/*
 * InspIRCd -- Internet Relay Chat Daemon
 *
 *   Copyright (C) 2019-2020 Matt Schatz <genius3000@g3k.solutions>
 *   Copyright (C) 2019 linuxdaemon <linuxdaemon.irc@gmail.com>
 *   Copyright (C) 2013 Daniel Vassdal <shutter@canternet.org>
 *   Copyright (C) 2012-2016, 2018 Attila Molnar <attilamolnar@hush.com>
 *   Copyright (C) 2012-2013, 2016-2020 Sadie Powell <sadie@witchery.services>
 *   Copyright (C) 2012, 2018-2019 Robby <robby@chatbelgie.be>
 *   Copyright (C) 2012 DjSlash <djslash@djslash.org>
 *   Copyright (C) 2012 ChrisTX <xpipe@hotmail.de>
 *   Copyright (C) 2009-2010 Daniel De Graaf <danieldg@inspircd.org>
 *   Copyright (C) 2009 Uli Schlachter <psychon@inspircd.org>
 *   Copyright (C) 2008 Thomas Stagner <aquanight@inspircd.org>
 *   Copyright (C) 2008 John Brooks <special@inspircd.org>
 *   Copyright (C) 2007-2009 Robin Burchell <robin+git@viroteck.net>
 *   Copyright (C) 2007, 2009 Dennis Friis <peavey@inspircd.org>
 *   Copyright (C) 2006-2008 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

#include "socket.h"
#include "inspsocket.h"
#include "mode.h"
#include "membership.h"

/** connect class types
 */
enum ClassTypes {
	/** connect:allow */
	CC_ALLOW = 0,
	/** connect:deny */
	CC_DENY  = 1,
	/** named connect block (for opers, etc) */
	CC_NAMED = 2
};

/** Registration state of a user, e.g.
 * have they sent USER, NICK, PASS yet?
 */
enum RegistrationState {

#ifndef _WIN32   // Burlex: This is already defined in win32, luckily it is still 0.
	REG_NONE = 0,		/* Has sent nothing */
#endif

	REG_USER = 1,		/* Has sent USER */
	REG_NICK = 2,		/* Has sent NICK */
	REG_NICKUSER = 3, 	/* Bitwise combination of REG_NICK and REG_USER */
	REG_ALL = 7	  	/* REG_NICKUSER plus next bit along */
};

enum UserType {
	USERTYPE_LOCAL = 1,
	USERTYPE_REMOTE = 2,
	USERTYPE_SERVER = 3
};

/** Holds information relevant to &lt;connect allow&gt; and &lt;connect deny&gt; tags in the config file.
 */
struct CoreExport ConnectClass : public refcountbase
{
	reference<ConfigTag> config;
	/** Type of line, either CC_ALLOW or CC_DENY
	 */
	char type;

	/** True if this class uses fake lag to manage flood, false if it kills */
	bool fakelag;

	/** Connect class name
	 */
	std::string name;

	/** Max time to register the connection in seconds
	 */
	unsigned int registration_timeout;

	/** Host mask for this line
	 */
	std::string host;

	/** Number of seconds between pings for this line
	 */
	unsigned int pingtime;

	/** Maximum size of sendq for users in this class (bytes)
	 * Users cannot send commands if they go over this limit
	 */
	unsigned long softsendqmax;

	/** Maximum size of sendq for users in this class (bytes)
	 * Users are killed if they go over this limit
	 */
	unsigned long hardsendqmax;

	/** Maximum size of recvq for users in this class (bytes)
	 */
	unsigned long recvqmax;

	/** Seconds worth of penalty before penalty system activates
	 */
	unsigned int penaltythreshold;

	/** Maximum rate of commands (units: millicommands per second) */
	unsigned int commandrate;

	/** Local max when connecting by this connection class
	 */
	unsigned long maxlocal;

	/** Global max when connecting by this connection class
	 */
	unsigned long maxglobal;

