WAIT(3P) POSIX Programmer's Manual WAIT(3P)
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This manual page is part of the POSIX Programmer's Manual. The Linux
implementation of this interface may differ (consult the corresponding
Linux manual page for details of Linux behavior), or the interface may
not be implemented on Linux.
NAME
wait, waitpid -- wait for a child process to stop or terminate
SYNOPSIS
#include <sys/wait.h>
pid_t wait(int *stat_loc);
pid_t waitpid(pid_t pid, int *stat_loc, int options);
DESCRIPTION
The wait() and waitpid() functions shall obtain status information per-
taining to one of the caller's child processes. Various options permit
status information to be obtained for child processes that have termi-
nated or stopped. If status information is available for two or more
child processes, the order in which their status is reported is unspec-
ified.
The wait() function shall suspend execution of the calling thread until
status information for one of the terminated child processes of the
calling process is available, or until delivery of a signal whose
action is either to execute a signal-catching function or to terminate
the process. If more than one thread is suspended in wait() or wait-
pid() awaiting termination of the same process, exactly one thread
shall return the process status at the time of the target process ter-
mination. If status information is available prior to the call to
wait(), return shall be immediate.
The waitpid() function shall be equivalent to wait() if the pid argu-
ment is (pid_t)-1 and the options argument is 0. Otherwise, its behav-
ior shall be modified by the values of the pid and options arguments.
The pid argument specifies a set of child processes for which status is
requested. The waitpid() function shall only return the status of a
child process from this set:
* If pid is equal to (pid_t)-1, status is requested for any child
process. In this respect, waitpid() is then equivalent to wait().
* If pid is greater than 0, it specifies the process ID of a single
child process for which status is requested.
* If pid is 0, status is requested for any child process whose
process group ID is equal to that of the calling process.
* If pid is less than (pid_t)-1, status is requested for any child
process whose process group ID is equal to the absolute value of
pid.
The options argument is constructed from the bitwise-inclusive OR of
zero or more of the following flags, defined in the <sys/wait.h>
header:
WCONTINUED The waitpid() function shall report the status of any con-
tinued child process specified by pid whose status has not
been reported since it continued from a job control stop.
WNOHANG The waitpid() function shall not suspend execution of the
calling thread if status is not immediately available for
one of the child processes specified by pid.
WUNTRACED The status of any child processes specified by pid that are
stopped, and whose status has not yet been reported since
they stopped, shall also be reported to the requesting
process.
If the calling process has SA_NOCLDWAIT set or has SIGCHLD set to
SIG_IGN, and the process has no unwaited-for children that were trans-
formed into zombie processes, the calling thread shall block until all
of the children of the process containing the calling thread terminate,
and wait() and waitpid() shall fail and set errno to [ECHILD].
If wait() or waitpid() return because the status of a child process is
available, these functions shall return a value equal to the process ID
of the child process. In this case, if the value of the argument
stat_loc is not a null pointer, information shall be stored in the
location pointed to by stat_loc. The value stored at the location
pointed to by stat_loc shall be 0 if and only if the status returned is
from a terminated child process that terminated by one of the following
means:
1. The process returned 0 from main().
2. The process called _exit() or exit() with a status argument of 0.
3. The process was terminated because the last thread in the process
terminated.
Regardless of its value, this information may be interpreted using the
following macros, which are defined in <sys/wait.h> and evaluate to
integral expressions; the stat_val argument is the integer value
pointed to by stat_loc.
WIFEXITED(stat_val)
Evaluates to a non-zero value if status was returned for a child
process that terminated normally.
WEXITSTATUS(stat_val)
If the value of WIFEXITED(stat_val) is non-zero, this macro eval-
uates to the low-order 8 bits of the status argument that the
child process passed to _exit() or exit(), or the value the child
process returned from main().
WIFSIGNALED(stat_val)
Evaluates to a non-zero value if status was returned for a child
process that terminated due to the receipt of a signal that was
not caught (see <signal.h>).
