media/gpu/vaapi/vaapi_image_decoder.cc - 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.

 #include "media/gpu/vaapi/vaapi_image_decoder.h"

 #include <utility>

 #include "base/logging.h"
 #include "media/gpu/macros.h"
 #include "media/gpu/vaapi/va_surface.h"
 #include "media/gpu/vaapi/vaapi_utils.h"
 #include "media/gpu/vaapi/vaapi_wrapper.h"
 #include "ui/gfx/geometry/size.h"
 #include "ui/gfx/linux/native_pixmap_dmabuf.h"

 namespace media {

 void VAContextAndScopedVASurfaceDeleter::operator()(
     ScopedVASurface* scoped_va_surface) const {
   scoped_va_surface->vaapi_wrapper_->DestroyContext();
   delete scoped_va_surface;
 }

 VaapiImageDecoder::VaapiImageDecoder(VAProfile va_profile)
     : va_profile_(va_profile) {}

 VaapiImageDecoder::~VaapiImageDecoder() = default;

 bool VaapiImageDecoder::Initialize(const ReportErrorToUMACB& error_uma_cb) {
   vaapi_wrapper_ =
       VaapiWrapper::Create(VaapiWrapper::kDecode, va_profile_,
                            EncryptionScheme::kUnencrypted, error_uma_cb);
   return !!vaapi_wrapper_;
 }

 VaapiImageDecodeStatus VaapiImageDecoder::Decode(
     base::span<const uint8_t> encoded_image) {
   if (!vaapi_wrapper_) {
     VLOGF(1) << "VaapiImageDecoder has not been initialized";
     scoped_va_context_and_surface_.reset();
     return VaapiImageDecodeStatus::kInvalidState;
   }

   const VaapiImageDecodeStatus status =
       AllocateVASurfaceAndSubmitVABuffers(encoded_image);
   if (status != VaapiImageDecodeStatus::kSuccess) {
     scoped_va_context_and_surface_.reset();
     return status;
   }

   if (!vaapi_wrapper_->ExecuteAndDestroyPendingBuffers(
           scoped_va_context_and_surface_->id())) {
     VLOGF(1) << "ExecuteAndDestroyPendingBuffers() failed";
     scoped_va_context_and_surface_.reset();
     return VaapiImageDecodeStatus::kExecuteDecodeFailed;
   }
   return VaapiImageDecodeStatus::kSuccess;
 }

 const ScopedVASurface* VaapiImageDecoder::GetScopedVASurface() const {
   return scoped_va_context_and_surface_.get();
 }

 gpu::ImageDecodeAcceleratorSupportedProfile
 VaapiImageDecoder::GetSupportedProfile() const {
   if (!vaapi_wrapper_) {
     DVLOGF(1) << "The VAAPI has not been initialized";
     return gpu::ImageDecodeAcceleratorSupportedProfile();
   }

   gpu::ImageDecodeAcceleratorSupportedProfile profile;
   profile.image_type = GetType();
   DCHECK_NE(gpu::ImageDecodeAcceleratorType::kUnknown, profile.image_type);

   // Note that since |vaapi_wrapper_| was created successfully, we expect the
   // following calls to be successful. Hence the DCHECKs.
   const bool got_min_resolution = VaapiWrapper::GetDecodeMinResolution(
       va_profile_, &profile.min_encoded_dimensions);
   DCHECK(got_min_resolution);
   const bool got_max_resolution = VaapiWrapper::GetDecodeMaxResolution(
       va_profile_, &profile.max_encoded_dimensions);
   DCHECK(got_max_resolution);

   // TODO(andrescj): Ideally, we would advertise support for all the formats
   // supported by the driver. However, for now, we will only support exposing
   // YUV 4:2:0 surfaces as DmaBufs.
   DCHECK(VaapiWrapper::GetDecodeSupportedInternalFormats(va_profile_).yuv420);
   profile.subsamplings.push_back(gpu::ImageDecodeAcceleratorSubsampling::k420);
   return profile;
 }

 std::unique_ptr<NativePixmapAndSizeInfo>
 VaapiImageDecoder::ExportAsNativePixmapDmaBuf(VaapiImageDecodeStatus* status) {
   DCHECK(status);

   // We need to take ownership of the ScopedVASurface so that the next Decode()
   // doesn't attempt to use the same ScopedVASurface. Otherwise, it could
   // overwrite the result of the current decode before it's used by the caller.
   // This ScopedVASurface will self-clean at the end of this scope, but the
   // underlying buffer should stay alive because of the exported FDs.
   ScopedVAContextAndSurface temp_scoped_va_surface =
       std::move(scoped_va_context_and_surface_);

   if (!temp_scoped_va_surface) {
     DVLOGF(1) << "No decoded image available";
     *status = VaapiImageDecodeStatus::kInvalidState;
     return nullptr;
   }
   DCHECK(temp_scoped_va_surface->IsValid());

   std::unique_ptr<NativePixmapAndSizeInfo> exported_pixmap =
       vaapi_wrapper_->ExportVASurfaceAsNativePixmapDmaBuf(
           *temp_scoped_va_surface);
   if (!exported_pixmap) {
     *status = VaapiImageDecodeStatus::kCannotExportSurface;
     return nullptr;
   }

   DCHECK_EQ(temp_scoped_va_surface->size(),
             exported_pixmap->pixmap->GetBufferSize());
   *status = VaapiImageDecodeStatus::kSuccess;
   return exported_pixmap;
 }

 }  // namespace media
	// 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.

