/* * Copyright (c) 2021 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "net/dcsctp/tx/outstanding_data.h" #include #include "absl/types/optional.h" #include "net/dcsctp/common/math.h" #include "net/dcsctp/common/sequence_numbers.h" #include "net/dcsctp/packet/chunk/data_chunk.h" #include "net/dcsctp/packet/chunk/forward_tsn_chunk.h" #include "net/dcsctp/public/types.h" #include "net/dcsctp/testing/data_generator.h" #include "net/dcsctp/testing/testing_macros.h" #include "rtc_base/gunit.h" #include "test/gmock.h" namespace dcsctp { namespace { using ::testing::MockFunction; using State = ::dcsctp::OutstandingData::State; using ::testing::_; using ::testing::ElementsAre; using ::testing::IsEmpty; using ::testing::Pair; using ::testing::Return; using ::testing::StrictMock; constexpr TimeMs kNow(42); class OutstandingDataTest : public testing::Test { protected: OutstandingDataTest() : gen_(MID(42)), buf_(DataChunk::kHeaderSize, unwrapper_.Unwrap(TSN(10)), unwrapper_.Unwrap(TSN(9)), on_discard_.AsStdFunction()) {} UnwrappedTSN::Unwrapper unwrapper_; DataGenerator gen_; StrictMock> on_discard_; OutstandingData buf_; }; TEST_F(OutstandingDataTest, HasInitialState) { EXPECT_TRUE(buf_.empty()); EXPECT_EQ(buf_.outstanding_bytes(), 0u); EXPECT_EQ(buf_.outstanding_items(), 0u); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_EQ(buf_.last_cumulative_tsn_ack().Wrap(), TSN(9)); EXPECT_EQ(buf_.next_tsn().Wrap(), TSN(10)); EXPECT_EQ(buf_.highest_outstanding_tsn().Wrap(), TSN(9)); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(9), State::kAcked))); EXPECT_FALSE(buf_.ShouldSendForwardTsn()); } TEST_F(OutstandingDataTest, InsertChunk) { ASSERT_HAS_VALUE_AND_ASSIGN(UnwrappedTSN tsn, buf_.Insert(gen_.Ordered({1}, "BE"), kNow)); EXPECT_EQ(tsn.Wrap(), TSN(10)); EXPECT_EQ(buf_.outstanding_bytes(), DataChunk::kHeaderSize + RoundUpTo4(1)); EXPECT_EQ(buf_.outstanding_items(), 1u); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_EQ(buf_.last_cumulative_tsn_ack().Wrap(), TSN(9)); EXPECT_EQ(buf_.next_tsn().Wrap(), TSN(11)); EXPECT_EQ(buf_.highest_outstanding_tsn().Wrap(), TSN(10)); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(9), State::kAcked), Pair(TSN(10), State::kInFlight))); } TEST_F(OutstandingDataTest, AcksSingleChunk) { buf_.Insert(gen_.Ordered({1}, "BE"), kNow); OutstandingData::AckInfo ack = buf_.HandleSack(unwrapper_.Unwrap(TSN(10)), {}, false); EXPECT_EQ(ack.bytes_acked, DataChunk::kHeaderSize + RoundUpTo4(1)); EXPECT_EQ(ack.highest_tsn_acked.Wrap(), TSN(10)); EXPECT_FALSE(ack.has_packet_loss); EXPECT_EQ(buf_.outstanding_bytes(), 0u); EXPECT_EQ(buf_.outstanding_items(), 0u); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_EQ(buf_.last_cumulative_tsn_ack().Wrap(), TSN(10)); EXPECT_EQ(buf_.next_tsn().Wrap(), TSN(11)); EXPECT_EQ(buf_.highest_outstanding_tsn().Wrap(), TSN(10)); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(10), State::kAcked))); } TEST_F(OutstandingDataTest, AcksPreviousChunkDoesntUpdate) { buf_.Insert(gen_.Ordered({1}, "BE"), kNow); buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), {}, false); EXPECT_EQ(buf_.outstanding_bytes(), DataChunk::kHeaderSize + RoundUpTo4(1)); EXPECT_EQ(buf_.outstanding_items(), 1u); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_EQ(buf_.last_cumulative_tsn_ack().Wrap(), TSN(9)); EXPECT_EQ(buf_.next_tsn().Wrap(), TSN(11)); EXPECT_EQ(buf_.highest_outstanding_tsn().Wrap(), TSN(10)); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(9), State::kAcked), Pair(TSN(10), State::kInFlight))); } TEST_F(OutstandingDataTest, AcksAndNacksWithGapAckBlocks) { buf_.Insert(gen_.Ordered({1}, "B"), kNow); buf_.Insert(gen_.Ordered({1}, "E"), kNow); std::vector