| Index: net/disk_cache/entry_unittest.cc
|
| diff --git a/net/disk_cache/entry_unittest.cc b/net/disk_cache/entry_unittest.cc
|
| deleted file mode 100644
|
| index d8334f3b9c42d5fb38fe256b94cc5fd857ecd82f..0000000000000000000000000000000000000000
|
| --- a/net/disk_cache/entry_unittest.cc
|
| +++ /dev/null
|
| @@ -1,3975 +0,0 @@
|
| -// Copyright (c) 2012 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 "base/basictypes.h"
|
| -#include "base/bind.h"
|
| -#include "base/bind_helpers.h"
|
| -#include "base/file_util.h"
|
| -#include "base/strings/string_util.h"
|
| -#include "base/strings/stringprintf.h"
|
| -#include "base/threading/platform_thread.h"
|
| -#include "base/timer/timer.h"
|
| -#include "net/base/completion_callback.h"
|
| -#include "net/base/io_buffer.h"
|
| -#include "net/base/net_errors.h"
|
| -#include "net/base/test_completion_callback.h"
|
| -#include "net/disk_cache/blockfile/backend_impl.h"
|
| -#include "net/disk_cache/blockfile/entry_impl.h"
|
| -#include "net/disk_cache/disk_cache_test_base.h"
|
| -#include "net/disk_cache/disk_cache_test_util.h"
|
| -#include "net/disk_cache/memory/mem_entry_impl.h"
|
| -#include "net/disk_cache/simple/simple_entry_format.h"
|
| -#include "net/disk_cache/simple/simple_entry_impl.h"
|
| -#include "net/disk_cache/simple/simple_synchronous_entry.h"
|
| -#include "net/disk_cache/simple/simple_test_util.h"
|
| -#include "net/disk_cache/simple/simple_util.h"
|
| -#include "testing/gtest/include/gtest/gtest.h"
|
| -
|
| -using base::Time;
|
| -using disk_cache::ScopedEntryPtr;
|
| -
|
| -// Tests that can run with different types of caches.
|
| -class DiskCacheEntryTest : public DiskCacheTestWithCache {
|
| - public:
|
| - void InternalSyncIOBackground(disk_cache::Entry* entry);
|
| - void ExternalSyncIOBackground(disk_cache::Entry* entry);
|
| -
|
| - protected:
|
| - void InternalSyncIO();
|
| - void InternalAsyncIO();
|
| - void ExternalSyncIO();
|
| - void ExternalAsyncIO();
|
| - void ReleaseBuffer(int stream_index);
|
| - void StreamAccess();
|
| - void GetKey();
|
| - void GetTimes(int stream_index);
|
| - void GrowData(int stream_index);
|
| - void TruncateData(int stream_index);
|
| - void ZeroLengthIO(int stream_index);
|
| - void Buffering();
|
| - void SizeAtCreate();
|
| - void SizeChanges(int stream_index);
|
| - void ReuseEntry(int size, int stream_index);
|
| - void InvalidData(int stream_index);
|
| - void ReadWriteDestroyBuffer(int stream_index);
|
| - void DoomNormalEntry();
|
| - void DoomEntryNextToOpenEntry();
|
| - void DoomedEntry(int stream_index);
|
| - void BasicSparseIO();
|
| - void HugeSparseIO();
|
| - void GetAvailableRange();
|
| - void CouldBeSparse();
|
| - void UpdateSparseEntry();
|
| - void DoomSparseEntry();
|
| - void PartialSparseEntry();
|
| - bool SimpleCacheMakeBadChecksumEntry(const std::string& key, int* data_size);
|
| - bool SimpleCacheThirdStreamFileExists(const char* key);
|
| - void SyncDoomEntry(const char* key);
|
| -};
|
| -
|
| -// This part of the test runs on the background thread.
|
| -void DiskCacheEntryTest::InternalSyncIOBackground(disk_cache::Entry* entry) {
|
| - const int kSize1 = 10;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - EXPECT_EQ(
|
| - 0,
|
| - entry->ReadData(0, 0, buffer1.get(), kSize1, net::CompletionCallback()));
|
| - base::strlcpy(buffer1->data(), "the data", kSize1);
|
| - EXPECT_EQ(10,
|
| - entry->WriteData(
|
| - 0, 0, buffer1.get(), kSize1, net::CompletionCallback(), false));
|
| - memset(buffer1->data(), 0, kSize1);
|
| - EXPECT_EQ(
|
| - 10,
|
| - entry->ReadData(0, 0, buffer1.get(), kSize1, net::CompletionCallback()));
|
| - EXPECT_STREQ("the data", buffer1->data());
|
| -
|
| - const int kSize2 = 5000;
|
| - const int kSize3 = 10000;
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize2));
|
| - scoped_refptr<net::IOBuffer> buffer3(new net::IOBuffer(kSize3));
|
| - memset(buffer3->data(), 0, kSize3);
|
| - CacheTestFillBuffer(buffer2->data(), kSize2, false);
|
| - base::strlcpy(buffer2->data(), "The really big data goes here", kSize2);
|
| - EXPECT_EQ(
|
| - 5000,
|
| - entry->WriteData(
|
| - 1, 1500, buffer2.get(), kSize2, net::CompletionCallback(), false));
|
| - memset(buffer2->data(), 0, kSize2);
|
| - EXPECT_EQ(4989,
|
| - entry->ReadData(
|
| - 1, 1511, buffer2.get(), kSize2, net::CompletionCallback()));
|
| - EXPECT_STREQ("big data goes here", buffer2->data());
|
| - EXPECT_EQ(
|
| - 5000,
|
| - entry->ReadData(1, 0, buffer2.get(), kSize2, net::CompletionCallback()));
|
| - EXPECT_EQ(0, memcmp(buffer2->data(), buffer3->data(), 1500));
|
| - EXPECT_EQ(1500,
|
| - entry->ReadData(
|
| - 1, 5000, buffer2.get(), kSize2, net::CompletionCallback()));
|
| -
|
| - EXPECT_EQ(0,
|
| - entry->ReadData(
|
| - 1, 6500, buffer2.get(), kSize2, net::CompletionCallback()));
|
| - EXPECT_EQ(
|
| - 6500,
|
| - entry->ReadData(1, 0, buffer3.get(), kSize3, net::CompletionCallback()));
|
| - EXPECT_EQ(8192,
|
| - entry->WriteData(
|
| - 1, 0, buffer3.get(), 8192, net::CompletionCallback(), false));
|
| - EXPECT_EQ(
|
| - 8192,
|
| - entry->ReadData(1, 0, buffer3.get(), kSize3, net::CompletionCallback()));
|
| - EXPECT_EQ(8192, entry->GetDataSize(1));
|
| -
|
| - // We need to delete the memory buffer on this thread.
|
| - EXPECT_EQ(0, entry->WriteData(
|
| - 0, 0, NULL, 0, net::CompletionCallback(), true));
|
| - EXPECT_EQ(0, entry->WriteData(
|
| - 1, 0, NULL, 0, net::CompletionCallback(), true));
|
| -}
|
| -
|
| -// We need to support synchronous IO even though it is not a supported operation
|
| -// from the point of view of the disk cache's public interface, because we use
|
| -// it internally, not just by a few tests, but as part of the implementation
|
| -// (see sparse_control.cc, for example).
|
| -void DiskCacheEntryTest::InternalSyncIO() {
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry("the first key", &entry));
|
| - ASSERT_TRUE(NULL != entry);
|
| -
|
| - // The bulk of the test runs from within the callback, on the cache thread.
|
| - RunTaskForTest(base::Bind(&DiskCacheEntryTest::InternalSyncIOBackground,
|
| - base::Unretained(this),
|
| - entry));
|
| -
|
| -
|
| - entry->Doom();
|
| - entry->Close();
|
| - FlushQueueForTest();
|
| - EXPECT_EQ(0, cache_->GetEntryCount());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, InternalSyncIO) {
|
| - InitCache();
|
| - InternalSyncIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyInternalSyncIO) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - InternalSyncIO();
|
| -}
|
| -
|
| -void DiskCacheEntryTest::InternalAsyncIO() {
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry("the first key", &entry));
|
| - ASSERT_TRUE(NULL != entry);
|
| -
|
| - // Avoid using internal buffers for the test. We have to write something to
|
| - // the entry and close it so that we flush the internal buffer to disk. After
|
| - // that, IO operations will be really hitting the disk. We don't care about
|
| - // the content, so just extending the entry is enough (all extensions zero-
|
| - // fill any holes).
|
| - EXPECT_EQ(0, WriteData(entry, 0, 15 * 1024, NULL, 0, false));
|
| - EXPECT_EQ(0, WriteData(entry, 1, 15 * 1024, NULL, 0, false));
|
| - entry->Close();
|
| - ASSERT_EQ(net::OK, OpenEntry("the first key", &entry));
|
| -
|
| - MessageLoopHelper helper;
|
| - // Let's verify that each IO goes to the right callback object.
|
| - CallbackTest callback1(&helper, false);
|
| - CallbackTest callback2(&helper, false);
|
| - CallbackTest callback3(&helper, false);
|
| - CallbackTest callback4(&helper, false);
|
| - CallbackTest callback5(&helper, false);
|
| - CallbackTest callback6(&helper, false);
|
| - CallbackTest callback7(&helper, false);
|
| - CallbackTest callback8(&helper, false);
|
| - CallbackTest callback9(&helper, false);
|
| - CallbackTest callback10(&helper, false);
|
| - CallbackTest callback11(&helper, false);
|
| - CallbackTest callback12(&helper, false);
|
| - CallbackTest callback13(&helper, false);
|
| -
|
| - const int kSize1 = 10;
|
| - const int kSize2 = 5000;
|
| - const int kSize3 = 10000;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize2));
|
| - scoped_refptr<net::IOBuffer> buffer3(new net::IOBuffer(kSize3));
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - CacheTestFillBuffer(buffer2->data(), kSize2, false);
|
| - CacheTestFillBuffer(buffer3->data(), kSize3, false);
|
| -
|
| - EXPECT_EQ(0,
|
| - entry->ReadData(
|
| - 0,
|
| - 15 * 1024,
|
| - buffer1.get(),
|
| - kSize1,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback1))));
|
| - base::strlcpy(buffer1->data(), "the data", kSize1);
|
| - int expected = 0;
|
| - int ret = entry->WriteData(
|
| - 0,
|
| - 0,
|
| - buffer1.get(),
|
| - kSize1,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback2)),
|
| - false);
|
| - EXPECT_TRUE(10 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - memset(buffer2->data(), 0, kSize2);
|
| - ret = entry->ReadData(
|
| - 0,
|
| - 0,
|
| - buffer2.get(),
|
| - kSize1,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback3)));
|
| - EXPECT_TRUE(10 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - EXPECT_STREQ("the data", buffer2->data());
|
| -
|
| - base::strlcpy(buffer2->data(), "The really big data goes here", kSize2);
|
| - ret = entry->WriteData(
|
| - 1,
|
| - 1500,
|
| - buffer2.get(),
|
| - kSize2,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback4)),
|
| - true);
|
| - EXPECT_TRUE(5000 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - memset(buffer3->data(), 0, kSize3);
|
| - ret = entry->ReadData(
|
| - 1,
|
| - 1511,
|
| - buffer3.get(),
|
| - kSize2,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback5)));
|
| - EXPECT_TRUE(4989 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - EXPECT_STREQ("big data goes here", buffer3->data());
|
| - ret = entry->ReadData(
|
| - 1,
|
| - 0,
|
| - buffer2.get(),
|
| - kSize2,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback6)));
|
| - EXPECT_TRUE(5000 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - memset(buffer3->data(), 0, kSize3);
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - EXPECT_EQ(0, memcmp(buffer2->data(), buffer3->data(), 1500));
|
| - ret = entry->ReadData(
|
| - 1,
|
| - 5000,
|
| - buffer2.get(),
|
| - kSize2,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback7)));
|
| - EXPECT_TRUE(1500 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - ret = entry->ReadData(
|
| - 1,
|
| - 0,
|
| - buffer3.get(),
|
| - kSize3,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback9)));
|
| - EXPECT_TRUE(6500 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - ret = entry->WriteData(
|
| - 1,
|
| - 0,
|
| - buffer3.get(),
|
| - 8192,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback10)),
|
| - true);
|
| - EXPECT_TRUE(8192 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - ret = entry->ReadData(
|
| - 1,
|
| - 0,
|
| - buffer3.get(),
|
| - kSize3,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback11)));
|
| - EXPECT_TRUE(8192 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_EQ(8192, entry->GetDataSize(1));
|
| -
|
| - ret = entry->ReadData(
|
| - 0,
|
| - 0,
|
| - buffer1.get(),
|
| - kSize1,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback12)));
|
| - EXPECT_TRUE(10 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - ret = entry->ReadData(
|
| - 1,
|
| - 0,
|
| - buffer2.get(),
|
| - kSize2,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback13)));
|
| - EXPECT_TRUE(5000 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| -
|
| - EXPECT_FALSE(helper.callback_reused_error());
|
| -
|
| - entry->Doom();
|
| - entry->Close();
|
| - FlushQueueForTest();
|
| - EXPECT_EQ(0, cache_->GetEntryCount());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, InternalAsyncIO) {
|
| - InitCache();
|
| - InternalAsyncIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyInternalAsyncIO) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - InternalAsyncIO();
|
| -}
|
| -
|
| -// This part of the test runs on the background thread.
|
| -void DiskCacheEntryTest::ExternalSyncIOBackground(disk_cache::Entry* entry) {
|
| - const int kSize1 = 17000;
|
| - const int kSize2 = 25000;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize2));
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - CacheTestFillBuffer(buffer2->data(), kSize2, false);
|
| - base::strlcpy(buffer1->data(), "the data", kSize1);
|
| - EXPECT_EQ(17000,
|
| - entry->WriteData(
|
| - 0, 0, buffer1.get(), kSize1, net::CompletionCallback(), false));
|
| - memset(buffer1->data(), 0, kSize1);
|
| - EXPECT_EQ(
|
| - 17000,
|
| - entry->ReadData(0, 0, buffer1.get(), kSize1, net::CompletionCallback()));
|
| - EXPECT_STREQ("the data", buffer1->data());
|
| -
|
| - base::strlcpy(buffer2->data(), "The really big data goes here", kSize2);
|
| - EXPECT_EQ(
|
| - 25000,
|
| - entry->WriteData(
|
| - 1, 10000, buffer2.get(), kSize2, net::CompletionCallback(), false));
|
| - memset(buffer2->data(), 0, kSize2);
|
| - EXPECT_EQ(24989,
|
| - entry->ReadData(
|
| - 1, 10011, buffer2.get(), kSize2, net::CompletionCallback()));
|
| - EXPECT_STREQ("big data goes here", buffer2->data());
|
| - EXPECT_EQ(
|
| - 25000,
|
| - entry->ReadData(1, 0, buffer2.get(), kSize2, net::CompletionCallback()));
|
| - EXPECT_EQ(5000,
|
| - entry->ReadData(
|
| - 1, 30000, buffer2.get(), kSize2, net::CompletionCallback()));
|
| -
|
| - EXPECT_EQ(0,
|
| - entry->ReadData(
|
| - 1, 35000, buffer2.get(), kSize2, net::CompletionCallback()));
|
| - EXPECT_EQ(
|
| - 17000,
|
| - entry->ReadData(1, 0, buffer1.get(), kSize1, net::CompletionCallback()));
|
| - EXPECT_EQ(
|
| - 17000,
|
| - entry->WriteData(
|
| - 1, 20000, buffer1.get(), kSize1, net::CompletionCallback(), false));
|
| - EXPECT_EQ(37000, entry->GetDataSize(1));
|
| -
|
| - // We need to delete the memory buffer on this thread.
|
| - EXPECT_EQ(0, entry->WriteData(
|
| - 0, 0, NULL, 0, net::CompletionCallback(), true));
|
| - EXPECT_EQ(0, entry->WriteData(
|
| - 1, 0, NULL, 0, net::CompletionCallback(), true));
|
| -}
|
| -
|
| -void DiskCacheEntryTest::ExternalSyncIO() {
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry("the first key", &entry));
|
| -
|
| - // The bulk of the test runs from within the callback, on the cache thread.
|
| - RunTaskForTest(base::Bind(&DiskCacheEntryTest::ExternalSyncIOBackground,
|
| - base::Unretained(this),
|
| - entry));
|
| -
|
| - entry->Doom();
|
| - entry->Close();
|
| - FlushQueueForTest();
|
| - EXPECT_EQ(0, cache_->GetEntryCount());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, ExternalSyncIO) {
|
| - InitCache();
|
| - ExternalSyncIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, ExternalSyncIONoBuffer) {
|
| - InitCache();
|
| - cache_impl_->SetFlags(disk_cache::kNoBuffering);
|
| - ExternalSyncIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyExternalSyncIO) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - ExternalSyncIO();
|
| -}
|
| -
|
| -void DiskCacheEntryTest::ExternalAsyncIO() {
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry("the first key", &entry));
|
| -
|
| - int expected = 0;
|
| -
|
| - MessageLoopHelper helper;
|
| - // Let's verify that each IO goes to the right callback object.
