xref: /freebsd/contrib/sendmail/src/domain.c (revision 5bb3134a8c21cb87b30e135ef168483f0333dabb)
1 /*
2  * Copyright (c) 1998-2004, 2006, 2010 Proofpoint, Inc. and its suppliers.
3  *	All rights reserved.
4  * Copyright (c) 1986, 1995-1997 Eric P. Allman.  All rights reserved.
5  * Copyright (c) 1988, 1993
6  *	The Regents of the University of California.  All rights reserved.
7  *
8  * By using this file, you agree to the terms and conditions set
9  * forth in the LICENSE file which can be found at the top level of
10  * the sendmail distribution.
11  *
12  */
13 
14 #include <sendmail.h>
15 #include "map.h"
16 #if _FFR_EAI
17 #include <unicode/uidna.h>
18 #endif
19 
20 #if NAMED_BIND
21 SM_RCSID("@(#)$Id: domain.c,v 8.205 2013-11-22 20:51:55 ca Exp $ (with name server)")
22 #else
23 SM_RCSID("@(#)$Id: domain.c,v 8.205 2013-11-22 20:51:55 ca Exp $ (without name server)")
24 #endif
25 
26 #if NAMED_BIND
27 
28 # include <arpa/inet.h>
29 # include <sm_resolve.h>
30 # if DANE
31 #  include <tls.h>
32 #  ifndef SM_NEG_TTL
33 #   define SM_NEG_TTL 60 /* "negative" TTL */
34 #  endif
35 # endif
36 
37 
38 # ifndef MXHOSTBUFSIZE
39 #  define MXHOSTBUFSIZE	(128 * MAXMXHOSTS)
40 # endif
41 
42 static char	MXHostBuf[MXHOSTBUFSIZE];
43 # if (MXHOSTBUFSIZE < 2) || (MXHOSTBUFSIZE >= INT_MAX/2)
44 	ERROR: _MXHOSTBUFSIZE is out of range
45 # endif
46 
47 # ifndef MAXDNSRCH
48 #  define MAXDNSRCH	6	/* number of possible domains to search */
49 # endif
50 
51 # ifndef RES_DNSRCH_VARIABLE
52 #  define RES_DNSRCH_VARIABLE	_res.dnsrch
53 # endif
54 
55 # ifndef NO_DATA
56 #  define NO_DATA	NO_ADDRESS
57 # endif
58 
59 # ifndef HFIXEDSZ
60 #  define HFIXEDSZ	12	/* sizeof(HEADER) */
61 # endif
62 
63 # define MAXCNAMEDEPTH	10	/* maximum depth of CNAME recursion */
64 
65 # if defined(__RES) && (__RES >= 19940415)
66 #  define RES_UNC_T	char *
67 # else
68 #  define RES_UNC_T	unsigned char *
69 # endif
70 
71 static int	mxrand __P((char *));
72 static int	fallbackmxrr __P((int, unsigned short *, char **));
73 
74 # if DANE
75 
76 /*
77 **  TLSAADD -- add TLSA records to dane_tlsa entry
78 **
79 **	Parameters:
80 **		name -- key for stab entry (for debugging output)
81 **		dr -- DNS reply
82 **		dane_tlsa -- dane_tlsa entry
83 **		dnsrc -- DNS lookup return code (h_errno)
84 **		n -- current number of TLSA records in dane_tlsa entry
85 **		pttl -- (pointer to) TTL (in/out)
86 **		level -- recursion level (CNAMEs)
87 **
88 **	Returns:
89 **		new number of TLSA records
90 */
91 
92 static int tlsaadd __P((const char *, DNS_REPLY_T *, dane_tlsa_P, int, int,
93 			unsigned int *, int));
94 
95 static int
96 tlsaadd(name, dr, dane_tlsa, dnsrc, n, pttl, level)
97 	const char *name;
98 	DNS_REPLY_T *dr;
99 	dane_tlsa_P dane_tlsa;
100 	int dnsrc;
101 	int n;
102 	unsigned int *pttl;
103 	int level;
104 {
105 	RESOURCE_RECORD_T *rr;
106 	unsigned int ttl;
107 	int nprev;
108 
109 	if (dnsrc != 0)
110 	{
111 		if (tTd(8, 2))
112 			sm_dprintf("tlsaadd(%s), prev=%d, dnsrc=%d\n",
113 				name, dane_tlsa->dane_tlsa_dnsrc, dnsrc);
114 
115 		/* check previous error and keep the "most important" one? */
116 		dane_tlsa->dane_tlsa_dnsrc = dnsrc;
117 # if DNSSEC_TEST
118 		if (tTd(8, 110))
119 			*pttl = tTdlevel(8)-110;	/* how to make this an option? */
120 		else
121 # else
122 			*pttl = SM_NEG_TTL;
123 # endif
124 
125 		return n;
126 	}
127 	if (dr == NULL)
128 		return n;
129 	if (dr->dns_r_h.ad != 1 && Dane == DANE_SECURE)	/* not secure? */
130 		return n;
131 	ttl = *pttl;
132 
133 	/* first: try to find TLSA records */
134 	nprev = n;
135 	for (rr = dr->dns_r_head; rr != NULL && n < MAX_TLSA_RR;
136 	     rr = rr->rr_next)
137 	{
138 		int tlsa_chk;
139 
140 		if (rr->rr_type != T_TLSA)
141 		{
142 			if (rr->rr_type != T_CNAME && tTd(8, 8))
143 				sm_dprintf("tlsaadd(%s), type=%s\n", name,
144 					dns_type_to_string(rr->rr_type));
145 			continue;
146 		}
147 		tlsa_chk = dane_tlsa_chk(rr->rr_u.rr_data, rr->rr_size, name,
148 					true);
149 		if (!TLSA_IS_VALID(tlsa_chk))
150 			continue;
151 
152 		/*
153 		**  To do: the RRs should be sorted (by "complexity") --
154 		**  when more than one type is supported.
155 		*/
156 
157 		dane_tlsa->dane_tlsa_rr[n] = rr->rr_u.rr_data;
158 		dane_tlsa->dane_tlsa_len[n] = rr->rr_size;
159 		if (tTd(8, 2))
160 		{
161 			unsigned char *p;
162 
163 			p = rr->rr_u.rr_data;
164 			sm_dprintf("tlsaadd(%s), n=%d, %d-%d-%d:%02x\n", name,
165 				n, (int)p[0], (int)p[1], (int)p[2], (int)p[3]);
166 		}
167 
168 		/* require some minimum TTL? */
169 		if (ttl > rr->rr_ttl && rr->rr_ttl > 0)
170 			ttl = rr->rr_ttl;
171 
172 		/* hack: instead of copying the data, just "take it over" */
173 		rr->rr_u.rr_data = NULL;
174 		++n;
175 	}
176 
177 	/* second: check for CNAME records, but only if no TLSA RR was added */
178 	for (rr = dr->dns_r_head; rr != NULL && n < MAX_TLSA_RR && nprev == n;
179 	     rr = rr->rr_next)
180 	{
181 		DNS_REPLY_T *drc;
182 		int err, herr;
183 
184 		if (rr->rr_type != T_CNAME)
185 			continue;
186 		if (level > 1)
187 		{
188 			if (tTd(8, 2))
189 				sm_dprintf("tlsaadd(%s), CNAME=%s, level=%d\n",
190 					name, rr->rr_u.rr_txt, level);
191 			continue;
192 		}
193 
194 		drc = dns_lookup_int(rr->rr_u.rr_txt, C_IN, T_TLSA, 0, 0,
195 			(Dane == DANE_SECURE &&
196 			 !TLSA_IS_FL(dane_tlsa, TLSAFLNOADMX))
197 			? SM_RES_DNSSEC : 0,
198 			RR_RAW, &err, &herr);
199 
200 		if (tTd(8, 2))
201 			sm_dprintf("tlsaadd(%s), CNAME=%s, level=%d, dr=%p, ad=%d, err=%d, herr=%d\n",
202 				name, rr->rr_u.rr_txt, level,
203 				(void *)drc, drc != NULL ? drc->dns_r_h.ad : -1,
204 				err, herr);
205 		nprev = n = tlsaadd(name, drc, dane_tlsa, herr, n, pttl,
206 				level + 1);
207 		dns_free_data(drc);
208 		drc = NULL;
209 	}
210 
211 	*pttl = ttl;
212 	return n;
213 }
214 
215 /*
216 **  GETTLSA -- get TLSA records for named host using DNS
217 **
218 **	Parameters:
219 **		host -- host
220 **		name -- name for stab entry key (if NULL: host)
221 **		pste -- (pointer to) stab entry (output)
222 **		flags -- TLSAFL*
223 **		mxttl -- TTL of MX (or host)
224 **		port -- port
225 **
226 **	Returns:
227 **		The number of TLSA records found.
228 **		<0 if there is an internal failure.
229 **
230 **	Side effects:
231 **		Enters TLSA RRs into stab().
232 **		If the DNS lookup fails temporarily, an "empty" entry is
233 **		created with that DNS error code.
234 */
235 
236 int
237 gettlsa(host, name, pste, flags, mxttl, port)
238 	char *host;
239 	char *name;
240 	STAB **pste;
241 	unsigned long flags;
242 	unsigned int mxttl;
243 	unsigned int port;
244 {
245 	DNS_REPLY_T *dr;
246 	dane_tlsa_P dane_tlsa;
247 	STAB *ste;
248 	time_t now;
249 	unsigned int ttl;
250 	int n_rrs, len, err, herr;
251 	bool isrname;
252 	char nbuf[MAXDNAME];
253 	char key[MAXDNAME];
254 
255 	SM_REQUIRE(host != NULL);
256 	if (pste != NULL)
257 		*pste = NULL;
258 	if ('\0' == *host)
259 		return 0;
260 
261 	isrname = NULL == name;
262 	if (isrname)
263 		name = host;
264 	now = 0;
265 	n_rrs = 0;
266 	dr = NULL;
267 	dane_tlsa = NULL;
268 	len = strlen(name);
269 	if (len > 1 && name[len - 1] == '.')
270 	{
271 		len--;
272 		name[len] = '\0';
273 	}
274 	else
275 		len = -1;
276 	if (0 == port || tTd(66, 10))
277 		port = 25;
278 	(void) sm_snprintf(key, sizeof(key), "_%u..%s", port, name);
279 	ste = stab(key, ST_TLSA_RR, ST_FIND);
280 	if (tTd(8, 2))
281 		sm_dprintf("gettlsa(%s, %s, ste=%p, pste=%p, flags=%lX, port=%d)\n",
282 			host, isrname ? "" : name, (void *)ste, (void *)pste,
283 			flags, port);
284 
285 	if (ste != NULL)
286 	{
287 		dane_tlsa = ste->s_tlsa;
288 		if ((TLSAFLADMX & flags) != 0)
289 			TLSA_CLR_FL(ste->s_tlsa, TLSAFLNOADMX);
290 	}
291 
292 	/* Do not reload TLSA RRs if the MX RRs were not securely retrieved. */
293 	if (pste != NULL
294 	    && dane_tlsa != NULL && TLSA_IS_FL(dane_tlsa, TLSAFLNOADMX)
295 	    && DANE_SECURE == Dane)
296 		goto end;
297 
298 	if (ste != NULL)
299 	{
300 		SM_ASSERT(dane_tlsa != NULL);
301 		now = curtime();
302 		if (dane_tlsa->dane_tlsa_exp <= now
303 		    && 0 == (TLSAFLNOEXP & flags))
304 			dane_tlsa_clr(dane_tlsa);
305 		else
306 		{
307 			n_rrs = dane_tlsa->dane_tlsa_n;
308 			goto end;
309 		}
310 	}
311 
312 	if (dane_tlsa == NULL)
313 	{
314 		dane_tlsa = (dane_tlsa_P) sm_malloc(sizeof(*dane_tlsa));
315 		if (dane_tlsa == NULL)
316 		{
317 			n_rrs = -ENOMEM;
318 			goto end;
319 		}
320 		memset(dane_tlsa, '\0', sizeof(*dane_tlsa));
321 	}
322 
323 	/* There are flags to store -- just set those, do nothing else. */
324 	if (TLSA_STORE_FL(flags))
325 	{
326 		dane_tlsa->dane_tlsa_flags = flags;
327 		ttl = mxttl > 0 ? mxttl: SM_DEFAULT_TTL;
328 		goto done;
329 	}
330 
331 	(void) sm_snprintf(nbuf, sizeof(nbuf), "_%u._tcp.%s", port, host);
332 	dr = dns_lookup_int(nbuf, C_IN, T_TLSA, 0, 0,
333 		TLSA_IS_FL(dane_tlsa, TLSAFLNOADMX) ? 0 : SM_RES_DNSSEC,
334 		RR_RAW, &err, &herr);
335 	if (tTd(8, 2))
336 		sm_dprintf("gettlsa(%s), dr=%p, ad=%d, err=%d, herr=%d\n", host,
337 			(void *)dr, dr != NULL ? dr->dns_r_h.ad : -1, err, herr);
338 	ttl = UINT_MAX;
339 	n_rrs = tlsaadd(key, dr, dane_tlsa, herr, n_rrs, &ttl, 0);
340 
341 	/* no valid entries found? */
342 	if (n_rrs == 0 && !TLSA_RR_TEMPFAIL(dane_tlsa))
343 	{
344 		if (tTd(8, 2))
345 			sm_dprintf("gettlsa(%s), n_rrs=%d, herr=%d, status=NOT_ADDED\n",
346 				host, n_rrs, dane_tlsa->dane_tlsa_dnsrc);
347 		goto cleanup;
348 	}
349 
350   done:
351 	dane_tlsa->dane_tlsa_n = n_rrs;
352 	if (!isrname)
353 	{
354 		SM_FREE(dane_tlsa->dane_tlsa_sni);
355 		dane_tlsa->dane_tlsa_sni = sm_strdup(host);
356 	}
357 	if (NULL == ste)
358 	{
359 		ste = stab(key, ST_TLSA_RR, ST_ENTER);
360 		if (NULL == ste)
361 			goto error;
362 	}
363 	ste->s_tlsa = dane_tlsa;
364 	if (now == 0)
365 		now = curtime();
366 	dane_tlsa->dane_tlsa_exp = now + SM_MIN(ttl, SM_DEFAULT_TTL);
367 	dns_free_data(dr);
368 	dr = NULL;
369 	goto end;
370 
371   error:
372 	if (tTd(8, 2))
373 		sm_dprintf("gettlsa(%s, %s), status=error\n", host, key);
374 	n_rrs = -1;
375   cleanup:
376 	if (NULL == ste)
377 		dane_tlsa_free(dane_tlsa);
378 	dns_free_data(dr);
379 	dr = NULL;
380 
381   end:
382 	if (pste != NULL && ste != NULL)
383 		*pste = ste;
384 	if (len > 0)
385 		host[len] = '.';
386 	return n_rrs;
387 }
388 # endif /* DANE */
389 
390 /*
391 **  GETFALLBACKMXRR -- get MX resource records for fallback MX host.
