xref: /freebsd/include/arpa/nameser.h (revision 63d1fd5970ec814904aa0f4580b10a0d302d08b2)
1 /*
2  * Portions Copyright (C) 2004, 2005, 2008, 2009  Internet Systems Consortium, Inc. ("ISC")
3  * Portions Copyright (C) 1996-2003  Internet Software Consortium.
4  *
5  * Permission to use, copy, modify, and/or distribute this software for any
6  * purpose with or without fee is hereby granted, provided that the above
7  * copyright notice and this permission notice appear in all copies.
8  *
9  * THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH
10  * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
11  * AND FITNESS.  IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT,
12  * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
13  * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
14  * OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
15  * PERFORMANCE OF THIS SOFTWARE.
16  */
17 
18 /*
19  * Copyright (c) 1983, 1989, 1993
20  *    The Regents of the University of California.  All rights reserved.
21  *
22  * Redistribution and use in source and binary forms, with or without
23  * modification, are permitted provided that the following conditions
24  * are met:
25  * 1. Redistributions of source code must retain the above copyright
26  *    notice, this list of conditions and the following disclaimer.
27  * 2. Redistributions in binary form must reproduce the above copyright
28  *    notice, this list of conditions and the following disclaimer in the
29  *    documentation and/or other materials provided with the distribution.
30  * 3. Neither the name of the University nor the names of its contributors
31  *    may be used to endorse or promote products derived from this software
32  *    without specific prior written permission.
33  *
34  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
35  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
36  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
37  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
38  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
39  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
40  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
41  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
42  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
43  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
44  * SUCH DAMAGE.
45  */
46 
47 /*
48  *	$Id: nameser.h,v 1.16 2009/03/03 01:52:48 each Exp $
49  * $FreeBSD$
50  */
51 
52 #ifndef _ARPA_NAMESER_H_
53 #define _ARPA_NAMESER_H_
54 
55 /*! \file */
56 
57 #define BIND_4_COMPAT
58 
59 #include <sys/param.h>
60 #include <sys/types.h>
61 #include <sys/cdefs.h>
62 
63 /*%
64  * Revision information.  This is the release date in YYYYMMDD format.
65  * It can change every day so the right thing to do with it is use it
66  * in preprocessor commands such as "#if (__NAMESER > 19931104)".  Do not
67  * compare for equality; rather, use it to determine whether your libbind.a
68  * contains a new enough lib/nameser/ to support the feature you need.
69  */
70 
71 #define __NAMESER	20090302	/*%< New interface version stamp. */
72 /*
73  * Define constants based on RFC0883, RFC1034, RFC 1035
74  */
75 #define NS_PACKETSZ	512	/*%< default UDP packet size */
76 #define NS_MAXDNAME	1025	/*%< maximum domain name (presentation format)*/
77 #define NS_MAXMSG	65535	/*%< maximum message size */
78 #define NS_MAXCDNAME	255	/*%< maximum compressed domain name */
79 #define NS_MAXLABEL	63	/*%< maximum length of domain label */
80 #define NS_MAXLABELS	128	/*%< theoretical max #/labels per domain name */
81 #define NS_MAXNNAME	256	/*%< maximum uncompressed (binary) domain name*/
82 #define	NS_MAXPADDR	(sizeof "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff")
83 #define NS_HFIXEDSZ	12	/*%< #/bytes of fixed data in header */
84 #define NS_QFIXEDSZ	4	/*%< #/bytes of fixed data in query */
85 #define NS_RRFIXEDSZ	10	/*%< #/bytes of fixed data in r record */
86 #define NS_INT32SZ	4	/*%< #/bytes of data in a u_int32_t */
87 #define NS_INT16SZ	2	/*%< #/bytes of data in a u_int16_t */
88 #define NS_INT8SZ	1	/*%< #/bytes of data in a u_int8_t */
89 #define NS_INADDRSZ	4	/*%< IPv4 T_A */
90 #define NS_IN6ADDRSZ	16	/*%< IPv6 T_AAAA */
91 #define NS_CMPRSFLGS	0xc0	/*%< Flag bits indicating name compression. */
92 #define NS_DEFAULTPORT	53	/*%< For both TCP and UDP. */
93 /*
94  * These can be expanded with synonyms, just keep ns_parse.c:ns_parserecord()
95  * in synch with it.
