ppapi/proxy/compositor_layer_resource.cc - chromium/src - Git at Google

 // Copyright 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "ppapi/proxy/compositor_layer_resource.h"

 #include <limits>

 #include "base/logging.h"
 #include "gpu/GLES2/gl2extchromium.h"
 #include "gpu/command_buffer/client/gles2_implementation.h"
 #include "gpu/command_buffer/common/mailbox.h"
 #include "gpu/command_buffer/common/sync_token.h"
 #include "ppapi/proxy/compositor_resource.h"
 #include "ppapi/shared_impl/ppb_graphics_3d_shared.h"
 #include "ppapi/thunk/enter.h"
 #include "ppapi/thunk/ppb_graphics_3d_api.h"
 #include "ppapi/thunk/ppb_image_data_api.h"

 using gpu::gles2::GLES2Implementation;
 using ppapi::thunk::EnterResourceNoLock;
 using ppapi::thunk::PPB_ImageData_API;
 using ppapi::thunk::PPB_Graphics3D_API;

 namespace ppapi {
 namespace proxy {

 namespace {

 float clamp(float value) {
   return std::min(std::max(value, 0.0f), 1.0f);
 }

 void OnTextureReleased(const ScopedPPResource& layer,
                        const ScopedPPResource& context,
                        uint32_t texture,
                        const scoped_refptr<TrackedCallback>& release_callback,
                        int32_t result,
                        const gpu::SyncToken& sync_token,
                        bool is_lost) {
   if (!TrackedCallback::IsPending(release_callback))
     return;

   if (result != PP_OK) {
     release_callback->Run(result);
     return;
   }

   do {
     if (!sync_token.HasData())
       break;

     EnterResourceNoLock<PPB_Graphics3D_API> enter(context.get(), true);
     if (enter.failed())
       break;

     PPB_Graphics3D_Shared* graphics =
         static_cast<PPB_Graphics3D_Shared*>(enter.object());

     GLES2Implementation* gl = graphics->gles2_impl();
     gl->WaitSyncTokenCHROMIUM(sync_token.GetConstData());
   } while (false);

   release_callback->Run(is_lost ? PP_ERROR_FAILED : PP_OK);
 }

 void OnImageReleased(const ScopedPPResource& layer,
                      const ScopedPPResource& image,
                      const scoped_refptr<TrackedCallback>& release_callback,
                      int32_t result,
                      const gpu::SyncToken& sync_token,
                      bool is_lost) {
   if (!TrackedCallback::IsPending(release_callback))
     return;
   release_callback->Run(result);
 }

 }  // namespace

 CompositorLayerResource::CompositorLayerResource(
     Connection connection,
     PP_Instance instance,
     const CompositorResource* compositor)
     : PluginResource(connection, instance),
       compositor_(compositor),
       source_size_(PP_MakeFloatSize(0.0f, 0.0f)) {
 }

 CompositorLayerResource::~CompositorLayerResource() {
   DCHECK(!compositor_);
   DCHECK(release_callback_.is_null());
 }

 thunk::PPB_CompositorLayer_API*
 CompositorLayerResource::AsPPB_CompositorLayer_API() {
   return this;
 }

 int32_t CompositorLayerResource::SetColor(float red,
                                           float green,
                                           float blue,
                                           float alpha,
                                           const PP_Size* size) {
   if (!compositor_)
     return PP_ERROR_BADRESOURCE;

   if (compositor_->IsInProgress())
     return PP_ERROR_INPROGRESS;

   if (!SetType(TYPE_COLOR))
     return PP_ERROR_BADARGUMENT;
   DCHECK(data_.color);

   if (!size)
     return PP_ERROR_BADARGUMENT;

   data_.color->red = clamp(red);
   data_.color->green = clamp(green);
   data_.color->blue = clamp(blue);
   data_.color->alpha = clamp(alpha);
   data_.common.size = *size;

   return PP_OK;
 }

 int32_t CompositorLayerResource::SetTexture0_1(
     PP_Resource context,
     uint32_t texture,
     const PP_Size* size,
     const scoped_refptr<TrackedCallback>& release_callback) {
   return SetTexture(context, GL_TEXTURE_2D, texture, size, release_callback);
 }

 int32_t CompositorLayerResource::SetTexture(
     PP_Resource context,
     uint32_t target,
     uint32_t texture,
     const PP_Size* size,
     const scoped_refptr<TrackedCallback>& release_callback) {
   int32_t rv = CheckForSetTextureAndImage(TYPE_TEXTURE, release_callback);
   if (rv != PP_OK)
     return rv;
   DCHECK(data_.texture);

