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chromium / chromium / src.git / 4eef337a54cd51af5d2d12a1dd32f5581ef265d4 / . / net / disk_cache / simple / simple_index_file_unittest.cc
blob: a162ca7e56482eb5ee5b3d669db12e552f2be369 [file] [log] [blame]
// Copyright (c) 2011 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/disk_cache/simple/simple_index_file.h"
#include <memory>
#include "base/check.h"
#include "base/files/file.h"
#include "base/files/file_util.h"
#include "base/files/scoped_temp_dir.h"
#include "base/hash/hash.h"
#include "base/location.h"
#include "base/pickle.h"
#include "base/run_loop.h"
#include "base/single_thread_task_runner.h"
#include "base/stl_util.h"
#include "base/threading/thread.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/time/time.h"
#include "net/base/cache_type.h"
#include "net/base/test_completion_callback.h"
#include "net/disk_cache/backend_cleanup_tracker.h"
#include "net/disk_cache/disk_cache_test_util.h"
#include "net/disk_cache/simple/simple_backend_impl.h"
#include "net/disk_cache/simple/simple_backend_version.h"
#include "net/disk_cache/simple/simple_entry_format.h"
#include "net/disk_cache/simple/simple_index.h"
#include "net/disk_cache/simple/simple_util.h"
#include "net/disk_cache/simple/simple_version_upgrade.h"
#include "net/test/gtest_util.h"
#include "net/test/test_with_task_environment.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
using net::test::IsOk;
using base::Time;
using disk_cache::SimpleIndexFile;
using disk_cache::SimpleIndex;
namespace disk_cache {
namespace {
uint32_t RoundSize(uint32_t in) {
return (in + 0xFFu) & 0xFFFFFF00u;
}
} // namespace
TEST(IndexMetadataTest, Basics) {
SimpleIndexFile::IndexMetadata index_metadata;
EXPECT_EQ(disk_cache::kSimpleIndexMagicNumber, index_metadata.magic_number_);
EXPECT_EQ(disk_cache::kSimpleVersion, index_metadata.version_);
EXPECT_EQ(0U, index_metadata.entry_count());
EXPECT_EQ(0U, index_metadata.cache_size_);
// Without setting a |reason_|, the index metadata isn't valid.
index_metadata.reason_ = SimpleIndex::INDEX_WRITE_REASON_SHUTDOWN;
EXPECT_TRUE(index_metadata.CheckIndexMetadata());
}
TEST(IndexMetadataTest, Serialize) {
SimpleIndexFile::IndexMetadata index_metadata(
SimpleIndex::INDEX_WRITE_REASON_SHUTDOWN, 123, 456);
base::Pickle pickle;
index_metadata.Serialize(&pickle);
base::PickleIterator it(pickle);
SimpleIndexFile::IndexMetadata new_index_metadata;
new_index_metadata.Deserialize(&it);
EXPECT_EQ(new_index_metadata.magic_number_, index_metadata.magic_number_);
EXPECT_EQ(new_index_metadata.version_, index_metadata.version_);
EXPECT_EQ(new_index_metadata.reason_, index_metadata.reason_);
EXPECT_EQ(new_index_metadata.entry_count(), index_metadata.entry_count());
EXPECT_EQ(new_index_metadata.cache_size_, index_metadata.cache_size_);
EXPECT_TRUE(new_index_metadata.CheckIndexMetadata());
}
// This derived index metadata class allows us to serialize the older V6 format
// of the index metadata, thus allowing us to test deserializing the old format.
class V6IndexMetadataForTest : public SimpleIndexFile::IndexMetadata {
public:
// Do not default to |SimpleIndex::INDEX_WRITE_REASON_MAX|, because we want to
// ensure we don't serialize that value and then deserialize it and have a
// false positive result.