	/** True if max connections for this class is hit and a warning is wanted
	 */
	bool maxconnwarn;

	/** Max channels for this class
	 */
	unsigned int maxchans;

	/** How many users may be in this connect class before they are refused?
	 * (0 = no limit = default)
	 */
	unsigned long limit;

	/** If set to true, no user DNS lookups are to be performed
	 */
	bool resolvehostnames;

	/**
	 * If non-empty the server ports which this user has to be using
	 */
	insp::flat_set<int> ports;

	/** If non-empty then the password a user must specify in PASS to be assigned to this class. */
	std::string password;

	/** If non-empty then the hash algorithm that the password field is hashed with. */
	std::string passwordhash;

	/** Create a new connect class with no settings.
	 */
	ConnectClass(ConfigTag* tag, char type, const std::string& mask);
	/** Create a new connect class with inherited settings.
	 */
	ConnectClass(ConfigTag* tag, char type, const std::string& mask, const ConnectClass& parent);

	/** Update the settings in this block to match the given block */
	void Update(const ConnectClass* newSettings);

	const std::string& GetName() { return name; }
	const std::string& GetHost() { return host; }

	/** Returns the registration timeout
	 */
	time_t GetRegTimeout()
	{
		return (registration_timeout ? registration_timeout : 90);
	}

	/** Returns the ping frequency
	 */
	unsigned int GetPingTime()
	{
		return (pingtime ? pingtime : 120);
	}

	/** Returns the maximum sendq value (soft limit)
	 * Note that this is in addition to internal OS buffers
	 */
	unsigned long GetSendqSoftMax()
	{
		return (softsendqmax ? softsendqmax : 4096);
	}

	/** Returns the maximum sendq value (hard limit)
	 */
	unsigned long GetSendqHardMax()
	{
		return (hardsendqmax ? hardsendqmax : 0x100000);
	}

	/** Returns the maximum recvq value
	 */
	unsigned long GetRecvqMax()
	{
		return (recvqmax ? recvqmax : 4096);
	}

	/** Returns the penalty threshold value
	 */
	unsigned int GetPenaltyThreshold()
	{
		return penaltythreshold ? penaltythreshold : (fakelag ? 10 : 20);
	}

	unsigned int GetCommandRate()
	{
		return commandrate ? commandrate : 1000;
	}

	/** Return the maximum number of local sessions
	 */
	unsigned long GetMaxLocal()
	{
		return maxlocal;
	}

	/** Returns the maximum number of global sessions
	 */
	unsigned long GetMaxGlobal()
	{
		return maxglobal;
	}
};

/** Holds all information about a user
 * This class stores all information about a user connected to the irc server. Everything about a
 * connection is stored here primarily, from the user's socket ID (file descriptor) through to the
 * user's nickname and hostname.
 */
class CoreExport User : public Extensible
{
 private:
	/** Cached nick!ident@dhost value using the displayed hostname
	 */
	std::string cached_fullhost;

	/** Cached ident@ip value using the real IP address
	 */
	std::string cached_hostip;

	/** Cached ident@realhost value using the real hostname
	 */
	std::string cached_makehost;

	/** Cached nick!ident@realhost value using the real hostname
	 */
	std::string cached_fullrealhost;

	/** Set by GetIPString() to avoid constantly re-grabbing IP via sockets voodoo.
	 */
	std::string cachedip;

	/** If set then the hostname which is displayed to users. */
	std::string displayhost;

	/** The real hostname of this user. */
	std::string realhost;

	/** The real name of this user. */
	std::string realname;

	/** The user's mode list.
	 * Much love to the STL for giving us an easy to use bitset, saving us RAM.
	 * if (modes[modeid]) is set, then the mode is set.
	 * For example, to work out if mode +i is set, we check the field
	 * User::modes[invisiblemode->modeid] == true.
	 */
	std::bitset<ModeParser::MODEID_MAX> modes;

 public:
	/** To execute a function for each local neighbor of a user, inherit from this class and
	 * pass an instance of it to User::ForEachNeighbor().
	 */
	class ForEachNeighborHandler
	{
	 public:
		/** Method to execute for each local neighbor of a user.
		 * Derived classes must implement this.
		 * @param user Current neighbor
		 */
		virtual void Execute(LocalUser* user) = 0;
	};