WTERMSIG(stat_val)
If the value of WIFSIGNALED(stat_val) is non-zero, this macro
evaluates to the number of the signal that caused the termination
of the child process.
WIFSTOPPED(stat_val)
Evaluates to a non-zero value if status was returned for a child
process that is currently stopped.
WSTOPSIG(stat_val)
If the value of WIFSTOPPED(stat_val) is non-zero, this macro
evaluates to the number of the signal that caused the child
process to stop.
WIFCONTINUED(stat_val)
Evaluates to a non-zero value if status was returned for a child
process that has continued from a job control stop.
It is unspecified whether the status value returned by calls to wait()
or waitpid() for processes created by posix_spawn() or posix_spawnp()
can indicate a WIFSTOPPED(stat_val) before subsequent calls to wait()
or waitpid() indicate WIFEXITED(stat_val) as the result of an error
detected before the new process image starts executing.
It is unspecified whether the status value returned by calls to wait()
or waitpid() for processes created by posix_spawn() or posix_spawnp()
can indicate a WIFSIGNALED(stat_val) if a signal is sent to the par-
ent's process group after posix_spawn() or posix_spawnp() is called.
If the information pointed to by stat_loc was stored by a call to wait-
pid() that specified the WUNTRACED flag and did not specify the WCON-
TINUED flag, exactly one of the macros WIFEXITED(*stat_loc), WIFSIG-
NALED(*stat_loc), and WIFSTOPPED(*stat_loc) shall evaluate to a non-
zero value.
If the information pointed to by stat_loc was stored by a call to wait-
pid() that specified the WUNTRACED and WCONTINUED flags, exactly one of
the macros WIFEXITED(*stat_loc), WIFSIGNALED(*stat_loc), WIF-
STOPPED(*stat_loc), and WIFCONTINUED(*stat_loc) shall evaluate to a
non-zero value.
If the information pointed to by stat_loc was stored by a call to wait-
pid() that did not specify the WUNTRACED or WCONTINUED flags, or by a
call to the wait() function, exactly one of the macros WIFEX-
ITED(*stat_loc) and WIFSIGNALED(*stat_loc) shall evaluate to a non-zero
value.
If the information pointed to by stat_loc was stored by a call to wait-
pid() that did not specify the WUNTRACED flag and specified the WCON-
TINUED flag, or by a call to the wait() function, exactly one of the
macros WIFEXITED(*stat_loc), WIFSIGNALED(*stat_loc), and WIFCONTIN-
UED(*stat_loc) shall evaluate to a non-zero value.
If _POSIX_REALTIME_SIGNALS is defined, and the implementation queues
the SIGCHLD signal, then if wait() or waitpid() returns because the
status of a child process is available, any pending SIGCHLD signal
associated with the process ID of the child process shall be discarded.
Any other pending SIGCHLD signals shall remain pending.
Otherwise, if SIGCHLD is blocked, if wait() or waitpid() return because
the status of a child process is available, any pending SIGCHLD signal
shall be cleared unless the status of another child process is avail-
able.
For all other conditions, it is unspecified whether child status will
be available when a SIGCHLD signal is delivered.
There may be additional implementation-defined circumstances under
which wait() or waitpid() report status. This shall not occur unless
the calling process or one of its child processes explicitly makes use
of a non-standard extension. In these cases the interpretation of the
reported status is implementation-defined.
If a parent process terminates without waiting for all of its child
processes to terminate, the remaining child processes shall be assigned
a new parent process ID corresponding to an implementation-defined sys-
tem process.
RETURN VALUE
If wait() or waitpid() returns because the status of a child process is
available, these functions shall return a value equal to the process ID
of the child process for which status is reported. If wait() or wait-
pid() returns due to the delivery of a signal to the calling process,
-1 shall be returned and errno set to [EINTR]. If waitpid() was
invoked with WNOHANG set in options, it has at least one child process
specified by pid for which status is not available, and status is not
available for any process specified by pid, 0 is returned. Otherwise,
-1 shall be returned, and errno set to indicate the error.
ERRORS
The wait() function shall fail if:
ECHILD The calling process has no existing unwaited-for child pro-
cesses.
