/* * Copyright (c) 2019 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/loss_notification_controller.h" #include #include "api/array_view.h" #include "rtc_base/checks.h" #include "rtc_base/logging.h" #include "rtc_base/numerics/sequence_number_util.h" namespace webrtc { namespace { // Keep a container's size no higher than `max_allowed_size`, by paring its size // down to `target_size` whenever it has more than `max_allowed_size` elements. template void PareDown(Container* container, size_t max_allowed_size, size_t target_size) { if (container->size() > max_allowed_size) { const size_t entries_to_delete = container->size() - target_size; auto erase_to = container->begin(); std::advance(erase_to, entries_to_delete); container->erase(container->begin(), erase_to); RTC_DCHECK_EQ(container->size(), target_size); } } } // namespace LossNotificationController::LossNotificationController( KeyFrameRequestSender* key_frame_request_sender, LossNotificationSender* loss_notification_sender) : key_frame_request_sender_(key_frame_request_sender), loss_notification_sender_(loss_notification_sender), current_frame_potentially_decodable_(true) { RTC_DCHECK(key_frame_request_sender_); RTC_DCHECK(loss_notification_sender_); } LossNotificationController::~LossNotificationController() = default; void LossNotificationController::OnReceivedPacket( uint16_t rtp_seq_num, const LossNotificationController::FrameDetails* frame) { RTC_DCHECK_RUN_ON(&sequence_checker_); // Ignore repeated or reordered packets. // TODO(bugs.webrtc.org/10336): Handle packet reordering. if (last_received_seq_num_ && !AheadOf(rtp_seq_num, *last_received_seq_num_)) { return; } DiscardOldInformation(); // Prevent memory overconsumption. const bool seq_num_gap = last_received_seq_num_ && rtp_seq_num != static_cast(*last_received_seq_num_ + 1u); last_received_seq_num_ = rtp_seq_num; // `frame` is not nullptr iff the packet is the first packet in the frame. if (frame != nullptr) { // Ignore repeated or reordered frames. // TODO(bugs.webrtc.org/10336): Handle frame reordering. if (last_received_frame_id_.has_value() && frame->frame_id <= last_received_frame_id_.value()) { RTC_LOG(LS_WARNING) << "Repeated or reordered frame ID (" << frame->frame_id << ")."; return; } last_received_frame_id_ = frame->frame_id; if (frame->is_keyframe) { // Subsequent frames may not rely on frames before the key frame. // Note that upon receiving a key frame, we do not issue a loss // notification on RTP sequence number gap, unless that gap spanned // the key frame itself. This is because any loss which occurred before // the key frame is no longer relevant. decodable_frame_ids_.clear(); current_frame_potentially_decodable_ = true; } else { const bool all_dependencies_decodable = AllDependenciesDecodable(frame->frame_dependencies); current_frame_potentially_decodable_ = all_dependencies_decodable; if (seq_num_gap || !current_frame_potentially_decodable_) { HandleLoss(rtp_seq_num, current_frame_potentially_decodable_); } } } else if (seq_num_gap || !current_frame_potentially_decodable_) { current_frame_potentially_decodable_ = false; // We allow sending multiple loss notifications for a single frame // even if only one of its packets is lost. We do this because the bigger // the frame, the more likely it is to be non-discardable, and therefore // the more robust we wish to be to loss of the feedback messages. HandleLoss(rtp_seq_num, false); } } void LossNotificationController::OnAssembledFrame( uint16_t first_seq_num, int64_t frame_id, bool discardable, rtc::ArrayView frame_dependencies) { RTC_DCHECK_RUN_ON(&sequence_checker_); DiscardOldInformation(); // Prevent memory overconsumption. if (discardable) { return; } if (!AllDependenciesDecodable(frame_dependencies)) { return; } last_decodable_non_discardable_.emplace(first_seq_num); const auto it = decodable_frame_ids_.insert(frame_id); RTC_DCHECK(it.second); } void LossNotificationController::DiscardOldInformation() { constexpr size_t kExpectedKeyFrameIntervalFrames = 3000; constexpr size_t kMaxSize = 2 * kExpectedKeyFrameIntervalFrames; constexpr size_t kTargetSize = kExpectedKeyFrameIntervalFrames; PareDown(&decodable_frame_ids_, kMaxSize, kTargetSize); } bool LossNotificationController::AllDependenciesDecodable( rtc::ArrayView frame_dependencies) const { RTC_DCHECK_RUN_ON(&sequence_checker_); // Due to packet reordering, frame buffering and asynchronous decoders, it is // infeasible to make reliable conclusions on the decodability of a frame // immediately when it arrives. We use the following assumptions: // * Intra frames are decodable. // * Inter frames are decodable if all of their references were decodable. // One possibility that is ignored, is that the packet may be corrupt. for (int64_t ref_frame_id : frame_dependencies) { const auto ref_frame_it = decodable_frame_ids_.find(ref_frame_id); if (ref_frame_it == decodable_frame_ids_.end()) { // Reference frame not decodable. return false; } } return true; } void LossNotificationController::HandleLoss(uint16_t last_received_seq_num, bool decodability_flag) { RTC_DCHECK_RUN_ON(&sequence_checker_); if (last_decodable_non_discardable_) { RTC_DCHECK(AheadOf(last_received_seq_num, last_decodable_non_discardable_->first_seq_num)); loss_notification_sender_->SendLossNotification( last_decodable_non_discardable_->first_seq_num, last_received_seq_num, decodability_flag, /*buffering_allowed=*/true); } else { key_frame_request_sender_->RequestKeyFrame(); } } } // namespace webrtc