	/** List of Memberships for this user
	 */
	typedef insp::intrusive_list<Membership> ChanList;

	/** Time that the object was instantiated (used for TS calculation etc)
	*/
	time_t age;

	/** Time the connection was created, set in the constructor. This
	 * may be different from the time the user's classbase object was
	 * created.
	 */
	time_t signon;

	/** Client address that the user is connected from.
	 * Do not modify this value directly, use SetClientIP() to change it.
	 * Port is not valid for remote users.
	 */
	irc::sockets::sockaddrs client_sa;

	/** The users nickname.
	 * An invalid nickname indicates an unregistered connection prior to the NICK command.
	 * Use InspIRCd::IsNick() to validate nicknames.
	 */
	std::string nick;

	/** The user's unique identifier.
	 * This is the unique identifier which the user has across the network.
	 */
	const std::string uuid;

	/** The users ident reply.
	 * Two characters are added to the user-defined limit to compensate for the tilde etc.
	 */
	std::string ident;

	/** What snomasks are set on this user.
	 * This functions the same as the above modes.
	 */
	std::bitset<64> snomasks;

	/** Channels this user is on
	 */
	ChanList chans;

	/** The server the user is connected to.
	 */
	Server* server;

	/** The user's away message.
	 * If this string is empty, the user is not marked as away.
	 */
	std::string awaymsg;

	/** Time the user last went away.
	 * This is ONLY RELIABLE if user IsAway()!
	 */
	time_t awaytime;

	/** The oper type they logged in as, if they are an oper.
	 */
	reference<OperInfo> oper;

	/** Used by User to indicate the registration status of the connection
	 * It is a bitfield of the REG_NICK, REG_USER and REG_ALL bits to indicate
	 * the connection state.
	 */
	unsigned int registered:3;

	/** If this is set to true, then all socket operations for the user
	 * are dropped into the bit-bucket.
	 * This value is set by QuitUser, and is not needed separately from that call.
	 * Please note that setting this value alone will NOT cause the user to quit.
	 */
	unsigned int quitting:1;

	/** What type of user is this? */
	const unsigned int usertype:2;

	/** Get client IP string from sockaddr, using static internal buffer
	 * @return The IP string
	 */
	const std::string& GetIPString();

	/** Retrieves this user's hostname.
	 * @param uncloak If true then return the real host; otherwise, the display host.
	 */
	const std::string& GetHost(bool uncloak) const;

	/** Retrieves this user's displayed hostname. */
	const std::string& GetDisplayedHost() const;

	/** Retrieves this user's real hostname. */
	const std::string& GetRealHost() const;

	/** Retrieves this user's real name. */
	const std::string& GetRealName() const;

	/** Get CIDR mask, using default range, for this user
	 */
	irc::sockets::cidr_mask GetCIDRMask();

	/** Sets the client IP for this user
	 * @return true if the conversion was successful
	 */
	virtual bool SetClientIP(const std::string& address);

	virtual void SetClientIP(const irc::sockets::sockaddrs& sa);

	/** Constructor
	 * @throw CoreException if the UID allocated to the user already exists
	 */
	User(const std::string& uid, Server* srv, UserType objtype);

	/** Returns the full displayed host of the user
	 * This member function returns the hostname of the user as seen by other users
	 * on the server, in nick!ident\@host form.
	 * @return The full masked host of the user
	 */
	virtual const std::string& GetFullHost();

	/** Returns the full real host of the user
	 * This member function returns the hostname of the user as seen by other users
	 * on the server, in nick!ident\@host form. If any form of hostname cloaking is in operation,
	 * e.g. through a module, then this method will ignore it and return the true hostname.
	 * @return The full real host of the user
	 */
	virtual const std::string& GetFullRealHost();

