Move shared files in net/quic/ into net/quic/core/

net/quic/quic_stream_sequencer_buffer_test.cc

Index: net/quic/quic_stream_sequencer_buffer_test.cc
diff --git a/net/quic/quic_stream_sequencer_buffer_test.cc b/net/quic/quic_stream_sequencer_buffer_test.cc
deleted file mode 100644
index 4a848322ec5e1fccce18f0d6457a95afb9dca972..0000000000000000000000000000000000000000
--- a/net/quic/quic_stream_sequencer_buffer_test.cc
+++ /dev/null
@@ -1,1060 +0,0 @@
-// Copyright (c) 2015 The Chromium Authors. All rights reserved.
-// Use of this source code is governed by a BSD-style license that can be
-// found in the LICENSE file.
-#include "net/quic/quic_stream_sequencer_buffer.h"
-
-#include <algorithm>
-#include <limits>
-#include <map>
-#include <string>
-#include <utility>
-
-#include "base/logging.h"
-#include "base/macros.h"
-#include "base/rand_util.h"
-#include "net/quic/test_tools/mock_clock.h"
-#include "net/quic/test_tools/quic_test_utils.h"
-#include "net/test/gtest_util.h"
-#include "testing/gmock/include/gmock/gmock.h"
-#include "testing/gmock_mutant.h"
-#include "testing/gtest/include/gtest/gtest.h"
-
-using std::min;
-using std::string;
-
-namespace net {
-
-namespace test {
-
-char GetCharFromIOVecs(size_t offset, iovec iov[], size_t count) {
-  size_t start_offset = 0;
-  for (size_t i = 0; i < count; i++) {
-    if (iov[i].iov_len == 0) {
-      continue;
-    }
-    size_t end_offset = start_offset + iov[i].iov_len - 1;
-    if (offset >= start_offset && offset <= end_offset) {
-      const char* buf = reinterpret_cast<const char*>(iov[i].iov_base);
-      return buf[offset - start_offset];
-    }
-    start_offset += iov[i].iov_len;
-  }
-  LOG(ERROR) << "Could not locate char at offset " << offset << " in " << count
-             << " iovecs";
-  for (size_t i = 0; i < count; ++i) {
-    LOG(ERROR) << "  iov[" << i << "].iov_len = " << iov[i].iov_len;
-  }
-  return '\0';
-}
-
-static const size_t kBlockSizeBytes =
-    QuicStreamSequencerBuffer::kBlockSizeBytes;
-typedef QuicStreamSequencerBuffer::BufferBlock BufferBlock;
-typedef QuicStreamSequencerBuffer::Gap Gap;
-typedef QuicStreamSequencerBuffer::FrameInfo FrameInfo;
-
-class QuicStreamSequencerBufferPeer {
- public:
-  explicit QuicStreamSequencerBufferPeer(QuicStreamSequencerBuffer* buffer)
-      : buffer_(buffer) {}
-
-  // Read from this buffer_->into the given destination buffer_-> up to the
-  // size of the destination. Returns the number of bytes read. Reading from
-  // an empty buffer_->returns 0.
-  size_t Read(char* dest_buffer, size_t size) {
-    iovec dest;
-    dest.iov_base = dest_buffer, dest.iov_len = size;
-    return buffer_->Readv(&dest, 1);
-  }
-
-  // If buffer is empty, the blocks_ array must be empty, which means all
-  // blocks are deallocated.
-  bool CheckEmptyInvariants() {
-    return !buffer_->Empty() || IsBlockArrayEmpty();
-  }
-
-  bool IsBlockArrayEmpty() {
-    size_t count = buffer_->blocks_count_;
-    for (size_t i = 0; i < count; i++) {
-      if (buffer_->blocks_[i] != nullptr) {
-        return false;
-      }
-    }
-    return true;
-  }
-
-  bool CheckInitialState() {
-    EXPECT_TRUE(buffer_->Empty() && buffer_->total_bytes_read_ == 0 &&
-                buffer_->num_bytes_buffered_ == 0);
-    return CheckBufferInvariants();
-  }
-
-  bool CheckBufferInvariants() {
-    QuicStreamOffset data_span =
-        buffer_->gaps_.back().begin_offset - buffer_->total_bytes_read_;
-    bool capacity_sane = data_span <= buffer_->max_buffer_capacity_bytes_ &&
-                         data_span >= buffer_->num_bytes_buffered_;
-    if (!capacity_sane) {
-      LOG(ERROR) << "data span is larger than capacity.";
-      LOG(ERROR) << "total read: " << buffer_->total_bytes_read_
-                 << " last byte: " << buffer_->gaps_.back().begin_offset;
-    }
-    bool total_read_sane =
-        buffer_->gaps_.front().begin_offset >= buffer_->total_bytes_read_;
-    if (!total_read_sane) {
-      LOG(ERROR) << "read across 1st gap.";
-    }
-    bool read_offset_sane = buffer_->ReadOffset() < kBlockSizeBytes;
-    if (!capacity_sane) {
-      LOG(ERROR) << "read offset go beyond 1st block";
-    }
-    bool block_match_capacity =
-        (buffer_->max_buffer_capacity_bytes_ <=
-         buffer_->blocks_count_ * kBlockSizeBytes) &&
-        (buffer_->max_buffer_capacity_bytes_ >
-         (buffer_->blocks_count_ - 1) * kBlockSizeBytes);
-    if (!capacity_sane) {
-      LOG(ERROR) << "block number not match capcaity.";
-    }
-    bool block_retired_when_empty = CheckEmptyInvariants();
-    if (!block_retired_when_empty) {
-      LOG(ERROR) << "block is not retired after use.";
-    }
-    return capacity_sane && total_read_sane && read_offset_sane &&
-           block_match_capacity && block_retired_when_empty;
-  }
-
-  size_t GetInBlockOffset(QuicStreamOffset offset) {
-    return buffer_->GetInBlockOffset(offset);
-  }
-
-  BufferBlock* GetBlock(size_t index) { return buffer_->blocks_[index]; }
-
-  int GapSize() { return buffer_->gaps_.size(); }
-
-  std::list<Gap> GetGaps() { return buffer_->gaps_; }
-
-  size_t max_buffer_capacity() { return buffer_->max_buffer_capacity_bytes_; }
-
-  size_t ReadableBytes() { return buffer_->ReadableBytes(); }
-
-  std::map<QuicStreamOffset, FrameInfo>* frame_arrival_time_map() {
-    return &(buffer_->frame_arrival_time_map_);
-  }
-
-  void set_total_bytes_read(QuicStreamOffset total_bytes_read) {
-    buffer_->total_bytes_read_ = total_bytes_read;
-  }
-
-  void set_gaps(const std::list<Gap>& gaps) { buffer_->gaps_ = gaps; }
-
- private:
-  QuicStreamSequencerBuffer* buffer_;
-};
-
-namespace {
-
-class QuicStreamSequencerBufferTest : public testing::Test {
- public:
-  void SetUp() override { Initialize(); }
-
-  void ResetMaxCapacityBytes(size_t max_capacity_bytes) {
-    max_capacity_bytes_ = max_capacity_bytes;
-    Initialize();
-  }
-
- protected:
-  void Initialize() {
-    buffer_.reset(new QuicStreamSequencerBuffer(max_capacity_bytes_));
-    helper_.reset(new QuicStreamSequencerBufferPeer(buffer_.get()));
-  }
-
-  // Use 2.5 here to make sure the buffer has more than one block and its end
-  // doesn't align with the end of a block in order to test all the offset
-  // calculation.
