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A process is considered to have completed correctly in Linux if its exit status was 0. I've seen that segmentation faults often result in an exit status of 11, though I don't know if this is simply the convention where I work (the apps that failed like that have all been internal) or a standard.

Are there standard exit codes for processes in Linux? If so, where can I find a list?

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if you're looking for the thing called "system error number" returned by system functions look here at errno – marinara Oct 21 '12 at 17:56

10 Answers 10

up vote 48 down vote accepted

8 bits of the return code and 8 bits of the number of the killing signal are mixed into a single value on the return from wait(2) & co..

#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <unistd.h>
#include <signal.h>

int main() {
    int status;

    pid_t child = fork();
    if (child <= 0)
    waitpid(child, &status, 0);
    if (WIFEXITED(status))
        printf("first child exited with %u\n", WEXITSTATUS(status));
    /* prints: "first child exited with 42" */

    child = fork();
    if (child <= 0)
        kill(getpid(), SIGSEGV);
    waitpid(child, &status, 0);
    if (WIFSIGNALED(status))
        printf("second child died with %u\n", WTERMSIG(status));
    /* prints: "second child died with 11" */

How are you determining the exit status? Traditionally, the shell only stores an 8-bit return code, but sets the high bit if the process was abnormally terminated.

$ sh -c 'exit 42'; echo $?
$ sh -c 'kill -SEGV $$'; echo $?
Segmentation fault
$ expr 139 - 128

If you're seeing anything other than this, then the program probably has a SIGSEGV signal handler which then calls exit normally, so it isn't actually getting killed by the signal. (Programs can chose to handle any signals aside from SIGKILL and SIGSTOP.)

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Given the way the question now appears, this does not appear to be the most useful (and thus accepted) answer. – David James Dec 9 '13 at 22:49
Hi, When is the exit_code of the task_struct updated? Is it updated if i use read the value in the routines of delivering signal(do_signal() in kernel)? Please comment if you can help me. Thank you. – mk.. Jul 8 '14 at 6:21

Part 1: Advanced Bash Scripting Guide

As always, the Advanced Bash Scripting Guide has great information: (This was linked in another answer, but to a non-canonical URL.)

1: Catchall for general errors
2: Misuse of shell builtins (according to Bash documentation)
126: Command invoked cannot execute
127: "command not found"
128: Invalid argument to exit
128+n: Fatal error signal "n"
255: Exit status out of range (exit takes only integer args in the range 0 - 255)

Part 2: sysexits.h

The ABSG references sysexits.h.

On Linux:

$ find /usr -name sysexits.h
$ cat /usr/include/sysexits.h

 * Copyright (c) 1987, 1993
 *  The Regents of the University of California.  All rights reserved.

 (A whole bunch of text left out.)

#define EX_OK           0       /* successful termination */
#define EX__BASE        64      /* base value for error messages */
#define EX_USAGE        64      /* command line usage error */
#define EX_DATAERR      65      /* data format error */
#define EX_NOINPUT      66      /* cannot open input */    
#define EX_NOUSER       67      /* addressee unknown */    
#define EX_NOHOST       68      /* host name unknown */
#define EX_UNAVAILABLE  69      /* service unavailable */
#define EX_SOFTWARE     70      /* internal software error */
#define EX_OSERR        71      /* system error (e.g., can't fork) */
#define EX_OSFILE       72      /* critical OS file missing */
#define EX_CANTCREAT    73      /* can't create (user) output file */
#define EX_IOERR        74      /* input/output error */
#define EX_TEMPFAIL     75      /* temp failure; user is invited to retry */
#define EX_PROTOCOL     76      /* remote error in protocol */
#define EX_NOPERM       77      /* permission denied */
#define EX_CONFIG       78      /* configuration error */

#define EX__MAX 78      /* maximum listed value */
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Note that in some flavors of unix, some commands use an exit status of 2 to indicate other things. For instance, many implementations of grep use an exit status of 2 to indicate an error, and use an exit status of 1 to mean that no selected lines were found. – NamshubWriter Oct 25 '12 at 17:06
On BSDs there's a man page summarising the info from sysexits.h: man sysexits – georgebrock Jul 29 '13 at 9:38

1 Catchall for general errors

2 Misuse of shell builtins (according to Bash documentation)

126 Command invoked cannot execute

127 "command not found"

128 Invalid argument to exit

128+n Fatal error signal "n"

130 Script terminated by Control-C

255 Exit status out of range

This is for bash. However, for other applications, there are different exit codes.

