Processes can call the _exit()
system call (on Linux, see also exit_group()
) with an integer argument to report an exit code to their parent. Though it's an integer, only the 8 least significant bits are available to the parent (exception to that is when using waitid()
or handler on SIGCHLD in the parent to retrieve that code, though not on Linux).
The parent will typically do a wait()
or waitpid()
to get the status of their child as an integer (though waitid()
with somewhat different semantics can be used as well).
On Linux and most Unices, if the process terminated normally, bits 8 to 15 of that status number will contain the exit code as passed to exit()
. If not, then the 7 least significant bits (0 to 6) will contain the signal number and bit 7 will be set if a core was dumped.
perl
's $?
for instance contains that number as set by waitpid()
:
$ perl -e 'system q(kill $$); printf "%04x\n", $?'
000f # killed by signal 15
$ perl -e 'system q(kill -ILL $$); printf "%04x\n", $?'
0084 # killed by signal 4 and core dumped
$ perl -e 'system q(exit $((0xabc))); printf "%04x\n", $?'
bc00 # terminated normally, 0xbc the lowest 8 bits of the status
Bourne-like shells also make the exit status of the last run command in their own $?
special parameter. However, it does not contain directly the number returned by waitpid()
, but a transformation on it, and it's different between shells.
What's common between all shells is that $?
contains the lowest 8 bits of the exit code (the number passed to exit()
) if the process terminated normally.
Where it differs is when the process is terminated by a signal. In all cases, and that's required by POSIX, the number will be greater than 128. POSIX doesn't specify what the value may be. In practice though, in all Bourne-like shells that I know, the lowest 7 bits of $?
will contain the signal number. But, where n
is the signal number,
in ash, zsh, pdksh, bash, the Bourne shell, $?
is 128 + n
. What that means is that in those shells, if you get a $?
of 129
, you don't know whether it's because the process exited with exit(129)
or whether it was killed by the signal 1
(HUP
on most systems). But the rationale is that shells, when they do exit themselves, by default return the exit status of the last exited command. By making sure $?
is never greater than 255, that allows to have a consistent exit status:
$ bash -c 'sh -c "kill \$\$"; printf "%x\n" "$?"'
bash: line 1: 16720 Terminated sh -c "kill \$\$"
8f # 128 + 15
$ bash -c 'sh -c "kill \$\$"; exit'; printf '%x\n' "$?"
bash: line 1: 16726 Terminated sh -c "kill \$\$"
8f # here that 0x8f is from a exit(143) done by bash. Though it's
# not from a killed process, that does tell us that probably
# something was killed by a SIGTERM
ksh93
, $?
is 256 + n
. That means that from a value of $?
you can differentiate between a killed and non-killed process. Newer versions of ksh
, upon exit, if $?
was greater than 255, kills itself with the same signal in order to be able to report the same exit status to its parent. While that sounds like a good idea, that means that ksh
will generate an extra core dump (potentially overwriting the other one) if the process was killed by a core generating signal:
$ ksh -c 'sh -c "kill \$\$"; printf "%x\n" "$?"'
ksh: 16828: Terminated
10f # 256 + 15
$ ksh -c 'sh -c "kill -ILL \$\$"; exit'; printf '%x\n' "$?"
ksh: 16816: Illegal instruction(coredump)
Illegal instruction(coredump)
104 # 256 + 15, ksh did indeed kill itself so as to report the same
# exit status as sh. Older versions of `ksh93` would have returned
# 4 instead.
Where you could even say there's a bug is that ksh93
kills itself even if $?
comes from a return 257
done by a function:
$ ksh -c 'f() { return "$1"; }; f 257; exit'
zsh: hangup ksh -c 'f() { return "$1"; }; f 257; exit'
# ksh kills itself with a SIGHUP so as to report a 257 exit status
# to its parent
yash
. yash
offers a compromise. It returns 256 + 128 + n
. That means we can also differentiate between a killed process and one that terminated properly. And upon exiting, it will report 128 + n
without having to suicide itself and the side effects it can have.
$ yash -c 'sh -c "kill \$\$"; printf "%x\n" "$?"'
18f # 256 + 128 + 15
$ yash -c 'sh -c "kill \$\$"; exit'; printf '%x\n' "$?"
8f # that's from a exit(143), yash was not killed
To get the signal from the value of $?
, the portable way is to use kill -l
:
$ /bin/kill 0
Terminated
$ kill -l "$?"
TERM
(for portability, you should never use signal numbers, only signal names)
On the non-Bourne fronts:
csh
/tcsh
and fish
same as the Bourne shell except that the status is in $status
instead of $?
(note that zsh
also sets $status
for compatibility with csh
(in addition to $?
)).
rc
: the exit status is in $status
as well, but when killed by a signal, that variable contains the name of the signal (like sigterm
or sigill+core
if a core was generated) instead of a number, which is yet another proof of the good design of that shell.
es
. the exit status is not a variable. If you care for it, you run the command as:
status = <={cmd}
which will return a number or sigterm
or sigsegv+core
like in rc
.
Maybe for completeness, we should mention zsh
's $pipestatus
and bash
's $PIPESTATUS
arrays that contain the exit status of the components of the last pipeline.
And also for completeness, when it comes to shell functions and sourced files, by default functions return with the exit status of the last command run, but can also set a return status explicitly with the return
builtin. And we see some differences here:
bash
and mksh
(since R41, a regression^Wchange apparently introduced intentionally) will truncate the number (positive or negative) to 8 bits. So for instance return 1234
will set $?
to 210
, return -- -1
will set $?
to 255.
zsh
and pdksh
(and derivatives other than mksh
) allow any signed 32 bit decimal integer (-231 to 231-1) (and truncate the number to 32bits).
ash
and yash
allow any positive integer from 0 to 231-1 and return an error for any number out of that.
ksh93
for return 0
to return 320
set $?
as is, but for anything else, truncate to 8 bits. Beware as already mentioned that returning a number between 256 and 320 could cause ksh
to kill itself upon exit.
rc
and es
allow returning anything even lists.
Also note that some shells also use special values of $?
/$status
to report some error conditions that are not the exit status of a process, like 127
or 126
for command not found or not executable (or syntax error in a sourced file)...
killall myScript
works, hence the return of the killall (and not of the script!) is 0. You could place akill -x $$
[x being the signal number, and $$ usually expanded by the shell to that script's PID (works in sh, bash, ...)] inside the script and then test what was its exit core.&
). Send the signal from another shell process (in another terminal), then you can use$?
after myScript has ended.