/* * Copyright (c) 1983, 1995-1997 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. */ #ifndef lint static char sccsid[] = "@(#)deliver.c 8.296 (Berkeley) 10/22/97"; #endif /* not lint */ #include "sendmail.h" #include #if NAMED_BIND #include extern int h_errno; #endif #if HASSETUSERCONTEXT # include #endif #if SMTP extern char SmtpError[]; #endif /* ** SENDALL -- actually send all the messages. ** ** Parameters: ** e -- the envelope to send. ** mode -- the delivery mode to use. If SM_DEFAULT, use ** the current e->e_sendmode. ** ** Returns: ** none. ** ** Side Effects: ** Scans the send lists and sends everything it finds. ** Delivers any appropriate error messages. ** If we are running in a non-interactive mode, takes the ** appropriate action. */ void sendall(e, mode) ENVELOPE *e; int mode; { register ADDRESS *q; char *owner; int otherowners; register ENVELOPE *ee; ENVELOPE *splitenv = NULL; int oldverbose = Verbose; bool somedeliveries = FALSE, expensive = FALSE; pid_t pid; extern void sendenvelope(); /* ** If we have had global, fatal errors, don't bother sending ** the message at all if we are in SMTP mode. Local errors ** (e.g., a single address failing) will still cause the other ** addresses to be sent. */ if (bitset(EF_FATALERRS, e->e_flags) && (OpMode == MD_SMTP || OpMode == MD_DAEMON)) { e->e_flags |= EF_CLRQUEUE; return; } /* determine actual delivery mode */ if (mode == SM_DEFAULT) { mode = e->e_sendmode; if (mode != SM_VERIFY && mode != SM_DEFER && shouldqueue(e->e_msgpriority, e->e_ctime)) mode = SM_QUEUE; } if (tTd(13, 1)) { extern void printenvflags(); printf("\n===== SENDALL: mode %c, id %s, e_from ", mode, e->e_id); printaddr(&e->e_from, FALSE); printf("\te_flags = "); printenvflags(e); printf("sendqueue:\n"); printaddr(e->e_sendqueue, TRUE); } /* ** Do any preprocessing necessary for the mode we are running. ** Check to make sure the hop count is reasonable. ** Delete sends to the sender in mailing lists. */ CurEnv = e; if (tTd(62, 1)) checkfds(NULL); if (e->e_hopcount > MaxHopCount) { errno = 0; #if QUEUE queueup(e, mode == SM_QUEUE || mode == SM_DEFER); #endif e->e_flags |= EF_FATALERRS|EF_PM_NOTIFY|EF_CLRQUEUE; syserr("554 Too many hops %d (%d max): from %s via %s, to %s", e->e_hopcount, MaxHopCount, e->e_from.q_paddr, RealHostName == NULL ? "localhost" : RealHostName, e->e_sendqueue->q_paddr); e->e_sendqueue->q_status = "5.4.6"; return; } /* ** Do sender deletion. ** ** If the sender has the QQUEUEUP flag set, skip this. ** This can happen if the name server is hosed when you ** are trying to send mail. The result is that the sender ** is instantiated in the queue as a recipient. */ if (!bitset(EF_METOO, e->e_flags) && !bitset(QQUEUEUP, e->e_from.q_flags)) { if (tTd(13, 5)) { printf("sendall: QDONTSEND "); printaddr(&e->e_from, FALSE); } e->e_from.q_flags |= QDONTSEND; (void) recipient(&e->e_from, &e->e_sendqueue, 0, e); } /* ** Handle alias owners. ** ** We scan up the q_alias chain looking for owners. ** We discard owners that are the same as the return path. */ for (q = e->e_sendqueue; q != NULL; q = q->q_next) { register struct address *a; for (a = q; a != NULL && a->q_owner == NULL; a = a->q_alias) continue; if (a != NULL) q->q_owner = a->q_owner; if (q->q_owner != NULL && !bitset(QDONTSEND, q->q_flags) && strcmp(q->q_owner, e->e_from.q_paddr) == 0) q->q_owner = NULL; } if (tTd(13, 25)) { printf("\nAfter first owner pass, sendq =\n"); printaddr(e->e_sendqueue, TRUE); } owner = ""; otherowners = 1; while (owner != NULL && otherowners > 0) { if (tTd(13, 28)) printf("owner = \"%s\", otherowners = %d\n", owner, otherowners); owner = NULL; otherowners = bitset(EF_SENDRECEIPT, e->e_flags) ? 1 : 0; for (q = e->e_sendqueue; q != NULL; q = q->q_next) { if (tTd(13, 30)) { printf("Checking "); printaddr(q, FALSE); } if (bitset(QDONTSEND, q->q_flags)) { if (tTd(13, 30)) printf(" ... QDONTSEND\n"); continue; } if (tTd(13, 29) && !tTd(13, 30)) { printf("Checking "); printaddr(q, FALSE); } if (q->q_owner != NULL) { if (owner == NULL) { if (tTd(13, 40)) printf(" ... First owner = \"%s\"\n", q->q_owner); owner = q->q_owner; } else if (owner != q->q_owner) { if (strcmp(owner, q->q_owner) == 0) { if (tTd(13, 40)) printf(" ... Same owner = \"%s\"\n", owner); /* make future comparisons cheap */ q->q_owner = owner; } else { if (tTd(13, 40)) printf(" ... Another owner \"%s\"\n", q->q_owner); otherowners++; } owner = q->q_owner; } else if (tTd(13, 40)) printf(" ... Same owner = \"%s\"\n", owner); } else { if (tTd(13, 40)) printf(" ... Null owner\n"); otherowners++; } /* ** If this mailer is expensive, and if we don't ** want to make connections now, just mark these ** addresses and return. This is useful if we ** want to batch connections to reduce load. This ** will cause the messages to be queued up, and a ** daemon will come along to send the messages later. */ if (bitset(QBADADDR|QQUEUEUP, q->q_flags)) { if (tTd(13, 30)) printf(" ... QBADADDR|QQUEUEUP\n"); continue; } if (NoConnect && !Verbose && bitnset(M_EXPENSIVE, q->q_mailer->m_flags)) { if (tTd(13, 30)) printf(" ... expensive\n"); q->q_flags |= QQUEUEUP; expensive = TRUE; } else { if (tTd(13, 30)) printf(" ... deliverable\n"); somedeliveries = TRUE; } } if (owner != NULL && otherowners > 0) { extern HDR *copyheader(); extern ADDRESS *copyqueue(); extern void dup_queue_file __P((ENVELOPE *, ENVELOPE *, int)); /* ** Split this envelope into two. */ ee = (ENVELOPE *) xalloc(sizeof(ENVELOPE)); *ee = *e; ee->e_id = NULL; (void) queuename(ee, '\0'); if (tTd(13, 1)) printf("sendall: split %s into %s, owner = \"%s\", otherowners = %d\n", e->e_id, ee->e_id, owner, otherowners); ee->e_header = copyheader(e->e_header); ee->e_sendqueue = copyqueue(e->e_sendqueue); ee->e_errorqueue = copyqueue(e->e_errorqueue); ee->e_flags = e->e_flags & ~(EF_INQUEUE|EF_CLRQUEUE|EF_FATALERRS|EF_SENDRECEIPT|EF_RET_PARAM); ee->e_flags |= EF_NORECEIPT; setsender(owner, ee, NULL, '\0', TRUE); if (tTd(13, 5)) { printf("sendall(split): QDONTSEND "); printaddr(&ee->e_from, FALSE); } ee->e_from.q_flags |= QDONTSEND; ee->e_dfp = NULL; ee->e_xfp = NULL; ee->e_errormode = EM_MAIL; ee->e_sibling = splitenv; splitenv = ee; for (q = e->e_sendqueue; q != NULL; q = q->q_next) { if (q->q_owner == owner) { q->q_flags |= QDONTSEND; q->q_flags &= ~(QQUEUEUP|QBADADDR); if (tTd(13, 6)) printf("\t... stripping %s from original envelope\n", q->q_paddr); } } for (q = ee->e_sendqueue; q != NULL; q = q->q_next) { if (q->q_owner != owner) { q->q_flags |= QDONTSEND; q->q_flags &= ~(QQUEUEUP|QBADADDR); if (tTd(13, 6)) printf("\t... dropping %s from cloned envelope\n", q->q_paddr); } else { /* clear DSN parameters */ q->q_flags &= ~(QHASNOTIFY|Q_PINGFLAGS); q->q_flags |= DefaultNotify & ~QPINGONSUCCESS; if (tTd(13, 6)) printf("\t... moving %s to cloned envelope\n", q->q_paddr); } } if (mode != SM_VERIFY && bitset(EF_HAS_DF, e->e_flags)) dup_queue_file(e, ee, 'd'); openxscript(ee); if (LogLevel > 4) sm_syslog(LOG_INFO, ee->e_id, "clone %s, owner=%s", e->e_id, owner); } } if (owner != NULL) { setsender(owner, e, NULL, '\0', TRUE); if (tTd(13, 5)) { printf("sendall(owner): QDONTSEND "); printaddr(&e->e_from, FALSE); } e->e_from.q_flags |= QDONTSEND; e->e_errormode = EM_MAIL; e->e_flags |= EF_NORECEIPT; e->e_flags &= ~EF_FATALERRS; } /* if nothing to be delivered, just queue up everything */ if (!somedeliveries && mode != SM_QUEUE && mode != SM_DEFER && mode != SM_VERIFY) { if (tTd(13, 29)) printf("No deliveries: auto-queuing\n"); mode = SM_QUEUE; /* treat this as a delivery in terms of counting tries */ e->e_dtime = curtime(); if (!expensive) e->e_ntries++; for (ee = splitenv; ee != NULL; ee = ee->e_sibling) { ee->e_dtime = curtime(); if (!expensive) ee->e_ntries++; } } # if QUEUE if ((mode == SM_QUEUE || mode == SM_DEFER || mode == SM_FORK || (mode != SM_VERIFY && SuperSafe)) && (!bitset(EF_INQUEUE, e->e_flags) || splitenv != NULL)) { /* be sure everything is instantiated in the queue */ queueup(e, mode == SM_QUEUE || mode == SM_DEFER); for (ee = splitenv; ee != NULL; ee = ee->e_sibling) queueup(ee, mode == SM_QUEUE || mode == SM_DEFER); } #endif /* QUEUE */ if (tTd(62, 10)) checkfds("after envelope splitting"); /* ** If we belong in background, fork now. */ if (tTd(13, 20)) { printf("sendall: final mode = %c\n", mode); if (tTd(13, 21)) { printf("\n================ Final Send Queue(s) =====================\n"); printf("\n *** Envelope %s, e_from=%s ***\n", e->e_id, e->e_from.q_paddr); printaddr(e->e_sendqueue, TRUE); for (ee = splitenv; ee != NULL; ee = ee->e_sibling) { printf("\n *** Envelope %s, e_from=%s ***\n", ee->e_id, ee->e_from.q_paddr); printaddr(ee->e_sendqueue, TRUE); } printf("==========================================================\n\n"); } } switch (mode) { case SM_VERIFY: Verbose = 2; break; case SM_QUEUE: case SM_DEFER: queueonly: if (e->e_nrcpts > 0) e->e_flags |= EF_INQUEUE; dropenvelope(e, FALSE); for (ee = splitenv; ee != NULL; ee = ee->e_sibling) { if (ee->e_nrcpts > 0) ee->e_flags |= EF_INQUEUE; dropenvelope(ee, FALSE); } return; case SM_FORK: if (e->e_xfp != NULL) (void) fflush(e->e_xfp); # if !HASFLOCK /* ** Since fcntl locking has the interesting semantic that ** the lock is owned by a process, not by an open file ** descriptor, we have to unlock this envelope, and ** then restart from scratch in the child. */ unlockqueue(e); for (ee = splitenv; ee != NULL; ee = ee->e_sibling) unlockqueue(ee); # endif /* !HASFLOCK */ pid = fork(); if (pid < 0) { goto queueonly; } else if (pid > 0) { # if HASFLOCK /* be sure we leave the temp files to our child */ /* can't call unlockqueue to avoid unlink of xfp */ if (e->e_lockfp != NULL) (void) xfclose(e->e_lockfp, "sendenvelope lockfp", e->e_id); e->e_lockfp = NULL; /* close any random open files in the envelope */ closexscript(e); if (e->e_dfp != NULL) (void) xfclose(e->e_dfp, "sendenvelope dfp", e->e_id); e->e_dfp = NULL; e->e_flags &= ~EF_HAS_DF; # endif /* make sure the parent doesn't own the envelope */ e->e_id = NULL; /* catch intermediate zombie */ (void) waitfor(pid); return; } /* double fork to avoid zombies */ pid = fork(); if (pid > 0) exit(EX_OK); /* be sure we are immune from the terminal */ disconnect(2, e); /* prevent parent from waiting if there was an error */ if (pid < 0) { e->e_flags |= EF_INQUEUE; finis(); } /* be sure to give error messages in child */ QuickAbort = FALSE; /* ** Close any cached connections. ** ** We don't send the QUIT protocol because the parent ** still knows about the connection. ** ** This should only happen when delivering an error ** message. */ mci_flush(FALSE, NULL); # if HASFLOCK break; # else /* ** Now reacquire and run the various queue files. */ for (ee = splitenv; ee != NULL; ee = e->e_sibling) (void) dowork(ee->e_id, FALSE, FALSE, ee); (void) dowork(e->e_id, FALSE, FALSE, e); finis(); # endif /* !HASFLOCK */ } sendenvelope(e, mode); dropenvelope(e, TRUE); for (ee = splitenv; ee != NULL; ee = ee->e_sibling) { CurEnv = ee; if (mode != SM_VERIFY) openxscript(ee); sendenvelope(ee, mode); dropenvelope(ee, TRUE); } CurEnv = e; Verbose = oldverbose; if (mode == SM_FORK) finis(); } void sendenvelope(e, mode) register ENVELOPE *e; char mode; { register ADDRESS *q; bool didany; if (tTd(13, 10)) printf("sendenvelope(%s) e_flags=0x%lx\n", e->e_id == NULL ? "[NOQUEUE]" : e->e_id, e->e_flags); if (LogLevel > 80) sm_syslog(LOG_DEBUG, e->e_id, "sendenvelope, flags=0x%x", e->e_flags); /* ** If we have had global, fatal errors, don't bother sending ** the message at all if we are in SMTP mode. Local errors ** (e.g., a single address failing) will still cause the other ** addresses to be sent. */ if (bitset(EF_FATALERRS, e->e_flags) && (OpMode == MD_SMTP || OpMode == MD_DAEMON)) { e->e_flags |= EF_CLRQUEUE; return; } /* ** Run through the list and send everything. ** ** Set EF_GLOBALERRS so that error messages during delivery ** result in returned mail. */ e->e_nsent = 0; e->e_flags |= EF_GLOBALERRS; define(macid("{envid}", NULL), e->e_envid, e); define(macid("{bodytype}", NULL), e->e_bodytype, e); didany = FALSE; /* now run through the queue */ for (q = e->e_sendqueue; q != NULL; q = q->q_next) { #if XDEBUG char wbuf[MAXNAME + 20]; (void) snprintf(wbuf, sizeof wbuf, "sendall(%.*s)", MAXNAME, q->q_paddr); checkfd012(wbuf); #endif if (mode == SM_VERIFY) { e->e_to = q->q_paddr; if (!bitset(QDONTSEND|QBADADDR, q->q_flags)) { if (q->q_host != NULL && q->q_host[0] != '\0') message("deliverable: mailer %s, host %s, user %s", q->q_mailer->m_name, q->q_host, q->q_user); else message("deliverable: mailer %s, user %s", q->q_mailer->m_name, q->q_user); } } else if (!bitset(QDONTSEND|QBADADDR, q->q_flags)) { extern int deliver __P((ENVELOPE *, ADDRESS *)); # if QUEUE /* ** Checkpoint the send list every few addresses */ if (e->e_nsent >= CheckpointInterval) { queueup(e, FALSE); e->e_nsent = 0; } # endif /* QUEUE */ (void) deliver(e, q); didany = TRUE; } } if (didany) { e->e_dtime = curtime(); e->e_ntries++; } #if XDEBUG checkfd012("end of sendenvelope"); #endif } /* ** DUP_QUEUE_FILE -- duplicate a queue file into a split queue ** ** Parameters: ** e -- the existing envelope ** ee -- the new envelope ** type -- the queue file type (e.g., 'd') ** ** Returns: ** none */ void dup_queue_file(e, ee, type) struct envelope *e, *ee; int type; { char f1buf[MAXQFNAME], f2buf[MAXQFNAME]; ee->e_dfp = NULL; ee->e_xfp = NULL; snprintf(f1buf, sizeof f1buf, "%s", queuename(e, type)); snprintf(f2buf, sizeof f2buf, "%s", queuename(ee, type)); if (link(f1buf, f2buf) < 0) { int saverrno = errno; syserr("sendall: link(%s, %s)", f1buf, f2buf); if (saverrno == EEXIST) { if (unlink(f2buf) < 0) { syserr("!sendall: unlink(%s): permanent", f2buf); /*NOTREACHED*/ } if (link(f1buf, f2buf) < 0) { syserr("!sendall: link(%s, %s): permanent", f1buf, f2buf); /*NOTREACHED*/ } } } } /* ** DOFORK -- do a fork, retrying a couple of times on failure. ** ** This MUST be a macro, since after a vfork we are running ** two processes on the same stack!!! ** ** Parameters: ** none. ** ** Returns: ** From a macro??? You've got to be kidding! ** ** Side Effects: ** Modifies the ==> LOCAL <== variable 'pid', leaving: ** pid of child in parent, zero in child. ** -1 on unrecoverable error. ** ** Notes: ** I'm awfully sorry this looks so awful. That's ** vfork for you..... */ # define NFORKTRIES 5 # ifndef FORK # define FORK fork # endif # define DOFORK(fORKfN) \ {\ register int i;\ \ for (i = NFORKTRIES; --i >= 0; )\ {\ pid = fORKfN();\ if (pid >= 0)\ break;\ if (i > 0)\ sleep((unsigned) NFORKTRIES - i);\ }\ } /* ** DOFORK -- simple fork interface to DOFORK. ** ** Parameters: ** none. ** ** Returns: ** pid of child in parent. ** zero in child. ** -1 on error. ** ** Side Effects: ** returns twice, once in parent and once in child. */ int dofork() { register pid_t pid = -1; DOFORK(fork); return (pid); } /* ** DELIVER -- Deliver a message to a list of addresses. ** ** This routine delivers to everyone on the same host as the ** user on the head of the list. It is clever about mailers ** that don't handle multiple users. It is NOT guaranteed ** that it will deliver to all these addresses however -- so ** deliver should be called once for each address on the ** list. ** ** Parameters: ** e -- the envelope to deliver. ** firstto -- head of the address list to deliver to. ** ** Returns: ** zero -- successfully delivered. ** else -- some failure, see ExitStat for more info. ** ** Side Effects: ** The standard input is passed off to someone. */ #ifndef NO_UID # define NO_UID -1 #endif #ifndef NO_GID # define NO_GID -1 #endif int deliver(e, firstto) register ENVELOPE *e; ADDRESS *firstto; { char *host; /* host being sent to */ char *user; /* user being sent to */ char **pvp; register char **mvp; register char *p; register MAILER *m; /* mailer for this recipient */ ADDRESS *volatile ctladdr; ADDRESS *volatile contextaddr = NULL; register MCI *volatile mci; register ADDRESS *to = firstto; volatile bool clever = FALSE; /* running user smtp to this mailer */ ADDRESS *volatile tochain = NULL; /* users chain in this mailer call */ int rcode; /* response code */ char *firstsig; /* signature of firstto */ pid_t pid = -1; char *volatile curhost; register volatile u_short port = 0; time_t xstart; bool suidwarn; bool anyok; /* at least one address was OK */ bool goodmxfound = FALSE; /* at least one MX was OK */ int mpvect[2]; int rpvect[2]; char *pv[MAXPV+1]; char tobuf[TOBUFSIZE]; /* text line of to people */ char buf[MAXNAME + 1]; char rpathbuf[MAXNAME + 1]; /* translated return path */ extern int checkcompat(); extern void markfailure __P((ENVELOPE *, ADDRESS *, MCI *, int)); errno = 0; if (bitset(QDONTSEND|QBADADDR|QQUEUEUP, to->q_flags)) return (0); suidwarn = geteuid() == 0; #if NAMED_BIND /* unless interactive, try twice, over a minute */ if (OpMode == MD_DAEMON || OpMode == MD_SMTP) { _res.retrans = 30; _res.retry = 2; } #endif m = to->q_mailer; host = to->q_host; CurEnv = e; /* just in case */ e->e_statmsg = NULL; #if SMTP SmtpError[0] = '\0'; #endif xstart = curtime(); if (tTd(10, 1)) printf("\n--deliver, id=%s, mailer=%s, host=`%s', first user=`%s'\n", e->e_id, m->m_name, host, to->q_user); if (tTd(10, 100)) printopenfds(FALSE); /* ** Do initial argv setup. ** Insert the mailer name. Notice that $x expansion is ** NOT done on the