/* test 37 - signals */ #include #include #include #include #include #include #include #include #include #define ITERATIONS 2 #define SIGS 14 #define MAX_ERROR 4 #include "common.c" int iteration, cumsig, sig1, sig2; int sigarray[SIGS] = {SIGHUP, SIGILL, SIGTRAP, SIGABRT, SIGIOT, SIGFPE, SIGUSR1, SIGSEGV, SIGUSR2, SIGPIPE, SIGALRM, SIGTERM}; /* Prototypes produced automatically by mkptypes. */ _PROTOTYPE(int main, (int argc, char *argv [])); _PROTOTYPE(void test37a, (void)); _PROTOTYPE(void func1, (int sig)); _PROTOTYPE(void func2, (int sig)); _PROTOTYPE(void test37b, (void)); _PROTOTYPE(void catch1, (int signo)); _PROTOTYPE(void catch2, (int signo)); _PROTOTYPE(void test37c, (void)); _PROTOTYPE(void catch3, (int signo)); _PROTOTYPE(void test37d, (void)); _PROTOTYPE(void catch4, (int signo)); _PROTOTYPE(void test37e, (void)); _PROTOTYPE(void catch5, (int signo)); _PROTOTYPE(void test37f, (void)); _PROTOTYPE(void sigint_handler, (int signo)); _PROTOTYPE(void sigpipe_handler, (int signo)); _PROTOTYPE(void test37g, (void)); _PROTOTYPE(void sighup8, (int signo)); _PROTOTYPE(void sigpip8, (int signo)); _PROTOTYPE(void sigter8, (int signo)); _PROTOTYPE(void test37h, (void)); _PROTOTYPE(void sighup9, (int signo)); _PROTOTYPE(void sigter9, (int signo)); _PROTOTYPE(void test37i, (void)); _PROTOTYPE(void sighup10, (int signo)); _PROTOTYPE(void sigalrm_handler10, (int signo)); _PROTOTYPE(void test37j, (void)); _PROTOTYPE(void test37k, (void)); _PROTOTYPE(void test37l, (void)); _PROTOTYPE(void func_m1, (void)); _PROTOTYPE(void func_m2, (void)); _PROTOTYPE(void test37m, (void)); _PROTOTYPE(void test37p, (void)); _PROTOTYPE(void test37q, (void)); _PROTOTYPE(void longjerr, (void)); _PROTOTYPE(void catch14, (int signo, int code, struct sigcontext * scp)); _PROTOTYPE(void test37n, (void)); _PROTOTYPE(void catch15, (int signo)); _PROTOTYPE(void test37o, (void)); _PROTOTYPE(void clearsigstate, (void)); _PROTOTYPE(void wait_for, (int pid)); int main(argc, argv) int argc; char *argv[]; { int i, m = 0377777; sync(); start(37); if (argc == 2) m = atoi(argv[1]); for (i = 0; i < ITERATIONS; i++) { iteration = i; if (m & 0000001) test37a(); if (m & 0000002) test37b(); if (m & 0000004) test37c(); if (m & 0000010) test37d(); if (m & 0000020) test37e(); if (m & 0000040) test37f(); if (m & 0000100) test37g(); if (m & 0000200) test37h(); if (m & 0000400) test37i(); if (m & 0001000) test37j(); if (m & 0002000) test37k(); if (m & 0004000) test37l(); if (m & 0010000) test37m(); if (m & 0020000) test37n(); if (m & 0040000) test37o(); if (m & 0100000) test37p(); if (m & 0200000) test37q(); } quit(); return(-1); /* Unreachable */ } void test37a() { /* Test signal set management. */ sigset_t s; subtest = 1; clearsigstate(); /* Create an empty set and see if any bits are on. */ if (sigemptyset(&s) != 0) e(1); if (sigismember(&s, SIGHUP) != 0) e(2); if (sigismember(&s, SIGINT) != 0) e(3); if (sigismember(&s, SIGQUIT) != 0) e(4); if (sigismember(&s, SIGILL) != 0) e(5); if (sigismember(&s, SIGTRAP) != 0) e(6); if (sigismember(&s, SIGABRT) != 0) e(7); if (sigismember(&s, SIGIOT) != 