Roll src/third_party/WebKit d9c6159:8139f33 (svn 201974:201975)
[chromium-blink-merge.git] / net / quic / quic_stream_sequencer_test.cc
blob994ce842acdbe3add59b4f7e2ddc60a360819723
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "net/quic/quic_stream_sequencer.h"
7 #include <utility>
8 #include <vector>
10 #include "base/logging.h"
11 #include "base/rand_util.h"
12 #include "net/base/ip_endpoint.h"
13 #include "net/quic/quic_utils.h"
14 #include "net/quic/reliable_quic_stream.h"
15 #include "net/quic/test_tools/quic_stream_sequencer_peer.h"
16 #include "net/quic/test_tools/quic_test_utils.h"
17 #include "net/test/gtest_util.h"
18 #include "testing/gmock/include/gmock/gmock.h"
19 #include "testing/gmock_mutant.h"
20 #include "testing/gtest/include/gtest/gtest.h"
22 using base::StringPiece;
23 using std::map;
24 using std::min;
25 using std::pair;
26 using std::string;
27 using std::vector;
28 using testing::_;
29 using testing::AnyNumber;
30 using testing::CreateFunctor;
31 using testing::InSequence;
32 using testing::Return;
33 using testing::StrEq;
35 namespace net {
36 namespace test {
38 class MockStream : public ReliableQuicStream {
39 public:
40 MockStream(QuicSession* session, QuicStreamId id)
41 : ReliableQuicStream(id, session) {
44 MOCK_METHOD0(OnFinRead, void());
45 MOCK_METHOD0(OnDataAvailable, void());
46 MOCK_METHOD2(CloseConnectionWithDetails, void(QuicErrorCode error,
47 const string& details));
48 MOCK_METHOD1(Reset, void(QuicRstStreamErrorCode error));
49 MOCK_METHOD0(OnCanWrite, void());
50 QuicPriority EffectivePriority() const override {
51 return QuicUtils::HighestPriority();
53 virtual bool IsFlowControlEnabled() const {
54 return true;
58 namespace {
60 static const char kPayload[] =
61 "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz";
63 class QuicStreamSequencerTest : public ::testing::Test {
64 public:
65 void ConsumeData(size_t num_bytes) {
66 char buffer[1024];
67 ASSERT_GT(arraysize(buffer), num_bytes);
68 struct iovec iov;
69 iov.iov_base = buffer;
70 iov.iov_len = num_bytes;
71 ASSERT_EQ(static_cast<int>(num_bytes), sequencer_->Readv(&iov, 1));
74 protected:
75 QuicStreamSequencerTest()
76 : connection_(new MockConnection(Perspective::IS_CLIENT)),
77 session_(connection_),
78 stream_(&session_, 1),
79 sequencer_(new QuicStreamSequencer(&stream_)) {}
81 bool VerifyReadableRegions(const char** expected, size_t num_expected) {
82 iovec iovecs[5];
83 size_t num_iovecs =
84 sequencer_->GetReadableRegions(iovecs, arraysize(iovecs));
85 return VerifyIovecs(iovecs, num_iovecs, expected, num_expected);
88 bool VerifyIovecs(iovec* iovecs,
89 size_t num_iovecs,
90 const char** expected,
91 size_t num_expected) {
92 if (num_expected != num_iovecs) {
93 LOG(ERROR) << "Incorrect number of iovecs. Expected: " << num_expected
94 << " Actual: " << num_iovecs;
95 return false;
97 for (size_t i = 0; i < num_expected; ++i) {
98 if (!VerifyIovec(iovecs[i], expected[i])) {
99 return false;
102 return true;
105 bool VerifyIovec(const iovec& iovec, StringPiece expected) {
106 if (iovec.iov_len != expected.length()) {
107 LOG(ERROR) << "Invalid length: " << iovec.iov_len
108 << " vs " << expected.length();
109 return false;
111 if (memcmp(iovec.iov_base, expected.data(), expected.length()) != 0) {
112 LOG(ERROR) << "Invalid data: " << static_cast<char*>(iovec.iov_base)
113 << " vs " << expected;
114 return false;
116 return true;
119 void OnFinFrame(QuicStreamOffset byte_offset, const char* data) {
120 QuicStreamFrame frame;
121 frame.stream_id = 1;
122 frame.offset = byte_offset;
123 frame.data = StringPiece(data);
124 frame.fin = true;
125 sequencer_->OnStreamFrame(frame);
128 void OnFrame(QuicStreamOffset byte_offset, const char* data) {
129 QuicStreamFrame frame;
130 frame.stream_id = 1;
131 frame.offset = byte_offset;
132 frame.data = StringPiece(data);
133 frame.fin = false;
134 sequencer_->OnStreamFrame(frame);
137 size_t NumBufferedFrames() {
138 return QuicStreamSequencerPeer::GetNumBufferedFrames(sequencer_.get());
141 bool FrameOverlapsBufferedData(const QuicStreamFrame& frame) {
142 return QuicStreamSequencerPeer::FrameOverlapsBufferedData(sequencer_.get(),
143 frame);
146 MockConnection* connection_;
147 MockQuicSpdySession session_;
148 testing::StrictMock<MockStream> stream_;
149 scoped_ptr<QuicStreamSequencer> sequencer_;
152 // TODO(rch): reorder these tests so they build on each other.
