f98540cb7cc8785e131ad8746be615b8e3a149f8
3 * - main handling and parsing routine for received datagrams
6 * This file is part of adns, which is Copyright (C) 1997, 1998 Ian Jackson
8 * This program is free software; you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License as published by
10 * the Free Software Foundation; either version 2, or (at your option)
13 * This program is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 * GNU General Public License for more details.
18 * You should have received a copy of the GNU General Public License
19 * along with this program; if not, write to the Free Software Foundation,
20 * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
25 static void cname_recurse(adns_query qu
, adns_queryflags xflags
) {
29 void adns__procdgram(adns_state ads
, const byte
*dgram
, int dglen
,
30 int serv
, struct timeval now
) {
31 int cbyte
, rrstart
, wantedrrs
, rri
, foundsoa
, foundns
;
32 int id
, f1
, f2
, qdcount
, ancount
, nscount
, arcount
;
33 int flg_ra
, flg_rd
, flg_tc
, flg_qr
, opcode
;
34 int rrtype
, rrclass
, rdlength
, rdstart
, ownermatched
, l
;
35 int anstart
, nsstart
, arstart
;
40 if (dglen
<DNS_HDRSIZE
) {
41 adns__diag(ads
,serv
,0,"received datagram too short for message header (%d)",dglen
);
52 assert(cbyte
== DNS_HDRSIZE
);
60 /* fixme: change this to f2 (which is where rcode really is), BUT
61 * not until we've figured out why the error code is wrong (bad format code 203)
65 adns__diag(ads
,serv
,0,"server sent us a query, not a response");
69 adns__diag(ads
,serv
,0,"server sent us unknown opcode %d (wanted 0=QUERY)",opcode
);
73 adns__diag(ads
,serv
,0,"server sent reply without quoting our question");
75 } else if (qdcount
>1) {
76 adns__diag(ads
,serv
,0,"server claimed to answer %d questions with one message",
80 for (qu
= ads
->timew
.head
; qu
; qu
= nqu
) {
82 if (qu
->id
!= id
) continue;
83 if (dglen
< qu
->query_dglen
) continue;
84 if (memcmp(qu
->query_dgram
+DNS_HDRSIZE
,
86 qu
->query_dglen
-DNS_HDRSIZE
))
90 anstart
= qu
->query_dglen
;
92 adns__debug(ads
,serv
,0,"reply not found (id=%02x)",id
);
96 LIST_UNLINK(ads
->timew
,qu
);
97 /* We're definitely going to do something with this query now */
103 case rcode_formaterror
:
104 adns__warn(ads
,serv
,qu
,"server cannot understand our query (Format Error)");
105 adns__query_fail(qu
,adns_s_serverfaulty
);
108 adns__query_fail(qu
,adns_s_servfail
);
111 adns__warn(ads
,serv
,qu
,"server claims not to implement our query");
112 adns__query_fail(qu
,adns_s_notimplemented
);
115 adns__warn(ads
,serv
,qu
,"server refused our query");
116 adns__query_fail(qu
,adns_s_refused
);
119 adns__warn(ads
,serv
,qu
,"server gave unknown response code %d",rcode
);
120 adns__query_fail(qu
,adns_s_reasonunknown
);
124 /* Now, take a look at the answer section, and see if it is complete.
125 * If it has any CNAMEs we stuff them in the answer.
128 for (rri
= 0; rri
<ancount
; rri
++) {
130 st
= adns__findrr(qu
,serv
, dgram
,dglen
,&cbyte
,
131 &rrtype
,&rrclass
,&rdlength
,&rdstart
,
133 if (st
) adns__query_fail(qu
,st
);
134 if (rrtype
== -1) goto x_truncated
;
136 if (rrclass
!= DNS_CLASS_IN
) {
137 adns__diag(ads
,serv
,qu
,"ignoring answer RR with wrong class %d (expected IN=%d)",
138 rrclass
,DNS_CLASS_IN
);
142 if (ads
->iflags
& adns_if_debug
) {
143 adns__debug(ads
,serv
,qu
,"ignoring RR with an unexpected owner %s",
144 adns__diag_domain(ads
,serv
,qu
, &qu
->vb
,qu
->flags
,
145 dgram
,dglen
,rrstart
));
149 if (rrtype
== adns_r_cname
&&
150 (qu
->typei
->type
& adns__rrt_typemask
) != adns_r_cname
) {
151 if (!qu
->cname_dgram
) { /* Ignore second and subsequent CNAMEs */
152 qu
->cname_dgram
= adns__alloc_mine(qu
,dglen
);
153 if (!qu
->cname_dgram
) return;
154 qu
->cname_begin
= rdstart
;
155 qu
->cname_dglen
= dglen
;
156 st
= adns__parse_domain(ads
,serv
,qu
, &qu
->vb
,qu
->flags
,
157 dgram
,dglen
, &rdstart
,rdstart
+rdlength
);
158 if (!qu
->vb
.used
) goto x_truncated
;
159 if (st
) { adns__query_fail(qu
,st
); return; }
160 l
= strlen(qu
->vb
.buf
)+1;
161 qu
->answer
->cname
= adns__alloc_interim(qu
,l
);
162 if (!qu
->answer
->cname
) return;
163 memcpy(qu
->answer
->cname
,qu
->vb
.buf
,l
);
164 /* If we find the answer section truncated after this point we restart
165 * the query at the CNAME; if beforehand then we obviously have to use
166 * TCP. If there is no truncation we can use the whole answer if
167 * it contains the relevant info.