392 **
393 **	We have to initialize this once before doing anything else.
394 **	Moreover, we have to repeat this from time to time to avoid
395 **	stale data, e.g., in persistent queue runners.
396 **	This should be done in a parent process so the child
397 **	processes have the right data.
398 **
399 **	Parameters:
400 **		host -- the name of the fallback MX host.
401 **
402 **	Returns:
403 **		number of MX records.
404 **
405 **	Side Effects:
406 **		Populates NumFallbackMXHosts and fbhosts.
407 **		Sets renewal time (based on TTL).
408 */
409 
410 int NumFallbackMXHosts = 0;	/* Number of fallback MX hosts (after MX expansion) */
411 static char *fbhosts[MAXMXHOSTS + 1];
412 
413 int
414 getfallbackmxrr(host)
415 	char *host;
416 {
417 	int i, rcode;
418 	int ttl;
419 	static time_t renew = 0;
420 
421 #if 0
422 	/* This is currently done before this function is called. */
423 	if (host == NULL || *host == '\0')
424 		return 0;
425 #endif /* 0 */
426 	if (NumFallbackMXHosts > 0 && renew > curtime())
427 		return NumFallbackMXHosts;
428 
429 	/* for DANE we need to invoke getmxrr() to get the TLSA RRs. */
430 #if !DANE
431 	if (host[0] == '[')
432 	{
433 		fbhosts[0] = host;
434 		NumFallbackMXHosts = 1;
435 	}
436 	else
437 #endif
438 	{
439 		/* free old data */
440 		for (i = 0; i < NumFallbackMXHosts; i++)
441 			sm_free(fbhosts[i]);
442 
443 		/*
444 		**  Get new data.
445 		**  Note: passing 0 as port is not correct but we cannot
446 		**  determine the port number as there is no mailer.
447 		*/
448 
449 		NumFallbackMXHosts = getmxrr(host, fbhosts, NULL,
450 #if DANE
451 					(DANE_SECURE == Dane) ?  ISAD :
452 #endif
453 					0,
454 					&rcode, &ttl, 0);
455 		renew = curtime() + ttl;
456 		for (i = 0; i < NumFallbackMXHosts; i++)
457 			fbhosts[i] = newstr(fbhosts[i]);
458 	}
459 	if (NumFallbackMXHosts == NULLMX)
460 		NumFallbackMXHosts = 0;
461 	return NumFallbackMXHosts;
462 }
463 
464 /*
465 **  FALLBACKMXRR -- add MX resource records for fallback MX host to list.
466 **
467 **	Parameters:
468 **		nmx -- current number of MX records.
469 **		prefs -- array of preferences.
470 **		mxhosts -- array of MX hosts (maximum size: MAXMXHOSTS)
471 **
472 **	Returns:
473 **		new number of MX records.
474 **
475 **	Side Effects:
476 **		If FallbackMX was set, it appends the MX records for
477 **		that host to mxhosts (and modifies prefs accordingly).
478 */
479 
480 static int
481 fallbackmxrr(nmx, prefs, mxhosts)
482 	int nmx;
483 	unsigned short *prefs;
484 	char **mxhosts;
485 {
486 	int i;
487 
488 	for (i = 0; i < NumFallbackMXHosts && nmx < MAXMXHOSTS; i++)
489 	{
490 		if (nmx > 0)
491 			prefs[nmx] = prefs[nmx - 1] + 1;
492 		else
493 			prefs[nmx] = 0;
494 		mxhosts[nmx++] = fbhosts[i];
495 	}
496 	return nmx;
497 }
498 
499 /*
500 **  GETMXRR -- get MX resource records for a domain
501 **
502 **	Parameters:
503 **		host -- the name of the host to MX.
504 **		mxhosts -- a pointer to a return buffer of MX records.
505 **		mxprefs -- a pointer to a return buffer of MX preferences.
506 **			If NULL, don't try to populate.
507 **		flags -- flags:
508 **			DROPLOCALHOSt -- If true, all MX records less preferred
509 **			than the local host (as determined by $=w) will
510 **			be discarded.
511 **			TRYFALLBACK -- add also fallback MX host?
512 **			ISAD -- host lookup was secure?
513 **		rcode -- a pointer to an EX_ status code.
514 **		pttl -- pointer to return TTL (can be NULL).
515 **
516 **	Returns:
517 **		The number of MX records found.
518 **		-1 if there is an internal failure.
519 **		If no MX records are found, mxhosts[0] is set to host
520 **			and 1 is returned.
521 **
522 **	Side Effects:
523 **		The entries made for mxhosts point to a static array
524 **		MXHostBuf[MXHOSTBUFSIZE], so the data needs to be copied,
525 **		if it must be preserved across calls to this function.
526 */
527 
528 int
529 getmxrr(host, mxhosts, mxprefs, flags, rcode, pttl, port)
530 	char *host;
531 	char **mxhosts;
532 	unsigned short *mxprefs;
533 	unsigned int flags;
534 	int *rcode;
535 	int *pttl;
536 	int port;
537 {
538 	register unsigned char *eom, *cp;
539 	register int i, j, n;
540 	int nmx = 0;
541 	register char *bp;
542 	HEADER *hp;
543 	querybuf answer;
544 	int ancount, qdcount, buflen;
545 	bool seenlocal = false;
546 	unsigned short pref, type;
547 	unsigned short localpref = 256;
548 	char *fallbackMX = FallbackMX;
549 	bool trycanon = false;
550 	unsigned short *prefs;
551 	int (*resfunc) __P((const char *, int, int, u_char *, int));
552 	unsigned short prefer[MAXMXHOSTS];
553 	int weight[MAXMXHOSTS];
554 	int ttl = 0;
555 	bool ad;
556 	bool seennullmx = false;
557 	extern int res_query(), res_search();
558 # if DANE
559 	bool cname2mx;
560 	char qname[MAXNAME];
561 	unsigned long old_options = 0;
562 # endif
563 
564 	if (tTd(8, 2))
565 		sm_dprintf("getmxrr(%s, droplocalhost=%d, flags=%X, port=%d)\n",
566 			   host, (flags & DROPLOCALHOST) != 0, flags, port);
567 	ad = (flags & ISAD) != 0;
568 	*rcode = EX_OK;
569 	if (pttl != NULL)
570 		*pttl = SM_DEFAULT_TTL;
571 	if (*host == '\0')
572 		return 0;
573 # if DANE
574 	cname2mx = false;
575 	qname[0] = '\0';
576 	old_options = _res.options;
577 	if (ad)
578 		_res.options |= SM_RES_DNSSEC;
579 # endif
580 
581 	if ((fallbackMX != NULL && (flags & DROPLOCALHOST) != 0 &&
582 	     wordinclass(fallbackMX, 'w')) || (flags & TRYFALLBACK) == 0)
583 	{
584 		/* don't use fallback for this pass */
585 		fallbackMX = NULL;
586 	}
587 
588 	if (mxprefs != NULL)
589 		prefs = mxprefs;
590 	else
591 		prefs = prefer;
592 
593 	/* efficiency hack -- numeric or non-MX lookups */
594 	if (host[0] == '[')
595 		goto punt;
596 
597 # if DANE
598 	/*
599 	**  NOTE: This only works if nocanonify is used,
600 	**  otherwise the name is already rewritten.
