/* +------------------------------------+ * | Inspire Internet Relay Chat Daemon | * +------------------------------------+ * * InspIRCd is copyright (C) 2002-2006 ChatSpike-Dev. * E-mail: * * * * Written by Craig Edwards, Craig McLure, and others. * This program is free but copyrighted software; see * the file COPYING for details. * * --------------------------------------------------- */ using namespace std; #include "inspircd_config.h" #include "inspircd.h" #include #include #include #include #include #include "users.h" #include "ctables.h" #include "globals.h" #include "modules.h" #include "dynamic.h" #include "wildcard.h" #include "message.h" #include "commands.h" #include "xline.h" #include "inspstring.h" #include "helperfuncs.h" #include "hashcomp.h" #include "typedefs.h" #include "configreader.h" #include "cull_list.h" extern ServerConfig *Config; extern int MODCOUNT; extern std::vector modules; extern std::vector factory; extern ServerConfig* Config; extern user_hash clientlist; extern std::vector local_users; /* Version two, now with optimized expiry! * * Because the old way was horrendously slow, the new way of expiring xlines is very * very efficient. I have improved the efficiency of the algorithm in two ways: * * (1) There are now two lists of items for each linetype. One list holds temporary * items, and the other list holds permanent items (ones which will expire). * Items which are on the permanent list are NEVER checked at all by the * expire_lines() function. * (2) The temporary xline lists are always kept in strict numerical order, keyed by * current time + duration. This means that the line which is due to expire the * soonest is always pointed at by vector::begin(), so a simple while loop can * very efficiently, very quickly and above all SAFELY pick off the first few * items in the vector which need zapping. * * -- Brain */ extern time_t TIME; /* Lists for temporary lines with an expiry time */ std::vector klines; std::vector glines; std::vector zlines; std::vector qlines; std::vector elines; /* Seperate lists for perm XLines that isnt checked by expiry functions */ std::vector pklines; std::vector pglines; std::vector pzlines; std::vector pqlines; std::vector pelines; bool GSortComparison ( const GLine one, const GLine two ); bool ZSortComparison ( const ZLine one, const ZLine two ); bool ESortComparison ( const ELine one, const ELine two ); bool QSortComparison ( const QLine one, const QLine two ); bool KSortComparison ( const KLine one, const KLine two ); // Reads the default bans from the config file. // only a very small number of bans are defined // this way these days, such as qlines against // services nicks, etc. bool InitXLine(const char* tag) { return true; } bool DoneXLine(const char* tag) { apply_lines(APPLY_ALL); return true; } bool DoZLine(const char* tag, char** entries, void** values, int* types) { char* reason = (char*)values[0]; char* ipmask = (char*)values[1]; add_zline(0,"",reason,ipmask); log(DEBUG,"Read Z line (badip tag): ipmask=%s reason=%s",ipmask,reason); return true; } bool DoQLine(const char* tag, char** entries, void** values, int* types) { char* reason = (char*)values[0]; char* nick = (char*)values[1]; add_qline(0,"",reason,nick); log(DEBUG,"Read Q line (badnick tag): nick=%s reason=%s",nick,reason); return true; } bool DoKLine(const char* tag, char** entries, void** values, int* types) { char* reason = (char*)values[0]; char* host = (char*)values[1]; add_kline(0,"",reason,host); log(DEBUG,"Read K line (badhost tag): host=%s reason=%s",host,reason); return true; } bool DoELine(const char* tag, char** entries, void** values, int* types) { char* reason = (char*)values[0]; char* host = (char*)values[1]; add_eline(0,"",reason,host); log(DEBUG,"Read E line (exception tag): host=%s reason=%s",host,reason); return true; } // adds a g:line bool add_gline(long duration, const char* source,const char* reason,const char* hostmask) { bool ret = del_gline(hostmask); GLine item; item.duration = duration; strlcpy(item.hostmask,hostmask,199); strlcpy(item.reason,reason,MAXBUF); strlcpy(item.source,source,255); item.n_matches = 0; item.set_time = TIME; if (duration) { glines.push_back(item); sort(glines.begin(), glines.end(),GSortComparison); } else { pglines.push_back(item); } return !ret; } // adds an e:line (exception to bans) bool add_eline(long duration, const char* source, const char* reason, const char* hostmask) { bool ret = del_eline(hostmask); ELine item; item.duration = duration; strlcpy(item.hostmask,hostmask,199); strlcpy(item.reason,reason,MAXBUF); strlcpy(item.source,source,255); item.n_matches = 0; item.set_time = TIME; if (duration) { elines.push_back(item); sort(elines.begin(), elines.end(),ESortComparison); } else { pelines.push_back(item); } return !ret; } // adds a q:line bool add_qline(long duration, const char* source, const char* reason, const char* nickname) { bool ret = del_qline(nickname); QLine item; item.duration = duration; strlcpy(item.nick,nickname,63); strlcpy(item.reason,reason,MAXBUF); strlcpy(item.source,source,255); item.n_matches = 0; item.is_global = false; item.set_time = TIME; if (duration) { qlines.push_back(item); sort(qlines.begin(), qlines.end(),QSortComparison); } else { pqlines.push_back(item); } return !ret; } // adds a z:line bool add_zline(long duration, const char* source, const char* reason, const char* ipaddr) { bool ret = del_zline(ipaddr); ZLine item; item.duration = duration; if (strchr(ipaddr,'@')) { while (*ipaddr != '@') ipaddr++; ipaddr++; } strlcpy(item.ipaddr,ipaddr,39); strlcpy(item.reason,reason,MAXBUF); strlcpy(item.source,source,255); item.n_matches = 0; item.is_global = false; item.set_time = TIME; if (duration) { zlines.push_back(item); sort(zlines.begin(), zlines.end(),ZSortComparison); } else { pzlines.push_back(item); } return !ret; } // adds a k:line bool add_kline(long duration, const char* source, const char* reason, const char* hostmask) { bool ret = del_kline(hostmask); KLine item; item.duration = duration; strlcpy(item.hostmask,hostmask,200); strlcpy(item.reason,reason,MAXBUF); strlcpy(item.source,source,255); item.n_matches = 0; item.set_time = TIME; if (duration) { klines.push_back(item); sort(klines.begin(), klines.end(),KSortComparison); } else { pklines.push_back(item); } return !ret; } // deletes a g:line, returns true if the line existed and was removed bool del_gline(const char* hostmask) { for (std::vector::iterator i = glines.begin(); i != glines.end(); i++) { if (!strcasecmp(hostmask,i->hostmask)) { glines.erase(i); return true; } } for (std::vector::iterator i = pglines.begin(); i != pglines.end(); i++) { if (!strcasecmp(hostmask,i->hostmask)) { pglines.erase(i); return true; } } return false; } // deletes a e:line, returns true if the line existed and was removed bool del_eline(const char* hostmask) { for (std::vector::iterator i = elines.begin(); i != elines.end(); i++) { if (!strcasecmp(hostmask,i->hostmask)) { elines.erase(i); return true; } } for (std::vector::iterator i = pelines.begin(); i != pelines.end(); i++) { if (!strcasecmp(hostmask,i->hostmask)) { pelines.erase(i); return true; } } return false; } // deletes a q:line, returns true if the line existed and was removed bool del_qline(const char* nickname) { for (std::vector::iterator i = qlines.begin(); i != qlines.end(); i++) { if (!strcasecmp(nickname,i->nick)) { qlines.erase(i); return true; } } for (std::vector::iterator i = pqlines.begin(); i != pqlines.end(); i++) { if (!strcasecmp(nickname,i->nick)) { pqlines.erase(i); return