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webrtc / src / webrtc / b880884d6ee31236d3e6a96fbce4180e19e7eb6a / . / modules / video_coding / video_sender.cc
blob: 0b54d13b2901e1bfc7faf03e309a64f4d28a3dd8 [file] [log] [blame]
/*
* Copyright (c) 2013 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 <algorithm> // std::max
#include "webrtc/base/checks.h"
#include "webrtc/base/logging.h"
#include "webrtc/common_types.h"
#include "webrtc/common_video/include/video_bitrate_allocator.h"
#include "webrtc/common_video/libyuv/include/webrtc_libyuv.h"
#include "webrtc/modules/video_coding/codecs/vp8/temporal_layers.h"
#include "webrtc/modules/video_coding/include/video_codec_interface.h"
#include "webrtc/modules/video_coding/encoded_frame.h"
#include "webrtc/modules/video_coding/utility/default_video_bitrate_allocator.h"
#include "webrtc/modules/video_coding/utility/quality_scaler.h"
#include "webrtc/modules/video_coding/video_coding_impl.h"
#include "webrtc/system_wrappers/include/clock.h"
namespace webrtc {
namespace vcm {
VideoSender::VideoSender(Clock* clock,
EncodedImageCallback* post_encode_callback,
VCMSendStatisticsCallback* send_stats_callback)
: clock_(clock),
_encoder(nullptr),
_mediaOpt(clock_),
_encodedFrameCallback(post_encode_callback, &_mediaOpt),
post_encode_callback_(post_encode_callback),
send_stats_callback_(send_stats_callback),
_codecDataBase(&_encodedFrameCallback),
frame_dropper_enabled_(true),
_sendStatsTimer(VCMProcessTimer::kDefaultProcessIntervalMs, clock_),
current_codec_(),
encoder_params_({BitrateAllocation(), 0, 0, 0}),
encoder_has_internal_source_(false),
next_frame_types_(1, kVideoFrameDelta) {
_mediaOpt.Reset();
// Allow VideoSender to be created on one thread but used on another, post
// construction. This is currently how this class is being used by at least
// one external project (diffractor).
sequenced_checker_.Detach();
}
VideoSender::~VideoSender() {}
void VideoSender::Process() {
if (_sendStatsTimer.TimeUntilProcess() == 0) {
// |_sendStatsTimer.Processed()| must be called. Otherwise
// VideoSender::Process() will be called in an infinite loop.
_sendStatsTimer.Processed();
if (send_stats_callback_) {
uint32_t bitRate = _mediaOpt.SentBitRate();
uint32_t frameRate = _mediaOpt.SentFrameRate();
send_stats_callback_->SendStatistics(bitRate, frameRate);
}
}
}
int64_t VideoSender::TimeUntilNextProcess() {
return _sendStatsTimer.TimeUntilProcess();
}
// Register the send codec to be used.
int32_t VideoSender::RegisterSendCodec(const VideoCodec* sendCodec,
uint32_t numberOfCores,
uint32_t maxPayloadSize) {
RTC_DCHECK(sequenced_checker_.CalledSequentially());
rtc::CritScope lock(&encoder_crit_);
if (sendCodec == nullptr) {
return VCM_PARAMETER_ERROR;
}
bool ret =
_codecDataBase.SetSendCodec(sendCodec, numberOfCores, maxPayloadSize);
// Update encoder regardless of result to make sure that we're not holding on
// to a deleted instance.
_encoder = _codecDataBase.GetEncoder();
// Cache the current codec here so they can be fetched from this thread
// without requiring the _sendCritSect lock.
current_codec_ = *sendCodec;
if (!ret) {
LOG(LS_ERROR) << "Failed to initialize set encoder with payload name '"
<< sendCodec->plName << "'.";
return VCM_CODEC_ERROR;
}
// SetSendCodec succeeded, _encoder should be set.
