/* * $Id$ * * DEBUG: section 78 DNS lookups; interacts with lib/rfc1035.c * AUTHOR: Duane Wessels * * SQUID Web Proxy Cache http://www.squid-cache.org/ * ---------------------------------------------------------- * * Squid is the result of efforts by numerous individuals from * the Internet community; see the CONTRIBUTORS file for full * details. Many organizations have provided support for Squid's * development; see the SPONSORS file for full details. Squid is * Copyrighted (C) 2001 by the Regents of the University of * California; see the COPYRIGHT file for full details. Squid * incorporates software developed and/or copyrighted by other * sources; see the CREDITS file for full details. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111, USA. * */ #include "squid-old.h" #include "comm/Connection.h" #include "comm/ConnOpener.h" #include "comm.h" #include "comm/Loops.h" #include "comm/Write.h" #include "event.h" #include "SquidTime.h" #include "Store.h" #include "fde.h" #include "ip/tools.h" #include "MemBuf.h" #include "mgr/Registration.h" #include "util.h" #include "wordlist.h" #include "base/InstanceId.h" #if HAVE_ARPA_NAMESER_H #include #endif #if HAVE_RESOLV_H #include #endif /* MS Visual Studio Projects are monolithic, so we need the following #ifndef to exclude the internal DNS code from compile process when using external DNS process. */ #if !USE_DNSHELPER #if _SQUID_WINDOWS_ #include "squid_windows.h" #define REG_TCPIP_PARA_INTERFACES "SYSTEM\\CurrentControlSet\\Services\\Tcpip\\Parameters\\Interfaces" #define REG_TCPIP_PARA "SYSTEM\\CurrentControlSet\\Services\\Tcpip\\Parameters" #define REG_VXD_MSTCP "SYSTEM\\CurrentControlSet\\Services\\VxD\\MSTCP" #endif #ifndef _PATH_RESCONF #define _PATH_RESCONF "/etc/resolv.conf" #endif #ifndef NS_DEFAULTPORT #define NS_DEFAULTPORT 53 #endif #ifndef NS_MAXDNAME #define NS_MAXDNAME 1025 #endif #ifndef MAXDNSRCH #define MAXDNSRCH 6 #endif /* The buffer size required to store the maximum allowed search path */ #ifndef RESOLV_BUFSZ #define RESOLV_BUFSZ NS_MAXDNAME * MAXDNSRCH + sizeof("search ") + 1 #endif #define IDNS_MAX_TRIES 20 #define MAX_RCODE 17 #define MAX_ATTEMPT 3 static int RcodeMatrix[MAX_RCODE][MAX_ATTEMPT]; // NP: see http://www.iana.org/assignments/dns-parameters static const char *Rcodes[] = { /* RFC 1035 */ "Success", "Packet Format Error", "DNS Server Failure", "Non-Existent Domain", "Not Implemented", "Query Refused", /* RFC 2136 */ "Name Exists when it should not", "RR Set Exists when it should not", "RR Set that should exist does not", "Server Not Authoritative for zone", "Name not contained in zone", /* unassigned */ "","","","","", /* RFC 2671 */ "Bad OPT Version or TSIG Signature Failure" }; typedef struct _idns_query idns_query; typedef struct _ns ns; typedef struct _sp sp; typedef struct _nsvc nsvc; struct _idns_query { hash_link hash; rfc1035_query query; char buf[RESOLV_BUFSZ]; char name[NS_MAXDNAME + 1]; char orig[NS_MAXDNAME + 1]; ssize_t sz; unsigned short query_id; /// random query ID sent to server; changes with every query sent InstanceId xact_id; /// identifies our "transaction", stays constant when query is retried int nsends; int need_vc; int pending; struct timeval start_t; struct timeval sent_t; struct timeval queue_t; dlink_node lru; IDNSCB *callback; void *callback_data; int attempt; int rcode; idns_query *queue; idns_query *slave; // single linked list idns_query *master; // single pointer to a shared master unsigned short domain; unsigned short do_searchpath; rfc1035_message *message; int ancount; const char *error; }; InstanceIdDefinitions(idns_query, "dns"); struct _nsvc { int ns; Comm::ConnectionPointer conn; unsigned short msglen; int read_msglen; MemBuf *msg; MemBuf *queue; bool busy; }; struct _ns { Ip::Address S; int nqueries; int nreplies; #if WHEN_EDNS_RESPONSES_ARE_PARSED int last_seen_edns; #endif nsvc *vc; }; struct _sp { char domain[NS_MAXDNAME]; int queries; }; CBDATA_TYPE(nsvc); CBDATA_TYPE(idns_query); static ns *nameservers = NULL; static sp *searchpath = NULL; static int nns = 0; static int nns_alloc = 0; static int npc = 0; static int npc_alloc = 0; static int ndots = 1; static dlink_list lru_list; static int event_queued = 0; static hash_table *idns_lookup_hash = NULL; /* * Notes on EDNS: * * IPv4: * EDNS as specified may be sent as an additional record for any request. * early testing has revealed that it works on common devices, but cannot * be reliably used on any A or PTR requet done for IPv4 addresses. * * As such the IPv4 packets are still hard-coded not to contain EDNS (0) * * Squid design: * Squid is optimized to generate one packet and re-send it to all NS * due to this we cannot customize the EDNS size per NS. * * As such we take the configuration option value as fixed. * * FUTURE TODO: * This may not be worth doing, but if/when additional-records are parsed * we will be able to recover the OPT value specific to any one NS and * cache it. Effectively automating the tuning of EDNS advertised to the * size our active NS are capable. * Default would need to start with 512 bytes RFC1035 says every NS must accept. * Responses from the configured NS may cause this to be raised or turned off. */ #if WHEN_EDNS_RESPONSES_ARE_PARSED static int max_shared_edns = RFC1035_DEFAULT_PACKET_SZ; #endif static OBJH idnsStats; static void idnsAddNameserver(const char *buf); static void idnsAddPathComponent(const char *buf); static void idnsFreeNameservers(void); static void idnsFreeSearchpath(void); static void idnsParseNameservers(void); #if !