sigaltstack —
set and/or get signal stack context
#include
<signal.h>
typedef struct sigaltstack {
void *ss_sp;
size_t ss_size;
int ss_flags;
} stack_t;
int
sigaltstack(
const
stack_t *ss,
stack_t *oss);
sigaltstack() allows users to define an alternate
stack on which signals delivered to this thread are to be processed. If
ss is non-zero and
SS_DISABLE is set in
ss_flags, the signal stack will be disabled.
A disabled stack will cause all signals to be taken on the regular user stack.
Trying to disable an active stack will cause
sigaltstack() to return -1 with
errno set to
EPERM.
Otherwise,
ss_sp specifies a pointer to a space
to be used as the signal stack and
ss_size
specifies the size of that space. When a signal's action indicates its handler
should execute on the signal stack (specified with a
sigaction(2) call), the
system checks to see if the thread is currently executing on that stack. If
the thread is not currently executing on the signal stack, the system arranges
a switch to the signal stack for the duration of the signal handler's
execution.
If
oss is non-zero, the current signal stack
state is returned. The
ss_flags field will
contain the value
SS_ONSTACK if the thread
is currently on a signal stack and
SS_DISABLE if the signal stack is currently
disabled.
The value
SIGSTKSZ is defined to be the
number of bytes/chars that would be used to cover the usual case when
allocating an alternate stack area. The following code fragment is typically
used to allocate an alternate stack.
if ((sigstk.ss_sp = malloc(SIGSTKSZ)) == NULL)
/* error return */
sigstk.ss_size = SIGSTKSZ;
sigstk.ss_flags = 0;
if (sigaltstack(&sigstk, 0) == -1)
perror("sigaltstack");
An alternative approach is provided for programs with signal handlers that
require a specific amount of stack space other than the default size. The
value
MINSIGSTKSZ is defined to be the
number of bytes/chars that is required by the operating system to implement
the alternate stack feature. In computing an alternate stack size, programs
should add
MINSIGSTKSZ to their stack
requirements to allow for the operating system overhead.
Signal stacks are automatically adjusted for the direction of stack growth and
alignment requirements. Signal stacks may or may not be protected by the
hardware and are not “grown” automatically as is done for the
normal stack. If the stack overflows and this space is not protected
unpredictable results may occur.
Upon successful completion, the value 0 is returned; otherwise the
value -1 is returned and the global variable
errno is set to indicate the error.
sigaltstack() will fail and the signal stack
context will remain unchanged if one of the following occurs.
-
-
- [
EFAULT]
- Either ss or
oss points to memory that is not a valid
part of the process address space.
-
-
- [
EINVAL]
- The ss_flags member
pointed to by the ss argument contains
flags other than
SS_DISABLE.
-
-
- [
ENOMEM]
- Size of alternate stack area is less than or equal to
MINSIGSTKSZ.
-
-
- [
EPERM]
- An attempt was made to disable an active stack.
sigaction(2),
setjmp(3)
The
sigaltstack() function conforms to
IEEE Std 1003.1-2008
(“POSIX.1”).
The predecessor to
sigaltstack(), the
sigstack() system call, appeared in
4.2BSD.
![[OpenBSD]](/openbsd.gif){kind=small}