Source/WebCore/html/OffscreenCanvas.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2017 Apple Inc. 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. AND ITS CONTRIBUTORS ``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 ITS 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 "OffscreenCanvas.h"

 #if ENABLE(OFFSCREEN_CANVAS)

 #include "CSSValuePool.h"
 #include "CanvasRenderingContext.h"
 #include "Document.h"
 #include "HTMLCanvasElement.h"
 #include "ImageBitmap.h"
 #include "ImageData.h"
 #include "JSBlob.h"
 #include "JSDOMPromiseDeferred.h"
 #include "MIMETypeRegistry.h"
 #include "OffscreenCanvasRenderingContext2D.h"
 #include "PlaceholderRenderingContext.h"
 #include "RuntimeEnabledFeatures.h"
 #include "WorkerGlobalScope.h"
 #include <wtf/IsoMallocInlines.h>

 #if ENABLE(WEBGL)
 #include "Settings.h"
 #include "WebGLRenderingContext.h"

 #if ENABLE(WEBGL2)
 #include "WebGL2RenderingContext.h"
 #endif
 #endif // ENABLE(WEBGL)

 namespace WebCore {

 WTF_MAKE_ISO_ALLOCATED_IMPL(OffscreenCanvas);

 DetachedOffscreenCanvas::DetachedOffscreenCanvas(RefPtr<ImageBuffer>&& buffer, const IntSize& size, bool originClean)
     : m_buffer(WTFMove(buffer))
     , m_size(size)
     , m_originClean(originClean)
 {
 }

 RefPtr<ImageBuffer> DetachedOffscreenCanvas::takeImageBuffer()
 {
     return WTFMove(m_buffer);
 }

 WeakPtr<HTMLCanvasElement> DetachedOffscreenCanvas::takePlaceholderCanvas()
 {
     ASSERT(isMainThread());
     return std::exchange(m_placeholderCanvas, nullptr);
 }

 bool OffscreenCanvas::enabledForContext(ScriptExecutionContext& context)
 {
 #if ENABLE(OFFSCREEN_CANVAS_IN_WORKERS)
     if (context.isWorkerGlobalScope())
         return RuntimeEnabledFeatures::sharedFeatures().offscreenCanvasInWorkersEnabled();
 #endif

     ASSERT(context.isDocument());
     return true;
 }

 Ref<OffscreenCanvas> OffscreenCanvas::create(ScriptExecutionContext& scriptExecutionContext, unsigned width, unsigned height)
 {
     return adoptRef(*new OffscreenCanvas(scriptExecutionContext, width, height));
 }

 Ref<OffscreenCanvas> OffscreenCanvas::create(ScriptExecutionContext& scriptExecutionContext, std::unique_ptr<DetachedOffscreenCanvas>&& detachedCanvas)
 {
     Ref<OffscreenCanvas> clone = adoptRef(*new OffscreenCanvas(scriptExecutionContext, detachedCanvas->size().width(), detachedCanvas->size().height()));
     clone->setImageBuffer(detachedCanvas->takeImageBuffer());
     if (!detachedCanvas->originClean())
         clone->setOriginTainted();

     callOnMainThread([detachedCanvas = WTFMove(detachedCanvas), placeholderData = Ref { *clone->m_placeholderData }] () mutable {
         placeholderData->canvas = detachedCanvas->takePlaceholderCanvas();
         if (placeholderData->canvas) {
             auto& placeholderContext = downcast<PlaceholderRenderingContext>(*placeholderData->canvas->renderingContext());
             auto& imageBufferPipe = placeholderContext.imageBufferPipe();
             if (imageBufferPipe)
                 placeholderData->bufferPipeSource = imageBufferPipe->source();
         }
     });

     return clone;
 }

 Ref<OffscreenCanvas> OffscreenCanvas::create(ScriptExecutionContext& scriptExecutionContext, HTMLCanvasElement& canvas)
 {
     auto offscreen = adoptRef(*new OffscreenCanvas(scriptExecutionContext, canvas.width(), canvas.height()));
     offscreen->setPlaceholderCanvas(canvas);
     return offscreen;
 }

 OffscreenCanvas::OffscreenCanvas(ScriptExecutionContext& scriptExecutionContext, unsigned width, unsigned height)
     : CanvasBase(IntSize(width, height))
     , ContextDestructionObserver(&scriptExecutionContext)
     , m_placeholderData(PlaceholderData::create())
 {
 }

 OffscreenCanvas::~OffscreenCanvas()
 {
     notifyObserversCanvasDestroyed();

     m_context = nullptr; // Ensure this goes away before the ImageBuffer.
     setImageBuffer(nullptr);
 }

 unsigned OffscreenCanvas::width() const
 {
     if (m_detached)
         return 0;
     return CanvasBase::width();
 }

 unsigned OffscreenCanvas::height() const
 {
     if (m_detached)
         return 0;
     return CanvasBase::height();
 }

 void OffscreenCanvas::setWidth(unsigned newWidth)
 {
     if (m_detached)
         return;
     setSize(IntSize(newWidth, height()));
 }

 void OffscreenCanvas::setHeight(unsigned newHeight)
 {
     if (m_detached)
         return;
     setSize(IntSize(width(), newHeight));
 }

 void OffscreenCanvas::setSize(const IntSize& newSize)
 {
     CanvasBase::setSize(newSize);
     reset();
 }