_SQUID_MSWIN_ static void idnsParseResolvConf(void); #endif #if _SQUID_WINDOWS_ static void idnsParseWIN32Registry(void); static void idnsParseWIN32SearchList(const char *); #endif static void idnsStartQuery(idns_query * q, IDNSCB * callback, void *data); static void idnsSendQuery(idns_query * q); static IOCB idnsReadVCHeader; static void idnsDoSendQueryVC(nsvc *vc); static CNCB idnsInitVCConnected; static IOCB idnsReadVC; static IOCB idnsSentQueryVC; static int idnsFromKnownNameserver(Ip::Address const &from); static idns_query *idnsFindQuery(unsigned short id); static void idnsGrokReply(const char *buf, size_t sz, int from_ns); static PF idnsRead; static EVH idnsCheckQueue; static void idnsTickleQueue(void); static void idnsRcodeCount(int, int); static CLCB idnsVCClosed; static unsigned short idnsQueryID(void); static void idnsSendSlaveAAAAQuery(idns_query *q); static void idnsAddNameserver(const char *buf) { Ip::Address A; if (!(A = buf)) { debugs(78, 0, "WARNING: rejecting '" << buf << "' as a name server, because it is not a numeric IP address"); return; } if (A.IsAnyAddr()) { debugs(78, 0, "WARNING: Squid does not accept " << A << " in DNS server specifications."); A.SetLocalhost(); debugs(78, 0, "Will be using " << A << " instead, assuming you meant that DNS is running on the same machine"); } if (!Ip::EnableIpv6 && !A.SetIPv4()) { debugs(78, DBG_IMPORTANT, "WARNING: IPv6 is disabled. Discarding " << A << " in DNS server specifications."); return; } if (nns == nns_alloc) { int oldalloc = nns_alloc; ns *oldptr = nameservers; if (nns_alloc == 0) nns_alloc = 2; else nns_alloc <<= 1; nameservers = (ns *)xcalloc(nns_alloc, sizeof(*nameservers)); if (oldptr && oldalloc) memcpy(nameservers, oldptr, oldalloc * sizeof(*nameservers)); if (oldptr) safe_free(oldptr); } assert(nns < nns_alloc); A.SetPort(NS_DEFAULTPORT); nameservers[nns].S = A; #if WHEN_EDNS_RESPONSES_ARE_PARSED nameservers[nns].last_seen_edns = RFC1035_DEFAULT_PACKET_SZ; // TODO generate a test packet to probe this NS from EDNS size and ability. #endif debugs(78, 3, "idnsAddNameserver: Added nameserver #" << nns << " (" << A << ")"); ++nns; } static void idnsAddPathComponent(const char *buf) { if (npc == npc_alloc) { int oldalloc = npc_alloc; sp *oldptr = searchpath; if (0 == npc_alloc) npc_alloc = 2; else npc_alloc <<= 1; searchpath = (sp *)xcalloc(npc_alloc, sizeof(*searchpath)); if (oldptr && oldalloc) memcpy(searchpath, oldptr, oldalloc * sizeof(*searchpath)); if (oldptr) safe_free(oldptr); } assert(npc < npc_alloc); strncpy(searchpath[npc].domain, buf, sizeof(searchpath[npc].domain)-1); searchpath[npc].domain[sizeof(searchpath[npc].domain)-1] = '\0'; Tolower(searchpath[npc].domain); debugs(78, 3, "idnsAddPathComponent: Added domain #" << npc << ": " << searchpath[npc].domain); ++npc; } static void idnsFreeNameservers(void) { safe_free(nameservers); nns = nns_alloc = 0; } static void idnsFreeSearchpath(void) { safe_free(searchpath); npc = npc_alloc = 0; } static void idnsParseNameservers(void) { wordlist *w; for (w = Config.dns_nameservers; w; w = w->next) { debugs(78, 1, "Adding nameserver " << w->key << " from squid.conf"); idnsAddNameserver(w->key); } } #if !_SQUID_MSWIN_ static void idnsParseResolvConf(void) { FILE *fp; char buf[RESOLV_BUFSZ]; const char *t; fp = fopen(_PATH_RESCONF, "r"); if (fp == NULL) { debugs(78, 1, "" << _PATH_RESCONF << ": " << xstrerror()); return; } #if _SQUID_CYGWIN_ setmode(fileno(fp), O_TEXT); #endif while (fgets(buf, RESOLV_BUFSZ, fp)) { t = strtok(buf, w_space); if (NULL == t) { continue; } else if (strcasecmp(t, "nameserver") == 0) { t = strtok(NULL, w_space); if (NULL == t) continue; debugs(78, 1, "Adding nameserver " << t << " from " << _PATH_RESCONF); idnsAddNameserver(t); } else if (strcasecmp(t, "domain") == 0) { idnsFreeSearchpath(); t = strtok(NULL, w_space); if (NULL == t) continue; debugs(78, 1, "Adding domain " << t << " from " << _PATH_RESCONF); idnsAddPathComponent(t); } else if (strcasecmp(t, "search") == 0) { idnsFreeSearchpath(); while (NULL != t) { t = strtok(NULL, w_space); if (NULL == t) continue; debugs(78, 1, "Adding domain " << t << " from " << _PATH_RESCONF); idnsAddPathComponent(t); } } else if (strcasecmp(t, "options") == 0) { while (NULL != t) { t = strtok(NULL, w_space); if (NULL == t) continue; if (strncmp(t, "ndots:", 6) == 0) { ndots = atoi(t + 6); if (ndots < 1) ndots = 1; debugs(78, 1, "Adding ndots " << ndots << " from " << _PATH_RESCONF); } } } } if (npc == 0 && (t = getMyHostname())) { t = strchr(t, '.'); if (t) idnsAddPathComponent(t+1); } fclose(fp); } #endif #if _SQUID_WINDOWS_ static void idnsParseWIN32SearchList(const char * Separator) { char *t; char *token; HKEY hndKey; if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, REG_TCPIP_PARA, 0, KEY_QUERY_VALUE, &hndKey) == ERROR_SUCCESS) { DWORD Type = 0; DWORD Size = 0; LONG Result; Result = RegQueryValueEx(hndKey, "Domain", NULL, &Type, NULL, &Size); if (Result == ERROR_SUCCESS && Size) { t = (char *) xmalloc(Size); RegQueryValueEx(hndKey, "Domain", NULL, &Type, (LPBYTE) t, &Size); debugs(78, 1, "Adding domain " << t << " from Registry"); idnsAddPathComponent(t); xfree(t); } Result = RegQueryValueEx(hndKey, "SearchList", NULL, &Type, NULL, &Size); if (Result == ERROR_SUCCESS && Size) { t = (char *) xmalloc(Size); RegQueryValueEx(hndKey, "SearchList", NULL, &Type, (LPBYTE) t, &Size); token = strtok(t, Separator); while (token) { idnsAddPathComponent(token); debugs(78, 1, "Adding domain " << token << " from Registry"); token = strtok(NULL, Separator); } xfree(t); } RegCloseKey(hndKey); } if (npc == 0 && (t = (char *) getMyHostname())) { t = strchr(t, '.'); if (t) idnsAddPathComponent(t + 1); } } static void idnsParseWIN32Registry(void) { char *t; char *token; HKEY hndKey, hndKey2; switch (WIN32_OS_version) { case _WIN_OS_WINNT: /* get nameservers from the Windows NT registry */ if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, REG_TCPIP_PARA, 0, KEY_QUERY_VALUE, &hndKey) == ERROR_SUCCESS) { DWORD Type = 0; DWORD Size = 0; LONG Result; Result = RegQueryValueEx(hndKey, "DhcpNameServer", NULL, &Type, NULL, &Size); if (Result == ERROR_SUCCESS && Size) { t = (char *) xmalloc(Size); RegQueryValueEx(hndKey, "DhcpNameServer", NULL, &Type, (LPBYTE) t, &Size); token = strtok(t, ", "); while (token) { idnsAddNameserver(token); debugs(78, 1, "Adding DHCP nameserver " << token << " from Registry"); token = strtok(NULL, ","); } xfree(t); } Result = RegQueryValueEx(hndKey, "NameServer", NULL, &Type, NULL, &Size); if (Result == ERROR_SUCCESS && Size) { t = (char *) xmalloc(Size); RegQueryValueEx(hndKey, "NameServer", NULL, &Type, (LPBYTE) t, &Size); token = strtok(t, ", "); while (token) { debugs(78, 1, "Adding nameserver " << token << " from Registry"); idnsAddNameserver(token); token = strtok(NULL, ", "); } xfree(t); } RegCloseKey(hndKey); } idnsParseWIN32SearchList(" "); break; case _WIN_OS_WIN2K: case _WIN_OS_WINXP: case _WIN_OS_WINNET: case _WIN_OS_WINLON: case _WIN_OS_WIN7: /* get nameservers from the Windows 2000 registry */ /* search all interfaces for DNS server addresses */ if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, REG_TCPIP_PARA_INTERFACES, 0, KEY_READ, &hndKey) == ERROR_SUCCESS) { int i; DWORD MaxSubkeyLen, InterfacesCount; char *keyname; FILETIME ftLastWriteTime; if (RegQueryInfoKey(hndKey, NULL, NULL, NULL, &InterfacesCount, &MaxSubkeyLen, NULL, NULL, NULL, NULL, NULL, NULL) == ERROR_SUCCESS) { keyname = (char *) xmalloc(++MaxSubkeyLen); for (i = 0; i < (int) InterfacesCount; ++i) { DWORD j; j = MaxSubkeyLen; if (RegEnumKeyEx(hndKey, i, keyname, &j, NULL, NULL, NULL, &ftLastWriteTime) == ERROR_SUCCESS) { char *newkeyname; newkeyname = (char *) xmalloc(sizeof(REG_TCPIP_PARA_INTERFACES) + j + 2); strcpy(newkeyname, REG_TCPIP_PARA_INTERFACES); strcat(newkeyname, "\\"); strcat(newkeyname, keyname); if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, newkeyname, 0, KEY_QUERY_VALUE, &hndKey2) == ERROR_SUCCESS) { DWORD Type = 0; DWORD Size = 0; LONG Result; Result = RegQueryValueEx(hndKey2, "DhcpNameServer", NULL, &Type, NULL, &Size); if (Result == ERROR_SUCCESS && Size) { t = (char *) xmalloc(Size); RegQueryValueEx(hndKey2, "DhcpNameServer", NULL, &Type, (LPBYTE)t, &Size); token = strtok(t, ", "); while (token) { debugs(78, 1, "Adding DHCP nameserver " << token << " from Registry"); idnsAddNameserver(token); token = strtok(NULL, ", "); } xfree(t); } Result = RegQueryValueEx(hndKey2, "NameServer", NULL, &Type, NULL, &Size); if (Result == ERROR_SUCCESS && Size) { t = (char *) xmalloc(Size); RegQueryValueEx(hndKey2, "NameServer", NULL, &Type, (LPBYTE)t, &Size); token = strtok(t, ", "); while (token) { debugs(78, 1, "Adding nameserver " << token << " from Registry"); idnsAddNameserver(token); token = strtok(NULL, ", "); } xfree(t); } RegCloseKey(hndKey2); } xfree(newkeyname); } } xfree(keyname); } RegCloseKey(hndKey); } idnsParseWIN32SearchList(", "); break; case _WIN_OS_WIN95: case _WIN_OS_WIN98: case _WIN_OS_WINME: /* get nameservers from the Windows 9X registry */ if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, REG_VXD_MSTCP, 0, KEY_QUERY_VALUE, &hndKey) == ERROR_SUCCESS) { DWORD Type = 0; DWORD Size = 0; LONG Result; Result = RegQueryValueEx(hndKey, "NameServer", NULL, &Type, NULL, &Size); if (Result == ERROR_SUCCESS && Size) { t = (char *) xmalloc(Size); RegQueryValueEx(hndKey, "NameServer", NULL, &Type, (LPBYTE) t, &Size); token = strtok(t, ", "); while (token) { debugs(78, 1, "Adding nameserver " << token << " from Registry"); idnsAddNameserver(token); token = strtok(NULL, ", "); } xfree(t); } RegCloseKey(hndKey); } break; default: debugs(78, 1, "Failed to read nameserver from Registry: Unknown System Type."); return; } } #endif static void idnsStats(StoreEntry * sentry) { dlink_node *n; idns_query *q; int i; int j; char buf[MAX_IPSTRLEN]; storeAppendPrintf(sentry, "Internal DNS Statistics:\n"); storeAppendPrintf(sentry, "\nThe Queue:\n"); storeAppendPrintf(sentry, " DELAY SINCE\n"); storeAppendPrintf(sentry, " ID SIZE SENDS FIRST SEND LAST SEND\n"); storeAppendPrintf(sentry, "------ ---- ----- ---------- ---------\n"); for (n = lru_list.head; n; n = n->next) { q = (idns_query *)n->data; storeAppendPrintf(sentry, "%#06x %4d %5d %10.3f %9.3f\n", (int) q->query_id, (int) q->sz, q->nsends, tvSubDsec(q->start_t, current_time), tvSubDsec(q->sent_t, current_time)); } if (Config.dns.packet_max > 0) storeAppendPrintf(sentry, "DNS jumbo-grams: %zd Bytes\n", Config.dns.packet_max); else storeAppendPrintf(sentry, "DNS jumbo-grams: not working\n"); storeAppendPrintf(sentry, "\nNameservers:\n"); storeAppendPrintf(sentry, "IP ADDRESS # QUERIES # REPLIES\n"); storeAppendPrintf(sentry, "---------------------------------------------- --------- ---------\n"); for (i = 0; i < nns; ++i) { storeAppendPrintf(sentry, "%-45s %9d %9d\n", /* Let's take the maximum: (15 IPv4/45 IPv6) */ nameservers[i].S.NtoA(buf,MAX_IPSTRLEN), nameservers[i].nqueries, nameservers[i].nreplies); } storeAppendPrintf(sentry, "\nRcode Matrix:\n"); storeAppendPrintf(sentry, "RCODE"); for (i = 0; i < MAX_ATTEMPT; ++i) storeAppendPrintf(sentry, " ATTEMPT%d", i + 1); storeAppendPrintf(sentry, " PROBLEM\n"); for (j = 0; j < MAX_RCODE; ++j) { if (j > 10 && j < 16) continue; // unassigned by IANA. storeAppendPrintf(sentry, "%5d", j); for (i = 0; i < MAX_ATTEMPT; ++i) storeAppendPrintf(sentry, " %8d", RcodeMatrix[j][i]); storeAppendPrintf(sentry, " : %s\n",Rcodes[j]); } if (npc) { storeAppendPrintf(sentry, "\nSearch list:\n"); for (i=0; i < npc; ++i) storeAppendPrintf(sentry, "%s\n", searchpath[i].domain); storeAppendPrintf(sentry, "\n"); } } static void idnsTickleQueue(void) { if (event_queued) return; if (NULL == lru_list.tail) return; const double when = min(Config.Timeout.idns_query, Config.Timeout.idns_retransmit)/1000.0; eventAdd("idnsCheckQueue", idnsCheckQueue, NULL, when, 1); event_queued = 1; } static void idnsSentQueryVC(const Comm::ConnectionPointer &conn, char *buf, size_t size, comm_err_t flag, int xerrno, void *data) { nsvc * vc = (nsvc *)data; if (flag == COMM_ERR_CLOSING) return; // XXX: irrelevant now that we have conn pointer? if (!Comm::IsConnOpen(conn) || fd_table[conn->fd].closing()) return; if (flag != COMM_OK || size <= 0) { conn->close(); return; } vc->busy = 0; idnsDoSendQueryVC(vc); } static void idnsDoSendQueryVC(nsvc *vc) { if (vc->busy) return; if (vc->queue->contentSize() == 0) return; // if retrying after a TC UDP response, our close handler cb may be pending if (fd_table[vc->conn->fd].closing()) return; MemBuf *mb = vc->queue; vc->queue = new MemBuf; vc->busy = 1; // Comm needs seconds but idnsCheckQueue() will check the exact timeout const int timeout = (Config.Timeout.idns_query % 1000 ? Config.Timeout.idns_query + 1000 : Config.Timeout.idns_query) / 1000; AsyncCall::Pointer nil; commSetConnTimeout(vc->conn, timeout, nil); AsyncCall::Pointer call = commCbCall(78, 5, "idnsSentQueryVC", CommIoCbPtrFun(&idnsSentQueryVC, vc)); Comm::Write(vc->conn, mb, call); delete mb; } static void idnsInitVCConnected(const Comm::ConnectionPointer &conn, comm_err_t status, int xerrno, void *data) { nsvc * vc = (nsvc *)data; if (status != COMM_OK || !conn) { char buf[MAX_IPSTRLEN] = ""; if (vc->ns < nns) nameservers[vc->ns].S.NtoA(buf,MAX_IPSTRLEN); debugs(78, 1, HERE << "Failed to connect to nameserver " << buf << " using TCP."); return; } vc->conn = conn; comm_add_close_handler(conn->fd, idnsVCClosed, vc); AsyncCall::Pointer call = commCbCall(5,4, "idnsReadVCHeader", CommIoCbPtrFun(idnsReadVCHeader, vc)); comm_read(conn, (char *)&vc->msglen, 2, call); vc->busy = 0; idnsDoSendQueryVC(vc); } static void idnsVCClosed(const CommCloseCbParams ¶ms) { nsvc * vc = (nsvc *)params.data; delete vc->queue; delete vc->msg; vc->conn = NULL; if (vc->ns < nns) // XXX: dnsShutdown may have freed nameservers[] nameservers[vc->ns].vc = NULL; cbdataFree(vc); } static void idnsInitVC(int ns) { nsvc *vc = cbdataAlloc(nsvc); assert(ns < nns); assert(vc->conn == NULL); // MUST be NULL from the construction process! nameservers[ns].vc = vc; vc->ns = ns; vc->queue = new MemBuf; vc->msg = new MemBuf; vc->busy = 1; Comm::ConnectionPointer conn = new Comm::Connection(); if (!Config.Addrs.udp_outgoing.IsNoAddr()) conn->local = Config.Addrs.udp_outgoing; else conn->local = Config.Addrs.udp_incoming; conn->remote = nameservers[ns].S; if (conn->remote.IsIPv4()) { conn->local.SetIPv4(); } AsyncCall::Pointer call = commCbCall(78,3, "idnsInitVCConnected", CommConnectCbPtrFun(idnsInitVCConnected, vc)); Comm::ConnOpener *cs = new Comm::ConnOpener(conn, call, Config.Timeout.connect); cs->setHost("DNS TCP Socket"); AsyncJob::Start(cs); } static void idnsSendQueryVC(idns_query * q, int ns) { assert(ns < nns); if (nameservers[ns].vc == NULL) idnsInitVC(ns); nsvc *vc = nameservers[ns].vc; if (!vc) { char buf[MAX_IPSTRLEN]; debugs(78, 1, "idnsSendQuery: Failed to initiate TCP connection to nameserver " << nameservers[ns].S.NtoA(buf,MAX_IPSTRLEN) << "!"); return; } vc->queue->reset(); short head = htons(q->sz); vc->queue->append((char *)&head, 2); vc->queue->append(q->buf, q->sz); idnsDoSendQueryVC(vc); } static void idnsSendQuery(idns_query * q) { if (DnsSocketA < 0 && DnsSocketB < 0) { debugs(78, 1, "WARNING: idnsSendQuery: Can't send query, no DNS socket!"); return; } if (nns <= 0) { debugs(78, 1, "WARNING: idnsSendQuery: Can't send query, no DNS nameservers known!"); return; } assert(q->lru.next == NULL); assert(q->lru.prev == NULL); int x = -1, y = -1; int ns; do { ns = q->nsends % nns; if (q->need_vc) { idnsSendQueryVC(q, ns); x = y = 0; } else { if (DnsSocketB >= 0 && nameservers[ns].S.IsIPv6()) y = comm_udp_sendto(DnsSocketB, nameservers[ns].S, q->buf, q->sz); else if (DnsSocketA >= 0) x = comm_udp_sendto(DnsSocketA, nameservers[ns].S, q->buf, q->sz); } ++ q->nsends; q->sent_t = current_time; if (y < 0 && nameservers[ns].S.IsIPv6()) debugs(50, 1, "idnsSendQuery: FD " << DnsSocketB << ": sendto: " << xstrerror()); if (x < 0 && nameservers[ns].S.IsIPv4()) debugs(50, 1, "idnsSendQuery: FD " << DnsSocketA << ": sendto: " << xstrerror()); } while ( (x<0 && y<0) && q->nsends % nns != 0); if (y > 0) { fd_bytes(DnsSocketB, y, FD_WRITE); } if (x > 0) { fd_bytes(DnsSocketA, x, FD_WRITE); } ++ nameservers[ns].nqueries; q->queue_t = current_time; dlinkAdd(q, &q->lru, &lru_list); q->pending = 1; idnsTickleQueue(); } static int idnsFromKnownNameserver(Ip::Address const &from) { int i; for (i = 0; i < nns; ++i) { if (nameservers[i].S != from) continue; if (nameservers[i].S.GetPort() != from.GetPort()) continue; return i; } return -1; } static idns_query * idnsFindQuery(unsigned short id) { dlink_node *n; idns_query *q; for (n = lru_list.tail; n; n = n->prev) { q = (idns_query*)n->data; if (q->query_id == id) return q; } return NULL; } static unsigned short idnsQueryID(void) { unsigned short id = squid_random() & 0xFFFF; unsigned short first_id = id; while (idnsFindQuery(id)) { ++id; if (id == first_id) { debugs(78, 1, "idnsQueryID: Warning, too many pending DNS requests"); break; } } return id; } static void idnsCallback(idns_query *q, const char *error) { IDNSCB *callback; void *cbdata; if (error) q->error = error; if (q->master) q = q->master; idns_query *q2; // If any of our subqueries are still pending then wait for them to complete before continuing for ( q2 = q; q2; q2 = q2->slave) { if (q2->pending) { return; } } /* Merge results */ rfc1035_message *message = q->message; q->message = NULL; int n = q->ancount; error = q->error; while ( (q2 = q->slave) ) { debugs(78, 6, HERE << "Merging DNS results " << q->name << " A has " << n << " RR, AAAA has " << q2->ancount << " RR"); q->slave = q2->slave; if ( !q2->error ) { if (n > 0) { // two sets of RR need merging rfc1035_rr *result = (rfc1035_rr*) xmalloc( sizeof(rfc1035_rr)*(n + q2->ancount) ); if (Config.dns.v4_first) { memcpy(result, message->answer, (sizeof(rfc1035_rr)*n) ); memcpy(result+n, q2->message->answer, (sizeof(rfc1035_rr)*q2->ancount) ); } else { memcpy(result, q2->message->answer, (sizeof(rfc1035_rr)*q2->ancount) ); memcpy(result+q2->ancount, message->answer, (sizeof(rfc1035_rr)*n) ); } n += q2->ancount; // HACK WARNING, the answer rr:s have been copied in-place to // result, do not free them here safe_free(message->answer); safe_free(q2->message->answer); message->answer = result; message->ancount += q2->message->ancount; } else { // first response empty or failed, just use the second rfc1035MessageDestroy(&message); message = q2->message; q2->message = NULL; n = q2->ancount; error = NULL; } } rfc1035MessageDestroy(&q2->message); cbdataFree(q2); } debugs(78, 6, HERE << "Sending " << n << " (" << (error ? error : "OK") << ") DNS results to caller."); callback = q->callback; q->callback = NULL; const rfc1035_rr *answers = message ? message->answer : NULL; if (cbdataReferenceValidDone(q->callback_data, &cbdata)) callback(cbdata, answers, n, error); while (q->queue) { idns_query *q2 = q->queue; q->queue = q2->queue; callback = q2->callback; q2->callback = NULL; if (cbdataReferenceValidDone(q2->callback_data, &cbdata)) callback(cbdata, answers, n, error); cbdataFree(q2); } if (q->hash.key) { hash_remove_link(idns_lookup_hash, &q->hash); q->hash.key = NULL; } rfc1035MessageDestroy(&message); cbdataFree(q); } static void idnsGrokReply(const char *buf, size_t sz, int from_ns) { int n; rfc1035_message *message = NULL; idns_query *q; n = rfc1035MessageUnpack(buf, sz, &message); if (message == NULL) { debugs(78, 1, "idnsGrokReply: Malformed DNS response"); return; } debugs(78, 3, "idnsGrokReply: QID 0x" << std::hex << message->id << ", " << std::dec << n << " answers"); q = idnsFindQuery(message->id); if (q == NULL) { debugs(78, 3, "idnsGrokReply: Late response"); rfc1035MessageDestroy(&message); return; } if (rfc1035QueryCompare(&q->query, message->query) != 0) { debugs(78, 3, "idnsGrokReply: Query mismatch (" << q->query.name << " != " << message->query->name << ")"); rfc1035MessageDestroy(&message); return; } #if WHEN_EDNS_RESPONSES_ARE_PARSED // TODO: actually gr the message right here. // pull out the DNS meta data we need (A records, AAAA records and EDNS OPT) and store in q // this is overall better than force-feeding A response with AAAA an section later anyway. // AND allows us to merge AN+AR sections from both responses (one day) if (q->edns_seen >= 0) { if (max_shared_edns == nameservers[from_ns].last_seen_edns && max_shared_edns < q->edns_seen) { nameservers[from_ns].last_seen_edns = q->edns_seen; // the altered NS was limiting the whole group. max_shared_edns = q->edns_seen; // may be limited by one of the others still for (int i = 0; i < nns; ++i) max_shared_edns = min(max_shared_edns, nameservers[i].last_seen_edns); } else { nameservers[from_ns].last_seen_edns = q->edns_seen; // maybe reduce the global limit downwards to