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#include <ucontext.h> int stack_violation(int sig, const siginfo_t *sip, const ucontext_t *ucp);
The stack_violation() function returns a boolean value indicating whether the signal, sig, and accompanying signal information, sip, and saved context, ucp, represent a stack boundary violation event or a stack overflow.
The stack_violation() function returns 0 if the signal does not represent a stack boundary violation event and 1 if the signal does represent a stack boundary violation event.
No errors are defined.
Example 1 Set up a signal handler to run on an alternate stack.
The following example sets up a signal handler for SIGSEGV to run on an alternate signal stack. For each signal it handles, the handler emits a message to indicate if the signal was produced due to a stack boundary violation.
#include <stdlib.h> #include <unistd.h> #include <ucontext.h> #include <signal.h> static void handler(int sig, siginfo_t *sip, void *p) { ucontext_t *ucp = p; const char *str; if (stack_violation(sig, sip, ucp)) str = "stack violation.\en"; else str = "no stack violation.\en"; (void) write(STDERR_FILENO, str, strlen(str)); exit(1); } int main(int argc, char **argv) { struct sigaction sa; stack_t altstack; altstack.ss_size = SIGSTKSZ; altstack.ss_sp = malloc(SIGSTKSZ); altstack.ss_flags = 0; (void) sigaltstack(&altstack, NULL); sa.sa_sigaction = handler; (void) sigfillset(&sa.sa_mask); sa.sa_flags = SA_ONSTACK | SA_SIGINFO; (void) sigaction(SIGSEGV, &sa, NULL); /* * The application is now set up to use stack_violation(3C). */ return (0); }
An application typically uses stack_violation() in a signal handler that has been installed for SIGSEGV using sigaction(2) with the SA_SIGINFO flag set and is configured to run on an alternate signal stack.
See attributes(5) for descriptions of the following attributes:
ATTRIBUTE TYPE | ATTRIBUTE VALUE |
Interface Stability | Evolving |
MT-Level | Async-Signal-Safe |
sigaction(2), sigaltstack(2), stack_getbounds(3C), stack_inbounds(3C), stack_setbounds(3C), attributes(5)