blob: 3b4a2323c37011c0f3333a45a753e2ce3fb9c82f [file] [log] [blame]
/*
* 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/retransmission_queue.h"
#include <cstddef>
#include <cstdint>
#include <functional>
#include <memory>
#include <utility>
#include <vector>
#include "absl/types/optional.h"
#include "api/array_view.h"
#include "api/task_queue/task_queue_base.h"
#include "net/dcsctp/common/handover_testing.h"
#include "net/dcsctp/common/internal_types.h"
#include "net/dcsctp/common/math.h"
#include "net/dcsctp/packet/chunk/data_chunk.h"
#include "net/dcsctp/packet/chunk/forward_tsn_chunk.h"
#include "net/dcsctp/packet/chunk/forward_tsn_common.h"
#include "net/dcsctp/packet/chunk/iforward_tsn_chunk.h"
#include "net/dcsctp/packet/chunk/sack_chunk.h"
#include "net/dcsctp/packet/data.h"
#include "net/dcsctp/public/dcsctp_options.h"
#include "net/dcsctp/socket/mock_dcsctp_socket_callbacks.h"
#include "net/dcsctp/testing/data_generator.h"
#include "net/dcsctp/testing/testing_macros.h"
#include "net/dcsctp/timer/fake_timeout.h"
#include "net/dcsctp/timer/timer.h"
#include "net/dcsctp/tx/mock_send_queue.h"
#include "net/dcsctp/tx/send_queue.h"
#include "rtc_base/gunit.h"
#include "test/gmock.h"
namespace dcsctp {
namespace {
using ::testing::MockFunction;
using State = ::dcsctp::RetransmissionQueue::State;
using ::testing::_;
using ::testing::ElementsAre;
using ::testing::Field;
using ::testing::IsEmpty;
using ::testing::NiceMock;
using ::testing::Pair;
using ::testing::Return;
using ::testing::SizeIs;
using ::testing::UnorderedElementsAre;
using ::webrtc::TimeDelta;
using ::webrtc::Timestamp;
constexpr uint32_t kArwnd = 100000;
constexpr uint32_t kMaxMtu = 1191;
constexpr OutgoingMessageId kMessageId = OutgoingMessageId(42);
DcSctpOptions MakeOptions() {
DcSctpOptions options;
options.mtu = kMaxMtu;
return options;
}
class RetransmissionQueueTest : public testing::Test {
protected:
RetransmissionQueueTest()
: options_(MakeOptions()),
gen_(MID(42)),
timeout_manager_([this]() { return now_; }),
timer_manager_([this](webrtc::TaskQueueBase::DelayPrecision precision) {
return timeout_manager_.CreateTimeout(precision);
}),
timer_(timer_manager_.CreateTimer(
"test/t3_rtx",
[]() { return TimeDelta::Zero(); },
TimerOptions(options_.rto_initial.ToTimeDelta()))) {}
std::function<SendQueue::DataToSend(Timestamp, size_t)> CreateChunk(
OutgoingMessageId message_id) {
return [this, message_id](Timestamp now, size_t max_size) {
return SendQueue::DataToSend(message_id,
gen_.Ordered({1, 2, 3, 4}, "BE"));
};
}
std::vector<TSN> GetTSNsForFastRetransmit(RetransmissionQueue& queue) {
std::vector<TSN> tsns;
for (const auto& elem : queue.GetChunksForFastRetransmit(10000)) {
tsns.push_back(elem.first);
}
return tsns;
}
std::vector<TSN> GetSentPacketTSNs(RetransmissionQueue& queue) {
std::vector<TSN> tsns;
for (const auto& elem : queue.GetChunksToSend(now_, 10000)) {
tsns.push_back(elem.first);
}
return tsns;
}
RetransmissionQueue CreateQueue(bool supports_partial_reliability = true,
bool use_message_interleaving = false) {
return RetransmissionQueue(
"", &callbacks_, TSN(10), kArwnd, producer_, on_rtt_.AsStdFunction(),
on_clear_retransmission_counter_.AsStdFunction(), *timer_, options_,
supports_partial_reliability, use_message_interleaving);
}
std::unique_ptr<RetransmissionQueue> CreateQueueByHandover(
RetransmissionQueue& queue) {
EXPECT_EQ(queue.GetHandoverReadiness(), HandoverReadinessStatus());
DcSctpSocketHandoverState state;
queue.AddHandoverState(state);
g_handover_state_transformer_for_test(&state);
auto queue2 = std::make_unique<RetransmissionQueue>(
"", &callbacks_, TSN(10), kArwnd, producer_, on_rtt_.AsStdFunction(),
on_clear_retransmission_counter_.AsStdFunction(), *timer_, options_,
/*supports_partial_reliability=*/true,
/*use_message_interleaving=*/false);
queue2->RestoreFromState(state);
return queue2;
}
MockDcSctpSocketCallbacks callbacks_;
DcSctpOptions options_;
DataGenerator gen_;
Timestamp now_ = Timestamp::Zero();
FakeTimeoutManager timeout_manager_;
TimerManager timer_manager_;
NiceMock<MockFunction<void(TimeDelta rtt_ms)>> on_rtt_;
NiceMock<MockFunction<void()>> on_clear_retransmission_counter_;
NiceMock<MockSendQueue> producer_;
std::unique_ptr<Timer> timer_;
};
TEST_F(RetransmissionQueueTest, InitialAckedPrevTsn) {
RetransmissionQueue queue = CreateQueue();
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked)));
}
TEST_F(RetransmissionQueueTest, SendOneChunk) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), testing::ElementsAre(TSN(10)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight)));
}
TEST_F(RetransmissionQueueTest, SendOneChunkAndAck) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), testing::ElementsAre(TSN(10)));
queue.HandleSack(now_, SackChunk(TSN(10), kArwnd, {}, {}));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(10), State::kAcked)));
}
TEST_F(RetransmissionQueueTest, SendThreeChunksAndAckTwo) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillOnce(CreateChunk(OutgoingMessageId(1)))
.WillOnce(CreateChunk(OutgoingMessageId(2)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue),
testing::ElementsAre(TSN(10), TSN(11), TSN(12)));
queue.HandleSack(now_, SackChunk(TSN(11), kArwnd, {}, {}));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(11), State::kAcked), //
Pair(TSN(12), State::kInFlight)));
}
TEST_F(RetransmissionQueueTest, AckWithGapBlocksFromRFC4960Section334) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillOnce(CreateChunk(OutgoingMessageId(1)))
.WillOnce(CreateChunk(OutgoingMessageId(2)))
.WillOnce(CreateChunk(OutgoingMessageId(3)))
.WillOnce(CreateChunk(OutgoingMessageId(4)))
.WillOnce(CreateChunk(OutgoingMessageId(5)))
.WillOnce(CreateChunk(OutgoingMessageId(6)))
.WillOnce(CreateChunk(OutgoingMessageId(7)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue),
testing::ElementsAre(TSN(10), TSN(11), TSN(12), TSN(13), TSN(14),
TSN(15), TSN(16), TSN(17)));
queue.HandleSack(now_, SackChunk(TSN(12), kArwnd,
{SackChunk::GapAckBlock(2, 3),
SackChunk::GapAckBlock(5, 5)},
{}));
EXPECT_THAT(queue.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(RetransmissionQueueTest, ResendPacketsWhenNackedThreeTimes) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillOnce(CreateChunk(OutgoingMessageId(1)))
.WillOnce(CreateChunk(OutgoingMessageId(2)))
.WillOnce(CreateChunk(OutgoingMessageId(3)))
.WillOnce(CreateChunk(OutgoingMessageId(4)))
.WillOnce(CreateChunk(OutgoingMessageId(5)))
.WillOnce(CreateChunk(OutgoingMessageId(6)))
.WillOnce(CreateChunk(OutgoingMessageId(7)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue),
testing::ElementsAre(TSN(10), TSN(11), TSN(12), TSN(13), TSN(14),
TSN(15), TSN(16), TSN(17)));
// Send more chunks, but leave some as gaps to force retransmission after
// three NACKs.
