/* * InspIRCd -- Internet Relay Chat Daemon * * Copyright (C) 2009-2010 Daniel De Graaf * Copyright (C) 2006-2008 Robin Burchell * Copyright (C) 2005-2008 Craig Edwards * Copyright (C) 2008 Thomas Stagner * Copyright (C) 2006-2007 Oliver Lupton * Copyright (C) 2007 Dennis Friis * * This file is part of InspIRCd. InspIRCd is free software: you can * redistribute it and/or modify it under the terms of the GNU General Public * License as published by the Free Software Foundation, version 2. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU General Public License for more * details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifdef _WIN32 #define _CRT_RAND_S #include #endif #include "inspircd.h" #include "xline.h" #include "exitcodes.h" #include std::string InspIRCd::GetServerDescription(const std::string& servername) { std::string description; FOREACH_MOD(OnGetServerDescription, (servername,description)); if (!description.empty()) { return description; } else { // not a remote server that can be found, it must be me. return Config->ServerDesc; } } /* Find a user record by nickname and return a pointer to it */ User* InspIRCd::FindNick(const std::string &nick) { if (!nick.empty() && isdigit(*nick.begin())) return FindUUID(nick); user_hash::iterator iter = this->Users->clientlist->find(nick); if (iter == this->Users->clientlist->end()) /* Couldn't find it */ return NULL; return iter->second; } User* InspIRCd::FindNickOnly(const std::string &nick) { user_hash::iterator iter = this->Users->clientlist->find(nick); if (iter == this->Users->clientlist->end()) return NULL; return iter->second; } User *InspIRCd::FindUUID(const std::string &uid) { user_hash::iterator finduuid = this->Users->uuidlist->find(uid); if (finduuid == this->Users->uuidlist->end()) return NULL; return finduuid->second; } /* find a channel record by channel name and return a pointer to it */ Channel* InspIRCd::FindChan(const std::string &chan) { chan_hash::iterator iter = chanlist->find(chan); if (iter == chanlist->end()) /* Couldn't find it */ return NULL; return iter->second; } /* Send an error notice to all users, registered or not */ void InspIRCd::SendError(const std::string &s) { for (LocalUserList::const_iterator i = this->Users->local_users.begin(); i != this->Users->local_users.end(); i++) { User* u = *i; if (u->registered == REG_ALL) { u->WriteNotice(s); } else { /* Unregistered connections receive ERROR, not a NOTICE */ u->Write("ERROR :" + s); } } } bool InspIRCd::IsValidMask(const std::string &mask) { const char* dest = mask.c_str(); int exclamation = 0; int atsign = 0; for (const char* i = dest; *i; i++) { /* out of range character, bad mask */ if (*i < 32 || *i > 126) { return false; } switch (*i) { case '!': exclamation++; break; case '@': atsign++; break; } } /* valid masks only have 1 ! and @ */ if (exclamation != 1 || atsign != 1) return false; if (mask.length() > 250) return false; return true; } void InspIRCd::StripColor(std::string &sentence) { /* refactor this completely due to SQUIT bug since the old code would strip last char and replace with \0 --peavey */ int seq = 0; for (std::string::iterator i = sentence.begin(); i != sentence.end();) { if (*i == 3) seq = 1; else if (seq && (( ((*i >= '0') && (*i <= '9')) || (*i == ',') ) )) { seq++; if ( (seq <= 4) && (*i == ',') ) seq = 1; else if (seq > 3) seq = 0; } else seq = 0; if (seq || ((*i == 2) || (*i == 15) || (*i == 22) || (*i == 21) || (*i == 31))) i = sentence.erase(i); else ++i; } } void InspIRCd::ProcessColors(file_cache& input) { /* * Replace all color codes from the special[] array to actual * color code chars using C++ style escape sequences. You * can append other chars to replace if you like -- Justasic */ static struct special_chars { std::string character; std::string replace; special_chars(const std::string &c, const std::string &r) : character(c), replace(r) { } } special[] = { special_chars("\\002", "\002"), // Bold special_chars("\\037", "\037"), // underline special_chars("\\003", "\003"), // Color special_chars("\\017", "\017"), // Stop colors special_chars("\\u", "\037"), // Alias for underline special_chars("\\b", "\002"), // Alias for Bold special_chars("\\x", "\017"), // Alias for stop special_chars("\\c", "\003"), // Alias for color special_chars("", "") }; for(file_cache::iterator it = input.begin(), it_end = input.end(); it != it_end; it++) { std::string ret = *it; for(int i = 0; special[i].character.empty() == false; ++i) { std::string::size_type pos = ret.find(special[i].character); if(pos == std::string::npos) // Couldn't find the character, skip this line continue; if((pos > 0) && (ret[pos-1] == '\\') && (ret[pos] == '\\')) continue; // Skip double slashes. // Replace all our characters in the array while(pos != std::string::npos) { ret = ret.substr(0, pos) + special[i].replace + ret.substr(pos + special[i].character.size()); pos = ret.find(special[i].character, pos + special[i].replace.size()); } } // Replace double slashes with a single slash before we return std::string::size_type pos = ret.find("\\\\"); while(pos != std::string::npos) { ret = ret.substr(0, pos) + "\\" + ret.substr(pos + 2); pos = ret.find("\\\\", pos + 1); } *it = ret; } } /* true for valid channel name, false else */ bool IsChannelHandler::Call(const std::string& chname) { if (chname.empty() || chname.length() > ServerInstance->Config->Limits.ChanMax) return false; if (chname[0] != '#') return false; for (std::string::const_iterator i = chname.begin()+1; i != chname.end(); ++i) { switch (*i) { case ' ': case ',': case 7: return false; } } return true; } /* true for valid nickname, false else */ bool IsNickHandler::Call(const std::string& n) { if (n.empty() || n.length() > ServerInstance->Config->Limits.NickMax) return false; for (std::string::const_iterator i = n.begin(); i != n.end(); ++i) { if ((*i >= 'A') && (*i <= '}')) { /* "A"-"}" can occur anywhere in a nickname */ continue; } if ((((*i >= '0') && (*i <= '9')) || (*i == '-')) && (i != n.begin())) { /* "0"-"9", "-" can occur anywhere BUT the first char of a nickname */ continue; } /* invalid character! abort */ return false; } return true; } /* return true for good ident, false else */ bool IsIdentHandler::Call(const std::string& n) { if (n.empty()) return false; for (std::string::const_iterator i = n.begin(); i != n.end(); ++i) { if ((*i >= 'A') && (*i <= '}')) { continue; } if (((*i >= '0') && (*i <= '9')) || (*i == '-') || (*i == '.')) { continue; } return false; } return true; } bool InspIRCd::IsSID(const std::string &str) { /* Returns true if the string given is exactly 3 characters long, * starts with a digit, and the other two characters are A-Z or digits */ return ((str.length() == 3) && isdigit(str[0]) && ((str[1] >= 'A' && str[1] <= 'Z') || isdigit(str[1])) && ((str[2] >= 'A' && str[2] <= 'Z') || isdigit(str[2]))); } void InspIRCd::CheckRoot() { #ifndef _WIN32 if (geteuid() == 0) { std::cout << "ERROR: You are running an irc server as root! DO NOT DO THIS!" << std::endl << std::endl; this->Logs->Log("STARTUP", LOG_DEFAULT, "Can't start as root"); Exit(EXIT_STATUS_ROOT); } #endif } void InspIRCd::SendWhoisLine(User* user, User* dest, int numeric, const std::string &text) { std::string copy_text = text; ModResult MOD_RESULT; FIRST_MOD_RESULT(OnWhoisLine, MOD_RESULT, (user, dest, numeric, copy_text)); if (MOD_RESULT != MOD_RES_DENY) user->WriteServ("%d %s", numeric, copy_text.c_str()); } void InspIRCd::SendWhoisLine(User* user, User* dest, int numeric, const char* format, ...) { std::string textbuffer; VAFORMAT(textbuffer, format, format) this->SendWhoisLine(user, dest, numeric, textbuffer); } /** Refactored by Brain, Jun 2009. Much faster with some clever O(1) array * lookups and pointer maths. */ unsigned long InspIRCd::Duration(const std::string &str) { unsigned char multiplier = 0; long total = 0; long times = 1; long subtotal = 0; /* Iterate each item in the string, looking for number or multiplier */ for (std::string::const_reverse_iterator i = str.rbegin(); i != str.rend(); ++i) { /* Found a number, queue it onto the current number */ if ((*i >= '0') && (*i <= '9')) { subtotal = subtotal + ((*i - '0') * times); times = times * 10; } else { /* Found something thats not a number, find out how much * it multiplies the built up number by, multiply the total * and reset the built up number. */ if (subtotal) total += subtotal * duration_multi[multiplier]; /* Next subtotal please */ subtotal = 0; multiplier = *i; times = 1; } } if (multiplier) { total += subtotal * duration_multi[multiplier]; subtotal = 0; } /* Any trailing values built up are treated as raw seconds */ return total + subtotal; } const char* InspIRCd::Format(va_list &vaList, const char* formatString) { static std::vector formatBuffer(1024); while (true) { va_list dst; va_copy(dst, vaList); int vsnret = vsnprintf(&formatBuffer[0], formatBuffer.size(), formatString, dst); if (vsnret > 0 && static_cast(vsnret) < formatBuffer.size()) { return &formatBuffer[0]; } formatBuffer.resize(formatBuffer.size() * 2); } throw CoreException(); } const char* InspIRCd::Format(const char* formatString, ...) { const char* ret; VAFORMAT(ret, formatString, formatString); return ret; } bool InspIRCd::ULine(const std::string& sserver) { if (sserver.empty()) return true; return (Config->ulines.find(sserver.c_str()) != Config->ulines.end()); } bool InspIRCd::SilentULine(const std::string& sserver) { std::map::iterator n = Config->ulines.find(sserver.c_str()); if (n != Config->ulines.end()) return n->second; else return false; } std::string InspIRCd::TimeString(time_t curtime) { #ifdef _WIN32 if (curtime < 0) curtime = 0; #endif struct tm* timeinfo = localtime(&curtime); if (!timeinfo) { curtime = 0; timeinfo = localtime(&curtime); } // If the calculated year exceeds four digits or is less than the year 1000, // the behavior of asctime() is undefined if (timeinfo->tm_year + 1900 > 9999) timeinfo->tm_year = 9999 - 1900; else if (timeinfo->tm_year + 1900 < 1000) timeinfo->tm_year = 0; return std::string(asctime(timeinfo),24); } std::string InspIRCd::GenRandomStr(int length, bool printable) { char* buf = new char[length]; GenRandom(buf, length); std::string rv; rv.resize(length); for(int i=0; i < length; i++) rv[i] = printable ? 0x3F + (buf[i] & 0x3F) : buf[i]; delete[] buf; return rv; } // NOTE: this has a slight bias for lower values if max is not a power of 2. // Don't use it if that matters. unsigned long InspIRCd::GenRandomInt(unsigned long max) { unsigned long rv; GenRandom((char*)&rv, sizeof(rv)); return rv % max; } // This is overridden by a higher-quality algorithm when SSL support is loaded void GenRandomHandler::Call(char *output, size_t max) { for(unsigned int i=0; i < max; i++) #ifdef _WIN32 { unsigned int uTemp; if(rand_s(&uTemp) != 0) output[i] = rand(); else output[i] = uTemp; } #else output[i] = random(); #endif } ModResult OnCheckExemptionHandler::Call(User* user, Channel* chan, const std::string& restriction) { unsigned int mypfx = chan->GetPrefixValue(user); char minmode = 0; std::string current; irc::spacesepstream defaultstream(ServerInstance->Config->ConfValue("options")->getString("exemptchanops")); while (defaultstream.GetToken(current)) { std::string::size_type pos = current.find(':'); if (pos == std::string::npos) continue; if (current.substr(0,pos) == restriction) minmode = current[pos+1]; } PrefixMode* mh = ServerInstance->Modes->FindPrefixMode(minmode); if (mh && mypfx >= mh->GetPrefixRank()) return MOD_RES_ALLOW; if (mh || minmode == '*') return MOD_RES_DENY; return MOD_RES_PASSTHRU; }