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It look like you both answered in the same minute. Tian would have to be pretty quick to see your links and paste them in. – Nathan Fellman Jul 9 '09 at 5:37
+1 - This is more useful than just pasting the link – a_m0d Jul 9 '09 at 5:39
Note that 'control-C yields 130' is consistent with '128+n' for signal n; control-C generates SIGINT which is signal 2. – Jonathan Leffler Sep 3 '11 at 18:44

sysexits.h has a list of standard exit codes. It seems to date back to at least 1993 and some big projects like Postfix use it, so I imagine it's the way to go.

From the OpenBSD man page:

According to style(9), it is not good practice to call exit(3) with arbi- trary values to indicate a failure condition when ending a program. In- stead, the pre-defined exit codes from sysexits should be used, so the caller of the process can get a rough estimation about the failure class without looking up the source code.
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There are no standard exit codes, aside from 0 meaning success. Non-zero doesn't necessarily mean failure either.

stdlib.h does define EXIT_FAILURE as 1 and EXIT_SUCCESS as 0, but that's about it.

The 11 on segfault is interesting, as 11 is the signal number that the kernel uses to kill the process in the event of a segfault. There is likely some mechanism, either in the kernel or in the shell, that translates that into the exit code.

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Programs return a 16 bit exit code. If the program was killed with a signal then the high order byte contains the signal used, otherwise the low order byte is the exit status returned by the programmer.

How that exit code is assigned to the status variable $? is then up to the shell. Bash keeps the lower 7 bits of the status and then uses 128 + (signal nr) for indicating a signal.

The only "standard" convention for programs is 0 for success, non-zero for error. Another convention used is to return errno on error.

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When Linux returns 0, it means success. Anything else means failure, each program has its own exit codes, so it would been quite long to list them all... !

About the 11 error code, it's indeed the segmentation fault number, mostly meaning that the program accessed a memory location that was not assigned.

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It's always 11 because the kernel kills it and assigns the "exit value." Likewise, other types of Faults will always get the same exit value. – Alex Gartrell Jul 9 '09 at 6:04

Standard Unix exit codes are defined by sysexits.h, as another poster mentioned. The same exit codes are used by portable libraries such as Poco - here is a list of them:

A signal 11 is a SIGSEGV (segment violation) signal, which is different from a return code. This signal is generated by the kernel in response to a bad page access, which causes the program to terminate. A list of signals can be found in the signal man page (run "man signal").

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To a first approximation, 0 is sucess, non-zero is failure, with 1 being general failure, and anything larger than one being a specific failure. Aside from the trivial exceptions of false and test, which are both designed to give 1 for sucess, there's a few other exceptions I found.

More realistically, 0 means sucess or maybe failure, 1 means general failure or maybe sucess, 2 means general failure if 1 and 0 are both used for sucess, but maybe sucess as well.

The diff command gives 0 if files compared are identical, 1 if they differ, and 2 if binaries are different. 2 also means failure. The less command gives 1 for failure unless you fail to supply an argument, in which case, it exits 0 despite failing.

The more command and the spell command give 1 for failure, unless the failure is a result of permission denied, nonexistent file, or attempt to read a directory. In any of these cases, they exit 0 despite failing.

Then the expr command gives 1 for sucess unless the output is the empty string or zero, in which case, 0 is sucess. 2 and 3 are failure.

Then there's cases where success or failure is ambiguous. When grep fails to find a pattern, it exits 1, but it exits 2 for a genuine failure (like permission denied). Klist also exits 1 when it fails to find a ticket, although this isn't really any more of a failure than when grep doesn't find a pattern, or when you ls an empty directory.

So, unfortunately, the unix powers that be don't seem to enforce any logical set of rules, even on very commonly used executables.

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I came across a list of "severe messages" from Fortran 77 while trying to figure out why a code exited with status 66. The list is huge so I can't repost it here, but have a look at,2,1.html.

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