|
| - CallbackTest callback1(&helper, false);
|
| - CallbackTest callback2(&helper, false);
|
| - CallbackTest callback3(&helper, false);
|
| - CallbackTest callback4(&helper, false);
|
| - CallbackTest callback5(&helper, false);
|
| - CallbackTest callback6(&helper, false);
|
| - CallbackTest callback7(&helper, false);
|
| - CallbackTest callback8(&helper, false);
|
| - CallbackTest callback9(&helper, false);
|
| -
|
| - const int kSize1 = 17000;
|
| - const int kSize2 = 25000;
|
| - const int kSize3 = 25000;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize2));
|
| - scoped_refptr<net::IOBuffer> buffer3(new net::IOBuffer(kSize3));
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - CacheTestFillBuffer(buffer2->data(), kSize2, false);
|
| - CacheTestFillBuffer(buffer3->data(), kSize3, false);
|
| - base::strlcpy(buffer1->data(), "the data", kSize1);
|
| - int ret = entry->WriteData(
|
| - 0,
|
| - 0,
|
| - buffer1.get(),
|
| - kSize1,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback1)),
|
| - false);
|
| - EXPECT_TRUE(17000 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| -
|
| - memset(buffer2->data(), 0, kSize1);
|
| - ret = entry->ReadData(
|
| - 0,
|
| - 0,
|
| - buffer2.get(),
|
| - kSize1,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback2)));
|
| - EXPECT_TRUE(17000 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - EXPECT_STREQ("the data", buffer2->data());
|
| -
|
| - base::strlcpy(buffer2->data(), "The really big data goes here", kSize2);
|
| - ret = entry->WriteData(
|
| - 1,
|
| - 10000,
|
| - buffer2.get(),
|
| - kSize2,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback3)),
|
| - false);
|
| - EXPECT_TRUE(25000 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| -
|
| - memset(buffer3->data(), 0, kSize3);
|
| - ret = entry->ReadData(
|
| - 1,
|
| - 10011,
|
| - buffer3.get(),
|
| - kSize3,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback4)));
|
| - EXPECT_TRUE(24989 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - EXPECT_STREQ("big data goes here", buffer3->data());
|
| - ret = entry->ReadData(
|
| - 1,
|
| - 0,
|
| - buffer2.get(),
|
| - kSize2,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback5)));
|
| - EXPECT_TRUE(25000 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - memset(buffer3->data(), 0, kSize3);
|
| - EXPECT_EQ(0, memcmp(buffer2->data(), buffer3->data(), 10000));
|
| - ret = entry->ReadData(
|
| - 1,
|
| - 30000,
|
| - buffer2.get(),
|
| - kSize2,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback6)));
|
| - EXPECT_TRUE(5000 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_EQ(0,
|
| - entry->ReadData(
|
| - 1,
|
| - 35000,
|
| - buffer2.get(),
|
| - kSize2,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback7))));
|
| - ret = entry->ReadData(
|
| - 1,
|
| - 0,
|
| - buffer1.get(),
|
| - kSize1,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback8)));
|
| - EXPECT_TRUE(17000 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| - ret = entry->WriteData(
|
| - 1,
|
| - 20000,
|
| - buffer3.get(),
|
| - kSize1,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback9)),
|
| - false);
|
| - EXPECT_TRUE(17000 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - EXPECT_EQ(37000, entry->GetDataSize(1));
|
| -
|
| - EXPECT_FALSE(helper.callback_reused_error());
|
| -
|
| - entry->Doom();
|
| - entry->Close();
|
| - FlushQueueForTest();
|
| - EXPECT_EQ(0, cache_->GetEntryCount());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, ExternalAsyncIO) {
|
| - InitCache();
|
| - ExternalAsyncIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, ExternalAsyncIONoBuffer) {
|
| - InitCache();
|
| - cache_impl_->SetFlags(disk_cache::kNoBuffering);
|
| - ExternalAsyncIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyExternalAsyncIO) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - ExternalAsyncIO();
|
| -}
|
| -
|
| -// Tests that IOBuffers are not referenced after IO completes.
|
| -void DiskCacheEntryTest::ReleaseBuffer(int stream_index) {
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry("the first key", &entry));
|
| - ASSERT_TRUE(NULL != entry);
|
| -
|
| - const int kBufferSize = 1024;
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kBufferSize));
|
| - CacheTestFillBuffer(buffer->data(), kBufferSize, false);
|
| -
|
| - net::ReleaseBufferCompletionCallback cb(buffer.get());
|
| - int rv = entry->WriteData(
|
| - stream_index, 0, buffer.get(), kBufferSize, cb.callback(), false);
|
| - EXPECT_EQ(kBufferSize, cb.GetResult(rv));
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, ReleaseBuffer) {
|
| - InitCache();
|
| - cache_impl_->SetFlags(disk_cache::kNoBuffering);
|
| - ReleaseBuffer(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyReleaseBuffer) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - ReleaseBuffer(0);
|
| -}
|
| -
|
| -void DiskCacheEntryTest::StreamAccess() {
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry("the first key", &entry));
|
| - ASSERT_TRUE(NULL != entry);
|
| -
|
| - const int kBufferSize = 1024;
|
| - const int kNumStreams = 3;
|
| - scoped_refptr<net::IOBuffer> reference_buffers[kNumStreams];
|
| - for (int i = 0; i < kNumStreams; i++) {
|
| - reference_buffers[i] = new net::IOBuffer(kBufferSize);
|
| - CacheTestFillBuffer(reference_buffers[i]->data(), kBufferSize, false);
|
| - }
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kBufferSize));
|
| - for (int i = 0; i < kNumStreams; i++) {
|
| - EXPECT_EQ(
|
| - kBufferSize,
|
| - WriteData(entry, i, 0, reference_buffers[i].get(), kBufferSize, false));
|
| - memset(buffer1->data(), 0, kBufferSize);
|
| - EXPECT_EQ(kBufferSize, ReadData(entry, i, 0, buffer1.get(), kBufferSize));
|
| - EXPECT_EQ(
|
| - 0, memcmp(reference_buffers[i]->data(), buffer1->data(), kBufferSize));
|
| - }
|
| - EXPECT_EQ(net::ERR_INVALID_ARGUMENT,
|
| - ReadData(entry, kNumStreams, 0, buffer1.get(), kBufferSize));
|
| - entry->Close();
|
| -
|
| - // Open the entry and read it in chunks, including a read past the end.
|
| - ASSERT_EQ(net::OK, OpenEntry("the first key", &entry));
|
| - ASSERT_TRUE(NULL != entry);
|
| - const int kReadBufferSize = 600;
|
| - const int kFinalReadSize = kBufferSize - kReadBufferSize;
|
| - COMPILE_ASSERT(kFinalReadSize < kReadBufferSize, should_be_exactly_two_reads);
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kReadBufferSize));
|
| - for (int i = 0; i < kNumStreams; i++) {
|
| - memset(buffer2->data(), 0, kReadBufferSize);
|
| - EXPECT_EQ(kReadBufferSize,
|
| - ReadData(entry, i, 0, buffer2.get(), kReadBufferSize));
|
| - EXPECT_EQ(
|
| - 0,
|
| - memcmp(reference_buffers[i]->data(), buffer2->data(), kReadBufferSize));
|
| -
|
| - memset(buffer2->data(), 0, kReadBufferSize);
|
| - EXPECT_EQ(
|
| - kFinalReadSize,
|
| - ReadData(entry, i, kReadBufferSize, buffer2.get(), kReadBufferSize));
|
| - EXPECT_EQ(0,
|
| - memcmp(reference_buffers[i]->data() + kReadBufferSize,
|
| - buffer2->data(),
|
| - kFinalReadSize));
|
| - }
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, StreamAccess) {
|
| - InitCache();
|
| - StreamAccess();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyStreamAccess) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - StreamAccess();
|
| -}
|
| -
|
| -void DiskCacheEntryTest::GetKey() {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_EQ(key, entry->GetKey()) << "short key";
|
| - entry->Close();
|
| -
|
| - int seed = static_cast<int>(Time::Now().ToInternalValue());
|
| - srand(seed);
|
| - char key_buffer[20000];
|
| -
|
| - CacheTestFillBuffer(key_buffer, 3000, true);
|
| - key_buffer[1000] = '\0';
|
| -
|
| - key = key_buffer;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_TRUE(key == entry->GetKey()) << "1000 bytes key";
|
| - entry->Close();
|
| -
|
| - key_buffer[1000] = 'p';
|
| - key_buffer[3000] = '\0';
|
| - key = key_buffer;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_TRUE(key == entry->GetKey()) << "medium size key";
|
| - entry->Close();
|
| -
|
| - CacheTestFillBuffer(key_buffer, sizeof(key_buffer), true);
|
| - key_buffer[19999] = '\0';
|
| -
|
| - key = key_buffer;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_TRUE(key == entry->GetKey()) << "long key";
|
| - entry->Close();
|
| -
|
| - CacheTestFillBuffer(key_buffer, 0x4000, true);
|
| - key_buffer[0x4000] = '\0';
|
| -
|
| - key = key_buffer;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_TRUE(key == entry->GetKey()) << "16KB key";
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, GetKey) {
|
| - InitCache();
|
| - GetKey();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyGetKey) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - GetKey();
|
| -}
|
| -
|
| -void DiskCacheEntryTest::GetTimes(int stream_index) {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| -
|
| - Time t1 = Time::Now();
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_TRUE(entry->GetLastModified() >= t1);
|
| - EXPECT_TRUE(entry->GetLastModified() == entry->GetLastUsed());
|
| -
|
| - AddDelay();
|
| - Time t2 = Time::Now();
|
| - EXPECT_TRUE(t2 > t1);
|
| - EXPECT_EQ(0, WriteData(entry, stream_index, 200, NULL, 0, false));
|
| - if (type_ == net::APP_CACHE) {
|
| - EXPECT_TRUE(entry->GetLastModified() < t2);
|
| - } else {
|
| - EXPECT_TRUE(entry->GetLastModified() >= t2);
|
| - }
|
| - EXPECT_TRUE(entry->GetLastModified() == entry->GetLastUsed());
|
| -
|
| - AddDelay();
|
| - Time t3 = Time::Now();
|
| - EXPECT_TRUE(t3 > t2);
|
| - const int kSize = 200;
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kSize));
|
| - EXPECT_EQ(kSize, ReadData(entry, stream_index, 0, buffer.get(), kSize));
|
| - if (type_ == net::APP_CACHE) {
|
| - EXPECT_TRUE(entry->GetLastUsed() < t2);
|
| - EXPECT_TRUE(entry->GetLastModified() < t2);
|
| - } else if (type_ == net::SHADER_CACHE) {
|
| - EXPECT_TRUE(entry->GetLastUsed() < t3);
|
| - EXPECT_TRUE(entry->GetLastModified() < t3);
|
| - } else {
|
| - EXPECT_TRUE(entry->GetLastUsed() >= t3);
|
| - EXPECT_TRUE(entry->GetLastModified() < t3);
|
| - }
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, GetTimes) {
|
| - InitCache();
|
| - GetTimes(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyGetTimes) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - GetTimes(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, AppCacheGetTimes) {
|
| - SetCacheType(net::APP_CACHE);
|
| - InitCache();
|
| - GetTimes(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, ShaderCacheGetTimes) {
|
| - SetCacheType(net::SHADER_CACHE);
|
| - InitCache();
|
| - GetTimes(0);
|
| -}
|
| -
|
| -void DiskCacheEntryTest::GrowData(int stream_index) {
|
| - std::string key1("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key1, &entry));
|
| -
|
| - const int kSize = 20000;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer1->data(), kSize, false);
|
| - memset(buffer2->data(), 0, kSize);
|
| -
|
| - base::strlcpy(buffer1->data(), "the data", kSize);
|
| - EXPECT_EQ(10, WriteData(entry, stream_index, 0, buffer1.get(), 10, false));
|
| - EXPECT_EQ(10, ReadData(entry, stream_index, 0, buffer2.get(), 10));
|
| - EXPECT_STREQ("the data", buffer2->data());
|
| - EXPECT_EQ(10, entry->GetDataSize(stream_index));
|
| -
|
| - EXPECT_EQ(2000,
|
| - WriteData(entry, stream_index, 0, buffer1.get(), 2000, false));
|
| - EXPECT_EQ(2000, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(2000, ReadData(entry, stream_index, 0, buffer2.get(), 2000));
|
| - EXPECT_TRUE(!memcmp(buffer1->data(), buffer2->data(), 2000));
|
| -
|
| - EXPECT_EQ(20000,
|
| - WriteData(entry, stream_index, 0, buffer1.get(), kSize, false));
|
| - EXPECT_EQ(20000, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(20000, ReadData(entry, stream_index, 0, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer1->data(), buffer2->data(), kSize));
|
| - entry->Close();
|
| -
|
| - memset(buffer2->data(), 0, kSize);
|
| - std::string key2("Second key");
|
| - ASSERT_EQ(net::OK, CreateEntry(key2, &entry));
|
| - EXPECT_EQ(10, WriteData(entry, stream_index, 0, buffer1.get(), 10, false));
|
| - EXPECT_EQ(10, entry->GetDataSize(stream_index));
|
| - entry->Close();
|
| -
|
| - // Go from an internal address to a bigger block size.
|
| - ASSERT_EQ(net::OK, OpenEntry(key2, &entry));
|
| - EXPECT_EQ(2000,
|
| - WriteData(entry, stream_index, 0, buffer1.get(), 2000, false));
|
| - EXPECT_EQ(2000, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(2000, ReadData(entry, stream_index, 0, buffer2.get(), 2000));
|
| - EXPECT_TRUE(!memcmp(buffer1->data(), buffer2->data(), 2000));
|
| - entry->Close();
|
| - memset(buffer2->data(), 0, kSize);
|
| -
|
| - // Go from an internal address to an external one.
|
| - ASSERT_EQ(net::OK, OpenEntry(key2, &entry));
|
| - EXPECT_EQ(20000,
|
| - WriteData(entry, stream_index, 0, buffer1.get(), kSize, false));
|
| - EXPECT_EQ(20000, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(20000, ReadData(entry, stream_index, 0, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer1->data(), buffer2->data(), kSize));
|
| - entry->Close();
|
| -
|
| - // Double check the size from disk.
|
| - ASSERT_EQ(net::OK, OpenEntry(key2, &entry));
|
| - EXPECT_EQ(20000, entry->GetDataSize(stream_index));
|
| -
|
| - // Now extend the entry without actual data.
|
| - EXPECT_EQ(0, WriteData(entry, stream_index, 45500, buffer1.get(), 0, false));
|
| - entry->Close();
|
| -
|
| - // And check again from disk.
|
| - ASSERT_EQ(net::OK, OpenEntry(key2, &entry));
|
| - EXPECT_EQ(45500, entry->GetDataSize(stream_index));
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, GrowData) {
|
| - InitCache();
|
| - GrowData(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, GrowDataNoBuffer) {
|
| - InitCache();
|
| - cache_impl_->SetFlags(disk_cache::kNoBuffering);
|
| - GrowData(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyGrowData) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - GrowData(0);
|
| -}
|
| -
|
| -void DiskCacheEntryTest::TruncateData(int stream_index) {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kSize1 = 20000;
|
| - const int kSize2 = 20000;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize2));
|
| -
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - memset(buffer2->data(), 0, kSize2);
|
| -
|
| - // Simple truncation:
|
| - EXPECT_EQ(200, WriteData(entry, stream_index, 0, buffer1.get(), 200, false));
|
| - EXPECT_EQ(200, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(100, WriteData(entry, stream_index, 0, buffer1.get(), 100, false));
|
| - EXPECT_EQ(200, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(100, WriteData(entry, stream_index, 0, buffer1.get(), 100, true));
|
| - EXPECT_EQ(100, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(0, WriteData(entry, stream_index, 50, buffer1.get(), 0, true));
|
| - EXPECT_EQ(50, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(0, WriteData(entry, stream_index, 0, buffer1.get(), 0, true));
|
| - EXPECT_EQ(0, entry->GetDataSize(stream_index));
|
| - entry->Close();
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| -
|
| - // Go to an external file.
|
| - EXPECT_EQ(20000,
|
| - WriteData(entry, stream_index, 0, buffer1.get(), 20000, true));
|
| - EXPECT_EQ(20000, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(20000, ReadData(entry, stream_index, 0, buffer2.get(), 20000));
|
| - EXPECT_TRUE(!memcmp(buffer1->data(), buffer2->data(), 20000));
|
| - memset(buffer2->data(), 0, kSize2);
|
| -
|
| - // External file truncation
|
| - EXPECT_EQ(18000,
|
| - WriteData(entry, stream_index, 0, buffer1.get(), 18000, false));
|
| - EXPECT_EQ(20000, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(18000,
|
| - WriteData(entry, stream_index, 0, buffer1.get(), 18000, true));
|
| - EXPECT_EQ(18000, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(0, WriteData(entry, stream_index, 17500, buffer1.get(), 0, true));
|
| - EXPECT_EQ(17500, entry->GetDataSize(stream_index));
|
| -
|
| - // And back to an internal block.
|
| - EXPECT_EQ(600,
|
| - WriteData(entry, stream_index, 1000, buffer1.get(), 600, true));
|
| - EXPECT_EQ(1600, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(600, ReadData(entry, stream_index, 1000, buffer2.get(), 600));
|
| - EXPECT_TRUE(!memcmp(buffer1->data(), buffer2->data(), 600));
|
| - EXPECT_EQ(1000, ReadData(entry, stream_index, 0, buffer2.get(), 1000));
|
| - EXPECT_TRUE(!memcmp(buffer1->data(), buffer2->data(), 1000))
|
| - << "Preserves previous data";
|
| -
|
| - // Go from external file to zero length.
|
| - EXPECT_EQ(20000,
|
| - WriteData(entry, stream_index, 0, buffer1.get(), 20000, true));
|
| - EXPECT_EQ(20000, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(0, WriteData(entry, stream_index, 0, buffer1.get(), 0, true));
|
| - EXPECT_EQ(0, entry->GetDataSize(stream_index));
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, TruncateData) {
|
| - InitCache();
|
| - TruncateData(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, TruncateDataNoBuffer) {
|
| - InitCache();
|
| - cache_impl_->SetFlags(disk_cache::kNoBuffering);
|
| - TruncateData(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyTruncateData) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - TruncateData(0);
|
| -}
|
| -
|
| -void DiskCacheEntryTest::ZeroLengthIO(int stream_index) {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - EXPECT_EQ(0, ReadData(entry, stream_index, 0, NULL, 0));
|
| - EXPECT_EQ(0, WriteData(entry, stream_index, 0, NULL, 0, false));
|
| -
|
| - // This write should extend the entry.
|
| - EXPECT_EQ(0, WriteData(entry, stream_index, 1000, NULL, 0, false));
|
| - EXPECT_EQ(0, ReadData(entry, stream_index, 500, NULL, 0));
|
| - EXPECT_EQ(0, ReadData(entry, stream_index, 2000, NULL, 0));
|
| - EXPECT_EQ(1000, entry->GetDataSize(stream_index));
|
| -
|
| - EXPECT_EQ(0, WriteData(entry, stream_index, 100000, NULL, 0, true));
|
| - EXPECT_EQ(0, ReadData(entry, stream_index, 50000, NULL, 0));
|
| - EXPECT_EQ(100000, entry->GetDataSize(stream_index));
|
| -
|
| - // Let's verify the actual content.
|
| - const int kSize = 20;
|
| - const char zeros[kSize] = {};
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kSize));
|
| -
|
| - CacheTestFillBuffer(buffer->data(), kSize, false);
|
| - EXPECT_EQ(kSize, ReadData(entry, stream_index, 500, buffer.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer->data(), zeros, kSize));
|
| -
|
| - CacheTestFillBuffer(buffer->data(), kSize, false);
|
| - EXPECT_EQ(kSize, ReadData(entry, stream_index, 5000, buffer.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer->data(), zeros, kSize));
|
| -
|
| - CacheTestFillBuffer(buffer->data(), kSize, false);
|
| - EXPECT_EQ(kSize, ReadData(entry, stream_index, 50000, buffer.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer->data(), zeros, kSize));
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, ZeroLengthIO) {
|
| - InitCache();
|
| - ZeroLengthIO(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, ZeroLengthIONoBuffer) {
|
| - InitCache();
|
| - cache_impl_->SetFlags(disk_cache::kNoBuffering);
|
| - ZeroLengthIO(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyZeroLengthIO) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - ZeroLengthIO(0);
|
| -}
|
| -
|
| -// Tests that we handle the content correctly when buffering, a feature of the
|
| -// standard cache that permits fast responses to certain reads.
|
| -void DiskCacheEntryTest::Buffering() {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kSize = 200;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer1->data(), kSize, true);
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| -
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 0, buffer1.get(), kSize, false));
|
| - entry->Close();
|
| -
|
| - // Write a little more and read what we wrote before.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 5000, buffer1.get(), kSize, false));
|
| - EXPECT_EQ(kSize, ReadData(entry, 1, 0, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data(), kSize));
|
| -
|
| - // Now go to an external file.
