/*
 * InspIRCd -- Internet Relay Chat Daemon
 *
 *   Copyright (C) 2009 Daniel De Graaf <danieldg@inspircd.org>
 *   Copyright (C) 2007-2008 Robin Burchell <robin+git@viroteck.net>
 *   Copyright (C) 2008 Pippijn van Steenhoven <pip88nl@gmail.com>
 *   Copyright (C) 2003-2008 Craig Edwards <craigedwards@brainbox.cc>
 *   Copyright (C) 2006-2007 Oliver Lupton <oliverlupton@gmail.com>
 *   Copyright (C) 2007 Dennis Friis <peavey@inspircd.org>
 *   Copyright (C) 2003 randomdan <???@???>
 *
 * 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/>.
 */


#ifndef INSPIRCD_H
#define INSPIRCD_H

#define _FILE_OFFSET_BITS 64
#ifndef _LARGEFILE_SOURCE
#define _LARGEFILE_SOURCE
#endif

#ifndef _WIN32
#define DllExport
#define CoreExport
#else
#include "inspircd_win32wrapper.h"
/** Windows defines these already */
#undef ERROR
#endif

#ifdef __GNUC__
#define CUSTOM_PRINTF(STRING, FIRST) __attribute__((format(printf, STRING, FIRST)))
#else
#define CUSTOM_PRINTF(STRING, FIRST)
#endif

// Required system headers.
#include <csignal>
#include <ctime>
#include <cstdarg>
#include <algorithm>
#include <cmath>
#include <cstring>
#include <climits>
#include <cstdio>
#ifndef _WIN32
#include <unistd.h>
#endif

#include <sstream>
#include <string>
#include <vector>
#include <list>
#include <deque>
#include <map>
#include <bitset>
#include <set>
#include <time.h>
#include "inspircd_config.h"
#include "inspircd_version.h"
#include "typedefs.h"
#include "consolecolors.h"

CoreExport extern InspIRCd* ServerInstance;

#include "caller.h"
#include "cull_list.h"
#include "extensible.h"
#include "numerics.h"
#include "uid.h"
#include "users.h"
#include "channels.h"
#include "timer.h"
#include "hashcomp.h"
#include "logger.h"
#include "usermanager.h"
#include "socket.h"
#include "ctables.h"
#include "command_parse.h"
#include "mode.h"
#include "socketengine.h"
#include "snomasks.h"
#include "filelogger.h"
#include "modules.h"
#include "threadengine.h"
#include "configreader.h"
#include "inspstring.h"
#include "protocol.h"

#ifndef PATH_MAX
#warning Potentially broken system, PATH_MAX undefined
#define PATH_MAX 4096
#endif

/**
 * Used to define the maximum number of parameters a command may have.
 */
#define MAXPARAMETERS 127

/** Returned by some functions to indicate failure.
 */
#define ERROR -1

/** Support for librodent -
 * see http://www.chatspike.net/index.php?z=64
 */
#define ETIREDHAMSTERS EAGAIN

/** Template function to convert any input type to std::string
 */
template<typename T> inline std::string ConvNumeric(const T &in)
{
	if (in == 0) return "0";
	char res[MAXBUF];
	char* out = res;
	T quotient = in;
	while (quotient) {
		*out = "0123456789"[ std::abs( (long)quotient % 10 ) ];
		++out;
		quotient /= 10;
	}
	if (in < 0)
		*out++ = '-';
	*out = 0;
	std::reverse(res,out);
	return res;
}

/** Template function to convert any input type to std::string
 */
inline std::string ConvToStr(const int in)
{
	return ConvNumeric(in);
}

/** Template function to convert any input type to std::string
 */
inline std::string ConvToStr(const long in)
{
	return ConvNumeric(in);
}

/** Template function to convert any input type to std::string
 */
inline std::string ConvToStr(const char* in)
{
	return in;
}

/** Template function to convert any input type to std::string
 */
inline std::string ConvToStr(const bool in)
{
	return (in ? "1" : "0");
}

/** Template function to convert any input type to std::string
 */
inline std::string ConvToStr(char in)
{
	return std::string(1, in);
}

/** Template function to convert any input type to std::string
 */
template <class T> inline std::string ConvToStr(const T &in)
{
	std::stringstream tmp;
	if (!(tmp << in)) return std::string();
	return tmp.str();
}

/** Template function to convert any input type to any other type
 * (usually an integer or numeric type)
 */
template<typename T> inline long ConvToInt(const T &in)
{
	std::stringstream tmp;
	if (!(tmp << in)) return 0;
	return atol(tmp.str().c_str());
}

