/* * Copyright (C) 1999 Lars Knoll (knoll@kde.org) * (C) 1999 Antti Koivisto (koivisto@kde.org) * Copyright (C) 2004, 2005, 2006, 2007, 2009, 2010 Apple Inc. 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 "sky/engine/core/loader/ImageLoader.h" #include "sky/engine/core/dom/Document.h" #include "sky/engine/core/dom/Element.h" #include "sky/engine/core/dom/IncrementLoadEventDelayCount.h" #include "sky/engine/core/dom/Microtask.h" #include "sky/engine/core/events/Event.h" #include "sky/engine/core/events/EventSender.h" #include "sky/engine/core/fetch/FetchRequest.h" #include "sky/engine/core/fetch/MemoryCache.h" #include "sky/engine/core/fetch/ResourceFetcher.h" #include "sky/engine/core/frame/LocalFrame.h" #include "sky/engine/core/html/HTMLImageElement.h" #include "sky/engine/core/html/parser/HTMLParserIdioms.h" #include "sky/engine/core/rendering/RenderImage.h" #include "sky/engine/platform/Logging.h" #include "sky/engine/public/platform/WebURLRequest.h" namespace blink { static ImageEventSender& loadEventSender() { DEFINE_STATIC_LOCAL(ImageEventSender, sender, (EventTypeNames::load)); return sender; } static ImageEventSender& errorEventSender() { DEFINE_STATIC_LOCAL(ImageEventSender, sender, (EventTypeNames::error)); return sender; } static inline bool pageIsBeingDismissed(Document* document) { return document->pageDismissalEventBeingDispatched() != Document::NoDismissal; } class ImageLoader::Task : public blink::WebThread::Task { public: static PassOwnPtr create(ImageLoader* loader, UpdateFromElementBehavior updateBehavior) { return adoptPtr(new Task(loader, updateBehavior)); } Task(ImageLoader* loader, UpdateFromElementBehavior updateBehavior) : m_loader(loader) , m_weakFactory(this) , m_updateBehavior(updateBehavior) { } virtual void run() override { if (m_loader) { m_loader->doUpdateFromElement(m_updateBehavior); } } void clearLoader() { m_loader = 0; } WeakPtr createWeakPtr() { return m_weakFactory.createWeakPtr(); } private: ImageLoader* m_loader; WeakPtrFactory m_weakFactory; UpdateFromElementBehavior m_updateBehavior; }; ImageLoader::ImageLoader(Element* element) : m_element(element) , m_image(0) , m_derefElementTimer(this, &ImageLoader::timerFired) , m_hasPendingLoadEvent(false) , m_hasPendingErrorEvent(false) , m_imageComplete(true) , m_elementIsProtected(false) , m_highPriorityClientCount(0) { WTF_LOG(Timers, "new ImageLoader %p", this); } ImageLoader::~ImageLoader() { WTF_LOG(Timers, "~ImageLoader %p; m_hasPendingLoadEvent=%d, m_hasPendingErrorEvent=%d", this, m_hasPendingLoadEvent, m_hasPendingErrorEvent); if (m_pendingTask) m_pendingTask->clearLoader(); if (m_image) m_image->removeClient(this); ASSERT(m_hasPendingLoadEvent || !loadEventSender().hasPendingEvents(this)); if (m_hasPendingLoadEvent) loadEventSender().cancelEvent(this); ASSERT(m_hasPendingErrorEvent || !errorEventSender().hasPendingEvents(this)); if (m_hasPendingErrorEvent) errorEventSender().cancelEvent(this); } void ImageLoader::setImage(ImageResource* newImage) { setImageWithoutConsideringPendingLoadEvent(newImage); // Only consider updating the protection ref-count of the Element immediately before returning // from this function as doing so might result in the destruction of this ImageLoader. updatedHasPendingEvent(); } void ImageLoader::setImageWithoutConsideringPendingLoadEvent(ImageResource* newImage) { ASSERT(m_failedLoadURL.isEmpty()); ImageResource* oldImage = m_image.get(); if (newImage != oldImage) { sourceImageChanged(); m_image = newImage; if (m_hasPendingLoadEvent) { loadEventSender().cancelEvent(this); m_hasPendingLoadEvent = false; } if (m_hasPendingErrorEvent) { errorEventSender().cancelEvent(this); m_hasPendingErrorEvent = false; } m_imageComplete = true; if (newImage) newImage->addClient(this); if (oldImage) oldImage->removeClient(this); } if (RenderImageResource* imageResource = renderImageResource()) imageResource->resetAnimation(); } inline void ImageLoader::crossSiteOrCSPViolationOccured(AtomicString imageSourceURL) { m_failedLoadURL = imageSourceURL; m_hasPendingErrorEvent = true; errorEventSender().dispatchEventSoon(this); } inline void ImageLoader::clearFailedLoadURL() { m_failedLoadURL = AtomicString(); } inline void ImageLoader::enqueueImageLoadingMicroTask(UpdateFromElementBehavior updateBehavior) { OwnPtr task = Task::create(this, updateBehavior); m_pendingTask = task->createWeakPtr(); Microtask::enqueueMicrotask(task.release()); m_loadDelayCounter = IncrementLoadEventDelayCount::create(m_element->document()); } void ImageLoader::doUpdateFromElement(UpdateFromElementBehavior updateBehavior) { // FIXME: According to // http://www.whatwg.org/specs/web-apps/current-work/multipage/embedded-content.html#the-img-element:the-img-element-55 // When "update image" is called due