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 18000, buffer1.get(), kSize, false));
|
| - entry->Close();
|
| -
|
| - // Write something else and verify old data.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 10000, buffer1.get(), kSize, false));
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| - EXPECT_EQ(kSize, ReadData(entry, 1, 5000, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data(), kSize));
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| - EXPECT_EQ(kSize, ReadData(entry, 1, 0, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data(), kSize));
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| - EXPECT_EQ(kSize, ReadData(entry, 1, 18000, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data(), kSize));
|
| -
|
| - // Extend the file some more.
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 23000, buffer1.get(), kSize, false));
|
| - entry->Close();
|
| -
|
| - // And now make sure that we can deal with data in both places (ram/disk).
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 17000, buffer1.get(), kSize, false));
|
| -
|
| - // We should not overwrite the data at 18000 with this.
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 19000, buffer1.get(), kSize, false));
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| - EXPECT_EQ(kSize, ReadData(entry, 1, 18000, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data(), kSize));
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| - EXPECT_EQ(kSize, ReadData(entry, 1, 17000, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data(), kSize));
|
| -
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 22900, buffer1.get(), kSize, false));
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| - EXPECT_EQ(100, ReadData(entry, 1, 23000, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data() + 100, 100));
|
| -
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| - EXPECT_EQ(100, ReadData(entry, 1, 23100, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data() + 100, 100));
|
| -
|
| - // Extend the file again and read before without closing the entry.
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 25000, buffer1.get(), kSize, false));
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 45000, buffer1.get(), kSize, false));
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| - EXPECT_EQ(kSize, ReadData(entry, 1, 25000, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data(), kSize));
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| - EXPECT_EQ(kSize, ReadData(entry, 1, 45000, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data(), kSize));
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, Buffering) {
|
| - InitCache();
|
| - Buffering();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, BufferingNoBuffer) {
|
| - InitCache();
|
| - cache_impl_->SetFlags(disk_cache::kNoBuffering);
|
| - Buffering();
|
| -}
|
| -
|
| -// Checks that entries are zero length when created.
|
| -void DiskCacheEntryTest::SizeAtCreate() {
|
| - const char key[] = "the first key";
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kNumStreams = 3;
|
| - for (int i = 0; i < kNumStreams; ++i)
|
| - EXPECT_EQ(0, entry->GetDataSize(i));
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SizeAtCreate) {
|
| - InitCache();
|
| - SizeAtCreate();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlySizeAtCreate) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - SizeAtCreate();
|
| -}
|
| -
|
| -// Some extra tests to make sure that buffering works properly when changing
|
| -// the entry size.
|
| -void DiskCacheEntryTest::SizeChanges(int stream_index) {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kSize = 200;
|
| - const char zeros[kSize] = {};
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer1->data(), kSize, true);
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| -
|
| - EXPECT_EQ(kSize,
|
| - WriteData(entry, stream_index, 0, buffer1.get(), kSize, true));
|
| - EXPECT_EQ(kSize,
|
| - WriteData(entry, stream_index, 17000, buffer1.get(), kSize, true));
|
| - EXPECT_EQ(kSize,
|
| - WriteData(entry, stream_index, 23000, buffer1.get(), kSize, true));
|
| - entry->Close();
|
| -
|
| - // Extend the file and read between the old size and the new write.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_EQ(23000 + kSize, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(kSize,
|
| - WriteData(entry, stream_index, 25000, buffer1.get(), kSize, true));
|
| - EXPECT_EQ(25000 + kSize, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(kSize, ReadData(entry, stream_index, 24000, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), zeros, kSize));
|
| -
|
| - // Read at the end of the old file size.
|
| - EXPECT_EQ(
|
| - kSize,
|
| - ReadData(entry, stream_index, 23000 + kSize - 35, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data() + kSize - 35, 35));
|
| -
|
| - // Read slightly before the last write.
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| - EXPECT_EQ(kSize, ReadData(entry, stream_index, 24900, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), zeros, 100));
|
| - EXPECT_TRUE(!memcmp(buffer2->data() + 100, buffer1->data(), kSize - 100));
|
| -
|
| - // Extend the entry a little more.
|
| - EXPECT_EQ(kSize,
|
| - WriteData(entry, stream_index, 26000, buffer1.get(), kSize, true));
|
| - EXPECT_EQ(26000 + kSize, entry->GetDataSize(stream_index));
|
| - CacheTestFillBuffer(buffer2->data(), kSize, true);
|
| - EXPECT_EQ(kSize, ReadData(entry, stream_index, 25900, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), zeros, 100));
|
| - EXPECT_TRUE(!memcmp(buffer2->data() + 100, buffer1->data(), kSize - 100));
|
| -
|
| - // And now reduce the size.
|
| - EXPECT_EQ(kSize,
|
| - WriteData(entry, stream_index, 25000, buffer1.get(), kSize, true));
|
| - EXPECT_EQ(25000 + kSize, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(
|
| - 28,
|
| - ReadData(entry, stream_index, 25000 + kSize - 28, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), buffer1->data() + kSize - 28, 28));
|
| -
|
| - // Reduce the size with a buffer that is not extending the size.
|
| - EXPECT_EQ(kSize,
|
| - WriteData(entry, stream_index, 24000, buffer1.get(), kSize, false));
|
| - EXPECT_EQ(25000 + kSize, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(kSize,
|
| - WriteData(entry, stream_index, 24500, buffer1.get(), kSize, true));
|
| - EXPECT_EQ(24500 + kSize, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(kSize, ReadData(entry, stream_index, 23900, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), zeros, 100));
|
| - EXPECT_TRUE(!memcmp(buffer2->data() + 100, buffer1->data(), kSize - 100));
|
| -
|
| - // And now reduce the size below the old size.
|
| - EXPECT_EQ(kSize,
|
| - WriteData(entry, stream_index, 19000, buffer1.get(), kSize, true));
|
| - EXPECT_EQ(19000 + kSize, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(kSize, ReadData(entry, stream_index, 18900, buffer2.get(), kSize));
|
| - EXPECT_TRUE(!memcmp(buffer2->data(), zeros, 100));
|
| - EXPECT_TRUE(!memcmp(buffer2->data() + 100, buffer1->data(), kSize - 100));
|
| -
|
| - // Verify that the actual file is truncated.
|
| - entry->Close();
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_EQ(19000 + kSize, entry->GetDataSize(stream_index));
|
| -
|
| - // Extend the newly opened file with a zero length write, expect zero fill.
|
| - EXPECT_EQ(
|
| - 0,
|
| - WriteData(entry, stream_index, 20000 + kSize, buffer1.get(), 0, false));
|
| - EXPECT_EQ(kSize,
|
| - ReadData(entry, stream_index, 19000 + kSize, buffer1.get(), kSize));
|
| - EXPECT_EQ(0, memcmp(buffer1->data(), zeros, kSize));
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SizeChanges) {
|
| - InitCache();
|
| - SizeChanges(1);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SizeChangesNoBuffer) {
|
| - InitCache();
|
| - cache_impl_->SetFlags(disk_cache::kNoBuffering);
|
| - SizeChanges(1);
|
| -}
|
| -
|
| -// Write more than the total cache capacity but to a single entry. |size| is the
|
| -// amount of bytes to write each time.
|
| -void DiskCacheEntryTest::ReuseEntry(int size, int stream_index) {
|
| - std::string key1("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key1, &entry));
|
| -
|
| - entry->Close();
|
| - std::string key2("the second key");
|
| - ASSERT_EQ(net::OK, CreateEntry(key2, &entry));
|
| -
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(size));
|
| - CacheTestFillBuffer(buffer->data(), size, false);
|
| -
|
| - for (int i = 0; i < 15; i++) {
|
| - EXPECT_EQ(0, WriteData(entry, stream_index, 0, buffer.get(), 0, true));
|
| - EXPECT_EQ(size,
|
| - WriteData(entry, stream_index, 0, buffer.get(), size, false));
|
| - entry->Close();
|
| - ASSERT_EQ(net::OK, OpenEntry(key2, &entry));
|
| - }
|
| -
|
| - entry->Close();
|
| - ASSERT_EQ(net::OK, OpenEntry(key1, &entry)) << "have not evicted this entry";
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, ReuseExternalEntry) {
|
| - SetMaxSize(200 * 1024);
|
| - InitCache();
|
| - ReuseEntry(20 * 1024, 0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyReuseExternalEntry) {
|
| - SetMemoryOnlyMode();
|
| - SetMaxSize(200 * 1024);
|
| - InitCache();
|
| - ReuseEntry(20 * 1024, 0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, ReuseInternalEntry) {
|
| - SetMaxSize(100 * 1024);
|
| - InitCache();
|
| - ReuseEntry(10 * 1024, 0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyReuseInternalEntry) {
|
| - SetMemoryOnlyMode();
|
| - SetMaxSize(100 * 1024);
|
| - InitCache();
|
| - ReuseEntry(10 * 1024, 0);
|
| -}
|
| -
|
| -// Reading somewhere that was not written should return zeros.
|
| -void DiskCacheEntryTest::InvalidData(int stream_index) {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kSize1 = 20000;
|
| - const int kSize2 = 20000;
|
| - const int kSize3 = 20000;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize2));
|
| - scoped_refptr<net::IOBuffer> buffer3(new net::IOBuffer(kSize3));
|
| -
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - memset(buffer2->data(), 0, kSize2);
|
| -
|
| - // Simple data grow:
|
| - EXPECT_EQ(200,
|
| - WriteData(entry, stream_index, 400, buffer1.get(), 200, false));
|
| - EXPECT_EQ(600, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(100, ReadData(entry, stream_index, 300, buffer3.get(), 100));
|
| - EXPECT_TRUE(!memcmp(buffer3->data(), buffer2->data(), 100));
|
| - entry->Close();
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| -
|
| - // The entry is now on disk. Load it and extend it.
|
| - EXPECT_EQ(200,
|
| - WriteData(entry, stream_index, 800, buffer1.get(), 200, false));
|
| - EXPECT_EQ(1000, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(100, ReadData(entry, stream_index, 700, buffer3.get(), 100));
|
| - EXPECT_TRUE(!memcmp(buffer3->data(), buffer2->data(), 100));
|
| - entry->Close();
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| -
|
| - // This time using truncate.
|
| - EXPECT_EQ(200,
|
| - WriteData(entry, stream_index, 1800, buffer1.get(), 200, true));
|
| - EXPECT_EQ(2000, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(100, ReadData(entry, stream_index, 1500, buffer3.get(), 100));
|
| - EXPECT_TRUE(!memcmp(buffer3->data(), buffer2->data(), 100));
|
| -
|
| - // Go to an external file.
|
| - EXPECT_EQ(200,
|
| - WriteData(entry, stream_index, 19800, buffer1.get(), 200, false));
|
| - EXPECT_EQ(20000, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(4000, ReadData(entry, stream_index, 14000, buffer3.get(), 4000));
|
| - EXPECT_TRUE(!memcmp(buffer3->data(), buffer2->data(), 4000));
|
| -
|
| - // And back to an internal block.
|
| - EXPECT_EQ(600,
|
| - WriteData(entry, stream_index, 1000, buffer1.get(), 600, true));
|
| - EXPECT_EQ(1600, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(600, ReadData(entry, stream_index, 1000, buffer3.get(), 600));
|
| - EXPECT_TRUE(!memcmp(buffer3->data(), buffer1->data(), 600));
|
| -
|
| - // Extend it again.
|
| - EXPECT_EQ(600,
|
| - WriteData(entry, stream_index, 2000, buffer1.get(), 600, false));
|
| - EXPECT_EQ(2600, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(200, ReadData(entry, stream_index, 1800, buffer3.get(), 200));
|
| - EXPECT_TRUE(!memcmp(buffer3->data(), buffer2->data(), 200));
|
| -
|
| - // And again (with truncation flag).
|
| - EXPECT_EQ(600,
|
| - WriteData(entry, stream_index, 3000, buffer1.get(), 600, true));
|
| - EXPECT_EQ(3600, entry->GetDataSize(stream_index));
|
| - EXPECT_EQ(200, ReadData(entry, stream_index, 2800, buffer3.get(), 200));
|
| - EXPECT_TRUE(!memcmp(buffer3->data(), buffer2->data(), 200));
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, InvalidData) {
|
| - InitCache();
|
| - InvalidData(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, InvalidDataNoBuffer) {
|
| - InitCache();
|
| - cache_impl_->SetFlags(disk_cache::kNoBuffering);
|
| - InvalidData(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyInvalidData) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - InvalidData(0);
|
| -}
|
| -
|
| -// Tests that the cache preserves the buffer of an IO operation.
|
| -void DiskCacheEntryTest::ReadWriteDestroyBuffer(int stream_index) {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kSize = 200;
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer->data(), kSize, false);
|
| -
|
| - net::TestCompletionCallback cb;
|
| - EXPECT_EQ(net::ERR_IO_PENDING,
|
| - entry->WriteData(
|
| - stream_index, 0, buffer.get(), kSize, cb.callback(), false));
|
| -
|
| - // Release our reference to the buffer.
|
| - buffer = NULL;
|
| - EXPECT_EQ(kSize, cb.WaitForResult());
|
| -
|
| - // And now test with a Read().
|
| - buffer = new net::IOBuffer(kSize);
|
| - CacheTestFillBuffer(buffer->data(), kSize, false);
|
| -
|
| - EXPECT_EQ(
|
| - net::ERR_IO_PENDING,
|
| - entry->ReadData(stream_index, 0, buffer.get(), kSize, cb.callback()));
|
| - buffer = NULL;
|
| - EXPECT_EQ(kSize, cb.WaitForResult());
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, ReadWriteDestroyBuffer) {
|
| - InitCache();
|
| - ReadWriteDestroyBuffer(0);
|
| -}
|
| -
|
| -void DiskCacheEntryTest::DoomNormalEntry() {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - entry->Doom();
|
| - entry->Close();
|
| -
|
| - const int kSize = 20000;
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer->data(), kSize, true);
|
| - buffer->data()[19999] = '\0';
|
| -
|
| - key = buffer->data();
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_EQ(20000, WriteData(entry, 0, 0, buffer.get(), kSize, false));
|
| - EXPECT_EQ(20000, WriteData(entry, 1, 0, buffer.get(), kSize, false));
|
| - entry->Doom();
|
| - entry->Close();
|
| -
|
| - FlushQueueForTest();
|
| - EXPECT_EQ(0, cache_->GetEntryCount());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, DoomEntry) {
|
| - InitCache();
|
| - DoomNormalEntry();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyDoomEntry) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - DoomNormalEntry();
|
| -}
|
| -
|
| -// Tests dooming an entry that's linked to an open entry.
|
| -void DiskCacheEntryTest::DoomEntryNextToOpenEntry() {
|
| - disk_cache::Entry* entry1;
|
| - disk_cache::Entry* entry2;
|
| - ASSERT_EQ(net::OK, CreateEntry("fixed", &entry1));
|
| - entry1->Close();
|
| - ASSERT_EQ(net::OK, CreateEntry("foo", &entry1));
|
| - entry1->Close();
|
| - ASSERT_EQ(net::OK, CreateEntry("bar", &entry1));
|
| - entry1->Close();
|
| -
|
| - ASSERT_EQ(net::OK, OpenEntry("foo", &entry1));
|
| - ASSERT_EQ(net::OK, OpenEntry("bar", &entry2));
|
| - entry2->Doom();
|
| - entry2->Close();
|
| -
|
| - ASSERT_EQ(net::OK, OpenEntry("foo", &entry2));
|
| - entry2->Doom();
|
| - entry2->Close();
|
| - entry1->Close();
|
| -
|
| - ASSERT_EQ(net::OK, OpenEntry("fixed", &entry1));
|
| - entry1->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, DoomEntryNextToOpenEntry) {
|
| - InitCache();
|
| - DoomEntryNextToOpenEntry();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, NewEvictionDoomEntryNextToOpenEntry) {
|
| - SetNewEviction();
|
| - InitCache();
|
| - DoomEntryNextToOpenEntry();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, AppCacheDoomEntryNextToOpenEntry) {
|
| - SetCacheType(net::APP_CACHE);
|
| - InitCache();
|
| - DoomEntryNextToOpenEntry();
|
| -}
|
| -
|
| -// Verify that basic operations work as expected with doomed entries.
|
| -void DiskCacheEntryTest::DoomedEntry(int stream_index) {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - entry->Doom();
|
| -
|
| - FlushQueueForTest();
|
| - EXPECT_EQ(0, cache_->GetEntryCount());
|
| - Time initial = Time::Now();
|
| - AddDelay();
|
| -
|
| - const int kSize1 = 2000;
|
| - const int kSize2 = 2000;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize2));
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - memset(buffer2->data(), 0, kSize2);
|
| -
|
| - EXPECT_EQ(2000,
|
| - WriteData(entry, stream_index, 0, buffer1.get(), 2000, false));
|
| - EXPECT_EQ(2000, ReadData(entry, stream_index, 0, buffer2.get(), 2000));
|
| - EXPECT_EQ(0, memcmp(buffer1->data(), buffer2->data(), kSize1));
|
| - EXPECT_EQ(key, entry->GetKey());
|
| - EXPECT_TRUE(initial < entry->GetLastModified());
|
| - EXPECT_TRUE(initial < entry->GetLastUsed());
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, DoomedEntry) {
|
| - InitCache();
|
| - DoomedEntry(0);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyDoomedEntry) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - DoomedEntry(0);
|
| -}
|
| -
|
| -// Tests that we discard entries if the data is missing.
|
| -TEST_F(DiskCacheEntryTest, MissingData) {
|
| - InitCache();
|
| -
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - // Write to an external file.
|
| - const int kSize = 20000;
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer->data(), kSize, false);
|
| - EXPECT_EQ(kSize, WriteData(entry, 0, 0, buffer.get(), kSize, false));
|
| - entry->Close();
|
| - FlushQueueForTest();
|
| -
|
| - disk_cache::Addr address(0x80000001);
|
| - base::FilePath name = cache_impl_->GetFileName(address);
|
| - EXPECT_TRUE(base::DeleteFile(name, false));
|
| -
|
| - // Attempt to read the data.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_EQ(net::ERR_FILE_NOT_FOUND,
|
| - ReadData(entry, 0, 0, buffer.get(), kSize));
|
| - entry->Close();
|
| -
|
| - // The entry should be gone.
|
| - ASSERT_NE(net::OK, OpenEntry(key, &entry));
|
| -}
|
| -
|
| -// Test that child entries in a memory cache backend are not visible from
|
| -// enumerations.
