#if !defined(lint) && !defined(SABER) static char sccsid[] = "@(#)db_update.c 4.28 (Berkeley) 3/21/91"; static char rcsid[] = "$Id: db_update.c,v 8.23 1998/02/13 20:01:38 halley Exp $"; #endif /* not lint */ /* * Copyright (c) 1986, 1990 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* * Portions Copyright (c) 1993 by Digital Equipment Corporation. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies, and that * the name of Digital Equipment Corporation not be used in advertising or * publicity pertaining to distribution of the document or software without * specific, written prior permission. * * THE SOFTWARE IS PROVIDED "AS IS" AND DIGITAL EQUIPMENT CORP. DISCLAIMS ALL * WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL DIGITAL EQUIPMENT * CORPORATION BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS * ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS * SOFTWARE. */ /* * Portions Copyright (c) 1996, 1997 by Internet Software Consortium. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND INTERNET SOFTWARE CONSORTIUM DISCLAIMS * ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL INTERNET SOFTWARE * CONSORTIUM BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS * ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS * SOFTWARE. */ #include "port_before.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "port_after.h" #include "named.h" /* int * isRefByNS(name, htp) * recurse through all of `htp' looking for NS RR's that refer to `name'. * returns: * nonzero if at least one such NS RR exists * cautions: * this is very expensive; probably you only want to use on fcachetab. */ static int isRefByNS(const char *name, struct hashbuf *htp) { struct namebuf *np; struct databuf *dp; for (np = htp->h_tab[0]; np != NULL; np = np->n_next) { for (dp = np->n_data; dp != NULL; dp = dp->d_next) { if ((dp->d_class == C_ANY || dp->d_class == C_IN || dp->d_class == C_HS) && dp->d_type == T_NS && !dp->d_rcode && !strcasecmp(name, (char *)dp->d_data)) { return (1); } } if (np->n_hash && isRefByNS(name, np->n_hash)) return (1); } return (0); } /* int * findMyZone(struct namebuf *np, int class) * surf the zone cuts and find this zone the hard way * return value: * zone number or DB_Z_CACHE if it's outside a zone * interesting cases: * DEC.COM SOA (primary) * CRL.DEC.COM NS (in primary) * if you start at CRL.. here, you find the DEC.COM zone * if you start at NS.CRL.. here, you're in the cache * DEC.COM SOA (primary) * CRL.DEC.COM NS (in primary) * CRL.DEC.COM SOA (secondary) * CRL.DEC.COM NS (in secondary) * if you start at CRL.. here, you find the CRL.DEC.COM zone * if you start at NS.CRL.. here, you're in the CRL.. zone */ int findMyZone(struct namebuf *np, int class) { for ((void)NULL; np; np = np_parent(np)) { struct databuf *dp; /* if we encounter an SOA, we're in its zone (which can be * the cache or an authoritative zone, depending). */ for (dp = np->n_data; dp; dp = dp->d_next) if (match(dp, class, T_SOA)) return (dp->d_zone); /* if we find an NS at some node without having seen an SOA * (above), then we're out in the cache somewhere. */ for (dp = np->n_data; dp; dp = dp->d_next) if (match(dp, class, T_NS)) return (DB_Z_CACHE); } /* getting all the way to the root without finding an NS or SOA * probably means that we are in deep dip, but we'll treat it as * being in the cache. (XXX?) */ return (DB_Z_CACHE); } #define ISVALIDGLUE(xdp) ((xdp)->d_type == T_NS || (xdp)->d_type == T_A \ || (xdp)->d_type == T_AAAA) /* int * db_update(name, odp, newdp, savedpp, flags, htp, from) * update data base node at `name'. `flags' controls the action. * side effects: * inverse query tables modified, if we're using them. * return value: * OK - success * NONAME - name doesn't exist * AUTH - you can't do that * DATAEXISTS - there's something there and DB_NODATA was specified * NODATA - there's no data, and (DB_DELETE or DB_MEXIST) was spec'd * * Policy: How to add data if one more RR is -ve data * * NEND NOERROR_NODATA * NXD NXDOMAIN * * match * old * Data NEND NXD * Data Merge Data Data * new NEND NEND NEND NEND * NXD NXD NXD NXD * * no match * old * Data NEND NXD * Data Merge Merge Data * new NEND Merge Merge NEND * NXD NXD NXD NXD * */ /* XXX: this code calls nlookup, which can create namebuf's. if this code * has to exit with a fatal error, it should scan from the new np upward * and for each node which has no children and no data it should remove * the namebuf. design notes: (1) there's no harm in doing this even if * success occurred; (2) stopping on the first nonremovable np is optimal; * the code for removal should be taken out of clean_cache() and made * general enough for this use, and for clean_cache()'s continued use. * vix, 21jul94 */ int db_update(const char *name, struct databuf *odp, struct databuf *newdp, struct databuf **savedpp, int flags, struct hashbuf *htp, struct sockaddr_in from) { struct databuf *dp, *pdp; struct namebuf *np; int zn, isHintNS; int check_ttl = 0; const char *fname; #ifdef BIND_UPDATE int i, found_other_ns = 0; struct databuf *tmpdp; u_char *cp1, *cp2; u_int32_t dp_serial, newdp_serial; #endif ns_debug(ns_log_db, 3, "db_update(%s, %#x, %#x, %#x, 0%o, %#x)%s", name, odp, newdp, savedpp, flags, htp, (odp && (odp->d_flags&DB_F_HINT)) ? " hint" : ""); np = nlookup(name, &htp, &fname, newdp != NULL); if (np == NULL || fname != name) return (NONAME); if (newdp && zones[newdp->d_zone].z_type == Z_PRIMARY) check_ttl = 1; /* don't let nonauthoritative updates write in authority zones */ if (newdp && ((zn = findMyZone(np, newdp->d_class)) != DB_Z_CACHE) && #ifdef STUBS (zones[zn].z_type != Z_STUB) && #endif (flags & DB_NOTAUTH)) { int foundRR = 0; /* * Don't generate the warning if the update * would have been harmless (identical data). */ for (dp = np->n_data; dp != NULL; dp = dp->d_next) { if (!db_cmp(dp, newdp)) { foundRR++; break; } } if (!foundRR) ns_debug(ns_log_db, 5, "[%s].%d update? to auth zone \"%s\" (%s)", inet_ntoa(from.sin_addr), ntohs(from.sin_port), zones[zn].z_origin, name); return (AUTH); } if (newdp && zn && !(flags & DB_NOTAUTH)) { if (nlabels(zones[zn].z_origin) > newdp->d_clev) { ns_debug(ns_log_db, 5, "attempted update child zone %s, %s", zones[zn].z_origin, name); return (AUTH); } } /* some special checks for root NS' A RR's */ isHintNS = isRefByNS(name, fcachetab); #ifdef DEPRECATED if (newdp && isHintNS && newdp->d_type == T_A) { /* upgrade credibility of additional data for rootsrv addrs */ if (newdp->d_cred == DB_C_ADDITIONAL) { ns_debug(ns_log_db, 3, "upgrading credibility for A RR (%s)", name); /* XXX: should copy NS RR's, but we really just want * to prevent deprecation later so this will do. */ newdp->d_cred = DB_C_ANSWER; newdp->d_clev = 0; } } #endif /* Reflect certain updates in hint cache also... */ /* Don't stick data we are authoritative for in hints. */ if (!(flags & DB_NOHINTS) && (flags & DB_PRIMING) && (odp != NULL) && (htp != fcachetab) && (DB_Z_SPECIAL(odp->d_zone)) && !