/* * Copyright (c) 1983, 1995 Eric P. Allman * Copyright (c) 1988, 1993 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "smtpinc.h" #include #include "headers.hxx" int strcasecmp(char *s1, char *s2); int strncasecmp(char *s1, char *s2, int n); struct hdrinfo { char *hi_field; /* the name of the field */ unsigned int hi_flags; /* status bits, see below */ }; struct hdrinfo HdrInfo[] = { /* originator fields, most to least significant */ "resent-sender", H_FROM|H_RESENT, "resent-from", H_FROM|H_RESENT, "resent-reply-to", H_FROM|H_RESENT, "sender", H_FROM, "from", H_FROM, "reply-to", H_FROM, "full-name", 0, "return-receipt-to", H_FROM|H_RECEIPTTO, "errors-to", H_FROM|H_ERRORSTO, /* destination fields */ "to", H_RCPT, "resent-to", H_RCPT|H_RESENT, "cc", H_RCPT, "resent-cc", H_RCPT|H_RESENT, "bcc", H_RCPT, "resent-bcc", H_RCPT|H_RESENT, "apparently-to", H_RCPT, /* message identification and control */ "message-id", H_MID, "resent-message-id", H_RESENT, /* date fields */ "date", H_DATE, "resent-date", H_RESENT, /* trace fields */ "received", 0, "x400-received", 0, "via", 0, "mail-from", H_TRACE, /* miscellaneous fields */ "comments", 0, "return-path", H_RETURNPATH, "subject", H_SUBJECT, /* X-Headers */ "x-sender", H_X_SENDER, "x-receiver", H_X_RECEIVER, // 10/15/98 - MikeSwa Added supersedes headers "x-msgguid", H_X_MSGGUID, "x-supersedesmsgguid",H_X_SUPERSEDES_MSGGUID, // 12/18/98 -- pgopi. Added X-originalArrivalTime header "x-originalarrivaltime" , H_X_ORIGINAL_ARRIVAL_TIME, NULL, 0, }; #define xalloc(size) HeapAlloc(GetProcessHeap(), 0, size) /* ** CHOMPHEADER -- process and save a header line. ** ** Called by collect and by readcf to deal with header lines. ** ** Parameters: ** line -- header as a text line. ** def -- if set, this is a default value. ** hdrp -- a pointer to the place to save the header. ** e -- the envelope including this header. ** ** Returns: ** flags for this header. ** ** Side Effects: ** The header is saved on the header list. ** Contents of 'line' are destroyed. */ BOOL ChompHeader(char * line, DWORD& HeaderFlags, char ** ppszValueBuf) { register char *p = line; HEADERVAL *h = NULL; char *fname = NULL; char *fvalue = NULL; char *oldfvalue = NULL; struct hdrinfo *hi = NULL; DWORD fNameSize; /* find canonical name */ fname = p; while (isascii(*p) && isgraph(*p) && *p != ':') p++; fvalue = p; while (isascii(*p) && isspace(*p)) p++; //See if we had anything atall if(p == line) { //We had a seperator CRLF HeaderFlags |= H_EOH; return (FALSE); } if (*p++ != ':' || fname == fvalue) { //syserr("553 header syntax error, line \"%s\"", line); return (FALSE); } fvalue = p; if(ppszValueBuf) *ppszValueBuf = fvalue; fNameSize = (DWORD)((p - line) - 1); /* see if it is a known type */ for (hi = HdrInfo; hi->hi_field != NULL; hi++) { if (strncasecmp(hi->hi_field, fname, fNameSize) == 0) { HeaderFlags |= hi->hi_flags; //set our flag break; } } return (TRUE); } #if 0 /* ** ADDHEADER -- add a header entry to the end of the queue. ** ** This bypasses the special checking of chompheader. ** ** Parameters: ** field -- the name of the header field. ** value -- the value of the field. ** hp -- an indirect pointer to the header structure list. ** ** Returns: ** none. ** ** Side Effects: ** adds the field