content/renderer/media/rtc_video_decoder.cc - Issue 13890012: Integrate VDA with WebRTC.

Unified Diff: content/renderer/media/rtc_video_decoder.cc

Issue 13890012: Integrate VDA with WebRTC. (Closed) Base URL: https://chromium.googlesource.com/chromium/src.git@master

Patch Set: address review comments and fix a crash after hang up Created 7 years, 6 months ago

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Index: content/renderer/media/rtc_video_decoder.cc

diff --git a/content/renderer/media/rtc_video_decoder.cc b/content/renderer/media/rtc_video_decoder.cc

new file mode 100644

index 0000000000000000000000000000000000000000..ed46e63b24b877de753972d494f49c6435ac9db9

--- /dev/null

+++ b/content/renderer/media/rtc_video_decoder.cc

@@ -0,0 +1,633 @@

+// Use of this source code is governed by a BSD-style license that can be

+// found in the LICENSE file.

+#include "content/renderer/media/rtc_video_decoder.h"

+#include "base/bind.h"

+#include "base/logging.h"

+#include "base/memory/ref_counted.h"

+#include "base/message_loop_proxy.h"

+#include "base/safe_numerics.h"

+#include "base/task_runner_util.h"

+#include "content/renderer/media/native_handle_impl.h"

+#include "media/base/bind_to_loop.h"

+#include "third_party/webrtc/system_wrappers/interface/ref_count.h"

+namespace content {

+// A shared memory segment and its allocated size. |shm| is unowned and the

+// users should delete it.

+struct RTCVideoDecoder::SHMBuffer {

+ SHMBuffer(base::SharedMemory* shm, size_t size);

+ ~SHMBuffer();

+ base::SharedMemory* const shm;

+ const size_t size;

+};

+RTCVideoDecoder::SHMBuffer::SHMBuffer(base::SharedMemory* shm, size_t size)

+ : shm(shm), size(size) {}

+RTCVideoDecoder::SHMBuffer::~SHMBuffer() {}

+// Metadata of a bitstream buffer.

+struct RTCVideoDecoder::BufferData {

+ BufferData(int32 bitstream_buffer_id,

+ uint32_t timestamp,

+ int width,

+ int height,

+ size_t sisze);

+ ~BufferData();

+ int32 bitstream_buffer_id;

+ uint32_t timestamp; // in 90KHz

+ uint32_t width;

+ uint32_t height;

+ size_t size; // buffer size

+};

+RTCVideoDecoder::BufferData::BufferData(int32 bitstream_buffer_id,

+ uint32_t timestamp,

+ int width,

+ int height,

+ size_t size)

+ : bitstream_buffer_id(bitstream_buffer_id),

+ timestamp(timestamp),

+ width(width),

+ height(height),

+ size(size) {}

+RTCVideoDecoder::BufferData::~BufferData() {}

+RTCVideoDecoder::RTCVideoDecoder(

+ const scoped_refptr<media::GpuVideoDecoder::Factories>& factories)

+ : state_(UNINITIALIZED),

+ decode_complete_callback_(NULL),

+ weak_factory_(this),

+ factories_(factories),

+ vda_loop_proxy_(factories_->GetMessageLoop()),

+ decoder_texture_target_(0),

+ next_picture_buffer_id_(0),

+ next_bitstream_buffer_id_(0) {

+ // Initialize directly if |vda_loop_proxy_| is the renderer thread.

+ base::WaitableEvent compositor_loop_async_waiter(false, false);

+ if (vda_loop_proxy_->BelongsToCurrentThread()) {

+ Initialize(&compositor_loop_async_waiter);

+ return;

+ }

+ // Post the task if |vda_loop_proxy_| is the compositor thread. Waiting here

+ // is safe because the compositor thread will not be stopped until the

+ // renderer thread shuts down.

+ vda_loop_proxy_->PostTask(FROM_HERE,

+ base::Bind(&RTCVideoDecoder::Initialize,

+ base::Unretained(this),

+ &compositor_loop_async_waiter));

+ compositor_loop_async_waiter.Wait();

+RTCVideoDecoder::~RTCVideoDecoder() {

+ DVLOG(2) << "~RTCVideoDecoder";

+ // Delete vda and remove |this| from the observer if vda thread is alive.

