/* Registered channel functions * * (C) 2003-2011 Anope Team * Contact us at team@anope.org * * Please read COPYING and README for further details. * * Based on the original code of Epona by Lara. * Based on the original code of Services by Andy Church. */ #include "services.h" #include "modules.h" SerializableBase::serialized_data BadWord::serialize() { serialized_data data; data["word"] << this->word; data["type"].setType(Serialize::DT_INT) << this->type; return data; } void BadWord::unserialize(SerializableBase::serialized_data &data) { BadWord *bw = new BadWord(); data["word"] >> bw->word; unsigned int n; data["type"] >> n; bw->type = static_cast(n); } SerializableBase::serialized_data AutoKick::serialize() { serialized_data data; if (this->HasFlag(AK_ISNICK) && this->nc) data["nc"] << this->nc->display; else data["mask"] << this->mask; data["reason"] << this->reason; data["creator"] << this->creator; data["addtime"].setType(Serialize::DT_INT) << this->addtime; data["last_used"].setType(Serialize::DT_INT) << this->last_used; data["flags"] << this->ToString(); return data; } void AutoKick::unserialize(SerializableBase::serialized_data &data) { AutoKick *ak = new AutoKick(); data["mask"] >> ak->mask; ak->nc = findcore(data["nc"].astr()); data["reason"] >> ak->reason; data["creator"] >> ak->creator; data["addtime"] >> ak->addtime; data["last_used"] >> ak->last_used; ak->FromString(data["flags"].astr()); } SerializableBase::serialized_data ModeLock::serialize() { serialized_data data; if (this->ci == NULL) return data; data["ci"] << this->ci->name; data["set"] << this->set; data["name"] << ChannelModeNameStrings[this->name]; data["param"] << this->param; data["setter"] << this->setter; data["created"].setType(Serialize::DT_INT) << this->created; return data; } void ModeLock::unserialize(SerializableBase::serialized_data &data) { ChannelInfo *ci = cs_findchan(data["ci"].astr()); if (ci == NULL) return; ModeLock ml; ml.ci = ci; data["set"] >> ml.set; Anope::string n; data["name"] >> n; for (unsigned i = 0; !ChannelModeNameStrings[i].empty(); ++i) if (n == ChannelModeNameStrings[i]) { ml.name = static_cast(i); break; } data["param"] >> ml.param; data["setter"] >> ml.setter; data["created"] >> ml.created; ci->mode_locks.insert(std::make_pair(ml.name, ml)); } SerializableBase::serialized_data LogSetting::serialize() { serialized_data data; data["service_name"] << service_name; data["command_service"] << command_service; data["command_name"] << command_name; data["method"] << method; data["extra"] << extra; data["creator"] << creator; data["created"].setType(Serialize::DT_INT) << created; return data; } void LogSetting::unserialize(serialized_data &data) { LogSetting ls; data["service_name"] >> ls.service_name; data["command_service"] >> ls.command_service; data["command_name"] >> ls.command_name; data["method"] >> ls.method; data["extra"] >> ls.extra; data["creator"] >> ls.creator; data["created"] >> ls.created; } /** Default constructor * @param chname The channel name */ ChannelInfo::ChannelInfo(const Anope::string &chname) : Flags(ChannelInfoFlagStrings), botflags(BotServFlagStrings) { if (chname.empty()) throw CoreException("Empty channel passed to ChannelInfo constructor"); this->founder = this->successor = NULL; this->last_topic_time = 0; this->c = findchan(chname); if (this->c) this->c->ci = this; this->capsmin = this->capspercent = 0; this->floodlines = this->floodsecs = 0; this->repeattimes = 0; this->bi = NULL; this->name = chname; this->mode_locks = def_mode_locks; size_t t; /* Set default channel flags */ for (t = CI_BEGIN + 1; t != CI_END; ++t) if (Config->CSDefFlags.HasFlag(static_cast(t))) this->SetFlag(static_cast(t)); /* Set default bot flags */ for (t = BS_BEGIN + 1; t != BS_END; ++t) if (Config->BSDefFlags.HasFlag(static_cast(t))) this->botflags.SetFlag(static_cast(t)); this->bantype = Config->CSDefBantype; this->memos.memomax = Config->MSMaxMemos; this->last_used = this->time_registered = Anope::CurTime; for (int i = 0; i < TTB_SIZE; ++i) this->ttb[i] = 0; RegisteredChannelList[this->name] = this; FOREACH_MOD(I_OnCreateChan, OnCreateChan(this)); } /** Copy constructor * @param ci The ChannelInfo