media/gpu/vaapi_wrapper.h - chromium/src - Git at Google

 // Copyright 2013 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.
 //
 // This file contains an implementation of VaapiWrapper, used by
 // VaapiVideoDecodeAccelerator and VaapiH264Decoder for decode,
 // and VaapiVideoEncodeAccelerator for encode, to interface
 // with libva (VA-API library for hardware video codec).

 #ifndef MEDIA_GPU_VAAPI_WRAPPER_H_
 #define MEDIA_GPU_VAAPI_WRAPPER_H_

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

 #include <set>
 #include <vector>

 #include <va/va.h>

 #include "base/files/file.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/synchronization/lock.h"
 #include "media/base/video_decoder_config.h"
 #include "media/base/video_frame.h"
 #include "media/gpu/media_gpu_export.h"
 #include "media/gpu/va_surface.h"
 #include "media/video/jpeg_decode_accelerator.h"
 #include "media/video/video_decode_accelerator.h"
 #include "media/video/video_encode_accelerator.h"
 #include "ui/gfx/geometry/size.h"

 #if defined(USE_X11)
 #include <va/va_x11.h>
 #endif  // USE_X11

 #if defined(USE_OZONE)
 namespace gfx {
 class NativePixmap;
 }
 #endif

 namespace media {

 // This class handles VA-API calls and ensures proper locking of VA-API calls
 // to libva, the userspace shim to the HW codec driver. libva is not
 // thread-safe, so we have to perform locking ourselves. This class is fully
 // synchronous and its methods can be called from any thread and may wait on
 // the va_lock_ while other, concurrent calls run.
 //
 // This class is responsible for managing VAAPI connection, contexts and state.
 // It is also responsible for managing and freeing VABuffers (not VASurfaces),
 // which are used to queue parameters and slice data to the HW codec,
 // as well as underlying memory for VASurfaces themselves.
 class MEDIA_GPU_EXPORT VaapiWrapper
     : public base::RefCountedThreadSafe<VaapiWrapper> {
  public:
   enum CodecMode {
     kDecode,
     kEncode,
     kCodecModeMax,
   };

   // Return an instance of VaapiWrapper initialized for |va_profile| and
   // |mode|. |report_error_to_uma_cb| will be called independently from
   // reporting errors to clients via method return values.
   static scoped_refptr<VaapiWrapper> Create(
       CodecMode mode,
       VAProfile va_profile,
       const base::Closure& report_error_to_uma_cb);

   // Create VaapiWrapper for VideoCodecProfile. It maps VideoCodecProfile
   // |profile| to VAProfile.
   // |report_error_to_uma_cb| will be called independently from reporting
   // errors to clients via method return values.
   static scoped_refptr<VaapiWrapper> CreateForVideoCodec(
       CodecMode mode,
       VideoCodecProfile profile,
       const base::Closure& report_error_to_uma_cb);

   // Return the supported video encode profiles.
   static VideoEncodeAccelerator::SupportedProfiles GetSupportedEncodeProfiles();

   // Return the supported video decode profiles.
   static VideoDecodeAccelerator::SupportedProfiles GetSupportedDecodeProfiles();

   // Return true when JPEG decode is supported.
   static bool IsJpegDecodeSupported();

   // Create |num_surfaces| backing surfaces in driver for VASurfaces of
   // |va_format|, each of size |size|. Returns true when successful, with the
   // created IDs in |va_surfaces| to be managed and later wrapped in
   // VASurfaces.
   // The client must DestroySurfaces() each time before calling this method
   // again to free the allocated surfaces first, but is not required to do so
   // at destruction time, as this will be done automatically from
   // the destructor.
   bool CreateSurfaces(unsigned int va_format,
                       const gfx::Size& size,
                       size_t num_surfaces,
                       std::vector<VASurfaceID>* va_surfaces);

   // Free all memory allocated in CreateSurfaces.
   void DestroySurfaces();

   // Create a VASurface of |va_format|, |size| and using |va_attribs|
   // attributes. The ownership of the surface is transferred to the
   // caller. It differs from surfaces created using CreateSurfaces(),
   // where VaapiWrapper is the owner of the surfaces.
   scoped_refptr<VASurface> CreateUnownedSurface(
       unsigned int va_format,
       const gfx::Size& size,
       const std::vector<VASurfaceAttrib>& va_attribs);