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyEnumerationWithSparseEntries) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| -
|
| - const int kSize = 4096;
|
| - scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf->data(), kSize, false);
|
| -
|
| - std::string key("the first key");
|
| - disk_cache::Entry* parent_entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &parent_entry));
|
| -
|
| - // Writes to the parent entry.
|
| - EXPECT_EQ(kSize,
|
| - parent_entry->WriteSparseData(
|
| - 0, buf.get(), kSize, net::CompletionCallback()));
|
| -
|
| - // This write creates a child entry and writes to it.
|
| - EXPECT_EQ(kSize,
|
| - parent_entry->WriteSparseData(
|
| - 8192, buf.get(), kSize, net::CompletionCallback()));
|
| -
|
| - parent_entry->Close();
|
| -
|
| - // Perform the enumerations.
|
| - void* iter = NULL;
|
| - disk_cache::Entry* entry = NULL;
|
| - int count = 0;
|
| - while (OpenNextEntry(&iter, &entry) == net::OK) {
|
| - ASSERT_TRUE(entry != NULL);
|
| - ++count;
|
| - disk_cache::MemEntryImpl* mem_entry =
|
| - reinterpret_cast<disk_cache::MemEntryImpl*>(entry);
|
| - EXPECT_EQ(disk_cache::MemEntryImpl::kParentEntry, mem_entry->type());
|
| - mem_entry->Close();
|
| - }
|
| - EXPECT_EQ(1, count);
|
| -}
|
| -
|
| -// Writes |buf_1| to offset and reads it back as |buf_2|.
|
| -void VerifySparseIO(disk_cache::Entry* entry, int64 offset,
|
| - net::IOBuffer* buf_1, int size, net::IOBuffer* buf_2) {
|
| - net::TestCompletionCallback cb;
|
| -
|
| - memset(buf_2->data(), 0, size);
|
| - int ret = entry->ReadSparseData(offset, buf_2, size, cb.callback());
|
| - EXPECT_EQ(0, cb.GetResult(ret));
|
| -
|
| - ret = entry->WriteSparseData(offset, buf_1, size, cb.callback());
|
| - EXPECT_EQ(size, cb.GetResult(ret));
|
| -
|
| - ret = entry->ReadSparseData(offset, buf_2, size, cb.callback());
|
| - EXPECT_EQ(size, cb.GetResult(ret));
|
| -
|
| - EXPECT_EQ(0, memcmp(buf_1->data(), buf_2->data(), size));
|
| -}
|
| -
|
| -// Reads |size| bytes from |entry| at |offset| and verifies that they are the
|
| -// same as the content of the provided |buffer|.
|
| -void VerifyContentSparseIO(disk_cache::Entry* entry, int64 offset, char* buffer,
|
| - int size) {
|
| - net::TestCompletionCallback cb;
|
| -
|
| - scoped_refptr<net::IOBuffer> buf_1(new net::IOBuffer(size));
|
| - memset(buf_1->data(), 0, size);
|
| - int ret = entry->ReadSparseData(offset, buf_1.get(), size, cb.callback());
|
| - EXPECT_EQ(size, cb.GetResult(ret));
|
| - EXPECT_EQ(0, memcmp(buf_1->data(), buffer, size));
|
| -}
|
| -
|
| -void DiskCacheEntryTest::BasicSparseIO() {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kSize = 2048;
|
| - scoped_refptr<net::IOBuffer> buf_1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buf_2(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf_1->data(), kSize, false);
|
| -
|
| - // Write at offset 0.
|
| - VerifySparseIO(entry, 0, buf_1.get(), kSize, buf_2.get());
|
| -
|
| - // Write at offset 0x400000 (4 MB).
|
| - VerifySparseIO(entry, 0x400000, buf_1.get(), kSize, buf_2.get());
|
| -
|
| - // Write at offset 0x800000000 (32 GB).
|
| - VerifySparseIO(entry, 0x800000000LL, buf_1.get(), kSize, buf_2.get());
|
| -
|
| - entry->Close();
|
| -
|
| - // Check everything again.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - VerifyContentSparseIO(entry, 0, buf_1->data(), kSize);
|
| - VerifyContentSparseIO(entry, 0x400000, buf_1->data(), kSize);
|
| - VerifyContentSparseIO(entry, 0x800000000LL, buf_1->data(), kSize);
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, BasicSparseIO) {
|
| - InitCache();
|
| - BasicSparseIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyBasicSparseIO) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - BasicSparseIO();
|
| -}
|
| -
|
| -void DiskCacheEntryTest::HugeSparseIO() {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - // Write 1.2 MB so that we cover multiple entries.
|
| - const int kSize = 1200 * 1024;
|
| - scoped_refptr<net::IOBuffer> buf_1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buf_2(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf_1->data(), kSize, false);
|
| -
|
| - // Write at offset 0x20F0000 (33 MB - 64 KB).
|
| - VerifySparseIO(entry, 0x20F0000, buf_1.get(), kSize, buf_2.get());
|
| - entry->Close();
|
| -
|
| - // Check it again.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - VerifyContentSparseIO(entry, 0x20F0000, buf_1->data(), kSize);
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, HugeSparseIO) {
|
| - InitCache();
|
| - HugeSparseIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyHugeSparseIO) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - HugeSparseIO();
|
| -}
|
| -
|
| -void DiskCacheEntryTest::GetAvailableRange() {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kSize = 16 * 1024;
|
| - scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf->data(), kSize, false);
|
| -
|
| - // Write at offset 0x20F0000 (33 MB - 64 KB), and 0x20F4400 (33 MB - 47 KB).
|
| - EXPECT_EQ(kSize, WriteSparseData(entry, 0x20F0000, buf.get(), kSize));
|
| - EXPECT_EQ(kSize, WriteSparseData(entry, 0x20F4400, buf.get(), kSize));
|
| -
|
| - // We stop at the first empty block.
|
| - int64 start;
|
| - net::TestCompletionCallback cb;
|
| - int rv = entry->GetAvailableRange(
|
| - 0x20F0000, kSize * 2, &start, cb.callback());
|
| - EXPECT_EQ(kSize, cb.GetResult(rv));
|
| - EXPECT_EQ(0x20F0000, start);
|
| -
|
| - start = 0;
|
| - rv = entry->GetAvailableRange(0, kSize, &start, cb.callback());
|
| - EXPECT_EQ(0, cb.GetResult(rv));
|
| - rv = entry->GetAvailableRange(
|
| - 0x20F0000 - kSize, kSize, &start, cb.callback());
|
| - EXPECT_EQ(0, cb.GetResult(rv));
|
| - rv = entry->GetAvailableRange(0, 0x2100000, &start, cb.callback());
|
| - EXPECT_EQ(kSize, cb.GetResult(rv));
|
| - EXPECT_EQ(0x20F0000, start);
|
| -
|
| - // We should be able to Read based on the results of GetAvailableRange.
|
| - start = -1;
|
| - rv = entry->GetAvailableRange(0x2100000, kSize, &start, cb.callback());
|
| - EXPECT_EQ(0, cb.GetResult(rv));
|
| - rv = entry->ReadSparseData(start, buf.get(), kSize, cb.callback());
|
| - EXPECT_EQ(0, cb.GetResult(rv));
|
| -
|
| - start = 0;
|
| - rv = entry->GetAvailableRange(0x20F2000, kSize, &start, cb.callback());
|
| - EXPECT_EQ(0x2000, cb.GetResult(rv));
|
| - EXPECT_EQ(0x20F2000, start);
|
| - EXPECT_EQ(0x2000, ReadSparseData(entry, start, buf.get(), kSize));
|
| -
|
| - // Make sure that we respect the |len| argument.
|
| - start = 0;
|
| - rv = entry->GetAvailableRange(
|
| - 0x20F0001 - kSize, kSize, &start, cb.callback());
|
| - EXPECT_EQ(1, cb.GetResult(rv));
|
| - EXPECT_EQ(0x20F0000, start);
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, GetAvailableRange) {
|
| - InitCache();
|
| - GetAvailableRange();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyGetAvailableRange) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - GetAvailableRange();
|
| -}
|
| -
|
| -void DiskCacheEntryTest::CouldBeSparse() {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kSize = 16 * 1024;
|
| - scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf->data(), kSize, false);
|
| -
|
| - // Write at offset 0x20F0000 (33 MB - 64 KB).
|
| - EXPECT_EQ(kSize, WriteSparseData(entry, 0x20F0000, buf.get(), kSize));
|
| -
|
| - EXPECT_TRUE(entry->CouldBeSparse());
|
| - entry->Close();
|
| -
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_TRUE(entry->CouldBeSparse());
|
| - entry->Close();
|
| -
|
| - // Now verify a regular entry.
|
| - key.assign("another key");
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_FALSE(entry->CouldBeSparse());
|
| -
|
| - EXPECT_EQ(kSize, WriteData(entry, 0, 0, buf.get(), kSize, false));
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 0, buf.get(), kSize, false));
|
| - EXPECT_EQ(kSize, WriteData(entry, 2, 0, buf.get(), kSize, false));
|
| -
|
| - EXPECT_FALSE(entry->CouldBeSparse());
|
| - entry->Close();
|
| -
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_FALSE(entry->CouldBeSparse());
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, CouldBeSparse) {
|
| - InitCache();
|
| - CouldBeSparse();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryCouldBeSparse) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - CouldBeSparse();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyMisalignedSparseIO) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| -
|
| - const int kSize = 8192;
|
| - scoped_refptr<net::IOBuffer> buf_1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buf_2(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf_1->data(), kSize, false);
|
| -
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - // This loop writes back to back starting from offset 0 and 9000.
|
| - for (int i = 0; i < kSize; i += 1024) {
|
| - scoped_refptr<net::WrappedIOBuffer> buf_3(
|
| - new net::WrappedIOBuffer(buf_1->data() + i));
|
| - VerifySparseIO(entry, i, buf_3.get(), 1024, buf_2.get());
|
| - VerifySparseIO(entry, 9000 + i, buf_3.get(), 1024, buf_2.get());
|
| - }
|
| -
|
| - // Make sure we have data written.
|
| - VerifyContentSparseIO(entry, 0, buf_1->data(), kSize);
|
| - VerifyContentSparseIO(entry, 9000, buf_1->data(), kSize);
|
| -
|
| - // This tests a large write that spans 3 entries from a misaligned offset.
|
| - VerifySparseIO(entry, 20481, buf_1.get(), 8192, buf_2.get());
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyMisalignedGetAvailableRange) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| -
|
| - const int kSize = 8192;
|
| - scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf->data(), kSize, false);
|
| -
|
| - disk_cache::Entry* entry;
|
| - std::string key("the first key");
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - // Writes in the middle of an entry.
|
| - EXPECT_EQ(
|
| - 1024,
|
| - entry->WriteSparseData(0, buf.get(), 1024, net::CompletionCallback()));
|
| - EXPECT_EQ(
|
| - 1024,
|
| - entry->WriteSparseData(5120, buf.get(), 1024, net::CompletionCallback()));
|
| - EXPECT_EQ(1024,
|
| - entry->WriteSparseData(
|
| - 10000, buf.get(), 1024, net::CompletionCallback()));
|
| -
|
| - // Writes in the middle of an entry and spans 2 child entries.
|
| - EXPECT_EQ(8192,
|
| - entry->WriteSparseData(
|
| - 50000, buf.get(), 8192, net::CompletionCallback()));
|
| -
|
| - int64 start;
|
| - net::TestCompletionCallback cb;
|
| - // Test that we stop at a discontinuous child at the second block.
|
| - int rv = entry->GetAvailableRange(0, 10000, &start, cb.callback());
|
| - EXPECT_EQ(1024, cb.GetResult(rv));
|
| - EXPECT_EQ(0, start);
|
| -
|
| - // Test that number of bytes is reported correctly when we start from the
|
| - // middle of a filled region.
|
| - rv = entry->GetAvailableRange(512, 10000, &start, cb.callback());
|
| - EXPECT_EQ(512, cb.GetResult(rv));
|
| - EXPECT_EQ(512, start);
|
| -
|
| - // Test that we found bytes in the child of next block.
|
| - rv = entry->GetAvailableRange(1024, 10000, &start, cb.callback());
|
| - EXPECT_EQ(1024, cb.GetResult(rv));
|
| - EXPECT_EQ(5120, start);
|
| -
|
| - // Test that the desired length is respected. It starts within a filled
|
| - // region.
|
| - rv = entry->GetAvailableRange(5500, 512, &start, cb.callback());
|
| - EXPECT_EQ(512, cb.GetResult(rv));
|
| - EXPECT_EQ(5500, start);
|
| -
|
| - // Test that the desired length is respected. It starts before a filled
|
| - // region.
|
| - rv = entry->GetAvailableRange(5000, 620, &start, cb.callback());
|
| - EXPECT_EQ(500, cb.GetResult(rv));
|
| - EXPECT_EQ(5120, start);
|
| -
|
| - // Test that multiple blocks are scanned.
|
| - rv = entry->GetAvailableRange(40000, 20000, &start, cb.callback());
|
| - EXPECT_EQ(8192, cb.GetResult(rv));
|
| - EXPECT_EQ(50000, start);
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -void DiskCacheEntryTest::UpdateSparseEntry() {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry1;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry1));
|
| -
|
| - const int kSize = 2048;
|
| - scoped_refptr<net::IOBuffer> buf_1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buf_2(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf_1->data(), kSize, false);
|
| -
|
| - // Write at offset 0.
|
| - VerifySparseIO(entry1, 0, buf_1.get(), kSize, buf_2.get());
|
| - entry1->Close();
|
| -
|
| - // Write at offset 2048.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry1));
|
| - VerifySparseIO(entry1, 2048, buf_1.get(), kSize, buf_2.get());
|
| -
|
| - disk_cache::Entry* entry2;
|
| - ASSERT_EQ(net::OK, CreateEntry("the second key", &entry2));
|
| -
|
| - entry1->Close();
|
| - entry2->Close();
|
| - FlushQueueForTest();
|
| - if (memory_only_ || simple_cache_mode_)
|
| - EXPECT_EQ(2, cache_->GetEntryCount());
|
| - else
|
| - EXPECT_EQ(3, cache_->GetEntryCount());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, UpdateSparseEntry) {
|
| - SetCacheType(net::MEDIA_CACHE);
|
| - InitCache();
|
| - UpdateSparseEntry();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyUpdateSparseEntry) {
|
| - SetMemoryOnlyMode();
|
| - SetCacheType(net::MEDIA_CACHE);
|
| - InitCache();
|
| - UpdateSparseEntry();
|
| -}
|
| -
|
| -void DiskCacheEntryTest::DoomSparseEntry() {
|
| - std::string key1("the first key");
|
| - std::string key2("the second key");
|
| - disk_cache::Entry *entry1, *entry2;
|
| - ASSERT_EQ(net::OK, CreateEntry(key1, &entry1));
|
| - ASSERT_EQ(net::OK, CreateEntry(key2, &entry2));
|
| -
|
| - const int kSize = 4 * 1024;
|
| - scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf->data(), kSize, false);
|
| -
|
| - int64 offset = 1024;
|
| - // Write to a bunch of ranges.
|
| - for (int i = 0; i < 12; i++) {
|
| - EXPECT_EQ(kSize, WriteSparseData(entry1, offset, buf.get(), kSize));
|
| - // Keep the second map under the default size.
|
| - if (i < 9)
|
| - EXPECT_EQ(kSize, WriteSparseData(entry2, offset, buf.get(), kSize));
|
| -
|
| - offset *= 4;
|
| - }
|
| -
|
| - if (memory_only_ || simple_cache_mode_)
|
| - EXPECT_EQ(2, cache_->GetEntryCount());
|
| - else
|
| - EXPECT_EQ(15, cache_->GetEntryCount());
|
| -
|
| - // Doom the first entry while it's still open.
|
| - entry1->Doom();
|
| - entry1->Close();
|
| - entry2->Close();
|
| -
|
| - // Doom the second entry after it's fully saved.
|
| - EXPECT_EQ(net::OK, DoomEntry(key2));
|
| -
|
| - // Make sure we do all needed work. This may fail for entry2 if between Close
|
| - // and DoomEntry the system decides to remove all traces of the file from the
|
| - // system cache so we don't see that there is pending IO.
|
| - base::MessageLoop::current()->RunUntilIdle();
|
| -
|
| - if (memory_only_) {
|
| - EXPECT_EQ(0, cache_->GetEntryCount());
|
| - } else {
|
| - if (5 == cache_->GetEntryCount()) {
|
| - // Most likely we are waiting for the result of reading the sparse info
|
| - // (it's always async on Posix so it is easy to miss). Unfortunately we
|
| - // don't have any signal to watch for so we can only wait.
|
| - base::PlatformThread::Sleep(base::TimeDelta::FromMilliseconds(500));
|
| - base::MessageLoop::current()->RunUntilIdle();
|
| - }
|
| - EXPECT_EQ(0, cache_->GetEntryCount());
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, DoomSparseEntry) {
|
| - UseCurrentThread();
|
| - InitCache();
|
| - DoomSparseEntry();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryOnlyDoomSparseEntry) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - DoomSparseEntry();
|
| -}
|
| -
|
| -// A CompletionCallback wrapper that deletes the cache from within the callback.
|
| -// The way a CompletionCallback works means that all tasks (even new ones)
|
| -// are executed by the message loop before returning to the caller so the only
|
| -// way to simulate a race is to execute what we want on the callback.
|
| -class SparseTestCompletionCallback: public net::TestCompletionCallback {
|
| - public:
|
| - explicit SparseTestCompletionCallback(scoped_ptr<disk_cache::Backend> cache)
|
| - : cache_(cache.Pass()) {
|
| - }
|
| -
|
| - private:
|
| - virtual void SetResult(int result) OVERRIDE {
|
| - cache_.reset();
|
| - TestCompletionCallback::SetResult(result);
|
| - }
|
| -
|
| - scoped_ptr<disk_cache::Backend> cache_;
|
| - DISALLOW_COPY_AND_ASSIGN(SparseTestCompletionCallback);
|
| -};
|
| -
|
| -// Tests that we don't crash when the backend is deleted while we are working
|
| -// deleting the sub-entries of a sparse entry.
