WAIT
Section: Linux Programmer's Manual (2)
Updated: 2020-11-01
Page Index
NAME
wait, waitpid, waitid - wait for process to change state
SYNOPSIS
#include <sys/types.h>
#include <sys/wait.h>
pid_t wait(int *wstatus);
pid_t waitpid(pid_t pid, int *wstatus, int options);
int waitid(idtype_t idtype, id_t id, siginfo_t *infop, int options);
/* This is the glibc and POSIX interface; see
NOTES for information on the raw system call. */
Feature Test Macro Requirements for glibc (see
feature_test_macros(7)):
waitid():
-
Since glibc 2.26:
_XOPEN_SOURCE >= 500 ||
_POSIX_C_SOURCE >= 200809L
Glibc 2.25 and earlier:
_XOPEN_SOURCE
|| /* Since glibc 2.12: */ _POSIX_C_SOURCE >= 200809L
|| /* Glibc versions <= 2.19: */ _BSD_SOURCE
DESCRIPTION
All of these system calls are used to wait for state changes
in a child of the calling process, and obtain information
about the child whose state has changed.
A state change is considered to be: the child terminated;
the child was stopped by a signal; or the child was resumed by a signal.
In the case of a terminated child, performing a wait allows
the system to release the resources associated with the child;
if a wait is not performed, then the terminated child remains in
a "zombie" state (see NOTES below).
If a child has already changed state, then these calls return immediately.
Otherwise, they block until either a child changes state or
a signal handler interrupts the call (assuming that system calls
are not automatically restarted using the
SA_RESTART
flag of
sigaction(2)).
In the remainder of this page, a child whose state has changed
and which has not yet been waited upon by one of these system
calls is termed
waitable.
wait() and waitpid()
The
wait()
system call suspends execution of the calling thread until one of its
children terminates.
The call
wait(&wstatus)
is equivalent to:
waitpid(-1, &wstatus, 0);
The
waitpid()
system call suspends execution of the calling thread until a
child specified by
pid
argument has changed state.
By default,
waitpid()
waits only for terminated children, but this behavior is modifiable
via the
options
argument, as described below.
The value of
pid
can be:
- < -1
-
meaning wait for any child process whose process group ID is
equal to the absolute value of
pid.
- -1
-
meaning wait for any child process.
- 0
-
meaning wait for any child process whose process group ID is
equal to that of the calling process at the time of the call to
waitpid().
- > 0
-
meaning wait for the child whose process ID is equal to the
value of
pid.
The value of
options
is an OR of zero or more of the following constants:
- WNOHANG
-
return immediately if no child has exited.
- WUNTRACED
-
also return if a child has stopped
(but not traced via
ptrace(2)).
Status for
traced
children which have stopped is provided
even if this option is not specified.
- WCONTINUED (since Linux 2.6.10)
-
also return if a stopped child has been resumed by delivery of
SIGCONT.
(For Linux-only options, see below.)
If
wstatus
is not NULL,
wait()
and
waitpid()
store status information in the int to which it points.
This integer can be inspected with the following macros (which
take the integer itself as an argument, not a pointer to it,
as is done in
wait()
and
waitpid()!):
- WIFEXITED(wstatus)
-
returns true if the child terminated normally, that is,
by calling
exit(3)
or
_exit(2),
or by returning from main().
- WEXITSTATUS(wstatus)
-
returns the exit status of the child.
This consists of the least significant 8 bits of the
status
argument that the child specified in a call to
exit(3)
or
_exit(2)
or as the argument for a return statement in main().
This macro should be employed only if
WIFEXITED
returned true.
- WIFSIGNALED(wstatus)
-
returns true if the child process was terminated by a signal.
- WTERMSIG(wstatus)
-
returns the number of the signal that caused the child process to
terminate.
This macro should be employed only if
WIFSIGNALED
returned true.
- WCOREDUMP(wstatus)
-
returns true if the child produced a core dump (see
core(5)).
This macro should be employed only if
WIFSIGNALED
returned true.
-
This macro is not specified in POSIX.1-2001 and is not available on
some UNIX implementations (e.g., AIX, SunOS).
Therefore, enclose its use inside
#ifdef WCOREDUMP ... #endif.
- WIFSTOPPED(wstatus)
-
returns true if the child process was stopped by delivery of a signal;
this is possible only if the call was done using
WUNTRACED
or when the child is being traced (see
ptrace(2)).
- WSTOPSIG(wstatus)
-
returns the number of the signal which caused the child to stop.
This macro should be employed only if
WIFSTOPPED
returned true.
- WIFCONTINUED(wstatus)
-
(since Linux 2.6.10)
returns true if the child process was resumed by delivery of
SIGCONT.
waitid()
The
waitid()
system call (available since Linux 2.6.9) provides more precise
control over which child state changes to wait for.
The
idtype
and
id
arguments select the child(ren) to wait for, as follows:
- idtype == P_PID
-
Wait for the child whose process ID matches
id.
