cpython/Doc/lib/libfcntl.tex

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\section{\module{fcntl} ---
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The \function{fcntl()} and \function{ioctl()} system calls}
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\declaremodule{builtin}{fcntl}
\platform{Unix}
\modulesynopsis{The \function{fcntl()} and \function{ioctl()} system calls.}
\sectionauthor{Jaap Vermeulen}{}
\indexii{UNIX@\UNIX}{file control}
\indexii{UNIX@\UNIX}{I/O control}
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This module performs file control and I/O control on file descriptors.
It is an interface to the \cfunction{fcntl()} and \cfunction{ioctl()}
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\UNIX{} routines.
All functions in this module take a file descriptor \var{fd} as their
first argument. This can be an integer file descriptor, such as
returned by \code{sys.stdin.fileno()}, or a file object, such as
\code{sys.stdin} itself, which provides a \method{fileno()} which
returns a genuine file descriptor.
The module defines the following functions:
\begin{funcdesc}{fcntl}{fd, op\optional{, arg}}
Perform the requested operation on file descriptor \var{fd} (file
objects providing a \method{fileno()} method are accepted as well).
The operation is defined by \var{op} and is operating system
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dependent. These codes are also found in the \module{fcntl}
module. The argument \var{arg} is optional, and defaults to the
integer value \code{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 \cfunction{fcntl()} call. When the argument is a string it
represents a binary structure, e.g.\ created by
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\function{\refmodule{struct}.pack()}. The binary data is copied to a buffer
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whose address is passed to the C \cfunction{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 \var{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 \cfunction{fcntl()} fails, an \exception{IOError} is
raised.
\end{funcdesc}
\begin{funcdesc}{ioctl}{fd, op\optional{, arg\optional{, mutate_flag}}}
This function is identical to the \function{fcntl()} function,
except that the operations are typically defined in the library
module \refmodule{termios} and the argument handling is even more
complicated.
The parameter \var{arg} can be one of an integer, absent (treated
identically to the integer \code{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 \function{fcntl()}
function.
If a mutable buffer is passed, then the behaviour is determined by
the value of the \var{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
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above is avoided -- so long as the buffer you pass is as least as
long as what the operating system wants to put there, things should
work.
If \var{mutate_flag} is true, then the buffer is (in effect) passed
to the underlying \function{ioctl()} system call, the latter's
return code is passed back to the calling Python, and the buffer's
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new contents reflect the action of the \function{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
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long which is then passed to \function{ioctl()} and copied back into
the supplied buffer.
If \var{mutate_flag} is not supplied, then from Python 2.5 it
defaults to true, which is a change from versions 2.3 and 2.4.
Supply the argument explicitly if version portability is a priority.
An example:
\begin{verbatim}
>>> 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])
\end{verbatim}
\end{funcdesc}
\begin{funcdesc}{flock}{fd, op}
Perform the lock operation \var{op} on file descriptor \var{fd} (file
objects providing a \method{fileno()} method are accepted as well).
See the \UNIX{} manual \manpage{flock}{3} for details. (On some
systems, this function is emulated using \cfunction{fcntl()}.)
\end{funcdesc}
\begin{funcdesc}{lockf}{fd, operation,
\optional{length, \optional{start, \optional{whence}}}}
This is essentially a wrapper around the \function{fcntl()} locking
calls. \var{fd} is the file descriptor of the file to lock or unlock,
and \var{operation} is one of the following values:
\begin{itemize}
\item \constant{LOCK_UN} -- unlock
\item \constant{LOCK_SH} -- acquire a shared lock
\item \constant{LOCK_EX} -- acquire an exclusive lock
\end{itemize}
When \var{operation} is \constant{LOCK_SH} or \constant{LOCK_EX}, it
can also be bit-wise OR'd with \constant{LOCK_NB} to avoid blocking on
lock acquisition. If \constant{LOCK_NB} is used and the lock cannot
be acquired, an \exception{IOError} will be raised and the exception
will have an \var{errno} attribute set to \constant{EACCES} or
\constant{EAGAIN} (depending on the operating system; for portability,
check for both values). On at least some systems, \constant{LOCK_EX}
can only be used if the file descriptor refers to a file opened for
writing.
\var{length} is the number of bytes to lock, \var{start} is the byte
offset at which the lock starts, relative to \var{whence}, and
\var{whence} is as with \function{fileobj.seek()}, specifically:
\begin{itemize}
\item \constant{0} -- relative to the start of the file
(\constant{SEEK_SET})
\item \constant{1} -- relative to the current buffer position
(\constant{SEEK_CUR})
\item \constant{2} -- relative to the end of the file
(\constant{SEEK_END})
\end{itemize}
The default for \var{start} is 0, which means to start at the
beginning of the file. The default for \var{length} is 0 which means
to lock to the end of the file. The default for \var{whence} is also
0.
\end{funcdesc}
Examples (all on a SVR4 compliant system):
\begin{verbatim}
import struct, fcntl, os
f = open(...)
rv = fcntl.fcntl(f, fcntl.F_SETFL, os.O_NDELAY)
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lockdata = struct.pack('hhllhh', fcntl.F_WRLCK, 0, 0, 0, 0, 0)
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rv = fcntl.fcntl(f, fcntl.F_SETLKW, lockdata)
\end{verbatim}
Note that in the first example the return value variable \var{rv} will
hold an integer value; in the second example it will hold a string
value. The structure lay-out for the \var{lockdata} variable is
system dependent --- therefore using the \function{flock()} call may be
better.
\begin{seealso}
\seemodule{os}{If the locking flags \constant{O_SHLOCK} and
\constant{O_EXLOCK} are present in the \module{os} module,
the \function{os.open()} function provides a more
platform-independent alternative to the \function{lockf()}
and \function{flock()} functions.}
\end{seealso}