/* +------------------------------------+ * | Inspire Internet Relay Chat Daemon | * +------------------------------------+ * * InspIRCd: (C) 2002-2009 InspIRCd Development Team * See: http://wiki.inspircd.org/Credits * * This program is free but copyrighted software; see * the file COPYING for details. * * --------------------------------------------------- */ /* $Core */ /* $CopyInstall: conf/inspircd.quotes.example $(CONPATH) */ /* $CopyInstall: conf/inspircd.rules.example $(CONPATH) */ /* $CopyInstall: conf/inspircd.motd.example $(CONPATH) */ /* $CopyInstall: conf/inspircd.helpop-full.example $(CONPATH) */ /* $CopyInstall: conf/inspircd.helpop.example $(CONPATH) */ /* $CopyInstall: conf/inspircd.censor.example $(CONPATH) */ /* $CopyInstall: conf/inspircd.filter.example $(CONPATH) */ /* $CopyInstall: conf/inspircd.conf.example $(CONPATH) */ /* $CopyInstall: conf/modules.conf.example $(CONPATH) */ /* $CopyInstall: conf/opers.conf.example $(CONPATH) */ /* $CopyInstall: conf/links.conf.example $(CONPATH) */ /* $CopyInstall: tools/gdbargs $(BASE)/.gdbargs */ #include "inspircd.h" #include #include "xline.h" #include "exitcodes.h" #include "commands/cmd_whowas.h" #include "modes/cmode_h.h" struct fpos { std::string filename; int line; int col; fpos(const std::string& name, int l = 1, int c = 1) : filename(name), line(l), col(c) {} std::string str() { return filename + ":" + ConvToStr(line) + ":" + ConvToStr(col); } }; enum ParseFlags { FLAG_NO_EXEC = 1, FLAG_NO_INC = 2 }; struct ParseStack { std::vector reading; std::map vars; ConfigDataHash& output; std::stringstream& errstr; ParseStack(ServerConfig* conf) : output(conf->config_data), errstr(conf->errstr) { vars["amp"] = "&"; vars["quot"] = "\""; vars["newline"] = vars["nl"] = "\n"; } bool ParseFile(const std::string& name, int flags); bool ParseExec(const std::string& name, int flags); void DoInclude(ConfigTag* includeTag, int flags); }; struct Parser { ParseStack& stack; const int flags; FILE* const file; fpos current; fpos last_tag; reference tag; int ungot; Parser(ParseStack& me, int myflags, FILE* conf, const std::string& name) : stack(me), flags(myflags), file(conf), current(name), last_tag(name), ungot(-1) { } int next(bool eof_ok = false) { if (ungot != -1) { int ch = ungot; ungot = -1; return ch; } int ch = fgetc(file); if (ch == EOF && !eof_ok) { throw CoreException("Unexpected end-of-file"); } else if (ch == '\n') { current.line++; current.col = 0; } else { current.col++; } return ch; } void unget(int ch) { if (ungot != -1) throw CoreException("INTERNAL ERROR: cannot unget twice"); ungot = ch; } void comment() { while (1) { int ch = next(); if (ch == '\n') return; } } void nextword(std::string& rv) { int ch = next(); while (isspace(ch)) ch = next(); while (isalnum(ch) || ch == '_') { rv.push_back(ch); ch = next(); } unget(ch); } bool kv() { std::string key; nextword(key); int ch = next(); if (ch == '>' && key.empty()) { return false; } else if (ch == '#' && key.empty()) { comment(); return true; } else if (ch != '=') { throw CoreException("Invalid character " + std::string(1, ch) + " in key (" + key + ")"); } std::string value; ch = next(); if (ch != '"') { throw CoreException("Invalid character in value of <" + tag->tag + ":" + key + ">"); } while (1) { ch = next(); if (ch == '&') { std::string varname; while (1) { ch = next(); if (isalnum(ch)) varname.push_back(ch); else if (ch == ';') break; else { stack.errstr << "Invalid XML entity name in value of <" + tag->tag + ":" + key + ">\n" << "To include an ampersand or quote, use & or "\n"; throw CoreException("Parse error"); } } std::map::iterator var = stack.vars.find(varname); if (var == stack.vars.end()) throw CoreException("Undefined XML entity reference '&" + varname + ";'"); value.append(var->second); } else if (ch == '"') break; value.push_back(ch); } tag->items.push_back(KeyVal(key, value)); return true; } void dotag() { last_tag = current; std::string name; nextword(name); int spc = next(); if (spc == '>') unget(spc); else if (!isspace(spc)) throw CoreException("Invalid character in tag name"); if (name.empty()) throw CoreException("Empty tag name"); tag = new ConfigTag(name, current.filename, current.line); while (kv()); if (name == "include") { stack.DoInclude(tag, flags); } else if (name == "define") { std::string varname = tag->getString("name"); std::string value = tag->getString("value"); if (varname.empty()) throw CoreException("Variable definition must include variable name"); stack.vars[varname] = value; } else { stack.output.insert(std::make_pair(name, tag)); } // this is not a leak; reference<> takes care of the delete tag = NULL; } bool outer_parse() { try { while (1) { int ch = next(true); switch (ch) { case EOF: // this is the one place where an EOF is not an error return true; case '#': comment(); break; case '<': dotag(); break; case ' ': case '\r': case '\t': case '\n': break; case 0xFE: case 0xFF: stack.errstr << "Do not save your files as UTF-16; use ASCII!