/* * Copyright (c) 1998-2006 Sendmail, Inc. and its suppliers. * All rights reserved. * Copyright (c) 1983, 1995-1997 Eric P. Allman. All rights reserved. * Copyright (c) 1988, 1993 * The Regents of the University of California. All rights reserved. * * By using this file, you agree to the terms and conditions set * forth in the LICENSE file which can be found at the top level of * the sendmail distribution. * */ #pragma ident "%Z%%M% %I% %E% SMI" #include SM_RCSID("@(#)$Id: util.c,v 8.410 2006/12/18 18:36:44 ca Exp $") #include #include #include /* ** NEWSTR -- Create a copy of a C string ** ** Parameters: ** s -- the string to copy. ** ** Returns: ** pointer to newly allocated string. */ char * newstr(s) const char *s; { size_t l; char *n; l = strlen(s); SM_ASSERT(l + 1 > l); n = xalloc(l + 1); sm_strlcpy(n, s, l + 1); return n; } /* ** ADDQUOTES -- Adds quotes & quote bits to a string. ** ** Runs through a string and adds backslashes and quote bits. ** ** Parameters: ** s -- the string to modify. ** rpool -- resource pool from which to allocate result ** ** Returns: ** pointer to quoted string. */ char * addquotes(s, rpool) char *s; SM_RPOOL_T *rpool; { int len = 0; char c; char *p = s, *q, *r; if (s == NULL) return NULL; /* Find length of quoted string */ while ((c = *p++) != '\0') { len++; if (c == '\\' || c == '"') len++; } q = r = sm_rpool_malloc_x(rpool, len + 3); p = s; /* add leading quote */ *q++ = '"'; while ((c = *p++) != '\0') { /* quote \ or " */ if (c == '\\' || c == '"') *q++ = '\\'; *q++ = c; } *q++ = '"'; *q = '\0'; return r; } /* ** STRIPBACKSLASH -- Strip all leading backslashes from a string, provided ** the following character is alpha-numerical. ** ** This is done in place. ** ** Parameters: ** s -- the string to strip. ** ** Returns: ** none. */ void stripbackslash(s) char *s; { char *p, *q, c; if (s == NULL || *s == '\0') return; p = q = s; while (*p == '\\' && (p[1] == '\\' || (isascii(p[1]) && isalnum(p[1])))) p++; do { c = *q++ = *p++; } while (c != '\0'); } /* ** RFC822_STRING -- Checks string for proper RFC822 string quoting. ** ** Runs through a string and verifies RFC822 special characters ** are only found inside comments, quoted strings, or backslash ** escaped. Also verified balanced quotes and parenthesis. ** ** Parameters: ** s -- the string to modify. ** ** Returns: ** true iff the string is RFC822 compliant, false otherwise. */ bool rfc822_string(s) char *s; { bool quoted = false; int commentlev = 0; char *c = s; if (s == NULL) return false; while (*c != '\0') { /* escaped character */ if (*c == '\\') { c++; if (*c == '\0') return false; } else if (commentlev == 0 && *c == '"') quoted = !quoted; else if (!quoted) { if (*c == ')') { /* unbalanced ')' */ if (commentlev == 0) return false; else commentlev--; } else if (*c == '(') commentlev++; else if (commentlev == 0 && strchr(MustQuoteChars, *c) != NULL) return false; } c++; } /* unbalanced '"' or '(' */ return !quoted && commentlev == 0; } /* ** SHORTEN_RFC822_STRING -- Truncate and rebalance an RFC822 string ** ** Arbitrarily shorten (in place) an RFC822 string and rebalance ** comments and quotes. ** ** Parameters: ** string -- the string to shorten ** length -- the maximum size, 0 if no maximum ** ** Returns: ** true if string is changed, false otherwise ** ** Side Effects: ** Changes string in place, possibly resulting ** in a shorter string. */ bool shorten_rfc822_string(string, length) char *string; size_t length; { bool backslash = false; bool modified = false; bool quoted = false; size_t slen; int parencount = 0; char *ptr = string; /* ** If have to rebalance an already short enough string, ** need to do it within allocated space. */ slen = strlen(string); if (length == 0 || slen < length) length = slen; while (*ptr != '\0') { if (backslash) { backslash = false; goto increment; } if (*ptr == '\\') backslash = true; else if (*ptr == '(') { if (!quoted) parencount++; } else if (*ptr == ')') { if (--parencount < 0) parencount = 0; } /* Inside a comment, quotes don't matter */ if (parencount <= 0 && *ptr == '"') quoted = !quoted; increment: /* Check for sufficient space for next character */ if (length - (ptr - string) <= (size_t) ((backslash ? 1 : 0) + parencount + (quoted ? 1 : 0))) { /* Not enough, backtrack */ if (*ptr == '\\') backslash = false; else if (*ptr == '(' && !quoted) parencount--; else if (*ptr == '"' && parencount == 0) quoted = false; break; } ptr++; } /* Rebalance */ while (parencount-- > 0) { if (*ptr != ')') { modified = true; *ptr = ')'; } ptr++; } if (quoted) { if (*ptr != '"') { modified = true; *ptr = '"'; } ptr++; } if (*ptr != '\0') { modified = true; *ptr = '\0'; } return modified; } /* ** FIND_CHARACTER -- find an unquoted character in an RFC822 string ** ** Find an unquoted, non-commented character in an RFC822 ** string and return a pointer to its location in the ** string. ** ** Parameters: ** string -- the string to search ** character -- the character to find ** ** Returns: ** pointer to the character, or ** a pointer to the end of the line if character is not found */ char * find_character(string, character) char *string; int character; { bool backslash = false; bool quoted = false; int parencount = 0; while (string != NULL && *string != '\0') { if (backslash) { backslash = false; if (!quoted && character == '\\' && *string == '\\') break; string++; continue; } switch (*string) { case '\\': backslash = true; break; case '(': if (!quoted) parencount++; break; case ')': if (--parencount < 0) parencount = 0; break; } /* Inside a comment, nothing matters */ if (parencount > 0) { string++; continue; } if (*string == '"') quoted = !quoted; else if (*string == character && !quoted) break; string++; } /* Return pointer to the character */ return string; } /* ** CHECK_BODYTYPE -- check bodytype parameter ** ** Parameters: ** bodytype -- bodytype parameter ** ** Returns: ** BODYTYPE_* according to parameter ** */ int check_bodytype(bodytype) char *bodytype; { /* check body type for legality */ if (bodytype == NULL) return BODYTYPE_NONE; if (sm_strcasecmp(bodytype, "7BIT") == 0) return BODYTYPE_7BIT; if (sm_strcasecmp(bodytype, "8BITMIME") == 0) return BODYTYPE_8BITMIME; return