96  */
97 typedef enum __ns_sect {
98 	ns_s_qd = 0,		/*%< Query: Question. */
99 	ns_s_zn = 0,		/*%< Update: Zone. */
100 	ns_s_an = 1,		/*%< Query: Answer. */
101 	ns_s_pr = 1,		/*%< Update: Prerequisites. */
102 	ns_s_ns = 2,		/*%< Query: Name servers. */
103 	ns_s_ud = 2,		/*%< Update: Update. */
104 	ns_s_ar = 3,		/*%< Query|Update: Additional records. */
105 	ns_s_max = 4
106 } ns_sect;
107 
108 /*%
109  * Network name (compressed or not) type.  Equivalent to a pointer when used
110  * in a function prototype.  Can be const'd.
111  */
112 typedef u_char ns_nname[NS_MAXNNAME];
113 typedef const u_char *ns_nname_ct;
114 typedef u_char *ns_nname_t;
115 
116 struct ns_namemap { ns_nname_ct base; int len; };
117 typedef struct ns_namemap *ns_namemap_t;
118 typedef const struct ns_namemap *ns_namemap_ct;
119 
120 /*%
121  * This is a message handle.  It is caller allocated and has no dynamic data.
122  * This structure is intended to be opaque to all but ns_parse.c, thus the
123  * leading _'s on the member names.  Use the accessor functions, not the _'s.
124  */
125 typedef struct __ns_msg {
126 	const u_char	*_msg, *_eom;
127 	u_int16_t	_id, _flags, _counts[ns_s_max];
128 	const u_char	*_sections[ns_s_max];
129 	ns_sect		_sect;
130 	int		_rrnum;
131 	const u_char	*_msg_ptr;
132 } ns_msg;
133 
134 /*
135  * This is a newmsg handle, used when constructing new messages with
136  * ns_newmsg_init, et al.
137  */
138 struct ns_newmsg {
139 	ns_msg		msg;
140 	const u_char	*dnptrs[25];
141 	const u_char	**lastdnptr;
142 };
143 typedef struct ns_newmsg ns_newmsg;
144 
145 /* Private data structure - do not use from outside library. */
146 struct _ns_flagdata {  int mask, shift;  };
147 extern struct _ns_flagdata _ns_flagdata[];
148 
149 /* Accessor macros - this is part of the public interface. */
150 
151 #define ns_msg_id(handle) ((handle)._id + 0)
152 #define ns_msg_base(handle) ((handle)._msg + 0)
153 #define ns_msg_end(handle) ((handle)._eom + 0)
154 #define ns_msg_size(handle) ((handle)._eom - (handle)._msg)
155 #define ns_msg_count(handle, section) ((handle)._counts[section] + 0)
156 
157 /*%
158  * This is a parsed record.  It is caller allocated and has no dynamic data.
159  */
160 typedef	struct __ns_rr {
161 	char		name[NS_MAXDNAME];
162 	u_int16_t	type;
163 	u_int16_t	rr_class;
164 	u_int32_t	ttl;
165 	u_int16_t	rdlength;
166 	const u_char *	rdata;
167 } ns_rr;
168 
169 /*
170  * Same thing, but using uncompressed network binary names, and real C types.
171  */
172 typedef	struct __ns_rr2 {
173 	ns_nname	nname;
174 	size_t		nnamel;
175 	int		type;
176 	int		rr_class;
177 	u_int		ttl;
178 	int		rdlength;
179 	const u_char *	rdata;
180 } ns_rr2;
181 
182 /* Accessor macros - this is part of the public interface. */
183 #define ns_rr_name(rr)	(((rr).name[0] != '\0') ? (rr).name : ".")
184 #define ns_rr_nname(rr)	((const ns_nname_t)(rr).nname)
185 #define ns_rr_nnamel(rr) ((rr).nnamel + 0)
186 #define ns_rr_type(rr)	((ns_type)((rr).type + 0))
187 #define ns_rr_class(rr)	((ns_class)((rr).rr_class + 0))
188 #define ns_rr_ttl(rr)	((rr).ttl + 0)
189 #define ns_rr_rdlen(rr)	((rr).rdlength + 0)
190 #define ns_rr_rdata(rr)	((rr).rdata + 0)
191 
192 /*%
193  * These don't have to be in the same order as in the packet flags word,
194  * and they can even overlap in some cases, but they will need to be kept
195  * in synch with ns_parse.c:ns_flagdata[].
196  */
197 typedef enum __ns_flag {
198 	ns_f_qr,		/*%< Question/Response. */
199 	ns_f_opcode,		/*%< Operation code. */
200 	ns_f_aa,		/*%< Authoritative Answer. */
201 	ns_f_tc,		/*%< Truncation occurred. */
202 	ns_f_rd,		/*%< Recursion Desired. */
203 	ns_f_ra,		/*%< Recursion Available. */
204 	ns_f_z,			/*%< MBZ. */
205 	ns_f_ad,		/*%< Authentic Data (DNSSEC). */
206 	ns_f_cd,		/*%< Checking Disabled (DNSSEC). */
207 	ns_f_rcode,		/*%< Response code. */
208 	ns_f_max
209 } ns_flag;
210 
211 /*%
212  * Currently defined opcodes.
