blob: 86ca61eed78526a70da410e3bf94b2f15d184f67 [file] [log] [blame]
/*
* 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 "webrtc/voice_engine/transport_feedback_packet_loss_tracker.h"
#include <limits>
#include <utility>
#include "webrtc/modules/rtp_rtcp/include/rtp_rtcp_defines.h"
#include "webrtc/modules/rtp_rtcp/source/rtcp_packet/transport_feedback.h"
#include "webrtc/rtc_base/checks.h"
#include "webrtc/rtc_base/mod_ops.h"
namespace {
constexpr uint16_t kSeqNumHalf = 0x8000u;
void UpdateCounter(size_t* counter, bool increment) {
if (increment) {
RTC_DCHECK_LT(*counter, std::numeric_limits<std::size_t>::max());
++(*counter);
} else {
RTC_DCHECK_GT(*counter, 0);
--(*counter);
}
}
} // namespace
namespace webrtc {
TransportFeedbackPacketLossTracker::TransportFeedbackPacketLossTracker(
int64_t max_window_size_ms,
size_t plr_min_num_acked_packets,
size_t rplr_min_num_acked_pairs)
: max_window_size_ms_(max_window_size_ms),
ref_packet_status_(packet_status_window_.begin()),
plr_state_(plr_min_num_acked_packets),
rplr_state_(rplr_min_num_acked_pairs) {
RTC_DCHECK_GT(max_window_size_ms, 0);
RTC_DCHECK_GT(plr_min_num_acked_packets, 0);
RTC_DCHECK_GT(rplr_min_num_acked_pairs, 0);
Reset();
}
void TransportFeedbackPacketLossTracker::Reset() {
acked_packets_ = 0;
plr_state_.Reset();
rplr_state_.Reset();
packet_status_window_.clear();
ref_packet_status_ = packet_status_window_.begin();
}
uint16_t TransportFeedbackPacketLossTracker::ReferenceSequenceNumber() const {
RTC_DCHECK(!packet_status_window_.empty());
return ref_packet_status_->first;
}
uint16_t TransportFeedbackPacketLossTracker::NewestSequenceNumber() const {
RTC_DCHECK(!packet_status_window_.empty());
return PreviousPacketStatus(packet_status_window_.end())->first;
}
void TransportFeedbackPacketLossTracker::OnPacketAdded(uint16_t seq_num,
int64_t send_time_ms) {
// Sanity - time can't flow backwards.
RTC_DCHECK(
packet_status_window_.empty() ||
PreviousPacketStatus(packet_status_window_.end())->second.send_time_ms <=
send_time_ms);
if (packet_status_window_.find(seq_num) != packet_status_window_.end() ||
(!packet_status_window_.empty() &&
ForwardDiff(seq_num, NewestSequenceNumber()) <= kSeqNumHalf)) {
// The only way for these two to happen is when the stream lies dormant for
// long enough for the sequence numbers to wrap. Everything in the window in
// such a case would be too old to use.
Reset();
}
// Maintain a window where the newest sequence number is at most 0x7fff away
// from the oldest, so that would could still distinguish old/new.
while (!packet_status_window_.empty() &&
ForwardDiff(ref_packet_status_->first, seq_num) >= kSeqNumHalf) {
RemoveOldestPacketStatus();
}
SentPacket sent_packet(send_time_ms, PacketStatus::Unacked);
packet_status_window_.insert(packet_status_window_.end(),
std::make_pair(seq_num, sent_packet));
if (packet_status_window_.size() == 1) {
ref_packet_status_ = packet_status_window_.cbegin();
}
}
void TransportFeedbackPacketLossTracker::OnPacketFeedbackVector(
const std::vector<PacketFeedback>& packet_feedback_vector) {
for (const PacketFeedback& packet : packet_feedback_vector) {
const auto& it = packet_status_window_.find(packet.sequence_number);
// Packets which aren't at least marked as unacked either do not belong to
// this media stream, or have been shifted out of window.
if (it == packet_status_window_.end())
continue;
const bool lost = packet.arrival_time_ms == PacketFeedback::kNotReceived;
const PacketStatus packet_status =
lost ? PacketStatus::Lost : PacketStatus::Received;
UpdatePacketStatus(it, packet_status);
}
}
rtc::Optional<float>
TransportFeedbackPacketLossTracker::GetPacketLossRate() const {
return plr_state_.GetMetric();
}
rtc::Optional<float>
TransportFeedbackPacketLossTracker::GetRecoverablePacketLossRate() const {
return rplr_state_.GetMetric();
}
void TransportFeedbackPacketLossTracker::UpdatePacketStatus(
SentPacketStatusMap::iterator it,
PacketStatus new_status) {
if (it->second.status != PacketStatus::Unacked) {
// Normally, packets are sent (inserted into window as "unacked"), then we
// receive one feedback for them.
