/* * daemon/worker.c - worker that handles a pending list of requests. * * Copyright (c) 2007, NLnet Labs. All rights reserved. * * This software is open source. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 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. * * Neither the name of the NLNET LABS 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 COPYRIGHT HOLDERS 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 COPYRIGHT * HOLDER 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. */ /** * \file * * This file implements the worker that handles callbacks on events, for * pending requests. */ #include "config.h" #include "util/log.h" #include "util/net_help.h" #include "util/random.h" #include "daemon/worker.h" #include "daemon/daemon.h" #include "daemon/remote.h" #include "daemon/acl_list.h" #include "util/netevent.h" #include "util/config_file.h" #include "util/module.h" #include "util/regional.h" #include "util/storage/slabhash.h" #include "services/listen_dnsport.h" #include "services/outside_network.h" #include "services/outbound_list.h" #include "services/cache/rrset.h" #include "services/cache/infra.h" #include "services/cache/dns.h" #include "services/authzone.h" #include "services/mesh.h" #include "services/localzone.h" #include "services/rpz.h" #include "util/data/msgparse.h" #include "util/data/msgencode.h" #include "util/data/dname.h" #include "util/fptr_wlist.h" #include "util/proxy_protocol.h" #include "util/tube.h" #include "util/edns.h" #include "util/timeval_func.h" #include "iterator/iter_fwd.h" #include "iterator/iter_hints.h" #include "iterator/iter_utils.h" #include "validator/autotrust.h" #include "validator/val_anchor.h" #include "respip/respip.h" #include "libunbound/context.h" #include "libunbound/libworker.h" #include "sldns/sbuffer.h" #include "sldns/wire2str.h" #include "util/shm_side/shm_main.h" #include "dnscrypt/dnscrypt.h" #include "dnstap/dtstream.h" #ifdef HAVE_SYS_TYPES_H # include #endif #ifdef HAVE_NETDB_H #include #endif #include #ifdef UB_ON_WINDOWS #include "winrc/win_svc.h" #endif /** Size of an UDP datagram */ #define NORMAL_UDP_SIZE 512 /* bytes */ /** ratelimit for error responses */ #define ERROR_RATELIMIT 100 /* qps */ /** * seconds to add to prefetch leeway. This is a TTL that expires old rrsets * earlier than they should in order to put the new update into the cache. * This additional value is to make sure that if not all TTLs are equal in * the message to be updated(and replaced), that rrsets with up to this much * extra TTL are also replaced. This means that the resulting new message * will have (most likely) this TTL at least, avoiding very small 'split * second' TTLs due to operators choosing relative primes for TTLs (or so). * Also has to be at least one to break ties (and overwrite cached entry). */ #define PREFETCH_EXPIRY_ADD 60 /** Report on memory usage by this thread and global */ static void worker_mem_report(struct worker* ATTR_UNUSED(worker), struct serviced_query* ATTR_UNUSED(cur_serv)) { #ifdef UNBOUND_ALLOC_STATS /* measure memory leakage */ extern size_t unbound_mem_alloc, unbound_mem_freed; /* debug func in validator module */ size_t total, front, back, mesh, msg, rrset, infra, ac, superac; size_t me, iter, val, anch; int i; #ifdef CLIENT_SUBNET size_t subnet = 0; #endif /* CLIENT_SUBNET */ if(verbosity < VERB_ALGO) return; front = listen_get_mem(worker->front); back = outnet_get_mem(worker->back); msg = slabhash_get_mem(worker->env.msg_cache); rrset = slabhash_get_mem(&worker->env.rrset_cache->table); infra = infra_get_mem(worker->env.infra_cache); mesh = mesh_get_mem(worker->env.mesh); ac = alloc_get_mem(worker->alloc); superac = alloc_get_mem(&worker->daemon->superalloc); anch = anchors_get_mem(worker->env.anchors); iter = 0; val = 0; for(i=0; ienv.mesh->mods.num; i++) { fptr_ok(fptr_whitelist_mod_get_mem(worker->env.mesh-> mods.mod[i]->get_mem)); if(strcmp(worker->env.mesh->mods.mod[i]->name, "validator")==0) val += (*worker->env.mesh->mods.mod[i]->get_mem) (&worker->env, i); #ifdef CLIENT_SUBNET else if(strcmp(worker->env.mesh->mods.mod[i]->name, "subnetcache")==0) subnet += (*worker->env.mesh->mods.mod[i]->get_mem) (&worker->env, i); #endif /* CLIENT_SUBNET */ else iter += (*worker->env.mesh->mods.mod[i]->get_mem) (&worker->env, i); } me = sizeof(*worker) + sizeof(*worker->base) + sizeof(*worker->comsig) + comm_point_get_mem(worker->cmd_com) + sizeof(worker->rndstate) + regional_get_mem(worker->scratchpad) + sizeof(*worker->env.scratch_buffer) + sldns_buffer_capacity(worker->env.scratch_buffer); if(worker->daemon->env->fwds) log_info("forwards=%u", (unsigned)forwards_get_mem(worker->env.fwds)); if(worker->daemon->env->hints) log_info("hints=%u", (unsigned)hints_get_mem(worker->env.hints)); if(worker->thread_num == 0) me += acl_list_get_mem(worker->daemon->acl); if(cur_serv) { me += serviced_get_mem(cur_serv); } total = front+back+mesh+msg+rrset+infra+iter+val+ac+superac+me; #ifdef CLIENT_SUBNET total += subnet; log_info("Memory conditions: %u front=%u back=%u mesh=%u msg=%u " "rrset=%u infra=%u iter=%u val=%u subnet=%u anchors=%u " "alloccache=%u globalalloccache=%u me=%u", (unsigned)total, (unsigned)front, (unsigned)back, (unsigned)mesh, (unsigned)msg, (unsigned)rrset, (unsigned)infra, (unsigned)iter, (unsigned)val, (unsigned)subnet, (unsigned)anch, (unsigned)ac, (unsigned)superac, (unsigned)me); #else /* no CLIENT_SUBNET */ log_info("Memory conditions: %u front=%u back=%u mesh=%u msg=%u " "rrset=%u infra=%u iter=%u val=%u anchors=%u " "alloccache=%u globalalloccache=%u me=%u", (unsigned)total, (unsigned)front, (unsigned)back, (unsigned)mesh, (unsigned)msg, (unsigned)rrset, (unsigned)infra, (unsigned)iter, (unsigned)val, (unsigned)anch, (unsigned)ac, (unsigned)superac, (unsigned)me); #endif /* CLIENT_SUBNET */ log_info("Total heap memory estimate: %u total-alloc: %u " "total-free: %u", (unsigned)total, (unsigned)unbound_mem_alloc, (unsigned)unbound_mem_freed); #else /* no UNBOUND_ALLOC_STATS */ size_t val = 0; #ifdef CLIENT_SUBNET size_t subnet = 0; #endif /* CLIENT_SUBNET */ int i; if(verbosity < VERB_QUERY) return; for(i=0; ienv.mesh->mods.num; i++) { fptr_ok(fptr_whitelist_mod_get_mem(worker->env.mesh-> mods.mod[i]->get_mem)); if(strcmp(worker->env.mesh->mods.mod[i]->name, "validator")==0) val += (*worker->env.mesh->mods.mod[i]->get_mem) (&worker->env, i); #ifdef CLIENT_SUBNET else if(strcmp(worker->env.mesh->mods.mod[i]->name, "subnetcache")==0) subnet += (*worker->env.mesh->mods.mod[i]->get_mem) (&worker->env, i); #endif /* CLIENT_SUBNET */ } #ifdef CLIENT_SUBNET verbose(VERB_QUERY, "cache memory msg=%u rrset=%u infra=%u val=%u " "subnet=%u", (unsigned)slabhash_get_mem(worker->env.msg_cache), (unsigned)slabhash_get_mem(&worker->env.rrset_cache->table), (unsigned)infra_get_mem(worker->env.infra_cache), (unsigned)val, (unsigned)subnet); #else /* no CLIENT_SUBNET */ verbose(VERB_QUERY, "cache memory msg=%u rrset=%u infra=%u val=%u", (unsigned)slabhash_get_mem(worker->env.msg_cache), (unsigned)slabhash_get_mem(&worker->env.rrset_cache->table), (unsigned)infra_get_mem(worker->env.infra_cache), (unsigned)val); #endif /* CLIENT_SUBNET */ #endif /* UNBOUND_ALLOC_STATS */ } void worker_send_cmd(struct worker* worker, enum worker_commands cmd) { uint32_t c = (uint32_t)htonl(cmd); if(!tube_write_msg(worker->cmd, (uint8_t*)&c, sizeof(c), 0)) { log_err("worker send cmd %d failed", (int)cmd); } } int worker_handle_service_reply(struct comm_point* c, void* arg, int error, struct comm_reply* reply_info) { struct outbound_entry* e = (struct outbound_entry*)arg; struct worker* worker = e->qstate->env->worker; struct serviced_query *sq = e->qsent; verbose(VERB_ALGO, "worker svcd callback for qstate %p", e->qstate); if(error != 0) { mesh_report_reply(worker->env.mesh, e, reply_info, error); worker_mem_report(worker, sq); return 0; } /* sanity check. */ if(!LDNS_QR_WIRE(sldns_buffer_begin(c->buffer)) || LDNS_OPCODE_WIRE(sldns_buffer_begin(c->buffer)) != LDNS_PACKET_QUERY || LDNS_QDCOUNT(sldns_buffer_begin(c->buffer)) > 1) { /* error becomes timeout for the module as if this reply * never arrived. */ verbose(VERB_ALGO, "worker: bad reply handled as timeout"); mesh_report_reply(worker->env.mesh, e, reply_info, NETEVENT_TIMEOUT); worker_mem_report(worker, sq); return 0; } mesh_report_reply(worker->env.mesh, e, reply_info, NETEVENT_NOERROR); worker_mem_report(worker, sq); return 0; } /** ratelimit error replies * @param worker: the worker struct with ratelimit counter * @param err: error code that would be wanted. * @return value of err if okay, or -1 if it should be discarded instead. */ static int worker_err_ratelimit(struct worker* worker, int err) { if(worker->err_limit_time == *worker->env.now) { /* see if limit is exceeded for this second */ if(worker->err_limit_count++ > ERROR_RATELIMIT) return -1; } else { /* new second, new limits */ worker->err_limit_time = *worker->env.now; worker->err_limit_count = 1; } return err; } /** * Structure holding the result of the worker_check_request function. * Based on configuration it could be called up to four times; ideally should * be called once. */ struct check_request_result { int checked; int value; }; /** check request sanity. * @param pkt: the wire packet to examine for sanity. * @param worker: parameters for checking. * @param out: struct to update with the result. */ static void worker_check_request(sldns_buffer* pkt, struct worker* worker, struct check_request_result* out) { if(out->checked) return; out->checked = 1; if(sldns_buffer_limit(pkt) < LDNS_HEADER_SIZE) { verbose(VERB_QUERY, "request too short, discarded"); out->value = -1; return; } if(sldns_buffer_limit(pkt) > NORMAL_UDP_SIZE && worker->daemon->cfg->harden_large_queries) { verbose(VERB_QUERY, "request too large, discarded"); out->value = -1; return; } if(LDNS_QR_WIRE(sldns_buffer_begin(pkt))) { verbose(VERB_QUERY, "request has QR bit on, discarded"); out->value = -1; return; } if(LDNS_TC_WIRE(sldns_buffer_begin(pkt))) { LDNS_TC_CLR(sldns_buffer_begin(pkt)); verbose(VERB_QUERY, "request bad, has TC bit on"); out->value = worker_err_ratelimit(worker, LDNS_RCODE_FORMERR); return; } if(LDNS_OPCODE_WIRE(sldns_buffer_begin(pkt)) != LDNS_PACKET_QUERY && LDNS_OPCODE_WIRE(sldns_buffer_begin(pkt)) != LDNS_PACKET_NOTIFY) { verbose(VERB_QUERY, "request unknown opcode %d", LDNS_OPCODE_WIRE(sldns_buffer_begin(pkt))); out->value = worker_err_ratelimit(worker, LDNS_RCODE_NOTIMPL); return; } if(LDNS_QDCOUNT(sldns_buffer_begin(pkt)) != 1) { verbose(VERB_QUERY, "request wrong nr qd=%d", LDNS_QDCOUNT(sldns_buffer_begin(pkt))); out->value = worker_err_ratelimit(worker, LDNS_RCODE_FORMERR); return; } if(LDNS_ANCOUNT(sldns_buffer_begin(pkt)) != 0 && (LDNS_ANCOUNT(sldns_buffer_begin(pkt)) != 1 || LDNS_OPCODE_WIRE(sldns_buffer_begin(pkt)) != LDNS_PACKET_NOTIFY)) { verbose(VERB_QUERY, "request wrong nr an=%d", LDNS_ANCOUNT(sldns_buffer_begin(pkt))); out->value = worker_err_ratelimit(worker, LDNS_RCODE_FORMERR); return; } if(LDNS_NSCOUNT(sldns_buffer_begin(pkt)) != 0) { verbose(VERB_QUERY, "request wrong nr ns=%d", LDNS_NSCOUNT(sldns_buffer_begin(pkt))); out->value = worker_err_ratelimit(worker, LDNS_RCODE_FORMERR); return; } if(LDNS_ARCOUNT(sldns_buffer_begin(pkt)) > 1) { verbose(VERB_QUERY, "request wrong nr ar=%d", LDNS_ARCOUNT(sldns_buffer_begin(pkt))); out->value = worker_err_ratelimit(worker, LDNS_RCODE_FORMERR); return; } out->value = 0; return; } void worker_handle_control_cmd(struct tube* ATTR_UNUSED(tube), uint8_t* msg, size_t len, int error, void* arg) { struct worker* worker = (struct worker*)arg; enum worker_commands cmd; if(error != NETEVENT_NOERROR) { free(msg); if(error == NETEVENT_CLOSED) comm_base_exit(worker->base); else log_info("control event: %d", error); return; } if(len != sizeof(uint32_t)) { fatal_exit("bad control msg length %d", (int)len); } cmd = sldns_read_uint32(msg); free(msg); switch(cmd) { case worker_cmd_quit: verbose(VERB_ALGO, "got control cmd quit"); comm_base_exit(worker->base); break; case worker_cmd_stats: verbose(VERB_ALGO, "got control cmd stats"); server_stats_reply(worker, 1); break; case worker_cmd_stats_noreset: verbose(VERB_ALGO, "got control cmd stats_noreset"); server_stats_reply(worker, 0); break; case worker_cmd_remote: verbose(VERB_ALGO, "got control cmd remote"); daemon_remote_exec(worker); break; default: log_err("bad command %d", (int)cmd); break; } } /** check if a delegation is secure */ static enum sec_status check_delegation_secure(struct reply_info *rep) { /* return smallest security status */ size_t i; enum sec_status sec = sec_status_secure; enum sec_status s; size_t num = rep->an_numrrsets + rep->ns_numrrsets; /* check if answer and authority are OK */ for(i=0; irrsets[i]->entry.data) ->security; if(s < sec) sec = s; } /* in additional, only unchecked triggers revalidation */ for(i=num; irrset_count; i++) { s = ((struct packed_rrset_data*)rep->rrsets[i]->entry.data) ->security; if(s == sec_status_unchecked) return s; } return sec; } /** remove nonsecure from a delegation referral additional section */ static void deleg_remove_nonsecure_additional(struct reply_info* rep) { /* we can simply edit it, since we are working in the scratch region */ size_t i; enum sec_status s; for(i = rep->an_numrrsets+rep->ns_numrrsets; irrset_count; i++) { s = ((struct packed_rrset_data*)rep->rrsets[i]->entry.data) ->security; if(s != sec_status_secure) { memmove(rep->rrsets+i, rep->rrsets+i+1, sizeof(struct ub_packed_rrset_key*)* (rep->rrset_count - i - 1)); rep->ar_numrrsets--; rep->rrset_count--; i--; } } } /** answer nonrecursive query from the cache */ static int answer_norec_from_cache(struct worker* worker, struct query_info* qinfo, uint16_t id, uint16_t flags, struct comm_reply* repinfo, struct edns_data* edns) { /* for a nonrecursive query return either: * o an error (servfail; we try to avoid this) * o a delegation (closest we have; this routine tries that) * o the answer (checked by answer_from_cache) * * So, grab a delegation from the rrset cache. * Then check if it needs validation, if so, this routine fails, * so that iterator can prime and validator can verify rrsets. */ uint16_t udpsize = edns->udp_size; int secure = 0; time_t timenow = *worker->env.now; int has_cd_bit = (flags&BIT_CD); int must_validate = (!has_cd_bit || worker->env.cfg->ignore_cd) && worker->env.need_to_validate; struct dns_msg *msg = NULL; struct delegpt *dp; dp = dns_cache_find_delegation(&worker->env, qinfo->qname, qinfo->qname_len, qinfo->qtype, qinfo->qclass, worker->scratchpad, &msg, timenow, 0, NULL, 0); if(!dp) { /* no delegation, need to reprime */ return 0; } /* In case we have a local alias, copy it into the delegation message. * Shallow copy should be fine, as we'll be done with msg in this * function. */ msg->qinfo.local_alias = qinfo->local_alias; if(must_validate) { switch(check_delegation_secure(msg->rep)) { case sec_status_unchecked: /* some rrsets have not been verified yet, go and * let validator do that */ return 0; case sec_status_bogus: case sec_status_secure_sentinel_fail: /* some rrsets are bogus, reply servfail */ edns->edns_version = EDNS_ADVERTISED_VERSION; edns->udp_size = EDNS_ADVERTISED_SIZE; edns->ext_rcode = 0; edns->bits &= EDNS_DO; if(!inplace_cb_reply_servfail_call(&worker->env, qinfo, NULL, msg->rep, LDNS_RCODE_SERVFAIL, edns, repinfo, worker->scratchpad, worker->env.now_tv)) return 0; /* Attach the cached EDE (RFC8914) */ if(worker->env.cfg->ede && msg->rep->reason_bogus != LDNS_EDE_NONE) { edns_opt_list_append_ede(&edns->opt_list_out, worker->scratchpad, msg->rep->reason_bogus, msg->rep->reason_bogus_str); } error_encode(repinfo->c->buffer, LDNS_RCODE_SERVFAIL, &msg->qinfo, id, flags, edns); if(worker->stats.extended) { worker->stats.ans_bogus++; worker->stats.ans_rcode[LDNS_RCODE_SERVFAIL]++; } return 1; case sec_status_secure: /* all rrsets are secure */ /* remove non-secure rrsets from the add. section*/ if(worker->env.cfg->val_clean_additional) deleg_remove_nonsecure_additional(msg->rep); secure = 1; break; case sec_status_indeterminate: case sec_status_insecure: default: /* not secure */ secure = 0; break; } } /* return this delegation from the cache */ edns->edns_version = EDNS_ADVERTISED_VERSION; edns->udp_size = EDNS_ADVERTISED_SIZE; edns->ext_rcode = 0; edns->bits &= EDNS_DO; if(worker->env.cfg->disable_edns_do && (edns->bits & EDNS_DO)) edns->edns_present = 0; if(!inplace_cb_reply_cache_call(&worker->env, qinfo, NULL, msg->rep, (int)(flags&LDNS_RCODE_MASK), edns, repinfo, worker->scratchpad, worker->env.now_tv)) return 0; msg->rep->flags |= BIT_QR|BIT_RA; /* Attach the cached EDE (RFC8914) if CD bit is set and the answer is * bogus. */ if(worker->env.cfg->ede && has_cd_bit && (check_delegation_secure(msg->rep) == sec_status_bogus || check_delegation_secure(msg->rep) == sec_status_secure_sentinel_fail) && msg->rep->reason_bogus != LDNS_EDE_NONE) { edns_opt_list_append_ede(&edns->opt_list_out, worker->scratchpad, msg->rep->reason_bogus, msg->rep->reason_bogus_str); } if(!reply_info_answer_encode(&msg->qinfo, msg->rep, id, flags, repinfo->c->buffer, 0, 1, worker->scratchpad, udpsize, edns, (int)(edns->bits & EDNS_DO), secure)) { if(!inplace_cb_reply_servfail_call(&worker->env, qinfo, NULL, NULL, LDNS_RCODE_SERVFAIL, edns, repinfo, worker->scratchpad, worker->env.now_tv)) edns->opt_list_inplace_cb_out = NULL; error_encode(repinfo->c->buffer, LDNS_RCODE_SERVFAIL, &msg->qinfo, id, flags, edns); } if(worker->stats.extended) { if(secure) worker->stats.ans_secure++; server_stats_insrcode(&worker->stats, repinfo->c->buffer); } return 1; } /** Apply, if applicable, a response IP action to a cached answer. * If the answer is rewritten as a result of an action, '*encode_repp' will * point to the reply info containing the modified answer. '*encode_repp' will * be intact otherwise. * It returns 1 on success, 0 otherwise. */ static int apply_respip_action(struct worker* worker, const struct query_info* qinfo, struct respip_client_info* cinfo, struct reply_info* rep, struct sockaddr_storage* addr, socklen_t addrlen, struct ub_packed_rrset_key** alias_rrset, struct reply_info** encode_repp, struct auth_zones* az) { struct respip_action_info actinfo = {0, 0, 0, 0, NULL, 0, NULL}; actinfo.action = respip_none; if(qinfo->qtype != LDNS_RR_TYPE_A && qinfo->qtype != LDNS_RR_TYPE_AAAA && qinfo->qtype != LDNS_RR_TYPE_ANY) return 1; if(!respip_rewrite_reply(qinfo, cinfo, rep, encode_repp, &actinfo, alias_rrset, 0, worker->scratchpad, az, NULL)) return 0; /* xxx_deny actions mean dropping the reply, unless the original reply * was redirected to response-ip data. */ if(actinfo.action == respip_always_deny || ((actinfo.action == respip_deny || actinfo.action == respip_inform_deny) && *encode_repp == rep)) *encode_repp = NULL; /* If address info is returned, it means the action should be an * 'inform' variant and the information should be logged. */ if(actinfo.addrinfo) { respip_inform_print(&actinfo, qinfo->qname, qinfo->qtype, qinfo->qclass, qinfo->local_alias, addr, addrlen); if(worker->stats.extended && actinfo.rpz_used) { if(actinfo.rpz_disabled) worker->stats.rpz_action[RPZ_DISABLED_ACTION]++; if(actinfo.rpz_cname_override) worker->stats.rpz_action[RPZ_CNAME_OVERRIDE_ACTION]++; else worker->stats.rpz_action[ respip_action_to_rpz_action(actinfo.action)]++; } } return 1; } /** answer query from the cache. * Normally, the answer message will be built in repinfo->c->buffer; if the * answer is supposed to be suppressed or the answer is supposed to be an * incomplete CNAME chain, the buffer is explicitly cleared to signal the * caller as such. In the latter case *partial_rep will point to the incomplete * reply, and this function is (possibly) supposed to be called again with that * *partial_rep value to complete the chain. In addition, if the query should * be completely dropped, '*need_drop' will be set to 1. */ static int answer_from_cache(struct worker* worker, struct query_info* qinfo, struct respip_client_info* cinfo, int* need_drop, int* is_expired_answer, int* is_secure_answer, struct ub_packed_rrset_key** alias_rrset, struct reply_info** partial_repp, struct reply_info* rep, uint16_t id, uint16_t flags, struct comm_reply* repinfo, struct edns_data* edns) { time_t timenow = *worker->env.now; uint16_t udpsize = edns->udp_size; struct reply_info* encode_rep = rep; struct reply_info* partial_rep = *partial_repp; int has_cd_bit = (flags&BIT_CD); int must_validate = (!has_cd_bit || worker->env.cfg->ignore_cd) && worker->env.need_to_validate; *partial_repp = NULL; /* avoid accidental further pass */ /* Check TTL */ if(rep->ttl < timenow) { /* Check if we need to serve expired now */ if(worker->env.cfg->serve_expired && /* if serve-expired-client-timeout is set, serve * an expired record without attempting recursion * if the serve_expired_norec_ttl is set for the record * as we know that recursion is currently failing. */ (!worker->env.cfg->serve_expired_client_timeout || timenow < rep->serve_expired_norec_ttl) #ifdef USE_CACHEDB && !