ref: 14ac74fce1017b5c23ff4aed6f0289ab82bf71a2
dir: /sys/src/cmd/ndb/dnresolve.c/
/* * domain name resolvers, see rfcs 1035 and 1123 */ #include <u.h> #include <libc.h> #include <ip.h> #include <bio.h> #include <ndb.h> #include "dns.h" typedef struct Dest Dest; typedef struct Query Query; enum { Udp, Tcp, Answerr= -1, Answnone, Maxdest= 32, /* maximum destinations for a request message */ Maxoutstanding= 15, /* max. outstanding queries per domain name */ /* * these are the old values; we're trying longer timeouts now * primarily for the benefit of remote nameservers querying us * during times of bad connectivity. */ Maxtrans= 5, /* maximum transmissions to a server */ Maxretries= 10, /* cname+actual resends: was 32; have pity on user */ }; enum { Hurry, Patient, }; enum { Outns, Inns, }; struct Dest { uchar a[IPaddrlen]; /* ip address */ DN *s; /* name server name */ RR *n; /* name server rr */ int nx; /* number of transmissions */ int code; /* response code; used to clear dp->respcode */ }; struct Query { DN *dp; /* domain */ ushort type; /* and type to look up */ Request *req; Query *prev; /* previous query */ RR *nsrp; /* name servers to consult */ Dest *dest; /* array of destinations */ Dest *curdest; /* pointer to next to fill */ int ndest; /* transmit to this many on this round */ int udpfd; int tcpset; int tcpfd; /* if Tcp, read replies from here */ int tcpctlfd; uchar tcpip[IPaddrlen]; }; static RR* dnresolve1(char*, int, int, Request*, int, int); static int netquery(Query *, int); /* * reading /proc/pid/args yields either "name args" or "name [display args]", * so return only display args, if any. */ static char * procgetname(void) { int fd, n; char *lp, *rp; char buf[256]; snprint(buf, sizeof buf, "/proc/%d/args", getpid()); if((fd = open(buf, OREAD|OCEXEC)) < 0) return strdup(""); *buf = '\0'; n = read(fd, buf, sizeof buf-1); close(fd); if (n >= 0) buf[n] = '\0'; if ((lp = strchr(buf, '[')) == nil || (rp = strrchr(buf, ']')) == nil) return strdup(""); *rp = '\0'; return strdup(lp+1); } void rrfreelistptr(RR **rpp) { RR *rp; if (rpp == nil || *rpp == nil) return; rp = *rpp; *rpp = nil; /* update pointer in memory before freeing list */ rrfreelist(rp); } /* * lookup 'type' info for domain name 'name'. If it doesn't exist, try * looking it up as a canonical name. * * this process can be quite slow if time-outs are set too high when querying * nameservers that just don't respond to certain query types. in that case, * there will be multiple udp retries, multiple nameservers will be queried, * and this will be repeated for a cname query. the whole thing will be * retried several times until we get an answer or a time-out. */ RR* dnresolve(char *name, int class, int type, Request *req, RR **cn, int depth, int recurse, int rooted, int *status) { RR *rp, *nrp, *drp; DN *dp; int loops; char *procname; char nname[Domlen]; if(status) *status = 0; if(depth > 12) /* in a recursive loop? */ return nil; procname = procgetname(); /* * hack for systems that don't have resolve search * lists. Just look up the simple name in the database. */ if(!rooted && strchr(name, '.') == nil){ rp = nil; drp = domainlist(class); for(nrp = drp; rp == nil && nrp != nil; nrp = nrp->next){ snprint(nname, sizeof nname, "%s.%s", name, nrp->ptr->name); rp = dnresolve(nname, class, type, req, cn, depth+1, recurse, rooted, status); rrfreelist(rrremneg(&rp)); } if(drp != nil) rrfreelist(drp); procsetname("%s", procname); free(procname); return rp; } /* * try the name directly */ rp = dnresolve1(name, class, type, req, depth, recurse); if(rp == nil && (dp = idnlookup(name, class, 0)) != nil) { /* * try it as a canonical name if we weren't told * that the name didn't exist */ if(type != Tptr && dp->respcode != Rname) for(loops = 0; rp == nil && loops < Maxretries; loops++){ /* retry cname, then the actual type */ rp = dnresolve1(name, class, Tcname, req, depth, recurse); if(rp == nil) break; /* rp->host == nil shouldn't happen, but does */ if(rp->negative || rp->host == nil){ rrfreelist(rp); rp = nil; break; } name = rp->host->name; if(cn) rrcat(cn, rp); else rrfreelist(rp); rp = dnresolve1(name, class, type, req, depth, recurse); } /* distinction between not found and not good */ if(rp == nil && status != nil && dp->respcode != Rok) *status = dp->respcode; } procsetname("%s", procname); free(procname); return randomize(rp); } static void queryinit(Query *qp, DN *dp, int type, Request *req) { assert(dp != nil); memset(qp, 0, sizeof *qp); qp->udpfd = qp->tcpfd = qp->tcpctlfd = -1; qp->dp = dp; qp->type = type; if (qp->type != type) dnslog("queryinit: bogus type %d", type); qp->nsrp = nil; qp->dest = qp->curdest = nil; qp->prev = req->aux; qp->req = req; req->aux = qp; } static void querydestroy(Query *qp) { if(qp->req->aux == qp) qp->req->aux = qp->prev; /* leave udpfd open */ if (qp->tcpfd >= 0) close(qp->tcpfd); if (qp->tcpctlfd >= 0) { hangup(qp->tcpctlfd); close(qp->tcpctlfd); } memset(qp, 0, sizeof *qp); /* prevent accidents */ qp->udpfd = qp->tcpfd = qp->tcpctlfd = -1; } /* * if the response to a query hasn't arrived within 100 ms., * it's unlikely to arrive at all. after 1 s., it's really unlikely. * queries for missing RRs are likely to produce time-outs rather than * negative responses, so cname and aaaa queries are likely to time out, * thus we don't wait very long for them. */ static void notestats(long ms, int tmout, int type) { qlock(&stats); if (tmout) { stats.tmout++; if (type == Taaaa) stats.tmoutv6++; else if (type == Tcname) stats.tmoutcname++; } else { long wait10ths = ms / 100; if (wait10ths <= 0) stats.under10ths[0]++; else if (wait10ths >= nelem(stats.under10ths)) stats.under10ths[nelem(stats.under10ths) - 1]++; else stats.under10ths[wait10ths]++; } qunlock(&stats); } static void noteinmem(void) { qlock(&stats); stats.answinmem++; qunlock(&stats); } /* netquery with given name servers, free ns rrs when done */ static int netqueryns(Query *qp, int depth, RR *nsrp) { int rv; if(nsrp == nil) return Answnone; qp->nsrp = nsrp; rv = netquery(qp, depth); qp->nsrp = nil; /* prevent accidents */ rrfreelist(nsrp); return rv; } static RR* issuequery(Query *qp, char *name, int class, int depth, int recurse) { char *cp; DN *nsdp; RR *rp, *nsrp, *dbnsrp; /* * if we're running as just a resolver, query our * designated name servers */ if(cfg.resolver){ nsrp = randomize(getdnsservers(class)); if(nsrp != nil) if(netqueryns(qp, depth+1, nsrp) > Answnone) return rrlookup(qp->dp, qp->type, OKneg); } /* * walk up the domain name looking for * a name server for the domain. */ for(cp = name; cp; cp = walkup(cp)){ /* * if this is a local (served by us) domain, * return answer */ dbnsrp = randomize(dblookup(cp, class, Tns, 0, 0)); if(dbnsrp && dbnsrp->local){ rp = dblookup(name, class, qp->type, 1, dbnsrp->ttl); rrfreelist(dbnsrp); return rp; } /* * if recursion isn't set, just accept local * entries */ if(recurse == Dontrecurse){ if(dbnsrp) rrfreelist(dbnsrp); continue; } /* look for ns in cache */ nsdp = idnlookup(cp, class, 0); nsrp = nil; if(nsdp) nsrp = randomize(rrlookup(nsdp, Tns, NOneg)); /* if the entry timed out, ignore it */ if(nsrp && !nsrp->db && (long)(nsrp->expire - now) <= 0) rrfreelistptr(&nsrp); if(nsrp){ rrfreelistptr(&dbnsrp); /* hack: stop search if ns is authoritative in db */ if(cfg.cachedb && nsrp->db && nsrp->auth) cp = ""; /* query the name servers found in cache */ if(netqueryns(qp, depth+1, nsrp) > Answnone) return rrlookup(qp->dp, qp->type, OKneg); } else if(dbnsrp) /* try the name servers found in db */ if(netqueryns(qp, depth+1, dbnsrp) > Answnone) return rrlookup(qp->dp, qp->type, NOneg); } return nil; } static RR* dnresolve1(char *name, int class, int type, Request *req, int depth, int recurse) { Area *area; DN *dp; RR *rp; Query q; if(debug) dnslog("[%d] dnresolve1 %s %d %d", getpid(), name, type, class); /* only class Cin implemented so far */ if(class != Cin) return nil; dp = idnlookup(name, class, 1); /* * Try the cache first */ rp = rrlookup(dp, type, OKneg); if(rp) if(rp->db){ /* unauthoritative db entries are hints */ if(rp->auth) { noteinmem(); if(debug) dnslog("[%d] dnresolve1 %s %d %d: auth rr in db", getpid(), name, type, class); return rp; } } else /* cached entry must still be valid */ if((long)(rp->expire - now) > 0) /* but Tall entries are special */ if(type != Tall || rp->query == Tall) { noteinmem(); if(debug) dnslog("[%d] dnresolve1 %s %d %d: rr not in db", getpid(), name, type, class); return rp; } rrfreelist(rp); rp = nil; /* accident prevention */ USED(rp); /* * try the cache for a canonical name. if found punt * since we'll find it during the canonical name search * in dnresolve(). */ if(type != Tcname){ rp = rrlookup(dp, Tcname, NOneg); rrfreelist(rp); if(rp){ if(debug) dnslog("[%d] dnresolve1 %s %d %d: rr from rrlookup for non-cname", getpid(), name, type, class); return nil; } } /* * if the domain name is within an area of ours, * we should have found its data in memory by now. */ area = inmyarea(dp->name); if (area || strncmp(dp->name, "local#", 6) == 0) return nil; queryinit(&q, dp, type, req); rp = issuequery(&q, name, class, depth, recurse); querydestroy(&q); if(rp){ if(debug) dnslog("[%d] dnresolve1 %s %d %d: rr from query", getpid(), name, type, class); return rp; } /* settle for a non-authoritative answer */ rp = rrlookup(dp, type, OKneg); if(rp){ if(debug) dnslog("[%d] dnresolve1 %s %d %d: rr from rrlookup", getpid(), name, type, class); return rp; } /* noone answered. try the database, we might have a chance. */ rp = dblookup(name, class, type, 0, 0); if (rp) { if(debug) dnslog("[%d] dnresolve1 %s %d %d: rr from dblookup", getpid(), name, type, class); }else{ if(debug) dnslog("[%d] dnresolve1 %s %d %d: no rr from dblookup; crapped out", getpid(), name, type, class); } return rp; } /* * walk a domain name one element to the right. * return a pointer to that element. * in other words, return a pointer to the parent domain name. */ char* walkup(char *name) { char *cp; cp = strchr(name, '.'); if(cp) return cp+1; else if(*name) return ""; else return 0; } /* * Get a udp port for sending requests and reading replies. * Put the port into "headers" mode. */ int udpport(char *mntpt) { static char hmsg[] = "headers"; static char imsg[] = "ignoreadvice"; char ds[64], adir[64]; int fd, ctl; /* get a udp port */ snprint(ds, sizeof ds, "%s/udp!*!0", mntpt); ctl = announce(ds, adir); if(ctl < 0) return -1; /* turn on header style interface */ if(write(ctl, hmsg, sizeof(hmsg)-1) < 0){ warning("can't enable %s on %s: %r", hmsg, adir); close(ctl); return -1; } /* ignore ICMP advice */ write(ctl, imsg, sizeof(imsg)-1); /* grab the data file */ snprint(ds, sizeof ds, "%s/data", adir); fd = open(ds, ORDWR); if(fd < 0) warning("can't open udp port %s: %r", ds); close(ctl); return fd; } void initdnsmsg(DNSmsg *mp, RR *rp, int flags, ushort reqno) { memset(mp, 0, sizeof *mp); mp->flags = flags; mp->id = reqno; mp->qd = rp; if(rp != nil) mp->qdcount = 1; } /* generate a DNS UDP query packet */ int mkreq(DN *dp, int type, uchar *buf, int flags, ushort reqno) { DNSmsg m; int len; Udphdr *uh = (Udphdr*)buf; RR *rp; /* stuff port number into output buffer */ memset(uh, 0, sizeof *uh); hnputs(uh->rport, 53); /* make request and convert it to output format */ rp = rralloc(type); rp->owner = dp; initdnsmsg(&m, rp, flags, reqno); len = convDNS2M(&m, &buf[Udphdrsize], Maxudp); rrfreelist(rp); return len; } void freeanswers(DNSmsg *mp) { rrfreelistptr(&mp->qd); rrfreelistptr(&mp->an); rrfreelistptr(&mp->ns); rrfreelistptr(&mp->ar); mp->qdcount = mp->ancount = mp->nscount = mp->arcount = 0; } /* timed read of reply. sets srcip. ibuf must be 64K to handle tcp answers. */ static int readnet(Query *qp, int medium, uchar *ibuf, uvlong endms, uchar **replyp, uchar *srcip) { int len, fd; long ms; uvlong startms; uchar *reply; uchar lenbuf[2]; *replyp = nil; memset(srcip, 0, IPaddrlen); startms = nowms; ms = (long)(endms - startms); if (ms < 1) return -1; /* taking