	/** This clears any cached results that are used for GetFullRealHost() etc.
	 * The results of these calls are cached as generating them can be generally expensive.
	 */
	void InvalidateCache();

	/** Returns whether this user is currently away or not. If true,
	 * further information can be found in User::awaymsg and User::awaytime
	 * @return True if the user is away, false otherwise
	 */
	bool IsAway() const { return (!awaymsg.empty()); }

	/** Returns whether this user is an oper or not. If true,
	 * oper information can be obtained from User::oper
	 * @return True if the user is an oper, false otherwise
	 */
	bool IsOper() const { return oper; }

	/** Returns true if a notice mask is set
	 * @param sm A notice mask character to check
	 * @return True if the notice mask is set
	 */
	bool IsNoticeMaskSet(unsigned char sm);

	/** Get the mode letters of modes set on the user as a string.
	 * @param includeparams True to get the parameters of the modes as well. Defaults to false.
	 * @return Mode letters of modes set on the user and optionally the parameters of those modes, if any.
	 * The returned string always begins with a '+' character. If the user has no modes set, "+" is returned.
	 */
	std::string GetModeLetters(bool includeparams = false) const;

	/** Returns true if a specific mode is set
	 * @param m The user mode
	 * @return True if the mode is set
	 */
	bool IsModeSet(unsigned char m) const;
	bool IsModeSet(const ModeHandler* mh) const;
	bool IsModeSet(const ModeHandler& mh) const { return IsModeSet(&mh); }
	bool IsModeSet(UserModeReference& moderef) const;

	/** Set a specific usermode to on or off
	 * @param mh The user mode
	 * @param value On or off setting of the mode
	 */
	void SetMode(ModeHandler* mh, bool value);
	void SetMode(ModeHandler& mh, bool value) { SetMode(&mh, value); }

	/** Returns true or false for if a user can execute a privilaged oper command.
	 * This is done by looking up their oper type from User::oper, then referencing
	 * this to their oper classes and checking the commands they can execute.
	 * @param command A command (should be all CAPS)
	 * @return True if this user can execute the command
	 */
	virtual bool HasCommandPermission(const std::string& command);

	/** Returns true if a user has a given permission.
	 * This is used to check whether or not users may perform certain actions which admins may not wish to give to
	 * all operators, yet are not commands. An example might be oper override, mass messaging (/notice $*), etc.
	 *
	 * @param privstr The priv to chec, e.g. "users/override/topic". These are loaded free-form from the config file.
	 * @return True if this user has the permission in question.
	 */
	virtual bool HasPrivPermission(const std::string& privstr);

	/** Returns true or false if a user can set a privileged user or channel mode.
	 * This is done by looking up their oper type from User::oper, then referencing
	 * this to their oper classes, and checking the modes they can set.
	 * @param mh Mode to check
	 * @return True if the user can set or unset this mode.
	 */
	virtual bool HasModePermission(const ModeHandler* mh) const;

	/** Determines whether this user can set the specified snomask.
	 * @param chr The server notice mask character to look up.
	 * @return True if the user can set the specified snomask; otherwise, false.
	 */
	virtual bool HasSnomaskPermission(char chr) const;

	/** Creates a usermask with real host.
	 * Takes a buffer to use and fills the given buffer with the hostmask in the format user\@host
	 * @return the usermask in the format user\@host
	 */
	const std::string& MakeHost();

	/** Creates a usermask with real ip.
	 * Takes a buffer to use and fills the given buffer with the ipmask in the format user\@ip
	 * @return the usermask in the format user\@ip
	 */
	const std::string& MakeHostIP();

	/** Oper up the user using the given opertype.
	 * This will also give the +o usermode.
	 */
	void Oper(OperInfo* info);

	/** Oper down.
	 * This will clear the +o usermode and unset the user's oper type
	 */
	void UnOper();

