third_party/chromium/media/gpu/v4l2/v4l2_mjpeg_decode_accelerator.h - cobalt - Git at Google

 // Copyright 2015 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_MJPEG_DECODE_ACCELERATOR_H_
 #define MEDIA_GPU_V4L2_V4L2_MJPEG_DECODE_ACCELERATOR_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <memory>
 #include <vector>

 #include "base/containers/queue.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/weak_ptr.h"
 #include "base/single_thread_task_runner.h"
 #include "base/threading/thread.h"
 #include "components/chromeos_camera/mjpeg_decode_accelerator.h"
 #include "media/gpu/media_gpu_export.h"
 #include "media/gpu/v4l2/v4l2_device.h"

 namespace media {

 class VideoFrame;

 class MEDIA_GPU_EXPORT V4L2MjpegDecodeAccelerator
     : public chromeos_camera::MjpegDecodeAccelerator {
  public:
   // Job record. Jobs are processed in a FIFO order. This is separate from
   // BufferRecord of input, because a BufferRecord of input may be returned
   // before we dequeue the corresponding output buffer. It can't always be
   // associated with a BufferRecord of output immediately either, because at
   // the time of submission we may not have one available (and don't need one
   // to submit input to the device).
   class JobRecord;

   V4L2MjpegDecodeAccelerator(
       const scoped_refptr<V4L2Device>& device,
       const scoped_refptr<base::SingleThreadTaskRunner>& io_task_runner);

   V4L2MjpegDecodeAccelerator(const V4L2MjpegDecodeAccelerator&) = delete;
   V4L2MjpegDecodeAccelerator& operator=(const V4L2MjpegDecodeAccelerator&) =
       delete;

   ~V4L2MjpegDecodeAccelerator() override;

   // MjpegDecodeAccelerator implementation.
   void InitializeAsync(
       chromeos_camera::MjpegDecodeAccelerator::Client* client,
       chromeos_camera::MjpegDecodeAccelerator::InitCB init_cb) override;
   void Decode(BitstreamBuffer bitstream_buffer,
               scoped_refptr<VideoFrame> video_frame) override;
   void Decode(int32_t task_id,
               base::ScopedFD src_dmabuf_fd,
               size_t src_size,
               off_t src_offset,
               scoped_refptr<media::VideoFrame> dst_frame) override;
   bool IsSupported() override;

  private:
   // Record for input/output buffers.
   struct BufferRecord {
     BufferRecord();
     ~BufferRecord();
     void* address[VIDEO_MAX_PLANES];  // mmap() address.
     size_t length[VIDEO_MAX_PLANES];  // mmap() length.

     // Set true during QBUF and DQBUF. |address| will be accessed by hardware.
     bool at_device;
   };

   void EnqueueInput();
   void EnqueueOutput();
   void Dequeue();
   bool EnqueueInputRecord();
   bool EnqueueOutputRecord();
   bool CreateInputBuffers();
   bool CreateOutputBuffers();
   void DestroyInputBuffers();
   void DestroyOutputBuffers();

   void InitializeOnTaskRunner(
       chromeos_camera::MjpegDecodeAccelerator::Client* client,
       InitCB init_cb);

   // Convert |output_buffer| to |dst_frame|. The function supports the following
   // formats:
   //   - All formats that libyuv::ConvertToI420 can handle.
   //   - V4L2_PIX_FMT_YUV_420M, V4L2_PIX_FMT_YUV_422M to I420, YV12, and NV12.
   bool ConvertOutputImage(const BufferRecord& output_buffer,
                           scoped_refptr<VideoFrame> dst_frame);

   // Return the number of input/output buffers enqueued to the device.
   size_t InputBufferQueuedCount();
   size_t OutputBufferQueuedCount();

   // Return true if input buffer size is not enough.
   bool ShouldRecreateInputBuffers();
   // Destroy and create input buffers. Return false on error.
   bool RecreateInputBuffers();
   // Destroy and create output buffers. Return false on error.
   bool RecreateOutputBuffers();

   void VideoFrameReady(int32_t task_id);
   void NotifyError(int32_t task_id, Error error);
   void PostNotifyError(int32_t task_id, Error error);

   // Run on |decoder_thread_| to enqueue the coming frame.
   void DecodeTask(std::unique_ptr<JobRecord> job_record);

   // Run on |decoder_thread_| to dequeue last frame and enqueue next frame.
   // This task is triggered by DevicePollTask. |event_pending| means that device
   // has resolution change event or pixelformat change event.
   void ServiceDeviceTask(bool event_pending);

   // Dequeue source change event. Return false on error.
   bool DequeueSourceChangeEvent();

   // Start/Stop |device_poll_thread_|.
   void StartDevicePoll();
   bool StopDevicePoll();

   // Run on |device_poll_thread_| to wait for device events.
   void DevicePollTask();

   // Run on |decoder_thread_| to destroy input and output buffers.
   void DestroyTask();

