#include #ifdef __sh__ #define signal(a,b) /* Signals not supported on this target - make them go away */ #endif /* Signal handlers, we set breakpoints in them to make sure that the signals really get delivered. */ void handle_ABRT (sig) int sig; { } void handle_HUP (sig) int sig; { } void handle_QUIT (sig) int sig; { } void handle_ILL (sig) int sig; { } void handle_EMT (sig) int sig; { } void handle_FPE (sig) int sig; { } void handle_BUS (sig) int sig; { } void handle_SEGV (sig) int sig; { } void handle_SYS (sig) int sig; { } void handle_PIPE (sig) int sig; { } void handle_ALRM (sig) int sig; { } void handle_URG (sig) int sig; { } void handle_TSTP (sig) int sig; { } void handle_CONT (sig) int sig; { } void handle_CHLD (sig) int sig; { } void handle_TTIN (sig) int sig; { } void handle_TTOU (sig) int sig; { } void handle_IO (sig) int sig; { } void handle_XCPU (sig) int sig; { } void handle_XFSZ (sig) int sig; { } void handle_VTALRM (sig) int sig; { } void handle_PROF (sig) int sig; { } void handle_WINCH (sig) int sig; { } void handle_LOST (sig) int sig; { } void handle_USR1 (sig) int sig; { } void handle_USR2 (sig) int sig; { } void handle_PWR (sig) int sig; { } void handle_POLL (sig) int sig; { } void handle_WIND (sig) int sig; { } void handle_PHONE (sig) int sig; { } void handle_WAITING (sig) int sig; { } void handle_LWP (sig) int sig; { } void handle_DANGER (sig) int sig; { } void handle_GRANT (sig) int sig; { } void handle_RETRACT (sig) int sig; { } void handle_MSG (sig) int sig; { } void handle_SOUND (sig) int sig; { } void handle_SAK (sig) int sig; { } void handle_PRIO (sig) int sig; { } void handle_33 (sig) int sig; { } void handle_34 (sig) int sig; { } void handle_35 (sig) int sig; { } void handle_36 (sig) int sig; { } void handle_37 (sig) int sig; { } void handle_38 (sig) int sig; { } void handle_39 (sig) int sig; { } void handle_40 (sig) int sig; { } void handle_41 (sig) int sig; { } void handle_42 (sig) int sig; { } void handle_43 (sig) int sig; { } void handle_44 (sig) int sig; { } void handle_45 (sig) int sig; { } void handle_46 (sig) int sig; { } void handle_47 (sig) int sig; { } void handle_48 (sig) int sig; { } void handle_49 (sig) int sig; { } void handle_50 (sig) int sig; { } void handle_51 (sig) int sig; { } void handle_52 (sig) int sig; { } void handle_53 (sig) int sig; { } void handle_54 (sig) int sig; { } void handle_55 (sig) int sig; { } void handle_56 (sig) int sig; { } void handle_57 (sig) int sig; { } void handle_58 (sig) int sig; { } void handle_59 (sig) int sig; { } void handle_60 (sig) int sig; { } void handle_61 (sig) int sig; { } void handle_62 (sig) int sig; { } void handle_63 (sig) int sig; { } void handle_TERM (sig) int sig; { } /* Functions to send signals. These also serve as markers. */ int gen_ABRT () { kill (getpid (), SIGABRT); } int gen_HUP () { #ifdef SIGHUP kill (getpid (), SIGHUP); #else handle_HUP (0); #endif } int gen_QUIT () { #ifdef SIGQUIT kill (getpid (), SIGQUIT); #else handle_QUIT (0); #endif } int gen_ILL () { #ifdef SIGILL kill (getpid (), SIGILL); #else handle_ILL (0); #endif } int gen_EMT () { #ifdef SIGEMT kill (getpid (), SIGEMT); #else handle_EMT (0); #endif } int x; int gen_FPE () { /* The intent behind generating SIGFPE this way is to check the mapping from the CPU exception itself to the signals. It would be nice to do the same for SIGBUS, SIGSEGV, etc., but