/* Copyright (C) 1998 Lars Knoll (knoll@mpi-hd.mpg.de) Copyright (C) 2001 Dirk Mueller (mueller@kde.org) Copyright (C) 2002 Waldo Bastian (bastian@kde.org) Copyright (C) 2006 Samuel Weinig (sam.weinig@gmail.com) Copyright (C) 2004, 2005, 2006, 2007 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 "config.h" #include "CachedImage.h" #include "BitmapImage.h" #include "MemoryCache.h" #include "CachedResourceClient.h" #include "CachedResourceClientWalker.h" #include "CachedResourceLoader.h" #include "CachedResourceRequest.h" #include "Frame.h" #include "FrameLoaderClient.h" #include "FrameLoaderTypes.h" #include "FrameView.h" #include "Settings.h" #include "SharedBuffer.h" #include #include #include #if USE(CG) #include "PDFDocumentImage.h" #endif #if ENABLE(SVG_AS_IMAGE) #include "SVGImage.h" #endif using std::max; namespace WebCore { CachedImage::CachedImage(const String& url) : CachedResource(url, ImageResource) , m_image(0) , m_decodedDataDeletionTimer(this, &CachedImage::decodedDataDeletionTimerFired) , m_shouldPaintBrokenImage(true) , m_autoLoadWasPreventedBySettings(false) { setStatus(Unknown); } CachedImage::CachedImage(Image* image) : CachedResource(String(), ImageResource) , m_image(image) , m_decodedDataDeletionTimer(this, &CachedImage::decodedDataDeletionTimerFired) , m_shouldPaintBrokenImage(true) , m_autoLoadWasPreventedBySettings(false) { setStatus(Cached); setLoading(false); } CachedImage::~CachedImage() { } void CachedImage::decodedDataDeletionTimerFired(Timer*) { ASSERT(!hasClients()); destroyDecodedData(); } void CachedImage::load(CachedResourceLoader* cachedResourceLoader) { #ifdef ANDROID_BLOCK_NETWORK_IMAGE if (!cachedResourceLoader || (cachedResourceLoader->autoLoadImages() && !cachedResourceLoader->shouldBlockNetworkImage(m_url))) #else if (!cachedResourceLoader || cachedResourceLoader->autoLoadImages()) #endif CachedResource::load(cachedResourceLoader, true, DoSecurityCheck, true); else setLoading(false); } void CachedImage::didAddClient(CachedResourceClient* c) { if (m_decodedDataDeletionTimer.isActive()) m_decodedDataDeletionTimer.stop(); if (m_data && !m_image && !errorOccurred()) { createImage(); m_image->setData(m_data, true); } if (m_image && !m_image->isNull()) c->imageChanged(this); CachedResource::didAddClient(c); } void CachedImage::allClientsRemoved() { if (m_image && !errorOccurred()) m_image->resetAnimation(); if (double interval = memoryCache()->deadDecodedDataDeletionInterval()) m_decodedDataDeletionTimer.startOneShot(interval); } static Image* brokenImage() { DEFINE_STATIC_LOCAL(RefPtr, brokenImage, (Image::loadPlatformResource("missingImage"))); return brokenImage.get(); } Image* CachedImage::image() const { ASSERT(!isPurgeable()); if (errorOccurred() && m_shouldPaintBrokenImage) return brokenImage(); if (m_image) return m_image.get(); return Image::nullImage(); } void CachedImage::setImageContainerSize(const IntSize& containerSize) { if (m_image) m_image->setContainerSize(containerSize); } bool CachedImage::usesImageContainerSize() const { if (m_image) return m_image->usesContainerSize(); return false; } bool CachedImage::imageHasRelativeWidth() const { if (m_image) return m_image->hasRelativeWidth(); return false; } bool CachedImage::imageHasRelativeHeight() const { if (m_image) return m_image->hasRelativeHeight(); return false; } IntSize CachedImage::imageSize(float multiplier) const { ASSERT(!isPurgeable()); if (!m_image) return IntSize(); if (multiplier == 1.0f) return m_image->size(); // Don't let images that have a width/height >= 1 shrink below 1 when zoomed. bool hasWidth = m_image->size().width() > 0; bool hasHeight = m_image->size().height() > 0; int width = m_image->size().width() * (m_image->hasRelativeWidth() ? 1.0f : multiplier); int height = m_image->size().height() * (m_image->hasRelativeHeight() ? 1.0f : multiplier); if (hasWidth) width = max(1, width); if (hasHeight) height = max(1, height); return IntSize(width, height); } IntRect CachedImage::imageRect(float multiplier) const { ASSERT(!isPurgeable()); if (!m_image) return IntRect(); if (multiplier == 1.0f || (!m_image->hasRelativeWidth() && !m_image->hasRelativeHeight())) return m_image->rect(); float widthMultiplier = (m_image->hasRelativeWidth() ? 1.0f : multiplier); float heightMultiplier = (m_image->hasRelativeHeight() ? 1.0f : multiplier); // Don't let images that have a width/height >= 1 shrink below 1 when zoomed. bool hasWidth = m_image->rect().width() > 0; bool hasHeight = m_image->rect().height() > 0; int width = static_cast(m_image->rect().width() * widthMultiplier); int height = static_cast(m_image->rect().height() * heightMultiplier); if (hasWidth) width = max(1, width); if (hasHeight) height = max(1, height); int x = static_cast(m_image->rect().x() * widthMultiplier); int y = static_cast(m_image->rect().y() * heightMultiplier); return IntRect(x, y, width, height); } void CachedImage::notifyObservers(const IntRect* changeRect) { CachedResourceClientWalker w(m_clients); while (CachedResourceClient* c = w.next()) c->imageChanged(this, changeRect); } void CachedImage::checkShouldPaintBrokenImage() { Frame* frame = m_request ? m_request->cachedResourceLoader()->frame() : 0; if (!frame) return; m_shouldPaintBrokenImage = frame->loader()->client()->shouldPaintBrokenImage(KURL(ParsedURLString, m_url)); } void CachedImage::clear() { destroyDecodedData(); m_image = 0; setEncodedSize(0); } inline void CachedImage::createImage() { // Create the image if it doesn't yet exist. if (m_image) return; #if USE(CG) && !USE(WEBKIT_IMAGE_DECODERS) if (m_response.mimeType() == "application/pdf") { m_image = PDFDocumentImage::create(); return; } #endif #if ENABLE(SVG_AS_IMAGE) if (m_response.mimeType() == "image/svg+xml") { m_image = SVGImage::create(this); return; } #endif m_image = BitmapImage::create(this); #if PLATFORM(ANDROID) m_image->setURL(url()); #endif } size_t CachedImage::maximumDecodedImageSize() { Frame* frame = m_request ? m_request->cachedResourceLoader()->frame() : 0; if (!frame) return 0; Settings* settings = frame->settings(); return settings ? settings->maximumDecodedImageSize() : 0; } void CachedImage::data(PassRefPtr data, bool allDataReceived) { m_data = data; createImage(); bool sizeAvailable = false; // Have the image update its data from its internal buffer. // It will not do anything now, but will delay decoding until // queried for info (like size or specific image frames). sizeAvailable = m_image->setData(m_data, allDataReceived); // Go ahead and tell our observers to try to draw if we have either // received all the data or the size is known. Each chunk from the // network causes observers to repaint, which will force that chunk // to decode. if (sizeAvailable || allDataReceived) { size_t maxDecodedImageSize = maximumDecodedImageSize(); IntSize s = imageSize(1.0f); size_t estimatedDecodedImageSize = s.width() * s.height() * 4; // no overflow check if (m_image->isNull() || (maxDecodedImageSize > 0 && estimatedDecodedImageSize > maxDecodedImageSize)) { error(errorOccurred() ? status() : DecodeError); if (inCache()) memoryCache()->remove(this); return; } // It would be nice to only redraw the decoded band of the image, but with the current design // (decoding delayed until painting) that seems hard. notifyObservers(); if (m_image) setEncodedSize(m_image->data() ? m_image->data()->size() : 0); } if (allDataReceived) { setLoading(false); checkNotify(); } } void CachedImage::error(CachedResource::Status status) { checkShouldPaintBrokenImage(); clear(); setStatus(status); ASSERT(errorOccurred()); m_data.clear(); notifyObservers(); setLoading(false); checkNotify(); } void CachedImage::destroyDecodedData() { bool canDeleteImage = !m_image || (m_image->hasOneRef() && m_image->isBitmapImage()); if (isSafeToMakePurgeable() && canDeleteImage && !isLoading()) { // Image refs the data buffer so we should not make it purgeable while the image is alive. // Invoking addClient() will reconstruct the image object. m_image = 0; setDecodedSize(0); if (!MemoryCache::shouldMakeResourcePurgeableOnEviction()) makePurgeable(true); } else if (m_image && !errorOccurred()) m_image->destroyDecodedData(); } void CachedImage::decodedSizeChanged(const Image* image, int delta) { if (image != m_image) return; setDecodedSize(decodedSize() + delta); } void CachedImage::didDraw(const Image* image) { if (image != m_image) return; double timeStamp = FrameView::currentPaintTimeStamp(); if (!timeStamp) // If didDraw is called outside of a Frame paint. timeStamp = currentTime(); CachedResource::didAccessDecodedData(timeStamp); } bool CachedImage::shouldPauseAnimation(const Image* image) { if (image != m_image) return false; CachedResourceClientWalker w(m_clients); while (CachedResourceClient* c = w.next()) { if (c->willRenderImage(this)) return false; } return true; } void CachedImage::animationAdvanced(const Image* image) { if (image == m_image) notifyObservers(); } void CachedImage::changedInRect(const Image* image, const IntRect& rect) { if (image == m_image) notifyObservers(&rect); } } //namespace WebCore