   // The number of input buffers and output buffers.
   const size_t kBufferCount = 2;

   // Coded size of output buffer.
   gfx::Size output_buffer_coded_size_;

   // Pixel format of output buffer.
   uint32_t output_buffer_pixelformat_;

   // Number of physical planes the output buffers have.
   size_t output_buffer_num_planes_;

   // Strides of the output buffers.
   size_t output_strides_[VIDEO_MAX_PLANES];

   // ChildThread's task runner.
   scoped_refptr<base::SingleThreadTaskRunner> child_task_runner_;

   // GPU IO task runner.
   scoped_refptr<base::SingleThreadTaskRunner> io_task_runner_;

   // The client of this class.
   chromeos_camera::MjpegDecodeAccelerator::Client* client_;

   // The V4L2Device this class is operating upon.
   scoped_refptr<V4L2Device> device_;

   // Thread to communicate with the device.
   base::Thread decoder_thread_;
   // Decode task runner.
   scoped_refptr<base::SingleThreadTaskRunner> decoder_task_runner_;
   // Thread used to poll the V4L2 for events only.
   base::Thread device_poll_thread_;
   // Device poll task runner.
   scoped_refptr<base::SingleThreadTaskRunner> device_poll_task_runner_;

   // All the below members except |weak_factory_| are accessed from
   // |decoder_thread_| only (if it's running).
   base::queue<std::unique_ptr<JobRecord>> input_jobs_;
   base::queue<std::unique_ptr<JobRecord>> running_jobs_;

   // Input queue state.
   bool input_streamon_;
   // Mapping of int index to an input buffer record.
   std::vector<BufferRecord> input_buffer_map_;
   // Indices of input buffers ready to use; LIFO since we don't care about
   // ordering.
   std::vector<int> free_input_buffers_;

   // Output queue state.
   bool output_streamon_;
   // Mapping of int index to an output buffer record.
   std::vector<BufferRecord> output_buffer_map_;
   // Indices of output buffers ready to use; LIFO since we don't care about
   // ordering.
   std::vector<int> free_output_buffers_;

   // Point to |this| for use in posting tasks from the decoder thread back to
   // the ChildThread.
   base::WeakPtr<V4L2MjpegDecodeAccelerator> weak_ptr_;
   // Weak factory for producing weak pointers on the child thread.
   base::WeakPtrFactory<V4L2MjpegDecodeAccelerator> weak_factory_;
 };

 }  // namespace media

 #endif  // MEDIA_GPU_V4L2_V4L2_MJPEG_DECODE_ACCELERATOR_H_
	// Copyright 2015 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_MJPEG_DECODE_ACCELERATOR_H_
	#define MEDIA_GPU_V4L2_V4L2_MJPEG_DECODE_ACCELERATOR_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <memory>
	#include <vector>

	#include "base/containers/queue.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/weak_ptr.h"
	#include "base/single_thread_task_runner.h"
	#include "base/threading/thread.h"
	#include "components/chromeos_camera/mjpeg_decode_accelerator.h"
	#include "media/gpu/media_gpu_export.h"
	#include "media/gpu/v4l2/v4l2_device.h"

	namespace media {

	class VideoFrame;

	class MEDIA_GPU_EXPORT V4L2MjpegDecodeAccelerator
	: public chromeos_camera::MjpegDecodeAccelerator {
	public:
	// Job record. Jobs are processed in a FIFO order. This is separate from
	// BufferRecord of input, because a BufferRecord of input may be returned
	// before we dequeue the corresponding output buffer. It can't always be
	// associated with a BufferRecord of output immediately either, because at
	// the time of submission we may not have one available (and don't need one
	// to submit input to the device).
	class JobRecord;

	V4L2MjpegDecodeAccelerator(
	const scoped_refptr<V4L2Device>& device,
	const scoped_refptr<base::SingleThreadTaskRunner>& io_task_runner);

	V4L2MjpegDecodeAccelerator(const V4L2MjpegDecodeAccelerator&) = delete;
	V4L2MjpegDecodeAccelerator& operator=(const V4L2MjpegDecodeAccelerator&) =
	delete;

	~V4L2MjpegDecodeAccelerator() override;

	// MjpegDecodeAccelerator implementation.
	void InitializeAsync(
	chromeos_camera::MjpegDecodeAccelerator::Client* client,
	chromeos_camera::MjpegDecodeAccelerator::InitCB init_cb) override;
	void Decode(BitstreamBuffer bitstream_buffer,
	scoped_refptr<VideoFrame> video_frame) override;
	void Decode(int32_t task_id,
	base::ScopedFD src_dmabuf_fd,
	size_t src_size,
	off_t src_offset,
	scoped_refptr<media::VideoFrame> dst_frame) override;
	bool IsSupported() override;

	private:
	// Record for input/output buffers.
	struct BufferRecord {
	BufferRecord();
	~BufferRecord();
	void* address[VIDEO_MAX_PLANES]; // mmap() address.
	size_t length[VIDEO_MAX_PLANES]; // mmap() length.