/** This class contains various STATS counters
 * It is used by the InspIRCd class, which internally
 * has an instance of it.
 */
class serverstats
{
  public:
	/** Number of accepted connections
	 */
	unsigned long statsAccept;
	/** Number of failed accepts
	 */
	unsigned long statsRefused;
	/** Number of unknown commands seen
	 */
	unsigned long statsUnknown;
	/** Number of nickname collisions handled
	 */
	unsigned long statsCollisions;
	/** Number of DNS queries sent out
	 */
	unsigned long statsDns;
	/** Number of good DNS replies received
	 * NOTE: This may not tally to the number sent out,
	 * due to timeouts and other latency issues.
	 */
	unsigned long statsDnsGood;
	/** Number of bad (negative) DNS replies received
	 * NOTE: This may not tally to the number sent out,
	 * due to timeouts and other latency issues.
	 */
	unsigned long statsDnsBad;
	/** Number of inbound connections seen
	 */
	unsigned long statsConnects;
	/** Total bytes of data transmitted
	 */
	unsigned long statsSent;
	/** Total bytes of data received
	 */
	unsigned long statsRecv;
#ifdef _WIN32
	/** Cpu usage at last sample
	*/
	FILETIME LastCPU;
	/** Time QP sample was read
	*/
	LARGE_INTEGER LastSampled;
	/** QP frequency
	*/
	LARGE_INTEGER QPFrequency;
#else
	/** Cpu usage at last sample
	 */
	timeval LastCPU;
	/** Time last sample was read
	 */
	timespec LastSampled;
#endif
	/** The constructor initializes all the counts to zero
	 */
	serverstats()
		: statsAccept(0), statsRefused(0), statsUnknown(0), statsCollisions(0), statsDns(0),
		statsDnsGood(0), statsDnsBad(0), statsConnects(0), statsSent(0), statsRecv(0)
	{
	}
};

DEFINE_HANDLER2(IsNickHandler, bool, const char*, size_t);
DEFINE_HANDLER2(GenRandomHandler, void, char*, size_t);
DEFINE_HANDLER1(IsIdentHandler, bool, const char*);
DEFINE_HANDLER1(FloodQuitUserHandler, void, User*);
DEFINE_HANDLER2(IsChannelHandler, bool, const char*, size_t);
DEFINE_HANDLER1(IsSIDHandler, bool, const std::string&);
DEFINE_HANDLER1(RehashHandler, void, const std::string&);
DEFINE_HANDLER3(OnCheckExemptionHandler, ModResult, User*, Channel*, const std::string&);

class TestSuite;

/** The main class of the irc server.
 * This class contains instances of all the other classes in this software.
 * Amongst other things, it contains a ModeParser, a DNS object, a CommandParser
 * object, and a list of active Module objects, and facilities for Module
 * objects to interact with the core system it implements.
 */
class CoreExport InspIRCd
{
 private:
	/** Holds the current UID. Used to generate the next one.
	 */
	char current_uid[UUID_LENGTH];

	/** Set up the signal handlers
	 */
	void SetSignals();

	/** Daemonize the ircd and close standard input/output streams
	 * @return True if the program daemonized succesfully
	 */
	bool DaemonSeed();

	/** Iterate the list of BufferedSocket objects, removing ones which have timed out
	 * @param TIME the current time
	 */
	void DoSocketTimeouts(time_t TIME);

	/** Increments the current UID by one.
	 */
	void IncrementUID(int pos);

	/** Perform background user events such as PING checks
	 */
	void DoBackgroundUserStuff();

	/** Returns true when all modules have done pre-registration checks on a user
	 * @param user The user to verify
	 * @return True if all modules have finished checking this user
	 */
	bool AllModulesReportReady(LocalUser* user);

	/** The current time, updated in the mainloop
	 */
	struct timespec TIME;

	/** A 64k buffer used to read socket data into
	 * NOTE: update ValidateNetBufferSize if you change this
	 */
	char ReadBuffer[65535];

 public:

	/** Global cull list, will be processed on next iteration
	 */
	CullList GlobalCulls;
	/** Actions that must happen outside of the current call stack */
	ActionList AtomicActions;