601 	*/
602 
603 	/* always or only when "needed"? */
604 	if (DANE_ALWAYS == Dane || (ad && DANE_SECURE == Dane))
605 		(void) sm_strlcpy(qname, host, sizeof(qname));
606 # endif /* DANE */
607 
608 # if _FFR_EAI
609 	if (!addr_is_ascii(host))
610 	{
611 		char buf[1024];
612 		UErrorCode error = U_ZERO_ERROR;
613 		UIDNAInfo info = UIDNA_INFO_INITIALIZER;
614 		UIDNA *idna;
615 
616 		idna = uidna_openUTS46(UIDNA_NONTRANSITIONAL_TO_ASCII, &error);
617 		(void) uidna_nameToASCII_UTF8(idna, host, strlen(host),
618 					     buf, sizeof(buf) - 1,
619 					     &info, &error);
620 		uidna_close(idna);
621 		host = sm_rpool_strdup_x(CurEnv->e_rpool, buf);
622 	}
623 # endif /* _FFR_EAI */
624 
625 	/*
626 	**  If we don't have MX records in our host switch, don't
627 	**  try for MX records.  Note that this really isn't "right",
628 	**  since we might be set up to try NIS first and then DNS;
629 	**  if the host is found in NIS we really shouldn't be doing
630 	**  MX lookups.  However, that should be a degenerate case.
631 	*/
632 
633 	if (!UseNameServer)
634 		goto punt;
635 	if (HasWildcardMX && ConfigLevel >= 6)
636 		resfunc = res_query;
637 	else
638 		resfunc = res_search;
639 # if DNSSEC_TEST
640 	if (tTd(8, 110))
641 		resfunc = tstdns_search;
642 # endif
643 
644 	errno = 0;
645 	hp = (HEADER *)&answer;
646 	n = (*resfunc)(host, C_IN, T_MX, (unsigned char *) &answer,
647 		       sizeof(answer));
648 	if (n < 0)
649 	{
650 		if (tTd(8, 1))
651 # if DNSSEC_TEST
652 			sm_dprintf("getmxrr: res_search(%s) failed (errno=%d (%s), h_errno=%d (%s))\n",
653 				host, errno, strerror(errno),
654 				h_errno, herrno2txt(h_errno));
655 # else
656 			sm_dprintf("getmxrr: res_search(%s) failed, h_errno=%d\n",
657 				host, h_errno);
658 # endif
659 		switch (h_errno)
660 		{
661 		  case NO_DATA:
662 			trycanon = true;
663 			/* FALLTHROUGH */
664 
665 		  case NO_RECOVERY:
666 			/* no MX data on this host */
667 			goto punt;
668 
669 		  case HOST_NOT_FOUND:
670 # if BROKEN_RES_SEARCH
671 		  case 0: /* Ultrix resolver returns failure w/ h_errno=0 */
672 # endif
673 			/* host doesn't exist in DNS; might be in /etc/hosts */
674 			trycanon = true;
675 			*rcode = EX_NOHOST;
676 			goto punt;
677 
678 		  case TRY_AGAIN:
679 		  case -1:
680 			/* couldn't connect to the name server */
681 			if (fallbackMX != NULL)
682 			{
683 				/* name server is hosed -- push to fallback */
684 				nmx = fallbackmxrr(nmx, prefs, mxhosts);
685 				goto done;
686 			}
687 			/* it might come up later; better queue it up */
688 			*rcode = EX_TEMPFAIL;
689 			break;
690 
691 		  default:
692 			syserr("getmxrr: res_search (%s) failed with impossible h_errno (%d)",
693 				host, h_errno);
694 			*rcode = EX_OSERR;
695 			break;
696 		}
697 
698 		/* irreconcilable differences */
699 		goto error;
700 	}
701 
702 	ad = ad && hp->ad;
703 	if (tTd(8, 2))
704 		sm_dprintf("getmxrr(%s), hp=%p, ad=%d\n", host, (void*)hp, ad);
705 
706 	/* avoid problems after truncation in tcp packets */
707 	if (n > sizeof(answer))
708 		n = sizeof(answer);
709 
710 	/* find first satisfactory answer */
711 	cp = (unsigned char *)&answer + HFIXEDSZ;
712 	eom = (unsigned char *)&answer + n;
713 
714 	for (qdcount = ntohs((unsigned short) hp->qdcount);
715 	     qdcount--;
716 	     cp += n + QFIXEDSZ)
717 	{
718 		if ((n = dn_skipname(cp, eom)) < 0)
719 			goto punt;
720 	}
721 
722 	/* NOTE: see definition of MXHostBuf! */
723 	buflen = sizeof(MXHostBuf) - 1;
724 	SM_ASSERT(buflen > 0);
725 	bp = MXHostBuf;
726 	ancount = ntohs((unsigned short) hp->ancount);
727 
728 	/* See RFC 1035 for layout of RRs. */
729 	/* XXX leave room for FallbackMX ? */
730 	while (--ancount >= 0 && cp < eom && nmx < MAXMXHOSTS - 1)
731 	{
732 		if ((n = dn_expand((unsigned char *)&answer, eom, cp,
733 				   (RES_UNC_T) bp, buflen)) < 0)
734 			break;
735 		cp += n;
736 		GETSHORT(type, cp);
737 		cp += INT16SZ;		/* skip over class */
738 		GETLONG(ttl, cp);
739 		GETSHORT(n, cp);	/* rdlength */
740 # if DANE
741 		if (type == T_CNAME)
742 			cname2mx = true;
743 # endif
744 		if (type != T_MX)
745 		{
746 			if ((tTd(8, 8) || _res.options & RES_DEBUG)
747 # if DANE
748 			    && type != T_RRSIG
749 # endif
750 			    )
751 				sm_dprintf("unexpected answer type %s, size %d\n",
752 					dns_type_to_string(type), n);
753 			cp += n;
754 			continue;
755 		}
756 		GETSHORT(pref, cp);
757 		if ((n = dn_expand((unsigned char *)&answer, eom, cp,
758 				   (RES_UNC_T) bp, buflen)) < 0)
759 			break;
760 		cp += n;
761 		n = strlen(bp);
762 
763 		/* Support for RFC7505 "MX 0 ." */
764 		if (pref == 0 && *bp == '\0')
765 			seennullmx = true;
766 
767 		if (wordinclass(bp, 'w'))
768 		{
769 			if (tTd(8, 3))
770 				sm_dprintf("found localhost (%s) in MX list, pref=%d\n",
771 					bp, pref);
772 			if ((flags & DROPLOCALHOST) != 0)
773 			{
774 				if (!seenlocal || pref < localpref)
775 					localpref = pref;
776 				seenlocal = true;
777 				continue;
778 			}
779 			weight[nmx] = 0;
780 		}
781 		else
782 			weight[nmx] = mxrand(bp);
783 		prefs[nmx] = pref;
784 		mxhosts[nmx++] = bp;
785 # if DANE
786 		if (CHK_DANE(Dane) && port >= 0)
787 		{
788 			int nrr;
789 			unsigned long flags;
790 
791 			flags = ad ? TLSAFLADMX : TLSAFLNOADMX;
792 			nrr = gettlsa(bp, NULL, NULL, flags, ttl, port);
793 
794 			/* Only check qname if no TLSA RRs were found */
795 			if (0 == nrr && cname2mx && '\0' != qname[0] &&
796 			    strcmp(qname, bp))
797 				gettlsa(qname, bp, NULL, flags, ttl, port);
798 			/* XXX is this the right ad flag? */
799 		}
800 # endif
801 
802 		/*
803 		**  Note: n can be 0 for something like:
804 		**  host MX 0 .
