/* * Copyright (c) 1980,1986 Regents of the University of California. * All rights reserved. The Berkeley software License Agreement * specifies the terms and conditions for redistribution. */ #ifndef lint static char sccsid[] = "@(#)init.c 5.6 (Berkeley) 5/26/86"; #endif not lint #include #include #include #include #include #include #include #include #include #include #define LINSIZ sizeof(wtmp.ut_line) #define CMDSIZ 200 /* max string length for getty or window command*/ #define ALL p = itab; p ; p = p->next #define EVER ;; #define SCPYN(a, b) strncpy(a, b, sizeof(a)) #define SCMPN(a, b) strncmp(a, b, sizeof(a)) char shell[] = "/bin/sh"; char minus[] = "-"; char runc[] = "/etc/rc"; char utmpf[] = "/etc/utmp"; char wtmpf[] = "/usr/adm/wtmp"; char ctty[] = "/dev/console"; struct utmp wtmp; struct tab { char line[LINSIZ]; char comn[CMDSIZ]; char xflag; int pid; int wpid; /* window system pid for SIGHUP */ char wcmd[CMDSIZ]; /* command to start window system process */ time_t gettytime; int gettycnt; time_t windtime; int windcnt; struct tab *next; } *itab; int fi; int mergflag; char tty[20]; jmp_buf sjbuf, shutpass; time_t time0; int reset(); int idle(); char *strcpy(), *strcat(); long lseek(); struct sigvec rvec = { reset, sigmask(SIGHUP), 0 }; #ifdef vax main() { register int r11; /* passed thru from boot */ #else main(argc, argv) char **argv; { #endif int howto, oldhowto; time0 = time(0); #ifdef vax howto = r11; #else if (argc > 1 && argv[1][0] == '-') { char *cp; howto = 0; cp = &argv[1][1]; while (*cp) switch (*cp++) { case 'a': howto |= RB_ASKNAME; break; case 's': howto |= RB_SINGLE; break; } } else { howto = RB_SINGLE; } #endif openlog("init", LOG_CONS|LOG_ODELAY, LOG_AUTH); sigvec(SIGTERM, &rvec, (struct sigvec *)0); signal(SIGTSTP, idle); signal(SIGSTOP, SIG_IGN); signal(SIGTTIN, SIG_IGN); signal(SIGTTOU, SIG_IGN); (void) setjmp(sjbuf); for (EVER) { oldhowto = howto; howto = RB_SINGLE; if (setjmp(shutpass) == 0) shutdown(); if (oldhowto & RB_SINGLE) single(); if (runcom(oldhowto) == 0) continue; merge(); multiple(); } } int shutreset(); shutdown() { register i; register struct tab *p, *p1; close(creat(utmpf, 0644)); signal(SIGHUP, SIG_IGN); for (p = itab; p ; ) { term(p); p1 = p->next; free(p); p = p1; } itab = (struct tab *)0; signal(SIGALRM, shutreset); (void) kill(-1, SIGTERM); /* one chance to catch it */ sleep(5); alarm(30); for (i = 0; i < 5; i++) kill(-1, SIGKILL); while (wait((int *)0) != -1) ; alarm(0); shutend(); } char shutfailm[] = "WARNING: Something is hung (wont die); ps axl advised\n"; shutreset() { int status; if (fork() == 0) { int ct = open(ctty, 1); write(ct, shutfailm, sizeof (shutfailm)); sleep(5); exit(1); } sleep(5); shutend(); longjmp(shutpass, 1); } shutend() { register i, f; acct(0); signal(SIGALRM, SIG_DFL); for (i = 0; i < 10; i++) close(i); f = open(wtmpf, O_WRONLY|O_APPEND); if (f >= 0) { SCPYN(wtmp.ut_line, "~"); SCPYN(wtmp.ut_name, "shutdown"); SCPYN(wtmp.ut_host, ""); time(&wtmp.ut_time); write(f, (char *)&wtmp, sizeof(wtmp)); close(f); } return (1); } single() { register pid; register xpid; extern errno; do { pid = fork(); if (pid == 0) { signal(SIGTERM, SIG_DFL); signal(SIGHUP, SIG_DFL); signal(SIGALRM, SIG_DFL); signal(SIGTSTP, SIG_IGN); (void) open(ctty, O_RDWR); dup2(0, 1); dup2(0, 2); execl(shell, minus, (char *)0); exit(0); } while ((xpid = wait((int *)0)) != pid) if (xpid == -1 && errno == ECHILD) break; } while (xpid == -1); } runcom(oldhowto) int oldhowto; { register pid, f; int status; pid = fork(); if (pid == 0) { (void) open("/", O_RDONLY); dup2(0, 1); dup2(0, 2); if (oldhowto & RB_SINGLE) execl(shell, shell, runc, (char *)0); else execl(shell, shell, runc, "autoboot", (char *)0); exit(1); } while (wait(&status) != pid) ; if (status) return (0); f = open(wtmpf, O_WRONLY|O_APPEND); if (f >= 0) { SCPYN(wtmp.ut_line, "~"); SCPYN(wtmp.ut_name, "reboot"); SCPYN(wtmp.ut_host, ""); if (time0) { wtmp.ut_time = time0; time0 = 0; } else time(&wtmp.ut_time); write(f, (char *)&wtmp, sizeof(wtmp)); close(f); } return (1); } struct sigvec mvec = { merge, sigmask(SIGTERM), 0 }; /* * Multi-user. Listen for users leaving, SIGHUP's * which indicate ttys has changed, and SIGTERM's which * are used to shutdown the system. */ multiple() { register struct tab *p; register pid; int omask; sigvec(SIGHUP, &mvec, (struct sigvec *)0); for (EVER) { pid = wait((int *)0); if (pid == -1) return; omask = sigblock(SIGHUP); for (ALL) { /* must restart window system BEFORE emulator */ if (p->wpid == pid || p->wpid == -1) wstart(p); if (p->pid == pid || p->pid == -1) { /* disown the window system */ if (p->wpid) kill(p->wpid, SIGHUP); rmut(p); dfork(p); } } sigsetmask(omask); } } /* * Merge current contents of ttys file * into in-core table of configured tty lines. * Entered as signal handler for SIGHUP. */ #define FOUND 1 #define CHANGE 2 #define WCHANGE 4 merge() { register struct tab *p; register struct ttyent *t; register struct tab *p1; for (ALL) p->xflag = 0; setttyent(); while (t = getttyent()) { if ((t->ty_status & TTY_ON) == 0) continue; for (ALL) { if (SCMPN(p->line, t->ty_name)) continue; p->xflag |= FOUND; if (SCMPN(p->comn, t->ty_getty)) { p->xflag |= CHANGE; SCPYN(p->comn, t->ty_getty); } if (SCMPN(p->wcmd, t->ty_window)) { p->xflag |= WCHANGE|CHANGE; SCPYN(p->wcmd, t->ty_window); } goto contin1; } /* * Make space for a new one */ p1 = (struct tab *)calloc(1, sizeof(*p1)); if (!p1) { syslog(LOG_ERR, "no space for '%s' !?!", t->ty_name); goto contin1; } /* * Put new terminal at the end of the linked list. */ if (itab) { for (p = itab; p->next ; p = p->next) ; p->next = p1; } else itab = p1; p = p1; SCPYN(p->line, t->ty_name); p->xflag |= FOUND|CHANGE; SCPYN(p->comn, t->ty_getty); if (strcmp(t->ty_window, "") != 0) { p->xflag |= WCHANGE; SCPYN(p->wcmd, t->ty_window); } contin1: ; } endttyent(); p1 = (struct tab *)0; for (ALL) { if ((p->xflag&FOUND) == 0) { term(p); wterm(p); if (p1) p1->next = p->next; else itab = p->next; free(p); p = p1 ? p1 : itab; } else { /* window system should be started first */ if (p->xflag&WCHANGE) { wterm(p); wstart(p); } if (p->xflag&CHANGE) { term(p); dfork(p); } } p1 = p; } } term(p) register struct tab *p; { if (p->pid != 0) { rmut(p); kill(p->pid, SIGKILL); } p->pid = 0; /* send SIGHUP to get rid of connections */ if (p->wpid > 0) kill(p->wpid, SIGHUP); } #include dfork(p) struct tab *p; { register pid; time_t t; int dowait = 0; time(&t); p->gettycnt++; if ((t - p->gettytime) >= 60) { p->gettytime = t; p->gettycnt = 1; } else if (p->gettycnt >= 5) { dowait = 1; p->gettytime = t; p->gettycnt = 1; } pid = fork(); if (pid == 0) { signal(SIGTERM, SIG_DFL); signal(SIGHUP, SIG_IGN); sigsetmask(0); /* since