// Send 18
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(8)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), testing::ElementsAre(TSN(18)));
// Ack 12, 14-15, 17-18
queue.HandleSack(now_, SackChunk(TSN(12), kArwnd,
{SackChunk::GapAckBlock(2, 3),
SackChunk::GapAckBlock(5, 6)},
{}));
EXPECT_THAT(queue.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), //
Pair(TSN(18), State::kAcked)));
// Send 19
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(9)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), testing::ElementsAre(TSN(19)));
// Ack 12, 14-15, 17-19
queue.HandleSack(now_, SackChunk(TSN(12), kArwnd,
{SackChunk::GapAckBlock(2, 3),
SackChunk::GapAckBlock(5, 7)},
{}));
// Send 20
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(10)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), testing::ElementsAre(TSN(20)));
// Ack 12, 14-15, 17-20
queue.HandleSack(now_, SackChunk(TSN(12), kArwnd,
{SackChunk::GapAckBlock(2, 3),
SackChunk::GapAckBlock(5, 8)},
{}));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(12), State::kAcked), //
Pair(TSN(13), State::kToBeRetransmitted), //
Pair(TSN(14), State::kAcked), //
Pair(TSN(15), State::kAcked), //
Pair(TSN(16), State::kToBeRetransmitted), //
Pair(TSN(17), State::kAcked), //
Pair(TSN(18), State::kAcked), //
Pair(TSN(19), State::kAcked), //
Pair(TSN(20), State::kAcked)));
// This will trigger "fast retransmit" mode and only chunks 13 and 16 will be
// resent right now. The send queue will not even be queried.
EXPECT_CALL(producer_, Produce).Times(0);
EXPECT_THAT(GetTSNsForFastRetransmit(queue),
testing::ElementsAre(TSN(13), TSN(16)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(12), State::kAcked), //
Pair(TSN(13), State::kInFlight), //
Pair(TSN(14), State::kAcked), //
Pair(TSN(15), State::kAcked), //
Pair(TSN(16), State::kInFlight), //
Pair(TSN(17), State::kAcked), //
Pair(TSN(18), State::kAcked), //
Pair(TSN(19), State::kAcked), //
Pair(TSN(20), State::kAcked)));
}
TEST_F(RetransmissionQueueTest, RestartsT3RtxOnRetransmitFirstOutstandingTSN) {
// Verifies that if fast retransmit is retransmitting the first outstanding
// TSN, it will also restart T3-RTX.
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillOnce(CreateChunk(OutgoingMessageId(1)))
.WillOnce(CreateChunk(OutgoingMessageId(2)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
static constexpr Timestamp kStartTime = Timestamp::Seconds(100);
now_ = kStartTime;
EXPECT_THAT(GetSentPacketTSNs(queue),
testing::ElementsAre(TSN(10), TSN(11), TSN(12)));
// Ack 10, 12, after 100ms.
now_ += TimeDelta::Millis(100);
queue.HandleSack(
now_, SackChunk(TSN(10), kArwnd, {SackChunk::GapAckBlock(2, 2)}, {}));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(10), State::kAcked), //
Pair(TSN(11), State::kNacked), //
Pair(TSN(12), State::kAcked)));
// Send 13
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(3)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), testing::ElementsAre(TSN(13)));
// Ack 10, 12-13, after 100ms.
now_ += TimeDelta::Millis(100);
queue.HandleSack(
now_, SackChunk(TSN(10), kArwnd, {SackChunk::GapAckBlock(2, 3)}, {}));
// Send 14
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(4)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), testing::ElementsAre(TSN(14)));
// Ack 10, 12-14, after 100 ms.
now_ += TimeDelta::Millis(100);
queue.HandleSack(
now_, SackChunk(TSN(10), kArwnd, {SackChunk::GapAckBlock(2, 4)}, {}));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(10), State::kAcked), //
Pair(TSN(11), State::kToBeRetransmitted), //
Pair(TSN(12), State::kAcked), //
Pair(TSN(13), State::kAcked), //
Pair(TSN(14), State::kAcked)));
// This will trigger "fast retransmit" mode and only chunks 13 and 16 will be
// resent right now. The send queue will not even be queried.
EXPECT_CALL(producer_, Produce).Times(0);
EXPECT_THAT(GetTSNsForFastRetransmit(queue), testing::ElementsAre(TSN(11)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(10), State::kAcked), //
Pair(TSN(11), State::kInFlight), //
Pair(TSN(12), State::kAcked), //
Pair(TSN(13), State::kAcked), //
Pair(TSN(14), State::kAcked)));
// Verify that the timer was really restarted when fast-retransmitting. The
// timeout is `options_.rto_initial`, so advance the time just before that.
now_ += options_.rto_initial.ToTimeDelta() - TimeDelta::Millis(1);
EXPECT_FALSE(timeout_manager_.GetNextExpiredTimeout().has_value());
// And ensure it really is running.
now_ += TimeDelta::Millis(1);
ASSERT_HAS_VALUE_AND_ASSIGN(TimeoutID timeout,
timeout_manager_.GetNextExpiredTimeout());
// An expired timeout has to be handled (asserts validate this).