 #if defined(USE_OZONE)
   // Create a VASurface for |pixmap|. The ownership of the surface is
   // transferred to the caller. It differs from surfaces created using
   // CreateSurfaces(), where VaapiWrapper is the owner of the surfaces.
   scoped_refptr<VASurface> CreateVASurfaceForPixmap(
       const scoped_refptr<gfx::NativePixmap>& pixmap);
 #endif

   // Submit parameters or slice data of |va_buffer_type|, copying them from
   // |buffer| of size |size|, into HW codec. The data in |buffer| is no
   // longer needed and can be freed after this method returns.
   // Data submitted via this method awaits in the HW codec until
   // ExecuteAndDestroyPendingBuffers() is called to execute or
   // DestroyPendingBuffers() is used to cancel a pending job.
   bool SubmitBuffer(VABufferType va_buffer_type, size_t size, void* buffer);

   // Submit a VAEncMiscParameterBuffer of given |misc_param_type|, copying its
   // data from |buffer| of size |size|, into HW codec. The data in |buffer| is
   // no longer needed and can be freed after this method returns.
   // Data submitted via this method awaits in the HW codec until
   // ExecuteAndDestroyPendingBuffers() is called to execute or
   // DestroyPendingBuffers() is used to cancel a pending job.
   bool SubmitVAEncMiscParamBuffer(VAEncMiscParameterType misc_param_type,
                                   size_t size,
                                   void* buffer);

   // Cancel and destroy all buffers queued to the HW codec via SubmitBuffer().
   // Useful when a pending job is to be cancelled (on reset or error).
   void DestroyPendingBuffers();

   // Execute job in hardware on target |va_surface_id| and destroy pending
   // buffers. Return false if Execute() fails.
   bool ExecuteAndDestroyPendingBuffers(VASurfaceID va_surface_id);

 #if defined(USE_X11)
   // Put data from |va_surface_id| into |x_pixmap| of size
   // |dest_size|, converting/scaling to it.
   bool PutSurfaceIntoPixmap(VASurfaceID va_surface_id,
                             Pixmap x_pixmap,
                             gfx::Size dest_size);
 #endif  // USE_X11

   // Get a VAImage from a VASurface and map it into memory. The size and format
   // are derived from the surface. Use GetVaImage() instead if |format| or
   // |size| are different from surface internal representation. The VAImage
   // should be released using the ReturnVaImage function. Returns true when
   // successful.
   bool GetDerivedVaImage(VASurfaceID va_surface_id, VAImage* image, void** mem);

   // Get a VAImage from a VASurface |va_surface_id| and map it into memory with
   // given |format| and |size|. The output is |image| and the mapped memory is
   // |mem|. If |format| doesn't equal to the internal format, the underlying
   // implementation will do format conversion if supported. |size| should be
   // smaller than or equal to the surface. If |size| is smaller, the image will
   // be cropped. The VAImage should be released using the ReturnVaImage
   // function. Returns true when successful.
   bool GetVaImage(VASurfaceID va_surface_id,
                   VAImageFormat* format,
                   const gfx::Size& size,
                   VAImage* image,
                   void** mem);

   // Release the VAImage (and the associated memory mapping) obtained from
   // GetVaImage() or GetDerivedVaImage().
   void ReturnVaImage(VAImage* image);

   // Upload contents of |frame| into |va_surface_id| for encode.
   bool UploadVideoFrameToSurface(const scoped_refptr<VideoFrame>& frame,
                                  VASurfaceID va_surface_id);

   // Create a buffer of |size| bytes to be used as encode output.
   bool CreateCodedBuffer(size_t size, VABufferID* buffer_id);

   // Download the contents of the buffer with given |buffer_id| into a buffer of
   // size |target_size|, pointed to by |target_ptr|. The number of bytes
   // downloaded will be returned in |coded_data_size|. |sync_surface_id| will
   // be used as a sync point, i.e. it will have to become idle before starting
   // the download. |sync_surface_id| should be the source surface passed
   // to the encode job.
   bool DownloadAndDestroyCodedBuffer(VABufferID buffer_id,
                                      VASurfaceID sync_surface_id,
                                      uint8_t* target_ptr,
                                      size_t target_size,
                                      size_t* coded_data_size);

   // Destroy all previously-allocated (and not yet destroyed) coded buffers.
   void DestroyCodedBuffers();

