/* * InspIRCd -- Internet Relay Chat Daemon * * Copyright (C) 2009-2010 Daniel De Graaf * Copyright (C) 2006-2009 Robin Burchell * Copyright (C) 2006-2007, 2009 Dennis Friis * Copyright (C) 2008 John Brooks * Copyright (C) 2008 Thomas Stagner * Copyright (C) 2008 Oliver Lupton * Copyright (C) 2003-2008 Craig Edwards * * 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 "xline.h" bool User::IsNoticeMaskSet(unsigned char sm) { if (!isalpha(sm)) return false; return (snomasks[sm-65]); } bool User::IsModeSet(unsigned char m) { ModeHandler* mh = ServerInstance->Modes->FindMode(m, MODETYPE_USER); return (mh && modes[mh->GetId()]); } const char* User::FormatModes(bool showparameters) { static std::string data; std::string params; data.clear(); for (unsigned char n = 0; n < 64; n++) { ModeHandler* mh = ServerInstance->Modes->FindMode(n + 65, MODETYPE_USER); if (mh && IsModeSet(mh)) { data.push_back(n + 65); if (showparameters && mh->GetNumParams(true)) { std::string p = mh->GetUserParameter(this); if (p.length()) params.append(" ").append(p); } } } data += params; return data.c_str(); } User::User(const std::string& uid, Server* srv, int type) : uuid(uid), server(srv), usertype(type) { age = ServerInstance->Time(); signon = 0; registered = 0; quitting = false; client_sa.sa.sa_family = AF_UNSPEC; ServerInstance->Logs->Log("USERS", LOG_DEBUG, "New UUID for user: %s", uuid.c_str()); // Do not insert FakeUsers into the uuidlist so FindUUID() won't return them which is the desired behavior if (type != USERTYPE_SERVER) { if (!ServerInstance->Users.uuidlist.insert(std::make_pair(uuid, this)).second) throw CoreException("Duplicate UUID in User constructor: " + uuid); } } LocalUser::LocalUser(int myfd, irc::sockets::sockaddrs* client, irc::sockets::sockaddrs* servaddr) : User(ServerInstance->UIDGen.GetUID(), ServerInstance->FakeClient->server, USERTYPE_LOCAL), eh(this), bytes_in(0), bytes_out(0), cmds_in(0), cmds_out(0), nping(0), CommandFloodPenalty(0), already_sent(0) { exempt = quitting_sendq = false; idle_lastmsg = 0; ident = "unknown"; lastping = 0; eh.SetFd(myfd); memcpy(&client_sa, client, sizeof(irc::sockets::sockaddrs)); memcpy(&server_sa, servaddr, sizeof(irc::sockets::sockaddrs)); dhost = host = GetIPString(); } User::~User() { } const std::string& User::MakeHost() { if (!this->cached_makehost.empty()) return this->cached_makehost; // XXX: Is there really a need to cache this? this->cached_makehost = ident + "@" + host; return this->cached_makehost; } const std::string& User::MakeHostIP() { if (!this->cached_hostip.empty()) return this->cached_hostip; // XXX: Is there really a need to cache this? this->cached_hostip = ident + "@" + this->GetIPString(); return this->cached_hostip; } const std::string& User::GetFullHost() { if (!this->cached_fullhost.empty()) return this->cached_fullhost; // XXX: Is there really a need to cache this? this->cached_fullhost = nick + "!" + ident + "@" + dhost; return this->cached_fullhost; } const std::string& User::GetFullRealHost() { if (!this->cached_fullrealhost.empty()) return this->cached_fullrealhost; // XXX: Is there really a need to cache this? this->cached_fullrealhost = nick + "!" + ident + "@" + host; return this->cached_fullrealhost; } bool User::HasModePermission(unsigned char, ModeType) { return true; } bool LocalUser::HasModePermission(unsigned char mode, ModeType type) { if (!this->IsOper()) return false; if (mode < 'A' || mode > ('A' + 64)) return false; return ((type == MODETYPE_USER ? oper->AllowedUserModes : oper->AllowedChanModes))[(mode - 'A')]; } /* * users on remote servers can completely bypass all permissions based checks. * This prevents desyncs when one server has different type/class tags to another. * That having been said, this does open things up to the possibility of source changes * allowing remote kills, etc - but if they have access to the src, they most likely have * access to the conf - so it's an end to a means either way. */ bool User::HasPermission(const std::string&) { return true; } bool LocalUser::HasPermission(const std::string &command) { // are they even an oper at all? if (!this->IsOper()) { return false; } if (oper->AllowedOperCommands.find(command) != oper->AllowedOperCommands.end()) return true; else if (oper->AllowedOperCommands.find("*") != oper->AllowedOperCommands.end()) return true; return false; } bool User::HasPrivPermission(const std::string &privstr, bool noisy) { return true; } bool LocalUser::HasPrivPermission(const std::string &privstr, bool noisy) { if (!this->IsOper()) { if (noisy) this->WriteNotice("You are not an oper"); return false; } if (oper->AllowedPrivs.find(privstr) != oper->AllowedPrivs.end()) { return true; } else if (oper->AllowedPrivs.find("*") != oper->AllowedPrivs.end()) { return true; } if (noisy) this->WriteNotice("Oper type " + oper->name + " does not have access to priv " + privstr); return false; } void UserIOHandler::OnDataReady() { if (user->quitting) return; if (recvq.length() > user->MyClass->GetRecvqMax() && !user->HasPrivPermission("users/flood/increased-buffers")) { ServerInstance->Users->QuitUser(user, "RecvQ exceeded"); ServerInstance->SNO->WriteToSnoMask('a', "User %s RecvQ of %lu exceeds connect class maximum of %lu", user->nick.c_str(), (unsigned long)recvq.length(), user->MyClass->GetRecvqMax()); return; } unsigned long sendqmax = ULONG_MAX; if (!user->HasPrivPermission("users/flood/increased-buffers")) sendqmax = user->MyClass->GetSendqSoftMax(); unsigned long penaltymax = ULONG_MAX; if (!user->HasPrivPermission("users/flood/no-fakelag")) penaltymax = user->MyClass->GetPenaltyThreshold() * 1000; while (user->CommandFloodPenalty < penaltymax && getSendQSize() < sendqmax) { std::string line; line.reserve(ServerInstance->Config->Limits.MaxLine); std::string::size_type qpos = 0; while (qpos < recvq.length()) { char c = recvq[qpos++]; switch (c) { case '\0': c = ' '; break; case '\r': continue; case '\n': goto eol_found; } if (line.length() < ServerInstance->Config->Limits.MaxLine - 2) line.push_back(c); } // if we got here, the recvq ran out before we found a newline return; eol_found: // just found a newline. Terminate the string, and pull it out of recvq recvq.erase(0, qpos); // TODO should this be moved to when it was inserted in recvq? ServerInstance->stats.Recv += qpos; user->bytes_in += qpos; user->cmds_in++; ServerInstance->Parser.ProcessBuffer(line, user); if (user->quitting) return; } if (user->CommandFloodPenalty >= penaltymax && !user->MyClass->fakelag) ServerInstance->Users->QuitUser(user, "Excess Flood"); } void UserIOHandler::AddWriteBuf(const std::string &data) { if (user->quitting_sendq) return; if (!user->quitting && getSendQSize() + data.length() > user->MyClass->GetSendqHardMax() && !user->HasPrivPermission("users/flood/increased-buffers")) { user->quitting_sendq = true; ServerInstance->GlobalCulls.AddSQItem(user); return; } // We still want to append data to the sendq of a quitting user, // e.g. their ERROR message that says 'closing link' WriteData(data); } void UserIOHandler::OnError(BufferedSocketError) { ServerInstance->Users->QuitUser(user, getError()); } CullResult User::cull() { if (!quitting) ServerInstance->Users->QuitUser(this, "Culled without QuitUser"); if (client_sa.sa.sa_family != AF_UNSPEC) ServerInstance->Users->RemoveCloneCounts(this); return Extensible::cull(); } CullResult LocalUser::cull() { eh.cull(); return User::cull(); } CullResult FakeUser::cull() { // Fake users don't quit, they just get culled. quitting = true; // Fake users are not inserted into UserManager::clientlist or uuidlist, so we don't need to modify those here return User::cull(); } void User::Oper(OperInfo* info) { ModeHandler* opermh = ServerInstance->Modes->FindMode('o', MODETYPE_USER); if (this->IsModeSet(opermh)) this->UnOper(); this->SetMode(opermh, true); this->oper = info; this->WriteCommand("MODE", "+o"); FOREACH_MOD(OnOper, (this, info->name)); std::string opername; if (info->oper_block) opername = info->oper_block->getString("name"); if (IS_LOCAL(this)) { LocalUser* l = IS_LOCAL(this); std::string vhost = oper->getConfig("vhost"); if (!vhost.empty()) l->ChangeDisplayedHost(vhost); std::string