// 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/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::_; using testing::Return; using testing::StrictMock; namespace net { namespace test { namespace { class MockHelper : public QuicSentPacketManager::HelperInterface { public: MOCK_METHOD0(GetNextPacketSequenceNumber, QuicPacketSequenceNumber()); }; class QuicSentPacketManagerTest : public ::testing::TestWithParam { protected: QuicSentPacketManagerTest() : manager_(true, &helper_, &clock_, kFixRate), send_algorithm_(new StrictMock) { QuicSentPacketManagerPeer::SetSendAlgorithm(&manager_, send_algorithm_); } ~QuicSentPacketManagerTest() { STLDeleteElements(&packets_); } void VerifyUnackedPackets(QuicPacketSequenceNumber* packets, size_t num_packets) { if (num_packets == 0) { EXPECT_FALSE(manager_.HasUnackedPackets()); EXPECT_EQ(0u, manager_.GetNumRetransmittablePackets()); return; } EXPECT_TRUE(manager_.HasUnackedPackets()); EXPECT_EQ(packets[0], manager_.GetLeastUnackedSentPacket()); 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) { SequenceNumberSet unacked = manager_.GetUnackedPackets(); for (size_t i = 0; i < num_packets; ++i) { EXPECT_TRUE(ContainsKey(unacked, packets[i])) << packets[i]; } size_t num_retransmittable = 0; for (SequenceNumberSet::const_iterator it = unacked.begin(); it != unacked.end(); ++it) { if (manager_.HasRetransmittableFrames(*it)) { ++num_retransmittable; } } EXPECT_EQ(num_packets, manager_.GetNumRetransmittablePackets()); EXPECT_EQ(num_packets, num_retransmittable); } void VerifyAckedPackets(QuicPacketSequenceNumber* expected, size_t num_expected, const SequenceNumberSet& actual) { if (num_expected == 0) { EXPECT_TRUE(actual.empty()); return; } EXPECT_EQ(num_expected, actual.size()); for (size_t i = 0; i < num_expected; ++i) { EXPECT_TRUE(ContainsKey(actual, expected[i])) << expected[i]; } } void RetransmitPacket(QuicPacketSequenceNumber old_sequence_number, QuicPacketSequenceNumber new_sequence_number) { QuicSentPacketManagerPeer::MarkForRetransmission( &manager_, old_sequence_number, NACK_RETRANSMISSION); EXPECT_TRUE(manager_.HasPendingRetransmissions()); QuicSentPacketManager::PendingRetransmission next_retransmission = manager_.NextPendingRetransmission(); EXPECT_EQ(old_sequence_number, next_retransmission.sequence_number); EXPECT_EQ(NACK_RETRANSMISSION, next_retransmission.transmission_type); manager_.OnRetransmittedPacket(old_sequence_number, new_sequence_number); EXPECT_TRUE(QuicSentPacketManagerPeer::IsRetransmission( &manager_, new_sequence_number)); } SerializedPacket CreatePacket(QuicPacketSequenceNumber sequence_number) { packets_.push_back(QuicPacket::NewDataPacket( NULL, 0, false, PACKET_8BYTE_GUID, false, PACKET_6BYTE_SEQUENCE_NUMBER)); return SerializedPacket(sequence_number, PACKET_6BYTE_SEQUENCE_NUMBER, packets_.back(), 0u, new RetransmittableFrames()); } SerializedPacket CreateFecPacket(QuicPacketSequenceNumber sequence_number) { packets_.push_back(QuicPacket::NewFecPacket( NULL, 0, false, PACKET_8BYTE_GUID, false, PACKET_6BYTE_SEQUENCE_NUMBER)); return SerializedPacket(sequence_number, PACKET_6BYTE_SEQUENCE_NUMBER, packets_.back(), 0u, NULL); } void SendDataPacket(QuicPacketSequenceNumber sequence_number) { EXPECT_CALL(*send_algorithm_, OnPacketSent(_, sequence_number, _, _, _)) .Times(1).WillOnce(Return(true)); SerializedPacket packet(CreatePacket(sequence_number)); manager_.OnSerializedPacket(packet); manager_.OnPacketSent(sequence_number, clock_.ApproximateNow(), packet.packet->length(), NOT_RETRANSMISSION, HAS_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, _, _, _)) .Times(1).WillOnce(Return(true)); const QuicSentPacketManager::PendingRetransmission