true; } } return false; } bool qline_make_global(const char* nickname) { for (std::vector::iterator i = qlines.begin(); i != qlines.end(); i++) { if (!strcasecmp(nickname,i->nick)) { i->is_global = true; return true; } } return false; } bool zline_make_global(const char* ipaddr) { for (std::vector::iterator i = zlines.begin(); i != zlines.end(); i++) { if (!strcasecmp(ipaddr,i->ipaddr)) { i->is_global = true; return true; } } return false; } // deletes a z:line, returns true if the line existed and was removed bool del_zline(const char* ipaddr) { for (std::vector::iterator i = zlines.begin(); i != zlines.end(); i++) { if (!strcasecmp(ipaddr,i->ipaddr)) { zlines.erase(i); return true; } } for (std::vector::iterator i = pzlines.begin(); i != pzlines.end(); i++) { if (!strcasecmp(ipaddr,i->ipaddr)) { pzlines.erase(i); return true; } } return false; } // deletes a k:line, returns true if the line existed and was removed bool del_kline(const char* hostmask) { for (std::vector::iterator i = klines.begin(); i != klines.end(); i++) { if (!strcasecmp(hostmask,i->hostmask)) { klines.erase(i); return true; } } for (std::vector::iterator i = pklines.begin(); i != pklines.end(); i++) { if (!strcasecmp(hostmask,i->hostmask)) { pklines.erase(i); return true; } } return false; } // returns a pointer to the reason if a nickname matches a qline, NULL if it didnt match char* matches_qline(const char* nick) { if ((qlines.empty()) && (pqlines.empty())) return NULL; for (std::vector::iterator i = qlines.begin(); i != qlines.end(); i++) if (match(nick,i->nick)) return i->reason; for (std::vector::iterator i = pqlines.begin(); i != pqlines.end(); i++) if (match(nick,i->nick)) return i->reason; return NULL; } // returns a pointer to the reason if a host matches a gline, NULL if it didnt match char* matches_gline(const char* host) { if ((glines.empty()) && (pglines.empty())) return NULL; for (std::vector::iterator i = glines.begin(); i != glines.end(); i++) if (match(host,i->hostmask)) return i->reason; for (std::vector::iterator i = pglines.begin(); i != pglines.end(); i++) if (match(host,i->hostmask)) return i->reason; return NULL; } char* matches_exception(const char* host) { if ((elines.empty()) && (pelines.empty())) return NULL; char host2[MAXBUF]; snprintf(host2,MAXBUF,"*@%s",host); for (std::vector::iterator i = elines.begin(); i != elines.end(); i++) if ((match(host,i->hostmask)) || (match(host2,i->hostmask))) return i->reason; for (std::vector::iterator i = pelines.begin(); i != pelines.end(); i++) if ((match(host,i->hostmask)) || (match(host2,i->hostmask))) return i->reason; return NULL; } void gline_set_creation_time(const char* host, time_t create_time) { for (std::vector::iterator i = glines.begin(); i != glines.end(); i++) { if (!strcasecmp(host,i->hostmask)) { i->set_time = create_time; return; } } for (std::vector::iterator i = pglines.begin(); i != pglines.end(); i++) { if (!strcasecmp(host,i->hostmask)) { i->set_time = create_time; return; } } return ; } void eline_set_creation_time(const char* host, time_t create_time) { for (std::vector::iterator i = elines.begin(); i != elines.end(); i++) { if (!strcasecmp(host,i->hostmask)) { i->set_time = create_time; return; } } for (std::vector::iterator i = pelines.begin(); i != pelines.end(); i++) { if (!strcasecmp(host,i->hostmask)) { i->set_time = create_time; return; } } return; } void qline_set_creation_time(const char* nick, time_t create_time) { for (std::vector::iterator i = qlines.begin(); i != qlines.end(); i++) { if (!strcasecmp(nick,i->nick)) { i->set_time = create_time; return; } } for (std::vector::iterator i = pqlines.begin(); i != pqlines.end(); i++) { if (!strcasecmp(nick,i->nick)) { i->set_time = create_time; return; } } return; } void