	/**** Functors ****/

	IsNickHandler HandleIsNick;
	IsIdentHandler HandleIsIdent;
	FloodQuitUserHandler HandleFloodQuitUser;
	OnCheckExemptionHandler HandleOnCheckExemption;
	IsChannelHandler HandleIsChannel;
	IsSIDHandler HandleIsSID;
	RehashHandler HandleRehash;
	GenRandomHandler HandleGenRandom;

	/** Globally accessible fake user record. This is used to force mode changes etc across s2s, etc.. bit ugly, but.. better than how this was done in 1.1
	 * Reason for it:
	 * kludge alert!
	 * SendMode expects a User* to send the numeric replies
	 * back to, so we create it a fake user that isnt in the user
	 * hash and set its descriptor to FD_MAGIC_NUMBER so the data
	 * falls into the abyss :p
	 */
	FakeUser* FakeClient;

	/** Returns the next available UID for this server.
	 */
	std::string GetUID();

	static const char LogHeader[];

	/** Find a user in the UUID hash
	 * @param uid The UUID to find
	 * @return A pointer to the user, or NULL if the user does not exist
	 */
	User* FindUUID(const std::string &uid);

	/** Find a user in the UUID hash
	 * @param uid The UUID to find
	 * @return A pointer to the user, or NULL if the user does not exist
	 */
	User* FindUUID(const char *uid);

	/** Build the ISUPPORT string by triggering all modules On005Numeric events
	 */
	void BuildISupport();

	/** Time this ircd was booted
	 */
	time_t startup_time;

	/** Config file pathname specified on the commandline or via ./configure
	 */
	std::string ConfigFileName;

	ExtensionManager Extensions;

	/** Mode handler, handles mode setting and removal
	 */
	ModeParser* Modes;

	/** Command parser, handles client to server commands
	 */
	CommandParser* Parser;

	/** Socket engine, handles socket activity events
	 */
	SocketEngine* SE;

	/** Thread engine, Handles threading where required
	 */
	ThreadEngine* Threads;

	/** The thread/class used to read config files in REHASH and on startup
	 */
	ConfigReaderThread* ConfigThread;

	/** LogManager handles logging.
	 */
	LogManager *Logs;

	/** ModuleManager contains everything related to loading/unloading
	 * modules.
	 */
	ModuleManager* Modules;

	/** BanCacheManager is used to speed up checking of restrictions on connection
	 * to the IRCd.
	 */
	BanCacheManager *BanCache;

	/** Stats class, holds miscellaneous stats counters
	 */
	serverstats* stats;

	/**  Server Config class, holds configuration file data
	 */
	ServerConfig* Config;

	/** Snomask manager - handles routing of snomask messages
	 * to opers.
	 */
	SnomaskManager* SNO;

	/** DNS class, provides resolver facilities to the core and modules
	 */
	DNS* Res;

	/** Timer manager class, triggers Timer timer events
	 */
	TimerManager* Timers;

	/** X-Line manager. Handles G/K/Q/E line setting, removal and matching
	 */
	XLineManager* XLines;

	/** User manager. Various methods and data associated with users.
	 */
	UserManager *Users;

	/** Channel list, a hash_map containing all channels XXX move to channel manager class
	 */
	chan_hash* chanlist;

	/** List of the open ports
	 */
	std::vector<ListenSocket*> ports;

	/** Set to the current signal recieved
	 */
	static sig_atomic_t s_signal;

	/** Protocol interface, overridden by server protocol modules
	 */
	ProtocolInterface* PI;

	/** Holds extensible for user nickforced
	 */
	LocalIntExt NICKForced;

	/** Holds extensible for user operquit
	 */
	LocalStringExt OperQuit;

	/** Get the current time
	 * Because this only calls time() once every time around the mainloop,
	 * it is much faster than calling time() directly.
	 * @return The current time as an epoch value (time_t)
	 */
	inline time_t Time() { return TIME.tv_sec; }
	/** The fractional time at the start of this mainloop iteration (nanoseconds) */
	inline long Time_ns() { return TIME.tv_nsec; }
	/** Update the current time. Don't call this unless you have reason to do so. */
	void UpdateTime();

	/** Generate a random string with the given length
	 * @param length The length in bytes
	 * @param printable if false, the string will use characters 0-255; otherwise,
	 * it will be limited to 0x30-0x7E ('0'-'~', nonspace printable characters)
	 */
	std::string GenRandomStr(int length, bool printable = true);
	/** Generate a random integer.
	 * This is generally more secure than rand()
	 */
	unsigned long GenRandomInt(unsigned long max);

	/** Fill a buffer with random bits */
	caller2<void, char*, size_t> GenRandom;