213  */
214 typedef enum __ns_opcode {
215 	ns_o_query = 0,		/*%< Standard query. */
216 	ns_o_iquery = 1,	/*%< Inverse query (deprecated/unsupported). */
217 	ns_o_status = 2,	/*%< Name server status query (unsupported). */
218 				/* Opcode 3 is undefined/reserved. */
219 	ns_o_notify = 4,	/*%< Zone change notification. */
220 	ns_o_update = 5,	/*%< Zone update message. */
221 	ns_o_max = 6
222 } ns_opcode;
223 
224 /*%
225  * Currently defined response codes.
226  */
227 typedef	enum __ns_rcode {
228 	ns_r_noerror = 0,	/*%< No error occurred. */
229 	ns_r_formerr = 1,	/*%< Format error. */
230 	ns_r_servfail = 2,	/*%< Server failure. */
231 	ns_r_nxdomain = 3,	/*%< Name error. */
232 	ns_r_notimpl = 4,	/*%< Unimplemented. */
233 	ns_r_refused = 5,	/*%< Operation refused. */
234 	/* these are for BIND_UPDATE */
235 	ns_r_yxdomain = 6,	/*%< Name exists */
236 	ns_r_yxrrset = 7,	/*%< RRset exists */
237 	ns_r_nxrrset = 8,	/*%< RRset does not exist */
238 	ns_r_notauth = 9,	/*%< Not authoritative for zone */
239 	ns_r_notzone = 10,	/*%< Zone of record different from zone section */
240 	ns_r_max = 11,
241 	/* The following are EDNS extended rcodes */
242 	ns_r_badvers = 16,
243 	/* The following are TSIG errors */
244 	ns_r_badsig = 16,
245 	ns_r_badkey = 17,
246 	ns_r_badtime = 18
247 } ns_rcode;
248 
249 /* BIND_UPDATE */
250 typedef enum __ns_update_operation {
251 	ns_uop_delete = 0,
252 	ns_uop_add = 1,
253 	ns_uop_max = 2
254 } ns_update_operation;
255 
256 /*%
257  * This structure is used for TSIG authenticated messages
258  */
259 struct ns_tsig_key {
260 	char name[NS_MAXDNAME], alg[NS_MAXDNAME];
261 	unsigned char *data;
262 	int len;
263 };
264 typedef struct ns_tsig_key ns_tsig_key;
265 
266 /*%
267  * This structure is used for TSIG authenticated TCP messages
268  */
269 struct ns_tcp_tsig_state {
270 	int counter;
271 	struct dst_key *key;
272 	void *ctx;
273 	unsigned char sig[NS_PACKETSZ];
274 	int siglen;
275 };
276 typedef struct ns_tcp_tsig_state ns_tcp_tsig_state;
277 
278 #define NS_TSIG_FUDGE 300
279 #define NS_TSIG_TCP_COUNT 100
280 #define NS_TSIG_ALG_HMAC_MD5 "HMAC-MD5.SIG-ALG.REG.INT"
281 
282 #define NS_TSIG_ERROR_NO_TSIG -10
283 #define NS_TSIG_ERROR_NO_SPACE -11
284 #define NS_TSIG_ERROR_FORMERR -12
285 
286 /*%
287  * Currently defined type values for resources and queries.
