The Open Group Base Specifications Issue 6
IEEE Std 1003.1, 2004 Edition
Copyright © 2001-2004 The IEEE and The Open Group, All Rights reserved.

NAME

pthread_sigmask, sigprocmask - examine and change blocked signals

SYNOPSIS

#include <signal.h>

[THR] [Option Start] int pthread_sigmask(int how, const sigset_t *restrict set,
       sigset_t *restrict
oset);
[Option End]
[CX] [Option Start] int sigprocmask(int how, const sigset_t *restrict set,
       sigset_t *restrict
oset); [Option End]

DESCRIPTION

[THR] [Option Start] The pthread_sigmask() function shall examine or change (or both) the calling thread's signal mask, regardless of the number of threads in the process. The function shall be equivalent to sigprocmask(), without the restriction that the call be made in a single-threaded process. [Option End]

In a single-threaded process, the sigprocmask() function shall examine or change (or both) the signal mask of the calling thread.

If the argument set is not a null pointer, it points to a set of signals to be used to change the currently blocked set.

The argument how indicates the way in which the set is changed, and the application shall ensure it consists of one of the following values:

SIG_BLOCK
The resulting set shall be the union of the current set and the signal set pointed to by set.
SIG_SETMASK
The resulting set shall be the signal set pointed to by set.
SIG_UNBLOCK
The resulting set shall be the intersection of the current set and the complement of the signal set pointed to by set.

If the argument oset is not a null pointer, the previous mask shall be stored in the location pointed to by oset. If set is a null pointer, the value of the argument how is not significant and the thread's signal mask shall be unchanged; thus the call can be used to enquire about currently blocked signals.

If there are any pending unblocked signals after the call to sigprocmask(), at least one of those signals shall be delivered before the call to sigprocmask() returns.

It is not possible to block those signals which cannot be ignored. This shall be enforced by the system without causing an error to be indicated.

If any of the SIGFPE, SIGILL, SIGSEGV, or SIGBUS signals are generated while they are blocked, the result is undefined, unless the signal was generated by the kill() function, the sigqueue() function, or the raise() function.

If sigprocmask() fails, the thread's signal mask shall not be changed.

The use of the sigprocmask() function is unspecified in a multi-threaded process.

RETURN VALUE

[THR] [Option Start] Upon successful completion pthread_sigmask() shall return 0; otherwise, it shall return the corresponding error number. [Option End]

Upon successful completion, sigprocmask() shall return 0; otherwise, -1 shall be returned, errno shall be set to indicate the error, and the process' signal mask shall be unchanged.

ERRORS

[THR] [Option Start] The pthread_sigmask() [Option End] and sigprocmask() functions shall fail if:

[EINVAL]
The value of the how argument is not equal to one of the defined values.

[THR] [Option Start] The pthread_sigmask() function shall not return an error code of [EINTR]. [Option End]


The following sections are informative.

EXAMPLES

Signalling in a Multi-Threaded Process

This example shows the use of pthread_sigmask() in order to deal with signals in a multi-threaded process. It provides a fairly general framework that could be easily adapted/extended.

#include <stdio.h>
#include <stdlib.h>
#include <pthread.h>
#include <signal.h>
#include <string.h>
#include <errno.h>
...

static sigset_t signal_mask; /* signals to block */
int main (int argc, char *argv[]) { pthread_t sig_thr_id; /* signal handler thread ID */ int rc; /* return code */
sigemptyset (&signal_mask); sigaddset (&signal_mask, SIGINT); sigaddset (&signal_mask, SIGTERM); rc = pthread_sigmask (SIG_BLOCK, &signal_mask, NULL); if (rc != 0) { /* handle error */ ... } /* any newly created threads inherit the signal mask */
rc = pthread_create (&sig_thr_id, NULL, signal_thread, NULL); if (rc != 0) { /* handle error */ ... }
/* APPLICATION CODE */ ... }
void *signal_thread (void *arg) { int sig_caught; /* signal caught */ int rc; /* returned code */
rc = sigwait (&signal_mask, &sig_caught); if (rc != 0) { /* handle error */ } switch (sig_caught) { case SIGINT: /* process SIGINT */ ... break; case SIGTERM: /* process SIGTERM */ ... break; default: /* should normally not happen */ fprintf (stderr, "\nUnexpected signal %d\n", sig_caught); break; } }

APPLICATION USAGE

None.

RATIONALE

When a thread's signal mask is changed in a signal-catching function that is installed by sigaction(), the restoration of the signal mask on return from the signal-catching function overrides that change (see sigaction()). If the signal-catching function was installed with signal(), it is unspecified whether this occurs.

See kill() for a discussion of the requirement on delivery of signals.

FUTURE DIRECTIONS

None.

SEE ALSO

sigaction(), sigaddset(), sigdelset(), sigemptyset(), sigfillset(), sigismember(), sigpending(), sigqueue(), sigsuspend(), the Base Definitions volume of IEEE Std 1003.1-2001, <signal.h>

CHANGE HISTORY

First released in Issue 3. Included for alignment with the POSIX.1-1988 standard.

Issue 5

The DESCRIPTION is updated for alignment with the POSIX Threads Extension.

The pthread_sigmask() function is added for alignment with the POSIX Threads Extension.

Issue 6

The pthread_sigmask() function is marked as part of the Threads option.

The SYNOPSIS for sigprocmask() is marked as a CX extension to note that the presence of this function in the <signal.h> header is an extension to the ISO C standard.

The following changes are made for alignment with the ISO POSIX-1:1996 standard:

The DESCRIPTION is updated to avoid use of the term "must" for application requirements.

The restrict keyword is added to the pthread_sigmask() and sigprocmask() prototypes for alignment with the ISO/IEC 9899:1999 standard.

IEEE Std 1003.1-2001/Cor 2-2004, item XSH/TC2/D6/105 is applied, updating "process' signal mask" to "thread's signal mask" in the DESCRIPTION and RATIONALE sections.

IEEE Std 1003.1-2001/Cor 2-2004, item XSH/TC2/D6/106 is applied, adding the example to the EXAMPLES section.

End of informative text.

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