blob: 58333b3d9a80b8b72673663cb53aa85c24b16352 [file] [log] [blame]
// 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 <limits>
#include <string>
#include <vector>
#include "base/callback_forward.h"
#include "base/files/file.h"
#include "base/files/file_path.h"
#include "base/memory/scoped_ptr.h"
#include "storage/browser/fileapi/file_permission_policy.h"
#include "storage/browser/fileapi/open_file_system_mode.h"
#include "storage/browser/fileapi/task_runner_bound_observer_list.h"
#include "storage/browser/storage_browser_export.h"
#include "storage/common/fileapi/file_system_types.h"
class GURL;
namespace storage {
class AsyncFileUtil;
class CopyOrMoveFileValidatorFactory;
class FileSystemURL;
class FileStreamReader;
class FileStreamWriter;
class FileSystemContext;
class FileSystemFileUtil;
class FileSystemOperation;
class FileSystemQuotaUtil;
class WatcherManager;
// Callback to take GURL.
typedef base::Callback<void(const GURL& url)> URLCallback;
// Maximum numer of bytes to be read by FileStreamReader classes. Used in
// FileSystemBackend::CreateFileStreamReader(), when it's not known how many
// bytes will be fetched in total.
const int64 kMaximumLength = std::numeric_limits<int64>::max();
// An interface for defining a file system backend.
// NOTE: when you implement a new FileSystemBackend for your own
// FileSystem module, please contact to
class STORAGE_EXPORT FileSystemBackend {
// Callback for InitializeFileSystem.
typedef base::Callback<void(const GURL& root_url,
const std::string& name,
base::File::Error error)>
virtual ~FileSystemBackend() {}
// Returns true if this filesystem backend can handle |type|.
// One filesystem backend may be able to handle multiple filesystem types.
virtual bool CanHandleType(FileSystemType type) const = 0;
// This method is called right after the backend is registered in the
// FileSystemContext and before any other methods are called. Each backend can
// do additional initialization which depends on FileSystemContext here.
virtual void Initialize(FileSystemContext* context) = 0;
// Resolves the filesystem root URL and the name for the given |url|.
// This verifies if it is allowed to request (or create) the filesystem and if
// it can access (or create) the root directory.
// If |mode| is CREATE_IF_NONEXISTENT calling this may also create the root
// directory (and/or related database entries etc) for the filesystem if it
// doesn't exist.
virtual void ResolveURL(const FileSystemURL& url,
OpenFileSystemMode mode,
const OpenFileSystemCallback& callback) = 0;
// Returns the specialized AsyncFileUtil for this backend.
virtual AsyncFileUtil* GetAsyncFileUtil(FileSystemType type) = 0;
// Returns the specialized WatcherManager for this backend.
virtual WatcherManager* GetWatcherManager(FileSystemType type) = 0;
// Returns the specialized CopyOrMoveFileValidatorFactory for this backend
// and |type|. If |error_code| is File::FILE_OK and the result is NULL,
// then no validator is required.
virtual CopyOrMoveFileValidatorFactory* GetCopyOrMoveFileValidatorFactory(
FileSystemType type, base::File::Error* error_code) = 0;
// Returns a new instance of the specialized FileSystemOperation for this
// backend based on the given triplet of |origin_url|, |file_system_type|
// and |virtual_path|. On failure to create a file system operation, set
// |error_code| correspondingly.
// This method is usually dispatched by
// FileSystemContext::CreateFileSystemOperation.
virtual FileSystemOperation* CreateFileSystemOperation(
const FileSystemURL& url,
FileSystemContext* context,
base::File::Error* error_code) const = 0;
// Returns true if Blobs accessing |url| should use FileStreamReader.
// If false, Blobs are accessed using a snapshot file by calling
// AsyncFileUtil::CreateSnapshotFile.
virtual bool SupportsStreaming(const FileSystemURL& url) const = 0;
// Returns true if specified |type| of filesystem can handle Copy()
// of the files in the same file system instead of streaming
// read/write implementation.
virtual bool HasInplaceCopyImplementation(FileSystemType type) const = 0;
// Creates a new file stream reader for a given filesystem URL |url| with an
// offset |offset|. |expected_modification_time| specifies the expected last
// modification if the value is non-null, the reader will check the underlying
// file's actual modification time to see if the file has been modified, and
// if it does any succeeding read operations should fail with
// This method itself does *not* check if the given path exists and is a
// regular file. At most |max_bytes_to_read| can be fetched from the file
// stream reader.
virtual scoped_ptr<storage::FileStreamReader> CreateFileStreamReader(
const FileSystemURL& url,
int64 offset,
int64 max_bytes_to_read,
const base::Time& expected_modification_time,
FileSystemContext* context) const = 0;
// Creates a new file stream writer for a given filesystem URL |url| with an
// offset |offset|.
// This method itself does *not* check if the given path exists and is a
// regular file.
virtual scoped_ptr<FileStreamWriter> CreateFileStreamWriter(
const FileSystemURL& url,
int64 offset,
FileSystemContext* context) const = 0;
// Returns the specialized FileSystemQuotaUtil for this backend.
// This could return NULL if this backend does not support quota.
virtual FileSystemQuotaUtil* GetQuotaUtil() = 0;
// Returns the update observer list for |type|. It may return NULL when no
// observers are added.
virtual const UpdateObserverList* GetUpdateObservers(
FileSystemType type) const = 0;
// Returns the change observer list for |type|. It may return NULL when no
// observers are added.
virtual const ChangeObserverList* GetChangeObservers(
FileSystemType type) const = 0;
// Returns the access observer list for |type|. It may return NULL when no
// observers are added.
virtual const AccessObserverList* GetAccessObservers(
FileSystemType type) const = 0;
// An interface to control external file system access permissions.
// TODO(satorux): Move this out of 'storage/browser/fileapi'.
class ExternalFileSystemBackend : public FileSystemBackend {
// Returns true if |url| is allowed to be accessed.
// This is supposed to perform ExternalFileSystem-specific security
// checks.
virtual bool IsAccessAllowed(const storage::FileSystemURL& url) const = 0;
// Returns the list of top level directories that are exposed by this
// provider. This list is used to set appropriate child process file access
// permissions.
virtual std::vector<base::FilePath> GetRootDirectories() const = 0;
// Grants access to |virtual_path| from |origin_url|.
virtual void GrantFileAccessToExtension(
const std::string& extension_id,
const base::FilePath& virtual_path) = 0;
// Revokes file access from extension identified with |extension_id|.
virtual void RevokeAccessForExtension(
const std::string& extension_id) = 0;
// Gets virtual path by known filesystem path. Returns false when filesystem
// path is not exposed by this provider.
virtual bool GetVirtualPath(const base::FilePath& file_system_path,
base::FilePath* virtual_path) const = 0;
// Gets a redirect URL for contents. e.g. Google Drive URL for hosted
// documents. Returns empty URL if the entry does not have the redirect URL.
virtual void GetRedirectURLForContents(
const storage::FileSystemURL& url,
const storage::URLCallback& callback) const = 0;
// Creates an internal File System URL for performing internal operations such
// as confirming if a file or a directory exist before granting the final
// permission to the entry. The path must be an absolute path.
virtual storage::FileSystemURL CreateInternalURL(
storage::FileSystemContext* context,
const base::FilePath& entry_path) const = 0;
} // namespace storage