170 adns__debug(ads
,serv
,qu
,"ignoring duplicate CNAME (%s, as well as %s)",
171 adns__diag_domain(ads
,serv
,qu
, &qu
->vb
,qu
->flags
,
172 dgram
,dglen
,rdstart
),
175 } else if (rrtype
== (qu
->typei
->type
& adns__rrt_typemask
)) {
178 adns__debug(ads
,serv
,qu
,"ignoring answer RR with irrelevant type %d",rrtype
);
182 /* If we got here then the answer section is intact. */
186 /* Oops, NODATA or NXDOMAIN or perhaps a referral (which would be a problem) */
188 if (rcode
== rcode_nxdomain
) {
189 adns__query_fail(qu
,adns_s_nxdomain
);
193 /* RFC2308: NODATA has _either_ a SOA _or_ _no_ NS records in authority section */
194 foundsoa
= 0; foundns
= 0;
195 for (rri
= 0; rri
<nscount
; rri
++) {
197 st
= adns__findrr(qu
,serv
, dgram
,dglen
,&cbyte
,
198 &rrtype
,&rrclass
,&rdlength
,&rdstart
, 0);
199 if (st
) { adns__query_fail(qu
,st
); return; }
200 if (rrtype
==-1) goto x_truncated
;
201 if (rrclass
!= DNS_CLASS_IN
) {
202 adns__diag(ads
,serv
,qu
,
203 "ignoring authority RR with wrong class %d (expected IN=%d)",
204 rrclass
,DNS_CLASS_IN
);
207 if (rrtype
== adns_r_soa_raw
) { foundsoa
= 1; break; }
208 else if (rrtype
== adns_r_ns_raw
) { foundns
= 1; }
211 if (foundsoa
|| !foundns
) {
212 /* Aha ! A NODATA response, good. */
213 adns__query_fail(qu
,adns_s_nodata
);
217 /* Now what ? No relevant answers, no SOA, and at least some NS's.
218 * Looks like a referral. Just one last chance ... if we came across
219 * a CNAME in this datagram then we should probably do our own CNAME
220 * lookup now in the hope that we won't get a referral again.
222 if (qu
->cname_dgram
== dgram
) { cname_recurse(qu
,0); return; }
224 /* Bloody hell, I thought we asked for recursion ? */
226 adns__diag(ads
,serv
,qu
,"server thinks we didn't ask for recursive lookup");
229 adns__diag(ads
,serv
,qu
,"server is not willing to do recursive lookups for us");
230 adns__query_fail(qu
,adns_s_norecurse
);
232 adns__diag(ads
,serv
,qu
,"server claims to do recursion, but gave us a referral");
233 adns__query_fail(qu
,adns_s_serverfaulty
);
238 /* Now, we have some RRs which we wanted. */
240 qu
->answer
->rrs
.untyped
= adns__alloc_interim(qu
,qu
->typei
->rrsz
*wantedrrs
);
241 if (!qu
->answer
->rrs
.untyped
) return;
245 for (rri
=0; rri
<ancount
; rri
++) {
246 st
= adns__findrr(qu
,serv
, dgram
,dglen
,&cbyte
,
247 &rrtype
,&rrclass
,&rdlength
,&rdstart
,
249 assert(!st
); assert(rrtype
!= -1);
250 if (rrclass
!= DNS_CLASS_IN
||
251 rrtype
!= (qu
->typei
->type
& adns__rrt_typemask
) ||
254 assert(qu
->answer
->nrrs
<wantedrrs
);
255 st
= qu
->typei
->parse(qu
,serv
,
256 dgram
,dglen
, rdstart
,rdstart
+rdlength
,
257 qu
->answer
->rrs
.bytes
+qu
->answer
->nrrs
*qu
->typei
->rrsz
);
258 if (st
) { adns__query_fail(qu
,st
); return; }
259 if (rdstart
==-1) goto x_truncated
;
262 /* This may have generated some child queries ... */
263 if (qu
->children
.head
) {
264 qu
->state
= query_child
;
265 LIST_LINK_TAIL(ads
->childw
,qu
);
269 adns__query_done(qu
);
274 adns__diag(ads
,serv
,qu
,"server sent datagram which points outside itself");
275 adns__query_fail(qu
,adns_s_serverfaulty
);
278 if (qu
->cname_dgram
) { cname_recurse(qu
,adns_qf_usevc
); return; }
279 adns__reset_cnameonly(qu
);
280 qu
->flags
|= adns_qf_usevc
;
281 adns__query_udp(qu
,now
);