xref: /freebsd/contrib/ldns/ldns/resolver.h (revision 5afab0e5e56fe90a378fb57249600e7924e1cab2)
1 /*
2  * resolver.h
3  *
4  * DNS Resolver definitions
5  *
6  * a Net::DNS like library for C
7  *
8  * (c) NLnet Labs, 2005-2006
9  *
10  * See the file LICENSE for the license
11  */
12 
13 /**
14  * \file
15  *
16  * Defines the  ldns_resolver structure, a stub resolver that can send queries and parse answers.
17  *
18  */
19 
20 #ifndef LDNS_RESOLVER_H
21 #define LDNS_RESOLVER_H
22 
23 #include <ldns/error.h>
24 #include <ldns/common.h>
25 #include <ldns/rr.h>
26 #include <ldns/tsig.h>
27 #include <ldns/rdata.h>
28 #include <ldns/packet.h>
29 #include <sys/time.h>
30 
31 #ifdef __cplusplus
32 extern "C" {
33 #endif
34 
35 /** Default location of the resolv.conf file */
36 #define LDNS_RESOLV_CONF	"/etc/resolv.conf"
37 /** Default location of the hosts file */
38 #define LDNS_RESOLV_HOSTS	"/etc/hosts"
39 
40 #define LDNS_RESOLV_KEYWORD     -1
41 #define LDNS_RESOLV_DEFDOMAIN	0
42 #define LDNS_RESOLV_NAMESERVER	1
43 #define LDNS_RESOLV_SEARCH	2
44 #define LDNS_RESOLV_SORTLIST	3
45 #define LDNS_RESOLV_OPTIONS	4
46 #define LDNS_RESOLV_ANCHOR	5
47 #define LDNS_RESOLV_KEYWORDS    6
48 
49 #define LDNS_RESOLV_INETANY		0
50 #define LDNS_RESOLV_INET		1
51 #define LDNS_RESOLV_INET6		2
52 
53 #define LDNS_RESOLV_RTT_INF             0       /* infinity */
54 #define LDNS_RESOLV_RTT_MIN             1       /* reachable */
55 
56 /**
57  * DNS stub resolver structure
58  */
59 struct ldns_struct_resolver
60 {
61 	/**  Port to send queries to */
62 	uint16_t _port;
63 
64 	/** Array of nameservers to query (IP addresses or dnames) */
65 	ldns_rdf **_nameservers;
66 	/** Number of nameservers in \c _nameservers */
67 	size_t _nameserver_count; /* how many do we have */
68 
69 	/**  Round trip time; 0 -> infinity. Unit: ms? */
70 	size_t *_rtt;
71 
72 	/**  Whether or not to be recursive */
73 	bool _recursive;
74 
75 	/**  Print debug information */
76 	bool _debug;
77 
78 	/**  Default domain to add to non fully qualified domain names */
79 	ldns_rdf *_domain;
80 
81 	/**  Searchlist array, add the names in this array if a query cannot be found */
82 	ldns_rdf **_searchlist;
83 
84 	/** Number of entries in the searchlist array */
85 	size_t _searchlist_count;
86 
87 	/**  Number of times to retry before giving up */
88 	uint8_t _retry;
89 	/**  Time to wait before retrying */
90 	uint8_t _retrans;
91 	/**  Use new fallback mechanism (try EDNS, then do TCP) */
92 	bool _fallback;
93 
94 	/**  Whether to do DNSSEC */
95 	bool _dnssec;
96 	/**  Whether to set the CD bit on DNSSEC requests */
97 	bool _dnssec_cd;
98 	/** Optional trust anchors for complete DNSSEC validation */
99 	ldns_rr_list * _dnssec_anchors;
100 	/**  Whether to use tcp or udp (tcp if the value is true)*/
101 	bool _usevc;
102 	/**  Whether to ignore the tc bit */
103 	bool _igntc;
104 	/**  Whether to use ip6: 0->does not matter, 1 is IPv4, 2 is IPv6 */
105 	uint8_t _ip6;
106 	/**  If true append the default domain */
107 	bool _defnames;
108 	/**  If true apply the search list */
109 	bool _dnsrch;
110 	/**  Timeout for socket connections */
111 	struct timeval _timeout;
112 	/**  Only try the first nameserver, and return with an error directly if it fails */
113 	bool _fail;
114 	/**  Randomly choose a nameserver */
115 	bool _random;
