third_party/chromium/media/gpu/android/codec_image.h - cobalt - Git at Google

 // Copyright 2017 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.

 #ifndef MEDIA_GPU_ANDROID_CODEC_IMAGE_H_
 #define MEDIA_GPU_ANDROID_CODEC_IMAGE_H_

 #include <stdint.h>

 #include <memory>
 #include <vector>

 #include "base/callback.h"
 #include "base/gtest_prod_util.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted_delete_on_sequence.h"
 #include "gpu/command_buffer/service/ref_counted_lock.h"
 #include "gpu/command_buffer/service/stream_texture_shared_image_interface.h"
 #include "media/gpu/android/codec_output_buffer_renderer.h"
 #include "media/gpu/android/promotion_hint_aggregator.h"
 #include "media/gpu/media_gpu_export.h"

 namespace base {
 namespace android {
 class ScopedHardwareBufferFenceSync;
 }  // namespace android
 }  // namespace base

 namespace media {

 // A GLImage that renders MediaCodec buffers to a TextureOwner or overlay
 // as needed in order to draw them. Note that when DrDc is enabled(kEnableDrDc),
 // a per codec dr-dc lock is expected to be held while calling methods of this
 // class. This is ensured by adding AssertAcquiredDrDcLock() to those methods.
 // We are not adding a Locked suffix on those methods since many of those
 // methods are either overrides or virtual.
 class MEDIA_GPU_EXPORT CodecImage
     : public gpu::StreamTextureSharedImageInterface,
       gpu::RefCountedLockHelperDrDc {
  public:
   // Callback to notify that a codec image is now unused in the sense of not
   // being out for display.  This lets us signal interested folks once a video
   // frame is destroyed and the sync token clears, so that that CodecImage may
   // be re-used.  Once legacy mailboxes go away, SharedImageVideo can manage all
   // of this instead.
   //
   // Also note that, presently, only destruction does this.  However, with
   // pooling, there will be a way to mark a CodecImage as unused without
   // destroying it.
   using UnusedCB = base::OnceCallback<void(CodecImage*)>;

   CodecImage(const gfx::Size& coded_size,
              scoped_refptr<gpu::RefCountedLock> drdc_lock);

   // (Re-)Initialize this CodecImage to use |output_buffer| et. al.
   //
   // May be called on a random thread, but only if the CodecImage is otherwise
   // not in use.
   void Initialize(
       std::unique_ptr<CodecOutputBufferRenderer> output_buffer_renderer,
       bool is_texture_owner_backed,
       PromotionHintAggregator::NotifyPromotionHintCB promotion_hint_cb);

   // Add a callback that will be called when we're marked as unused.  Does not
   // replace previous callbacks.  Order of callbacks is not guaranteed.
   void AddUnusedCB(UnusedCB unused_cb);

   // gl::GLImage implementation
   gfx::Size GetSize() override;
   unsigned GetInternalFormat() override;
   unsigned GetDataType() override;
   BindOrCopy ShouldBindOrCopy() override;
   bool BindTexImage(unsigned target) override;
   void ReleaseTexImage(unsigned target) override;
   bool CopyTexImage(unsigned target) override;
   bool CopyTexSubImage(unsigned target,
                        const gfx::Point& offset,
                        const gfx::Rect& rect) override;
   void SetColorSpace(const gfx::ColorSpace& color_space) override {}
   void Flush() override {}
   void OnMemoryDump(base::trace_event::ProcessMemoryDump* pmd,
                     uint64_t process_tracing_id,
                     const std::string& dump_name) override;
   std::unique_ptr<base::android::ScopedHardwareBufferFenceSync>
   GetAHardwareBuffer() override;

   // If we re-use one CodecImage with different output buffers, then we must
   // not claim to have mutable state.  Otherwise, CopyTexImage is only called
   // once.  For pooled shared images, this must return false.  For single-use
   // images, it works either way.
   bool HasMutableState() const override;

   // Notify us that we're no longer in-use for display, and may be pointed at
   // another output buffer via a call to Initialize.
   void NotifyUnused();

