| Index: net/quic/congestion_control/tcp_cubic_bytes_sender_test.cc
|
| diff --git a/net/quic/congestion_control/tcp_cubic_sender_test.cc b/net/quic/congestion_control/tcp_cubic_bytes_sender_test.cc
|
| similarity index 77%
|
| copy from net/quic/congestion_control/tcp_cubic_sender_test.cc
|
| copy to net/quic/congestion_control/tcp_cubic_bytes_sender_test.cc
|
| index a5e70ef9cadcafc455ad7190f32d9d32b9b6f364..3f442ce9009f98a3cd1ed693e26d8292fec3390b 100644
|
| --- a/net/quic/congestion_control/tcp_cubic_sender_test.cc
|
| +++ b/net/quic/congestion_control/tcp_cubic_bytes_sender_test.cc
|
| @@ -1,13 +1,14 @@
|
| -// Copyright (c) 2012 The Chromium Authors. All rights reserved.
|
| +// Copyright (c) 2015 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/quic/congestion_control/tcp_cubic_bytes_sender.h"
|
| +
|
| #include <algorithm>
|
|
|
| #include "base/logging.h"
|
| #include "base/memory/scoped_ptr.h"
|
| #include "net/quic/congestion_control/rtt_stats.h"
|
| -#include "net/quic/congestion_control/tcp_cubic_sender.h"
|
| #include "net/quic/crypto/crypto_protocol.h"
|
| #include "net/quic/quic_protocol.h"
|
| #include "net/quic/quic_utils.h"
|
| @@ -15,8 +16,6 @@
|
| #include "net/quic/test_tools/quic_config_peer.h"
|
| #include "testing/gtest/include/gtest/gtest.h"
|
|
|
| -using std::min;
|
| -
|
| namespace net {
|
| namespace test {
|
|
|
| @@ -28,40 +27,30 @@ const uint32 kDefaultWindowTCP =
|
| kInitialCongestionWindowPackets * kDefaultTCPMSS;
|
| const float kRenoBeta = 0.7f; // Reno backoff factor.
|
|
|
| -class TcpCubicSenderPeer : public TcpCubicSender {
|
| +class TcpCubicBytesSenderPeer : public TcpCubicBytesSender {
|
| public:
|
| - TcpCubicSenderPeer(const QuicClock* clock, bool reno)
|
| - : TcpCubicSender(clock,
|
| - &rtt_stats_,
|
| - reno,
|
| - kInitialCongestionWindowPackets,
|
| - &stats_) {}
|
| -
|
| - QuicPacketCount congestion_window() {
|
| - return congestion_window_;
|
| - }
|
| -
|
| - QuicPacketCount slowstart_threshold() {
|
| - return slowstart_threshold_;
|
| - }
|
| + TcpCubicBytesSenderPeer(const QuicClock* clock, bool reno)
|
| + : TcpCubicBytesSender(clock,
|
| + &rtt_stats_,
|
| + reno,
|
| + kInitialCongestionWindowPackets,
|
| + &stats_) {}
|
|
|
| const HybridSlowStart& hybrid_slow_start() const {
|
| return hybrid_slow_start_;
|
| }
|
|
|
| - float GetRenoBeta() const {
|
| - return RenoBeta();
|
| - }
|
| + float GetRenoBeta() const { return RenoBeta(); }
|
|
|
| RttStats rtt_stats_;
|
| QuicConnectionStats stats_;
|
| };
|
|
|
| -class TcpCubicSenderTest : public ::testing::Test {
|
| +class TcpCubicBytesSenderTest : public ::testing::Test {
|
| protected:
|
| - TcpCubicSenderTest()
|
| + TcpCubicBytesSenderTest()
|
| : one_ms_(QuicTime::Delta::FromMilliseconds(1)),
|
| - sender_(new TcpCubicSenderPeer(&clock_, true)),
|
| + sender_(new TcpCubicBytesSenderPeer(&clock_, true)),
|
| sequence_number_(1),
|
| acked_sequence_number_(0),
|
| bytes_in_flight_(0) {
|
| @@ -71,15 +60,15 @@ class TcpCubicSenderTest : public ::testing::Test {
|
| int SendAvailableSendWindow() {
|
| // Send as long as TimeUntilSend returns Zero.
