From: jakob
query-source address * port *; query-source-v6 address * port *; diff --git a/usr.sbin/bind/lib/dns/api b/usr.sbin/bind/lib/dns/api index f830d6c5c3b..f40dfe0239b 100644 --- a/usr.sbin/bind/lib/dns/api +++ b/usr.sbin/bind/lib/dns/api @@ -1,3 +1,3 @@ -LIBINTERFACE = 34 -LIBREVISION = 2 -LIBAGE = 2 +LIBINTERFACE = 35 +LIBREVISION = 0 +LIBAGE = 0 diff --git a/usr.sbin/bind/lib/dns/dispatch.c b/usr.sbin/bind/lib/dns/dispatch.c index dbd50b577f8..a51db70b7bd 100644 --- a/usr.sbin/bind/lib/dns/dispatch.c +++ b/usr.sbin/bind/lib/dns/dispatch.c @@ -15,7 +15,7 @@ * PERFORMANCE OF THIS SOFTWARE. */ -/* $ISC: dispatch.c,v 1.116.18.19 2007/08/28 07:20:04 tbox Exp $ */ +/* $ISC: dispatch.c,v 1.116.18.19.12.1 2008/05/22 21:28:06 each Exp $ */ /*! \file */ @@ -26,10 +26,10 @@ #include#include -#include #include #include #include +#include #include #include #include @@ -46,26 +46,22 @@ typedef ISC_LIST(dns_dispentry_t) dns_displist_t; -typedef struct dns_nsid { - isc_uint16_t nsid_state; - isc_uint16_t *nsid_vtable; - isc_uint16_t *nsid_pool; - isc_uint16_t nsid_a1, nsid_a2, nsid_a3; - isc_uint16_t nsid_c1, nsid_c2, nsid_c3; - isc_uint16_t nsid_state2; - isc_boolean_t nsid_usepool; -} dns_nsid_t; - typedef struct dns_qid { unsigned int magic; unsigned int qid_nbuckets; /*%< hash table size */ unsigned int qid_increment; /*%< id increment on collision */ isc_mutex_t lock; - isc_shuffle_t qid_shuffle; /* state generator info */ - dns_nsid_t nsid; dns_displist_t *qid_table; /*%< the table itself */ } dns_qid_t; +/* ARC4 Random generator state */ +typedef struct arc4ctx { + isc_uint8_t i; + isc_uint8_t j; + isc_uint8_t s[256]; + int count; +} arc4ctx_t; + struct dns_dispatchmgr { /* Unlocked. */ unsigned int magic; @@ -78,6 +74,10 @@ struct dns_dispatchmgr { unsigned int state; ISC_LIST(dns_dispatch_t) list; + /* Locked by arc4_lock. */ + isc_mutex_t arc4_lock; + arc4ctx_t arc4ctx; /*%< ARC4 context for QID */ + /* locked by buffer lock */ dns_qid_t *qid; isc_mutex_t buffer_lock; @@ -104,6 +104,7 @@ struct dns_dispentry { unsigned int magic; dns_dispatch_t *disp; dns_messageid_t id; + in_port_t port; unsigned int bucket; isc_sockaddr_t host; isc_task_t *task; @@ -123,6 +124,7 @@ struct dns_dispatch { isc_task_t *task; /*%< internal task */ isc_socket_t *socket; /*%< isc socket attached to */ isc_sockaddr_t local; /*%< local address */ + in_port_t localport; /*%< local UDP port */ unsigned int maxrequests; /*%< max requests */ isc_event_t *ctlevent; @@ -165,14 +167,14 @@ struct dns_dispatch { * Statics. */ static dns_dispentry_t *bucket_search(dns_qid_t *, isc_sockaddr_t *, - dns_messageid_t, unsigned int); + dns_messageid_t, in_port_t, unsigned int); static isc_boolean_t destroy_disp_ok(dns_dispatch_t *); static void destroy_disp(isc_task_t *task, isc_event_t *event); static void udp_recv(isc_task_t *, isc_event_t *); static void tcp_recv(isc_task_t *, isc_event_t *); static void startrecv(dns_dispatch_t *); -static dns_messageid_t dns_randomid(dns_qid_t *); -static isc_uint32_t dns_hash(dns_qid_t *, isc_sockaddr_t *, dns_messageid_t); +static isc_uint32_t dns_hash(dns_qid_t *, isc_sockaddr_t *, dns_messageid_t, + in_port_t); static void free_buffer(dns_dispatch_t *disp, void *buf, unsigned int len); static void *allocate_udp_buffer(dns_dispatch_t *disp); static inline void free_event(dns_dispatch_t *disp, dns_dispatchevent_t *ev); @@ -192,12 +194,8 @@ static isc_result_t dispatch_createudp(dns_dispatchmgr_t *mgr, static isc_boolean_t destroy_mgr_ok(dns_dispatchmgr_t *mgr); static void destroy_mgr(dns_dispatchmgr_t **mgrp); static isc_result_t qid_allocate(dns_dispatchmgr_t *mgr, unsigned int buckets, - unsigned int increment, isc_boolean_t usepool, - dns_qid_t **qidp); + unsigned int increment, dns_qid_t **qidp); static void qid_destroy(isc_mem_t *mctx, dns_qid_t **qidp); -static isc_uint16_t nsid_next(dns_nsid_t *nsid); -static isc_result_t nsid_init(isc_mem_t *mctx, dns_nsid_t *nsid, isc_boolean_t usepool); -static void nsid_destroy(isc_mem_t *mctx, dns_nsid_t *nsid); #define LVL(x) ISC_LOG_DEBUG(x) @@ -278,26 +276,152 @@ request_log(dns_dispatch_t *disp, dns_dispentry_t *resp, } /* - * Return an unpredictable message ID. + * ARC4 random number generator obtained from OpenBSD */ -static dns_messageid_t -dns_randomid(dns_qid_t *qid) { - isc_uint16_t id; +static void +dispatch_arc4init(arc4ctx_t *actx) { + int n; + for (n = 0; n < 256; n++) + actx->s[n] = n; + actx->i = 0; + actx->j = 0; + actx->count = 0; +} + +static void +dispatch_arc4addrandom(arc4ctx_t *actx, unsigned char *dat, int datlen) { + int n; + isc_uint8_t si; + + actx->i--; + for (n = 0; n < 256; n++) { + actx->i = (actx->i + 1); + si = actx->s[actx->i]; + actx->j = (actx->j + si + dat[n % datlen]); + actx->s[actx->i] = actx->s[actx->j]; + actx->s[actx->j] = si; + } + actx->j = actx->i; +} + +static inline isc_uint8_t +dispatch_arc4get8(arc4ctx_t *actx) { + isc_uint8_t si, sj; + + actx->i = (actx->i + 1); + si = actx->s[actx->i]; + actx->j = (actx->j + si); + sj = actx->s[actx->j]; + actx->s[actx->i] = sj; + actx->s[actx->j] = si; + + return (actx->s[(si + sj) & 0xff]); +} + +static inline isc_uint16_t +dispatch_arc4get16(arc4ctx_t *actx) { + isc_uint16_t val; + + val = dispatch_arc4get8(actx) << 8; + val |= dispatch_arc4get8(actx); + + return (val); +} + +static void +dispatch_arc4stir(dns_dispatchmgr_t *mgr) { + int i; + union { + unsigned char rnd[128]; + isc_uint32_t rnd32[32]; + } rnd; + isc_result_t result; + + if (mgr->entropy != NULL) { + /* + * We accept any quality of random data to avoid blocking. + */ + result = isc_entropy_getdata(mgr->entropy, rnd.rnd, + sizeof(rnd), NULL, 0); + RUNTIME_CHECK(result == ISC_R_SUCCESS); + } else { + for (i = 0; i < 32; i++) + isc_random_get(&rnd.rnd32[i]); + } + dispatch_arc4addrandom(&mgr->arc4ctx, rnd.rnd, sizeof(rnd.rnd)); + + /* + * Discard early keystream, as per recommendations in: + * http://www.wisdom.weizmann.ac.il/~itsik/RC4/Papers/Rc4_ksa.ps + */ + for (i = 0; i < 256; i++) + (void)dispatch_arc4get8(&mgr->arc4ctx); + + /* + * Derived from OpenBSD's implementation. The rationale is not clear, + * but should be conservative enough in safety, and reasonably large + * for efficiency. + */ + mgr->arc4ctx.count = 1600000; +} + +static isc_uint16_t +dispatch_arc4random(dns_dispatchmgr_t *mgr) { + isc_uint16_t result; + + LOCK(&mgr->arc4_lock); + mgr->arc4ctx.count -= sizeof(isc_uint16_t); + if (mgr->arc4ctx.count <= 0) + dispatch_arc4stir(mgr); + result = dispatch_arc4get16(&mgr->arc4ctx); + UNLOCK(&mgr->arc4_lock); + return (result); +} + +static isc_uint16_t +dispatch_arc4uniformrandom(dns_dispatchmgr_t *mgr, isc_uint16_t upper_bound) { + isc_uint16_t min, r; + /* The caller must hold the manager lock. */ - id = isc_shuffle_generate16(&qid->qid_shuffle); + if (upper_bound < 2) + return (0); - return ((dns_messageid_t)id); + /* + * Ensure the range of random numbers [min, 0xffff] be a multiple of + * upper_bound and contain at least a half of the 16 bit range. + */ + + if (upper_bound > 0x8000) + min = 1 + ~upper_bound; /* 0x8000 - upper_bound */ + else + min = (isc_uint16_t)(0x10000 % (isc_uint32_t)upper_bound); + + /* + * This could theoretically loop forever but each retry has + * p > 0.5 (worst case, usually far better) of selecting a + * number inside the range we need, so it should rarely need + * to re-roll. + */ + for (;;) { + r = dispatch_arc4random(mgr); + if (r >= min) + break; + } + + return (r % upper_bound); } /* * Return a hash of the destination and message id. */ static isc_uint32_t -dns_hash(dns_qid_t *qid, isc_sockaddr_t *dest, dns_messageid_t id) { +dns_hash(dns_qid_t *qid, isc_sockaddr_t *dest, dns_messageid_t id, + in_port_t port) +{ unsigned int ret; ret = isc_sockaddr_hash(dest, ISC_TRUE); - ret ^= id; + ret ^= (id << 16) | port; ret %= qid->qid_nbuckets; INSIST(ret < qid->qid_nbuckets); @@ -414,7 +538,7 @@ destroy_disp(isc_task_t *task, isc_event_t *event) { */ static dns_dispentry_t * bucket_search(dns_qid_t *qid, isc_sockaddr_t *dest, dns_messageid_t id, - unsigned int bucket) + in_port_t port, unsigned int bucket) { dns_dispentry_t *res; @@ -423,8 +547,10 @@ bucket_search(dns_qid_t *qid, isc_sockaddr_t *dest, dns_messageid_t id, res = ISC_LIST_HEAD(qid->qid_table[bucket]); while (res != NULL) { - if ((res->id == id) && isc_sockaddr_equal(dest, &res->host)) + if ((res->id == id) && isc_sockaddr_equal(dest, &res->host) && + res->port == port) { return (res); + } res = ISC_LIST_NEXT(res, link); } @@ -626,13 +752,10 @@ udp_recv(isc_task_t *task, isc_event_t *ev_in) { goto restart; } - dns_dispatch_hash(&ev->timestamp, sizeof(&ev->timestamp)); - dns_dispatch_hash(ev->region.base, ev->region.length); - /* response */ - bucket = dns_hash(qid, &ev->address, id); + bucket = dns_hash(qid, &ev->address, id, disp->localport); LOCK(&qid->lock); - resp = bucket_search(qid, &ev->address, id, bucket); + resp = bucket_search(qid, &ev->address, id, disp->localport, bucket); dispatch_log(disp, LVL(90), "search for response in bucket %d: %s", bucket, (resp == NULL ? "not found" : "found")); @@ -863,14 +986,13 @@ tcp_recv(isc_task_t *task, isc_event_t *ev_in) { goto restart; } - dns_dispatch_hash(tcpmsg->buffer.base, tcpmsg->buffer.length); - /* * Response. */ - bucket = dns_hash(qid, &tcpmsg->address, id); + bucket = dns_hash(qid, &tcpmsg->address, id, disp->localport); LOCK(&qid->lock); - resp = bucket_search(qid, &tcpmsg->address, id, bucket); + resp = bucket_search(qid, &tcpmsg->address, id, disp->localport, + bucket); dispatch_log(disp, LVL(90), "search for response in bucket %d: %s", bucket, (resp == NULL ? "not found" : "found")); @@ -1022,6 +1144,8 @@ destroy_mgr(dns_dispatchmgr_t **mgrp) { DESTROYLOCK(&mgr->lock); mgr->state = 0; + DESTROYLOCK(&mgr->arc4_lock); + isc_mempool_destroy(&mgr->epool); isc_mempool_destroy(&mgr->rpool); isc_mempool_destroy(&mgr->dpool); @@ -1100,10 +1224,14 @@ dns_dispatchmgr_create(isc_mem_t *mctx, isc_entropy_t *entropy, if (result != ISC_R_SUCCESS) goto deallocate; - result = isc_mutex_init(&mgr->buffer_lock); + result = isc_mutex_init(&mgr->arc4_lock); if (result != ISC_R_SUCCESS) goto kill_lock; + result = isc_mutex_init(&mgr->buffer_lock); + if (result != ISC_R_SUCCESS) + goto kill_arc4_lock; + result = isc_mutex_init(&mgr->pool_lock); if (result != ISC_R_SUCCESS) goto kill_buffer_lock; @@ -1154,6 +1282,8 @@ dns_dispatchmgr_create(isc_mem_t *mctx, isc_entropy_t *entropy, if (entropy != NULL) isc_entropy_attach(entropy, &mgr->entropy); + dispatch_arc4init(&mgr->arc4ctx); + *mgrp = mgr; return (ISC_R_SUCCESS); @@ -1165,6 +1295,8 @@ dns_dispatchmgr_create(isc_mem_t *mctx, isc_entropy_t *entropy, DESTROYLOCK(&mgr->pool_lock); kill_buffer_lock: DESTROYLOCK(&mgr->buffer_lock); + kill_arc4_lock: + DESTROYLOCK(&mgr->arc4_lock); kill_lock: DESTROYLOCK(&mgr->lock); deallocate: @@ -1252,7 +1384,7 @@ dns_dispatchmgr_setudp(dns_dispatchmgr_t *mgr, isc_mempool_setmaxalloc(mgr->bpool, maxbuffers); isc_mempool_associatelock(mgr->bpool, &mgr->pool_lock); - result = qid_allocate(mgr, buckets, increment, ISC_TRUE, &mgr->qid); + result = qid_allocate(mgr, buckets, increment, &mgr->qid); if (result != ISC_R_SUCCESS) goto cleanup; @@ -1291,20 +1423,27 @@ dns_dispatchmgr_destroy(dns_dispatchmgr_t **mgrp) { } static isc_boolean_t -blacklisted(dns_dispatchmgr_t *mgr, isc_socket_t *sock) { +blacklisted(dns_dispatchmgr_t *mgr, isc_socket_t *sock, + isc_sockaddr_t *sockaddrp) +{ isc_sockaddr_t sockaddr; isc_result_t result; + REQUIRE(sock != NULL || sockaddrp != NULL); + if (mgr->portlist == NULL) return (ISC_FALSE); - result = isc_socket_getsockname(sock, &sockaddr); - if (result != ISC_R_SUCCESS) - return (ISC_FALSE); + if (sock != NULL) { + sockaddrp = &sockaddr; + result = isc_socket_getsockname(sock, sockaddrp); + if (result != ISC_R_SUCCESS) + return (ISC_FALSE); + } if (mgr->portlist != NULL && - dns_portlist_match(mgr->portlist, isc_sockaddr_pf(&sockaddr), - isc_sockaddr_getport(&sockaddr))) + dns_portlist_match(mgr->portlist, isc_sockaddr_pf(sockaddrp), + isc_sockaddr_getport(sockaddrp))) return (ISC_TRUE); return (ISC_FALSE); } @@ -1325,7 +1464,7 @@ local_addr_match(dns_dispatch_t *disp, isc_sockaddr_t *addr) { if (disp->mgr->portlist != NULL && isc_sockaddr_getport(addr) == 0 && isc_sockaddr_getport(&disp->local) == 0 && - blacklisted(disp->mgr, disp->socket)) + blacklisted(disp->mgr, disp->socket, NULL)) return (ISC_FALSE); /* @@ -1398,7 +1537,7 @@ dispatch_find(dns_dispatchmgr_t *mgr, isc_sockaddr_t *local, static isc_result_t qid_allocate(dns_dispatchmgr_t *mgr, unsigned int buckets, - unsigned int increment, isc_boolean_t usepool, dns_qid_t **qidp) + unsigned int increment, dns_qid_t **qidp) { dns_qid_t *qid; unsigned int i; @@ -1420,17 +1559,8 @@ qid_allocate(dns_dispatchmgr_t *mgr, unsigned int buckets, return (ISC_R_NOMEMORY); } - result = nsid_init(mgr->mctx, &qid->nsid, usepool); - if (result != ISC_R_SUCCESS) { - isc_mem_put(mgr->mctx, qid->qid_table, - buckets * sizeof(dns_displist_t)); - isc_mem_put(mgr->mctx, qid, sizeof(*qid)); - return (ISC_R_NOMEMORY); - } - result = isc_mutex_init(&qid->lock); if (result != ISC_R_SUCCESS) { - nsid_destroy(mgr->mctx, &qid->nsid); isc_mem_put(mgr->mctx, qid->qid_table, buckets * sizeof(dns_displist_t)); isc_mem_put(mgr->mctx, qid, sizeof(*qid)); @@ -1443,9 +1573,6 @@ qid_allocate(dns_dispatchmgr_t *mgr, unsigned int buckets, qid->qid_nbuckets = buckets; qid->qid_increment = increment; qid->magic = QID_MAGIC; - - isc_shuffle_init(&qid->qid_shuffle); - *qidp = qid; return (ISC_R_SUCCESS); } @@ -1461,7 +1588,6 @@ qid_destroy(isc_mem_t *mctx, dns_qid_t **qidp) { *qidp = NULL; qid->magic = 0; - nsid_destroy(mctx, &qid->nsid); isc_mem_put(mctx, qid->qid_table, qid->qid_nbuckets * sizeof(dns_displist_t)); DESTROYLOCK(&qid->lock); @@ -1498,6 +1624,7 @@ dispatch_allocate(dns_dispatchmgr_t *mgr, unsigned int maxrequests, disp->refcount = 1; disp->recv_pending = 0; memset(&disp->local, 0, sizeof(disp->local)); + disp->localport = 0; disp->shutting_down = 0; disp->shutdown_out = 0; disp->connected = 0; @@ -1603,7 +1730,7 @@ dns_dispatch_createtcp(dns_dispatchmgr_t *mgr, isc_socket_t *sock, return (result); } - result = qid_allocate(mgr, buckets, increment, ISC_FALSE, &disp->qid); + result = qid_allocate(mgr, buckets, increment, &disp->qid); if (result != ISC_R_SUCCESS) goto deallocate_dispatch; @@ -1670,7 +1797,7 @@ dns_dispatch_getudp(dns_dispatchmgr_t *mgr, isc_socketmgr_t *sockmgr, dns_dispatch_t **dispp) { isc_result_t result; - dns_dispatch_t *disp; + dns_dispatch_t *disp = NULL; REQUIRE(VALID_DISPATCHMGR(mgr)); REQUIRE(sockmgr != NULL); @@ -1690,6 +1817,11 @@ dns_dispatch_getudp(dns_dispatchmgr_t *mgr, isc_socketmgr_t *sockmgr, LOCK(&mgr->lock); + if ((attributes & DNS_DISPATCHATTR_RANDOMPORT) != 0) { + REQUIRE(isc_sockaddr_getport(localaddr) == 0); + goto createudp; + } + /* * First, see if we have a dispatcher that matches. */ @@ -1718,6 +1850,7 @@ dns_dispatch_getudp(dns_dispatchmgr_t *mgr, isc_socketmgr_t *sockmgr, return (ISC_R_SUCCESS); } + createudp: /* * Nope, create one. */ @@ -1753,7 +1886,9 @@ dispatch_createudp(dns_dispatchmgr_t *mgr, isc_socketmgr_t *sockmgr, dns_dispatch_t *disp; isc_socket_t *sock = NULL; isc_socket_t *held[DNS_DISPATCH_HELD]; - unsigned int i = 0, j = 0; + unsigned int i = 0, j = 0, k = 0; + isc_sockaddr_t localaddr_bound; + in_port_t localport = 0; /* * dispatch_allocate() checks mgr for us. @@ -1769,11 +1904,34 @@ dispatch_createudp(dns_dispatchmgr_t *mgr, isc_socketmgr_t *sockmgr, * from returning the same port to us too quickly. */ memset(held, 0, sizeof(held)); + localaddr_bound = *localaddr; getsocket: - result = create_socket(sockmgr, localaddr, &sock); + if ((attributes & DNS_DISPATCHATTR_RANDOMPORT) != 0) { + in_port_t prt; + + /* XXX: should the range be configurable? */ + prt = 1024 + dispatch_arc4uniformrandom(mgr, 65535 - 1023); + isc_sockaddr_setport(&localaddr_bound, prt); + if (blacklisted(mgr, NULL, &localaddr_bound)) { + if (++k == 1024) + attributes &= ~DNS_DISPATCHATTR_RANDOMPORT; + goto getsocket; + } + result = create_socket(sockmgr, &localaddr_bound, &sock); + if (result == ISC_R_ADDRINUSE) { + if (++k == 1024) + attributes &= ~DNS_DISPATCHATTR_RANDOMPORT; + goto getsocket; + } + localport = prt; + } else + result = create_socket(sockmgr, localaddr, &sock); if (result != ISC_R_SUCCESS) goto deallocate_dispatch; - if (isc_sockaddr_getport(localaddr) == 0 && blacklisted(mgr, sock)) { + if ((attributes & DNS_DISPATCHATTR_RANDOMPORT) == 0 && + isc_sockaddr_getport(localaddr) == 0 && + blacklisted(mgr, sock, NULL)) + { if (held[i] != NULL) isc_socket_detach(&held[i]); held[i++] = sock; @@ -1794,6 +1952,7 @@ dispatch_createudp(dns_dispatchmgr_t *mgr, isc_socketmgr_t *sockmgr, disp->socktype = isc_sockettype_udp; disp->socket = sock; disp->local = *localaddr; + disp->localport = localport; disp->task = NULL; result = isc_task_create(taskmgr, 0, &disp->task); @@ -1926,19 +2085,20 @@ dns_dispatch_addresponse(dns_dispatch_t *disp, isc_sockaddr_t *dest, /* * Try somewhat hard to find an unique ID. */ + id = (dns_messageid_t)dispatch_arc4random(disp->mgr); qid = DNS_QID(disp); LOCK(&qid->lock); - id = dns_randomid(qid); - bucket = dns_hash(qid, dest, id); + bucket = dns_hash(qid, dest, id, disp->localport); ok = ISC_FALSE; for (i = 0; i < 64; i++) { - if (bucket_search(qid, dest, id, bucket) == NULL) { + if (bucket_search(qid, dest, id, disp->localport, bucket) == + NULL) { ok = ISC_TRUE; break; } id += qid->qid_increment; id &= 0x0000ffff; - bucket = dns_hash(qid, dest, id); + bucket = dns_hash(qid, dest, id, disp->localport); } if (!ok) { @@ -1960,6 +2120,7 @@ dns_dispatch_addresponse(dns_dispatch_t *disp, isc_sockaddr_t *dest, isc_task_attach(task, &res->task); res->disp = disp; res->id = id; + res->port = disp->localport; res->bucket = bucket; res->host = *dest; res->action = action; @@ -2271,409 +2432,3 @@ dns_dispatchmgr_dump(dns_dispatchmgr_t *mgr) { } } #endif - -/* - * Allow the user to pick one of two ID randomization algorithms. - * - * The first algorithm is an adaptation of the sequence shuffling - * algorithm discovered by Carter Bays and S. D. Durham [ACM Trans. Math. - * Software 2 (1976), 59-64], as documented as Algorithm B in Chapter - * 3.2.2 in Volume 2 of Knuth's "The Art of Computer Programming". We use - * a randomly selected linear congruential random number generator with a - * modulus of 2^16, whose increment is a randomly picked odd number, and - * whose multiplier is picked from a set which meets the following - * criteria: - * Is of the form 8*n+5, which ensures "high potency" according to - * principle iii in the summary chapter 3.6. This form also has a - * gcd(a-1,m) of 4 which is good according to principle iv. - * - * Is between 0.01 and 0.99 times the modulus as specified by - * principle iv. - * - * Passes the spectral test "with flying colors" (ut >= 1) in - * dimensions 2 through 6 as calculated by Algorithm S in Chapter - * 3.3.4 and the ratings calculated by formula 35 in section E. - * - * Of the multipliers that pass this test, pick the set that is - * best according to the theoretical bounds of the serial - * correlation test. This was calculated using a simplified - * version of Knuth's Theorem K in Chapter 3.3.3. - * - * These criteria may not be important for this use, but we might as well - * pick from the best generators since there are so many possible ones and - * we don't have that many random bits to do the picking. - * - * We use a modulus of 2^16 instead of something bigger so that we will - * tend to cycle through all the possible IDs before repeating any, - * however the shuffling will perturb this somewhat. Theoretically there - * is no minimimum interval between two uses of the same ID, but in - * practice it seems to be >64000. - * - * Our adaptatation of Algorithm B mixes the hash state which has - * captured various random events into the shuffler to perturb the - * sequence. - * - * One disadvantage of this algorithm is that if the generator parameters - * were to be guessed, it would be possible to mount a limited brute force - * attack on the ID space since the IDs are only shuffled within a limited - * range. - * - * The second algorithm uses the same random number generator to populate - * a pool of 65536 IDs. The hash state is used to pick an ID from a window - * of 4096 IDs in this pool, then the chosen ID is swapped with the ID - * at the beginning of the window and the window position is advanced. - * This means that the interval between uses of the ID will be no less - * than 65536-4096. The ID sequence in the pool will become more random - * over time. - * - * For both algorithms, two more linear congruential random number generators - * are selected. The ID from the first part of algorithm is used to seed - * the first of these generators, and its output is used to seed the second. - * The strategy is use these generators as 1 to 1 hashes to obfuscate the - * properties of the generator used in the first part of either algorithm. - * - * The first algorithm may be suitable for use in a client resolver since - * its memory requirements are fairly low and it's pretty random out of - * the box. It is somewhat succeptible to a limited brute force attack, - * so the second algorithm is probably preferable for a longer running - * program that issues a large number of queries and has time to randomize - * the pool. - */ - -#define NSID_SHUFFLE_TABLE_SIZE 100 /* Suggested by Knuth */ -/* - * Pick one of the next 4096 IDs in the pool. - * There is a tradeoff here between randomness and how often and ID is reused. - */ -#define NSID_LOOKAHEAD 4096 /* Must be a power of 2 */ -#define NSID_SHUFFLE_ONLY 1 /* algorithm 1 */ -#define NSID_USE_POOL 2 /* algorithm 2 */ -#define NSID_HASHSHIFT 3 -#define NSID_HASHROTATE(v) \ - (((v) << NSID_HASHSHIFT) | ((v) >> ((sizeof(v) * 8) - NSID_HASHSHIFT))) - -static isc_uint32_t nsid_hash_state; - -/* - * Keep a running hash of various bits of data that we'll use to - * stir the ID pool or perturb the ID generator - */ -static void -nsid_hash(void *data, size_t len) { - unsigned char *p = data; - /* - * Hash function similar to the one we use for hashing names. - * We don't fold case or toss the upper bit here, though. - * This hash doesn't do much interesting when fed binary zeros, - * so there may be a better hash function. - * This function doesn't need to be very strong since we're - * only using it to stir the pool, but it should be reasonably - * fast. - */ - /* - * We don't care about locking access to nsid_hash_state. - * In fact races make the result even more non deteministic. - */ - while (len-- > 0U) { - nsid_hash_state = NSID_HASHROTATE(nsid_hash_state); - nsid_hash_state += *p++; - } -} - -/* - * Table of good linear congruential multipliers for modulus 2^16 - * in order of increasing serial correlation bounds (so trim from - * the end). - */ -static const isc_uint16_t nsid_multiplier_table[] = { - 17565, 25013, 11733, 19877, 23989, 23997, 24997, 25421, - 26781, 27413, 35901, 35917, 35973, 36229, 38317, 38437, - 39941, 40493, 41853, 46317, 50581, 51429, 53453, 53805, - 11317, 11789, 12045, 12413, 14277, 14821, 14917, 18989, - 19821, 23005, 23533, 23573, 23693, 27549, 27709, 28461, - 29365, 35605, 37693, 37757, 38309, 41285, 45261, 47061, - 47269, 48133, 48597, 50277, 50717, 50757, 50805, 51341, - 51413, 51581, 51597, 53445, 11493, 14229, 20365, 20653, - 23485, 25541, 27429, 29421, 30173, 35445, 35653, 36789, - 36797, 37109, 37157, 37669, 38661, 39773, 40397, 41837, - 41877, 45293, 47277, 47845, 49853, 51085, 51349, 54085, - 56933, 8877, 8973, 9885, 11365, 11813, 13581, 13589, - 13613, 14109, 14317, 15765, 15789, 16925, 17069, 17205, - 17621, 17941, 19077, 19381, 20245, 22845, 23733, 24869, - 25453, 27213, 28381, 28965, 29245, 29997, 30733, 30901, - 34877, 35485, 35613, 36133, 36661, 36917, 38597, 40285, - 40693, 41413, 41541, 41637, 42053, 42349, 45245, 45469, - 46493, 48205, 48613, 50861, 51861, 52877, 53933, 54397, - 55669, 56453, 56965, 58021, 7757, 7781, 8333, 9661, - 12229, 14373, 14453, 17549, 18141, 19085, 20773, 23701, - 24205, 24333, 25261, 25317, 27181, 