C2VDAAdaptor.cpp - platform/external/v4l2_codec2 - 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.

 //#define LOG_NDEBUG 0
 #define LOG_TAG "C2VDAAdaptor"

 #include <C2VDAAdaptor.h>

 #include <bitstream_buffer.h>
 #include <native_pixmap_handle.h>
 #include <v4l2_device.h>
 #include <v4l2_slice_video_decode_accelerator.h>
 #include <video_pixel_format.h>
 #include <videodev2.h>

 #include <utils/Log.h>

 namespace android {

 constexpr SupportedPixelFormat kSupportedPixelFormats[] = {
         // {mCrcb, mSemiplanar, mPixelFormat}
         {false, true, HalPixelFormat::NV12},
         {true, false, HalPixelFormat::YV12},
         // Add more buffer formats when needed
 };

 C2VDAAdaptor::C2VDAAdaptor() : mNumOutputBuffers(0u) {}

 C2VDAAdaptor::~C2VDAAdaptor() {
     if (mVDA) {
         destroy();
     }
 }

 VideoDecodeAcceleratorAdaptor::Result C2VDAAdaptor::initialize(
         media::VideoCodecProfile profile, bool secureMode,
         VideoDecodeAcceleratorAdaptor::Client* client) {
     // TODO: use secureMode here, or ignore?
     if (mVDA) {
         ALOGE("Re-initialize() is not allowed");
         return ILLEGAL_STATE;
     }

     media::VideoDecodeAccelerator::Config config;
     config.profile = profile;
     config.output_mode = media::VideoDecodeAccelerator::Config::OutputMode::IMPORT;

     // TODO(johnylin): may need to implement factory to create VDA if there are multiple VDA
     // implementations in the future.
     scoped_refptr<media::V4L2Device> device = new media::V4L2Device();
     std::unique_ptr<media::VideoDecodeAccelerator> vda(
             new media::V4L2SliceVideoDecodeAccelerator(device));
     if (!vda->Initialize(config, this)) {
         ALOGE("Failed to initialize VDA");
         return PLATFORM_FAILURE;
     }

     mVDA = std::move(vda);
     mClient = client;

     return SUCCESS;
 }

 void C2VDAAdaptor::decode(int32_t bitstreamId, int ashmemFd, off_t offset, uint32_t bytesUsed) {
     CHECK(mVDA);
     mVDA->Decode(media::BitstreamBuffer(bitstreamId, base::SharedMemoryHandle(ashmemFd, true),
                                         bytesUsed, offset));
 }

 void C2VDAAdaptor::assignPictureBuffers(uint32_t numOutputBuffers) {
     CHECK(mVDA);
     std::vector<media::PictureBuffer> buffers;
     for (uint32_t id = 0; id < numOutputBuffers; ++id) {
         buffers.push_back(media::PictureBuffer(static_cast<int32_t>(id), mPictureSize));
     }
     mVDA->AssignPictureBuffers(buffers);
     mNumOutputBuffers = numOutputBuffers;
 }

 void C2VDAAdaptor::importBufferForPicture(int32_t pictureBufferId, HalPixelFormat format,
                                           int dmabufFd,
                                           const std::vector<VideoFramePlane>& planes) {
     CHECK(mVDA);
     CHECK_LT(pictureBufferId, static_cast<int32_t>(mNumOutputBuffers));

     media::VideoPixelFormat pixelFormat;
     switch (format) {
         case HalPixelFormat::YV12:
             pixelFormat = media::PIXEL_FORMAT_YV12;
             break;
         case HalPixelFormat::NV12:
             pixelFormat = media::PIXEL_FORMAT_NV12;
             break;
         default:
             LOG_ALWAYS_FATAL("Unsupported format: 0x%x", format);
             return;
     }

     media::NativePixmapHandle handle;
     handle.fds.emplace_back(base::FileDescriptor(dmabufFd, true));
     for (const auto& plane : planes) {
         handle.planes.emplace_back(plane.mStride, plane.mOffset, 0, 0);
     }
     mVDA->ImportBufferForPicture(pictureBufferId, pixelFormat, handle);
 }

 void C2VDAAdaptor::reusePictureBuffer(int32_t pictureBufferId) {
     CHECK(mVDA);
     CHECK_LT(pictureBufferId, static_cast<int32_t>(mNumOutputBuffers));

     mVDA->ReusePictureBuffer(pictureBufferId);
 }

 void C2VDAAdaptor::flush() {
     CHECK(mVDA);
     mVDA->Flush();
 }

 void C2VDAAdaptor::reset() {
     CHECK(mVDA);
     mVDA->Reset();
 }

 void C2VDAAdaptor::destroy() {
     mVDA.reset(nullptr);
     mNumOutputBuffers = 0u;
     mPictureSize = media::Size();
 }

