/* * InspIRCd -- Internet Relay Chat Daemon * * Copyright (C) 2013 Adam * Copyright (C) 2003-2013 Anope Team * * This file is part of InspIRCd. InspIRCd 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, version 2. * * 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, see . */ #include "inspircd.h" #include "modules/dns.h" #include #include #ifdef _WIN32 #include #pragma comment(lib, "Iphlpapi.lib") #endif using namespace DNS; /** A full packet sent or recieved to/from the nameserver */ class Packet : public Query { void PackName(unsigned char* output, unsigned short output_size, unsigned short& pos, const std::string& name) { if (pos + name.length() + 2 > output_size) throw Exception("Unable to pack name"); ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: Packing name " + name); irc::sepstream sep(name, '.'); std::string token; while (sep.GetToken(token)) { output[pos++] = token.length(); memcpy(&output[pos], token.data(), token.length()); pos += token.length(); } output[pos++] = 0; } std::string UnpackName(const unsigned char* input, unsigned short input_size, unsigned short& pos) { std::string name; unsigned short pos_ptr = pos, lowest_ptr = input_size; bool compressed = false; if (pos_ptr >= input_size) throw Exception("Unable to unpack name - no input"); while (input[pos_ptr] > 0) { unsigned short offset = input[pos_ptr]; if (offset & POINTER) { if ((offset & POINTER) != POINTER) throw Exception("Unable to unpack name - bogus compression header"); if (pos_ptr + 1 >= input_size) throw Exception("Unable to unpack name - bogus compression header"); /* Place pos at the second byte of the first (farthest) compression pointer */ if (compressed == false) { ++pos; compressed = true; } pos_ptr = (offset & LABEL) << 8 | input[pos_ptr + 1]; /* Pointers can only go back */ if (pos_ptr >= lowest_ptr) throw Exception("Unable to unpack name - bogus compression pointer"); lowest_ptr = pos_ptr; } else { if (pos_ptr + offset + 1 >= input_size) throw Exception("Unable to unpack name - offset too large"); if (!name.empty()) name += "."; for (unsigned i = 1; i <= offset; ++i) name += input[pos_ptr + i]; pos_ptr += offset + 1; if (compressed == false) /* Move up pos */ pos = pos_ptr; } } /* +1 pos either to one byte after the compression pointer or one byte after the ending \0 */ ++pos; if (name.empty()) throw Exception("Unable to unpack name - no name"); ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: Unpack name " + name); return name; } Question UnpackQuestion(const unsigned char* input, unsigned short input_size, unsigned short& pos) { Question question; question.name = this->UnpackName(input, input_size, pos); if (pos + 4 > input_size) throw Exception("Unable to unpack question"); question.type = static_cast(input[pos] << 8 | input[pos + 1]); pos += 2; question.qclass = input[pos] << 8 | input[pos + 1]; pos += 2; return question; } ResourceRecord UnpackResourceRecord(const unsigned char* input, unsigned short input_size, unsigned short& pos) { ResourceRecord record = static_cast(this->UnpackQuestion(input, input_size, pos)); if (pos + 6 > input_size) throw Exception("Unable to unpack resource record"); record.ttl = (input[pos] << 24) | (input[pos + 1] << 16) | (input[pos + 2] << 8) | input[pos + 3]; pos += 4; //record.rdlength = input[pos] << 8 | input[pos + 1]; pos += 2; switch (record.type) { case QUERY_A: { if (pos + 4 > input_size) throw Exception("Unable to unpack resource record"); irc::sockets::sockaddrs addrs; memset(&addrs, 0, sizeof(addrs)); addrs.in4.sin_family = AF_INET; addrs.in4.sin_addr.s_addr = input[pos] | (input[pos + 1] << 8) | (input[pos + 2] << 16) | (input[pos + 3] << 24); pos += 4; record.rdata = addrs.addr(); break; } case QUERY_AAAA: { if (pos + 16 > input_size) throw Exception("Unable to unpack resource record"); irc::sockets::sockaddrs addrs; memset(&addrs, 