116 	/** Keep some things to make AXFR possible */
117 	int _socket;
118 	/** Count the number of LDNS_RR_TYPE_SOA RRs we have seen so far
119 	 * (the second one signifies the end of the AXFR)
120 	 */
121 	int _axfr_soa_count;
122 	/* when axfring we get complete packets from the server
123 	   but we want to give the caller 1 rr at a time, so
124 	   keep the current pkt */
125         /** Packet currently handled when doing part of an AXFR */
126 	ldns_pkt *_cur_axfr_pkt;
127 	/** Counter for within the AXFR packets */
128 	uint16_t _axfr_i;
129 	/* EDNS0 available buffer size */
130 	uint16_t _edns_udp_size;
131 	/* serial for IXFR */
132 	uint32_t _serial;
133 
134 	/* Optional tsig key for signing queries,
135 	outgoing messages are signed if and only if both are set
136 	*/
137 	/** Name of the key to use with TSIG, if _tsig_keyname and _tsig_keydata both contain values, outgoing messages are automatically signed with TSIG. */
138 	char *_tsig_keyname;
139 	/** Secret key data to use with TSIG, if _tsig_keyname and _tsig_keydata both contain values, outgoing messages are automatically signed with TSIG. */
140 	char *_tsig_keydata;
141 	/** TSIG signing algorithm */
142 	char *_tsig_algorithm;
143 
144 	/** Source address to query from */
145 	ldns_rdf *_source;
146 };
147 typedef struct ldns_struct_resolver ldns_resolver;
148 
149 /* prototypes */
150 /* read access functions */
151 
152 /**
153  * Get the port the resolver should use
154  * \param[in] r the resolver
155  * \return the port number
156  */
157 uint16_t ldns_resolver_port(const ldns_resolver *r);
158 
159 /**
160  * Get the source address the resolver should use
161  * \param[in] r the resolver
162  * \return the source rdf
163  */
164 ldns_rdf *ldns_resolver_source(const ldns_resolver *r);
165 
166 /**
167  * Is the resolver set to recurse
168  * \param[in] r the resolver
169  * \return true if so, otherwise false
170  */
171 bool ldns_resolver_recursive(const ldns_resolver *r);
172 
173 /**
174  * Get the debug status of the resolver
175  * \param[in] r the resolver
176  * \return true if so, otherwise false
177  */
178 bool ldns_resolver_debug(const ldns_resolver *r);
179 
180 /**
181  * Get the number of retries
182  * \param[in] r the resolver
183  * \return the number of retries
184  */
185 uint8_t ldns_resolver_retry(const ldns_resolver *r);
186 
187 /**
188  * Get the retransmit interval
189  * \param[in] r the resolver
190  * \return the retransmit interval
191  */
192 uint8_t ldns_resolver_retrans(const ldns_resolver *r);
193 
194 /**
195  * Get the truncation fallback status
196  * \param[in] r the resolver
197  * \return whether the truncation fallback mechanism is used
198  */
199 bool ldns_resolver_fallback(const ldns_resolver *r);
200 
201 /**
202  * Does the resolver use ip6 or ip4
203  * \param[in] r the resolver
204  * \return 0: both, 1: ip4, 2:ip6
205  */
206 uint8_t ldns_resolver_ip6(const ldns_resolver *r);
207 
208 /**
209  * Get the resolver's udp size
210  * \param[in] r the resolver
211  * \return the udp mesg size
212  */
213 uint16_t ldns_resolver_edns_udp_size(const ldns_resolver *r);
214 /**
215  * Does the resolver use tcp or udp
216  * \param[in] r the resolver
217  * \return true: tcp, false: udp
218  */
219 bool ldns_resolver_usevc(const ldns_resolver *r);
220 /**
221  * Does the resolver only try the first nameserver
