Chromium Code Reviews Chromium Code Reviews
Issue 74563002:
AndroidVideoEncodeAccelerator is born! (Closed)
Base URL: svn://svn.chromium.org/chrome/trunk/src| Index: content/common/gpu/media/android_video_encode_accelerator.cc |
| diff --git a/content/common/gpu/media/android_video_encode_accelerator.cc b/content/common/gpu/media/android_video_encode_accelerator.cc |
| new file mode 100644 |
| index 0000000000000000000000000000000000000000..a0ab7071b665e40dd9ab000f25ccd00a87a2044b |
| --- /dev/null |
| +++ b/content/common/gpu/media/android_video_encode_accelerator.cc |
| @@ -0,0 +1,400 @@ |
| +// Copyright (c) 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. |
| + |
| +#include "content/common/gpu/media/android_video_encode_accelerator.h" |
| + |
| +#include "base/bind.h" |
| +#include "base/command_line.h" |
| +#include "base/logging.h" |
| +#include "base/message_loop/message_loop.h" |
| +#include "base/metrics/histogram.h" |
| +#include "content/common/gpu/gpu_channel.h" |
| +#include "content/public/common/content_switches.h" |
| +#include "gpu/command_buffer/service/gles2_cmd_decoder.h" |
| +#include "media/base/android/media_codec_bridge.h" |
| +#include "media/base/bitstream_buffer.h" |
| +#include "media/base/limits.h" |
| +#include "media/video/picture.h" |
| +#include "third_party/libyuv/include/libyuv/convert_from.h" |
| +#include "ui/gl/android/scoped_java_surface.h" |
| +#include "ui/gl/gl_bindings.h" |
| + |
| +using media::MediaCodecBridge; |
| +using media::VideoCodecBridge; |
| +using media::VideoFrame; |
| + |
| +namespace content { |
| + |
| +enum { |
| + // Subset of MediaCodecInfo.CodecCapabilities. |
| + COLOR_FORMAT_YUV420_SEMIPLANAR = 21, |
| +}; |
| + |
| +// Helper macros for dealing with failure. If |result| evaluates false, emit |
| +// |log| to DLOG(ERROR), register |error| with the client, and return. |
| +#define RETURN_ON_FAILURE(result, log, error) \ |
| + do { \ |
| + if (!(result)) { \ |
| + DLOG(ERROR) << log; \ |
| + if (client_ptr_factory_.GetWeakPtr()) { \ |
| + client_ptr_factory_.GetWeakPtr()->NotifyError(error); \ |
| + client_ptr_factory_.InvalidateWeakPtrs(); \ |
| + } \ |
| + return; \ |
| + } \ |
| + } while (0) |
| + |
| +static inline const base::TimeDelta EncodePollDelay() { |
| + // Arbitrary choice that trades off outgoing latency against CPU utilization. |
| + // Mirrors android_video_decode_accelerator.cc::DecodePollDelay(). |
| + return base::TimeDelta::FromMilliseconds(10); |
| +} |
| + |
| +static inline const base::TimeDelta NoWaitTimeOut() { |
| + return base::TimeDelta::FromMicroseconds(0); |
| +} |
| + |
| +AndroidVideoEncodeAccelerator::AndroidVideoEncodeAccelerator( |
| + media::VideoEncodeAccelerator::Client* client) |
| + : client_ptr_factory_(client), |
| + num_buffers_at_codec_(0), |
| + num_output_buffers_(-1), |
| + output_buffers_capacity_(0), |
| + last_set_bitrate_(0) {} |
| + |
| +AndroidVideoEncodeAccelerator::~AndroidVideoEncodeAccelerator() { |
| + DCHECK(thread_checker_.CalledOnValidThread()); |
| +} |
| + |
| +// static |
| +std::vector<media::VideoEncodeAccelerator::SupportedProfile> |
| +AndroidVideoEncodeAccelerator::GetSupportedProfiles() { |
| + std::vector<MediaCodecBridge::CodecsInfo> codecs_info = |
