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/* udns.h
header file for the UDNS library.
Copyright (C) 2005 Michael Tokarev <mjt@corpit.ru>
This file is part of UDNS library, an async DNS stub resolver.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library, in file named COPYING.LGPL; if not,
write to the Free Software Foundation, Inc., 59 Temple Place,
Suite 330, Boston, MA 02111-1307 USA
*/
#ifndef UDNS_VERSION /* include guard */
#define UDNS_VERSION "0.4"
#ifdef __MINGW32__
# ifdef UDNS_DYNAMIC_LIBRARY
# ifdef DNS_LIBRARY_BUILD
# define UDNS_API __declspec(dllexport)
# define UDNS_DATA_API __declspec(dllexport)
# else
# define UDNS_API __declspec(dllimport)
# define UDNS_DATA_API __declspec(dllimport)
# endif
# endif
#endif
#ifndef UDNS_API
# define UDNS_API
#endif
#ifndef UDNS_DATA_API
# define UDNS_DATA_API
#endif
#include <sys/types.h> /* for time_t */
#ifdef __cplusplus
extern "C" {
#endif
/* forward declarations if sockets stuff isn't #include'd */
struct in_addr;
struct in6_addr;
struct sockaddr;
/**************************************************************************/
/**************** Common definitions **************************************/
UDNS_API const char *
dns_version(void);
struct dns_ctx;
struct dns_query;
/* shorthand for [const] unsigned char */
typedef unsigned char dnsc_t;
typedef const unsigned char dnscc_t;
#define DNS_MAXDN 255 /* max DN length */
#define DNS_DNPAD 1 /* padding for DN buffers */
#define DNS_MAXLABEL 63 /* max DN label length */
#define DNS_MAXNAME 1024 /* max asciiz domain name length */
#define DNS_HSIZE 12 /* DNS packet header size */
#define DNS_PORT 53 /* default domain port */
#define DNS_MAXSERV 6 /* max servers to consult */
#define DNS_MAXPACKET 512 /* max traditional-DNS UDP packet size */
#define DNS_EDNS0PACKET 4096 /* EDNS0 packet size to use */
enum dns_class { /* DNS RR Classes */
DNS_C_INVALID = 0, /* invalid class */
DNS_C_IN = 1, /* Internet */
DNS_C_CH = 3, /* CHAOS */
DNS_C_HS = 4, /* HESIOD */
DNS_C_ANY = 255 /* wildcard */
};
enum dns_type { /* DNS RR Types */
DNS_T_INVALID = 0, /* Cookie. */
DNS_T_A = 1, /* Host address. */
DNS_T_NS = 2, /* Authoritative server. */
DNS_T_MD = 3, /* Mail destination. */
DNS_T_MF = 4, /* Mail forwarder. */
DNS_T_CNAME = 5, /* Canonical name. */
DNS_T_SOA = 6, /* Start of authority zone. */
DNS_T_MB = 7, /* Mailbox domain name. */
DNS_T_MG = 8, /* Mail group member. */
DNS_T_MR = 9, /* Mail rename name. */
DNS_T_NULL = 10, /* Null resource record. */
DNS_T_WKS = 11, /* Well known service. */
DNS_T_PTR = 12, /* Domain name pointer. */
DNS_T_HINFO = 13, /* Host information. */
DNS_T_MINFO = 14, /* Mailbox information. */
DNS_T_MX = 15, /* Mail routing information. */
DNS_T_TXT = 16, /* Text strings. */
DNS_T_RP = 17, /* Responsible person. */
DNS_T_AFSDB = 18, /* AFS cell database. */
DNS_T_X25 = 19, /* X_25 calling address. */
DNS_T_ISDN = 20, /* ISDN calling address. */
DNS_T_RT = 21, /* Router. */
DNS_T_NSAP = 22, /* NSAP address. */
DNS_T_NSAP_PTR = 23, /* Reverse NSAP lookup (deprecated). */
DNS_T_SIG = 24, /* Security signature. */
DNS_T_KEY = 25, /* Security key. */