- idtype == P_PIDFD (since Linux 5.4)
-
Wait for the child referred to by the PID file descriptor specified in
id.
(See
pidfd_open(2)
for further information on PID file descriptors.)
- idtype == P_PGID
-
Wait for any child whose process group ID matches
id.
Since Linux 5.4,
if
id
is zero, then wait for any child that is in the same process group
as the caller's process group at the time of the call.
- idtype == P_ALL
-
Wait for any child;
id
is ignored.
The child state changes to wait for are specified by ORing
one or more of the following flags in
options:
- WEXITED
-
Wait for children that have terminated.
- WSTOPPED
-
Wait for children that have been stopped by delivery of a signal.
- WCONTINUED
-
Wait for (previously stopped) children that have been
resumed by delivery of
SIGCONT.
The following flags may additionally be ORed in
options:
- WNOHANG
-
As for
waitpid().
- WNOWAIT
-
Leave the child in a waitable state; a later wait call
can be used to again retrieve the child status information.
Upon successful return,
waitid()
fills in the following fields of the
siginfo_t
structure pointed to by
infop:
- si_pid
-
The process ID of the child.
- si_uid
-
The real user ID of the child.
(This field is not set on most other implementations.)
- si_signo
-
Always set to
SIGCHLD.
- si_status
-
Either the exit status of the child, as given to
_exit(2)
(or
exit(3)),
or the signal that caused the child to terminate, stop, or continue.
The
si_code
field can be used to determine how to interpret this field.
- si_code
-
Set to one of:
CLD_EXITED
(child called
_exit(2));
CLD_KILLED
(child killed by signal);
CLD_DUMPED
(child killed by signal, and dumped core);
CLD_STOPPED
(child stopped by signal);
CLD_TRAPPED
(traced child has trapped); or
CLD_CONTINUED
(child continued by
SIGCONT).
If
WNOHANG
was specified in
options
and there were no children in a waitable state, then
waitid()
returns 0 immediately and
the state of the
siginfo_t
structure pointed to by
infop
depends on the implementation.
To (portably) distinguish this case from that where a child was in a
waitable state, zero out the
si_pid
field before the call and check for a nonzero value in this field
after the call returns.
POSIX.1-2008 Technical Corrigendum 1 (2013) adds the requirement that when
WNOHANG
is specified in
options
and there were no children in a waitable state, then
waitid()
should zero out the
si_pid
and
si_signo
fields of the structure.
On Linux and other implementations that adhere to this requirement,
it is not necessary to zero out the
si_pid
field before calling
waitid().
However,
not all implementations follow the POSIX.1 specification on this point.
RETURN VALUE
wait():
on success, returns the process ID of the terminated child;
on error, -1 is returned.
waitpid():
on success, returns the process ID of the child whose state has changed;
if
WNOHANG
was specified and one or more child(ren) specified by
pid
exist, but have not yet changed state, then 0 is returned.
On error, -1 is returned.
waitid():
returns 0 on success or
if
WNOHANG
was specified and no child(ren) specified by
id
has yet changed state;
on error, -1 is returned.
Each of these calls sets
errno
to an appropriate value in the case of an error.
ERRORS
- ECHILD
-
(for
wait())
The calling process does not have any unwaited-for children.
- ECHILD
-
(for
waitpid()
or
waitid())
The process specified by
pid
(waitpid())
or
idtype
and
id
(waitid())
does not exist or is not a child of the calling process.
(This can happen for one's own child if the action for
SIGCHLD
is set to
SIG_IGN.
See also the Linux Notes section about threads.)
- EINTR
-
WNOHANG
was not set and an unblocked signal or a
SIGCHLD
was caught; see
signal(7).
- EINVAL
-
The
options
argument was invalid.
CONFORMING TO
SVr4, 4.3BSD, POSIX.1-2001.
NOTES
A child that terminates, but has not been waited for becomes a "zombie".
The kernel maintains a minimal set of information about the zombie
process (PID, termination status, resource usage information)
in order to allow the parent to later perform a wait to obtain
information about the child.
As long as a zombie is not removed from the system via a wait,
it will consume a slot in the kernel process table, and if
this table fills, it will not be possible to create further processes.
If a parent process terminates, then its "zombie" children (if any)
are adopted by
init(1),
(or by the nearest "subreaper" process as defined through the use of the
prctl(2)
PR_SET_CHILD_SUBREAPER
operation);
init(1)
automatically performs a wait to remove the zombies.
POSIX.1-2001 specifies that if the disposition of
SIGCHLD
is set to
SIG_IGN
or the
SA_NOCLDWAIT
flag is set for
SIGCHLD
(see
sigaction(2)),
then children that terminate do not become zombies and a call to
wait()
or
waitpid()
will block until all children have terminated, and then fail with
errno
set to
ECHILD.
(The original POSIX standard left the behavior of setting
SIGCHLD
to
SIG_IGN
unspecified.
Note that even though the default disposition of
SIGCHLD
is "ignore", explicitly setting the disposition to
SIG_IGN
results in different treatment of zombie process children.)
