// 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. #ifndef BASE_FILES_FILE_H_ #define BASE_FILES_FILE_H_ #include #include #include "base/base_export.h" #include "base/files/file_path.h" #include "base/files/file_tracing.h" #include "base/files/platform_file.h" #include "base/files/scoped_file.h" #include "base/macros.h" #include "base/time/time.h" #include "build/build_config.h" #if defined(OS_POSIX) || defined(OS_FUCHSIA) #include #endif namespace base { #if defined(OS_BSD) || defined(OS_MACOSX) || defined(OS_NACL) || \ defined(OS_FUCHSIA) || (defined(OS_ANDROID) && __ANDROID_API__ < 21) typedef struct stat stat_wrapper_t; #elif defined(OS_POSIX) typedef struct stat64 stat_wrapper_t; #endif // Thin wrapper around an OS-level file. // Note that this class does not provide any support for asynchronous IO, other // than the ability to create asynchronous handles on Windows. // // Note about const: this class does not attempt to determine if the underlying // file system object is affected by a particular method in order to consider // that method const or not. Only methods that deal with member variables in an // obvious non-modifying way are marked as const. Any method that forward calls // to the OS is not considered const, even if there is no apparent change to // member variables. class BASE_EXPORT File { public: // FLAG_(OPEN|CREATE).* are mutually exclusive. You should specify exactly one // of the five (possibly combining with other flags) when opening or creating // a file. // FLAG_(WRITE|APPEND) are mutually exclusive. This is so that APPEND behavior // will be consistent with O_APPEND on POSIX. // FLAG_EXCLUSIVE_(READ|WRITE) only grant exclusive access to the file on // creation on POSIX; for existing files, consider using Lock(). enum Flags { FLAG_OPEN = 1 << 0, // Opens a file, only if it exists. FLAG_CREATE = 1 << 1, // Creates a new file, only if it does not // already exist. FLAG_OPEN_ALWAYS = 1 << 2, // May create a new file. FLAG_CREATE_ALWAYS = 1 << 3, // May overwrite an old file. FLAG_OPEN_TRUNCATED = 1 << 4, // Opens a file and truncates it, only if it // exists. FLAG_READ = 1 << 5, FLAG_WRITE = 1 << 6, FLAG_APPEND = 1 << 7, FLAG_EXCLUSIVE_READ = 1 << 8, // EXCLUSIVE is opposite of Windows SHARE. FLAG_EXCLUSIVE_WRITE = 1 << 9, FLAG_ASYNC = 1 << 10, FLAG_TEMPORARY = 1 << 11, // Used on Windows only. FLAG_HIDDEN = 1 << 12, // Used on Windows only. FLAG_DELETE_ON_CLOSE = 1 << 13, FLAG_WRITE_ATTRIBUTES = 1 << 14, // Used on Windows only. FLAG_SHARE_DELETE = 1 << 15, // Used on Windows only. FLAG_TERMINAL_DEVICE = 1 << 16, // Serial port flags. FLAG_BACKUP_SEMANTICS = 1 << 17, // Used on Windows only. FLAG_EXECUTE = 1 << 18, // Used on Windows only. FLAG_SEQUENTIAL_SCAN = 1 << 19, // Used on Windows only. FLAG_CAN_DELETE_ON_CLOSE = 1 << 20, // Requests permission to delete a file // via DeleteOnClose() (Windows only). // See DeleteOnClose() for details. }; // This enum has been recorded in multiple histograms using PlatformFileError // enum. If the order of the fields needs to change, please ensure that those // histograms are obsolete or have been moved to a different enum. // // FILE_ERROR_ACCESS_DENIED is returned when a call fails because of a // filesystem restriction. FILE_ERROR_SECURITY is returned when a browser // policy doesn't allow the operation to be executed. enum Error { FILE_OK = 0, FILE_ERROR_FAILED = -1, FILE_ERROR_IN_USE = -2, FILE_ERROR_EXISTS = -3, FILE_ERROR_NOT_FOUND = -4, FILE_ERROR_ACCESS_DENIED = -5, FILE_ERROR_TOO_MANY_OPENED = -6, FILE_ERROR_NO_MEMORY = -7, FILE_ERROR_NO_SPACE = -8, FILE_ERROR_NOT_A_DIRECTORY = -9, FILE_ERROR_INVALID_OPERATION = -10, FILE_ERROR_SECURITY = -11, FILE_ERROR_ABORT = -12, FILE_ERROR_NOT_A_FILE = -13, FILE_ERROR_NOT_EMPTY = -14, FILE_ERROR_INVALID_URL = -15, FILE_ERROR_IO = -16, // Put new entries here and increment FILE_ERROR_MAX. FILE_ERROR_MAX = -17 }; // This explicit mapping matches both FILE_ on Windows and SEEK_ on Linux. enum Whence { FROM_BEGIN = 0, FROM_CURRENT = 1, FROM_END = 2 }; // Used to hold information about a given file. // If you add more fields to this structure (platform-specific fields are OK), // make sure to update all functions that use it in file_util_{win|posix}.cc, // too, and the ParamTraits implementation in // ipc/ipc_message_utils.cc. struct BASE_EXPORT Info { Info(); ~Info(); #if defined(OS_POSIX) || defined(OS_FUCHSIA) // Fills this struct with values from |stat_info|. void FromStat(const stat_wrapper_t& stat_info); #endif // The size of the file in bytes. Undefined when is_directory is true. int64_t size; // True if the file corresponds to a directory. bool is_directory; // True if the file corresponds to a symbolic link. For Windows currently // not supported and thus always