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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/third_party/quiche/src/quic/core/congestion_control/hybrid_slow_start.h"
#include <algorithm>
#include "net/third_party/quiche/src/quic/platform/api/quic_logging.h"
namespace quic {
// Note(pwestin): the magic clamping numbers come from the original code in
// tcp_cubic.c.
const int64_t kHybridStartLowWindow = 16;
// Number of delay samples for detecting the increase of delay.
const uint32_t kHybridStartMinSamples = 8;
// Exit slow start if the min rtt has increased by more than 1/8th.
const int kHybridStartDelayFactorExp = 3; // 2^3 = 8
// The original paper specifies 2 and 8ms, but those have changed over time.
const int64_t kHybridStartDelayMinThresholdUs = 4000;
const int64_t kHybridStartDelayMaxThresholdUs = 16000;
HybridSlowStart::HybridSlowStart()
: started_(false),
hystart_found_(NOT_FOUND),
rtt_sample_count_(0),
current_min_rtt_(QuicTime::Delta::Zero()) {}
void HybridSlowStart::OnPacketAcked(QuicPacketNumber acked_packet_number) {
// OnPacketAcked gets invoked after ShouldExitSlowStart, so it's best to end
// the round when the final packet of the burst is received and start it on
// the next incoming ack.
if (IsEndOfRound(acked_packet_number)) {
started_ = false;
}
}
void HybridSlowStart::OnPacketSent(QuicPacketNumber packet_number) {
last_sent_packet_number_ = packet_number;
}
void HybridSlowStart::Restart() {
started_ = false;
hystart_found_ = NOT_FOUND;
}
void HybridSlowStart::StartReceiveRound(QuicPacketNumber last_sent) {
QUIC_DVLOG(1) << "Reset hybrid slow start @" << last_sent;
end_packet_number_ = last_sent;
current_min_rtt_ = QuicTime::Delta::Zero();
rtt_sample_count_ = 0;
started_ = true;
}
bool HybridSlowStart::IsEndOfRound(QuicPacketNumber ack) const {
return !end_packet_number_.IsInitialized() || end_packet_number_ <= ack;
}
bool HybridSlowStart::ShouldExitSlowStart(QuicTime::Delta latest_rtt,
QuicTime::Delta min_rtt,
QuicPacketCount congestion_window) {
if (!started_) {
// Time to start the hybrid slow start.
StartReceiveRound(last_sent_packet_number_);
}
if (hystart_found_ != NOT_FOUND) {
return true;
}
// Second detection parameter - delay increase detection.
// Compare the minimum delay (current_min_rtt_) of the current
// burst of packets relative to the minimum delay during the session.
// Note: we only look at the first few(8) packets in each burst, since we
// only want to compare the lowest RTT of the burst relative to previous
// bursts.
rtt_sample_count_++;
if (rtt_sample_count_ <= kHybridStartMinSamples) {
if (current_min_rtt_.IsZero() || current_min_rtt_ > latest_rtt) {
current_min_rtt_ = latest_rtt;
}
}
// We only need to check this once per round.
if (rtt_sample_count_ == kHybridStartMinSamples) {
// Divide min_rtt by 8 to get a rtt increase threshold for exiting.
int64_t min_rtt_increase_threshold_us =
min_rtt.ToMicroseconds() >> kHybridStartDelayFactorExp;
// Ensure the rtt threshold is never less than 2ms or more than 16ms.
min_rtt_increase_threshold_us = std::min(min_rtt_increase_threshold_us,
kHybridStartDelayMaxThresholdUs);
QuicTime::Delta min_rtt_increase_threshold =
QuicTime::Delta::FromMicroseconds(std::max(
min_rtt_increase_threshold_us, kHybridStartDelayMinThresholdUs));
if (current_min_rtt_ > min_rtt + min_rtt_increase_threshold) {
hystart_found_ = DELAY;
}
}
// Exit from slow start if the cwnd is greater than 16 and
// increasing delay is found.
return congestion_window >= kHybridStartLowWindow &&
hystart_found_ != NOT_FOUND;
}
} // namespace quic