	/** Sends a server notice to this user.
	 * @param text The contents of the message to send.
	 */
	void WriteNotice(const std::string& text);

	/** Send a NOTICE message from the local server to the user.
	 * @param text Text to send
	 */
	virtual void WriteRemoteNotice(const std::string& text);

	virtual void WriteRemoteNumeric(const Numeric::Numeric& numeric);

	template <typename T1>
	void WriteRemoteNumeric(unsigned int numeric, T1 p1)
	{
		Numeric::Numeric n(numeric);
		n.push(p1);
		WriteRemoteNumeric(n);
	}

	template <typename T1, typename T2>
	void WriteRemoteNumeric(unsigned int numeric, T1 p1, T2 p2)
	{
		Numeric::Numeric n(numeric);
		n.push(p1);
		n.push(p2);
		WriteRemoteNumeric(n);
	}

	template <typename T1, typename T2, typename T3>
	void WriteRemoteNumeric(unsigned int numeric, T1 p1, T2 p2, T3 p3)
	{
		Numeric::Numeric n(numeric);
		n.push(p1);
		n.push(p2);
		n.push(p3);
		WriteRemoteNumeric(n);
	}

	template <typename T1, typename T2, typename T3, typename T4>
	void WriteRemoteNumeric(unsigned int numeric, T1 p1, T2 p2, T3 p3, T4 p4)
	{
		Numeric::Numeric n(numeric);
		n.push(p1);
		n.push(p2);
		n.push(p3);
		n.push(p4);
		WriteRemoteNumeric(n);
	}

	template <typename T1, typename T2, typename T3, typename T4, typename T5>
	void WriteRemoteNumeric(unsigned int numeric, T1 p1, T2 p2, T3 p3, T4 p4, T5 p5)
	{
		Numeric::Numeric n(numeric);
		n.push(p1);
		n.push(p2);
		n.push(p3);
		n.push(p4);
		n.push(p5);
		WriteRemoteNumeric(n);
	}

	void WriteNumeric(const Numeric::Numeric& numeric);

	template <typename T1>
	void WriteNumeric(unsigned int numeric, T1 p1)
	{
		Numeric::Numeric n(numeric);
		n.push(p1);
		WriteNumeric(n);
	}

	template <typename T1, typename T2>
	void WriteNumeric(unsigned int numeric, T1 p1, T2 p2)
	{
		Numeric::Numeric n(numeric);
		n.push(p1);
		n.push(p2);
		WriteNumeric(n);
	}

	template <typename T1, typename T2, typename T3>
	void WriteNumeric(unsigned int numeric, T1 p1, T2 p2, T3 p3)
	{
		Numeric::Numeric n(numeric);
		n.push(p1);
		n.push(p2);
		n.push(p3);
		WriteNumeric(n);
	}

	template <typename T1, typename T2, typename T3, typename T4>
	void WriteNumeric(unsigned int numeric, T1 p1, T2 p2, T3 p3, T4 p4)
	{
		Numeric::Numeric n(numeric);
		n.push(p1);
		n.push(p2);
		n.push(p3);
		n.push(p4);
		WriteNumeric(n);
	}

	template <typename T1, typename T2, typename T3, typename T4, typename T5>
	void WriteNumeric(unsigned int numeric, T1 p1, T2 p2, T3 p3, T4 p4, T5 p5)
	{
		Numeric::Numeric n(numeric);
		n.push(p1);
		n.push(p2);
		n.push(p3);
		n.push(p4);
		n.push(p5);
		WriteNumeric(n);
	}

	/** Write to all users that can see this user (including this user in the list if include_self is true), appending CR/LF
	 * @param protoev Protocol event to send, may contain any number of messages.
	 * @param include_self Should the message be sent back to the author?
	 */
	void WriteCommonRaw(ClientProtocol::Event& protoev, bool include_self = true);

