() || !(m_activityState & ActivityState::IsVisuallyIdle)) {
setTimerThrottlingState(TimerThrottlingState::Disabled);
return;
}
// If the page is visible (but idle), there is any activity (loading, media playing, etc), or per setting,
// we allow timer throttling, but not increasing timer throttling.
if (!m_settings->hiddenPageDOMTimerThrottlingAutoIncreases()
|| m_activityState.containsAny({ActivityState::IsVisible, ActivityState::IsAudible, ActivityState::IsLoading, ActivityState::IsCapturingMedia })) {
setTimerThrottlingState(TimerThrottlingState::Enabled);
return;
}
// If we get here increasing timer throttling is enabled.
setTimerThrottlingState(TimerThrottlingState::EnabledIncreasing);
}
void Page::setTimerThrottlingState(TimerThrottlingState state)
{
if (state == m_timerThrottlingState)
return;
m_timerThrottlingState = state;
m_timerThrottlingStateLastChangedTime = MonotonicTime::now();
updateDOMTimerAlignmentInterval();
// When throttling is disabled, release all throttled timers.
if (state == TimerThrottlingState::Disabled) {
forEachDocument([] (Document& document) {
document.didChangeTimerAlignmentInterval();
});
}
}
void Page::setDOMTimerAlignmentIntervalIncreaseLimit(Seconds limit)
{
m_domTimerAlignmentIntervalIncreaseLimit = limit;
// If (m_domTimerAlignmentIntervalIncreaseLimit < m_domTimerAlignmentInterval) then we need
// to update m_domTimerAlignmentInterval, if greater then need to restart the increase timer.
if (m_timerThrottlingState == TimerThrottlingState::EnabledIncreasing)
updateDOMTimerAlignmentInterval();
}
void Page::updateDOMTimerAlignmentInterval()
{
bool needsIncreaseTimer = false;
switch (m_timerThrottlingState) {
case TimerThrottlingState::Disabled:
m_domTimerAlignmentInterval = isLowPowerModeEnabled() ? DOMTimer::defaultAlignmentIntervalInLowPowerMode() : DOMTimer::defaultAlignmentInterval();
break;
case TimerThrottlingState::Enabled:
m_domTimerAlignmentInterval = DOMTimer::hiddenPageAlignmentInterval();
break;
case TimerThrottlingState::EnabledIncreasing:
// For pages in prerender state maximum throttling kicks in immediately.
if (m_isPrerender)
m_domTimerAlignmentInterval = m_domTimerAlignmentIntervalIncreaseLimit;
else {
ASSERT(!!m_timerThrottlingStateLastChangedTime);
m_domTimerAlignmentInterval = MonotonicTime::now() - m_timerThrottlingStateLastChangedTime;
// If we're below the limit, set the timer. If above, clamp to limit.
if (m_domTimerAlignmentInterval < m_domTimerAlignmentIntervalIncreaseLimit)
needsIncreaseTimer = true;
else
m_domTimerAlignmentInterval = m_domTimerAlignmentIntervalIncreaseLimit;
}
// Alignment interval should not be less than DOMTimer::hiddenPageAlignmentInterval().
m_domTimerAlignmentInterval = std::max(m_domTimerAlignmentInterval, DOMTimer::hiddenPageAlignmentInterval());
}
// If throttling is enabled, auto-increasing of throttling is enabled, and the auto-increase
// limit has not yet been reached, and then arm the timer to consider an increase. Time to wait
// between increases is equal to the current throttle time. Since alinment interval increases
// exponentially, time between steps is exponential too.
if (!needsIncreaseTimer)
m_domTimerAlignmentIntervalIncreaseTimer.stop();
else if (!m_domTimerAlignmentIntervalIncreaseTimer.isActive())
m_domTimerAlignmentIntervalIncreaseTimer.startOneShot(m_domTimerAlignmentInterval);
}
void Page::domTimerAlignmentIntervalIncreaseTimerFired()
{
ASSERT(m_settings->hiddenPageDOMTimerThrottlingAutoIncreases());
ASSERT(m_timerThrottlingState == TimerThrottlingState::EnabledIncreasing);
ASSERT(m_domTimerAlignmentInterval < m_domTimerAlignmentIntervalIncreaseLimit);
// Alignment interval is increased to equal the time the page has been throttled, to a limit.
updateDOMTimerAlignmentInterval();
}
void Page::dnsPrefetchingStateChanged()
{
forEachDocument([] (Document& document) {
document.initDNSPrefetch();
});
}
Vector<Ref<PluginViewBase>> Page::pluginViews()
{
Vector<Ref<PluginViewBase>> views;
for (Frame* frame = &mainFrame(); frame; frame = frame->tree().traverseNext()) {
auto* view = frame->view();
if (!view)
break;
for (auto& widget : view->children()) {
if (is<PluginViewBase>(widget))
views.append(downcast<PluginViewBase>(widget.get()));
}
}
return views;
}
void Page::storageBlockingStateChanged()
{
forEachDocument([] (Document& document) {
document.storageBlockingStateDidChange();
});
// Collect the PluginViews in to a vector to ensure that action the plug-in takes
// from below storageBlockingStateChanged does not affect their lifetime.
