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chromium / chromium / src / lkgr-android-internal / . / storage / browser / file_system / dragged_file_util_unittest.cc
blob: 33ec6de3762835e9b49832e4022031f632dcc379 [file] [log] [blame]
// Copyright 2013 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "storage/browser/file_system/dragged_file_util.h"
#include <stddef.h>
#include <array>
#include <map>
#include <memory>
#include <set>
#include <string>
#include <vector>
#include "base/check.h"
#include "base/containers/contains.h"
#include "base/containers/queue.h"
#include "base/files/file_enumerator.h"
#include "base/files/file_util.h"
#include "base/files/scoped_temp_dir.h"
#include "base/task/single_thread_task_runner.h"
#include "base/test/task_environment.h"
#include "base/time/time.h"
#include "build/build_config.h"
#include "components/services/filesystem/public/mojom/types.mojom.h"
#include "storage/browser/file_system/file_system_context.h"
#include "storage/browser/file_system/file_system_operation_context.h"
#include "storage/browser/file_system/isolated_context.h"
#include "storage/browser/file_system/local_file_util.h"
#include "storage/browser/file_system/native_file_util.h"
#include "storage/browser/quota/quota_manager_proxy.h"
#include "storage/browser/test/async_file_test_helper.h"
#include "storage/browser/test/file_system_test_file_set.h"
#include "storage/browser/test/mock_quota_manager.h"
#include "storage/browser/test/mock_quota_manager_proxy.h"
#include "storage/browser/test/mock_special_storage_policy.h"
#include "storage/browser/test/test_file_system_context.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/blink/public/common/storage_key/storage_key.h"
#include "url/gurl.h"
namespace storage {
namespace {
using FileEntryList = AsyncFileTestHelper::FileEntryList;
// Used in DraggedFileUtilTest::SimulateDropFiles().
// Random root paths in which we create each file/directory of the
// RegularTestCases (so that we can simulate a drop with files/directories
// from multiple directories).
constexpr std::array kRootPaths{
FILE_PATH_LITERAL("a"),
FILE_PATH_LITERAL("b/c"),
FILE_PATH_LITERAL("etc"),
};
base::FilePath GetTopLevelPath(const base::FilePath& path) {
return base::FilePath(path.GetComponents()[0]);
}
bool IsDirectoryEmpty(FileSystemContext* context, const FileSystemURL& url) {
FileEntryList entries;
EXPECT_EQ(base::File::FILE_OK,
AsyncFileTestHelper::ReadDirectory(context, url, &entries));
return entries.empty();
}
FileSystemURL GetEntryURL(FileSystemContext* file_system_context,
const FileSystemURL& dir,
const base::FilePath::StringType& name) {
return file_system_context->CreateCrackedFileSystemURL(
dir.storage_key(), dir.mount_type(), dir.virtual_path().Append(name));
}
base::FilePath GetRelativeVirtualPath(const FileSystemURL& root,
const FileSystemURL& url) {
if (root.virtual_path().empty())
return url.virtual_path();
base::FilePath relative;
const bool success =
root.virtual_path().AppendRelativePath(url.virtual_path(), &relative);
DCHECK(success);
return relative;
}
FileSystemURL GetOtherURL(FileSystemContext* file_system_context,
const FileSystemURL& root,
const FileSystemURL& other_root,
const FileSystemURL& url) {
return file_system_context->CreateCrackedFileSystemURL(
other_root.storage_key(), other_root.mount_type(),
other_root.virtual_path().Append(GetRelativeVirtualPath(root, url)));
}
} // namespace
class DraggedFileUtilTest : public testing::Test {
public:
DraggedFileUtilTest() = default;
DraggedFileUtilTest(const DraggedFileUtilTest&) = delete;
DraggedFileUtilTest& operator=(const DraggedFileUtilTest&) = delete;
void SetUp() override {
ASSERT_TRUE(data_dir_.CreateUniqueTempDir());
ASSERT_TRUE(partition_dir_.CreateUniqueTempDir());
file_util_ = std::make_unique<DraggedFileUtil>();
// Register the files/directories of RegularTestCases (with random
// root paths) as dropped files.
