/* * 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/socket/stream_reset_handler.h" #include #include #include #include #include #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/packet/chunk/reconfig_chunk.h" #include "net/dcsctp/packet/parameter/incoming_ssn_reset_request_parameter.h" #include "net/dcsctp/packet/parameter/outgoing_ssn_reset_request_parameter.h" #include "net/dcsctp/packet/parameter/parameter.h" #include "net/dcsctp/packet/parameter/reconfiguration_response_parameter.h" #include "net/dcsctp/public/dcsctp_message.h" #include "net/dcsctp/rx/data_tracker.h" #include "net/dcsctp/rx/reassembly_queue.h" #include "net/dcsctp/socket/mock_context.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/timer.h" #include "net/dcsctp/tx/mock_send_queue.h" #include "net/dcsctp/tx/retransmission_queue.h" #include "rtc_base/gunit.h" #include "test/gmock.h" namespace dcsctp { namespace { using ::testing::IsEmpty; using ::testing::NiceMock; using ::testing::Return; using ::testing::SizeIs; using ::testing::UnorderedElementsAre; using ResponseResult = ReconfigurationResponseParameter::Result; constexpr TSN kMyInitialTsn = MockContext::MyInitialTsn(); constexpr ReconfigRequestSN kMyInitialReqSn = ReconfigRequestSN(*kMyInitialTsn); constexpr TSN kPeerInitialTsn = MockContext::PeerInitialTsn(); constexpr ReconfigRequestSN kPeerInitialReqSn = ReconfigRequestSN(*kPeerInitialTsn); constexpr uint32_t kArwnd = 131072; constexpr DurationMs kRto = DurationMs(250); constexpr std::array kShortPayload = {1, 2, 3, 4}; MATCHER_P3(SctpMessageIs, stream_id, ppid, expected_payload, "") { if (arg.stream_id() != stream_id) { *result_listener << "the stream_id is " << *arg.stream_id(); return false; } if (arg.ppid() != ppid) { *result_listener << "the ppid is " << *arg.ppid(); return false; } if (std::vector(arg.payload().begin(), arg.payload().end()) != std::vector(expected_payload.begin(), expected_payload.end())) { *result_listener << "the payload is wrong"; return false; } return true; } TSN AddTo(TSN tsn, int delta) { return TSN(*tsn + delta); } ReconfigRequestSN AddTo(ReconfigRequestSN req_sn, int delta) { return ReconfigRequestSN(*req_sn + delta); } class StreamResetHandlerTest : public testing::Test { protected: StreamResetHandlerTest() : ctx_(&callbacks_), timer_manager_([this](webrtc::TaskQueueBase::DelayPrecision precision) { return callbacks_.CreateTimeout(precision); }), delayed_ack_timer_(timer_manager_.CreateTimer( "test/delayed_ack", []() { return absl::nullopt; }, TimerOptions(DurationMs(0)))), t3_rtx_timer_(timer_manager_.CreateTimer( "test/t3_rtx", []() { return absl::nullopt; }, TimerOptions(DurationMs(0)))), data_tracker_(std::make_unique("log: ", delayed_ack_timer_.get(), kPeerInitialTsn)), reasm_(std::make_unique("log: ", kPeerInitialTsn, kArwnd)), retransmission_queue_(std::make_unique( "", &callbacks_, kMyInitialTsn, kArwnd, producer_, [](DurationMs rtt_ms) {}, []() {}, *t3_rtx_timer_, DcSctpOptions())), handler_( std::make_unique("log: ", &ctx_, &timer_manager_, data_tracker_.get(), reasm_.get(), retransmission_queue_.get())) { EXPECT_CALL(ctx_, current_rto).WillRepeatedly(Return(kRto)); } void AdvanceTime(DurationMs duration) { callbacks_.AdvanceTime(kRto); for (;;) { absl::optional timeout_id = callbacks_.GetNextExpiredTimeout(); if (!timeout_id.has_value()) { break; } timer_manager_.HandleTimeout(*timeout_id); } } // Handles the passed in RE-CONFIG `chunk` and returns the responses // that are sent in the response RE-CONFIG. std::vector HandleAndCatchResponse( ReConfigChunk chunk) { handler_->HandleReConfig(std::move(chunk)); std::vector payload = callbacks_.ConsumeSentPacket(); if (payload.empty()) { EXPECT_TRUE(false); return {}; } std::vector responses; absl::optional p = SctpPacket::Parse(payload); if (!p.has_value()) { EXPECT_TRUE(false); return {}; } if (p->descriptors().size() != 1) { EXPECT_TRUE(false); return {}; } absl::optional response_chunk = ReConfigChunk::Parse(p->descriptors()[0].data); if (!response_chunk.has_value()) { EXPECT_TRUE(false); return {}; } for (const auto& desc : response_chunk->parameters().descriptors()) { if (desc.type == ReconfigurationResponseParameter::kType) { absl::optional response = ReconfigurationResponseParameter::Parse(desc.data); if (!response.has_value()) { EXPECT_TRUE(false); return {}; } responses.emplace_back(*std::move(response)); } } return responses; } void PerformHandover() { EXPECT_TRUE(handler_->GetHandoverReadiness().IsReady()); EXPECT_TRUE(data_tracker_->GetHandoverReadiness().IsReady()); EXPECT_TRUE(reasm_->GetHandoverReadiness().IsReady()); EXPECT_TRUE(retransmission_queue_->GetHandoverReadiness().IsReady()); DcSctpSocketHandoverState state; handler_->AddHandoverState(state); data_tracker_->AddHandoverState(state); reasm_->AddHandoverState(state); retransmission_queue_->AddHandoverState(state); g_handover_state_transformer_for_test(&state); data_tracker_ = std::make_unique( "log: ", delayed_ack_timer_.get(), kPeerInitialTsn); data_tracker_->RestoreFromState(state); reasm_ = std::make_unique("log: ", kPeerInitialTsn, kArwnd); reasm_->RestoreFromState(state); retransmission_queue_ = std::make_unique( "", &callbacks_, kMyInitialTsn, kArwnd, producer_, [](DurationMs rtt_ms) {}, []() {}, *t3_rtx_timer_, DcSctpOptions(), /*supports_partial_reliability=*/true, /*use_message_interleaving=*/false); retransmission_queue_->RestoreFromState(state); handler_ = std::make_unique( "log: ", &ctx_, &timer_manager_, data_tracker_.get(), reasm_.get(), retransmission_queue_.get(), &state); } DataGenerator gen_; NiceMock callbacks_; NiceMock ctx_; NiceMock producer_; TimerManager timer_manager_; std::unique_ptr delayed_ack_timer_; std::unique_ptr t3_rtx_timer_; std::unique_ptr data_tracker_; std::unique_ptr reasm_; std::unique_ptr retransmission_queue_; std::unique_ptr handler_; }; TEST_F(StreamResetHandlerTest, ChunkWithNoParametersReturnsError) { EXPECT_CALL(callbacks_, SendPacketWithStatus).Times(0); EXPECT_CALL(callbacks_, OnError).Times(1); handler_->HandleReConfig(ReConfigChunk(Parameters())); } TEST_F(StreamResetHandlerTest, ChunkWithInvalidParametersReturnsError) { Parameters::Builder builder; // Two OutgoingSSNResetRequestParameter in a RE-CONFIG is not