for (auto& view : pluginViews())
view->storageBlockingStateChanged();
}
void Page::updateIsPlayingMedia(uint64_t sourceElementID)
{
MediaProducer::MediaStateFlags state = MediaProducer::IsNotPlaying;
forEachDocument([&] (Document& document) {
state |= document.mediaState();
});
if (state == m_mediaState)
return;
m_mediaState = state;
chrome().client().isPlayingMediaDidChange(state, sourceElementID);
}
void Page::schedulePlaybackControlsManagerUpdate()
{
#if ENABLE(VIDEO)
if (!m_playbackControlsManagerUpdateTimer.isActive())
m_playbackControlsManagerUpdateTimer.startOneShot(0_s);
#endif
}
#if ENABLE(VIDEO)
void Page::playbackControlsManagerUpdateTimerFired()
{
if (auto bestMediaElement = HTMLMediaElement::bestMediaElementForShowingPlaybackControlsManager(MediaElementSession::PlaybackControlsPurpose::ControlsManager))
chrome().client().setUpPlaybackControlsManager(*bestMediaElement);
else
chrome().client().clearPlaybackControlsManager();
}
#endif
void Page::setMuted(MediaProducer::MutedStateFlags muted)
{
if (m_mutedState == muted)
return;
m_mutedState = muted;
forEachDocument([] (Document& document) {
document.pageMutedStateDidChange();
});
}
void Page::stopMediaCapture()
{
#if ENABLE(MEDIA_STREAM)
forEachDocument([] (Document& document) {
document.stopMediaCapture();
});
#endif
}
void Page::stopAllMediaPlayback()
{
#if ENABLE(VIDEO)
forEachDocument([] (Document& document) {
document.stopAllMediaPlayback();
});
#endif
}
void Page::suspendAllMediaPlayback()
{
#if ENABLE(VIDEO)
ASSERT(!m_mediaPlaybackIsSuspended);
if (m_mediaPlaybackIsSuspended)
return;
forEachDocument([] (Document& document) {
document.suspendAllMediaPlayback();
});
m_mediaPlaybackIsSuspended = true;
#endif
}
void Page::resumeAllMediaPlayback()
{
#if ENABLE(VIDEO)
ASSERT(m_mediaPlaybackIsSuspended);
if (!m_mediaPlaybackIsSuspended)
return;
m_mediaPlaybackIsSuspended = false;
forEachDocument([] (Document& document) {
document.resumeAllMediaPlayback();
});
#endif
}
void Page::suspendAllMediaBuffering()
{
#if ENABLE(VIDEO)
ASSERT(!m_mediaBufferingIsSuspended);
if (m_mediaBufferingIsSuspended)
return;
m_mediaBufferingIsSuspended = true;
forEachDocument([] (Document& document) {
document.suspendAllMediaBuffering();
});
#endif
}
void Page::resumeAllMediaBuffering()
{
#if ENABLE(VIDEO)
if (!m_mediaBufferingIsSuspended)
return;
m_mediaBufferingIsSuspended = false;
forEachDocument([] (Document& document) {
document.resumeAllMediaBuffering();
});
#endif
}
#if ENABLE(MEDIA_SESSION)
void Page::handleMediaEvent(MediaEventType eventType)
{
switch (eventType) {
case MediaEventType::PlayPause:
MediaSessionManager::singleton().togglePlayback();
break;
case MediaEventType::TrackNext:
MediaSessionManager::singleton().skipToNextTrack();
break;
case MediaEventType::TrackPrevious:
MediaSessionManager::singleton().skipToPreviousTrack();
break;
}
}
void Page::setVolumeOfMediaElement(double volume, uint64_t elementID)
{
if (HTMLMediaElement* element = HTMLMediaElement::elementWithID(elementID))
element->setVolume(volume, ASSERT_NO_EXCEPTION);
}
#endif
#if ASSERT_ENABLED
void Page::checkSubframeCountConsistency() const
{
ASSERT(m_subframeCount >= 0);
int subframeCount = 0;
for (const Frame* frame = &mainFrame(); frame; frame = frame->tree().traverseNext())
++subframeCount;
ASSERT(m_subframeCount + 1 == subframeCount);
}
#endif // ASSERT_ENABLED
void Page::resumeAnimatingImages()
{
// Drawing models which cache painted content while out-of-window (WebKit2's composited drawing areas, etc.)
// require that we repaint animated images to kickstart the animation loop.
if (FrameView* view = mainFrame().view())
view->resumeVisibleImageAnimationsIncludingSubframes();
}
void Page::setActivityState(OptionSet<ActivityState::Flag> activityState)
{
auto changed = m_activityState ^ activityState;
if (!changed)
return;
auto oldActivityState = m_activityState;
bool wasVisibleAndActive = isVisibleAndActive();
m_activityState = activityState;
m_focusController->setActivityState(activityState);
if (changed & ActivityState::IsVisible)
setIsVisibleInternal(activityState.contains(ActivityState::IsVisible));
if (changed & ActivityState::IsInWindow)
setIsInWindowInternal(activityState.contains(ActivityState::IsInWindow));
if (changed & ActivityState::IsVisuallyIdle)
setIsVisuallyIdleInternal(activityState.contains(ActivityState::IsVisuallyIdle));
if (changed & ActivityState::WindowIsActive) {
if (auto* view = m_mainFrame->view())
view->updateTiledBackingAdaptiveSizing();
}
if (changed.containsAny({ActivityState::IsVisible, ActivityState::IsVisuallyIdle, ActivityState::IsAudible, ActivityState::IsLoading, ActivityState::IsCapturingMedia }))
updateTimerThrottlingState();
for (auto* observer : m_activityStateChangeObservers)
observer->activityStateDidChange(oldActivityState, m_activityState);
if (wasVisibleAndActive != isVisibleAndActive())
PlatformMediaSessionManager::updateNowPlayingInfoIfNecessary();
if (m_performanceMonitor)
m_performanceMonitor->activityStateChanged(oldActivityState, activityState);
}
bool Page::isVisibleAndActive() const
{
return m_activityState.contains(ActivityState::IsVisible) && m_activityState.contains(ActivityState::WindowIsActive);
}
bool Page::isWindowActive() const
{
return m_activityState.contains(ActivityState::WindowIsActive);
}
void Page::setIsVisible(bool isVisible)
{
auto state = m_activityState;
if (isVisible) {
state.remove(ActivityState::IsVisuallyIdle);
state.add({ ActivityState::IsVisible, ActivityState::IsVisibleOrOccluded });
} else {
state.add(ActivityState::IsVisuallyIdle);
state.remove({ ActivityState::IsVisible, ActivityState::IsVisibleOrOccluded });
}
setActivityState(state);
}
void Page::setIsVisibleInternal(bool isVisible)
{
// FIXME: The visibility state should be stored on the top-level document.
