/* -*- Mode: C; tab-width: 4 -*- * * Copyright (c) 2002-2013 Apple Computer, Inc. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * To Do: * Elimate all mDNSPlatformMemAllocate/mDNSPlatformMemFree from this code -- the core code * is supposed to be malloc-free so that it runs in constant memory determined at compile-time. * Any dynamic run-time requirements should be handled by the platform layer below or client layer above */ #if APPLE_OSX_mDNSResponder #include #endif #include "uDNS.h" #if (defined(_MSC_VER)) // Disable "assignment within conditional expression". // Other compilers understand the convention that if you place the assignment expression within an extra pair // of parentheses, this signals to the compiler that you really intended an assignment and no warning is necessary. // The Microsoft compiler doesn't understand this convention, so in the absense of any other way to signal // to the compiler that the assignment is intentional, we have to just turn this warning off completely. #pragma warning(disable:4706) #endif // For domain enumeration and automatic browsing // This is the user's DNS search list. // In each of these domains we search for our special pointer records (lb._dns-sd._udp., etc.) // to discover recommended domains for domain enumeration (browse, default browse, registration, // default registration) and possibly one or more recommended automatic browsing domains. mDNSexport SearchListElem *SearchList = mDNSNULL; // The value can be set to true by the Platform code e.g., MacOSX uses the plist mechanism mDNSBool StrictUnicastOrdering = mDNSfalse; // We keep track of the number of unicast DNS servers and log a message when we exceed 64. // Currently the unicast queries maintain a 64 bit map to track the valid DNS servers for that // question. Bit position is the index into the DNS server list. This is done so to try all // the servers exactly once before giving up. If we could allocate memory in the core, then // arbitrary limitation of 64 DNSServers can be removed. mDNSu8 NumUnicastDNSServers = 0; #define MAX_UNICAST_DNS_SERVERS 64 #define SetNextuDNSEvent(m, rr) { \ if ((m)->NextuDNSEvent - ((rr)->LastAPTime + (rr)->ThisAPInterval) >= 0) \ (m)->NextuDNSEvent = ((rr)->LastAPTime + (rr)->ThisAPInterval); \ } #ifndef UNICAST_DISABLED // *************************************************************************** #if COMPILER_LIKES_PRAGMA_MARK #pragma mark - General Utility Functions #endif // set retry timestamp for record with exponential backoff mDNSlocal void SetRecordRetry(mDNS *const m, AuthRecord *rr, mDNSu32 random) { rr->LastAPTime = m->timenow; if (rr->expire && rr->refreshCount < MAX_UPDATE_REFRESH_COUNT) { mDNSs32 remaining = rr->expire - m->timenow; rr->refreshCount++; if (remaining > MIN_UPDATE_REFRESH_TIME) { // Refresh at 70% + random (currently it is 0 to 10%) rr->ThisAPInterval = 7 * (remaining/10) + (random ? random : mDNSRandom(remaining/10)); // Don't update more often than 5 minutes if (rr->ThisAPInterval < MIN_UPDATE_REFRESH_TIME) rr->ThisAPInterval = MIN_UPDATE_REFRESH_TIME; LogInfo("SetRecordRetry refresh in %d of %d for %s", rr->ThisAPInterval/mDNSPlatformOneSecond, (rr->expire - m->timenow)/mDNSPlatformOneSecond, ARDisplayString(m, rr)); } else { rr->ThisAPInterval = MIN_UPDATE_REFRESH_TIME; LogInfo("SetRecordRetry clamping to min refresh in %d of %d for %s", rr->ThisAPInterval/mDNSPlatformOneSecond, (rr->expire - m->timenow)/mDNSPlatformOneSecond, ARDisplayString(m, rr)); } return; } rr->expire = 0; rr->ThisAPInterval = rr->ThisAPInterval * QuestionIntervalStep; // Same Retry logic as Unicast Queries if (rr->ThisAPInterval < INIT_RECORD_REG_INTERVAL) rr->ThisAPInterval = INIT_RECORD_REG_INTERVAL; if (rr->ThisAPInterval > MAX_RECORD_REG_INTERVAL) rr->ThisAPInterval = MAX_RECORD_REG_INTERVAL; LogInfo("SetRecordRetry retry in %d ms for %s", rr->ThisAPInterval, ARDisplayString(m, rr)); } // *************************************************************************** #if COMPILER_LIKES_PRAGMA_MARK #pragma mark - Name Server List Management #endif mDNSexport DNSServer *mDNS_AddDNSServer(mDNS *const m, const domainname *d, const mDNSInterfaceID interface, const mDNSs32 serviceID, const mDNSAddr *addr, const mDNSIPPort port, mDNSu32 scoped, mDNSu32 timeout, mDNSBool cellIntf, mDNSu16 resGroupID, mDNSBool reqA, mDNSBool reqAAAA, mDNSBool reqDO) { DNSServer **p = &m->DNSServers; DNSServer *tmp = mDNSNULL; if ((NumUnicastDNSServers + 1) > MAX_UNICAST_DNS_SERVERS) { LogMsg("mDNS_AddDNSServer: DNS server limit of %d reached, not adding this server", MAX_UNICAST_DNS_SERVERS); return mDNSNULL; } if (!d) d = (const domainname *)""; LogInfo("mDNS_AddDNSServer(%d): Adding %#a for %##s, InterfaceID %p, serviceID %u, scoped %d, resGroupID %d req_A is %s req_AAAA is %s cell %s req_DO is %s", NumUnicastDNSServers, addr, d->c, interface, serviceID, scoped, resGroupID, reqA ? "True" : "False", reqAAAA ? "True" : "False", cellIntf ? "True" : "False", reqDO ? "True" : "False"); while (*p) // Check if we already have this {interface,address,port,domain} tuple registered + reqA/reqAAAA bits { if ((*p)->scoped == scoped && (*p)->interface == interface && (*p)->serviceID == serviceID && (*p)->teststate != DNSServer_Disabled && mDNSSameAddress(&(*p)->addr, addr) && mDNSSameIPPort((*p)->port, port) && SameDomainName(&(*p)->domain, d) && (*p)->req_A == reqA && (*p)->req_AAAA == reqAAAA) { if (!((*p)->flags & DNSServer_FlagDelete)) debugf("Note: DNS Server %#a:%d for domain %##s (%p) registered more than once", addr, mDNSVal16(port), d->c, interface); tmp = *p; *p = tmp->next; tmp->next = mDNSNULL; } else { p=&(*p)->next; } } // NumUnicastDNSServers is the count of active DNS servers i.e., ones that are not marked // with DNSServer_FlagDelete. We should increment it: // // 1) When we add a new DNS server // 2) When we resurrect a old DNS server that is marked with DNSServer_FlagDelete // // Don't increment when we resurrect a DNS server that is not marked with DNSServer_FlagDelete. // We have already accounted for it when it was added for the first time. This case happens when // we add DNS servers with the same address multiple times (mis-configuration). if (!tmp || (tmp->flags & DNSServer_FlagDelete)) NumUnicastDNSServers++; if (tmp) { tmp->flags &= ~DNSServer_FlagDelete; *p = tmp; // move to end of list, to ensure ordering from platform layer } else { // allocate, add to list *p = mDNSPlatformMemAllocate(sizeof(**p)); if (!*p) { LogMsg("Error: mDNS_AddDNSServer - malloc"); } else { (*p)->scoped = scoped; (*p)->interface = interface; (*p)->serviceID = serviceID; (*p)->addr = *addr; (*p)->port = port; (*p)->flags = DNSServer_FlagNew; (*p)->teststate = /* DNSServer_Untested */ DNSServer_Passed; (*p)->lasttest = m->timenow - INIT_UCAST_POLL_INTERVAL; (*p)->timeout = timeout; (*p)->cellIntf = cellIntf; (*p)->req_A = reqA; (*p)->req_AAAA = reqAAAA; (*p)->req_DO = reqDO; // We start off assuming that the DNS server is not DNSSEC aware and // when we receive the first response to a DNSSEC question, we set // it to true. (*p)->DNSSECAware = mDNSfalse; (*p)->retransDO = 0; AssignDomainName(&(*p)->domain, d); (*p)->next = mDNSNULL; } } (*p)->penaltyTime = 0; // We always update the ID (not just when we allocate a new instance) because we could // be adding a new non-scoped resolver with a new ID and we want all the non-scoped // resolvers belong to the same group. (*p)->resGroupID = resGroupID; return(*p); } // PenalizeDNSServer is called when the number of queries to the unicast // DNS server exceeds MAX_UCAST_UNANSWERED_QUERIES or when we receive an // error e.g., SERV_FAIL from DNS server. mDNSexport void PenalizeDNSServer(mDNS *const m, DNSQuestion *q, mDNSOpaque16 responseFlags) { DNSServer *new; DNSServer *orig = q->qDNSServer; mDNS_CheckLock(m); LogInfo("PenalizeDNSServer: Penalizing DNS server %#a question for question %p %##s (%s) SuppressUnusable %d", (q->qDNSServer ? &q->qDNSServer->addr : mDNSNULL), q, q->qname.c, DNSTypeName(q->qtype), q->SuppressUnusable); // If we get error from any DNS server, remember the error. If all of the servers, // return the error, then return the first error. if (mDNSOpaque16IsZero(q->responseFlags)) q->responseFlags = responseFlags; // After we reset the qDNSServer to NULL, we could get more SERV_FAILS that might end up // peanlizing again. if (!q->qDNSServer) goto end; // If strict ordering of unicast servers needs to be preserved, we just lookup // the next best match server below // // If strict ordering is not required which is the default behavior, we penalize the server // for DNSSERVER_PENALTY_TIME. We may also use additional logic e.g., don't penalize for PTR // in the future. if (!StrictUnicastOrdering) { LogInfo("PenalizeDNSServer: Strict Unicast Ordering is FALSE"); // We penalize the server so that new queries don't pick this server for DNSSERVER_PENALTY_TIME // XXX Include other logic here to see if this server should really be penalized // if (q->qtype == kDNSType_PTR) { LogInfo("PenalizeDNSServer: Not Penalizing PTR question"); } else { LogInfo("PenalizeDNSServer: Penalizing question type %d", q->qtype); q->qDNSServer->penaltyTime = NonZeroTime(m->timenow + DNSSERVER_PENALTY_TIME); } } else { LogInfo("PenalizeDNSServer: Strict Unicast Ordering is TRUE"); } end: new = GetServerForQuestion(m, q); if (new == orig) { if (new) { LogMsg("PenalizeDNSServer: ERROR!! GetServerForQuestion returned the same server %#a:%d", &new->addr, mDNSVal16(new->port)); q->ThisQInterval = 0; // Inactivate this question so that we dont bombard the network } else { // When we have no more DNS servers, we might end up calling PenalizeDNSServer multiple // times when we receive SERVFAIL from delayed packets in the network e.g., DNS server // is slow in responding and we have sent three queries. When we repeatedly call, it is // okay to receive the same NULL DNS server. Next time we try to send the query, we will // realize and re-initialize the DNS servers. LogInfo("PenalizeDNSServer: GetServerForQuestion returned the same server NULL"); } } else { // The new DNSServer is set in DNSServerChangeForQuestion DNSServerChangeForQuestion(m, q, new); if (new) { LogInfo("PenalizeDNSServer: Server for %##s (%s) changed to %#a:%d (%##s)", q->qname.c, DNSTypeName(q->qtype), &q->qDNSServer->addr, mDNSVal16(q->qDNSServer->port), q->qDNSServer->domain.c); // We want to try the next server immediately. As the question may already have backed off, reset // the interval. We do this only the first time when we try all the DNS servers. Once we reached the end of // list and retrying all the servers again e.g., at least one server failed to respond in the previous try, we // use the normal backoff which is done in uDNS_CheckCurrentQuestion when we send the packet out. if (!q->triedAllServersOnce) { q->ThisQInterval = InitialQuestionInterval; q->LastQTime = m->timenow - q->ThisQInterval; SetNextQueryTime(m, q); } } else { // We don't have any more DNS servers for this question. If some server in the list did not return // any response, we need to keep retrying till we get a response. uDNS_CheckCurrentQuestion handles // this case. // // If all servers responded with a negative response, We need to do two things. First, generate a // negative response so that applications get a reply. We also need to reinitialize the DNS servers // so that when the cache expires, we can restart the query. We defer this up until we generate // a negative cache response in uDNS_CheckCurrentQuestion. // // Be careful not to touch the ThisQInterval here. For a normal question, when we answer the question // in AnswerCurrentQuestionWithResourceRecord will set ThisQInterval to MaxQuestionInterval and hence // the next query will not happen until cache expiry. If it is a long lived question, // AnswerCurrentQuestionWithResourceRecord will not set it to MaxQuestionInterval. In that case, // we want the normal backoff to work. LogInfo("PenalizeDNSServer: Server for %p, %##s (%s) changed to NULL, Interval %d", q, q->qname.c, DNSTypeName(q->qtype), q->ThisQInterval); } q->unansweredQueries = 0; } } // *************************************************************************** #if COMPILER_LIKES_PRAGMA_MARK #pragma mark - authorization management #endif mDNSlocal DomainAuthInfo *GetAuthInfoForName_direct(mDNS *m, const domainname *const name) { const domainname *n = name; while (n->c[0]) { DomainAuthInfo *ptr; for (ptr = m->AuthInfoList; ptr; ptr = ptr->next) if (SameDomainName(&ptr->domain, n)) { debugf("GetAuthInfoForName %##s Matched %##s Key name %##s", name->c, ptr->domain.c, ptr->keyname.c); return(ptr); } n = (const domainname *)(n->c + 1 + n->c[0]); } //LogInfo("GetAuthInfoForName none found for %##s", name->c); return mDNSNULL; } // MUST be called with lock held mDNSexport DomainAuthInfo *GetAuthInfoForName_internal(mDNS *m, const domainname *const name) { DomainAuthInfo **p = &m->AuthInfoList; mDNS_CheckLock(m); // First purge any dead keys from the list while (*p) { if ((*p)->deltime && m->timenow - (*p)->deltime >= 0 && AutoTunnelUnregistered(*p)) { DNSQuestion *q; DomainAuthInfo *info = *p; LogInfo("GetAuthInfoForName_internal deleting expired key %##s %##s", info->domain.c, info->keyname.c); *p = info->next; // Cut DomainAuthInfo from list *before* scanning our question list updating AuthInfo pointers for (q = m->Questions; q; q=q->next) if (q->AuthInfo == info) { q->AuthInfo = GetAuthInfoForName_direct(m, &q->qname); debugf("GetAuthInfoForName_internal updated q->AuthInfo from %##s to %##s for %##s (%s)", info->domain.c, q->AuthInfo ? q->AuthInfo->domain.c : mDNSNULL, q->qname.c, DNSTypeName(q->qtype)); } // Probably not essential, but just to be safe, zero out the secret key data // so we don't leave it hanging around in memory // (where it could potentially get exposed via some other bug) mDNSPlatformMemZero(info, sizeof(*info)); mDNSPlatformMemFree(info); } else p = &(*p)->next; } return(GetAuthInfoForName_direct(m, name)); } mDNSexport DomainAuthInfo *GetAuthInfoForName(mDNS *m, const domainname *const name) { DomainAuthInfo *d; mDNS_Lock(m); d = GetAuthInfoForName_internal(m, name); mDNS_Unlock(m); return(d); } // MUST be called with the lock held mDNSexport mStatus mDNS_SetSecretForDomain(mDNS *m, DomainAuthInfo *info, const domainname *domain, const domainname *keyname, const char *b64keydata, const domainname *hostname, mDNSIPPort *port, mDNSBool autoTunnel) { DNSQuestion *q; DomainAuthInfo **p = &m->AuthInfoList; if (!info || !b64keydata) { LogMsg("mDNS_SetSecretForDomain: ERROR: info %p b64keydata %p", info, b64keydata); return(mStatus_BadParamErr); } LogInfo("mDNS_SetSecretForDomain: domain %##s key %##s%s", domain->c, keyname->c, autoTunnel ? " AutoTunnel" : ""); info->AutoTunnel = autoTunnel; AssignDomainName(&info->domain, domain); AssignDomainName(&info->keyname, keyname); if (hostname) AssignDomainName(&info->hostname, hostname); else info->hostname.c[0] = 0; if (port) info->port = *port; else info->port = zeroIPPort; mDNS_snprintf(info->b64keydata, sizeof(info->b64keydata), "%s", b64keydata); if (DNSDigest_ConstructHMACKeyfromBase64(info, b64keydata) < 0) { LogMsg("mDNS_SetSecretForDomain: ERROR: Could not convert shared secret from base64: domain %##s key %##s %s", domain->c, keyname->c, mDNS_LoggingEnabled ? b64keydata : ""); return(mStatus_BadParamErr); } // Don't clear deltime until after we've ascertained that b64keydata is valid info->deltime = 0; while (*p && (*p) != info) p=&(*p)->next; if (*p) {LogInfo("mDNS_SetSecretForDomain: Domain %##s Already in list", (*p)->domain.c); return(mStatus_AlreadyRegistered);} // Caution: Only zero AutoTunnelHostRecord.namestorage AFTER we've determined that this is a NEW DomainAuthInfo // being added to the list. Otherwise we risk smashing our AutoTunnel host records that are already active and in use. info->AutoTunnelHostRecord.resrec.RecordType = kDNSRecordTypeUnregistered; info->AutoTunnelHostRecord.namestorage.c[0] = 0; info->AutoTunnelTarget.resrec.RecordType = kDNSRecordTypeUnregistered; info->AutoTunnelDeviceInfo.resrec.RecordType = kDNSRecordTypeUnregistered; info->AutoTunnelService.resrec.RecordType = kDNSRecordTypeUnregistered; info->AutoTunnel6Record.resrec.RecordType = kDNSRecordTypeUnregistered; info->AutoTunnelServiceStarted = mDNSfalse; info->AutoTunnelInnerAddress = zerov6Addr; info->next = mDNSNULL; *p = info; // Check to see if adding this new DomainAuthInfo has changed the credentials for any of our questions for (q = m->Questions; q; q=q->next) { DomainAuthInfo *newinfo = GetAuthInfoForQuestion(m, q); if (q->AuthInfo != newinfo) { debugf("mDNS_SetSecretForDomain updating q->AuthInfo from %##s to %##s for %##s (%s)", q->AuthInfo ? q->AuthInfo->domain.c : mDNSNULL, newinfo ? newinfo->domain.c : mDNSNULL, q->qname.c, DNSTypeName(q->qtype)); q->AuthInfo = newinfo; } } return(mStatus_NoError); } // *************************************************************************** #if COMPILER_LIKES_PRAGMA_MARK #pragma mark - #pragma mark - NAT Traversal #endif // Keep track of when to request/refresh the external address using NAT-PMP or UPnP/IGD, // and do so when necessary mDNSlocal mStatus uDNS_RequestAddress(mDNS *m) { mStatus err = mStatus_NoError; if (!m->NATTraversals) { m->retryGetAddr = NonZeroTime(m->timenow + 0x78000000); LogInfo("uDNS_RequestAddress: Setting retryGetAddr to future"); } else if (m->timenow - m->retryGetAddr >= 0) { if (mDNSv4AddrIsRFC1918(&m->Router.ip.v4)) { static NATAddrRequest req = {NATMAP_VERS, NATOp_AddrRequest}; static mDNSu8* start = (mDNSu8*)&req; mDNSu8* end = start + sizeof(NATAddrRequest); err = mDNSPlatformSendUDP(m, start, end, 0, mDNSNULL, &m->Router, NATPMPPort, mDNSfalse); debugf("uDNS_RequestAddress: Sent NAT-PMP external address request %d", err); #ifdef _LEGACY_NAT_TRAVERSAL_ if (mDNSIPPortIsZero(m->UPnPRouterPort) || mDNSIPPortIsZero(m->UPnPSOAPPort)) { LNT_SendDiscoveryMsg(m); debugf("uDNS_RequestAddress: LNT_SendDiscoveryMsg"); } else { mStatus lnterr = LNT_GetExternalAddress(m); if (lnterr) LogMsg("uDNS_RequestAddress: LNT_GetExternalAddress returned error %d", lnterr); err = err ? err : lnterr; // NAT-PMP error takes precedence } #endif // _LEGACY_NAT_TRAVERSAL_ } // Always update the interval and retry time, so that even if we fail to send the // packet, we won't spin in an infinite loop repeatedly failing to send the packet if (m->retryIntervalGetAddr < NATMAP_INIT_RETRY) { m->retryIntervalGetAddr = NATMAP_INIT_RETRY; } else if (m->retryIntervalGetAddr < NATMAP_MAX_RETRY_INTERVAL / 2) { m->retryIntervalGetAddr *= 2; } else { m->retryIntervalGetAddr = NATMAP_MAX_RETRY_INTERVAL; } m->retryGetAddr = NonZeroTime(m->timenow + m->retryIntervalGetAddr); } else { debugf("uDNS_RequestAddress: Not time to send address request"); } // Always update NextScheduledNATOp, even if we didn't change retryGetAddr, so we'll // be called when we need to send the request(s) if (m->NextScheduledNATOp - m->retryGetAddr > 0) m->NextScheduledNATOp = m->retryGetAddr; return err; } mDNSlocal mStatus uDNS_SendNATMsg(mDNS *m, NATTraversalInfo *info, mDNSBool usePCP) { mStatus err = mStatus_NoError; if (!info) { LogMsg("uDNS_SendNATMsg called unexpectedly with NULL info"); return mStatus_BadParamErr; } // send msg if the router's address is private (which means it's non-zero) if (mDNSv4AddrIsRFC1918(&m->Router.ip.v4)) { if (!usePCP) { if (!info->sentNATPMP) { if (info->Protocol) { static NATPortMapRequest NATPortReq; static const mDNSu8* end = (mDNSu8 *)&NATPortReq + sizeof(NATPortMapRequest); mDNSu8 *p = (mDNSu8 *)&NATPortReq.NATReq_lease; NATPortReq.vers = NATMAP_VERS; NATPortReq.opcode = info->Protocol; NATPortReq.unused = zeroID; NATPortReq.intport = info->IntPort; NATPortReq.extport = info->RequestedPort; p[0] = (mDNSu8)((info->NATLease >> 24) & 0xFF); p[1] = (mDNSu8)((info->NATLease >> 16) & 0xFF); p[2] = (mDNSu8)((info->NATLease >> 8) & 0xFF); p[3] = (mDNSu8)( info->NATLease & 0xFF); err = mDNSPlatformSendUDP(m, (mDNSu8 *)&NATPortReq, end, 0, mDNSNULL, &m->Router, NATPMPPort, mDNSfalse); debugf("uDNS_SendNATMsg: Sent NAT-PMP mapping request %d", err); } // In case the address request already went out for another NAT-T, // set the NewAddress to the currently known global external address, so // Address-only operations will get the callback immediately info->NewAddress = m->ExtAddress; // Remember that we just sent a NAT-PMP packet, so we won't resend one later. // We do this because the NAT-PMP "Unsupported Version" response has no // information about the (PCP) request that triggered it, so we must send // NAT-PMP requests for all operations. Without this, we'll send n PCP // requests for n operations, receive n NAT-PMP "Unsupported Version" // responses, and send n NAT-PMP requests for each of those responses, // resulting in (n + n^2) packets sent. We only want to send 2n packets: // n PCP requests followed by n NAT-PMP requests. info->sentNATPMP = mDNStrue; } } else { PCPMapRequest req; mDNSu8* start = (mDNSu8*)&req; mDNSu8* end = start + sizeof(req); mDNSu8* p = (mDNSu8*)&req.lifetime; req.version = PCP_VERS; req.opCode = PCPOp_Map; req.reserved = zeroID; p[0] = (mDNSu8)((info->NATLease >> 24) & 0xFF); p[1] = (mDNSu8)((info->NATLease >> 16) & 0xFF); p[2] = (mDNSu8)((info->NATLease >> 8) & 0xFF); p[3] = (mDNSu8)( info->NATLease & 0xFF); mDNSAddrMapIPv4toIPv6(&m->AdvertisedV4.ip.v4, &req.clientAddr); req.nonce[0] = m->PCPNonce[0]; req.nonce[1] = m->PCPNonce[1]; req.nonce[2] = m->PCPNonce[2]; req.protocol = (info->Protocol == NATOp_MapUDP ? PCPProto_UDP : PCPProto_TCP); req.reservedMapOp[0] = 0; req.reservedMapOp[1] = 0; req.reservedMapOp[2] = 0; if (info->Protocol) req.intPort = info->IntPort; else req.intPort = DiscardPort; req.extPort = info->RequestedPort; // Since we only support IPv4, even if using the all-zeros address, map it, so // the PCP gateway will give us an IPv4 address & not an IPv6 address. mDNSAddrMapIPv4toIPv6(&info->NewAddress, &req.extAddress); err = mDNSPlatformSendUDP(m, start, end, 0, mDNSNULL, &m->Router, NATPMPPort, mDNSfalse); debugf("uDNS_SendNATMsg: Sent PCP Mapping request %d", err); // Unset the sentNATPMP flag, so that we'll send a NAT-PMP packet if we // receive a NAT-PMP "Unsupported Version" packet. This will result in every // renewal, retransmission, etc. being tried first as PCP, then if a NAT-PMP // "Unsupported Version" response is received, fall-back & send the request // using NAT-PMP. info->sentNATPMP = mDNSfalse; #ifdef _LEGACY_NAT_TRAVERSAL_ if (mDNSIPPortIsZero(m->UPnPRouterPort) || mDNSIPPortIsZero(m->UPnPSOAPPort)) { LNT_SendDiscoveryMsg(m); debugf("uDNS_SendNATMsg: LNT_SendDiscoveryMsg"); } else { mStatus lnterr = LNT_MapPort(m, info); if (lnterr) LogMsg("uDNS_SendNATMsg: LNT_MapPort returned error %d", lnterr); err = err ? err : lnterr; // PCP error takes precedence } #endif // _LEGACY_NAT_TRAVERSAL_ } } return(err); } mDNSexport void RecreateNATMappings(mDNS *const m, const mDNSu32 waitTicks) { mDNSu32 when = NonZeroTime(m->timenow + waitTicks); NATTraversalInfo *n; for (n = m->NATTraversals; n; n=n->next) { n->ExpiryTime = 0; // Mark this mapping as expired n->retryInterval = NATMAP_INIT_RETRY; n->retryPortMap = when; n->lastSuccessfulProtocol = NATTProtocolNone; if (!n->Protocol) n->NewResult = mStatus_NoError; #ifdef _LEGACY_NAT_TRAVERSAL_ if (n->tcpInfo.sock) { mDNSPlatformTCPCloseConnection(n->tcpInfo.sock); n->tcpInfo.sock = mDNSNULL; } #endif // _LEGACY_NAT_TRAVERSAL_ } m->PCPNonce[0] = mDNSRandom(-1); m->PCPNonce[1] = mDNSRandom(-1); m->PCPNonce[2] = mDNSRandom(-1); m->retryIntervalGetAddr = 0; m->retryGetAddr = when; #ifdef _LEGACY_NAT_TRAVERSAL_ LNT_ClearState(m); #endif // _LEGACY_NAT_TRAVERSAL_ m->NextScheduledNATOp = m->timenow; // Need to send packets immediately } mDNSexport void natTraversalHandleAddressReply(mDNS *const m, mDNSu16 err, mDNSv4Addr ExtAddr) { static mDNSu16 last_err = 0; NATTraversalInfo *n; if (err) { if (err != last_err) LogMsg("Error getting external address %d", err); ExtAddr = zerov4Addr; } else { LogInfo("Received external IP address %.4a from NAT", &ExtAddr); if (mDNSv4AddrIsRFC1918(&ExtAddr)) LogMsg("Double NAT (external NAT gateway address %.4a is also a private RFC 1918 address)", &ExtAddr); if (mDNSIPv4AddressIsZero(ExtAddr)) err = NATErr_NetFail; // fake error to handle routers that pathologically report success with the zero address } // Globally remember the most recently discovered address, so it can be used in each // new NATTraversal structure m->ExtAddress = ExtAddr; if (!err) // Success, back-off to maximum interval m->retryIntervalGetAddr = NATMAP_MAX_RETRY_INTERVAL; else if (!last_err) // Failure after success, retry quickly (then back-off exponentially) m->retryIntervalGetAddr = NATMAP_INIT_RETRY; // else back-off normally in case of pathological failures m->retryGetAddr = m->timenow + m->retryIntervalGetAddr; if (m->NextScheduledNATOp - m->retryGetAddr > 0) m->NextScheduledNATOp = m->retryGetAddr; last_err = err; for (n = m->NATTraversals; n; n=n->next) { // We should change n->NewAddress only when n is one of: // 1) a mapping operation that most recently succeeded using NAT-PMP or UPnP/IGD, // because such an operation needs the update now. If the lastSuccessfulProtocol // is currently none, then natTraversalHandlePortMapReplyWithAddress() will be // called should NAT-PMP or UPnP/IGD succeed in the future. // 2) an address-only operation that did not succeed via PCP, because when such an // operation succeeds via PCP, it's for the TCP discard port just to learn the // address. And that address may be different than the external address // discovered via NAT-PMP or UPnP/IGD. If the lastSuccessfulProtocol // is currently none, we must update the NewAddress as PCP may not succeed. if (!mDNSSameIPv4Address(n->NewAddress, ExtAddr) && (n->Protocol ? (n->lastSuccessfulProtocol == NATTProtocolNATPMP || n->lastSuccessfulProtocol == NATTProtocolUPNPIGD) : (n->lastSuccessfulProtocol != NATTProtocolPCP))) { // Needs an update immediately n->NewAddress = ExtAddr; n->ExpiryTime = 0; n->retryInterval = NATMAP_INIT_RETRY; n->retryPortMap = m->timenow; #ifdef _LEGACY_NAT_TRAVERSAL_ if (n->tcpInfo.sock) { mDNSPlatformTCPCloseConnection(n->tcpInfo.sock); n->tcpInfo.sock = mDNSNULL; } #endif // _LEGACY_NAT_TRAVERSAL_ m->NextScheduledNATOp = m->timenow; // Need to send packets immediately } } } // Both places that call NATSetNextRenewalTime() update m->NextScheduledNATOp correctly afterwards mDNSlocal void NATSetNextRenewalTime(mDNS *const m, NATTraversalInfo *n) { n->retryInterval = (n->ExpiryTime - m->timenow)/2; if (n->retryInterval < NATMAP_MIN_RETRY_INTERVAL) // Min retry interval is 2 seconds n->retryInterval = NATMAP_MIN_RETRY_INTERVAL; n->retryPortMap = m->timenow + n->retryInterval; } mDNSlocal void natTraversalHandlePortMapReplyWithAddress(mDNS *const m, NATTraversalInfo *n, const mDNSInterfaceID InterfaceID, mDNSu16 err, mDNSv4Addr extaddr, mDNSIPPort extport, mDNSu32 lease, NATTProtocol protocol) { const char *prot = n->Protocol == 0 ? "Add" : n->Protocol == NATOp_MapUDP ? "UDP" : n->Protocol == NATOp_MapTCP ? "TCP" : "???"; (void)prot; n->NewResult = err; if (err || lease == 0 || mDNSIPPortIsZero(extport)) { LogInfo("natTraversalHandlePortMapReplyWithAddress: %p Response %s Port %5d External %.4a:%d lease %d error %d", n, prot, mDNSVal16(n->IntPort), &extaddr, mDNSVal16(extport), lease, err); n->retryInterval = NATMAP_MAX_RETRY_INTERVAL; n->retryPortMap = m->timenow + NATMAP_MAX_RETRY_INTERVAL; // No need to set m->NextScheduledNATOp here, since we're only ever extending the m->retryPortMap time if (err == NATErr_Refused) n->NewResult = mStatus_NATPortMappingDisabled; else if (err > NATErr_None && err <= NATErr_Opcode) n->NewResult = mStatus_NATPortMappingUnsupported; } else { if (lease > 999999999UL / mDNSPlatformOneSecond) lease = 999999999UL / mDNSPlatformOneSecond; n->ExpiryTime = NonZeroTime(m->timenow + lease * mDNSPlatformOneSecond); if (!mDNSSameIPv4Address(n->NewAddress, extaddr) || !mDNSSameIPPort(n->RequestedPort, extport)) LogInfo("natTraversalHandlePortMapReplyWithAddress: %p %s Response %s Port %5d External %.4a:%d changed to %.4a:%d lease %d", n, (n->lastSuccessfulProtocol == NATTProtocolNone ? "None " : n->lastSuccessfulProtocol == NATTProtocolNATPMP ? "NAT-PMP " : n->lastSuccessfulProtocol == NATTProtocolUPNPIGD ? "UPnP/IGD" : n->lastSuccessfulProtocol == NATTProtocolPCP ? "PCP " : /* else */ "Unknown " ), prot, mDNSVal16(n->IntPort), &n->NewAddress, mDNSVal16(n->RequestedPort), &extaddr, mDNSVal16(extport), lease); n->InterfaceID = InterfaceID; n->NewAddress = extaddr; if (n->Protocol) n->RequestedPort = extport; // Don't report the (PCP) external port to address-only operations n->lastSuccessfulProtocol = protocol; NATSetNextRenewalTime(m, n); // Got our port mapping; now set timer to renew it at halfway point m->NextScheduledNATOp = m->timenow; // May need to invoke client callback immediately } } // To be called for NAT-PMP or UPnP/IGD mappings, to use currently discovered (global) address mDNSexport void natTraversalHandlePortMapReply(mDNS *const m, NATTraversalInfo *n, const mDNSInterfaceID InterfaceID, mDNSu16 err, mDNSIPPort extport, mDNSu32 lease, NATTProtocol protocol) { natTraversalHandlePortMapReplyWithAddress(m, n, InterfaceID, err, m->ExtAddress, extport, lease, protocol); } // Must be called with the mDNS_Lock held mDNSexport mStatus mDNS_StartNATOperation_internal(mDNS *const m, NATTraversalInfo *traversal) { NATTraversalInfo **n; LogInfo("mDNS_StartNATOperation_internal %p Protocol %d IntPort %d RequestedPort %d NATLease %d", traversal, traversal->Protocol, mDNSVal16(traversal->IntPort), mDNSVal16(traversal->RequestedPort), traversal->NATLease); // Note: It important that new traversal requests are appended at the *end* of the list, not prepended at the start for (n = &m->NATTraversals; *n; n=&(*n)->next) { if (traversal == *n) { LogMsg("Error! Tried