	/** Bind all ports specified in the configuration file.
	 * @return The number of ports bound without error
	 */
	int BindPorts(FailedPortList &failed_ports);

	/** Binds a socket on an already open file descriptor
	 * @param sockfd A valid file descriptor of an open socket
	 * @param port The port number to bind to
	 * @param addr The address to bind to (IP only)
	 * @param dolisten Should this port be listened on?
	 * @return True if the port was bound successfully
	 */
	bool BindSocket(int sockfd, int port, const char* addr, bool dolisten = true);

	/** Gets the GECOS (description) field of the given server.
	 * If the servername is not that of the local server, the name
	 * is passed to handling modules which will attempt to determine
	 * the GECOS that bleongs to the given servername.
	 * @param servername The servername to find the description of
	 * @return The description of this server, or of the local server
	 */
	std::string GetServerDescription(const std::string& servername);

	/** Find a user in the nick hash.
	 * If the user cant be found in the nick hash check the uuid hash
	 * @param nick The nickname to find
	 * @return A pointer to the user, or NULL if the user does not exist
	 */
	User* FindNick(const std::string &nick);

	/** Find a user in the nick hash.
	 * If the user cant be found in the nick hash check the uuid hash
	 * @param nick The nickname to find
	 * @return A pointer to the user, or NULL if the user does not exist
	 */
	User* FindNick(const char* nick);

	/** Find a user in the nick hash ONLY
	 */
	User* FindNickOnly(const char* nick);

	/** Find a user in the nick hash ONLY
	 */
	User* FindNickOnly(const std::string &nick);

	/** Find a channel in the channels hash
	 * @param chan The channel to find
	 * @return A pointer to the channel, or NULL if the channel does not exist
	 */
	Channel* FindChan(const std::string &chan);

	/** Find a channel in the channels hash
	 * @param chan The channel to find
	 * @return A pointer to the channel, or NULL if the channel does not exist
	 */
	Channel* FindChan(const char* chan);

	/** Check we aren't running as root, and exit if we are
	 * @return Depending on the configuration, this function may never return
	 */
	void CheckRoot();

	/** Determine the right path for, and open, the logfile
	 * @param argv The argv passed to main() initially, used to calculate program path
	 * @param argc The argc passed to main() initially, used to calculate program path
	 * @return True if the log could be opened, false if otherwise
	 */
	bool OpenLog(char** argv, int argc);

	/** Return true if a channel name is valid
	 * @param chname A channel name to verify
	 * @return True if the name is valid
	 */
	caller2<bool, const char*, size_t> IsChannel;

	/** Return true if str looks like a server ID
	 * @param string to check against
	 */
	caller1<bool, const std::string&> IsSID;

	/** Rehash the local server
	 */
	caller1<void, const std::string&> Rehash;

	/** Handles incoming signals after being set
	 * @param signal the signal recieved
	 */
	void SignalHandler(int signal);

	/** Sets the signal recieved
	 * @param signal the signal recieved
	 */
	static void SetSignal(int signal);

	/** Causes the server to exit after unloading modules and
	 * closing all open file descriptors.
	 *
	 * @param status The exit code to give to the operating system
	 * (See the ExitStatus enum for valid values)
	 */
	void Exit(int status);

	/** Causes the server to exit immediately with exit code 0.
	 * The status code is required for signal handlers, and ignored.
	 */
	static void QuickExit(int status);

	/** Return a count of channels on the network
	 * @return The number of channels
	 */
	long ChannelCount();

	/** Send an error notice to all local users, opered and unopered
	 * @param s The error string to send
	 */
	void SendError(const std::string &s);

	/** Return true if a nickname is valid
	 * @param n A nickname to verify
	 * @return True if the nick is valid
	 */
	caller2<bool, const char*, size_t> IsNick;

	/** Return true if an ident is valid
	 * @param An ident to verify
	 * @return True if the ident is valid
	 */
	caller1<bool, const char*> IsIdent;

	/** Add a dns Resolver class to this server's active set
	 * @param r The resolver to add
	 * @param cached If this value is true, then the cache will
	 * be searched for the DNS result, immediately. If the value is
	 * false, then a request will be sent to the nameserver, and the
	 * result will not be immediately available. You should usually
	 * use the boolean value which you passed to the Resolver
	 * constructor, which Resolver will set appropriately depending
	 * on if cached results are available and haven't expired. It is
	 * however safe to force this value to false, forcing a remote DNS
	 * lookup, but not an update of the cache.
	 * @return True if the operation completed successfully. Note that
	 * if this method returns true, you should not attempt to access
	 * the resolver class you pass it after this call, as depending upon
	 * the request given, the object may be deleted!
	 */
	bool AddResolver(Resolver* r, bool cached);

