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webrtc/modules/video_coding/frame_buffer3.cc
Evan Shrubsole 9a99905301 Implement FrameBuffer3Proxy 
This emulates behaviour from frame buffer 2, but does not handle stats.
In contrast to frame buffer 2, all work happens on the same task queue.
FrameBuffer3Proxy encapsulates FrameBuffer3 and scheduler behind
a field trial WebRTC-FrameBuffer3.

This separates frame scheduling behaviour into a few components,

VideoReceiveStreamTimeoutTracker
* Handles the stream timeouts.

FrameDecodeScheduler
* Manages the scheduling and cancelling of frames being sent to the
  decoder.

FrameDecodeTiming
* Handles the timing and ordering of frames to be decoded.

Other changes
* Adds CurrentSize() method to FrameBuffer3
* Move timing to a separate library
* Does a thread check for Receive statistics as this is now
on the worker thread.
* Adds `FlushImmediate` method to RunLoop so that
  video_receive_stream2_unittest can pass when scheduling is happening
  on the worker thread.

Change-Id: Ia8d2e5650d1708cdc1be3631a5214134583a0721
Bug: webrtc:13343
Tested: Ran webrtc_perf_tests, video_engine_tests, rtc_unittests forcing frame buffer3
Reviewed-on: https://webrtc-review.googlesource.com/c/src/+/241603
Reviewed-by: Ilya Nikolaevskiy <ilnik@webrtc.org>
Reviewed-by: Markus Handell <handellm@webrtc.org>
Reviewed-by: Mirko Bonadei <mbonadei@webrtc.org>
Reviewed-by: Philip Eliasson <philipel@webrtc.org>
Reviewed-by: Tomas Gunnarsson <tommi@webrtc.org>
Commit-Queue: Evan Shrubsole <eshr@webrtc.org>
Cr-Commit-Position: refs/heads/main@{#35847}
2022-01-31 11:40:27 +00:00

