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webkit / WebKit / 15e4da4b5ce83fcfe6de6863df44c60571019d5f / . / Source / WebCore / html / HTMLCanvasElement.cpp
blob: 8910e751912511225c58edbf26cd21732e61f7ae [file] [log] [blame]
/*
* Copyright (C) 2004-2021 Apple Inc. All rights reserved.
* Copyright (C) 2007 Alp Toker <alp@atoker.com>
* Copyright (C) 2010 Torch Mobile (Beijing) Co. Ltd. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "HTMLCanvasElement.h"
#include "Blob.h"
#include "BlobCallback.h"
#include "CanvasGradient.h"
#include "CanvasPattern.h"
#include "CanvasRenderingContext2D.h"
#include "CanvasRenderingContext2DSettings.h"
#include "DisplayListDrawingContext.h"
#include "Document.h"
#include "ElementInlines.h"
#include "EventNames.h"
#include "Frame.h"
#include "FrameLoaderClient.h"
#include "GPUBasedCanvasRenderingContext.h"
#include "GeometryUtilities.h"
#include "GraphicsContext.h"
#include "HTMLNames.h"
#include "HTMLParserIdioms.h"
#include "ImageBitmapRenderingContext.h"
#include "ImageBitmapRenderingContextSettings.h"
#include "ImageBuffer.h"
#include "ImageData.h"
#include "InMemoryDisplayList.h"
#include "InspectorInstrumentation.h"
#include "JSDOMConvertDictionary.h"
#include "MIMETypeRegistry.h"
#include "OffscreenCanvas.h"
#include "PlaceholderRenderingContext.h"
#include "RenderElement.h"
#include "RenderHTMLCanvas.h"
#include "ResourceLoadObserver.h"
#include "RuntimeEnabledFeatures.h"
#include "ScriptController.h"
#include "Settings.h"
#include "StringAdaptors.h"
#include <JavaScriptCore/JSCInlines.h>
#include <math.h>
#include <wtf/IsoMallocInlines.h>
#include <wtf/RAMSize.h>
#include <wtf/text/StringBuilder.h>
#if ENABLE(MEDIA_STREAM)
#include "CanvasCaptureMediaStreamTrack.h"
#include "MediaStream.h"
#endif
#if ENABLE(WEBGL)
#include "WebGLContextAttributes.h"
#include "WebGLRenderingContext.h"
#endif
#if ENABLE(WEBGL2)
#include "WebGL2RenderingContext.h"
#endif
#if ENABLE(WEBXR)
#include "DOMWindow.h"
#include "Navigator.h"
#include "NavigatorWebXR.h"
#include "WebXRSystem.h"
#endif
#if USE(CG)
#include "ImageBufferUtilitiesCG.h"
#endif
#if USE(GSTREAMER)
#include "MediaSampleGStreamer.h"
#endif
#if PLATFORM(COCOA)
#include "MediaSampleAVFObjC.h"
#include <pal/cf/CoreMediaSoftLink.h>
#endif
namespace WebCore {
WTF_MAKE_ISO_ALLOCATED_IMPL(HTMLCanvasElement);
using namespace HTMLNames;
// These values come from the WhatWG/W3C HTML spec.
const int defaultWidth = 300;
const int defaultHeight = 150;
static std::optional<size_t> maxCanvasAreaForTesting;
static std::optional<size_t> maxActivePixelMemoryForTesting;
HTMLCanvasElement::HTMLCanvasElement(const QualifiedName& tagName, Document& document)
: HTMLElement(tagName, document)
, CanvasBase(IntSize(defaultWidth, defaultHeight))
, ActiveDOMObject(document)
{
ASSERT(hasTagName(canvasTag));
}
Ref<HTMLCanvasElement> HTMLCanvasElement::create(Document& document)
{
auto canvas = adoptRef(*new HTMLCanvasElement(canvasTag, document));
canvas->suspendIfNeeded();
return canvas;
}
Ref<HTMLCanvasElement> HTMLCanvasElement::create(const QualifiedName& tagName, Document& document)
{
auto canvas = adoptRef(*new HTMLCanvasElement(tagName, document));
canvas->suspendIfNeeded();
return canvas;
}
HTMLCanvasElement::~HTMLCanvasElement()
{
// FIXME: This has to be called here because CSSCanvasValue::CanvasObserverProxy::canvasDestroyed()
// downcasts the CanvasBase object to HTMLCanvasElement. That invokes virtual methods, which should be
// avoided in destructors, but works as long as it's done before HTMLCanvasElement destructs completely.
notifyObserversCanvasDestroyed();
document().clearCanvasPreparation(*this);
m_context = nullptr; // Ensure this goes away before the ImageBuffer.