SimulateDropFiles();
base::FilePath partition_path = partition_dir_.GetPath();
quota_manager_ = base::MakeRefCounted<storage::MockQuotaManager>(
/*is_incognito=*/false, partition_path,
base::SingleThreadTaskRunner::GetCurrentDefault(),
base::MakeRefCounted<storage::MockSpecialStoragePolicy>());
quota_manager_proxy_ = base::MakeRefCounted<storage::MockQuotaManagerProxy>(
quota_manager_.get(),
base::SingleThreadTaskRunner::GetCurrentDefault());
// Prepare file system.
file_system_context_ = storage::CreateFileSystemContextForTesting(
quota_manager_proxy_.get(), partition_path);
isolated_context()->AddReference(filesystem_id_);
}
void TearDown() override {
isolated_context()->RemoveReference(filesystem_id_);
}
protected:
IsolatedContext* isolated_context() const {
return IsolatedContext::GetInstance();
}
const base::FilePath& root_path() const { return data_dir_.GetPath(); }
FileSystemContext* file_system_context() const {
return file_system_context_.get();
}
FileSystemFileUtil* file_util() const { return file_util_.get(); }
std::string filesystem_id() const { return filesystem_id_; }
base::FilePath GetTestCasePlatformPath(
const base::FilePath::StringType& path) {
return toplevel_root_map_[GetTopLevelPath(base::FilePath(path))]
.Append(path)
.NormalizePathSeparators();
}
base::FilePath GetTestCaseLocalPath(const base::FilePath& path) {
base::FilePath relative;
if (data_dir_.GetPath().AppendRelativePath(path, &relative))
return relative;
return path;
}
FileSystemURL GetFileSystemURL(const base::FilePath& path) const {
base::FilePath virtual_path =
isolated_context()->CreateVirtualRootPath(filesystem_id()).Append(path);
return file_system_context_->CreateCrackedFileSystemURL(
blink::StorageKey::CreateFromStringForTesting("http://example.com"),
kFileSystemTypeIsolated, virtual_path);
}
FileSystemURL GetOtherFileSystemURL(const base::FilePath& path) const {
return file_system_context()->CreateCrackedFileSystemURL(
blink::StorageKey::CreateFromStringForTesting("http://example.com"),
kFileSystemTypeTemporary,
base::FilePath().AppendASCII("dest").Append(path));
}
void VerifyFilesHaveSameContent(const FileSystemURL& url1,
const FileSystemURL& url2) {
// Get the file info and the platform path for url1.
base::File::Info info1;
ASSERT_EQ(base::File::FILE_OK, AsyncFileTestHelper::GetMetadata(
file_system_context(), url1, &info1));
base::FilePath platform_path1;
ASSERT_EQ(base::File::FILE_OK,
AsyncFileTestHelper::GetPlatformPath(file_system_context(), url1,
&platform_path1));
// Get the file info and the platform path for url2.
base::File::Info info2;
ASSERT_EQ(base::File::FILE_OK, AsyncFileTestHelper::GetMetadata(
file_system_context(), url2, &info2));
base::FilePath platform_path2;
ASSERT_EQ(base::File::FILE_OK,
AsyncFileTestHelper::GetPlatformPath(file_system_context(), url2,
&platform_path2));
// See if file info matches with the other one.