pending = manager_.NextPendingRetransmission(); manager_.OnRetransmittedPacket( pending.sequence_number, retransmission_sequence_number); manager_.OnPacketSent(retransmission_sequence_number, clock_.ApproximateNow(), 1000, pending.transmission_type, HAS_RETRANSMITTABLE_DATA); } testing::StrictMock helper_; QuicSentPacketManager manager_; vector packets_; MockClock clock_; MockSendAlgorithm* send_algorithm_; }; TEST_F(QuicSentPacketManagerTest, IsUnacked) { VerifyUnackedPackets(NULL, 0); SerializedPacket serialized_packet(CreatePacket(1)); manager_.OnSerializedPacket(serialized_packet); QuicPacketSequenceNumber unacked[] = { 1 }; VerifyUnackedPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 1 }; VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); } TEST_F(QuicSentPacketManagerTest, IsUnAckedRetransmit) { SerializedPacket serialized_packet(CreatePacket(1)); manager_.OnSerializedPacket(serialized_packet); RetransmitPacket(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) { SerializedPacket serialized_packet(CreatePacket(1)); manager_.OnSerializedPacket(serialized_packet); RetransmitPacket(1, 2); // Ack 2 but not 1. ReceivedPacketInfo received_info; received_info.largest_observed = 2; received_info.missing_packets.insert(1); manager_.OnIncomingAck(received_info, QuicTime::Zero()); // No unacked packets remain. VerifyUnackedPackets(NULL, 0); VerifyRetransmittablePackets(NULL, 0); } TEST_F(QuicSentPacketManagerTest, RetransmitThenAckBeforeSend) { SerializedPacket serialized_packet(CreatePacket(1)); manager_.OnSerializedPacket(serialized_packet); QuicSentPacketManagerPeer::MarkForRetransmission( &manager_, 1, NACK_RETRANSMISSION); EXPECT_TRUE(manager_.HasPendingRetransmissions()); // Ack 1. ReceivedPacketInfo received_info; received_info.largest_observed = 1; manager_.OnIncomingAck(received_info, QuicTime::Zero()); // There should no longer be a pending retransmission. EXPECT_FALSE(manager_.HasPendingRetransmissions()); // No unacked packets remain. VerifyUnackedPackets(NULL, 0); VerifyRetransmittablePackets(NULL, 0); } TEST_F(QuicSentPacketManagerTest, RetransmitThenAckPrevious) { SerializedPacket serialized_packet(CreatePacket(1)); manager_.OnSerializedPacket(serialized_packet); RetransmitPacket(1, 2); // Ack 1 but not 2. ReceivedPacketInfo received_info; received_info.largest_observed = 1; manager_.OnIncomingAck(received_info, QuicTime::Zero()); // 2 remains unacked, but no packets have retransmittable data. QuicPacketSequenceNumber unacked[] = { 2 }; VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyRetransmittablePackets(NULL, 0); // Verify that if the retransmission alarm does fire to abandon packet 2, // the sent packet manager is not notified, since there is no retransmittable // data outstanding. EXPECT_CALL(*send_algorithm_, RetransmissionDelay()) .WillOnce(Return(QuicTime::Delta::FromMilliseconds(1))); manager_.OnRetransmissionTimeout(); } TEST_F(QuicSentPacketManagerTest, RetransmitTwiceThenAckFirst) { SerializedPacket serialized_packet(CreatePacket(1)); manager_.OnSerializedPacket(serialized_packet); RetransmitPacket(1, 2); RetransmitPacket(2, 3); // Ack 1 but not 2 or 3. ReceivedPacketInfo received_info; received_info.largest_observed = 1; manager_.OnIncomingAck(received_info, QuicTime::Zero()); // 3 remains unacked, but no packets have retransmittable data. QuicPacketSequenceNumber unacked[] = { 3 }; VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyRetransmittablePackets(NULL, 0); // Verify that if the retransmission alarm does fire to abandon packet 3, // the sent packet manager is not notified, since there is no retransmittable // data