/* * 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 #include SM_RCSID("@(#)$Id: envelope.c,v 8.313 2013-11-22 20:51:55 ca Exp $") /* ** CLRSESSENVELOPE -- clear session oriented data in an envelope ** ** Parameters: ** e -- the envelope to clear. ** ** Returns: ** none. */ void clrsessenvelope(e) ENVELOPE *e; { #if SASL macdefine(&e->e_macro, A_PERM, macid("{auth_type}"), ""); macdefine(&e->e_macro, A_PERM, macid("{auth_authen}"), ""); macdefine(&e->e_macro, A_PERM, macid("{auth_author}"), ""); macdefine(&e->e_macro, A_PERM, macid("{auth_ssf}"), ""); #endif /* SASL */ #if STARTTLS macdefine(&e->e_macro, A_PERM, macid("{cert_issuer}"), ""); macdefine(&e->e_macro, A_PERM, macid("{cert_subject}"), ""); macdefine(&e->e_macro, A_PERM, macid("{cipher_bits}"), ""); macdefine(&e->e_macro, A_PERM, macid("{cipher}"), ""); macdefine(&e->e_macro, A_PERM, macid("{tls_version}"), ""); macdefine(&e->e_macro, A_PERM, macid("{verify}"), ""); macdefine(&e->e_macro, A_PERM, macid("{alg_bits}"), ""); macdefine(&e->e_macro, A_PERM, macid("{cn_issuer}"), ""); macdefine(&e->e_macro, A_PERM, macid("{cn_subject}"), ""); #endif /* STARTTLS */ } /* ** NEWENVELOPE -- fill in a new envelope ** ** Supports inheritance. ** ** Parameters: ** e -- the new envelope to fill in. ** parent -- the envelope to be the parent of e. ** rpool -- either NULL, or a pointer to a resource pool ** from which envelope memory is allocated, and ** to which envelope resources are attached. ** ** Returns: ** e. ** ** Side Effects: ** none. */ ENVELOPE * newenvelope(e, parent, rpool) register ENVELOPE *e; register ENVELOPE *parent; SM_RPOOL_T *rpool; { int sendmode; /* ** This code used to read: ** if (e == parent && e->e_parent != NULL) ** parent = e->e_parent; ** So if e == parent && e->e_parent == NULL then we would ** set e->e_parent = e, which creates a loop in the e_parent chain. ** This meant macvalue() could go into an infinite loop. */ if (parent != NULL) sendmode = parent->e_sendmode; else sendmode = DM_NOTSET; if (e == parent) parent = e->e_parent; clearenvelope(e, true, rpool); if (e == CurEnv) memmove((char *) &e->e_from, (char *) &NullAddress, sizeof(e->e_from)); else memmove((char *) &e->e_from, (char *) &CurEnv->e_from, sizeof(e->e_from)); e->e_parent = parent; assign_queueid(e); e->e_ctime = curtime(); #if _FFR_SESSID e->e_sessid = e->e_id; #endif if (parent != NULL) { e->e_msgpriority = parent->e_msgsize; #if _FFR_SESSID if (parent->e_sessid != NULL) e->e_sessid = sm_rpool_strdup_x(rpool, parent->e_sessid); #endif if (parent->e_quarmsg == NULL) { e->e_quarmsg = NULL; macdefine(&e->e_macro, A_PERM, macid("{quarantine}"), ""); } else { e->e_quarmsg = sm_rpool_strdup_x(rpool, parent->e_quarmsg); macdefine(&e->e_macro, A_PERM, macid("{quarantine}"), e->e_quarmsg); } } e->e_puthdr = putheader; e->e_putbody = putbody; if (CurEnv->e_xfp != NULL) (void) sm_io_flush(CurEnv->e_xfp, SM_TIME_DEFAULT); if (sendmode != DM_NOTSET) set_delivery_mode(sendmode, e); return e; } /* values for msg_timeout, see also IS_* below for usage (bit layout) */ #define MSG_T_O 0x01 /* normal timeout */ #define MSG_T_O_NOW 0x02 /* NOW timeout */ #define MSG_NOT_BY 0x04 /* Deliver-By time exceeded, mode R */ #define MSG_WARN 0x10 /* normal queue warning */ #define MSG_WARN_BY 0x20 /* Deliver-By time exceeded, mode N */ #define IS_MSG_ERR(x) (((x) & 0x0f) != 0) /* return an error */ /* immediate return */ #define IS_IMM_RET(x) (((x) & (MSG_T_O_NOW|MSG_NOT_BY)) != 0) #define IS_MSG_WARN(x) (((x) & 0xf0) != 0) /* return a warning */ /* ** DROPENVELOPE -- deallocate an envelope. ** ** Parameters: ** e -- the envelope to deallocate. ** fulldrop -- if set, do return receipts. ** split -- if true, split by recipient if message is queued up ** ** Returns: ** EX_* status (currently: 0: success, EX_IOERR on panic) ** ** Side Effects: ** housekeeping necessary to dispose of an envelope. ** Unlocks this queue file. */ int dropenvelope(e, fulldrop, split) register ENVELOPE *e; bool fulldrop; bool split; { bool panic = false; bool queueit = false; int msg_timeout = 0; bool failure_return = false; bool delay_return = false; bool success_return = false; bool pmnotify = bitset(EF_PM_NOTIFY, e->e_flags); bool done = false; register ADDRESS *q; char *id = e->e_id; time_t now; char buf[MAXLINE]; if (tTd(50, 1)) { sm_dprintf("dropenvelope %p: id=", (void *)e); xputs(sm_debug_file(), e->e_id); sm_dprintf(", flags="); printenvflags(e); if (tTd(50, 10)) { sm_dprintf("sendq="); printaddr(sm_debug_file(), e->e_sendqueue, true); } } if (LogLevel > 84) sm_syslog(LOG_DEBUG, id, "dropenvelope, e_flags=0x%lx, OpMode=%c, pid=%d", e->e_flags, OpMode, (int) CurrentPid); /* we must have an id to remove disk files */ if (id == NULL) return EX_OK; /* if verify-only mode, we can skip most of this */ if (OpMode == MD_VERIFY) goto simpledrop; if (tTd(92, 2)) sm_dprintf("dropenvelope: e_id=%s, EF_LOGSENDER=%d, LogLevel=%d\n", e->e_id, bitset(EF_LOGSENDER, e->e_flags), LogLevel); if (LogLevel > 4 && bitset(EF_LOGSENDER, e->e_flags)) logsender(e, NULL); e->e_flags &= ~EF_LOGSENDER; /* post statistics */ poststats(StatFile); /* ** Extract state information from dregs of send list. */ now = curtime(); if (now >= e->e_ctime + TimeOuts.to_q_return[e->e_timeoutclass]) msg_timeout = MSG_T_O; if (IS_DLVR_RETURN(e) && e->e_deliver_by > 0 && now >= e->e_ctime + e->e_deliver_by && !bitset(EF_RESPONSE, e->e_flags)) { msg_timeout = MSG_NOT_BY; e->e_flags |= EF_FATALERRS|EF_CLRQUEUE; } else if (TimeOuts.to_q_return[e->e_timeoutclass] == NOW && !bitset(EF_RESPONSE, e->e_flags)) { msg_timeout = MSG_T_O_NOW; e->e_flags |= EF_FATALERRS|EF_CLRQUEUE; } #if _FFR_PROXY if (tTd(87, 2)) { q = e->e_sendqueue; sm_dprintf("dropenvelope: mode=%c, e=%p, sibling=%p, nrcpts=%d, sendqueue=%p, next=%p, state=%d\n", e->e_sendmode, e, e->e_sibling, e->e_nrcpts, q, (q == NULL) ? (void *)0 : q->q_next, (q == NULL) ? -1 : q->q_state); } #endif /* _FFR_PROXY */ e->e_flags &= ~EF_QUEUERUN; for (q = e->e_sendqueue; q != NULL; q = q->q_next) { if (QS_IS_UNDELIVERED(q->q_state)) queueit = true; #if _FFR_PROXY if (queueit && e->e_sendmode == SM_PROXY) queueit = false; #endif /* see if a notification is needed */ if (bitset(QPINGONFAILURE, q->q_flags) && ((IS_MSG_ERR(msg_timeout) && QS_IS_UNDELIVERED(q->q_state)) || QS_IS_BADADDR(q->q_state) || IS_IMM_RET(msg_timeout))) { failure_return = true; if (!done && q->q_owner == NULL && !emptyaddr(&e->e_from)) { (void) sendtolist(e->e_from.q_paddr, NULLADDR, &e->e_errorqueue, 0, e); done = true; } } else if ((bitset(QPINGONSUCCESS, q->q_flags) && ((QS_IS_SENT(q->q_state) && bitnset(M_LOCALMAILER, q->q_mailer->m_flags)) || bitset(QRELAYED|QEXPANDED|QDELIVERED, q->q_flags))) || bitset(QBYTRACE, q->q_flags) || bitset(QBYNRELAY, q->q_flags)) { success_return = true; } } if (e->e_class < 0) e->e_flags |= EF_NO_BODY_RETN; /* ** See if the message timed out. */ if (!queueit) /* EMPTY */ /* nothing to do */ ; else if (IS_MSG_ERR(msg_timeout)) { if (failure_return) { if (msg_timeout == MSG_NOT_BY) { (void) sm_snprintf(buf, sizeof(buf), "delivery time expired %lds", e->e_deliver_by); } else { (void) sm_snprintf(buf, sizeof(buf), "Cannot send message for %s", pintvl(TimeOuts.to_q_return[e->e_timeoutclass], false)); } /* don't free, allocated from e_rpool */ e->e_message = sm_rpool_strdup_x(e->e_rpool, buf); message("%s", buf); e->e_flags |= EF_CLRQUEUE; } if (msg_timeout == MSG_NOT_BY) { (void) sm_io_fprintf(e->e_xfp, SM_TIME_DEFAULT, "Delivery time (%lds) expired\n", e->e_deliver_by); } else (void) sm_io_fprintf(e->e_xfp, SM_TIME_DEFAULT, "Message could not be delivered for %s\n", pintvl(TimeOuts.to_q_return[e->e_timeoutclass], false)); (void) sm_io_fprintf(e->e_xfp, SM_TIME_DEFAULT, "Message will be deleted from queue\n"); for (q = e->e_sendqueue; q != NULL; q = q->q_next) { if (QS_IS_UNDELIVERED(q->q_state)) { q->q_state = QS_BADADDR; if (msg_timeout == MSG_NOT_BY) q->q_status = "5.4.7"; else q->q_status = "4.4.7"; } } } else { if (TimeOuts.to_q_warning[e->e_timeoutclass] > 0 && now >= e->e_ctime + TimeOuts.to_q_warning[e->e_timeoutclass]) msg_timeout = MSG_WARN; else if (IS_DLVR_NOTIFY(e) && e->e_deliver_by > 0 && now >= e->e_ctime + e->e_deliver_by) msg_timeout = MSG_WARN_BY; if (IS_MSG_WARN(msg_timeout)) { if (!bitset(EF_WARNING|EF_RESPONSE, e->e_flags) && e->e_class >= 0 && e->e_from.q_paddr != NULL && strcmp(e->e_from.q_paddr, "<>") != 0 && sm_strncasecmp(e->e_from.q_paddr, "owner-", 6) != 0 && (strlen(e->e_from.q_paddr) <= 8 || !SM_STRCASEEQ(&e->e_from.q_paddr[strlen(e->e_from.q_paddr) - 8], "-request"))) { for (q = e->e_sendqueue; q != NULL; q = q->q_next) { if (QS_IS_UNDELIVERED(q->q_state) #if _FFR_NODELAYDSN_ON_HOLD && !bitnset(M_HOLD, q->q_mailer->m_flags) #endif ) { if (msg_timeout == MSG_WARN_BY && (bitset(QPINGONDELAY, q->q_flags) || !bitset(QHASNOTIFY, q->q_flags)) ) { q->q_flags |= QBYNDELAY; delay_return = true; } if (bitset(QPINGONDELAY, q->q_flags)) { q->q_flags |= QDELAYED; delay_return = true; } } } } if (delay_return) { if (msg_timeout == MSG_WARN_BY) { (void) sm_snprintf(buf, sizeof(buf), "Warning: Delivery time (%lds) exceeded", e->e_deliver_by); } else (void) sm_snprintf(buf, sizeof(buf), "Warning: could not send message for past %s", pintvl(TimeOuts.to_q_warning[e->e_timeoutclass], false)); /* don't free, allocated from e_rpool */ e->e_message = sm_rpool_strdup_x(e->e_rpool, buf); message("%s", buf); e->e_flags |= EF_WARNING; } if (msg_timeout == MSG_WARN_BY) { (void) sm_io_fprintf(e->e_xfp, SM_TIME_DEFAULT, "Warning: Delivery time (%lds) exceeded\n", e->e_deliver_by); } else (void) sm_io_fprintf(e->e_xfp, SM_TIME_DEFAULT, "Warning: message still undelivered after %s\n", pintvl(TimeOuts.to_q_warning[e->e_timeoutclass], false)); (void) sm_io_fprintf(e->e_xfp, SM_TIME_DEFAULT, "Will keep trying until message is %s old\n", pintvl(TimeOuts.to_q_return[e->e_timeoutclass], false)); } } if (tTd(50, 2)) sm_dprintf("failure_return=%d delay_return=%d success_return=%d queueit=%d\n", failure_return, delay_return, success_return, queueit); /* ** If we had some fatal error, but no addresses are marked as bad, ** mark all OK/VERIFIED addresses as bad (if QPINGONFAILURE). */ if (bitset(EF_FATALERRS, e->e_flags) && !failure_return) { for (q = e->e_sendqueue; q != NULL; q = q->q_next) { if ((QS_IS_OK(q->q_state) || QS_IS_VERIFIED(q->q_state)) && bitset(QPINGONFAILURE, q->q_flags) /* ** do not mark an address as bad if ** - the address itself is stored in the queue ** - the DeliveryMode requires queueing ** - the envelope is queued */ && !