| + MediaCodecBridge::GetCodecsInfo(); |
| + |
| + std::vector<SupportedProfile> profiles; |
| + |
| + const CommandLine* cmd_line = CommandLine::ForCurrentProcess(); |
| + if (cmd_line->HasSwitch(switches::kDisableWebRtcHWEncoding)) |
| + return profiles; |
| + |
| + for (size_t i = 0; i < codecs_info.size(); ++i) { |
| + const MediaCodecBridge::CodecsInfo& info = codecs_info[i]; |
| + if (info.direction != media::MEDIA_CODEC_ENCODER || info.codecs != "vp8" || |
| + VideoCodecBridge::IsKnownUnaccelerated(media::kCodecVP8, |
| + media::MEDIA_CODEC_ENCODER)) { |
| + // We're only looking for a HW VP8 encoder. |
| + continue; |
| + } |
| + SupportedProfile profile; |
| + profile.profile = media::VP8PROFILE_MAIN; |
| + // Wouldn't it be nice if MediaCodec exposed the maximum capabilities of the |
| + // encoder? Sure would be. Too bad it doesn't. So we hard-code some |
| + // reasonable defaults. |
| + profile.max_resolution.SetSize(1920, 1088); |
| + profile.max_framerate.numerator = 30; |
| + profile.max_framerate.denominator = 1; |
| + profiles.push_back(profile); |
| + } |
| + return profiles; |
| +} |
| + |
| +void AndroidVideoEncodeAccelerator::Initialize( |
| + VideoFrame::Format format, |
| + const gfx::Size& input_visible_size, |
| + media::VideoCodecProfile output_profile, |
| + uint32 initial_bitrate) { |
| + DVLOG(3) << __PRETTY_FUNCTION__ << " format: " << format |
| + << ", input_visible_size: " << input_visible_size.ToString() |
| + << ", output_profile: " << output_profile |
| + << ", initial_bitrate: " << initial_bitrate; |
| + DCHECK(!media_codec_); |
| + DCHECK(thread_checker_.CalledOnValidThread()); |
| + |
| + RETURN_ON_FAILURE(media::MediaCodecBridge::IsAvailable() && |
| + media::MediaCodecBridge::SupportsSetParameters() && |
| + format == VideoFrame::I420 && |
| + output_profile == media::VP8PROFILE_MAIN, |
| + "Unexpected combo: " << format << ", " << output_profile, |
| + kInvalidArgumentError); |
| + |
| + last_set_bitrate_ = initial_bitrate; |
| + |
| + // Only consider using MediaCodec if it's likely backed by hardware. |
| + RETURN_ON_FAILURE(!media::VideoCodecBridge::IsKnownUnaccelerated( |
| + media::kCodecVP8, media::MEDIA_CODEC_ENCODER), |
| + "No HW support", |
| + kPlatformFailureError); |
| + |
| + // TODO(fischman): when there is more HW out there with different color-space |
| + // support, this should turn into a negotiation with the codec for supported |
| + // formats. For now we use the only format supported by the only available |
| + // HW. |
| + media_codec_.reset( |
| + media::VideoCodecBridge::CreateEncoder(media::kCodecVP8, |
| + input_visible_size, |
| + initial_bitrate, |
| + INITIAL_FRAMERATE, |
| + IFRAME_INTERVAL, |
| + COLOR_FORMAT_YUV420_SEMIPLANAR)); |
| + |
| + RETURN_ON_FAILURE( |
| + media_codec_, |
| + "Failed to create/start the codec: " << input_visible_size.ToString(), |
| + kPlatformFailureError); |
| + |
| + base::MessageLoop::current()->PostTask( |
| + FROM_HERE, |
| + base::Bind(&VideoEncodeAccelerator::Client::NotifyInitializeDone, |
| + client_ptr_factory_.GetWeakPtr())); |
| + |
| + num_output_buffers_ = media_codec_->GetOutputBuffersCount(); |
| + output_buffers_capacity_ = media_codec_->GetOutputBuffersCapacity(); |