outstanding. EXPECT_CALL(*send_algorithm_, RetransmissionDelay()) .WillOnce(Return(QuicTime::Delta::FromMilliseconds(1))); manager_.OnRetransmissionTimeout(); } TEST_F(QuicSentPacketManagerTest, TruncatedAck) { SerializedPacket serialized_packet(CreatePacket(1)); manager_.OnSerializedPacket(serialized_packet); RetransmitPacket(1, 2); RetransmitPacket(2, 3); RetransmitPacket(3, 4); // Truncated ack with 2 NACKs ReceivedPacketInfo received_info; received_info.largest_observed = 2; received_info.missing_packets.insert(1); received_info.missing_packets.insert(2); received_info.is_truncated = true; manager_.OnIncomingAck(received_info, QuicTime::Zero()); // High water mark will be raised. QuicPacketSequenceNumber unacked[] = { 2, 3, 4 }; VerifyUnackedPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 4 }; VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); } TEST_F(QuicSentPacketManagerTest, SendDropAckRetransmitManyPackets) { manager_.OnSerializedPacket(CreatePacket(1)); manager_.OnSerializedPacket(CreatePacket(2)); manager_.OnSerializedPacket(CreatePacket(3)); { // Ack packets 1 and 3. ReceivedPacketInfo received_info; received_info.largest_observed = 3; received_info.missing_packets.insert(2); manager_.OnIncomingAck(received_info, QuicTime::Zero()); QuicPacketSequenceNumber unacked[] = { 2 }; VerifyUnackedPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 2 }; VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); } manager_.OnSerializedPacket(CreatePacket(4)); manager_.OnSerializedPacket(CreatePacket(5)); { // Ack packets 5. ReceivedPacketInfo received_info; received_info.largest_observed = 5; received_info.missing_packets.insert(2); received_info.missing_packets.insert(4); manager_.OnIncomingAck(received_info, QuicTime::Zero()); QuicPacketSequenceNumber unacked[] = { 2, 4 }; VerifyUnackedPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 2, 4 }; VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); } manager_.OnSerializedPacket(CreatePacket(6)); manager_.OnSerializedPacket(CreatePacket(7)); { // Ack packets 7. ReceivedPacketInfo received_info; received_info.largest_observed = 7; received_info.missing_packets.insert(2); received_info.missing_packets.insert(4); received_info.missing_packets.insert(6); manager_.OnIncomingAck(received_info, QuicTime::Zero()); QuicPacketSequenceNumber unacked[] = { 2, 4, 6 }; VerifyUnackedPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 2, 4, 6 }; VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); } RetransmitPacket(2, 8); manager_.OnSerializedPacket(CreatePacket(9)); manager_.OnSerializedPacket(CreatePacket(10)); { // Ack packet 10. ReceivedPacketInfo received_info; received_info.largest_observed = 10; received_info.missing_packets.insert(2); received_info.missing_packets.insert(4); received_info.missing_packets.insert(6); received_info.missing_packets.insert(8); received_info.missing_packets.insert(9); manager_.OnIncomingAck(received_info, QuicTime::Zero()); QuicPacketSequenceNumber unacked[] = { 2, 4, 6, 8, 9 }; VerifyUnackedPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 4, 6, 8, 9 }; VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); } RetransmitPacket(4, 11); manager_.OnSerializedPacket(CreatePacket(12)); manager_.OnSerializedPacket(CreatePacket(13)); { // Ack packet 13. ReceivedPacketInfo received_info; received_info.largest_observed = 13; received_info.missing_packets.insert(2); received_info.missing_packets.insert(4); received_info.missing_packets.insert(6); received_info.missing_packets.insert(8); received_info.missing_packets.insert(9); received_info.missing_packets.insert(11); received_info.missing_packets.insert(12); manager_.OnIncomingAck(received_info, QuicTime::Zero()); QuicPacketSequenceNumber