adns_status adns_rr_info(adns_rrtype type, const char **rrtname_r, const char **fmtname_r, int *len_r, const void *datap, char **data_r) { const typeinfo *typei; vbuf vb; adns_status st; typei= adns__findtype(type); if (!typei) return adns_s_unknownrrtype; if (rrtname_r) *rrtname_r= typei->rrtname; if (fmtname_r) *fmtname_r= typei->fmtname; if (len_r) *len_r= typei->rrsz; if (!datap) return adns_s_ok; adns__vbuf_init(&vb); st= typei->convstring(&vb,datap); if (st) goto x_freevb; if (!adns__vbuf_append(&vb,"",1)) { st= adns_s_nomemory; goto x_freevb; } assert(strlen(vb.buf) == vb.used-1); *data_r= realloc(vb.buf,vb.used); if (!*data_r) *data_r= vb.buf; return adns_s_ok; x_freevb: adns__vbuf_free(&vb); return st; }
void adns_finish(adns_state ads) { adns__consistency(ads,0,cc_entex); for (;;) { if (ads->udpw.head) adns_cancel(ads->udpw.head); else if (ads->tcpw.head) adns_cancel(ads->tcpw.head); else if (ads->childw.head) adns_cancel(ads->childw.head); else if (ads->output.head) adns_cancel(ads->output.head); else break; } fd_close(ads->udpsocket); if (ads->tcpsocket >= 0) fd_close(ads->tcpsocket); adns__vbuf_free(&ads->tcpsend); adns__vbuf_free(&ads->tcprecv); freesearchlist(ads); MyFree(ads); }
void adns__vdiag(adns_state ads, const char *pfx, adns_initflags prevent, int serv, adns_query qu, const char *fmt, va_list al) { /* Fix this to log to the ircd log interface */ #if 0 const char *bef, *aft; vbuf vb; vfprintf(ads->diagfile,fmt,al); bef= " ("; aft= "\n"; if (qu && qu->query_dgram) { adns__vbuf_init(&vb); fprintf(ads->diagfile,"%sQNAME=%s, QTYPE=%s", bef, adns__diag_domain(qu->ads,-1,0, &vb, qu->query_dgram,qu->query_dglen,DNS_HDRSIZE), qu->typei ? qu->typei->rrtname : "<unknown>"); if (qu->typei && qu->typei->fmtname) fprintf(ads->diagfile,"(%s)",qu->typei->fmtname); bef=", "; aft=")\n"; adns__vbuf_free(&vb); } if (serv>=0) { fprintf(ads->diagfile,"%sNS=%s",bef,inetntoa((unsigned char *)&ads->servers[serv].addr)); bef=", "; aft=")\n"; } fputs(aft,ads->diagfile); #endif }
void adns_finish(adns_state ads) { adns__consistency(ads,0,cc_entex); for (;;) { if (ads->udpw.head) adns_cancel(ads->udpw.head); else if (ads->tcpw.head) adns_cancel(ads->tcpw.head); else if (ads->childw.head) adns_cancel(ads->childw.head); else if (ads->output.head) adns_cancel(ads->output.head); else break; } adns_socket_close(ads->udpsocket); if (ads->tcpsocket >= 0) adns_socket_close(ads->tcpsocket); adns__vbuf_free(&ads->tcpsend); adns__vbuf_free(&ads->tcprecv); freesearchlist(ads); free(ads); #ifdef ADNS_JGAA_WIN32 WSACleanup(); #endif /* WIN32 */ }
void adns__vdiag(adns_state ads, const char *pfx, adns_initflags prevent, int serv, adns_query qu, const char *fmt, va_list al) { char buf[ADNS_ADDR2TEXT_BUFLEN]; const char *bef, *aft; vbuf vb; if (!ads->logfn || (!(ads->iflags & adns_if_debug) && (!prevent || (ads->iflags & prevent)))) return; if (ads->iflags & adns_if_logpid) { adns__lprintf(ads,"adns%s [%ld]: ",pfx,(long)getpid()); } else { adns__lprintf(ads,"adns%s: ",pfx); } adns__vlprintf(ads,fmt,al); bef= " ("; aft= "\n"; if (qu && qu->query_dgram) { adns__vbuf_init(&vb); adns__lprintf(ads,"%sQNAME=%s, QTYPE=%s", bef, adns__diag_domain(qu->ads,-1,0, &vb, qu->query_dgram,qu->query_dglen,DNS_HDRSIZE), qu->typei ? qu->typei->rrtname : "<unknown>"); if (qu->typei && qu->typei->fmtname) adns__lprintf(ads,"(%s)",qu->typei->fmtname); bef=", "; aft=")\n"; adns__vbuf_free(&vb); } if (serv>=0) { adns__lprintf(ads,"%sNS=%s",bef, adns__sockaddr_ntoa(&ads->servers[serv].addr.sa, buf)); bef=", "; aft=")\n"; } adns__lprintf(ads,"%s",aft); }