mailer name. Then, if the mailer has ** a picky -f flag, we insert it as appropriate. This ** code does not check for 'pv' overflow; this places a ** manifest lower limit of 4 for MAXPV. ** The from address rewrite is expected to make ** the address relative to the other end. */ /* rewrite from address, using rewriting rules */ rcode = EX_OK; if (bitnset(M_UDBENVELOPE, e->e_from.q_mailer->m_flags)) p = e->e_sender; else p = e->e_from.q_paddr; p = remotename(p, m, RF_SENDERADDR|RF_CANONICAL, &rcode, e); if (strlen(p) >= (SIZE_T) sizeof rpathbuf) { p = shortenstring(p, 203); syserr("remotename: huge return %s", p); } snprintf(rpathbuf, sizeof rpathbuf, "%s", p); define('g', rpathbuf, e); /* translated return path */ define('h', host, e); /* to host */ Errors = 0; pvp = pv; *pvp++ = m->m_argv[0]; /* insert -f or -r flag as appropriate */ if (FromFlag && (bitnset(M_FOPT, m->m_flags) || bitnset(M_ROPT, m->m_flags))) { if (bitnset(M_FOPT, m->m_flags)) *pvp++ = "-f"; else *pvp++ = "-r"; *pvp++ = newstr(rpathbuf); } /* ** Append the other fixed parts of the argv. These run ** up to the first entry containing "$u". There can only ** be one of these, and there are only a few more slots ** in the pv after it. */ for (mvp = m->m_argv; (p = *++mvp) != NULL; ) { /* can't use strchr here because of sign extension problems */ while (*p != '\0') { if ((*p++ & 0377) == MACROEXPAND) { if (*p == 'u') break; } } if (*p != '\0') break; /* this entry is safe -- go ahead and process it */ expand(*mvp, buf, sizeof buf, e); *pvp++ = newstr(buf); if (pvp >= &pv[MAXPV - 3]) { syserr("554 Too many parameters to %s before $u", pv[0]); return (-1); } } /* ** If we have no substitution for the user name in the argument ** list, we know that we must supply the names otherwise -- and ** SMTP is the answer!! */ if (*mvp == NULL) { /* running SMTP */ # if SMTP clever = TRUE; *pvp = NULL; # else /* SMTP */ /* oops! we don't implement SMTP */ syserr("554 SMTP style mailer not implemented"); return (EX_SOFTWARE); # endif /* SMTP */ } /* ** At this point *mvp points to the argument with $u. We ** run through our address list and append all the addresses ** we can. If we run out of space, do not fret! We can ** always send another copy later. */ tobuf[0] = '\0'; e->e_to = tobuf; ctladdr = NULL; firstsig = hostsignature(firstto->q_mailer, firstto->q_host, e); for (; to != NULL; to = to->q_next) { /* avoid sending multiple recipients to dumb mailers */ if (tobuf[0] != '\0' && !bitnset(M_MUSER, m->m_flags)) break; /* if already sent or not for this host, don't send */ if (bitset(QDONTSEND|QBADADDR|QQUEUEUP, to->q_flags) || to->q_mailer != firstto->q_mailer || strcmp(hostsignature(to->q_mailer, to->q_host, e), firstsig) != 0) continue; /* avoid overflowing tobuf */ if (sizeof tobuf < (strlen(to->q_paddr) + strlen(tobuf) + 2)) break; if (tTd(10, 1)) { printf("\nsend to "); printaddr(to, FALSE); } /* compute effective uid/gid when sending */ if (bitnset(M_RUNASRCPT, to->q_mailer->m_flags)) contextaddr = ctladdr = getctladdr(to); if (tTd(10, 2)) { printf("ctladdr="); printaddr(ctladdr, FALSE); } user = to->q_user; e->e_to = to->q_paddr; if (tTd(10, 5)) { printf("deliver: QDONTSEND "); printaddr(to, FALSE); } to->q_flags |= QDONTSEND; /* ** Check to see that these people are allowed to ** talk to each other. */ if (m->m_maxsize != 0 && e->e_msgsize > m->m_maxsize) { e->e_flags |= EF_NO_BODY_RETN; to->q_status = "5.2.3"; usrerr("552 Message is too large; %ld bytes max", m->m_maxsize); markfailure(e, to, NULL, EX_UNAVAILABLE); giveresponse(EX_UNAVAILABLE, m, NULL, ctladdr, xstart, e); continue; } #if NAMED_BIND h_errno = 0; #endif /* do config file checking of compatibility */ rcode = rscheck("check_compat", e->e_from.q_paddr, to->q_paddr, e); if (rcode == EX_OK) { /* do in-code checking */ rcode = checkcompat(to, e); } if (rcode != EX_OK) { markfailure(e, to, NULL, rcode); giveresponse(rcode, m, NULL, ctladdr, xstart, e); continue; } /* ** Strip quote bits from names if the mailer is dumb ** about them. */ if (bitnset(M_STRIPQ, m->m_flags)) { stripquotes(user); stripquotes(host); } /* hack attack -- delivermail compatibility */ if (m == ProgMailer && *user == '|') user++; /* ** If an error message has already been given, don't ** bother to send to this address. ** ** >>>>>>>>>> This clause assumes that the local mailer ** >> NOTE >> cannot do any further aliasing; that ** >>>>>>>>>> function is subsumed by sendmail. */ if (bitset(QBADADDR|QQUEUEUP, to->q_flags)) continue; /* ** See if this user name is "special". ** If the user name has a slash in it, assume that this ** is a file -- send it off without further ado. Note ** that this type of addresses is not processed along ** with the others, so we fudge on the To person. */ if (strcmp(m->m_mailer, "[FILE]") == 0) { rcode = mailfile(user, ctladdr, SFF_CREAT, e); giveresponse(rcode, m, NULL, ctladdr, xstart, e); e->e_nsent++; if (rcode == EX_OK) { to->q_flags |= QSENT; markstats(e, to); if (bitnset(M_LOCALMAILER, m->m_flags) && bitset(QPINGONSUCCESS, to->q_flags)) { to->q_flags |= QDELIVERED; to->q_status = "2.1.5"; fprintf(e->e_xfp, "%s... Successfully delivered\n", to->q_paddr); } } to->q_statdate = curtime(); continue; } /* ** Address is verified -- add this user to mailer ** argv, and add it to the print list of recipients. */ /* link together the chain of recipients */ to->q_tchain = tochain; tochain = to; /* create list of users for error messages */ (void) strcat(tobuf, ","); (void) strcat(tobuf, to->q_paddr); define('u', user, e); /* to user */ p = to->q_home; if (p == NULL && ctladdr != NULL) p = ctladdr->q_home; define('z', p, e); /* user's home */ /* ** Expand out this user into argument list. */ if (!clever) { expand(*mvp, buf, sizeof buf, e); *pvp++ = newstr(buf); if (pvp >= &pv[MAXPV - 2]) { /* allow some space for trailing parms */ break; } } } /* see if any addresses still exist */ if (tobuf[0] == '\0') { define('g', (char *) NULL, e); return (0); } /* print out messages as full list */ e->e_to = tobuf + 1; /* ** Fill out any parameters after the $u parameter. */ while (!clever && *++mvp != NULL) { expand(*mvp, buf, sizeof buf, e); *pvp++ = newstr(buf); if (pvp >= &pv[MAXPV]) syserr("554 deliver: pv overflow after $u for %s", pv[0]); } *pvp++ = NULL; /* ** Call the mailer. ** The argument vector gets built, pipes ** are created as necessary, and we fork & exec as ** appropriate. ** If we are running SMTP, we just need to clean up. */ /*XXX this seems a bit wierd */ if (ctladdr == NULL && m != ProgMailer && m != FileMailer && bitset(QGOODUID, e->e_from.q_flags)) ctladdr = &e->e_from; #if NAMED_BIND if (ConfigLevel < 2) _res.options &= ~(RES_DEFNAMES | RES_DNSRCH); /* XXX */ #endif if (tTd(11, 1)) { printf("openmailer:"); printav(pv); } errno = 0; #if NAMED_BIND h_errno = 0; #endif CurHostName = NULL; /* ** Deal with the special case of mail handled through an IPC ** connection. ** In this case we don't actually fork. We must be ** running SMTP for this to work. We will return a ** zero pid to indicate that we are running IPC. ** We also handle a debug version that just talks to stdin/out. */ curhost = NULL; SmtpPhase = NULL; mci = NULL; #if XDEBUG { char wbuf[MAXLINE]; /* make absolutely certain 0, 1, and 2 are in use */ snprintf(wbuf, sizeof wbuf, "%s... openmailer(%s)", shortenstring(e->e_to, 203), m->m_name); checkfd012(wbuf); } #endif /* check for 8-bit available */ if (bitset(EF_HAS8BIT, e->e_flags) && bitnset(M_7BITS, m->m_flags) && (bitset(EF_DONT_MIME, e->e_flags) || !