	// Set true during QBUF and DQBUF. \|address\| will be accessed by hardware.
	bool at_device;
	};

	void EnqueueInput();
	void EnqueueOutput();
	void Dequeue();
	bool EnqueueInputRecord();
	bool EnqueueOutputRecord();
	bool CreateInputBuffers();
	bool CreateOutputBuffers();
	void DestroyInputBuffers();
	void DestroyOutputBuffers();

	void InitializeOnTaskRunner(
	chromeos_camera::MjpegDecodeAccelerator::Client* client,
	InitCB init_cb);

	// Convert \|output_buffer\| to \|dst_frame\|. The function supports the following
	// formats:
	// - All formats that libyuv::ConvertToI420 can handle.
	// - V4L2_PIX_FMT_YUV_420M, V4L2_PIX_FMT_YUV_422M to I420, YV12, and NV12.
	bool ConvertOutputImage(const BufferRecord& output_buffer,
	scoped_refptr<VideoFrame> dst_frame);

	// Return the number of input/output buffers enqueued to the device.
	size_t InputBufferQueuedCount();
	size_t OutputBufferQueuedCount();

	// Return true if input buffer size is not enough.
	bool ShouldRecreateInputBuffers();
	// Destroy and create input buffers. Return false on error.
	bool RecreateInputBuffers();
	// Destroy and create output buffers. Return false on error.
	bool RecreateOutputBuffers();

	void VideoFrameReady(int32_t task_id);
	void NotifyError(int32_t task_id, Error error);
	void PostNotifyError(int32_t task_id, Error error);

	// Run on \|decoder_thread_\| to enqueue the coming frame.
	void DecodeTask(std::unique_ptr<JobRecord> job_record);

	// Run on \|decoder_thread_\| to dequeue last frame and enqueue next frame.
	// This task is triggered by DevicePollTask. \|event_pending\| means that device
	// has resolution change event or pixelformat change event.
	void ServiceDeviceTask(bool event_pending);

	// Dequeue source change event. Return false on error.
	bool DequeueSourceChangeEvent();

	// Start/Stop \|device_poll_thread_\|.
	void StartDevicePoll();
	bool StopDevicePoll();

	// Run on \|device_poll_thread_\| to wait for device events.
	void DevicePollTask();

	// Run on \|decoder_thread_\| to destroy input and output buffers.
	void DestroyTask();

	// The number of input buffers and output buffers.
	const size_t kBufferCount = 2;

	// Coded size of output buffer.
	gfx::Size output_buffer_coded_size_;

	// Pixel format of output buffer.
	uint32_t output_buffer_pixelformat_;

	// Number of physical planes the output buffers have.
	size_t output_buffer_num_planes_;

	// Strides of the output buffers.
	size_t output_strides_[VIDEO_MAX_PLANES];

	// ChildThread's task runner.
	scoped_refptr<base::SingleThreadTaskRunner> child_task_runner_;

	// GPU IO task runner.
	scoped_refptr<base::SingleThreadTaskRunner> io_task_runner_;

	// The client of this class.
	chromeos_camera::MjpegDecodeAccelerator::Client* client_;

	// The V4L2Device this class is operating upon.
	scoped_refptr<V4L2Device> device_;

	// Thread to communicate with the device.
	base::Thread decoder_thread_;
	// Decode task runner.
	scoped_refptr<base::SingleThreadTaskRunner> decoder_task_runner_;
	// Thread used to poll the V4L2 for events only.
	base::Thread device_poll_thread_;
	// Device poll task runner.
	scoped_refptr<base::SingleThreadTaskRunner> device_poll_task_runner_;

	// All the below members except \|weak_factory_\| are accessed from
	// \|decoder_thread_\| only (if it's running).
	base::queue<std::unique_ptr<JobRecord>> input_jobs_;
	base::queue<std::unique_ptr<JobRecord>> running_jobs_;

	// Input queue state.
	bool input_streamon_;
	// Mapping of int index to an input buffer record.
	std::vector<BufferRecord> input_buffer_map_;
	// Indices of input buffers ready to use; LIFO since we don't care about
	// ordering.
	std::vector<int> free_input_buffers_;

	// Output queue state.
	bool output_streamon_;
	// Mapping of int index to an output buffer record.
	std::vector<BufferRecord> output_buffer_map_;
	// Indices of output buffers ready to use; LIFO since we don't care about
	// ordering.
	std::vector<int> free_output_buffers_;

	// Point to \|this\| for use in posting tasks from the decoder thread back to
	// the ChildThread.
	base::WeakPtr<V4L2MjpegDecodeAccelerator> weak_ptr_;
	// Weak factory for producing weak pointers on the child thread.
	base::WeakPtrFactory<V4L2MjpegDecodeAccelerator> weak_factory_;
	};

	} // namespace media

	#endif // MEDIA_GPU_V4L2_V4L2_MJPEG_DECODE_ACCELERATOR_H_