RTC_DCHECK(_encoder);
int numLayers;
if (sendCodec->codecType == kVideoCodecVP8) {
numLayers = sendCodec->VP8().numberOfTemporalLayers;
} else if (sendCodec->codecType == kVideoCodecVP9) {
numLayers = sendCodec->VP9().numberOfTemporalLayers;
} else {
numLayers = 1;
}
// If we have screensharing and we have layers, we disable frame dropper.
bool disable_frame_dropper =
numLayers > 1 && sendCodec->mode == kScreensharing;
if (disable_frame_dropper) {
_mediaOpt.EnableFrameDropper(false);
} else if (frame_dropper_enabled_) {
_mediaOpt.EnableFrameDropper(true);
}
{
rtc::CritScope cs(&params_crit_);
next_frame_types_.clear();
next_frame_types_.resize(VCM_MAX(sendCodec->numberOfSimulcastStreams, 1),
kVideoFrameKey);
// Cache InternalSource() to have this available from IntraFrameRequest()
// without having to acquire encoder_crit_ (avoid blocking on encoder use).
encoder_has_internal_source_ = _encoder->InternalSource();
}
LOG(LS_VERBOSE) << " max bitrate " << sendCodec->maxBitrate
<< " start bitrate " << sendCodec->startBitrate
<< " max frame rate " << sendCodec->maxFramerate
<< " max payload size " << maxPayloadSize;
_mediaOpt.SetEncodingData(sendCodec->maxBitrate * 1000,
sendCodec->startBitrate * 1000, sendCodec->width,
sendCodec->height, sendCodec->maxFramerate,
numLayers, maxPayloadSize);
return VCM_OK;
}
// Register an external decoder object.
// This can not be used together with external decoder callbacks.
void VideoSender::RegisterExternalEncoder(VideoEncoder* externalEncoder,
uint8_t payloadType,
bool internalSource /*= false*/) {
RTC_DCHECK(sequenced_checker_.CalledSequentially());
rtc::CritScope lock(&encoder_crit_);
if (externalEncoder == nullptr) {
bool wasSendCodec = false;
RTC_CHECK(
_codecDataBase.DeregisterExternalEncoder(payloadType, &wasSendCodec));
if (wasSendCodec) {
// Make sure the VCM doesn't use the de-registered codec
rtc::CritScope params_lock(&params_crit_);
_encoder = nullptr;
encoder_has_internal_source_ = false;
}
return;
}
_codecDataBase.RegisterExternalEncoder(externalEncoder, payloadType,
internalSource);
}
// Get encode bitrate
int VideoSender::Bitrate(unsigned int* bitrate) const {
RTC_DCHECK(sequenced_checker_.CalledSequentially());
// Since we're running on the thread that's the only thread known to modify
// the value of _encoder, we don't need to grab the lock here.
if (!_encoder)
return VCM_UNINITIALIZED;
*bitrate = _encoder->GetEncoderParameters().target_bitrate.get_sum_bps();
return 0;
}
// Get encode frame rate
int VideoSender::FrameRate(unsigned int* framerate) const {
RTC_DCHECK(sequenced_checker_.CalledSequentially());
// Since we're running on the thread that's the only thread known to modify
// the value of _encoder, we don't need to grab the lock here.
