// Copyright 2014 The Crashpad Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #ifndef CRASHPAD_UTIL_FILE_FILE_IO_H_ #define CRASHPAD_UTIL_FILE_FILE_IO_H_ #include #include #include "build/build_config.h" #if defined(OS_POSIX) #include "base/files/scoped_file.h" #elif defined(OS_WIN) #include #include "util/win/scoped_handle.h" #endif namespace base { class FilePath; } // namespace base namespace crashpad { #if defined(OS_POSIX) || DOXYGEN //! \brief Platform-specific alias for a low-level file handle. using FileHandle = int; //! \brief Platform-specific alias for a position in an open file. using FileOffset = off_t; //! \brief Scoped wrapper of a FileHandle. using ScopedFileHandle = base::ScopedFD; //! \brief The return value of read and write calls. using FileOperationResult = ssize_t; //! \brief A value that can never be a valid FileHandle. const FileHandle kInvalidFileHandle = -1; #elif defined(OS_WIN) using FileHandle = HANDLE; using FileOffset = LONGLONG; using ScopedFileHandle = ScopedFileHANDLE; using FileOperationResult = LONG_PTR; const FileHandle kInvalidFileHandle = INVALID_HANDLE_VALUE; #endif //! \brief Determines the mode that LoggingOpenFileForWrite() uses. enum class FileWriteMode { //! \brief Opens the file if it exists, or fails if it does not. kReuseOrFail, //! \brief Opens the file if it exists, or creates a new file. kReuseOrCreate, //! \brief Creates a new file. If the file already exists, it will be //! overwritten. kTruncateOrCreate, //! \brief Creates a new file. If the file already exists, the open will fail. kCreateOrFail, }; //! \brief Determines the permissions bits for files created on POSIX systems. enum class FilePermissions : bool { //! \brief Equivalent to `0600`. kOwnerOnly, //! \brief Equivalent to `0644`. kWorldReadable, }; //! \brief Determines the locking mode that LoggingLockFile() uses. enum class FileLocking : bool { //! \brief Equivalent to `flock()` with `LOCK_SH`. kShared, //! \brief Equivalent to `flock()` with `LOCK_EX`. kExclusive, }; //! \brief Determines if LoggingLockFile will block. enum class FileLockingBlocking : bool { //! \brief Block until the lock is acquired kBlocking = false, //! \brief Do not block when attempting to acquire a lock. kNonBlocking = true, }; //! \brief The return value for LoggingLockFile. enum class FileLockingResult : int { //! \brief The lock was acquired successfully. kSuccess, //! \brief In non-blocking mode only, the file was already locked. Locking //! would block, so the lock was not acquired. kWouldBlock, //! \brief The lock was not acquired. kFailure, }; //! \brief Determines the FileHandle that StdioFileHandle() returns. enum class StdioStream { //! \brief Standard input, or `stdin`. kStandardInput, //! \brief Standard output, or `stdout`. kStandardOutput, //! \brief Standard error, or `stderr`. kStandardError, }; namespace internal { #if defined(OS_POSIX) || DOXYGEN //! \brief The name of the native read function used by ReadFile(). //! //! This value may be useful for logging. //! //! \sa kNativeWriteFunctionName constexpr char kNativeReadFunctionName[] = "read"; //! \brief The name of the native write function used by WriteFile(). //! //! This value may be useful for logging. //! //! \sa kNativeReadFunctionName constexpr char kNativeWriteFunctionName[] = "write"; #elif defined(OS_WIN) constexpr char kNativeReadFunctionName[] = "ReadFile"; constexpr char kNativeWriteFunctionName[] = "WriteFile"; #endif //! \brief The internal implementation of ReadFileExactly() and its wrappers. //! //! The logic is exposed so that it may be reused by FileReaderInterface, and //! so that it may be tested without requiring large files to be read. It is not //! intended to be used more generally. Use ReadFileExactly(), //! LoggingReadFileExactly(), CheckedReadFileExactly(), or //! FileReaderInterface::ReadExactly() instead. class ReadExactlyInternal { public: ReadExactlyInternal(const ReadExactlyInternal&) = delete; ReadExactlyInternal& operator=(const ReadExactlyInternal&) = delete; //! \brief Calls Read(), retrying following a short read, ensuring that //! exactly \a size bytes are read. //! //! \return `true` on success. `false` if the underlying Read() fails or if //! fewer than \a size bytes were read. When returning `false`, if \a //! can_log is `true`, logs a message. bool ReadExactly(void* buffer, size_t size, bool can_log); protected: ReadExactlyInternal() {} ~ReadExactlyInternal() {} private: //! \brief Wraps a read operation, such as ReadFile(). //! //! \return The number of bytes read and placed into \a buffer, or `-1` on //! error. When returning `-1`, if \a can_log is `true`, logs a message. virtual FileOperationResult Read(void* buffer, size_t size, bool can_log) = 0; }; //! \brief The internal implementation of WriteFile() and its