/* +------------------------------------+ * | 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. * * --------------------------------------------------- */ /* $Core: libIRCDusers */ #include "inspircd.h" #include #include "socketengine.h" #include "wildcard.h" #include "xline.h" #include "bancache.h" #include "commands/cmd_whowas.h" /* XXX: Used for speeding up WriteCommon operations */ unsigned long uniq_id = 1; static unsigned long* already_sent = NULL; void InitializeAlreadySent(SocketEngine* SE) { already_sent = new unsigned long[SE->GetMaxFds()]; memset(already_sent, 0, SE->GetMaxFds() * sizeof(unsigned long)); } std::string User::ProcessNoticeMasks(const char *sm) { bool adding = true, oldadding = false; const char *c = sm; std::string output; while (c && *c) { switch (*c) { case '+': adding = true; break; case '-': adding = false; break; case '*': for (unsigned char d = 'A'; d <= 'z'; d++) { if (ServerInstance->SNO->IsEnabled(d)) { if ((!IsNoticeMaskSet(d) && adding) || (IsNoticeMaskSet(d) && !adding)) { if ((oldadding != adding) || (!output.length())) output += (adding ? '+' : '-'); this->SetNoticeMask(d, adding); output += d; } } oldadding = adding; } break; default: if ((*c >= 'A') && (*c <= 'z') && (ServerInstance->SNO->IsEnabled(*c))) { if ((!IsNoticeMaskSet(*c) && adding) || (IsNoticeMaskSet(*c) && !adding)) { if ((oldadding != adding) || (!output.length())) output += (adding ? '+' : '-'); this->SetNoticeMask(*c, adding); output += *c; } } else this->WriteNumeric(ERR_UNKNOWNSNOMASK, "%s %c :is unknown snomask char to me", this->nick.c_str(), *c); oldadding = adding; break; } *c++; } return output; } void User::StartDNSLookup() { try { bool cached; const char* sip = this->GetIPString(false); /* Special case for 4in6 (Have i mentioned i HATE 4in6?) */ if (!strncmp(sip, "0::ffff:", 8)) res_reverse = new UserResolver(this->ServerInstance, this, sip + 8, DNS_QUERY_PTR4, cached); else res_reverse = new UserResolver(this->ServerInstance, this, sip, this->GetProtocolFamily() == AF_INET ? DNS_QUERY_PTR4 : DNS_QUERY_PTR6, cached); this->ServerInstance->AddResolver(res_reverse, cached); } catch (CoreException& e) { ServerInstance->Logs->Log("USERS", DEBUG,"Error in resolver: %s",e.GetReason()); } } bool User::IsNoticeMaskSet(unsigned char sm) { return (snomasks[sm-65]); } void User::SetNoticeMask(unsigned char sm, bool value) { snomasks[sm-65] = value; } const char* User::FormatNoticeMasks() { static char data[MAXBUF]; int offset = 0; for (int n = 0; n < 64; n++) { if (snomasks[n]) data[offset++] = n+65; } data[offset] = 0; return data; } bool User::IsModeSet(unsigned char m) { return (modes[m-65]); } void User::SetMode(unsigned char m, bool value) { modes[m-65] = value; } const char* User::FormatModes() { static char data[MAXBUF]; int offset = 0; for (int n = 0; n < 64; n++) { if (modes[n]) data[offset++] = n+65; } data[offset] = 0; return data; } void User::DecrementModes() { ServerInstance->Logs->Log("USERS", DEBUG, "DecrementModes()"); for (unsigned char n = 'A'; n <= 'z'; n++) { if (modes[n-65]) { ServerInstance->Logs->Log("USERS", DEBUG,"DecrementModes() found mode %c", n); ModeHandler* mh = ServerInstance->Modes->FindMode(n, MODETYPE_USER); if (mh) { ServerInstance->Logs->Log("USERS", DEBUG,"Found handler %c and call ChangeCount", n); mh->ChangeCount(-1); } } } } User::User(InspIRCd* Instance, const std::string &uid) : ServerInstance(Instance) { server = (char*)Instance->FindServerNamePtr(Instance->Config->ServerName); reset_due = ServerInstance->Time(); age = ServerInstance->Time(); Penalty = 0; lines_in = lastping = signon = idle_lastmsg = nping = registered = 0; bytes_in = bytes_out = cmds_in = cmds_out = 0; quietquit = OverPenalty = ExemptFromPenalty = quitting = exempt = haspassed = dns_done = false; fd = -1; recvq.clear(); sendq.clear(); res_forward = res_reverse = NULL; Visibility = NULL; ip = NULL; MyClass = NULL; io = NULL; AllowedUserModes = NULL; AllowedChanModes = NULL; AllowedOperCommands = NULL; chans.clear(); invites.clear(); if (uid.empty()) uuid.assign(Instance->GetUID(), 0, UUID_LENGTH - 1); else uuid.assign(uid, 0, UUID_LENGTH - 1); ServerInstance->Logs->Log("USERS", DEBUG,"New UUID for user: %s (%s)", uuid.c_str(), uid.empty() ? "allocated new" : "used remote"); user_hash::iterator finduuid = Instance->Users->uuidlist->find(uuid); if (finduuid == Instance->Users->uuidlist->end()) (*Instance->Users->uuidlist)[uuid] = this; else throw CoreException("Duplicate UUID "+std::string(uuid)+" in User constructor"); } User::~User() { /* NULL for remote users :) */ if (this->MyClass) { this->MyClass->RefCount--; ServerInstance->Logs->Log("USERS", DEBUG, "User destructor -- connect refcount now: %lu", this->MyClass->RefCount); } if (this->AllowedOperCommands) { delete AllowedOperCommands; AllowedOperCommands = NULL; } if (this->AllowedUserModes) { delete[] AllowedUserModes; AllowedUserModes = NULL; } if (this->AllowedChanModes) { delete[] AllowedChanModes; AllowedChanModes = NULL; } this->InvalidateCache(); this->DecrementModes(); if (ip) { ServerInstance->Users->RemoveCloneCounts(this); if (this->GetProtocolFamily() == AF_INET) { delete (sockaddr_in*)ip; } #ifdef SUPPORT_IP6LINKS else { delete (sockaddr_in6*)ip; } #endif } ServerInstance->Users->uuidlist->erase(uuid); } const std::string& User::MakeHost() { if (!this->cached_makehost.empty()) return this->cached_makehost; char nhost[MAXBUF]; /* This is much faster than snprintf */ char* t = nhost; for(const char* n = ident.c_str(); *n; n++) *t++ = *n; *t++ = '@'; for(const