on the list of headers for this envelope. */ void addheader(field, value, hdrlist) char *field; char *value; HDR **hdrlist; { register HDR *h; register struct hdrinfo *hi; HDR **hp; /* find info struct */ for (hi = HdrInfo; hi->hi_field != NULL; hi++) { if (strcasecmp(field, hi->hi_field) == 0) break; } /* find current place in list -- keep back pointer? */ for (hp = hdrlist; (h = *hp) != NULL; hp = &h->h_link) { if (strcasecmp(field, h->h_field) == 0) break; } /* allocate space for new header */ h = (HDR *) xalloc(sizeof *h); h->h_field = field; h->h_value = newstr(value); h->h_link = *hp; h->h_flags = hi->hi_flags | H_DEFAULT; clrbitmap(h->h_mflags); *hp = h; } /* ** HVALUE -- return value of a header. ** ** Only "real" fields (i.e., ones that have not been supplied ** as a default) are used. ** ** Parameters: ** field -- the field name. ** header -- the header list. ** ** Returns: ** pointer to the value part. ** NULL if not found. ** ** Side Effects: ** none. */ char * hvalue(char * field, HDR * header) { register HDR *h; for (h = header; h != NULL; h = h->h_link) { if (!bitset(H_DEFAULT, h->h_flags) && strcasecmp(h->h_field, field) == 0) return (h->h_value); } return (NULL); } #endif /* ** ISHEADER -- predicate telling if argument is a header. ** ** A line is a header if it has a single word followed by ** optional white space followed by a colon. ** ** Header fields beginning with two dashes, although technically ** permitted by RFC822, are automatically rejected in order ** to make MIME work out. Without this we could have a technically ** legal header such as ``--"foo:bar"'' that would also be a legal ** MIME separator. ** ** Parameters: ** h -- string to check for possible headerness. ** ** Returns: ** TRUE if h is a header. ** FALSE otherwise. ** ** Side Effects: ** none. */ BOOL IsHeader(char *h) { register char *s = h; if (s[0] == '-' && s[1] == '-') return FALSE; while (*s > ' ' && *s != ':' && *s != '\0') s++; if (h == s) return FALSE; /* following technically violates RFC822 */ while (isascii(*s) && isspace(*s)) s++; return (*s == ':'); } #if 0 /* ** EATHEADER -- run through the stored header and extract info. ** ** Parameters: ** e -- the envelope to process. ** full -- if set, do full processing (e.g., compute ** message priority). This should not be set ** when reading a queue file because some info ** needed to compute the priority is wrong. ** ** Returns: ** none. ** ** Side Effects: ** Sets a bunch of global variables from information ** in the collected header. ** Aborts the message if the hop count is exceeded. */ void eatheader(e, full) register ENVELOPE *e; bool full; { register HDR *h; register char *p; int hopcnt = 0; char *msgid; char buf[MAXLINE]; /* ** Set up macros for possible expansion in headers. */ define('f', e->e_sender, e); define('g', e->e_sender, e); if (e->e_origrcpt != NULL && *e->e_origrcpt != '\0') define('u', e->e_origrcpt, e); else define('u', NULL, e); /* full name of from person */ p = hvalue("full-name", e->e_header); if (p != NULL) define('x', p, e); if (tTd(32, 1)) printf("----- collected header -----\n"); msgid = NULL; for (h = e->e_header; h != NULL; h = h->h_link) { if (tTd(32, 1)) printf("%s: ", h->h_field); if (h->h_value == NULL) { if (tTd(32, 