/* +------------------------------------+ * | Inspire Internet Relay Chat Daemon | * +------------------------------------+ * * InspIRCd: (C) 2002-2007 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. * * --------------------------------------------------- */ #include "inspircd.h" #include "configreader.h" #include #include #include #include "users.h" #include "modules.h" #include "wildcard.h" #include "xline.h" #include "socketengine.h" #include "socket.h" #include "command_parse.h" bool InspIRCd::ULine(const char* server) { if (!server) return false; if (!*server) return true; return (find(Config->ulines.begin(),Config->ulines.end(),server) != Config->ulines.end()); } int InspIRCd::OperPassCompare(const char* data,const char* input, int tagnumber) { int MOD_RESULT = 0; FOREACH_RESULT_I(this,I_OnOperCompare,OnOperCompare(data, input, tagnumber)) if (MOD_RESULT == 1) return 0; if (MOD_RESULT == -1) return 1; return strcmp(data,input); } long InspIRCd::Duration(const char* str) { char n_field[MAXBUF]; long total = 0; n_field[0] = 0; if ((!strchr(str,'s')) && (!strchr(str,'m')) && (!strchr(str,'h')) && (!strchr(str,'d')) && (!strchr(str,'w')) && (!strchr(str,'y'))) { std::string n = str; n += 's'; return Duration(n.c_str()); } for (char* i = (char*)str; *i; i++) { // if we have digits, build up a string for the value in n_field, // up to 10 digits in size. if ((*i >= '0') && (*i <= '9')) { strlcat(n_field,i,10); } else { // we dont have a digit, check for numeric tokens switch (tolower(*i)) { case 's': total += atoi(n_field); break; case 'm': total += (atoi(n_field)*duration_m); break; case 'h': total += (atoi(n_field)*duration_h); break; case 'd': total += (atoi(n_field)*duration_d); break; case 'w': total += (atoi(n_field)*duration_w); break; case 'y': total += (atoi(n_field)*duration_y); break; } n_field[0] = 0; } } // add trailing seconds total += atoi(n_field); return total; } /* LoopCall is used to call a command classes handler repeatedly based on the contents of a comma seperated list. * There are two overriden versions of this method, one of which takes two potential lists and the other takes one. * We need a version which takes two potential lists for JOIN, because a JOIN may contain two lists of items at once, * the channel names and their keys as follows: * JOIN #chan1,#chan2,#chan3 key1,,key3 * Therefore, we need to deal with both lists concurrently. The first instance of this method does that by creating * two instances of irc::commasepstream and reading them both together until the first runs out of tokens. * The second version is much simpler and just has the one stream to read, and is used in NAMES, WHOIS, PRIVMSG etc. * Both will only parse until they reach ServerInstance->Config->MaxTargets number of targets, to stop abuse via spam. */ int CommandParser::LoopCall(userrec* user, command_t* CommandObj, const char** parameters, int pcnt, unsigned int splithere, unsigned int extra) { /* First check if we have more than one item in the list, if we don't we return zero here and the handler * which called us just carries on as it was. */ if (!strchr(parameters[splithere],',')) return 0; /** Some lame ircds will weed out dupes using some shitty O(n^2) algorithm. * By using std::map (thanks for the idea w00t) we can cut this down a ton. * ...VOOODOOOO! */ std::map dupes; /* Create two lists, one for channel names, one for keys */ irc::commasepstream items1(parameters[splithere]); irc::commasepstream items2(parameters[extra]); std::string item = "*"; unsigned int max = 0; /* Attempt to iterate these lists and call the command objech * which called us, for every parameter pair until there are * no more left to parse. */ while (((item = items1.GetToken()) != "") && (max++ < ServerInstance->Config->MaxTargets)) { if (dupes.find(item.c_str()) == dupes.end()) { const char* new_parameters[127]; for (int t = 0; (t < pcnt) && (t < 127); t++) new_parameters[t] = parameters[t]; std::string extrastuff = items2.GetToken(); new_parameters[splithere] = item.c_str(); new_parameters[extra] = extrastuff.c_str(); CommandObj->Handle(new_parameters,pcnt,user); dupes[item.c_str()] = true; } } return 1; } int CommandParser::LoopCall(userrec* user, command_t* CommandObj, const char** parameters, int pcnt, unsigned int splithere) { /* First check if we have more than one item in the list, if