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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
system — issue a command
SYNOPSIS
#include <stdlib.h>
int system(const char *command);
DESCRIPTION
The functionality described on this reference page is aligned with the ISO C standard. Any conflict
between the requirements described here and the ISO C standard is unintentional. This volume of
POSIX.1‐2008 defers to the ISO C standard.
If command is a null pointer, the system() function shall determine whether the host environment has a
command processor. If command is not a null pointer, the system() function shall pass the string pointed
to by command to that command processor to be executed in an implementation-defined manner; this might
then cause the program calling system() to behave in a non-conforming manner or to terminate.
The system() function shall behave as if a child process were created using fork(), and the child process
invoked the sh utility using execl() as follows:
execl(<shell path>, "sh", "-c", command, (char *)0);
where <shell path> is an unspecified pathname for the sh utility. It is unspecified whether the handlers
registered with pthread_atfork() are called as part of the creation of the child process.
The system() function shall ignore the SIGINT and SIGQUIT signals, and shall block the SIGCHLD signal,
while waiting for the command to terminate. If this might cause the application to miss a signal that
would have killed it, then the application should examine the return value from system() and take
whatever action is appropriate to the application if the command terminated due to receipt of a signal.
The system() function shall not affect the termination status of any child of the calling processes other
than the process or processes it itself creates.
The system() function shall not return until the child process has terminated.
The system() function need not be thread-safe.
RETURN VALUE
If command is a null pointer, system() shall return non-zero to indicate that a command processor is
available, or zero if none is available. The system() function shall always return non-zero when command
is NULL.
If command is not a null pointer, system() shall return the termination status of the command language
interpreter in the format specified by waitpid(). The termination status shall be as defined for the sh
utility; otherwise, the termination status is unspecified. If some error prevents the command language
interpreter from executing after the child process is created, the return value from system() shall be as
if the command language interpreter had terminated using exit(127) or _exit(127). If a child process
cannot be created, or if the termination status for the command language interpreter cannot be obtained,
system() shall return −1 and set errno to indicate the error.
ERRORS
The system() function may set errno values as described by fork().
In addition, system() may fail if:
ECHILD The status of the child process created by system() is no longer available.
The following sections are informative.
EXAMPLES
None.
APPLICATION USAGE
If the return value of system() is not −1, its value can be decoded through the use of the macros
described in <sys/wait.h>. For convenience, these macros are also provided in <stdlib.h>.
Note that, while system() must ignore SIGINT and SIGQUIT and block SIGCHLD while waiting for the child to
terminate, the handling of signals in the executed command is as specified by fork() and exec. For
example, if SIGINT is being caught or is set to SIG_DFL when system() is called, then the child is
started with SIGINT handling set to SIG_DFL.
Ignoring SIGINT and SIGQUIT in the parent process prevents coordination problems (two processes reading
from the same terminal, for example) when the executed command ignores or catches one of the signals. It
is also usually the correct action when the user has given a command to the application to be executed
synchronously (as in the '!' command in many interactive applications). In either case, the signal
should be delivered only to the child process, not to the application itself. There is one situation
where ignoring the signals might have less than the desired effect. This is when the application uses
system() to perform some task invisible to the user. If the user typed the interrupt character ("^C", for
example) while system() is being used in this way, one would expect the application to be killed, but
only the executed command is killed. Applications that use system() in this way should carefully check
the return status from system() to see if the executed command was successful, and should take
appropriate action when the command fails.
Blocking SIGCHLD while waiting for the child to terminate prevents the application from catching the
signal and obtaining status from system()'s child process before system() can get the status itself.
The context in which the utility is ultimately executed may differ from that in which system() was
called. For example, file descriptors that have the FD_CLOEXEC flag set are closed, and the process ID
and parent process ID are different. Also, if the executed utility changes its environment variables or
its current working directory, that change is not reflected in the caller's context.
There is no defined way for an application to find the specific path for the shell. However, confstr()
can provide a value for PATH that is guaranteed to find the sh utility.
Using the system() function in more than one thread in a process or when the SIGCHLD signal is being
manipulated by more than one thread in a process may produce unexpected results.
RATIONALE
The system() function should not be used by programs that have set user (or group) ID privileges. The
fork() and exec family of functions (except execlp() and execvp()), should be used instead. This prevents
any unforeseen manipulation of the environment of the user that could cause execution of commands not
anticipated by the calling program.
There are three levels of specification for the system() function. The ISO C standard gives the most
basic. It requires that the function exists, and defines a way for an application to query whether a
command language interpreter exists. It says nothing about the command language or the environment in
which the command is interpreted.
POSIX.1‐2008 places additional restrictions on system(). It requires that if there is a command language
interpreter, the environment must be as specified by fork() and exec. This ensures, for example, that
close-on-exec works, that file locks are not inherited, and that the process ID is different. It also
specifies the return value from system() when the command line can be run, thus giving the application
some information about the command's completion status.