288  */
289 typedef enum __ns_type {
290 	ns_t_invalid = 0,	/*%< Cookie. */
291 	ns_t_a = 1,		/*%< Host address. */
292 	ns_t_ns = 2,		/*%< Authoritative server. */
293 	ns_t_md = 3,		/*%< Mail destination. */
294 	ns_t_mf = 4,		/*%< Mail forwarder. */
295 	ns_t_cname = 5,		/*%< Canonical name. */
296 	ns_t_soa = 6,		/*%< Start of authority zone. */
297 	ns_t_mb = 7,		/*%< Mailbox domain name. */
298 	ns_t_mg = 8,		/*%< Mail group member. */
299 	ns_t_mr = 9,		/*%< Mail rename name. */
300 	ns_t_null = 10,		/*%< Null resource record. */
301 	ns_t_wks = 11,		/*%< Well known service. */
302 	ns_t_ptr = 12,		/*%< Domain name pointer. */
303 	ns_t_hinfo = 13,	/*%< Host information. */
304 	ns_t_minfo = 14,	/*%< Mailbox information. */
305 	ns_t_mx = 15,		/*%< Mail routing information. */
306 	ns_t_txt = 16,		/*%< Text strings. */
307 	ns_t_rp = 17,		/*%< Responsible person. */
308 	ns_t_afsdb = 18,	/*%< AFS cell database. */
309 	ns_t_x25 = 19,		/*%< X_25 calling address. */
310 	ns_t_isdn = 20,		/*%< ISDN calling address. */
311 	ns_t_rt = 21,		/*%< Router. */
312 	ns_t_nsap = 22,		/*%< NSAP address. */
313 	ns_t_nsap_ptr = 23,	/*%< Reverse NSAP lookup (deprecated). */
314 	ns_t_sig = 24,		/*%< Security signature. */
315 	ns_t_key = 25,		/*%< Security key. */
316 	ns_t_px = 26,		/*%< X.400 mail mapping. */
317 	ns_t_gpos = 27,		/*%< Geographical position (withdrawn). */
318 	ns_t_aaaa = 28,		/*%< IPv6 Address. */
319 	ns_t_loc = 29,		/*%< Location Information. */
320 	ns_t_nxt = 30,		/*%< Next domain (security). */
321 	ns_t_eid = 31,		/*%< Endpoint identifier. */
322 	ns_t_nimloc = 32,	/*%< Nimrod Locator. */
323 	ns_t_srv = 33,		/*%< Server Selection. */
324 	ns_t_atma = 34,		/*%< ATM Address */
325 	ns_t_naptr = 35,	/*%< Naming Authority PoinTeR */
326 	ns_t_kx = 36,		/*%< Key Exchange */
327 	ns_t_cert = 37,		/*%< Certification record */
328 	ns_t_a6 = 38,		/*%< IPv6 address (experimental) */
329 	ns_t_dname = 39,	/*%< Non-terminal DNAME */
330 	ns_t_sink = 40,		/*%< Kitchen sink (experimentatl) */
331 	ns_t_opt = 41,		/*%< EDNS0 option (meta-RR) */
332 	ns_t_apl = 42,		/*%< Address prefix list (RFC3123) */
333 	ns_t_ds = 43,		/*%< Delegation Signer */
334 	ns_t_sshfp = 44,	/*%< SSH Fingerprint */
335 	ns_t_ipseckey = 45,	/*%< IPSEC Key */
336 	ns_t_rrsig = 46,	/*%< RRset Signature */
337 	ns_t_nsec = 47,		/*%< Negative security */
338 	ns_t_dnskey = 48,	/*%< DNS Key */
339 	ns_t_dhcid = 49,	/*%< Dynamic host configuratin identifier */
340 	ns_t_nsec3 = 50,	/*%< Negative security type 3 */
341 	ns_t_nsec3param = 51,	/*%< Negative security type 3 parameters */
342 	ns_t_hip = 55,		/*%< Host Identity Protocol */
343 	ns_t_spf = 99,		/*%< Sender Policy Framework */
344 	ns_t_tkey = 249,	/*%< Transaction key */
345 	ns_t_tsig = 250,	/*%< Transaction signature. */
346 	ns_t_ixfr = 251,	/*%< Incremental zone transfer. */
347 	ns_t_axfr = 252,	/*%< Transfer zone of authority. */
348 	ns_t_mailb = 253,	/*%< Transfer mailbox records. */
349 	ns_t_maila = 254,	/*%< Transfer mail agent records. */
350 	ns_t_any = 255,		/*%< Wildcard match. */
351 	ns_t_zxfr = 256,	/*%< BIND-specific, nonstandard. */
352 	ns_t_dlv = 32769,	/*%< DNSSEC look-aside validatation. */
353 	ns_t_max = 65536
354 } ns_type;
355 
356 /* Exclusively a QTYPE? (not also an RTYPE) */
357 #define	ns_t_qt_p(t) (ns_t_xfr_p(t) || (t) == ns_t_any || \
358 		      (t) == ns_t_mailb || (t) == ns_t_maila)
359 /* Some kind of meta-RR? (not a QTYPE, but also not an RTYPE) */