   EnterResourceNoLock<PPB_Graphics3D_API> enter(context, true);
   if (enter.failed())
     return PP_ERROR_BADRESOURCE;

   if (target != GL_TEXTURE_2D &&
       target != GL_TEXTURE_EXTERNAL_OES &&
       target != GL_TEXTURE_RECTANGLE_ARB) {
     return PP_ERROR_BADARGUMENT;
   }

   if (!size || size->width <= 0 || size->height <= 0)
     return PP_ERROR_BADARGUMENT;

   PPB_Graphics3D_Shared* graphics =
       static_cast<PPB_Graphics3D_Shared*>(enter.object());

   GLES2Implementation* gl = graphics->gles2_impl();

   // Generate a Mailbox for the texture.
   gl->ProduceTextureDirectCHROMIUM(texture, data_.texture->mailbox.name);

   // Set the source size to (1, 1). It will be used to verify the source_rect
   // passed to SetSourceRect().
   source_size_ = PP_MakeFloatSize(1.0f, 1.0f);

   data_.common.size = *size;
   data_.common.resource_id = compositor_->GenerateResourceId();
   data_.texture->target = target;
   data_.texture->source_rect.point = PP_MakeFloatPoint(0.0f, 0.0f);
   data_.texture->source_rect.size = source_size_;

   gl->GenSyncTokenCHROMIUM(data_.texture->sync_token.GetData());

   // If the PP_Resource of this layer is released by the plugin, the
   // release_callback will be aborted immediately, but the texture or image
   // in this layer may still being used by chromium compositor. So we have to
   // use ScopedPPResource to keep this resource alive until the texture or image
   // is released by the chromium compositor.
   release_callback_ = base::Bind(
       &OnTextureReleased,
       ScopedPPResource(pp_resource()), // Keep layer alive.
       ScopedPPResource(context), // Keep context alive
       texture,
       release_callback);

   return PP_OK_COMPLETIONPENDING;
 }

 int32_t CompositorLayerResource::SetImage(
     PP_Resource image_data,
     const PP_Size* size,
     const scoped_refptr<TrackedCallback>& release_callback) {
   int32_t rv = CheckForSetTextureAndImage(TYPE_IMAGE, release_callback);
   if (rv != PP_OK)
     return rv;
   DCHECK(data_.image);

   EnterResourceNoLock<PPB_ImageData_API> enter(image_data, true);
   if (enter.failed())
     return PP_ERROR_BADRESOURCE;

   PP_ImageDataDesc desc;
   if (!enter.object()->Describe(&desc))
     return PP_ERROR_BADARGUMENT;

   // TODO(penghuang): Support image which width * 4 != stride.
   if (desc.size.width * 4 != desc.stride)
     return PP_ERROR_BADARGUMENT;

   // TODO(penghuang): Support all formats.
   if (desc.format != PP_IMAGEDATAFORMAT_RGBA_PREMUL)
     return PP_ERROR_BADARGUMENT;

   if (size && (size->width <= 0 || size->height <= 0))
     return PP_ERROR_BADARGUMENT;

   // Set the source size to image's size. It will be used to verify
   // the source_rect passed to SetSourceRect().
   source_size_ = PP_MakeFloatSize(desc.size.width, desc.size.height);

   data_.common.size = size ? *size : desc.size;
   data_.common.resource_id = compositor_->GenerateResourceId();
   data_.image->resource = enter.resource()->host_resource().host_resource();
   data_.image->source_rect.point = PP_MakeFloatPoint(0.0f, 0.0f);
   data_.image->source_rect.size = source_size_;