(worker->env.cachedb_enabled && worker->env.cfg->cachedb_check_when_serve_expired) #endif ) { if(!reply_info_can_answer_expired(rep, timenow)) return 0; if(!rrset_array_lock(rep->ref, rep->rrset_count, 0)) return 0; *is_expired_answer = 1; } else { /* the rrsets may have been updated in the meantime. * we will refetch the message format from the * authoritative server */ return 0; } } else { if(!rrset_array_lock(rep->ref, rep->rrset_count, timenow)) return 0; } /* locked and ids and ttls are OK. */ /* check CNAME chain (if any) */ if(rep->an_numrrsets > 0 && (rep->rrsets[0]->rk.type == htons(LDNS_RR_TYPE_CNAME) || rep->rrsets[0]->rk.type == htons(LDNS_RR_TYPE_DNAME))) { if(!reply_check_cname_chain(qinfo, rep)) { /* cname chain invalid, redo iterator steps */ verbose(VERB_ALGO, "Cache reply: cname chain broken"); goto bail_out; } } /* check security status of the cached answer */ if(must_validate && (rep->security == sec_status_bogus || rep->security == sec_status_secure_sentinel_fail)) { /* BAD cached */ edns->edns_version = EDNS_ADVERTISED_VERSION; edns->udp_size = EDNS_ADVERTISED_SIZE; edns->ext_rcode = 0; edns->bits &= EDNS_DO; if(worker->env.cfg->disable_edns_do && (edns->bits & EDNS_DO)) edns->edns_present = 0; if(!inplace_cb_reply_servfail_call(&worker->env, qinfo, NULL, rep, LDNS_RCODE_SERVFAIL, edns, repinfo, worker->scratchpad, worker->env.now_tv)) goto bail_out; /* Attach the cached EDE (RFC8914) */ if(worker->env.cfg->ede && rep->reason_bogus != LDNS_EDE_NONE) { edns_opt_list_append_ede(&edns->opt_list_out, worker->scratchpad, rep->reason_bogus, rep->reason_bogus_str); } error_encode(repinfo->c->buffer, LDNS_RCODE_SERVFAIL, qinfo, id, flags, edns); rrset_array_unlock_touch(worker->env.rrset_cache, worker->scratchpad, rep->ref, rep->rrset_count); if(worker->stats.extended) { worker->stats.ans_bogus ++; worker->stats.ans_rcode[LDNS_RCODE_SERVFAIL] ++; } return 1; } else if(rep->security == sec_status_unchecked && must_validate) { verbose(VERB_ALGO, "Cache reply: unchecked entry needs " "validation"); goto bail_out; /* need to validate cache entry first */ } else if(rep->security == sec_status_secure) { if(reply_all_rrsets_secure(rep)) { *is_secure_answer = 1; } else { if(must_validate) { verbose(VERB_ALGO, "Cache reply: secure entry" " changed status"); goto bail_out; /* rrset changed, re-verify */ } *is_secure_answer = 0; } } else *is_secure_answer = 0; edns->edns_version = EDNS_ADVERTISED_VERSION; edns->udp_size = EDNS_ADVERTISED_SIZE; edns->ext_rcode = 0; edns->bits &= EDNS_DO; if(worker->env.cfg->disable_edns_do && (edns->bits & EDNS_DO)) edns->edns_present = 0; *alias_rrset = NULL; /* avoid confusion if caller set it to non-NULL */ if((worker->daemon->use_response_ip || worker->daemon->use_rpz) && !partial_rep && !apply_respip_action(worker, qinfo, cinfo, rep, &repinfo->client_addr, repinfo->client_addrlen, alias_rrset, &encode_rep, worker->env.auth_zones)) { goto bail_out; } else if(partial_rep && !respip_merge_cname(partial_rep, qinfo, rep, cinfo, must_validate, &encode_rep, worker->scratchpad, worker->env.auth_zones)) { goto bail_out; } if(encode_rep != rep) { /* if rewritten, it can't be considered "secure" */ *is_secure_answer = 0; } if(!encode_rep || *alias_rrset) { if(!encode_rep) *need_drop = 1; else { /* If a partial CNAME chain is found, we first need to * make a copy of the reply in the scratchpad so we * can release the locks and lookup the cache again. */ *partial_repp = reply_info_copy(encode_rep, NULL, worker->scratchpad); if(!*partial_repp) goto bail_out; } } else { if(*is_expired_answer == 1 && worker->env.cfg->ede_serve_expired && worker->env.cfg->ede) { EDNS_OPT_LIST_APPEND_EDE(&edns->opt_list_out, worker->scratchpad, LDNS_EDE_STALE_ANSWER, ""); } /* Attach the cached EDE (RFC8914) if CD bit is set and the * answer is bogus. */ if(*is_secure_answer == 0 && worker->env.cfg->ede && has_cd_bit && encode_rep->reason_bogus != LDNS_EDE_NONE) { edns_opt_list_append_ede(&edns->opt_list_out, worker->scratchpad, encode_rep->reason_bogus, encode_rep->reason_bogus_str); } if(!inplace_cb_reply_cache_call(&worker->env, qinfo, NULL, encode_rep, (int)(flags&LDNS_RCODE_MASK), edns, repinfo, worker->scratchpad, worker->env.now_tv)) goto bail_out; if(!reply_info_answer_encode(qinfo, encode_rep, id, flags, repinfo->c->buffer, timenow, 1, worker->scratchpad, udpsize, edns, (int)(edns->bits & EDNS_DO), *is_secure_answer)) { if(!inplace_cb_reply_servfail_call(&worker->env, qinfo, NULL, NULL, LDNS_RCODE_SERVFAIL, edns, repinfo, worker->scratchpad, worker->env.now_tv)) edns->opt_list_inplace_cb_out = NULL; error_encode(repinfo->c->buffer, LDNS_RCODE_SERVFAIL, qinfo, id, flags, edns); } } /* cannot send the reply right now, because blocking network syscall * is bad while holding locks. */ rrset_array_unlock_touch(worker->env.rrset_cache, worker->scratchpad, rep->ref, rep->rrset_count); /* go and return this buffer to the client */ return 1; bail_out: rrset_array_unlock_touch(worker->env.rrset_cache, worker->scratchpad, rep->ref, rep->rrset_count); return 0; } /** Reply to client and perform prefetch to keep cache up to date. */ static void reply_and_prefetch(struct worker* worker, struct query_info* qinfo, uint16_t flags, struct comm_reply* repinfo, time_t leeway, int noreply, int rpz_passthru, struct edns_option* opt_list) { (void)opt_list; /* first send answer to client to keep its latency * as small as a cachereply */ if(!noreply) { if(repinfo->c->tcp_req_info) { sldns_buffer_copy( repinfo->c->tcp_req_info->spool_buffer, repinfo->c->buffer); } comm_point_send_reply(repinfo); } server_stats_prefetch(&worker->stats, worker); #ifdef CLIENT_SUBNET /* Check if the subnet module is enabled. In that case pass over the * comm_reply information for ECS generation later. The mesh states are * unique when subnet is enabled. */ if(modstack_find(&worker->env.mesh->mods, "subnetcache") != -1 && worker->env.unique_mesh) { mesh_new_prefetch(worker->env.mesh, qinfo, flags, leeway + PREFETCH_EXPIRY_ADD, rpz_passthru, &repinfo->client_addr, opt_list); return; } #endif /* create the prefetch in the mesh as a normal lookup without * client addrs waiting, which has the cache blacklisted (to bypass * the cache and go to the network for the data). */ /* this (potentially) runs the mesh for the new query */ mesh_new_prefetch(worker->env.mesh, qinfo, flags, leeway + PREFETCH_EXPIRY_ADD, rpz_passthru, NULL, NULL); } /** * Fill CH class answer into buffer. Keeps query. * @param pkt: buffer * @param str: string to put into text record (<255). * array of strings, every string becomes a text record. * @param num: number of strings in array. * @param edns: edns reply information. * @param worker: worker with scratch region. * @param repinfo: reply information for a communication point. */ static void chaos_replystr(sldns_buffer* pkt, char** str, int num, struct edns_data* edns, struct worker* worker, struct comm_reply* repinfo) { int i; unsigned int rd = LDNS_RD_WIRE(sldns_buffer_begin(pkt)); unsigned int cd = LDNS_CD_WIRE(sldns_buffer_begin(pkt)); size_t udpsize = edns->udp_size; edns->edns_version = EDNS_ADVERTISED_VERSION; edns->udp_size = EDNS_ADVERTISED_SIZE; edns->bits &= EDNS_DO; if(!inplace_cb_reply_local_call(&worker->env, NULL, NULL, NULL, LDNS_RCODE_NOERROR, edns, repinfo, worker->scratchpad, worker->env.now_tv)) edns->opt_list_inplace_cb_out = NULL; sldns_buffer_clear(pkt); sldns_buffer_skip(pkt, (ssize_t)sizeof(uint16_t)); /* skip id */ sldns_buffer_write_u16(pkt, (uint16_t)(BIT_QR|BIT_RA)); if(rd) LDNS_RD_SET(sldns_buffer_begin(pkt)); if(cd) LDNS_CD_SET(sldns_buffer_begin(pkt)); sldns_buffer_write_u16(pkt, 1); /* qdcount */ sldns_buffer_write_u16(pkt, (uint16_t)num); /* ancount */ sldns_buffer_write_u16(pkt, 0); /* nscount */ sldns_buffer_write_u16(pkt, 0); /* arcount */ (void)query_dname_len(pkt); /* skip qname */ sldns_buffer_skip(pkt, (ssize_t)sizeof(uint16_t)); /* skip qtype */ sldns_buffer_skip(pkt, (ssize_t)sizeof(uint16_t)); /* skip qclass */ for(i=0; i255) len=255; /* cap size of TXT record */ if(sldns_buffer_position(pkt)+2+2+2+4+2+1+len+ calc_edns_field_size(edns) > udpsize) { sldns_buffer_write_u16_at(pkt, 6, i); /* ANCOUNT */ LDNS_TC_SET(sldns_buffer_begin(pkt)); break; } sldns_buffer_write_u16(pkt, 0xc00c); /* compr ptr to query */ sldns_buffer_write_u16(pkt, LDNS_RR_TYPE_TXT); sldns_buffer_write_u16(pkt, LDNS_RR_CLASS_CH); sldns_buffer_write_u32(pkt, 