(odp->d_flags & DB_F_HINT) && (!newdp || !newdp->d_rcode) && ((name[0] == '\0' && odp->d_type == T_NS) || (odp->d_type == T_A && isHintNS) ) ) { ns_debug(ns_log_db, 3, "db_update: hint '%s' %u", name, odp->d_ttl); dp = savedata(odp->d_class, odp->d_type, odp->d_ttl, odp->d_data, odp->d_size); dp->d_zone = DB_Z_CACHE; dp->d_flags = DB_F_HINT; dp->d_cred = DB_C_CACHE; dp->d_clev = 0; if (db_update(name, dp, dp, NULL, (flags|DB_NOHINTS), fcachetab, from) != OK) { ns_debug(ns_log_db, 3, "db_update: hint %#x freed", dp); db_freedata(dp); } } if (odp != NULL) { int foundRR = 0; pdp = NULL; for (dp = np->n_data; dp != NULL; ) { if (!match(dp, odp->d_class, odp->d_type)) { /* {class,type} doesn't match. these are * the aggregation cases. */ /* Check that CNAMEs are only accompanied by * Secure DNS RR's (KEY, SIG, and NXT). */ if (((dp->d_type == T_CNAME && odp->d_type != T_KEY && odp->d_type != T_SIG && odp->d_type != T_NXT) || (odp->d_type == T_CNAME && dp->d_type != T_KEY && dp->d_type != T_SIG && dp->d_type != T_NXT)) && odp->d_class == dp->d_class && /* XXXRTH d_mark removed in 4.9.5, but still here for dynamic update */ odp->d_mark == dp->d_mark && !dp->d_rcode && !odp->d_rcode && #ifdef BIND_UPDATE /* updating a CNAME with another CNAME is permitted */ (dp->d_type != T_CNAME || odp->d_type != T_CNAME) && #endif zones[odp->d_zone].z_type != Z_CACHE) { ns_info(ns_log_db, "%s has CNAME and other data (invalid)", name); goto skip; } if (!newdp || newdp->d_class != dp->d_class) goto skip; /* if the new data is authorative * remove any data for this domain with * the same class that isn't as credable */ if (newdp->d_cred == DB_C_ZONE && newdp->d_cred > dp->d_cred) /* better credibility and the old datum * was not from a zone file. remove * the old datum. */ goto delete; #if 0 /* caught by findMyZone() now. */ /* if we have authoritative data for a * node, don't add in other data. */ if (dp->d_cred == DB_C_ZONE && newdp->d_cred < dp->d_cred) return (AUTH); #endif /* if the new data is authoritative but * but isn't as credible, reject it. */ if (newdp->d_cred == DB_C_ZONE && dp->d_cred == DB_C_ZONE) { /* Both records are from a zone file. * If their credibility levels differ, * we're dealing with a zone cut. The * record with lower clev is from the * upper zone's file and is therefore * glue. */ if (newdp->d_clev < dp->d_clev) { if (!ISVALIDGLUE(newdp)) { ns_info(ns_log_db, "domain %s %s record in zone %s should be in zone %s, ignored", name, p_type(newdp->d_type), zones[newdp->d_zone].z_origin, zones[dp->d_zone].z_origin); } return (AUTH); } if (newdp->d_clev > dp->d_clev) { if (!ISVALIDGLUE(dp)) { ns_info(ns_log_db, "domain %s %s record in zone %s should be in zone %s, deleted", name, p_type(dp->d_type), zones[dp->d_zone].z_origin, zones[newdp->d_zone].z_origin); } goto delete; } } /* process NXDOMAIN */ /* policy */ if (newdp->d_rcode == NXDOMAIN) { if (dp->d_cred < DB_C_AUTH) goto delete; else return (DATAEXISTS); } if (dp->d_rcode == NXDOMAIN) goto delete; /* process NOERROR_NODATA */ /* NO PROCESSING REQUIRED */ goto skip; } /*if {class,type} did not match*/ /* * {type,class} did match. This is the replace case. */ ns_debug(ns_log_db, 5, "db_update: flags = %#x, sizes = %d, %d (cmp %d)", flags, odp->d_size, dp->d_size, db_cmp(dp, odp)); if (newdp) { ns_debug(ns_log_db, 4, "credibility for %s is %d(%d) from [%s].