xref: /freebsd/lib/libsys/sigaction.2 (revision c57c26179033f64c2011a2d2a904ee3fa62e826a)
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28.Dd December 1, 2023
29.Dt SIGACTION 2
30.Os
31.Sh NAME
32.Nm sigaction
33.Nd software signal facilities
34.Sh LIBRARY
35.Lb libc
36.Sh SYNOPSIS
37.In signal.h
38.Bd -literal
39struct  sigaction {
40        void    (*sa_handler)(int);
41        void    (*sa_sigaction)(int, siginfo_t *, void *);
42        int     sa_flags;               /* see signal options below */
43        sigset_t sa_mask;               /* signal mask to apply */
44};
45.Ed
46.Pp
47.Ft int
48.Fo sigaction
49.Fa "int sig"
50.Fa "const struct sigaction * restrict act"
51.Fa "struct sigaction * restrict oact"
52.Fc
53.Sh DESCRIPTION
54The system defines a set of signals that may be delivered to a process.
55Signal delivery resembles the occurrence of a hardware interrupt:
56the signal is normally blocked from further occurrence, the current thread
57context is saved, and a new one is built.
58A process may specify a
59.Em handler
60to which a signal is delivered, or specify that a signal is to be
61.Em ignored .
62A process may also specify that a default action is to be taken
63by the system when a signal occurs.
64A signal may also be
65.Em blocked
66for a thread,
67in which case it will not be delivered to that thread until it is
68.Em unblocked .
69The action to be taken on delivery is determined at the time
70of delivery.
71Normally, signal handlers execute on the current stack
72of the thread.
73This may be changed, on a per-handler basis,
74so that signals are taken on a special
75.Em "signal stack" .
76.Pp
77Signal routines normally execute with the signal that caused their
78invocation
79.Em blocked ,
80but other signals may yet occur.
81A global
82.Em "signal mask"
83defines the set of signals currently blocked from delivery
84to a thread.
85The signal mask for a thread is initialized
86from that of its parent (normally empty).
87It may be changed with a
88.Xr sigprocmask 2
89or
90.Xr pthread_sigmask 3
91call, or when a signal is delivered to the thread.
92.Pp
93When a signal
94condition arises for a process or thread, the signal is added to a set of
95signals pending for the process or thread.
96Whether the signal is directed at the process in general or at a specific
97thread depends on how it is generated.
98For signals directed at a specific thread,
99if the signal is not currently
100.Em blocked
101by the thread then it is delivered to the thread.
102For signals directed at the process,
103if the signal is not currently
104.Em blocked
105by all threads then it is delivered to one thread that does not have it blocked
106(the selection of which is unspecified).
107Signals may be delivered any time a thread enters the operating system
108(e.g., during a system call, page fault or trap, or clock interrupt).
109If multiple signals are ready to be delivered at the same time,
110any signals that could be caused by traps are delivered first.
111Additional signals may be processed at the same time, with each
112appearing to interrupt the handlers for the previous signals
113before their first instructions.
114The set of pending signals is returned by the
115.Xr sigpending 2
116system call.
117When a caught signal
118is delivered, the current state of the thread is saved,
119a new signal mask is calculated (as described below),
120and the signal handler is invoked.
121The call to the handler
122is arranged so that if the signal handling routine returns
123normally the thread will resume execution in the context
124from before the signal's delivery.
125If the thread wishes to resume in a different context, then it
126must arrange to restore the previous context itself.
127.Pp
128When a signal is delivered to a thread a new signal mask is
129installed for the duration of the process' signal handler
130(or until a
131.Xr sigprocmask 2
132system call is made).
133This mask is formed by taking the union of the current signal mask set,
134the signal to be delivered, and
135the signal mask associated with the handler to be invoked.
136.Pp
137The
138.Fn sigaction
139system call
140assigns an action for a signal specified by
141.Fa sig .
142If
143.Fa act
144is non-NULL, it specifies an action
145.Dv ( SIG_DFL ,
146.Dv SIG_IGN ,
147or a handler routine) and mask to be used when delivering the specified signal.