|
| int packets_sent = 0;
|
| - bool can_send = sender_->TimeUntilSend(
|
| - clock_.Now(), bytes_in_flight_, HAS_RETRANSMITTABLE_DATA).IsZero();
|
| + bool can_send = sender_->TimeUntilSend(clock_.Now(), bytes_in_flight_,
|
| + HAS_RETRANSMITTABLE_DATA).IsZero();
|
| while (can_send) {
|
| sender_->OnPacketSent(clock_.Now(), bytes_in_flight_, sequence_number_++,
|
| kDefaultTCPMSS, HAS_RETRANSMITTABLE_DATA);
|
| ++packets_sent;
|
| bytes_in_flight_ += kDefaultTCPMSS;
|
| - can_send = sender_->TimeUntilSend(
|
| - clock_.Now(), bytes_in_flight_, HAS_RETRANSMITTABLE_DATA).IsZero();
|
| + can_send = sender_->TimeUntilSend(clock_.Now(), bytes_in_flight_,
|
| + HAS_RETRANSMITTABLE_DATA).IsZero();
|
| }
|
| return packets_sent;
|
| }
|
| @@ -87,8 +76,7 @@ class TcpCubicSenderTest : public ::testing::Test {
|
| // Normal is that TCP acks every other segment.
|
| void AckNPackets(int n) {
|
| sender_->rtt_stats_.UpdateRtt(QuicTime::Delta::FromMilliseconds(60),
|
| - QuicTime::Delta::Zero(),
|
| - clock_.Now());
|
| + QuicTime::Delta::Zero(), clock_.Now());
|
| SendAlgorithmInterface::CongestionVector acked_packets;
|
| SendAlgorithmInterface::CongestionVector lost_packets;
|
| for (int i = 0; i < n; ++i) {
|
| @@ -96,8 +84,8 @@ class TcpCubicSenderTest : public ::testing::Test {
|
| acked_packets.push_back(
|
| std::make_pair(acked_sequence_number_, standard_packet_));
|
| }
|
| - sender_->OnCongestionEvent(
|
| - true, bytes_in_flight_, acked_packets, lost_packets);
|
| + sender_->OnCongestionEvent(true, bytes_in_flight_, acked_packets,
|
| + lost_packets);
|
| bytes_in_flight_ -= n * kDefaultTCPMSS;
|
| clock_.AdvanceTime(one_ms_);
|
| }
|
| @@ -110,8 +98,8 @@ class TcpCubicSenderTest : public ::testing::Test {
|
| lost_packets.push_back(
|
| std::make_pair(acked_sequence_number_, standard_packet_));
|
| }
|
| - sender_->OnCongestionEvent(
|
| - false, bytes_in_flight_, acked_packets, lost_packets);
|
| + sender_->OnCongestionEvent(false, bytes_in_flight_, acked_packets,
|
| + lost_packets);
|
| bytes_in_flight_ -= n * kDefaultTCPMSS;
|
| }
|
|
|
| @@ -120,31 +108,29 @@ class TcpCubicSenderTest : public ::testing::Test {
|
| SendAlgorithmInterface::CongestionVector acked_packets;
|
| SendAlgorithmInterface::CongestionVector lost_packets;
|
| lost_packets.push_back(std::make_pair(sequence_number, standard_packet_));
|
| - sender_->OnCongestionEvent(
|
| - false, bytes_in_flight_, acked_packets, lost_packets);
|
| + sender_->OnCongestionEvent(false, bytes_in_flight_, acked_packets,
|
| + lost_packets);
|
| bytes_in_flight_ -= kDefaultTCPMSS;
|
| }
|
|
|
| const QuicTime::Delta one_ms_;
|
| MockClock clock_;
|
| - scoped_ptr<TcpCubicSenderPeer> sender_;
|
| + scoped_ptr<TcpCubicBytesSenderPeer> sender_;
|
| QuicPacketSequenceNumber sequence_number_;
|
| QuicPacketSequenceNumber acked_sequence_number_;
|
| QuicByteCount bytes_in_flight_;
|
| TransmissionInfo standard_packet_;
|
| };
|
|
|
| -TEST_F(TcpCubicSenderTest, SimpleSender) {
|
| +TEST_F(TcpCubicBytesSenderTest, SimpleSender) {
|
| // At startup make sure we are at the default.