V6IndexMetadataForTest(uint64_t entry_count, uint64_t cache_size)
: SimpleIndexFile::IndexMetadata(SimpleIndex::INDEX_WRITE_REASON_SHUTDOWN,
entry_count,
cache_size) {
version_ = 6;
}
// Copied and pasted from the V6 implementation of
// |SimpleIndexFile::IndexMetadata()| (removing DCHECKs).
void Serialize(base::Pickle* pickle) const override {
pickle->WriteUInt64(magic_number_);
pickle->WriteUInt32(version_);
pickle->WriteUInt64(entry_count_);
pickle->WriteUInt64(cache_size_);
}
};
TEST(IndexMetadataTest, ReadV6Format) {
V6IndexMetadataForTest v6_index_metadata(123, 456);
EXPECT_EQ(6U, v6_index_metadata.version_);
base::Pickle pickle;
v6_index_metadata.Serialize(&pickle);
base::PickleIterator it(pickle);
SimpleIndexFile::IndexMetadata new_index_metadata;
new_index_metadata.Deserialize(&it);
EXPECT_EQ(new_index_metadata.magic_number_, v6_index_metadata.magic_number_);
EXPECT_EQ(new_index_metadata.version_, v6_index_metadata.version_);
EXPECT_EQ(new_index_metadata.reason_, SimpleIndex::INDEX_WRITE_REASON_MAX);
EXPECT_EQ(new_index_metadata.entry_count(), v6_index_metadata.entry_count());
EXPECT_EQ(new_index_metadata.cache_size_, v6_index_metadata.cache_size_);
EXPECT_TRUE(new_index_metadata.CheckIndexMetadata());
}
// This derived index metadata class allows us to serialize the older V7 format
// of the index metadata, thus allowing us to test deserializing the old format.
class V7IndexMetadataForTest : public SimpleIndexFile::IndexMetadata {
public:
V7IndexMetadataForTest(uint64_t entry_count, uint64_t cache_size)
: SimpleIndexFile::IndexMetadata(SimpleIndex::INDEX_WRITE_REASON_SHUTDOWN,
entry_count,
cache_size) {
version_ = 7;
}
};
class V8IndexMetadataForTest : public SimpleIndexFile::IndexMetadata {
public:
V8IndexMetadataForTest(uint64_t entry_count, uint64_t cache_size)
: SimpleIndexFile::IndexMetadata(SimpleIndex::INDEX_WRITE_REASON_SHUTDOWN,
entry_count,
cache_size) {
version_ = 8;
}
};
// This friend derived class is able to reexport its ancestors private methods
// as public, for use in tests.
class WrappedSimpleIndexFile : public SimpleIndexFile {
public:
using SimpleIndexFile::Deserialize;
using SimpleIndexFile::LegacyIsIndexFileStale;
using SimpleIndexFile::Serialize;
using SimpleIndexFile::SerializeFinalData;
explicit WrappedSimpleIndexFile(const base::FilePath& index_file_directory)
: SimpleIndexFile(base::ThreadTaskRunnerHandle::Get(),
base::ThreadTaskRunnerHandle::Get(),
net::DISK_CACHE,
index_file_directory) {}
~WrappedSimpleIndexFile() override = default;
const base::FilePath& GetIndexFilePath() const {
return index_file_;
}
const base::FilePath& GetTempIndexFilePath() const {
return temp_index_file_;
}
bool CreateIndexFileDirectory() const {
return base::CreateDirectory(index_file_.DirName());
}
};
class SimpleIndexFileTest : public net::TestWithTaskEnvironment {
public:
bool CompareTwoEntryMetadata(const EntryMetadata& a, const EntryMetadata& b) {
return a.last_used_time_seconds_since_epoch_ ==
b.last_used_time_seconds_since_epoch_ &&
a.entry_size_256b_chunks_ == b.entry_size_256b_chunks_ &&
a.in_memory_data_ == b.in_memory_data_;
}
bool CompareTwoAppCacheEntryMetadata(const EntryMetadata& a,
const EntryMetadata& b) {
return a.trailer_prefetch_size_ == b.trailer_prefetch_size_ &&
a.entry_size_256b_chunks_ == b.entry_size_256b_chunks_ &&
a.in_memory_data_ == b.in_memory_data_;
}
};
TEST_F(SimpleIndexFileTest, Serialize) {
SimpleIndex::EntrySet entries;
static const uint64_t kHashes[] = {11, 22, 33};
static const size_t kNumHashes = base::size(kHashes);
EntryMetadata metadata_entries[kNumHashes];
SimpleIndexFile::IndexMetadata index_metadata(
SimpleIndex::INDEX_WRITE_REASON_SHUTDOWN,
static_cast<uint64_t>(kNumHashes), 456);
for (size_t i = 0; i < kNumHashes; ++i) {
uint64_t hash = kHashes[i];
// TODO(eroman): Should restructure the test so no casting here (and same
// elsewhere where a hash is cast to an entry size).