false. bool is_symbolic_link; // The last modified time of a file. Time last_modified; // The last accessed time of a file. Time last_accessed; // The creation time of a file. Time creation_time; }; File(); // Creates or opens the given file. This will fail with 'access denied' if the // |path| contains path traversal ('..') components. File(const FilePath& path, uint32_t flags); // Takes ownership of |platform_file| and sets async to false. explicit File(PlatformFile platform_file); // Takes ownership of |platform_file| and sets async to the given value. // This constructor exists because on Windows you can't check if platform_file // is async or not. File(PlatformFile platform_file, bool async); // Creates an object with a specific error_details code. explicit File(Error error_details); File(File&& other); ~File(); File& operator=(File&& other); // Creates or opens the given file. void Initialize(const FilePath& path, uint32_t flags); // Returns |true| if the handle / fd wrapped by this object is valid. This // method doesn't interact with the file system (and is safe to be called from // ThreadRestrictions::SetIOAllowed(false) threads). bool IsValid() const; // Returns true if a new file was created (or an old one truncated to zero // length to simulate a new file, which can happen with // FLAG_CREATE_ALWAYS), and false otherwise. bool created() const { return created_; } // Returns the OS result of opening this file. Note that the way to verify // the success of the operation is to use IsValid(), not this method: // File file(path, flags); // if (!file.IsValid()) // return; Error error_details() const { return error_details_; } PlatformFile GetPlatformFile() const; PlatformFile TakePlatformFile(); // Destroying this object closes the file automatically. void Close(); // Changes current position in the file to an |offset| relative to an origin // defined by |whence|. Returns the resultant current position in the file // (relative to the start) or -1 in case of error. int64_t Seek(Whence whence, int64_t offset); // Reads the given number of bytes (or until EOF is reached) starting with the // given offset. Returns the number of bytes read, or -1 on error. Note that // this function makes a best effort to read all data on all platforms, so it // is not intended for stream oriented files but instead for cases when the // normal expectation is that actually |size| bytes are read unless there is // an error. int Read(int64_t offset, char* data, int size); // Same as above but without seek. int ReadAtCurrentPos(char* data, int size); // Reads the given number of bytes (or until EOF is reached) starting with the // given offset, but does not make any effort to read all data on all // platforms. Returns the number of bytes read, or -1 on error. int ReadNoBestEffort(int64_t offset, char* data, int size); // Same as above but without seek. int ReadAtCurrentPosNoBestEffort(char* data, int size); // Writes the given buffer into the file at the given offset, overwritting any // data that was previously there. Returns the number of bytes written, or -1 // on error. Note that this function makes a best effort to write all data on // all platforms. |data| can be nullptr when |size| is 0. // Ignores the offset and writes to the end of the file if the file was opened // with FLAG_APPEND. int Write(int64_t offset, const char* data, int size); // Save as above but without seek. int WriteAtCurrentPos(const char* data, int size); // Save as above but does not make any effort to write all data on all // platforms. Returns the number of bytes written, or -1 on error. int WriteAtCurrentPosNoBestEffort(const char* data, int size); // Returns the current size of this file, or a negative number on failure. int64_t GetLength(); // Truncates the file to the given length. If |length| is greater than the // current size of the file, the file is extended with zeros. If the file // doesn't exist, |false| is returned. bool SetLength(int64_t length); // Instructs the filesystem to flush the file to disk. (POSIX: fsync, Windows: // FlushFileBuffers). // Calling Flush() does not guarantee file integrity and thus is not a valid // substitute for file integrity checks and recovery codepaths for malformed // files. It can also be *really* slow, so avoid blocking on Flush(), // especially please don't block shutdown on Flush(). // Latency percentiles of Flush() across all platforms as of July 2016: // 50 % > 5 ms // 10 % > 58 ms // 1 % > 357 ms // 0.1 % > 1.8 seconds // 0.01 % > 7.6 seconds bool Flush(); // Updates the file times. bool SetTimes(Time last_access_time, Time last_modified_time); // Returns some basic information for the given file. bool GetInfo(Info* info); #if !defined(OS_FUCHSIA) // Fuchsia's POSIX API does not