setImageBuffer(nullptr);
}
void HTMLCanvasElement::parseAttribute(const QualifiedName& name, const AtomString& value)
{
if (name == widthAttr || name == heightAttr)
reset();
HTMLElement::parseAttribute(name, value);
}
RenderPtr<RenderElement> HTMLCanvasElement::createElementRenderer(RenderStyle&& style, const RenderTreePosition& insertionPosition)
{
RefPtr<Frame> frame = document().frame();
if (frame && frame->script().canExecuteScripts(NotAboutToExecuteScript))
return createRenderer<RenderHTMLCanvas>(*this, WTFMove(style));
return HTMLElement::createElementRenderer(WTFMove(style), insertionPosition);
}
bool HTMLCanvasElement::canContainRangeEndPoint() const
{
return false;
}
bool HTMLCanvasElement::canStartSelection() const
{
return false;
}
ExceptionOr<void> HTMLCanvasElement::setHeight(unsigned value)
{
if (isControlledByOffscreen())
return Exception { InvalidStateError };
setAttributeWithoutSynchronization(heightAttr, AtomString::number(limitToOnlyHTMLNonNegative(value, defaultHeight)));
return { };
}
ExceptionOr<void> HTMLCanvasElement::setWidth(unsigned value)
{
if (isControlledByOffscreen())
return Exception { InvalidStateError };
setAttributeWithoutSynchronization(widthAttr, AtomString::number(limitToOnlyHTMLNonNegative(value, defaultWidth)));
return { };
}
void HTMLCanvasElement::setSize(const IntSize& newSize)
{
if (newSize == size())
return;
m_ignoreReset = true;
setWidth(newSize.width());
setHeight(newSize.height());
m_ignoreReset = false;
reset();
}
static inline size_t maxActivePixelMemory()
{
if (maxActivePixelMemoryForTesting)
return *maxActivePixelMemoryForTesting;
static size_t maxPixelMemory;
static std::once_flag onceFlag;
std::call_once(onceFlag, [] {
#if PLATFORM(IOS_FAMILY)
maxPixelMemory = ramSize() / 4;
#else
maxPixelMemory = std::max(ramSize() / 4, 2151 * MB);
#endif
});
return maxPixelMemory;
}
void HTMLCanvasElement::setMaxPixelMemoryForTesting(std::optional<size_t> size)
{
maxActivePixelMemoryForTesting = size;
}
static inline size_t maxCanvasArea()
{
if (maxCanvasAreaForTesting)
return *maxCanvasAreaForTesting;
// Firefox limits width/height to 32767 pixels, but slows down dramatically before it
// reaches that limit. We limit by area instead, giving us larger maximum dimensions,
// in exchange for a smaller maximum canvas size. The maximum canvas size is in device pixels.
#if PLATFORM(IOS_FAMILY)
return 4096 * 4096;
#else
return 16384 * 16384;
#endif
}
void HTMLCanvasElement::setMaxCanvasAreaForTesting(std::optional<size_t> size)
{
maxCanvasAreaForTesting = size;
}
ExceptionOr<std::optional<RenderingContext>> HTMLCanvasElement::getContext(JSC::JSGlobalObject& state, const String& contextId, Vector<JSC::Strong<JSC::Unknown>>&& arguments)
{
if (m_context) {
if (m_context->isPlaceholder())
return Exception { InvalidStateError };
if (m_context->is2d()) {
if (!is2dType(contextId))
return std::optional<RenderingContext> { std::nullopt };
return std::optional<RenderingContext> { RefPtr<CanvasRenderingContext2D> { &downcast<CanvasRenderingContext2D>(*m_context) } };
}
if (m_context->isBitmapRenderer()) {
if (!isBitmapRendererType(contextId))
return std::optional<RenderingContext> { std::nullopt };
return std::optional<RenderingContext> { RefPtr<ImageBitmapRenderingContext> { &downcast<ImageBitmapRenderingContext>(*m_context) } };
}
#if ENABLE(WEBGL)
if (m_context->isWebGL()) {
if (!isWebGLType(contextId))
return std::optional<RenderingContext> { std::nullopt };
auto version = toWebGLVersion(contextId);
if ((version == WebGLVersion::WebGL1) != m_context->isWebGL1())
return std::optional<RenderingContext> { std::nullopt };
if (is<WebGLRenderingContext>(*m_context))
return std::optional<RenderingContext> { RefPtr<WebGLRenderingContext> { &downcast<WebGLRenderingContext>(*m_context) } };