+ if (vda_loop_proxy_->BelongsToCurrentThread()) {

+ base::MessageLoop::current()->RemoveDestructionObserver(this);

+ DestroyVDA();

+ } else {

+ // VDA should have been destroyed in WillDestroyCurrentMessageLoop.

+ DCHECK(!vda_);

+ }

+ // Delete all shared memories.

+ for (size_t i = 0; i < available_shm_segments_.size(); ++i) {

+ available_shm_segments_[i]->shm->Close();

+ delete available_shm_segments_[i];

+ }

+ available_shm_segments_.clear();

+ for (std::map<int32, SHMBuffer*>::iterator it =

+ bitstream_buffers_in_decoder_.begin();

+ it != bitstream_buffers_in_decoder_.end();

+ ++it) {

+ it->second->shm->Close();

+ delete it->second;

+ }

+ bitstream_buffers_in_decoder_.clear();

+ ClearBufferQueue(&buffers_to_be_decoded_);

+ ClearBufferQueue(&buffers_delayed_);

+scoped_ptr<RTCVideoDecoder> RTCVideoDecoder::Create(

+ const scoped_refptr<media::GpuVideoDecoder::Factories>& factories) {

+ scoped_ptr<RTCVideoDecoder> decoder(new RTCVideoDecoder(factories));

+ decoder->vda_.reset(factories->CreateVideoDecodeAccelerator(

+ media::VP8PROFILE_MAIN, decoder.get()));

+ // vda can be NULL if VP8 is not supported.

+ if (decoder->vda_ != NULL) {

+ decoder->state_ = INITIALIZED;

+ } else {

+ factories->GetMessageLoop()->DeleteSoon(FROM_HERE, decoder.release());

+ }

+ return decoder.Pass();

+int32_t RTCVideoDecoder::InitDecode(const webrtc::VideoCodec* codecSettings,

+ int32_t /*numberOfCores*/) {

+ DVLOG(2) << "InitDecode";

+ DCHECK_EQ(codecSettings->codecType, webrtc::kVideoCodecVP8);

+ if (codecSettings->codecSpecific.VP8.feedbackModeOn) {

+ LOG(ERROR) << "Feedback mode not supported";

+ return WEBRTC_VIDEO_CODEC_ERROR;

+ }

+ base::AutoLock auto_lock(lock_);

+ if (state_ == UNINITIALIZED || state_ == DECODE_ERROR) {

+ LOG(ERROR) << "VDA is not initialized. state=" << state_;

+ return WEBRTC_VIDEO_CODEC_UNINITIALIZED;

+ }

+ return WEBRTC_VIDEO_CODEC_OK;

+int32_t RTCVideoDecoder::Decode(

+ const webrtc::EncodedImage& inputImage,

+ bool missingFrames,

+ const webrtc::RTPFragmentationHeader* /*fragmentation*/,

+ const webrtc::CodecSpecificInfo* /*codecSpecificInfo*/,

+ int64_t /*renderTimeMs*/) {

+ DVLOG(3) << "Decode";

+ {

+ base::AutoLock auto_lock(lock_);

+ if (state_ == UNINITIALIZED || decode_complete_callback_ == NULL) {

+ LOG(ERROR) << "The decoder has not initialized.";

+ return WEBRTC_VIDEO_CODEC_UNINITIALIZED;

+ }

+ if (state_ == DECODE_ERROR) {

+ LOG(ERROR) << "Decoding error occurred.";

+ return WEBRTC_VIDEO_CODEC_ERROR;

+ }

+ if (missingFrames || !inputImage._completeFrame) {

+ DLOG(ERROR) << "Missing or incomplete frames.";

+ // Unlike the SW decoder in libvpx, hw decoder cannot handle broken frames.

+ // Return an error to request a key frame.

+ return WEBRTC_VIDEO_CODEC_ERROR;

+ }

+ if (inputImage._frameType == webrtc::kKeyFrame)

+ frame_size_.SetSize(inputImage._encodedWidth, inputImage._encodedHeight);

+ // Copy WebRTC buffer to SHM buffer and create buffer metadata.

+ SHMBuffer* shm_buffer = GetSHM(inputImage._length);

+ if (!shm_buffer)

+ return WEBRTC_VIDEO_CODEC_ERROR;

+ memcpy(shm_buffer->shm->memory(), inputImage._buffer, inputImage._length);

+ BufferData buffer_data(next_bitstream_buffer_id_,

+ inputImage._timeStamp,

+ frame_size_.width(),

+ frame_size_.height(),

+ inputImage._length);

+ // Mask against 30 bits, to avoid (undefined) wraparound on signed integer.