 #if ENABLE(WEBGL)
 static bool requiresAcceleratedCompositingForWebGL()
 {
 #if PLATFORM(GTK) || PLATFORM(WIN_CAIRO)
     return false;
 #else
     return true;
 #endif
 }

 static bool shouldEnableWebGL(bool webGLEnabled, bool acceleratedCompositingEnabled)
 {
     if (!webGLEnabled)
         return false;

     if (!requiresAcceleratedCompositingForWebGL())
         return true;

     return acceleratedCompositingEnabled;
 }

 void OffscreenCanvas::createContextWebGL(RenderingContextType contextType, WebGLContextAttributes&& attrs)
 {
     ASSERT(!m_context);

     auto scriptExecutionContext = this->scriptExecutionContext();
     if (scriptExecutionContext->isWorkerGlobalScope()) {
         WorkerGlobalScope& workerGlobalScope = downcast<WorkerGlobalScope>(*scriptExecutionContext);
         if (!shouldEnableWebGL(workerGlobalScope.settingsValues().webGLEnabled, workerGlobalScope.settingsValues().acceleratedCompositingEnabled))
             return;
     } else if (scriptExecutionContext->isDocument()) {
         auto& settings = downcast<Document>(*scriptExecutionContext).settings();
         if (!shouldEnableWebGL(settings.webGLEnabled(), settings.acceleratedCompositingEnabled()))
             return;
     } else
         return;
     GraphicsContextGLWebGLVersion webGLVersion = GraphicsContextGLWebGLVersion::WebGL1;
 #if ENABLE(WEBGL2)
     webGLVersion = (contextType == RenderingContextType::Webgl) ? GraphicsContextGLWebGLVersion::WebGL1 : GraphicsContextGLWebGLVersion::WebGL2;
 #else
     UNUSED_PARAM(contextType);
 #endif
     m_context = WebGLRenderingContextBase::create(*this, attrs, webGLVersion);
 }

 #endif // ENABLE(WEBGL)

 ExceptionOr<std::optional<OffscreenRenderingContext>> OffscreenCanvas::getContext(JSC::JSGlobalObject& state, RenderingContextType contextType, Vector<JSC::Strong<JSC::Unknown>>&& arguments)
 {
     if (m_detached)
         return Exception { InvalidStateError };

     if (contextType == RenderingContextType::_2d) {
         if (m_context) {
             if (!is<OffscreenCanvasRenderingContext2D>(*m_context))
                 return { { std::nullopt } };
             return { { RefPtr<OffscreenCanvasRenderingContext2D> { &downcast<OffscreenCanvasRenderingContext2D>(*m_context) } } };
         }

         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 });

         m_context = makeUnique<OffscreenCanvasRenderingContext2D>(*this, WTFMove(settings));
         if (!m_context)
             return { { std::nullopt } };

         return { { RefPtr<OffscreenCanvasRenderingContext2D> { &downcast<OffscreenCanvasRenderingContext2D>(*m_context) } } };
     }
 #if ENABLE(WEBGL)
     else {
         if (m_context) {
             if (is<WebGLRenderingContext>(*m_context))
                 return { { RefPtr<WebGLRenderingContext> { &downcast<WebGLRenderingContext>(*m_context) } } };
 #if ENABLE(WEBGL2)
             if (is<WebGL2RenderingContext>(*m_context))
                 return { { RefPtr<WebGL2RenderingContext> { &downcast<WebGL2RenderingContext>(*m_context) } } };
 #endif
             return { { std::nullopt } };
         }

         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 });

         createContextWebGL(contextType, WTFMove(attributes));
         if (!m_context)
             return { { std::nullopt } };

 #if ENABLE(WEBGL2)
         if (is<WebGL2RenderingContext>(*m_context))
             return { { RefPtr<WebGL2RenderingContext> { &downcast<WebGL2RenderingContext>(*m_context) } } };
 #endif
         return { { RefPtr<WebGLRenderingContext> { &downcast<WebGLRenderingContext>(*m_context) } } };
     }
 #endif

     return Exception { TypeError };
 }

 ExceptionOr<RefPtr<ImageBitmap>> OffscreenCanvas::transferToImageBitmap()
 {
     if (m_detached || !m_context)
         return Exception { InvalidStateError };

     if (is<OffscreenCanvasRenderingContext2D>(*m_context)) {
         if (!width() || !height())
             return { RefPtr<ImageBitmap> { nullptr } };

         if (!m_hasCreatedImageBuffer) {
             auto buffer = ImageBitmap::createImageBuffer(*canvasBaseScriptExecutionContext(), size(), RenderingMode::Unaccelerated, m_context->colorSpace());
             return { ImageBitmap::create(ImageBitmapBacking(WTFMove(buffer))) };
         }

