| Index: net/quic/quic_sent_packet_manager_test.cc
|
| diff --git a/net/quic/quic_sent_packet_manager_test.cc b/net/quic/quic_sent_packet_manager_test.cc
|
| deleted file mode 100644
|
| index 82d45d61e84a1a01604c2f14e298a4168b2ff771..0000000000000000000000000000000000000000
|
| --- a/net/quic/quic_sent_packet_manager_test.cc
|
| +++ /dev/null
|
| @@ -1,1804 +0,0 @@
|
| -// Copyright 2013 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/quic_sent_packet_manager.h"
|
| -
|
| -#include "base/stl_util.h"
|
| -#include "net/quic/quic_flags.h"
|
| -#include "net/quic/test_tools/quic_config_peer.h"
|
| -#include "net/quic/test_tools/quic_sent_packet_manager_peer.h"
|
| -#include "net/quic/test_tools/quic_test_utils.h"
|
| -#include "testing/gmock/include/gmock/gmock.h"
|
| -#include "testing/gtest/include/gtest/gtest.h"
|
| -
|
| -using std::vector;
|
| -using testing::AnyNumber;
|
| -using testing::ElementsAre;
|
| -using testing::IsEmpty;
|
| -using testing::Not;
|
| -using testing::Pair;
|
| -using testing::Pointwise;
|
| -using testing::Return;
|
| -using testing::StrictMock;
|
| -using testing::_;
|
| -
|
| -namespace net {
|
| -namespace test {
|
| -namespace {
|
| -
|
| -// Default packet length.
|
| -const uint32 kDefaultLength = 1000;
|
| -
|
| -// Matcher to check the key of the key-value pair it receives as first argument
|
| -// equals its second argument.
|
| -MATCHER(KeyEq, "") {
|
| - return std::tr1::get<0>(arg).first == std::tr1::get<1>(arg);
|
| -}
|
| -
|
| -class MockDebugDelegate : public QuicSentPacketManager::DebugDelegate {
|
| - public:
|
| - MOCK_METHOD2(OnSpuriousPacketRetransmission,
|
| - void(TransmissionType transmission_type,
|
| - QuicByteCount byte_size));
|
| -};
|
| -
|
| -class QuicSentPacketManagerTest : public ::testing::TestWithParam<bool> {
|
| - protected:
|
| - QuicSentPacketManagerTest()
|
| - : manager_(true, &clock_, &stats_, kCubic, kNack, false),
|
| - send_algorithm_(new StrictMock<MockSendAlgorithm>),
|
| - network_change_visitor_(new StrictMock<MockNetworkChangeVisitor>) {
|
| - QuicSentPacketManagerPeer::SetSendAlgorithm(&manager_, send_algorithm_);
|
| - // Disable tail loss probes for most tests.
|
| - QuicSentPacketManagerPeer::SetMaxTailLossProbes(&manager_, 0);
|
| - // Advance the time 1s so the send times are never QuicTime::Zero.
|
| - clock_.AdvanceTime(QuicTime::Delta::FromMilliseconds(1000));
|
| - manager_.set_network_change_visitor(network_change_visitor_.get());
|
| -
|
| - EXPECT_CALL(*send_algorithm_, HasReliableBandwidthEstimate())
|
| - .Times(AnyNumber());
|
| - EXPECT_CALL(*send_algorithm_, BandwidthEstimate())
|
| - .Times(AnyNumber())
|
| - .WillRepeatedly(Return(QuicBandwidth::Zero()));
|
| - EXPECT_CALL(*send_algorithm_, InSlowStart()).Times(AnyNumber());
|
| - EXPECT_CALL(*send_algorithm_, InRecovery()).Times(AnyNumber());
|
| - }
|
| -
|
| - ~QuicSentPacketManagerTest() override { STLDeleteElements(&packets_); }
|
| -
|
| - QuicByteCount BytesInFlight() {
|
| - return QuicSentPacketManagerPeer::GetBytesInFlight(&manager_);
|
| - }
|
| - void VerifyUnackedPackets(QuicPacketSequenceNumber* packets,
|
| - size_t num_packets) {
|
| - if (num_packets == 0) {
|
| - EXPECT_FALSE(manager_.HasUnackedPackets());
|
| - EXPECT_EQ(0u, QuicSentPacketManagerPeer::GetNumRetransmittablePackets(
|
| - &manager_));
|
| - return;
|
| - }
|
| -
|
| - EXPECT_TRUE(manager_.HasUnackedPackets());
|
| - EXPECT_EQ(packets[0], manager_.GetLeastUnacked());
|
| - for (size_t i = 0; i < num_packets; ++i) {
|
| - EXPECT_TRUE(manager_.IsUnacked(packets[i])) << packets[i];
|
| - }
|
| - }
|
| -
|
| - void VerifyRetransmittablePackets(QuicPacketSequenceNumber* packets,
|
| - size_t num_packets) {
|
| - EXPECT_EQ(num_packets,
|
| - QuicSentPacketManagerPeer::GetNumRetransmittablePackets(
|
| - &manager_));
|
| - for (size_t i = 0; i < num_packets; ++i) {
|
| - EXPECT_TRUE(manager_.HasRetransmittableFrames(packets[i]))
|
| - << " packets[" << i << "]:" << packets[i];
|
| - }
|
| - }
|
| -
|
| - void ExpectAck(QuicPacketSequenceNumber largest_observed) {
|
| - EXPECT_CALL(*send_algorithm_, OnCongestionEvent(
|
| - true, _, ElementsAre(Pair(largest_observed, _)), IsEmpty()));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - }
|
| -
|
| - void ExpectUpdatedRtt(QuicPacketSequenceNumber largest_observed) {
|
| - EXPECT_CALL(*send_algorithm_,
|
| - OnCongestionEvent(true, _, IsEmpty(), IsEmpty()));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - }
|
| -
|
| - void ExpectAckAndLoss(bool rtt_updated,
|
| - QuicPacketSequenceNumber largest_observed,
|
| - QuicPacketSequenceNumber lost_packet) {
|
| - EXPECT_CALL(*send_algorithm_, OnCongestionEvent(
|
| - rtt_updated, _, ElementsAre(Pair(largest_observed, _)),
|
| - ElementsAre(Pair(lost_packet, _))));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - }
|
| -
|
| - // |packets_acked| and |packets_lost| should be in sequence number order.
|
| - void ExpectAcksAndLosses(bool rtt_updated,
|
| - QuicPacketSequenceNumber* packets_acked,
|
| - size_t num_packets_acked,
|
| - QuicPacketSequenceNumber* packets_lost,
|
| - size_t num_packets_lost) {
|
| - vector<QuicPacketSequenceNumber> ack_vector;
|
| - for (size_t i = 0; i < num_packets_acked; ++i) {
|
| - ack_vector.push_back(packets_acked[i]);
|
| - }
|
| - vector<QuicPacketSequenceNumber> lost_vector;
|
| - for (size_t i = 0; i < num_packets_lost; ++i) {
|
| - lost_vector.push_back(packets_lost[i]);
|
| - }
|
| - EXPECT_CALL(*send_algorithm_,
|
| - OnCongestionEvent(rtt_updated, _,
|
| - Pointwise(KeyEq(), ack_vector),
|
| - Pointwise(KeyEq(), lost_vector)));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange()).