| + base::MessageLoop::current()->PostTask( |
| + FROM_HERE, |
| + base::Bind(&VideoEncodeAccelerator::Client::RequireBitstreamBuffers, |
| + client_ptr_factory_.GetWeakPtr(), |
| + num_output_buffers_, |
| + input_visible_size, |
| + output_buffers_capacity_)); |
| +} |
| + |
| +void AndroidVideoEncodeAccelerator::MaybeStartIOTimer() { |
| + if (!io_timer_.IsRunning() && |
| + (num_buffers_at_codec_ > 0 || !pending_frames_.empty())) { |
| + io_timer_.Start(FROM_HERE, |
| + EncodePollDelay(), |
| + this, |
| + &AndroidVideoEncodeAccelerator::DoIOTask); |
| + } |
| +} |
| + |
| +void AndroidVideoEncodeAccelerator::MaybeStopIOTimer() { |
| + if (io_timer_.IsRunning() && |
| + (num_buffers_at_codec_ == 0 && pending_frames_.empty())) { |
| + io_timer_.Stop(); |
| + } |
| +} |
| + |
| +void AndroidVideoEncodeAccelerator::Encode( |
| + const scoped_refptr<VideoFrame>& frame, |
| + bool force_keyframe) { |
| + DVLOG(3) << __PRETTY_FUNCTION__ << ": " << force_keyframe; |
| + DCHECK(thread_checker_.CalledOnValidThread()); |
| + RETURN_ON_FAILURE(frame->format() == VideoFrame::I420, |
| + "Unexpected format", |
| + kInvalidArgumentError); |
| + |
| + // MediaCodec doesn't have a way to specify stride for non-Packed formats, so |
| + // we insist on being called with packed frames and no cropping :( |
| + RETURN_ON_FAILURE(frame->row_bytes(VideoFrame::kYPlane) == |
| + frame->stride(VideoFrame::kYPlane) && |
| + frame->row_bytes(VideoFrame::kUPlane) == |
| + frame->stride(VideoFrame::kUPlane) && |
| + frame->row_bytes(VideoFrame::kVPlane) == |
| + frame->stride(VideoFrame::kVPlane) && |
| + gfx::Rect(frame->coded_size()) == frame->visible_rect(), |
| + "Non-packed frame, or visible rect != coded size", |
| + kInvalidArgumentError); |
| + |
| + pending_frames_.push(MakeTuple(frame, force_keyframe, base::Time::Now())); |
| + DoIOTask(); |
| +} |
| + |
| +void AndroidVideoEncodeAccelerator::UseOutputBitstreamBuffer( |
| + const media::BitstreamBuffer& buffer) { |
| + DVLOG(3) << __PRETTY_FUNCTION__ << ": bitstream_buffer_id=" << buffer.id(); |
| + DCHECK(thread_checker_.CalledOnValidThread()); |
| + RETURN_ON_FAILURE(buffer.size() >= media_codec_->GetOutputBuffersCapacity(), |
| + "Output buffers too small!", |
| + kInvalidArgumentError); |
| + available_bitstream_buffers_.push_back(buffer); |
| + DoIOTask(); |
| +} |
| + |
| +void AndroidVideoEncodeAccelerator::RequestEncodingParametersChange( |
| + uint32 bitrate, |
| + uint32 framerate) { |
| + DVLOG(3) << __PRETTY_FUNCTION__ << ": bitrate: " << bitrate |
| + << ", framerate: " << framerate; |
| + DCHECK(thread_checker_.CalledOnValidThread()); |
| + if (bitrate != last_set_bitrate_) { |
| + last_set_bitrate_ = bitrate; |
| + media_codec_->SetVideoBitrate(bitrate); |
| + } |
| + // Note: Android's MediaCodec doesn't allow mid-stream adjustments to |
| + // framerate, so we ignore that here. This is OK because Android only uses |
| + // the framerate value from MediaFormat during configure() as a proxy for |
| + // bitrate, and we set that explicitly. |
| +} |
| + |
| +void AndroidVideoEncodeAccelerator::Destroy() { |
| + DVLOG(3) << __PRETTY_FUNCTION__; |
| + DCHECK(thread_checker_.CalledOnValidThread()); |
| + client_ptr_factory_.InvalidateWeakPtrs(); |
