/* * Copyright (C) 1999 Lars Knoll (knoll@kde.org) * (C) 1999 Antti Koivisto (koivisto@kde.org) * (C) 2001 Dirk Mueller (mueller@kde.org) * (C) 2006 Alexey Proskuryakov (ap@webkit.org) * Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009, 2011, 2012 Apple Inc. All rights reserved. * Copyright (C) 2008, 2009 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/) * Copyright (C) 2008, 2009, 2011, 2012 Google Inc. All rights reserved. * Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies) * Copyright (C) Research In Motion Limited 2010-2011. All rights reserved. * * 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 "core/dom/Document.h" #include "HTMLElementFactory.h" #include "HTMLNames.h" #include "RuntimeEnabledFeatures.h" #include "SVGElementFactory.h" #include "SVGNames.h" #include "XMLNSNames.h" #include "XMLNames.h" #include "bindings/v8/CustomElementConstructorBuilder.h" #include "bindings/v8/Dictionary.h" #include "bindings/v8/ExceptionState.h" #include "bindings/v8/ExceptionStatePlaceholder.h" #include "bindings/v8/ScriptController.h" #include "core/accessibility/AXObjectCache.h" #include "core/animation/DocumentTimeline.h" #include "core/css/CSSStyleDeclaration.h" #include "core/css/CSSStyleSheet.h" #include "core/css/FontLoader.h" #include "core/css/MediaQueryMatcher.h" #include "core/css/StylePropertySet.h" #include "core/css/StyleSheetContents.h" #include "core/css/StyleSheetList.h" #include "core/css/resolver/StyleResolver.h" #include "core/dom/Attr.h" #include "core/dom/BeforeUnloadEvent.h" #include "core/dom/CDATASection.h" #include "core/dom/Comment.h" #include "core/dom/ContextFeatures.h" #include "core/dom/CustomElement.h" #include "core/dom/CustomElementRegistrationContext.h" #include "core/dom/DOMImplementation.h" #include "core/dom/DOMNamedFlowCollection.h" #include "core/dom/DocumentEventQueue.h" #include "core/dom/DocumentFragment.h" #include "core/dom/DocumentLifecycleObserver.h" #include "core/dom/DocumentMarkerController.h" #include "core/dom/DocumentSharedObjectPool.h" #include "core/dom/DocumentStyleSheetCollection.h" #include "core/dom/DocumentType.h" #include "core/dom/Element.h" #include "core/dom/Event.h" #include "core/dom/EventFactory.h" #include "core/dom/EventListener.h" #include "core/dom/EventNames.h" #include "core/dom/ExceptionCode.h" #include "core/dom/HashChangeEvent.h" #include "core/dom/NamedFlowCollection.h" #include "core/dom/NodeFilter.h" #include "core/dom/NodeIterator.h" #include "core/dom/NodeRareData.h" #include "core/dom/NodeRenderingTraversal.h" #include "core/dom/NodeTraversal.h" #include "core/dom/NodeWithIndex.h" #include "core/dom/PageTransitionEvent.h" #include "core/dom/PopStateEvent.h" #include "core/dom/ProcessingInstruction.h" #include "core/dom/QualifiedName.h" #include "core/dom/RequestAnimationFrameCallback.h" #include "core/dom/ScopedEventQueue.h" #include "core/dom/ScriptRunner.h" #include "core/dom/ScriptedAnimationController.h" #include "core/dom/SelectorQuery.h" #include "core/dom/TouchList.h" #include "core/dom/TransformSource.h" #include "core/dom/TreeWalker.h" #include "core/dom/UserActionElementSet.h" #include "core/dom/VisitedLinkState.h" #include "core/dom/shadow/ElementShadow.h" #include "core/dom/shadow/ShadowRoot.h" #include "core/editing/Editor.h" #include "core/editing/FrameSelection.h" #include "core/fetch/ResourceFetcher.h" #include "core/html/FormController.h" #include "core/html/HTMLAllCollection.h" #include "core/html/HTMLAnchorElement.h" #include "core/html/HTMLCanvasElement.h" #include "core/html/HTMLCollection.h" #include "core/html/HTMLDocument.h" #include "core/html/HTMLFrameOwnerElement.h" #include "core/html/HTMLHeadElement.h" #include "core/html/HTMLHtmlElement.h" #include "core/html/HTMLIFrameElement.h" #include "core/html/HTMLImport.h" #include "core/html/HTMLInputElement.h" #include "core/html/HTMLLinkElement.h" #include "core/html/HTMLNameCollection.h" #include "core/html/HTMLScriptElement.h" #include "core/html/HTMLStyleElement.h" #include "core/html/HTMLTitleElement.h" #include "core/html/PluginDocument.h" #include "core/html/parser/HTMLDocumentParser.h" #include "core/html/parser/HTMLParserIdioms.h" #include "core/html/parser/NestingLevelIncrementer.h" #include "core/inspector/InspectorCounters.h" #include "core/inspector/InspectorInstrumentation.h" #include "core/inspector/ScriptCallStack.h" #include "core/loader/CookieJar.h" #include "core/loader/DocumentLoader.h" #include "core/loader/FrameLoader.h" #include "core/loader/FrameLoaderClient.h" #include "core/loader/ImageLoader.h" #include "core/loader/Prerenderer.h" #include "core/loader/TextResourceDecoder.h" #include "core/loader/appcache/ApplicationCacheHost.h" #include "core/page/Chrome.h" #include "core/page/ChromeClient.h" #include "core/page/ContentSecurityPolicy.h" #include "core/page/DOMSecurityPolicy.h" #include "core/page/DOMWindow.h" #include "core/page/EventHandler.h" #include "core/page/Frame.h" #include "core/page/FrameTree.h" #include "core/page/FrameView.h" #include "core/page/History.h" #include "core/page/MouseEventWithHitTestResults.h" #include "core/page/Page.h" #include "core/page/PageConsole.h" #include "core/page/PointerLockController.h" #include "core/page/Settings.h" #include "core/page/animation/AnimationController.h" #include "core/page/scrolling/ScrollingCoordinator.h" #include "core/platform/DateComponents.h" #include "core/platform/HistogramSupport.h" #include "core/platform/Language.h" #include "core/platform/Timer.h" #include "core/platform/chromium/TraceEvent.h" #include "core/platform/network/HTTPParsers.h" #include "core/platform/text/PlatformLocale.h" #include "core/platform/text/SegmentedString.h" #include "core/rendering/HitTestRequest.h" #include "core/rendering/HitTestResult.h" #include "core/rendering/RenderView.h" #include "core/rendering/RenderWidget.h" #include "core/rendering/TextAutosizer.h" #include "core/svg/SVGDocumentExtensions.h" #include "core/svg/SVGStyleElement.h" #include "core/workers/SharedWorkerRepository.h" #include "core/xml/XSLTProcessor.h" #include "core/xml/parser/XMLDocumentParser.h" #include "weborigin/SchemeRegistry.h" #include "weborigin/SecurityOrigin.h" #include "wtf/CurrentTime.h" #include "wtf/HashFunctions.h" #include "wtf/MainThread.h" #include "wtf/PassRefPtr.h" #include "wtf/StdLibExtras.h" #include "wtf/UnusedParam.h" #include "wtf/text/StringBuffer.h" using namespace std; using namespace WTF; using namespace Unicode; namespace WebCore { using namespace HTMLNames; static const double cDefaultIncrementalRenderingSuppressionTimeoutInSeconds = 5; static const unsigned cMaxWriteRecursionDepth = 21; // This amount of time must have elapsed before we will even consider scheduling a layout without a delay. // FIXME: For faster machines this value can really be lowered to 200. 250 is adequate, but a little high // for dual G5s. :) static const int cLayoutScheduleThreshold = 250; // DOM Level 2 says (letters added): // // a) Name start characters must have one of the categories Ll, Lu, Lo, Lt, Nl. // b) Name characters other than Name-start characters must have one of the categories Mc, Me, Mn, Lm, or Nd. // c) Characters in the compatibility area (i.e. with character code greater than #xF900 and less than #xFFFE) are not allowed in XML names. // d) Characters which have a font or compatibility decomposition (i.e. those with a "compatibility formatting tag" in field 5 of the database -- marked by field 5 beginning with a "<") are not allowed. // e) The following characters are treated as name-start characters rather than name characters, because the property file classifies them as Alphabetic: [#x02BB-#x02C1], #x0559, #x06E5, #x06E6. // f) Characters #x20DD-#x20E0 are excluded (in accordance with Unicode, section 5.14). // g) Character #x00B7 is classified as an extender, because the property list so identifies it. // h) Character #x0387 is added as a name character, because #x00B7 is its canonical equivalent. // i) Characters ':' and '_' are allowed as name-start characters. // j) Characters '-' and '.' are allowed as name characters. // // It also contains complete tables. If we decide it's better, we could include those instead of the following code. static inline bool isValidNameStart(UChar32 c) { // rule (e) above if ((c >= 0x02BB && c <= 0x02C1) || c == 0x559 || c == 0x6E5 || c == 0x6E6) return true; // rule (i) above if (c == ':' || c == '_') return true; // rules (a) and (f) above const uint32_t nameStartMask = Letter_Lowercase | Letter_Uppercase | Letter_Other | Letter_Titlecase | Number_Letter; if (!(Unicode::category(c) & nameStartMask)) return false; // rule (c) above if (c >= 0xF900 && c < 0xFFFE) return false; // rule (d) above DecompositionType decompType = decompositionType(c); if (decompType == DecompositionFont || decompType == DecompositionCompat) return false; return true; } static inline bool isValidNamePart(UChar32 c) { // rules (a), (e), and (i) above if (isValidNameStart(c)) return true; // rules (g) and (h) above if (c == 0x00B7 || c == 0x0387) return true; // rule (j) above if (c == '-' || c == '.') return true; // rules (b) and (f) above const uint32_t otherNamePartMask = Mark_NonSpacing | Mark_Enclosing | Mark_SpacingCombining | Letter_Modifier | Number_DecimalDigit; if (!(Unicode::category(c) & otherNamePartMask)) return false; // rule (c) above if (c >= 0xF900 && c < 0xFFFE) return false; // rule (d) above DecompositionType decompType = decompositionType(c); if (decompType == DecompositionFont || decompType == DecompositionCompat) return false; return true; } static bool shouldInheritSecurityOriginFromOwner(const KURL& url) { // http://www.whatwg.org/specs/web-apps/current-work/#origin-0 // // If a Document has the address "about:blank" // The origin of the Document is the origin it was assigned when its browsing context was created. // // Note: We generalize this to all "blank" URLs and invalid URLs because we // treat all of these URLs as about:blank. // return url.isEmpty() || url.isBlankURL(); } static Widget* widgetForElement(Element* focusedElement) { if (!focusedElement) return 0; RenderObject* renderer = focusedElement->renderer(); if (!renderer || !renderer->isWidget()) return 0; return toRenderWidget(renderer)->widget(); } static bool acceptsEditingFocus(Element* element) { ASSERT(element); ASSERT(element->rendererIsEditable()); Element* root = element->rootEditableElement(); Frame* frame = element->document()->frame(); if (!frame || !root) return false; return frame->editor()->shouldBeginEditing(rangeOfContents(root).get()); } static bool canAccessAncestor(const SecurityOrigin* activeSecurityOrigin, Frame* targetFrame) { // targetFrame can be 0 when we're trying to navigate a top-level frame // that has a 0 opener. if (!targetFrame) return false; const bool isLocalActiveOrigin = activeSecurityOrigin->isLocal(); for (Frame* ancestorFrame = targetFrame; ancestorFrame; ancestorFrame = ancestorFrame->tree()->parent()) { Document* ancestorDocument = ancestorFrame->document(); // FIXME: Should be an ASSERT? Frames should alway have documents. if (!ancestorDocument) return true; const SecurityOrigin* ancestorSecurityOrigin = ancestorDocument->securityOrigin(); if (activeSecurityOrigin->canAccess(ancestorSecurityOrigin)) return true; // Allow file URL descendant navigation even when allowFileAccessFromFileURLs is false. // FIXME: It's a bit strange to special-case local origins here. Should we be doing // something more general instead? if (isLocalActiveOrigin && ancestorSecurityOrigin->isLocal()) return true; } return false; } static void printNavigationErrorMessage(Frame* frame, const KURL& activeURL, const char* reason) { String message = "Unsafe JavaScript attempt to initiate navigation for frame with URL '" + frame->document()->url().string() + "' from frame with URL '" + activeURL.string() + "'. " + reason + "\n"; // FIXME: should we print to the console of the document performing the navigation instead? frame->domWindow()->printErrorMessage(message); } uint64_t Document::s_globalTreeVersion = 0; // This class should be passed only to Document::postTask. class CheckFocusedElementTask FINAL : public ScriptExecutionContext::Task { public: static PassOwnPtr create() { return adoptPtr(new CheckFocusedElementTask()); } virtual ~CheckFocusedElementTask() { } private: CheckFocusedElementTask() { } virtual void performTask(ScriptExecutionContext* context) OVERRIDE { ASSERT(context->isDocument()); Document* document = toDocument(context); document->didRunCheckFocusedElementTask(); Element* element = document->focusedElement(); if (!element) return; if (document->childNeedsStyleRecalc()) { document->setNeedsFocusedElementCheck(); return; } if (element->renderer() && element->renderer()->needsLayout()) return; if (!element->isFocusable()) document->setFocusedElement(0); } }; Document::Document(const DocumentInit& initializer, DocumentClassFlags documentClasses) : ContainerNode(0, CreateDocument) , TreeScope(this) , m_styleResolverThrowawayTimer(this, &Document::styleResolverThrowawayTimerFired) , m_lastStyleResolverAccessTime(0) , m_didCalculateStyleResolver(false) , m_ignorePendingStylesheets(false) , m_needsNotifyRemoveAllPendingStylesheet(false) , m_hasNodesWithPlaceholderStyle(false) , m_pendingSheetLayout(NoLayoutWithPendingSheets) , m_frame(initializer.frame()) , m_domWindow(0) , m_import(initializer.import()) , m_activeParserCount(0) , m_contextFeatures(ContextFeatures::defaultSwitch()) , m_wellFormed(false) , m_printing(false) , m_paginatedForScreen(false) , m_ignoreAutofocus(false) , m_compatibilityMode(NoQuirksMode) , m_compatibilityModeLocked(false) , m_didPostCheckFocusedElementTask(false) , m_domTreeVersion(++s_globalTreeVersion) , m_listenerTypes(0) , m_mutationObserverTypes(0) , m_styleSheetCollection(DocumentStyleSheetCollection::create(this)) , m_visitedLinkState(VisitedLinkState::create(this)) , m_visuallyOrdered(false) , m_readyState(Complete) , m_bParsing(false) , m_styleRecalcTimer(this, &Document::styleRecalcTimerFired) , m_inStyleRecalc(false) , m_closeAfterStyleRecalc(false) , m_gotoAnchorNeededAfterStylesheetsLoad(false) , m_containsValidityStyleRules(false) , m_updateFocusAppearanceRestoresSelection(false) , m_ignoreDestructiveWriteCount(0) , m_titleSetExplicitly(false) , m_markers(adoptPtr(new DocumentMarkerController)) , m_updateFocusAppearanceTimer(this, &Document::updateFocusAppearanceTimerFired) , m_cssTarget(0) , m_loadEventProgress(LoadEventNotRun) , m_startTime(currentTime()) , m_overMinimumLayoutThreshold(false) , m_scriptRunner(ScriptRunner::create(this)) , m_xmlVersion("1.0") , m_xmlStandalone(StandaloneUnspecified) , m_hasXMLDeclaration(0) , m_designMode(inherit) , m_hasAnnotatedRegions(false) , m_annotatedRegionsDirty(false) , m_useSecureKeyboardEntryWhenActive(false) , m_documentClasses(documentClasses) , m_isViewSource(false) , m_sawElementsInKnownNamespaces(false) , m_isSrcdocDocument(false) , m_renderer(0) , m_eventQueue(DocumentEventQueue::create(this)) , m_weakFactory(this) , m_idAttributeName(idAttr) , m_hasFullscreenElementStack(false) , m_loadEventDelayCount(0) , m_loadEventDelayTimer(this, &Document::loadEventDelayTimerFired) , m_referrerPolicy(ReferrerPolicyDefault) , m_directionSetOnDocumentElement(false) , m_writingModeSetOnDocumentElement(false) , m_didAllowNavigationViaBeforeUnloadConfirmationPanel(false) , m_writeRecursionIsTooDeep(false) , m_writeRecursionDepth(0) , m_wheelEventHandlerCount(0) , m_lastHandledUserGestureTimestamp(0) , m_prerenderer(Prerenderer::create(this)) , m_textAutosizer(TextAutosizer::create(this)) , m_registrationContext(initializer.registrationContext(this)) , m_pendingTasksTimer(this, &Document::pendingTasksTimerFired) , m_scheduledTasksAreSuspended(false) , m_sharedObjectPoolClearTimer(this, &Document::sharedObjectPoolClearTimerFired) #ifndef NDEBUG , m_didDispatchViewportPropertiesChanged(false) #endif , m_timeline(DocumentTimeline::create(this)) , m_templateDocumentHost(0) , m_fontloader(0) , m_didAssociateFormControlsTimer(this, &Document::didAssociateFormControlsTimerFired) { ScriptWrappable::init(this); if (m_frame) { provideContextFeaturesToDocumentFrom(this, m_frame->page()); m_fetcher = m_frame->loader()->activeDocumentLoader()->fetcher(); } if (!m_fetcher) m_fetcher = ResourceFetcher::create(0); m_fetcher->setDocument(this); // We depend on the url getting immediately set in subframes, but we // also depend on the url NOT getting immediately set in opened windows. // See fast/dom/early-frame-url.html // and fast/dom/location-new-window-no-crash.html, respectively. // FIXME: Can/should we unify this behavior? if (initializer.shouldSetURL()) setURL(initializer.url()); initSecurityContext(initializer); initDNSPrefetch(); for (unsigned i = 0; i < WTF_ARRAY_LENGTH(m_nodeListCounts); i++) m_nodeListCounts[i] = 0; InspectorCounters::incrementCounter(InspectorCounters::DocumentCounter); } static void histogramMutationEventUsage(const unsigned short& listenerTypes) { HistogramSupport::histogramEnumeration("DOMAPI.PerDocumentMutationEventUsage.DOMSubtreeModified", static_cast(listenerTypes & Document::DOMSUBTREEMODIFIED_LISTENER), 2); HistogramSupport::histogramEnumeration("DOMAPI.PerDocumentMutationEventUsage.DOMNodeInserted", static_cast(listenerTypes & Document::DOMNODEINSERTED_LISTENER), 2); HistogramSupport::histogramEnumeration("DOMAPI.PerDocumentMutationEventUsage.DOMNodeRemoved", static_cast(listenerTypes & Document::DOMNODEREMOVED_LISTENER), 2); HistogramSupport::histogramEnumeration("DOMAPI.PerDocumentMutationEventUsage.DOMNodeRemovedFromDocument", static_cast(listenerTypes & Document::DOMNODEREMOVEDFROMDOCUMENT_LISTENER), 2); HistogramSupport::histogramEnumeration("DOMAPI.PerDocumentMutationEventUsage.DOMNodeInsertedIntoDocument", static_cast(listenerTypes & Document::DOMNODEINSERTEDINTODOCUMENT_LISTENER), 2); HistogramSupport::histogramEnumeration("DOMAPI.PerDocumentMutationEventUsage.DOMCharacterDataModified", static_cast(listenerTypes & Document::DOMCHARACTERDATAMODIFIED_LISTENER), 2); } static bool isAttributeOnAllOwners(const WebCore::QualifiedName& attribute, const WebCore::QualifiedName& prefixedAttribute, const HTMLFrameOwnerElement* owner) { if (!owner) return true; do { if (!