timer_manager_.HandleTimeout(timeout);
}
TEST_F(RetransmissionQueueTest, CanOnlyProduceTwoPacketsButWantsToSendThree) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
return SendQueue::DataToSend(OutgoingMessageId(0),
gen_.Ordered({1, 2, 3, 4}, "BE"));
})
.WillOnce([this](Timestamp, size_t) {
return SendQueue::DataToSend(OutgoingMessageId(1),
gen_.Ordered({1, 2, 3, 4}, "BE"));
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _), Pair(TSN(11), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight), //
Pair(TSN(11), State::kInFlight)));
}
TEST_F(RetransmissionQueueTest, RetransmitsOnT3Expiry) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
return SendQueue::DataToSend(OutgoingMessageId(0),
gen_.Ordered({1, 2, 3, 4}, "BE"));
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight)));
// Will force chunks to be retransmitted
queue.HandleT3RtxTimerExpiry();
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kToBeRetransmitted)));
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kToBeRetransmitted)));
std::vector<std::pair<TSN, Data>> chunks_to_rtx =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_rtx, ElementsAre(Pair(TSN(10), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight)));
}
TEST_F(RetransmissionQueueTest, LimitedRetransmissionOnlyWithRfc3758Support) {
RetransmissionQueue queue =
CreateQueue(/*supports_partial_reliability=*/false);
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId, gen_.Ordered({1, 2, 3, 4}, "BE"));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight)));
// Will force chunks to be retransmitted
queue.HandleT3RtxTimerExpiry();
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kToBeRetransmitted)));
EXPECT_CALL(producer_, Discard(StreamID(1), kMessageId)).Times(0);
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
} // namespace dcsctp
TEST_F(RetransmissionQueueTest, LimitsRetransmissionsAsUdp) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId, gen_.Ordered({1, 2, 3, 4}, "BE"));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight)));
// Will force chunks to be retransmitted
EXPECT_CALL(producer_, Discard(StreamID(1), kMessageId)).Times(1);
queue.HandleT3RtxTimerExpiry();
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kAbandoned)));
EXPECT_TRUE(queue.ShouldSendForwardTsn(now_));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kAbandoned)));
std::vector<std::pair<TSN, Data>> chunks_to_rtx =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_rtx, testing::IsEmpty());
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kAbandoned)));
}
TEST_F(RetransmissionQueueTest, LimitsRetransmissionsToThreeSends) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId, gen_.Ordered({1, 2, 3, 4}, "BE"));
dts.max_retransmissions = MaxRetransmits(3);
return dts;
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight)));
EXPECT_CALL(producer_, Discard(StreamID(1), kMessageId)).Times(0);
// Retransmission 1
queue.HandleT3RtxTimerExpiry();
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
EXPECT_THAT(queue.GetChunksToSend(now_, 1000), SizeIs(1));
// Retransmission 2
queue.HandleT3RtxTimerExpiry();
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
EXPECT_THAT(queue.GetChunksToSend(now_, 1000), SizeIs(1));
// Retransmission 3
queue.HandleT3RtxTimerExpiry();
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
EXPECT_THAT(queue.GetChunksToSend(now_, 1000), SizeIs(1));
// Retransmission 4 - not allowed.
EXPECT_CALL(producer_, Discard(StreamID(1), kMessageId)).Times(1);
queue.HandleT3RtxTimerExpiry();
EXPECT_TRUE(queue.ShouldSendForwardTsn(now_));
EXPECT_THAT(queue.GetChunksToSend(now_, 1000), IsEmpty());
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kAbandoned)));
}
TEST_F(RetransmissionQueueTest, RetransmitsWhenSendBufferIsFullT3Expiry) {
RetransmissionQueue queue = CreateQueue();
static constexpr size_t kCwnd = 1200;
queue.set_cwnd(kCwnd);
EXPECT_EQ(queue.cwnd(), kCwnd);
EXPECT_EQ(queue.outstanding_bytes(), 0u);
EXPECT_EQ(queue.outstanding_items(), 0u);
std::vector<uint8_t> payload(1000);
EXPECT_CALL(producer_, Produce)
.WillOnce([this, payload](Timestamp, size_t) {
return SendQueue::DataToSend(OutgoingMessageId(0),
gen_.Ordered(payload, "BE"));
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1500);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight)));
EXPECT_EQ(queue.outstanding_bytes(), payload.size() + DataChunk::kHeaderSize);
EXPECT_EQ(queue.outstanding_items(), 1u);
// Will force chunks to be retransmitted
queue.HandleT3RtxTimerExpiry();
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kToBeRetransmitted)));
EXPECT_EQ(queue.outstanding_bytes(), 0u);
EXPECT_EQ(queue.outstanding_items(), 0u);
std::vector<std::pair<TSN, Data>> chunks_to_rtx =
queue.GetChunksToSend(now_, 1500);
EXPECT_THAT(chunks_to_rtx, ElementsAre(Pair(TSN(10), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight)));
EXPECT_EQ(queue.outstanding_bytes(), payload.size() + DataChunk::kHeaderSize);
EXPECT_EQ(queue.outstanding_items(), 1u);
}
TEST_F(RetransmissionQueueTest, ProducesValidForwardTsn) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId, gen_.Ordered({1, 2, 3, 4}, "B"));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId, gen_.Ordered({5, 6, 7, 8}, ""));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId,
gen_.Ordered({9, 10, 11, 12}, ""));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
// Send and ack first chunk (TSN 10)
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _), Pair(TSN(11), _),
Pair(TSN(12), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight), //
Pair(TSN(11), State::kInFlight), //
Pair(TSN(12), State::kInFlight)));
// Chunk 10 is acked, but the remaining are lost
queue.HandleSack(now_, SackChunk(TSN(10), kArwnd, {}, {}));
EXPECT_CALL(producer_, Discard(StreamID(1), kMessageId))
.WillOnce(Return(true));
queue.HandleT3RtxTimerExpiry();
// NOTE: The TSN=13 represents the end fragment.