0) e(8); if (sigismember(&s, SIGFPE) != 0) e(10); if (sigismember(&s, SIGKILL) != 0) e(11); if (sigismember(&s, SIGUSR1) != 0) e(12); if (sigismember(&s, SIGSEGV) != 0) e(13); if (sigismember(&s, SIGUSR2) != 0) e(14); if (sigismember(&s, SIGPIPE) != 0) e(15); if (sigismember(&s, SIGALRM) != 0) e(16); if (sigismember(&s, SIGTERM) != 0) e(17); /* Create a full set and see if any bits are off. */ if (sigfillset(&s) != 0) e(19); if (sigemptyset(&s) != 0) e(20); if (sigfillset(&s) != 0) e(21); if (sigismember(&s, SIGHUP) != 1) e(22); if (sigismember(&s, SIGINT) != 1) e(23); if (sigismember(&s, SIGQUIT) != 1) e(24); if (sigismember(&s, SIGILL) != 1) e(25); if (sigismember(&s, SIGTRAP) != 1) e(26); if (sigismember(&s, SIGABRT) != 1) e(27); if (sigismember(&s, SIGIOT) != 1) e(28); if (sigismember(&s, SIGFPE) != 1) e(30); if (sigismember(&s, SIGKILL) != 1) e(31); if (sigismember(&s, SIGUSR1) != 1) e(32); if (sigismember(&s, SIGSEGV) != 1) e(33); if (sigismember(&s, SIGUSR2) != 1) e(34); if (sigismember(&s, SIGPIPE) != 1) e(35); if (sigismember(&s, SIGALRM) != 1) e(36); if (sigismember(&s, SIGTERM) != 1) e(37); /* Create an empty set, then turn on bits individually. */ if (sigemptyset(&s) != 0) e(39); if (sigaddset(&s, SIGHUP) != 0) e(40); if (sigaddset(&s, SIGINT) != 0) e(41); if (sigaddset(&s, SIGQUIT) != 0) e(42); if (sigaddset(&s, SIGILL) != 0) e(43); if (sigaddset(&s, SIGTRAP) != 0) e(44); /* See if the bits just turned on are indeed on. */ if (sigismember(&s, SIGHUP) != 1) e(45); if (sigismember(&s, SIGINT) != 1) e(46); if (sigismember(&s, SIGQUIT) != 1) e(47); if (sigismember(&s, SIGILL) != 1) e(48); if (sigismember(&s, SIGTRAP) != 1) e(49); /* The others should be turned off. */ if (sigismember(&s, SIGABRT) != 0) e(50); if (sigismember(&s, SIGIOT) != 0) e(51); if (sigismember(&s, SIGFPE) != 0) e(53); if (sigismember(&s, SIGKILL) != 0) e(54); if (sigismember(&s, SIGUSR1) != 0) e(55); if (sigismember(&s, SIGSEGV) != 0) e(56); if (sigismember(&s, SIGUSR2) != 0) e(57); if (sigismember(&s, SIGPIPE) != 0) e(58); if (sigismember(&s, SIGALRM) != 0) e(59); if (sigismember(&s, SIGTERM) != 0) e(60); /* Now turn them off and see if all are off. */ if (sigdelset(&s, SIGHUP) != 0) e(62); if (sigdelset(&s, SIGINT) != 0) e(63); if (sigdelset(&s, SIGQUIT) != 0) e(64); if (sigdelset(&s, SIGILL) != 0) e(65); if (sigdelset(&s, SIGTRAP) != 0) e(66); if (sigismember(&s, SIGHUP) != 0) e(67); if (sigismember(&s, SIGINT) != 0) e(68); if (sigismember(&s, SIGQUIT) != 0) e(69); if (sigismember(&s, SIGILL) != 0) e(70); if (sigismember(&s, SIGTRAP) != 0) e(71); if (sigismember(&s, SIGABRT) != 0) e(72); if (sigismember(&s, SIGIOT) != 0) e(73); if (sigismember(&s, SIGFPE) != 0) e(75); if (sigismember(&s, SIGKILL) != 0) e(76); if (sigismember(&s, SIGUSR1) != 0) e(77); if (sigismember(&s, SIGSEGV) != 0) e(78); if (sigismember(&s, SIGUSR2) != 0) e(79); if (sigismember(&s, SIGPIPE) != 0) e(80); if (sigismember(&s, SIGALRM) != 0) e(81); if (sigismember(&s, SIGTERM) != 0) e(82); } void func1(sig) int sig; { sig1++; } void func2(sig) int sig; { sig2++; } void test37b() { /* Test