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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
Oikarinen & Reed [Page 1]
RFC 1459 Internet Relay Chat Protocol May 1993
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
Oikarinen & Reed [Page 2]
RFC 1459 Internet Relay Chat Protocol May 1993
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
Oikarinen & Reed [Page 3]
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 ]
Oikarinen & Reed [Page 4]
RFC 1459 Internet Relay Chat Protocol May 1993
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.
<username> <hostname> <servername> <realname>
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 Expand
distributed channel, which is known to all the servers that are
connected to the network. These channels are marked by the first
character being a '#'. The other type of channel is limited to one
server, and only clients on the server where it exists may join
it. These channels 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
Oikarinen & Reed [Page 6]
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
Oikarinen & Reed [Page 7]
RFC 1459 Internet Relay Chat Protocol May 1993
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
Oikarinen & Reed [Page 8]
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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RFC 1459 Internet Relay Chat Protocol May 1993
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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RFC 1459 Internet Relay Chat Protocol May 1993
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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RFC 1459 Internet Relay Chat Protocol May 1993
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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RFC 1459 Internet Relay Chat Protocol May 1993
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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RFC 1459 Internet Relay Chat Protocol May 1993
; 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:
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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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RFC 1459 Internet Relay Chat Protocol May 1993
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.