148If
149.Fa oact
150is non-NULL, the previous handling information for the signal
151is returned to the user.
152.Pp
153The above declaration of
154.Vt "struct sigaction"
155is not literal.
156It is provided only to list the accessible members.
157See
158.In sys/signal.h
159for the actual definition.
160In particular, the storage occupied by
161.Va sa_handler
162and
163.Va sa_sigaction
164overlaps, and it is nonsensical for an application to attempt to use both
165simultaneously.
166.Pp
167Once a signal handler is installed, it normally remains installed
168until another
169.Fn sigaction
170system call is made, or an
171.Xr execve 2
172is performed.
173A signal-specific default action may be reset by
174setting
175.Va sa_handler
176to
177.Dv SIG_DFL .
178The defaults are process termination, possibly with core dump;
179no action; stopping the process; or continuing the process.
180See the signal list below for each signal's default action.
181If
182.Va sa_handler
183is
184.Dv SIG_DFL ,
185the default action for the signal is to discard the signal,
186and if a signal is pending,
187the pending signal is discarded even if the signal is masked.
188If
189.Va sa_handler
190is set to
191.Dv SIG_IGN
192current and pending instances
193of the signal are ignored and discarded.
194.Pp
195Options may be specified by setting
196.Va sa_flags .
197The meaning of the various bits is as follows:
198.Bl -tag -offset indent -width SA_RESETHANDXX
199.It Dv SA_NOCLDSTOP
200If this bit is set when installing a catching function
201for the
202.Dv SIGCHLD
203signal,
204the
205.Dv SIGCHLD
206signal will be generated only when a child process exits,
207not when a child process stops.
208.It Dv SA_NOCLDWAIT
209If this bit is set when calling
210.Fn sigaction
211for the
212.Dv SIGCHLD
213signal, the system will not create zombie processes when children of
214the calling process exit.
215If the calling process subsequently issues a
216.Xr wait 2
217(or equivalent), it blocks until all of the calling process's child
218processes terminate, and then returns a value of \-1 with
219.Va errno
220set to
221.Er ECHILD .
222The same effect of avoiding zombie creation can also be achieved by setting
223.Va sa_handler
224for
225.Dv SIGCHLD
226to
227.Dv SIG_IGN .
228.It Dv SA_ONSTACK
229If this bit is set, the system will deliver the signal to the process
230on a
231.Em "signal stack" ,
232specified by each thread with
233.Xr sigaltstack 2 .
234.It Dv SA_NODEFER
235If this bit is set, further occurrences of the delivered signal are
236not masked during the execution of the handler.
237.It Dv SA_RESETHAND
238If this bit is set, the handler is reset back to
239.Dv SIG_DFL
240at the moment the signal is delivered.
241.It Dv SA_RESTART
242See paragraph below.
243.It Dv SA_SIGINFO
244If this bit is set, the handler function is assumed to be pointed to by the
245.Va sa_sigaction
246member of
247.Vt "struct sigaction"
248and should match the prototype shown above or as below in
249.Sx EXAMPLES .
250This bit should not be set when assigning
251.Dv SIG_DFL
252or
253.Dv SIG_IGN .
254.El
255.Pp
256If a signal is caught during the system calls listed below,
257the call may be forced to terminate
258with the error
259.Er EINTR ,
260the call may return with a data transfer shorter than requested,
261or the call may be restarted.
262Restart of pending calls is requested
263by setting the
264.Dv SA_RESTART
265bit in
266.Va sa_flags .
267The affected system calls include
268.Xr open 2 ,
269.Xr read 2 ,
270.Xr write 2 ,
271.Xr sendto 2 ,
272.Xr recvfrom 2 ,
273.Xr sendmsg 2
274and
275.Xr recvmsg 2
276on a communications channel or a slow device (such as a terminal,
277but not a regular file)
278and during a
279.Xr wait 2
280or
281.Xr ioctl 2 .
282However, calls that have already committed are not restarted,
283but instead return a partial success (for example, a short read count).