360 #define	ns_t_mrr_p(t) ((t) == ns_t_tsig || (t) == ns_t_opt)
361 /* Exclusively an RTYPE? (not also a QTYPE or a meta-RR) */
362 #define ns_t_rr_p(t) (!ns_t_qt_p(t) && !ns_t_mrr_p(t))
363 #define ns_t_udp_p(t) ((t) != ns_t_axfr && (t) != ns_t_zxfr)
364 #define ns_t_xfr_p(t) ((t) == ns_t_axfr || (t) == ns_t_ixfr || \
365 		       (t) == ns_t_zxfr)
366 
367 /*%
368  * Values for class field
369  */
370 typedef enum __ns_class {
371 	ns_c_invalid = 0,	/*%< Cookie. */
372 	ns_c_in = 1,		/*%< Internet. */
373 	ns_c_2 = 2,		/*%< unallocated/unsupported. */
374 	ns_c_chaos = 3,		/*%< MIT Chaos-net. */
375 	ns_c_hs = 4,		/*%< MIT Hesiod. */
376 	/* Query class values which do not appear in resource records */
377 	ns_c_none = 254,	/*%< for prereq. sections in update requests */
378 	ns_c_any = 255,		/*%< Wildcard match. */
379 	ns_c_max = 65536
380 } ns_class;
381 
382 /* DNSSEC constants. */
383 
384 typedef enum __ns_key_types {
385 	ns_kt_rsa = 1,		/*%< key type RSA/MD5 */
386 	ns_kt_dh  = 2,		/*%< Diffie Hellman */
387 	ns_kt_dsa = 3,		/*%< Digital Signature Standard (MANDATORY) */
388 	ns_kt_private = 254	/*%< Private key type starts with OID */
389 } ns_key_types;
390 
391 typedef enum __ns_cert_types {
392 	cert_t_pkix = 1,	/*%< PKIX (X.509v3) */
393 	cert_t_spki = 2,	/*%< SPKI */
394 	cert_t_pgp  = 3,	/*%< PGP */
395 	cert_t_url  = 253,	/*%< URL private type */
396 	cert_t_oid  = 254	/*%< OID private type */
397 } ns_cert_types;
398 
399 /* Flags field of the KEY RR rdata. */
400 #define	NS_KEY_TYPEMASK		0xC000	/*%< Mask for "type" bits */
401 #define	NS_KEY_TYPE_AUTH_CONF	0x0000	/*%< Key usable for both */
402 #define	NS_KEY_TYPE_CONF_ONLY	0x8000	/*%< Key usable for confidentiality */
403 #define	NS_KEY_TYPE_AUTH_ONLY	0x4000	/*%< Key usable for authentication */
404 #define	NS_KEY_TYPE_NO_KEY	0xC000	/*%< No key usable for either; no key */
405 /* The type bits can also be interpreted independently, as single bits: */
406 #define	NS_KEY_NO_AUTH		0x8000	/*%< Key unusable for authentication */
407 #define	NS_KEY_NO_CONF		0x4000	/*%< Key unusable for confidentiality */
408 #define	NS_KEY_RESERVED2	0x2000	/* Security is *mandatory* if bit=0 */
409 #define	NS_KEY_EXTENDED_FLAGS	0x1000	/*%< reserved - must be zero */
410 #define	NS_KEY_RESERVED4	0x0800  /*%< reserved - must be zero */
411 #define	NS_KEY_RESERVED5	0x0400  /*%< reserved - must be zero */
412 #define	NS_KEY_NAME_TYPE	0x0300	/*%< these bits determine the type */
413 #define	NS_KEY_NAME_USER	0x0000	/*%< key is assoc. with user */
414 #define	NS_KEY_NAME_ENTITY	0x0200	/*%< key is assoc. with entity eg host */
415 #define	NS_KEY_NAME_ZONE	0x0100	/*%< key is zone key */
416 #define	NS_KEY_NAME_RESERVED	0x0300	/*%< reserved meaning */
417 #define	NS_KEY_RESERVED8	0x0080  /*%< reserved - must be zero */
418 #define	NS_KEY_RESERVED9	0x0040  /*%< reserved - must be zero */
419 #define	NS_KEY_RESERVED10	0x0020  /*%< reserved - must be zero */
420 #define	NS_KEY_RESERVED11	0x0010  /*%< reserved - must be zero */
421 #define	NS_KEY_SIGNATORYMASK	0x000F	/*%< key can sign RR's of same name */
422 #define	NS_KEY_RESERVED_BITMASK ( NS_KEY_RESERVED2 | \
423 				  NS_KEY_RESERVED4 | \
424 				  NS_KEY_RESERVED5 | \
425 				  NS_KEY_RESERVED8 | \
426 				  NS_KEY_RESERVED9 | \
427 				  NS_KEY_RESERVED10 | \
428 				  NS_KEY_RESERVED11 )
429 #define NS_KEY_RESERVED_BITMASK2 0xFFFF /*%< no bits defined here */