sigprocmask and sigpending. */ int i; pid_t p; sigset_t s, s1, s_empty, s_full, s_ill, s_ill_pip, s_nokill, s_nokill_stop; struct sigaction sa, osa; subtest = 2; clearsigstate(); /* Construct s_ill = {SIGILL} and s_ill_pip {SIGILL | SIGPIP}, etc. */ if (sigemptyset(&s_empty) != 0) e(1); if (sigemptyset(&s_ill) != 0) e(2); if (sigemptyset(&s_ill_pip) != 0) e(3); if (sigaddset(&s_ill, SIGILL) != 0) e(4); if (sigaddset(&s_ill_pip, SIGILL) != 0) e(5); if (sigaddset(&s_ill_pip, SIGPIPE) != 0) e(6); if (sigfillset(&s_full) != 0) e(7); s_nokill = s_full; if (sigdelset(&s_nokill, SIGKILL) != 0) e(8); s_nokill_stop = s_nokill; if (sigdelset(&s_nokill_stop, SIGSTOP) != 0) e(8); if (SIGSTOP >= _NSIG) e(666); if (SIGSTOP < _NSIG && sigdelset(&s_nokill, SIGSTOP) != 0) e(888); /* Now get most of the signals into default state. Don't change SIGINT * or SIGQUIT, so this program can be killed. SIGKILL is also special. */ sa.sa_handler = SIG_DFL; sa.sa_mask = s_empty; sa.sa_flags = 0; for (i = 0; i < SIGS; i++) sigaction(i, &sa, &osa); /* The second argument may be zero. See if it wipes out the system. */ for (i = 0; i < SIGS; i++) sigaction(i, (struct sigaction *) NULL, &osa); /* Install a signal handler. */ sa.sa_handler = func1; sa.sa_mask = s_ill; sa.sa_flags = SA_NODEFER | SA_NOCLDSTOP; osa.sa_handler = SIG_IGN; osa.sa_mask = s_empty; osa.sa_flags = 0; if (sigaction(SIGHUP, &sa, &osa) != 0) e(9); if (osa.sa_handler != SIG_DFL) e(10); if (osa.sa_mask != 0) e(11); if (osa.sa_flags != s_empty) e(12); /* Replace action and see if old value is read back correctly. */ sa.sa_handler = func2; sa.sa_mask = s_ill_pip; sa.sa_flags = SA_RESETHAND | SA_NODEFER; osa.sa_handler = SIG_IGN; osa.sa_mask = s_empty; osa.sa_flags = 0; if (sigaction(SIGHUP, &sa, &osa) != 0) e(13); if (osa.sa_handler != func1) e(14); if (osa.sa_mask != s_ill) e(15); if (osa.sa_flags != SA_NODEFER && osa.sa_flags != (SA_NODEFER | SA_NOCLDSTOP)) e(16); /* Replace action once more and check what is read back. */ sa.sa_handler = SIG_DFL; sa.sa_mask = s_empty; osa.sa_handler = SIG_IGN; osa.sa_mask = s_empty; osa.sa_flags = 0; if (sigaction(SIGHUP, &sa, &osa) != 0) e(17); if (osa.sa_handler != func2) e(18); if (osa.sa_mask != s_ill_pip) e(19); if (osa.sa_flags != (SA_RESETHAND | SA_NODEFER)) e(20); /* Test sigprocmask(SIG_SETMASK, ...). */ if (sigprocmask(SIG_SETMASK, &s_full, &s1) != 0) e(18); /* block all */ if (sigemptyset(&s1) != 0) e(19); errno = 0; if (sigprocmask(SIG_SETMASK, &s_empty, &s1) != 0) e(20); /* block none */ if (s1 != s_nokill_stop) e(21); if (sigprocmask(SIG_SETMASK, &s_ill, &s1) != 0) e(22); /* block SIGILL */ errno = 0; if (s1 != s_empty) e(23); if (sigprocmask(SIG_SETMASK, &s_ill_pip, &s1) != 0) e(24); /* SIGILL+PIP */ if (s1 != s_ill) e(25); if (sigprocmask(SIG_SETMASK, &s_full, &s1) != 0) e(26); /* block all */ if (s1 != s_ill_pip) e(27); /* Test sigprocmask(SIG_UNBLOCK, ...) */ if (sigprocmask(SIG_UNBLOCK, &s_ill, &s1) != 0) e(28); if (s1 != s_nokill_stop) e(29); if (sigprocmask(SIG_UNBLOCK, &s_ill_pip, &s1) != 0) e(30); s = s_nokill_stop; if (sigdelset(&s, SIGILL) != 