|
| - Times(AnyNumber());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange()).Times(AnyNumber());
|
| - }
|
| -
|
| - void RetransmitAndSendPacket(QuicPacketSequenceNumber old_sequence_number,
|
| - QuicPacketSequenceNumber new_sequence_number) {
|
| - QuicSentPacketManagerPeer::MarkForRetransmission(
|
| - &manager_, old_sequence_number, TLP_RETRANSMISSION);
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - QuicSentPacketManager::PendingRetransmission next_retransmission =
|
| - manager_.NextPendingRetransmission();
|
| - EXPECT_EQ(old_sequence_number, next_retransmission.sequence_number);
|
| - EXPECT_EQ(TLP_RETRANSMISSION,
|
| - next_retransmission.transmission_type);
|
| -
|
| - EXPECT_CALL(*send_algorithm_,
|
| - OnPacketSent(_, BytesInFlight(), new_sequence_number,
|
| - kDefaultLength, HAS_RETRANSMITTABLE_DATA))
|
| - .WillOnce(Return(true));
|
| - SerializedPacket packet(CreatePacket(new_sequence_number, false));
|
| - manager_.OnPacketSent(&packet,
|
| - old_sequence_number,
|
| - clock_.Now(),
|
| - kDefaultLength,
|
| - TLP_RETRANSMISSION,
|
| - HAS_RETRANSMITTABLE_DATA);
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::IsRetransmission(
|
| - &manager_, new_sequence_number));
|
| - }
|
| -
|
| - SerializedPacket CreateDataPacket(QuicPacketSequenceNumber sequence_number) {
|
| - return CreatePacket(sequence_number, true);
|
| - }
|
| -
|
| - SerializedPacket CreatePacket(QuicPacketSequenceNumber sequence_number,
|
| - bool retransmittable) {
|
| - packets_.push_back(new QuicEncryptedPacket(nullptr, kDefaultLength));
|
| - return SerializedPacket(
|
| - sequence_number, PACKET_6BYTE_SEQUENCE_NUMBER, packets_.back(), 0u,
|
| - retransmittable ? new RetransmittableFrames() : nullptr);
|
| - }
|
| -
|
| - SerializedPacket CreateFecPacket(QuicPacketSequenceNumber sequence_number) {
|
| - packets_.push_back(new QuicEncryptedPacket(nullptr, kDefaultLength));
|
| - SerializedPacket serialized(sequence_number, PACKET_6BYTE_SEQUENCE_NUMBER,
|
| - packets_.back(), 0u, nullptr);
|
| - serialized.is_fec_packet = true;
|
| - return serialized;
|
| - }
|
| -
|
| - void SendDataPacket(QuicPacketSequenceNumber sequence_number) {
|
| - EXPECT_CALL(*send_algorithm_,
|
| - OnPacketSent(_, BytesInFlight(), sequence_number, _, _))
|
| - .Times(1).WillOnce(Return(true));
|
| - SerializedPacket packet(CreateDataPacket(sequence_number));
|
| - manager_.OnPacketSent(&packet, 0, clock_.Now(),
|
| - packet.packet->length(), NOT_RETRANSMISSION,
|
| - HAS_RETRANSMITTABLE_DATA);
|
| - }
|
| -
|
| - void SendCryptoPacket(QuicPacketSequenceNumber sequence_number) {
|
| - EXPECT_CALL(*send_algorithm_,
|
| - OnPacketSent(_, BytesInFlight(), sequence_number,
|
| - kDefaultLength, HAS_RETRANSMITTABLE_DATA))
|
| - .Times(1).WillOnce(Return(true));
|
| - SerializedPacket packet(CreateDataPacket(sequence_number));
|
| - packet.retransmittable_frames->AddStreamFrame(
|
| - new QuicStreamFrame(1, false, 0, IOVector()));
|
| - packet.retransmittable_frames->set_encryption_level(ENCRYPTION_NONE);
|
| - manager_.OnPacketSent(&packet, 0, clock_.Now(),
|
| - packet.packet->length(), NOT_RETRANSMISSION,
|
| - HAS_RETRANSMITTABLE_DATA);
|
| - }
|
| -
|
| - void SendFecPacket(QuicPacketSequenceNumber sequence_number) {
|
| - EXPECT_CALL(*send_algorithm_,
|
| - OnPacketSent(_, BytesInFlight(), sequence_number,
|
| - kDefaultLength, HAS_RETRANSMITTABLE_DATA))
|
| - .Times(1).WillOnce(Return(true));
|
| - SerializedPacket packet(CreateFecPacket(sequence_number));
|
| - manager_.OnPacketSent(&packet, 0, clock_.Now(),
|
| - packet.packet->length(), NOT_RETRANSMISSION,
|
| - NO_RETRANSMITTABLE_DATA);
|
| - }
|
| -
|
| - void SendAckPacket(QuicPacketSequenceNumber sequence_number) {
|
| - EXPECT_CALL(*send_algorithm_,
|
| - OnPacketSent(_, BytesInFlight(), sequence_number,
|
| - kDefaultLength, NO_RETRANSMITTABLE_DATA))
|
| - .Times(1).WillOnce(Return(false));
|
| - SerializedPacket packet(CreatePacket(sequence_number, false));
|
| - manager_.OnPacketSent(&packet, 0, clock_.Now(),
|
| - packet.packet->length(), NOT_RETRANSMISSION,
|
| - NO_RETRANSMITTABLE_DATA);
|
| - }
|
| -
|
| - // Based on QuicConnection's WritePendingRetransmissions.
|
| - void RetransmitNextPacket(
|
| - QuicPacketSequenceNumber retransmission_sequence_number) {
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - EXPECT_CALL(*send_algorithm_,
|
| - OnPacketSent(_, _, retransmission_sequence_number,
|
| - kDefaultLength, HAS_RETRANSMITTABLE_DATA))
|
| - .Times(1).WillOnce(Return(true));
|
| - const QuicSentPacketManager::PendingRetransmission pending =
|
| - manager_.NextPendingRetransmission();
|
| - SerializedPacket packet(
|
| - CreatePacket(retransmission_sequence_number, false));
|
| - manager_.OnPacketSent(&packet, pending.sequence_number, clock_.Now(),
|
| - kDefaultLength, pending.transmission_type,
|
| - HAS_RETRANSMITTABLE_DATA);
|
| - }
|
| -
|
| - QuicSentPacketManager manager_;
|
| - vector<QuicEncryptedPacket*> packets_;
|
| - MockClock clock_;
|
| - QuicConnectionStats stats_;
|
| - MockSendAlgorithm* send_algorithm_;
|
| - scoped_ptr<MockNetworkChangeVisitor> network_change_visitor_;
|
| -};
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, IsUnacked) {
|
| - VerifyUnackedPackets(nullptr, 0);
|
| - SendDataPacket(1);
|
| -
|
| - QuicPacketSequenceNumber unacked[] = { 1 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - QuicPacketSequenceNumber retransmittable[] = { 1 };
|
| - VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, IsUnAckedRetransmit) {
|
| - SendDataPacket(1);
|
| - RetransmitAndSendPacket(1, 2);
|
| -
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::IsRetransmission(&manager_, 2));
|
| - QuicPacketSequenceNumber unacked[] = { 1, 2 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - QuicPacketSequenceNumber retransmittable[] = { 2 };
|
| - VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, RetransmitThenAck) {
|
| - SendDataPacket(1);
|
| - RetransmitAndSendPacket(1, 2);
|
| -
|
| - // Ack 2 but not 1.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 2;
|
| - ack_frame.missing_packets.insert(1);
|
| - ExpectAck(2);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -
|
| - // Packet 1 is unacked, pending, but not retransmittable.
|
| - QuicPacketSequenceNumber unacked[] = { 1 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, RetransmitThenAckBeforeSend) {
|
| - SendDataPacket(1);
|
| - QuicSentPacketManagerPeer::MarkForRetransmission(
|
| - &manager_, 1, TLP_RETRANSMISSION);
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| -
|
| - // Ack 1.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 1;
|
| - ExpectAck(1);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -
|
| - // There should no longer be a pending retransmission.
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| -
|
| - // No unacked packets remain.
|
| - VerifyUnackedPackets(nullptr, 0);
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| - EXPECT_EQ(0u, stats_.packets_spuriously_retransmitted);
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, RetransmitThenAckPrevious) {
|
| - SendDataPacket(1);
|
| - RetransmitAndSendPacket(1, 2);
|
| - QuicTime::Delta rtt = QuicTime::Delta::FromMilliseconds(15);
|
| - clock_.AdvanceTime(rtt);
|
| -
|
| - // Ack 1 but not 2.
|
| - ExpectAck(1);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 1;
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - // 2 remains unacked, but no packets have retransmittable data.
|
| - QuicPacketSequenceNumber unacked[] = { 2 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| -
|
| - EXPECT_EQ(1u, stats_.packets_spuriously_retransmitted);
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, RetransmitThenAckPreviousThenNackRetransmit) {
|
| - SendDataPacket(1);
|
| - RetransmitAndSendPacket(1, 2);
|
| - QuicTime::Delta rtt = QuicTime::Delta::FromMilliseconds(15);
|
| - clock_.AdvanceTime(rtt);
|
| -
|
| - // First, ACK packet 1 which makes packet 2 non-retransmittable.
|
| - ExpectAck(1);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 1;
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - SendDataPacket(3);
|
| - SendDataPacket(4);
|
| - SendDataPacket(5);
|
| - clock_.AdvanceTime(rtt);
|
| -
|
| - // Next, NACK packet 2 three times.
|
| - ack_frame.largest_observed = 3;
|
| - ack_frame.missing_packets.insert(2);
|
| - ExpectAck(3);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - ack_frame.largest_observed = 4;
|
| - ExpectAck(4);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - ack_frame.largest_observed = 5;
|
| - ExpectAckAndLoss(true, 5, 2);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - // No packets remain unacked.
|
| - VerifyUnackedPackets(nullptr, 0);
|
| - EXPECT_FALSE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| -
|
| - // Verify that the retransmission alarm would not fire,
|
| - // since there is no retransmittable data outstanding.
|
| - EXPECT_EQ(QuicTime::Zero(), manager_.GetRetransmissionTime());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest,
|
| - DISABLED_RetransmitTwiceThenAckPreviousBeforeSend) {
|
| - SendDataPacket(1);
|
| - RetransmitAndSendPacket(1, 2);
|
| -
|
| - // Fire the RTO, which will mark 2 for retransmission (but will not send it).