opClass = oper->getConfig("class"); if (!opClass.empty()) l->SetClass(opClass); } ServerInstance->SNO->WriteToSnoMask('o',"%s (%s@%s) is now an IRC operator of type %s (using oper '%s')", nick.c_str(), ident.c_str(), host.c_str(), oper->name.c_str(), opername.c_str()); this->WriteNumeric(RPL_YOUAREOPER, InspIRCd::Format("You are now %s %s", strchr("aeiouAEIOU", oper->name[0]) ? "an" : "a", oper->name.c_str())); ServerInstance->Logs->Log("OPER", LOG_DEFAULT, "%s opered as type: %s", GetFullRealHost().c_str(), oper->name.c_str()); ServerInstance->Users->all_opers.push_back(this); // Expand permissions from config for faster lookup if (IS_LOCAL(this)) oper->init(); FOREACH_MOD(OnPostOper, (this, oper->name, opername)); } void OperInfo::init() { AllowedOperCommands.clear(); AllowedPrivs.clear(); AllowedUserModes.reset(); AllowedChanModes.reset(); AllowedUserModes['o' - 'A'] = true; // Call me paranoid if you want. for(std::vector >::iterator iter = class_blocks.begin(); iter != class_blocks.end(); ++iter) { ConfigTag* tag = *iter; std::string mycmd, mypriv; /* Process commands */ irc::spacesepstream CommandList(tag->getString("commands")); while (CommandList.GetToken(mycmd)) { AllowedOperCommands.insert(mycmd); } irc::spacesepstream PrivList(tag->getString("privs")); while (PrivList.GetToken(mypriv)) { AllowedPrivs.insert(mypriv); } std::string modes = tag->getString("usermodes"); for (std::string::const_iterator c = modes.begin(); c != modes.end(); ++c) { if (*c == '*') { this->AllowedUserModes.set(); } else if (*c >= 'A' && *c <= 'z') { this->AllowedUserModes[*c - 'A'] = true; } } modes = tag->getString("chanmodes"); for (std::string::const_iterator c = modes.begin(); c != modes.end(); ++c) { if (*c == '*') { this->AllowedChanModes.set(); } else if (*c >= 'A' && *c <= 'z') { this->AllowedChanModes[*c - 'A'] = true; } } } } void User::UnOper() { if (!this->IsOper()) return; /* * unset their oper type (what IS_OPER checks). * note, order is important - this must come before modes as -o attempts * to call UnOper. -- w00t */ oper = NULL; /* Remove all oper only modes from the user when the deoper - Bug #466*/ Modes::ChangeList changelist; const ModeParser::ModeHandlerMap& usermodes = ServerInstance->Modes->GetModes(MODETYPE_USER); for (ModeParser::ModeHandlerMap::const_iterator i = usermodes.begin(); i != usermodes.end(); ++i) { ModeHandler* mh = i->second; if (mh->NeedsOper()) changelist.push_remove(mh); } ServerInstance->Modes->Process(this, NULL, this, changelist); // Remove the user from the oper list stdalgo::vector::swaperase(ServerInstance->Users->all_opers, this); ModeHandler* opermh = ServerInstance->Modes->FindMode('o', MODETYPE_USER); this->SetMode(opermh, false); } /* * Check class restrictions */ void LocalUser::CheckClass(bool clone_count) { ConnectClass* a = this->MyClass; if (!a) { ServerInstance->Users->QuitUser(this, "Access denied by configuration"); return; } else if (a->type == CC_DENY) { ServerInstance->Users->QuitUser(this, a->config->getString("reason", "Unauthorised connection")); return; } else if (clone_count) { const UserManager::CloneCounts& clonecounts = ServerInstance->Users->GetCloneCounts(this); if ((a->GetMaxLocal()) && (clonecounts.local > a->GetMaxLocal())) { ServerInstance->Users->QuitUser(this, "No more connections allowed from your host via this connect class (local)"); if (a->maxconnwarn) ServerInstance->SNO->WriteToSnoMask('a', "WARNING: maximum LOCAL connections (%ld) exceeded for IP %s", a->GetMaxLocal(), this->GetIPString().c_str()); return; } else if ((a->GetMaxGlobal()) && (clonecounts.global > a->GetMaxGlobal())) { ServerInstance->Users->QuitUser(this, "No more connections allowed from your host via this connect class (global)"); if (a->maxconnwarn) ServerInstance->SNO->WriteToSnoMask('a', "WARNING: maximum GLOBAL connections (%ld) exceeded for IP %s", a->GetMaxGlobal(), this->GetIPString().c_str()); return; } } this->nping = ServerInstance->Time() + a->GetPingTime() + ServerInstance->Config->dns_timeout; } bool LocalUser::CheckLines(bool