         // As the canvas context state is stored in GraphicsContext, which is owned
         // by buffer(), to avoid resetting the context state, we have to make a copy and
         // clear the original buffer rather than returning the original buffer.
         auto bufferCopy = buffer()->copyRectToBuffer(FloatRect(FloatPoint(), buffer()->logicalSize()), buffer()->colorSpace(), *drawingContext());
         downcast<OffscreenCanvasRenderingContext2D>(*m_context).clearCanvas();
         clearCopiedImage();

         return { ImageBitmap::create(ImageBitmapBacking(WTFMove(bufferCopy), originClean() ? SerializationState::OriginClean : SerializationState())) };
     }

 #if ENABLE(WEBGL)
     if (is<WebGLRenderingContext>(*m_context)) {
         auto webGLContext = &downcast<WebGLRenderingContext>(*m_context);

         // FIXME: We're supposed to create an ImageBitmap using the backing
         // store from this canvas (or its context), but for now we'll just
         // create a new bitmap and paint into it.

         auto imageBitmap = ImageBitmap::create(*canvasBaseScriptExecutionContext(), size(), DestinationColorSpace::SRGB());
         if (!imageBitmap->buffer())
             return { RefPtr<ImageBitmap> { nullptr } };

         auto* gc3d = webGLContext->graphicsContextGL();
         gc3d->paintRenderingResultsToCanvas(*imageBitmap->buffer());

         // FIXME: The transfer algorithm requires that the canvas effectively
         // creates a new backing store. Since we're not doing that yet, we
         // need to erase what's there.

         GCGLfloat clearColor[4] { };
         gc3d->getFloatv(GraphicsContextGL::COLOR_CLEAR_VALUE, clearColor);
         gc3d->clearColor(0, 0, 0, 0);
         gc3d->clear(GraphicsContextGL::COLOR_BUFFER_BIT | GraphicsContextGL::DEPTH_BUFFER_BIT | GraphicsContextGL::STENCIL_BUFFER_BIT);
         gc3d->clearColor(clearColor[0], clearColor[1], clearColor[2], clearColor[3]);

         return { WTFMove(imageBitmap) };
     }
 #endif

     return Exception { NotSupportedError };
 }

 static String toEncodingMimeType(const String& mimeType)
 {
     if (!MIMETypeRegistry::isSupportedImageMIMETypeForEncoding(mimeType))
         return "image/png"_s;
     return mimeType.convertToASCIILowercase();
 }

 static std::optional<double> qualityFromDouble(double qualityNumber)
 {
     if (!(qualityNumber >= 0 && qualityNumber <= 1))
         return std::nullopt;

     return qualityNumber;
 }

 void OffscreenCanvas::convertToBlob(ImageEncodeOptions&& options, Ref<DeferredPromise>&& promise)
 {
     if (!originClean()) {
         promise->reject(SecurityError);
         return;
     }
     if (size().isEmpty()) {
         promise->reject(IndexSizeError);
         return;
     }
     if (m_detached || !buffer()) {
         promise->reject(InvalidStateError);
         return;
     }

     makeRenderingResultsAvailable();

     auto encodingMIMEType = toEncodingMimeType(options.type);
     auto quality = qualityFromDouble(options.quality);

     Vector<uint8_t> blobData = buffer()->toData(encodingMIMEType, quality);
     if (blobData.isEmpty()) {
         promise->reject(EncodingError);
         return;
     }

     Ref<Blob> blob = Blob::create(canvasBaseScriptExecutionContext(), WTFMove(blobData), encodingMIMEType);
     promise->resolveWithNewlyCreated<IDLInterface<Blob>>(WTFMove(blob));
 }

 void OffscreenCanvas::didDraw(const std::optional<FloatRect>& rect)
 {
     clearCopiedImage();
     scheduleCommitToPlaceholderCanvas();
     notifyObserversCanvasChanged(rect);
 }

 Image* OffscreenCanvas::copiedImage() const
 {
     if (m_detached)
         return nullptr;

     if (!m_copiedImage && buffer()) {
         if (m_context)
             m_context->paintRenderingResultsToCanvas();
         m_copiedImage = buffer()->copyImage(CopyBackingStore, PreserveResolution::Yes);
     }
     return m_copiedImage.get();
 }

 void OffscreenCanvas::clearCopiedImage() const
 {
     m_copiedImage = nullptr;
 }