430 /* The Algorithm field of the KEY and SIG RR's is an integer, {1..254} */
431 #define	NS_ALG_MD5RSA		1	/*%< MD5 with RSA */
432 #define	NS_ALG_DH               2	/*%< Diffie Hellman KEY */
433 #define	NS_ALG_DSA              3	/*%< DSA KEY */
434 #define	NS_ALG_DSS              NS_ALG_DSA
435 #define	NS_ALG_EXPIRE_ONLY	253	/*%< No alg, no security */
436 #define	NS_ALG_PRIVATE_OID	254	/*%< Key begins with OID giving alg */
437 /* Protocol values  */
438 /* value 0 is reserved */
439 #define NS_KEY_PROT_TLS         1
440 #define NS_KEY_PROT_EMAIL       2
441 #define NS_KEY_PROT_DNSSEC      3
442 #define NS_KEY_PROT_IPSEC       4
443 #define NS_KEY_PROT_ANY		255
444 
445 /* Signatures */
446 #define	NS_MD5RSA_MIN_BITS	 512	/*%< Size of a mod or exp in bits */
447 #define	NS_MD5RSA_MAX_BITS	4096
448 	/* Total of binary mod and exp */
449 #define	NS_MD5RSA_MAX_BYTES	((NS_MD5RSA_MAX_BITS+7/8)*2+3)
450 	/* Max length of text sig block */
451 #define	NS_MD5RSA_MAX_BASE64	(((NS_MD5RSA_MAX_BYTES+2)/3)*4)
452 #define NS_MD5RSA_MIN_SIZE	((NS_MD5RSA_MIN_BITS+7)/8)
453 #define NS_MD5RSA_MAX_SIZE	((NS_MD5RSA_MAX_BITS+7)/8)
454 
455 #define NS_DSA_SIG_SIZE         41
456 #define NS_DSA_MIN_SIZE         213
457 #define NS_DSA_MAX_BYTES        405
458 
459 /* Offsets into SIG record rdata to find various values */
460 #define	NS_SIG_TYPE	0	/*%< Type flags */
461 #define	NS_SIG_ALG	2	/*%< Algorithm */
462 #define	NS_SIG_LABELS	3	/*%< How many labels in name */
463 #define	NS_SIG_OTTL	4	/*%< Original TTL */
464 #define	NS_SIG_EXPIR	8	/*%< Expiration time */
465 #define	NS_SIG_SIGNED	12	/*%< Signature time */
466 #define	NS_SIG_FOOT	16	/*%< Key footprint */
467 #define	NS_SIG_SIGNER	18	/*%< Domain name of who signed it */
468 /* How RR types are represented as bit-flags in NXT records */
469 #define	NS_NXT_BITS 8
470 #define	NS_NXT_BIT_SET(  n,p) (p[(n)/NS_NXT_BITS] |=  (0x80>>((n)%NS_NXT_BITS)))
471 #define	NS_NXT_BIT_CLEAR(n,p) (p[(n)/NS_NXT_BITS] &= ~(0x80>>((n)%NS_NXT_BITS)))
472 #define	NS_NXT_BIT_ISSET(n,p) (p[(n)/NS_NXT_BITS] &   (0x80>>((n)%NS_NXT_BITS)))
473 #define NS_NXT_MAX 127
474 
475 /*%
476  * EDNS0 extended flags and option codes, host order.
477  */
478 #define NS_OPT_DNSSEC_OK	0x8000U
479 #define NS_OPT_NSID             3
480 
481 /*%
482  * Inline versions of get/put short/long.  Pointer is advanced.
483  */
484 #define NS_GET16(s, cp) do { \
485 	register const u_char *t_cp = (const u_char *)(cp); \
486 	(s) = ((u_int16_t)t_cp[0] << 8) \
487 	    | ((u_int16_t)t_cp[1]) \
488 	    ; \
489 	(cp) += NS_INT16SZ; \
490 } while (0)
491 
492 #define NS_GET32(l, cp) do { \
493 	register const u_char *t_cp = (const u_char *)(cp); \
494 	(l) = ((u_int32_t)t_cp[0] << 24) \
495 	    | ((u_int32_t)t_cp[1] << 16) \
496 	    | ((u_int32_t)t_cp[2] << 8) \
497 	    | ((u_int32_t)t_cp[3]) \
498 	    ; \
499 	(cp) += NS_INT32SZ; \
500 } while (0)
501 
502 #define NS_PUT16(s, cp) do { \
503 	register u_int16_t t_s = (u_int16_t)(s); \
504 	register u_char *t_cp = (u_char *)(cp); \
505 	*t_cp++ = t_s >> 8; \
506 	*t_cp   = t_s; \
507 	(cp) += NS_INT16SZ; \
508 } while (0)
509 
510 #define NS_PUT32(l, cp) do { \
511 	register u_int32_t t_l = (u_int32_t)(l); \
512 	register u_char *t_cp = (u_char *)(cp); \
513 	*t_cp++ = t_l >> 24; \
514 	*t_cp++ = t_l >> 16; \
515 	*t_cp++ = t_l >> 8; \
516 	*t_cp   = t_l; \
517 	(cp) += NS_INT32SZ; \
518 } while (0)
519 
520 /*%
521  * ANSI C identifier hiding for bind's lib/nameser.