(bitset(MM_MIME8BIT, MimeMode) || (bitset(EF_IS_MIME, e->e_flags) && bitset(MM_CVTMIME, MimeMode))))) { usrerr("554 Cannot send 8-bit data to 7-bit destination"); rcode = EX_DATAERR; e->e_status = "5.6.3"; goto give_up; } if (tTd(62, 8)) checkfds("before delivery"); /* check for Local Person Communication -- not for mortals!!! */ if (strcmp(m->m_mailer, "[LPC]") == 0) { mci = (MCI *) xalloc(sizeof *mci); bzero((char *) mci, sizeof *mci); mci->mci_in = stdin; mci->mci_out = stdout; mci->mci_state = clever ? MCIS_OPENING : MCIS_OPEN; mci->mci_mailer = m; } else if (strcmp(m->m_mailer, "[IPC]") == 0 || strcmp(m->m_mailer, "[TCP]") == 0) { #if DAEMON register int i; if (pv[0] == NULL || pv[1] == NULL || pv[1][0] == '\0') { syserr("null host name for %s mailer", m->m_mailer); rcode = EX_CONFIG; goto give_up; } CurHostName = pv[1]; curhost = hostsignature(m, pv[1], e); if (curhost == NULL || curhost[0] == '\0') { syserr("null host signature for %s", pv[1]); rcode = EX_CONFIG; goto give_up; } if (!clever) { syserr("554 non-clever IPC"); rcode = EX_CONFIG; goto give_up; } if (pv[2] != NULL) { port = htons(atoi(pv[2])); if (port == 0) { struct servent *sp = getservbyname(pv[2], "tcp"); if (sp == NULL) syserr("Service %s unknown", pv[2]); else port = sp->s_port; } } tryhost: while (*curhost != '\0') { register char *p; static char hostbuf[MAXNAME + 1]; extern int makeconnection __P((char *, u_short, MCI *, ENVELOPE *)); /* pull the next host from the signature */ p = strchr(curhost, ':'); if (p == NULL) p = (char *) &curhost[strlen(curhost)]; if (p == curhost) { syserr("deliver: null host name in signature"); curhost++; continue; } i = p - curhost; if (i >= sizeof hostbuf) i = sizeof hostbuf - 1; strncpy(hostbuf, curhost, i); hostbuf[i] = '\0'; if (*p != '\0') p++; curhost = p; /* see if we already know that this host is fried */ CurHostName = hostbuf; mci = mci_get(hostbuf, m); if (mci->mci_state != MCIS_CLOSED) { if (tTd(11, 1)) { printf("openmailer: "); mci_dump(mci, FALSE); } CurHostName = mci->mci_host; message("Using cached %sSMTP connection to %s via %s...", bitset(MCIF_ESMTP, mci->mci_flags) ? "E" : "", hostbuf, m->m_name); break; } mci->mci_mailer = m; if (mci->mci_exitstat != EX_OK) { if (mci->mci_exitstat == EX_TEMPFAIL) goodmxfound = TRUE; continue; } if (mci_lock_host(mci) != EX_OK) { mci_setstat(mci, EX_TEMPFAIL, "4.4.5", NULL); goodmxfound = TRUE; continue; } /* try the connection */ setproctitle("%s %s: %s", e->e_id, hostbuf, "user open"); if (port == 0) message("Connecting to %s via %s...", hostbuf, m->m_name); else message("Connecting to %s port %d via %s...", hostbuf, ntohs(port), m->m_name); i = makeconnection(hostbuf, port, mci, e); mci->mci_lastuse = curtime(); mci->mci_exitstat = i; mci->mci_errno = errno; #if NAMED_BIND mci->mci_herrno = h_errno; #endif if (i == EX_OK) { goodmxfound = TRUE; mci->mci_state = MCIS_OPENING; mci_cache(mci); if (TrafficLogFile != NULL) fprintf(TrafficLogFile, "%05d === CONNECT %s\n", (int) getpid(), hostbuf); break; } else { if (tTd(11, 1)) printf("openmailer: makeconnection => stat=%d, errno=%d\n", i, errno); if (i == EX_TEMPFAIL) goodmxfound = TRUE; mci_unlock_host(mci); } /* enter status of this host */ setstat(i); /* should print some message here for -v mode */ } if (mci == NULL) { syserr("deliver: no host name"); rcode = EX_SOFTWARE; goto give_up; } mci->mci_pid = 0; #else /* no DAEMON */ syserr("554 openmailer: no IPC"); if (tTd(11, 1)) printf("openmailer: NULL\n"); rcode = EX_UNAVAILABLE; goto give_up; #endif /* DAEMON */ } else { /* flush any expired connections */ (void) mci_scan(NULL); /* announce the connection to verbose listeners */ if (host == NULL || host[0] == '\0') message("Connecting to %s...", m->m_name); else message("Connecting to %s via %s...", host, m->m_name); if (TrafficLogFile != NULL) { char **av; fprintf(TrafficLogFile, "%05d === EXEC", (int) getpid()); for (av = pv; *av != NULL; av++) fprintf(TrafficLogFile, " %s", *av); fprintf(TrafficLogFile, "\n"); } #if XDEBUG checkfd012("before creating mail pipe"); #endif /* create a pipe to shove the mail through */ if (pipe(mpvect) < 0) { syserr("%s... openmailer(%s): pipe (to mailer)", shortenstring(e->e_to, 203), m->m_name); if (tTd(11, 1)) printf("openmailer: NULL\n"); rcode = EX_OSERR; goto give_up; } #if XDEBUG /* make sure we didn't get one of the standard I/O files */ if (mpvect[0] < 3 || mpvect[1] < 3) { syserr("%s... openmailer(%s): bogus mpvect %d %d", shortenstring(e->e_to, 203), m->m_name, mpvect[0], mpvect[1]); printopenfds(TRUE); if (tTd(11, 1)) printf("openmailer: NULL\n"); rcode = EX_OSERR; goto give_up; } /* make sure system call isn't dead meat */ checkfdopen(mpvect[0], "mpvect[0]"); checkfdopen(mpvect[1], "mpvect[1]"); if (mpvect[0] == mpvect[1] || (e->e_lockfp != NULL && (mpvect[0] == fileno(e->e_lockfp) || mpvect[1] == fileno(e->e_lockfp)))) { if (e->e_lockfp == NULL) syserr("%s... openmailer(%s): overlapping mpvect %d %d", shortenstring(e->e_to, 203), m->m_name, mpvect[0], mpvect[1]); else syserr("%s... openmailer(%s): overlapping mpvect %d %d, lockfp = %d", shortenstring(e->e_to, 203), m->m_name, mpvect[0], mpvect[1], fileno(e->e_lockfp)); } #endif /* if this mailer speaks smtp, create a return pipe */ #if SMTP if (clever) { if (pipe(rpvect) < 0) { syserr("%s... openmailer(%s): pipe (from mailer)", shortenstring(e->e_to, 203), m->m_name); (void) close(mpvect[0]); (void) close(mpvect[1]); if (tTd(11, 1)) printf("openmailer: NULL\n"); rcode = EX_OSERR; goto give_up; } # if XDEBUG checkfdopen(rpvect[0], "rpvect[0]"); checkfdopen(rpvect[1], "rpvect[1]"); # endif } #endif /* ** Actually fork the mailer process. ** DOFORK is clever about retrying. ** ** Dispose of SIGCHLD signal catchers that may be laying ** around so that endmail will get it. */ if (e->e_xfp != NULL) (void) fflush(e->e_xfp); /* for debugging */ (void) fflush(stdout); # ifdef SIGCHLD (void) setsignal(SIGCHLD, SIG_DFL); # endif /* SIGCHLD */ DOFORK(FORK); /* pid is set by DOFORK */ if (pid < 0) { /* failure */ syserr("%s... openmailer(%s): cannot fork", shortenstring(e->e_to, 203), m->m_name); (void) close(mpvect[0]); (void) close(mpvect[1]); #if SMTP if (clever) { (void) close(rpvect[0]); (void) close(rpvect[1]); } #endif if (tTd(11, 1)) printf("openmailer: NULL\n"); rcode = EX_OSERR; goto give_up; } else if (pid == 0) { int i; int saveerrno; int new_euid = NO_UID; int new_ruid = NO_UID; int new_gid = NO_GID; struct stat stb; extern int DtableSize; if (e->e_lockfp != NULL) (void) close(fileno(e->e_lockfp)); /* child -- set up input & exec mailer */ (void) setsignal(SIGINT, SIG_IGN); (void) setsignal(SIGHUP, SIG_IGN); (void) setsignal(SIGTERM, SIG_DFL); if (m != FileMailer || stat(tochain->q_user, &stb) < 0) stb.st_mode = 0; #if HASSETUSERCONTEXT /* ** Set user resources. */ if (contextaddr != NULL) { struct passwd *pwd; if (contextaddr->q_ruser != NULL) pwd = sm_getpwnam(contextaddr->q_ruser); else pwd = sm_getpwnam(contextaddr->q_user); if (pwd != NULL) (void) setusercontext(NULL, pwd, pwd->pw_uid, LOGIN_SETRESOURCES|LOGIN_SETPRIORITY); } #endif /* tweak niceness */ if (m->m_nice != 0) nice(m->m_nice); /* reset group id */ if (bitnset(M_SPECIFIC_UID, m->m_flags)) new_gid = m->m_gid; else if (bitset(S_ISGID, stb.st_mode)) new_gid = stb.st_gid; else if (ctladdr != NULL && ctladdr->q_gid != 0) { if (!DontInitGroups) (void) initgroups(ctladdr->q_ruser != NULL ? ctladdr->q_ruser : ctladdr->q_user, ctladdr->q_gid); new_gid = ctladdr->q_gid; } else { if (!DontInitGroups) (void) initgroups(DefUser, DefGid); if (m->m_gid == 0) new_gid = DefGid; else new_gid = m->m_gid; } if (new_gid != NO_GID && setgid(new_gid) < 0 && suidwarn) syserr("openmailer: setgid(%ld) failed", (long) new_gid); /* reset user id */ endpwent(); if (bitnset(M_SPECIFIC_UID, m->m_flags)) new_euid = m->m_uid; if (bitset(S_ISUID, stb.st_mode)) new_ruid = stb.st_uid; else if (ctladdr != NULL && ctladdr->q_uid != 0) new_ruid = ctladdr->q_uid; else if (m->m_uid != 0) new_ruid = m->m_uid; else if (!bitnset(M_SPECIFIC_UID, m->m_flags)) new_ruid = DefUid; if (new_euid != NO_UID) { vendor_set_uid(new_euid); #if USESETEUID if (seteuid(new_euid) < 0 && suidwarn) syserr("openmailer: seteuid(%ld) failed", (long) new_euid); #else # if HASSETREUID if (setreuid(new_ruid, new_euid) < 0 && suidwarn) syserr("openmailer: setreuid(%ld, %ld) failed", (long) new_ruid, (long) new_euid); # else if (new_euid != geteuid() && setuid(new_euid) < 0 && suidwarn) syserr("openmailer: setuid(%ld) failed", (long) new_euid); # endif #endif } else if (new_ruid != NO_UID) { vendor_set_uid(new_ruid); if (setuid(new_ruid) < 0 && suidwarn) syserr("openmailer: setuid(%ld) failed", (long) new_ruid); } if (tTd(11, 2)) printf("openmailer: running as r/euid=%d/%d\n", (int) getuid(), (int) geteuid()); /* move into some "safe" directory */ if (m->m_execdir != NULL) { char *p, *q; char buf[MAXLINE + 1]; for (p = m->m_execdir; p != NULL; p = q) { q = strchr(p, ':'); if (q != NULL) *q = '\0'; expand(p, buf, sizeof buf, e); if (q != NULL) *q++ = ':'; if (tTd(11, 20)) printf("openmailer: trydir %s\n", buf); if (buf[0] != '\0' && chdir(buf) >= 0) break; } } /* arrange to filter std & diag output of command */ #if SMTP if (clever) { (void) close(rpvect[0]); if (dup2(rpvect[1], STDOUT_FILENO) < 0) { syserr("%s... openmailer(%s): cannot dup pipe %d for stdout", shortenstring(e->e_to, 203), m->m_name, rpvect[1]); _exit(EX_OSERR); } (void) close(rpvect[1]); } else if (OpMode == MD_SMTP || OpMode == MD_DAEMON || HoldErrs || DisConnected) { /* put mailer output in transcript */ if (dup2(fileno(e->e_xfp), STDOUT_FILENO) < 0) { syserr("%s... openmailer(%s): cannot dup xscript %d for stdout", shortenstring(e->e_to, 203), m->m_name, fileno(e->e_xfp)); _exit(EX_OSERR); } } #endif