BODYTYPE_ILLEGAL; } /* ** TRUNCATE_AT_DELIM -- truncate string at a delimiter and append "..." ** ** Parameters: ** str -- string to truncate ** len -- maximum length (including '\0') (0 for unlimited) ** delim -- delimiter character ** ** Returns: ** None. */ void truncate_at_delim(str, len, delim) char *str; size_t len; int delim; { char *p; if (str == NULL || len == 0 || strlen(str) < len) return; *(str + len - 1) = '\0'; while ((p = strrchr(str, delim)) != NULL) { *p = '\0'; if (p - str + 4 < len) { *p++ = (char) delim; *p = '\0'; (void) sm_strlcat(str, "...", len); return; } } /* Couldn't find a place to append "..." */ if (len > 3) (void) sm_strlcpy(str, "...", len); else str[0] = '\0'; } /* ** XALLOC -- Allocate memory, raise an exception on error ** ** Parameters: ** sz -- size of area to allocate. ** ** Returns: ** pointer to data region. ** ** Exceptions: ** SmHeapOutOfMemory (F:sm.heap) -- cannot allocate memory ** ** Side Effects: ** Memory is allocated. */ char * #if SM_HEAP_CHECK xalloc_tagged(sz, file, line) register int sz; char *file; int line; #else /* SM_HEAP_CHECK */ xalloc(sz) register int sz; #endif /* SM_HEAP_CHECK */ { register char *p; SM_REQUIRE(sz >= 0); /* some systems can't handle size zero mallocs */ if (sz <= 0) sz = 1; /* scaffolding for testing error handling code */ sm_xtrap_raise_x(&SmHeapOutOfMemory); p = sm_malloc_tagged((unsigned) sz, file, line, sm_heap_group()); if (p == NULL) { sm_exc_raise_x(&SmHeapOutOfMemory); } return p; } /* ** COPYPLIST -- copy list of pointers. ** ** This routine is the equivalent of strdup for lists of ** pointers. ** ** Parameters: ** list -- list of pointers to copy. ** Must be NULL terminated. ** copycont -- if true, copy the contents of the vector ** (which must be a string) also. ** rpool -- resource pool from which to allocate storage, ** or NULL ** ** Returns: ** a copy of 'list'. */ char ** copyplist(list, copycont, rpool) char **list; bool copycont; SM_RPOOL_T *rpool; { register char **vp; register char **newvp; for (vp = list; *vp != NULL; vp++) continue; vp++; newvp = (char **) sm_rpool_malloc_x(rpool, (vp - list) * sizeof(*vp)); memmove((char *) newvp, (char *) list, (int) (vp - list) * sizeof(*vp)); if (copycont) { for (vp = newvp; *vp != NULL; vp++) *vp = sm_rpool_strdup_x(rpool, *vp); } return newvp; } /* ** COPYQUEUE -- copy address queue. ** ** This routine is the equivalent of strdup for address queues; ** addresses marked as QS_IS_DEAD() aren't copied ** ** Parameters: ** addr -- list of address structures to copy. ** rpool -- resource pool from which to allocate storage ** ** Returns: ** a copy of 'addr'. */ ADDRESS * copyqueue(addr, rpool) ADDRESS *addr; SM_RPOOL_T *rpool; { register ADDRESS *newaddr; ADDRESS *ret; register ADDRESS **tail = &ret; while (addr != NULL) { if (!QS_IS_DEAD(addr->q_state)) { newaddr = (ADDRESS *) sm_rpool_malloc_x(rpool, sizeof(*newaddr)); STRUCTCOPY(*addr, *newaddr); *tail = newaddr; tail = &newaddr->q_next; } addr = addr->q_next; } *tail = NULL; return ret; } /* ** LOG_SENDMAIL_PID -- record sendmail pid and command line. ** ** Parameters: ** e -- the current envelope. ** ** Returns: ** none. ** ** Side Effects: ** writes pidfile, logs command line. ** keeps file open and locked to prevent overwrite of active file */ static SM_FILE_T *Pidf = NULL; void log_sendmail_pid(e) ENVELOPE *e; { long sff; char pidpath[MAXPATHLEN]; extern char *CommandLineArgs; /* write the pid to the log file for posterity */ sff = SFF_NOLINK|SFF_ROOTOK|SFF_REGONLY|SFF_CREAT|SFF_NBLOCK; if (TrustedUid != 0 && RealUid == TrustedUid) sff |= SFF_OPENASROOT; expand(PidFile, pidpath, sizeof(pidpath), e); Pidf = safefopen(pidpath, O_WRONLY|O_TRUNC, FileMode, sff); if (Pidf == NULL) { if (errno == EWOULDBLOCK) sm_syslog(LOG_ERR, NOQID, "unable to write pid to %s: file in use by another process", pidpath); else sm_syslog(LOG_ERR, NOQID, "unable to write pid to %s: %s", pidpath, sm_errstring(errno)); } else { PidFilePid = getpid(); /* write the process id on line 1 */ (void) sm_io_fprintf(Pidf, SM_TIME_DEFAULT, "%ld\n", (long) PidFilePid); /* line 2 contains all command line flags */ (void) sm_io_fprintf(Pidf, SM_TIME_DEFAULT, "%s\n", CommandLineArgs); /* flush */ (void) sm_io_flush(Pidf, SM_TIME_DEFAULT); /* ** Leave pid file open until process ends ** so it's not overwritten by another ** process. */ } if (LogLevel > 9) sm_syslog(LOG_INFO, NOQID, "started as: %s", CommandLineArgs); } /* ** CLOSE_SENDMAIL_PID -- close sendmail pid file ** ** Parameters: ** none. ** ** Returns: ** none. */ void close_sendmail_pid() { if (Pidf == NULL) return; (void) sm_io_close(Pidf, SM_TIME_DEFAULT); Pidf = NULL; } /* ** SET_DELIVERY_MODE -- set and record the delivery mode ** ** Parameters: ** mode -- delivery mode ** e -- the current envelope. ** ** Returns: ** none. ** ** Side Effects: ** sets {deliveryMode} macro */ void set_delivery_mode(mode, e) int mode; ENVELOPE *e; { char buf[2]; e->e_sendmode = (char) mode; buf[0] = (char) mode; buf[1] = '\0'; macdefine(&e->e_macro, A_TEMP, macid("{deliveryMode}"), buf); } /* ** SET_OP_MODE -- set and record the op mode ** ** Parameters: ** mode -- op mode ** e -- the current envelope. ** ** Returns: ** none. ** ** Side Effects: ** sets {opMode} macro */ void set_op_mode(mode) int mode; { char buf[2]; extern ENVELOPE BlankEnvelope; OpMode = (char) mode; buf[0] = (char) mode; buf[1] = '\0'; macdefine(&BlankEnvelope.e_macro, A_TEMP, MID_OPMODE, buf); } /* ** PRINTAV -- print argument vector. ** ** Parameters: ** fp -- output file pointer. ** av -- argument vector. ** ** Returns: ** none. ** ** Side Effects: ** prints av. */ void printav(fp, av) SM_FILE_T *fp; char **av; { while (*av != NULL) { if (tTd(0, 44)) sm_dprintf("\n\t%08lx=", (unsigned long) *av); else (void) sm_io_putc(fp, SM_TIME_DEFAULT, ' '); if (tTd(0, 99)) sm_dprintf("%s", str2prt(*av++)); else xputs(fp, *av++); } (void) sm_io_putc(fp, SM_TIME_DEFAULT, '\n'); } /* ** XPUTS -- put string doing control escapes. ** ** Parameters: ** fp -- output file pointer. ** s -- string to put. ** ** Returns: ** none. ** ** Side Effects: ** output to stdout */ void xputs(fp, s) SM_FILE_T *fp; const char *s; { int c; struct metamac *mp; bool