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/*
* Copyright (c) 2017 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "modules/video_coding/codecs/multiplex/include/multiplex_encoder_adapter.h"
#include <cstring>
#include "api/video/encoded_image.h"
#include "api/video_codecs/video_encoder.h"
#include "common_video/include/video_frame_buffer.h"
#include "common_video/libyuv/include/webrtc_libyuv.h"
#include "modules/include/module_common_types.h"
#include "modules/video_coding/codecs/multiplex/include/augmented_video_frame_buffer.h"
#include "rtc_base/keep_ref_until_done.h"
#include "rtc_base/logging.h"
namespace webrtc {
// Callback wrapper that helps distinguish returned results from |encoders_|
// instances.
class MultiplexEncoderAdapter::AdapterEncodedImageCallback
: public webrtc::EncodedImageCallback {
public:
AdapterEncodedImageCallback(webrtc::MultiplexEncoderAdapter* adapter,
AlphaCodecStream stream_idx)
: adapter_(adapter), stream_idx_(stream_idx) {}
EncodedImageCallback::Result OnEncodedImage(
const EncodedImage& encoded_image,
const CodecSpecificInfo* codec_specific_info,
const RTPFragmentationHeader* fragmentation) override {
if (!adapter_)
return Result(Result::OK);
return adapter_->OnEncodedImage(stream_idx_, encoded_image,
codec_specific_info, fragmentation);
}
private:
MultiplexEncoderAdapter* adapter_;
const AlphaCodecStream stream_idx_;
};
MultiplexEncoderAdapter::MultiplexEncoderAdapter(
VideoEncoderFactory* factory,
const SdpVideoFormat& associated_format,
bool supports_augmented_data)
: factory_(factory),
associated_format_(associated_format),
encoded_complete_callback_(nullptr),
key_frame_interval_(0),
supports_augmented_data_(supports_augmented_data) {}
MultiplexEncoderAdapter::~MultiplexEncoderAdapter() {
Release();
}
int MultiplexEncoderAdapter::InitEncode(
const VideoCodec* inst,
const VideoEncoder::Settings& settings) {
const size_t buffer_size =
CalcBufferSize(VideoType::kI420, inst->width, inst->height);
multiplex_dummy_planes_.resize(buffer_size);
// It is more expensive to encode 0x00, so use 0x80 instead.
std::fill(multiplex_dummy_planes_.begin(), multiplex_dummy_planes_.end(),
0x80);
RTC_DCHECK_EQ(kVideoCodecMultiplex, inst->codecType);
VideoCodec video_codec = *inst;
video_codec.codecType = PayloadStringToCodecType(associated_format_.name);
// Take over the key frame interval at adapter level, because we have to
// sync the key frames for both sub-encoders.
switch (video_codec.codecType) {
case kVideoCodecVP8:
key_frame_interval_ = video_codec.VP8()->keyFrameInterval;
video_codec.VP8()->keyFrameInterval = 0;
break;
case kVideoCodecVP9:
key_frame_interval_ = video_codec.VP9()->keyFrameInterval;
video_codec.VP9()->keyFrameInterval = 0;
break;
case kVideoCodecH264:
key_frame_interval_ = video_codec.H264()->keyFrameInterval;
video_codec.H264()->keyFrameInterval = 0;
break;
default:
break;
}
encoder_info_ = EncoderInfo();
encoder_info_.implementation_name = "MultiplexEncoderAdapter (";
// This needs to be false so that we can do the split in Encode().
encoder_info_.supports_native_handle = false;
for (size_t i = 0; i < kAlphaCodecStreams; ++i) {
std::unique_ptr<VideoEncoder> encoder =
factory_->CreateVideoEncoder(associated_format_);
const int rv = encoder->InitEncode(&video_codec, settings);
if (rv) {
RTC_LOG(LS_ERROR) << "Failed to create multiplex codec index " << i;
return rv;
}
adapter_callbacks_.emplace_back(new AdapterEncodedImageCallback(
this, static_cast<AlphaCodecStream>(i)));
encoder->RegisterEncodeCompleteCallback(adapter_callbacks_.back().get());
const EncoderInfo& encoder_impl_info = encoder->GetEncoderInfo();
encoder_info_.implementation_name += encoder_impl_info.implementation_name;
if (i != kAlphaCodecStreams - 1) {
encoder_info_.implementation_name += ", ";
}
// Uses hardware support if any of the encoders uses it.