#if ENABLE(WEBGL2)
ASSERT(is<WebGL2RenderingContext>(*m_context));
return std::optional<RenderingContext> { RefPtr<WebGL2RenderingContext> { &downcast<WebGL2RenderingContext>(*m_context) } };
#endif
}
#endif
ASSERT_NOT_REACHED();
return std::optional<RenderingContext> { std::nullopt };
}
if (is2dType(contextId)) {
auto scope = DECLARE_THROW_SCOPE(state.vm());
auto settings = convert<IDLDictionary<CanvasRenderingContext2DSettings>>(state, arguments.isEmpty() ? JSC::jsUndefined() : (arguments[0].isObject() ? arguments[0].get() : JSC::jsNull()));
RETURN_IF_EXCEPTION(scope, Exception { ExistingExceptionError });
auto context = createContext2d(contextId, WTFMove(settings));
if (!context)
return std::optional<RenderingContext> { std::nullopt };
return std::optional<RenderingContext> { RefPtr<CanvasRenderingContext2D> { context } };
}
if (isBitmapRendererType(contextId)) {
auto scope = DECLARE_THROW_SCOPE(state.vm());
auto settings = convert<IDLDictionary<ImageBitmapRenderingContextSettings>>(state, arguments.isEmpty() ? JSC::jsUndefined() : (arguments[0].isObject() ? arguments[0].get() : JSC::jsNull()));
RETURN_IF_EXCEPTION(scope, Exception { ExistingExceptionError });
auto context = createContextBitmapRenderer(contextId, WTFMove(settings));
if (!context)
return std::optional<RenderingContext> { std::nullopt };
return std::optional<RenderingContext> { RefPtr<ImageBitmapRenderingContext> { context } };
}
#if ENABLE(WEBGL)
if (isWebGLType(contextId)) {
auto scope = DECLARE_THROW_SCOPE(state.vm());
auto attributes = convert<IDLDictionary<WebGLContextAttributes>>(state, arguments.isEmpty() ? JSC::jsUndefined() : (arguments[0].isObject() ? arguments[0].get() : JSC::jsNull()));
RETURN_IF_EXCEPTION(scope, Exception { ExistingExceptionError });
auto context = createContextWebGL(toWebGLVersion(contextId), WTFMove(attributes));
if (!context)
return std::optional<RenderingContext> { std::nullopt };
if (is<WebGLRenderingContext>(*context))
return std::optional<RenderingContext> { RefPtr<WebGLRenderingContext> { &downcast<WebGLRenderingContext>(*context) } };
#if ENABLE(WEBGL2)
ASSERT(is<WebGL2RenderingContext>(*context));
return std::optional<RenderingContext> { RefPtr<WebGL2RenderingContext> { &downcast<WebGL2RenderingContext>(*context) } };
#endif
}
#endif
return std::optional<RenderingContext> { std::nullopt };
}
CanvasRenderingContext* HTMLCanvasElement::getContext(const String& type)
{
if (HTMLCanvasElement::is2dType(type))
return getContext2d(type, { });
if (HTMLCanvasElement::isBitmapRendererType(type))
return getContextBitmapRenderer(type, { });
#if ENABLE(WEBGL)
if (HTMLCanvasElement::isWebGLType(type))
return getContextWebGL(HTMLCanvasElement::toWebGLVersion(type));
#endif
return nullptr;
}
bool HTMLCanvasElement::is2dType(const String& type)
{
return type == "2d";
}
CanvasRenderingContext2D* HTMLCanvasElement::createContext2d(const String& type, CanvasRenderingContext2DSettings&& settings)
{
ASSERT_UNUSED(HTMLCanvasElement::is2dType(type), type);
ASSERT(!m_context);
// Make sure we don't use more pixel memory than the system can support.
size_t requestedPixelMemory = 4 * width() * height();
if (activePixelMemory() + requestedPixelMemory > maxActivePixelMemory()) {
auto message = makeString("Total canvas memory use exceeds the maximum limit (", maxActivePixelMemory() / 1024 / 1024, " MB).");
document().addConsoleMessage(MessageSource::JS, MessageLevel::Warning, message);
return nullptr;
}
m_context = CanvasRenderingContext2D::create(*this, WTFMove(settings), document().inQuirksMode());
#if USE(IOSURFACE_CANVAS_BACKING_STORE)
// Need to make sure a RenderLayer and compositing layer get created for the Canvas.