DNS_T_PX = 26, /* X.400 mail mapping. */
DNS_T_GPOS = 27, /* Geographical position (withdrawn). */
DNS_T_AAAA = 28, /* Ip6 Address. */
DNS_T_LOC = 29, /* Location Information. */
DNS_T_NXT = 30, /* Next domain (security). */
DNS_T_EID = 31, /* Endpoint identifier. */
DNS_T_NIMLOC = 32, /* Nimrod Locator. */
DNS_T_SRV = 33, /* Server Selection. */
DNS_T_ATMA = 34, /* ATM Address */
DNS_T_NAPTR = 35, /* Naming Authority PoinTeR */
DNS_T_KX = 36, /* Key Exchange */
DNS_T_CERT = 37, /* Certification record */
DNS_T_A6 = 38, /* IPv6 address (deprecates AAAA) */
DNS_T_DNAME = 39, /* Non-terminal DNAME (for IPv6) */
DNS_T_SINK = 40, /* Kitchen sink (experimentatl) */
DNS_T_OPT = 41, /* EDNS0 option (meta-RR) */
DNS_T_DS = 43, /* DNSSEC */
DNS_T_SSHFP = 44,
DNS_T_IPSECKEY = 45,
DNS_T_RRSIG = 46, /* DNSSEC */
DNS_T_NSEC = 47, /* DNSSEC */
DNS_T_DNSKEY = 48,
DNS_T_DHCID = 49,
DNS_T_NSEC3 = 50,
DNS_T_NSEC3PARAMS = 51,
DNS_T_TALINK = 58, /* draft-ietf-dnsop-trust-history */
DNS_T_SPF = 99,
DNS_T_UINFO = 100,
DNS_T_UID = 101,
DNS_T_GID = 102,
DNS_T_UNSPEC = 103,
DNS_T_TSIG = 250, /* Transaction signature. */
DNS_T_IXFR = 251, /* Incremental zone transfer. */
DNS_T_AXFR = 252, /* Transfer zone of authority. */
DNS_T_MAILB = 253, /* Transfer mailbox records. */
DNS_T_MAILA = 254, /* Transfer mail agent records. */
DNS_T_ANY = 255, /* Wildcard match. */
DNS_T_ZXFR = 256, /* BIND-specific, nonstandard. */
DNS_T_DLV = 32769, /* RFC 4431, 5074, DNSSEC Lookaside Validation */
DNS_T_MAX = 65536
};
/**************************************************************************/
/**************** Domain Names (DNs) **************************************/
/* return length of the DN */
UDNS_API unsigned
dns_dnlen(dnscc_t *dn);
/* return #of labels in a DN */
UDNS_API unsigned
dns_dnlabels(dnscc_t *dn);
/* lower- and uppercase single DN char */
#define DNS_DNLC(c) ((c) >= 'A' && (c) <= 'Z' ? (c) - 'A' + 'a' : (c))
#define DNS_DNUC(c) ((c) >= 'a' && (c) <= 'z' ? (c) - 'a' + 'A' : (c))
/* compare the DNs, return dnlen of equal or 0 if not */
UDNS_API unsigned
dns_dnequal(dnscc_t *dn1, dnscc_t *dn2);
/* copy one DN to another, size checking */
UDNS_API unsigned
dns_dntodn(dnscc_t *sdn, dnsc_t *ddn, unsigned ddnsiz);
/* convert asciiz string of length namelen (0 to use strlen) to DN */
UDNS_API int
dns_ptodn(const char *name, unsigned namelen,
dnsc_t *dn, unsigned dnsiz, int *isabs);
/* simpler form of dns_ptodn() */
#define dns_sptodn(name,dn,dnsiz) dns_ptodn((name),0,(dn),(dnsiz),0)
UDNS_DATA_API extern dnscc_t dns_inaddr_arpa_dn[14];
#define DNS_A4RSIZE 30
UDNS_API int
dns_a4todn(const struct in_addr *addr, dnscc_t *tdn,
dnsc_t *dn, unsigned dnsiz);
UDNS_API int
dns_a4ptodn(const struct in_addr *addr, const char *tname,
dnsc_t *dn, unsigned dnsiz);
UDNS_API dnsc_t *
dns_a4todn_(const struct in_addr *addr, dnsc_t *dn, dnsc_t *dne);
UDNS_DATA_API extern dnscc_t dns_ip6_arpa_dn[10];
#define DNS_A6RSIZE 74
UDNS_API int
dns_a6todn(const struct in6_addr *addr, dnscc_t *tdn,
dnsc_t *dn, unsigned dnsiz);
UDNS_API int
dns_a6ptodn(const struct in6_addr *addr, const char *tname,
dnsc_t *dn, unsigned dnsiz);
UDNS_API dnsc_t *
dns_a6todn_(const struct in6_addr *addr, dnsc_t *dn, dnsc_t *dne);
