3 * - overall query management (allocation, completion)
4 * - per-query memory management
5 * - query submission and cancellation (user-visible and internal)
9 * Copyright (C) 1997-2000 Ian Jackson <ian@davenant.greenend.org.uk>
11 * It is part of adns, which is
12 * Copyright (C) 1997-2000 Ian Jackson <ian@davenant.greenend.org.uk>
13 * Copyright (C) 1999-2000 Tony Finch <dot@dotat.at>
15 * This program is free software; you can redistribute it and/or modify
16 * it under the terms of the GNU General Public License as published by
17 * the Free Software Foundation; either version 2, or (at your option)
20 * This program is distributed in the hope that it will be useful,
21 * but WITHOUT ANY WARRANTY; without even the implied warranty of
22 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
23 * GNU General Public License for more details.
25 * You should have received a copy of the GNU General Public License
26 * along with this program; if not, write to the Free Software Foundation,
27 * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
40 static adns_query
query_alloc(adns_state ads
, const typeinfo
*typei
,
41 adns_queryflags flags
, struct timeval now
) {
42 /* Allocate a virgin query and return it. */
45 qu
= malloc(sizeof(*qu
)); if (!qu
) return 0;
46 qu
->answer
= malloc(sizeof(*qu
->answer
));
47 if (!qu
->answer
) { free(qu
); return 0; }
50 qu
->state
= query_tosend
;
51 qu
->back
= qu
->next
= qu
->parent
= 0;
52 LIST_INIT(qu
->children
);
53 LINK_INIT(qu
->siblings
);
54 LIST_INIT(qu
->allocations
);
55 qu
->interim_allocd
= 0;
56 qu
->preserved_allocd
= 0;
57 qu
->final_allocspace
= 0;
62 adns__vbuf_init(&qu
->vb
);
65 qu
->cname_dglen
= qu
->cname_begin
= 0;
67 adns__vbuf_init(&qu
->search_vb
);
68 qu
->search_origlen
= qu
->search_pos
= qu
->search_doneabs
= 0;
70 qu
->id
= -2; /* will be overwritten with real id before we leave adns */
75 timerclear(&qu
->timeout
);
76 qu
->expires
= now
.tv_sec
+ MAXTTLBELIEVE
;
78 memset(&qu
->ctx
,0,sizeof(qu
->ctx
));
80 qu
->answer
->status
= adns_s_ok
;
81 qu
->answer
->cname
= qu
->answer
->owner
= 0;
82 qu
->answer
->type
= typei
->type
;
83 qu
->answer
->expires
= -1;
85 qu
->answer
->rrs
.untyped
= 0;
86 qu
->answer
->rrsz
= typei
->rrsz
;
91 static void query_submit(adns_state ads
, adns_query qu
,
92 const typeinfo
*typei
, vbuf
*qumsg_vb
, int id
,
93 adns_queryflags flags
, struct timeval now
) {
94 /* Fills in the query message in for a previously-allocated query,
95 * and submits it. Cannot fail. Takes over the memory for qumsg_vb.
99 adns__vbuf_init(qumsg_vb
);
101 qu
->query_dgram
= malloc(qu
->vb
.used
);
102 if (!qu
->query_dgram
) { adns__query_fail(qu
,adns_s_nomemory
); return; }
105 qu
->query_dglen
= qu
->vb
.used
;
106 memcpy(qu
->query_dgram
,qu
->vb
.buf
,qu
->vb
.used
);
108 adns__query_send(qu
,now
);
111 adns_status
adns__internal_submit(adns_state ads
, adns_query
*query_r
,
112 const typeinfo