154 TEST_F(QuicStreamSequencerTest, RejectOldFrame) {
155 EXPECT_CALL(stream_, OnDataAvailable())
156 .WillOnce(testing::Invoke(
157 CreateFunctor(this, &QuicStreamSequencerTest::ConsumeData, 3)));
159 OnFrame(0, "abc");
161 EXPECT_EQ(0u, NumBufferedFrames());
162 EXPECT_EQ(3u, sequencer_->num_bytes_consumed());
163 EXPECT_EQ(3u, stream_.flow_controller()->bytes_consumed());
164 // Ignore this - it matches a past packet number and we should not see it
165 // again.
166 OnFrame(0, "def");
167 EXPECT_EQ(0u, NumBufferedFrames());
170 TEST_F(QuicStreamSequencerTest, RejectBufferedFrame) {
171 EXPECT_CALL(stream_, OnDataAvailable());
173 OnFrame(0, "abc");
174 EXPECT_EQ(1u, NumBufferedFrames());
175 EXPECT_EQ(0u, sequencer_->num_bytes_consumed());
177 // Ignore this - it matches a buffered frame.
178 // Right now there's no checking that the payload is consistent.
179 OnFrame(0, "def");
180 EXPECT_EQ(1u, NumBufferedFrames());
183 TEST_F(QuicStreamSequencerTest, FullFrameConsumed) {
184 EXPECT_CALL(stream_, OnDataAvailable())
185 .WillOnce(testing::Invoke(
186 CreateFunctor(this, &QuicStreamSequencerTest::ConsumeData, 3)));
188 OnFrame(0, "abc");
189 EXPECT_EQ(0u, NumBufferedFrames());
190 EXPECT_EQ(3u, sequencer_->num_bytes_consumed());
193 TEST_F(QuicStreamSequencerTest, BlockedThenFullFrameConsumed) {
194 sequencer_->SetBlockedUntilFlush();
196 OnFrame(0, "abc");
197 EXPECT_EQ(1u, NumBufferedFrames());
198 EXPECT_EQ(0u, sequencer_->num_bytes_consumed());
200 EXPECT_CALL(stream_, OnDataAvailable())
201 .WillOnce(testing::Invoke(
202 CreateFunctor(this, &QuicStreamSequencerTest::ConsumeData, 3)));
203 sequencer_->SetUnblocked();
204 EXPECT_EQ(0u, NumBufferedFrames());
205 EXPECT_EQ(3u, sequencer_->num_bytes_consumed());
207 EXPECT_CALL(stream_, OnDataAvailable())
208 .WillOnce(testing::Invoke(
209 CreateFunctor(this, &QuicStreamSequencerTest::ConsumeData, 3)));
210 EXPECT_FALSE(sequencer_->IsClosed());
211 OnFinFrame(3, "def");
212 EXPECT_TRUE(sequencer_->IsClosed());
215 TEST_F(QuicStreamSequencerTest, BlockedThenFullFrameAndFinConsumed) {
216 sequencer_->SetBlockedUntilFlush();
218 OnFinFrame(0, "abc");
219 EXPECT_EQ(1u, NumBufferedFrames());
220 EXPECT_EQ(0u, sequencer_->num_bytes_consumed());
222 EXPECT_CALL(stream_, OnDataAvailable())