unacked[] = { 2, 4, 6, 8, 9, 11, 12 }; VerifyUnackedPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 6, 8, 9, 11, 12 }; VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); } RetransmitPacket(6, 14); manager_.OnSerializedPacket(CreatePacket(15)); manager_.OnSerializedPacket(CreatePacket(16)); { // Ack packet 16. ReceivedPacketInfo received_info; received_info.largest_observed = 13; received_info.missing_packets.insert(2); received_info.missing_packets.insert(4); received_info.missing_packets.insert(6); received_info.missing_packets.insert(8); received_info.missing_packets.insert(9); received_info.missing_packets.insert(11); received_info.missing_packets.insert(12); received_info.is_truncated = true; manager_.OnIncomingAck(received_info, QuicTime::Zero()); // Truncated ack raises the high water mark by clearing out 2, 4, and 6. QuicPacketSequenceNumber unacked[] = { 8, 9, 11, 12, 14, 15, 16 }; VerifyUnackedPackets(unacked, arraysize(unacked)); QuicPacketSequenceNumber retransmittable[] = { 8, 9, 11, 12, 14, 15, 16 }; VerifyRetransmittablePackets(retransmittable, arraysize(retransmittable)); } } TEST_F(QuicSentPacketManagerTest, GetLeastUnackedSentPacket) { EXPECT_CALL(helper_, GetNextPacketSequenceNumber()).WillOnce(Return(1u)); EXPECT_EQ(1u, manager_.GetLeastUnackedSentPacket()); } TEST_F(QuicSentPacketManagerTest, GetLeastUnackedSentPacketUnacked) { SerializedPacket serialized_packet(CreatePacket(1)); manager_.OnSerializedPacket(serialized_packet); EXPECT_EQ(1u, manager_.GetLeastUnackedSentPacket()); } TEST_F(QuicSentPacketManagerTest, GetLeastUnackedSentPacketUnackedFec) { SerializedPacket serialized_packet(CreateFecPacket(1)); manager_.OnSerializedPacket(serialized_packet); EXPECT_EQ(1u, manager_.GetLeastUnackedSentPacket()); } TEST_F(QuicSentPacketManagerTest, GetLeastUnackedSentPacketDiscardUnacked) { SerializedPacket serialized_packet(CreatePacket(1)); manager_.OnSerializedPacket(serialized_packet); manager_.DiscardUnackedPacket(1u); EXPECT_CALL(helper_, GetNextPacketSequenceNumber()).WillOnce(Return(2u)); EXPECT_EQ(2u, manager_.GetLeastUnackedSentPacket()); } TEST_F(QuicSentPacketManagerTest, GetLeastUnackedPacketAndDiscard) { VerifyUnackedPackets(NULL, 0); SerializedPacket serialized_packet(CreateFecPacket(1)); manager_.OnSerializedPacket(serialized_packet); EXPECT_EQ(1u, manager_.GetLeastUnackedSentPacket()); SerializedPacket serialized_packet2(CreateFecPacket(2)); manager_.OnSerializedPacket(serialized_packet2); EXPECT_EQ(1u, manager_.GetLeastUnackedSentPacket()); SerializedPacket serialized_packet3(CreateFecPacket(3)); manager_.OnSerializedPacket(serialized_packet3); EXPECT_EQ(1u, manager_.GetLeastUnackedSentPacket()); QuicPacketSequenceNumber unacked[] = { 1, 2, 3 }; VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyRetransmittablePackets(NULL, 0); manager_.DiscardUnackedPacket(1); EXPECT_EQ(2u, manager_.GetLeastUnackedSentPacket()); // Ack 2. ReceivedPacketInfo received_info; received_info.largest_observed = 2; manager_.OnIncomingAck(received_info, QuicTime::Zero()); EXPECT_EQ(3u, manager_.GetLeastUnackedSentPacket()); // Discard the 3rd packet and ensure there are no FEC packets. manager_.DiscardUnackedPacket(3); EXPECT_FALSE(manager_.HasUnackedPackets()); } TEST_F(QuicSentPacketManagerTest, GetSentTime) { VerifyUnackedPackets(NULL, 0); SerializedPacket serialized_packet(CreateFecPacket(1)); manager_.OnSerializedPacket(serialized_packet); EXPECT_CALL(*send_algorithm_, OnPacketSent(_, 1, _, _, _)) .Times(1).WillOnce(Return(true)); manager_.OnPacketSent( 1, QuicTime::Zero(), 0, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); SerializedPacket