if (dup2(STDOUT_FILENO, STDERR_FILENO) < 0) { syserr("%s... openmailer(%s): cannot dup stdout for stderr", shortenstring(e->e_to, 203), m->m_name); _exit(EX_OSERR); } /* arrange to get standard input */ (void) close(mpvect[1]); if (dup2(mpvect[0], STDIN_FILENO) < 0) { syserr("%s... openmailer(%s): cannot dup pipe %d for stdin", shortenstring(e->e_to, 203), m->m_name, mpvect[0]); _exit(EX_OSERR); } (void) close(mpvect[0]); /* arrange for all the files to be closed */ for (i = 3; i < DtableSize; i++) { register int j; if ((j = fcntl(i, F_GETFD, 0)) != -1) (void) fcntl(i, F_SETFD, j | 1); } /* run disconnected from terminal */ (void) setsid(); /* try to execute the mailer */ execve(m->m_mailer, (ARGV_T) pv, (ARGV_T) UserEnviron); saveerrno = errno; syserr("Cannot exec %s", m->m_mailer); if (bitnset(M_LOCALMAILER, m->m_flags) || transienterror(saveerrno)) _exit(EX_OSERR); _exit(EX_UNAVAILABLE); } /* ** Set up return value. */ mci = (MCI *) xalloc(sizeof *mci); bzero((char *) mci, sizeof *mci); mci->mci_mailer = m; mci->mci_state = clever ? MCIS_OPENING : MCIS_OPEN; mci->mci_pid = pid; (void) close(mpvect[0]); mci->mci_out = fdopen(mpvect[1], "w"); if (mci->mci_out == NULL) { syserr("deliver: cannot create mailer output channel, fd=%d", mpvect[1]); (void) close(mpvect[1]); #if SMTP if (clever) { (void) close(rpvect[0]); (void) close(rpvect[1]); } #endif rcode = EX_OSERR; goto give_up; } #if SMTP if (clever) { (void) close(rpvect[1]); mci->mci_in = fdopen(rpvect[0], "r"); if (mci->mci_in == NULL) { syserr("deliver: cannot create mailer input channel, fd=%d", mpvect[1]); (void) close(rpvect[0]); fclose(mci->mci_out); mci->mci_out = NULL; rcode = EX_OSERR; goto give_up; } } else #endif { mci->mci_flags |= MCIF_TEMP; mci->mci_in = NULL; } } /* ** If we are in SMTP opening state, send initial protocol. */ if (bitnset(M_7BITS, m->m_flags) && (!clever || mci->mci_state == MCIS_OPENING)) mci->mci_flags |= MCIF_7BIT; #if SMTP if (clever && mci->mci_state != MCIS_CLOSED) { extern void smtpinit __P((MAILER *, MCI *, ENVELOPE *)); smtpinit(m, mci, e); } #endif /* clear out per-message flags from connection structure */ mci->mci_flags &= ~(MCIF_CVT7TO8|MCIF_CVT8TO7); if (bitset(EF_HAS8BIT, e->e_flags) && !bitset(EF_DONT_MIME, e->e_flags) && bitnset(M_7BITS, m->m_flags)) mci->mci_flags |= MCIF_CVT8TO7; #if MIME7TO8 if (bitnset(M_MAKE8BIT, m->m_flags) && !bitset(MCIF_7BIT, mci->mci_flags) && (p = hvalue("Content-Transfer-Encoding", e->e_header)) != NULL && (strcasecmp(p, "quoted-printable") == 0 || strcasecmp(p, "base64") == 0) && (p = hvalue("Content-Type", e->e_header)) != NULL) { /* may want to convert 7 -> 8 */ /* XXX should really parse it here -- and use a class XXX */ if (strncasecmp(p, "text/plain", 10) == 0 && (p[10] == '\0' || p[10] == ' ' || p[10] == ';')) mci->mci_flags |= MCIF_CVT7TO8; } #endif if (tTd(11, 1)) { printf("openmailer: "); mci_dump(mci, FALSE); } if (mci->mci_state != MCIS_OPEN) { /* couldn't open the mailer */ rcode = mci->mci_exitstat; errno = mci->mci_errno; #if NAMED_BIND h_errno = mci->mci_herrno; #endif if (rcode == EX_OK) { /* shouldn't happen */ syserr("554 deliver: mci=%lx rcode=%d errno=%d state=%d sig=%s", (long) mci, rcode, errno, mci->mci_state, firstsig); mci_dump_all(TRUE); rcode = EX_SOFTWARE; } #if DAEMON else if (curhost != NULL && *curhost != '\0') { /* try next MX site */ goto tryhost; } #endif } else if (!clever) { /* ** Format and send message. */ putfromline(mci, e); (*e->e_puthdr)(mci, e->e_header, e); (*e->e_putbody)(mci, e, NULL); /* get the exit status */ rcode = endmailer(mci, e, pv); } else #if SMTP { extern int smtpmailfrom __P((MAILER *, MCI *, ENVELOPE *)); extern int smtprcpt __P((ADDRESS *, MAILER *, MCI *, ENVELOPE *)); extern int smtpdata __P((MAILER *, MCI *, ENVELOPE *)); extern int smtpgetstat __P((MAILER *, MCI *, ENVELOPE *)); /* ** Send the MAIL FROM: protocol */ rcode = smtpmailfrom(m, mci, e); if (rcode == EX_OK) { register char *t = tobuf; register int i; /* send the recipient list */ tobuf[0] = '\0'; for (to = tochain; to != NULL; to = to->q_tchain) { e->e_to = to->q_paddr; if (strlen(to->q_paddr) + (t - tobuf) + 2 > sizeof tobuf) { /* not enough room */ continue; } else if ((i = smtprcpt(to, m, mci, e)) != EX_OK) { markfailure(e, to, mci, i); giveresponse(i, m, mci, ctladdr, xstart, e); } else { *t++ = ','; for (p = to->q_paddr; *p; *t++ = *p++) continue; *t = '\0'; } } /* now send the data */ if (tobuf[0] == '\0') { rcode = EX_OK; e->e_to = NULL; if (bitset(MCIF_CACHED, mci->mci_flags)) smtprset(m, mci, e); } else { e->e_to = tobuf + 1; rcode = smtpdata(m, mci, e); } } # if DAEMON if (rcode == EX_TEMPFAIL && curhost != NULL && *curhost != '\0') { /* try next MX site */ goto tryhost; } # endif } #else /* not SMTP */ { syserr("554 deliver: need SMTP compiled to use clever mailer"); rcode = EX_CONFIG; goto give_up; } #endif /* SMTP */ #if NAMED_BIND if (ConfigLevel < 2) _res.options |= RES_DEFNAMES | RES_DNSRCH; /* XXX */ #endif if (tTd(62, 1)) checkfds("after delivery"); /* ** Do final status disposal. ** We check for something in tobuf for the SMTP case. ** If we got a temporary failure, arrange to queue the ** addressees. */ give_up: #if SMTP # if _FFR_LMTP if (bitnset(M_LMTP, m->m_flags)) { tobuf[0] = '\0'; anyok = FALSE; } else # endif #endif anyok = rcode == EX_OK; for (to = tochain; to != NULL; to = to->q_tchain) { /* see if address already marked */ if (bitset(QBADADDR|QQUEUEUP, to->q_flags)) continue; #if SMTP # if _FFR_LMTP /* if running LMTP, get the status for each address */ if (bitnset(M_LMTP, m->m_flags)) { rcode = smtpgetstat(m, mci, e); if (rcode == EX_OK) { if (strlen(to->q_paddr) + strlen(tobuf) + 2 >= sizeof tobuf) { syserr("LMTP tobuf overflow"); } else { strcat(tobuf, ","); strcat(tobuf, to->q_paddr); } anyok = TRUE; } else { e->e_to = to->q_paddr; markfailure(e, to, mci, rcode); giveresponse(rcode, m, mci, ctladdr, xstart, e); e->e_to = tobuf + 1; continue; } } else # endif #endif { /* mark bad addresses */ if (rcode != EX_OK) { if (goodmxfound && rcode == EX_NOHOST) rcode = EX_TEMPFAIL; markfailure(e, to, mci, rcode); continue; } } /* successful delivery */ to->q_flags |= QSENT; to->q_statdate = curtime(); e->e_nsent++; if (bitnset(M_LOCALMAILER, m->m_flags) && bitset(QPINGONSUCCESS, to->q_flags)) { to->q_flags |= QDELIVERED; to->q_status = "2.1.5"; fprintf(e->e_xfp, "%s... Successfully delivered\n", to->q_paddr); } else if (bitset(QPINGONSUCCESS, to->q_flags) && bitset(QPRIMARY, to->q_flags) && !bitset(MCIF_DSN, mci->mci_flags)) { to->q_flags |= QRELAYED; fprintf(e->e_xfp, "%s... relayed; expect no further notifications\n", to->q_paddr); } } #if SMTP # if _FFR_LMTP if (bitnset(M_LMTP, m->m_flags)) { /* ** Global information applies to the last recipient only; ** clear it out to avoid bogus errors. */ rcode = EX_OK; e->e_statmsg = NULL; /* reset the mci state for the next transaction */ if (mci != NULL && mci->mci_state == MCIS_ACTIVE) mci->mci_state = MCIS_OPEN; } # endif #endif if (tobuf[0] != '\0') giveresponse(rcode, m, mci, ctladdr, xstart, e); if (anyok) markstats(e, tochain); mci_store_persistent(mci); #if SMTP /* now close the connection */ if (clever && mci != NULL && mci->mci_state != MCIS_CLOSED && !bitset(MCIF_CACHED, mci->mci_flags)) smtpquit(m, mci, e); #endif /* ** Restore state and return. */ #if XDEBUG { char wbuf[MAXLINE]; /* make absolutely certain 0, 1, and 2 are in use */ snprintf(wbuf, sizeof wbuf, "%s... end of deliver(%s)", e->e_to == NULL ? "NO-TO-LIST" : shortenstring(e->e_to, 203), m->m_name); checkfd012(wbuf); } #endif errno = 0; define('g', (char *) NULL, e); return (rcode); } /* ** MARKFAILURE -- mark a failure on a specific address. ** ** Parameters: ** e -- the envelope we are sending. ** q -- the address to mark. ** mci -- mailer connection information. ** rcode -- the code signifying the particular failure. ** ** Returns: ** none. ** ** Side Effects: ** marks the address (and possibly the envelope) with the ** failure so that an error will be returned or ** the message will be queued, as appropriate. */ void markfailure(e, q, mci, rcode) register ENVELOPE *e; register ADDRESS *q; register MCI *mci; int rcode; { char *stat = NULL; switch (rcode) { case EX_OK: break; case EX_TEMPFAIL: case EX_IOERR: case EX_OSERR: q->q_flags |= QQUEUEUP; q->q_flags &= ~QDONTSEND; break; default: q->q_flags |= QBADADDR; break; } /* find most specific error code possible */ if (mci != NULL && mci->mci_status != NULL) { q->q_status = mci->mci_status; q->q_rstatus = mci->mci_rstatus; } else if (e->e_status != NULL) { q->q_status = e->e_status; q->q_rstatus = NULL; } else { switch (rcode) { case