// 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 "components/drive/resource_metadata.h" #include #include #include #include #include #include "base/files/scoped_temp_dir.h" #include "base/single_thread_task_runner.h" #include "base/strings/stringprintf.h" #include "base/thread_task_runner_handle.h" #include "components/drive/drive.pb.h" #include "components/drive/drive_test_util.h" #include "components/drive/fake_free_disk_space_getter.h" #include "components/drive/file_cache.h" #include "components/drive/file_system_core_util.h" #include "content/public/test/test_browser_thread_bundle.h" #include "testing/gtest/include/gtest/gtest.h" namespace drive { namespace internal { namespace { // The changestamp of the resource metadata used in // ResourceMetadataTest. const int64_t kTestChangestamp = 100; // Returns the sorted base names from |entries|. std::vector GetSortedBaseNames( const ResourceEntryVector& entries) { std::vector base_names; for (size_t i = 0; i < entries.size(); ++i) base_names.push_back(entries[i].base_name()); std::sort(base_names.begin(), base_names.end()); return base_names; } // Creates a ResourceEntry for a directory with explicitly set resource_id. ResourceEntry CreateDirectoryEntryWithResourceId( const std::string& title, const std::string& resource_id, const std::string& parent_local_id) { ResourceEntry entry; entry.set_title(title); entry.set_resource_id(resource_id); entry.set_parent_local_id(parent_local_id); entry.mutable_file_info()->set_is_directory(true); entry.mutable_directory_specific_info()->set_changestamp(kTestChangestamp); return entry; } // Creates a ResourceEntry for a directory. ResourceEntry CreateDirectoryEntry(const std::string& title, const std::string& parent_local_id) { return CreateDirectoryEntryWithResourceId( title, "id:" + title, parent_local_id); } // Creates a ResourceEntry for a file with explicitly set resource_id. ResourceEntry CreateFileEntryWithResourceId( const std::string& title, const std::string& resource_id, const std::string& parent_local_id) { ResourceEntry entry; entry.set_title(title); entry.set_resource_id(resource_id); entry.set_parent_local_id(parent_local_id); entry.mutable_file_info()->set_is_directory(false); entry.mutable_file_info()->set_size(1024); entry.mutable_file_specific_info()->set_md5("md5:" + title); return entry; } // Creates a ResourceEntry for a file. ResourceEntry CreateFileEntry(const std::string& title, const std::string& parent_local_id) { return CreateFileEntryWithResourceId(title, "id:" + title, parent_local_id); } // Creates the following files/directories // drive/root/dir1/ // drive/root/dir2/ // drive/root/dir1/dir3/ // drive/root/dir1/file4 // drive/root/dir1/file5 // drive/root/dir2/file6 // drive/root/dir2/file7 // drive/root/dir2/file8 // drive/root/dir1/dir3/file9 // drive/root/dir1/dir3/file10 void SetUpEntries(ResourceMetadata* resource_metadata) { std::string local_id; ASSERT_EQ(FILE_ERROR_OK, resource_metadata->GetIdByPath( util::GetDriveMyDriveRootPath(), &local_id)); const std::string root_local_id = local_id; ASSERT_EQ(FILE_ERROR_OK, resource_metadata->AddEntry( CreateDirectoryEntry("dir1", root_local_id), &local_id)); const std::string local_id_dir1 = local_id; ASSERT_EQ(FILE_ERROR_OK, resource_metadata->AddEntry( CreateDirectoryEntry("dir2", root_local_id), &local_id)); const std::string local_id_dir2 = local_id; ASSERT_EQ(FILE_ERROR_OK, resource_metadata->AddEntry( CreateDirectoryEntry("dir3", local_id_dir1), &local_id)); const std::string local_id_dir3 = local_id; ASSERT_EQ(FILE_ERROR_OK, resource_metadata->AddEntry( CreateFileEntry("file4", local_id_dir1), &local_id)); ASSERT_EQ(FILE_ERROR_OK, resource_metadata->AddEntry( CreateFileEntry("file5", local_id_dir1), &local_id)); ASSERT_EQ(FILE_ERROR_OK, resource_metadata->AddEntry( CreateFileEntry("file6", local_id_dir2), &local_id)); ASSERT_EQ(FILE_ERROR_OK, resource_metadata->AddEntry( CreateFileEntry("file7", local_id_dir2), &local_id)); ASSERT_EQ(FILE_ERROR_OK, resource_metadata->AddEntry( CreateFileEntry("file8", local_id_dir2), &local_id)); ASSERT_EQ(FILE_ERROR_OK, resource_metadata->AddEntry( CreateFileEntry("file9", local_id_dir3), &local_id)); ASSERT_EQ(FILE_ERROR_OK, resource_metadata->AddEntry( CreateFileEntry("file10", local_id_dir3), &local_id)); ASSERT_EQ(FILE_ERROR_OK, resource_metadata->SetLargestChangestamp(kTestChangestamp)); } } // namespace // Tests for methods running on the blocking task runner. class ResourceMetadataTest : public testing::Test { protected: void SetUp() override { ASSERT_TRUE(temp_dir_.CreateUniqueTempDir()); metadata_storage_.reset(new ResourceMetadataStorage( temp_dir_.path(), base::ThreadTaskRunnerHandle::Get().get())); ASSERT_TRUE(metadata_storage_->Initialize()); fake_free_disk_space_getter_.reset(new FakeFreeDiskSpaceGetter); cache_.reset(new FileCache(metadata_storage_.get(), temp_dir_.path(), base::ThreadTaskRunnerHandle::Get().get(), fake_free_disk_space_getter_.get())); ASSERT_TRUE(cache_->Initialize()); resource_metadata_.reset(new ResourceMetadata( metadata_storage_.get(), cache_.get(), base::ThreadTaskRunnerHandle::Get())); ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->Initialize()); SetUpEntries(resource_metadata_.get()); } base::ScopedTempDir temp_dir_; content::TestBrowserThreadBundle thread_bundle_; scoped_ptr metadata_storage_; scoped_ptr fake_free_disk_space_getter_; scoped_ptr cache_; scoped_ptr resource_metadata_; }; TEST_F(ResourceMetadataTest, LargestChangestamp) { const int64_t kChangestamp = 123456; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->SetLargestChangestamp(kChangestamp)); int64_t changestamp = 0; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetLargestChangestamp(&changestamp)); EXPECT_EQ(kChangestamp, changestamp); } TEST_F(ResourceMetadataTest, GetResourceEntryByPath) { // Confirm that an existing file is found. ResourceEntry entry; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/file4"), &entry)); EXPECT_EQ("file4", entry.base_name()); // Confirm that a non existing file is not found. EXPECT_EQ(FILE_ERROR_NOT_FOUND, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/non_existing"), &entry)); // Confirm that the root is found. EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive"), &entry)); // Confirm that a non existing file is not found at the root level. EXPECT_EQ(FILE_ERROR_NOT_FOUND, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("non_existing"), &entry)); // Confirm that an entry is not found with a wrong root. EXPECT_EQ(FILE_ERROR_NOT_FOUND, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("non_existing/root"), &entry)); } TEST_F(ResourceMetadataTest, ReadDirectoryByPath) { // Confirm that an existing directory is found. ResourceEntryVector entries; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->ReadDirectoryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1"), &entries)); ASSERT_EQ(3U, entries.size()); // The order is not guaranteed so we should sort the base names. std::vector base_names = GetSortedBaseNames(entries); EXPECT_EQ("dir3", base_names[0]); EXPECT_EQ("file4", base_names[1]); EXPECT_EQ("file5", base_names[2]); // Confirm that a non existing directory is not found. EXPECT_EQ(FILE_ERROR_NOT_FOUND, resource_metadata_->ReadDirectoryByPath( base::FilePath::FromUTF8Unsafe("drive/root/non_existing"), &entries)); // Confirm that reading a file results in FILE_ERROR_NOT_A_DIRECTORY. EXPECT_EQ(FILE_ERROR_NOT_A_DIRECTORY, resource_metadata_->ReadDirectoryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/file4"), &entries)); } TEST_F(ResourceMetadataTest, RefreshEntry) { base::FilePath drive_file_path; ResourceEntry entry; // Get file9. std::string file_id; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/dir3/file9"), &file_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById(file_id, &entry)); EXPECT_EQ("file9", entry.base_name()); EXPECT_TRUE(!entry.file_info().is_directory()); EXPECT_EQ("md5:file9", entry.file_specific_info().md5()); // Rename