223 .WillOnce(testing::Invoke(
224 CreateFunctor(this, &QuicStreamSequencerTest::ConsumeData, 3)));
225 EXPECT_FALSE(sequencer_->IsClosed());
226 sequencer_->SetUnblocked();
227 EXPECT_TRUE(sequencer_->IsClosed());
228 EXPECT_EQ(0u, NumBufferedFrames());
229 EXPECT_EQ(3u, sequencer_->num_bytes_consumed());
232 TEST_F(QuicStreamSequencerTest, EmptyFrame) {
233 EXPECT_CALL(stream_,
234 CloseConnectionWithDetails(QUIC_INVALID_STREAM_FRAME, _));
235 OnFrame(0, "");
236 EXPECT_EQ(0u, NumBufferedFrames());
237 EXPECT_EQ(0u, sequencer_->num_bytes_consumed());
240 TEST_F(QuicStreamSequencerTest, EmptyFinFrame) {
241 EXPECT_CALL(stream_, OnDataAvailable());
242 OnFinFrame(0, "");
243 EXPECT_EQ(0u, NumBufferedFrames());
244 EXPECT_EQ(0u, sequencer_->num_bytes_consumed());
247 TEST_F(QuicStreamSequencerTest, PartialFrameConsumed) {
248 EXPECT_CALL(stream_, OnDataAvailable())
249 .WillOnce(testing::Invoke(
250 CreateFunctor(this, &QuicStreamSequencerTest::ConsumeData, 2)));
252 OnFrame(0, "abc");
253 EXPECT_EQ(1u, NumBufferedFrames());
254 EXPECT_EQ(2u, sequencer_->num_bytes_consumed());
257 TEST_F(QuicStreamSequencerTest, NextxFrameNotConsumed) {
258 EXPECT_CALL(stream_, OnDataAvailable());
260 OnFrame(0, "abc");
261 EXPECT_EQ(1u, NumBufferedFrames());
262 EXPECT_EQ(0u, sequencer_->num_bytes_consumed());
263 EXPECT_EQ(0, sequencer_->num_early_frames_received());
266 TEST_F(QuicStreamSequencerTest, FutureFrameNotProcessed) {
267 OnFrame(3, "abc");
268 EXPECT_EQ(1u, NumBufferedFrames());
269 EXPECT_EQ(0u, sequencer_->num_bytes_consumed());
270 EXPECT_EQ(1, sequencer_->num_early_frames_received());
273 TEST_F(QuicStreamSequencerTest, OutOfOrderFrameProcessed) {
274 // Buffer the first
275 OnFrame(6, "ghi");
276 EXPECT_EQ(1u, NumBufferedFrames());
277 EXPECT_EQ(0u, sequencer_->num_bytes_consumed());
278 EXPECT_EQ(3u, sequencer_->num_bytes_buffered());
279 // Buffer the second
280 OnFrame(3, "def");
281 EXPECT_EQ(2u, NumBufferedFrames());
282 EXPECT_EQ(0u, sequencer_->num_bytes_consumed());
283 EXPECT_EQ(6u, sequencer_->num_bytes_buffered());
285 EXPECT_CALL(stream_, OnDataAvailable())
286 .WillOnce(testing::Invoke(
287 CreateFunctor(this, &QuicStreamSequencerTest::ConsumeData, 9)));
289 // Now process all of them at once.