too long */ len = -1; /* pessimism */ reply = ibuf; if (medium == Udp) if (qp->udpfd < 0) dnslog("readnet: qp->udpfd closed"); else { alarm(ms); len = read(qp->udpfd, ibuf, Udphdrsize+Maxudpin); alarm(0); if (len >= IPaddrlen) memmove(srcip, ibuf, IPaddrlen); if (len >= Udphdrsize) { len -= Udphdrsize; reply += Udphdrsize; } } else { if (!qp->tcpset) dnslog("readnet: tcp params not set"); fd = qp->tcpfd; if (fd < 0) dnslog("readnet: %s: tcp fd unset for dest %I", qp->dp->name, qp->tcpip); else { alarm(ms); if (readn(fd, lenbuf, 2) != 2) { alarm(0); dnslog("readnet: short read of 2-byte tcp msg size from %I", qp->tcpip); } else { len = lenbuf[0]<<8 | lenbuf[1]; if (readn(fd, ibuf, len) != len) { alarm(0); dnslog("readnet: short read of tcp data from %I", qp->tcpip); len = -1; } else { alarm(0); } } } memmove(srcip, qp->tcpip, IPaddrlen); } ms = (long)(timems() - startms); notestats(ms, len < 0, qp->type); *replyp = reply; return len; } /* * read replies to a request and remember the rrs in the answer(s). * ignore any of the wrong type. * wait at most until endms. */ static int readreply(Query *qp, int medium, ushort req, uchar *ibuf, DNSmsg *mp, uvlong endms) { int len; char *err; uchar *reply; uchar srcip[IPaddrlen]; RR *rp; for (;; freeanswers(mp)) { len = readnet(qp, medium, ibuf, endms, &reply, srcip); if (len < 0) break; /* convert into internal format */ memset(mp, 0, sizeof *mp); err = convM2DNS(reply, len, mp, nil); if (mp->flags & Ftrunc) { free(err); freeanswers(mp); /* notify our caller to retry the query via tcp. */ return -1; } else if(err){ dnslog("readreply: %s: input err, len %d: %s: %I", qp->dp->name, len, err, srcip); free(err); continue; } if(debug) logreply(qp->req->id, srcip, mp); /* answering the right question? */ if(mp->id != req) dnslog("%d: id %d instead of %d: %I", qp->req->id, mp->id, req, srcip); else if(mp->qd == 0) dnslog("%d: no question RR: %I", qp->req->id, srcip); else if(mp->qd->owner != qp->dp) dnslog("%d: owner %s instead of %s: %I", qp->req->id, mp->qd->owner->name, qp->dp->name, srcip); else if(mp->qd->type != qp->type) dnslog("%d: qp->type %d instead of %d: %I", qp->req->id, mp->qd->type, qp->type, srcip); else { /* remember what request this is in answer to */ for(rp = mp->an; rp; rp = rp->next) rp->query = qp->type; return 0; } } memset(mp, 0, sizeof *mp); return -1; } /* * return non-0 if first list includes second list */ int contains(RR *rp1, RR *rp2) { RR *trp1, *trp2; for(trp2 = rp2; trp2; trp2 = trp2->next){ for(trp1 = rp1; trp1; trp1 = trp1->next) if(trp1->type == trp2->type) if(trp1->host == trp2->host) if(trp1->owner == trp2->owner) break; if(trp1 == nil) return 0; } return 1; } /* * return multicast version if any */ int ipisbm(uchar *ip) { if(isv4(ip)){ if (ip[IPv4off] >= 0xe0 && ip[IPv4off] < 0xf0 || ipcmp(ip, IPv4bcast) == 0) return 4; } else if(ip[0] == 0xff) return 6; return 0; } static int queryloops(Query *qp, RR *rp) { DN *ns = rp->host; /* * looking up a server under itself */ if(subsume(rp->owner->name, ns->name)) return 1; /* * cycle on name servers refering * to each another. */ for(; qp; qp = qp->prev) if(qp->dp == ns) return 1; return 0; } /* * Get next server type address(es) into qp->dest[nd] and beyond */ static int serveraddrs(Query *qp, int nd, int depth, int type) { RR *rp, *arp, *trp; ulong mark; Dest *p; if(nd >= Maxdest) /* dest array is full? */ return Maxdest; /* * look for a server whose address we already know. * if we find one, mark it so we ignore this on * subsequent passes. */ mark = 1UL<<type; arp = nil; for(rp = qp->nsrp; rp; rp = rp->next){ if(rp->marker & mark) continue; arp = rrlookup(rp->host, type, NOneg); if(arp){ rp->marker |= mark; break; } arp = dblookup(rp->host->name, Cin, type, 0, 0); if(arp){ rp->marker |= mark; break; } } /* * if the cache and database lookup didn't find any new * server addresses, try resolving one via the network. * Mark any we try to resolve so we don't try a second time. */ if(arp == nil){ for(rp = qp->nsrp; rp; rp = rp->next) if((rp->marker & mark) == 0) if(queryloops(qp, rp)) /* * give up as we should have got the address * by higher up nameserver when recursing * down, or will be queried when recursing up. */ return nd; for(rp = qp->nsrp; rp; rp = rp->next){ if(rp->marker & mark) continue; rp->marker |= mark; if(strncmp(rp->owner->name, "local#", 6) == 0) continue; arp = dnresolve(rp->host->name, Cin, type, qp->req, 0, depth+1, Recurse, 1, 0); rrfreelist(rrremneg(&arp)); if(arp) break; } } /* use any addresses that we found */ for(trp = arp; trp && nd < Maxdest; trp = trp->next){ p = &qp->dest[nd]; memset(p, 0, sizeof *p); if(parseip(p->a, trp->ip->name) == -1) continue; /* * straddling servers can reject all nameservers if they are all * inside, so be sure to list at least one outside ns at * the end of the ns list in /lib/ndb for `dom='. */ if (ipisbm(p->a) || cfg.straddle && !insideaddr(qp->dp->name) && insidens(p->a)) continue; p->nx = 0; p->n = nil; p->s = trp->owner; for(rp = qp->nsrp; rp; rp = rp->next){ if(rp->host == p->s){ p->n = rp; break; } } p->code = Rtimeout; nd++; } rrfreelist(arp); return nd; } /* * cache negative responses */ static void cacheneg(DN *dp, int type, int rcode, RR *soarr) { RR *rp; DN *soaowner; ulong ttl; qlock(&stats); stats.negcached++; qunlock(&stats); /* no cache time specified, don't make anything up */ if(soarr != nil){ if(soarr->next != nil) rrfreelistptr(&soarr->next); soaowner = soarr->owner; } else soaowner = nil; /* the attach can cause soarr to be freed so mine it now */ if(soarr != nil && soarr->soa != nil) ttl = soarr->soa->minttl; else ttl = 5*Min; /* add soa and negative RR to the database */ rrattach(soarr, Authoritative); rp = rralloc(type); rp->owner = dp; rp->negative = 1; rp->negsoaowner = soaowner; rp->negrcode = rcode; rp->ttl = ttl; rrattach(rp, Authoritative); } static int setdestoutns(Dest *p, int n) { memset(p, 0, sizeof *p); if (outsidensip(n, p->a) < 0){ if (n == 0) dnslog("[%d] no outside-ns in ndb", getpid()); return -1; } p->s = dnlookup("outside-ns-ips", Cin, 1); return 0; } /* * issue query via UDP or TCP as appropriate. * for TCP, returns with qp->tcpip set from udppkt header. */ static int mydnsquery(Query *qp, int medium, uchar *udppkt, int len) { int rv, nfd; char conndir[40], addr[128]; uchar belen[2]; NetConnInfo *nci; rv = -1; if (myip(udppkt)) return rv; switch (medium) { case Udp: nfd = dup(qp->udpfd, -1); if (nfd < 0) { warning("mydnsquery: qp->udpfd %d: %r", qp->udpfd); close(qp->udpfd); /* ensure it's closed */ qp->udpfd = -1; /* poison it */ break; } close(nfd); if (qp->udpfd < 0) dnslog("mydnsquery: qp->udpfd %d closed", qp->udpfd); else { if (write(qp->udpfd, udppkt, len+Udphdrsize) != len+Udphdrsize) warning("sending udp msg: %r"); else { qlock(&stats); stats.qsent++; qunlock(&stats); rv = 0; } } break; case Tcp: /* send via TCP & keep fd around for reply */ memmove(qp->tcpip, udppkt, sizeof qp->tcpip); snprint(addr, sizeof addr, "%s/tcp!%I!dns", (mntpt && *mntpt) ? mntpt : "/net", udppkt); alarm(10*1000); qp->tcpfd = dial(addr, nil, conndir, &qp->tcpctlfd); alarm(0); if (qp->tcpfd < 0) { dnslog("can't dial %s: %r", addr); break; } nci = getnetconninfo(conndir, qp->tcpfd); if (nci) { parseip(qp->tcpip, nci->rsys); freenetconninfo(nci); } else dnslog("mydnsquery: getnetconninfo failed"); qp->tcpset = 1; belen[0] = len >> 8; belen[1] = len; if (write(qp->tcpfd, belen, 2) != 2 || write(qp->tcpfd, udppkt + Udphdrsize, len) != len) warning("sending tcp msg: %r"); else rv = 0; break; } return rv; } /* * send query to all UDP destinations or one TCP destination, * taken from obuf (udp packet) header */ static int xmitquery(Query *qp, int medium, int depth, uchar *obuf, int inns, int len) { int n; char buf[32]; Dest *p; /* * if we send tcp query, we just take the dest ip address from * the udp header placed there by tcpquery(). */ if (medium == Tcp) { procsetname("tcp %sside query for %s %s", (inns? "in": "out"), qp->dp->name, rrname(qp->type, buf, sizeof