(bitset(QQUEUED, q->q_flags) && WILL_BE_QUEUED(e->e_sendmode) && bitset(EF_INQUEUE, e->e_flags) ) ) { failure_return = true; q->q_state = QS_BADADDR; } } } /* ** Send back return receipts as requested. */ if (success_return && !failure_return && !delay_return && fulldrop && !bitset(PRIV_NORECEIPTS, PrivacyFlags) && strcmp(e->e_from.q_paddr, "<>") != 0) { auto ADDRESS *rlist = NULL; if (tTd(50, 8)) sm_dprintf("dropenvelope(%s): sending return receipt\n", id); e->e_flags |= EF_SENDRECEIPT; (void) sendtolist(e->e_from.q_paddr, NULLADDR, &rlist, 0, e); (void) returntosender("Return receipt", rlist, RTSF_NO_BODY, e); } e->e_flags &= ~EF_SENDRECEIPT; /* ** Arrange to send error messages if there are fatal errors. */ if ((failure_return || delay_return) && e->e_errormode != EM_QUIET) { if (tTd(50, 8)) sm_dprintf("dropenvelope(%s): saving mail\n", id); panic = savemail(e, !bitset(EF_NO_BODY_RETN, e->e_flags)); } /* ** Arrange to send warning messages to postmaster as requested. */ if ((failure_return || pmnotify) && PostMasterCopy != NULL && !bitset(EF_RESPONSE, e->e_flags) && e->e_class >= 0) { auto ADDRESS *rlist = NULL; char pcopy[MAXNAME_I]; if (failure_return) { expand(PostMasterCopy, pcopy, sizeof(pcopy), e); if (tTd(50, 8)) sm_dprintf("dropenvelope(%s): sending postmaster copy to %s\n", id, pcopy); (void) sendtolist(pcopy, NULLADDR, &rlist, 0, e); } if (pmnotify) (void) sendtolist("postmaster", NULLADDR, &rlist, 0, e); (void) returntosender(e->e_message, rlist, RTSF_PM_BOUNCE|RTSF_NO_BODY, e); } /* ** Instantiate or deinstantiate the queue. */ simpledrop: if (tTd(50, 8)) sm_dprintf("dropenvelope(%s): at simpledrop, queueit=%d\n", id, queueit); if (!queueit || bitset(EF_CLRQUEUE, e->e_flags)) { if (tTd(50, 1)) { sm_dprintf("\n===== Dropping queue files for %s... queueit=%d, e_flags=", e->e_id, queueit); printenvflags(e); } if (!panic) { SM_CLOSE_FP(e->e_dfp); (void) xunlink(queuename(e, DATAFL_LETTER)); } if (panic && QueueMode == QM_LOST) { /* ** leave the Qf file behind as ** the delivery attempt failed. */ /* EMPTY */ } else if (xunlink(queuename(e, ANYQFL_LETTER)) == 0) { /* add to available space in filesystem */ updfs(e, -1, panic ? 0 : -1, "dropenvelope"); } if (e->e_ntries > 0 && LogLevel > 9) sm_syslog(LOG_INFO, id, "done; delay=%s, ntries=%d", pintvl(curtime() - e->e_ctime, true), e->e_ntries); } else if (queueit || !bitset(EF_INQUEUE, e->e_flags)) { if (!split) queueup(e, QUP_FL_MSYNC); else { ENVELOPE *oldsib; ENVELOPE *ee; /* ** Save old sibling and set it to NULL to avoid ** queueing up the same envelopes again. ** This requires that envelopes in that list have ** been take care of before (or at some other place). */ oldsib = e->e_sibling; e->e_sibling = NULL; if (!split_by_recipient(e) && bitset(EF_FATALERRS, e->e_flags)) { syserr("!dropenvelope(%s): cannot commit data file %s, uid=%ld", e->e_id, queuename(e, DATAFL_LETTER), (long) geteuid()); } for (ee = e->e_sibling; ee != NULL; ee = ee->e_sibling) queueup(ee, QUP_FL_MSYNC); queueup(e, QUP_FL_MSYNC); /* clean up */ for (ee = e->e_sibling; ee != NULL; ee = ee->e_sibling) { /* now unlock the job */ if (tTd(50, 8)) sm_dprintf("dropenvelope(%s): unlocking job\n", ee->e_id); closexscript(ee); unlockqueue(ee); /* this envelope is marked unused */ SM_CLOSE_FP(ee->e_dfp); ee->e_id = NULL; ee->e_flags &= ~EF_HAS_DF; } e->e_sibling = oldsib; } } /* now unlock the job */ if (tTd(50, 8)) sm_dprintf("dropenvelope(%s): unlocking job\n", id); closexscript(e); unlockqueue(e); /* make sure that this envelope is marked unused */ SM_CLOSE_FP(e->e_dfp); e->e_id = NULL; e->e_flags &= ~EF_HAS_DF; if (panic) return EX_IOERR; return EX_OK; } /* ** CLEARENVELOPE -- clear an envelope without unlocking ** ** This is normally used by a child process to get a clean ** envelope without disturbing the parent. ** ** Parameters: ** e -- the envelope to clear. ** fullclear - if set, the current envelope is total ** garbage and should be ignored; otherwise, ** release any resources it may indicate. ** rpool -- either NULL, or a pointer to a resource pool ** from which envelope memory is allocated, and ** to which envelope resources are attached. ** ** Returns: ** none. ** ** Side Effects: ** Closes files associated with the envelope. ** Marks the envelope as unallocated. */ void clearenvelope(e, fullclear, rpool) register ENVELOPE *e; bool fullclear; SM_RPOOL_T *rpool; { register HDR *bh; register HDR **nhp; extern ENVELOPE BlankEnvelope; char **p; if (!fullclear) { /* clear out any file information */ SM_CLOSE_FP(e->e_xfp); SM_CLOSE_FP(e->e_dfp); } /* ** Copy BlankEnvelope into *e. ** It is not safe to simply copy pointers to strings; ** the strings themselves must be copied (or set to NULL). ** The problem is that when we assign a new string value to ** a member of BlankEnvelope, we free the old string. ** We did not need to do this copying in sendmail 8.11 :-( ** and it is a potential performance hit. Reference counted ** strings are one way out. */ *e = BlankEnvelope; e->e_message = NULL; e->e_qfletter = '\0'; e->e_quarmsg = NULL; macdefine(&e->e_macro, A_PERM, macid("{quarantine}"), ""); /* ** Copy the macro table. ** We might be able to avoid this by zeroing the macro table ** and always searching BlankEnvelope.e_macro after e->e_macro ** in macvalue(). */ for (p = &e->e_macro.mac_table[0]; p <= &e->e_macro.mac_table[MAXMACROID]; ++p) { if (*p != NULL) *p = sm_rpool_strdup_x(rpool, *p); } /* ** XXX There are many strings in the envelope structure ** XXX that we are not attempting to copy here. ** XXX Investigate this further. */ e->e_rpool = rpool; e->e_macro.mac_rpool = rpool; if (Verbose) set_delivery_mode(SM_DELIVER, e); bh = BlankEnvelope.e_header; nhp = &e->e_header; while (bh != NULL) { *nhp = (HDR *) sm_rpool_malloc_x(rpool, sizeof(*bh)); memmove((char *) *nhp, (char *) bh, sizeof(*bh)); bh = bh->h_link; nhp = &(*nhp)->h_link; } #if _FFR_MILTER_ENHSC e->e_enhsc[0] = '\0'; #endif } /* ** INITSYS -- initialize instantiation of system ** ** In Daemon mode, this is done in the child. ** ** Parameters: ** e -- the envelope to use. ** ** Returns: ** none. ** ** Side Effects: ** Initializes the system macros, some global variables, ** etc. In particular, the current time in various ** forms is set. */ void initsys(e) register ENVELOPE *e; { char buf[10]; #ifdef TTYNAME static char ybuf[60]; /* holds tty id */ register char *p; extern char *ttyname(); #endif /* TTYNAME */ /* ** Give this envelope a reality. ** I.e., an id, a transcript, and a creation time. ** We don't select the queue until all of the recipients are known. */ openxscript(e); e->e_ctime = curtime(); e->e_qfletter = '\0'; /* ** Set OutChannel to something useful if stdout isn't it. ** This arranges that any extra stuff the mailer produces ** gets sent back to the user on error (because it is ** tucked away in the transcript). */ if (OpMode == MD_DAEMON && bitset(EF_QUEUERUN, e->e_flags) && e->e_xfp != NULL) OutChannel = e->e_xfp; /* ** Set up some basic system macros. */ /* process id */ (void) sm_snprintf(buf, sizeof(buf), "%d", (int) CurrentPid); macdefine(&e->e_macro, A_TEMP, 'p', buf); /* hop count */ (void) sm_snprintf(buf, sizeof(buf), "%d", e->e_hopcount); macdefine(&e->e_macro, A_TEMP, 'c', buf); /* time as integer, unix time, arpa time */ settime(e); /* Load average */ sm_getla(); #ifdef TTYNAME /* tty name */ if (macvalue('y', e) == NULL) { p = ttyname(2); if (p != NULL) { if (strrchr(p, '/') != NULL) p = strrchr(p, '/') + 1; (void) sm_strlcpy(ybuf, sizeof(ybuf), p); macdefine(&e->e_macro, A_PERM, 'y', ybuf); } } #endif /* TTYNAME */ } /* ** SETTIME -- set the current time. ** ** Parameters: ** e -- the envelope in which the macros should be set. ** ** Returns: ** none. ** ** Side Effects: ** Sets the various time macros -- $a, $b, $d, $t. */ void settime(e) register ENVELOPE *e; { register char *p; auto time_t now; char buf[30]; register struct tm *tm; now = curtime(); (void) sm_snprintf(buf, sizeof(buf), "%ld", (long) now); macdefine(&e->e_macro, A_TEMP, macid("{time}"), buf); tm = gmtime(&now); (void) sm_snprintf(buf, sizeof(buf), "%04d%02d%02d%02d%02d", tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday, tm->tm_hour, tm->tm_min); macdefine(&e->e_macro, A_TEMP, 't', buf); (void) sm_strlcpy(buf, ctime(&now), sizeof(buf)); p = strchr(buf, '\n'); if (p != NULL) *p = '\0'; macdefine(&e->e_macro, A_TEMP, 'd', buf); macdefine(&e->e_macro, A_TEMP, 'b', arpadate(buf)); if (macvalue('a', e) == NULL) macdefine(&e->e_macro, A_PERM, 'a', macvalue('b', e)); } /* ** OPENXSCRIPT -- Open transcript file ** ** Creates a transcript file for possible eventual mailing or ** sending back. ** ** Parameters: ** e -- the envelope to create the transcript in/for. ** ** Returns: ** none ** ** Side Effects: ** Creates the transcript file. */ #ifndef O_APPEND # define O_APPEND 0 #endif void openxscript(e) register ENVELOPE *e; { register char *p; if (e->e_xfp != NULL) return; #if 0 if (e->e_lockfp == NULL && bitset(EF_INQUEUE, e->e_flags)) syserr("openxscript: job not locked"); #endif p = queuename(e, XSCRPT_LETTER); e->e_xfp = bfopen(p, FileMode, XscriptFileBufferSize, SFF_NOTEXCL|SFF_OPENASROOT); if (e->e_xfp == NULL) { syserr("Can't create transcript file %s", p); e->e_xfp = sm_io_open(SmFtStdio, SM_TIME_DEFAULT, SM_PATH_DEVNULL, SM_IO_RDWR, NULL); if (e->e_xfp == NULL) syserr("!Can't open %s", SM_PATH_DEVNULL); } (void) sm_io_setvbuf(e->e_xfp, SM_TIME_DEFAULT, NULL, SM_IO_LBF, 0); if (tTd(46, 9)) { sm_dprintf("openxscript(%s):\n ", p); dumpfd(sm_io_getinfo(e->e_xfp, SM_IO_WHAT_FD, NULL), true, false); } } /* ** CLOSEXSCRIPT -- close the transcript file. ** ** Parameters: ** e -- the envelope containing the transcript to close. ** ** Returns: ** none. ** ** Side Effects: ** none. */ void closexscript(e) register ENVELOPE *e; { if (e->e_xfp == NULL) return; #if 0 if (e->e_lockfp == NULL) syserr("closexscript: job not locked"); #endif SM_CLOSE_FP(e->e_xfp); } /* ** SETSENDER -- set the person who this message is from ** ** Under certain circumstances allow the user to say who ** s/he is (using -f or -r). These are: ** 1. The user's uid is zero (root). ** 2. The user's login name is in an approved list (typically ** from a network server). ** 3. The address the user is trying to claim has a ** "!" character in it (since #2 doesn't do it for ** us if we are dialing out for UUCP). ** A better check to replace #3 would be if the ** effective uid is "UUCP" -- this would require me ** to rewrite getpwent to "grab" uucp as it went by, ** make getname more nasty, do another passwd file ** scan, or compile the UID of "UUCP" into the code, ** all of which are reprehensible. ** ** Assuming all of these fail, we figure out something ** ourselves. ** ** Parameters: ** from -- the person we would like to believe this message [i] ** is from, as specified on the command line. ** e -- the envelope in which we would like the sender set. ** delimptr -- if non-NULL, set to the location of the ** trailing delimiter. ** delimchar -- the character that will delimit the sender ** address. ** internal -- set if this address is coming from an internal ** source such as an owner alias. ** ** Returns: ** none. ** ** Side Effects: ** sets sendmail's notion of who the from person is. */ void