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| -
|
| - // Ack 1 but not 2, before 2 is able to be sent.
|
| - // Since 1 has been retransmitted, it has already been lost, and so the
|
| - // send algorithm is not informed that it has been ACK'd.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 1;
|
| - ExpectUpdatedRtt(1);
|
| - EXPECT_CALL(*send_algorithm_, RevertRetransmissionTimeout());
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - // Since 2 was marked for retransmit, when 1 is acked, 2 is kept for RTT.
|
| - QuicPacketSequenceNumber unacked[] = { 2 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - EXPECT_FALSE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| -
|
| - // Verify that the retransmission alarm would not fire,
|
| - // since there is no retransmittable data outstanding.
|
| - EXPECT_EQ(QuicTime::Zero(), manager_.GetRetransmissionTime());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, RetransmitTwiceThenAckFirst) {
|
| - StrictMock<MockDebugDelegate> debug_delegate;
|
| - EXPECT_CALL(debug_delegate, OnSpuriousPacketRetransmission(
|
| - TLP_RETRANSMISSION, kDefaultLength)).Times(2);
|
| - manager_.set_debug_delegate(&debug_delegate);
|
| -
|
| - SendDataPacket(1);
|
| - RetransmitAndSendPacket(1, 2);
|
| - RetransmitAndSendPacket(2, 3);
|
| - QuicTime::Delta rtt = QuicTime::Delta::FromMilliseconds(15);
|
| - clock_.AdvanceTime(rtt);
|
| -
|
| - // Ack 1 but not 2 or 3.
|
| - ExpectAck(1);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 1;
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - // 2 and 3 remain unacked, but no packets have retransmittable data.
|
| - QuicPacketSequenceNumber unacked[] = { 2, 3 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| -
|
| - // Ensure packet 2 is lost when 4 is sent and 3 and 4 are acked.
|
| - SendDataPacket(4);
|
| - ack_frame.largest_observed = 4;
|
| - ack_frame.missing_packets.insert(2);
|
| - QuicPacketSequenceNumber acked[] = { 3, 4 };
|
| - ExpectAcksAndLosses(true, acked, arraysize(acked), nullptr, 0);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - QuicPacketSequenceNumber unacked2[] = { 2 };
|
| - VerifyUnackedPackets(unacked2, arraysize(unacked2));
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| -
|
| - SendDataPacket(5);
|
| - ack_frame.largest_observed = 5;
|
| - ExpectAckAndLoss(true, 5, 2);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - VerifyUnackedPackets(nullptr, 0);
|
| - EXPECT_FALSE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| - EXPECT_EQ(2u, stats_.packets_spuriously_retransmitted);
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, LoseButDontRetransmitRevivedPacket) {
|
| - SendDataPacket(1);
|
| - SendDataPacket(2);
|
| - SendFecPacket(3);
|
| - SendDataPacket(4);
|
| -
|
| - // Ack 2 and 3, and mark 1 as revived.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 3;
|
| - ack_frame.missing_packets.insert(1);
|
| - ack_frame.revived_packets.insert(1);
|
| - QuicPacketSequenceNumber acked[] = { 2, 3 };
|
| - ExpectAcksAndLosses(true, acked, arraysize(acked), nullptr, 0);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - QuicPacketSequenceNumber unacked[] = { 1, 4 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| - QuicPacketSequenceNumber retransmittable[] = { 4 };
|
| - VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable));
|
| -
|
| - // Ack the 4th packet and expect the 1st to be considered lost.
|
| - ack_frame.largest_observed = 4;
|
| - ExpectAckAndLoss(true, 4, 1);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, MarkLostThenReviveAndDontRetransmitPacket) {
|
| - SendDataPacket(1);
|
| - SendDataPacket(2);
|
| - SendDataPacket(3);
|
| - SendDataPacket(4);
|
| - SendFecPacket(5);
|
| -
|
| - // Ack 2, 3, and 4, and expect the 1st to be considered lost.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 4;
|
| - ack_frame.missing_packets.insert(1);
|
| - QuicPacketSequenceNumber acked[] = { 2, 3, 4 };
|
| - QuicPacketSequenceNumber lost[] = { 1 };
|
| - ExpectAcksAndLosses(true, acked, arraysize(acked), lost, arraysize(lost));
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - QuicPacketSequenceNumber unacked[] = { 1, 5 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - QuicPacketSequenceNumber retransmittable[] = { 1 };
|
| - VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable));
|
| -
|
| - // Ack 5th packet (FEC) and revive 1st packet. 1st packet should now be
|
| - // removed from pending retransmissions map.
|
| - ack_frame.largest_observed = 5;
|
| - ack_frame.revived_packets.insert(1);
|
| - ExpectAck(5);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, TruncatedAck) {
|
| - SendDataPacket(1);
|
| - RetransmitAndSendPacket(1, 2);
|
| - RetransmitAndSendPacket(2, 3);
|
| - RetransmitAndSendPacket(3, 4);
|
| - RetransmitAndSendPacket(4, 5);
|
| -
|
| - // Truncated ack with 4 NACKs, so the first packet is lost.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 4;
|
| - ack_frame.missing_packets.insert(1);
|
| - ack_frame.missing_packets.insert(2);
|
| - ack_frame.missing_packets.insert(3);
|
| - ack_frame.missing_packets.insert(4);
|
| - ack_frame.is_truncated = true;
|
| -
|
| - QuicPacketSequenceNumber lost[] = { 1 };
|
| - ExpectAcksAndLosses(true, nullptr, 0, lost, arraysize(lost));
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -
|
| - // High water mark will be raised.
|
| - QuicPacketSequenceNumber unacked[] = { 2, 3, 4, 5 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - QuicPacketSequenceNumber retransmittable[] = { 5 };
|
| - VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, AckPreviousTransmissionThenTruncatedAck) {
|
| - SendDataPacket(1);
|
| - RetransmitAndSendPacket(1, 2);
|
| - RetransmitAndSendPacket(2, 3);
|
| - RetransmitAndSendPacket(3, 4);
|
| - SendDataPacket(5);
|
| - SendDataPacket(6);
|
| - SendDataPacket(7);
|
| - SendDataPacket(8);
|
| - SendDataPacket(9);
|
| -
|
| - // Ack previous transmission
|
| - {
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 2;
|
| - ack_frame.missing_packets.insert(1);
|
| - ExpectAck(2);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| - EXPECT_TRUE(manager_.IsUnacked(4));
|
| - }
|
| -
|
| - // Truncated ack with 4 NACKs
|
| - {
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 6;
|
| - ack_frame.missing_packets.insert(3);
|
| - ack_frame.missing_packets.insert(4);
|
| - ack_frame.missing_packets.insert(5);
|
| - ack_frame.missing_packets.insert(6);
|
| - ack_frame.is_truncated = true;
|
| - ExpectAckAndLoss(true, 1, 3);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| - }
|
| -
|
| - // High water mark will be raised.
|
| - QuicPacketSequenceNumber unacked[] = { 4, 5, 6, 7, 8, 9 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - QuicPacketSequenceNumber retransmittable[] = { 5, 6, 7, 8, 9 };
|
| - VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetLeastUnacked) {
|
| - EXPECT_EQ(1u, manager_.GetLeastUnacked());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetLeastUnackedUnacked) {
|
| - SendDataPacket(1);
|
| - EXPECT_EQ(1u, manager_.GetLeastUnacked());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetLeastUnackedUnackedFec) {
|
| - SendFecPacket(1);
|
| - EXPECT_EQ(1u, manager_.GetLeastUnacked());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetLeastUnackedAndDiscard) {
|
| - VerifyUnackedPackets(nullptr, 0);
|
| -
|
| - SendFecPacket(1);
|
| - EXPECT_EQ(1u, manager_.GetLeastUnacked());
|
| -
|
| - SendFecPacket(2);
|
| - EXPECT_EQ(1u, manager_.GetLeastUnacked());
|
| -
|
| - SendFecPacket(3);
|
| - EXPECT_EQ(1u, manager_.GetLeastUnacked());
|
| -
|
| - QuicPacketSequenceNumber unacked[] = { 1, 2, 3 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| -
|
| - // Ack 2, so there's an rtt update.
|
| - ExpectAck(2);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 2;
|
| - ack_frame.missing_packets.insert(1);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -
|
| - EXPECT_EQ(1u, manager_.GetLeastUnacked());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetSentTime) {
|
| - VerifyUnackedPackets(nullptr, 0);
|
| -
|
| - QuicTime sent_time = clock_.Now();
|
| - SendFecPacket(1);
|
| - QuicTime sent_time2 = clock_.Now();
|
| - SendFecPacket(2);
|
| - QuicPacketSequenceNumber unacked[] = { 1, 2 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| -
|
| - EXPECT_TRUE(manager_.HasUnackedPackets());
|
| - EXPECT_EQ(sent_time, QuicSentPacketManagerPeer::GetSentTime(&manager_, 1));
|
| - EXPECT_EQ(sent_time2, QuicSentPacketManagerPeer::GetSentTime(&manager_, 2));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, AckAckAndUpdateRtt) {
|
| - SendDataPacket(1);
|
| - SendAckPacket(2);
|
| -
|
| - // Now ack the ack and expect an RTT update.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 2;
|
| - ack_frame.delta_time_largest_observed =
|
| - QuicTime::Delta::FromMilliseconds(5);
|
| -
|
| - ExpectAck(1);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -
|
| - SendAckPacket(3);
|
| -
|
| - // Now ack the ack and expect only an RTT update.