EXPECT_EQ(info1.is_directory, info2.is_directory);
EXPECT_EQ(info1.size, info2.size);
EXPECT_EQ(info1.is_symbolic_link, info2.is_symbolic_link);
EXPECT_NE(platform_path1, platform_path2);
std::string content1, content2;
EXPECT_TRUE(base::ReadFileToString(platform_path1, &content1));
EXPECT_TRUE(base::ReadFileToString(platform_path2, &content2));
EXPECT_EQ(content1, content2);
}
void VerifyDirectoriesHaveSameContent(const FileSystemURL& root1,
const FileSystemURL& root2) {
base::FilePath root_path1 = root1.path();
base::FilePath root_path2 = root2.path();
FileEntryList entries;
base::queue<FileSystemURL> directories;
directories.push(root1);
std::set<base::FilePath> file_set1;
while (!directories.empty()) {
FileSystemURL dir = directories.front();
directories.pop();
ASSERT_EQ(base::File::FILE_OK, AsyncFileTestHelper::ReadDirectory(
file_system_context(), dir, &entries));
for (size_t i = 0; i < entries.size(); ++i) {
FileSystemURL url =
GetEntryURL(file_system_context(), dir, entries[i].name.value());
if (entries[i].type == filesystem::mojom::FsFileType::DIRECTORY) {
directories.push(url);
continue;
}
file_set1.insert(GetRelativeVirtualPath(root1, url));
}
}
directories.push(root2);
while (!directories.empty()) {
FileSystemURL dir = directories.front();
directories.pop();
ASSERT_EQ(base::File::FILE_OK, AsyncFileTestHelper::ReadDirectory(
file_system_context(), dir, &entries));
for (size_t i = 0; i < entries.size(); ++i) {
FileSystemURL url2 =
GetEntryURL(file_system_context(), dir, entries[i].name.value());
FileSystemURL url1 =
GetOtherURL(file_system_context(), root2, root1, url2);
if (entries[i].type == filesystem::mojom::FsFileType::DIRECTORY) {
directories.push(url2);
EXPECT_EQ(IsDirectoryEmpty(file_system_context(), url1),
IsDirectoryEmpty(file_system_context(), url2));
continue;
}
base::FilePath relative = GetRelativeVirtualPath(root2, url2);
EXPECT_TRUE(base::Contains(file_set1, relative));
VerifyFilesHaveSameContent(url1, url2);
}
}
}
std::unique_ptr<FileSystemOperationContext> GetOperationContext() {
return std::make_unique<FileSystemOperationContext>(file_system_context());
}
private:
void SimulateDropFiles() {
size_t root_path_index = 0;
IsolatedContext::FileInfoSet toplevels;
for (const auto& test_case : kRegularFileSystemTestCases) {
base::FilePath path(test_case.path);
base::FilePath toplevel = GetTopLevelPath(path);
// We create the test case files under one of the kRootPaths
// to simulate a drop with multiple directories.
if (!base::Contains(toplevel_root_map_, toplevel)) {
base::FilePath root = root_path().Append(
kRootPaths[(root_path_index++) % kRootPaths.size()]);
toplevel_root_map_[toplevel] = root;
toplevels.AddPath(root.Append(path), nullptr);
}
SetUpOneFileSystemTestCase(toplevel_root_map_[toplevel], test_case);
}
// Register the toplevel entries.
filesystem_id_ = isolated_context()->RegisterDraggedFileSystem(toplevels);
}
base::ScopedTempDir data_dir_;
base::ScopedTempDir partition_dir_;
base::test::TaskEnvironment task_environment_{
base::test::TaskEnvironment::MainThreadType::IO};
std::string filesystem_id_;
scoped_refptr<storage::MockQuotaManager> quota_manager_;
scoped_refptr<storage::MockQuotaManagerProxy> quota_manager_proxy_;
scoped_refptr<FileSystemContext> file_system_context_;
std::map<base::FilePath, base::FilePath> toplevel_root_map_;
std::unique_ptr<DraggedFileUtil> file_util_;
};
TEST_F(DraggedFileUtilTest, BasicTest) {
size_t count = 0u;
for (const auto& test_case : kRegularFileSystemTestCases) {
SCOPED_TRACE(testing::Message() << "Testing RegularTestCases " << count++);
FileSystemURL url = GetFileSystemURL(base::FilePath(test_case.path));
// See if we can query the file info via the isolated FileUtil.