   // Blits a VASurface |va_surface_src| into another VASurface
   // |va_surface_dest| applying pixel format conversion and scaling
   // if needed.
   bool BlitSurface(const scoped_refptr<VASurface>& va_surface_src,
                    const scoped_refptr<VASurface>& va_surface_dest);

   // Initialize static data before sandbox is enabled.
   static void PreSandboxInitialization();

   // Get the created surfaces format.
   unsigned int va_surface_format() const { return va_surface_format_; }

  private:
   friend class base::RefCountedThreadSafe<VaapiWrapper>;

   struct ProfileInfo {
     VAProfile va_profile;
     gfx::Size max_resolution;
   };

   class LazyProfileInfos {
    public:
     LazyProfileInfos();
     ~LazyProfileInfos();
     std::vector<ProfileInfo> GetSupportedProfileInfosForCodecMode(
         CodecMode mode);
     bool IsProfileSupported(CodecMode mode, VAProfile va_profile);

    private:
     std::vector<ProfileInfo> supported_profiles_[kCodecModeMax];
   };

   class VADisplayState {
    public:
     VADisplayState();
     ~VADisplayState();

     // |va_lock_| must be held on entry.
     bool Initialize();
     void Deinitialize(VAStatus* status);

     base::Lock* va_lock() { return &va_lock_; }
     VADisplay va_display() const { return va_display_; }

 #if defined(USE_OZONE)
     void SetDrmFd(base::PlatformFile fd);
 #endif  // USE_OZONE

    private:
     // Protected by |va_lock_|.
     int refcount_;

     // Libva is not thread safe, so we have to do locking for it ourselves.
     // This lock is to be taken for the duration of all VA-API calls and for
     // the entire job submission sequence in ExecuteAndDestroyPendingBuffers().
     base::Lock va_lock_;

 #if defined(USE_OZONE)
     // Drm fd used to obtain access to the driver interface by VA.
     base::ScopedFD drm_fd_;
 #endif  // USE_OZONE

     // The VADisplay handle.
     VADisplay va_display_;

     // The VAAPI version.
     int major_version_, minor_version_;

     // True if vaInitialize has been called successfully.
     bool va_initialized_;
   };

   VaapiWrapper();
   ~VaapiWrapper();

   bool Initialize(CodecMode mode, VAProfile va_profile);
   void Deinitialize();
   bool VaInitialize(const base::Closure& report_error_to_uma_cb);
   bool GetSupportedVaProfiles(std::vector<VAProfile>* profiles);

   // Free all memory allocated in CreateSurfaces.
   void DestroySurfaces_Locked();

   // Check if |va_profile| supports |entrypoint| or not. |va_lock_| must be
   // held on entry.
   bool IsEntrypointSupported_Locked(VAProfile va_profile,
                                     VAEntrypoint entrypoint);

   // Return true if |va_profile| for |entrypoint| with |required_attribs| is
   // supported. |va_lock_| must be held on entry.
   bool AreAttribsSupported_Locked(
       VAProfile va_profile,
       VAEntrypoint entrypoint,
       const std::vector<VAConfigAttrib>& required_attribs);

   // Get maximum resolution for |va_profile| and |entrypoint| with
   // |required_attribs|. If return value is true, |resolution| is the maximum
   // resolution. |va_lock_| must be held on entry.
   bool GetMaxResolution_Locked(VAProfile va_profile,
                                VAEntrypoint entrypoint,
                                std::vector<VAConfigAttrib>& required_attribs,
                                gfx::Size* resolution);

   // Destroys a |va_surface| created using CreateUnownedSurface.
   void DestroyUnownedSurface(VASurfaceID va_surface_id);

   // Initialize the video post processing context with the |size| of
   // the input pictures to be processed.
   bool InitializeVpp_Locked();

   // Deinitialize the video post processing context.
   void DeinitializeVpp();

   // Execute pending job in hardware and destroy pending buffers. Return false
   // if vaapi driver refuses to accept parameter or slice buffers submitted
   // by client, or if execution fails in hardware.
   bool Execute(VASurfaceID va_surface_id);

   // Attempt to set render mode to "render to texture.". Failure is non-fatal.
   void TryToSetVADisplayAttributeToLocalGPU();

   // Get supported profile infos for |mode|.
   std::vector<ProfileInfo> GetSupportedProfileInfosForCodecModeInternal(
       CodecMode mode);