30117, 30477, 34757, - 34885, 35565, 35885, 36541, 37957, 39733, 39813, 41157, - 41893, 42317, 46621, 48117, 48181, 49525, 55261, 55389, - 56845, 7045, 7749, 7965, 8469, 9133, 9549, 9789, - 10173, 11181, 11285, 12253, 13453, 13533, 13757, 14477, - 15053, 16901, 17213, 17269, 17525, 17629, 18605, 19013, - 19829, 19933, 20069, 20093, 23261, 23333, 24949, 25309, - 27613, 28453, 28709, 29301, 29541, 34165, 34413, 37301, - 37773, 38045, 38405, 41077, 41781, 41925, 42717, 44437, - 44525, 44613, 45933, 45941, 47077, 50077, 50893, 52117, - 5293, 55069, 55989, 58125, 59205, 6869, 14685, 15453, - 16821, 17045, 17613, 18437, 21029, 22773, 22909, 25445, - 25757, 26541, 30709, 30909, 31093, 31149, 37069, 37725, - 37925, 38949, 39637, 39701, 40765, 40861, 42965, 44813, - 45077, 45733, 47045, 50093, 52861, 52957, 54181, 56325, - 56365, 56381, 56877, 57013, 5741, 58101, 58669, 8613, - 10045, 10261, 10653, 10733, 11461, 12261, 14069, 15877, - 17757, 21165, 23885, 24701, 26429, 26645, 27925, 28765, - 29197, 30189, 31293, 39781, 39909, 40365, 41229, 41453, - 41653, 42165, 42365, 47421, 48029, 48085, 52773, 5573, - 57037, 57637, 58341, 58357, 58901, 6357, 7789, 9093, - 10125, 10709, 10765, 11957, 12469, 13437, 13509, 14773, - 15437, 15773, 17813, 18829, 19565, 20237, 23461, 23685, - 23725, 23941, 24877, 25461, 26405, 29509, 30285, 35181, - 37229, 37893, 38565, 40293, 44189, 44581, 45701, 47381, - 47589, 48557, 4941, 51069, 5165, 52797, 53149, 5341, - 56301, 56765, 58581, 59493, 59677, 6085, 6349, 8293, - 8501, 8517, 11597, 11709, 12589, 12693, 13517, 14909, - 17397, 18085, 21101, 21269, 22717, 25237, 25661, 29189, - 30101, 31397, 33933, 34213, 34661, 35533, 36493, 37309, - 40037, 4189, 42909, 44309, 44357, 44389, 4541, 45461, - 46445, 48237, 54149, 55301, 55853, 56621, 56717, 56901, - 5813, 58437, 12493, 15365, 15989, 17829, 18229, 19341, - 21013, 21357, 22925, 24885, 26053, 27581, 28221, 28485, - 30605, 30613, 30789, 35437, 36285, 37189, 3941, 41797, - 4269, 42901, 43293, 44645, 45221, 46893, 4893, 50301, - 50325, 5189, 52109, 53517, 54053, 54485, 5525, 55949, - 56973, 59069, 59421, 60733, 61253, 6421, 6701, 6709, - 7101, 8669, 15797, 19221, 19837, 20133, 20957, 21293, - 21461, 22461, 29085, 29861, 30869, 34973, 36469, 37565, - 38125, 38829, 39469, 40061, 40117, 44093, 47429, 48341, - 50597, 51757, 5541, 57629, 58405, 59621, 59693, 59701, - 61837, 7061, 10421, 11949, 15405, 20861, 25397, 25509, - 25893, 26037, 28629, 28869, 29605, 30213, 34205, 35637, - 36365, 37285, 3773, 39117, 4021, 41061, 42653, 44509, - 4461, 44829, 4725, 5125, 52269, 56469, 59085, 5917, - 60973, 8349, 17725, 18637, 19773, 20293, 21453, 22533, - 24285, 26333, 26997, 31501, 34541, 34805, 37509, 38477, - 41333, 44125, 46285, 46997, 47637, 48173, 4925, 50253, - 50381, 50917, 51205, 51325, 52165, 52229, 5253, 5269, - 53509, 56253, 56341, 5821, 58373, 60301, 61653, 61973, - 62373, 8397, 11981, 14341, 14509, 15077, 22261, 22429, - 24261, 28165, 28685, 30661, 34021, 34445, 39149, 3917, - 43013, 43317, 44053, 44101, 4533, 49541, 49981, 5277, - 54477, 56357, 57261, 57765, 58573, 59061, 60197, 61197, - 62189, 7725, 8477, 9565, 10229, 11437, 14613, 14709, - 16813, 20029, 20677, 31445, 3165, 31957, 3229, 33541, - 36645, 3805, 38973, 3965, 4029, 44293, 44557, 46245, - 48917, 4909, 51749, 53709, 55733, 56445, 5925, 6093, - 61053, 62637, 8661, 9109, 10821, 11389, 13813, 14325, - 15501, 16149, 18845, 22669, 26437, 29869, 31837, 33709, - 33973, 34173, 3677, 3877, 3981, 39885, 42117, 4421, - 44221, 44245, 44693, 46157, 47309, 5005, 51461, 52037, - 55333, 55693, 56277, 58949, 6205, 62141, 62469, 6293, - 10101, 12509, 14029, 17997, 20469, 21149, 25221, 27109, - 2773, 2877, 29405, 31493, 31645, 4077, 42005, 42077, - 42469, 42501, 44013, 48653, 49349, 4997, 50101, 55405, - 56957, 58037, 59429, 60749, 61797, 62381, 62837, 6605, - 10541, 23981, 24533, 2701, 27333, 27341, 31197, 33805, - 3621, 37381, 3749, 3829, 38533, 42613, 44381, 45901, - 48517, 51269, 57725, 59461, 60045, 62029, 13805, 14013, - 15461, 16069, 16157, 18573, 2309, 23501, 28645, 3077, - 31541, 36357, 36877, 3789, 39429, 39805, 47685, 47949, - 49413, 5485, 56757, 57549, 57805, 58317, 59549, 62213, - 62613, 62853, 62933, 8909, 12941, 16677, 20333, 21541, - 24429, 26077, 26421, 2885, 31269, 33381, 3661, 40925, - 42925, 45173, 4525, 4709, 53133, 55941, 57413, 57797, - 62125, 62237, 62733, 6773, 12317, 13197, 16533, 16933, - 18245, 2213, 2477, 29757, 33293, 35517, 40133, 40749, - 4661, 49941, 62757, 7853, 8149, 8573, 11029, 13421, - 21549, 22709, 22725, 24629, 2469, 26125, 2669, 34253, - 36709, 41013, 45597, 46637, 52285, 52333, 54685, 59013, - 60997, 61189, 61981, 62605, 62821, 7077, 7525, 8781, - 10861, 15277, 2205, 22077, 28517, 28949, 32109, 33493, - 4661, 49941, 62757, 7853, 8149, 8573, 11029, 13421, - 21549, 22709, 22725, 24629, 2469, 26125, 2669, 