-  size_t max_capacity_bytes_ = 2.5 * kBlockSizeBytes;
-
-  MockClock clock_;
-  std::unique_ptr<QuicStreamSequencerBuffer> buffer_;
-  std::unique_ptr<QuicStreamSequencerBufferPeer> helper_;
-  string error_details_;
-};
-
-TEST_F(QuicStreamSequencerBufferTest, InitializationWithDifferentSizes) {
-  const size_t kCapacity = 2 * QuicStreamSequencerBuffer::kBlockSizeBytes;
-  ResetMaxCapacityBytes(kCapacity);
-  EXPECT_EQ(max_capacity_bytes_, helper_->max_buffer_capacity());
-  EXPECT_TRUE(helper_->CheckInitialState());
-
-  const size_t kCapacity1 = 8 * QuicStreamSequencerBuffer::kBlockSizeBytes;
-  ResetMaxCapacityBytes(kCapacity1);
-  EXPECT_EQ(kCapacity1, helper_->max_buffer_capacity());
-  EXPECT_TRUE(helper_->CheckInitialState());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, ClearOnEmpty) {
-  buffer_->Clear();
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, OnStreamData0length) {
-  size_t written;
-  QuicErrorCode error = buffer_->OnStreamData(800, "", clock_.ApproximateNow(),
-                                              &written, &error_details_);
-  EXPECT_EQ(error, QUIC_EMPTY_STREAM_FRAME_NO_FIN);
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, OnStreamDataWithinBlock) {
-  string source(1024, 'a');
-  size_t written;
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  QuicTime t = clock_.ApproximateNow();
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(800, source, t, &written, &error_details_));
-  BufferBlock* block_ptr = helper_->GetBlock(0);
-  for (size_t i = 0; i < source.size(); ++i) {
-    ASSERT_EQ('a', block_ptr->buffer[helper_->GetInBlockOffset(800) + i]);
-  }
-  EXPECT_EQ(2, helper_->GapSize());
-  std::list<Gap> gaps = helper_->GetGaps();
-  EXPECT_EQ(800u, gaps.front().end_offset);
-  EXPECT_EQ(1824u, gaps.back().begin_offset);
-  auto* frame_map = helper_->frame_arrival_time_map();
-  EXPECT_EQ(1u, frame_map->size());
-  EXPECT_EQ(800u, frame_map->begin()->first);
-  EXPECT_EQ(t, (*frame_map)[800].timestamp);
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, OnStreamDataWithOverlap) {
-  string source(1024, 'a');
-  // Write something into [800, 1824)
-  size_t written;
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  QuicTime t1 = clock_.ApproximateNow();
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(800, source, t1, &written, &error_details_));
-  // Try to write to [0, 1024) and [1024, 2048).
-  // But no byte will be written since overlap.
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  QuicTime t2 = clock_.ApproximateNow();
-  EXPECT_EQ(QUIC_OVERLAPPING_STREAM_DATA,
-            buffer_->OnStreamData(0, source, t2, &written, &error_details_));
-  EXPECT_EQ(QUIC_OVERLAPPING_STREAM_DATA,
-            buffer_->OnStreamData(1024, source, t2, &written, &error_details_));
-  auto* frame_map = helper_->frame_arrival_time_map();
-  EXPECT_EQ(1u, frame_map->size());
-  EXPECT_EQ(t1, (*frame_map)[800].timestamp);
-}
-
-TEST_F(QuicStreamSequencerBufferTest,
-       OnStreamDataOverlapAndDuplicateCornerCases) {
-  string source(1024, 'a');
-  // Write something into [800, 1824)
-  size_t written;
-  buffer_->OnStreamData(800, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  source = string(800, 'b');
-  // Try to write to [1, 801), but should fail due to overlapping
-  EXPECT_EQ(QUIC_OVERLAPPING_STREAM_DATA,
-            buffer_->OnStreamData(1, source, clock_.ApproximateNow(), &written,
-                                  &error_details_));
-  // write to [0, 800)
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                                  &error_details_));
-  // Try to write one byte to [1823, 1824), but should count as duplicate
-  string one_byte = "c";
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(1823, one_byte, clock_.ApproximateNow(),
-                                  &written, &error_details_));
-  EXPECT_EQ(0u, written);
-  // write one byte to [1824, 1825)
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(1824, one_byte, clock_.ApproximateNow(),
-                                  &written, &error_details_));
-  auto* frame_map = helper_->frame_arrival_time_map();
-  EXPECT_EQ(3u, frame_map->size());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, OnStreamDataWithoutOverlap) {
-  string source(1024, 'a');
-  // Write something into [800, 1824).
