Availability: Unix.
This module performs file control and I/O control on file descriptors. It is an interface to the fcntl() and ioctl() Unix routines.
All functions in this module take a file descriptor fd as their
first argument. This can be an integer file descriptor, such as
returned by sys.stdin.fileno()
, or a file object, such as
sys.stdin
itself, which provides a fileno() which
returns a genuine file descriptor.
The module defines the following functions:
fd, op[, arg]) |
0
. When present, it can either be an integer
value, or a string. With the argument missing or an integer value,
the return value of this function is the integer return value of the
C fcntl() call. When the argument is a string it
represents a binary structure, e.g. created by
struct.pack(). The binary data is copied to a buffer
whose address is passed to the C fcntl() call. The
return value after a successful call is the contents of the buffer,
converted to a string object. The length of the returned string
will be the same as the length of the arg argument. This is
limited to 1024 bytes. If the information returned in the buffer by
the operating system is larger than 1024 bytes, this is most likely
to result in a segmentation violation or a more subtle data
corruption.
If the fcntl() fails, an IOError is raised.
fd, op[, arg[, mutate_flag]]) |
The parameter arg can be one of an integer, absent (treated
identically to the integer 0
), an object supporting the
read-only buffer interface (most likely a plain Python string) or an
object supporting the read-write buffer interface.
In all but the last case, behaviour is as for the fcntl() function.
If a mutable buffer is passed, then the behaviour is determined by the value of the mutate_flag parameter.
If it is false, the buffer's mutability is ignored and behaviour is as for a read-only buffer, except that the 1024 byte limit mentioned above is avoided - so long as the buffer you pass is longer than what the operating system wants to put there, things should work.
If mutate_flag is true, then the buffer is (in effect) passed to the underlying ioctl() system call, the latter's return code is passed back to the calling Python, and the buffer's new contents reflect the action of the ioctl. This is a slight simplification, because if the supplied buffer is less than 1024 bytes long it is first copied into a static buffer 1024 bytes long which is then passed to ioctl and copied back into the supplied buffer.
If mutate_flag is not supplied, then in 2.3 it defaults to false. This is planned to change over the next few Python versions: in 2.4 failing to supply mutate_flag will get a warning but the same behavior and in versions later than 2.5 it will default to true.
An example:
>>> import array, fcntl, struct, termios, os >>> os.getpgrp() 13341 >>> struct.unpack('h', fcntl.ioctl(0, termios.TIOCGPGRP, " "))[0] 13341 >>> buf = array.array('h', [0]) >>> fcntl.ioctl(0, termios.TIOCGPGRP, buf, 1) 0 >>> buf array('h', [13341])
fd, op) |
fd, operation, [len, [start, [whence]]]) |
When operation is LOCK_SH or LOCK_EX, it can also be bit-wise OR'd with LOCK_NB to avoid blocking on lock acquisition. If LOCK_NB is used and the lock cannot be acquired, an IOError will be raised and the exception will have an errno attribute set to EACCES or EAGAIN (depending on the operating system; for portability, check for both values). On at least some systems, LOCK_EX can only be used if the file descriptor refers to a file opened for writing.
length is the number of bytes to lock, start is the byte offset at which the lock starts, relative to whence, and whence is as with fileobj.seek(), specifically:
The default for start is 0, which means to start at the beginning of the file. The default for length is 0 which means to lock to the end of the file. The default for whence is also 0.
Examples (all on a SVR4 compliant system):
import struct, fcntl file = open(...) rv = fcntl(file, fcntl.F_SETFL, os.O_NDELAY) lockdata = struct.pack('hhllhh', fcntl.F_WRLCK, 0, 0, 0, 0, 0) rv = fcntl.fcntl(file, fcntl.F_SETLKW, lockdata)
Note that in the first example the return value variable rv will hold an integer value; in the second example it will hold a string value. The structure lay-out for the lockdata variable is system dependent -- therefore using the flock() call may be better.
See Also: