blob: 5824249b3442134c6dfc4b74253508e3577d176b [file] [log] [blame]
/*
Copyright (C) 1998 Lars Knoll (knoll@mpi-hd.mpg.de)
Copyright (C) 2001 Dirk Mueller <mueller@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.
*/
#pragma once
#include "CachedResource.h"
#include "Image.h"
#include "ImageObserver.h"
#include "IntRect.h"
#include "IntSizeHash.h"
#include "LayoutSize.h"
#include "SVGImageCache.h"
#include <wtf/HashMap.h>
namespace WebCore {
class CachedImageClient;
class CachedResourceLoader;
class FloatSize;
class MemoryCache;
class RenderElement;
class RenderObject;
class SecurityOrigin;
struct Length;
class CachedImage final : public CachedResource {
friend class MemoryCache;
public:
CachedImage(CachedResourceRequest&&, const PAL::SessionID&, const CookieJar*);
CachedImage(Image*, const PAL::SessionID&, const CookieJar*);
// Constructor to use for manually cached images.
CachedImage(const URL&, Image*, const PAL::SessionID&, const CookieJar*, const String& domainForCachePartition);
virtual ~CachedImage();
WEBCORE_EXPORT Image* image(); // Returns the nullImage() if the image is not available yet.
WEBCORE_EXPORT Image* imageForRenderer(const RenderObject*); // Returns the nullImage() if the image is not available yet.
bool hasImage() const { return m_image.get(); }
bool hasSVGImage() const;
bool currentFrameKnownToBeOpaque(const RenderElement*);
std::pair<Image*, float> brokenImage(float deviceScaleFactor) const; // Returns an image and the image's resolution scale factor.
bool willPaintBrokenImage() const;
bool canRender(const RenderElement* renderer, float multiplier) { return !errorOccurred() && !imageSizeForRenderer(renderer, multiplier).isEmpty(); }
void setContainerContextForClient(const CachedImageClient&, const LayoutSize&, float, const URL&);
bool usesImageContainerSize() const { return m_image && m_image->usesContainerSize(); }
bool imageHasRelativeWidth() const { return m_image && m_image->hasRelativeWidth(); }
bool imageHasRelativeHeight() const { return m_image && m_image->hasRelativeHeight(); }
void updateBuffer(SharedBuffer&) override;
void finishLoading(SharedBuffer*, const NetworkLoadMetrics&) override;
enum SizeType {
UsedSize,
IntrinsicSize
};
WEBCORE_EXPORT FloatSize imageSizeForRenderer(const RenderElement* renderer, SizeType = UsedSize) const;
// This method takes a zoom multiplier that can be used to increase the natural size of the image by the zoom.
LayoutSize imageSizeForRenderer(const RenderElement*, float multiplier, SizeType = UsedSize) const; // returns the size of the complete image.
LayoutSize unclampedImageSizeForRenderer(const RenderElement* renderer, float multiplier, SizeType = UsedSize) const;
void computeIntrinsicDimensions(Length& intrinsicWidth, Length& intrinsicHeight, FloatSize& intrinsicRatio);
bool isManuallyCached() const { return m_isManuallyCached; }
RevalidationDecision makeRevalidationDecision(CachePolicy) const override;
void load(CachedResourceLoader&) override;
bool isOriginClean(SecurityOrigin*);
bool isClientWaitingForAsyncDecoding(CachedImageClient&) const;
void addClientWaitingForAsyncDecoding(CachedImageClient&);
void removeAllClientsWaitingForAsyncDecoding();
void setForceUpdateImageDataEnabledForTesting(bool enabled) { m_forceUpdateImageDataEnabledForTesting = enabled; }
bool stillNeedsLoad() const override { return !errorOccurred() && status() == Unknown && !isLoading(); }
private:
void clear();
CachedImage(CachedImage&, const ResourceRequest&, PAL::SessionID);
void setBodyDataFrom(const CachedResource&) final;
bool isPDFResource() const;
bool isPostScriptResource() const;
void createImage();
void clearImage();
// If not null, changeRect is the changed part of the image.