gab = {SackChunk::GapAckBlock(2, 2)}; OutstandingData::AckInfo ack = buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab, false); EXPECT_EQ(ack.bytes_acked, DataChunk::kHeaderSize + RoundUpTo4(1)); EXPECT_EQ(ack.highest_tsn_acked.Wrap(), TSN(11)); EXPECT_FALSE(ack.has_packet_loss); EXPECT_EQ(buf_.outstanding_bytes(), 0u); EXPECT_EQ(buf_.outstanding_items(), 0u); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_EQ(buf_.last_cumulative_tsn_ack().Wrap(), TSN(9)); EXPECT_EQ(buf_.next_tsn().Wrap(), TSN(12)); EXPECT_EQ(buf_.highest_outstanding_tsn().Wrap(), TSN(11)); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(9), State::kAcked), // Pair(TSN(10), State::kNacked), // Pair(TSN(11), State::kAcked))); } TEST_F(OutstandingDataTest, NacksThreeTimesWithSameTsnDoesntRetransmit) { buf_.Insert(gen_.Ordered({1}, "B"), kNow); buf_.Insert(gen_.Ordered({1}, "E"), kNow); std::vector gab1 = {SackChunk::GapAckBlock(2, 2)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab1, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab1, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab1, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(9), State::kAcked), // Pair(TSN(10), State::kNacked), // Pair(TSN(11), State::kAcked))); } TEST_F(OutstandingDataTest, NacksThreeTimesResultsInRetransmission) { buf_.Insert(gen_.Ordered({1}, "B"), kNow); buf_.Insert(gen_.Ordered({1}, ""), kNow); buf_.Insert(gen_.Ordered({1}, ""), kNow); buf_.Insert(gen_.Ordered({1}, "E"), kNow); std::vector gab1 = {SackChunk::GapAckBlock(2, 2)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab1, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); std::vector gab2 = {SackChunk::GapAckBlock(2, 3)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab2, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); std::vector gab3 = {SackChunk::GapAckBlock(2, 4)}; OutstandingData::AckInfo ack = buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab3, false); EXPECT_EQ(ack.bytes_acked, DataChunk::kHeaderSize + RoundUpTo4(1)); EXPECT_EQ(ack.highest_tsn_acked.Wrap(), TSN(13)); EXPECT_TRUE(ack.has_packet_loss); EXPECT_TRUE(buf_.has_data_to_be_retransmitted()); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(9), State::kAcked), // Pair(TSN(10), State::kToBeRetransmitted), // Pair(TSN(11), State::kAcked), // Pair(TSN(12), State::kAcked), // Pair(TSN(13), State::kAcked))); EXPECT_THAT(buf_.GetChunksToBeFastRetransmitted(1000), ElementsAre(Pair(TSN(10), _))); EXPECT_THAT(buf_.GetChunksToBeRetransmitted(1000), IsEmpty()); } TEST_F(OutstandingDataTest, NacksThreeTimesResultsInAbandoning) { static constexpr MaxRetransmits kMaxRetransmissions(0); buf_.Insert(gen_.Ordered({1}, "B"), kNow, kMaxRetransmissions); buf_.Insert(gen_.Ordered({1}, ""), kNow, kMaxRetransmissions); buf_.Insert(gen_.Ordered({1}, ""), kNow, kMaxRetransmissions); buf_.Insert(gen_.Ordered({1}, "E"), kNow, kMaxRetransmissions); std::vector gab1 = {SackChunk::GapAckBlock(2, 2)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab1, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); std::vector gab2 = {SackChunk::GapAckBlock(2, 