   // Lazily initialize static data after sandbox is enabled.  Return false on
   // init failure.
   static bool PostSandboxInitialization();

   // Map VideoCodecProfile enum values to VaProfile values. This function
   // includes a workaround for crbug.com/345569. If va_profile is h264 baseline
   // and it is not supported, we try constrained baseline.
   static VAProfile ProfileToVAProfile(VideoCodecProfile profile,
                                       CodecMode mode);

   // Singleton accessors.
   static VADisplayState* GetDisplayState();
   static LazyProfileInfos* GetProfileInfos();

   // Pointer to VADisplayState's member |va_lock_|. Guaranteed to be valid for
   // the lifetime of VaapiWrapper.
   base::Lock* va_lock_;

   // Allocated ids for VASurfaces.
   std::vector<VASurfaceID> va_surface_ids_;

   // VA format of surfaces with va_surface_ids_.
   unsigned int va_surface_format_;

   // VA handles.
   // All valid after successful Initialize() and until Deinitialize().
   VADisplay va_display_;
   VAConfigID va_config_id_;
   // Created for the current set of va_surface_ids_ in CreateSurfaces() and
   // valid until DestroySurfaces().
   VAContextID va_context_id_;

   // Data queued up for HW codec, to be committed on next execution.
   std::vector<VABufferID> pending_slice_bufs_;
   std::vector<VABufferID> pending_va_bufs_;

   // Bitstream buffers for encode.
   std::set<VABufferID> coded_buffers_;

   // Called to report codec errors to UMA. Errors to clients are reported via
   // return values from public methods.
   base::Closure report_error_to_uma_cb_;

   // VPP (Video Post Processing) context, this is used to convert
   // pictures used by the decoder to RGBA pictures usable by GL or the
   // display hardware.
   VAConfigID va_vpp_config_id_;
   VAContextID va_vpp_context_id_;
   VABufferID va_vpp_buffer_id_;

   DISALLOW_COPY_AND_ASSIGN(VaapiWrapper);
 };

 }  // namespace media

 #endif  // MEDIA_GPU_VAAPI_WRAPPER_H_
	// Copyright 2013 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.
	//
	// This file contains an implementation of VaapiWrapper, used by
	// VaapiVideoDecodeAccelerator and VaapiH264Decoder for decode,
	// and VaapiVideoEncodeAccelerator for encode, to interface
	// with libva (VA-API library for hardware video codec).

	#ifndef MEDIA_GPU_VAAPI_WRAPPER_H_
	#define MEDIA_GPU_VAAPI_WRAPPER_H_

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

	#include <set>
	#include <vector>

	#include <va/va.h>

	#include "base/files/file.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/synchronization/lock.h"
	#include "media/base/video_decoder_config.h"
	#include "media/base/video_frame.h"
	#include "media/gpu/media_gpu_export.h"
	#include "media/gpu/va_surface.h"
	#include "media/video/jpeg_decode_accelerator.h"
	#include "media/video/video_decode_accelerator.h"
	#include "media/video/video_encode_accelerator.h"
	#include "ui/gfx/geometry/size.h"

	#if defined(USE_X11)
	#include <va/va_x11.h>
	#endif // USE_X11

	#if defined(USE_OZONE)
	namespace gfx {
	class NativePixmap;
	}
	#endif

	namespace media {

	// This class handles VA-API calls and ensures proper locking of VA-API calls
	// to libva, the userspace shim to the HW codec driver. libva is not
	// thread-safe, so we have to perform locking ourselves. This class is fully
	// synchronous and its methods can be called from any thread and may wait on
	// the va_lock_ while other, concurrent calls run.
	//
	// This class is responsible for managing VAAPI connection, contexts and state.
	// It is also responsible for managing and freeing VABuffers (not VASurfaces),
	// which are used to queue parameters and slice data to the HW codec,
	// as well as underlying memory for VASurfaces themselves.
	class MEDIA_GPU_EXPORT VaapiWrapper
	: public base::RefCountedThreadSafe<VaapiWrapper> {
	public:
	enum CodecMode {
	kDecode,
	kEncode,
	kCodecModeMax,
	};

	// Return an instance of VaapiWrapper initialized for \|va_profile\| and
	// \|mode\|. \|report_error_to_uma_cb\| will be called independently from
	// reporting errors to clients via method return values.
	static scoped_refptr<VaapiWrapper> Create(
	CodecMode mode,
	VAProfile va_profile,
	const base::Closure& report_error_to_uma_cb);