+ next_bitstream_buffer_id_ = (next_bitstream_buffer_id_ + 1) & 0x3FFFFFFF;

+ std::pair<SHMBuffer*, BufferData> buffer_pair =

+ std::make_pair(shm_buffer, buffer_data);

+ // Store the buffer and the metadata to the queue.

+ base::AutoLock auto_lock(lock_);

+ if (state_ == RESETTING) {

+ // If VDA is resetting, save the buffer but do not request decode.

+ buffers_delayed_.push_back(buffer_pair);

+ } else {

+ buffers_to_be_decoded_.push_back(buffer_pair);

+ vda_loop_proxy_->PostTask(

+ FROM_HERE,

+ base::Bind(&RTCVideoDecoder::RequestBufferDecode, weak_this_));

+ }

+ return WEBRTC_VIDEO_CODEC_OK;

+int32_t RTCVideoDecoder::RegisterDecodeCompleteCallback(

+ webrtc::DecodedImageCallback* callback) {

+ DVLOG(2) << "RegisterDecodeCompleteCallback";

+ base::AutoLock auto_lock(lock_);

+ decode_complete_callback_ = callback;

+ return WEBRTC_VIDEO_CODEC_OK;

+int32_t RTCVideoDecoder::Release() {

+ DVLOG(2) << "Release";

+ // Do not destroy VDA because the decoder will be recycled by

+ // RTCVideoDecoderFactory. Just reset VDA.

+ return Reset();

+int32_t RTCVideoDecoder::Reset() {

+ DVLOG(2) << "Reset";

+ base::AutoLock auto_lock(lock_);

+ if (state_ == UNINITIALIZED) {

+ LOG(ERROR) << "Decoder not initialized.";

+ return WEBRTC_VIDEO_CODEC_UNINITIALIZED;

+ } else if (state_ == RESETTING) {

+ // If VDA is already resetting, empty the pending buffer queue. No need to

+ // request the reset again.

+ buffers_to_be_decoded_.insert(buffers_to_be_decoded_.end(),

+ buffers_delayed_.begin(),

+ buffers_delayed_.end());

+ buffers_delayed_.clear();

+ } else {

+ state_ = RESETTING;

+ vda_loop_proxy_->PostTask(

+ FROM_HERE, base::Bind(&RTCVideoDecoder::ResetInternal, weak_this_));

+ }

+ return WEBRTC_VIDEO_CODEC_OK;

+void RTCVideoDecoder::NotifyInitializeDone() {

+ DVLOG(2) << "NotifyInitializeDone";

+ NOTREACHED();

+void RTCVideoDecoder::ProvidePictureBuffers(uint32 count,

+ const gfx::Size& size,

+ uint32 texture_target) {

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ DVLOG(3) << "ProvidePictureBuffers. texture_target=" << texture_target;

+ if (!vda_)

+ return;

+ std::vector<uint32> texture_ids;

+ decoder_texture_target_ = texture_target;

+ if (!factories_->CreateTextures(

+ count, size, &texture_ids, decoder_texture_target_)) {

+ NotifyError(media::VideoDecodeAccelerator::PLATFORM_FAILURE);

+ return;

+ }

+ DCHECK_EQ(count, texture_ids.size());

+ std::vector<media::PictureBuffer> picture_buffers;

+ for (size_t i = 0; i < texture_ids.size(); ++i) {

+ picture_buffers.push_back(

+ media::PictureBuffer(next_picture_buffer_id_++, size, texture_ids[i]));

+ bool inserted = assigned_picture_buffers_.insert(std::make_pair(

+ picture_buffers.back().id(), picture_buffers.back())).second;

+ DCHECK(inserted);

+ }

+ vda_->AssignPictureBuffers(picture_buffers);

+void RTCVideoDecoder::DismissPictureBuffer(int32 id) {

+ DVLOG(3) << "DismissPictureBuffer. id=" << id;

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ std::map<int32, media::PictureBuffer>::iterator it =

+ assigned_picture_buffers_.find(id);

+ if (it == assigned_picture_buffers_.end()) {

+ NOTREACHED() << "Missing picture buffer: " << id;

+ return;

+ }

+ media::PictureBuffer buffer_to_dismiss = it->second;

+ assigned_picture_buffers_.erase(it);

+ std::set<int32>::iterator at_display_it =

+ picture_buffers_at_display_.find(id);

+ if (at_display_it == picture_buffers_at_display_.end()) {

+ // We can delete the texture immediately as it's not being displayed.