char* n = host.c_str(); *n; n++) *t++ = *n; *t = 0; this->cached_makehost.assign(nhost); return this->cached_makehost; } const std::string& User::MakeHostIP() { if (!this->cached_hostip.empty()) return this->cached_hostip; char ihost[MAXBUF]; /* This is much faster than snprintf */ char* t = ihost; for(const char* n = ident.c_str(); *n; n++) *t++ = *n; *t++ = '@'; for(const char* n = this->GetIPString(); *n; n++) *t++ = *n; *t = 0; this->cached_hostip = ihost; return this->cached_hostip; } void User::CloseSocket() { if (this->fd > -1) { ServerInstance->SE->Shutdown(this, 2); ServerInstance->SE->Close(this); } } const std::string& User::GetFullHost() { if (!this->cached_fullhost.empty()) return this->cached_fullhost; char result[MAXBUF]; char* t = result; for(const char* n = nick.c_str(); *n; n++) *t++ = *n; *t++ = '!'; for(const char* n = ident.c_str(); *n; n++) *t++ = *n; *t++ = '@'; for(const char* n = dhost.c_str(); *n; n++) *t++ = *n; *t = 0; this->cached_fullhost = result; return this->cached_fullhost; } char* User::MakeWildHost() { static char nresult[MAXBUF]; char* t = nresult; *t++ = '*'; *t++ = '!'; *t++ = '*'; *t++ = '@'; for(const char* n = dhost.c_str(); *n; n++) *t++ = *n; *t = 0; return nresult; } int User::ReadData(void* buffer, size_t size) { if (IS_LOCAL(this)) { #ifndef WIN32 return read(this->fd, buffer, size); #else return recv(this->fd, (char*)buffer, size, 0); #endif } else return 0; } const std::string& User::GetFullRealHost() { if (!this->cached_fullrealhost.empty()) return this->cached_fullrealhost; char fresult[MAXBUF]; char* t = fresult; for(const char* n = nick.c_str(); *n; n++) *t++ = *n; *t++ = '!'; for(const char* n = ident.c_str(); *n; n++) *t++ = *n; *t++ = '@'; for(const char* n = host.c_str(); *n; n++) *t++ = *n; *t = 0; this->cached_fullrealhost = fresult; return this->cached_fullrealhost; } bool User::IsInvited(const irc::string &channel) { time_t now = time(NULL); InvitedList::iterator safei; for (InvitedList::iterator i = invites.begin(); i != invites.end(); ++i) { if (channel == i->first) { if (i->second != 0 && now > i->second) { /* Expired invite, remove it. */ safei = i; --i; invites.erase(safei); continue; } return true; } } return false; } InvitedList* User::GetInviteList() { time_t now = time(NULL); /* Weed out expired invites here. */ InvitedList::iterator safei; for (InvitedList::iterator i = invites.begin(); i != invites.end(); ++i) { if (i->second != 0 && now > i->second) { /* Expired invite, remove it. */ safei = i; --i; invites.erase(safei); } } return &invites; } void User::InviteTo(const irc::string &channel, time_t invtimeout) { time_t now = time(NULL); if (invtimeout != 0 && now > invtimeout) return; /* Don't add invites that are expired from the get-go. */ for (InvitedList::iterator i = invites.begin(); i != invites.end(); ++i) { if (channel == i->first) { if (i->second != 0 && invtimeout > i->second) { i->second = invtimeout; } } } invites.push_back(std::make_pair(channel, invtimeout)); } void User::RemoveInvite(const irc::string &channel) { for (InvitedList::iterator i = invites.begin(); i != invites.end(); i++) { if (channel == i->first) { invites.erase(i); return; } } } bool User::HasModePermission(unsigned char mode, ModeType type) { if (!IS_LOCAL(this)) return true; if (!IS_OPER(this)) return false; if (!AllowedUserModes || !AllowedChanModes) return false; return ((type == MODETYPE_USER ? AllowedUserModes : AllowedChanModes))[(mode - 'A')]; } bool User::HasPermission(const std::string &command) { /* * 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. */ if (!IS_LOCAL(this)) return true; // are they even an oper at all? if (!IS_OPER(this)) { return false; } if (!AllowedOperCommands) return false; if (AllowedOperCommands->find(command) != AllowedOperCommands->end()) return true; else if (AllowedOperCommands->find("*") != AllowedOperCommands->end()) return true; return false; } bool User::AddBuffer(const std::string &a) { std::string::size_type start = 0; std::string::size_type i = a.find('\r'); /* * The old implementation here took a copy, and rfind() on \r, removing as it found them, before * copying a second time onto the recvq. That's ok, but involves three copies minimum (recv() to buffer, * buffer to here, here to recvq) - The new method now copies twice (recv() to buffer, buffer to recvq). * * We use find() instead of rfind() for clarity, however unlike the old code, our scanning of the string is * contiguous: as we specify a startpoint, we never see characters we have scanned previously, making this * marginally faster in cases with a number of \r hidden early on in the buffer. * * How it works: * Start at first pos of string, find first \r, append everything in the chunk (excluding \r) to recvq. Set * i ahead of the \r, search for next \r, add next chunk to buffer... repeat. * -- w00t (7 may, 2008) */ if (i == std::string::npos) { // no \r that we need to dance around, just add to buffer recvq.append(a); } else { // While we can find the end of a chunk to add while (i != std::string::npos) { // Append the chunk that we have recvq.append(a, start, (i - start)); // Start looking for the next one start = i + 1; i = a.find('\r', start); } if (start != a.length()) { /* * This is here to catch a corner case when we get something like: * NICK w0 * 0t\r\nU * SER ... * in successive calls to us. * * Without this conditional, the 'U' on the second case will be dropped, * which is most *certainly* not the behaviour we want! * -- w00t */ recvq.append(a, start, (a.length() - start)); } } if (this->MyClass && (recvq.length() > this->MyClass->GetRecvqMax())) { ServerInstance->Users->QuitUser(this, "RecvQ exceeded"); ServerInstance->SNO->WriteToSnoMask('A', "User %s RecvQ of %lu exceeds connect class maximum of %lu",this->nick.c_str(),(unsigned long int)recvq.length(),this->MyClass->GetRecvqMax()); return false; } return true; } bool User::BufferIsReady() { return (recvq.find('\n') != std::string::npos); } void User::ClearBuffer() { recvq.clear(); } std::string User::GetBuffer() { try { if (recvq.empty()) return ""; /* Strip any leading \r or \n off the string. * Usually there are only one or two of these, * so its is computationally cheap to do. */ std::string::iterator t = recvq.begin(); while (t != recvq.end() && (*t == '\r' || *t == '\n')) { recvq.erase(t); t = recvq.begin(); } for (std::string::iterator x = recvq.begin(); x != recvq.end(); x++) { /* Find the first complete line, return it as the * result, and leave the recvq as whats left */ if (*x == '\n') { std::string ret = std::string(recvq.begin(), x); recvq.erase(recvq.begin(), x + 1); return ret; } } return ""; } catch (...) { ServerInstance->Logs->Log("USERS", DEBUG,"Exception in User::GetBuffer()"); return ""; } } void User::AddWriteBuf(const std::string &data) { if (this->quitting) return; if (this->MyClass && (sendq.length() + data.length() > this->MyClass->GetSendqMax())) { /* * Fix by brain - Set the error text BEFORE calling, because * if we dont it'll recursively call here over and over again trying * to repeatedly add the text to the sendq! */ ServerInstance->Users->QuitUser(this, "SendQ exceeded"); ServerInstance->SNO->WriteToSnoMask('A', "User %s SendQ of %lu exceeds connect class maximum of %lu",this->nick.c_str(),(unsigned long int)sendq.length() + data.length(),this->MyClass->GetSendqMax()); return; } if (data.length() > MAXBUF - 2) /* MAXBUF has a value of 514, to account for line terminators */ sendq.append(data.substr(0,MAXBUF - 4)).append("\r\n"); /* MAXBUF-4 = 510 */ else sendq.append(data); } // send AS MUCH OF THE USERS SENDQ as we are able to (might not be all of it) void User::FlushWriteBuf() { if (this->fd == FD_MAGIC_NUMBER) { sendq.clear(); return; } if ((sendq.length()) && (this->fd != FD_MAGIC_NUMBER)) { int old_sendq_length = sendq.length(); int n_sent = ServerInstance->SE->Send(this, this->sendq.data(), this->sendq.length(), 0); if (n_sent == -1) { if (errno == EAGAIN) { /* The socket buffer is full. This isnt fatal, * try again later. */ ServerInstance->SE->WantWrite(this); } else { /* Fatal error, set write error and bail */ ServerInstance->Users->QuitUser(this, errno ? strerror(errno) : "Write error"); return; } } else { /* advance the queue */ if (n_sent) this->sendq = this->sendq.substr(n_sent); /* update the user's stats counters */ this->bytes_out += n_sent; this->cmds_out++; if (n_sent != old_sendq_length) this->ServerInstance->SE->WantWrite(this); } } /* note: NOT else if! */ if (this->sendq.empty()) { FOREACH_MOD(I_OnBufferFlushed,OnBufferFlushed(this)); } } void User::Oper(const std::string &opertype, const std::string &opername) { char* mycmd; char* savept; char* savept2; try { this->modes[UM_OPERATOR] = 1; this->WriteServ("MODE %s :+o", this->nick.c_str()); FOREACH_MOD(I_OnOper, OnOper(this, opertype)); ServerInstance->Logs->Log("OPER", DEFAULT, "%s!%s@%s opered as type: %s", this->nick.c_str(), this->ident.c_str(), this->host.c_str(), opertype.c_str()); this->oper.assign(opertype, 0, 512); ServerInstance->Users->all_opers.push_back(this); opertype_t::iterator iter_opertype = ServerInstance->Config->opertypes.find(this->oper.c_str()); if (iter_opertype != ServerInstance->Config->opertypes.end()) { if (AllowedOperCommands) AllowedOperCommands->clear(); else AllowedOperCommands = new std::map; if (!AllowedChanModes) AllowedChanModes = new bool[64]; if (!AllowedUserModes) AllowedUserModes = new bool[64]; memset(AllowedUserModes, 0, 64); memset(AllowedChanModes, 0, 64); char* Classes = strdup(iter_opertype->second); char* myclass = strtok_r(Classes," ",&savept); while (myclass) { operclass_t::iterator iter_operclass = ServerInstance->Config->operclass.find(myclass); if (iter_operclass != ServerInstance->Config->operclass.end()) { char* CommandList = strdup(iter_operclass->second.commandlist); mycmd = strtok_r(CommandList," ",&savept2); while (mycmd) { this->AllowedOperCommands->insert(std::make_pair(mycmd, true)); mycmd = strtok_r(NULL," ",&savept2); } free(CommandList); this->AllowedUserModes['o' - 'A'] = true; // Call me paranoid if you want. for (unsigned char* c = (unsigned char*)iter_operclass->second.umodelist; *c; ++c) { if (*c == '*') { memset(this->AllowedUserModes, (int)(true), 64); } else { this->AllowedUserModes[*c - 'A'] = true; } } for (unsigned char* c = (unsigned char*)iter_operclass->second.cmodelist; *c; ++c) { if (*c == '*') { memset(this->AllowedChanModes, (int)(true), 64); } else { this->AllowedChanModes[*c - 'A'] = true; } } } myclass = strtok_r(NULL," ",&savept); } free(Classes); } FOREACH_MOD(I_OnPostOper,OnPostOper(this, opertype, opername)); } catch (...) { ServerInstance->Logs->Log("OPER", DEBUG,"Exception in User::Oper()"); } } void User::UnOper() { if (IS_OPER(this)) { /* Remove all oper only modes from the user when the deoper - Bug #466*/ std::string moderemove("-"); for (unsigned char letter = 'A'; letter <= 'z'; letter++) { if (letter != 'o') { ModeHandler* mh = ServerInstance->Modes->FindMode(letter, MODETYPE_USER); if (mh && mh->NeedsOper()) moderemove += letter; } } std::vector