   // gpu::StreamTextureSharedImageInterface implementation.
   void ReleaseResources() override;
   bool IsUsingGpuMemory() const override;
   void UpdateAndBindTexImage(GLuint service_id) override;
   bool HasTextureOwner() const override;
   gpu::TextureBase* GetTextureBase() const override;
   void NotifyOverlayPromotion(bool promotion, const gfx::Rect& bounds) override;
   // Renders this image to the overlay. Returns true if the buffer is in the
   // overlay front buffer. Returns false if the buffer was invalidated.
   bool RenderToOverlay() override;
   bool TextureOwnerBindsTextureOnUpdate() override;

   // Whether the codec buffer has been rendered to the front buffer.
   bool was_rendered_to_front_buffer() const {
     return output_buffer_renderer_
                ? output_buffer_renderer_->was_rendered_to_front_buffer()
                : false;
   }


   // Whether this image is backed by a texture owner.
   bool is_texture_owner_backed() const { return is_texture_owner_backed_; }

   scoped_refptr<gpu::TextureOwner> texture_owner() const {
     return output_buffer_renderer_ ? output_buffer_renderer_->texture_owner()
                                    : nullptr;
   }

   // Renders this image to the front buffer of its backing surface.
   // Returns true if the buffer is in the front buffer. Returns false if the
   // buffer was invalidated. After an image is invalidated it's no longer
   // possible to render it.
   bool RenderToFrontBuffer();

   // Renders this image to the back buffer of its texture owner. Only valid if
   // is_texture_owner_backed(). Returns true if the buffer is in the back
   // buffer. Returns false if the buffer was invalidated.
   // RenderToTextureOwnerBackBuffer() will not block if there is any previously
   // pending frame and will return false in this case.
   bool RenderToTextureOwnerBackBuffer();

   // Release any codec buffer without rendering, if we have one.
   virtual void ReleaseCodecBuffer();

   CodecOutputBuffer* get_codec_output_buffer_for_testing() const {
     return output_buffer_renderer_
                ? output_buffer_renderer_->get_codec_output_buffer_for_testing()
                : nullptr;
   }

  protected:
   ~CodecImage() override;

  private:
   FRIEND_TEST_ALL_PREFIXES(CodecImageTest, RenderAfterUnusedDoesntCrash);

   std::unique_ptr<CodecOutputBufferRenderer> output_buffer_renderer_;

   // Renders this image to the texture owner front buffer by first rendering
   // it to the back buffer if it's not already there, and then waiting for the
   // frame available event before calling UpdateTexImage().
   // Also bind the latest image
   // to the provided |service_id| if TextureOwner does not binds texture on
   // update. If |bindings_mode| is other than kEnsureTexImageBound, then
   // |service_id| is not required.
   bool RenderToTextureOwnerFrontBuffer(BindingsMode bindings_mode,
                                        GLuint service_id);

   // Whether this image is texture_owner or overlay backed.
   bool is_texture_owner_backed_ = false;

   // The bounds last sent to the overlay.
   gfx::Rect most_recent_bounds_;

   // Coded size of the image.
   gfx::Size coded_size_;

   // Callback to notify about promotion hints and overlay position.
   PromotionHintAggregator::NotifyPromotionHintCB promotion_hint_cb_;

   std::vector<UnusedCB> unused_cbs_;

   // Bound to the gpu main thread on which this CodecImage is created. Some
   // methods can only be called on this thread.
   THREAD_CHECKER(gpu_main_thread_checker_);

   DISALLOW_COPY_AND_ASSIGN(CodecImage);
 };

 // Temporary helper class to prevent touching a non-threadsafe-ref-counted
 // CodecImage off the gpu main thread, while still holding a reference to it.
 // Passing a raw pointer around isn't safe, since stub destruction could still
 // destroy the consumers of the codec image.
 class MEDIA_GPU_EXPORT CodecImageHolder
     : public base::RefCountedDeleteOnSequence<CodecImageHolder> {
  public:
   CodecImageHolder(scoped_refptr<base::SequencedTaskRunner> task_runner,
                    scoped_refptr<CodecImage> codec_image);

   // Safe from any thread.
   CodecImage* codec_image_raw() const { return codec_image_.get(); }

  private:
   virtual ~CodecImageHolder();

   friend class base::RefCountedDeleteOnSequence<CodecImageHolder>;
   friend class base::DeleteHelper<CodecImageHolder>;

   scoped_refptr<CodecImage> codec_image_;

   DISALLOW_COPY_AND_ASSIGN(CodecImageHolder);
 };

 }  // namespace media

 #endif  // MEDIA_GPU_ANDROID_CODEC_IMAGE_H_
	// Copyright 2017 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.

