/* $NetBSD: trap.c,v 1.8 2006/10/16 00:07:32 christos Exp $ */ /* * signal handling */ #include #ifndef lint __RCSID("$NetBSD: trap.c,v 1.8 2006/10/16 00:07:32 christos Exp $"); #endif /* Kludge to avoid bogus re-declaration of sigtraps[] error on AIX 3.2.5 */ #define FROM_TRAP_C #include "sh.h" /* Table is indexed by signal number * * The script siglist.sh generates siglist.out, which is a sorted, complete * list of signals */ Trap sigtraps[SIGNALS+1] = { { .signal = SIGEXIT_, .name = "EXIT", .mess = "Signal 0" }, #include "siglist.out" /* generated by siglist.sh */ { .signal = SIGERR_, .name = "ERR", .mess = "Error handler" }, }; static struct sigaction Sigact_ign, Sigact_trap; void inittraps() { #ifdef HAVE_SYS_SIGLIST # ifndef SYS_SIGLIST_DECLARED extern char *sys_siglist[]; # endif int i; /* Use system description, if available, for unknown signals... */ for (i = 0; i < NSIG; i++) if (!sigtraps[i].name && sys_siglist[i] && sys_siglist[i][0]) sigtraps[i].mess = sys_siglist[i]; #endif /* HAVE_SYS_SIGLIST */ sigemptyset(&Sigact_ign.sa_mask); Sigact_ign.sa_flags = KSH_SA_FLAGS; Sigact_ign.sa_handler = SIG_IGN; Sigact_trap = Sigact_ign; Sigact_trap.sa_handler = trapsig; sigtraps[SIGINT].flags |= TF_DFL_INTR | TF_TTY_INTR; sigtraps[SIGQUIT].flags |= TF_DFL_INTR | TF_TTY_INTR; sigtraps[SIGTERM].flags |= TF_DFL_INTR;/* not fatal for interactive */ sigtraps[SIGHUP].flags |= TF_FATAL; sigtraps[SIGCHLD].flags |= TF_SHELL_USES; /* these are always caught so we can clean up any temporary files. */ setsig(&sigtraps[SIGINT], trapsig, SS_RESTORE_ORIG); setsig(&sigtraps[SIGQUIT], trapsig, SS_RESTORE_ORIG); setsig(&sigtraps[SIGTERM], trapsig, SS_RESTORE_ORIG); setsig(&sigtraps[SIGHUP], trapsig, SS_RESTORE_ORIG); } #ifdef KSH static RETSIGTYPE alarm_catcher ARGS((int sig)); void alarm_init() { sigtraps[SIGALRM].flags |= TF_SHELL_USES; setsig(&sigtraps[SIGALRM], alarm_catcher, SS_RESTORE_ORIG|SS_FORCE|SS_SHTRAP); } static RETSIGTYPE alarm_catcher(sig) int sig; { int errno_ = errno; if (ksh_tmout_state == TMOUT_READING) { int left = alarm(0); if (left == 0) { ksh_tmout_state = TMOUT_LEAVING; intrsig = 1; } else alarm(left); } errno = errno_; return RETSIGVAL; } #endif /* KSH */ Trap * gettrap(name, igncase) const char *name; int igncase; { int i; register Trap *p; if (digit(*name)) { int n; if (getn(name, &n) && 0 <= n && n < SIGNALS) return &sigtraps[n]; return NULL; } for (p = sigtraps, i = SIGNALS+1; --i >= 0; p++) if (p->name) { if (igncase) { if (p->name && (!strcasecmp(p->name, name) || (strlen(name) > 3 && !strncasecmp("SIG", p->name, 3) && !strcasecmp(p->name, name + 3)))) return p; } else { if (p->name && (!strcmp(p->name, name) || (strlen(name) > 3 && !strncmp("SIG", p->name, 3) && !strcmp(p->name, name + 3)))) return p; } } return NULL; } /* * trap signal handler */ RETSIGTYPE trapsig(i) int i; { Trap *p = &sigtraps[i]; int errno_ = errno; trap = p->set = 1; if (p->flags & TF_DFL_INTR) intrsig = 1; if ((p->flags & TF_FATAL) && !p->trap) { fatal_trap = 1; intrsig = 1; } if (p->shtrap) (*p->shtrap)(i); #ifdef V7_SIGNALS if (sigtraps[i].cursig == trapsig) /* this for SIGCHLD,SIGALRM */ sigaction(i, &Sigact_trap, (struct sigaction *) 0); #endif /* V7_SIGNALS */ errno = errno_; return RETSIGVAL; } /* called when