Finally, POSIX.1‐2008 requires the command to be interpreted as in the shell command language defined in
the Shell and Utilities volume of POSIX.1‐2008.
Note that, system(NULL) is required to return non-zero, indicating that there is a command language
interpreter. At first glance, this would seem to conflict with the ISO C standard which allows
system(NULL) to return zero. There is no conflict, however. A system must have a command language
interpreter, and is non-conforming if none is present. It is therefore permissible for the system()
function on such a system to implement the behavior specified by the ISO C standard as long as it is
understood that the implementation does not conform to POSIX.1‐2008 if system(NULL) returns zero.
It was explicitly decided that when command is NULL, system() should not be required to check to make
sure that the command language interpreter actually exists with the correct mode, that there are enough
processes to execute it, and so on. The call system(NULL) could, theoretically, check for such problems
as too many existing child processes, and return zero. However, it would be inappropriate to return zero
due to such a (presumably) transient condition. If some condition exists that is not under the control of
this application and that would cause any system() call to fail, that system has been rendered non-
conforming.
Early drafts required, or allowed, system() to return with errno set to [EINTR] if it was interrupted
with a signal. This error return was removed, and a requirement that system() not return until the child
has terminated was added. This means that if a waitpid() call in system() exits with errno set to
[EINTR], system() must reissue the waitpid(). This change was made for two reasons:
1. There is no way for an application to clean up if system() returns [EINTR], short of calling wait(),
and that could have the undesirable effect of returning the status of children other than the one
started by system().
2. While it might require a change in some historical implementations, those implementations already
have to be changed because they use wait() instead of waitpid().
Note that if the application is catching SIGCHLD signals, it will receive such a signal before a
successful system() call returns.
To conform to POSIX.1‐2008, system() must use waitpid(), or some similar function, instead of wait().
The following code sample illustrates how system() might be implemented on an implementation conforming
to POSIX.1‐2008.
#include <signal.h>
int system(const char *cmd)
{
int stat;
pid_t pid;
struct sigaction sa, savintr, savequit;
sigset_t saveblock;
if (cmd == NULL)
return(1);
sa.sa_handler = SIG_IGN;
sigemptyset(&sa.sa_mask);
sa.sa_flags = 0;
sigemptyset(&savintr.sa_mask);
sigemptyset(&savequit.sa_mask);
sigaction(SIGINT, &sa, &savintr);
sigaction(SIGQUIT, &sa, &savequit);
sigaddset(&sa.sa_mask, SIGCHLD);
sigprocmask(SIG_BLOCK, &sa.sa_mask, &saveblock);
if ((pid = fork()) == 0) {
sigaction(SIGINT, &savintr, (struct sigaction *)0);
sigaction(SIGQUIT, &savequit, (struct sigaction *)0);
sigprocmask(SIG_SETMASK, &saveblock, (sigset_t *)0);
execl("/bin/sh", "sh", "-c", cmd, (char *)0);
_exit(127);
}
if (pid == -1) {
stat = -1; /* errno comes from fork() */
} else {
while (waitpid(pid, &stat, 0) == -1) {
if (errno != EINTR){
stat = -1;
break;
}
}
}
sigaction(SIGINT, &savintr, (struct sigaction *)0);
sigaction(SIGQUIT, &savequit, (struct sigaction *)0);
sigprocmask(SIG_SETMASK, &saveblock, (sigset_t *)0);
return(stat);
}
Note that, while a particular implementation of system() (such as the one above) can assume a particular
path for the shell, such a path is not necessarily valid on another system. The above example is not
portable, and is not intended to be.
One reviewer suggested that an implementation of system() might want to use an environment variable such
as SHELL to determine which command interpreter to use. The supposed implementation would use the default
command interpreter if the one specified by the environment variable was not available. This would allow
a user, when using an application that prompts for command lines to be processed using system(), to
specify a different command interpreter. Such an implementation is discouraged. If the alternate command
interpreter did not follow the command line syntax specified in the Shell and Utilities volume of
POSIX.1‐2008, then changing SHELL would render system() non-conforming. This would affect applications
that expected the specified behavior from system(), and since the Shell and Utilities volume of
POSIX.1‐2008 does not mention that SHELL affects system(), the application would not know that it needed
to unset SHELL.
FUTURE DIRECTIONS
None.
SEE ALSO
exec, pipe(), pthread_atfork(), wait()
The Base Definitions volume of POSIX.1‐2008, <limits.h>, <signal.h>, <stdlib.h>, <sys_wait.h>
The Shell and Utilities volume of POSIX.1‐2008, sh
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 Electrical 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.kernel.org/doc/man-pages/reporting_bugs.html .
IEEE/The Open Group 2013 SYSTEM(3POSIX)