// For example, if we are having issues with down-scaling due to
// pipelining delay in HW encoders we need higher encoder usage
// thresholds in CPU adaptation.
if (i == 0) {
encoder_info_.is_hardware_accelerated =
encoder_impl_info.is_hardware_accelerated;
} else {
encoder_info_.is_hardware_accelerated |=
encoder_impl_info.is_hardware_accelerated;
}
encoder_info_.has_internal_source = false;
encoders_.emplace_back(std::move(encoder));
}
encoder_info_.implementation_name += ")";
return WEBRTC_VIDEO_CODEC_OK;
}
int MultiplexEncoderAdapter::Encode(
const VideoFrame& input_image,
const std::vector<VideoFrameType>* frame_types) {
if (!encoded_complete_callback_) {
return WEBRTC_VIDEO_CODEC_UNINITIALIZED;
}
std::vector<VideoFrameType> adjusted_frame_types;
if (key_frame_interval_ > 0 && picture_index_ % key_frame_interval_ == 0) {
adjusted_frame_types.push_back(VideoFrameType::kVideoFrameKey);
} else {
adjusted_frame_types.push_back(VideoFrameType::kVideoFrameDelta);
}
const bool has_alpha = input_image.video_frame_buffer()->type() ==
VideoFrameBuffer::Type::kI420A;
std::unique_ptr<uint8_t[]> augmenting_data = nullptr;
uint16_t augmenting_data_length = 0;
AugmentedVideoFrameBuffer* augmented_video_frame_buffer = nullptr;
if (supports_augmented_data_) {
augmented_video_frame_buffer = static_cast<AugmentedVideoFrameBuffer*>(
input_image.video_frame_buffer().get());
augmenting_data_length =
augmented_video_frame_buffer->GetAugmentingDataSize();
augmenting_data =
std::unique_ptr<uint8_t[]>(new uint8_t[augmenting_data_length]);
memcpy(augmenting_data.get(),
augmented_video_frame_buffer->GetAugmentingData(),
augmenting_data_length);
augmenting_data_size_ = augmenting_data_length;
}
{
rtc::CritScope cs(&crit_);
stashed_images_.emplace(
std::piecewise_construct,
std::forward_as_tuple(input_image.timestamp()),
std::forward_as_tuple(
picture_index_, has_alpha ? kAlphaCodecStreams : 1,
std::move(augmenting_data), augmenting_data_length));
}
++picture_index_;
// Encode YUV
int rv = encoders_[kYUVStream]->Encode(input_image, &adjusted_frame_types);
// If we do not receive an alpha frame, we send a single frame for this
// |picture_index_|. The receiver will receive |frame_count| as 1 which
// specifies this case.