// https://bugs.webkit.org/show_bug.cgi?id=116769
if (isVisible) {
m_isPrerender = false;
resumeScriptedAnimations();
#if PLATFORM(IOS_FAMILY)
forEachDocument([] (Document& document) {
document.resumeDeviceMotionAndOrientationUpdates();
});
#endif
if (FrameView* view = mainFrame().view())
view->show();
if (m_settings->hiddenPageCSSAnimationSuspensionEnabled()) {
if (RuntimeEnabledFeatures::sharedFeatures().webAnimationsCSSIntegrationEnabled()) {
forEachDocument([] (Document& document) {
if (auto* timeline = document.existingTimeline())
timeline->resumeAnimations();
});
} else
mainFrame().animation().resumeAnimations();
}
forEachDocument([] (Document& document) {
if (document.svgExtensions())
document.accessSVGExtensions().unpauseAnimations();
});
resumeAnimatingImages();
if (m_navigationToLogWhenVisible) {
logNavigation(m_navigationToLogWhenVisible.value());
m_navigationToLogWhenVisible = WTF::nullopt;
}
}
if (!isVisible) {
if (m_settings->hiddenPageCSSAnimationSuspensionEnabled()) {
if (RuntimeEnabledFeatures::sharedFeatures().webAnimationsCSSIntegrationEnabled()) {
forEachDocument([] (Document& document) {
if (auto* timeline = document.existingTimeline())
timeline->suspendAnimations();
});
} else
mainFrame().animation().suspendAnimations();
}
forEachDocument([] (Document& document) {
if (document.svgExtensions())
document.accessSVGExtensions().pauseAnimations();
});
#if PLATFORM(IOS_FAMILY)
forEachDocument([] (Document& document) {
document.suspendDeviceMotionAndOrientationUpdates();
});
#endif
suspendScriptedAnimations();
if (FrameView* view = mainFrame().view())
view->hide();
}
forEachDocument([] (Document& document) {
document.visibilityStateChanged();
});
}
void Page::setIsPrerender()
{
m_isPrerender = true;
updateDOMTimerAlignmentInterval();
}
VisibilityState Page::visibilityState() const
{
if (isVisible())
return VisibilityState::Visible;
if (m_isPrerender)
return VisibilityState::Prerender;
return VisibilityState::Hidden;
}
void Page::setHeaderHeight(int headerHeight)
{
if (headerHeight == m_headerHeight)
return;
m_headerHeight = headerHeight;
FrameView* frameView = mainFrame().view();
if (!frameView)
return;
RenderView* renderView = frameView->renderView();
if (!renderView)
return;
frameView->setNeedsLayoutAfterViewConfigurationChange();
frameView->setNeedsCompositingGeometryUpdate();
}
void Page::setFooterHeight(int footerHeight)
{
if (footerHeight == m_footerHeight)
return;
m_footerHeight = footerHeight;
FrameView* frameView = mainFrame().view();
if (!frameView)
return;
RenderView* renderView = frameView->renderView();
if (!renderView)
return;
frameView->setNeedsLayoutAfterViewConfigurationChange();
frameView->setNeedsCompositingGeometryUpdate();
}
void Page::incrementNestedRunLoopCount()
{
m_nestedRunLoopCount++;
}
void Page::decrementNestedRunLoopCount()
{
ASSERT(m_nestedRunLoopCount);
if (m_nestedRunLoopCount <= 0)
return;
m_nestedRunLoopCount--;
if (!m_nestedRunLoopCount && m_unnestCallback) {
callOnMainThread([this] {
if (insideNestedRunLoop())
return;
// This callback may destruct the Page.
if (m_unnestCallback) {
auto callback = WTFMove(m_unnestCallback);
callback();
}
});
}
}
void Page::whenUnnested(WTF::Function<void()>&& callback)
{
ASSERT(!m_unnestCallback);
m_unnestCallback = WTFMove(callback);
}
#if ENABLE(REMOTE_INSPECTOR)
bool Page::remoteInspectionAllowed() const
{
return m_inspectorDebuggable->remoteDebuggingAllowed();
}
void Page::setRemoteInspectionAllowed(bool allowed)
{
m_inspectorDebuggable->setRemoteDebuggingAllowed(allowed);
}
String Page::remoteInspectionNameOverride() const
{
return m_inspectorDebuggable->nameOverride();
}
void Page::setRemoteInspectionNameOverride(const String& name)
{
m_inspectorDebuggable->setNameOverride(name);
}
void Page::remoteInspectorInformationDidChange() const
{
m_inspectorDebuggable->update();
}
#endif
void Page::addLayoutMilestones(OptionSet<LayoutMilestone> milestones)
{
// In the future, we may want a function that replaces m_layoutMilestones instead of just adding to it.