(owner->hasAttribute(attribute) || owner->hasAttribute(prefixedAttribute))) return false; } while ((owner = owner->document()->ownerElement())); return true; } Document::~Document() { ASSERT(!renderer()); ASSERT(m_ranges.isEmpty()); ASSERT(!m_parentTreeScope); ASSERT(!hasGuardRefCount()); if (m_templateDocument) m_templateDocument->setTemplateDocumentHost(0); // balanced in templateDocument(). if (Document* ownerDocument = this->ownerDocument()) ownerDocument->didRemoveEventTargetNode(this); m_scriptRunner.clear(); histogramMutationEventUsage(m_listenerTypes); removeAllEventListeners(); // Currently we believe that Document can never outlive the parser. // Although the Document may be replaced synchronously, DocumentParsers // generally keep at least one reference to an Element which would in turn // has a reference to the Document. If you hit this ASSERT, then that // assumption is wrong. DocumentParser::detach() should ensure that even // if the DocumentParser outlives the Document it won't cause badness. ASSERT(!m_parser || m_parser->refCount() == 1); detachParser(); if (this == topDocument()) clearAXObjectCache(); m_decoder = 0; if (m_styleSheetList) m_styleSheetList->detachFromDocument(); if (m_import) { m_import->wasDetachedFromDocument(); m_import = 0; } m_styleSheetCollection.clear(); if (m_elemSheet) m_elemSheet->clearOwnerNode(); clearStyleResolver(); // We need to destory CSSFontSelector before destroying m_fetcher. // It's possible for multiple Documents to end up referencing the same ResourceFetcher (e.g., SVGImages // load the initial empty document and the SVGDocument with the same DocumentLoader). if (m_fetcher->document() == this) m_fetcher->setDocument(0); m_fetcher.clear(); // We must call clearRareData() here since a Document class inherits TreeScope // as well as Node. See a comment on TreeScope.h for the reason. if (hasRareData()) clearRareData(); ASSERT(!m_listsInvalidatedAtDocument.size()); for (unsigned i = 0; i < WTF_ARRAY_LENGTH(m_nodeListCounts); i++) ASSERT(!m_nodeListCounts[i]); clearDocumentScope(); InspectorCounters::decrementCounter(InspectorCounters::DocumentCounter); } void Document::dispose() { ASSERT(!m_deletionHasBegun); // We must make sure not to be retaining any of our children through // these extra pointers or we will create a reference cycle. m_docType = 0; m_focusedElement = 0; m_hoverNode = 0; m_activeElement = 0; m_titleElement = 0; m_documentElement = 0; m_contextFeatures = ContextFeatures::defaultSwitch(); m_userActionElements.documentDidRemoveLastRef(); detachParser(); m_registrationContext.clear(); if (m_import) { m_import->wasDetachedFromDocument(); m_import = 0; } // removeDetachedChildren() doesn't always unregister IDs, // so tear down scope information upfront to avoid having stale references in the map. destroyTreeScopeData(); removeDetachedChildren(); // removeDetachedChildren() can access FormController. m_formController.clear(); m_markers->detach(); m_cssCanvasElements.clear(); // FIXME: consider using ActiveDOMObject. if (m_scriptedAnimationController) m_scriptedAnimationController->clearDocumentPointer(); m_scriptedAnimationController.clear(); if (svgExtensions()) accessSVGExtensions()->pauseAnimations(); lifecycleNotifier()->notifyDocumentWasDisposed(); } Element* Document::getElementById(const AtomicString& id) const { return TreeScope::getElementById(id); } SelectorQueryCache* Document::selectorQueryCache() { if (!m_selectorQueryCache) m_selectorQueryCache = adoptPtr(new SelectorQueryCache()); return m_selectorQueryCache.get(); } MediaQueryMatcher* Document::mediaQueryMatcher() { if (!m_mediaQueryMatcher) m_mediaQueryMatcher = MediaQueryMatcher::create(this); return m_mediaQueryMatcher.get(); } void Document::setCompatibilityMode(CompatibilityMode mode) { if (m_compatibilityModeLocked || mode == m_compatibilityMode) return; bool wasInQuirksMode = inQuirksMode(); m_compatibilityMode = mode; selectorQueryCache()->invalidate(); if (inQuirksMode() != wasInQuirksMode) { // All user stylesheets have to reparse using the different mode. m_styleSheetCollection->clearPageUserSheet(); m_styleSheetCollection->invalidateInjectedStyleSheetCache(); } } String Document::compatMode() const { return inQuirksMode() ? "BackCompat" : "CSS1Compat"; } void Document::setDocType(PassRefPtr docType) { // This should never be called more than once. ASSERT(!m_docType || !docType); m_docType = docType; if (m_docType) { this->adoptIfNeeded(m_docType.get()); if (m_docType->publicId().startsWith("-//wapforum//dtd xhtml mobile 1.", /* caseSensitive */ false)) processViewport("width=device-width, height=device-height", ViewportArguments::XHTMLMobileProfile); } // Doctype affects the interpretation of the stylesheets. clearStyleResolver(); } DOMImplementation* Document::implementation() { if (!m_implementation) m_implementation = DOMImplementation::create(this); return m_implementation.get(); } bool Document::hasManifest() const { return documentElement() && isHTMLHtmlElement(documentElement()) && documentElement()->hasAttribute(manifestAttr); } void Document::childrenChanged(bool changedByParser, Node* beforeChange, Node* afterChange, int childCountDelta) { ContainerNode::childrenChanged(changedByParser, beforeChange, afterChange, childCountDelta); Element* newDocumentElement = ElementTraversal::firstWithin(this); if (newDocumentElement == m_documentElement) return; m_documentElement = newDocumentElement; // The root style used for media query matching depends on the document element. clearStyleResolver(); } PassRefPtr Document::createElement(const AtomicString& name, ExceptionState& es) { if (!isValidName(name)) { es.throwDOMException(InvalidCharacterError); return 0; } if (isXHTMLDocument() || isHTMLDocument()) return HTMLElementFactory::createHTMLElement(QualifiedName(nullAtom, isHTMLDocument() ? name.lower() : name, xhtmlNamespaceURI), this, 0, false); return createElement(QualifiedName(nullAtom, name, nullAtom), false); } PassRefPtr Document::createElement(const AtomicString& localName, const AtomicString& typeExtension, ExceptionState& es) { if (!isValidName(localName)) { es.throwDOMException(InvalidCharacterError); return 0; } RefPtr element; if (CustomElement::isCustomTagName(localName) && registrationContext()) element = registrationContext()->createCustomTagElement(this, QualifiedName(nullAtom, localName, xhtmlNamespaceURI)); else element = createElement(localName, es); if (!typeExtension.isNull() && !typeExtension.isEmpty()) CustomElementRegistrationContext::setIsAttributeAndTypeExtension(element.get(), typeExtension); return element; } PassRefPtr Document::createElementNS(const AtomicString& namespaceURI, const String& qualifiedName, const AtomicString& typeExtension, ExceptionState& es) { String prefix, localName; if (!parseQualifiedName(qualifiedName, prefix, localName, es)) return 0; QualifiedName qName(prefix, localName, namespaceURI); if (!hasValidNamespaceForElements(qName)) { es.throwDOMException(NamespaceError); return 0; } RefPtr element; if (CustomElement::isCustomTagName(qName.localName()) && registrationContext()) element = registrationContext()->createCustomTagElement(this, qName); else element = createElementNS(namespaceURI, qualifiedName, es); if (!typeExtension.isNull() && !typeExtension.isEmpty()) CustomElementRegistrationContext::setIsAttributeAndTypeExtension(element.get(), typeExtension); return element; } ScriptValue Document::registerElement(WebCore::ScriptState* state, const AtomicString& name, ExceptionState& es) { return registerElement(state, name, Dictionary(), es); } ScriptValue Document::registerElement(WebCore::ScriptState* state, const AtomicString& name, const Dictionary& options, ExceptionState& es) { if (!registrationContext()) { es.throwDOMException(NotSupportedError); return ScriptValue(); } CustomElementConstructorBuilder constructorBuilder(state, &options); registrationContext()->registerElement(this, &constructorBuilder, name, es); return constructorBuilder.bindingsReturnValue(); } void Document::setImport(HTMLImport* import) { ASSERT(!m_import || !import); m_import = import; } void Document::didLoadAllImports() { executeScriptsWaitingForResourcesIfNeeded(); } bool Document::haveImportsLoaded() const { return !m_import || !m_import->isBlocked(); } PassRefPtr Document::createDocumentFragment() { return DocumentFragment::create(document()); } PassRefPtr Document::createTextNode(const String& data) { return Text::create(this, data); } PassRefPtr Document::createComment(const String& data) { return Comment::create(this, data); } PassRefPtr Document::createCDATASection(const String& data, ExceptionState& es) { if (isHTMLDocument()) { es.throwDOMException(NotSupportedError); return 0; } return CDATASection::create(this, data); } PassRefPtr Document::createProcessingInstruction(const String& target, const String& data, ExceptionState& es) { if (!isValidName(target)) { es.throwDOMException(InvalidCharacterError); return 0; } if (isHTMLDocument()) { es.throwDOMException(NotSupportedError); return 0; } return ProcessingInstruction::create(this, target, data); } PassRefPtr Document::createEditingTextNode(const String& text) { return Text::createEditingText(this, text); } PassRefPtr Document::createCSSStyleDeclaration() { return MutableStylePropertySet::create()->ensureCSSStyleDeclaration(); } PassRefPtr Document::importNode(Node* importedNode, bool deep, ExceptionState& es) { if (!importedNode) { es.throwDOMException(NotSupportedError); return 0; } switch (importedNode->nodeType()) { case TEXT_NODE: return createTextNode(importedNode->nodeValue()); case CDATA_SECTION_NODE: return createCDATASection(importedNode->nodeValue(), es); case PROCESSING_INSTRUCTION_NODE: return createProcessingInstruction(importedNode->nodeName(), importedNode->nodeValue(), es); case COMMENT_NODE: return createComment(importedNode->nodeValue()); case ELEMENT_NODE: { Element* oldElement = toElement(importedNode); // FIXME: The following check might be unnecessary. Is it possible that // oldElement has mismatched prefix/namespace? if (!hasValidNamespaceForElements(oldElement->tagQName())) { es.throwDOMException(NamespaceError); return 0; } RefPtr newElement = createElement(oldElement->tagQName(), false); newElement->cloneDataFromElement(*oldElement); if (deep) { for (Node* oldChild = oldElement->firstChild(); oldChild; oldChild = oldChild->nextSibling()) { RefPtr newChild = importNode(oldChild, true, es); if (es.hadException()) return 0; newElement->appendChild(newChild.release(), es); if (es.hadException()) return 0; } } return newElement.release(); } case ATTRIBUTE_NODE: return Attr::create(this, QualifiedName(nullAtom, toAttr(importedNode)->name(), nullAtom), toAttr(importedNode)->value()); case DOCUMENT_FRAGMENT_NODE: { if (importedNode->isShadowRoot()) { // ShadowRoot nodes should not be explicitly importable. // Either they are imported along with their host node, or created implicitly. break; } DocumentFragment* oldFragment = static_cast(importedNode); RefPtr newFragment = createDocumentFragment(); if (deep) { for (Node* oldChild = oldFragment->firstChild(); oldChild; oldChild = oldChild->nextSibling()) { RefPtr newChild = importNode(oldChild, true, es); if (es.hadException()) return 0; newFragment->appendChild(newChild.release(), es); if (es.hadException()) return 0; } } return newFragment.release(); } case ENTITY_NODE: case NOTATION_NODE: // FIXME: It should be possible to import these node types, however in DOM3 the DocumentType is readonly, so there isn't much sense in doing that. // Ability to add these imported nodes to a DocumentType will be considered for addition to a future release of the DOM. case DOCUMENT_NODE: case DOCUMENT_TYPE_NODE: case XPATH_NAMESPACE_NODE: break; } es.throwDOMException(NotSupportedError); return 0; } PassRefPtr Document::adoptNode(PassRefPtr source, ExceptionState& es) { if (!source) { es.throwDOMException(NotSupportedError); return 0; } EventQueueScope scope; switch (source->nodeType()) { case ENTITY_NODE: case NOTATION_NODE: case DOCUMENT_NODE: case DOCUMENT_TYPE_NODE: case XPATH_NAMESPACE_NODE: es.throwDOMException(NotSupportedError); return 0; case ATTRIBUTE_NODE: { Attr* attr = toAttr(source.get()); if (attr->ownerElement()) attr->ownerElement()->removeAttributeNode(attr, es); attr->setSpecified(true); break; } default: if (source->isShadowRoot()) { // ShadowRoot cannot disconnect itself from the host node. es.throwDOMException(HierarchyRequestError); return 0; } if (source->isFrameOwnerElement()) { HTMLFrameOwnerElement* frameOwnerElement = toFrameOwnerElement(source.get()); if (frame() && frame()->tree()->isDescendantOf(frameOwnerElement->contentFrame())) { es.throwDOMException(HierarchyRequestError); return 0; } } if (source->parentNode()) { source->parentNode()->removeChild(source.get(), es); if (es.hadException()) return 0; } } this->adoptIfNeeded(source.get()); return source; } bool Document::hasValidNamespaceForElements(const QualifiedName& qName) { // These checks are from DOM Core Level 2, createElementNS // http://www.w3.org/TR/DOM-Level-2-Core/core.html#ID-DocCrElNS if (!qName.prefix().isEmpty() && qName.namespaceURI().isNull()) // createElementNS(null, "html:div") return false; if (qName.prefix() == xmlAtom && qName.namespaceURI() != XMLNames::xmlNamespaceURI) // createElementNS("http://www.example.com", "xml:lang") return false; // Required by DOM Level 3 Core and unspecified by DOM Level 2 Core: // http://www.w3.org/TR/2004/REC-DOM-Level-3-Core-20040407/core.html#ID-DocCrElNS // createElementNS("http://www.w3.org/2000/xmlns/", "foo:bar"), createElementNS(null, "xmlns:bar") if ((qName.prefix() == xmlnsAtom && qName.namespaceURI() != XMLNSNames::xmlnsNamespaceURI) || (qName.prefix() != xmlnsAtom && qName.namespaceURI() == XMLNSNames::xmlnsNamespaceURI)) return false; return true; } bool Document::hasValidNamespaceForAttributes(const QualifiedName& qName) { // Spec: DOM Level 2 Core: http://www.w3.org/TR/DOM-Level-2-Core/core.html#ID-ElSetAttrNS if (qName.prefix().isEmpty() && qName.localName() == xmlnsAtom) { // Note: The case of an "xmlns" qualified name with a namespace of // xmlnsNamespaceURI is specifically allowed (See ). return qName.namespaceURI() == XMLNSNames::xmlnsNamespaceURI; } return hasValidNamespaceForElements(qName); } // FIXME: This should really be in a possible ElementFactory class PassRefPtr Document::createElement(const QualifiedName& qName, bool createdByParser) { RefPtr e; // FIXME: Use registered namespaces and look up in a hash to find the right factory. if (qName.namespaceURI() == xhtmlNamespaceURI) e = HTMLElementFactory::createHTMLElement(qName, this, 0, createdByParser); else if (qName.namespaceURI() == SVGNames::svgNamespaceURI) e = SVGElementFactory::createSVGElement(qName, this, createdByParser); if (e) m_sawElementsInKnownNamespaces = true; else e = Element::create(qName, document()); // uses imgTag so we need a special rule. ASSERT((qName.matches(imageTag) && e->tagQName().matches(imgTag) && e->tagQName().prefix() == qName.prefix()) || qName == e->tagQName()); return e.release(); } bool Document::regionBasedColumnsEnabled() const { return settings() && settings()->regionBasedColumnsEnabled(); } bool Document::cssStickyPositionEnabled() const { return settings() && settings()->cssStickyPositionEnabled(); } bool Document::cssCompositingEnabled() const { return RuntimeEnabledFeatures::cssCompositingEnabled(); } PassRefPtr Document::webkitGetNamedFlows() { if (!RuntimeEnabledFeatures::cssRegionsEnabled() || !renderer()) return 0; updateStyleIfNeeded(); return namedFlows()->createCSSOMSnapshot(); } NamedFlowCollection* Document::namedFlows() { if (!m_namedFlows) m_namedFlows = NamedFlowCollection::create(this); return m_namedFlows.get(); } PassRefPtr Document::createElementNS(const String& namespaceURI, const String& qualifiedName, ExceptionState& es) { String prefix, localName; if (!parseQualifiedName(qualifiedName, prefix, localName, es)) return 0; QualifiedName qName(prefix, localName, namespaceURI); if (!hasValidNamespaceForElements(qName)) { es.throwDOMException(NamespaceError); return 0; } return createElement(qName, false); } String Document::readyState() const { DEFINE_STATIC_LOCAL(const String, loading, ("loading")); DEFINE_STATIC_LOCAL(const String, interactive, ("interactive")); DEFINE_STATIC_LOCAL(const String, complete, ("complete")); switch (m_readyState) { case Loading: return loading; case Interactive: return interactive; case Complete: return complete; } ASSERT_NOT_REACHED(); return String(); } void Document::setReadyState(ReadyState readyState) { if (readyState == m_readyState) return; switch (readyState) { case Loading: if (!m_documentTiming.domLoading) m_documentTiming.domLoading = monotonicallyIncreasingTime(); break; case Interactive: if (!m_documentTiming.domInteractive) { m_documentTiming.domInteractive = monotonicallyIncreasingTime(); if (RuntimeEnabledFeatures::webAnimationsEnabled()) m_timeline->setZeroTimeAsPerfTime(m_documentTiming.domInteractive); } break; case Complete: if (!m_documentTiming.domComplete) m_documentTiming.domComplete = monotonicallyIncreasingTime(); break; } m_readyState = readyState; dispatchEvent(Event::create(eventNames().readystatechangeEvent, false, false)); } String Document::encoding() const { // TextEncoding::domName() returns a char*, no need to allocate a new // String for it each time. // FIXME: We should fix TextEncoding to speak AtomicString anyway. if (TextResourceDecoder* d = decoder()) return AtomicString(d->encoding().domName()); return String(); } String Document::defaultCharset() const { if (Settings* settings = this->settings()) return settings->defaultTextEncodingName(); return String(); } void Document::setCharset(const String& charset) { if (!decoder()) return; decoder()->setEncoding(charset, TextResourceDecoder::UserChosenEncoding); } void Document::setContentLanguage(const String& language) { if (m_contentLanguage == language) return; m_contentLanguage = language; // Document's style depends on the content language. setNeedsStyleRecalc(); } void Document::setXMLVersion(const String& version, ExceptionState& es) { if (!implementation()->hasFeature("XML", String())) { es.throwDOMException(NotSupportedError); return; } if (!XMLDocumentParser::supportsXMLVersion(version)) { es.throwDOMException(NotSupportedError); return; } m_xmlVersion = version; } void Document::setXMLStandalone(bool standalone, ExceptionState& es) { if (!implementation()->hasFeature("XML", String())) { es.throwDOMException(NotSupportedError); return; } m_xmlStandalone = standalone ? Standalone : NotStandalone; } KURL Document::baseURI() const { return m_baseURL; } void Document::setContent(const String& content) { open(); // FIXME: This should probably use insert(), but that's (intentionally) // not implemented for the XML parser as it's normally synonymous with // document.write(). append() will end up yielding, but close() will // pump the tokenizer syncrhonously and finish the parse. m_parser->pinToMainThread(); m_parser->append(content.impl()); close(); } String Document::suggestedMIMEType() const { if (isXHTMLDocument()) return "application/xhtml+xml"; if (isSVGDocument()) return "image/svg+xml"; if (xmlStandalone()) return "text/xml"; if (isHTMLDocument()) return "text/html"; if (DocumentLoader* documentLoader = loader()) return documentLoader->responseMIMEType(); return String(); } Element* Document::elementFromPoint(int x, int y) const { if (!renderer()) return 0; return TreeScope::elementFromPoint(x, y); } PassRefPtr Document::caretRangeFromPoint(int x, int y) { if (!renderer()) return 0; LayoutPoint localPoint; Node* node = nodeFromPoint(this, x, y, &localPoint); if (!node) return 0; Node* shadowAncestorNode = ancestorInThisScope(node); if (shadowAncestorNode != node) { unsigned offset = shadowAncestorNode->nodeIndex(); ContainerNode* container = shadowAncestorNode->parentNode(); return Range::create(this, container, offset, container, offset); } RenderObject* renderer = node->renderer(); if (!renderer) return 0; PositionWithAffinity positionWithAffinity = renderer->positionForPoint(localPoint); if (positionWithAffinity.position().isNull()) return 0; Position rangeCompliantPosition = positionWithAffinity.position().parentAnchoredEquivalent(); return Range::create(this, rangeCompliantPosition, rangeCompliantPosition); } /* * Performs three operations: * 1. Convert control characters to spaces * 2. Trim leading and trailing spaces * 3. Collapse internal whitespace. */ template static inline StringWithDirection canonicalizedTitle(Document* document, const StringWithDirection& titleWithDirection) { const String& title = titleWithDirection.string(); const CharacterType* characters = title.getCharacters(); unsigned length = title.length(); unsigned i; StringBuffer buffer(length); unsigned builderIndex = 0; // Skip leading spaces and leading characters that would convert to spaces for (i = 0; i < length; ++i) { CharacterType c = characters[i]; if (!(c <= 0x20 || c == 0x7F)) break; } if (i == length) return StringWithDirection(); // Replace control characters with spaces, and backslashes with currency symbols, and collapse whitespace. bool previousCharWasWS = false; for (; i < length; ++i) { CharacterType c = characters[i]; if (c <= 0x20 || c == 0x7F || (WTF::Unicode::category(c) & (WTF::Unicode::Separator_Line | WTF::Unicode::Separator_Paragraph))) { if (previousCharWasWS) continue; buffer[builderIndex++] = ' '; previousCharWasWS = true; } else { buffer[builderIndex++] = c; previousCharWasWS = false; } } // Strip trailing spaces while (builderIndex > 0) { --builderIndex; if (buffer[builderIndex] != ' ') break; } if (!builderIndex && buffer[builderIndex] == ' ') return StringWithDirection(); buffer.shrink(builderIndex + 1); // Replace the backslashes with currency symbols if the encoding requires it. document->displayBufferModifiedByEncoding(buffer.characters(), buffer.length()); return StringWithDirection(String::adopt(buffer), titleWithDirection.direction()); } void Document::updateTitle(const StringWithDirection& title) { if (m_rawTitle == title) return; m_rawTitle = title; StringWithDirection oldTitle = m_title; if (m_rawTitle.string().isEmpty()) m_title = StringWithDirection(); else { if (m_rawTitle.string().is8Bit()) m_title = canonicalizedTitle(this, m_rawTitle); else m_title = canonicalizedTitle(this, m_rawTitle); } if (!m_frame || oldTitle == m_title) return; m_frame->loader()->history()->setCurrentItemTitle(m_title); m_frame->loader()->client()->dispatchDidReceiveTitle(m_title); } void Document::setTitle(const String& title) { // Title set by JavaScript -- overrides any title elements. m_titleSetExplicitly = true; if (!isHTMLDocument() && !isXHTMLDocument()) m_titleElement = 0; else if (!m_titleElement) { if (HTMLElement* headElement = head()) { m_titleElement = createElement(titleTag, false); headElement->appendChild(m_titleElement, ASSERT_NO_EXCEPTION, AttachLazily); } } // The DOM API has no method of specifying direction, so assume LTR. updateTitle(StringWithDirection(title, LTR)); if (m_titleElement) { ASSERT(isHTMLTitleElement(m_titleElement.get())); if (isHTMLTitleElement(m_titleElement.get())) toHTMLTitleElement(m_titleElement.get())->setText(title); } } void Document::setTitleElement(const StringWithDirection& title, Element* titleElement) { if (titleElement != m_titleElement) { if (m_titleElement || m_titleSetExplicitly) // Only allow the first title element to change the title -- others have no effect. return; m_titleElement = titleElement; } updateTitle(title); } void Document::removeTitle(Element* titleElement) { if (m_titleElement != titleElement) return; m_titleElement = 0; m_titleSetExplicitly = false; // Update title based on first title element in the head, if one exists. if (HTMLElement* headElement = head()) { for (Node* e = headElement->firstChild(); e; e = e->nextSibling()) { if (isHTMLTitleElement(e)) { HTMLTitleElement* titleElement = toHTMLTitleElement(e); setTitleElement(titleElement->textWithDirection(), titleElement); break; } } } if (!m_titleElement) updateTitle(StringWithDirection()); } PageVisibilityState Document::visibilityState() const { // The visibility of the document is inherited from the visibility of the // page. If there is no page associated with the document, we will assume // that the page is hidden, as specified by the spec: // http://dvcs.w3.org/hg/webperf/raw-file/tip/specs/PageVisibility/Overview.html#dom-document-hidden if (!m_frame || !m_frame->page()) return PageVisibilityStateHidden; return m_frame->page()->visibilityState(); } String Document::webkitVisibilityState() const { return pageVisibilityStateString(visibilityState()); } bool Document::webkitHidden() const { return visibilityState() != PageVisibilityStateVisible; } void Document::dispatchVisibilityStateChangeEvent() { dispatchEvent(Event::create(eventNames().webkitvisibilitychangeEvent, false, false)); } DOMSecurityPolicy* Document::securityPolicy() { if (!m_domSecurityPolicy) m_domSecurityPolicy = DOMSecurityPolicy::create(this); return m_domSecurityPolicy.get(); } String Document::nodeName() const { return "#document"; } Node::NodeType Document::nodeType() const { return DOCUMENT_NODE; } FormController* Document::formController() { if (!m_formController) m_formController = FormController::create(); return m_formController.get(); } Vector Document::formElementsState() const { if (!m_formController) return Vector(); return m_formController->formElementsState(); } void Document::setStateForNewFormElements(const Vector& stateVector) { if (!stateVector.size() && !m_formController) return; formController()->setStateForNewFormElements(stateVector); } FrameView* Document::view() const { return m_frame ? m_frame->view() : 0; } Page* Document::page() const { return m_frame ? m_frame->page() : 0; } Settings* Document::settings() const { return m_frame ? m_frame->settings() : 0; } PassRefPtr Document::createRange() { return Range::create(this); } PassRefPtr Document::createNodeIterator(Node* root, ExceptionState& es) { // FIXME: Probably this should be handled within the bindings layer and TypeError should be thrown. if (!root) { es.throwDOMException(NotSupportedError); return 0; } return NodeIterator::create(root, NodeFilter::SHOW_ALL, PassRefPtr()); } PassRefPtr Document::createNodeIterator(Node* root, unsigned whatToShow, ExceptionState& es) { if (!root) { es.throwDOMException(NotSupportedError); return 0; } // FIXME: It might be a good idea to emit a warning if |whatToShow| contains a bit that is not defined in // NodeFilter. return NodeIterator::create(root, whatToShow, PassRefPtr()); } PassRefPtr Document::createNodeIterator(Node* root, unsigned whatToShow, PassRefPtr filter, ExceptionState& es) { if (!root) { es.throwDOMException(NotSupportedError); return 0; } // FIXME: Ditto. return NodeIterator::create(root, whatToShow, filter); } PassRefPtr Document::createNodeIterator(Node* root, unsigned whatToShow, PassRefPtr filter, bool expandEntityReferences, ExceptionState& es) { if (!root) { es.throwDOMException(NotSupportedError); return 0; } // FIXME: Warn if |expandEntityReferences| is specified. This optional argument is deprecated in DOM4. UNUSED_PARAM(expandEntityReferences); return NodeIterator::create(root, whatToShow, filter); } PassRefPtr Document::createTreeWalker(Node* root, ExceptionState& es) { if (!root) { es.throwDOMException(NotSupportedError); return 0; } return TreeWalker::create(root, NodeFilter::SHOW_ALL, PassRefPtr()); } PassRefPtr Document::createTreeWalker(Node* root, unsigned whatToShow, ExceptionState& es) { if (!root) { es.throwDOMException(NotSupportedError); return 0; } return TreeWalker::create(root, whatToShow, PassRefPtr()); } PassRefPtr Document::createTreeWalker(Node* root, unsigned whatToShow, PassRefPtr filter, ExceptionState& es) { if (!root) { es.throwDOMException(NotSupportedError); return 0; } return TreeWalker::create(root, whatToShow, filter); } PassRefPtr Document::createTreeWalker(Node* root, unsigned whatToShow, PassRefPtr filter, bool expandEntityReferences, ExceptionState& es) { UNUSED_PARAM(expandEntityReferences); if (!root) { es.throwDOMException(NotSupportedError); return 0; } return TreeWalker::create(root, whatToShow, filter); } void Document::scheduleStyleRecalc() { if (shouldDisplaySeamlesslyWithParent()) { // When we're seamless, our parent document manages our style recalcs. ownerElement()->setNeedsStyleRecalc(); ownerElement()->document()->scheduleStyleRecalc(); return; } if (m_styleRecalcTimer.isActive()) return; ASSERT(needsStyleRecalc() || childNeedsStyleRecalc() || childNeedsDistributionRecalc()); m_styleRecalcTimer.startOneShot(0); InspectorInstrumentation::didScheduleStyleRecalculation(this); } void Document::unscheduleStyleRecalc() { ASSERT(!attached() || (!needsStyleRecalc() && !childNeedsStyleRecalc())); m_styleRecalcTimer.stop(); } bool Document::hasPendingStyleRecalc() const { return m_styleRecalcTimer.isActive() && !m_inStyleRecalc; } bool Document::hasPendingForcedStyleRecalc() const { return hasPendingStyleRecalc() && styleChangeType() >= SubtreeStyleChange; } void Document::styleRecalcTimerFired(Timer*) { updateStyleIfNeeded(); } void Document::updateDistributionIfNeeded() { if (!childNeedsDistributionRecalc()) return; TRACE_EVENT0("webkit", "Document::recalcDistribution"); recalcDistribution(); } void Document::updateDistributionForNodeIfNeeded(Node* node) { if (node->inDocument()) { updateDistributionIfNeeded(); return; } Node* root = node; while (Node* host = root->shadowHost()) root = host; while (Node* ancestor = root->parentOrShadowHostNode()) root = ancestor; if (root->childNeedsDistributionRecalc()) root->recalcDistribution(); } void Document::recalcStyle(StyleChange change) { // we should not enter style recalc while painting ASSERT(!view() || !view()->isPainting()); if (view() && view()->isPainting()) return; if (m_inStyleRecalc) return; // Guard against re-entrancy. -dwh TRACE_EVENT0("webkit", "Document::recalcStyle"); TRACE_EVENT_SCOPED_SAMPLING_STATE("Blink", "RecalcStyle"); updateDistributionIfNeeded(); // FIXME: We should update style on our ancestor chain before proceeding (especially for seamless), // however doing so currently causes several tests to crash, as Frame::setDocument calls Document::attach // before setting the DOMWindow on the Frame, or the SecurityOrigin on the document. The attach, in turn // resolves style (here) and then when we resolve style on the parent chain, we may end up // re-attaching our containing iframe, which when asked HTMLFrameElementBase::isURLAllowed // hits a null-dereference due to security code always assuming the document has a SecurityOrigin. if (m_styleSheetCollection->needsUpdateActiveStylesheetsOnStyleRecalc()) m_styleSheetCollection->updateActiveStyleSheets(FullStyleUpdate); InspectorInstrumentationCookie cookie = InspectorInstrumentation::willRecalculateStyle(this); if (m_elemSheet && m_elemSheet->contents()->usesRemUnits()) m_styleSheetCollection->setUsesRemUnit(true); m_inStyleRecalc = true; { PostAttachCallbackDisabler disabler(this); WidgetHierarchyUpdatesSuspensionScope