we don't we return zero here and the handler * which called us just carries on as it was. */ if (!strchr(parameters[splithere],',')) return 0; std::map dupes; /* Only one commasepstream here */ irc::commasepstream items1(parameters[splithere]); std::string item = "*"; unsigned int max = 0; /* Parse the commasepstream until there are no tokens remaining. * Each token we parse out, call the command handler that called us * with it */ while (((item = items1.GetToken()) != "") && (max++ < ServerInstance->Config->MaxTargets)) { if (dupes.find(item.c_str()) == dupes.end()) { const char* new_parameters[127]; for (int t = 0; (t < pcnt) && (t < 127); t++) new_parameters[t] = parameters[t]; new_parameters[splithere] = item.c_str(); parameters[splithere] = item.c_str(); /* Execute the command handler over and over. If someone pulls our user * record out from under us (e.g. if we /kill a comma sep list, and we're * in that list ourselves) abort if we're gone. */ CommandObj->Handle(new_parameters,pcnt,user); dupes[item.c_str()] = true; } } /* By returning 1 we tell our caller that nothing is to be done, * as all the previous calls handled the data. This makes the parent * return without doing any processing. */ return 1; } bool CommandParser::IsValidCommand(const std::string &commandname, int pcnt, userrec * user) { nspace::hash_map::iterator n = cmdlist.find(commandname); if (n != cmdlist.end()) { if ((pcnt>=n->second->min_params) && (n->second->source != "")) { if ((!n->second->flags_needed) || (user->modes[n->second->flags_needed-65])) { if (n->second->flags_needed) { return ((user->HasPermission(commandname)) || (ServerInstance->ULine(user->server))); } return true; } } } return false; } command_t* CommandParser::GetHandler(const std::string &commandname) { nspace::hash_map::iterator n = cmdlist.find(commandname); if (n != cmdlist.end()) return n->second; return NULL; } // calls a handler function for a command CmdResult CommandParser::CallHandler(const std::string &commandname,const char** parameters, int pcnt, userrec *user) { nspace::hash_map::iterator n = cmdlist.find(commandname); if (n != cmdlist.end()) { if (pcnt >= n->second->min_params) { if ((!n->second->flags_needed) || (user->modes[n->second->flags_needed-65])) { if (n->second->flags_needed) { if ((user->HasPermission(commandname)) || (!IS_LOCAL(user))) { return n->second->Handle(parameters,pcnt,user); } } else { return n->second->Handle(parameters,pcnt,user); } } } } return CMD_INVALID; } void CommandParser::ProcessCommand(userrec *user, std::string &cmd) { const char *command_p[127]; int items = 0; irc::tokenstream tokens(cmd); std::string command; tokens.GetToken(command); while (tokens.GetToken(para[items]) && (items < 127)) { command_p[items] = para[items].c_str(); items++; } std::transform(command.begin(), command.end(), command.begin(), ::toupper); int MOD_RESULT = 0; FOREACH_RESULT(I_OnPreCommand,OnPreCommand(command,command_p,items,user,false,cmd)); if (MOD_RESULT == 1) { return; } nspace::hash_map::iterator cm = cmdlist.find(command); if (cm != cmdlist.end()) { if (user) { /* activity resets the ping pending timer */ user->nping = ServerInstance->Time() + user->pingmax; if (cm->second->flags_needed) { if (!user->IsModeSet(cm->second->flags_needed)) { user->WriteServ("481 %s :Permission Denied- You do not have the required operator privileges",user->nick); return; } if (!user->HasPermission(command)) { user->WriteServ("481 %s :Permission Denied- Oper type %s does not have access to command %s",user->nick,user->oper,command.c_str()); return; } } if ((user->registered == REG_ALL) && (!*user->oper) && (cm->second->IsDisabled())) { /* command is disabled! */ user->WriteServ("421 %s %s :This command has been disabled.",user->nick,command.c_str()); return; } if (items < cm->second->min_params) { user->WriteServ("461 %s %s :Not enough parameters.", user->nick, command.c_str()); /* If syntax is given, display this as the 461 reply */ if ((ServerInstance->Config->SyntaxHints) && (cm->second->syntax.length())) user->WriteServ("304 %s :SYNTAX %s %s", user->nick, cm->second->command.c_str(), cm->second->syntax.c_str()); return; } if ((user->registered == REG_ALL) || (cm->second->WorksBeforeReg())) { /* ikky /stats counters */ cm->second->use_count++; cm->second->total_bytes += cmd.length(); int MOD_RESULT = 