setsender(from, e, delimptr, delimchar, internal) char *from; register ENVELOPE *e; char **delimptr; int delimchar; bool internal; { register char **pvp; char *realname = NULL; char *bp; char buf[MAXNAME_I + 2]; char pvpbuf[PSBUFSIZE]; extern char *FullName; if (tTd(45, 1)) sm_dprintf("setsender(%s)\n", from == NULL ? "" : from); /* may be set from earlier calls */ macdefine(&e->e_macro, A_PERM, 'x', ""); /* ** Figure out the real user executing us. ** Username can return errno != 0 on non-errors. */ if (bitset(EF_QUEUERUN, e->e_flags) || OpMode == MD_SMTP || OpMode == MD_ARPAFTP || OpMode == MD_DAEMON) realname = from; if (SM_IS_EMPTY(realname)) realname = username(); if (ConfigLevel < 2) SuprErrs = true; macdefine(&e->e_macro, A_PERM, macid("{addr_type}"), "e s"); /* preset state for then clause in case from == NULL */ e->e_from.q_state = QS_BADADDR; e->e_from.q_flags = 0; if (from == NULL || parseaddr(from, &e->e_from, RF_COPYALL|RF_SENDERADDR, delimchar, delimptr, e, false) == NULL || QS_IS_BADADDR(e->e_from.q_state) || e->e_from.q_mailer == ProgMailer || e->e_from.q_mailer == FileMailer || e->e_from.q_mailer == InclMailer) { /* log garbage addresses for traceback */ if (from != NULL && LogLevel > 2) { char *p; char ebuf[MAXNAME * 2 + 2]; /* EAI:ok? */ p = macvalue('_', e); if (p == NULL) { char *host = RealHostName; if (host == NULL) host = MyHostName; (void) sm_snprintf(ebuf, sizeof(ebuf), "%.*s@%.*s", MAXNAME, realname, /* EAI: see above */ MAXNAME, host); /* EAI: see above */ p = ebuf; } sm_syslog(LOG_NOTICE, e->e_id, "setsender: %s: invalid or unparsable, received from %s", shortenstring(from, 83), p); } if (from != NULL) { if (!QS_IS_BADADDR(e->e_from.q_state)) { /* it was a bogus mailer in the from addr */ e->e_status = "5.1.7"; usrerrenh(e->e_status, "553 Invalid sender address"); } SuprErrs = true; } if (from == realname || /* XXX realname must be [i] */ parseaddr(from = realname, &e->e_from, RF_COPYALL|RF_SENDERADDR, ' ', NULL, e, false) == NULL) { char nbuf[100]; SuprErrs = true; expand("\201n", nbuf, sizeof(nbuf), e); from = sm_rpool_strdup_x(e->e_rpool, nbuf); /* XXX from must be [i] */ if (parseaddr(from, &e->e_from, RF_COPYALL, ' ', NULL, e, false) == NULL && parseaddr(from = "postmaster", &e->e_from, RF_COPYALL, ' ', NULL, e, false) == NULL) syserr("553 5.3.0 setsender: can't even parse postmaster!"); } } else FromFlag = true; e->e_from.q_state = QS_SENDER; if (tTd(45, 5)) { sm_dprintf("setsender: QS_SENDER "); printaddr(sm_debug_file(), &e->e_from, false); } SuprErrs = false; #if USERDB if (bitnset(M_CHECKUDB, e->e_from.q_mailer->m_flags)) { register char *p; p = udbsender(e->e_from.q_user, e->e_rpool); if (p != NULL) from = p; } #endif /* USERDB */ if (bitnset(M_HASPWENT, e->e_from.q_mailer->m_flags)) { SM_MBDB_T user; if (!internal) { /* if the user already given fullname don't redefine */ if (FullName == NULL) FullName = macvalue('x', e); if (FullName != NULL) { if (FullName[0] == '\0') FullName = NULL; else FullName = newstr(FullName); } } if (e->e_from.q_user[0] != '\0' && sm_mbdb_lookup(e->e_from.q_user, &user) == EX_OK) { /* ** Process passwd file entry. */ /* extract home directory */ if (*user.mbdb_homedir == '\0') e->e_from.q_home = NULL; else if (strcmp(user.mbdb_homedir, "/") == 0) e->e_from.q_home = ""; else e->e_from.q_home = sm_rpool_strdup_x(e->e_rpool, user.mbdb_homedir); macdefine(&e->e_macro, A_PERM, 'z', e->e_from.q_home); /* extract user and group id */ if (user.mbdb_uid != SM_NO_UID) { e->e_from.q_uid = user.mbdb_uid; e->e_from.q_gid = user.mbdb_gid; e->e_from.q_flags |= QGOODUID; } /* extract full name from passwd file */ if (FullName == NULL && !internal && user.mbdb_fullname[0] != '\0' && strcmp(user.mbdb_name, e->e_from.q_user) == 0) { FullName = newstr(user.mbdb_fullname); } } else { e->e_from.q_home = NULL; } if (FullName != NULL && !internal) macdefine(&e->e_macro, A_TEMP, 'x', FullName); } else if (!internal && OpMode != MD_DAEMON && OpMode != MD_SMTP) { if (e->e_from.q_home == NULL) { e->e_from.q_home = getenv("HOME"); if (e->e_from.q_home != NULL) { if (*e->e_from.q_home == '\0') e->e_from.q_home = NULL; else if (strcmp(e->e_from.q_home, "/") == 0) e->e_from.q_home++; } } e->e_from.q_uid = RealUid; e->e_from.q_gid = RealGid; e->e_from.q_flags |= QGOODUID; } /* ** Rewrite the from person to dispose of possible implicit ** links in the net. */ pvp = prescan(from, delimchar, pvpbuf, sizeof(pvpbuf), NULL, IntTokenTab, false); if (pvp == NULL) { /* don't need to give error -- prescan did that already */ if (LogLevel > 2) sm_syslog(LOG_NOTICE, e->e_id, "cannot prescan from (%s)", shortenstring(from, MAXSHORTSTR)); finis(true, true, ExitStat); } (void) REWRITE(pvp, 3, e); (void) REWRITE(pvp, 1, e); (void) REWRITE(pvp, 4, e); macdefine(&e->e_macro, A_PERM, macid("{addr_type}"), NULL); bp = buf + 1; cataddr(pvp, NULL, bp, sizeof(buf) - 2, '\0', false); if (*bp == '@' && !bitnset(M_NOBRACKET, e->e_from.q_mailer->m_flags)) { /* heuristic: route-addr: add angle brackets */ (void) sm_strlcat(bp, ">", sizeof(buf) - 1); *--bp = '<'; } e->e_sender = sm_rpool_strdup_x(e->e_rpool, bp); macdefine(&e->e_macro, A_PERM, 'f', e->e_sender); /* save the domain spec if this mailer wants it */ if (e->e_from.q_mailer != NULL && bitnset(M_CANONICAL, e->e_from.q_mailer->m_flags)) { char **lastat; /* get rid of any pesky angle brackets */ macdefine(&e->e_macro, A_PERM, macid("{addr_type}"), "e s"); (void) REWRITE(pvp, 3, e); (void) REWRITE(pvp, 1, e); (void) REWRITE(pvp, 4, e); macdefine(&e->e_macro, A_PERM, macid("{addr_type}"), NULL); /* strip off to the last "@" sign */ for (lastat = NULL; *pvp != NULL; pvp++) { if (strcmp(*pvp, "@") == 0) lastat = pvp; } if (lastat != NULL) { e->e_fromdomain = copyplist(lastat, true, e->e_rpool); if (tTd(45, 3)) { sm_dprintf("Saving from domain: "); printav(sm_debug_file(), e->e_fromdomain); } } } } /* ** PRINTENVFLAGS -- print envelope flags for debugging ** ** Parameters: ** e -- the envelope with the flags to be printed. ** ** Returns: ** none. */ struct eflags { char *ef_name; unsigned long ef_bit; }; static struct eflags EnvelopeFlags[] = { { "OLDSTYLE", EF_OLDSTYLE }, { "INQUEUE", EF_INQUEUE }, { "NO_BODY_RETN", EF_NO_BODY_RETN }, { "CLRQUEUE", EF_CLRQUEUE }, { "SENDRECEIPT", EF_SENDRECEIPT }, { "FATALERRS", EF_FATALERRS }, { "DELETE_BCC", EF_DELETE_BCC }, { "RESPONSE", EF_RESPONSE }, { "RESENT", EF_RESENT }, { "VRFYONLY", EF_VRFYONLY }, { "WARNING", EF_WARNING }, { "QUEUERUN", EF_QUEUERUN }, { "GLOBALERRS", EF_GLOBALERRS }, { "PM_NOTIFY", EF_PM_NOTIFY }, { "METOO", EF_METOO }, { "LOGSENDER", EF_LOGSENDER }, { "NORECEIPT", EF_NORECEIPT }, { "HAS8BIT", EF_HAS8BIT }, { "RET_PARAM", EF_RET_PARAM }, { "HAS_DF", EF_HAS_DF }, { "IS_MIME", EF_IS_MIME }, { "DONT_MIME", EF_DONT_MIME }, { "DISCARD", EF_DISCARD }, { "TOOBIG", EF_TOOBIG }, { "SPLIT", EF_SPLIT }, { "UNSAFE", EF_UNSAFE }, { "TOODEEP", EF_TOODEEP }, { "SECURE", EF_SECURE }, { NULL, 0 } }; void printenvflags(e) register ENVELOPE *e; { register struct eflags *ef; bool first = true; sm_dprintf("%lx", e->e_flags); for (ef = EnvelopeFlags; ef->ef_name != NULL; ef++) { if (!bitset(ef->ef_bit, e->e_flags)) continue; if (first) sm_dprintf("<%s", ef->ef_name); else sm_dprintf(",%s", ef->ef_name); first = false; } if (!first) sm_dprintf(">\n"); }