290 OnFrame(0, "abc");
291 EXPECT_EQ(9u, sequencer_->num_bytes_consumed());
292 EXPECT_EQ(0u, sequencer_->num_bytes_buffered());
294 EXPECT_EQ(0u, NumBufferedFrames());
297 TEST_F(QuicStreamSequencerTest, BasicHalfCloseOrdered) {
298 InSequence s;
300 EXPECT_CALL(stream_, OnDataAvailable())
301 .WillOnce(testing::Invoke(
302 CreateFunctor(this, &QuicStreamSequencerTest::ConsumeData, 3)));
303 OnFinFrame(0, "abc");
305 EXPECT_EQ(3u, QuicStreamSequencerPeer::GetCloseOffset(sequencer_.get()));
308 TEST_F(QuicStreamSequencerTest, BasicHalfCloseUnorderedWithFlush) {
309 OnFinFrame(6, "");
310 EXPECT_EQ(6u, QuicStreamSequencerPeer::GetCloseOffset(sequencer_.get()));
312 OnFrame(3, "def");
313 EXPECT_CALL(stream_, OnDataAvailable())
314 .WillOnce(testing::Invoke(
315 CreateFunctor(this, &QuicStreamSequencerTest::ConsumeData, 6)));
316 EXPECT_FALSE(sequencer_->IsClosed());
317 OnFrame(0, "abc");
318 EXPECT_TRUE(sequencer_->IsClosed());
321 TEST_F(QuicStreamSequencerTest, BasicHalfUnordered) {
322 OnFinFrame(3, "");
323 EXPECT_EQ(3u, QuicStreamSequencerPeer::GetCloseOffset(sequencer_.get()));
325 EXPECT_CALL(stream_, OnDataAvailable())
326 .WillOnce(testing::Invoke(
327 CreateFunctor(this, &QuicStreamSequencerTest::ConsumeData, 3)));
328 EXPECT_FALSE(sequencer_->IsClosed());
329 OnFrame(0, "abc");
330 EXPECT_TRUE(sequencer_->IsClosed());
333 TEST_F(QuicStreamSequencerTest, TerminateWithReadv) {
334 char buffer[3];
336 OnFinFrame(3, "");
337 EXPECT_EQ(3u, QuicStreamSequencerPeer::GetCloseOffset(sequencer_.get()));
339 EXPECT_FALSE(sequencer_->IsClosed());
341 EXPECT_CALL(stream_, OnDataAvailable());
342 OnFrame(0, "abc");
344 iovec iov = {&buffer[0], 3};
345 int bytes_read = sequencer_->Readv(&iov, 1);
346 EXPECT_EQ(3, bytes_read);
347 EXPECT_TRUE(sequencer_->IsClosed());
350 TEST_F(QuicStreamSequencerTest, MutipleOffsets) {
351 OnFinFrame(3, "");
352 EXPECT_EQ(3u, QuicStreamSequencerPeer::GetCloseOffset(sequencer_.get()));
354 EXPECT_CALL(stream_, Reset(QUIC_MULTIPLE_TERMINATION_OFFSETS));
355 OnFinFrame(5, "");
356 EXPECT_EQ(3u, QuicStreamSequencerPeer::GetCloseOffset(sequencer_.get()));
358 EXPECT_CALL(stream_, Reset(QUIC_MULTIPLE_TERMINATION_OFFSETS));
359 OnFinFrame(1, "");
360 EXPECT_EQ(3u, QuicStreamSequencerPeer::GetCloseOffset(sequencer_.get()));
362 OnFinFrame(3, "");
363 EXPECT_EQ(3u, QuicStreamSequencerPeer::GetCloseOffset(sequencer_.get()));
366 class QuicSequencerRandomTest : public QuicStreamSequencerTest {
367 public:
368 typedef pair<int, string> Frame;
369 typedef vector<Frame> FrameList;
371 void CreateFrames() {
372 int payload_size = arraysize(kPayload) - 1;
373 int remaining_payload = payload_size;
374 while (remaining_payload != 0) {
375 int size = min(OneToN(6), remaining_payload);
376 int index = payload_size - remaining_payload;
377 list_.push_back(std::make_pair(index, string(kPayload + index, size)));
378 remaining_payload -= size;
382 QuicSequencerRandomTest() {
383 CreateFrames();
386 int OneToN(int n) {
387 return base::RandInt(1, n);
390 void ReadAvailableData() {
391 // Read all available data
392 char output[arraysize(kPayload) + 1];
393 iovec iov;
394 iov.iov_base = output;
395 iov.iov_len = arraysize(output);
396 int bytes_read = sequencer_->Readv(&iov, 1);
397 EXPECT_NE(0, bytes_read);
398 output_.append(output, bytes_read);
401 string output_;
402 // Data which peek at using GetReadableRegion if we back up.
403 string peeked_;
404 FrameList list_;
407 // All frames are processed as soon as we have sequential data.
408 // Infinite buffering, so all frames are acked right away.