 //static
 media::VideoDecodeAccelerator::SupportedProfiles C2VDAAdaptor::GetSupportedProfiles(
         uint32_t inputFormatFourcc) {
     media::VideoDecodeAccelerator::SupportedProfiles supportedProfiles;
     auto allProfiles = media::V4L2SliceVideoDecodeAccelerator::GetSupportedProfiles();
     bool isSliceBased = (inputFormatFourcc == V4L2_PIX_FMT_H264_SLICE) ||
                         (inputFormatFourcc == V4L2_PIX_FMT_VP8_FRAME) ||
                         (inputFormatFourcc == V4L2_PIX_FMT_VP9_FRAME);
     for (const auto& profile : allProfiles) {
         if (inputFormatFourcc ==
             media::V4L2Device::VideoCodecProfileToV4L2PixFmt(profile.profile, isSliceBased)) {
             supportedProfiles.push_back(profile);
         }
     }
     return supportedProfiles;
 }

 //static
 HalPixelFormat C2VDAAdaptor::ResolveBufferFormat(bool crcb, bool semiplanar) {
     auto value = std::find_if(std::begin(kSupportedPixelFormats), std::end(kSupportedPixelFormats),
                               [crcb, semiplanar](const struct SupportedPixelFormat& f) {
                                   return f.mCrcb == crcb && f.mSemiplanar == semiplanar;
                               });
     LOG_ALWAYS_FATAL_IF(value == std::end(kSupportedPixelFormats),
                         "Unsupported pixel format: (crcb=%d, semiplanar=%d)", crcb, semiplanar);
     return value->mPixelFormat;
 }

 void C2VDAAdaptor::ProvidePictureBuffers(uint32_t requested_num_of_buffers,
                                          media::VideoPixelFormat output_format,
                                          const media::Size& dimensions) {
     // per change ag/3262504, output_format from VDA is no longer used, component side always
     // allocate graphic buffers for flexible YUV format.
     (void)output_format;

     mClient->providePictureBuffers(requested_num_of_buffers, dimensions);
     mPictureSize = dimensions;
 }

 void C2VDAAdaptor::DismissPictureBuffer(int32_t picture_buffer_id) {
     mClient->dismissPictureBuffer(picture_buffer_id);
 }

 void C2VDAAdaptor::PictureReady(const media::Picture& picture) {
     mClient->pictureReady(picture.picture_buffer_id(), picture.bitstream_buffer_id(),
                           picture.visible_rect());
 }

 void C2VDAAdaptor::NotifyEndOfBitstreamBuffer(int32_t bitstream_buffer_id) {
     mClient->notifyEndOfBitstreamBuffer(bitstream_buffer_id);
 }

 void C2VDAAdaptor::NotifyFlushDone() {
     mClient->notifyFlushDone();
 }

 void C2VDAAdaptor::NotifyResetDone() {
     mClient->notifyResetDone();
 }

 static VideoDecodeAcceleratorAdaptor::Result convertErrorCode(
         media::VideoDecodeAccelerator::Error error) {
     switch (error) {
     case media::VideoDecodeAccelerator::ILLEGAL_STATE:
         return VideoDecodeAcceleratorAdaptor::ILLEGAL_STATE;
     case media::VideoDecodeAccelerator::INVALID_ARGUMENT:
         return VideoDecodeAcceleratorAdaptor::INVALID_ARGUMENT;
     case media::VideoDecodeAccelerator::UNREADABLE_INPUT:
         return VideoDecodeAcceleratorAdaptor::UNREADABLE_INPUT;
     case media::VideoDecodeAccelerator::PLATFORM_FAILURE:
         return VideoDecodeAcceleratorAdaptor::PLATFORM_FAILURE;
     default:
         ALOGE("Unknown error code: %d", static_cast<int>(error));
         return VideoDecodeAcceleratorAdaptor::PLATFORM_FAILURE;
     }
 }

 void C2VDAAdaptor::NotifyError(media::VideoDecodeAccelerator::Error error) {
     mClient->notifyError(convertErrorCode(error));
 }

 }  // namespace android
	// 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.