284.Pp
285After a
286.Xr pthread_create 3
287the signal mask is inherited by the new thread and
288the set of pending signals and the signal stack for the new thread are empty.
289.Pp
290After a
291.Xr fork 2
292or
293.Xr vfork 2
294all signals, the signal mask, the signal stack,
295and the restart/interrupt flags are inherited by the child.
296.Pp
297The
298.Xr execve 2
299system call reinstates the default
300action for all signals which were caught and
301resets all signals to be caught on the user stack.
302Ignored signals remain ignored;
303the signal mask remains the same;
304signals that restart pending system calls continue to do so.
305.Pp
306The following is a list of all signals
307with names as in the include file
308.In signal.h :
309.Bl -column SIGVTALARMXX "create core imagexxx"
310.It Sy NAME Ta Sy Default Action Ta Sy Description
311.It Dv SIGHUP Ta terminate process Ta terminal line hangup
312.It Dv SIGINT Ta terminate process Ta interrupt program
313.It Dv SIGQUIT Ta create core image Ta quit program
314.It Dv SIGILL Ta create core image Ta illegal instruction
315.It Dv SIGTRAP Ta create core image Ta trace trap
316.It Dv SIGABRT Ta create core image Ta Xr abort 3 call (formerly Dv SIGIOT )
317.It Dv SIGEMT Ta create core image Ta emulate instruction executed
318.It Dv SIGFPE Ta create core image Ta floating-point exception
319.It Dv SIGKILL Ta terminate process Ta kill program
320.It Dv SIGBUS Ta create core image Ta bus error
321.It Dv SIGSEGV Ta create core image Ta segmentation violation
322.It Dv SIGSYS Ta create core image Ta non-existent system call invoked
323.It Dv SIGPIPE Ta terminate process Ta write on a pipe with no reader
324.It Dv SIGALRM Ta terminate process Ta real-time timer expired
325.It Dv SIGTERM Ta terminate process Ta software termination signal
326.It Dv SIGURG Ta discard signal Ta urgent condition present on socket
327.It Dv SIGSTOP Ta stop process Ta stop (cannot be caught or ignored)
328.It Dv SIGTSTP Ta stop process Ta stop signal generated from keyboard
329.It Dv SIGCONT Ta discard signal Ta continue after stop
330.It Dv SIGCHLD Ta discard signal Ta child status has changed
331.It Dv SIGTTIN Ta stop process Ta background read attempted from control terminal
332.It Dv SIGTTOU Ta stop process Ta background write attempted to control terminal
333.It Dv SIGIO Ta discard signal Ta I/O is possible on a descriptor (see Xr fcntl 2 )
334.It Dv SIGXCPU Ta terminate process Ta cpu time limit exceeded (see Xr setrlimit 2 )
335.It Dv SIGXFSZ Ta terminate process Ta file size limit exceeded (see Xr setrlimit 2 )
336.It Dv SIGVTALRM Ta terminate process Ta virtual time alarm (see Xr setitimer 2 )
337.It Dv SIGPROF Ta terminate process Ta profiling timer alarm (see Xr setitimer 2 )
338.It Dv SIGWINCH Ta discard signal Ta window size change
339.It Dv SIGINFO Ta discard signal Ta status request from keyboard
340.It Dv SIGUSR1 Ta terminate process Ta user defined signal 1
341.It Dv SIGUSR2 Ta terminate process Ta user defined signal 2
342.El
343.Sh NOTE
344The
345.Va sa_mask
346field specified in
347.Fa act
348is not allowed to block
349.Dv SIGKILL
350or
351.Dv SIGSTOP .
352Any attempt to do so will be silently ignored.
353.Pp
354The following functions are either reentrant or not interruptible
355by signals and are async-signal safe.