shiftout = false; extern struct metamac MetaMacros[]; static SM_DEBUG_T DebugANSI = SM_DEBUG_INITIALIZER("ANSI", "@(#)$Debug: ANSI - enable reverse video in debug output $"); /* ** TermEscape is set here, rather than in main(), ** because ANSI mode can be turned on or off at any time ** if we are in -bt rule testing mode. */ if (sm_debug_unknown(&DebugANSI)) { if (sm_debug_active(&DebugANSI, 1)) { TermEscape.te_rv_on = "\033[7m"; TermEscape.te_normal = "\033[0m"; } else { TermEscape.te_rv_on = ""; TermEscape.te_normal = ""; } } if (s == NULL) { (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%s%s", TermEscape.te_rv_on, TermEscape.te_normal); return; } while ((c = (*s++ & 0377)) != '\0') { if (shiftout) { (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%s", TermEscape.te_normal); shiftout = false; } if (!isascii(c) && !tTd(84, 1)) { if (c == MATCHREPL) { (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%s$", TermEscape.te_rv_on); shiftout = true; if (*s == '\0') continue; c = *s++ & 0377; goto printchar; } if (c == MACROEXPAND || c == MACRODEXPAND) { (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%s$", TermEscape.te_rv_on); if (c == MACRODEXPAND) (void) sm_io_putc(fp, SM_TIME_DEFAULT, '&'); shiftout = true; if (*s == '\0') continue; if (strchr("=~&?", *s) != NULL) (void) sm_io_putc(fp, SM_TIME_DEFAULT, *s++); if (bitset(0200, *s)) (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "{%s}", macname(bitidx(*s++))); else (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%c", *s++); continue; } for (mp = MetaMacros; mp->metaname != '\0'; mp++) { if (bitidx(mp->metaval) == c) { (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%s$%c", TermEscape.te_rv_on, mp->metaname); shiftout = true; break; } } if (c == MATCHCLASS || c == MATCHNCLASS) { if (bitset(0200, *s)) (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "{%s}", macname(bitidx(*s++))); else if (*s != '\0') (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%c", *s++); } if (mp->metaname != '\0') continue; /* unrecognized meta character */ (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%sM-", TermEscape.te_rv_on); shiftout = true; c &= 0177; } printchar: if (isprint(c)) { (void) sm_io_putc(fp, SM_TIME_DEFAULT, c); continue; } /* wasn't a meta-macro -- find another way to print it */ switch (c) { case '\n': c = 'n'; break; case '\r': c = 'r'; break; case '\t': c = 't'; break; } if (!shiftout) { (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%s", TermEscape.te_rv_on); shiftout = true; } if (isprint(c)) { (void) sm_io_putc(fp, SM_TIME_DEFAULT, '\\'); (void) sm_io_putc(fp, SM_TIME_DEFAULT, c); } else if (tTd(84, 2)) (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, " %o ", c); else if (tTd(84, 1)) (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, " %#x ", c); else if (!isascii(c) && !tTd(84, 1)) { (void) sm_io_putc(fp, SM_TIME_DEFAULT, '^'); (void) sm_io_putc(fp, SM_TIME_DEFAULT, c ^ 0100); } } if (shiftout) (void) sm_io_fprintf(fp, SM_TIME_DEFAULT, "%s", TermEscape.te_normal); (void) sm_io_flush(fp, SM_TIME_DEFAULT); } /* ** MAKELOWER -- Translate a line into lower case ** ** Parameters: ** p -- the string to translate. If NULL, return is ** immediate. ** ** Returns: ** none. ** ** Side Effects: ** String pointed to by p is translated to lower case. */ void makelower(p) register char *p; { register char c; if (p == NULL) return; for (; (c = *p) != '\0'; p++) if (isascii(c) && isupper(c)) *p = tolower(c); } /* ** FIXCRLF -- fix in line. ** ** Looks for the combination and turns it into the ** UNIX canonical character. It only takes one line, ** i.e., it is assumed that the first found is the end ** of the line. ** ** Parameters: ** line -- the line to fix. ** stripnl -- if true, strip the newline also. ** ** Returns: ** none. ** ** Side Effects: ** line is changed in place. */ void fixcrlf(line, stripnl) char *line; bool stripnl; { register char *p; p = strchr(line, '\n'); if (p == NULL) return; if (p > line && p[-1] == '\r') p--; if (!stripnl) *p++ = '\n'; *p = '\0'; } /* ** PUTLINE -- put a line like fputs obeying SMTP conventions ** ** This routine always guarantees outputing a newline (or CRLF, ** as appropriate) at the end of the string. ** ** Parameters: ** l -- line to put. ** mci -- the mailer connection information. ** ** Returns: ** true iff line was written successfully ** ** Side Effects: ** output of l to mci->mci_out. */ bool putline(l, mci) register char *l; register MCI *mci; { return putxline(l, strlen(l), mci, PXLF_MAPFROM); } /* ** PUTXLINE -- putline with flags bits. ** ** This routine always guarantees outputing a newline (or CRLF, ** as appropriate) at the end of the string. ** ** Parameters: ** l -- line to put. ** len -- the length of the line. ** mci -- the mailer connection information. ** pxflags -- flag bits: ** PXLF_MAPFROM -- map From_ to >From_. ** PXLF_STRIP8BIT -- strip 8th bit. ** PXLF_HEADER -- map bare newline in header to newline space. ** PXLF_NOADDEOL -- don't add an EOL if one wasn't present. ** PXLF_STRIPMQUOTE -- strip METAQUOTE bytes. ** ** Returns: ** true iff line was written successfully ** ** Side Effects: ** output of l to mci->mci_out. */ #define PUTX(limit) \ do \ { \ quotenext = false; \ while (l < limit) \ { \ unsigned char c = (unsigned char) *l++; \ \ if (bitset(PXLF_STRIPMQUOTE, pxflags) && \ !quotenext && c == METAQUOTE) \ { \ quotenext = true; \ continue; \ } \ quotenext = false; \ if (strip8bit) \ c &= 0177; \ if (sm_io_putc(mci->mci_out, SM_TIME_DEFAULT, \ c) == SM_IO_EOF) \ { \ dead = true; \ break; \ } \ if (TrafficLogFile != NULL) \ (void) sm_io_putc(TrafficLogFile, \ SM_TIME_DEFAULT, \ c); \ } \ } while (0) bool putxline(l, len, mci, pxflags) register char *l; size_t len; register MCI *mci; int pxflags; { register char *p, *end; int slop; bool dead, quotenext, strip8bit; /* strip out 0200 bits -- these can look like TELNET protocol */ strip8bit = bitset(MCIF_7BIT, mci->mci_flags) || bitset(PXLF_STRIP8BIT, pxflags); dead = false; slop = 0; end = l + len; do { bool noeol = false; /* find the end of the line */ p = memchr(l, '\n', end - l); if (p == NULL) { p = end; noeol = true; } if (TrafficLogFile != NULL) (void) sm_io_fprintf(TrafficLogFile, SM_TIME_DEFAULT, "%05d >>> ", (int) CurrentPid); /* check for line overflow */ while (mci->mci_mailer->m_linelimit > 0 && (p - l + slop) > mci->mci_mailer->m_linelimit) { register char *q = &l[mci->mci_mailer->m_linelimit - slop - 1]; if (l[0] == '.' && slop == 0 && bitnset(M_XDOT, mci->mci_mailer->m_flags)) { if (sm_io_putc(mci->mci_out, SM_TIME_DEFAULT, '.') == SM_IO_EOF) dead = true; if (TrafficLogFile != NULL) (void) sm_io_putc(TrafficLogFile, SM_TIME_DEFAULT, '.'); } else if (l[0] == 'F' && slop == 0 && bitset(PXLF_MAPFROM, pxflags) && strncmp(l, "From ", 5) == 0 && bitnset(M_ESCFROM, mci->mci_mailer->m_flags)) { if (sm_io_putc(mci->mci_out, SM_TIME_DEFAULT, '>') == SM_IO_EOF) dead = true; if (TrafficLogFile != NULL) (void) sm_io_putc(TrafficLogFile, SM_TIME_DEFAULT, '>'); } if (dead) break; PUTX(q); if (dead) break; if (sm_io_putc(mci->mci_out, SM_TIME_DEFAULT, '!') == SM_IO_EOF || sm_io_fputs(mci->mci_out, SM_TIME_DEFAULT, mci->mci_mailer->m_eol) == SM_IO_EOF || sm_io_putc(mci->mci_out, SM_TIME_DEFAULT, ' ') == SM_IO_EOF) { dead = true; break; } if (TrafficLogFile != NULL) { (void) sm_io_fprintf(TrafficLogFile, SM_TIME_DEFAULT, "!\n%05d >>> ", (int) CurrentPid); } slop = 1; } if (dead) break; /* output last part */ if (l[0] == '.' && slop == 0 && bitnset(M_XDOT, mci->mci_mailer->m_flags)) { if (sm_io_putc(mci->mci_out, SM_TIME_DEFAULT, '.') == SM_IO_EOF) { dead = true; break; } if (TrafficLogFile != NULL) (void) sm_io_putc(TrafficLogFile, SM_TIME_DEFAULT, '.'); } else if (l[0] == 'F' && slop == 0 && bitset(PXLF_MAPFROM, pxflags) && strncmp(l, "From ", 5) == 0 && bitnset(M_ESCFROM, mci->mci_mailer->m_flags)) { if (sm_io_putc(mci->mci_out, SM_TIME_DEFAULT, '>') == SM_IO_EOF) { dead = true; break; } if (TrafficLogFile != NULL) (void) sm_io_putc(TrafficLogFile, SM_TIME_DEFAULT, '>'); } PUTX(p); if (dead) break; if (TrafficLogFile != NULL) (void) sm_io_putc(TrafficLogFile, SM_TIME_DEFAULT, '\n'); if ((!bitset(PXLF_NOADDEOL, pxflags) || !noeol) && sm_io_fputs(mci->mci_out, SM_TIME_DEFAULT, mci->mci_mailer->m_eol) == SM_IO_EOF) { dead = true; break; } if (l < end && *l == '\n') { if (*++l != ' ' && *l != '\t' && *l != '\0' && bitset(PXLF_HEADER, pxflags)) { if (sm_io_putc(mci->mci_out, SM_TIME_DEFAULT, ' ') == SM_IO_EOF) { dead = true; break; } if (TrafficLogFile != NULL) (void) sm_io_putc(TrafficLogFile, SM_TIME_DEFAULT, ' '); } } } while (l < end); return !dead; } /* ** XUNLINK -- unlink a file, doing logging as appropriate. ** ** Parameters: ** f -- name of file to unlink. ** ** Returns: ** return value of unlink() ** ** Side Effects: ** f is unlinked. */ int xunlink(f) char *f; { register int i; int save_errno; if (LogLevel > 98) sm_syslog(LOG_DEBUG, CurEnv->e_id, "unlink %s", f); i = unlink(f); save_errno = errno; if (i < 0 && LogLevel > 97) sm_syslog(LOG_DEBUG, CurEnv->e_id, "%s: unlink-fail %d", f, errno); if (i >= 0) SYNC_DIR(f, false); errno = save_errno; return i; } /* ** SFGETS -- "safe" fgets -- times out and ignores random interrupts. ** ** Parameters: ** buf -- place to put the input line. ** siz -- size of buf. ** fp -- file to read from. ** timeout -- the timeout before error occurs. ** during -- what we are trying to read (for error messages). ** ** Returns: ** NULL on error (including timeout). This may also leave ** buf containing a null string. ** buf otherwise. */ char * sfgets(buf, siz, fp, timeout, during) char *buf; int siz; SM_FILE_T *fp; time_t timeout; char *during; { register char *p; int save_errno; int io_timeout; SM_REQUIRE(siz > 0); SM_REQUIRE(buf != NULL); if (fp == NULL) { buf[0] = '\0'; errno = EBADF; return NULL; } /* try to read */ p = NULL; errno = 0; /* convert the timeout to sm_io notation */ io_timeout = (timeout <= 0) ? SM_TIME_DEFAULT : timeout * 1000; while (!sm_io_eof(fp) && !sm_io_error(fp)) { errno = 0; p = sm_io_fgets(fp, io_timeout, buf, siz); if (p == NULL && errno == EAGAIN) { /* The sm_io_fgets() call timedout */ if (LogLevel > 1) sm_syslog(LOG_NOTICE, CurEnv->e_id, "timeout waiting for input from %.100s during %s", CURHOSTNAME, during); buf[0] = '\0'; #if XDEBUG checkfd012(during); #endif /* XDEBUG */ if (TrafficLogFile != NULL) (void) sm_io_fprintf(TrafficLogFile, SM_TIME_DEFAULT, "%05d <<< [TIMEOUT]\n", (int) CurrentPid); errno = ETIMEDOUT; return NULL; } if (p != NULL || errno != EINTR) break; (void) sm_io_clearerr(fp); } save_errno = errno; /* clean up the books and exit */ LineNumber++; if (p == NULL) { buf[0] = '\0'; if (TrafficLogFile != NULL) (void) sm_io_fprintf(TrafficLogFile, SM_TIME_DEFAULT, "%05d <<< [EOF]\n", (int) CurrentPid); errno = save_errno; return NULL; } if (TrafficLogFile != NULL) (void) sm_io_fprintf(TrafficLogFile, SM_TIME_DEFAULT, "%05d <<< %s", (int) CurrentPid, buf); if (SevenBitInput) { for (p = buf; *p != '\0'; p++) *p &= ~0200; } else if (!HasEightBits) { for (p = buf; *p != '\0'; p++) { if (bitset(0200, *p)) { HasEightBits = true; break; } } } return buf; } /* ** FGETFOLDED -- like fgets, but knows about folded lines. ** ** Parameters: ** buf -- place to put result. ** np -- pointer to bytes available; will be updated with ** the actual buffer size (not number of bytes filled) ** on return. ** f -- file to read from. ** ** Returns: ** input line(s) on success, NULL on error or SM_IO_EOF. ** This will normally be buf -- unless the line is too ** long, when it will be sm_malloc_x()ed. ** ** Side Effects: ** buf gets lines from f, with continuation lines (lines ** with leading white space) appended. CRLF's are mapped ** into single newlines. Any trailing NL is stripped. */ char * fgetfolded(buf, np, f) char *buf; int *np; SM_FILE_T *f; { register char *p = buf; char *bp = buf; register int i; int n; SM_REQUIRE(np != NULL); n = *np; SM_REQUIRE(n > 0); SM_REQUIRE(buf != NULL); if (f == NULL) { buf[0] = '\0'; errno = EBADF; return NULL; } n--; while ((i = sm_io_getc(f, SM_TIME_DEFAULT)) != SM_IO_EOF) { if (i == '\r') { i = sm_io_getc(f, SM_TIME_DEFAULT); if (i != '\n') { if (i != SM_IO_EOF) (void) sm_io_ungetc(f, SM_TIME_DEFAULT, i); i = '\r'; } } if (--n <= 0) { /* allocate new space */ char *nbp; int nn; nn = (p - bp); if (nn < MEMCHUNKSIZE) nn *= 2; else nn += MEMCHUNKSIZE; nbp = sm_malloc_x(nn); memmove(nbp, bp, p - bp); p = &nbp[p - bp]; if (bp != buf) sm_free(bp); bp = nbp; n = nn - (p - bp); *np = nn; } *p++ = i; if (i == '\n') { LineNumber++; i = sm_io_getc(f, SM_TIME_DEFAULT); if (i != SM_IO_EOF) (void) sm_io_ungetc(f, SM_TIME_DEFAULT, i); if (i != ' ' && i != '\t') break; } } if (p == bp) return NULL; if (p[-1] == '\n') p--; *p = '\0'; return bp; } /* ** CURTIME -- return current time. ** ** Parameters: ** none. ** ** Returns: ** the current time. */ time_t curtime() { auto time_t t; (void) time(&t); return t; } /* ** ATOBOOL -- convert a string representation to boolean. ** ** Defaults to false ** ** Parameters: ** s -- string to convert. Takes "tTyY", empty, and NULL as true, ** others as false. ** ** Returns: ** A boolean representation of the string. */ bool atobool(s) register char *s; { if (s == NULL || *s == '\0' || strchr("tTyY", *s) != NULL) return true; return false; } /* ** ATOOCT -- convert a string representation to octal. ** ** Parameters: ** s -- string to convert. ** ** Returns: ** An integer representing the string interpreted as an ** octal number. */ int atooct(s) register char *s; { register int i = 0; while (*s >= '0' && *s <= '7') i = (i << 3) | (*s++ - '0'); return i; } /* ** BITINTERSECT -- tell if two bitmaps intersect ** ** Parameters: ** a, b -- the bitmaps in question ** ** Returns: ** true if they have a non-null intersection ** false otherwise */ bool bitintersect(a, b) BITMAP256 a; BITMAP256 b; { int i; for (i = BITMAPBYTES / sizeof(int); --i >= 0; ) { if ((a[i] & b[i]) != 0) return true; } return false; } /* ** BITZEROP -- tell if a bitmap is all zero ** ** Parameters: ** map -- the bit map to check ** ** Returns: ** true if map is all zero. ** false if there are any bits set in map. */ bool bitzerop(map) BITMAP256 map; { int i; for (i = BITMAPBYTES / sizeof(int); --i >= 0; ) { if (map[i] != 0) return false; } return true; } /* ** STRCONTAINEDIN -- tell if one string is contained in another ** ** Parameters: ** icase -- ignore case? ** a -- possible substring. ** b -- possible superstring. ** ** Returns: ** true if a is contained in b (case insensitive). ** false otherwise. */ bool strcontainedin(icase, a, b) bool icase; register char *a; register char *b; { int la; int lb; int c; la = strlen(a); lb = strlen(b); c = *a; if (icase && isascii(c) && isupper(c)) c = tolower(c); for (; lb-- >= la; b++) { if (icase) { if (*b != c && isascii(*b) && isupper(*b) && tolower(*b) != c) continue; if (sm_strncasecmp(a, b, la) == 0) return true; } else { if (*b != c) continue; if (strncmp(a, b, la) == 0) return true; } } return false; } /* ** CHECKFD012 -- check low numbered file descriptors ** ** File descriptors 0, 1, and 2 should be open at all times. ** This routine verifies that, and fixes it if not true. ** ** Parameters: ** where -- a tag printed if the assertion failed ** ** Returns: ** none */ void checkfd012(where) char *where; { #if XDEBUG register int i; for (i = 0; i < 3; i++) fill_fd(i, where); #endif /* XDEBUG */ } /* ** CHECKFDOPEN -- make sure file descriptor is open -- for extended debugging ** ** Parameters: ** fd -- file descriptor to check. ** where -- tag to print on failure. ** ** Returns: ** none. */ void checkfdopen(fd, where) int fd; char *where; { #if XDEBUG struct stat st; if (fstat(fd, &st) < 0 && errno == EBADF) { syserr("checkfdopen(%d): %s not open as expected!", fd, where); printopenfds(true); } #endif /* XDEBUG */ } /* ** CHECKFDS -- check for new or missing file descriptors ** ** Parameters: ** where -- tag for printing. If null, take a base line. ** ** Returns: ** none ** ** Side Effects: ** If where is set, shows changes since the last call. */ void checkfds(where) char *where; { int maxfd; register int fd; bool printhdr = true; int save_errno = errno; static BITMAP256 baseline; extern int DtableSize; if (DtableSize > BITMAPBITS) maxfd = BITMAPBITS; else maxfd = DtableSize; if (where == NULL) clrbitmap(baseline); for (fd = 0; fd < maxfd; fd++) { struct stat stbuf; if (fstat(fd, &stbuf) < 0 && errno != EOPNOTSUPP) { if (!bitnset(fd, baseline)) continue; clrbitn(fd, baseline); } else if (!bitnset(fd, baseline)) setbitn(fd, baseline); else continue; /* file state has changed */ if (where == NULL) continue; if (printhdr) { sm_syslog(LOG_DEBUG, CurEnv->e_id, "%s: changed fds:", where); printhdr = false; } dumpfd(fd, true, true); } errno = save_errno; } /* ** PRINTOPENFDS -- print the open file descriptors (for debugging) ** ** Parameters: ** logit -- if set, send output to syslog; otherwise ** print for debugging. ** ** Returns: ** none. */ #if NETINET || NETINET6 # include #endif /* NETINET || NETINET6 */ void printopenfds(logit) bool logit; { register int fd; extern int DtableSize; for (fd = 0; fd < DtableSize; fd++) dumpfd(fd, false, logit); } /* ** DUMPFD -- dump a file descriptor ** ** Parameters: ** fd -- the file descriptor to dump. ** printclosed -- if set, print a notification even if ** it is closed; otherwise print nothing. ** logit -- if set, use sm_syslog instead of sm_dprintf() ** ** Returns: ** none. */ void dumpfd(fd, printclosed, logit) int fd; bool printclosed; bool logit; { register char *p; char *hp; #ifdef S_IFSOCK SOCKADDR sa; #endif /* S_IFSOCK */ auto SOCKADDR_LEN_T slen; int i; #if STAT64 > 0 struct stat64 st; #else /* STAT64 > 0 */ struct stat st; #endif /* STAT64 > 0 */ char buf[200]; p = buf; (void) sm_snprintf(p, SPACELEFT(buf, p), "%3d: ", fd); p += strlen(p); if ( #if STAT64 > 0 fstat64(fd, &st) #else /* STAT64 > 0 */ fstat(fd, &st) #endif /* STAT64 > 0 */ < 0) { if (errno != EBADF) { (void) sm_snprintf(p, SPACELEFT(buf, p), "CANNOT STAT (%s)", sm_errstring(errno)); goto printit; } else if (printclosed) { (void) sm_snprintf(p, SPACELEFT(buf, p), "CLOSED"); goto printit; } return; } i = fcntl(fd, F_GETFL, 0); if (i != -1) { (void) sm_snprintf(p, SPACELEFT(buf, p), "fl=0x%x, ", i); p += strlen(p); } (void) sm_snprintf(p, SPACELEFT(buf, p), "mode=%o: ", (int) st.st_mode); p += strlen(p); switch (st.st_mode & S_IFMT) { #ifdef S_IFSOCK case S_IFSOCK: (void) sm_snprintf(p, SPACELEFT(buf, p), "SOCK "); p += strlen(p); memset(&sa, '\0', sizeof(sa)); slen = sizeof(sa); if (getsockname(fd, &sa.sa, &slen) < 