metadata_entries[i] = EntryMetadata(Time(), static_cast<uint32_t>(hash));
metadata_entries[i].SetInMemoryData(static_cast<uint8_t>(i));
SimpleIndex::InsertInEntrySet(hash, metadata_entries[i], &entries);
}
std::unique_ptr<base::Pickle> pickle = WrappedSimpleIndexFile::Serialize(
net::DISK_CACHE, index_metadata, entries);
EXPECT_TRUE(pickle.get() != nullptr);
base::Time now = base::Time::Now();
WrappedSimpleIndexFile::SerializeFinalData(now, pickle.get());
base::Time when_index_last_saw_cache;
SimpleIndexLoadResult deserialize_result;
WrappedSimpleIndexFile::Deserialize(
net::DISK_CACHE, static_cast<const char*>(pickle->data()), pickle->size(),
&when_index_last_saw_cache, &deserialize_result);
EXPECT_TRUE(deserialize_result.did_load);
EXPECT_EQ(now, when_index_last_saw_cache);
const SimpleIndex::EntrySet& new_entries = deserialize_result.entries;
EXPECT_EQ(entries.size(), new_entries.size());
for (size_t i = 0; i < kNumHashes; ++i) {
auto it = new_entries.find(kHashes[i]);
EXPECT_TRUE(new_entries.end() != it);
EXPECT_TRUE(CompareTwoEntryMetadata(it->second, metadata_entries[i]));
}
}
TEST_F(SimpleIndexFileTest, SerializeAppCache) {
SimpleIndex::EntrySet entries;
static const uint64_t kHashes[] = {11, 22, 33};
static const size_t kNumHashes = base::size(kHashes);
static const int32_t kTrailerPrefetches[] = {123, -1, 987};
EntryMetadata metadata_entries[kNumHashes];
SimpleIndexFile::IndexMetadata index_metadata(
SimpleIndex::INDEX_WRITE_REASON_SHUTDOWN,
static_cast<uint64_t>(kNumHashes), 456);
for (size_t i = 0; i < kNumHashes; ++i) {
uint64_t hash = kHashes[i];
metadata_entries[i] =
EntryMetadata(kTrailerPrefetches[i], static_cast<uint32_t>(hash));
metadata_entries[i].SetInMemoryData(static_cast<uint8_t>(i));
SimpleIndex::InsertInEntrySet(hash, metadata_entries[i], &entries);
}
std::unique_ptr<base::Pickle> pickle = WrappedSimpleIndexFile::Serialize(
net::APP_CACHE, index_metadata, entries);
EXPECT_TRUE(pickle.get() != nullptr);
base::Time now = base::Time::Now();
WrappedSimpleIndexFile::SerializeFinalData(now, pickle.get());
base::Time when_index_last_saw_cache;
SimpleIndexLoadResult deserialize_result;
WrappedSimpleIndexFile::Deserialize(
net::APP_CACHE, static_cast<const char*>(pickle->data()), pickle->size(),
&when_index_last_saw_cache, &deserialize_result);
EXPECT_TRUE(deserialize_result.did_load);
EXPECT_EQ(now, when_index_last_saw_cache);
const SimpleIndex::EntrySet& new_entries = deserialize_result.entries;
EXPECT_EQ(entries.size(), new_entries.size());