// (This should succeed since we have registered all the top-level
// entries of the test cases in SetUp())
base::File::Info info;
base::FilePath platform_path;
FileSystemOperationContext context(file_system_context());
ASSERT_EQ(base::File::FILE_OK,
file_util()->GetFileInfo(&context, url, &info, &platform_path));
// See if the obtained file info is correct.
if (!test_case.is_directory)
ASSERT_EQ(test_case.data_file_size, info.size);
ASSERT_EQ(test_case.is_directory, info.is_directory);
ASSERT_EQ(GetTestCasePlatformPath(test_case.path),
platform_path.NormalizePathSeparators());
}
}
TEST_F(DraggedFileUtilTest, UnregisteredPathsTest) {
static constexpr std::array kUnregisteredCases = {
FileSystemTestCaseRecord{.is_directory = true,
.path = FILE_PATH_LITERAL("nonexistent"),
.data_file_size = 0},
FileSystemTestCaseRecord{.is_directory = true,
.path = FILE_PATH_LITERAL("nonexistent/dir foo"),
.data_file_size = 0},
FileSystemTestCaseRecord{.is_directory = false,
.path = FILE_PATH_LITERAL("nonexistent/false"),
.data_file_size = 0},
FileSystemTestCaseRecord{.is_directory = false,
.path = FILE_PATH_LITERAL("foo"),
.data_file_size = 30},
FileSystemTestCaseRecord{.is_directory = false,
.path = FILE_PATH_LITERAL("bar"),
.data_file_size = 20},
};
size_t count = 0u;
for (const auto& test_case : kUnregisteredCases) {
SCOPED_TRACE(testing::Message()
<< "Creating kUnregisteredCases " << count++);
// Prepare the test file/directory.
SetUpOneFileSystemTestCase(root_path(), test_case);
// Make sure regular GetFileInfo succeeds.
base::File::Info info;
ASSERT_TRUE(base::GetFileInfo(root_path().Append(test_case.path), &info));
if (!test_case.is_directory)
ASSERT_EQ(test_case.data_file_size, info.size);
ASSERT_EQ(test_case.is_directory, info.is_directory);
}
count = 0u;
for (const auto& test_case : kUnregisteredCases) {
SCOPED_TRACE(testing::Message()
<< "Creating kUnregisteredCases " << count++);
FileSystemURL url = GetFileSystemURL(base::FilePath(test_case.path));
// We should not be able to get the valid URL for unregistered files.
ASSERT_FALSE(url.is_valid());
}
}
TEST_F(DraggedFileUtilTest, ReadDirectoryTest) {
size_t count = 0u;
for (const auto& test_case : kRegularFileSystemTestCases) {
if (!test_case.is_directory)
continue;
SCOPED_TRACE(testing::Message() << "Testing RegularTestCases " << count++
<< ": " << test_case.path);
// Read entries in the directory to construct the expected results map.
using EntryMap =
std::map<base::FilePath::StringType, filesystem::mojom::DirectoryEntry>;
EntryMap expected_entry_map;
base::FilePath dir_path = GetTestCasePlatformPath(test_case.path);
base::FileEnumerator file_enum(
dir_path, false /* not recursive */,
base::FileEnumerator::FILES | base::FileEnumerator::DIRECTORIES);
base::FilePath current;
while (!(current = file_enum.Next()).empty()) {
base::FileEnumerator::FileInfo file_info = file_enum.GetInfo();
filesystem::mojom::DirectoryEntry entry;
entry.type = file_info.IsDirectory()
? filesystem::mojom::FsFileType::DIRECTORY
: filesystem::mojom::FsFileType::REGULAR_FILE;
auto name = base::SafeBaseName::Create(current);
CHECK(name) << current;
entry.name = *name;
expected_entry_map[entry.name.value()] = entry;
#if BUILDFLAG(IS_POSIX)
// Creates a symlink for each file/directory.
// They should be ignored by ReadDirectory, so we don't add them
// to expected_entry_map.
base::CreateSymbolicLink(current,
dir_path.Append(current.BaseName().AddExtension(
FILE_PATH_LITERAL("link"))));
#endif
}
// Perform ReadDirectory in the isolated filesystem.