1)) printf("\n"); continue; } /* do early binding */ if (bitset(H_DEFAULT, h->h_flags)) { if (tTd(32, 1)) { printf("("); xputs(h->h_value); printf(") "); } expand(h->h_value, buf, sizeof buf, e); if (buf[0] != '\0') { if (bitset(H_FROM, h->h_flags)) { extern char *crackaddr(); expand(crackaddr(buf), buf, sizeof buf, e); } h->h_value = newstr(buf); h->h_flags &= ~H_DEFAULT; } } if (tTd(32, 1)) { xputs(h->h_value); printf("\n"); } /* count the number of times it has been processed */ if (bitset(H_TRACE, h->h_flags)) hopcnt++; /* send to this person if we so desire */ if (GrabTo && bitset(H_RCPT, h->h_flags) && !bitset(H_DEFAULT, h->h_flags) && (!bitset(EF_RESENT, e->e_flags) || bitset(H_RESENT, h->h_flags))) { int saveflags = e->e_flags; (void) sendtolist(h->h_value, NULLADDR, &e->e_sendqueue, 0, e); /* delete fatal errors generated by this address */ if (!GrabTo && !bitset(EF_FATALERRS, saveflags)) e->e_flags &= ~EF_FATALERRS; } /* save the message-id for logging */ p = "resent-message-id"; if (!bitset(EF_RESENT, e->e_flags)) p += 7; if (strcasecmp(h->h_field, p) == 0) { msgid = h->h_value; while (isascii(*msgid) && isspace(*msgid)) msgid++; } /* see if this is a return-receipt header */ if (bitset(H_RECEIPTTO, h->h_flags)) e->e_receiptto = h->h_value; } if (tTd(32, 1)) printf("----------------------------\n"); /* if we are just verifying (that is, sendmail -t -bv), drop out now */ if (OpMode == MD_VERIFY) return; /* store hop count */ if (hopcnt > e->e_hopcount) e->e_hopcount = hopcnt; /* message priority */ p = hvalue("precedence", e->e_header); if (p != NULL) e->e_class = priencode(p); if (e->e_class < 0) e->e_timeoutclass = TOC_NONURGENT; else if (e->e_class > 0) e->e_timeoutclass = TOC_URGENT; if (full) { e->e_msgpriority = e->e_msgsize - e->e_class * WkClassFact + e->e_nrcpts * WkRecipFact; } /* message timeout priority */ p = hvalue("priority", e->e_header); if (p != NULL) { /* (this should be in the configuration file) */ if (strcasecmp(p, "urgent")) e->e_timeoutclass = TOC_URGENT; else if (strcasecmp(p, "normal")) e->e_timeoutclass = TOC_NORMAL; else if (strcasecmp(p, "non-urgent")) e->e_timeoutclass = TOC_NONURGENT; } /* date message originated */ p = hvalue("posted-date", e->e_header); if (p == NULL) p = hvalue("date", e->e_header); if (p != NULL) define('a', p, e); /* check to see if this is a MIME message */ if ((e->e_bodytype != NULL && strcasecmp(e->e_bodytype, "8BITMIME") == 0) || hvalue("MIME-Version", e->e_header) != NULL) { e->e_flags |= EF_IS_MIME; if (HasEightBits) e->e_bodytype = "8BITMIME"; } else if ((p = hvalue("Content-Type", e->e_header)) != NULL) { /* this may be an RFC 1049 message */ p = strpbrk(p, ";/"); if (p == NULL || *p == ';') { /* yep, it is */ e->e_flags |= EF_DONT_MIME; } } /* ** From person in antiquated ARPANET mode ** required by UK Grey Book e-mail gateways (sigh) */ if (OpMode == MD_ARPAFTP) { register struct hdrinfo *hi; for (hi = HdrInfo; hi->hi_field != NULL; hi++) { if (bitset(H_FROM, hi->hi_flags) && (!bitset(H_RESENT, hi->hi_flags) || bitset(EF_RESENT, e->e_flags)) && (p = hvalue(hi->hi_field, e->e_header)) != NULL) break; } if (hi->hi_field != NULL) { if (tTd(32, 2)) printf("eatheader: setsender(*%s == %s)\n", hi->hi_field, p); setsender(p, e, NULL, TRUE); } } /* ** Log