|
| -TEST_F(DiskCacheEntryTest, DoomSparseEntry2) {
|
| - UseCurrentThread();
|
| - InitCache();
|
| - std::string key("the key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kSize = 4 * 1024;
|
| - scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf->data(), kSize, false);
|
| -
|
| - int64 offset = 1024;
|
| - // Write to a bunch of ranges.
|
| - for (int i = 0; i < 12; i++) {
|
| - EXPECT_EQ(kSize,
|
| - entry->WriteSparseData(
|
| - offset, buf.get(), kSize, net::CompletionCallback()));
|
| - offset *= 4;
|
| - }
|
| - EXPECT_EQ(9, cache_->GetEntryCount());
|
| -
|
| - entry->Close();
|
| - disk_cache::Backend* cache = cache_.get();
|
| - SparseTestCompletionCallback cb(cache_.Pass());
|
| - int rv = cache->DoomEntry(key, cb.callback());
|
| - EXPECT_EQ(net::ERR_IO_PENDING, rv);
|
| - EXPECT_EQ(net::OK, cb.WaitForResult());
|
| -}
|
| -
|
| -void DiskCacheEntryTest::PartialSparseEntry() {
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - // We should be able to deal with IO that is not aligned to the block size
|
| - // of a sparse entry, at least to write a big range without leaving holes.
|
| - const int kSize = 4 * 1024;
|
| - const int kSmallSize = 128;
|
| - scoped_refptr<net::IOBuffer> buf1(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf1->data(), kSize, false);
|
| -
|
| - // The first write is just to extend the entry. The third write occupies
|
| - // a 1KB block partially, it may not be written internally depending on the
|
| - // implementation.
|
| - EXPECT_EQ(kSize, WriteSparseData(entry, 20000, buf1.get(), kSize));
|
| - EXPECT_EQ(kSize, WriteSparseData(entry, 500, buf1.get(), kSize));
|
| - EXPECT_EQ(kSmallSize,
|
| - WriteSparseData(entry, 1080321, buf1.get(), kSmallSize));
|
| - entry->Close();
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| -
|
| - scoped_refptr<net::IOBuffer> buf2(new net::IOBuffer(kSize));
|
| - memset(buf2->data(), 0, kSize);
|
| - EXPECT_EQ(0, ReadSparseData(entry, 8000, buf2.get(), kSize));
|
| -
|
| - EXPECT_EQ(500, ReadSparseData(entry, kSize, buf2.get(), kSize));
|
| - EXPECT_EQ(0, memcmp(buf2->data(), buf1->data() + kSize - 500, 500));
|
| - EXPECT_EQ(0, ReadSparseData(entry, 0, buf2.get(), kSize));
|
| -
|
| - // This read should not change anything.
|
| - EXPECT_EQ(96, ReadSparseData(entry, 24000, buf2.get(), kSize));
|
| - EXPECT_EQ(500, ReadSparseData(entry, kSize, buf2.get(), kSize));
|
| - EXPECT_EQ(0, ReadSparseData(entry, 99, buf2.get(), kSize));
|
| -
|
| - int rv;
|
| - int64 start;
|
| - net::TestCompletionCallback cb;
|
| - if (memory_only_ || simple_cache_mode_) {
|
| - rv = entry->GetAvailableRange(0, 600, &start, cb.callback());
|
| - EXPECT_EQ(100, cb.GetResult(rv));
|
| - EXPECT_EQ(500, start);
|
| - } else {
|
| - rv = entry->GetAvailableRange(0, 2048, &start, cb.callback());
|
| - EXPECT_EQ(1024, cb.GetResult(rv));
|
| - EXPECT_EQ(1024, start);
|
| - }
|
| - rv = entry->GetAvailableRange(kSize, kSize, &start, cb.callback());
|
| - EXPECT_EQ(500, cb.GetResult(rv));
|
| - EXPECT_EQ(kSize, start);
|
| - rv = entry->GetAvailableRange(20 * 1024, 10000, &start, cb.callback());
|
| - EXPECT_EQ(3616, cb.GetResult(rv));
|
| - EXPECT_EQ(20 * 1024, start);
|
| -
|
| - // 1. Query before a filled 1KB block.
|
| - // 2. Query within a filled 1KB block.
|
| - // 3. Query beyond a filled 1KB block.
|
| - if (memory_only_ || simple_cache_mode_) {
|
| - rv = entry->GetAvailableRange(19400, kSize, &start, cb.callback());
|
| - EXPECT_EQ(3496, cb.GetResult(rv));
|
| - EXPECT_EQ(20000, start);
|
| - } else {
|
| - rv = entry->GetAvailableRange(19400, kSize, &start, cb.callback());
|
| - EXPECT_EQ(3016, cb.GetResult(rv));
|
| - EXPECT_EQ(20480, start);
|
| - }
|
| - rv = entry->GetAvailableRange(3073, kSize, &start, cb.callback());
|
| - EXPECT_EQ(1523, cb.GetResult(rv));
|
| - EXPECT_EQ(3073, start);
|
| - rv = entry->GetAvailableRange(4600, kSize, &start, cb.callback());
|
| - EXPECT_EQ(0, cb.GetResult(rv));
|
| - EXPECT_EQ(4600, start);
|
| -
|
| - // Now make another write and verify that there is no hole in between.
|
| - EXPECT_EQ(kSize, WriteSparseData(entry, 500 + kSize, buf1.get(), kSize));
|
| - rv = entry->GetAvailableRange(1024, 10000, &start, cb.callback());
|
| - EXPECT_EQ(7 * 1024 + 500, cb.GetResult(rv));
|
| - EXPECT_EQ(1024, start);
|
| - EXPECT_EQ(kSize, ReadSparseData(entry, kSize, buf2.get(), kSize));
|
| - EXPECT_EQ(0, memcmp(buf2->data(), buf1->data() + kSize - 500, 500));
|
| - EXPECT_EQ(0, memcmp(buf2->data() + 500, buf1->data(), kSize - 500));
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, PartialSparseEntry) {
|
| - InitCache();
|
| - PartialSparseEntry();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, MemoryPartialSparseEntry) {
|
| - SetMemoryOnlyMode();
|
| - InitCache();
|
| - PartialSparseEntry();
|
| -}
|
| -
|
| -// Tests that corrupt sparse children are removed automatically.
|
| -TEST_F(DiskCacheEntryTest, CleanupSparseEntry) {
|
| - InitCache();
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kSize = 4 * 1024;
|
| - scoped_refptr<net::IOBuffer> buf1(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf1->data(), kSize, false);
|
| -
|
| - const int k1Meg = 1024 * 1024;
|
| - EXPECT_EQ(kSize, WriteSparseData(entry, 8192, buf1.get(), kSize));
|
| - EXPECT_EQ(kSize, WriteSparseData(entry, k1Meg + 8192, buf1.get(), kSize));
|
| - EXPECT_EQ(kSize, WriteSparseData(entry, 2 * k1Meg + 8192, buf1.get(), kSize));
|
| - entry->Close();
|
| - EXPECT_EQ(4, cache_->GetEntryCount());
|
| -
|
| - void* iter = NULL;
|
| - int count = 0;
|
| - std::string child_key[2];
|
| - while (OpenNextEntry(&iter, &entry) == net::OK) {
|
| - ASSERT_TRUE(entry != NULL);
|
| - // Writing to an entry will alter the LRU list and invalidate the iterator.
|
| - if (entry->GetKey() != key && count < 2)
|
| - child_key[count++] = entry->GetKey();
|
| - entry->Close();
|
| - }
|
| - for (int i = 0; i < 2; i++) {
|
| - ASSERT_EQ(net::OK, OpenEntry(child_key[i], &entry));
|
| - // Overwrite the header's magic and signature.
|
| - EXPECT_EQ(12, WriteData(entry, 2, 0, buf1.get(), 12, false));
|
| - entry->Close();
|
| - }
|
| -
|
| - EXPECT_EQ(4, cache_->GetEntryCount());
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| -
|
| - // Two children should be gone. One while reading and one while writing.
|
| - EXPECT_EQ(0, ReadSparseData(entry, 2 * k1Meg + 8192, buf1.get(), kSize));
|
| - EXPECT_EQ(kSize, WriteSparseData(entry, k1Meg + 16384, buf1.get(), kSize));
|
| - EXPECT_EQ(0, ReadSparseData(entry, k1Meg + 8192, buf1.get(), kSize));
|
| -
|
| - // We never touched this one.
|
| - EXPECT_EQ(kSize, ReadSparseData(entry, 8192, buf1.get(), kSize));
|
| - entry->Close();
|
| -
|
| - // We re-created one of the corrupt children.
|
| - EXPECT_EQ(3, cache_->GetEntryCount());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, CancelSparseIO) {
|
| - UseCurrentThread();
|
| - InitCache();
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - const int kSize = 40 * 1024;
|
| - scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buf->data(), kSize, false);
|
| -
|
| - // This will open and write two "real" entries.
|
| - net::TestCompletionCallback cb1, cb2, cb3, cb4, cb5;
|
| - int rv = entry->WriteSparseData(
|
| - 1024 * 1024 - 4096, buf.get(), kSize, cb1.callback());
|
| - EXPECT_EQ(net::ERR_IO_PENDING, rv);
|
| -
|
| - int64 offset = 0;
|
| - rv = entry->GetAvailableRange(offset, kSize, &offset, cb5.callback());
|
| - rv = cb5.GetResult(rv);
|
| - if (!cb1.have_result()) {
|
| - // We may or may not have finished writing to the entry. If we have not,
|
| - // we cannot start another operation at this time.
|
| - EXPECT_EQ(net::ERR_CACHE_OPERATION_NOT_SUPPORTED, rv);
|
| - }
|
| -
|
| - // We cancel the pending operation, and register multiple notifications.
|
| - entry->CancelSparseIO();
|
| - EXPECT_EQ(net::ERR_IO_PENDING, entry->ReadyForSparseIO(cb2.callback()));
|
| - EXPECT_EQ(net::ERR_IO_PENDING, entry->ReadyForSparseIO(cb3.callback()));
|
| - entry->CancelSparseIO(); // Should be a no op at this point.
|
| - EXPECT_EQ(net::ERR_IO_PENDING, entry->ReadyForSparseIO(cb4.callback()));
|
| -
|
| - if (!cb1.have_result()) {
|
| - EXPECT_EQ(net::ERR_CACHE_OPERATION_NOT_SUPPORTED,
|
| - entry->ReadSparseData(
|
| - offset, buf.get(), kSize, net::CompletionCallback()));
|
| - EXPECT_EQ(net::ERR_CACHE_OPERATION_NOT_SUPPORTED,
|
| - entry->WriteSparseData(
|
| - offset, buf.get(), kSize, net::CompletionCallback()));
|
| - }
|
| -
|
| - // Now see if we receive all notifications. Note that we should not be able
|
| - // to write everything (unless the timing of the system is really weird).
|
| - rv = cb1.WaitForResult();
|
| - EXPECT_TRUE(rv == 4096 || rv == kSize);
|
| - EXPECT_EQ(net::OK, cb2.WaitForResult());
|
| - EXPECT_EQ(net::OK, cb3.WaitForResult());
|
| - EXPECT_EQ(net::OK, cb4.WaitForResult());
|
| -
|
| - rv = entry->GetAvailableRange(offset, kSize, &offset, cb5.callback());
|
| - EXPECT_EQ(0, cb5.GetResult(rv));
|
| - entry->Close();
|
| -}
|
| -
|
| -// Tests that we perform sanity checks on an entry's key. Note that there are
|
| -// other tests that exercise sanity checks by using saved corrupt files.
|
| -TEST_F(DiskCacheEntryTest, KeySanityCheck) {
|
| - UseCurrentThread();
|
| - InitCache();
|
| - std::string key("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - disk_cache::EntryImpl* entry_impl =
|
| - static_cast<disk_cache::EntryImpl*>(entry);
|
| - disk_cache::EntryStore* store = entry_impl->entry()->Data();
|
| -
|
| - // We have reserved space for a short key (one block), let's say that the key
|
| - // takes more than one block, and remove the NULLs after the actual key.
|
| - store->key_len = 800;
|
| - memset(store->key + key.size(), 'k', sizeof(store->key) - key.size());
|
| - entry_impl->entry()->set_modified();
|
| - entry->Close();
|
| -
|
| - // We have a corrupt entry. Now reload it. We should NOT read beyond the
|
| - // allocated buffer here.
|
| - ASSERT_NE(net::OK, OpenEntry(key, &entry));
|
| - DisableIntegrityCheck();
|
| -}
|
| -
|
| -// The Simple Cache backend requires a few guarantees from the filesystem like
|
| -// atomic renaming of recently open files. Those guarantees are not provided in
|
| -// general on Windows.
|
| -#if defined(OS_POSIX)
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheInternalAsyncIO) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - InternalAsyncIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheExternalAsyncIO) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - ExternalAsyncIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheReleaseBuffer) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - EXPECT_EQ(net::OK, DoomAllEntries());
|
| - ReleaseBuffer(i);
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheStreamAccess) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - StreamAccess();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheGetKey) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - GetKey();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheGetTimes) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - EXPECT_EQ(net::OK, DoomAllEntries());
|
| - GetTimes(i);
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheGrowData) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - EXPECT_EQ(net::OK, DoomAllEntries());
|
| - GrowData(i);
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheTruncateData) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - EXPECT_EQ(net::OK, DoomAllEntries());
|
| - TruncateData(i);
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheZeroLengthIO) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - EXPECT_EQ(net::OK, DoomAllEntries());
|
| - ZeroLengthIO(i);
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheSizeAtCreate) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - SizeAtCreate();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheReuseExternalEntry) {
|
| - SetSimpleCacheMode();
|
| - SetMaxSize(200 * 1024);
|
| - InitCache();
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - EXPECT_EQ(net::OK, DoomAllEntries());
|
| - ReuseEntry(20 * 1024, i);
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheReuseInternalEntry) {
|
| - SetSimpleCacheMode();
|
| - SetMaxSize(100 * 1024);
|
| - InitCache();
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - EXPECT_EQ(net::OK, DoomAllEntries());
|
| - ReuseEntry(10 * 1024, i);
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheSizeChanges) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - EXPECT_EQ(net::OK, DoomAllEntries());
|
| - SizeChanges(i);
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheInvalidData) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - EXPECT_EQ(net::OK, DoomAllEntries());
|
| - InvalidData(i);
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheReadWriteDestroyBuffer) {
|
| - // Proving that the test works well with optimistic operations enabled is
|
| - // subtle, instead run only in APP_CACHE mode to disable optimistic
|
| - // operations. Stream 0 always uses optimistic operations, so the test is not
|
| - // run on stream 0.
|
| - SetCacheType(net::APP_CACHE);
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - for (int i = 1; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - EXPECT_EQ(net::OK, DoomAllEntries());
|
| - ReadWriteDestroyBuffer(i);
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheDoomEntry) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - DoomNormalEntry();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheDoomEntryNextToOpenEntry) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - DoomEntryNextToOpenEntry();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheDoomedEntry) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - // Stream 2 is excluded because the implementation does not support writing to
|
| - // it on a doomed entry, if it was previously lazily omitted.
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount - 1; ++i) {
|
| - EXPECT_EQ(net::OK, DoomAllEntries());
|
| - DoomedEntry(i);
|
| - }
|
| -}
|
| -
|
| -// Creates an entry with corrupted last byte in stream 0.
|
| -// Requires SimpleCacheMode.
|
| -bool DiskCacheEntryTest::SimpleCacheMakeBadChecksumEntry(const std::string& key,
|
| - int* data_size) {
|
| - disk_cache::Entry* entry = NULL;
|
| -
|
| - if (CreateEntry(key, &entry) != net::OK || !entry) {
|
| - LOG(ERROR) << "Could not create entry";
|
| - return false;
|
| - }
|
| -
|
| - const char data[] = "this is very good data";
|
| - const int kDataSize = arraysize(data);
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kDataSize));
|
| - base::strlcpy(buffer->data(), data, kDataSize);
|
| -
|
| - EXPECT_EQ(kDataSize, WriteData(entry, 1, 0, buffer.get(), kDataSize, false));
|
| - entry->Close();
|
| - entry = NULL;
|
| -
|
| - // Corrupt the last byte of the data.
|
| - base::FilePath entry_file0_path = cache_path_.AppendASCII(
|
| - disk_cache::simple_util::GetFilenameFromKeyAndFileIndex(key, 0));
|
| - int flags = base::PLATFORM_FILE_WRITE | base::PLATFORM_FILE_OPEN;
|
| - base::PlatformFile entry_file0 =
|
| - base::CreatePlatformFile(entry_file0_path, flags, NULL, NULL);
|
| - if (entry_file0 == base::kInvalidPlatformFileValue)
|
| - return false;
|
| -
|
| - int64 file_offset =
|
| - sizeof(disk_cache::SimpleFileHeader) + key.size() + kDataSize - 2;
|
| - EXPECT_EQ(1, base::WritePlatformFile(entry_file0, file_offset, "X", 1));
|
| - if (!base::ClosePlatformFile(entry_file0))
|
| - return false;
|
| - *data_size = kDataSize;
|
| - return true;
|
| -}
|
| -
|
| -// Tests that the simple cache can detect entries that have bad data.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheBadChecksum) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const char key[] = "the first key";
|
| - int size_unused;
|
| - ASSERT_TRUE(SimpleCacheMakeBadChecksumEntry(key, &size_unused));
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| -
|
| - // Open the entry.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - ScopedEntryPtr entry_closer(entry);
|
| -
|
| - const int kReadBufferSize = 200;
|
| - EXPECT_GE(kReadBufferSize, entry->GetDataSize(1));
|
| - scoped_refptr<net::IOBuffer> read_buffer(new net::IOBuffer(kReadBufferSize));
|
| - EXPECT_EQ(net::ERR_CACHE_CHECKSUM_MISMATCH,
|
| - ReadData(entry, 1, 0, read_buffer.get(), kReadBufferSize));
|
| -}
|
| -
|
| -// Tests that an entry that has had an IO error occur can still be Doomed().