EINTR The function was interrupted by a signal. The value of the loca-
tion pointed to by stat_loc is undefined.
The waitpid() function shall fail if:
ECHILD The process specified by pid does not exist or is not a child of
the calling process, or the process group specified by pid does
not exist or does not have any member process that is a child of
the calling process.
EINTR The function was interrupted by a signal. The value of the loca-
tion pointed to by stat_loc is undefined.
EINVAL The options argument is not valid.
The following sections are informative.
EXAMPLES
Waiting for a Child Process and then Checking its Status
The following example demonstrates the use of waitpid(), fork(), and
the macros used to interpret the status value returned by waitpid()
(and wait()). The code segment creates a child process which does some
unspecified work. Meanwhile the parent loops performing calls to wait-
pid() to monitor the status of the child. The loop terminates when
child termination is detected.
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/wait.h>
...
pid_t child_pid, wpid;
int status;
child_pid = fork();
if (child_pid == -1) { /* fork() failed */
perror("fork");
exit(EXIT_FAILURE);
}
if (child_pid == 0) { /* This is the child */
/* Child does some work and then terminates */
...
} else { /* This is the parent */
do {
wpid = waitpid(child_pid, &status, WUNTRACED
#ifdef WCONTINUED /* Not all implementations support this */
| WCONTINUED
#endif
);
if (wpid == -1) {
perror("waitpid");
exit(EXIT_FAILURE);
}
if (WIFEXITED(status)) {
printf("child exited, status=%d\n", WEXITSTATUS(status));
} else if (WIFSIGNALED(status)) {
printf("child killed (signal %d)\n", WTERMSIG(status));
} else if (WIFSTOPPED(status)) {
printf("child stopped (signal %d)\n", WSTOPSIG(status));
#ifdef WIFCONTINUED /* Not all implementations support this */
} else if (WIFCONTINUED(status)) {
printf("child continued\n");
#endif
} else { /* Non-standard case -- may never happen */
printf("Unexpected status (0x%x)\n", status);
}
} while (!WIFEXITED(status) && !WIFSIGNALED(status));
}
Waiting for a Child Process in a Signal Handler for SIGCHLD
The following example demonstrates how to use waitpid() in a signal
handler for SIGCHLD without passing -1 as the pid argument. (See the
APPLICATION USAGE section below for the reasons why passing a pid of -1
is not recommended.) The method used here relies on the standard behav-
ior of waitpid() when SIGCHLD is blocked. On historical non-conforming
systems, the status of some child processes might not be reported.
#include <stdlib.h>
#include <stdio.h>
#include <signal.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <unistd.h>
#define CHILDREN 10
static void
handle_sigchld(int signum, siginfo_t *sinfo, void *unused)
{
int sav_errno = errno;
int status;
/*
* Obtain status information for the child which
* caused the SIGCHLD signal and write its exit code
* to stdout.
*/
if (sinfo->si_code != CLD_EXITED)
{
static char msg[] = "wrong si_code\n";
write(2, msg, sizeof msg - 1);
}
else if (waitpid(sinfo->si_pid, &status, 0) == -1)
{
static char msg[] = "waitpid() failed\n";
write(2, msg, sizeof msg - 1);
}
else if (!WIFEXITED(status))
{
static char msg[] = "WIFEXITED was false\n";
write(2, msg, sizeof msg - 1);
}
else
{
int code = WEXITSTATUS(status);
char buf[2];
buf[0] = '0' + code;
buf[1] = '\n';
write(1, buf, 2);
}
errno = sav_errno;
}
int
main(void)
{
int i;
pid_t pid;
struct sigaction sa;
sa.sa_flags = SA_SIGINFO;
sa.sa_sigaction = handle_sigchld;
sigemptyset(&sa.sa_mask);
if (sigaction(SIGCHLD, &sa, NULL) == -1)
{
perror("sigaction");
exit(EXIT_FAILURE);
}
for (i = 0; i < CHILDREN; i++)
{
switch (pid = fork())
{
case -1:
perror("fork");
exit(EXIT_FAILURE);
case 0:
sleep(2);
_exit(i);
}
}
/* Wait for all the SIGCHLD signals, then terminate on SIGALRM */
alarm(3);
for (;;)
pause();
return 0; /* NOTREACHED */
}
APPLICATION USAGE
Calls to wait() will collect information about any child process. This
may result in interactions with other interfaces that may be waiting
for their own children (such as by use of system()). For this and
other reasons it is recommended that portable applications not use
wait(), but instead use waitpid(). For these same reasons, the use of
waitpid() with a pid argument of -1, and the use of waitid() with the
idtype argument set to P_ALL, are also not recommended for portable
applications.