/* convert DN into asciiz string */
UDNS_API int
dns_dntop(dnscc_t *dn, char *name, unsigned namesiz);
/* convert DN into asciiz string, using static buffer (NOT thread-safe!) */
UDNS_API const char *
dns_dntosp(dnscc_t *dn);
/* return buffer size (incl. null byte) required for asciiz form of a DN */
UDNS_API unsigned
dns_dntop_size(dnscc_t *dn);
/* either wrappers or reimplementations for inet_ntop() and inet_pton() */
UDNS_API const char *dns_ntop(int af, const void *src, char *dst, int size);
UDNS_API int dns_pton(int af, const char *src, void *dst);
/**************************************************************************/
/**************** DNS raw packet layout ***********************************/
enum dns_rcode { /* reply codes */
DNS_R_NOERROR = 0, /* ok, no error */
DNS_R_FORMERR = 1, /* format error */
DNS_R_SERVFAIL = 2, /* server failed */
DNS_R_NXDOMAIN = 3, /* domain does not exists */
DNS_R_NOTIMPL = 4, /* not implemented */
DNS_R_REFUSED = 5, /* query refused */
/* these are for BIND_UPDATE */
DNS_R_YXDOMAIN = 6, /* Name exists */
DNS_R_YXRRSET = 7, /* RRset exists */
DNS_R_NXRRSET = 8, /* RRset does not exist */
DNS_R_NOTAUTH = 9, /* Not authoritative for zone */
DNS_R_NOTZONE = 10, /* Zone of record different from zone section */
/*ns_r_max = 11,*/
/* The following are TSIG extended errors */
DNS_R_BADSIG = 16,
DNS_R_BADKEY = 17,
DNS_R_BADTIME = 18
};
static __inline unsigned dns_get16(dnscc_t *s) {
return ((unsigned)s[0]<<8) | s[1];
}
static __inline unsigned dns_get32(dnscc_t *s) {
return ((unsigned)s[0]<<24) | ((unsigned)s[1]<<16)
| ((unsigned)s[2]<<8) | s[3];
}
static __inline dnsc_t *dns_put16(dnsc_t *d, unsigned n) {
*d++ = (dnsc_t)((n >> 8) & 255); *d++ = (dnsc_t)(n & 255); return d;
}
static __inline dnsc_t *dns_put32(dnsc_t *d, unsigned n) {
*d++ = (dnsc_t)((n >> 24) & 255); *d++ = (dnsc_t)((n >> 16) & 255);
*d++ = (dnsc_t)((n >> 8) & 255); *d++ = (dnsc_t)(n & 255);
return d;
}
/* DNS Header layout */
enum {
/* bytes 0:1 - query ID */
DNS_H_QID1 = 0,
DNS_H_QID2 = 1,
DNS_H_QID = DNS_H_QID1,
#define dns_qid(pkt) dns_get16((pkt)+DNS_H_QID)
/* byte 2: flags1 */
DNS_H_F1 = 2,
DNS_HF1_QR = 0x80, /* query response flag */
#define dns_qr(pkt) ((pkt)[DNS_H_F1]&DNS_HF1_QR)
DNS_HF1_OPCODE = 0x78, /* opcode, 0 = query */
#define dns_opcode(pkt) (((pkt)[DNS_H_F1]&DNS_HF1_OPCODE)>>3)
DNS_HF1_AA = 0x04, /* auth answer */
#define dns_aa(pkt) ((pkt)[DNS_H_F1]&DNS_HF1_AA)
DNS_HF1_TC = 0x02, /* truncation flag */
#define dns_tc(pkt) ((pkt)[DNS_H_F1]&DNS_HF1_TC)
DNS_HF1_RD = 0x01, /* recursion desired (may be set in query) */
#define dns_rd(pkt) ((pkt)[DNS_H_F1]&DNS_HF1_RD)
/* byte 3: flags2 */
DNS_H_F2 = 3,
DNS_HF2_RA = 0x80, /* recursion available */
#define dns_ra(pkt) ((pkt)[DNS_H_F2]&DNS_HF2_RA)
DNS_HF2_Z = 0x40, /* reserved */
DNS_HF2_AD = 0x20, /* DNSSEC: authentic data */
#define dns_ad(pkt) ((pkt)[DNS_H_F2]&DNS_HF2_AD)
DNS_HF2_CD = 0x10, /* DNSSEC: checking disabled */
#define dns_cd(pkt) ((pkt)[DNS_H_F2]&DNS_HF2_CD)
DNS_HF2_RCODE = 0x0f, /* response code, DNS_R_XXX above */
#define dns_rcode(pkt) ((pkt)[DNS_H_F2]&DNS_HF2_RCODE)
/* bytes 4:5: qdcount, numqueries */