it. ResourceEntry file_entry(entry); file_entry.set_title("file100"); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->RefreshEntry(file_entry)); base::FilePath path; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetFilePath(file_id, &path)); EXPECT_EQ("drive/root/dir1/dir3/file100", path.AsUTF8Unsafe()); entry.Clear(); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById(file_id, &entry)); EXPECT_EQ("file100", entry.base_name()); EXPECT_TRUE(!entry.file_info().is_directory()); EXPECT_EQ("md5:file9", entry.file_specific_info().md5()); // Update the file md5. const std::string updated_md5("md5:updated"); file_entry = entry; file_entry.mutable_file_specific_info()->set_md5(updated_md5); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->RefreshEntry(file_entry)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetFilePath(file_id, &path)); EXPECT_EQ("drive/root/dir1/dir3/file100", path.AsUTF8Unsafe()); entry.Clear(); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById(file_id, &entry)); EXPECT_EQ("file100", entry.base_name()); EXPECT_TRUE(!entry.file_info().is_directory()); EXPECT_EQ(updated_md5, entry.file_specific_info().md5()); // Make sure we get the same thing from GetResourceEntryByPath. entry.Clear(); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/dir3/file100"), &entry)); EXPECT_EQ("file100", entry.base_name()); ASSERT_TRUE(!entry.file_info().is_directory()); EXPECT_EQ(updated_md5, entry.file_specific_info().md5()); // Get dir2. entry.Clear(); std::string dir_id; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir2"), &dir_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById(dir_id, &entry)); EXPECT_EQ("dir2", entry.base_name()); ASSERT_TRUE(entry.file_info().is_directory()); // Get dir3's ID. std::string dir3_id; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/dir3"), &dir3_id)); // Change the name to dir100 and change the parent to drive/dir1/dir3. ResourceEntry dir_entry(entry); dir_entry.set_title("dir100"); dir_entry.set_parent_local_id(dir3_id); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->RefreshEntry(dir_entry)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetFilePath(dir_id, &path)); EXPECT_EQ("drive/root/dir1/dir3/dir100", path.AsUTF8Unsafe()); entry.Clear(); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById(dir_id, &entry)); EXPECT_EQ("dir100", entry.base_name()); EXPECT_TRUE(entry.file_info().is_directory()); EXPECT_EQ("id:dir2", entry.resource_id()); // Make sure the children have moved over. Test file6. entry.Clear(); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/dir3/dir100/file6"), &entry)); EXPECT_EQ("file6", entry.base_name()); // Make sure dir2 no longer exists. EXPECT_EQ(FILE_ERROR_NOT_FOUND, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir2"), &entry)); // Make sure that directory cannot move under a file. dir_entry.set_parent_local_id(file_id); EXPECT_EQ(FILE_ERROR_NOT_A_DIRECTORY, resource_metadata_->RefreshEntry(dir_entry)); // Cannot refresh root. dir_entry.Clear(); dir_entry.set_local_id(util::kDriveGrandRootLocalId); dir_entry.set_title("new-root-name"); dir_entry.set_parent_local_id(dir3_id); EXPECT_EQ(FILE_ERROR_INVALID_OPERATION, resource_metadata_->RefreshEntry(dir_entry)); } TEST_F(ResourceMetadataTest, RefreshEntry_ResourceIDCheck) { // Get an entry with a non-empty resource ID. ResourceEntry entry; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1"), &entry)); EXPECT_FALSE(entry.resource_id().empty()); // Add a new entry with an empty resource ID. ResourceEntry new_entry; new_entry.set_parent_local_id(entry.local_id()); new_entry.set_title("new entry"); std::string local_id; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry(new_entry, &local_id)); // Try to refresh the new entry with a used resource ID. new_entry.set_local_id(local_id); new_entry.set_resource_id(entry.resource_id()); EXPECT_EQ(FILE_ERROR_INVALID_OPERATION, resource_metadata_->RefreshEntry(new_entry)); } TEST_F(ResourceMetadataTest, RefreshEntry_DoNotOverwriteCacheState) { ResourceEntry