%d, is %d(%d) in cache", *name ? name : ".", newdp->d_cred, newdp->d_clev, inet_ntoa(from.sin_addr), ntohs(from.sin_port), dp->d_cred, dp->d_clev); if (newdp->d_cred > dp->d_cred) { /* better credibility. * remove the old datum. */ goto delete; } if (newdp->d_cred < dp->d_cred) { /* credibility is worse. ignore it. */ return (AUTH); } if (newdp->d_cred == DB_C_ZONE && dp->d_cred == DB_C_ZONE ) { /* Both records are from a zone file. * If their credibility levels differ, * we're dealing with a zone cut. The * record with lower clev is from the * upper zone's file and is therefore * glue. */ /* XXX - Tricky situation here is you * have 2 zones a.b.c and sub.a.b.c * being served by the same server. * named will send NS records for * sub.a.b.c during zone transfer of * a.b.c zone. If we're secondary for * both zones, and we reload zone * a.b.c, we'll get the NS records * (and possibly A records to go with * them?) for sub.a.b.c as part of the * a.b.c zone transfer. But we've * already got a more credible record * from the sub.a.b.c zone. So we want * to ignore the new record, but we * shouldn't syslog because there's * nothing the user can do to prevent * the situation. Perhaps we should * only complain when we are primary? */ if (newdp->d_clev < dp->d_clev) { if (!ISVALIDGLUE(newdp)) { ns_info(ns_log_db, "domain %s %s record in zone %s should be in zone %s, ignored", name, p_type(newdp->d_type), zones[newdp->d_zone].z_origin, zones[dp->d_zone].z_origin); } return (AUTH); } if (newdp->d_clev > dp->d_clev) { if (!ISVALIDGLUE(dp)) { ns_info(ns_log_db, "domain %s %s record in zone %s should be in zone %s, deleted", name, p_type(dp->d_type), zones[dp->d_zone].z_origin, zones[newdp->d_zone].z_origin); } goto delete; } } /* credibility is the same. * let it aggregate in the normal way. */ /* * if the new or old RR is -ve, delete old. */ if (dp->d_rcode || newdp->d_rcode) { /* XXX: how can a zone rr be neg? */ if (dp->d_cred != DB_C_ZONE) goto delete; else return (DATAEXISTS); } /* * Some RR types should not be aggregated. */ if (dp->d_type == T_SOA) { #ifdef BIND_UPDATE u_int32_t dp_ser, ndp_ser; u_char *dp_cp, *ndp_cp; dp_cp = findsoaserial(dp->d_data); ndp_cp = findsoaserial(newdp->d_data); GETLONG(dp_ser, dp_cp); GETLONG(ndp_ser, ndp_cp); if (SEQ_GT(ndp_ser, dp_ser)) goto delete; else return (SERIAL); #else goto delete; #endif /*BIND_UPDATE*/ } if (dp->d_type == T_WKS && !memcmp(dp->d_data, newdp->d_data, INT32SZ + sizeof(u_char))) goto delete; if (dp->d_type == T_CNAME && !NS_OPTION_P(OPTION_MULTIPLE_CNAMES)) goto delete; #ifdef BIND_UPDATE if (dp->d_type == T_SIG) /* * Type covered has already been * checked. */ goto delete; #endif if (check_ttl) { if (newdp->d_ttl != dp->d_ttl) ns_warning(ns_log_db, "%s %s %s differing ttls: corrected", name[0]?name:".", p_class(dp->d_class), p_type(dp->d_type)); if (newdp->d_ttl > dp->d_ttl) { newdp->d_ttl = dp->d_ttl; } else { dp->d_ttl = newdp->d_ttl; } } } if ((flags & DB_NODATA) && !db_cmp(dp, odp)) { /* Refresh ttl if cache entry. */ if (dp->d_zone == DB_Z_CACHE) { if (odp->d_zone != DB_Z_CACHE) { /* Changing cache->auth. */ dp->d_zone = odp->d_zone; dp->d_ttl = odp->d_ttl; ns_debug(ns_log_db, 4, "db_update: cache entry now in auth zone"); return (DATAEXISTS); } fixttl(odp); if (odp->d_ttl > dp->d_ttl) dp->d_ttl = odp->d_ttl; ns_debug(ns_log_db, 3, "db_update: new ttl %u +%lu", dp->d_ttl, (u_long)(dp->d_ttl - tt.tv_sec) ); } return (DATAEXISTS); } /* * If the old databuf has some data, check that the * data matches that in the new databuf. */ if (odp->d_size > 0) if (db_cmp(dp, odp)) goto skip; if (odp->d_clev < dp->d_clev) goto skip; if (odp->d_cred < dp->d_cred) goto skip; #ifdef BIND_UPDATE if (!strcasecmp(name, zones[dp->d_zone].z_origin) && !newdp) { /* do not