+ factories_->DeleteTexture(buffer_to_dismiss.texture_id());

+ } else {

+ // Texture in display. Postpone deletion until after it's returned to us.

+ bool inserted = dismissed_picture_buffers_

+ .insert(std::make_pair(id, buffer_to_dismiss)).second;

+ DCHECK(inserted);

+ }

+void RTCVideoDecoder::PictureReady(const media::Picture& picture) {

+ DVLOG(3) << "PictureReady";

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ std::map<int32, media::PictureBuffer>::iterator it =

+ assigned_picture_buffers_.find(picture.picture_buffer_id());

+ if (it == assigned_picture_buffers_.end()) {

+ NOTREACHED() << "Missing picture buffer: " << picture.picture_buffer_id();

+ NotifyError(media::VideoDecodeAccelerator::PLATFORM_FAILURE);

+ return;

+ }

+ const media::PictureBuffer& pb = it->second;

+ // Create a media::VideoFrame.

+ uint32_t timestamp = 0, width = 0, height = 0;

+ size_t size = 0;

+ GetBufferData(

+ picture.bitstream_buffer_id(), &timestamp, &width, &height, &size);

+ scoped_refptr<media::VideoFrame> frame =

+ CreateVideoFrame(picture, pb, timestamp, width, height, size);

+ bool inserted =

+ picture_buffers_at_display_.insert(picture.picture_buffer_id()).second;

+ DCHECK(inserted);

+ {

+ // WebRTC expects no frame callback after Release. Drop the frame if VDA is

+ // resetting.

+ base::AutoLock auto_lock(lock_);

+ if (state_ == RESETTING)

+ return;

wuchengli 2013/06/20 07:27:04 This fixes a occasional crash during hang up.

+ }

+ // Create a webrtc::I420VideoFrame.

+ webrtc::I420VideoFrame decoded_image;

+ // TODO(wuchengli): remove the malloc.

+ decoded_image.CreateEmptyFrame(width, height, width, height / 2, width / 2);

+ webrtc::RefCountImpl<NativeHandleImpl>* handle =

+ new webrtc::RefCountImpl<NativeHandleImpl>();

+ handle->SetHandle(frame.get());

+ decoded_image.set_native_handle(handle);

+ decoded_image.set_timestamp(timestamp);

+ // Send to decode callback.

+ webrtc::DecodedImageCallback* callback;

+ {

+ base::AutoLock auto_lock(lock_);

+ callback = decode_complete_callback_;

+ }

+ DCHECK(callback != NULL);

+ callback->Decoded(decoded_image);

+scoped_refptr<media::VideoFrame> RTCVideoDecoder::CreateVideoFrame(

+ const media::Picture& picture,

+ const media::PictureBuffer& pb,

+ uint32_t timestamp,

+ uint32_t width,

+ uint32_t height,

+ size_t size) {

+ gfx::Rect visible_rect(width, height);

+ gfx::Size natural_size(width, height);

+ DCHECK(decoder_texture_target_);

+ // Convert timestamp from 90KHz to ms.

+ base::TimeDelta timestamp_ms = base::TimeDelta::FromInternalValue(

+ base::checked_numeric_cast<uint64_t>(timestamp) * 1000 / 90);

+ return media::VideoFrame::WrapNativeTexture(

+ pb.texture_id(),

+ decoder_texture_target_,

+ pb.size(),

+ visible_rect,

+ natural_size,

+ timestamp_ms,

+ base::Bind(&media::GpuVideoDecoder::Factories::ReadPixels,

+ factories_,

+ pb.texture_id(),

+ decoder_texture_target_,

+ natural_size),

+ media::BindToCurrentLoop(base::Bind(&RTCVideoDecoder::ReusePictureBuffer,

+ weak_this_,

+ picture.picture_buffer_id())));

+void RTCVideoDecoder::NotifyEndOfBitstreamBuffer(int32 id) {

+ DVLOG(3) << "NotifyEndOfBitstreamBuffer. id=" << id;

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ std::map<int32, SHMBuffer*>::iterator it =

+ bitstream_buffers_in_decoder_.find(id);