doZline) { const char* check[] = { "G" , "K", (doZline) ? "Z" : NULL, NULL }; if (!this->exempt) { for (int n = 0; check[n]; ++n) { XLine *r = ServerInstance->XLines->MatchesLine(check[n], this); if (r) { r->Apply(this); return true; } } } return false; } void LocalUser::FullConnect() { ServerInstance->stats.Connects++; this->idle_lastmsg = ServerInstance->Time(); /* * You may be thinking "wtf, we checked this in User::AddClient!" - and yes, we did, BUT. * At the time AddClient is called, we don't have a resolved host, by here we probably do - which * may put the user into a totally seperate class with different restrictions! so we *must* check again. * Don't remove this! -- w00t */ MyClass = NULL; SetClass(); CheckClass(); CheckLines(); if (quitting) return; this->WriteNumeric(RPL_WELCOME, InspIRCd::Format("Welcome to the %s IRC Network %s", ServerInstance->Config->Network.c_str(), GetFullRealHost().c_str())); this->WriteNumeric(RPL_YOURHOSTIS, InspIRCd::Format("Your host is %s, running version %s", ServerInstance->Config->ServerName.c_str(), INSPIRCD_BRANCH)); this->WriteNumeric(RPL_SERVERCREATED, InspIRCd::Format("This server was created %s %s", __TIME__, __DATE__)); const std::string& modelist = ServerInstance->Modes->GetModeListFor004Numeric(); this->WriteNumeric(RPL_SERVERVERSION, ServerInstance->Config->ServerName, INSPIRCD_BRANCH, modelist); ServerInstance->ISupport.SendTo(this); /* Now registered */ if (ServerInstance->Users->unregistered_count) ServerInstance->Users->unregistered_count--; /* Trigger MOTD and LUSERS output, give modules a chance too */ ModResult MOD_RESULT; std::string command("LUSERS"); std::vector parameters; FIRST_MOD_RESULT(OnPreCommand, MOD_RESULT, (command, parameters, this, true, command)); if (!MOD_RESULT) ServerInstance->Parser.CallHandler(command, parameters, this); MOD_RESULT = MOD_RES_PASSTHRU; command = "MOTD"; FIRST_MOD_RESULT(OnPreCommand, MOD_RESULT, (command, parameters, this, true, command)); if (!MOD_RESULT) ServerInstance->Parser.CallHandler(command, parameters, this); if (ServerInstance->Config->RawLog) WriteServ("PRIVMSG %s :*** Raw I/O logging is enabled on this server. All messages, passwords, and commands are being recorded.", nick.c_str()); /* * We don't set REG_ALL until triggering OnUserConnect, so some module events don't spew out stuff * for a user that doesn't exist yet. */ FOREACH_MOD(OnUserConnect, (this)); this->registered = REG_ALL; FOREACH_MOD(OnPostConnect, (this)); ServerInstance->SNO->WriteToSnoMask('c',"Client connecting on port %d (class %s): %s (%s) [%s]", this->GetServerPort(), this->MyClass->name.c_str(), GetFullRealHost().c_str(), this->GetIPString().c_str(), this->fullname.c_str()); ServerInstance->Logs->Log("BANCACHE", LOG_DEBUG, "BanCache: Adding NEGATIVE hit for " + this->GetIPString()); ServerInstance->BanCache.AddHit(this->GetIPString(), "", ""); // reset the flood penalty (which could have been raised due to things like auto +x) CommandFloodPenalty = 0; } void User::InvalidateCache() { /* Invalidate cache */ cached_fullhost.clear(); cached_hostip.clear(); cached_makehost.clear(); cached_fullrealhost.clear(); } bool User::ChangeNick(const std::string& newnick, time_t newts) { if (quitting) { ServerInstance->Logs->Log("USERS", LOG_DEFAULT, "ERROR: Attempted to change nick of a quitting user: " + this->nick); return false; } User* const InUse = ServerInstance->FindNickOnly(newnick); if (InUse == this) { // case change, don't need to check campers // and, if it's identical including case, we can leave right now // We also don't update the nick TS if it's a case change, either if (newnick == nick) return true; } else { /* * Uh oh.. if the nickname is in use, and it's not in use by the person using it (doh) -- * then we have a potential collide. Check whether someone else is camping on the nick * (i.e. connect -> send NICK, don't send USER.) If they are camping, force-change the * camper to their UID, and allow the incoming nick change. * * If the guy using the nick is already using it, tell the incoming nick change to gtfo, * because