3)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab2, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_CALL(on_discard_, Call(IsUnordered(false), StreamID(1), MID(42))) .WillOnce(Return(false)); std::vector gab3 = {SackChunk::GapAckBlock(2, 4)}; OutstandingData::AckInfo ack = buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab3, false); EXPECT_EQ(ack.bytes_acked, DataChunk::kHeaderSize + RoundUpTo4(1)); EXPECT_EQ(ack.highest_tsn_acked.Wrap(), TSN(13)); EXPECT_TRUE(ack.has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_EQ(buf_.next_tsn().Wrap(), TSN(14)); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(9), State::kAcked), // Pair(TSN(10), State::kAbandoned), // Pair(TSN(11), State::kAbandoned), // Pair(TSN(12), State::kAbandoned), // Pair(TSN(13), State::kAbandoned))); } TEST_F(OutstandingDataTest, NacksThreeTimesResultsInAbandoningWithPlaceholder) { static constexpr MaxRetransmits kMaxRetransmissions(0); buf_.Insert(gen_.Ordered({1}, "B"), kNow, kMaxRetransmissions); buf_.Insert(gen_.Ordered({1}, ""), kNow, kMaxRetransmissions); buf_.Insert(gen_.Ordered({1}, ""), kNow, kMaxRetransmissions); buf_.Insert(gen_.Ordered({1}, ""), kNow, kMaxRetransmissions); std::vector gab1 = {SackChunk::GapAckBlock(2, 2)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab1, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); std::vector gab2 = {SackChunk::GapAckBlock(2, 3)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab2, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_CALL(on_discard_, Call(IsUnordered(false), StreamID(1), MID(42))) .WillOnce(Return(true)); std::vector gab3 = {SackChunk::GapAckBlock(2, 4)}; OutstandingData::AckInfo ack = buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab3, false); EXPECT_EQ(ack.bytes_acked, DataChunk::kHeaderSize + RoundUpTo4(1)); EXPECT_EQ(ack.highest_tsn_acked.Wrap(), TSN(13)); EXPECT_TRUE(ack.has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_EQ(buf_.next_tsn().Wrap(), TSN(15)); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(9), State::kAcked), // Pair(TSN(10), State::kAbandoned), // Pair(TSN(11), State::kAbandoned), // Pair(TSN(12), State::kAbandoned), // Pair(TSN(13), State::kAbandoned), // Pair(TSN(14), State::kAbandoned))); } TEST_F(OutstandingDataTest, ExpiresChunkBeforeItIsInserted) { static constexpr TimeMs kExpiresAt = kNow + DurationMs(1); EXPECT_TRUE(buf_.Insert(gen_.Ordered({1}, "B"), kNow, MaxRetransmits::NoLimit(), kExpiresAt) .has_value()); EXPECT_TRUE(buf_.Insert(gen_.Ordered({1}, ""), kNow + DurationMs(0), MaxRetransmits::NoLimit(), kExpiresAt) .has_value()); EXPECT_CALL(on_discard_, Call(IsUnordered(false), StreamID(1), MID(42))) .WillOnce(Return(false)); EXPECT_FALSE(buf_.Insert(gen_.Ordered({1}, "E"), kNow + DurationMs(1), MaxRetransmits::NoLimit(), kExpiresAt) .has_value()); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_EQ(buf_.last_cumulative_tsn_ack().Wrap(), TSN(9)); EXPECT_EQ(buf_.next_tsn().Wrap(), TSN(13)); EXPECT_EQ(buf_.highest_outstanding_tsn().Wrap(), TSN(12)); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(9), State::kAcked), // Pair(TSN(10), State::kAbandoned), // Pair(TSN(11), State::kAbandoned), Pair(TSN(12), State::kAbandoned))); } TEST_F(OutstandingDataTest, CanGenerateForwardTsn) { static constexpr MaxRetransmits