0) (void) sm_snprintf(p, SPACELEFT(buf, p), "(%s)", sm_errstring(errno)); else { hp = hostnamebyanyaddr(&sa); if (hp == NULL) { /* EMPTY */ /* do nothing */ } # if NETINET else if (sa.sa.sa_family == AF_INET) (void) sm_snprintf(p, SPACELEFT(buf, p), "%s/%d", hp, ntohs(sa.sin.sin_port)); # endif /* NETINET */ # if NETINET6 else if (sa.sa.sa_family == AF_INET6) (void) sm_snprintf(p, SPACELEFT(buf, p), "%s/%d", hp, ntohs(sa.sin6.sin6_port)); # endif /* NETINET6 */ else (void) sm_snprintf(p, SPACELEFT(buf, p), "%s", hp); } p += strlen(p); (void) sm_snprintf(p, SPACELEFT(buf, p), "->"); p += strlen(p); slen = sizeof(sa); if (getpeername(fd, &sa.sa, &slen) < 0) (void) sm_snprintf(p, SPACELEFT(buf, p), "(%s)", sm_errstring(errno)); else { hp = hostnamebyanyaddr(&sa); if (hp == NULL) { /* EMPTY */ /* do nothing */ } # if NETINET else if (sa.sa.sa_family == AF_INET) (void) sm_snprintf(p, SPACELEFT(buf, p), "%s/%d", hp, ntohs(sa.sin.sin_port)); # endif /* NETINET */ # if NETINET6 else if (sa.sa.sa_family == AF_INET6) (void) sm_snprintf(p, SPACELEFT(buf, p), "%s/%d", hp, ntohs(sa.sin6.sin6_port)); # endif /* NETINET6 */ else (void) sm_snprintf(p, SPACELEFT(buf, p), "%s", hp); } break; #endif /* S_IFSOCK */ case S_IFCHR: (void) sm_snprintf(p, SPACELEFT(buf, p), "CHR: "); p += strlen(p); goto defprint; #ifdef S_IFBLK case S_IFBLK: (void) sm_snprintf(p, SPACELEFT(buf, p), "BLK: "); p += strlen(p); goto defprint; #endif /* S_IFBLK */ #if defined(S_IFIFO) && (!defined(S_IFSOCK) || S_IFIFO != S_IFSOCK) case S_IFIFO: (void) sm_snprintf(p, SPACELEFT(buf, p), "FIFO: "); p += strlen(p); goto defprint; #endif /* defined(S_IFIFO) && (!defined(S_IFSOCK) || S_IFIFO != S_IFSOCK) */ #ifdef S_IFDIR case S_IFDIR: (void) sm_snprintf(p, SPACELEFT(buf, p), "DIR: "); p += strlen(p); goto defprint; #endif /* S_IFDIR */ #ifdef S_IFLNK case S_IFLNK: (void) sm_snprintf(p, SPACELEFT(buf, p), "LNK: "); p += strlen(p); goto defprint; #endif /* S_IFLNK */ default: defprint: (void) sm_snprintf(p, SPACELEFT(buf, p), "dev=%d/%d, ino=%llu, nlink=%d, u/gid=%d/%d, ", major(st.st_dev), minor(st.st_dev), (ULONGLONG_T) st.st_ino, (int) st.st_nlink, (int) st.st_uid, (int) st.st_gid); p += strlen(p); (void) sm_snprintf(p, SPACELEFT(buf, p), "size=%llu", (ULONGLONG_T) st.st_size); break; } printit: if (logit) sm_syslog(LOG_DEBUG, CurEnv ? CurEnv->e_id : NULL, "%.800s", buf); else sm_dprintf("%s\n", buf); } /* ** SHORTEN_HOSTNAME -- strip local domain information off of hostname. ** ** Parameters: ** host -- the host to shorten (stripped in place). ** ** Returns: ** place where string was truncated, NULL if not truncated. */ char * shorten_hostname(host) char host[]; { register char *p; char *mydom; int i; bool canon = false; /* strip off final dot */ i = strlen(host); p = &host[(i == 0) ? 0 : i - 1]; if (*p == '.') { *p = '\0'; canon = true; } /* see if there is any domain at all -- if not, we are done */ p = strchr(host, '.'); if (p == NULL) return NULL; /* yes, we have a domain -- see if it looks like us */ mydom = macvalue('m', CurEnv); if (mydom == NULL) mydom = ""; i = strlen(++p); if ((canon ? sm_strcasecmp(p, mydom) : sm_strncasecmp(p, mydom, i)) == 0 && (mydom[i] == '.' || mydom[i] == '\0')) { *--p = '\0'; return p; } return NULL; } /* ** PROG_OPEN -- open a program for reading ** ** Parameters: ** argv -- the argument list. ** pfd -- pointer to a place to store the file descriptor. ** e -- the current envelope. ** ** Returns: ** pid of the process -- -1 if it failed. */ pid_t prog_open(argv, pfd, e) char **argv; int *pfd; ENVELOPE *e; { pid_t pid; int save_errno; int sff; int ret; int fdv[2]; char *p, *q; char buf[MAXPATHLEN]; extern int DtableSize; if (pipe(fdv) < 0) { syserr("%s: cannot create pipe for stdout", argv[0]); return -1; } pid = fork(); if (pid < 0) { syserr("%s: cannot fork", argv[0]); (void) close(fdv[0]); (void) close(fdv[1]); return -1; } if (pid > 0) { /* parent */ (void) close(fdv[1]); *pfd = fdv[0]; return pid; } /* Reset global flags */ RestartRequest = NULL; RestartWorkGroup = false; ShutdownRequest = NULL; PendingSignal = 0; CurrentPid = getpid(); /* ** Initialize exception stack and default exception ** handler for child process. */ sm_exc_newthread(fatal_error); /* child -- close stdin */ (void) close(0); /* stdout goes back to parent */ (void) close(fdv[0]); if (dup2(fdv[1], 1) < 0) { syserr("%s: cannot dup2 for stdout", argv[0]); _exit(EX_OSERR); } (void) close(fdv[1]); /* stderr goes to transcript if available */ if (e->e_xfp != NULL) { int xfd; xfd = sm_io_getinfo(e->e_xfp, SM_IO_WHAT_FD, NULL); if (xfd >= 0 && dup2(xfd, 2) < 0) { syserr("%s: cannot dup2 for stderr", argv[0]); _exit(EX_OSERR); } } /* this process has no right to the queue file */ if (e->e_lockfp != NULL) { int fd; fd = sm_io_getinfo(e->e_lockfp, SM_IO_WHAT_FD, NULL); if (fd >= 0) (void) close(fd); else syserr("%s: lockfp does not have a fd", argv[0]); } /* chroot to the program mailer directory, if defined */ if (ProgMailer != NULL && ProgMailer->m_rootdir != NULL) { expand(ProgMailer->m_rootdir, buf, sizeof(buf), e); if (chroot(buf) < 0) { syserr("prog_open: cannot chroot(%s)", buf); exit(EX_TEMPFAIL); } if (chdir("/") < 0) { syserr("prog_open: cannot chdir(/)"); exit(EX_TEMPFAIL); } } /* run as default user */ endpwent(); sm_mbdb_terminate(); #if _FFR_MEMSTAT (void) sm_memstat_close(); #endif /* _FFR_MEMSTAT */ if (setgid(DefGid) < 0 && geteuid() == 0) { syserr("prog_open: setgid(%ld) failed", (long) DefGid); exit(EX_TEMPFAIL); } if (setuid(DefUid) < 0 && geteuid() == 0) { syserr("prog_open: setuid(%ld) failed", (long) DefUid); exit(EX_TEMPFAIL); } /* run in some directory */ if (ProgMailer != NULL) p = ProgMailer->m_execdir; else p = NULL; for (; p != NULL; p = q) { q = strchr(p, ':'); if (q != NULL) *q = '\0'; expand(p, buf, sizeof(buf), e); if (q != NULL) *q++ = ':'; if (buf[0] != '\0' && chdir(buf) >= 0) break; } if (p == NULL) { /* backup directories */ if (chdir("/tmp") < 0) (void) chdir("/"); } /* Check safety of program to be run */ sff = SFF_ROOTOK|SFF_EXECOK; if (!bitnset(DBS_RUNWRITABLEPROGRAM, DontBlameSendmail)) sff |= SFF_NOGWFILES|SFF_NOWWFILES; if (bitnset(DBS_RUNPROGRAMINUNSAFEDIRPATH, DontBlameSendmail)) sff |= SFF_NOPATHCHECK; else sff |= SFF_SAFEDIRPATH; ret = safefile(argv[0], DefUid, DefGid, DefUser, sff, 0, NULL); if (ret != 0) sm_syslog(LOG_INFO, e->e_id, "Warning: prog_open: program %s unsafe: %s", argv[0], sm_errstring(ret)); /* arrange for all the files to be closed */ sm_close_on_exec(STDERR_FILENO + 1, DtableSize); /* now exec the process */ (void) execve(argv[0], (ARGV_T) argv, (ARGV_T) UserEnviron); /* woops! failed */ save_errno = errno; syserr("%s: cannot exec", argv[0]); if (transienterror(save_errno)) _exit(EX_OSERR); _exit(EX_CONFIG); return -1; /* avoid compiler warning on IRIX */ } /* ** GET_COLUMN -- look up a Column in a line buffer ** ** Parameters: ** line -- the raw text line to search. ** col -- the column number to fetch. ** delim -- the delimiter between columns. If null, ** use white space. ** buf -- the output buffer. ** buflen -- the length of buf. ** ** Returns: ** buf if successful. ** NULL otherwise. */ char * get_column(line, col, delim, buf, buflen) char line[]; int col; int delim; char buf[]; int buflen; { char *p; char *begin, *end; int i; char delimbuf[4]; if ((char) delim == '\0') (void) sm_strlcpy(delimbuf, "\n\t ", sizeof(delimbuf)); else { delimbuf[0] = (char) delim; delimbuf[1] = '\0'; } p = line; if (*p == '\0') return NULL; /* line empty */ if (*p == (char) delim && col == 0) return NULL; /* first column empty */ begin = line; if (col == 0 && (char) delim == '\0') { while (*begin != '\0' && isascii(*begin) && isspace(*begin)) begin++; } for (i = 0; i < col; i++) { if ((begin = strpbrk(begin, delimbuf)) == NULL) return NULL; /* no such column */ begin++; if ((char) delim == '\0') { while (*begin != '\0' && isascii(*begin) && isspace(*begin)) begin++; } } end = strpbrk(begin, delimbuf); if (end == NULL) i = strlen(begin); else i = end - begin; if (i >= buflen) i = buflen - 1; (void) sm_strlcpy(buf, begin, i + 1); return buf; } /* ** CLEANSTRCPY -- copy string keeping out bogus characters ** ** Parameters: ** t -- "to" string. ** f -- "from" string. ** l -- length of space available in "to" string. ** ** Returns: ** none. */ void cleanstrcpy(t, f, l) register char *t; register char *f; int l; { /* check for newlines and log if necessary */ (void) denlstring(f, true, true); if (l <= 0) syserr("!cleanstrcpy: length == 0"); l--; while (l > 0 && *f != '\0') { if (isascii(*f) && (isalnum(*f) || strchr("!#$%&'*+-./^_`{|}~", *f) != NULL)) { l--; *t++ = *f; } f++; } *t = '\0'; } /* ** DENLSTRING -- convert newlines in a string to spaces ** ** Parameters: ** s -- the input string ** strict -- if set, don't permit continuation lines. ** logattacks -- if set, log attempted attacks. ** ** Returns: ** A pointer to a version of the string with newlines ** mapped to spaces. This should be copied. */ char * denlstring(s, strict, logattacks) char *s; bool strict; bool logattacks; { register char *p; int l; static char *bp = NULL; static int bl = 0; p = s; while ((p = strchr(p, '\n')) != NULL) if (strict || (*++p != ' ' && *p != '\t')) break; if (p == NULL) return s; l = strlen(s) + 1; if (bl < l) { /* allocate more space */ char *nbp = sm_pmalloc_x(l); if (bp != NULL) sm_free(bp); bp = nbp; bl = l; } (void) sm_strlcpy(bp, s, l); for (p = bp; (p = strchr(p, '\n')) != NULL; ) *p++ = ' '; if (logattacks) { sm_syslog(LOG_NOTICE, CurEnv ? CurEnv->e_id : NULL, "POSSIBLE ATTACK from %.100s: newline in string \"%s\"", RealHostName == NULL ? "[UNKNOWN]" : RealHostName, shortenstring(bp, MAXSHORTSTR)); } return bp; } /* ** STRREPLNONPRT -- replace "unprintable" characters in a string with subst ** ** Parameters: ** s -- string to manipulate (in place) ** subst -- character to use as replacement ** ** Returns: ** true iff string did not contain "unprintable" characters */ bool strreplnonprt(s, c) char *s; int c; { bool ok; ok = true; if (s == NULL) return ok; while (*s != '\0') { if (!(isascii(*s) && isprint(*s))) { *s = c; ok = false; } ++s; } return ok; } /* ** PATH_IS_DIR -- check to see if file exists and is a directory. ** ** There are some additional checks for security violations in ** here. This routine is intended to be used for the host status ** support. ** ** Parameters: ** pathname -- pathname to check for directory-ness. ** createflag -- if set, create directory if needed. ** ** Returns: ** true -- if the indicated pathname is a directory ** false -- otherwise */ bool path_is_dir(pathname, createflag) char *pathname; bool createflag; { struct stat statbuf; #if HASLSTAT if (lstat(pathname, &statbuf) < 0) #else /* HASLSTAT */ if (stat(pathname, &statbuf) < 0) #endif /* HASLSTAT */ { if (errno != ENOENT || !createflag) return false; if (mkdir(pathname, 0755) < 0) return false; return true; } if (!S_ISDIR(statbuf.st_mode)) { errno = ENOTDIR; return false; } /* security: don't allow writable directories */ if (bitset(S_IWGRP|S_IWOTH, statbuf.st_mode)) { errno = EACCES; return false; } return true; } /* ** PROC_LIST_ADD -- add process id to list of our children ** ** Parameters: ** pid -- pid to add to list. ** task -- task of pid. ** type -- type of process. ** count -- number of processes. ** other -- other information for this type. ** ** Returns: ** none ** ** Side Effects: ** May increase CurChildren. May grow ProcList. */ typedef struct procs PROCS_T; struct procs { pid_t proc_pid; char *proc_task; int proc_type; int proc_count; int proc_other; SOCKADDR proc_hostaddr; }; static PROCS_T *volatile ProcListVec = NULL; static int ProcListSize = 0; void proc_list_add(pid, task, type, count, other, hostaddr) pid_t pid; char *task; int type; int count; int other; SOCKADDR *hostaddr; { int i; for (i = 0; i < ProcListSize; i++) { if (ProcListVec[i].proc_pid == NO_PID) break; } if (i >= ProcListSize) { /* probe the existing vector to avoid growing infinitely */ proc_list_probe(); /* now scan again */ for (i = 0; i < ProcListSize; i++) { if (ProcListVec[i].proc_pid == NO_PID) break; } } if (i >= ProcListSize) { /* grow process list */ int chldwasblocked; PROCS_T *npv; SM_ASSERT(ProcListSize < INT_MAX - PROC_LIST_SEG); npv = (PROCS_T *) sm_pmalloc_x((sizeof(*npv)) * (ProcListSize + PROC_LIST_SEG)); /* Block SIGCHLD so reapchild() doesn't mess with us */ chldwasblocked = sm_blocksignal(SIGCHLD); if (ProcListSize > 0) { memmove(npv, ProcListVec, ProcListSize * sizeof(PROCS_T)); sm_free(ProcListVec); } /* XXX just use memset() to initialize this part? */ for (i = ProcListSize; i < ProcListSize + PROC_LIST_SEG; i++) { npv[i].proc_pid = NO_PID; npv[i].proc_task = NULL; npv[i].proc_type = PROC_NONE; } i = ProcListSize; ProcListSize += PROC_LIST_SEG; ProcListVec = npv; if (chldwasblocked == 0) (void) sm_releasesignal(SIGCHLD); } ProcListVec[i].proc_pid = pid; PSTRSET(ProcListVec[i].proc_task, task); ProcListVec[i].proc_type = type; ProcListVec[i].proc_count = count; ProcListVec[i].proc_other = other; if (hostaddr != NULL) ProcListVec[i].proc_hostaddr = *hostaddr; else memset(&ProcListVec[i].proc_hostaddr, 0, sizeof(ProcListVec[i].proc_hostaddr)); /* if process adding itself, it's not a child */ if (pid != CurrentPid) { SM_ASSERT(CurChildren < INT_MAX); CurChildren++; } } /* ** PROC_LIST_SET -- set pid task in process list ** ** Parameters: ** pid -- pid to set ** task -- task of pid ** ** Returns: ** none. */ void proc_list_set(pid, task) pid_t pid; char *task; { int i; for (i = 0; i < ProcListSize; i++) { if (ProcListVec[i].proc_pid == pid) { PSTRSET(ProcListVec[i].proc_task, task); break; } } } /* ** PROC_LIST_DROP -- drop pid from process list ** ** Parameters: ** pid -- pid to drop ** st -- process status ** other -- storage for proc_other (return). ** ** Returns: ** none. ** ** Side Effects: ** May decrease CurChildren, CurRunners, or ** set RestartRequest or ShutdownRequest. ** ** NOTE: THIS CAN BE CALLED FROM A SIGNAL HANDLER. DO NOT ADD ** ANYTHING TO THIS ROUTINE UNLESS YOU KNOW WHAT YOU ARE ** DOING. */ void proc_list_drop(pid, st, other) pid_t pid; int st; int *other; { int i; int type = PROC_NONE; for (i = 0; i < ProcListSize; i++) { if (ProcListVec[i].proc_pid == pid) { ProcListVec[i].proc_pid = NO_PID; type = ProcListVec[i].proc_type; if (other != NULL) *other = ProcListVec[i].proc_other; if (CurChildren > 0) CurChildren--; break; } } if (type == PROC_CONTROL && WIFEXITED(st)) { /* if so, see if we need to restart or shutdown */ if (WEXITSTATUS(st) == EX_RESTART) RestartRequest = "control socket"; else if (WEXITSTATUS(st) == EX_SHUTDOWN) ShutdownRequest = "control socket"; } else if (type == PROC_QUEUE_CHILD && !WIFSTOPPED(st) && ProcListVec[i].proc_other > -1) { /* restart this persistent runner */ mark_work_group_restart(ProcListVec[i].proc_other, st); } else if (type == PROC_QUEUE) CurRunners -= ProcListVec[i].proc_count; } /* ** PROC_LIST_CLEAR -- clear the process list ** ** Parameters: ** none. ** ** Returns: ** none. ** ** Side Effects: ** Sets CurChildren to zero. */ void proc_list_clear() { int i; /* start from 1 since 0 is the daemon itself */ for (i = 1; i < ProcListSize; i++) ProcListVec[i].proc_pid = NO_PID; CurChildren = 0; } /* ** PROC_LIST_PROBE -- probe processes in the list to see if they still exist ** ** Parameters: ** none ** ** Returns: ** none ** ** Side Effects: ** May decrease CurChildren. */ void proc_list_probe() { int i, children; int chldwasblocked; pid_t pid; children = 0; chldwasblocked = sm_blocksignal(SIGCHLD); /* start from 1 since 0 is the daemon itself */ for (i = 1; i < ProcListSize; i++) { pid = ProcListVec[i].proc_pid; if (pid == NO_PID || pid == CurrentPid) continue; if (kill(pid, 0) < 0) { if (LogLevel > 3) sm_syslog(LOG_DEBUG, CurEnv->e_id, "proc_list_probe: lost pid %d", (int) ProcListVec[i].proc_pid); ProcListVec[i].proc_pid = NO_PID; SM_FREE_CLR(ProcListVec[i].proc_task); CurChildren--; } else { ++children; } } if (CurChildren < 0) CurChildren = 0; if (chldwasblocked == 0) (void) sm_releasesignal(SIGCHLD); if (LogLevel > 10 && children != CurChildren && CurrentPid == DaemonPid) { sm_syslog(LOG_ERR, NOQID, "proc_list_probe: found %d children, expected %d", children, CurChildren); } } /* ** PROC_LIST_DISPLAY -- display the process list ** ** Parameters: ** out -- output file pointer ** prefix -- string to output in front of each line. ** ** Returns: ** none. */ void proc_list_display(out, prefix) SM_FILE_T *out; char *prefix; { int i; for (i = 0; i < ProcListSize; i++) { if (ProcListVec[i].proc_pid == NO_PID) continue; (void) sm_io_fprintf(out, SM_TIME_DEFAULT, "%s%d %s%s\n", prefix, (int) ProcListVec[i].proc_pid, ProcListVec[i].proc_task != NULL ? ProcListVec[i].proc_task : "(unknown)", (OpMode == MD_SMTP || OpMode == MD_DAEMON || OpMode == MD_ARPAFTP) ? "\r" : ""); } } /* ** PROC_LIST_SIGNAL -- send a signal to a type of process in the list ** ** Parameters: ** type -- type of process to signal ** signal -- the type of signal to send ** ** Results: ** none. ** ** NOTE: THIS CAN BE CALLED FROM A SIGNAL HANDLER. DO NOT ADD ** ANYTHING TO THIS ROUTINE UNLESS YOU KNOW WHAT YOU ARE ** DOING. */ void proc_list_signal(type, signal) int type; int signal; { int chldwasblocked; int alrmwasblocked; int i; pid_t mypid = getpid(); /* block these signals so that we may signal cleanly */ chldwasblocked = sm_blocksignal(SIGCHLD); alrmwasblocked = sm_blocksignal(SIGALRM); /* Find all processes of type and send signal */ for (i = 0; i < ProcListSize; i++) { if (ProcListVec[i].proc_pid == NO_PID || ProcListVec[i].proc_pid == mypid) continue; if (ProcListVec[i].proc_type != type) continue; (void) kill(ProcListVec[i].proc_pid, signal); } /* restore the signals */ if (alrmwasblocked == 0) (void) sm_releasesignal(SIGALRM); if (chldwasblocked == 0) (void) sm_releasesignal(SIGCHLD); } /* ** COUNT_OPEN_CONNECTIONS ** ** Parameters: ** hostaddr - ClientAddress ** ** Returns: ** the number of open connections for this client ** */ int count_open_connections(hostaddr) SOCKADDR *hostaddr; { int i, n; if (hostaddr == NULL) return 0; n = 0; for (i = 0; i < ProcListSize; i++) { if (ProcListVec[i].proc_pid == NO_PID) continue; if (hostaddr->sa.sa_family != ProcListVec[i].proc_hostaddr.sa.sa_family) continue; #if NETINET if (hostaddr->sa.sa_family == AF_INET && (hostaddr->sin.sin_addr.s_addr == ProcListVec[i].proc_hostaddr.sin.sin_addr.s_addr)) n++; #endif /* NETINET */ #if NETINET6 if (hostaddr->sa.sa_family == AF_INET6 && IN6_ARE_ADDR_EQUAL(&(hostaddr->sin6.sin6_addr), &(ProcListVec[i].proc_hostaddr.sin6.sin6_addr))) n++; #endif /* NETINET6 */ } return n; }