0) e(31); if (s != s1) e(32); if (sigprocmask(SIG_UNBLOCK, &s_empty, &s1) != 0) e(33); s = s_nokill_stop; if (sigdelset(&s, SIGILL) != 0) e(34); if (sigdelset(&s, SIGPIPE) != 0) e(35); if (s != s1) e(36); s1 = s_nokill_stop; if (sigprocmask(SIG_SETMASK, &s_empty, &s1) != 0) e(37); if (s != s1) e(38); /* Test sigprocmask(SIG_BLOCK, ...) */ if (sigprocmask(SIG_BLOCK, &s_ill, &s1) != 0) e(39); if (s1 != s_empty) e(40); if (sigprocmask(SIG_BLOCK, &s_ill_pip, &s1) != 0) e(41); if (s1 != s_ill) e(42); if (sigprocmask(SIG_SETMASK, &s_full, &s1) != 0) e(43); if (s1 != s_ill_pip) e(44); /* Check error condition. */ errno = 0; if (sigprocmask(20000, &s_full, &s1) != -1) e(45); if (errno != EINVAL) e(46); if (sigprocmask(SIG_SETMASK, &s_full, &s1) != 0) e(47); if (s1 != s_nokill_stop) e(48); /* If second arg is 0, nothing is set. */ if (sigprocmask(SIG_SETMASK, (sigset_t *) NULL, &s1) != 0) e(49); if (s1 != s_nokill_stop) e(50); if (sigprocmask(SIG_SETMASK, &s_ill_pip, &s1) != 0) e(51); if (s1 != s_nokill_stop) e(52); if (sigprocmask(SIG_SETMASK, (sigset_t *) NULL, &s1) != 0) e(53); if (s1 != s_ill_pip) e(54); if (sigprocmask(SIG_BLOCK, (sigset_t *) NULL, &s1) != 0) e(55); if (s1 != s_ill_pip) e(56); if (sigprocmask(SIG_UNBLOCK, (sigset_t *) NULL, &s1) != 0) e(57); if (s1 != s_ill_pip) e(58); /* Trying to block SIGKILL is not allowed, but is not an error, either. */ s = s_empty; if (sigaddset(&s, SIGKILL) != 0) e(59); if (sigprocmask(SIG_BLOCK, &s, &s1) != 0) e(60); if (s1 != s_ill_pip) e(61); if (sigprocmask(SIG_SETMASK, &s_full, &s1) != 0) e(62); if (s1 != s_ill_pip) e(63); /* Test sigpending. At this moment, all signals are blocked. */ sa.sa_handler = func2; sa.sa_mask = s_empty; if (sigaction(SIGHUP, &sa, &osa) != 0) e(64); p = getpid(); kill(p, SIGHUP); /* send SIGHUP to self */ if (sigpending(&s) != 0) e(65); if (sigemptyset(&s1) != 0) e(66); if (sigaddset(&s1, SIGHUP) != 0) e(67); if (s != s1) e(68); sa.sa_handler = SIG_IGN; if (sigaction(SIGHUP, &sa, &osa) != 0) e(69); if (sigpending(&s) != 0) e(70); if (s != s_empty) e(71); } /*---------------------------------------------------------------------------*/ int x; sigset_t glo_vol_set; void catch1(signo) int signo; { x = 42; } void catch2(signo) int signo; { if (sigprocmask(SIG_BLOCK, (sigset_t *)NULL, (sigset_t *) &glo_vol_set) != 0) e(1); } /* Verify that signal(2), which is now built on top of sigaction(2), still * works. */ void test37c() { pid_t pid; sigset_t sigset_var; subtest = 3; clearsigstate(); x = 0; /* Verify an installed signal handler persists across a fork(2). */ if (signal(SIGTERM, catch1) == SIG_ERR) e(1); switch (pid = fork()) { case 0: /* child */ errct = 0; while (x == 0); if (x != 42) e(2); exit(errct == 0 ? 