blob: a8e96fbf202858e4a119c018edc5a0888083084c [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/socket/stream_reset_handler.h"
#include <array>
#include <cstdint>
#include <memory>
#include <type_traits>
#include <vector>
#include "absl/types/optional.h"
#include "api/array_view.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::_;
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<uint8_t, 4> 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<uint8_t>(arg.payload().begin(), arg.payload().end()) !=
std::vector<uint8_t>(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]() { return callbacks_.CreateTimeout(); }),
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)))),
buf_("log: ", delayed_ack_timer_.get(), kPeerInitialTsn),
reasm_("log: ", kPeerInitialTsn, kArwnd),
retransmission_queue_(
"",
kMyInitialTsn,
kArwnd,
producer_,
[](DurationMs rtt_ms) {},
[]() {},
*t3_rtx_timer_,
/*options=*/{}),
handler_("log: ",
&ctx_,
&timer_manager_,
&buf_,
&reasm_,
&retransmission_queue_) {
EXPECT_CALL(ctx_, current_rto).WillRepeatedly(Return(kRto));
}
void AdvanceTime(DurationMs duration) {
callbacks_.AdvanceTime(kRto);
for (;;) {
absl::optional<TimeoutID> 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<ReconfigurationResponseParameter> HandleAndCatchResponse(
ReConfigChunk chunk) {
handler_.HandleReConfig(std::move(chunk));
std::vector<uint8_t> payload = callbacks_.ConsumeSentPacket();
if (payload.empty()) {
EXPECT_TRUE(false);
return {};
}
std::vector<ReconfigurationResponseParameter> responses;
absl::optional<SctpPacket> p = SctpPacket::Parse(payload);
if (!p.has_value()) {
EXPECT_TRUE(false);
return {};
}
if (p->descriptors().size() != 1) {
EXPECT_TRUE(false);
return {};
}
absl::optional<ReConfigChunk> 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<ReconfigurationResponseParameter> response =
ReconfigurationResponseParameter::Parse(desc.data);
if (!response.has_value()) {
EXPECT_TRUE(false);
return {};
}
responses.emplace_back(*std::move(response));
}
}
return responses;
}
DataGenerator gen_;
NiceMock<MockDcSctpSocketCallbacks> callbacks_;
NiceMock<MockContext> ctx_;
NiceMock<MockSendQueue> producer_;
TimerManager timer_manager_;
std::unique_ptr<Timer> delayed_ack_timer_;
std::unique_ptr<Timer> t3_rtx_timer_;
DataTracker buf_;
ReassemblyQueue reasm_;
RetransmissionQueue retransmission_queue_;
StreamResetHandler handler_;
};
TEST_F(StreamResetHandlerTest, ChunkWithNoParametersReturnsError) {
EXPECT_CALL(callbacks_, SendPacket).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_, SendPacket).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"));
buf_.Observe(kPeerInitialTsn);
buf_.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"));
buf_.Observe(kPeerInitialTsn);
buf_.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<ReconfigurationResponseParameter> 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));
buf_.Observe(kPeerInitialTsn);
buf_.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<ReconfigurationResponseParameter> 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_, PrepareResetStreams).Times(1);
handler_.ResetStreams(std::vector<StreamID>({StreamID(42)}));
EXPECT_CALL(producer_, CanResetStreams()).WillOnce(Return(true));
absl::optional<ReConfigChunk> reconfig = handler_.MakeStreamResetRequest();
ASSERT_TRUE(reconfig.has_value());
ASSERT_HAS_VALUE_AND_ASSIGN(
OutgoingSSNResetRequestParameter req,
reconfig->parameters().get<OutgoingSSNResetRequestParameter>());
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_, PrepareResetStreams).Times(3);
handler_.ResetStreams(std::vector<StreamID>({StreamID(42)}));
handler_.ResetStreams(
std::vector<StreamID>({StreamID(43), StreamID(44), StreamID(41)}));
handler_.ResetStreams(std::vector<StreamID>({StreamID(42), StreamID(40)}));
EXPECT_CALL(producer_, CanResetStreams()).WillOnce(Return(true));
absl::optional<ReConfigChunk> reconfig = handler_.MakeStreamResetRequest();
ASSERT_TRUE(reconfig.has_value());
ASSERT_HAS_VALUE_AND_ASSIGN(
OutgoingSSNResetRequestParameter req,
reconfig->parameters().get<OutgoingSSNResetRequestParameter>());
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_, PrepareResetStreams).Times(1);
handler_.ResetStreams(std::vector<StreamID>({StreamID(42)}));
EXPECT_CALL(producer_, CanResetStreams())
.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_, PrepareResetStreams).Times(1);
handler_.ResetStreams(std::vector<StreamID>({StreamID(42)}));
EXPECT_CALL(producer_, CanResetStreams()).WillOnce(Return(true));
absl::optional<ReConfigChunk> reconfig = handler_.MakeStreamResetRequest();
ASSERT_TRUE(reconfig.has_value());
ASSERT_HAS_VALUE_AND_ASSIGN(
OutgoingSSNResetRequestParameter req,
reconfig->parameters().get<OutgoingSSNResetRequestParameter>());
Parameters::Builder builder;
builder.Add(ReconfigurationResponseParameter(
req.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_, SendPacket).Times(0);
handler_.HandleReConfig(std::move(response_reconfig));
}
TEST_F(StreamResetHandlerTest, SendOutgoingResetRollbackOnError) {
EXPECT_CALL(producer_, PrepareResetStreams).Times(1);
handler_.ResetStreams(std::vector<StreamID>({StreamID(42)}));
EXPECT_CALL(producer_, CanResetStreams()).WillOnce(Return(true));
absl::optional<ReConfigChunk> reconfig = handler_.MakeStreamResetRequest();
ASSERT_TRUE(reconfig.has_value());
ASSERT_HAS_VALUE_AND_ASSIGN(
OutgoingSSNResetRequestParameter req,
reconfig->parameters().get<OutgoingSSNResetRequestParameter>());
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()).Times(1);
// Only requests should result in sending responses.