suspendWidgetHierarchyUpdates; RefPtr frameView = view(); if (frameView) { frameView->pauseScheduledEvents(); frameView->beginDeferredRepaints(); } if (!renderer()) goto bailOut; if (styleChangeType() >= SubtreeStyleChange) change = Force; // Recalculating the root style (on the document) is not needed in the common case. if ((change == Force) || (shouldDisplaySeamlesslyWithParent() && (change >= Inherit))) { // style selector may set this again during recalc m_hasNodesWithPlaceholderStyle = false; RefPtr documentStyle = StyleResolver::styleForDocument(this, m_styleResolver ? m_styleResolver->fontSelector() : 0); StyleChange ch = Node::diff(documentStyle.get(), renderer()->style(), this); if (ch != NoChange) renderer()->setStyle(documentStyle.release()); } for (Node* n = firstChild(); n; n = n->nextSibling()) { if (!n->isElementNode()) continue; Element* element = toElement(n); if (shouldRecalcStyle(change, element)) element->recalcStyle(change); } if (view()) view()->updateCompositingLayersAfterStyleChange(); bailOut: clearNeedsStyleRecalc(); clearChildNeedsStyleRecalc(); unscheduleStyleRecalc(); // FIXME: SVG element can schedule a recalc in the middle of an already running one. // See DocumentStyleSheetCollection::updateActiveStyleSheets. if (m_styleSheetCollection->needsUpdateActiveStylesheetsOnStyleRecalc()) setNeedsStyleRecalc(); m_inStyleRecalc = false; // Pseudo element removal and similar may only work with these flags still set. Reset them after the style recalc. if (m_styleResolver) { m_styleSheetCollection->resetCSSFeatureFlags(m_styleResolver->ruleFeatureSet()); m_styleResolver->clearStyleSharingList(); } if (frameView) { frameView->resumeScheduledEvents(); frameView->endDeferredRepaints(); } } // If we wanted to call implicitClose() during recalcStyle, do so now that we're finished. if (m_closeAfterStyleRecalc) { m_closeAfterStyleRecalc = false; implicitClose(); } STYLE_STATS_PRINT(); STYLE_STATS_CLEAR(); InspectorInstrumentation::didRecalculateStyle(cookie); // As a result of the style recalculation, the currently hovered element might have been // detached (for example, by setting display:none in the :hover style), schedule another mouseMove event // to check if any other elements ended up under the mouse pointer due to re-layout. if (hoverNode() && !hoverNode()->renderer() && frame()) frame()->eventHandler()->dispatchFakeMouseMoveEventSoon(); } void Document::updateStyleIfNeeded() { ASSERT(isMainThread()); ASSERT(!view() || (!view()->isInLayout() && !view()->isPainting())); if (!needsStyleRecalc() && !childNeedsStyleRecalc() && !childNeedsDistributionRecalc()) return; AnimationUpdateBlock animationUpdateBlock(m_frame ? m_frame->animation() : 0); recalcStyle(NoChange); } void Document::updateStyleForNodeIfNeeded(Node* node) { if (!hasPendingForcedStyleRecalc() && !childNeedsStyleRecalc() && !needsStyleRecalc()) return; bool needsStyleRecalc = hasPendingForcedStyleRecalc(); for (Node* ancestor = node; ancestor && !needsStyleRecalc; ancestor = ancestor->parentOrShadowHostNode()) needsStyleRecalc = ancestor->needsStyleRecalc(); if (needsStyleRecalc) updateStyleIfNeeded(); } void Document::updateLayout() { ASSERT(isMainThread()); FrameView* frameView = view(); if (frameView && frameView->isInLayout()) { // View layout should not be re-entrant. ASSERT_NOT_REACHED(); return; } if (Element* oe = ownerElement()) oe->document()->updateLayout(); updateStyleIfNeeded(); StackStats::LayoutCheckPoint layoutCheckPoint; // Only do a layout if changes have occurred that make it necessary. if (frameView && renderer() && (frameView->layoutPending() || renderer()->needsLayout())) frameView->layout(); setNeedsFocusedElementCheck(); } void Document::setNeedsFocusedElementCheck() { // FIXME: Using a Task doesn't look a good idea. if (!m_focusedElement || m_didPostCheckFocusedElementTask) return; postTask(CheckFocusedElementTask::create()); m_didPostCheckFocusedElementTask = true; } // FIXME: This is a bad idea and needs to be removed eventually. // Other browsers load stylesheets before they continue parsing the web page. // Since we don't, we can run JavaScript code that needs answers before the // stylesheets are loaded. Doing a layout ignoring the pending stylesheets // lets us get reasonable answers. The long term solution to this problem is // to instead suspend JavaScript execution. void Document::updateLayoutIgnorePendingStylesheets() { bool oldIgnore = m_ignorePendingStylesheets; if (!haveStylesheetsLoaded()) { m_ignorePendingStylesheets = true; // FIXME: We are willing to attempt to suppress painting with outdated style info only once. Our assumption is that it would be // dangerous to try to stop it a second time, after page content has already been loaded and displayed // with accurate style information. (Our suppression involves blanking the whole page at the // moment. If it were more refined, we might be able to do something better.) // It's worth noting though that this entire method is a hack, since what we really want to do is // suspend JS instead of doing a layout with inaccurate information. HTMLElement* bodyElement = body(); if (bodyElement && !bodyElement->renderer() && m_pendingSheetLayout == NoLayoutWithPendingSheets) { m_pendingSheetLayout = DidLayoutWithPendingSheets; styleResolverChanged(RecalcStyleImmediately); } else if (m_hasNodesWithPlaceholderStyle) // If new nodes have been added or style recalc has been done with style sheets still pending, some nodes // may not have had their real style calculated yet. Normally this gets cleaned when style sheets arrive // but here we need up-to-date style immediately. recalcStyle(Force); } updateLayout(); m_ignorePendingStylesheets = oldIgnore; } PassRefPtr Document::styleForElementIgnoringPendingStylesheets(Element* element) { ASSERT_ARG(element, element->document() == this); TemporaryChange ignoreStyleSheets(m_ignorePendingStylesheets, true); return styleResolver()->styleForElement(element, element->parentNode() ? element->parentNode()->computedStyle() : 0); } PassRefPtr Document::styleForPage(int pageIndex) { return styleResolver()->styleForPage(pageIndex); } bool Document::isPageBoxVisible(int pageIndex) { return styleForPage(pageIndex)->visibility() != HIDDEN; // display property doesn't apply to @page. } void Document::pageSizeAndMarginsInPixels(int pageIndex, IntSize& pageSize, int& marginTop, int& marginRight, int& marginBottom, int& marginLeft) { RefPtr style = styleForPage(pageIndex); RenderView* view = renderView(); int width = pageSize.width(); int height = pageSize.height(); switch (style->pageSizeType()) { case PAGE_SIZE_AUTO: break; case PAGE_SIZE_AUTO_LANDSCAPE: if (width < height) std::swap(width, height); break; case PAGE_SIZE_AUTO_PORTRAIT: if (width > height) std::swap(width, height); break; case PAGE_SIZE_RESOLVED: { LengthSize size = style->pageSize(); ASSERT(size.width().isFixed()); ASSERT(size.height().isFixed()); width = valueForLength(size.width(), 0, view); height = valueForLength(size.height(), 0, view); break; } default: ASSERT_NOT_REACHED(); } pageSize = IntSize(width, height); // The percentage is calculated with respect to the width even for margin top and bottom. // http://www.w3.org/TR/CSS2/box.html#margin-properties marginTop = style->marginTop().isAuto() ? marginTop : intValueForLength(style->marginTop(), width, view); marginRight = style->marginRight().isAuto() ? marginRight : intValueForLength(style->marginRight(), width, view); marginBottom = style->marginBottom().isAuto() ? marginBottom : intValueForLength(style->marginBottom(), width, view); marginLeft = style->marginLeft().isAuto() ? marginLeft : intValueForLength(style->marginLeft(), width, view); } void Document::setIsViewSource(bool isViewSource) { m_isViewSource = isViewSource; if (!m_isViewSource) return; setSecurityOrigin(SecurityOrigin::createUnique()); didUpdateSecurityOrigin(); } void Document::createStyleResolver() { bool matchAuthorAndUserStyles = true; if (Settings* docSettings = settings()) matchAuthorAndUserStyles = docSettings->authorAndUserStylesEnabled(); m_styleResolver = adoptPtr(new StyleResolver(this, matchAuthorAndUserStyles)); m_styleSheetCollection->combineCSSFeatureFlags(m_styleResolver->ruleFeatureSet()); } void Document::clearStyleResolver() { m_styleResolver.clear(); } void Document::attach(const AttachContext& context) { ASSERT(!attached()); ASSERT(!m_axObjectCache || this != topDocument()); // Create the rendering tree setRenderer(new RenderView(this)); renderView()->setIsInWindow(true); recalcStyle(Force); ContainerNode::attach(context); } void Document::detach(const AttachContext& context) { ASSERT(attached()); if (page()) page()->documentDetached(this); if (this == topDocument()) clearAXObjectCache(); stopActiveDOMObjects(); m_eventQueue->close(); // FIXME: consider using ActiveDOMObject. if (m_scriptedAnimationController) m_scriptedAnimationController->clearDocumentPointer(); m_scriptedAnimationController.clear(); if (svgExtensions()) accessSVGExtensions()->pauseAnimations(); RenderObject* render = renderer(); documentWillBecomeInactive(); SharedWorkerRepository::documentDetached(this); if (m_frame) { FrameView* view = m_frame->view(); if (view) view->detachCustomScrollbars(); } // indicate destruction mode, i.e. attached() but renderer == 0 setRenderer(0); m_hoverNode = 0; m_focusedElement = 0; m_activeElement = 0; ContainerNode::detach(context); unscheduleStyleRecalc(); if (render) render->destroy(); if (m_touchEventTargets && m_touchEventTargets->size() && parentDocument()) parentDocument()->didRemoveEventTargetNode(this); // This is required, as our Frame might delete itself as soon as it detaches // us. However, this violates Node::detach() semantics, as it's never // possible to re-attach. Eventually Document::detach() should be renamed, // or this setting of the frame to 0 could be made explicit in each of the // callers of Document::detach(). m_frame = 0; if (m_mediaQueryMatcher) m_mediaQueryMatcher->documentDestroyed(); lifecycleNotifier()->notifyDocumentWasDetached(); } void Document::prepareForDestruction() { disconnectDescendantFrames(); if (DOMWindow* window = this->domWindow()) window->willDetachDocumentFromFrame(); detach(); } void Document::removeAllEventListeners() { EventTarget::removeAllEventListeners(); if (DOMWindow* domWindow = this->domWindow()) domWindow->removeAllEventListeners(); for (Node* node = firstChild(); node; node = NodeTraversal::next(node)) node->removeAllEventListeners(); } void Document::suspendActiveDOMObjects(ActiveDOMObject::ReasonForSuspension why) { ScriptExecutionContext::suspendActiveDOMObjects(why); } void Document::resumeActiveDOMObjects() { ScriptExecutionContext::resumeActiveDOMObjects(); } void Document::clearAXObjectCache() { ASSERT(topDocument() == this); // Clear the cache member variable before calling delete because attempts // are made to access it during destruction. m_axObjectCache.clear(); } AXObjectCache* Document::existingAXObjectCache() const { if (!AXObjectCache::accessibilityEnabled()) return 0; // If the renderer is gone then we are in the process of destruction. // This method will be called before m_frame = 0. if (!topDocument()->renderer()) return 0; return topDocument()->m_axObjectCache.get(); } AXObjectCache* Document::axObjectCache() const { if (!AXObjectCache::accessibilityEnabled()) return 0; // The only document that actually has a AXObjectCache is the top-level // document. This is because we need to be able to get from any WebCoreAXObject // to any other WebCoreAXObject on the same page. Using a single cache allows // lookups across nested webareas (i.e. multiple documents). Document* topDocument = this->topDocument(); // If the document has already been detached, do not make a new axObjectCache. if (!topDocument->renderer()) return 0; ASSERT(topDocument == this || !m_axObjectCache); if (!topDocument->m_axObjectCache) topDocument->m_axObjectCache = adoptPtr(new AXObjectCache(topDocument)); return topDocument->m_axObjectCache.get(); } void Document::setVisuallyOrdered() { m_visuallyOrdered = true; // FIXME: How is possible to not have a renderer here? if (renderer()) renderer()->style()->setRTLOrdering(VisualOrder); setNeedsStyleRecalc(); } PassRefPtr Document::createParser() { if (isHTMLDocument() || (RuntimeEnabledFeatures::parseSVGAsHTMLEnabled() && isSVGDocument())) { bool reportErrors = InspectorInstrumentation::collectingHTMLParseErrors(this->page()); return HTMLDocumentParser::create(this, reportErrors); } // FIXME: this should probably pass the frame instead return XMLDocumentParser::create(this, view()); } bool Document::isFrameSet() const { if (!isHTMLDocument()) return false; HTMLElement* bodyElement = body(); return bodyElement && bodyElement->hasTagName(framesetTag); } ScriptableDocumentParser* Document::scriptableDocumentParser() const { return parser() ? parser()->asScriptableDocumentParser() : 0; } void Document::open(Document* ownerDocument) { if (ownerDocument) { setURL(ownerDocument->url()); m_cookieURL = ownerDocument->cookieURL(); setSecurityOrigin(ownerDocument->securityOrigin()); InspectorInstrumentation::childDocumentOpened(this); } if (m_frame) { if (ScriptableDocumentParser* parser = scriptableDocumentParser()) { if (parser->isParsing()) { // FIXME: HTML5 doesn't tell us to check this, it might not be correct. if (parser->isExecutingScript()) return; if (!parser->wasCreatedByScript() && parser->hasInsertionPoint()) return; } } if (m_frame->loader()->state() == FrameStateProvisional) m_frame->loader()->stopAllLoaders(); } removeAllEventListeners(); implicitOpen(); if (ScriptableDocumentParser* parser = scriptableDocumentParser()) parser->setWasCreatedByScript(true); if (m_frame) m_frame->loader()->didExplicitOpen(); if (m_loadEventProgress != LoadEventInProgress && m_loadEventProgress != UnloadEventInProgress) m_loadEventProgress = LoadEventNotRun; } void Document::detachParser() { if (!m_parser) return; m_parser->detach(); m_parser.clear(); } void Document::cancelParsing() { if (!m_parser) return; // We have to clear the parser to avoid possibly triggering // the onload handler when closing as a side effect of a cancel-style // change, such as opening a new document or closing the window while // still parsing detachParser(); explicitClose(); } PassRefPtr Document::implicitOpen() { cancelParsing(); removeChildren(); ASSERT(!m_focusedElement); setCompatibilityMode(NoQuirksMode); // Documents rendered seamlessly should start out requiring a stylesheet // collection update in order to ensure they inherit all the relevant data // from their parent. if (shouldDisplaySeamlesslyWithParent()) styleResolverChanged(DeferRecalcStyle); m_parser = createParser(); setParsing(true); setReadyState(Loading); return m_parser; } HTMLElement* Document::body() const { if (!documentElement()) return 0; for (Node* child = documentElement()->firstChild(); child; child = child->nextSibling()) { if (child->hasTagName(framesetTag) || child->hasTagName(bodyTag)) return toHTMLElement(child); } return 0; } void Document::setBody(PassRefPtr prpNewBody, ExceptionState& es) { RefPtr newBody = prpNewBody; if (!newBody || !documentElement()) { es.throwDOMException(HierarchyRequestError); return; } if (!newBody->hasTagName(bodyTag) && !newBody->hasTagName(framesetTag)) { es.throwDOMException(HierarchyRequestError); return; } HTMLElement* oldBody = body(); if (oldBody == newBody) return; if (oldBody) documentElement()->replaceChild(newBody.release(), oldBody, es, AttachLazily); else documentElement()->appendChild(newBody.release(), es, AttachLazily); } HTMLHeadElement* Document::head() { Node* de = documentElement(); if (!de) return 0; for (Node* e = de->firstChild(); e; e = e->nextSibling()) if (e->hasTagName(headTag)) return static_cast(e); return 0; } void Document::close() { // FIXME: We should follow the specification more closely: // http://www.whatwg.org/specs/web-apps/current-work/#dom-document-close if (!scriptableDocumentParser() || !scriptableDocumentParser()->wasCreatedByScript() || !scriptableDocumentParser()->isParsing()) return; explicitClose(); } void Document::explicitClose() { if (RefPtr parser = m_parser) parser->finish(); if (!m_frame) { // Because we have no frame, we don't know if all loading has completed, // so we just call implicitClose() immediately. FIXME: This might fire // the load event prematurely . implicitClose(); return; } m_frame->loader()->checkCompleted(); } void