EX_USAGE: stat = "5.5.4"; break; case EX_DATAERR: stat = "5.5.2"; break; case EX_NOUSER: stat = "5.1.1"; break; case EX_NOHOST: stat = "5.1.2"; break; case EX_NOINPUT: case EX_CANTCREAT: case EX_NOPERM: stat = "5.3.0"; break; case EX_UNAVAILABLE: case EX_SOFTWARE: case EX_OSFILE: case EX_PROTOCOL: case EX_CONFIG: stat = "5.5.0"; break; case EX_OSERR: case EX_IOERR: stat = "4.5.0"; break; case EX_TEMPFAIL: stat = "4.2.0"; break; } if (stat != NULL) q->q_status = stat; } q->q_statdate = curtime(); if (CurHostName != NULL && CurHostName[0] != '\0') q->q_statmta = newstr(CurHostName); if (rcode != EX_OK && q->q_rstatus == NULL && q->q_mailer != NULL && q->q_mailer->m_diagtype != NULL && strcasecmp(q->q_mailer->m_diagtype, "UNIX") == 0) { char buf[30]; (void) snprintf(buf, sizeof buf, "%d", rcode); q->q_rstatus = newstr(buf); } } /* ** ENDMAILER -- Wait for mailer to terminate. ** ** We should never get fatal errors (e.g., segmentation ** violation), so we report those specially. For other ** errors, we choose a status message (into statmsg), ** and if it represents an error, we print it. ** ** Parameters: ** pid -- pid of mailer. ** e -- the current envelope. ** pv -- the parameter vector that invoked the mailer ** (for error messages). ** ** Returns: ** exit code of mailer. ** ** Side Effects: ** none. */ int endmailer(mci, e, pv) register MCI *mci; register ENVELOPE *e; char **pv; { int st; mci_unlock_host(mci); /* close any connections */ if (mci->mci_in != NULL) (void) xfclose(mci->mci_in, mci->mci_mailer->m_name, "mci_in"); if (mci->mci_out != NULL) (void) xfclose(mci->mci_out, mci->mci_mailer->m_name, "mci_out"); mci->mci_in = mci->mci_out = NULL; mci->mci_state = MCIS_CLOSED; /* in the IPC case there is nothing to wait for */ if (mci->mci_pid == 0) return (EX_OK); #if _FFR_TIMEOUT_WAIT put a timeout around the wait #endif /* wait for the mailer process to die and collect status */ st = waitfor(mci->mci_pid); if (st == -1) { syserr("endmailer %s: wait", mci->mci_mailer->m_name); return (EX_SOFTWARE); } if (WIFEXITED(st)) { /* normal death -- return status */ return (WEXITSTATUS(st)); } /* it died a horrid death */ syserr("451 mailer %s died with signal %o", mci->mci_mailer->m_name, st); /* log the arguments */ if (pv != NULL && e->e_xfp != NULL) { register char **av; fprintf(e->e_xfp, "Arguments:"); for (av = pv; *av != NULL; av++) fprintf(e->e_xfp, " %s", *av); fprintf(e->e_xfp, "\n"); } ExitStat = EX_TEMPFAIL; return (EX_TEMPFAIL); } /* ** GIVERESPONSE -- Interpret an error response from a mailer ** ** Parameters: ** stat -- the status code from the mailer (high byte ** only; core dumps must have been taken care of ** already). ** m -- the mailer info for this mailer. ** mci -- the mailer connection info -- can be NULL if the ** response is given before the connection is made. ** ctladdr -- the controlling address for the recipient ** address(es). ** xstart -- the transaction start time, for computing ** transaction delays. ** e -- the current envelope. ** ** Returns: ** none. ** ** Side Effects: ** Errors may be incremented. ** ExitStat may be set. */ void giveresponse(stat, m, mci, ctladdr, xstart, e) int stat; register MAILER *m; register MCI *mci; ADDRESS *ctladdr; time_t xstart; ENVELOPE *e; { register const char *statmsg; extern char *SysExMsg[]; register int i; extern int N_SysEx; char buf[MAXLINE]; if (e == NULL) syserr("giveresponse: null envelope"); /* ** Compute status message from code. */ i = stat - EX__BASE; if (stat == 0) { statmsg = "250 Sent"; if (e->e_statmsg != NULL) { (void) snprintf(buf, sizeof buf, "%s (%s)", statmsg, shortenstring(e->e_statmsg, 403)); statmsg = buf; } } else if (i < 0 || i > N_SysEx) { (void) snprintf(buf, sizeof buf, "554 unknown mailer error %d", stat); stat = EX_UNAVAILABLE; statmsg = buf; } else if (stat == EX_TEMPFAIL) { char *bp = buf; snprintf(bp, SPACELEFT(buf, bp), "%s", SysExMsg[i] + 1); bp += strlen(bp); #if NAMED_BIND if (h_errno == TRY_AGAIN) statmsg = errstring(h_errno+E_DNSBASE); else #endif { if (errno != 0) statmsg = errstring(errno); else { #if SMTP statmsg = SmtpError; #else /* SMTP */ statmsg = NULL; #endif /* SMTP */ } } if (statmsg != NULL && statmsg[0] != '\0') snprintf(bp, SPACELEFT(buf, bp), ": %s", statmsg); statmsg = buf; } #if NAMED_BIND else if (stat == EX_NOHOST && h_errno != 0) { statmsg = errstring(h_errno + E_DNSBASE); (void) snprintf(buf, sizeof buf, "%s (%s)", SysExMsg[i] + 1, statmsg); statmsg = buf; } #endif else { statmsg = SysExMsg[i]; if (*statmsg++ == ':') { (void) snprintf(buf, sizeof buf, "%s: %s", statmsg, errstring(errno)); statmsg = buf; } } /* ** Print the message as appropriate */ if (stat == EX_OK || stat == EX_TEMPFAIL) { extern char MsgBuf[]; message("%s", &statmsg[4]); if (stat == EX_TEMPFAIL && e->e_xfp != NULL) fprintf(e->e_xfp, "%s\n", &MsgBuf[4]); } else { char mbuf[8]; Errors++; snprintf(mbuf, sizeof mbuf, "%.3s %%s", statmsg); usrerr(mbuf, &statmsg[4]); } /* ** Final cleanup. ** Log a record of the transaction. Compute the new ** ExitStat -- if we already had an error, stick with ** that. */ if (OpMode != MD_VERIFY && !bitset(EF_VRFYONLY, e->e_flags) && LogLevel > ((stat == EX_TEMPFAIL) ? 8 : (stat == EX_OK) ? 7 : 6)) logdelivery(m, mci, &statmsg[4], ctladdr, xstart, e); if (tTd(11, 2)) printf("giveresponse: stat=%d, e->e_message=%s\n", stat, e->e_message == NULL ? "" : e->e_message); if (stat != EX_TEMPFAIL) setstat(stat); if (stat != EX_OK && (stat != EX_TEMPFAIL || e->e_message == NULL)) { if (e->e_message != NULL) free(e->e_message); e->e_message = newstr(&statmsg[4]); } errno = 0; #if NAMED_BIND h_errno = 0; #endif } /* ** LOGDELIVERY -- log the delivery in the system log ** ** Care is taken to avoid logging lines that are too long, because ** some versions of syslog have an unfortunate proclivity for core ** dumping. This is a hack, to be sure, that is at best empirical. ** ** Parameters: ** m -- the mailer info. Can be NULL for initial queue. ** mci -- the mailer connection info -- can be NULL if the ** log is occuring when no connection is active. ** stat -- the message to print for the status. ** ctladdr -- the controlling address for the to list. ** xstart -- the transaction start time, used for ** computing transaction delay. ** e -- the current envelope. ** ** Returns: ** none ** ** Side Effects: ** none */ void logdelivery(m, mci, stat, ctladdr, xstart, e) MAILER *m; register MCI *mci; const char *stat; ADDRESS *ctladdr; time_t xstart; register ENVELOPE *e; { register char *bp; register char *p; int l; char buf[1024]; # if (SYSLOG_BUFSIZE) >= 256 /* ctladdr: max 106 bytes */ bp = buf; if (ctladdr != NULL) { snprintf(bp, SPACELEFT(buf, bp), ", ctladdr=%s", shortenstring(ctladdr->q_paddr, 83)); bp += strlen(bp); if (bitset(QGOODUID, ctladdr->q_flags)) { (void) snprintf(bp, SPACELEFT(buf, bp), " (%d/%d)", ctladdr->q_uid, ctladdr->q_gid); bp += strlen(bp); } } /* delay & xdelay: max 41 bytes */ snprintf(bp, SPACELEFT(buf, bp), ", delay=%s", pintvl(curtime() - e->e_ctime, TRUE)); bp += strlen(bp); if (xstart != (time_t) 0) { snprintf(bp, SPACELEFT(buf, bp), ", xdelay=%s", pintvl(curtime() - xstart, TRUE)); bp += strlen(bp); } /* mailer: assume about 19 bytes (max 10 byte mailer name) */ if (m != NULL) { snprintf(bp, SPACELEFT(buf, bp), ", mailer=%s", m->m_name); bp += strlen(bp); } /* relay: max 66 bytes for IPv4 addresses */ if (mci != NULL && mci->mci_host != NULL) { # if DAEMON extern SOCKADDR CurHostAddr; # endif snprintf(bp, SPACELEFT(buf, bp), ", relay=%s", shortenstring(mci->mci_host, 40)); bp += strlen(bp); # if DAEMON if (CurHostAddr.sa.sa_family != 0) { snprintf(bp, SPACELEFT(buf, bp), " [%s]", anynet_ntoa(&CurHostAddr)); } # endif } else if (strcmp(stat, "queued") != 0) { char *p = macvalue('h', e); if (p != NULL && p[0] != '\0') { snprintf(bp, SPACELEFT(buf, bp), ", relay=%s", shortenstring(p, 40)); } } bp += strlen(bp); #define STATLEN (((SYSLOG_BUFSIZE) - 100) / 4) #if (STATLEN) < 63 # undef STATLEN # define STATLEN 63 #endif #if (STATLEN) > 203 # undef STATLEN # define STATLEN 203 #endif /* stat: max 210 bytes */ if ((bp - buf) > (sizeof buf - ((STATLEN) + 20))) { /* desperation move -- truncate data */ bp = buf + sizeof buf - ((STATLEN) + 17); strcpy(bp, "..."); bp += 3; } (void) strcpy(bp, ", stat="); bp += strlen(bp); (void) strcpy(bp, shortenstring(stat, (STATLEN))); /* id, to: max 13 + TOBUFSIZE bytes */ l = SYSLOG_BUFSIZE - 100 - strlen(buf); p = e->e_to; while (strlen(p) >= (SIZE_T) l) { register char *q = strchr(p + l, ','); if (q == NULL) break; sm_syslog(LOG_INFO, e->e_id, "to=%.