+ if (it == bitstream_buffers_in_decoder_.end()) {

+ NotifyError(media::VideoDecodeAccelerator::PLATFORM_FAILURE);

+ NOTREACHED() << "Missing bitstream buffer: " << id;

+ return;

+ }

+ PutSHM(it->second);

+ bitstream_buffers_in_decoder_.erase(it);

+ RequestBufferDecode();

+void RTCVideoDecoder::NotifyFlushDone() {

+ DVLOG(3) << "NotifyFlushDone";

+ NOTREACHED() << "Unexpected flush done notification.";

+void RTCVideoDecoder::NotifyResetDone() {

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ DVLOG(3) << "NotifyResetDone";

+ if (!vda_)

+ return;

+ input_buffer_data_.clear();

+ int num_buffers = 0;

+ {

+ base::AutoLock auto_lock(lock_);

+ // Clear and recycle the old buffers.

+ for (std::deque<std::pair<SHMBuffer*, BufferData> >::const_iterator it =

+ buffers_to_be_decoded_.begin();

+ it != buffers_to_be_decoded_.end();

+ it++) {

+ PutSHM(it->first);

+ }

+ buffers_to_be_decoded_.clear();

+ std::swap(buffers_to_be_decoded_, buffers_delayed_);

+ num_buffers = buffers_to_be_decoded_.size();

+ state_ = INITIALIZED;

+ }

+ // Send the pending buffers for decoding.

+ for (int i = 0; i < num_buffers; i++)

+ RequestBufferDecode();

+void RTCVideoDecoder::NotifyError(media::VideoDecodeAccelerator::Error error) {

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ if (!vda_)

+ return;

+ DLOG(ERROR) << "VDA Error:" << error;

+ DestroyVDA();

+ base::AutoLock auto_lock(lock_);

+ state_ = DECODE_ERROR;

+void RTCVideoDecoder::WillDestroyCurrentMessageLoop() {

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ factories_->Abort();

+ weak_factory_.InvalidateWeakPtrs();

+ DestroyVDA();

+void RTCVideoDecoder::Initialize(base::WaitableEvent* waiter) {

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ base::MessageLoop::current()->AddDestructionObserver(this);

+ weak_this_ = weak_factory_.GetWeakPtr();

+ waiter->Signal();

+void RTCVideoDecoder::RequestBufferDecode() {

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ if (!CanMoreDecodeWorkBeDone() || !vda_)

+ return;

+ // Get a buffer and data from the queue.

+ std::pair<SHMBuffer*, BufferData>* buffer_pair;

+ {

+ base::AutoLock auto_lock(lock_);

+ if (buffers_to_be_decoded_.size() == 0 || state_ == RESETTING)

+ return;

+ buffer_pair = &buffers_to_be_decoded_.front();

+ buffers_to_be_decoded_.pop_front();

+ }

+ SHMBuffer* shm_buffer = buffer_pair->first;

+ BufferData buffer_data = buffer_pair->second;

+ // Create a BitstreamBuffer and send to VDA to decode.

+ media::BitstreamBuffer bitstream_buffer(buffer_data.bitstream_buffer_id,

+ shm_buffer->shm->handle(),

+ buffer_data.size);

+ bool inserted = bitstream_buffers_in_decoder_

+ .insert(std::make_pair(bitstream_buffer.id(), shm_buffer)).second;

+ DCHECK(inserted);

+ RecordBufferData(buffer_data);

+ vda_->Decode(bitstream_buffer);

+// Maximum number of concurrent VDA::Decode() operations RVD will maintain.

+// Higher values allow better pipelining in the GPU, but also require more

+// resources.

+enum {

+ kMaxInFlightDecodes = 8

+};

+bool RTCVideoDecoder::CanMoreDecodeWorkBeDone() {

+ return bitstream_buffers_in_decoder_.size() < kMaxInFlightDecodes;

+void RTCVideoDecoder::ResetInternal() {

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ DVLOG(2) << "ResetInternal";

+ if (vda_)

+ vda_->Reset();

+void RTCVideoDecoder::ReusePictureBuffer(int64 picture_buffer_id) {

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ DVLOG(3) << "ReusePictureBuffer. id=" << picture_buffer_id;

+ if (!vda_)

+ return;

+ CHECK(!picture_buffers_at_display_.empty());

+ size_t num_erased = picture_buffers_at_display_.erase(picture_buffer_id);

+ DCHECK(num_erased);

+ std::map<int32, media::PictureBuffer>::iterator it =

+ assigned_picture_buffers_.find(picture_buffer_id);

+ if (it == assigned_picture_buffers_.end()) {

+ // This picture was dismissed while in display, so we postponed deletion.