collection information. */ # ifdef LOG if (bitset(EF_LOGSENDER, e->e_flags) && LogLevel > 4) logsender(e, msgid); # endif /* LOG */ e->e_flags &= ~EF_LOGSENDER; } /* ** LOGSENDER -- log sender information ** ** Parameters: ** e -- the envelope to log ** msgid -- the message id ** ** Returns: ** none */ void logsender(e, msgid) register ENVELOPE *e; char *msgid; { # ifdef LOG char *name; register char *sbp; register char *p; int l; char hbuf[MAXNAME + 1]; char sbuf[MAXLINE + 1]; char mbuf[MAXNAME + 1]; /* don't allow newlines in the message-id */ if (msgid != NULL) { l = strlen(msgid); if (l > sizeof mbuf - 1) l = sizeof mbuf - 1; bcopy(msgid, mbuf, l); mbuf[l] = '\0'; p = mbuf; while ((p = strchr(p, '\n')) != NULL) *p++ = ' '; } if (bitset(EF_RESPONSE, e->e_flags)) name = "[RESPONSE]"; else if ((name = macvalue('_', e)) != NULL) ; else if (RealHostName == NULL) name = "localhost"; else if (RealHostName[0] == '[') name = RealHostName; else { name = hbuf; (void) sprintf(hbuf, "%.80s", RealHostName); if (RealHostAddr.sa.sa_family != 0) { p = &hbuf[strlen(hbuf)]; (void) sprintf(p, " (%s)", anynet_ntoa(&RealHostAddr)); } } /* some versions of syslog only take 5 printf args */ # if (SYSLOG_BUFSIZE) >= 256 sbp = sbuf; sprintf(sbp, "from=%.200s, size=%ld, class=%d, pri=%ld, nrcpts=%d", e->e_from.q_paddr == NULL ? "" : e->e_from.q_paddr, e->e_msgsize, e->e_class, e->e_msgpriority, e->e_nrcpts); sbp += strlen(sbp); if (msgid != NULL) { sprintf(sbp, ", msgid=%.100s", mbuf); sbp += strlen(sbp); } if (e->e_bodytype != NULL) { (void) sprintf(sbp, ", bodytype=%.20s", e->e_bodytype); sbp += strlen(sbp); } p = macvalue('r', e); if (p != NULL) (void) sprintf(sbp, ", proto=%.20s", p); syslog(LOG_INFO, "%s: %s, relay=%s", e->e_id, sbuf, name); # else /* short syslog buffer */ syslog(LOG_INFO, "%s: from=%s", e->e_id, e->e_from.q_paddr == NULL ? "" : shortenstring(e->e_from.q_paddr, 83)); syslog(LOG_INFO, "%s: size=%ld, class=%ld, pri=%ld, nrcpts=%d", e->e_id, e->e_msgsize, e->e_class, e->e_msgpriority, e->e_nrcpts); if (msgid != NULL) syslog(LOG_INFO, "%s: msgid=%s", e->e_id, mbuf); sbp = sbuf; sprintf(sbp, "%s:", e->e_id); sbp += strlen(sbp); if (e->e_bodytype != NULL) { sprintf(sbp, " bodytype=%s,", e->e_bodytype); sbp += strlen(sbp); } p = macvalue('r', e); if (p != NULL) { sprintf(sbp, " proto=%s,", p); sbp += strlen(sbp); } syslog(LOG_INFO, "%s relay=%s", sbuf, name); # endif # endif } /* ** PRIENCODE -- encode external priority names into internal values. ** ** Parameters: ** p -- priority in ascii. ** ** Returns: ** priority as a numeric level. ** ** Side Effects: ** none. */ int priencode(p) char *p; { register int i; for (i = 0; i < NumPriorities; i++) { if (!strcasecmp(p, Priorities[i].pri_name)) return (Priorities[i].pri_val); } /* unknown priority */ return (0); } /* ** CRACKADDR -- parse an address and turn it into a macro ** ** This doesn't actually parse the address -- it just extracts ** it and replaces it with "$g". The parse is totally ad hoc ** and isn't even guaranteed to leave something syntactically ** identical to what it started with. However, it does leave ** something semantically identical. ** ** This algorithm has been cleaned up to handle a wider range ** of cases -- notably quoted and