Document::implicitClose() { // If we're in the middle of recalcStyle, we need to defer the close until the style information is accurate and all elements are re-attached. if (m_inStyleRecalc) { m_closeAfterStyleRecalc = true; return; } bool wasLocationChangePending = frame() && frame()->navigationScheduler()->locationChangePending(); bool doload = !parsing() && m_parser && !processingLoadEvent() && !wasLocationChangePending; // If the load was blocked because of a pending location change and the location change triggers a same document // navigation, don't fire load events after the same document navigation completes (unless there's an explicit open). m_loadEventProgress = LoadEventTried; if (!doload) return; // The call to dispatchWindowLoadEvent can detach the DOMWindow and cause it (and its // attached Document) to be destroyed. RefPtr protect(this->domWindow()); m_loadEventProgress = LoadEventInProgress; ScriptableDocumentParser* parser = scriptableDocumentParser(); m_wellFormed = parser && parser->wellFormed(); // We have to clear the parser, in case someone document.write()s from the // onLoad event handler, as in Radar 3206524. detachParser(); Frame* f = frame(); if (f && !RuntimeEnabledFeatures::webAnimationsCSSEnabled()) f->animation()->resumeAnimationsForDocument(this); if (f && f->script()->canExecuteScripts(NotAboutToExecuteScript)) { ImageLoader::dispatchPendingBeforeLoadEvents(); ImageLoader::dispatchPendingLoadEvents(); ImageLoader::dispatchPendingErrorEvents(); HTMLLinkElement::dispatchPendingLoadEvents(); HTMLStyleElement::dispatchPendingLoadEvents(); } // To align the HTML load event and the SVGLoad event for the outermost element, fire it from // here, instead of doing it from SVGElement::finishedParsingChildren (if externalResourcesRequired="false", // which is the default, for ='true' its fired at a later time, once all external resources finished loading). if (svgExtensions()) accessSVGExtensions()->dispatchSVGLoadEventToOutermostSVGElements(); dispatchWindowLoadEvent(); enqueuePageshowEvent(PageshowEventNotPersisted); enqueuePopstateEvent(m_pendingStateObject ? m_pendingStateObject.release() : SerializedScriptValue::nullValue()); if (frame()) { frame()->loader()->client()->dispatchDidHandleOnloadEvents(); loader()->applicationCacheHost()->stopDeferringEvents(); } // An event handler may have removed the frame if (!frame()) { m_loadEventProgress = LoadEventCompleted; return; } // Make sure both the initial layout and reflow happen after the onload // fires. This will improve onload scores, and other browsers do it. // If they wanna cheat, we can too. -dwh if (frame()->navigationScheduler()->locationChangePending() && elapsedTime() < cLayoutScheduleThreshold) { // Just bail out. Before or during the onload we were shifted to another page. // The old i-Bench suite does this. When this happens don't bother painting or laying out. m_loadEventProgress = LoadEventCompleted; view()->unscheduleRelayout(); return; } RenderObject* renderObject = renderer(); // We used to force a synchronous display and flush here. This really isn't // necessary and can in fact be actively harmful if pages are loading at a rate of > 60fps // (if your platform is syncing flushes and limiting them to 60fps). m_overMinimumLayoutThreshold = true; if (!ownerElement() || (ownerElement()->renderer() && !ownerElement()->renderer()->needsLayout())) { updateStyleIfNeeded(); // Always do a layout after loading if needed. if (view() && renderObject && (!renderObject->firstChild() || renderObject->needsLayout())) view()->layout(); } m_loadEventProgress = LoadEventCompleted; if (f && renderObject && AXObjectCache::accessibilityEnabled()) { // The AX cache may have been cleared at this point, but we need to make sure it contains an // AX object to send the notification to. getOrCreate will make sure that an valid AX object // exists in the cache (we ignore the return value because we don't need it here). This is // only safe to call when a layout is not in progress, so it can not be used in postNotification. if (AXObjectCache* cache = axObjectCache()) { cache->getOrCreate(renderObject); if (this == topDocument()) { cache->postNotification(renderObject, AXObjectCache::AXLoadComplete, true); } else { // AXLoadComplete can only be posted on the top document, so if it's a document // in an iframe that just finished loading, post AXLayoutComplete instead. cache->postNotification(renderObject, AXObjectCache::AXLayoutComplete, true); } } } if (svgExtensions()) accessSVGExtensions()->startAnimations(); } bool Document::dispatchBeforeUnloadEvent(Chrome& chrome, Document* navigatingDocument) { if (!m_domWindow) return true; if (!body()) return true; RefPtr protect(this); RefPtr beforeUnloadEvent = BeforeUnloadEvent::create(); m_loadEventProgress = BeforeUnloadEventInProgress; dispatchWindowEvent(beforeUnloadEvent.get(), this); m_loadEventProgress = BeforeUnloadEventCompleted; if (!beforeUnloadEvent->defaultPrevented()) defaultEventHandler(beforeUnloadEvent.get()); if (beforeUnloadEvent->result().isNull()) return true; if (navigatingDocument->m_didAllowNavigationViaBeforeUnloadConfirmationPanel) { addConsoleMessage(JSMessageSource, ErrorMessageLevel, "Blocked attempt to show multiple 'beforeunload' confirmation panels for a single navigation."); return true; } String text = displayStringModifiedByEncoding(beforeUnloadEvent->result()); if (chrome.runBeforeUnloadConfirmPanel(text, m_frame)) { navigatingDocument->m_didAllowNavigationViaBeforeUnloadConfirmationPanel = true; return true; } return false; } void Document::dispatchUnloadEvents() { RefPtr protect(this); if (m_parser) m_parser->stopParsing(); if (m_loadEventProgress >= LoadEventTried && m_loadEventProgress <= UnloadEventInProgress) { Element* currentFocusedElement = focusedElement(); if (currentFocusedElement && currentFocusedElement->hasTagName(inputTag)) toHTMLInputElement(currentFocusedElement)->endEditing(); if (m_loadEventProgress < PageHideInProgress) { m_loadEventProgress = PageHideInProgress; dispatchWindowEvent(PageTransitionEvent::create(eventNames().pagehideEvent, false), this); if (!m_frame) return; // The DocumentLoader (and thus its DocumentLoadTiming) might get destroyed // while dispatching the event, so protect it to prevent writing the end // time into freed memory. RefPtr documentLoader = m_frame->loader()->provisionalDocumentLoader(); m_loadEventProgress = UnloadEventInProgress; RefPtr unloadEvent(Event::create(eventNames().unloadEvent, false, false)); if (documentLoader && !documentLoader->timing()->unloadEventStart() && !documentLoader->timing()->unloadEventEnd()) { DocumentLoadTiming* timing = documentLoader->timing(); ASSERT(timing->navigationStart()); timing->markUnloadEventStart(); dispatchWindowEvent(unloadEvent, this); timing->markUnloadEventEnd(); } else { m_frame->domWindow()->dispatchEvent(unloadEvent, m_frame->document()); } } updateStyleIfNeeded(); m_loadEventProgress = UnloadEventHandled; } if (!m_frame) return; // Don't remove event listeners from a transitional empty document (see https://bugs.webkit.org/show_bug.cgi?id=28716 for more information). bool keepEventListeners = m_frame->loader()->stateMachine()->isDisplayingInitialEmptyDocument() && m_frame->loader()->provisionalDocumentLoader() && isSecureTransitionTo(m_frame->loader()->provisionalDocumentLoader()->url()); if (!keepEventListeners) removeAllEventListeners(); } Document::PageDismissalType Document::pageDismissalEventBeingDispatched() const { if (m_loadEventProgress == BeforeUnloadEventInProgress) return BeforeUnloadDismissal; if (m_loadEventProgress == PageHideInProgress) return PageHideDismissal; if (m_loadEventProgress == UnloadEventInProgress) return UnloadDismissal; return NoDismissal; } void Document::setParsing(bool b) { m_bParsing = b; if (m_bParsing && !m_sharedObjectPool) m_sharedObjectPool = DocumentSharedObjectPool::create(); if (!m_bParsing && view()) view()->scheduleRelayout(); } bool Document::shouldScheduleLayout() { // This function will only be called when FrameView thinks a layout is needed. // This enforces a couple extra rules. // // (a) Only schedule a layout once the stylesheets are loaded. // (b) Only schedule layout once we have a body element. return (haveStylesheetsLoaded() && body()) || (documentElement() && !isHTMLHtmlElement(documentElement())); } bool Document::shouldParserYieldAgressivelyBeforeScriptExecution() { return view() && view()->layoutPending() && !minimumLayoutDelay(); } int Document::minimumLayoutDelay() { if (m_overMinimumLayoutThreshold) return 0; int elapsed = elapsedTime(); m_overMinimumLayoutThreshold = elapsed > cLayoutScheduleThreshold; // We'll want to schedule the timer to fire at the minimum layout threshold. return max(0, cLayoutScheduleThreshold - elapsed); } int Document::elapsedTime() const { return static_cast((currentTime() - m_startTime) * 1000); } void Document::write(const SegmentedString& text, Document* ownerDocument) { NestingLevelIncrementer nestingLevelIncrementer(m_writeRecursionDepth); m_writeRecursionIsTooDeep = (m_writeRecursionDepth > 1) && m_writeRecursionIsTooDeep; m_writeRecursionIsTooDeep = (m_writeRecursionDepth > cMaxWriteRecursionDepth) || m_writeRecursionIsTooDeep; if (m_writeRecursionIsTooDeep) return; bool hasInsertionPoint = m_parser && m_parser->hasInsertionPoint(); if (!hasInsertionPoint && m_ignoreDestructiveWriteCount) return; if (!hasInsertionPoint) open(ownerDocument); ASSERT(m_parser); m_parser->insert(text); } void Document::write(const String& text, Document* ownerDocument) { write(SegmentedString(text), ownerDocument); } void Document::writeln(const String& text, Document* ownerDocument) { write(text, ownerDocument); write("\n", ownerDocument); } const KURL& Document::virtualURL() const { return m_url; } KURL Document::virtualCompleteURL(const String& url) const { return completeURL(url); } double Document::timerAlignmentInterval() const { Page* p = page(); if (!p) return ScriptExecutionContext::timerAlignmentInterval(); return p->timerAlignmentInterval(); } EventTarget* Document::errorEventTarget() { return domWindow(); } void Document::logExceptionToConsole(const String& errorMessage, const String& sourceURL, int lineNumber, int columnNumber, PassRefPtr callStack) { addMessage(JSMessageSource, ErrorMessageLevel, errorMessage, sourceURL, lineNumber, callStack); } void Document::setURL(const KURL& url) { const KURL& newURL = url.isEmpty() ? blankURL() : url; if (newURL == m_url) return; m_url = newURL; m_documentURI = m_url.string(); updateBaseURL(); contextFeatures()->urlDidChange(this); } void Document::updateBaseURL() { KURL oldBaseURL = m_baseURL; // DOM 3 Core: When the Document supports the feature "HTML" [DOM Level 2 HTML], the base URI is computed using // first the value of the href attribute of the HTML BASE element if any, and the value of the documentURI attribute // from the Document interface otherwise. if (!m_baseElementURL.isEmpty()) m_baseURL = m_baseElementURL; else if (!m_baseURLOverride.isEmpty()) m_baseURL = m_baseURLOverride; else { // The documentURI attribute is read-only from JavaScript, but writable from Objective C, so we need to retain // this fallback behavior. We use a null base URL, since the documentURI attribute is an arbitrary string // and DOM 3 Core does not specify how it should be resolved. // FIXME: Now that we don't support Objective-C this can probably be removed. m_baseURL = KURL(ParsedURLString, documentURI()); } selectorQueryCache()->invalidate(); if (!m_baseURL.isValid()) m_baseURL = KURL(); if (m_elemSheet) { // Element sheet is silly. It never contains anything. ASSERT(!m_elemSheet->contents()->ruleCount()); bool usesRemUnits = m_elemSheet->contents()->usesRemUnits(); m_elemSheet = CSSStyleSheet::createInline(this, m_baseURL); // FIXME: So we are not really the parser. The right fix is to eliminate the element sheet completely. m_elemSheet->contents()->parserSetUsesRemUnits(usesRemUnits); } if (!equalIgnoringFragmentIdentifier(oldBaseURL, m_baseURL)) { // Base URL change changes any relative visited links. // FIXME: There are other URLs in the tree that would need to be re-evaluated on dynamic base URL change. Style should be invalidated too. for (Element* element = ElementTraversal::firstWithin(this); element; element = ElementTraversal::next(element)) { if (isHTMLAnchorElement(element)) toHTMLAnchorElement(element)->invalidateCachedVisitedLinkHash(); } } } void Document::setBaseURLOverride(const KURL& url) { m_baseURLOverride = url; updateBaseURL(); } void Document::processBaseElement() { // Find the first href attribute in a base element and the first target attribute in a base element. const AtomicString* href = 0; const AtomicString* target = 0; for (Element* element = ElementTraversal::firstWithin(this); element && (!href || !target); element = ElementTraversal::next(element)) { if (element->hasTagName(baseTag)) { if (!href) { const AtomicString& value = element->fastGetAttribute(hrefAttr); if (!value.isNull()) href = &value; } if (!target) { const AtomicString& value = element->fastGetAttribute(targetAttr); if (!value.isNull()) target = &value; } if (contentSecurityPolicy()->isActive()) UseCounter::count(this, UseCounter::ContentSecurityPolicyWithBaseElement); } } // FIXME: Since this doesn't share code with completeURL it may not handle encodings correctly. KURL baseElementURL; if (href) { String strippedHref = stripLeadingAndTrailingHTMLSpaces(*href); if (!strippedHref.isEmpty()) baseElementURL = KURL(url(), strippedHref); } if (m_baseElementURL != baseElementURL && contentSecurityPolicy()->allowBaseURI(baseElementURL)) { m_baseElementURL = baseElementURL; updateBaseURL(); } m_baseTarget = target ? *target : nullAtom; } String Document::userAgent(const KURL& url) const { return frame() ? frame()->loader()->userAgent(url) : String(); } void Document::disableEval(const String& errorMessage) { if (!frame()) return; frame()->script()->disableEval(errorMessage); } bool Document::canNavigate(Frame* targetFrame) { if (!m_frame) return false; // FIXME: We shouldn't call this function without a target frame, but // fast/forms/submit-to-blank-multiple-times.html depends on this function // returning true when supplied with a 0 targetFrame. if (!targetFrame) return true; // Frame-busting is generally allowed, but blocked for sandboxed frames lacking the 'allow-top-navigation' flag. if (!isSandboxed(SandboxTopNavigation) && targetFrame == m_frame->tree()->top()) return true; if (isSandboxed(SandboxNavigation)) { if (targetFrame->tree()->isDescendantOf(m_frame)) return true; const char* reason = "The frame attempting navigation is sandboxed, and is therefore disallowed from navigating its ancestors."; if (isSandboxed(SandboxTopNavigation) && targetFrame == m_frame->tree()->top()) reason = "The frame attempting navigation of the top-level window is sandboxed, but the 'allow-top-navigation' flag is not set."; printNavigationErrorMessage(targetFrame, url(), reason); return false; } // This is the normal case. A document can navigate its decendant frames, // or, more generally, a document can navigate a frame if the document is // in the same origin as any of that frame's ancestors (in the frame // hierarchy). // // See http://www.adambarth.com/papers/2008/barth-jackson-mitchell.pdf for // historical information about this security check. if (canAccessAncestor(securityOrigin(), targetFrame)) return true; // Top-level frames are easier to navigate than other frames because they // display their URLs in the address bar (in most browsers). However, there // are still some restrictions on navigation to avoid nuisance attacks. // Specifically, a document can navigate a top-level frame if that frame // opened the document or if the document is the same-origin with any of // the top-level frame's opener's ancestors (in the frame hierarchy). // // In both of these cases, the document performing the navigation is in // some way related to the frame being navigate (e.g., by the "opener" // and/or "parent" relation). Requiring some sort of relation prevents a // document from navigating arbitrary, unrelated top-level frames. if (!targetFrame->tree()->parent()) { if (targetFrame == m_frame->loader()->opener()) return true; if (canAccessAncestor(securityOrigin(), targetFrame->loader()->opener())) return true; } printNavigationErrorMessage(targetFrame, url(), "The frame attempting navigation is neither same-origin with the target, nor is it the