serialized_packet2(CreateFecPacket(2)); QuicTime sent_time = QuicTime::Zero().Add(QuicTime::Delta::FromSeconds(1)); manager_.OnSerializedPacket(serialized_packet2); EXPECT_CALL(*send_algorithm_, OnPacketSent(_, 2, _, _, _)) .Times(1).WillOnce(Return(true)); manager_.OnPacketSent( 2, sent_time, 0, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); QuicPacketSequenceNumber unacked[] = { 1, 2 }; VerifyUnackedPackets(unacked, arraysize(unacked)); VerifyRetransmittablePackets(NULL, 0); EXPECT_TRUE(manager_.HasUnackedPackets()); EXPECT_EQ(QuicTime::Zero(), QuicSentPacketManagerPeer::GetSentTime(&manager_, 1)); EXPECT_EQ(sent_time, QuicSentPacketManagerPeer::GetSentTime(&manager_, 2)); } TEST_F(QuicSentPacketManagerTest, NackRetransmit1Packet) { const size_t kNumSentPackets = 4; // Transmit 4 packets. for (size_t i = 1; i <= kNumSentPackets; ++i) { EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(true)); manager_.OnPacketSent(i, clock_.Now(), 1000, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); } // Nack the first packet 3 times with increasing largest observed. ReceivedPacketInfo received_info; received_info.delta_time_largest_observed = QuicTime::Delta::FromMilliseconds(5); received_info.missing_packets.insert(1); for (QuicPacketSequenceNumber i = 1; i <= 3; ++i) { received_info.largest_observed = i + 1; EXPECT_CALL(*send_algorithm_, OnPacketAcked(i + 1, _, _)).Times(1); if (i == 3) { EXPECT_CALL(*send_algorithm_, OnPacketLost(1, _)).Times(1); EXPECT_CALL(*send_algorithm_, OnPacketAbandoned(1, _)).Times(1); } SequenceNumberSet retransmissions = manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(i == 3 ? 1u : 0u, retransmissions.size()); EXPECT_EQ(i, QuicSentPacketManagerPeer::GetNackCount(&manager_, 1)); } } // A stretch ack is an ack that covers more than 1 packet of previously // unacknowledged data. TEST_F(QuicSentPacketManagerTest, NackRetransmit1PacketWith1StretchAck) { const size_t kNumSentPackets = 4; // Transmit 4 packets. for (size_t i = 1; i <= kNumSentPackets; ++i) { EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(true)); manager_.OnPacketSent(i, clock_.Now(), 1000, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); } // Nack the first packet 3 times in a single StretchAck. ReceivedPacketInfo received_info; received_info.delta_time_largest_observed = QuicTime::Delta::FromMilliseconds(5); received_info.missing_packets.insert(1); received_info.largest_observed = kNumSentPackets; EXPECT_CALL(*send_algorithm_, OnPacketAcked(_, _, _)).Times(3); EXPECT_CALL(*send_algorithm_, OnPacketLost(1, _)).Times(1); EXPECT_CALL(*send_algorithm_, OnPacketAbandoned(1, _)).Times(1); SequenceNumberSet retransmissions = manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(1u, retransmissions.size()); EXPECT_EQ(3u, QuicSentPacketManagerPeer::GetNackCount(&manager_, 1)); } // Ack a packet 3 packets ahead, causing a retransmit. TEST_F(QuicSentPacketManagerTest, NackRetransmit1PacketSingleAck) { const size_t kNumSentPackets = 4; // Transmit 4 packets. for (size_t i = 1; i <= kNumSentPackets; ++i) { EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(true)); manager_.OnPacketSent(i, clock_.Now(), 1000, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); } // Nack the first packet 3 times in an AckFrame with three missing packets. ReceivedPacketInfo received_info; received_info.delta_time_largest_observed = QuicTime::Delta::FromMilliseconds(5); received_info.missing_packets.insert(1); received_info.missing_packets.insert(2); received_info.missing_packets.insert(3); received_info.largest_observed = kNumSentPackets; EXPECT_CALL(*send_algorithm_, OnPacketAcked(kNumSentPackets, _, _)).Times(1); EXPECT_CALL(*send_algorithm_, OnPacketLost(1, _)).Times(1); EXPECT_CALL(*send_algorithm_, OnPacketAbandoned(1, _)).Times(1); SequenceNumberSet retransmissions = manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(1u, retransmissions.size()); EXPECT_EQ(3u, QuicSentPacketManagerPeer::GetNackCount(&manager_, 1)); } TEST_F(QuicSentPacketManagerTest, EarlyRetransmit1Packet) { const size_t kNumSentPackets = 2; // Transmit 2 packets. for (size_t i = 1; i <= kNumSentPackets; ++i) { EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(true)); manager_.OnPacketSent(i, clock_.Now(), 1000, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); } // Early retransmit when the final packet gets acked and the first is nacked. ReceivedPacketInfo received_info; received_info.delta_time_largest_observed = QuicTime::Delta::FromMilliseconds(5); received_info.missing_packets.insert(1); received_info.largest_observed = kNumSentPackets; EXPECT_CALL(*send_algorithm_, OnPacketAcked(kNumSentPackets, _, _)).Times(1); EXPECT_CALL(*send_algorithm_, OnPacketLost(1, _)).Times(1); EXPECT_CALL(*send_algorithm_, OnPacketAbandoned(1, _)).Times(1); SequenceNumberSet retransmissions = manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(1u, retransmissions.size()); EXPECT_EQ(1u, QuicSentPacketManagerPeer::GetNackCount(&manager_, 1)); } TEST_F(QuicSentPacketManagerTest, DontEarlyRetransmitPacket) { const size_t kNumSentPackets = 4; for (size_t i = 1; i <= kNumSentPackets; ++i) { EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(true)); manager_.OnPacketSent(i, clock_.Now(), 1000, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); } // Fast retransmit when the final packet gets acked, but don't early // retransmit as well, because there are 4 packets outstanding when the ack // arrives. ReceivedPacketInfo received_info; received_info.delta_time_largest_observed = QuicTime::Delta::FromMilliseconds(5); received_info.missing_packets.insert(1); received_info.missing_packets.insert(2); received_info.missing_packets.insert(3); received_info.largest_observed = kNumSentPackets; EXPECT_CALL(*send_algorithm_, OnPacketAcked(kNumSentPackets, _, _)).Times(1); EXPECT_CALL(*send_algorithm_, OnPacketLost(1, _)).Times(1); EXPECT_CALL(*send_algorithm_, OnPacketAbandoned(1, _)).Times(1); SequenceNumberSet retransmissions = manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(1u, retransmissions.size()); EXPECT_EQ(3u, QuicSentPacketManagerPeer::GetNackCount(&manager_, 1)); } TEST_F(QuicSentPacketManagerTest, NackRetransmit2Packets) { const size_t kNumSentPackets = 20; // Transmit 20 packets. for (QuicPacketSequenceNumber i = 1; i <= kNumSentPackets; ++i) { EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(true)); manager_.OnPacketSent(i, clock_.Now(), 1000, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); } // Nack the first 19 packets 3 times. ReceivedPacketInfo received_info; received_info.largest_observed = kNumSentPackets; received_info.delta_time_largest_observed = QuicTime::Delta::FromMilliseconds(5); for (size_t i = 1; i < kNumSentPackets; ++i) { received_info.missing_packets.insert(i); } EXPECT_CALL(*send_algorithm_, OnPacketAcked(kNumSentPackets, _, _)).Times(1); EXPECT_CALL(*send_algorithm_, OnPacketLost(_, _)).Times(2); EXPECT_CALL(*send_algorithm_, OnPacketAbandoned(_, _)).Times(2); SequenceNumberSet retransmissions = manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(2u, retransmissions.size()); for (size_t i = 1; i < kNumSentPackets; ++i) { EXPECT_EQ(kNumSentPackets - i, QuicSentPacketManagerPeer::GetNackCount(&manager_, i)); } } TEST_F(QuicSentPacketManagerTest, NackRetransmit2PacketsAlternateAcks) { const