|
| - ack_frame.largest_observed = 3;
|
| - ExpectUpdatedRtt(3);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, Rtt) {
|
| - QuicPacketSequenceNumber sequence_number = 1;
|
| - QuicTime::Delta expected_rtt = QuicTime::Delta::FromMilliseconds(15);
|
| - SendDataPacket(sequence_number);
|
| - clock_.AdvanceTime(QuicTime::Delta::FromMilliseconds(20));
|
| -
|
| - ExpectAck(sequence_number);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = sequence_number;
|
| - ack_frame.delta_time_largest_observed =
|
| - QuicTime::Delta::FromMilliseconds(5);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| - EXPECT_EQ(expected_rtt,
|
| - QuicSentPacketManagerPeer::GetRttStats(&manager_)->latest_rtt());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, RttWithInvalidDelta) {
|
| - // Expect that the RTT is equal to the local time elapsed, since the
|
| - // delta_time_largest_observed is larger than the local time elapsed
|
| - // and is hence invalid.
|
| - QuicPacketSequenceNumber sequence_number = 1;
|
| - QuicTime::Delta expected_rtt = QuicTime::Delta::FromMilliseconds(10);
|
| - SendDataPacket(sequence_number);
|
| - clock_.AdvanceTime(expected_rtt);
|
| -
|
| - ExpectAck(sequence_number);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = sequence_number;
|
| - ack_frame.delta_time_largest_observed =
|
| - QuicTime::Delta::FromMilliseconds(11);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| - EXPECT_EQ(expected_rtt,
|
| - QuicSentPacketManagerPeer::GetRttStats(&manager_)->latest_rtt());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, RttWithInfiniteDelta) {
|
| - // Expect that the RTT is equal to the local time elapsed, since the
|
| - // delta_time_largest_observed is infinite, and is hence invalid.
|
| - QuicPacketSequenceNumber sequence_number = 1;
|
| - QuicTime::Delta expected_rtt = QuicTime::Delta::FromMilliseconds(10);
|
| - SendDataPacket(sequence_number);
|
| - clock_.AdvanceTime(expected_rtt);
|
| -
|
| - ExpectAck(sequence_number);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = sequence_number;
|
| - ack_frame.delta_time_largest_observed = QuicTime::Delta::Infinite();
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| - EXPECT_EQ(expected_rtt,
|
| - QuicSentPacketManagerPeer::GetRttStats(&manager_)->latest_rtt());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, RttZeroDelta) {
|
| - // Expect that the RTT is the time between send and receive since the
|
| - // delta_time_largest_observed is zero.
|
| - QuicPacketSequenceNumber sequence_number = 1;
|
| - QuicTime::Delta expected_rtt = QuicTime::Delta::FromMilliseconds(10);
|
| - SendDataPacket(sequence_number);
|
| - clock_.AdvanceTime(expected_rtt);
|
| -
|
| - ExpectAck(sequence_number);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = sequence_number;
|
| - ack_frame.delta_time_largest_observed = QuicTime::Delta::Zero();
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| - EXPECT_EQ(expected_rtt,
|
| - QuicSentPacketManagerPeer::GetRttStats(&manager_)->latest_rtt());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, TailLossProbeTimeout) {
|
| - QuicSentPacketManagerPeer::SetMaxTailLossProbes(&manager_, 2);
|
| -
|
| - // Send 1 packet.
|
| - QuicPacketSequenceNumber sequence_number = 1;
|
| - SendDataPacket(sequence_number);
|
| -
|
| - // The first tail loss probe retransmits 1 packet.
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_EQ(QuicTime::Delta::Zero(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - manager_.MaybeRetransmitTailLossProbe();
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - RetransmitNextPacket(2);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| -
|
| - // The second tail loss probe retransmits 1 packet.
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_EQ(QuicTime::Delta::Zero(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - manager_.MaybeRetransmitTailLossProbe();
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - RetransmitNextPacket(3);
|
| - EXPECT_CALL(*send_algorithm_, TimeUntilSend(_, _, _)).WillOnce(Return(
|
| - QuicTime::Delta::Infinite()));
|
| - EXPECT_EQ(QuicTime::Delta::Infinite(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| -
|
| - // Ack the third and ensure the first two are still pending.
|
| - ExpectAck(3);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 3;
|
| - ack_frame.missing_packets.insert(1);
|
| - ack_frame.missing_packets.insert(2);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| -
|
| - // Acking two more packets will lose both of them due to nacks.
|
| - ack_frame.largest_observed = 5;
|
| - QuicPacketSequenceNumber lost[] = { 1, 2 };
|
| - ExpectAcksAndLosses(false, nullptr, 0, lost, arraysize(lost));
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - EXPECT_FALSE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| - EXPECT_EQ(2u, stats_.tlp_count);
|
| - EXPECT_EQ(0u, stats_.rto_count);
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, TailLossProbeThenRTO) {
|
| - QuicSentPacketManagerPeer::SetMaxTailLossProbes(&manager_, 2);
|
| -
|
| - // Send 100 packets.
|
| - const size_t kNumSentPackets = 100;
|
| - for (size_t i = 1; i <= kNumSentPackets; ++i) {
|
| - SendDataPacket(i);
|
| - }
|
| - QuicTime rto_packet_time = clock_.Now();
|
| - // Advance the time.
|
| - clock_.AdvanceTime(manager_.GetRetransmissionTime().Subtract(clock_.Now()));
|
| -
|
| - // The first tail loss probe retransmits 1 packet.
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_EQ(QuicTime::Delta::Zero(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - manager_.MaybeRetransmitTailLossProbe();
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - RetransmitNextPacket(101);
|
| - EXPECT_CALL(*send_algorithm_, TimeUntilSend(_, _, _)).WillOnce(Return(
|
| - QuicTime::Delta::Infinite()));
|
| - EXPECT_EQ(QuicTime::Delta::Infinite(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - clock_.AdvanceTime(manager_.GetRetransmissionTime().Subtract(clock_.Now()));
|
| -
|
| - // The second tail loss probe retransmits 1 packet.
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_EQ(QuicTime::Delta::Zero(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - EXPECT_TRUE(manager_.MaybeRetransmitTailLossProbe());
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - RetransmitNextPacket(102);
|
| - EXPECT_CALL(*send_algorithm_, TimeUntilSend(_, _, _)).WillOnce(Return(
|
| - QuicTime::Delta::Infinite()));
|
| - EXPECT_EQ(QuicTime::Delta::Infinite(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| -
|
| - // Ensure the RTO is set based on the correct packet.
|
| - if (FLAGS_quic_rto_uses_last_sent) {
|
| - rto_packet_time = clock_.Now();
|
| - }
|
| - EXPECT_CALL(*send_algorithm_, RetransmissionDelay())
|
| - .WillOnce(Return(QuicTime::Delta::FromSeconds(1)));
|
| - EXPECT_EQ(rto_packet_time.Add(QuicTime::Delta::FromSeconds(1)),
|
| - manager_.GetRetransmissionTime());
|
| -
|
| - // Advance the time enough to ensure all packets are RTO'd.
|
| - clock_.AdvanceTime(QuicTime::Delta::FromMilliseconds(1000));
|
| -
|
| - if (!FLAGS_quic_use_new_rto) {
|
| - // The final RTO abandons all of them.
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - }
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - EXPECT_EQ(2u, stats_.tlp_count);
|
| - EXPECT_EQ(1u, stats_.rto_count);
|
| -
|
| - // Send and Ack the RTO and ensure OnRetransmissionTimeout is called.
|
| - if (FLAGS_quic_use_new_rto) {
|
| - EXPECT_EQ(102 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| -
|
| - RetransmitNextPacket(103);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 103;
|
| - for (int i = 0; i < 103; ++i) {
|
| - ack_frame.missing_packets.insert(i);
|
| - }
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - EXPECT_CALL(*send_algorithm_,
|
| - OnCongestionEvent(true, _, ElementsAre(Pair(103, _)), _));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| - // All packets before 103 should be lost.
|
| - EXPECT_EQ(0u, QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - }
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, CryptoHandshakeTimeout) {
|
| - // Send 2 crypto packets and 3 data packets.
|
| - const size_t kNumSentCryptoPackets = 2;
|
| - for (size_t i = 1; i <= kNumSentCryptoPackets; ++i) {
|
| - SendCryptoPacket(i);
|
| - }
|
| - const size_t kNumSentDataPackets = 3;
|
| - for (size_t i = 1; i <= kNumSentDataPackets; ++i) {
|
| - SendDataPacket(kNumSentCryptoPackets + i);
|
| - }
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| -
|
| - // The first retransmits 2 packets.
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_EQ(QuicTime::Delta::Zero(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - RetransmitNextPacket(6);
|
| - RetransmitNextPacket(7);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| -
|
| - // The second retransmits 2 packets.
