/* +------------------------------------+ * | 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. * * --------------------------------------------------- */ /* $Core: libIRCDxline */ #include "inspircd.h" #include "wildcard.h" #include "xline.h" /* * This is now version 3 of the XLine subsystem, let's see if we can get it as nice and * efficient as we can this time so we can close this file and never ever touch it again .. * * Background: * Version 1 stored all line types in one list (one for g, one for z, etc). This was fine, * but both version 1 and 2 suck at applying lines efficiently. That is, every time a new line * was added, it iterated every existing line for every existing user. Ow. Expiry was also * expensive, as the lists were NOT sorted. * * Version 2 moved permanent lines into a seperate list from non-permanent to help optimize * matching speed, but matched in the same way. * Expiry was also sped up by sorting the list by expiry (meaning just remove the items at the * head of the list that are outdated.) * * This was fine and good, but it looked less than ideal in code, and matching was still slower * than it could have been, something which we address here. * * VERSION 3: * All lines are (as in v1) stored together -- no seperation of perm and non-perm. They are stored in * a map of maps (first map is line type, second map is for quick lookup on add/delete/etc). * * Expiry is *no longer* performed on a timer, and no longer uses a sorted list of any variety. This * is now done by only checking for expiry when a line is accessed, meaning that expiry is no longer * a resource intensive problem. * * Application no longer tries to apply every single line on every single user - instead, now only lines * added since the previous application are applied. This keeps S2S ADDLINE during burst nice and fast, * while at the same time not slowing things the fuck down when we try adding a ban with lots of preexisting * bans. :) */ bool XLine::Matches(User *u) { return false; } /* * Checks what users match a given vector of ELines and sets their ban exempt flag accordingly. */ void XLineManager::CheckELines() { ContainerIter n = lookup_lines.find("E"); if (n == lookup_lines.end()) return; XLineLookup& ELines = n->second; if (ELines.empty()) return; for (std::vector::const_iterator u2 = ServerInstance->local_users.begin(); u2 != ServerInstance->local_users.end(); u2++) { User* u = (User*)(*u2); for (LookupIter i = ELines.begin(); i != ELines.end(); i++) { XLine *e = i->second; u->exempt = e->Matches(u); } } } XLineLookup* XLineManager::GetAll(const std::string &type) { ContainerIter n = lookup_lines.find(type); if (n == lookup_lines.end()) return NULL; return &(n->second); } std::vector XLineManager::GetAllTypes() { std::vector items; for (ContainerIter x = lookup_lines.begin(); x != lookup_lines.end(); ++x) items.push_back(x->first); return items; } IdentHostPair XLineManager::IdentSplit(const std::string &ident_and_host) { IdentHostPair n = std::make_pair("*","*"); std::string::size_type x = ident_and_host.find('@'); if (x != std::string::npos) { n.second = ident_and_host.substr(x + 1,ident_and_host.length()); n.first = ident_and_host.substr(0, x); if (!n.first.length()) n.first.assign("*"); if (!n.second.length()) n.second.assign("*"); } else { n.second = ident_and_host; } return n; } // adds a line bool XLineManager::AddLine(XLine* line, User* user) { /*IdentHostPair ih = IdentSplit(hostmask);*/ if (DelLine(line->Displayable(), line->type, user, true)) return false; /*ELine* item = new ELine(ServerInstance, ServerInstance->Time(), duration, source, reason, ih.first.c_str(), ih.second.c_str());*/ pending_lines.push_back(line); lookup_lines[line->type][line->Displayable()] = line; line->OnAdd(); FOREACH_MOD(I_OnAddLine,OnAddLine(user, line)); return true; } // deletes a line, returns true if the line existed and was removed bool XLineManager::DelLine(const char* hostmask, const std::string &type, User* user, bool simulate) { ContainerIter x = lookup_lines.find(type); if (x == lookup_lines.end()) return false; LookupIter y = x->second.find(hostmask); if (y == x->second.end()) return false; if (simulate) return true; FOREACH_MOD(I_OnDelLine,OnDelLine(user, y->second)); y->second->Unset(); std::vector::iterator pptr = std::find(pending_lines.begin(), pending_lines.end(), y->second); if (pptr != pending_lines.end()) pending_lines.erase(pptr); delete y->second; x->second.erase(y); return true; } void ELine::Unset() { /* remove exempt from everyone and force recheck after deleting eline */ for (std::vector::const_iterator u2 = ServerInstance->local_users.begin(); u2 != ServerInstance->local_users.end(); u2++) { User* u = (User*)(*u2); u->exempt = false; } ServerInstance->XLines->CheckELines(); } // returns a pointer to the reason if a nickname matches a qline, NULL if it didnt match XLine* XLineManager::MatchesLine(const std::string &type, User* user) { ContainerIter x = lookup_lines.find(type); if (x == lookup_lines.end()) return NULL; const time_t current = ServerInstance->Time(); for (LookupIter i = x->second.begin(); i != x->second.end(); i++) { if (i->second->Matches(user)) { if (current > i->second->expiry) { /* Expire the line, return nothing */ ExpireLine(x, i); return NULL; } else return i->second; } } return NULL; } XLine* XLineManager::MatchesLine(const std::string &type, const std::string &pattern) { ContainerIter x = lookup_lines.find(type); if (x == lookup_lines.end()) return NULL; const time_t current = ServerInstance->Time(); for (LookupIter i = x->second.begin(); i != x->second.end(); i++) { if (i->second->Matches(pattern)) { if (current > i->second->expiry) { /* Expire the line, return nothing */ ExpireLine(x, i); return NULL; } else return i->second; } } return NULL; } // removes lines that have expired void XLineManager::ExpireLine(ContainerIter container, LookupIter item) { item->second->DisplayExpiry(); item->second->Unset(); /* TODO: Can we skip this loop by having a 'pending' field in the XLine class, which is set when a line * is pending, cleared when it is no longer pending, so we skip over this loop if its not pending? * -- Brain */ std::vector::iterator pptr = std::find(pending_lines.begin(), pending_lines.end(), item->second); if (pptr != pending_lines.end()) pending_lines.erase(pptr); delete item->second; container->second.erase(item); } // applies lines, removing clients and changing nicks etc as applicable void XLineManager::ApplyLines() { for (std::vector::const_iterator u2 = ServerInstance->local_users.begin(); u2 != ServerInstance->local_users.end(); u2++) { User* u = (User*)(*u2); for (std::vector::iterator i = pending_lines.begin(); i != pending_lines.end(); i++) { XLine *x = *i; if (x->Matches(u)) x->Apply(u); } } pending_lines.clear(); } void XLineManager::InvokeStats(const std::string &type, int numeric, User* user, string_list &results) { std::string sn = ServerInstance->Config->ServerName; ContainerIter n = lookup_lines.find(type); time_t current = ServerInstance->Time(); LookupIter safei; if (n != lookup_lines.end()) { XLineLookup& list = n->second; for (LookupIter i = list.begin(); i != list.end(); ) { safei = i; safei++; if (current > i->second->expiry) { ExpireLine(n, i); } else results.push_back(sn+" "+ConvToStr(numeric)+" "+user->nick+" :"+i->second->Displayable()+" "+ ConvToStr(i->second->set_time)+" "+ConvToStr(i->second->duration)+" "+std::string(i->second->source)+" :"+(i->second->reason)); i = safei; } } } XLineManager::XLineManager(InspIRCd* Instance) : ServerInstance(Instance) { GFact = new GLineFactory(Instance); EFact = new ELineFactory(Instance); KFact = new KLineFactory(Instance); QFact = new QLineFactory(Instance); ZFact = new ZLineFactory(Instance); RegisterFactory(GFact); RegisterFactory(EFact); RegisterFactory(KFact); RegisterFactory(QFact); RegisterFactory(ZFact); } XLineManager::~XLineManager() { UnregisterFactory(GFact); UnregisterFactory(EFact); UnregisterFactory(KFact); UnregisterFactory(QFact); UnregisterFactory(ZFact); delete GFact; delete EFact; delete KFact; delete QFact; delete ZFact; } void XLine::Apply(User* u) { } void XLine::DefaultApply(User* u, const std::string &line) { char reason[MAXBUF]; snprintf(reason, MAXBUF, "%s-Lined: %s", line.c_str(), this->reason); if (*ServerInstance->Config->MoronBanner) u->WriteServ("NOTICE %s :*** %s", u->nick, ServerInstance->Config->MoronBanner); if (ServerInstance->Config->HideBans) User::QuitUser(ServerInstance, u, line + "-Lined", reason); else User::QuitUser(ServerInstance, u, reason); } bool KLine::Matches(User *u) { if (u->exempt) return false; if ((match(u->ident, this->identmask))) { if ((match(u->host, this->hostmask, true)) || (match(u->GetIPString(), this->hostmask, true))) { return true; } } return false; } void KLine::Apply(User* u) { DefaultApply(u, "K"); } bool GLine::Matches(User *u) { if (u->exempt) return false; if ((match(u->ident, this->identmask))) { if ((match(u->host, this->hostmask, true)) || (match(u->GetIPString(), this->hostmask, true))) { return true; } } return false; } void GLine::Apply(User* u) { DefaultApply(u, "G"); } bool ELine::Matches(User *u) { if (u->exempt) return false; if ((match(u->ident, this->identmask))) { if ((match(u->host, this->hostmask, true)) || (match(u->GetIPString(), this->hostmask, true))) { return true; } } return false; } bool ZLine::Matches(User *u) { if (u->exempt) return false; if (match(u->GetIPString(), this->ipaddr, true)) return true; else return false; } void ZLine::Apply(User* u) { DefaultApply(u, "Z"); } bool QLine::Matches(User *u) { if (u->exempt) return false; if (match(u->nick, this->nick)) return true; return false; } void QLine::Apply(User* u) { /* Can we force the user to their uid here instead? */ DefaultApply(u, "Q"); } bool ZLine::Matches(const std::string &str) { if (match(str.c_str(), this->ipaddr, true)) return true; else return false; } bool QLine::Matches(const std::string &str) { if (match(str.c_str(), this->nick)) return true; return false; } bool ELine::Matches(const std::string &str) { return ((match(str.c_str(), matchtext.c_str(), true))); } bool KLine::Matches(const std::string &str) { return ((match(str.c_str(), matchtext.c_str(), true))); } bool GLine::Matches(const std::string &str) { return ((match(str.c_str(), matchtext.c_str(), true))); } void ELine::OnAdd() { /* When adding one eline, only check the one eline */ for (std::vector::const_iterator u2 = ServerInstance->local_users.begin(); u2 != ServerInstance->local_users.end(); u2++) { User* u = (User*)(*u2); if (this->Matches(u)) u->exempt = true; } } void ELine::DisplayExpiry() { ServerInstance->SNO->WriteToSnoMask('x',"Expiring timed E-Line %s@%s (set by %s %d seconds ago)",this->identmask,this->hostmask,this->source,this->duration); } void QLine::DisplayExpiry() { ServerInstance->SNO->WriteToSnoMask('x',"Expiring timed Q-Line %s (set by %s %d seconds ago)",this->nick,this->source,this->duration); } void ZLine::DisplayExpiry() { ServerInstance->SNO->WriteToSnoMask('x',"Expiring timed Z-Line %s (set by %s %d seconds ago)",this->ipaddr,this->source,this->duration); } void KLine::DisplayExpiry() { ServerInstance->SNO->WriteToSnoMask('x',"Expiring timed K-Line %s@%s (set by %s %d seconds ago)",this->identmask,this->hostmask,this->source,this->duration); } void GLine::DisplayExpiry() { ServerInstance->SNO->WriteToSnoMask('x',"Expiring timed G-Line %s@%s (set by %s %d seconds ago)",this->identmask,this->hostmask,this->source,this->duration); } const char* ELine::Displayable() { return matchtext.c_str(); } const char* KLine::Displayable() { return matchtext.c_str(); } const char* GLine::Displayable() { return matchtext.c_str(); } const char* ZLine::Displayable() { return ipaddr; } const char* QLine::Displayable() { return nick; } bool XLineManager::RegisterFactory(XLineFactory* xlf) { XLineFactMap::iterator n = line_factory.find(xlf->GetType()); if (n != line_factory.end()) return false; line_factory[xlf->GetType()] = xlf; return true; } bool XLineManager::UnregisterFactory(XLineFactory* xlf) { XLineFactMap::iterator n = line_factory.find(xlf->GetType()); if (n == line_factory.end()) return false; line_factory.erase(n); return true; } XLineFactory* XLineManager::GetFactory(const std::string &type) { XLineFactMap::iterator n = line_factory.find(type); if (n != line_factory.end()) return NULL; return n->second; }