size_t kNumSentPackets = 30; // Transmit 15 packets of data and 15 ack packets. The send algorithm will // inform the congestion manager not to save the acks by returning false. for (QuicPacketSequenceNumber i = 1; i <= kNumSentPackets; ++i) { EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(i % 2 == 0 ? false : true)); manager_.OnPacketSent( i, clock_.Now(), 1000, NOT_RETRANSMISSION, i % 2 == 0 ? NO_RETRANSMITTABLE_DATA : HAS_RETRANSMITTABLE_DATA); } // Nack the first 29 packets 3 times. ReceivedPacketInfo received_info; received_info.largest_observed = kNumSentPackets; received_info.delta_time_largest_observed = QuicTime::Delta::FromMilliseconds(5); for (size_t i = 1; i < kNumSentPackets; ++i) { received_info.missing_packets.insert(i); } // We never actually get an ack call, since the kNumSentPackets packet was // not saved. EXPECT_CALL(*send_algorithm_, OnPacketLost(_, _)).Times(2); EXPECT_CALL(*send_algorithm_, OnPacketAbandoned(_, _)).Times(2); SequenceNumberSet retransmissions = manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(2u, retransmissions.size()); // Only non-ack packets have a nack count. for (size_t i = 1; i < kNumSentPackets; i += 2) { EXPECT_EQ(kNumSentPackets - i, QuicSentPacketManagerPeer::GetNackCount(&manager_, i)); } // Ensure only the odd packets were retransmitted, since the others were not // retransmittable(ie: acks). for (SequenceNumberSet::const_iterator it = retransmissions.begin(); it != retransmissions.end(); ++it) { EXPECT_EQ(1u, *it % 2); } } TEST_F(QuicSentPacketManagerTest, NackTwiceThenAck) { // Transmit 4 packets. for (QuicPacketSequenceNumber i = 1; i <= 4; ++i) { EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(true)); manager_.OnPacketSent(i, clock_.Now(), 1000, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); } // Nack the first packet 2 times, then ack it. ReceivedPacketInfo received_info; received_info.missing_packets.insert(1); for (size_t i = 1; i <= 3; ++i) { if (i == 3) { received_info.missing_packets.clear(); } received_info.largest_observed = i + 1; received_info.delta_time_largest_observed = QuicTime::Delta::FromMilliseconds(5); EXPECT_CALL(*send_algorithm_, OnPacketAcked(_, _, _)).Times(i == 3 ? 2 : 1); SequenceNumberSet retransmissions = manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(0u, retransmissions.size()); // The nack count remains at 2 when the packet is acked. EXPECT_EQ(i == 3 ? 2u : i, QuicSentPacketManagerPeer::GetNackCount(&manager_, 1)); } } TEST_F(QuicSentPacketManagerTest, Rtt) { QuicPacketSequenceNumber sequence_number = 1; QuicTime::Delta expected_rtt = QuicTime::Delta::FromMilliseconds(15); EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(true)); EXPECT_CALL(*send_algorithm_, OnPacketAcked(sequence_number, _, expected_rtt)).Times(1); manager_.OnPacketSent(sequence_number, clock_.Now(), 1000, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); clock_.AdvanceTime(QuicTime::Delta::FromMilliseconds(20)); ReceivedPacketInfo received_info; received_info.largest_observed = sequence_number; received_info.delta_time_largest_observed = QuicTime::Delta::FromMilliseconds(5); manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(expected_rtt, QuicSentPacketManagerPeer::rtt(&manager_)); } 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); EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(true)); EXPECT_CALL(*send_algorithm_, OnPacketAcked(sequence_number, _, expected_rtt)).Times(1); manager_.OnPacketSent(sequence_number, clock_.Now(), 1000, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); clock_.AdvanceTime(QuicTime::Delta::FromMilliseconds(10)); ReceivedPacketInfo