for (size_t i = 0; i < kNumHashes; ++i) {
auto it = new_entries.find(kHashes[i]);
EXPECT_TRUE(new_entries.end() != it);
EXPECT_TRUE(
CompareTwoAppCacheEntryMetadata(it->second, metadata_entries[i]));
}
}
TEST_F(SimpleIndexFileTest, ReadV7Format) {
static const uint64_t kHashes[] = {11, 22, 33};
static const uint32_t kSizes[] = {394, 594, 495940};
static_assert(base::size(kHashes) == base::size(kSizes),
"Need same number of hashes and sizes");
static const size_t kNumHashes = base::size(kHashes);
V7IndexMetadataForTest v7_metadata(kNumHashes, 100 * 1024 * 1024);
// We don't have a convenient way of serializing the actual entries in the
// V7 format, but we can cheat a bit by using the implementation details: if
// we set the 8 lower bits of size as the memory data, and upper bits
// as the size, the new serialization will produce what we want.
SimpleIndex::EntrySet entries;
for (size_t i = 0; i < kNumHashes; ++i) {
EntryMetadata entry(Time(), kSizes[i] & 0xFFFFFF00u);
entry.SetInMemoryData(static_cast<uint8_t>(kSizes[i] & 0xFFu));
SimpleIndex::InsertInEntrySet(kHashes[i], entry, &entries);
}
std::unique_ptr<base::Pickle> pickle =
WrappedSimpleIndexFile::Serialize(net::DISK_CACHE, v7_metadata, entries);
ASSERT_TRUE(pickle.get() != nullptr);
base::Time now = base::Time::Now();
WrappedSimpleIndexFile::SerializeFinalData(now, pickle.get());
// Now read it back. We should get the sizes rounded, and 0 for mem entries.
base::Time when_index_last_saw_cache;
SimpleIndexLoadResult deserialize_result;
WrappedSimpleIndexFile::Deserialize(
net::DISK_CACHE, static_cast<const char*>(pickle->data()), pickle->size(),
&when_index_last_saw_cache, &deserialize_result);
EXPECT_TRUE(deserialize_result.did_load);
EXPECT_EQ(now, when_index_last_saw_cache);
const SimpleIndex::EntrySet& new_entries = deserialize_result.entries;
ASSERT_EQ(entries.size(), new_entries.size());
for (size_t i = 0; i < kNumHashes; ++i) {
auto it = new_entries.find(kHashes[i]);
ASSERT_TRUE(new_entries.end() != it);
EXPECT_EQ(RoundSize(kSizes[i]), it->second.GetEntrySize());
EXPECT_EQ(0u, it->second.GetInMemoryData());
}
}
TEST_F(SimpleIndexFileTest, ReadV8Format) {
static const uint64_t kHashes[] = {11, 22, 33};
static const uint32_t kSizes[] = {394, 594, 495940};
static_assert(base::size(kHashes) == base::size(kSizes),
"Need same number of hashes and sizes");
static const size_t kNumHashes = base::size(kHashes);
// V8 to V9 should not make any modifications for non-APP_CACHE modes.
// Verify that the data is preserved through the migration.
