Internet Relay Chat Protocol

 







Network Working Group                                      J. Oikarinen

Request for Comments: 1459                                      D. Reed

                                                               May 1993



                      Internet Relay Chat Protocol


Status of This Memo


   This memo defines an Experimental Protocol for the Internet

   community.  Discussion and suggestions for improvement are requested.

   Please refer to the current edition of the "IAB Official Protocol

   Standards" for the standardization state and status of this protocol.

   Distribution of this memo is unlimited.


Abstract


   The IRC protocol was developed over the last 4 years since it was

   first implemented as a means for users on a BBS to chat amongst

   themselves.  Now it supports a world-wide network of servers and

   clients, and is stringing to cope with growth. Over the past 2 years,

   the average number of users connected to the main IRC network has

   grown by a factor of 10.


   The IRC protocol is a text-based protocol, with the simplest client

   being any socket program capable of connecting to the server.


Table of Contents


   1.  INTRODUCTION ...............................................    4

      1.1  Servers ................................................    4

      1.2  Clients ................................................    5

         1.2.1 Operators ..........................................    5

      1.3 Channels ................................................    5

      1.3.1  Channel Operators ....................................    6

   2. THE IRC SPECIFICATION .......................................    7

      2.1 Overview ................................................    7

      2.2 Character codes .........................................    7

      2.3 Messages ................................................    7

         2.3.1  Message format in 'pseudo' BNF ....................    8

      2.4 Numeric replies .........................................   10

   3. IRC Concepts ................................................   10

      3.1 One-to-one communication ................................   10

      3.2 One-to-many .............................................   11

         3.2.1 To a list ..........................................   11

         3.2.2 To a group (channel) ...............................   11

         3.2.3 To a host/server mask ..............................   12

      3.3 One to all ..............................................   12




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         3.3.1 Client to Client ...................................   12

         3.3.2 Clients to Server ..................................   12

         3.3.3 Server to Server ...................................   12

   4. MESSAGE DETAILS .............................................   13

      4.1 Connection Registration .................................   13

         4.1.1 Password message ...................................   14

         4.1.2 Nickname message ...................................   14

         4.1.3 User message .......................................   15

         4.1.4 Server message .....................................   16

         4.1.5 Operator message ...................................   17

         4.1.6 Quit message .......................................   17

         4.1.7 Server Quit message ................................   18

      4.2 Channel operations ......................................   19

         4.2.1 Join message .......................................   19

         4.2.2 Part message .......................................   20

         4.2.3 Mode message .......................................   21

            4.2.3.1 Channel modes .................................   21

            4.2.3.2 User modes ....................................   22

         4.2.4 Topic message ......................................   23

         4.2.5 Names message ......................................   24

         4.2.6 List message .......................................   24

         4.2.7 Invite message .....................................   25

         4.2.8 Kick message .......................................   25

      4.3 Server queries and commands .............................   26

         4.3.1 Version message ....................................   26

         4.3.2 Stats message ......................................   27

         4.3.3 Links message ......................................   28

         4.3.4 Time message .......................................   29

         4.3.5 Connect message ....................................   29

         4.3.6 Trace message ......................................   30

         4.3.7 Admin message ......................................   31

         4.3.8 Info message .......................................   31

      4.4 Sending messages ........................................   32

         4.4.1 Private messages ...................................   32

         4.4.2 Notice messages ....................................   33

      4.5 User-based queries ......................................   33

         4.5.1 Who query ..........................................   33

         4.5.2 Whois query ........................................   34

         4.5.3 Whowas message .....................................   35

      4.6 Miscellaneous messages ..................................   35

         4.6.1 Kill message .......................................   36

         4.6.2 Ping message .......................................   37

         4.6.3 Pong message .......................................   37

         4.6.4 Error message ......................................   38

   5. OPTIONAL MESSAGES ...........................................   38

      5.1 Away message ............................................   38

      5.2 Rehash command ..........................................   39

      5.3 Restart command .........................................   39




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      5.4 Summon message ..........................................   40

      5.5 Users message ...........................................   40

      5.6 Operwall command ........................................   41

      5.7 Userhost message ........................................   42

      5.8 Ison message ............................................   42

   6. REPLIES .....................................................   43

      6.1 Error Replies ...........................................   43

      6.2 Command responses .......................................   48

      6.3 Reserved numerics .......................................   56

   7. Client and server authentication ............................   56

   8. Current Implementations Details .............................   56

      8.1 Network protocol: TCP ...................................   57

         8.1.1 Support of Unix sockets ............................   57

      8.2 Command Parsing .........................................   57

      8.3 Message delivery ........................................   57

      8.4 Connection 'Liveness' ...................................   58

      8.5 Establishing a server-client connection .................   58

      8.6 Establishing a server-server connection .................   58

         8.6.1 State information exchange when connecting .........   59

      8.7 Terminating server-client connections ...................   59

      8.8 Terminating server-server connections ...................   59

      8.9 Tracking nickname changes ...............................   60

      8.10 Flood control of clients ...............................   60

      8.11 Non-blocking lookups ...................................   61

         8.11.1 Hostname (DNS) lookups ............................   61

         8.11.2 Username (Ident) lookups ..........................   61

      8.12 Configuration file .....................................   61

         8.12.1 Allowing clients to connect .......................   62

         8.12.2 Operators .........................................   62

         8.12.3 Allowing servers to connect .......................   62

         8.12.4 Administrivia .....................................   63

      8.13 Channel membership .....................................   63

   9. Current problems ............................................   63

      9.1 Scalability .............................................   63

      9.2 Labels ..................................................   63

         9.2.1 Nicknames ..........................................   63

         9.2.2 Channels ...........................................   64

         9.2.3 Servers ............................................   64

      9.3 Algorithms ..............................................   64

   10. Support and availability ...................................   64

   11. Security Considerations ....................................   65

   12. Authors' Addresses .........................................   65










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RFC 1459              Internet Relay Chat Protocol              May 1993



1.  INTRODUCTION


   The IRC (Internet Relay Chat) protocol has been designed over a

   number of years for use with text based conferencing.  This document

   describes the current IRC protocol.


   The IRC protocol has been developed on systems using the TCP/IP

   network protocol, although there is no requirement that this remain

   the only sphere in which it operates.


   IRC itself is a teleconferencing system, which (through the use of

   the client-server model) is well-suited to running on many machines

   in a distributed fashion.  A typical setup involves a single process

   (the server) forming a central point for clients (or other servers)

   to connect to, performing the required message delivery/multiplexing

   and other functions.


1.1 Servers


   The server forms the backbone of IRC, providing a point to which

   clients may connect to to talk to each other, and a point for other

   servers to connect to, forming an IRC network.  The only network

   configuration allowed for IRC servers is that of a spanning tree [see

   Fig. 1] where each server acts as a central node for the rest of the

   net it sees.



                           [ Server 15 ]  [ Server 13 ] [ Server 14]

                                 /                \         /

                                /                  \       /

        [ Server 11 ] ------ [ Server 1 ]       [ Server 12]

                              /        \          /

                             /          \        /

                  [ Server 2 ]          [ Server 3 ]

                    /       \                      \

                   /         \                      \

           [ Server 4 ]    [ Server 5 ]         [ Server 6 ]

            /    |    \                           /

           /     |     \                         /

          /      |      \____                   /

         /       |           \                 /

 [ Server 7 ] [ Server 8 ] [ Server 9 ]   [ Server 10 ]


                                  :

                               [ etc. ]

                                  :


                 [ Fig. 1. Format of IRC server network ]




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1.2 Clients


   A client is anything connecting to a server that is not another

   server.  Each client is distinguished from other clients by a unique

   nickname having a maximum length of nine (9) characters.  See the

   protocol grammar rules for what may and may not be used in a

   nickname.  In addition to the nickname, all servers must have the

   following information about all clients: the real name of the host

   that the client is running on, the username of the client on that

   host, and the server to which the client is connected.


1.2.1 Operators


   To allow a reasonable amount of order to be kept within the IRC

   network, a special class of clients (operators) is allowed to perform

   general maintenance functions on the network.  Although the powers

   granted to an operator can be considered as 'dangerous', they are

   nonetheless required.  Operators should be able to perform basic

   network tasks such as disconnecting and reconnecting servers as

   needed to prevent long-term use of bad network routing.  In

   recognition of this need, the protocol discussed herein provides for

   operators only to be able to perform such functions.  See sections

   4.1.7 (SQUIT) and 4.3.5 (CONNECT).


   A more controversial power of operators is the ability  to  remove  a

   user  from  the connected network by 'force', i.e. operators are able

   to close the connection between any client and server.   The

   justification for  this  is delicate since its abuse is both

   destructive and annoying.  For further details on this type of

   action, see section 4.6.1 (KILL).


1.3 Channels


   A channel is a named group of one or more clients which will all

   receive messages addressed to that channel.  The channel is created

   implicitly when the first client joins it, and the channel ceases to

   exist when the last client leaves it.  While channel exists, any

   client can reference the channel using the name of the channel.


   Channels names are strings (beginning with a '&' or '#' character) of

   length up to 200 characters.  Apart from the the requirement that the

   first character being either '&' or '#'; the only restriction on a

   channel name is that it may not contain any spaces (' '), a control G

   (^G or ASCII 7), or a comma (',' which is used as a list item

   separator by the protocol).


   There are two types of channels allowed by this protocol.  One is a

   distributed channel which is known to all the servers that are




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   connected to the network. These channels are marked by the first

   character being a only clients on the server where it exists may join

   it.  These are distinguished by a leading '&' character.  On top of

   these two types, there are the various channel modes available to

   alter the characteristics of individual channels.  See section 4.2.3

   (MODE command) for more details on this.


   To create a new channel or become part of an existing channel, a user

   is required to JOIN the channel.  If the channel doesn't exist prior

   to joining, the channel is created and the creating user becomes a

   channel operator.  If the channel already exists, whether or not your

   request to JOIN that channel is honoured depends on the current modes

   of the channel. For example, if the channel is invite-only, (+i),

   then you may only join if invited.  As part of the protocol, a user

   may be a part of several channels at once, but a limit of ten (10)

   channels is recommended as being ample for both experienced and

   novice users.  See section 8.13 for more information on this.


   If the IRC network becomes disjoint because of a split between two

   servers, the channel on each side is only composed of those clients

   which are connected to servers on the respective sides of the split,

   possibly ceasing to exist on one side of the split.  When the split

   is healed, the connecting servers announce to each other who they

   think is in each channel and the mode of that channel.  If the

   channel exists on both sides, the JOINs and MODEs are interpreted in

   an inclusive manner so that both sides of the new connection will

   agree about which clients are in the channel and what modes the

   channel has.


1.3.1 Channel Operators


   The channel operator (also referred to as a "chop" or "chanop") on a

   given channel is considered to 'own' that channel.  In recognition of

   this status, channel operators are endowed with certain powers which

   enable them to keep control and some sort of sanity in their channel.

   As an owner of a channel, a channel operator is not required to have

   reasons for their actions, although if their actions are generally

   antisocial or otherwise abusive, it might be reasonable to ask an IRC

   operator to intervene, or for the usersjust leave and go elsewhere

   and form their own channel.


   The commands which may only be used by channel operators are:


        KICK    - Eject a client from the channel

        MODE    - Change the channel's mode

        INVITE  - Invite a client to an invite-only channel (mode +i)

        TOPIC   - Change the channel topic in a mode +t channel





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RFC 1459              Internet Relay Chat Protocol              May 1993



   A channel operator is identified by the '@' symbol next to their

   nickname whenever it is associated with a channel (ie replies to the

   NAMES, WHO and WHOIS commands).


2. The IRC Specification


2.1 Overview


   The protocol as described herein is for use both with server to

   server and client to server connections.  There are, however, more

   restrictions on client connections (which are considered to be

   untrustworthy) than on server connections.


2.2 Character codes


   No specific character set is specified. The protocol is based on a a

   set of codes which are composed of eight (8) bits, making up an

   octet.  Each message may be composed of any number of these octets;

   however, some octet values are used for control codes which act as

   message delimiters.


   Regardless of being an 8-bit protocol, the delimiters and keywords

   are such that protocol is mostly usable from USASCII terminal and a

   telnet connection.


   Because of IRC's scandanavian origin, the characters {}| are

   considered to be the lower case equivalents of the characters []\,

   respectively. This is a critical issue when determining the

   equivalence of two nicknames.


2.3 Messages


   Servers and clients send eachother messages which may or may not

   generate a reply.  If the message contains a valid command, as

   described in later sections, the client should expect a reply as

   specified but it is not advised to wait forever for the reply; client

   to server and server to server communication is essentially

   asynchronous in nature.


   Each IRC message may consist of up to three main parts: the prefix

   (optional), the command, and the command parameters (of which there

   may be up to 15).  The prefix, command, and all parameters are

   separated by one (or more) ASCII space character(s) (0x20).


   The presence of a prefix is indicated with a single leading ASCII

   colon character (':', 0x3b), which must be the first character of the

   message itself.  There must be no gap (whitespace) between the colon

   and the prefix.  The prefix is used by servers to indicate the true




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   origin of the message.  If the prefix is missing from the message, it

   is assumed to have originated from the connection from which it was

   received.  Clients should not use prefix when sending a message from

   themselves; if they use a prefix, the only valid prefix is the

   registered nickname associated with the client.  If the source

   identified by the prefix cannot be found from the server's internal

   database, or if the source is registered from a different link than

   from which the message arrived, the server must ignore the message

   silently.