if (!_encoder)
return VCM_UNINITIALIZED;
*framerate = _encoder->GetEncoderParameters().input_frame_rate;
return 0;
}
EncoderParameters VideoSender::UpdateEncoderParameters(
const EncoderParameters& params,
VideoBitrateAllocator* bitrate_allocator,
uint32_t target_bitrate_bps) {
uint32_t video_target_rate_bps = _mediaOpt.SetTargetRates(target_bitrate_bps);
uint32_t input_frame_rate = _mediaOpt.InputFrameRate();
if (input_frame_rate == 0)
input_frame_rate = current_codec_.maxFramerate;
BitrateAllocation bitrate_allocation;
if (bitrate_allocator) {
bitrate_allocation = bitrate_allocator->GetAllocation(video_target_rate_bps,
input_frame_rate);
} else {
DefaultVideoBitrateAllocator default_allocator(current_codec_);
bitrate_allocation = default_allocator.GetAllocation(video_target_rate_bps,
input_frame_rate);
}
EncoderParameters new_encoder_params = {bitrate_allocation, params.loss_rate,
params.rtt, input_frame_rate};
return new_encoder_params;
}
void VideoSender::UpdateChannelParemeters(
VideoBitrateAllocator* bitrate_allocator,
VideoBitrateAllocationObserver* bitrate_updated_callback) {
BitrateAllocation target_rate;
{
rtc::CritScope cs(&params_crit_);
encoder_params_ =
UpdateEncoderParameters(encoder_params_, bitrate_allocator,
encoder_params_.target_bitrate.get_sum_bps());
target_rate = encoder_params_.target_bitrate;
}
if (bitrate_updated_callback)
bitrate_updated_callback->OnBitrateAllocationUpdated(target_rate);
}
int32_t VideoSender::SetChannelParameters(
uint32_t target_bitrate_bps,
uint8_t loss_rate,
int64_t rtt,
VideoBitrateAllocator* bitrate_allocator,
VideoBitrateAllocationObserver* bitrate_updated_callback) {
EncoderParameters encoder_params;
encoder_params.loss_rate = loss_rate;
encoder_params.rtt = rtt;
encoder_params = UpdateEncoderParameters(encoder_params, bitrate_allocator,
target_bitrate_bps);
if (bitrate_updated_callback) {
bitrate_updated_callback->OnBitrateAllocationUpdated(
encoder_params.target_bitrate);
}
bool encoder_has_internal_source;
{
rtc::CritScope cs(&params_crit_);
encoder_params_ = encoder_params;
encoder_has_internal_source = encoder_has_internal_source_;
}
// For encoders with internal sources, we need to tell the encoder directly,
// instead of waiting for an AddVideoFrame that will never come (internal
// source encoders don't get input frames).
if (encoder_has_internal_source) {
rtc::CritScope cs(&encoder_crit_);
if (_encoder) {
SetEncoderParameters(encoder_params, encoder_has_internal_source);
}
}
return VCM_OK;
}
void VideoSender::SetEncoderParameters(EncoderParameters params,
bool has_internal_source) {
// |target_bitrate == 0 | means that the network is down or the send pacer is
// full. We currently only report this if the encoder has an internal source.
// If the encoder does not have an internal source, higher levels are expected
// to not call AddVideoFrame. We do this since its unclear how current
// encoder implementations behave when given a zero target bitrate.
// TODO(perkj): Make sure all known encoder implementations handle zero
// target bitrate and remove this check.
if (!has_internal_source && params.target_bitrate.get_sum_bps() == 0)
return;
if (params.input_frame_rate == 0) {
// No frame rate estimate available, use default.
params.input_frame_rate = current_codec_.maxFramerate;
}
if (_encoder != nullptr)
_encoder->SetEncoderParameters(params);
}
// Deprecated:
// TODO(perkj): Remove once no projects call this method. It currently do
// nothing.
int32_t VideoSender::RegisterProtectionCallback(
VCMProtectionCallback* protection_callback) {
// Deprecated:
// TODO(perkj): Remove once no projects call this method. It currently do
// nothing.
return VCM_OK;
}
// Add one raw video frame to the encoder, blocking.