backslash escaped strings. ** This modification makes it substantially better at preserving ** the original syntax. ** ** Parameters: ** addr -- the address to be cracked. ** ** Returns: ** a pointer to the new version. ** ** Side Effects: ** none. ** ** Warning: ** The return value is saved in local storage and should ** be copied if it is to be reused. */ char * crackaddr(addr) register char *addr; { register char *p; register char c; int cmtlev; int realcmtlev; int anglelev, realanglelev; int copylev; bool qmode; bool realqmode; bool skipping; bool putgmac = FALSE; bool quoteit = FALSE; bool gotangle = FALSE; bool gotcolon = FALSE; register char *bp; char *buflim; char *bufhead; char *addrhead; static char buf[MAXNAME + 1]; if (tTd(33, 1)) printf("crackaddr(%s)\n", addr); /* strip leading spaces */ while (*addr != '\0' && isascii(*addr) && isspace(*addr)) addr++; /* ** Start by assuming we have no angle brackets. This will be ** adjusted later if we find them. */ bp = bufhead = buf; buflim = &buf[sizeof buf - 5]; p = addrhead = addr; copylev = anglelev = realanglelev = cmtlev = realcmtlev = 0; qmode = realqmode = FALSE; while ((c = *p++) != '\0') { /* ** If the buffer is overful, go into a special "skipping" ** mode that tries to keep legal syntax but doesn't actually ** output things. */ skipping = bp >= buflim; if (copylev > 0 && !skipping) *bp++ = c; /* check for backslash escapes */ if (c == '\\') { /* arrange to quote the address */ if (cmtlev <= 0 && !qmode) quoteit = TRUE; if ((c = *p++) == '\0') { /* too far */ p--; goto putg; } if (copylev > 0 && !skipping) *bp++ = c; goto putg; } /* check for quoted strings */ if (c == '"' && cmtlev <= 0) { qmode = !qmode; if (copylev > 0 && !skipping) realqmode = !realqmode; continue; } if (qmode) goto putg; /* check for comments */ if (c == '(') { cmtlev++; /* allow space for closing paren */ if (!skipping) { buflim--; realcmtlev++; if (copylev++ <= 0) { *bp++ = ' '; *bp++ = c; } } } if (cmtlev > 0) { if (c == ')') { cmtlev--; copylev--; if (!skipping) { realcmtlev--; buflim++; } } continue; } else if (c == ')') { /* syntax error: unmatched ) */ if (copylev > 0 && !skipping) bp--; } /* check for group: list; syntax */ if (c == ':' && anglelev <= 0 && !gotcolon && !ColonOkInAddr) { register char *q; if (*p == ':') { /* special case -- :: syntax */ if (cmtlev <= 0 && !qmode) quoteit = TRUE; if (copylev > 0 && !skipping) { *bp++ = c; *bp++ = c; } p++; goto putg; } gotcolon = TRUE; bp = bufhead; if (quoteit) { *bp++ = '"'; /* back up over the ':' and any spaces */ --p; while (isascii(*--p) && isspace(*p)) continue; p++; } for (q = addrhead; q < p; ) { c = *q++; if (bp < buflim) { if (quoteit && c == '"') *bp++ = '\\'; *bp++ = c; } } if (quoteit) { if (bp == &bufhead[1]) bp--; else *bp++ = '"'; while ((c = *p++) != ':') { if (bp < buflim) *bp++ = c; } *bp++ = c; } /* any trailing white space is part of group: */ while (isascii(*p) && isspace(*p) && bp < buflim) *bp++ = *p++; copylev = 0; putgmac = quoteit = FALSE; bufhead = bp; addrhead = p; continue; } if (c == ';' && copylev <= 0 && !ColonOkInAddr) { if (bp < buflim) *bp++ = c; } /* check for characters that may have to be quoted */ if (strchr(MustQuoteChars, c) != NULL) { /* ** If these occur as the phrase part