 SecurityOrigin* OffscreenCanvas::securityOrigin() const
 {
     auto& scriptExecutionContext = *canvasBaseScriptExecutionContext();
     if (is<WorkerGlobalScope>(scriptExecutionContext))
         return &downcast<WorkerGlobalScope>(scriptExecutionContext).topOrigin();

     return &downcast<Document>(scriptExecutionContext).securityOrigin();
 }

 bool OffscreenCanvas::canDetach() const
 {
     return !m_detached && !m_context;
 }

 std::unique_ptr<DetachedOffscreenCanvas> OffscreenCanvas::detach()
 {
     if (!canDetach())
         return nullptr;

     m_detached = true;

     auto detached = makeUnique<DetachedOffscreenCanvas>(takeImageBuffer(), size(), originClean());
     detached->m_placeholderCanvas = std::exchange(m_placeholderData->canvas, nullptr);

     return detached;
 }

 void OffscreenCanvas::setPlaceholderCanvas(HTMLCanvasElement& canvas)
 {
     ASSERT(!m_context);
     ASSERT(isMainThread());
     m_placeholderData->canvas = canvas;
     auto& placeholderContext = downcast<PlaceholderRenderingContext>(*canvas.renderingContext());
     auto& imageBufferPipe = placeholderContext.imageBufferPipe();
     if (imageBufferPipe)
         m_placeholderData->bufferPipeSource = imageBufferPipe->source();
 }

 void OffscreenCanvas::pushBufferToPlaceholder()
 {
     callOnMainThread([placeholderData = Ref { *m_placeholderData }] () mutable {
         Locker locker { placeholderData->bufferLock };
         if (placeholderData->canvas && placeholderData->pendingCommitBuffer)
             placeholderData->canvas->setImageBufferAndMarkDirty(WTFMove(placeholderData->pendingCommitBuffer));
         placeholderData->pendingCommitBuffer = nullptr;
     });
 }

 void OffscreenCanvas::commitToPlaceholderCanvas()
 {
     auto* imageBuffer = buffer();
     if (!imageBuffer)
         return;

     // FIXME: Transfer texture over if we're using accelerated compositing
     if (m_context && (m_context->isWebGL() || m_context->isAccelerated()))
         m_context->paintRenderingResultsToCanvas();

     if (m_placeholderData->bufferPipeSource) {
         auto bufferCopy = imageBuffer->copyRectToBuffer(FloatRect(FloatPoint(), imageBuffer->logicalSize()), DestinationColorSpace::SRGB(), imageBuffer->context());
         if (bufferCopy)
             m_placeholderData->bufferPipeSource->handle(WTFMove(bufferCopy));
     }

     Locker locker { m_placeholderData->bufferLock };
     bool shouldPushBuffer = !m_placeholderData->pendingCommitBuffer;
     m_placeholderData->pendingCommitBuffer = imageBuffer->copyRectToBuffer(FloatRect(FloatPoint(), imageBuffer->logicalSize()), DestinationColorSpace::SRGB(), imageBuffer->context());
     if (m_placeholderData->pendingCommitBuffer && shouldPushBuffer)
         pushBufferToPlaceholder();
 }

 void OffscreenCanvas::scheduleCommitToPlaceholderCanvas()
 {
     if (!m_hasScheduledCommit) {
         auto& scriptContext = *scriptExecutionContext();
         m_hasScheduledCommit = true;
         scriptContext.postTask([protectedThis = Ref { *this }, this] (ScriptExecutionContext&) {
             m_hasScheduledCommit = false;
             commitToPlaceholderCanvas();
         });
     }
 }

 CSSValuePool& OffscreenCanvas::cssValuePool()
 {
     auto* scriptExecutionContext = canvasBaseScriptExecutionContext();
     if (scriptExecutionContext->isWorkerGlobalScope())
         return downcast<WorkerGlobalScope>(*scriptExecutionContext).cssValuePool();

     ASSERT(scriptExecutionContext->isDocument());
     return CSSValuePool::singleton();
 }

 void OffscreenCanvas::createImageBuffer() const
 {
     m_hasCreatedImageBuffer = true;

     if (!width() || !height())
         return;

     auto colorSpace = m_context ? m_context->colorSpace() : DestinationColorSpace::SRGB();
     setImageBuffer(ImageBitmap::createImageBuffer(*canvasBaseScriptExecutionContext(), size(), RenderingMode::Unaccelerated, colorSpace));
 }

 RefPtr<ImageBuffer> OffscreenCanvas::takeImageBuffer() const
 {
     ASSERT(m_detached);

     if (size().isEmpty())
         return nullptr;

     clearCopiedImage();
     return setImageBuffer(nullptr);
 }

 void OffscreenCanvas::reset()
 {
     resetGraphicsContextState();
     if (is<OffscreenCanvasRenderingContext2D>(m_context))
         downcast<OffscreenCanvasRenderingContext2D>(*m_context).reset();

     m_hasCreatedImageBuffer = false;
     setImageBuffer(nullptr);
     clearCopiedImage();

     notifyObserversCanvasResized();
     scheduleCommitToPlaceholderCanvas();
 }

 }

 #endif
	/*
	* Copyright (C) 2017 Apple Inc. 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. AND ITS CONTRIBUTORS ``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 ITS 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 "OffscreenCanvas.h"