356Therefore applications may
357invoke them, without restriction, from signal-catching functions
358or from a child process after calling
359.Xr fork 2
360in a multi-threaded process:
361.Pp
362Base Interfaces:
363.Pp
364.Fn _Exit ,
365.Fn _exit ,
366.Fn accept ,
367.Fn access ,
368.Fn alarm ,
369.Fn bind ,
370.Fn cfgetispeed ,
371.Fn cfgetospeed ,
372.Fn cfsetispeed ,
373.Fn cfsetospeed ,
374.Fn chdir ,
375.Fn chmod ,
376.Fn chown ,
377.Fn close ,
378.Fn connect ,
379.Fn creat ,
380.Fn dup ,
381.Fn dup2 ,
382.Fn execl ,
383.Fn execle ,
384.Fn execv ,
385.Fn execve ,
386.Fn faccessat ,
387.Fn fchdir ,
388.Fn fchmod ,
389.Fn fchmodat ,
390.Fn fchown ,
391.Fn fchownat ,
392.Fn fcntl ,
393.Fn _Fork ,
394.Fn fstat ,
395.Fn fstatat ,
396.Fn fsync ,
397.Fn ftruncate ,
398.Fn getegid ,
399.Fn geteuid ,
400.Fn getgid ,
401.Fn getgroups ,
402.Fn getpeername ,
403.Fn getpgrp ,
404.Fn getpid ,
405.Fn getppid ,
406.Fn getsockname ,
407.Fn getsockopt ,
408.Fn getuid ,
409.Fn kill ,
410.Fn link ,
411.Fn linkat ,
412.Fn listen ,
413.Fn lseek ,
414.Fn lstat ,
415.Fn mkdir ,
416.Fn mkdirat ,
417.Fn mkfifo ,
418.Fn mkfifoat ,
419.Fn mknod ,
420.Fn mknodat ,
421.Fn open ,
422.Fn openat ,
423.Fn pause ,
424.Fn pipe ,
425.Fn poll ,
426.Fn pselect ,
427.Fn pthread_sigmask ,
428.Fn raise ,
429.Fn read ,
430.Fn readlink ,
431.Fn readlinkat ,
432.Fn recv ,
433.Fn recvfrom ,
434.Fn recvmsg ,
435.Fn rename ,
436.Fn renameat ,
437.Fn rmdir ,
438.Fn select ,
439.Fn send ,
440.Fn sendmsg ,
441.Fn sendto ,
442.Fn setgid ,
443.Fn setpgid ,
444.Fn setsid ,
445.Fn setsockopt ,
446.Fn setuid ,
447.Fn shutdown ,
448.Fn sigaction ,
449.Fn sigaddset ,
450.Fn sigdelset ,
451.Fn sigemptyset ,
452.Fn sigfillset ,
453.Fn sigismember ,
454.Fn signal ,
455.Fn sigpending ,
456.Fn sigprocmask ,
457.Fn sigsuspend ,
458.Fn sleep ,
459.Fn sockatmark ,
460.Fn socket ,
461.Fn socketpair ,
462.Fn stat ,
463.Fn symlink ,
464.Fn symlinkat ,
465.Fn tcdrain ,
466.Fn tcflow ,
467.Fn tcflush ,
468.Fn tcgetattr ,
469.Fn tcgetpgrp ,
470.Fn tcsendbreak ,
471.Fn tcsetattr ,
472.Fn tcsetpgrp ,
473.Fn time ,
474.Fn times ,
475.Fn umask ,
476.Fn uname ,
477.Fn unlink ,
478.Fn unlinkat ,
479.Fn utime ,
480.Fn wait ,
481.Fn waitpid ,
482.Fn write .
483.Pp
484X/Open Systems Interfaces:
485.Pp
486.Fn sigpause ,
487.Fn sigset ,
488.Fn utimes .
489.Pp
490Realtime Interfaces:
491.Pp
492.Fn aio_error ,
493.Fn clock_gettime ,
494.Fn timer_getoverrun ,
495.Fn aio_return ,
496.Fn fdatasync ,
497.Fn sigqueue ,
498.Fn timer_gettime ,
499.Fn aio_suspend ,
500.Fn sem_post ,
501.Fn timer_settime .
