|
semop, semtimedop — System V semaphore operations
#include <sys/types.h> #include <sys/ipc.h> #include <sys/sem.h>
int
semop( |
int semid, |
struct sembuf *sops, | |
unsigned nsops) ; |
int
semtimedop( |
int semid, |
struct sembuf *sops, | |
unsigned nsops, | |
struct timespec *timeout) ; |
Note | |||
---|---|---|---|
|
Each semaphore in a System V semaphore set has the following associated values:
unsigned short semval; /* semaphore value */ unsigned short semzcnt; /* # waiting for zero */ unsigned short semncnt; /* # waiting for increase */ pid_t sempid; /* ID of process that did last op */
semop
() performs operations
on selected semaphores in the set indicated by semid
. Each of the nsops
elements in the array
pointed to by sops
specifies an operation to be performed on a single semaphore.
The elements of this structure are of type struct sembuf, containing the
following members:
unsigned short sem_num; /* semaphore number */ short sem_op; /* semaphore operation */ short sem_flg; /* operation flags */
Flags recognized in sem_flg
are IPC_NOWAIT
and SEM_UNDO
. If an operation specifies
SEM_UNDO
, it will be
automatically undone when the process terminates.
The set of operations contained in sops
is performed in
array order, and
atomically
, that
is, the operations are performed either as a complete unit,
or not at all. The behavior of the system call if not all
operations can be performed immediately depends on the
presence of the IPC_NOWAIT
flag
in the individual sem_flg
fields, as noted
below.
Each operation is performed on the sem_num
−th semaphore of
the semaphore set, where the first semaphore of the set is
numbered 0. There are three types of operation, distinguished
by the value of sem_op
.
If sem_op
is a
positive integer, the operation adds this value to the
semaphore value (semval
). Furthermore, if
SEM_UNDO
is specified for this
operation, the system subtracts the value sem_op
from the semaphore
adjustment (semadj
)
value for this semaphore. This operation can always
proceed—it never forces a thread to wait. The calling
process must have alter permission on the semaphore set.
If sem_op
is
zero, the process must have read permission on the semaphore
set. This is a "wait-for-zero" operation: if semval
is zero, the operation
can immediately proceed. Otherwise, if IPC_NOWAIT
is specified in sem_flg
, semop
() fails with errno
set to EAGAIN (and none of the operations in
sops
is performed).
Otherwise semzcnt
(the count of threads waiting until this semaphore's value
becomes zero) is incremented by one and the thread sleeps
until one of the following occurs:
semval
becomes 0, at which time the value of semzcnt
is
decremented.
The semaphore set is removed: semop
() fails, with errno
set to EIDRM.
The calling thread catches a signal: the value of
semzcnt
is
decremented and semop
()
fails, with errno
set to
EINTR.
The time limit specified by timeout
in a semtimedop
() call expires:
semop
() fails, with
errno
set to EAGAIN.
If sem_op
is
less than zero, the process must have alter permission on the
semaphore set. If semval
is greater than or
equal to the absolute value of sem_op
, the operation can
proceed immediately: the absolute value of sem_op
is subtracted from
semval
, and, if
SEM_UNDO
is specified for this
operation, the system adds the absolute value of sem_op
to the semaphore
adjustment (semadj
)
value for this semaphore. If the absolute value of sem_op
is greater than
semval
, and
IPC_NOWAIT
is specified in
sem_flg
,
semop
() fails, with
errno
set to EAGAIN (and none of the operations in
sops
is performed).
Otherwise semncnt
(the counter of threads waiting for this semaphore's value to
increase) is incremented by one and the thread sleeps until
one of the following occurs:
semval
becomes greater than or equal to the absolute value of
sem_op
: the
operation now proceeds, as described above.
The semaphore set is removed from the system:
semop
() fails, with
errno
set to EIDRM.
The calling thread catches a signal: the value of
semncnt
is
decremented and semop
()
fails, with errno
set to
EINTR.
The time limit specified by timeout
in a semtimedop
() call expires: the system
call fails, with errno
set
to EAGAIN.
On successful completion, the sempid
value for each
semaphore specified in the array pointed to by sops
is set to the caller's
process ID. In addition, the sem_otime
is set to the
current time.
semtimedop
() behaves
identically to semop
() except
that in those cases where the calling thread would sleep, the
duration of that sleep is limited by the amount of elapsed
time specified by the timespec structure whose address is
passed in the timeout
argument. (This sleep interval will be rounded up to the
system clock granularity, and kernel scheduling delays mean
that the interval may overrun by a small amount.) If the
specified time limit has been reached, semtimedop
() fails with errno
set to EAGAIN (and none of the operations in
sops
is performed).
If the timeout
argument is NULL, then semtimedop
() behaves exactly like
semop
().
If successful semop
() and
semtimedop
() return 0;
otherwise they return −1 with errno
indicating the error.
On failure, errno
is set to
one of the following:
The argument nsops
is greater than
SEMOPM
, the maximum
number of operations allowed per system call.
The calling process does not have the permissions
required to perform the specified semaphore operations,
and does not have the CAP_IPC_OWNER
capability.
An operation could not proceed immediately and
either IPC_NOWAIT
was
specified in sem_flg
or the time
limit specified in timeout
expired.
An address specified in either the sops
or the timeout
argument isn't
accessible.
For some operation the value of sem_num
is less than 0
or greater than or equal to the number of semaphores in
the set.
The semaphore set was removed.
While blocked in this system call, the thread caught a signal; see signal(7).