222  * \param[in] r the resolver
223  * \return true: yes, fail, false: no, try the others
224  */
225 bool ldns_resolver_fail(const ldns_resolver *r);
226 /**
227  * Does the resolver apply default domain name
228  * \param[in] r the resolver
229  * \return true: yes, false: no
230  */
231 bool ldns_resolver_defnames(const ldns_resolver *r);
232 /**
233  * Does the resolver apply search list
234  * \param[in] r the resolver
235  * \return true: yes, false: no
236  */
237 bool ldns_resolver_dnsrch(const ldns_resolver *r);
238 /**
239  * Does the resolver do DNSSEC
240  * \param[in] r the resolver
241  * \return true: yes, false: no
242  */
243 bool ldns_resolver_dnssec(const ldns_resolver *r);
244 /**
245  * Does the resolver set the CD bit
246  * \param[in] r the resolver
247  * \return true: yes, false: no
248  */
249 bool ldns_resolver_dnssec_cd(const ldns_resolver *r);
250 /**
251  * Get the resolver's DNSSEC anchors
252  * \param[in] r the resolver
253  * \return an rr_list containing trusted DNSSEC anchors
254  */
255 ldns_rr_list * ldns_resolver_dnssec_anchors(const ldns_resolver *r);
256 /**
257  * Does the resolver ignore the TC bit (truncated)
258  * \param[in] r the resolver
259  * \return true: yes, false: no
260  */
261 bool ldns_resolver_igntc(const ldns_resolver *r);
262 /**
263  * Does the resolver randomize the nameserver before usage
264  * \param[in] r the resolver
265  * \return true: yes, false: no
266  */
267 bool ldns_resolver_random(const ldns_resolver *r);
268 /**
269  * How many nameserver are configured in the resolver
270  * \param[in] r the resolver
271  * \return number of nameservers
272  */
273 size_t ldns_resolver_nameserver_count(const ldns_resolver *r);
274 /**
275  * What is the default dname to add to relative queries
276  * \param[in] r the resolver
277  * \return the dname which is added
278  */
279 ldns_rdf *ldns_resolver_domain(const ldns_resolver *r);
280 /**
281  * What is the timeout on socket connections
282  * \param[in] r the resolver
283  * \return the timeout as struct timeval
284  */
285 struct timeval ldns_resolver_timeout(const ldns_resolver *r);
286 /**
287  * What is the searchlist as used by the resolver
288  * \param[in] r the resolver
289  * \return a ldns_rdf pointer to a list of the addresses
290  */
291 ldns_rdf** ldns_resolver_searchlist(const ldns_resolver *r);
292 /**
293  * Return the configured nameserver ip address
294  * \param[in] r the resolver
295  * \return a ldns_rdf pointer to a list of the addresses
296  */
297 ldns_rdf** ldns_resolver_nameservers(const ldns_resolver *r);
298 /**
299  * Return the used round trip times for the nameservers
300  * \param[in] r the resolver
301  * \return a size_t* pointer to the list.
302  * yet)
303  */
304 size_t * ldns_resolver_rtt(const ldns_resolver *r);
305 /**
306  * Return the used round trip time for a specific nameserver
307  * \param[in] r the resolver
308  * \param[in] pos the index to the nameserver
309  * \return the rrt, 0: infinite, >0: undefined (as of * yet)
310  */
311 size_t ldns_resolver_nameserver_rtt(const ldns_resolver *r, size_t pos);
312 /**
313  * Return the tsig keyname as used by the nameserver
314  * \param[in] r the resolver
315  * \return the name used. Still owned by the resolver - change using
316  * ldns_resolver_set_tsig_keyname().