invalidateStyleAndLayerComposition();
#endif
return static_cast<CanvasRenderingContext2D*>(m_context.get());
}
CanvasRenderingContext2D* HTMLCanvasElement::getContext2d(const String& type, CanvasRenderingContext2DSettings&& settings)
{
ASSERT_UNUSED(HTMLCanvasElement::is2dType(type), type);
if (m_context && !m_context->is2d())
return nullptr;
if (!m_context)
return createContext2d(type, WTFMove(settings));
return static_cast<CanvasRenderingContext2D*>(m_context.get());
}
#if ENABLE(WEBGL)
static bool requiresAcceleratedCompositingForWebGL()
{
#if PLATFORM(GTK) || PLATFORM(WIN_CAIRO)
return false;
#else
return true;
#endif
}
static bool shouldEnableWebGL(const Settings& settings)
{
if (!settings.webGLEnabled())
return false;
if (!requiresAcceleratedCompositingForWebGL())
return true;
return settings.acceleratedCompositingEnabled();
}
bool HTMLCanvasElement::isWebGLType(const String& type)
{
// Retain support for the legacy "webkit-3d" name.
return type == "webgl" || type == "experimental-webgl"
#if ENABLE(WEBGL2)
|| type == "webgl2"
#endif
|| type == "webkit-3d";
}
GraphicsContextGLWebGLVersion HTMLCanvasElement::toWebGLVersion(const String& type)
{
ASSERT(isWebGLType(type));
#if ENABLE(WEBGL2)
if (type == "webgl2")
return WebGLVersion::WebGL2;
#else
UNUSED_PARAM(type);
#endif
return WebGLVersion::WebGL1;
}
WebGLRenderingContextBase* HTMLCanvasElement::createContextWebGL(WebGLVersion type, WebGLContextAttributes&& attrs)
{
ASSERT(!m_context);
if (!shouldEnableWebGL(document().settings()))
return nullptr;
#if ENABLE(WEBXR)
// https://immersive-web.github.io/webxr/#xr-compatible
if (attrs.xrCompatible) {
if (auto* window = document().domWindow())
// FIXME: how to make this sync without blocking the main thread?
// For reference: https://immersive-web.github.io/webxr/#ref-for-dom-webglcontextattributes-xrcompatible
NavigatorWebXR::xr(window->navigator()).ensureImmersiveXRDeviceIsSelected([]() { });
}
#endif
// TODO(WEBXR): ensure the context is created in a compatible graphics
// adapter when there is an active immersive device.
m_context = WebGLRenderingContextBase::create(*this, attrs, type);
if (m_context) {
// This new context needs to be observed by the Document, in order
// for it to be correctly preparedForRendering before it is composited.
addObserver(document());
// Need to make sure a RenderLayer and compositing layer get created for the Canvas.
invalidateStyleAndLayerComposition();
#if ENABLE(WEBXR)
ASSERT(!attrs.xrCompatible || downcast<WebGLRenderingContextBase>(m_context.get())->isXRCompatible());
#endif
}
return downcast<WebGLRenderingContextBase>(m_context.get());
}
WebGLRenderingContextBase* HTMLCanvasElement::getContextWebGL(WebGLVersion type, WebGLContextAttributes&& attrs)
{
if (!shouldEnableWebGL(document().settings()))
return nullptr;
if (m_context) {
if (!m_context->isWebGL())
return nullptr;
if ((type == WebGLVersion::WebGL1) != m_context->isWebGL1())
return nullptr;
}
if (!m_context)
return createContextWebGL(type, WTFMove(attrs));
return &downcast<WebGLRenderingContextBase>(*m_context);
}
#endif // ENABLE(WEBGL)
bool HTMLCanvasElement::isBitmapRendererType(const String& type)
{
return type == "bitmaprenderer";
}
ImageBitmapRenderingContext* HTMLCanvasElement::createContextBitmapRenderer(const String& type, ImageBitmapRenderingContextSettings&& settings)
{
ASSERT_UNUSED(type, HTMLCanvasElement::isBitmapRendererType(type));
ASSERT(!m_context);
m_context = ImageBitmapRenderingContext::create(*this, WTFMove(settings));
#if USE(IOSURFACE_CANVAS_BACKING_STORE)
// Need to make sure a RenderLayer and compositing layer get created for the Canvas.
invalidateStyleAndLayerComposition();
#endif
return static_cast<ImageBitmapRenderingContext*>(m_context.get());
}
ImageBitmapRenderingContext* HTMLCanvasElement::getContextBitmapRenderer(const String& type, ImageBitmapRenderingContextSettings&& settings)
{
ASSERT_UNUSED(type, HTMLCanvasElement::isBitmapRendererType(type));
if (!m_context)
return createContextBitmapRenderer(type, WTFMove(settings));
return static_cast<ImageBitmapRenderingContext*>(m_context.get());
}
void HTMLCanvasElement::didDraw(const std::optional<FloatRect>& rect)
{
clearCopiedImage();
if (!rect) {
notifyObserversCanvasChanged(std::nullopt);
return;
}
auto dirtyRect = rect.value();
if (auto* renderer = renderBox()) {
FloatRect destRect;
if (is<RenderReplaced>(renderer))
destRect = downcast<RenderReplaced>(renderer)->replacedContentRect();
else
destRect = renderer->contentBoxRect();
// Inflate dirty rect to cover antialiasing on image buffers.