   // If the PP_Resource of this layer is released by the plugin, the
   // release_callback will be aborted immediately, but the texture or image
   // in this layer may still being used by chromium compositor. So we have to
   // use ScopedPPResource to keep this resource alive until the texture or image
   // is released by the chromium compositor.
   release_callback_ = base::Bind(
       &OnImageReleased,
       ScopedPPResource(pp_resource()), // Keep layer alive.
       ScopedPPResource(image_data), // Keep image_data alive.
       release_callback);

   return PP_OK_COMPLETIONPENDING;
 }

 int32_t CompositorLayerResource::SetClipRect(const PP_Rect* rect) {
   if (!compositor_)
     return PP_ERROR_BADRESOURCE;

   if (compositor_->IsInProgress())
     return PP_ERROR_INPROGRESS;

   data_.common.clip_rect = rect ? *rect : PP_MakeRectFromXYWH(0, 0, 0, 0);
   return PP_OK;
 }

 int32_t CompositorLayerResource::SetTransform(const float matrix[16]) {
   if (!compositor_)
     return PP_ERROR_BADRESOURCE;

   if (compositor_->IsInProgress())
     return PP_ERROR_INPROGRESS;

   std::copy(matrix, matrix + 16, data_.common.transform.matrix);
   return PP_OK;
 }

 int32_t CompositorLayerResource::SetOpacity(float opacity) {
   if (!compositor_)
     return PP_ERROR_BADRESOURCE;

   if (compositor_->IsInProgress())
     return PP_ERROR_INPROGRESS;

   data_.common.opacity = clamp(opacity);
   return PP_OK;
 }

 int32_t CompositorLayerResource::SetBlendMode(PP_BlendMode mode) {
   if (!compositor_)
     return PP_ERROR_BADRESOURCE;

   if (compositor_->IsInProgress())
     return PP_ERROR_INPROGRESS;

   switch (mode) {
     case PP_BLENDMODE_NONE:
     case PP_BLENDMODE_SRC_OVER:
       data_.common.blend_mode = mode;
       return PP_OK;
   }
   return PP_ERROR_BADARGUMENT;
 }

 int32_t CompositorLayerResource::SetSourceRect(
     const PP_FloatRect* rect) {
   if (!compositor_)
     return PP_ERROR_BADRESOURCE;

   if (compositor_->IsInProgress())
     return PP_ERROR_INPROGRESS;

   const float kEpsilon = std::numeric_limits<float>::epsilon();
   if (!rect ||
       rect->point.x < -kEpsilon ||
       rect->point.y < -kEpsilon ||
       rect->point.x + rect->size.width > source_size_.width + kEpsilon ||
       rect->point.y + rect->size.height > source_size_.height + kEpsilon) {
     return PP_ERROR_BADARGUMENT;
   }

   if (data_.texture) {
     data_.texture->source_rect = *rect;
     return PP_OK;
   }
   if (data_.image) {
     data_.image->source_rect = *rect;
     return PP_OK;
   }
   return PP_ERROR_BADARGUMENT;
 }

 int32_t CompositorLayerResource::SetPremultipliedAlpha(PP_Bool premult) {
   if (!compositor_)
     return PP_ERROR_BADRESOURCE;

   if (compositor_->IsInProgress())
     return PP_ERROR_INPROGRESS;

   if (data_.texture) {
     data_.texture->premult_alpha = PP_ToBool(premult);
     return PP_OK;
   }
   return PP_ERROR_BADARGUMENT;
 }

 bool CompositorLayerResource::SetType(LayerType type) {
   if (type == TYPE_COLOR) {
     if (data_.is_null())
       data_.color.reset(new CompositorLayerData::ColorLayer());
     return !!data_.color;
   }

   if (type == TYPE_TEXTURE) {
     if (data_.is_null())
       data_.texture.reset(new CompositorLayerData::TextureLayer());
     return !!data_.texture;
   }

   if (type == TYPE_IMAGE) {
     if (data_.is_null())
       data_.image.reset(new CompositorLayerData::ImageLayer());
     return !!data_.image;
   }

   // Should not be reached.
   DCHECK(false);
   return false;
 }

 int32_t CompositorLayerResource::CheckForSetTextureAndImage(
     LayerType type,
     const scoped_refptr<TrackedCallback>& release_callback) {
   if (!compositor_)
     return PP_ERROR_BADRESOURCE;

   if (compositor_->IsInProgress())
     return PP_ERROR_INPROGRESS;

   if (!SetType(type))
     return PP_ERROR_BADARGUMENT;

   // The layer's image has been set and it is not committed.
   if (!release_callback_.is_null())
     return PP_ERROR_INPROGRESS;

   // Do not allow using a block callback as a release callback.
   if (release_callback->is_blocking())
     return PP_ERROR_BADARGUMENT;

   return PP_OK;
 }

 }  // namespace proxy
 }  // namespace ppapi
	// Copyright 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "ppapi/proxy/compositor_layer_resource.h"