|
| EXPECT_EQ(kDefaultWindowTCP, sender_->GetCongestionWindow());
|
| // At startup make sure we can send.
|
| - EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(),
|
| - 0,
|
| - HAS_RETRANSMITTABLE_DATA).IsZero());
|
| + EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(), 0, HAS_RETRANSMITTABLE_DATA)
|
| + .IsZero());
|
| // Make sure we can send.
|
| - EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(),
|
| - 0,
|
| - HAS_RETRANSMITTABLE_DATA).IsZero());
|
| + EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(), 0, HAS_RETRANSMITTABLE_DATA)
|
| + .IsZero());
|
| // And that window is un-affected.
|
| EXPECT_EQ(kDefaultWindowTCP, sender_->GetCongestionWindow());
|
|
|
| @@ -155,17 +141,15 @@ TEST_F(TcpCubicSenderTest, SimpleSender) {
|
| HAS_RETRANSMITTABLE_DATA).IsZero());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, ApplicationLimitedSlowStart) {
|
| +TEST_F(TcpCubicBytesSenderTest, ApplicationLimitedSlowStart) {
|
| // Send exactly 10 packets and ensure the CWND ends at 14 packets.
|
| const int kNumberOfAcks = 5;
|
| // At startup make sure we can send.
|
| - EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(),
|
| - 0,
|
| - HAS_RETRANSMITTABLE_DATA).IsZero());
|
| + EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(), 0, HAS_RETRANSMITTABLE_DATA)
|
| + .IsZero());
|
| // Make sure we can send.
|
| - EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(),
|
| - 0,
|
| - HAS_RETRANSMITTABLE_DATA).IsZero());
|
| + EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(), 0, HAS_RETRANSMITTABLE_DATA)
|
| + .IsZero());
|
|
|
| SendAvailableSendWindow();
|
| for (int i = 0; i < kNumberOfAcks; ++i) {
|
| @@ -174,22 +158,19 @@ TEST_F(TcpCubicSenderTest, ApplicationLimitedSlowStart) {
|
| QuicByteCount bytes_to_send = sender_->GetCongestionWindow();
|
| // It's expected 2 acks will arrive when the bytes_in_flight are greater than
|
| // half the CWND.
|
| - EXPECT_EQ(kDefaultWindowTCP + kDefaultTCPMSS * 2 * 2,
|
| - bytes_to_send);
|
| + EXPECT_EQ(kDefaultWindowTCP + kDefaultTCPMSS * 2 * 2, bytes_to_send);
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, ExponentialSlowStart) {
|
| +TEST_F(TcpCubicBytesSenderTest, ExponentialSlowStart) {
|
| const int kNumberOfAcks = 20;
|
| // At startup make sure we can send.
|
| - EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(),
|
| - 0,
|
| - HAS_RETRANSMITTABLE_DATA).IsZero());
|
| + EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(), 0, HAS_RETRANSMITTABLE_DATA)
|
| + .IsZero());
|
| EXPECT_FALSE(sender_->HasReliableBandwidthEstimate());
|
| EXPECT_EQ(QuicBandwidth::Zero(), sender_->BandwidthEstimate());
|
| // Make sure we can send.
|
| - EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(),
|
| - 0,
|
| - HAS_RETRANSMITTABLE_DATA).IsZero());
|
| + EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(), 0, HAS_RETRANSMITTABLE_DATA)
|
| + .IsZero());
|
|
|
| for (int i = 0; i < kNumberOfAcks; ++i) {
|
| // Send our full send window.
|
| @@ -204,14 +185,14 @@ TEST_F(TcpCubicSenderTest, ExponentialSlowStart) {
|
| sender_->BandwidthEstimate());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, SlowStartAckTrain) {
|
| +TEST_F(TcpCubicBytesSenderTest, SlowStartAckTrain) {
|
| sender_->SetNumEmulatedConnections(1);
|
|
|
| // Make sure that we fall out of slow start when we send ACK train longer
|
| // than half the RTT, in this test case 30ms, which is more than 30 calls to
|
| // Ack2Packets in one round.