if (drawingContext() && drawingContext()->shouldAntialias())
dirtyRect.inflate(1);
FloatRect r = mapRect(dirtyRect, FloatRect(0, 0, size().width(), size().height()), destRect);
r.intersect(destRect);
if (!r.isEmpty())
renderer->repaintRectangle(enclosingIntRect(r));
}
notifyObserversCanvasChanged(dirtyRect);
}
void HTMLCanvasElement::reset()
{
if (m_ignoreReset || isControlledByOffscreen())
return;
bool hadImageBuffer = hasCreatedImageBuffer();
int w = limitToOnlyHTMLNonNegative(attributeWithoutSynchronization(widthAttr), defaultWidth);
int h = limitToOnlyHTMLNonNegative(attributeWithoutSynchronization(heightAttr), defaultHeight);
resetGraphicsContextState();
if (is<CanvasRenderingContext2D>(m_context))
downcast<CanvasRenderingContext2D>(*m_context).reset();
IntSize oldSize = size();
IntSize newSize(w, h);
// If the size of an existing buffer matches, we can just clear it instead of reallocating.
// This optimization is only done for 2D canvases for now.
if (m_hasCreatedImageBuffer && oldSize == newSize && m_context && m_context->is2d() && buffer() && m_context->colorSpace() == buffer()->colorSpace() && m_context->pixelFormat() == buffer()->pixelFormat()) {
if (!m_didClearImageBuffer)
clearImageBuffer();
return;
}
setSurfaceSize(newSize);
if (isGPUBased() && oldSize != size())
downcast<GPUBasedCanvasRenderingContext>(*m_context).reshape(width(), height());
auto renderer = this->renderer();
if (is<RenderHTMLCanvas>(renderer)) {
auto& canvasRenderer = downcast<RenderHTMLCanvas>(*renderer);
if (oldSize != size()) {
canvasRenderer.canvasSizeChanged();
if (canvasRenderer.hasAcceleratedCompositing())
canvasRenderer.contentChanged(CanvasChanged);
}
if (hadImageBuffer)
canvasRenderer.repaint();
}
notifyObserversCanvasResized();
}
bool HTMLCanvasElement::paintsIntoCanvasBuffer() const
{
ASSERT(m_context);
#if USE(IOSURFACE_CANVAS_BACKING_STORE)
if (m_context->is2d() || m_context->isBitmapRenderer())
return true;
#endif
if (!m_context->isAccelerated())
return true;
if (renderBox() && renderBox()->hasAcceleratedCompositing())
return false;
return true;
}
void HTMLCanvasElement::paint(GraphicsContext& context, const LayoutRect& r)
{
if (m_context)
m_context->clearAccumulatedDirtyRect();
if (!context.paintingDisabled()) {
bool shouldPaint = true;
if (m_context) {
shouldPaint = paintsIntoCanvasBuffer() || document().printing() || m_isSnapshotting;
if (shouldPaint) {
m_context->prepareForDisplayWithPaint();
m_context->paintRenderingResultsToCanvas();
}
}
if (shouldPaint) {
if (hasCreatedImageBuffer()) {
if (ImageBuffer* imageBuffer = buffer())
context.drawImageBuffer(*imageBuffer, snappedIntRect(r));
}
}
}
if (UNLIKELY(m_context && m_context->hasActiveInspectorCanvasCallTracer()))
InspectorInstrumentation::didFinishRecordingCanvasFrame(*m_context);
}
bool HTMLCanvasElement::isGPUBased() const
{
return m_context && m_context->isGPUBased();
}
void HTMLCanvasElement::setSurfaceSize(const IntSize& size)
{
CanvasBase::setSize(size);
m_hasCreatedImageBuffer = false;
setImageBuffer(nullptr);
clearCopiedImage();
}
static String toEncodingMimeType(const String& mimeType)
{
if (!MIMETypeRegistry::isSupportedImageMIMETypeForEncoding(mimeType))
return "image/png"_s;
return mimeType.convertToASCIILowercase();
}
// https://html.spec.whatwg.org/multipage/canvas.html#a-serialisation-of-the-bitmap-as-a-file
static std::optional<double> qualityFromJSValue(JSC::JSValue qualityValue)
{
if (!qualityValue.isNumber())
return std::nullopt;
double qualityNumber = qualityValue.asNumber();
if (qualityNumber < 0 || qualityNumber > 1)
return std::nullopt;
return qualityNumber;
}
ExceptionOr<UncachedString> HTMLCanvasElement::toDataURL(const String& mimeType, JSC::JSValue qualityValue)
{
if (!originClean())
return Exception { SecurityError };
if (size().isEmpty() || !buffer())
return UncachedString { "data:,"_s };
if (RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled())
ResourceLoadObserver::shared().logCanvasRead(document());
auto encodingMIMEType = toEncodingMimeType(mimeType);
auto quality = qualityFromJSValue(qualityValue);
#if USE(CG)
// Try to get ImageData first, as that may avoid lossy conversions.