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(10), State::kAcked), //
Pair(TSN(11), State::kAbandoned), //
Pair(TSN(12), State::kAbandoned), //
Pair(TSN(13), State::kAbandoned)));
EXPECT_TRUE(queue.ShouldSendForwardTsn(now_));
ForwardTsnChunk forward_tsn = queue.CreateForwardTsn();
EXPECT_EQ(forward_tsn.new_cumulative_tsn(), TSN(13));
EXPECT_THAT(forward_tsn.skipped_streams(),
UnorderedElementsAre(
ForwardTsnChunk::SkippedStream(StreamID(1), SSN(42))));
}
TEST_F(RetransmissionQueueTest, ProducesValidForwardTsnWhenFullySent) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId, gen_.Ordered({1, 2, 3, 4}, "B"));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId, gen_.Ordered({5, 6, 7, 8}, ""));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId,
gen_.Ordered({9, 10, 11, 12}, "E"));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
// Send and ack first chunk (TSN 10)
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _), Pair(TSN(11), _),
Pair(TSN(12), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight), //
Pair(TSN(11), State::kInFlight), //
Pair(TSN(12), State::kInFlight)));
// Chunk 10 is acked, but the remaining are lost
queue.HandleSack(now_, SackChunk(TSN(10), kArwnd, {}, {}));
EXPECT_CALL(producer_, Discard(StreamID(1), kMessageId))
.WillOnce(Return(false));
queue.HandleT3RtxTimerExpiry();
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(10), State::kAcked), //
Pair(TSN(11), State::kAbandoned), //
Pair(TSN(12), State::kAbandoned)));
EXPECT_TRUE(queue.ShouldSendForwardTsn(now_));
ForwardTsnChunk forward_tsn = queue.CreateForwardTsn();
EXPECT_EQ(forward_tsn.new_cumulative_tsn(), TSN(12));
EXPECT_THAT(forward_tsn.skipped_streams(),
UnorderedElementsAre(
ForwardTsnChunk::SkippedStream(StreamID(1), SSN(42))));
}
TEST_F(RetransmissionQueueTest, ProducesValidIForwardTsn) {
RetransmissionQueue queue = CreateQueue(/*use_message_interleaving=*/true);
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
DataGeneratorOptions opts;
opts.stream_id = StreamID(1);
SendQueue::DataToSend dts(OutgoingMessageId(42),
gen_.Ordered({1, 2, 3, 4}, "B", opts));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillOnce([this](Timestamp, size_t) {
DataGeneratorOptions opts;
opts.stream_id = StreamID(2);
SendQueue::DataToSend dts(OutgoingMessageId(43),
gen_.Unordered({1, 2, 3, 4}, "B", opts));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillOnce([this](Timestamp, size_t) {
DataGeneratorOptions opts;
opts.stream_id = StreamID(3);
SendQueue::DataToSend dts(OutgoingMessageId(44),
gen_.Ordered({9, 10, 11, 12}, "B", opts));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillOnce([this](Timestamp, size_t) {
DataGeneratorOptions opts;
opts.stream_id = StreamID(4);
SendQueue::DataToSend dts(OutgoingMessageId(45),
gen_.Ordered({13, 14, 15, 16}, "B", opts));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _), Pair(TSN(11), _),
Pair(TSN(12), _), Pair(TSN(13), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
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)));
// Chunk 13 is acked, but the remaining are lost
queue.HandleSack(
now_, SackChunk(TSN(9), kArwnd, {SackChunk::GapAckBlock(4, 4)}, {}));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kNacked), //
Pair(TSN(11), State::kNacked), //
Pair(TSN(12), State::kNacked), //
Pair(TSN(13), State::kAcked)));
EXPECT_CALL(producer_, Discard(StreamID(1), OutgoingMessageId(42)))
.WillOnce(Return(true));
EXPECT_CALL(producer_, Discard(StreamID(2), OutgoingMessageId(43)))
.WillOnce(Return(true));
EXPECT_CALL(producer_, Discard(StreamID(3), OutgoingMessageId(44)))
.WillOnce(Return(true));
queue.HandleT3RtxTimerExpiry();
EXPECT_THAT(queue.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::kAcked),
// Representing end fragments of stream 1-3
Pair(TSN(14), State::kAbandoned), //
Pair(TSN(15), State::kAbandoned), //
Pair(TSN(16), State::kAbandoned)));
EXPECT_TRUE(queue.ShouldSendForwardTsn(now_));
IForwardTsnChunk forward_tsn1 = queue.CreateIForwardTsn();
EXPECT_EQ(forward_tsn1.new_cumulative_tsn(), TSN(12));
EXPECT_THAT(
forward_tsn1.skipped_streams(),
UnorderedElementsAre(IForwardTsnChunk::SkippedStream(
IsUnordered(false), StreamID(1), MID(42)),
IForwardTsnChunk::SkippedStream(
IsUnordered(true), StreamID(2), MID(42)),
IForwardTsnChunk::SkippedStream(
IsUnordered(false), StreamID(3), MID(42))));
// When TSN 13 is acked, the placeholder "end fragments" must be skipped as
// well.
// A receiver is more likely to ack TSN 13, but do it incrementally.
queue.HandleSack(now_, SackChunk(TSN(12), kArwnd, {}, {}));
EXPECT_CALL(producer_, Discard).Times(0);
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
queue.HandleSack(now_, SackChunk(TSN(13), kArwnd, {}, {}));
EXPECT_TRUE(queue.ShouldSendForwardTsn(now_));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(13), State::kAcked), //
Pair(TSN(14), State::kAbandoned), //
Pair(TSN(15), State::kAbandoned), //
Pair(TSN(16), State::kAbandoned)));
IForwardTsnChunk forward_tsn2 = queue.CreateIForwardTsn();
EXPECT_EQ(forward_tsn2.new_cumulative_tsn(), TSN(16));
EXPECT_THAT(
forward_tsn2.skipped_streams(),
UnorderedElementsAre(IForwardTsnChunk::SkippedStream(
IsUnordered(false), StreamID(1), MID(42)),
IForwardTsnChunk::SkippedStream(
IsUnordered(true), StreamID(2), MID(42)),
IForwardTsnChunk::SkippedStream(
IsUnordered(false), StreamID(3), MID(42))));
}
TEST_F(RetransmissionQueueTest, MeasureRTT) {
RetransmissionQueue queue = CreateQueue(/*use_message_interleaving=*/true);
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(OutgoingMessageId(0),
gen_.Ordered({1, 2, 3, 4}, "B"));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _)));
now_ = now_ + TimeDelta::Millis(123);
EXPECT_CALL(on_rtt_, Call(TimeDelta::Millis(123))).Times(1);
queue.HandleSack(now_, SackChunk(TSN(10), kArwnd, {}, {}));
}
TEST_F(RetransmissionQueueTest, ValidateCumTsnAtRest) {
RetransmissionQueue queue = CreateQueue(/*use_message_interleaving=*/true);
EXPECT_FALSE(queue.HandleSack(now_, SackChunk(TSN(8), kArwnd, {}, {})));
EXPECT_TRUE(queue.HandleSack(now_, SackChunk(TSN(9), kArwnd, {}, {})));
EXPECT_FALSE(queue.HandleSack(now_, SackChunk(TSN(10), kArwnd, {}, {})));
}
TEST_F(RetransmissionQueueTest, ValidateCumTsnAckOnInflightData) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillOnce(CreateChunk(OutgoingMessageId(1)))
.WillOnce(CreateChunk(OutgoingMessageId(2)))
.WillOnce(CreateChunk(OutgoingMessageId(3)))
.WillOnce(CreateChunk(OutgoingMessageId(4)))
.WillOnce(CreateChunk(OutgoingMessageId(5)))
.WillOnce(CreateChunk(OutgoingMessageId(6)))
.WillOnce(CreateChunk(OutgoingMessageId(7)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue),
testing::ElementsAre(TSN(10), TSN(11), TSN(12), TSN(13), TSN(14),
TSN(15), TSN(16), TSN(17)));
EXPECT_FALSE(queue.HandleSack(now_, SackChunk(TSN(8), kArwnd, {}, {})));
EXPECT_TRUE(queue.HandleSack(now_, SackChunk(TSN(9), kArwnd, {}, {})));
EXPECT_TRUE(queue.HandleSack(now_, SackChunk(TSN(10), kArwnd, {}, {})));
EXPECT_TRUE(queue.HandleSack(now_, SackChunk(TSN(11), kArwnd, {}, {})));
EXPECT_TRUE(queue.HandleSack(now_, SackChunk(TSN(12), kArwnd, {}, {})));
EXPECT_TRUE(queue.HandleSack(now_, SackChunk(TSN(13), kArwnd, {}, {})));
EXPECT_TRUE(queue.HandleSack(now_, SackChunk(TSN(14), kArwnd, {}, {})));
EXPECT_TRUE(queue.HandleSack(now_, SackChunk(TSN(15), kArwnd, {}, {})));
EXPECT_TRUE(queue.HandleSack(now_, SackChunk(TSN(16), kArwnd, {}, {})));
EXPECT_TRUE(queue.HandleSack(now_, SackChunk(TSN(17), kArwnd, {}, {})));
EXPECT_FALSE(queue.HandleSack(now_, SackChunk(TSN(18), kArwnd, {}, {})));
}
TEST_F(RetransmissionQueueTest, HandleGapAckBlocksMatchingNoInflightData) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillOnce(CreateChunk(OutgoingMessageId(1)))
.WillOnce(CreateChunk(OutgoingMessageId(2)))
.WillOnce(CreateChunk(OutgoingMessageId(3)))
.WillOnce(CreateChunk(OutgoingMessageId(4)))
.WillOnce(CreateChunk(OutgoingMessageId(5)))
.WillOnce(CreateChunk(OutgoingMessageId(6)))
.WillOnce(CreateChunk(OutgoingMessageId(7)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue),
testing::ElementsAre(TSN(10), TSN(11), TSN(12), TSN(13), TSN(14),
TSN(15), TSN(16), TSN(17)));
// Ack 9, 20-25. This is an invalid SACK, but should still be handled.