0 : 1); case -1: e(3); break; default: /* parent */ sleep(1); if (kill(pid, SIGTERM) != 0) e(4); wait_for(pid); break; } /* Verify that the return value is the previous handler. */ signal(SIGINT, SIG_IGN); if (signal(SIGINT, catch2) != SIG_IGN) e(5); if (signal(SIGINT, catch1) != catch2) e(6); if (signal(SIGINT, SIG_DFL) != catch1) e(7); if (signal(SIGINT, catch1) != SIG_DFL) e(8); if (signal(SIGINT, SIG_DFL) != catch1) e(9); if (signal(SIGINT, SIG_DFL) != SIG_DFL) e(10); if (signal(SIGINT, catch1) != SIG_DFL) e(11); /* Verify that SIG_ERR is correctly generated. */ if (signal(_NSIG, catch1) != SIG_ERR) e(12); if (signal(0, catch1) != SIG_ERR) e(13); if (signal(-1, SIG_DFL) != SIG_ERR) e(14); /* Verify that caught signals are automatically reset to the default, * and that further instances of the same signal are not blocked here * or in the signal handler. */ if (signal(SIGTERM, catch1) == SIG_ERR) e(15); switch ((pid = fork())) { case 0: /* child */ errct = 0; while (x == 0); if (x != 42) e(16); if (sigismember((sigset_t *) &glo_vol_set, SIGTERM)) e(17); if (sigprocmask(SIG_BLOCK, (sigset_t *)NULL, &sigset_var) != 0) e(18); if (sigismember(&sigset_var, SIGTERM)) e(19); #if 0 /* Use this if you have compiled signal() to have the broken SYSV behaviour. */ if (signal(SIGTERM, catch1) != SIG_DFL) e(20); #else if (signal(SIGTERM, catch1) != catch1) e(20); #endif exit(errct == 0 ? 0 : 1); default: /* parent */ sleep(1); if (kill(pid, SIGTERM) != 0) e(21); wait_for(pid); break; case -1: e(22); break; } } /*---------------------------------------------------------------------------*/ /* Test that the signal handler can be invoked recursively with the * state being properly saved and restored. */ static int y; static int z; void catch3(signo) int signo; { if (z == 1) { /* catching a nested signal */ y = 2; return; } z = 1; if (kill(getpid(), SIGHUP) != 0) e(1); while (y != 2); y = 1; } void test37d() { struct sigaction act; subtest = 4; clearsigstate(); y = 0; z = 0; act.sa_handler = catch3; act.sa_mask = 0; act.sa_flags = SA_NODEFER; /* Otherwise, nested occurence of * SIGINT is blocked. */ if (sigaction(SIGHUP, &act, (struct sigaction *) NULL) != 0) e(2); if (kill(getpid(), SIGHUP) != 0) e(3); if (y != 1) e(4); } /*---------------------------------------------------------------------------*/ /* Test that the signal mask in effect for the duration of a signal handler * is as specified in POSIX Section 3, lines 718 -724. Test that the * previous signal mask is restored when the signal handler returns. */ void catch4(signo) int signo; { sigset_t oset; sigset_t set; if (sigemptyset(&set) == -1) e(5001); if (sigaddset(&set, SIGTERM) == -1) e(5002); if (sigaddset(&set, SIGHUP) == -1) e(5003); if (sigaddset(&set, SIGINT) == -1) e(5004); if (sigaddset(&set, SIGPIPE) == -1) e(5005); if (sigprocmask(SIG_BLOCK, (sigset_t *)NULL, &oset) != 0) e(5006); if (oset != set) e(5007); } void test37e() { struct sigaction act, oact; sigset_t set, oset; subtest = 5; clearsigstate(); act.sa_handler = catch4; sigemptyset(&act.sa_mask); sigaddset(&act.sa_mask, SIGTERM); sigaddset(&act.sa_mask, SIGHUP); act.sa_flags = 0; if (sigaction(SIGINT, &act, &oact) == -1) e(2); if (sigemptyset(&set) == -1) e(3); if (sigaddset(&set, SIGPIPE) == -1) e(4); if (sigprocmask(SIG_SETMASK, &set, &oset) == -1) e(5); if (kill(getpid(), SIGINT) == -1) e(6); if (sigprocmask(SIG_BLOCK, (sigset_t *)NULL, &oset) == -1) e(7); if (sigemptyset(&set) == -1) e(8); if (sigaddset(&set, SIGPIPE) == -1) e(9); if (set != oset) e(10); } /*---------------------------------------------------------------------------*/ /* Test the basic functionality of sigsuspend(2). */ void catch5(signo) int signo; { x = 1; } void test37f() { sigset_t set; int r; struct sigaction act; pid_t pid; subtest = 6; clearsigstate(); switch (pid = fork()) { case 0: /* child */ errct = 0; sleep(1); if (kill(getppid(), SIGINT) == -1) e(1); exit(errct == 0 ? 