we want to allow the user to ^C out of something - won't * work if user has trapped SIGINT. */ void intrcheck() { if (intrsig) runtraps(TF_DFL_INTR|TF_FATAL); } /* called after EINTR to check if a signal with normally causes process * termination has been received. */ int fatal_trap_check() { int i; Trap *p; /* todo: should check if signal is fatal, not the TF_DFL_INTR flag */ for (p = sigtraps, i = SIGNALS+1; --i >= 0; p++) if (p->set && (p->flags & (TF_DFL_INTR|TF_FATAL))) /* return value is used as an exit code */ return 128 + p->signal; return 0; } /* Returns the signal number of any pending traps: ie, a signal which has * occurred for which a trap has been set or for which the TF_DFL_INTR flag * is set. */ int trap_pending() { int i; Trap *p; for (p = sigtraps, i = SIGNALS+1; --i >= 0; p++) if (p->set && ((p->trap && p->trap[0]) || ((p->flags & (TF_DFL_INTR|TF_FATAL)) && !p->trap))) return p->signal; return 0; } /* * run any pending traps. If intr is set, only run traps that * can interrupt commands. */ void runtraps(flag) int flag; { int i; register Trap *p; #ifdef KSH if (ksh_tmout_state == TMOUT_LEAVING) { ksh_tmout_state = TMOUT_EXECUTING; warningf(FALSE, "timed out waiting for input"); unwind(LEXIT); } else /* XXX: this means the alarm will have no effect if a trap * is caught after the alarm() was started...not good. */ ksh_tmout_state = TMOUT_EXECUTING; #endif /* KSH */ if (!flag) trap = 0; if (flag & TF_DFL_INTR) intrsig = 0; if (flag & TF_FATAL) fatal_trap = 0; for (p = sigtraps, i = SIGNALS+1; --i >= 0; p++) if (p->set && (!flag || ((p->flags & flag) && p->trap == (char *) 0))) runtrap(p); } void runtrap(p) Trap *p; { int i = p->signal; char *trapstr = p->trap; int oexstat; int UNINITIALIZED(old_changed); p->set = 0; if (trapstr == (char *) 0) { /* SIG_DFL */ if (p->flags & TF_FATAL) { /* eg, SIGHUP */ exstat = 128 + i; unwind(LLEAVE); } if (p->flags & TF_DFL_INTR) { /* eg, SIGINT, SIGQUIT, SIGTERM, etc. */ exstat = 128 + i; unwind(LINTR); } return; } if (trapstr[0] == '\0') /* SIG_IGN */ return; if (i == SIGEXIT_ || i == SIGERR_) { /* avoid recursion on these */ old_changed = p->flags & TF_CHANGED; p->flags &= ~TF_CHANGED; p->trap = (char *) 0; } oexstat = exstat; /* Note: trapstr is fully parsed before anything is executed, thus * no problem with afree(p->trap) in settrap() while still in use. */ command(trapstr); exstat = oexstat; if (i == SIGEXIT_ || i == SIGERR_) { if (p->flags & TF_CHANGED) /* don't clear TF_CHANGED */ afree(trapstr, APERM); else p->trap = trapstr; p->flags |= old_changed; } } /* clear pending traps and reset user's trap handlers; used after fork(2) */ void cleartraps() { int i; Trap *p; trap = 0; intrsig = 0; fatal_trap = 0; for (i = SIGNALS+1, p = sigtraps; --i >= 0; p++) { p->set = 0; if ((p->flags & TF_USER_SET) && (p->trap && p->trap[0])) settrap(p, (char *) 0); } } /* restore signals just before an exec(2) */ void restoresigs() { int i; Trap *p; for (i = SIGNALS+1, p = sigtraps; --i >= 0; p++) if (p->flags & (TF_EXEC_IGN|TF_EXEC_DFL)) setsig(p, (p->flags & TF_EXEC_IGN) ? SIG_IGN : SIG_DFL, SS_RESTORE_CURR|SS_FORCE); } void settrap(p, s) Trap *p; char *s; { handler_t f; if (p->trap) afree(p->trap, APERM); p->flags |= TF_CHANGED|TF_USER_SET; if (s) { p->trap = str_save(s, APERM); f = s[0] ? trapsig : SIG_IGN; } else { p->trap = NULL; f = SIG_DFL; } if ((p->flags & (TF_DFL_INTR|TF_FATAL)) && f == SIG_DFL) f = trapsig; else if (p->flags & TF_SHELL_USES) { if (!