support file locking. // Attempts to take an exclusive write lock on the file. Returns immediately // (i.e. does not wait for another process to unlock the file). If the lock // was obtained, the result will be FILE_OK. A lock only guarantees // that other processes may not also take a lock on the same file with the // same API - it may still be opened, renamed, unlinked, etc. // // Common semantics: // * Locks are held by processes, but not inherited by child processes. // * Locks are released by the OS on file close or process termination. // * Locks are reliable only on local filesystems. // * Duplicated file handles may also write to locked files. // Windows-specific semantics: // * Locks are mandatory for read/write APIs, advisory for mapping APIs. // * Within a process, locking the same file (by the same or new handle) // will fail. // POSIX-specific semantics: // * Locks are advisory only. // * Within a process, locking the same file (by the same or new handle) // will succeed. // * Closing any descriptor on a given file releases the lock. Error Lock(); // Unlock a file previously locked. Error Unlock(); #endif // !defined(OS_FUCHSIA) // Returns a new object referencing this file for use within the current // process. Handling of FLAG_DELETE_ON_CLOSE varies by OS. On POSIX, the File // object that was created or initialized with this flag will have unlinked // the underlying file when it was created or opened. On Windows, the // underlying file is deleted when the last handle to it is closed. File Duplicate() const; bool async() const { return async_; } #if defined(OS_WIN) // Sets or clears the DeleteFile disposition on the file. Returns true if // the disposition was set or cleared, as indicated by |delete_on_close|. // // Microsoft Windows deletes a file only when the DeleteFile disposition is // set on a file when the last handle to the last underlying kernel File // object is closed. This disposition is be set by: // - Calling the Win32 DeleteFile function with the path to a file. // - Opening/creating a file with FLAG_DELETE_ON_CLOSE and then closing all // handles to that File object. // - Opening/creating a file with FLAG_CAN_DELETE_ON_CLOSE and subsequently // calling DeleteOnClose(true). // // In all cases, all pre-existing handles to the file must have been opened // with FLAG_SHARE_DELETE. Once the disposition has been set by any of the // above means, no new File objects can be created for the file. // // So: // - Use FLAG_SHARE_DELETE when creating/opening a file to allow another // entity on the system to cause it to be deleted when it is closed. (Note: // another entity can delete the file the moment after it is closed, so not // using this permission doesn't provide any protections.) // - Use FLAG_DELETE_ON_CLOSE for any file that is to be deleted after use. // The OS will ensure it is deleted even in the face of process termination. // Note that it's possible for deletion to be cancelled via another File // object referencing the same file using DeleteOnClose(false) to clear the // DeleteFile disposition after the original File is closed. // - Use FLAG_CAN_DELETE_ON_CLOSE in conjunction with DeleteOnClose() to alter // the DeleteFile disposition on an open handle. This fine-grained control // allows for marking a file for deletion during processing so that it is // deleted in the event of untimely process termination, and then clearing // this state once the file is suitable for persistence. bool DeleteOnClose(bool delete_on_close); #endif #if defined(OS_WIN) static Error OSErrorToFileError(DWORD last_error); #elif defined(OS_POSIX) || defined(OS_FUCHSIA) static Error OSErrorToFileError(int saved_errno); #endif // Gets the last global error (errno or GetLastError()) and converts it to the // closest base::File::Error equivalent via OSErrorToFileError(). The returned // value is only trustworthy immediately after another base::File method // fails. base::File never resets the global error to zero. static Error GetLastFileError(); // Converts an error value to a human-readable form. Used for logging. static std::string ErrorToString(Error error); private: friend class FileTracing::ScopedTrace; // Creates or opens the given file. Only called if |path| has no // traversal ('..') components. void DoInitialize(const FilePath& path, uint32_t flags); void SetPlatformFile(PlatformFile file); ScopedPlatformFile file_; // A path to use for tracing purposes. Set if file tracing is enabled during // |Initialize()|. FilePath tracing_path_; // Object tied to the lifetime of |this| that enables/disables tracing. FileTracing::ScopedEnabler trace_enabler_; Error error_details_; bool created_; bool async_; DISALLOW_COPY_AND_ASSIGN(File); }; } // namespace base #endif // BASE_FILES_FILE_H_