\n"; default: throw CoreException("Syntax error - start of tag expected"); } } } catch (CoreException& err) { stack.errstr << err.GetReason() << " at " << current.str(); if (tag) stack.errstr << " (inside tag " << tag->tag << " at line " << tag->src_line << ")\n"; else stack.errstr << " (last tag was on line " << last_tag.line << ")\n"; } return false; } }; void ParseStack::DoInclude(ConfigTag* tag, int flags) { if (flags & FLAG_NO_INC) throw CoreException("Invalid tag in file included with noinclude=\"yes\""); std::string name; if (tag->readString("file", name)) { if (tag->getBool("noinclude", false)) flags |= FLAG_NO_INC; if (tag->getBool("noexec", false)) flags |= FLAG_NO_EXEC; if (!ParseFile(name, flags)) throw CoreException("Included"); } else if (tag->readString("executable", name)) { if (flags & FLAG_NO_EXEC) throw CoreException("Invalid tag in file included with noexec=\"yes\""); if (tag->getBool("noinclude", false)) flags |= FLAG_NO_INC; if (tag->getBool("noexec", true)) flags |= FLAG_NO_EXEC; if (!ParseExec(name, flags)) throw CoreException("Included"); } } /** RAII wrapper on FILE* to close files on exceptions */ struct FileWrapper { FILE* const f; FileWrapper(FILE* file) : f(file) {} operator bool() { return f; } operator FILE*() { return f; } ~FileWrapper() { if (f) fclose(f); } }; bool ParseStack::ParseFile(const std::string& name, int flags) { ServerInstance->Logs->Log("CONFIG", DEBUG, "Reading file %s", name.c_str()); for (unsigned int t = 0; t < reading.size(); t++) { if (std::string(name) == reading[t]) { throw CoreException("File " + name + " is included recursively (looped inclusion)"); } } /* It's not already included, add it to the list of files we've loaded */ FileWrapper file(fopen(name.c_str(), "r")); if (!file) throw CoreException("Could not read \"" + name + "\" for include"); reading.push_back(name); Parser p(*this, flags, file, name); bool ok = p.outer_parse(); reading.pop_back(); return ok; } bool ParseStack::ParseExec(const std::string& name, int flags) { ServerInstance->Logs->Log("CONFIG", DEBUG, "Reading executable %s", name.c_str()); for (unsigned int t = 0; t < reading.size(); t++) { if (std::string(name) == reading[t]) { throw CoreException("Executable " + name + " is included recursively (looped inclusion)"); } } /* It's not already included, add it to the list of files we've loaded */ FileWrapper file(popen(name.c_str(), "r")); if (!file) throw CoreException("Could not open executable \"" + name + "\" for include"); reading.push_back(name); Parser p(*this, flags, file, name); bool ok = p.outer_parse(); reading.pop_back(); return ok; } ///////////////////////////////////////////////////////////////////////////// ServerConfig::ServerConfig() { WhoWasGroupSize = WhoWasMaxGroups = WhoWasMaxKeep = 0; log_file = NULL; NoUserDns = forcedebug = OperSpyWhois = nofork = HideBans = HideSplits = UndernetMsgPrefix = false; CycleHosts = writelog = AllowHalfop = InvBypassModes = true; dns_timeout = DieDelay = 5; MaxTargets = 20; NetBufferSize = 10240; SoftLimit = ServerInstance->SE->GetMaxFds(); MaxConn = SOMAXCONN; MaxWhoResults = 0; debugging = 0; MaxChans = 20; OperMaxChans = 30; c_ipv4_range = 32; c_ipv6_range = 128; } void ServerConfig::Update005() { std::stringstream out(data005); std::string token; std::string line5; int token_counter = 0; isupport.clear(); while (out >> token) { line5 = line5 + token + " "; token_counter++; if (token_counter >= 13) { char buf[MAXBUF]; snprintf(buf, MAXBUF, "%s:are supported by this server", line5.c_str()); isupport.push_back(buf); line5.clear(); token_counter = 0; } } if (!line5.empty()) { char buf[MAXBUF]; snprintf(buf, MAXBUF, "%s:are supported by this server", line5.c_str()); isupport.push_back(buf); } } void ServerConfig::Send005(User* user) { for (std::vector::iterator line = ServerInstance->Config->isupport.begin(); line != ServerInstance->Config->isupport.end(); line++) user->WriteNumeric(RPL_ISUPPORT, "%s %s", user->nick.c_str(), line->c_str()); } static void ReqRead(ServerConfig* src, const std::string& tag, const std::string& key, std::string& dest) { ConfigTag* t = src->ConfValue(tag); if (!t || !t->readString(key, dest)) throw CoreException("You must specify a value for <" + tag + ":" + key + ">"); } template static void range(T& value, V min, V max, V def, const char* msg) { if (value >= (T)min && value <= (T)max) return; ServerInstance->Logs->Log("CONFIG", DEFAULT, "WARNING: %s value of %ld is not between %ld and %ld; set to %ld.", msg, (long)value, (long)min, (long)max, (long)def); value = def; } /* NOTE: Before anyone asks why we're not using inet_pton for this, it is because inet_pton and friends do not return so much detail, * even in strerror(errno). They just return 'yes' or 'no' to an address without such detail as to whats WRONG with the address. * Because ircd users arent as technical as they used to be (;)) we are going to give more of a useful error message. */ static void ValidIP(const std::string& ip, const std::string& key) { const char* p = ip.c_str(); int num_dots = 0; int num_seps = 0; int not_numbers = false; int not_hex = false; if (*p) { if (*p == '.') throw CoreException("The value of "+key+" is not an IP address"); for (const char* ptr = p; *ptr; ++ptr) { if (*ptr != ':' && *ptr != '.') { if (*ptr < '0' || *ptr > '9') not_numbers = true; if ((*ptr < '0' || *ptr > '9') && (toupper(*ptr) < 'A' || toupper(*ptr) > 'F')) not_hex = true; } switch (*ptr) { case ' ': throw CoreException("The value of "+key+" is not an IP address"); case '.': num_dots++; break; case ':': num_seps++; break; } } if (num_dots > 3) throw CoreException("The value of "+key+" is an IPv4 address with too many fields!"); if (num_seps > 8) throw CoreException("The value of "+key+" is an IPv6 address with too many fields!"); if (num_seps == 0 && num_dots < 3) throw CoreException("The value of "+key+" looks to be a malformed IPv4 address"); if (num_seps == 0 && num_dots == 3 && not_numbers) throw CoreException("The value of "+key+" contains non-numeric characters in an IPv4 address"); if (num_seps != 0 && not_hex) throw CoreException("The value of "+key+" contains non-hexdecimal characters in an IPv6 address"); if (num_seps != 0 && num_dots != 3 && num_dots != 0) throw CoreException("The value of "+key+" is a malformed IPv6 4in6 address"); } } static void ValidHost(const std::string& p, const std::string& msg) { int num_dots = 0; if (p.empty() || p[0] == '.') throw CoreException("The value of "+msg+" is not a valid hostname"); for (unsigned int i=0;i < p.length();i++) { switch (p[i]) { case ' ': throw CoreException("The value of "+msg+" is not a valid hostname"); case '.': num_dots++; break; } } if (num_dots == 0) throw CoreException("The value of "+msg+" is not a valid hostname"); } // Specialized validators bool ServerConfig::ApplyDisabledCommands(const std::string& data) { std::stringstream dcmds(data); std::string thiscmd; /* Enable everything first */ for (Commandtable::iterator x = ServerInstance->Parser->cmdlist.begin(); x != ServerInstance->Parser->cmdlist.end(); x++) x->second->Disable(false); /* Now disable all the ones which the user wants disabled */ while (dcmds >> thiscmd) { Commandtable::iterator cm = ServerInstance->Parser->cmdlist.find(thiscmd); if (cm != ServerInstance->Parser->cmdlist.end()) { cm->second->Disable(true); } } return true; } #ifdef WINDOWS // Note: the windows validator is in win32wrapper.cpp void FindDNS(std::string& server); #else static void FindDNS(std::string& server) { if (!server.empty()) return; // attempt to look up their nameserver from /etc/resolv.conf ServerInstance->Logs->Log("CONFIG",DEFAULT,"WARNING: not defined, attempting to find working server in /etc/resolv.conf..."); std::ifstream resolv("/etc/resolv.conf"); while (resolv >> server) { if (server == "nameserver") { resolv >> server; ServerInstance->Logs->Log("CONFIG",DEFAULT," set to '%s' as first resolver in /etc/resolv.conf.",server.c_str()); return; } } ServerInstance->Logs->Log("CONFIG",DEFAULT,"/etc/resolv.conf contains no viable nameserver entries! Defaulting to nameserver '127.0.0.1'!"); server = "127.0.0.1"; } #endif static void ReadXLine(ServerConfig* conf, const std::string& tag, const std::string& key, XLineFactory* make) { for(int i=0;; ++i) { ConfigTag* ctag = conf->ConfValue(tag, i); if (!ctag) break; std::string mask; if (!ctag->readString(key, mask)) throw CoreException("<"+tag+":"+key+"> missing at " + ctag->getTagLocation()); std::string reason = ctag->getString("reason", ""); XLine* xl = make->Generate(ServerInstance->Time(), 0, "", reason, mask); if (!ServerInstance->XLines->AddLine(xl, NULL)) delete xl; } } void ServerConfig::CrossCheckOperClassType() { for (int i = 0;; ++i) { ConfigTag* tag = ConfValue("class", i); if (!tag) break; std::string name = tag->getString("name"); if (name.empty()) throw CoreException(" missing from tag at " + tag->getTagLocation()); operclass[name] = tag; } for (int i = 0;; ++i) { ConfigTag* tag = ConfValue("type", i); if (!tag) break; std::string name = tag->getString("name"); if (name.empty()) throw CoreException(" is missing from tag at " + tag->getTagLocation()); opertypes[name] = tag; std::string classname; irc::spacesepstream str(tag->getString("classes")); while (str.GetToken(classname)) { if (operclass.find(classname) == operclass.end()) throw CoreException("Oper type " + name + " has missing class " + classname); } } } void ServerConfig::CrossCheckConnectBlocks(ServerConfig* current) { typedef std::map ClassMap; ClassMap oldBlocksByMask; if (current) { for(ClassVector::iterator i = current->Classes.begin(); i != current->Classes.end(); ++i) { ConnectClass* c = *i; std::string typeMask = (c->type == CC_ALLOW) ? "a" : "d"; typeMask += c->host; oldBlocksByMask[typeMask] = c; } } ClassMap newBlocksByMask; std::map names; bool try_again = true; for(int tries=0; try_again; tries++) { try_again = false; for(unsigned int i=0;; i++) { ConfigTag* tag = ConfValue("connect", i); if (!tag) break; if (Classes.size() <= i) Classes.resize(i+1); if (Classes[i]) continue; ConnectClass* parent = NULL; std::string parentName = tag->getString("parent"); if (!parentName.empty()) { std::map::iterator parentIter = names.find(parentName); if (parentIter == names.end()) { try_again = true; // couldn't find parent this time. If it's the last time, we'll never find it. if (tries == 50) throw CoreException("Could not find parent connect class \"" + parentName + "\" for connect block " + ConvToStr(i)); continue; } parent = Classes[parentIter->second]; } std::string name = tag->getString("name"); if (!name.empty()) { if (names.find(name) != names.end()) throw CoreException("Two connect classes with name \"" + name + "\" defined!"); names[name] = i; } std::string mask, typeMask; char type; if (tag->readString("allow", mask, false)) { type = CC_ALLOW; typeMask = 'a' + mask; } else if (tag->readString("deny", mask, false)) { type = CC_DENY; typeMask = 'd' + mask; } else { throw CoreException("Connect class must have an allow or deny mask at " + tag->getTagLocation()); } ClassMap::iterator dupMask = newBlocksByMask.find(typeMask); if (dupMask != newBlocksByMask.end()) throw CoreException("Two connect classes cannot have the same mask (" + mask + ")"); ConnectClass* me = parent ? new ConnectClass(tag, type, mask, *parent) : new ConnectClass(tag, type, mask); if (!name.empty()) me->name = name; tag->readString("password", me->pass); tag->readString("hash", me->hash); me->registration_timeout = tag->getInt("timeout", me->registration_timeout); me->pingtime = tag->getInt("pingfreq", me->pingtime); std::string sendq; if (tag->readString("sendq", sendq)) { // attempt to guess a good hard/soft sendq from a single value long value = atol(sendq.c_str()); if (value > 16384) me->softsendqmax = value / 16; else me->softsendqmax = value; me->hardsendqmax = value * 8; } me->softsendqmax = tag->getInt("softsendq", me->softsendqmax); me->hardsendqmax = tag->getInt("hardsendq", me->hardsendqmax); me->recvqmax = tag->getInt("recvq", me->recvqmax); me->penaltythreshold = tag->getInt("threshold", me->penaltythreshold); me->maxlocal = tag->getInt("localmax", me->maxlocal); me->maxglobal = tag->getInt("globalmax", me->maxglobal); me->port = tag->getInt("port", me->port); me->maxchans = tag->getInt("maxchans", me->maxchans); me->limit = tag->getInt("limit", me->limit); ClassMap::iterator oldMask = oldBlocksByMask.find(typeMask); if (oldMask != oldBlocksByMask.end()) { ConnectClass* old = oldMask->second; oldBlocksByMask.erase(oldMask); old->Update(me); delete me; me = old; } newBlocksByMask[typeMask] = me; Classes[i] = me; } } } /** Represents a deprecated configuration tag. */ struct Deprecated { /** Tag name */ const char* tag; /** Tag value */ const char* value; /** Reason for deprecation */ const char* reason; }; static const Deprecated ChangedConfig[] = { {"options", "hidelinks", "has been moved to as of 1.2a3"}, {"options", "hidewhois", "has been moved to as of 1.2a3"}, {"options", "userstats", "has been moved to as of 1.2a3"}, {"options", "customversion", "has been moved to as of 1.2a3"}, {"options", "hidesplits", "has been moved to as of 1.2a3"}, {"options", "hidebans", "has been moved to as of 1.2a3"}, {"options", "hidekills", "has