target's parent or opener."); return false; } Frame* Document::findUnsafeParentScrollPropagationBoundary() { Frame* currentFrame = m_frame; Frame* ancestorFrame = currentFrame->tree()->parent(); while (ancestorFrame) { if (!ancestorFrame->document()->securityOrigin()->canAccess(securityOrigin())) return currentFrame; currentFrame = ancestorFrame; ancestorFrame = ancestorFrame->tree()->parent(); } return 0; } void Document::seamlessParentUpdatedStylesheets() { m_styleSheetCollection->didModifySeamlessParentStyleSheet(); styleResolverChanged(RecalcStyleImmediately); } void Document::didRemoveAllPendingStylesheet() { m_needsNotifyRemoveAllPendingStylesheet = false; styleResolverChanged(RecalcStyleImmediately, AnalyzedStyleUpdate); executeScriptsWaitingForResourcesIfNeeded(); if (m_gotoAnchorNeededAfterStylesheetsLoad && view()) view()->scrollToFragment(m_url); } void Document::executeScriptsWaitingForResourcesIfNeeded() { if (!haveStylesheetsAndImportsLoaded()) return; if (ScriptableDocumentParser* parser = scriptableDocumentParser()) parser->executeScriptsWaitingForResources(); } CSSStyleSheet* Document::elementSheet() { if (!m_elemSheet) m_elemSheet = CSSStyleSheet::createInline(this, m_baseURL); return m_elemSheet.get(); } void Document::processHttpEquiv(const String& equiv, const String& content) { ASSERT(!equiv.isNull() && !content.isNull()); if (equalIgnoringCase(equiv, "default-style")) processHttpEquivDefaultStyle(content); else if (equalIgnoringCase(equiv, "refresh")) processHttpEquivRefresh(content); else if (equalIgnoringCase(equiv, "set-cookie")) processHttpEquivSetCookie(content); else if (equalIgnoringCase(equiv, "content-language")) setContentLanguage(content); else if (equalIgnoringCase(equiv, "x-dns-prefetch-control")) parseDNSPrefetchControlHeader(content); else if (equalIgnoringCase(equiv, "x-frame-options")) processHttpEquivXFrameOptions(content); else if (equalIgnoringCase(equiv, "content-security-policy") || equalIgnoringCase(equiv, "content-security-policy-report-only") || equalIgnoringCase(equiv, "x-webkit-csp") || equalIgnoringCase(equiv, "x-webkit-csp-report-only")) processHttpEquivContentSecurityPolicy(equiv, content); } void Document::processHttpEquivContentSecurityPolicy(const String& equiv, const String& content) { if (equalIgnoringCase(equiv, "content-security-policy")) contentSecurityPolicy()->didReceiveHeader(content, ContentSecurityPolicy::Enforce); else if (equalIgnoringCase(equiv, "content-security-policy-report-only")) contentSecurityPolicy()->didReceiveHeader(content, ContentSecurityPolicy::Report); else if (equalIgnoringCase(equiv, "x-webkit-csp")) contentSecurityPolicy()->didReceiveHeader(content, ContentSecurityPolicy::PrefixedEnforce); else if (equalIgnoringCase(equiv, "x-webkit-csp-report-only")) contentSecurityPolicy()->didReceiveHeader(content, ContentSecurityPolicy::PrefixedReport); else ASSERT_NOT_REACHED(); } void Document::processHttpEquivDefaultStyle(const String& content) { // The preferred style set has been overridden as per section // 14.3.2 of the HTML4.0 specification. We need to update the // sheet used variable and then update our style selector. // For more info, see the test at: // http://www.hixie.ch/tests/evil/css/import/main/preferred.html // -dwh m_styleSheetCollection->setSelectedStylesheetSetName(content); m_styleSheetCollection->setPreferredStylesheetSetName(content); styleResolverChanged(DeferRecalcStyle); } void Document::processHttpEquivRefresh(const String& content) { maybeHandleHttpRefresh(content, HttpRefreshFromMetaTag); } void Document::maybeHandleHttpRefresh(const String& content, HttpRefreshType httpRefreshType) { if (m_isViewSource || !m_frame) return; double delay; String refreshURL; if (!parseHTTPRefresh(content, httpRefreshType == HttpRefreshFromMetaTag, delay, refreshURL)) return; if (refreshURL.isEmpty()) refreshURL = url().string(); else refreshURL = completeURL(refreshURL).string(); if (protocolIsJavaScript(refreshURL)) { String message = "Refused to refresh " + m_url.elidedString() + " to a javascript: URL"; addConsoleMessage(SecurityMessageSource, ErrorMessageLevel, message); return; } if (httpRefreshType == HttpRefreshFromMetaTag && isSandboxed(SandboxAutomaticFeatures)) { String message = "Refused to execute the redirect specified via ''. The document is sandboxed, and the 'allow-scripts' keyword is not set."; addConsoleMessage(SecurityMessageSource, ErrorMessageLevel, message); return; } m_frame->navigationScheduler()->scheduleRedirect(delay, refreshURL); } void Document::processHttpEquivSetCookie(const String& content) { // FIXME: make setCookie work on XML documents too; e.g. in case of if (!isHTMLDocument()) return; // Exception (for sandboxed documents) ignored. toHTMLDocument(this)->setCookie(content, IGNORE_EXCEPTION); } void Document::processHttpEquivXFrameOptions(const String& content) { Frame* frame = this->frame(); if (!frame) return; FrameLoader* frameLoader = frame->loader(); unsigned long requestIdentifier = loader()->mainResourceIdentifier(); if (frameLoader->shouldInterruptLoadForXFrameOptions(content, url(), requestIdentifier)) { String message = "Refused to display '" + url().elidedString() + "' in a frame because it set 'X-Frame-Options' to '" + content + "'."; frameLoader->stopAllLoaders(); // Stopping the loader isn't enough, as we're already parsing the document; to honor the header's // intent, we must navigate away from the possibly partially-rendered document to a location that // doesn't inherit the parent's SecurityOrigin. frame->navigationScheduler()->scheduleLocationChange(securityOrigin(), SecurityOrigin::urlWithUniqueSecurityOrigin(), String()); addConsoleMessage(SecurityMessageSource, ErrorMessageLevel, message, requestIdentifier); } } // Though isspace() considers \t and \v to be whitespace, Win IE doesn't. static bool isSeparator(UChar c) { return c == ' ' || c == '\t' || c == '\n' || c == '\r' || c == '=' || c == ',' || c == '\0'; } void Document::processArguments(const String& features, void* data, ArgumentsCallback callback) { // Tread lightly in this code -- it was specifically designed to mimic Win IE's parsing behavior. int keyBegin, keyEnd; int valueBegin, valueEnd; int i = 0; int length = features.length(); String buffer = features.lower(); while (i < length) { // skip to first non-separator, but don't skip past the end of the string while (isSeparator(buffer[i])) { if (i >= length) break; i++; } keyBegin = i; // skip to first separator while (!isSeparator(buffer[i])) i++; keyEnd = i; // skip to first '=', but don't skip past a ',' or the end of the string while (buffer[i] != '=') { if (buffer[i] == ',' || i >= length) break; i++; } // skip to first non-separator, but don't skip past a ',' or the end of the string while (isSeparator(buffer[i])) { if (buffer[i] == ',' || i >= length) break; i++; } valueBegin = i; // skip to first separator while (!isSeparator(buffer[i])) i++; valueEnd = i; ASSERT_WITH_SECURITY_IMPLICATION(i <= length); String keyString = buffer.substring(keyBegin, keyEnd - keyBegin); String valueString = buffer.substring(valueBegin, valueEnd - valueBegin); callback(keyString, valueString, this, data); } } void Document::processViewport(const String& features, ViewportArguments::Type origin) { ASSERT(!features.isNull()); if (origin < m_viewportArguments.type) return; m_viewportArguments = ViewportArguments(origin); processArguments(features, (void*)&m_viewportArguments, &setViewportFeature); updateViewportArguments(); } void Document::updateViewportArguments() { if (page() && page()->mainFrame() == frame()) { #ifndef NDEBUG m_didDispatchViewportPropertiesChanged = true; #endif page()->chrome().dispatchViewportPropertiesDidChange(m_viewportArguments); } } void Document::processReferrerPolicy(const String& policy) { ASSERT(!policy.isNull()); m_referrerPolicy = ReferrerPolicyDefault; if (equalIgnoringCase(policy, "never")) m_referrerPolicy = ReferrerPolicyNever; else if (equalIgnoringCase(policy, "always")) m_referrerPolicy = ReferrerPolicyAlways; else if (equalIgnoringCase(policy, "origin")) m_referrerPolicy = ReferrerPolicyOrigin; } MouseEventWithHitTestResults Document::prepareMouseEvent(const HitTestRequest& request, const LayoutPoint& documentPoint, const PlatformMouseEvent& event) { ASSERT(!renderer() || renderer()->isRenderView()); // RenderView::hitTest causes a layout, and we don't want to hit that until the first // layout because until then, there is nothing shown on the screen - the user can't // have intentionally clicked on something belonging to this page. Furthermore, // mousemove events before the first layout should not lead to a premature layout() // happening, which could show a flash of white. // See also the similar code in EventHandler::hitTestResultAtPoint. if (!renderer() || !view() || !view()->didFirstLayout()) return MouseEventWithHitTestResults(event, HitTestResult(LayoutPoint())); HitTestResult result(documentPoint); renderView()->hitTest(request, result); if (!request.readOnly()) updateHoverActiveState(request, result.innerElement(), &event); return MouseEventWithHitTestResults(event, result); } // DOM Section 1.1.1 bool Document::childTypeAllowed(NodeType type) const { switch (type) { case ATTRIBUTE_NODE: case CDATA_SECTION_NODE: case DOCUMENT_FRAGMENT_NODE: case DOCUMENT_NODE: case ENTITY_NODE: case NOTATION_NODE: case TEXT_NODE: case XPATH_NAMESPACE_NODE: return false; case COMMENT_NODE: case PROCESSING_INSTRUCTION_NODE: return true; case DOCUMENT_TYPE_NODE: case ELEMENT_NODE: // Documents may contain no more than one of each of these. // (One Element and one DocumentType.) for (Node* c = firstChild(); c; c = c->nextSibling()) if (c->nodeType() == type) return false; return true; } return false; } bool Document::canReplaceChild(Node* newChild, Node* oldChild) { if (!oldChild) // ContainerNode::replaceChild will raise a NotFoundError. return true; if (oldChild->nodeType() == newChild->nodeType()) return true; int numDoctypes = 0; int numElements = 0; // First, check how many doctypes and elements we have, not counting // the child we're about to remove. for (Node* c = firstChild(); c; c = c->nextSibling()) { if (c == oldChild) continue; switch (c->nodeType()) { case DOCUMENT_TYPE_NODE: numDoctypes++; break; case ELEMENT_NODE: numElements++; break; default: break; } } // Then, see how many doctypes and elements might be added by the new child. if (newChild->nodeType() == DOCUMENT_FRAGMENT_NODE) { for (Node* c = newChild->firstChild(); c; c = c->nextSibling()) { switch (c->nodeType()) { case ATTRIBUTE_NODE: case CDATA_SECTION_NODE: case DOCUMENT_FRAGMENT_NODE: case DOCUMENT_NODE: case ENTITY_NODE: case NOTATION_NODE: case TEXT_NODE: case XPATH_NAMESPACE_NODE: return false; case COMMENT_NODE: case PROCESSING_INSTRUCTION_NODE: break; case DOCUMENT_TYPE_NODE: numDoctypes++; break; case ELEMENT_NODE: numElements++; break; } } } else { switch (newChild->nodeType()) { case ATTRIBUTE_NODE: case CDATA_SECTION_NODE: case DOCUMENT_FRAGMENT_NODE: case DOCUMENT_NODE: case ENTITY_NODE: case NOTATION_NODE: case TEXT_NODE: case XPATH_NAMESPACE_NODE: return false; case COMMENT_NODE: case PROCESSING_INSTRUCTION_NODE: return true; case DOCUMENT_TYPE_NODE: numDoctypes++; break; case ELEMENT_NODE: numElements++; break; } } if (numElements > 1 || numDoctypes > 1) return false; return true; } PassRefPtr Document::cloneNode(bool deep) { RefPtr clone = cloneDocumentWithoutChildren(); clone->cloneDataFromDocument(*this); if (deep) cloneChildNodes(clone.get()); return clone.release(); } PassRefPtr Document::cloneDocumentWithoutChildren() { return create(); } void Document::cloneDataFromDocument(const Document& other) { m_url = other.url(); m_baseURL = other.baseURL(); m_baseURLOverride = other.baseURLOverride(); m_documentURI = other.documentURI(); setCompatibilityMode(other.compatibilityMode()); setContextFeatures(other.contextFeatures()); setSecurityOrigin(other.securityOrigin()); setDecoder(other.decoder()); } StyleSheetList* Document::styleSheets() { if (!m_styleSheetList) m_styleSheetList = StyleSheetList::create(this); return m_styleSheetList.get(); } String Document::preferredStylesheetSet() const { return m_styleSheetCollection->preferredStylesheetSetName(); } String Document::selectedStylesheetSet() const { return m_styleSheetCollection->selectedStylesheetSetName(); } void Document::setSelectedStylesheetSet(const String& aString) { m_styleSheetCollection->setSelectedStylesheetSetName(aString); styleResolverChanged(DeferRecalcStyle); } void Document::evaluateMediaQueryList() { if (m_mediaQueryMatcher) m_mediaQueryMatcher->styleResolverChanged(); } void Document::styleResolverChanged(StyleResolverUpdateType updateType, StyleResolverUpdateMode updateMode) { // Don't bother updating, since we haven't loaded all our style info yet // and haven't calculated the style selector for the first time. if (!attached() || (!m_didCalculateStyleResolver && !haveStylesheetsLoaded())) { m_styleResolver.clear(); return; } m_didCalculateStyleResolver = true; bool needsRecalc = m_styleSheetCollection->updateActiveStyleSheets(updateMode); if (updateType >= DeferRecalcStyle) { setNeedsStyleRecalc(); return; } if (didLayoutWithPendingStylesheets() && !m_styleSheetCollection->hasPendingSheets()) { m_pendingSheetLayout = IgnoreLayoutWithPendingSheets; if (renderer()) renderView()->repaintViewAndCompositedLayers(); } if (!needsRecalc) return; // This recalcStyle initiates a new recalc cycle. We need to bracket it to // make sure animations get the correct update time { AnimationUpdateBlock animationUpdateBlock(m_frame ? m_frame->animation() : 0); recalcStyle(Force); } if (renderer()) { renderer()->setNeedsLayoutAndPrefWidthsRecalc(); if (view()) view()->scheduleRelayout(); } evaluateMediaQueryList(); } void Document::notifySeamlessChildDocumentsOfStylesheetUpdate() const { // If we're not in a frame yet any potential child documents won't have a StyleResolver to update. if (!frame()) return; // Seamless child frames are expected to notify their seamless children recursively, so we only do direct children. for (Frame* child = frame()->tree()->firstChild(); child; child = child->tree()->nextSibling()) { Document* childDocument = child->document(); if (childDocument->shouldDisplaySeamlesslyWithParent()) { ASSERT(childDocument->seamlessParentIFrame()->document() == this); childDocument->seamlessParentUpdatedStylesheets(); } } } void Document::setHoverNode(PassRefPtr newHoverNode) { m_hoverNode = newHoverNode; } void Document::setActiveElement(PassRefPtr newActiveElement) { if (!newActiveElement) { m_activeElement.clear(); return; } m_activeElement = newActiveElement; } void Document::removeFocusedElementOfSubtree(Node* node, bool amongChildrenOnly) { if (!m_focusedElement) return; Element* focusedElement = node->treeScope()->adjustedFocusedElement(); if (!focusedElement) return; bool nodeInSubtree = false; if (amongChildrenOnly) nodeInSubtree = focusedElement->isDescendantOf(node); else nodeInSubtree = (focusedElement == node) || focusedElement->isDescendantOf(node); if (nodeInSubtree) setFocusedElement(0); } void Document::hoveredNodeDetached(Node* node) { if (!m_hoverNode) return; if (node != m_hoverNode && (!m_hoverNode->isTextNode() || node != NodeRenderingTraversal::parent(m_hoverNode.get()))) return; m_hoverNode = NodeRenderingTraversal::parent(node); while (m_hoverNode && !m_hoverNode->renderer()) m_hoverNode = NodeRenderingTraversal::parent(m_hoverNode.get()); // If the mouse cursor is not visible, do not clear existing // hover effects on the ancestors of |node| and do not invoke // new hover effects on any other element. if (!page()->isCursorVisible()) return; if (frame()) frame()->eventHandler()->scheduleHoverStateUpdate(); } void Document::activeChainNodeDetached(Node* node) { if (!m_activeElement) return; if (node != m_activeElement && (!m_activeElement->isTextNode() || node != NodeRenderingTraversal::parent(m_activeElement.get()))) return; Node* activeNode = NodeRenderingTraversal::parent(node); while (activeNode && activeNode->isElementNode() && !activeNode->renderer()) activeNode = NodeRenderingTraversal::parent(activeNode); m_activeElement = activeNode && activeNode->isElementNode() ? toElement(activeNode) : 0; } const Vector& Document::annotatedRegions() const { return m_annotatedRegions; } void Document::setAnnotatedRegions(const Vector& regions) { m_annotatedRegions = regions; setAnnotatedRegionsDirty(false); } bool