0); /* TTL */ sldns_buffer_write_u16(pkt, sizeof(uint8_t) + len); sldns_buffer_write_u8(pkt, len); sldns_buffer_write(pkt, str[i], len); } sldns_buffer_flip(pkt); if(sldns_buffer_capacity(pkt) >= sldns_buffer_limit(pkt)+calc_edns_field_size(edns)) attach_edns_record(pkt, edns); } /** Reply with one string */ static void chaos_replyonestr(sldns_buffer* pkt, const char* str, struct edns_data* edns, struct worker* worker, struct comm_reply* repinfo) { chaos_replystr(pkt, (char**)&str, 1, edns, worker, repinfo); } /** * Create CH class trustanchor answer. * @param pkt: buffer * @param edns: edns reply information. * @param w: worker with scratch region. * @param repinfo: reply information for a communication point. */ static void chaos_trustanchor(sldns_buffer* pkt, struct edns_data* edns, struct worker* w, struct comm_reply* repinfo) { #define TA_RESPONSE_MAX_TXT 16 /* max number of TXT records */ #define TA_RESPONSE_MAX_TAGS 32 /* max number of tags printed per zone */ char* str_array[TA_RESPONSE_MAX_TXT]; uint16_t tags[TA_RESPONSE_MAX_TAGS]; int num = 0; struct trust_anchor* ta; if(!w->env.need_to_validate) { /* no validator module, reply no trustanchors */ chaos_replystr(pkt, NULL, 0, edns, w, repinfo); return; } /* fill the string with contents */ lock_basic_lock(&w->env.anchors->lock); RBTREE_FOR(ta, struct trust_anchor*, w->env.anchors->tree) { char* str; size_t i, numtag, str_len = 255; if(num == TA_RESPONSE_MAX_TXT) continue; str = (char*)regional_alloc(w->scratchpad, str_len); if(!str) continue; lock_basic_lock(&ta->lock); numtag = anchor_list_keytags(ta, tags, TA_RESPONSE_MAX_TAGS); if(numtag == 0) { /* empty, insecure point */ lock_basic_unlock(&ta->lock); continue; } str_array[num] = str; num++; /* spool name of anchor */ (void)sldns_wire2str_dname_buf(ta->name, ta->namelen, str, str_len); str_len -= strlen(str); str += strlen(str); /* spool tags */ for(i=0; ilock); } lock_basic_unlock(&w->env.anchors->lock); chaos_replystr(pkt, str_array, num, edns, w, repinfo); regional_free_all(w->scratchpad); } /** * Answer CH class queries. * @param w: worker * @param qinfo: query info. Pointer into packet buffer. * @param edns: edns info from query. * @param repinfo: reply information for a communication point. * @param pkt: packet buffer. * @return: true if a reply is to be sent. */ static int answer_chaos(struct worker* w, struct query_info* qinfo, struct edns_data* edns, struct comm_reply* repinfo, sldns_buffer* pkt) { struct config_file* cfg = w->env.cfg; if(qinfo->qtype != LDNS_RR_TYPE_ANY && qinfo->qtype != LDNS_RR_TYPE_TXT) return 0; if(query_dname_compare(qinfo->qname, (uint8_t*)"\002id\006server") == 0 || query_dname_compare(qinfo->qname, (uint8_t*)"\010hostname\004bind") == 0) { if(cfg->hide_identity) return 0; if(cfg->identity==NULL || cfg->identity[0]==0) { char buf[MAXHOSTNAMELEN+1]; if (gethostname(buf, MAXHOSTNAMELEN) == 0) { buf[MAXHOSTNAMELEN] = 0; chaos_replyonestr(pkt, buf, edns, w, repinfo); } else { log_err("gethostname: %s", strerror(errno)); chaos_replyonestr(pkt, "no hostname", edns, w, repinfo); } } else chaos_replyonestr(pkt, cfg->identity, edns, w, repinfo); return 1; } if(query_dname_compare(qinfo->qname, (uint8_t*)"\007version\006server") == 0 || query_dname_compare(qinfo->qname, (uint8_t*)"\007version\004bind") == 0) { if(cfg->hide_version) return 0; if(cfg->version==NULL || cfg->version[0]==0) chaos_replyonestr(pkt, PACKAGE_STRING, edns, w, repinfo); else chaos_replyonestr(pkt, cfg->version, edns, w, repinfo); return 1; } if(query_dname_compare(qinfo->qname, (uint8_t*)"\013trustanchor\007unbound") == 0) { if(cfg->hide_trustanchor) return 0; chaos_trustanchor(pkt, edns, w, repinfo); return 1; } return 0; } /** * Answer notify queries. These are notifies for authoritative zones, * the reply is an ack that the notify has been received. We need to check * access permission here. * @param w: worker * @param qinfo: query info. Pointer into packet buffer. * @param edns: edns info from query. * @param addr: client address. * @param addrlen: client address length. * @param pkt: packet buffer. */ static void answer_notify(struct worker* w, struct query_info* qinfo, struct edns_data* edns, sldns_buffer* pkt, struct sockaddr_storage* addr, socklen_t addrlen) { int refused = 0; int rcode = LDNS_RCODE_NOERROR; uint32_t serial = 0; int has_serial; if(!w->env.auth_zones) return; has_serial = auth_zone_parse_notify_serial(pkt, &serial); if(auth_zones_notify(w->env.auth_zones, &w->env, qinfo->qname, qinfo->qname_len, qinfo->qclass, addr, addrlen, has_serial, serial, &refused)) { rcode = LDNS_RCODE_NOERROR; } else { if(refused) rcode = LDNS_RCODE_REFUSED; else rcode = LDNS_RCODE_SERVFAIL; } if(verbosity >= VERB_DETAIL) { char buf[380]; char zname[255+1]; char sr[25]; dname_str(qinfo->qname, zname); sr[0]=0; if(has_serial) snprintf(sr, sizeof(sr), "serial %u ", (unsigned)serial); if(rcode == LDNS_RCODE_REFUSED) snprintf(buf, sizeof(buf), "refused NOTIFY %sfor %s from", sr, zname); else if(rcode == LDNS_RCODE_SERVFAIL) snprintf(buf, sizeof(buf), "servfail for NOTIFY %sfor %s from", sr, zname); else snprintf(buf, sizeof(buf), "received NOTIFY %sfor %s from", sr, zname); log_addr(VERB_DETAIL, buf, addr, addrlen); } edns->edns_version = EDNS_ADVERTISED_VERSION; edns->udp_size = EDNS_ADVERTISED_SIZE; edns->ext_rcode = 0; edns->bits &= EDNS_DO; error_encode(pkt, rcode, qinfo, *(uint16_t*)(void *)sldns_buffer_begin(pkt), sldns_buffer_read_u16_at(pkt, 2), edns); LDNS_OPCODE_SET(sldns_buffer_begin(pkt), LDNS_PACKET_NOTIFY); } static int deny_refuse(struct comm_point* c, enum acl_access acl, enum acl_access deny, enum acl_access refuse, struct worker* worker, struct comm_reply* repinfo, struct acl_addr* acladdr, int ede, struct check_request_result* check_result) { if(acl == deny) { if(verbosity >= VERB_ALGO) { log_acl_action("dropped", &repinfo->client_addr, repinfo->client_addrlen, acl, acladdr); log_buf(VERB_ALGO, "dropped", c->buffer); } comm_point_drop_reply(repinfo); if(worker->stats.extended) worker->stats.unwanted_queries++; return 0; } else if(acl == refuse) { size_t opt_rr_mark; if(verbosity >= VERB_ALGO) { log_acl_action("refused", &repinfo->client_addr, repinfo->client_addrlen, acl, acladdr); log_buf(VERB_ALGO, "refuse", c->buffer); } if(worker->stats.extended) worker->stats.unwanted_queries++; worker_check_request(c->buffer, worker, check_result); if(check_result->value != 0) { if(check_result->value != -1) { LDNS_QR_SET(sldns_buffer_begin(c->buffer)); LDNS_RCODE_SET(sldns_buffer_begin(c->buffer), check_result->value); return 1; } comm_point_drop_reply(repinfo); return 0; } /* worker_check_request() above guarantees that the buffer contains at * least a header and that qdcount == 1 */ log_assert(sldns_buffer_limit(c->buffer) >= LDNS_HEADER_SIZE && LDNS_QDCOUNT(sldns_buffer_begin(c->buffer)) == 1); sldns_buffer_set_position(c->buffer, LDNS_HEADER_SIZE); /* skip header */ /* check additional section is present and that we respond with EDEs */ if(LDNS_ARCOUNT(sldns_buffer_begin(c->buffer)) != 1 || !ede) { LDNS_QDCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_ANCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_NSCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_ARCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_QR_SET(sldns_buffer_begin(c->buffer)); LDNS_RCODE_SET(sldns_buffer_begin(c->buffer), LDNS_RCODE_REFUSED); sldns_buffer_set_position(c->buffer, LDNS_HEADER_SIZE); sldns_buffer_flip(c->buffer); return 1; } if (!query_dname_len(c->buffer)) { LDNS_QDCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_ANCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_NSCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_ARCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_QR_SET(sldns_buffer_begin(c->buffer)); LDNS_RCODE_SET(sldns_buffer_begin(c->buffer), LDNS_RCODE_FORMERR); sldns_buffer_set_position(c->buffer, LDNS_HEADER_SIZE); sldns_buffer_flip(c->buffer); return 1; } /* space available for query type and class? */ if (sldns_buffer_remaining(c->buffer) < 2 * sizeof(uint16_t)) { LDNS_QR_SET(sldns_buffer_begin(c->buffer)); LDNS_RCODE_SET(sldns_buffer_begin(c->buffer), LDNS_RCODE_FORMERR); LDNS_QDCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_ANCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_NSCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_ARCOUNT_SET(sldns_buffer_begin(c->buffer), 0); sldns_buffer_set_position(c->buffer, LDNS_HEADER_SIZE); sldns_buffer_flip(c->buffer); return 1; } LDNS_QR_SET(sldns_buffer_begin(c->buffer)); LDNS_RCODE_SET(sldns_buffer_begin(c->buffer), LDNS_RCODE_REFUSED); sldns_buffer_skip(c->buffer, (ssize_t)sizeof(uint16_t)); /* skip qtype */ sldns_buffer_skip(c->buffer, (ssize_t)sizeof(uint16_t)); /* skip qclass */ /* The OPT RR to be returned should come directly after * the query, so mark this spot. */ opt_rr_mark = sldns_buffer_position(c->buffer); /* Skip through the RR records */ if(LDNS_ANCOUNT(sldns_buffer_begin(c->buffer)) != 0 || LDNS_NSCOUNT(sldns_buffer_begin(c->buffer)) != 0) { if(!skip_pkt_rrs(c->buffer, ((int)LDNS_ANCOUNT(sldns_buffer_begin(c->buffer)))+ ((int)LDNS_NSCOUNT(sldns_buffer_begin(c->buffer))))) { LDNS_RCODE_SET(sldns_buffer_begin(c->buffer), LDNS_RCODE_FORMERR); LDNS_ANCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_NSCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_ARCOUNT_SET(sldns_buffer_begin(c->buffer), 0); sldns_buffer_set_position(c->buffer, opt_rr_mark); sldns_buffer_flip(c->buffer); return 1; } } /* Do we have a valid OPT RR here? If not return REFUSED (could be a valid TSIG or something so no FORMERR) */ /* domain name must be the root of length 1. */ if(sldns_buffer_remaining(c->buffer) < 1 || *sldns_buffer_current(c->buffer) != 