805 		**  See RFC 7505
806 		*/
807 
808 		bp += n;
809 		if (0 == n || bp[-1] != '.')
810 		{
811 			*bp++ = '.';
812 			n++;
813 		}
814 		*bp++ = '\0';
815 		if (buflen < n + 1)
816 		{
817 			/* don't want to wrap buflen */
818 			break;
819 		}
820 		buflen -= n + 1;
821 	}
822 
823 	/* Support for RFC7505 "MX 0 ." */
824 	if (seennullmx && nmx == 1)
825 	{
826 		if (tTd(8, 4))
827 			sm_dprintf("getmxrr: Null MX record found, domain doesn't accept mail (RFC7505)\n");
828 		*rcode = EX_UNAVAILABLE;
829 		return NULLMX;
830 	}
831 
832 	/* return only one TTL entry, that should be sufficient */
833 	if (ttl > 0 && pttl != NULL)
834 		*pttl = ttl;
835 
836 	/* sort the records */
837 	for (i = 0; i < nmx; i++)
838 	{
839 		for (j = i + 1; j < nmx; j++)
840 		{
841 			if (prefs[i] > prefs[j] ||
842 			    (prefs[i] == prefs[j] && weight[i] > weight[j]))
843 			{
844 				register int temp;
845 				register char *temp1;
846 
847 				temp = prefs[i];
848 				prefs[i] = prefs[j];
849 				prefs[j] = temp;
850 				temp1 = mxhosts[i];
851 				mxhosts[i] = mxhosts[j];
852 				mxhosts[j] = temp1;
853 				temp = weight[i];
854 				weight[i] = weight[j];
855 				weight[j] = temp;
856 			}
857 		}
858 		if (seenlocal && prefs[i] >= localpref)
859 		{
860 			/* truncate higher preference part of list */
861 			nmx = i;
862 		}
863 	}
864 
865 	/* delete duplicates from list (yes, some bozos have duplicates) */
866 	for (i = 0; i < nmx - 1; )
867 	{
868 		if (sm_strcasecmp(mxhosts[i], mxhosts[i + 1]) != 0)
869 			i++;
870 		else
871 		{
872 			/* compress out duplicate */
873 			for (j = i + 1; j < nmx; j++)
874 			{
875 				mxhosts[j] = mxhosts[j + 1];
876 				prefs[j] = prefs[j + 1];
877 			}
878 			nmx--;
879 		}
880 	}
881 
882 	if (nmx == 0)
883 	{
884 punt:
885 		if (seenlocal)
886 		{
887 			struct hostent *h = NULL;
888 
889 			/*
890 			**  If we have deleted all MX entries, this is
891 			**  an error -- we should NEVER send to a host that
892 			**  has an MX, and this should have been caught
893 			**  earlier in the config file.
894 			**
895 			**  Some sites prefer to go ahead and try the
896 			**  A record anyway; that case is handled by
897 			**  setting TryNullMXList.  I believe this is a
898 			**  bad idea, but it's up to you....
899 			*/
900 
901 			if (TryNullMXList)
902 			{
903 				SM_SET_H_ERRNO(0);
904 				errno = 0;
905 				h = sm_gethostbyname(host, AF_INET);
906 				if (h == NULL)
907 				{
908 					if (errno == ETIMEDOUT ||
909 					    h_errno == TRY_AGAIN ||
910 					    (errno == ECONNREFUSED &&
911 					     UseNameServer))
912 					{
913 						*rcode = EX_TEMPFAIL;
914 						goto error;
915 					}
916 # if NETINET6
917 					SM_SET_H_ERRNO(0);
918 					errno = 0;
919 					h = sm_gethostbyname(host, AF_INET6);
920 					if (h == NULL &&
921 					    (errno == ETIMEDOUT ||
922 					     h_errno == TRY_AGAIN ||
923 					     (errno == ECONNREFUSED &&
924 					      UseNameServer)))
925 					{
926 						*rcode = EX_TEMPFAIL;
927 						goto error;
928 					}
929 # endif /* NETINET6 */
930 				}
931 			}
932 
933 			if (h == NULL)
934 			{
935 				*rcode = EX_CONFIG;
936 				syserr("MX list for %s points back to %s",
937 				       host, MyHostName);
938 				goto error;
939 			}
940 # if NETINET6
941 			freehostent(h);
942 			h = NULL;
943 # endif
944 		}
945 		if (strlen(host) >= sizeof(MXHostBuf))
946 		{
947 			*rcode = EX_CONFIG;
948 			syserr("Host name %s too long",
949 			       shortenstring(host, MAXSHORTSTR));
950 			goto error;
951 		}
952 		(void) sm_strlcpy(MXHostBuf, host, sizeof(MXHostBuf));
953 		mxhosts[0] = MXHostBuf;
954 		prefs[0] = 0;
955 		if (host[0] == '[')
956 		{
957 			register char *p;
958 # if NETINET6
959 			struct sockaddr_in6 tmp6;
960 # endif
961 
962 			/* this may be an MX suppression-style address */
963 			p = strchr(MXHostBuf, ']');
964 			if (p != NULL)
965 			{
966 				*p = '\0';
967 
968 				if (inet_addr(&MXHostBuf[1]) != INADDR_NONE)
969 				{
970 					nmx++;
971 					*p = ']';
972 				}
973 # if NETINET6
974 				else if (anynet_pton(AF_INET6, &MXHostBuf[1],
975 						     &tmp6.sin6_addr) == 1)
976 				{
977 					nmx++;
978 					*p = ']';
979 				}
980 # endif /* NETINET6 */
981 				else
982 				{
983 					trycanon = true;
984 					mxhosts[0]++;
985 				}
986 			}
987 		}
988 		if (trycanon &&
989 		    (n = getcanonname(mxhosts[0], sizeof(MXHostBuf) - 2, false,
990 				pttl)) != HOST_NOTFOUND)
991 		{
992 			/* XXX MXHostBuf == "" ?  is that possible? */
993 			bp = &MXHostBuf[strlen(MXHostBuf)];
994 			if (bp[-1] != '.')
995 			{
996 				*bp++ = '.';
997 				*bp = '\0';
998 			}
999 			nmx = 1;
1000 # if DANE
1001 			if (tTd(8, 3))
1002 				sm_dprintf("getmxrr=%s, getcanonname=%d\n",
1003 					mxhosts[0], n);
1004 			if (CHK_DANE(Dane) && port >= 0)
1005 			{
1006 				int nrr;
1007 				unsigned long flags;
1008 				unsigned int cttl;
1009 
1010 				if (pttl != NULL)
1011 					cttl = *pttl;
1012 				else if (ttl > 0)
1013 					cttl = ttl;
1014 				else
1015 					cttl = SM_DEFAULT_TTL;
1016 
1017 				flags = (ad && n == HOST_SECURE)
1018 					? TLSAFLADMX : TLSAFLNOADMX;
1019 				nrr = gettlsa(mxhosts[0], NULL, NULL, flags,
1020 						cttl, port);
1021 
1022 				/*
1023 				**  Only check qname if no TLSA RRs were found
1024 				**  XXX: what about (temp) DNS errors?