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheErrorThenDoom) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const char key[] = "the first key";
|
| - int size_unused;
|
| - ASSERT_TRUE(SimpleCacheMakeBadChecksumEntry(key, &size_unused));
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| -
|
| - // Open the entry, forcing an IO error.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - ScopedEntryPtr entry_closer(entry);
|
| -
|
| - const int kReadBufferSize = 200;
|
| - EXPECT_GE(kReadBufferSize, entry->GetDataSize(1));
|
| - scoped_refptr<net::IOBuffer> read_buffer(new net::IOBuffer(kReadBufferSize));
|
| - EXPECT_EQ(net::ERR_CACHE_CHECKSUM_MISMATCH,
|
| - ReadData(entry, 1, 0, read_buffer.get(), kReadBufferSize));
|
| -
|
| - entry->Doom(); // Should not crash.
|
| -}
|
| -
|
| -bool TruncatePath(const base::FilePath& file_path, int64 length) {
|
| - const int flags = base::PLATFORM_FILE_WRITE | base::PLATFORM_FILE_OPEN;
|
| - base::PlatformFile file =
|
| - base::CreatePlatformFile(file_path, flags, NULL, NULL);
|
| - if (base::kInvalidPlatformFileValue == file)
|
| - return false;
|
| - const bool result = base::TruncatePlatformFile(file, length);
|
| - base::ClosePlatformFile(file);
|
| - return result;
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheNoEOF) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const char key[] = "the first key";
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - disk_cache::Entry* null = NULL;
|
| - EXPECT_NE(null, entry);
|
| - entry->Close();
|
| - entry = NULL;
|
| -
|
| - // Force the entry to flush to disk, so subsequent platform file operations
|
| - // succed.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - entry->Close();
|
| - entry = NULL;
|
| -
|
| - // Truncate the file such that the length isn't sufficient to have an EOF
|
| - // record.
|
| - int kTruncationBytes = -implicit_cast<int>(sizeof(disk_cache::SimpleFileEOF));
|
| - const base::FilePath entry_path = cache_path_.AppendASCII(
|
| - disk_cache::simple_util::GetFilenameFromKeyAndFileIndex(key, 0));
|
| - const int64 invalid_size =
|
| - disk_cache::simple_util::GetFileSizeFromKeyAndDataSize(key,
|
| - kTruncationBytes);
|
| - EXPECT_TRUE(TruncatePath(entry_path, invalid_size));
|
| - EXPECT_EQ(net::ERR_FAILED, OpenEntry(key, &entry));
|
| - DisableIntegrityCheck();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheNonOptimisticOperationsBasic) {
|
| - // Test sequence:
|
| - // Create, Write, Read, Close.
|
| - SetCacheType(net::APP_CACHE); // APP_CACHE doesn't use optimistic operations.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* const null_entry = NULL;
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| - EXPECT_EQ(net::OK, CreateEntry("my key", &entry));
|
| - ASSERT_NE(null_entry, entry);
|
| - ScopedEntryPtr entry_closer(entry);
|
| -
|
| - const int kBufferSize = 10;
|
| - scoped_refptr<net::IOBufferWithSize> write_buffer(
|
| - new net::IOBufferWithSize(kBufferSize));
|
| - CacheTestFillBuffer(write_buffer->data(), write_buffer->size(), false);
|
| - EXPECT_EQ(
|
| - write_buffer->size(),
|
| - WriteData(entry, 1, 0, write_buffer.get(), write_buffer->size(), false));
|
| -
|
| - scoped_refptr<net::IOBufferWithSize> read_buffer(
|
| - new net::IOBufferWithSize(kBufferSize));
|
| - EXPECT_EQ(read_buffer->size(),
|
| - ReadData(entry, 1, 0, read_buffer.get(), read_buffer->size()));
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheNonOptimisticOperationsDontBlock) {
|
| - // Test sequence:
|
| - // Create, Write, Close.
|
| - SetCacheType(net::APP_CACHE); // APP_CACHE doesn't use optimistic operations.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* const null_entry = NULL;
|
| -
|
| - MessageLoopHelper helper;
|
| - CallbackTest create_callback(&helper, false);
|
| -
|
| - int expected_callback_runs = 0;
|
| - const int kBufferSize = 10;
|
| - scoped_refptr<net::IOBufferWithSize> write_buffer(
|
| - new net::IOBufferWithSize(kBufferSize));
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| - EXPECT_EQ(net::OK, CreateEntry("my key", &entry));
|
| - ASSERT_NE(null_entry, entry);
|
| - ScopedEntryPtr entry_closer(entry);
|
| -
|
| - CacheTestFillBuffer(write_buffer->data(), write_buffer->size(), false);
|
| - CallbackTest write_callback(&helper, false);
|
| - int ret = entry->WriteData(
|
| - 1,
|
| - 0,
|
| - write_buffer.get(),
|
| - write_buffer->size(),
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&write_callback)),
|
| - false);
|
| - ASSERT_EQ(net::ERR_IO_PENDING, ret);
|
| - helper.WaitUntilCacheIoFinished(++expected_callback_runs);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest,
|
| - SimpleCacheNonOptimisticOperationsBasicsWithoutWaiting) {
|
| - // Test sequence:
|
| - // Create, Write, Read, Close.
|
| - SetCacheType(net::APP_CACHE); // APP_CACHE doesn't use optimistic operations.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* const null_entry = NULL;
|
| - MessageLoopHelper helper;
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| - // Note that |entry| is only set once CreateEntry() completed which is why we
|
| - // have to wait (i.e. use the helper CreateEntry() function).
|
| - EXPECT_EQ(net::OK, CreateEntry("my key", &entry));
|
| - ASSERT_NE(null_entry, entry);
|
| - ScopedEntryPtr entry_closer(entry);
|
| -
|
| - const int kBufferSize = 10;
|
| - scoped_refptr<net::IOBufferWithSize> write_buffer(
|
| - new net::IOBufferWithSize(kBufferSize));
|
| - CacheTestFillBuffer(write_buffer->data(), write_buffer->size(), false);
|
| - CallbackTest write_callback(&helper, false);
|
| - int ret = entry->WriteData(
|
| - 1,
|
| - 0,
|
| - write_buffer.get(),
|
| - write_buffer->size(),
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&write_callback)),
|
| - false);
|
| - EXPECT_EQ(net::ERR_IO_PENDING, ret);
|
| - int expected_callback_runs = 1;
|
| -
|
| - scoped_refptr<net::IOBufferWithSize> read_buffer(
|
| - new net::IOBufferWithSize(kBufferSize));
|
| - CallbackTest read_callback(&helper, false);
|
| - ret = entry->ReadData(
|
| - 1,
|
| - 0,
|
| - read_buffer.get(),
|
| - read_buffer->size(),
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&read_callback)));
|
| - EXPECT_EQ(net::ERR_IO_PENDING, ret);
|
| - ++expected_callback_runs;
|
| -
|
| - helper.WaitUntilCacheIoFinished(expected_callback_runs);
|
| - ASSERT_EQ(read_buffer->size(), write_buffer->size());
|
| - EXPECT_EQ(
|
| - 0,
|
| - memcmp(read_buffer->data(), write_buffer->data(), read_buffer->size()));
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOptimistic) {
|
| - // Test sequence:
|
| - // Create, Write, Read, Write, Read, Close.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - MessageLoopHelper helper;
|
| - CallbackTest callback1(&helper, false);
|
| - CallbackTest callback2(&helper, false);
|
| - CallbackTest callback3(&helper, false);
|
| - CallbackTest callback4(&helper, false);
|
| - CallbackTest callback5(&helper, false);
|
| -
|
| - int expected = 0;
|
| - const int kSize1 = 10;
|
| - const int kSize2 = 20;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - scoped_refptr<net::IOBuffer> buffer1_read(new net::IOBuffer(kSize1));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize2));
|
| - scoped_refptr<net::IOBuffer> buffer2_read(new net::IOBuffer(kSize2));
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - CacheTestFillBuffer(buffer2->data(), kSize2, false);
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| - // Create is optimistic, must return OK.
|
| - ASSERT_EQ(net::OK,
|
| - cache_->CreateEntry(key, &entry,
|
| - base::Bind(&CallbackTest::Run,
|
| - base::Unretained(&callback1))));
|
| - EXPECT_NE(null, entry);
|
| - ScopedEntryPtr entry_closer(entry);
|
| -
|
| - // This write may or may not be optimistic (it depends if the previous
|
| - // optimistic create already finished by the time we call the write here).
|
| - int ret = entry->WriteData(
|
| - 1,
|
| - 0,
|
| - buffer1.get(),
|
| - kSize1,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback2)),
|
| - false);
|
| - EXPECT_TRUE(kSize1 == ret || net::ERR_IO_PENDING == ret);
|
| - if (net::ERR_IO_PENDING == ret)
|
| - expected++;
|
| -
|
| - // This Read must not be optimistic, since we don't support that yet.
|
| - EXPECT_EQ(net::ERR_IO_PENDING,
|
| - entry->ReadData(
|
| - 1,
|
| - 0,
|
| - buffer1_read.get(),
|
| - kSize1,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback3))));
|
| - expected++;
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - EXPECT_EQ(0, memcmp(buffer1->data(), buffer1_read->data(), kSize1));
|
| -
|
| - // At this point after waiting, the pending operations queue on the entry
|
| - // should be empty, so the next Write operation must run as optimistic.
|
| - EXPECT_EQ(kSize2,
|
| - entry->WriteData(
|
| - 1,
|
| - 0,
|
| - buffer2.get(),
|
| - kSize2,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback4)),
|
| - false));
|
| -
|
| - // Lets do another read so we block until both the write and the read
|
| - // operation finishes and we can then test for HasOneRef() below.
|
| - EXPECT_EQ(net::ERR_IO_PENDING,
|
| - entry->ReadData(
|
| - 1,
|
| - 0,
|
| - buffer2_read.get(),
|
| - kSize2,
|
| - base::Bind(&CallbackTest::Run, base::Unretained(&callback5))));
|
| - expected++;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - EXPECT_EQ(0, memcmp(buffer2->data(), buffer2_read->data(), kSize2));
|
| -
|
| - // Check that we are not leaking.
|
| - EXPECT_NE(entry, null);
|
| - EXPECT_TRUE(
|
| - static_cast<disk_cache::SimpleEntryImpl*>(entry)->HasOneRef());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOptimistic2) {
|
| - // Test sequence:
|
| - // Create, Open, Close, Close.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - MessageLoopHelper helper;
|
| - CallbackTest callback1(&helper, false);
|
| - CallbackTest callback2(&helper, false);
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK,
|
| - cache_->CreateEntry(key, &entry,
|
| - base::Bind(&CallbackTest::Run,
|
| - base::Unretained(&callback1))));
|
| - EXPECT_NE(null, entry);
|
| - ScopedEntryPtr entry_closer(entry);
|
| -
|
| - disk_cache::Entry* entry2 = NULL;
|
| - ASSERT_EQ(net::ERR_IO_PENDING,
|
| - cache_->OpenEntry(key, &entry2,
|
| - base::Bind(&CallbackTest::Run,
|
| - base::Unretained(&callback2))));
|
| - ASSERT_TRUE(helper.WaitUntilCacheIoFinished(1));
|
| -
|
| - EXPECT_NE(null, entry2);
|
| - EXPECT_EQ(entry, entry2);
|
| -
|
| - // We have to call close twice, since we called create and open above.
|
| - entry->Close();
|
| -
|
| - // Check that we are not leaking.
|
| - EXPECT_TRUE(
|
| - static_cast<disk_cache::SimpleEntryImpl*>(entry)->HasOneRef());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOptimistic3) {
|
| - // Test sequence:
|
| - // Create, Close, Open, Close.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK,
|
| - cache_->CreateEntry(key, &entry, net::CompletionCallback()));
|
| - EXPECT_NE(null, entry);
|
| - entry->Close();
|
| -
|
| - net::TestCompletionCallback cb;
|
| - disk_cache::Entry* entry2 = NULL;
|
| - ASSERT_EQ(net::ERR_IO_PENDING,
|
| - cache_->OpenEntry(key, &entry2, cb.callback()));
|
| - ASSERT_EQ(net::OK, cb.GetResult(net::ERR_IO_PENDING));
|
| - ScopedEntryPtr entry_closer(entry2);
|
| -
|
| - EXPECT_NE(null, entry2);
|
| - EXPECT_EQ(entry, entry2);
|
| -
|
| - // Check that we are not leaking.
|
| - EXPECT_TRUE(
|
| - static_cast<disk_cache::SimpleEntryImpl*>(entry2)->HasOneRef());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOptimistic4) {
|
| - // Test sequence:
|
| - // Create, Close, Write, Open, Open, Close, Write, Read, Close.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - net::TestCompletionCallback cb;
|
| - const int kSize1 = 10;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - disk_cache::Entry* entry = NULL;
|
| -
|
| - ASSERT_EQ(net::OK,
|
| - cache_->CreateEntry(key, &entry, net::CompletionCallback()));
|
| - EXPECT_NE(null, entry);
|
| - entry->Close();
|
| -
|
| - // Lets do a Write so we block until both the Close and the Write
|
| - // operation finishes. Write must fail since we are writing in a closed entry.
|
| - EXPECT_EQ(
|
| - net::ERR_IO_PENDING,
|
| - entry->WriteData(1, 0, buffer1.get(), kSize1, cb.callback(), false));
|
| - EXPECT_EQ(net::ERR_FAILED, cb.GetResult(net::ERR_IO_PENDING));
|
| -
|
| - // Finish running the pending tasks so that we fully complete the close
|
| - // operation and destroy the entry object.
|
| - base::MessageLoop::current()->RunUntilIdle();
|
| -
|
| - // At this point the |entry| must have been destroyed, and called
|
| - // RemoveSelfFromBackend().
|
| - disk_cache::Entry* entry2 = NULL;
|
| - ASSERT_EQ(net::ERR_IO_PENDING,
|
| - cache_->OpenEntry(key, &entry2, cb.callback()));
|
| - ASSERT_EQ(net::OK, cb.GetResult(net::ERR_IO_PENDING));
|
| - EXPECT_NE(null, entry2);
|
| -
|
| - disk_cache::Entry* entry3 = NULL;
|
| - ASSERT_EQ(net::ERR_IO_PENDING,
|
| - cache_->OpenEntry(key, &entry3, cb.callback()));
|
| - ASSERT_EQ(net::OK, cb.GetResult(net::ERR_IO_PENDING));
|
| - EXPECT_NE(null, entry3);
|
| - EXPECT_EQ(entry2, entry3);
|
| - entry3->Close();
|
| -
|
| - // The previous Close doesn't actually closes the entry since we opened it
|
| - // twice, so the next Write operation must succeed and it must be able to
|
| - // perform it optimistically, since there is no operation running on this
|
| - // entry.
|
| - EXPECT_EQ(kSize1,
|
| - entry2->WriteData(
|
| - 1, 0, buffer1.get(), kSize1, net::CompletionCallback(), false));
|
| -
|
| - // Lets do another read so we block until both the write and the read
|
| - // operation finishes and we can then test for HasOneRef() below.
|
| - EXPECT_EQ(net::ERR_IO_PENDING,
|
| - entry2->ReadData(1, 0, buffer1.get(), kSize1, cb.callback()));
|
| - EXPECT_EQ(kSize1, cb.GetResult(net::ERR_IO_PENDING));
|
| -
|
| - // Check that we are not leaking.
|
| - EXPECT_TRUE(
|
| - static_cast<disk_cache::SimpleEntryImpl*>(entry2)->HasOneRef());
|
| - entry2->Close();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOptimistic5) {
|
| - // Test sequence:
|
| - // Create, Doom, Write, Read, Close.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - net::TestCompletionCallback cb;
|
| - const int kSize1 = 10;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - disk_cache::Entry* entry = NULL;
|
| -
|
| - ASSERT_EQ(net::OK,
|
| - cache_->CreateEntry(key, &entry, net::CompletionCallback()));
|
| - EXPECT_NE(null, entry);
|
| - ScopedEntryPtr entry_closer(entry);
|
| - entry->Doom();
|
| -
|
| - EXPECT_EQ(
|
| - net::ERR_IO_PENDING,
|
| - entry->WriteData(1, 0, buffer1.get(), kSize1, cb.callback(), false));
|
| - EXPECT_EQ(kSize1, cb.GetResult(net::ERR_IO_PENDING));
|
| -
|
| - EXPECT_EQ(net::ERR_IO_PENDING,
|
| - entry->ReadData(1, 0, buffer1.get(), kSize1, cb.callback()));
|
| - EXPECT_EQ(kSize1, cb.GetResult(net::ERR_IO_PENDING));
|
| -
|
| - // Check that we are not leaking.
|
| - EXPECT_TRUE(
|
| - static_cast<disk_cache::SimpleEntryImpl*>(entry)->HasOneRef());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOptimistic6) {
|
| - // Test sequence:
|
| - // Create, Write, Doom, Doom, Read, Doom, Close.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - net::TestCompletionCallback cb;
|
| - const int kSize1 = 10;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - scoped_refptr<net::IOBuffer> buffer1_read(new net::IOBuffer(kSize1));
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - disk_cache::Entry* entry = NULL;
|
| -
|
| - ASSERT_EQ(net::OK,
|
| - cache_->CreateEntry(key, &entry, net::CompletionCallback()));
|
| - EXPECT_NE(null, entry);
|
| - ScopedEntryPtr entry_closer(entry);
|
| -
|
| - EXPECT_EQ(
|
| - net::ERR_IO_PENDING,
|
| - entry->WriteData(1, 0, buffer1.get(), kSize1, cb.callback(), false));
|
| - EXPECT_EQ(kSize1, cb.GetResult(net::ERR_IO_PENDING));
|
| -
|
| - entry->Doom();
|
| - entry->Doom();
|
| -
|
| - // This Read must not be optimistic, since we don't support that yet.
|
| - EXPECT_EQ(net::ERR_IO_PENDING,
|
| - entry->ReadData(1, 0, buffer1_read.get(), kSize1, cb.callback()));
|
| - EXPECT_EQ(kSize1, cb.GetResult(net::ERR_IO_PENDING));
|
| - EXPECT_EQ(0, memcmp(buffer1->data(), buffer1_read->data(), kSize1));
|
| -
|
| - entry->Doom();
|
| -}
|
| -
|
| -// Confirm that IO buffers are not referenced by the Simple Cache after a write
|
| -// completes.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOptimisticWriteReleases) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const char key[] = "the first key";
|
| - disk_cache::Entry* entry = NULL;
|
| -
|
| - // First, an optimistic create.
|
| - ASSERT_EQ(net::OK,
|
| - cache_->CreateEntry(key, &entry, net::CompletionCallback()));
|
| - ASSERT_TRUE(entry);
|
| - ScopedEntryPtr entry_closer(entry);
|
| -
|
| - const int kWriteSize = 512;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kWriteSize));
|
| - EXPECT_TRUE(buffer1->HasOneRef());
|
| - CacheTestFillBuffer(buffer1->data(), kWriteSize, false);
|
| -
|
| - // An optimistic write happens only when there is an empty queue of pending
|
| - // operations. To ensure the queue is empty, we issue a write and wait until
|
| - // it completes.