of a <> ** construct, but are not inside of () or already ** quoted, they will have to be quoted. Note that ** now (but don't actually do the quoting). */ if (cmtlev <= 0 && !qmode) quoteit = TRUE; } /* check for angle brackets */ if (c == '<') { register char *q; /* assume first of two angles is bogus */ if (gotangle) quoteit = TRUE; gotangle = TRUE; /* oops -- have to change our mind */ anglelev = 1; if (!skipping) realanglelev = 1; bp = bufhead; if (quoteit) { *bp++ = '"'; /* back up over the '<' and any spaces */ --p; while (isascii(*--p) && isspace(*p)) continue; p++; } for (q = addrhead; q < p; ) { c = *q++; if (bp < buflim) { if (quoteit && c == '"') *bp++ = '\\'; *bp++ = c; } } if (quoteit) { if (bp == &buf[1]) bp--; else *bp++ = '"'; while ((c = *p++) != '<') { if (bp < buflim) *bp++ = c; } *bp++ = c; } copylev = 0; putgmac = quoteit = FALSE; continue; } if (c == '>') { if (anglelev > 0) { anglelev--; if (!skipping) { realanglelev--; buflim++; } } else if (!skipping) { /* syntax error: unmatched > */ if (copylev > 0) bp--; quoteit = TRUE; continue; } if (copylev++ <= 0) *bp++ = c; continue; } /* must be a real address character */ putg: if (copylev <= 0 && !putgmac) { *bp++ = MACROEXPAND; *bp++ = 'g'; putgmac = TRUE; } } /* repair any syntactic damage */ if (realqmode) *bp++ = '"'; while (realcmtlev-- > 0) *bp++ = ')'; while (realanglelev-- > 0) *bp++ = '>'; *bp++ = '\0'; if (tTd(33, 1)) printf("crackaddr=>`%s'\n", buf); return (buf); } /* ** PUTHEADER -- put the header part of a message from the in-core copy ** ** Parameters: ** mci -- the connection information. ** h -- the header to put. ** e -- envelope to use. ** ** Returns: ** none. ** ** Side Effects: ** none. */ /* * Macro for fast max (not available in e.g. DG/UX, 386/ix). */ #ifndef MAX # define MAX(a,b) (((a)>(b))?(a):(b)) #endif void putheader(mci, h, e) register MCI *mci; register HDR *h; register ENVELOPE *e; { char buf[MAX(MAXLINE,BUFSIZ)]; char obuf[MAXLINE]; if (tTd(34, 1)) printf("--- putheader, mailer = %s ---\n", mci->mci_mailer->m_name); mci->mci_flags |= MCIF_INHEADER; for (; h != NULL; h = h->h_link) { register char *p = h->h_value; extern bool bitintersect(); if (tTd(34, 11)) { printf(" %s: ", h->h_field); xputs(p); } /* suppress Content-Transfer-Encoding: if we are MIMEing */ if (bitset(H_CTE, h->h_flags) && bitset(MCIF_CVT8TO7|MCIF_INMIME, mci->mci_flags)) { if (tTd(34, 11)) printf(" (skipped (content-transfer-encoding))\n"); continue; } if (bitset(MCIF_INMIME, mci->mci_flags)) goto vanilla; if (bitset(H_CHECK|H_ACHECK, h->h_flags) && !bitintersect(h->h_mflags, mci->mci_mailer->m_flags)) { if (tTd(34, 11)) printf(" (skipped)\n"); continue; } /* handle Resent-... headers specially */ if (bitset(H_RESENT, h->h_flags) && !bitset(EF_RESENT, e->e_flags)) { if (tTd(34, 11)) printf(" (skipped (resent))\n"); continue; } /* suppress return receipts if requested */ if (bitset(H_RECEIPTTO, h->h_flags) && bitset(EF_NORECEIPT, e->e_flags)) { if (tTd(34, 11)) printf(" (skipped (receipt))\n"); continue; } /* macro expand value if generated internally */ if (bitset(H_DEFAULT, h->h_flags)) { expand(p, buf, sizeof buf, e); p = buf; if (p == NULL || *p == '\0') { if (tTd(34, 11)) printf(" (skipped -- null value)\n"); continue; } } if (tTd(34, 11)) printf("\n"); if (bitset(H_STRIPVAL, h->h_flags)) { /* empty field */ (void) sprintf(obuf, "%s:", h->h_field); putline(obuf, mci); } else if (bitset(H_FROM|H_RCPT, h->h_flags)) { /* address field */ bool oldstyle = bitset(EF_OLDSTYLE, e->e_flags); if (bitset(H_FROM, h->h_flags)) oldstyle = FALSE; commaize(h, p, oldstyle, mci, e); } else { /* vanilla header line */ register char *nlp; vanilla: (void) sprintf(obuf, "%s: ", h->h_field); while ((nlp = strchr(p, '\n')) != NULL) { *nlp = '\0'; (void) strcat(obuf, p); *nlp = '\n'; putline(obuf, mci); p = ++nlp; obuf[0] = '\0'; } (void) strcat(obuf, p); putline(obuf, mci); } } /* ** If we are converting this to a MIME message, add the ** MIME headers. */ #if MIME8TO7 if (bitset(MM_MIME8BIT, MimeMode) && bitset(EF_HAS8BIT, e->e_flags) && !bitset(EF_DONT_MIME, e->e_flags) && !bitnset(M_8BITS, mci->mci_mailer->m_flags) && !bitset(MCIF_CVT8TO7, mci->mci_flags)) { if (hvalue("MIME-Version", e->e_header) == NULL) putline("MIME-Version: 1.0", mci); if (hvalue("Content-Type", e->e_header) == NULL) { sprintf(obuf, "Content-Type: text/plain; charset=%s", defcharset(e)); putline(obuf, mci); } if (hvalue("Content-Transfer-Encoding", e->e_header) == NULL) putline("Content-Transfer-Encoding: 8bit", mci); } #endif } /* ** COMMAIZE -- output a header field, making a comma-translated list. ** ** Parameters: ** h -- the header field to output. ** p -- the value to put in it. ** oldstyle -- TRUE if this is an old style header. ** mci -- the connection information. ** e -- the envelope containing the message. ** ** Returns: ** none. ** ** Side Effects: ** outputs "p" to file "fp". */ void commaize(h, p, oldstyle, mci, e) register HDR *h; register char *p; bool oldstyle; register MCI *mci; register ENVELOPE *e; { register char *obp; int opos; int omax; bool firstone = TRUE; char obuf[MAXLINE + 3]; /* ** Output the address list translated by the ** mailer and with commas. */ if (tTd(14, 2)) printf("commaize(%s: %s)\n", h->h_field, p); obp = obuf; (void) sprintf(obp, "%s: ", h->h_field); opos = strlen(h->h_field) + 2; obp += opos; omax = mci->mci_mailer->m_linelimit - 2; if (omax < 0 || omax > 78) omax = 78; /* ** Run through the list of values. */ while (*p != '\0') { register char *name; register int c; char savechar; int flags; auto int stat; /* ** Find the end of the name. New style names ** end with a comma, old style names end with ** a space character. However, spaces do not ** necessarily delimit an old-style name -- at ** signs mean keep going. */ /* find end of name */ while ((isascii(*p) && isspace(*p)) || *p == ',') p++; name = p; for (;;) { auto char *oldp; char pvpbuf[PSBUFSIZE]; (void) prescan(p, oldstyle ? ' ' : ',', pvpbuf, sizeof pvpbuf, &oldp, NULL); p = oldp; /* look to see if we have an at sign */ while (*p != '\0' && isascii(*p) && isspace(*p)) p++; if (*p != '@') { p = oldp; break; } p += *p == '@' ? 