buf)); if(mydnsquery(qp, medium, obuf, len) < 0) /* sets qp->tcpip from obuf */ return -1; if(debug) logsend(qp->req->id, depth, qp->tcpip, "", qp->dp->name, qp->type); return 0; } /* * get a nameserver address if we need one. * we're to transmit to more destinations than we currently have, * so get another. */ p = qp->dest; n = qp->curdest - p; if (qp->ndest > n) { /* populates qp->dest with v4 and v6 addresses. */ n = serveraddrs(qp, n, depth, Ta); n = serveraddrs(qp, n, depth, Taaaa); if (n == 0 && cfg.straddle && cfg.inside) { /* get ips of "outside-ns-ips" */ while(n < Maxdest){ if (setdestoutns(&qp->dest[n], n) < 0) break; n++; } if(n == 0) dnslog("xmitquery: %s: no outside-ns nameservers", qp->dp->name); } qp->curdest = &qp->dest[n]; } for(n = 0; p < &qp->dest[qp->ndest] && p < qp->curdest; p++){ /* skip destinations we've finished with */ if(p->nx >= Maxtrans) continue; /* exponential backoff of requests */ if((1<<p->nx) > qp->ndest) continue; if(ipcmp(p->a, IPnoaddr) == 0) continue; /* mistake */ procsetname("udp %sside query to %I/%s %s %s", (inns? "in": "out"), p->a, p->s->name, qp->dp->name, rrname(qp->type, buf, sizeof buf)); if(debug) logsend(qp->req->id, depth, p->a, p->s->name, qp->dp->name, qp->type); /* fill in UDP destination addr & send it */ memmove(obuf, p->a, sizeof p->a); if(mydnsquery(qp, medium, obuf, len) == 0) n++; p->nx++; } return n == 0 ? -1 : 0; } /* is mp a cachable negative response (with Rname set)? */ static int isnegrname(DNSmsg *mp) { /* TODO: could add || cfg.justforw to RHS of && */ return mp->an == nil && (mp->flags & Rmask) == Rname; } static int filterhints(RR *rp, void *arg) { RR *nsrp; if(rp->type != Ta && rp->type != Taaaa) return 0; for(nsrp = arg; nsrp; nsrp = nsrp->next) if(nsrp->type == Tns && rp->owner == nsrp->host) return 1; return 0; } static int filterauth(RR *rp, void *arg) { Dest *dest; RR *nsrp; dest = arg; nsrp = dest->n; if(nsrp == nil) return 0; if(rp->type == Tsoa && rp->owner != nsrp->owner && !subsume(nsrp->owner->name, rp->owner->name) && strncmp(nsrp->owner->name, "local#", 6) != 0) return 1; if(rp->type != Tns) return 0; if(rp->owner != nsrp->owner && !subsume(nsrp->owner->name, rp->owner->name) && strncmp(nsrp->owner->name, "local#", 6) != 0) return 1; return baddelegation(rp, nsrp, dest->a); } static void reportandfree(RR *l, char *note, Dest *p) { RR *rp; while(rp = l){ l = l->next; rp->next = nil; if(debug) dnslog("ignoring %s from %I/%s: %R", note, p->a, p->s->name, rp); rrfree(rp); } } /* returns Answerr (-1) on errors, else number of answers, which can be zero. */ static int procansw(Query *qp, DNSmsg *mp, int depth, Dest *p) { int rv; char buf[32]; DN *ndp; Query nq; RR *tp, *soarr; if(mp->an == nil) stats.negans++; /* ignore any error replies */ switch(mp->flags & Rmask){ case Rrefused: case Rserver: stats.negserver++; freeanswers(mp); p->code = Rserver; return Answerr; } /* ignore any bad delegations */ if((tp = rrremfilter(&mp->ns, filterauth, p)) != 0) reportandfree(tp, "bad delegation", p); /* remove any soa's from the authority section */ soarr = rrremtype(&mp->ns, Tsoa); /* only nameservers remaining */ if((tp = rrremtype(&mp->ns, Tns)) != 0){ reportandfree(mp->ns, "non-nameserver", p); mp->ns = tp; } /* remove answers not related to the question. */ if((tp = rrremowner(&mp->an, qp->dp)) != 0){ reportandfree(mp->an, "wrong subject answer", p); mp->an = tp; } if(qp->type != Tall){ if((tp = rrremtype(&mp->an, qp->type)) != 0){ reportandfree(mp->an, "wrong type answer", p); mp->an = tp; } } /* incorporate answers */ unique(mp->an); unique(mp->ns); unique(mp->ar); if(mp->an){ /* * only use cname answer when returned. some dns servers * attach (potential) spam hint address records which poisons * the cache. */ if((tp = rrremtype(&mp->an, Tcname)) != 0){ reportandfree(mp->an, "ip in cname answer", p); mp->an = tp; } rrattach(mp->an, (mp->flags & Fauth) != 0); } if(mp->ar){ /* restrict hints to address rr's for nameservers