409 TEST_F(QuicSequencerRandomTest, RandomFramesNoDroppingNoBackup) {
410 InSequence s;
411 EXPECT_CALL(stream_, OnDataAvailable())
412 .Times(AnyNumber())
413 .WillRepeatedly(
414 Invoke(this, &QuicSequencerRandomTest::ReadAvailableData));
416 while (!list_.empty()) {
417 int index = OneToN(list_.size()) - 1;
418 LOG(ERROR) << "Sending index " << index << " " << list_[index].second;
419 OnFrame(list_[index].first, list_[index].second.data());
421 list_.erase(list_.begin() + index);
424 ASSERT_EQ(arraysize(kPayload) - 1, output_.size());
425 EXPECT_EQ(kPayload, output_);
428 TEST_F(QuicSequencerRandomTest, RandomFramesNoDroppingBackup) {
429 char buffer[10];
430 iovec iov[2];
431 iov[0].iov_base = &buffer[0];
432 iov[0].iov_len = 5;
433 iov[1].iov_base = &buffer[5];
434 iov[1].iov_len = 5;
436 EXPECT_CALL(stream_, OnDataAvailable()).Times(AnyNumber());
438 while (output_.size() != arraysize(kPayload) - 1) {
439 if (!list_.empty() && (base::RandUint64() % 2 == 0)) { // Send data
440 int index = OneToN(list_.size()) - 1;
441 OnFrame(list_[index].first, list_[index].second.data());
442 list_.erase(list_.begin() + index);
443 } else { // Read data
444 bool has_bytes = sequencer_->HasBytesToRead();
445 iovec peek_iov[20];
446 int iovs_peeked = sequencer_->GetReadableRegions(peek_iov, 20);
447 if (has_bytes) {
448 ASSERT_LT(0, iovs_peeked);
449 } else {
450 ASSERT_EQ(0, iovs_peeked);
452 int total_bytes_to_peek = arraysize(buffer);
453 for (int i = 0; i < iovs_peeked; ++i) {
454 int bytes_to_peek = min<int>(peek_iov[i].iov_len, total_bytes_to_peek);
455 peeked_.append(static_cast<char*>(peek_iov[i].iov_base), bytes_to_peek);
456 total_bytes_to_peek -= bytes_to_peek;
457 if (total_bytes_to_peek == 0) {
458 break;
461 int bytes_read = sequencer_->Readv(iov, 2);
462 output_.append(buffer, bytes_read);
463 ASSERT_EQ(output_.size(), peeked_.size());
466 EXPECT_EQ(string(kPayload), output_);
467 EXPECT_EQ(string(kPayload), peeked_);
470 // Same as above, just using a different method for reading.
471 TEST_F(QuicStreamSequencerTest, MarkConsumed) {
472 InSequence s;
473 EXPECT_CALL(stream_, OnDataAvailable());
475 OnFrame(0, "abc");
476 OnFrame(3, "def");
477 OnFrame(6, "ghi");
479 // abcdefghi buffered.
480 EXPECT_EQ(9u, sequencer_->num_bytes_buffered());
482 // Peek into the data.
483 const char* expected[] = {"abc", "def", "ghi"};
484 ASSERT_TRUE(VerifyReadableRegions(expected, arraysize(expected)));
486 // Consume 1 byte.
487 sequencer_->MarkConsumed(1);
488 EXPECT_EQ(1u, stream_.flow_controller()->bytes_consumed());
489 // Verify data.
490 const char* expected2[] = {"bc", "def", "ghi"};
491 ASSERT_TRUE(VerifyReadableRegions(expected2, arraysize(expected2)));
492 EXPECT_EQ(8u, sequencer_->num_bytes_buffered());
494 // Consume 2 bytes.
495 sequencer_->MarkConsumed(2);
496 EXPECT_EQ(3u, stream_.flow_controller()->bytes_consumed());
497 // Verify data.
498 const char* expected3[] = {"def", "ghi"};
499 ASSERT_TRUE(VerifyReadableRegions(expected3, arraysize(expected3)));
500 EXPECT_EQ(6u, sequencer_->num_bytes_buffered());
502 // Consume 5 bytes.
503 sequencer_->MarkConsumed(5);
504 EXPECT_EQ(8u, stream_.flow_controller()->bytes_consumed());
505 // Verify data.