	/** Execute a function once for each local neighbor of this user. By default, the neighbors of a user are the users
	 * who have at least one common channel with the user. Modules are allowed to alter the set of neighbors freely.
	 * This function is used for example to send something conditionally to neighbors, or to send different messages
	 * to different users depending on their oper status.
	 * @param handler Function object to call, inherited from ForEachNeighborHandler.
	 * @param include_self True to include this user in the set of neighbors, false otherwise.
	 * Modules may override this. Has no effect if this user is not local.
	 */
	void ForEachNeighbor(ForEachNeighborHandler& handler, bool include_self = true);

	/** Return true if the user shares at least one channel with another user
	 * @param other The other user to compare the channel list against
	 * @return True if the given user shares at least one channel with this user
	 */
	bool SharesChannelWith(User *other);

	/** Change the displayed hostname of this user.
	 * @param host The new displayed hostname of this user.
	 * @return True if the hostname was changed successfully; otherwise, false.
	 */
	bool ChangeDisplayedHost(const std::string& host);

	/** Change the real hostname of this user.
	 * @param host The new real hostname of this user.
	 * @param resetdisplay Whether to reset the display host to this value.
	 */
	void ChangeRealHost(const std::string& host, bool resetdisplay);

	/** Change the ident (username) of a user.
	 * ALWAYS use this function, rather than writing User::ident directly,
	 * as this triggers module events allowing the change to be syncronized to
	 * remote servers.
	 * @param newident The new ident to set
	 * @return True if the change succeeded, false if it didn't
	 */
	bool ChangeIdent(const std::string& newident);

	/** Change a users realname field.
	 * @param real The user's new real name
	 * @return True if the change succeeded, false if otherwise
	 */
	bool ChangeRealName(const std::string& real);

	/** Change a user's nick
	 * @param newnick The new nick. If equal to the users uuid, the nick change always succeeds.
	 * @param newts The time at which this nick change happened.
	 * @return True if the change succeeded
	 */
	bool ChangeNick(const std::string& newnick, time_t newts = 0);

	/** Remove this user from all channels they are on, and delete any that are now empty.
	 * This is used by QUIT, and will not send part messages!
	 */
	void PurgeEmptyChannels();

	/** Default destructor
	 */
	virtual ~User();
	CullResult cull() CXX11_OVERRIDE;

	/** @copydoc Serializable::Deserialize */
	bool Deserialize(Data& data) CXX11_OVERRIDE;

	/** @copydoc Serializable::Deserialize */
	bool Serialize(Serializable::Data& data) CXX11_OVERRIDE;
};

class CoreExport UserIOHandler : public StreamSocket
{
 private:
	 size_t checked_until;
 public:
	LocalUser* const user;
	UserIOHandler(LocalUser* me)
		: StreamSocket(StreamSocket::SS_USER)
		, checked_until(0)
		, user(me)
	{
	}
	void OnDataReady() CXX11_OVERRIDE;
	bool OnSetEndPoint(const irc::sockets::sockaddrs& local, const irc::sockets::sockaddrs& remote) CXX11_OVERRIDE;
	void OnError(BufferedSocketError error) CXX11_OVERRIDE;

	/** Adds to the user's write buffer.
	 * You may add any amount of text up to this users sendq value, if you exceed the
	 * sendq value, the user will be removed, and further buffer adds will be dropped.
	 * @param data The data to add to the write buffer
	 */
	void AddWriteBuf(const std::string &data);

	/** Swaps the internals of this UserIOHandler with another one.
	 * @param other A UserIOHandler to swap internals with.
	 */
	void SwapInternals(UserIOHandler& other);
};

typedef unsigned int already_sent_t;

class CoreExport LocalUser : public User, public insp::intrusive_list_node<LocalUser>
{
	/** Add a serialized message to the send queue of the user.
	 * @param serialized Bytes to add.
	 */
	void Write(const ClientProtocol::SerializedMessage& serialized);