317  */
318 const char *ldns_resolver_tsig_keyname(const ldns_resolver *r);
319 /**
320  * Return the tsig algorithm as used by the nameserver
321  * \param[in] r the resolver
322  * \return the algorithm used. Still owned by the resolver - change using
323  * ldns_resolver_set_tsig_algorithm().
324  */
325 const char *ldns_resolver_tsig_algorithm(const ldns_resolver *r);
326 /**
327  * Return the tsig keydata as used by the nameserver
328  * \param[in] r the resolver
329  * \return the keydata used. Still owned by the resolver - change using
330  * ldns_resolver_set_tsig_keydata().
331  */
332 const char *ldns_resolver_tsig_keydata(const ldns_resolver *r);
333 /**
334  * pop the last nameserver from the resolver.
335  * \param[in] r the resolver
336  * \return the popped address or NULL if empty
337  */
338 ldns_rdf* ldns_resolver_pop_nameserver(ldns_resolver *r);
339 
340 /**
341  * Return the resolver's searchlist count
342  * \param[in] r the resolver
343  * \return the searchlist count
344  */
345 size_t ldns_resolver_searchlist_count(const ldns_resolver *r);
346 
347 /* write access function */
348 /**
349  * Set the port the resolver should use
350  * \param[in] r the resolver
351  * \param[in] p the port number
352  */
353 void ldns_resolver_set_port(ldns_resolver *r, uint16_t p);
354 
355 /**
356  * Set the source rdf (address) the resolver should use
357  * \param[in] r the resolver
358  * \param[in] s the source address
359  */
360 void ldns_resolver_set_source(ldns_resolver *r, ldns_rdf *s);
361 
362 /**
363  * Set the resolver recursion
364  * \param[in] r the resolver
365  * \param[in] b true: set to recurse, false: unset
366  */
367 void ldns_resolver_set_recursive(ldns_resolver *r, bool b);
368 
369 /**
370  * Set the resolver debugging
371  * \param[in] r the resolver
372  * \param[in] b true: debug on: false debug off
373  */
374 void ldns_resolver_set_debug(ldns_resolver *r, bool b);
375 
376 /**
377  * Incremental the resolver's nameserver count.
378  * \param[in] r the resolver
379  */
380 void ldns_resolver_incr_nameserver_count(ldns_resolver *r);
381 
382 /**
383  * Decrement the resolver's nameserver count.
384  * \param[in] r the resolver
385  */
386 void ldns_resolver_dec_nameserver_count(ldns_resolver *r);
387 
388 /**
389  * Set the resolver's nameserver count directly.
390  * \param[in] r the resolver
391  * \param[in] c the nameserver count
392  */
393 void ldns_resolver_set_nameserver_count(ldns_resolver *r, size_t c);
394 
395 /**
396  * Set the resolver's nameserver count directly by using an rdf list
397  * \param[in] r the resolver
398  * \param[in] rd the resolver addresses
399  */
400 void ldns_resolver_set_nameservers(ldns_resolver *r, ldns_rdf **rd);
401 
402 /**
403  * Set the resolver's default domain. This gets appended when no
404  * absolute name is given
405  * \param[in] r the resolver
406  * \param[in] rd the name to append
407  */
408 void ldns_resolver_set_domain(ldns_resolver *r, ldns_rdf *rd);
409 
410 /**
411  * Set the resolver's socket time out when talking to remote hosts
412  * \param[in] r the resolver
413  * \param[in] timeout the timeout to use
414  */
415 void ldns_resolver_set_timeout(ldns_resolver *r, struct timeval timeout);
416 
417 /**
418  * Push a new rd to the resolver's searchlist
419  * \param[in] r the resolver
420  * \param[in] rd to push
421  */
422 void ldns_resolver_push_searchlist(ldns_resolver *r, ldns_rdf *rd);
423 
424 /**
425  * Whether the resolver uses the name set with _set_domain
426  * \param[in] r the resolver
427  * \param[in] b true: use the defaults, false: don't use them
428  */
429 void ldns_resolver_set_defnames(ldns_resolver *r, bool b);
430 
431 /**
432  * Whether the resolver uses a virtual circuit (TCP)
433  * \param[in] r the resolver
434  * \param[in] b true: use TCP, false: don't use TCP