void adns__vdiag(adns_state ads, const char *pfx, adns_initflags prevent, int serv, adns_query qu, const char *fmt, va_list al) { #if 0 const char *bef, *aft; vbuf vb; if (!ads->diagfile || (!(ads->iflags & adns_if_debug) && (!prevent || (ads->iflags & prevent)))) return; if (ads->iflags & adns_if_logpid) { fprintf(ads->diagfile,"adns%s [%ld]: ",pfx,(long)getpid()); } else { fprintf(ads->diagfile,"adns%s: ",pfx); } vfprintf(ads->diagfile,fmt,al); bef= " ("; aft= "\n"; if (qu && qu->query_dgram) { adns__vbuf_init(&vb); fprintf(ads->diagfile,"%sQNAME=%s, QTYPE=%s", bef, adns__diag_domain(qu->ads,-1,0, &vb, qu->query_dgram,qu->query_dglen,DNS_HDRSIZE), qu->typei ? qu->typei->rrtname : "<unknown>"); if (qu->typei && qu->typei->fmtname) fprintf(ads->diagfile,"(%s)",qu->typei->fmtname); bef=", "; aft=")\n"; adns__vbuf_free(&vb); } if (serv>=0) { fprintf(ads->diagfile,"%sNS=%s",bef,inet_ntoa(ads->servers[serv].addr)); bef=", "; aft=")\n"; } fputs(aft,ads->diagfile); #endif }
void adns__procdgram(adns_state ads, const byte * dgram, int dglen, int serv, int viatcp, struct timeval now) { int cbyte, rrstart, wantedrrs, rri, foundsoa, foundns, cname_here; int id, f1, f2, qdcount, ancount, nscount, arcount; int flg_ra, flg_rd, flg_tc, flg_qr, opcode; int rrtype, rrclass, rdlength, rdstart; int anstart, nsstart, arstart; int ownermatched, l, nrrs; unsigned long ttl, soattl; const typeinfo *typei; adns_query qu, nqu; dns_rcode rcode; adns_status st; vbuf tempvb; byte *newquery, *rrsdata; parseinfo pai; if (dglen < DNS_HDRSIZE) { adns__diag(ads, serv, 0, "received datagram too short for message header (%d)", dglen); return; } cbyte = 0; GET_W(cbyte, id); GET_B(cbyte, f1); GET_B(cbyte, f2); GET_W(cbyte, qdcount); GET_W(cbyte, ancount); GET_W(cbyte, nscount); GET_W(cbyte, arcount); assert(cbyte == DNS_HDRSIZE); flg_qr = f1 & 0x80; opcode = (f1 & 0x78) >> 3; flg_tc = f1 & 0x02; flg_rd = f1 & 0x01; flg_ra = f2 & 0x80; rcode = (f2 & 0x0f); cname_here = 0; if (!flg_qr) { adns__diag(ads, serv, 0, "server sent us a query, not a response"); return; } if (opcode) { adns__diag(ads, serv, 0, "server sent us unknown opcode %d (wanted 0=QUERY)", opcode); return; } qu = 0; /* See if we can find the relevant query, or leave qu=0 otherwise ... */ if (qdcount == 1) { for (qu = viatcp ? ads->tcpw.head : ads->udpw.head; qu; qu = nqu) { nqu = qu->next; if (qu->id != id) continue; if (dglen < qu->query_dglen) continue; if (memcmp(qu->query_dgram + DNS_HDRSIZE, dgram + DNS_HDRSIZE, qu->query_dglen - DNS_HDRSIZE)) continue; if (viatcp) { assert(qu->state == query_tcpw); } else { assert(qu->state == query_tosend); if (!(qu->udpsent & (1 << serv))) continue; } break; } if (qu) { /* We're definitely going to do something with this query now */ if (viatcp) ALIST_UNLINK(ads->tcpw, qu); else ALIST_UNLINK(ads->udpw, qu); } } /* If we're going to ignore the packet, we return as soon as we have * failed the query (if any) and printed the warning message (if * any). */ switch (rcode) { case rcode_noerror: case rcode_nxdomain: break; case rcode_formaterror: adns__warn(ads, serv, qu, "server cannot understand our query (Format Error)"); if (qu) adns__query_fail(qu, adns_s_rcodeformaterror); return; case rcode_servfail: if (qu) adns__query_fail(qu, adns_s_rcodeservfail); else adns__debug(ads, serv, qu, "server failure on unidentifiable query"); return; case rcode_notimp: adns__warn(ads, serv, qu, "server claims not to implement our query"); if (qu) adns__query_fail(qu, adns_s_rcodenotimplemented); return; case rcode_refused: adns__debug(ads, serv, qu, "server refused our query"); if (qu) adns__query_fail(qu, adns_s_rcoderefused); return; default: adns__warn(ads, serv, qu, "server gave unknown response code %d", rcode); if (qu) adns__query_fail(qu, adns_s_rcodeunknown); return; } if (!qu) { if (!qdcount) { adns__diag(ads, serv, 0, "server sent reply without quoting our question"); } else if (qdcount > 1) { adns__diag(ads, serv, 0, "server claimed to answer %d questions with one message", qdcount); } else if (ads->iflags & adns_if_debug) { adns__vbuf_init(&tempvb); adns__debug(ads, serv, 0, "reply not found, id %02x, query owner %s", id, adns__diag_domain(ads, serv, 0, &tempvb, dgram, dglen, DNS_HDRSIZE)); adns__vbuf_free(&tempvb); } return; } /* We're definitely going to do something with this packet and this query now. */ anstart = qu->query_dglen; arstart = -1; /* Now, take a look at the answer section, and see if it is complete. * If it has any CNAMEs we stuff them in the answer. */ wantedrrs = 0; cbyte = anstart; for (rri = 0; rri < ancount; rri++) { rrstart = cbyte; st = adns__findrr(qu, serv, dgram, dglen, &cbyte, &rrtype, &rrclass, &ttl, &rdlength, &rdstart, &ownermatched); if (st) { adns__query_fail(qu, st); return; } if (rrtype == -1) goto x_truncated; if (rrclass != DNS_CLASS_IN) { adns__diag(ads, serv, qu, "ignoring answer RR with wrong class %d (expected IN=%d)", rrclass, DNS_CLASS_IN); continue; } if (!ownermatched) { if (ads->iflags & adns_if_debug) { adns__debug(ads, serv, qu, "ignoring RR with an unexpected owner %s", adns__diag_domain(ads, serv, qu, &qu->vb, dgram, dglen, rrstart)); } continue; } if (rrtype == adns_r_cname && (qu->typei->type & adns__rrt_typemask) != adns_r_cname) { if (qu->flags & adns_qf_cname_forbid) { adns__query_fail(qu, adns_s_prohibitedcname); return; } else if (qu->cname_dgram) { /* Ignore second and subsequent CNAME(s) */ adns__debug(ads, serv, qu, "allegedly canonical name %s is actually alias for %s", qu->answer->cname, adns__diag_domain(ads, serv, qu, &qu->vb, dgram, dglen, rdstart)); adns__query_fail(qu, adns_s_prohibitedcname); return; } else if (wantedrrs) { /* Ignore CNAME(s) after RR(s). */ adns__debug(ads, serv, qu, "ignoring CNAME (to %s) coexisting with RR", adns__diag_domain(ads, serv, qu, &qu->vb, dgram, dglen, rdstart)); } else { qu->cname_begin = rdstart; qu->cname_dglen = dglen; st = adns__parse_domain(ads, serv, qu, &qu->vb, qu-> flags & adns_qf_quotefail_cname ? 0 : pdf_quoteok, dgram, dglen, &rdstart, rdstart + rdlength); if (!qu->vb.used) goto x_truncated; if (st) { adns__query_fail(qu, st); return; } l = strlen((char *)qu->vb.buf) + 1; qu->answer->cname = adns__alloc_preserved(qu, l); if (!qu->answer->cname) { adns__query_fail(qu, adns_s_nomemory); return; } qu->cname_dgram = adns__alloc_mine(qu, dglen); os_memcpy(qu->cname_dgram, dgram, dglen); os_memcpy(qu->answer->cname, qu->vb.buf, l); cname_here = 1; adns__update_expires(qu, ttl, now); /* If we find the answer section truncated after this point we restart * the query at the CNAME; if beforehand then we obviously have to use * TCP. If there is no truncation we can use the whole answer if * it contains the relevant info. */ } } else if (rrtype == (qu->typei->type & adns__rrt_typemask)) { wantedrrs++; } else { adns__debug(ads, serv, qu, "ignoring answer RR with irrelevant type %d", rrtype); } } /* We defer handling truncated responses here, in case there was a CNAME * which we could use. */ if (flg_tc) goto x_truncated; nsstart = cbyte; if (!wantedrrs) { /* Oops, NODATA or NXDOMAIN or perhaps a referral (which would be a problem) */ /* RFC2308: NODATA has _either_ a SOA _or_ _no_ NS records in authority section */ foundsoa = 0; soattl = 0; foundns = 0; for (rri = 0; rri < nscount; rri++) { rrstart = cbyte; st = adns__findrr(qu, serv, dgram, dglen, &cbyte, &rrtype, &rrclass, &ttl, &rdlength, &rdstart, 0); if (st) { adns__query_fail(qu, st); return; } if (rrtype == -1) goto x_truncated; if (rrclass != DNS_CLASS_IN) { adns__diag(ads, serv, qu, "ignoring authority RR with wrong class %d (expected IN=%d)", rrclass, DNS_CLASS_IN); continue; } if (rrtype == adns_r_soa_raw) { foundsoa = 1; soattl = ttl; break; } else if (rrtype == adns_r_ns_raw) { foundns = 1; } } if (rcode == rcode_nxdomain) { /* We still wanted to look for the SOA so we could find the TTL. */ adns__update_expires(qu, soattl, now); if (qu->flags & adns_qf_search) { adns__search_next(ads, qu, now); } else { adns__query_fail(qu, adns_s_nxdomain); } return; } if (foundsoa || !foundns) { /* Aha ! A NODATA response, good. */ adns__update_expires(qu, soattl, now); adns__query_fail(qu, adns_s_nodata); return; } /* Now what ? No relevant answers, no SOA, and at least some NS's. * Looks like a referral. Just one last chance ... if we came across * a CNAME in this datagram then we should probably do our own CNAME * lookup now in the hope that we won't get a referral again. */ if (cname_here) goto x_restartquery; /* Bloody hell, I thought we asked for recursion ? */ if (!flg_ra) { adns__diag(ads, serv, qu, "server is not willing to do recursive lookups for us"); adns__query_fail(qu, adns_s_norecurse); } else { if (!flg_rd) adns__diag(ads, serv, qu, "server thinks we didn't ask for recursive lookup"); else adns__debug(ads, serv, qu, "server claims to do recursion, but gave us a referral"); adns__query_fail(qu, adns_s_invalidresponse); } return; } /* Now, we have some RRs which we wanted. */ qu->answer->rrs.untyped = adns__alloc_interim(qu, qu->typei->rrsz * wantedrrs); if (!qu->answer->rrs.untyped) { adns__query_fail(qu, adns_s_nomemory); return; } typei = qu->typei; cbyte = anstart; rrsdata = qu->answer->rrs.bytes; pai.ads = qu->ads; pai.qu = qu; pai.serv = serv; pai.dgram = dgram; pai.dglen = dglen; pai.nsstart = nsstart; pai.nscount = nscount; pai.arcount = arcount; pai.now = now; for (rri = 0, nrrs = 0; rri < ancount; rri++) { st = adns__findrr(qu, serv, dgram, dglen, &cbyte, &rrtype, &rrclass, &ttl, &rdlength, &rdstart, &ownermatched); assert(!st); assert(rrtype != -1); if (rrclass != DNS_CLASS_IN || rrtype != (qu->typei->type & adns__rrt_typemask) || !ownermatched) continue; adns__update_expires(qu, ttl, now); st = typei->parse(&pai, rdstart, rdstart + rdlength, rrsdata + nrrs * typei->rrsz); if (st) { adns__query_fail(qu, st); return; } if (rdstart == -1) goto x_truncated; nrrs++; } assert(nrrs == wantedrrs); qu->answer->nrrs = nrrs; /* This may have generated some child queries ... */ if (qu->children.head) { qu->state = query_childw; ALIST_LINK_TAIL(ads->childw, qu); return; } adns__query_done(qu); return; x_truncated: if (!flg_tc) { adns__diag(ads, serv, qu, "server sent datagram which points outside itself"); adns__query_fail(qu, adns_s_invalidresponse); return; } qu->flags |= adns_qf_usevc; x_restartquery: if (qu->cname_dgram) { st = adns__mkquery_frdgram(qu->ads, &qu->vb, &qu->id, qu->cname_dgram, qu->cname_dglen, qu->cname_begin, qu->typei->type, qu->flags); if (st) { adns__query_fail(qu, st); return; } newquery = ns_realloc(qu->query_dgram, qu->vb.used); if (!newquery) { adns__query_fail(qu, adns_s_nomemory); return; } qu->query_dgram = newquery; qu->query_dglen = qu->vb.used; os_memcpy(newquery, qu->vb.buf, qu->vb.used); } if (qu->state == query_tcpw) qu->state = query_tosend; qu->retries = 0; adns__reset_preserved(qu); adns__query_send(qu, now); }