wrappers. //! //! The logic is exposed so that it may be tested without requiring large files //! to be written. It is not intended to be used more generally. Use //! WriteFile(), LoggingWriteFile(), CheckedWriteFile(), or //! FileWriterInterface::Write() instead. class WriteAllInternal { public: WriteAllInternal(const WriteAllInternal&) = delete; WriteAllInternal& operator=(const WriteAllInternal&) = delete; //! \brief Calls Write(), retrying following a short write, ensuring that //! exactly \a size bytes are written. //! //! \return `true` on success. `false` if the underlying Write() fails or if //! fewer than \a size bytes were written. bool WriteAll(const void* buffer, size_t size); protected: WriteAllInternal() {} ~WriteAllInternal() {} private: //! \brief Wraps a write operation, such as NativeWriteFile(). //! //! \return The number of bytes written from \a buffer, or `-1` on error. virtual FileOperationResult Write(const void* buffer, size_t size) = 0; }; //! \brief Writes to a file, retrying when interrupted on POSIX. //! //! Fewer than \a size bytes may be written to \a file. This can happen if the //! underlying write operation returns before writing the entire buffer, or if //! the buffer is too large to write in a single operation, possibly due to a //! limitation of a data type used to express the number of bytes written. //! //! This function adapts native write operations for uniform use by WriteFile(). //! This function should only be called by WriteFile(). Other code should call //! WriteFile() or another function that wraps WriteFile(). //! //! \param[in] file The file to write to. //! \param[in] buffer A buffer containing data to be written. //! \param[in] size The number of bytes from \a buffer to write. //! //! \return The number of bytes actually written from \a buffer to \a file on //! success. `-1` on error, with `errno` or `GetLastError()` set //! appropriately. FileOperationResult NativeWriteFile(FileHandle file, const void* buffer, size_t size); } // namespace internal //! \brief Reads from a file, retrying when interrupted before reading any data //! on POSIX. //! //! This function reads into \a buffer. Fewer than \a size bytes may be read. //! On Windows, reading from sockets is not currently supported. //! //! \return The number of bytes read and placed into \a buffer, or `-1` on //! error, with `errno` or `GetLastError()` set appropriately. On error, a //! portion of \a file may have been read into \a buffer. //! //! \sa WriteFile //! \sa ReadFileExactly //! \sa LoggingReadFileExactly //! \sa CheckedReadFileExactly //! \sa CheckedReadFileAtEOF FileOperationResult ReadFile(FileHandle file, void* buffer, size_t size); //! \brief Writes to a file, retrying when interrupted on POSIX or following a //! short write. //! //! This function writes to \a file, stopping only when \a size bytes have been //! written. //! //! \return `true` on success. `false` on error, with `errno` or //! `GetLastError()` set appropriately. On error, a portion of \a buffer may //! have been written to \a file. //! //! \sa ReadFile //! \sa LoggingWriteFile //! \sa CheckedWriteFile bool WriteFile(FileHandle file, const void* buffer, size_t size); //! \brief Wraps ReadFile(), retrying following a short read, ensuring that //! exactly \a size bytes are read. //! //! \return `true` on success. If the underlying ReadFile() fails, or if fewer //! than \a size bytes were read, this function logs a message and //! returns `false`. //! //! \sa LoggingWriteFile //! \sa ReadFile //! \sa LoggingReadFileExactly //! \sa CheckedReadFileExactly //! \sa CheckedReadFileAtEOF bool ReadFileExactly(FileHandle file, void* buffer, size_t size); //! \brief Wraps ReadFile(), retrying following a short read, ensuring that //! exactly \a size bytes are read. //! //! \return `true` on success. If the underlying ReadFile() fails, or if fewer //! than \a size bytes were read, this function logs a message and //! returns `false`. //! //! \sa LoggingWriteFile //! \sa ReadFile //! \sa ReadFileExactly //! \sa CheckedReadFileExactly //! \sa CheckedReadFileAtEOF bool LoggingReadFileExactly(FileHandle file, void* buffer, size_t size); //! \brief Wraps WriteFile(), ensuring that exactly \a size bytes are written. //! //! \return `true` on success. If the underlying WriteFile() fails, or if fewer //! than \a size bytes were written, this function logs a message and //! returns `false`. //! //! \sa LoggingReadFileExactly //! \sa WriteFile //! \sa CheckedWriteFile bool LoggingWriteFile(FileHandle file, const void* buffer, size_t size); //! \brief Wraps ReadFile(), ensuring that exactly \a size bytes are read. //! //! If the underlying ReadFile() fails, or if fewer than \a size bytes were //! read, this function causes execution to terminate without returning. //! //! \sa