435  */
436 void ldns_resolver_set_usevc(ldns_resolver *r, bool b);
437 
438 /**
439  * Whether the resolver uses the searchlist
440  * \param[in] r the resolver
441  * \param[in] b true: use the list, false: don't use the list
442  */
443 void ldns_resolver_set_dnsrch(ldns_resolver *r, bool b);
444 
445 /**
446  * Whether the resolver uses DNSSEC
447  * \param[in] r the resolver
448  * \param[in] b true: use DNSSEC, false: don't use DNSSEC
449  */
450 void ldns_resolver_set_dnssec(ldns_resolver *r, bool b);
451 
452 /**
453  * Whether the resolver uses the checking disable bit
454  * \param[in] r the resolver
455  * \param[in] b true: enable , false: don't use TCP
456  */
457 void ldns_resolver_set_dnssec_cd(ldns_resolver *r, bool b);
458 /**
459  * Set the resolver's DNSSEC anchor list directly. RRs should be of type DS or DNSKEY.
460  * \param[in] r the resolver
461  * \param[in] l the list of RRs to use as trust anchors
462  */
463 void ldns_resolver_set_dnssec_anchors(ldns_resolver *r, ldns_rr_list * l);
464 
465 /**
466  * Push a new trust anchor to the resolver. It must be a DS or DNSKEY rr
467  * \param[in] r the resolver.
468  * \param[in] rr the RR to add as a trust anchor.
469  * \return a status
470  */
471 ldns_status ldns_resolver_push_dnssec_anchor(ldns_resolver *r, ldns_rr *rr);
472 
473 /**
474  * Set the resolver retrans timeout (in seconds)
475  * \param[in] r the resolver
476  * \param[in] re the retransmission interval in seconds
477  */
478 void ldns_resolver_set_retrans(ldns_resolver *r, uint8_t re);
479 
480 /**
481  * Set whether the resolvers truncation fallback mechanism is used
482  * when ldns_resolver_query() is called.
483  * \param[in] r the resolver
484  * \param[in] fallback whether to use the fallback mechanism
485  */
486 void ldns_resolver_set_fallback(ldns_resolver *r, bool fallback);
487 
488 /**
489  * Set the number of times a resolver should retry a nameserver before the
490  * next one is tried.
491  * \param[in] r the resolver
492  * \param[in] re the number of retries
493  */
494 void ldns_resolver_set_retry(ldns_resolver *r, uint8_t re);
495 
496 /**
497  * Whether the resolver uses ip6
498  * \param[in] r the resolver
499  * \param[in] i 0: no pref, 1: ip4, 2: ip6
500  */
501 void ldns_resolver_set_ip6(ldns_resolver *r, uint8_t i);
502 
503 /**
504  * Whether or not to fail after one failed query
505  * \param[in] r the resolver
506  * \param[in] b true: yes fail, false: continue with next nameserver
507  */
508 void ldns_resolver_set_fail(ldns_resolver *r, bool b);
509 
510 /**
511  * Whether or not to ignore the TC bit
512  * \param[in] r the resolver
513  * \param[in] b true: yes ignore, false: don't ignore
514  */
515 void ldns_resolver_set_igntc(ldns_resolver *r, bool b);
516 
517 /**
518  * Set maximum udp size
519  * \param[in] r the resolver
520  * \param[in] s the udp max size
521  */
522 void ldns_resolver_set_edns_udp_size(ldns_resolver *r, uint16_t s);
523 
524 /**
525  * Set the tsig key name
526  * \param[in] r the resolver
527  * \param[in] tsig_keyname the tsig key name (copied into resolver)
528  */
529 void ldns_resolver_set_tsig_keyname(ldns_resolver *r, const char *tsig_keyname);
530 
531 /**
532  * Set the tsig algorithm
533  * \param[in] r the resolver
534  * \param[in] tsig_algorithm the tsig algorithm (copied into resolver)
535  */
536 void ldns_resolver_set_tsig_algorithm(ldns_resolver *r, const char *tsig_algorithm);
537 
538 /**
539  * Set the tsig key data
540  * \param[in] r the resolver
541  * \param[in] tsig_keydata the key data (copied into resolver)
542  */
543 void ldns_resolver_set_tsig_keydata(ldns_resolver *r, const char *tsig_keydata);
544 
545 /**
546  * Set round trip time for all nameservers. Note this currently
547  * differentiates between: unreachable and reachable.