kMaxRetransmissions(0); buf_.Insert(gen_.Ordered({1}, "B"), kNow, kMaxRetransmissions); buf_.Insert(gen_.Ordered({1}, ""), kNow, kMaxRetransmissions); buf_.Insert(gen_.Ordered({1}, "E"), kNow, kMaxRetransmissions); EXPECT_CALL(on_discard_, Call(IsUnordered(false), StreamID(1), MID(42))) .WillOnce(Return(false)); buf_.NackAll(); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(9), State::kAcked), // Pair(TSN(10), State::kAbandoned), // Pair(TSN(11), State::kAbandoned), Pair(TSN(12), State::kAbandoned))); EXPECT_TRUE(buf_.ShouldSendForwardTsn()); ForwardTsnChunk chunk = buf_.CreateForwardTsn(); EXPECT_EQ(chunk.new_cumulative_tsn(), TSN(12)); } TEST_F(OutstandingDataTest, AckWithGapBlocksFromRFC4960Section334) { buf_.Insert(gen_.Ordered({1}, "B"), kNow); buf_.Insert(gen_.Ordered({1}, ""), kNow); buf_.Insert(gen_.Ordered({1}, ""), kNow); buf_.Insert(gen_.Ordered({1}, ""), kNow); buf_.Insert(gen_.Ordered({1}, ""), kNow); buf_.Insert(gen_.Ordered({1}, ""), kNow); buf_.Insert(gen_.Ordered({1}, ""), kNow); buf_.Insert(gen_.Ordered({1}, "E"), kNow); EXPECT_THAT(buf_.GetChunkStatesForTesting(), testing::ElementsAre(Pair(TSN(9), State::kAcked), // Pair(TSN(10), State::kInFlight), // Pair(TSN(11), State::kInFlight), // Pair(TSN(12), State::kInFlight), // Pair(TSN(13), State::kInFlight), // Pair(TSN(14), State::kInFlight), // Pair(TSN(15), State::kInFlight), // Pair(TSN(16), State::kInFlight), // Pair(TSN(17), State::kInFlight))); std::vector gab = {SackChunk::GapAckBlock(2, 3), SackChunk::GapAckBlock(5, 5)}; buf_.HandleSack(unwrapper_.Unwrap(TSN(12)), gab, false); EXPECT_THAT(buf_.GetChunkStatesForTesting(), ElementsAre(Pair(TSN(12), State::kAcked), // Pair(TSN(13), State::kNacked), // Pair(TSN(14), State::kAcked), // Pair(TSN(15), State::kAcked), // Pair(TSN(16), State::kNacked), // Pair(TSN(17), State::kAcked))); } TEST_F(OutstandingDataTest, MeasureRTT) { buf_.Insert(gen_.Ordered({1}, "BE"), kNow); buf_.Insert(gen_.Ordered({1}, "BE"), kNow + DurationMs(1)); buf_.Insert(gen_.Ordered({1}, "BE"), kNow + DurationMs(2)); static constexpr DurationMs kDuration(123); ASSERT_HAS_VALUE_AND_ASSIGN( DurationMs duration, buf_.MeasureRTT(kNow + kDuration, unwrapper_.Unwrap(TSN(11)))); EXPECT_EQ(duration, kDuration - DurationMs(1)); } TEST_F(OutstandingDataTest, MustRetransmitBeforeGettingNackedAgain) { // This test case verifies that a chunk that has been nacked, and scheduled to // be retransmitted, doesn't get nacked again until it has been actually sent // on the wire. static constexpr MaxRetransmits kOneRetransmission(1); for (int tsn = 10; tsn <= 20; ++tsn) { buf_.Insert(gen_.Ordered({1}, tsn == 10 ? "B" : tsn == 20 ? "E" : ""), kNow, kOneRetransmission); } std::vector gab1 = {SackChunk::GapAckBlock(2, 2)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab1, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); std::vector gab2 = {SackChunk::GapAckBlock(2, 3)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab2, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); std::vector gab3 = {SackChunk::GapAckBlock(2, 4)}; OutstandingData::AckInfo ack = buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab3, false); EXPECT_TRUE(ack.has_packet_loss); EXPECT_TRUE(buf_.has_data_to_be_retransmitted()); // Don't call GetChunksToBeRetransmitted yet - simulate that the congestion // window doesn't allow it to be retransmitted yet. It does however get more // SACKs indicating packet loss. std::vector gab4 = {SackChunk::GapAckBlock(2, 5)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab4, false).has_packet_loss); EXPECT_TRUE(buf_.has_data_to_be_retransmitted()); std::vector gab5 = {SackChunk::GapAckBlock(2, 