valid. builder.Add(OutgoingSSNResetRequestParameter(ReconfigRequestSN(1), ReconfigRequestSN(10), kPeerInitialTsn, {StreamID(1)})); builder.Add(OutgoingSSNResetRequestParameter(ReconfigRequestSN(2), ReconfigRequestSN(10), kPeerInitialTsn, {StreamID(2)})); EXPECT_CALL(callbacks_, SendPacketWithStatus).Times(0); EXPECT_CALL(callbacks_, OnError).Times(1); handler_->HandleReConfig(ReConfigChunk(builder.Build())); } TEST_F(StreamResetHandlerTest, FailToDeliverWithoutResettingStream) { reasm_->Add(kPeerInitialTsn, gen_.Ordered({1, 2, 3, 4}, "BE")); reasm_->Add(AddTo(kPeerInitialTsn, 1), gen_.Ordered({1, 2, 3, 4}, "BE")); data_tracker_->Observe(kPeerInitialTsn); data_tracker_->Observe(AddTo(kPeerInitialTsn, 1)); EXPECT_THAT(reasm_->FlushMessages(), UnorderedElementsAre( SctpMessageIs(StreamID(1), PPID(53), kShortPayload), SctpMessageIs(StreamID(1), PPID(53), kShortPayload))); gen_.ResetStream(); reasm_->Add(AddTo(kPeerInitialTsn, 2), gen_.Ordered({1, 2, 3, 4}, "BE")); EXPECT_THAT(reasm_->FlushMessages(), IsEmpty()); } TEST_F(StreamResetHandlerTest, ResetStreamsNotDeferred) { reasm_->Add(kPeerInitialTsn, gen_.Ordered({1, 2, 3, 4}, "BE")); reasm_->Add(AddTo(kPeerInitialTsn, 1), gen_.Ordered({1, 2, 3, 4}, "BE")); data_tracker_->Observe(kPeerInitialTsn); data_tracker_->Observe(AddTo(kPeerInitialTsn, 1)); EXPECT_THAT(reasm_->FlushMessages(), UnorderedElementsAre( SctpMessageIs(StreamID(1), PPID(53), kShortPayload), SctpMessageIs(StreamID(1), PPID(53), kShortPayload))); Parameters::Builder builder; builder.Add(OutgoingSSNResetRequestParameter( kPeerInitialReqSn, ReconfigRequestSN(3), AddTo(kPeerInitialTsn, 1), {StreamID(1)})); std::vector responses = HandleAndCatchResponse(ReConfigChunk(builder.Build())); EXPECT_THAT(responses, SizeIs(1)); EXPECT_EQ(responses[0].result(), ResponseResult::kSuccessPerformed); gen_.ResetStream(); reasm_->Add(AddTo(kPeerInitialTsn, 2), gen_.Ordered({1, 2, 3, 4}, "BE")); EXPECT_THAT(reasm_->FlushMessages(), UnorderedElementsAre( SctpMessageIs(StreamID(1), PPID(53), kShortPayload))); } TEST_F(StreamResetHandlerTest, ResetStreamsDeferred) { DataGeneratorOptions opts; opts.message_id = MID(0); reasm_->Add(kPeerInitialTsn, gen_.Ordered({1, 2, 3, 4}, "BE", opts)); opts.message_id = MID(1); reasm_->Add(AddTo(kPeerInitialTsn, 1), gen_.Ordered({1, 2, 3, 4}, "BE", opts)); data_tracker_->Observe(kPeerInitialTsn); data_tracker_->Observe(AddTo(kPeerInitialTsn, 1)); EXPECT_THAT(reasm_->FlushMessages(), UnorderedElementsAre( SctpMessageIs(StreamID(1), PPID(53), kShortPayload), SctpMessageIs(StreamID(1), PPID(53), kShortPayload))); Parameters::Builder builder; builder.Add(OutgoingSSNResetRequestParameter( kPeerInitialReqSn, ReconfigRequestSN(3), AddTo(kPeerInitialTsn, 3), {StreamID(1)})); std::vector responses = HandleAndCatchResponse(ReConfigChunk(builder.Build())); EXPECT_THAT(responses, SizeIs(1)); EXPECT_EQ(responses[0].result(), ResponseResult::kInProgress); opts.message_id = MID(1); opts.ppid = PPID(5); reasm_->Add(AddTo(kPeerInitialTsn, 5), gen_.Ordered({1, 2, 3, 4}, "BE", opts)); reasm_->MaybeResetStreamsDeferred(AddTo(kPeerInitialTsn, 1)); opts.message_id = MID(0); opts.ppid = PPID(4); reasm_->Add(AddTo(kPeerInitialTsn, 4), gen_.Ordered({1, 2, 3, 4}, "BE", opts)); reasm_->MaybeResetStreamsDeferred(AddTo(kPeerInitialTsn, 1)); opts.message_id = MID(3); opts.ppid = PPID(3); reasm_->Add(AddTo(kPeerInitialTsn, 3), gen_.Ordered({1, 2, 3, 4}, "BE", opts)); reasm_->MaybeResetStreamsDeferred(AddTo(kPeerInitialTsn, 1)); opts.message_id = MID(2); opts.ppid = PPID(2); reasm_->Add(AddTo(kPeerInitialTsn, 2), gen_.Ordered({1, 2, 3, 4}, "BE", opts)); reasm_->MaybeResetStreamsDeferred(AddTo(kPeerInitialTsn, 5)); EXPECT_THAT( reasm_->FlushMessages(), UnorderedElementsAre(SctpMessageIs(StreamID(1), PPID(2), kShortPayload), SctpMessageIs(StreamID(1), PPID(3), kShortPayload), SctpMessageIs(StreamID(1), PPID(4), kShortPayload), SctpMessageIs(StreamID(1), PPID(5), kShortPayload))); } TEST_F(StreamResetHandlerTest, SendOutgoingRequestDirectly) { EXPECT_CALL(producer_, PrepareResetStream(StreamID(42))); handler_->ResetStreams(std::vector({StreamID(42)})); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return(std::vector({StreamID(42)}))); absl::optional reconfig = handler_->MakeStreamResetRequest(); ASSERT_TRUE(reconfig.has_value()); ASSERT_HAS_VALUE_AND_ASSIGN( OutgoingSSNResetRequestParameter req, reconfig->parameters().get()); EXPECT_EQ(req.request_sequence_number(), kMyInitialReqSn); EXPECT_EQ(req.sender_last_assigned_tsn(), TSN(*retransmission_queue_->next_tsn() - 1)); EXPECT_THAT(req.stream_ids(), UnorderedElementsAre(StreamID(42))); } TEST_F(StreamResetHandlerTest, ResetMultipleStreamsInOneRequest) { EXPECT_CALL(producer_, PrepareResetStream(StreamID(40))); EXPECT_CALL(producer_, PrepareResetStream(StreamID(41))); EXPECT_CALL(producer_, PrepareResetStream(StreamID(42))).Times(2); EXPECT_CALL(producer_, PrepareResetStream(StreamID(43))); EXPECT_CALL(producer_, PrepareResetStream(StreamID(44))); handler_->ResetStreams(std::vector({StreamID(42)})); handler_->ResetStreams( std::vector({StreamID(43), StreamID(44), StreamID(41)})); handler_->ResetStreams(std::vector({StreamID(42), StreamID(40)})); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return( std::vector({StreamID(40), StreamID(41), StreamID(42), StreamID(43), StreamID(44)}))); absl::optional reconfig = handler_->MakeStreamResetRequest(); ASSERT_TRUE(reconfig.has_value()); ASSERT_HAS_VALUE_AND_ASSIGN( OutgoingSSNResetRequestParameter req, reconfig->parameters().get()); EXPECT_EQ(req.request_sequence_number(), kMyInitialReqSn); EXPECT_EQ(req.sender_last_assigned_tsn(), TSN(*retransmission_queue_->next_tsn() - 1)); EXPECT_THAT(req.stream_ids(), UnorderedElementsAre(StreamID(40), StreamID(41), StreamID(42), StreamID(43), StreamID(44))); } TEST_F(StreamResetHandlerTest, SendOutgoingRequestDeferred) { EXPECT_CALL(producer_, PrepareResetStream(StreamID(42))); handler_->ResetStreams(std::vector({StreamID(42)})); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()) .WillOnce(Return(false)) .WillOnce(Return(false)) .WillOnce(Return(true)); EXPECT_FALSE(handler_->MakeStreamResetRequest().has_value()); EXPECT_FALSE(handler_->MakeStreamResetRequest().has_value()); EXPECT_TRUE(handler_->MakeStreamResetRequest().has_value()); } TEST_F(StreamResetHandlerTest, SendOutgoingResettingOnPositiveResponse) { EXPECT_CALL(producer_, PrepareResetStream(StreamID(42))); handler_->ResetStreams(std::vector({StreamID(42)})); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return(std::vector({StreamID(42)}))); absl::optional reconfig = handler_->MakeStreamResetRequest(); ASSERT_TRUE(reconfig.has_value()); ASSERT_HAS_VALUE_AND_ASSIGN( OutgoingSSNResetRequestParameter