*typei
, vbuf
*qumsg_vb
,
114 adns_queryflags flags
, struct timeval now
,
115 const qcontext
*ctx
) {
118 qu
= query_alloc(ads
,typei
,flags
,now
);
119 if (!qu
) { adns__vbuf_free(qumsg_vb
); return adns_s_nomemory
; }
122 memcpy(&qu
->ctx
,ctx
,sizeof(qu
->ctx
));
123 query_submit(ads
,qu
, typei
,qumsg_vb
,id
,flags
,now
);
128 static void query_simple(adns_state ads
, adns_query qu
,
129 const char *owner
, int ol
,
130 const typeinfo
*typei
, adns_queryflags flags
,
131 struct timeval now
) {
136 stat
= adns__mkquery(ads
,&qu
->vb
,&id
, owner
,ol
, typei
,flags
);
138 if (stat
== adns_s_querydomaintoolong
&& (flags
& adns_qf_search
)) {
139 adns__search_next(ads
,qu
,now
);
142 adns__query_fail(qu
,stat
);
148 adns__vbuf_init(&qu
->vb
);
149 query_submit(ads
,qu
, typei
,&vb_new
,id
, flags
,now
);
152 void adns__search_next(adns_state ads
, adns_query qu
, struct timeval now
) {
153 const char *nextentry
;
156 if (qu
->search_doneabs
<0) {
158 qu
->search_doneabs
= 1;
160 if (qu
->search_pos
>= ads
->nsearchlist
) {
161 if (qu
->search_doneabs
) {
162 qu
->search_vb
.used
= qu
->search_origlen
;
163 stat
= adns_s_nxdomain
; goto x_fail
;
166 qu
->search_doneabs
= 1;
169 nextentry
= ads
->searchlist
[qu
->search_pos
++];
173 qu
->search_vb
.used
= qu
->search_origlen
;
175 if (!adns__vbuf_append(&qu
->search_vb
,".",1) ||
176 !adns__vbuf_appendstr(&qu
->search_vb
,nextentry
))
180 free(qu
->query_dgram
);
181 qu
->query_dgram
= 0; qu
->query_dglen
= 0;
183 query_simple(ads
,qu
, qu
->search_vb
.buf
, qu
->search_vb
.used
,
184 qu
->typei
, qu
->flags
, now
);
188 stat
= adns_s_nomemory
;
190 adns__query_fail(qu
,stat
);
193 static int save_owner(adns_query qu
, const char *owner
, int ol
) {
194 /* Returns 1 if OK, otherwise there was no memory. */
197 if (!(qu
->flags
& adns_qf_owner
)) return 1;
202 ans
->owner
= adns__alloc_preserved(qu
,ol
+1); if (!ans
->owner
) return 0;
204 memcpy(ans
->owner
,owner
,ol
);
209 int adns_submit(adns_state ads
,
212 adns_queryflags flags
,
214 adns_query
*query_r
) {
217 const typeinfo
*typei
;
222 adns__consistency(ads
,0,cc_entex
);
224 typei
= adns__findtype(type
);
225 if (!typei
) return ENOSYS
;
227 r
= gettimeofday(&now
,0); if (r
) goto x_errno
;
228 qu
= query_alloc(ads
,typei
,flags
,now
); if (!qu
) goto x_errno
;
230 qu
->ctx
.ext
= context
;
232 memset(&qu
->ctx
.info
,0,sizeof(qu
->ctx
.info
));
237 if (!ol
) { stat
= adns_s_querydomaininvalid
; goto x_adnsfail
; }
238 if (ol
>DNS_MAXDOMAIN
+1) { stat
= adns_s_querydomaintoolong
; goto x_adnsfail
; }
240 if (ol
>=1 && owner
[ol
-1]=='.' && (ol
<2 || owner
[ol
-2]!='\\')) {
241 flags
&= ~adns_qf_search
;
246 if (flags
& adns_qf_search
) {
247 r
= adns__vbuf_append(&qu
->search_vb
,owner
,ol
);
248 if (!r
) { stat
= adns_s_nomemory
; goto x_adnsfail
; }
250 for (ndots
=0, p
=owner
; (p
= strchr(p
,'.')); p
++, ndots
++);
251 qu
->search_doneabs
= (ndots
>= ads
->searchndots
) ?