0 : 1); case -1: e(2); break; default: /* parent */ if (sigemptyset(&act.sa_mask) == -1) e(3); act.sa_flags = 0; act.sa_handler = catch5; if (sigaction(SIGINT, &act, (struct sigaction *) NULL) == -1) e(4); if (sigemptyset(&set) == -1) e(5); r = sigsuspend(&set); if (r != -1 || errno != EINTR || x != 1) e(6); wait_for(pid); break; } } /*----------------------------------------------------------------------*/ /* Test that sigsuspend() does block the signals specified in its * argument, and after sigsuspend returns, the previous signal * mask is restored. * * The child sends two signals to the parent SIGINT and then SIGPIPE, * separated by a long delay. The parent executes sigsuspend() with * SIGINT blocked. It is expected that the parent's SIGPIPE handler * will be invoked, then sigsuspend will return restoring the * original signal mask, and then the SIGPIPE handler will be * invoked. */ void sigint_handler(signo) int signo; { x = 1; z++; } void sigpipe_handler(signo) int signo; { x = 2; z++; } void test37g() { sigset_t set; int r; struct sigaction act; pid_t pid; subtest = 7; clearsigstate(); x = 0; z = 0; switch (pid = fork()) { case 0: /* child */ errct = 0; sleep(1); if (kill(getppid(), SIGINT) == -1) e(1); sleep(1); if (kill(getppid(), SIGPIPE) == -1) e(2); exit(errct == 0 ? 0 : 1); case -1: e(3); break; default: /* parent */ if (sigemptyset(&act.sa_mask) == -1) e(3); act.sa_flags = 0; act.sa_handler = sigint_handler; if (sigaction(SIGINT, &act, (struct sigaction *) NULL) == -1) e(4); act.sa_handler = sigpipe_handler; if (sigaction(SIGPIPE, &act, (struct sigaction *) NULL) == -1) e(5); if (sigemptyset(&set) == -1) e(6); if (sigaddset(&set, SIGINT) == -1) e(7); r = sigsuspend(&set); if (r != -1) e(8); if (errno != EINTR) e(9); if (z != 2) e(10); if (x != 1) e(11); wait_for(pid); break; } } /*--------------------------------------------------------------------------*/ /* Test that sigsuspend() does block the signals specified in its * argument, and after sigsuspend returns, the previous signal * mask is restored. * * The child sends three signals to the parent: SIGHUP, then SIGPIPE, * and then SIGTERM, separated by a long delay. The parent executes * sigsuspend() with SIGHUP and SIGPIPE blocked. It is expected that * the parent's SIGTERM handler will be invoked first, then sigsuspend() * will return restoring the original signal mask, and then the other * two handlers will be invoked. */ void sighup8(signo) int signo; { x = 1; z++; } void sigpip8(signo) int signo; { x = 1; z++; } void sigter8(signo) int signo; { x = 2; z++; } void test37h() { sigset_t set; int r; struct sigaction act; pid_t pid; subtest = 8; clearsigstate(); x = 0; z = 0; switch (pid = fork()) { case 0: /* child */ errct = 0; sleep(1); if (kill(getppid(), SIGHUP) == -1) e(1); sleep(1); if (kill(getppid(), SIGPIPE) == -1) e(2); sleep(1); if (kill(getppid(), SIGTERM) == -1) e(3); exit(errct == 0 ? 