+ it = dismissed_picture_buffers_.find(picture_buffer_id);

+ DCHECK(it != dismissed_picture_buffers_.end());

+ factories_->DeleteTexture(it->second.texture_id());

+ dismissed_picture_buffers_.erase(it);

+ return;

+ }

+ vda_->ReusePictureBuffer(picture_buffer_id);

+void RTCVideoDecoder::DestroyTextures() {

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ std::map<int32, media::PictureBuffer>::iterator it;

+ for (it = assigned_picture_buffers_.begin();

+ it != assigned_picture_buffers_.end();

+ ++it) {

+ factories_->DeleteTexture(it->second.texture_id());

+ }

+ assigned_picture_buffers_.clear();

+ for (it = dismissed_picture_buffers_.begin();

+ it != dismissed_picture_buffers_.end();

+ ++it) {

+ factories_->DeleteTexture(it->second.texture_id());

+ }

+ dismissed_picture_buffers_.clear();

+void RTCVideoDecoder::DestroyVDA() {

+ DVLOG(2) << "DestroyVDA";

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ if (vda_)

+ vda_.release()->Destroy();

+ DestroyTextures();

+void RTCVideoDecoder::ClearBufferQueue(

+ std::deque<std::pair<SHMBuffer*, BufferData> >* queue) {

+ for (std::deque<std::pair<SHMBuffer*, BufferData> >::iterator it =

+ queue->begin();

+ it != queue->end();

+ ++it) {

+ it->first->shm->Close();

+ delete it->first;

+ }

+ queue->clear();

+// Size of shared-memory segments we allocate. Since we reuse them we let them

+// be on the beefy side.

+static const size_t kSharedMemorySegmentBytes = 100 << 10;

+RTCVideoDecoder::SHMBuffer* RTCVideoDecoder::GetSHM(size_t min_size) {

+ {

+ // Reuse a SHM if possible.

+ base::AutoLock auto_lock(lock_);

+ if (!available_shm_segments_.empty() &&

+ available_shm_segments_.back()->size >= min_size) {

+ SHMBuffer* ret = available_shm_segments_.back();

+ available_shm_segments_.pop_back();

+ return ret;

+ }

+ // Create a new shared memory. This is done in main thread.

+ size_t size_to_allocate = std::max(min_size, kSharedMemorySegmentBytes);

+ base::SharedMemory* shm = factories_->CreateSharedMemory(size_to_allocate);

+ if (!shm)

+ return NULL;

+ return new SHMBuffer(shm, size_to_allocate);

+void RTCVideoDecoder::PutSHM(SHMBuffer* shm_buffer) {

+ DCHECK(vda_loop_proxy_->BelongsToCurrentThread());

+ base::AutoLock auto_lock(lock_);

+ available_shm_segments_.push_back(shm_buffer);

+void RTCVideoDecoder::RecordBufferData(const BufferData& buffer_data) {

+ input_buffer_data_.push_front(buffer_data);

+ // Why this value? Because why not. avformat.h:MAX_REORDER_DELAY is 16, but

+ // that's too small for some pathological B-frame test videos. The cost of

+ // using too-high a value is low (192 bits per extra slot).

+ static const size_t kMaxInputBufferDataSize = 128;

+ // Pop from the back of the list, because that's the oldest and least likely

+ // to be useful in the future data.

+ if (input_buffer_data_.size() > kMaxInputBufferDataSize)

+ input_buffer_data_.pop_back();

+void RTCVideoDecoder::GetBufferData(int32 bitstream_buffer_id,

+ uint32_t* timestamp,

+ uint32_t* width,

+ uint32_t* height,

+ size_t* size) {

+ for (std::list<BufferData>::iterator it = input_buffer_data_.begin();

+ it != input_buffer_data_.end();

+ ++it) {

+ if (it->bitstream_buffer_id != bitstream_buffer_id)

+ continue;

+ *timestamp = it->timestamp;

+ *width = it->width;

+ *height = it->height;

+ return;

+ }

+ NOTREACHED() << "Missing bitstream buffer id: " << bitstream_buffer_id;

+} // namespace content

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