|
| - EXPECT_EQ(kWriteSize,
|
| - WriteData(entry, 1, 0, buffer1.get(), kWriteSize, false));
|
| - EXPECT_TRUE(buffer1->HasOneRef());
|
| -
|
| - // Finally, we should perform an optimistic write and confirm that all
|
| - // references to the IO buffer have been released.
|
| - EXPECT_EQ(
|
| - kWriteSize,
|
| - entry->WriteData(
|
| - 1, 0, buffer1.get(), kWriteSize, net::CompletionCallback(), false));
|
| - EXPECT_TRUE(buffer1->HasOneRef());
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheCreateDoomRace) {
|
| - // Test sequence:
|
| - // Create, Doom, Write, Close, Check files are not on disk anymore.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - net::TestCompletionCallback cb;
|
| - const int kSize1 = 10;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize1));
|
| - CacheTestFillBuffer(buffer1->data(), kSize1, false);
|
| - disk_cache::Entry* entry = NULL;
|
| -
|
| - ASSERT_EQ(net::OK,
|
| - cache_->CreateEntry(key, &entry, net::CompletionCallback()));
|
| - EXPECT_NE(null, entry);
|
| -
|
| - EXPECT_EQ(net::ERR_IO_PENDING, cache_->DoomEntry(key, cb.callback()));
|
| - EXPECT_EQ(net::OK, cb.GetResult(net::ERR_IO_PENDING));
|
| -
|
| - EXPECT_EQ(
|
| - kSize1,
|
| - entry->WriteData(0, 0, buffer1.get(), kSize1, cb.callback(), false));
|
| -
|
| - entry->Close();
|
| -
|
| - // Finish running the pending tasks so that we fully complete the close
|
| - // operation and destroy the entry object.
|
| - base::MessageLoop::current()->RunUntilIdle();
|
| -
|
| - for (int i = 0; i < disk_cache::kSimpleEntryFileCount; ++i) {
|
| - base::FilePath entry_file_path = cache_path_.AppendASCII(
|
| - disk_cache::simple_util::GetFilenameFromKeyAndFileIndex(key, i));
|
| - base::File::Info info;
|
| - EXPECT_FALSE(base::GetFileInfo(entry_file_path, &info));
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheDoomCreateRace) {
|
| - // This test runs as APP_CACHE to make operations more synchronous. Test
|
| - // sequence:
|
| - // Create, Doom, Create.
|
| - SetCacheType(net::APP_CACHE);
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - net::TestCompletionCallback create_callback;
|
| -
|
| - disk_cache::Entry* entry1 = NULL;
|
| - ASSERT_EQ(net::OK,
|
| - create_callback.GetResult(
|
| - cache_->CreateEntry(key, &entry1, create_callback.callback())));
|
| - ScopedEntryPtr entry1_closer(entry1);
|
| - EXPECT_NE(null, entry1);
|
| -
|
| - net::TestCompletionCallback doom_callback;
|
| - EXPECT_EQ(net::ERR_IO_PENDING,
|
| - cache_->DoomEntry(key, doom_callback.callback()));
|
| -
|
| - disk_cache::Entry* entry2 = NULL;
|
| - ASSERT_EQ(net::OK,
|
| - create_callback.GetResult(
|
| - cache_->CreateEntry(key, &entry2, create_callback.callback())));
|
| - ScopedEntryPtr entry2_closer(entry2);
|
| - EXPECT_EQ(net::OK, doom_callback.GetResult(net::ERR_IO_PENDING));
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheDoomDoom) {
|
| - // Test sequence:
|
| - // Create, Doom, Create, Doom (1st entry), Open.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| -
|
| - const char key[] = "the first key";
|
| -
|
| - disk_cache::Entry* entry1 = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry1));
|
| - ScopedEntryPtr entry1_closer(entry1);
|
| - EXPECT_NE(null, entry1);
|
| -
|
| - EXPECT_EQ(net::OK, DoomEntry(key));
|
| -
|
| - disk_cache::Entry* entry2 = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry2));
|
| - ScopedEntryPtr entry2_closer(entry2);
|
| - EXPECT_NE(null, entry2);
|
| -
|
| - // Redundantly dooming entry1 should not delete entry2.
|
| - disk_cache::SimpleEntryImpl* simple_entry1 =
|
| - static_cast<disk_cache::SimpleEntryImpl*>(entry1);
|
| - net::TestCompletionCallback cb;
|
| - EXPECT_EQ(net::OK,
|
| - cb.GetResult(simple_entry1->DoomEntry(cb.callback())));
|
| -
|
| - disk_cache::Entry* entry3 = NULL;
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry3));
|
| - ScopedEntryPtr entry3_closer(entry3);
|
| - EXPECT_NE(null, entry3);
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheDoomCreateDoom) {
|
| - // Test sequence:
|
| - // Create, Doom, Create, Doom.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - disk_cache::Entry* null = NULL;
|
| -
|
| - const char key[] = "the first key";
|
| -
|
| - disk_cache::Entry* entry1 = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry1));
|
| - ScopedEntryPtr entry1_closer(entry1);
|
| - EXPECT_NE(null, entry1);
|
| -
|
| - entry1->Doom();
|
| -
|
| - disk_cache::Entry* entry2 = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry2));
|
| - ScopedEntryPtr entry2_closer(entry2);
|
| - EXPECT_NE(null, entry2);
|
| -
|
| - entry2->Doom();
|
| -
|
| - // This test passes if it doesn't crash.
|
| -}
|
| -
|
| -// Checks that an optimistic Create would fail later on a racing Open.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOptimisticCreateFailsOnOpen) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - // Create a corrupt file in place of a future entry. Optimistic create should
|
| - // initially succeed, but realize later that creation failed.
|
| - const std::string key = "the key";
|
| - net::TestCompletionCallback cb;
|
| - disk_cache::Entry* entry = NULL;
|
| - disk_cache::Entry* entry2 = NULL;
|
| -
|
| - EXPECT_TRUE(disk_cache::simple_util::CreateCorruptFileForTests(
|
| - key, cache_path_));
|
| - EXPECT_EQ(net::OK, cache_->CreateEntry(key, &entry, cb.callback()));
|
| - ASSERT_TRUE(entry);
|
| - ScopedEntryPtr entry_closer(entry);
|
| - ASSERT_NE(net::OK, OpenEntry(key, &entry2));
|
| -
|
| - // Check that we are not leaking.
|
| - EXPECT_TRUE(
|
| - static_cast<disk_cache::SimpleEntryImpl*>(entry)->HasOneRef());
|
| -
|
| - DisableIntegrityCheck();
|
| -}
|
| -
|
| -// Tests that old entries are evicted while new entries remain in the index.
|
| -// This test relies on non-mandatory properties of the simple Cache Backend:
|
| -// LRU eviction, specific values of high-watermark and low-watermark etc.
|
| -// When changing the eviction algorithm, the test will have to be re-engineered.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheEvictOldEntries) {
|
| - const int kMaxSize = 200 * 1024;
|
| - const int kWriteSize = kMaxSize / 10;
|
| - const int kNumExtraEntries = 12;
|
| - SetSimpleCacheMode();
|
| - SetMaxSize(kMaxSize);
|
| - InitCache();
|
| -
|
| - std::string key1("the first key");
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key1, &entry));
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kWriteSize));
|
| - CacheTestFillBuffer(buffer->data(), kWriteSize, false);
|
| - EXPECT_EQ(kWriteSize,
|
| - WriteData(entry, 1, 0, buffer.get(), kWriteSize, false));
|
| - entry->Close();
|
| - AddDelay();
|
| -
|
| - std::string key2("the key prefix");
|
| - for (int i = 0; i < kNumExtraEntries; i++) {
|
| - ASSERT_EQ(net::OK, CreateEntry(key2 + base::StringPrintf("%d", i), &entry));
|
| - ScopedEntryPtr entry_closer(entry);
|
| - EXPECT_EQ(kWriteSize,
|
| - WriteData(entry, 1, 0, buffer.get(), kWriteSize, false));
|
| - }
|
| -
|
| - // TODO(pasko): Find a way to wait for the eviction task(s) to finish by using
|
| - // the internal knowledge about |SimpleBackendImpl|.
|
| - ASSERT_NE(net::OK, OpenEntry(key1, &entry))
|
| - << "Should have evicted the old entry";
|
| - for (int i = 0; i < 2; i++) {
|
| - int entry_no = kNumExtraEntries - i - 1;
|
| - // Generally there is no guarantee that at this point the backround eviction
|
| - // is finished. We are testing the positive case, i.e. when the eviction
|
| - // never reaches this entry, should be non-flaky.
|
| - ASSERT_EQ(net::OK, OpenEntry(key2 + base::StringPrintf("%d", entry_no),
|
| - &entry))
|
| - << "Should not have evicted fresh entry " << entry_no;
|
| - entry->Close();
|
| - }
|
| -}
|
| -
|
| -// Tests that if a read and a following in-flight truncate are both in progress
|
| -// simultaniously that they both can occur successfully. See
|
| -// http://crbug.com/239223
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheInFlightTruncate) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const char key[] = "the first key";
|
| -
|
| - const int kBufferSize = 1024;
|
| - scoped_refptr<net::IOBuffer> write_buffer(new net::IOBuffer(kBufferSize));
|
| - CacheTestFillBuffer(write_buffer->data(), kBufferSize, false);
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| -
|
| - EXPECT_EQ(kBufferSize,
|
| - WriteData(entry, 1, 0, write_buffer.get(), kBufferSize, false));
|
| - entry->Close();
|
| - entry = NULL;
|
| -
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - ScopedEntryPtr entry_closer(entry);
|
| -
|
| - MessageLoopHelper helper;
|
| - int expected = 0;
|
| -
|
| - // Make a short read.
|
| - const int kReadBufferSize = 512;
|
| - scoped_refptr<net::IOBuffer> read_buffer(new net::IOBuffer(kReadBufferSize));
|
| - CallbackTest read_callback(&helper, false);
|
| - EXPECT_EQ(net::ERR_IO_PENDING,
|
| - entry->ReadData(1,
|
| - 0,
|
| - read_buffer.get(),
|
| - kReadBufferSize,
|
| - base::Bind(&CallbackTest::Run,
|
| - base::Unretained(&read_callback))));
|
| - ++expected;
|
| -
|
| - // Truncate the entry to the length of that read.
|
| - scoped_refptr<net::IOBuffer>
|
| - truncate_buffer(new net::IOBuffer(kReadBufferSize));
|
| - CacheTestFillBuffer(truncate_buffer->data(), kReadBufferSize, false);
|
| - CallbackTest truncate_callback(&helper, false);
|
| - EXPECT_EQ(net::ERR_IO_PENDING,
|
| - entry->WriteData(1,
|
| - 0,
|
| - truncate_buffer.get(),
|
| - kReadBufferSize,
|
| - base::Bind(&CallbackTest::Run,
|
| - base::Unretained(&truncate_callback)),
|
| - true));
|
| - ++expected;
|
| -
|
| - // Wait for both the read and truncation to finish, and confirm that both
|
| - // succeeded.
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - EXPECT_EQ(kReadBufferSize, read_callback.last_result());
|
| - EXPECT_EQ(kReadBufferSize, truncate_callback.last_result());
|
| - EXPECT_EQ(0,
|
| - memcmp(write_buffer->data(), read_buffer->data(), kReadBufferSize));
|
| -}
|
| -
|
| -// Tests that if a write and a read dependant on it are both in flight
|
| -// simultaneiously that they both can complete successfully without erroneous
|
| -// early returns. See http://crbug.com/239223
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheInFlightRead) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const char key[] = "the first key";
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK,
|
| - cache_->CreateEntry(key, &entry, net::CompletionCallback()));
|
| - ScopedEntryPtr entry_closer(entry);
|
| -
|
| - const int kBufferSize = 1024;
|
| - scoped_refptr<net::IOBuffer> write_buffer(new net::IOBuffer(kBufferSize));
|
| - CacheTestFillBuffer(write_buffer->data(), kBufferSize, false);
|
| -
|
| - MessageLoopHelper helper;
|
| - int expected = 0;
|
| -
|
| - CallbackTest write_callback(&helper, false);
|
| - EXPECT_EQ(net::ERR_IO_PENDING,
|
| - entry->WriteData(1,
|
| - 0,
|
| - write_buffer.get(),
|
| - kBufferSize,
|
| - base::Bind(&CallbackTest::Run,
|
| - base::Unretained(&write_callback)),
|
| - true));
|
| - ++expected;
|
| -
|
| - scoped_refptr<net::IOBuffer> read_buffer(new net::IOBuffer(kBufferSize));
|
| - CallbackTest read_callback(&helper, false);
|
| - EXPECT_EQ(net::ERR_IO_PENDING,
|
| - entry->ReadData(1,
|
| - 0,
|
| - read_buffer.get(),
|
| - kBufferSize,
|
| - base::Bind(&CallbackTest::Run,
|
| - base::Unretained(&read_callback))));
|
| - ++expected;
|
| -
|
| - EXPECT_TRUE(helper.WaitUntilCacheIoFinished(expected));
|
| - EXPECT_EQ(kBufferSize, write_callback.last_result());
|
| - EXPECT_EQ(kBufferSize, read_callback.last_result());
|
| - EXPECT_EQ(0, memcmp(write_buffer->data(), read_buffer->data(), kBufferSize));
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOpenCreateRaceWithNoIndex) {
|
| - SetSimpleCacheMode();
|
| - DisableSimpleCacheWaitForIndex();
|
| - DisableIntegrityCheck();
|
| - InitCache();
|
| -
|
| - // Assume the index is not initialized, which is likely, since we are blocking
|
| - // the IO thread from executing the index finalization step.
|
| - disk_cache::Entry* entry1;
|
| - net::TestCompletionCallback cb1;
|
| - disk_cache::Entry* entry2;
|
| - net::TestCompletionCallback cb2;
|
| - int rv1 = cache_->OpenEntry("key", &entry1, cb1.callback());
|
| - int rv2 = cache_->CreateEntry("key", &entry2, cb2.callback());
|
| -
|
| - EXPECT_EQ(net::ERR_FAILED, cb1.GetResult(rv1));
|
| - ASSERT_EQ(net::OK, cb2.GetResult(rv2));
|
| - entry2->Close();
|
| -}
|
| -
|
| -// Checks that reading two entries simultaneously does not discard a CRC check.
|
| -// TODO(pasko): make it work with Simple Cache.
|
| -TEST_F(DiskCacheEntryTest, DISABLED_SimpleCacheMultipleReadersCheckCRC) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const char key[] = "key";
|
| -
|
| - int size;
|
| - ASSERT_TRUE(SimpleCacheMakeBadChecksumEntry(key, &size));
|
| -
|
| - scoped_refptr<net::IOBuffer> read_buffer1(new net::IOBuffer(size));
|
| - scoped_refptr<net::IOBuffer> read_buffer2(new net::IOBuffer(size));
|
| -
|
| - // Advance the first reader a little.
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_EQ(1, ReadData(entry, 0, 0, read_buffer1.get(), 1));
|
| -
|
| - // Make the second reader pass the point where the first one is, and close.
|
| - disk_cache::Entry* entry2 = NULL;
|
| - EXPECT_EQ(net::OK, OpenEntry(key, &entry2));
|
| - EXPECT_EQ(1, ReadData(entry2, 0, 0, read_buffer2.get(), 1));
|
| - EXPECT_EQ(1, ReadData(entry2, 0, 1, read_buffer2.get(), 1));
|
| - entry2->Close();
|
| -
|
| - // Read the data till the end should produce an error.
|
| - EXPECT_GT(0, ReadData(entry, 0, 1, read_buffer1.get(), size));
|
| - entry->Close();
|
| - DisableIntegrityCheck();
|
| -}
|
| -
|
| -// Checking one more scenario of overlapped reading of a bad entry.
|
| -// Differs from the |SimpleCacheMultipleReadersCheckCRC| only by the order of
|
| -// last two reads.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheMultipleReadersCheckCRC2) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const char key[] = "key";
|
| - int size;
|
| - ASSERT_TRUE(SimpleCacheMakeBadChecksumEntry(key, &size));
|
| -
|
| - scoped_refptr<net::IOBuffer> read_buffer1(new net::IOBuffer(size));
|
| - scoped_refptr<net::IOBuffer> read_buffer2(new net::IOBuffer(size));
|
| -
|
| - // Advance the first reader a little.