	/** Send a protocol event to the user, consisting of one or more messages.
	 * @param protoev Event to send, may contain any number of messages.
	 * @param msglist Message list used temporarily internally to pass to hooks and store messages
	 * before Write().
	 */
	void Send(ClientProtocol::Event& protoev, ClientProtocol::MessageList& msglist);

	/** Message list, can be passed to the two parameter Send().
	 */
	static ClientProtocol::MessageList sendmsglist;

 public:
	LocalUser(int fd, irc::sockets::sockaddrs* client, irc::sockets::sockaddrs* server);
	LocalUser(int fd, const std::string& uuid, Serializable::Data& data);

	CullResult cull() CXX11_OVERRIDE;

	UserIOHandler eh;

	/** Serializer to use when communicating with the user
	 */
	ClientProtocol::Serializer* serializer;

	/** Stats counter for bytes inbound
	 */
	unsigned int bytes_in;

	/** Stats counter for bytes outbound
	 */
	unsigned int bytes_out;

	/** Stats counter for commands inbound
	 */
	unsigned int cmds_in;

	/** Stats counter for commands outbound
	 */
	unsigned int cmds_out;

	/** Password specified by the user when they registered (if any).
	 * This is stored even if the \<connect> block doesnt need a password, so that
	 * modules may check it.
	 */
	std::string password;

	/** Contains a pointer to the connect class a user is on from
	 */
	reference<ConnectClass> MyClass;

	/** Get the connect class which this user belongs to.
	 * @return A pointer to this user's connect class.
	 */
	ConnectClass* GetClass() const { return MyClass; }

	/** Call this method to find the matching \<connect> for a user, and to check them against it.
	 */
	void CheckClass(bool clone_count = true);

	/** Server address and port that this user is connected to.
	 */
	irc::sockets::sockaddrs server_sa;

	/** Recursion fix: user is out of SendQ and will be quit as soon as possible.
	 * This can't be handled normally because QuitUser itself calls Write on other
	 * users, which could trigger their SendQ to overrun.
	 */
	unsigned int quitting_sendq:1;

	/** has the user responded to their previous ping?
	 */
	unsigned int lastping:1;

	/** This is true if the user matched an exception (E-line). It is used to save time on ban checks.
	 */
	unsigned int exempt:1;

	/** The time at which this user should be pinged next. */
	time_t nextping;

	/** Time that the connection last sent a message, used to calculate idle time
	 */
	time_t idle_lastmsg;

	/** This value contains how far into the penalty threshold the user is.
	 * This is used either to enable fake lag or for excess flood quits
	 */
	unsigned int CommandFloodPenalty;

	already_sent_t already_sent;

	/** Check if the user matches a G- or K-line, and disconnect them if they do.
	 * @param doZline True if Z-lines should be checked (if IP has changed since initial connect)
	 * Returns true if the user matched a ban, false else.
	 */
	bool CheckLines(bool doZline = false);

	/** Use this method to fully connect a user.
	 * This will send the message of the day, check G/K/E-lines, etc.
	 */
	void FullConnect();

	/** Set the connect class to which this user belongs to.
	 * @param explicit_name Set this string to tie the user to a specific class name. Otherwise, the class is fitted by checking \<connect> tags from the configuration file.
	 * @return A reference to this user's current connect class.
	 */
	void SetClass(const std::string &explicit_name = "");

	bool SetClientIP(const std::string& address) CXX11_OVERRIDE;

	void SetClientIP(const irc::sockets::sockaddrs& sa) CXX11_OVERRIDE;

	/** Send a NOTICE message from the local server to the user.
	 * The message will be sent even if the user is connected to a remote server.
	 * @param text Text to send
	 */
	void WriteRemoteNotice(const std::string& text) CXX11_OVERRIDE;

	/** Returns true or false for if a user can execute a privilaged oper command.
	 * This is done by looking up their oper type from User::oper, then referencing
	 * this to their oper classes and checking the commands they can execute.
	 * @param command A command (should be all CAPS)
	 * @return True if this user can execute the command
	 */
	bool HasCommandPermission(const std::string& command) CXX11_OVERRIDE;