to add a NAT traversal that's already in the active list: request %p Prot %d Int %d TTL %d", traversal, traversal->Protocol, mDNSVal16(traversal->IntPort), traversal->NATLease); #if ForceAlerts *(long*)0 = 0; #endif return(mStatus_AlreadyRegistered); } if (traversal->Protocol && traversal->Protocol == (*n)->Protocol && mDNSSameIPPort(traversal->IntPort, (*n)->IntPort) && !mDNSSameIPPort(traversal->IntPort, SSHPort)) LogMsg("Warning: Created port mapping request %p Prot %d Int %d TTL %d " "duplicates existing port mapping request %p Prot %d Int %d TTL %d", traversal, traversal->Protocol, mDNSVal16(traversal->IntPort), traversal->NATLease, *n, (*n)->Protocol, mDNSVal16((*n)->IntPort), (*n)->NATLease); } // Initialize necessary fields traversal->next = mDNSNULL; traversal->ExpiryTime = 0; traversal->retryInterval = NATMAP_INIT_RETRY; traversal->retryPortMap = m->timenow; traversal->NewResult = mStatus_NoError; traversal->lastSuccessfulProtocol = NATTProtocolNone; traversal->sentNATPMP = mDNSfalse; traversal->ExternalAddress = onesIPv4Addr; traversal->NewAddress = zerov4Addr; traversal->ExternalPort = zeroIPPort; traversal->Lifetime = 0; traversal->Result = mStatus_NoError; // set default lease if necessary if (!traversal->NATLease) traversal->NATLease = NATMAP_DEFAULT_LEASE; #ifdef _LEGACY_NAT_TRAVERSAL_ mDNSPlatformMemZero(&traversal->tcpInfo, sizeof(traversal->tcpInfo)); #endif // _LEGACY_NAT_TRAVERSAL_ if (!m->NATTraversals) // If this is our first NAT request, kick off an address request too { m->retryGetAddr = m->timenow; m->retryIntervalGetAddr = NATMAP_INIT_RETRY; } // If this is an address-only operation, initialize to the current global address, // or (in non-PCP environments) we won't know the address until the next external // address request/response. if (!traversal->Protocol) { traversal->NewAddress = m->ExtAddress; } m->NextScheduledNATOp = m->timenow; // This will always trigger sending the packet ASAP, and generate client callback if necessary *n = traversal; // Append new NATTraversalInfo to the end of our list return(mStatus_NoError); } // Must be called with the mDNS_Lock held mDNSexport mStatus mDNS_StopNATOperation_internal(mDNS *m, NATTraversalInfo *traversal) { mDNSBool unmap = mDNStrue; NATTraversalInfo *p; NATTraversalInfo **ptr = &m->NATTraversals; while (*ptr && *ptr != traversal) ptr=&(*ptr)->next; if (*ptr) *ptr = (*ptr)->next; // If we found it, cut this NATTraversalInfo struct from our list else { LogMsg("mDNS_StopNATOperation_internal: NATTraversalInfo %p not found in list", traversal); return(mStatus_BadReferenceErr); } LogInfo("mDNS_StopNATOperation_internal %p %d %d %d %d", traversal, traversal->Protocol, mDNSVal16(traversal->IntPort), mDNSVal16(traversal->RequestedPort), traversal->NATLease); if (m->CurrentNATTraversal == traversal) m->CurrentNATTraversal = m->CurrentNATTraversal->next; // If there is a match for the operation being stopped, don't send a deletion request (unmap) for (p = m->NATTraversals; p; p=p->next) { if (traversal->Protocol ? ((traversal->Protocol == p->Protocol && mDNSSameIPPort(traversal->IntPort, p->IntPort)) || (!p->Protocol && traversal->Protocol == NATOp_MapTCP && mDNSSameIPPort(traversal->IntPort, DiscardPort))) : (!p->Protocol || (p->Protocol == NATOp_MapTCP && mDNSSameIPPort(p->IntPort, DiscardPort)))) { LogInfo("Warning: Removed port mapping request %p Prot %d Int %d TTL %d " "duplicates existing port mapping request %p Prot %d Int %d TTL %d", traversal, traversal->Protocol, mDNSVal16(traversal->IntPort), traversal->NATLease, p, p->Protocol, mDNSVal16( p->IntPort), p->NATLease); unmap = mDNSfalse; } } if (traversal->ExpiryTime && unmap) { traversal->NATLease = 0; traversal->retryInterval = 0; // In case we most recently sent NAT-PMP, we need to set sentNATPMP to false so // that we'll send a NAT-PMP request to destroy the mapping. We do this because // the NATTraversal struct has already been cut from the list, and the client // layer will destroy the memory upon returning from this function, so we can't // try PCP first and then fall-back to NAT-PMP. That is, if we most recently // created/renewed the mapping using NAT-PMP, we need to destroy it using NAT-PMP // now, because we won't get a chance later. traversal->sentNATPMP = mDNSfalse; // Both NAT-PMP & PCP RFCs state that the suggested port in deletion requests // should be zero. And for PCP, the suggested external address should also be // zero, specifically, the all-zeros IPv4-mapped address, since we would only // would have requested an IPv4 address. traversal->RequestedPort = zeroIPPort; traversal->NewAddress = zerov4Addr; uDNS_SendNATMsg(m, traversal, traversal->lastSuccessfulProtocol != NATTProtocolNATPMP); } // Even if we DIDN'T make a successful UPnP mapping yet, we might still have a partially-open TCP connection we need to clean up #ifdef _LEGACY_NAT_TRAVERSAL_ { mStatus err = LNT_UnmapPort(m, traversal); if (err) LogMsg("Legacy NAT Traversal - unmap request failed with error %d", err); } #endif // _LEGACY_NAT_TRAVERSAL_ return(mStatus_NoError); } mDNSexport mStatus mDNS_StartNATOperation(mDNS *const m, NATTraversalInfo *traversal) { mStatus status; mDNS_Lock(m); status = mDNS_StartNATOperation_internal(m, traversal); mDNS_Unlock(m); return(status); } mDNSexport mStatus mDNS_StopNATOperation(mDNS *const m, NATTraversalInfo *traversal) { mStatus status; mDNS_Lock(m); status = mDNS_StopNATOperation_internal(m, traversal); mDNS_Unlock(m); return(status); } // *************************************************************************** #if COMPILER_LIKES_PRAGMA_MARK #pragma mark - #pragma mark - Long-Lived Queries #endif // Lock must be held -- otherwise m->timenow is undefined mDNSlocal void StartLLQPolling(mDNS *const m, DNSQuestion *q) { debugf("StartLLQPolling: %##s", q->qname.c); q->state = LLQ_Poll; q->ThisQInterval = INIT_UCAST_POLL_INTERVAL; // We want to send our poll query ASAP, but the "+ 1" is because if we set the time to now, // we risk causing spurious "SendQueries didn't send all its queries" log messages q->LastQTime = m->timenow - q->ThisQInterval + 1; SetNextQueryTime(m, q); #if APPLE_OSX_mDNSResponder UpdateAutoTunnelDomainStatuses(m); #endif } mDNSlocal mDNSu8 *putLLQ(DNSMessage *const msg, mDNSu8 *ptr, const DNSQuestion *const question, const LLQOptData *const data) { AuthRecord rr; ResourceRecord *opt = &rr.resrec; rdataOPT *optRD; //!!!KRS when we implement multiple llqs per message, we'll need to memmove anything past the question section ptr = putQuestion(msg, ptr, msg->data + AbsoluteMaxDNSMessageData, &question->qname, question->qtype, question->qclass); if (!ptr) { LogMsg("ERROR: putLLQ - putQuestion"); return mDNSNULL; } // locate OptRR if it exists, set pointer to end // !!!KRS implement me // format opt rr (fields not specified are zero-valued) mDNS_SetupResourceRecord(&rr, mDNSNULL, mDNSInterface_Any, kDNSType_OPT, kStandardTTL, kDNSRecordTypeKnownUnique, AuthRecordAny, mDNSNULL, mDNSNULL); opt->rrclass = NormalMaxDNSMessageData; opt->rdlength = sizeof(rdataOPT); // One option in this OPT record opt->rdestimate = sizeof(rdataOPT); optRD = &rr.resrec.rdata->u.opt[0]; optRD->opt = kDNSOpt_LLQ; optRD->u.llq = *data; ptr = PutResourceRecordTTLJumbo(msg, ptr, &msg->h.numAdditionals, opt, 0); if (!ptr) { LogMsg("ERROR: putLLQ - PutResourceRecordTTLJumbo"); return mDNSNULL; } return ptr; } // Normally we'd just request event packets be sent directly to m->LLQNAT.ExternalPort, except... // with LLQs over TLS/TCP we're doing a weird thing where instead of requesting packets be sent to ExternalAddress:ExternalPort // we're requesting that packets be sent to ExternalPort, but at the source address of our outgoing TCP connection. // Normally, after going through the NAT gateway, the source address of our outgoing TCP connection is the same as ExternalAddress, // so this is fine, except when the TCP connection ends up going over a VPN tunnel instead. // To work around this, if we find that the source address for our TCP connection is not a private address, we tell the Dot Mac // LLQ server to send events to us directly at port 5353 on that address, instead of at our mapped external NAT port. mDNSlocal mDNSu16 GetLLQEventPort(const mDNS *const m, const mDNSAddr *const dst) { mDNSAddr src; mDNSPlatformSourceAddrForDest(&src, dst); //LogMsg("GetLLQEventPort: src %#a for dst %#a (%d)", &src, dst, mDNSv4AddrIsRFC1918(&src.ip.v4) ? mDNSVal16(m->LLQNAT.ExternalPort) : 0); return(mDNSv4AddrIsRFC1918(&src.ip.v4) ? mDNSVal16(m->LLQNAT.ExternalPort) : mDNSVal16(MulticastDNSPort)); } // Normally called with llq set. // May be called with llq NULL, when retransmitting a lost Challenge Response mDNSlocal void sendChallengeResponse(mDNS *const m, DNSQuestion *const q, const LLQOptData *llq) { mDNSu8 *responsePtr = m->omsg.data; LLQOptData llqBuf; if (q->tcp) { LogMsg("sendChallengeResponse: ERROR!!: question %##s (%s) tcp non-NULL", q->qname.c, DNSTypeName(q->qtype)); return; } if (PrivateQuery(q)) { LogMsg("sendChallengeResponse: ERROR!!: Private Query %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); return; } if (q->ntries++ == kLLQ_MAX_TRIES) { LogMsg("sendChallengeResponse: %d failed attempts for LLQ %##s", kLLQ_MAX_TRIES, q->qname.c); StartLLQPolling(m,q); return; } if (!llq) // Retransmission: need to make a new LLQOptData { llqBuf.vers = kLLQ_Vers; llqBuf.llqOp = kLLQOp_Setup; llqBuf.err = LLQErr_NoError; // Don't need to tell server UDP notification port when sending over UDP llqBuf.id = q->id; llqBuf.llqlease = q->ReqLease; llq = &llqBuf; } q->LastQTime = m->timenow; q->ThisQInterval = q->tcp ? 0 : (kLLQ_INIT_RESEND * q->ntries * mDNSPlatformOneSecond); // If using TCP, don't need to retransmit SetNextQueryTime(m, q); // To simulate loss of challenge response packet, uncomment line below //if (q->ntries == 1) return; InitializeDNSMessage(&m->omsg.h, q->TargetQID, uQueryFlags); responsePtr = putLLQ(&m->omsg, responsePtr, q, llq); if (responsePtr) { mStatus err = mDNSSendDNSMessage(m, &m->omsg, responsePtr, mDNSInterface_Any, q->LocalSocket, &q->servAddr, q->servPort, mDNSNULL, mDNSNULL, mDNSfalse); if (err) { LogMsg("sendChallengeResponse: mDNSSendDNSMessage%s failed: %d", q->tcp ? " (TCP)" : "", err); } } else StartLLQPolling(m,q); } mDNSlocal void SetLLQTimer(mDNS *const m, DNSQuestion *const q, const LLQOptData *const llq) { mDNSs32 lease = (mDNSs32)llq->llqlease * mDNSPlatformOneSecond; q->ReqLease = llq->llqlease; q->LastQTime = m->timenow; q->expire = m->timenow + lease; q->ThisQInterval = lease/2 + mDNSRandom(lease/10); debugf("SetLLQTimer setting %##s (%s) to %d %d", q->qname.c, DNSTypeName(q->qtype), lease/mDNSPlatformOneSecond, q->ThisQInterval/mDNSPlatformOneSecond); SetNextQueryTime(m, q); } mDNSlocal void recvSetupResponse(mDNS *const m, mDNSu8 rcode, DNSQuestion *const q, const LLQOptData *const llq) { if (rcode && rcode != kDNSFlag1_RC_NXDomain) { LogMsg("ERROR: recvSetupResponse %##s (%s) - rcode && rcode != kDNSFlag1_RC_NXDomain", q->qname.c, DNSTypeName(q->qtype)); return; } if (llq->llqOp != kLLQOp_Setup) { LogMsg("ERROR: recvSetupResponse %##s (%s) - bad op %d", q->qname.c, DNSTypeName(q->qtype), llq->llqOp); return; } if (llq->vers != kLLQ_Vers) { LogMsg("ERROR: recvSetupResponse %##s (%s) - bad vers %d", q->qname.c, DNSTypeName(q->qtype), llq->vers); return; } if (q->state == LLQ_InitialRequest) { //LogInfo("Got LLQ_InitialRequest"); if (llq->err) { LogMsg("recvSetupResponse - received llq->err %d from server", llq->err); StartLLQPolling(m,q); return; } if (q->ReqLease != llq->llqlease) debugf("recvSetupResponse: requested lease %lu, granted lease %lu", q->ReqLease, llq->llqlease); // cache expiration in case we go to sleep before finishing setup q->ReqLease = llq->llqlease; q->expire = m->timenow + ((mDNSs32)llq->llqlease * mDNSPlatformOneSecond); // update state q->state = LLQ_SecondaryRequest; q->id = llq->id; q->ntries = 0; // first attempt to send response sendChallengeResponse(m, q, llq); } else if (q->state == LLQ_SecondaryRequest) { //LogInfo("Got LLQ_SecondaryRequest"); // Fix this immediately if not sooner. Copy the id from the LLQOptData into our DNSQuestion struct. This is only // an issue for private LLQs, because we skip parts 2 and 3 of the handshake. This is related to a bigger // problem of the current implementation of TCP LLQ setup: we're not handling state transitions correctly // if the server sends back SERVFULL or STATIC. if (PrivateQuery(q)) { LogInfo("Private LLQ_SecondaryRequest; copying id %08X%08X", llq->id.l[0], llq->id.l[1]); q->id = llq->id; } if (llq->err) { LogMsg("ERROR: recvSetupResponse %##s (%s) code %d from server", q->qname.c, DNSTypeName(q->qtype), llq->err); StartLLQPolling(m,q); return; } if (!mDNSSameOpaque64(&q->id, &llq->id)) { LogMsg("recvSetupResponse - ID changed. discarding"); return; } // this can happen rarely (on packet loss + reordering) q->state = LLQ_Established; q->ntries = 0; SetLLQTimer(m, q, llq); #if APPLE_OSX_mDNSResponder UpdateAutoTunnelDomainStatuses(m); #endif } } mDNSexport uDNS_LLQType uDNS_recvLLQResponse(mDNS *const m, const DNSMessage *const msg, const mDNSu8 *const end, const mDNSAddr *const srcaddr, const mDNSIPPort srcport, DNSQuestion **matchQuestion) { DNSQuestion pktQ, *q; if (msg->h.numQuestions && getQuestion(msg, msg->data, end, 0, &pktQ)) { const rdataOPT *opt = GetLLQOptData(m, msg, end); for (q = m->Questions; q; q = q->next) { if (!mDNSOpaque16IsZero(q->TargetQID) && q->LongLived && q->qtype == pktQ.qtype && q->qnamehash == pktQ.qnamehash && SameDomainName(&q->qname, &pktQ.qname)) { debugf("uDNS_recvLLQResponse found %##s (%s) %d %#a %#a %X %X %X %X %d", q->qname.c, DNSTypeName(q->qtype), q->state, srcaddr, &q->servAddr, opt ? opt->u.llq.id.l[0] : 0, opt ? opt->u.llq.id.l[1] : 0, q->id.l[0], q->id.l[1], opt ? opt->u.llq.llqOp : 0); if (q->state == LLQ_Poll) debugf("uDNS_LLQ_Events: q->state == LLQ_Poll msg->h.id %d q->TargetQID %d", mDNSVal16(msg->h.id), mDNSVal16(q->TargetQID)); if (q->state == LLQ_Poll && mDNSSameOpaque16(msg->h.id, q->TargetQID)) { m->rec.r.resrec.RecordType = 0; // Clear RecordType to show we're not still using it // Don't reset the state to IntialRequest as we may write that to the dynamic store // and PrefPane might wrongly think that we are "Starting" instead of "Polling". If // we are in polling state because of PCP/NAT-PMP disabled or DoubleNAT, next LLQNATCallback // would kick us back to LLQInitialRequest. So, resetting the state here may not be useful. // // If we have a good NAT (neither PCP/NAT-PMP disabled nor Double-NAT), then we should not be // possibly in polling state. To be safe, we want to retry from the start in that case // as there may not be another LLQNATCallback // // NOTE: We can be in polling state if we cannot resolve the SOA record i.e, servAddr is set to // all ones. In that case, we would set it in LLQ_InitialRequest as it overrides the PCP/NAT-PMP or // Double-NAT state. if (!mDNSAddressIsOnes(&q->servAddr) && !mDNSIPPortIsZero(m->LLQNAT.ExternalPort) && !m->LLQNAT.Result) { debugf("uDNS_recvLLQResponse got poll response; moving to LLQ_InitialRequest for %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); q->state = LLQ_InitialRequest; } q->servPort = zeroIPPort; // Clear servPort so that startLLQHandshake will retry the GetZoneData processing q->ThisQInterval = LLQ_POLL_INTERVAL + mDNSRandom(LLQ_POLL_INTERVAL/10); // Retry LLQ setup in approx 15 minutes q->LastQTime = m->timenow; SetNextQueryTime(m, q); *matchQuestion = q; return uDNS_LLQ_Entire; // uDNS_LLQ_Entire means flush stale records; assume a large effective TTL } // Note: In LLQ Event packets, the msg->h.id does not match our q->TargetQID, because in that case the msg->h.id nonce is selected by the server else if (opt && q->state == LLQ_Established && opt->u.llq.llqOp == kLLQOp_Event && mDNSSameOpaque64(&opt->u.llq.id, &q->id)) { mDNSu8 *ackEnd; //debugf("Sending LLQ ack for %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); InitializeDNSMessage(&m->omsg.h, msg->h.id, ResponseFlags); ackEnd = putLLQ(&m->omsg, m->omsg.data, q, &opt->u.llq); if (ackEnd) mDNSSendDNSMessage(m, &m->omsg, ackEnd, mDNSInterface_Any, q->LocalSocket, srcaddr, srcport, mDNSNULL, mDNSNULL, mDNSfalse); m->rec.r.resrec.RecordType = 0; // Clear RecordType to show we're not still using it debugf("uDNS_LLQ_Events: q->state == LLQ_Established msg->h.id %d q->TargetQID %d", mDNSVal16(msg->h.id), mDNSVal16(q->TargetQID)); *matchQuestion = q; return uDNS_LLQ_Events; } if (opt && mDNSSameOpaque16(msg->h.id, q->TargetQID)) { if (q->state == LLQ_Established && opt->u.llq.llqOp == kLLQOp_Refresh && mDNSSameOpaque64(&opt->u.llq.id, &q->id) && msg->h.numAdditionals && !msg->h.numAnswers) { if (opt->u.llq.err != LLQErr_NoError) LogMsg("recvRefreshReply: received error %d from server", opt->u.llq.err); else { //LogInfo("Received refresh confirmation ntries %d for %##s (%s)", q->ntries, q->qname.c, DNSTypeName(q->qtype)); // If we're waiting to go to sleep, then this LLQ deletion may have been the thing // we were waiting for, so schedule another check to see if we can sleep now. if (opt->u.llq.llqlease == 0 && m->SleepLimit) m->NextScheduledSPRetry = m->timenow; GrantCacheExtensions(m, q, opt->u.llq.llqlease); SetLLQTimer(m, q, &opt->u.llq); q->ntries = 0; } m->rec.r.resrec.RecordType = 0; // Clear RecordType to show we're not still using it *matchQuestion = q; return uDNS_LLQ_Ignore; } if (q->state < LLQ_Established && mDNSSameAddress(srcaddr, &q->servAddr)) { LLQ_State oldstate = q->state; recvSetupResponse(m, msg->h.flags.b[1] & kDNSFlag1_RC_Mask, q, &opt->u.llq); m->rec.r.resrec.RecordType = 0; // Clear RecordType to show we're not still using it // We have a protocol anomaly here in the LLQ definition. // Both the challenge packet from the server and the ack+answers packet have opt->u.llq.llqOp == kLLQOp_Setup. // However, we need to treat them differently: // The challenge packet has no answers in it, and tells us nothing about whether our cache entries // are still valid, so this packet should not cause us to do anything that messes with our cache. // The ack+answers packet gives us the whole truth, so we should handle it by updating our cache // to match the answers in the packet, and only the answers in the packet. *matchQuestion = q; return (oldstate == LLQ_SecondaryRequest ? uDNS_LLQ_Entire : uDNS_LLQ_Ignore); } } } } m->rec.r.resrec.RecordType = 0; // Clear RecordType to show we're not still using it } *matchQuestion = mDNSNULL; return uDNS_LLQ_Not; } // Stub definition of TCPSocket_struct so we can access flags field. (Rest of TCPSocket_struct is platform-dependent.) struct TCPSocket_struct { TCPSocketFlags flags; /* ... */ }; // tcpCallback is called to handle events (e.g. connection opening and data reception) on TCP connections for // Private DNS operations -- private queries, private LLQs, private record updates and private service updates mDNSlocal void tcpCallback(TCPSocket *sock, void *context, mDNSBool ConnectionEstablished, mStatus err) { tcpInfo_t *tcpInfo = (tcpInfo_t *)context; mDNSBool closed = mDNSfalse; mDNS *m = tcpInfo->m; DNSQuestion *const q = tcpInfo->question; tcpInfo_t **backpointer = q ? &q->tcp : tcpInfo->rr ? &tcpInfo->rr->tcp : mDNSNULL; if (backpointer && *backpointer != tcpInfo) LogMsg("tcpCallback: %d backpointer %p incorrect tcpInfo %p question %p rr %p", mDNSPlatformTCPGetFD(tcpInfo->sock), *backpointer, tcpInfo, q, tcpInfo->rr); if (err) goto exit; if (ConnectionEstablished) { mDNSu8 *end = ((mDNSu8*) &tcpInfo->request) + tcpInfo->requestLen; DomainAuthInfo *AuthInfo; // Defensive coding for Crash in mDNSResponder at GetAuthInfoForName_internal + 366 // Don't know yet what's causing this, but at least we can be cautious and try to avoid crashing if we find our pointers in an unexpected state if (tcpInfo->rr && tcpInfo->rr->resrec.name != &tcpInfo->rr->namestorage) LogMsg("tcpCallback: ERROR: tcpInfo->rr->resrec.name %p != &tcpInfo->rr->namestorage %p", tcpInfo->rr->resrec.name, &tcpInfo->rr->namestorage); if (tcpInfo->rr && tcpInfo->rr->resrec.name != &tcpInfo->rr->namestorage) return; AuthInfo = tcpInfo->rr ? GetAuthInfoForName(m, tcpInfo->rr->resrec.name) : mDNSNULL; // connection is established - send the message if (q && q->LongLived && q->state == LLQ_Established) { // Lease renewal over TCP, resulting from opening a TCP connection in sendLLQRefresh end = ((mDNSu8*) &tcpInfo->request) + tcpInfo->requestLen; } else if (q && q->LongLived && q->state != LLQ_Poll && !mDNSIPPortIsZero(m->LLQNAT.ExternalPort) && !mDNSIPPortIsZero(q->servPort)) { // Notes: // If we have a NAT port mapping, ExternalPort is the external port // If we have a routable address so we don't need a port mapping, ExternalPort is the same as our own internal port // If we need a NAT port mapping but can't get one, then ExternalPort is zero LLQOptData llqData; // set llq rdata llqData.vers = kLLQ_Vers; llqData.llqOp = kLLQOp_Setup; llqData.err = GetLLQEventPort(m, &tcpInfo->Addr); // We're using TCP; tell server what UDP port to send notifications to LogInfo("tcpCallback: eventPort %d", llqData.err); llqData.id = zeroOpaque64; llqData.llqlease = kLLQ_DefLease; InitializeDNSMessage(&tcpInfo->request.h, q->TargetQID, uQueryFlags); end = putLLQ(&tcpInfo->request, tcpInfo->request.data, q, &llqData); if (!end) { LogMsg("ERROR: tcpCallback - putLLQ"); err = mStatus_UnknownErr; goto exit; } AuthInfo = q->AuthInfo; // Need to add TSIG to this message q->ntries = 0; // Reset ntries so that tcp/tls connection failures don't affect sendChallengeResponse failures } else if (q) { // LLQ Polling mode or non-LLQ uDNS over TCP InitializeDNSMessage(&tcpInfo->request.h, q->TargetQID, (DNSSECQuestion(q) ? DNSSecQFlags : uQueryFlags)); end = putQuestion(&tcpInfo->request, tcpInfo->request.data, tcpInfo->request.data + AbsoluteMaxDNSMessageData, &q->qname, q->qtype, q->qclass); if (DNSSECQuestion(q) && q->qDNSServer && !q->qDNSServer->cellIntf) { if (q->ProxyQuestion) end = DNSProxySetAttributes(q, &tcpInfo->request.h, &tcpInfo->request, end, tcpInfo->request.data + AbsoluteMaxDNSMessageData); else end = putDNSSECOption(&tcpInfo->request, end, tcpInfo->request.data + AbsoluteMaxDNSMessageData); } AuthInfo = q->AuthInfo; // Need to add TSIG to this message } err = mDNSSendDNSMessage(m, &tcpInfo->request, end, mDNSInterface_Any, mDNSNULL, &tcpInfo->Addr, tcpInfo->Port, sock, AuthInfo, mDNSfalse); if (err) { debugf("ERROR: tcpCallback: mDNSSendDNSMessage - %d", err); err = mStatus_UnknownErr; goto exit; } // Record time we sent this question if (q) { mDNS_Lock(m); q->LastQTime = m->timenow; if (q->ThisQInterval < (256 * mDNSPlatformOneSecond)) // Now we have a TCP connection open, make sure we wait at least 256 seconds before retrying q->ThisQInterval = (256 * mDNSPlatformOneSecond); SetNextQueryTime(m, q); mDNS_Unlock(m); } } else { long n; const mDNSBool Read_replylen = (tcpInfo->nread < 2); // Do we need to read the replylen field first? if (Read_replylen) // First read the two-byte length preceeding the DNS message { mDNSu8 *lenptr = (mDNSu8 *)&tcpInfo->replylen; n = mDNSPlatformReadTCP(sock, lenptr + tcpInfo->nread, 2 - tcpInfo->nread, &closed); if (n < 0) { LogMsg("ERROR: tcpCallback - attempt to read message length failed (%d)", n); err = mStatus_ConnFailed; goto exit; } else if (closed) { // It's perfectly fine for this socket to close after the first reply. The server might // be sending gratuitous replies using UDP and doesn't have a need to leave the TCP socket open. // We'll only log this event if we've never received a reply before. // BIND 9 appears to close an idle connection after 30 seconds. if (tcpInfo->numReplies == 0) { LogMsg("ERROR: socket closed prematurely tcpInfo->nread = %d", tcpInfo->nread); err = mStatus_ConnFailed; goto exit; } else { // Note that we may not be doing the best thing if an error occurs after we've sent a second request // over this tcp connection. That is, we only track whether we've received at least one response // which may have been to a previous request sent over this tcp connection. if (backpointer) *backpointer = mDNSNULL; // Clear client backpointer FIRST so we don't risk double-disposing our tcpInfo_t DisposeTCPConn(tcpInfo); return; } } tcpInfo->nread += n; if (tcpInfo->nread < 2) goto exit; tcpInfo->replylen = (mDNSu16)((mDNSu16)lenptr[0] << 8 | lenptr[1]); if (tcpInfo->replylen < sizeof(DNSMessageHeader)) { LogMsg("ERROR: tcpCallback - length too short (%d bytes)", tcpInfo->replylen); err = mStatus_UnknownErr; goto exit; } tcpInfo->reply = mDNSPlatformMemAllocate(tcpInfo->replylen); if (!tcpInfo->reply) { LogMsg("ERROR: tcpCallback - malloc failed"); err = mStatus_NoMemoryErr; goto exit; } } n = mDNSPlatformReadTCP(sock, ((char *)tcpInfo->reply) + (tcpInfo->nread - 2), tcpInfo->replylen - (tcpInfo->nread - 2), &closed); if (n < 0) { // If this is our only read for this invokation, and it fails, then that's bad. // But if we did successfully read some or all of the replylen field this time through, // and this is now our second read from the socket, then it's expected that sometimes // there may be no more data present, and that's perfectly okay. // Assuming failure of the second read is a problem is what caused this bug: // mDNSResponder fails to read DNS over TCP packet correctly if (!Read_replylen) { LogMsg("ERROR: tcpCallback - read returned %d", n); err = mStatus_ConnFailed; } goto exit; } else if (closed) { if (tcpInfo->numReplies == 0) { LogMsg("ERROR: socket closed prematurely tcpInfo->nread = %d", tcpInfo->nread); err = mStatus_ConnFailed; goto exit; } else { // Note that we may not be doing the best thing if an error occurs after we've sent a second request // over this tcp connection. That is, we only track whether we've received at least one response // which may have been to a previous request sent over this tcp connection. if (backpointer) *backpointer = mDNSNULL; // Clear client backpointer FIRST so we don't risk double-disposing our tcpInfo_t DisposeTCPConn(tcpInfo); return; } } tcpInfo->nread += n; if ((tcpInfo->nread - 2) == tcpInfo->replylen) { mDNSBool tls; DNSMessage *reply = tcpInfo->reply; mDNSu8 *end = (mDNSu8 *)tcpInfo->reply + tcpInfo->replylen; mDNSAddr Addr = tcpInfo->Addr; mDNSIPPort Port = tcpInfo->Port; mDNSIPPort srcPort = zeroIPPort; tcpInfo->numReplies++; tcpInfo->reply = mDNSNULL; // Detach reply buffer from tcpInfo_t, to make sure client callback can't cause it to be disposed tcpInfo->nread = 0; tcpInfo->replylen = 0; // If we're going to dispose this connection, do it FIRST, before calling client callback // Note: Sleep code depends on us clearing *backpointer here -- it uses the clearing of rr->tcp // as the signal that the DNS deregistration operation with the server has completed, and the machine may now sleep // If we clear the tcp pointer in the question, mDNSCoreReceiveResponse cannot find a matching question. Hence // we store the minimal information i.e., the source port of the connection in the question itself. // Dereference sock before it is disposed in DisposeTCPConn below. if (sock->flags & kTCPSocketFlags_UseTLS) tls = mDNStrue; else tls = mDNSfalse; if (q && q->tcp) {srcPort = q->tcp->SrcPort; q->tcpSrcPort = srcPort;} if (backpointer) if (!q || !q->LongLived || m->SleepState) { *backpointer = mDNSNULL; DisposeTCPConn(tcpInfo); } mDNSCoreReceive(m, reply, end, &Addr, Port, tls ? (mDNSAddr *)1 : mDNSNULL, srcPort, 0); // USE CAUTION HERE: Invoking mDNSCoreReceive may have caused the environment to change, including canceling this operation itself mDNSPlatformMemFree(reply); return; } } exit: if (err) { // Clear client backpointer FIRST -- that way if one of the callbacks cancels its operation // we won't end up double-disposing our tcpInfo_t if (backpointer) *backpointer = mDNSNULL; mDNS_Lock(m); // Need to grab the lock to get m->timenow if (q) { if (q->ThisQInterval == 0) { // We get here when we fail to establish a new TCP/TLS connection that would have been used for a new LLQ request or an LLQ renewal. // Note that ThisQInterval is also zero when sendChallengeResponse resends the LLQ request on an extant TCP/TLS connection. q->LastQTime = m->timenow; if (q->LongLived) { // We didn't get the chance to send our request packet before the TCP/TLS connection failed. // We want to retry quickly, but want to back off exponentially in case the server is having issues. // Since ThisQInterval was 0, we can't just multiply by QuestionIntervalStep, we must track the number // of TCP/TLS connection failures using ntries. mDNSu32 count = q->ntries + 1; // want to wait at least 1 second before retrying q->ThisQInterval = InitialQuestionInterval; for (; count; count--) q->ThisQInterval *= QuestionIntervalStep; if (q->ThisQInterval > LLQ_POLL_INTERVAL) q->ThisQInterval = LLQ_POLL_INTERVAL; else q->ntries++; LogMsg("tcpCallback: stream connection for LLQ %##s (%s) failed %d times, retrying in %d ms", q->qname.c, DNSTypeName(q->qtype), q->ntries, q->ThisQInterval); } else { q->ThisQInterval = MAX_UCAST_POLL_INTERVAL; LogMsg("tcpCallback: stream connection for %##s (%s) failed, retrying in %d ms", q->qname.c, DNSTypeName(q->qtype), q->ThisQInterval); } SetNextQueryTime(m, q); } else if (NextQSendTime(q) - m->timenow > (q->LongLived ? LLQ_POLL_INTERVAL : MAX_UCAST_POLL_INTERVAL)) { // If we get an error and our next scheduled query for this question is more than the max interval from now, // reset the next query to ensure we wait no longer the maximum interval from now before trying again. q->LastQTime = m->timenow; q->ThisQInterval = q->LongLived ? LLQ_POLL_INTERVAL : MAX_UCAST_POLL_INTERVAL; SetNextQueryTime(m, q); LogMsg("tcpCallback: stream connection for %##s (%s) failed, retrying in %d ms", q->qname.c, DNSTypeName(q->qtype), q->ThisQInterval); } // We're about to dispose of the TCP connection, so we must reset the state to retry over TCP/TLS // because sendChallengeResponse