m_requestedLayoutMilestones.add(milestones);
}
void Page::removeLayoutMilestones(OptionSet<LayoutMilestone> milestones)
{
m_requestedLayoutMilestones.remove(milestones);
}
Color Page::pageExtendedBackgroundColor() const
{
FrameView* frameView = mainFrame().view();
if (!frameView)
return Color();
RenderView* renderView = frameView->renderView();
if (!renderView)
return Color();
return renderView->compositor().rootExtendedBackgroundColor();
}
// These are magical constants that might be tweaked over time.
static const double gMinimumPaintedAreaRatio = 0.1;
static const double gMaximumUnpaintedAreaRatio = 0.04;
bool Page::isCountingRelevantRepaintedObjects() const
{
return m_isCountingRelevantRepaintedObjects && m_requestedLayoutMilestones.contains(DidHitRelevantRepaintedObjectsAreaThreshold);
}
void Page::startCountingRelevantRepaintedObjects()
{
// Reset everything in case we didn't hit the threshold last time.
resetRelevantPaintedObjectCounter();
m_isCountingRelevantRepaintedObjects = true;
}
void Page::resetRelevantPaintedObjectCounter()
{
m_isCountingRelevantRepaintedObjects = false;
m_relevantUnpaintedRenderObjects.clear();
m_topRelevantPaintedRegion = Region();
m_bottomRelevantPaintedRegion = Region();
m_relevantUnpaintedRegion = Region();
}
static LayoutRect relevantViewRect(RenderView* view)
{
LayoutRect viewRect = view->viewRect();
float relevantViewRectWidth = 980;
#if PLATFORM(WATCHOS)
// FIXME(186051): Consider limiting the relevant rect width to the view width everywhere.
relevantViewRectWidth = std::min<float>(viewRect.width().toFloat(), relevantViewRectWidth);
#endif
// DidHitRelevantRepaintedObjectsAreaThreshold is a LayoutMilestone intended to indicate that
// a certain relevant amount of content has been drawn to the screen. This is the rect that
// has been determined to be relevant in the context of this goal. We may choose to tweak
// the rect over time, much like we may choose to tweak gMinimumPaintedAreaRatio and
// gMaximumUnpaintedAreaRatio. But this seems to work well right now.
LayoutRect relevantViewRect { 0, 0, LayoutUnit(relevantViewRectWidth), 1300 };
// If the viewRect is wider than the relevantViewRect, center the relevantViewRect.
if (viewRect.width() > relevantViewRect.width())
relevantViewRect.setX((viewRect.width() - relevantViewRect.width()) / 2);
return relevantViewRect;
}
void Page::addRelevantRepaintedObject(RenderObject* object, const LayoutRect& objectPaintRect)
{
if (!isCountingRelevantRepaintedObjects())
return;
// Objects inside sub-frames are not considered to be relevant.
if (&object->frame() != &mainFrame())
return;
LayoutRect relevantRect = relevantViewRect(&object->view());
// The objects are only relevant if they are being painted within the viewRect().
if (!objectPaintRect.intersects(snappedIntRect(relevantRect)))
return;
IntRect snappedPaintRect = snappedIntRect(objectPaintRect);
// If this object was previously counted as an unpainted object, remove it from that HashSet
// and corresponding Region. FIXME: This doesn't do the right thing if the objects overlap.
if (m_relevantUnpaintedRenderObjects.remove(object))
m_relevantUnpaintedRegion.subtract(snappedPaintRect);
// Split the relevantRect into a top half and a bottom half. Making sure we have coverage in
// both halves helps to prevent cases where we have a fully loaded menu bar or masthead with
// no content beneath that.
LayoutRect topRelevantRect = relevantRect;
topRelevantRect.contract(LayoutSize(0_lu, relevantRect.height() / 2));
LayoutRect bottomRelevantRect = topRelevantRect;
bottomRelevantRect.setY(relevantRect.height() / 2);
// If the rect straddles both Regions, split it appropriately.
if (topRelevantRect.intersects(snappedPaintRect) && bottomRelevantRect.intersects(snappedPaintRect)) {
IntRect topIntersection = snappedPaintRect;
topIntersection.intersect(snappedIntRect(topRelevantRect));
m_topRelevantPaintedRegion.unite(topIntersection);
IntRect bottomIntersection = snappedPaintRect;
bottomIntersection.intersect(snappedIntRect(bottomRelevantRect));
m_bottomRelevantPaintedRegion.unite(bottomIntersection);
} else if (topRelevantRect.intersects(snappedPaintRect))
m_topRelevantPaintedRegion.unite(snappedPaintRect);
else
m_bottomRelevantPaintedRegion.unite(snappedPaintRect);
float topPaintedArea = m_topRelevantPaintedRegion.totalArea();
float bottomPaintedArea = m_bottomRelevantPaintedRegion.totalArea();
float viewArea = relevantRect.width() * relevantRect.height();
float ratioThatIsPaintedOnTop = topPaintedArea / viewArea;
float ratioThatIsPaintedOnBottom = bottomPaintedArea / viewArea;
float ratioOfViewThatIsUnpainted = m_relevantUnpaintedRegion.totalArea() / viewArea;
if (ratioThatIsPaintedOnTop > (gMinimumPaintedAreaRatio / 2) && ratioThatIsPaintedOnBottom > (gMinimumPaintedAreaRatio / 2)
&& ratioOfViewThatIsUnpainted < gMaximumUnpaintedAreaRatio) {
m_isCountingRelevantRepaintedObjects = false;
resetRelevantPaintedObjectCounter();
if (Frame* frame = &mainFrame())
frame->loader().didReachLayoutMilestone(DidHitRelevantRepaintedObjectsAreaThreshold);
}
}
void Page::addRelevantUnpaintedObject(RenderObject* object, const LayoutRect& objectPaintRect)
{
if (!isCountingRelevantRepaintedObjects())
return;
// The objects are only relevant if they are being painted within the relevantViewRect().