	// Create VaapiWrapper for VideoCodecProfile. It maps VideoCodecProfile
	// \|profile\| to VAProfile.
	// \|report_error_to_uma_cb\| will be called independently from reporting
	// errors to clients via method return values.
	static scoped_refptr<VaapiWrapper> CreateForVideoCodec(
	CodecMode mode,
	VideoCodecProfile profile,
	const base::Closure& report_error_to_uma_cb);

	// Return the supported video encode profiles.
	static VideoEncodeAccelerator::SupportedProfiles GetSupportedEncodeProfiles();

	// Return the supported video decode profiles.
	static VideoDecodeAccelerator::SupportedProfiles GetSupportedDecodeProfiles();

	// Return true when JPEG decode is supported.
	static bool IsJpegDecodeSupported();

	// Create \|num_surfaces\| backing surfaces in driver for VASurfaces of
	// \|va_format\|, each of size \|size\|. Returns true when successful, with the
	// created IDs in \|va_surfaces\| to be managed and later wrapped in
	// VASurfaces.
	// The client must DestroySurfaces() each time before calling this method
	// again to free the allocated surfaces first, but is not required to do so
	// at destruction time, as this will be done automatically from
	// the destructor.
	bool CreateSurfaces(unsigned int va_format,
	const gfx::Size& size,
	size_t num_surfaces,
	std::vector<VASurfaceID>* va_surfaces);

	// Free all memory allocated in CreateSurfaces.
	void DestroySurfaces();

	// Create a VASurface of \|va_format\|, \|size\| and using \|va_attribs\|
	// attributes. The ownership of the surface is transferred to the
	// caller. It differs from surfaces created using CreateSurfaces(),
	// where VaapiWrapper is the owner of the surfaces.
	scoped_refptr<VASurface> CreateUnownedSurface(
	unsigned int va_format,
	const gfx::Size& size,
	const std::vector<VASurfaceAttrib>& va_attribs);

	#if defined(USE_OZONE)
	// Create a VASurface for \|pixmap\|. The ownership of the surface is
	// transferred to the caller. It differs from surfaces created using
	// CreateSurfaces(), where VaapiWrapper is the owner of the surfaces.
	scoped_refptr<VASurface> CreateVASurfaceForPixmap(
	const scoped_refptr<gfx::NativePixmap>& pixmap);
	#endif

	// Submit parameters or slice data of \|va_buffer_type\|, copying them from
	// \|buffer\| of size \|size\|, into HW codec. The data in \|buffer\| is no
	// longer needed and can be freed after this method returns.
	// Data submitted via this method awaits in the HW codec until
	// ExecuteAndDestroyPendingBuffers() is called to execute or
	// DestroyPendingBuffers() is used to cancel a pending job.
	bool SubmitBuffer(VABufferType va_buffer_type, size_t size, void* buffer);

	// Submit a VAEncMiscParameterBuffer of given \|misc_param_type\|, copying its
	// data from \|buffer\| of size \|size\|, into HW codec. The data in \|buffer\| is
	// no longer needed and can be freed after this method returns.
	// Data submitted via this method awaits in the HW codec until
	// ExecuteAndDestroyPendingBuffers() is called to execute or
	// DestroyPendingBuffers() is used to cancel a pending job.
	bool SubmitVAEncMiscParamBuffer(VAEncMiscParameterType misc_param_type,
	size_t size,
	void* buffer);

	// Cancel and destroy all buffers queued to the HW codec via SubmitBuffer().
	// Useful when a pending job is to be cancelled (on reset or error).
	void DestroyPendingBuffers();

	// Execute job in hardware on target \|va_surface_id\| and destroy pending
	// buffers. Return false if Execute() fails.
	bool ExecuteAndDestroyPendingBuffers(VASurfaceID va_surface_id);

	#if defined(USE_X11)
	// Put data from \|va_surface_id\| into \|x_pixmap\| of size
	// \|dest_size\|, converting/scaling to it.
	bool PutSurfaceIntoPixmap(VASurfaceID va_surface_id,
	Pixmap x_pixmap,
	gfx::Size dest_size);
	#endif // USE_X11