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_EQ(QuicTime::Delta::Zero(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - RetransmitNextPacket(8);
|
| - RetransmitNextPacket(9);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| -
|
| - // Now ack the two crypto packets and the speculatively encrypted request,
|
| - // and ensure the first four crypto packets get abandoned, but not lost.
|
| - QuicPacketSequenceNumber acked[] = { 3, 4, 5, 8, 9 };
|
| - ExpectAcksAndLosses(true, acked, arraysize(acked), nullptr, 0);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 9;
|
| - ack_frame.missing_packets.insert(1);
|
| - ack_frame.missing_packets.insert(2);
|
| - ack_frame.missing_packets.insert(6);
|
| - ack_frame.missing_packets.insert(7);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - EXPECT_FALSE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, CryptoHandshakeTimeoutVersionNegotiation) {
|
| - // Send 2 crypto packets and 3 data packets.
|
| - const size_t kNumSentCryptoPackets = 2;
|
| - for (size_t i = 1; i <= kNumSentCryptoPackets; ++i) {
|
| - SendCryptoPacket(i);
|
| - }
|
| - const size_t kNumSentDataPackets = 3;
|
| - for (size_t i = 1; i <= kNumSentDataPackets; ++i) {
|
| - SendDataPacket(kNumSentCryptoPackets + i);
|
| - }
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| -
|
| - // The first retransmission timeout retransmits 2 crypto packets.
|
| - manager_.OnRetransmissionTimeout();
|
| - RetransmitNextPacket(6);
|
| - RetransmitNextPacket(7);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| -
|
| - // Now act like a version negotiation packet arrived, which would cause all
|
| - // unacked packets to be retransmitted.
|
| - manager_.RetransmitUnackedPackets(ALL_UNACKED_RETRANSMISSION);
|
| -
|
| - // Ensure the first two pending packets are the crypto retransmits.
|
| - ASSERT_TRUE(manager_.HasPendingRetransmissions());
|
| - EXPECT_EQ(6u, manager_.NextPendingRetransmission().sequence_number);
|
| - RetransmitNextPacket(8);
|
| - EXPECT_EQ(7u, manager_.NextPendingRetransmission().sequence_number);
|
| - RetransmitNextPacket(9);
|
| -
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - // Send 3 more data packets and ensure the least unacked is raised.
|
| - RetransmitNextPacket(10);
|
| - RetransmitNextPacket(11);
|
| - RetransmitNextPacket(12);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| -
|
| - EXPECT_EQ(8u, manager_.GetLeastUnacked());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, CryptoHandshakeSpuriousRetransmission) {
|
| - // Send 1 crypto packet.
|
| - SendCryptoPacket(1);
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| -
|
| - // Retransmit the crypto packet as 2.
|
| - manager_.OnRetransmissionTimeout();
|
| - RetransmitNextPacket(2);
|
| -
|
| - // Retransmit the crypto packet as 3.
|
| - manager_.OnRetransmissionTimeout();
|
| - RetransmitNextPacket(3);
|
| -
|
| - // Now ack the second crypto packet, and ensure the first gets removed, but
|
| - // the third does not.
|
| - ExpectUpdatedRtt(2);
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 2;
|
| - ack_frame.missing_packets.insert(1);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| -
|
| - EXPECT_FALSE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| - QuicPacketSequenceNumber unacked[] = { 3 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, CryptoHandshakeTimeoutUnsentDataPacket) {
|
| - // Send 2 crypto packets and 1 data packet.
|
| - const size_t kNumSentCryptoPackets = 2;
|
| - for (size_t i = 1; i <= kNumSentCryptoPackets; ++i) {
|
| - SendCryptoPacket(i);
|
| - }
|
| - SendDataPacket(3);
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| -
|
| - // Retransmit 2 crypto packets, but not the serialized packet.
|
| - manager_.OnRetransmissionTimeout();
|
| - RetransmitNextPacket(4);
|
| - RetransmitNextPacket(5);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest,
|
| - CryptoHandshakeRetransmissionThenRetransmitAll) {
|
| - // Send 1 crypto packet.
|
| - SendCryptoPacket(1);
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| -
|
| - // Retransmit the crypto packet as 2.
|
| - manager_.OnRetransmissionTimeout();
|
| - RetransmitNextPacket(2);
|
| -
|
| - // Now retransmit all the unacked packets, which occurs when there is a
|
| - // version negotiation.
|
| - manager_.RetransmitUnackedPackets(ALL_UNACKED_RETRANSMISSION);
|
| - QuicPacketSequenceNumber unacked[] = { 1, 2 };
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| - EXPECT_FALSE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest,
|
| - CryptoHandshakeRetransmissionThenNeuterAndAck) {
|
| - // Send 1 crypto packet.
|
| - SendCryptoPacket(1);
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| -
|
| - // Retransmit the crypto packet as 2.
|
| - manager_.OnRetransmissionTimeout();
|
| - RetransmitNextPacket(2);
|
| -
|
| - // Retransmit the crypto packet as 3.
|
| - manager_.OnRetransmissionTimeout();
|
| - RetransmitNextPacket(3);
|
| -
|
| - // Now neuter all unacked unencrypted packets, which occurs when the
|
| - // connection goes forward secure.
|
| - manager_.NeuterUnencryptedPackets();
|
| - QuicPacketSequenceNumber unacked[] = { 1, 2, 3};
|
| - VerifyUnackedPackets(unacked, arraysize(unacked));
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - EXPECT_FALSE(QuicSentPacketManagerPeer::HasUnackedCryptoPackets(&manager_));
|
| - EXPECT_FALSE(QuicSentPacketManagerPeer::HasPendingPackets(&manager_));
|
| -
|
| - // Ensure both packets get discarded when packet 2 is acked.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 3;
|
| - ack_frame.missing_packets.insert(1);
|
| - ack_frame.missing_packets.insert(2);
|
| - ExpectUpdatedRtt(3);
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| - VerifyUnackedPackets(nullptr, 0);
|
| - VerifyRetransmittablePackets(nullptr, 0);
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, ResetRecentMinRTTWithEmptyWindow) {
|
| - QuicTime::Delta min_rtt = QuicTime::Delta::FromMilliseconds(50);
|
| - QuicSentPacketManagerPeer::GetRttStats(&manager_)->UpdateRtt(
|
| - min_rtt, QuicTime::Delta::Zero(), QuicTime::Zero());
|
| - EXPECT_EQ(min_rtt,
|
| - QuicSentPacketManagerPeer::GetRttStats(&manager_)->min_rtt());
|
| - EXPECT_EQ(min_rtt,
|
| - QuicSentPacketManagerPeer::GetRttStats(
|
| - &manager_)->recent_min_rtt());
|
| -
|
| - // Send two packets with no prior bytes in flight.
|
| - SendDataPacket(1);
|
| - SendDataPacket(2);
|
| -
|
| - clock_.AdvanceTime(QuicTime::Delta::FromMilliseconds(100));
|
| - // Ack two packets with 100ms RTT observations.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.delta_time_largest_observed = QuicTime::Delta::Zero();
|
| - ack_frame.largest_observed = 1;
|
| - ExpectAck(1);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -
|
| - // First ack does not change recent min rtt.
|
| - EXPECT_EQ(min_rtt,
|
| - QuicSentPacketManagerPeer::GetRttStats(
|
| - &manager_)->recent_min_rtt());
|
| -
|
| - ack_frame.largest_observed = 2;
|
| - ExpectAck(2);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -
|
| - EXPECT_EQ(min_rtt,
|
| - QuicSentPacketManagerPeer::GetRttStats(&manager_)->min_rtt());
|
| - EXPECT_EQ(QuicTime::Delta::FromMilliseconds(100),
|
| - QuicSentPacketManagerPeer::GetRttStats(
|
| - &manager_)->recent_min_rtt());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, RetransmissionTimeout) {
|
| - // Send 100 packets.
|
| - const size_t kNumSentPackets = 100;
|
| - for (size_t i = 1; i <= kNumSentPackets; ++i) {
|
| - SendDataPacket(i);
|
| - }
|
| -
|
| - if (!FLAGS_quic_use_new_rto) {
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - }
|
| - EXPECT_FALSE(manager_.MaybeRetransmitTailLossProbe());
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - if (FLAGS_quic_use_new_rto) {
|
| - EXPECT_EQ(100 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - } else {
|
| - // Ensure all are abandoned when the RTO fires.
|
| - EXPECT_EQ(0u, QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - }
|
| - RetransmitNextPacket(101);
|
| - RetransmitNextPacket(102);
|
| - if (FLAGS_quic_use_new_rto) {
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - } else {
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - }
|
| -
|
| - // Ack a retransmission.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.delta_time_largest_observed = QuicTime::Delta::Zero();
|
| - ack_frame.largest_observed = 102;
|
| - for (int i = 0; i < 102; ++i) {
|
| - ack_frame.missing_packets.insert(i);
|
| - }
|
| - // Ensure no packets are lost.
