/* +------------------------------------+ * | Inspire Internet Relay Chat Daemon | * +------------------------------------+ * * InspIRCd: (C) 2002-2008 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 "inspircd.h" #include "commands/cmd_whois.h" #include "commands/cmd_stats.h" #include "socket.h" #include "wildcard.h" #include "xline.h" #include "transport.h" #include "socketengine.h" #include "m_spanningtree/main.h" #include "m_spanningtree/utils.h" #include "m_spanningtree/treeserver.h" #include "m_spanningtree/link.h" #include "m_spanningtree/treesocket.h" #include "m_spanningtree/resolvers.h" /* $ModDep: m_spanningtree/timesynctimer.h m_spanningtree/resolvers.h m_spanningtree/main.h m_spanningtree/utils.h m_spanningtree/treeserver.h m_spanningtree/link.h m_spanningtree/treesocket.h */ /** Yay for fast searches! * This is hundreds of times faster than recursion * or even scanning a linked list, especially when * there are more than a few servers to deal with. * (read as: lots). */ TreeServer* SpanningTreeUtilities::FindServer(const std::string &ServerName) { if (this->ServerInstance->IsSID(ServerName)) return this->FindServerID(ServerName); server_hash::iterator iter = serverlist.find(ServerName.c_str()); if (iter != serverlist.end()) { return iter->second; } else { return NULL; } } /** Returns the locally connected server we must route a * message through to reach server 'ServerName'. This * only applies to one-to-one and not one-to-many routing. * See the comments for the constructor of TreeServer * for more details. */ TreeServer* SpanningTreeUtilities::BestRouteTo(const std::string &ServerName) { if (ServerName.c_str() == TreeRoot->GetName() || ServerName == ServerInstance->Config->GetSID()) return NULL; TreeServer* Found = FindServer(ServerName); if (Found) { return Found->GetRoute(); } else { return NULL; } } /** Find the first server matching a given glob mask. * Theres no find-using-glob method of hash_map [awwww :-(] * so instead, we iterate over the list using an iterator * and match each one until we get a hit. Yes its slow, * deal with it. */ TreeServer* SpanningTreeUtilities::FindServerMask(const std::string &ServerName) { for (server_hash::iterator i = serverlist.begin(); i != serverlist.end(); i++) { if (match(i->first.c_str(),ServerName.c_str())) return i->second; } return NULL; } TreeServer* SpanningTreeUtilities::FindServerID(const std::string &id) { server_hash::iterator iter = sidlist.find(id); if (iter != sidlist.end()) return iter->second; else return NULL; } /* A convenient wrapper that returns true if a server exists */ bool SpanningTreeUtilities::IsServer(const std::string &ServerName) { return (FindServer(ServerName) != NULL); } SpanningTreeUtilities::SpanningTreeUtilities(InspIRCd* Instance, ModuleSpanningTree* C) : ServerInstance(Instance), Creator(C) { Bindings.clear(); ServerInstance->Logs->Log("m_spanningtree",DEBUG,"***** Using SID for hash: %s *****", ServerInstance->Config->GetSID().c_str()); this->TreeRoot = new TreeServer(this, ServerInstance, ServerInstance->Config->ServerName, ServerInstance->Config->ServerDesc, ServerInstance->Config->GetSID()); modulelist* ml = ServerInstance->Modules->FindInterface("BufferedSocketHook"); /* Did we find any modules? */ if (ml) { /* Yes, enumerate them all to find out the hook name */ for (modulelist::iterator m = ml->begin(); m != ml->end(); m++) { /* Make a request to it for its name, its implementing * BufferedSocketHook so we know its safe to do this */ std::string name = BufferedSocketNameRequest((Module*)Creator, *m).Send(); /* Build a map of them */ hooks[name.c_str()] = *m; hooknames.push_back(name); } } this->ReadConfiguration(true); } SpanningTreeUtilities::~SpanningTreeUtilities() { for (unsigned int i = 0; i < Bindings.size(); i++) { ServerInstance->SE->DelFd(Bindings[i]); Bindings[i]->Close(); } while (TreeRoot->ChildCount()) { TreeServer* child_server = TreeRoot->GetChild(0); if (child_server) { TreeSocket* sock = child_server->GetSocket(); ServerInstance->SE->DelFd(sock); sock->Close(); } } delete TreeRoot; ServerInstance->BufferedSocketCull(); } void