	// Get a VAImage from a VASurface and map it into memory. The size and format
	// are derived from the surface. Use GetVaImage() instead if \|format\| or
	// \|size\| are different from surface internal representation. The VAImage
	// should be released using the ReturnVaImage function. Returns true when
	// successful.
	bool GetDerivedVaImage(VASurfaceID va_surface_id, VAImage* image, void** mem);

	// Get a VAImage from a VASurface \|va_surface_id\| and map it into memory with
	// given \|format\| and \|size\|. The output is \|image\| and the mapped memory is
	// \|mem\|. If \|format\| doesn't equal to the internal format, the underlying
	// implementation will do format conversion if supported. \|size\| should be
	// smaller than or equal to the surface. If \|size\| is smaller, the image will
	// be cropped. The VAImage should be released using the ReturnVaImage
	// function. Returns true when successful.
	bool GetVaImage(VASurfaceID va_surface_id,
	VAImageFormat* format,
	const gfx::Size& size,
	VAImage* image,
	void** mem);

	// Release the VAImage (and the associated memory mapping) obtained from
	// GetVaImage() or GetDerivedVaImage().
	void ReturnVaImage(VAImage* image);

	// Upload contents of \|frame\| into \|va_surface_id\| for encode.
	bool UploadVideoFrameToSurface(const scoped_refptr<VideoFrame>& frame,
	VASurfaceID va_surface_id);

	// Create a buffer of \|size\| bytes to be used as encode output.
	bool CreateCodedBuffer(size_t size, VABufferID* buffer_id);

	// Download the contents of the buffer with given \|buffer_id\| into a buffer of
	// size \|target_size\|, pointed to by \|target_ptr\|. The number of bytes
	// downloaded will be returned in \|coded_data_size\|. \|sync_surface_id\| will
	// be used as a sync point, i.e. it will have to become idle before starting
	// the download. \|sync_surface_id\| should be the source surface passed
	// to the encode job.
	bool DownloadAndDestroyCodedBuffer(VABufferID buffer_id,
	VASurfaceID sync_surface_id,
	uint8_t* target_ptr,
	size_t target_size,
	size_t* coded_data_size);

	// Destroy all previously-allocated (and not yet destroyed) coded buffers.
	void DestroyCodedBuffers();

	// Blits a VASurface \|va_surface_src\| into another VASurface
	// \|va_surface_dest\| applying pixel format conversion and scaling
	// if needed.
	bool BlitSurface(const scoped_refptr<VASurface>& va_surface_src,
	const scoped_refptr<VASurface>& va_surface_dest);

	// Initialize static data before sandbox is enabled.
	static void PreSandboxInitialization();

	// Get the created surfaces format.
	unsigned int va_surface_format() const { return va_surface_format_; }

	private:
	friend class base::RefCountedThreadSafe<VaapiWrapper>;

	struct ProfileInfo {
	VAProfile va_profile;
	gfx::Size max_resolution;
	};

	class LazyProfileInfos {
	public:
	LazyProfileInfos();
	~LazyProfileInfos();
	std::vector<ProfileInfo> GetSupportedProfileInfosForCodecMode(
	CodecMode mode);
	bool IsProfileSupported(CodecMode mode, VAProfile va_profile);

	private:
	std::vector<ProfileInfo> supported_profiles_[kCodecModeMax];
	};

	class VADisplayState {
	public:
	VADisplayState();
	~VADisplayState();

	// \|va_lock_\| must be held on entry.
	bool Initialize();
	void Deinitialize(VAStatus* status);

	base::Lock* va_lock() { return &va_lock_; }
	VADisplay va_display() const { return va_display_; }

	#if defined(USE_OZONE)
	void SetDrmFd(base::PlatformFile fd);
	#endif // USE_OZONE

	private:
	// Protected by \|va_lock_\|.
	int refcount_;

	// Libva is not thread safe, so we have to do locking for it ourselves.
	// This lock is to be taken for the duration of all VA-API calls and for
	// the entire job submission sequence in ExecuteAndDestroyPendingBuffers().
	base::Lock va_lock_;

	#if defined(USE_OZONE)
	// Drm fd used to obtain access to the driver interface by VA.
	base::ScopedFD drm_fd_;
	#endif // USE_OZONE

	// The VADisplay handle.
	VADisplay va_display_;

	// The VAAPI version.
	int major_version_, minor_version_;

	// True if vaInitialize has been called successfully.
	bool va_initialized_;
	};

