/*
* InspIRCd -- Internet Relay Chat Daemon
*
* Copyright (C) 2012-2015, 2018 Attila Molnar <attilamolnar@hush.com>
* Copyright (C) 2012-2013, 2017-2022, 2026 Sadie Powell <sadie@witchery.services>
* Copyright (C) 2012 Robby <robby@chatbelgie.be>
* Copyright (C) 2009 Daniel De Graaf <danieldg@inspircd.org>
* Copyright (C) 2008 Thomas Stagner <aquanight@gmail.com>
* Copyright (C) 2007-2008 Robin Burchell <robin+git@viroteck.net>
* Copyright (C) 2007 Dennis Friis <peavey@inspircd.org>
* Copyright (C) 2003, 2006-2009 Craig Edwards <brain@inspircd.org>
*
* 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 <http://www.gnu.org/licenses/>.
*/
#pragma once
/** Used to indicate the type of a command. */
enum class CmdAccess
: uint8_t
{
/* The command has no special attributes. */
NORMAL = 0,
/** Only server operators can use the command. */
OPERATOR = 1,
/** Only servers can use the command. */
SERVER = 2,
};
/** Used to indicate the result of trying to execute a command. */
enum class CmdResult
: uint8_t
{
/** The command exists and its execution succeeded. */
SUCCESS = 0,
/** The command exists but its execution failed. */
FAILURE = 1,
/* The command does not exist. */
INVALID = 2,
};
/** Translation types for translation of parameters to their network form. */
enum class TranslateType
: uint8_t
{
/** The parameter is raw text and should not be translated. */
TEXT,
/** The parameter is a nickname and should be converted to its UUID. */
NICK,
/** The parameter has a translation handled by EncodeParameter/DecodeParameter */
CUSTOM,
};
/** The type of routes that a message can take. */
enum class RouteType
: uint8_t
{
/** The message is only routed to the local server. */
LOCAL,
/** The message is routed to all servers. */
BROADCAST,
/** The message is routed to all servers using ENCAP. */
OPTIONAL_BROADCAST,
/** The message is routed to a specific remote server. */
UNICAST,
/** The message is routed to a specific remote server using ENCAP. */
OPTIONAL_UNICAST,
/** The message is routed to a specific user, channel, or server mask. */
MESSAGE,
};
/** Describes the routing of an IRC message. */
class RouteDescriptor final
{
public:
/** The target of the message in question. */
const std::string target;
/** The type of route that the message should take. */
const RouteType type;
/** For unicast messages a specific server that the message should be routed to. */
const Server* server;
/** Creates a new route descriptor with the specified route type and target string. */
RouteDescriptor(RouteType rt, const std::string& t)
: target(t)
, type(rt)
, server(nullptr)
{
}
RouteDescriptor(RouteType rt, const Server* s = nullptr)
: type(rt)
, server(s)
{
}
};
/** The message is only routed to the local server. */
#define ROUTE_LOCALONLY (RouteDescriptor(RouteType::LOCAL))
/** The message is routed to all servers. */
#define ROUTE_BROADCAST (RouteDescriptor(RouteType::BROADCAST))
/** The message is routed to all servers using ENCAP. */
#define ROUTE_OPT_BCAST (RouteDescriptor(RouteType::OPTIONAL_BROADCAST))
/** The message is routed to a specific remote server. */
#define ROUTE_UNICAST(dest) (RouteDescriptor(RouteType::UNICAST, dest))
/** The message is routed to a specific remote server using ENCAP. */
#define ROUTE_OPT_UCAST(dest) (RouteDescriptor(RouteType::OPTIONAL_UNICAST, dest))
/** The message is routed to a specific user, channel, or server mask. */
#define ROUTE_MESSAGE(dest) (RouteDescriptor(RouteType::MESSAGE, dest))
/** A structure that defines a command. Every command available
* in InspIRCd must be defined as derived from Command.
*/
class CoreExport CommandBase
: public Service::Provider
{
public:
/** Encapsulates parameters to a command. */
class Params : public std::vector<std::string>
{
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<std::string>& paramsref, const ClientProtocol::TagMap& tagsref)
: std::vector<std::string>(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<typename Iterator>
Params(Iterator first, Iterator last)
: std::vector<std::string>(first, last)
{
}
/** Initializes a new empty instance. */
Params() = default;
/** Retrieves the IRCv3 message tags. */
const ClientProtocol::TagMap& GetTags() const { return tags; }
ClientProtocol::TagMap& GetTags() { return tags; }
};
/** Minimum number of parameters command takes
*/
const size_t 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 size_t 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).