-1 : 0;
252 qu
->search_origlen
= ol
;
253 adns__search_next(ads
,qu
,now
);
255 if (flags
& adns_qf_owner
) {
256 if (!save_owner(qu
,owner
,ol
)) { stat
= adns_s_nomemory
; goto x_adnsfail
; }
258 query_simple(ads
,qu
, owner
,ol
, typei
,flags
, now
);
260 adns__autosys(ads
,now
);
261 adns__consistency(ads
,qu
,cc_entex
);
265 adns__query_fail(qu
,stat
);
266 adns__consistency(ads
,qu
,cc_entex
);
272 adns__consistency(ads
,0,cc_entex
);
276 int adns_submit_reverse_any(adns_state ads
,
277 const struct sockaddr
*addr
,
280 adns_queryflags flags
,
282 adns_query
*query_r
) {
283 const unsigned char *iaddr
;
284 char *buf
, *buf_free
;
288 flags
&= ~adns_qf_search
;
290 if (addr
->sa_family
!= AF_INET
) return ENOSYS
;
291 iaddr
= (const unsigned char*)
292 &(((const struct sockaddr_in
*)addr
) -> sin_addr
);
294 lreq
= strlen(zone
) + 4*4 + 1;
295 if (lreq
> sizeof(shortbuf
)) {
296 buf
= malloc(strlen(zone
) + 4*4 + 1);
297 if (!buf
) return errno
;
303 sprintf(buf
, "%d.%d.%d.%d.%s", iaddr
[3], iaddr
[2], iaddr
[1], iaddr
[0], zone
);
305 r
= adns_submit(ads
,buf
,type
,flags
,context
,query_r
);
310 int adns_submit_reverse(adns_state ads
,
311 const struct sockaddr
*addr
,
313 adns_queryflags flags
,
315 adns_query
*query_r
) {
316 if (type
!= adns_r_ptr
&& type
!= adns_r_ptr_raw
) return EINVAL
;
317 return adns_submit_reverse_any(ads
,addr
,"in-addr.arpa",
318 type
,flags
,context
,query_r
);
321 int adns_synchronous(adns_state ads
,
324 adns_queryflags flags
,
325 adns_answer
**answer_r
) {
329 r
= adns_submit(ads
,owner
,type
,flags
,0,&qu
);
332 r
= adns_wait(ads
,&qu
,answer_r
,0);
333 if (r
) adns_cancel(qu
);
338 static void *alloc_common(adns_query qu
, size_t sz
) {
341 if (!sz
) return qu
; /* Any old pointer will do */
342 assert(!qu
->final_allocspace
);
343 an
= malloc(MEM_ROUND(MEM_ROUND(sizeof(*an
)) + sz
));
345 LIST_LINK_TAIL(qu
->allocations
,an
);
346 return (byte
*)an
+ MEM_ROUND(sizeof(*an
));
349 void *adns__alloc_interim(adns_query qu
, size_t sz
) {
353 rv
= alloc_common(qu
,sz
);
355 qu
->interim_allocd
+= sz
;
359 void *adns__alloc_preserved(adns_query qu
, size_t sz
) {
363 rv
= adns__alloc_interim(qu
,sz
);
365 qu
->preserved_allocd
+= sz
;
369 void *adns__alloc_mine(adns_query qu
, size_t sz
) {
370 return alloc_common(qu
,MEM_ROUND(sz
));
373 void adns__transfer_interim(adns_query from
, adns_query to
,
374 void *block
, size_t sz
) {
378 an
= (void*)((byte
*)block
- MEM_ROUND(sizeof(*an
)));
380 assert(!to
->final_allocspace
);
381 assert(!from
->final_allocspace
);
383 LIST_UNLINK(from
->allocations
,an
);
384 LIST_LINK_TAIL(to
->allocations
,an
);
387 from
->interim_allocd
-= sz
;
388 to
->interim_allocd
+= sz
;
390 if (to
->expires
> from
->expires
) to
->expires
= from
->expires
;
393 void *adns__alloc_final(adns_query qu
, size_t sz
) {
394 /* When we're in the _final stage, we _subtract_ from interim_alloc'd
395 * each allocation, and use final_allocspace to point to the next free
401 rp
= qu
->final_allocspace
;
403 qu
->interim_allocd
-= sz
;
404 assert(qu
->interim_allocd
>=0);
405 qu
->final_allocspace
= (byte
*)rp
+ sz
;
409 static void cancel_children(adns_query qu
) {
410 adns_query cqu
, ncqu
;
412 for (cqu
= qu
->children
.head
; cqu
; cqu
= ncqu
) {
413 ncqu
= cqu
->siblings