// But it is possible that a packet would receive two feedbacks. Then:
if (it->second.status == PacketStatus::Lost &&
new_status == PacketStatus::Received) {
// If older status said that the packet was lost but newer one says it
// is received, we take the newer one.
UpdateMetrics(it, false);
it->second.status =
PacketStatus::Unacked; // For clarity; overwritten shortly.
} else {
// If the value is unchanged or if older status said that the packet was
// received but the newer one says it is lost, we ignore it.
// The standard allows for previously-reported packets to carry
// no report when the reports overlap, which also looks like the
// packet is being reported as lost.
return;
}
}
// Change from UNACKED to RECEIVED/LOST.
it->second.status = new_status;
UpdateMetrics(it, true);
// Remove packets from the beginning of the window until we only hold packets,
// be they acked or unacked, which are not more than |max_window_size_ms|
// older from the newest packet. (If the packet we're now inserting into the
// window isn't the newest, it would not trigger any removals; the newest
// already removed all relevant.)
while (ref_packet_status_ != packet_status_window_.end() &&
(it->second.send_time_ms - ref_packet_status_->second.send_time_ms) >
max_window_size_ms_) {
RemoveOldestPacketStatus();
}
}
void TransportFeedbackPacketLossTracker::RemoveOldestPacketStatus() {
UpdateMetrics(ref_packet_status_, false);
const auto it = ref_packet_status_;
ref_packet_status_ = NextPacketStatus(it);
packet_status_window_.erase(it);
}
void TransportFeedbackPacketLossTracker::UpdateMetrics(
ConstPacketStatusIterator it,
bool apply /* false = undo */) {
RTC_DCHECK(it != packet_status_window_.end());
// Metrics are dependent on feedbacks from the other side. We don't want
// to update the metrics each time a packet is sent, except for the case
// when it shifts old sent-but-unacked-packets out of window.
RTC_DCHECK(!apply || it->second.status != PacketStatus::Unacked);
if (it->second.status != PacketStatus::Unacked) {
UpdateCounter(&acked_packets_, apply);
}
UpdatePlr(it, apply);
UpdateRplr(it, apply);
}
void TransportFeedbackPacketLossTracker::UpdatePlr(
ConstPacketStatusIterator it,
bool apply /* false = undo */) {
switch (it->second.status) {
case PacketStatus::Unacked:
return;
case PacketStatus::Received:
UpdateCounter(&plr_state_.num_received_packets_, apply);
break;
case PacketStatus::Lost:
UpdateCounter(&plr_state_.num_lost_packets_, apply);
break;
default:
RTC_NOTREACHED();
}
}
void TransportFeedbackPacketLossTracker::UpdateRplr(
ConstPacketStatusIterator it,
bool apply /* false = undo */) {
if (it->second.status == PacketStatus::Unacked) {
// Unacked packets cannot compose a pair.
return;
}
// Previous packet and current packet might compose a pair.
if (it != ref_packet_status_) {
const auto& prev = PreviousPacketStatus(it);
if (prev->second.status != PacketStatus::Unacked) {
UpdateCounter(&rplr_state_.num_acked_pairs_, apply);
if (prev->second.status == PacketStatus::Lost &&
it->second.status == PacketStatus::Received) {
UpdateCounter(
&rplr_state_.num_recoverable_losses_, apply);
}
}
}
// Current packet and next packet might compose a pair.
const auto& next = NextPacketStatus(it);
if (next != packet_status_window_.end() &&
next->second.status != PacketStatus::Unacked) {
UpdateCounter(&rplr_state_.num_acked_pairs_, apply);
if (it->second.status == PacketStatus::Lost &&
next->second.status == PacketStatus::Received) {
UpdateCounter(&rplr_state_.num_recoverable_losses_, apply);
}
}
}
TransportFeedbackPacketLossTracker::ConstPacketStatusIterator
TransportFeedbackPacketLossTracker::PreviousPacketStatus(
ConstPacketStatusIterator it) const {
RTC_DCHECK(it != ref_packet_status_);
if (it == packet_status_window_.end()) {
// This is to make PreviousPacketStatus(packet_status_window_.end()) point
// to the last element.