V8IndexMetadataForTest v8_metadata(kNumHashes, 100 * 1024 * 1024);
EntryMetadata metadata_entries[kNumHashes];
SimpleIndex::EntrySet entries;
for (size_t i = 0; i < kNumHashes; ++i) {
metadata_entries[i] =
EntryMetadata(base::Time::Now(), static_cast<uint32_t>(kHashes[i]));
metadata_entries[i].SetInMemoryData(static_cast<uint8_t>(i));
SimpleIndex::InsertInEntrySet(kHashes[i], metadata_entries[i], &entries);
}
std::unique_ptr<base::Pickle> pickle =
WrappedSimpleIndexFile::Serialize(net::DISK_CACHE, v8_metadata, entries);
ASSERT_TRUE(pickle.get() != nullptr);
base::Time now = base::Time::Now();
WrappedSimpleIndexFile::SerializeFinalData(now, pickle.get());
base::Time when_index_last_saw_cache;
SimpleIndexLoadResult deserialize_result;
WrappedSimpleIndexFile::Deserialize(
net::DISK_CACHE, static_cast<const char*>(pickle->data()), pickle->size(),
&when_index_last_saw_cache, &deserialize_result);
EXPECT_TRUE(deserialize_result.did_load);
EXPECT_EQ(now, when_index_last_saw_cache);
const SimpleIndex::EntrySet& new_entries = deserialize_result.entries;
ASSERT_EQ(entries.size(), new_entries.size());
for (size_t i = 0; i < kNumHashes; ++i) {
auto it = new_entries.find(kHashes[i]);
ASSERT_TRUE(new_entries.end() != it);
EXPECT_TRUE(CompareTwoEntryMetadata(it->second, metadata_entries[i]));
}
}
TEST_F(SimpleIndexFileTest, ReadV8FormatAppCache) {
static const uint64_t kHashes[] = {11, 22, 33};
static const uint32_t kSizes[] = {394, 594, 495940};
static_assert(base::size(kHashes) == base::size(kSizes),
"Need same number of hashes and sizes");
static const size_t kNumHashes = base::size(kHashes);
// To simulate an upgrade from v8 to v9 write out the v8 schema
// using DISK_CACHE mode. The read it back in in APP_CACHE mode.
// The entry access time data should be zeroed to reset it as the
// new trailer prefetch size.
V8IndexMetadataForTest v8_metadata(kNumHashes, 100 * 1024 * 1024);
EntryMetadata metadata_entries[kNumHashes];
SimpleIndex::EntrySet entries;
for (size_t i = 0; i < kNumHashes; ++i) {
metadata_entries[i] =
EntryMetadata(base::Time::Now(), static_cast<uint32_t>(kHashes[i]));
metadata_entries[i].SetInMemoryData(static_cast<uint8_t>(i));
SimpleIndex::InsertInEntrySet(kHashes[i], metadata_entries[i], &entries);
}
std::unique_ptr<base::Pickle> pickle =
WrappedSimpleIndexFile::Serialize(net::DISK_CACHE, v8_metadata, entries);
ASSERT_TRUE(pickle.get() != nullptr);
base::Time now = base::Time::Now();
WrappedSimpleIndexFile::SerializeFinalData(now, pickle.get());
// Deserialize using APP_CACHE mode. This should zero out the
// trailer_prefetch_size_ instead of using the time bits written
// out previously.
base::Time when_index_last_saw_cache;
SimpleIndexLoadResult deserialize_result;
WrappedSimpleIndexFile::Deserialize(
net::APP_CACHE, static_cast<const char*>(pickle->data()), pickle->size(),
&when_index_last_saw_cache, &deserialize_result);
EXPECT_TRUE(deserialize_result.did_load);
EXPECT_EQ(now, when_index_last_saw_cache);
const SimpleIndex::EntrySet& new_entries = deserialize_result.entries;
ASSERT_EQ(entries.size(), new_entries.size());
for (size_t i = 0; i < kNumHashes; ++i) {
auto it = new_entries.find(kHashes[i]);
ASSERT_TRUE(new_entries.end() != it);
// The trailer prefetch size should be zeroed.
EXPECT_NE(metadata_entries[i].trailer_prefetch_size_,
it->second.trailer_prefetch_size_);
EXPECT_EQ(0, it->second.trailer_prefetch_size_);
// Other data should be unaffected.
