third_party/chromium/media/gpu/v4l2/v4l2_vda_helpers.h - cobalt - Git at Google

 // Copyright 2019 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_V4L2_V4L2_VDA_HELPERS_H_
 #define MEDIA_GPU_V4L2_V4L2_VDA_HELPERS_H_

 #include <memory>

 #include "base/memory/scoped_refptr.h"
 #include "media/base/video_codecs.h"
 #include "media/gpu/chromeos/fourcc.h"
 #include "media/gpu/chromeos/image_processor.h"
 #include "third_party/abseil-cpp/absl/types/optional.h"
 #include "ui/gfx/geometry/size.h"

 namespace media {

 class V4L2Device;
 class H264Parser;

 // Helper static methods to be shared between V4L2VideoDecodeAccelerator and
 // V4L2SliceVideoDecodeAccelerator. This avoids some code duplication between
 // these very similar classes.
 // Note: this namespace can be removed once the V4L2VDA is deprecated.
 namespace v4l2_vda_helpers {

 // Returns a usable input format of image processor, or nullopt if not found.
 absl::optional<Fourcc> FindImageProcessorInputFormat(V4L2Device* vda_device);
 // Return a usable output format of image processor, or nullopt if not found.
 absl::optional<Fourcc> FindImageProcessorOutputFormat(V4L2Device* ip_device);

 // Create and return an image processor for the given parameters, or nullptr
 // if it cannot be created.
 //
 // |vda_output_format| is the output format of the VDA, i.e. the IP's input
 // format.
 // |ip_output_format| is the output format that the IP must produce.
 // |vda_output_coded_size| is the coded size of the VDA output buffers (i.e.
 // the input coded size for the IP).
 // |ip_output_coded_size| is the coded size of the output buffers that the IP
 // must produce.
 // |visible_size| is the visible size of both the input and output buffers.
 // |output_storage_type| indicates what type of VideoFrame is used for output.
 // |nb_buffers| is the exact number of output buffers that the IP must create.
 // |image_processor_output_mode| specifies whether the IP must allocate its
 // own buffers or rely on imported ones.
 // |client_task_runner| is the task runner for interacting with image processor.
 // |error_cb| is the error callback passed to
 // V4L2ImageProcessorBackend::Create().
 std::unique_ptr<ImageProcessor> CreateImageProcessor(
     const Fourcc vda_output_format,
     const Fourcc ip_output_format,
     const gfx::Size& vda_output_coded_size,
     const gfx::Size& ip_output_coded_size,
     const gfx::Size& visible_size,
     VideoFrame::StorageType output_storage_type,
     size_t nb_buffers,
     scoped_refptr<V4L2Device> image_processor_device,
     ImageProcessor::OutputMode image_processor_output_mode,
     scoped_refptr<base::SequencedTaskRunner> client_task_runner,
     ImageProcessor::ErrorCB error_cb);

 // When importing a buffer (ARC++ use-case), the buffer's actual size may
 // be different from the requested one. However, the actual size is never
 // provided to us - so we need to compute it from the NativePixmapHandle.
 // Given the |handle| and |fourcc| of the buffer, adjust |current_size| to
 // the actual computed size of the buffer and return the new size.
 gfx::Size NativePixmapSizeFromHandle(const gfx::NativePixmapHandle& handle,
                                      const Fourcc fourcc,
                                      const gfx::Size& current_size);

 // Interface to split an input stream into chunks containing whole frames.
 // This default implementation can be used for codecs that do not support frame
 // splitting (like VP8 or VP9), whereas codecs that use slices can inherit
 // and specialize it.
 class InputBufferFragmentSplitter {
  public:
   static std::unique_ptr<InputBufferFragmentSplitter> CreateFromProfile(
       media::VideoCodecProfile profile);

   explicit InputBufferFragmentSplitter() = default;
   virtual ~InputBufferFragmentSplitter() = default;

   // Advance to the next fragment that begins a frame.
   virtual bool AdvanceFrameFragment(const uint8_t* data,
                                     size_t size,
                                     size_t* endpos);

   virtual void Reset();

   // Returns true if we may currently be in the middle of a frame (e.g. we
   // haven't yet parsed all the slices of a multi-slice H.264 frame).
   virtual bool IsPartialFramePending() const;
 };

 // Splitter for H.264, making sure to properly report when a partial frame
 // may be pending.
 class H264InputBufferFragmentSplitter : public InputBufferFragmentSplitter {
  public:
   explicit H264InputBufferFragmentSplitter();
   ~H264InputBufferFragmentSplitter() override;

   bool AdvanceFrameFragment(const uint8_t* data,
                             size_t size,
                             size_t* endpos) override;
   void Reset() override;
   bool IsPartialFramePending() const override;

  private:
   // For H264 decode, hardware requires that we send it frame-sized chunks.
   // We'll need to parse the stream.
   std::unique_ptr<H264Parser> h264_parser_;
   // Set if we have a pending incomplete frame in the input buffer.
   bool partial_frame_pending_ = false;
 };