CheckedWriteFile //! \sa ReadFile //! \sa LoggingReadFileExactly //! \sa CheckedReadFileAtEOF void CheckedReadFileExactly(FileHandle file, void* buffer, size_t size); //! \brief Wraps WriteFile(), ensuring that exactly \a size bytes are written. //! //! if the underlying WriteFile() fails, or if fewer than \a size bytes were //! written, this function causes execution to terminate without returning. //! //! \sa CheckedReadFileExactly //! \sa WriteFile //! \sa LoggingWriteFile void CheckedWriteFile(FileHandle file, const void* buffer, size_t size); //! \brief Wraps ReadFile(), ensuring that it indicates end-of-file. //! //! Attempts to read a single byte from \a file, expecting no data to be read. //! If the underlying ReadFile() fails, or if a byte actually is read, this //! function causes execution to terminate without returning. //! //! \sa CheckedReadFileExactly //! \sa ReadFile void CheckedReadFileAtEOF(FileHandle file); //! \brief Wraps ReadFile() to read from the current file position to the end of //! the file into \a contents. //! //! \return `true` on success, or `false` with a message logged. bool LoggingReadToEOF(FileHandle file, std::string* contents); //! \brief Wraps LoggingOpenFileForRead() and ReadFile() reading the entire file //! into \a contents. //! //! \return `true` on success, or `false` with a message logged. bool LoggingReadEntireFile(const base::FilePath& path, std::string* contents); //! \brief Wraps `open()` or `CreateFile()`, opening an existing file for //! reading. //! //! \return The newly opened FileHandle, or an invalid FileHandle on failure. //! //! \sa ScopedFileHandle //! \sa OpenFileForWrite //! \sa OpenFileForReadAndWrite //! \sa LoggingOpenFileForRead FileHandle OpenFileForRead(const base::FilePath& path); //! \brief Wraps `open()` or `CreateFile()`, creating a file for output. //! //! \a mode determines the style (truncate, reuse, etc.) that is used to open //! the file. On POSIX, \a permissions determines the value that is passed as //! `mode` to `open()`. On Windows, the file is always opened in binary mode //! (that is, no CRLF translation). On Windows, the file is opened for sharing, //! see LoggingLockFile() and LoggingUnlockFile() to control concurrent access. //! //! \return The newly opened FileHandle, or an invalid FileHandle on failure. //! //! \sa ScopedFileHandle //! \sa OpenFileForRead //! \sa OpenFileForReadAndWrite //! \sa LoggingOpenFileForWrite FileHandle OpenFileForWrite(const base::FilePath& path, FileWriteMode mode, FilePermissions permissions); //! \brief Wraps `open()` or `CreateFile()`, creating a file for both input and //! output. //! //! \a mode determines the style (truncate, reuse, etc.) that is used to open //! the file. On POSIX, \a permissions determines the value that is passed as //! `mode` to `open()`. On Windows, the file is always opened in binary mode //! (that is, no CRLF translation). On Windows, the file is opened for sharing, //! see LoggingLockFile() and LoggingUnlockFile() to control concurrent access. //! //! \return The newly opened FileHandle, or an invalid FileHandle on failure. //! //! \sa ScopedFileHandle //! \sa OpenFileForRead //! \sa OpenFileForWrite //! \sa LoggingOpenFileForReadAndWrite FileHandle OpenFileForReadAndWrite(const base::FilePath& path, FileWriteMode mode, FilePermissions permissions); //! \brief Wraps OpenFileForRead(), logging an error if the operation fails. //! //! \return The newly opened FileHandle, or an invalid FileHandle on failure. //! //! \sa ScopedFileHandle //! \sa LoggingOpenFileForWrite //! \sa LoggingOpenFileForReadAndWrite FileHandle LoggingOpenFileForRead(const base::FilePath& path); //! \brief Wraps OpenFileForWrite(), logging an error if the operation fails. //! //! \return The newly opened FileHandle, or an invalid FileHandle on failure. //! //! \sa ScopedFileHandle //! \sa LoggingOpenFileForRead //! \sa LoggingOpenFileForReadAndWrite FileHandle LoggingOpenFileForWrite(const base::FilePath& path, FileWriteMode mode, FilePermissions permissions); #if defined(OS_LINUX) || defined(OS_CHROMEOS) //! \brief Opens an in-memory file for input and output. //! //! This function first attempts to open the file with `memfd_create()`. If //! `memfd_create()` isn't supported by the kernel, this function next attempts //! to open a file using `O_TMPFILE`. If `O_TMPFILE` isn't supported, this //! function finally falls back to creating a file with a randomized name in //! `/tmp` and immediately `unlink()`ing it. //! //! Unlike other file open operations, this function doesn't set `O_CLOEXEC`. //! //! \param name A name associated with the file. This name does not indicate any //! exact path and may not be used at all, depending on the strategy used to //! create the file. The name should not contain