Linux 2.6 conforms to the POSIX requirements.
However, Linux 2.4 (and earlier) does not:
if a
wait()
or
waitpid()
call is made while
SIGCHLD
is being ignored, the call behaves just as though
SIGCHLD
were not being ignored, that is, the call blocks until the next child
terminates and then returns the process ID and status of that child.
Linux notes
In the Linux kernel, a kernel-scheduled thread is not a distinct
construct from a process.
Instead, a thread is simply a process
that is created using the Linux-unique
clone(2)
system call; other routines such as the portable
pthread_create(3)
call are implemented using
clone(2).
Before Linux 2.4, a thread was just a special case of a process,
and as a consequence one thread could not wait on the children
of another thread, even when the latter belongs to the same thread group.
However, POSIX prescribes such functionality, and since Linux 2.4
a thread can, and by default will, wait on children of other threads
in the same thread group.
The following Linux-specific
options
are for use with children created using
clone(2);
they can also, since Linux 4.7,
be used with
waitid():
- __WCLONE
-
Wait for "clone" children only.
If omitted, then wait for "non-clone" children only.
(A "clone" child is one which delivers no signal, or a signal other than
SIGCHLD
to its parent upon termination.)
This option is ignored if
__WALL
is also specified.
- __WALL (since Linux 2.4)
-
Wait for all children, regardless of
type ("clone" or "non-clone").
- __WNOTHREAD (since Linux 2.4)
-
Do not wait for children of other threads in
the same thread group.
This was the default before Linux 2.4.
Since Linux 4.7,
the
__WALL
flag is automatically implied if the child is being ptraced.
C library/kernel differences
wait()
is actually a library function that (in glibc) is implemented as a call to
wait4(2).
On some architectures, there is no
waitpid()
system call;
instead, this interface is implemented via a C library
wrapper function that calls
wait4(2).
The raw
waitid()
system call takes a fifth argument, of type
struct rusage *.
If this argument is non-NULL,
then it is used to return resource usage information about the child,
in the same manner as
wait4(2).
See
getrusage(2)
for details.
BUGS
According to POSIX.1-2008, an application calling
waitid()
must ensure that
infop
points to a
siginfo_t
structure (i.e., that it is a non-null pointer).
On Linux, if
infop
is NULL,
waitid()
succeeds, and returns the process ID of the waited-for child.
Applications should avoid relying on this inconsistent,
nonstandard, and unnecessary feature.
EXAMPLES
The following program demonstrates the use of
fork(2)
and
waitpid().
The program creates a child process.
If no command-line argument is supplied to the program,
then the child suspends its execution using
pause(2),
to allow the user to send signals to the child.
Otherwise, if a command-line argument is supplied,
then the child exits immediately,
using the integer supplied on the command line as the exit status.
The parent process executes a loop that monitors the child using
waitpid(),
and uses the W*() macros described above to analyze the wait status value.
The following shell session demonstrates the use of the program:
$ ./a.out &
Child PID is 32360
[1] 32359
$ kill -STOP 32360
stopped by signal 19
$ kill -CONT 32360
continued
$ kill -TERM 32360
killed by signal 15
[1]+ Done ./a.out
$
Program source
#include <
sys/wait.h>
#include <
stdint.h>
#include <
stdlib.h>
#include <
unistd.h>
#include <
stdio.h>
int
main(int argc, char *argv[])
{
pid_t cpid, w;
int wstatus;
cpid = fork();
if (cpid == -1) {
perror("fork");
exit(EXIT_FAILURE);
}
if (cpid == 0) { /* Code executed by child */
printf("Child PID is %jd\n", (intmax_t) getpid());
if (argc == 1)
pause(); /* Wait for signals */
_exit(atoi(argv[1]));
} else { /* Code executed by parent */
do {
w = waitpid(cpid, &wstatus, WUNTRACED | WCONTINUED);
if (w == -1) {
perror("waitpid");
exit(EXIT_FAILURE);
}
if (WIFEXITED(wstatus)) {
printf("exited, status=%d\n", WEXITSTATUS(wstatus));
} else if (WIFSIGNALED(wstatus)) {
printf("killed by signal %d\n", WTERMSIG(wstatus));
} else if (WIFSTOPPED(wstatus)) {
printf("stopped by signal %d\n", WSTOPSIG(wstatus));
} else if (WIFCONTINUED(wstatus)) {
printf("continued\n");
}
} while (!WIFEXITED(wstatus) && !WIFSIGNALED(wstatus));
exit(EXIT_SUCCESS);
}
}
SEE ALSO
_exit(2),
clone(2),
fork(2),
kill(2),
ptrace(2),
sigaction(2),
signal(2),
wait4(2),
pthread_create(3),
core(5),
credentials(7),
signal(7)
COLOPHON
This page is part of release 5.10 of the Linux
man-pages
project.
A description of the project,
information about reporting bugs,
and the latest version of this page,
can be found at
https://www.kernel.org/doc/man-pages/.