received_info; received_info.largest_observed = sequence_number; received_info.delta_time_largest_observed = QuicTime::Delta::FromMilliseconds(11); manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(expected_rtt, QuicSentPacketManagerPeer::rtt(&manager_)); } 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); EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(true)); EXPECT_CALL(*send_algorithm_, OnPacketAcked(sequence_number, _, expected_rtt)).Times(1); manager_.OnPacketSent(sequence_number, clock_.Now(), 1000, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); clock_.AdvanceTime(QuicTime::Delta::FromMilliseconds(10)); ReceivedPacketInfo received_info; received_info.largest_observed = sequence_number; received_info.delta_time_largest_observed = QuicTime::Delta::Infinite(); manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(expected_rtt, QuicSentPacketManagerPeer::rtt(&manager_)); } 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); EXPECT_CALL(*send_algorithm_, OnPacketSent(_, _, _, _, _)) .Times(1).WillOnce(Return(true)); EXPECT_CALL(*send_algorithm_, OnPacketAcked(sequence_number, _, expected_rtt)) .Times(1); manager_.OnPacketSent(sequence_number, clock_.Now(), 1000, NOT_RETRANSMISSION, HAS_RETRANSMITTABLE_DATA); clock_.AdvanceTime(expected_rtt); ReceivedPacketInfo received_info; received_info.largest_observed = sequence_number; received_info.delta_time_largest_observed = QuicTime::Delta::Zero(); manager_.OnIncomingAckFrame(received_info, clock_.Now()); EXPECT_EQ(expected_rtt, QuicSentPacketManagerPeer::rtt(&manager_)); } TEST_F(QuicSentPacketManagerTest, RetransmissionTimeout) { // Send 100 packets and then ensure all are abandoned when the RTO fires. const size_t kNumSentPackets = 100; for (size_t i = 1; i <= kNumSentPackets; ++i) { SendDataPacket(i); } EXPECT_CALL(*send_algorithm_, OnPacketAbandoned(_, _)).Times(kNumSentPackets); EXPECT_CALL(*send_algorithm_, RetransmissionDelay()) .WillOnce(Return(QuicTime::Delta::FromMilliseconds(1))); EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout()); manager_.OnRetransmissionTimeout(); } TEST_F(QuicSentPacketManagerTest, GetTransmissionDelayMin) { EXPECT_CALL(*send_algorithm_, RetransmissionDelay()) .WillOnce(Return(QuicTime::Delta::FromMilliseconds(1))); EXPECT_EQ(QuicTime::Delta::FromMilliseconds(200), manager_.GetRetransmissionDelay()); } TEST_F(QuicSentPacketManagerTest, GetTransmissionDelayMax) { EXPECT_CALL(*send_algorithm_, RetransmissionDelay()) .WillOnce(Return(QuicTime::Delta::FromSeconds(500))); EXPECT_EQ(QuicTime::Delta::FromSeconds(60), manager_.GetRetransmissionDelay()); } 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, manager_.GetRetransmissionDelay()); delay = delay.Add(delay); EXPECT_CALL(*send_algorithm_, OnPacketAbandoned(i + 1, _)); EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout()); manager_.OnRetransmissionTimeout(); RetransmitNextPacket(i + 2); } } TEST_F(QuicSentPacketManagerTest, GetTestTransmissionDelayTailDrop) { FLAGS_limit_rto_increase_for_tests = true; SendDataPacket(1); QuicTime::Delta delay = QuicTime::Delta::FromMilliseconds(500); EXPECT_CALL(*send_algorithm_, RetransmissionDelay()) .WillRepeatedly(Return(delay)); // No backoff for the first 5 retransmissions. for (int i = 0; i < 5; ++i) { EXPECT_EQ(delay, manager_.GetRetransmissionDelay()); EXPECT_CALL(*send_algorithm_, OnPacketAbandoned(i + 1, _)); EXPECT_CALL(*send_algorithm_, OnRetransmissionTimeout()); manager_.OnRetransmissionTimeout(); RetransmitNextPacket(i + 2); } // Then backoff starts EXPECT_EQ(delay.Add(delay), manager_.GetRetransmissionDelay()); } } // namespace } // namespace test } // namespace net