queue.HandleSack(
now_, SackChunk(TSN(9), kArwnd, {SackChunk::GapAckBlock(11, 16)}, {}));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
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)));
}
TEST_F(RetransmissionQueueTest, HandleInvalidGapAckBlocks) {
RetransmissionQueue queue = CreateQueue();
// Nothing produced - nothing in retransmission queue
// Ack 9, 12-13
queue.HandleSack(
now_, SackChunk(TSN(9), kArwnd, {SackChunk::GapAckBlock(3, 4)}, {}));
// Gap ack blocks are just ignore.
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked)));
}
TEST_F(RetransmissionQueueTest, GapAckBlocksDoNotMoveCumTsnAck) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillOnce(CreateChunk(OutgoingMessageId(1)))
.WillOnce(CreateChunk(OutgoingMessageId(2)))
.WillOnce(CreateChunk(OutgoingMessageId(3)))
.WillOnce(CreateChunk(OutgoingMessageId(4)))
.WillOnce(CreateChunk(OutgoingMessageId(5)))
.WillOnce(CreateChunk(OutgoingMessageId(6)))
.WillOnce(CreateChunk(OutgoingMessageId(7)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue),
testing::ElementsAre(TSN(10), TSN(11), TSN(12), TSN(13), TSN(14),
TSN(15), TSN(16), TSN(17)));
// Ack 9, 10-14. This is actually an invalid ACK as the first gap can't be
// adjacent to the cum-tsn-ack, but it's not strictly forbidden. However, the
// cum-tsn-ack should not move, as the gap-ack-blocks are just advisory.
queue.HandleSack(
now_, SackChunk(TSN(9), kArwnd, {SackChunk::GapAckBlock(1, 5)}, {}));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kAcked), //
Pair(TSN(11), State::kAcked), //
Pair(TSN(12), State::kAcked), //
Pair(TSN(13), State::kAcked), //
Pair(TSN(14), State::kAcked), //
Pair(TSN(15), State::kInFlight), //
Pair(TSN(16), State::kInFlight), //
Pair(TSN(17), State::kInFlight)));
}
TEST_F(RetransmissionQueueTest, StaysWithinAvailableSize) {
RetransmissionQueue queue = CreateQueue();
// See SctpPacketTest::ReturnsCorrectSpaceAvailableToStayWithinMTU for the
// magic numbers in this test.
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t size) {
EXPECT_EQ(size, 1176 - DataChunk::kHeaderSize);
std::vector<uint8_t> payload(183);
return SendQueue::DataToSend(OutgoingMessageId(0),
gen_.Ordered(payload, "BE"));
})
.WillOnce([this](Timestamp, size_t size) {
EXPECT_EQ(size, 976 - DataChunk::kHeaderSize);
std::vector<uint8_t> payload(957);
return SendQueue::DataToSend(OutgoingMessageId(1),
gen_.Ordered(payload, "BE"));
});
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1188 - 12);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _), Pair(TSN(11), _)));
}
TEST_F(RetransmissionQueueTest, AccountsNackedAbandonedChunksAsNotOutstanding) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId, gen_.Ordered({1, 2, 3, 4}, "B"));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId, gen_.Ordered({5, 6, 7, 8}, ""));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId,
gen_.Ordered({9, 10, 11, 12}, ""));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
// Send and ack first chunk (TSN 10)
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _), Pair(TSN(11), _),
Pair(TSN(12), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kInFlight), //
Pair(TSN(11), State::kInFlight), //
Pair(TSN(12), State::kInFlight)));
EXPECT_EQ(queue.outstanding_bytes(), (16 + 4) * 3u);
EXPECT_EQ(queue.outstanding_items(), 3u);
// Mark the message as lost.
EXPECT_CALL(producer_, Discard(StreamID(1), kMessageId)).Times(1);
queue.HandleT3RtxTimerExpiry();
EXPECT_TRUE(queue.ShouldSendForwardTsn(now_));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kAbandoned), //
Pair(TSN(11), State::kAbandoned), //
Pair(TSN(12), State::kAbandoned)));
EXPECT_EQ(queue.outstanding_bytes(), 0u);
EXPECT_EQ(queue.outstanding_items(), 0u);
// Now ACK those, one at a time.
queue.HandleSack(now_, SackChunk(TSN(10), kArwnd, {}, {}));
EXPECT_EQ(queue.outstanding_bytes(), 0u);
EXPECT_EQ(queue.outstanding_items(), 0u);
queue.HandleSack(now_, SackChunk(TSN(11), kArwnd, {}, {}));
EXPECT_EQ(queue.outstanding_bytes(), 0u);
EXPECT_EQ(queue.outstanding_items(), 0u);
queue.HandleSack(now_, SackChunk(TSN(12), kArwnd, {}, {}));
EXPECT_EQ(queue.outstanding_bytes(), 0u);
EXPECT_EQ(queue.outstanding_items(), 0u);
}
TEST_F(RetransmissionQueueTest, ExpireFromSendQueueWhenPartiallySent) {
RetransmissionQueue queue = CreateQueue();
DataGeneratorOptions options;
options.stream_id = StreamID(17);
options.mid = MID(42);
Timestamp test_start = now_;
EXPECT_CALL(producer_, Produce)
.WillOnce([&](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId,
gen_.Ordered({1, 2, 3, 4}, "B", options));
dts.expires_at = Timestamp(test_start + TimeDelta::Millis(10));
return dts;
})
.WillOnce([&](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId,
gen_.Ordered({5, 6, 7, 8}, "", options));
dts.expires_at = Timestamp(test_start + TimeDelta::Millis(10));
return dts;
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 24);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _)));
EXPECT_CALL(producer_, Discard(StreamID(17), kMessageId))
.WillOnce(Return(true));
now_ += TimeDelta::Millis(100);
EXPECT_THAT(queue.GetChunksToSend(now_, 24), IsEmpty());
EXPECT_THAT(
queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), // Initial TSN
Pair(TSN(10), State::kAbandoned), // Produced
Pair(TSN(11), State::kAbandoned), // Produced and expired
Pair(TSN(12), State::kAbandoned))); // Placeholder end
}
TEST_F(RetransmissionQueueTest, ExpireCorrectMessageFromSendQueue) {
RetransmissionQueue queue = CreateQueue();
Timestamp test_start = now_;
EXPECT_CALL(producer_, Produce)
.WillOnce([&](Timestamp, size_t) {
SendQueue::DataToSend dts(
OutgoingMessageId(42),
gen_.Ordered({1, 2, 3, 4}, "BE", {.mid = MID(0)}));
dts.expires_at = Timestamp(test_start + TimeDelta::Millis(10));
return dts;
})
.WillOnce([&](Timestamp, size_t) {
SendQueue::DataToSend dts(
OutgoingMessageId(43),
gen_.Ordered({1, 2, 3, 4}, "BE", {.mid = MID(1)}));
dts.expires_at = Timestamp(test_start + TimeDelta::Millis(10));
return dts;
})
// Stream reset - MID reset to zero again.