1 : 2; while (*p != '\0' && isascii(*p) && isspace(*p)) p++; } /* at the end of one complete name */ /* strip off trailing white space */ while (p >= name && ((isascii(*p) && isspace(*p)) || *p == ',' || *p == '\0')) p--; if (++p == name) continue; savechar = *p; *p = '\0'; /* translate the name to be relative */ flags = RF_HEADERADDR|RF_ADDDOMAIN; if (bitset(H_FROM, h->h_flags)) flags |= RF_SENDERADDR; #if USERDB else if (e->e_from.q_mailer != NULL && bitnset(M_UDBRECIPIENT, e->e_from.q_mailer->m_flags)) { extern char *udbsender(); char *q; q = udbsender(name); if (q != NULL) name = q; } #endif stat = EX_OK; name = remotename(name, mci->mci_mailer, flags, &stat, e); if (*name == '\0') { *p = savechar; continue; } /* output the name with nice formatting */ opos += strlen(name); if (!firstone) opos += 2; if (opos > omax && !firstone) { (void) strcpy(obp, ",\n"); putline(obuf, mci); obp = obuf; (void) strcpy(obp, " "); opos = strlen(obp); obp += opos; opos += strlen(name); } else if (!firstone) { (void) strcpy(obp, ", "); obp += 2; } while ((c = *name++) != '\0' && obp < &obuf[MAXLINE]) *obp++ = c; firstone = FALSE; *p = savechar; } (void) strcpy(obp, "\n"); putline(obuf, mci); } /* ** COPYHEADER -- copy header list ** ** This routine is the equivalent of newstr for header lists ** ** Parameters: ** header -- list of header structures to copy. ** ** Returns: ** a copy of 'header'. ** ** Side Effects: ** none. */ HDR * copyheader(header) register HDR *header; { register HDR *newhdr; HDR *ret; register HDR **tail = &ret; while (header != NULL) { newhdr = (HDR *) xalloc(sizeof(HDR)); STRUCTCOPY(*header, *newhdr); *tail = newhdr; tail = &newhdr->h_link; header = header->h_link; } *tail = NULL; return ret; } #endif*/ //----------------------------------------------------------------------------- // Description: // Given a header, this function parses it for CRLF sequences // unfolds it into a separate buffer, and returns the unfolded line. If // the header passed in is not folded, no unfolded line is returned. // Arguments: // IN CHAR *pszHeader - The folded header. *MUST* be a NULL terminated // string. // OUT CHAR **ppszUnfolded - If pszValueBuf is not folded, NULL is // returned otherwise a new buffer is allocated and pszValueBuf // unfolded into the buffer, and the buffer is returned in this // parameter. The buffer must be freed with FreeUnfoldedBuffer(). // Returns: // TRUE on success. // FALSE on out of memory errors. //----------------------------------------------------------------------------- BOOL UnfoldHeader(char *pszHeader, char **ppszUnfolded) { int cbHeader = 0; BOOL fUnfold = FALSE; *ppszUnfolded = NULL; // Check for embedded CRLF AND get length of pszHeader at the same time for(cbHeader = 0; pszHeader[cbHeader]; cbHeader++) { if(!fUnfold && pszHeader[cbHeader] == '\r' && (pszHeader[cbHeader + 1] && pszHeader[cbHeader + 1] == '\n') && (pszHeader[cbHeader + 2] && (pszHeader[cbHeader + 2] == ' ' || pszHeader[cbHeader + 2] == '\t'))) { fUnfold = TRUE; } } if(!fUnfold) return TRUE; *ppszUnfolded = new char[cbHeader + 1]; if(!*ppszUnfolded) return FALSE; // // Copy pszHeader to *ppszUnfolded while skipping CRLF sequences // int i = 0; int j = 0; while(j < cbHeader) { if(pszHeader[j] == '\r' && (j+1 < cbHeader && pszHeader[j+1] == '\n')) { j += 2; // skip the CRLF we found while(j < cbHeader && (pszHeader[j] == ' ' || pszHeader[j] == '\t')) j++; // skip LWSP if(j >= cbHeader) break; } (*ppszUnfolded)[i++] = pszHeader[j++]; } _ASSERT(i < cbHeader); (*ppszUnfolded)[i] = '\0'; return TRUE; } void FreeUnfoldedHeader(char *pszHeader) { delete [] pszHeader; }