/* +------------------------------------+ * | Inspire Internet Relay Chat Daemon | * +------------------------------------+ * * InspIRCd: (C) 2002-2007 InspIRCd Development Team * See: http://www.inspircd.org/wiki/index.php/Credits * * This program is free but copyrighted software; see * the file COPYING for details. * * --------------------------------------------------- */ #include #include #include #include #include #include "inspircd.h" #include "dns.h" #include "users.h" #include "channels.h" #include "modules.h" /* $ModDesc: Provides handling of DNS blacklists */ /* Class holding data for a single entry */ class DNSBLConfEntry { public: enum EnumBanaction { I_UNKNOWN, I_KILL, I_ZLINE, I_KLINE, I_GLINE }; std::string name, domain, reason; EnumBanaction banaction; long duration; int bitmask; DNSBLConfEntry(): duration(86400),bitmask(0) {} }; /** Resolver for CGI:IRC hostnames encoded in ident/GECOS */ class DNSBLResolver : public Resolver { int theirfd; userrec* them; DNSBLConfEntry *ConfEntry; public: DNSBLResolver(Module *me, InspIRCd *ServerInstance, const std::string &hostname, userrec* u, int userfd, DNSBLConfEntry *conf, bool &cached) : Resolver(ServerInstance, hostname, DNS_QUERY_A, cached, me) { theirfd = userfd; them = u; ConfEntry = conf; } virtual void OnLookupComplete(const std::string &result, unsigned int ttl, bool cached) { /* Check the user still exists */ if ((them) && (them == ServerInstance->SE->GetRef(theirfd))) { // Now we calculate the bitmask: 256*(256*(256*a+b)+c)+d if(result.length()) { unsigned int bitmask=0; in_addr resultip; /* Convert the result to an in_addr (we can gaurantee we got ipv4) * Whoever did the loop that was here before, I AM CONFISCATING * YOUR CRACKPIPE. you know who you are. -- Brain */ inet_aton(result.c_str(), &resultip); bitmask = resultip.s_addr >> 24; /* Last octet (network byte order */ bitmask &= ConfEntry->bitmask; if (bitmask != 0) { std::string reason = ConfEntry->reason; std::string::size_type x = reason.find("%ip%"); while (x != std::string::npos) { reason.erase(x, 4); reason.insert(x, them->GetIPString()); x = reason.find("%ip%"); } ServerInstance->WriteOpers("*** Connecting user %s detected as being on a DNS blacklist (%s) with result %d", them->GetFullRealHost(), ConfEntry->name.c_str(), bitmask); switch (ConfEntry->banaction) { case DNSBLConfEntry::I_KILL: { userrec::QuitUser(ServerInstance, them, std::string("Killed (") + reason + ")"); break; } case DNSBLConfEntry::I_KLINE: { ServerInstance->AddKLine(ConfEntry->duration, ServerInstance->Config->ServerName, reason, std::string("*@") + them->GetIPString()); FOREACH_MOD(I_OnAddKLine,OnAddKLine(ConfEntry->duration, NULL, reason, std::string("*@") + them->GetIPString())); break; } case DNSBLConfEntry::I_GLINE: { ServerInstance->AddGLine(ConfEntry->duration, ServerInstance->Config->ServerName, reason, std::string("*@") + them->GetIPString()); FOREACH_MOD(I_OnAddGLine,OnAddGLine(ConfEntry->duration, NULL, reason, std::string("*@") + them->GetIPString())); break; } case DNSBLConfEntry::I_ZLINE: { ServerInstance->AddZLine(ConfEntry->duration, ServerInstance->Config->ServerName, reason, them->GetIPString()); FOREACH_MOD(I_OnAddZLine,OnAddZLine(ConfEntry->duration, NULL, reason, them->GetIPString())); break; } case DNSBLConfEntry::I_UNKNOWN: { break; } break; } } } } } virtual void OnError(ResolverError e, const std::string &errormessage) { } virtual ~DNSBLResolver() { } }; class ModuleDNSBL : public Module { private: std::vector DNSBLConfEntries; /* * Convert a string to EnumBanaction */ DNSBLConfEntry::EnumBanaction str2banaction(const std::string &action) { if(action.compare("KILL")==0) return DNSBLConfEntry::I_KILL; if(action.compare("KLINE")==0) return DNSBLConfEntry::I_KLINE; if(action.compare("ZLINE")==0) return