|
| - EXPECT_CALL(*send_algorithm_,
|
| - OnCongestionEvent(true, _, ElementsAre(Pair(102, _)),
|
| - /*lost_packets=*/IsEmpty()));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - if (FLAGS_quic_use_new_rto) {
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - }
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, NewRetransmissionTimeout) {
|
| - ValueRestore<bool> old_flag(&FLAGS_quic_use_new_rto, true);
|
| - QuicConfig client_config;
|
| - QuicTagVector options;
|
| - options.push_back(kNRTO);
|
| - QuicSentPacketManagerPeer::SetIsServer(&manager_, false);
|
| - client_config.SetConnectionOptionsToSend(options);
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, _));
|
| - EXPECT_CALL(*send_algorithm_, PacingRate())
|
| - .WillRepeatedly(Return(QuicBandwidth::Zero()));
|
| - manager_.SetFromConfig(client_config);
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::GetUseNewRto(&manager_));
|
| -
|
| - // Send 100 packets.
|
| - const size_t kNumSentPackets = 100;
|
| - for (size_t i = 1; i <= kNumSentPackets; ++i) {
|
| - SendDataPacket(i);
|
| - }
|
| -
|
| - EXPECT_FALSE(manager_.MaybeRetransmitTailLossProbe());
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - EXPECT_EQ(100 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - RetransmitNextPacket(101);
|
| - RetransmitNextPacket(102);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| -
|
| - // Ack a retransmission and expect no call to OnRetransmissionTimeout.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.delta_time_largest_observed = QuicTime::Delta::Zero();
|
| - ack_frame.largest_observed = 102;
|
| - for (int i = 0; i < 102; ++i) {
|
| - ack_frame.missing_packets.insert(i);
|
| - }
|
| - // This will include packets in the lost packet map.
|
| - EXPECT_CALL(*send_algorithm_,
|
| - OnCongestionEvent(true, _, ElementsAre(Pair(102, _)),
|
| - /*lost_packets=*/Not(IsEmpty())));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, TwoRetransmissionTimeoutsAckSecond) {
|
| - // Send 1 packet.
|
| - SendDataPacket(1);
|
| -
|
| - if (!FLAGS_quic_use_new_rto) {
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - }
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - if (FLAGS_quic_use_new_rto) {
|
| - EXPECT_EQ(kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - } else {
|
| - // Ensure all are abandoned when the RTO fires.
|
| - EXPECT_EQ(0u, QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - }
|
| - RetransmitNextPacket(2);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| -
|
| - // Rto a second time.
|
| - if (!FLAGS_quic_use_new_rto) {
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - }
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - if (FLAGS_quic_use_new_rto) {
|
| - EXPECT_EQ(2 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - } else {
|
| - // Ensure all are abandoned when the RTO fires.
|
| - EXPECT_EQ(0u, QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - }
|
| - RetransmitNextPacket(3);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| -
|
| - // Ack a retransmission and ensure OnRetransmissionTimeout is called.
|
| - if (FLAGS_quic_use_new_rto) {
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - }
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.delta_time_largest_observed = QuicTime::Delta::Zero();
|
| - ack_frame.largest_observed = 2;
|
| - ack_frame.missing_packets.insert(1);
|
| - if (FLAGS_quic_use_new_rto) {
|
| - ExpectAck(2);
|
| - } else {
|
| - ExpectUpdatedRtt(2);
|
| - }
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -
|
| - if (FLAGS_quic_use_new_rto) {
|
| - // The original packet and newest should be outstanding.
|
| - EXPECT_EQ(2 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - } else {
|
| - EXPECT_EQ(kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - }
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, TwoRetransmissionTimeoutsAckFirst) {
|
| - // Send 1 packet.
|
| - SendDataPacket(1);
|
| -
|
| - if (!FLAGS_quic_use_new_rto) {
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - }
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - if (FLAGS_quic_use_new_rto) {
|
| - EXPECT_EQ(kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - } else {
|
| - // Ensure all are abandoned when the RTO fires.
|
| - EXPECT_EQ(0u, QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - }
|
| - RetransmitNextPacket(2);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| -
|
| - // Rto a second time.
|
| - if (!FLAGS_quic_use_new_rto) {
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - }
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - if (FLAGS_quic_use_new_rto) {
|
| - EXPECT_EQ(2 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - } else {
|
| - // Ensure all are abandoned when the RTO fires.
|
| - EXPECT_EQ(0u, QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - }
|
| - RetransmitNextPacket(3);
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| -
|
| - // Ack a retransmission and ensure OnRetransmissionTimeout is called.
|
| - if (FLAGS_quic_use_new_rto) {
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - }
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.delta_time_largest_observed = QuicTime::Delta::Zero();
|
| - ack_frame.largest_observed = 3;
|
| - ack_frame.missing_packets.insert(1);
|
| - ack_frame.missing_packets.insert(2);
|
| - ExpectAck(3);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -
|
| - if (FLAGS_quic_use_new_rto) {
|
| - // The first two packets should still be outstanding.
|
| - EXPECT_EQ(2 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - } else {
|
| - EXPECT_EQ(0u, QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - }
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetTransmissionTime) {
|
| - EXPECT_EQ(QuicTime::Zero(), manager_.GetRetransmissionTime());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetTransmissionTimeCryptoHandshake) {
|
| - SendCryptoPacket(1);
|
| -
|
| - // Check the min.
|
| - RttStats* rtt_stats = QuicSentPacketManagerPeer::GetRttStats(&manager_);
|
| - rtt_stats->set_initial_rtt_us(1 * kNumMicrosPerMilli);
|
| - EXPECT_EQ(clock_.Now().Add(QuicTime::Delta::FromMilliseconds(10)),
|
| - manager_.GetRetransmissionTime());
|
| -
|
| - // Test with a standard smoothed RTT.
|
| - rtt_stats->set_initial_rtt_us(100 * kNumMicrosPerMilli);
|
| -
|
| - QuicTime::Delta srtt =
|
| - QuicTime::Delta::FromMicroseconds(rtt_stats->initial_rtt_us());
|
| - QuicTime expected_time = clock_.Now().Add(srtt.Multiply(1.5));
|
| - EXPECT_EQ(expected_time, manager_.GetRetransmissionTime());
|
| -
|
| - // Retransmit the packet by invoking the retransmission timeout.
|
| - clock_.AdvanceTime(srtt.Multiply(1.5));
|
| - manager_.OnRetransmissionTimeout();
|
| - RetransmitNextPacket(2);
|
| -
|
| - // The retransmission time should now be twice as far in the future.
|
| - expected_time = clock_.Now().Add(srtt.Multiply(2).Multiply(1.5));
|
| - EXPECT_EQ(expected_time, manager_.GetRetransmissionTime());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetTransmissionTimeTailLossProbe) {
|
| - QuicSentPacketManagerPeer::SetMaxTailLossProbes(&manager_, 2);
|
| - SendDataPacket(1);
|
| - SendDataPacket(2);
|
| -
|
| - // Check the min.
|
| - RttStats* rtt_stats = QuicSentPacketManagerPeer::GetRttStats(&manager_);
|
| - rtt_stats->set_initial_rtt_us(1 * kNumMicrosPerMilli);
|
| - EXPECT_EQ(clock_.Now().Add(QuicTime::Delta::FromMilliseconds(10)),
|
| - manager_.GetRetransmissionTime());
|
| -
|
| - // Test with a standard smoothed RTT.
|
| - rtt_stats->set_initial_rtt_us(100 * kNumMicrosPerMilli);
|
| - QuicTime::Delta srtt =
|
| - QuicTime::Delta::FromMicroseconds(rtt_stats->initial_rtt_us());
|
| - QuicTime::Delta expected_tlp_delay = srtt.Multiply(2);
|
| - QuicTime expected_time = clock_.Now().Add(expected_tlp_delay);
|
| - EXPECT_EQ(expected_time, manager_.GetRetransmissionTime());
|
| -
|
| - // Retransmit the packet by invoking the retransmission timeout.
|
| - clock_.AdvanceTime(expected_tlp_delay);
|
| - manager_.OnRetransmissionTimeout();
|
| - EXPECT_EQ(QuicTime::Delta::Zero(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - EXPECT_TRUE(manager_.MaybeRetransmitTailLossProbe());
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - RetransmitNextPacket(3);
|
| - EXPECT_CALL(*send_algorithm_, TimeUntilSend(_, _, _)).WillOnce(Return(
|
| - QuicTime::Delta::Infinite()));
|
| - EXPECT_EQ(QuicTime::Delta::Infinite(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| -
|
| - expected_time = clock_.Now().Add(expected_tlp_delay);
|
| - EXPECT_EQ(expected_time, manager_.GetRetransmissionTime());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetTransmissionTimeSpuriousRTO) {
|
| - QuicSentPacketManagerPeer::GetRttStats(&manager_)->UpdateRtt(
|
| - QuicTime::Delta::FromMilliseconds(100),
|
| - QuicTime::Delta::Zero(),
|
| - QuicTime::Zero());
|
| -
|
| - SendDataPacket(1);
|
| - SendDataPacket(2);
|
| - SendDataPacket(3);
|
| - SendDataPacket(4);
|
| -
|
| - QuicTime::Delta expected_rto_delay = QuicTime::Delta::FromMilliseconds(500);
|
| - EXPECT_CALL(*send_algorithm_, RetransmissionDelay())
|
| - .WillRepeatedly(Return(expected_rto_delay));
|
| - QuicTime expected_time = clock_.Now().Add(expected_rto_delay);
|
| - EXPECT_EQ(expected_time, manager_.GetRetransmissionTime());
|
| -
|
| - // Retransmit the packet by invoking the retransmission timeout.