522  */
523 #define	ns_msg_getflag		__ns_msg_getflag
524 #define ns_get16		__ns_get16
525 #define ns_get32		__ns_get32
526 #define ns_put16		__ns_put16
527 #define ns_put32		__ns_put32
528 #define ns_initparse		__ns_initparse
529 #define ns_skiprr		__ns_skiprr
530 #define ns_parserr		__ns_parserr
531 #define ns_parserr2		__ns_parserr2
532 #define	ns_sprintrr		__ns_sprintrr
533 #define	ns_sprintrrf		__ns_sprintrrf
534 #define	ns_format_ttl		__ns_format_ttl
535 #define	ns_parse_ttl		__ns_parse_ttl
536 #if 0
537 #define ns_datetosecs		__ns_datetosecs
538 #endif
539 #define	ns_name_ntol		__ns_name_ntol
540 #define	ns_name_ntop		__ns_name_ntop
541 #define	ns_name_pton		__ns_name_pton
542 #define	ns_name_pton2		__ns_name_pton2
543 #define	ns_name_unpack		__ns_name_unpack
544 #define	ns_name_unpack2		__ns_name_unpack2
545 #define	ns_name_pack		__ns_name_pack
546 #define	ns_name_compress	__ns_name_compress
547 #define	ns_name_uncompress	__ns_name_uncompress
548 #define	ns_name_skip		__ns_name_skip
549 #define	ns_name_rollback	__ns_name_rollback
550 #define	ns_name_length		__ns_name_length
551 #define	ns_name_eq		__ns_name_eq
552 #define	ns_name_owned		__ns_name_owned
553 #define	ns_name_map		__ns_name_map
554 #define	ns_name_labels		__ns_name_labels
555 #if 0
556 #define	ns_sign			__ns_sign
557 #define	ns_sign2		__ns_sign2
558 #define	ns_sign_tcp		__ns_sign_tcp
559 #define	ns_sign_tcp2		__ns_sign_tcp2
560 #define	ns_sign_tcp_init	__ns_sign_tcp_init
561 #define ns_find_tsig		__ns_find_tsig
562 #define	ns_verify		__ns_verify
563 #define	ns_verify_tcp		__ns_verify_tcp
564 #define	ns_verify_tcp_init	__ns_verify_tcp_init
565 #endif
566 #define	ns_samedomain		__ns_samedomain
567 #if 0
568 #define	ns_subdomain		__ns_subdomain
569 #endif
570 #define	ns_makecanon		__ns_makecanon
571 #define	ns_samename		__ns_samename
572 #define	ns_newmsg_init		__ns_newmsg_init
573 #define	ns_newmsg_copy		__ns_newmsg_copy
574 #define	ns_newmsg_id		__ns_newmsg_id
575 #define	ns_newmsg_flag		__ns_newmsg_flag
576 #define	ns_newmsg_q		__ns_newmsg_q
577 #define	ns_newmsg_rr		__ns_newmsg_rr
578 #define	ns_newmsg_done		__ns_newmsg_done
579 #define	ns_rdata_unpack		__ns_rdata_unpack
580 #define	ns_rdata_equal		__ns_rdata_equal
581 #define	ns_rdata_refers		__ns_rdata_refers
582 
583 __BEGIN_DECLS
584 int		ns_msg_getflag(ns_msg, int);
585 u_int		ns_get16(const u_char *);
586 u_long		ns_get32(const u_char *);
587 void		ns_put16(u_int, u_char *);
588 void		ns_put32(u_long, u_char *);
589 int		ns_initparse(const u_char *, int, ns_msg *);
590 int		ns_skiprr(const u_char *, const u_char *, ns_sect, int);
591 int		ns_parserr(ns_msg *, ns_sect, int, ns_rr *);
592 int		ns_parserr2(ns_msg *, ns_sect, int, ns_rr2 *);
593 int		ns_sprintrr(const ns_msg *, const ns_rr *,
594 			    const char *, const char *, char *, size_t);
595 int		ns_sprintrrf(const u_char *, size_t, const char *,
596 			     ns_class, ns_type, u_long, const u_char *,
597 			     size_t, const char *, const char *,
598 			     char *, size_t);
599 int		ns_format_ttl(u_long, char *, size_t);
600 int		ns_parse_ttl(const char *, u_long *);
601 #if 0
602 u_int32_t	ns_datetosecs(const char *cp, int *errp);
603 #endif
604 int		ns_name_ntol(const u_char *, u_char *, size_t);
605 int		ns_name_ntop(const u_char *, char *, size_t);