req, reconfig->parameters().get()); Parameters::Builder builder; builder.Add(ReconfigurationResponseParameter( req.request_sequence_number(), ResponseResult::kSuccessPerformed)); ReConfigChunk response_reconfig(builder.Build()); EXPECT_CALL(producer_, CommitResetStreams); EXPECT_CALL(producer_, RollbackResetStreams).Times(0); // Processing a response shouldn't result in sending anything. EXPECT_CALL(callbacks_, OnError).Times(0); EXPECT_CALL(callbacks_, SendPacketWithStatus).Times(0); handler_->HandleReConfig(std::move(response_reconfig)); } TEST_F(StreamResetHandlerTest, SendOutgoingResetRollbackOnError) { EXPECT_CALL(producer_, PrepareResetStream(StreamID(42))); handler_->ResetStreams(std::vector({StreamID(42)})); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return(std::vector({StreamID(42)}))); absl::optional reconfig = handler_->MakeStreamResetRequest(); ASSERT_TRUE(reconfig.has_value()); ASSERT_HAS_VALUE_AND_ASSIGN( OutgoingSSNResetRequestParameter req, reconfig->parameters().get()); Parameters::Builder builder; builder.Add(ReconfigurationResponseParameter( req.request_sequence_number(), ResponseResult::kErrorBadSequenceNumber)); ReConfigChunk response_reconfig(builder.Build()); EXPECT_CALL(producer_, CommitResetStreams).Times(0); EXPECT_CALL(producer_, RollbackResetStreams); // Only requests should result in sending responses. EXPECT_CALL(callbacks_, OnError).Times(0); EXPECT_CALL(callbacks_, SendPacketWithStatus).Times(0); handler_->HandleReConfig(std::move(response_reconfig)); } TEST_F(StreamResetHandlerTest, SendOutgoingResetRetransmitOnInProgress) { static constexpr StreamID kStreamToReset = StreamID(42); EXPECT_CALL(producer_, PrepareResetStream(kStreamToReset)); handler_->ResetStreams(std::vector({kStreamToReset})); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return(std::vector({kStreamToReset}))); absl::optional reconfig1 = handler_->MakeStreamResetRequest(); ASSERT_TRUE(reconfig1.has_value()); ASSERT_HAS_VALUE_AND_ASSIGN( OutgoingSSNResetRequestParameter req1, reconfig1->parameters().get()); // Simulate that the peer responded "In Progress". Parameters::Builder builder; builder.Add(ReconfigurationResponseParameter(req1.request_sequence_number(), ResponseResult::kInProgress)); ReConfigChunk response_reconfig(builder.Build()); EXPECT_CALL(producer_, CommitResetStreams()).Times(0); EXPECT_CALL(producer_, RollbackResetStreams()).Times(0); // Processing a response shouldn't result in sending anything. EXPECT_CALL(callbacks_, OnError).Times(0); EXPECT_CALL(callbacks_, SendPacketWithStatus).Times(0); handler_->HandleReConfig(std::move(response_reconfig)); // Let some time pass, so that the reconfig timer expires, and retries the // same request. EXPECT_CALL(callbacks_, SendPacketWithStatus).Times(1); AdvanceTime(kRto); std::vector payload = callbacks_.ConsumeSentPacket(); ASSERT_FALSE(payload.empty()); ASSERT_HAS_VALUE_AND_ASSIGN(SctpPacket packet, SctpPacket::Parse(payload)); ASSERT_THAT(packet.descriptors(), SizeIs(1)); ASSERT_HAS_VALUE_AND_ASSIGN( ReConfigChunk reconfig2, ReConfigChunk::Parse(packet.descriptors()[0].data)); ASSERT_HAS_VALUE_AND_ASSIGN( OutgoingSSNResetRequestParameter req2, reconfig2.parameters().get()); EXPECT_EQ(req2.request_sequence_number(), AddTo(req1.request_sequence_number(), 