any '/' characters. //! \return The newly opened FileHandle, or an invalid FileHandle on failure, //! with a message logged. //! //! \sa ScopedFileHandle //! \sa LoggingOpenFileForRead //! \sa LoggingOpenFileForWrite //! \sa LoggingOpenFileForReadAndWrite FileHandle LoggingOpenMemoryFileForReadAndWrite(const base::FilePath& name); #endif // OS_LINUX || OS_CHROMEOS //! \brief Wraps OpenFileForReadAndWrite(), logging an error if the operation //! fails. //! //! \return The newly opened FileHandle, or an invalid FileHandle on failure. //! //! \sa ScopedFileHandle //! \sa LoggingOpenFileForRead //! \sa LoggingOpenFileForWrite FileHandle LoggingOpenFileForReadAndWrite(const base::FilePath& path, FileWriteMode mode, FilePermissions permissions); // Fuchsia does not currently support any sort of file locking. See // https://crashpad.chromium.org/bug/196 and // https://crashpad.chromium.org/bug/217. #if !defined(OS_FUCHSIA) //! \brief Locks the given \a file using `flock()` on POSIX or `LockFileEx()` on //! Windows. //! //! It is an error to attempt to lock a file in a different mode when it is //! already locked. This call will block until the lock is acquired unless //! \a blocking is FileLockingBlocking::kNonBlocking. The entire file is //! locked. //! //! If \a locking is FileLocking::kShared, \a file must have been opened for //! reading, and if it's FileLocking::kExclusive, \a file must have been opened //! for writing. //! //! \param[in] file The open file handle to be locked. //! \param[in] locking Controls whether the lock is a shared reader lock, or an //! exclusive writer lock. //! \param[in] blocking Controls whether a locked file will result in blocking //! or an immediate return. //! //! \return kSuccess if a lock is acquired. If a lock could not be acquired //! because \a blocking is FileLockingBlocking::kNonBlocking and acquiring //! the lock would block, returns kWouldBlock. If a lock fails for any other //! reason, returns kFailure and a message will be logged. FileLockingResult LoggingLockFile(FileHandle file, FileLocking locking, FileLockingBlocking blocking); //! \brief Unlocks a file previously locked with LoggingLockFile(). //! //! It is an error to attempt to unlock a file that was not previously locked. //! A previously-locked file should be unlocked before closing the file handle, //! otherwise on some OSs the lock may not be released immediately. //! //! \param[in] file The open locked file handle to be unlocked. //! //! \return `true` on success, or `false` and a message will be logged. bool LoggingUnlockFile(FileHandle file); #endif // !OS_FUCHSIA //! \brief Wraps `lseek()` or `SetFilePointerEx()`. Logs an error if the //! operation fails. //! //! Repositions the offset of the open \a file to the specified \a offset, //! relative to \a whence. \a whence must be one of `SEEK_SET`, `SEEK_CUR`, or //! `SEEK_END`, and is interpreted in the usual way. //! //! \return The resulting offset in bytes from the beginning of the file, or //! `-1` on failure. FileOffset LoggingSeekFile(FileHandle file, FileOffset offset, int whence); //! \brief Truncates the given \a file to zero bytes in length. //! //! \return `true` on success, or `false`, and a message will be logged. bool LoggingTruncateFile(FileHandle file); //! \brief Wraps `close()` or `CloseHandle()`, logging an error if the operation //! fails. //! //! \return On success, `true` is returned. On failure, an error is logged and //! `false` is returned. bool LoggingCloseFile(FileHandle file); //! \brief Wraps `close()` or `CloseHandle()`, ensuring that it succeeds. //! //! If the underlying function fails, this function causes execution to //! terminate without returning. void CheckedCloseFile(FileHandle file); //! \brief Determines the size of a file. //! //! \param[in] file The handle to the file for which the size should be //! retrieved. //! //! \return The size of the file. If an error occurs when attempting to //! determine its size, returns `-1` with an error logged. FileOffset LoggingFileSizeByHandle(FileHandle file); //! \brief Returns a FileHandle corresponding to the requested standard I/O //! stream. //! //! The returned FileHandle should not be closed on POSIX, where it is //! important to maintain valid file descriptors occupying the slots reserved //! for these streams. If a need to close such a stream arises on POSIX, //! `dup2()` should instead be used to replace the existing file descriptor with //! one opened to `/dev/null`. See CloseStdinAndStdout(). //! //! \param[in] stdio_stream The requested standard I/O stream. //! //! \return A corresponding FileHandle on success. kInvalidFileHandle on error, //! with a message logged. FileHandle StdioFileHandle(StdioStream stdio_stream); } // namespace crashpad #endif // CRASHPAD_UTIL_FILE_FILE_IO_H_