*s [more]%s", ++q - p, p, buf); p = q; } sm_syslog(LOG_INFO, e->e_id, "to=%s%s", p, buf); # else /* we have a very short log buffer size */ l = SYSLOG_BUFSIZE - 85; p = e->e_to; while (strlen(p) >= (SIZE_T) l) { register char *q = strchr(p + l, ','); if (q == NULL) break; sm_syslog(LOG_INFO, e->e_id, "to=%.*s [more]", ++q - p, p); p = q; } sm_syslog(LOG_INFO, e->e_id, "to=%s", p); if (ctladdr != NULL) { bp = buf; snprintf(bp, SPACELEFT(buf, bp), "ctladdr=%s", shortenstring(ctladdr->q_paddr, 83)); bp += strlen(bp); if (bitset(QGOODUID, ctladdr->q_flags)) { (void) snprintf(bp, SPACELEFT(buf, bp), " (%d/%d)", ctladdr->q_uid, ctladdr->q_gid); bp += strlen(bp); } sm_syslog(LOG_INFO, e->e_id, "%s", buf); } bp = buf; snprintf(bp, SPACELEFT(buf, bp), "delay=%s", pintvl(curtime() - e->e_ctime, TRUE)); bp += strlen(bp); if (xstart != (time_t) 0) { snprintf(bp, SPACELEFT(buf, bp), ", xdelay=%s", pintvl(curtime() - xstart, TRUE)); bp += strlen(bp); } if (m != NULL) { snprintf(bp, SPACELEFT(buf, bp), ", mailer=%s", m->m_name); bp += strlen(bp); } sm_syslog(LOG_INFO, e->e_id, "%.1000s", buf); buf[0] = '\0'; bp = buf; if (mci != NULL && mci->mci_host != NULL) { # if DAEMON extern SOCKADDR CurHostAddr; # endif snprintf(bp, SPACELEFT(buf, bp), "relay=%.100s", mci->mci_host); bp += strlen(bp); # if DAEMON if (CurHostAddr.sa.sa_family != 0) snprintf(bp, SPACELEFT(buf, bp), " [%.100s]", anynet_ntoa(&CurHostAddr)); # endif } else if (strcmp(stat, "queued") != 0) { char *p = macvalue('h', e); if (p != NULL && p[0] != '\0') snprintf(buf, sizeof buf, "relay=%.100s", p); } if (buf[0] != '\0') sm_syslog(LOG_INFO, e->e_id, "%.1000s", buf); sm_syslog(LOG_INFO, e->e_id, "stat=%s", shortenstring(stat, 63)); # endif /* short log buffer */ } /* ** PUTFROMLINE -- output a UNIX-style from line (or whatever) ** ** This can be made an arbitrary message separator by changing $l ** ** One of the ugliest hacks seen by human eyes is contained herein: ** UUCP wants those stupid "remote from " lines. Why oh why ** does a well-meaning programmer such as myself have to deal with ** this kind of antique garbage???? ** ** Parameters: ** mci -- the connection information. ** e -- the envelope. ** ** Returns: ** none ** ** Side Effects: ** outputs some text to fp. */ void putfromline(mci, e) register MCI *mci; ENVELOPE *e; { char *template = UnixFromLine; char buf[MAXLINE]; char xbuf[MAXLINE]; if (bitnset(M_NHDR, mci->mci_mailer->m_flags)) return; if (bitnset(M_UGLYUUCP, mci->mci_mailer->m_flags)) { char *bang; expand("\201g", buf, sizeof buf, e); bang = strchr(buf, '!'); if (bang == NULL) { char *at; char hname[MAXNAME]; /* ** If we can construct a UUCP path, do so */ at = strrchr(buf, '@'); if (at == NULL) { expand( "\201k", hname, sizeof hname, e); at = hname; } else *at++ = '\0'; (void) snprintf(xbuf, sizeof xbuf, "From %.800s \201d remote from %.100s\n", buf, at); } else { *bang++ = '\0'; (void) snprintf(xbuf, sizeof xbuf, "From %.800s \201d remote from %.100s\n", bang, buf); template = xbuf; } } expand(template, buf, sizeof buf, e); putxline(buf, strlen(buf), mci, PXLF_HEADER); } /* ** PUTBODY -- put the body of a message. ** ** Parameters: ** mci -- the connection information. ** e -- the envelope to put out. ** separator -- if non-NULL, a message separator that must ** not be permitted in the resulting message. ** ** Returns: ** none. ** ** Side Effects: ** The message is written onto fp. */ /* values for output state variable */ #define OS_HEAD 0 /* at beginning of line */ #define OS_CR 1 /* read a carriage return */ #define OS_INLINE 2 /* putting rest of line */ void putbody(mci, e, separator) register MCI *mci; register ENVELOPE *e; char *separator; { char buf[MAXLINE]; /* ** Output the body of the message */ if (e->e_dfp == NULL && bitset(EF_HAS_DF, e->e_flags)) { char *df = queuename(e, 'd'); e->e_dfp = fopen(df, "r"); if (e->e_dfp == NULL) syserr("putbody: Cannot open %s for %s from %s", df, e->e_to, e->e_from.q_paddr); } if (e->e_dfp == NULL) { if (bitset(MCIF_INHEADER, mci->mci_flags)) { putline("", mci); mci->mci_flags &= ~MCIF_INHEADER; } putline("<<< No Message Collected >>>", mci); goto endofmessage; } if (e->e_dfino == (ino_t) 0) { struct stat stbuf; if (fstat(fileno(e->e_dfp), &stbuf) < 0) e->e_dfino = -1; else { e->e_dfdev = stbuf.st_dev; e->e_dfino = stbuf.st_ino; } } rewind(e->e_dfp); #if MIME8TO7 if (bitset(MCIF_CVT8TO7, mci->mci_flags)) { char *boundaries[MAXMIMENESTING + 1]; /* ** Do 8 to 7 bit MIME conversion. */ /* make sure it looks like a MIME message */ if (hvalue("MIME-Version", e->e_header) == NULL) putline("MIME-Version: 1.0", mci); if (hvalue("Content-Type", e->e_header) == NULL) { snprintf(buf, sizeof buf, "Content-Type: text/plain; charset=%s", defcharset(e)); putline(buf, mci); } /* now do the hard work */ boundaries[0] = NULL; mime8to7(mci, e->e_header, e, boundaries, M87F_OUTER); } # if MIME7TO8 else if (bitset(MCIF_CVT7TO8, mci->mci_flags)) { mime7to8(mci, e->e_header, e); } # endif else #endif { int ostate; register char *bp; register char *pbp; register int c; register char *xp; int padc; char *buflim; int pos = 0; char peekbuf[10]; /* we can pass it through unmodified */ if (bitset(MCIF_INHEADER, mci->mci_flags)) { putline("", mci); mci->mci_flags &= ~MCIF_INHEADER; } /* determine end of buffer; allow for short mailer lines */ buflim = &buf[sizeof buf - 1]; if (mci->mci_mailer->m_linelimit > 0 && mci->mci_mailer->m_linelimit < sizeof buf - 1) buflim = &buf[mci->mci_mailer->m_linelimit - 1]; /* copy temp file to output with mapping */ ostate = OS_HEAD; bp = buf; pbp = peekbuf; while (!ferror(mci->mci_out)) { if (pbp > peekbuf) c = *--pbp; else if ((c = getc(e->e_dfp)) == EOF) break; if (bitset(MCIF_7BIT, mci->mci_flags)) c &= 0x7f; switch (ostate) { case OS_HEAD: #if _FFR_NONULLS if (c == '\0' && bitnset(M_NONULLS, mci->mci_mailer->m_flags)) break; #endif if (c != '\r' && c != '\n' && bp < buflim) { *bp++ = c; break; } /* check beginning of line for special cases */ *bp = '\0'; pos = 0; padc = EOF; if (buf[0] == 'F' && bitnset(M_ESCFROM, mci->mci_mailer->m_flags) && strncmp(buf, "From ", 5) == 0) { padc = '>'; } if (buf[0] == '-' && buf[1] == '-' && separator != NULL) { /* possible separator */ int sl = strlen(separator); if (strncmp(&buf[2], separator, sl) == 0) padc = ' '; } if (buf[0] == '.' && bitnset(M_XDOT, mci->mci_mailer->m_flags)) { padc = '.'; } /* now copy out saved line */ if (TrafficLogFile != NULL) { fprintf(TrafficLogFile, "%05d >>> ", (int) getpid()); if (padc != EOF) putc(padc, TrafficLogFile); for (xp = buf; xp < bp; xp++) putc(*xp, TrafficLogFile); if (c == '\n') fputs(mci->mci_mailer->m_eol, TrafficLogFile); } if (padc != EOF) { putc(padc, mci->mci_out); pos++; } for (xp = buf; xp < bp; xp++) putc(*xp, mci->mci_out); if (c == '\n') { fputs(mci->mci_mailer->m_eol, mci->mci_out); pos = 0; } else { pos += bp - buf; if (c != '\r') *pbp++ = c; } bp = buf; /* determine next state */ if (c == '\n') ostate = OS_HEAD; else if (c == '\r') ostate = OS_CR; else ostate = OS_INLINE; continue; case OS_CR: if (c == '\n') { /* got CRLF */ fputs(mci->mci_mailer->m_eol, mci->mci_out); if (TrafficLogFile != NULL) { fputs(mci->mci_mailer->m_eol, TrafficLogFile); } ostate = OS_HEAD; continue; } /* had a naked carriage return */ *pbp++ = c; c = '\r'; ostate = OS_INLINE; goto putch; case OS_INLINE: if (c == '\r') { ostate = OS_CR; continue; } #if _FFR_NONULLS if (c == '\0' && bitnset(M_NONULLS, mci->mci_mailer->m_flags)) break; #endif putch: if (mci->mci_mailer->m_linelimit > 0 && pos > mci->mci_mailer->m_linelimit && c != '\n') { putc('!', mci->mci_out); fputs(mci->mci_mailer->m_eol, mci->mci_out); if (TrafficLogFile != NULL) { fprintf(TrafficLogFile, "!