*/
bool allow_empty_last_param = false;
/** Translation type list for possible parameters, used to tokenize
* parameters into UIDs and SIDs etc.
*/
std::vector<TranslateType> 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-separated param.
*/
CommandBase(const WeakModulePtr& me, const std::string& cmd, size_t minpara = 0, size_t 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 TranslateType::CUSTOM.
* @param parameter The parameter to encode.
* @param index The parameter index (0 == first parameter).
*/
virtual std::string EncodeParameter(const std::string& parameter, size_t index);
};
class CoreExport Command
: public CommandBase
{
private:
/** The maximum number of targets for a multi-target command (e.g. KICK). */
size_t max_targets = 0;
/** The time at which max_targets was last checked. */
time_t max_targets_checked = 0;
protected:
/** Initializes a new instance of the Command class.
* @param me The module which created this instance.
* @param cmd The name of the command.
* @param minpara The minimum number of parameters that the command accepts.
* @param maxpara The maximum number of parameters that the command accepts.
*/
Command(const WeakModulePtr& me, const std::string& cmd, size_t minpara = 0, size_t maxpara = 0);
public:
/** Unregisters this command from the command parser. */
~Command() override;
/** Whether this command accepts multiple targets. */
bool accepts_multiple_targets = false;
/** Who can access this command? */
CmdAccess access_needed = CmdAccess::NORMAL;
/** Whether the command will not be forwarded by the linking module even if it comes via ENCAP. */
bool force_manual_route = false;
/** The number of milliseconds worth of penalty that executing this command gives. */
unsigned int penalty = 1000;
/** The number of times this command has been executed. */
unsigned long use_count = 0;
/** If non-empty then the syntax of the parameter for this command. */
std::vector<std::string> syntax;
/** Whether the command can be issued before registering. */
bool works_before_reg = false;
/** Whether the command is currently being loopcalled. */
bool loopcall = false;
/** Retrieves the maximum number of targets this command can accept. */
size_t GetMaxTargets();
/** Handle the command from a user.
* @param user The user who issued the command.
* @param parameters The parameters for the command.
* @return Returns CmdResult::FAILURE on failure, CmdResult::SUCCESS on success, or CmdResult::INVALID
* if the command was malformed.
*/
virtual CmdResult Handle(User* user, const Params& parameters) = 0;
/** Determines if this command is usable by the specified.
* @param user The user to check.
*/
bool IsUsableBy(User* user) const;
/** @copydoc Service::Provider::RegisterService */
void RegisterService() override;
/** @copydoc Service::Provider::UnregisterService */
void UnregisterService() override;
/** Tells the user they did not specify enough parameters.
* @param user The user who issued the command.
* @param parameters The parameters for the command.
*/
virtual void TellNotEnoughParameters(LocalUser* user, const Params& parameters);
/** Tells the user they need to be fully connected to execute this command.
* @param user The user who issued the command.
* @param parameters The parameters for the command.
*/
virtual void TellNotFullyConnected(LocalUser* user, const Params& parameters);
};
class CoreExport SplitCommand
: public Command
{
protected:
/** Initializes a new instance of the SplitCommand class.
* @param me The module which created this instance.
* @param cmd The name of the command.
* @param minpara The minimum number of parameters that the command accepts.
* @param maxpara The maximum number of parameters that the command accepts.
*/
SplitCommand(const WeakModulePtr& me, const std::string& cmd, size_t minpara = 0, size_t maxpara = 0);
public:
/** @copydoc Command::Handle */
CmdResult Handle(User* user, const Params& parameters) override;
/** Handle the command from a local user.
* @param user The user who issued the command.
* @param parameters The parameters for the command.
* @return Returns CmdResult::FAILURE on failure, CmdResult::SUCCESS on success, or CmdResult::INVALID
* if the command was malformed.
*/
virtual CmdResult HandleLocal(LocalUser* user, const Params& parameters);
/** Handle the command from a remote user.
* @param user The user who issued the command.
* @param parameters The parameters for the command.
* @return Returns CmdResult::FAILURE on failure, CmdResult::SUCCESS on success, or CmdResult::INVALID
* if the command was malformed.
*/
virtual CmdResult HandleRemote(RemoteUser* user, const Params& parameters);
/** Handle the command from a server user.