	#ifndef MEDIA_GPU_ANDROID_CODEC_IMAGE_H_
	#define MEDIA_GPU_ANDROID_CODEC_IMAGE_H_

	#include <stdint.h>

	#include <memory>
	#include <vector>

	#include "base/callback.h"
	#include "base/gtest_prod_util.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted_delete_on_sequence.h"
	#include "gpu/command_buffer/service/ref_counted_lock.h"
	#include "gpu/command_buffer/service/stream_texture_shared_image_interface.h"
	#include "media/gpu/android/codec_output_buffer_renderer.h"
	#include "media/gpu/android/promotion_hint_aggregator.h"
	#include "media/gpu/media_gpu_export.h"

	namespace base {
	namespace android {
	class ScopedHardwareBufferFenceSync;
	} // namespace android
	} // namespace base

	namespace media {

	// A GLImage that renders MediaCodec buffers to a TextureOwner or overlay
	// as needed in order to draw them. Note that when DrDc is enabled(kEnableDrDc),
	// a per codec dr-dc lock is expected to be held while calling methods of this
	// class. This is ensured by adding AssertAcquiredDrDcLock() to those methods.
	// We are not adding a Locked suffix on those methods since many of those
	// methods are either overrides or virtual.
	class MEDIA_GPU_EXPORT CodecImage
	: public gpu::StreamTextureSharedImageInterface,
	gpu::RefCountedLockHelperDrDc {
	public:
	// Callback to notify that a codec image is now unused in the sense of not
	// being out for display. This lets us signal interested folks once a video
	// frame is destroyed and the sync token clears, so that that CodecImage may
	// be re-used. Once legacy mailboxes go away, SharedImageVideo can manage all
	// of this instead.
	//
	// Also note that, presently, only destruction does this. However, with
	// pooling, there will be a way to mark a CodecImage as unused without
	// destroying it.
	using UnusedCB = base::OnceCallback<void(CodecImage*)>;

	CodecImage(const gfx::Size& coded_size,
	scoped_refptr<gpu::RefCountedLock> drdc_lock);

	// (Re-)Initialize this CodecImage to use \|output_buffer\| et. al.
	//
	// May be called on a random thread, but only if the CodecImage is otherwise
	// not in use.
	void Initialize(
	std::unique_ptr<CodecOutputBufferRenderer> output_buffer_renderer,
	bool is_texture_owner_backed,
	PromotionHintAggregator::NotifyPromotionHintCB promotion_hint_cb);

	// Add a callback that will be called when we're marked as unused. Does not
	// replace previous callbacks. Order of callbacks is not guaranteed.
	void AddUnusedCB(UnusedCB unused_cb);

	// gl::GLImage implementation
	gfx::Size GetSize() override;
	unsigned GetInternalFormat() override;
	unsigned GetDataType() override;
	BindOrCopy ShouldBindOrCopy() override;
	bool BindTexImage(unsigned target) override;
	void ReleaseTexImage(unsigned target) override;
	bool CopyTexImage(unsigned target) override;
	bool CopyTexSubImage(unsigned target,
	const gfx::Point& offset,
	const gfx::Rect& rect) override;
	void SetColorSpace(const gfx::ColorSpace& color_space) override {}
	void Flush() override {}
	void OnMemoryDump(base::trace_event::ProcessMemoryDump* pmd,
	uint64_t process_tracing_id,
	const std::string& dump_name) override;
	std::unique_ptr<base::android::ScopedHardwareBufferFenceSync>
	GetAHardwareBuffer() override;

	// If we re-use one CodecImage with different output buffers, then we must
	// not claim to have mutable state. Otherwise, CopyTexImage is only called
	// once. For pooled shared images, this must return false. For single-use
	// images, it works either way.
	bool HasMutableState() const override;

	// Notify us that we're no longer in-use for display, and may be pointed at
	// another output buffer via a call to Initialize.
	void NotifyUnused();

	// gpu::StreamTextureSharedImageInterface implementation.
	void ReleaseResources() override;
	bool IsUsingGpuMemory() const override;
	void UpdateAndBindTexImage(GLuint service_id) override;
	bool HasTextureOwner() const override;
	gpu::TextureBase* GetTextureBase() const override;
	void NotifyOverlayPromotion(bool promotion, const gfx::Rect& bounds) override;
	// Renders this image to the overlay. Returns true if the buffer is in the
	// overlay front buffer. Returns false if the buffer was invalidated.
	bool RenderToOverlay() override;
	bool TextureOwnerBindsTextureOnUpdate() override;