to environment changes and the load fails, onerror should not be called. // That is currently not the case. // // We don't need to call clearLoader here: Either we were called from the // task, or our caller updateFromElement cleared the task's loader (and set // m_pendingTask to null). m_pendingTask.clear(); // Make sure to only decrement the count when we exit this function OwnPtr loadDelayCounter; loadDelayCounter.swap(m_loadDelayCounter); Document& document = m_element->document(); if (!document.isActive()) return; AtomicString imageSourceURL = m_element->imageSourceURL(); KURL url = imageSourceToKURL(imageSourceURL); ResourcePtr newImage = 0; if (!url.isNull()) { // Unlike raw , we block mixed content inside of or . ResourceLoaderOptions resourceLoaderOptions = ResourceFetcher::defaultResourceOptions(); ResourceRequest resourceRequest(url); FetchRequest request(ResourceRequest(url), element()->localName(), resourceLoaderOptions); newImage = document.fetcher()->fetchImage(request); if (!newImage && !pageIsBeingDismissed(&document)) crossSiteOrCSPViolationOccured(imageSourceURL); else clearFailedLoadURL(); } else if (!imageSourceURL.isNull()) { // Fire an error event if the url string is not empty, but the KURL is. m_hasPendingErrorEvent = true; errorEventSender().dispatchEventSoon(this); } ImageResource* oldImage = m_image.get(); if (newImage != oldImage) { sourceImageChanged(); if (m_hasPendingLoadEvent) { loadEventSender().cancelEvent(this); m_hasPendingLoadEvent = false; } // Cancel error events that belong to the previous load, which is now cancelled by changing the src attribute. // If newImage is null and m_hasPendingErrorEvent is true, we know the error event has been just posted by // this load and we should not cancel the event. // FIXME: If both previous load and this one got blocked with an error, we can receive one error event instead of two. if (m_hasPendingErrorEvent && newImage) { errorEventSender().cancelEvent(this); m_hasPendingErrorEvent = false; } m_image = newImage; m_hasPendingLoadEvent = newImage; m_imageComplete = !newImage; updateRenderer(); // If newImage exists and is cached, addClient() will result in the load event // being queued to fire. Ensure this happens after beforeload is dispatched. if (newImage) newImage->addClient(this); if (oldImage) oldImage->removeClient(this); } else if (updateBehavior == UpdateSizeChanged && m_element->renderer() && m_element->renderer()->isImage()) { toRenderImage(m_element->renderer())->intrinsicSizeChanged(); } if (RenderImageResource* imageResource = renderImageResource()) imageResource->resetAnimation(); // Only consider updating the protection ref-count of the Element immediately before returning // from this function as doing so might result in the destruction of this ImageLoader. updatedHasPendingEvent(); } void ImageLoader::updateFromElement(UpdateFromElementBehavior updateBehavior, LoadType loadType) { AtomicString imageSourceURL = m_element->imageSourceURL(); if (updateBehavior == UpdateIgnorePreviousError) clearFailedLoadURL(); if (!m_failedLoadURL.isEmpty() && imageSourceURL == m_failedLoadURL) return; // If we have a pending task, we have to clear it -- either we're // now loading immediately, or we need to reset the task's state. if (m_pendingTask) { m_pendingTask->clearLoader(); m_pendingTask.clear(); } KURL url = imageSourceToKURL(imageSourceURL); if (imageSourceURL.isNull() || url.isNull() || shouldLoadImmediately(url, loadType)) { doUpdateFromElement(updateBehavior); return; } enqueueImageLoadingMicroTask(updateBehavior); } KURL ImageLoader::imageSourceToKURL(AtomicString imageSourceURL) const { KURL url; // Don't load images for inactive documents. We don't want to slow down the // raw HTML parsing case by loading images we don't intend to display. Document& document = m_element->document(); if (!document.isActive()) return url; // Do not load any image if the 'src' attribute is missing or if it is // an empty string. if (!imageSourceURL.isNull() && !stripLeadingAndTrailingHTMLSpaces(imageSourceURL).isEmpty()) url = document.completeURL(sourceURI(imageSourceURL)); return url; } bool ImageLoader::shouldLoadImmediately(const KURL& url, LoadType loadType) const { return url.protocolIsData() || memoryCache()->resourceForURL(url) || loadType == ForceLoadImmediately; } void ImageLoader::notifyFinished(Resource* resource) { WTF_LOG(Timers, "ImageLoader::notifyFinished %p; m_hasPendingLoadEvent=%d", this, m_hasPendingLoadEvent); ASSERT(m_failedLoadURL.isEmpty()); ASSERT(resource == m_image.get()); m_imageComplete = true; updateRenderer(); if (!m_hasPendingLoadEvent) return; if (resource->errorOccurred()) { loadEventSender().cancelEvent(this); m_hasPendingLoadEvent = false; m_hasPendingErrorEvent = true; errorEventSender().dispatchEventSoon(this); // Only consider updating the protection ref-count of the Element immediately before returning // from this function as doing so might result in the destruction of this ImageLoader. updatedHasPendingEvent(); return; } if (resource->wasCanceled()) { m_hasPendingLoadEvent = false; // Only consider updating the protection ref-count of the Element immediately before returning // from this function as doing so might result in the destruction of this ImageLoader. updatedHasPendingEvent(); return; } loadEventSender().dispatchEventSoon(this); } RenderImageResource* ImageLoader::renderImageResource() { RenderObject* renderer = m_element->renderer(); if (!renderer) return 0; if (renderer->isImage()) return toRenderImage(renderer)->imageResource(); return 0; } void ImageLoader::updateRenderer() { RenderImageResource* imageResource = renderImageResource(); if (!imageResource) return; // Only update the renderer if it doesn't have an image or if what we have // is a complete image. This prevents flickering in the case where a dynamic // change is happening between two images. ImageResource* cachedImage = imageResource->cachedImage(); if (m_image != cachedImage && (m_imageComplete || !cachedImage)) imageResource->setImageResource(m_image.get()); } void ImageLoader::updatedHasPendingEvent() { // If an Element that does image loading is removed from the DOM the load/error event for the image is still observable. // As long as the ImageLoader is actively loading, the Element itself needs to be ref'ed to keep it from being // destroyed by DOM manipulation or garbage collection. // If such an Element wishes for the load to stop when removed from the DOM it needs to stop the ImageLoader explicitly. bool wasProtected = m_elementIsProtected; m_elementIsProtected = m_hasPendingLoadEvent || m_hasPendingErrorEvent; if (wasProtected == m_elementIsProtected) return; if (m_elementIsProtected) { if (m_derefElementTimer.isActive()) m_derefElementTimer.stop(); else m_keepAlive = m_element; } else { ASSERT(!m_derefElementTimer.isActive()); m_derefElementTimer.startOneShot(0, FROM_HERE); } } void ImageLoader::timerFired(Timer*) { m_keepAlive.clear(); } void ImageLoader::dispatchPendingEvent(ImageEventSender* eventSender) { WTF_LOG(Timers, "ImageLoader::dispatchPendingEvent %p", this); ASSERT(eventSender == &loadEventSender() || eventSender == &errorEventSender()); const AtomicString& eventType = eventSender->eventType(); if (eventType == EventTypeNames::load) dispatchPendingLoadEvent(); if (eventType == EventTypeNames::error) dispatchPendingErrorEvent(); } void ImageLoader::dispatchPendingLoadEvent() { if (!m_hasPendingLoadEvent) return; if (!m_image) return; m_hasPendingLoadEvent = false; if (element()->document().frame()) dispatchLoadEvent(); // Only consider updating the protection ref-count of the Element immediately before returning // from this function as doing so might result in the destruction of this ImageLoader. updatedHasPendingEvent(); } void ImageLoader::dispatchPendingErrorEvent() { if (!m_hasPendingErrorEvent) return; m_hasPendingErrorEvent = false; if (element()->document().frame()) element()->dispatchEvent(Event::create(EventTypeNames::error)); // Only consider updating the protection ref-count of the Element immediately before returning // from this function as doing so might result in the destruction of this ImageLoader. updatedHasPendingEvent(); } void ImageLoader::addClient(ImageLoaderClient* client) { if (client->requestsHighLiveResourceCachePriority()) { if (m_image && !m_highPriorityClientCount++) memoryCache()->updateDecodedResource(m_image.get(), UpdateForPropertyChange, MemoryCacheLiveResourcePriorityHigh); } m_clients.add(client); } void ImageLoader::willRemoveClient(ImageLoaderClient& client) { if (client.requestsHighLiveResourceCachePriority()) { ASSERT(m_highPriorityClientCount); m_highPriorityClientCount--; if (m_image && !m_highPriorityClientCount) memoryCache()->updateDecodedResource(m_image.get(), UpdateForPropertyChange, MemoryCacheLiveResourcePriorityLow); } } void ImageLoader::removeClient(ImageLoaderClient* client) { willRemoveClient(*client); m_clients.remove(client); } void ImageLoader::dispatchPendingLoadEvents() { loadEventSender().dispatchPendingEvents(); } void ImageLoader::dispatchPendingErrorEvents() { errorEventSender().dispatchPendingEvents(); } void ImageLoader::elementDidMoveToNewDocument() { if (m_loadDelayCounter) m_loadDelayCounter->documentChanged(m_element->document()); clearFailedLoadURL(); setImage(0); } void ImageLoader::sourceImageChanged() { HashSet::iterator end = m_clients.end(); for (HashSet::iterator it = m_clients.begin(); it != end; ++it) { ImageLoaderClient* handle = *it; handle->notifyImageSourceChanged(); } } }