502.Pp
503Base Interfaces not specified as async-signal safe by
504.Tn POSIX :
505.Pp
506.Fn fpathconf ,
507.Fn pathconf ,
508.Fn sysconf .
509.Pp
510Base Interfaces not specified as async-signal safe by
511.Tn POSIX ,
512but planned to be:
513.Pp
514.Fn ffs ,
515.Fn htonl ,
516.Fn htons ,
517.Fn memccpy ,
518.Fn memchr ,
519.Fn memcmp ,
520.Fn memcpy ,
521.Fn memmove ,
522.Fn memset ,
523.Fn ntohl ,
524.Fn ntohs ,
525.Fn stpcpy ,
526.Fn stpncpy ,
527.Fn strcat ,
528.Fn strchr ,
529.Fn strcmp ,
530.Fn strcpy ,
531.Fn strcspn ,
532.Fn strlen ,
533.Fn strncat ,
534.Fn strncmp ,
535.Fn strncpy ,
536.Fn strnlen ,
537.Fn strpbrk ,
538.Fn strrchr ,
539.Fn strspn ,
540.Fn strstr ,
541.Fn strtok_r ,
542.Fn wcpcpy ,
543.Fn wcpncpy ,
544.Fn wcscat ,
545.Fn wcschr ,
546.Fn wcscmp ,
547.Fn wcscpy ,
548.Fn wcscspn ,
549.Fn wcslen ,
550.Fn wcsncat ,
551.Fn wcsncmp ,
552.Fn wcsncpy ,
553.Fn wcsnlen ,
554.Fn wcspbrk ,
555.Fn wcsrchr ,
556.Fn wcsspn ,
557.Fn wcsstr ,
558.Fn wcstok ,
559.Fn wmemchr ,
560.Fn wmemcmp ,
561.Fn wmemcpy ,
562.Fn wmemmove ,
563.Fn wmemset .
564.Pp
565Extension Interfaces:
566.Pp
567.Fn accept4 ,
568.Fn bindat ,
569.Fn close_range ,
570.Fn closefrom ,
571.Fn connectat ,
572.Fn eaccess ,
573.Fn ffsl ,
574.Fn ffsll ,
575.Fn flock ,
576.Fn fls ,
577.Fn flsl ,
578.Fn flsll ,
579.Fn futimesat ,
580.Fn pipe2 ,
581.Fn strlcat .
582.Fn strlcpy ,
583.Fn strsep .
584.Pp
585In addition, reading or writing
586.Va errno
587is async-signal safe.
588.Pp
589All functions not in the above lists are considered to be unsafe
590with respect to signals.
591That is to say, the behaviour of such
592functions is undefined when they are called from a signal handler
593that interrupted an unsafe function.
594In general though, signal handlers should do little more than set a
595flag; most other actions are not safe.
596.Pp
597Also, it is good practice to make a copy of the global variable
598.Va errno
599and restore it before returning from the signal handler.
600This protects against the side effect of
601.Va errno
602being set by functions called from inside the signal handler.
603.Sh RETURN VALUES
604.Rv -std sigaction
605.Sh EXAMPLES
606There are three possible prototypes the handler may match:
607.Bl -tag -offset indent -width short
608.It Tn ANSI C :
609.Ft void
610.Fn handler int ;
611.It Traditional BSD style:
612.Ft void
613.Fn handler int "int code" "struct sigcontext *scp" ;
614.It Tn POSIX Dv SA_SIGINFO :
615.Ft void
616.Fn handler int "siginfo_t *info" "ucontext_t *uap" ;
617.El
618.Pp
619The handler function should match the
620.Dv SA_SIGINFO
621prototype if the
622.Dv SA_SIGINFO
623bit is set in
624.Va sa_flags .
625It then should be pointed to by the
626.Va sa_sigaction
627member of
628.Vt "struct sigaction" .
629Note that you should not assign
630.Dv SIG_DFL
631or
632.Dv SIG_IGN
633this way.