accomodate this NS max_shared_edns = min(max_shared_edns, q->edns_seen); } if (max_shared_edns < RFC1035_DEFAULT_PACKET_SZ) max_shared_edns = -1; } #endif dlinkDelete(&q->lru, &lru_list); q->pending = 0; if (message->tc) { debugs(78, 3, HERE << "Resolver requested TC (" << q->query.name << ")"); rfc1035MessageDestroy(&message); if (!q->need_vc) { q->need_vc = 1; -- q->nsends; idnsSendQuery(q); } else { // Strange: A TCP DNS response with the truncation bit (TC) set. // Return an error and cleanup; no point in trying TCP again. debugs(78, 3, HERE << "TCP DNS response"); idnsCallback(q, "Truncated TCP DNS response"); } return; } idnsRcodeCount(n, q->attempt); if (n < 0) { q->rcode = -n; debugs(78, 3, "idnsGrokReply: error " << rfc1035ErrorMessage(n) << " (" << q->rcode << ")"); if (q->rcode == 2 && (++ q->attempt) < MAX_ATTEMPT) { /* * RCODE 2 is "Server failure - The name server was * unable to process this query due to a problem with * the name server." */ debugs(78, 3, "idnsGrokReply: Query result: SERV_FAIL"); rfc1035MessageDestroy(&message); idnsSendQuery(q); return; } // Do searchpath processing on the master A query only to keep // things simple. NXDOMAIN is authorative for the label, not // the record type. if (q->rcode == 3 && !q->master && q->do_searchpath && q->attempt < MAX_ATTEMPT) { assert(NULL == message->answer); strcpy(q->name, q->orig); debugs(78, 3, "idnsGrokReply: Query result: NXDOMAIN - " << q->name ); if (q->domain < npc) { strcat(q->name, "."); strcat(q->name, searchpath[q->domain].domain); debugs(78, 3, "idnsGrokReply: searchpath used for " << q->name); ++ q->domain; } else { ++ q->attempt; } rfc1035MessageDestroy(&message); // cleanup slave AAAA query while (idns_query *slave = q->slave) { dlinkDelete(&slave->lru, &lru_list); q->slave = slave->slave; rfc1035MessageDestroy(&slave->message); cbdataFree(slave); } // Build new query q->query_id = idnsQueryID(); debugs(78, 3, "idnsGrokReply: Trying A Query for " << q->name); // see EDNS notes at top of file why this sends 0 q->sz = rfc3596BuildAQuery(q->name, q->buf, sizeof(q->buf), q->query_id, &q->query, 0); if (q->sz < 0) { /* problem with query data -- query not sent */ idnsCallback(q, "Internal error"); return; } q->nsends = 0; idnsSendQuery(q); if (Ip::EnableIpv6) idnsSendSlaveAAAAQuery(q); return; } } q->message = message; q->ancount = n; if (n >= 0) idnsCallback(q, NULL); else idnsCallback(q, rfc1035ErrorMessage(q->rcode)); } static void idnsRead(int fd, void *data) { int *N = &incoming_sockets_accepted; int len; int max = INCOMING_DNS_MAX; static char rbuf[SQUID_UDP_SO_RCVBUF]; int ns; Ip::Address from; debugs(78, 3, "idnsRead: starting with FD " << fd); // Always keep reading. This stops (or at least makes harder) several // attacks on the DNS client. Comm::SetSelect(fd, COMM_SELECT_READ, idnsRead, NULL, 0); /* BUG (UNRESOLVED) * two code lines after returning from comm_udprecvfrom() * something overwrites the memory behind the from parameter. * NO matter where in the stack declaration list above it is placed * The cause of this is still unknown, however copying the data appears * to allow it to be passed further without this erasure. */ Ip::Address bugbypass; while (max) { --max; len = comm_udp_recvfrom(fd, rbuf, SQUID_UDP_SO_RCVBUF, 0, bugbypass); from = bugbypass; // BUG BYPASS. see notes above. if (len == 0) break; if (len < 0) { if (ignoreErrno(errno)) break; #if _SQUID_LINUX_ /* Some Linux systems seem to set the FD for reading and then * return ECONNREFUSED when sendto() fails and generates an ICMP * port unreachable message. */ /* or maybe an EHOSTUNREACH "No route to host" message */ if (errno != ECONNREFUSED && errno != EHOSTUNREACH) #endif debugs(50, 1, "idnsRead: FD " << fd << " recvfrom: " << xstrerror()); break; } fd_bytes(fd, len, FD_READ); assert(N); ++(*N); debugs(78, 3, "idnsRead: FD " << fd << ": received " << len << " bytes from " << from); /* BUG: see above. Its here that it becomes apparent that the content of bugbypass is gone. */ ns = idnsFromKnownNameserver(from); if (ns >= 0) { ++ nameservers[ns].nreplies; } // Before unknown_nameservers check to avoid flooding cache.log on attacks, // but after the ++ above to keep statistics right. if (!lru_list.head) continue; // Don't process replies if there is no pending query. if (ns < 0 && Config.onoff.ignore_unknown_nameservers) { static time_t last_warning = 0; if (squid_curtime - last_warning > 60) { debugs(78, 1, "WARNING: Reply from unknown nameserver " << from); last_warning = squid_curtime; } else { debugs(78, 1, "WARNING: Reply from unknown nameserver " << from << " (retrying..." << (squid_curtime-last_warning) << "<=60)" ); } continue; } idnsGrokReply(rbuf, len, ns); } } static void idnsCheckQueue(void *unused) { dlink_node *n; dlink_node *p = NULL; idns_query *q; event_queued = 0; if (0 == nns) /* name servers went away; reconfiguring or shutting down */ return; for (n = lru_list.tail; n; n = p) { p = n->prev; q = static_cast(n->data); /* Anything to process in the queue? */ if ((time_msec_t)tvSubMsec(q->queue_t, current_time) < Config.Timeout.idns_retransmit ) break; /* Query timer still running? */ if ((time_msec_t)tvSubMsec(q->sent_t, current_time) < (Config.Timeout.idns_retransmit * 1 << ((q->nsends - 