| + if (media_codec_) { |
| + if (io_timer_.IsRunning()) |
| + io_timer_.Stop(); |
| + media_codec_->Stop(); |
| + } |
| + delete this; |
| +} |
| + |
| +void AndroidVideoEncodeAccelerator::DoIOTask() { |
| + QueueInput(); |
| + DequeueOutput(); |
| + MaybeStartIOTimer(); |
| + MaybeStopIOTimer(); |
| +} |
| + |
| +void AndroidVideoEncodeAccelerator::QueueInput() { |
| + if (!client_ptr_factory_.GetWeakPtr() || pending_frames_.empty()) |
| + return; |
| + |
| + int input_buf_index = 0; |
| + media::MediaCodecStatus status = |
| + media_codec_->DequeueInputBuffer(NoWaitTimeOut(), &input_buf_index); |
| + if (status != media::MEDIA_CODEC_OK) { |
| + DCHECK(status == media::MEDIA_CODEC_DEQUEUE_INPUT_AGAIN_LATER || |
| + status == media::MEDIA_CODEC_ERROR); |
| + RETURN_ON_FAILURE(status != media::MEDIA_CODEC_ERROR, |
| + "MediaCodec error", |
| + kPlatformFailureError); |
| + return; |
| + } |
| + |
| + const PendingFrames::value_type& input = pending_frames_.front(); |
| + bool is_key_frame = input.b; |
| + if (is_key_frame) { |
| + // Ideally MediaCodec would honor BUFFER_FLAG_SYNC_FRAME so we could |
| + // indicate this in the QueueInputBuffer() call below and guarantee _this_ |
| + // frame be encoded as a key frame, but sadly that flag is ignored. |
| + // Instead, we request a key frame "soon". |
| + media_codec_->RequestKeyFrameSoon(); |
| + } |
| + scoped_refptr<VideoFrame> frame = input.a; |
| + |
| + uint8* buffer = NULL; |
| + size_t capacity = 0; |
| + media_codec_->GetInputBuffer(input_buf_index, &buffer, &capacity); |
| + |
| + size_t queued_size = |
| + VideoFrame::AllocationSize(VideoFrame::I420, frame->coded_size()); |
| + RETURN_ON_FAILURE(capacity >= queued_size, |
| + "Failed to get input buffer: " << input_buf_index, |
| + kPlatformFailureError); |
| + |
| + uint8* dst_y = buffer; |
| + int dst_stride_y = frame->stride(VideoFrame::kYPlane); |
| + uint8* dst_uv = buffer + frame->stride(VideoFrame::kYPlane) * |
| + frame->rows(VideoFrame::kYPlane); |
|
fbarchard
2013/12/03 04:51:09
indent of line 291 looks wrong -> should be 4.
Ami GONE FROM CHROMIUM
2013/12/03 06:46:20
I obey clang-format and this is what it does.
|
| + int dst_stride_uv = frame->stride(VideoFrame::kUPlane) * 2; |
| + // Why NV12? Because COLOR_FORMAT_YUV420_SEMIPLANAR. See comment at other |
| + // mention of that constant. |
| + bool converted = !libyuv::I420ToNV12(frame->data(VideoFrame::kYPlane), |
| + frame->stride(VideoFrame::kYPlane), |
| + frame->data(VideoFrame::kUPlane), |
| + frame->stride(VideoFrame::kUPlane), |
| + frame->data(VideoFrame::kVPlane), |
| + frame->stride(VideoFrame::kVPlane), |
| + dst_y, |
| + dst_stride_y, |
| + dst_uv, |
| + dst_stride_uv, |
| + frame->coded_size().width(), |
| + frame->coded_size().height()); |
| + RETURN_ON_FAILURE(converted, "Failed to I420ToNV12!", kPlatformFailureError); |
| + |
| + fake_input_timestamp_ += base::TimeDelta::FromMicroseconds(1); |
| + status = media_codec_->QueueInputBuffer( |
| + input_buf_index, NULL, queued_size, fake_input_timestamp_); |
| + UMA_HISTOGRAM_TIMES("Media.AVEA.InputQueueTime", base::Time::Now() - input.c); |
| + RETURN_ON_FAILURE(status == media::MEDIA_CODEC_OK, |
| + "Failed to QueueInputBuffer: " << status, |