DNS_H_QDCNT1 = 4,
DNS_H_QDCNT2 = 5,
DNS_H_QDCNT = DNS_H_QDCNT1,
#define dns_numqd(pkt) dns_get16((pkt)+4)
/* bytes 6:7: ancount, numanswers */
DNS_H_ANCNT1 = 6,
DNS_H_ANCNT2 = 7,
DNS_H_ANCNT = DNS_H_ANCNT1,
#define dns_numan(pkt) dns_get16((pkt)+6)
/* bytes 8:9: nscount, numauthority */
DNS_H_NSCNT1 = 8,
DNS_H_NSCNT2 = 9,
DNS_H_NSCNT = DNS_H_NSCNT1,
#define dns_numns(pkt) dns_get16((pkt)+8)
/* bytes 10:11: arcount, numadditional */
DNS_H_ARCNT1 = 10,
DNS_H_ARCNT2 = 11,
DNS_H_ARCNT = DNS_H_ARCNT1,
#define dns_numar(pkt) dns_get16((pkt)+10)
#define dns_payload(pkt) ((pkt)+DNS_HSIZE)
/* EDNS0 (OPT RR) flags (Ext. Flags) */
DNS_EF1_DO = 0x80, /* DNSSEC OK */
};
/* packet buffer: start at pkt, end before pkte, current pos *curp.
* extract a DN and set *curp to the next byte after DN in packet.
* return -1 on error, 0 if dnsiz is too small, or dnlen on ok.
*/
UDNS_API int
dns_getdn(dnscc_t *pkt, dnscc_t **curp, dnscc_t *end,
dnsc_t *dn, unsigned dnsiz);
/* skip the DN at position cur in packet ending before pkte,
* return pointer to the next byte after the DN or NULL on error */
UDNS_API dnscc_t *
dns_skipdn(dnscc_t *end, dnscc_t *cur);
struct dns_rr { /* DNS Resource Record */
dnsc_t dnsrr_dn[DNS_MAXDN]; /* the DN of the RR */
enum dns_class dnsrr_cls; /* Class */
enum dns_type dnsrr_typ; /* Type */
unsigned dnsrr_ttl; /* Time-To-Live (TTL) */
unsigned dnsrr_dsz; /* data size */
dnscc_t *dnsrr_dptr; /* pointer to start of data */
dnscc_t *dnsrr_dend; /* past end of data */
};
struct dns_parse { /* RR/packet parsing state */
dnscc_t *dnsp_pkt; /* start of the packet */
dnscc_t *dnsp_end; /* end of the packet */
dnscc_t *dnsp_cur; /* current packet position */
dnscc_t *dnsp_ans; /* start of answer section */
int dnsp_rrl; /* number of RRs left to go */
int dnsp_nrr; /* RR count so far */
unsigned dnsp_ttl; /* TTL value so far */
dnscc_t *dnsp_qdn; /* the RR DN we're looking for */
enum dns_class dnsp_qcls; /* RR class we're looking for or 0 */
enum dns_type dnsp_qtyp; /* RR type we're looking for or 0 */
dnsc_t dnsp_dnbuf[DNS_MAXDN]; /* domain buffer */
};
/* initialize the parse structure */
UDNS_API void
dns_initparse(struct dns_parse *p, dnscc_t *qdn,
dnscc_t *pkt, dnscc_t *cur, dnscc_t *end);
/* search next RR, <0=error, 0=no more RRs, >0 = found. */
UDNS_API int
dns_nextrr(struct dns_parse *p, struct dns_rr *rr);
UDNS_API void
dns_rewind(struct dns_parse *p, dnscc_t *qdn);
/**************************************************************************/
/**************** Resolver Context ****************************************/
/* default resolver context */
UDNS_DATA_API extern struct dns_ctx dns_defctx;
/* reset resolver context to default state, close it if open, drop queries */
UDNS_API void
dns_reset(struct dns_ctx *ctx);
/* reset resolver context and read in system configuration */
UDNS_API int
dns_init(struct dns_ctx *ctx, int do_open);
/* return new resolver context with the same settings as copy */
UDNS_API struct dns_ctx *
dns_new(const struct dns_ctx *copy);
/* free resolver context returned by dns_new(); all queries are dropped */
UDNS_API void
dns_free(struct dns_ctx *ctx);