FileSystemURL url = GetFileSystemURL(base::FilePath(test_case.path));
FileEntryList entries;
ASSERT_EQ(base::File::FILE_OK, AsyncFileTestHelper::ReadDirectory(
file_system_context(), url, &entries));
EXPECT_EQ(expected_entry_map.size(), entries.size());
for (const auto& entry : entries) {
auto found = expected_entry_map.find(entry.name.value());
EXPECT_TRUE(found != expected_entry_map.end());
EXPECT_EQ(found->second.name, entry.name);
EXPECT_EQ(found->second.type, entry.type);
}
}
}
TEST_F(DraggedFileUtilTest, GetLocalFilePathTest) {
for (const auto& test_case : kRegularFileSystemTestCases) {
FileSystemURL url = GetFileSystemURL(base::FilePath(test_case.path));
FileSystemOperationContext context(file_system_context());
base::FilePath local_file_path;
EXPECT_EQ(base::File::FILE_OK,
file_util()->GetLocalFilePath(&context, url, &local_file_path));
EXPECT_EQ(GetTestCasePlatformPath(test_case.path).value(),
local_file_path.value());
}
}
TEST_F(DraggedFileUtilTest, CopyOutFileTest) {
FileSystemURL src_root = GetFileSystemURL(base::FilePath());
FileSystemURL dest_root = GetOtherFileSystemURL(base::FilePath());
FileEntryList entries;
base::queue<FileSystemURL> directories;
directories.push(src_root);
ASSERT_EQ(base::File::FILE_OK, AsyncFileTestHelper::CreateDirectory(
file_system_context(), dest_root));
while (!directories.empty()) {
FileSystemURL dir = directories.front();
directories.pop();
ASSERT_EQ(base::File::FILE_OK, AsyncFileTestHelper::ReadDirectory(
file_system_context(), dir, &entries));
for (size_t i = 0; i < entries.size(); ++i) {
FileSystemURL src_url =
GetEntryURL(file_system_context(), dir, entries[i].name.value());
FileSystemURL dest_url =
GetOtherURL(file_system_context(), src_root, dest_root, src_url);
if (entries[i].type == filesystem::mojom::FsFileType::DIRECTORY) {
ASSERT_EQ(base::File::FILE_OK, AsyncFileTestHelper::CreateDirectory(
file_system_context(), dest_url));
directories.push(src_url);
continue;
}
SCOPED_TRACE(testing::Message()
<< "Testing file copy " << src_url.path().value());
ASSERT_EQ(
base::File::FILE_OK,
AsyncFileTestHelper::Copy(file_system_context(), src_url, dest_url));
VerifyFilesHaveSameContent(src_url, dest_url);
}
}
}
TEST_F(DraggedFileUtilTest, CopyOutDirectoryTest) {
FileSystemURL src_root = GetFileSystemURL(base::FilePath());
FileSystemURL dest_root = GetOtherFileSystemURL(base::FilePath());
ASSERT_EQ(base::File::FILE_OK, AsyncFileTestHelper::CreateDirectory(
file_system_context(), dest_root));
FileEntryList entries;
ASSERT_EQ(base::File::FILE_OK,
AsyncFileTestHelper::ReadDirectory(file_system_context(), src_root,
&entries));
for (size_t i = 0; i < entries.size(); ++i) {
if (entries[i].type != filesystem::mojom::FsFileType::DIRECTORY)
continue;
FileSystemURL src_url =
GetEntryURL(file_system_context(), src_root, entries[i].name.value());
FileSystemURL dest_url =
GetOtherURL(file_system_context(), src_root, dest_root, src_url);
SCOPED_TRACE(testing::Message()
<< "Testing file copy " << src_url.path().value());
ASSERT_EQ(
base::File::FILE_OK,
AsyncFileTestHelper::Copy(file_system_context(), src_url, dest_url));
VerifyDirectoriesHaveSameContent(src_url, dest_url);
}
}
// TODO(crbug.com/40511450): Remove this test once last_access_time has
// been removed after PPAPI has been deprecated. Fuchsia does not support touch,
// which breaks this test that relies on it. Since PPAPI is being deprecated,
// this test is excluded from the Fuchsia build.
// See https://crbug.com/1077456 for details.