	VaapiWrapper();
	~VaapiWrapper();

	bool Initialize(CodecMode mode, VAProfile va_profile);
	void Deinitialize();
	bool VaInitialize(const base::Closure& report_error_to_uma_cb);
	bool GetSupportedVaProfiles(std::vector<VAProfile>* profiles);

	// Free all memory allocated in CreateSurfaces.
	void DestroySurfaces_Locked();

	// Check if \|va_profile\| supports \|entrypoint\| or not. \|va_lock_\| must be
	// held on entry.
	bool IsEntrypointSupported_Locked(VAProfile va_profile,
	VAEntrypoint entrypoint);

	// Return true if \|va_profile\| for \|entrypoint\| with \|required_attribs\| is
	// supported. \|va_lock_\| must be held on entry.
	bool AreAttribsSupported_Locked(
	VAProfile va_profile,
	VAEntrypoint entrypoint,
	const std::vector<VAConfigAttrib>& required_attribs);

	// Get maximum resolution for \|va_profile\| and \|entrypoint\| with
	// \|required_attribs\|. If return value is true, \|resolution\| is the maximum
	// resolution. \|va_lock_\| must be held on entry.
	bool GetMaxResolution_Locked(VAProfile va_profile,
	VAEntrypoint entrypoint,
	std::vector<VAConfigAttrib>& required_attribs,
	gfx::Size* resolution);

	// Destroys a \|va_surface\| created using CreateUnownedSurface.
	void DestroyUnownedSurface(VASurfaceID va_surface_id);

	// Initialize the video post processing context with the \|size\| of
	// the input pictures to be processed.
	bool InitializeVpp_Locked();

	// Deinitialize the video post processing context.
	void DeinitializeVpp();

	// Execute pending job in hardware and destroy pending buffers. Return false
	// if vaapi driver refuses to accept parameter or slice buffers submitted
	// by client, or if execution fails in hardware.
	bool Execute(VASurfaceID va_surface_id);

	// Attempt to set render mode to "render to texture.". Failure is non-fatal.
	void TryToSetVADisplayAttributeToLocalGPU();

	// Get supported profile infos for \|mode\|.
	std::vector<ProfileInfo> GetSupportedProfileInfosForCodecModeInternal(
	CodecMode mode);

	// Lazily initialize static data after sandbox is enabled. Return false on
	// init failure.
	static bool PostSandboxInitialization();

	// Map VideoCodecProfile enum values to VaProfile values. This function
	// includes a workaround for crbug.com/345569. If va_profile is h264 baseline
	// and it is not supported, we try constrained baseline.
	static VAProfile ProfileToVAProfile(VideoCodecProfile profile,
	CodecMode mode);

	// Singleton accessors.
	static VADisplayState* GetDisplayState();
	static LazyProfileInfos* GetProfileInfos();

	// Pointer to VADisplayState's member \|va_lock_\|. Guaranteed to be valid for
	// the lifetime of VaapiWrapper.
	base::Lock* va_lock_;

	// Allocated ids for VASurfaces.
	std::vector<VASurfaceID> va_surface_ids_;

	// VA format of surfaces with va_surface_ids_.
	unsigned int va_surface_format_;

	// VA handles.
	// All valid after successful Initialize() and until Deinitialize().
	VADisplay va_display_;
	VAConfigID va_config_id_;
	// Created for the current set of va_surface_ids_ in CreateSurfaces() and
	// valid until DestroySurfaces().
	VAContextID va_context_id_;

	// Data queued up for HW codec, to be committed on next execution.
	std::vector<VABufferID> pending_slice_bufs_;
	std::vector<VABufferID> pending_va_bufs_;

	// Bitstream buffers for encode.
	std::set<VABufferID> coded_buffers_;

	// Called to report codec errors to UMA. Errors to clients are reported via
	// return values from public methods.
	base::Closure report_error_to_uma_cb_;

	// VPP (Video Post Processing) context, this is used to convert
	// pictures used by the decoder to RGBA pictures usable by GL or the
	// display hardware.
	VAConfigID va_vpp_config_id_;
	VAContextID va_vpp_context_id_;
	VABufferID va_vpp_buffer_id_;

	DISALLOW_COPY_AND_ASSIGN(VaapiWrapper);
	};

	} // namespace media

	#endif // MEDIA_GPU_VAAPI_WRAPPER_H_