0) { LDNS_ANCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_NSCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_ARCOUNT_SET(sldns_buffer_begin(c->buffer), 0); sldns_buffer_set_position(c->buffer, opt_rr_mark); sldns_buffer_flip(c->buffer); return 1; } else { sldns_buffer_skip(c->buffer, 1); /* skip root label */ } if(sldns_buffer_remaining(c->buffer) < 2 || sldns_buffer_read_u16(c->buffer) != LDNS_RR_TYPE_OPT) { LDNS_ANCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_NSCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_ARCOUNT_SET(sldns_buffer_begin(c->buffer), 0); sldns_buffer_set_position(c->buffer, opt_rr_mark); sldns_buffer_flip(c->buffer); return 1; } /* Write OPT RR directly after the query, * so without the (possibly skipped) Answer and NS RRs */ LDNS_ANCOUNT_SET(sldns_buffer_begin(c->buffer), 0); LDNS_NSCOUNT_SET(sldns_buffer_begin(c->buffer), 0); sldns_buffer_clear(c->buffer); /* reset write limit */ sldns_buffer_set_position(c->buffer, opt_rr_mark); /* Check if OPT record can be written * 17 == root label (1) + RR type (2) + UDP Size (2) * + Fields (4) + rdata len (2) + EDE Option code (2) * + EDE Option length (2) + EDE info-code (2) */ if (sldns_buffer_available(c->buffer, 17) == 0) { LDNS_ARCOUNT_SET(sldns_buffer_begin(c->buffer), 0); sldns_buffer_flip(c->buffer); return 1; } LDNS_ARCOUNT_SET(sldns_buffer_begin(c->buffer), 1); /* root label */ sldns_buffer_write_u8(c->buffer, 0); sldns_buffer_write_u16(c->buffer, LDNS_RR_TYPE_OPT); sldns_buffer_write_u16(c->buffer, EDNS_ADVERTISED_SIZE); /* write OPT Record TTL Field */ sldns_buffer_write_u32(c->buffer, 0); /* write rdata len: EDE option + length + info-code */ sldns_buffer_write_u16(c->buffer, 6); /* write OPTIONS; add EDE option code */ sldns_buffer_write_u16(c->buffer, LDNS_EDNS_EDE); /* write single EDE option length (for just 1 info-code) */ sldns_buffer_write_u16(c->buffer, 2); /* write single EDE info-code */ sldns_buffer_write_u16(c->buffer, LDNS_EDE_PROHIBITED); sldns_buffer_flip(c->buffer); verbose(VERB_ALGO, "attached EDE code: %d", LDNS_EDE_PROHIBITED); return 1; } return -1; } static int deny_refuse_all(struct comm_point* c, enum acl_access* acl, struct worker* worker, struct comm_reply* repinfo, struct acl_addr** acladdr, int ede, int check_proxy, struct check_request_result* check_result) { if(check_proxy) { *acladdr = acl_addr_lookup(worker->daemon->acl, &repinfo->remote_addr, repinfo->remote_addrlen); } else { *acladdr = acl_addr_lookup(worker->daemon->acl, &repinfo->client_addr, repinfo->client_addrlen); } /* If there is no ACL based on client IP use the interface ACL. */ if(!(*acladdr) && c->socket) { *acladdr = c->socket->acl; } *acl = acl_get_control(*acladdr); return deny_refuse(c, *acl, acl_deny, acl_refuse, worker, repinfo, *acladdr, ede, check_result); } static int deny_refuse_non_local(struct comm_point* c, enum acl_access acl, struct worker* worker, struct comm_reply* repinfo, struct acl_addr* acladdr, int ede, struct check_request_result* check_result) { return deny_refuse(c, acl, acl_deny_non_local, acl_refuse_non_local, worker, repinfo, acladdr, ede, check_result); } /* Check if the query is blocked by source IP rate limiting. * Returns 1 if it passes the check, 0 otherwise. */ static int check_ip_ratelimit(struct worker* worker, struct sockaddr_storage* addr, socklen_t addrlen, int has_cookie, sldns_buffer* pkt) { if(!infra_ip_ratelimit_inc(worker->env.infra_cache, addr, addrlen, *worker->env.now, has_cookie, worker->env.cfg->ip_ratelimit_backoff, pkt)) { /* See if we can pass through with slip factor */ if(!has_cookie && worker->env.cfg->ip_ratelimit_factor != 0 && ub_random_max(worker->env.rnd, worker->env.cfg->ip_ratelimit_factor) == 0) { char addrbuf[128]; addr_to_str(addr, addrlen, addrbuf, sizeof(addrbuf)); verbose(VERB_QUERY, "ip_ratelimit allowed through for " "ip address %s because of slip in " "ip_ratelimit_factor", addrbuf); return 1; } return 0; } return 1; } int worker_handle_request(struct comm_point* c, void* arg, int error, struct comm_reply* repinfo) { struct worker* worker = (struct worker*)arg; int ret; hashvalue_type h; struct lruhash_entry* e; struct query_info qinfo; struct edns_data edns; struct edns_option* original_edns_list = NULL; enum acl_access acl; struct acl_addr* acladdr; int pre_edns_ip_ratelimit = 1; int rc = 0; int need_drop = 0; int is_expired_answer = 0; int is_secure_answer = 0; int rpz_passthru = 0; long long wait_queue_time = 0; /* We might have to chase a CNAME chain internally, in which case * we'll have up to two replies and combine them to build a complete * answer. These variables control this case. */ struct ub_packed_rrset_key* alias_rrset = NULL; struct reply_info* partial_rep = NULL; struct query_info* lookup_qinfo = &qinfo; struct query_info qinfo_tmp; /* placeholder for lookup_qinfo */ struct respip_client_info* cinfo = NULL, cinfo_tmp; struct timeval wait_time; struct check_request_result check_result = {0,0}; memset(&qinfo, 0, sizeof(qinfo)); if((error != NETEVENT_NOERROR && error != NETEVENT_DONE)|| !repinfo) { /* some bad tcp query DNS formats give these error calls */ verbose(VERB_ALGO, "handle request called with err=%d", error); return 0; } if (worker->env.cfg->sock_queue_timeout && timeval_isset(&c->recv_tv)) { timeval_subtract(&wait_time, worker->env.now_tv, &c->recv_tv); wait_queue_time = wait_time.tv_sec * 1000000 + wait_time.tv_usec; if (worker->stats.max_query_time_us < wait_queue_time) worker->stats.max_query_time_us = wait_queue_time; if(wait_queue_time > (long long)(worker->env.cfg->sock_queue_timeout * 1000000)) { /* count and drop queries that were sitting in the socket queue too long */ worker->stats.num_queries_timed_out++; return 0; } } #ifdef USE_DNSCRYPT repinfo->max_udp_size = worker->daemon->cfg->max_udp_size; if(!dnsc_handle_curved_request(worker->daemon->dnscenv, repinfo)) { worker->stats.num_query_dnscrypt_crypted_malformed++; return 0; } if(c->dnscrypt && !repinfo->is_dnscrypted) { char buf[LDNS_MAX_DOMAINLEN+1]; /* Check if this is unencrypted and asking for certs */ worker_check_request(c->buffer, worker, &check_result); if(check_result.value != 0) { verbose(VERB_ALGO, "dnscrypt: worker check request: bad query."); log_addr(VERB_CLIENT,"from",&repinfo->client_addr, repinfo->client_addrlen); comm_point_drop_reply(repinfo); return 0; } if(!query_info_parse(&qinfo, c->buffer)) { verbose(VERB_ALGO, "dnscrypt: worker parse request: formerror."); log_addr(VERB_CLIENT, "from", &repinfo->client_addr, repinfo->client_addrlen); comm_point_drop_reply(repinfo); return 0; } dname_str(qinfo.qname, buf); if(!(qinfo.qtype == LDNS_RR_TYPE_TXT && strcasecmp(buf, worker->daemon->dnscenv->provider_name) == 0)) { verbose(VERB_ALGO, "dnscrypt: not TXT \"%s\". Received: %s \"%s\"", worker->daemon->dnscenv->provider_name, sldns_rr_descript(qinfo.qtype)->_name, buf); comm_point_drop_reply(repinfo); worker->stats.num_query_dnscrypt_cleartext++; return 0; } worker->stats.num_query_dnscrypt_cert++; sldns_buffer_rewind(c->buffer); } else if(c->dnscrypt && repinfo->is_dnscrypted) { worker->stats.num_query_dnscrypt_crypted++; } #endif #ifdef USE_DNSTAP /* * sending src (client)/dst (local service) addresses over DNSTAP from incoming request handler */ if(worker->dtenv.log_client_query_messages) { log_addr(VERB_ALGO, "request from client", &repinfo->client_addr, repinfo->client_addrlen); log_addr(VERB_ALGO, "to local addr", (void*)repinfo->c->socket->addr, repinfo->c->socket->addrlen); dt_msg_send_client_query(&worker->dtenv, &repinfo->client_addr, (void*)repinfo->c->socket->addr, c->type, c->ssl, c->buffer, ((worker->env.cfg->sock_queue_timeout && timeval_isset(&c->recv_tv))?&c->recv_tv:NULL)); } #endif /* Check deny/refuse ACLs */ if(repinfo->is_proxied) { if((ret=deny_refuse_all(c, &acl, worker, repinfo, &acladdr, worker->env.cfg->ede, 1, &check_result)) != -1) { if(ret == 1) goto send_reply; return ret; } } if((ret=deny_refuse_all(c, &acl, worker, repinfo, &acladdr, worker->env.cfg->ede, 0, &check_result)) != -1) { if(ret == 1) goto send_reply; return ret; } worker_check_request(c->buffer, worker, &check_result); if(check_result.value != 0) { verbose(VERB_ALGO, "worker check request: bad query."); log_addr(VERB_CLIENT,"from",&repinfo->client_addr, repinfo->client_addrlen); if(check_result.value != -1) { LDNS_QR_SET(sldns_buffer_begin(c->buffer)); LDNS_RCODE_SET(sldns_buffer_begin(c->buffer), check_result.value); return 1; } comm_point_drop_reply(repinfo); return 0; } worker->stats.num_queries++; pre_edns_ip_ratelimit = !worker->env.cfg->do_answer_cookie || sldns_buffer_limit(c->buffer) < LDNS_HEADER_SIZE || LDNS_ARCOUNT(sldns_buffer_begin(c->buffer)) == 0; /* If the IP rate limiting check needs extra EDNS information (e.g., * DNS Cookies) postpone the check until after EDNS is parsed. */ if(pre_edns_ip_ratelimit) { /* NOTE: we always check the repinfo->client_address. * IP ratelimiting is implicitly disabled for proxies. */ if(!check_ip_ratelimit(worker, &repinfo->client_addr, repinfo->client_addrlen, 0, c->buffer)) { worker->stats.num_queries_ip_ratelimited++; comm_point_drop_reply(repinfo); return 0; } } if(!query_info_parse(&qinfo, c->buffer)) { verbose(VERB_ALGO, "worker parse request: formerror."); log_addr(VERB_CLIENT, "from", &repinfo->client_addr, repinfo->client_addrlen); memset(&qinfo, 0, sizeof(qinfo)); /* zero qinfo.qname */ if(worker_err_ratelimit(worker, LDNS_RCODE_FORMERR) == -1) { comm_point_drop_reply(repinfo); return 0; } sldns_buffer_rewind(c->buffer); LDNS_QR_SET(sldns_buffer_begin(c->buffer)); LDNS_RCODE_SET(sldns_buffer_begin(c->buffer), LDNS_RCODE_FORMERR); goto send_reply; } if(worker->env.cfg->log_queries) { char ip[128]; addr_to_str(&repinfo->client_addr, repinfo->client_addrlen, ip, sizeof(ip)); log_query_in(ip, qinfo.qname, qinfo.qtype, qinfo.qclass); } if(qinfo.qtype == LDNS_RR_TYPE_AXFR || qinfo.qtype == LDNS_RR_TYPE_IXFR) { verbose(VERB_ALGO, "worker request: refused zone transfer."); log_addr(VERB_CLIENT, "from", &repinfo->client_addr, repinfo->client_addrlen); sldns_buffer_rewind(c->buffer); LDNS_QR_SET(sldns_buffer_begin(c->buffer)); LDNS_RCODE_SET(sldns_buffer_begin(c->buffer), LDNS_RCODE_REFUSED); if(worker->stats.extended) { worker->stats.qtype[qinfo.qtype]++; } goto send_reply; } if(qinfo.qtype == LDNS_RR_TYPE_OPT || qinfo.qtype == LDNS_RR_TYPE_TSIG || qinfo.qtype == LDNS_RR_TYPE_TKEY || qinfo.qtype == LDNS_RR_TYPE_MAILA || qinfo.qtype == LDNS_RR_TYPE_MAILB || (qinfo.qtype >= 128 && qinfo.qtype <= 248)) { verbose(VERB_ALGO, "worker request: formerror for meta-type."); log_addr(VERB_CLIENT, "from", &repinfo->client_addr, repinfo->client_addrlen); if(worker_err_ratelimit(worker, LDNS_RCODE_FORMERR) == -1) { comm_point_drop_reply(repinfo); return 0; } sldns_buffer_rewind(c->buffer); LDNS_QR_SET(sldns_buffer_begin(c->buffer)); LDNS_RCODE_SET(sldns_buffer_begin(c->buffer), LDNS_RCODE_FORMERR); if(worker->stats.extended) { worker->stats.qtype[qinfo.qtype]++; } goto send_reply; } if((ret=parse_edns_from_query_pkt( c->buffer, &edns, worker->env.cfg, c, repinfo, (worker->env.now ? *worker->env.now : time(NULL)), worker->scratchpad, worker->daemon->cookie_secrets)) != 0) { struct edns_data reply_edns; verbose(VERB_ALGO, "worker parse edns: formerror."); log_addr(VERB_CLIENT, "from", &repinfo->client_addr, repinfo->client_addrlen); memset(&reply_edns, 0, sizeof(reply_edns)); reply_edns.edns_present = 1; error_encode(c->buffer, ret, &qinfo, *(uint16_t*)(void *)sldns_buffer_begin(c->buffer), sldns_buffer_read_u16_at(c->buffer, 2), &reply_edns); regional_free_all(worker->scratchpad); goto send_reply; } if(edns.edns_present) { if(edns.edns_version != 0) { edns.opt_list_in = NULL; edns.opt_list_out = NULL; edns.opt_list_inplace_cb_out = NULL; verbose(VERB_ALGO, "query with bad edns version."); log_addr(VERB_CLIENT, "from", &repinfo->client_addr, repinfo->client_addrlen); extended_error_encode(c->buffer, EDNS_RCODE_BADVERS, &qinfo, *(uint16_t*)(void *)sldns_buffer_begin(c->buffer), sldns_buffer_read_u16_at(c->buffer, 2), 0, &edns); regional_free_all(worker->scratchpad); goto send_reply; } if(edns.udp_size < NORMAL_UDP_SIZE && worker->daemon->cfg->harden_short_bufsize) { verbose(VERB_QUERY, "worker request: EDNS bufsize %d ignored", (int)edns.udp_size); log_addr(VERB_CLIENT, "from", &repinfo->client_addr, repinfo->client_addrlen); edns.udp_size = NORMAL_UDP_SIZE; } } /* Get stats for cookies */ server_stats_downstream_cookie(&worker->stats, &edns); /* If the IP rate limiting check was postponed, check now. */ if(!pre_edns_ip_ratelimit) { /* NOTE: we always check the repinfo->client_address. * IP ratelimiting is implicitly disabled for proxies. */ if(!check_ip_ratelimit(worker, &repinfo->client_addr, repinfo->client_addrlen, edns.cookie_valid, c->buffer)) { worker->stats.num_queries_ip_ratelimited++; comm_point_drop_reply(repinfo); return 0; } } /* "if, else if" sequence below deals with downstream DNS Cookies */ if(acl != acl_allow_cookie) ; /* pass; No cookie downstream processing whatsoever */ else if(edns.cookie_valid) ; /* pass; Valid cookie is good! */ else if(c->type != comm_udp) ; /* pass; Stateful transport */ else if(edns.cookie_present) { /* Cookie present, but not valid: Cookie was bad! */ extended_error_encode(c->buffer, LDNS_EXT_RCODE_BADCOOKIE, &qinfo, *(uint16_t*)(void *) sldns_buffer_begin(c->buffer), sldns_buffer_read_u16_at(c->buffer, 2), 0, &edns); regional_free_all(worker->scratchpad); goto send_reply; } else { /* Cookie required, but no cookie present on UDP */ verbose(VERB_ALGO, "worker request: " "need cookie or stateful transport"); log_addr(VERB_ALGO, "from",&repinfo->remote_addr , repinfo->remote_addrlen); EDNS_OPT_LIST_APPEND_EDE(&edns.opt_list_out, worker->scratchpad, LDNS_EDE_OTHER, "DNS Cookie needed for UDP replies"); error_encode(c->buffer, (LDNS_RCODE_REFUSED|BIT_TC), &qinfo, *(uint16_t*)(void *) sldns_buffer_begin(c->buffer), sldns_buffer_read_u16_at(c->buffer, 2), &edns); regional_free_all(worker->scratchpad); goto send_reply; } if(edns.udp_size > worker->daemon->cfg->max_udp_size && c->type == comm_udp) { verbose(VERB_QUERY, "worker request: max UDP reply size modified" " (%d to max-udp-size)", (int)edns.udp_size); log_addr(VERB_CLIENT, "from", &repinfo->client_addr, repinfo->client_addrlen); edns.udp_size = worker->daemon->cfg->max_udp_size; } if(edns.udp_size < LDNS_HEADER_SIZE) { verbose(VERB_ALGO, "worker request: edns is too small."); log_addr(VERB_CLIENT, "from", &repinfo->client_addr, repinfo->client_addrlen); LDNS_QR_SET(sldns_buffer_begin(c->buffer)); LDNS_TC_SET(sldns_buffer_begin(c->buffer)); LDNS_RCODE_SET(sldns_buffer_begin(c->buffer), LDNS_RCODE_SERVFAIL); sldns_buffer_set_position(c->buffer, LDNS_HEADER_SIZE); sldns_buffer_write_at(c->buffer, 4, (uint8_t*)"\0\0\0\0\0\0\0\0", 8); sldns_buffer_flip(c->buffer); regional_free_all(worker->scratchpad); goto send_reply; } if(worker->stats.extended) server_stats_insquery(&worker->stats, c, qinfo.qtype, qinfo.qclass, &edns, repinfo); if(c->type != comm_udp) edns.udp_size = 65535; /* max size for TCP replies */ if(qinfo.qclass == LDNS_RR_CLASS_CH && answer_chaos(worker, &qinfo, &edns, repinfo, c->buffer)) { regional_free_all(worker->scratchpad); goto send_reply; } if(LDNS_OPCODE_WIRE(sldns_buffer_begin(c->buffer)) == LDNS_PACKET_NOTIFY) { answer_notify(worker, &qinfo, &edns, c->buffer, &repinfo->client_addr, repinfo->client_addrlen); regional_free_all(worker->scratchpad); goto send_reply; } if(local_zones_answer(worker->daemon->local_zones, &worker->env, &qinfo, &edns, c->buffer, worker->scratchpad, repinfo, acladdr->taglist, acladdr->taglen, acladdr->tag_actions, acladdr->tag_actions_size, acladdr->tag_datas, acladdr->tag_datas_size, worker->daemon->cfg->tagname, worker->daemon->cfg->num_tags, acladdr->view)) { regional_free_all(worker->scratchpad); if(sldns_buffer_limit(c->buffer) == 0) { comm_point_drop_reply(repinfo); return 0; } goto send_reply; } if(worker->env.auth_zones && rpz_callback_from_worker_request(worker->env.auth_zones, &worker->env, &qinfo, &edns, c->buffer, worker->scratchpad, repinfo, acladdr->taglist, acladdr->taglen, &worker->stats, &rpz_passthru)) { regional_free_all(worker->scratchpad); if(sldns_buffer_limit(c->buffer) == 0) { comm_point_drop_reply(repinfo); return 0; } goto send_reply; } if(worker->env.auth_zones && auth_zones_answer(worker->env.auth_zones, &worker->env, &qinfo, &edns, repinfo, c->buffer, worker->scratchpad)) { regional_free_all(worker->scratchpad); if(sldns_buffer_limit(c->buffer) == 0) { comm_point_drop_reply(repinfo); return 0; } /* set RA for everyone that can have recursion (based on * access control list) */ if(LDNS_RD_WIRE(sldns_buffer_begin(c->buffer)) && acl != acl_deny_non_local && acl != acl_refuse_non_local) LDNS_RA_SET(sldns_buffer_begin(c->buffer)); goto send_reply; } /* We've looked in our local zones. If the answer isn't there, we * might need to bail out based on ACLs now. */ if((ret=deny_refuse_non_local(c, acl, worker, repinfo, acladdr, worker->env.cfg->ede, &check_result)) != -1) { regional_free_all(worker->scratchpad); if(ret == 1) goto send_reply; return ret; } /* If this request does not have the recursion bit set, verify * ACLs allow the recursion bit to be treated as set. */ if(!(LDNS_RD_WIRE(sldns_buffer_begin(c->buffer))) && acl == acl_allow_setrd ) { LDNS_RD_SET(sldns_buffer_begin(c->buffer)); } /* If this request does not have the recursion bit set, verify * ACLs allow the snooping. */ if(!(LDNS_RD_WIRE(sldns_buffer_begin(c->buffer))) && acl != acl_allow_snoop ) { if(worker->env.cfg->ede) { EDNS_OPT_LIST_APPEND_EDE(&edns.opt_list_out, worker->scratchpad, LDNS_EDE_NOT_AUTHORITATIVE, ""); } error_encode(c->buffer, LDNS_RCODE_REFUSED, &qinfo, *(uint16_t*)(void *)sldns_buffer_begin(c->buffer), sldns_buffer_read_u16_at(c->buffer, 2), &edns); regional_free_all(worker->scratchpad); log_addr(VERB_ALGO, "refused nonrec (cache snoop) query from", &repinfo->client_addr, repinfo->client_addrlen); goto send_reply; } /* If we've found a local alias, replace the qname with the alias * target before resolving it. */ if(qinfo.local_alias) { struct ub_packed_rrset_key* rrset = qinfo.local_alias->rrset; struct packed_rrset_data* d = rrset->entry.data; /* Sanity check: our current implementation only supports * a single CNAME RRset as a local alias. */ if(qinfo.local_alias->next || rrset->rk.type != htons(LDNS_RR_TYPE_CNAME) || d->count != 1) { log_err("assumption failure: unexpected local alias"); regional_free_all(worker->scratchpad); return 0; /* drop it */ } qinfo.qname = d->rr_data[0] + 2; qinfo.qname_len = d->rr_len[0] - 2; } /* If we may apply IP-based actions to the answer, build the client * information. As this can be expensive, skip it if there is * absolutely no possibility of it. */ if((worker->daemon->use_response_ip || worker->daemon->use_rpz) && (qinfo.qtype == LDNS_RR_TYPE_A || qinfo.qtype == LDNS_RR_TYPE_AAAA || qinfo.qtype == LDNS_RR_TYPE_ANY)) { cinfo_tmp.taglist = acladdr->taglist; cinfo_tmp.taglen = acladdr->taglen; cinfo_tmp.tag_actions = acladdr->tag_actions; cinfo_tmp.tag_actions_size = acladdr->tag_actions_size; cinfo_tmp.tag_datas = acladdr->tag_datas; cinfo_tmp.tag_datas_size = acladdr->tag_datas_size; cinfo_tmp.view = acladdr->view; cinfo_tmp.respip_set = worker->daemon->respip_set; cinfo = &cinfo_tmp; } /* Keep the original edns list around. The pointer could change if there is * a cached answer (through the inplace callback function there). * No need to actually copy the contents as they shouldn't change. * Used while prefetching and subnet is enabled. */ original_edns_list = edns.opt_list_in; lookup_cache: /* Lookup the cache. In case