will send the query via UDP if we don't have a tcp pointer. // Resetting to LLQ_InitialRequest will cause uDNS_CheckCurrentQuestion to call startLLQHandshake, which // will attempt to establish a new tcp connection. if (q->LongLived && q->state == LLQ_SecondaryRequest) q->state = LLQ_InitialRequest; // ConnFailed may happen if the server sends a TCP reset or TLS fails, in which case we want to retry establishing the LLQ // quickly rather than switching to polling mode. This case is handled by the above code to set q->ThisQInterval just above. // If the error isn't ConnFailed, then the LLQ is in bad shape, so we switch to polling mode. if (err != mStatus_ConnFailed) { if (q->LongLived && q->state != LLQ_Poll) StartLLQPolling(m, q); } } mDNS_Unlock(m); DisposeTCPConn(tcpInfo); } } mDNSlocal tcpInfo_t *MakeTCPConn(mDNS *const m, const DNSMessage *const msg, const mDNSu8 *const end, TCPSocketFlags flags, const mDNSAddr *const Addr, const mDNSIPPort Port, domainname *hostname, DNSQuestion *const question, AuthRecord *const rr) { mStatus err; mDNSIPPort srcport = zeroIPPort; tcpInfo_t *info; mDNSBool useBackgroundTrafficClass; useBackgroundTrafficClass = question ? question->UseBackgroundTrafficClass : mDNSfalse; if ((flags & kTCPSocketFlags_UseTLS) && (!hostname || !hostname->c[0])) { LogMsg("MakeTCPConn: TLS connection being setup with NULL hostname"); return mDNSNULL; } info = (tcpInfo_t *)mDNSPlatformMemAllocate(sizeof(tcpInfo_t)); if (!info) { LogMsg("ERROR: MakeTCP - memallocate failed"); return(mDNSNULL); } mDNSPlatformMemZero(info, sizeof(tcpInfo_t)); info->m = m; info->sock = mDNSPlatformTCPSocket(m, flags, &srcport, useBackgroundTrafficClass); info->requestLen = 0; info->question = question; info->rr = rr; info->Addr = *Addr; info->Port = Port; info->reply = mDNSNULL; info->replylen = 0; info->nread = 0; info->numReplies = 0; info->SrcPort = srcport; if (msg) { info->requestLen = (int) (end - ((mDNSu8*)msg)); mDNSPlatformMemCopy(&info->request, msg, info->requestLen); } if (!info->sock) { LogMsg("MakeTCPConn: unable to create TCP socket"); mDNSPlatformMemFree(info); return(mDNSNULL); } err = mDNSPlatformTCPConnect(info->sock, Addr, Port, hostname, (question ? question->InterfaceID : mDNSNULL), tcpCallback, info); // Probably suboptimal here. // Instead of returning mDNSNULL here on failure, we should probably invoke the callback with an error code. // That way clients can put all the error handling and retry/recovery code in one place, // instead of having to handle immediate errors in one place and async errors in another. // Also: "err == mStatus_ConnEstablished" probably never happens. // Don't need to log "connection failed" in customer builds -- it happens quite often during sleep, wake, configuration changes, etc. if (err == mStatus_ConnEstablished) { tcpCallback(info->sock, info, mDNStrue, mStatus_NoError); } else if (err != mStatus_ConnPending ) { LogInfo("MakeTCPConn: connection failed"); DisposeTCPConn(info); return(mDNSNULL); } return(info); } mDNSexport void DisposeTCPConn(struct tcpInfo_t *tcp) { mDNSPlatformTCPCloseConnection(tcp->sock); if (tcp->reply) mDNSPlatformMemFree(tcp->reply); mDNSPlatformMemFree(tcp); } // Lock must be held mDNSexport void startLLQHandshake(mDNS *m, DNSQuestion *q) { if (m->LLQNAT.clientContext != mDNSNULL) // LLQNAT just started, give it some time { LogInfo("startLLQHandshake: waiting for NAT status for %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); q->ThisQInterval = LLQ_POLL_INTERVAL + mDNSRandom(LLQ_POLL_INTERVAL/10); // Retry in approx 15 minutes q->LastQTime = m->timenow; SetNextQueryTime(m, q); return; } // Either we don't have {PCP, NAT-PMP, UPnP/IGD} support (ExternalPort is zero) or behind a Double NAT that may or // may not have {PCP, NAT-PMP, UPnP/IGD} support (NATResult is non-zero) if (mDNSIPPortIsZero(m->LLQNAT.ExternalPort) || m->LLQNAT.Result) { LogInfo("startLLQHandshake: Cannot receive inbound packets; will poll for %##s (%s) External Port %d, NAT Result %d", q->qname.c, DNSTypeName(q->qtype), mDNSVal16(m->LLQNAT.ExternalPort), m->LLQNAT.Result); StartLLQPolling(m, q); return; } if (mDNSIPPortIsZero(q->servPort)) { debugf("startLLQHandshake: StartGetZoneData for %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); q->ThisQInterval = LLQ_POLL_INTERVAL + mDNSRandom(LLQ_POLL_INTERVAL/10); // Retry in approx 15 minutes q->LastQTime = m->timenow; SetNextQueryTime(m, q); q->servAddr = zeroAddr; // We know q->servPort is zero because of check above if (q->nta) CancelGetZoneData(m, q->nta); q->nta = StartGetZoneData(m, &q->qname, ZoneServiceLLQ, LLQGotZoneData, q); return; } if (PrivateQuery(q)) { if (q->tcp) LogInfo("startLLQHandshake: Disposing existing TCP connection for %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); if (q->tcp) { DisposeTCPConn(q->tcp); q->tcp = mDNSNULL; } if (!q->nta) { // Normally we lookup the zone data and then call this function. And we never free the zone data // for "PrivateQuery". But sometimes this can happen due to some race conditions. When we // switch networks, we might end up "Polling" the network e.g., we are behind a Double NAT. // When we poll, we free the zone information as we send the query to the server (See // PrivateQueryGotZoneData). The NAT callback (LLQNATCallback) may happen soon after that. If we // are still behind Double NAT, we would have returned early in this function. But we could // have switched to a network with no NATs and we should get the zone data again. LogInfo("startLLQHandshake: nta is NULL for %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); q->nta = StartGetZoneData(m, &q->qname, ZoneServiceLLQ, LLQGotZoneData, q); return; } else if (!q->nta->Host.c[0]) { // This should not happen. If it happens, we print a log and MakeTCPConn will fail if it can't find a hostname LogMsg("startLLQHandshake: ERROR!!: nta non NULL for %##s (%s) but HostName %d NULL, LongLived %d", q->qname.c, DNSTypeName(q->qtype), q->nta->Host.c[0], q->LongLived); } q->tcp = MakeTCPConn(m, mDNSNULL, mDNSNULL, kTCPSocketFlags_UseTLS, &q->servAddr, q->servPort, &q->nta->Host, q, mDNSNULL); if (!q->tcp) q->ThisQInterval = mDNSPlatformOneSecond * 5; // If TCP failed (transient networking glitch) try again in five seconds else { q->state = LLQ_SecondaryRequest; // Right now, for private DNS, we skip the four-way LLQ handshake q->ReqLease = kLLQ_DefLease; q->ThisQInterval = 0; } q->LastQTime = m->timenow; SetNextQueryTime(m, q); } else { debugf("startLLQHandshake: m->AdvertisedV4 %#a%s Server %#a:%d%s %##s (%s)", &m->AdvertisedV4, mDNSv4AddrIsRFC1918(&m->AdvertisedV4.ip.v4) ? " (RFC 1918)" : "", &q->servAddr, mDNSVal16(q->servPort), mDNSAddrIsRFC1918(&q->servAddr) ? " (RFC 1918)" : "", q->qname.c, DNSTypeName(q->qtype)); if (q->ntries++ >= kLLQ_MAX_TRIES) { LogMsg("startLLQHandshake: %d failed attempts for LLQ %##s Polling.", kLLQ_MAX_TRIES, q->qname.c); StartLLQPolling(m, q); } else { mDNSu8 *end; LLQOptData llqData; // set llq rdata llqData.vers = kLLQ_Vers; llqData.llqOp = kLLQOp_Setup; llqData.err = LLQErr_NoError; // Don't need to tell server UDP notification port when sending over UDP llqData.id = zeroOpaque64; llqData.llqlease = kLLQ_DefLease; InitializeDNSMessage(&m->omsg.h, q->TargetQID, uQueryFlags); end = putLLQ(&m->omsg, m->omsg.data, q, &llqData); if (!end) { LogMsg("ERROR: startLLQHandshake - putLLQ"); StartLLQPolling(m,q); return; } mDNSSendDNSMessage(m, &m->omsg, end, mDNSInterface_Any, q->LocalSocket, &q->servAddr, q->servPort, mDNSNULL, mDNSNULL, mDNSfalse); // update question state q->state = LLQ_InitialRequest; q->ReqLease = kLLQ_DefLease; q->ThisQInterval = (kLLQ_INIT_RESEND * mDNSPlatformOneSecond); q->LastQTime = m->timenow; SetNextQueryTime(m, q); } } } // forward declaration so GetServiceTarget can do reverse lookup if needed mDNSlocal void GetStaticHostname(mDNS *m); mDNSexport const domainname *GetServiceTarget(mDNS *m, AuthRecord *const rr) { debugf("GetServiceTarget %##s", rr->resrec.name->c); if (!rr->AutoTarget) // If not automatically tracking this host's current name, just return the existing target return(&rr->resrec.rdata->u.srv.target); else { #if APPLE_OSX_mDNSResponder DomainAuthInfo *AuthInfo = GetAuthInfoForName_internal(m, rr->resrec.name); if (AuthInfo && AuthInfo->AutoTunnel) { StartServerTunnel(m, AuthInfo); if (AuthInfo->AutoTunnelHostRecord.namestorage.c[0] == 0) return(mDNSNULL); debugf("GetServiceTarget: Returning %##s", AuthInfo->AutoTunnelHostRecord.namestorage.c); return(&AuthInfo->AutoTunnelHostRecord.namestorage); } else #endif // APPLE_OSX_mDNSResponder { const int srvcount = CountLabels(rr->resrec.name); HostnameInfo *besthi = mDNSNULL, *hi; int best = 0; for (hi = m->Hostnames; hi; hi = hi->next) if (hi->arv4.state == regState_Registered || hi->arv4.state == regState_Refresh || hi->arv6.state == regState_Registered || hi->arv6.state == regState_Refresh) { int x, hostcount = CountLabels(&hi->fqdn); for (x = hostcount < srvcount ? hostcount : srvcount; x > 0 && x > best; x--) if (SameDomainName(SkipLeadingLabels(rr->resrec.name, srvcount - x), SkipLeadingLabels(&hi->fqdn, hostcount - x))) { best = x; besthi = hi; } } if (besthi) return(&besthi->fqdn); } if (m->StaticHostname.c[0]) return(&m->StaticHostname); else GetStaticHostname(m); // asynchronously do reverse lookup for primary IPv4 address LogInfo("GetServiceTarget: Returning NULL for %s", ARDisplayString(m, rr)); return(mDNSNULL); } } mDNSlocal const domainname *PUBLIC_UPDATE_SERVICE_TYPE = (const domainname*)"\x0B_dns-update" "\x04_udp"; mDNSlocal const domainname *PUBLIC_LLQ_SERVICE_TYPE = (const domainname*)"\x08_dns-llq" "\x04_udp"; mDNSlocal const domainname *PRIVATE_UPDATE_SERVICE_TYPE = (const domainname*)"\x0F_dns-update-tls" "\x04_tcp"; mDNSlocal const domainname *PRIVATE_QUERY_SERVICE_TYPE = (const domainname*)"\x0E_dns-query-tls" "\x04_tcp"; mDNSlocal const domainname *PRIVATE_LLQ_SERVICE_TYPE = (const domainname*)"\x0C_dns-llq-tls" "\x04_tcp"; #define ZoneDataSRV(X) ( \ (X)->ZoneService == ZoneServiceUpdate ? ((X)->ZonePrivate ? PRIVATE_UPDATE_SERVICE_TYPE : PUBLIC_UPDATE_SERVICE_TYPE) : \ (X)->ZoneService == ZoneServiceQuery ? ((X)->ZonePrivate ? PRIVATE_QUERY_SERVICE_TYPE : (const domainname*)"" ) : \ (X)->ZoneService == ZoneServiceLLQ ? ((X)->ZonePrivate ? PRIVATE_LLQ_SERVICE_TYPE : PUBLIC_LLQ_SERVICE_TYPE ) : (const domainname*)"") // Forward reference: GetZoneData_StartQuery references GetZoneData_QuestionCallback, and // GetZoneData_QuestionCallback calls GetZoneData_StartQuery mDNSlocal mStatus GetZoneData_StartQuery(mDNS *const m, ZoneData *zd, mDNSu16 qtype); // GetZoneData_QuestionCallback is called from normal client callback context (core API calls allowed) mDNSlocal void GetZoneData_QuestionCallback(mDNS *const m, DNSQuestion *question, const ResourceRecord *const answer, QC_result AddRecord) { ZoneData *zd = (ZoneData*)question->QuestionContext; debugf("GetZoneData_QuestionCallback: %s %s", AddRecord ? "Add" : "Rmv", RRDisplayString(m, answer)); if (!AddRecord) return; // Don't care about REMOVE events if (AddRecord == QC_addnocache && answer->rdlength == 0) return; // Don't care about transient failure indications if (answer->rrtype != question->qtype) return; // Don't care about CNAMEs if (answer->rrtype == kDNSType_SOA) { debugf("GetZoneData GOT SOA %s", RRDisplayString(m, answer)); mDNS_StopQuery(m, question); if (question->ThisQInterval != -1) LogMsg("GetZoneData_QuestionCallback: Question %##s (%s) ThisQInterval %d not -1", question->qname.c, DNSTypeName(question->qtype), question->ThisQInterval); if (answer->rdlength) { AssignDomainName(&zd->ZoneName, answer->name); zd->ZoneClass = answer->rrclass; AssignDomainName(&zd->question.qname, &zd->ZoneName); GetZoneData_StartQuery(m, zd, kDNSType_SRV); } else if (zd->CurrentSOA->c[0]) { DomainAuthInfo *AuthInfo = GetAuthInfoForName(m, zd->CurrentSOA); if (AuthInfo && AuthInfo->AutoTunnel) { // To keep the load on the server down, we don't chop down on // SOA lookups for AutoTunnels LogInfo("GetZoneData_QuestionCallback: not chopping labels for %##s", zd->CurrentSOA->c); zd->ZoneDataCallback(m, mStatus_NoSuchNameErr, zd); } else { zd->CurrentSOA = (domainname *)(zd->CurrentSOA->c + zd->CurrentSOA->c[0]+1); AssignDomainName(&zd->question.qname, zd->CurrentSOA); GetZoneData_StartQuery(m, zd, kDNSType_SOA); } } else { LogInfo("GetZoneData recursed to root label of %##s without finding SOA", zd->ChildName.c); zd->ZoneDataCallback(m, mStatus_NoSuchNameErr, zd); } } else if (answer->rrtype == kDNSType_SRV) { debugf("GetZoneData GOT SRV %s", RRDisplayString(m, answer)); mDNS_StopQuery(m, question); if (question->ThisQInterval != -1) LogMsg("GetZoneData_QuestionCallback: Question %##s (%s) ThisQInterval %d not -1", question->qname.c, DNSTypeName(question->qtype), question->ThisQInterval); // Right now we don't want to fail back to non-encrypted operations // If the AuthInfo has the AutoTunnel field set, then we want private or nothing // BTMM: Don't fallback to unencrypted operations when SRV lookup fails #if 0 if (!answer->rdlength && zd->ZonePrivate && zd->ZoneService != ZoneServiceQuery) { zd->ZonePrivate = mDNSfalse; // Causes ZoneDataSRV() to yield a different SRV name when building the query GetZoneData_StartQuery(m, zd, kDNSType_SRV); // Try again, non-private this time } else #endif { if (answer->rdlength) { AssignDomainName(&zd->Host, &answer->rdata->u.srv.target); zd->Port = answer->rdata->u.srv.port; AssignDomainName(&zd->question.qname, &zd->Host); GetZoneData_StartQuery(m, zd, kDNSType_A); } else { zd->ZonePrivate = mDNSfalse; zd->Host.c[0] = 0; zd->Port = zeroIPPort; zd->Addr = zeroAddr; zd->ZoneDataCallback(m, mStatus_NoError, zd); } } } else if (answer->rrtype == kDNSType_A) { debugf("GetZoneData GOT A %s", RRDisplayString(m, answer)); mDNS_StopQuery(m, question); if (question->ThisQInterval != -1) LogMsg("GetZoneData_QuestionCallback: Question %##s (%s) ThisQInterval %d not -1", question->qname.c, DNSTypeName(question->qtype), question->ThisQInterval); zd->Addr.type = mDNSAddrType_IPv4; if (answer->rdlength == 4) zd->Addr.ip.v4 = answer->rdata->u.ipv4; else zd->Addr.ip.v4 = zerov4Addr; // In order to simulate firewalls blocking our outgoing TCP connections, returning immediate ICMP errors or TCP resets, // the code below will make us try to connect to loopback, resulting in an immediate "port unreachable" failure. // This helps us test to make sure we handle this case gracefully // BTMM: mDNSResponder taking 100 percent CPU after upgrading to 10.5.1 #if 0 zd->Addr.ip.v4.b[0] = 127; zd->Addr.ip.v4.b[1] = 0; zd->Addr.ip.v4.b[2] = 0; zd->Addr.ip.v4.b[3] = 1; #endif // The caller needs to free the memory when done with zone data zd->ZoneDataCallback(m, mStatus_NoError, zd); } } // GetZoneData_StartQuery is called from normal client context (lock not held, or client callback) mDNSlocal mStatus GetZoneData_StartQuery(mDNS *const m, ZoneData *zd, mDNSu16 qtype) { if (qtype == kDNSType_SRV) { AssignDomainName(&zd->question.qname, ZoneDataSRV(zd)); AppendDomainName(&zd->question.qname, &zd->ZoneName); debugf("lookupDNSPort %##s", zd->question.qname.c); } // CancelGetZoneData can get called at any time. We should stop the question if it has not been // stopped already. A value of -1 for ThisQInterval indicates that the question is not active // yet. zd->question.ThisQInterval = -1; zd->question.InterfaceID = mDNSInterface_Any; zd->question.flags = 0; zd->question.Target = zeroAddr; //zd->question.qname.c[0] = 0; // Already set zd->question.qtype = qtype; zd->question.qclass = kDNSClass_IN; zd->question.LongLived = mDNSfalse; zd->question.ExpectUnique = mDNStrue; zd->question.ForceMCast = mDNSfalse; zd->question.ReturnIntermed = mDNStrue; zd->question.SuppressUnusable = mDNSfalse; zd->question.DenyOnCellInterface = mDNSfalse; zd->question.DenyOnExpInterface = mDNSfalse; zd->question.SearchListIndex = 0; zd->question.AppendSearchDomains = 0; zd->question.RetryWithSearchDomains = mDNSfalse; zd->question.TimeoutQuestion = 0; zd->question.WakeOnResolve = 0; zd->question.UseBackgroundTrafficClass = mDNSfalse; zd->question.ValidationRequired = 0; zd->question.ValidatingResponse = 0; zd->question.ProxyQuestion = 0; zd->question.qnameOrig = mDNSNULL; zd->question.AnonInfo = mDNSNULL; zd->question.pid = mDNSPlatformGetPID(); zd->question.QuestionCallback = GetZoneData_QuestionCallback; zd->question.QuestionContext = zd; //LogMsg("GetZoneData_StartQuery %##s (%s) %p", zd->question.qname.c, DNSTypeName(zd->question.qtype), zd->question.Private); return(mDNS_StartQuery(m, &zd->question)); } // StartGetZoneData is an internal routine (i.e. must be called with the lock already held) mDNSexport ZoneData *StartGetZoneData(mDNS *const m, const domainname *const name, const ZoneService target, ZoneDataCallback callback, void *ZoneDataContext) { DomainAuthInfo *AuthInfo = GetAuthInfoForName_internal(m, name); int initialskip = (AuthInfo && AuthInfo->AutoTunnel) ? DomainNameLength(name) - DomainNameLength(&AuthInfo->domain) : 0; ZoneData *zd = (ZoneData*)mDNSPlatformMemAllocate(sizeof(ZoneData)); if (!zd) { LogMsg("ERROR: StartGetZoneData - mDNSPlatformMemAllocate failed"); return mDNSNULL; } mDNSPlatformMemZero(zd, sizeof(ZoneData)); AssignDomainName(&zd->ChildName, name); zd->ZoneService = target; zd->CurrentSOA = (domainname *)(&zd->ChildName.c[initialskip]); zd->ZoneName.c[0] = 0; zd->ZoneClass = 0; zd->Host.c[0] = 0; zd->Port = zeroIPPort; zd->Addr = zeroAddr; zd->ZonePrivate = AuthInfo && AuthInfo->AutoTunnel ? mDNStrue : mDNSfalse; zd->ZoneDataCallback = callback; zd->ZoneDataContext = ZoneDataContext; zd->question.QuestionContext = zd; mDNS_DropLockBeforeCallback(); // GetZoneData_StartQuery expects to be called from a normal callback, so we emulate that here if (AuthInfo && AuthInfo->AutoTunnel && !mDNSIPPortIsZero(AuthInfo->port)) { LogInfo("StartGetZoneData: Bypassing SOA, SRV query for %##s", AuthInfo->domain.c); // We bypass SOA and SRV queries if we know the hostname and port already from the configuration. // Today this is only true for AutoTunnel. As we bypass, we need to infer a few things: // // 1. Zone name is the same as the AuthInfo domain // 2. ZoneClass is kDNSClass_IN which should be a safe assumption // // If we want to make this bypass mechanism work for non-AutoTunnels also, (1) has to hold // good. Otherwise, it has to be configured also. AssignDomainName(&zd->ZoneName, &AuthInfo->domain); zd->ZoneClass = kDNSClass_IN; AssignDomainName(&zd->Host, &AuthInfo->hostname); zd->Port = AuthInfo->port; AssignDomainName(&zd->question.qname, &zd->Host); GetZoneData_StartQuery(m, zd, kDNSType_A); } else { if (AuthInfo && AuthInfo->AutoTunnel) LogInfo("StartGetZoneData: Not Bypassing SOA, SRV query for %##s", AuthInfo->domain.c); AssignDomainName(&zd->question.qname, zd->CurrentSOA); GetZoneData_StartQuery(m, zd, kDNSType_SOA); } mDNS_ReclaimLockAfterCallback(); return zd; } // Returns if the question is a GetZoneData question. These questions are special in // that they are created internally while resolving a private query or LLQs. mDNSexport mDNSBool IsGetZoneDataQuestion(DNSQuestion *q) { if (q->QuestionCallback == GetZoneData_QuestionCallback) return(mDNStrue); else return(mDNSfalse); } // GetZoneData queries are a special case -- even if we have a key for them, we don't do them privately, // because that would result in an infinite loop (i.e. to do a private query we first need to get // the _dns-query-tls SRV record for the zone, and we can't do *that* privately because to do so // we'd need to already know the _dns-query-tls SRV record. // Also, as a general rule, we never do SOA queries privately mDNSexport DomainAuthInfo *GetAuthInfoForQuestion(mDNS *m, const DNSQuestion *const q) // Must be called with lock held { if (q->QuestionCallback == GetZoneData_QuestionCallback) return(mDNSNULL); if (q->qtype == kDNSType_SOA ) return(mDNSNULL); return(GetAuthInfoForName_internal(m, &q->qname)); } // *************************************************************************** #if COMPILER_LIKES_PRAGMA_MARK #pragma mark - host name and interface management #endif mDNSlocal void SendRecordRegistration(mDNS *const m, AuthRecord *rr); mDNSlocal void SendRecordDeregistration(mDNS *m, AuthRecord *rr); mDNSlocal mDNSBool IsRecordMergeable(mDNS *const m, AuthRecord *rr, mDNSs32 time); // When this function is called, service record is already deregistered. We just // have to deregister the PTR and TXT records. mDNSlocal void UpdateAllServiceRecords(mDNS *const m, AuthRecord *rr, mDNSBool reg) { AuthRecord *r, *srvRR; if (rr->resrec.rrtype != kDNSType_SRV) { LogMsg("UpdateAllServiceRecords:ERROR!! ResourceRecord not a service record %s", ARDisplayString(m, rr)); return; } if (reg && rr->state == regState_NoTarget) { LogMsg("UpdateAllServiceRecords:ERROR!! SRV record %s in noTarget state during registration", ARDisplayString(m, rr)); return; } LogInfo("UpdateAllServiceRecords: ResourceRecord %s", ARDisplayString(m, rr)); for (r = m->ResourceRecords; r; r=r->next) { if (!AuthRecord_uDNS(r)) continue; srvRR = mDNSNULL; if (r->resrec.rrtype == kDNSType_PTR) srvRR = r->Additional1; else if (r->resrec.rrtype == kDNSType_TXT) srvRR = r->DependentOn; if (srvRR && srvRR->resrec.rrtype != kDNSType_SRV) LogMsg("UpdateAllServiceRecords: ERROR!! Resource record %s wrong, expecting SRV type", ARDisplayString(m, srvRR)); if (srvRR == rr) { if (!reg) { LogInfo("UpdateAllServiceRecords: deregistering %s", ARDisplayString(m, r)); r->SRVChanged = mDNStrue; r->ThisAPInterval = INIT_RECORD_REG_INTERVAL; r->LastAPTime = m->timenow - INIT_RECORD_REG_INTERVAL; r->state = regState_DeregPending; } else { // Clearing SRVchanged is a safety measure. If our pevious dereg never // came back and we had a target change, we are starting fresh r->SRVChanged = mDNSfalse; // if it is already registered or in the process of registering, then don't // bother re-registering. This happens today for non-BTMM domains where the // TXT and PTR get registered before SRV records because of the delay in // getting the port mapping. There is no point in re-registering the TXT // and PTR records. if ((r->state == regState_Registered) || (r->state == regState_Pending && r->nta && !mDNSIPv4AddressIsZero(r->nta->Addr.ip.v4))) LogInfo("UpdateAllServiceRecords: not registering %s, state %d", ARDisplayString(m, r), r->state); else { LogInfo("UpdateAllServiceRecords: registering %s, state %d", ARDisplayString(m, r), r->state); ActivateUnicastRegistration(m, r); } } } } } // Called in normal client context (lock not held) // Currently only supports SRV records for nat mapping mDNSlocal void CompleteRecordNatMap(mDNS *m, NATTraversalInfo *n) { const domainname *target; domainname *srvt; AuthRecord *rr = (AuthRecord *)n->clientContext; debugf("SRVNatMap complete %.4a IntPort %u ExternalPort %u NATLease %u", &n->ExternalAddress, mDNSVal16(n->IntPort), mDNSVal16(n->ExternalPort), n->NATLease); if (!rr) { LogMsg("CompleteRecordNatMap called with unknown AuthRecord object"); return; } if (!n->NATLease) { LogMsg("CompleteRecordNatMap No NATLease for %s", ARDisplayString(m, rr)); return; } if (rr->resrec.rrtype != kDNSType_SRV) {LogMsg("CompleteRecordNatMap: Not a service record %s", ARDisplayString(m, rr)); return; } if (rr->resrec.RecordType == kDNSRecordTypeDeregistering) { LogInfo("CompleteRecordNatMap called for %s, Service deregistering", ARDisplayString(m, rr)); return; } if (rr->state == regState_DeregPending) { LogInfo("CompleteRecordNatMap called for %s, record in DeregPending", ARDisplayString(m, rr)); return; } // As we free the zone info after registering/deregistering with the server (See hndlRecordUpdateReply), // we need to restart the get zone data and nat mapping request to get the latest mapping result as we can't handle it // at this moment. Restart from the beginning. if (!rr->nta || mDNSIPv4AddressIsZero(rr->nta->Addr.ip.v4)) { LogInfo("CompleteRecordNatMap called for %s but no zone information!", ARDisplayString(m, rr)); // We need to clear out the NATinfo state so that it will result in re-acquiring the mapping // and hence this callback called again. if (rr->NATinfo.clientContext) { mDNS_StopNATOperation_internal(m, &rr->NATinfo); rr->NATinfo.clientContext = mDNSNULL; } rr->state = regState_Pending; rr->ThisAPInterval = INIT_RECORD_REG_INTERVAL; rr->LastAPTime = m->timenow - INIT_RECORD_REG_INTERVAL; return; } mDNS_Lock(m); // Reevaluate the target always as Target could have changed while // we were getting the port mapping (See UpdateOneSRVRecord) target = GetServiceTarget(m, rr); srvt = GetRRDomainNameTarget(&rr->resrec); if (!target || target->c[0] == 0 || mDNSIPPortIsZero(n->ExternalPort)) { if (target && target->c[0]) LogInfo("CompleteRecordNatMap - Target %##s for ResourceRecord %##s, ExternalPort %d", target->c, rr->resrec.name->c, mDNSVal16(n->ExternalPort)); else LogInfo("CompleteRecordNatMap - no target for %##s, ExternalPort %d", rr->resrec.name->c, mDNSVal16(n->ExternalPort)); if (srvt) srvt->c[0] = 0; rr->state = regState_NoTarget; rr->resrec.rdlength = rr->resrec.rdestimate = 0; mDNS_Unlock(m); UpdateAllServiceRecords(m, rr, mDNSfalse); return; } LogInfo("CompleteRecordNatMap - Target %##s for ResourceRecord %##s, ExternalPort %d", target->c, rr->resrec.name->c, mDNSVal16(n->ExternalPort)); // This function might get called multiple times during a network transition event. Previosuly, we could // have put the SRV record in NoTarget state above and deregistered all the other records. When this // function gets called again with a non-zero ExternalPort, we need to set the target and register the // other records again. if (srvt && !SameDomainName(srvt, target)) { AssignDomainName(srvt, target); SetNewRData(&rr->resrec, mDNSNULL, 0); // Update rdlength, rdestimate, rdatahash } // SRVChanged is set when when the target of the SRV record changes (See UpdateOneSRVRecord). // As a result of the target change, we might register just that SRV Record if it was // previously registered and we have a new target OR deregister SRV (and the associated // PTR/TXT records) if we don't have a target anymore. When we get a response from the server, // SRVChanged state tells that we registered/deregistered because of a target change // and hence handle accordingly e.g., if we deregistered, put the records in NoTarget state OR // if we registered then put it in Registered state. // // Here, we are registering all the records again from the beginning. Treat this as first time // registration rather than a temporary target change. rr->SRVChanged = mDNSfalse; // We want IsRecordMergeable to check whether it is a record whose update can be // sent with others. We set the time before we call IsRecordMergeable, so that // it does not fail this record based on time. We are interested in other checks // at this time rr->state = regState_Pending; rr->ThisAPInterval = INIT_RECORD_REG_INTERVAL; rr->LastAPTime = m->timenow - INIT_RECORD_REG_INTERVAL; if (IsRecordMergeable(m, rr, m->timenow + MERGE_DELAY_TIME)) // Delay the record registration by MERGE_DELAY_TIME so that we can merge them // into one update rr->LastAPTime += MERGE_DELAY_TIME; mDNS_Unlock(m); // We call this always even though it may not be necessary always e.g., normal registration // process where TXT and PTR gets registered followed by the SRV record after it gets // the port mapping. In that case, UpdateAllServiceRecords handles the optimization. The // update of TXT and PTR record is required if we entered noTargetState before as explained // above. UpdateAllServiceRecords(m, rr, mDNStrue); } mDNSlocal void StartRecordNatMap(mDNS *m, AuthRecord *rr) { const mDNSu8 *p; mDNSu8 protocol; if (rr->resrec.rrtype != kDNSType_SRV) { LogInfo("StartRecordNatMap: Resource Record %##s type %d, not supported", rr->resrec.name->c, rr->resrec.rrtype); return; } p = rr->resrec.name->c; //Assume ... // Skip the first two labels to get to the transport protocol if (p[0]) p += 1 + p[0]; if (p[0]) p += 1 + p[0]; if (SameDomainLabel(p, (mDNSu8 *)"\x4" "_tcp")) protocol = NATOp_MapTCP; else if (SameDomainLabel(p, (mDNSu8 *)"\x4" "_udp")) protocol = NATOp_MapUDP; else { LogMsg("StartRecordNatMap: could not determine transport protocol of service %##s", rr->resrec.name->c); return; } //LogMsg("StartRecordNatMap: clientContext %p IntPort %d srv.port %d %s", // rr->NATinfo.clientContext, mDNSVal16(rr->NATinfo.IntPort), mDNSVal16(rr->resrec.rdata->u.srv.port), ARDisplayString(m, rr)); if (rr->NATinfo.clientContext) mDNS_StopNATOperation_internal(m, &rr->NATinfo); rr->NATinfo.Protocol = protocol; // Shouldn't be trying to set IntPort here -- // BuildUpdateMessage overwrites srs->RR_SRV.resrec.rdata->u.srv.port with external (mapped) port number rr->NATinfo.IntPort = rr->resrec.rdata->u.srv.port; rr->NATinfo.RequestedPort = rr->resrec.rdata->u.srv.port; rr->NATinfo.NATLease = 0; // Request default lease rr->NATinfo.clientCallback = CompleteRecordNatMap; rr->NATinfo.clientContext = rr; mDNS_StartNATOperation_internal(m, &rr->NATinfo); } // Unlink an Auth Record from the m->ResourceRecords list. // When a resource record enters regState_NoTarget initially, mDNS_Register_internal // does not initialize completely e.g., it cannot check for duplicates etc. The resource // record is temporarily left in the ResourceRecords list so that we can initialize later // when the target is resolvable. Similarly, when host name changes, we enter regState_NoTarget // and we do the same. // This UnlinkResourceRecord routine is very worrying. It bypasses all the normal cleanup performed // by mDNS_Deregister_internal and just unceremoniously cuts the record from the active list. // This is why re-regsitering this record was producing syslog messages like this: // "Error! Tried to add a NAT traversal that's already in the active list" // Right now UnlinkResourceRecord is fortunately only called by RegisterAllServiceRecords, // which