delete SOA or NS records as a set */ /* XXXRTH isn't testing d_size unnecessary? */ if ((odp->d_size == 0) && (odp->d_class == C_ANY) && (odp->d_type == T_ANY || odp->d_type == T_SOA || odp->d_type == T_NS) && (dp->d_type == T_SOA || dp->d_type == T_NS)) goto skip; /* XXXRTH I added this to prevent SOA deletion I'm using the same style of comparison as the other code in this section. Do we really need to look at dp->d_type here? We're in the "match" section... */ if ((odp->d_type == T_SOA) && (dp->d_type == T_SOA)) goto skip; /* do not delete the last NS record for the zone */ if ((odp->d_type == T_NS) && (dp->d_type == T_NS)) { found_other_ns = 0; for (tmpdp = np->n_data; tmpdp && !found_other_ns; tmpdp = tmpdp->d_next) if ((tmpdp->d_type == T_NS) && (tmpdp != dp)) found_other_ns = 1; if (!found_other_ns) { ns_debug(ns_log_db, 3, "cannot delete last remaining NS record for zone %s", name); goto skip; } } } #endif foundRR = 1; if (flags & DB_DELETE) { delete: #ifdef BIND_UPDATE /* * XXX assume here that savedpp!=NULL iff. db_update * has been called by the dyanmic update code. * Maybe a new flag is more appropriate? */ if (savedpp != NULL) foundRR = 1; #endif dp = rm_datum(dp, np, pdp, savedpp); } else { skip: pdp = dp; dp = dp->d_next; } } if (!foundRR) { if (flags & DB_DELETE) return (NODATA); if (flags & DB_MEXIST) return (NODATA); } } /* XXX: delete a terminal namebuf also if all databuf's * underneath of it have been deleted) */ if (newdp == NULL) return (OK); /* XXX: empty nodes bypass credibility checks above; should check * response source address here if flags&NOTAUTH. */ fixttl(newdp); ns_debug(ns_log_db, 3, "db_update: adding%s %#x", (newdp->d_flags&DB_F_HINT) ? " hint":"", newdp); if (NS_OPTION_P(OPTION_HOSTSTATS) && newdp->d_zone == DB_Z_CACHE && (newdp->d_flags & DB_F_HINT) == 0) newdp->d_ns = nameserFind(from.sin_addr, NS_F_INSERT); /* Add to end of list, generally preserving order */ newdp->d_next = NULL; if ((dp = np->n_data) == NULL) { DRCNTINC(newdp); if (newdp->d_flags & DB_F_ACTIVE) panic("db_update: DB_F_ACTIVE set", NULL); newdp->d_flags |= DB_F_ACTIVE; np->n_data = newdp; return (OK); } while (dp->d_next != NULL) { if ((flags & DB_NODATA) && !db_cmp(dp, newdp)) return (DATAEXISTS); dp = dp->d_next; } if ((flags & DB_NODATA) && !db_cmp(dp, newdp)) return (DATAEXISTS); DRCNTINC(newdp); if (newdp->d_flags & DB_F_ACTIVE) panic("db_update: DB_F_ACTIVE set", NULL); newdp->d_flags |= DB_F_ACTIVE; dp->d_next = newdp; return (OK); } void fixttl(struct databuf *dp) { if (dp->d_zone == DB_Z_CACHE && (dp->d_flags & DB_F_HINT) == 0) { if (dp->d_ttl <= (u_int32_t)tt.tv_sec) return; else if (dp->d_ttl < (u_int32_t)tt.tv_sec+min_cache_ttl) dp->d_ttl = (u_int32_t)tt.tv_sec+min_cache_ttl; else if (dp->d_ttl > (u_int32_t)tt.tv_sec+max_cache_ttl) dp->d_ttl = (u_int32_t)tt.tv_sec+max_cache_ttl; } } /* * Compare type, class and data from databufs for equivalence. * All domain names in RR's must be compared case-insensitively. * Return 0 if equivalent, nonzero otherwise. */ int db_cmp(const struct databuf *dp1, const struct databuf *dp2) { const u_char *cp1, *cp2; int len, len2; /* XXXDYNUP- should be changed to if (!match(dp1, dp2->d_type, dp2->d_class) */ if (dp1->d_type != dp2->d_type || dp1->d_class != dp2->d_class) return (1); /* XXXDYNUP - should be changed to (dp1->d_size != dp2->d_size && dp1->d_size != 0 && dp2->d_size != 0) */ if (dp1->d_size != dp2->d_size) return (1); /* d_mark is only used for dynamic updates currently */ #ifndef BIND_UPDATE if (dp1->d_mark != dp2->d_mark) return (1); /* old and new RR's are distinct */ #endif if (dp1->d_rcode && dp2->d_rcode) return ((dp1->d_rcode == dp1->d_rcode)?0:1); if (dp1->d_rcode || dp2->d_rcode) return (1); switch (dp1->d_type) { case T_A: case T_WKS: case T_NULL: case T_NSAP: case T_AAAA: case T_LOC: case T_KEY: /* Only binary data */ return (memcmp(dp1->d_data, dp2->d_data, dp1->d_size)); case T_NS: case T_CNAME: case T_PTR: case T_MB: case T_MG: case T_MR: /* Only a domain name */ return (strcasecmp((char *)dp1->d_data, (char *)dp2->d_data)); case T_SIG: /* Binary data, a domain name, more binary data */ if (dp1->d_size < NS_SIG_SIGNER) return (1); if (memcmp(dp1->d_data, dp2->d_data, NS_SIG_SIGNER)) return (1); len = NS_SIG_SIGNER + strlen((char *)dp1->d_data + NS_SIG_SIGNER); if (strcasecmp((char *)dp1->d_data + NS_SIG_SIGNER, (char *)dp2->d_data + NS_SIG_SIGNER)) return (1); return (memcmp(dp1->d_data + len, dp2->d_data + len, dp1->d_size - len)); case T_NXT: /* First a domain name, then binary data */ if (strcasecmp((char *)dp1->d_data, (char *)dp2->d_data)) return (1); len = strlen((char *)dp1->d_data)+1; return (memcmp(dp1->d_data + len, dp2->d_data + len, dp1->d_size - len)); case T_HINFO: case T_ISDN: cp1 = dp1->d_data; cp2 = dp2->d_data; len = *cp1; len2 = *cp2; if (len != len2) return (1); if (strncasecmp((char *)++cp1, (char *)++cp2, len)) return (1); cp1 += len; cp2 += len; len = *cp1; len2 = *cp2; if (len != len2) return (1); return (strncasecmp((char *)++cp1, (char *)++cp2, len)); case T_SOA: case T_MINFO: case T_RP: if (strcasecmp((char *)dp1->d_data, (char *)dp2->d_data)) return (1); cp1 = dp1->d_data + strlen((char *)dp1->d_data) + 1; cp2 = dp2->d_data + strlen((char *)dp2->d_data) + 1; if (dp1->d_type != T_SOA) return (strcasecmp((char *)cp1, (char *)cp2)); if (strcasecmp((char *)cp1, (char *)cp2)) return (1); cp1 += strlen((char *)cp1) + 1; cp2 += strlen((char *)cp2) + 1; return (memcmp(cp1, cp2, INT32SZ * 5)); case T_NAPTR: { int t1,t2; if (dp1->d_size != dp2->d_size) return (1); cp1 = dp1->d_data; cp2 = dp2->d_data; /* Order */ if (*cp1++ != *cp2++ || *cp1++ != *cp2++) return (1); /* Preference */ if (*cp1++ != *cp2++ || *cp1++ != *cp2++) return (1); /* Flags */ t1 = *cp1++; t2 = *cp2++; if (t1 != t2 || memcmp(cp1, cp2, t1)) return (1); cp1 += t1; cp2 += t2; /* Services */ t1 = *cp1++; t2 = *cp2++; if (t1 != t2 || memcmp(cp1, cp2, t1)) return (1); cp1 += t1; cp2 += t2; /* Regexp */ t1 = *cp1++; t2 = *cp2++; if (t1 != t2 || memcmp(cp1, cp2, t1)) return (1); cp1 += t1; cp2 += t2; /* Replacement */ t1 = strlen((char *)cp1); t2 = strlen((char *)cp2); if (t1 != t2 || memcmp(cp1, cp2, t1)) return (1); cp1 += t1 + 1; cp2 += t2 + 1; /* they all checked out! */ return (0); } case T_MX: case T_AFSDB: case T_RT: case T_SRV: cp1 = dp1->d_data; cp2 = dp2->d_data; if (*cp1++ != *cp2++ || *cp1++ != *cp2++) /* cmp prio */ return (1); if (dp1->d_type == T_SRV) { if (*cp1++ != *cp2++ || *cp1++ != *cp2++) /* weight */ return (1); if (*cp1++ != *cp2++ || *cp1++ != *cp2++) /* port */ return (1); } return (strcasecmp((char *)cp1, (char *)cp2)); case T_PX: cp1 = dp1->d_data; cp2 = dp2->d_data; if (*cp1++ != *cp2++ || *cp1++ != *cp2++) /* cmp prio */ return (1); if (strcasecmp((char *)cp1, (char *)cp2)) return (1); cp1 += strlen((char *)cp1) + 1; cp2 += strlen((char *)cp2) + 1; return (strcasecmp((char *)cp1, (char *)cp2)); case T_TXT: case T_X25: if (dp1->d_size != dp2->d_size) return (1); return (memcmp(dp1->d_data, dp2->d_data, dp1->d_size)); default: return (1); } }