to copy settings to */ ChannelInfo::ChannelInfo(ChannelInfo &ci) : Flags(ChannelInfoFlagStrings), botflags(BotServFlagStrings) { *this = ci; if (this->founder) ++this->founder->channelcount; this->access.clear(); this->akick.clear(); this->badwords.clear(); if (this->bi) ++this->bi->chancount; for (int i = 0; i < TTB_SIZE; ++i) this->ttb[i] = ci.ttb[i]; for (unsigned i = 0; i < ci.GetAccessCount(); ++i) { ChanAccess *taccess = ci.GetAccess(i); AccessProvider *provider = taccess->provider; ChanAccess *newaccess = provider->Create(); newaccess->ci = this; newaccess->mask = taccess->mask; newaccess->creator = taccess->creator; newaccess->last_seen = taccess->last_seen; newaccess->created = taccess->created; newaccess->Unserialize(taccess->Serialize()); this->AddAccess(newaccess); } for (unsigned i = 0; i < ci.GetAkickCount(); ++i) { AutoKick *takick = ci.GetAkick(i); if (takick->HasFlag(AK_ISNICK)) this->AddAkick(takick->creator, takick->nc, takick->reason, takick->addtime, takick->last_used); else this->AddAkick(takick->creator, takick->mask, takick->reason, takick->addtime, takick->last_used); } for (unsigned i = 0; i < ci.GetBadWordCount(); ++i) { BadWord *bw = ci.GetBadWord(i); this->AddBadWord(bw->word, bw->type); } } /** Default destructor, cleans up the channel complete and removes it from the internal list */ ChannelInfo::~ChannelInfo() { unsigned i, end; FOREACH_MOD(I_OnDelChan, OnDelChan(this)); Log(LOG_DEBUG) << "Deleting channel " << this->name; if (this->c) { if (this->bi && this->c->FindUser(this->bi)) this->bi->Part(this->c); this->c->ci = NULL; } RegisteredChannelList.erase(this->name); this->ClearAccess(); this->ClearAkick(); this->ClearBadWords(); if (!this->memos.memos.empty()) { for (i = 0, end = this->memos.memos.size(); i < end; ++i) delete this->memos.memos[i]; this->memos.memos.clear(); } if (this->founder) --this->founder->channelcount; } SerializableBase::serialized_data ChannelInfo::serialize() { serialized_data data; data["name"].setKey().setMax(255) << this->name; if (this->founder) data["founder"] << this->founder->display; if (this->successor) data["successor"] << this->successor->display; data["description"] << this->desc; data["time_registered"].setType(Serialize::DT_INT) << this->time_registered; data["last_used"].setType(Serialize::DT_INT) << this->last_used; data["last_topic"] << this->last_topic; data["last_topic_setter"] << this->last_topic_setter; data["last_topic_time"].setType(Serialize::DT_INT) << this->last_topic_time; data["bantype"].setType(Serialize::DT_INT) << this->bantype; data["flags"] << this->ToString(); data["botflags"] << this->botflags.ToString(); { Anope::string levels_buffer; for (std::map::iterator it = this->levels.begin(), it_end = this->levels.end(); it != it_end; ++it) levels_buffer += it->first + " " + stringify(it->second) + " "; data["levels"] << levels_buffer; } if (this->bi) data["bi"] << this->bi->nick; for (int i = 0; i < TTB_SIZE; ++i) data["ttb"] << this->ttb[i] << " "; data["capsmin"].setType(Serialize::DT_INT) << this->capsmin; data["capspercent"].setType(Serialize::DT_INT) << this->capspercent; data["floodlines"].setType(Serialize::DT_INT) << this->floodlines; data["floodsecs"].setType(Serialize::DT_INT) << this->floodsecs; data["repeattimes"].setType(Serialize::DT_INT) << this->repeattimes; data["memomax"] << this->memos.memomax; for (unsigned i = 0; i < this->memos.ignores.size(); ++i) data["memoignores"] << this->memos.ignores[i] << " "; return data; } void ChannelInfo::unserialize(SerializableBase::serialized_data &data) { ChannelInfo *ci = new ChannelInfo(data["name"].astr()); if (data.count("founder") > 0) ci->founder = findcore(data["founder"].astr()); if (data.count("successor") > 0) ci->successor = findcore(data["successor"].astr()); data["description"] >> ci->desc; data["time_registered"] >> ci->time_registered; data["last_used"] >> ci->last_used; data["last_topic"] >> ci->last_topic; data["last_topic_setter"] >> ci->last_topic_setter; data["last_topic_time"] >> ci->last_topic_time; data["bantype"] >> ci->bantype; ci->FromString(data["flags"].astr()); ci->botflags.FromString(data["botflags"].astr()); { std::vector v = BuildStringVector(data["levels"].astr()); for (unsigned i = 0; i + 1 < v.size(); i += 2) ci->levels[v[i]] = convertTo(v[i + 1]); } if (data.count("bi") > 0) ci->bi = findbot(data["bi"].astr()); data["capsmin"] >> ci->capsmin; data["capspercent"] >> ci->capspercent; data["floodlines"] >> ci->floodlines; data["floodsecs"] >> ci->floodsecs; data["repeattimes"] >> ci->repeattimes; data["memomax"] >> ci->memos.memomax; { Anope::string buf; data["memoignores"] >> buf; spacesepstream sep(buf); while (sep.GetToken(buf)) ci->memos.ignores.push_back(buf); } } /** Change the founder of the channek * @params nc The new founder */ void ChannelInfo::SetFounder(NickCore *nc) { if (this->founder) --this->founder->channelcount; this->founder = nc; if (this->founder) ++this->founder->channelcount; if (this->founder == this->successor) this->successor = NULL; } /** Get the founder of the channel * @return The founder */ NickCore *ChannelInfo::GetFounder() const { return this->founder; } /** Find which bot should send mode/topic/etc changes for this channel * @return The bot */ BotInfo *ChannelInfo::WhoSends() { if (this && this->bi) return this->bi; BotInfo *tbi = findbot(Config->ChanServ); if (tbi) return tbi; else if (!BotListByNick.empty()) return BotListByNick.begin()->second; return NULL; } /** Add an entry to the channel access list * @param taccess The entry */ void ChannelInfo::AddAccess(ChanAccess *taccess) { this->access.push_back(taccess); } /** Get an entry from the channel access list by index * * @param index The index in the access list vector * @return A ChanAccess struct corresponding to the index given, or NULL if outside the bounds * * Retrieves an entry from the access list that matches the given index. */ ChanAccess *ChannelInfo::GetAccess(unsigned index) { if (this->access.empty() || index >= this->access.size()) return NULL; return this->access[index]; } AccessGroup ChannelInfo::AccessFor(User *u) { AccessGroup group; if (u == NULL) return group; NickCore *nc = u->Account(); if (nc == NULL && u->IsRecognized()) { NickAlias *na = findnick(u->nick); if (na != NULL) nc = na->nc; } group.SuperAdmin = u->SuperAdmin; group.Founder = IsFounder(u, this); group.ci = this; group.nc = nc; for (unsigned i = 0, end = this->access.size(); i < end; ++i) if (this->access[i]->Matches(u, nc)) group.push_back(this->access[i]); if (!group.empty()) this->last_used = Anope::CurTime; return group; } AccessGroup ChannelInfo::AccessFor(NickCore *nc) { AccessGroup group; group.Founder = (this->founder && this->founder == nc); group.ci = this; group.nc = nc; for (unsigned i = 0, end = this->access.size(); i < end; ++i) if (this->access[i]->Matches(NULL, nc)) group.push_back(this->access[i]); return group; } /** Get the size of the accss vector for this channel * @return The access vector size */ unsigned ChannelInfo::GetAccessCount() const { return this->access.size(); } /** Erase an entry from the channel access list * * @param index The index in the access list vector * * Clears the memory used by the given access entry and removes it from the vector. */ void ChannelInfo::EraseAccess(unsigned index) { if (this->access.empty() || index >= this->access.size()) return; delete this->access[index]; this->access.erase(this->access.begin() + index); } /** Erase an entry from the channel access list * * @param taccess The access to remove * * Clears the memory used by the given access entry and removes it from the vector. */ void ChannelInfo::EraseAccess(ChanAccess *taccess) { for (unsigned i = 0, end = this->access.size(); i < end; ++i) { if (this->access[i] == taccess) { delete this->access[i]; this->access.erase(this->access.begin() + i); break; } } } /** Clear the entire channel access list * * Clears the entire access list by deleting every item and then clearing the vector. */ void ChannelInfo::ClearAccess() { for (unsigned i = this->access.size(); i > 0; --i) delete this->access[i - 1]; this->access.clear(); } /** Add an akick entry to the channel by NickCore * @param user The user who added the akick * @param akicknc The nickcore being akicked * @param reason The reason for the akick * @param t The time the akick was added, defaults