-  size_t written;
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(800, source, clock_.ApproximateNow(),
-                                  &written, &error_details_));
-  source = string(100, 'b');
-  // Write something into [kBlockSizeBytes * 2 - 20, kBlockSizeBytes * 2 + 80).
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(kBlockSizeBytes * 2 - 20, source,
-                                  clock_.ApproximateNow(), &written,
-                                  &error_details_));
-  EXPECT_EQ(3, helper_->GapSize());
-  EXPECT_EQ(1024u + 100u, buffer_->BytesBuffered());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, OnStreamDataInLongStreamWithOverlap) {
-  // Assume a stream has already buffered almost 4GB.
-  uint64_t total_bytes_read = pow(2, 32) - 1;
-  helper_->set_total_bytes_read(total_bytes_read);
-  helper_->set_gaps(std::list<Gap>(
-      1, Gap(total_bytes_read, std::numeric_limits<QuicStreamOffset>::max())));
-
-  // Three new out of order frames arrive.
-  const size_t kBytesToWrite = 100;
-  string source(kBytesToWrite, 'a');
-  size_t written;
-  // Frame [2^32 + 500, 2^32 + 600).
-  QuicStreamOffset offset = pow(2, 32) + 500;
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(offset, source, clock_.ApproximateNow(),
-                                  &written, &error_details_));
-  EXPECT_EQ(2, helper_->GapSize());
-
-  // Frame [2^32 + 700, 2^32 + 800).
-  offset = pow(2, 32) + 700;
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(offset, source, clock_.ApproximateNow(),
-                                  &written, &error_details_));
-  EXPECT_EQ(3, helper_->GapSize());
-
-  // Another frame [2^32 + 300, 2^32 + 400).
-  offset = pow(2, 32) + 300;
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(offset, source, clock_.ApproximateNow(),
-                                  &written, &error_details_));
-  EXPECT_EQ(4, helper_->GapSize());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, OnStreamDataTillEnd) {
-  // Write 50 bytes to the end.
-  const size_t kBytesToWrite = 50;
-  string source(kBytesToWrite, 'a');
-  size_t written;
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(max_capacity_bytes_ - kBytesToWrite, source,
-                                  clock_.ApproximateNow(), &written,
-                                  &error_details_));
-  EXPECT_EQ(50u, buffer_->BytesBuffered());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, OnStreamDataTillEndCorner) {
-  // Write 1 byte to the end.
-  const size_t kBytesToWrite = 1;
-  string source(kBytesToWrite, 'a');
-  size_t written;
-  EXPECT_EQ(QUIC_NO_ERROR,
-            buffer_->OnStreamData(max_capacity_bytes_ - kBytesToWrite, source,
-                                  clock_.ApproximateNow(), &written,
-                                  &error_details_));
-  EXPECT_EQ(1u, buffer_->BytesBuffered());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, OnStreamDataBeyondCapacity) {
-  string source(60, 'a');
-  size_t written;
-  EXPECT_EQ(QUIC_INTERNAL_ERROR,
-            buffer_->OnStreamData(max_capacity_bytes_ - 50, source,
-                                  clock_.ApproximateNow(), &written,
-                                  &error_details_));
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-
-  source = "b";
-  EXPECT_EQ(QUIC_INTERNAL_ERROR,
-            buffer_->OnStreamData(max_capacity_bytes_, source,
-                                  clock_.ApproximateNow(), &written,
-                                  &error_details_));
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-
-  EXPECT_EQ(QUIC_INTERNAL_ERROR,
-            buffer_->OnStreamData(max_capacity_bytes_ * 1000, source,
-                                  clock_.ApproximateNow(), &written,
-                                  &error_details_));
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-  EXPECT_EQ(0u, buffer_->BytesBuffered());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, Readv100Bytes) {
-  string source(1024, 'a');
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  QuicTime t1 = clock_.ApproximateNow();
-  // Write something into [kBlockSizeBytes, kBlockSizeBytes + 1024).
-  size_t written;
-  buffer_->OnStreamData(kBlockSizeBytes, source, t1, &written, &error_details_);
-  EXPECT_FALSE(buffer_->HasBytesToRead());
-  source = string(100, 'b');
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  QuicTime t2 = clock_.ApproximateNow();
-  // Write something into [0, 100).
-  buffer_->OnStreamData(0, source, t2, &written, &error_details_);
-  EXPECT_TRUE(buffer_->HasBytesToRead());
-  EXPECT_EQ(2u, helper_->frame_arrival_time_map()->size());
-  // Read into a iovec array with total capacity of 120 bytes.
-  char dest[120];
-  iovec iovecs[3]{iovec{dest, 40}, iovec{dest + 40, 40}, iovec{dest + 80, 40}};
-  size_t read = buffer_->Readv(iovecs, 3);
-  EXPECT_EQ(100u, read);
-  EXPECT_EQ(100u, buffer_->BytesConsumed());
-  EXPECT_EQ(source, string(dest, read));
-  EXPECT_EQ(1u, helper_->frame_arrival_time_map()->size());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, ReadvAcrossBlocks) {
-  string source(kBlockSizeBytes + 50, 'a');
-  // Write 1st block to full and extand 50 bytes to next block.
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  EXPECT_EQ(source.size(), helper_->ReadableBytes());
-  // Iteratively read 512 bytes from buffer_-> Overwrite dest[] each time.