been moved to as of 1.2a3"}, {"options", "operspywhois", "has been moved to as of 1.2a3"}, {"options", "announceinvites", "has been moved to as of 1.2a3"}, {"options", "hidemodes", "has been moved to as of 1.2a3"}, {"options", "maxtargets", "has been moved to as of 1.2a3"}, {"options", "nouserdns", "has been moved to as of 1.2a3"}, {"options", "maxwho", "has been moved to as of 1.2a3"}, {"options", "softlimit", "has been moved to as of 1.2a3"}, {"options", "somaxconn", "has been moved to as of 1.2a3"}, {"options", "netbuffersize", "has been moved to as of 1.2a3"}, {"options", "maxwho", "has been moved to as of 1.2a3"}, {"options", "loglevel", "1.2 does not use the loglevel value. Please define tags instead."}, {"die", "value", "has always been deprecated"}, }; void ServerConfig::Fill() { ReqRead(this, "server", "name", ServerName); ReqRead(this, "power", "diepass", diepass); ReqRead(this, "power", "restartpass", restartpass); ConfigTag* options = ConfValue("options"); ConfigTag* security = ConfValue("security"); powerhash = ConfValue("power")->getString("hash"); DieDelay = ConfValue("power")->getInt("pause"); PrefixQuit = options->getString("prefixquit"); SuffixQuit = options->getString("suffixquit"); FixedQuit = options->getString("fixedquit"); PrefixPart = options->getString("prefixpart"); SuffixPart = options->getString("suffixpart"); FixedPart = options->getString("fixedpart"); SoftLimit = ConfValue("performance")->getInt("softlimit", ServerInstance->SE->GetMaxFds()); MaxConn = ConfValue("performance")->getInt("somaxconn", SOMAXCONN); MoronBanner = options->getString("moronbanner", "You're banned!"); ServerDesc = ConfValue("server")->getString("description", "Configure Me"); Network = ConfValue("server")->getString("network", "Network"); sid = ConfValue("server")->getString("id", ""); AdminName = ConfValue("admin")->getString("name", ""); AdminEmail = ConfValue("admin")->getString("email", "null@example.com"); AdminNick = ConfValue("admin")->getString("nick", "admin"); ModPath = ConfValue("path")->getString("moduledir", MOD_PATH); NetBufferSize = ConfValue("performance")->getInt("netbuffersize", 10240); MaxWhoResults = ConfValue("performance")->getInt("maxwho", 1024); dns_timeout = ConfValue("dns")->getInt("timeout", 5); DisabledCommands = ConfValue("disabled")->getString("commands", ""); DisabledDontExist = ConfValue("disabled")->getBool("fakenonexistant"); SetUser = security->getString("runasuser"); SetGroup = security->getString("runasgroup"); UserStats = security->getString("userstats"); CustomVersion = security->getString("customversion"); HideSplits = security->getBool("hidesplits"); HideBans = security->getBool("hidebans"); HideWhoisServer = security->getString("hidewhois"); HideKillsServer = security->getString("hidekills"); OperSpyWhois = security->getBool("operspywhois"); RestrictBannedUsers = security->getBool("restrictbannedusers", true); GenericOper = security->getBool("genericoper"); NoUserDns = ConfValue("performance")->getBool("nouserdns"); SyntaxHints = options->getBool("syntaxhints"); CycleHosts = options->getBool("cyclehosts"); UndernetMsgPrefix = options->getBool("ircumsgprefix"); FullHostInTopic = options->getBool("hostintopic"); MaxTargets = security->getInt("maxtargets", 20); DefaultModes = options->getString("defaultmodes", "nt"); PID = ConfValue("pid")->getString("file"); WhoWasGroupSize = ConfValue("whowas")->getInt("groupsize"); WhoWasMaxGroups = ConfValue("whowas")->getInt("maxgroups"); WhoWasMaxKeep = ServerInstance->Duration(ConfValue("whowas")->getString("maxkeep")); DieValue = ConfValue("die")->getString("value"); MaxChans = ConfValue("channels")->getInt("users"); OperMaxChans = ConfValue("channels")->getInt("opers"); c_ipv4_range = ConfValue("cidr")->getInt("ipv4clone"); c_ipv6_range = ConfValue("cidr")->getInt("ipv6clone"); Limits.NickMax = ConfValue("limits")->getInt("maxnick", 32); Limits.ChanMax = ConfValue("limits")->getInt("maxchan", 64); Limits.MaxModes = ConfValue("limits")->getInt("maxmodes", 20); Limits.IdentMax = ConfValue("limits")->getInt("maxident", 11); Limits.MaxQuit = ConfValue("limits")->getInt("maxquit", 255); Limits.MaxTopic = ConfValue("limits")->getInt("maxtopic", 307); Limits.MaxKick = ConfValue("limits")->getInt("maxkick", 255); Limits.MaxGecos = ConfValue("limits")->getInt("maxgecos", 128); Limits.MaxAway = ConfValue("limits")->getInt("maxaway", 200); InvBypassModes = options->getBool("invitebypassmodes", true); range(SoftLimit, 10, ServerInstance->SE->GetMaxFds(), ServerInstance->SE->GetMaxFds(), ""); range(MaxConn, 