34253, - 36709, 41013, 45597, 46637, 52285, 52333, 54685, 59013, - 60997, 61189, 61981, 62605, 62821, 7077, 7525, 8781, - 10861, 15277, 2205, 22077, 28517, 28949, 32109, 33493, - 3685, 39197, 39869, 42621, 44997, 48565, 5221, 57381, - 61749, 62317, 63245, 63381, 23149, 2549, 28661, 31653, - 33885, 36341, 37053, 39517, 42805, 45853, 48997, 59349, - 60053, 62509, 63069, 6525, 1893, 20181, 2365, 24893, - 27397, 31357, 32277, 33357, 34437, 36677, 37661, 43469, - 43917, 50997, 53869, 5653, 13221, 16741, 17893, 2157, - 28653, 31789, 35301, 35821, 61613, 62245, 12405, 14517, - 17453, 18421, 3149, 3205, 40341, 4109, 43941, 46869, - 48837, 50621, 57405, 60509, 62877, 8157, 12933, 12957, - 16501, 19533, 3461, 36829, 52357, 58189, 58293, 63053, - 17109, 1933, 32157, 37701, 59005, 61621, 13029, 15085, - 16493, 32317, 35093, 5061, 51557, 62221, 20765, 24613, - 2629, 30861, 33197, 33749, 35365, 37933, 40317, 48045, - 56229, 61157, 63797, 7917, 17965, 1917, 1973, 20301, - 2253, 33157, 58629, 59861, 61085, 63909, 8141, 9221, - 14757, 1581, 21637, 26557, 33869, 34285, 35733, 40933, - 42517, 43501, 53653, 61885, 63805, 7141, 21653, 54973, - 31189, 60061, 60341, 63357, 16045, 2053, 26069, 33997, - 43901, 54565, 63837, 8949, 17909, 18693, 32349, 33125, - 37293, 48821, 49053, 51309, 64037, 7117, 1445, 20405, - 23085, 26269, 26293, 27349, 32381, 33141, 34525, 36461, - 37581, 43525, 4357, 43877, 5069, 55197, 63965, 9845, - 12093, 2197, 2229, 32165, 33469, 40981, 42397, 8749, - 10853, 1453, 18069, 21693, 30573, 36261, 37421, 42533 -}; - -#define NSID_MULT_TABLE_SIZE \ - ((sizeof nsid_multiplier_table)/(sizeof nsid_multiplier_table[0])) -#define NSID_RANGE_MASK (NSID_LOOKAHEAD - 1) -#define NSID_POOL_MASK 0xFFFF /* used to wrap the pool index */ -#define NSID_SHUFFLE_ONLY 1 -#define NSID_USE_POOL 2 - -static isc_uint16_t -nsid_next(dns_nsid_t *nsid) { - isc_uint16_t id, compressed_hash; - isc_uint16_t j; - - compressed_hash = ((nsid_hash_state >> 16) ^ - (nsid_hash_state)) & 0xFFFF; - - if (nsid->nsid_usepool) { - isc_uint16_t pick; - - pick = compressed_hash & NSID_RANGE_MASK; - pick = (nsid->nsid_state + pick) & NSID_POOL_MASK; - id = nsid->nsid_pool[pick]; - if (pick != 0) { - /* Swap two IDs to stir the pool */ - nsid->nsid_pool[pick] = - nsid->nsid_pool[nsid->nsid_state]; - nsid->nsid_pool[nsid->nsid_state] = id; - } - - /* increment the base pointer into the pool */ - if (nsid->nsid_state == 65535) - nsid->nsid_state = 0; - else - nsid->nsid_state++; - } else { - /* - * This is the original Algorithm B - * j = ((u_long) NSID_SHUFFLE_TABLE_SIZE * nsid_state2) >> 16; - * - * We'll perturb it with some random stuff ... - */ - j = ((isc_uint32_t) NSID_SHUFFLE_TABLE_SIZE * - (nsid->nsid_state2 ^ compressed_hash)) >> 16; - nsid->nsid_state2 = id = nsid->nsid_vtable[j]; - nsid->nsid_state = (((isc_uint32_t) nsid->nsid_a1 * nsid->nsid_state) + - nsid->nsid_c1) & 0xFFFF; - nsid->nsid_vtable[j] = nsid->nsid_state; - } - - /* Now lets obfuscate ... */ - id = (((isc_uint32_t) nsid->nsid_a2 * id) + nsid->nsid_c2) & 0xFFFF; - id = (((isc_uint32_t) nsid->nsid_a3 * id) + nsid->nsid_c3) & 0xFFFF; - - return (id); -} - -static isc_result_t -nsid_init(isc_mem_t *mctx, dns_nsid_t *nsid, isc_boolean_t usepool) { - isc_time_t now; - pid_t mypid; - isc_uint16_t a1ndx, a2ndx, a3ndx, c1ndx, c2ndx, c3ndx; - int i; - - isc_time_now(&now); - mypid = getpid(); - - /* Initialize the state */ - memset(nsid, 0, sizeof(*nsid)); - nsid_hash(&now, sizeof now); - nsid_hash(&mypid, sizeof mypid); - - /* - * Select our random number generators and initial seed. - * We could really use more random bits at this point, - * but we'll try to make a silk purse out of a sows ear ... - */ - /* generator 1 */ - a1ndx = ((isc_uint32_t) NSID_MULT_TABLE_SIZE * - (nsid_hash_state & 0xFFFF)) >> 16; - nsid->nsid_a1 = nsid_multiplier_table[a1ndx]; - c1ndx = (nsid_hash_state >> 9) & 0x7FFF; - nsid->nsid_c1 = 2 * c1ndx + 1; - - /* generator 2, distinct from 1 */ - a2ndx = ((isc_uint32_t) (NSID_MULT_TABLE_SIZE - 1) * - ((nsid_hash_state >> 10) & 0xFFFF)) >> 16; - if (a2ndx >= a1ndx) - a2ndx++; - nsid->nsid_a2 = nsid_multiplier_table[a2ndx]; - c2ndx = nsid_hash_state % 32767; - if (c2ndx >= c1ndx) - c2ndx++; - nsid->nsid_c2 = 2*c2ndx + 1; - - /* generator 3, distinct from 1 and 2 */ - a3ndx = ((isc_uint32_t) (NSID_MULT_TABLE_SIZE - 2) * - ((nsid_hash_state >> 20) & 0xFFFF)) >> 16; - if (a3ndx >= a1ndx || a3ndx >= a2ndx) - a3ndx++; - if (a3ndx >= a1ndx && a3ndx >= a2ndx) - a3ndx++; - nsid->nsid_a3 = nsid_multiplier_table[a3ndx]; - c3ndx = nsid_hash_state % 32766; - if (c3ndx >= c1ndx || c3ndx >= c2ndx) - c3ndx++; - if (c3ndx >= c1ndx && c3ndx >= c2ndx) - c3ndx++; - nsid->nsid_c3 = 2*c3ndx + 1; - - nsid->nsid_state = - ((nsid_hash_state >> 16) ^ (nsid_hash_state)) & 0xFFFF; - - nsid->nsid_usepool = usepool; - if (nsid->nsid_usepool) { - nsid->nsid_pool = isc_mem_get(mctx, 0x10000 * sizeof(isc_uint16_t)); - if (nsid->nsid_pool == NULL) - return (ISC_R_NOMEMORY); - for (i = 0; ; i++) { - nsid->nsid_pool[i] = nsid->nsid_state; - nsid->nsid_state = - (((u_long) nsid->nsid_a1 * nsid->nsid_state) + - nsid->nsid_c1) & 0xFFFF; - if (i == 0xFFFF) - break; - } - } else { - nsid->nsid_vtable = isc_mem_get(mctx, NSID_SHUFFLE_TABLE_SIZE * - (sizeof(isc_uint16_t)) ); - if (nsid->nsid_vtable == NULL) - return (ISC_R_NOMEMORY); - - for (i = 0; i < NSID_SHUFFLE_TABLE_SIZE; i++) { - nsid->nsid_vtable[i] = nsid->nsid_state; - nsid->nsid_state = - (((isc_uint32_t) nsid->nsid_a1 * nsid->nsid_state) + - nsid->nsid_c1) & 0xFFFF; - } - nsid->nsid_state2 = nsid->nsid_state; - } - return (ISC_R_SUCCESS); -} - -static void -nsid_destroy(isc_mem_t *mctx, dns_nsid_t *nsid) { - if (nsid->nsid_usepool) - isc_mem_put(mctx, nsid->nsid_pool, - 0x10000 * sizeof(isc_uint16_t)); - else - isc_mem_put(mctx, nsid->nsid_vtable, - NSID_SHUFFLE_TABLE_SIZE * (sizeof(isc_uint16_t)) ); - memset(nsid, 0, sizeof(*nsid)); -} - -void -dns_dispatch_hash(void *data, size_t len) { - nsid_hash(data, len); -} diff --git a/usr.sbin/bind/lib/dns/include/dns/dispatch.h b/usr.sbin/bind/lib/dns/include/dns/dispatch.h index f80fd6427f6..5f1d92adb80 100644 --- a/usr.sbin/bind/lib/dns/include/dns/dispatch.h +++ b/usr.sbin/bind/lib/dns/include/dns/dispatch.h @@ -15,7 +15,7 @@ * PERFORMANCE OF THIS SOFTWARE. */ -/* $ISC: dispatch.h,v 1.48.18.5 2007/08/28 07:20:05 tbox Exp $ */ +/* $ISC: dispatch.h,v 1.48.18.5.12.1 2008/05/22 21:28:06 each Exp $ */ #ifndef DNS_DISPATCH_H #define DNS_DISPATCH_H 1 @@ -113,6 +113,9 @@ struct dns_dispatchevent { * _MAKEQUERY * The dispatcher can be used to issue queries to other servers, and * accept replies from them. + * + * _RANDOMPORT + * Allocate UDP port randomly. */ #define DNS_DISPATCHATTR_PRIVATE 0x00000001U #define DNS_DISPATCHATTR_TCP 0x00000002U @@ -122,6 +125,7 @@ struct dns_dispatchevent { #define DNS_DISPATCHATTR_NOLISTEN 0x00000020U #define DNS_DISPATCHATTR_MAKEQUERY 0x00000040U #define DNS_DISPATCHATTR_CONNECTED 0x00000080U +#define DNS_DISPATCHATTR_RANDOMPORT 0x00000100U /*@}*/ isc_result_t @@ -441,13 +445,6 @@ dns_dispatch_importrecv(dns_dispatch_t *disp, isc_event_t *event); * event != NULL */ -void -dns_dispatch_hash(void *data, size_t len); -/*%< - * Feed 'data' to the dispatch query id generator where 'len' is the size - * of 'data'. - */ - ISC_LANG_ENDDECLS #endif /* DNS_DISPATCH_H */ diff --git a/usr.sbin/bind/lib/dns/resolver.c b/usr.sbin/bind/lib/dns/resolver.c index 5e0d53ab021..4e43196f273 100644 --- a/usr.sbin/bind/lib/dns/resolver.c +++ b/usr.sbin/bind/lib/dns/resolver.c @@ -15,7 +15,7 @@ * PERFORMANCE OF THIS SOFTWARE. */ -/* $ISC: resolver.c,v 1.284.18.66 2007/11/01 13:53:27 shane Exp $ */ +/* $ISC: resolver.c,v 1.284.18.66.8.1 2008/05/22 21:28:06 each Exp $ */ /*! \file */ @@ -1159,19 +1159,53 @@ fctx_query(fetchctx_t *fctx, dns_adbaddrinfo_t *addrinfo, if (result != ISC_R_SUCCESS) goto cleanup_query; } else { + isc_sockaddr_t localaddr; + unsigned int attrs, attrmask; + dns_dispatch_t *disp_base; + + attrs = 0; + attrs |= DNS_DISPATCHATTR_UDP; + attrs |= DNS_DISPATCHATTR_RANDOMPORT; + + attrmask = 0; + attrmask |= DNS_DISPATCHATTR_UDP; + attrmask |= DNS_DISPATCHATTR_TCP; + attrmask |= DNS_DISPATCHATTR_IPV4; + attrmask |= DNS_DISPATCHATTR_IPV6; + switch (isc_sockaddr_pf(&addrinfo->sockaddr)) { - case PF_INET: - dns_dispatch_attach(res->dispatchv4, - &query->dispatch); + case AF_INET: + disp_base = res->dispatchv4; + attrs |= DNS_DISPATCHATTR_IPV4; break; - case PF_INET6: - dns_dispatch_attach(res->dispatchv6, - &query->dispatch); + case AF_INET6: + disp_base = res->dispatchv6; + attrs |= DNS_DISPATCHATTR_IPV6; break; default: result = ISC_R_NOTIMPLEMENTED; goto cleanup_query; } + + result = dns_dispatch_getlocaladdress(disp_base, + &localaddr); + if (result != ISC_R_SUCCESS) + goto cleanup_query; + if (isc_sockaddr_getport(&localaddr) == 0) { + result = dns_dispatch_getudp(res->dispatchmgr, + res->socketmgr, + res->taskmgr, + &localaddr, + 4096, 1000, 32768, + 16411, 16433, + attrs, attrmask, + &query->dispatch); + if (result != ISC_R_SUCCESS) + goto cleanup_query; + } else { + dns_dispatch_attach(disp_base, + &query->dispatch); + } } /* * We should always have a valid dispatcher here. If we diff --git a/usr.sbin/bind/version b/usr.sbin/bind/version index 51c871863dc..768143216b5 100644 --- a/usr.sbin/bind/version +++ b/usr.sbin/bind/version @@ -1,4 +1,4 @@ -# $ISC: version,v 1.29.134.18 2007/11/19 15:25:23 each Exp $ +# $ISC: version,v 1.29.134.18.8.1 2008/05/22 21:28:03 each Exp $ # # This file must follow /bin/sh rules. It is imported directly via # configure. @@ -6,5 +6,5 @@ MAJORVER=9 MINORVER=4 PATCHVER=2 -RELEASETYPE= -RELEASEVER= +RELEASETYPE=-P +RELEASEVER=1