	/** Add a command to this server's command parser
	 * @param f A Command command handler object to add
	 * @throw ModuleException Will throw ModuleExcption if the command already exists
	 */
	inline void AddCommand(Command *f)
	{
		Modules->AddService(*f);
	}

	/** Send a modechange.
	 * The parameters provided are identical to that sent to the
	 * handler for class cmd_mode.
	 * @param parameters The mode parameters
	 * @param user The user to send error messages to
	 */
	void SendMode(const std::vector<std::string>& parameters, User *user);

	/** Send a modechange and route it to the network.
	 * The parameters provided are identical to that sent to the
	 * handler for class cmd_mode.
	 * @param parameters The mode parameters
	 * @param user The user to send error messages to
	 */
	void SendGlobalMode(const std::vector<std::string>& parameters, User *user);

	/** Match two strings using pattern matching, optionally, with a map
	 * to check case against (may be NULL). If map is null, match will be case insensitive.
	 * @param str The literal string to match against
	 * @param mask The glob pattern to match against.
	 * @param map The character map to use when matching.
	 */
	static bool Match(const std::string &str, const std::string &mask, unsigned const char *map = NULL);
	static bool Match(const  char *str, const char *mask, unsigned const char *map = NULL);

	/** Match two strings using pattern matching, optionally, with a map
	 * to check case against (may be NULL). If map is null, match will be case insensitive.
	 * Supports CIDR patterns as well as globs.
	 * @param str The literal string to match against
	 * @param mask The glob or CIDR pattern to match against.
	 * @param map The character map to use when matching.
	 */
	static bool MatchCIDR(const std::string &str, const std::string &mask, unsigned const char *map = NULL);
	static bool MatchCIDR(const  char *str, const char *mask, unsigned const char *map = NULL);

	/** Call the handler for a given command.
	 * @param commandname The command whos handler you wish to call
	 * @param parameters The mode parameters
	 * @param user The user to execute the command as
	 * @return True if the command handler was called successfully
	 */
	CmdResult CallCommandHandler(const std::string &commandname, const std::vector<std::string>& parameters, User* user);

	/** Return true if the command is a module-implemented command and the given parameters are valid for it
	 * @param commandname The command name to check
	 * @param pcnt The parameter count
	 * @param user The user to test-execute the command as
	 * @return True if the command handler is a module command, and there are enough parameters and the user has permission to the command
	 */
	bool IsValidModuleCommand(const std::string &commandname, int pcnt, User* user);

	/** Return true if the given parameter is a valid nick!user\@host mask
	 * @param mask A nick!user\@host masak to match against
	 * @return True i the mask is valid
	 */
	bool IsValidMask(const std::string &mask);

	/** Strips all color codes from the given string
	 * @param sentence The string to strip from
	 */
	static void StripColor(std::string &sentence);

	/** Parses color codes from string values to actual color codes
	 * @param input The data to process
	 */
	static void ProcessColors(file_cache& input);

	/** Rehash the local server
	 */
	void RehashServer();

	/** Check if the given nickmask matches too many users, send errors to the given user
	 * @param nick A nickmask to match against
	 * @param user A user to send error text to
	 * @return True if the nick matches too many users
	 */
	bool NickMatchesEveryone(const std::string &nick, User* user);

	/** Check if the given IP mask matches too many users, send errors to the given user
	 * @param ip An ipmask to match against
	 * @param user A user to send error text to
	 * @return True if the ip matches too many users
	 */
	bool IPMatchesEveryone(const std::string &ip, User* user);

	/** Check if the given hostmask matches too many users, send errors to the given user
	 * @param mask A hostmask to match against
	 * @param user A user to send error text to
	 * @return True if the host matches too many users
	 */
	bool HostMatchesEveryone(const std::string &mask, User* user);

	/** Calculate a duration in seconds from a string in the form 1y2w3d4h6m5s
	 * @param str A string containing a time in the form 1y2w3d4h6m5s
	 * (one year, two weeks, three days, four hours, six minutes and five seconds)
	 * @return The total number of seconds
	 */
	long Duration(const std::string &str);