then immediately calls mDNS_Register_internal to re-register the record, which probably // masked more serious problems. Any other use of UnlinkResourceRecord is likely to lead to crashes. // For now we'll workaround that specific problem by explicitly calling mDNS_StopNATOperation_internal, // but long-term we should either stop cancelling the record registration and then re-registering it, // or if we really do need to do this for some reason it should be done via the usual // mDNS_Deregister_internal path instead of just cutting the record from the list. mDNSlocal mStatus UnlinkResourceRecord(mDNS *const m, AuthRecord *const rr) { AuthRecord **list = &m->ResourceRecords; while (*list && *list != rr) list = &(*list)->next; if (*list) { *list = rr->next; rr->next = mDNSNULL; // Temporary workaround to cancel any active NAT mapping operation if (rr->NATinfo.clientContext) { mDNS_StopNATOperation_internal(m, &rr->NATinfo); rr->NATinfo.clientContext = mDNSNULL; if (rr->resrec.rrtype == kDNSType_SRV) rr->resrec.rdata->u.srv.port = rr->NATinfo.IntPort; } return(mStatus_NoError); } LogMsg("UnlinkResourceRecord:ERROR!! - no such active record %##s", rr->resrec.name->c); return(mStatus_NoSuchRecord); } // We need to go through mDNS_Register again as we did not complete the // full initialization last time e.g., duplicate checks. // After we register, we will be in regState_GetZoneData. mDNSlocal void RegisterAllServiceRecords(mDNS *const m, AuthRecord *rr) { LogInfo("RegisterAllServiceRecords: Service Record %##s", rr->resrec.name->c); // First Register the service record, we do this differently from other records because // when it entered NoTarget state, it did not go through complete initialization rr->SRVChanged = mDNSfalse; UnlinkResourceRecord(m, rr); mDNS_Register_internal(m, rr); // Register the other records UpdateAllServiceRecords(m, rr, mDNStrue); } // Called with lock held mDNSlocal void UpdateOneSRVRecord(mDNS *m, AuthRecord *rr) { // Target change if: // We have a target and were previously waiting for one, or // We had a target and no longer do, or // The target has changed domainname *curtarget = &rr->resrec.rdata->u.srv.target; const domainname *const nt = GetServiceTarget(m, rr); const domainname *const newtarget = nt ? nt : (domainname*)""; mDNSBool TargetChanged = (newtarget->c[0] && rr->state == regState_NoTarget) || !SameDomainName(curtarget, newtarget); mDNSBool HaveZoneData = rr->nta && !mDNSIPv4AddressIsZero(rr->nta->Addr.ip.v4); // Nat state change if: // We were behind a NAT, and now we are behind a new NAT, or // We're not behind a NAT but our port was previously mapped to a different external port // We were not behind a NAT and now we are mDNSIPPort port = rr->resrec.rdata->u.srv.port; mDNSBool NowNeedNATMAP = (rr->AutoTarget == Target_AutoHostAndNATMAP && !mDNSIPPortIsZero(port) && mDNSv4AddrIsRFC1918(&m->AdvertisedV4.ip.v4) && rr->nta && !mDNSAddrIsRFC1918(&rr->nta->Addr)); mDNSBool WereBehindNAT = (rr->NATinfo.clientContext != mDNSNULL); mDNSBool PortWasMapped = (rr->NATinfo.clientContext && !mDNSSameIPPort(rr->NATinfo.RequestedPort, port)); // I think this is always false -- SC Sept 07 mDNSBool NATChanged = (!WereBehindNAT && NowNeedNATMAP) || (!NowNeedNATMAP && PortWasMapped); (void)HaveZoneData; //unused LogInfo("UpdateOneSRVRecord: Resource Record %s TargetChanged %d, NewTarget %##s", ARDisplayString(m, rr), TargetChanged, nt->c); debugf("UpdateOneSRVRecord: %##s newtarget %##s TargetChanged %d HaveZoneData %d port %d NowNeedNATMAP %d WereBehindNAT %d PortWasMapped %d NATChanged %d", rr->resrec.name->c, newtarget, TargetChanged, HaveZoneData, mDNSVal16(port), NowNeedNATMAP, WereBehindNAT, PortWasMapped, NATChanged); mDNS_CheckLock(m); if (!TargetChanged && !NATChanged) return; // If we are deregistering the record, then ignore any NAT/Target change. if (rr->resrec.RecordType == kDNSRecordTypeDeregistering) { LogInfo("UpdateOneSRVRecord: Deregistering record, Ignoring TargetChanged %d, NATChanged %d for %##s, state %d", TargetChanged, NATChanged, rr->resrec.name->c, rr->state); return; } if (newtarget) LogInfo("UpdateOneSRVRecord: TargetChanged %d, NATChanged %d for %##s, state %d, newtarget %##s", TargetChanged, NATChanged, rr->resrec.name->c, rr->state, newtarget->c); else LogInfo("UpdateOneSRVRecord: TargetChanged %d, NATChanged %d for %##s, state %d, null newtarget", TargetChanged, NATChanged, rr->resrec.name->c, rr->state); switch(rr->state) { case regState_NATMap: // In these states, the SRV has either not yet been registered (it will get up-to-date information when it is) // or is in the process of, or has already been, deregistered. This assumes that whenever we transition out // of this state, we need to look at the target again. return; case regState_UpdatePending: // We are getting a Target change/NAT change while the SRV record is being updated ? // let us not do anything for now. return; case regState_NATError: if (!NATChanged) return; // if nat changed, register if we have a target (below) case regState_NoTarget: if (!newtarget->c[0]) { LogInfo("UpdateOneSRVRecord: No target yet for Resource Record %s", ARDisplayString(m, rr)); return; } RegisterAllServiceRecords(m, rr); return; case regState_DeregPending: // We are in DeregPending either because the service was deregistered from above or we handled // a NAT/Target change before and sent the deregistration below. There are a few race conditions // possible // // 1. We are handling a second NAT/Target change while the first dereg is in progress. It is possible // that first dereg never made it through because there was no network connectivity e.g., disconnecting // from network triggers this function due to a target change and later connecting to the network // retriggers this function but the deregistration never made it through yet. Just fall through. // If there is a target register otherwise deregister. // // 2. While we sent the dereg during a previous NAT/Target change, uDNS_DeregisterRecord gets // called as part of service deregistration. When the response comes back, we call // CompleteDeregistration rather than handle NAT/Target change because the record is in // kDNSRecordTypeDeregistering state. // // 3. If the upper layer deregisters the service, we check for kDNSRecordTypeDeregistering both // here in this function to avoid handling NAT/Target change and in hndlRecordUpdateReply to call // CompleteDeregistration instead of handling NAT/Target change. Hence, we are not concerned // about that case here. // // We just handle case (1) by falling through case regState_Pending: case regState_Refresh: case regState_Registered: // target or nat changed. deregister service. upon completion, we'll look for a new target rr->SRVChanged = mDNStrue; rr->ThisAPInterval = INIT_RECORD_REG_INTERVAL; rr->LastAPTime = m->timenow - INIT_RECORD_REG_INTERVAL; if (newtarget->c[0]) { LogInfo("UpdateOneSRVRecord: SRV record changed for service %##s, registering with new target %##s", rr->resrec.name->c, newtarget->c); rr->state = regState_Pending; } else { LogInfo("UpdateOneSRVRecord: SRV record changed for service %##s de-registering", rr->resrec.name->c); rr->state = regState_DeregPending; UpdateAllServiceRecords(m, rr, mDNSfalse); } return; case regState_Unregistered: default: LogMsg("UpdateOneSRVRecord: Unknown state %d for %##s", rr->state, rr->resrec.name->c); } } mDNSexport void UpdateAllSRVRecords(mDNS *m) { m->NextSRVUpdate = 0; LogInfo("UpdateAllSRVRecords %d", m->SleepState); if (m->CurrentRecord) LogMsg("UpdateAllSRVRecords ERROR m->CurrentRecord already set %s", ARDisplayString(m, m->CurrentRecord)); m->CurrentRecord = m->ResourceRecords; while (m->CurrentRecord) { AuthRecord *rptr = m->CurrentRecord; m->CurrentRecord = m->CurrentRecord->next; if (AuthRecord_uDNS(rptr) && rptr->resrec.rrtype == kDNSType_SRV) UpdateOneSRVRecord(m, rptr); } } // Forward reference: AdvertiseHostname references HostnameCallback, and HostnameCallback calls AdvertiseHostname mDNSlocal void HostnameCallback(mDNS *const m, AuthRecord *const rr, mStatus result); // Called in normal client context (lock not held) mDNSlocal void hostnameGetPublicAddressCallback(mDNS *m, NATTraversalInfo *n) { HostnameInfo *h = (HostnameInfo *)n->clientContext; if (!h) { LogMsg("RegisterHostnameRecord: registration cancelled"); return; } if (!n->Result) { if (mDNSIPv4AddressIsZero(n->ExternalAddress) || mDNSv4AddrIsRFC1918(&n->ExternalAddress)) return; if (h->arv4.resrec.RecordType) { if (mDNSSameIPv4Address(h->arv4.resrec.rdata->u.ipv4, n->ExternalAddress)) return; // If address unchanged, do nothing LogInfo("Updating hostname %p %##s IPv4 from %.4a to %.4a (NAT gateway's external address)",n, h->arv4.resrec.name->c, &h->arv4.resrec.rdata->u.ipv4, &n->ExternalAddress); mDNS_Deregister(m, &h->arv4); // mStatus_MemFree callback will re-register with new address } else { LogInfo("Advertising hostname %##s IPv4 %.4a (NAT gateway's external address)", h->arv4.resrec.name->c, &n->ExternalAddress); h->arv4.resrec.RecordType = kDNSRecordTypeKnownUnique; h->arv4.resrec.rdata->u.ipv4 = n->ExternalAddress; mDNS_Register(m, &h->arv4); } } } // register record or begin NAT traversal mDNSlocal void AdvertiseHostname(mDNS *m, HostnameInfo *h) { if (!mDNSIPv4AddressIsZero(m->AdvertisedV4.ip.v4) && h->arv4.resrec.RecordType == kDNSRecordTypeUnregistered) { mDNS_SetupResourceRecord(&h->arv4, mDNSNULL, mDNSInterface_Any, kDNSType_A, kHostNameTTL, kDNSRecordTypeUnregistered, AuthRecordAny, HostnameCallback, h); AssignDomainName(&h->arv4.namestorage, &h->fqdn); h->arv4.resrec.rdata->u.ipv4 = m->AdvertisedV4.ip.v4; h->arv4.state = regState_Unregistered; if (mDNSv4AddrIsRFC1918(&m->AdvertisedV4.ip.v4)) { // If we already have a NAT query active, stop it and restart it to make sure we get another callback if (h->natinfo.clientContext) mDNS_StopNATOperation_internal(m, &h->natinfo); h->natinfo.Protocol = 0; h->natinfo.IntPort = zeroIPPort; h->natinfo.RequestedPort = zeroIPPort; h->natinfo.NATLease = 0; h->natinfo.clientCallback = hostnameGetPublicAddressCallback; h->natinfo.clientContext = h; mDNS_StartNATOperation_internal(m, &h->natinfo); } else { LogInfo("Advertising hostname %##s IPv4 %.4a", h->arv4.resrec.name->c, &m->AdvertisedV4.ip.v4); h->arv4.resrec.RecordType = kDNSRecordTypeKnownUnique; mDNS_Register_internal(m, &h->arv4); } } if (!mDNSIPv6AddressIsZero(m->AdvertisedV6.ip.v6) && h->arv6.resrec.RecordType == kDNSRecordTypeUnregistered) { mDNS_SetupResourceRecord(&h->arv6, mDNSNULL, mDNSInterface_Any, kDNSType_AAAA, kHostNameTTL, kDNSRecordTypeKnownUnique, AuthRecordAny, HostnameCallback, h); AssignDomainName(&h->arv6.namestorage, &h->fqdn); h->arv6.resrec.rdata->u.ipv6 = m->AdvertisedV6.ip.v6; h->arv6.state = regState_Unregistered; LogInfo("Advertising hostname %##s IPv6 %.16a", h->arv6.resrec.name->c, &m->AdvertisedV6.ip.v6); mDNS_Register_internal(m, &h->arv6); } } mDNSlocal void HostnameCallback(mDNS *const m, AuthRecord *const rr, mStatus result) { HostnameInfo *hi = (HostnameInfo *)rr->RecordContext; if (result == mStatus_MemFree) { if (hi) { // If we're still in the Hostnames list, update to new address HostnameInfo *i; LogInfo("HostnameCallback: Got mStatus_MemFree for %p %p %s", hi, rr, ARDisplayString(m, rr)); for (i = m->Hostnames; i; i = i->next) if (rr == &i->arv4 || rr == &i->arv6) { mDNS_Lock(m); AdvertiseHostname(m, i); mDNS_Unlock(m); return; } // Else, we're not still in the Hostnames list, so free the memory if (hi->arv4.resrec.RecordType == kDNSRecordTypeUnregistered && hi->arv6.resrec.RecordType == kDNSRecordTypeUnregistered) { if (hi->natinfo.clientContext) mDNS_StopNATOperation_internal(m, &hi->natinfo); hi->natinfo.clientContext = mDNSNULL; mDNSPlatformMemFree(hi); // free hi when both v4 and v6 AuthRecs deallocated } } return; } if (result) { // don't unlink or free - we can retry when we get a new address/router if (rr->resrec.rrtype == kDNSType_A) LogMsg("HostnameCallback: Error %d for registration of %##s IP %.4a", result, rr->resrec.name->c, &rr->resrec.rdata->u.ipv4); else LogMsg("HostnameCallback: Error %d for registration of %##s IP %.16a", result, rr->resrec.name->c, &rr->resrec.rdata->u.ipv6); if (!hi) { mDNSPlatformMemFree(rr); return; } if (rr->state != regState_Unregistered) LogMsg("Error: HostnameCallback invoked with error code for record not in regState_Unregistered!"); if (hi->arv4.state == regState_Unregistered && hi->arv6.state == regState_Unregistered) { // only deliver status if both v4 and v6 fail rr->RecordContext = (void *)hi->StatusContext; if (hi->StatusCallback) hi->StatusCallback(m, rr, result); // client may NOT make API calls here rr->RecordContext = (void *)hi; } return; } // register any pending services that require a target mDNS_Lock(m); m->NextSRVUpdate = NonZeroTime(m->timenow); mDNS_Unlock(m); // Deliver success to client if (!hi) { LogMsg("HostnameCallback invoked with orphaned address record"); return; } if (rr->resrec.rrtype == kDNSType_A) LogInfo("Registered hostname %##s IP %.4a", rr->resrec.name->c, &rr->resrec.rdata->u.ipv4); else LogInfo("Registered hostname %##s IP %.16a", rr->resrec.name->c, &rr->resrec.rdata->u.ipv6); rr->RecordContext = (void *)hi->StatusContext; if (hi->StatusCallback) hi->StatusCallback(m, rr, result); // client may NOT make API calls here rr->RecordContext = (void *)hi; } mDNSlocal void FoundStaticHostname(mDNS *const m, DNSQuestion *question, const ResourceRecord *const answer, QC_result AddRecord) { const domainname *pktname = &answer->rdata->u.name; domainname *storedname = &m->StaticHostname; HostnameInfo *h = m->Hostnames; (void)question; if (answer->rdlength != 0) LogInfo("FoundStaticHostname: question %##s -> answer %##s (%s)", question->qname.c, answer->rdata->u.name.c, AddRecord ? "ADD" : "RMV"); else LogInfo("FoundStaticHostname: question %##s -> answer NULL (%s)", question->qname.c, AddRecord ? "ADD" : "RMV"); if (AddRecord && answer->rdlength != 0 && !SameDomainName(pktname, storedname)) { AssignDomainName(storedname, pktname); while (h) { if (h->arv4.state == regState_Pending || h->arv4.state == regState_NATMap || h->arv6.state == regState_Pending) { // if we're in the process of registering a dynamic hostname, delay SRV update so we don't have to reregister services if the dynamic name succeeds m->NextSRVUpdate = NonZeroTime(m->timenow + 5 * mDNSPlatformOneSecond); debugf("FoundStaticHostname: NextSRVUpdate in %d %d", m->NextSRVUpdate - m->timenow, m->timenow); return; } h = h->next; } mDNS_Lock(m); m->NextSRVUpdate = NonZeroTime(m->timenow); mDNS_Unlock(m); } else if (!AddRecord && SameDomainName(pktname, storedname)) { mDNS_Lock(m); storedname->c[0] = 0; m->NextSRVUpdate = NonZeroTime(m->timenow); mDNS_Unlock(m); } } // Called with lock held mDNSlocal void GetStaticHostname(mDNS *m) { char buf[MAX_REVERSE_MAPPING_NAME_V4]; DNSQuestion *q = &m->ReverseMap; mDNSu8 *ip = m->AdvertisedV4.ip.v4.b; mStatus err; if (m->ReverseMap.ThisQInterval != -1) return; // already running if (mDNSIPv4AddressIsZero(m->AdvertisedV4.ip.v4)) return; mDNSPlatformMemZero(q, sizeof(*q)); // Note: This is reverse order compared to a normal dotted-decimal IP address, so we can't use our customary "%.4a" format code mDNS_snprintf(buf, sizeof(buf), "%d.%d.%d.%d.in-addr.arpa.", ip[3], ip[2], ip[1], ip[0]); if (!MakeDomainNameFromDNSNameString(&q->qname, buf)) { LogMsg("Error: GetStaticHostname - bad name %s", buf); return; } q->InterfaceID = mDNSInterface_Any; q->flags = 0; q->Target = zeroAddr; q->qtype = kDNSType_PTR; q->qclass = kDNSClass_IN; q->LongLived = mDNSfalse; q->ExpectUnique = mDNSfalse; q->ForceMCast = mDNSfalse; q->ReturnIntermed = mDNStrue; q->SuppressUnusable = mDNSfalse; q->DenyOnCellInterface = mDNSfalse; q->DenyOnExpInterface = mDNSfalse; q->SearchListIndex = 0; q->AppendSearchDomains = 0; q->RetryWithSearchDomains = mDNSfalse; q->TimeoutQuestion = 0; q->WakeOnResolve = 0; q->UseBackgroundTrafficClass = mDNSfalse; q->ValidationRequired = 0; q->ValidatingResponse = 0; q->ProxyQuestion = 0; q->qnameOrig = mDNSNULL; q->AnonInfo = mDNSNULL; q->pid = mDNSPlatformGetPID(); q->QuestionCallback = FoundStaticHostname; q->QuestionContext = mDNSNULL; LogInfo("GetStaticHostname: %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); err = mDNS_StartQuery_internal(m, q); if (err) LogMsg("Error: GetStaticHostname - StartQuery returned error %d", err); } mDNSexport void mDNS_AddDynDNSHostName(mDNS *m, const domainname *fqdn, mDNSRecordCallback *StatusCallback, const void *StatusContext) { HostnameInfo **ptr = &m->Hostnames; LogInfo("mDNS_AddDynDNSHostName %##s", fqdn); while (*ptr && !SameDomainName(fqdn, &(*ptr)->fqdn)) ptr = &(*ptr)->next; if (*ptr) { LogMsg("DynDNSHostName %##s already in list", fqdn->c); return; } // allocate and format new address record *ptr = mDNSPlatformMemAllocate(sizeof(**ptr)); if (!*ptr) { LogMsg("ERROR: mDNS_AddDynDNSHostName - malloc"); return; } mDNSPlatformMemZero(*ptr, sizeof(**ptr)); AssignDomainName(&(*ptr)->fqdn, fqdn); (*ptr)->arv4.state = regState_Unregistered; (*ptr)->arv6.state = regState_Unregistered; (*ptr)->StatusCallback = StatusCallback; (*ptr)->StatusContext = StatusContext; AdvertiseHostname(m, *ptr); } mDNSexport void mDNS_RemoveDynDNSHostName(mDNS *m, const domainname *fqdn) { HostnameInfo **ptr = &m->Hostnames; LogInfo("mDNS_RemoveDynDNSHostName %##s", fqdn); while (*ptr && !SameDomainName(fqdn, &(*ptr)->fqdn)) ptr = &(*ptr)->next; if (!*ptr) LogMsg("mDNS_RemoveDynDNSHostName: no such domainname %##s", fqdn->c); else { HostnameInfo *hi = *ptr; // We do it this way because, if we have no active v6 record, the "mDNS_Deregister_internal(m, &hi->arv4);" // below could free the memory, and we have to make sure we don't touch hi fields after that. mDNSBool f4 = hi->arv4.resrec.RecordType != kDNSRecordTypeUnregistered && hi->arv4.state != regState_Unregistered; mDNSBool f6 = hi->arv6.resrec.RecordType != kDNSRecordTypeUnregistered && hi->arv6.state != regState_Unregistered; if (f4) LogInfo("mDNS_RemoveDynDNSHostName removing v4 %##s", fqdn); if (f6) LogInfo("mDNS_RemoveDynDNSHostName removing v6 %##s", fqdn); *ptr = (*ptr)->next; // unlink if (f4) mDNS_Deregister_internal(m, &hi->arv4, mDNS_Dereg_normal); if (f6) mDNS_Deregister_internal(m, &hi->arv6, mDNS_Dereg_normal); // When both deregistrations complete we'll free the memory in the mStatus_MemFree callback } mDNS_CheckLock(m); m->NextSRVUpdate = NonZeroTime(m->timenow); } // Currently called without holding the lock // Maybe we should change that? mDNSexport void mDNS_SetPrimaryInterfaceInfo(mDNS *m, const mDNSAddr *v4addr, const mDNSAddr *v6addr, const mDNSAddr *router) { mDNSBool v4Changed, v6Changed, RouterChanged; mDNSv6Addr v6; if (m->mDNS_busy != m->mDNS_reentrancy) LogMsg("mDNS_SetPrimaryInterfaceInfo: mDNS_busy (%ld) != mDNS_reentrancy (%ld)", m->mDNS_busy, m->mDNS_reentrancy); if (v4addr && v4addr->type != mDNSAddrType_IPv4) { LogMsg("mDNS_SetPrimaryInterfaceInfo v4 address - incorrect type. Discarding. %#a", v4addr); return; } if (v6addr && v6addr->type != mDNSAddrType_IPv6) { LogMsg("mDNS_SetPrimaryInterfaceInfo v6 address - incorrect type. Discarding. %#a", v6addr); return; } if (router && router->type != mDNSAddrType_IPv4) { LogMsg("mDNS_SetPrimaryInterfaceInfo passed non-v4 router. Discarding. %#a", router); return; } mDNS_Lock(m); v4Changed = !mDNSSameIPv4Address(m->AdvertisedV4.ip.v4, v4addr ? v4addr->ip.v4 : zerov4Addr); if (v6addr) v6 = v6addr->ip.v6; else v6 = zerov6Addr; v6Changed = !mDNSSameIPv6Address(m->AdvertisedV6.ip.v6, v6); RouterChanged = !mDNSSameIPv4Address(m->Router.ip.v4, router ? router->ip.v4 : zerov4Addr); if (v4addr && (v4Changed || RouterChanged)) debugf("mDNS_SetPrimaryInterfaceInfo: address changed from %#a to %#a", &m->AdvertisedV4, v4addr); if (v4addr) m->AdvertisedV4 = *v4addr;else m->AdvertisedV4.ip.v4 = zerov4Addr; if (v6addr) m->AdvertisedV6 = *v6addr;else m->AdvertisedV6.ip.v6 = zerov6Addr; if (router) m->Router = *router;else m->Router.ip.v4 = zerov4Addr; // setting router to zero indicates that nat mappings must be reestablished when router is reset if (v4Changed || RouterChanged || v6Changed) { HostnameInfo *i; LogInfo("mDNS_SetPrimaryInterfaceInfo: %s%s%s%#a %#a %#a", v4Changed ? "v4Changed " : "", RouterChanged ? "RouterChanged " : "", v6Changed ? "v6Changed " : "", v4addr, v6addr, router); for (i = m->Hostnames; i; i = i->next) { LogInfo("mDNS_SetPrimaryInterfaceInfo updating host name registrations for %##s", i->fqdn.c); if (i->arv4.resrec.RecordType > kDNSRecordTypeDeregistering && !mDNSSameIPv4Address(i->arv4.resrec.rdata->u.ipv4, m->AdvertisedV4.ip.v4)) { LogInfo("mDNS_SetPrimaryInterfaceInfo deregistering %s", ARDisplayString(m, &i->arv4)); mDNS_Deregister_internal(m, &i->arv4, mDNS_Dereg_normal); } if (i->arv6.resrec.RecordType > kDNSRecordTypeDeregistering && !mDNSSameIPv6Address(i->arv6.resrec.rdata->u.ipv6, m->AdvertisedV6.ip.v6)) { LogInfo("mDNS_SetPrimaryInterfaceInfo deregistering %s", ARDisplayString(m, &i->arv6)); mDNS_Deregister_internal(m, &i->arv6, mDNS_Dereg_normal); } // AdvertiseHostname will only register new address records. // For records still in the process of deregistering it will ignore them, and let the mStatus_MemFree callback handle them. AdvertiseHostname(m, i); } if (v4Changed || RouterChanged) { // If we have a non-zero IPv4 address, we should try immediately to see if we have a NAT gateway // If we have no IPv4 address, we don't want to be in quite such a hurry to report failures to our clients // Sleeping server sometimes briefly disappears over Back to My Mac after it wakes up mDNSu32 waitSeconds = v4addr ? 0 : 5; NATTraversalInfo *n; m->ExtAddress = zerov4Addr; m->LastNATMapResultCode = NATErr_None; RecreateNATMappings(m, mDNSPlatformOneSecond * waitSeconds); for (n = m->NATTraversals; n; n=n->next) n->NewAddress = zerov4Addr; LogInfo("mDNS_SetPrimaryInterfaceInfo:%s%s: recreating NAT mappings in %d seconds", v4Changed ? " v4Changed" : "", RouterChanged ? " RouterChanged" : "", waitSeconds); } if (m->ReverseMap.ThisQInterval != -1) mDNS_StopQuery_internal(m, &m->ReverseMap); m->StaticHostname.c[0] = 0; m->NextSRVUpdate = NonZeroTime(m->timenow); #if APPLE_OSX_mDNSResponder if (RouterChanged) uuid_generate(m->asl_uuid); UpdateAutoTunnelDomainStatuses(m); #endif } mDNS_Unlock(m); } // *************************************************************************** #if COMPILER_LIKES_PRAGMA_MARK #pragma mark - Incoming Message Processing #endif mDNSlocal mStatus ParseTSIGError(mDNS *const m, const DNSMessage *const msg, const mDNSu8 *const end, const domainname *const displayname) { const mDNSu8 *ptr; mStatus err = mStatus_NoError; int i; ptr = LocateAdditionals(msg, end); if (!ptr) goto finish; for (i = 0; i < msg->h.numAdditionals; i++) { ptr = GetLargeResourceRecord(m, msg, ptr, end, 0, kDNSRecordTypePacketAdd, &m->rec); if (!ptr) goto finish; if (m->rec.r.resrec.RecordType != kDNSRecordTypePacketNegative && m->rec.r.resrec.rrtype == kDNSType_TSIG) { mDNSu32 macsize; mDNSu8 *rd = m->rec.r.resrec.rdata->u.data; mDNSu8 *rdend = rd + m->rec.r.resrec.rdlength; int alglen = DomainNameLengthLimit(&m->rec.r.resrec.rdata->u.name, rdend); if (alglen > MAX_DOMAIN_NAME) goto finish; rd += alglen; // algorithm name if (rd + 6 > rdend) goto finish; rd += 6; // 48-bit timestamp if (rd + sizeof(mDNSOpaque16) > rdend) goto finish; rd += sizeof(mDNSOpaque16); // fudge if (rd + sizeof(mDNSOpaque16) > rdend) goto finish; macsize = mDNSVal16(*(mDNSOpaque16 *)rd); rd += sizeof(mDNSOpaque16); // MAC size if (rd + macsize > rdend) goto finish; rd += macsize; if (rd + sizeof(mDNSOpaque16) > rdend) goto finish; rd += sizeof(mDNSOpaque16); // orig id if (rd + sizeof(mDNSOpaque16) > rdend) goto finish; err = mDNSVal16(*(mDNSOpaque16 *)rd); // error code if (err == TSIG_ErrBadSig) { LogMsg("%##s: bad signature", displayname->c); err = mStatus_BadSig; } else if (err == TSIG_ErrBadKey) { LogMsg("%##s: bad key", displayname->c); err = mStatus_BadKey; } else if (err == TSIG_ErrBadTime) { LogMsg("%##s: bad time", displayname->c); err = mStatus_BadTime; } else if (err) { LogMsg("%##s: unknown tsig error %d", displayname->c, err); err = mStatus_UnknownErr; } goto finish; } m->rec.r.resrec.RecordType = 0; // Clear RecordType to show we're not still using it } finish: m->rec.r.resrec.RecordType = 0; // Clear RecordType to show we're not still using it return err; } mDNSlocal mStatus checkUpdateResult(mDNS *const m, const domainname *const displayname, const mDNSu8 rcode, const DNSMessage *const msg, const mDNSu8 *const end) { (void)msg; // currently unused, needed for TSIG errors if (!rcode) return mStatus_NoError; else if (rcode == kDNSFlag1_RC_YXDomain) { debugf("name in use: %##s", displayname->c); return mStatus_NameConflict; } else if (rcode == kDNSFlag1_RC_Refused) { LogMsg("Update %##s refused", displayname->c); return mStatus_Refused; } else if (rcode == kDNSFlag1_RC_NXRRSet) { LogMsg("Reregister refused (NXRRSET): %##s", displayname->c); return mStatus_NoSuchRecord; } else if (rcode == kDNSFlag1_RC_NotAuth) { // TSIG errors should come with FormErr as per RFC 2845, but BIND 9 sends them with NotAuth so we look here too mStatus tsigerr = ParseTSIGError(m, msg, end, displayname); if (!tsigerr) { LogMsg("Permission denied (NOAUTH): %##s", displayname->c); return mStatus_UnknownErr; } else return tsigerr; } else if (rcode == kDNSFlag1_RC_FormErr) { mStatus tsigerr = ParseTSIGError(m, msg, end, displayname); if (!tsigerr) { LogMsg("Format Error: %##s", displayname->c); return mStatus_UnknownErr; } else return tsigerr; } else { LogMsg("Update %##s failed with rcode %d", displayname->c, rcode); return mStatus_UnknownErr; } } // We add three Additional Records for unicast resource record registrations // which is a function of AuthInfo and AutoTunnel properties mDNSlocal mDNSu32 RRAdditionalSize(mDNS *const m, DomainAuthInfo *AuthInfo) { mDNSu32 leaseSize, hinfoSize, tsigSize; mDNSu32 rr_base_size = 10; // type (2) class (2) TTL (4) rdlength (2) // OPT RR : Emptyname(.) + base size + rdataOPT leaseSize = 1 + rr_base_size + sizeof(rdataOPT); // HINFO: Resource Record Name + base size + RDATA // HINFO is added only for autotunnels hinfoSize = 0; if (AuthInfo && AuthInfo->AutoTunnel) hinfoSize = (m->hostlabel.c[0] + 1) + DomainNameLength(&AuthInfo->domain) + rr_base_size + (2 + m->HIHardware.c[0] + m->HISoftware.c[0]); //TSIG: Resource Record Name + base size + RDATA // RDATA: // Algorithm name: hmac-md5.sig-alg.reg.int (8+7+3+3 + 5 bytes for length = 26 bytes) // Time: 6 bytes // Fudge: 2 bytes // Mac Size: 2 bytes // Mac: 16 bytes // ID: 2 bytes // Error: 2 bytes // Len: 2 bytes // Total: 58 bytes tsigSize = 0; if (AuthInfo) tsigSize = DomainNameLength(&AuthInfo->keyname) + rr_base_size + 58; return (leaseSize + hinfoSize + tsigSize); } //Note: Make sure that RREstimatedSize is updated accordingly if anything that is done here //would modify rdlength/rdestimate mDNSlocal mDNSu8* BuildUpdateMessage(mDNS *const m, mDNSu8 *ptr, AuthRecord *rr, mDNSu8 *limit) { //If this record is deregistering, then just send the deletion record if (rr->state == regState_DeregPending) { rr->expire = 0; // Indicate that we have no active registration any more ptr = putDeletionRecordWithLimit(&m->omsg, ptr, &rr->resrec, limit); if (!ptr) goto exit; return ptr; } // This is a common function to both sending an update in a group or individual // records separately. Hence, we change the state here. if (rr->state == regState_Registered) rr->state = regState_Refresh; if (rr->state != regState_Refresh && rr->state != regState_UpdatePending) rr->state = regState_Pending; // For Advisory records like e.g., _services._dns-sd, which is shared, don't send goodbyes as multiple // host might be registering records and deregistering from one does not make sense if (rr->resrec.RecordType != kDNSRecordTypeAdvisory) rr->RequireGoodbye = mDNStrue; if ((rr->resrec.rrtype == kDNSType_SRV) && (rr->AutoTarget == Target_AutoHostAndNATMAP) && !mDNSIPPortIsZero(rr->NATinfo.ExternalPort)) { rr->resrec.rdata->u.srv.port = rr->NATinfo.ExternalPort; } if (rr->state == regState_UpdatePending) { // delete old RData SetNewRData(&rr->resrec, rr->OrigRData, rr->OrigRDLen); if (!(ptr = putDeletionRecordWithLimit(&m->omsg, ptr, &rr->resrec, limit))) goto exit; // delete old rdata // add new RData SetNewRData(&rr->resrec, rr->InFlightRData, rr->InFlightRDLen); if (!(ptr = PutResourceRecordTTLWithLimit(&m->omsg, ptr, &m->omsg.h.mDNS_numUpdates, &rr->resrec, rr->resrec.rroriginalttl, limit))) goto exit; } else { if (rr->resrec.RecordType == kDNSRecordTypeKnownUnique || rr->resrec.RecordType == kDNSRecordTypeVerified) { // KnownUnique : Delete any previous value // For Unicast registrations, we don't verify that it is unique, but set to verified and hence we want to // delete any previous value ptr = putDeleteRRSetWithLimit(&m->omsg, ptr, rr->resrec.name, rr->resrec.rrtype, limit); if (!ptr) goto exit; } else if (rr->resrec.RecordType != kDNSRecordTypeShared) { // For now don't do this, until we have the logic for intelligent grouping of individual records into logical service record sets //ptr = putPrereqNameNotInUse(rr->resrec.name, &m->omsg, ptr, end); if (!ptr) goto exit; } ptr = PutResourceRecordTTLWithLimit(&m->omsg, ptr, &m->omsg.h.mDNS_numUpdates, &rr->resrec, rr->resrec.rroriginalttl, limit); if (!ptr) goto exit; } return ptr; exit: LogMsg("BuildUpdateMessage: Error formatting message for %s", ARDisplayString(m, rr)); return mDNSNULL; } // Called with lock held mDNSlocal void SendRecordRegistration(mDNS *const m, AuthRecord *rr) { mDNSu8 *ptr = m->omsg.data; mStatus err = mStatus_UnknownErr; mDNSu8 *limit; DomainAuthInfo *AuthInfo; // For the ability to register large TXT records, we limit the single record registrations // to AbsoluteMaxDNSMessageData limit = ptr + AbsoluteMaxDNSMessageData; AuthInfo = GetAuthInfoForName_internal(m, rr->resrec.name); limit -= RRAdditionalSize(m, AuthInfo); mDNS_CheckLock(m); if (!rr->nta || mDNSIPv4AddressIsZero(rr->nta->Addr.ip.v4)) { // We never call this function when there is no zone information . Log a message if it ever happens. LogMsg("SendRecordRegistration: No Zone information, should not happen %s", ARDisplayString(m, rr)); return; } rr->updateid = mDNS_NewMessageID(m); InitializeDNSMessage(&m->omsg.h, rr->updateid, UpdateReqFlags); // set zone ptr = putZone(&m->omsg, ptr, limit, rr->zone, mDNSOpaque16fromIntVal(rr->resrec.rrclass)); if (!ptr) goto exit; if (!