if (auto imageData = getImageData())
return UncachedString { dataURL(imageData->pixelBuffer(), encodingMIMEType, quality) };
#endif
makeRenderingResultsAvailable();
return UncachedString { buffer()->toDataURL(encodingMIMEType, quality) };
}
ExceptionOr<UncachedString> HTMLCanvasElement::toDataURL(const String& mimeType)
{
return toDataURL(mimeType, { });
}
ExceptionOr<void> HTMLCanvasElement::toBlob(ScriptExecutionContext& context, Ref<BlobCallback>&& callback, const String& mimeType, JSC::JSValue qualityValue)
{
if (!originClean())
return Exception { SecurityError };
if (size().isEmpty() || !buffer()) {
callback->scheduleCallback(context, nullptr);
return { };
}
if (RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled())
ResourceLoadObserver::shared().logCanvasRead(document());
auto encodingMIMEType = toEncodingMimeType(mimeType);
auto quality = qualityFromJSValue(qualityValue);
#if USE(CG)
if (auto imageData = getImageData()) {
RefPtr<Blob> blob;
Vector<uint8_t> blobData = data(imageData->pixelBuffer(), encodingMIMEType, quality);
if (!blobData.isEmpty())
blob = Blob::create(&document(), WTFMove(blobData), encodingMIMEType);
callback->scheduleCallback(context, WTFMove(blob));
return { };
}
#endif
makeRenderingResultsAvailable();
RefPtr<Blob> blob;
Vector<uint8_t> blobData = buffer()->toData(encodingMIMEType, quality);
if (!blobData.isEmpty())
blob = Blob::create(&document(), WTFMove(blobData), encodingMIMEType);
callback->scheduleCallback(context, WTFMove(blob));
return { };
}
#if ENABLE(OFFSCREEN_CANVAS)
ExceptionOr<Ref<OffscreenCanvas>> HTMLCanvasElement::transferControlToOffscreen(ScriptExecutionContext& context)
{
if (m_context)
return Exception { InvalidStateError };
m_context = makeUnique<PlaceholderRenderingContext>(*this);
if (m_context->isAccelerated())
invalidateStyleAndLayerComposition();
return OffscreenCanvas::create(context, *this);
}
#endif
RefPtr<ImageData> HTMLCanvasElement::getImageData()
{
#if ENABLE(WEBGL)
if (is<WebGLRenderingContextBase>(m_context)) {
if (RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled())
ResourceLoadObserver::shared().logCanvasRead(document());
return ImageData::create(downcast<WebGLRenderingContextBase>(*m_context).paintRenderingResultsToPixelBuffer());
}
#endif
return nullptr;
}
#if ENABLE(MEDIA_STREAM)
RefPtr<MediaSample> HTMLCanvasElement::toMediaSample()
{
#if PLATFORM(COCOA) || USE(GSTREAMER)
#if ENABLE(WEBGL)
if (is<WebGLRenderingContextBase>(m_context.get())) {
if (RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled())
ResourceLoadObserver::shared().logCanvasRead(document());
return downcast<WebGLRenderingContextBase>(*m_context).paintCompositedResultsToMediaSample();
}
#endif
auto* imageBuffer = buffer();
if (!imageBuffer)
return nullptr;
if (RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled())
ResourceLoadObserver::shared().logCanvasRead(document());
makeRenderingResultsAvailable();
// FIXME: This can likely be optimized quite a bit, especially in the cases where
// the ImageBuffer is backed by GPU memory already and/or is in the GPU process by
// specializing toMediaSample() in ImageBufferBackend to not use getPixelBuffer().
