YangWX/crossdesk
1
0
Fork 0
mirror of https://github.com/kunkundi/crossdesk.git synced 2025-10-27 04:35:34 +08:00
Code Issues Packages Projects Releases Wiki Activity
Files
a39d0f66525e21f445ea18f94cb4aab818ad3a5f
crossdesk/src/qos/nack_requester.cc
dijunkun 7b4bba4166 [feat] implementation for nack generator module
2025-02-13 17:24:18 +08:00

181 lines
6.1 KiB
C++
Raw Blame History

/*
* Copyright (c) 2016 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 "nack_requester.h"
#include "log.h"
constexpr int kMaxPacketAge = 10'000;
constexpr int kMaxNackPackets = 1000;
constexpr TimeDelta kDefaultRtt = TimeDelta::Millis(100);
// Number of times a packet can be nacked before giving up. Nack is sent at most
// every RTT.
constexpr int kMaxNackRetries = 100;
constexpr int kMaxReorderedPackets = 128;
constexpr int kNumReorderingBuckets = 10;
// constexpr TimeDelta kDefaultSendNackDelay = TimeDelta::Zero();
constexpr TimeDelta kDefaultSendNackDelay = TimeDelta::Millis(10);
NackRequester::NackInfo::NackInfo()
: seq_num(0),
send_at_seq_num(0),
created_at_time(Timestamp::MinusInfinity()),
sent_at_time(Timestamp::MinusInfinity()),
retries(0) {}
NackRequester::NackInfo::NackInfo(uint16_t seq_num, uint16_t send_at_seq_num,
Timestamp created_at_time)
: seq_num(seq_num),
send_at_seq_num(send_at_seq_num),
created_at_time(created_at_time),
sent_at_time(Timestamp::MinusInfinity()),
retries(0) {}
NackRequester::NackRequester(std::shared_ptr<Clock> clock,
NackSender* nack_sender,
KeyFrameRequestSender* keyframe_request_sender)
: clock_(clock),
nack_sender_(nack_sender),
keyframe_request_sender_(keyframe_request_sender),
reordering_histogram_(kNumReorderingBuckets, kMaxReorderedPackets),
initialized_(false),
rtt_(kDefaultRtt),
newest_seq_num_(0),
send_nack_delay_(kDefaultSendNackDelay) {}
NackRequester::~NackRequester() {}
int NackRequester::OnReceivedPacket(uint16_t seq_num) {
return OnReceivedPacket(seq_num, false);
}
int NackRequester::OnReceivedPacket(uint16_t seq_num, bool is_recovered) {
bool is_retransmitted = true;
if (!initialized_) {
newest_seq_num_ = seq_num;
initialized_ = true;
return 0;
}
if (seq_num == newest_seq_num_) return 0;
if (AheadOf(newest_seq_num_, seq_num)) {
// An out of order packet has been received.
auto nack_list_it = nack_list_.find(seq_num);
int nacks_sent_for_packet = 0;
if (nack_list_it != nack_list_.end()) {
nacks_sent_for_packet = nack_list_it->second.retries;
nack_list_.erase(nack_list_it);
}
if (!is_retransmitted) UpdateReorderingStatistics(seq_num);
return nacks_sent_for_packet;
}
if (is_recovered) {
recovered_list_.insert(seq_num);
// Remove old ones so we don't accumulate recovered packets.
auto it = recovered_list_.lower_bound(seq_num - kMaxPacketAge);
if (it != recovered_list_.begin())
recovered_list_.erase(recovered_list_.begin(), it);
// Do not send nack for packets recovered by FEC or RTX.
return 0;
}
AddPacketsToNack(newest_seq_num_ + 1, seq_num);
newest_seq_num_ = seq_num;
// Are there any nacks that are waiting for this seq_num.
std::vector<uint16_t> nack_batch = GetNackBatch(kSeqNumOnly);
if (!nack_batch.empty()) {
nack_sender_->SendNack(nack_batch, false);
}
return 0;
}
void NackRequester::ClearUpTo(uint16_t seq_num) {
nack_list_.erase(nack_list_.begin(), nack_list_.lower_bound(seq_num));
recovered_list_.erase(recovered_list_.begin(),
recovered_list_.lower_bound(seq_num));
}
void NackRequester::UpdateRtt(int64_t rtt_ms) {
rtt_ = TimeDelta::Millis(rtt_ms);
}
void NackRequester::AddPacketsToNack(uint16_t seq_num_start,
uint16_t seq_num_end) {
// Remove old packets.
auto it = nack_list_.lower_bound(seq_num_end - kMaxPacketAge);
nack_list_.erase(nack_list_.begin(), it);
uint16_t num_new_nacks = ForwardDiff(seq_num_start, seq_num_end);
if (nack_list_.size() + num_new_nacks > kMaxNackPackets) {
nack_list_.clear();
LOG_WARN("NACK list full, clearing NACK list and requesting keyframe.");
keyframe_request_sender_->RequestKeyFrame();
return;
}
for (uint16_t seq_num = seq_num_start; seq_num != seq_num_end; ++seq_num) {
// Do not send nack for packets that are already recovered by FEC or RTX
if (recovered_list_.find(seq_num) != recovered_list_.end()) continue;
NackInfo nack_info(seq_num, seq_num + WaitNumberOfPackets(0.5),
clock_->CurrentTime());
nack_list_[seq_num] = nack_info;
}
}
std::vector<uint16_t> NackRequester::GetNackBatch(NackFilterOptions options) {
// Called on worker_thread_.
bool consider_seq_num = options != kTimeOnly;
bool consider_timestamp = options != kSeqNumOnly;
Timestamp now = clock_->CurrentTime();
std::vector<uint16_t> nack_batch;
auto it = nack_list_.begin();
while (it != nack_list_.end()) {
bool delay_timed_out = now - it->second.created_at_time >= send_nack_delay_;
bool nack_on_rtt_passed = now - it->second.sent_at_time >= rtt_;
bool nack_on_seq_num_passed =
it->second.sent_at_time.IsInfinite() &&
AheadOrAt(newest_seq_num_, it->second.send_at_seq_num);
if (delay_timed_out && ((consider_seq_num && nack_on_seq_num_passed) ||
(consider_timestamp && nack_on_rtt_passed))) {
nack_batch.emplace_back(it->second.seq_num);
++it->second.retries;
it->second.sent_at_time = now;
if (it->second.retries >= kMaxNackRetries) {
LOG_WARN(
"Sequence number {} removed from NACK list due to max retries.",
it->second.seq_num);
it = nack_list_.erase(it);
} else {
++it;
}
continue;
}
++it;
}
return nack_batch;
}
void NackRequester::UpdateReorderingStatistics(uint16_t seq_num) {
uint16_t diff = ReverseDiff(newest_seq_num_, seq_num);
reordering_histogram_.Add(diff);
}
int NackRequester::WaitNumberOfPackets(float probability) const {
if (reordering_histogram_.NumValues() == 0) return 0;
return reordering_histogram_.InverseCdf(probability);
}
Reference in New Issue View Git Blame Copy Permalink