(ptr = BuildUpdateMessage(m, ptr, rr, limit))) goto exit; if (rr->uselease) { ptr = putUpdateLeaseWithLimit(&m->omsg, ptr, DEFAULT_UPDATE_LEASE, limit); if (!ptr) goto exit; } if (rr->Private) { LogInfo("SendRecordRegistration TCP %p %s", rr->tcp, ARDisplayString(m, rr)); if (rr->tcp) LogInfo("SendRecordRegistration: Disposing existing TCP connection for %s", ARDisplayString(m, rr)); if (rr->tcp) { DisposeTCPConn(rr->tcp); rr->tcp = mDNSNULL; } if (!rr->nta) { LogMsg("SendRecordRegistration:Private:ERROR!! nta is NULL for %s", ARDisplayString(m, rr)); return; } rr->tcp = MakeTCPConn(m, &m->omsg, ptr, kTCPSocketFlags_UseTLS, &rr->nta->Addr, rr->nta->Port, &rr->nta->Host, mDNSNULL, rr); } else { LogInfo("SendRecordRegistration UDP %s", ARDisplayString(m, rr)); if (!rr->nta) { LogMsg("SendRecordRegistration:ERROR!! nta is NULL for %s", ARDisplayString(m, rr)); return; } err = mDNSSendDNSMessage(m, &m->omsg, ptr, mDNSInterface_Any, mDNSNULL, &rr->nta->Addr, rr->nta->Port, mDNSNULL, GetAuthInfoForName_internal(m, rr->resrec.name), mDNSfalse); if (err) debugf("ERROR: SendRecordRegistration - mDNSSendDNSMessage - %d", err); } SetRecordRetry(m, rr, 0); return; exit: LogMsg("SendRecordRegistration: Error formatting message for %s, disabling further updates", ARDisplayString(m, rr)); // Disable this record from future updates rr->state = regState_NoTarget; } // Is the given record "rr" eligible for merging ? mDNSlocal mDNSBool IsRecordMergeable(mDNS *const m, AuthRecord *rr, mDNSs32 time) { DomainAuthInfo *info; (void) m; //unused // A record is eligible for merge, if the following properties are met. // // 1. uDNS Resource Record // 2. It is time to send them now // 3. It is in proper state // 4. Update zone has been resolved // 5. if DomainAuthInfo exists for the zone, it should not be soon deleted // 6. Zone information is present // 7. Update server is not zero // 8. It has a non-null zone // 9. It uses a lease option // 10. DontMerge is not set // // Following code is implemented as separate "if" statements instead of one "if" statement // is for better debugging purposes e.g., we know exactly what failed if debugging turned on. if (!AuthRecord_uDNS(rr)) return mDNSfalse; if (rr->LastAPTime + rr->ThisAPInterval - time > 0) { debugf("IsRecordMergeable: Time %d not reached for %s", rr->LastAPTime + rr->ThisAPInterval - m->timenow, ARDisplayString(m, rr)); return mDNSfalse; } if (!rr->zone) return mDNSfalse; info = GetAuthInfoForName_internal(m, rr->zone); if (info && info->deltime && m->timenow - info->deltime >= 0) {debugf("IsRecordMergeable: Domain %##s will be deleted soon", info->domain.c); return mDNSfalse;} if (rr->state != regState_DeregPending && rr->state != regState_Pending && rr->state != regState_Registered && rr->state != regState_Refresh && rr->state != regState_UpdatePending) { debugf("IsRecordMergeable: state %d not right %s", rr->state, ARDisplayString(m, rr)); return mDNSfalse; } if (!rr->nta || mDNSIPv4AddressIsZero(rr->nta->Addr.ip.v4)) return mDNSfalse; if (!rr->uselease) return mDNSfalse; if (rr->mState == mergeState_DontMerge) {debugf("IsRecordMergeable Dontmerge true %s", ARDisplayString(m, rr)); return mDNSfalse;} debugf("IsRecordMergeable: Returning true for %s", ARDisplayString(m, rr)); return mDNStrue; } // Is the resource record "rr" eligible to merge to with "currentRR" ? mDNSlocal mDNSBool AreRecordsMergeable(mDNS *const m, AuthRecord *currentRR, AuthRecord *rr, mDNSs32 time) { // A record is eligible to merge with another record as long it is eligible for merge in itself // and it has the same zone information as the other record if (!IsRecordMergeable(m, rr, time)) return mDNSfalse; if (!SameDomainName(currentRR->zone, rr->zone)) { debugf("AreRecordMergeable zone mismatch current rr Zone %##s, rr zone %##s", currentRR->zone->c, rr->zone->c); return mDNSfalse; } if (!mDNSSameIPv4Address(currentRR->nta->Addr.ip.v4, rr->nta->Addr.ip.v4)) return mDNSfalse; if (!mDNSSameIPPort(currentRR->nta->Port, rr->nta->Port)) return mDNSfalse; debugf("AreRecordsMergeable: Returning true for %s", ARDisplayString(m, rr)); return mDNStrue; } // If we can't build the message successfully because of problems in pre-computing // the space, we disable merging for all the current records mDNSlocal void RRMergeFailure(mDNS *const m) { AuthRecord *rr; for (rr = m->ResourceRecords; rr; rr = rr->next) { rr->mState = mergeState_DontMerge; rr->SendRNow = mDNSNULL; // Restarting the registration is much simpler than saving and restoring // the exact time ActivateUnicastRegistration(m, rr); } } mDNSlocal void SendGroupRRMessage(mDNS *const m, AuthRecord *anchorRR, mDNSu8 *ptr, DomainAuthInfo *info) { mDNSu8 *limit; if (!anchorRR) {debugf("SendGroupRRMessage: Could not merge records"); return;} if (info && info->AutoTunnel) limit = m->omsg.data + AbsoluteMaxDNSMessageData; else limit = m->omsg.data + NormalMaxDNSMessageData; // This has to go in the additional section and hence need to be done last ptr = putUpdateLeaseWithLimit(&m->omsg, ptr, DEFAULT_UPDATE_LEASE, limit); if (!ptr) { LogMsg("SendGroupRRMessage: ERROR: Could not put lease option, failing the group registration"); // if we can't put the lease, we need to undo the merge RRMergeFailure(m); return; } if (anchorRR->Private) { if (anchorRR->tcp) debugf("SendGroupRRMessage: Disposing existing TCP connection for %s", ARDisplayString(m, anchorRR)); if (anchorRR->tcp) { DisposeTCPConn(anchorRR->tcp); anchorRR->tcp = mDNSNULL; } if (!anchorRR->nta) { LogMsg("SendGroupRRMessage:ERROR!! nta is NULL for %s", ARDisplayString(m, anchorRR)); return; } anchorRR->tcp = MakeTCPConn(m, &m->omsg, ptr, kTCPSocketFlags_UseTLS, &anchorRR->nta->Addr, anchorRR->nta->Port, &anchorRR->nta->Host, mDNSNULL, anchorRR); if (!anchorRR->tcp) LogInfo("SendGroupRRMessage: Cannot establish TCP connection for %s", ARDisplayString(m, anchorRR)); else LogInfo("SendGroupRRMessage: Sent a group update ID: %d start %p, end %p, limit %p", mDNSVal16(m->omsg.h.id), m->omsg.data, ptr, limit); } else { mStatus err = mDNSSendDNSMessage(m, &m->omsg, ptr, mDNSInterface_Any, mDNSNULL, &anchorRR->nta->Addr, anchorRR->nta->Port, mDNSNULL, info, mDNSfalse); if (err) LogInfo("SendGroupRRMessage: Cannot send UDP message for %s", ARDisplayString(m, anchorRR)); else LogInfo("SendGroupRRMessage: Sent a group UDP update ID: %d start %p, end %p, limit %p", mDNSVal16(m->omsg.h.id), m->omsg.data, ptr, limit); } return; } // As we always include the zone information and the resource records contain zone name // at the end, it will get compressed. Hence, we subtract zoneSize and add two bytes for // the compression pointer mDNSlocal mDNSu32 RREstimatedSize(AuthRecord *rr, int zoneSize) { int rdlength; // Note: Estimation of the record size has to mirror the logic in BuildUpdateMessage, otherwise estimation // would be wrong. Currently BuildUpdateMessage calls SetNewRData in UpdatePending case. Hence, we need // to account for that here. Otherwise, we might under estimate the size. if (rr->state == regState_UpdatePending) // old RData that will be deleted // new RData that will be added rdlength = rr->OrigRDLen + rr->InFlightRDLen; else rdlength = rr->resrec.rdestimate; if (rr->state == regState_DeregPending) { debugf("RREstimatedSize: ResourceRecord %##s (%s), DomainNameLength %d, zoneSize %d, rdestimate %d", rr->resrec.name->c, DNSTypeName(rr->resrec.rrtype), DomainNameLength(rr->resrec.name), zoneSize, rdlength); return DomainNameLength(rr->resrec.name) - zoneSize + 2 + 10 + rdlength; } // For SRV, TXT, AAAA etc. that are Unique/Verified, we also send a Deletion Record if (rr->resrec.RecordType == kDNSRecordTypeKnownUnique || rr->resrec.RecordType == kDNSRecordTypeVerified) { // Deletion Record: Resource Record Name + Base size (10) + 0 // Record: Resource Record Name (Compressed = 2) + Base size (10) + rdestimate debugf("RREstimatedSize: ResourceRecord %##s (%s), DomainNameLength %d, zoneSize %d, rdestimate %d", rr->resrec.name->c, DNSTypeName(rr->resrec.rrtype), DomainNameLength(rr->resrec.name), zoneSize, rdlength); return DomainNameLength(rr->resrec.name) - zoneSize + 2 + 10 + 2 + 10 + rdlength; } else { return DomainNameLength(rr->resrec.name) - zoneSize + 2 + 10 + rdlength; } } mDNSlocal AuthRecord *MarkRRForSending(mDNS *const m) { AuthRecord *rr; AuthRecord *firstRR = mDNSNULL; // Look for records that needs to be sent in the next two seconds (MERGE_DELAY_TIME is set to 1 second). // The logic is as follows. // // 1. Record 1 finishes getting zone data and its registration gets delayed by 1 second // 2. Record 2 comes 0.1 second later, finishes getting its zone data and its registration is also delayed by // 1 second which is now scheduled at 1.1 second // // By looking for 1 second into the future (m->timenow + MERGE_DELAY_TIME below does that) we have merged both // of the above records. Note that we can't look for records too much into the future as this will affect the // retry logic. The first retry is scheduled at 3 seconds. Hence, we should always look smaller than that. // Anything more than one second will affect the first retry to happen sooner. // // Note: As a side effect of looking one second into the future to facilitate merging, the retries happen // one second sooner. for (rr = m->ResourceRecords; rr; rr = rr->next) { if (!firstRR) { if (!IsRecordMergeable(m, rr, m->timenow + MERGE_DELAY_TIME)) continue; firstRR = rr; } else if (!AreRecordsMergeable(m, firstRR, rr, m->timenow + MERGE_DELAY_TIME)) continue; if (rr->SendRNow) LogMsg("MarkRRForSending: Resourcerecord %s already marked for sending", ARDisplayString(m, rr)); rr->SendRNow = uDNSInterfaceMark; } // We parsed through all records and found something to send. The services/records might // get registered at different times but we want the refreshes to be all merged and sent // as one update. Hence, we accelerate some of the records so that they will sync up in // the future. Look at the records excluding the ones that we have already sent in the // previous pass. If it half way through its scheduled refresh/retransmit, merge them // into this packet. // // Note that we only look at Registered/Refresh state to keep it simple. As we don't know // whether the current update will fit into one or more packets, merging a resource record // (which is in a different state) that has been scheduled for retransmit would trigger // sending more packets. if (firstRR) { int acc = 0; for (rr = m->ResourceRecords; rr; rr = rr->next) { if ((rr->state != regState_Registered && rr->state != regState_Refresh) || (rr->SendRNow == uDNSInterfaceMark) || (!AreRecordsMergeable(m, firstRR, rr, m->timenow + rr->ThisAPInterval/2))) continue; rr->SendRNow = uDNSInterfaceMark; acc++; } if (acc) LogInfo("MarkRRForSending: Accelereated %d records", acc); } return firstRR; } mDNSlocal mDNSBool SendGroupUpdates(mDNS *const m) { mDNSOpaque16 msgid; mDNSs32 spaceleft = 0; mDNSs32 zoneSize, rrSize; mDNSu8 *oldnext; // for debugging mDNSu8 *next = m->omsg.data; AuthRecord *rr; AuthRecord *anchorRR = mDNSNULL; int nrecords = 0; AuthRecord *startRR = m->ResourceRecords; mDNSu8 *limit = mDNSNULL; DomainAuthInfo *AuthInfo = mDNSNULL; mDNSBool sentallRecords = mDNStrue; // We try to fit as many ResourceRecords as possible in AbsoluteNormal/MaxDNSMessageData. Before we start // putting in resource records, we need to reserve space for a few things. Every group/packet should // have the following. // // 1) Needs space for the Zone information (which needs to be at the beginning) // 2) Additional section MUST have space for lease option, HINFO and TSIG option (which needs to // to be at the end) // // In future we need to reserve space for the pre-requisites which also goes at the beginning. // To accomodate pre-requisites in the future, first we walk the whole list marking records // that can be sent in this packet and computing the space needed for these records. // For TXT and SRV records, we delete the previous record if any by sending the same // resource record with ANY RDATA and zero rdlen. Hence, we need to have space for both of them. while (startRR) { AuthInfo = mDNSNULL; anchorRR = mDNSNULL; nrecords = 0; zoneSize = 0; for (rr = startRR; rr; rr = rr->next) { if (rr->SendRNow != uDNSInterfaceMark) continue; rr->SendRNow = mDNSNULL; if (!anchorRR) { AuthInfo = GetAuthInfoForName_internal(m, rr->zone); // Though we allow single record registrations for UDP to be AbsoluteMaxDNSMessageData (See // SendRecordRegistration) to handle large TXT records, to avoid fragmentation we limit UDP // message to NormalMaxDNSMessageData if (AuthInfo && AuthInfo->AutoTunnel) spaceleft = AbsoluteMaxDNSMessageData; else spaceleft = NormalMaxDNSMessageData; next = m->omsg.data; spaceleft -= RRAdditionalSize(m, AuthInfo); if (spaceleft <= 0) { LogMsg("SendGroupUpdates: ERROR!!: spaceleft is zero at the beginning"); RRMergeFailure(m); return mDNSfalse; } limit = next + spaceleft; // Build the initial part of message before putting in the other records msgid = mDNS_NewMessageID(m); InitializeDNSMessage(&m->omsg.h, msgid, UpdateReqFlags); // We need zone information at the beginning of the packet. Length: ZNAME, ZTYPE(2), ZCLASS(2) // zone has to be non-NULL for a record to be mergeable, hence it is safe to set/ examine zone //without checking for NULL. zoneSize = DomainNameLength(rr->zone) + 4; spaceleft -= zoneSize; if (spaceleft <= 0) { LogMsg("SendGroupUpdates: ERROR no space for zone information, disabling merge"); RRMergeFailure(m); return mDNSfalse; } next = putZone(&m->omsg, next, limit, rr->zone, mDNSOpaque16fromIntVal(rr->resrec.rrclass)); if (!next) { LogMsg("SendGroupUpdates: ERROR! Cannot put zone, disabling merge"); RRMergeFailure(m); return mDNSfalse; } anchorRR = rr; } rrSize = RREstimatedSize(rr, zoneSize - 4); if ((spaceleft - rrSize) < 0) { // If we can't fit even a single message, skip it, it will be sent separately // in CheckRecordUpdates if (!nrecords) { LogInfo("SendGroupUpdates: Skipping message %s, spaceleft %d, rrSize %d", ARDisplayString(m, rr), spaceleft, rrSize); // Mark this as not sent so that the caller knows about it rr->SendRNow = uDNSInterfaceMark; // We need to remove the merge delay so that we can send it immediately rr->ThisAPInterval = INIT_RECORD_REG_INTERVAL; rr->LastAPTime = m->timenow - INIT_RECORD_REG_INTERVAL; rr = rr->next; anchorRR = mDNSNULL; sentallRecords = mDNSfalse; } else { LogInfo("SendGroupUpdates:1: Parsed %d records and sending using %s, spaceleft %d, rrSize %d", nrecords, ARDisplayString(m, anchorRR), spaceleft, rrSize); SendGroupRRMessage(m, anchorRR, next, AuthInfo); } break; // breaks out of for loop } spaceleft -= rrSize; oldnext = next; LogInfo("SendGroupUpdates: Building a message with resource record %s, next %p, state %d, ttl %d", ARDisplayString(m, rr), next, rr->state, rr->resrec.rroriginalttl); if (!(next = BuildUpdateMessage(m, next, rr, limit))) { // We calculated the space and if we can't fit in, we had some bug in the calculation, // disable merge completely. LogMsg("SendGroupUpdates: ptr NULL while building message with %s", ARDisplayString(m, rr)); RRMergeFailure(m); return mDNSfalse; } // If our estimate was higher, adjust to the actual size if ((next - oldnext) > rrSize) LogMsg("SendGroupUpdates: ERROR!! Record size estimation is wrong for %s, Estimate %d, Actual %d, state %d", ARDisplayString(m, rr), rrSize, next - oldnext, rr->state); else { spaceleft += rrSize; spaceleft -= (next - oldnext); } nrecords++; // We could have sent an update earlier with this "rr" as anchorRR for which we never got a response. // To preserve ordering, we blow away the previous connection before sending this. if (rr->tcp) { DisposeTCPConn(rr->tcp); rr->tcp = mDNSNULL;} rr->updateid = msgid; // By setting the retry time interval here, we will not be looking at these records // again when we return to CheckGroupRecordUpdates. SetRecordRetry(m, rr, 0); } // Either we have parsed all the records or stopped at "rr" above due to lack of space startRR = rr; } if (anchorRR) { LogInfo("SendGroupUpdates: Parsed %d records and sending using %s", nrecords, ARDisplayString(m, anchorRR)); SendGroupRRMessage(m, anchorRR, next, AuthInfo); } return sentallRecords; } // Merge the record registrations and send them as a group only if they // have same DomainAuthInfo and hence the same key to put the TSIG mDNSlocal void CheckGroupRecordUpdates(mDNS *const m) { AuthRecord *rr, *nextRR; // Keep sending as long as there is at least one record to be sent while (MarkRRForSending(m)) { if (!SendGroupUpdates(m)) { // if everything that was marked was not sent, send them out individually for (rr = m->ResourceRecords; rr; rr = nextRR) { // SendRecordRegistrtion might delete the rr from list, hence // dereference nextRR before calling the function nextRR = rr->next; if (rr->SendRNow == uDNSInterfaceMark) { // Any records marked for sending should be eligible to be sent out // immediately. Just being cautious if (rr->LastAPTime + rr->ThisAPInterval - m->timenow > 0) { LogMsg("CheckGroupRecordUpdates: ERROR!! Resourcerecord %s not ready", ARDisplayString(m, rr)); continue; } rr->SendRNow = mDNSNULL; SendRecordRegistration(m, rr); } } } } debugf("CheckGroupRecordUpdates: No work, returning"); return; } mDNSlocal void hndlSRVChanged(mDNS *const m, AuthRecord *rr) { // Reevaluate the target always as NAT/Target could have changed while // we were registering/deeregistering domainname *dt; const domainname *target = GetServiceTarget(m, rr); if (!target || target->c[0] == 0) { // we don't have a target, if we just derregistered, then we don't have to do anything if (rr->state == regState_DeregPending) { LogInfo("hndlSRVChanged: SRVChanged, No Target, SRV Deregistered for %##s, state %d", rr->resrec.name->c, rr->state); rr->SRVChanged = mDNSfalse; dt = GetRRDomainNameTarget(&rr->resrec); if (dt) dt->c[0] = 0; rr->state = regState_NoTarget; // Wait for the next target change rr->resrec.rdlength = rr->resrec.rdestimate = 0; return; } // we don't have a target, if we just registered, we need to deregister if (rr->state == regState_Pending) { LogInfo("hndlSRVChanged: SRVChanged, No Target, Deregistering again %##s, state %d", rr->resrec.name->c, rr->state); rr->ThisAPInterval = INIT_RECORD_REG_INTERVAL; rr->LastAPTime = m->timenow - INIT_RECORD_REG_INTERVAL; rr->state = regState_DeregPending; return; } LogInfo("hndlSRVChanged: Not in DeregPending or RegPending state %##s, state %d", rr->resrec.name->c, rr->state); } else { // If we were in registered state and SRV changed to NULL, we deregister and come back here // if we have a target, we need to register again. // // if we just registered check to see if it is same. If it is different just re-register the // SRV and its assoicated records // // UpdateOneSRVRecord takes care of re-registering all service records if ((rr->state == regState_DeregPending) || (rr->state == regState_Pending && !SameDomainName(target, &rr->resrec.rdata->u.srv.target))) { dt = GetRRDomainNameTarget(&rr->resrec); if (dt) dt->c[0] = 0; rr->state = regState_NoTarget; // NoTarget will allow us to pick up new target OR nat traversal state rr->resrec.rdlength = rr->resrec.rdestimate = 0; LogInfo("hndlSRVChanged: SRVChanged, Valid Target %##s, Registering all records for %##s, state %d", target->c, rr->resrec.name->c, rr->state); rr->SRVChanged = mDNSfalse; UpdateOneSRVRecord(m, rr); return; } // Target did not change while this record was registering. Hence, we go to // Registered state - the state we started from. if (rr->state == regState_Pending) rr->state = regState_Registered; } rr->SRVChanged = mDNSfalse; } // Called with lock held mDNSlocal void hndlRecordUpdateReply(mDNS *m, AuthRecord *rr, mStatus err, mDNSu32 random) { mDNSBool InvokeCallback = mDNStrue; mDNSIPPort UpdatePort = zeroIPPort; mDNS_CheckLock(m); LogInfo("hndlRecordUpdateReply: err %d ID %d state %d %s(%p)", err, mDNSVal16(rr->updateid), rr->state, ARDisplayString(m, rr), rr); rr->updateError = err; #if APPLE_OSX_mDNSResponder if (err == mStatus_BadSig || err == mStatus_BadKey || err == mStatus_BadTime) UpdateAutoTunnelDomainStatuses(m); #endif SetRecordRetry(m, rr, random); rr->updateid = zeroID; // Make sure that this is not considered as part of a group anymore // Later when need to send an update, we will get the zone data again. Thus we avoid // using stale information. // // Note: By clearing out the zone info here, it also helps better merging of records // in some cases. For example, when we get out regState_NoTarget state e.g., move out // of Double NAT, we want all the records to be in one update. Some BTMM records like // _autotunnel6 and host records are registered/deregistered when NAT state changes. // As they are re-registered the zone information is cleared out. To merge with other // records that might be possibly going out, clearing out the information here helps // as all of them try to get the zone data. if (rr->nta) { // We always expect the question to be stopped when we get a valid response from the server. // If the zone info tries to change during this time, updateid would be different and hence // this response should not have been accepted. if (rr->nta->question.ThisQInterval != -1) LogMsg("hndlRecordUpdateReply: ResourceRecord %s, zone info question %##s (%s) interval %d not -1", ARDisplayString(m, rr), rr->nta->question.qname.c, DNSTypeName(rr->nta->question.qtype), rr->nta->question.ThisQInterval); UpdatePort = rr->nta->Port; CancelGetZoneData(m, rr->nta); rr->nta = mDNSNULL; } // If we are deregistering the record, then complete the deregistration. Ignore any NAT/SRV change // that could have happened during that time. if (rr->resrec.RecordType == kDNSRecordTypeDeregistering && rr->state == regState_DeregPending) { debugf("hndlRecordUpdateReply: Received reply for deregister record %##s type %d", rr->resrec.name->c, rr->resrec.rrtype); if (err) LogMsg("ERROR: Deregistration of record %##s type %d failed with error %d", rr->resrec.name->c, rr->resrec.rrtype, err); rr->state = regState_Unregistered; CompleteDeregistration(m, rr); return; } // We are returning early without updating the state. When we come back from sleep we will re-register after // re-initializing all the state as though it is a first registration. If the record can't be registered e.g., // no target, it will be deregistered. Hence, the updating to the right state should not matter when going // to sleep. if (m->SleepState) { // Need to set it to NoTarget state so that RecordReadyForSleep knows that // we are done if (rr->resrec.rrtype == kDNSType_SRV && rr->state == regState_DeregPending) rr->state = regState_NoTarget; return; } if (rr->state == regState_UpdatePending) { if (err) LogMsg("Update record failed for %##s (err %d)", rr->resrec.name->c, err); rr->state = regState_Registered; // deallocate old RData if (rr->UpdateCallback) rr->UpdateCallback(m, rr, rr->OrigRData, rr->OrigRDLen); SetNewRData(&rr->resrec, rr->InFlightRData, rr->InFlightRDLen); rr->OrigRData = mDNSNULL; rr->InFlightRData = mDNSNULL; } if (rr->SRVChanged) { if (rr->resrec.rrtype == kDNSType_SRV) hndlSRVChanged(m, rr); else { LogInfo("hndlRecordUpdateReply: Deregistered %##s (%s), state %d", rr->resrec.name->c, DNSTypeName(rr->resrec.rrtype), rr->state); rr->SRVChanged = mDNSfalse; if (rr->state != regState_DeregPending) LogMsg("hndlRecordUpdateReply: ResourceRecord %s not in DeregPending state %d", ARDisplayString(m, rr), rr->state); rr->state = regState_NoTarget; // Wait for the next target change } return; } if (rr->state == regState_Pending || rr->state == regState_Refresh) { if (!err) { if (rr->state == regState_Refresh) InvokeCallback = mDNSfalse; rr->state = regState_Registered; } else { // Retry without lease only for non-Private domains LogMsg("hndlRecordUpdateReply: Registration of record %##s type %d failed with error %d", rr->resrec.name->c, rr->resrec.rrtype, err); if (!rr->Private && rr->uselease && err == mStatus_UnknownErr && mDNSSameIPPort(UpdatePort, UnicastDNSPort)) { LogMsg("hndlRecordUpdateReply: Will retry update of record %##s without lease option", rr->resrec.name->c); rr->uselease = mDNSfalse; rr->ThisAPInterval = INIT_RECORD_REG_INTERVAL; rr->LastAPTime = m->timenow - INIT_RECORD_REG_INTERVAL; SetNextuDNSEvent(m, rr); return; } // Communicate the error to the application in the callback below } } if (rr->QueuedRData && rr->state == regState_Registered) { rr->state = regState_UpdatePending; rr->InFlightRData = rr->QueuedRData; rr->InFlightRDLen = rr->QueuedRDLen; rr->OrigRData = rr->resrec.rdata; rr->OrigRDLen = rr->resrec.rdlength; rr->QueuedRData = mDNSNULL; rr->ThisAPInterval = INIT_RECORD_REG_INTERVAL; rr->LastAPTime = m->timenow - INIT_RECORD_REG_INTERVAL; SetNextuDNSEvent(m, rr); return; } // Don't invoke the callback on error as this may not be useful to the client. // The client may potentially delete the resource record on error which we normally // delete during deregistration if (!err && InvokeCallback && rr->RecordCallback) { LogInfo("hndlRecordUpdateReply: Calling record callback on %##s", rr->resrec.name->c); mDNS_DropLockBeforeCallback(); rr->RecordCallback(m, rr, err); mDNS_ReclaimLockAfterCallback(); } // CAUTION: MUST NOT do anything more with rr after calling rr->Callback(), because the client's callback function // is allowed to do anything, including starting/stopping queries, registering/deregistering records, etc. } mDNSlocal void uDNS_ReceiveNATPMPPacket(mDNS *m, const mDNSInterfaceID InterfaceID, mDNSu8 *pkt, mDNSu16 len) { NATTraversalInfo *ptr; NATAddrReply *AddrReply = (NATAddrReply *)pkt; NATPortMapReply *PortMapReply = (NATPortMapReply *)pkt; mDNSu32 nat_elapsed, our_elapsed; // Minimum NAT-PMP packet is vers (1) opcode (1) + err (2) = 4 bytes if (len < 4) { LogMsg("NAT-PMP message too short (%d bytes)", len); return; } // Read multi-byte error value (field is identical in a NATPortMapReply) AddrReply->err = (mDNSu16) ((mDNSu16)pkt[2] << 8 | pkt[3]); if (AddrReply->err == NATErr_Vers) { NATTraversalInfo *n; LogInfo("NAT-PMP version unsupported message received"); for (n = m->NATTraversals; n; n=n->next) { // Send a NAT-PMP request for this operation as needed // and update the state variables uDNS_SendNATMsg(m, n, mDNSfalse); } m->NextScheduledNATOp = m->timenow; return; } // The minimum reasonable NAT-PMP packet length is vers (1) + opcode (1) + err (2) + upseconds (4) = 8 bytes // If it's not at least this long, bail before we byte-swap the upseconds field & overrun our buffer. // The retry timer will ensure we converge to correctness. if (len < 8) { LogMsg("NAT-PMP message too short (%d bytes) 0x%X 0x%X", len, AddrReply->opcode, AddrReply->err); return; } // Read multi-byte upseconds value (field is identical in a NATPortMapReply) AddrReply->upseconds = (mDNSs32) ((mDNSs32)pkt[4] << 24 | (mDNSs32)pkt[5] << 16 | (mDNSs32)pkt[6] << 8 | pkt[7]); nat_elapsed = AddrReply->upseconds - m->LastNATupseconds; our_elapsed = (m->timenow - m->LastNATReplyLocalTime) / mDNSPlatformOneSecond; debugf("uDNS_ReceiveNATPMPPacket %X upseconds %u nat_elapsed %d our_elapsed %d", AddrReply->opcode, AddrReply->upseconds, nat_elapsed, our_elapsed); // We compute a conservative estimate of how much the NAT gateways's clock should have advanced // 1. We subtract 12.5% from our own measured elapsed time, to allow for NAT gateways that have an inacurate clock that runs slowly // 2. We add a two-second safety margin to allow for rounding errors: e.g. // -- if NAT gateway sends a packet at t=2.000 seconds, then one at t=7.999, that's approximately 6 real seconds, // but based on the values in the packet (2,7) the apparent difference according to the packet is only 5 seconds // -- if we're slow handling packets and/or we have coarse clock granularity, // we could receive the t=2 packet at our t=1.999 seconds, which we round down to 1 // and the t=7.999 packet at our t=8.000 seconds, which we record as 8, // giving an apparent local time difference of 7 seconds // The two-second safety margin coves this possible calculation discrepancy if (AddrReply->upseconds < m->LastNATupseconds || nat_elapsed + 2 < our_elapsed - our_elapsed/8) { LogMsg("NAT-PMP epoch time check failed: assuming NAT gateway %#a rebooted", &m->Router); RecreateNATMappings(m, 0); } m->LastNATupseconds = AddrReply->upseconds; m->LastNATReplyLocalTime = m->timenow; #ifdef _LEGACY_NAT_TRAVERSAL_ LNT_ClearState(m); #endif // _LEGACY_NAT_TRAVERSAL_ if (AddrReply->opcode == NATOp_AddrResponse) { #if APPLE_OSX_mDNSResponder static char msgbuf[16]; mDNS_snprintf(msgbuf, sizeof(msgbuf), "%d", AddrReply->err); mDNSASLLog((uuid_t *)&m->asl_uuid, "natt.natpmp.AddressRequest", AddrReply->err ? "failure" : "success", msgbuf, ""); #endif if (!AddrReply->err && len < sizeof(NATAddrReply)) { LogMsg("NAT-PMP AddrResponse message too short (%d bytes)", len); return; } natTraversalHandleAddressReply(m, AddrReply->err, AddrReply->ExtAddr); } else if (AddrReply->opcode == NATOp_MapUDPResponse || AddrReply->opcode == NATOp_MapTCPResponse) { mDNSu8 Protocol = AddrReply->opcode & 0x7F; #if APPLE_OSX_mDNSResponder static char msgbuf[16]; mDNS_snprintf(msgbuf, sizeof(msgbuf), "%s - %d", AddrReply->opcode == NATOp_MapUDPResponse ? "UDP" : "TCP", PortMapReply->err); mDNSASLLog((uuid_t *)&m->asl_uuid, "natt.natpmp.PortMapRequest", PortMapReply->err ? "failure" : "success", msgbuf, ""); #endif if (!PortMapReply->err) { if (len < sizeof(NATPortMapReply)) { LogMsg("NAT-PMP PortMapReply message too short (%d bytes)", len); return; } PortMapReply->NATRep_lease = (mDNSu32) ((mDNSu32)pkt[12] << 24 | (mDNSu32)pkt[13] << 16 | (mDNSu32)pkt[14] << 8 | pkt[15]); } // Since some NAT-PMP server implementations don't return the requested internal port in // the reply, we can't associate this reply with a particular NATTraversalInfo structure. // We globally keep track of the most recent error code for mappings. m->LastNATMapResultCode = PortMapReply->err; for (ptr = m->NATTraversals; ptr; ptr=ptr->next) if (ptr->Protocol == Protocol && mDNSSameIPPort(ptr->IntPort, PortMapReply->intport)) natTraversalHandlePortMapReply(m, ptr, InterfaceID, PortMapReply->err, PortMapReply->extport, PortMapReply->NATRep_lease, NATTProtocolNATPMP); } else { LogMsg("Received NAT-PMP response with unknown opcode 0x%X", AddrReply->opcode); return; } // Don't need an SSDP socket if we get a NAT-PMP packet if (m->SSDPSocket) { debugf("uDNS_ReceiveNATPMPPacket destroying SSDPSocket %p", &m->SSDPSocket); mDNSPlatformUDPClose(m->SSDPSocket); m->SSDPSocket = mDNSNULL; } } mDNSlocal void uDNS_ReceivePCPPacket(mDNS *m, const mDNSInterfaceID InterfaceID, mDNSu8 *pkt, mDNSu16 len) { NATTraversalInfo *ptr; PCPMapReply *reply = (PCPMapReply*)pkt; mDNSu32 client_delta, server_delta; mDNSBool checkEpochValidity = m->LastNATupseconds != 0; mDNSu8 strippedOpCode; mDNSv4Addr mappedAddress = zerov4Addr; mDNSu8 protocol = 0; mDNSIPPort intport = zeroIPPort; mDNSIPPort extport = zeroIPPort; // Minimum PCP packet is 24 bytes if (len < 24) { LogMsg("uDNS_ReceivePCPPacket: message too short (%d bytes)", len); return; } strippedOpCode = reply->opCode & 0x7f; if ((reply->opCode & 0x80) == 0x00 || (strippedOpCode != PCPOp_Announce && strippedOpCode != PCPOp_Map)) { LogMsg("uDNS_ReceivePCPPacket: unhandled opCode %u", reply->opCode); return; } // Read multi-byte values reply->lifetime = (mDNSs32)((mDNSs32)pkt[4] << 24 | (mDNSs32)pkt[5] << 16 | (mDNSs32)pkt[ 6] << 8 | pkt[ 7]); reply->epoch = (mDNSs32)((mDNSs32)pkt[8] << 24 | (mDNSs32)pkt[9] << 16 | (mDNSs32)pkt[10] << 8 | pkt[11]); client_delta = (m->timenow - m->LastNATReplyLocalTime) / mDNSPlatformOneSecond; server_delta = reply->epoch - m->LastNATupseconds; debugf("uDNS_ReceivePCPPacket: %X %X upseconds %u client_delta %d server_delta %d", reply->opCode, reply->result, reply->epoch, client_delta, server_delta); // If seconds since the epoch is 0, use 1 so we'll check epoch validity next time m->LastNATupseconds = reply->epoch ? reply->epoch : 1; m->LastNATReplyLocalTime = m->timenow; #ifdef _LEGACY_NAT_TRAVERSAL_ LNT_ClearState(m); #endif // _LEGACY_NAT_TRAVERSAL_ // Don't need an SSDP socket if we get a PCP packet if (m->SSDPSocket) { debugf("uDNS_ReceivePCPPacket: destroying SSDPSocket %p", &m->SSDPSocket); mDNSPlatformUDPClose(m->SSDPSocket); m->SSDPSocket = mDNSNULL; } if (checkEpochValidity && (client_delta + 2 < server_delta - server_delta / 16 || server_delta + 2 < client_delta - client_delta / 16)) { // If this is an ANNOUNCE packet, wait a random interval up to 5 seconds // otherwise, refresh immediately mDNSu32 waitTicks = strippedOpCode ? 