(p->flags & TF_ORIG_IGN) || Flag(FTALKING)) { /* do what user wants at exec time */ p->flags &= ~(TF_EXEC_IGN|TF_EXEC_DFL); if (f == SIG_IGN) p->flags |= TF_EXEC_IGN; else p->flags |= TF_EXEC_DFL; } /* assumes handler already set to what shell wants it * (normally trapsig, but could be j_sigchld() or SIG_IGN) */ return; } /* todo: should we let user know signal is ignored? how? */ setsig(p, f, SS_RESTORE_CURR|SS_USER); } /* Called by c_print() when writing to a co-process to ensure SIGPIPE won't * kill shell (unless user catches it and exits) */ int block_pipe() { int restore_dfl = 0; Trap *p = &sigtraps[SIGPIPE]; if (!(p->flags & (TF_ORIG_IGN|TF_ORIG_DFL))) { setsig(p, SIG_IGN, SS_RESTORE_CURR); if (p->flags & TF_ORIG_DFL) restore_dfl = 1; } else if (p->cursig == SIG_DFL) { setsig(p, SIG_IGN, SS_RESTORE_CURR); restore_dfl = 1; /* restore to SIG_DFL */ } return restore_dfl; } /* Called by c_print() to undo whatever block_pipe() did */ void restore_pipe(restore_dfl) int restore_dfl; { if (restore_dfl) setsig(&sigtraps[SIGPIPE], SIG_DFL, SS_RESTORE_CURR); } /* Set action for a signal. Action may not be set if original * action was SIG_IGN, depending on the value of flags and * FTALKING. */ int setsig(p, f, flags) Trap *p; handler_t f; int flags; { struct sigaction sigact; if (p->signal == SIGEXIT_ || p->signal == SIGERR_) return 1; /* First time setting this signal? If so, get and note the current * setting. */ if (!(p->flags & (TF_ORIG_IGN|TF_ORIG_DFL))) { sigaction(p->signal, &Sigact_ign, &sigact); p->flags |= sigact.sa_handler == SIG_IGN ? TF_ORIG_IGN : TF_ORIG_DFL; p->cursig = SIG_IGN; } /* Generally, an ignored signal stays ignored, except if * - the user of an interactive shell wants to change it * - the shell wants for force a change */ if ((p->flags & TF_ORIG_IGN) && !(flags & SS_FORCE) && (!(flags & SS_USER) || !Flag(FTALKING))) return 0; setexecsig(p, flags & SS_RESTORE_MASK); /* This is here 'cause there should be a way of clearing shtraps, but * don't know if this is a sane way of doing it. At the moment, * all users of shtrap are lifetime users (SIGCHLD, SIGALRM, SIGWINCH). */ if (!(flags & SS_USER)) p->shtrap = (handler_t) 0; if (flags & SS_SHTRAP) { p->shtrap = f; f = trapsig; } if (p->cursig != f) { p->cursig = f; sigemptyset(&sigact.sa_mask); sigact.sa_flags = KSH_SA_FLAGS; sigact.sa_handler = f; sigaction(p->signal, &sigact, (struct sigaction *) 0); } return 1; } /* control what signal is set to before an exec() */ void setexecsig(p, restore) Trap *p; int restore; { /* XXX debugging */ if (!(p->flags & (TF_ORIG_IGN|TF_ORIG_DFL))) internal_errorf(1, "setexecsig: unset signal %d(%s)", p->signal, p->name); /* restore original value for exec'd kids */ p->flags &= ~(TF_EXEC_IGN|TF_EXEC_DFL); switch (restore & SS_RESTORE_MASK) { case SS_RESTORE_CURR: /* leave things as they currently are */ break; case SS_RESTORE_ORIG: p->flags |= p->flags & TF_ORIG_IGN ? TF_EXEC_IGN : TF_EXEC_DFL; break; case SS_RESTORE_DFL: p->flags |= TF_EXEC_DFL; break; case SS_RESTORE_IGN: p->flags |= TF_EXEC_IGN; break; } }