-  char dest[512];
-  while (helper_->ReadableBytes()) {
-    std::fill(dest, dest + 512, 0);
-    iovec iovecs[2]{iovec{dest, 256}, iovec{dest + 256, 256}};
-    buffer_->Readv(iovecs, 2);
-  }
-  // The last read only reads the rest 50 bytes in 2nd block.
-  EXPECT_EQ(string(50, 'a'), string(dest, 50));
-  EXPECT_EQ(0, dest[50]) << "Dest[50] shouln't be filled.";
-  EXPECT_EQ(source.size(), buffer_->BytesConsumed());
-  EXPECT_TRUE(buffer_->Empty());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, ClearAfterRead) {
-  string source(kBlockSizeBytes + 50, 'a');
-  // Write 1st block to full with 'a'.
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  // Read first 512 bytes from buffer to make space at the beginning.
-  char dest[512]{0};
-  const iovec iov{dest, 512};
-  buffer_->Readv(&iov, 1);
-  // Clear() should make buffer empty while preserving BytesConsumed()
-  buffer_->Clear();
-  EXPECT_TRUE(buffer_->Empty());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest,
-       OnStreamDataAcrossLastBlockAndFillCapacity) {
-  string source(kBlockSizeBytes + 50, 'a');
-  // Write 1st block to full with 'a'.
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  // Read first 512 bytes from buffer to make space at the beginning.
-  char dest[512]{0};
-  const iovec iov{dest, 512};
-  buffer_->Readv(&iov, 1);
-  EXPECT_EQ(source.size(), written);
-
-  // Write more than half block size of bytes in the last block with 'b', which
-  // will wrap to the beginning and reaches the full capacity.
-  source = string(0.5 * kBlockSizeBytes + 512, 'b');
-  EXPECT_EQ(QUIC_NO_ERROR, buffer_->OnStreamData(2 * kBlockSizeBytes, source,
-                                                 clock_.ApproximateNow(),
-                                                 &written, &error_details_));
-  EXPECT_EQ(source.size(), written);
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest,
-       OnStreamDataAcrossLastBlockAndExceedCapacity) {
-  string source(kBlockSizeBytes + 50, 'a');
-  // Write 1st block to full.
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  // Read first 512 bytes from buffer to make space at the beginning.
-  char dest[512]{0};
-  const iovec iov{dest, 512};
-  buffer_->Readv(&iov, 1);
-
-  // Try to write from [max_capacity_bytes_ - 0.5 * kBlockSizeBytes,
-  // max_capacity_bytes_ +  512 + 1). But last bytes exceeds current capacity.
-  source = string(0.5 * kBlockSizeBytes + 512 + 1, 'b');
-  EXPECT_EQ(QUIC_INTERNAL_ERROR,
-            buffer_->OnStreamData(2 * kBlockSizeBytes, source,
-                                  clock_.ApproximateNow(), &written,
-                                  &error_details_));
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, ReadvAcrossLastBlock) {
-  // Write to full capacity and read out 512 bytes at beginning and continue
-  // appending 256 bytes.
-  string source(max_capacity_bytes_, 'a');
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  QuicTime t = clock_.ApproximateNow();
-  size_t written;
-  buffer_->OnStreamData(0, source, t, &written, &error_details_);
-  char dest[512]{0};
-  const iovec iov{dest, 512};
-  buffer_->Readv(&iov, 1);
-  source = string(256, 'b');
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  QuicTime t2 = clock_.ApproximateNow();
-  buffer_->OnStreamData(max_capacity_bytes_, source, t2, &written,
-                        &error_details_);
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-  EXPECT_EQ(2u, helper_->frame_arrival_time_map()->size());
-
-  // Read all data out.
-  std::unique_ptr<char[]> dest1{new char[max_capacity_bytes_]};
-  dest1[0] = 0;
-  const iovec iov1{dest1.get(), max_capacity_bytes_};
-  EXPECT_EQ(max_capacity_bytes_ - 512 + 256, buffer_->Readv(&iov1, 1));
-  EXPECT_EQ(max_capacity_bytes_ + 256, buffer_->BytesConsumed());
-  EXPECT_TRUE(buffer_->Empty());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-  EXPECT_EQ(0u, helper_->frame_arrival_time_map()->size());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, ReadvEmpty) {
-  char dest[512]{0};
-  iovec iov{dest, 512};
-  size_t read = buffer_->Readv(&iov, 1);
-  EXPECT_EQ(0u, read);
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, GetReadableRegionsEmpty) {
-  iovec iovs[2];
-  int iov_count = buffer_->GetReadableRegions(iovs, 2);
-  EXPECT_EQ(0, iov_count);
-  EXPECT_EQ(nullptr, iovs[iov_count].iov_base);
-  EXPECT_EQ(0u, iovs[iov_count].iov_len);
-}
-
-TEST_F(QuicStreamSequencerBufferTest, GetReadableRegionsBlockedByGap) {
-  // Write into [1, 1024).
-  string source(1023, 'a');
-  size_t written;
-  buffer_->OnStreamData(1, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  // Try to get readable regions, but none is there.