0 : mDNSRandom(PCP_WAITSECS_AFTER_EPOCH_INVALID * mDNSPlatformOneSecond); LogMsg("uDNS_ReceivePCPPacket: Epoch invalid, %#a likely rebooted, waiting %u ticks", &m->Router, waitTicks); RecreateNATMappings(m, waitTicks); // we can ignore the rest of this packet, as new requests are about to go out return; } if (strippedOpCode == PCPOp_Announce) return; // We globally keep track of the most recent error code for mappings. // This seems bad to do with PCP, but best not change it now. m->LastNATMapResultCode = reply->result; if (!reply->result) { if (len < sizeof(PCPMapReply)) { LogMsg("uDNS_ReceivePCPPacket: mapping response too short (%d bytes)", len); return; } // Check the nonce if (reply->nonce[0] != m->PCPNonce[0] || reply->nonce[1] != m->PCPNonce[1] || reply->nonce[2] != m->PCPNonce[2]) { LogMsg("uDNS_ReceivePCPPacket: invalid nonce, ignoring. received { %x %x %x } expected { %x %x %x }", reply->nonce[0], reply->nonce[1], reply->nonce[2], m->PCPNonce[0], m->PCPNonce[1], m->PCPNonce[2]); return; } // Get the values protocol = reply->protocol; intport = reply->intPort; extport = reply->extPort; // Get the external address, which should be mapped, since we only support IPv4 if (!mDNSAddrIPv4FromMappedIPv6(&reply->extAddress, &mappedAddress)) { LogMsg("uDNS_ReceivePCPPacket: unexpected external address: %.16a", &reply->extAddress); reply->result = NATErr_NetFail; // fall through to report the error } else if (mDNSIPv4AddressIsZero(mappedAddress)) { // If this is the deletion case, we will have sent the zero IPv4-mapped address // in our request, and the server should reflect it in the response, so we // should not log about receiving a zero address. And in this case, we no // longer have a NATTraversal to report errors back to, so it's ok to set the // result here. // In other cases, a zero address is an error, and we will have a NATTraversal // to report back to, so set an error and fall through to report it. // CheckNATMappings will log the error. reply->result = NATErr_NetFail; } } else { LogInfo("uDNS_ReceivePCPPacket: error received from server. opcode %X result %X lifetime %X epoch %X", reply->opCode, reply->result, reply->lifetime, reply->epoch); // If the packet is long enough, get the protocol & intport for matching to report // the error if (len >= sizeof(PCPMapReply)) { protocol = reply->protocol; intport = reply->intPort; } } for (ptr = m->NATTraversals; ptr; ptr=ptr->next) { mDNSu8 ptrProtocol = ((ptr->Protocol & NATOp_MapTCP) == NATOp_MapTCP ? PCPProto_TCP : PCPProto_UDP); if ((protocol == ptrProtocol && mDNSSameIPPort(ptr->IntPort, intport)) || (!ptr->Protocol && protocol == PCPProto_TCP && mDNSSameIPPort(DiscardPort, intport))) { natTraversalHandlePortMapReplyWithAddress(m, ptr, InterfaceID, reply->result ? NATErr_NetFail : NATErr_None, mappedAddress, extport, reply->lifetime, NATTProtocolPCP); } } } mDNSexport void uDNS_ReceiveNATPacket(mDNS *m, const mDNSInterfaceID InterfaceID, mDNSu8 *pkt, mDNSu16 len) { if (len == 0) LogMsg("uDNS_ReceiveNATPacket: zero length packet"); else if (pkt[0] == PCP_VERS) uDNS_ReceivePCPPacket(m, InterfaceID, pkt, len); else if (pkt[0] == NATMAP_VERS) uDNS_ReceiveNATPMPPacket(m, InterfaceID, pkt, len); else LogMsg("uDNS_ReceiveNATPacket: packet with version %u (expected %u or %u)", pkt[0], PCP_VERS, NATMAP_VERS); } // Shorten DNS-SD queries to avoid NAT bugs // Add check to avoid crashing NAT gateways that have buggy DNS relay code // // We know of bugs in home NAT gateways that cause them to crash if they receive certain DNS queries. // The DNS queries that make them crash are perfectly legal DNS queries, but even if they weren't, // the gateway shouldn't crash -- in today's world of viruses and network attacks, software has to // be written assuming that a malicious attacker could send them any packet, properly-formed or not. // Still, we don't want to be crashing people's home gateways, so we go out of our way to avoid // the queries that crash them. // // Some examples: // // 1. Any query where the name ends in ".in-addr.arpa." and the text before this is 32 or more bytes. // The query type does not need to be PTR -- the gateway will crash for any query type. // e.g. "ping long-name-crashes-the-buggy-router.in-addr.arpa" will crash one of these. // // 2. Any query that results in a large response with the TC bit set. // // 3. Any PTR query that doesn't begin with four decimal numbers. // These gateways appear to assume that the only possible PTR query is a reverse-mapping query // (e.g. "1.0.168.192.in-addr.arpa") and if they ever get a PTR query where the first four // labels are not all decimal numbers in the range 0-255, they handle that by crashing. // These gateways also ignore the remainder of the name following the four decimal numbers // -- whether or not it actually says in-addr.arpa, they just make up an answer anyway. // // The challenge therefore is to craft a query that will discern whether the DNS server // is one of these buggy ones, without crashing it. Furthermore we don't want our test // queries making it all the way to the root name servers, putting extra load on those // name servers and giving Apple a bad reputation. To this end we send this query: // dig -t ptr 1.0.0.127.dnsbugtest.1.0.0.127.in-addr.arpa. // // The text preceding the ".in-addr.arpa." is under 32 bytes, so it won't cause crash (1). // It will not yield a large response with the TC bit set, so it won't cause crash (2). // It starts with four decimal numbers, so it won't cause crash (3). // The name falls within the "1.0.0.127.in-addr.arpa." domain, the reverse-mapping name for the local // loopback address, and therefore the query will black-hole at the first properly-configured DNS server // it reaches, making it highly unlikely that this query will make it all the way to the root. // // Finally, the correct response to this query is NXDOMAIN or a similar error, but the // gateways that ignore the remainder of the name following the four decimal numbers // give themselves away by actually returning a result for this nonsense query. mDNSlocal const domainname *DNSRelayTestQuestion = (const domainname*) "\x1" "1" "\x1" "0" "\x1" "0" "\x3" "127" "\xa" "dnsbugtest" "\x1" "1" "\x1" "0" "\x1" "0" "\x3" "127" "\x7" "in-addr" "\x4" "arpa"; // See comments above for DNSRelayTestQuestion // If this is the kind of query that has the risk of crashing buggy DNS servers, we do a test question first mDNSlocal mDNSBool NoTestQuery(DNSQuestion *q) { int i; mDNSu8 *p = q->qname.c; if (q->AuthInfo) return(mDNStrue); // Don't need a test query for private queries sent directly to authoritative server over TLS/TCP if (q->qtype != kDNSType_PTR) return(mDNStrue); // Don't need a test query for any non-PTR queries for (i=0; i<4; i++) // If qname does not begin with num.num.num.num, can't skip the test query { if (p[0] < 1 || p[0] > 3) return(mDNSfalse); if ( p[1] < '0' || p[1] > '9' ) return(mDNSfalse); if (p[0] >= 2 && (p[2] < '0' || p[2] > '9')) return(mDNSfalse); if (p[0] >= 3 && (p[3] < '0' || p[3] > '9')) return(mDNSfalse); p += 1 + p[0]; } // If remainder of qname is ".in-addr.arpa.", this is a vanilla reverse-mapping query and // we can safely do it without needing a test query first, otherwise we need the test query. return(SameDomainName((domainname*)p, (const domainname*)"\x7" "in-addr" "\x4" "arpa")); } // Returns mDNStrue if response was handled mDNSlocal mDNSBool uDNS_ReceiveTestQuestionResponse(mDNS *const m, DNSMessage *const msg, const mDNSu8 *const end, const mDNSAddr *const srcaddr, const mDNSIPPort srcport) { const mDNSu8 *ptr = msg->data; DNSQuestion pktq; DNSServer *s; mDNSu32 result = 0; // 1. Find out if this is an answer to one of our test questions if (msg->h.numQuestions != 1) return(mDNSfalse); ptr = getQuestion(msg, ptr, end, mDNSInterface_Any, &pktq); if (!ptr) return(mDNSfalse); if (pktq.qtype != kDNSType_PTR || pktq.qclass != kDNSClass_IN) return(mDNSfalse); if (!SameDomainName(&pktq.qname, DNSRelayTestQuestion)) return(mDNSfalse); // 2. If the DNS relay gave us a positive response, then it's got buggy firmware // else, if the DNS relay gave us an error or no-answer response, it passed our test if ((msg->h.flags.b[1] & kDNSFlag1_RC_Mask) == kDNSFlag1_RC_NoErr && msg->h.numAnswers > 0) result = DNSServer_Failed; else result = DNSServer_Passed; // 3. Find occurrences of this server in our list, and mark them appropriately for (s = m->DNSServers; s; s = s->next) { mDNSBool matchaddr = (s->teststate != result && mDNSSameAddress(srcaddr, &s->addr) && mDNSSameIPPort(srcport, s->port)); mDNSBool matchid = (s->teststate == DNSServer_Untested && mDNSSameOpaque16(msg->h.id, s->testid)); if (matchaddr || matchid) { DNSQuestion *q; s->teststate = result; if (result == DNSServer_Passed) { LogInfo("DNS Server %#a:%d (%#a:%d) %d passed%s", &s->addr, mDNSVal16(s->port), srcaddr, mDNSVal16(srcport), mDNSVal16(s->testid), matchaddr ? "" : " NOTE: Reply did not come from address to which query was sent"); } else { LogMsg("NOTE: Wide-Area Service Discovery disabled to avoid crashing defective DNS relay %#a:%d (%#a:%d) %d%s", &s->addr, mDNSVal16(s->port), srcaddr, mDNSVal16(srcport), mDNSVal16(s->testid), matchaddr ? "" : " NOTE: Reply did not come from address to which query was sent"); } // If this server has just changed state from DNSServer_Untested to DNSServer_Passed, then retrigger any waiting questions. // We use the NoTestQuery() test so that we only retrigger questions that were actually blocked waiting for this test to complete. if (result == DNSServer_Passed) // Unblock any questions that were waiting for this result for (q = m->Questions; q; q=q->next) if (q->qDNSServer == s && !NoTestQuery(q)) { q->ThisQInterval = INIT_UCAST_POLL_INTERVAL / QuestionIntervalStep; q->unansweredQueries = 0; q->LastQTime = m->timenow - q->ThisQInterval; m->NextScheduledQuery = m->timenow; } } } return(mDNStrue); // Return mDNStrue to tell uDNS_ReceiveMsg it doesn't need to process this packet further } // Called from mDNSCoreReceive with the lock held mDNSexport void uDNS_ReceiveMsg(mDNS *const m, DNSMessage *const msg, const mDNSu8 *const end, const mDNSAddr *const srcaddr, const mDNSIPPort srcport) { DNSQuestion *qptr; mStatus err = mStatus_NoError; mDNSu8 StdR = kDNSFlag0_QR_Response | kDNSFlag0_OP_StdQuery; mDNSu8 UpdateR = kDNSFlag0_QR_Response | kDNSFlag0_OP_Update; mDNSu8 QR_OP = (mDNSu8)(msg->h.flags.b[0] & kDNSFlag0_QROP_Mask); mDNSu8 rcode = (mDNSu8)(msg->h.flags.b[1] & kDNSFlag1_RC_Mask); (void)srcport; // Unused debugf("uDNS_ReceiveMsg from %#-15a with " "%2d Question%s %2d Answer%s %2d Authorit%s %2d Additional%s %d bytes", srcaddr, msg->h.numQuestions, msg->h.numQuestions == 1 ? ", " : "s,", msg->h.numAnswers, msg->h.numAnswers == 1 ? ", " : "s,", msg->h.numAuthorities, msg->h.numAuthorities == 1 ? "y, " : "ies,", msg->h.numAdditionals, msg->h.numAdditionals == 1 ? "" : "s", end - msg->data); if (QR_OP == StdR) { //if (srcaddr && recvLLQResponse(m, msg, end, srcaddr, srcport)) return; if (uDNS_ReceiveTestQuestionResponse(m, msg, end, srcaddr, srcport)) return; for (qptr = m->Questions; qptr; qptr = qptr->next) if (msg->h.flags.b[0] & kDNSFlag0_TC && mDNSSameOpaque16(qptr->TargetQID, msg->h.id) && m->timenow - qptr->LastQTime < RESPONSE_WINDOW) { if (!srcaddr) LogMsg("uDNS_ReceiveMsg: TCP DNS response had TC bit set: ignoring"); else { // Don't reuse TCP connections. We might have failed over to a different DNS server // while the first TCP connection is in progress. We need a new TCP connection to the // new DNS server. So, always try to establish a new connection. if (qptr->tcp) { DisposeTCPConn(qptr->tcp); qptr->tcp = mDNSNULL; } qptr->tcp = MakeTCPConn(m, mDNSNULL, mDNSNULL, kTCPSocketFlags_Zero, srcaddr, srcport, mDNSNULL, qptr, mDNSNULL); } } } if (QR_OP == UpdateR) { mDNSu32 lease = GetPktLease(m, msg, end); mDNSs32 expire = m->timenow + (mDNSs32)lease * mDNSPlatformOneSecond; mDNSu32 random = mDNSRandom((mDNSs32)lease * mDNSPlatformOneSecond/10); //rcode = kDNSFlag1_RC_ServFail; // Simulate server failure (rcode 2) // Walk through all the records that matches the messageID. There could be multiple // records if we had sent them in a group if (m->CurrentRecord) LogMsg("uDNS_ReceiveMsg ERROR m->CurrentRecord already set %s", ARDisplayString(m, m->CurrentRecord)); m->CurrentRecord = m->ResourceRecords; while (m->CurrentRecord) { AuthRecord *rptr = m->CurrentRecord; m->CurrentRecord = m->CurrentRecord->next; if (AuthRecord_uDNS(rptr) && mDNSSameOpaque16(rptr->updateid, msg->h.id)) { err = checkUpdateResult(m, rptr->resrec.name, rcode, msg, end); if (!err && rptr->uselease && lease) if (rptr->expire - expire >= 0 || rptr->state != regState_UpdatePending) { rptr->expire = expire; rptr->refreshCount = 0; } // We pass the random value to make sure that if we update multiple // records, they all get the same random value hndlRecordUpdateReply(m, rptr, err, random); } } } debugf("Received unexpected response: ID %d matches no active records", mDNSVal16(msg->h.id)); } // *************************************************************************** #if COMPILER_LIKES_PRAGMA_MARK #pragma mark - Query Routines #endif mDNSexport void sendLLQRefresh(mDNS *m, DNSQuestion *q) { mDNSu8 *end; LLQOptData llq; mDNSu8 *limit = m->omsg.data + AbsoluteMaxDNSMessageData; if (q->ReqLease) if ((q->state == LLQ_Established && q->ntries >= kLLQ_MAX_TRIES) || q->expire - m->timenow < 0) { LogMsg("Unable to refresh LLQ %##s (%s) - will retry in %d seconds", q->qname.c, DNSTypeName(q->qtype), LLQ_POLL_INTERVAL / mDNSPlatformOneSecond); StartLLQPolling(m,q); return; } llq.vers = kLLQ_Vers; llq.llqOp = kLLQOp_Refresh; llq.err = q->tcp ? GetLLQEventPort(m, &q->servAddr) : LLQErr_NoError; // If using TCP tell server what UDP port to send notifications to llq.id = q->id; llq.llqlease = q->ReqLease; InitializeDNSMessage(&m->omsg.h, q->TargetQID, uQueryFlags); end = putLLQ(&m->omsg, m->omsg.data, q, &llq); if (!end) { LogMsg("sendLLQRefresh: putLLQ failed %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); return; } // Note that we (conditionally) add HINFO and TSIG here, since the question might be going away, // so we may not be able to reference it (most importantly it's AuthInfo) when we actually send the message end = putHINFO(m, &m->omsg, end, q->AuthInfo, limit); if (!end) { LogMsg("sendLLQRefresh: putHINFO failed %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); return; } if (PrivateQuery(q)) { DNSDigest_SignMessageHostByteOrder(&m->omsg, &end, q->AuthInfo); if (!end) { LogMsg("sendLLQRefresh: DNSDigest_SignMessage failed %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); return; } } if (PrivateQuery(q) && !q->tcp) { LogInfo("sendLLQRefresh setting up new TLS session %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); if (!q->nta) { // Note: If a question is in LLQ_Established state, we never free the zone data for the // question (PrivateQuery). If we free, we reset the state to something other than LLQ_Established. // This function is called only if the query is in LLQ_Established state and hence nta should // never be NULL. In spite of that, we have seen q->nta being NULL in the field. Just refetch the // zone data in that case. q->nta = StartGetZoneData(m, &q->qname, ZoneServiceLLQ, LLQGotZoneData, q); return; // ThisQInterval is not adjusted when we return from here which means that we will get called back // again immediately. As q->servAddr and q->servPort are still valid and the nta->Host is initialized // without any additional discovery for PrivateQuery, things work. } q->tcp = MakeTCPConn(m, &m->omsg, end, kTCPSocketFlags_UseTLS, &q->servAddr, q->servPort, &q->nta->Host, q, mDNSNULL); } else { mStatus err; // if AuthInfo and AuthInfo->AutoTunnel is set, we use the TCP socket but don't need to pass the AuthInfo as // we already protected the message above. LogInfo("sendLLQRefresh: using existing %s session %##s (%s)", PrivateQuery(q) ? "TLS" : "UDP", q->qname.c, DNSTypeName(q->qtype)); err = mDNSSendDNSMessage(m, &m->omsg, end, mDNSInterface_Any, q->LocalSocket, &q->servAddr, q->servPort, q->tcp ? q->tcp->sock : mDNSNULL, mDNSNULL, mDNSfalse); if (err) { LogMsg("sendLLQRefresh: mDNSSendDNSMessage%s failed: %d", q->tcp ? " (TCP)" : "", err); if (q->tcp) { DisposeTCPConn(q->tcp); q->tcp = mDNSNULL; } } } q->ntries++; debugf("sendLLQRefresh ntries %d %##s (%s)", q->ntries, q->qname.c, DNSTypeName(q->qtype)); q->LastQTime = m->timenow; SetNextQueryTime(m, q); } mDNSexport void LLQGotZoneData(mDNS *const m, mStatus err, const ZoneData *zoneInfo) { DNSQuestion *q = (DNSQuestion *)zoneInfo->ZoneDataContext; mDNS_Lock(m); // If we get here it means that the GetZoneData operation has completed. // We hold on to the zone data if it is AutoTunnel as we use the hostname // in zoneInfo during the TLS connection setup. q->servAddr = zeroAddr; q->servPort = zeroIPPort; if (!err && zoneInfo && !mDNSIPPortIsZero(zoneInfo->Port) && !mDNSAddressIsZero(&zoneInfo->Addr) && zoneInfo->Host.c[0]) { q->servAddr = zoneInfo->Addr; q->servPort = zoneInfo->Port; if (!PrivateQuery(q)) { // We don't need the zone data as we use it only for the Host information which we // don't need if we are not going to use TLS connections. if (q->nta) { if (q->nta != zoneInfo) LogMsg("LLQGotZoneData: nta (%p) != zoneInfo (%p) %##s (%s)", q->nta, zoneInfo, q->qname.c, DNSTypeName(q->qtype)); CancelGetZoneData(m, q->nta); q->nta = mDNSNULL; } } q->ntries = 0; debugf("LLQGotZoneData %#a:%d", &q->servAddr, mDNSVal16(q->servPort)); startLLQHandshake(m, q); } else { if (q->nta) { if (q->nta != zoneInfo) LogMsg("LLQGotZoneData: nta (%p) != zoneInfo (%p) %##s (%s)", q->nta, zoneInfo, q->qname.c, DNSTypeName(q->qtype)); CancelGetZoneData(m, q->nta); q->nta = mDNSNULL; } StartLLQPolling(m,q); if (err == mStatus_NoSuchNameErr) { // this actually failed, so mark it by setting address to all ones q->servAddr.type = mDNSAddrType_IPv4; q->servAddr.ip.v4 = onesIPv4Addr; } } mDNS_Unlock(m); } // Called in normal callback context (i.e. mDNS_busy and mDNS_reentrancy are both 1) mDNSlocal void PrivateQueryGotZoneData(mDNS *const m, mStatus err, const ZoneData *zoneInfo) { DNSQuestion *q = (DNSQuestion *) zoneInfo->ZoneDataContext; LogInfo("PrivateQueryGotZoneData %##s (%s) err %d Zone %##s Private %d", q->qname.c, DNSTypeName(q->qtype), err, zoneInfo->ZoneName.c, zoneInfo->ZonePrivate); if (q->nta != zoneInfo) LogMsg("PrivateQueryGotZoneData:ERROR!!: nta (%p) != zoneInfo (%p) %##s (%s)", q->nta, zoneInfo, q->qname.c, DNSTypeName(q->qtype)); if (err || !zoneInfo || mDNSAddressIsZero(&zoneInfo->Addr) || mDNSIPPortIsZero(zoneInfo->Port) || !zoneInfo->Host.c[0]) { LogInfo("PrivateQueryGotZoneData: ERROR!! %##s (%s) invoked with error code %d %p %#a:%d", q->qname.c, DNSTypeName(q->qtype), err, zoneInfo, zoneInfo ? &zoneInfo->Addr : mDNSNULL, zoneInfo ? mDNSVal16(zoneInfo->Port) : 0); CancelGetZoneData(m, q->nta); q->nta = mDNSNULL; return; } if (!zoneInfo->ZonePrivate) { debugf("Private port lookup failed -- retrying without TLS -- %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); q->AuthInfo = mDNSNULL; // Clear AuthInfo so we try again non-private q->ThisQInterval = InitialQuestionInterval; q->LastQTime = m->timenow - q->ThisQInterval; CancelGetZoneData(m, q->nta); q->nta = mDNSNULL; mDNS_Lock(m); SetNextQueryTime(m, q); mDNS_Unlock(m); return; // Next call to uDNS_CheckCurrentQuestion() will do this as a non-private query } if (!PrivateQuery(q)) { LogMsg("PrivateQueryGotZoneData: ERROR!! Not a private query %##s (%s) AuthInfo %p", q->qname.c, DNSTypeName(q->qtype), q->AuthInfo); CancelGetZoneData(m, q->nta); q->nta = mDNSNULL; return; } q->TargetQID = mDNS_NewMessageID(m); if (q->tcp) { DisposeTCPConn(q->tcp); q->tcp = mDNSNULL; } if (!q->nta) { LogMsg("PrivateQueryGotZoneData:ERROR!! nta is NULL for %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); return; } q->tcp = MakeTCPConn(m, mDNSNULL, mDNSNULL, kTCPSocketFlags_UseTLS, &zoneInfo->Addr, zoneInfo->Port, &q->nta->Host, q, mDNSNULL); if (q->nta) { CancelGetZoneData(m, q->nta); q->nta = mDNSNULL; } } // *************************************************************************** #if COMPILER_LIKES_PRAGMA_MARK #pragma mark - Dynamic Updates #endif // Called in normal callback context (i.e. mDNS_busy and mDNS_reentrancy are both 1) mDNSexport void RecordRegistrationGotZoneData(mDNS *const m, mStatus err, const ZoneData *zoneData) { AuthRecord *newRR = (AuthRecord*)zoneData->ZoneDataContext; AuthRecord *ptr; int c1, c2; if (newRR->nta != zoneData) LogMsg("RecordRegistrationGotZoneData: nta (%p) != zoneData (%p) %##s (%s)", newRR->nta, zoneData, newRR->resrec.name->c, DNSTypeName(newRR->resrec.rrtype)); if (m->mDNS_busy != m->mDNS_reentrancy) LogMsg("RecordRegistrationGotZoneData: mDNS_busy (%ld) != mDNS_reentrancy (%ld)", m->mDNS_busy, m->mDNS_reentrancy); // make sure record is still in list (!!!) for (ptr = m->ResourceRecords; ptr; ptr = ptr->next) if (ptr == newRR) break; if (!ptr) { LogMsg("RecordRegistrationGotZoneData - RR no longer in list. Discarding."); CancelGetZoneData(m, newRR->nta); newRR->nta = mDNSNULL; return; } // check error/result if (err) { if (err != mStatus_NoSuchNameErr) LogMsg("RecordRegistrationGotZoneData: error %d", err); CancelGetZoneData(m, newRR->nta); newRR->nta = mDNSNULL; return; } if (!zoneData) { LogMsg("ERROR: RecordRegistrationGotZoneData invoked with NULL result and no error"); return; } if (newRR->resrec.rrclass != zoneData->ZoneClass) { LogMsg("ERROR: New resource record's class (%d) does not match zone class (%d)", newRR->resrec.rrclass, zoneData->ZoneClass); CancelGetZoneData(m, newRR->nta); newRR->nta = mDNSNULL; return; } // Don't try to do updates to the root name server. // We might be tempted also to block updates to any single-label name server (e.g. com, edu, net, etc.) but some // organizations use their own private pseudo-TLD, like ".home", etc, and we don't want to block that. if (zoneData->ZoneName.c[0] == 0) { LogInfo("RecordRegistrationGotZoneData: No name server found claiming responsibility for \"%##s\"!", newRR->resrec.name->c); CancelGetZoneData(m, newRR->nta); newRR->nta = mDNSNULL; return; } // Store discovered zone data c1 = CountLabels(newRR->resrec.name); c2 = CountLabels(&zoneData->ZoneName); if (c2 > c1) { LogMsg("RecordRegistrationGotZoneData: Zone \"%##s\" is longer than \"%##s\"", zoneData->ZoneName.c, newRR->resrec.name->c); CancelGetZoneData(m, newRR->nta); newRR->nta = mDNSNULL; return; } newRR->zone = SkipLeadingLabels(newRR->resrec.name, c1-c2); if (!SameDomainName(newRR->zone, &zoneData->ZoneName)) { LogMsg("RecordRegistrationGotZoneData: Zone \"%##s\" does not match \"%##s\" for \"%##s\"", newRR->zone->c, zoneData->ZoneName.c, newRR->resrec.name->c); CancelGetZoneData(m, newRR->nta); newRR->nta = mDNSNULL; return; } if (mDNSIPPortIsZero(zoneData->Port) || mDNSAddressIsZero(&zoneData->Addr) || !zoneData->Host.c[0]) { LogInfo("RecordRegistrationGotZoneData: No _dns-update._udp service found for \"%##s\"!", newRR->resrec.name->c); CancelGetZoneData(m, newRR->nta); newRR->nta = mDNSNULL; return; } newRR->Private = zoneData->ZonePrivate; debugf("RecordRegistrationGotZoneData: Set zone information for %##s %##s to %#a:%d", newRR->resrec.name->c, zoneData->ZoneName.c, &zoneData->Addr, mDNSVal16(zoneData->Port)); // If we are deregistering, uDNS_DeregisterRecord will do that as it has the zone data now. if (newRR->state == regState_DeregPending) { mDNS_Lock(m); uDNS_DeregisterRecord(m, newRR); mDNS_Unlock(m); return; } if (newRR->resrec.rrtype == kDNSType_SRV) { const domainname *target; // Reevaluate the target always as NAT/Target could have changed while // we were fetching zone data. mDNS_Lock(m); target = GetServiceTarget(m, newRR); mDNS_Unlock(m); if (!target || target->c[0] == 0) { domainname *t = GetRRDomainNameTarget(&newRR->resrec); LogInfo("RecordRegistrationGotZoneData - no target for %##s", newRR->resrec.name->c); if (t) t->c[0] = 0; newRR->resrec.rdlength = newRR->resrec.rdestimate = 0; newRR->state = regState_NoTarget; CancelGetZoneData(m, newRR->nta); newRR->nta = mDNSNULL; return; } } // If we have non-zero service port (always?) // and a private address, and update server is non-private // and this service is AutoTarget // then initiate a NAT mapping request. On completion it will do SendRecordRegistration() for us if (newRR->resrec.rrtype == kDNSType_SRV && !mDNSIPPortIsZero(newRR->resrec.rdata->u.srv.port) && mDNSv4AddrIsRFC1918(&m->AdvertisedV4.ip.v4) && newRR->nta && !mDNSAddrIsRFC1918(&newRR->nta->Addr) && newRR->AutoTarget == Target_AutoHostAndNATMAP) { DomainAuthInfo *AuthInfo; AuthInfo = GetAuthInfoForName(m, newRR->resrec.name); if (AuthInfo && AuthInfo->AutoTunnel) { domainname *t = GetRRDomainNameTarget(&newRR->resrec); LogMsg("RecordRegistrationGotZoneData: ERROR!! AutoTunnel has Target_AutoHostAndNATMAP for %s", ARDisplayString(m, newRR)); if (t) t->c[0] = 0; newRR->resrec.rdlength = newRR->resrec.rdestimate = 0; newRR->state = regState_NoTarget; CancelGetZoneData(m, newRR->nta); newRR->nta = mDNSNULL; return; } // During network transitions, we are called multiple times in different states. Setup NAT // state just once for this record. if (!newRR->NATinfo.clientContext) { LogInfo("RecordRegistrationGotZoneData StartRecordNatMap %s", ARDisplayString(m, newRR)); newRR->state = regState_NATMap; StartRecordNatMap(m, newRR); return; } else LogInfo("RecordRegistrationGotZoneData: StartRecordNatMap for %s, state %d, context %p", ARDisplayString(m, newRR), newRR->state, newRR->NATinfo.clientContext); } mDNS_Lock(m); // We want IsRecordMergeable to check whether it is a record whose update can be // sent with others. We set the time before we call IsRecordMergeable, so that // it does not fail this record based on time. We are interested in other checks // at this time. If a previous update resulted in error, then don't reset the // interval. Preserve the back-off so that we don't keep retrying aggressively. if (newRR->updateError == mStatus_NoError) { newRR->ThisAPInterval = INIT_RECORD_REG_INTERVAL; newRR->LastAPTime = m->timenow - INIT_RECORD_REG_INTERVAL; } if (IsRecordMergeable(m, newRR, m->timenow + MERGE_DELAY_TIME)) { // Delay the record registration by MERGE_DELAY_TIME so that we can merge them // into one update LogInfo("RecordRegistrationGotZoneData: Delayed registration for %s", ARDisplayString(m, newRR)); newRR->LastAPTime += MERGE_DELAY_TIME; } mDNS_Unlock(m); } mDNSlocal void SendRecordDeregistration(mDNS *m, AuthRecord *rr) { mDNSu8 *ptr = m->omsg.data; mDNSu8 *limit; DomainAuthInfo *AuthInfo; mDNS_CheckLock(m); if (!rr->nta || mDNSIPv4AddressIsZero(rr->nta->Addr.ip.v4)) { LogMsg("SendRecordDeRegistration: No zone info for Resource record %s RecordType %d", ARDisplayString(m, rr), rr->resrec.RecordType); return; } limit = ptr + AbsoluteMaxDNSMessageData; AuthInfo = GetAuthInfoForName_internal(m, rr->resrec.name); limit -= RRAdditionalSize(m, AuthInfo); rr->updateid = mDNS_NewMessageID(m); InitializeDNSMessage(&m->omsg.h, rr->updateid, UpdateReqFlags); // set zone ptr = putZone(&m->omsg, ptr, limit, rr->zone, mDNSOpaque16fromIntVal(rr->resrec.rrclass)); if (!ptr) goto exit; ptr = BuildUpdateMessage(m, ptr, rr, limit); if (!ptr) goto exit; if (rr->Private) { LogInfo("SendRecordDeregistration TCP %p %s", rr->tcp, ARDisplayString(m, rr)); if (rr->tcp) LogInfo("SendRecordDeregistration: Disposing existing TCP connection for %s", ARDisplayString(m, rr)); if (rr->tcp) { DisposeTCPConn(rr->tcp); rr->tcp = mDNSNULL; } if (!rr->nta) { LogMsg("SendRecordDeregistration:Private:ERROR!! nta is NULL for %s", ARDisplayString(m, rr)); return; } rr->tcp = MakeTCPConn(m, &m->omsg, ptr, kTCPSocketFlags_UseTLS, &rr->nta->Addr, rr->nta->Port, &rr->nta->Host, mDNSNULL, rr); } else { mStatus err; LogInfo("SendRecordDeregistration UDP %s", ARDisplayString(m, rr)); if (!rr->nta) { LogMsg("SendRecordDeregistration:ERROR!! nta is NULL for %s", ARDisplayString(m, rr)); return; } err = mDNSSendDNSMessage(m, &m->omsg, ptr, mDNSInterface_Any, mDNSNULL, &rr->nta->Addr, rr->nta->Port, mDNSNULL, GetAuthInfoForName_internal(m, rr->resrec.name), mDNSfalse); if (err) debugf("ERROR: SendRecordDeregistration - mDNSSendDNSMessage - %d", err); //if (rr->state == regState_DeregPending) CompleteDeregistration(m, rr); // Don't touch rr after this } SetRecordRetry(m, rr, 0); return; exit: LogMsg("SendRecordDeregistration: Error formatting message for %s", ARDisplayString(m, rr)); } mDNSexport mStatus uDNS_DeregisterRecord(mDNS *const m, AuthRecord *const rr) { DomainAuthInfo *info; LogInfo("uDNS_DeregisterRecord: Resource Record %s, state %d", ARDisplayString(m, rr), rr->state); switch (rr->state) { case regState_Refresh: case regState_Pending: case regState_UpdatePending: case regState_Registered: break; case regState_DeregPending: break; case regState_NATError: case regState_NATMap: // A record could be in NoTarget to start with if the corresponding SRV record could not find a target. // It is also possible to reenter the NoTarget state when we move to a network with a NAT that has // no {PCP, NAT-PMP, UPnP/IGD} support. In that case before we entered NoTarget, we already deregistered with // the server. case regState_NoTarget: case regState_Unregistered: case regState_Zero: default: LogInfo("uDNS_DeregisterRecord: State %d for %##s type %s", rr->state, rr->resrec.name->c, DNSTypeName(rr->resrec.rrtype)); // This function may be called during sleep when there are no sleep proxy servers if (rr->resrec.RecordType == kDNSRecordTypeDeregistering) CompleteDeregistration(m, rr); return mStatus_NoError; } // if unsent rdata is queued, free it. // // The data may be queued in QueuedRData or InFlightRData. // // 1) If the record is in Registered state, we store it in InFlightRData and copy the same in "rdata" // *just* before sending the update to the server. Till we get the response, InFlightRData and "rdata" // in the resource record are same. We don't want to free in that case. It will be freed when "rdata" // is freed. If they are not same, the update has not been sent and we should free it here. // // 2) If the record is in UpdatePending state, we queue the update in QueuedRData. When the previous update // comes back from the server, we copy it from QueuedRData to InFlightRData and repeat (1). This implies // that QueuedRData can never be same as "rdata" in the resource record. As long as we have something // left in QueuedRData, we should free it here. if (rr->InFlightRData && rr->UpdateCallback) { if (rr->InFlightRData != rr->resrec.rdata) { LogInfo("uDNS_DeregisterRecord: Freeing InFlightRData for %s", ARDisplayString(m, rr)); rr->UpdateCallback(m, rr, rr->InFlightRData, rr->InFlightRDLen); rr->InFlightRData = mDNSNULL; } else LogInfo("uDNS_DeregisterRecord: InFlightRData same as rdata for %s", ARDisplayString(m, rr)); } if (rr->QueuedRData && rr->UpdateCallback) { if (rr->QueuedRData == rr->resrec.rdata) LogMsg("uDNS_DeregisterRecord: ERROR!! QueuedRData same as rdata for %s", ARDisplayString(m, rr)); else { LogInfo("uDNS_DeregisterRecord: Freeing QueuedRData for %s", ARDisplayString(m, rr)); rr->UpdateCallback(m, rr, rr->QueuedRData, rr->QueuedRDLen); rr->QueuedRData = mDNSNULL; } } // If a current group registration is pending, we can't send this deregisration till that registration // has reached the server i.e., the ordering is important. Previously, if we did not send this // registration in a group, then the previous connection will be torn down as part of sending the // deregistration. If we send this in a group, we need to locate the resource record that was used // to send this registration and terminate that connection. This means all the updates on that might // be lost (assuming the response is not waiting for us at the socket) and the retry will send the // update again sometime in the near future. // // NOTE: SSL handshake failures normally free the TCP connection immediately. Hence, you may not // find the TCP below there. This case can happen only when tcp is trying to actively retransmit // the request or SSL negotiation taking time i.e resource record is actively trying to get the // message to the server. During that time a deregister has to happen. if (!mDNSOpaque16IsZero(rr->updateid)) { AuthRecord *anchorRR; mDNSBool found = mDNSfalse; for (anchorRR = m->ResourceRecords; anchorRR; anchorRR = anchorRR->next) { if (AuthRecord_uDNS(rr) && mDNSSameOpaque16(anchorRR->updateid, rr->updateid) && anchorRR->tcp) { LogInfo("uDNS_DeregisterRecord: Found Anchor RR %s terminated", ARDisplayString(m, anchorRR)); if (found) LogMsg("uDNS_DeregisterRecord: ERROR: Another anchorRR %s found", ARDisplayString(m, anchorRR)); DisposeTCPConn(anchorRR->tcp); anchorRR->tcp = mDNSNULL; found = mDNStrue; } } if (!found) LogInfo("uDNSDeregisterRecord: Cannot find the anchor Resource Record for %s, not an error", ARDisplayString(m, rr)); } // Retry logic for deregistration should be no different from sending registration the first time. // Currently ThisAPInterval most likely is set to the refresh interval rr->state = regState_DeregPending; rr->ThisAPInterval = INIT_RECORD_REG_INTERVAL; rr->LastAPTime = m->timenow - INIT_RECORD_REG_INTERVAL; info = GetAuthInfoForName_internal(m, rr->resrec.name); if (IsRecordMergeable(m, rr, m->timenow + MERGE_DELAY_TIME)) { // Delay the record deregistration by MERGE_DELAY_TIME so that we can merge them // into one update. If the domain is being deleted, delay by 2 * MERGE_DELAY_TIME // so that we can merge all the AutoTunnel records and the service records in // one update (they get deregistered a little apart) if (info && info->deltime) rr->LastAPTime += (2 * MERGE_DELAY_TIME); else rr->LastAPTime += MERGE_DELAY_TIME; } // IsRecordMergeable could have returned false for several reasons e.g., DontMerge is set or // no zone information. Most likely it is the latter, CheckRecordUpdates will fetch the zone // data when it encounters this record. if (m->NextuDNSEvent - (rr->LastAPTime + rr->ThisAPInterval) >= 0) m->NextuDNSEvent = (rr->LastAPTime + rr->ThisAPInterval); return mStatus_NoError; } mDNSexport mStatus uDNS_UpdateRecord(mDNS *m, AuthRecord *rr) { LogInfo("uDNS_UpdateRecord: Resource Record %##s, state %d", rr->resrec.name->c, rr->state); switch(rr->state) { case regState_DeregPending: case regState_Unregistered: // not actively registered goto unreg_error; case regState_NATMap: case regState_NoTarget: // change rdata directly since it hasn't been sent yet if (rr->UpdateCallback) rr->UpdateCallback(m, rr, rr->resrec.rdata, rr->resrec.rdlength); SetNewRData(&rr->resrec, rr->NewRData, rr->newrdlength); rr->NewRData = mDNSNULL; return mStatus_NoError; case regState_Pending: case regState_Refresh: case regState_UpdatePending: // registration in-flight. queue rdata and return if (rr->QueuedRData && rr->UpdateCallback) // if unsent rdata is already queued, free it before we replace it rr->UpdateCallback(m, rr, rr->QueuedRData, rr->QueuedRDLen); rr->QueuedRData = rr->NewRData; rr->QueuedRDLen = rr->newrdlength; rr->NewRData = mDNSNULL; return mStatus_NoError; case regState_Registered: rr->OrigRData = rr->resrec.rdata; rr->OrigRDLen = rr->resrec.rdlength; rr->InFlightRData = rr->NewRData; rr->InFlightRDLen = rr->newrdlength; rr->NewRData = mDNSNULL; rr->state = regState_UpdatePending; rr->ThisAPInterval = INIT_RECORD_REG_INTERVAL; rr->LastAPTime = m->timenow - INIT_RECORD_REG_INTERVAL; SetNextuDNSEvent(m, rr); return mStatus_NoError; case regState_NATError: LogMsg("ERROR: uDNS_UpdateRecord called for record %##s with bad state regState_NATError", rr->resrec.name->c); return mStatus_UnknownErr; // states for service records only default: LogMsg("uDNS_UpdateRecord: Unknown state %d for %##s", rr->state, rr->resrec.name->c); } unreg_error: LogMsg("uDNS_UpdateRecord: Requested update of record %##s type %d, in erroneous state %d", rr->resrec.name->c, rr->resrec.rrtype, rr->state); return mStatus_Invalid; } // *************************************************************************** #if COMPILER_LIKES_PRAGMA_MARK #pragma mark - Periodic Execution Routines #endif mDNSlocal void handle_unanswered_query(mDNS *const m) { DNSQuestion *q = m->CurrentQuestion; if (q->unansweredQueries >= MAX_DNSSEC_UNANSWERED_QUERIES && DNSSECOptionalQuestion(q)) { // If we are not receiving any responses for DNSSEC question, it could be due to // a broken middlebox or a DNS server that does not understand the EDNS0/DOK option that // silently drops the packets. Also as per RFC 5625 there are certain buggy DNS Proxies // that are known to drop these pkts. To handle this, we turn off sending the EDNS0/DOK // option if we have not received any responses indicating that the server or // the middlebox is DNSSEC aware. If we receive at least one response to a DNSSEC // question, we don't turn off validation. Also, we wait for MAX_DNSSEC_RETRANSMISSIONS // before turning off validation to accomodate packet loss. // // Note: req_DO affects only DNSSEC_VALIDATION_SECURE_OPTIONAL questions; // DNSSEC_VALIDATION_SECURE questions ignores req_DO. if (q->qDNSServer && !q->qDNSServer->DNSSECAware && q->qDNSServer->req_DO) { q->qDNSServer->retransDO++; if (q->qDNSServer->retransDO == MAX_DNSSEC_RETRANSMISSIONS) { LogInfo("handle_unanswered_query: setting req_DO false for %#a", &q->qDNSServer->addr); q->qDNSServer->req_DO = mDNSfalse; } } if (!q->qDNSServer->req_DO) { q->ValidationState = DNSSECValNotRequired; q->ValidationRequired = DNSSEC_VALIDATION_NONE; if (q->ProxyQuestion) q->ProxyDNSSECOK = mDNSfalse; LogInfo("handle_unanswered_query: unanswered query for %##s (%s), so turned off validation for %#a", q->qname.c, DNSTypeName(q->qtype), &q->qDNSServer->addr); } } } // The question to be checked is not passed in as an explicit parameter; // instead it is implicit that the question to be checked is m->CurrentQuestion. mDNSexport void uDNS_CheckCurrentQuestion(mDNS *const m) { DNSQuestion *q = m->CurrentQuestion; if (m->timenow - NextQSendTime(q) < 0) return; if (q->LongLived) { switch (q->state) { case LLQ_InitialRequest: startLLQHandshake(m, q); break; case LLQ_SecondaryRequest: // For PrivateQueries, we need to start the handshake again as we don't do the Challenge/Response step if (PrivateQuery(q)) startLLQHandshake(m, q); else sendChallengeResponse(m, q, mDNSNULL); break; case LLQ_Established: sendLLQRefresh(m, q); break; case LLQ_Poll: break; // Do nothing (handled below) } } handle_unanswered_query(m); // We repeat the check above (rather than just making this the "else" case) because startLLQHandshake can change q->state to LLQ_Poll if (!(q->LongLived && q->state != LLQ_Poll)) { if (q->unansweredQueries >= MAX_UCAST_UNANSWERED_QUERIES) { DNSServer *orig = q->qDNSServer; if (orig) LogInfo("uDNS_CheckCurrentQuestion: Sent %d unanswered queries for %##s (%s) to %#a:%d (%##s)", q->unansweredQueries, q->qname.c, DNSTypeName(q->qtype), &orig->addr, mDNSVal16(orig->port), orig->domain.c); PenalizeDNSServer(m, q, zeroID); q->noServerResponse = 1; } // There are two cases here. // // 1. We have only one DNS server for this question. It is not responding even after we sent MAX_UCAST_UNANSWERED_QUERIES. // In that case, we need to keep retrying till we get a response. But we need to backoff as we retry. We set // noServerResponse in the block above and below we do not touch the question interval. When we come here, we // already waited for the response. We need to send another query right at this moment. We do that below by // reinitializing dns servers and reissuing the query. // // 2. We have more than one DNS server. If at least one server did not respond, we would have set noServerResponse // either now (the last server in the list) or before (non-last server in the list). In either case, if we have // reached the end of DNS server list, we need to try again from the beginning. Ideally we should try just the // servers that did not respond, but for simplicity we try all the servers. Once we reached the end of list, we // set triedAllServersOnce so that we don't try all the servers aggressively. See PenalizeDNSServer. if (!q->qDNSServer && q->noServerResponse) { DNSServer *new; DNSQuestion *qptr; q->triedAllServersOnce = 1; // Re-initialize all DNS servers for this question. If we have a DNSServer, DNSServerChangeForQuestion will // handle all the work including setting the new DNS server. SetValidDNSServers(m, q); new = GetServerForQuestion(m, q); if (new) { mDNSIPPort zp = zeroIPPort; LogInfo("uDNS_checkCurrentQuestion: Retrying question %p %##s (%s) DNS Server %#a:%d ThisQInterval %d", q, q->qname.c, DNSTypeName(q->qtype), new ? &new->addr : mDNSNULL, mDNSVal16(new ? new->port : zp), q->ThisQInterval); DNSServerChangeForQuestion(m, q, new); } for (qptr = q->next ; qptr; qptr = qptr->next) if (qptr->DuplicateOf == q) { qptr->validDNSServers = q->validDNSServers; qptr->qDNSServer = q->qDNSServer; } } if (q->qDNSServer && q->qDNSServer->teststate != DNSServer_Disabled) { mDNSu8 *end = m->omsg.data; mStatus err = mStatus_NoError; mDNSBool private = mDNSfalse; InitializeDNSMessage(&m->omsg.h, q->TargetQID, (DNSSECQuestion(q) ? DNSSecQFlags : uQueryFlags)); if (q->qDNSServer->teststate != DNSServer_Untested || NoTestQuery(q)) { end = putQuestion(&m->omsg, m->omsg.data, m->omsg.data + AbsoluteMaxDNSMessageData, &q->qname, q->qtype, q->qclass); if (DNSSECQuestion(q) && !q->qDNSServer->cellIntf) { if (q->ProxyQuestion) end = DNSProxySetAttributes(q, &m->omsg.h, &m->omsg, end, m->omsg.data + AbsoluteMaxDNSMessageData); else end = putDNSSECOption(&m->omsg, end, m->omsg.data + AbsoluteMaxDNSMessageData); } private = PrivateQuery(q); } else if (m->timenow - q->qDNSServer->lasttest >= INIT_UCAST_POLL_INTERVAL) // Make sure at least three seconds has elapsed since last test query { LogInfo("Sending DNS test query to %#a:%d", &q->qDNSServer->addr, mDNSVal16(q->qDNSServer->port)); q->ThisQInterval = INIT_UCAST_POLL_INTERVAL / QuestionIntervalStep; q->qDNSServer->lasttest = m->timenow; end = putQuestion(&m->omsg, m->omsg.data, m->omsg.data + AbsoluteMaxDNSMessageData, DNSRelayTestQuestion, kDNSType_PTR, kDNSClass_IN); q->qDNSServer->testid = m->omsg.h.id; } if (end > m->omsg.data && (q->qDNSServer->teststate != DNSServer_Failed || NoTestQuery(q))) { //LogMsg("uDNS_CheckCurrentQuestion %p %d %p %##s (%s)", q, NextQSendTime(q) - m->timenow, private, q->qname.c, DNSTypeName(q->qtype)); if (private) { if (q->nta) CancelGetZoneData(m, q->nta); q->nta = StartGetZoneData(m, &q->qname, q->LongLived ? ZoneServiceLLQ : ZoneServiceQuery, PrivateQueryGotZoneData, q); if (q->state == LLQ_Poll) q->ThisQInterval = (LLQ_POLL_INTERVAL + mDNSRandom(LLQ_POLL_INTERVAL/10)) / QuestionIntervalStep; } else { debugf("uDNS_CheckCurrentQuestion sending %p %##s (%s) %#a:%d UnansweredQueries %d", q, q->qname.c, DNSTypeName(q->qtype), q->qDNSServer ? &q->qDNSServer->addr : mDNSNULL, mDNSVal16(q->qDNSServer ? q->qDNSServer->port : zeroIPPort), q->unansweredQueries); if (!q->LocalSocket) { q->LocalSocket = mDNSPlatformUDPSocket(m, zeroIPPort); if (q->LocalSocket) mDNSPlatformSetuDNSSocktOpt(q->LocalSocket, &q->qDNSServer->addr, q); } if (!q->LocalSocket) err = mStatus_NoMemoryErr; // If failed to make socket (should be very rare), we'll try again next time else err = mDNSSendDNSMessage(m, &m->omsg, end, q->qDNSServer->interface, q->LocalSocket, &q->qDNSServer->addr, q->qDNSServer->port, mDNSNULL, mDNSNULL, q->UseBackgroundTrafficClass); } } if (err != mStatus_TransientErr) // if it is not a transient error backoff and DO NOT flood queries unnecessarily { q->ThisQInterval = q->ThisQInterval * QuestionIntervalStep; // Only increase interval if send succeeded q->unansweredQueries++; if (q->ThisQInterval > MAX_UCAST_POLL_INTERVAL) q->ThisQInterval = MAX_UCAST_POLL_INTERVAL; if (private && q->state != LLQ_Poll) { // We don't want to retransmit too soon. Hence, we always schedule our first // retransmisson at 3 seconds rather than one second if (q->ThisQInterval < (3 * mDNSPlatformOneSecond)) q->ThisQInterval = q->ThisQInterval * QuestionIntervalStep; if (q->ThisQInterval > LLQ_POLL_INTERVAL) q->ThisQInterval = LLQ_POLL_INTERVAL; LogInfo("uDNS_CheckCurrentQuestion: private non polling question for %##s (%s) will be retried in %d ms", q->qname.c, DNSTypeName(q->qtype), q->ThisQInterval); } if (q->qDNSServer->cellIntf) { // We don't want to retransmit too soon. Schedule our first retransmisson at // MIN_UCAST_RETRANS_TIMEOUT seconds. if (q->ThisQInterval < MIN_UCAST_RETRANS_TIMEOUT) q->ThisQInterval = MIN_UCAST_RETRANS_TIMEOUT; } debugf("uDNS_CheckCurrentQuestion: Increased ThisQInterval to %d for %##s (%s), cell %d", q->ThisQInterval, q->qname.c, DNSTypeName(q->qtype), q->qDNSServer->cellIntf); } q->LastQTime = m->timenow; SetNextQueryTime(m, q); } else { // If we have no server for this query, or the only server is a disabled one, then we deliver // a transient failure indication to the client. This is important for things like iPhone // where we want to return timely feedback to the user when no network is available. // After calling MakeNegativeCacheRecord() we store the resulting record in the // cache so that it will be visible to other clients asking the same question. // (When we have a group of identical questions, only the active representative of the group gets // passed to uDNS_CheckCurrentQuestion -- we only want one set of query packets hitting the wire -- // but we want *all* of the questions to get answer callbacks.) CacheRecord *rr; const mDNSu32 slot = HashSlot(&q->qname); CacheGroup *const cg = CacheGroupForName(m, slot, q->qnamehash, &q->qname); if (!q->qDNSServer) { if (!mDNSOpaque64IsZero(&q->validDNSServers)) LogMsg("uDNS_CheckCurrentQuestion: ERROR!!: valid DNSServer bits not zero 0x%x, 0x%x for question %##s (%s)", q->validDNSServers.l[1], q->validDNSServers.l[0], q->qname.c, DNSTypeName(q->qtype)); // If we reached the end of list while picking DNS servers, then we don't want to deactivate the // question. Try after 60 seconds. We find this by looking for valid DNSServers for this question, // if we find any, then we must have tried them before we came here. This avoids maintaining // another state variable to see if we had valid DNS servers for this question. SetValidDNSServers(m, q); if (mDNSOpaque64IsZero(&q->validDNSServers)) { LogInfo("uDNS_CheckCurrentQuestion: no DNS server for %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); q->ThisQInterval = 0; } else { DNSQuestion *qptr; // Pretend that we sent this question. As this is an ActiveQuestion, the NextScheduledQuery should // be set properly. Also, we need to properly backoff in cases where we don't set the question to // MaxQuestionInterval when we answer the question e.g., LongLived, we need to keep backing off q->ThisQInterval = q->ThisQInterval * QuestionIntervalStep; q->LastQTime = m->timenow; SetNextQueryTime(m, q); // Pick a new DNS server now. Otherwise, when the cache is 80% of its expiry, we will try // to send a query and come back to the same place here and log the above message. q->qDNSServer = GetServerForQuestion(m, q); for (qptr = q->next ; qptr; qptr = qptr->next) if (qptr->DuplicateOf == q) { qptr->validDNSServers = q->validDNSServers; qptr->qDNSServer = q->qDNSServer; } { mDNSIPPort zp = zeroIPPort; LogInfo("uDNS_checkCurrentQuestion: Tried all DNS servers, retry question %p SuppressUnusable %d %##s (%s) with DNS Server %#a:%d after 60 seconds, ThisQInterval %d", q, q->SuppressUnusable, q->qname.c, DNSTypeName(q->qtype), q->qDNSServer ? &q->qDNSServer->addr : mDNSNULL, mDNSVal16(q->qDNSServer ? q->qDNSServer->port : zp), q->ThisQInterval); } } } else { q->ThisQInterval = 0; LogMsg("uDNS_CheckCurrentQuestion DNS server %#a:%d for %##s is disabled", &q->qDNSServer->addr, mDNSVal16(q->qDNSServer->port), q->qname.c); } if (cg) { for (rr = cg->members; rr; rr=rr->next) { if (SameNameRecordAnswersQuestion(&rr->resrec, q)) { LogInfo("uDNS_CheckCurrentQuestion: Purged resourcerecord %s", CRDisplayString(m, rr)); mDNS_PurgeCacheResourceRecord(m, rr); } } } // For some of the WAB queries that we generate form within the mDNSResponder, most of the home routers // don't understand and return ServFail/NXDomain. In those cases, we don't want to try too often. We try // every fifteen minutes in that case MakeNegativeCacheRecord(m, &m->rec.r, &q->qname, q->qnamehash, q->qtype, q->qclass, (DomainEnumQuery(&q->qname) ? 60 * 15 : 60), mDNSInterface_Any, q->qDNSServer); q->unansweredQueries = 0; if (!mDNSOpaque16IsZero(q->responseFlags)) m->rec.r.responseFlags = q->responseFlags; // We're already using the m->CurrentQuestion pointer, so CacheRecordAdd can't use it to walk the question list. // To solve this problem we set rr->DelayDelivery to a nonzero value (which happens to be 'now') so that we // momentarily defer generating answer callbacks until mDNS_Execute time. CreateNewCacheEntry(m, slot, cg, NonZeroTime(m->timenow), mDNStrue, mDNSNULL); ScheduleNextCacheCheckTime(m, slot, NonZeroTime(m->timenow)); m->rec.r.responseFlags = zeroID; m->rec.r.resrec.RecordType = 0; // Clear RecordType to show we're not still using it // MUST NOT touch m->CurrentQuestion (or q) after this -- client callback could have deleted it } } } mDNSexport void CheckNATMappings(mDNS *m) { mDNSBool rfc1918 = mDNSv4AddrIsRFC1918(&m->AdvertisedV4.ip.v4); mDNSBool HaveRoutable = !rfc1918 && !mDNSIPv4AddressIsZero(m->AdvertisedV4.ip.v4); m->NextScheduledNATOp = m->timenow + 0x3FFFFFFF; if (HaveRoutable) m->ExtAddress = m->AdvertisedV4.ip.v4; if (m->NATTraversals && rfc1918) // Do we need to open a socket to receive multicast announcements from router? { if (m->NATMcastRecvskt == mDNSNULL) // If we are behind a NAT and the socket hasn't been opened yet, open it { // we need to log a message if we can't get our socket, but only the first time (after success) static mDNSBool needLog = mDNStrue; m->NATMcastRecvskt = mDNSPlatformUDPSocket(m, NATPMPAnnouncementPort); if (!m->NATMcastRecvskt) { if (needLog) { LogMsg("CheckNATMappings: Failed to allocate port 5350 UDP multicast socket for PCP & NAT-PMP announcements"); needLog = mDNSfalse; } } else needLog = mDNStrue; } } else // else, we don't want to listen for announcements, so close them if they're open { if (m->NATMcastRecvskt) { mDNSPlatformUDPClose(m->NATMcastRecvskt); m->NATMcastRecvskt = mDNSNULL; } if (m->SSDPSocket) { debugf("CheckNATMappings destroying SSDPSocket %p", &m->SSDPSocket); mDNSPlatformUDPClose(m->SSDPSocket); m->SSDPSocket = mDNSNULL; } } uDNS_RequestAddress(m); if (m->CurrentNATTraversal) LogMsg("WARNING m->CurrentNATTraversal already in use"); m->CurrentNATTraversal = m->NATTraversals; while (m->CurrentNATTraversal) { NATTraversalInfo *cur = m->CurrentNATTraversal; mDNSv4Addr EffectiveAddress = HaveRoutable ? m->AdvertisedV4.ip.v4 : cur->NewAddress; m->CurrentNATTraversal = m->CurrentNATTraversal->next; if (HaveRoutable) // If not RFC 1918 address, our own address and port are effectively our external address and port { cur->ExpiryTime = 0; cur->NewResult = mStatus_NoError; } else // Check if it's time to send port mapping packet(s) { if (m->timenow - cur->retryPortMap >= 0) // Time to send a mapping request for this packet { if (cur->ExpiryTime && cur->ExpiryTime - m->timenow < 0) // Mapping has expired { cur->ExpiryTime = 0; cur->retryInterval = NATMAP_INIT_RETRY; } (void)uDNS_SendNATMsg(m, cur, mDNStrue); // Will also do UPnP discovery for us, if necessary if (cur->ExpiryTime) // If have active mapping then set next renewal time halfway to expiry NATSetNextRenewalTime(m, cur); else // else no mapping; use exponential backoff sequence { if (cur->retryInterval < NATMAP_INIT_RETRY ) cur->retryInterval = NATMAP_INIT_RETRY; else if (cur->retryInterval < NATMAP_MAX_RETRY_INTERVAL / 2) cur->retryInterval *= 2; else cur->retryInterval = NATMAP_MAX_RETRY_INTERVAL; cur->retryPortMap = m->timenow + cur->retryInterval; } } if (m->NextScheduledNATOp - cur->retryPortMap > 0) { m->NextScheduledNATOp = cur->retryPortMap; } } // Notify the client if necessary. We invoke the callback if: // (1) We have an effective address, // or we've tried and failed a couple of times to discover it // AND // (2) the client requested the address only, // or the client won't need a mapping because we have a routable address, // or the client has an expiry time and therefore a successful mapping, // or we've tried and failed a couple of times (see "Time line" below) // AND // (3) we have new data to give the client that's changed since the last callback // // Time line is: Send, Wait 500ms, Send, Wait 1sec, Send, Wait 2sec, Send // At this point we've sent three requests without an answer, we've just sent our fourth request, // retryInterval is now 4 seconds, which is greater than NATMAP_INIT_RETRY * 8 (2 seconds), // so we return an error result to the caller. if (!mDNSIPv4AddressIsZero(EffectiveAddress) || cur->retryInterval > NATMAP_INIT_RETRY * 8) { const mStatus EffectiveResult = cur->NewResult ? cur->NewResult : mDNSv4AddrIsRFC1918(&EffectiveAddress) ? mStatus_DoubleNAT : mStatus_NoError; mDNSIPPort ExternalPort; if (HaveRoutable) ExternalPort = cur->IntPort; else if (!mDNSIPv4AddressIsZero(EffectiveAddress) && cur->ExpiryTime) ExternalPort = cur->RequestedPort; else ExternalPort = zeroIPPort; if (!cur->Protocol || HaveRoutable || cur->ExpiryTime || cur->retryInterval > NATMAP_INIT_RETRY * 8) { if (!mDNSSameIPv4Address(cur->ExternalAddress, EffectiveAddress) || !mDNSSameIPPort (cur->ExternalPort, ExternalPort) || cur->Result != EffectiveResult) { //LogMsg("NAT callback %d %d %d", cur->Protocol, cur->ExpiryTime, cur->retryInterval); if (cur->Protocol && mDNSIPPortIsZero(ExternalPort) && !mDNSIPv4AddressIsZero(m->Router.ip.v4)) { if (!EffectiveResult) LogInfo("CheckNATMapping: Failed to obtain NAT port mapping %p from router %#a external address %.4a internal port %5d interval %d error %d", cur, &m->Router, &EffectiveAddress, mDNSVal16(cur->IntPort), cur->retryInterval, EffectiveResult); else LogMsg("CheckNATMapping: Failed to obtain NAT port mapping %p from router %#a external address %.4a internal port %5d interval %d error %d", cur, &m->Router, &EffectiveAddress, mDNSVal16(cur->IntPort), cur->retryInterval, EffectiveResult); } cur->ExternalAddress = EffectiveAddress; cur->ExternalPort = ExternalPort; cur->Lifetime = cur->ExpiryTime && !mDNSIPPortIsZero(ExternalPort) ? (cur->ExpiryTime - m->timenow + mDNSPlatformOneSecond/2) / mDNSPlatformOneSecond : 0; cur->Result = EffectiveResult; mDNS_DropLockBeforeCallback(); // Allow client to legally make mDNS API calls from the callback if (cur->clientCallback) cur->clientCallback(m, cur); mDNS_ReclaimLockAfterCallback(); // Decrement mDNS_reentrancy to block mDNS API calls again // MUST NOT touch cur after invoking the callback } } } } } mDNSlocal mDNSs32 CheckRecordUpdates(mDNS *m) { AuthRecord *rr; mDNSs32 nextevent = m->timenow + 0x3FFFFFFF; CheckGroupRecordUpdates(m); for (rr = m->ResourceRecords; rr; rr = rr->next) { if (!AuthRecord_uDNS(rr)) continue; if (rr->state == regState_NoTarget) {debugf("CheckRecordUpdates: Record %##s in NoTarget", rr->resrec.name->c); continue;} // While we are waiting for the port mapping, we have nothing to do. The port mapping callback // will take care of this if (rr->state == regState_NATMap) {debugf("CheckRecordUpdates: Record %##s in NATMap", rr->resrec.name->c); continue;} if (rr->state == regState_Pending || rr->state == regState_DeregPending || rr->state == regState_UpdatePending || rr->state == regState_Refresh || rr->state == regState_Registered) { if (rr->LastAPTime + rr->ThisAPInterval - m->timenow <= 0) { if (rr->tcp) { DisposeTCPConn(rr->tcp); rr->tcp = mDNSNULL; } if (!rr->nta || mDNSIPv4AddressIsZero(rr->nta->Addr.ip.v4)) { // Zero out the updateid so that if we have a pending response from the server, it won't // be accepted as a valid response. If we accept the response, we might free the new "nta" if (rr->nta) { rr->updateid = zeroID; CancelGetZoneData(m, rr->nta); } rr->nta = StartGetZoneData(m, rr->resrec.name, ZoneServiceUpdate, RecordRegistrationGotZoneData, rr); // We have just started the GetZoneData. We need to wait for it to finish. SetRecordRetry here // schedules the update timer to fire in the future. // // There are three cases. // // 1) When the updates are sent the first time, the first retry is intended to be at three seconds // in the future. But by calling SetRecordRetry here we set it to nine seconds. But it does not // matter because when the answer comes back, RecordRegistrationGotZoneData resets the interval // back to INIT_RECORD_REG_INTERVAL. This also gives enough time for the query. // // 2) In the case of update errors (updateError), this causes further backoff as // RecordRegistrationGotZoneData does not reset the timer. This is intentional as in the case of // errors, we don't want to update aggressively. // // 3) We might be refreshing the update. This is very similar to case (1). RecordRegistrationGotZoneData // resets it back to INIT_RECORD_REG_INTERVAL. // SetRecordRetry(m, rr, 0); } else if (rr->state == regState_DeregPending) SendRecordDeregistration(m, rr); else SendRecordRegistration(m, rr); } } if (nextevent - (rr->LastAPTime + rr->ThisAPInterval) > 0) nextevent = (rr->LastAPTime + rr->ThisAPInterval); } return nextevent; } mDNSexport void uDNS_Tasks(mDNS *const m) { mDNSs32 nexte; DNSServer *d; m->NextuDNSEvent = m->timenow + 0x3FFFFFFF; nexte = CheckRecordUpdates(m); if (m->NextuDNSEvent - nexte > 0) m->NextuDNSEvent = nexte; for (d = m->DNSServers; d; d=d->next) if (d->penaltyTime) { if (m->timenow - d->penaltyTime >= 0) { LogInfo("DNS server %#a:%d out of penalty box", &d->addr, mDNSVal16(d->port)); d->penaltyTime = 0; } else if (m->NextuDNSEvent - d->penaltyTime > 0) m->NextuDNSEvent = d->penaltyTime; } if (m->CurrentQuestion) LogMsg("uDNS_Tasks ERROR m->CurrentQuestion already set: %##s (%s)", m->CurrentQuestion->qname.c, DNSTypeName(m->CurrentQuestion->qtype)); m->CurrentQuestion = m->Questions; while (m->CurrentQuestion && m->CurrentQuestion != m->NewQuestions) { DNSQuestion *const q = m->CurrentQuestion; if (ActiveQuestion(q) && !mDNSOpaque16IsZero(q->TargetQID)) { uDNS_CheckCurrentQuestion(m); if (q == m->CurrentQuestion) if (m->NextuDNSEvent - NextQSendTime(q) > 0) m->NextuDNSEvent = NextQSendTime(q); } // If m->CurrentQuestion wasn't modified out from under us, advance it now // We can't do this at the start of the loop because uDNS_CheckCurrentQuestion() // depends on having m->CurrentQuestion point to the right question if (m->CurrentQuestion == q) m->CurrentQuestion = q->next; } m->CurrentQuestion = mDNSNULL; } // *************************************************************************** #if COMPILER_LIKES_PRAGMA_MARK #pragma mark - Startup, Shutdown, and Sleep #endif mDNSexport void SleepRecordRegistrations(mDNS *m) { AuthRecord *rr; for (rr = m->ResourceRecords; rr; rr=rr->next) { if (AuthRecord_uDNS(rr)) { // Zero out the updateid so that if we have a pending response from the server, it won't // be accepted as a valid response. if (rr->nta) { rr->updateid = zeroID; CancelGetZoneData(m, rr->nta); rr->nta = mDNSNULL; } if (rr->NATinfo.clientContext) { mDNS_StopNATOperation_internal(m, &rr->NATinfo); rr->NATinfo.clientContext = mDNSNULL; } // We are waiting to update the resource record. The original data of the record is // in OrigRData and the updated value is in InFlightRData. Free the old and the new // one will be registered when we come back. if (rr->state == regState_UpdatePending) { // act as if the update succeeded, since we're about to delete the name anyway rr->state = regState_Registered; // deallocate old RData if (rr->UpdateCallback) rr->UpdateCallback(m, rr, rr->OrigRData, rr->OrigRDLen); SetNewRData(&rr->resrec, rr->InFlightRData, rr->InFlightRDLen); rr->OrigRData = mDNSNULL; rr->InFlightRData = mDNSNULL; } // If we have not begun the registration process i.e., never sent a registration packet, // then uDNS_DeregisterRecord will not send a deregistration uDNS_DeregisterRecord(m, rr); // When we wake, we call ActivateUnicastRegistration which starts at StartGetZoneData } } } mDNSexport void mDNS_AddSearchDomain(const domainname *const domain, mDNSInterfaceID InterfaceID) { SearchListElem **p; SearchListElem *tmp = mDNSNULL; // Check to see if we already have this domain in our list for (p = &SearchList; *p; p = &(*p)->next) if (((*p)->InterfaceID == InterfaceID) && SameDomainName(&(*p)->domain, domain)) { // If domain is already in list, and marked for deletion, unmark the delete // Be careful not to touch the other flags that may be present LogInfo("mDNS_AddSearchDomain already in list %##s", domain->c); if ((*p)->flag & SLE_DELETE) (*p)->flag &= ~SLE_DELETE; tmp = *p; *p = tmp->next; tmp->next = mDNSNULL; break; } // move to end of list so that we maintain the same order while (*p) p = &(*p)->next; if (tmp) *p = tmp; else { // if domain not in list, add to list, mark as add (1) *p = mDNSPlatformMemAllocate(sizeof(SearchListElem)); if (!