	#if ENABLE(OFFSCREEN_CANVAS)

	#include "CSSValuePool.h"
	#include "CanvasRenderingContext.h"
	#include "Document.h"
	#include "HTMLCanvasElement.h"
	#include "ImageBitmap.h"
	#include "ImageData.h"
	#include "JSBlob.h"
	#include "JSDOMPromiseDeferred.h"
	#include "MIMETypeRegistry.h"
	#include "OffscreenCanvasRenderingContext2D.h"
	#include "PlaceholderRenderingContext.h"
	#include "RuntimeEnabledFeatures.h"
	#include "WorkerGlobalScope.h"
	#include <wtf/IsoMallocInlines.h>

	#if ENABLE(WEBGL)
	#include "Settings.h"
	#include "WebGLRenderingContext.h"

	#if ENABLE(WEBGL2)
	#include "WebGL2RenderingContext.h"
	#endif
	#endif // ENABLE(WEBGL)

	namespace WebCore {

	WTF_MAKE_ISO_ALLOCATED_IMPL(OffscreenCanvas);

	DetachedOffscreenCanvas::DetachedOffscreenCanvas(RefPtr<ImageBuffer>&& buffer, const IntSize& size, bool originClean)
	: m_buffer(WTFMove(buffer))
	, m_size(size)
	, m_originClean(originClean)
	{
	}

	RefPtr<ImageBuffer> DetachedOffscreenCanvas::takeImageBuffer()
	{
	return WTFMove(m_buffer);
	}

	WeakPtr<HTMLCanvasElement> DetachedOffscreenCanvas::takePlaceholderCanvas()
	{
	ASSERT(isMainThread());
	return std::exchange(m_placeholderCanvas, nullptr);
	}

	bool OffscreenCanvas::enabledForContext(ScriptExecutionContext& context)
	{
	#if ENABLE(OFFSCREEN_CANVAS_IN_WORKERS)
	if (context.isWorkerGlobalScope())
	return RuntimeEnabledFeatures::sharedFeatures().offscreenCanvasInWorkersEnabled();
	#endif

	ASSERT(context.isDocument());
	return true;
	}

	Ref<OffscreenCanvas> OffscreenCanvas::create(ScriptExecutionContext& scriptExecutionContext, unsigned width, unsigned height)
	{
	return adoptRef(*new OffscreenCanvas(scriptExecutionContext, width, height));
	}

	Ref<OffscreenCanvas> OffscreenCanvas::create(ScriptExecutionContext& scriptExecutionContext, std::unique_ptr<DetachedOffscreenCanvas>&& detachedCanvas)
	{
	Ref<OffscreenCanvas> clone = adoptRef(*new OffscreenCanvas(scriptExecutionContext, detachedCanvas->size().width(), detachedCanvas->size().height()));
	clone->setImageBuffer(detachedCanvas->takeImageBuffer());
	if (!detachedCanvas->originClean())
	clone->setOriginTainted();

	callOnMainThread([detachedCanvas = WTFMove(detachedCanvas), placeholderData = Ref { *clone->m_placeholderData }] () mutable {
	placeholderData->canvas = detachedCanvas->takePlaceholderCanvas();
	if (placeholderData->canvas) {
	auto& placeholderContext = downcast<PlaceholderRenderingContext>(*placeholderData->canvas->renderingContext());
	auto& imageBufferPipe = placeholderContext.imageBufferPipe();
	if (imageBufferPipe)
	placeholderData->bufferPipeSource = imageBufferPipe->source();
	}
	});

	return clone;
	}

	Ref<OffscreenCanvas> OffscreenCanvas::create(ScriptExecutionContext& scriptExecutionContext, HTMLCanvasElement& canvas)
	{
	auto offscreen = adoptRef(*new OffscreenCanvas(scriptExecutionContext, canvas.width(), canvas.height()));
	offscreen->setPlaceholderCanvas(canvas);
	return offscreen;
	}

	OffscreenCanvas::OffscreenCanvas(ScriptExecutionContext& scriptExecutionContext, unsigned width, unsigned height)
	: CanvasBase(IntSize(width, height))
	, ContextDestructionObserver(&scriptExecutionContext)
	, m_placeholderData(PlaceholderData::create())
	{
	}

	OffscreenCanvas::~OffscreenCanvas()
	{
	notifyObserversCanvasDestroyed();

	m_context = nullptr; // Ensure this goes away before the ImageBuffer.
	setImageBuffer(nullptr);
	}

	unsigned OffscreenCanvas::width() const
	{
	if (m_detached)
	return 0;
	return CanvasBase::width();
	}

	unsigned OffscreenCanvas::height() const
	{
	if (m_detached)
	return 0;
	return CanvasBase::height();
	}

	void OffscreenCanvas::setWidth(unsigned newWidth)
	{
	if (m_detached)
	return;
	setSize(IntSize(newWidth, height()));
	}

	void OffscreenCanvas::setHeight(unsigned newHeight)
	{
	if (m_detached)
	return;
	setSize(IntSize(width(), newHeight));
	}

	void OffscreenCanvas::setSize(const IntSize& newSize)
	{
	CanvasBase::setSize(newSize);
	reset();
	}