	// Whether the codec buffer has been rendered to the front buffer.
	bool was_rendered_to_front_buffer() const {
	return output_buffer_renderer_
	? output_buffer_renderer_->was_rendered_to_front_buffer()
	: false;
	}


	// Whether this image is backed by a texture owner.
	bool is_texture_owner_backed() const { return is_texture_owner_backed_; }

	scoped_refptr<gpu::TextureOwner> texture_owner() const {
	return output_buffer_renderer_ ? output_buffer_renderer_->texture_owner()
	: nullptr;
	}

	// Renders this image to the front buffer of its backing surface.
	// Returns true if the buffer is in the front buffer. Returns false if the
	// buffer was invalidated. After an image is invalidated it's no longer
	// possible to render it.
	bool RenderToFrontBuffer();

	// Renders this image to the back buffer of its texture owner. Only valid if
	// is_texture_owner_backed(). Returns true if the buffer is in the back
	// buffer. Returns false if the buffer was invalidated.
	// RenderToTextureOwnerBackBuffer() will not block if there is any previously
	// pending frame and will return false in this case.
	bool RenderToTextureOwnerBackBuffer();

	// Release any codec buffer without rendering, if we have one.
	virtual void ReleaseCodecBuffer();

	CodecOutputBuffer* get_codec_output_buffer_for_testing() const {
	return output_buffer_renderer_
	? output_buffer_renderer_->get_codec_output_buffer_for_testing()
	: nullptr;
	}

	protected:
	~CodecImage() override;

	private:
	FRIEND_TEST_ALL_PREFIXES(CodecImageTest, RenderAfterUnusedDoesntCrash);

	std::unique_ptr<CodecOutputBufferRenderer> output_buffer_renderer_;

	// Renders this image to the texture owner front buffer by first rendering
	// it to the back buffer if it's not already there, and then waiting for the
	// frame available event before calling UpdateTexImage().
	// Also bind the latest image
	// to the provided \|service_id\| if TextureOwner does not binds texture on
	// update. If \|bindings_mode\| is other than kEnsureTexImageBound, then
	// \|service_id\| is not required.
	bool RenderToTextureOwnerFrontBuffer(BindingsMode bindings_mode,
	GLuint service_id);

	// Whether this image is texture_owner or overlay backed.
	bool is_texture_owner_backed_ = false;

	// The bounds last sent to the overlay.
	gfx::Rect most_recent_bounds_;

	// Coded size of the image.
	gfx::Size coded_size_;

	// Callback to notify about promotion hints and overlay position.
	PromotionHintAggregator::NotifyPromotionHintCB promotion_hint_cb_;

	std::vector<UnusedCB> unused_cbs_;

	// Bound to the gpu main thread on which this CodecImage is created. Some
	// methods can only be called on this thread.
	THREAD_CHECKER(gpu_main_thread_checker_);

	DISALLOW_COPY_AND_ASSIGN(CodecImage);
	};

	// Temporary helper class to prevent touching a non-threadsafe-ref-counted
	// CodecImage off the gpu main thread, while still holding a reference to it.
	// Passing a raw pointer around isn't safe, since stub destruction could still
	// destroy the consumers of the codec image.
	class MEDIA_GPU_EXPORT CodecImageHolder
	: public base::RefCountedDeleteOnSequence<CodecImageHolder> {
	public:
	CodecImageHolder(scoped_refptr<base::SequencedTaskRunner> task_runner,
	scoped_refptr<CodecImage> codec_image);

	// Safe from any thread.
	CodecImage* codec_image_raw() const { return codec_image_.get(); }

	private:
	virtual ~CodecImageHolder();

	friend class base::RefCountedDeleteOnSequence<CodecImageHolder>;
	friend class base::DeleteHelper<CodecImageHolder>;

	scoped_refptr<CodecImage> codec_image_;

	DISALLOW_COPY_AND_ASSIGN(CodecImageHolder);
	};

	} // namespace media

	#endif // MEDIA_GPU_ANDROID_CODEC_IMAGE_H_