   The command must either be a valid IRC command or a three (3) digit

   number represented in ASCII text.


   IRC messages are always lines of characters terminated with a CR-LF

   (Carriage Return - Line Feed) pair, and these messages shall not

   exceed 512 characters in length, counting all characters including

   the trailing CR-LF. Thus, there are 510 characters maximum allowed

   for the command and its parameters.  There is no provision for

   continuation message lines.  See section 7 for more details about

   current implementations.


2.3.1 Message format in 'pseudo' BNF


   The protocol messages must be extracted from the contiguous stream of

   octets.  The current solution is to designate two characters, CR and

   LF, as message separators.   Empty  messages  are  silently  ignored,

   which permits  use  of  the  sequence  CR-LF  between  messages

   without extra problems.


   The extracted message is parsed into the components <prefix>,

   <command> and list of parameters matched either by <middle> or

   <trailing> components.


   The BNF representation for this is:



<message>  ::= [':' <prefix> <SPACE> ] <command> <params> <crlf>

<prefix>   ::= <servername> | <nick> [ '!' <user> ] [ '@' <host> ]

<command>  ::= <letter> { <letter> } | <number> <number> <number>

<SPACE>    ::= ' ' { ' ' }

<params>   ::= <SPACE> [ ':' <trailing> | <middle> <params> ]


<middle>   ::= <Any *non-empty* sequence of octets not including SPACE

               or NUL or CR or LF, the first of which may not be ':'>

<trailing> ::= <Any, possibly *empty*, sequence of octets not including

                 NUL or CR or LF>


<crlf>     ::= CR LF




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RFC 1459              Internet Relay Chat Protocol              May 1993



NOTES:


  1)    <SPACE> is consists only of SPACE character(s) (0x20).

        Specially notice that TABULATION, and all other control

        characters are considered NON-WHITE-SPACE.


  2)    After extracting the parameter list, all parameters are equal,

        whether matched by <middle> or <trailing>. <Trailing> is just

        a syntactic trick to allow SPACE within parameter.


  3)    The fact that CR and LF cannot appear in parameter strings is

        just artifact of the message framing. This might change later.


  4)    The NUL character is not special in message framing, and

        basically could end up inside a parameter, but as it would

        cause extra complexities in normal C string handling. Therefore

        NUL is not allowed within messages.


  5)    The last parameter may be an empty string.


  6)    Use of the extended prefix (['!' <user> ] ['@' <host> ]) must

        not be used in server to server communications and is only

        intended for server to client messages in order to provide

        clients with more useful information about who a message is

        from without the need for additional queries.


   Most protocol messages specify additional semantics and syntax for

   the extracted parameter strings dictated by their position in the

   list.  For example, many server commands will assume that the first

   parameter after the command is the list of targets, which can be

   described with:


   <target>     ::= <to> [ "," <target> ]

   <to>         ::= <channel> | <user> '@' <servername> | <nick> | <mask>

   <channel>    ::= ('#' | '&') <chstring>

   <servername> ::= <host>

   <host>       ::= see RFC 952 [DNS:4] for details on allowed hostnames

   <nick>       ::= <letter> { <letter> | <number> | <special> }

   <mask>       ::= ('#' | '$') <chstring>

   <chstring>   ::= <any 8bit code except SPACE, BELL, NUL, CR, LF and

                     comma (',')>


   Other parameter syntaxes are:


   <user>       ::= <nonwhite> { <nonwhite> }

   <letter>     ::= 'a' ... 'z' | 'A' ... 'Z'

   <number>     ::= '0' ... '9'

   <special>    ::= '-' | '[' | ']' | '\' | '`' | '^' | '{' | '}'




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RFC 1459              Internet Relay Chat Protocol              May 1993



   <nonwhite>   ::= <any 8bit code except SPACE (0x20), NUL (0x0), CR

                     (0xd), and LF (0xa)>


2.4 Numeric replies


   Most of the messages sent to the server generate a reply of some

   sort.  The most common reply is the numeric reply, used for both

   errors and normal replies.  The numeric reply must be sent as one

   message consisting of the sender prefix, the three digit numeric, and

   the target of the reply.  A numeric reply is not allowed to originate

   from a client; any such messages received by a server are silently

   dropped. In all other respects, a numeric reply is just like a normal

   message, except that the keyword is made up of 3 numeric digits

   rather than a string of letters.  A list of different replies is

   supplied in section 6.


3. IRC Concepts.


   This section is devoted to describing the actual concepts behind  the

   organization  of  the  IRC  protocol and how the current

   implementations deliver different classes of messages.




                          1--\

                              A        D---4

                          2--/ \      /

                                B----C

                               /      \

                              3        E


   Servers: A, B, C, D, E         Clients: 1, 2, 3, 4


                    [ Fig. 2. Sample small IRC network ]


3.1 One-to-one communication


   Communication on a one-to-one basis is usually only performed by

   clients, since most server-server traffic is not a result of servers

   talking only to each other.  To provide a secure means for clients to

   talk to each other, it is required that all servers be able to send a

   message in exactly one direction along the spanning tree in order to

   reach any client.  The path of a message being delivered is the

   shortest path between any two points on the spanning tree.


   The following examples all refer to Figure 2 above.






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Example 1:

     A message between clients 1 and 2 is only seen by server A, which

     sends it straight to client 2.


Example 2:

     A message between clients 1 and 3 is seen by servers A & B, and

     client 3.  No other clients or servers are allowed see the message.


Example 3:

     A message between clients 2 and 4 is seen by servers A, B, C & D

     and client 4 only.


3.2 One-to-many


   The main goal of IRC is to provide a  forum  which  allows  easy  and

   efficient  conferencing (one to many conversations).  IRC offers

   several means to achieve this, each serving its own purpose.


3.2.1 To a list


   The least efficient style of one-to-many conversation is through

   clients talking to a 'list' of users.  How this is done is almost

   self explanatory: the client gives a list of destinations to which

   the message is to be delivered and the server breaks it up and

   dispatches a separate copy of the message to each given destination.

   This isn't as efficient as using a group since the destination list

   is broken up and the dispatch sent without checking to make sure

   duplicates aren't sent down each path.


3.2.2 To a group (channel)


   In IRC the channel has a role equivalent to that of the multicast

   group; their existence is dynamic (coming and going as people join

   and leave channels) and the actual conversation carried out on a

   channel is only sent to servers which are supporting users on a given

   channel.  If there are multiple users on a server in the same

   channel, the message text is sent only once to that server and then

   sent to each client on the channel.  This action is then repeated for

   each client-server combination until the original message has fanned

   out and reached each member of the channel.


   The following examples all refer to Figure 2.


Example 4:

     Any channel with 1 client in it. Messages to the channel go to the

     server and then nowhere else.






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Example 5:

     2 clients in a channel. All messages traverse a path as if they

     were private messages between the two clients outside a channel.


Example 6:

     Clients 1, 2 and 3 in a channel.  All messages to the channel are

     sent to all clients and only those servers which must be traversed

     by the message if it were a private message to a single client.  If

     client 1 sends a message, it goes back to client 2 and then via

     server B to client 3.


3.2.3 To a host/server mask


   To provide IRC operators with some mechanism to send  messages  to  a

   large body of related users, host and server mask messages are

   provided.  These messages are sent to users whose host or server

   information  match that  of  the mask.  The messages are only sent to

   locations where users are, in a fashion similar to that of channels.


3.3 One-to-all


   The one-to-all type of message is better described as a broadcast

   message, sent to all clients or servers or both.  On a large network

   of users and servers, a single message can result in a lot of traffic

   being sent over the network in an effort to reach all of the desired

   destinations.


   For some messages, there is no option but to broadcast it to all

   servers so that the state information held by each server is

   reasonably consistent between servers.


3.3.1 Client-to-Client


   There is no class of message which, from a single message, results in

   a message being sent to every other client.


3.3.2 Client-to-Server


   Most of the commands which result in a change of state information

   (such as channel membership, channel mode, user status, etc) must be

   sent to all servers by default, and this distribution may not be

   changed by the client.


3.3.3 Server-to-Server.


   While most messages between servers are distributed to all 'other'

   servers, this is only required for any message that affects either a

   user, channel or server.  Since these are the basic items found in




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   IRC, nearly all messages originating from a server are broadcast to

   all other connected servers.


4. Message details


   On the following pages are descriptions of each message recognized by

   the IRC server and client.  All commands described in this section

   must be implemented by any server for this protocol.


   Where the reply ERR_NOSUCHSERVER is listed, it means that the

   <server> parameter could not be found.  The server must not send any

   other replies after this for that command.


   The server to which a client is connected is required to parse the

   complete message, returning any appropriate errors.  If the server

   encounters a fatal error while parsing a message, an error must be

   sent back to the client and the parsing terminated.  A fatal error

   may be considered to be incorrect command, a destination which is

   otherwise unknown to the server (server, nick or channel names fit

   this category), not enough parameters or incorrect privileges.


   If a full set of parameters is presented, then each must be checked

   for validity and appropriate responses sent back to the client.  In

   the case of messages which use parameter lists using the comma as an

   item separator, a reply must be sent for each item.


   In the examples below, some messages appear using the full format:


   :Name COMMAND parameter list


   Such examples represent a message from "Name" in transit between

   servers, where it is essential to include the name of the original

   sender of the message so remote servers may send back a reply along

   the correct path.


4.1 Connection Registration


   The commands described here are used to register a connection with an

   IRC server as either a user or a server as well as correctly

   disconnect.


   A "PASS" command is not required for either client or server

   connection to be registered, but it must precede the server message

   or the latter of the NICK/USER combination.  It is strongly

   recommended that all server connections have a password in order to

   give some level of security to the actual connections.  The

   recommended order for a client to register is as follows:





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           1. Pass message

           2. Nick message

           3. User message


4.1.1 Password message



      Command: PASS

   Parameters: <password>


   The PASS command is used to set a 'connection password'.  The

   password can and must be set before any attempt to register the

   connection is made.  Currently this requires that clients send a PASS

   command before sending the NICK/USER combination and servers *must*

   send a PASS command before any SERVER command.  The password supplied

   must match the one contained in the C/N lines (for servers) or I

   lines (for clients).  It is possible to send multiple PASS commands

   before registering but only the last one sent is used for

   verification and it may not be changed once registered.  Numeric

   Replies:


           ERR_NEEDMOREPARAMS              ERR_ALREADYREGISTRED


   Example:


           PASS secretpasswordhere


4.1.2 Nick message


      Command: NICK

   Parameters: <nickname> [ <hopcount> ]


   NICK message is used to give user a nickname or change the previous

   one.  The <hopcount> parameter is only used by servers to indicate

   how far away a nick is from its home server.  A local connection has

   a hopcount of 0.  If supplied by a client, it must be ignored.


   If a NICK message arrives at a server which already knows about an

   identical nickname for another client, a nickname collision occurs.

   As a result of a nickname collision, all instances of the nickname

   are removed from the server's database, and a KILL command is issued

   to remove the nickname from all other server's database. If the NICK

   message causing the collision was a nickname change, then the

   original (old) nick must be removed as well.


   If the server recieves an identical NICK from a client which is

   directly connected, it may issue an ERR_NICKCOLLISION to the local

   client, drop the NICK command, and not generate any kills.




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   Numeric Replies:


           ERR_NONICKNAMEGIVEN             ERR_ERRONEUSNICKNAME

           ERR_NICKNAMEINUSE               ERR_NICKCOLLISION


   Example:


   NICK Wiz                        ; Introducing new nick "Wiz".


   :WiZ NICK Kilroy                ; WiZ changed his nickname to Kilroy.


4.1.3 User message


      Command: USER

   Parameters: <username> <hostname> <servername> <realname>


   The USER message is used at the beginning of connection to specify

   the username, hostname, servername and realname of s new user.  It is

   also used in communication between servers to indicate new user

   arriving on IRC, since only after both USER and NICK have been

   received from a client does a user become registered.


   Between servers USER must to be prefixed with client's NICKname.

   Note that hostname and servername are normally ignored by the IRC

   server when the USER command comes from a directly connected client

   (for security reasons), but they are used in server to server

   communication.  This means that a NICK must always be sent to a

   remote server when a new user is being introduced to the rest of the

   network before the accompanying USER is sent.


   It must be noted that realname parameter must be the last parameter,

   because it may contain space characters and must be prefixed with a

   colon (':') to make sure this is recognised as such.


   Since it is easy for a client to lie about its username by relying

   solely on the USER message, the use of an "Identity Server" is

   recommended.  If the host which a user connects from has such a

   server enabled the username is set to that as in the reply from the

   "Identity Server".


   Numeric Replies:


           ERR_NEEDMOREPARAMS              ERR_ALREADYREGISTRED


   Examples:



   USER guest tolmoon tolsun :Ronnie Reagan




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                                   ; User registering themselves with a

                                   username of "guest" and real name

                                   "Ronnie Reagan".