	#if ENABLE(WEBGL)
	static bool requiresAcceleratedCompositingForWebGL()
	{
	#if PLATFORM(GTK) \|\| PLATFORM(WIN_CAIRO)
	return false;
	#else
	return true;
	#endif
	}

	static bool shouldEnableWebGL(bool webGLEnabled, bool acceleratedCompositingEnabled)
	{
	if (!webGLEnabled)
	return false;

	if (!requiresAcceleratedCompositingForWebGL())
	return true;

	return acceleratedCompositingEnabled;
	}

	void OffscreenCanvas::createContextWebGL(RenderingContextType contextType, WebGLContextAttributes&& attrs)
	{
	ASSERT(!m_context);

	auto scriptExecutionContext = this->scriptExecutionContext();
	if (scriptExecutionContext->isWorkerGlobalScope()) {
	WorkerGlobalScope& workerGlobalScope = downcast<WorkerGlobalScope>(*scriptExecutionContext);
	if (!shouldEnableWebGL(workerGlobalScope.settingsValues().webGLEnabled, workerGlobalScope.settingsValues().acceleratedCompositingEnabled))
	return;
	} else if (scriptExecutionContext->isDocument()) {
	auto& settings = downcast<Document>(*scriptExecutionContext).settings();
	if (!shouldEnableWebGL(settings.webGLEnabled(), settings.acceleratedCompositingEnabled()))
	return;
	} else
	return;
	GraphicsContextGLWebGLVersion webGLVersion = GraphicsContextGLWebGLVersion::WebGL1;
	#if ENABLE(WEBGL2)
	webGLVersion = (contextType == RenderingContextType::Webgl) ? GraphicsContextGLWebGLVersion::WebGL1 : GraphicsContextGLWebGLVersion::WebGL2;
	#else
	UNUSED_PARAM(contextType);
	#endif
	m_context = WebGLRenderingContextBase::create(*this, attrs, webGLVersion);
	}

	#endif // ENABLE(WEBGL)

	ExceptionOr<std::optional<OffscreenRenderingContext>> OffscreenCanvas::getContext(JSC::JSGlobalObject& state, RenderingContextType contextType, Vector<JSC::Strong<JSC::Unknown>>&& arguments)
	{
	if (m_detached)
	return Exception { InvalidStateError };

	if (contextType == RenderingContextType::_2d) {
	if (m_context) {
	if (!is<OffscreenCanvasRenderingContext2D>(*m_context))
	return { { std::nullopt } };
	return { { RefPtr<OffscreenCanvasRenderingContext2D> { &downcast<OffscreenCanvasRenderingContext2D>(*m_context) } } };
	}

	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 });

	m_context = makeUnique<OffscreenCanvasRenderingContext2D>(*this, WTFMove(settings));
	if (!m_context)
	return { { std::nullopt } };

	return { { RefPtr<OffscreenCanvasRenderingContext2D> { &downcast<OffscreenCanvasRenderingContext2D>(*m_context) } } };
	}
	#if ENABLE(WEBGL)
	else {
	if (m_context) {
	if (is<WebGLRenderingContext>(*m_context))
	return { { RefPtr<WebGLRenderingContext> { &downcast<WebGLRenderingContext>(*m_context) } } };
	#if ENABLE(WEBGL2)
	if (is<WebGL2RenderingContext>(*m_context))
	return { { RefPtr<WebGL2RenderingContext> { &downcast<WebGL2RenderingContext>(*m_context) } } };
	#endif
	return { { std::nullopt } };
	}

	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 });

	createContextWebGL(contextType, WTFMove(attributes));
	if (!m_context)
	return { { std::nullopt } };

	#if ENABLE(WEBGL2)
	if (is<WebGL2RenderingContext>(*m_context))
	return { { RefPtr<WebGL2RenderingContext> { &downcast<WebGL2RenderingContext>(*m_context) } } };
	#endif
	return { { RefPtr<WebGLRenderingContext> { &downcast<WebGLRenderingContext>(*m_context) } } };
	}
	#endif

	return Exception { TypeError };
	}

	ExceptionOr<RefPtr<ImageBitmap>> OffscreenCanvas::transferToImageBitmap()
	{
	if (m_detached \|\| !m_context)
	return Exception { InvalidStateError };

	if (is<OffscreenCanvasRenderingContext2D>(*m_context)) {
	if (!width() \|\| !height())
	return { RefPtr<ImageBitmap> { nullptr } };

	if (!m_hasCreatedImageBuffer) {
	auto buffer = ImageBitmap::createImageBuffer(*canvasBaseScriptExecutionContext(), size(), RenderingMode::Unaccelerated, m_context->colorSpace());
	return { ImageBitmap::create(ImageBitmapBacking(WTFMove(buffer))) };
	}