the nick is already (rightfully) in use. -- w00t */ if (InUse) { if (InUse->registered != REG_ALL) { /* force the camper to their UUID, and ask them to re-send a NICK. */ InUse->WriteFrom(InUse, "NICK %s", InUse->uuid.c_str()); InUse->WriteNumeric(ERR_NICKNAMEINUSE, InUse->nick, "Nickname overruled."); InUse->registered &= ~REG_NICK; InUse->ChangeNick(InUse->uuid); } else { /* No camping, tell the incoming user to stop trying to change nick ;p */ this->WriteNumeric(ERR_NICKNAMEINUSE, newnick, "Nickname is already in use."); return false; } } age = newts ? newts : ServerInstance->Time(); } if (this->registered == REG_ALL) this->WriteCommon("NICK %s",newnick.c_str()); std::string oldnick = nick; nick = newnick; InvalidateCache(); ServerInstance->Users->clientlist.erase(oldnick); ServerInstance->Users->clientlist[newnick] = this; if (registered == REG_ALL) FOREACH_MOD(OnUserPostNick, (this,oldnick)); return true; } int LocalUser::GetServerPort() { switch (this->server_sa.sa.sa_family) { case AF_INET6: return htons(this->server_sa.in6.sin6_port); case AF_INET: return htons(this->server_sa.in4.sin_port); } return 0; } const std::string& User::GetIPString() { int port; if (cachedip.empty()) { irc::sockets::satoap(client_sa, cachedip, port); /* IP addresses starting with a : on irc are a Bad Thing (tm) */ if (cachedip[0] == ':') cachedip.insert(cachedip.begin(),1,'0'); } return cachedip; } irc::sockets::cidr_mask User::GetCIDRMask() { int range = 0; switch (client_sa.sa.sa_family) { case AF_INET6: range = ServerInstance->Config->c_ipv6_range; break; case AF_INET: range = ServerInstance->Config->c_ipv4_range; break; } return irc::sockets::cidr_mask(client_sa, range); } bool User::SetClientIP(const char* sip, bool recheck_eline) { cachedip.clear(); cached_hostip.clear(); return irc::sockets::aptosa(sip, 0, client_sa); } void User::SetClientIP(const irc::sockets::sockaddrs& sa, bool recheck_eline) { cachedip.clear(); cached_hostip.clear(); memcpy(&client_sa, &sa, sizeof(irc::sockets::sockaddrs)); } bool LocalUser::SetClientIP(const char* sip, bool recheck_eline) { irc::sockets::sockaddrs sa; if (!irc::sockets::aptosa(sip, 0, sa)) // Invalid return false; LocalUser::SetClientIP(sa, recheck_eline); return true; } void LocalUser::SetClientIP(const irc::sockets::sockaddrs& sa, bool recheck_eline) { if (sa != client_sa) { User::SetClientIP(sa); if (recheck_eline) this->exempt = (ServerInstance->XLines->MatchesLine("E", this) != NULL); FOREACH_MOD(OnSetUserIP, (this)); } } static std::string wide_newline("\r\n"); void User::Write(const std::string& text) { } void User::Write(const char *text, ...) { } void LocalUser::Write(const std::string& text) { if (!SocketEngine::BoundsCheckFd(&eh)) return; if (text.length() > ServerInstance->Config->Limits.MaxLine - 2) { // this should happen rarely or never. Crop the string at 512 and try again. std::string try_again(text, 0, ServerInstance->Config->Limits.MaxLine - 2); Write(try_again); return; } ServerInstance->Logs->Log("USEROUTPUT", LOG_RAWIO, "C[%s] O %s", uuid.c_str(), text.c_str()); eh.AddWriteBuf(text); eh.AddWriteBuf(wide_newline); ServerInstance->stats.Sent += text.length() + 2; this->bytes_out += text.length() + 2; this->cmds_out++; } /** Write() */ void LocalUser::Write(const char *text, ...) { std::string textbuffer; VAFORMAT(textbuffer, text, text); this->Write(textbuffer); } void User::WriteServ(const std::string& text) { this->Write(":%s %s",ServerInstance->Config->ServerName.c_str(),text.c_str()); } /** WriteServ() * Same as Write(), except `text' is prefixed with `:server.name '. */ void User::WriteServ(const char* text, ...) { std::string textbuffer; VAFORMAT(textbuffer, text, text); this->WriteServ(textbuffer); } void User::WriteCommand(const char* command, const std::string& text) { this->WriteServ(command + (this->registered & REG_NICK ? " " + this->nick : " *") + " " + text); } namespace { std::string BuildNumeric(const std::string& source, User* targetuser, unsigned int num, const std::vector& params) { const char* const target = (targetuser->registered & REG_NICK ? targetuser->nick.c_str() : "*"); std::string raw = InspIRCd::Format(":%s %03u %s", source.c_str(), num, target); if (!params.empty()) { for (std::vector::const_iterator i = params.begin(); i != params.end()-1; ++i) raw.append(1, ' ').append(*i); raw.append(" :").append(params.back()); } return raw; } } void User::WriteNumeric(const Numeric::Numeric& numeric) { ModResult MOD_RESULT; FIRST_MOD_RESULT(OnNumeric, MOD_RESULT, (this, numeric)); if (MOD_RESULT == MOD_RES_DENY) return; this->Write(BuildNumeric(ServerInstance->Config->ServerName, this, numeric.GetNumeric(), numeric.GetParams())); } void User::WriteFrom(User *user, const std::string &text) { const std::string message = ":" + user->GetFullHost() + " " + text; this->Write(message); } /* write text from an originating user to originating user */ void User::WriteFrom(User *user, const char* text, ...) { std::string textbuffer; VAFORMAT(textbuffer, text, text); this->WriteFrom(user, textbuffer); } void User::WriteRemoteNotice(const std::string& text) { ServerInstance->PI->SendUserNotice(this, text); } void LocalUser::WriteRemoteNotice(const std::string& text) { WriteNotice(text); } namespace { class WriteCommonRawHandler : public User::ForEachNeighborHandler { const std::string& msg; void Execute(LocalUser* user) CXX11_OVERRIDE { user->Write(msg); } public: WriteCommonRawHandler(const std::string& message) : msg(message) { } }; } void User::WriteCommon(const char* text, ...) { std::string textbuffer; VAFORMAT(textbuffer, text, text); textbuffer = ":" + this->GetFullHost() + " " + textbuffer; this->WriteCommonRaw(textbuffer, true); } void User::WriteCommonRaw(const std::string &line, bool include_self) { WriteCommonRawHandler handler(line); ForEachNeighbor(handler, include_self); } void User::ForEachNeighbor(ForEachNeighborHandler& handler, bool include_self) { // The basic logic for visiting the neighbors of a user is to iterate the channel list of the user // and visit all users on those channels. Because two users may share more than one common channel, // we must skip users that we have already visited. // To do this, we make use of a global counter and an integral 'already_sent' field in LocalUser. // The global counter is incremented every time we do something for each neighbor of a user. Then, // before visiting a member we examine user->already_sent. If it's equal to the current counter, we // skip the member. Otherwise, we set it to the current counter and visit the member. // Ask modules to build a list of exceptions. // Mods may also exclude entire channels by erasing them from include_chans. IncludeChanList include_chans(chans.begin(), chans.end()); std::map exceptions; exceptions[this] = include_self; FOREACH_MOD(OnBuildNeighborList, (this, include_chans, exceptions)); // Get next id, guaranteed to differ from the already_sent field of all users const already_sent_t newid = ServerInstance->Users.NextAlreadySentId(); // Handle exceptions first for (std::map::const_iterator i = exceptions.begin(); i != exceptions.end(); ++i) { LocalUser* curr = IS_LOCAL(i->first); if (curr) { // Mark as visited to ensure we won't visit again if there is a common channel curr->already_sent = newid; // Always treat quitting users as excluded if ((i->second) && (!curr->quitting)) handler.Execute(curr); } } // Now consider the real neighbors for (IncludeChanList::const_iterator i = include_chans.begin(); i != include_chans.end(); ++i) { Channel* chan = (*i)->chan; const Channel::MemberMap& userlist = chan->GetUsers(); for (Channel::MemberMap::const_iterator j = userlist.begin(); j != userlist.end(); ++j) { LocalUser* curr = IS_LOCAL(j->first); // User not yet visited? if ((curr) && (curr->already_sent != newid)) { // Mark as visited and execute function curr->already_sent = newid; handler.Execute(curr); } } } } void LocalUser::SendText(const std::string& line) { Write(line); } void RemoteUser::SendText(const std::string& line) { ServerInstance->PI->PushToClient(this, line); } void FakeUser::SendText(const std::string& line) { } void User::SendText(const