548  * \param[in] r the resolver
549  * \param[in] rtt a list with the times
550  */
551 void ldns_resolver_set_rtt(ldns_resolver *r, size_t *rtt);
552 
553 /**
554  * Set round trip time for a specific nameserver. Note this
555  * currently differentiates between: unreachable and reachable.
556  * \param[in] r the resolver
557  * \param[in] pos the nameserver position
558  * \param[in] value the rtt
559  */
560 void ldns_resolver_set_nameserver_rtt(ldns_resolver *r, size_t pos, size_t value);
561 
562 /**
563  * Should the nameserver list be randomized before each use
564  * \param[in] r the resolver
565  * \param[in] b: true: randomize, false: don't
566  */
567 void ldns_resolver_set_random(ldns_resolver *r, bool b);
568 
569 /**
570  * Push a new nameserver to the resolver. It must be an IP
571  * address v4 or v6.
572  * \param[in] r the resolver
573  * \param[in] n the ip address
574  * \return ldns_status a status
575  */
576 ldns_status ldns_resolver_push_nameserver(ldns_resolver *r, const ldns_rdf *n);
577 
578 /**
579  * Push a new nameserver to the resolver. It must be an
580  * A or AAAA RR record type
581  * \param[in] r the resolver
582  * \param[in] rr the resource record
583  * \return ldns_status a status
584  */
585 ldns_status ldns_resolver_push_nameserver_rr(ldns_resolver *r, const ldns_rr *rr);
586 
587 /**
588  * Push a new nameserver rr_list to the resolver.
589  * \param[in] r the resolver
590  * \param[in] rrlist the rr_list to push
591  * \return ldns_status a status
592  */
593 ldns_status ldns_resolver_push_nameserver_rr_list(ldns_resolver *r, const ldns_rr_list *rrlist);
594 
595 /**
596  * Send the query for using the resolver and take the search list into account
597  * The search algorithm is as follows:
598  * If the name is absolute, try it as-is, otherwise apply the search list
599  * \param[in] *r operate using this resolver
600  * \param[in] *rdf query for this name
601  * \param[in] t query for this type (may be 0, defaults to A)
602  * \param[in] c query for this class (may be 0, default to IN)
603  * \param[in] flags the query flags
604  *
605  * \return ldns_pkt* a packet with the reply from the nameserver
606  */
607 ldns_pkt* ldns_resolver_search(const ldns_resolver *r, const ldns_rdf *rdf, ldns_rr_type t, ldns_rr_class c, uint16_t flags);
608 
609 
610 /**
611  * Send the query for using the resolver and take the search list into account
612  * The search algorithm is as follows:
613  * If the name is absolute, try it as-is, otherwise apply the search list
614  * \param[out] pkt a packet with the reply from the nameserver
615  * \param[in] *r operate using this resolver
616  * \param[in] *rdf query for this name
617  * \param[in] t query for this type (may be 0, defaults to A)
618  * \param[in] c query for this class (may be 0, default to IN)
619  * \param[in] flags the query flags
620  *
621  * \return ldns_status LDNS_STATUS_OK on success
622  */
623 ldns_status ldns_resolver_search_status(ldns_pkt** pkt, ldns_resolver *r, const ldns_rdf *rdf, ldns_rr_type t, ldns_rr_class c, uint16_t flags);
624 
625 /**
626  * Form a query packet from a resolver and name/type/class combo
627  * \param[out] **q a pointer to a ldns_pkt pointer (initialized by this function)
628  * \param[in] *r operate using this resolver
629  * \param[in] *name query for this name
630  * \param[in] t query for this type (may be 0, defaults to A)
631  * \param[in] c query for this class (may be 0, default to IN)
632  * \param[in] f the query flags
633  *
634  * \return ldns_pkt* a packet with the reply from the nameserver
635  */
636 ldns_status ldns_resolver_prepare_query_pkt(ldns_pkt **q, ldns_resolver *r, const  ldns_rdf *name, ldns_rr_type t, ldns_rr_class c, uint16_t f);
637 
638 /**
639  * Send the query for name as-is
640  * \param[out] **answer a pointer to a ldns_pkt pointer (initialized by this function)