parameters; parameters.push_back(this->nick); parameters.push_back(moderemove); ServerInstance->Parser->CallHandler("MODE", parameters, this); /* unset their oper type (what IS_OPER checks), and remove +o */ this->oper.clear(); this->modes[UM_OPERATOR] = 0; /* remove the user from the oper list. Will remove multiple entries as a safeguard against bug #404 */ ServerInstance->Users->all_opers.remove(this); if (AllowedOperCommands) { delete AllowedOperCommands; AllowedOperCommands = NULL; } if (AllowedUserModes) { delete[] AllowedUserModes; AllowedUserModes = NULL; } if (AllowedChanModes) { delete[] AllowedChanModes; AllowedChanModes = NULL; } } } /* adds or updates an entry in the whowas list */ void User::AddToWhoWas() { Command* whowas_command = ServerInstance->Parser->GetHandler("WHOWAS"); if (whowas_command) { std::deque params; params.push_back(this); whowas_command->HandleInternal(WHOWAS_ADD, params); } } /* * Check class restrictions */ void User::CheckClass() { ConnectClass* a = this->MyClass; if ((!a) || (a->GetType() == CC_DENY)) { ServerInstance->Users->QuitUser(this, "Unauthorised connection"); return; } else if ((a->GetMaxLocal()) && (ServerInstance->Users->LocalCloneCount(this) > a->GetMaxLocal())) { ServerInstance->Users->QuitUser(this, "No more connections allowed from your host via this connect class (local)"); ServerInstance->SNO->WriteToSnoMask('A', "WARNING: maximum LOCAL connections (%ld) exceeded for IP %s", a->GetMaxLocal(), this->GetIPString()); return; } else if ((a->GetMaxGlobal()) && (ServerInstance->Users->GlobalCloneCount(this) > a->GetMaxGlobal())) { ServerInstance->Users->QuitUser(this, "No more connections allowed from your host via this connect class (global)"); ServerInstance->SNO->WriteToSnoMask('A', "WARNING: maximum GLOBAL connections (%ld) exceeded for IP %s", a->GetMaxGlobal(), this->GetIPString()); return; } this->nping = ServerInstance->Time() + a->GetPingTime() + ServerInstance->Config->dns_timeout; this->MaxChans = a->GetMaxChans(); } bool User::CheckLines() { const char* check[] = { "G" , "K", 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 User::FullConnect() { ServerInstance->stats->statsConnects++; 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 */ this->SetClass(); /* Check the password, if one is required by the user's connect class. * This CANNOT be in CheckClass(), because that is called prior to PASS as well! */ if (this->MyClass && !this->MyClass->GetPass().empty() && !this->haspassed) { ServerInstance->Users->QuitUser(this, "Invalid password"); return; } if (this->CheckLines()) return; this->WriteServ("NOTICE Auth :Welcome to \002%s\002!",ServerInstance->Config->Network); this->WriteNumeric(RPL_WELCOME, "%s :Welcome to the %s IRC Network %s!%s@%s",this->nick.c_str(), ServerInstance->Config->Network, this->nick.c_str(), this->ident.c_str(), this->host.c_str()); this->WriteNumeric(RPL_YOURHOSTIS, "%s :Your host is %s, running version InspIRCd-1.2",this->nick.c_str(),ServerInstance->Config->ServerName); this->WriteNumeric(RPL_SERVERCREATED, "%s :This server was created %s %s", this->nick.c_str(), __TIME__, __DATE__); this->WriteNumeric(RPL_SERVERVERSION, "%s %s InspIRCd-1.2 %s %s %s", this->nick.c_str(), ServerInstance->Config->ServerName, ServerInstance->Modes->UserModeList().c_str(), ServerInstance->Modes->ChannelModeList().c_str(), ServerInstance->Modes->ParaModeList().c_str()); ServerInstance->Config->Send005(this); this->WriteNumeric(RPL_YOURUUID, "%s %s :your unique ID", this->nick.c_str(), this->uuid.c_str()); this->ShowMOTD(); /* Now registered */ if (ServerInstance->Users->unregistered_count) ServerInstance->Users->unregistered_count--; /* Trigger LUSERS output, give modules a chance too */ int MOD_RESULT = 0; std::string command("LUSERS"); std::vector parameters; FOREACH_RESULT(I_OnPreCommand, OnPreCommand(command, parameters, this, true, "LUSERS")); if (!MOD_RESULT) ServerInstance->CallCommandHandler(command, parameters, this); /* * 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(I_OnUserConnect,OnUserConnect(this)); this->registered = REG_ALL; ServerInstance->PI->Introduce(this); FOREACH_MOD(I_OnPostConnect,OnPostConnect(this)); ServerInstance->SNO->WriteToSnoMask('c',"Client connecting on port %d: %s!%s@%s [%s] [%s]", this->GetPort(), this->nick.c_str(), this->ident.c_str(), this->host.c_str(), this->GetIPString(), this->fullname.c_str()); ServerInstance->Logs->Log("BANCACHE", DEBUG, "BanCache: Adding NEGATIVE hit for %s", this->GetIPString()); ServerInstance->BanCache->AddHit(this->GetIPString(), "", ""); } /** User::UpdateNick() * re-allocates a nick in the user_hash after they change nicknames, * returns a pointer to the new user as it may have moved */ User* User::UpdateNickHash(const char* New) { //user_hash::iterator newnick; user_hash::iterator oldnick = ServerInstance->Users->clientlist->find(this->nick); if (!irc::string(this->nick.c_str()).compare(New)) return oldnick->second; if (oldnick == ServerInstance->Users->clientlist->end()) return NULL; /* doesnt exist */ User* olduser = oldnick->second; (*(ServerInstance->Users->clientlist))[New] = olduser; ServerInstance->Users->clientlist->erase(oldnick); return olduser; } void User::InvalidateCache() { /* Invalidate cache */ cached_fullhost.clear(); cached_hostip.clear(); cached_makehost.clear(); cached_fullrealhost.clear(); } bool User::ForceNickChange(const char* newnick) { int MOD_RESULT = 0; this->InvalidateCache(); FOREACH_RESULT(I_OnUserPreNick,OnUserPreNick(this, newnick)); if (MOD_RESULT) { ServerInstance->stats->statsCollisions++; return