|
| // Since we start at 10 packet first round will be 5 second round 10 etc
|
| - // Hence we should pass 30 at 65 = 5 + 10 + 20 + 30
|
| + // Hence we should pass 30 at 65 = 5 + 10 + 20 + 30.
|
| const int kNumberOfAcks = 65;
|
| for (int i = 0; i < kNumberOfAcks; ++i) {
|
| // Send our full send window.
|
| @@ -237,18 +218,16 @@ TEST_F(TcpCubicSenderTest, SlowStartAckTrain) {
|
| expected_send_window += kDefaultTCPMSS;
|
| EXPECT_EQ(expected_send_window, sender_->GetCongestionWindow());
|
| EXPECT_EQ(expected_ss_tresh, sender_->GetSlowStartThreshold());
|
| - EXPECT_EQ(140u, sender_->slowstart_threshold());
|
|
|
| // Now RTO and ensure slow start gets reset.
|
| EXPECT_TRUE(sender_->hybrid_slow_start().started());
|
| sender_->OnRetransmissionTimeout(true);
|
| EXPECT_FALSE(sender_->hybrid_slow_start().started());
|
| EXPECT_EQ(2 * kDefaultTCPMSS, sender_->GetCongestionWindow());
|
| - EXPECT_EQ(expected_send_window / 2 / kDefaultTCPMSS,
|
| - sender_->slowstart_threshold());
|
| + EXPECT_EQ(expected_send_window / 2, sender_->GetSlowStartThreshold());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, SlowStartPacketLoss) {
|
| +TEST_F(TcpCubicBytesSenderTest, SlowStartPacketLoss) {
|
| sender_->SetNumEmulatedConnections(1);
|
| const int kNumberOfAcks = 10;
|
| for (int i = 0; i < kNumberOfAcks; ++i) {
|
| @@ -257,8 +236,8 @@ TEST_F(TcpCubicSenderTest, SlowStartPacketLoss) {
|
| AckNPackets(2);
|
| }
|
| SendAvailableSendWindow();
|
| - QuicByteCount expected_send_window = kDefaultWindowTCP +
|
| - (kDefaultTCPMSS * 2 * kNumberOfAcks);
|
| + QuicByteCount expected_send_window =
|
| + kDefaultWindowTCP + (kDefaultTCPMSS * 2 * kNumberOfAcks);
|
| EXPECT_EQ(expected_send_window, sender_->GetCongestionWindow());
|
|
|
| // Lose a packet to exit slow start.
|
| @@ -293,20 +272,20 @@ TEST_F(TcpCubicSenderTest, SlowStartPacketLoss) {
|
| EXPECT_FALSE(sender_->hybrid_slow_start().started());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, NoPRRWhenLessThanOnePacketInFlight) {
|
| +TEST_F(TcpCubicBytesSenderTest, NoPRRWhenLessThanOnePacketInFlight) {
|
| SendAvailableSendWindow();
|
| LoseNPackets(kInitialCongestionWindowPackets - 1);
|
| AckNPackets(1);
|
| // PRR will allow 2 packets for every ack during recovery.
|
| EXPECT_EQ(2, SendAvailableSendWindow());
|
| // Simulate abandoning all packets by supplying a bytes_in_flight of 0.
|
| - // PRR should now allow a packet to be sent, even though prr's state
|
| - // variables believe it has sent enough packets.
|
| + // PRR should now allow a packet to be sent, even though prr's state variables
|
| + // believe it has sent enough packets.
|
| EXPECT_EQ(QuicTime::Delta::Zero(),
|
| sender_->TimeUntilSend(clock_.Now(), 0, HAS_RETRANSMITTABLE_DATA));
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, SlowStartPacketLossPRR) {
|
| +TEST_F(TcpCubicBytesSenderTest, SlowStartPacketLossPRR) {
|
| sender_->SetNumEmulatedConnections(1);
|
| // Test based on the first example in RFC6937.
|
| // Ack 10 packets in 5 acks to raise the CWND to 20, as in the example.