auto pixelBuffer = imageBuffer->getPixelBuffer({ AlphaPremultiplication::Unpremultiplied, PixelFormat::BGRA8, DestinationColorSpace::SRGB() }, { { }, imageBuffer->logicalSize() });
if (!pixelBuffer)
return nullptr;
#if PLATFORM(COCOA)
return MediaSampleAVFObjC::createImageSample(WTFMove(*pixelBuffer));
#elif USE(GSTREAMER)
return MediaSampleGStreamer::createImageSample(WTFMove(*pixelBuffer));
#endif
#else
return nullptr;
#endif
}
ExceptionOr<Ref<MediaStream>> HTMLCanvasElement::captureStream(Document& document, std::optional<double>&& frameRequestRate)
{
if (!originClean())
return Exception(SecurityError, "Canvas is tainted"_s);
if (RuntimeEnabledFeatures::sharedFeatures().webAPIStatisticsEnabled())
ResourceLoadObserver::shared().logCanvasRead(this->document());
if (frameRequestRate && frameRequestRate.value() < 0)
return Exception(NotSupportedError, "frameRequestRate is negative"_s);
auto track = CanvasCaptureMediaStreamTrack::create(document, *this, WTFMove(frameRequestRate));
auto stream = MediaStream::create(document);
stream->addTrack(track);
return stream;
}
#endif
SecurityOrigin* HTMLCanvasElement::securityOrigin() const
{
return &document().securityOrigin();
}
bool HTMLCanvasElement::shouldAccelerate(const IntSize& size) const
{
auto checkedArea = size.area<RecordOverflow>();
if (checkedArea.hasOverflowed())
return false;
return shouldAccelerate(checkedArea.value());
}
bool HTMLCanvasElement::shouldAccelerate(unsigned area) const
{
auto& settings = document().settings();
if (area > settings.maximumAccelerated2dCanvasSize())
return false;
#if USE(IOSURFACE_CANVAS_BACKING_STORE)
return settings.canvasUsesAcceleratedDrawing();
#else
return false;
#endif
}
void HTMLCanvasElement::setUsesDisplayListDrawing(bool usesDisplayListDrawing)
{
m_usesDisplayListDrawing = usesDisplayListDrawing;
}
void HTMLCanvasElement::createImageBuffer() const
{
ASSERT(!hasCreatedImageBuffer());
m_hasCreatedImageBuffer = true;
m_didClearImageBuffer = true;
auto checkedArea = size().area<RecordOverflow>();
if (checkedArea.hasOverflowed() || checkedArea > maxCanvasArea()) {
auto message = makeString("Canvas area exceeds the maximum limit (width * height > ", maxCanvasArea(), ").");
document().addConsoleMessage(MessageSource::JS, MessageLevel::Warning, message);
return;
}
// Make sure we don't use more pixel memory than the system can support.
auto checkedRequestedPixelMemory = (4 * checkedArea) + activePixelMemory();
if (checkedRequestedPixelMemory.hasOverflowed() || checkedRequestedPixelMemory > maxActivePixelMemory()) {
auto message = makeString("Total canvas memory use exceeds the maximum limit (", maxActivePixelMemory() / 1024 / 1024, " MB).");
document().addConsoleMessage(MessageSource::JS, MessageLevel::Warning, message);
return;
}
unsigned area = checkedArea.value();
if (!area)
return;
auto hostWindow = (document().view() && document().view()->root()) ? document().view()->root()->hostWindow() : nullptr;
auto renderingMode = shouldAccelerate(area) ? RenderingMode::Accelerated : RenderingMode::Unaccelerated;
// FIXME: Add a new setting for DisplayList drawing on canvas.
auto useDisplayList = m_usesDisplayListDrawing.value_or(document().settings().displayListDrawingEnabled()) ? ShouldUseDisplayList::Yes : ShouldUseDisplayList::No;
auto [colorSpace, pixelFormat] = [&] {
if (m_context)
return std::pair { m_context->colorSpace(), m_context->pixelFormat() };
return std::pair { DestinationColorSpace::SRGB(), PixelFormat::BGRA8 };
}();
setImageBuffer(ImageBuffer::create(size(), renderingMode, useDisplayList, RenderingPurpose::Canvas, 1, colorSpace, pixelFormat, hostWindow));
#if USE(IOSURFACE_CANVAS_BACKING_STORE)
if (m_context && m_context->is2d()) {
// Recalculate compositing requirements if acceleration state changed.