|
| - if (!FLAGS_quic_use_new_rto) {
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - }
|
| - clock_.AdvanceTime(expected_rto_delay);
|
| - manager_.OnRetransmissionTimeout();
|
| - if (FLAGS_quic_use_new_rto) {
|
| - // All packets are still considered inflight.
|
| - EXPECT_EQ(4 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - } else {
|
| - EXPECT_EQ(0u, QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - }
|
| - RetransmitNextPacket(5);
|
| - RetransmitNextPacket(6);
|
| - if (FLAGS_quic_use_new_rto) {
|
| - // All previous packets are inflight, plus two rto retransmissions.
|
| - EXPECT_EQ(6 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - } else {
|
| - EXPECT_EQ(2 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - EXPECT_TRUE(manager_.HasPendingRetransmissions());
|
| - }
|
| -
|
| - // The delay should double the second time.
|
| - expected_time = clock_.Now().Add(expected_rto_delay).Add(expected_rto_delay);
|
| - // Once we always base the timer on the right edge, leaving the older packets
|
| - // in flight doesn't change the timeout.
|
| - if (!FLAGS_quic_use_new_rto || FLAGS_quic_rto_uses_last_sent) {
|
| - EXPECT_EQ(expected_time, manager_.GetRetransmissionTime());
|
| - }
|
| -
|
| - // Ack a packet before the first RTO and ensure the RTO timeout returns to the
|
| - // original value and OnRetransmissionTimeout is not called or reverted.
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 2;
|
| - ack_frame.missing_packets.insert(1);
|
| - if (FLAGS_quic_use_new_rto) {
|
| - ExpectAck(2);
|
| - } else {
|
| - ExpectUpdatedRtt(2);
|
| - EXPECT_CALL(*send_algorithm_, RevertRetransmissionTimeout());
|
| - }
|
| - manager_.OnIncomingAck(ack_frame, clock_.ApproximateNow());
|
| - EXPECT_FALSE(manager_.HasPendingRetransmissions());
|
| - if (FLAGS_quic_use_new_rto) {
|
| - EXPECT_EQ(5 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - } else {
|
| - EXPECT_EQ(4 * kDefaultLength,
|
| - QuicSentPacketManagerPeer::GetBytesInFlight(&manager_));
|
| - }
|
| -
|
| - // Wait 2RTTs from now for the RTO, since it's the max of the RTO time
|
| - // and the TLP time. In production, there would always be two TLP's first.
|
| - // Since retransmission was spurious, smoothed_rtt_ is expired, and replaced
|
| - // by the latest RTT sample of 500ms.
|
| - expected_time = clock_.Now().Add(QuicTime::Delta::FromMilliseconds(1000));
|
| - // Once we always base the timer on the right edge, leaving the older packets
|
| - // in flight doesn't change the timeout.
|
| - if (!FLAGS_quic_use_new_rto || FLAGS_quic_rto_uses_last_sent) {
|
| - EXPECT_EQ(expected_time, manager_.GetRetransmissionTime());
|
| - }
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetTransmissionDelayMin) {
|
| - SendDataPacket(1);
|
| - EXPECT_CALL(*send_algorithm_, RetransmissionDelay())
|
| - .WillRepeatedly(Return(QuicTime::Delta::FromMilliseconds(1)));
|
| - QuicTime::Delta delay = QuicTime::Delta::FromMilliseconds(200);
|
| -
|
| - // If the delay is smaller than the min, ensure it exponentially backs off
|
| - // from the min.
|
| - for (int i = 0; i < 5; ++i) {
|
| - EXPECT_EQ(delay,
|
| - QuicSentPacketManagerPeer::GetRetransmissionDelay(&manager_));
|
| - delay = delay.Add(delay);
|
| - if (!FLAGS_quic_use_new_rto) {
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - }
|
| - manager_.OnRetransmissionTimeout();
|
| - RetransmitNextPacket(i + 2);
|
| - }
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetTransmissionDelayMax) {
|
| - EXPECT_CALL(*send_algorithm_, RetransmissionDelay())
|
| - .WillOnce(Return(QuicTime::Delta::FromSeconds(500)));
|
| -
|
| - EXPECT_EQ(QuicTime::Delta::FromSeconds(60),
|
| - QuicSentPacketManagerPeer::GetRetransmissionDelay(&manager_));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetTransmissionDelay) {
|
| - SendDataPacket(1);
|
| - QuicTime::Delta delay = QuicTime::Delta::FromMilliseconds(500);
|
| - EXPECT_CALL(*send_algorithm_, RetransmissionDelay())
|
| - .WillRepeatedly(Return(delay));
|
| -
|
| - // Delay should back off exponentially.
|
| - for (int i = 0; i < 5; ++i) {
|
| - EXPECT_EQ(delay,
|
| - QuicSentPacketManagerPeer::GetRetransmissionDelay(&manager_));
|
| - delay = delay.Add(delay);
|
| - if (!FLAGS_quic_use_new_rto) {
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout(true));
|
| - }
|
| - manager_.OnRetransmissionTimeout();
|
| - RetransmitNextPacket(i + 2);
|
| - }
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, GetLossDelay) {
|
| - MockLossAlgorithm* loss_algorithm = new MockLossAlgorithm();
|
| - QuicSentPacketManagerPeer::SetLossAlgorithm(&manager_, loss_algorithm);
|
| -
|
| - EXPECT_CALL(*loss_algorithm, GetLossTimeout())
|
| - .WillRepeatedly(Return(QuicTime::Zero()));
|
| - SendDataPacket(1);
|
| - SendDataPacket(2);
|
| -
|
| - // Handle an ack which causes the loss algorithm to be evaluated and
|
| - // set the loss timeout.
|
| - ExpectAck(2);
|
| - EXPECT_CALL(*loss_algorithm, DetectLostPackets(_, _, _, _))
|
| - .WillOnce(Return(SequenceNumberSet()));
|
| - QuicAckFrame ack_frame;
|
| - ack_frame.largest_observed = 2;
|
| - ack_frame.missing_packets.insert(1);
|
| - manager_.OnIncomingAck(ack_frame, clock_.Now());
|
| -
|
| - QuicTime timeout(clock_.Now().Add(QuicTime::Delta::FromMilliseconds(10)));
|
| - EXPECT_CALL(*loss_algorithm, GetLossTimeout())
|
| - .WillRepeatedly(Return(timeout));
|
| - EXPECT_EQ(timeout, manager_.GetRetransmissionTime());
|
| -
|
| - // Fire the retransmission timeout and ensure the loss detection algorithm
|
| - // is invoked.
|
| - EXPECT_CALL(*loss_algorithm, DetectLostPackets(_, _, _, _))
|
| - .WillOnce(Return(SequenceNumberSet()));
|
| - manager_.OnRetransmissionTimeout();
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, NegotiateTimeLossDetectionFromOptions) {
|
| - EXPECT_EQ(kNack,
|
| - QuicSentPacketManagerPeer::GetLossAlgorithm(
|
| - &manager_)->GetLossDetectionType());
|
| -
|
| - QuicConfig config;
|
| - QuicTagVector options;
|
| - options.push_back(kTIME);
|
| - QuicConfigPeer::SetReceivedConnectionOptions(&config, options);
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, _));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - manager_.SetFromConfig(config);
|
| -
|
| - EXPECT_EQ(kTime,
|
| - QuicSentPacketManagerPeer::GetLossAlgorithm(
|
| - &manager_)->GetLossDetectionType());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, NegotiateCongestionControlFromOptions) {
|
| - ValueRestore<bool> old_flag(&FLAGS_quic_allow_bbr, true);
|
| - QuicConfig config;
|
| - QuicTagVector options;
|
| -
|
| - options.push_back(kRENO);
|
| - QuicConfigPeer::SetReceivedConnectionOptions(&config, options);
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - manager_.SetFromConfig(config);
|
| - EXPECT_EQ(kReno, QuicSentPacketManagerPeer::GetSendAlgorithm(
|
| - manager_)->GetCongestionControlType());
|
| -
|
| - // TODO(rtenneti): Enable the following code after BBR code is checked in.
|
| -#if 0
|
| - options.clear();
|
| - options.push_back(kTBBR);
|
| - QuicConfigPeer::SetReceivedConnectionOptions(&config, options);
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - manager_.SetFromConfig(config);
|
| - EXPECT_EQ(kBBR, QuicSentPacketManagerPeer::GetSendAlgorithm(
|
| - manager_)->GetCongestionControlType());
|
| -#endif
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, NegotiateNumConnectionsFromOptions) {
|
| - QuicConfig config;
|
| - QuicTagVector options;
|
| -
|
| - options.push_back(k1CON);
|
| - QuicConfigPeer::SetReceivedConnectionOptions(&config, options);
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - EXPECT_CALL(*send_algorithm_, SetNumEmulatedConnections(1));
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, _));
|
| - manager_.SetFromConfig(config);
|
| -
|
| - QuicSentPacketManagerPeer::SetIsServer(&manager_, false);
|
| - QuicConfig client_config;
|
| - client_config.SetConnectionOptionsToSend(options);
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - EXPECT_CALL(*send_algorithm_, SetNumEmulatedConnections(1));
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, _));
|
| - manager_.SetFromConfig(client_config);
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, NegotiateNConnectionFromOptions) {
|
| - // By default, changing the number of open streams does nothing.