   :testnick USER guest tolmoon tolsun :Ronnie Reagan

                                   ; message between servers with the

                                   nickname for which the USER command

                                   belongs to


4.1.4 Server message


      Command: SERVER

   Parameters: <servername> <hopcount> <info>


   The server message is used to tell a server that the other end of a

   new connection is a server. This message is also used to pass server

   data over whole net.  When a new server is connected to net,

   information about it be broadcast to the whole network.  <hopcount>

   is used to give all servers some internal information on how far away

   all servers are.  With a full server list, it would be possible to

   construct a map of the entire server tree, but hostmasks prevent this

   from being done.


   The SERVER message must only be accepted from either (a) a connection

   which is yet to be registered and is attempting to register as a

   server, or (b) an existing connection to another server, in  which

   case the SERVER message is introducing a new server behind that

   server.


   Most errors that occur with the receipt of a SERVER command result in

   the connection being terminated by the destination host (target

   SERVER).  Error replies are usually sent using the "ERROR" command

   rather than the numeric since the ERROR command has several useful

   properties which make it useful here.


   If a SERVER message is parsed and attempts to introduce a server

   which is already known to the receiving server, the connection from

   which that message must be closed (following the correct procedures),

   since a duplicate route to a server has formed and the acyclic nature

   of the IRC tree broken.


   Numeric Replies:


           ERR_ALREADYREGISTRED


   Example:





Oikarinen & Reed                                               [Page 16]

RFC 1459              Internet Relay Chat Protocol              May 1993



SERVER test.oulu.fi 1 :[tolsun.oulu.fi] Experimental server

                                ; New server test.oulu.fi introducing

                                itself and attempting to register.  The

                                name in []'s is the hostname for the

                                host running test.oulu.fi.



:tolsun.oulu.fi SERVER csd.bu.edu 5 :BU Central Server

                                ; Server tolsun.oulu.fi is our uplink

                                for csd.bu.edu which is 5 hops away.


4.1.5 Oper


      Command: OPER

   Parameters: <user> <password>


   OPER message is used by a normal user to obtain operator privileges.

   The combination of <user> and <password> are required to gain

   Operator privileges.


   If the client sending the OPER command supplies the correct password

   for the given user, the server then informs the rest of the network

   of the new operator by issuing a "MODE +o" for the clients nickname.


   The OPER message is client-server only.


   Numeric Replies:


           ERR_NEEDMOREPARAMS              RPL_YOUREOPER

           ERR_NOOPERHOST                  ERR_PASSWDMISMATCH


   Example:


   OPER foo bar                    ; Attempt to register as an operator

                                   using a username of "foo" and "bar" as

                                   the password.


4.1.6 Quit


      Command: QUIT

   Parameters: [<Quit message>]


   A client session is ended with a quit message.  The server must close

   the connection to a client which sends a QUIT message. If a "Quit

   Message" is given, this will be sent instead of the default message,

   the nickname.


   When netsplits (disconnecting of two servers) occur, the quit message




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   is composed of the names of two servers involved, separated by a

   space.  The first name is that of the server which is still connected

   and the second name is that of the server that has become

   disconnected.


   If, for some other reason, a client connection is closed without  the

   client  issuing  a  QUIT  command  (e.g.  client  dies and EOF occurs

   on socket), the server is required to fill in the quit  message  with

   some sort  of  message  reflecting the nature of the event which

   caused it to happen.


   Numeric Replies:


           None.


   Examples:


   QUIT :Gone to have lunch        ; Preferred message format.


4.1.7 Server quit message


      Command: SQUIT

   Parameters: <server> <comment>


   The SQUIT message is needed to tell about quitting or dead servers.

   If a server wishes to break the connection to another server it must

   send a SQUIT message to the other server, using the the name of the

   other server as the server parameter, which then closes its

   connection to the quitting server.


   This command is also available operators to help keep a network of

   IRC servers connected in an orderly fashion.  Operators may also

   issue an SQUIT message for a remote server connection.  In this case,

   the SQUIT must be parsed by each server inbetween the operator and

   the remote server, updating the view of the network held by each

   server as explained below.


   The <comment> should be supplied by all operators who execute a SQUIT

   for a remote server (that is not connected to the server they are

   currently on) so that other operators are aware for the reason of

   this action.  The <comment> is also filled in by servers which may

   place an error or similar message here.


   Both of the servers which are on either side of the connection being

   closed are required to to send out a SQUIT message (to all its other

   server connections) for all other servers which are considered to be

   behind that link.





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   Similarly, a QUIT message must be sent to the other connected servers

   rest of the network on behalf of all clients behind that link.  In

   addition to this, all channel members of a channel which lost a

   member due to the split must be sent a QUIT message.


   If a server connection is terminated prematurely (e.g. the server  on

   the  other  end  of  the  link  died),  the  server  which  detects

   this disconnection is required to inform the rest of  the  network

   that  the connection  has  closed  and  fill  in  the comment field

   with something appropriate.


   Numeric replies:


           ERR_NOPRIVILEGES                ERR_NOSUCHSERVER


   Example:


   SQUIT tolsun.oulu.fi :Bad Link ? ; the server link tolson.oulu.fi has

                                   been terminated because of "Bad Link".


   :Trillian SQUIT cm22.eng.umd.edu :Server out of control

                                    ; message from Trillian to disconnect

                                   "cm22.eng.umd.edu" from the net

                                    because "Server out of control".


4.2 Channel operations


   This group of messages is concerned with manipulating channels, their

   properties (channel modes), and their contents (typically clients).

   In implementing these, a number of race conditions are inevitable

   when clients at opposing ends of a network send commands which will

   ultimately clash.  It is also required that servers keep a nickname

   history to ensure that wherever a <nick> parameter is given, the

   server check its history in case it has recently been changed.


4.2.1 Join message


      Command: JOIN

   Parameters: <channel>{,<channel>} [<key>{,<key>}]


   The JOIN command is used by client to start listening a specific

   channel. Whether or not a client is allowed to join a channel is

   checked only by the server the client is connected to; all other

   servers automatically add the user to the channel when it is received

   from other servers.  The conditions which affect this are as follows:


           1.  the user must be invited if the channel is invite-only;





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           2.  the user's nick/username/hostname must not match any

               active bans;


           3.  the correct key (password) must be given if it is set.


   These are discussed in more detail under the MODE command (see

   section 4.2.3 for more details).


   Once a user has joined a channel, they receive notice about all

   commands their server receives which affect the channel.  This

   includes MODE, KICK, PART, QUIT and of course PRIVMSG/NOTICE.  The

   JOIN command needs to be broadcast to all servers so that each server

   knows where to find the users who are on the channel.  This allows

   optimal delivery of PRIVMSG/NOTICE messages to the channel.


   If a JOIN is successful, the user is then sent the channel's topic

   (using RPL_TOPIC) and the list of users who are on the channel (using

   RPL_NAMREPLY), which must include the user joining.


   Numeric Replies:


           ERR_NEEDMOREPARAMS              ERR_BANNEDFROMCHAN

           ERR_INVITEONLYCHAN              ERR_BADCHANNELKEY

           ERR_CHANNELISFULL               ERR_BADCHANMASK

           ERR_NOSUCHCHANNEL               ERR_TOOMANYCHANNELS

           RPL_TOPIC


   Examples:


   JOIN #foobar                    ; join channel #foobar.


   JOIN &foo fubar                 ; join channel &foo using key "fubar".


   JOIN #foo,&bar fubar            ; join channel #foo using key "fubar"

                                   and &bar using no key.


   JOIN #foo,#bar fubar,foobar     ; join channel #foo using key "fubar".

                                   and channel #bar using key "foobar".


   JOIN #foo,#bar                  ; join channels #foo and #bar.


   :WiZ JOIN #Twilight_zone        ; JOIN message from WiZ


4.2.2 Part message


      Command: PART

   Parameters: <channel>{,<channel>}





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RFC 1459              Internet Relay Chat Protocol              May 1993



   The PART message causes the client sending the message to be removed

   from the list of active users for all given channels listed in the

   parameter string.


   Numeric Replies:


           ERR_NEEDMOREPARAMS              ERR_NOSUCHCHANNEL

           ERR_NOTONCHANNEL


   Examples:


   PART #twilight_zone             ; leave channel "#twilight_zone"


   PART #oz-ops,&group5            ; leave both channels "&group5" and

                                   "#oz-ops".


4.2.3 Mode message


      Command: MODE


   The MODE command is a dual-purpose command in IRC.  It allows both

   usernames and channels to have their mode changed.  The rationale for

   this choice is that one day nicknames will be obsolete and the

   equivalent property will be the channel.


   When parsing MODE messages, it is recommended that the entire message

   be parsed first and then the changes which resulted then passed on.


4.2.3.1 Channel modes


   Parameters: <channel> {[+|-]|o|p|s|i|t|n|b|v} [<limit>] [<user>]

               [<ban mask>]


   The MODE command is provided so that channel operators may change the

   characteristics of `their' channel.  It is also required that servers

   be able to change channel modes so that channel operators may be

   created.


   The various modes available for channels are as follows:


           o - give/take channel operator privileges;

           p - private channel flag;

           s - secret channel flag;

           i - invite-only channel flag;

           t - topic settable by channel operator only flag;

           n - no messages to channel from clients on the outside;

           m - moderated channel;

           l - set the user limit to channel;




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RFC 1459              Internet Relay Chat Protocol              May 1993



           b - set a ban mask to keep users out;

           v - give/take the ability to speak on a moderated channel;

           k - set a channel key (password).


   When using the 'o' and 'b' options, a restriction on a total of three

   per mode command has been imposed.  That is, any combination of 'o'

   and


4.2.3.2 User modes


   Parameters: <nickname> {[+|-]|i|w|s|o}


   The user MODEs are typically changes which affect either how the

   client is seen by others or what 'extra' messages the client is sent.

   A user MODE command may only be accepted if both the sender of the

   message and the nickname given as a parameter are both the same.


   The available modes are as follows:


           i - marks a users as invisible;

           s - marks a user for receipt of server notices;

           w - user receives wallops;

           o - operator flag.


   Additional modes may be available later on.


   If a user attempts to make themselves an operator using the "+o"

   flag, the attempt should be ignored.  There is no restriction,

   however, on anyone `deopping' themselves (using "-o").  Numeric

   Replies:


           ERR_NEEDMOREPARAMS              RPL_CHANNELMODEIS

           ERR_CHANOPRIVSNEEDED            ERR_NOSUCHNICK

           ERR_NOTONCHANNEL                ERR_KEYSET

           RPL_BANLIST                     RPL_ENDOFBANLIST

           ERR_UNKNOWNMODE                 ERR_NOSUCHCHANNEL


           ERR_USERSDONTMATCH              RPL_UMODEIS

           ERR_UMODEUNKNOWNFLAG


   Examples:


           Use of Channel Modes:


MODE #Finnish +im               ; Makes #Finnish channel moderated and

                                'invite-only'.


MODE #Finnish +o Kilroy         ; Gives 'chanop' privileges to Kilroy on




Oikarinen & Reed                                               [Page 22]

RFC 1459              Internet Relay Chat Protocol              May 1993



                                channel #Finnish.


MODE #Finnish +v Wiz            ; Allow WiZ to speak on #Finnish.


MODE #Fins -s                   ; Removes 'secret' flag from channel

                                #Fins.


MODE #42 +k oulu                ; Set the channel key to "oulu".


MODE #eu-opers +l 10            ; Set the limit for the number of users

                                on channel to 10.


MODE &oulu +b                   ; list ban masks set for channel.


MODE &oulu +b *!*@*             ; prevent all users from joining.


MODE &oulu +b *!*@*.edu         ; prevent any user from a hostname

                                matching *.edu from joining.


        Use of user Modes:


:MODE WiZ -w                    ; turns reception of WALLOPS messages

                                off for WiZ.


:Angel MODE Angel +i            ; Message from Angel to make themselves

                                invisible.


MODE WiZ -o                     ; WiZ 'deopping' (removing operator

                                status).  The plain reverse of this

                                command ("MODE WiZ +o") must not be

                                allowed from users since would bypass

                                the OPER command.


4.2.4 Topic message


      Command: TOPIC

   Parameters: <channel> [<topic>]


   The TOPIC message is used to change or view the topic of a channel.

   The topic for channel <channel> is returned if there is no <topic>

   given.  If the <topic> parameter is present, the topic for that

   channel will be changed, if the channel modes permit this action.


   Numeric Replies:


           ERR_NEEDMOREPARAMS              ERR_NOTONCHANNEL

           RPL_NOTOPIC                     RPL_TOPIC

           ERR_CHANOPRIVSNEEDED




Oikarinen & Reed                                               [Page 23]

RFC 1459              Internet Relay Chat Protocol              May 1993



   Examples:


   :Wiz TOPIC #test :New topic     ;User Wiz setting the topic.


   TOPIC #test :another topic      ;set the topic on #test to "another

                                   topic".


   TOPIC #test                     ; check the topic for #test.


4.2.5 Names message


      Command: NAMES

   Parameters: [<channel>{,<channel>}]


   By using the NAMES command, a user can list all nicknames that are

   visible to them on any channel that they can see.  Channel names

   which they can see are those which aren't private (+p) or secret (+s)

   or those which they are actually on.  The <channel> parameter

   specifies which channel(s) to return information about if valid.

   There is no error reply for bad channel names.