|
| @@ -317,8 +296,8 @@ TEST_F(TcpCubicSenderTest, SlowStartPacketLossPRR) {
|
| AckNPackets(2);
|
| }
|
| SendAvailableSendWindow();
|
| - QuicByteCount expected_send_window = kDefaultWindowTCP +
|
| - (kDefaultTCPMSS * 2 * kNumberOfAcks);
|
| + QuicByteCount expected_send_window =
|
| + kDefaultWindowTCP + (kDefaultTCPMSS * 2 * kNumberOfAcks);
|
| EXPECT_EQ(expected_send_window, sender_->GetCongestionWindow());
|
|
|
| LoseNPackets(1);
|
| @@ -355,7 +334,7 @@ TEST_F(TcpCubicSenderTest, SlowStartPacketLossPRR) {
|
| EXPECT_EQ(expected_send_window, sender_->GetCongestionWindow());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, SlowStartBurstPacketLossPRR) {
|
| +TEST_F(TcpCubicBytesSenderTest, SlowStartBurstPacketLossPRR) {
|
| sender_->SetNumEmulatedConnections(1);
|
| // Test based on the second example in RFC6937, though we also implement
|
| // forward acknowledgements, so the first two incoming acks will trigger
|
| @@ -368,8 +347,8 @@ TEST_F(TcpCubicSenderTest, SlowStartBurstPacketLossPRR) {
|
| AckNPackets(2);
|
| }
|
| SendAvailableSendWindow();
|
| - QuicByteCount expected_send_window = kDefaultWindowTCP +
|
| - (kDefaultTCPMSS * 2 * kNumberOfAcks);
|
| + QuicByteCount expected_send_window =
|
| + kDefaultWindowTCP + (kDefaultTCPMSS * 2 * kNumberOfAcks);
|
| EXPECT_EQ(expected_send_window, sender_->GetCongestionWindow());
|
|
|
| // Lose one more than the congestion window reduction, so that after loss,
|
| @@ -380,15 +359,15 @@ TEST_F(TcpCubicSenderTest, SlowStartBurstPacketLossPRR) {
|
| LoseNPackets(num_packets_to_lose);
|
| // Immediately after the loss, ensure at least one packet can be sent.
|
| // Losses without subsequent acks can occur with timer based loss detection.
|
| - EXPECT_TRUE(sender_->TimeUntilSend(
|
| - clock_.Now(), bytes_in_flight_, HAS_RETRANSMITTABLE_DATA).IsZero());
|
| + EXPECT_TRUE(sender_->TimeUntilSend(clock_.Now(), bytes_in_flight_,
|
| + HAS_RETRANSMITTABLE_DATA).IsZero());
|
| AckNPackets(1);
|
|
|
| // We should now have fallen out of slow start with a reduced window.
|
| expected_send_window *= kRenoBeta;
|
| EXPECT_EQ(expected_send_window, sender_->GetCongestionWindow());
|
|
|
| - // Only 2 packets should be allowed to be sent, per PRR-SSRB
|
| + // Only 2 packets should be allowed to be sent, per PRR-SSRB.
|
| EXPECT_EQ(2, SendAvailableSendWindow());
|
|
|
| // Ack the next packet, which triggers another loss.
|
| @@ -412,25 +391,25 @@ TEST_F(TcpCubicSenderTest, SlowStartBurstPacketLossPRR) {
|
| }
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, RTOCongestionWindow) {
|
| +TEST_F(TcpCubicBytesSenderTest, RTOCongestionWindow) {
|
| EXPECT_EQ(kDefaultWindowTCP, sender_->GetCongestionWindow());
|
| - // Expect the window to decrease to the minimum once the RTO fires
|
| - // and slow start threshold to be set to 1/2 of the CWND.
|
| + // Expect the window to decrease to the minimum once the RTO fires and slow
|
| + // start threshold to be set to 1/2 of the CWND.
|
| sender_->OnRetransmissionTimeout(true);
|
| EXPECT_EQ(2 * kDefaultTCPMSS, sender_->GetCongestionWindow());
|
| - EXPECT_EQ(5u, sender_->slowstart_threshold());
|
| + EXPECT_EQ(5u * kDefaultTCPMSS, sender_->GetSlowStartThreshold());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, RTOCongestionWindowNoRetransmission) {
|
| +TEST_F(TcpCubicBytesSenderTest, RTOCongestionWindowNoRetransmission) {
|
| EXPECT_EQ(kDefaultWindowTCP, sender_->GetCongestionWindow());
|
|
|
| - // Expect the window to remain unchanged if the RTO fires but no
|
| - // packets are retransmitted.