|
| - manager_.SetNumOpenStreams(5);
|
| -
|
| - QuicConfig config;
|
| - QuicTagVector options;
|
| -
|
| - options.push_back(kNCON);
|
| - QuicConfigPeer::SetReceivedConnectionOptions(&config, options);
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, _));
|
| - manager_.SetFromConfig(config);
|
| -
|
| - EXPECT_CALL(*send_algorithm_, SetNumEmulatedConnections(5));
|
| - manager_.SetNumOpenStreams(5);
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, NegotiateNoTLPFromOptionsAtServer) {
|
| - QuicConfig config;
|
| - QuicTagVector options;
|
| -
|
| - options.push_back(kNTLP);
|
| - QuicConfigPeer::SetReceivedConnectionOptions(&config, options);
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, _));
|
| - manager_.SetFromConfig(config);
|
| - EXPECT_EQ(0u, QuicSentPacketManagerPeer::GetMaxTailLossProbes(&manager_));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, NegotiateNoTLPFromOptionsAtClient) {
|
| - QuicConfig client_config;
|
| - QuicTagVector options;
|
| -
|
| - options.push_back(kNTLP);
|
| - QuicSentPacketManagerPeer::SetIsServer(&manager_, false);
|
| - client_config.SetConnectionOptionsToSend(options);
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, _));
|
| - manager_.SetFromConfig(client_config);
|
| - EXPECT_EQ(0u, QuicSentPacketManagerPeer::GetMaxTailLossProbes(&manager_));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, NegotiateNewRTOFromOptionsAtServer) {
|
| - EXPECT_FALSE(QuicSentPacketManagerPeer::GetUseNewRto(&manager_));
|
| - QuicConfig config;
|
| - QuicTagVector options;
|
| -
|
| - options.push_back(kNRTO);
|
| - QuicConfigPeer::SetReceivedConnectionOptions(&config, options);
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, _));
|
| - manager_.SetFromConfig(config);
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::GetUseNewRto(&manager_));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, NegotiateNewRTOFromOptionsAtClient) {
|
| - EXPECT_FALSE(QuicSentPacketManagerPeer::GetUseNewRto(&manager_));
|
| - QuicConfig client_config;
|
| - QuicTagVector options;
|
| -
|
| - options.push_back(kNRTO);
|
| - QuicSentPacketManagerPeer::SetIsServer(&manager_, false);
|
| - client_config.SetConnectionOptionsToSend(options);
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, _));
|
| - manager_.SetFromConfig(client_config);
|
| - EXPECT_TRUE(QuicSentPacketManagerPeer::GetUseNewRto(&manager_));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, NegotiatePacingFromOptions) {
|
| - EXPECT_FALSE(manager_.using_pacing());
|
| -
|
| - QuicConfig config;
|
| - QuicTagVector options;
|
| - options.push_back(kPACE);
|
| - QuicConfigPeer::SetReceivedConnectionOptions(&config, options);
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, /*using_pacing=*/true));
|
| - manager_.SetFromConfig(config);
|
| -
|
| - EXPECT_TRUE(manager_.using_pacing());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, EnablePacingViaFlag) {
|
| - EXPECT_FALSE(manager_.using_pacing());
|
| -
|
| - // If pacing is enabled via command-line flag, it will be turned on,
|
| - // regardless of the contents of the config.
|
| - ValueRestore<bool> old_flag(&FLAGS_quic_enable_pacing, true);
|
| - QuicConfig config;
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, /*using_pacing=*/true));
|
| - manager_.SetFromConfig(config);
|
| -
|
| - EXPECT_TRUE(manager_.using_pacing());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, NegotiateReceiveWindowFromOptions) {
|
| - EXPECT_EQ(kDefaultSocketReceiveBuffer,
|
| - QuicSentPacketManagerPeer::GetReceiveWindow(&manager_));
|
| -
|
| - // Try to set a size below the minimum and ensure it gets set to the min.
|
| - QuicConfig client_config;
|
| - QuicConfigPeer::SetReceivedSocketReceiveBuffer(&client_config, 1024);
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, _));
|
| - EXPECT_CALL(*send_algorithm_, PacingRate())
|
| - .WillRepeatedly(Return(QuicBandwidth::Zero()));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - manager_.SetFromConfig(client_config);
|
| -
|
| - EXPECT_EQ(kMinSocketReceiveBuffer,
|
| - QuicSentPacketManagerPeer::GetReceiveWindow(&manager_));
|
| -
|
| - // Ensure the smaller send window only allows 16 packets to be sent.
|
| - for (QuicPacketSequenceNumber i = 1; i <= 16; ++i) {
|
| - EXPECT_CALL(*send_algorithm_, TimeUntilSend(_, _, _)).WillOnce(Return(
|
| - QuicTime::Delta::Zero()));
|
| - EXPECT_EQ(QuicTime::Delta::Zero(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - EXPECT_CALL(*send_algorithm_, OnPacketSent(_, BytesInFlight(), i,
|
| - 1024, HAS_RETRANSMITTABLE_DATA))
|
| - .WillOnce(Return(true));
|
| - SerializedPacket packet(CreatePacket(i, true));
|
| - manager_.OnPacketSent(&packet, 0, clock_.Now(), 1024,
|
| - NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA);
|
| - }
|
| - EXPECT_EQ(QuicTime::Delta::Infinite(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, ReceiveWindowLimited) {
|
| - EXPECT_EQ(kDefaultSocketReceiveBuffer,
|
| - QuicSentPacketManagerPeer::GetReceiveWindow(&manager_));
|
| -
|
| - // Ensure the smaller send window only allows 256 * 0.95 packets to be sent.
|
| - for (QuicPacketSequenceNumber i = 1; i <= 244; ++i) {
|
| - EXPECT_CALL(*send_algorithm_, TimeUntilSend(_, _, _)).WillOnce(Return(
|
| - QuicTime::Delta::Zero()));
|
| - EXPECT_EQ(QuicTime::Delta::Zero(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| - EXPECT_CALL(*send_algorithm_, OnPacketSent(_, BytesInFlight(), i,
|
| - 1024, HAS_RETRANSMITTABLE_DATA))
|
| - .WillOnce(Return(true));
|
| - SerializedPacket packet(CreatePacket(i, true));
|
| - manager_.OnPacketSent(&packet, 0, clock_.Now(), 1024,
|
| - NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA);
|
| - }
|
| - EXPECT_EQ(QuicTime::Delta::Infinite(),
|
| - manager_.TimeUntilSend(clock_.Now(), HAS_RETRANSMITTABLE_DATA));
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, UseInitialRoundTripTimeToSend) {
|
| - uint32 initial_rtt_us = 325000;
|
| - EXPECT_NE(initial_rtt_us,
|
| - manager_.GetRttStats()->smoothed_rtt().ToMicroseconds());
|
| -
|
| - QuicConfig config;
|
| - config.SetInitialRoundTripTimeUsToSend(initial_rtt_us);
|
| - EXPECT_CALL(*send_algorithm_, SetFromConfig(_, _, _));
|
| - EXPECT_CALL(*network_change_visitor_, OnCongestionWindowChange());
|
| - EXPECT_CALL(*network_change_visitor_, OnRttChange());
|
| - manager_.SetFromConfig(config);
|
| -
|
| - EXPECT_EQ(0, manager_.GetRttStats()->smoothed_rtt().ToMicroseconds());
|
| - EXPECT_EQ(initial_rtt_us, manager_.GetRttStats()->initial_rtt_us());
|
| -}
|
| -
|
| -TEST_F(QuicSentPacketManagerTest, ResumeConnectionState) {
|
| - // The sent packet manager should use the RTT from CachedNetworkParameters if
|
| - // it is provided.
|
| - const int kRttMs = 1234;
|
| - CachedNetworkParameters cached_network_params;
|
| - cached_network_params.set_min_rtt_ms(kRttMs);
|
| -
|
| - EXPECT_CALL(*send_algorithm_, ResumeConnectionState(_));
|
| - manager_.ResumeConnectionState(cached_network_params);
|
| - EXPECT_EQ(kRttMs * kNumMicrosPerMilli,
|
| - static_cast<uint64>(manager_.GetRttStats()->initial_rtt_us()));
|
| -}
|
| -
|
| -} // namespace
|
| -} // namespace test
|
| -} // namespace net
|
|
|
Chromium Code Reviews
Issue 992733002:
Remove //net (except for Android test stuff) and sdch (Closed)
Base URL: git@github.com:domokit/mojo.git@master