641  * \param[in] *r operate using this resolver
642  * \param[in] *name query for this name
643  * \param[in] t query for this type (may be 0, defaults to A)
644  * \param[in] c query for this class (may be 0, default to IN)
645  * \param[in] flags the query flags
646  *
647  * \return ldns_status LDNS_STATUS_OK on success
648  */
649 ldns_status ldns_resolver_send(ldns_pkt **answer, ldns_resolver *r, const ldns_rdf *name, ldns_rr_type t, ldns_rr_class c, uint16_t flags);
650 
651 /**
652  * Send the given packet to a nameserver
653  * \param[out] **answer a pointer to a ldns_pkt pointer (initialized by this function)
654  * \param[in] *r operate using this resolver
655  * \param[in] *query_pkt query
656  */
657 ldns_status ldns_resolver_send_pkt(ldns_pkt **answer, ldns_resolver *r, ldns_pkt *query_pkt);
658 
659 /**
660  * Send a query to a nameserver
661  * \param[out] pkt a packet with the reply from the nameserver
662  * \param[in] *r operate using this resolver
663  * \param[in] *name query for this name
664  * \param[in] *t query for this type (may be 0, defaults to A)
665  * \param[in] *c query for this class (may be 0, default to IN)
666  * \param[in] flags the query flags
667  *
668  * \return ldns_status LDNS_STATUS_OK on success
669  * if _defnames is true the default domain will be added
670  */
671 ldns_status ldns_resolver_query_status(ldns_pkt** pkt, ldns_resolver *r, const ldns_rdf *name, ldns_rr_type t, ldns_rr_class c, uint16_t flags);
672 
673 
674 /**
675  * Send a query to a nameserver
676  * \param[in] *r operate using this resolver
677  *               (despite the const in the declaration,
678  *                the struct is altered as a side-effect)
679  * \param[in] *name query for this name
680  * \param[in] *t query for this type (may be 0, defaults to A)
681  * \param[in] *c query for this class (may be 0, default to IN)
682  * \param[in] flags the query flags
683  *
684  * \return ldns_pkt* a packet with the reply from the nameserver
685  * if _defnames is true the default domain will be added
686  */
687 ldns_pkt* ldns_resolver_query(const ldns_resolver *r, const ldns_rdf *name, ldns_rr_type t, ldns_rr_class c, uint16_t flags);
688 
689 
690 /**
691  * Create a new resolver structure
692  * \return ldns_resolver* pointer to new structure
693  */
694 ldns_resolver* ldns_resolver_new(void);
695 
696 /**
697  * Clone a resolver
698  * \param[in] r the resolver to clone
699  * \return ldns_resolver* pointer to new structure
700  */
701 ldns_resolver* ldns_resolver_clone(ldns_resolver *r);
702 
703 /**
704  * Create a resolver structure from a file like /etc/resolv.conf
705  * \param[out] r the new resolver
706  * \param[in] fp file pointer to create new resolver from
707  *      if NULL use /etc/resolv.conf
708  * \return LDNS_STATUS_OK or the error
709  */
710 ldns_status ldns_resolver_new_frm_fp(ldns_resolver **r, FILE *fp);
711 
712 /**
713  * Create a resolver structure from a file like /etc/resolv.conf
714  * \param[out] r the new resolver
715  * \param[in] fp file pointer to create new resolver from
716  *      if NULL use /etc/resolv.conf
717  * \param[in] line_nr pointer to an integer containing the current line number (for debugging purposes)
718  * \return LDNS_STATUS_OK or the error
719  */
720 ldns_status ldns_resolver_new_frm_fp_l(ldns_resolver **r, FILE *fp, int *line_nr);
721 
722 /**
723  * Configure a resolver by means of a resolv.conf file
724  * The file may be NULL in which case there will  be
725  * looked the RESOLV_CONF (defaults to /etc/resolv.conf)
726  * \param[out] r the new resolver
727  * \param[in] filename the filename to use
728  * \return LDNS_STATUS_OK or the error
729  */
730 ldns_status ldns_resolver_new_frm_file(ldns_resolver **r, const char *filename);
731 
732 /**
733  * Frees the allocated space for this resolver. Only frees the resolver pointer! You should probably be using _deep_free.