|
| + // Expect the window to remain unchanged if the RTO fires but no packets are
|
| + // retransmitted.
|
| sender_->OnRetransmissionTimeout(false);
|
| EXPECT_EQ(kDefaultWindowTCP, sender_->GetCongestionWindow());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, RetransmissionDelay) {
|
| +TEST_F(TcpCubicBytesSenderTest, RetransmissionDelay) {
|
| const int64 kRttMs = 10;
|
| const int64 kDeviationMs = 3;
|
| EXPECT_EQ(QuicTime::Delta::Zero(), sender_->RetransmissionDelay());
|
| @@ -438,9 +417,9 @@ TEST_F(TcpCubicSenderTest, RetransmissionDelay) {
|
| sender_->rtt_stats_.UpdateRtt(QuicTime::Delta::FromMilliseconds(kRttMs),
|
| QuicTime::Delta::Zero(), clock_.Now());
|
|
|
| - // Initial value is to set the median deviation to half of the initial
|
| - // rtt, the median in then multiplied by a factor of 4 and finally the
|
| - // smoothed rtt is added which is the initial rtt.
|
| + // Initial value is to set the median deviation to half of the initial rtt,
|
| + // the median in then multiplied by a factor of 4 and finally the smoothed rtt
|
| + // is added which is the initial rtt.
|
| QuicTime::Delta expected_delay =
|
| QuicTime::Delta::FromMilliseconds(kRttMs + kRttMs / 2 * 4);
|
| EXPECT_EQ(expected_delay, sender_->RetransmissionDelay());
|
| @@ -458,15 +437,14 @@ TEST_F(TcpCubicSenderTest, RetransmissionDelay) {
|
|
|
| EXPECT_NEAR(kRttMs, sender_->rtt_stats_.smoothed_rtt().ToMilliseconds(), 1);
|
| EXPECT_NEAR(expected_delay.ToMilliseconds(),
|
| - sender_->RetransmissionDelay().ToMilliseconds(),
|
| - 1);
|
| - EXPECT_EQ(static_cast<int64>(
|
| - sender_->GetCongestionWindow() * kNumMicrosPerSecond /
|
| - sender_->rtt_stats_.smoothed_rtt().ToMicroseconds()),
|
| - sender_->BandwidthEstimate().ToBytesPerSecond());
|
| + sender_->RetransmissionDelay().ToMilliseconds(), 1);
|
| + EXPECT_EQ(
|
| + static_cast<int64>(sender_->GetCongestionWindow() * kNumMicrosPerSecond /
|
| + sender_->rtt_stats_.smoothed_rtt().ToMicroseconds()),
|
| + sender_->BandwidthEstimate().ToBytesPerSecond());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, MultipleLossesInOneWindow) {
|
| +TEST_F(TcpCubicBytesSenderTest, MultipleLossesInOneWindow) {
|
| SendAvailableSendWindow();
|
| const QuicByteCount initial_window = sender_->GetCongestionWindow();
|
| LosePacket(acked_sequence_number_ + 1);
|
| @@ -482,7 +460,7 @@ TEST_F(TcpCubicSenderTest, MultipleLossesInOneWindow) {
|
| EXPECT_GT(post_loss_window, sender_->GetCongestionWindow());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, DontTrackAckPackets) {
|
| +TEST_F(TcpCubicBytesSenderTest, DontTrackAckPackets) {
|
| // Send a packet with no retransmittable data, and ensure it's not tracked.
|
| EXPECT_FALSE(sender_->OnPacketSent(clock_.Now(), bytes_in_flight_,
|
| sequence_number_++, kDefaultTCPMSS,
|
| @@ -494,41 +472,30 @@ TEST_F(TcpCubicSenderTest, DontTrackAckPackets) {
|
| HAS_RETRANSMITTABLE_DATA));
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, ConfigureInitialWindow) {
|
| +TEST_F(TcpCubicBytesSenderTest, ConfigureMaxInitialWindow) {
|
| QuicConfig config;
|
|
|
| // Verify that kCOPT: kIW10 forces the congestion window to the default of 10.
