/* * InspIRCd -- Internet Relay Chat Daemon * * Copyright (C) 2012-2015, 2018 Attila Molnar * Copyright (C) 2012-2013, 2017-2018 Sadie Powell * Copyright (C) 2012 Robby * Copyright (C) 2009-2010 Daniel De Graaf * Copyright (C) 2008 Thomas Stagner * Copyright (C) 2007-2008 Robin Burchell * Copyright (C) 2007 Dennis Friis * Copyright (C) 2006-2010 Craig Edwards * * 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 . */ #pragma once /** Used to indicate the result of trying to execute a command. */ enum CmdResult { /** The command exists but its execution failed. */ CMD_FAILURE = 0, /** The command exists and its execution succeeded. */ CMD_SUCCESS = 1, /* The command does not exist. */ CMD_INVALID = 2 }; /** Flag for commands that are only allowed from servers */ const char FLAG_SERVERONLY = 7; // technically anything nonzero below 'A' works /** Translation types for translation of parameters to UIDs. * This allows the core commands to not have to be aware of how UIDs * work (making it still possible to write other linking modules which * do not use UID (but why would you want to?) */ enum TranslateType { TR_TEXT, /* Raw text, leave as-is */ TR_NICK, /* Nickname, translate to UUID for server->server */ TR_CUSTOM /* Custom translation handled by EncodeParameter/DecodeParameter */ }; /** Routing types for a command. Any command which is created defaults * to having its command broadcasted on success. This behaviour may be * overridden to one of the route types shown below (see the #defines * below for more information on each one's behaviour) */ enum RouteType { ROUTE_TYPE_LOCALONLY, ROUTE_TYPE_BROADCAST, ROUTE_TYPE_UNICAST, ROUTE_TYPE_MESSAGE, ROUTE_TYPE_OPT_BCAST, ROUTE_TYPE_OPT_UCAST }; /** Defines routing information for a command, containing a destination * server id (if applicable) and a routing type from the enum above. */ struct RouteDescriptor { /** Routing type from the enum above */ RouteType type; /** For unicast, the destination server's name */ std::string serverdest; /** For unicast, the destination Server */ Server* server; /** Create a RouteDescriptor */ RouteDescriptor(RouteType t, const std::string &d) : type(t), serverdest(d), server(NULL) { } RouteDescriptor(RouteType t, Server* srv) : type(t), server(srv) { } }; /** Do not route this command */ #define ROUTE_LOCALONLY (RouteDescriptor(ROUTE_TYPE_LOCALONLY, "")) /** Route this command to all servers, fail if not understood */ #define ROUTE_BROADCAST (RouteDescriptor(ROUTE_TYPE_BROADCAST, "")) /** Route this command to a single server (do nothing if own server name specified) */ #define ROUTE_UNICAST(x) (RouteDescriptor(ROUTE_TYPE_UNICAST, x)) /** Route this command as a message with the given target (any of user, #channel, @#channel, $servermask) */ #define ROUTE_MESSAGE(x) (RouteDescriptor(ROUTE_TYPE_MESSAGE, x)) /** Route this command to all servers wrapped via ENCAP, so ignored if not understood */ #define ROUTE_OPT_BCAST (RouteDescriptor(ROUTE_TYPE_OPT_BCAST, "")) /** Route this command to a single server wrapped via ENCAP, so ignored if not understood */ #define ROUTE_OPT_UCAST(x) (RouteDescriptor(ROUTE_TYPE_OPT_UCAST, x)) /** A structure that defines a command. Every command available * in InspIRCd must be defined as derived from Command. */ class CoreExport CommandBase : public ServiceProvider { public: /** Encapsulates parameters to a command. */ class Params : public std::vector { private: /* IRCv3 message tags. */ ClientProtocol::TagMap tags; public: /** Initializes a new instance from parameter and tag references. * @param paramsref Message parameters. * @param tagsref IRCv3 message tags. */ Params(const std::vector& paramsref, const ClientProtocol::TagMap& tagsref) : std::vector(paramsref) , tags(tagsref) { } /** Initializes a new instance from parameter iterators. * @param first The first element in the parameter array. * @param last The last element in the parameter array. */ template Params(Iterator first, Iterator last) : std::vector(first, last) { } /** Initializes a new empty instance. */ Params() { } /** Retrieves the IRCv3 message tags. */ const ClientProtocol::TagMap& GetTags() const { return tags; } }; /** Minimum number of parameters command takes */ const unsigned int min_params; /** Maximum number of parameters command takes. * This is used by the command parser to join extra parameters into one last param. * If not