	#include "media/gpu/vaapi/vaapi_image_decoder.h"

	#include <utility>

	#include "base/logging.h"
	#include "media/gpu/macros.h"
	#include "media/gpu/vaapi/va_surface.h"
	#include "media/gpu/vaapi/vaapi_utils.h"
	#include "media/gpu/vaapi/vaapi_wrapper.h"
	#include "ui/gfx/geometry/size.h"
	#include "ui/gfx/linux/native_pixmap_dmabuf.h"

	namespace media {

	void VAContextAndScopedVASurfaceDeleter::operator()(
	ScopedVASurface* scoped_va_surface) const {
	scoped_va_surface->vaapi_wrapper_->DestroyContext();
	delete scoped_va_surface;
	}

	VaapiImageDecoder::VaapiImageDecoder(VAProfile va_profile)
	: va_profile_(va_profile) {}

	VaapiImageDecoder::~VaapiImageDecoder() = default;

	bool VaapiImageDecoder::Initialize(const ReportErrorToUMACB& error_uma_cb) {
	vaapi_wrapper_ =
	VaapiWrapper::Create(VaapiWrapper::kDecode, va_profile_,
	EncryptionScheme::kUnencrypted, error_uma_cb);
	return !!vaapi_wrapper_;
	}

	VaapiImageDecodeStatus VaapiImageDecoder::Decode(
	base::span<const uint8_t> encoded_image) {
	if (!vaapi_wrapper_) {
	VLOGF(1) << "VaapiImageDecoder has not been initialized";
	scoped_va_context_and_surface_.reset();
	return VaapiImageDecodeStatus::kInvalidState;
	}

	const VaapiImageDecodeStatus status =
	AllocateVASurfaceAndSubmitVABuffers(encoded_image);
	if (status != VaapiImageDecodeStatus::kSuccess) {
	scoped_va_context_and_surface_.reset();
	return status;
	}

	if (!vaapi_wrapper_->ExecuteAndDestroyPendingBuffers(
	scoped_va_context_and_surface_->id())) {
	VLOGF(1) << "ExecuteAndDestroyPendingBuffers() failed";
	scoped_va_context_and_surface_.reset();
	return VaapiImageDecodeStatus::kExecuteDecodeFailed;
	}
	return VaapiImageDecodeStatus::kSuccess;
	}

	const ScopedVASurface* VaapiImageDecoder::GetScopedVASurface() const {
	return scoped_va_context_and_surface_.get();
	}

	gpu::ImageDecodeAcceleratorSupportedProfile
	VaapiImageDecoder::GetSupportedProfile() const {
	if (!vaapi_wrapper_) {
	DVLOGF(1) << "The VAAPI has not been initialized";
	return gpu::ImageDecodeAcceleratorSupportedProfile();
	}

	gpu::ImageDecodeAcceleratorSupportedProfile profile;
	profile.image_type = GetType();
	DCHECK_NE(gpu::ImageDecodeAcceleratorType::kUnknown, profile.image_type);

	// Note that since \|vaapi_wrapper_\| was created successfully, we expect the
	// following calls to be successful. Hence the DCHECKs.
	const bool got_min_resolution = VaapiWrapper::GetDecodeMinResolution(
	va_profile_, &profile.min_encoded_dimensions);
	DCHECK(got_min_resolution);
	const bool got_max_resolution = VaapiWrapper::GetDecodeMaxResolution(
	va_profile_, &profile.max_encoded_dimensions);
	DCHECK(got_max_resolution);

	// TODO(andrescj): Ideally, we would advertise support for all the formats
	// supported by the driver. However, for now, we will only support exposing
	// YUV 4:2:0 surfaces as DmaBufs.
	DCHECK(VaapiWrapper::GetDecodeSupportedInternalFormats(va_profile_).yuv420);
	profile.subsamplings.push_back(gpu::ImageDecodeAcceleratorSubsampling::k420);
	return profile;
	}

	std::unique_ptr<NativePixmapAndSizeInfo>
	VaapiImageDecoder::ExportAsNativePixmapDmaBuf(VaapiImageDecodeStatus* status) {
	DCHECK(status);

	// We need to take ownership of the ScopedVASurface so that the next Decode()
	// doesn't attempt to use the same ScopedVASurface. Otherwise, it could
	// overwrite the result of the current decode before it's used by the caller.
	// This ScopedVASurface will self-clean at the end of this scope, but the
	// underlying buffer should stay alive because of the exported FDs.
	ScopedVAContextAndSurface temp_scoped_va_surface =
	std::move(scoped_va_context_and_surface_);

	if (!temp_scoped_va_surface) {
	DVLOGF(1) << "No decoded image available";
	*status = VaapiImageDecodeStatus::kInvalidState;
	return nullptr;
	}
	DCHECK(temp_scoped_va_surface->IsValid());

	std::unique_ptr<NativePixmapAndSizeInfo> exported_pixmap =
	vaapi_wrapper_->ExportVASurfaceAsNativePixmapDmaBuf(
	*temp_scoped_va_surface);
	if (!exported_pixmap) {
	*status = VaapiImageDecodeStatus::kCannotExportSurface;
	return nullptr;
	}

	DCHECK_EQ(temp_scoped_va_surface->size(),
	exported_pixmap->pixmap->GetBufferSize());
	*status = VaapiImageDecodeStatus::kSuccess;
	return exported_pixmap;
	}

	} // namespace media