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/*
* Copyright (c) 2021 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/frame_buffer3.h"
#include <algorithm>
#include <iterator>
#include <queue>
#include <utility>
#include "absl/algorithm/container.h"
#include "absl/container/inlined_vector.h"
#include "rtc_base/logging.h"
#include "rtc_base/numerics/sequence_number_util.h"
#include "system_wrappers/include/field_trial.h"
namespace webrtc {
namespace {
bool ValidReferences(const EncodedFrame& frame) {
// All references must point backwards, and duplicates are not allowed.
for (size_t i = 0; i < frame.num_references; ++i) {
if (frame.references[i] >= frame.Id())
return false;
for (size_t j = i + 1; j < frame.num_references; ++j) {
if (frame.references[i] == frame.references[j])
return false;
}
}
return true;
}
// Since FrameBuffer::FrameInfo is private it can't be used in the function
// signature, hence the FrameIteratorT type.
template <typename FrameIteratorT>
rtc::ArrayView<const int64_t> GetReferences(const FrameIteratorT& it) {
return {it->second.encoded_frame->references,
std::min<size_t>(it->second.encoded_frame->num_references,
EncodedFrame::kMaxFrameReferences)};
}
template <typename FrameIteratorT>
int64_t GetFrameId(const FrameIteratorT& it) {
return it->first;
}
template <typename FrameIteratorT>
int64_t GetTimestamp(const FrameIteratorT& it) {
return it->second.encoded_frame->Timestamp();
}
template <typename FrameIteratorT>
bool IsLastFrameInTemporalUnit(const FrameIteratorT& it) {
return it->second.encoded_frame->is_last_spatial_layer;
}
} // namespace
FrameBuffer::FrameBuffer(int max_size, int max_decode_history)
: legacy_frame_id_jump_behavior_(
!field_trial::IsDisabled("WebRTC-LegacyFrameIdJumpBehavior")),
max_size_(max_size),
decoded_frame_history_(max_decode_history) {}
void FrameBuffer::InsertFrame(std::unique_ptr<EncodedFrame> frame) {
if (!ValidReferences(*frame)) {
RTC_DLOG(LS_WARNING) << "Frame " << frame->Id()
<< " has invalid references, dropping frame.";
return;
}
if (frame->Id() <= decoded_frame_history_.GetLastDecodedFrameId()) {
if (legacy_frame_id_jump_behavior_ && frame->is_keyframe() &&
AheadOf(frame->Timestamp(),
*decoded_frame_history_.GetLastDecodedFrameTimestamp())) {
RTC_DLOG(LS_WARNING)
<< "Keyframe " << frame->Id()
<< " has newer timestamp but older picture id, clearing buffer.";
Clear();
} else {
// Already decoded past this frame.
return;
}
}
if (frames_.size() == max_size_) {
if (frame->is_keyframe()) {
RTC_DLOG(LS_WARNING) << "Keyframe " << frame->Id()
<< " inserted into full buffer, clearing buffer.";
Clear();
} else {
// No space for this frame.
return;
}
}
const int64_t frame_id = frame->Id();
auto insert_res = frames_.emplace(frame_id, FrameInfo{std::move(frame)});
if (!insert_res.second) {
// Frame has already been inserted.
return;
}
if (frames_.size() == max_size_) {
RTC_DLOG(LS_WARNING) << "Frame " << frame_id
<< " inserted, buffer is now full.";
}
PropagateContinuity(insert_res.first);
FindNextAndLastDecodableTemporalUnit();
}
absl::InlinedVector<std::unique_ptr<EncodedFrame>, 4>
FrameBuffer::ExtractNextDecodableTemporalUnit() {
absl::InlinedVector<std::unique_ptr<EncodedFrame>, 4> res;
if (!next_decodable_temporal_unit_) {
return res;
}
auto end_it = std::next(next_decodable_temporal_unit_->last_frame);
for (auto it = next_decodable_temporal_unit_->first_frame; it != end_it;
++it) {
decoded_frame_history_.InsertDecoded(GetFrameId(it), GetTimestamp(it));
res.push_back(std::move(it->second.encoded_frame));
}
DropNextDecodableTemporalUnit();
return res;
}
void FrameBuffer::DropNextDecodableTemporalUnit() {
if (!next_decodable_temporal_unit_) {
return;
}
auto end_it = std::next(next_decodable_temporal_unit_->last_frame);
num_dropped_frames_ += std::count_if(
frames_.begin(), end_it,
[](const auto& f) { return f.second.encoded_frame != nullptr; });
frames_.erase(frames_.begin(), end_it);
FindNextAndLastDecodableTemporalUnit();
}
absl::optional<int64_t> FrameBuffer::LastContinuousFrameId() const {
return last_continuous_frame_id_;
}
absl::optional<int64_t> FrameBuffer::LastContinuousTemporalUnitFrameId() const {
return last_continuous_temporal_unit_frame_id_;
}
absl::optional<uint32_t> FrameBuffer::NextDecodableTemporalUnitRtpTimestamp()
const {
if (!next_decodable_temporal_unit_) {
return absl::nullopt;
}
return GetTimestamp(next_decodable_temporal_unit_->first_frame);
}
absl::optional<uint32_t> FrameBuffer::LastDecodableTemporalUnitRtpTimestamp()
const {
return last_decodable_temporal_unit_timestamp_;
}
int FrameBuffer::GetTotalNumberOfContinuousTemporalUnits() const {
return num_continuous_temporal_units_;
}
int FrameBuffer::GetTotalNumberOfDroppedFrames() const {
return num_dropped_frames_;
}
size_t FrameBuffer::CurrentSize() const {
return frames_.size();
}
bool FrameBuffer::IsContinuous(const FrameIterator& it) const {
for (int64_t reference : GetReferences(it)) {
if (decoded_frame_history_.WasDecoded(reference)) {
continue;
}
auto reference_frame_it = frames_.find(reference);
if (reference_frame_it != frames_.end() &&
reference_frame_it->second.continuous) {
continue;
}
return false;
}
return true;
}
void FrameBuffer::PropagateContinuity(const FrameIterator& frame_it) {
for (auto it = frame_it; it != frames_.end(); ++it) {
if (!it->second.continuous) {
if (IsContinuous(it)) {
it->second.continuous = true;
if (last_continuous_frame_id_ < GetFrameId(it)) {
last_continuous_frame_id_ = GetFrameId(it);
}
if (IsLastFrameInTemporalUnit(it)) {
num_continuous_temporal_units_++;
if (last_continuous_temporal_unit_frame_id_ < GetFrameId(it)) {
last_continuous_temporal_unit_frame_id_ = GetFrameId(it);
}
}
}
}
}
}
void FrameBuffer::FindNextAndLastDecodableTemporalUnit() {
next_decodable_temporal_unit_.reset();
last_decodable_temporal_unit_timestamp_.reset();
if (!last_continuous_temporal_unit_frame_id_) {
return;
}
FrameIterator first_frame_it = frames_.begin();
FrameIterator last_frame_it = frames_.begin();
absl::InlinedVector<int64_t, 4> frames_in_temporal_unit;
for (auto frame_it = frames_.begin(); frame_it != frames_.end();) {
if (GetFrameId(frame_it) > *last_continuous_temporal_unit_frame_id_) {
break;
}
if (GetTimestamp(frame_it) != GetTimestamp(first_frame_it)) {
frames_in_temporal_unit.clear();
first_frame_it = frame_it;
}
frames_in_temporal_unit.push_back(GetFrameId(frame_it));
last_frame_it = frame_it++;
if (IsLastFrameInTemporalUnit(last_frame_it)) {
bool temporal_unit_decodable = true;
for (auto it = first_frame_it; it != frame_it && temporal_unit_decodable;
++it) {
for (int64_t reference : GetReferences(it)) {
if (!decoded_frame_history_.WasDecoded(reference) &&
!absl::c_linear_search(frames_in_temporal_unit, reference)) {
// A frame in the temporal unit has a non-decoded reference outside
// the temporal unit, so it's not yet ready to be decoded.
temporal_unit_decodable = false;
break;
}
}
}
if (temporal_unit_decodable) {
if (!next_decodable_temporal_unit_) {
next_decodable_temporal_unit_ = {first_frame_it, last_frame_it};
}
last_decodable_temporal_unit_timestamp_ = GetTimestamp(first_frame_it);
}
}
}
}
void FrameBuffer::Clear() {
frames_.clear();
next_decodable_temporal_unit_.reset();
last_decodable_temporal_unit_timestamp_.reset();
last_continuous_frame_id_.reset();
last_continuous_temporal_unit_frame_id_.reset();
decoded_frame_history_.Clear();
}
} // namespace webrtc
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