   If no <channel> parameter is given, a list of all channels and their

   occupants is returned.  At the end of this list, a list of users who

   are visible but either not on any channel or not on a visible channel

   are listed as being on `channel' "*".


   Numerics:


           RPL_NAMREPLY                    RPL_ENDOFNAMES


   Examples:


   NAMES #twilight_zone,#42        ; list visible users on #twilight_zone

                                   and #42 if the channels are visible to

                                   you.


   NAMES                           ; list all visible channels and users


4.2.6 List message


      Command: LIST

   Parameters: [<channel>{,<channel>} [<server>]]


   The list message is used to list channels and their topics.  If  the

   <channel>  parameter  is  used,  only  the  status  of  that  channel

   is displayed.  Private  channels  are  listed  (without  their

   topics)  as channel "Prv" unless the client generating the query is

   actually on that channel.  Likewise, secret channels are not listed




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   at  all  unless  the client is a member of the channel in question.


   Numeric Replies:


           ERR_NOSUCHSERVER                RPL_LISTSTART

           RPL_LIST                        RPL_LISTEND


   Examples:


   LIST                            ; List all channels.


   LIST #twilight_zone,#42         ; List channels #twilight_zone and #42


4.2.7 Invite message


      Command: INVITE

   Parameters: <nickname> <channel>


   The INVITE message is used to invite users to a channel.  The

   parameter <nickname> is the nickname of the person to be invited to

   the target channel <channel>.  There is no requirement that the

   channel the target user is being invited to must exist or be a valid

   channel.  To invite a user to a channel which is invite only (MODE

   +i), the client sending the invite must be recognised as being a

   channel operator on the given channel.


   Numeric Replies:


           ERR_NEEDMOREPARAMS              ERR_NOSUCHNICK

           ERR_NOTONCHANNEL                ERR_USERONCHANNEL

           ERR_CHANOPRIVSNEEDED

           RPL_INVITING                    RPL_AWAY


   Examples:


   :Angel INVITE Wiz #Dust         ; User Angel inviting WiZ to channel

                                   #Dust


   INVITE Wiz #Twilight_Zone       ; Command to invite WiZ to

                                   #Twilight_zone


4.2.8 Kick command


      Command: KICK

   Parameters: <channel> <user> [<comment>]


   The KICK command can be  used  to  forcibly  remove  a  user  from  a

   channel.   It  'kicks  them  out'  of the channel (forced PART).




Oikarinen & Reed                                               [Page 25]

RFC 1459              Internet Relay Chat Protocol              May 1993



   Only a channel operator may kick another user out of a  channel.

   Each  server that  receives  a KICK message checks that it is valid

   (ie the sender is actually a  channel  operator)  before  removing

   the  victim  from  the channel.


   Numeric Replies:


           ERR_NEEDMOREPARAMS              ERR_NOSUCHCHANNEL

           ERR_BADCHANMASK                 ERR_CHANOPRIVSNEEDED

           ERR_NOTONCHANNEL


   Examples:


KICK &Melbourne Matthew         ; Kick Matthew from &Melbourne


KICK #Finnish John :Speaking English

                                ; Kick John from #Finnish using

                                "Speaking English" as the reason

                                (comment).


:WiZ KICK #Finnish John         ; KICK message from WiZ to remove John

                                from channel #Finnish


NOTE:

     It is possible to extend the KICK command parameters to the

following:


<channel>{,<channel>} <user>{,<user>} [<comment>]


4.3 Server queries and commands


   The server query group of commands has been designed to return

   information about any server which is connected to the network.  All

   servers connected must respond to these queries and respond

   correctly.  Any invalid response (or lack thereof) must be considered

   a sign of a broken server and it must be disconnected/disabled as

   soon as possible until the situation is remedied.


   In these queries, where a parameter appears as "<server>", it will

   usually mean it can be a nickname or a server or a wildcard name of

   some sort.  For each parameter, however, only one query and set of

   replies is to be generated.


4.3.1 Version message


      Command: VERSION

   Parameters: [<server>]





Oikarinen & Reed                                               [Page 26]

RFC 1459              Internet Relay Chat Protocol              May 1993



   The VERSION message is used  to  query  the  version  of  the  server

   program.  An optional parameter <server> is used to query the version

   of the server program which a client is not directly connected to.


   Numeric Replies:


           ERR_NOSUCHSERVER                RPL_VERSION


   Examples:


   :Wiz VERSION *.se               ; message from Wiz to check the version

                                   of a server matching "*.se"


   VERSION tolsun.oulu.fi          ; check the version of server

                                   "tolsun.oulu.fi".


4.3.2 Stats message


      Command: STATS

   Parameters: [<query> [<server>]]


   The stats message is used to query statistics of certain server.  If

   <server> parameter is omitted, only the end of stats reply is sent

   back.  The implementation of this command is highly dependent on the

   server which replies, although the server must be able to supply

   information as described by the queries below (or similar).


   A query may be given by any single letter which is only checked by

   the destination server (if given as the <server> parameter) and is

   otherwise passed on by intermediate servers, ignored and unaltered.

   The following queries are those found in the current IRC

   implementation and provide a large portion of the setup information

   for that server.  Although these may not be supported in the same way

   by other versions, all servers should be able to supply a valid reply

   to a STATS query which is consistent with the reply formats currently

   used and the purpose of the query.


   The currently supported queries are:


           c - returns a list of servers which the server may connect

               to or allow connections from;

           h - returns a list of servers which are either forced to be

               treated as leaves or allowed to act as hubs;

           i - returns a list of hosts which the server allows a client

               to connect from;

           k - returns a list of banned username/hostname combinations

               for that server;

           l - returns a list of the server's connections, showing how




Oikarinen & Reed                                               [Page 27]

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               long each connection has been established and the traffic

               over that connection in bytes and messages for each

               direction;

           m - returns a list of commands supported by the server and

               the usage count for each if the usage count is non zero;

           o - returns a list of hosts from which normal clients may

               become operators;

           y - show Y (Class) lines from server's configuration file;

           u - returns a string showing how long the server has been up.


   Numeric Replies:


           ERR_NOSUCHSERVER

           RPL_STATSCLINE                  RPL_STATSNLINE

           RPL_STATSILINE                  RPL_STATSKLINE

           RPL_STATSQLINE                  RPL_STATSLLINE

           RPL_STATSLINKINFO               RPL_STATSUPTIME

           RPL_STATSCOMMANDS               RPL_STATSOLINE

           RPL_STATSHLINE                  RPL_ENDOFSTATS


   Examples:


STATS m                         ; check the command usage for the server

                                you are connected to


:Wiz STATS c eff.org            ; request by WiZ for C/N line

                                information from server eff.org


4.3.3 Links message


      Command: LINKS

   Parameters: [[<remote server>] <server mask>]


   With LINKS, a user can list all servers which are known by the server

   answering the query.  The returned list of servers must match the

   mask, or if no mask is given, the full list is returned.


   If <remote server> is given in addition to <server mask>, the LINKS

   command is forwarded to the first server found that matches that name

   (if any), and that server is then required to answer the query.


   Numeric Replies:


           ERR_NOSUCHSERVER

           RPL_LINKS                       RPL_ENDOFLINKS


   Examples:





Oikarinen & Reed                                               [Page 28]

RFC 1459              Internet Relay Chat Protocol              May 1993



LINKS *.au                      ; list all servers which have a name

                                that matches *.au;


:WiZ LINKS *.bu.edu *.edu       ; LINKS message from WiZ to the first

                                server matching *.edu for a list of

                                servers matching *.bu.edu.


4.3.4 Time message


      Command: TIME

   Parameters: [<server>]


   The time message is used to query local time from the specified

   server. If the server parameter is not given, the server handling the

   command must reply to the query.


   Numeric Replies:


           ERR_NOSUCHSERVER                RPL_TIME


   Examples:


   TIME tolsun.oulu.fi             ; check the time on the server

                                   "tolson.oulu.fi"


   Angel TIME *.au                 ; user angel checking the time on a

                                   server matching "*.au"


4.3.5 Connect message


      Command: CONNECT

   Parameters: <target server> [<port> [<remote server>]]


   The CONNECT command can be used to force a server to try to establish

   a new connection to another server immediately.  CONNECT is a

   privileged command and is to be available only to IRC Operators.  If

   a remote server is given then the CONNECT attempt is made by that

   server to <target server> and <port>.


   Numeric Replies:


           ERR_NOSUCHSERVER                ERR_NOPRIVILEGES

           ERR_NEEDMOREPARAMS


   Examples:


CONNECT tolsun.oulu.fi          ; Attempt to connect a server to

                                tolsun.oulu.fi




Oikarinen & Reed                                               [Page 29]

RFC 1459              Internet Relay Chat Protocol              May 1993



:WiZ CONNECT eff.org 6667 csd.bu.edu

                                ; CONNECT attempt by WiZ to get servers

                                eff.org and csd.bu.edu connected on port

                                6667.


4.3.6 Trace message


      Command: TRACE

   Parameters: [<server>]


   TRACE command is used to find the route to specific server.  Each

   server that processes this message must tell the sender about it by

   sending a reply indicating it is a pass-through link, forming a chain

   of replies similar to that gained from using "traceroute".  After

   sending this reply back, it must then send the TRACE message to the

   next server until given server is reached.  If the <server> parameter

   is omitted, it is recommended that TRACE command send a message to

   the sender telling which servers the current server has direct

   connection to.


   If the destination given by "<server>" is an actual server, then the

   destination server is required to report all servers and users which

   are connected to it, although only operators are permitted to see

   users present.  If the destination given by <server> is a nickname,

   they only a reply for that nickname is given.


   Numeric Replies:


           ERR_NOSUCHSERVER


   If the TRACE message is destined for another server, all intermediate

   servers must return a RPL_TRACELINK reply to indicate that the TRACE

   passed through it and where its going next.


           RPL_TRACELINK

   A TRACE reply may be composed of any number of the following numeric

   replies.


           RPL_TRACECONNECTING             RPL_TRACEHANDSHAKE

           RPL_TRACEUNKNOWN                RPL_TRACEOPERATOR

           RPL_TRACEUSER                   RPL_TRACESERVER

           RPL_TRACESERVICE                RPL_TRACENEWTYPE

           RPL_TRACECLASS


   Examples:


TRACE *.oulu.fi                 ; TRACE to a server matching *.oulu.fi





Oikarinen & Reed                                               [Page 30]

RFC 1459              Internet Relay Chat Protocol              May 1993



:WiZ TRACE AngelDust            ; TRACE issued by WiZ to nick AngelDust


4.3.7 Admin command


      Command: ADMIN

   Parameters: [<server>]


   The admin message is used to find the name of the administrator of

   the given server, or current server if <server> parameter is omitted.

   Each server must have the ability to forward ADMIN messages to other

   servers.


   Numeric Replies:


           ERR_NOSUCHSERVER

           RPL_ADMINME                     RPL_ADMINLOC1

           RPL_ADMINLOC2                   RPL_ADMINEMAIL


   Examples:


   ADMIN tolsun.oulu.fi            ; request an ADMIN reply from

                                   tolsun.oulu.fi


   :WiZ ADMIN *.edu                ; ADMIN request from WiZ for first

                                   server found to match *.edu.


4.3.8 Info command


      Command: INFO

   Parameters: [<server>]


   The INFO command is required to return information which describes

   the server: its version, when it was compiled, the patchlevel, when

   it was started, and any other miscellaneous information which may be

   considered to be relevant.


   Numeric Replies:


           ERR_NOSUCHSERVER

           RPL_INFO                        RPL_ENDOFINFO


   Examples:


   INFO csd.bu.edu                 ; request an INFO reply from

   csd.bu.edu


   :Avalon INFO *.fi               ; INFO request from Avalon for first

                                   server found to match *.fi.




Oikarinen & Reed                                               [Page 31]

RFC 1459              Internet Relay Chat Protocol              May 1993



   INFO Angel                      ; request info from the server that

                                   Angel is connected to.


4.4 Sending messages


   The main purpose of the IRC protocol is to provide a base for clients

   to communicate with each other.  PRIVMSG and NOTICE are the only

   messages available which actually perform delivery of a text message

   from one client to another - the rest just make it possible and try

   to ensure it happens in a reliable and structured manner.


4.4.1 Private messages


      Command: PRIVMSG

   Parameters: <receiver>{,<receiver>} <text to be sent>


   PRIVMSG is used to send private messages between users.  <receiver>

   is the nickname of the receiver of the message.  <receiver> can also

   be a list of names or channels separated with commas.


   The <receiver> parameter may also me a host mask  (#mask)  or  server

   mask  ($mask).   In  both cases the server will only send the PRIVMSG

   to those who have a server or host matching the mask.  The mask  must

   have at  least  1  (one)  "."  in it and no wildcards following the

   last ".".  This requirement exists to prevent people sending messages

   to  "#*"  or "$*",  which  would  broadcast  to  all  users; from

   experience, this is abused more than used responsibly and properly.

   Wildcards are  the  '*' and  '?'   characters.   This  extension  to

   the PRIVMSG command is only available to Operators.


   Numeric Replies:


           ERR_NORECIPIENT                 ERR_NOTEXTTOSEND

           ERR_CANNOTSENDTOCHAN            ERR_NOTOPLEVEL

           ERR_WILDTOPLEVEL                ERR_TOOMANYTARGETS

           ERR_NOSUCHNICK

           RPL_AWAY


   Examples:


:Angel PRIVMSG Wiz :Hello are you receiving this message ?

