system(3) Library Functions Manual system(3)
NAME
system - execute a shell command
LIBRARY
Standard C library (libc, -lc)
SYNOPSIS#include <stdlib.h>int system(const char *command);DESCRIPTION
The system() library function behaves as if it used fork(2) to create a
child process that executed the shell command specified in command using
execl(3) as follows:
execl("/bin/sh", "sh", "-c", command, (char *) NULL);
system() returns after the command has been completed.
During execution of the command, SIGCHLD will be blocked, and SIGINT and
SIGQUIT will be ignored, in the process that calls system(). (These
signals will be handled according to their defaults inside the child
process that executes command.)
If command is NULL, then system() returns a status indicating whether a
shell is available on the system.
RETURN VALUE
The return value of system() is one of the following:
• If command is NULL, then a nonzero value if a shell is available, or 0
if no shell is available.
• If a child process could not be created, or its status could not be
retrieved, the return value is -1 and errno is set to indicate the
error.
• If a shell could not be executed in the child process, then the return
value is as though the child shell terminated by calling _exit(2) with
the status 127.
• If all system calls succeed, then the return value is the termination
status of the child shell used to execute command. (The termination
status of a shell is the termination status of the last command it
executes.)
In the last two cases, the return value is a "wait status" that can be
examined using the macros described in waitpid(2). (i.e., WIFEXITED(),
WEXITSTATUS(), and so on).
system() does not affect the wait status of any other children.
ERRORSsystem() can fail with any of the same errors as fork(2).
ATTRIBUTES
For an explanation of the terms used in this section, see attributes(7).
┌─────────────────────────────────────────────┬───────────────┬─────────┐
│ Interface │ Attribute │ Value │
├─────────────────────────────────────────────┼───────────────┼─────────┤
│ system() │ Thread safety │ MT-Safe │
└─────────────────────────────────────────────┴───────────────┴─────────┘
STANDARDS
C11, POSIX.1-2008.
HISTORY
POSIX.1-2001, C89.
NOTESsystem() provides simplicity and convenience: it handles all of the
details of calling fork(2), execl(3), and waitpid(2), as well as the
necessary manipulations of signals; in addition, the shell performs the
usual substitutions and I/O redirections for command. The main cost of
system() is inefficiency: additional system calls are required to create
the process that runs the shell and to execute the shell.
If the _XOPEN_SOURCE feature test macro is defined (before including any
header files), then the macros described in waitpid(2) (WEXITSTATUS(),
etc.) are made available when including <stdlib.h>.
As mentioned, system() ignores SIGINT and SIGQUIT. This may make
programs that call it from a loop uninterruptible, unless they take care
themselves to check the exit status of the child. For example:
while (something) {
int ret = system("foo");
if (WIFSIGNALED(ret) &&
(WTERMSIG(ret) == SIGINT || WTERMSIG(ret) == SIGQUIT))
break;
}
According to POSIX.1, it is unspecified whether handlers registered using
pthread_atfork(3) are called during the execution of system(). In the
glibc implementation, such handlers are not called.
Before glibc 2.1.3, the check for the availability of /bin/sh was not
actually performed if command was NULL; instead it was always assumed to
be available, and system() always returned 1 in this case. Since glibc
2.1.3, this check is performed because, even though POSIX.1-2001 requires
a conforming implementation to provide a shell, that shell may not be
available or executable if the calling program has previously called
chroot(2) (which is not specified by POSIX.1-2001).
It is possible for the shell command to terminate with a status of 127,
which yields a system() return value that is indistinguishable from the
case where a shell could not be executed in the child process.
Caveats
Do not use system() from a privileged program (a set-user-ID or set-
group-ID program, or a program with capabilities) because strange values
for some environment variables might be used to subvert system integrity.
For example, PATH could be manipulated so that an arbitrary program is
executed with privilege. Use the exec(3) family of functions instead,
but not execlp(3) or execvp(3) (which also use the PATH environment
variable to search for an executable).
system() will not, in fact, work properly from programs with set-user-ID
or set-group-ID privileges on systems on which /bin/sh is bash version 2:
as a security measure, bash 2 drops privileges on startup. (Debian uses
a different shell, dash(1), which does not do this when invoked as sh.)
Any user input that is employed as part of command should be carefully
sanitized, to ensure that unexpected shell commands or command options
are not executed. Such risks are especially grave when using system()
from a privileged program.
BUGS
If the command name starts with a hyphen, sh(1) interprets the command
name as an option, and the behavior is undefined. (See the -c option to
sh(1).) To work around this problem, prepend the command with a space as
in the following call:
system(" -unfortunate-command-name");
SEE ALSOsh(1), execve(2), fork(2), sigaction(2), sigprocmask(2), wait(2),
exec(3), signal(7)
Linux man-pages 6.18 2026-02-08 system(3)