EXPECT_EQ(metadata_entries[i].entry_size_256b_chunks_,
it->second.entry_size_256b_chunks_);
EXPECT_EQ(metadata_entries[i].in_memory_data_, it->second.in_memory_data_);
}
}
TEST_F(SimpleIndexFileTest, LegacyIsIndexFileStale) {
base::ScopedTempDir cache_dir;
ASSERT_TRUE(cache_dir.CreateUniqueTempDir());
base::Time cache_mtime;
const base::FilePath cache_path = cache_dir.GetPath();
ASSERT_TRUE(simple_util::GetMTime(cache_path, &cache_mtime));
WrappedSimpleIndexFile simple_index_file(cache_path);
ASSERT_TRUE(simple_index_file.CreateIndexFileDirectory());
const base::FilePath& index_path = simple_index_file.GetIndexFilePath();
EXPECT_TRUE(
WrappedSimpleIndexFile::LegacyIsIndexFileStale(cache_mtime, index_path));
const std::string kDummyData = "nothing to be seen here";
EXPECT_EQ(static_cast<int>(kDummyData.size()),
base::WriteFile(index_path,
kDummyData.data(), kDummyData.size()));
ASSERT_TRUE(simple_util::GetMTime(cache_path, &cache_mtime));
EXPECT_FALSE(
WrappedSimpleIndexFile::LegacyIsIndexFileStale(cache_mtime, index_path));
const base::Time past_time = base::Time::Now() -
base::TimeDelta::FromSeconds(10);
EXPECT_TRUE(base::TouchFile(index_path, past_time, past_time));
EXPECT_TRUE(base::TouchFile(cache_path, past_time, past_time));
ASSERT_TRUE(simple_util::GetMTime(cache_path, &cache_mtime));
EXPECT_FALSE(
WrappedSimpleIndexFile::LegacyIsIndexFileStale(cache_mtime, index_path));
const base::Time even_older = past_time - base::TimeDelta::FromSeconds(10);
EXPECT_TRUE(base::TouchFile(index_path, even_older, even_older));
EXPECT_TRUE(
WrappedSimpleIndexFile::LegacyIsIndexFileStale(cache_mtime, index_path));
}
TEST_F(SimpleIndexFileTest, WriteThenLoadIndex) {
base::ScopedTempDir cache_dir;
ASSERT_TRUE(cache_dir.CreateUniqueTempDir());
SimpleIndex::EntrySet entries;
static const uint64_t kHashes[] = {11, 22, 33};
static const size_t kNumHashes = base::size(kHashes);
EntryMetadata metadata_entries[kNumHashes];
for (size_t i = 0; i < kNumHashes; ++i) {
uint64_t hash = kHashes[i];
metadata_entries[i] = EntryMetadata(Time(), static_cast<uint32_t>(hash));
SimpleIndex::InsertInEntrySet(hash, metadata_entries[i], &entries);
}
const uint64_t kCacheSize = 456U;
net::TestClosure closure;
{
WrappedSimpleIndexFile simple_index_file(cache_dir.GetPath());
simple_index_file.WriteToDisk(net::DISK_CACHE,
SimpleIndex::INDEX_WRITE_REASON_SHUTDOWN,
entries, kCacheSize, closure.closure());
closure.WaitForResult();
EXPECT_TRUE(base::PathExists(simple_index_file.GetIndexFilePath()));
}
WrappedSimpleIndexFile simple_index_file(cache_dir.GetPath());
base::Time fake_cache_mtime;
ASSERT_TRUE(simple_util::GetMTime(cache_dir.GetPath(), &fake_cache_mtime));
SimpleIndexLoadResult load_index_result;
simple_index_file.LoadIndexEntries(fake_cache_mtime, closure.closure(),
&load_index_result);
closure.WaitForResult();
EXPECT_TRUE(base::PathExists(simple_index_file.GetIndexFilePath()));
EXPECT_TRUE(load_index_result.did_load);
EXPECT_FALSE(load_index_result.flush_required);
EXPECT_EQ(kNumHashes, load_index_result.entries.size());
for (size_t i = 0; i < kNumHashes; ++i)
EXPECT_EQ(1U, load_index_result.entries.count(kHashes[i]));
}
TEST_F(SimpleIndexFileTest, LoadCorruptIndex) {
base::ScopedTempDir cache_dir;
ASSERT_TRUE(cache_dir.CreateUniqueTempDir());