to now * @param lu The time the akick was last used, defaults to never * @return The AutoKick structure */ AutoKick *ChannelInfo::AddAkick(const Anope::string &user, NickCore *akicknc, const Anope::string &reason, time_t t, time_t lu) { if (!akicknc) return NULL; AutoKick *autokick = new AutoKick(); autokick->SetFlag(AK_ISNICK); autokick->nc = akicknc; autokick->reason = reason; autokick->creator = user; autokick->addtime = t; autokick->last_used = lu; this->akick.push_back(autokick); return autokick; } /** Add an akick entry to the channel by reason * @param user The user who added the akick * @param mask The mask of the akick * @param reason The reason for the akick * @param t The time the akick was added, defaults to now * @param lu The time the akick was last used, defaults to never * @return The AutoKick structure */ AutoKick *ChannelInfo::AddAkick(const Anope::string &user, const Anope::string &mask, const Anope::string &reason, time_t t, time_t lu) { AutoKick *autokick = new AutoKick(); autokick->mask = mask; autokick->nc = NULL; autokick->reason = reason; autokick->creator = user; autokick->addtime = t; autokick->last_used = lu; this->akick.push_back(autokick); return autokick; } /** Get an entry from the channel akick list * @param index The index in the akick vector * @return The akick structure, or NULL if not found */ AutoKick *ChannelInfo::GetAkick(unsigned index) { if (this->akick.empty() || index >= this->akick.size()) return NULL; return this->akick[index]; } /** Get the size of the akick vector for this channel * @return The akick vector size */ unsigned ChannelInfo::GetAkickCount() const { return this->akick.empty() ? 0 : this->akick.size(); } /** Erase an entry from the channel akick list * @param index The index of the akick */ void ChannelInfo::EraseAkick(unsigned index) { if (this->akick.empty() || index >= this->akick.size()) return; delete this->akick[index]; this->akick.erase(this->akick.begin() + index); } /** Clear the whole akick list */ void ChannelInfo::ClearAkick() { while (!this->akick.empty()) EraseAkick(0); } /** Add a badword to the badword list * @param word The badword * @param type The type (SINGLE START END) * @return The badword */ BadWord *ChannelInfo::AddBadWord(const Anope::string &word, BadWordType type) { BadWord *bw = new BadWord; bw->word = word; bw->type = type; this->badwords.push_back(bw); FOREACH_MOD(I_OnBadWordAdd, OnBadWordAdd(this, bw)); return bw; } /** Get a badword structure by index * @param index The index * @return The badword */ BadWord *ChannelInfo::GetBadWord(unsigned index) { if (this->badwords.empty() || index >= this->badwords.size()) return NULL; return this->badwords[index]; } /** Get how many badwords are on this channel * @return The number of badwords in the vector */ unsigned ChannelInfo::GetBadWordCount() const { return this->badwords.empty() ? 0 : this->badwords.size(); } /** Remove a badword * @param index The index of the badword */ void ChannelInfo::EraseBadWord(unsigned index) { if (this->badwords.empty() || index >= this->badwords.size()) return; delete this->badwords[index]; this->badwords.erase(this->badwords.begin() + index); } /** Clear all badwords from the channel */ void ChannelInfo::ClearBadWords() { while (!this->badwords.empty()) EraseBadWord(0); } /** Check if a mode is mlocked * @param mode The mode * @param status True to check mlock on, false for mlock off * @return true on success, false on fail */ bool ChannelInfo::HasMLock(ChannelMode *mode, const Anope::string ¶m, bool status) const { std::multimap::const_iterator it = this->mode_locks.find(mode->Name); if (it != this->mode_locks.end()) { if (mode->Type != MODE_REGULAR) { std::multimap::const_iterator it_end = this->mode_locks.upper_bound(mode->Name); for (; it != it_end; ++it) { const ModeLock &ml = it->second; if (ml.param == param) return true; } } else return it->second.set == status; } return false; } /** Set a mlock * @param mode The mode * @param status True for mlock on, false for mlock off * @param param The param to use for this mode, if required * @return true on success, false on failure (module blocking) */ bool ChannelInfo::SetMLock(ChannelMode *mode, bool status, const Anope::string ¶m, Anope::string setter, time_t created) { if (setter.empty()) setter = this->founder ? this->founder->display : "Unknown"; std::pair ml = std::make_pair(mode->Name, ModeLock(this, status, mode->Name, param, setter, created)); EventReturn MOD_RESULT; FOREACH_RESULT(I_OnMLock, OnMLock(this, &ml.second)); if (MOD_RESULT == EVENT_STOP) return false; /* First, remove this */ if (mode->Type == MODE_REGULAR || mode->Type == MODE_PARAM) this->mode_locks.erase(mode->Name); else { // For list or status modes, we must check the parameter std::multimap::iterator it = this->mode_locks.find(mode->Name); if (it != this->mode_locks.end()) { std::multimap::iterator it_end = this->mode_locks.upper_bound(mode->Name); for (; it != it_end; ++it) { const ModeLock &modelock = it->second; if (modelock.param == param) { this->mode_locks.erase(it); break; } } } } this->mode_locks.insert(ml); return true; } /** Remove a mlock * @param mode The mode * @param param The param of the mode, required if it is a list or status mode * @return true on success, false on failure */ bool ChannelInfo::RemoveMLock(ChannelMode *mode, const Anope::string ¶m) { if (mode->Type == MODE_REGULAR || mode->Type == MODE_PARAM) { std::multimap::iterator it = this->mode_locks.find(mode->Name), it_end = this->mode_locks.upper_bound(mode->Name), it_next = it; if (it != this->mode_locks.end()) for (; it != it_end; it = it_next) { ++it_next; EventReturn MOD_RESULT; FOREACH_RESULT(I_OnUnMLock, OnUnMLock(this, &it->second)); if (MOD_RESULT != EVENT_STOP) this->mode_locks.erase(it); } return true; } else { // For list or status modes, we must check the parameter std::multimap::iterator it = this->mode_locks.find(mode->Name); if (it != this->mode_locks.end()) { std::multimap::iterator it_end = this->mode_locks.upper_bound(mode->Name); for (; it != it_end; ++it) { const ModeLock &ml = it->second; if (ml.param == param) { EventReturn MOD_RESULT; FOREACH_RESULT(I_OnUnMLock, OnUnMLock(this, &it->second)); if (MOD_RESULT == EVENT_STOP) return false; this->mode_locks.erase(it); return true; } } } return false; } } /** Clear all mlocks on the channel */ void ChannelInfo::ClearMLock() { this->mode_locks.clear(); } /** Get all of the mlocks for this channel * @return The mlocks */ const std::multimap &ChannelInfo::GetMLock() const { return this->mode_locks; } /** Get a list of modes on a channel * @param Name The mode name to get a list of * @return a pair of iterators for the beginning and end of the list */ std::pair ChannelInfo::GetModeList(ChannelModeName Name) { std::multimap::iterator it = this->mode_locks.find(Name), it_end = it; if (it != this->mode_locks.end()) it_end = this->mode_locks.upper_bound(Name); return std::make_pair(it, it_end); } /** Get details for a specific mlock * @param mname The mode name * @param param An optional param to match with * @return The MLock, if any */ ModeLock *ChannelInfo::GetMLock(ChannelModeName mname, const Anope::string ¶m) { std::multimap::iterator it = this->mode_locks.find(mname); if (it != this->mode_locks.end()) { if (param.empty()) return &it->second; else { std::multimap::iterator it_end = this->mode_locks.upper_bound(mname); for (; it != it_end; ++it) { if (Anope::Match(param, it->second.param)) return &it->second; } } } return NULL; } Anope::string ChannelInfo::GetMLockAsString(bool complete) const { Anope::string pos = "+", neg = "-", params; for (std::multimap::const_iterator it = this->GetMLock().begin(), it_end = this->GetMLock().end(); it != it_end; ++it) { const ModeLock &ml = it->second; ChannelMode *cm = ModeManager::FindChannelModeByName(ml.name); if (!cm || cm->Type == MODE_LIST || cm->Type == MODE_STATUS) continue; if (ml.set) pos += cm->ModeChar; else neg += cm->ModeChar; if (complete && !ml.param.empty() && cm->Type == MODE_PARAM) params += " " + ml.param; } if (pos.length() == 1) pos.clear(); if (neg.length() == 1) neg.clear(); return pos + neg + params; } /** Check whether a user is permitted to be on this channel * @param u The user * @return true if they were banned, false if they are allowed */ bool ChannelInfo::CheckKick(User *user) { if (!user || !this->c) return