1025 				*/
1026 
1027 				if (0 == nrr && '\0' != qname[0] &&
1028 				    strcmp(qname, mxhosts[0]))
1029 					gettlsa(qname, mxhosts[0], NULL, flags,
1030 						cttl, port);
1031 				/* XXX is this the right ad flag? */
1032 			}
1033 # endif
1034 		}
1035 	}
1036 
1037 	/* if we have a default lowest preference, include that */
1038 	if (fallbackMX != NULL && !seenlocal)
1039 	{
1040 		/* TODO: DNSsec status of fallbacks */
1041 		nmx = fallbackmxrr(nmx, prefs, mxhosts);
1042 	}
1043     done:
1044 # if DANE
1045 	_res.options = old_options;
1046 # endif
1047 	return nmx;
1048 
1049    error:
1050 # if DANE
1051 	_res.options = old_options;
1052 # endif
1053 	return -1;
1054 }
1055 
1056 /*
1057 **  MXRAND -- create a randomizer for equal MX preferences
1058 **
1059 **	If two MX hosts have equal preferences we want to randomize
1060 **	the selection.  But in order for signatures to be the same,
1061 **	we need to randomize the same way each time.  This function
1062 **	computes a pseudo-random hash function from the host name.
1063 **
1064 **	Parameters:
1065 **		host -- the name of the host.
1066 **
1067 **	Returns:
1068 **		A random but repeatable value based on the host name.
1069 */
1070 
1071 static int
1072 mxrand(host)
1073 	register char *host;
1074 {
1075 	int hfunc;
1076 	static unsigned int seed;
1077 
1078 	if (seed == 0)
1079 	{
1080 		seed = (int) curtime() & 0xffff;
1081 		if (seed == 0)
1082 			seed++;
1083 	}
1084 
1085 	if (tTd(17, 9))
1086 		sm_dprintf("mxrand(%s)", host);
1087 
1088 	hfunc = seed;
1089 	while (*host != '\0')
1090 	{
1091 		int c = *host++;
1092 
1093 		if (isascii(c) && isupper(c))
1094 			c = tolower(c);
1095 		hfunc = ((hfunc << 1) ^ c) % 2003;
1096 	}
1097 
1098 	hfunc &= 0xff;
1099 	hfunc++;
1100 
1101 	if (tTd(17, 9))
1102 		sm_dprintf(" = %d\n", hfunc);
1103 	return hfunc;
1104 }
1105 /*
1106 **  BESTMX -- find the best MX for a name
1107 **
1108 **	This is really a hack, but I don't see any obvious way
1109 **	to generalize it at the moment.
1110 */
1111 
1112 /* ARGSUSED3 */
1113 char *
1114 bestmx_map_lookup(map, name, av, statp)
1115 	MAP *map;
1116 	char *name;
1117 	char **av;
1118 	int *statp;
1119 {
1120 	int nmx;
1121 	int saveopts = _res.options;
1122 	int i;
1123 	ssize_t len = 0;
1124 	char *result;
1125 	char *mxhosts[MAXMXHOSTS + 1];
1126 # if _FFR_BESTMX_BETTER_TRUNCATION
1127 	char *buf;
1128 # else
1129 	char *p;
1130 	char buf[PSBUFSIZE / 2];
1131 # endif
1132 
1133 	_res.options &= ~(RES_DNSRCH|RES_DEFNAMES);
1134 	nmx = getmxrr(name, mxhosts, NULL, 0, statp, NULL, -1);
1135 	_res.options = saveopts;
1136 	if (nmx <= 0)
1137 		return NULL;
1138 	if (bitset(MF_MATCHONLY, map->map_mflags))
1139 		return map_rewrite(map, name, strlen(name), NULL);
1140 	if ((map->map_coldelim == '\0') || (nmx == 1))
1141 		return map_rewrite(map, mxhosts[0], strlen(mxhosts[0]), av);
1142 
1143 	/*
1144 	**  We were given a -z flag (return all MXs) and there are multiple
1145 	**  ones.  We need to build them all into a list.
1146 	*/
1147 
1148 # if _FFR_BESTMX_BETTER_TRUNCATION
1149 	for (i = 0; i < nmx; i++)
1150 	{
1151 		if (strchr(mxhosts[i], map->map_coldelim) != NULL)
1152 		{
1153 			syserr("bestmx_map_lookup: MX host %.64s includes map delimiter character 0x%02X",
1154 			       mxhosts[i], map->map_coldelim);
1155 			return NULL;
1156 		}
1157 		len += strlen(mxhosts[i]) + 1;
1158 		if (len < 0)
1159 		{
1160 			len -= strlen(mxhosts[i]) + 1;
1161 			break;
1162 		}
1163 	}
1164 	buf = (char *) sm_malloc(len);
1165 	if (buf == NULL)
1166 	{
1167 		*statp = EX_UNAVAILABLE;
1168 		return NULL;
1169 	}
1170 	*buf = '\0';
1171 	for (i = 0; i < nmx; i++)
1172 	{
1173 		int end;
1174 
1175 		end = sm_strlcat(buf, mxhosts[i], len);
1176 		if (i != nmx && end + 1 < len)
1177 		{
1178 			buf[end] = map->map_coldelim;
1179 			buf[end + 1] = '\0';
1180 		}
1181 	}
1182 
1183 	/* Cleanly truncate for rulesets */
1184 	truncate_at_delim(buf, PSBUFSIZE / 2, map->map_coldelim);
1185 # else /* _FFR_BESTMX_BETTER_TRUNCATION */
1186 	p = buf;
1187 	for (i = 0; i < nmx; i++)
1188 	{
1189 		size_t slen;
1190 
1191 		if (strchr(mxhosts[i], map->map_coldelim) != NULL)
1192 		{
1193 			syserr("bestmx_map_lookup: MX host %.64s includes map delimiter character 0x%02X",
1194 			       mxhosts[i], map->map_coldelim);
1195 			return NULL;
1196 		}
1197 		slen = strlen(mxhosts[i]);
1198 		if (len + slen + 2 > sizeof(buf))
1199 			break;
1200 		if (i > 0)
1201 		{
1202 			*p++ = map->map_coldelim;
1203 			len++;
1204 		}
1205 		(void) sm_strlcpy(p, mxhosts[i], sizeof(buf) - len);
1206 		p += slen;
1207 		len += slen;
1208 	}
1209 # endif /* _FFR_BESTMX_BETTER_TRUNCATION */
1210 
1211 	result = map_rewrite(map, buf, len, av);
1212 # if _FFR_BESTMX_BETTER_TRUNCATION
1213 	sm_free(buf);
1214 # endif
1215 	return result;
1216 }
1217 /*
1218 **  DNS_GETCANONNAME -- get the canonical name for named host using DNS
1219 **
1220 **	This algorithm tries to be smart about wildcard MX records.
1221 **	This is hard to do because DNS doesn't tell is if we matched
1222 **	against a wildcard or a specific MX.
1223 **
1224 **	We always prefer A & CNAME records, since these are presumed
1225 **	to be specific.
1226 **
1227 **	If we match an MX in one pass and lose it in the next, we use
1228 **	the old one.  For example, consider an MX matching *.FOO.BAR.COM.
1229 **	A hostname bletch.foo.bar.com will match against this MX, but
1230 **	will stop matching when we try bletch.bar.com -- so we know
1231 **	that bletch.foo.bar.com must have been right.  This fails if
1232 **	there was also an MX record matching *.BAR.COM, but there are
1233 **	some things that just can't be fixed.
1234 **
1235 **	Parameters:
1236 **		host -- a buffer containing the name of the host.
1237 **			This is a value-result parameter.
1238 **		hbsize -- the size of the host buffer.
1239 **		trymx -- if set, try MX records as well as A and CNAME.
1240 **		statp -- pointer to place to store status.
1241 **		pttl -- pointer to return TTL (can be NULL).
1242 **
1243 **	Returns:
1244 **		>0 -- if the host was found.
1245 **		0 -- otherwise.