if (!objectPaintRect.intersects(snappedIntRect(relevantViewRect(&object->view()))))
return;
m_relevantUnpaintedRenderObjects.add(object);
m_relevantUnpaintedRegion.unite(snappedIntRect(objectPaintRect));
}
void Page::suspendActiveDOMObjectsAndAnimations()
{
for (Frame* frame = &mainFrame(); frame; frame = frame->tree().traverseNext())
frame->suspendActiveDOMObjectsAndAnimations();
}
void Page::resumeActiveDOMObjectsAndAnimations()
{
for (Frame* frame = &mainFrame(); frame; frame = frame->tree().traverseNext())
frame->resumeActiveDOMObjectsAndAnimations();
resumeAnimatingImages();
}
bool Page::hasSeenAnyPlugin() const
{
return !m_seenPlugins.isEmpty();
}
bool Page::hasSeenPlugin(const String& serviceType) const
{
return m_seenPlugins.contains(serviceType);
}
void Page::sawPlugin(const String& serviceType)
{
m_seenPlugins.add(serviceType);
}
void Page::resetSeenPlugins()
{
m_seenPlugins.clear();
}
bool Page::hasSeenAnyMediaEngine() const
{
return !m_seenMediaEngines.isEmpty();
}
bool Page::hasSeenMediaEngine(const String& engineDescription) const
{
return m_seenMediaEngines.contains(engineDescription);
}
void Page::sawMediaEngine(const String& engineDescription)
{
m_seenMediaEngines.add(engineDescription);
}
void Page::resetSeenMediaEngines()
{
m_seenMediaEngines.clear();
}
void Page::hiddenPageCSSAnimationSuspensionStateChanged()
{
if (!isVisible()) {
if (RuntimeEnabledFeatures::sharedFeatures().webAnimationsCSSIntegrationEnabled()) {
forEachDocument([&] (Document& document) {
if (auto* timeline = document.existingTimeline()) {
if (m_settings->hiddenPageCSSAnimationSuspensionEnabled())
timeline->suspendAnimations();
else
timeline->resumeAnimations();
}
});
} else {
if (m_settings->hiddenPageCSSAnimationSuspensionEnabled())
mainFrame().animation().suspendAnimations();
else
mainFrame().animation().resumeAnimations();
}
}
}
#if ENABLE(VIDEO_TRACK)
void Page::captionPreferencesChanged()
{
forEachDocument([] (Document& document) {
document.captionPreferencesChanged();
});
}
#endif
void Page::forbidPrompts()
{
++m_forbidPromptsDepth;
}
void Page::allowPrompts()
{
ASSERT(m_forbidPromptsDepth);
--m_forbidPromptsDepth;
}
bool Page::arePromptsAllowed()
{
return !m_forbidPromptsDepth;
}
void Page::forbidSynchronousLoads()
{
++m_forbidSynchronousLoadsDepth;
}
void Page::allowSynchronousLoads()
{
ASSERT(m_forbidSynchronousLoadsDepth);
--m_forbidSynchronousLoadsDepth;
}
bool Page::areSynchronousLoadsAllowed()
{
return !m_forbidSynchronousLoadsDepth;
}
void Page::logNavigation(const Navigation& navigation)
{
String navigationDescription;
switch (navigation.type) {
case FrameLoadType::Standard:
navigationDescription = "standard"_s;
break;
case FrameLoadType::Back:
navigationDescription = "back"_s;
break;
case FrameLoadType::Forward:
navigationDescription = "forward"_s;
break;
case FrameLoadType::IndexedBackForward:
navigationDescription = "indexedBackForward"_s;
break;
case FrameLoadType::Reload:
navigationDescription = "reload"_s;
break;
case FrameLoadType::Same:
navigationDescription = "same"_s;
break;
case FrameLoadType::ReloadFromOrigin:
navigationDescription = "reloadFromOrigin"_s;
break;
case FrameLoadType::ReloadExpiredOnly:
navigationDescription = "reloadRevalidatingExpired"_s;
break;
case FrameLoadType::Replace:
case FrameLoadType::RedirectWithLockedBackForwardList:
// Not logging those for now.
return;
}
diagnosticLoggingClient().logDiagnosticMessage(DiagnosticLoggingKeys::navigationKey(), navigationDescription, ShouldSample::No);
if (!navigation.domain.isEmpty())
diagnosticLoggingClient().logDiagnosticMessageWithEnhancedPrivacy(DiagnosticLoggingKeys::domainVisitedKey(), navigation.domain.string(), ShouldSample::Yes);
}
void Page::mainFrameLoadStarted(const URL& destinationURL, FrameLoadType type)
{
Navigation navigation = { RegistrableDomain { destinationURL }, type };
// To avoid being too verbose, we only log navigations if the page is or becomes visible. This avoids logging non-user observable loads.
if (!isVisible()) {
m_navigationToLogWhenVisible = navigation;
return;
}
m_navigationToLogWhenVisible = WTF::nullopt;
logNavigation(navigation);
}
PluginInfoProvider& Page::pluginInfoProvider()
{
return m_pluginInfoProvider;
}
UserContentProvider& Page::userContentProvider()
{
return m_userContentProvider;
}
void Page::setUserContentProvider(Ref<UserContentProvider>&& userContentProvider)
{
m_userContentProvider->removePage(*this);
m_userContentProvider = WTFMove(userContentProvider);
m_userContentProvider->addPage(*this);
invalidateInjectedStyleSheetCacheInAllFrames();
}
VisitedLinkStore& Page::visitedLinkStore()
{
return m_visitedLinkStore;
}
void Page::setVisitedLinkStore(Ref<VisitedLinkStore>&& visitedLinkStore)
{
m_visitedLinkStore->removePage(*this);
m_visitedLinkStore = WTFMove(visitedLinkStore);
m_visitedLinkStore->addPage(*this);
invalidateStylesForAllLinks();
}
PAL::SessionID Page::sessionID() const
{
return m_sessionID;
}
// This is only called by WebKitLegacy.