                                ; Message from Angel to Wiz.


PRIVMSG Angel :yes I'm receiving it !receiving it !'u>(768u+1n) .br ;

                                Message to Angel.


PRIVMSG jto@tolsun.oulu.fi :Hello !

                                ; Message to a client on server




Oikarinen & Reed                                               [Page 32]

RFC 1459              Internet Relay Chat Protocol              May 1993



                                tolsun.oulu.fi with username of "jto".


PRIVMSG $*.fi :Server tolsun.oulu.fi rebooting.

                                ; Message to everyone on a server which

                                has a name matching *.fi.


PRIVMSG #*.edu :NSFNet is undergoing work, expect interruptions

                                ; Message to all users who come from a

                                host which has a name matching *.edu.


4.4.2 Notice


      Command: NOTICE

   Parameters: <nickname> <text>


   The NOTICE message is used similarly to PRIVMSG.  The difference

   between NOTICE and PRIVMSG is that automatic replies must never be

   sent in response to a NOTICE message.  This rule applies to servers

   too - they must not send any error reply back to the client on

   receipt of a notice.  The object of this rule is to avoid loops

   between a client automatically sending something in response to

   something it received.  This is typically used by automatons (clients

   with either an AI or other interactive program controlling their

   actions) which are always seen to be replying lest they end up in a

   loop with another automaton.


   See PRIVMSG for more details on replies and examples.


4.5 User based queries


   User queries are a group of commands which are primarily concerned

   with finding details on a particular user or group users.  When using

   wildcards with any of these commands, if they match, they will only

   return information on users who are 'visible' to you.  The visibility

   of a user is determined as a combination of the user's mode and the

   common set of channels you are both on.


4.5.1 Who query


      Command: WHO

   Parameters: [<name> [<o>]]


   The WHO message is used by a client to generate a query which returns

   a list of information which 'matches' the <name> parameter given by

   the client.  In the absence of the <name> parameter, all visible

   (users who aren't invisible (user mode +i) and who don't have a

   common channel with the requesting client) are listed.  The same

   result can be achieved by using a <name> of "0" or any wildcard which




Oikarinen & Reed                                               [Page 33]

RFC 1459              Internet Relay Chat Protocol              May 1993



   will end up matching every entry possible.


   The <name> passed to WHO is matched against users' host, server, real

   name and nickname if the channel <name> cannot be found.


   If the "o" parameter is passed only operators are returned according

   to the name mask supplied.


   Numeric Replies:


           ERR_NOSUCHSERVER

           RPL_WHOREPLY                    RPL_ENDOFWHO


   Examples:


   WHO *.fi                        ; List all users who match against

                                   "*.fi".


   WHO jto* o                      ; List all users with a match against

                                   "jto*" if they are an operator.


4.5.2 Whois query


      Command: WHOIS

   Parameters: [<server>] <nickmask>[,<nickmask>[,...]]


   This message is used to query information about particular user.  The

   server will answer this message with several numeric messages

   indicating different statuses of each user which matches the nickmask

   (if you are entitled to see them).  If no wildcard is present in the

   <nickmask>, any information about that nick which you are allowed to

   see is presented.  A comma (',') separated list of nicknames may be

   given.


   The latter version sends the query to a specific server.  It is

   useful if you want to know how long the user in question has been

   idle as only local server (ie. the server the user is directly

   connected to) knows that information, while everything else is

   globally known.


   Numeric Replies:


           ERR_NOSUCHSERVER                ERR_NONICKNAMEGIVEN

           RPL_WHOISUSER                   RPL_WHOISCHANNELS

           RPL_WHOISCHANNELS               RPL_WHOISSERVER

           RPL_AWAY                        RPL_WHOISOPERATOR

           RPL_WHOISIDLE                   ERR_NOSUCHNICK

           RPL_ENDOFWHOIS




Oikarinen & Reed                                               [Page 34]

RFC 1459              Internet Relay Chat Protocol              May 1993



   Examples:


   WHOIS wiz                       ; return available user information

                                   about nick WiZ


   WHOIS eff.org trillian          ; ask server eff.org for user

                                   information about trillian


4.5.3 Whowas


      Command: WHOWAS

   Parameters: <nickname> [<count> [<server>]]


   Whowas asks for information about a nickname which no longer exists.

   This may either be due to a nickname change or the user leaving IRC.

   In response to this query, the server searches through its nickname

   history, looking for any nicks which are lexically the same (no wild

   card matching here).  The history is searched backward, returning the

   most recent entry first.  If there are multiple entries, up to

   <count> replies will be returned (or all of them if no <count>

   parameter is given).  If a non-positive number is passed as being

   <count>, then a full search is done.


   Numeric Replies:


           ERR_NONICKNAMEGIVEN             ERR_WASNOSUCHNICK

           RPL_WHOWASUSER                  RPL_WHOISSERVER

           RPL_ENDOFWHOWAS


   Examples:


   WHOWAS Wiz                      ; return all information in the nick

                                   history about nick "WiZ";


   WHOWAS Mermaid 9                ; return at most, the 9 most recent

                                   entries in the nick history for

                                   "Mermaid";


   WHOWAS Trillian 1 *.edu         ; return the most recent history for

                                   "Trillian" from the first server found

                                   to match "*.edu".


4.6 Miscellaneous messages


   Messages in this category do not fit into any of the above categories

   but are nonetheless still a part of and required by the protocol.






Oikarinen & Reed                                               [Page 35]

RFC 1459              Internet Relay Chat Protocol              May 1993



4.6.1 Kill message


      Command: KILL

   Parameters: <nickname> <comment>


   The KILL message is used to cause a client-server connection to be

   closed by the server which has the actual connection.  KILL is used

   by servers when they encounter a duplicate entry in the list of valid

   nicknames and is used to remove both entries.  It is also available

   to operators.


   Clients which have automatic reconnect algorithms effectively make

   this command useless since the disconnection is only brief.  It does

   however break the flow of data and can be used to stop large amounts

   of being abused, any user may elect to receive KILL messages

   generated for others to keep an 'eye' on would be trouble spots.


   In an arena where nicknames are required to be globally unique at all

   times, KILL messages are sent whenever 'duplicates' are detected

   (that is an attempt to register two users with the same nickname) in

   the hope that both of them will disappear and only 1 reappear.


   The comment given must reflect the actual reason for the KILL.  For

   server-generated KILLs it usually is made up of details concerning

   the origins of the two conflicting nicknames.  For users it is left

   up to them to provide an adequate reason to satisfy others who see

   it.  To prevent/discourage fake KILLs from being generated to hide

   the identify of the KILLer, the comment also shows a 'kill-path'

   which is updated by each server it passes through, each prepending

   its name to the path.


   Numeric Replies:


           ERR_NOPRIVILEGES                ERR_NEEDMOREPARAMS

           ERR_NOSUCHNICK                  ERR_CANTKILLSERVER



   KILL David (csd.bu.edu <- tolsun.oulu.fi)

                                   ; Nickname collision between csd.bu.edu

                                   and tolson.oulu.fi



   NOTE:

   It is recommended that only Operators be allowed to kill other users

   with KILL message.  In an ideal world not even operators would need

   to do this and it would be left to servers to deal with.






Oikarinen & Reed                                               [Page 36]

RFC 1459              Internet Relay Chat Protocol              May 1993



4.6.2 Ping message


      Command: PING

   Parameters: <server1> [<server2>]


   The PING message is used to test the presence of an active client at

   the other end of the connection.  A PING message is sent at regular

   intervals if no other activity detected coming from a connection.  If

   a connection fails to respond to a PING command within a set amount

   of time, that connection is closed.


   Any client which receives a PING message must respond to <server1>

   (server which sent the PING message out) as quickly as possible with

   an appropriate PONG message to indicate it is still there and alive.

   Servers should not respond to PING commands but rely on PINGs from

   the other end of the connection to indicate the connection is alive.

   If the <server2> parameter is specified, the PING message gets

   forwarded there.


   Numeric Replies:


           ERR_NOORIGIN                    ERR_NOSUCHSERVER


   Examples:


   PING tolsun.oulu.fi             ; server sending a PING message to

                                   another server to indicate it is still

                                   alive.


   PING WiZ                        ; PING message being sent to nick WiZ


4.6.3 Pong message


      Command: PONG

   Parameters: <daemon> [<daemon2>]


   PONG message is a reply to ping message.  If parameter <daemon2> is

   given this message must be forwarded to given daemon.  The <daemon>

   parameter is the name of the daemon who has responded to PING message

   and generated this message.


   Numeric Replies:


           ERR_NOORIGIN                    ERR_NOSUCHSERVER


   Examples:


   PONG csd.bu.edu tolsun.oulu.fi  ; PONG message from csd.bu.edu to




Oikarinen & Reed                                               [Page 37]

RFC 1459              Internet Relay Chat Protocol              May 1993



                                   tolsun.oulu.fi


4.6.4 Error


      Command: ERROR

   Parameters: <error message>


   The ERROR command is for use by servers when reporting a serious or

   fatal error to its operators.  It may also be sent from one server to

   another but must not be accepted from any normal unknown clients.


   An ERROR message is for use for reporting errors which occur with a

   server-to-server link only.  An ERROR message is sent to the server

   at the other end (which sends it to all of its connected operators)

   and to all operators currently connected.  It is not to be passed

   onto any other servers by a server if it is received from a server.


   When a server sends a received ERROR message to its operators, the

   message should be encapsulated inside a NOTICE message, indicating

   that the client was not responsible for the error.


   Numerics:


           None.


   Examples:


   ERROR :Server *.fi already exists; ERROR message to the other server

                                   which caused this error.


   NOTICE WiZ :ERROR from csd.bu.edu -- Server *.fi already exists

                                   ; Same ERROR message as above but sent

                                   to user WiZ on the other server.


5. OPTIONALS


   This section describes OPTIONAL messages.  They are not required in a

   working server implementation of the protocol described herein.  In

   the absence of the option, an error reply message must be generated

   or an unknown command error.  If the message is destined for another

   server to answer then it must be passed on (elementary parsing

   required) The allocated numerics for this are listed with the

   messages below.


5.1 Away


      Command: AWAY

   Parameters: [message]




Oikarinen & Reed                                               [Page 38]

RFC 1459              Internet Relay Chat Protocol              May 1993



   With the AWAY message, clients can set an automatic reply string for

   any PRIVMSG commands directed at them (not to a channel they are on).

   The automatic reply is sent by the server to client sending the

   PRIVMSG command.  The only replying server is the one to which the

   sending client is connected to.


   The AWAY message is used either with one parameter (to set an AWAY

   message) or with no parameters (to remove the AWAY message).


   Numeric Replies:


           RPL_UNAWAY                      RPL_NOWAWAY


   Examples:


   AWAY :Gone to lunch.  Back in 5 ; set away message to "Gone to lunch.

                                   Back in 5".


   :WiZ AWAY                       ; unmark WiZ as being away.



5.2 Rehash message


      Command: REHASH

   Parameters: None


   The rehash message can be used by the operator to force the server to

   re-read and process its configuration file.


   Numeric Replies:


        RPL_REHASHING                   ERR_NOPRIVILEGES


Examples:


REHASH                          ; message from client with operator

                                status to server asking it to reread its

                                configuration file.


5.3 Restart message


      Command: RESTART

   Parameters: None


   The restart message can only be used by an operator to force a server

   restart itself.  This message is optional since it may be viewed as a

   risk to allow arbitrary people to connect to a server as an operator

   and execute this command, causing (at least) a disruption to service.




Oikarinen & Reed                                               [Page 39]

RFC 1459              Internet Relay Chat Protocol              May 1993



   The RESTART command must always be fully processed by the server to

   which the sending client is connected and not be passed onto other

   connected servers.


   Numeric Replies:


           ERR_NOPRIVILEGES


   Examples:


   RESTART                         ; no parameters required.


5.4 Summon message


      Command: SUMMON

   Parameters: <user> [<server>]


   The SUMMON command can be used to give users who are on a host

   running an IRC server a message asking them to please join IRC.  This

   message is only sent if the target server (a) has SUMMON enabled, (b)

   the user is logged in and (c) the server process can write to the

   user's tty (or similar).


   If no <server> parameter is given it tries to summon <user> from the

   server the client is connected to is assumed as the target.


   If summon is not enabled in a server, it must return the

   ERR_SUMMONDISABLED numeric and pass the summon message onwards.


   Numeric Replies:


           ERR_NORECIPIENT                 ERR_FILEERROR

           ERR_NOLOGIN                     ERR_NOSUCHSERVER

           RPL_SUMMONING


   Examples:


   SUMMON jto                      ; summon user jto on the server's host


   SUMMON jto tolsun.oulu.fi       ; summon user jto on the host which a

                                   server named "tolsun.oulu.fi" is

                                   running.



5.5 Users


      Command: USERS

   Parameters: [<server>]




Oikarinen & Reed                                               [Page 40]

RFC 1459              Internet Relay Chat Protocol              May 1993



   The USERS command returns a list of users logged into the server in a

   similar  format  to  who(1),  rusers(1)  and finger(1).  Some people

   may disable this command on their server for security related

   reasons.   If disabled, the correct numeric must be returned to

   indicate this.