only */ if((tp = rrremfilter(&mp->ar, filterhints, mp->ns)) != 0){ reportandfree(mp->ar, "hint", p); mp->ar = tp; } rrattach(mp->ar, Notauthoritative); } if(mp->ns && !cfg.justforw){ ndp = mp->ns->owner; rrattach(mp->ns, Notauthoritative); } else { ndp = nil; rrfreelistptr(&mp->ns); mp->nscount = 0; } /* free the question */ if(mp->qd) { rrfreelistptr(&mp->qd); mp->qdcount = 0; } /* * Any reply from an authoritative server * that does not provide more nameservers, * or a positive reply terminates the search. * A negative response now also terminates the search. */ if(mp->an || (mp->flags & Fauth) && mp->ns == nil){ if(isnegrname(mp)) qp->dp->respcode = Rname; else qp->dp->respcode = Rok; /* * cache any negative responses, free soarr. * negative responses need not be authoritative: * they can legitimately come from a cache. */ if( /* (mp->flags & Fauth) && */ mp->an == nil) cacheneg(qp->dp, qp->type, (mp->flags & Rmask), soarr); else rrfreelist(soarr); return 1; } else if (isnegrname(mp)) { qp->dp->respcode = Rname; /* * cache negative response. * negative responses need not be authoritative: * they can legitimately come from a cache. */ cacheneg(qp->dp, qp->type, (mp->flags & Rmask), soarr); return 1; } stats.negnorname++; rrfreelist(soarr); /* * if we've been given better name servers, recurse. * if we're a pure resolver, don't recurse, we have * to forward to a fixed set of named servers. */ if(mp->ns == nil || cfg.resolver && cfg.justforw) return Answnone; tp = rrlookup(ndp, Tns, NOneg); if(contains(qp->nsrp, tp)){ rrfreelist(tp); return Answnone; } procsetname("recursive query for %s %s", qp->dp->name, rrname(qp->type, buf, sizeof buf)); queryinit(&nq, qp->dp, qp->type, qp->req); rv = netqueryns(&nq, depth+1, tp); querydestroy(&nq); return rv; } /* * send a query via tcp to a single address (from ibuf's udp header) * and read the answer(s) into mp->an. */ static int tcpquery(Query *qp, DNSmsg *mp, int depth, uchar *ibuf, uchar *obuf, int len, uvlong endms, int inns, ushort req) { int rv = 0; if (0) dnslog("%s: udp reply truncated; retrying query via tcp to %I", qp->dp->name, qp->tcpip); memmove(obuf, ibuf, IPaddrlen); /* send back to respondent */ memset(mp, 0, sizeof *mp); if (xmitquery(qp, Tcp, depth, obuf, inns, len) < 0 || readreply(qp, Tcp, req, ibuf, mp, endms) < 0) rv = -1; if (qp->tcpfd >= 0) { hangup(qp->tcpctlfd); close(qp->tcpctlfd); close(qp->tcpfd); } qp->tcpfd = qp->tcpctlfd = -1; return rv; } /* * query name servers. fill in obuf with on-the-wire representation of a * DNSmsg derived from qp. if the name server returns a pointer to another * name server, recurse. */ static int queryns(Query *qp, int depth, uchar *ibuf, uchar *obuf, ulong waitms, int inns) { int ndest, len, replywaits, rv, flag; ushort req; uvlong endms; char buf[32]; uchar srcip[IPaddrlen]; Dest *p, *np, dest[Maxdest]; req = rand(); /* request recursion only for local dns servers */ flag = Oquery; if(strncmp(qp->nsrp->owner->name, "local#", 6) == 0) flag |= Frecurse; /* pack request into a udp message */ len = mkreq(qp->dp, qp->type, obuf, flag, req); /* no server addresses yet */ memset(dest, 0, sizeof dest); qp->curdest = qp->dest = dest; /* * transmit udp requests and wait for answers. * at most Maxtrans attempts to each address. * each cycle send one more message than the previous. * retry a query via tcp if its response is truncated. */ for(ndest = 2; ndest < Maxdest; ndest += 2){ qp->ndest = ndest; qp->tcpset = 0; endms = nowms; if(endms >= qp->req->aborttime) break; if (xmitquery(qp, Udp, depth, obuf, inns, len) < 0) break; endms += waitms; if(endms > qp->req->aborttime) endms = qp->req->aborttime; for(replywaits = 0; replywaits < ndest; replywaits++){ DNSmsg m; procsetname("reading %sside reply from %I: %s %s from %s", (inns? "in": "out"), obuf, qp->dp->name, rrname(qp->type, buf, sizeof buf), qp->req->from); /* read udp answer into m */ if (readreply(qp, Udp, req, ibuf, &m, endms) >= 0) memmove(srcip, ibuf, IPaddrlen); else if (!