can be called from masked code */ if (dowait) { syslog(LOG_ERR, "'%s %s' failing, sleeping", p->comn, p->line); closelog(); sleep(30); } execit(p->comn, p->line); exit(0); } p->pid = pid; } /* * Remove utmp entry. */ rmut(p) register struct tab *p; { register f; int found = 0; static unsigned utmpsize; static struct utmp *utmp; register struct utmp *u; int nutmp; struct stat statbf; f = open(utmpf, O_RDWR); if (f >= 0) { fstat(f, &statbf); if (utmpsize < statbf.st_size) { utmpsize = statbf.st_size + 10 * sizeof(struct utmp); if (utmp) utmp = (struct utmp *)realloc(utmp, utmpsize); else utmp = (struct utmp *)malloc(utmpsize); if (!utmp) syslog(LOG_ERR, "utmp malloc failed"); } if (statbf.st_size && utmp) { nutmp = read(f, utmp, statbf.st_size); nutmp /= sizeof(struct utmp); for (u = utmp ; u < &utmp[nutmp] ; u++) { if (SCMPN(u->ut_line, p->line) || u->ut_name[0]==0) continue; lseek(f, ((long)u)-((long)utmp), L_SET); SCPYN(u->ut_name, ""); SCPYN(u->ut_host, ""); time(&u->ut_time); write(f, (char *)u, sizeof(*u)); found++; } } close(f); } if (found) { f = open(wtmpf, O_WRONLY|O_APPEND); if (f >= 0) { SCPYN(wtmp.ut_line, p->line); SCPYN(wtmp.ut_name, ""); SCPYN(wtmp.ut_host, ""); time(&wtmp.ut_time); write(f, (char *)&wtmp, sizeof(wtmp)); close(f); } /* * After a proper login force reset * of error detection code in dfork. */ p->gettytime = 0; p->windtime = 0; } } reset() { longjmp(sjbuf, 1); } jmp_buf idlebuf; idlehup() { longjmp(idlebuf, 1); } idle() { register struct tab *p; register pid; signal(SIGHUP, idlehup); for (EVER) { if (setjmp(idlebuf)) return; pid = wait((int *) 0); if (pid == -1) { sigpause(0); continue; } for (ALL) { /* if window system dies, mark it for restart */ if (p->wpid == pid) p->wpid = -1; if (p->pid == pid) { rmut(p); p->pid = -1; } } } } wterm(p) register struct tab *p; { if (p->wpid != 0) { kill(p->wpid, SIGKILL); } p->wpid = 0; } wstart(p) register struct tab *p; { register pid; time_t t; int dowait = 0; time(&t); p->windcnt++; if ((t - p->windtime) >= 60) { p->windtime = t; p->windcnt = 1; } else if (p->windcnt >= 5) { dowait = 1; p->windtime = t; p->windcnt = 1; } pid = fork(); if (pid == 0) { signal(SIGTERM, SIG_DFL); signal(SIGHUP, SIG_IGN); sigsetmask(0); /* since can be called from masked code */ if (dowait) { syslog(LOG_ERR, "'%s %s' failing, sleeping", p->wcmd, p->line); closelog(); sleep(30); } execit(p->wcmd, p->line); exit(0); } p->wpid = pid; } #define NARGS 20 /* must be at least 4 */ #define ARGLEN 512 /* total size for all the argument strings */ execit(s, arg) char *s; char *arg; /* last argument on line */ { char *argv[NARGS], args[ARGLEN], *envp[1]; register char *sp = s; register char *ap = args; register char c; register int i; /* * First we have to set up the argument vector. * "prog arg1 arg2" maps to exec("prog", "-", "arg1", "arg2"). */ for (i = 1; i < NARGS - 2; i++) { argv[i] = ap; for (EVER) { if ((c = *sp++) == '\0' || ap >= &args[ARGLEN-1]) { *ap = '\0'; goto done; } if (c == ' ') { *ap++ = '\0'; while (*sp == ' ') sp++; if (*sp == '\0') goto done; break; } *ap++ = c; } } done: argv[0] = argv[1]; argv[1] = "-"; argv[i+1] = arg; argv[i+2] = 0; envp[0] = 0; execve(argv[0], &argv[1], envp); /* report failure of exec */ syslog(LOG_ERR, "%s: %m", argv[0]); closelog(); sleep(10); /* prevent failures from eating machine */ }