	//#define LOG_NDEBUG 0
	#define LOG_TAG "C2VDAAdaptor"

	#include <C2VDAAdaptor.h>

	#include <bitstream_buffer.h>
	#include <native_pixmap_handle.h>
	#include <v4l2_device.h>
	#include <v4l2_slice_video_decode_accelerator.h>
	#include <video_pixel_format.h>
	#include <videodev2.h>

	#include <utils/Log.h>

	namespace android {

	constexpr SupportedPixelFormat kSupportedPixelFormats[] = {
	// {mCrcb, mSemiplanar, mPixelFormat}
	{false, true, HalPixelFormat::NV12},
	{true, false, HalPixelFormat::YV12},
	// Add more buffer formats when needed
	};

	C2VDAAdaptor::C2VDAAdaptor() : mNumOutputBuffers(0u) {}

	C2VDAAdaptor::~C2VDAAdaptor() {
	if (mVDA) {
	destroy();
	}
	}

	VideoDecodeAcceleratorAdaptor::Result C2VDAAdaptor::initialize(
	media::VideoCodecProfile profile, bool secureMode,
	VideoDecodeAcceleratorAdaptor::Client* client) {
	// TODO: use secureMode here, or ignore?
	if (mVDA) {
	ALOGE("Re-initialize() is not allowed");
	return ILLEGAL_STATE;
	}

	media::VideoDecodeAccelerator::Config config;
	config.profile = profile;
	config.output_mode = media::VideoDecodeAccelerator::Config::OutputMode::IMPORT;

	// TODO(johnylin): may need to implement factory to create VDA if there are multiple VDA
	// implementations in the future.
	scoped_refptr<media::V4L2Device> device = new media::V4L2Device();
	std::unique_ptr<media::VideoDecodeAccelerator> vda(
	new media::V4L2SliceVideoDecodeAccelerator(device));
	if (!vda->Initialize(config, this)) {
	ALOGE("Failed to initialize VDA");
	return PLATFORM_FAILURE;
	}

	mVDA = std::move(vda);
	mClient = client;

	return SUCCESS;
	}

	void C2VDAAdaptor::decode(int32_t bitstreamId, int ashmemFd, off_t offset, uint32_t bytesUsed) {
	CHECK(mVDA);
	mVDA->Decode(media::BitstreamBuffer(bitstreamId, base::SharedMemoryHandle(ashmemFd, true),
	bytesUsed, offset));
	}

	void C2VDAAdaptor::assignPictureBuffers(uint32_t numOutputBuffers) {
	CHECK(mVDA);
	std::vector<media::PictureBuffer> buffers;
	for (uint32_t id = 0; id < numOutputBuffers; ++id) {
	buffers.push_back(media::PictureBuffer(static_cast<int32_t>(id), mPictureSize));
	}
	mVDA->AssignPictureBuffers(buffers);
	mNumOutputBuffers = numOutputBuffers;
	}

	void C2VDAAdaptor::importBufferForPicture(int32_t pictureBufferId, HalPixelFormat format,
	int dmabufFd,
	const std::vector<VideoFramePlane>& planes) {
	CHECK(mVDA);
	CHECK_LT(pictureBufferId, static_cast<int32_t>(mNumOutputBuffers));

	media::VideoPixelFormat pixelFormat;
	switch (format) {
	case HalPixelFormat::YV12:
	pixelFormat = media::PIXEL_FORMAT_YV12;
	break;
	case HalPixelFormat::NV12:
	pixelFormat = media::PIXEL_FORMAT_NV12;
	break;
	default:
	LOG_ALWAYS_FATAL("Unsupported format: 0x%x", format);
	return;
	}

	media::NativePixmapHandle handle;
	handle.fds.emplace_back(base::FileDescriptor(dmabufFd, true));
	for (const auto& plane : planes) {
	handle.planes.emplace_back(plane.mStride, plane.mOffset, 0, 0);
	}
	mVDA->ImportBufferForPicture(pictureBufferId, pixelFormat, handle);
	}

	void C2VDAAdaptor::reusePictureBuffer(int32_t pictureBufferId) {
	CHECK(mVDA);
	CHECK_LT(pictureBufferId, static_cast<int32_t>(mNumOutputBuffers));

	mVDA->ReusePictureBuffer(pictureBufferId);
	}

	void C2VDAAdaptor::flush() {
	CHECK(mVDA);
	mVDA->Flush();
	}

	void C2VDAAdaptor::reset() {
	CHECK(mVDA);
	mVDA->Reset();
	}

	void C2VDAAdaptor::destroy() {
	mVDA.reset(nullptr);
	mNumOutputBuffers = 0u;
	mPictureSize = media::Size();
	}