it = ref_packet_status_;
}
if (it == packet_status_window_.begin()) {
// Due to the circular nature of sequence numbers, we let the iterator
// go to the end.
it = packet_status_window_.end();
}
return --it;
}
TransportFeedbackPacketLossTracker::ConstPacketStatusIterator
TransportFeedbackPacketLossTracker::NextPacketStatus(
ConstPacketStatusIterator it) const {
RTC_DCHECK(it != packet_status_window_.end());
++it;
if (it == packet_status_window_.end()) {
// Due to the circular nature of sequence numbers, we let the iterator
// goes back to the beginning.
it = packet_status_window_.begin();
}
if (it == ref_packet_status_) {
// This is to make the NextPacketStatus of the last element to return the
// beyond-the-end iterator.
it = packet_status_window_.end();
}
return it;
}
// TODO(minyue): This method checks the states of this class do not misbehave.
// The method is used both in unit tests and a fuzzer test. The fuzzer test
// is present to help finding potential errors. Once the fuzzer test shows no
// error after long period, we can remove the fuzzer test, and move this method
// to unit test.
void TransportFeedbackPacketLossTracker::Validate() const { // Testing only!
RTC_CHECK_EQ(plr_state_.num_received_packets_ + plr_state_.num_lost_packets_,
acked_packets_);
RTC_CHECK_LE(acked_packets_, packet_status_window_.size());
RTC_CHECK_LE(rplr_state_.num_recoverable_losses_,
rplr_state_.num_acked_pairs_);
RTC_CHECK_LE(rplr_state_.num_acked_pairs_, acked_packets_ - 1);
size_t unacked_packets = 0;
size_t received_packets = 0;
size_t lost_packets = 0;
size_t acked_pairs = 0;
size_t recoverable_losses = 0;
if (!packet_status_window_.empty()) {
ConstPacketStatusIterator it = ref_packet_status_;
do {
switch (it->second.status) {
case PacketStatus::Unacked:
++unacked_packets;
break;
case PacketStatus::Received:
++received_packets;
break;
case PacketStatus::Lost:
++lost_packets;
break;
default:
RTC_NOTREACHED();
}
auto next = std::next(it);
if (next == packet_status_window_.end())
next = packet_status_window_.begin();
if (next != ref_packet_status_) { // If we have a next packet...
RTC_CHECK_GE(next->second.send_time_ms, it->second.send_time_ms);
if (it->second.status != PacketStatus::Unacked &&
next->second.status != PacketStatus::Unacked) {
++acked_pairs;
if (it->second.status == PacketStatus::Lost &&
next->second.status == PacketStatus::Received) {
++recoverable_losses;
}
}
}
RTC_CHECK_LT(ForwardDiff(ReferenceSequenceNumber(), it->first),
kSeqNumHalf);
it = next;
} while (it != ref_packet_status_);
}
RTC_CHECK_EQ(plr_state_.num_received_packets_, received_packets);
RTC_CHECK_EQ(plr_state_.num_lost_packets_, lost_packets);
RTC_CHECK_EQ(packet_status_window_.size(),
unacked_packets + received_packets + lost_packets);
RTC_CHECK_EQ(rplr_state_.num_acked_pairs_, acked_pairs);
RTC_CHECK_EQ(rplr_state_.num_recoverable_losses_, recoverable_losses);
}
rtc::Optional<float>
TransportFeedbackPacketLossTracker::PlrState::GetMetric() const {
const size_t total = num_lost_packets_ + num_received_packets_;
if (total < min_num_acked_packets_) {
return rtc::Optional<float>();
} else {
return rtc::Optional<float>(
static_cast<float>(num_lost_packets_) / total);
}
}
rtc::Optional<float>
TransportFeedbackPacketLossTracker::RplrState::GetMetric() const {
if (num_acked_pairs_ < min_num_acked_pairs_) {
return rtc::Optional<float>();
} else {
return rtc::Optional<float>(
static_cast<float>(num_recoverable_losses_) / num_acked_pairs_);
}
}
} // namespace webrtc