/* Copyright 1988,1990,1993,1994 by Paul Vixie * All rights reserved * * Distribute freely, except: don't remove my name from the source or * documentation (don't take credit for my work), mark your changes (don't * get me blamed for your possible bugs), don't alter or remove this * notice. May be sold if buildable source is provided to buyer. No * warrantee of any kind, express or implied, is included with this * software; use at your own risk, responsibility for damages (if any) to * anyone resulting from the use of this software rests entirely with the * user. * * Send bug reports, bug fixes, enhancements, requests, flames, etc., and * I'll try to keep a version up to date. I can be reached as follows: * Paul Vixie uunet!decwrl!vixie!paul */ #if !defined(lint) && !defined(LINT) static char rcsid[] = "$Id: misc.c,v 1.2 1996/11/01 23:27:37 millert Exp $"; #endif /* vix 26jan87 [RCS has the rest of the log] * vix 30dec86 [written] */ #include "cron.h" #if SYS_TIME_H # include #else # include #endif #include #include #include #include #include #if defined(SYSLOG) # include #endif #if defined(LOG_DAEMON) && !defined(LOG_CRON) #define LOG_CRON LOG_DAEMON #endif static int LogFD = ERR; int strcmp_until(left, right, until) char *left; char *right; int until; { register int diff; while (*left && *left != until && *left == *right) { left++; right++; } if ((*left=='\0' || *left == until) && (*right=='\0' || *right == until)) { diff = 0; } else { diff = *left - *right; } return diff; } /* strdtb(s) - delete trailing blanks in string 's' and return new length */ int strdtb(s) char *s; { char *x = s; /* scan forward to the null */ while (*x) x++; /* scan backward to either the first character before the string, * or the last non-blank in the string, whichever comes first. */ do {x--;} while (x >= s && isspace(*x)); /* one character beyond where we stopped above is where the null * goes. */ *++x = '\0'; /* the difference between the position of the null character and * the position of the first character of the string is the length. */ return x - s; } int set_debug_flags(flags) char *flags; { /* debug flags are of the form flag[,flag ...] * * if an error occurs, print a message to stdout and return FALSE. * otherwise return TRUE after setting ERROR_FLAGS. */ #if !DEBUGGING printf("this program was compiled without debugging enabled\n"); return FALSE; #else /* DEBUGGING */ char *pc = flags; DebugFlags = 0; while (*pc) { char **test; int mask; /* try to find debug flag name in our list. */ for ( test = DebugFlagNames, mask = 1; *test && strcmp_until(*test, pc, ','); test++, mask <<= 1 ) ; if (!*test) { fprintf(stderr, "unrecognized debug flag <%s> <%s>\n", flags, pc); return FALSE; } DebugFlags |= mask; /* skip to the next flag */ while (*pc && *pc != ',') pc++; if (*pc == ',') pc++; } if (DebugFlags) { int flag; fprintf(stderr, "debug flags enabled:"); for (flag = 0; DebugFlagNames[flag]; flag++) if (DebugFlags & (1 << flag)) fprintf(stderr, " %s", DebugFlagNames[flag]); fprintf(stderr, "\n"); } return TRUE; #endif /* DEBUGGING */ } void set_cron_uid() { #if defined(BSD) || defined(POSIX) if (seteuid(ROOT_UID) < OK) { perror("seteuid"); exit(ERROR_EXIT); } #else if (setuid(ROOT_UID) < OK) { perror("setuid"); exit(ERROR_EXIT); } #endif } void set_cron_cwd() { struct stat sb; /* first check for CRONDIR ("/var/cron" or some such) */ if (stat(CRONDIR, &sb) < OK && errno == ENOENT) { perror(CRONDIR); if (OK == mkdir(CRONDIR, 0700)) { fprintf(stderr, "%s: created\n", CRONDIR); stat(CRONDIR, &sb); } else { fprintf(stderr, "%s: ", CRONDIR); perror("mkdir"); exit(ERROR_EXIT); } } if (!(sb.st_mode & S_IFDIR)) { fprintf(stderr, "'%s' is not a directory, bailing out.\n", CRONDIR); exit(ERROR_EXIT); } if (chdir(CRONDIR) < OK) { fprintf(stderr, "cannot chdir(%s), bailing out.\n", CRONDIR); perror(CRONDIR); exit(ERROR_EXIT); } /* CRONDIR okay (now==CWD), now look at SPOOL_DIR ("tabs" or some such) */ if (stat(SPOOL_DIR, &sb) < OK && errno == ENOENT) { perror(SPOOL_DIR); if (OK == mkdir(SPOOL_DIR, 0700)) { fprintf(stderr, "%s: created\n", SPOOL_DIR); stat(SPOOL_DIR, &sb); } else { fprintf(stderr, "%s: ", SPOOL_DIR); perror("mkdir"); exit(ERROR_EXIT); } } if (!