0, SOMAXCONN, SOMAXCONN, ""); range(MaxTargets, 1, 31, 20, ""); range(NetBufferSize, 1024, 65534, 10240, ""); range(MaxWhoResults, 1, 65535, 1024, ""); range(WhoWasGroupSize, 0, 10000, 10, ""); range(WhoWasMaxGroups, 0, 1000000, 10240, ""); range(WhoWasMaxKeep, 3600, INT_MAX, 3600, ""); ValidIP(DNSServer, ""); ValidHost(ServerName, ""); if (!sid.empty() && !ServerInstance->IsSID(sid)) throw CoreException(sid + " is not a valid server ID. A server ID must be 3 characters long, with the first character a digit and the next two characters a digit or letter."); for (int i = 0;; ++i) { ConfigTag* tag = ConfValue("uline", i); if (!tag) break; std::string server; if (!tag->readString("server", server)) throw CoreException(" tag missing server at " + tag->getTagLocation()); ulines[assign(server)] = tag->getBool("silent"); } for(int i=0;; ++i) { ConfigTag* tag = ConfValue("banlist", i); if (!tag) break; std::string chan; if (!tag->readString("chan", chan)) throw CoreException(" tag missing chan at " + tag->getTagLocation()); maxbans[chan] = tag->getInt("limit"); } ReadXLine(this, "badip", "ipmask", ServerInstance->XLines->GetFactory("Z")); ReadXLine(this, "badnick", "nick", ServerInstance->XLines->GetFactory("Q")); ReadXLine(this, "badhost", "host", ServerInstance->XLines->GetFactory("K")); ReadXLine(this, "exception", "host", ServerInstance->XLines->GetFactory("E")); memset(DisabledUModes, 0, sizeof(DisabledUModes)); for (const unsigned char* p = (const unsigned char*)ConfValue("disabled")->getString("usermodes").c_str(); *p; ++p) { if (*p < 'A' || *p > ('A' + 64)) throw CoreException(std::string("Invalid usermode ")+(char)*p+" was found."); DisabledUModes[*p - 'A'] = 1; } memset(DisabledCModes, 0, sizeof(DisabledCModes)); for (const unsigned char* p = (const unsigned char*)ConfValue("disabled")->getString("chanmodes").c_str(); *p; ++p) { if (*p < 'A' || *p > ('A' + 64)) throw CoreException(std::string("Invalid chanmode ")+(char)*p+" was found."); DisabledCModes[*p - 'A'] = 1; } memset(HideModeLists, 0, sizeof(HideModeLists)); for (const unsigned char* p = (const unsigned char*)ConfValue("security")->getString("hidemodes").c_str(); *p; ++p) HideModeLists[*p] = true; std::string v = security->getString("announceinvites"); if (v == "ops") AnnounceInvites = ServerConfig::INVITE_ANNOUNCE_OPS; else if (v == "all") AnnounceInvites = ServerConfig::INVITE_ANNOUNCE_ALL; else if (v == "dynamic") AnnounceInvites = ServerConfig::INVITE_ANNOUNCE_DYNAMIC; else AnnounceInvites = ServerConfig::INVITE_ANNOUNCE_NONE; Limits.Finalise(); } /* These tags MUST occur and must ONLY occur once in the config file */ static const char* const Once[] = { "server", "admin", "files", "power", "options" }; // WARNING: it is not safe to use most of the codebase in this function, as it // will run in the config reader thread void ServerConfig::Read() { /* Load and parse the config file, if there are any errors then explode */ ParseStack stack(this); try { valid = stack.ParseFile(ServerInstance->ConfigFileName, 0); } catch (CoreException& err) { valid = false; errstr << err.GetReason(); } if (valid) { ReadFile(MOTD, ConfValue("files")->getString("motd")); ReadFile(RULES, ConfValue("files")->getString("rules")); DNSServer = ConfValue("dns")->getString("server"); FindDNS(DNSServer); } } void ServerConfig::Apply(ServerConfig* old, const std::string &useruid) { valid = true; /* The stuff in here may throw CoreException, be sure we're in a position to catch it. */ try { /* Check we dont have more than one of singular tags, or any of them missing */ for (int Index = 0; Index * sizeof(*Once) < sizeof(Once); Index++) { std::string tag = Once[Index]; if (!ConfValue(tag)) throw CoreException("You have not defined a <"+tag+"> tag, this is required."); if (ConfValue(tag, 1)) { errstr << "You have more than one <" << tag << "> tag.\n" << "First occurrence at " << ConfValue(tag, 0)->getTagLocation() << "; second occurrence at " << ConfValue(tag, 1)->getTagLocation() << std::endl; } } for (int Index = 0; Index * sizeof(Deprecated) < sizeof(ChangedConfig); Index++) { std::string dummy; if (ConfValue(ChangedConfig[Index].tag)->readString(ChangedConfig[Index].value, dummy, true)) errstr << "Your configuration contains a deprecated value: <" << ChangedConfig[Index].tag << ":" << ChangedConfig[Index].value << "> - " << ChangedConfig[Index].reason << " (at " << ConfValue(ChangedConfig[Index].tag)->getTagLocation() << ")\n"; } Fill(); // Handle special items CrossCheckOperClassType(); CrossCheckConnectBlocks(old); } catch (CoreException &ce) { errstr << ce.GetReason(); } // write once here, to try it out and make sure its ok ServerInstance->WritePID(this->PID); /* * These values can only be set on boot. Keep their old values. Do it before we send messages so we actually have a servername. */ if (old) { this->ServerName = old->ServerName; this->sid = old->sid; this->argv = old->argv; this->argc = old->argc; // Same for ports... they're bound later on first run. FailedPortList pl; ServerInstance->BindPorts(pl); if (pl.size()) { errstr << "Not all your client ports could be bound.