EXPECT_CALL(callbacks_, OnError).Times(0);
EXPECT_CALL(callbacks_, SendPacket).Times(0);
handler_.HandleReConfig(std::move(response_reconfig));
}
TEST_F(StreamResetHandlerTest, SendOutgoingResetRetransmitOnInProgress) {
static constexpr StreamID kStreamToReset = StreamID(42);
EXPECT_CALL(producer_, PrepareResetStreams).Times(1);
handler_.ResetStreams(std::vector<StreamID>({kStreamToReset}));
EXPECT_CALL(producer_, CanResetStreams()).WillOnce(Return(true));
absl::optional<ReConfigChunk> reconfig1 = handler_.MakeStreamResetRequest();
ASSERT_TRUE(reconfig1.has_value());
ASSERT_HAS_VALUE_AND_ASSIGN(
OutgoingSSNResetRequestParameter req1,
reconfig1->parameters().get<OutgoingSSNResetRequestParameter>());
// 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_, SendPacket).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_, SendPacket).Times(1);
AdvanceTime(kRto);
std::vector<uint8_t> 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<OutgoingSSNResetRequestParameter>());
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_, PrepareResetStreams).Times(1);
handler_.ResetStreams(std::vector<StreamID>({StreamID(42)}));
EXPECT_CALL(producer_, CanResetStreams()).WillOnce(Return(true));
absl::optional<ReConfigChunk> reconfig1 = handler_.MakeStreamResetRequest();
ASSERT_TRUE(reconfig1.has_value());
ASSERT_HAS_VALUE_AND_ASSIGN(
OutgoingSSNResetRequestParameter req1,
reconfig1->parameters().get<OutgoingSSNResetRequestParameter>());
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.
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_, SendPacket).Times(0);
handler_.HandleReConfig(std::move(response_reconfig));
// Response has been processed. A new request can be sent.
EXPECT_CALL(producer_, CanResetStreams()).WillOnce(Return(true));
absl::optional<ReConfigChunk> reconfig2 = handler_.MakeStreamResetRequest();
ASSERT_TRUE(reconfig2.has_value());
ASSERT_HAS_VALUE_AND_ASSIGN(
OutgoingSSNResetRequestParameter req2,
reconfig2->parameters().get<OutgoingSSNResetRequestParameter>());
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<ReconfigurationResponseParameter> 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, SendSameRequestTwiceReturnsNothingToDo) {
reasm_.Add(kPeerInitialTsn, gen_.Ordered({1, 2, 3, 4}, "BE"));
reasm_.Add(AddTo(kPeerInitialTsn, 1), gen_.Ordered({1, 2, 3, 4}, "BE"));
buf_.Observe(kPeerInitialTsn);
buf_.Observe(AddTo(kPeerInitialTsn, 1));
EXPECT_THAT(reasm_.FlushMessages(),
UnorderedElementsAre(
SctpMessageIs(StreamID(1), PPID(53), kShortPayload),
SctpMessageIs(StreamID(1), PPID(53), kShortPayload)));
Parameters::Builder builder1;
builder1.Add(OutgoingSSNResetRequestParameter(
kPeerInitialReqSn, ReconfigRequestSN(3), AddTo(kPeerInitialTsn, 1),
{StreamID(1)}));
std::vector<ReconfigurationResponseParameter> responses1 =
HandleAndCatchResponse(ReConfigChunk(builder1.Build()));
EXPECT_THAT(responses1, SizeIs(1));
EXPECT_EQ(responses1[0].result(), ResponseResult::kSuccessPerformed);
Parameters::Builder builder2;
builder2.Add(OutgoingSSNResetRequestParameter(
kPeerInitialReqSn, ReconfigRequestSN(3), AddTo(kPeerInitialTsn, 1),
{StreamID(1)}));
std::vector<ReconfigurationResponseParameter> responses2 =
HandleAndCatchResponse(ReConfigChunk(builder2.Build()));
EXPECT_THAT(responses2, SizeIs(1));
EXPECT_EQ(responses2[0].result(), ResponseResult::kSuccessNothingToDo);
}
} // namespace
} // namespace dcsctp