false; } std::deque dummy; Command* nickhandler = ServerInstance->Parser->GetHandler("NICK"); if (nickhandler) // wtfbbq, when would this not be here { std::vector parameters; nickhandler->HandleInternal(1, dummy); parameters.push_back(newnick); bool result = (ServerInstance->Parser->CallHandler("NICK", parameters, this) == CMD_SUCCESS); nickhandler->HandleInternal(0, dummy); return result; } // Unreachable, we hope return false; } void User::SetSockAddr(int protocol_family, const char* sip, int port) { this->cachedip = ""; switch (protocol_family) { #ifdef SUPPORT_IP6LINKS case AF_INET6: { sockaddr_in6* sin = new sockaddr_in6; sin->sin6_family = AF_INET6; sin->sin6_port = port; inet_pton(AF_INET6, sip, &sin->sin6_addr); this->ip = (sockaddr*)sin; } break; #endif case AF_INET: { sockaddr_in* sin = new sockaddr_in; sin->sin_family = AF_INET; sin->sin_port = port; inet_pton(AF_INET, sip, &sin->sin_addr); this->ip = (sockaddr*)sin; } break; default: ServerInstance->Logs->Log("USERS",DEBUG,"Uh oh, I dont know protocol %d to be set on '%s'!", protocol_family, this->nick.c_str()); break; } } int User::GetPort() { if (this->ip == NULL) return 0; switch (this->GetProtocolFamily()) { #ifdef SUPPORT_IP6LINKS case AF_INET6: { sockaddr_in6* sin = (sockaddr_in6*)this->ip; return sin->sin6_port; } break; #endif case AF_INET: { sockaddr_in* sin = (sockaddr_in*)this->ip; return sin->sin_port; } break; default: break; } return 0; } int User::GetProtocolFamily() { if (this->ip == NULL) return 0; sockaddr_in* sin = (sockaddr_in*)this->ip; return sin->sin_family; } const char* User::GetCIDRMask(int range) { static char buf[44]; if (this->ip == NULL) return ""; if (range < 0) throw "Negative range, sorry, no."; /* * Original code written by Oliver Lupton (Om). * Integrated by me. Thanks. :) -- w00t */ switch (this->GetProtocolFamily()) { #ifdef SUPPORT_IP6LINKS case AF_INET6: { /* unsigned char s6_addr[16]; */ struct in6_addr v6; sockaddr_in6* sin; int i, bytestozero, extrabits; char buffer[40]; if(range > 128) throw "CIDR mask width greater than address width (IPv6, 128 bit)"; /* Access the user's IP structure directly */ sin = (sockaddr_in6*)this->ip; /* To create the CIDR mask we want to set all the bits after 'range' bits of the address * to zero. This means the last (128 - range) bits of the address must be set to zero. * Hence this number divided by 8 is the number of whole bytes from the end of the address * which must be set to zero. */ bytestozero = (128 - range) / 8; /* Some of the least significant bits of the next most significant byte may also have to * be zeroed. The number of bits is the remainder of the above division. */ extrabits = (128 - range) % 8; /* Populate our working struct with the parts of the user's IP which are required in the * final CIDR mask. Set all the subsequent bytes to zero. * (16 - bytestozero) is the number of bytes which must be populated with actual IP data. */ for(i = 0; i < (16 - bytestozero); i++) { v6.s6_addr[i] = sin->sin6_addr.s6_addr[i]; } /* And zero all the remaining bytes in the IP. */ for(; i < 16; i++) { v6.s6_addr[i] = 0; } /* And finally, zero the extra bits required. */ v6.s6_addr[15 - bytestozero] = (v6.s6_addr[15 - bytestozero] >> extrabits) << extrabits; snprintf(buf, 44, "%s/%d", inet_ntop(AF_INET6, &v6, buffer, 40), range); return buf; } break; #endif case AF_INET: { struct in_addr v4; sockaddr_in* sin; char buffer[16]; if (range > 32) throw "CIDR mask width greater than address width (IPv4, 32 bit)"; /* Users already have a sockaddr* pointer (User::ip) which contains either a v4 or v6 structure */ sin = (sockaddr_in*)this->ip; v4.s_addr = sin->sin_addr.s_addr; /* To create the CIDR mask we want to set all the bits after 'range' bits of the address * to zero. This means the last (32 - range) bits of the address must be set to zero. * This is done by shifting the value right and then back left by (32 - range) bits. */ if(range > 0) { v4.s_addr = ntohl(v4.s_addr); v4.s_addr = (v4.s_addr >> (32 - range)) << (32 - range); v4.s_addr = htonl(v4.s_addr); } else { /* a range of zero would cause a 32 bit value to be shifted by 32 bits. * this has undefined behaviour, but for CIDR purposes the resulting mask * from a.b.c.d/0 is 0.0.0.0/0 */ v4.s_addr = 0; } snprintf(buf, 44, "%s/%d", inet_ntop(AF_INET, &v4, buffer, 16), range); return buf; } break; } return ""; // unused, but oh well } const char* User::GetIPString(bool translate4in6) { static char buf[40]; if (this->ip == NULL) return ""; if (!this->cachedip.empty()) return this->cachedip.c_str(); switch (this->GetProtocolFamily()) { #ifdef SUPPORT_IP6LINKS case AF_INET6: { static char temp[1024]; sockaddr_in6* sin = (sockaddr_in6*)this->ip; inet_ntop(sin->sin6_family, &sin->sin6_addr, buf, sizeof(buf)); /* IP addresses starting with a : on irc are a Bad Thing (tm) */ if (*buf == ':') { strlcpy(&temp[1], buf, sizeof(temp) - 1); *temp = '0'; if (translate4in6 && !strncmp(temp, "0::ffff:", 8)) { this->cachedip = temp + 8; return temp + 8; } this->cachedip = temp; return temp; } this->cachedip = buf; return buf; } break; #endif case AF_INET: { sockaddr_in* sin = (sockaddr_in*)this->ip; inet_ntop(sin->sin_family, &sin->sin_addr, buf, sizeof(buf)); this->cachedip = buf; return buf; } break; default: break; } // Unreachable, probably return ""; } /** NOTE: We cannot pass a const reference to this method. * The string is changed by the workings of the method, * so that if we pass const ref, we end up copying it to * something we can change anyway. Makes