506 const char* expected4[] = {"i"};
507 ASSERT_TRUE(VerifyReadableRegions(expected4, arraysize(expected4)));
508 EXPECT_EQ(1u, sequencer_->num_bytes_buffered());
511 TEST_F(QuicStreamSequencerTest, MarkConsumedError) {
512 EXPECT_CALL(stream_, OnDataAvailable());
514 OnFrame(0, "abc");
515 OnFrame(9, "jklmnopqrstuvwxyz");
517 // Peek into the data. Only the first chunk should be readable because of the
518 // missing data.
519 const char* expected[] = {"abc"};
520 ASSERT_TRUE(VerifyReadableRegions(expected, arraysize(expected)));
522 // Now, attempt to mark consumed more data than was readable and expect the
523 // stream to be closed.
524 EXPECT_CALL(stream_, Reset(QUIC_ERROR_PROCESSING_STREAM));
525 EXPECT_DFATAL(sequencer_->MarkConsumed(4),
526 "Invalid argument to MarkConsumed. num_bytes_consumed_: 3 "
527 "end_offset: 4 offset: 9 length: 17");
530 TEST_F(QuicStreamSequencerTest, MarkConsumedWithMissingPacket) {
531 InSequence s;
532 EXPECT_CALL(stream_, OnDataAvailable());
534 OnFrame(0, "abc");
535 OnFrame(3, "def");
536 // Missing packet: 6, ghi.
537 OnFrame(9, "jkl");
539 const char* expected[] = {"abc", "def"};
540 ASSERT_TRUE(VerifyReadableRegions(expected, arraysize(expected)));
542 sequencer_->MarkConsumed(6);
545 TEST_F(QuicStreamSequencerTest, FrameOverlapsBufferedData) {
546 // Ensure that FrameOverlapsBufferedData returns appropriate responses when
547 // there is existing data buffered.
548 const int kBufferedOffset = 10;
549 const int kBufferedDataLength = 3;
550 const int kNewDataLength = 3;
551 string data(kNewDataLength, '.');
553 // No overlap if no buffered frames.
554 EXPECT_EQ(0u, NumBufferedFrames());
555 // Add a buffered frame.
556 sequencer_->OnStreamFrame(QuicStreamFrame(1, false, kBufferedOffset,
557 string(kBufferedDataLength, '.')));
559 // New byte range partially overlaps with buffered frame, start offset
560 // preceding buffered frame.
561 EXPECT_TRUE(FrameOverlapsBufferedData(
562 QuicStreamFrame(1, false, kBufferedOffset - 1, data)));
563 EXPECT_TRUE(FrameOverlapsBufferedData(
564 QuicStreamFrame(1, false, kBufferedOffset - kNewDataLength + 1, data)));
566 // New byte range partially overlaps with buffered frame, start offset inside
567 // existing buffered frame.
568 EXPECT_TRUE(FrameOverlapsBufferedData(
569 QuicStreamFrame(1, false, kBufferedOffset + 1, data)));
570 EXPECT_TRUE(FrameOverlapsBufferedData(QuicStreamFrame(
571 1, false, kBufferedOffset + kBufferedDataLength - 1, data)));
573 // New byte range entirely outside of buffered frames, start offset preceeding
574 // buffered frame.
575 EXPECT_FALSE(FrameOverlapsBufferedData(
576 QuicStreamFrame(1, false, kBufferedOffset - kNewDataLength, data)));
578 // New byte range entirely outside of buffered frames, start offset later than
579 // buffered frame.
580 EXPECT_FALSE(FrameOverlapsBufferedData(
581 QuicStreamFrame(1, false, kBufferedOffset + kBufferedDataLength, data)));
584 TEST_F(QuicStreamSequencerTest, DontAcceptOverlappingFrames) {
585 // The peer should never send us non-identical stream frames which contain
586 // overlapping byte ranges - if they do, we close the connection.
588 QuicStreamFrame frame1(kClientDataStreamId1, false, 1, StringPiece("hello"));
589 sequencer_->OnStreamFrame(frame1);
591 QuicStreamFrame frame2(kClientDataStreamId1, false, 2, StringPiece("hello"));
592 EXPECT_TRUE(FrameOverlapsBufferedData(frame2));
593 EXPECT_CALL(stream_, CloseConnectionWithDetails(QUIC_INVALID_STREAM_FRAME, _))
594 .Times(1);
595 sequencer_->OnStreamFrame(frame2);
598 } // namespace
599 } // namespace test
600 } // namespace net