if (rv || !has_alpha)
return rv;
// Encode AXX
const I420ABufferInterface* yuva_buffer =
supports_augmented_data_
? augmented_video_frame_buffer->GetVideoFrameBuffer()->GetI420A()
: input_image.video_frame_buffer()->GetI420A();
rtc::scoped_refptr<I420BufferInterface> alpha_buffer =
WrapI420Buffer(input_image.width(), input_image.height(),
yuva_buffer->DataA(), yuva_buffer->StrideA(),
multiplex_dummy_planes_.data(), yuva_buffer->StrideU(),
multiplex_dummy_planes_.data(), yuva_buffer->StrideV(),
rtc::KeepRefUntilDone(input_image.video_frame_buffer()));
VideoFrame alpha_image = VideoFrame::Builder()
.set_video_frame_buffer(alpha_buffer)
.set_timestamp_rtp(input_image.timestamp())
.set_timestamp_ms(input_image.render_time_ms())
.set_rotation(input_image.rotation())
.set_id(input_image.id())
.build();
rv = encoders_[kAXXStream]->Encode(alpha_image, &adjusted_frame_types);
return rv;
}
int MultiplexEncoderAdapter::RegisterEncodeCompleteCallback(
EncodedImageCallback* callback) {
encoded_complete_callback_ = callback;
return WEBRTC_VIDEO_CODEC_OK;
}
void MultiplexEncoderAdapter::SetRates(
const RateControlParameters& parameters) {
VideoBitrateAllocation bitrate_allocation(parameters.bitrate);
bitrate_allocation.SetBitrate(
0, 0, parameters.bitrate.GetBitrate(0, 0) - augmenting_data_size_);
for (auto& encoder : encoders_) {
// TODO(emircan): |framerate| is used to calculate duration in encoder
// instances. We report the total frame rate to keep real time for now.
// Remove this after refactoring duration logic.
encoder->SetRates(RateControlParameters(
bitrate_allocation,
static_cast<uint32_t>(encoders_.size() * parameters.framerate_fps),
parameters.bandwidth_allocation -
DataRate::bps(augmenting_data_size_)));
}
}
int MultiplexEncoderAdapter::Release() {
for (auto& encoder : encoders_) {
const int rv = encoder->Release();
if (rv)
return rv;
}
encoders_.clear();
adapter_callbacks_.clear();
rtc::CritScope cs(&crit_);
stashed_images_.clear();
return WEBRTC_VIDEO_CODEC_OK;
}
VideoEncoder::EncoderInfo MultiplexEncoderAdapter::GetEncoderInfo() const {
return encoder_info_;
}
EncodedImageCallback::Result MultiplexEncoderAdapter::OnEncodedImage(
AlphaCodecStream stream_idx,
const EncodedImage& encodedImage,
const CodecSpecificInfo* codecSpecificInfo,
const RTPFragmentationHeader* fragmentation) {
// Save the image
MultiplexImageComponent image_component;
image_component.component_index = stream_idx;
image_component.codec_type =
PayloadStringToCodecType(associated_format_.name);
image_component.encoded_image = encodedImage;
// If we don't already own the buffer, make a copy.
image_component.encoded_image.Retain();
rtc::CritScope cs(&crit_);
const auto& stashed_image_itr =
stashed_images_.find(encodedImage.Timestamp());
const auto& stashed_image_next_itr = std::next(stashed_image_itr, 1);
RTC_DCHECK(stashed_image_itr != stashed_images_.end());
MultiplexImage& stashed_image = stashed_image_itr->second;
const uint8_t frame_count = stashed_image.component_count;
stashed_image.image_components.push_back(image_component);
if (stashed_image.image_components.size() == frame_count) {
// Complete case
for (auto iter = stashed_images_.begin();
iter != stashed_images_.end() && iter != stashed_image_next_itr;
iter++) {
// No image at all, skip.
if (iter->second.image_components.size() == 0)
continue;
// We have to send out those stashed frames, otherwise the delta frame
// dependency chain is broken.
combined_image_ =
MultiplexEncodedImagePacker::PackAndRelease(iter->second);
CodecSpecificInfo codec_info = *codecSpecificInfo;
codec_info.codecType = kVideoCodecMultiplex;
encoded_complete_callback_->OnEncodedImage(combined_image_, &codec_info,
fragmentation);
}
stashed_images_.erase(stashed_images_.begin(), stashed_image_next_itr);
}
return EncodedImageCallback::Result(EncodedImageCallback::Result::OK);
}
} // namespace webrtc