void Page::setSessionID(PAL::SessionID sessionID)
{
ASSERT(sessionID.isValid());
ASSERT(m_sessionID == PAL::SessionID::legacyPrivateSessionID() || m_sessionID == PAL::SessionID::defaultSessionID());
ASSERT(sessionID == PAL::SessionID::legacyPrivateSessionID() || sessionID == PAL::SessionID::defaultSessionID());
#if ENABLE(INDEXED_DATABASE)
if (sessionID != m_sessionID)
m_idbConnectionToServer = nullptr;
#endif
if (sessionID != m_sessionID && m_sessionStorage)
m_sessionStorage->setSessionIDForTesting(sessionID);
bool privateBrowsingStateChanged = (sessionID.isEphemeral() != m_sessionID.isEphemeral());
m_sessionID = sessionID;
if (!privateBrowsingStateChanged)
return;
forEachDocument([&] (Document& document) {
document.privateBrowsingStateDidChange(m_sessionID);
});
// Collect the PluginViews in to a vector to ensure that action the plug-in takes
// from below privateBrowsingStateChanged does not affect their lifetime.
for (auto& view : pluginViews())
view->privateBrowsingStateChanged(sessionID.isEphemeral());
}
#if ENABLE(WIRELESS_PLAYBACK_TARGET)
void Page::addPlaybackTargetPickerClient(uint64_t contextId)
{
chrome().client().addPlaybackTargetPickerClient(contextId);
}
void Page::removePlaybackTargetPickerClient(uint64_t contextId)
{
chrome().client().removePlaybackTargetPickerClient(contextId);
}
void Page::showPlaybackTargetPicker(uint64_t contextId, const WebCore::IntPoint& location, bool isVideo, RouteSharingPolicy routeSharingPolicy, const String& routingContextUID)
{
#if PLATFORM(IOS_FAMILY)
// FIXME: refactor iOS implementation.
UNUSED_PARAM(contextId);
UNUSED_PARAM(location);
chrome().client().showPlaybackTargetPicker(isVideo, routeSharingPolicy, routingContextUID);
#else
UNUSED_PARAM(routeSharingPolicy);
UNUSED_PARAM(routingContextUID);
chrome().client().showPlaybackTargetPicker(contextId, location, isVideo);
#endif
}
void Page::playbackTargetPickerClientStateDidChange(uint64_t contextId, MediaProducer::MediaStateFlags state)
{
chrome().client().playbackTargetPickerClientStateDidChange(contextId, state);
}
void Page::setMockMediaPlaybackTargetPickerEnabled(bool enabled)
{
chrome().client().setMockMediaPlaybackTargetPickerEnabled(enabled);
}
void Page::setMockMediaPlaybackTargetPickerState(const String& name, MediaPlaybackTargetContext::State state)
{
chrome().client().setMockMediaPlaybackTargetPickerState(name, state);
}
void Page::mockMediaPlaybackTargetPickerDismissPopup()
{
chrome().client().mockMediaPlaybackTargetPickerDismissPopup();
}
void Page::setPlaybackTarget(uint64_t contextId, Ref<MediaPlaybackTarget>&& target)
{
forEachDocument([&] (Document& document) {
document.setPlaybackTarget(contextId, target.copyRef());
});
}
void Page::playbackTargetAvailabilityDidChange(uint64_t contextId, bool available)
{
forEachDocument([&] (Document& document) {
document.playbackTargetAvailabilityDidChange(contextId, available);
});
}
void Page::setShouldPlayToPlaybackTarget(uint64_t clientId, bool shouldPlay)
{
forEachDocument([&] (Document& document) {
document.setShouldPlayToPlaybackTarget(clientId, shouldPlay);
});
}
void Page::playbackTargetPickerWasDismissed(uint64_t clientId)
{
forEachDocument([&] (Document& document) {
document.playbackTargetPickerWasDismissed(clientId);
});
}
#endif
WheelEventTestMonitor& Page::ensureWheelEventTestMonitor()
{
if (!m_wheelEventTestMonitor) {
m_wheelEventTestMonitor = adoptRef(new WheelEventTestMonitor());
// We need to update the scrolling coordinator so that the mainframe scrolling node can expect wheel event test triggers.