	// As the canvas context state is stored in GraphicsContext, which is owned
	// by buffer(), to avoid resetting the context state, we have to make a copy and
	// clear the original buffer rather than returning the original buffer.
	auto bufferCopy = buffer()->copyRectToBuffer(FloatRect(FloatPoint(), buffer()->logicalSize()), buffer()->colorSpace(), *drawingContext());
	downcast<OffscreenCanvasRenderingContext2D>(*m_context).clearCanvas();
	clearCopiedImage();

	return { ImageBitmap::create(ImageBitmapBacking(WTFMove(bufferCopy), originClean() ? SerializationState::OriginClean : SerializationState())) };
	}

	#if ENABLE(WEBGL)
	if (is<WebGLRenderingContext>(*m_context)) {
	auto webGLContext = &downcast<WebGLRenderingContext>(*m_context);

	// FIXME: We're supposed to create an ImageBitmap using the backing
	// store from this canvas (or its context), but for now we'll just
	// create a new bitmap and paint into it.

	auto imageBitmap = ImageBitmap::create(*canvasBaseScriptExecutionContext(), size(), DestinationColorSpace::SRGB());
	if (!imageBitmap->buffer())
	return { RefPtr<ImageBitmap> { nullptr } };

	auto* gc3d = webGLContext->graphicsContextGL();
	gc3d->paintRenderingResultsToCanvas(*imageBitmap->buffer());

	// FIXME: The transfer algorithm requires that the canvas effectively
	// creates a new backing store. Since we're not doing that yet, we
	// need to erase what's there.

	GCGLfloat clearColor[4] { };
	gc3d->getFloatv(GraphicsContextGL::COLOR_CLEAR_VALUE, clearColor);
	gc3d->clearColor(0, 0, 0, 0);
	gc3d->clear(GraphicsContextGL::COLOR_BUFFER_BIT \| GraphicsContextGL::DEPTH_BUFFER_BIT \| GraphicsContextGL::STENCIL_BUFFER_BIT);
	gc3d->clearColor(clearColor[0], clearColor[1], clearColor[2], clearColor[3]);

	return { WTFMove(imageBitmap) };
	}
	#endif

	return Exception { NotSupportedError };
	}

	static String toEncodingMimeType(const String& mimeType)
	{
	if (!MIMETypeRegistry::isSupportedImageMIMETypeForEncoding(mimeType))
	return "image/png"_s;
	return mimeType.convertToASCIILowercase();
	}

	static std::optional<double> qualityFromDouble(double qualityNumber)
	{
	if (!(qualityNumber >= 0 && qualityNumber <= 1))
	return std::nullopt;

	return qualityNumber;
	}

	void OffscreenCanvas::convertToBlob(ImageEncodeOptions&& options, Ref<DeferredPromise>&& promise)
	{
	if (!originClean()) {
	promise->reject(SecurityError);
	return;
	}
	if (size().isEmpty()) {
	promise->reject(IndexSizeError);
	return;
	}
	if (m_detached \|\| !buffer()) {
	promise->reject(InvalidStateError);
	return;
	}

	makeRenderingResultsAvailable();

	auto encodingMIMEType = toEncodingMimeType(options.type);
	auto quality = qualityFromDouble(options.quality);

	Vector<uint8_t> blobData = buffer()->toData(encodingMIMEType, quality);
	if (blobData.isEmpty()) {
	promise->reject(EncodingError);
	return;
	}

	Ref<Blob> blob = Blob::create(canvasBaseScriptExecutionContext(), WTFMove(blobData), encodingMIMEType);
	promise->resolveWithNewlyCreated<IDLInterface<Blob>>(WTFMove(blob));
	}

	void OffscreenCanvas::didDraw(const std::optional<FloatRect>& rect)
	{
	clearCopiedImage();
	scheduleCommitToPlaceholderCanvas();
	notifyObserversCanvasChanged(rect);
	}

	Image* OffscreenCanvas::copiedImage() const
	{
	if (m_detached)
	return nullptr;

	if (!m_copiedImage && buffer()) {
	if (m_context)
	m_context->paintRenderingResultsToCanvas();
	m_copiedImage = buffer()->copyImage(CopyBackingStore, PreserveResolution::Yes);
	}
	return m_copiedImage.get();
	}

	void OffscreenCanvas::clearCopiedImage() const
	{
	m_copiedImage = nullptr;
	}

	SecurityOrigin* OffscreenCanvas::securityOrigin() const
	{
	auto& scriptExecutionContext = *canvasBaseScriptExecutionContext();
	if (is<WorkerGlobalScope>(scriptExecutionContext))
	return &downcast<WorkerGlobalScope>(scriptExecutionContext).topOrigin();