-  iovec iovs[2];
-  int iov_count = buffer_->GetReadableRegions(iovs, 2);
-  EXPECT_EQ(0, iov_count);
-}
-
-TEST_F(QuicStreamSequencerBufferTest, GetReadableRegionsTillEndOfBlock) {
-  // Write first block to full with [0, 256) 'a' and the rest 'b' then read out
-  // [0, 256)
-  string source(kBlockSizeBytes, 'a');
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  char dest[256];
-  helper_->Read(dest, 256);
-  // Get readable region from [256, 1024)
-  iovec iovs[2];
-  int iov_count = buffer_->GetReadableRegions(iovs, 2);
-  EXPECT_EQ(1, iov_count);
-  EXPECT_EQ(
-      string(kBlockSizeBytes - 256, 'a'),
-      string(reinterpret_cast<const char*>(iovs[0].iov_base), iovs[0].iov_len));
-}
-
-TEST_F(QuicStreamSequencerBufferTest, GetReadableRegionsWithinOneBlock) {
-  // Write into [0, 1024) and then read out [0, 256)
-  string source(1024, 'a');
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  char dest[256];
-  helper_->Read(dest, 256);
-  // Get readable region from [256, 1024)
-  iovec iovs[2];
-  int iov_count = buffer_->GetReadableRegions(iovs, 2);
-  EXPECT_EQ(1, iov_count);
-  EXPECT_EQ(
-      string(1024 - 256, 'a'),
-      string(reinterpret_cast<const char*>(iovs[0].iov_base), iovs[0].iov_len));
-}
-
-TEST_F(QuicStreamSequencerBufferTest,
-       GetReadableRegionsAcrossBlockWithLongIOV) {
-  // Write into [0, 2 * kBlockSizeBytes + 1024) and then read out [0, 1024)
-  string source(2 * kBlockSizeBytes + 1024, 'a');
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  char dest[1024];
-  helper_->Read(dest, 1024);
-
-  iovec iovs[4];
-  int iov_count = buffer_->GetReadableRegions(iovs, 4);
-  EXPECT_EQ(3, iov_count);
-  EXPECT_EQ(kBlockSizeBytes - 1024, iovs[0].iov_len);
-  EXPECT_EQ(kBlockSizeBytes, iovs[1].iov_len);
-  EXPECT_EQ(1024u, iovs[2].iov_len);
-}
-
-TEST_F(QuicStreamSequencerBufferTest,
-       GetReadableRegionsWithMultipleIOVsAcrossEnd) {
-  // Write into [0, 2 * kBlockSizeBytes + 1024) and then read out [0, 1024)
-  // and then append 1024 + 512 bytes.
-  string source(2.5 * kBlockSizeBytes - 1024, 'a');
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  char dest[1024];
-  helper_->Read(dest, 1024);
-  // Write across the end.
-  source = string(1024 + 512, 'b');
-  buffer_->OnStreamData(2.5 * kBlockSizeBytes - 1024, source,
-                        clock_.ApproximateNow(), &written, &error_details_);
-  // Use short iovec's.
-  iovec iovs[2];
-  int iov_count = buffer_->GetReadableRegions(iovs, 2);
-  EXPECT_EQ(2, iov_count);
-  EXPECT_EQ(kBlockSizeBytes - 1024, iovs[0].iov_len);
-  EXPECT_EQ(kBlockSizeBytes, iovs[1].iov_len);
-  // Use long iovec's and wrap the end of buffer.
-  iovec iovs1[5];
-  EXPECT_EQ(4, buffer_->GetReadableRegions(iovs1, 5));
-  EXPECT_EQ(0.5 * kBlockSizeBytes, iovs1[2].iov_len);
-  EXPECT_EQ(512u, iovs1[3].iov_len);
-  EXPECT_EQ(string(512, 'b'),
-            string(reinterpret_cast<const char*>(iovs1[3].iov_base),
-                   iovs1[3].iov_len));
-}
-
-TEST_F(QuicStreamSequencerBufferTest, GetReadableRegionEmpty) {
-  iovec iov;
-  QuicTime t = QuicTime::Zero();
-  EXPECT_FALSE(buffer_->GetReadableRegion(&iov, &t));
-  EXPECT_EQ(nullptr, iov.iov_base);
-  EXPECT_EQ(0u, iov.iov_len);
-}
-
-TEST_F(QuicStreamSequencerBufferTest, GetReadableRegionBeforeGap) {
-  // Write into [1, 1024).
-  string source(1023, 'a');
-  size_t written;
-  buffer_->OnStreamData(1, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  // GetReadableRegion should return false because range  [0,1) hasn't been
-  // filled yet.
-  iovec iov;
-  QuicTime t = QuicTime::Zero();
-  EXPECT_FALSE(buffer_->GetReadableRegion(&iov, &t));
-}
-
-TEST_F(QuicStreamSequencerBufferTest, GetReadableRegionTillEndOfBlock) {
-  // Write into [0, kBlockSizeBytes + 1) and then read out [0, 256)
-  string source(kBlockSizeBytes + 1, 'a');
-  size_t written;
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  QuicTime t = clock_.ApproximateNow();
-  buffer_->OnStreamData(0, source, t, &written, &error_details_);
-  char dest[256];
-  helper_->Read(dest, 256);
-  // Get readable region from [256, 1024)
-  iovec iov;
-  QuicTime t2 = QuicTime::Zero();
-  EXPECT_TRUE(buffer_->GetReadableRegion(&iov, &t2));
-  EXPECT_EQ(t, t2);
-  EXPECT_EQ(string(kBlockSizeBytes - 256, 'a'),
-            string(reinterpret_cast<const char*>(iov.iov_base), iov.iov_len));
-}
-
-TEST_F(QuicStreamSequencerBufferTest, GetReadableRegionTillGap) {
-  // Write into [0, kBlockSizeBytes - 1) and then read out [0, 256)
-  string source(kBlockSizeBytes - 1, 'a');
-  size_t written;
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  QuicTime t = clock_.ApproximateNow();
-  buffer_->OnStreamData(0, source, t, &written, &error_details_);
-  char dest[256];
-  helper_->Read(dest, 256);
-  // Get readable region from [256, 1023)
-  iovec iov;
-  QuicTime t2 = QuicTime::Zero();
-  EXPECT_TRUE(buffer_->GetReadableRegion(&iov, &t2));
-  EXPECT_EQ(t, t2);