(sb.st_mode & S_IFDIR)) { fprintf(stderr, "'%s' is not a directory, bailing out.\n", SPOOL_DIR); exit(ERROR_EXIT); } } /* acquire_daemonlock() - write our PID into /etc/cron.pid, unless * another daemon is already running, which we detect here. * * note: main() calls us twice; once before forking, once after. * we maintain static storage of the file pointer so that we * can rewrite our PID into the PIDFILE after the fork. * * it would be great if fflush() disassociated the file buffer. */ void acquire_daemonlock(closeflag) int closeflag; { static FILE *fp = NULL; if (closeflag && fp) { fclose(fp); fp = NULL; return; } if (!fp) { char pidfile[MAX_FNAME]; char buf[MAX_TEMPSTR]; int fd, otherpid; (void) sprintf(pidfile, PIDFILE, PIDDIR); if ((-1 == (fd = open(pidfile, O_RDWR|O_CREAT, 0644))) || (NULL == (fp = fdopen(fd, "r+"))) ) { sprintf(buf, "can't open or create %s: %s", pidfile, strerror(errno)); fprintf(stderr, "%s: %s\n", ProgramName, buf); log_it("CRON", getpid(), "DEATH", buf); exit(ERROR_EXIT); } if (flock(fd, LOCK_EX|LOCK_NB) < OK) { int save_errno = errno; fscanf(fp, "%d", &otherpid); sprintf(buf, "can't lock %s, otherpid may be %d: %s", pidfile, otherpid, strerror(save_errno)); fprintf(stderr, "%s: %s\n", ProgramName, buf); log_it("CRON", getpid(), "DEATH", buf); exit(ERROR_EXIT); } (void) fcntl(fd, F_SETFD, 1); } rewind(fp); fprintf(fp, "%d\n", getpid()); fflush(fp); (void) ftruncate(fileno(fp), ftell(fp)); /* abandon fd and fp even though the file is open. we need to * keep it open and locked, but we don't need the handles elsewhere. */ } /* get_char(file) : like getc() but increment LineNumber on newlines */ int get_char(file) FILE *file; { int ch; ch = getc(file); if (ch == '\n') Set_LineNum(LineNumber + 1) return ch; } /* unget_char(ch, file) : like ungetc but do LineNumber processing */ void unget_char(ch, file) int ch; FILE *file; { ungetc(ch, file); if (ch == '\n') Set_LineNum(LineNumber - 1) } /* get_string(str, max, file, termstr) : like fgets() but * (1) has terminator string which should include \n * (2) will always leave room for the null * (3) uses get_char() so LineNumber will be accurate * (4) returns EOF or terminating character, whichever */ int get_string(string, size, file, terms) char *string; int size; FILE *file; char *terms; { int ch; while (EOF != (ch = get_char(file)) && !strchr(terms, ch)) { if (size > 1) { *string++ = (char) ch; size--; } } if (size > 0) *string = '\0'; return ch; } /* skip_comments(file) : read past comment (if any) */ void skip_comments(file) FILE *file; { int ch; while (EOF != (ch = get_char(file))) { /* ch is now the first character of a line. */ while (ch == ' ' || ch == '\t') ch = get_char(file); if (ch == EOF) break; /* ch is now the first non-blank character of a line. */ if (ch != '\n' && ch != '#') break; /* ch must be a newline or comment as first non-blank * character on a line. */ while (ch != '\n' && ch != EOF) ch = get_char(file); /* ch is now the newline of a line which we're going to * ignore. */ } if (ch != EOF) unget_char(ch, file); } /* int in_file(char *string, FILE *file) * return TRUE if one of the lines in file matches string exactly, * FALSE otherwise. */ static int in_file(string, file) char *string; FILE *file; { char line[MAX_TEMPSTR]; rewind(file); while (fgets(line, MAX_TEMPSTR, file)) { if (line[0] != '\0') line[strlen(line)-1] = '\0'; if (0 == strcmp(line, string)) return TRUE; } return FALSE; } /* int allowed(char *username) * returns TRUE if (ALLOW_FILE exists and user is listed) * or (DENY_FILE exists and user is NOT listed) * or (neither file exists but user=="root" so it's okay) */ int allowed(username) char *username; { static int init = FALSE; static FILE *allow, *deny; if (!init) { init = TRUE; #if defined(ALLOW_FILE) && defined(DENY_FILE) allow = fopen(ALLOW_FILE, "r"); deny = fopen(DENY_FILE, "r"); Debug(DMISC, ("allow/deny enabled, %d/%d\n", !!allow, !!deny)) #else allow = NULL; deny = NULL; #endif } if (allow) return (in_file(username, allow)); if (deny) return (!in_file(username, deny)); #if defined(ALLOW_ONLY_ROOT) return (strcmp(username, ROOT_USER) == 