char *text, ...) { std::string line; VAFORMAT(line, text, text); SendText(line); } void User::SendText(const std::string& linePrefix, std::stringstream& textStream) { std::string line; std::string word; while (textStream >> word) { size_t lineLength = linePrefix.length() + line.length() + word.length() + 3; // "\s\n\r" if (lineLength > ServerInstance->Config->Limits.MaxLine) { SendText(linePrefix + line); line.clear(); } line += " " + word; } SendText(linePrefix + line); } void User::WriteRemoteNumeric(const Numeric::Numeric& numeric) { const std::string& servername = (numeric.GetServer() ? numeric.GetServer()->GetName() : ServerInstance->Config->ServerName); SendText(BuildNumeric(servername, this, numeric.GetNumeric(), numeric.GetParams())); } /* return 0 or 1 depending if users u and u2 share one or more common channels * (used by QUIT, NICK etc which arent channel specific notices) * * The old algorithm in 1.0 for this was relatively inefficient, iterating over * the first users channels then the second users channels within the outer loop, * therefore it was a maximum of x*y iterations (upon returning 0 and checking * all possible iterations). However this new function instead checks against the * channel's userlist in the inner loop which is a std::map * and saves us time as we already know what pointer value we are after. * Don't quote me on the maths as i am not a mathematician or computer scientist, * but i believe this algorithm is now x+(log y) maximum iterations instead. */ bool User::SharesChannelWith(User *other) { /* Outer loop */ for (User::ChanList::iterator i = this->chans.begin(); i != this->chans.end(); ++i) { /* Eliminate the inner loop (which used to be ~equal in size to the outer loop) * by replacing it with a map::find which *should* be more efficient */ if ((*i)->chan->HasUser(other)) return true; } return false; } bool User::ChangeName(const std::string& gecos) { if (!this->fullname.compare(gecos)) return true; if (IS_LOCAL(this)) { ModResult MOD_RESULT; FIRST_MOD_RESULT(OnChangeLocalUserGECOS, MOD_RESULT, (IS_LOCAL(this),gecos)); if (MOD_RESULT == MOD_RES_DENY) return false; FOREACH_MOD(OnChangeName, (this,gecos)); } this->fullname.assign(gecos, 0, ServerInstance->Config->Limits.MaxGecos); return true; } bool User::ChangeDisplayedHost(const std::string& shost) { if (dhost == shost) return true; if (IS_LOCAL(this)) { ModResult MOD_RESULT; FIRST_MOD_RESULT(OnChangeLocalUserHost, MOD_RESULT, (IS_LOCAL(this),shost)); if (MOD_RESULT == MOD_RES_DENY) return false; } FOREACH_MOD(OnChangeHost, (this,shost)); this->dhost.assign(shost, 0, ServerInstance->Config->Limits.MaxHost); this->InvalidateCache(); if (IS_LOCAL(this)) this->WriteNumeric(RPL_YOURDISPLAYEDHOST, this->dhost, "is now your displayed host"); return true; } bool User::ChangeIdent(const std::string& newident) { if (this->ident == newident) return true; FOREACH_MOD(OnChangeIdent, (this,newident)); this->ident.assign(newident, 0, ServerInstance->Config->Limits.IdentMax); this->InvalidateCache(); return true; } /* * Sets a user's connection class. * If the class name is provided, it will be used. Otherwise, the class will be guessed using host/ip/ident/etc. * NOTE: If the or tag specifies an ip, and this user resolves, * then their ip will be taken as 'priority' anyway, so for example, * will match joe!bloggs@localhost */ void LocalUser::SetClass(const std::string &explicit_name) { ConnectClass *found = NULL; ServerInstance->Logs->Log("CONNECTCLASS", LOG_DEBUG, "Setting connect class for UID %s", this->uuid.c_str()); if (!explicit_name.empty()) { for (ServerConfig::ClassVector::const_iterator i = ServerInstance->Config->Classes.begin(); i != ServerInstance->Config->Classes.end(); ++i) { ConnectClass* c = *i; if (explicit_name == c->name) { ServerInstance->Logs->Log("CONNECTCLASS", LOG_DEBUG, "Explicitly set to %s", explicit_name.c_str()); found = c; } } } else { for (ServerConfig::ClassVector::const_iterator i = ServerInstance->Config->Classes.begin(); i != ServerInstance->Config->Classes.end(); ++i) { ConnectClass* c = *i; ServerInstance->Logs->Log("CONNECTCLASS", LOG_DEBUG, "Checking %s", c->GetName().c_str()); ModResult MOD_RESULT; FIRST_MOD_RESULT(OnSetConnectClass, MOD_RESULT, (this,c)); if (MOD_RESULT == MOD_RES_DENY) continue; if (MOD_RESULT == MOD_RES_ALLOW) { ServerInstance->Logs->Log("CONNECTCLASS", LOG_DEBUG, "Class forced by module to %s", c->GetName().c_str()); found = c; break; } if (c->type == CC_NAMED) continue; bool regdone = (registered != REG_NONE); if (c->config->getBool("registered", regdone) != regdone) continue; /* check if host matches.. */ if (!InspIRCd::MatchCIDR(this->GetIPString(), c->GetHost(), NULL) && !InspIRCd::MatchCIDR(this->host, c->GetHost(), NULL)) { ServerInstance->Logs->Log("CONNECTCLASS", LOG_DEBUG, "No host match (for %s)", c->GetHost().c_str()); continue; } /* * deny change if change will take class over the limit check it HERE, not after we found a matching class, * because we should attempt to find another class if this one doesn't match us. -- w00t */ if (c->limit && (c->GetReferenceCount() >= c->limit)) { ServerInstance->Logs->Log("CONNECTCLASS", LOG_DEBUG, "OOPS: Connect class limit (%lu) hit, denying", c->limit); continue; } /* if it requires a port ... */ int port = c->config->getInt("port"); if (port) { ServerInstance->Logs->Log("CONNECTCLASS", LOG_DEBUG, "Requires port (%d)", port); /* and our port doesn't match, fail. */ if (this->GetServerPort() != port) continue; } if (regdone && !c->config->getString("password").empty()) { if (!ServerInstance->PassCompare(this, c->config->getString("password"), password, c->config->getString("hash"))) { ServerInstance->Logs->Log("CONNECTCLASS", LOG_DEBUG, "Bad password, skipping"); continue; } } /* we stop at the first class that meets ALL critera. */ found = c; break; } } /* * Okay, assuming we found a class that matches.. switch us into that class, keeping refcounts up to date. */ if (found) { MyClass = found; } } void User::PurgeEmptyChannels() { // firstly decrement the count on each channel for (User::ChanList::iterator i = this->chans.begin(); i != this->chans.end(); ) { Channel* c = (*i)->chan; ++i; c->DelUser(this); } this->UnOper(); } const std::string& FakeUser::GetFullHost() { if (!ServerInstance->Config->HideWhoisServer.empty()) return ServerInstance->Config->HideWhoisServer; return server->GetName(); } const std::string& FakeUser::GetFullRealHost() { if (!ServerInstance->Config->HideWhoisServer.empty()) return ServerInstance->Config->HideWhoisServer; return server->GetName(); } ConnectClass::ConnectClass(ConfigTag* tag, char t, const std::string& mask) : config(tag), type(t), fakelag(true), name("unnamed"), registration_timeout(0), host(mask), pingtime(0), softsendqmax(0), hardsendqmax(0), recvqmax(0), penaltythreshold(0), commandrate(0), maxlocal(0), maxglobal(0), maxconnwarn(true), maxchans(ServerInstance->Config->MaxChans), limit(0), resolvehostnames(true) { } ConnectClass::ConnectClass(ConfigTag* tag, char t, const std::string& mask, const ConnectClass& parent) : config(tag), type(t), fakelag(parent.fakelag), name("unnamed"), registration_timeout(parent.registration_timeout), host(mask), pingtime(parent.pingtime), softsendqmax(parent.softsendqmax), hardsendqmax(parent.hardsendqmax), recvqmax(parent.recvqmax), penaltythreshold(parent.penaltythreshold), commandrate(parent.commandrate), maxlocal(parent.maxlocal), maxglobal(parent.maxglobal), maxconnwarn(parent.maxconnwarn), maxchans(parent.maxchans), limit(parent.limit), resolvehostnames(parent.resolvehostnames) { } void ConnectClass::Update(const ConnectClass* src) { config = src->config; type = src->type; fakelag = src->fakelag; name = src->name; registration_timeout = src->registration_timeout; host = src->host; pingtime = src->pingtime; softsendqmax = src->softsendqmax; hardsendqmax = src->hardsendqmax; recvqmax = src->recvqmax; penaltythreshold = src->penaltythreshold; commandrate = src->commandrate; maxlocal = src->maxlocal; maxglobal = src->maxglobal; maxconnwarn = src->maxconnwarn; maxchans = src->maxchans; limit = src->limit; resolvehostnames = src->resolvehostnames; }