0 : 1); case -1: e(5); break; default: /* parent */ if (sigemptyset(&act.sa_mask) == -1) e(6); act.sa_flags = 0; act.sa_handler = sighup8; if (sigaction(SIGHUP, &act, (struct sigaction *) NULL) == -1) e(7); act.sa_handler = sigpip8; if (sigaction(SIGPIPE, &act, (struct sigaction *) NULL) == -1) e(8); act.sa_handler = sigter8; if (sigaction(SIGTERM, &act, (struct sigaction *) NULL) == -1) e(9); if (sigemptyset(&set) == -1) e(10); if (sigaddset(&set, SIGHUP) == -1) e(11); if (sigaddset(&set, SIGPIPE) == -1) e(12); r = sigsuspend(&set); if (r != -1) e(13); if (errno != EINTR) e(14); if (z != 3) e(15); if (x != 1) e(16); wait_for(pid); break; } } /*--------------------------------------------------------------------------*/ /* Block SIGHUP and SIGTERM with sigprocmask(), send ourself SIGHUP * and SIGTERM, unblock these signals with sigprocmask, and verify * that these signals are delivered. */ void sighup9(signo) int signo; { y++; } void sigter9(signo) int signo; { z++; } void test37i() { sigset_t set; struct sigaction act; subtest = 9; clearsigstate(); y = 0; z = 0; if (sigemptyset(&act.sa_mask) == -1) e(1); act.sa_flags = 0; act.sa_handler = sighup9; if (sigaction(SIGHUP, &act, (struct sigaction *) NULL) == -1) e(2); act.sa_handler = sigter9; if (sigaction(SIGTERM, &act, (struct sigaction *) NULL) == -1) e(3); if (sigemptyset(&set) == -1) e(4); if (sigaddset(&set, SIGTERM) == -1) e(5); if (sigaddset(&set, SIGHUP) == -1) e(6); if (sigprocmask(SIG_SETMASK, &set, (sigset_t *)NULL) == -1) e(7); if (kill(getpid(), SIGHUP) == -1) e(8); if (kill(getpid(), SIGTERM) == -1) e(9); if (y != 0) e(10); if (z != 0) e(11); if (sigemptyset(&set) == -1) e(12); if (sigprocmask(SIG_SETMASK, &set, (sigset_t *)NULL) == -1) e(12); if (y != 1) e(13); if (z != 1) e(14); } /*---------------------------------------------------------------------------*/ /* Block SIGINT and then send this signal to ourself. * * Install signal handlers for SIGALRM and SIGINT. * * Set an alarm for 6 seconds, then sleep for 7. * * The SIGALRM should interrupt the sleep, but the SIGINT * should remain pending. */ void sighup10(signo) int signo; { y++; } void sigalrm_handler10(signo) int signo; { z++; } void test37j() { sigset_t set, set2; struct sigaction act; subtest = 10; clearsigstate(); y = 0; z = 0; if (sigemptyset(&act.sa_mask) == -1) e(1); act.sa_flags = 0; act.sa_handler = sighup10; if (sigaction(SIGHUP, &act, (struct sigaction *) NULL) == -1) e(2); act.sa_handler = sigalrm_handler10; if (sigaction(SIGALRM, &act, (struct sigaction *) NULL) == -1) e(3); if (sigemptyset(&set) == -1) e(4); if (sigaddset(&set, SIGHUP) == -1) e(5); if (sigprocmask(SIG_SETMASK, &set, (sigset_t *)NULL) == -1) e(6); if (kill(getpid(), SIGHUP) == -1) e(7); if (sigpending(&set) == -1) e(8); if (sigemptyset(&set2) == -1) e(9); if (sigaddset(&set2, SIGHUP) == -1) e(10); if (set2 != set) e(11); alarm(6); sleep(7); if (sigpending(&set) == -1) e(12); if (set != set2) e(13); if (y != 0) e(14); if (z != 1) e(15); } /*--------------------------------------------------------------------------*/ void test37k() { subtest = 11; } void test37l() { subtest = 12; } /*---------------------------------------------------------------------------*/ /* Basic test for setjmp/longjmp. This includes testing that the * signal mask is properly restored. */ #define TEST_SETJMP(_name, _subtest, _type, _setjmp, _longjmp, _save) \ void _name(void) \ { \ _type jb; \ sigset_t ss, ssexp; \ \ subtest = _subtest; \ clearsigstate(); \ \ ss = 0x32; \ if (sigprocmask(SIG_SETMASK, &ss, (sigset_t *)NULL) == -1) e(1); \ if (_setjmp) { \ if (sigprocmask(SIG_BLOCK, (sigset_t *)NULL, &ss) == -1) e(2); \ ssexp = _save ? 0x32 : 0x3abc; \ if ((ss ^ ssexp) & ~(1 << SIGKILL)) e(388); \ return; \ } \ ss = 0x3abc; \ if (sigprocmask(SIG_SETMASK, &ss, (sigset_t *)NULL) == -1) e(4); \ _longjmp; \ } TEST_SETJMP(test37m, 13, jmp_buf, setjmp(jb), longjmp(jb, 1), 1) TEST_SETJMP(test37p, 16, sigjmp_buf, sigsetjmp(jb, 0), siglongjmp(jb, 1), 0) TEST_SETJMP(test37q, 17, sigjmp_buf, sigsetjmp(jb, 1), siglongjmp(jb, 1), 1) void longjerr() { e(5); } /*--------------------------------------------------------------------------*/ /* Test for setjmp/longjmp. * * Catch a signal. While in signal handler do setjmp/longjmp. */ void catch14(signo, code, scp) int signo; int code; struct sigcontext *scp; { jmp_buf jb; if (setjmp(jb)) { x++; sigreturn(scp); e(1); } y++; longjmp(jb, 1); e(2); } void test37n() { struct sigaction act; typedef _PROTOTYPE( void (*sighandler_t), (int sig) ); subtest = 14; clearsigstate(); x = 0; y = 0; act.sa_flags = 0; act.sa_mask = 0; act.sa_handler = (sighandler_t) catch14; /* fudge */ if (sigaction(SIGSEGV, &act, (struct sigaction *) NULL) == -1) e(3); if (kill(getpid(), SIGSEGV) == -1) e(4); if (x != 1) e(5); if (y != 1) e(6); } /*---------------------------------------------------------------------------*/ /* Test for setjmp/longjmp. * * Catch a signal. Longjmp out of signal handler. */ jmp_buf glo_jb; void catch15(signo) int signo; { z++; longjmp(glo_jb, 7); e(1); } void test37o() { struct sigaction act; int k; subtest = 15; clearsigstate(); z = 0; act.sa_flags = 0; act.sa_mask = 0; act.sa_handler = catch15; if (sigaction(SIGALRM, &act, (struct sigaction *) NULL) == -1) e(2); if ((k = setjmp(glo_jb))) { if (z != 1) e(399); if (k != 7) e(4); return; } if (kill(getpid(), SIGALRM) == -1) e(5); } void clearsigstate() { int i; sigset_t sigset_var; /* Clear the signal state. */ for (i = 1; i < _NSIG; i++) signal(i, SIG_IGN); for (i = 1; i < _NSIG; i++) signal(i, SIG_DFL); sigfillset(&sigset_var); sigprocmask(SIG_UNBLOCK, &sigset_var, (sigset_t *)NULL); } void wait_for(pid) pid_t pid; { /* Expect exactly one child, and that it exits with 0. */ int r; int status; errno = 0; while (1) { errno = 0; r = wait(&status); if (r == pid) { errno = 0; if (status != 0) e(90); return; } if (r < 0) { e(91); return; } e(92); } }