1)); EXPECT_THAT(req2.stream_ids(), UnorderedElementsAre(kStreamToReset)); } TEST_F(StreamResetHandlerTest, ResetWhileRequestIsSentWillQueue) { EXPECT_CALL(producer_, PrepareResetStream(StreamID(42))); handler_->ResetStreams(std::vector({StreamID(42)})); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return(std::vector({StreamID(42)}))); absl::optional reconfig1 = handler_->MakeStreamResetRequest(); ASSERT_TRUE(reconfig1.has_value()); ASSERT_HAS_VALUE_AND_ASSIGN( OutgoingSSNResetRequestParameter req1, reconfig1->parameters().get()); EXPECT_EQ(req1.request_sequence_number(), kMyInitialReqSn); EXPECT_EQ(req1.sender_last_assigned_tsn(), AddTo(retransmission_queue_->next_tsn(), -1)); EXPECT_THAT(req1.stream_ids(), UnorderedElementsAre(StreamID(42))); // Streams reset while the request is in-flight will be queued. EXPECT_CALL(producer_, PrepareResetStream(StreamID(41))); EXPECT_CALL(producer_, PrepareResetStream(StreamID(43))); StreamID stream_ids[] = {StreamID(41), StreamID(43)}; handler_->ResetStreams(stream_ids); EXPECT_EQ(handler_->MakeStreamResetRequest(), absl::nullopt); Parameters::Builder builder; builder.Add(ReconfigurationResponseParameter( req1.request_sequence_number(), ResponseResult::kSuccessPerformed)); ReConfigChunk response_reconfig(builder.Build()); EXPECT_CALL(producer_, CommitResetStreams()).Times(1); EXPECT_CALL(producer_, RollbackResetStreams()).Times(0); // Processing a response shouldn't result in sending anything. EXPECT_CALL(callbacks_, OnError).Times(0); EXPECT_CALL(callbacks_, SendPacketWithStatus).Times(0); handler_->HandleReConfig(std::move(response_reconfig)); // Response has been processed. A new request can be sent. EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return(std::vector({StreamID(41), StreamID(43)}))); absl::optional reconfig2 = handler_->MakeStreamResetRequest(); ASSERT_TRUE(reconfig2.has_value()); ASSERT_HAS_VALUE_AND_ASSIGN( OutgoingSSNResetRequestParameter req2, reconfig2->parameters().get()); EXPECT_EQ(req2.request_sequence_number(), AddTo(kMyInitialReqSn, 1)); EXPECT_EQ(req2.sender_last_assigned_tsn(), TSN(*retransmission_queue_->next_tsn() - 1)); EXPECT_THAT(req2.stream_ids(), UnorderedElementsAre(StreamID(41), StreamID(43))); } TEST_F(StreamResetHandlerTest, SendIncomingResetJustReturnsNothingPerformed) { Parameters::Builder builder; builder.Add( IncomingSSNResetRequestParameter(kPeerInitialReqSn, {StreamID(1)})); std::vector responses = HandleAndCatchResponse(ReConfigChunk(builder.Build())); ASSERT_THAT(responses, SizeIs(1)); EXPECT_THAT(responses[0].response_sequence_number(), kPeerInitialReqSn); EXPECT_THAT(responses[0].result(), ResponseResult::kSuccessNothingToDo); } TEST_F(StreamResetHandlerTest, SendSameRequestTwiceIsIdempotent) { // Simulate that receiving the same chunk twice (due to network issues, // or retransmissions, causing a RECONFIG to be re-received) is idempotent. for (int i = 0; i < 2; ++i) { Parameters::Builder builder; builder.Add(OutgoingSSNResetRequestParameter( kPeerInitialReqSn, ReconfigRequestSN(3), AddTo(kPeerInitialTsn, 1), {StreamID(1)})); std::vector responses1 = HandleAndCatchResponse(ReConfigChunk(builder.Build())); EXPECT_THAT(responses1, SizeIs(1)); EXPECT_EQ(responses1[0].result(), ResponseResult::kInProgress); } } TEST_F(StreamResetHandlerTest, HandoverIsAllowedOnlyWhenNoStreamIsBeingOrWillBeReset) { EXPECT_CALL(producer_, PrepareResetStream(StreamID(42))); handler_->ResetStreams(std::vector({StreamID(42)})); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_EQ( handler_->GetHandoverReadiness(), HandoverReadinessStatus(HandoverUnreadinessReason::kPendingStreamReset)); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()) .WillOnce(Return(true)) .WillOnce(Return(false)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return(std::vector({StreamID(42)}))); ASSERT_TRUE(handler_->MakeStreamResetRequest().has_value()); EXPECT_EQ(handler_->GetHandoverReadiness(), HandoverReadinessStatus( HandoverUnreadinessReason::kPendingStreamResetRequest)); // Reset more streams while the request is in-flight. EXPECT_CALL(producer_, PrepareResetStream(StreamID(41))); EXPECT_CALL(producer_, PrepareResetStream(StreamID(43))); StreamID stream_ids[] = {StreamID(41), StreamID(43)}; handler_->ResetStreams(stream_ids); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_EQ(handler_->GetHandoverReadiness(), HandoverReadinessStatus() .Add(HandoverUnreadinessReason::kPendingStreamResetRequest) .Add(HandoverUnreadinessReason::kPendingStreamReset)); // Processing a response to first request. EXPECT_CALL(producer_, CommitResetStreams()).Times(1); handler_->HandleReConfig( ReConfigChunk(Parameters::Builder() .Add(ReconfigurationResponseParameter( kMyInitialReqSn, ResponseResult::kSuccessPerformed)) .Build())); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_EQ( handler_->GetHandoverReadiness(), HandoverReadinessStatus(HandoverUnreadinessReason::kPendingStreamReset)); // Second request can be sent. EXPECT_CALL(producer_, HasStreamsReadyToBeReset()) .WillOnce(Return(true)) .WillOnce(Return(false)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return(std::vector({StreamID(41), StreamID(43)}))); ASSERT_TRUE(handler_->MakeStreamResetRequest().has_value()); EXPECT_EQ(handler_->GetHandoverReadiness(), HandoverReadinessStatus( HandoverUnreadinessReason::kPendingStreamResetRequest)); // Processing a response to second request. EXPECT_CALL(producer_, CommitResetStreams()).Times(1); handler_->HandleReConfig(ReConfigChunk( Parameters::Builder() .Add(ReconfigurationResponseParameter( AddTo(kMyInitialReqSn, 1), ResponseResult::kSuccessPerformed)) .Build())); // Seconds response has been processed. No pending resets. EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(false)); EXPECT_TRUE(handler_->GetHandoverReadiness().IsReady()); } TEST_F(StreamResetHandlerTest, HandoverInInitialState) { PerformHandover(); EXPECT_CALL(producer_, PrepareResetStream(StreamID(42))); handler_->ResetStreams(std::vector({StreamID(42)})); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return(std::vector({StreamID(42)}))); absl::optional reconfig = handler_->MakeStreamResetRequest(); ASSERT_TRUE(reconfig.has_value()); ASSERT_HAS_VALUE_AND_ASSIGN( OutgoingSSNResetRequestParameter req, reconfig->parameters().get()); EXPECT_EQ(req.request_sequence_number(), kMyInitialReqSn); EXPECT_EQ(req.sender_last_assigned_tsn(), TSN(*retransmission_queue_->next_tsn() - 