   Numeric Replies:


           ERR_NOSUCHSERVER                ERR_FILEERROR

           RPL_USERSSTART                  RPL_USERS

           RPL_NOUSERS                     RPL_ENDOFUSERS

           ERR_USERSDISABLED


   Disabled Reply:


           ERR_USERSDISABLED


   Examples:


USERS eff.org                   ; request a list of users logged in on

                                server eff.org


:John USERS tolsun.oulu.fi      ; request from John for a list of users

                                logged in on server tolsun.oulu.fi


5.6 Operwall message


      Command: WALLOPS

   Parameters: Text to be sent to all operators currently online


   Sends  a  message  to  all   operators   currently   online.    After

   implementing  WALLOPS  as  a user command it was found that it was

   often and commonly abused as a means of sending a message to a lot

   of  people (much  similar to WALL).  Due to this it is recommended

   that the current implementation of  WALLOPS  be  used  as  an

   example  by  allowing  and recognising only servers as the senders of

   WALLOPS.


   Numeric Replies:


           ERR_NEEDMOREPARAMS


   Examples:


   :csd.bu.edu WALLOPS :Connect '*.uiuc.edu 6667' from Joshua; WALLOPS

                                   message from csd.bu.edu announcing a

                                   CONNECT message it received and acted

                                   upon from Joshua.




Oikarinen & Reed                                               [Page 41]

RFC 1459              Internet Relay Chat Protocol              May 1993



5.7 Userhost message


      Command: USERHOST

   Parameters: <nickname>{<space><nickname>}


   The USERHOST command takes a list of up to 5 nicknames, each

   separated by a space character and returns a list of information

   about each nickname that it found.  The returned list has each reply

   separated by a space.


   Numeric Replies:


           RPL_USERHOST                    ERR_NEEDMOREPARAMS


   Examples:


   USERHOST Wiz Michael Marty p    ;USERHOST request for information on

                                   nicks "Wiz", "Michael", "Marty" and "p"


5.8 Ison message


      Command: ISON

   Parameters: <nickname>{<space><nickname>}


   The ISON command was implemented to provide  a  quick  and  efficient

   means  to get a response about whether a given nickname was currently

   on IRC. ISON only takes one (1) parameter: a space-separated list of

   nicks.  For  each  nickname in the list that is present, the server

   adds that to its reply string.  Thus the reply string may return

   empty (none  of  the given  nicks are present), an exact copy of the

   parameter string (all of them present) or as any other subset of the

   set of nicks  given  in  the parameter.  The only limit on the number

   of nicks that may be checked is that the combined length must not be

   too large as to cause the server to chop it off so it fits in 512

   characters.


   ISON is only be processed by the server local to the client sending

   the command and thus not passed onto other servers for further

   processing.


   Numeric Replies:


           RPL_ISON                ERR_NEEDMOREPARAMS


   Examples:


   ISON phone trillian WiZ jarlek Avalon Angel Monstah

                                   ; Sample ISON request for 7 nicks.




Oikarinen & Reed                                               [Page 42]

RFC 1459              Internet Relay Chat Protocol              May 1993



6. REPLIES


   The following is a list of numeric replies which are generated in

   response to the commands given above.  Each numeric is given with its

   number, name and reply string.


6.1 Error Replies.


        401     ERR_NOSUCHNICK

                        "<nickname> :No such nick/channel"


                - Used to indicate the nickname parameter supplied to a

                  command is currently unused.


        402     ERR_NOSUCHSERVER

                        "<server name> :No such server"


                - Used to indicate the server name given currently

                  doesn't exist.


        403     ERR_NOSUCHCHANNEL

                        "<channel name> :No such channel"


                - Used to indicate the given channel name is invalid.


        404     ERR_CANNOTSENDTOCHAN

                        "<channel name> :Cannot send to channel"


                - Sent to a user who is either (a) not on a channel

                  which is mode +n or (b) not a chanop (or mode +v) on

                  a channel which has mode +m set and is trying to send

                  a PRIVMSG message to that channel.


        405     ERR_TOOMANYCHANNELS

                        "<channel name> :You have joined too many \

                         channels"

                - Sent to a user when they have joined the maximum

                  number of allowed channels and they try to join

                  another channel.


        406     ERR_WASNOSUCHNICK

                        "<nickname> :There was no such nickname"


                - Returned by WHOWAS to indicate there is no history

                  information for that nickname.


        407     ERR_TOOMANYTARGETS

                        "<target> :Duplicate recipients. No message \




Oikarinen & Reed                                               [Page 43]

RFC 1459              Internet Relay Chat Protocol              May 1993



                         delivered"


                - Returned to a client which is attempting to send a

                  PRIVMSG/NOTICE using the user@host destination format

                  and for a user@host which has several occurrences.


        409     ERR_NOORIGIN

                        ":No origin specified"


                - PING or PONG message missing the originator parameter

                  which is required since these commands must work

                  without valid prefixes.


        411     ERR_NORECIPIENT

                        ":No recipient given (<command>)"

        412     ERR_NOTEXTTOSEND

                        ":No text to send"

        413     ERR_NOTOPLEVEL

                        "<mask> :No toplevel domain specified"

        414     ERR_WILDTOPLEVEL

                        "<mask> :Wildcard in toplevel domain"


                - 412 - 414 are returned by PRIVMSG to indicate that

                  the message wasn't delivered for some reason.

                  ERR_NOTOPLEVEL and ERR_WILDTOPLEVEL are errors that

                  are returned when an invalid use of

                  "PRIVMSG $<server>" or "PRIVMSG #<host>" is attempted.


        421     ERR_UNKNOWNCOMMAND

                        "<command> :Unknown command"


                - Returned to a registered client to indicate that the

                  command sent is unknown by the server.


        422     ERR_NOMOTD

                        ":MOTD File is missing"


                - Server's MOTD file could not be opened by the server.


        423     ERR_NOADMININFO

                        "<server> :No administrative info available"


                - Returned by a server in response to an ADMIN message

                  when there is an error in finding the appropriate

                  information.


        424     ERR_FILEERROR

                ":File error doing <file op> on <file>"




Oikarinen & Reed                                               [Page 44]

RFC 1459              Internet Relay Chat Protocol              May 1993



                - Generic error message used to report a failed file

                  operation during the processing of a message.


        431     ERR_NONICKNAMEGIVEN

                        ":No nickname given"


                - Returned when a nickname parameter expected for a

                  command and isn't found.


        432     ERR_ERRONEUSNICKNAME

                        "<nick> :Erroneus nickname"


                - Returned after receiving a NICK message which contains

                  characters which do not fall in the defined set.  See

                  section x.x.x for details on valid nicknames.


        433     ERR_NICKNAMEINUSE

                        "<nick> :Nickname is already in use"


                - Returned when a NICK message is processed that results

                  in an attempt to change to a currently existing

                  nickname.


        436     ERR_NICKCOLLISION

                        "<nick> :Nickname collision KILL"


                - Returned by a server to a client when it detects a

                  nickname collision (registered of a NICK that

                  already exists by another server).


        441     ERR_USERNOTINCHANNEL

                        "<nick> <channel> :They aren't on that channel"


                - Returned by the server to indicate that the target

                  user of the command is not on the given channel.


        442     ERR_NOTONCHANNEL

                        "<channel> :You're not on that channel"


                - Returned by the server whenever a client tries to

                  perform a channel effecting command for which the

                  client isn't a member.


        443     ERR_USERONCHANNEL

                        "<user> <channel> :is already on channel"


                - Returned when a client tries to invite a user to a

                  channel they are already on.




Oikarinen & Reed                                               [Page 45]

RFC 1459              Internet Relay Chat Protocol              May 1993



        444     ERR_NOLOGIN

                        "<user> :User not logged in"


                - Returned by the summon after a SUMMON command for a

                  user was unable to be performed since they were not

                  logged in.


        445     ERR_SUMMONDISABLED

                        ":SUMMON has been disabled"


                - Returned as a response to the SUMMON command.  Must be

                  returned by any server which does not implement it.


        446     ERR_USERSDISABLED

                        ":USERS has been disabled"


                - Returned as a response to the USERS command.  Must be

                  returned by any server which does not implement it.


        451     ERR_NOTREGISTERED

                        ":You have not registered"


                - Returned by the server to indicate that the client

                  must be registered before the server will allow it

                  to be parsed in detail.


        461     ERR_NEEDMOREPARAMS

                        "<command> :Not enough parameters"


                - Returned by the server by numerous commands to

                  indicate to the client that it didn't supply enough

                  parameters.


        462     ERR_ALREADYREGISTRED

                        ":You may not reregister"


                - Returned by the server to any link which tries to

                  change part of the registered details (such as

                  password or user details from second USER message).



        463     ERR_NOPERMFORHOST

                        ":Your host isn't among the privileged"


                - Returned to a client which attempts to register with

                  a server which does not been setup to allow

                  connections from the host the attempted connection

                  is tried.




Oikarinen & Reed                                               [Page 46]

RFC 1459              Internet Relay Chat Protocol              May 1993



        464     ERR_PASSWDMISMATCH

                        ":Password incorrect"


                - Returned to indicate a failed attempt at registering

                  a connection for which a password was required and

                  was either not given or incorrect.


        465     ERR_YOUREBANNEDCREEP

                        ":You are banned from this server"


                - Returned after an attempt to connect and register

                  yourself with a server which has been setup to

                  explicitly deny connections to you.


        467     ERR_KEYSET

                        "<channel> :Channel key already set"

        471     ERR_CHANNELISFULL

                        "<channel> :Cannot join channel (+l)"

        472     ERR_UNKNOWNMODE

                        "<char> :is unknown mode char to me"

        473     ERR_INVITEONLYCHAN

                        "<channel> :Cannot join channel (+i)"

        474     ERR_BANNEDFROMCHAN

                        "<channel> :Cannot join channel (+b)"

        475     ERR_BADCHANNELKEY

                        "<channel> :Cannot join channel (+k)"

        481     ERR_NOPRIVILEGES

                        ":Permission Denied- You're not an IRC operator"


                - Any command requiring operator privileges to operate

                  must return this error to indicate the attempt was

                  unsuccessful.


        482     ERR_CHANOPRIVSNEEDED

                        "<channel> :You're not channel operator"


                - Any command requiring 'chanop' privileges (such as

                  MODE messages) must return this error if the client

                  making the attempt is not a chanop on the specified

                  channel.


        483     ERR_CANTKILLSERVER

                        ":You cant kill a server!"


                - Any attempts to use the KILL command on a server

                  are to be refused and this error returned directly

                  to the client.





Oikarinen & Reed                                               [Page 47]

RFC 1459              Internet Relay Chat Protocol              May 1993



        491     ERR_NOOPERHOST

                        ":No O-lines for your host"


                - If a client sends an OPER message and the server has

                  not been configured to allow connections from the

                  client's host as an operator, this error must be

                  returned.


        501     ERR_UMODEUNKNOWNFLAG

                        ":Unknown MODE flag"


                - Returned by the server to indicate that a MODE

                  message was sent with a nickname parameter and that

                  the a mode flag sent was not recognized.


        502     ERR_USERSDONTMATCH

                        ":Cant change mode for other users"


                - Error sent to any user trying to view or change the

                  user mode for a user other than themselves.


6.2 Command responses.


        300     RPL_NONE

                        Dummy reply number. Not used.


        302     RPL_USERHOST

                        ":[<reply>{<space><reply>}]"


                - Reply format used by USERHOST to list replies to

                  the query list.  The reply string is composed as

                  follows:


                  <reply> ::= <nick>['*'] '=' <'+'|'-'><hostname>


                  The '*' indicates whether the client has registered

                  as an Operator.  The '-' or '+' characters represent

                  whether the client has set an AWAY message or not

                  respectively.


        303     RPL_ISON

                        ":[<nick> {<space><nick>}]"


                - Reply format used by ISON to list replies to the

                  query list.


        301     RPL_AWAY

                        "<nick> :<away message>"




Oikarinen & Reed                                               [Page 48]

RFC 1459              Internet Relay Chat Protocol              May 1993



        305     RPL_UNAWAY

                        ":You are no longer marked as being away"

        306     RPL_NOWAWAY

                        ":You have been marked as being away"


                - These replies are used with the AWAY command (if

                  allowed).  RPL_AWAY is sent to any client sending a

                  PRIVMSG to a client which is away.  RPL_AWAY is only

                  sent by the server to which the client is connected.

                  Replies RPL_UNAWAY and RPL_NOWAWAY are sent when the

                  client removes and sets an AWAY message.


        311     RPL_WHOISUSER

                        "<nick> <user> <host> * :<real name>"

        312     RPL_WHOISSERVER

                        "<nick> <server> :<server info>"

        313     RPL_WHOISOPERATOR

                        "<nick> :is an IRC operator"

        317     RPL_WHOISIDLE

                        "<nick> <integer> :seconds idle"

        318     RPL_ENDOFWHOIS

                        "<nick> :End of /WHOIS list"

        319     RPL_WHOISCHANNELS

                        "<nick> :{[@|+]<channel><space>}"


                - Replies 311 - 313, 317 - 319 are all replies

                  generated in response to a WHOIS message.  Given that

                  there are enough parameters present, the answering

                  server must either formulate a reply out of the above

                  numerics (if the query nick is found) or return an

                  error reply.  The '*' in RPL_WHOISUSER is there as

                  the literal character and not as a wild card.  For

                  each reply set, only RPL_WHOISCHANNELS may appear

                  more than once (for long lists of channel names).