#if !BUILDFLAG(IS_FUCHSIA)
TEST_F(DraggedFileUtilTest, TouchTest) {
for (const auto& test_case : kRegularFileSystemTestCases) {
if (test_case.is_directory)
continue;
SCOPED_TRACE(testing::Message() << test_case.path);
FileSystemURL url = GetFileSystemURL(base::FilePath(test_case.path));
base::Time last_access_time = base::Time::FromTimeT(1000);
base::Time last_modified_time = base::Time::FromTimeT(2000);
EXPECT_EQ(base::File::FILE_OK,
file_util()->Touch(GetOperationContext().get(), url,
last_access_time, last_modified_time));
// Verification.
base::File::Info info;
base::FilePath platform_path;
ASSERT_EQ(base::File::FILE_OK,
file_util()->GetFileInfo(GetOperationContext().get(), url, &info,
&platform_path));
EXPECT_EQ(last_access_time.ToTimeT(), info.last_accessed.ToTimeT());
EXPECT_EQ(last_modified_time.ToTimeT(), info.last_modified.ToTimeT());
}
}
#endif // !BUILDFLAG(IS_FUCHSIA)
TEST_F(DraggedFileUtilTest, TruncateTest) {
for (const auto& test_case : kRegularFileSystemTestCases) {
if (test_case.is_directory)
continue;
SCOPED_TRACE(testing::Message() << test_case.path);
FileSystemURL url = GetFileSystemURL(base::FilePath(test_case.path));
// Truncate to 0.
base::File::Info info;
base::FilePath platform_path;
EXPECT_EQ(base::File::FILE_OK,
file_util()->Truncate(GetOperationContext().get(), url, 0));
ASSERT_EQ(base::File::FILE_OK,
file_util()->GetFileInfo(GetOperationContext().get(), url, &info,
&platform_path));
EXPECT_EQ(0, info.size);
// Truncate (extend) to 999.
EXPECT_EQ(base::File::FILE_OK,
file_util()->Truncate(GetOperationContext().get(), url, 999));
ASSERT_EQ(base::File::FILE_OK,
file_util()->GetFileInfo(GetOperationContext().get(), url, &info,
&platform_path));
EXPECT_EQ(999, info.size);
}
}
TEST_F(DraggedFileUtilTest, EnumerateTest) {
FileSystemURL url =
GetFileSystemURL(base::FilePath(FILE_PATH_LITERAL("dir a")));
auto enumerator = file_util()->CreateFileEnumerator(
GetOperationContext().get(), url, false);
std::vector<base::FilePath> contents;
for (base::FilePath path = enumerator->Next(); !path.empty();
path = enumerator->Next()) {
base::FilePath relative;
root_path()
.Append(base::FilePath(FILE_PATH_LITERAL("a")))
.AppendRelativePath(path, &relative);
contents.push_back(relative);
}
EXPECT_THAT(contents, testing::UnorderedElementsAre(
base::FilePath(FILE_PATH_LITERAL("dir a/dir A"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/file 0"))
.NormalizePathSeparators()));
}
TEST_F(DraggedFileUtilTest, EnumerateRecursivelyTest) {
FileSystemURL url =
GetFileSystemURL(base::FilePath(FILE_PATH_LITERAL("dir a")));
auto enumerator =
file_util()->CreateFileEnumerator(GetOperationContext().get(), url, true);
std::vector<base::FilePath> contents;
for (base::FilePath path = enumerator->Next(); !path.empty();
path = enumerator->Next()) {
base::FilePath relative;
root_path()
.Append(base::FilePath(FILE_PATH_LITERAL("a")))
.AppendRelativePath(path, &relative);
contents.push_back(relative);
}
EXPECT_THAT(
contents,
testing::UnorderedElementsAre(
base::FilePath(FILE_PATH_LITERAL("dir a/dir A"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/file 0"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d/dir e"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d/dir e/dir f"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d/dir e/dir g"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d/dir e/dir g/file 0"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d/dir e/dir g/file 1"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d/dir e/dir g/file 2"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d/dir e/dir g/file 3"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d/dir e/dir h"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d/dir e/dir h/file 0"))
.NormalizePathSeparators(),
base::FilePath(FILE_PATH_LITERAL("dir a/dir d/dir e/dir h/file 1"))
.NormalizePathSeparators()));
}
} // namespace storage