*p) { LogMsg("ERROR: mDNS_AddSearchDomain - malloc"); return; } mDNSPlatformMemZero(*p, sizeof(SearchListElem)); AssignDomainName(&(*p)->domain, domain); (*p)->next = mDNSNULL; (*p)->InterfaceID = InterfaceID; LogInfo("mDNS_AddSearchDomain created new %##s, InterfaceID %p", domain->c, InterfaceID); } } mDNSlocal void FreeARElemCallback(mDNS *const m, AuthRecord *const rr, mStatus result) { (void)m; // unused if (result == mStatus_MemFree) mDNSPlatformMemFree(rr->RecordContext); } mDNSlocal void FoundDomain(mDNS *const m, DNSQuestion *question, const ResourceRecord *const answer, QC_result AddRecord) { SearchListElem *slElem = question->QuestionContext; mStatus err; const char *name; if (answer->rrtype != kDNSType_PTR) return; if (answer->RecordType == kDNSRecordTypePacketNegative) return; if (answer->InterfaceID == mDNSInterface_LocalOnly) return; if (question == &slElem->BrowseQ) name = mDNS_DomainTypeNames[mDNS_DomainTypeBrowse]; else if (question == &slElem->DefBrowseQ) name = mDNS_DomainTypeNames[mDNS_DomainTypeBrowseDefault]; else if (question == &slElem->AutomaticBrowseQ) name = mDNS_DomainTypeNames[mDNS_DomainTypeBrowseAutomatic]; else if (question == &slElem->RegisterQ) name = mDNS_DomainTypeNames[mDNS_DomainTypeRegistration]; else if (question == &slElem->DefRegisterQ) name = mDNS_DomainTypeNames[mDNS_DomainTypeRegistrationDefault]; else { LogMsg("FoundDomain - unknown question"); return; } LogInfo("FoundDomain: %p %s %s Q %##s A %s", answer->InterfaceID, AddRecord ? "Add" : "Rmv", name, question->qname.c, RRDisplayString(m, answer)); if (AddRecord) { ARListElem *arElem = mDNSPlatformMemAllocate(sizeof(ARListElem)); if (!arElem) { LogMsg("ERROR: FoundDomain out of memory"); return; } mDNS_SetupResourceRecord(&arElem->ar, mDNSNULL, mDNSInterface_LocalOnly, kDNSType_PTR, 7200, kDNSRecordTypeShared, AuthRecordLocalOnly, FreeARElemCallback, arElem); MakeDomainNameFromDNSNameString(&arElem->ar.namestorage, name); AppendDNSNameString (&arElem->ar.namestorage, "local"); AssignDomainName(&arElem->ar.resrec.rdata->u.name, &answer->rdata->u.name); LogInfo("FoundDomain: Registering %s", ARDisplayString(m, &arElem->ar)); err = mDNS_Register(m, &arElem->ar); if (err) { LogMsg("ERROR: FoundDomain - mDNS_Register returned %d", err); mDNSPlatformMemFree(arElem); return; } arElem->next = slElem->AuthRecs; slElem->AuthRecs = arElem; } else { ARListElem **ptr = &slElem->AuthRecs; while (*ptr) { if (SameDomainName(&(*ptr)->ar.resrec.rdata->u.name, &answer->rdata->u.name)) { ARListElem *dereg = *ptr; *ptr = (*ptr)->next; LogInfo("FoundDomain: Deregistering %s", ARDisplayString(m, &dereg->ar)); err = mDNS_Deregister(m, &dereg->ar); if (err) LogMsg("ERROR: FoundDomain - mDNS_Deregister returned %d", err); // Memory will be freed in the FreeARElemCallback } else ptr = &(*ptr)->next; } } } #if APPLE_OSX_mDNSResponder && MACOSX_MDNS_MALLOC_DEBUGGING mDNSexport void udns_validatelists(void *const v) { mDNS *const m = v; NATTraversalInfo *n; for (n = m->NATTraversals; n; n=n->next) if (n->next == (NATTraversalInfo *)~0 || n->clientCallback == (NATTraversalClientCallback) ~0) LogMemCorruption("m->NATTraversals: %p is garbage", n); DNSServer *d; for (d = m->DNSServers; d; d=d->next) if (d->next == (DNSServer *)~0 || d->teststate > DNSServer_Disabled) LogMemCorruption("m->DNSServers: %p is garbage (%d)", d, d->teststate); DomainAuthInfo *info; for (info = m->AuthInfoList; info; info = info->next) if (info->next == (DomainAuthInfo *)~0) LogMemCorruption("m->AuthInfoList: %p is garbage", info); HostnameInfo *hi; for (hi = m->Hostnames; hi; hi = hi->next) if (hi->next == (HostnameInfo *)~0 || hi->StatusCallback == (mDNSRecordCallback*)~0) LogMemCorruption("m->Hostnames: %p is garbage", n); SearchListElem *ptr; for (ptr = SearchList; ptr; ptr = ptr->next) if (ptr->next == (SearchListElem *)~0 || ptr->AuthRecs == (void*)~0) LogMemCorruption("SearchList: %p is garbage (%X)", ptr, ptr->AuthRecs); } #endif // This should probably move to the UDS daemon -- the concept of legacy clients and automatic registration / automatic browsing // is really a UDS API issue, not something intrinsic to uDNS mDNSlocal void uDNS_DeleteWABQueries(mDNS *const m, SearchListElem *ptr, int delete) { const char *name1 = mDNSNULL; const char *name2 = mDNSNULL; ARListElem **arList = &ptr->AuthRecs; domainname namestorage1, namestorage2; mStatus err; // "delete" parameter indicates the type of query. switch (delete) { case UDNS_WAB_BROWSE_QUERY: mDNS_StopGetDomains(m, &ptr->BrowseQ); mDNS_StopGetDomains(m, &ptr->DefBrowseQ); name1 = mDNS_DomainTypeNames[mDNS_DomainTypeBrowse]; name2 = mDNS_DomainTypeNames[mDNS_DomainTypeBrowseDefault]; break; case UDNS_WAB_LBROWSE_QUERY: mDNS_StopGetDomains(m, &ptr->AutomaticBrowseQ); name1 = mDNS_DomainTypeNames[mDNS_DomainTypeBrowseAutomatic]; break; case UDNS_WAB_REG_QUERY: mDNS_StopGetDomains(m, &ptr->RegisterQ); mDNS_StopGetDomains(m, &ptr->DefRegisterQ); name1 = mDNS_DomainTypeNames[mDNS_DomainTypeRegistration]; name2 = mDNS_DomainTypeNames[mDNS_DomainTypeRegistrationDefault]; break; default: LogMsg("uDNS_DeleteWABQueries: ERROR!! returning from default"); return; } // When we get the results to the domain enumeration queries, we add a LocalOnly // entry. For example, if we issue a domain enumeration query for b._dns-sd._udp.xxxx.com, // and when we get a response, we add a LocalOnly entry b._dns-sd._udp.local whose RDATA // points to what we got in the response. Locate the appropriate LocalOnly entries and delete // them. if (name1) { MakeDomainNameFromDNSNameString(&namestorage1, name1); AppendDNSNameString(&namestorage1, "local"); } if (name2) { MakeDomainNameFromDNSNameString(&namestorage2, name2); AppendDNSNameString(&namestorage2, "local"); } while (*arList) { ARListElem *dereg = *arList; if ((name1 && SameDomainName(&dereg->ar.namestorage, &namestorage1)) || (name2 && SameDomainName(&dereg->ar.namestorage, &namestorage2))) { LogInfo("uDNS_DeleteWABQueries: Deregistering PTR %##s -> %##s", dereg->ar.resrec.name->c, dereg->ar.resrec.rdata->u.name.c); *arList = dereg->next; err = mDNS_Deregister(m, &dereg->ar); if (err) LogMsg("uDNS_DeleteWABQueries:: ERROR!! mDNS_Deregister returned %d", err); // Memory will be freed in the FreeARElemCallback } else { LogInfo("uDNS_DeleteWABQueries: Skipping PTR %##s -> %##s", dereg->ar.resrec.name->c, dereg->ar.resrec.rdata->u.name.c); arList = &(*arList)->next; } } } mDNSexport void uDNS_SetupWABQueries(mDNS *const m) { SearchListElem **p = &SearchList, *ptr; mStatus err; int action = 0; // step 1: mark each element for removal for (ptr = SearchList; ptr; ptr = ptr->next) ptr->flag |= SLE_DELETE; // Make sure we have the search domains from the platform layer so that if we start the WAB // queries below, we have the latest information. mDNS_Lock(m); if (!mDNSPlatformSetDNSConfig(m, mDNSfalse, mDNStrue, mDNSNULL, mDNSNULL, mDNSNULL, mDNSfalse)) { // If the configuration did not change, clear the flag so that we don't free the searchlist. // We still have to start the domain enumeration queries as we may not have started them // before. for (ptr = SearchList; ptr; ptr = ptr->next) ptr->flag &= ~SLE_DELETE; LogInfo("uDNS_SetupWABQueries: No config change"); } mDNS_Unlock(m); if (m->WABBrowseQueriesCount) action |= UDNS_WAB_BROWSE_QUERY; if (m->WABLBrowseQueriesCount) action |= UDNS_WAB_LBROWSE_QUERY; if (m->WABRegQueriesCount) action |= UDNS_WAB_REG_QUERY; // delete elems marked for removal, do queries for elems marked add while (*p) { ptr = *p; LogInfo("uDNS_SetupWABQueries:action 0x%x: Flags 0x%x, AuthRecs %p, InterfaceID %p %##s", action, ptr->flag, ptr->AuthRecs, ptr->InterfaceID, ptr->domain.c); // If SLE_DELETE is set, stop all the queries, deregister all the records and free the memory. // Otherwise, check to see what the "action" requires. If a particular action bit is not set and // we have started the corresponding queries as indicated by the "flags", stop those queries and // deregister the records corresponding to them. if ((ptr->flag & SLE_DELETE) || (!(action & UDNS_WAB_BROWSE_QUERY) && (ptr->flag & SLE_WAB_BROWSE_QUERY_STARTED)) || (!(action & UDNS_WAB_LBROWSE_QUERY) && (ptr->flag & SLE_WAB_LBROWSE_QUERY_STARTED)) || (!(action & UDNS_WAB_REG_QUERY) && (ptr->flag & SLE_WAB_REG_QUERY_STARTED))) { if (ptr->flag & SLE_DELETE) { ARListElem *arList = ptr->AuthRecs; ptr->AuthRecs = mDNSNULL; *p = ptr->next; // If the user has "local" in their DNS searchlist, we ignore that for the purposes of domain enumeration queries // We suppressed the domain enumeration for scoped search domains below. When we enable that // enable this. if ((ptr->flag & SLE_WAB_BROWSE_QUERY_STARTED) && !SameDomainName(&ptr->domain, &localdomain) && (ptr->InterfaceID == mDNSInterface_Any)) { LogInfo("uDNS_SetupWABQueries: DELETE Browse for domain %##s", ptr->domain.c); mDNS_StopGetDomains(m, &ptr->BrowseQ); mDNS_StopGetDomains(m, &ptr->DefBrowseQ); } if ((ptr->flag & SLE_WAB_LBROWSE_QUERY_STARTED) && !SameDomainName(&ptr->domain, &localdomain) && (ptr->InterfaceID == mDNSInterface_Any)) { LogInfo("uDNS_SetupWABQueries: DELETE Legacy Browse for domain %##s", ptr->domain.c); mDNS_StopGetDomains(m, &ptr->AutomaticBrowseQ); } if ((ptr->flag & SLE_WAB_REG_QUERY_STARTED) && !SameDomainName(&ptr->domain, &localdomain) && (ptr->InterfaceID == mDNSInterface_Any)) { LogInfo("uDNS_SetupWABQueries: DELETE Registration for domain %##s", ptr->domain.c); mDNS_StopGetDomains(m, &ptr->RegisterQ); mDNS_StopGetDomains(m, &ptr->DefRegisterQ); } mDNSPlatformMemFree(ptr); // deregister records generated from answers to the query while (arList) { ARListElem *dereg = arList; arList = arList->next; LogInfo("uDNS_SetupWABQueries: DELETE Deregistering PTR %##s -> %##s", dereg->ar.resrec.name->c, dereg->ar.resrec.rdata->u.name.c); err = mDNS_Deregister(m, &dereg->ar); if (err) LogMsg("uDNS_SetupWABQueries:: ERROR!! mDNS_Deregister returned %d", err); // Memory will be freed in the FreeARElemCallback } continue; } // If the user has "local" in their DNS searchlist, we ignore that for the purposes of domain enumeration queries // We suppressed the domain enumeration for scoped search domains below. When we enable that // enable this. if (!(action & UDNS_WAB_BROWSE_QUERY) && (ptr->flag & SLE_WAB_BROWSE_QUERY_STARTED) && !SameDomainName(&ptr->domain, &localdomain) && (ptr->InterfaceID == mDNSInterface_Any)) { LogInfo("uDNS_SetupWABQueries: Deleting Browse for domain %##s", ptr->domain.c); ptr->flag &= ~SLE_WAB_BROWSE_QUERY_STARTED; uDNS_DeleteWABQueries(m, ptr, UDNS_WAB_BROWSE_QUERY); } if (!(action & UDNS_WAB_LBROWSE_QUERY) && (ptr->flag & SLE_WAB_LBROWSE_QUERY_STARTED) && !SameDomainName(&ptr->domain, &localdomain) && (ptr->InterfaceID == mDNSInterface_Any)) { LogInfo("uDNS_SetupWABQueries: Deleting Legacy Browse for domain %##s", ptr->domain.c); ptr->flag &= ~SLE_WAB_LBROWSE_QUERY_STARTED; uDNS_DeleteWABQueries(m, ptr, UDNS_WAB_LBROWSE_QUERY); } if (!(action & UDNS_WAB_REG_QUERY) && (ptr->flag & SLE_WAB_REG_QUERY_STARTED) && !SameDomainName(&ptr->domain, &localdomain) && (ptr->InterfaceID == mDNSInterface_Any)) { LogInfo("uDNS_SetupWABQueries: Deleting Registration for domain %##s", ptr->domain.c); ptr->flag &= ~SLE_WAB_REG_QUERY_STARTED; uDNS_DeleteWABQueries(m, ptr, UDNS_WAB_REG_QUERY); } // Fall through to handle the ADDs } if ((action & UDNS_WAB_BROWSE_QUERY) && !(ptr->flag & SLE_WAB_BROWSE_QUERY_STARTED)) { // If the user has "local" in their DNS searchlist, we ignore that for the purposes of domain enumeration queries. // Also, suppress the domain enumeration for scoped search domains for now until there is a need. if (!SameDomainName(&ptr->domain, &localdomain) && (ptr->InterfaceID == mDNSInterface_Any)) { mStatus err1, err2; err1 = mDNS_GetDomains(m, &ptr->BrowseQ, mDNS_DomainTypeBrowse, &ptr->domain, ptr->InterfaceID, FoundDomain, ptr); if (err1) { LogMsg("uDNS_SetupWABQueries: GetDomains for domain %##s returned error(s):\n" "%d (mDNS_DomainTypeBrowse)\n", ptr->domain.c, err1); } else { LogInfo("uDNS_SetupWABQueries: Starting Browse for domain %##s", ptr->domain.c); } err2 = mDNS_GetDomains(m, &ptr->DefBrowseQ, mDNS_DomainTypeBrowseDefault, &ptr->domain, ptr->InterfaceID, FoundDomain, ptr); if (err2) { LogMsg("uDNS_SetupWABQueries: GetDomains for domain %##s returned error(s):\n" "%d (mDNS_DomainTypeBrowseDefault)\n", ptr->domain.c, err2); } else { LogInfo("uDNS_SetupWABQueries: Starting Default Browse for domain %##s", ptr->domain.c); } // For simplicity, we mark a single bit for denoting that both the browse queries have started. // It is not clear as to why one would fail to start and the other would succeed in starting up. // If that happens, we will try to stop both the queries and one of them won't be in the list and // it is not a hard error. if (!err1 || !err2) { ptr->flag |= SLE_WAB_BROWSE_QUERY_STARTED; } } } if ((action & UDNS_WAB_LBROWSE_QUERY) && !(ptr->flag & SLE_WAB_LBROWSE_QUERY_STARTED)) { // If the user has "local" in their DNS searchlist, we ignore that for the purposes of domain enumeration queries. // Also, suppress the domain enumeration for scoped search domains for now until there is a need. if (!SameDomainName(&ptr->domain, &localdomain) && (ptr->InterfaceID == mDNSInterface_Any)) { mStatus err1; err1 = mDNS_GetDomains(m, &ptr->AutomaticBrowseQ, mDNS_DomainTypeBrowseAutomatic, &ptr->domain, ptr->InterfaceID, FoundDomain, ptr); if (err1) { LogMsg("uDNS_SetupWABQueries: GetDomains for domain %##s returned error(s):\n" "%d (mDNS_DomainTypeBrowseAutomatic)\n", ptr->domain.c, err1); } else { ptr->flag |= SLE_WAB_LBROWSE_QUERY_STARTED; LogInfo("uDNS_SetupWABQueries: Starting Legacy Browse for domain %##s", ptr->domain.c); } } } if ((action & UDNS_WAB_REG_QUERY) && !(ptr->flag & SLE_WAB_REG_QUERY_STARTED)) { // If the user has "local" in their DNS searchlist, we ignore that for the purposes of domain enumeration queries. // Also, suppress the domain enumeration for scoped search domains for now until there is a need. if (!SameDomainName(&ptr->domain, &localdomain) && (ptr->InterfaceID == mDNSInterface_Any)) { mStatus err1, err2; err1 = mDNS_GetDomains(m, &ptr->RegisterQ, mDNS_DomainTypeRegistration, &ptr->domain, ptr->InterfaceID, FoundDomain, ptr); if (err1) { LogMsg("uDNS_SetupWABQueries: GetDomains for domain %##s returned error(s):\n" "%d (mDNS_DomainTypeRegistration)\n", ptr->domain.c, err1); } else { LogInfo("uDNS_SetupWABQueries: Starting Registration for domain %##s", ptr->domain.c); } err2 = mDNS_GetDomains(m, &ptr->DefRegisterQ, mDNS_DomainTypeRegistrationDefault, &ptr->domain, ptr->InterfaceID, FoundDomain, ptr); if (err2) { LogMsg("uDNS_SetupWABQueries: GetDomains for domain %##s returned error(s):\n" "%d (mDNS_DomainTypeRegistrationDefault)", ptr->domain.c, err2); } else { LogInfo("uDNS_SetupWABQueries: Starting Default Registration for domain %##s", ptr->domain.c); } if (!err1 || !err2) { ptr->flag |= SLE_WAB_REG_QUERY_STARTED; } } } p = &ptr->next; } } // mDNS_StartWABQueries is called once per API invocation where normally // one of the bits is set. mDNSexport void uDNS_StartWABQueries(mDNS *const m, int queryType) { if (queryType & UDNS_WAB_BROWSE_QUERY) { m->WABBrowseQueriesCount++; LogInfo("uDNS_StartWABQueries: Browse query count %d", m->WABBrowseQueriesCount); } if (queryType & UDNS_WAB_LBROWSE_QUERY) { m->WABLBrowseQueriesCount++; LogInfo("uDNS_StartWABQueries: Legacy Browse query count %d", m->WABLBrowseQueriesCount); } if (queryType & UDNS_WAB_REG_QUERY) { m->WABRegQueriesCount++; LogInfo("uDNS_StartWABQueries: Reg query count %d", m->WABRegQueriesCount); } uDNS_SetupWABQueries(m); } // mDNS_StopWABQueries is called once per API invocation where normally // one of the bits is set. mDNSexport void uDNS_StopWABQueries(mDNS *const m, int queryType) { if (queryType & UDNS_WAB_BROWSE_QUERY) { m->WABBrowseQueriesCount--; LogInfo("uDNS_StopWABQueries: Browse query count %d", m->WABBrowseQueriesCount); } if (queryType & UDNS_WAB_LBROWSE_QUERY) { m->WABLBrowseQueriesCount--; LogInfo("uDNS_StopWABQueries: Legacy Browse query count %d", m->WABLBrowseQueriesCount); } if (queryType & UDNS_WAB_REG_QUERY) { m->WABRegQueriesCount--; LogInfo("uDNS_StopWABQueries: Reg query count %d", m->WABRegQueriesCount); } uDNS_SetupWABQueries(m); } mDNSexport domainname *uDNS_GetNextSearchDomain(mDNS *const m, mDNSInterfaceID InterfaceID, mDNSs8 *searchIndex, mDNSBool ignoreDotLocal) { SearchListElem *p = SearchList; int count = *searchIndex; (void) m; // unused if (count < 0) { LogMsg("uDNS_GetNextSearchDomain: count %d less than zero", count); return mDNSNULL; } // Skip the domains that we already looked at before. Guard against "p" // being NULL. When search domains change we may not set the SearchListIndex // of the question to zero immediately e.g., domain enumeration query calls // uDNS_SetupWABQueries which reads in the new search domain but does not // restart the questions immediately. Questions are restarted as part of // network change and hence temporarily SearchListIndex may be out of range. for (; count && p; count--) p = p->next; while (p) { int labels = CountLabels(&p->domain); if (labels > 0) { const domainname *d = SkipLeadingLabels(&p->domain, labels - 1); if (SameDomainLabel(d->c, (const mDNSu8 *)"\x4" "arpa")) { LogInfo("uDNS_GetNextSearchDomain: skipping search domain %##s, InterfaceID %p", p->domain.c, p->InterfaceID); (*searchIndex)++; p = p->next; continue; } if (ignoreDotLocal && SameDomainLabel(d->c, (const mDNSu8 *)"\x5" "local")) { LogInfo("uDNS_GetNextSearchDomain: skipping local domain %##s, InterfaceID %p", p->domain.c, p->InterfaceID); (*searchIndex)++; p = p->next; continue; } } // Point to the next one in the list which we will look at next time. (*searchIndex)++; // When we are appending search domains in a ActiveDirectory domain, the question's InterfaceID // set to mDNSInterface_Unicast. Match the unscoped entries in that case. if (((InterfaceID == mDNSInterface_Unicast) && (p->InterfaceID == mDNSInterface_Any)) || p->InterfaceID == InterfaceID) { LogInfo("uDNS_GetNextSearchDomain returning domain %##s, InterfaceID %p", p->domain.c, p->InterfaceID); return &p->domain; } LogInfo("uDNS_GetNextSearchDomain skipping domain %##s, InterfaceID %p", p->domain.c, p->InterfaceID); p = p->next; } return mDNSNULL; } mDNSlocal void FlushAddressCacheRecords(mDNS *const m) { mDNSu32 slot; CacheGroup *cg; CacheRecord *cr; FORALL_CACHERECORDS(slot, cg, cr) { if (cr->resrec.InterfaceID) continue; // If a resource record can answer A or AAAA, they need to be flushed so that we will // deliver an ADD or RMV if (RRTypeAnswersQuestionType(&cr->resrec, kDNSType_A) || RRTypeAnswersQuestionType(&cr->resrec, kDNSType_AAAA)) { LogInfo("FlushAddressCacheRecords: Purging Resourcerecord %s", CRDisplayString(m, cr)); mDNS_PurgeCacheResourceRecord(m, cr); } } } // Retry questions which has seach domains appended mDNSexport void RetrySearchDomainQuestions(mDNS *const m) { DNSQuestion *q; mDNSBool found = mDNSfalse; // Check to see if there are any questions which needs search domains to be applied. // If there is none, search domains can't possibly affect them. for (q = m->Questions; q; q = q->next) { if (q->AppendSearchDomains) { found = mDNStrue; break; } } if (!found) { LogInfo("RetrySearchDomainQuestions: Questions with AppendSearchDomain not found"); return; } LogInfo("RetrySearchDomainQuestions: Question with AppendSearchDomain found %##s (%s)", q->qname.c, DNSTypeName(q->qtype)); // Purge all the A/AAAA cache records and restart the queries. mDNSCoreRestartAddressQueries // does this. When we restart the question, we first want to try the new search domains rather // than use the entries that is already in the cache. When we appended search domains, we might // have created cache entries which is no longer valid as there are new search domains now mDNSCoreRestartAddressQueries(m, mDNStrue, FlushAddressCacheRecords, mDNSNULL, mDNSNULL); } // Construction of Default Browse domain list (i.e. when clients pass NULL) is as follows: // 1) query for b._dns-sd._udp.local on LocalOnly interface // (.local manually generated via explicit callback) // 2) for each search domain (from prefs pane), query for b._dns-sd._udp.. // 3) for each result from (2), register LocalOnly PTR record b._dns-sd._udp.local. -> // 4) result above should generate a callback from question in (1). result added to global list // 5) global list delivered to client via GetSearchDomainList() // 6) client calls to enumerate domains now go over LocalOnly interface // (!!!KRS may add outgoing interface in addition) struct CompileTimeAssertionChecks_uDNS { // Check our structures are reasonable sizes. Including overly-large buffers, or embedding // other overly-large structures instead of having a pointer to them, can inadvertently // cause structure sizes (and therefore memory usage) to balloon unreasonably. char sizecheck_tcpInfo_t [(sizeof(tcpInfo_t) <= 9056) ? 1 : -1]; char sizecheck_SearchListElem[(sizeof(SearchListElem) <= 5000) ? 1 : -1]; }; #else // !UNICAST_DISABLED mDNSexport const domainname *GetServiceTarget(mDNS *m, AuthRecord *const rr) { (void) m; (void) rr; return mDNSNULL; } mDNSexport DomainAuthInfo *GetAuthInfoForName_internal(mDNS *m, const domainname *const name) { (void) m; (void) name; return mDNSNULL; } mDNSexport DomainAuthInfo *GetAuthInfoForQuestion(mDNS *m, const DNSQuestion *const q) { (void) m; (void) q; return mDNSNULL; } mDNSexport void startLLQHandshake(mDNS *m, DNSQuestion *q) { (void) m; (void) q; } mDNSexport void DisposeTCPConn(struct tcpInfo_t *tcp) { (void) tcp; } mDNSexport mStatus mDNS_StartNATOperation_internal(mDNS *m, NATTraversalInfo *traversal) { (void) m; (void) traversal; return mStatus_UnsupportedErr; } mDNSexport mStatus mDNS_StopNATOperation_internal(mDNS *m, NATTraversalInfo *traversal) { (void) m; (void) traversal; return mStatus_UnsupportedErr; } mDNSexport void sendLLQRefresh(mDNS *m, DNSQuestion *q) { (void) m; (void) q; } mDNSexport ZoneData *StartGetZoneData(mDNS *const m, const domainname *const name, const ZoneService target, ZoneDataCallback callback, void *ZoneDataContext) { (void) m; (void) name; (void) target; (void) callback; (void) ZoneDataContext; return mDNSNULL; } mDNSexport void RecordRegistrationGotZoneData(mDNS *const m, mStatus err, const ZoneData *zoneData) { (void) m; (void) err; (void) zoneData; } mDNSexport uDNS_LLQType uDNS_recvLLQResponse(mDNS *const m, const DNSMessage *const msg, const mDNSu8 *const end, const mDNSAddr *const srcaddr, const mDNSIPPort srcport, DNSQuestion **matchQuestion) { (void) m; (void) msg; (void) end; (void) srcaddr; (void) srcport; (void) matchQuestion; return uDNS_LLQ_Not; } mDNSexport void PenalizeDNSServer(mDNS *const m, DNSQuestion *q, mDNSOpaque16 responseFlags) { (void) m; (void) q; (void) responseFlags; } mDNSexport void mDNS_AddSearchDomain(const domainname *const domain, mDNSInterfaceID InterfaceID) { (void) domain; (void) InterfaceID; } mDNSexport void RetrySearchDomainQuestions(mDNS *const m) { (void) m; } mDNSexport mStatus mDNS_SetSecretForDomain(mDNS *m, DomainAuthInfo *info, const domainname *domain, const domainname *keyname, const char *b64keydata, const domainname *hostname, mDNSIPPort *port, mDNSBool autoTunnel) { (void) m; (void) info; (void) domain; (void) keyname; (void) b64keydata; (void) hostname; (void) port; (void) autoTunnel; return mStatus_UnsupportedErr; } mDNSexport domainname *uDNS_GetNextSearchDomain(mDNS *const m, mDNSInterfaceID InterfaceID, mDNSs8 *searchIndex, mDNSBool ignoreDotLocal) { (void) m; (void) InterfaceID; (void) searchIndex; (void) ignoreDotLocal; return mDNSNULL; } mDNSexport DomainAuthInfo *GetAuthInfoForName(mDNS *m, const domainname *const name) { (void) m; (void) name; return mDNSNULL; } mDNSexport mStatus mDNS_StartNATOperation(mDNS *const m, NATTraversalInfo *traversal) { (void) m; (void) traversal; return mStatus_UnsupportedErr; } mDNSexport mStatus mDNS_StopNATOperation(mDNS *const m, NATTraversalInfo *traversal) { (void) m; (void) traversal; return mStatus_UnsupportedErr; } mDNSexport DNSServer *mDNS_AddDNSServer(mDNS *const m, const domainname *d, const mDNSInterfaceID interface, const mDNSs32 serviceID, const mDNSAddr *addr, const mDNSIPPort port, mDNSu32 scoped, mDNSu32 timeout, mDNSBool cellIntf, mDNSu16 resGroupID, mDNSBool reqA, mDNSBool reqAAAA, mDNSBool reqDO) { (void) m; (void) d; (void) interface; (void) serviceID; (void) addr; (void) port; (void) scoped; (void) timeout; (void) cellIntf; (void) resGroupID; (void) reqA; (void) reqAAAA; (void) reqDO; return mDNSNULL; } mDNSexport void uDNS_SetupWABQueries(mDNS *const m) { (void) m; } mDNSexport void uDNS_StartWABQueries(mDNS *const m, int queryType) { (void) m; (void) queryType; } mDNSexport void uDNS_StopWABQueries(mDNS *const m, int queryType) { (void) m; (void) queryType; } mDNSexport void mDNS_AddDynDNSHostName(mDNS *m, const domainname *fqdn, mDNSRecordCallback *StatusCallback, const void *StatusContext) { (void) m; (void) fqdn; (void) StatusCallback; (void) StatusContext; } mDNSexport void mDNS_SetPrimaryInterfaceInfo(mDNS *m, const mDNSAddr *v4addr, const mDNSAddr *v6addr, const mDNSAddr *router) { (void) m; (void) v4addr; (void) v6addr; (void) router; } mDNSexport void mDNS_RemoveDynDNSHostName(mDNS *m, const domainname *fqdn) { (void) m; (void) fqdn; } mDNSexport void RecreateNATMappings(mDNS *const m, const mDNSu32 waitTicks) { (void) m; (void) waitTicks; } mDNSexport mDNSBool IsGetZoneDataQuestion(DNSQuestion *q) { (void)q; return mDNSfalse; } #endif // !UNICAST_DISABLED