if (auto* frameView = mainFrame().view()) {
if (m_scrollingCoordinator)
m_scrollingCoordinator->updateIsMonitoringWheelEventsForFrameView(*frameView);
}
}
return *m_wheelEventTestMonitor;
}
#if ENABLE(VIDEO)
void Page::setAllowsMediaDocumentInlinePlayback(bool flag)
{
if (m_allowsMediaDocumentInlinePlayback == flag)
return;
m_allowsMediaDocumentInlinePlayback = flag;
forEachMediaElement([] (HTMLMediaElement& element) {
element.allowsMediaDocumentInlinePlaybackChanged();
});
}
#endif
#if ENABLE(INDEXED_DATABASE)
IDBClient::IDBConnectionToServer& Page::idbConnection()
{
if (!m_idbConnectionToServer)
m_idbConnectionToServer = &databaseProvider().idbConnectionToServerForSession(m_sessionID);
return *m_idbConnectionToServer;
}
IDBClient::IDBConnectionToServer* Page::optionalIDBConnection()
{
return m_idbConnectionToServer.get();
}
void Page::clearIDBConnection()
{
m_idbConnectionToServer = nullptr;
}
#endif
#if ENABLE(RESOURCE_USAGE)
void Page::setResourceUsageOverlayVisible(bool visible)
{
if (!visible) {
m_resourceUsageOverlay = nullptr;
return;
}
if (!m_resourceUsageOverlay && m_settings->acceleratedCompositingEnabled())
m_resourceUsageOverlay = makeUnique<ResourceUsageOverlay>(*this);
}
#endif
bool Page::isAlwaysOnLoggingAllowed() const
{
return m_sessionID.isAlwaysOnLoggingAllowed();
}
String Page::captionUserPreferencesStyleSheet()
{
return m_captionUserPreferencesStyleSheet;
}
void Page::setCaptionUserPreferencesStyleSheet(const String& styleSheet)
{
if (m_captionUserPreferencesStyleSheet == styleSheet)
return;
m_captionUserPreferencesStyleSheet = styleSheet;
}
void Page::accessibilitySettingsDidChange()
{
forEachDocument([] (auto& document) {
document.styleScope().evaluateMediaQueriesForAccessibilitySettingsChange();
document.updateElementsAffectedByMediaQueries();
document.scheduleTimedRenderingUpdate();
});
}
void Page::appearanceDidChange()
{
forEachDocument([] (auto& document) {
document.styleScope().didChangeStyleSheetEnvironment();
document.styleScope().evaluateMediaQueriesForAppearanceChange();
document.updateElementsAffectedByMediaQueries();
document.scheduleTimedRenderingUpdate();
});
}
void Page::setUnobscuredSafeAreaInsets(const FloatBoxExtent& insets)
{
if (m_unobscuredSafeAreaInsets == insets)
return;
m_unobscuredSafeAreaInsets = insets;
forEachDocument([&] (Document& document) {
document.constantProperties().didChangeSafeAreaInsets();
});
}
void Page::setUseSystemAppearance(bool value)
{
if (m_useSystemAppearance == value)
return;
m_useSystemAppearance = value;
appearanceDidChange();
forEachDocument([&] (Document& document) {
// System apperance change may affect stylesheet parsing. We need to reparse.
document.extensionStyleSheets().clearPageUserSheet();
document.extensionStyleSheets().invalidateInjectedStyleSheetCache();
});
}
void Page::effectiveAppearanceDidChange(bool useDarkAppearance, bool useElevatedUserInterfaceLevel)
{
#if HAVE(OS_DARK_MODE_SUPPORT)
if (m_useDarkAppearance == useDarkAppearance && m_useElevatedUserInterfaceLevel == useElevatedUserInterfaceLevel)
return;
m_useDarkAppearance = useDarkAppearance;
m_useElevatedUserInterfaceLevel = useElevatedUserInterfaceLevel;
InspectorInstrumentation::defaultAppearanceDidChange(*this, useDarkAppearance);
appearanceDidChange();
#else
UNUSED_PARAM(useDarkAppearance);
if (m_useElevatedUserInterfaceLevel == useElevatedUserInterfaceLevel)
return;
m_useElevatedUserInterfaceLevel = useElevatedUserInterfaceLevel;
appearanceDidChange();
#endif
}
bool Page::useDarkAppearance() const
{
#if HAVE(OS_DARK_MODE_SUPPORT)
FrameView* view = mainFrame().view();
if (!view || !equalLettersIgnoringASCIICase(view->mediaType(), "screen"))
return false;
if (m_useDarkAppearanceOverride)
return m_useDarkAppearanceOverride.value();
return m_useDarkAppearance;
#else
return false;
#endif
}
void Page::setUseDarkAppearanceOverride(Optional<bool> valueOverride)
{
#if HAVE(OS_DARK_MODE_SUPPORT)
if (valueOverride == m_useDarkAppearanceOverride)
return;
m_useDarkAppearanceOverride = valueOverride;
appearanceDidChange();
#else
UNUSED_PARAM(valueOverride);
#endif
}
void Page::setFullscreenInsets(const FloatBoxExtent& insets)
{
if (insets == m_fullscreenInsets)
return;
m_fullscreenInsets = insets;
forEachDocument([] (Document& document) {
document.constantProperties().didChangeFullscreenInsets();
});
}
void Page::setFullscreenAutoHideDuration(Seconds duration)
{
if (duration == m_fullscreenAutoHideDuration)
return;
m_fullscreenAutoHideDuration = duration;
forEachDocument([&] (Document& document) {
document.constantProperties().setFullscreenAutoHideDuration(duration);
});
}
void Page::setFullscreenControlsHidden(bool hidden)
{
#if ENABLE(FULLSCREEN_API)
forEachDocument([&] (Document& document) {
document.fullscreenManager().setFullscreenControlsHidden(hidden);
});
#else
UNUSED_PARAM(hidden);
#endif
}
#if ENABLE(DATA_INTERACTION)
bool Page::hasSelectionAtPosition(const FloatPoint& position) const
{
auto currentSelection = m_mainFrame->selection().selection();
if (!currentSelection.isRange())
return false;