DNSBLConfEntry::I_ZLINE; if(action.compare("GLINE")==0) return DNSBLConfEntry::I_GLINE; return DNSBLConfEntry::I_UNKNOWN; } public: ModuleDNSBL(InspIRCd *Me) : Module::Module(Me) { ReadConf(); } virtual ~ModuleDNSBL() { ClearEntries(); } virtual Version GetVersion() { return Version(2, 0, 0, 1, VF_VENDOR, API_VERSION); } void Implements(char* List) { List[I_OnRehash] = List[I_OnUserRegister] = 1; } /** Clear entries and free the mem it was using */ void ClearEntries() { std::vector::iterator i; while ((i = DNSBLConfEntries.begin()) != DNSBLConfEntries.end()) { DNSBLConfEntries.erase(i); delete *i; } } /** Fill our conf vector with data */ virtual void ReadConf() { ConfigReader *MyConf = new ConfigReader(ServerInstance); ClearEntries(); for (int i=0; i< MyConf->Enumerate("dnsbl"); i++) { DNSBLConfEntry *e = new DNSBLConfEntry(); e->name = MyConf->ReadValue("dnsbl", "name", i); e->reason = MyConf->ReadValue("dnsbl", "reason", i); e->domain = MyConf->ReadValue("dnsbl", "domain", i); e->banaction = str2banaction(MyConf->ReadValue("dnsbl", "action", i)); e->duration = ServerInstance->Duration(MyConf->ReadValue("dnsbl", "duration", i).c_str()); e->bitmask = MyConf->ReadInteger("dnsbl", "bitmask", i, false); /* yeah, logic here is a little messy */ if (e->bitmask <= 0) { ServerInstance->WriteOpers("*** DNSBL(#%d): invalid bitmask",i); } else if (e->name == "") { ServerInstance->WriteOpers("*** DNSBL(#%d): Invalid name",i); } else if (e->domain == "") { ServerInstance->WriteOpers("*** DNSBL(#%d): Invalid domain",i); } else if (e->banaction == DNSBLConfEntry::I_UNKNOWN) { ServerInstance->WriteOpers("*** DNSBL(#%d): Invalid banaction", i); } else { if (e->reason == "") { ServerInstance->WriteOpers("*** DNSBL(#%d): empty reason, using defaults",i); e->reason = "Your IP has been blacklisted."; } /* add it, all is ok */ DNSBLConfEntries.push_back(e); continue; } /* delete and drop it, error somewhere */ delete e; } delete MyConf; } virtual void OnRehash(userrec* user, const std::string ¶meter) { ReadConf(); } /* * We will check each user that connects *locally* (userrec::fd>0) */ virtual int OnUserRegister(userrec* user) { if (IS_LOCAL(user)) { /* following code taken from bopm, reverses an IP address. */ struct in_addr in; unsigned char a, b, c, d; char reversedipbuf[128]; std::string reversedip; bool success = false; if (!inet_aton(user->GetIPString(), &in)) { #ifdef IPV6 /* We could have an ipv6 address here */ std::string x = user->GetIPString(); /* Is it a 4in6 address? (Compensate for this kernel kludge that people love) */ if (x.find("0::ffff:") == 0) { x.erase(x.begin(), x.begin() + 8); if (inet_aton(x.c_str(), &in)) success = true; } #endif } else { success = true; } if (!success) return 0; d = (unsigned char) (in.s_addr >> 24) & 0xFF; c = (unsigned char) (in.s_addr >> 16) & 0xFF; b = (unsigned char) (in.s_addr >> 8) & 0xFF; a = (unsigned char) in.s_addr & 0xFF; snprintf(reversedipbuf, 128, "%d.%d.%d.%d", d, c, b, a); reversedip = std::string(reversedipbuf); // For each DNSBL, we will run through this lookup for (std::vector::iterator i = DNSBLConfEntries.begin(); i != DNSBLConfEntries.end(); i++) { // Fill hostname with a dnsbl style host (d.c.b.a.domain.tld) std::string hostname = reversedip + "." + (*i)->domain; /* now we'd need to fire off lookups for `hostname'. */ bool cached; DNSBLResolver *r = new DNSBLResolver(this, ServerInstance, hostname, user, user->GetFd(), *i, cached); ServerInstance->AddResolver(r, cached); } } /* don't do anything with this hot potato */ return 0; } }; // stuff down here is the module-factory stuff. class ModuleDNSBLFactory : public ModuleFactory { public: ModuleDNSBLFactory() { } ~ModuleDNSBLFactory() { } virtual Module *CreateModule(InspIRCd *Me) { return new ModuleDNSBL(Me); } }; extern "C" void * init_module( void ) { return new ModuleDNSBLFactory; }