634.Pp
635If the
636.Dv SA_SIGINFO
637flag is not set, the handler function should match
638either the
639.Tn ANSI C
640or traditional
641.Bx
642prototype and be pointed to by
643the
644.Va sa_handler
645member of
646.Vt "struct sigaction" .
647In practice,
648.Fx
649always sends the three arguments of the latter and since the
650.Tn ANSI C
651prototype is a subset, both will work.
652The
653.Va sa_handler
654member declaration in
655.Fx
656include files is that of
657.Tn ANSI C
658(as required by
659.Tn POSIX ) ,
660so a function pointer of a
661.Bx Ns -style
662function needs to be casted to
663compile without warning.
664The traditional
665.Bx
666style is not portable and since its capabilities
667are a full subset of a
668.Dv SA_SIGINFO
669handler,
670its use is deprecated.
671.Pp
672The
673.Fa sig
674argument is the signal number, one of the
675.Dv SIG...
676values from
677.In signal.h .
678.Pp
679The
680.Fa code
681argument of the
682.Bx Ns -style
683handler and the
684.Va si_code
685member of the
686.Fa info
687argument to a
688.Dv SA_SIGINFO
689handler contain a numeric code explaining the
690cause of the signal, usually one of the
691.Dv SI_...
692values from
693.In sys/signal.h
694or codes specific to a signal, i.e., one of the
695.Dv FPE_...
696values for
697.Dv SIGFPE .
698.Pp
699The
700.Fa scp
701argument to a
702.Bx Ns -style
703handler points to an instance of
704.Vt "struct sigcontext" .
705.Pp
706The
707.Fa uap
708argument to a
709.Tn POSIX
710.Dv SA_SIGINFO
711handler points to an instance of
712ucontext_t.
713.Sh ERRORS
714The
715.Fn sigaction
716system call
717will fail and no new signal handler will be installed if one
718of the following occurs:
719.Bl -tag -width Er
720.It Bq Er EINVAL
721The
722.Fa sig
723argument
724is not a valid signal number.
725.It Bq Er EINVAL
726An attempt is made to ignore or supply a handler for
727.Dv SIGKILL
728or
729.Dv SIGSTOP .
730.El
731.Sh SEE ALSO
732.Xr kill 1 ,
733.Xr kill 2 ,
734.Xr ptrace 2 ,
735.Xr setitimer 2 ,
736.Xr setrlimit 2 ,
737.Xr sigaltstack 2 ,
738.Xr sigpending 2 ,
739.Xr sigprocmask 2 ,
740.Xr sigsuspend 2 ,
741.Xr wait 2 ,
742.Xr fpsetmask 3 ,
743.Xr setjmp 3 ,
744.Xr siginfo 3 ,
745.Xr siginterrupt 3 ,
746.Xr sigsetops 3 ,
747.Xr ucontext 3 ,
748.Xr tty 4
749.Sh STANDARDS
750The
751.Fn sigaction
752system call is expected to conform to
753.St -p1003.1-90 .
754The
755.Dv SA_ONSTACK
756and
757.Dv SA_RESTART
758flags are Berkeley extensions,
759as are the signals,
760.Dv SIGTRAP ,
761.Dv SIGEMT ,
762.Dv SIGBUS ,
763.Dv SIGSYS ,
764.Dv SIGURG ,
765.Dv SIGIO ,
766.Dv SIGXCPU ,
767.Dv SIGXFSZ ,
768.Dv SIGVTALRM ,
769.Dv SIGPROF ,
770.Dv SIGWINCH ,
771and
772.Dv SIGINFO .
773Those signals are available on most
774.Bx Ns \-derived
775systems.
776The
777.Dv SA_NODEFER
778and
779.Dv SA_RESETHAND
780flags are intended for backwards compatibility with other operating
781systems.
782The
783.Dv SA_NOCLDSTOP ,
784and
785.Dv SA_NOCLDWAIT
786.\" and
787.\" SA_SIGINFO
788flags are featuring options commonly found in other operating systems.
789The flags are approved by
790.St -susv2 ,
791along with the option to avoid zombie creation by ignoring
792.Dv SIGCHLD .
793