.WillOnce([&](Timestamp, size_t) {
SendQueue::DataToSend dts(
OutgoingMessageId(44),
gen_.Ordered({1, 2, 3, 4}, "B", {.mid = MID(0)}));
dts.expires_at = Timestamp(test_start + TimeDelta::Millis(10));
return dts;
})
.WillOnce([&](Timestamp, size_t) {
SendQueue::DataToSend dts(
OutgoingMessageId(44),
gen_.Ordered({5, 6, 7, 8}, "", {.mid = MID(0)}));
dts.expires_at = Timestamp(test_start + TimeDelta::Millis(10));
return dts;
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_CALL(producer_, Discard(StreamID(1), OutgoingMessageId(44)))
.WillOnce(Return(true));
EXPECT_THAT(queue.GetChunksToSend(now_, 24),
ElementsAre(Pair(TSN(10), Field(&Data::mid, MID(0)))));
EXPECT_THAT(queue.GetChunksToSend(now_, 24),
ElementsAre(Pair(TSN(11), Field(&Data::mid, MID(1)))));
EXPECT_THAT(queue.GetChunksToSend(now_, 24),
ElementsAre(Pair(TSN(12), Field(&Data::mid, MID(0)))));
now_ += TimeDelta::Millis(100);
EXPECT_THAT(queue.GetChunksToSend(now_, 24), IsEmpty());
EXPECT_THAT(
queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), // Initial TSN
Pair(TSN(10), State::kInFlight), // OutgoingMessageId=42, BE
Pair(TSN(11), State::kInFlight), // OutgoingMessageId=43, BE
Pair(TSN(12), State::kAbandoned), // OutgoingMessageId=44, B
Pair(TSN(13), State::kAbandoned), // Produced and expired
Pair(TSN(14), State::kAbandoned))); // Placeholder end
}
TEST_F(RetransmissionQueueTest, LimitsRetransmissionsOnlyWhenNackedThreeTimes) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId, gen_.Ordered({1, 2, 3, 4}, "BE"));
dts.max_retransmissions = MaxRetransmits(0);
return dts;
})
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillOnce(CreateChunk(OutgoingMessageId(1)))
.WillOnce(CreateChunk(OutgoingMessageId(2)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _), Pair(TSN(11), _),
Pair(TSN(12), _), Pair(TSN(13), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
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)));
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
EXPECT_CALL(producer_, Discard(StreamID(1), kMessageId)).Times(0);
queue.HandleSack(
now_, SackChunk(TSN(9), kArwnd, {SackChunk::GapAckBlock(2, 2)}, {}));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kNacked), //
Pair(TSN(11), State::kAcked), //
Pair(TSN(12), State::kInFlight), //
Pair(TSN(13), State::kInFlight)));
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
queue.HandleSack(
now_, SackChunk(TSN(9), kArwnd, {SackChunk::GapAckBlock(2, 3)}, {}));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
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::kInFlight)));
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
EXPECT_CALL(producer_, Discard(StreamID(1), kMessageId))
.WillOnce(Return(false));
queue.HandleSack(
now_, SackChunk(TSN(9), kArwnd, {SackChunk::GapAckBlock(2, 4)}, {}));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kAbandoned), //
Pair(TSN(11), State::kAcked), //
Pair(TSN(12), State::kAcked), //
Pair(TSN(13), State::kAcked)));
EXPECT_TRUE(queue.ShouldSendForwardTsn(now_));
}
TEST_F(RetransmissionQueueTest, AbandonsRtxLimit2WhenNackedNineTimes) {
// This is a fairly long test.
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce([this](Timestamp, size_t) {
SendQueue::DataToSend dts(kMessageId, gen_.Ordered({1, 2, 3, 4}, "BE"));
dts.max_retransmissions = MaxRetransmits(2);
return dts;
})
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillOnce(CreateChunk(OutgoingMessageId(1)))
.WillOnce(CreateChunk(OutgoingMessageId(2)))
.WillOnce(CreateChunk(OutgoingMessageId(3)))
.WillOnce(CreateChunk(OutgoingMessageId(4)))
.WillOnce(CreateChunk(OutgoingMessageId(5)))
.WillOnce(CreateChunk(OutgoingMessageId(6)))
.WillOnce(CreateChunk(OutgoingMessageId(7)))
.WillOnce(CreateChunk(OutgoingMessageId(8)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1000);
EXPECT_THAT(chunks_to_send,
ElementsAre(Pair(TSN(10), _), Pair(TSN(11), _), Pair(TSN(12), _),
Pair(TSN(13), _), Pair(TSN(14), _), Pair(TSN(15), _),
Pair(TSN(16), _), Pair(TSN(17), _), Pair(TSN(18), _),
Pair(TSN(19), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
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), //
Pair(TSN(18), State::kInFlight), //
Pair(TSN(19), State::kInFlight)));
EXPECT_CALL(producer_, Discard(StreamID(1), OutgoingMessageId(8))).Times(0);
// Ack TSN [11 to 13] - three nacks for TSN(10), which will retransmit it.
for (int tsn = 11; tsn <= 13; ++tsn) {
queue.HandleSack(
now_,
SackChunk(TSN(9), kArwnd, {SackChunk::GapAckBlock(2, (tsn - 9))}, {}));
}
EXPECT_THAT(queue.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), //
Pair(TSN(14), State::kInFlight), //
Pair(TSN(15), State::kInFlight), //
Pair(TSN(16), State::kInFlight), //
Pair(TSN(17), State::kInFlight), //
Pair(TSN(18), State::kInFlight), //
Pair(TSN(19), State::kInFlight)));
EXPECT_THAT(queue.GetChunksForFastRetransmit(1000),
ElementsAre(Pair(TSN(10), _)));
// Ack TSN [14 to 16] - three more nacks - second and last retransmission.