-  EXPECT_EQ(string(kBlockSizeBytes - 1 - 256, 'a'),
-            string(reinterpret_cast<const char*>(iov.iov_base), iov.iov_len));
-}
-
-TEST_F(QuicStreamSequencerBufferTest, GetReadableRegionByArrivalTime) {
-  // Write into [0, kBlockSizeBytes - 100) and then read out [0, 256)
-  string source(kBlockSizeBytes - 100, 'a');
-  size_t written;
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  QuicTime t = clock_.ApproximateNow();
-  buffer_->OnStreamData(0, source, t, &written, &error_details_);
-  char dest[256];
-  helper_->Read(dest, 256);
-  // Write into [kBlockSizeBytes - 100, kBlockSizeBytes - 50)] in same time
-  string source2(50, 'b');
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  buffer_->OnStreamData(kBlockSizeBytes - 100, source2, t, &written,
-                        &error_details_);
-
-  // Write into [kBlockSizeBytes - 50, kBlockSizeBytes)] in another time
-  string source3(50, 'c');
-  clock_.AdvanceTime(QuicTime::Delta::FromSeconds(1));
-  QuicTime t3 = clock_.ApproximateNow();
-  buffer_->OnStreamData(kBlockSizeBytes - 50, source3, t3, &written,
-                        &error_details_);
-
-  // Get readable region from [256, 1024 - 50)
-  iovec iov;
-  QuicTime t4 = QuicTime::Zero();
-  EXPECT_TRUE(buffer_->GetReadableRegion(&iov, &t4));
-  EXPECT_EQ(t, t4);
-  EXPECT_EQ(string(kBlockSizeBytes - 100 - 256, 'a') + source2,
-            string(reinterpret_cast<const char*>(iov.iov_base), iov.iov_len));
-}
-
-TEST_F(QuicStreamSequencerBufferTest, MarkConsumedInOneBlock) {
-  // Write into [0, 1024) and then read out [0, 256)
-  string source(1024, 'a');
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  char dest[256];
-  helper_->Read(dest, 256);
-
-  EXPECT_TRUE(buffer_->MarkConsumed(512));
-  EXPECT_EQ(256u + 512u, buffer_->BytesConsumed());
-  EXPECT_EQ(256u, helper_->ReadableBytes());
-  EXPECT_EQ(1u, helper_->frame_arrival_time_map()->size());
-  buffer_->MarkConsumed(256);
-  EXPECT_EQ(0u, helper_->frame_arrival_time_map()->size());
-  EXPECT_TRUE(buffer_->Empty());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, MarkConsumedNotEnoughBytes) {
-  // Write into [0, 1024) and then read out [0, 256)
-  string source(1024, 'a');
-  size_t written;
-  QuicTime t = clock_.ApproximateNow();
-  buffer_->OnStreamData(0, source, t, &written, &error_details_);
-  char dest[256];
-  helper_->Read(dest, 256);
-
-  // Consume 1st 512 bytes
-  EXPECT_TRUE(buffer_->MarkConsumed(512));
-  EXPECT_EQ(256u + 512u, buffer_->BytesConsumed());
-  EXPECT_EQ(256u, helper_->ReadableBytes());
-  // Try to consume one bytes more than available. Should return false.
-  EXPECT_FALSE(buffer_->MarkConsumed(257));
-  EXPECT_EQ(256u + 512u, buffer_->BytesConsumed());
-  QuicTime t2 = QuicTime::Zero();
-  iovec iov;
-  EXPECT_TRUE(buffer_->GetReadableRegion(&iov, &t2));
-  EXPECT_EQ(t, t2);
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, MarkConsumedAcrossBlock) {
-  // Write into [0, 2 * kBlockSizeBytes + 1024) and then read out [0, 1024)
-  string source(2 * kBlockSizeBytes + 1024, 'a');
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  char dest[1024];
-  helper_->Read(dest, 1024);
-
-  buffer_->MarkConsumed(2 * kBlockSizeBytes);
-  EXPECT_EQ(source.size(), buffer_->BytesConsumed());
-  EXPECT_TRUE(buffer_->Empty());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, MarkConsumedAcrossEnd) {
-  // Write into [0, 2.5 * kBlockSizeBytes - 1024) and then read out [0, 1024)
-  // and then append 1024 + 512 bytes.
-  string source(2.5 * kBlockSizeBytes - 1024, 'a');
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  char dest[1024];
-  helper_->Read(dest, 1024);
-  source = string(1024 + 512, 'b');
-  buffer_->OnStreamData(2.5 * kBlockSizeBytes - 1024, source,
-                        clock_.ApproximateNow(), &written, &error_details_);
-  EXPECT_EQ(1024u, buffer_->BytesConsumed());
-
-  // Consume to the end of 2nd block.
-  buffer_->MarkConsumed(2 * kBlockSizeBytes - 1024);
-  EXPECT_EQ(2 * kBlockSizeBytes, buffer_->BytesConsumed());
-  // Consume across the physical end of buffer
-  buffer_->MarkConsumed(0.5 * kBlockSizeBytes + 500);
-  EXPECT_EQ(max_capacity_bytes_ + 500, buffer_->BytesConsumed());
-  EXPECT_EQ(12u, helper_->ReadableBytes());
-  // Consume to the logical end of buffer
-  buffer_->MarkConsumed(12);
-  EXPECT_EQ(max_capacity_bytes_ + 512, buffer_->BytesConsumed());
-  EXPECT_TRUE(buffer_->Empty());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-TEST_F(QuicStreamSequencerBufferTest, FlushBufferedFrames) {
-  // Write into [0, 2.5 * kBlockSizeBytes - 1024) and then read out [0, 1024).
-  string source(max_capacity_bytes_ - 1024, 'a');
-  size_t written;
-  buffer_->OnStreamData(0, source, clock_.ApproximateNow(), &written,
-                        &error_details_);
-  char dest[1024];
-  helper_->Read(dest, 1024);
-  EXPECT_EQ(1024u, buffer_->BytesConsumed());
-  // Write [1024, 512) to the physical beginning.