0, sizeof(addrs)); addrs.in6.sin6_family = AF_INET6; for (int j = 0; j < 16; ++j) addrs.in6.sin6_addr.s6_addr[j] = input[pos + j]; pos += 16; record.rdata = addrs.addr(); break; } case QUERY_CNAME: case QUERY_PTR: { record.rdata = this->UnpackName(input, input_size, pos); break; } default: break; } if (!record.name.empty() && !record.rdata.empty()) ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: " + record.name + " -> " + record.rdata); return record; } public: static const int POINTER = 0xC0; static const int LABEL = 0x3F; static const int HEADER_LENGTH = 12; /* ID for this packet */ unsigned short id; /* Flags on the packet */ unsigned short flags; Packet() : id(0), flags(0) { } void Fill(const unsigned char* input, const unsigned short len) { if (len < HEADER_LENGTH) throw Exception("Unable to fill packet"); unsigned short packet_pos = 0; this->id = (input[packet_pos] << 8) | input[packet_pos + 1]; packet_pos += 2; if (this->id >= MAX_REQUEST_ID) throw Exception("Query ID too large?"); this->flags = (input[packet_pos] << 8) | input[packet_pos + 1]; packet_pos += 2; unsigned short qdcount = (input[packet_pos] << 8) | input[packet_pos + 1]; packet_pos += 2; unsigned short ancount = (input[packet_pos] << 8) | input[packet_pos + 1]; packet_pos += 2; unsigned short nscount = (input[packet_pos] << 8) | input[packet_pos + 1]; packet_pos += 2; unsigned short arcount = (input[packet_pos] << 8) | input[packet_pos + 1]; packet_pos += 2; ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: qdcount: " + ConvToStr(qdcount) + " ancount: " + ConvToStr(ancount) + " nscount: " + ConvToStr(nscount) + " arcount: " + ConvToStr(arcount)); for (unsigned i = 0; i < qdcount; ++i) this->questions.push_back(this->UnpackQuestion(input, len, packet_pos)); for (unsigned i = 0; i < ancount; ++i) this->answers.push_back(this->UnpackResourceRecord(input, len, packet_pos)); } unsigned short Pack(unsigned char* output, unsigned short output_size) { if (output_size < HEADER_LENGTH) throw Exception("Unable to pack packet"); unsigned short pos = 0; output[pos++] = this->id >> 8; output[pos++] = this->id & 0xFF; output[pos++] = this->flags >> 8; output[pos++] = this->flags & 0xFF; output[pos++] = this->questions.size() >> 8; output[pos++] = this->questions.size() & 0xFF; output[pos++] = this->answers.size() >> 8; output[pos++] = this->answers.size() & 0xFF; output[pos++] = 0; output[pos++] = 0; output[pos++] = 0; output[pos++] = 0; for (unsigned i = 0; i < this->questions.size(); ++i) { Question& q = this->questions[i]; if (q.type == QUERY_PTR) { irc::sockets::sockaddrs ip; irc::sockets::aptosa(q.name, 0, ip); if (q.name.find(':') != std::string::npos) { static const char* const hex = "0123456789abcdef"; char reverse_ip[128]; unsigned reverse_ip_count = 0; for (int j = 15; j >= 0; --j) { reverse_ip[reverse_ip_count++] = hex[ip.in6.sin6_addr.s6_addr[j] & 0xF]; reverse_ip[reverse_ip_count++] = '.'; reverse_ip[reverse_ip_count++] = hex[ip.in6.sin6_addr.s6_addr[j] >> 4]; reverse_ip[reverse_ip_count++] = '.'; } reverse_ip[reverse_ip_count++] = 0; q.name = reverse_ip; q.name += "ip6.arpa"; } else { unsigned long forward = ip.in4.sin_addr.s_addr; ip.in4.sin_addr.s_addr = forward << 24 | (forward & 0xFF00) << 8 | (forward & 0xFF0000) >> 8 | forward >> 24; q.name = ip.addr() + ".in-addr.arpa"; } } this->PackName(output, output_size, pos, q.name); if (pos + 4 >= output_size) throw Exception("Unable to pack packet"); short s = htons(q.type); memcpy(&output[pos], &s, 2); pos += 2; s = htons(q.qclass); memcpy(&output[pos], &s, 2); pos += 2; } for (unsigned int i = 0; i < answers.size(); i++) { ResourceRecord& rr = answers[i]; this->PackName(output, output_size, pos, rr.name); if (pos + 8 >= output_size) throw Exception("Unable to pack packet"); short s = htons(rr.type); memcpy(&output[pos], &s, 2); pos += 2; s = htons(rr.qclass); memcpy(&output[pos], &s, 