/* add nameserver for a resolver context (or reset nslist if serv==NULL) */
UDNS_API int
dns_add_serv(struct dns_ctx *ctx, const char *serv);
/* add nameserver using struct sockaddr structure (with ports) */
UDNS_API int
dns_add_serv_s(struct dns_ctx *ctx, const struct sockaddr *sa);
/* add search list element for a resolver context (or reset it if srch==NULL) */
UDNS_API int
dns_add_srch(struct dns_ctx *ctx, const char *srch);
/* set options for a resolver context */
UDNS_API int
dns_set_opts(struct dns_ctx *ctx, const char *opts);
enum dns_opt { /* options */
DNS_OPT_FLAGS, /* flags, DNS_F_XXX */
DNS_OPT_TIMEOUT, /* timeout in secounds */
DNS_OPT_NTRIES, /* number of retries */
DNS_OPT_NDOTS, /* ndots */
DNS_OPT_UDPSIZE, /* EDNS0 UDP size */
DNS_OPT_PORT, /* port to use */
};
/* set or get (if val<0) an option */
UDNS_API int
dns_set_opt(struct dns_ctx *ctx, enum dns_opt opt, int val);
enum dns_flags {
DNS_NOSRCH = 0x00010000, /* do not perform search */
DNS_NORD = 0x00020000, /* request no recursion */
DNS_AAONLY = 0x00040000, /* set AA flag in queries */
DNS_SET_DO = 0x00080000, /* set EDNS0 "DO" bit (DNSSEC OK) */
DNS_SET_CD = 0x00100000, /* set CD bit (DNSSEC: checking disabled) */
};
/* set the debug function pointer */
typedef void
(dns_dbgfn)(int code, const struct sockaddr *sa, unsigned salen,
dnscc_t *pkt, int plen,
const struct dns_query *q, void *data);
UDNS_API void
dns_set_dbgfn(struct dns_ctx *ctx, dns_dbgfn *dbgfn);
/* open and return UDP socket */
UDNS_API int
dns_open(struct dns_ctx *ctx);
/* return UDP socket or -1 if not open */
UDNS_API int
dns_sock(const struct dns_ctx *ctx);
/* close the UDP socket */
UDNS_API void
dns_close(struct dns_ctx *ctx);
/* return number of requests queued */
UDNS_API int
dns_active(const struct dns_ctx *ctx);
/* return status of the last operation */
UDNS_API int
dns_status(const struct dns_ctx *ctx);
UDNS_API void
dns_setstatus(struct dns_ctx *ctx, int status);
/* handle I/O event on UDP socket */
UDNS_API void
dns_ioevent(struct dns_ctx *ctx, time_t now);
/* process any timeouts, return time in secounds to the
* next timeout (or -1 if none) but not greather than maxwait */
UDNS_API int
dns_timeouts(struct dns_ctx *ctx, int maxwait, time_t now);
/* define timer requesting routine to use */
typedef void dns_utm_fn(struct dns_ctx *ctx, int timeout, void *data);
UDNS_API void
dns_set_tmcbck(struct dns_ctx *ctx, dns_utm_fn *fn, void *data);
/**************************************************************************/
/**************** Making Queries ******************************************/
/* query callback routine */
typedef void dns_query_fn(struct dns_ctx *ctx, void *result, void *data);
/* query parse routine: raw DNS => application structure */
typedef int
dns_parse_fn(dnscc_t *qdn, dnscc_t *pkt, dnscc_t *cur, dnscc_t *end,
void **res);
enum dns_status {
DNS_E_NOERROR = 0, /* ok, not an error */
DNS_E_TEMPFAIL = -1, /* timeout, SERVFAIL or similar */
DNS_E_PROTOCOL = -2, /* got garbled reply */
DNS_E_NXDOMAIN = -3, /* domain does not exists */
DNS_E_NODATA = -4, /* domain exists but no data of reqd type */
DNS_E_NOMEM = -5, /* out of memory while processing */