1246 */
1247 
1248 int
1249 dns_getcanonname(host, hbsize, trymx, statp, pttl)
1250 	char *host;
1251 	int hbsize;
1252 	bool trymx;
1253 	int *statp;
1254 	int *pttl;
1255 {
1256 	register unsigned char *eom, *ap;
1257 	register char *cp;
1258 	register int n;
1259 	HEADER *hp;
1260 	querybuf answer;
1261 	int ancount, qdcount, ret, type, qtype, initial, loopcnt, ttl, sli;
1262 	char **domain;
1263 	char *dp;
1264 	char *mxmatch;
1265 	bool amatch, gotmx, ad;
1266 	char nbuf[SM_MAX(MAXPACKET, MAXDNAME*2+2)];
1267 # if DNSSEC_TEST
1268 #  define ADDSL	1 /* NameSearchList may add another entry to searchlist! */
1269 # else
1270 #  define ADDSL	0
1271 # endif
1272 	char *searchlist[MAXDNSRCH + 2 + ADDSL];
1273 # define SLSIZE SM_ARRAY_SIZE(searchlist)
1274 	int (*resqdomain) __P((const char *, const char *, int, int, unsigned char *, int));
1275 # if DANE
1276 	unsigned long old_options = 0;
1277 # endif
1278 
1279 	ttl = 0;
1280 	gotmx = false;
1281 	ad = true;
1282 	if (tTd(8, 2))
1283 		sm_dprintf("dns_getcanonname(%s, trymx=%d)\n", host, trymx);
1284 
1285 	if ((_res.options & RES_INIT) == 0 && res_init() == -1)
1286 	{
1287 		*statp = EX_UNAVAILABLE;
1288 		return HOST_NOTFOUND;
1289 	}
1290 
1291 # if DANE
1292 	old_options = _res.options;
1293 	if (DANE_SECURE == Dane)
1294 		_res.options |= SM_RES_DNSSEC;
1295 # endif
1296 
1297 	*statp = EX_OK;
1298 	resqdomain = res_querydomain;
1299 # if DNSSEC_TEST
1300 	if (tTd(8, 110))
1301 		resqdomain = tstdns_querydomain;
1302 # endif
1303 
1304 	/*
1305 	**  Initialize domain search list.  If there is at least one
1306 	**  dot in the name, search the unmodified name first so we
1307 	**  find "vse.CS" in Czechoslovakia instead of in the local
1308 	**  domain (e.g., vse.CS.Berkeley.EDU).  Note that there is no
1309 	**  longer a country named Czechoslovakia but this type of problem
1310 	**  is still present.
1311 	**
1312 	**  Older versions of the resolver could create this
1313 	**  list by tearing apart the host name.
1314 	*/
1315 
1316 	loopcnt = 0;
1317 cnameloop:
1318 	/* Check for dots in the name */
1319 	for (cp = host, n = 0; *cp != '\0'; cp++)
1320 		if (*cp == '.')
1321 			n++;
1322 
1323 	/*
1324 	**  Build the search list.
1325 	**	If there is at least one dot in name, start with a null
1326 	**	domain to search the unmodified name first.
1327 	**	If name does not end with a dot and search up local domain
1328 	**	tree desired, append each local domain component to the
1329 	**	search list; if name contains no dots and default domain
1330 	**	name is desired, append default domain name to search list;
1331 	**	else if name ends in a dot, remove that dot.
1332 	*/
1333 
1334 	sli = 0;
1335 	if (n > 0)
1336 		searchlist[sli++] = "";
1337 # if DNSSEC_TEST
1338 	if (NameSearchList != NULL)
1339 	{
1340 		SM_ASSERT(sli < SLSIZE);
1341 		searchlist[sli++] = NameSearchList;
1342 	}
1343 # endif
1344 	if (n >= 0 && *--cp != '.' && bitset(RES_DNSRCH, _res.options))
1345 	{
1346 		/* make sure there are less than MAXDNSRCH domains */
1347 		for (domain = RES_DNSRCH_VARIABLE, ret = 0;
1348 		     *domain != NULL && ret < MAXDNSRCH && sli < SLSIZE;
1349 		     ret++)
1350 			searchlist[sli++] = *domain++;
1351 	}
1352 	else if (n == 0 && bitset(RES_DEFNAMES, _res.options))
1353 	{
1354 		SM_ASSERT(sli < SLSIZE);
1355 		searchlist[sli++] = _res.defdname;
1356 	}
1357 	else if (*cp == '.')
1358 	{
1359 		*cp = '\0';
1360 	}
1361 	SM_ASSERT(sli < SLSIZE);
1362 	searchlist[sli] = NULL;
1363 
1364 	/*
1365 	**  Now loop through the search list, appending each domain in turn
1366 	**  name and searching for a match.
1367 	*/
1368 
1369 	mxmatch = NULL;
1370 	initial = T_A;
1371 # if NETINET6
1372 	if (InetMode == AF_INET6)
1373 		initial = T_AAAA;
1374 # endif
1375 	qtype = initial;
1376 
1377 	for (sli = 0; sli < SLSIZE; )
1378 	{
1379 		dp = searchlist[sli];
1380 		if (NULL == dp)
1381 			break;
1382 		if (qtype == initial)
1383 			gotmx = false;
1384 		if (tTd(8, 5))
1385 			sm_dprintf("dns_getcanonname: trying %s.%s (%s)\n",
1386 				host, dp,
1387 # if NETINET6
1388 				qtype == T_AAAA ? "AAAA" :
1389 # endif
1390 				qtype == T_A ? "A" :
1391 				qtype == T_MX ? "MX" :
1392 				"???");
1393 		errno = 0;
1394 		hp = (HEADER *) &answer;
1395 		ret = (*resqdomain)(host, dp, C_IN, qtype,
1396 				      answer.qb2, sizeof(answer.qb2));
1397 		if (ret <= 0)
1398 		{
1399 			int save_errno = errno;
1400 
1401 			if (tTd(8, 7))
1402 				sm_dprintf("\tNO: errno=%d, h_errno=%d\n",
1403 					   save_errno, h_errno);
1404 
1405 			if (save_errno == ECONNREFUSED || h_errno == TRY_AGAIN)
1406 			{
1407 				/*
1408 				**  the name server seems to be down or broken.
1409 				*/
1410 
1411 				SM_SET_H_ERRNO(TRY_AGAIN);
1412 				if (*dp == '\0')
1413 				{
1414 					if (*statp == EX_OK)
1415 						*statp = EX_TEMPFAIL;
1416 					goto nexttype;
1417 				}
1418 				*statp = EX_TEMPFAIL;
1419 
1420 				if (WorkAroundBrokenAAAA)
1421 				{
1422 					/*
1423 					**  Only return if not TRY_AGAIN as an
1424 					**  attempt with a different qtype may
1425 					**  succeed (res_querydomain() calls
1426 					**  res_query() calls res_send() which
1427 					**  sets errno to ETIMEDOUT if the
1428 					**  nameservers could be contacted but
1429 					**  didn't give an answer).