2); pos += 2; long l = htonl(rr.ttl); memcpy(&output[pos], &l, 4); pos += 4; switch (rr.type) { case QUERY_A: { if (pos + 6 > output_size) throw Exception("Unable to pack packet"); irc::sockets::sockaddrs a; irc::sockets::aptosa(rr.rdata, 0, a); s = htons(4); memcpy(&output[pos], &s, 2); pos += 2; memcpy(&output[pos], &a.in4.sin_addr, 4); pos += 4; break; } case QUERY_AAAA: { if (pos + 18 > output_size) throw Exception("Unable to pack packet"); irc::sockets::sockaddrs a; irc::sockets::aptosa(rr.rdata, 0, a); s = htons(16); memcpy(&output[pos], &s, 2); pos += 2; memcpy(&output[pos], &a.in6.sin6_addr, 16); pos += 16; break; } case QUERY_CNAME: case QUERY_PTR: { if (pos + 2 >= output_size) throw Exception("Unable to pack packet"); unsigned short packet_pos_save = pos; pos += 2; this->PackName(output, output_size, pos, rr.rdata); s = htons(pos - packet_pos_save - 2); memcpy(&output[packet_pos_save], &s, 2); break; } default: break; } } return pos; } }; class MyManager : public Manager, public Timer, public EventHandler { typedef TR1NS::unordered_map cache_map; cache_map cache; irc::sockets::sockaddrs myserver; static bool IsExpired(const Query& record, time_t now = ServerInstance->Time()) { const ResourceRecord& req = record.answers[0]; return (req.created + static_cast(req.ttl) < now); } /** Check the DNS cache to see if request can be handled by a cached result * @return true if a cached result was found. */ bool CheckCache(DNS::Request* req, const DNS::Question& question) { ServerInstance->Logs->Log("RESOLVER", LOG_SPARSE, "Resolver: cache: Checking cache for " + question.name); cache_map::iterator it = this->cache.find(question); if (it == this->cache.end()) return false; Query& record = it->second; if (IsExpired(record)) { this->cache.erase(it); return false; } ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: cache: Using cached result for " + question.name); record.cached = true; req->OnLookupComplete(&record); return true; } /** Add a record to the dns cache * @param r The record */ void AddCache(Query& r) { const ResourceRecord& rr = r.answers[0]; ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: cache: added cache for " + rr.name + " -> " + rr.rdata + " ttl: " + ConvToStr(rr.ttl)); this->cache[r.questions[0]] = r; } public: DNS::Request* requests[MAX_REQUEST_ID]; MyManager(Module* c) : Manager(c), Timer(3600, ServerInstance->Time(), true) { for (int i = 0; i < MAX_REQUEST_ID; ++i) requests[i] = NULL; ServerInstance->Timers->AddTimer(this); } ~MyManager() { for (int i = 0; i < MAX_REQUEST_ID; ++i) { DNS::Request* request = requests[i]; if (!request) continue; Query rr(*request); rr.error = ERROR_UNKNOWN; request->OnError(&rr); delete request; } } void Process(DNS::Request* req) { ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: Processing request to lookup " + req->name + " of type " + ConvToStr(req->type) + " to " + this->myserver.addr()); /* Create an id */ unsigned int tries = 0; do { req->id = ServerInstance->GenRandomInt(DNS::MAX_REQUEST_ID); if (++tries == DNS::MAX_REQUEST_ID*5) { // If we couldn't find an empty slot this many times, do a sequential scan as a last // resort. If an empty slot is found that way, go on, otherwise throw an exception req->id = 0; for (int i = 1; i < DNS::MAX_REQUEST_ID; i++) { if (!this->requests[i]) { req->id = i; break; } } if (req->id == 0) throw Exception("DNS: All ids are in use"); break; } } while (!req->id || this->requests[req->id]); this->requests[req->id] = req; Packet p; p.flags = QUERYFLAGS_RD; p.id = req->id; p.questions.push_back(*req); unsigned char buffer[524]; unsigned short len = p.Pack(buffer, sizeof(buffer)); /* Note that calling Pack() above can actually change the contents of p.questions[0].name, if the query is a PTR, * to contain the value that would be in the DNS cache, which is why this is