/* * Copyright (c) 1998-2003, 2006 Proofpoint, Inc. and its suppliers. * All rights reserved. * Copyright (c) 1983, 1995-1997 Eric P. Allman. All rights reserved. * Copyright (c) 1988, 1993 * The Regents of the University of California. All rights reserved. * * By using this file, you agree to the terms and conditions set * forth in the LICENSE file which can be found at the top level of * the sendmail distribution. * */ #include SM_RCSID("@(#)$Id: recipient.c,v 8.351 2013-11-22 20:51:56 ca Exp $") #include #if _FFR_8BITENVADDR # include #endif static void includetimeout __P((int)); static ADDRESS *self_reference __P((ADDRESS *)); static int sortexpensive __P((ADDRESS *, ADDRESS *)); static int sortbysignature __P((ADDRESS *, ADDRESS *)); static int sorthost __P((ADDRESS *, ADDRESS *)); typedef int sortfn_t __P((ADDRESS *, ADDRESS *)); /* ** SORTHOST -- strcmp()-like func for host portion of an ADDRESS ** ** Parameters: ** xx -- first ADDRESS ** yy -- second ADDRESS ** ** Returns: ** <0 when xx->q_host is less than yy->q_host ** >0 when xx->q_host is greater than yy->q_host ** 0 when equal */ static int sorthost(xx, yy) register ADDRESS *xx; register ADDRESS *yy; { #if _FFR_HOST_SORT_REVERSE /* XXX maybe compare hostnames from the end? */ return sm_strrevcasecmp(xx->q_host, yy->q_host); #else return sm_strcasecmp(xx->q_host, yy->q_host); #endif } /* ** SORTEXPENSIVE -- strcmp()-like func for expensive mailers ** ** The mailer has been noted already as "expensive" for 'xx'. This ** will give a result relative to 'yy'. Expensive mailers get rated ** "greater than" non-expensive mailers because during the delivery phase ** it will get queued -- no use it getting in the way of less expensive ** recipients. We avoid an MX RR lookup when both 'xx' and 'yy' are ** expensive since an MX RR lookup happens when extracted from the queue ** later. ** ** Parameters: ** xx -- first ADDRESS ** yy -- second ADDRESS ** ** Returns: ** <0 when xx->q_host is less than yy->q_host and both are ** expensive ** >0 when xx->q_host is greater than yy->q_host, or when ** 'yy' is non-expensive ** 0 when equal (by expense and q_host) */ static int sortexpensive(xx, yy) ADDRESS *xx; ADDRESS *yy; { if (!bitnset(M_EXPENSIVE, yy->q_mailer->m_flags)) return 1; /* xx should go later */ #if _FFR_HOST_SORT_REVERSE /* XXX maybe compare hostnames from the end? */ return sm_strrevcasecmp(xx->q_host, yy->q_host); #else return sm_strcasecmp(xx->q_host, yy->q_host); #endif } /* ** SORTBYSIGNATURE -- a strcmp()-like func for q_mailer and q_host in ADDRESS ** ** Parameters: ** xx -- first ADDRESS ** yy -- second ADDRESS ** ** Returns: ** 0 when the "signature"'s are same ** <0 when xx->q_signature is less than yy->q_signature ** >0 when xx->q_signature is greater than yy->q_signature ** ** Side Effect: ** May set ADDRESS pointer for q_signature if not already set. */ static int sortbysignature(xx, yy) ADDRESS *xx; ADDRESS *yy; { register int ret; /* Let's avoid redoing the signature over and over again */ if (xx->q_signature == NULL) xx->q_signature = hostsignature(xx->q_mailer, xx->q_host, QISSECURE(xx), NULL); if (yy->q_signature == NULL) yy->q_signature = hostsignature(yy->q_mailer, yy->q_host, QISSECURE(yy), NULL); ret = strcmp(xx->q_signature, yy->q_signature); /* ** If the two signatures are the same then we will return a sort ** value based on 'q_user'. But note that we have reversed xx and yy ** on purpose. This additional compare helps reduce the number of ** sameaddr() calls and loops in recipient() for the case when ** the rcpt list has been provided already in-order. */ if (ret == 0) return strcmp(yy->q_user, xx->q_user); else return ret; } /* ** SENDTOLIST -- Designate a send list. ** ** The parameter is a comma-separated list of people to send to. ** This routine arranges to send to all of them. ** ** Parameters: ** list -- the send list. ** ctladdr -- the address template for the person to ** send to -- effective uid/gid are important. ** This is typically the alias that caused this ** expansion. ** sendq -- a pointer to the head of a queue to put ** these people into. ** aliaslevel -- the current alias nesting depth -- to ** diagnose loops. ** e -- the envelope in which to add these recipients. ** ** Returns: ** The number of addresses actually on the list. */ /* q_flags bits inherited from ctladdr */ #define QINHERITEDBITS (QPINGONSUCCESS|QPINGONFAILURE|QPINGONDELAY|QHASNOTIFY) int sendtolist(list, ctladdr, sendq, aliaslevel, e) char *list; ADDRESS *ctladdr; ADDRESS **sendq; int aliaslevel; register ENVELOPE *e; { register char *p; register ADDRESS *SM_NONVOLATILE al; /* list of addresses to send to */ SM_NONVOLATILE char delimiter; /* the address delimiter */ SM_NONVOLATILE int naddrs; SM_NONVOLATILE int i; char *endp; char *oldto = e->e_to; char *SM_NONVOLATILE bufp; char buf[MAXNAME + 1]; /* EAI: ok, uses bufp dynamically expanded */ if (list == NULL) { syserr("sendtolist: null list"); return 0; } if (tTd(25, 1)) { sm_dprintf("sendto: %s\n ctladdr=", list); printaddr(sm_debug_file(), ctladdr, false); } /* heuristic to determine old versus new style addresses */ if (ctladdr == NULL && (strchr(list, ',') != NULL || strchr(list, ';') != NULL || strchr(list, '<') != NULL || strchr(list, '(') != NULL)) e->e_flags &= ~EF_OLDSTYLE; delimiter = ' '; if (!bitset(EF_OLDSTYLE, e->e_flags) || ctladdr != NULL) delimiter = ','; al = NULL; naddrs = 0; /* make sure we have enough space to copy the string */ i = strlen(list) + 1; if (i <= sizeof(buf)) { bufp = buf; i = sizeof(buf); } else bufp = sm_malloc_x(i); endp = bufp + i; SM_TRY { (void) sm_strlcpy(bufp, denlstring(list, false, true), i); macdefine(&e->e_macro, A_PERM, macid("{addr_type}"), "e