	#include <limits>

	#include "base/logging.h"
	#include "gpu/GLES2/gl2extchromium.h"
	#include "gpu/command_buffer/client/gles2_implementation.h"
	#include "gpu/command_buffer/common/mailbox.h"
	#include "gpu/command_buffer/common/sync_token.h"
	#include "ppapi/proxy/compositor_resource.h"
	#include "ppapi/shared_impl/ppb_graphics_3d_shared.h"
	#include "ppapi/thunk/enter.h"
	#include "ppapi/thunk/ppb_graphics_3d_api.h"
	#include "ppapi/thunk/ppb_image_data_api.h"

	using gpu::gles2::GLES2Implementation;
	using ppapi::thunk::EnterResourceNoLock;
	using ppapi::thunk::PPB_ImageData_API;
	using ppapi::thunk::PPB_Graphics3D_API;

	namespace ppapi {
	namespace proxy {

	namespace {

	float clamp(float value) {
	return std::min(std::max(value, 0.0f), 1.0f);
	}

	void OnTextureReleased(const ScopedPPResource& layer,
	const ScopedPPResource& context,
	uint32_t texture,
	const scoped_refptr<TrackedCallback>& release_callback,
	int32_t result,
	const gpu::SyncToken& sync_token,
	bool is_lost) {
	if (!TrackedCallback::IsPending(release_callback))
	return;

	if (result != PP_OK) {
	release_callback->Run(result);
	return;
	}

	do {
	if (!sync_token.HasData())
	break;

	EnterResourceNoLock<PPB_Graphics3D_API> enter(context.get(), true);
	if (enter.failed())
	break;

	PPB_Graphics3D_Shared* graphics =
	static_cast<PPB_Graphics3D_Shared*>(enter.object());

	GLES2Implementation* gl = graphics->gles2_impl();
	gl->WaitSyncTokenCHROMIUM(sync_token.GetConstData());
	} while (false);

	release_callback->Run(is_lost ? PP_ERROR_FAILED : PP_OK);
	}

	void OnImageReleased(const ScopedPPResource& layer,
	const ScopedPPResource& image,
	const scoped_refptr<TrackedCallback>& release_callback,
	int32_t result,
	const gpu::SyncToken& sync_token,
	bool is_lost) {
	if (!TrackedCallback::IsPending(release_callback))
	return;
	release_callback->Run(result);
	}

	} // namespace

	CompositorLayerResource::CompositorLayerResource(
	Connection connection,
	PP_Instance instance,
	const CompositorResource* compositor)
	: PluginResource(connection, instance),
	compositor_(compositor),
	source_size_(PP_MakeFloatSize(0.0f, 0.0f)) {
	}

	CompositorLayerResource::~CompositorLayerResource() {
	DCHECK(!compositor_);
	DCHECK(release_callback_.is_null());
	}

	thunk::PPB_CompositorLayer_API*
	CompositorLayerResource::AsPPB_CompositorLayer_API() {
	return this;
	}

	int32_t CompositorLayerResource::SetColor(float red,
	float green,
	float blue,
	float alpha,
	const PP_Size* size) {
	if (!compositor_)
	return PP_ERROR_BADRESOURCE;

	if (compositor_->IsInProgress())
	return PP_ERROR_INPROGRESS;

	if (!SetType(TYPE_COLOR))
	return PP_ERROR_BADARGUMENT;
	DCHECK(data_.color);

	if (!size)
	return PP_ERROR_BADARGUMENT;

	data_.color->red = clamp(red);
	data_.color->green = clamp(green);
	data_.color->blue = clamp(blue);
	data_.color->alpha = clamp(alpha);
	data_.common.size = *size;

	return PP_OK;
	}

	int32_t CompositorLayerResource::SetTexture0_1(
	PP_Resource context,
	uint32_t texture,
	const PP_Size* size,
	const scoped_refptr<TrackedCallback>& release_callback) {
	return SetTexture(context, GL_TEXTURE_2D, texture, size, release_callback);
	}

	int32_t CompositorLayerResource::SetTexture(
	PP_Resource context,
	uint32_t target,
	uint32_t texture,
	const PP_Size* size,
	const scoped_refptr<TrackedCallback>& release_callback) {
	int32_t rv = CheckForSetTextureAndImage(TYPE_TEXTURE, release_callback);
	if (rv != PP_OK)
	return rv;
	DCHECK(data_.texture);