Document::setFocusedElement(PassRefPtr prpNewFocusedElement, FocusDirection direction) { RefPtr newFocusedElement = prpNewFocusedElement; // Make sure newFocusedNode is actually in this document if (newFocusedElement && (newFocusedElement->document() != this)) return true; if (m_focusedElement == newFocusedElement) return true; bool focusChangeBlocked = false; RefPtr oldFocusedElement = m_focusedElement; m_focusedElement = 0; // Remove focus from the existing focus node (if any) if (oldFocusedElement) { ASSERT(!oldFocusedElement->inDetach()); if (oldFocusedElement->active()) oldFocusedElement->setActive(false); oldFocusedElement->setFocus(false); // Dispatch a change event for text fields or textareas that have been edited if (oldFocusedElement->wasChangedSinceLastFormControlChangeEvent()) oldFocusedElement->dispatchFormControlChangeEvent(); // Dispatch the blur event and let the node do any other blur related activities (important for text fields) oldFocusedElement->dispatchBlurEvent(newFocusedElement.get()); if (m_focusedElement) { // handler shifted focus focusChangeBlocked = true; newFocusedElement = 0; } oldFocusedElement->dispatchFocusOutEvent(eventNames().focusoutEvent, newFocusedElement.get()); // DOM level 3 name for the bubbling blur event. // FIXME: We should remove firing DOMFocusOutEvent event when we are sure no content depends // on it, probably when is resolved. oldFocusedElement->dispatchFocusOutEvent(eventNames().DOMFocusOutEvent, newFocusedElement.get()); // DOM level 2 name for compatibility. if (m_focusedElement) { // handler shifted focus focusChangeBlocked = true; newFocusedElement = 0; } if (oldFocusedElement->isRootEditableElement()) frame()->editor()->didEndEditing(); if (view()) { Widget* oldWidget = widgetForElement(oldFocusedElement.get()); if (oldWidget) oldWidget->setFocus(false); else view()->setFocus(false); } } if (newFocusedElement && newFocusedElement->isFocusable()) { if (newFocusedElement->isRootEditableElement() && !acceptsEditingFocus(newFocusedElement.get())) { // delegate blocks focus change focusChangeBlocked = true; goto SetFocusedElementDone; } // Set focus on the new node m_focusedElement = newFocusedElement; // Dispatch the focus event and let the node do any other focus related activities (important for text fields) m_focusedElement->dispatchFocusEvent(oldFocusedElement.get(), direction); if (m_focusedElement != newFocusedElement) { // handler shifted focus focusChangeBlocked = true; goto SetFocusedElementDone; } m_focusedElement->dispatchFocusInEvent(eventNames().focusinEvent, oldFocusedElement.get()); // DOM level 3 bubbling focus event. if (m_focusedElement != newFocusedElement) { // handler shifted focus focusChangeBlocked = true; goto SetFocusedElementDone; } // FIXME: We should remove firing DOMFocusInEvent event when we are sure no content depends // on it, probably when is m. m_focusedElement->dispatchFocusInEvent(eventNames().DOMFocusInEvent, oldFocusedElement.get()); // DOM level 2 for compatibility. if (m_focusedElement != newFocusedElement) { // handler shifted focus focusChangeBlocked = true; goto SetFocusedElementDone; } m_focusedElement->setFocus(true); if (m_focusedElement->isRootEditableElement()) frame()->editor()->didBeginEditing(); // eww, I suck. set the qt focus correctly // ### find a better place in the code for this if (view()) { Widget* focusWidget = widgetForElement(m_focusedElement.get()); if (focusWidget) { // Make sure a widget has the right size before giving it focus. // Otherwise, we are testing edge cases of the Widget code. // Specifically, in WebCore this does not work well for text fields. updateLayout(); // Re-get the widget in case updating the layout changed things. focusWidget = widgetForElement(m_focusedElement.get()); } if (focusWidget) focusWidget->setFocus(true); else view()->setFocus(true); } } if (!focusChangeBlocked && m_focusedElement) { // Create the AXObject cache in a focus change because Chromium relies on it. if (AXObjectCache* cache = axObjectCache()) cache->handleFocusedUIElementChanged(oldFocusedElement.get(), newFocusedElement.get()); } if (!focusChangeBlocked) page()->chrome().focusedNodeChanged(m_focusedElement.get()); SetFocusedElementDone: updateStyleIfNeeded(); if (Frame* frame = this->frame()) frame->selection()->didChangeFocus(); return !focusChangeBlocked; } void Document::setCSSTarget(Element* n) { if (m_cssTarget) m_cssTarget->didAffectSelector(AffectedSelectorTarget); m_cssTarget = n; if (n) n->didAffectSelector(AffectedSelectorTarget); } void Document::registerNodeList(LiveNodeListBase* list) { if (list->hasIdNameCache()) m_nodeListCounts[InvalidateOnIdNameAttrChange]++; m_nodeListCounts[list->invalidationType()]++; if (list->isRootedAtDocument()) m_listsInvalidatedAtDocument.add(list); } void Document::unregisterNodeList(LiveNodeListBase* list) { if (list->hasIdNameCache()) m_nodeListCounts[InvalidateOnIdNameAttrChange]--; m_nodeListCounts[list->invalidationType()]--; if (list->isRootedAtDocument()) { ASSERT(m_listsInvalidatedAtDocument.contains(list)); m_listsInvalidatedAtDocument.remove(list); } } void Document::attachNodeIterator(NodeIterator* ni) { m_nodeIterators.add(ni); } void Document::detachNodeIterator(NodeIterator* ni) { // The node iterator can be detached without having been attached if its root node didn't have a document // when the iterator was created, but has it now. m_nodeIterators.remove(ni); } void Document::moveNodeIteratorsToNewDocument(Node* node, Document* newDocument) { HashSet nodeIteratorsList = m_nodeIterators; HashSet::const_iterator nodeIteratorsEnd = nodeIteratorsList.end(); for (HashSet::const_iterator it = nodeIteratorsList.begin(); it != nodeIteratorsEnd; ++it) { if ((*it)->root() == node) { detachNodeIterator(*it); newDocument->attachNodeIterator(*it); } } } void Document::updateRangesAfterChildrenChanged(ContainerNode* container) { if (!m_ranges.isEmpty()) { HashSet::const_iterator end = m_ranges.end(); for (HashSet::const_iterator it = m_ranges.begin(); it != end; ++it) (*it)->nodeChildrenChanged(container); } } void Document::nodeChildrenWillBeRemoved(ContainerNode* container) { if (!m_ranges.isEmpty()) { HashSet::const_iterator end = m_ranges.end(); for (HashSet::const_iterator it = m_ranges.begin(); it != end; ++it) (*it)->nodeChildrenWillBeRemoved(container); } HashSet::const_iterator nodeIteratorsEnd = m_nodeIterators.end(); for (HashSet::const_iterator it = m_nodeIterators.begin(); it != nodeIteratorsEnd; ++it) { for (Node* n = container->firstChild(); n; n = n->nextSibling()) (*it)->nodeWillBeRemoved(n); } if (Frame* frame = this->frame()) { for (Node* n = container->firstChild(); n; n = n->nextSibling()) { frame->eventHandler()->nodeWillBeRemoved(n); frame->selection()->nodeWillBeRemoved(n); frame->page()->dragCaretController().nodeWillBeRemoved(n); } } } void Document::nodeWillBeRemoved(Node* n) { HashSet::const_iterator nodeIteratorsEnd = m_nodeIterators.end(); for (HashSet::const_iterator it = m_nodeIterators.begin(); it != nodeIteratorsEnd; ++it) (*it)->nodeWillBeRemoved(n); if (!m_ranges.isEmpty()) { HashSet::const_iterator rangesEnd = m_ranges.end(); for (HashSet::const_iterator it = m_ranges.begin(); it != rangesEnd; ++it) (*it)->nodeWillBeRemoved(n); } if (Frame* frame = this->frame()) { frame->eventHandler()->nodeWillBeRemoved(n); frame->selection()->nodeWillBeRemoved(n); frame->page()->dragCaretController().nodeWillBeRemoved(n); } } void Document::textInserted(Node* text, unsigned offset, unsigned length) { if (!m_ranges.isEmpty()) { HashSet::const_iterator end = m_ranges.end(); for (HashSet::const_iterator it = m_ranges.begin(); it != end; ++it) (*it)->textInserted(text, offset, length); } // Update the markers for spelling and grammar checking. m_markers->shiftMarkers(text, offset, length); } void Document::textRemoved(Node* text, unsigned offset, unsigned length) { if (!m_ranges.isEmpty()) { HashSet::const_iterator end = m_ranges.end(); for (HashSet::const_iterator it = m_ranges.begin(); it != end; ++it) (*it)->textRemoved(text, offset, length); } // Update the markers for spelling and grammar checking. m_markers->removeMarkers(text, offset, length); m_markers->shiftMarkers(text, offset + length, 0 - length); } void Document::textNodesMerged(Text* oldNode, unsigned offset) { if (!m_ranges.isEmpty()) { NodeWithIndex oldNodeWithIndex(oldNode); HashSet::const_iterator end = m_ranges.end(); for (HashSet::const_iterator it = m_ranges.begin(); it != end; ++it) (*it)->textNodesMerged(oldNodeWithIndex, offset); } // FIXME: This should update markers for spelling and grammar checking. } void Document::textNodeSplit(Text* oldNode) { if (!m_ranges.isEmpty()) { HashSet::const_iterator end = m_ranges.end(); for (HashSet::const_iterator it = m_ranges.begin(); it != end; ++it) (*it)->textNodeSplit(oldNode); } // FIXME: This should update markers for spelling and grammar checking. } void Document::setWindowAttributeEventListener(const AtomicString& eventType, PassRefPtr listener, DOMWrapperWorld* isolatedWorld) { DOMWindow* domWindow = this->domWindow(); if (!domWindow) return; domWindow->setAttributeEventListener(eventType, listener, isolatedWorld); } EventListener* Document::getWindowAttributeEventListener(const AtomicString& eventType, DOMWrapperWorld* isolatedWorld) { DOMWindow* domWindow = this->domWindow(); if (!domWindow) return 0; return domWindow->getAttributeEventListener(eventType, isolatedWorld); } void Document::dispatchWindowEvent(PassRefPtr event, PassRefPtr target) { ASSERT(!NoEventDispatchAssertion::isEventDispatchForbidden()); DOMWindow* domWindow = this->domWindow(); if (!domWindow) return; domWindow->dispatchEvent(event, target); } void Document::enqueueWindowEvent(PassRefPtr event) { event->setTarget(domWindow()); m_eventQueue->enqueueEvent(event); } void Document::enqueueDocumentEvent(PassRefPtr event) { event->setTarget(this); m_eventQueue->enqueueEvent(event); } PassRefPtr Document::createEvent(const String& eventType, ExceptionState& es) { RefPtr event = EventFactory::create(eventType); if (event) return event.release(); es.throwDOMException(NotSupportedError); return 0; } void Document::dispatchWindowLoadEvent() { ASSERT(!NoEventDispatchAssertion::isEventDispatchForbidden()); DOMWindow* domWindow = this->domWindow(); if (!domWindow) return; domWindow->dispatchLoadEvent(); } void Document::addMutationEventListenerTypeIfEnabled(ListenerType listenerType) { if (ContextFeatures::mutationEventsEnabled(this)) addListenerType(listenerType); } void Document::addListenerTypeIfNeeded(const AtomicString& eventType) { if (eventType == eventNames().DOMSubtreeModifiedEvent) addMutationEventListenerTypeIfEnabled(DOMSUBTREEMODIFIED_LISTENER); else if (eventType == eventNames().DOMNodeInsertedEvent) addMutationEventListenerTypeIfEnabled(DOMNODEINSERTED_LISTENER); else if (eventType == eventNames().DOMNodeRemovedEvent) addMutationEventListenerTypeIfEnabled(DOMNODEREMOVED_LISTENER); else if (eventType == eventNames().DOMNodeRemovedFromDocumentEvent) addMutationEventListenerTypeIfEnabled(DOMNODEREMOVEDFROMDOCUMENT_LISTENER); else if (eventType == eventNames().DOMNodeInsertedIntoDocumentEvent) addMutationEventListenerTypeIfEnabled(DOMNODEINSERTEDINTODOCUMENT_LISTENER); else if (eventType == eventNames().DOMCharacterDataModifiedEvent) addMutationEventListenerTypeIfEnabled(DOMCHARACTERDATAMODIFIED_LISTENER); else if (eventType == eventNames().overflowchangedEvent) addListenerType(OVERFLOWCHANGED_LISTENER); else if (eventType == eventNames().webkitAnimationStartEvent) addListenerType(ANIMATIONSTART_LISTENER); else if (eventType == eventNames().webkitAnimationEndEvent) addListenerType(ANIMATIONEND_LISTENER); else if (eventType == eventNames().webkitAnimationIterationEvent) addListenerType(ANIMATIONITERATION_LISTENER); else if (eventType == eventNames().webkitTransitionEndEvent || eventType == eventNames().transitionendEvent) addListenerType(TRANSITIONEND_LISTENER); else if (eventType == eventNames().beforeloadEvent) addListenerType(BEFORELOAD_LISTENER); else if (eventType == eventNames().scrollEvent) addListenerType(SCROLL_LISTENER); } CSSStyleDeclaration* Document::getOverrideStyle(Element*, const String&) { return 0; } HTMLFrameOwnerElement* Document::ownerElement() const { if (!frame()) return 0; return frame()->ownerElement(); } String Document::cookie(ExceptionState& es) const { if (page() && !page()->settings()->cookieEnabled()) return String(); // FIXME: The HTML5 DOM spec states that this attribute can raise an // InvalidStateError exception on getting if the Document has no // browsing context. if (!securityOrigin()->canAccessCookies()) { es.throwDOMException(SecurityError); return String(); } KURL cookieURL = this->cookieURL(); if (cookieURL.isEmpty()) return String(); return cookies(this, cookieURL); } void Document::setCookie(const String& value, ExceptionState& es) { if (page() && !page()->settings()->cookieEnabled()) return; // FIXME: The HTML5 DOM spec states that this attribute can raise an // InvalidStateError exception on setting if the Document has no // browsing context. if (!securityOrigin()->canAccessCookies()) { es.throwDOMException(SecurityError); return; } KURL cookieURL = this->cookieURL(); if (cookieURL.isEmpty()) return; setCookies(this, cookieURL, value); } String Document::referrer() const { if (frame()) return frame()->loader()->referrer(); return String(); } String Document::domain() const { return securityOrigin()->domain(); } void Document::setDomain(const String& newDomain, ExceptionState& es) { if (SchemeRegistry::isDomainRelaxationForbiddenForURLScheme(securityOrigin()->protocol())) { es.throwDOMException(SecurityError, "'document.domain' assignment is forbidden for the '" + securityOrigin()->protocol() + "' scheme."); return; } // Both NS and IE specify that changing the domain is only allowed when // the new domain is a suffix of the old domain. // If the new domain is the same as the old domain, still call // securityOrigin()->setDomainForDOM. This will change the // security check behavior. For example, if a page loaded on port 8000 // assigns its current domain using document.domain, the page will // allow other pages loaded on different ports in the same domain that // have also assigned to access this page. if (equalIgnoringCase(domain(), newDomain)) { securityOrigin()->setDomainFromDOM(newDomain); if (m_frame) m_frame->script()->updateSecurityOrigin(); return; } int oldLength = domain().length(); int newLength = newDomain.length(); String exceptionMessage = "'document.domain' assignment failed: '" + newDomain + "' is not a suffix of '" + domain() + "'."; // e.g. newDomain = subdomain.www.example.com (25) and domain() = www.example.com (15) if (newLength >= oldLength) { es.throwDOMException(SecurityError, exceptionMessage); return; } String test = domain(); // Check that it's a complete suffix, not e.g. "ample.com" if (test[oldLength - newLength - 1] != '.') { es.throwDOMException(SecurityError, exceptionMessage); return; } // Now test is "example.com" from domain() // and we check that it's the same thing as newDomain test.remove(0, oldLength - newLength); if (test != newDomain) { es.throwDOMException(SecurityError, exceptionMessage); return; } securityOrigin()->setDomainFromDOM(newDomain); if (m_frame) m_frame->script()->updateSecurityOrigin(); } // http://www.whatwg.org/specs/web-apps/current-work/#dom-document-lastmodified String Document::lastModified() const { DateComponents date; bool foundDate = false; if (m_frame) { String httpLastModified; if (DocumentLoader* documentLoader = loader()) httpLastModified = documentLoader->response().httpHeaderField("Last-Modified"); if (!httpLastModified.isEmpty()) { date.setMillisecondsSinceEpochForDateTime(parseDate(httpLastModified)); foundDate = true; } } // FIXME: If this document came from the file system, the HTML5 // specificiation tells us to read the last modification date from the file // system. if (!foundDate) date.setMillisecondsSinceEpochForDateTime(currentTimeMS()); return String::format("%02d/%02d/%04d %02d:%02d:%02d", date.month() + 1, date.monthDay(), date.fullYear(), date.hour(), date.minute(), date.second()); } const KURL& Document::firstPartyForCookies() const { return topDocument()->url(); } static bool isValidNameNonASCII(const LChar* characters, unsigned length) { if (!isValidNameStart(characters[0])) return false; for (unsigned i = 1; i < length; ++i) { if (!isValidNamePart(characters[i])) return false; } return true; } static bool isValidNameNonASCII(const UChar* characters, unsigned length) { unsigned i = 0; UChar32 c; U16_NEXT(characters, i, length, c) if (!isValidNameStart(c)) return false; while (i < length) { U16_NEXT(characters, i, length, c) if (!isValidNamePart(c)) return false; } return true; } template static inline bool isValidNameASCII(const CharType* characters, unsigned length) { CharType c = characters[0]; if (!