sense to just let * the compiler do that copy for us. */ void User::Write(std::string text) { if (!ServerInstance->SE->BoundsCheckFd(this)) return; try { ServerInstance->Logs->Log("USEROUTPUT", DEBUG,"C[%d] O %s", this->GetFd(), text.c_str()); text.append("\r\n"); } catch (...) { ServerInstance->Logs->Log("USEROUTPUT", DEBUG,"Exception in User::Write() std::string::append"); return; } if (this->io) { /* XXX: The lack of buffering here is NOT a bug, modules implementing this interface have to * implement their own buffering mechanisms */ try { this->io->OnRawSocketWrite(this->fd, text.data(), text.length()); } catch (CoreException& modexcept) { ServerInstance->Logs->Log("USEROUTPUT", DEBUG, "%s threw an exception: %s", modexcept.GetSource(), modexcept.GetReason()); } } else { this->AddWriteBuf(text); } ServerInstance->stats->statsSent += text.length(); this->ServerInstance->SE->WantWrite(this); } /** Write() */ void User::Write(const char *text, ...) { va_list argsPtr; char textbuffer[MAXBUF]; va_start(argsPtr, text); vsnprintf(textbuffer, MAXBUF, text, argsPtr); va_end(argsPtr); this->Write(std::string(textbuffer)); } void User::WriteServ(const std::string& text) { char textbuffer[MAXBUF]; snprintf(textbuffer,MAXBUF,":%s %s",ServerInstance->Config->ServerName,text.c_str()); this->Write(std::string(textbuffer)); } /** WriteServ() * Same as Write(), except `text' is prefixed with `:server.name '. */ void User::WriteServ(const char* text, ...) { va_list argsPtr; char textbuffer[MAXBUF]; va_start(argsPtr, text); vsnprintf(textbuffer, MAXBUF, text, argsPtr); va_end(argsPtr); this->WriteServ(std::string(textbuffer)); } void User::WriteNumeric(unsigned int numeric, const char* text, ...) { va_list argsPtr; char textbuffer[MAXBUF]; va_start(argsPtr, text); vsnprintf(textbuffer, MAXBUF, text, argsPtr); va_end(argsPtr); this->WriteNumeric(numeric, std::string(textbuffer)); } void User::WriteNumeric(unsigned int numeric, const std::string &text) { char textbuffer[MAXBUF]; int MOD_RESULT = 0; FOREACH_RESULT(I_OnNumeric, OnNumeric(this, numeric, text)); if (MOD_RESULT) return; snprintf(textbuffer,MAXBUF,":%s %03u %s",ServerInstance->Config->ServerName, numeric, text.c_str()); this->Write(std::string(textbuffer)); } void User::WriteFrom(User *user, const std::string &text) { char tb[MAXBUF]; snprintf(tb,MAXBUF,":%s %s",user->GetFullHost().c_str(),text.c_str()); this->Write(std::string(tb)); } /* write text from an originating user to originating user */ void User::WriteFrom(User *user, const char* text, ...) { va_list argsPtr; char textbuffer[MAXBUF]; va_start(argsPtr, text); vsnprintf(textbuffer, MAXBUF, text, argsPtr); va_end(argsPtr); this->WriteFrom(user, std::string(textbuffer)); } /* write text to an destination user from a source user (e.g. user privmsg) */ void User::WriteTo(User *dest, const char *data, ...) { char textbuffer[MAXBUF]; va_list argsPtr; va_start(argsPtr, data); vsnprintf(textbuffer, MAXBUF, data, argsPtr); va_end(argsPtr); this->WriteTo(dest, std::string(textbuffer)); } void User::WriteTo(User *dest, const std::string &data) { dest->WriteFrom(this, data); } void User::WriteCommon(const char* text, ...) { char textbuffer[MAXBUF]; va_list argsPtr; if (this->registered != REG_ALL) return; va_start(argsPtr, text); vsnprintf(textbuffer, MAXBUF, text, argsPtr); va_end(argsPtr); this->WriteCommon(std::string(textbuffer)); } void User::WriteCommon(const std::string &text) { bool sent_to_at_least_one = false; char tb[MAXBUF]; if (this->registered != REG_ALL) return; uniq_id++; if (!already_sent) InitializeAlreadySent(ServerInstance->SE); /* We dont want to be doing this n times, just once */ snprintf(tb,MAXBUF,":%s %s",this->GetFullHost().c_str(),text.c_str()); std::string out = tb; for (UCListIter v = this->chans.begin(); v != this->chans.end(); v++) { CUList* ulist = v->first->GetUsers(); for (CUList::iterator i = ulist->begin(); i != ulist->end(); i++) { if ((IS_LOCAL(i->first)) && (already_sent[i->first->fd] != uniq_id)) { already_sent[i->first->fd] = uniq_id; i->first->Write(out); sent_to_at_least_one = true; } } } /* * if the user was not in any channels, no users will receive the text. Make sure the user * receives their OWN message for WriteCommon */ if (!sent_to_at_least_one) { this->Write(std::string(tb)); } } /* write a formatted string to all users who share at least one common * channel, NOT including the source user e.g. for use in QUIT */ void User::WriteCommonExcept(const char* text, ...) { char textbuffer[MAXBUF]; va_list argsPtr; va_start(argsPtr, text); vsnprintf(textbuffer, MAXBUF, text, argsPtr); va_end(argsPtr); this->WriteCommonExcept(std::string(textbuffer)); } void User::WriteCommonQuit(const std::string &normal_text, const std::string &oper_text) { char tb1[MAXBUF]; char tb2[MAXBUF]; if (this->registered != REG_ALL) return; uniq_id++; if (!already_sent) InitializeAlreadySent(ServerInstance->SE); snprintf(tb1,MAXBUF,":%s QUIT :%s",this->GetFullHost().c_str(),normal_text.c_str()); snprintf(tb2,MAXBUF,":%s QUIT :%s",this->GetFullHost().c_str(),oper_text.c_str()); std::string out1 = tb1; std::string out2 = tb2; for (UCListIter v = this->chans.begin(); v != this->chans.end(); v++) { CUList *ulist = v->first->GetUsers(); for (CUList::iterator i = ulist->begin(); i != ulist->end(); i++) { if (this != i->first) { if ((IS_LOCAL(i->first)) && (already_sent[i->first->fd] != uniq_id)) { already_sent[i->first->fd] = uniq_id; i->first->Write(IS_OPER(i->first) ? out2 : out1); } } } } } void User::WriteCommonExcept(const std::string &text) { char tb1[MAXBUF]; std::string out1; if (this->registered != REG_ALL) return; uniq_id++; if (!already_sent) InitializeAlreadySent(ServerInstance->SE); snprintf(tb1,MAXBUF,":%s %s",this->GetFullHost().c_str(),text.c_str()); out1 = tb1; for (UCListIter v = this->chans.begin(); v != this->chans.end(); v++) { CUList *ulist = v->first->GetUsers(); for (CUList::iterator i = ulist->begin(); i != ulist->end(); i++) { if (this != i->first) { if ((IS_LOCAL(i->first)) && (already_sent[i->first->fd] != uniq_id)) { already_sent[i->first->fd] = uniq_id; i->first->Write(out1); } } } } } void User::WriteWallOps(const std::string &text) { if (!IS_LOCAL(this)) return; std::string wallop("WALLOPS :"); wallop.append(text); for (std::vector::const_iterator i = ServerInstance->Users->local_users.begin(); i != ServerInstance->Users->local_users.end(); i++) { User* t = *i; if (t->IsModeSet('w')) this->WriteTo(t,wallop); } } void User::WriteWallOps(const char* text, ...) { if (!IS_LOCAL(this)) return; char textbuffer[MAXBUF]; va_list argsPtr; va_start(argsPtr, text); vsnprintf(textbuffer, MAXBUF, text, argsPtr); va_end(argsPtr); this->WriteWallOps(std::string(textbuffer)); } /* 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) { if ((!other) || (this->registered != REG_ALL) || (other->registered != REG_ALL)) return false; /* Outer loop */ for (UCListIter 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->first->HasUser(other)) return true; } return false; } bool User::ChangeName(const char* gecos) { if (!this->fullname.compare(gecos)) return true; if (IS_LOCAL(this)) { int MOD_RESULT = 0; FOREACH_RESULT(I_OnChangeLocalUserGECOS,OnChangeLocalUserGECOS(this,gecos)); if (MOD_RESULT) return false; FOREACH_MOD(I_OnChangeName,OnChangeName(this,gecos)); } this->fullname.assign(gecos, 0, ServerInstance->Config->Limits.MaxGecos); return true; } bool User::ChangeDisplayedHost(const char* shost) { if (dhost == shost) return true; if (IS_LOCAL(this)) { int MOD_RESULT = 0; FOREACH_RESULT(I_OnChangeLocalUserHost,OnChangeLocalUserHost(this,shost)); if (MOD_RESULT) return false; FOREACH_MOD(I_OnChangeHost,OnChangeHost(this,shost)); } if (this->ServerInstance->Config->CycleHosts) this->WriteCommonExcept("QUIT :Changing hosts"); /* Fix by Om: User::dhost is 65 long, this was truncating some long hosts */ this->dhost.assign(shost, 0, 64); this->InvalidateCache(); if (this->ServerInstance->Config->CycleHosts) { for (UCListIter i = this->chans.begin(); i != this->chans.end(); i++) { i->first->WriteAllExceptSender(this, false, 0, "JOIN %s", i->first->name.c_str()); std::string n = this->ServerInstance->Modes->ModeString(this, i->first); if (n.length() > 0) i->first->WriteAllExceptSender(this, true, 0, "MODE %s +%s", i->first->name.c_str(), n.c_str()); } } if (IS_LOCAL(this)) this->WriteNumeric(RPL_YOURDISPLAYEDHOST, "%s %s :is now your displayed host",this->nick.c_str(),this->dhost.c_str()); return true; } bool User::ChangeIdent(const char* newident) { if (!this->ident.compare(newident)) return true; if (this->ServerInstance->Config->CycleHosts) this->WriteCommonExcept("%s","QUIT :Changing ident"); this->ident.assign(newident, 0, ServerInstance->Config->Limits.IdentMax + 1); this->InvalidateCache(); if (this->ServerInstance->Config->CycleHosts) { for (UCListIter i = this->chans.begin(); i != this->chans.end(); i++) { i->first->WriteAllExceptSender(this, false, 0, "JOIN %s", i->first->name.c_str()); std::string n = this->ServerInstance->Modes->ModeString(this, i->first); if (n.length() > 0) i->first->WriteAllExceptSender(this, true, 0, "MODE %s +%s", i->first->name.c_str(), n.c_str()); } } return true; } void User::SendAll(const char* command, const char* text, ...) { char textbuffer[MAXBUF]; char formatbuffer[MAXBUF]; va_list argsPtr; va_start(argsPtr, text); vsnprintf(textbuffer, MAXBUF, text, argsPtr); va_end(argsPtr); snprintf(formatbuffer,MAXBUF,":%s %s $* :%s", this->GetFullHost().c_str(), command, textbuffer); std::string fmt = formatbuffer; for (std::vector::const_iterator i = ServerInstance->Users->local_users.begin(); i != ServerInstance->Users->local_users.end(); i++) { (*i)->Write(fmt); } } std::string User::ChannelList(User* source) { std::string list; for (UCListIter i = this->chans.begin(); i != this->chans.end(); i++) { /* If the target is the same as the sender, let them see all their channels. * If the channel is NOT private/secret OR the user shares a common channel * If the user is an oper, and the option is set. */ if ((source == this) || (IS_OPER(source) && ServerInstance->Config->OperSpyWhois) || (((!i->first->IsModeSet('p')) && (!i->first->IsModeSet('s'))) || (i->first->HasUser(source)))) { list.append(i->first->GetPrefixChar(this)).append(i->first->name).append(" "); } } return list; } void User::SplitChanList(User* dest, const std::string &cl) { std::string line; std::ostringstream prefix; std::string::size_type start, pos, length; prefix << this->nick << " " << dest->nick << " :"; line = prefix.str(); int namelen = strlen(ServerInstance->Config->ServerName) + 6; for (start = 0; (pos = cl.find(' ', start)) != std::string::npos; start = pos+1) { length = (pos == std::string::npos) ? cl.length() : pos; if (line.length() + namelen + length - start > 510) { ServerInstance->SendWhoisLine(this, dest, 319, "%s", line.c_str()); line = prefix.str(); } if(pos == std::string::npos) { line.append(cl.substr(start, length - start)); break; } else { line.append(cl.substr(start, length - start + 1)); } } if (line.length()) { ServerInstance->SendWhoisLine(this, dest, 