I suspect that even this test might turn out to be insufficiently portable. */ #if 0 /* Loses on the PA because after the signal handler executes we try to re-execute the failing instruction again. Perhaps we could siglongjmp out of the signal handler? */ /* The expect script looks for the word "kill"; don't delete it. */ return 5 / x; /* and we both started jumping up and down yelling kill */ #else kill (getpid (), SIGFPE); #endif } int gen_BUS () { #ifdef SIGBUS kill (getpid (), SIGBUS); #else handle_BUS (0); #endif } int gen_SEGV () { #ifdef SIGSEGV kill (getpid (), SIGSEGV); #else handle_SEGV (0); #endif } int gen_SYS () { #ifdef SIGSYS kill (getpid (), SIGSYS); #else handle_SYS (0); #endif } int gen_PIPE () { #ifdef SIGPIPE kill (getpid (), SIGPIPE); #else handle_PIPE (0); #endif } int gen_ALRM () { #ifdef SIGALRM kill (getpid (), SIGALRM); #else handle_ALRM (0); #endif } int gen_URG () { #ifdef SIGURG kill (getpid (), SIGURG); #else handle_URG (0); #endif } int gen_TSTP () { #ifdef SIGTSTP kill (getpid (), SIGTSTP); #else handle_TSTP (0); #endif } int gen_CONT () { #ifdef SIGCONT kill (getpid (), SIGCONT); #else handle_CONT (0); #endif } int gen_CHLD () { #ifdef SIGCHLD kill (getpid (), SIGCHLD); #else handle_CHLD (0); #endif } int gen_TTIN () { #ifdef SIGTTIN kill (getpid (), SIGTTIN); #else handle_TTIN (0); #endif } int gen_TTOU () { #ifdef SIGTTOU kill (getpid (), SIGTTOU); #else handle_TTOU (0); #endif } int gen_IO () { #ifdef SIGIO kill (getpid (), SIGIO); #else handle_IO (0); #endif } int gen_XCPU () { #ifdef SIGXCPU kill (getpid (), SIGXCPU); #else handle_XCPU (0); #endif } int gen_XFSZ () { #ifdef SIGXFSZ kill (getpid (), SIGXFSZ); #else handle_XFSZ (0); #endif } int gen_VTALRM () { #ifdef SIGVTALRM kill (getpid (), SIGVTALRM); #else handle_VTALRM (0); #endif } int gen_PROF () { #ifdef SIGPROF kill (getpid (), SIGPROF); #else handle_PROF (0); #endif } int gen_WINCH () { #ifdef SIGWINCH kill (getpid (), SIGWINCH); #else handle_WINCH (0); #endif } int gen_LOST () { #if defined(SIGLOST) && (!defined(SIGABRT) || SIGLOST != SIGABRT) kill (getpid (), SIGLOST); #else handle_LOST (0); #endif } int gen_USR1 () { #ifdef SIGUSR1 kill (getpid (), SIGUSR1); #else handle_USR1 (0); #endif } int gen_USR2 () { #ifdef SIGUSR2 kill (getpid (), SIGUSR2); #else handle_USR2 (0); #endif } int gen_PWR () { #ifdef SIGPWR kill (getpid (), SIGPWR); #else handle_PWR (0); #endif } int gen_POLL () { #if defined (SIGPOLL) && (!defined (SIGIO) || SIGPOLL != SIGIO) kill (getpid (), SIGPOLL); #else handle_POLL (0); #endif } int gen_WIND () { #ifdef SIGWIND kill (getpid (), SIGWIND); #else handle_WIND (0); #endif } int gen_PHONE () { #ifdef SIGPHONE kill (getpid (), SIGPHONE); #else handle_PHONE (0); #endif } int gen_WAITING () { #ifdef SIGWAITING kill (getpid (), SIGWAITING); #else handle_WAITING (0); #endif } int gen_LWP () { #ifdef SIGLWP kill (getpid (), SIGLWP); #else handle_LWP (0); #endif } int gen_DANGER () { #ifdef SIGDANGER kill (getpid (), SIGDANGER); #else handle_DANGER (0); #endif } int gen_GRANT () { #ifdef SIGGRANT kill (getpid (), SIGGRANT); #else handle_GRANT (0); #endif } int gen_RETRACT () { #ifdef SIGRETRACT kill (getpid (), SIGRETRACT); #else handle_RETRACT (0); #endif } int gen_MSG () { #ifdef SIGMSG kill (getpid (), SIGMSG); #else handle_MSG (0); #endif } int gen_SOUND () { #ifdef SIGSOUND kill (getpid (), SIGSOUND); #else handle_SOUND (0); #endif } int gen_SAK () { #ifdef SIGSAK kill (getpid (), SIGSAK); #else handle_SAK (0); #endif } int gen_PRIO () { #ifdef SIGPRIO kill (getpid (), SIGPRIO); #else handle_PRIO (0); #endif } int gen_33 () { #ifdef SIG33 kill (getpid (), 33); #else handle_33 (0); #endif } int gen_34 () { #ifdef SIG34 kill (getpid (), 34); #else handle_34 (0); #endif } int gen_35 () { #ifdef SIG35 kill (getpid (), 35); #else handle_35 (0); #endif } int gen_36 () { #ifdef SIG36 kill (getpid (), 36); #else handle_36 (0); #endif } int gen_37 () { #ifdef SIG37 kill (getpid (), 37); #else handle_37 (0); #endif } int gen_38 () { #ifdef SIG38 kill (getpid (), 38); #else handle_38 (0); #endif } int gen_39 () { #ifdef SIG39 kill (getpid (), 39); #else handle_39 (0); #endif } int gen_40 () { #ifdef SIG40 kill (getpid (), 40); #else handle_40 (0); #endif } int gen_41 () { #ifdef SIG41 kill (getpid (), 41); #else handle_41 (0); #endif } int gen_42 () { #ifdef SIG42 kill (getpid (), 42); #else handle_42 (0); #endif } int gen_43 () { #ifdef SIG43 kill (getpid (), 43); #else handle_43 (0); #endif } int gen_44 () { #ifdef SIG44 kill (getpid (), 44); #else handle_44 (0); #endif } int gen_45 () { #ifdef SIG45 kill (getpid (), 45); #else handle_45 (0); #endif } int gen_46 () { #ifdef SIG46 kill (getpid (), 46); #else handle_46 (0); #endif } int gen_47 () { #ifdef SIG47 kill (getpid (), 47); #else handle_47 (0); #endif } int gen_48 () { #ifdef SIG48 kill (getpid (), 48); #else handle_48 (0); #endif } int gen_49 () { #ifdef SIG49 kill (getpid (), 49); #else handle_49 (0); #endif } int gen_50 () { #ifdef SIG50 kill (getpid (), 50); #else handle_50 (0); #endif } int gen_51 () { #ifdef SIG51 kill (getpid (), 51); #else handle_51 (0); #endif } int gen_52 () { #ifdef SIG52 kill (getpid (), 52); #else handle_52 (0); #endif } int gen_53 () { #ifdef SIG53 kill (getpid (), 53); #else handle_53 (0); #endif } int gen_54 () { #ifdef SIG54 kill (getpid (), 54); #else handle_54 (0); #endif } int gen_55 () { #ifdef SIG55 kill (getpid (), 55); #else handle_55 (0); #endif } int gen_56 () { #ifdef SIG56 kill (getpid (), 56); #else handle_56 (0); #endif } int gen_57 () { #ifdef SIG57 kill (getpid (), 57); #else handle_57 (0); #endif } int gen_58 () { #ifdef SIG58 kill (getpid (), 58); #else handle_58 (0); #endif } int gen_59 () { #ifdef SIG59 kill (getpid (), 59); #else handle_59 (0); #endif } int gen_60 () { #ifdef SIG60 kill (getpid (), 60); #else handle_60 (0); #endif } int gen_61 () { #ifdef SIG61 kill (getpid (), 61); #else handle_61 (0); #endif } int gen_62 () { #ifdef SIG62 kill (getpid (), 62); #else handle_62 (0); #endif } int gen_63 () { #ifdef SIG63 kill (getpid (), 63); #else handle_63 (0); #endif } int gen_TERM () { kill (getpid (), SIGTERM); } int main () { #ifdef usestubs set_debug_traps (); breakpoint (); #endif signal (SIGABRT, handle_ABRT); #ifdef SIGHUP signal (SIGHUP, handle_HUP); #endif #ifdef SIGQUIT signal (SIGQUIT, handle_QUIT); #endif #ifdef SIGILL signal (SIGILL, handle_ILL); #endif #ifdef SIGEMT signal (SIGEMT, handle_EMT); #endif #ifdef SIGFPE signal (SIGFPE, handle_FPE); #endif #ifdef SIGBUS signal (SIGBUS, handle_BUS); #endif #ifdef SIGSEGV signal (SIGSEGV, handle_SEGV); #endif #ifdef SIGSYS signal (SIGSYS, handle_SYS); #endif #ifdef SIGPIPE signal (SIGPIPE, handle_PIPE); #endif #ifdef SIGALRM signal (SIGALRM, handle_ALRM); #endif #ifdef SIGURG signal (SIGURG, handle_URG); #endif #ifdef SIGTSTP signal (SIGTSTP, handle_TSTP); #endif #ifdef SIGCONT signal (SIGCONT, handle_CONT); #endif #ifdef SIGCHLD signal (SIGCHLD, handle_CHLD); #endif #ifdef SIGTTIN signal (SIGTTIN, handle_TTIN); #endif #ifdef SIGTTOU signal (SIGTTOU, handle_TTOU); #endif #ifdef SIGIO signal (SIGIO, handle_IO); #endif #ifdef SIGXCPU signal (SIGXCPU, handle_XCPU); #endif #ifdef SIGXFSZ signal (SIGXFSZ, handle_XFSZ); #endif #ifdef SIGVTALRM signal (SIGVTALRM, handle_VTALRM); #endif #ifdef SIGPROF signal (SIGPROF, handle_PROF); #endif #ifdef SIGWINCH signal (SIGWINCH, handle_WINCH); #endif #if defined(SIGLOST) && (!defined(SIGABRT) || SIGLOST != SIGABRT) signal (SIGLOST, handle_LOST); #endif #ifdef SIGUSR1 signal (SIGUSR1, handle_USR1); #endif #ifdef SIGUSR2 signal (SIGUSR2, handle_USR2); #endif #ifdef SIGPWR signal (SIGPWR, handle_PWR); #endif #if defined (SIGPOLL) && (!defined (SIGIO) || SIGPOLL != SIGIO) signal (SIGPOLL, handle_POLL); #endif #ifdef SIGWIND signal (SIGWIND, handle_WIND); #endif #ifdef SIGPHONE signal (SIGPHONE, handle_PHONE); #endif #ifdef SIGWAITING signal (SIGWAITING, handle_WAITING); #endif #ifdef SIGLWP signal (SIGLWP, handle_LWP); #endif #ifdef SIGDANGER signal (SIGDANGER, handle_DANGER); #endif #ifdef SIGGRANT signal (SIGGRANT, handle_GRANT); #endif #ifdef SIGRETRACT signal (SIGRETRACT, handle_RETRACT); #endif #ifdef SIGMSG signal (SIGMSG, handle_MSG); #endif #ifdef SIGSOUND signal (SIGSOUND, handle_SOUND); #endif #ifdef SIGSAK signal (SIGSAK, handle_SAK); #endif #ifdef SIGPRIO signal (SIGPRIO, handle_PRIO); #endif #ifdef __Lynx__ /* Lynx doesn't seem to have anything in signal.h for this. */ signal (33, handle_33); signal (34, handle_34); signal (35, handle_35); signal (36, handle_36); signal (37, handle_37); signal (38, handle_38); signal (39, handle_39); signal (40, handle_40); signal (41, handle_41); signal (42, handle_42); signal (43, handle_43); signal (44, handle_44); signal (45, handle_45); signal (46, handle_46); signal (47, handle_47); signal (48, handle_48); signal (49, handle_49); signal (50, handle_50); signal (51, handle_51); signal (52, handle_52); signal (53, handle_53); signal (54, handle_54); signal (55, handle_55); signal (56, handle_56); signal (57, handle_57); signal (58, handle_58); signal (59, handle_59); signal (60, handle_60); signal (61, handle_61); signal (62, handle_62); signal (63, handle_63); #endif /* lynx */ signal (SIGTERM, handle_TERM); x = 0; gen_ABRT (); gen_HUP (); gen_QUIT (); gen_ILL (); gen_EMT (); gen_FPE (); gen_BUS (); gen_SEGV (); gen_SYS (); gen_PIPE (); gen_ALRM (); gen_URG (); gen_TSTP (); gen_CONT (); gen_CHLD (); gen_TTIN (); gen_TTOU (); gen_IO (); gen_XCPU (); gen_XFSZ (); gen_VTALRM (); gen_PROF (); gen_WINCH (); gen_LOST (); gen_USR1 (); gen_USR2 (); gen_PWR (); gen_POLL (); gen_WIND (); gen_PHONE (); gen_WAITING (); gen_LWP (); gen_DANGER (); gen_GRANT (); gen_RETRACT (); gen_MSG (); gen_SOUND (); gen_SAK (); gen_PRIO (); gen_33 (); gen_34 (); gen_35 (); gen_36 (); gen_37 (); gen_38 (); gen_39 (); gen_40 (); gen_41 (); gen_42 (); gen_43 (); gen_44 (); gen_45 (); gen_46 (); gen_47 (); gen_48 (); gen_49 (); gen_50 (); gen_51 (); gen_52 (); gen_53 (); gen_54 (); gen_55 (); gen_56 (); gen_57 (); gen_58 (); gen_59 (); gen_60 (); gen_61 (); gen_62 (); gen_63 (); gen_TERM (); return 0; }