const_cast<HTMLCanvasElement*>(this)->invalidateStyleAndLayerComposition();
}
#endif
if (m_context && buffer() && buffer()->prefersPreparationForDisplay())
const_cast<HTMLCanvasElement*>(this)->addObserver(document());
}
void HTMLCanvasElement::setImageBufferAndMarkDirty(RefPtr<ImageBuffer>&& buffer)
{
IntSize oldSize = size();
m_hasCreatedImageBuffer = true;
setImageBuffer(WTFMove(buffer));
if (isControlledByOffscreen() && oldSize != size()) {
setAttributeWithoutSynchronization(widthAttr, AtomString::number(width()));
setAttributeWithoutSynchronization(heightAttr, AtomString::number(height()));
auto renderer = this->renderer();
if (is<RenderHTMLCanvas>(renderer)) {
auto& canvasRenderer = downcast<RenderHTMLCanvas>(*renderer);
canvasRenderer.canvasSizeChanged();
canvasRenderer.contentChanged(CanvasChanged);
}
notifyObserversCanvasResized();
}
didDraw(FloatRect(FloatPoint(), size()));
}
Image* HTMLCanvasElement::copiedImage() const
{
if (!m_copiedImage && buffer()) {
if (m_context)
m_context->paintRenderingResultsToCanvas();
m_copiedImage = buffer()->copyImage(CopyBackingStore, PreserveResolution::Yes);
}
return m_copiedImage.get();
}
void HTMLCanvasElement::clearImageBuffer() const
{
ASSERT(m_hasCreatedImageBuffer);
ASSERT(!m_didClearImageBuffer);
ASSERT(m_context);
m_didClearImageBuffer = true;
if (is<CanvasRenderingContext2D>(*m_context)) {
// No need to undo transforms/clip/etc. because we are called right after the context is reset.
downcast<CanvasRenderingContext2D>(*m_context).clearRect(0, 0, width(), height());
}
}
void HTMLCanvasElement::clearCopiedImage() const
{
m_copiedImage = nullptr;
m_didClearImageBuffer = false;
}
const char* HTMLCanvasElement::activeDOMObjectName() const
{
return "HTMLCanvasElement";
}
bool HTMLCanvasElement::virtualHasPendingActivity() const
{
#if ENABLE(WEBGL)
if (is<WebGLRenderingContextBase>(m_context)) {
// WebGL rendering context may fire contextlost / contextchange / contextrestored events at any point.
return m_hasRelevantWebGLEventListener && !downcast<WebGLRenderingContextBase>(*m_context).isContextUnrecoverablyLost();
}
#endif
return false;
}
void HTMLCanvasElement::eventListenersDidChange()
{
#if ENABLE(WEBGL)
m_hasRelevantWebGLEventListener = hasEventListeners(eventNames().webglcontextchangedEvent)
|| hasEventListeners(eventNames().webglcontextlostEvent)
|| hasEventListeners(eventNames().webglcontextrestoredEvent);
#endif
}
void HTMLCanvasElement::didMoveToNewDocument(Document& oldDocument, Document& newDocument)
{
if (needsPreparationForDisplay()) {
oldDocument.clearCanvasPreparation(*this);
removeObserver(oldDocument);
addObserver(newDocument);
}
HTMLElement::didMoveToNewDocument(oldDocument, newDocument);
}
Node::InsertedIntoAncestorResult HTMLCanvasElement::insertedIntoAncestor(InsertionType insertionType, ContainerNode& parentOfInsertedTree)
{
if (needsPreparationForDisplay() && insertionType.connectedToDocument) {
auto& document = parentOfInsertedTree.document();
addObserver(document);
// Drawing commands may have been issued to the canvas before now, so we need to
// tell the document if we need preparation.
if (m_context && m_context->compositingResultsNeedUpdating())
document.canvasChanged(*this, FloatRect { });
}
return HTMLElement::insertedIntoAncestor(insertionType, parentOfInsertedTree);
}
void HTMLCanvasElement::removedFromAncestor(RemovalType removalType, ContainerNode& oldParentOfRemovedTree)
{
if (needsPreparationForDisplay() && removalType.disconnectedFromDocument) {
oldParentOfRemovedTree.document().clearCanvasPreparation(*this);
removeObserver(oldParentOfRemovedTree.document());
}
HTMLElement::removedFromAncestor(removalType, oldParentOfRemovedTree);
}
bool HTMLCanvasElement::needsPreparationForDisplay()
{
return m_context && m_context->needsPreparationForDisplay();
}
void HTMLCanvasElement::prepareForDisplay()
{
ASSERT(needsPreparationForDisplay());
bool shouldPrepare = true;
#if ENABLE(WEBGL)
// FIXME: Currently the below prepare skip logic is conservative and applies only to
// WebGL elements.
if (is<WebGLRenderingContextBase>(m_context)) {
// If the canvas is not in the document body, then it won't be
// composited and thus doesn't need preparation. Unfortunately
// it can't tell at the time it was added to the list, since it
// could be inserted or removed from the document body afterwards.
shouldPrepare = isInTreeScope() || hasDisplayBufferObservers();
}
#endif
if (!shouldPrepare)
return;
if (m_context)
m_context->prepareForDisplay();
notifyObserversCanvasDisplayBufferPrepared();
}
bool HTMLCanvasElement::isControlledByOffscreen() const
{
return m_context && m_context->isPlaceholder();
}
}