set, no munging is done to this command. */ const unsigned int max_params; /** True if the command allows an empty last parameter. * When false and the last parameter is empty, it's popped BEFORE * checking there are enough params, etc. (i.e. the handler won't * be called if there aren't enough params after popping the empty * param). * True by default */ bool allow_empty_last_param; /** Translation type list for possible parameters, used to tokenize * parameters into UIDs and SIDs etc. */ std::vector translation; /** Create a new command. * @param me The module which created this command. * @param cmd Command name. This must be UPPER CASE. * @param minpara Minimum parameters required for the command. * @param maxpara Maximum number of parameters this command may have - extra parameters * will be tossed into one last space-seperated param. */ CommandBase(Module* me, const std::string& cmd, unsigned int minpara = 0, unsigned int maxpara = 0); virtual RouteDescriptor GetRouting(User* user, const CommandBase::Params& parameters); /** Encode a parameter for server->server transmission. * Used for parameters for which the translation type is TR_CUSTOM. * @param parameter The parameter to encode. Can be modified in place. * @param index The parameter index (0 == first parameter). */ virtual void EncodeParameter(std::string& parameter, unsigned int index); virtual ~CommandBase(); }; class CoreExport Command : public CommandBase { public: /** The user modes required to be able to execute this command. */ unsigned char flags_needed; /** If true, the command will not be forwarded by the linking module even if it comes via ENCAP. * Can be used to forward commands before their effects. */ bool force_manual_route; /** The number of seconds worth of penalty that executing this command gives. */ unsigned int Penalty; /** The number of times this command has been executed. */ unsigned long use_count; /** If non-empty then the syntax of the parameter for this command. */ std::string syntax; /** Whether the command can be issued before registering. */ bool works_before_reg; Command(Module* me, const std::string& cmd, unsigned int minpara = 0, unsigned int maxpara = 0); /** Handle the command from a user. * @param parameters The parameters for the command. * @param user The user who issued the command. * @return Return CMD_SUCCESS on success, or CMD_FAILURE on failure. */ virtual CmdResult Handle(User* user, const Params& parameters) = 0; /** Register this object in the CommandParser */ void RegisterService() CXX11_OVERRIDE; /** Destructor * Removes this command from the command parser */ ~Command(); }; class CoreExport SplitCommand : public Command { public: SplitCommand(Module* me, const std::string &cmd, unsigned int minpara = 0, unsigned int maxpara = 0) : Command(me, cmd, minpara, maxpara) {} CmdResult Handle(User* user, const Params& parameters) CXX11_OVERRIDE; virtual CmdResult HandleLocal(LocalUser* user, const Params& parameters); virtual CmdResult HandleRemote(RemoteUser* user, const Params& parameters); virtual CmdResult HandleServer(FakeUser* user, const Params& parameters); }; /** Shortcut macros for defining translation lists */ #define TRANSLATE1(x1) translation.push_back(x1); #define TRANSLATE2(x1,x2) translation.push_back(x1);translation.push_back(x2); #define TRANSLATE3(x1,x2,x3) translation.push_back(x1);translation.push_back(x2);translation.push_back(x3); #define TRANSLATE4(x1,x2,x3,x4) translation.push_back(x1);translation.push_back(x2);translation.push_back(x3);translation.push_back(x4); #define TRANSLATE5(x1,x2,x3,x4,x5) translation.push_back(x1);translation.push_back(x2);translation.push_back(x3);translation.push_back(x4);\ translation.push_back(x5); #define TRANSLATE6(x1,x2,x3,x4,x5,x6) translation.push_back(x1);translation.push_back(x2);translation.push_back(x3);translation.push_back(x4);\ translation.push_back(x5);translation.push_back(x6); #define TRANSLATE7(x1,x2,x3,x4,x5,x6,x7) translation.push_back(x1);translation.push_back(x2);translation.push_back(x3);translation.push_back(x4);\ translation.push_back(x5);translation.push_back(x6);translation.push_back(x7); #define TRANSLATE8(x1,x2,x3,x4,x5,x6,x7,x8) translation.push_back(x1);translation.push_back(x2);translation.push_back(x3);translation.push_back(x4);\ translation.push_back(x5);translation.push_back(x6);translation.push_back(x7);translation.push_back(x8);