RATIONALE
A call to the wait() or waitpid() function only returns status on an
immediate child process of the calling process; that is, a child that
was produced by a single fork() call (perhaps followed by an exec or
other function calls) from the parent. If a child produces grandchil-
dren by further use of fork(), none of those grandchildren nor any of
their descendants affect the behavior of a wait() from the original
parent process. Nothing in this volume of POSIX.1-2008 prevents an
implementation from providing extensions that permit a process to get
status from a grandchild or any other process, but a process that does
not use such extensions must be guaranteed to see status from only its
direct children.
The waitpid() function is provided for three reasons:
1. To support job control
2. To permit a non-blocking version of the wait() function
3. To permit a library routine, such as system() or pclose(), to wait
for its children without interfering with other terminated children
for which the process has not waited
The first two of these facilities are based on the wait3() function
provided by 4.3 BSD. The function uses the options argument, which is
equivalent to an argument to wait3(). The WUNTRACED flag is used only
in conjunction with job control on systems supporting job control. Its
name comes from 4.3 BSD and refers to the fact that there are two types
of stopped processes in that implementation: processes being traced via
the ptrace() debugging facility and (untraced) processes stopped by job
control signals. Since ptrace() is not part of this volume of
POSIX.1-2008, only the second type is relevant. The name WUNTRACED was
retained because its usage is the same, even though the name is not
intuitively meaningful in this context.
The third reason for the waitpid() function is to permit independent
sections of a process to spawn and wait for children without interfer-
ing with each other. For example, the following problem occurs in
developing a portable shell, or command interpreter:
stream = popen("/bin/true");
(void) system("sleep 100");
(void) pclose(stream);
On all historical implementations, the final pclose() fails to reap the
wait() status of the popen().
The status values are retrieved by macros, rather than given as spe-
cific bit encodings as they are in most historical implementations (and
thus expected by existing programs). This was necessary to eliminate a
limitation on the number of signals an implementation can support that
was inherent in the traditional encodings. This volume of POSIX.1-2008
does require that a status value of zero corresponds to a process call-
ing _exit(0), as this is the most common encoding expected by existing
programs. Some of the macro names were adopted from 4.3 BSD.
These macros syntactically operate on an arbitrary integer value. The
behavior is undefined unless that value is one stored by a successful
call to wait() or waitpid() in the location pointed to by the stat_loc
argument. An early proposal attempted to make this clearer by specify-
ing each argument as *stat_loc rather than stat_val. However, that did
not follow the conventions of other specifications in this volume of
POSIX.1-2008 or traditional usage. It also could have implied that the
argument to the macro must literally be *stat_loc; in fact, that value
can be stored or passed as an argument to other functions before being
interpreted by these macros.
The extension that affects wait() and waitpid() and is common in his-
torical implementations is the ptrace() function. It is called by a
child process and causes that child to stop and return a status that
appears identical to the status indicated by WIFSTOPPED. The status of
ptrace() children is traditionally returned regardless of the WUNTRACED
flag (or by the wait() function). Most applications do not need to con-
cern themselves with such extensions because they have control over
what extensions they or their children use. However, applications, such
as command interpreters, that invoke arbitrary processes may see this
behavior when those arbitrary processes misuse such extensions.
Implementations that support core file creation or other implementa-
tion-defined actions on termination of some processes traditionally
provide a bit in the status returned by wait() to indicate that such
actions have occurred.