DNS_E_BADQUERY = -6 /* the query is malformed */
};
/* submit generic DN query */
UDNS_API struct dns_query *
dns_submit_dn(struct dns_ctx *ctx,
dnscc_t *dn, int qcls, int qtyp, int flags,
dns_parse_fn *parse, dns_query_fn *cbck, void *data);
/* submit generic name query */
UDNS_API struct dns_query *
dns_submit_p(struct dns_ctx *ctx,
const char *name, int qcls, int qtyp, int flags,
dns_parse_fn *parse, dns_query_fn *cbck, void *data);
/* cancel the given async query in progress */
UDNS_API int
dns_cancel(struct dns_ctx *ctx, struct dns_query *q);
/* resolve a generic query, return the answer */
UDNS_API void *
dns_resolve_dn(struct dns_ctx *ctx,
dnscc_t *qdn, int qcls, int qtyp, int flags,
dns_parse_fn *parse);
UDNS_API void *
dns_resolve_p(struct dns_ctx *ctx,
const char *qname, int qcls, int qtyp, int flags,
dns_parse_fn *parse);
UDNS_API void *
dns_resolve(struct dns_ctx *ctx, struct dns_query *q);
/* Specific RR handlers */
#define dns_rr_common(prefix) \
char *prefix##_cname; /* canonical name */ \
char *prefix##_qname; /* original query name */ \
unsigned prefix##_ttl; /* TTL value */ \
int prefix##_nrr /* number of records */
struct dns_rr_null { /* NULL RRset, aka RRset template */
dns_rr_common(dnsn);
};
UDNS_API int
dns_stdrr_size(const struct dns_parse *p);
UDNS_API void *
dns_stdrr_finish(struct dns_rr_null *ret, char *cp, const struct dns_parse *p);
struct dns_rr_a4 { /* the A RRset */
dns_rr_common(dnsa4);
struct in_addr *dnsa4_addr; /* array of addresses, naddr elements */
};
UDNS_API dns_parse_fn dns_parse_a4; /* A RR parsing routine */
typedef void /* A query callback routine */
dns_query_a4_fn(struct dns_ctx *ctx, struct dns_rr_a4 *result, void *data);
/* submit A IN query */
UDNS_API struct dns_query *
dns_submit_a4(struct dns_ctx *ctx, const char *name, int flags,
dns_query_a4_fn *cbck, void *data);
/* resolve A IN query */
UDNS_API struct dns_rr_a4 *
dns_resolve_a4(struct dns_ctx *ctx, const char *name, int flags);
struct dns_rr_a6 { /* the AAAA RRset */
dns_rr_common(dnsa6);
struct in6_addr *dnsa6_addr; /* array of addresses, naddr elements */
};
UDNS_API dns_parse_fn dns_parse_a6; /* A RR parsing routine */
typedef void /* A query callback routine */
dns_query_a6_fn(struct dns_ctx *ctx, struct dns_rr_a6 *result, void *data);
/* submit AAAA IN query */
UDNS_API struct dns_query *
dns_submit_a6(struct dns_ctx *ctx, const char *name, int flags,
dns_query_a6_fn *cbck, void *data);
/* resolve AAAA IN query */
UDNS_API struct dns_rr_a6 *
dns_resolve_a6(struct dns_ctx *ctx, const char *name, int flags);
struct dns_rr_ptr { /* the PTR RRset */
dns_rr_common(dnsptr);
char **dnsptr_ptr; /* array of PTRs */
};
UDNS_API dns_parse_fn dns_parse_ptr; /* PTR RR parsing routine */
typedef void /* PTR query callback */
dns_query_ptr_fn(struct dns_ctx *ctx, struct dns_rr_ptr *result, void *data);
/* submit PTR IN in-addr.arpa query */
UDNS_API struct dns_query *
dns_submit_a4ptr(struct dns_ctx *ctx, const struct in_addr *addr,
dns_query_ptr_fn *cbck, void *data);
/* resolve PTR IN in-addr.arpa query */
UDNS_API struct dns_rr_ptr *
dns_resolve_a4ptr(struct dns_ctx *ctx, const struct in_addr *addr);