	EnterResourceNoLock<PPB_Graphics3D_API> enter(context, true);
	if (enter.failed())
	return PP_ERROR_BADRESOURCE;

	if (target != GL_TEXTURE_2D &&
	target != GL_TEXTURE_EXTERNAL_OES &&
	target != GL_TEXTURE_RECTANGLE_ARB) {
	return PP_ERROR_BADARGUMENT;
	}

	if (!size \|\| size->width <= 0 \|\| size->height <= 0)
	return PP_ERROR_BADARGUMENT;

	PPB_Graphics3D_Shared* graphics =
	static_cast<PPB_Graphics3D_Shared*>(enter.object());

	GLES2Implementation* gl = graphics->gles2_impl();

	// Generate a Mailbox for the texture.
	gl->ProduceTextureDirectCHROMIUM(texture, data_.texture->mailbox.name);

	// Set the source size to (1, 1). It will be used to verify the source_rect
	// passed to SetSourceRect().
	source_size_ = PP_MakeFloatSize(1.0f, 1.0f);

	data_.common.size = *size;
	data_.common.resource_id = compositor_->GenerateResourceId();
	data_.texture->target = target;
	data_.texture->source_rect.point = PP_MakeFloatPoint(0.0f, 0.0f);
	data_.texture->source_rect.size = source_size_;

	gl->GenSyncTokenCHROMIUM(data_.texture->sync_token.GetData());

	// If the PP_Resource of this layer is released by the plugin, the
	// release_callback will be aborted immediately, but the texture or image
	// in this layer may still being used by chromium compositor. So we have to
	// use ScopedPPResource to keep this resource alive until the texture or image
	// is released by the chromium compositor.
	release_callback_ = base::Bind(
	&OnTextureReleased,
	ScopedPPResource(pp_resource()), // Keep layer alive.
	ScopedPPResource(context), // Keep context alive
	texture,
	release_callback);

	return PP_OK_COMPLETIONPENDING;
	}

	int32_t CompositorLayerResource::SetImage(
	PP_Resource image_data,
	const PP_Size* size,
	const scoped_refptr<TrackedCallback>& release_callback) {
	int32_t rv = CheckForSetTextureAndImage(TYPE_IMAGE, release_callback);
	if (rv != PP_OK)
	return rv;
	DCHECK(data_.image);

	EnterResourceNoLock<PPB_ImageData_API> enter(image_data, true);
	if (enter.failed())
	return PP_ERROR_BADRESOURCE;

	PP_ImageDataDesc desc;
	if (!enter.object()->Describe(&desc))
	return PP_ERROR_BADARGUMENT;

	// TODO(penghuang): Support image which width * 4 != stride.
	if (desc.size.width * 4 != desc.stride)
	return PP_ERROR_BADARGUMENT;

	// TODO(penghuang): Support all formats.
	if (desc.format != PP_IMAGEDATAFORMAT_RGBA_PREMUL)
	return PP_ERROR_BADARGUMENT;

	if (size && (size->width <= 0 \|\| size->height <= 0))
	return PP_ERROR_BADARGUMENT;

	// Set the source size to image's size. It will be used to verify
	// the source_rect passed to SetSourceRect().
	source_size_ = PP_MakeFloatSize(desc.size.width, desc.size.height);

	data_.common.size = size ? *size : desc.size;
	data_.common.resource_id = compositor_->GenerateResourceId();
	data_.image->resource = enter.resource()->host_resource().host_resource();
	data_.image->source_rect.point = PP_MakeFloatPoint(0.0f, 0.0f);
	data_.image->source_rect.size = source_size_;