 }  // namespace v4l2_vda_helpers
 }  // namespace media

 #endif  // MEDIA_GPU_V4L2_V4L2_VDA_HELPERS_H_
	// Copyright 2019 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_V4L2_V4L2_VDA_HELPERS_H_
	#define MEDIA_GPU_V4L2_V4L2_VDA_HELPERS_H_

	#include <memory>

	#include "base/memory/scoped_refptr.h"
	#include "media/base/video_codecs.h"
	#include "media/gpu/chromeos/fourcc.h"
	#include "media/gpu/chromeos/image_processor.h"
	#include "third_party/abseil-cpp/absl/types/optional.h"
	#include "ui/gfx/geometry/size.h"

	namespace media {

	class V4L2Device;
	class H264Parser;

	// Helper static methods to be shared between V4L2VideoDecodeAccelerator and
	// V4L2SliceVideoDecodeAccelerator. This avoids some code duplication between
	// these very similar classes.
	// Note: this namespace can be removed once the V4L2VDA is deprecated.
	namespace v4l2_vda_helpers {

	// Returns a usable input format of image processor, or nullopt if not found.
	absl::optional<Fourcc> FindImageProcessorInputFormat(V4L2Device* vda_device);
	// Return a usable output format of image processor, or nullopt if not found.
	absl::optional<Fourcc> FindImageProcessorOutputFormat(V4L2Device* ip_device);

	// Create and return an image processor for the given parameters, or nullptr
	// if it cannot be created.
	//
	// \|vda_output_format\| is the output format of the VDA, i.e. the IP's input
	// format.
	// \|ip_output_format\| is the output format that the IP must produce.
	// \|vda_output_coded_size\| is the coded size of the VDA output buffers (i.e.
	// the input coded size for the IP).
	// \|ip_output_coded_size\| is the coded size of the output buffers that the IP
	// must produce.
	// \|visible_size\| is the visible size of both the input and output buffers.
	// \|output_storage_type\| indicates what type of VideoFrame is used for output.
	// \|nb_buffers\| is the exact number of output buffers that the IP must create.
	// \|image_processor_output_mode\| specifies whether the IP must allocate its
	// own buffers or rely on imported ones.
	// \|client_task_runner\| is the task runner for interacting with image processor.
	// \|error_cb\| is the error callback passed to
	// V4L2ImageProcessorBackend::Create().
	std::unique_ptr<ImageProcessor> CreateImageProcessor(
	const Fourcc vda_output_format,
	const Fourcc ip_output_format,
	const gfx::Size& vda_output_coded_size,
	const gfx::Size& ip_output_coded_size,
	const gfx::Size& visible_size,
	VideoFrame::StorageType output_storage_type,
	size_t nb_buffers,
	scoped_refptr<V4L2Device> image_processor_device,
	ImageProcessor::OutputMode image_processor_output_mode,
	scoped_refptr<base::SequencedTaskRunner> client_task_runner,
	ImageProcessor::ErrorCB error_cb);

	// When importing a buffer (ARC++ use-case), the buffer's actual size may
	// be different from the requested one. However, the actual size is never
	// provided to us - so we need to compute it from the NativePixmapHandle.
	// Given the \|handle\| and \|fourcc\| of the buffer, adjust \|current_size\| to
	// the actual computed size of the buffer and return the new size.
	gfx::Size NativePixmapSizeFromHandle(const gfx::NativePixmapHandle& handle,
	const Fourcc fourcc,
	const gfx::Size& current_size);

	// Interface to split an input stream into chunks containing whole frames.
	// This default implementation can be used for codecs that do not support frame
	// splitting (like VP8 or VP9), whereas codecs that use slices can inherit
	// and specialize it.
	class InputBufferFragmentSplitter {
	public:
	static std::unique_ptr<InputBufferFragmentSplitter> CreateFromProfile(
	media::VideoCodecProfile profile);

	explicit InputBufferFragmentSplitter() = default;
	virtual ~InputBufferFragmentSplitter() = default;

	// Advance to the next fragment that begins a frame.
	virtual bool AdvanceFrameFragment(const uint8_t* data,
	size_t size,
	size_t* endpos);

	virtual void Reset();

	// Returns true if we may currently be in the middle of a frame (e.g. we
	// haven't yet parsed all the slices of a multi-slice H.264 frame).
	virtual bool IsPartialFramePending() const;
	};

	// Splitter for H.264, making sure to properly report when a partial frame
	// may be pending.
	class H264InputBufferFragmentSplitter : public InputBufferFragmentSplitter {
	public:
	explicit H264InputBufferFragmentSplitter();
	~H264InputBufferFragmentSplitter() override;

	bool AdvanceFrameFragment(const uint8_t* data,
	size_t size,
	size_t* endpos) override;
	void Reset() override;
	bool IsPartialFramePending() const override;

	private:
	// For H264 decode, hardware requires that we send it frame-sized chunks.
	// We'll need to parse the stream.
	std::unique_ptr<H264Parser> h264_parser_;
	// Set if we have a pending incomplete frame in the input buffer.
	bool partial_frame_pending_ = false;
	};

	} // namespace v4l2_vda_helpers
	} // namespace media

	#endif // MEDIA_GPU_V4L2_V4L2_VDA_HELPERS_H_