r"); for (p = bufp; *p != '\0'; ) { auto char *delimptr; register ADDRESS *a; SM_ASSERT(p < endp); /* parse the address */ while ((SM_ISSPACE(*p)) || *p == ',') p++; SM_ASSERT(p < endp); /* XXX p must be [i] */ a = parseaddr(p, NULLADDR, RF_COPYALL, delimiter, &delimptr, e, true); p = delimptr; SM_ASSERT(p < endp); if (a == NULL) continue; a->q_next = al; a->q_alias = ctladdr; /* arrange to inherit attributes from parent */ if (ctladdr != NULL) { ADDRESS *b; /* self reference test */ if (sameaddr(ctladdr, a)) { if (tTd(27, 5)) { sm_dprintf("sendtolist: QSELFREF "); printaddr(sm_debug_file(), ctladdr, false); } ctladdr->q_flags |= QSELFREF; } /* check for address loops */ b = self_reference(a); if (b != NULL) { b->q_flags |= QSELFREF; if (tTd(27, 5)) { sm_dprintf("sendtolist: QSELFREF "); printaddr(sm_debug_file(), b, false); } if (a != b) { if (tTd(27, 5)) { sm_dprintf("sendtolist: QS_DONTSEND "); printaddr(sm_debug_file(), a, false); } a->q_state = QS_DONTSEND; b->q_flags |= a->q_flags & QNOTREMOTE; continue; } } /* full name */ if (a->q_fullname == NULL) a->q_fullname = ctladdr->q_fullname; /* various flag bits */ a->q_flags &= ~QINHERITEDBITS; a->q_flags |= ctladdr->q_flags & QINHERITEDBITS; /* DSN recipient information */ a->q_finalrcpt = ctladdr->q_finalrcpt; a->q_orcpt = ctladdr->q_orcpt; } al = a; } /* arrange to send to everyone on the local send list */ while (al != NULL) { register ADDRESS *a = al; al = a->q_next; a = recipient(a, sendq, aliaslevel, e); naddrs++; } } SM_FINALLY { e->e_to = oldto; if (bufp != buf) sm_free(bufp); macdefine(&e->e_macro, A_PERM, macid("{addr_type}"), NULL); } SM_END_TRY return naddrs; } #if MILTER /* ** REMOVEFROMLIST -- Remove addresses from a send list. ** ** The parameter is a comma-separated list of recipients to remove. ** Note that it only deletes matching addresses. If those addresses ** have been expanded already in the sendq, it won't mark the ** expanded recipients as QS_REMOVED. ** ** Parameters: ** list -- the list to remove. ** sendq -- a pointer to the head of a queue to remove ** these addresses from. ** e -- the envelope in which to remove these recipients. ** ** Returns: ** The number of addresses removed from the list. ** */ int removefromlist(list, sendq, e) char *list; ADDRESS **sendq; ENVELOPE *e; { SM_NONVOLATILE char delimiter; /* the address delimiter */ SM_NONVOLATILE int naddrs; SM_NONVOLATILE int i; char *p; char *oldto = e->e_to; char *SM_NONVOLATILE bufp; char buf[MAXNAME + 1]; /* EAI: ok, uses bufp dynamically expanded */ if (list == NULL) { syserr("removefromlist: null list"); return 0; } if (tTd(25, 1)) sm_dprintf("removefromlist: %s\n", list); /* heuristic to determine old versus new style addresses */ if (strchr(list, ',') != NULL || strchr(list, ';') != NULL || strchr(list, '<') != NULL || strchr(list, '(') != NULL) e->e_flags &= ~EF_OLDSTYLE; delimiter = ' '; if (!bitset(EF_OLDSTYLE, e->e_flags)) delimiter = ','; naddrs = 0; /* make sure we have enough space to copy the string */ i = strlen(list) + 1; if (i <= sizeof(buf)) { bufp = buf; i = sizeof(buf); } else bufp = sm_malloc_x(i); SM_TRY { (void) sm_strlcpy(bufp, denlstring(list, false, true), i); # if _FFR_ADDR_TYPE_MODES if (AddrTypeModes) macdefine(&e->e_macro, A_PERM, macid("{addr_type}"), "e r d"); else # endif /* _FFR_ADDR_TYPE_MODES */ /* "else" in #if code above */ { macdefine(&e->e_macro, A_PERM, macid("{addr_type}"), "e r"); } for (p = bufp; *p != '\0'; ) { ADDRESS a; /* parsed address to be removed */ ADDRESS *q; ADDRESS **pq; char *delimptr; /* parse the address */ while ((SM_ISSPACE(*p)) || *p == ',') p++; /* XXX p must be [i] */ if (parseaddr(p, &a, RF_COPYALL|RF_RM_ADDR, delimiter, &delimptr, e, true) == NULL) { p = delimptr; continue; } p = delimptr; for (pq = sendq; (q = *pq) != NULL; pq = &q->q_next) { if (!QS_IS_DEAD(q->q_state) && (sameaddr(q, &a) || strcmp(q->q_paddr, a.q_paddr) == 0)) { if (tTd(25, 5)) { sm_dprintf("removefromlist: QS_REMOVED "); printaddr(sm_debug_file(), &a, false); } q->q_state = QS_REMOVED; naddrs++; break; } } } } SM_FINALLY { e->e_to = oldto; if (bufp != buf) sm_free(bufp); macdefine(&e->e_macro, A_PERM, macid("{addr_type}"), NULL); } SM_END_TRY return naddrs; } #endif /* MILTER */ /* ** RECIPIENT -- Designate a message recipient ** Saves the named person for future mailing (after some checks). ** ** Parameters: ** new -- the (preparsed) address header for the recipient. ** sendq -- a pointer to the head of a queue to put the ** recipient in. Duplicate suppression is done ** in this queue. ** aliaslevel -- the current alias nesting depth. ** e -- the current envelope. ** ** Returns: ** The actual address in the queue. This will be "a" if ** the address is not a duplicate, else the original address. ** */ ADDRESS * recipient(new, sendq, aliaslevel, e) register ADDRESS *new; register ADDRESS **sendq; int aliaslevel; register ENVELOPE *e; { register ADDRESS *q; ADDRESS **pq; ADDRESS **prev; register struct mailer *m; register char *p; int i, buflen; bool quoted; /* set if the addr has a quote bit */ bool insert; int findusercount; bool initialdontsend; char *buf; char buf0[MAXNAME + 1]; /* EAI: ok, uses bufp dynamically expanded */ /* unquoted image of the user name */ sortfn_t *sortfn; p = NULL; quoted = false; insert = false; findusercount = 0; initialdontsend = QS_IS_DEAD(new->q_state); e->e_to = new->q_paddr; m = new->q_mailer; errno = 0; if (aliaslevel == 0) new->q_flags |= QPRIMARY; if (tTd(26, 1)) { sm_dprintf("\nrecipient (%d): ", aliaslevel); printaddr(sm_debug_file(), new, false); } /* if this is primary, use it as original recipient */ if (new->q_alias == NULL) { if (e->e_origrcpt == NULL) e->e_origrcpt = new->q_paddr; else if (e->e_origrcpt != new->q_paddr) e->e_origrcpt = ""; } /* find parent recipient for finalrcpt and orcpt */ for (q = new; q->q_alias != NULL; q = q->q_alias) continue; /* find final recipient DSN address */ if (new->q_finalrcpt == NULL && e->e_from.q_mailer != NULL) { char frbuf[MAXLINE]; p = e->e_from.q_mailer->m_addrtype; if (p == NULL) p = "rfc822"; #if USE_EAI if (SM_STRCASEEQ(p, "rfc822") && !addr_is_ascii(q->q_user)) p = "utf-8"; #endif if (sm_strcasecmp(p, "rfc822") != 0) { (void) sm_snprintf(frbuf, sizeof(frbuf), "%s; %.800s", q->q_mailer->m_addrtype, q->q_user); } else if (strchr(q->q_user, '@') != NULL) { (void) sm_snprintf(frbuf, sizeof(frbuf), "%s; %.800s", p, q->q_user); } else if (strchr(q->q_paddr, '@') != NULL) { char *qp; bool b; qp = q->q_paddr; /* strip brackets from address */ b = false; if (*qp == '<') { b = qp[strlen(qp) - 1] == '>'; if (b) qp[strlen(qp) - 1] = '\0'; qp++; } (void) sm_snprintf(frbuf, sizeof(frbuf), "%s; %.800s", p, qp); /* undo damage */ if (b) qp[strlen(qp)] = '>'; } else { (void) sm_snprintf(frbuf, sizeof(frbuf), "%s; %.700s@%.100s", p, q->q_user, MyHostName); } new->q_finalrcpt = sm_rpool_strdup_x(e->e_rpool, frbuf); } #if _FFR_GEN_ORCPT /* set ORCPT DSN arg if not already set */ if (new->q_orcpt == NULL) { /* check for an existing ORCPT */ if (q->q_orcpt != NULL) new->q_orcpt = q->q_orcpt; else { /* make our own */ bool b = false; char *qp; char obuf[MAXLINE]; if (e->e_from.q_mailer != NULL) p = e->e_from.q_mailer->m_addrtype; if (p == NULL) p = "rfc822"; (void) sm_strlcpyn(obuf, sizeof(obuf), 2, p, ";"); qp = q->q_paddr; /* FFR: Needs to strip comments from stdin addrs */ /* strip brackets from address */ if (*qp == '<') { b = qp[strlen(qp) - 1] == '>'; if (b) qp[strlen(qp) - 1] = '\0'; qp++; } p = xtextify(denlstring(qp, true, false), "="); if (sm_strlcat(obuf, p, sizeof(obuf)) >= sizeof(obuf)) { /* if too big, don't use it */ obuf[0] = '\0'; } /* undo damage */ if (b) qp[strlen(qp)] = '>'; if (obuf[0] != '\0') new->q_orcpt = sm_rpool_strdup_x(e->e_rpool, obuf); } } #endif /* _FFR_GEN_ORCPT */ /* break aliasing loops */ if (aliaslevel > MaxAliasRecursion) { new->q_state = QS_BADADDR; new->q_status = "5.4.6"; if (new->q_alias != NULL) { new->q_alias->q_state = QS_BADADDR; new->q_alias->q_status = "5.4.6"; } if ((SuprErrs || !LogUsrErrs) && LogLevel > 0) { sm_syslog(LOG_ERR, e->e_id, "aliasing/forwarding loop broken: %s (%d aliases deep; %d max)", FileName != NULL ? FileName : "", aliaslevel, MaxAliasRecursion); } usrerrenh(new->q_status, "554 aliasing/forwarding loop broken (%d aliases deep; %d max)", aliaslevel, MaxAliasRecursion); return new; } /* ** Finish setting up address structure. */ /* get unquoted user for file, program or user.name check */ i = strlen(new->q_user); if (i >= sizeof(buf0)) { buflen = i + 1; buf = xalloc(buflen); } else { buf = buf0; buflen = sizeof(buf0); } (void) sm_strlcpy(buf, new->q_user, buflen); for (p = buf; *p != '\0' && !quoted; p++) { if (*p == '\\') quoted = true; } stripquotes(buf); /* check for direct mailing to restricted mailers */ if (m == ProgMailer) { if (new->q_alias == NULL || UseMSP || bitset(EF_UNSAFE, e->e_flags)) { new->q_state = QS_BADADDR; new->q_status = "5.7.1"; usrerrenh(new->q_status, "550 Cannot mail directly to programs"); } else if (bitset(QBOGUSSHELL, new->q_alias->q_flags)) { new->q_state = QS_BADADDR; new->q_status = "5.7.1"; if (new->q_alias->q_ruser == NULL) usrerrenh(new->q_status, "550 UID %ld is an unknown user: cannot mail to programs", (long) new->q_alias->q_uid); else usrerrenh(new->q_status, "550 User %s@%s doesn't have a valid shell for mailing to programs", new->q_alias->q_ruser, MyHostName); } else if (bitset(QUNSAFEADDR, new->q_alias->q_flags)) { new->q_state = QS_BADADDR; new->q_status = "5.7.1"; new->q_rstatus = "550 Unsafe for mailing to programs"; usrerrenh(new->q_status, "550 Address %s is unsafe for mailing to programs", new->q_alias->q_paddr); } } /* ** Look up this person in the recipient list. ** If they are there already, return, otherwise continue. ** If the list is empty, just add it. Notice the cute ** hack to make from addresses suppress things correctly: ** the QS_DUPLICATE state will be set in the send list. ** [Please note: the emphasis is on "hack."] */ prev = NULL; /* ** If this message is going to the queue or FastSplit is set ** and it is the first try and the envelope hasn't split, then we ** avoid doing an MX RR lookup now because one will be done when the ** message is extracted from the queue later. It can go to the queue ** because all messages are going to the queue or this mailer of ** the current recipient is marked expensive. */ if (UseMSP || WILL_BE_QUEUED(e->e_sendmode) || (!bitset(EF_SPLIT, e->e_flags) && e->e_ntries == 0 && FastSplit > 0)) sortfn = sorthost; else if (NoConnect && bitnset(M_EXPENSIVE, new->q_mailer->m_flags)) sortfn = sortexpensive; else sortfn = sortbysignature; for (pq = sendq; (q = *pq) != NULL; pq = &q->q_next) { /* ** If address is "less than" it should be inserted now. ** If address is "greater than" current comparison it'll ** insert later in the list; so loop again (if possible). ** If address is "equal" (different equal than sameaddr() ** call) then check if sameaddr() will be true. ** Because this list is now sorted, it'll mean fewer ** comparisons and fewer loops which is important for more ** recipients. */ i = (*sortfn)(new, q); if (i == 0) /* equal */ { /* ** sortbysignature() has said that the two have ** equal MX RR's and the same user. Calling sameaddr() ** now checks if the two hosts are as identical as the ** MX RR's are (which might not be the case) ** before saying these are the identical addresses. */ if (sameaddr(q, new) && (bitset(QRCPTOK, q->q_flags) || !bitset(QPRIMARY, q->q_flags))) { if (tTd(26, 1)) { sm_dprintf("%s in sendq: ", new->q_paddr); printaddr(sm_debug_file(), q, false); } if (!bitset(QPRIMARY, q->q_flags)) { if (!QS_IS_DEAD(new->q_state)) message("duplicate suppressed"); else q->q_state = QS_DUPLICATE; q->q_flags |= new->q_flags; } else if (bitset(QSELFREF, q->q_flags) || q->q_state == QS_REMOVED) { /* ** If an earlier milter removed the ** address, a later one can still add ** it back. */ q->q_state = new->q_state; q->q_flags |= new->q_flags; } new = q; goto done; } } else if (i < 0) /* less than */ { insert = true; break; } prev = pq; } /* pq should point to an address, never NULL */ SM_ASSERT(pq != NULL); /* add address on list */ if (insert) { /* ** insert before 'pq'. Only possible when at least 1 ** ADDRESS is in the list already. */ new->q_next = *pq; if (prev == NULL) *sendq = new; /* To be the first ADDRESS */ else (*prev)->q_next = new; } else { /* ** Place in list at current 'pq' position. Possible ** when there are 0 or more ADDRESS's in the list. */ new->q_next = NULL; *pq = new; } /* added a new address: clear split flag */ e->e_flags &= ~EF_SPLIT; /* ** Alias the name and handle special mailer types. */ trylocaluser: if (tTd(29, 7)) { sm_dprintf("at trylocaluser: "); printaddr(sm_debug_file(), new, false); } if (!QS_IS_OK(new->q_state)) { if (QS_IS_UNDELIVERED(new->q_state)) e->e_nrcpts++; goto testselfdestruct; } if (m == InclMailer) { new->q_state = QS_INCLUDED; if (new->q_alias == NULL || UseMSP || bitset(EF_UNSAFE, e->e_flags)) { new->q_state = QS_BADADDR; new->q_status = "5.7.1"; usrerrenh(new->q_status, "550 Cannot mail directly to :include:s"); } else { int ret; message("including file %s", new->q_user); ret = include(new->q_user, false, new, sendq, aliaslevel, e); if (transienterror(ret)) { if (LogLevel > 2) sm_syslog(LOG_ERR, e->e_id, "include %s: transient error: %s", shortenstring(new->q_user, MAXSHORTSTR), sm_errstring(ret)); new->q_state = QS_QUEUEUP; usrerr("451 4.2.4 Cannot open %s: %s", shortenstring(new->q_user, MAXSHORTSTR), sm_errstring(ret)); } else if (ret != 0) { new->q_state = QS_BADADDR; new->q_status = "5.2.4"; usrerrenh(new->q_status, "550 Cannot open %s: %s", shortenstring(new->q_user, MAXSHORTSTR), sm_errstring(ret)); } } } else if (m == FileMailer) { /* check if allowed */ if (new->q_alias == NULL || UseMSP || bitset(EF_UNSAFE, e->e_flags)) { new->q_state = QS_BADADDR; new->q_status = "5.7.1"; usrerrenh(new->q_status, "550 Cannot mail directly to files"); } else if (bitset(QBOGUSSHELL, new->q_alias->q_flags)) { new->q_state = QS_BADADDR; new->q_status = "5.7.1"; if (new->q_alias->q_ruser == NULL) usrerrenh(new->q_status, "550 UID %ld is an unknown user: cannot mail to files", (long) new->q_alias->q_uid); else usrerrenh(new->q_status, "550 User %s@%s doesn't have a valid shell for mailing to files", new->q_alias->q_ruser, MyHostName); } else if (bitset(QUNSAFEADDR, new->q_alias->q_flags)) { new->q_state = QS_BADADDR; new->q_status = "5.7.1"; new->q_rstatus = "550 Unsafe for mailing to files"; usrerrenh(new->q_status, "550 Address %s is unsafe for mailing to files", new->q_alias->q_paddr); } } /* try aliasing */ if (!quoted && QS_IS_OK(new->q_state) && bitnset(M_ALIASABLE, m->m_flags)) alias(new, sendq, aliaslevel, e); #if USERDB /* if not aliased, look it up in the user database */ if (!bitset(QNOTREMOTE, new->q_flags) && QS_IS_SENDABLE(new->q_state) && bitnset(M_CHECKUDB, m->m_flags)) { if (udbexpand(new, sendq, aliaslevel, e) == EX_TEMPFAIL) { new->q_state = QS_QUEUEUP; if (e->e_message == NULL) e->e_message = sm_rpool_strdup_x(e->e_rpool, "Deferred: user database error"); if (new->q_message == NULL) new->q_message = "Deferred: user database error"; if (LogLevel > 8) sm_syslog(LOG_INFO, e->e_id, "deferred: udbexpand: %s", sm_errstring(errno)); message("queued (user database error): %s", sm_errstring(errno)); e->e_nrcpts++; goto testselfdestruct; } } #endif /* USERDB */ /* ** If we have a level two config file, then pass the name through ** Ruleset 5 before sending it off. Ruleset 5 has the right ** to rewrite it to another mailer. This gives us a hook ** after local aliasing has been done. */ if (tTd(29, 5)) { sm_dprintf("recipient: testing local? cl=%d, rr5=%p\n\t", ConfigLevel, (void *)RewriteRules[5]); printaddr(sm_debug_file(), new, false); } if (ConfigLevel >= 2 && RewriteRules[5] != NULL && bitnset(M_TRYRULESET5, m->m_flags) && !bitset(QNOTREMOTE, new->q_flags) && QS_IS_OK(new->q_state)) { maplocaluser(new, sendq, aliaslevel + 1, e); } /* ** If it didn't get rewritten to another mailer, go ahead ** and deliver it. */ if (QS_IS_OK(new->q_state) && bitnset(M_HASPWENT, m->m_flags)) { auto bool fuzzy; SM_MBDB_T user; int status; /* warning -- finduser may trash buf */ status = finduser(buf, &fuzzy, &user); switch (status) { case EX_TEMPFAIL: new->q_state = QS_QUEUEUP; new->q_status = "4.5.2"; giveresponse(EX_TEMPFAIL, new->q_status, m, NULL, new->q_alias, (time_t) 0, e, new); break; default: new->q_state = QS_BADADDR; new->q_status = "5.1.1"; new->q_rstatus = "550 5.1.1 User unknown"; giveresponse(EX_NOUSER, new->q_status, m, NULL, new->q_alias, (time_t) 0, e, new); break; case EX_OK: if (fuzzy) { /* name was a fuzzy match */ new->q_user = sm_rpool_strdup_x(e->e_rpool, user.mbdb_name); if (findusercount++ > 3) { new->q_state = QS_BADADDR; new->q_status = "5.4.6"; usrerrenh(new->q_status, "554 aliasing/forwarding loop for %s broken", user.mbdb_name); goto done; } /* see if it aliases */ (void) sm_strlcpy(buf, user.mbdb_name, buflen); goto trylocaluser; } if (*user.mbdb_homedir == '\0') new->q_home = NULL; else if (strcmp(user.mbdb_homedir, "/") == 0) new->q_home = ""; else new->q_home = sm_rpool_strdup_x(e->e_rpool, user.mbdb_homedir); if (user.mbdb_uid != SM_NO_UID) { new->q_uid = user.mbdb_uid; new->q_gid = user.mbdb_gid; new->q_flags |= QGOODUID; } new->q_ruser = sm_rpool_strdup_x(e->e_rpool, user.mbdb_name); if (user.mbdb_fullname[0] != '\0') new->q_fullname = sm_rpool_strdup_x(e->e_rpool, user.mbdb_fullname); if (!usershellok(user.mbdb_name, user.mbdb_shell)) { new->q_flags |= QBOGUSSHELL; } if (bitset(EF_VRFYONLY, e->e_flags)) { /* don't do any more now */ new->q_state = QS_VERIFIED; } else if (!quoted) forward(new, sendq, aliaslevel, e); } } if (!QS_IS_DEAD(new->q_state)) e->e_nrcpts++; testselfdestruct: new->q_flags |= QTHISPASS; if (tTd(26, 8)) { sm_dprintf("testselfdestruct: "); printaddr(sm_debug_file(), new, false); if (tTd(26, 10)) { sm_dprintf("SENDQ:\n"); printaddr(sm_debug_file(), *sendq, true); sm_dprintf("----\n"); } } if (new->q_alias == NULL && new != &e->e_from && QS_IS_DEAD(new->q_state)) { for (q = *sendq; q != NULL; q = q->q_next) { if (!QS_IS_DEAD(q->q_state)) break; } if (q == NULL) { new->q_state = QS_BADADDR; new->q_status = "5.4.6"; usrerrenh(new->q_status, "554 aliasing/forwarding loop broken"); } } done: new->q_flags |= QTHISPASS; if (buf != buf0) sm_free(buf); /* XXX leak if above code raises exception */ /* ** If we are at the top level, check to see if this has ** expanded to exactly one address. If so, it can inherit ** the primaryness of the address. ** ** While we're at it, clear the QTHISPASS bits. */ if (aliaslevel == 0) { int nrcpts = 0; ADDRESS *only = NULL; for (q = *sendq; q != NULL; q = q->q_next) { if (bitset(QTHISPASS, q->q_flags) && QS_IS_SENDABLE(q->q_state)) { nrcpts++; only = q; } q->q_flags &= ~QTHISPASS; } if (nrcpts == 1) { /* check to see if this actually got a new owner */ q = only; while ((q = q->q_alias) != NULL) { if (q->q_owner != NULL) break; } if (q == NULL) only->q_flags |= QPRIMARY; } else if (!initialdontsend && nrcpts > 0) { /* arrange for return receipt */ e->e_flags |= EF_SENDRECEIPT; new->q_flags |= QEXPANDED; if (e->e_xfp != NULL && bitset(QPINGONSUCCESS, new->q_flags)) (void) sm_io_fprintf(e->e_xfp, SM_TIME_DEFAULT, "%s... expanded to multiple addresses\n", new->q_paddr); } } new->q_flags |= QRCPTOK; (void) sm_snprintf(buf0, sizeof(buf0), "%d", e->e_nrcpts); macdefine(&e->e_macro, A_TEMP, macid("{nrcpts}"), buf0); return new; } /* ** FINDUSER -- find the password entry for a user. ** ** This looks a lot like getpwnam, except that it may want to ** do some fancier pattern matching in /etc/passwd. ** ** This routine contains most of the time of many sendmail runs. ** It deserves to be optimized. ** ** Parameters: ** name -- the name to match against. ** fuzzyp -- an outarg that is set to true if this entry ** was found using the fuzzy matching algorithm; ** set to false otherwise. ** user -- structure to fill in if user is found ** ** Returns: ** On success, fill in *user, set *fuzzyp and return EX_OK. ** If the user was not found, return EX_NOUSER. ** On error, return EX_TEMPFAIL or EX_OSERR. ** ** Side Effects: ** may modify name. */ int finduser(name, fuzzyp, user) char *name; bool *fuzzyp; SM_MBDB_T *user; { #if MATCHGECOS register struct passwd *pw; #endif register char *p; bool tryagain; int status; if (tTd(29, 4)) sm_dprintf("finduser(%s): ", name); *fuzzyp = false; #if HESIOD && !HESIOD_ALLOW_NUMERIC_LOGIN /* DEC Hesiod getpwnam accepts numeric strings -- short circuit it */ for (p = name; *p != '\0'; p++) if (!isascii(*p) || !isdigit(*p)) break; if (*p == '\0') { if (tTd(29, 4)) sm_dprintf("failed (numeric input)\n"); return EX_NOUSER; } #endif /* HESIOD && !HESIOD_ALLOW_NUMERIC_LOGIN */ /* look up this login name using fast path */ status = sm_mbdb_lookup(name, user); if (status != EX_NOUSER) { if (tTd(29, 4)) sm_dprintf("%s (non-fuzzy)\n", sm_strexit(status)); return status; } /* try mapping it to lower case */ tryagain = false; for (p = name; *p != '\0'; p++) { if (isascii(*p) && isupper(*p)) { *p = tolower(*p); tryagain = true; } } if (tryagain && (status = sm_mbdb_lookup(name, user)) != EX_NOUSER) { if (tTd(29, 4)) sm_dprintf("%s (lower case)\n", sm_strexit(status)); *fuzzyp = true; return status; } #if MATCHGECOS /* see if fuzzy matching allowed */ if (!MatchGecos) { if (tTd(29, 4)) sm_dprintf("not found (fuzzy disabled)\n"); return EX_NOUSER; } /* search for a matching full name instead */ for (p = name; *p != '\0'; p++) { if (*p == (SpaceSub & 0177) || *p == '_') *p = ' '; } (void) setpwent(); while ((pw = getpwent()) != NULL) { char buf[MAXNAME + 1]; /* EAI: ok: for pw_gecos */ # if 0 if (SM_STRCASEEQ(pw->pw_name, name)) { if (tTd(29, 4)) sm_dprintf("found (case wrapped)\n"); break; } # endif /* 0 */ sm_pwfullname(pw->pw_gecos, pw->pw_name, buf, sizeof(buf)); if (strchr(buf, ' ') != NULL && SM_STRCASEEQ(buf, name)) { if (tTd(29, 4)) sm_dprintf("fuzzy matches %s\n", pw->pw_name); message("sending to login name %s", pw->pw_name); break; } } if (pw != NULL) *fuzzyp = true; else if (tTd(29, 4)) sm_dprintf("no fuzzy match found\n"); # if DEC_OSF_BROKEN_GETPWENT /* DEC OSF/1 3.2 or earlier */ endpwent(); # endif if (pw == NULL) return EX_NOUSER; sm_mbdb_frompw(user, pw); return EX_OK; #else /* MATCHGECOS */ if (tTd(29, 4)) sm_dprintf("not found (fuzzy disabled)\n"); return EX_NOUSER; #endif /* MATCHGECOS */ } /* ** WRITABLE -- predicate returning if the file is writable. ** ** This routine must duplicate the algorithm in sys/fio.c. ** Unfortunately, we cannot use the access call since we ** won't necessarily be the real uid when we try to ** actually open the file. ** ** Notice that ANY file with ANY execute bit is automatically ** not writable. This is also enforced by mailfile. ** ** Parameters: ** filename -- the file name to check. ** ctladdr -- the controlling address for this file. ** flags -- SFF_* flags to control the function. ** ** Returns: ** true -- if we will be able to write this file. ** false -- if we cannot write this file. ** ** Side Effects: ** none. */ bool writable(filename, ctladdr, flags) char *filename; ADDRESS *ctladdr; long flags; { uid_t euid = 0; gid_t egid = 0; char *user = NULL; if (tTd(44, 5)) sm_dprintf("writable(%s, 0x%lx)\n", filename, flags); /* ** File does exist -- check that it is writable. */ if (geteuid() != 0) { euid = geteuid(); egid = getegid(); user = NULL; } else if (ctladdr != NULL) { euid = ctladdr->q_uid; egid = ctladdr->q_gid; user = ctladdr->q_user; } else if (bitset(SFF_RUNASREALUID, flags)) { euid = RealUid; egid = RealGid; user = RealUserName; } else if (FileMailer != NULL && !bitset(SFF_ROOTOK, flags)) { if (FileMailer->m_uid == NO_UID) { euid = DefUid; user = DefUser; } else { euid = FileMailer->m_uid; user = NULL; } if (FileMailer->m_gid == NO_GID) egid = DefGid; else egid = FileMailer->m_gid; } else { euid = egid = 0; user = NULL; } if (!bitset(SFF_ROOTOK, flags)) { if (euid == 0) { euid = DefUid; user = DefUser; } if (egid == 0) egid = DefGid; } if (geteuid() == 0 && (ctladdr == NULL || !bitset(QGOODUID, ctladdr->q_flags))) flags |= SFF_SETUIDOK; if (!bitnset(DBS_FILEDELIVERYTOSYMLINK, DontBlameSendmail)) flags |= SFF_NOSLINK; if (!bitnset(DBS_FILEDELIVERYTOHARDLINK, DontBlameSendmail)) flags |= SFF_NOHLINK; errno = safefile(filename, euid, egid, user, flags, S_IWRITE, NULL); return errno == 0; } /* ** INCLUDE -- handle :include: specification. ** ** Parameters: ** fname -- filename to include. ** forwarding -- if true, we are reading a .forward file. ** if false, it's a :include: file. ** ctladdr -- address template to use to fill in these ** addresses -- effective user/group id are ** the important things. ** sendq -- a pointer to the head of the send queue ** to put these addresses in. ** aliaslevel -- the alias nesting depth. ** e -- the current envelope. ** ** Returns: ** open error status ** ** Side Effects: ** reads the :include: file and sends to everyone ** listed in that file. ** ** Security Note: ** If you have restricted chown (that is, you can't ** give a file away), it is reasonable to allow programs ** and files called from this :include: file to be to be ** run as the owner of the :include: file. This is bogus ** if there is any chance of someone giving away a file. ** We assume that pre-POSIX systems can give away files. ** ** There is an additional restriction that if you ** forward to a :include: file, it will not take on ** the ownership of the :include: file. This may not ** be necessary, but shouldn't hurt. */ static jmp_buf CtxIncludeTimeout; int include(fname, forwarding, ctladdr, sendq, aliaslevel, e) char *fname; bool forwarding; ADDRESS *ctladdr; ADDRESS **sendq; int aliaslevel; ENVELOPE *e; { SM_FILE_T *volatile fp = NULL; char *oldto = e->e_to; char *oldfilename = FileName; int oldlinenumber = LineNumber; register SM_EVENT *ev = NULL; int nincludes; int mode; volatile bool maxreached = false; register ADDRESS *ca; volatile uid_t saveduid; volatile gid_t savedgid; volatile uid_t uid; volatile gid_t gid; char *volatile user; int rval = 0; volatile long sfflags = SFF_REGONLY; register char *p; bool safechown = false; volatile bool safedir = false; struct stat st; char buf[MAXLINE]; if (tTd(27, 2)) sm_dprintf("include(%s)\n", fname); if (tTd(27, 4)) sm_dprintf(" ruid=%ld euid=%ld\n", (long) getuid(), (long) geteuid()); if (tTd(27, 14)) { sm_dprintf("ctladdr "); printaddr(sm_debug_file(), ctladdr, false); } if (tTd(27, 9)) sm_dprintf("include: old uid = %ld/%ld\n", (long) getuid(), (long) geteuid()); if (forwarding) { sfflags |= SFF_MUSTOWN|SFF_ROOTOK; if (!bitnset(DBS_GROUPWRITABLEFORWARDFILE, DontBlameSendmail)) sfflags |= SFF_NOGWFILES; if (!bitnset(DBS_WORLDWRITABLEFORWARDFILE, DontBlameSendmail)) sfflags |= SFF_NOWWFILES; } else { if (!bitnset(DBS_GROUPWRITABLEINCLUDEFILE, DontBlameSendmail)) sfflags |= SFF_NOGWFILES; if (!bitnset(DBS_WORLDWRITABLEINCLUDEFILE, DontBlameSendmail)) sfflags |= SFF_NOWWFILES; } /* ** If RunAsUser set, won't be able to run programs as user ** so mark them as unsafe unless the administrator knows better. */ if ((geteuid() != 0 || RunAsUid != 0) && !bitnset(DBS_NONROOTSAFEADDR, DontBlameSendmail)) { if (tTd(27, 4)) sm_dprintf("include: not safe (euid=%ld, RunAsUid=%ld)\n", (long) geteuid(), (long) RunAsUid); ctladdr->q_flags |= QUNSAFEADDR; } ca = getctladdr(ctladdr); if (ca == NULL || (ca->q_uid == DefUid && ca->q_gid == 0)) { uid = DefUid; gid = DefGid; user = DefUser; } else { uid = ca->q_uid; gid = ca->q_gid; user = ca->q_user; } #if MAILER_SETUID_METHOD != USE_SETUID saveduid = geteuid(); savedgid = getegid(); if (saveduid == 0) { if (!DontInitGroups) { if (initgroups(user, gid) == -1) { rval = EAGAIN; syserr("include: initgroups(%s, %ld) failed", user, (long) gid); goto resetuid; } } else { GIDSET_T gidset[1]; gidset[0] = gid; if (setgroups(1, gidset) == -1) { rval = EAGAIN; syserr("include: setgroups() failed"); goto resetuid; } } if (gid != 0 && setgid(gid) < -1) { rval = EAGAIN; syserr("setgid(%ld) failure", (long) gid); goto resetuid; } if (uid != 0) { # if MAILER_SETUID_METHOD == USE_SETEUID if (seteuid(uid) < 0) { rval = EAGAIN; syserr("seteuid(%ld) failure (real=%ld, eff=%ld)", (long) uid, (long) getuid(), (long) geteuid()); goto resetuid; } # endif /* MAILER_SETUID_METHOD == USE_SETEUID */ # if MAILER_SETUID_METHOD == USE_SETREUID if (setreuid(0, uid) < 0) { rval = EAGAIN; syserr("setreuid(0, %ld) failure (real=%ld, eff=%ld)", (long) uid, (long) getuid(), (long) geteuid()); goto resetuid; } # endif /* MAILER_SETUID_METHOD == USE_SETREUID */ } } #endif /* MAILER_SETUID_METHOD != USE_SETUID */ if (tTd(27, 9)) sm_dprintf("include: new uid = %ld/%ld\n", (long) getuid(), (long) geteuid()); /* ** If home directory is remote mounted but server is down, ** this can hang or give errors; use a timeout to avoid this */ if (setjmp(CtxIncludeTimeout) != 0) { ctladdr->q_state = QS_QUEUEUP; errno = 0; /* return pseudo-error code */ rval = E_SM_OPENTIMEOUT; goto resetuid; } if (TimeOuts.to_fileopen > 0) ev = sm_setevent(TimeOuts.to_fileopen, includetimeout, 0); else ev = NULL; /* check for writable parent directory */ p = strrchr(fname, '/'); if (p != NULL) { int ret; *p = '\0'; ret = safedirpath(fname, uid, gid, user, sfflags|SFF_SAFEDIRPATH, 0, 0); if (ret == 0) { /* in safe directory: relax chown & link rules */ safedir = true; sfflags |= SFF_NOPATHCHECK; } else { if (bitnset((forwarding ? DBS_FORWARDFILEINUNSAFEDIRPATH : DBS_INCLUDEFILEINUNSAFEDIRPATH), DontBlameSendmail)) sfflags |= SFF_NOPATHCHECK; else if (bitnset((forwarding ? DBS_FORWARDFILEINGROUPWRITABLEDIRPATH : DBS_INCLUDEFILEINGROUPWRITABLEDIRPATH), DontBlameSendmail) && ret == E_SM_GWDIR) { setbitn(DBS_GROUPWRITABLEDIRPATHSAFE, DontBlameSendmail); ret = safedirpath(fname, uid, gid, user, sfflags|SFF_SAFEDIRPATH, 0, 0); clrbitn(DBS_GROUPWRITABLEDIRPATHSAFE, DontBlameSendmail); if (ret == 0) sfflags |= SFF_NOPATHCHECK; else sfflags |= SFF_SAFEDIRPATH; } else sfflags |= SFF_SAFEDIRPATH; if (ret > E_PSEUDOBASE && !bitnset((forwarding ? DBS_FORWARDFILEINUNSAFEDIRPATHSAFE : DBS_INCLUDEFILEINUNSAFEDIRPATHSAFE), DontBlameSendmail)) { if (LogLevel > 11) sm_syslog(LOG_INFO, e->e_id, "%s: unsafe directory path, marked unsafe", shortenstring(fname, MAXSHORTSTR)); ctladdr->q_flags |= QUNSAFEADDR; } } *p = '/'; } /* allow links only in unwritable directories */ if (!safedir && !bitnset((forwarding ? DBS_LINKEDFORWARDFILEINWRITABLEDIR : DBS_LINKEDINCLUDEFILEINWRITABLEDIR), DontBlameSendmail)) sfflags |= SFF_NOLINK; rval = safefile(fname, uid, gid, user, sfflags, S_IREAD, &st); if (rval != 0) { /* don't use this :include: file */ if (tTd(27, 4)) sm_dprintf("include: not safe (uid=%ld): %s\n", (long) uid, sm_errstring(rval)); } else if ((fp = sm_io_open(SmFtStdio, SM_TIME_DEFAULT, fname, SM_IO_RDONLY, NULL)) == NULL) { rval = errno; if (tTd(27, 4)) sm_dprintf("include: open: %s\n", sm_errstring(rval)); } else if (filechanged(fname, sm_io_getinfo(fp,SM_IO_WHAT_FD, NULL), &st)) { rval = E_SM_FILECHANGE; if (tTd(27, 4)) sm_dprintf("include: file changed after open\n"); } if (ev != NULL) sm_clrevent(ev); resetuid: #if HASSETREUID || USESETEUID if (saveduid == 0) { if (uid != 0) { # if USESETEUID if (seteuid(0) < 0) syserr("!seteuid(0) failure (real=%ld, eff=%ld)", (long) getuid(), (long) geteuid()); # else /* USESETEUID */ if (setreuid(-1, 0) < 0) syserr("!setreuid(-1, 0) failure (real=%ld, eff=%ld)", (long) getuid(), (long) geteuid()); if (setreuid(RealUid, 0) < 0) syserr("!setreuid(%ld, 0) failure (real=%ld, eff=%ld)", (long) RealUid, (long) getuid(), (long) geteuid()); # endif /* USESETEUID */ } if (setgid(savedgid) < 0) syserr("!setgid(%ld) failure (real=%ld eff=%ld)", (long) savedgid, (long) getgid(), (long) getegid()); } #endif /* HASSETREUID || USESETEUID */ if (tTd(27, 9)) sm_dprintf("include: reset uid = %ld/%ld\n", (long) getuid(), (long) geteuid()); if (rval == E_SM_OPENTIMEOUT) usrerr("451 4.4.1 open timeout on %s", fname); if (fp == NULL) return rval; if (fstat(sm_io_getinfo(fp, SM_IO_WHAT_FD, NULL), &st) < 0) { rval = errno; syserr("Cannot fstat %s!", fname); (void) sm_io_close(fp, SM_TIME_DEFAULT); return rval; } /* if path was writable, check to avoid file giveaway tricks */ safechown = chownsafe(sm_io_getinfo(fp, SM_IO_WHAT_FD, NULL), safedir); if (tTd(27, 6)) sm_dprintf("include: parent of %s is %s, chown is %ssafe\n", fname, safedir ? "safe" : "dangerous", safechown ? "" : "un"); /* if no controlling user or coming from an alias delivery */ if (safechown && (ca == NULL || (ca->q_uid == DefUid && ca->q_gid == 0))) { ctladdr->q_uid = st.st_uid; ctladdr->q_gid = st.st_gid; ctladdr->q_flags |= QGOODUID; } if (ca != NULL && ca->q_uid == st.st_uid) { /* optimization -- avoid getpwuid if we already have info */ ctladdr->q_flags |= ca->q_flags & QBOGUSSHELL; ctladdr->q_ruser = ca->q_ruser; } else if (!forwarding) { register struct passwd *pw; pw = sm_getpwuid(st.st_uid); if (pw == NULL) { ctladdr->q_uid = st.st_uid; ctladdr->q_flags |= QBOGUSSHELL; } else { char *sh; ctladdr->q_ruser = sm_rpool_strdup_x(e->e_rpool, pw->pw_name); if (safechown) sh = pw->pw_shell; else sh = "/SENDMAIL/ANY/SHELL/"; if (!usershellok(pw->pw_name, sh)) { if (LogLevel > 11) sm_syslog(LOG_INFO, e->e_id, "%s: user %s has bad shell %s, marked %s", shortenstring(fname, MAXSHORTSTR), pw->pw_name, sh, safechown ? "bogus" : "unsafe"); if (safechown) ctladdr->q_flags |= QBOGUSSHELL; else ctladdr->q_flags |= QUNSAFEADDR; } } } if (bitset(EF_VRFYONLY, e->e_flags)) { /* don't do any more now */ ctladdr->q_state = QS_VERIFIED; e->e_nrcpts++; (void) sm_io_close(fp, SM_TIME_DEFAULT); return rval; } /* ** Check to see if some bad guy can write this file ** ** Group write checking could be more clever, e.g., ** guessing as to which groups are actually safe ("sys" ** may be; "user" probably is not). */ mode = S_IWOTH; if (!bitnset((forwarding ? DBS_GROUPWRITABLEFORWARDFILESAFE : DBS_GROUPWRITABLEINCLUDEFILESAFE), DontBlameSendmail)) mode |= S_IWGRP; if (bitset(mode, st.st_mode)) { if (tTd(27, 6)) sm_dprintf("include: %s is %s writable, marked unsafe\n", shortenstring(fname, MAXSHORTSTR), bitset(S_IWOTH, st.st_mode) ? "world" : "group"); if (LogLevel > 11) sm_syslog(LOG_INFO, e->e_id, "%s: %s writable %s