Allowing the wait() family of functions to discard a pending SIGCHLD
signal that is associated with a successfully waited-for child process
puts them into the sigwait() and sigwaitinfo() category with respect to
SIGCHLD.
This definition allows implementations to treat a pending SIGCHLD sig-
nal as accepted by the process in wait(), with the same meaning of
``accepted'' as when that word is applied to the sigwait() family of
functions.
Allowing the wait() family of functions to behave this way permits an
implementation to be able to deal precisely with SIGCHLD signals.
In particular, an implementation that does accept (discard) the SIGCHLD
signal can make the following guarantees regardless of the queuing
depth of signals in general (the list of waitable children can hold the
SIGCHLD queue):
1. If a SIGCHLD signal handler is established via sigaction() without
the SA_RESETHAND flag, SIGCHLD signals can be accurately counted;
that is, exactly one SIGCHLD signal will be delivered to or
accepted by the process for every child process that terminates.
2. A single wait() issued from a SIGCHLD signal handler can be guaran-
teed to return immediately with status information for a child
process.
3. When SA_SIGINFO is requested, the SIGCHLD signal handler can be
guaranteed to receive a non-null pointer to a siginfo_t structure
that describes a child process for which a wait via waitpid() or
waitid() will not block or fail.
4. The system() function will not cause the SIGCHLD handler of a
process to be called as a result of the fork()/exec executed within
system() because system() will accept the SIGCHLD signal when it
performs a waitpid() for its child process. This is a desirable
behavior of system() so that it can be used in a library without
causing side-effects to the application linked with the library.
An implementation that does not permit the wait() family of functions
to accept (discard) a pending SIGCHLD signal associated with a success-
fully waited-for child, cannot make the guarantees described above for
the following reasons:
Guarantee #1
Although it might be assumed that reliable queuing of all SIGCHLD
signals generated by the system can make this guarantee, the
counter-example is the case of a process that blocks SIGCHLD and
performs an indefinite loop of fork()/wait() operations. If the
implementation supports queued signals, then eventually the sys-
tem will run out of memory for the queue. The guarantee cannot be
made because there must be some limit to the depth of queuing.
Guarantees #2 and #3
These cannot be guaranteed unless the wait() family of functions
accepts the SIGCHLD signal. Otherwise, a fork()/wait() executed
while SIGCHLD is blocked (as in the system() function) will
result in an invocation of the handler when SIGCHLD is unblocked,
after the process has disappeared.
Guarantee #4
Although possible to make this guarantee, system() would have to
set the SIGCHLD handler to SIG_DFL so that the SIGCHLD signal
generated by its fork() would be discarded (the SIGCHLD default
action is to be ignored), then restore it to its previous set-
ting. This would have the undesirable side-effect of discarding
all SIGCHLD signals pending to the process.
FUTURE DIRECTIONS
None.
SEE ALSO
exec, exit(), fork(), system(), waitid()
The Base Definitions volume of POSIX.1-2008, Section 4.11, Memory Syn-
chronization, <signal.h>, <sys_wait.h>
COPYRIGHT
Portions of this text are reprinted and reproduced in electronic form
from IEEE Std 1003.1, 2013 Edition, Standard for Information Technology
-- Portable Operating System Interface (POSIX), The Open Group Base
Specifications Issue 7, Copyright (C) 2013 by the Institute of Electri-
cal and Electronics Engineers, Inc and The Open Group. (This is
POSIX.1-2008 with the 2013 Technical Corrigendum 1 applied.) In the
event of any discrepancy between this version and the original IEEE and
The Open Group Standard, the original IEEE and The Open Group Standard
is the referee document. The original Standard can be obtained online
at http://www.unix.org/online.html .
Any typographical or formatting errors that appear in this page are
most likely to have been introduced during the conversion of the source
files to man page format. To report such errors, see https://www.ker-
nel.org/doc/man-pages/reporting_bugs.html .
IEEE/The Open Group 2013 WAIT(3P)
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