1)); EXPECT_THAT(req.stream_ids(), UnorderedElementsAre(StreamID(42))); } TEST_F(StreamResetHandlerTest, HandoverAfterHavingResetOneStream) { // Reset one stream { EXPECT_CALL(producer_, PrepareResetStream(StreamID(42))); handler_->ResetStreams(std::vector({StreamID(42)})); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()) .WillOnce(Return(true)) .WillOnce(Return(false)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return(std::vector({StreamID(42)}))); ASSERT_HAS_VALUE_AND_ASSIGN(ReConfigChunk reconfig, handler_->MakeStreamResetRequest()); ASSERT_HAS_VALUE_AND_ASSIGN( OutgoingSSNResetRequestParameter req, reconfig.parameters().get()); EXPECT_EQ(req.request_sequence_number(), kMyInitialReqSn); EXPECT_EQ(req.sender_last_assigned_tsn(), TSN(*retransmission_queue_->next_tsn() - 1)); EXPECT_THAT(req.stream_ids(), UnorderedElementsAre(StreamID(42))); EXPECT_CALL(producer_, CommitResetStreams()).Times(1); handler_->HandleReConfig( ReConfigChunk(Parameters::Builder() .Add(ReconfigurationResponseParameter( req.request_sequence_number(), ResponseResult::kSuccessPerformed)) .Build())); } PerformHandover(); // Reset another stream after handover { EXPECT_CALL(producer_, PrepareResetStream(StreamID(43))); handler_->ResetStreams(std::vector({StreamID(43)})); EXPECT_CALL(producer_, HasStreamsReadyToBeReset()).WillOnce(Return(true)); EXPECT_CALL(producer_, GetStreamsReadyToBeReset()) .WillOnce(Return(std::vector({StreamID(43)}))); ASSERT_HAS_VALUE_AND_ASSIGN(ReConfigChunk reconfig, handler_->MakeStreamResetRequest()); ASSERT_HAS_VALUE_AND_ASSIGN( OutgoingSSNResetRequestParameter req, reconfig.parameters().get()); EXPECT_EQ(req.request_sequence_number(), ReconfigRequestSN(kMyInitialReqSn.value() + 1)); EXPECT_EQ(req.sender_last_assigned_tsn(), TSN(*retransmission_queue_->next_tsn() - 1)); EXPECT_THAT(req.stream_ids(), UnorderedElementsAre(StreamID(43))); } } TEST_F(StreamResetHandlerTest, PerformCloseAfterOneFirstFailing) { // Inject a stream reset on the first expected TSN (which hasn't been seen). Parameters::Builder builder; builder.Add(OutgoingSSNResetRequestParameter( kPeerInitialReqSn, ReconfigRequestSN(3), kPeerInitialTsn, {StreamID(1)})); // The socket is expected to say "in progress" as that TSN hasn't been seen. std::vector responses = HandleAndCatchResponse(ReConfigChunk(builder.Build())); EXPECT_THAT(responses, SizeIs(1)); EXPECT_EQ(responses[0].result(), ResponseResult::kInProgress); // Let the socket receive the TSN. DataGeneratorOptions opts; opts.message_id = MID(0); reasm_->Add(kPeerInitialTsn, gen_.Ordered({1, 2, 3, 4}, "BE", opts)); reasm_->MaybeResetStreamsDeferred(kPeerInitialTsn); data_tracker_->Observe(kPeerInitialTsn); // And emulate that time has passed, and the peer retries the stream reset, // but now with an incremented request sequence number. Parameters::Builder builder2; builder2.Add(OutgoingSSNResetRequestParameter( ReconfigRequestSN(*kPeerInitialReqSn + 1), ReconfigRequestSN(3), kPeerInitialTsn, {StreamID(1)})); // This is supposed to be handled well. std::vector responses2 = HandleAndCatchResponse(ReConfigChunk(builder2.Build())); EXPECT_THAT(responses2, SizeIs(1)); EXPECT_EQ(responses2[0].result(), ResponseResult::kSuccessPerformed); } } // namespace } // namespace dcsctp