* @param user The user who issued the command.
* @param parameters The parameters for the command.
* @return Returns CmdResult::FAILURE on failure, CmdResult::SUCCESS on success, or CmdResult::INVALID
* if the command was malformed.
*/
virtual CmdResult HandleServer(FakeUser* user, const Params& parameters);
};
/** This class handles command management and parsing.
* It allows you to add and remove commands from the map,
* call command handlers by name, and chop up comma separated
* parameters into multiple calls.
*/
class CoreExport CommandParser final
{
public:
using CommandMap = insp::casemapped_unordered_map<Command*>;
private:
/** Command list, a hash_map of command names to Command*
*/
CommandMap cmdlist;
public:
/** Get a command name -> Command* map containing all client to server commands
* @return A map of command handlers keyed by command names
*/
const CommandMap& GetCommands() const { return cmdlist; }
/** Calls the handler for a given command.
* @param commandname The command to find. This should be in uppercase.
* @param parameters Parameter list
* @param user The user to call the handler on behalf of
* @param cmd If non-NULL and the command was executed it is set to the command handler,
* otherwise it isn't written to.
* @return This method will return CmdResult::SUCCESS if the command handler was found and called,
* and the command completeld successfully. It will return CmdResult::FAILURE if the command handler was found
* and called, but the command did not complete successfully, and it will return CmdResult::INVALID if the
* command simply did not exist at all or the wrong number of parameters were given, or the user
* was not privileged enough to execute the command.
*/
CmdResult CallHandler(const std::string& commandname, const CommandBase::Params& parameters, User* user, Command** cmd = nullptr);
/** Get the handler function for a command.
* @param commandname The command required. Always use uppercase for this parameter.
* @return a pointer to the command handler, or NULL
*/
Command* GetHandler(const std::string& commandname);
/** LoopCall is used to call a command handler repeatedly based on the contents of a comma separated list.
* There are two ways to call this method, either with one potential list or with two potential lists.
* We need to handle 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. If there are two lists then the method reads
* them both together until the first runs out of tokens.
* With one list it is much simpler, and is used in NAMES, WHOIS, PRIVMSG etc.
*
* If there is only one list and there are duplicates in it, then the command handler is only called for
* unique items. Entries are compared using "irc comparison".
* If the usemax parameter is true (the default) the function only parses until it reaches
* \<maxtargets> number of targets, to stop abuse via spam.
*
* The OnPostCommand hook is executed for each item after it has been processed by the handler, with the
* original line parameter being empty (to indicate that the command in that form was created by this function).
* This only applies if the user executing the command is local.
*
* If there are two lists and the second list runs out of tokens before the first list then parameters[extra]
* will be an EMPTY string when Handle() is called for the remaining tokens in the first list, even if it is
* in the middle of parameters[]! Moreover, empty tokens in the second list are allowed, and those will also
* result in the appropriate entry being empty in parameters[].
* This is different than what command handlers usually expect; the command parser only allows an empty param
* as the last item in the vector.
*
* @param user The user who sent the command
* @param handler The command handler to call for each parameter in the list
* @param parameters Parameter list as a vector of strings
* @param splithere The first parameter index to split as a comma separated list
* @param extra The second parameter index to split as a comma separated list, or -1 (the default) if there is only one list
* @param usemax True to limit the command to \<maxtargets> targets (default), or false to process all tokens
* @return This function returns true when it identified a list in the given parameter and finished calling the
* command handler for each entry on the list. When this occurs, the caller should return without doing anything,
* otherwise it should continue into its main section of code.
*/
static bool LoopCall(User* user, Command* handler, const CommandBase::Params& parameters, size_t splithere, size_t extra = SIZE_MAX, bool usemax = true);
/** Take a raw input buffer from a recvq, and process it on behalf of a user.
* @param buffer The buffer line to process
* @param user The user to whom this line belongs
*/
void ProcessBuffer(LocalUser* user, const std::string& buffer);
/** Process a command from a user.
* @param user The user to parse the command for.
* @param command The name of the command.
* @param parameters The parameters to the command.
*/
void ProcessCommand(LocalUser* user, std::string& command, CommandBase::Params& parameters);
/** Add a new command to the commands hash
* @param f The new Command to add to the list
* @return True if the command was added
*/
bool AddCommand(Command* f);
/** Removes a command.
*/
void RemoveCommand(Command* x);
};