file, marked unsafe", shortenstring(fname, MAXSHORTSTR), bitset(S_IWOTH, st.st_mode) ? "world" : "group", forwarding ? "forward" : ":include:"); ctladdr->q_flags |= QUNSAFEADDR; } /* read the file -- each line is a comma-separated list. */ FileName = fname; LineNumber = 0; ctladdr->q_flags &= ~QSELFREF; nincludes = 0; while (sm_io_fgets(fp, SM_TIME_DEFAULT, buf, sizeof(buf)) >= 0 && !maxreached) { fixcrlf(buf, true); LineNumber++; if (buf[0] == '#' || buf[0] == '\0') continue; /* #@# introduces a comment anywhere */ /* for Japanese character sets */ for (p = buf; (p = strchr(++p, '#')) != NULL; ) { if (p[1] == '@' && p[2] == '#' && isascii(p[-1]) && isspace(p[-1]) && (p[3] == '\0' || (SM_ISSPACE(p[3])))) { --p; while (p > buf && isascii(p[-1]) && isspace(p[-1])) --p; p[0] = '\0'; break; } } if (buf[0] == '\0') continue; e->e_to = NULL; message("%s to %s", forwarding ? "forwarding" : "sending", buf); if (forwarding && LogLevel > 10) sm_syslog(LOG_INFO, e->e_id, "forward %.200s => %s", oldto, shortenstring(buf, MAXSHORTSTR)); nincludes += sendtolist(buf, ctladdr, sendq, aliaslevel + 1, e); if (forwarding && MaxForwardEntries > 0 && nincludes >= MaxForwardEntries) { /* just stop reading and processing further entries */ #if 0 /* additional: (?) */ ctladdr->q_state = QS_DONTSEND; #endif /* 0 */ syserr("Attempt to forward to more than %d addresses (in %s)!", MaxForwardEntries, fname); maxreached = true; } } if (sm_io_error(fp) && tTd(27, 3)) sm_dprintf("include: read error: %s\n", sm_errstring(errno)); if (nincludes > 0 && !bitset(QSELFREF, ctladdr->q_flags)) { if (aliaslevel <= MaxAliasRecursion || ctladdr->q_state != QS_BADADDR) { ctladdr->q_state = QS_DONTSEND; if (tTd(27, 5)) { sm_dprintf("include: QS_DONTSEND "); printaddr(sm_debug_file(), ctladdr, false); } } } (void) sm_io_close(fp, SM_TIME_DEFAULT); FileName = oldfilename; LineNumber = oldlinenumber; e->e_to = oldto; return rval; } static void includetimeout(ignore) int ignore; { /* ** NOTE: THIS CAN BE CALLED FROM A SIGNAL HANDLER. DO NOT ADD ** ANYTHING TO THIS ROUTINE UNLESS YOU KNOW WHAT YOU ARE ** DOING. */ errno = ETIMEDOUT; longjmp(CtxIncludeTimeout, 1); } /* ** SENDTOARGV -- send to an argument vector. ** ** Parameters: ** argv -- argument vector to send to. ** e -- the current envelope. ** ** Returns: ** none. ** ** Side Effects: ** puts all addresses on the argument vector onto the ** send queue. */ void sendtoargv(argv, e) register char **argv; register ENVELOPE *e; { register char *p; #if USE_EAI if (!e->e_smtputf8) { char **av; av = argv; while ((p = *av++) != NULL) { if (!addr_is_ascii(p)) { e->e_smtputf8 = true; break; } } } #endif /* USE_EAI */ while ((p = *argv++) != NULL) { #if USE_EAI if (e->e_smtputf8) { int len = 0; if (!SMTP_UTF8 && !asciistr(p)) { usrerr("non-ASCII recipient address %s requires SMTPUTF8", p); finis(false, true, EX_USAGE); } p = quote_internal_chars(p, NULL, &len, NULL); } #endif /* USE_EAI */ (void) sendtolist(p, NULLADDR, &e->e_sendqueue, 0, e); } } /* ** GETCTLADDR -- get controlling address from an address header. ** ** If none, get one corresponding to the effective userid. ** ** Parameters: ** a -- the address to find the controller of. ** ** Returns: ** the controlling address. */ ADDRESS * getctladdr(a) register ADDRESS *a; { while (a != NULL && !bitset(QGOODUID, a->q_flags)) a = a->q_alias; return a; } /* ** SELF_REFERENCE -- check to see if an address references itself ** ** The check is done through a chain of aliases. If it is part of ** a loop, break the loop at the "best" address, that is, the one ** that exists as a real user. ** ** This is to handle the case of: ** awc: Andrew.Chang ** Andrew.Chang: awc@mail.server ** which is a problem only on mail.server. ** ** Parameters: ** a -- the address to check. ** ** Returns: ** The address that should be retained. */ static ADDRESS * self_reference(a) ADDRESS *a; { ADDRESS *b; /* top entry in self ref loop */ ADDRESS *c; /* entry that point to a real mail box */ if (tTd(27, 1)) sm_dprintf("self_reference(%s)\n", a->q_paddr); for (b = a->q_alias; b != NULL; b = b->q_alias) { if (sameaddr(a, b)) break; } if (b == NULL) { if (tTd(27, 1)) sm_dprintf("\t... no self ref\n"); return NULL; } /* ** Pick the first address that resolved to a real mail box ** i.e has a mbdb entry. The returned value will be marked ** QSELFREF in recipient(), which in turn will disable alias() ** from marking it as QS_IS_DEAD(), which mean it will be used ** as a deliverable address. ** ** The 2 key thing to note here are: ** 1) we are in a recursive call sequence: ** alias->sendtolist->recipient->alias ** 2) normally, when we return back to alias(), the address ** will be marked QS_EXPANDED, since alias() assumes the ** expanded form will be used instead of the current address. ** This behaviour is turned off if the address is marked ** QSELFREF. We set QSELFREF when we return to recipient(). */ c = a; while (c != NULL) { if (tTd(27, 10)) sm_dprintf(" %s", c->q_user); if (bitnset(M_HASPWENT, c->q_mailer->m_flags)) { SM_MBDB_T user; if (tTd(27, 2)) sm_dprintf("\t... getpwnam(%s)... ", c->q_user); if (sm_mbdb_lookup(c->q_user, &user) == EX_OK) { if (tTd(27, 2)) sm_dprintf("found\n"); /* ought to cache results here */ if (sameaddr(b, c)) return b; else return c; } if (tTd(27, 2)) sm_dprintf("failed\n"); } else { /* if local delivery, compare usernames */ if (bitnset(M_LOCALMAILER, c->q_mailer->m_flags) && b->q_mailer == c->q_mailer) { if (tTd(27, 2)) sm_dprintf("\t... local match (%s)\n", c->q_user); if (sameaddr(b, c)) return b; else return c; } } if (tTd(27, 10)) sm_dprintf("\n"); c = c->q_alias; } if (tTd(27, 1)) sm_dprintf("\t... cannot break loop for \"%s\"\n", a->q_paddr); return NULL; }