1) / nns))) { dlinkDelete(&q->lru, &lru_list); q->queue_t = current_time; dlinkAdd(q, &q->lru, &lru_list); continue; } debugs(78, 3, "idnsCheckQueue: ID " << q->xact_id << " QID 0x" << std::hex << std::setfill('0') << std::setw(4) << q->query_id << ": timeout" ); dlinkDelete(&q->lru, &lru_list); q->pending = 0; if ((time_msec_t)tvSubMsec(q->start_t, current_time) < Config.Timeout.idns_query) { idnsSendQuery(q); } else { debugs(78, 2, "idnsCheckQueue: ID " << q->xact_id << " QID 0x" << std::hex << q->query_id << " : giving up after " << std::dec << q->nsends << " tries and " << std::setw(5)<< std::setprecision(2) << tvSubDsec(q->start_t, current_time) << " seconds"); if (q->rcode != 0) idnsCallback(q, rfc1035ErrorMessage(q->rcode)); else idnsCallback(q, "Timeout"); } } idnsTickleQueue(); } static void idnsReadVC(const Comm::ConnectionPointer &conn, char *buf, size_t len, comm_err_t flag, int xerrno, void *data) { nsvc * vc = (nsvc *)data; if (flag == COMM_ERR_CLOSING) return; if (flag != COMM_OK || len <= 0) { if (Comm::IsConnOpen(conn)) conn->close(); return; } vc->msg->size += len; // XXX should not access -> size directly if (vc->msg->contentSize() < vc->msglen) { AsyncCall::Pointer call = commCbCall(5,4, "idnsReadVC", CommIoCbPtrFun(idnsReadVC, vc)); comm_read(conn, buf+len, vc->msglen - vc->msg->contentSize(), call); return; } assert(vc->ns < nns); debugs(78, 3, HERE << conn << ": received " << vc->msg->contentSize() << " bytes via TCP from " << nameservers[vc->ns].S << "."); idnsGrokReply(vc->msg->buf, vc->msg->contentSize(), vc->ns); vc->msg->clean(); AsyncCall::Pointer call = commCbCall(5,4, "idnsReadVCHeader", CommIoCbPtrFun(idnsReadVCHeader, vc)); comm_read(conn, (char *)&vc->msglen, 2, call); } static void idnsReadVCHeader(const Comm::ConnectionPointer &conn, char *buf, size_t len, comm_err_t flag, int xerrno, void *data) { nsvc * vc = (nsvc *)data; if (flag == COMM_ERR_CLOSING) return; if (flag != COMM_OK || len <= 0) { if (Comm::IsConnOpen(conn)) conn->close(); return; } vc->read_msglen += len; assert(vc->read_msglen <= 2); if (vc->read_msglen < 2) { AsyncCall::Pointer call = commCbCall(5,4, "idnsReadVCHeader", CommIoCbPtrFun(idnsReadVCHeader, vc)); comm_read(conn, buf+len, 2 - vc->read_msglen, call); return; } vc->read_msglen = 0; vc->msglen = ntohs(vc->msglen); vc->msg->init(vc->msglen, vc->msglen); AsyncCall::Pointer call = commCbCall(5,4, "idnsReadVC", CommIoCbPtrFun(idnsReadVC, vc)); comm_read(conn, vc->msg->buf, vc->msglen, call); } /* * rcode < 0 indicates an error, rocde >= 0 indicates success */ static void idnsRcodeCount(int rcode, int attempt) { if (rcode > 0) rcode = 0; else if (rcode < 0) rcode = -rcode; if (rcode < MAX_RCODE) if (attempt < MAX_ATTEMPT) ++ RcodeMatrix[rcode][attempt]; } /* ====================================================================== */ static void idnsRegisterWithCacheManager(void) { Mgr::RegisterAction("idns", "Internal DNS Statistics", idnsStats, 0, 1); } void dnsInit(void) { static int init = 0; CBDATA_INIT_TYPE(nsvc); CBDATA_INIT_TYPE(idns_query); if (DnsSocketA < 0 && DnsSocketB < 0) { Ip::Address addrV6; // since we don't want to alter Config.Addrs.udp_* and dont have one of our own. if (!Config.Addrs.udp_outgoing.IsNoAddr()) addrV6 = Config.Addrs.udp_outgoing; else addrV6 = Config.Addrs.udp_incoming; Ip::Address addrV4 = addrV6; addrV4.SetIPv4(); if (Ip::EnableIpv6 && addrV6.IsIPv6()) { debugs(78, 2, "idnsInit: attempt open DNS socket to: " << addrV6); DnsSocketB = comm_open_listener(SOCK_DGRAM, IPPROTO_UDP, addrV6, COMM_NONBLOCKING, "DNS Socket IPv6"); } if (addrV4.IsIPv4()) { debugs(78, 2, "idnsInit: attempt open DNS socket to: " << addrV4); DnsSocketA = comm_open_listener(SOCK_DGRAM, IPPROTO_UDP, addrV4, COMM_NONBLOCKING, "DNS Socket IPv4"); } if (DnsSocketA < 0 && DnsSocketB < 0) fatal("Could not create a DNS socket"); /* Ouch... we can't call functions using debug from a debug * statement. Doing so messes up the internal Debug::level */ if (DnsSocketB >= 0) { comm_local_port(DnsSocketB); debugs(78, 1, "DNS Socket created at " << addrV6 << ", FD " << DnsSocketB); Comm::SetSelect(DnsSocketB, COMM_SELECT_READ, idnsRead, NULL, 0); } if (DnsSocketA >= 0) { comm_local_port(DnsSocketA); debugs(78, 1, "DNS Socket created at " << addrV4 << ", FD " << DnsSocketA); Comm::SetSelect(DnsSocketA, COMM_SELECT_READ, idnsRead, NULL, 0); } } assert(0 == nns); idnsParseNameservers(); #if !_SQUID_MSWIN_ if (0 == nns) idnsParseResolvConf(); #endif #if _SQUID_WINDOWS_ if (0 == nns) idnsParseWIN32Registry(); #endif if (0 == nns) { debugs(78, 1, "Warning: Could not find any nameservers. Trying to use localhost"); #if _SQUID_WINDOWS_ debugs(78, 1, "Please check your TCP-IP settings or /etc/resolv.conf file"); #else debugs(78, 1, "Please check your /etc/resolv.conf file"); #endif debugs(78, 1, "or use the 'dns_nameservers' option in squid.conf."); idnsAddNameserver("127.0.0.1"); } if (!init) { memDataInit(MEM_IDNS_QUERY, "idns_query", sizeof(idns_query), 0); memset(RcodeMatrix, '\0', sizeof(RcodeMatrix)); idns_lookup_hash = hash_create((HASHCMP *) strcmp, 103, hash_string); ++init; } #if WHEN_EDNS_RESPONSES_ARE_PARSED if (Config.onoff.ignore_unknown_nameservers && max_shared_edns > 0) { debugs(0, DBG_IMPORTANT, "ERROR: cannot negotiate EDNS with unknown