The semaphore set doesn't exist, or semid
is less than zero,
or nsops
has a
nonpositive value.
The sem_flg
of some
operation specified SEM_UNDO
and the system does not have
enough memory to allocate the undo structure.
For some operation sem_op+semval
is
greater than SEMVMX
, the
implementation dependent maximum value for semval
.
semtimedop
() first appeared
in Linux 2.5.52, and was subsequently backported into kernel
2.4.22. Glibc support for semtimedop
() first appeared in version
2.3.3.
The inclusion of <
sys/types.h
>
and <
sys/ipc.h
>
isn't required on Linux or by any version of POSIX. However,
some old implementations required the inclusion of these
header files, and the SVID also documented their inclusion.
Applications intended to be portable to such old systems may
need to include these header files.
The sem_undo
structures of a process aren't inherited by the child
produced by fork(2), but they are
inherited across an execve(2) system call.
semop
() is never
automatically restarted after being interrupted by a signal
handler, regardless of the setting of the SA_RESTART
flag when establishing a signal
handler.
A semaphore adjustment (semadj
) value is a
per-process, per-semaphore integer that is the negated sum of
all operations performed on a semaphore specifying the
SEM_UNDO
flag. Each process has
a list of semadj
values—one value for each semaphore on which it has
operated using SEM_UNDO
. When a
process terminates, each of its per-semaphore semadj
values is added to the
corresponding semaphore, thus undoing the effect of that
process's operations on the semaphore (but see BUGS below).
When a semaphore's value is directly set using the
SETVAL
or SETALL
request to semctl(2), the
corresponding semadj
values in all
processes are cleared.
The semval
,
sempid
, semzcnt
, and semnct
values for a semaphore
can all be retrieved using appropriate semctl(2) calls.
The following limits on semaphore set resources affect the
semop
() call:
SEMOPM
Maximum number of operations allowed for one
semop
() call (32) (on
Linux, this limit can be read and modified via the
third field of /proc/sys/kernel/sem
).
SEMVMX
Maximum allowable value for semval
: implementation
dependent (32767).
The implementation has no intrinsic limits for the adjust
on exit maximum value (SEMAEM
),
the system wide maximum number of undo structures
(SEMMNU
) and the per-process
maximum number of undo entries system parameters.
When a process terminates, its set of associated
semadj
structures
is used to undo the effect of all of the semaphore operations
it performed with the SEM_UNDO
flag. This raises a difficulty: if one (or more) of these
semaphore adjustments would result in an attempt to decrease
a semaphore's value below zero, what should an implementation
do? One possible approach would be to block until all the
semaphore adjustments could be performed. This is however
undesirable since it could force process termination to block
for arbitrarily long periods. Another possibility is that
such semaphore adjustments could be ignored altogether
(somewhat analogously to failing when IPC_NOWAIT
is specified for a semaphore
operation). Linux adopts a third approach: decreasing the
semaphore value as far as possible (i.e., to zero) and
allowing process termination to proceed immediately.
In kernels 2.6.x, x <= 10, there is a bug that in some circumstances prevents a thread that is waiting for a semaphore value to become zero from being woken up when the value does actually become zero. This bug is fixed in kernel 2.6.11.
The following code segment uses semop
() to atomically wait for the value of
semaphore 0 to become zero, and then increment the semaphore
value by one.
struct sembuf sops[2];
int semid;
/* Code to set semid
omitted */
sops[0].sem_num = 0; /* Operate on semaphore 0 */
sops[0].sem_op = 0; /* Wait for value to equal 0 */
sops[0].sem_flg = 0;
sops[1].sem_num = 0; /* Operate on semaphore 0 */
sops[1].sem_op = 1; /* Increment value by one */
sops[1].sem_flg = 0;
if (semop(semid, sops, 2) == −1) {
perror("semop");
exit(EXIT_FAILURE);
}
clone(2), semctl(2), semget(2), sigaction(2), capabilities(7), sem_overview(7), svipc(7), time(7)
This page is part of release 3.52 of the Linux man-pages
project. A
description of the project, and information about reporting
bugs, can be found at
http://www.kernel.org/doc/man−pages/.
Copyright 1993 Giorgio Ciucci (giorgiocrcc.it) %%%LICENSE_START(VERBATIM) Permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and this permission notice are preserved on all copies. Permission is granted to copy and distribute modified versions of this manual under the conditions for verbatim copying, provided that the entire resulting derived work is distributed under the terms of a permission notice identical to this one. Since the Linux kernel and libraries are constantly changing, this manual page may be incorrect or out-of-date. The author(s) assume no responsibility for errors or omissions, or for damages resulting from the use of the information contained herein. The author(s) may not have taken the same level of care in the production of this manual, which is licensed free of charge, as they might when working professionally. Formatted or processed versions of this manual, if unaccompanied by the source, must acknowledge the copyright and authors of this work. %%%LICENSE_END Modified 1996-10-22, Eric S. Raymond <esrthyrsus.com> Modified 2002-01-08, Michael Kerrisk <mtk.manpagesgmail.com> Modified 2003-04-28, Ernie Petrides <petridesredhat.com> Modified 2004-05-27, Michael Kerrisk <mtk.manpagesgmail.com> Modified, 11 Nov 2004, Michael Kerrisk <mtk.manpagesgmail.com> Language and formatting clean-ups Added notes on /proc files 2005-04-08, mtk, Noted kernel version numbers for semtimedop() 2007-07-09, mtk, Added an EXAMPLE code segment. |