606 int		ns_name_pton(const char *, u_char *, size_t);
607 int		ns_name_pton2(const char *, u_char *, size_t, size_t *);
608 int		ns_name_unpack(const u_char *, const u_char *,
609 			       const u_char *, u_char *, size_t);
610 int		ns_name_unpack2(const u_char *, const u_char *,
611 				const u_char *, u_char *, size_t,
612 				size_t *);
613 int		ns_name_pack(const u_char *, u_char *, int,
614 			     const u_char **, const u_char **);
615 int		ns_name_uncompress(const u_char *, const u_char *,
616 				   const u_char *, char *, size_t);
617 int		ns_name_compress(const char *, u_char *, size_t,
618 				 const u_char **, const u_char **);
619 int		ns_name_skip(const u_char **, const u_char *);
620 void		ns_name_rollback(const u_char *, const u_char **,
621 				 const u_char **);
622 ssize_t		ns_name_length(ns_nname_ct, size_t);
623 int		ns_name_eq(ns_nname_ct, size_t, ns_nname_ct, size_t);
624 int		ns_name_owned(ns_namemap_ct, int, ns_namemap_ct, int);
625 int		ns_name_map(ns_nname_ct, size_t, ns_namemap_t, int);
626 int		ns_name_labels(ns_nname_ct, size_t);
627 #if 0
628 int		ns_sign(u_char *, int *, int, int, void *,
629 			const u_char *, int, u_char *, int *, time_t);
630 int		ns_sign2(u_char *, int *, int, int, void *,
631 			 const u_char *, int, u_char *, int *, time_t,
632 			 u_char **, u_char **);
633 int		ns_sign_tcp(u_char *, int *, int, int,
634 			    ns_tcp_tsig_state *, int);
635 int		ns_sign_tcp2(u_char *, int *, int, int,
636 			     ns_tcp_tsig_state *, int,
637 			     u_char **, u_char **);
638 int		ns_sign_tcp_init(void *, const u_char *, int,
639 				 ns_tcp_tsig_state *);
640 u_char		*ns_find_tsig(u_char *, u_char *);
641 int		ns_verify(u_char *, int *, void *,
642 			  const u_char *, int, u_char *, int *,
643 			  time_t *, int);
644 int		ns_verify_tcp(u_char *, int *, ns_tcp_tsig_state *, int);
645 int		ns_verify_tcp_init(void *, const u_char *, int,
646 				   ns_tcp_tsig_state *);
647 #endif
648 int		ns_samedomain(const char *, const char *);
649 #if 0
650 int		ns_subdomain(const char *, const char *);
651 #endif
652 int		ns_makecanon(const char *, char *, size_t);
653 int		ns_samename(const char *, const char *);
654 int		ns_newmsg_init(u_char *buffer, size_t bufsiz, ns_newmsg *);
655 int		ns_newmsg_copy(ns_newmsg *, ns_msg *);
656 void		ns_newmsg_id(ns_newmsg *handle, u_int16_t id);
657 void		ns_newmsg_flag(ns_newmsg *handle, ns_flag flag, u_int value);
658 int		ns_newmsg_q(ns_newmsg *handle, ns_nname_ct qname,
659 			    ns_type qtype, ns_class qclass);
660 int		ns_newmsg_rr(ns_newmsg *handle, ns_sect sect,
661 			     ns_nname_ct name, ns_type type,
662 			     ns_class rr_class, u_int32_t ttl,
663 			     u_int16_t rdlen, const u_char *rdata);
664 size_t		ns_newmsg_done(ns_newmsg *handle);
665 ssize_t		ns_rdata_unpack(const u_char *, const u_char *, ns_type,
666 				const u_char *, size_t, u_char *, size_t);
667 int		ns_rdata_equal(ns_type,
668 			       const u_char *, size_t,
669 			       const u_char *, size_t);
670 int		ns_rdata_refers(ns_type,
671 				const u_char *, size_t,
672 				const u_char *);
673 __END_DECLS
674 
675 #ifdef BIND_4_COMPAT
676 #include <arpa/nameser_compat.h>
677 #endif
678 
679 #endif /* !_ARPA_NAMESER_H_ */
680 /*! \file */
681