for (int tsn = 14; tsn <= 16; ++tsn) {
queue.HandleSack(
now_,
SackChunk(TSN(9), kArwnd, {SackChunk::GapAckBlock(2, (tsn - 9))}, {}));
}
EXPECT_THAT(queue.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), //
Pair(TSN(14), State::kAcked), //
Pair(TSN(15), State::kAcked), //
Pair(TSN(16), State::kAcked), //
Pair(TSN(17), State::kInFlight), //
Pair(TSN(18), State::kInFlight), //
Pair(TSN(19), State::kInFlight)));
EXPECT_THAT(queue.GetChunksToSend(now_, 1000), ElementsAre(Pair(TSN(10), _)));
// Ack TSN [17 to 18]
for (int tsn = 17; tsn <= 18; ++tsn) {
queue.HandleSack(
now_,
SackChunk(TSN(9), kArwnd, {SackChunk::GapAckBlock(2, (tsn - 9))}, {}));
}
EXPECT_THAT(queue.GetChunkStatesForTesting(),
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), //
Pair(TSN(14), State::kAcked), //
Pair(TSN(15), State::kAcked), //
Pair(TSN(16), State::kAcked), //
Pair(TSN(17), State::kAcked), //
Pair(TSN(18), State::kAcked), //
Pair(TSN(19), State::kInFlight)));
EXPECT_FALSE(queue.ShouldSendForwardTsn(now_));
// Ack TSN 19 - three more nacks for TSN 10, no more retransmissions.
EXPECT_CALL(producer_, Discard(StreamID(1), kMessageId))
.WillOnce(Return(false));
queue.HandleSack(
now_, SackChunk(TSN(9), kArwnd, {SackChunk::GapAckBlock(2, 10)}, {}));
EXPECT_THAT(queue.GetChunksToSend(now_, 1000), IsEmpty());
EXPECT_THAT(queue.GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(9), State::kAcked), //
Pair(TSN(10), State::kAbandoned), //
Pair(TSN(11), State::kAcked), //
Pair(TSN(12), State::kAcked), //
Pair(TSN(13), State::kAcked), //
Pair(TSN(14), State::kAcked), //
Pair(TSN(15), State::kAcked), //
Pair(TSN(16), State::kAcked), //
Pair(TSN(17), State::kAcked), //
Pair(TSN(18), State::kAcked), //
Pair(TSN(19), State::kAcked)));
EXPECT_TRUE(queue.ShouldSendForwardTsn(now_));
}
TEST_F(RetransmissionQueueTest, CwndRecoversWhenAcking) {
RetransmissionQueue queue = CreateQueue();
static constexpr size_t kCwnd = 1200;
queue.set_cwnd(kCwnd);
EXPECT_EQ(queue.cwnd(), kCwnd);
std::vector<uint8_t> payload(1000);
EXPECT_CALL(producer_, Produce)
.WillOnce([this, payload](Timestamp, size_t) {
return SendQueue::DataToSend(OutgoingMessageId(0),
gen_.Ordered(payload, "BE"));
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 1500);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _)));
size_t serialized_size = payload.size() + DataChunk::kHeaderSize;
EXPECT_EQ(queue.outstanding_bytes(), serialized_size);
queue.HandleSack(now_, SackChunk(TSN(10), kArwnd, {}, {}));
EXPECT_EQ(queue.cwnd(), kCwnd + serialized_size);
}
// Verifies that it doesn't produce tiny packets, when getting close to
// the full congestion window.
TEST_F(RetransmissionQueueTest, OnlySendsLargePacketsOnLargeCongestionWindow) {
RetransmissionQueue queue = CreateQueue();
size_t intial_cwnd = options_.avoid_fragmentation_cwnd_mtus * options_.mtu;
queue.set_cwnd(intial_cwnd);
EXPECT_EQ(queue.cwnd(), intial_cwnd);
// Fill the congestion window almost - leaving 500 bytes.
size_t chunk_size = intial_cwnd - 500;
EXPECT_CALL(producer_, Produce)
.WillOnce([chunk_size, this](Timestamp, size_t) {
return SendQueue::DataToSend(
OutgoingMessageId(0),
gen_.Ordered(std::vector<uint8_t>(chunk_size), "BE"));
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_TRUE(queue.can_send_data());
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 10000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _)));
// To little space left - will not send more.
EXPECT_FALSE(queue.can_send_data());
// But when the first chunk is acked, it will continue.
queue.HandleSack(now_, SackChunk(TSN(10), kArwnd, {}, {}));
EXPECT_TRUE(queue.can_send_data());
EXPECT_EQ(queue.outstanding_bytes(), 0u);
EXPECT_EQ(queue.cwnd(), intial_cwnd + kMaxMtu);
}
TEST_F(RetransmissionQueueTest, AllowsSmallFragmentsOnSmallCongestionWindow) {
RetransmissionQueue queue = CreateQueue();
size_t intial_cwnd =
options_.avoid_fragmentation_cwnd_mtus * options_.mtu - 1;
queue.set_cwnd(intial_cwnd);
EXPECT_EQ(queue.cwnd(), intial_cwnd);
// Fill the congestion window almost - leaving 500 bytes.
size_t chunk_size = intial_cwnd - 500;
EXPECT_CALL(producer_, Produce)
.WillOnce([chunk_size, this](Timestamp, size_t) {
return SendQueue::DataToSend(
OutgoingMessageId(0),
gen_.Ordered(std::vector<uint8_t>(chunk_size), "BE"));
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_TRUE(queue.can_send_data());
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 10000);
EXPECT_THAT(chunks_to_send, ElementsAre(Pair(TSN(10), _)));
// With congestion window under limit, allow small packets to be created.
EXPECT_TRUE(queue.can_send_data());
}
TEST_F(RetransmissionQueueTest, ReadyForHandoverWhenHasNoOutstandingData) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), SizeIs(1));
EXPECT_EQ(
queue.GetHandoverReadiness(),
HandoverReadinessStatus(
HandoverUnreadinessReason::kRetransmissionQueueOutstandingData));
queue.HandleSack(now_, SackChunk(TSN(10), kArwnd, {}, {}));
EXPECT_EQ(queue.GetHandoverReadiness(), HandoverReadinessStatus());
}
TEST_F(RetransmissionQueueTest, ReadyForHandoverWhenNothingToRetransmit) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillOnce(CreateChunk(OutgoingMessageId(1)))
.WillOnce(CreateChunk(OutgoingMessageId(2)))
.WillOnce(CreateChunk(OutgoingMessageId(3)))
.WillOnce(CreateChunk(OutgoingMessageId(4)))
.WillOnce(CreateChunk(OutgoingMessageId(5)))
.WillOnce(CreateChunk(OutgoingMessageId(6)))
.WillOnce(CreateChunk(OutgoingMessageId(7)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), SizeIs(8));
EXPECT_EQ(
queue.GetHandoverReadiness(),
HandoverReadinessStatus(
HandoverUnreadinessReason::kRetransmissionQueueOutstandingData));
// Send more chunks, but leave some chunks unacked to force retransmission
// after three NACKs.