0; FOREACH_RESULT(I_OnPreCommand,OnPreCommand(command,command_p,items,user,true,cmd)); if (MOD_RESULT == 1) return; /* * WARNING: nothing may come after the * command handler call, as the handler * may free the user structure! */ CmdResult result = cm->second->Handle(command_p,items,user); FOREACH_MOD(I_OnPostCommand,OnPostCommand(command, command_p, items, user, result,cmd)); return; } else { user->WriteServ("451 %s :You have not registered",command.c_str()); return; } } } else if (user) { ServerInstance->stats->statsUnknown++; user->WriteServ("421 %s %s :Unknown command",user->nick,command.c_str()); } } bool CommandParser::RemoveCommands(const char* source) { nspace::hash_map::iterator i,safei; for (i = cmdlist.begin(); i != cmdlist.end(); i++) { safei = i; safei++; if (safei != cmdlist.end()) { RemoveCommand(safei, source); } } safei = cmdlist.begin(); if (safei != cmdlist.end()) { RemoveCommand(safei, source); } return true; } void CommandParser::RemoveCommand(nspace::hash_map::iterator safei, const char* source) { command_t* x = safei->second; if (x->source == std::string(source)) { cmdlist.erase(safei); } } void CommandParser::ProcessBuffer(std::string &buffer,userrec *user) { std::string::size_type a; if (!user) return; while ((a = buffer.rfind("\n")) != std::string::npos) buffer.erase(a); while ((a = buffer.rfind("\r")) != std::string::npos) buffer.erase(a); if (buffer.length()) { if (!user->muted) { ServerInstance->Log(DEBUG,"-> :%s %s",user->nick,buffer.c_str()); this->ProcessCommand(user,buffer); } } } bool CommandParser::CreateCommand(command_t *f, void* so_handle) { if (so_handle) { if (RFCCommands.find(f->command) == RFCCommands.end()) RFCCommands[f->command] = so_handle; else { ServerInstance->Log(DEFAULT,"ERK! Somehow, we loaded a cmd_*.so file twice! Only the first instance is being recorded."); return false; } } /* create the command and push it onto the table */ if (cmdlist.find(f->command) == cmdlist.end()) { cmdlist[f->command] = f; return true; } else return false; } CommandParser::CommandParser(InspIRCd* Instance) : ServerInstance(Instance) { para.resize(128); this->SetupCommandTable(); } bool CommandParser::FindSym(void** v, void* h) { *v = dlsym(h, "init_command"); const char* err = dlerror(); if (err) { ServerInstance->Log(SPARSE, "Error loading core command: %s\n", err); return false; } return true; } bool CommandParser::ReloadCommand(const char* cmd) { char filename[MAXBUF]; char commandname[MAXBUF]; int y = 0; for (const char* x = cmd; *x; x++, y++) commandname[y] = toupper(*x); commandname[y] = 0; SharedObjectList::iterator command = RFCCommands.find(commandname); if (command != RFCCommands.end()) { command_t* cmdptr = cmdlist.find(commandname)->second; cmdlist.erase(cmdlist.find(commandname)); for (char* x = commandname; *x; x++) *x = tolower(*x); delete cmdptr; dlclose(command->second); RFCCommands.erase(command); snprintf(filename, MAXBUF, "cmd_%s.so", commandname); this->LoadCommand(filename); return true; } return false; } CmdResult cmd_reload::Handle(const char** parameters, int pcnt, userrec *user) { user->WriteServ("NOTICE %s :*** Reloading command '%s'",user->nick, parameters[0]); if (ServerInstance->Parser->ReloadCommand(parameters[0])) { user->WriteServ("NOTICE %s :*** Successfully reloaded command '%s'", user->nick, parameters[0]); ServerInstance->WriteOpers("*** RELOAD: %s reloaded the '%s' command.", user->nick, parameters[0]); return CMD_SUCCESS; } else { user->WriteServ("NOTICE %s :*** Could not reload command '%s'", user->nick, parameters[0]); return CMD_FAILURE; } } void CommandParser::LoadCommand(const char* name) { char filename[MAXBUF]; void* h; command_t* (*cmd_factory_func)(InspIRCd*); snprintf(filename, MAXBUF, "%s/%s", LIBRARYDIR, name); h = dlopen(filename, RTLD_NOW | RTLD_GLOBAL); if (!h) { ServerInstance->Log(SPARSE, "Error loading core command: %s", dlerror()); return; } if (this->FindSym((void **)&cmd_factory_func, h)) { command_t* newcommand = cmd_factory_func(ServerInstance); this->CreateCommand(newcommand, h); } } void CommandParser::SetupCommandTable() { RFCCommands.clear(); DIR* library = opendir(LIBRARYDIR); if (library) { dirent* entry = NULL; while ((entry = readdir(library))) { if (match(entry->d_name, "cmd_*.so")) { this->LoadCommand(entry->d_name); } } closedir(library); } this->CreateCommand(new cmd_reload(ServerInstance)); }