%s", mci->mci_mailer->m_eol); } ostate = OS_HEAD; *pbp++ = c; continue; } if (c == '\n') { if (TrafficLogFile != NULL) fputs(mci->mci_mailer->m_eol, TrafficLogFile); fputs(mci->mci_mailer->m_eol, mci->mci_out); pos = 0; ostate = OS_HEAD; } else { if (TrafficLogFile != NULL) putc(c, TrafficLogFile); putc(c, mci->mci_out); pos++; ostate = OS_INLINE; } break; } } /* make sure we are at the beginning of a line */ if (bp > buf) { if (TrafficLogFile != NULL) { for (xp = buf; xp < bp; xp++) putc(*xp, TrafficLogFile); } for (xp = buf; xp < bp; xp++) putc(*xp, mci->mci_out); pos += bp - buf; } if (pos > 0) { if (TrafficLogFile != NULL) fputs(mci->mci_mailer->m_eol, TrafficLogFile); fputs(mci->mci_mailer->m_eol, mci->mci_out); } } if (ferror(e->e_dfp)) { syserr("putbody: df%s: read error", e->e_id); ExitStat = EX_IOERR; } endofmessage: /* some mailers want extra blank line at end of message */ if (bitnset(M_BLANKEND, mci->mci_mailer->m_flags) && buf[0] != '\0' && buf[0] != '\n') putline("", mci); (void) fflush(mci->mci_out); if (ferror(mci->mci_out) && errno != EPIPE) { syserr("putbody: write error"); ExitStat = EX_IOERR; } errno = 0; } /* ** MAILFILE -- Send a message to a file. ** ** If the file has the setuid/setgid bits set, but NO execute ** bits, sendmail will try to become the owner of that file ** rather than the real user. Obviously, this only works if ** sendmail runs as root. ** ** This could be done as a subordinate mailer, except that it ** is used implicitly to save messages in ~/dead.letter. We ** view this as being sufficiently important as to include it ** here. For example, if the system is dying, we shouldn't have ** to create another process plus some pipes to save the message. ** ** Parameters: ** filename -- the name of the file to send to. ** ctladdr -- the controlling address header -- includes ** the userid/groupid to be when sending. ** sfflags -- flags for opening. ** e -- the current envelope. ** ** Returns: ** The exit code associated with the operation. ** ** Side Effects: ** none. */ static jmp_buf CtxMailfileTimeout; static void mailfiletimeout(); int mailfile(filename, ctladdr, sfflags, e) char *volatile filename; ADDRESS *ctladdr; volatile int sfflags; register ENVELOPE *e; { register FILE *f; register pid_t pid = -1; volatile int mode = ST_MODE_NOFILE; bool suidwarn = geteuid() == 0; EVENT *ev; if (tTd(11, 1)) { printf("mailfile %s\n ctladdr=", filename); printaddr(ctladdr, FALSE); } if (e->e_xfp != NULL) fflush(e->e_xfp); /* ** Special case /dev/null. This allows us to restrict file ** delivery to regular files only. */ if (strcmp(filename, "/dev/null") == 0) return EX_OK; /* ** Fork so we can change permissions here. ** Note that we MUST use fork, not vfork, because of ** the complications of calling subroutines, etc. */ DOFORK(fork); if (pid < 0) return (EX_OSERR); else if (pid == 0) { /* child -- actually write to file */ struct stat stb; MCI mcibuf; volatile int oflags = O_WRONLY|O_APPEND; if (e->e_lockfp != NULL) (void) close(fileno(e->e_lockfp)); (void) setsignal(SIGINT, SIG_DFL); (void) setsignal(SIGHUP, SIG_DFL); (void) setsignal(SIGTERM, SIG_DFL); (void) umask(OldUmask); e->e_to = filename; ExitStat = EX_OK; if (setjmp(CtxMailfileTimeout) != 0) { exit(EX_TEMPFAIL); } if (TimeOuts.to_fileopen > 0) ev = setevent(TimeOuts.to_fileopen, mailfiletimeout, 0); else ev = NULL; #ifdef HASLSTAT if (lstat(filename, &stb) < 0) #else if (stat(filename, &stb) < 0) #endif { stb.st_mode = ST_MODE_NOFILE; mode = FileMode; oflags |= O_CREAT|O_EXCL; } else if (bitset(0111, stb.st_mode) || stb.st_nlink != 1 || (SafeFileEnv != NULL && !S_ISREG(stb.st_mode))) exit(EX_CANTCREAT); if (mode == ST_MODE_NOFILE) mode = stb.st_mode; /* limit the errors to those actually caused in the child */ errno = 0; ExitStat = EX_OK; if (ctladdr != NULL || bitset(SFF_RUNASREALUID, sfflags)) { /* ignore setuid and setgid bits */ mode &= ~(S_ISGID|S_ISUID); } /* we have to open the dfile BEFORE setuid */ if (e->e_dfp == NULL && bitset(EF_HAS_DF, e->e_flags)) { char *df = queuename(e, 'd'); e->e_dfp = fopen(df, "r"); if (e->e_dfp == NULL) { syserr("mailfile: Cannot open %s for %s from %s", df, e->e_to, e->e_from.q_paddr); } } /* select a new user to run as */ if (!bitset(SFF_RUNASREALUID, sfflags)) { if (bitset(S_ISUID, mode)) { RealUserName = NULL; RealUid = stb.st_uid; } else if (ctladdr != NULL && ctladdr->q_uid != 0) { if (ctladdr->q_ruser != NULL) RealUserName = ctladdr->q_ruser; else RealUserName = ctladdr->q_user; RealUid = ctladdr->q_uid; } else if (FileMailer != NULL && FileMailer->m_uid != 0) { RealUserName = DefUser; RealUid = FileMailer->m_uid; } else { RealUserName = DefUser; RealUid = DefUid; } /* select a new group to run as */ if (bitset(S_ISGID, mode)) RealGid = stb.st_gid; else if (ctladdr != NULL && ctladdr->q_uid != 0) RealGid = ctladdr->q_gid; else if (FileMailer != NULL && FileMailer->m_gid != 0) RealGid = FileMailer->m_gid; else RealGid = DefGid; } /* last ditch */ if (!bitset(SFF_ROOTOK, sfflags)) { if (RealUid == 0) RealUid = DefUid; if (RealGid == 0) RealGid = DefGid; } /* set group id list (needs /etc/group access) */ if (RealUserName != NULL && !DontInitGroups) (void) initgroups(RealUserName, RealGid); /* if you have a safe environment, go into it */ if (SafeFileEnv != NULL && SafeFileEnv[0] != '\0') { int i; if (chroot(SafeFileEnv) < 0) { syserr("mailfile: Cannot chroot(%s)", SafeFileEnv); exit(EX_CANTCREAT); } i = strlen(SafeFileEnv); if (strncmp(SafeFileEnv, filename, i) == 0) filename += i; } if (chdir("/") < 0) syserr("mailfile: cannot chdir(/)"); /* now reset the group and user ids */ endpwent(); if (setgid(RealGid) < 0 && suidwarn) syserr("mailfile: setgid(%ld) failed", (long) RealGid); vendor_set_uid(RealUid); if (setuid(RealUid) < 0 && suidwarn) syserr("mailfile: setuid(%ld) failed", (long) RealUid); sfflags |= SFF_NOPATHCHECK|SFF_NOLINK; sfflags &= ~SFF_OPENASROOT; f = safefopen(filename, oflags, FileMode, sfflags); if (f == NULL) { message("554 cannot open: %s", errstring(errno)); exit(EX_CANTCREAT); } if (filechanged(filename, fileno(f), &stb, sfflags)) { message("554 file changed after open"); exit(EX_CANTCREAT); } if (fstat(fileno(f), &stb) < 0) { message("554 cannot fstat %s", errstring(errno)); exit(EX_CANTCREAT); } if (ev != NULL) clrevent(ev); bzero(&mcibuf, sizeof mcibuf); mcibuf.mci_mailer = FileMailer; mcibuf.mci_out = f; if (bitnset(M_7BITS, FileMailer->m_flags)) mcibuf.mci_flags |= MCIF_7BIT; putfromline(&mcibuf, e); (*e->e_puthdr)(&mcibuf, e->e_header, e); (*e->e_putbody)(&mcibuf, e, NULL); putline("\n", &mcibuf); if (fflush(f) < 0 || ferror(f)) { message("451 I/O error: %s", errstring(errno)); setstat(EX_IOERR); } /* reset ISUID & ISGID bits for paranoid systems */ #if HASFCHMOD (void) fchmod(fileno(f), (MODE_T) stb.st_mode); #else (void) chmod(filename, (MODE_T) stb.st_mode); #endif (void) xfclose(f, "mailfile", filename); (void) fflush(stdout); setuid(RealUid); exit(ExitStat); /*NOTREACHED*/ } else { /* parent -- wait for exit status */ int st; st = waitfor(pid); if (WIFEXITED(st)) return (WEXITSTATUS(st)); else { syserr("child died on signal %d", st); return (EX_UNAVAILABLE); } /*NOTREACHED*/ } return EX_UNAVAILABLE; /* avoid compiler warning on IRIX */ } static void mailfiletimeout() { longjmp(CtxMailfileTimeout, 1); } /* ** HOSTSIGNATURE -- return the "signature" for a host. ** ** The signature describes how we are going to send this -- it ** can be just the hostname (for non-Internet hosts) or can be ** an ordered list of MX hosts. ** ** Parameters: ** m -- the mailer describing this host. ** host -- the host name. ** e -- the current envelope. ** ** Returns: ** The signature for this host. ** ** Side Effects: ** Can tweak the symbol table. */ char * hostsignature(m, host, e) register MAILER *m; char *host; ENVELOPE *e; { register char *p; register STAB *s; int i; int len; #if NAMED_BIND int nmx; char *hp; char *endp; int oldoptions = _res.options; char *mxhosts[MAXMXHOSTS + 1]; #endif /* ** Check to see if this uses IPC -- if not, it can't have MX records. */ p = m->m_mailer; if (strcmp(p, "[IPC]") != 0 && strcmp(p, "[TCP]") != 0) { /* just an ordinary mailer */ return host; } /* ** Look it up in the symbol table. */ s = stab(host, ST_HOSTSIG, ST_ENTER); if (s->s_hostsig != NULL) return s->s_hostsig; /* ** Not already there -- create a signature. */ #if NAMED_BIND if (ConfigLevel < 2) _res.options &= ~(RES_DEFNAMES | RES_DNSRCH); /* XXX */ for (hp = host; hp != NULL; hp = endp) { endp = strchr(hp, ':'); if (endp != NULL) *endp = '\0'; if (bitnset(M_NOMX, m->m_flags)) { /* skip MX lookups */ nmx = 1; mxhosts[0] = hp; } else { auto int rcode; nmx = getmxrr(hp, mxhosts, TRUE, &rcode); if (nmx <= 0) { register MCI *mci; /* update the connection info for this host */ mci = mci_get(hp, m); mci->mci_errno = errno; mci->mci_herrno = h_errno; mci->mci_lastuse = curtime(); mci_setstat(mci, rcode, NULL, NULL); /* use the original host name as signature */ nmx = 1; mxhosts[0] = hp; } } len = 0; for (i = 0; i < nmx; i++) { len += strlen(mxhosts[i]) + 1; } if (s->s_hostsig != NULL) len += strlen(s->s_hostsig) + 1; p = xalloc(len); if (s->s_hostsig != NULL) { (void) strcpy(p, s->s_hostsig); free(s->s_hostsig); s->s_hostsig = p; p += strlen(p); *p++ = ':'; } else s->s_hostsig = p; for (i = 0; i < nmx; i++) { if (i != 0) *p++ = ':'; strcpy(p, mxhosts[i]); p += strlen(p); } if (endp != NULL) *endp++ = ':'; } makelower(s->s_hostsig); if (ConfigLevel < 2) _res.options = oldoptions; #else /* not using BIND -- the signature is just the host name */ s->s_hostsig = host; #endif if (tTd(17, 1)) printf("hostsignature(%s) = %s\n", host, s->s_hostsig); return s->s_hostsig; }