/* * Copyright (c) 1986 Regents of the University of California. * All rights reserved. The Berkeley software License Agreement * specifies the terms and conditions for redistribution. */ #ifndef NSIG #include #define NSIG 32 #define SIGHUP 1 /* hangup */ #define SIGINT 2 /* interrupt */ #define SIGQUIT 3 /* quit */ #define SIGILL 4 /* illegal instruction (not reset when caught) */ #define SIGTRAP 5 /* trace trap (not reset when caught) */ #define SIGIOT 6 /* IOT instruction */ #define SIGABRT SIGIOT /* compatibility */ #define SIGEMT 7 /* EMT instruction */ #define SIGFPE 8 /* floating point exception */ #define SIGKILL 9 /* kill (cannot be caught or ignored) */ #define SIGBUS 10 /* bus error */ #define SIGSEGV 11 /* segmentation violation */ #define SIGSYS 12 /* bad argument to system call */ #define SIGPIPE 13 /* write on a pipe with no one to read it */ #define SIGALRM 14 /* alarm clock */ #define SIGTERM 15 /* software termination signal from kill */ #define SIGURG 16 /* urgent condition on IO channel */ #define SIGSTOP 17 /* sendable stop signal not from tty */ #define SIGTSTP 18 /* stop signal from tty */ #define SIGCONT 19 /* continue a stopped process */ #define SIGCHLD 20 /* to parent on child stop or exit */ #define SIGCLD SIGCHLD /* compatibility */ #define SIGTTIN 21 /* to readers pgrp upon background tty read */ #define SIGTTOU 22 /* like TTIN for output if (tp->t_local<OSTOP) */ #define SIGIO 23 /* input/output possible signal */ #define SIGXCPU 24 /* exceeded CPU time limit */ #define SIGXFSZ 25 /* exceeded file size limit */ #define SIGVTALRM 26 /* virtual time alarm */ #define SIGPROF 27 /* profiling time alarm */ #define SIGWINCH 28 /* window size changes */ #define SIGUSR1 30 /* user defined signal 1 */ #define SIGUSR2 31 /* user defined signal 2 */ typedef void (*sig_t) (int); /* type of signal function */ #define SIG_ERR (sig_t) -1 #define SIG_DFL (sig_t) 0 #define SIG_IGN (sig_t) 1 typedef unsigned long sigset_t; /* * Signal vector "template" used in sigaction call. */ struct sigaction { sig_t sa_handler; /* signal handler */ sigset_t sa_mask; /* signal mask to apply */ int sa_flags; /* see signal options below */ }; #define SA_ONSTACK 0x0001 /* take signal on signal stack */ #define SA_RESTART 0x0002 /* restart system on signal return */ #define SA_DISABLE 0x0004 /* disable taking signals on alternate stack */ #define SA_NOCLDSTOP 0x0008 /* do not generate SIGCHLD on child stop */ /* * Flags for sigprocmask: */ #define SIG_BLOCK 1 /* block specified signal set */ #define SIG_UNBLOCK 2 /* unblock specified signal set */ #define SIG_SETMASK 3 /* set specified signal set */ /* * Structure used in sigaltstack call. */ struct sigaltstack { char *ss_base; /* signal stack base */ int ss_size; /* signal stack length */ int ss_flags; /* SA_DISABLE and/or SA_ONSTACK */ }; #define MINSIGSTKSZ 128 /* minimum allowable stack */ #define SIGSTKSZ (MINSIGSTKSZ + 384) /* recommended stack size */ /* * 4.3 compatibility: * Signal vector "template" used in sigvec call. */ struct sigvec { sig_t sv_handler; /* signal handler */ long sv_mask; /* signal mask to apply */ int sv_flags; /* see signal options below */ }; #define SV_ONSTACK SA_ONSTACK /* take signal on signal stack */ #define SV_INTERRUPT SA_RESTART /* same bit, opposite sense */ #define sv_onstack sv_flags /* isn't compatibility wonderful! */ /* * 4.3 compatibility: * Structure used in sigstack call. */ struct sigstack { char *ss_sp; /* signal stack pointer */ int ss_onstack; /* current status */ }; /* * Information pushed on stack when a signal is delivered. * This is used by the kernel to restore state following * execution of the signal handler. It is also made available * to the handler to allow it to properly restore state if * a non-standard exit is performed. */ struct sigcontext { int sc_onstack; /* sigstack state to restore */ long sc_mask; /* signal mask to restore */ int sc_r1; /* r1 to restore */ int sc_r2; /* and other registers */ int sc_r3; int sc_r4; int sc_r5; int sc_r6; int sc_r7; int sc_r8; int sc_r9; int sc_r10; int sc_r11; int sc_r12; int sc_r13; int sc_r14; int sc_r15; int sc_r16; int sc_r17; int sc_r18; int sc_r19; int sc_r20; int sc_r21; int sc_r22; int sc_r23; int sc_r24; int sc_r25; int sc_gp; int sc_sp; /* sp to restore */ int sc_fp; int sc_ra; int sc_lo; int sc_hi; int sc_pc; /* pc to restore */ }; /* * Macro for converting signal number to a mask suitable for * sigblock(). */ #define sigmask(m) (1L << ((m)-1)) #define sigaddset(set, signo) (*(set) |= 1L << ((signo) - 1), 0) #define sigdelset(set, signo) (*(set) &= ~(1L << ((signo) - 1)), 0) #define sigemptyset(set) (*(set) = (sigset_t)0, (int)0) #define sigfillset(set) (*(set) = ~(sigset_t)0, (int)0) #define sigismember(set, signo) ((*(set) & (1L << ((signo) - 1))) != 0) #ifdef KERNEL /* Table of signal properties. */ extern const char sigprop [NSIG + 1]; /* * Send an interrupt to process. */ void sendsig (sig_t p, int sig, long mask); #else /* KERNEL */ sig_t signal (int, sig_t); int sigaction (int signum, const struct sigaction *act, struct sigaction *oldact); int sigvec (int sig, struct sigvec *vec, struct sigvec *ovec); int kill (pid_t pid, int sig); int sigpause (int mask); int sigblock (int mask); int sigsetmask (int mask); int sigprocmask (int how, const sigset_t *set, sigset_t *oldset); int siginterrupt (int sig, int flag); int sigsuspend (const sigset_t *mask); #define BADSIG SIG_ERR #endif /* KERNEL */ #endif /* NSIG */