/* the same as above, but for ip6.arpa */
UDNS_API struct dns_query *
dns_submit_a6ptr(struct dns_ctx *ctx, const struct in6_addr *addr,
dns_query_ptr_fn *cbck, void *data);
UDNS_API struct dns_rr_ptr *
dns_resolve_a6ptr(struct dns_ctx *ctx, const struct in6_addr *addr);
struct dns_mx { /* single MX RR */
int priority; /* MX priority */
char *name; /* MX name */
};
struct dns_rr_mx { /* the MX RRset */
dns_rr_common(dnsmx);
struct dns_mx *dnsmx_mx; /* array of MXes */
};
UDNS_API dns_parse_fn dns_parse_mx; /* MX RR parsing routine */
typedef void /* MX RR callback */
dns_query_mx_fn(struct dns_ctx *ctx, struct dns_rr_mx *result, void *data);
/* submit MX IN query */
UDNS_API struct dns_query *
dns_submit_mx(struct dns_ctx *ctx, const char *name, int flags,
dns_query_mx_fn *cbck, void *data);
/* resolve MX IN query */
UDNS_API struct dns_rr_mx *
dns_resolve_mx(struct dns_ctx *ctx, const char *name, int flags);
struct dns_txt { /* single TXT record */
int len; /* length of the text */
dnsc_t *txt; /* pointer to text buffer. May contain nulls. */
};
struct dns_rr_txt { /* the TXT RRset */
dns_rr_common(dnstxt);
struct dns_txt *dnstxt_txt; /* array of TXT records */
};
UDNS_API dns_parse_fn dns_parse_txt; /* TXT RR parsing routine */
typedef void /* TXT RR callback */
dns_query_txt_fn(struct dns_ctx *ctx, struct dns_rr_txt *result, void *data);
/* submit TXT query */
UDNS_API struct dns_query *
dns_submit_txt(struct dns_ctx *ctx, const char *name, int qcls, int flags,
dns_query_txt_fn *cbck, void *data);
/* resolve TXT query */
UDNS_API struct dns_rr_txt *
dns_resolve_txt(struct dns_ctx *ctx, const char *name, int qcls, int flags);
struct dns_srv { /* single SRV RR */
int priority; /* SRV priority */
int weight; /* SRV weight */
int port; /* SRV port */
char *name; /* SRV name */
};
struct dns_rr_srv { /* the SRV RRset */
dns_rr_common(dnssrv);
struct dns_srv *dnssrv_srv; /* array of SRVes */
};
UDNS_API dns_parse_fn dns_parse_srv; /* SRV RR parsing routine */
typedef void /* SRV RR callback */
dns_query_srv_fn(struct dns_ctx *ctx, struct dns_rr_srv *result, void *data);
/* submit SRV IN query */
UDNS_API struct dns_query *
dns_submit_srv(struct dns_ctx *ctx,
const char *name, const char *srv, const char *proto,
int flags, dns_query_srv_fn *cbck, void *data);
/* resolve SRV IN query */
UDNS_API struct dns_rr_srv *
dns_resolve_srv(struct dns_ctx *ctx,
const char *name, const char *srv, const char *proto,
int flags);
/* NAPTR (RFC3403) RR type */
struct dns_naptr { /* single NAPTR RR */
int order; /* NAPTR order */
int preference; /* NAPTR preference */
char *flags; /* NAPTR flags */
char *service; /* NAPTR service */
char *regexp; /* NAPTR regexp */
char *replacement; /* NAPTR replacement */
};
struct dns_rr_naptr { /* the NAPTR RRset */
dns_rr_common(dnsnaptr);
struct dns_naptr *dnsnaptr_naptr; /* array of NAPTRes */
};
UDNS_API dns_parse_fn dns_parse_naptr; /* NAPTR RR parsing routine */
typedef void /* NAPTR RR callback */
dns_query_naptr_fn(struct dns_ctx *ctx,
struct dns_rr_naptr *result, void *data);
/* submit NAPTR IN query */
UDNS_API struct dns_query *
dns_submit_naptr(struct dns_ctx *ctx, const char *name, int flags,