.next
;
418 void adns__reset_preserved(adns_query qu
) {
419 assert(!qu
->final_allocspace
);
422 qu
->answer
->rrs
.untyped
= 0;
423 qu
->interim_allocd
= qu
->preserved_allocd
;
426 static void free_query_allocs(adns_query qu
) {
430 for (an
= qu
->allocations
.head
; an
; an
= ann
) { ann
= an
->next
; free(an
); }
431 LIST_INIT(qu
->allocations
);
432 adns__vbuf_free(&qu
->vb
);
433 adns__vbuf_free(&qu
->search_vb
);
434 free(qu
->query_dgram
);
438 void adns_cancel(adns_query qu
) {
442 adns__consistency(ads
,qu
,cc_entex
);
443 if (qu
->parent
) LIST_UNLINK_PART(qu
->parent
->children
,qu
,siblings
.);
446 LIST_UNLINK(ads
->udpw
,qu
);
449 LIST_UNLINK(ads
->tcpw
,qu
);
452 LIST_UNLINK(ads
->childw
,qu
);
455 LIST_UNLINK(ads
->output
,qu
);
460 free_query_allocs(qu
);
463 adns__consistency(ads
,0,cc_entex
);
466 void adns__update_expires(adns_query qu
, unsigned long ttl
,
467 struct timeval now
) {
470 assert(ttl
<= MAXTTLBELIEVE
);
471 max
= now
.tv_sec
+ ttl
;
472 if (qu
->expires
< max
) return;
476 static void makefinal_query(adns_query qu
) {
482 if (qu
->interim_allocd
) {
483 ans
= realloc(qu
->answer
,
484 MEM_ROUND(MEM_ROUND(sizeof(*ans
)) + qu
->interim_allocd
));
485 if (!ans
) goto x_nomem
;
489 qu
->final_allocspace
= (byte
*)ans
+ MEM_ROUND(sizeof(*ans
));
490 adns__makefinal_str(qu
,&ans
->cname
);
491 adns__makefinal_str(qu
,&ans
->owner
);
494 adns__makefinal_block(qu
, &ans
->rrs
.untyped
, ans
->nrrs
*ans
->rrsz
);
496 for (rrn
=0; rrn
<ans
->nrrs
; rrn
++)
497 qu
->typei
->makefinal(qu
, ans
->rrs
.bytes
+ rrn
*ans
->rrsz
);
500 free_query_allocs(qu
);
504 qu
->preserved_allocd
= 0;
505 qu
->answer
->cname
= 0;
506 qu
->answer
->owner
= 0;
507 adns__reset_preserved(qu
); /* (but we just threw away the preserved stuff) */
509 qu
->answer
->status
= adns_s_nomemory
;
510 free_query_allocs(qu
);
513 void adns__query_done(adns_query qu
) {
522 if (qu
->flags
& adns_qf_search
&& ans
->status
!= adns_s_nomemory
) {
523 if (!save_owner(qu
, qu
->search_vb
.buf
, qu
->search_vb
.used
)) {
524 adns__query_fail(qu
,adns_s_nomemory
);
529 if (ans
->nrrs
&& qu
->typei
->diff_needswap
) {
530 if (!adns__vbuf_ensure(&qu
->vb
,qu
->typei
->rrsz
)) {
531 adns__query_fail(qu
,adns_s_nomemory
);
534 adns__isort(ans
->rrs
.bytes
, ans
->nrrs
, ans
->rrsz
,
536 (int(*)(void*, const void*, const void*))
537 qu
->typei
->diff_needswap
,
540 if (ans
->nrrs
&& qu
->typei
->postsort
) {
541 qu
->typei
->postsort(qu
->ads
, ans
->rrs
.bytes
, ans
->nrrs
, qu
->typei
);
544 ans
->expires
= qu
->expires
;
547 LIST_UNLINK_PART(parent
->children
,qu
,siblings
.);
548 LIST_UNLINK(qu
->ads
->childw
,parent
);
549 qu
->ctx
.callback(parent
,qu
);
550 free_query_allocs(qu
);
555 LIST_LINK_TAIL(qu
->ads
->output
,qu
);
556 qu
->state
= query_done
;
560 void adns__query_fail(adns_query qu
, adns_status stat
) {
561 adns__reset_preserved(qu
);
562 qu
->answer
->status
= stat
;
563 adns__query_done(qu
);
566 void adns__makefinal_str(adns_query qu
, char **strp
) {
568 char *before
, *after
;
573 after
= adns__alloc_final(qu
,l
);
574 memcpy(after
,before
,l
);
578 void adns__makefinal_block(adns_query qu
, void **blpp
, size_t sz
) {
579 void *before
, *after
;
583 after
= adns__alloc_final(qu
,sz
);
584 memcpy(after
,before
,sz
);