                  The '@' and '+' characters next to the channel name

                  indicate whether a client is a channel operator or

                  has been granted permission to speak on a moderated

                  channel.  The RPL_ENDOFWHOIS reply is used to mark

                  the end of processing a WHOIS message.


        314     RPL_WHOWASUSER

                        "<nick> <user> <host> * :<real name>"

        369     RPL_ENDOFWHOWAS

                        "<nick> :End of WHOWAS"


                - When replying to a WHOWAS message, a server must use

                  the replies RPL_WHOWASUSER, RPL_WHOISSERVER or

                  ERR_WASNOSUCHNICK for each nickname in the presented




Oikarinen & Reed                                               [Page 49]

RFC 1459              Internet Relay Chat Protocol              May 1993



                  list.  At the end of all reply batches, there must

                  be RPL_ENDOFWHOWAS (even if there was only one reply

                  and it was an error).


        321     RPL_LISTSTART

                        "Channel :Users  Name"

        322     RPL_LIST

                        "<channel> <# visible> :<topic>"

        323     RPL_LISTEND

                        ":End of /LIST"


                - Replies RPL_LISTSTART, RPL_LIST, RPL_LISTEND mark

                  the start, actual replies with data and end of the

                  server's response to a LIST command.  If there are

                  no channels available to return, only the start

                  and end reply must be sent.


        324     RPL_CHANNELMODEIS

                        "<channel> <mode> <mode params>"


        331     RPL_NOTOPIC

                        "<channel> :No topic is set"

        332     RPL_TOPIC

                        "<channel> :<topic>"


                - When sending a TOPIC message to determine the

                  channel topic, one of two replies is sent.  If

                  the topic is set, RPL_TOPIC is sent back else

                  RPL_NOTOPIC.


        341     RPL_INVITING

                        "<channel> <nick>"


                - Returned by the server to indicate that the

                  attempted INVITE message was successful and is

                  being passed onto the end client.


        342     RPL_SUMMONING

                        "<user> :Summoning user to IRC"


                - Returned by a server answering a SUMMON message to

                  indicate that it is summoning that user.


        351     RPL_VERSION

                        "<version>.<debuglevel> <server> :<comments>"


                - Reply by the server showing its version details.

                  The <version> is the version of the software being




Oikarinen & Reed                                               [Page 50]

RFC 1459              Internet Relay Chat Protocol              May 1993



                  used (including any patchlevel revisions) and the

                  <debuglevel> is used to indicate if the server is

                  running in "debug mode".


                  The "comments" field may contain any comments about

                  the version or further version details.


        352     RPL_WHOREPLY

                        "<channel> <user> <host> <server> <nick> \

                         <H|G>[*][@|+] :<hopcount> <real name>"

        315     RPL_ENDOFWHO

                        "<name> :End of /WHO list"


                - The RPL_WHOREPLY and RPL_ENDOFWHO pair are used

                  to answer a WHO message.  The RPL_WHOREPLY is only

                  sent if there is an appropriate match to the WHO

                  query.  If there is a list of parameters supplied

                  with a WHO message, a RPL_ENDOFWHO must be sent

                  after processing each list item with <name> being

                  the item.


        353     RPL_NAMREPLY

                        "<channel> :[[@|+]<nick> [[@|+]<nick> [...]]]"

        366     RPL_ENDOFNAMES

                        "<channel> :End of /NAMES list"


                - To reply to a NAMES message, a reply pair consisting

                  of RPL_NAMREPLY and RPL_ENDOFNAMES is sent by the

                  server back to the client.  If there is no channel

                  found as in the query, then only RPL_ENDOFNAMES is

                  returned.  The exception to this is when a NAMES

                  message is sent with no parameters and all visible

                  channels and contents are sent back in a series of

                  RPL_NAMEREPLY messages with a RPL_ENDOFNAMES to mark

                  the end.


        364     RPL_LINKS

                        "<mask> <server> :<hopcount> <server info>"

        365     RPL_ENDOFLINKS

                        "<mask> :End of /LINKS list"


                - In replying to the LINKS message, a server must send

                  replies back using the RPL_LINKS numeric and mark the

                  end of the list using an RPL_ENDOFLINKS reply.


        367     RPL_BANLIST

                        "<channel> <banid>"

        368     RPL_ENDOFBANLIST




Oikarinen & Reed                                               [Page 51]

RFC 1459              Internet Relay Chat Protocol              May 1993



                        "<channel> :End of channel ban list"


                - When listing the active 'bans' for a given channel,

                  a server is required to send the list back using the

                  RPL_BANLIST and RPL_ENDOFBANLIST messages.  A separate

                  RPL_BANLIST is sent for each active banid.  After the

                  banids have been listed (or if none present) a

                  RPL_ENDOFBANLIST must be sent.


        371     RPL_INFO

                        ":<string>"

        374     RPL_ENDOFINFO

                        ":End of /INFO list"


                - A server responding to an INFO message is required to

                  send all its 'info' in a series of RPL_INFO messages

                  with a RPL_ENDOFINFO reply to indicate the end of the

                  replies.


        375     RPL_MOTDSTART

                        ":- <server> Message of the day - "

        372     RPL_MOTD

                        ":- <text>"

        376     RPL_ENDOFMOTD

                        ":End of /MOTD command"


                - When responding to the MOTD message and the MOTD file

                  is found, the file is displayed line by line, with

                  each line no longer than 80 characters, using

                  RPL_MOTD format replies.  These should be surrounded

                  by a RPL_MOTDSTART (before the RPL_MOTDs) and an

                  RPL_ENDOFMOTD (after).


        381     RPL_YOUREOPER

                        ":You are now an IRC operator"


                - RPL_YOUREOPER is sent back to a client which has

                  just successfully issued an OPER message and gained

                  operator status.


        382     RPL_REHASHING

                        "<config file> :Rehashing"


                - If the REHASH option is used and an operator sends

                  a REHASH message, an RPL_REHASHING is sent back to

                  the operator.


        391     RPL_TIME




Oikarinen & Reed                                               [Page 52]

RFC 1459              Internet Relay Chat Protocol              May 1993



                        "<server> :<string showing server's local time>"


                - When replying to the TIME message, a server must send

                  the reply using the RPL_TIME format above.  The string

                  showing the time need only contain the correct day and

                  time there.  There is no further requirement for the

                  time string.


        392     RPL_USERSSTART

                        ":UserID   Terminal  Host"

        393     RPL_USERS

                        ":%-8s %-9s %-8s"

        394     RPL_ENDOFUSERS

                        ":End of users"

        395     RPL_NOUSERS

                        ":Nobody logged in"


                - If the USERS message is handled by a server, the

                  replies RPL_USERSTART, RPL_USERS, RPL_ENDOFUSERS and

                  RPL_NOUSERS are used.  RPL_USERSSTART must be sent

                  first, following by either a sequence of RPL_USERS

                  or a single RPL_NOUSER.  Following this is

                  RPL_ENDOFUSERS.


        200     RPL_TRACELINK

                        "Link <version & debug level> <destination> \

                         <next server>"

        201     RPL_TRACECONNECTING

                        "Try. <class> <server>"

        202     RPL_TRACEHANDSHAKE

                        "H.S. <class> <server>"

        203     RPL_TRACEUNKNOWN

                        "???? <class> [<client IP address in dot form>]"

        204     RPL_TRACEOPERATOR

                        "Oper <class> <nick>"

        205     RPL_TRACEUSER

                        "User <class> <nick>"

        206     RPL_TRACESERVER

                        "Serv <class> <int>S <int>C <server> \

                         <nick!user|*!*>@<host|server>"

        208     RPL_TRACENEWTYPE

                        "<newtype> 0 <client name>"

        261     RPL_TRACELOG

                        "File <logfile> <debug level>"


                - The RPL_TRACE* are all returned by the server in

                  response to the TRACE message.  How many are

                  returned is dependent on the the TRACE message and




Oikarinen & Reed                                               [Page 53]

RFC 1459              Internet Relay Chat Protocol              May 1993



                  whether it was sent by an operator or not.  There

                  is no predefined order for which occurs first.

                  Replies RPL_TRACEUNKNOWN, RPL_TRACECONNECTING and

                  RPL_TRACEHANDSHAKE are all used for connections

                  which have not been fully established and are either

                  unknown, still attempting to connect or in the

                  process of completing the 'server handshake'.

                  RPL_TRACELINK is sent by any server which handles

                  a TRACE message and has to pass it on to another

                  server.  The list of RPL_TRACELINKs sent in

                  response to a TRACE command traversing the IRC

                  network should reflect the actual connectivity of

                  the servers themselves along that path.

                  RPL_TRACENEWTYPE is to be used for any connection

                  which does not fit in the other categories but is

                  being displayed anyway.


        211     RPL_STATSLINKINFO

                        "<linkname> <sendq> <sent messages> \

                         <sent bytes> <received messages> \

                         <received bytes> <time open>"

        212     RPL_STATSCOMMANDS

                        "<command> <count>"

        213     RPL_STATSCLINE

                        "C <host> * <name> <port> <class>"

        214     RPL_STATSNLINE

                        "N <host> * <name> <port> <class>"

        215     RPL_STATSILINE

                        "I <host> * <host> <port> <class>"

        216     RPL_STATSKLINE

                        "K <host> * <username> <port> <class>"

        218     RPL_STATSYLINE

                        "Y <class> <ping frequency> <connect \

                         frequency> <max sendq>"

        219     RPL_ENDOFSTATS

                        "<stats letter> :End of /STATS report"

        241     RPL_STATSLLINE

                        "L <hostmask> * <servername> <maxdepth>"

        242     RPL_STATSUPTIME

                        ":Server Up %d days %d:%02d:%02d"

        243     RPL_STATSOLINE

                        "O <hostmask> * <name>"

        244     RPL_STATSHLINE

                        "H <hostmask> * <servername>"


        221     RPL_UMODEIS

                        "<user mode string>"





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                        - To answer a query about a client's own mode,

                          RPL_UMODEIS is sent back.


        251     RPL_LUSERCLIENT

                        ":There are <integer> users and <integer> \

                         invisible on <integer> servers"

        252     RPL_LUSEROP

                        "<integer> :operator(s) online"

        253     RPL_LUSERUNKNOWN

                        "<integer> :unknown connection(s)"

        254     RPL_LUSERCHANNELS

                        "<integer> :channels formed"

        255     RPL_LUSERME

                        ":I have <integer> clients and <integer> \

                          servers"


                        - In processing an LUSERS message, the server

                          sends a set of replies from RPL_LUSERCLIENT,

                          RPL_LUSEROP, RPL_USERUNKNOWN,

                          RPL_LUSERCHANNELS and RPL_LUSERME.  When

                          replying, a server must send back

                          RPL_LUSERCLIENT and RPL_LUSERME.  The other

                          replies are only sent back if a non-zero count

                          is found for them.


        256     RPL_ADMINME

                        "<server> :Administrative info"

        257     RPL_ADMINLOC1

                        ":<admin info>"

        258     RPL_ADMINLOC2

                        ":<admin info>"

        259     RPL_ADMINEMAIL

                        ":<admin info>"


                        - When replying to an ADMIN message, a server

                          is expected to use replies RLP_ADMINME

                          through to RPL_ADMINEMAIL and provide a text

                          message with each.  For RPL_ADMINLOC1 a

                          description of what city, state and country

                          the server is in is expected, followed by

                          details of the university and department

                          (RPL_ADMINLOC2) and finally the administrative

                          contact for the server (an email address here

                          is required) in RPL_ADMINEMAIL.








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6.3 Reserved numerics.


   These numerics are not described above since they fall into one of

   the following categories:


        1. no longer in use;


        2. reserved for future planned use;


        3. in current use but are part of a non-generic 'feature' of

           the current IRC server.


        209     RPL_TRACECLASS          217     RPL_STATSQLINE

        231     RPL_SERVICEINFO         232     RPL_ENDOFSERVICES

        233     RPL_SERVICE             234     RPL_SERVLIST

        235     RPL_SERVLISTEND

        316     RPL_WHOISCHANOP         361     RPL_KILLDONE

        362     RPL_CLOSING             363     RPL_CLOSEEND

        373     RPL_INFOSTART           384     RPL_MYPORTIS

        466     ERR_YOUWILLBEBANNED     476     ERR_BADCHANMASK

        492     ERR_NOSERVICEHOST


7. Client and server authentication


   Clients and servers are both subject to the same level of

   authentication.  For both, an IP number to hostname lookup (and

   reverse check on this) is performed for all connections made to the

   server.  Both connections are then subject to a password check (if

   there is a password set for that connection).  These checks are

   possible on all connections although the password check is only

   commonly used with servers.


   An additional check that is becoming of more and more common is that

   of the username responsible for making the connection.  Finding the

   username of the other end of the connection typically involves

   connecting to an authentication server such as IDENT as described in

   RFC 1413.