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - ScopedEntryPtr entry_closer(entry);
|
| - EXPECT_EQ(1, ReadData(entry, 1, 0, read_buffer1.get(), 1));
|
| -
|
| - // Advance the 2nd reader by the same amount.
|
| - disk_cache::Entry* entry2 = NULL;
|
| - EXPECT_EQ(net::OK, OpenEntry(key, &entry2));
|
| - ScopedEntryPtr entry2_closer(entry2);
|
| - EXPECT_EQ(1, ReadData(entry2, 1, 0, read_buffer2.get(), 1));
|
| -
|
| - // Continue reading 1st.
|
| - EXPECT_GT(0, ReadData(entry, 1, 1, read_buffer1.get(), size));
|
| -
|
| - // This read should fail as well because we have previous read failures.
|
| - EXPECT_GT(0, ReadData(entry2, 1, 1, read_buffer2.get(), 1));
|
| - DisableIntegrityCheck();
|
| -}
|
| -
|
| -// Test if we can sequentially read each subset of the data until all the data
|
| -// is read, then the CRC is calculated correctly and the reads are successful.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheReadCombineCRC) {
|
| - // Test sequence:
|
| - // Create, Write, Read (first half of data), Read (second half of data),
|
| - // Close.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - const int kHalfSize = 200;
|
| - const int kSize = 2 * kHalfSize;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer1->data(), kSize, false);
|
| - disk_cache::Entry* entry = NULL;
|
| -
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_NE(null, entry);
|
| -
|
| - EXPECT_EQ(kSize, WriteData(entry, 1, 0, buffer1.get(), kSize, false));
|
| - entry->Close();
|
| -
|
| - disk_cache::Entry* entry2 = NULL;
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry2));
|
| - EXPECT_EQ(entry, entry2);
|
| -
|
| - // Read the first half of the data.
|
| - int offset = 0;
|
| - int buf_len = kHalfSize;
|
| - scoped_refptr<net::IOBuffer> buffer1_read1(new net::IOBuffer(buf_len));
|
| - EXPECT_EQ(buf_len, ReadData(entry2, 1, offset, buffer1_read1.get(), buf_len));
|
| - EXPECT_EQ(0, memcmp(buffer1->data(), buffer1_read1->data(), buf_len));
|
| -
|
| - // Read the second half of the data.
|
| - offset = buf_len;
|
| - buf_len = kHalfSize;
|
| - scoped_refptr<net::IOBuffer> buffer1_read2(new net::IOBuffer(buf_len));
|
| - EXPECT_EQ(buf_len, ReadData(entry2, 1, offset, buffer1_read2.get(), buf_len));
|
| - char* buffer1_data = buffer1->data() + offset;
|
| - EXPECT_EQ(0, memcmp(buffer1_data, buffer1_read2->data(), buf_len));
|
| -
|
| - // Check that we are not leaking.
|
| - EXPECT_NE(entry, null);
|
| - EXPECT_TRUE(
|
| - static_cast<disk_cache::SimpleEntryImpl*>(entry)->HasOneRef());
|
| - entry->Close();
|
| - entry = NULL;
|
| -}
|
| -
|
| -// Test if we can write the data not in sequence and read correctly. In
|
| -// this case the CRC will not be present.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheNonSequentialWrite) {
|
| - // Test sequence:
|
| - // Create, Write (second half of data), Write (first half of data), Read,
|
| - // Close.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - const int kHalfSize = 200;
|
| - const int kSize = 2 * kHalfSize;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer1->data(), kSize, false);
|
| - char* buffer1_data = buffer1->data() + kHalfSize;
|
| - memcpy(buffer2->data(), buffer1_data, kHalfSize);
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - entry->Close();
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_NE(null, entry);
|
| -
|
| - int offset = kHalfSize;
|
| - int buf_len = kHalfSize;
|
| -
|
| - EXPECT_EQ(buf_len,
|
| - WriteData(entry, i, offset, buffer2.get(), buf_len, false));
|
| - offset = 0;
|
| - buf_len = kHalfSize;
|
| - EXPECT_EQ(buf_len,
|
| - WriteData(entry, i, offset, buffer1.get(), buf_len, false));
|
| - entry->Close();
|
| -
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| -
|
| - scoped_refptr<net::IOBuffer> buffer1_read1(new net::IOBuffer(kSize));
|
| - EXPECT_EQ(kSize, ReadData(entry, i, 0, buffer1_read1.get(), kSize));
|
| - EXPECT_EQ(0, memcmp(buffer1->data(), buffer1_read1->data(), kSize));
|
| - // Check that we are not leaking.
|
| - ASSERT_NE(entry, null);
|
| - EXPECT_TRUE(static_cast<disk_cache::SimpleEntryImpl*>(entry)->HasOneRef());
|
| - entry->Close();
|
| - }
|
| -}
|
| -
|
| -// Test that changing stream1 size does not affect stream0 (stream0 and stream1
|
| -// are stored in the same file in Simple Cache).
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheStream1SizeChanges) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* entry = NULL;
|
| - const char key[] = "the key";
|
| - const int kSize = 100;
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buffer_read(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer->data(), kSize, false);
|
| -
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_TRUE(entry);
|
| -
|
| - // Write something into stream0.
|
| - EXPECT_EQ(kSize, WriteData(entry, 0, 0, buffer.get(), kSize, false));
|
| - EXPECT_EQ(kSize, ReadData(entry, 0, 0, buffer_read.get(), kSize));
|
| - EXPECT_EQ(0, memcmp(buffer->data(), buffer_read->data(), kSize));
|
| - entry->Close();
|
| -
|
| - // Extend stream1.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - int stream1_size = 100;
|
| - EXPECT_EQ(0, WriteData(entry, 1, stream1_size, buffer.get(), 0, false));
|
| - EXPECT_EQ(stream1_size, entry->GetDataSize(1));
|
| - entry->Close();
|
| -
|
| - // Check that stream0 data has not been modified and that the EOF record for
|
| - // stream 0 contains a crc.
|
| - // The entry needs to be reopened before checking the crc: Open will perform
|
| - // the synchronization with the previous Close. This ensures the EOF records
|
| - // have been written to disk before we attempt to read them independently.
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - base::FilePath entry_file0_path = cache_path_.AppendASCII(
|
| - disk_cache::simple_util::GetFilenameFromKeyAndFileIndex(key, 0));
|
| - int flags = base::PLATFORM_FILE_READ | base::PLATFORM_FILE_OPEN;
|
| - base::PlatformFile entry_file0 =
|
| - base::CreatePlatformFile(entry_file0_path, flags, NULL, NULL);
|
| - ASSERT_TRUE(entry_file0 != base::kInvalidPlatformFileValue);
|
| -
|
| - int data_size[disk_cache::kSimpleEntryStreamCount] = {kSize, stream1_size, 0};
|
| - int sparse_data_size = 0;
|
| - disk_cache::SimpleEntryStat entry_stat(
|
| - base::Time::Now(), base::Time::Now(), data_size, sparse_data_size);
|
| - int eof_offset = entry_stat.GetEOFOffsetInFile(key, 0);
|
| - disk_cache::SimpleFileEOF eof_record;
|
| - ASSERT_EQ(static_cast<int>(sizeof(eof_record)), base::ReadPlatformFile(
|
| - entry_file0,
|
| - eof_offset,
|
| - reinterpret_cast<char*>(&eof_record),
|
| - sizeof(eof_record)));
|
| - EXPECT_EQ(disk_cache::kSimpleFinalMagicNumber, eof_record.final_magic_number);
|
| - EXPECT_TRUE((eof_record.flags & disk_cache::SimpleFileEOF::FLAG_HAS_CRC32) ==
|
| - disk_cache::SimpleFileEOF::FLAG_HAS_CRC32);
|
| -
|
| - buffer_read = new net::IOBuffer(kSize);
|
| - EXPECT_EQ(kSize, ReadData(entry, 0, 0, buffer_read.get(), kSize));
|
| - EXPECT_EQ(0, memcmp(buffer->data(), buffer_read->data(), kSize));
|
| -
|
| - // Shrink stream1.
|
| - stream1_size = 50;
|
| - EXPECT_EQ(0, WriteData(entry, 1, stream1_size, buffer.get(), 0, true));
|
| - EXPECT_EQ(stream1_size, entry->GetDataSize(1));
|
| - entry->Close();
|
| -
|
| - // Check that stream0 data has not been modified.
|
| - buffer_read = new net::IOBuffer(kSize);
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_EQ(kSize, ReadData(entry, 0, 0, buffer_read.get(), kSize));
|
| - EXPECT_EQ(0, memcmp(buffer->data(), buffer_read->data(), kSize));
|
| - entry->Close();
|
| - entry = NULL;
|
| -}
|
| -
|
| -// Test that writing within the range for which the crc has already been
|
| -// computed will properly invalidate the computed crc.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheCRCRewrite) {
|
| - // Test sequence:
|
| - // Create, Write (big data), Write (small data in the middle), Close.
|
| - // Open, Read (all), Close.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - const int kHalfSize = 200;
|
| - const int kSize = 2 * kHalfSize;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kHalfSize));
|
| - CacheTestFillBuffer(buffer1->data(), kSize, false);
|
| - CacheTestFillBuffer(buffer2->data(), kHalfSize, false);
|
| -
|
| - disk_cache::Entry* entry = NULL;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_NE(null, entry);
|
| - entry->Close();
|
| -
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - int offset = 0;
|
| - int buf_len = kSize;
|
| -
|
| - EXPECT_EQ(buf_len,
|
| - WriteData(entry, i, offset, buffer1.get(), buf_len, false));
|
| - offset = kHalfSize;
|
| - buf_len = kHalfSize;
|
| - EXPECT_EQ(buf_len,
|
| - WriteData(entry, i, offset, buffer2.get(), buf_len, false));
|
| - entry->Close();
|
| -
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| -
|
| - scoped_refptr<net::IOBuffer> buffer1_read1(new net::IOBuffer(kSize));
|
| - EXPECT_EQ(kSize, ReadData(entry, i, 0, buffer1_read1.get(), kSize));
|
| - EXPECT_EQ(0, memcmp(buffer1->data(), buffer1_read1->data(), kHalfSize));
|
| - EXPECT_EQ(
|
| - 0,
|
| - memcmp(buffer2->data(), buffer1_read1->data() + kHalfSize, kHalfSize));
|
| -
|
| - entry->Close();
|
| - }
|
| -}
|
| -
|
| -bool DiskCacheEntryTest::SimpleCacheThirdStreamFileExists(const char* key) {
|
| - int third_stream_file_index =
|
| - disk_cache::simple_util::GetFileIndexFromStreamIndex(2);
|
| - base::FilePath third_stream_file_path = cache_path_.AppendASCII(
|
| - disk_cache::simple_util::GetFilenameFromKeyAndFileIndex(
|
| - key, third_stream_file_index));
|
| - return PathExists(third_stream_file_path);
|
| -}
|
| -
|
| -void DiskCacheEntryTest::SyncDoomEntry(const char* key) {
|
| - net::TestCompletionCallback callback;
|
| - cache_->DoomEntry(key, callback.callback());
|
| - callback.WaitForResult();
|
| -}
|
| -
|
| -// Check that a newly-created entry with no third-stream writes omits the
|
| -// third stream file.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOmittedThirdStream1) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const char key[] = "key";
|
| -
|
| - disk_cache::Entry* entry;
|
| -
|
| - // Create entry and close without writing: third stream file should be
|
| - // omitted, since the stream is empty.
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - entry->Close();
|
| - EXPECT_FALSE(SimpleCacheThirdStreamFileExists(key));
|
| -
|
| - SyncDoomEntry(key);
|
| - EXPECT_FALSE(SimpleCacheThirdStreamFileExists(key));
|
| -}
|
| -
|
| -// Check that a newly-created entry with only a single zero-offset, zero-length
|
| -// write omits the third stream file.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOmittedThirdStream2) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const int kHalfSize = 8;
|
| - const int kSize = kHalfSize * 2;
|
| - const char key[] = "key";
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer->data(), kHalfSize, false);
|
| -
|
| - disk_cache::Entry* entry;
|
| -
|
| - // Create entry, write empty buffer to third stream, and close: third stream
|
| - // should still be omitted, since the entry ignores writes that don't modify
|
| - // data or change the length.
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_EQ(0, WriteData(entry, 2, 0, buffer, 0, true));
|
| - entry->Close();
|
| - EXPECT_FALSE(SimpleCacheThirdStreamFileExists(key));
|
| -
|
| - SyncDoomEntry(key);
|
| - EXPECT_FALSE(SimpleCacheThirdStreamFileExists(key));
|
| -}
|
| -
|
| -// Check that we can read back data written to the third stream.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOmittedThirdStream3) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const int kHalfSize = 8;
|
| - const int kSize = kHalfSize * 2;
|
| - const char key[] = "key";
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer1->data(), kHalfSize, false);
|
| -
|
| - disk_cache::Entry* entry;
|
| -
|
| - // Create entry, write data to third stream, and close: third stream should
|
| - // not be omitted, since it contains data. Re-open entry and ensure there
|
| - // are that many bytes in the third stream.
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_EQ(kHalfSize, WriteData(entry, 2, 0, buffer1, kHalfSize, true));
|
| - entry->Close();
|
| - EXPECT_TRUE(SimpleCacheThirdStreamFileExists(key));
|
| -
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_EQ(kHalfSize, ReadData(entry, 2, 0, buffer2, kSize));
|
| - EXPECT_EQ(0, memcmp(buffer1->data(), buffer2->data(), kHalfSize));
|
| - entry->Close();
|
| - EXPECT_TRUE(SimpleCacheThirdStreamFileExists(key));
|
| -
|
| - SyncDoomEntry(key);
|
| - EXPECT_FALSE(SimpleCacheThirdStreamFileExists(key));
|
| -}
|
| -
|
| -// Check that we remove the third stream file upon opening an entry and finding
|
| -// the third stream empty. (This is the upgrade path for entries written
|
| -// before the third stream was optional.)
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOmittedThirdStream4) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const int kHalfSize = 8;
|
| - const int kSize = kHalfSize * 2;
|
| - const char key[] = "key";
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer1->data(), kHalfSize, false);
|
| -
|
| - disk_cache::Entry* entry;
|
| -
|
| - // Create entry, write data to third stream, truncate third stream back to
|
| - // empty, and close: third stream will not initially be omitted, since entry
|
| - // creates the file when the first significant write comes in, and only
|
| - // removes it on open if it is empty. Reopen, ensure that the file is
|
| - // deleted, and that there's no data in the third stream.
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_EQ(kHalfSize, WriteData(entry, 2, 0, buffer1, kHalfSize, true));
|
| - EXPECT_EQ(0, WriteData(entry, 2, 0, buffer1, 0, true));
|
| - entry->Close();
|
| - EXPECT_TRUE(SimpleCacheThirdStreamFileExists(key));
|
| -
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_FALSE(SimpleCacheThirdStreamFileExists(key));
|
| - EXPECT_EQ(0, ReadData(entry, 2, 0, buffer2, kSize));
|
| - entry->Close();
|
| - EXPECT_FALSE(SimpleCacheThirdStreamFileExists(key));
|
| -
|
| - SyncDoomEntry(key);
|
| - EXPECT_FALSE(SimpleCacheThirdStreamFileExists(key));
|
| -}
|
| -
|
| -// Check that we don't accidentally create the third stream file once the entry
|
| -// has been doomed.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheOmittedThirdStream5) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| -
|
| - const int kHalfSize = 8;
|
| - const int kSize = kHalfSize * 2;
|
| - const char key[] = "key";
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer->data(), kHalfSize, false);
|
| -
|
| - disk_cache::Entry* entry;
|
| -
|
| - // Create entry, doom entry, write data to third stream, and close: third
|
| - // stream should not exist. (Note: We don't care if the write fails, just
|
| - // that it doesn't cause the file to be created on disk.)
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - entry->Doom();
|
| - WriteData(entry, 2, 0, buffer, kHalfSize, true);
|
| - entry->Close();
|
| - EXPECT_FALSE(SimpleCacheThirdStreamFileExists(key));
|
| -}
|
| -
|
| -// There could be a race between Doom and an optimistic write.
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheDoomOptimisticWritesRace) {
|
| - // Test sequence:
|
| - // Create, first Write, second Write, Close.
|
| - // Open, Close.
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - disk_cache::Entry* null = NULL;
|
| - const char key[] = "the first key";
|
| -
|
| - const int kSize = 200;
|
| - scoped_refptr<net::IOBuffer> buffer1(new net::IOBuffer(kSize));
|
| - scoped_refptr<net::IOBuffer> buffer2(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer1->data(), kSize, false);
|
| - CacheTestFillBuffer(buffer2->data(), kSize, false);
|
| -
|
| - // The race only happens on stream 1 and stream 2.
|
| - for (int i = 0; i < disk_cache::kSimpleEntryStreamCount; ++i) {
|
| - ASSERT_EQ(net::OK, DoomAllEntries());
|
| - disk_cache::Entry* entry = NULL;
|
| -
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_NE(null, entry);
|
| - entry->Close();
|
| - entry = NULL;
|
| -
|
| - ASSERT_EQ(net::OK, DoomAllEntries());
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_NE(null, entry);
|
| -
|
| - int offset = 0;
|
| - int buf_len = kSize;
|
| - // This write should not be optimistic (since create is).
|
| - EXPECT_EQ(buf_len,
|
| - WriteData(entry, i, offset, buffer1.get(), buf_len, false));
|
| -
|
| - offset = kSize;
|
| - // This write should be optimistic.
|
| - EXPECT_EQ(buf_len,
|
| - WriteData(entry, i, offset, buffer2.get(), buf_len, false));
|
| - entry->Close();
|
| -
|
| - ASSERT_EQ(net::OK, OpenEntry(key, &entry));
|
| - EXPECT_NE(null, entry);
|
| -
|
| - entry->Close();
|
| - entry = NULL;
|
| - }
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheBasicSparseIO) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - BasicSparseIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheHugeSparseIO) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - HugeSparseIO();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheGetAvailableRange) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - GetAvailableRange();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, DISABLED_SimpleCacheCouldBeSparse) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - CouldBeSparse();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheUpdateSparseEntry) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - UpdateSparseEntry();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheDoomSparseEntry) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - DoomSparseEntry();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCachePartialSparseEntry) {
|
| - SetSimpleCacheMode();
|
| - InitCache();
|
| - PartialSparseEntry();
|
| -}
|
| -
|
| -TEST_F(DiskCacheEntryTest, SimpleCacheTruncateLargeSparseFile) {
|
| - const int kSize = 1024;
|
| -
|
| - SetSimpleCacheMode();
|
| - // An entry is allowed sparse data 1/10 the size of the cache, so this size
|
| - // allows for one |kSize|-sized range plus overhead, but not two ranges.
|
| - SetMaxSize(kSize * 15);
|
| - InitCache();
|
| -
|
| - const char key[] = "key";
|
| - disk_cache::Entry* null = NULL;
|
| - disk_cache::Entry* entry;
|
| - ASSERT_EQ(net::OK, CreateEntry(key, &entry));
|
| - EXPECT_NE(null, entry);
|
| -
|
| - scoped_refptr<net::IOBuffer> buffer(new net::IOBuffer(kSize));
|
| - CacheTestFillBuffer(buffer->data(), kSize, false);
|
| - net::TestCompletionCallback callback;
|
| - int ret;
|
| -
|
| - // Verify initial conditions.
|
| - ret = entry->ReadSparseData(0, buffer, kSize, callback.callback());
|
| - EXPECT_EQ(0, callback.GetResult(ret));
|
| -
|
| - ret = entry->ReadSparseData(kSize, buffer, kSize, callback.callback());
|
| - EXPECT_EQ(0, callback.GetResult(ret));
|
| -
|
| - // Write a range and make sure it reads back.
|
| - ret = entry->WriteSparseData(0, buffer, kSize, callback.callback());
|
| - EXPECT_EQ(kSize, callback.GetResult(ret));
|
| -
|
| - ret = entry->ReadSparseData(0, buffer, kSize, callback.callback());
|
| - EXPECT_EQ(kSize, callback.GetResult(ret));
|
| -
|
| - // Write another range and make sure it reads back.
|
| - ret = entry->WriteSparseData(kSize, buffer, kSize, callback.callback());
|
| - EXPECT_EQ(kSize, callback.GetResult(ret));
|
| -
|
| - ret = entry->ReadSparseData(kSize, buffer, kSize, callback.callback());
|
| - EXPECT_EQ(kSize, callback.GetResult(ret));
|
| -
|
| - // Make sure the first range was removed when the second was written.
|
| - ret = entry->ReadSparseData(0, buffer, kSize, callback.callback());
|
| - EXPECT_EQ(0, callback.GetResult(ret));
|
| -
|
| - entry->Close();
|
| -}
|
| -
|
| -#endif // defined(OS_POSIX)
|
|
|
Chromium Code Reviews
Issue 127083002:
**STILLBAKING** Decouple disk cache tests from backends. (Closed)
Base URL: svn://svn.chromium.org/chrome/trunk/src