734  * \param res resolver to free
735  */
736 void ldns_resolver_free(ldns_resolver *res);
737 
738 /**
739  * Frees the allocated space for this resolver and all it's data
740  * \param res resolver to free
741  */
742 void ldns_resolver_deep_free(ldns_resolver *res);
743 
744 /**
745  * Get the next stream of RRs in a AXFR
746  * \param[in] resolver the resolver to use. First ldns_axfr_start() must be
747  * called
748  * \return ldns_rr the next RR from the AXFR stream
749  * After you get this returned RR (not NULL: on error), then check if
750  * ldns_axfr_complete() is true to see if the zone transfer has completed.
751  */
752 ldns_rr* ldns_axfr_next(ldns_resolver *resolver);
753 
754 /**
755  * Abort a transfer that is in progress
756  * \param[in] resolver the resolver that is used
757  */
758 void ldns_axfr_abort(ldns_resolver *resolver);
759 
760 /**
761  * Returns true if the axfr transfer has completed (i.e. 2 SOA RRs and no errors were encountered
762  * \param[in] resolver the resolver that is used
763  * \return bool true if axfr transfer was completed without error
764  */
765 bool ldns_axfr_complete(const ldns_resolver *resolver);
766 
767 /**
768  * Returns a pointer to the last ldns_pkt that was sent by the server in the AXFR transfer
769  * usable for instance to get the error code on failure
770  * \param[in] res the resolver that was used in the axfr transfer
771  * \return ldns_pkt the last packet sent
772  */
773 ldns_pkt *ldns_axfr_last_pkt(const ldns_resolver *res);
774 
775 /**
776  * Get the serial for requesting IXFR.
777  * \param[in] r the resolver
778  * \param[in] serial serial
779  */
780 void ldns_resolver_set_ixfr_serial(ldns_resolver *r, uint32_t serial);
781 
782 /**
783  * Get the serial for requesting IXFR.
784  * \param[in] res the resolver
785  * \return uint32_t serial
786  */
787 uint32_t ldns_resolver_get_ixfr_serial(const ldns_resolver *res);
788 
789 /**
790  * Randomize the nameserver list in the resolver
791  * \param[in] r the resolver
792  */
793 void ldns_resolver_nameservers_randomize(ldns_resolver *r);
794 
795 /**
796  * Returns true if at least one of the provided keys is a trust anchor
797  * \param[in] r the current resolver
798  * \param[in] keys the keyset to check
799  * \param[out] trusted_keys the subset of trusted keys in the 'keys' rrset
800  * \return true if at least one of the provided keys is a configured trust anchor
801  */
802 bool ldns_resolver_trusted_key(const ldns_resolver *r, ldns_rr_list * keys, ldns_rr_list * trusted_keys);
803 
804 #ifdef __cplusplus
805 }
806 #endif
807 
808 #endif  /* LDNS_RESOLVER_H */
809