/* * Copyright (c) 1982 Regents of the University of California. * All rights reserved. The Berkeley software License Agreement * specifies the terms and conditions for redistribution. */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef __sys_signal_h #define __sys_signal_h #pragma ident "%Z%%M% %I% %E% SMI" #include #define NSIG 32 /* * If any signal defines (SIG*) are added, deleted, or changed, the same * changes must be made in /usr/include/signal.h as well. */ #define SIGHUP 1 /* hangup */ #define SIGINT 2 /* interrupt */ #define SIGQUIT 3 /* quit */ #define SIGILL 4 /* illegal instruction (not reset when caught) */ #ifdef vax #define ILL_RESAD_FAULT 0x0 /* reserved addressing fault */ #define ILL_PRIVIN_FAULT 0x1 /* privileged instruction fault */ #define ILL_RESOP_FAULT 0x2 /* reserved operand fault */ /* CHME, CHMS, CHMU are not yet given back to users reasonably */ #endif vax #ifdef mc68000 #define ILL_ILLINSTR_FAULT 0x10 /* illegal instruction fault */ #define ILL_PRIVVIO_FAULT 0x20 /* privilege violation fault */ #define ILL_COPROCERR_FAULT 0x34 /* [coprocessor protocol error fault] */ #define ILL_TRAP1_FAULT 0x84 /* trap #1 fault */ #define ILL_TRAP2_FAULT 0x88 /* trap #2 fault */ #define ILL_TRAP3_FAULT 0x8c /* trap #3 fault */ #define ILL_TRAP4_FAULT 0x90 /* trap #4 fault */ #define ILL_TRAP5_FAULT 0x94 /* trap #5 fault */ #define ILL_TRAP6_FAULT 0x98 /* trap #6 fault */ #define ILL_TRAP7_FAULT 0x9c /* trap #7 fault */ #define ILL_TRAP8_FAULT 0xa0 /* trap #8 fault */ #define ILL_TRAP9_FAULT 0xa4 /* trap #9 fault */ #define ILL_TRAP10_FAULT 0xa8 /* trap #10 fault */ #define ILL_TRAP11_FAULT 0xac /* trap #11 fault */ #define ILL_TRAP12_FAULT 0xb0 /* trap #12 fault */ #define ILL_TRAP13_FAULT 0xb4 /* trap #13 fault */ #define ILL_TRAP14_FAULT 0xb8 /* trap #14 fault */ #endif mc68000 #ifdef sparc #define ILL_STACK 0x00 /* bad stack */ #define ILL_ILLINSTR_FAULT 0x02 /* illegal instruction fault */ #define ILL_PRIVINSTR_FAULT 0x03 /* privileged instruction fault */ /* codes from 0x80 to 0xff are software traps */ #define ILL_TRAP_FAULT(n) ((n)+0x80) /* trap n fault */ #endif sparc #if defined(__i386) || defined(__amd64) #define ILL_ILLINSTR_FAULT 0x02 /* illegal instruction fault */ #endif #define SIGTRAP 5 /* trace trap (not reset when caught) */ #define SIGIOT 6 /* IOT instruction */ #define SIGABRT 6 /* used by abort, replace SIGIOT in the future */ #define SIGEMT 7 /* EMT instruction */ #ifdef mc68000 #define EMT_EMU1010 0x28 /* line 1010 emulator trap */ #define EMT_EMU1111 0x2c /* line 1111 emulator trap */ #endif mc68000 #ifdef sparc #define EMT_TAG 0x0a /* tag overflow */ #endif sparc #define SIGFPE 8 /* floating point exception */ #ifdef vax #define FPE_INTOVF_TRAP 0x1 /* integer overflow */ #define FPE_INTDIV_TRAP 0x2 /* integer divide by zero */ #define FPE_FLTOVF_TRAP 0x3 /* floating overflow */ #define FPE_FLTDIV_TRAP 0x4 /* floating/decimal divide by zero */ #define FPE_FLTUND_TRAP 0x5 /* floating underflow */ #define FPE_DECOVF_TRAP 0x6 /* decimal overflow */ #define FPE_SUBRNG_TRAP 0x7 /* subscript out of range */ #define FPE_FLTOVF_FAULT 0x8 /* floating overflow fault */ #define FPE_FLTDIV_FAULT 0x9 /* divide by zero floating fault */ #define FPE_FLTUND_FAULT 0xa /* floating underflow fault */ #endif vax #ifdef mc68000 #define FPE_INTDIV_TRAP 0x14 /* integer divide by zero */ #define FPE_CHKINST_TRAP 0x18 /* CHK [CHK2] instruction */ #define FPE_TRAPV_TRAP 0x1c /* TRAPV [cpTRAPcc TRAPcc] instr */ #define FPE_FLTBSUN_TRAP 0xc0 /* [branch or set on unordered cond] */ #define FPE_FLTINEX_TRAP 0xc4 /* [floating inexact result] */ #define FPE_FLTDIV_TRAP 0xc8 /* [floating divide by zero] */ #define FPE_FLTUND_TRAP 0xcc /* [floating underflow] */ #define FPE_FLTOPERR_TRAP 0xd0 /* [floating operand error] */ #define FPE_FLTOVF_TRAP 0xd4 /* [floating overflow] */ #define FPE_FLTNAN_TRAP 0xd8 /* [floating Not-A-Number] */ #ifdef sun #define FPE_FPA_ENABLE 0x400 /* [FPA not enabled] */ #define FPE_FPA_ERROR 0x404 /* [FPA arithmetic exception] */ #endif sun #endif mc68000 #ifdef sparc #define FPE_INTOVF_TRAP 0x1 /* integer overflow */ #define FPE_STARTSIG_TRAP 0x2 /* process using fp */ #define FPE_INTDIV_TRAP 0x14 /* integer divide by zero */ #define FPE_FLTINEX_TRAP 0xc4 /* [floating inexact result] */ #define FPE_FLTDIV_TRAP 0xc8 /* [floating divide by zero] */ #define FPE_FLTUND_TRAP 0xcc /* [floating underflow] */ #define FPE_FLTOPERR_TRAP 0xd0 /* [floating operand error] */ #define FPE_FLTOVF_TRAP 0xd4 /* [floating overflow] */ #endif sparc #define SIGKILL 9 /* kill (cannot be caught or ignored) */ /* * The codes for SIGBUS and SIGSEGV are described in */ #define SIGBUS 10 /* bus error */ #define BUS_HWERR FC_HWERR /* misc hardware error (e.g. timeout) */ #define BUS_ALIGN FC_ALIGN /* hardware alignment error */ #define BUS_OBJERR FC_OBJERR /* object returned errno value */ /* * The BUS_CODE(code) will be one of the above. In the BUS_OBJERR case, * doing a BUS_ERRNO(code) gives an errno value reported by the underlying * file object mapped at the fault address. Note that this appears to be * duplicated with the segmentation fault case below -- unfortunate, since * the specification has always claimed that such errors produce SIGBUS. * The segmentation cases are left defined as a transition aid. */ #define BUS_CODE(C) FC_CODE(C) #define BUS_ERRNO(C) FC_ERRNO(C) #define SIGSEGV 11 /* segmentation violation */ #define SEGV_NOMAP FC_NOMAP /* no mapping at the fault address */ #define SEGV_PROT FC_PROT /* access exceeded protections */ #define SEGV_OBJERR FC_OBJERR /* object returned errno value */ /* * The SEGV_CODE(code) will be SEGV_NOMAP, SEGV_PROT, or SEGV_OBJERR. * In the SEGV_OBJERR case, doing a SEGV_ERRNO(code) gives an errno value * reported by the underlying file object mapped at the fault address. */ #define SEGV_CODE(C) FC_CODE(C) #define SEGV_ERRNO(C) FC_ERRNO(C) #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 20 /* System V name for SIGCHLD */ #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 SIGPOLL SIGIO /* System V name for SIGIO */ #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 changed */ #define SIGLOST 29 /* resource lost (eg, record-lock lost) */ #define SIGUSR1 30 /* user defined signal 1 */ #define SIGUSR2 31 /* user defined signal 2 */ /* * If addr cannot be computed it is set to SIG_NOADDR. */ #define SIG_NOADDR ((char *)~0) #if !defined(KERNEL) && !defined(LOCORE) void (*signal())(); /* * Define BSD 4.1 reliable signals for SVID compatibility. * These functions may go away in a future release. */ void (*sigset())(); int sighold(); int sigrelse(); int sigignore(); #endif !KERNEL && !LOCORE #ifndef LOCORE /* * Signal vector "template" used in sigvec call. */ struct sigvec { void (*sv_handler)(); /* signal handler */ int sv_mask; /* signal mask to apply */ int sv_flags; /* see signal options below */ }; #define SV_ONSTACK 0x0001 /* take signal on signal stack */ #define SV_INTERRUPT 0x0002 /* do not restart system on signal return */ #define SV_RESETHAND 0x0004 /* reset signal handler to SIG_DFL when signal taken */ /* * If any SA_NOCLDSTOP or SV_NOCLDSTOP is change, the same * changes must be made in /usr/include/signal.h as well. */ #define SV_NOCLDSTOP 0x0008 /* don't send a SIGCHLD on child stop */ #define SA_ONSTACK SV_ONSTACK #define SA_INTERRUPT SV_INTERRUPT #define SA_RESETHAND SV_RESETHAND #define SA_NOCLDSTOP SV_NOCLDSTOP #define sv_onstack sv_flags /* isn't compatibility wonderful! */ /* * 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 */ int sc_mask; /* signal mask to restore */ #ifdef vax int sc_sp; /* sp to restore */ int sc_fp; /* fp to restore */ int sc_ap; /* ap to restore */ int sc_pc; /* pc to restore */ int sc_ps; /* psl to restore */ #endif vax #ifdef mc68000 int sc_sp; /* sp to restore */ int sc_pc; /* pc to retore */ int sc_ps; /* psl to restore */ #endif mc68000 #ifdef sparc #define SPARC_MAXREGWINDOW 31 /* max usable windows in sparc */ int sc_sp; /* sp to restore */ int sc_pc; /* pc to retore */ int sc_npc; /* next pc to restore */ int sc_psr; /* psr to restore */ int sc_g1; /* register that must be restored */ int sc_o0; int sc_wbcnt; /* number of outstanding windows */ char *sc_spbuf[SPARC_MAXREGWINDOW]; /* sp's for each wbuf */ int sc_wbuf[SPARC_MAXREGWINDOW][16]; /* window save buf */ #endif sparc #ifdef sun386 int sc_sp; /* sp to restore */ int sc_pc; /* pc to retore */ int sc_ps; /* psl to restore */ int sc_eax; /* eax to restore */ int sc_edx; /* edx to restore */ #endif }; #endif !LOCORE #define BADSIG (void (*)())-1 /* * If SIG_ERR, SIG_DFL, SIG_IGN, or SIG_HOLD are changed, the same changes * must be made in /usr/include/signal.h as well. */ #define SIG_ERR (void (*)())-1 #define SIG_DFL (void (*)())0 #define SIG_IGN (void (*)())1 #ifdef KERNEL #define SIG_CATCH (void (*)())2 #endif KERNEL #define SIG_HOLD (void (*)())3 /* * Macro for converting signal number to a mask suitable for sigblock(). */ #define sigmask(m) (1 << ((m)-1)) /* * signals that can't caught, blocked, or ignored */ #ifdef KERNEL #define cantmask (sigmask(SIGKILL)|sigmask(SIGSTOP)) #endif /* * If SIG_BLOCK, SIG_UNBLOCK, or SIG_SETMASK are changed, the same changes * must be made in /usr/include/signal.h as well. */ #define SIG_BLOCK 0x0001 #define SIG_UNBLOCK 0x0002 #define SIG_SETMASK 0x0004 #if !defined(LOCORE) && !defined(KERNEL) /* * If changes are made to sigset_t or struct sigaction, the same changes * must be made in /usr/include/signal.h as well. */ #include struct sigaction { void (*sa_handler)(); sigset_t sa_mask; int sa_flags; }; /* * If changes are made to the function prototypes, the same changes * must be made in /usr/include/signal.h as well. */ void (*signal())(); int kill(/* pid_t p, int sig */); int sigaction(/* int signo, struct sigaction *act, struct sigaction *oldact */); int sigaddset(/* sigset_t *mask, int signo */); int sigdelset(/* sigset_t *mask, int signo */); int sigemptyset(/* sigset_t *mask */); int sigfillset(/* sigset_t *mask */); int sigismember(/* sigset_t *mask, int signo */); int sigpending(/* sigset_t *set */); int sigprocmask(/* int how, sigset_t *set, *oldset */); int sigsuspend(/* sigset_t *mask */); #endif /* !LOCORE && !KERNEL */ #endif /* !__sys_signal_h */