0); #else return TRUE; #endif } void log_it(username, xpid, event, detail) char *username; int xpid; char *event; char *detail; { PID_T pid = xpid; #if defined(LOG_FILE) char *msg; TIME_T now = time((TIME_T) 0); register struct tm *t = localtime(&now); #endif /*LOG_FILE*/ #if defined(SYSLOG) static int syslog_open = 0; #endif #if defined(LOG_FILE) /* we assume that MAX_TEMPSTR will hold the date, time, &punctuation. */ msg = malloc(strlen(username) + strlen(event) + strlen(detail) + MAX_TEMPSTR); if (LogFD < OK) { LogFD = open(LOG_FILE, O_WRONLY|O_APPEND|O_CREAT, 0600); if (LogFD < OK) { fprintf(stderr, "%s: can't open log file\n", ProgramName); perror(LOG_FILE); } else { (void) fcntl(LogFD, F_SETFD, 1); } } /* we have to sprintf() it because fprintf() doesn't always write * everything out in one chunk and this has to be atomically appended * to the log file. */ sprintf(msg, "%s (%02d/%02d-%02d:%02d:%02d-%d) %s (%s)\n", username, t->tm_mon+1, t->tm_mday, t->tm_hour, t->tm_min, t->tm_sec, pid, event, detail); /* we have to run strlen() because sprintf() returns (char*) on old BSD */ if (LogFD < OK || write(LogFD, msg, strlen(msg)) < OK) { if (LogFD >= OK) perror(LOG_FILE); fprintf(stderr, "%s: can't write to log file\n", ProgramName); write(STDERR, msg, strlen(msg)); } free(msg); #endif /*LOG_FILE*/ #if defined(SYSLOG) if (!syslog_open) { /* we don't use LOG_PID since the pid passed to us by * our client may not be our own. therefore we want to * print the pid ourselves. */ # ifdef LOG_DAEMON openlog(ProgramName, LOG_PID, LOG_CRON); # else openlog(ProgramName, LOG_PID); # endif syslog_open = TRUE; /* assume openlog success */ } syslog(LOG_INFO, "(%s) %s (%s)\n", username, event, detail); #endif /*SYSLOG*/ #if DEBUGGING if (DebugFlags) { fprintf(stderr, "log_it: (%s %d) %s (%s)\n", username, pid, event, detail); } #endif } void log_close() { if (LogFD != ERR) { close(LogFD); LogFD = ERR; } } /* two warnings: * (1) this routine is fairly slow * (2) it returns a pointer to static storage */ char * first_word(s, t) register char *s; /* string we want the first word of */ register char *t; /* terminators, implicitly including \0 */ { static char retbuf[2][MAX_TEMPSTR + 1]; /* sure wish C had GC */ static int retsel = 0; register char *rb, *rp; /* select a return buffer */ retsel = 1-retsel; rb = &retbuf[retsel][0]; rp = rb; /* skip any leading terminators */ while (*s && (NULL != strchr(t, *s))) { s++; } /* copy until next terminator or full buffer */ while (*s && (NULL == strchr(t, *s)) && (rp < &rb[MAX_TEMPSTR])) { *rp++ = *s++; } /* finish the return-string and return it */ *rp = '\0'; return rb; } /* warning: * heavily ascii-dependent. */ void mkprint(dst, src, len) register char *dst; register unsigned char *src; register int len; { while (len-- > 0) { register unsigned char ch = *src++; if (ch < ' ') { /* control character */ *dst++ = '^'; *dst++ = ch + '@'; } else if (ch < 0177) { /* printable */ *dst++ = ch; } else if (ch == 0177) { /* delete/rubout */ *dst++ = '^'; *dst++ = '?'; } else { /* parity character */ sprintf(dst, "\\%03o", ch); dst += 4; } } *dst = '\0'; } /* warning: * returns a pointer to malloc'd storage, you must call free yourself. */ char * mkprints(src, len) register unsigned char *src; register unsigned int len; { register char *dst = malloc(len*4 + 1); if (dst) mkprint(dst, src, len); return dst; } #ifdef MAIL_DATE /* Sat, 27 Feb 93 11:44:51 CST * 123456789012345678901234567 */ char * arpadate(clock) time_t *clock; { time_t t = clock ?*clock :time(0L); struct tm *tm = localtime(&t); static char ret[30]; /* zone name might be >3 chars */ (void) sprintf(ret, "%s, %2d %s %2d %02d:%02d:%02d %s", DowNames[tm->tm_wday], tm->tm_mday, MonthNames[tm->tm_mon], tm->tm_year, tm->tm_hour, tm->tm_min, tm->tm_sec, TZONE(*tm)); return ret; } #endif /*MAIL_DATE*/ #ifdef HAVE_SAVED_UIDS static int save_euid; int swap_uids() { save_euid = geteuid(); return seteuid(getuid()); } int swap_uids_back() { return seteuid(save_euid); } #else /*HAVE_SAVED_UIDS*/ int swap_uids() { return setreuid(geteuid(), getuid()); } int swap_uids_back() { return swap_uids(); } #endif /*HAVE_SAVED_UIDS*/