319, "%s", line.c_str()); } } unsigned int User::GetMaxChans() { return this->MaxChans; } /* * 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 */ ConnectClass* User::SetClass(const std::string &explicit_name) { ConnectClass *found = NULL; if (!IS_LOCAL(this)) return NULL; ServerInstance->Logs->Log("CONNECTCLASS", DEBUG, "Setting connect class for UID %s", this->uuid.c_str()); if (!explicit_name.empty()) { for (ClassVector::iterator i = ServerInstance->Config->Classes.begin(); i != ServerInstance->Config->Classes.end(); i++) { ConnectClass* c = *i; if (c->GetDisabled()) continue; // can't possibly match, removed from conf if (explicit_name == c->GetName()) { ServerInstance->Logs->Log("CONNECTCLASS", DEBUG, "Explicitly set to %s", explicit_name.c_str()); found = c; } } } else { for (ClassVector::iterator i = ServerInstance->Config->Classes.begin(); i != ServerInstance->Config->Classes.end(); i++) { ConnectClass* c = *i; if (c->GetType() == CC_ALLOW) { ServerInstance->Logs->Log("CONNECTCLASS", DEBUG, "ALLOW %s %d %s", c->GetHost().c_str(), c->GetPort(), c->GetName().c_str()); } else { ServerInstance->Logs->Log("CONNECTCLASS", DEBUG, "DENY %s %d %s", c->GetHost().c_str(), c->GetPort(), c->GetName().c_str()); } /* if it's disabled, we can't match this one. */ if (c->GetDisabled()) { ServerInstance->Logs->Log("CONNECTCLASS", DEBUG, "Class disabled"); continue; } /* check if host matches.. */ if (((!match(this->GetIPString(),c->GetHost(),true)) && (!match(this->host,c->GetHost())))) { ServerInstance->Logs->Log("CONNECTCLASS", 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->RefCount + 1 >= c->limit)) { ServerInstance->Logs->Log("CONNECTCLASS", DEBUG, "OOPS: Connect class limit (%lu) hit, denying", c->limit); continue; } /* if it requires a port ... */ if (c->GetPort()) { ServerInstance->Logs->Log("CONNECTCLASS", DEBUG, "Requires port (%d)", c->GetPort()); /* and our port doesn't match, fail. */ if (this->GetPort() != c->GetPort()) { ServerInstance->Logs->Log("CONNECTCLASS", DEBUG, "Port match failed (%d)", this->GetPort()); 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) { /* only fiddle with refcounts if they are already in a class .. */ if (this->MyClass) { if (found == this->MyClass) // no point changing this shit :P return this->MyClass; this->MyClass->RefCount--; ServerInstance->Logs->Log("USERS", DEBUG, "Untying user from connect class -- refcount: %lu", this->MyClass->RefCount); } this->MyClass = found; this->MyClass->RefCount++; ServerInstance->Logs->Log("USERS", DEBUG, "User tied to new class -- connect refcount now: %lu", this->MyClass->RefCount); } return this->MyClass; } /* looks up a users password for their connection class (/ tags) * 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 */ ConnectClass* User::GetClass() { return this->MyClass; } void User::PurgeEmptyChannels() { std::vector to_delete; // firstly decrement the count on each channel for (UCListIter f = this->chans.begin(); f != this->chans.end(); f++) { f->first->RemoveAllPrefixes(this); if (f->first->DelUser(this) == 0) { /* No users left in here, mark it for deletion */ try { to_delete.push_back(f->first); } catch (...) { ServerInstance->Logs->Log("USERS", DEBUG,"Exception in User::PurgeEmptyChannels to_delete.push_back()"); } } } for (std::vector::iterator n = to_delete.begin(); n != to_delete.end(); n++) { Channel* thischan = *n; chan_hash::iterator i2 = ServerInstance->chanlist->find(thischan->name); if (i2 != ServerInstance->chanlist->end()) { FOREACH_MOD(I_OnChannelDelete,OnChannelDelete(i2->second)); delete i2->second; ServerInstance->chanlist->erase(i2); this->chans.erase(*n); } } this->UnOper(); } void User::ShowMOTD() { if (!ServerInstance->Config->MOTD.size()) { this->WriteNumeric(ERR_NOMOTD, "%s :Message of the day file is missing.",this->nick.c_str()); return; } this->WriteNumeric(RPL_MOTDSTART, "%s :%s message of the day", this->nick.c_str(), ServerInstance->Config->ServerName); for (file_cache::iterator i = ServerInstance->Config->MOTD.begin(); i != ServerInstance->Config->MOTD.end(); i++) this->WriteNumeric(RPL_MOTD, "%s :- %s",this->nick.c_str(),i->c_str()); this->WriteNumeric(RPL_ENDOFMOTD, "%s :End of message of the day.", this->nick.c_str()); } void User::ShowRULES() { if (!ServerInstance->Config->RULES.size()) { this->WriteNumeric(ERR_NORULES, "%s :RULES File is missing",this->nick.c_str()); return; } this->WriteNumeric(RPL_RULESTART, "%s :- %s Server Rules -",this->nick.c_str(),ServerInstance->Config->ServerName); for (file_cache::iterator i = ServerInstance->Config->RULES.begin(); i != ServerInstance->Config->RULES.end(); i++) this->WriteNumeric(RPL_RULES, "%s :- %s",this->nick.c_str(),i->c_str()); this->WriteNumeric(RPL_RULESEND, "%s :End of RULES command.",this->nick.c_str()); } void User::HandleEvent(EventType et, int errornum) { if (this->quitting) // drop everything, user is due to be quit return; switch (et) { case EVENT_READ: ServerInstance->ProcessUser(this); break; case EVENT_WRITE: this->FlushWriteBuf(); break; case EVENT_ERROR: ServerInstance->Users->QuitUser(this, errornum ? strerror(errornum) : "Client closed the connection"); break; } } void User::SetOperQuit(const std::string &oquit) { operquitmsg = oquit; } const std::string& User::GetOperQuit() { return operquitmsg; } void User::IncreasePenalty(int increase) { this->Penalty += increase; } void User::DecreasePenalty(int decrease) { this->Penalty -= decrease; } VisData::VisData() { } VisData::~VisData() { } bool VisData::VisibleTo(User* user) { return true; }