void notifyObservers(const IntRect* changeRect = nullptr);
void checkShouldPaintBrokenImage();
void switchClientsToRevalidatedResource() final;
bool mayTryReplaceEncodedData() const final { return true; }
void didAddClient(CachedResourceClient&) final;
void didRemoveClient(CachedResourceClient&) final;
void allClientsRemoved() override;
void destroyDecodedData() override;
bool shouldDeferUpdateImageData() const;
RefPtr<SharedBuffer> convertedDataIfNeeded(SharedBuffer* data) const;
void didUpdateImageData();
EncodedDataStatus updateImageData(bool allDataReceived);
void updateData(const char* data, unsigned length) override;
void error(CachedResource::Status) override;
void responseReceived(const ResourceResponse&) override;
// For compatibility, images keep loading even if there are HTTP errors.
bool shouldIgnoreHTTPStatusCodeErrors() const override { return true; }
class CachedImageObserver final : public RefCounted<CachedImageObserver>, public ImageObserver {
public:
static Ref<CachedImageObserver> create(CachedImage& image) { return adoptRef(*new CachedImageObserver(image)); }
HashSet<CachedImage*>& cachedImages() { return m_cachedImages; }
const HashSet<CachedImage*>& cachedImages() const { return m_cachedImages; }
private:
explicit CachedImageObserver(CachedImage&);
// ImageObserver API
URL sourceUrl() const override { return !m_cachedImages.isEmpty() ? (*m_cachedImages.begin())->url() : URL(); }
String mimeType() const override { return !m_cachedImages.isEmpty() ? (*m_cachedImages.begin())->mimeType() : emptyString(); }
long long expectedContentLength() const override { return !m_cachedImages.isEmpty() ? (*m_cachedImages.begin())->expectedContentLength() : 0; }
void encodedDataStatusChanged(const Image&, EncodedDataStatus) final;
void decodedSizeChanged(const Image&, long long delta) final;
void didDraw(const Image&) final;
bool canDestroyDecodedData(const Image&) final;
void imageFrameAvailable(const Image&, ImageAnimatingState, const IntRect* changeRect = nullptr, DecodingStatus = DecodingStatus::Invalid) final;
void changedInRect(const Image&, const IntRect*) final;
void scheduleTimedRenderingUpdate(const Image&) final;
HashSet<CachedImage*> m_cachedImages;
};
void encodedDataStatusChanged(const Image&, EncodedDataStatus);
void decodedSizeChanged(const Image&, long long delta);
void didDraw(const Image&);
bool canDestroyDecodedData(const Image&);
void imageFrameAvailable(const Image&, ImageAnimatingState, const IntRect* changeRect = nullptr, DecodingStatus = DecodingStatus::Invalid);
void changedInRect(const Image&, const IntRect*);
void scheduleTimedRenderingUpdate(const Image&);
void updateBufferInternal(SharedBuffer&);
void didReplaceSharedBufferContents() override;
struct ContainerContext {
LayoutSize containerSize;
float containerZoom;
URL imageURL;
};
using ContainerContextRequests = HashMap<const CachedImageClient*, ContainerContext>;
ContainerContextRequests m_pendingContainerContextRequests;
HashSet<CachedImageClient*> m_clientsWaitingForAsyncDecoding;
RefPtr<CachedImageObserver> m_imageObserver;
RefPtr<Image> m_image;
std::unique_ptr<SVGImageCache> m_svgImageCache;
MonotonicTime m_lastUpdateImageDataTime;
static constexpr unsigned maxUpdateImageDataCount = 4;
unsigned m_updateImageDataCount : 3;
bool m_isManuallyCached : 1;
bool m_shouldPaintBrokenImage : 1;
bool m_forceUpdateImageDataEnabledForTesting : 1;
};
} // namespace WebCore
SPECIALIZE_TYPE_TRAITS_CACHED_RESOURCE(CachedImage, CachedResource::Type::ImageResource)