we chase an intermediate CNAME chain * this is a two-pass operation, and lookup_qinfo is different for * each pass. We should still pass the original qinfo to * answer_from_cache(), however, since it's used to build the reply. */ if(!edns_bypass_cache_stage(edns.opt_list_in, &worker->env)) { is_expired_answer = 0; is_secure_answer = 0; h = query_info_hash(lookup_qinfo, sldns_buffer_read_u16_at(c->buffer, 2)); if((e=slabhash_lookup(worker->env.msg_cache, h, lookup_qinfo, 0))) { struct reply_info* rep = (struct reply_info*)e->data; /* answer from cache - we have acquired a readlock on it */ if(answer_from_cache(worker, &qinfo, cinfo, &need_drop, &is_expired_answer, &is_secure_answer, &alias_rrset, &partial_rep, rep, *(uint16_t*)(void *)sldns_buffer_begin(c->buffer), sldns_buffer_read_u16_at(c->buffer, 2), repinfo, &edns)) { /* prefetch it if the prefetch TTL expired. * Note that if there is more than one pass * its qname must be that used for cache * lookup. */ if((worker->env.cfg->prefetch && *worker->env.now >= rep->prefetch_ttl) || (worker->env.cfg->serve_expired && *worker->env.now > rep->ttl)) { time_t leeway = rep->ttl - *worker->env.now; if(rep->ttl < *worker->env.now) leeway = 0; lock_rw_unlock(&e->lock); reply_and_prefetch(worker, lookup_qinfo, sldns_buffer_read_u16_at(c->buffer, 2), repinfo, leeway, (partial_rep || need_drop), rpz_passthru, original_edns_list); if(!partial_rep) { rc = 0; regional_free_all(worker->scratchpad); goto send_reply_rc; } } else if(!partial_rep) { lock_rw_unlock(&e->lock); regional_free_all(worker->scratchpad); goto send_reply; } else { /* Note that we've already released the * lock if we're here after prefetch. */ lock_rw_unlock(&e->lock); } /* We've found a partial reply ending with an * alias. Replace the lookup qinfo for the * alias target and lookup the cache again to * (possibly) complete the reply. As we're * passing the "base" reply, there will be no * more alias chasing. */ memset(&qinfo_tmp, 0, sizeof(qinfo_tmp)); get_cname_target(alias_rrset, &qinfo_tmp.qname, &qinfo_tmp.qname_len); if(!qinfo_tmp.qname) { log_err("unexpected: invalid answer alias"); regional_free_all(worker->scratchpad); return 0; /* drop query */ } qinfo_tmp.qtype = qinfo.qtype; qinfo_tmp.qclass = qinfo.qclass; lookup_qinfo = &qinfo_tmp; goto lookup_cache; } verbose(VERB_ALGO, "answer from the cache failed"); lock_rw_unlock(&e->lock); } if(!LDNS_RD_WIRE(sldns_buffer_begin(c->buffer))) { if(answer_norec_from_cache(worker, &qinfo, *(uint16_t*)(void *)sldns_buffer_begin(c->buffer), sldns_buffer_read_u16_at(c->buffer, 2), repinfo, &edns)) { regional_free_all(worker->scratchpad); goto send_reply; } verbose(VERB_ALGO, "answer norec from cache -- " "need to validate or not primed"); } } sldns_buffer_rewind(c->buffer); server_stats_querymiss(&worker->stats, worker); if(verbosity >= VERB_CLIENT) { if(c->type == comm_udp) log_addr(VERB_CLIENT, "udp request from", &repinfo->client_addr, repinfo->client_addrlen); else log_addr(VERB_CLIENT, "tcp request from", &repinfo->client_addr, repinfo->client_addrlen); } /* grab a work request structure for this new request */ mesh_new_client(worker->env.mesh, &qinfo, cinfo, sldns_buffer_read_u16_at(c->buffer, 2), &edns, repinfo, *(uint16_t*)(void *)sldns_buffer_begin(c->buffer), rpz_passthru); regional_free_all(worker->scratchpad); worker_mem_report(worker, NULL); return 0; send_reply: rc = 1; send_reply_rc: if(need_drop) { comm_point_drop_reply(repinfo); return 0; } if(is_expired_answer) { worker->stats.ans_expired++; } server_stats_insrcode(&worker->stats, c->buffer); if(worker->stats.extended) { if(is_secure_answer) worker->stats.ans_secure++; } #ifdef USE_DNSTAP /* * sending src (client)/dst (local service) addresses over DNSTAP from send_reply code label (when we serviced local zone for ex.) */ if(worker->dtenv.log_client_response_messages && rc !=0) { log_addr(VERB_ALGO, "from local addr", (void*)repinfo->c->socket->addr, repinfo->c->socket->addrlen); log_addr(VERB_ALGO, "response to client", &repinfo->client_addr, repinfo->client_addrlen); dt_msg_send_client_response(&worker->dtenv, &repinfo->client_addr, (void*)repinfo->c->socket->addr, c->type, c->ssl, c->buffer); } #endif if(worker->env.cfg->log_replies) { struct timeval tv; memset(&tv, 0, sizeof(tv)); if(qinfo.local_alias && qinfo.local_alias->rrset && qinfo.local_alias->rrset->rk.dname) { /* log original qname, before the local alias was * used to resolve that CNAME to something else */ qinfo.qname = qinfo.local_alias->rrset->rk.dname; log_reply_info(NO_VERBOSE, &qinfo, &repinfo->client_addr, repinfo->client_addrlen, tv, 1, c->buffer, (worker->env.cfg->log_destaddr?(void*)repinfo->c->socket->addr:NULL), c->type); } else { log_reply_info(NO_VERBOSE, &qinfo, &repinfo->client_addr, repinfo->client_addrlen, tv, 1, c->buffer, (worker->env.cfg->log_destaddr?(void*)repinfo->c->socket->addr:NULL), c->type); } } #ifdef USE_DNSCRYPT if(!dnsc_handle_uncurved_request(repinfo)) { return 0; } #endif return rc; } void worker_sighandler(int sig, void* arg) { /* note that log, print, syscalls here give race conditions. * And cause hangups if the log-lock is held by the application. */ struct worker* worker = (struct worker*)arg; switch(sig) { #ifdef SIGHUP case SIGHUP: comm_base_exit(worker->base); break; #endif #ifdef SIGBREAK case SIGBREAK: #endif case SIGINT: worker->need_to_exit = 1; comm_base_exit(worker->base); break; #ifdef SIGQUIT case SIGQUIT: worker->need_to_exit = 1; comm_base_exit(worker->base); break; #endif case SIGTERM: worker->need_to_exit = 1; comm_base_exit(worker->base); break; default: /* unknown signal, ignored */ break; } } /** restart statistics timer for worker, if enabled */ static void worker_restart_timer(struct worker* worker) { if(worker->env.cfg->stat_interval > 0) { struct timeval tv; #ifndef S_SPLINT_S tv.tv_sec = worker->env.cfg->stat_interval; tv.tv_usec = 0; #endif comm_timer_set(worker->stat_timer, &tv); } } void worker_stat_timer_cb(void* arg) { struct worker* worker = (struct worker*)arg; server_stats_log(&worker->stats, worker, worker->thread_num); mesh_stats(worker->env.mesh, "mesh has"); worker_mem_report(worker, NULL); /* SHM is enabled, process data to SHM */ if (worker->daemon->cfg->shm_enable) { shm_main_run(worker); } if(!worker->daemon->cfg->stat_cumulative) { worker_stats_clear(worker); } /* start next timer */ worker_restart_timer(worker); } void worker_probe_timer_cb(void* arg) { struct worker* worker = (struct worker*)arg; struct timeval tv; #ifndef S_SPLINT_S tv.tv_sec = (time_t)autr_probe_timer(&worker->env); tv.tv_usec = 0; #endif if(tv.tv_sec != 0) comm_timer_set(worker->env.probe_timer, &tv); } struct worker* worker_create(struct daemon* daemon, int id, int* ports, int n) { unsigned int seed; struct worker* worker = (struct worker*)calloc(1, sizeof(struct worker)); if(!worker) return NULL; worker->numports = n; worker->ports = (int*)memdup(ports, sizeof(int)*n); if(!worker->ports) { free(worker); return NULL; } worker->daemon = daemon; worker->thread_num = id; if(!(worker->cmd = tube_create())) { free(worker->ports); free(worker); return NULL; } /* create random state here to avoid locking trouble in RAND_bytes */ if(!(worker->rndstate = ub_initstate(daemon->rand))) { log_err("could not init random numbers."); tube_delete(worker->cmd); free(worker->ports); free(worker); return NULL; } explicit_bzero(&seed, sizeof(seed)); return worker; } int worker_init(struct worker* worker, struct config_file *cfg, struct listen_port* ports, int do_sigs) { #ifdef USE_DNSTAP struct dt_env* dtenv = &worker->dtenv; #else void* dtenv = NULL; #endif #ifdef HAVE_GETTID worker->thread_tid = gettid(); #endif worker->need_to_exit = 0; worker->base = comm_base_create(do_sigs); if(!worker->base) { log_err("could not create event handling base"); worker_delete(worker); return 0; } comm_base_set_slow_accept_handlers(worker->base, &worker_stop_accept, &worker_start_accept, worker); if(do_sigs) { #ifdef SIGHUP ub_thread_sig_unblock(SIGHUP); #endif #ifdef SIGBREAK ub_thread_sig_unblock(SIGBREAK); #endif ub_thread_sig_unblock(SIGINT); #ifdef SIGQUIT ub_thread_sig_unblock(SIGQUIT); #endif ub_thread_sig_unblock(SIGTERM); #ifndef LIBEVENT_SIGNAL_PROBLEM worker->comsig = comm_signal_create(worker->base, worker_sighandler, worker); if(!worker->comsig #ifdef SIGHUP || !comm_signal_bind(worker->comsig, SIGHUP) #endif #ifdef SIGQUIT || !comm_signal_bind(worker->comsig, SIGQUIT) #endif || !comm_signal_bind(worker->comsig, SIGTERM) #ifdef SIGBREAK || !comm_signal_bind(worker->comsig, SIGBREAK) #endif || !comm_signal_bind(worker->comsig, SIGINT)) { log_err("could not create signal handlers"); worker_delete(worker); return 0; } #endif /* LIBEVENT_SIGNAL_PROBLEM */ if(!daemon_remote_open_accept(worker->daemon->rc, worker->daemon->rc_ports, worker)) { worker_delete(worker); return 0; } #ifdef UB_ON_WINDOWS wsvc_setup_worker(worker); #endif /* UB_ON_WINDOWS */ } else { /* !do_sigs */ worker->comsig = NULL; } #ifdef USE_DNSTAP if(cfg->dnstap) { log_assert(worker->daemon->dtenv != NULL); memcpy(&worker->dtenv, worker->daemon->dtenv, sizeof(struct dt_env)); if(!dt_init(&worker->dtenv, worker->base)) fatal_exit("dt_init failed"); } #endif worker->front = listen_create(worker->base, ports, cfg->msg_buffer_size, (int)cfg->incoming_num_tcp, cfg->do_tcp_keepalive ? cfg->tcp_keepalive_timeout : cfg->tcp_idle_timeout, cfg->harden_large_queries, cfg->http_max_streams, cfg->http_endpoint, cfg->http_notls_downstream, worker->daemon->tcl, worker->daemon->listen_sslctx, dtenv, worker->daemon->doq_table, worker->env.rnd, cfg->ssl_service_key, cfg->ssl_service_pem, cfg, worker_handle_request, worker); if(!worker->front) { log_err("could not create listening sockets"); worker_delete(worker); return 0; } worker->back = outside_network_create(worker->base, cfg->msg_buffer_size, (size_t)cfg->outgoing_num_ports, cfg->out_ifs, cfg->num_out_ifs, cfg->do_ip4, cfg->do_ip6, cfg->do_tcp?cfg->outgoing_num_tcp:0, cfg->ip_dscp, worker->daemon->env->infra_cache, worker->rndstate, cfg->use_caps_bits_for_id, worker->ports, worker->numports, cfg->unwanted_threshold, cfg->outgoing_tcp_mss, &worker_alloc_cleanup, worker, cfg->do_udp || cfg->udp_upstream_without_downstream, worker->daemon->connect_sslctx, cfg->delay_close, cfg->tls_use_sni, dtenv, cfg->udp_connect, cfg->max_reuse_tcp_queries, cfg->tcp_reuse_timeout, cfg->tcp_auth_query_timeout); if(!worker->back) { log_err("could not create outgoing sockets"); worker_delete(worker); return 0; } iterator_set_ip46_support(&worker->daemon->mods, worker->daemon->env, worker->back); /* start listening to commands */ if(!tube_setup_bg_listen(worker->cmd, worker->base, &worker_handle_control_cmd, worker)) { log_err("could not create control compt."); worker_delete(worker); return 0; } worker->stat_timer = comm_timer_create(worker->base, worker_stat_timer_cb, worker); if(!worker->stat_timer) { log_err("could not create statistics timer"); } /* we use the msg_buffer_size as a good estimate for what the * user wants for memory usage sizes */ worker->scratchpad = regional_create_custom(cfg->msg_buffer_size); if(!worker->scratchpad) { log_err("malloc failure"); worker_delete(worker); return 0; } server_stats_init(&worker->stats, cfg); worker->alloc = worker->daemon->worker_allocs[worker->thread_num]; alloc_set_id_cleanup(worker->alloc, &worker_alloc_cleanup, worker); worker->env = *worker->daemon->env; comm_base_timept(worker->base, &worker->env.now, &worker->env.now_tv); worker->env.worker = worker; worker->env.worker_base = worker->base; worker->env.send_query = &worker_send_query; worker->env.alloc = worker->alloc; worker->env.outnet = worker->back; worker->env.rnd = worker->rndstate; /* If case prefetch is triggered, the corresponding mesh will clear * the scratchpad for the module env in the middle of request handling. * It would be prone to a use-after-free kind of bug, so we avoid * sharing it with worker's own scratchpad at the cost of having * one more pad per worker. */ worker->env.scratch = regional_create_custom(cfg->msg_buffer_size); if(!worker->env.scratch) { log_err("malloc failure"); worker_delete(worker); return 0; } worker->env.mesh = mesh_create(&worker->daemon->mods, &worker->env); if(!worker->env.mesh) { log_err("malloc failure"); worker_delete(worker); return 0; } /* Pass on daemon variables that we would need in the mesh area */ worker->env.mesh->use_response_ip = worker->daemon->use_response_ip; worker->env.mesh->use_rpz = worker->daemon->use_rpz; worker->env.detach_subs = &mesh_detach_subs; worker->env.attach_sub = &mesh_attach_sub; worker->env.add_sub = &mesh_add_sub; worker->env.kill_sub = &mesh_state_delete; worker->env.detect_cycle = &mesh_detect_cycle; worker->env.scratch_buffer = sldns_buffer_new(cfg->msg_buffer_size); if(!worker->env.scratch_buffer) { log_err("malloc failure"); worker_delete(worker); return 0; } /* one probe timer per process -- if we have 5011 anchors */ if(autr_get_num_anchors(worker->env.anchors) > 0 #ifndef THREADS_DISABLED && worker->thread_num == 0 #endif ) { struct timeval tv; tv.tv_sec = 0; tv.tv_usec = 0; worker->env.probe_timer = comm_timer_create(worker->base, worker_probe_timer_cb, worker); if(!worker->env.probe_timer) { log_err("could not create 5011-probe timer"); } else { /* let timer fire, then it can reset itself */ comm_timer_set(worker->env.probe_timer, &tv); } } /* zone transfer tasks, setup once per process, if any */ if(worker->env.auth_zones #ifndef THREADS_DISABLED && worker->thread_num == 0 #endif ) { auth_xfer_pickup_initial(worker->env.auth_zones, &worker->env); auth_zones_pickup_zonemd_verify(worker->env.auth_zones, &worker->env); } #ifdef USE_DNSTAP if(worker->daemon->cfg->dnstap #ifndef THREADS_DISABLED && worker->thread_num == 0 #endif ) { if(!dt_io_thread_start(dtenv->dtio, comm_base_internal( worker->base), worker->daemon->num)) { log_err("could not start dnstap io thread"); worker_delete(worker); return 0; } } #endif /* USE_DNSTAP */ worker_mem_report(worker, NULL); /* if statistics enabled start timer */ if(worker->env.cfg->stat_interval > 0) { verbose(VERB_ALGO, "set statistics interval %d secs", worker->env.cfg->stat_interval); worker_restart_timer(worker); } pp_init(&sldns_write_uint16, &sldns_write_uint32); return 1; } void worker_work(struct worker* worker) { comm_base_dispatch(worker->base); } void worker_delete(struct worker* worker) { if(!worker) return; if(worker->env.mesh && verbosity >= VERB_OPS) { server_stats_log(&worker->stats, worker, worker->thread_num); mesh_stats(worker->env.mesh, "mesh has"); worker_mem_report(worker, NULL); } outside_network_quit_prepare(worker->back); mesh_delete(worker->env.mesh); sldns_buffer_free(worker->env.scratch_buffer); listen_delete(worker->front); outside_network_delete(worker->back); comm_signal_delete(worker->comsig); tube_delete(worker->cmd); comm_timer_delete(worker->stat_timer); comm_timer_delete(worker->env.probe_timer); free(worker->ports); if(worker->thread_num == 0) { #ifdef UB_ON_WINDOWS wsvc_desetup_worker(worker); #endif /* UB_ON_WINDOWS */ } #ifdef USE_DNSTAP if(worker->daemon->cfg->dnstap #ifndef THREADS_DISABLED && worker->thread_num == 0 #endif ) { dt_io_thread_stop(worker->dtenv.dtio); } dt_deinit(&worker->dtenv); #endif /* USE_DNSTAP */ comm_base_delete(worker->base); ub_randfree(worker->rndstate); /* don't touch worker->alloc, as it's maintained in daemon */ regional_destroy(worker->env.scratch); regional_destroy(worker->scratchpad); free(worker); } struct outbound_entry* worker_send_query(struct query_info* qinfo, uint16_t flags, int dnssec, int want_dnssec, int nocaps, int check_ratelimit, struct sockaddr_storage* addr, socklen_t addrlen, uint8_t* zone, size_t zonelen, int tcp_upstream, int ssl_upstream, char* tls_auth_name, struct module_qstate* q, int* was_ratelimited) { struct worker* worker = q->env->worker; struct outbound_entry* e = (struct outbound_entry*)regional_alloc( q->region, sizeof(*e)); if(!e) return NULL; e->qstate = q; e->qsent = outnet_serviced_query(worker->back, qinfo, flags, dnssec, want_dnssec, nocaps, check_ratelimit, tcp_upstream, ssl_upstream, tls_auth_name, addr, addrlen, zone, zonelen, q, worker_handle_service_reply, e, worker->back->udp_buff, q->env, was_ratelimited); if(!e->qsent) { return NULL; } return e; } void worker_alloc_cleanup(void* arg) { struct worker* worker = (struct worker*)arg; slabhash_clear(&worker->env.rrset_cache->table); slabhash_clear(worker->env.msg_cache); } void worker_stats_clear(struct worker* worker) { server_stats_init(&worker->stats, worker->env.cfg); mesh_stats_clear(worker->env.mesh); worker->back->unwanted_replies = 0; worker->back->num_tcp_outgoing = 0; worker->back->num_udp_outgoing = 0; } void worker_start_accept(void* arg) { struct worker* worker = (struct worker*)arg; listen_start_accept(worker->front); if(worker->thread_num == 0) daemon_remote_start_accept(worker->daemon->rc); } void worker_stop_accept(void* arg) { struct worker* worker = (struct worker*)arg; listen_stop_accept(worker->front); if(worker->thread_num == 0) daemon_remote_stop_accept(worker->daemon->rc); } /* --- fake callbacks for fptr_wlist to work --- */ struct outbound_entry* libworker_send_query( struct query_info* ATTR_UNUSED(qinfo), uint16_t ATTR_UNUSED(flags), int ATTR_UNUSED(dnssec), int ATTR_UNUSED(want_dnssec), int ATTR_UNUSED(nocaps), int ATTR_UNUSED(check_ratelimit), struct sockaddr_storage* ATTR_UNUSED(addr), socklen_t ATTR_UNUSED(addrlen), uint8_t* ATTR_UNUSED(zone), size_t ATTR_UNUSED(zonelen), int ATTR_UNUSED(tcp_upstream), int ATTR_UNUSED(ssl_upstream), char* ATTR_UNUSED(tls_auth_name), struct module_qstate* ATTR_UNUSED(q), int* ATTR_UNUSED(was_ratelimited)) { log_assert(0); return 0; } int libworker_handle_service_reply(struct comm_point* ATTR_UNUSED(c), void* ATTR_UNUSED(arg), int ATTR_UNUSED(error), struct comm_reply* ATTR_UNUSED(reply_info)) { log_assert(0); return 0; } void libworker_handle_control_cmd(struct tube* ATTR_UNUSED(tube), uint8_t* ATTR_UNUSED(buffer), size_t ATTR_UNUSED(len), int ATTR_UNUSED(error), void* ATTR_UNUSED(arg)) { log_assert(0); } void libworker_fg_done_cb(void* ATTR_UNUSED(arg), int ATTR_UNUSED(rcode), sldns_buffer* ATTR_UNUSED(buf), enum sec_status ATTR_UNUSED(s), char* ATTR_UNUSED(why_bogus), int ATTR_UNUSED(was_ratelimited)) { log_assert(0); } void libworker_bg_done_cb(void* ATTR_UNUSED(arg), int ATTR_UNUSED(rcode), sldns_buffer* ATTR_UNUSED(buf), enum sec_status ATTR_UNUSED(s), char* ATTR_UNUSED(why_bogus), int ATTR_UNUSED(was_ratelimited)) { log_assert(0); } void libworker_event_done_cb(void* ATTR_UNUSED(arg), int ATTR_UNUSED(rcode), sldns_buffer* ATTR_UNUSED(buf), enum sec_status ATTR_UNUSED(s), char* ATTR_UNUSED(why_bogus), int ATTR_UNUSED(was_ratelimited)) { log_assert(0); } int context_query_cmp(const void* ATTR_UNUSED(a), const void* ATTR_UNUSED(b)) { log_assert(0); return 0; } int order_lock_cmp(const void* ATTR_UNUSED(e1), const void* ATTR_UNUSED(e2)) { log_assert(0); return 0; } int codeline_cmp(const void* ATTR_UNUSED(a), const void* ATTR_UNUSED(b)) { log_assert(0); return 0; } #ifdef USE_DNSTAP void dtio_tap_callback(int ATTR_UNUSED(fd), short ATTR_UNUSED(ev), void* ATTR_UNUSED(arg)) { log_assert(0); } #endif #ifdef USE_DNSTAP void dtio_mainfdcallback(int ATTR_UNUSED(fd), short ATTR_UNUSED(ev), void* ATTR_UNUSED(arg)) { log_assert(0); } #endif #ifdef HAVE_NGTCP2 void doq_client_event_cb(int ATTR_UNUSED(fd), short ATTR_UNUSED(ev), void* ATTR_UNUSED(arg)) { log_assert(0); } #endif #ifdef HAVE_NGTCP2 void doq_client_timer_cb(int ATTR_UNUSED(fd), short ATTR_UNUSED(ev), void* ATTR_UNUSED(arg)) { log_assert(0); } #endif