	/** Returns true if a user has a given permission.
	 * This is used to check whether or not users may perform certain actions which admins may not wish to give to
	 * all operators, yet are not commands. An example might be oper override, mass messaging (/notice $*), etc.
	 *
	 * @param privstr The priv to chec, e.g. "users/override/topic". These are loaded free-form from the config file.
	 * @return True if this user has the permission in question.
	 */
	bool HasPrivPermission(const std::string& privstr) CXX11_OVERRIDE;

	/** Returns true or false if a user can set a privileged user or channel mode.
	 * This is done by looking up their oper type from User::oper, then referencing
	 * this to their oper classes, and checking the modes they can set.
	 * @param mh Mode to check
	 * @return True if the user can set or unset this mode.
	 */
	bool HasModePermission(const ModeHandler* mh) const CXX11_OVERRIDE;

	/** @copydoc User::HasSnomaskPermission */
	bool HasSnomaskPermission(char chr) const CXX11_OVERRIDE;

	/** Change nick to uuid, unset REG_NICK and send a nickname overruled numeric.
	 * This is called when another user (either local or remote) needs the nick of this user and this user
	 * isn't registered.
	 */
	void OverruleNick();

	/** Send a protocol event to the user, consisting of one or more messages.
	 * @param protoev Event to send, may contain any number of messages.
	 */
	void Send(ClientProtocol::Event& protoev);

	/** Send a single message to the user.
	 * @param protoevprov Protocol event provider.
	 * @param msg Message to send.
	 */
	void Send(ClientProtocol::EventProvider& protoevprov, ClientProtocol::Message& msg);

	/** @copydoc Serializable::Deserialize */
	bool Deserialize(Data& data) CXX11_OVERRIDE;

	/** @copydoc Serializable::Deserialize */
	bool Serialize(Serializable::Data& data) CXX11_OVERRIDE;
};

class RemoteUser : public User
{
 public:
	RemoteUser(const std::string& uid, Server* srv) : User(uid, srv, USERTYPE_REMOTE)
	{
	}
};

class CoreExport FakeUser : public User
{
 public:
	FakeUser(const std::string& uid, Server* srv)
		: User(uid, srv, USERTYPE_SERVER)
	{
		nick = srv->GetName();
	}

	FakeUser(const std::string& uid, const std::string& sname, const std::string& sdesc)
		: User(uid, new Server(uid, sname, sdesc), USERTYPE_SERVER)
	{
		nick = sname;
	}

	CullResult cull() CXX11_OVERRIDE;
	const std::string& GetFullHost() CXX11_OVERRIDE;
	const std::string& GetFullRealHost() CXX11_OVERRIDE;
};

/* Faster than dynamic_cast */
/** Is a local user */
inline LocalUser* IS_LOCAL(User* u)
{
	return (u != NULL && u->usertype == USERTYPE_LOCAL) ? static_cast<LocalUser*>(u) : NULL;
}
/** Is a remote user */
inline RemoteUser* IS_REMOTE(User* u)
{
	return (u != NULL && u->usertype == USERTYPE_REMOTE) ? static_cast<RemoteUser*>(u) : NULL;
}
/** Is a server fakeuser */
inline FakeUser* IS_SERVER(User* u)
{
	return (u != NULL && u->usertype == USERTYPE_SERVER) ? static_cast<FakeUser*>(u) : NULL;
}

inline bool User::IsModeSet(const ModeHandler* mh) const
{
	return ((mh->GetId() != ModeParser::MODEID_MAX) && (modes[mh->GetId()]));
}

inline bool User::IsModeSet(UserModeReference& moderef) const
{
	if (!moderef)
		return false;
	return IsModeSet(*moderef);
}

inline void User::SetMode(ModeHandler* mh, bool value)
{
	if (mh && mh->GetId() != ModeParser::MODEID_MAX)
		modes[mh->GetId()] = value;
}