	/** Attempt to compare a password to a string from the config file.
	 * This will be passed to handling modules which will compare the data
	 * against possible hashed equivalents in the input string.
	 * @param ex The object (user, server, whatever) causing the comparison.
	 * @param data The data from the config file
	 * @param input The data input by the oper
	 * @param hashtype The hash from the config file
	 * @return 0 if the strings match, 1 or -1 if they do not
	 */
	int PassCompare(Extensible* ex, const std::string &data, const std::string &input, const std::string &hashtype);

	/** Check if a given server is a uline.
	 * An empty string returns true, this is by design.
	 * @param server The server to check for uline status
	 * @return True if the server is a uline OR the string is empty
	 */
	bool ULine(const std::string& server);

	/** Returns true if the uline is 'silent' (doesnt generate
	 * remote connect notices etc).
	 */
	bool SilentULine(const std::string& server);

	/** Returns the full version string of this ircd
	 * @return The version string
	 */
	std::string GetVersionString(bool rawversion = false);

	/** Attempt to write the process id to a given file
	 * @param filename The PID file to attempt to write to
	 * @param exitonfail If true and the PID fail cannot be written log to stdout and exit, otherwise only log on failure
	 * @return This function may bail if the file cannot be written
	 */
	void WritePID(const std::string& filename, bool exitonfail = true);

	/** This constructor initialises all the subsystems and reads the config file.
	 * @param argc The argument count passed to main()
	 * @param argv The argument list passed to main()
	 * @throw <anything> If anything is thrown from here and makes it to
	 * you, you should probably just give up and go home. Yes, really.
	 * It's that bad. Higher level classes should catch any non-fatal exceptions.
	 */
	InspIRCd(int argc, char** argv);

	/** Send a line of WHOIS data to a user.
	 * @param user user to send the line to
	 * @param dest user being WHOISed
	 * @param numeric Numeric to send
	 * @param text Text of the numeric
	 */
	void SendWhoisLine(User* user, User* dest, int numeric, const std::string &text);

	/** Send a line of WHOIS data to a user.
	 * @param user user to send the line to
	 * @param dest user being WHOISed
	 * @param numeric Numeric to send
	 * @param format Format string for the numeric
	 * @param ... Parameters for the format string
	 */
	void SendWhoisLine(User* user, User* dest, int numeric, const char* format, ...) CUSTOM_PRINTF(5, 6);

	/** Handle /WHOIS
	 */
	void DoWhois(User* user, User* dest,unsigned long signon, unsigned long idle, const char* nick);

	/** Quit a user for excess flood, and if they are not
	 * fully registered yet, temporarily zline their IP.
	 * @param current user to quit
	 */
	caller1<void, User*> FloodQuitUser;

	/** Called to check whether a channel restriction mode applies to a user
	 * @param User that is attempting some action
	 * @param Channel that the action is being performed on
	 * @param Action name
	 */
	caller3<ModResult, User*, Channel*, const std::string&> OnCheckExemption;

	/** Restart the server.
	 * This function will not return. If an error occurs,
	 * it will throw an instance of CoreException.
	 * @param reason The restart reason to show to all clients
	 * @throw CoreException An instance of CoreException indicating the error from execv().
	 */
	void Restart(const std::string &reason);

	/** Prepare the ircd for restart or shutdown.
	 * This function unloads all modules which can be unloaded,
	 * closes all open sockets, and closes the logfile.
	 */
	void Cleanup();

	/** This copies the user and channel hash_maps into new hash maps.
	 * This frees memory used by the hash_map allocator (which it neglects
	 * to free, most of the time, using tons of ram)
	 */
	void RehashUsersAndChans();

	/** Resets the cached max bans value on all channels.
	 * Called by rehash.
	 */
	void ResetMaxBans();

	/** Return a time_t as a human-readable string.
	 */
	std::string TimeString(time_t curtime);

	/** Begin execution of the server.
	 * NOTE: this function NEVER returns. Internally,
	 * it will repeatedly loop.
	 * @return The return value for this function is undefined.
	 */
	int Run();

	/** Adds an extban char to the 005 token.
	 */
	void AddExtBanChar(char c);

	char* GetReadBuffer()
	{
		return this->ReadBuffer;
	}

	friend class TestSuite;
};

ENTRYPOINT;

template<class Cmd>
class CommandModule : public Module
{
	Cmd cmd;
 public:
	CommandModule() : cmd(this)
	{
	}

	void init()
	{
		ServerInstance->Modules->AddService(cmd);
	}

	Version GetVersion()
	{
		return Version(cmd.name, VF_VENDOR|VF_CORE);
	}
};

#endif