int32_t VideoSender::AddVideoFrame(const VideoFrame& videoFrame,
const CodecSpecificInfo* codecSpecificInfo) {
EncoderParameters encoder_params;
std::vector<FrameType> next_frame_types;
bool encoder_has_internal_source = false;
{
rtc::CritScope lock(&params_crit_);
encoder_params = encoder_params_;
next_frame_types = next_frame_types_;
encoder_has_internal_source = encoder_has_internal_source_;
}
rtc::CritScope lock(&encoder_crit_);
if (_encoder == nullptr)
return VCM_UNINITIALIZED;
SetEncoderParameters(encoder_params, encoder_has_internal_source);
if (_mediaOpt.DropFrame()) {
LOG(LS_VERBOSE) << "Drop Frame "
<< "target bitrate "
<< encoder_params.target_bitrate.get_sum_bps()
<< " loss rate " << encoder_params.loss_rate << " rtt "
<< encoder_params.rtt << " input frame rate "
<< encoder_params.input_frame_rate;
post_encode_callback_->OnDroppedFrame();
return VCM_OK;
}
// TODO(pbos): Make sure setting send codec is synchronized with video
// processing so frame size always matches.
if (!_codecDataBase.MatchesCurrentResolution(videoFrame.width(),
videoFrame.height())) {
LOG(LS_ERROR) << "Incoming frame doesn't match set resolution. Dropping.";
return VCM_PARAMETER_ERROR;
}
VideoFrame converted_frame = videoFrame;
if (converted_frame.video_frame_buffer()->native_handle() &&
!_encoder->SupportsNativeHandle()) {
// This module only supports software encoding.
// TODO(pbos): Offload conversion from the encoder thread.
rtc::scoped_refptr<VideoFrameBuffer> converted_buffer(
converted_frame.video_frame_buffer()->NativeToI420Buffer());
if (!converted_buffer) {
LOG(LS_ERROR) << "Frame conversion failed, dropping frame.";
return VCM_PARAMETER_ERROR;
}
converted_frame = VideoFrame(converted_buffer,
converted_frame.timestamp(),
converted_frame.render_time_ms(),
converted_frame.rotation());
}
int32_t ret =
_encoder->Encode(converted_frame, codecSpecificInfo, next_frame_types);
if (ret < 0) {
LOG(LS_ERROR) << "Failed to encode frame. Error code: " << ret;
return ret;
}
{
rtc::CritScope lock(&params_crit_);
// Change all keyframe requests to encode delta frames the next time.
for (size_t i = 0; i < next_frame_types_.size(); ++i) {
// Check for equality (same requested as before encoding) to not
// accidentally drop a keyframe request while encoding.
if (next_frame_types[i] == next_frame_types_[i])
next_frame_types_[i] = kVideoFrameDelta;
}
}
return VCM_OK;
}
int32_t VideoSender::IntraFrameRequest(size_t stream_index) {
{
rtc::CritScope lock(&params_crit_);
if (stream_index >= next_frame_types_.size()) {
return -1;
}
next_frame_types_[stream_index] = kVideoFrameKey;
if (!encoder_has_internal_source_)
return VCM_OK;
}
// TODO(pbos): Remove when InternalSource() is gone. Both locks have to be
// held here for internal consistency, since _encoder could be removed while
// not holding encoder_crit_. Checks have to be performed again since
// params_crit_ was dropped to not cause lock-order inversions with
// encoder_crit_.
rtc::CritScope lock(&encoder_crit_);
rtc::CritScope params_lock(&params_crit_);
if (stream_index >= next_frame_types_.size())
return -1;
if (_encoder != nullptr && _encoder->InternalSource()) {
// Try to request the frame if we have an external encoder with
// internal source since AddVideoFrame never will be called.
if (_encoder->RequestFrame(next_frame_types_) == WEBRTC_VIDEO_CODEC_OK) {
// Try to remove just-performed keyframe request, if stream still exists.
next_frame_types_[stream_index] = kVideoFrameDelta;
}
}
return VCM_OK;
}
int32_t VideoSender::EnableFrameDropper(bool enable) {
rtc::CritScope lock(&encoder_crit_);
frame_dropper_enabled_ = enable;
_mediaOpt.EnableFrameDropper(enable);
return VCM_OK;
}
} // namespace vcm
} // namespace webrtc