\nThe following port(s) failed to bind:\n"; int j = 1; for (FailedPortList::iterator i = pl.begin(); i != pl.end(); i++, j++) { char buf[MAXBUF]; snprintf(buf, MAXBUF, "%d. Address: %s Reason: %s\n", j, i->first.empty() ? "" : i->first.c_str(), i->second.c_str()); errstr << buf; } } } User* user = useruid.empty() ? NULL : ServerInstance->FindNick(useruid); valid = errstr.str().empty(); if (!valid) ServerInstance->Logs->Log("CONFIG",DEFAULT, "There were errors in your configuration file:"); while (errstr.good()) { std::string line; getline(errstr, line, '\n'); if (!line.empty()) { if (user) user->WriteServ("NOTICE %s :*** %s", user->nick.c_str(), line.c_str()); else ServerInstance->SNO->WriteGlobalSno('a', line); } if (!old) { // Starting up, so print it out so it's seen. XXX this is a bit of a hack. printf("%s\n", line.c_str()); } } errstr.clear(); errstr.str(std::string()); /* No old configuration -> initial boot, nothing more to do here */ if (!old) { if (!valid) { ServerInstance->Exit(EXIT_STATUS_CONFIG); } if (ConfValue("options")->getBool("allowhalfop")) ServerInstance->Modes->AddMode(new ModeChannelHalfOp); return; } // If there were errors processing configuration, don't touch modules. if (!valid) return; ApplyModules(user); if (user) user->WriteServ("NOTICE %s :*** Successfully rehashed server.", user->nick.c_str()); ServerInstance->SNO->WriteGlobalSno('a', "*** Successfully rehashed server."); } void ServerConfig::ApplyModules(User* user) { bool AllowHalfOp = ConfValue("options")->getBool("allowhalfop"); ModeHandler* mh = ServerInstance->Modes->FindMode('h', MODETYPE_CHANNEL); if (AllowHalfOp && !mh) { ServerInstance->Logs->Log("CONFIG", DEFAULT, "Enabling halfop mode."); mh = new ModeChannelHalfOp; ServerInstance->Modes->AddMode(mh); } else if (!AllowHalfOp && mh) { ServerInstance->Logs->Log("CONFIG", DEFAULT, "Disabling halfop mode."); ServerInstance->Modes->DelMode(mh); delete mh; } Module* whowas = ServerInstance->Modules->Find("cmd_whowas.so"); if (whowas) WhowasRequest(NULL, whowas, WhowasRequest::WHOWAS_PRUNE).Send(); const std::vector v = ServerInstance->Modules->GetAllModuleNames(0); std::vector added_modules; std::set removed_modules(v.begin(), v.end()); for(int i=0; ; i++) { ConfigTag* tag = ConfValue("module", i); if (!tag) break; std::string name; if (tag->readString("name", name)) { // if this module is already loaded, the erase will succeed, so we need do nothing // otherwise, we need to add the module (which will be done later) if (removed_modules.erase(name) == 0) added_modules.push_back(name); } } for (std::set::iterator removing = removed_modules.begin(); removing != removed_modules.end(); removing++) { // Don't remove cmd_*.so, just remove m_*.so if (removing->c_str()[0] == 'c') continue; Module* m = ServerInstance->Modules->Find(*removing); if (m && ServerInstance->Modules->Unload(m)) { ServerInstance->SNO->WriteGlobalSno('a', "*** REHASH UNLOADED MODULE: %s",removing->c_str()); if (user) user->WriteNumeric(RPL_UNLOADEDMODULE, "%s %s :Module %s successfully unloaded.",user->nick.c_str(), removing->c_str(), removing->c_str()); else ServerInstance->SNO->WriteGlobalSno('a', "Module %s successfully unloaded.", removing->c_str()); } else { if (user) user->WriteNumeric(ERR_CANTUNLOADMODULE, "%s %s :Failed to unload module %s: %s",user->nick.c_str(), removing->c_str(), removing->c_str(), ServerInstance->Modules->LastError().c_str()); else ServerInstance->SNO->WriteGlobalSno('a', "Failed to unload module %s: %s", removing->c_str(), ServerInstance->Modules->LastError().c_str()); } } for (std::vector::iterator adding = added_modules.begin(); adding != added_modules.end(); adding++) { if (ServerInstance->Modules->Load(adding->c_str())) { ServerInstance->SNO->WriteGlobalSno('a', "*** REHASH LOADED MODULE: %s",adding->c_str()); if (user) user->WriteNumeric(RPL_LOADEDMODULE, "%s %s :Module %s successfully loaded.",user->nick.c_str(), adding->c_str(), adding->c_str()); else ServerInstance->SNO->WriteGlobalSno('a', "Module %s successfully loaded.", adding->c_str()); } else { if (user) user->WriteNumeric(ERR_CANTLOADMODULE, "%s %s :Failed to load module %s: %s",user->nick.c_str(), adding->c_str(), adding->c_str(), ServerInstance->Modules->LastError().c_str()); else ServerInstance->SNO->WriteGlobalSno('a', "Failed to load module %s: %s", adding->c_str(), ServerInstance->Modules->LastError().c_str()); } } } bool ServerConfig::StartsWithWindowsDriveLetter(const std::string &path) { return (path.length() > 2 && isalpha(path[0]) && path[1] == ':'); } ConfigTag* ServerConfig::ConfValue(const std::string &tag, int offset) { ConfigDataHash::size_type pos = offset; if (pos >= config_data.count(tag)) return NULL; ConfigDataHash::iterator iter = config_data.find(tag); for(int i = 0; i < offset; i++) iter++; return iter->second; } bool ConfigTag::readString(const std::string& key, std::string& value, bool allow_lf) { if (!this) return false; for(std::vector::iterator j = items.begin(); j != items.end(); ++j) { if(j->first != key) continue; value = j->second; if (!allow_lf && (value.find('\n') != std::string::npos)) { ServerInstance->Logs->Log("CONFIG",DEFAULT, "Value of <" + tag + ":" + key + "> at " + getTagLocation() + " contains a linefeed, and linefeeds in this value are not permitted -- stripped to spaces."); for (std::string::iterator n = value.begin(); n != value.end(); n++) if (*n == '\n') *n = ' '; } return true; } return false; } std::string ConfigTag::getString(const std::string& key, const std::string& def) { std::string res = def; readString(key, res); return res; } long ConfigTag::getInt(const std::string &key, long def) { std::string result; if(!readString(key, result)) return def; const char* res_cstr = result.c_str(); char* res_tail = NULL; long res = strtol(res_cstr, &res_tail, 0); if (res_tail == res_cstr) return def; switch (toupper(*res_tail)) { case 'K': res= res* 1024; break; case 'M': res= res* 1024 * 1024; break; case 'G': res= res* 1024 * 1024 * 1024; break; } return res; } double ConfigTag::getFloat(const std::string &key, double def) { std::string result; if (!readString(key, result)) return def; return strtod(result.c_str(), NULL); } bool ConfigTag::getBool(const std::string &key, bool def) { std::string result; if(!readString(key, result)) return def; return (result == "yes" || result == "true" || result == "1" || result == "on"); } std::string ConfigTag::getTagLocation() { return src_name + ":" + ConvToStr(src_line); } /** Read the contents of a file located by `fname' into a file_cache pointed at by `F'. */ bool ServerConfig::ReadFile(file_cache &F, const std::string& fname) { if (fname.empty()) return false; char linebuf[MAXBUF]; F.clear(); FileWrapper file(fopen(fname.c_str(), "r")); if (!file) return false; while (!feof(file)) { if (fgets(linebuf, sizeof(linebuf), file)) linebuf[strlen(linebuf)-1] = 0; else *linebuf = 0; F.push_back(*linebuf ? linebuf : " "); } return true; } bool ServerConfig::FileExists(const char* file) { struct stat sb; if (stat(file, &sb) == -1) return false; if ((sb.st_mode & S_IFDIR) > 0) return false; FILE *input = fopen(file, "r"); if (input == NULL) return false; else { fclose(input); return true; } } const char* ServerConfig::CleanFilename(const char* name) { const char* p = name + strlen(name); while ((p != name) && (*p != '/') && (*p != '\\')) p--; return (p != name ? ++p : p); } std::string ServerConfig::GetSID() { return sid; } void ConfigReaderThread::Run() { Config = new ServerConfig; Config->Read(); done = true; } void ConfigReaderThread::Finish() { ServerConfig* old = ServerInstance->Config; ServerInstance->Logs->Log("CONFIG",DEBUG,"Switching to new configuration..."); ServerInstance->Logs->CloseLogs(); ServerInstance->Config = this->Config; ServerInstance->Logs->OpenFileLogs(); Config->Apply(old, TheUserUID); if (Config->valid) { /* * Apply the changed configuration from the rehash. * * XXX: The order of these is IMPORTANT, do not reorder them without testing * thoroughly!!! */ ServerInstance->XLines->CheckELines(); ServerInstance->XLines->CheckELines(); ServerInstance->XLines->ApplyLines(); ServerInstance->Res->Rehash(); ServerInstance->ResetMaxBans(); Config->ApplyDisabledCommands(Config->DisabledCommands); User* user = TheUserUID.empty() ? ServerInstance->FindNick(TheUserUID) : NULL; FOREACH_MOD(I_OnRehash, OnRehash(user)); ServerInstance->BuildISupport(); delete old; } else { // whoops, abort! ServerInstance->Logs->CloseLogs(); ServerInstance->Config = old; ServerInstance->Logs->OpenFileLogs(); delete this->Config; } }