entry; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/file4"), &entry)); // Try to set MD5 with RefreshEntry. entry.mutable_file_specific_info()->mutable_cache_state()->set_md5("md5"); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->RefreshEntry(entry)); // Cache state is unchanged. EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/file4"), &entry)); EXPECT_TRUE(entry.file_specific_info().cache_state().md5().empty()); // Pin the file. EXPECT_EQ(FILE_ERROR_OK, cache_->Pin(entry.local_id())); // Try to clear the cache state with RefreshEntry. EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/file4"), &entry)); entry.mutable_file_specific_info()->clear_cache_state(); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->RefreshEntry(entry)); // Cache state is not cleared. EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/file4"), &entry)); EXPECT_TRUE(entry.file_specific_info().cache_state().is_pinned()); } TEST_F(ResourceMetadataTest, GetSubDirectoriesRecursively) { std::set sub_directories; // file9: not a directory, so no children. std::string local_id; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/dir3/file9"), &local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetSubDirectoriesRecursively( local_id, &sub_directories)); EXPECT_TRUE(sub_directories.empty()); // dir2: no child directories. EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir2"), &local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetSubDirectoriesRecursively( local_id, &sub_directories)); EXPECT_TRUE(sub_directories.empty()); const std::string dir2_id = local_id; // dir1: dir3 is the only child EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1"), &local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetSubDirectoriesRecursively( local_id, &sub_directories)); EXPECT_EQ(1u, sub_directories.size()); EXPECT_EQ(1u, sub_directories.count( base::FilePath::FromUTF8Unsafe("drive/root/dir1/dir3"))); sub_directories.clear(); // Add a few more directories to make sure deeper nesting works. // dir2/dir100 // dir2/dir101 // dir2/dir101/dir102 // dir2/dir101/dir103 // dir2/dir101/dir104 // dir2/dir101/dir104/dir105 // dir2/dir101/dir104/dir105/dir106 // dir2/dir101/dir104/dir105/dir106/dir107 EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateDirectoryEntry("dir100", dir2_id), &local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateDirectoryEntry("dir101", dir2_id), &local_id)); const std::string dir101_id = local_id; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateDirectoryEntry("dir102", dir101_id), &local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateDirectoryEntry("dir103", dir101_id), &local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateDirectoryEntry("dir104", dir101_id), &local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateDirectoryEntry("dir105", local_id), &local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateDirectoryEntry("dir106", local_id), &local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateDirectoryEntry("dir107", local_id), &local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetSubDirectoriesRecursively( dir2_id, &sub_directories)); EXPECT_EQ(8u, sub_directories.size()); EXPECT_EQ(1u, sub_directories.count(base::FilePath::FromUTF8Unsafe( "drive/root/dir2/dir101"))); EXPECT_EQ(1u, sub_directories.count(base::FilePath::FromUTF8Unsafe( "drive/root/dir2/dir101/dir104"))); EXPECT_EQ(1u, sub_directories.count(base::FilePath::FromUTF8Unsafe( "drive/root/dir2/dir101/dir104/dir105/dir106/dir107"))); } TEST_F(ResourceMetadataTest, AddEntry) { // Add a file to dir3. std::string local_id; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/dir3"), &local_id)); ResourceEntry file_entry = CreateFileEntry("file100", local_id); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry(file_entry, &local_id)); base::FilePath path; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetFilePath(local_id, &path)); EXPECT_EQ("drive/root/dir1/dir3/file100", path.AsUTF8Unsafe()); // Add a directory. EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1"), &local_id)); ResourceEntry dir_entry = CreateDirectoryEntry("dir101", local_id); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry(dir_entry, &local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetFilePath(local_id, &path)); EXPECT_EQ("drive/root/dir1/dir101", path.AsUTF8Unsafe()); // Add to an invalid parent. ResourceEntry file_entry3 = CreateFileEntry("file103", "id:invalid"); EXPECT_EQ(FILE_ERROR_NOT_FOUND, resource_metadata_->AddEntry(file_entry3, &local_id)); // Add an existing file. EXPECT_EQ(FILE_ERROR_EXISTS, resource_metadata_->AddEntry(file_entry, &local_id)); } TEST_F(ResourceMetadataTest, RemoveEntry) { // Make sure file9 is found. std::string file9_local_id; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/dir3/file9"), &file9_local_id)); ResourceEntry entry; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById( file9_local_id, &entry)); EXPECT_EQ("file9", entry.base_name()); // Remove file9. EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->RemoveEntry(file9_local_id)); // file9 should no longer exist. EXPECT_EQ(FILE_ERROR_NOT_FOUND, resource_metadata_->GetResourceEntryById( file9_local_id, &entry)); // Look for dir3. std::string dir3_local_id; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/dir3"), &dir3_local_id)); EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById( dir3_local_id, &entry)); EXPECT_EQ("dir3", entry.base_name()); // Remove dir3. EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->RemoveEntry(dir3_local_id)); // dir3 should no longer exist. EXPECT_EQ(FILE_ERROR_NOT_FOUND, resource_metadata_->GetResourceEntryById( dir3_local_id, &entry)); // Remove unknown local_id using RemoveEntry. EXPECT_EQ(FILE_ERROR_NOT_FOUND, resource_metadata_->RemoveEntry("foo")); // Try removing root. This should fail. EXPECT_EQ(FILE_ERROR_ACCESS_DENIED, resource_metadata_->RemoveEntry( util::kDriveGrandRootLocalId)); } TEST_F(ResourceMetadataTest, GetResourceEntryById_RootDirectory) { // Look up the root directory by its ID. ResourceEntry entry; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById( util::kDriveGrandRootLocalId, &entry)); EXPECT_EQ("drive", entry.base_name()); } TEST_F(ResourceMetadataTest, GetResourceEntryById) { // Get file4 by path. std::string local_id; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root/dir1/file4"), &local_id)); // Confirm that an existing file is found. ResourceEntry entry; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById( local_id, &entry)); EXPECT_EQ("file4", entry.base_name()); // Confirm that a non existing file is not found. EXPECT_EQ(FILE_ERROR_NOT_FOUND, resource_metadata_->GetResourceEntryById( "non_existing", &entry)); } TEST_F(ResourceMetadataTest, Iterate) { scoped_ptr it = resource_metadata_->GetIterator(); ASSERT_TRUE(it); int file_count = 0, directory_count = 0; for (; !it->IsAtEnd(); it->Advance()) { if (!it->GetValue().file_info().is_directory()) ++file_count; else ++directory_count; } EXPECT_EQ(7, file_count); EXPECT_EQ(7, directory_count); } TEST_F(ResourceMetadataTest, DuplicatedNames) { std::string root_local_id; ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root"), &root_local_id)); ResourceEntry entry; // When multiple entries with the same title are added in a single directory, // their base_names are de-duped. // - drive/root/foo // - drive/root/foo (1) std::string dir_id_0; ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateDirectoryEntryWithResourceId( "foo", "foo0", root_local_id), &dir_id_0)); std::string dir_id_1; ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateDirectoryEntryWithResourceId( "foo", "foo1", root_local_id), &dir_id_1)); ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById( dir_id_0, &entry)); EXPECT_EQ("foo", entry.base_name()); ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById( dir_id_1, &entry)); EXPECT_EQ("foo (1)", entry.base_name()); // - drive/root/foo/bar.txt // - drive/root/foo/bar (1).txt // - drive/root/foo/bar (2).txt // ... // - drive/root/foo/bar (99).txt std::vector file_ids(100); for (size_t i = 0; i < file_ids.size(); ++i) { ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateFileEntryWithResourceId( "bar.txt", base::StringPrintf("bar%d", static_cast(i)), dir_id_0), &file_ids[i])); } ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById( file_ids[0], &entry)); EXPECT_EQ("bar.txt", entry.base_name()); for (size_t i = 1; i < file_ids.size(); ++i) { ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById( file_ids[i], &entry)) << i; EXPECT_EQ(base::StringPrintf("bar (%d).txt", static_cast(i)), entry.base_name()); } // Same name but different parent. No renaming. // - drive/root/foo (1)/bar.txt std::string file_id_3; ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateFileEntryWithResourceId( "bar.txt", "bar_different_parent", dir_id_1), &file_id_3)); ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById( file_id_3, &entry)); EXPECT_EQ("bar.txt", entry.base_name()); // Checks that the entries can be looked up by the de-duped paths. ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/foo/bar (2).txt"), &entry)); EXPECT_EQ("bar2", entry.resource_id()); ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive/root/foo (1)/bar.txt"), &entry)); EXPECT_EQ("bar_different_parent", entry.resource_id()); } TEST_F(ResourceMetadataTest, EncodedNames) { std::string root_local_id; ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetIdByPath( base::FilePath::FromUTF8Unsafe("drive/root"), &root_local_id)); ResourceEntry entry; std::string dir_id; ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateDirectoryEntry("\\(^o^)/", root_local_id), &dir_id)); ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById( dir_id, &entry)); EXPECT_EQ("\\(^o^)_", entry.base_name()); std::string file_id; ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->AddEntry( CreateFileEntryWithResourceId("Slash /.txt", "myfile", dir_id), &file_id)); ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryById( file_id, &entry)); EXPECT_EQ("Slash _.txt", entry.base_name()); ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe( "drive/root/\\(^o^)_/Slash _.txt"), &entry)); EXPECT_EQ("myfile", entry.resource_id()); } TEST_F(ResourceMetadataTest, Reset) { // The grand root has "root" which is not empty. std::vector entries; ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->ReadDirectoryByPath( base::FilePath::FromUTF8Unsafe("drive/root"), &entries)); ASSERT_FALSE(entries.empty()); // Reset. EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->Reset()); // change stamp should be reset. int64_t changestamp = 0; EXPECT_EQ(FILE_ERROR_OK, resource_metadata_->GetLargestChangestamp(&changestamp)); EXPECT_EQ(0, changestamp); // root should continue to exist. ResourceEntry entry; ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->GetResourceEntryByPath( base::FilePath::FromUTF8Unsafe("drive"), &entry)); EXPECT_EQ("drive", entry.base_name()); ASSERT_TRUE(entry.file_info().is_directory()); EXPECT_EQ(util::kDriveGrandRootLocalId, entry.local_id()); // There are "other", "trash" and "root" under "drive". ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->ReadDirectoryByPath( base::FilePath::FromUTF8Unsafe("drive"), &entries)); EXPECT_EQ(3U, entries.size()); // The "other" directory should be empty. ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->ReadDirectoryByPath( base::FilePath::FromUTF8Unsafe("drive/other"), &entries)); EXPECT_TRUE(entries.empty()); // The "trash" directory should be empty. ASSERT_EQ(FILE_ERROR_OK, resource_metadata_->ReadDirectoryByPath( base::FilePath::FromUTF8Unsafe("drive/trash"), &entries)); EXPECT_TRUE(entries.empty()); } } // namespace internal } // namespace drive