here. */ if (req->use_cache && this->CheckCache(req, p.questions[0])) { ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: Using cached result"); delete req; return; } if (ServerInstance->SE->SendTo(this, buffer, len, 0, &this->myserver.sa, this->myserver.sa_size()) != len) throw Exception("DNS: Unable to send query"); } void RemoveRequest(DNS::Request* req) { this->requests[req->id] = NULL; } std::string GetErrorStr(Error e) { switch (e) { case ERROR_UNLOADED: return "Module is unloading"; case ERROR_TIMEDOUT: return "Request timed out"; case ERROR_NOT_AN_ANSWER: case ERROR_NONSTANDARD_QUERY: case ERROR_FORMAT_ERROR: return "Malformed answer"; case ERROR_SERVER_FAILURE: case ERROR_NOT_IMPLEMENTED: case ERROR_REFUSED: case ERROR_INVALIDTYPE: return "Nameserver failure"; case ERROR_DOMAIN_NOT_FOUND: case ERROR_NO_RECORDS: return "Domain not found"; case ERROR_NONE: case ERROR_UNKNOWN: default: return "Unknown error"; } } void HandleEvent(EventType et, int) { if (et == EVENT_ERROR) { ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: UDP socket got an error event"); return; } unsigned char buffer[524]; irc::sockets::sockaddrs from; socklen_t x = sizeof(from); int length = ServerInstance->SE->RecvFrom(this, buffer, sizeof(buffer), 0, &from.sa, &x); if (length < Packet::HEADER_LENGTH) return; Packet recv_packet; try { recv_packet.Fill(buffer, length); } catch (Exception& ex) { ServerInstance->Logs->Log(MODNAME, LOG_DEBUG, ex.GetReason()); return; } if (myserver != from) { std::string server1 = from.str(); std::string server2 = myserver.str(); ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: Got a result from the wrong server! Bad NAT or DNS forging attempt? '%s' != '%s'", server1.c_str(), server2.c_str()); return; } DNS::Request* request = this->requests[recv_packet.id]; if (request == NULL) { ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: Received an answer for something we didn't request"); return; } if (recv_packet.flags & QUERYFLAGS_OPCODE) { ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: Received a nonstandard query"); ServerInstance->stats->statsDnsBad++; recv_packet.error = ERROR_NONSTANDARD_QUERY; request->OnError(&recv_packet); } else if (recv_packet.flags & QUERYFLAGS_RCODE) { Error error = ERROR_UNKNOWN; switch (recv_packet.flags & QUERYFLAGS_RCODE) { case 1: ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: format error"); error = ERROR_FORMAT_ERROR; break; case 2: ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: server error"); error = ERROR_SERVER_FAILURE; break; case 3: ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: domain not found"); error = ERROR_DOMAIN_NOT_FOUND; break; case 4: ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: not implemented"); error = ERROR_NOT_IMPLEMENTED; break; case 5: ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: refused"); error = ERROR_REFUSED; break; default: break; } ServerInstance->stats->statsDnsBad++; recv_packet.error = error; request->OnError(&recv_packet); } else if (recv_packet.questions.empty() || recv_packet.answers.empty()) { ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: No resource records returned"); ServerInstance->stats->statsDnsBad++; recv_packet.error = ERROR_NO_RECORDS; request->OnError(&recv_packet); } else { ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: Lookup complete for " + request->name); ServerInstance->stats->statsDnsGood++; request->OnLookupComplete(&recv_packet); this->AddCache(recv_packet); } ServerInstance->stats->statsDns++; /* Request's destructor removes it from the request map */ delete request; } bool Tick(time_t now) { ServerInstance->Logs->Log("RESOLVER", LOG_DEBUG, "Resolver: cache: purging DNS cache"); for (cache_map::iterator it = this->cache.begin(); it != this->cache.end(); ) { const Query& query = it->second; if (IsExpired(query, now)) this->cache.erase(it++); else ++it; } return true; } void Rehash(const std::string& dnsserver) { if (this->GetFd() > -1) { ServerInstance->SE->DelFd(this); ServerInstance->SE->Shutdown(this, 2); ServerInstance->SE->Close(this); this->SetFd(-1); /* Remove expired entries from the cache */ this->Tick(ServerInstance->Time()); } irc::sockets::aptosa(dnsserver, DNS::PORT, myserver); /* Initialize mastersocket */ int s = socket(myserver.sa.sa_family, SOCK_DGRAM, 0); this->SetFd(s); /* Have we got a socket? */ if (this->GetFd() != -1) { ServerInstance->SE->SetReuse(s); ServerInstance->SE->NonBlocking(s); irc::sockets::sockaddrs bindto; memset(&bindto, 0, sizeof(bindto)); bindto.sa.sa_family = myserver.sa.sa_family; if (ServerInstance->SE->Bind(this->GetFd(), bindto) < 0) { /* Failed to bind */ ServerInstance->Logs->Log("RESOLVER", LOG_SPARSE, "Resolver: Error binding dns socket - hostnames will NOT resolve"); ServerInstance->SE->Close(this); this->SetFd(-1); } else if (!ServerInstance->SE->AddFd(this, FD_WANT_POLL_READ | FD_WANT_NO_WRITE)) { ServerInstance->Logs->Log("RESOLVER", LOG_SPARSE, "Resolver: Internal error starting DNS - hostnames will NOT resolve."); ServerInstance->SE->Close(this); this->SetFd(-1); } } else { ServerInstance->Logs->Log("RESOLVER", LOG_SPARSE, "Resolver: Error creating DNS socket - hostnames will NOT resolve"); } } }; class ModuleDNS : public Module { MyManager manager; std::string DNSServer; void FindDNSServer() { #ifdef _WIN32 // attempt to look up their nameserver from the system ServerInstance->Logs->Log("CONFIG", LOG_DEFAULT, "WARNING: not defined, attempting to find a working server in the system settings..."); PFIXED_INFO pFixedInfo; DWORD dwBufferSize = sizeof(FIXED_INFO); pFixedInfo = (PFIXED_INFO) HeapAlloc(GetProcessHeap(), 0, sizeof(FIXED_INFO)); if (pFixedInfo) { if (GetNetworkParams(pFixedInfo, &dwBufferSize) == ERROR_BUFFER_OVERFLOW) { HeapFree(GetProcessHeap(), 0, pFixedInfo); pFixedInfo = (PFIXED_INFO) HeapAlloc(GetProcessHeap(), 0, dwBufferSize); } if (pFixedInfo) { if (GetNetworkParams(pFixedInfo, &dwBufferSize) == NO_ERROR) DNSServer = pFixedInfo->DnsServerList.IpAddress.String; HeapFree(GetProcessHeap(), 0, pFixedInfo); } if (!DNSServer.empty()) { ServerInstance->Logs->Log("CONFIG", LOG_DEFAULT, " set to '%s' as first active resolver in the system settings.", DNSServer.c_str()); return; } } ServerInstance->Logs->Log("CONFIG", LOG_DEFAULT, "No viable nameserver found! Defaulting to nameserver '127.0.0.1'!"); #else // attempt to look up their nameserver from /etc/resolv.conf ServerInstance->Logs->Log("CONFIG", LOG_DEFAULT, "WARNING: not defined, attempting to find working server in /etc/resolv.conf..."); std::ifstream resolv("/etc/resolv.conf"); while (resolv >> DNSServer) { if (DNSServer == "nameserver") { resolv >> DNSServer; if (DNSServer.find_first_not_of("0123456789.") == std::string::npos) { ServerInstance->Logs->Log("CONFIG", LOG_DEFAULT, " set to '%s' as first resolver in /etc/resolv.conf.",DNSServer.c_str()); return; } } } ServerInstance->Logs->Log("CONFIG", LOG_DEFAULT, "/etc/resolv.conf contains no viable nameserver entries! Defaulting to nameserver '127.0.0.1'!"); #endif DNSServer = "127.0.0.1"; } public: ModuleDNS() : manager(this) { } void ReadConfig(ConfigStatus& status) CXX11_OVERRIDE { std::string oldserver = DNSServer; DNSServer = ServerInstance->Config->ConfValue("dns")->getString("server"); if (DNSServer.empty()) FindDNSServer(); if (oldserver != DNSServer) this->manager.Rehash(DNSServer); } void OnUnloadModule(Module* mod) { for (int i = 0; i < MAX_REQUEST_ID; ++i) { DNS::Request* req = this->manager.requests[i]; if (!req) continue; if (req->creator == mod) { Query rr(*req); rr.error = ERROR_UNLOADED; req->OnError(&rr); delete req; } } } Version GetVersion() { return Version("DNS support", VF_CORE|VF_VENDOR); } }; MODULE_INIT(ModuleDNS)