zline_set_creation_time(const char* ip, time_t create_time) { for (std::vector::iterator i = zlines.begin(); i != zlines.end(); i++) { if (!strcasecmp(ip,i->ipaddr)) { i->set_time = create_time; return; } } for (std::vector::iterator i = pzlines.begin(); i != pzlines.end(); i++) { if (!strcasecmp(ip,i->ipaddr)) { i->set_time = create_time; return; } } return; } // returns a pointer to the reason if an ip address matches a zline, NULL if it didnt match char* matches_zline(const char* ipaddr) { if ((zlines.empty()) && (pzlines.empty())) return NULL; for (std::vector::iterator i = zlines.begin(); i != zlines.end(); i++) if (match(ipaddr,i->ipaddr)) return i->reason; for (std::vector::iterator i = pzlines.begin(); i != pzlines.end(); i++) if (match(ipaddr,i->ipaddr)) return i->reason; return NULL; } // returns a pointer to the reason if a host matches a kline, NULL if it didnt match char* matches_kline(const char* host) { if ((klines.empty()) && (pklines.empty())) return NULL; for (std::vector::iterator i = klines.begin(); i != klines.end(); i++) if (match(host,i->hostmask)) return i->reason; for (std::vector::iterator i = pklines.begin(); i != pklines.end(); i++) if (match(host,i->hostmask)) return i->reason; return NULL; } bool GSortComparison ( const GLine one, const GLine two ) { return (one.duration + one.set_time) < (two.duration + two.set_time); } bool ESortComparison ( const ELine one, const ELine two ) { return (one.duration + one.set_time) < (two.duration + two.set_time); } bool ZSortComparison ( const ZLine one, const ZLine two ) { return (one.duration + one.set_time) < (two.duration + two.set_time); } bool KSortComparison ( const KLine one, const KLine two ) { return (one.duration + one.set_time) < (two.duration + two.set_time); } bool QSortComparison ( const QLine one, const QLine two ) { return (one.duration + one.set_time) < (two.duration + two.set_time); } // removes lines that have expired void expire_lines() { time_t current = TIME; /* Because we now store all our XLines in sorted order using (i->duration + i->set_time) as a key, this * means that to expire the XLines we just need to do a while, picking off the top few until there are * none left at the head of the queue that are after the current time. */ while ((glines.size()) && (current > (glines.begin()->duration + glines.begin()->set_time))) { std::vector::iterator i = glines.begin(); WriteOpers("*** Expiring timed G-Line %s (set by %s %d seconds ago)",i->hostmask,i->source,i->duration); glines.erase(i); } while ((elines.size()) && (current > (elines.begin()->duration + elines.begin()->set_time))) { std::vector::iterator i = elines.begin(); WriteOpers("*** Expiring timed E-Line %s (set by %s %d seconds ago)",i->hostmask,i->source,i->duration); elines.erase(i); } while ((zlines.size()) && (current > (zlines.begin()->duration + zlines.begin()->set_time))) { std::vector::iterator i = zlines.begin(); WriteOpers("*** Expiring timed Z-Line %s (set by %s %d seconds ago)",i->ipaddr,i->source,i->duration); zlines.erase(i); } while ((klines.size()) && (current > (klines.begin()->duration + klines.begin()->set_time))) { std::vector::iterator i = klines.begin(); WriteOpers("*** Expiring timed K-Line %s (set by %s %d seconds ago)",i->hostmask,i->source,i->duration); klines.erase(i); } while ((qlines.size()) && (current > (qlines.begin()->duration + qlines.begin()->set_time))) { std::vector::iterator i = qlines.begin(); WriteOpers("*** Expiring timed Q-Line %s (set by %s %d seconds ago)",i->nick,i->source,i->duration); qlines.erase(i); } } // applies lines, removing clients and changing nicks etc as applicable void apply_lines(const int What) { char reason[MAXBUF]; char host[MAXBUF]; if ((!glines.size()) && (!klines.size()) && (!zlines.size()) && (!qlines.size()) && (!pglines.size()) && (!pklines.size()) && (!pzlines.size()) && (!pqlines.size())) return; CullList* Goners = new CullList(); char* check = NULL; for (std::vector::const_iterator u2 = local_users.begin(); u2 != local_users.end(); u2++) { userrec* u = (userrec*)(*u2); u->MakeHost(host); if (elines.size() || pelines.size()) { // ignore people matching exempts if (matches_exception(host)) continue; } if ((What & APPLY_GLINES) && (glines.size() || pglines.size())) { if ((check = matches_gline(host))) { snprintf(reason,MAXBUF,"G-Lined: %s",check); Goners->AddItem(u,reason); } } if ((What & APPLY_KLINES) && (klines.size() || pklines.size())) { if ((check = matches_kline(host))) { snprintf(reason,MAXBUF,"K-Lined: %s",check); Goners->AddItem(u,reason); } } if ((What & APPLY_QLINES) && (qlines.size() || pqlines.size())) { if ((check = matches_qline(u->nick))) { snprintf(reason,MAXBUF,"Q-Lined: %s",check); Goners->AddItem(u,reason); } } if ((What & APPLY_ZLINES) && (zlines.size() || pzlines.size())) { if ((check = matches_zline(u->GetIPString()))) { snprintf(reason,MAXBUF,"Z-Lined: %s",check); Goners->AddItem(u,reason); } } } Goners->Apply(); DELETE(Goners); } void stats_k(userrec* user, string_list &results) { std::string sn = Config->ServerName; for (std::vector::iterator i = klines.begin(); i != klines.end(); i++) results.push_back(sn+" 216 "+user->nick+" :"+i->hostmask+" "+ConvToStr(i->set_time)+" "+ConvToStr(i->duration)+" "+i->source+" :"+i->reason); for (std::vector::iterator i = pklines.begin(); i != pklines.end(); i++) results.push_back(sn+" 216 "+user->nick+" :"+i->hostmask+" "+ConvToStr(i->set_time)+" "+ConvToStr(i->duration)+" "+i->source+" :"+i->reason); } void stats_g(userrec* user, string_list &results) { std::string sn = Config->ServerName; for (std::vector::iterator i = glines.begin(); i != glines.end(); i++) results.push_back(sn+" 223 "+user->nick+" :"+i->hostmask+" "+ConvToStr(i->set_time)+" "+ConvToStr(i->duration)+" "+i->source+" :"+i->reason); for (std::vector::iterator i = pglines.begin(); i != pglines.end(); i++) results.push_back(sn+" 223 "+user->nick+" :"+i->hostmask+" "+ConvToStr(i->set_time)+" "+ConvToStr(i->duration)+" "+i->source+" :"+i->reason); } void stats_q(userrec* user, string_list &results) { std::string sn = Config->ServerName; for (std::vector::iterator i = qlines.begin(); i != qlines.end(); i++) results.push_back(sn+" 217 "+user->nick+" :"+i->nick+" "+ConvToStr(i->set_time)+" "+ConvToStr(i->duration)+" "+i->source+" :"+i->reason); for (std::vector::iterator i = pqlines.begin(); i != pqlines.end(); i++) results.push_back(sn+" 217 "+user->nick+" :"+i->nick+" "+ConvToStr(i->set_time)+" "+ConvToStr(i->duration)+" "+i->source+" :"+i->reason); } void stats_z(userrec* user, string_list &results) { std::string sn = Config->ServerName; for (std::vector::iterator i = zlines.begin(); i != zlines.end(); i++) results.push_back(sn+" 223 "+user->nick+" :"+i->ipaddr+" "+ConvToStr(i->set_time)+" "+ConvToStr(i->duration)+" "+i->source+" :"+i->reason); for (std::vector::iterator i = pzlines.begin(); i != pzlines.end(); i++) results.push_back(sn+" 223 "+user->nick+" :"+i->ipaddr+" "+ConvToStr(i->set_time)+" "+ConvToStr(i->duration)+" "+i->source+" :"+i->reason); } void stats_e(userrec* user, string_list &results) { std::string sn = Config->ServerName; for (std::vector::iterator i = elines.begin(); i != elines.end(); i++) results.push_back(sn+" 223 "+user->nick+" :"+i->hostmask+" "+ConvToStr(i->set_time)+" "+ConvToStr(i->duration)+" "+i->source+" :"+i->reason); for (std::vector::iterator i = pelines.begin(); i != pelines.end(); i++) results.push_back(sn+" 223 "+user->nick+" :"+i->hostmask+" "+ConvToStr(i->set_time)+" "+ConvToStr(i->duration)+" "+i->source+" :"+i->reason); }