| + kPlatformFailureError); |
| + ++num_buffers_at_codec_; |
| + pending_frames_.pop(); |
| +} |
| + |
| +bool AndroidVideoEncodeAccelerator::DoOutputBuffersSuffice() { |
| + // If this returns false ever, then the VEA::Client interface will need to |
| + // grow a DismissBitstreamBuffer() call, and VEA::Client impls will have to be |
| + // prepared to field multiple requests to RequireBitstreamBuffers(). |
| + int count = media_codec_->GetOutputBuffersCount(); |
| + size_t capacity = media_codec_->GetOutputBuffersCapacity(); |
| + bool ret = media_codec_->GetOutputBuffers() && count <= num_output_buffers_ && |
| + capacity <= output_buffers_capacity_; |
| + LOG_IF(ERROR, !ret) << "Need more/bigger buffers; before: " |
| + << num_output_buffers_ << "x" << output_buffers_capacity_ |
| + << ", now: " << count << "x" << capacity; |
| + UMA_HISTOGRAM_BOOLEAN("Media.AVEA.OutputBuffersSuffice", ret); |
| + return ret; |
| +} |
| + |
| +void AndroidVideoEncodeAccelerator::DequeueOutput() { |
| + if (!client_ptr_factory_.GetWeakPtr() || |
| + available_bitstream_buffers_.empty() || num_buffers_at_codec_ == 0) { |
| + return; |
| + } |
| + |
| + int32 buf_index = 0; |
| + size_t offset = 0; |
| + size_t size = 0; |
| + bool key_frame = false; |
| + do { |
| + media::MediaCodecStatus status = media_codec_->DequeueOutputBuffer( |
| + NoWaitTimeOut(), &buf_index, &offset, &size, NULL, NULL, &key_frame); |
| + switch (status) { |
| + case media::MEDIA_CODEC_DEQUEUE_OUTPUT_AGAIN_LATER: |
| + return; |
| + |
| + case media::MEDIA_CODEC_ERROR: |
| + RETURN_ON_FAILURE(false, "Codec error", kPlatformFailureError); |
| + // Unreachable because of previous statement, but included for clarity. |
| + return; |
| + |
| + case media::MEDIA_CODEC_OUTPUT_FORMAT_CHANGED: // Fall-through. |
| + case media::MEDIA_CODEC_OUTPUT_BUFFERS_CHANGED: |
| + RETURN_ON_FAILURE(DoOutputBuffersSuffice(), |
| + "Bitstream now requires more/larger buffers", |
| + kPlatformFailureError); |
| + break; |
| + |
| + case media::MEDIA_CODEC_OK: |
| + DCHECK_GE(buf_index, 0); |
| + break; |
| + |
| + default: |
| + NOTREACHED(); |
| + break; |
| + } |
| + } while (buf_index < 0); |
| + |
| + media::BitstreamBuffer bitstream_buffer = available_bitstream_buffers_.back(); |
| + available_bitstream_buffers_.pop_back(); |
| + scoped_ptr<base::SharedMemory> shm( |
| + new base::SharedMemory(bitstream_buffer.handle(), false)); |
| + RETURN_ON_FAILURE(shm->Map(bitstream_buffer.size()), |
| + "Failed to map SHM", |
| + kPlatformFailureError); |
| + RETURN_ON_FAILURE(size <= shm->mapped_size(), |
| + "Encoded buffer too large: " << size << ">" |
| + << shm->mapped_size(), |
| + kPlatformFailureError); |
| + |
| + media_codec_->CopyFromOutputBuffer(buf_index, offset, shm->memory(), size); |
| + media_codec_->ReleaseOutputBuffer(buf_index, false); |
| + --num_buffers_at_codec_; |
| + |
| + UMA_HISTOGRAM_COUNTS_10000("Media.AVEA.EncodedBufferSizeKB", size / 1024); |
| + base::MessageLoop::current()->PostTask( |
| + FROM_HERE, |
| + base::Bind(&VideoEncodeAccelerator::Client::BitstreamBufferReady, |
| + client_ptr_factory_.GetWeakPtr(), |
| + bitstream_buffer.id(), |
| + size, |
| + key_frame)); |
| +} |
| + |
| +} // namespace content |