(isASCIIAlpha(c) || c == ':' || c == '_')) return false; for (unsigned i = 1; i < length; ++i) { c = characters[i]; if (!(isASCIIAlphanumeric(c) || c == ':' || c == '_' || c == '-' || c == '.')) return false; } return true; } bool Document::isValidName(const String& name) { unsigned length = name.length(); if (!length) return false; if (name.is8Bit()) { const LChar* characters = name.characters8(); if (isValidNameASCII(characters, length)) return true; return isValidNameNonASCII(characters, length); } const UChar* characters = name.characters16(); if (isValidNameASCII(characters, length)) return true; return isValidNameNonASCII(characters, length); } template static bool parseQualifiedNameInternal(const String& qualifiedName, const CharType* characters, unsigned length, String& prefix, String& localName, ExceptionState& es) { bool nameStart = true; bool sawColon = false; int colonPos = 0; for (unsigned i = 0; i < length;) { UChar32 c; U16_NEXT(characters, i, length, c) if (c == ':') { if (sawColon) { es.throwDOMException(NamespaceError); return false; // multiple colons: not allowed } nameStart = true; sawColon = true; colonPos = i - 1; } else if (nameStart) { if (!isValidNameStart(c)) { es.throwDOMException(InvalidCharacterError); return false; } nameStart = false; } else { if (!isValidNamePart(c)) { es.throwDOMException(InvalidCharacterError); return false; } } } if (!sawColon) { prefix = String(); localName = qualifiedName; } else { prefix = qualifiedName.substring(0, colonPos); if (prefix.isEmpty()) { es.throwDOMException(NamespaceError); return false; } localName = qualifiedName.substring(colonPos + 1); } if (localName.isEmpty()) { es.throwDOMException(NamespaceError); return false; } return true; } bool Document::parseQualifiedName(const String& qualifiedName, String& prefix, String& localName, ExceptionState& es) { unsigned length = qualifiedName.length(); if (!length) { es.throwDOMException(InvalidCharacterError); return false; } if (qualifiedName.is8Bit()) return parseQualifiedNameInternal(qualifiedName, qualifiedName.characters8(), length, prefix, localName, es); return parseQualifiedNameInternal(qualifiedName, qualifiedName.characters16(), length, prefix, localName, es); } void Document::setDecoder(PassRefPtr decoder) { m_decoder = decoder; } KURL Document::completeURL(const String& url, const KURL& baseURLOverride) const { // Always return a null URL when passed a null string. // FIXME: Should we change the KURL constructor to have this behavior? // See also [CSS]StyleSheet::completeURL(const String&) if (url.isNull()) return KURL(); const KURL& baseURL = ((baseURLOverride.isEmpty() || baseURLOverride == blankURL()) && parentDocument()) ? parentDocument()->baseURL() : baseURLOverride; if (!m_decoder) return KURL(baseURL, url); return KURL(baseURL, url, m_decoder->encoding()); } KURL Document::completeURL(const String& url) const { return completeURL(url, m_baseURL); } void Document::documentWillBecomeInactive() { if (renderer()) renderView()->setIsInWindow(false); } // Support for Javascript execCommand, and related methods static Editor::Command command(Document* document, const String& commandName, bool userInterface = false) { Frame* frame = document->frame(); if (!frame || frame->document() != document) return Editor::Command(); document->updateStyleIfNeeded(); return frame->editor()->command(commandName, userInterface ? CommandFromDOMWithUserInterface : CommandFromDOM); } bool Document::execCommand(const String& commandName, bool userInterface, const String& value) { return command(this, commandName, userInterface).execute(value); } bool Document::queryCommandEnabled(const String& commandName) { return command(this, commandName).isEnabled(); } bool Document::queryCommandIndeterm(const String& commandName) { return command(this, commandName).state() == MixedTriState; } bool Document::queryCommandState(const String& commandName) { return command(this, commandName).state() == TrueTriState; } bool Document::queryCommandSupported(const String& commandName) { return command(this, commandName).isSupported(); } String Document::queryCommandValue(const String& commandName) { return command(this, commandName).value(); } KURL Document::openSearchDescriptionURL() { static const char* const openSearchMIMEType = "application/opensearchdescription+xml"; static const char* const openSearchRelation = "search"; // FIXME: Why do only top-level frames have openSearchDescriptionURLs? if (!frame() || frame()->tree()->parent()) return KURL(); // FIXME: Why do we need to wait for FrameStateComplete? if (frame()->loader()->state() != FrameStateComplete) return KURL(); if (!head()) return KURL(); RefPtr children = head()->children(); for (unsigned i = 0; Node* child = children->item(i); i++) { if (!child->hasTagName(linkTag)) continue; HTMLLinkElement* linkElement = toHTMLLinkElement(child); if (!equalIgnoringCase(linkElement->type(), openSearchMIMEType) || !equalIgnoringCase(linkElement->rel(), openSearchRelation)) continue; if (linkElement->href().isEmpty()) continue; return linkElement->href(); } return KURL(); } void Document::pushCurrentScript(PassRefPtr newCurrentScript) { ASSERT(newCurrentScript); m_currentScriptStack.append(newCurrentScript); } void Document::popCurrentScript() { ASSERT(!m_currentScriptStack.isEmpty()); m_currentScriptStack.removeLast(); } void Document::applyXSLTransform(ProcessingInstruction* pi) { ASSERT(!pi->isLoading()); UseCounter::count(this, UseCounter::XSLProcessingInstruction); RefPtr processor = XSLTProcessor::create(); processor->setXSLStyleSheet(static_cast(pi->sheet())); String resultMIMEType; String newSource; String resultEncoding; if (!processor->transformToString(this, resultMIMEType, newSource, resultEncoding)) return; // FIXME: If the transform failed we should probably report an error (like Mozilla does). Frame* ownerFrame = frame(); processor->createDocumentFromSource(newSource, resultEncoding, resultMIMEType, this, ownerFrame); InspectorInstrumentation::frameDocumentUpdated(ownerFrame); } void Document::setTransformSource(PassOwnPtr source) { m_transformSource = source; } void Document::setDesignMode(InheritedBool value) { m_designMode = value; for (Frame* frame = m_frame; frame && frame->document(); frame = frame->tree()->traverseNext(m_frame)) frame->document()->setNeedsStyleRecalc(); } Document::InheritedBool Document::getDesignMode() const { return m_designMode; } bool Document::inDesignMode() const { for (const Document* d = this; d; d = d->parentDocument()) { if (d->m_designMode != inherit) return d->m_designMode; } return false; } Document* Document::parentDocument() const { if (!m_frame) return 0; Frame* parent = m_frame->tree()->parent(); if (!parent) return 0; return parent->document(); } Document* Document::topDocument() const { Document* doc = const_cast(this); Element* element; while ((element = doc->ownerElement())) doc = element->document(); return doc; } PassRefPtr Document::createAttribute(const String& name, ExceptionState& es) { return createAttributeNS(String(), name, es, true); } PassRefPtr Document::createAttributeNS(const String& namespaceURI, const String& qualifiedName, ExceptionState& es, bool shouldIgnoreNamespaceChecks) { String prefix, localName; if (!parseQualifiedName(qualifiedName, prefix, localName, es)) return 0; QualifiedName qName(prefix, localName, namespaceURI); if (!shouldIgnoreNamespaceChecks && !hasValidNamespaceForAttributes(qName)) { es.throwDOMException(NamespaceError); return 0; } return Attr::create(this, qName, emptyString()); } const SVGDocumentExtensions* Document::svgExtensions() { return m_svgExtensions.get(); } SVGDocumentExtensions* Document::accessSVGExtensions() { if (!m_svgExtensions) m_svgExtensions = adoptPtr(new SVGDocumentExtensions(this)); return m_svgExtensions.get(); } bool Document::hasSVGRootNode() const { return documentElement() && documentElement()->hasTagName(SVGNames::svgTag); } PassRefPtr Document::ensureCachedCollection(CollectionType type) { return ensureRareData()->ensureNodeLists()->addCacheWithAtomicName(this, type); } PassRefPtr Document::images() { return ensureCachedCollection(DocImages); } PassRefPtr Document::applets() { return ensureCachedCollection(DocApplets); } PassRefPtr Document::embeds() { return ensureCachedCollection(DocEmbeds); } PassRefPtr Document::plugins() { // This is an alias for embeds() required for the JS DOM bindings. return ensureCachedCollection(DocEmbeds); } PassRefPtr Document::scripts() { return ensureCachedCollection(DocScripts); } PassRefPtr Document::links() { return ensureCachedCollection(DocLinks); } PassRefPtr Document::forms() { return ensureCachedCollection(DocForms); } PassRefPtr Document::anchors() { return ensureCachedCollection(DocAnchors); } PassRefPtr Document::allForBinding() { UseCounter::count(this, UseCounter::DocumentAll); return all(); } PassRefPtr Document::all() { return ensureRareData()->ensureNodeLists()->addCacheWithAtomicName(this, DocAll); } PassRefPtr Document::windowNamedItems(const AtomicString& name) { return ensureRareData()->ensureNodeLists()->addCacheWithAtomicName(this, WindowNamedItems, name); } PassRefPtr Document::documentNamedItems(const AtomicString& name) { return ensureRareData()->ensureNodeLists()->addCacheWithAtomicName(this, DocumentNamedItems, name); } void Document::finishedParsing() { ASSERT(!scriptableDocumentParser() || !m_parser->isParsing()); ASSERT(!scriptableDocumentParser() || m_readyState != Loading); setParsing(false); if (!m_documentTiming.domContentLoadedEventStart) m_documentTiming.domContentLoadedEventStart = monotonicallyIncreasingTime(); dispatchEvent(Event::create(eventNames().DOMContentLoadedEvent, true, false)); if (!m_documentTiming.domContentLoadedEventEnd) m_documentTiming.domContentLoadedEventEnd = monotonicallyIncreasingTime(); // The loader's finishedParsing() method may invoke script that causes this object to // be dereferenced (when this document is in an iframe and the onload causes the iframe's src to change). // Keep it alive until we are done. RefPtr protect(this); if (RefPtr f = frame()) { // FrameLoader::finishedParsing() might end up calling Document::implicitClose() if all // resource loads are complete. HTMLObjectElements can start loading their resources from // post attach callbacks triggered by recalcStyle(). This means if we parse out an // tag and then reach the end of the document without updating styles, we might not have yet // started the resource load and might fire the window load event too early. To avoid this // we force the styles to be up to date before calling FrameLoader::finishedParsing(). // See https://bugs.webkit.org/show_bug.cgi?id=36864 starting around comment 35. updateStyleIfNeeded(); f->loader()->finishedParsing(); InspectorInstrumentation::domContentLoadedEventFired(f.get()); } // Schedule dropping of the DocumentSharedObjectPool. We keep it alive for a while after parsing finishes // so that dynamically inserted content can also benefit from sharing optimizations. // Note that we don't refresh the timer on pool access since that could lead to huge caches being kept // alive indefinitely by something innocuous like JS setting .innerHTML repeatedly on a timer. static const int timeToKeepSharedObjectPoolAliveAfterParsingFinishedInSeconds = 10; m_sharedObjectPoolClearTimer.startOneShot(timeToKeepSharedObjectPoolAliveAfterParsingFinishedInSeconds); // Parser should have picked up all preloads by now m_fetcher->clearPreloads(); if (m_import) m_import->didFinishParsing(); } void Document::sharedObjectPoolClearTimerFired(Timer*) { m_sharedObjectPool.clear(); } void Document::didAccessStyleResolver() { static const int timeBeforeThrowingAwayStyleResolverAfterLastUseInSeconds = 60; static const int holdOffTimeBeforeReschedulingTimerInSeconds = 5; double currentTime = WTF::currentTime(); if (currentTime > m_lastStyleResolverAccessTime + holdOffTimeBeforeReschedulingTimerInSeconds) { m_styleResolverThrowawayTimer.startOneShot(timeBeforeThrowingAwayStyleResolverAfterLastUseInSeconds); m_lastStyleResolverAccessTime = currentTime; } } void Document::styleResolverThrowawayTimerFired(Timer*) { ASSERT(!m_inStyleRecalc); clearStyleResolver(); } const Vector& Document::shortcutIconURLs() { // Include any icons where type = link, rel = "shortcut icon". return iconURLs(Favicon); } const Vector& Document::iconURLs(int iconTypesMask) { m_iconURLs.clear(); if (!head() || !(head()->children())) return m_iconURLs; RefPtr children = head()->children(); unsigned int length = children->length(); for (unsigned int i = 0; i < length; ++i) { Node* child = children->item(i); if (!child->hasTagName(linkTag)) continue; HTMLLinkElement* linkElement = toHTMLLinkElement(child); if (!(linkElement->iconType() & iconTypesMask)) continue; if (linkElement->href().isEmpty()) continue; // Put it at the front to ensure that icons seen later take precedence as required by the spec. IconURL newURL(linkElement->href(), linkElement->iconSizes(), linkElement->type(), linkElement->iconType()); m_iconURLs.prepend(newURL); } return m_iconURLs; } void Document::setUseSecureKeyboardEntryWhenActive(bool usesSecureKeyboard) { if (m_useSecureKeyboardEntryWhenActive == usesSecureKeyboard) return; m_useSecureKeyboardEntryWhenActive = usesSecureKeyboard; m_frame->selection()->updateSecureKeyboardEntryIfActive(); } bool Document::useSecureKeyboardEntryWhenActive() const { return m_useSecureKeyboardEntryWhenActive; } static bool isEligibleForSeamless(Document* parent, Document* child) { // It should not matter what we return for the top-most document. if (!parent) return false; if (parent->isSandboxed(SandboxSeamlessIframes)) return false; if (child->isSrcdocDocument()) return true; if (parent->securityOrigin()->canAccess(child->securityOrigin())) return true; return parent->securityOrigin()->canRequest(child->url()); } void Document::initSecurityContext() { initSecurityContext(DocumentInit(m_url, m_frame, m_import)); } void Document::initSecurityContext(const DocumentInit& initializer) { if (haveInitializedSecurityOrigin()) { ASSERT(securityOrigin()); return; } if (!initializer.hasSecurityContext()) { // No source for a security context. // This can occur via document.implementation.createDocument(). m_cookieURL = KURL(ParsedURLString, emptyString()); setSecurityOrigin(SecurityOrigin::createUnique()); setContentSecurityPolicy(ContentSecurityPolicy::create(this)); return; } // In the common case, create the security context from the currently // loading URL with a fresh content security policy. m_cookieURL = m_url; enforceSandboxFlags(initializer.sandboxFlags()); setSecurityOrigin(isSandboxed(SandboxOrigin) ? SecurityOrigin::createUnique() : SecurityOrigin::create(m_url)); setContentSecurityPolicy(ContentSecurityPolicy::create(this)); if (Settings* settings = initializer.settings()) { if (!settings->webSecurityEnabled()) { // Web security is turned off. We should let this document access every other document. This is used primary by testing // harnesses for web sites. securityOrigin()->grantUniversalAccess(); } else if (securityOrigin()->isLocal()) { if (settings->allowUniversalAccessFromFileURLs()) { // Some clients want local URLs to have universal access, but that setting is dangerous for other clients. securityOrigin()->grantUniversalAccess(); } else if (!settings->allowFileAccessFromFileURLs()) { // Some clients want local URLs to have even tighter restrictions by default, and not be able to access other local files. // FIXME 81578: The naming of this is confusing. Files with restricted access to other local files // still can have other privileges that can be remembered, thereby not making them unique origins. securityOrigin()->enforceFilePathSeparation(); } } } Document* parentDocument = ownerElement() ? ownerElement()->document() : 0; if (parentDocument && initializer.shouldTreatURLAsSrcdocDocument()) { m_isSrcdocDocument = true; setBaseURLOverride(parentDocument->baseURL()); } // FIXME: What happens if we inherit the security origin? This check may need to be later. //