|
| QuicTagVector options;
|
| options.push_back(kIW10);
|
| QuicConfigPeer::SetReceivedConnectionOptions(&config, options);
|
| - sender_->SetFromConfig(config, Perspective::IS_SERVER,
|
| - /* using_pacing= */ false);
|
| - EXPECT_EQ(10u, sender_->congestion_window());
|
| -}
|
| -
|
| -TEST_F(TcpCubicSenderTest, ConfigureMinimumWindow) {
|
| - QuicConfig config;
|
| -
|
| - // Verify that kCOPT: kMIN1 forces the min CWND to 1 packet.
|
| - QuicTagVector options;
|
| - options.push_back(kMIN1);
|
| - QuicConfigPeer::SetReceivedConnectionOptions(&config, options);
|
| - sender_->SetFromConfig(config, Perspective::IS_SERVER,
|
| + sender_->SetFromConfig(config,
|
| + /* is_server= */ Perspective::IS_SERVER,
|
| /* using_pacing= */ false);
|
| - sender_->OnRetransmissionTimeout(true);
|
| - EXPECT_EQ(1u, sender_->congestion_window());
|
| + EXPECT_EQ(10u * kDefaultTCPMSS, sender_->GetCongestionWindow());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, DisableAckTrainDetectionWithPacing) {
|
| +TEST_F(TcpCubicBytesSenderTest, DisableAckTrainDetectionWithPacing) {
|
| EXPECT_TRUE(sender_->hybrid_slow_start().ack_train_detection());
|
|
|
| QuicConfig config;
|
| - sender_->SetFromConfig(config, Perspective::IS_SERVER,
|
| + sender_->SetFromConfig(config,
|
| + /* is_server= */ Perspective::IS_SERVER,
|
| /* using_pacing= */ true);
|
| EXPECT_FALSE(sender_->hybrid_slow_start().ack_train_detection());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, 2ConnectionCongestionAvoidanceAtEndOfRecovery) {
|
| +TEST_F(TcpCubicBytesSenderTest, 2ConnectionCongestionAvoidanceAtEndOfRecovery) {
|
| sender_->SetNumEmulatedConnections(2);
|
| // Ack 10 packets in 5 acks to raise the CWND to 20.
|
| const int kNumberOfAcks = 5;
|
| @@ -538,8 +505,8 @@ TEST_F(TcpCubicSenderTest, 2ConnectionCongestionAvoidanceAtEndOfRecovery) {
|
| AckNPackets(2);
|
| }
|
| SendAvailableSendWindow();
|
| - QuicByteCount expected_send_window = kDefaultWindowTCP +
|
| - (kDefaultTCPMSS * 2 * kNumberOfAcks);
|
| + QuicByteCount expected_send_window =
|
| + kDefaultWindowTCP + (kDefaultTCPMSS * 2 * kNumberOfAcks);
|
| EXPECT_EQ(expected_send_window, sender_->GetCongestionWindow());
|
|
|
| LoseNPackets(1);
|
| @@ -584,7 +551,7 @@ TEST_F(TcpCubicSenderTest, 2ConnectionCongestionAvoidanceAtEndOfRecovery) {
|
| EXPECT_EQ(expected_send_window, sender_->GetCongestionWindow());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, 1ConnectionCongestionAvoidanceAtEndOfRecovery) {
|
| +TEST_F(TcpCubicBytesSenderTest, 1ConnectionCongestionAvoidanceAtEndOfRecovery) {
|
| sender_->SetNumEmulatedConnections(1);
|
| // Ack 10 packets in 5 acks to raise the CWND to 20.