dns_query_naptr_fn *cbck, void *data);
/* resolve NAPTR IN query */
UDNS_API struct dns_rr_naptr *
dns_resolve_naptr(struct dns_ctx *ctx, const char *name, int flags);
UDNS_API struct dns_query *
dns_submit_a4dnsbl(struct dns_ctx *ctx,
const struct in_addr *addr, const char *dnsbl,
dns_query_a4_fn *cbck, void *data);
UDNS_API struct dns_query *
dns_submit_a4dnsbl_txt(struct dns_ctx *ctx,
const struct in_addr *addr, const char *dnsbl,
dns_query_txt_fn *cbck, void *data);
UDNS_API struct dns_rr_a4 *
dns_resolve_a4dnsbl(struct dns_ctx *ctx,
const struct in_addr *addr, const char *dnsbl);
UDNS_API struct dns_rr_txt *
dns_resolve_a4dnsbl_txt(struct dns_ctx *ctx,
const struct in_addr *addr, const char *dnsbl);
UDNS_API struct dns_query *
dns_submit_a6dnsbl(struct dns_ctx *ctx,
const struct in6_addr *addr, const char *dnsbl,
dns_query_a4_fn *cbck, void *data);
UDNS_API struct dns_query *
dns_submit_a6dnsbl_txt(struct dns_ctx *ctx,
const struct in6_addr *addr, const char *dnsbl,
dns_query_txt_fn *cbck, void *data);
UDNS_API struct dns_rr_a4 *
dns_resolve_a6dnsbl(struct dns_ctx *ctx,
const struct in6_addr *addr, const char *dnsbl);
UDNS_API struct dns_rr_txt *
dns_resolve_a6dnsbl_txt(struct dns_ctx *ctx,
const struct in6_addr *addr, const char *dnsbl);
UDNS_API struct dns_query *
dns_submit_rhsbl(struct dns_ctx *ctx,
const char *name, const char *rhsbl,
dns_query_a4_fn *cbck, void *data);
UDNS_API struct dns_query *
dns_submit_rhsbl_txt(struct dns_ctx *ctx,
const char *name, const char *rhsbl,
dns_query_txt_fn *cbck, void *data);
UDNS_API struct dns_rr_a4 *
dns_resolve_rhsbl(struct dns_ctx *ctx, const char *name, const char *rhsbl);
UDNS_API struct dns_rr_txt *
dns_resolve_rhsbl_txt(struct dns_ctx *ctx, const char *name, const char *rhsbl);
/**************************************************************************/
/**************** Names, Names ********************************************/
struct dns_nameval {
int val;
const char *name;
};
UDNS_DATA_API extern const struct dns_nameval dns_classtab[];
UDNS_DATA_API extern const struct dns_nameval dns_typetab[];
UDNS_DATA_API extern const struct dns_nameval dns_rcodetab[];
UDNS_API int
dns_findname(const struct dns_nameval *nv, const char *name);
#define dns_findclassname(cls) dns_findname(dns_classtab, (cls))
#define dns_findtypename(type) dns_findname(dns_typetab, (type))
#define dns_findrcodename(rcode) dns_findname(dns_rcodetab, (rcode))
UDNS_API const char *dns_classname(enum dns_class cls);
UDNS_API const char *dns_typename(enum dns_type type);
UDNS_API const char *dns_rcodename(enum dns_rcode rcode);
const char *_dns_format_code(char *buf, const char *prefix, int code);
UDNS_API const char *dns_strerror(int errnum);
/* simple pseudo-random number generator, code by Bob Jenkins */
struct udns_jranctx { /* the context */
unsigned a, b, c, d;
};
/* initialize the RNG with a given seed */
UDNS_API void
udns_jraninit(struct udns_jranctx *x, unsigned seed);
/* return next random number. 32bits on most platforms so far. */
UDNS_API unsigned
udns_jranval(struct udns_jranctx *x);
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* include guard */