WrappedSimpleIndexFile simple_index_file(cache_dir.GetPath());
ASSERT_TRUE(simple_index_file.CreateIndexFileDirectory());
const base::FilePath& index_path = simple_index_file.GetIndexFilePath();
const std::string kDummyData = "nothing to be seen here";
EXPECT_EQ(static_cast<int>(kDummyData.size()),
base::WriteFile(index_path, kDummyData.data(), kDummyData.size()));
base::Time fake_cache_mtime;
ASSERT_TRUE(simple_util::GetMTime(simple_index_file.GetIndexFilePath(),
&fake_cache_mtime));
EXPECT_FALSE(WrappedSimpleIndexFile::LegacyIsIndexFileStale(fake_cache_mtime,
index_path));
SimpleIndexLoadResult load_index_result;
net::TestClosure closure;
simple_index_file.LoadIndexEntries(fake_cache_mtime, closure.closure(),
&load_index_result);
closure.WaitForResult();
EXPECT_FALSE(base::PathExists(index_path));
EXPECT_TRUE(load_index_result.did_load);
EXPECT_TRUE(load_index_result.flush_required);
}
TEST_F(SimpleIndexFileTest, LoadCorruptIndex2) {
// Variant where the index looks like a pickle, but not one with right
// header size --- that used to hit a DCHECK on debug builds.
base::ScopedTempDir cache_dir;
ASSERT_TRUE(cache_dir.CreateUniqueTempDir());
WrappedSimpleIndexFile simple_index_file(cache_dir.GetPath());
ASSERT_TRUE(simple_index_file.CreateIndexFileDirectory());
const base::FilePath& index_path = simple_index_file.GetIndexFilePath();
base::Pickle bad_payload;
bad_payload.WriteString("nothing to be seen here");
EXPECT_EQ(
static_cast<int>(bad_payload.size()),
base::WriteFile(index_path, static_cast<const char*>(bad_payload.data()),
bad_payload.size()));
base::Time fake_cache_mtime;
ASSERT_TRUE(simple_util::GetMTime(simple_index_file.GetIndexFilePath(),
&fake_cache_mtime));
EXPECT_FALSE(WrappedSimpleIndexFile::LegacyIsIndexFileStale(fake_cache_mtime,
index_path));
SimpleIndexLoadResult load_index_result;
net::TestClosure closure;
simple_index_file.LoadIndexEntries(fake_cache_mtime, closure.closure(),
&load_index_result);
closure.WaitForResult();
EXPECT_FALSE(base::PathExists(index_path));
EXPECT_TRUE(load_index_result.did_load);
EXPECT_TRUE(load_index_result.flush_required);
}
// Tests that after an upgrade the backend has the index file put in place.
TEST_F(SimpleIndexFileTest, SimpleCacheUpgrade) {
base::ScopedTempDir cache_dir;
ASSERT_TRUE(cache_dir.CreateUniqueTempDir());
const base::FilePath cache_path = cache_dir.GetPath();
// Write an old fake index file.
base::File file(cache_path.AppendASCII("index"),
base::File::FLAG_CREATE | base::File::FLAG_WRITE);
ASSERT_TRUE(file.IsValid());
disk_cache::FakeIndexData file_contents;
file_contents.initial_magic_number = disk_cache::kSimpleInitialMagicNumber;
file_contents.version = 5;
int bytes_written = file.Write(0, reinterpret_cast<char*>(&file_contents),
sizeof(file_contents));
ASSERT_EQ((int)sizeof(file_contents), bytes_written);
file.Close();
// Write the index file. The format is incorrect, but for transitioning from
// v5 it does not matter.
const std::string index_file_contents("incorrectly serialized data");
const base::FilePath old_index_file =
cache_path.AppendASCII("the-real-index");
ASSERT_EQ(static_cast<int>(index_file_contents.size()),
base::WriteFile(old_index_file, index_file_contents.data(),
index_file_contents.size()));
// Upgrade the cache.