SpanningTreeUtilities::AddThisServer(TreeServer* server, TreeServerList &list) { if (list.find(server) == list.end()) list[server] = server; } /* returns a list of DIRECT servernames for a specific channel */ void SpanningTreeUtilities::GetListOfServersForChannel(Channel* c, TreeServerList &list, char status, const CUList &exempt_list) { CUList *ulist; switch (status) { case '@': ulist = c->GetOppedUsers(); break; case '%': ulist = c->GetHalfoppedUsers(); break; case '+': ulist = c->GetVoicedUsers(); break; default: ulist = c->GetUsers(); break; } for (CUList::iterator i = ulist->begin(); i != ulist->end(); i++) { if ((i->first->GetFd() < 0) && (exempt_list.find(i->first) == exempt_list.end())) { TreeServer* best = this->BestRouteTo(i->first->server); if (best) AddThisServer(best,list); } } return; } bool SpanningTreeUtilities::DoOneToAllButSenderRaw(const std::string &data, const std::string &omit, const std::string &prefix, const irc::string &command, std::deque ¶ms) { char pfx = 0; TreeServer* omitroute = this->BestRouteTo(omit); if ((command == "NOTICE") || (command == "PRIVMSG")) { if (params.size() >= 2) { /* Prefixes */ if ((*(params[0].c_str()) == '@') || (*(params[0].c_str()) == '%') || (*(params[0].c_str()) == '+')) { pfx = params[0][0]; params[0] = params[0].substr(1, params[0].length()-1); } if ((*(params[0].c_str()) != '#') && (*(params[0].c_str()) != '$')) { // special routing for private messages/notices User* d = ServerInstance->FindNick(params[0]); if (d) { std::deque par; par.push_back(params[0]); par.push_back(":"+params[1]); this->DoOneToOne(prefix,command.c_str(),par,d->server); return true; } } else if (*(params[0].c_str()) == '$') { std::deque par; par.push_back(params[0]); par.push_back(":"+params[1]); this->DoOneToAllButSender(prefix,command.c_str(),par,omitroute->GetName()); return true; } else { Channel* c = ServerInstance->FindChan(params[0]); User* u = ServerInstance->FindNick(prefix); if (c) { CUList elist; TreeServerList list; FOREACH_MOD(I_OnBuildExemptList, OnBuildExemptList((command == "PRIVMSG" ? MSG_PRIVMSG : MSG_NOTICE), c, u, pfx, elist, params[1])); GetListOfServersForChannel(c,list,pfx,elist); for (TreeServerList::iterator i = list.begin(); i != list.end(); i++) { TreeSocket* Sock = i->second->GetSocket(); if ((Sock) && (i->second->GetName() != omit) && (omitroute != i->second)) { Sock->WriteLine(data); } } return true; } } } } unsigned int items =this->TreeRoot->ChildCount(); for (unsigned int x = 0; x < items; x++) { TreeServer* Route = this->TreeRoot->GetChild(x); if ((Route) && (Route->GetSocket()) && (Route->GetName() != omit) && (omitroute != Route)) { TreeSocket* Sock = Route->GetSocket(); if (Sock) Sock->WriteLine(data); } } return true; } bool SpanningTreeUtilities::DoOneToAllButSender(const std::string &prefix, const std::string &command, std::deque ¶ms, std::string omit) { TreeServer* omitroute = this->BestRouteTo(omit); std::string FullLine = ":" + prefix + " " + command; unsigned int words = params.size(); for (unsigned int x = 0; x < words; x++) { FullLine = FullLine + " " + params[x]; } unsigned int items = this->TreeRoot->ChildCount(); for (unsigned int x = 0; x < items; x++) { TreeServer* Route = this->TreeRoot->GetChild(x); // Send the line IF: // The route has a socket (its a direct connection) // The route isnt the one to be omitted // The route isnt the path to the one to be omitted if ((Route) && (Route->GetSocket()) && (Route->GetName() != omit) && (omitroute != Route)) { TreeSocket* Sock = Route->GetSocket(); if (Sock) Sock->WriteLine(FullLine); } } return true; } bool SpanningTreeUtilities::DoOneToMany(const std::string &prefix, const std::string &command, std::deque ¶ms) { std::string FullLine = ":" + prefix + " " + command; unsigned int words = params.size(); for (unsigned int x = 0; x < words; x++) { FullLine = FullLine + " " + params[x]; } unsigned int items = this->TreeRoot->ChildCount(); for (unsigned int x = 0; x < items; x++) { TreeServer* Route = this->TreeRoot->GetChild(x); if (Route && Route->GetSocket()) { TreeSocket* Sock = Route->GetSocket(); if (Sock) Sock->WriteLine(FullLine); } } return