   Given that without passwords it is not easy to reliably determine who

   is on the other end of a network connection, use of passwords is

   strongly recommended on inter-server connections in addition to any

   other measures such as using an ident server.


8. Current implementations


   The only current implementation of this protocol is the IRC server,

   version 2.8. Earlier versions may implement some or all of the

   commands described by this document with NOTICE messages replacing




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   many of the numeric replies.  Unfortunately, due to backward

   compatibility requirements, the implementation of some parts of this

   document varies with what is laid out.  On notable difference is:


        * recognition that any LF or CR anywhere in a message marks the

          end of that message (instead of requiring CR-LF);


   The rest of this section deals with issues that are mostly of

   importance to those who wish to implement a server but some parts

   also apply directly to clients as well.


8.1 Network protocol: TCP - why it is best used here.


   IRC has been implemented on top of TCP since TCP supplies a reliable

   network protocol which is well suited to this scale of conferencing.

   The use of multicast IP is an alternative, but it is not widely

   available or supported at the present time.


8.1.1 Support of Unix sockets


   Given that Unix domain sockets allow listen/connect operations, the

   current implementation can be configured to listen and accept both

   client and server connections on a Unix domain socket.  These are

   recognized as sockets where the hostname starts with a '/'.


   When providing any information about the connections on a Unix domain

   socket, the server is required to supplant the actual hostname in

   place of the pathname unless the actual socket name is being asked

   for.


8.2 Command Parsing


   To provide useful 'non-buffered' network IO for clients and servers,

   each connection is given its own private 'input buffer' in which the

   results of the most recent read and parsing are kept.  A buffer size

   of 512 bytes is used so as to hold 1 full message, although, this

   will usually hold several commands.  The private buffer is parsed

   after every read operation for valid messages.  When dealing with

   multiple messages from one client in the buffer, care should be taken

   in case one happens to cause the client to be 'removed'.


8.3 Message delivery


   It is common to find network links saturated or hosts to which you

   are sending data unable to send data.  Although Unix typically

   handles this through the TCP window and internal buffers, the server

   often has large amounts of data to send (especially when a new

   server-server link forms) and the small buffers provided in the




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   kernel are not enough for the outgoing queue.  To alleviate this

   problem, a "send queue" is used as a FIFO queue for data to be sent.

   A typical "send queue" may grow to 200 Kbytes on a large IRC network

   with a slow network connection when a new server connects.


   When polling its connections, a server will first read and parse all

   incoming data, queuing any data to be sent out. When all available

   input is processed, the queued data is sent. This reduces the number

   of write() system calls and helps TCP make bigger packets.


8.4 Connection 'Liveness'


   To detect when a connection has died or become unresponsive, the

   server must ping each of its connections that it doesn't get a

   response from in a given amount of time.


   If a connection doesn't respond in time, its connection is closed

   using the appropriate procedures.  A connection is also dropped if

   its sendq grows beyond the maximum allowed, because it is better to

   close a slow connection than have a server process block.


8.5 Establishing a server to client connection


   Upon connecting to an IRC server, a client is sent the MOTD (if

   present) as well as the current user/server count (as per the LUSER

   command).  The server is also required to give an unambiguous message

   to the client which states its name and version as well as any other

   introductory messages which may be deemed appropriate.


   After dealing with this, the server must then send out the new user's

   nickname and other information as supplied by itself (USER command)

   and as the server could discover (from DNS/authentication servers).

   The server must send this information out with NICK first followed by

   USER.


8.6 Establishing a server-server connection.


   The process of establishing of a server-to-server connection is

   fraught with danger since there are many possible areas where

   problems can occur - the least of which are race conditions.


   After a server has received a connection following by a PASS/SERVER

   pair which were recognised as being valid, the server should then

   reply with its own PASS/SERVER information for that connection as

   well as all of the other state information it knows about as

   described below.


   When the initiating server receives a PASS/SERVER pair, it too then




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   checks that the server responding is authenticated properly before

   accepting the connection to be that server.


8.6.1 Server exchange of state information when connecting


   The order of state information being exchanged between servers is

   essential.  The required order is as follows:


        * all known other servers;


        * all known user information;


        * all known channel information.


   Information regarding servers is sent via extra SERVER messages, user

   information with NICK/USER/MODE/JOIN messages and channels with MODE

   messages.


   NOTE: channel topics are *NOT* exchanged here because the TOPIC

   command overwrites any old topic information, so at best, the two

   sides of the connection would exchange topics.


   By passing the state information about servers first, any collisions

   with servers that already exist occur before nickname collisions due

   to a second server introducing a particular nickname.  Due to the IRC

   network only being able to exist as an acyclic graph, it may be

   possible that the network has already reconnected in another

   location, the place where the collision occurs indicating where the

   net needs to split.


8.7 Terminating server-client connections


   When a client connection closes, a QUIT message is generated on

   behalf of the client by the server to which the client connected.  No

   other message is to be generated or used.


8.8 Terminating server-server connections


   If a server-server connection is closed, either via a remotely

   generated SQUIT or 'natural' causes, the rest of the connected IRC

   network must have its information updated with by the server which

   detected the closure.  The server then sends a list of SQUITs (one

   for each server behind that connection) and a list of QUITs (again,

   one for each client behind that connection).








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8.9 Tracking nickname changes


   All IRC servers are required to keep a history of recent nickname

   changes.  This is required to allow the server to have a chance of

   keeping in touch of things when nick-change race conditions occur

   with commands which manipulate them.  Commands which must trace nick

   changes are:


        * KILL (the nick being killed)


        * MODE (+/- o,v)


        * KICK (the nick being kicked)


   No other commands are to have nick changes checked for.


   In the above cases, the server is required to first check for the

   existence of the nickname, then check its history to see who that

   nick currently belongs to (if anyone!).  This reduces the chances of

   race conditions but they can still occur with the server ending up

   affecting the wrong client.  When performing a change trace for an

   above command it is recommended that a time range be given and

   entries which are too old ignored.


   For a reasonable history, a server should be able to keep previous

   nickname for every client it knows about if they all decided to

   change.  This size is limited by other factors (such as memory, etc).


8.10 Flood control of clients


   With a large network of interconnected IRC servers, it is quite easy

   for any single client attached to the network to supply a continuous

   stream of messages that result in not only flooding the network, but

   also degrading the level of service provided to others.  Rather than

   require every 'victim' to be provide their own protection, flood

   protection was written into the server and is applied to all clients

   except services.  The current algorithm is as follows:


        * check to see if client's `message timer' is less than

          current time (set to be equal if it is);


        * read any data present from the client;


        * while the timer is less than ten seconds ahead of the current

          time, parse any present messages and penalize the client by

          2 seconds for each message;


   which in essence means that the client may send 1 message every 2




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   seconds without being adversely affected.


8.11 Non-blocking lookups


   In a real-time environment, it is essential that a server process do

   as little waiting as possible so that all the clients are serviced

   fairly.  Obviously this requires non-blocking IO on all network

   read/write operations.  For normal server connections, this was not

   difficult, but there are other support operations that may cause the

   server to block (such as disk reads).  Where possible, such activity

   should be performed with a short timeout.


8.11.1 Hostname (DNS) lookups


   Using the standard resolver libraries from Berkeley and others has

   meant large delays in some cases where replies have timed out.  To

   avoid this, a separate set of DNS routines were written which were

   setup for non-blocking IO operations and then polled from within the

   main server IO loop.


8.11.2 Username (Ident) lookups


   Although there are numerous ident libraries for use and inclusion

   into other programs, these caused problems since they operated in a

   synchronous manner and resulted in frequent delays.  Again the

   solution was to write a set of routines which would cooperate with

   the rest of the server and work using non-blocking IO.


8.12 Configuration File


   To provide a flexible way of setting up and running the server, it is

   recommended that a configuration file be used which contains

   instructions to the server on the following:


        * which hosts to accept client connections from;


        * which hosts to allow to connect as servers;


        * which hosts to connect to (both actively and

          passively);


        * information about where the server is (university,

          city/state, company are examples of this);


        * who is responsible for the server and an email address

          at which they can be contacted;


        * hostnames and passwords for clients which wish to be given




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          access to restricted operator commands.


   In specifying hostnames, both domain names and use of the 'dot'

   notation (127.0.0.1) should both be accepted.  It must be possible to

   specify the password to be used/accepted for all outgoing and

   incoming connections (although the only outgoing connections are

   those to other servers).


   The above list is the minimum requirement for any server which wishes

   to make a connection with another server.  Other items which may be

   of use are:


        * specifying which servers other server may introduce;


        * how deep a server branch is allowed to become;


        * hours during which clients may connect.


8.12.1 Allowing clients to connect


   A server should use some sort of 'access control list' (either in the

   configuration file or elsewhere) that is read at startup and used to

   decide what hosts clients may use to connect to it.


   Both 'deny' and 'allow' should be implemented to provide the required

   flexibility for host access control.


8.12.2 Operators


   The granting of operator privileges to a disruptive person can have

   dire consequences for the well-being of the IRC net in general due to

   the powers given to them.  Thus, the acquisition of such powers

   should not be very easy.  The current setup requires two 'passwords'

   to be used although one of them is usually easy guessed.  Storage of

   oper passwords in configuration files is preferable to hard coding

   them in and should be stored in a crypted format (ie using crypt(3)

   from Unix) to prevent easy theft.


8.12.3 Allowing servers to connect


   The interconnection of server is not a trivial matter: a bad

   connection can have a large impact on the usefulness of IRC.  Thus,

   each server should have a list of servers to which it may connect and

   which servers may connect to it.  Under no circumstances should a

   server allow an arbitrary host to connect as a server.  In addition

   to which servers may and may not connect, the configuration file

   should also store the password and other characteristics of that

   link.




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8.12.4 Administrivia


   To provide accurate and valid replies to the ADMIN command (see

   section 4.3.7), the server should find the relevant details in the

   configuration.


8.13 Channel membership


   The current server allows any registered local user to join upto 10

   different channels.  There is no limit imposed on non-local users so

   that the server remains (reasonably) consistant with all others on a

   channel membership basis


9. Current problems


   There are a number of recognized problems with this protocol, all  of

   which  hope to be solved sometime in the near future during its

   rewrite.  Currently, work is underway to find working solutions to

   these problems.


9.1 Scalability


   It is widely recognized that this protocol does not scale

   sufficiently well when used in a large arena.  The main problem comes

   from the requirement that all servers know about all other servers

   and users and that information regarding them be updated as soon as

   it changes.  It is also desirable to keep the number of servers low

   so that the path length between any two points is kept minimal and

   the spanning tree as strongly branched as possible.


9.2 Labels


   The current IRC protocol has 3 types of labels: the nickname, the

   channel name and the server name.  Each of the three types has its

   own domain and no duplicates are allowed inside that domain.

   Currently, it is possible for users to pick the label for any of the

   three, resulting in collisions.  It is widely recognized that this

   needs reworking, with a plan for unique names for channels and nicks

   that don't collide being desirable as well as a solution allowing a

   cyclic tree.


9.2.1 Nicknames


   The idea of the nickname on IRC is very convenient for users to use

   when talking to each other outside of a channel, but there is only a

   finite nickname space and being what they are, its not uncommon for

   several people to want to use the same nick.  If a nickname is chosen

   by two people using this protocol, either one will not succeed or




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   both will removed by use of KILL (4.6.1).


9.2.2 Channels


   The current channel layout requires that all servers know about all

   channels, their inhabitants and properties.  Besides not scaling

   well, the issue of privacy is also a concern.  A collision of

   channels is treated as an inclusive event (both people who create the

   new channel are considered to be members of it) rather than an

   exclusive one such as used to solve nickname collisions.


9.2.3 Servers


   Although the number of servers is usually small relative to the

   number of users and channels, they two currently required to be known

   globally, either each one separately or hidden behind a mask.


9.3 Algorithms


   In some places within the server code, it has not  been  possible  to

   avoid  N^2  algorithms  such  as  checking  the channel list of a set

   of clients.


   In current server versions, there are no database consistency checks,

   each server assumes that a neighbouring server is correct.  This

   opens the door to large problems if a connecting server is buggy or

   otherwise tries to introduce contradictions to the existing net.


   Currently, because of the lack of unique internal and global labels,

   there are a multitude of race conditions that exist.  These race

   conditions generally arise from the problem of it taking time for

   messages to traverse and effect the IRC network.  Even by changing to

   unique labels, there are problems with channel-related commands being

   disrupted.


10. Current support and availability


           Mailing lists for IRC related discussion:

                Future protocol: ircd-three-request@eff.org

                General discussion: operlist-request@eff.org


           Software implemenations

                cs.bu.edu:/irc

                nic.funet.fi:/pub/irc

                coombs.anu.edu.au:/pub/irc


           Newsgroup: alt.irc





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RFC 1459              Internet Relay Chat Protocol              May 1993



Security Considerations


   Security issues are discussed in sections 4.1, 4.1.1, 4.1.3, 5.5, and

   7.


12. Authors' Addresses


   Jarkko Oikarinen

   Tuirantie 17 as 9

   90500 OULU

   FINLAND


   Email: jto@tolsun.oulu.fi



   Darren Reed

   4 Pateman Street

   Watsonia, Victoria 3087

   Australia


   Email: avalon@coombs.anu.edu.au































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