1430 					*/
1431 
1432 					if (save_errno != ETIMEDOUT)
1433 						goto error;
1434 				}
1435 				else
1436 					goto error;
1437 			}
1438 
1439 nexttype:
1440 			if (h_errno != HOST_NOT_FOUND)
1441 			{
1442 				/* might have another type of interest */
1443 # if NETINET6
1444 				if (qtype == T_AAAA)
1445 				{
1446 					qtype = T_A;
1447 					continue;
1448 				}
1449 				else
1450 # endif /* NETINET6 */
1451 				if (qtype == T_A && !gotmx &&
1452 				    (trymx || *dp == '\0'))
1453 				{
1454 					qtype = T_MX;
1455 					continue;
1456 				}
1457 			}
1458 
1459 			/* definite no -- try the next domain */
1460 			sli++;
1461 			qtype = initial;
1462 			continue;
1463 		}
1464 		else if (tTd(8, 7))
1465 			sm_dprintf("\tYES\n");
1466 
1467 		/* avoid problems after truncation in tcp packets */
1468 		if (ret > sizeof(answer))
1469 			ret = sizeof(answer);
1470 		SM_ASSERT(ret >= 0);
1471 
1472 		/*
1473 		**  Appear to have a match.  Confirm it by searching for A or
1474 		**  CNAME records.  If we don't have a local domain
1475 		**  wild card MX record, we will accept MX as well.
1476 		*/
1477 
1478 		ap = (unsigned char *) &answer + HFIXEDSZ;
1479 		eom = (unsigned char *) &answer + ret;
1480 
1481 		if (0 == hp->ad)
1482 			ad = false;
1483 
1484 		/* skip question part of response -- we know what we asked */
1485 		for (qdcount = ntohs((unsigned short) hp->qdcount);
1486 		     qdcount--;
1487 		     ap += ret + QFIXEDSZ)
1488 		{
1489 			if ((ret = dn_skipname(ap, eom)) < 0)
1490 			{
1491 				if (tTd(8, 20))
1492 					sm_dprintf("qdcount failure (%d)\n",
1493 						ntohs((unsigned short) hp->qdcount));
1494 				*statp = EX_SOFTWARE;
1495 				goto error;
1496 			}
1497 		}
1498 
1499 		amatch = false;
1500 		for (ancount = ntohs((unsigned short) hp->ancount);
1501 		     --ancount >= 0 && ap < eom;
1502 		     ap += n)
1503 		{
1504 			n = dn_expand((unsigned char *) &answer, eom, ap,
1505 				      (RES_UNC_T) nbuf, sizeof(nbuf));
1506 			if (n < 0)
1507 				break;
1508 			ap += n;
1509 			GETSHORT(type, ap);
1510 			ap += INT16SZ;		/* skip over class */
1511 			GETLONG(ttl, ap);
1512 			GETSHORT(n, ap);	/* rdlength */
1513 			switch (type)
1514 			{
1515 			  case T_MX:
1516 				gotmx = true;
1517 				if (*dp != '\0' && HasWildcardMX)
1518 				{
1519 					/*
1520 					**  If we are using MX matches and have
1521 					**  not yet gotten one, save this one
1522 					**  but keep searching for an A or
1523 					**  CNAME match.
1524 					*/
1525 
1526 					if (trymx && mxmatch == NULL)
1527 						mxmatch = dp;
1528 					continue;
1529 				}
1530 
1531 				/*
1532 				**  If we did not append a domain name, this
1533 				**  must have been a canonical name to start
1534 				**  with.  Even if we did append a domain name,
1535 				**  in the absence of a wildcard MX this must
1536 				**  still be a real MX match.
1537 				**  Such MX matches are as good as an A match,
1538 				**  fall through.
1539 				*/
1540 				/* FALLTHROUGH */
1541 
1542 # if NETINET6
1543 			  case T_AAAA:
1544 # endif
1545 			  case T_A:
1546 				/* Flag that a good match was found */
1547 				amatch = true;
1548 
1549 				/* continue in case a CNAME also exists */
1550 				continue;
1551 
1552 			  case T_CNAME:
1553 				if (DontExpandCnames)
1554 				{
1555 					/* got CNAME -- guaranteed canonical */
1556 					amatch = true;
1557 					break;
1558 				}
1559 
1560 				if (loopcnt++ > MAXCNAMEDEPTH)
1561 				{
1562 					/*XXX should notify postmaster XXX*/
1563 					message("DNS failure: CNAME loop for %s",
1564 						host);
1565 					if (CurEnv->e_message == NULL)
1566 					{
1567 						char ebuf[MAXLINE];
1568 
1569 						(void) sm_snprintf(ebuf,
1570 							sizeof(ebuf),
1571 							"Deferred: DNS failure: CNAME loop for %.100s",
1572 							host);
1573 						CurEnv->e_message =
1574 						    sm_rpool_strdup_x(
1575 							CurEnv->e_rpool, ebuf);
1576 					}
1577 					SM_SET_H_ERRNO(NO_RECOVERY);
1578 					*statp = EX_CONFIG;
1579 					goto error;
1580 				}
1581 
1582 				/* value points at name */
1583 				if ((ret = dn_expand((unsigned char *)&answer,
1584 						     eom, ap, (RES_UNC_T) nbuf,
1585 						     sizeof(nbuf))) < 0)
1586 					break;
1587 				(void) sm_strlcpy(host, nbuf, hbsize);
1588 
1589 				/*
1590 				**  RFC 1034 section 3.6 specifies that CNAME
1591 				**  should point at the canonical name -- but
1592 				**  urges software to try again anyway.
1593 				*/
1594 
1595 				goto cnameloop;
1596 
1597 			  default:
1598 				/* not a record of interest */
1599 				continue;
1600 			}
1601 		}
1602 
1603 		if (amatch)
1604 		{
1605 			/*
1606 			**  Got a good match -- either an A, CNAME, or an
1607 			**  exact MX record.  Save it and get out of here.
1608 			*/
1609 
1610 			mxmatch = dp;
1611 			break;
1612 		}
1613 
1614 		/*
1615 		**  Nothing definitive yet.
1616 		**	If this was a T_A query and we haven't yet found a MX
1617 		**		match, try T_MX if allowed to do so.
1618 		**	Otherwise, try the next domain.
1619 		*/
1620 
1621 # if NETINET6
1622 		if (qtype == T_AAAA)
1623 			qtype = T_A;
1624 		else
1625 # endif
1626 		if (qtype == T_A && !gotmx && (trymx || *dp == '\0'))
1627 			qtype = T_MX;
1628 		else
1629 		{
1630 			qtype = initial;
1631 			sli++;
1632 		}
1633 	}
1634 
1635 	/* if nothing was found, we are done */
1636 	if (mxmatch == NULL)
1637 	{
1638 		if (*statp == EX_OK)
1639 			*statp = EX_NOHOST;
1640 		goto error;
1641 	}
1642 
1643 	/*
1644 	**  Create canonical name and return.
1645 	**  If saved domain name is null, name was already canonical.
1646 	**  Otherwise append the saved domain name.
1647 	*/
1648 
1649 	(void) sm_snprintf(nbuf, sizeof(nbuf), "%.*s%s%.*s", MAXDNAME, host,
1650 			   *mxmatch == '\0' ? "" : ".",
1651 			   MAXDNAME, mxmatch);
1652 	(void) sm_strlcpy(host, nbuf, hbsize);
1653 	if (tTd(8, 5))
1654 		sm_dprintf("dns_getcanonname: %s\n", host);
1655 	*statp = EX_OK;
1656 
1657 	/* return only one TTL entry, that should be sufficient */
1658 	if (ttl > 0 && pttl != NULL)
1659 		*pttl = ttl;
1660 # if DANE
1661 	_res.options = old_options;
1662 # endif
1663 	return ad ? HOST_SECURE : HOST_OK;
1664 
1665   error:
1666 # if DANE
1667 	_res.options = old_options;
1668 # endif
1669 	return HOST_NOTFOUND;
1670 }
1671 
1672 #endif /* NAMED_BIND */
1673