true; } bool SpanningTreeUtilities::DoOneToMany(const char* prefix, const char* command, std::deque ¶ms) { std::string spfx = prefix; std::string scmd = command; return this->DoOneToMany(spfx, scmd, params); } bool SpanningTreeUtilities::DoOneToAllButSender(const char* prefix, const char* command, std::deque ¶ms, std::string omit) { std::string spfx = prefix; std::string scmd = command; return this->DoOneToAllButSender(spfx, scmd, params, omit); } bool SpanningTreeUtilities::DoOneToOne(const std::string &prefix, const std::string &command, std::deque ¶ms, std::string target) { TreeServer* Route = this->BestRouteTo(target); if (Route) { std::string FullLine = ":" + prefix + " " + command; unsigned int words = params.size(); for (unsigned int x = 0; x < words; x++) { FullLine = FullLine + " " + params[x]; } if (Route && Route->GetSocket()) { TreeSocket* Sock = Route->GetSocket(); if (Sock) Sock->WriteLine(FullLine); } return true; } else { return false; } } void SpanningTreeUtilities::RefreshIPCache() { ValidIPs.clear(); for (std::vector::iterator L = LinkBlocks.begin(); L != LinkBlocks.end(); L++) { if ((!L->IPAddr.empty()) && (!L->RecvPass.empty()) && (!L->SendPass.empty()) && (!L->Name.empty()) && (L->Port)) { ValidIPs.push_back(L->IPAddr); if (L->AllowMask.length()) ValidIPs.push_back(L->AllowMask); /* Needs resolving */ bool ipvalid = true; QueryType start_type = DNS_QUERY_A; #ifdef IPV6 start_type = DNS_QUERY_AAAA; if (strchr(L->IPAddr.c_str(),':')) { in6_addr n; if (inet_pton(AF_INET6, L->IPAddr.c_str(), &n) < 1) ipvalid = false; } else #endif { in_addr n; if (inet_aton(L->IPAddr.c_str(),&n) < 1) ipvalid = false; } if (!ipvalid) { try { bool cached; SecurityIPResolver* sr = new SecurityIPResolver((Module*)this->Creator, this, ServerInstance, L->IPAddr, *L, cached, start_type); ServerInstance->AddResolver(sr, cached); } catch (...) { } } } } } void SpanningTreeUtilities::ReadConfiguration(bool rebind) { ConfigReader* Conf = new ConfigReader(ServerInstance); if (rebind) { for (unsigned int i = 0; i < Bindings.size(); i++) { ServerInstance->SE->DelFd(Bindings[i]); Bindings[i]->Close(); } ServerInstance->BufferedSocketCull(); Bindings.clear(); for (int j = 0; j < Conf->Enumerate("bind"); j++) { std::string Type = Conf->ReadValue("bind","type",j); std::string IP = Conf->ReadValue("bind","address",j); std::string Port = Conf->ReadValue("bind","port",j); std::string transport = Conf->ReadValue("bind","transport",j); if (Type == "servers") { irc::portparser portrange(Port, false); int portno = -1; if (IP == "*") IP.clear(); while ((portno = portrange.GetToken())) { if ((!transport.empty()) && (hooks.find(transport.c_str()) == hooks.end())) { throw CoreException("Can't find transport type '"+transport+"' for port "+IP+":"+Port+" - maybe you forgot to load it BEFORE m_spanningtree in your config file?"); break; } TreeSocket* listener = new TreeSocket(this, ServerInstance, IP.c_str(), portno, true, 10, transport.empty() ? NULL : hooks[transport.c_str()]); if (listener->GetState() == I_LISTENING) { ServerInstance->Logs->Log("m_spanningtree",DEFAULT,"m_spanningtree: Binding server port %s:%d successful!", IP.c_str(), portno); Bindings.push_back(listener); } else { ServerInstance->Logs->Log("m_spanningtree",DEFAULT,"m_spanningtree: Warning: Failed to bind server port: %s:%d: %s",IP.c_str(), portno, strerror(errno)); listener->Close(); } } } } } FlatLinks = Conf->ReadFlag("options","flatlinks",0); HideULines = Conf->ReadFlag("options","hideulines",0); AnnounceTSChange = Conf->ReadFlag("options","announcets",0); ChallengeResponse = !Conf->ReadFlag("options", "disablehmac", 0); quiet_bursts = Conf->ReadFlag("options", "quietbursts", 0); PingWarnTime = Conf->ReadInteger("options", "pingwarning", 0, true); PingFreq = Conf->ReadInteger("options", "serverpingfreq", 0, true); if (PingFreq == 0) PingFreq = 60; if (PingWarnTime < 0 || PingWarnTime > PingFreq - 1) PingWarnTime = 0; LinkBlocks.clear(); ValidIPs.clear(); for (int j = 0; j < Conf->Enumerate("link"); j++) { Link L; std::string Allow = Conf->ReadValue("link", "allowmask", j); L.Name = (Conf->ReadValue("link", "name", j)).c_str(); L.AllowMask = Allow; L.IPAddr = Conf->ReadValue("link", "ipaddr", j); L.FailOver = Conf->ReadValue("link", "failover", j).c_str(); L.Port = Conf->ReadInteger("link", "port", j, true); L.SendPass = Conf->ReadValue("link", "sendpass", j); L.RecvPass = Conf->ReadValue("link", "recvpass", j); L.AutoConnect = Conf->ReadInteger("link", "autoconnect", j, true); L.HiddenFromStats = Conf->ReadFlag("link", "statshidden", j); L.Timeout = Conf->ReadInteger("link", "timeout", j, true); L.Hook = Conf->ReadValue("link", "transport", j); L.Bind = Conf->ReadValue("link", "bind", j); L.Hidden = Conf->ReadFlag("link", "hidden", j); if ((!L.Hook.empty()) && (hooks.find(L.Hook.c_str()) == hooks.end())) { throw CoreException("Can't find transport type '"+L.Hook+"' for link '"+assign(L.Name)+"' - maybe you forgot to load it BEFORE m_spanningtree in your config file? Skipping tag completely."); continue; } L.NextConnectTime = time(NULL) + L.AutoConnect; /* Bugfix by brain, do not allow people to enter bad configurations */ if (L.Name != ServerInstance->Config->ServerName) { if ((!L.IPAddr.empty()) && (!L.RecvPass.empty()) && (!L.SendPass.empty()) && (!L.Name.empty()) && (L.Port)) { if (L.Name.find('.') == std::string::npos) throw CoreException("The link name '"+assign(L.Name)+"' is invalid and must contain at least one '.' character"); if (L.Name.length() > 64) throw CoreException("The link name '"+assign(L.Name)+"' is longer than 64 characters!"); ValidIPs.push_back(L.IPAddr); if (Allow.length()) ValidIPs.push_back(Allow); /* Needs resolving */ bool ipvalid = true; QueryType start_type = DNS_QUERY_A; #ifdef IPV6 start_type = DNS_QUERY_AAAA; if (strchr(L.IPAddr.c_str(),':')) { in6_addr n; if (inet_pton(AF_INET6, L.IPAddr.c_str(), &n) < 1) ipvalid = false; } else { in_addr n; if (inet_aton(L.IPAddr.c_str(),&n) < 1) ipvalid = false; } #else in_addr n; if (inet_aton(L.IPAddr.c_str(),&n) < 1) ipvalid = false; #endif if (!ipvalid) { try { bool cached; SecurityIPResolver* sr = new SecurityIPResolver((Module*)this->Creator, this, ServerInstance, L.IPAddr, L, cached, start_type); ServerInstance->AddResolver(sr, cached); } catch (...) { } } LinkBlocks.push_back(L); } else { if (L.IPAddr.empty()) { throw CoreException("Invalid configuration for server '"+assign(L.Name)+"', IP address not defined!"); } else if (L.RecvPass.empty()) { throw CoreException("Invalid configuration for server '"+assign(L.Name)+"', recvpass not defined!"); } else if (L.SendPass.empty()) { throw CoreException("Invalid configuration for server '"+assign(L.Name)+"', sendpass not defined!"); } else if (L.Name.empty()) { throw CoreException("Invalid configuration, link tag without a name! IP address: "+L.IPAddr); } else if (!L.Port) { throw CoreException("Invalid configuration for server '"+assign(L.Name)+"', no port specified!"); } } } else { throw CoreException("Invalid configuration for server '"+assign(L.Name)+"', link tag has the same server name as the local server!"); } } delete Conf; } void SpanningTreeUtilities::DoFailOver(Link* x) { if (x->FailOver.length()) { if (x->FailOver == x->Name) { Creator->RemoteMessage(NULL,"FAILOVER: Some muppet configured the failover for server \002%s\002 to point at itself. Not following it!", x->Name.c_str()); return; } Link* TryThisOne = this->FindLink(x->FailOver.c_str()); if (TryThisOne) { TreeServer* CheckDupe = this->FindServer(x->FailOver.c_str()); if (CheckDupe) { ServerInstance->Logs->Log("m_spanningtree",DEBUG,"Skipping existing failover: %s", x->FailOver.c_str()); } else { Creator->RemoteMessage(NULL,"FAILOVER: Trying failover link for \002%s\002: \002%s\002...", x->Name.c_str(), TryThisOne->Name.c_str()); Creator->ConnectServer(TryThisOne); } } else { Creator->RemoteMessage(NULL,"FAILOVER: Invalid failover server specified for server \002%s\002, will not follow!", x->Name.c_str()); } } } Link* SpanningTreeUtilities::FindLink(const std::string& name) { for (std::vector::iterator x = LinkBlocks.begin(); x < LinkBlocks.end(); x++) { if (ServerInstance->MatchText(x->Name.c_str(), name.c_str())) { return &(*x); } } return NULL; }