-  source = string(512, 'b');
-  buffer_->OnStreamData(max_capacity_bytes_, source, clock_.ApproximateNow(),
-                        &written, &error_details_);
-  EXPECT_EQ(512u, written);
-  EXPECT_EQ(max_capacity_bytes_ - 1024 + 512, buffer_->FlushBufferedFrames());
-  EXPECT_EQ(max_capacity_bytes_ + 512, buffer_->BytesConsumed());
-  EXPECT_TRUE(buffer_->Empty());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-  // Clear buffer at this point should still preserve BytesConsumed().
-  buffer_->Clear();
-  EXPECT_EQ(max_capacity_bytes_ + 512, buffer_->BytesConsumed());
-  EXPECT_TRUE(helper_->CheckBufferInvariants());
-}
-
-class QuicStreamSequencerBufferRandomIOTest
-    : public QuicStreamSequencerBufferTest {
- public:
-  typedef std::pair<QuicStreamOffset, size_t> OffsetSizePair;
-
-  void SetUp() override {
-    // Test against a larger capacity then above tests. Also make sure the last
-    // block is partially available to use.
-    max_capacity_bytes_ = 6.25 * kBlockSizeBytes;
-    // Stream to be buffered should be larger than the capacity to test wrap
-    // around.
-    bytes_to_buffer_ = 2 * max_capacity_bytes_;
-    Initialize();
-
-    uint32_t seed = base::RandInt(0, std::numeric_limits<int32_t>::max());
-    LOG(INFO) << "RandomWriteAndProcessInPlace test seed is " << seed;
-    rng_.set_seed(seed);
-  }
-
-  // Create an out-of-order source stream with given size to populate
-  // shuffled_buf_.
-  void CreateSourceAndShuffle(size_t max_chunk_size_bytes) {
-    max_chunk_size_bytes_ = max_chunk_size_bytes;
-    std::unique_ptr<OffsetSizePair[]> chopped_stream(
-        new OffsetSizePair[bytes_to_buffer_]);
-
-    // Split stream into small chunks with random length. chopped_stream will be
-    // populated with segmented stream chunks.
-    size_t start_chopping_offset = 0;
-    size_t iterations = 0;
-    while (start_chopping_offset < bytes_to_buffer_) {
-      size_t max_chunk = min<size_t>(max_chunk_size_bytes_,
-                                     bytes_to_buffer_ - start_chopping_offset);
-      size_t chunk_size = rng_.RandUint64() % max_chunk + 1;
-      chopped_stream[iterations] =
-          OffsetSizePair(start_chopping_offset, chunk_size);
-      start_chopping_offset += chunk_size;
-      ++iterations;
-    }
-    DCHECK(start_chopping_offset == bytes_to_buffer_);
-    size_t chunk_num = iterations;
-
-    // Randomly change the sequence of in-ordered OffsetSizePairs to make a
-    // out-of-order array of OffsetSizePairs.
-    for (int i = chunk_num - 1; i >= 0; --i) {
-      size_t random_idx = rng_.RandUint64() % (i + 1);
-      DVLOG(1) << "chunk offset " << chopped_stream[random_idx].first
-               << " size " << chopped_stream[random_idx].second;
-      shuffled_buf_.push_front(chopped_stream[random_idx]);
-      chopped_stream[random_idx] = chopped_stream[i];
-    }
-  }
-
-  // Write the currently first chunk of data in the out-of-order stream into
-  // QuicStreamSequencerBuffer. If current chuck cannot be written into buffer
-  // because it goes beyond current capacity, move it to the end of
-  // shuffled_buf_ and write it later.
-  void WriteNextChunkToBuffer() {
-    OffsetSizePair& chunk = shuffled_buf_.front();
-    QuicStreamOffset offset = chunk.first;
-    const size_t num_to_write = chunk.second;
-    std::unique_ptr<char[]> write_buf{new char[max_chunk_size_bytes_]};
-    for (size_t i = 0; i < num_to_write; ++i) {
-      write_buf[i] = (offset + i) % 256;
-    }
-    base::StringPiece string_piece_w(write_buf.get(), num_to_write);
-    size_t written;
-    auto result =
-        buffer_->OnStreamData(offset, string_piece_w, clock_.ApproximateNow(),
-                              &written, &error_details_);
-    if (result == QUIC_NO_ERROR) {
-      shuffled_buf_.pop_front();
-      total_bytes_written_ += num_to_write;
-    } else {
-      // This chunk offset exceeds window size.
-      shuffled_buf_.push_back(chunk);
-      shuffled_buf_.pop_front();
-    }
-    DVLOG(1) << " write at offset: " << offset
-             << " len to write: " << num_to_write << " write result: " << result
-             << " left over: " << shuffled_buf_.size();
-  }
-
- protected:
-  std::list<OffsetSizePair> shuffled_buf_;
-  size_t max_chunk_size_bytes_;
-  QuicStreamOffset bytes_to_buffer_;
-  size_t total_bytes_written_ = 0;
-  size_t total_bytes_read_ = 0;
-  SimpleRandom rng_;
-};
-
-TEST_F(QuicStreamSequencerBufferRandomIOTest, RandomWriteAndReadv) {
-  // Set kMaxReadSize larger than kBlockSizeBytes to test both small and large
-  // read.
-  const size_t kMaxReadSize = kBlockSizeBytes * 2;
-  // kNumReads is larger than 1 to test how multiple read destinations work.
-  const size_t kNumReads = 2;
-  // Since write and read operation have equal possibility to be called. Bytes
-  // to be written into and read out of should roughly the same.