6)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab5, false).has_packet_loss); EXPECT_TRUE(buf_.has_data_to_be_retransmitted()); std::vector gab6 = {SackChunk::GapAckBlock(2, 7)}; OutstandingData::AckInfo ack2 = buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab6, false); EXPECT_FALSE(ack2.has_packet_loss); EXPECT_TRUE(buf_.has_data_to_be_retransmitted()); // Now it's retransmitted. EXPECT_THAT(buf_.GetChunksToBeFastRetransmitted(1000), ElementsAre(Pair(TSN(10), _))); EXPECT_THAT(buf_.GetChunksToBeRetransmitted(1000), IsEmpty()); // And obviously lost, as it will get NACKed and abandoned. std::vector gab7 = {SackChunk::GapAckBlock(2, 8)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab7, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); std::vector gab8 = {SackChunk::GapAckBlock(2, 9)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab8, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_CALL(on_discard_, Call(IsUnordered(false), StreamID(1), MID(42))) .WillOnce(Return(false)); std::vector gab9 = {SackChunk::GapAckBlock(2, 10)}; OutstandingData::AckInfo ack3 = buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab9, false); EXPECT_TRUE(ack3.has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); } TEST_F(OutstandingDataTest, CanAbandonChunksMarkedForFastRetransmit) { // This test is a bit convoluted, and can't really happen with a well behaving // client, but this was found by fuzzers. This test will verify that a message // that was both marked as "to be fast retransmitted" and "abandoned" at the // same time doesn't cause any consistency issues. // Add chunks 10-14, but chunk 11 has zero retransmissions. When chunk 10 and // 11 are NACKed three times, chunk 10 will be marked for retransmission, but // chunk 11 will be abandoned, which also abandons chunk 10, as it's part of // the same message. buf_.Insert(gen_.Ordered({1}, "B"), kNow); // 10 buf_.Insert(gen_.Ordered({1}, ""), kNow, MaxRetransmits(0)); // 11 buf_.Insert(gen_.Ordered({1}, ""), kNow); // 12 buf_.Insert(gen_.Ordered({1}, ""), kNow); // 13 buf_.Insert(gen_.Ordered({1}, "E"), kNow); // 14 // ACK 9, 12 std::vector gab1 = {SackChunk::GapAckBlock(3, 3)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab1, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); // ACK 9, 12, 13 std::vector gab2 = {SackChunk::GapAckBlock(3, 4)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab2, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_CALL(on_discard_, Call(IsUnordered(false), StreamID(1), MID(42))) .WillOnce(Return(false)); // ACK 9, 12, 13, 14 std::vector gab3 = {SackChunk::GapAckBlock(3, 5)}; OutstandingData::AckInfo ack = buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab3, false); EXPECT_TRUE(ack.has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_THAT(buf_.GetChunksToBeFastRetransmitted(1000), IsEmpty()); EXPECT_THAT(buf_.GetChunksToBeRetransmitted(1000), IsEmpty()); } TEST_F(OutstandingDataTest, LifecyleReturnsAckedItemsInAckInfo) { buf_.Insert(gen_.Ordered({1}, "BE"), kNow, MaxRetransmits::NoLimit(), TimeMs::InfiniteFuture(), LifecycleId(42)); buf_.Insert(gen_.Ordered({1}, "BE"), kNow, MaxRetransmits::NoLimit(), TimeMs::InfiniteFuture(), LifecycleId(43)); buf_.Insert(gen_.Ordered({1}, "BE"), kNow, MaxRetransmits::NoLimit(), TimeMs::InfiniteFuture(), LifecycleId(44)); OutstandingData::AckInfo ack1 = buf_.HandleSack(unwrapper_.Unwrap(TSN(11)), {}, false); EXPECT_THAT(ack1.acked_lifecycle_ids, ElementsAre(LifecycleId(42), LifecycleId(43))); OutstandingData::AckInfo