false; if (user->SuperAdmin) return false; /* We don't enforce services restrictions on clients on ulined services * as this will likely lead to kick/rejoin floods. ~ Viper */ if (user->server->IsULined()) return false; if (user->IsProtected()) return false; bool set_modes = false, do_kick = false; EventReturn MOD_RESULT; FOREACH_RESULT(I_OnCheckKick, OnCheckKick(user, this, do_kick)); if (MOD_RESULT == EVENT_ALLOW) return false; Anope::string mask, reason; if (!user->HasMode(UMODE_OPER) && this->HasFlag(CI_SUSPENDED)) { get_idealban(this, user, mask); reason = translate(user, _("This channel may not be used.")); set_modes = true; do_kick = true; } if (!do_kick && matches_list(this->c, user, CMODE_EXCEPT)) return false; const NickCore *nc = user->Account() || user->IsRecognized() ? user->Account() : NULL; if (!do_kick) { for (unsigned j = 0, end = this->GetAkickCount(); j < end; ++j) { AutoKick *autokick = this->GetAkick(j); if (autokick->HasFlag(AK_ISNICK)) { if (autokick->nc == nc) do_kick = true; } else { Entry akick_mask(CMODE_BEGIN, autokick->mask); if (akick_mask.Matches(user)) do_kick = true; } if (do_kick) { Log(LOG_DEBUG_2) << user->nick << " matched akick " << (autokick->HasFlag(AK_ISNICK) ? autokick->nc->display : autokick->mask); autokick->last_used = Anope::CurTime; if (autokick->HasFlag(AK_ISNICK)) get_idealban(this, user, mask); else mask = autokick->mask; reason = autokick->reason.empty() ? Config->CSAutokickReason : autokick->reason; break; } } } if (!do_kick && this->HasFlag(CI_RESTRICTED) && this->AccessFor(user).empty() && (!this->founder || user->Account() != this->founder)) { do_kick = true; get_idealban(this, user, mask); reason = translate(user->Account(), CHAN_NOT_ALLOWED_TO_JOIN); } if (!do_kick) return false; Log(LOG_DEBUG) << "Autokicking "<< user->GetMask() << " from " << this->name; /* If the channel isn't syncing and doesn't have any users, join ChanServ * Note that the user AND POSSIBLY the botserv bot exist here * ChanServ always enforces channels like this to keep people from deleting bots etc * that are holding channels. */ if (this->c->users.size() == (this->bi && this->c->FindUser(this->bi) ? 2 : 1) && !this->c->HasFlag(CH_INHABIT) && !this->c->HasFlag(CH_SYNCING)) { /* Set +si to prevent rejoin */ if (set_modes) { c->SetMode(NULL, CMODE_NOEXTERNAL); c->SetMode(NULL, CMODE_TOPIC); c->SetMode(NULL, CMODE_SECRET); c->SetMode(NULL, CMODE_INVITE); } /* Join ChanServ and set a timer for this channel to part ChanServ later */ new ChanServTimer(this->c); } this->c->SetMode(NULL, CMODE_BAN, mask); this->c->Kick(NULL, user, "%s", reason.c_str()); return true; } void ChannelInfo::CheckTopic() { if (!this->c) return; /* We only compare the topics here, not the time or setter. This is because some (old) IRCds do not * allow us to set the topic as someone else, meaning we have to bump the TS and change the setter to us. * This desyncs what is really set with what we have stored, and we end up resetting the topic often when * it is not required */ if (this->HasFlag(CI_TOPICLOCK) && this->last_topic != this->c->topic) { this->c->ChangeTopic(this->last_topic_setter, this->last_topic, this->last_topic_time); } else { this->last_topic = this->c->topic; this->last_topic_setter = this->c->topic_setter; this->last_topic_time = this->c->topic_time; } } void ChannelInfo::RestoreTopic() { if (!this->c) return; if ((this->HasFlag(CI_KEEPTOPIC) || this->HasFlag(CI_TOPICLOCK)) && this->last_topic != this->c->topic) { this->c->ChangeTopic(!this->last_topic_setter.empty() ? this->last_topic_setter : this->WhoSends()->nick, this->last_topic, this->last_topic_time ? this->last_topic_time : Anope::CurTime); } } int16_t ChannelInfo::GetLevel(const Anope::string &priv) { if (PrivilegeManager::FindPrivilege(priv) == NULL) throw CoreException("Unknown privilege " + priv); if (this->levels.count(priv) == 0) this->levels[priv] = 0; return this->levels[priv]; } void ChannelInfo::SetLevel(const Anope::string &priv, int16_t level) { this->levels[priv] = level; } void ChannelInfo::RemoveLevel(const Anope::string &priv) { this->levels.erase(priv); } void ChannelInfo::ClearLevels() { this->levels.clear(); }