	return &downcast<Document>(scriptExecutionContext).securityOrigin();
	}

	bool OffscreenCanvas::canDetach() const
	{
	return !m_detached && !m_context;
	}

	std::unique_ptr<DetachedOffscreenCanvas> OffscreenCanvas::detach()
	{
	if (!canDetach())
	return nullptr;

	m_detached = true;

	auto detached = makeUnique<DetachedOffscreenCanvas>(takeImageBuffer(), size(), originClean());
	detached->m_placeholderCanvas = std::exchange(m_placeholderData->canvas, nullptr);

	return detached;
	}

	void OffscreenCanvas::setPlaceholderCanvas(HTMLCanvasElement& canvas)
	{
	ASSERT(!m_context);
	ASSERT(isMainThread());
	m_placeholderData->canvas = canvas;
	auto& placeholderContext = downcast<PlaceholderRenderingContext>(*canvas.renderingContext());
	auto& imageBufferPipe = placeholderContext.imageBufferPipe();
	if (imageBufferPipe)
	m_placeholderData->bufferPipeSource = imageBufferPipe->source();
	}

	void OffscreenCanvas::pushBufferToPlaceholder()
	{
	callOnMainThread([placeholderData = Ref { *m_placeholderData }] () mutable {
	Locker locker { placeholderData->bufferLock };
	if (placeholderData->canvas && placeholderData->pendingCommitBuffer)
	placeholderData->canvas->setImageBufferAndMarkDirty(WTFMove(placeholderData->pendingCommitBuffer));
	placeholderData->pendingCommitBuffer = nullptr;
	});
	}

	void OffscreenCanvas::commitToPlaceholderCanvas()
	{
	auto* imageBuffer = buffer();
	if (!imageBuffer)
	return;

	// FIXME: Transfer texture over if we're using accelerated compositing
	if (m_context && (m_context->isWebGL() \|\| m_context->isAccelerated()))
	m_context->paintRenderingResultsToCanvas();

	if (m_placeholderData->bufferPipeSource) {
	auto bufferCopy = imageBuffer->copyRectToBuffer(FloatRect(FloatPoint(), imageBuffer->logicalSize()), DestinationColorSpace::SRGB(), imageBuffer->context());
	if (bufferCopy)
	m_placeholderData->bufferPipeSource->handle(WTFMove(bufferCopy));
	}

	Locker locker { m_placeholderData->bufferLock };
	bool shouldPushBuffer = !m_placeholderData->pendingCommitBuffer;
	m_placeholderData->pendingCommitBuffer = imageBuffer->copyRectToBuffer(FloatRect(FloatPoint(), imageBuffer->logicalSize()), DestinationColorSpace::SRGB(), imageBuffer->context());
	if (m_placeholderData->pendingCommitBuffer && shouldPushBuffer)
	pushBufferToPlaceholder();
	}

	void OffscreenCanvas::scheduleCommitToPlaceholderCanvas()
	{
	if (!m_hasScheduledCommit) {
	auto& scriptContext = *scriptExecutionContext();
	m_hasScheduledCommit = true;
	scriptContext.postTask([protectedThis = Ref { *this }, this] (ScriptExecutionContext&) {
	m_hasScheduledCommit = false;
	commitToPlaceholderCanvas();
	});
	}
	}

	CSSValuePool& OffscreenCanvas::cssValuePool()
	{
	auto* scriptExecutionContext = canvasBaseScriptExecutionContext();
	if (scriptExecutionContext->isWorkerGlobalScope())
	return downcast<WorkerGlobalScope>(*scriptExecutionContext).cssValuePool();

	ASSERT(scriptExecutionContext->isDocument());
	return CSSValuePool::singleton();
	}

	void OffscreenCanvas::createImageBuffer() const
	{
	m_hasCreatedImageBuffer = true;

	if (!width() \|\| !height())
	return;

	auto colorSpace = m_context ? m_context->colorSpace() : DestinationColorSpace::SRGB();
	setImageBuffer(ImageBitmap::createImageBuffer(*canvasBaseScriptExecutionContext(), size(), RenderingMode::Unaccelerated, colorSpace));
	}

	RefPtr<ImageBuffer> OffscreenCanvas::takeImageBuffer() const
	{
	ASSERT(m_detached);

	if (size().isEmpty())
	return nullptr;

	clearCopiedImage();
	return setImageBuffer(nullptr);
	}

	void OffscreenCanvas::reset()
	{
	resetGraphicsContextState();
	if (is<OffscreenCanvasRenderingContext2D>(m_context))
	downcast<OffscreenCanvasRenderingContext2D>(*m_context).reset();

	m_hasCreatedImageBuffer = false;
	setImageBuffer(nullptr);
	clearCopiedImage();

	notifyObserversCanvasResized();
	scheduleCommitToPlaceholderCanvas();
	}

	}

	#endif