nameservers. Disabling"); max_shared_edns = -1; // disable if we might receive random replies. } #endif idnsRegisterWithCacheManager(); } void dnsShutdown(void) { if (DnsSocketA < 0 && DnsSocketB < 0) return; if (DnsSocketA >= 0 ) { comm_close(DnsSocketA); DnsSocketA = -1; } if (DnsSocketB >= 0 ) { comm_close(DnsSocketB); DnsSocketB = -1; } for (int i = 0; i < nns; ++i) { if (nsvc *vc = nameservers[i].vc) { if (Comm::IsConnOpen(vc->conn)) vc->conn->close(); } } // XXX: vcs are not closed/freed yet and may try to access nameservers[] idnsFreeNameservers(); idnsFreeSearchpath(); } static int idnsCachedLookup(const char *key, IDNSCB * callback, void *data) { idns_query *q; idns_query *old = (idns_query *) hash_lookup(idns_lookup_hash, key); if (!old) return 0; q = cbdataAlloc(idns_query); // idns_query is POD so no constructors are called after allocation q->xact_id.change(); // no query_id on this instance. q->callback = callback; q->callback_data = cbdataReference(data); q->queue = old->queue; old->queue = q; return 1; } static void idnsStartQuery(idns_query *q, IDNSCB * callback, void *data) { q->start_t = current_time; q->callback = callback; q->callback_data = cbdataReference(data); q->hash.key = q->orig; hash_join(idns_lookup_hash, &q->hash); idnsSendQuery(q); } static void idnsSendSlaveAAAAQuery(idns_query *master) { idns_query *q = cbdataAlloc(idns_query); memcpy(q->name, master->name, sizeof(q->name)); memcpy(q->orig, master->orig, sizeof(q->orig)); q->master = master; q->query_id = idnsQueryID(); q->sz = rfc3596BuildAAAAQuery(q->name, q->buf, sizeof(q->buf), q->query_id, &q->query, Config.dns.packet_max); q->start_t = master->start_t; q->slave = master->slave; debugs(78, 3, HERE << "buf is " << q->sz << " bytes for " << q->name << ", id = 0x" << std::hex << q->query_id); if (!q->sz) { cbdataFree(q); return; } master->slave = q; idnsSendQuery(q); } void idnsALookup(const char *name, IDNSCB * callback, void *data) { size_t nameLength = strlen(name); // Prevent buffer overflow on q->name if (nameLength > NS_MAXDNAME) { debugs(23, DBG_IMPORTANT, "SECURITY ALERT: DNS name too long to perform lookup: '" << name << "'. see access.log for details."); callback(data, NULL, 0, "Internal error"); return; } if (idnsCachedLookup(name, callback, data)) return; idns_query *q = cbdataAlloc(idns_query); // idns_query is POD so no constructors are called after allocation q->xact_id.change(); q->query_id = idnsQueryID(); int nd = 0; for (unsigned int i = 0; i < nameLength; ++i) if (name[i] == '.') ++nd; if (Config.onoff.res_defnames && npc > 0 && name[nameLength-1] != '.') { q->do_searchpath = 1; } else { q->do_searchpath = 0; } strcpy(q->orig, name); strcpy(q->name, q->orig); if (q->do_searchpath && nd < ndots) { q->domain = 0; strcat(q->name, "."); strcat(q->name, searchpath[q->domain].domain); debugs(78, 3, "idnsALookup: searchpath used for " << q->name); } // see EDNS notes at top of file why this sends 0 q->sz = rfc3596BuildAQuery(q->name, q->buf, sizeof(q->buf), q->query_id, &q->query, 0); if (q->sz < 0) { /* problem with query data -- query not sent */ callback(data, NULL, 0, "Internal error"); cbdataFree(q); return; } debugs(78, 3, "idnsALookup: buf is " << q->sz << " bytes for " << q->name << ", id = 0x" << std::hex << q->query_id); idnsStartQuery(q, callback, data); if (Ip::EnableIpv6) idnsSendSlaveAAAAQuery(q); } void idnsPTRLookup(const Ip::Address &addr, IDNSCB * callback, void *data) { idns_query *q; char ip[MAX_IPSTRLEN]; addr.NtoA(ip,MAX_IPSTRLEN); q = cbdataAlloc(idns_query); // idns_query is POD so no constructors are called after allocation q->xact_id.change(); q->query_id = idnsQueryID(); if (addr.IsIPv6()) { struct in6_addr addr6; addr.GetInAddr(addr6); q->sz = rfc3596BuildPTRQuery6(addr6, q->buf, sizeof(q->buf), q->query_id, &q->query, Config.dns.packet_max); } else { struct in_addr addr4; addr.GetInAddr(addr4); // see EDNS notes at top of file why this sends 0 q->sz = rfc3596BuildPTRQuery4(addr4, q->buf, sizeof(q->buf), q->query_id, &q->query, 0); } if (q->sz < 0) { /* problem with query data -- query not sent */ callback(data, NULL, 0, "Internal error"); cbdataFree(q); return; } if (idnsCachedLookup(q->query.name, callback, data)) { cbdataFree(q); return; } debugs(78, 3, "idnsPTRLookup: buf is " << q->sz << " bytes for " << ip << ", id = 0x" << std::hex << q->query_id); idnsStartQuery(q, callback, data); } #if SQUID_SNMP /* * The function to return the DNS via SNMP */ variable_list * snmp_netDnsFn(variable_list * Var, snint * ErrP) { int i, n = 0; variable_list *Answer = NULL; MemBuf tmp; debugs(49, 5, "snmp_netDnsFn: Processing request: " << snmpDebugOid(Var->name, Var->name_length, tmp)); *ErrP = SNMP_ERR_NOERROR; switch (Var->name[LEN_SQ_NET + 1]) { case DNS_REQ: for (i = 0; i < nns; ++i) n += nameservers[i].nqueries; Answer = snmp_var_new_integer(Var->name, Var->name_length, n, SMI_COUNTER32); break; case DNS_REP: for (i = 0; i < nns; ++i) n += nameservers[i].nreplies; Answer = snmp_var_new_integer(Var->name, Var->name_length, n, SMI_COUNTER32); break; case DNS_SERVERS: Answer = snmp_var_new_integer(Var->name, Var->name_length, nns, SMI_COUNTER32); break; default: *ErrP = SNMP_ERR_NOSUCHNAME; break; } return Answer; } #endif /*SQUID_SNMP */ #endif /* USE_DNSHELPER */