// Send 18
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(8)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), SizeIs(1));
// Ack 12, 14-15, 17-18
queue.HandleSack(now_, SackChunk(TSN(12), kArwnd,
{SackChunk::GapAckBlock(2, 3),
SackChunk::GapAckBlock(5, 6)},
{}));
// Send 19
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(9)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), SizeIs(1));
// Ack 12, 14-15, 17-19
queue.HandleSack(now_, SackChunk(TSN(12), kArwnd,
{SackChunk::GapAckBlock(2, 3),
SackChunk::GapAckBlock(5, 7)},
{}));
// Send 20
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(10)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), SizeIs(1));
// Ack 12, 14-15, 17-20
// This will trigger "fast retransmit" mode and only chunks 13 and 16 will be
// resent right now. The send queue will not even be queried.
queue.HandleSack(now_, SackChunk(TSN(12), kArwnd,
{SackChunk::GapAckBlock(2, 3),
SackChunk::GapAckBlock(5, 8)},
{}));
EXPECT_EQ(
queue.GetHandoverReadiness(),
HandoverReadinessStatus()
.Add(HandoverUnreadinessReason::kRetransmissionQueueOutstandingData)
.Add(HandoverUnreadinessReason::kRetransmissionQueueFastRecovery)
.Add(HandoverUnreadinessReason::kRetransmissionQueueNotEmpty));
// Send "fast retransmit" mode chunks
EXPECT_CALL(producer_, Produce).Times(0);
EXPECT_THAT(GetTSNsForFastRetransmit(queue), SizeIs(2));
EXPECT_EQ(
queue.GetHandoverReadiness(),
HandoverReadinessStatus()
.Add(HandoverUnreadinessReason::kRetransmissionQueueOutstandingData)
.Add(HandoverUnreadinessReason::kRetransmissionQueueFastRecovery));
// Ack 20 to confirm the retransmission
queue.HandleSack(now_, SackChunk(TSN(20), kArwnd, {}, {}));
EXPECT_EQ(queue.GetHandoverReadiness(), HandoverReadinessStatus());
}
TEST_F(RetransmissionQueueTest, HandoverTest) {
RetransmissionQueue queue = CreateQueue();
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(0)))
.WillOnce(CreateChunk(OutgoingMessageId(1)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(queue), SizeIs(2));
queue.HandleSack(now_, SackChunk(TSN(11), kArwnd, {}, {}));
std::unique_ptr<RetransmissionQueue> handedover_queue =
CreateQueueByHandover(queue);
EXPECT_CALL(producer_, Produce)
.WillOnce(CreateChunk(OutgoingMessageId(2)))
.WillOnce(CreateChunk(OutgoingMessageId(3)))
.WillOnce(CreateChunk(OutgoingMessageId(4)))
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
EXPECT_THAT(GetSentPacketTSNs(*handedover_queue),
testing::ElementsAre(TSN(12), TSN(13), TSN(14)));
handedover_queue->HandleSack(now_, SackChunk(TSN(13), kArwnd, {}, {}));
EXPECT_THAT(handedover_queue->GetChunkStatesForTesting(),
ElementsAre(Pair(TSN(13), State::kAcked), //
Pair(TSN(14), State::kInFlight)));
}
TEST_F(RetransmissionQueueTest, CanAlwaysSendOnePacket) {
RetransmissionQueue queue = CreateQueue();
// A large payload - enough to not fit two DATA in same packet.
size_t mtu = RoundDownTo4(options_.mtu);
std::vector<uint8_t> payload(mtu - 100);
EXPECT_CALL(producer_, Produce)
.WillOnce([this, payload](Timestamp, size_t) {
return SendQueue::DataToSend(OutgoingMessageId(0),
gen_.Ordered(payload, "B"));
})
.WillOnce([this, payload](Timestamp, size_t) {
return SendQueue::DataToSend(OutgoingMessageId(0),
gen_.Ordered(payload, ""));
})
.WillOnce([this, payload](Timestamp, size_t) {
return SendQueue::DataToSend(OutgoingMessageId(0),
gen_.Ordered(payload, ""));
})
.WillOnce([this, payload](Timestamp, size_t) {
return SendQueue::DataToSend(OutgoingMessageId(0),
gen_.Ordered(payload, ""));
})
.WillOnce([this, payload](Timestamp, size_t) {
return SendQueue::DataToSend(OutgoingMessageId(0),
gen_.Ordered(payload, "E"));
})
.WillRepeatedly([](Timestamp, size_t) { return absl::nullopt; });
// Produce all chunks and put them in the retransmission queue.
std::vector<std::pair<TSN, Data>> chunks_to_send =
queue.GetChunksToSend(now_, 5 * mtu);
EXPECT_THAT(chunks_to_send,
ElementsAre(Pair(TSN(10), _), Pair(TSN(11), _), Pair(TSN(12), _),
Pair(TSN(13), _), Pair(TSN(14), _)));
EXPECT_THAT(queue.GetChunkStatesForTesting(),
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)));
// Ack 12, and report an empty receiver window (the peer obviously has a
// tiny receive window).
queue.HandleSack(
now_, SackChunk(TSN(9), /*rwnd=*/0, {SackChunk::GapAckBlock(3, 3)}, {}));
// Force TSN 10 to be retransmitted.
queue.HandleT3RtxTimerExpiry();
// Even if the receiver window is empty, it will allow TSN 10 to be sent.
EXPECT_THAT(queue.GetChunksToSend(now_, mtu), ElementsAre(Pair(TSN(10), _)));
// But not more than that, as there now is outstanding data.
EXPECT_THAT(queue.GetChunksToSend(now_, mtu), IsEmpty());
// Don't ack any new data, and still have receiver window zero.
queue.HandleSack(
now_, SackChunk(TSN(9), /*rwnd=*/0, {SackChunk::GapAckBlock(3, 3)}, {}));
// There is in-flight data, so new data should not be allowed to be send since
// the receiver window is full.
EXPECT_THAT(queue.GetChunksToSend(now_, mtu), IsEmpty());
// Ack that packet (no more in-flight data), but still report an empty
// receiver window.
queue.HandleSack(
now_, SackChunk(TSN(10), /*rwnd=*/0, {SackChunk::GapAckBlock(2, 2)}, {}));
// Then TSN 11 can be sent, as there is no in-flight data.
EXPECT_THAT(queue.GetChunksToSend(now_, mtu), ElementsAre(Pair(TSN(11), _)));
EXPECT_THAT(queue.GetChunksToSend(now_, mtu), IsEmpty());
// Ack and recover the receiver window
queue.HandleSack(now_, SackChunk(TSN(12), /*rwnd=*/5 * mtu, {}, {}));
// That will unblock sending remaining chunks.
EXPECT_THAT(queue.GetChunksToSend(now_, mtu), ElementsAre(Pair(TSN(13), _)));
EXPECT_THAT(queue.GetChunksToSend(now_, mtu), ElementsAre(Pair(TSN(14), _)));
EXPECT_THAT(queue.GetChunksToSend(now_, mtu), IsEmpty());
}
} // namespace
} // namespace dcsctp