	// If the PP_Resource of this layer is released by the plugin, the
	// release_callback will be aborted immediately, but the texture or image
	// in this layer may still being used by chromium compositor. So we have to
	// use ScopedPPResource to keep this resource alive until the texture or image
	// is released by the chromium compositor.
	release_callback_ = base::Bind(
	&OnImageReleased,
	ScopedPPResource(pp_resource()), // Keep layer alive.
	ScopedPPResource(image_data), // Keep image_data alive.
	release_callback);

	return PP_OK_COMPLETIONPENDING;
	}

	int32_t CompositorLayerResource::SetClipRect(const PP_Rect* rect) {
	if (!compositor_)
	return PP_ERROR_BADRESOURCE;

	if (compositor_->IsInProgress())
	return PP_ERROR_INPROGRESS;

	data_.common.clip_rect = rect ? *rect : PP_MakeRectFromXYWH(0, 0, 0, 0);
	return PP_OK;
	}

	int32_t CompositorLayerResource::SetTransform(const float matrix[16]) {
	if (!compositor_)
	return PP_ERROR_BADRESOURCE;

	if (compositor_->IsInProgress())
	return PP_ERROR_INPROGRESS;

	std::copy(matrix, matrix + 16, data_.common.transform.matrix);
	return PP_OK;
	}

	int32_t CompositorLayerResource::SetOpacity(float opacity) {
	if (!compositor_)
	return PP_ERROR_BADRESOURCE;

	if (compositor_->IsInProgress())
	return PP_ERROR_INPROGRESS;

	data_.common.opacity = clamp(opacity);
	return PP_OK;
	}

	int32_t CompositorLayerResource::SetBlendMode(PP_BlendMode mode) {
	if (!compositor_)
	return PP_ERROR_BADRESOURCE;

	if (compositor_->IsInProgress())
	return PP_ERROR_INPROGRESS;

	switch (mode) {
	case PP_BLENDMODE_NONE:
	case PP_BLENDMODE_SRC_OVER:
	data_.common.blend_mode = mode;
	return PP_OK;
	}
	return PP_ERROR_BADARGUMENT;
	}

	int32_t CompositorLayerResource::SetSourceRect(
	const PP_FloatRect* rect) {
	if (!compositor_)
	return PP_ERROR_BADRESOURCE;

	if (compositor_->IsInProgress())
	return PP_ERROR_INPROGRESS;

	const float kEpsilon = std::numeric_limits<float>::epsilon();
	if (!rect \|\|
	rect->point.x < -kEpsilon \|\|
	rect->point.y < -kEpsilon \|\|
	rect->point.x + rect->size.width > source_size_.width + kEpsilon \|\|
	rect->point.y + rect->size.height > source_size_.height + kEpsilon) {
	return PP_ERROR_BADARGUMENT;
	}

	if (data_.texture) {
	data_.texture->source_rect = *rect;
	return PP_OK;
	}
	if (data_.image) {
	data_.image->source_rect = *rect;
	return PP_OK;
	}
	return PP_ERROR_BADARGUMENT;
	}

	int32_t CompositorLayerResource::SetPremultipliedAlpha(PP_Bool premult) {
	if (!compositor_)
	return PP_ERROR_BADRESOURCE;

	if (compositor_->IsInProgress())
	return PP_ERROR_INPROGRESS;

	if (data_.texture) {
	data_.texture->premult_alpha = PP_ToBool(premult);
	return PP_OK;
	}
	return PP_ERROR_BADARGUMENT;
	}

	bool CompositorLayerResource::SetType(LayerType type) {
	if (type == TYPE_COLOR) {
	if (data_.is_null())
	data_.color.reset(new CompositorLayerData::ColorLayer());
	return !!data_.color;
	}

	if (type == TYPE_TEXTURE) {
	if (data_.is_null())
	data_.texture.reset(new CompositorLayerData::TextureLayer());
	return !!data_.texture;
	}

	if (type == TYPE_IMAGE) {
	if (data_.is_null())
	data_.image.reset(new CompositorLayerData::ImageLayer());
	return !!data_.image;
	}

	// Should not be reached.
	DCHECK(false);
	return false;
	}

	int32_t CompositorLayerResource::CheckForSetTextureAndImage(
	LayerType type,
	const scoped_refptr<TrackedCallback>& release_callback) {
	if (!compositor_)
	return PP_ERROR_BADRESOURCE;

	if (compositor_->IsInProgress())
	return PP_ERROR_INPROGRESS;

	if (!SetType(type))
	return PP_ERROR_BADARGUMENT;

	// The layer's image has been set and it is not committed.
	if (!release_callback_.is_null())
	return PP_ERROR_INPROGRESS;

	// Do not allow using a block callback as a release callback.
	if (release_callback->is_blocking())
	return PP_ERROR_BADARGUMENT;

	return PP_OK;
	}

	} // namespace proxy
	} // namespace ppapi