-  const size_t kMaxWriteSize = kNumReads * kMaxReadSize;
-  size_t iterations = 0;
-
-  CreateSourceAndShuffle(kMaxWriteSize);
-
-  while ((!shuffled_buf_.empty() || total_bytes_read_ < bytes_to_buffer_) &&
-         iterations <= 2 * bytes_to_buffer_) {
-    uint8_t next_action =
-        shuffled_buf_.empty() ? uint8_t{1} : rng_.RandUint64() % 2;
-    DVLOG(1) << "iteration: " << iterations;
-    switch (next_action) {
-      case 0: {  // write
-        WriteNextChunkToBuffer();
-        ASSERT_TRUE(helper_->CheckBufferInvariants());
-        break;
-      }
-      case 1: {  // readv
-        std::unique_ptr<char[][kMaxReadSize]> read_buf{
-            new char[kNumReads][kMaxReadSize]};
-        iovec dest_iov[kNumReads];
-        size_t num_to_read = 0;
-        for (size_t i = 0; i < kNumReads; ++i) {
-          dest_iov[i].iov_base =
-              reinterpret_cast<void*>(const_cast<char*>(read_buf[i]));
-          dest_iov[i].iov_len = rng_.RandUint64() % kMaxReadSize;
-          num_to_read += dest_iov[i].iov_len;
-        }
-        size_t actually_read = buffer_->Readv(dest_iov, kNumReads);
-        ASSERT_LE(actually_read, num_to_read);
-        DVLOG(1) << " read from offset: " << total_bytes_read_
-                 << " size: " << num_to_read
-                 << " actual read: " << actually_read;
-        for (size_t i = 0; i < actually_read; ++i) {
-          char ch = (i + total_bytes_read_) % 256;
-          ASSERT_EQ(ch, GetCharFromIOVecs(i, dest_iov, kNumReads))
-              << " at iteration " << iterations;
-        }
-        total_bytes_read_ += actually_read;
-        ASSERT_EQ(total_bytes_read_, buffer_->BytesConsumed());
-        ASSERT_TRUE(helper_->CheckBufferInvariants());
-        break;
-      }
-    }
-    ++iterations;
-    ASSERT_LE(total_bytes_read_, total_bytes_written_);
-  }
-  EXPECT_LT(iterations, bytes_to_buffer_) << "runaway test";
-  EXPECT_LE(bytes_to_buffer_, total_bytes_read_) << "iterations: "
-                                                 << iterations;
-  EXPECT_LE(bytes_to_buffer_, total_bytes_written_);
-}
-
-TEST_F(QuicStreamSequencerBufferRandomIOTest, RandomWriteAndConsumeInPlace) {
-  // The value 4 is chosen such that the max write size is no larger than the
-  // maximum buffer capacity.
-  const size_t kMaxNumReads = 4;
-  // Adjust write amount be roughly equal to that GetReadableRegions() can get.
-  const size_t kMaxWriteSize = kMaxNumReads * kBlockSizeBytes;
-  ASSERT_LE(kMaxWriteSize, max_capacity_bytes_);
-  size_t iterations = 0;
-
-  CreateSourceAndShuffle(kMaxWriteSize);
-
-  while ((!shuffled_buf_.empty() || total_bytes_read_ < bytes_to_buffer_) &&
-         iterations <= 2 * bytes_to_buffer_) {
-    uint8_t next_action =
-        shuffled_buf_.empty() ? uint8_t{1} : rng_.RandUint64() % 2;
-    DVLOG(1) << "iteration: " << iterations;
-    switch (next_action) {
-      case 0: {  // write
-        WriteNextChunkToBuffer();
-        ASSERT_TRUE(helper_->CheckBufferInvariants());
-        break;
-      }
-      case 1: {  // GetReadableRegions and then MarkConsumed
-        size_t num_read = rng_.RandUint64() % kMaxNumReads + 1;
-        iovec dest_iov[kMaxNumReads];
-        ASSERT_TRUE(helper_->CheckBufferInvariants());
-        size_t actually_num_read =
-            buffer_->GetReadableRegions(dest_iov, num_read);
-        ASSERT_LE(actually_num_read, num_read);
-        size_t avail_bytes = 0;
-        for (size_t i = 0; i < actually_num_read; ++i) {
-          avail_bytes += dest_iov[i].iov_len;
-        }
-        // process random number of bytes (check the value of each byte).
-        size_t bytes_to_process = rng_.RandUint64() % (avail_bytes + 1);
-        size_t bytes_processed = 0;
-        for (size_t i = 0; i < actually_num_read; ++i) {
-          size_t bytes_in_block = min<size_t>(
-              bytes_to_process - bytes_processed, dest_iov[i].iov_len);
-          if (bytes_in_block == 0) {
-            break;
-          }
-          for (size_t j = 0; j < bytes_in_block; ++j) {
-            ASSERT_LE(bytes_processed, bytes_to_process);
-            char char_expected =
-                (buffer_->BytesConsumed() + bytes_processed) % 256;
-            ASSERT_EQ(char_expected,
-                      reinterpret_cast<const char*>(dest_iov[i].iov_base)[j])
-                << " at iteration " << iterations;
-            ++bytes_processed;
-          }
-        }
-
-        buffer_->MarkConsumed(bytes_processed);
-
-        DVLOG(1) << "iteration " << iterations << ": try to get " << num_read
-                 << " readable regions, actually get " << actually_num_read
-                 << " from offset: " << total_bytes_read_
-                 << "\nprocesse bytes: " << bytes_processed;
-        total_bytes_read_ += bytes_processed;
-        ASSERT_EQ(total_bytes_read_, buffer_->BytesConsumed());
-        ASSERT_TRUE(helper_->CheckBufferInvariants());
-        break;
-      }
-    }
-    ++iterations;
-    ASSERT_LE(total_bytes_read_, total_bytes_written_);
-  }
-  EXPECT_LT(iterations, bytes_to_buffer_) << "runaway test";
-  EXPECT_LE(bytes_to_buffer_, total_bytes_read_) << "iterations: "
-                                                 << iterations;
-  EXPECT_LE(bytes_to_buffer_, total_bytes_written_);
-}
-
-}  // anonymous namespace
-
-}  // namespace test
-
-}  // namespace net