(m.flags & Ftrunc)) { freeanswers(&m); break; /* timed out on this dest */ } else { /* whoops, it was truncated! ask again via tcp */ freeanswers(&m); if(nowms >= endms) break; rv = tcpquery(qp, &m, depth, ibuf, obuf, len, endms, inns, req); /* answer in m */ if (rv < 0) { freeanswers(&m); break; /* failed via tcp too */ } memmove(srcip, qp->tcpip, IPaddrlen); } /* find responder */ if(debug) dnslog("queryns got reply from %I", srcip); for(p = qp->dest; p < qp->curdest; p++) if(ipcmp(p->a, srcip) == 0) break; if(p >= qp->curdest){ dnslog("response from %I but no destination", srcip); continue; } /* remove all addrs of responding server from list */ for(np = qp->dest; np < qp->curdest; np++) if(np->s == p->s) np->nx = Maxtrans; /* free or incorporate RRs in m */ rv = procansw(qp, &m, depth, p); if (rv > Answnone) { qp->dest = qp->curdest = nil; /* prevent accidents */ return rv; } } } /* if all servers returned failure, propagate it */ qp->dp->respcode = Rserver; for(p = dest; p < qp->curdest; p++) if(p->code != Rserver) qp->dp->respcode = Rok; // if (qp->dp->respcode) // dnslog("queryns setting Rserver for %s", qp->dp->name); qp->dest = qp->curdest = nil; /* prevent accidents */ return Answnone; } /* * in principle we could use a single descriptor for a udp port * to send all queries and receive all the answers to them, * but we'd have to sort out the answers by dns-query id. */ static int udpquery(Query *qp, char *mntpt, int depth, int patient, int inns) { int fd, rv; uchar *obuf, *ibuf; /* use alloced buffers rather than ones from the stack */ ibuf = emalloc(64*1024); /* max. tcp reply size */ obuf = emalloc(Maxudp+Udphdrsize); fd = udpport(mntpt); if (fd < 0) { dnslog("can't get udpport for %s query of name %s: %r", mntpt, qp->dp->name); rv = -1; goto Out; } qp->udpfd = fd; rv = queryns(qp, depth, ibuf, obuf, 500UL<<(patient != 0), inns); qp->udpfd = -1; close(fd); Out: free(obuf); free(ibuf); return rv; } /* * look up (qp->dp->name, qp->type) rr in dns, * using nameservers in qp->nsrp. */ static int netquery(Query *qp, int depth) { int rv, triedin, inname; RR *rp; rv = Answnone; /* pessimism */ if(depth > 12) /* in a recursive loop? */ return Answnone; slave(qp->req); /* * slave might have forked. if so, the parent process longjmped to * req->mret; we're usually the child slave, but if there are too * many children already, we're still the same process. under no * circumstances block the 9p loop. */ if(!qp->req->isslave && strcmp(qp->req->from, "9p") == 0) return Answnone; procsetname("netquery: %s", qp->dp->name); /* prepare server RR's for incremental lookup */ for(rp = qp->nsrp; rp; rp = rp->next) rp->marker = 0; triedin = 0; /* * normal resolvers and servers will just use mntpt for all addresses, * even on the outside. straddling servers will use mntpt (/net) * for inside addresses and /net.alt for outside addresses, * thus bypassing other inside nameservers. */ inname = insideaddr(qp->dp->name); if (!cfg.straddle || inname) { rv = udpquery(qp, mntpt, depth, Hurry, (cfg.inside? Inns: Outns)); triedin = 1; } /* * if we're still looking, are inside, and have an outside domain, * try it on our outside interface, if any. */ if (rv == Answnone && cfg.inside && !inname) { if (triedin) dnslog( "[%d] netquery: internal nameservers failed for %s; trying external", getpid(), qp->dp->name); /* prepare server RR's for incremental lookup */ for(rp = qp->nsrp; rp; rp = rp->next) rp->marker = 0; rv = udpquery(qp, "/net.alt", depth, Patient, Outns); } return rv; } int seerootns(void) { int rv; char root[] = ""; Request req; RR *rr, *nsrp; Query q; memset(&req, 0, sizeof req); req.aborttime = timems() + Maxreqtm; req.isslave = 1; req.from = "internal"; queryinit(&q, dnlookup(root, Cin, 1), Tns, &req); nsrp = randomize(dblookup(root, Cin, Tns, 0, 0)); for (rr = nsrp; rr != nil; rr = rr->next) dnslog("seerootns query nsrp: %R", rr); rv = netqueryns(&q, 0, nsrp); /* lookup ". ns" using nsrp */ querydestroy(&q); return rv; }