This chapter describes functions for performing low-level input/output operations on file descriptors. These functions include the primitives for the higher-level I/O functions described in Chapter 13, as well as functions for performing low-level control operations for which there are no equivalents on streams.
Stream-level I/O is more flexible and usually more convenient; therefore, programmers generally use the descriptor-level functions only when necessary. These are some of the usual reasons:
For reading binary files in large chunks.
For reading an entire file into core before parsing it.
To perform operations other than data transfer, which can only be done with a descriptor. (You can use fileno to get the descriptor corresponding to a stream.)
To pass descriptors to a child process. (The child can create its own stream to use a descriptor that it inherits, but cannot inherit a stream directly.)
This section describes the primitives for opening and closing files using file descriptors. The open and creat functions are declared in the header file fcntl.h, while close is declared in unistd.h. int function>open/function> (const char *filename, int flags[, mode_t mode]) The open function creates and returns a new file descriptor for the file named by filename. Initially, the file position indicator for the file is at the beginning of the file. The argument mode is used only when a file is created, but it doesn't hurt to supply the argument in any case.
The flags argument controls how the file is to be opened. This is a bit mask; you create the value by the bitwise OR of the appropriate parameters (using the | operator in C). the section called “File Status Flags”, for the parameters available.
The normal return value from open is a non-negative integer file descriptor. In the case of an error, a value of -1 is returned instead. In addition to the usual file name errors (the section called “File Name Errors”), the following errno error conditions are defined for this function:
The file exists but is not readable/writable as requested by the flags argument, the file does not exist and the directory is unwritable so it cannot be created.
Both O_CREAT and O_EXCL are set, and the named file already exists.
The open operation was interrupted by a signal. the section called “Primitives Interrupted by Signals”.
The flags argument specified write access, and the file is a directory.
The process has too many files open. The maximum number of file descriptors is controlled by the RLIMIT_NOFILE resource limit; the section called “Limiting Resource Usage”.
The entire system, or perhaps the file system which contains the directory, cannot support any additional open files at the moment. (This problem cannot happen on the GNU system.)
The named file does not exist, and O_CREAT is not specified.
The directory or file system that would contain the new file cannot be extended, because there is no disk space left.
O_NONBLOCK and O_WRONLY are both set in the flags argument, the file named by filename is a FIFO (Chapter 16), and no process has the file open for reading.
The file resides on a read-only file system and any of O_WRONLY, O_RDWR, and O_TRUNC are set in the flags argument, or O_CREAT is set and the file does not already exist.
If on a 32 bit machine the sources are translated with _FILE_OFFSET_BITS == 64 the function open returns a file descriptor opened in the large file mode which enables the file handling functions to use files up to 2^63 bytes in size and offset from -2^63 to 2^63. This happens transparently for the user since all of the lowlevel file handling functions are equally replaced.
This function is a cancellation point in multi-threaded programs. This is a problem if the thread allocates some resources (like memory, file descriptors, semaphores or whatever) at the time open is called. If the thread gets canceled these resources stay allocated until the program ends. To avoid this calls to open should be protected using cancellation handlers.
The open function is the underlying primitive for the fopen and freopen functions, that create streams.
int function>open64/function> (const char *filename, int flags[, mode_t mode]) This function is similar to open. It returns a file descriptor which can be used to access the file named by filename. The only difference is that on 32 bit systems the file is opened in the large file mode. I.e., file length and file offsets can exceed 31 bits.
When the sources are translated with _FILE_OFFSET_BITS == 64 this function is actually available under the name open. I.e., the new, extended API using 64 bit file sizes and offsets transparently replaces the old API.
int function>creat/function> (const char *filename, mode_t mode) This function is obsolete. The call:
creat (filename, mode)
is equivalent to:
open (filename, O_WRONLY | O_CREAT | O_TRUNC, mode)
If on a 32 bit machine the sources are translated with _FILE_OFFSET_BITS == 64 the function creat returns a file descriptor opened in the large file mode which enables the file handling functions to use files up to 2^63 in size and offset from -2^63 to 2^63. This happens transparently for the user since all of the lowlevel file handling functions are equally replaced.
int function>creat64/function> (const char *filename, mode_t mode) This function is similar to creat. It returns a file descriptor which can be used to access the file named by filename. The only the difference is that on 32 bit systems the file is opened in the large file mode. I.e., file length and file offsets can exceed 31 bits.
To use this file descriptor one must not use the normal operations but instead the counterparts named *64, e.g., read64.
When the sources are translated with _FILE_OFFSET_BITS == 64 this function is actually available under the name open. I.e., the new, extended API using 64 bit file sizes and offsets transparently replaces the old API.
int function>close/function> (int filedes) The function close closes the file descriptor filedes. Closing a file has the following consequences:
The file descriptor is deallocated.
Any record locks owned by the process on the file are unlocked.
When all file descriptors associated with a pipe or FIFO have been closed, any unread data is discarded.
This function is a cancellation point in multi-threaded programs. This is a problem if the thread allocates some resources (like memory, file descriptors, semaphores or whatever) at the time close is called. If the thread gets canceled these resources stay allocated until the program ends. To avoid this, calls to close should be protected using cancellation handlers.
The normal return value from close is 0; a value of -1 is returned in case of failure. The following errno error conditions are defined for this function:
The filedes argument is not a valid file descriptor.
The close call was interrupted by a signal. the section called “Primitives Interrupted by Signals”. Here is an example of how to handle EINTR properly:
TEMP_FAILURE_RETRY (close (desc));
When the file is accessed by NFS, these errors from write can sometimes not be detected until close. the section called “Input and Output Primitives”, for details on their meaning.
Please note that there is no separate close64 function. This is not necessary since this function does not determine nor depend on the mode of the file. The kernel which performs the close operation knows which mode the descriptor is used for and can handle this situation.
To close a stream, call fclose (the section called “Closing Streams”) instead of trying to close its underlying file descriptor with close. This flushes any buffered output and updates the stream object to indicate that it is closed.