ack2 = buf_.HandleSack(unwrapper_.Unwrap(TSN(12)), {}, false); EXPECT_THAT(ack2.acked_lifecycle_ids, ElementsAre(LifecycleId(44))); } TEST_F(OutstandingDataTest, LifecycleReturnsAbandonedNackedThreeTimes) { buf_.Insert(gen_.Ordered({1}, "B"), kNow, MaxRetransmits(0)); buf_.Insert(gen_.Ordered({1}, ""), kNow, MaxRetransmits(0)); buf_.Insert(gen_.Ordered({1}, ""), kNow, MaxRetransmits(0)); buf_.Insert(gen_.Ordered({1}, "E"), kNow, MaxRetransmits(0), TimeMs::InfiniteFuture(), LifecycleId(42)); std::vector gab1 = {SackChunk::GapAckBlock(2, 2)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab1, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); std::vector gab2 = {SackChunk::GapAckBlock(2, 3)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab2, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); std::vector gab3 = {SackChunk::GapAckBlock(2, 4)}; EXPECT_CALL(on_discard_, Call(IsUnordered(false), StreamID(1), MID(42))) .WillOnce(Return(false)); OutstandingData::AckInfo ack1 = buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab3, false); EXPECT_TRUE(ack1.has_packet_loss); EXPECT_THAT(ack1.abandoned_lifecycle_ids, IsEmpty()); // This will generate a FORWARD-TSN, which is acked EXPECT_TRUE(buf_.ShouldSendForwardTsn()); ForwardTsnChunk chunk = buf_.CreateForwardTsn(); EXPECT_EQ(chunk.new_cumulative_tsn(), TSN(13)); OutstandingData::AckInfo ack2 = buf_.HandleSack(unwrapper_.Unwrap(TSN(13)), {}, false); EXPECT_FALSE(ack2.has_packet_loss); EXPECT_THAT(ack2.abandoned_lifecycle_ids, ElementsAre(LifecycleId(42))); } TEST_F(OutstandingDataTest, LifecycleReturnsAbandonedAfterT3rtxExpired) { buf_.Insert(gen_.Ordered({1}, "B"), kNow, MaxRetransmits(0)); buf_.Insert(gen_.Ordered({1}, ""), kNow, MaxRetransmits(0)); buf_.Insert(gen_.Ordered({1}, ""), kNow, MaxRetransmits(0)); buf_.Insert(gen_.Ordered({1}, "E"), kNow, MaxRetransmits(0), TimeMs::InfiniteFuture(), LifecycleId(42)); EXPECT_THAT(buf_.GetChunkStatesForTesting(), testing::ElementsAre(Pair(TSN(9), State::kAcked), // Pair(TSN(10), State::kInFlight), // Pair(TSN(11), State::kInFlight), // Pair(TSN(12), State::kInFlight), // Pair(TSN(13), State::kInFlight))); std::vector gab1 = {SackChunk::GapAckBlock(2, 4)}; EXPECT_FALSE( buf_.HandleSack(unwrapper_.Unwrap(TSN(9)), gab1, false).has_packet_loss); EXPECT_FALSE(buf_.has_data_to_be_retransmitted()); EXPECT_THAT(buf_.GetChunkStatesForTesting(), testing::ElementsAre(Pair(TSN(9), State::kAcked), // Pair(TSN(10), State::kNacked), // Pair(TSN(11), State::kAcked), // Pair(TSN(12), State::kAcked), // Pair(TSN(13), State::kAcked))); // T3-rtx triggered. EXPECT_CALL(on_discard_, Call(IsUnordered(false), StreamID(1), MID(42))) .WillOnce(Return(false)); buf_.NackAll(); EXPECT_THAT(buf_.GetChunkStatesForTesting(), testing::ElementsAre(Pair(TSN(9), State::kAcked), // Pair(TSN(10), State::kAbandoned), // Pair(TSN(11), State::kAbandoned), // Pair(TSN(12), State::kAbandoned), // Pair(TSN(13), State::kAbandoned))); // This will generate a FORWARD-TSN, which is acked EXPECT_TRUE(buf_.ShouldSendForwardTsn()); ForwardTsnChunk chunk = buf_.CreateForwardTsn(); EXPECT_EQ(chunk.new_cumulative_tsn(), TSN(13)); OutstandingData::AckInfo ack2 = buf_.HandleSack(unwrapper_.Unwrap(TSN(13)), {}, false); EXPECT_FALSE(ack2.has_packet_loss); EXPECT_THAT(ack2.abandoned_lifecycle_ids, ElementsAre(LifecycleId(42))); } } // namespace } // namespace dcsctp