	//static
	media::VideoDecodeAccelerator::SupportedProfiles C2VDAAdaptor::GetSupportedProfiles(
	uint32_t inputFormatFourcc) {
	media::VideoDecodeAccelerator::SupportedProfiles supportedProfiles;
	auto allProfiles = media::V4L2SliceVideoDecodeAccelerator::GetSupportedProfiles();
	bool isSliceBased = (inputFormatFourcc == V4L2_PIX_FMT_H264_SLICE) \|\|
	(inputFormatFourcc == V4L2_PIX_FMT_VP8_FRAME) \|\|
	(inputFormatFourcc == V4L2_PIX_FMT_VP9_FRAME);
	for (const auto& profile : allProfiles) {
	if (inputFormatFourcc ==
	media::V4L2Device::VideoCodecProfileToV4L2PixFmt(profile.profile, isSliceBased)) {
	supportedProfiles.push_back(profile);
	}
	}
	return supportedProfiles;
	}

	//static
	HalPixelFormat C2VDAAdaptor::ResolveBufferFormat(bool crcb, bool semiplanar) {
	auto value = std::find_if(std::begin(kSupportedPixelFormats), std::end(kSupportedPixelFormats),
	[crcb, semiplanar](const struct SupportedPixelFormat& f) {
	return f.mCrcb == crcb && f.mSemiplanar == semiplanar;
	});
	LOG_ALWAYS_FATAL_IF(value == std::end(kSupportedPixelFormats),
	"Unsupported pixel format: (crcb=%d, semiplanar=%d)", crcb, semiplanar);
	return value->mPixelFormat;
	}

	void C2VDAAdaptor::ProvidePictureBuffers(uint32_t requested_num_of_buffers,
	media::VideoPixelFormat output_format,
	const media::Size& dimensions) {
	// per change ag/3262504, output_format from VDA is no longer used, component side always
	// allocate graphic buffers for flexible YUV format.
	(void)output_format;

	mClient->providePictureBuffers(requested_num_of_buffers, dimensions);
	mPictureSize = dimensions;
	}

	void C2VDAAdaptor::DismissPictureBuffer(int32_t picture_buffer_id) {
	mClient->dismissPictureBuffer(picture_buffer_id);
	}

	void C2VDAAdaptor::PictureReady(const media::Picture& picture) {
	mClient->pictureReady(picture.picture_buffer_id(), picture.bitstream_buffer_id(),
	picture.visible_rect());
	}

	void C2VDAAdaptor::NotifyEndOfBitstreamBuffer(int32_t bitstream_buffer_id) {
	mClient->notifyEndOfBitstreamBuffer(bitstream_buffer_id);
	}

	void C2VDAAdaptor::NotifyFlushDone() {
	mClient->notifyFlushDone();
	}

	void C2VDAAdaptor::NotifyResetDone() {
	mClient->notifyResetDone();
	}

	static VideoDecodeAcceleratorAdaptor::Result convertErrorCode(
	media::VideoDecodeAccelerator::Error error) {
	switch (error) {
	case media::VideoDecodeAccelerator::ILLEGAL_STATE:
	return VideoDecodeAcceleratorAdaptor::ILLEGAL_STATE;
	case media::VideoDecodeAccelerator::INVALID_ARGUMENT:
	return VideoDecodeAcceleratorAdaptor::INVALID_ARGUMENT;
	case media::VideoDecodeAccelerator::UNREADABLE_INPUT:
	return VideoDecodeAcceleratorAdaptor::UNREADABLE_INPUT;
	case media::VideoDecodeAccelerator::PLATFORM_FAILURE:
	return VideoDecodeAcceleratorAdaptor::PLATFORM_FAILURE;
	default:
	ALOGE("Unknown error code: %d", static_cast<int>(error));
	return VideoDecodeAcceleratorAdaptor::PLATFORM_FAILURE;
	}
	}

	void C2VDAAdaptor::NotifyError(media::VideoDecodeAccelerator::Error error) {
	mClient->notifyError(convertErrorCode(error));
	}

	} // namespace android