if (auto selectedRange = currentSelection.toNormalizedRange()) {
Vector<SelectionRect> selectionRects;
selectedRange->collectSelectionRects(selectionRects);
for (auto selectionRect : selectionRects) {
if (FloatRect(selectionRect.rect()).contains(position))
return true;
}
}
return false;
}
#endif
void Page::disableICECandidateFiltering()
{
m_shouldEnableICECandidateFilteringByDefault = false;
#if ENABLE(WEB_RTC)
m_rtcController.disableICECandidateFilteringForAllOrigins();
#endif
}
void Page::enableICECandidateFiltering()
{
m_shouldEnableICECandidateFilteringByDefault = true;
#if ENABLE(WEB_RTC)
m_rtcController.enableICECandidateFiltering();
#endif
}
void Page::didChangeMainDocument()
{
#if ENABLE(WEB_RTC)
m_rtcController.reset(m_shouldEnableICECandidateFilteringByDefault);
#endif
#if ENABLE(POINTER_EVENTS)
m_pointerCaptureController->reset();
#endif
}
RenderingUpdateScheduler& Page::renderingUpdateScheduler()
{
if (!m_renderingUpdateScheduler)
m_renderingUpdateScheduler = RenderingUpdateScheduler::create(*this);
return *m_renderingUpdateScheduler;
}
void Page::forEachDocument(const Function<void(Document&)>& functor) const
{
Vector<Ref<Document>> documents;
for (auto* frame = &mainFrame(); frame; frame = frame->tree().traverseNext()) {
auto* document = frame->document();
if (!document)
continue;
documents.append(*document);
}
for (auto& document : documents)
functor(document);
}
void Page::forEachMediaElement(const Function<void(HTMLMediaElement&)>& functor)
{
forEachDocument([&] (Document& document) {
document.forEachMediaElement(functor);
});
}
void Page::applicationWillResignActive()
{
#if ENABLE(VIDEO)
forEachMediaElement([] (HTMLMediaElement& element) {
element.applicationWillResignActive();
});
#endif
}
void Page::applicationDidEnterBackground()
{
m_libWebRTCProvider->setActive(false);
}
void Page::applicationWillEnterForeground()
{
m_libWebRTCProvider->setActive(true);
}
void Page::applicationDidBecomeActive()
{
#if ENABLE(VIDEO)
forEachMediaElement([] (HTMLMediaElement& element) {
element.applicationDidBecomeActive();
});
#endif
}
#if PLATFORM(MAC)
ScrollLatchingState* Page::latchingState()
{
if (m_latchingState.isEmpty())
return nullptr;
return &m_latchingState.last();
}
void Page::pushNewLatchingState()
{
m_latchingState.append(ScrollLatchingState());
}
void Page::resetLatchingState()
{
m_latchingState.clear();
}
void Page::popLatchingState()
{
m_latchingState.removeLast();
}
void Page::removeLatchingStateForTarget(Element& targetNode)
{
if (m_latchingState.isEmpty())
return;
m_latchingState.removeAllMatching([&targetNode] (ScrollLatchingState& state) {
auto* wheelElement = state.wheelEventElement();
if (!wheelElement)
return false;
return targetNode.isEqualNode(wheelElement);
});
}
#endif // PLATFORM(MAC)
static void dispatchPrintEvent(Frame& mainFrame, const AtomString& eventType)
{
Vector<Ref<Frame>> frames;
for (auto* frame = &mainFrame; frame; frame = frame->tree().traverseNext())
frames.append(*frame);
for (auto& frame : frames) {
if (auto* window = frame->window())
window->dispatchEvent(Event::create(eventType, Event::CanBubble::No, Event::IsCancelable::No), window->document());
}
}
void Page::dispatchBeforePrintEvent()
{
dispatchPrintEvent(m_mainFrame, eventNames().beforeprintEvent);
}
void Page::dispatchAfterPrintEvent()
{
dispatchPrintEvent(m_mainFrame, eventNames().afterprintEvent);
}
#if ENABLE(APPLE_PAY)
void Page::setPaymentCoordinator(std::unique_ptr<PaymentCoordinator>&& paymentCoordinator)
{
m_paymentCoordinator = WTFMove(paymentCoordinator);
}
#endif
void Page::configureLoggingChannel(const String& channelName, WTFLogChannelState state, WTFLogLevel level)
{
#if !RELEASE_LOG_DISABLED
if (auto* channel = getLogChannel(channelName)) {
channel->state = state;
channel->level = level;
#if USE(LIBWEBRTC)
if (channel == &LogWebRTC && m_mainFrame->document())
libWebRTCProvider().setEnableLogging(!sessionID().isEphemeral());
#endif
}
chrome().client().configureLoggingChannel(channelName, state, level);
#else
UNUSED_PARAM(channelName);
UNUSED_PARAM(state);
UNUSED_PARAM(level);
#endif
}
void Page::didFinishLoadingImageForElement(HTMLImageElement& element)
{
auto protectedElement = makeRef(element);
if (auto frame = makeRefPtr(element.document().frame()))
frame->editor().revealSelectionIfNeededAfterLoadingImageForElement(element);
chrome().client().didFinishLoadingImageForElement(element);
}
#if ENABLE(TEXT_AUTOSIZING)
void Page::recomputeTextAutoSizingInAllFrames()
{
ASSERT(settings().textAutosizingEnabled() && settings().textAutosizingUsesIdempotentMode());
forEachDocument([] (Document& document) {
if (auto* renderView = document.renderView()) {
for (auto& renderer : descendantsOfType<RenderElement>(*renderView)) {
if (auto* element = renderer.element()) {
if (Style::Adjuster::adjustForTextAutosizing(renderer.mutableStyle(), *element))
renderer.setNeedsLayout();
}
}
}
});
}
#endif
bool Page::shouldDisableCorsForRequestTo(const URL& url) const
{
return WTF::anyOf(m_corsDisablingPatterns, [&] (const auto& pattern) {
return pattern.matches(url);
});
}
} // namespace WebCore