ASSERT_EQ(disk_cache::UpgradeSimpleCacheOnDisk(cache_path),
SimpleCacheConsistencyResult::kOK);
// Create the backend and initiate index flush by destroying the backend.
scoped_refptr<disk_cache::BackendCleanupTracker> cleanup_tracker =
disk_cache::BackendCleanupTracker::TryCreate(cache_path,
base::OnceClosure());
ASSERT_TRUE(cleanup_tracker != nullptr);
net::TestClosure post_cleanup;
cleanup_tracker->AddPostCleanupCallback(post_cleanup.closure());
disk_cache::SimpleBackendImpl* simple_cache =
new disk_cache::SimpleBackendImpl(
cache_path, cleanup_tracker, /* file_tracker = */ nullptr, 0,
net::DISK_CACHE, /* net_log = */ nullptr);
net::TestCompletionCallback cb;
int rv = simple_cache->Init(cb.callback());
EXPECT_THAT(cb.GetResult(rv), IsOk());
simple_cache->index()->ExecuteWhenReady(cb.callback());
rv = cb.WaitForResult();
EXPECT_THAT(rv, IsOk());
delete simple_cache;
cleanup_tracker = nullptr;
// The backend flushes the index on destruction; it will run the post-cleanup
// callback set on the cleanup_tracker once that finishes.
post_cleanup.WaitForResult();
// Verify that the index file exists.
const base::FilePath& index_file_path =
cache_path.AppendASCII("index-dir").AppendASCII("the-real-index");
EXPECT_TRUE(base::PathExists(index_file_path));
// Verify that the version of the index file is correct.
std::string contents;
EXPECT_TRUE(base::ReadFileToString(index_file_path, &contents));
base::Time when_index_last_saw_cache;
SimpleIndexLoadResult deserialize_result;
WrappedSimpleIndexFile::Deserialize(
net::DISK_CACHE, contents.data(), contents.size(),
&when_index_last_saw_cache, &deserialize_result);
EXPECT_TRUE(deserialize_result.did_load);
}
TEST_F(SimpleIndexFileTest, OverwritesStaleTempFile) {
base::ScopedTempDir cache_dir;
ASSERT_TRUE(cache_dir.CreateUniqueTempDir());
const base::FilePath cache_path = cache_dir.GetPath();
WrappedSimpleIndexFile simple_index_file(cache_path);
ASSERT_TRUE(simple_index_file.CreateIndexFileDirectory());
// Create an temporary index file.
const base::FilePath& temp_index_path =
simple_index_file.GetTempIndexFilePath();
const std::string kDummyData = "nothing to be seen here";
EXPECT_EQ(
static_cast<int>(kDummyData.size()),
base::WriteFile(temp_index_path, kDummyData.data(), kDummyData.size()));
ASSERT_TRUE(base::PathExists(simple_index_file.GetTempIndexFilePath()));
// Write the index file.
SimpleIndex::EntrySet entries;
SimpleIndex::InsertInEntrySet(11, EntryMetadata(Time(), 11u), &entries);
net::TestClosure closure;
simple_index_file.WriteToDisk(net::DISK_CACHE,
SimpleIndex::INDEX_WRITE_REASON_SHUTDOWN,
entries, 120U, closure.closure());
closure.WaitForResult();
// Check that the temporary file was deleted and the index file was created.
EXPECT_FALSE(base::PathExists(simple_index_file.GetTempIndexFilePath()));
EXPECT_TRUE(base::PathExists(simple_index_file.GetIndexFilePath()));
}
} // namespace disk_cache