|
| const int kNumberOfAcks = 5;
|
| @@ -594,8 +561,8 @@ TEST_F(TcpCubicSenderTest, 1ConnectionCongestionAvoidanceAtEndOfRecovery) {
|
| AckNPackets(2);
|
| }
|
| SendAvailableSendWindow();
|
| - QuicByteCount expected_send_window = kDefaultWindowTCP +
|
| - (kDefaultTCPMSS * 2 * kNumberOfAcks);
|
| + QuicByteCount expected_send_window =
|
| + kDefaultWindowTCP + (kDefaultTCPMSS * 2 * kNumberOfAcks);
|
| EXPECT_EQ(expected_send_window, sender_->GetCongestionWindow());
|
|
|
| LoseNPackets(1);
|
| @@ -630,7 +597,7 @@ TEST_F(TcpCubicSenderTest, 1ConnectionCongestionAvoidanceAtEndOfRecovery) {
|
| EXPECT_EQ(expected_send_window, sender_->GetCongestionWindow());
|
| }
|
|
|
| -TEST_F(TcpCubicSenderTest, BandwidthResumption) {
|
| +TEST_F(TcpCubicBytesSenderTest, BandwidthResumption) {
|
| // Test that when provided with CachedNetworkParameters and opted in to the
|
| // bandwidth resumption experiment, that the TcpCubicSender sets initial CWND
|
| // appropriately.
|
| @@ -639,7 +606,7 @@ TEST_F(TcpCubicSenderTest, BandwidthResumption) {
|
| CachedNetworkParameters cached_network_params;
|
| const QuicPacketCount kNumberOfPackets = 123;
|
| const int kBandwidthEstimateBytesPerSecond =
|
| - kNumberOfPackets * kMaxPacketSize;
|
| + kNumberOfPackets * kDefaultTCPMSS;
|
| cached_network_params.set_bandwidth_estimate_bytes_per_second(
|
| kBandwidthEstimateBytesPerSecond);
|
| cached_network_params.set_min_rtt_ms(1000);
|
| @@ -648,26 +615,26 @@ TEST_F(TcpCubicSenderTest, BandwidthResumption) {
|
| cached_network_params.set_timestamp(clock_.WallNow().ToUNIXSeconds() -
|
| (kNumSecondsPerHour + 1));
|
| EXPECT_FALSE(sender_->ResumeConnectionState(cached_network_params));
|
| - EXPECT_EQ(10u, sender_->congestion_window());
|
| + EXPECT_EQ(10u * kDefaultTCPMSS, sender_->GetCongestionWindow());
|
|
|
| // If the estimate is new enough, make sure it is used.
|
| cached_network_params.set_timestamp(clock_.WallNow().ToUNIXSeconds() -
|
| (kNumSecondsPerHour - 1));
|
| EXPECT_TRUE(sender_->ResumeConnectionState(cached_network_params));
|
| - EXPECT_EQ(kNumberOfPackets, sender_->congestion_window());
|
| + EXPECT_EQ(kNumberOfPackets * kDefaultTCPMSS, sender_->GetCongestionWindow());
|
|
|
| // Resumed CWND is limited to be in a sensible range.
|
| cached_network_params.set_bandwidth_estimate_bytes_per_second(
|
| - (kMaxCongestionWindowForBandwidthResumption + 1) * kMaxPacketSize);
|
| + (kMaxCongestionWindowForBandwidthResumption + 1) * kDefaultTCPMSS);
|
| EXPECT_TRUE(sender_->ResumeConnectionState(cached_network_params));
|
| - EXPECT_EQ(kMaxCongestionWindowForBandwidthResumption,
|
| - sender_->congestion_window());
|
| + EXPECT_EQ(kMaxCongestionWindowForBandwidthResumption * kDefaultTCPMSS,
|
| + sender_->GetCongestionWindow());
|
|
|
| cached_network_params.set_bandwidth_estimate_bytes_per_second(
|
| - (kMinCongestionWindowForBandwidthResumption - 1) * kMaxPacketSize);
|
| + (kMinCongestionWindowForBandwidthResumption - 1) * kDefaultTCPMSS);
|
| EXPECT_TRUE(sender_->ResumeConnectionState(cached_network_params));
|
| - EXPECT_EQ(kMinCongestionWindowForBandwidthResumption,
|
| - sender_->congestion_window());
|
| + EXPECT_EQ(kMinCongestionWindowForBandwidthResumption * kDefaultTCPMSS,
|
| + sender_->GetCongestionWindow());
|
| }
|
|
|
| } // namespace test
|
|
|
Chromium Code Reviews
Issue 1009023002:
Create a TcpCubicSender in QUIC that tracks the congestion window in (Closed)
Base URL: https://chromium.googlesource.com/chromium/src.git@Remove_flag_quic_enable_pacing_88152071