Internet Relay Chat: Client-to-Client Protocol (CTCP)Independentgrawity@gmail.comircdocsdaniel@danieloaks.netThis document describes the Client-to-Client Protocol (CTCP), which lets Internet Relay Chat (IRC) clients send each other messages that get displayed or responded to in special ways. CTCP has been widely implemented, with most clients supporting it natively. This document outlines how to implement CTCP and the most common messages used.It updates RFC 1459 and RFC 2812.The core Internet Relay Chat (IRC) protocol as described in and only has a single command for regular user messages, and does not provide a way for clients to exchange information directly. Client-to-Client Protocol (CTCP) messages let clients exchange messages that get displayed or responded to in special ways. Some examples of how CTCP is used is to request special formatting on messages, query other clients for metadata, and help initiate file transfers with other clients.This document goes over the subset of CTCP which is commonly implemented, and is compatible with clients implementing CTCP as described by older documents.The key words “MUST”, “MUST NOT”, “REQUIRED”, “SHALL”, “SHALL NOT”, “SHOULD”, “SHOULD NOT”, “RECOMMENDED”, “MAY”, and “OPTIONAL” in this document are to be interpreted as described in .CTCP queries are sent with the PRIVMSG IRC command, and CTCP replies are sent with NOTICE command. To indicate a CTCP query or reply, the body of the message (the second parameter) begins with the CTCP delimiter. The ABNF for this message body is as follows:Commands are case-insensitive. When creating new CTCP commands, authors SHOULD use only alphanumeric characters for ease of implementation.The final CTCP delimiter SHOULD be sent on outgoing messages for compatibility reasons, and software MUST accept incoming messages which lack it. This is due to how servers implement message truncation and certain clients implement message splitting.Queries MAY be sent to channels. When these queries are responded to, the responses are sent to the querying client rather than the channel which the query was originally sent to.Many servers implement optional filtering so that only the ACTION CTCP message can be sent to channels. When this is done, it can typically be enabled or disabled by channel operators with a channel mode.Here are two examples of CTCP queries and replies:CTCP messages generally take on one of these types. These message types are defined here to simplify understanding, and aren’t differentiated by the protocol itself.This type of CTCP requests special formatting of a user-visible message. That is, to send a user-visible message that should be displayed differently from regular messages - e.g. as an action, a whisper, an announcement.Extended formatting messages are sent as a PRIVMSG, and are expected to be used in channels as well as between clients. There is no automatic response to this message type, as it is not a query nor reply.These messages are sent as a PRIVMSG and can have parameters, but generate no reply.Example:This type of CTCP provides relatively static information about the target client, user or connection.This CTCP takes the form of a query and a response (as a PRIVMSG and NOTICE, respectively). Due to how bouncers interact with multiple clients, there may sometimes be multiple responses to queries.Metadata queries MUST NOT require the recipient to implement any side effects (beyond sending the reply itself); if a CTCP message causes side effects by design, it should be categorized as an extended query instead.Metadata queries do not have any parameters, but expect a reply with parameters as the response data.Example:This type of CTCP provides dynamic information or invoke actions from the client.This CTCP takes the form of a query and a response (as a PRIVMSG and NOTICE, respectively).Queries sent to a channel always generate private replies.Extended queries and replies may have parameters.Example:CTCP messages themselves are not standardised. Clients that receive either unexpected messages or known messages with unexpected values SHOULD ignore them and produce no response to the sending user. Clients MAY receive more than one response per user for a query they send, due to multiple clients being connected behind an IRC bouncer.Thanks to the IRCv3 group for giving feedback on this specification, and to Khaled for advice on client flood protection.Thanks to Michael Sandrof for creating CTCP, Troy Rollo for creating the related DCC protocol, as well as Klaus Zeuge and Ben Mesander who wrote and revised related specifications.Special thanks to dequis, Sadie and James Wheare for help with this and related work.CTCP messages are completely untrusted data, and clients MUST NOT assume that they are well-formed or complete.Older CTCP specifications describe quoting methods which are complex and not widely implemented. Implementations SHOULD NOT implement “low-level quoting” or “CTCP-level quoting” when parsing messages.Older CTCP specifications describe including more than one CTCP message inside a single PRIVMSG or NOTICE command. Implementations SHOULD NOT implement this form of CTCP parsing as it is not widely-implemented and may result in an implementation that can be more easily flooded off the server they are connected to.CTCP requests can be abused to flood clients off the server they are connected to. Clients may ignore or delay excessive incoming requests to protect against this.This document has no actions for IANA.Internet Relay Chat ProtocolThe IRC protocol is a text-based protocol, with the simplest client being any socket program capable of connecting to the server. This memo defines an Experimental Protocol for the Internet community.Internet Relay Chat: Client ProtocolThis document defines the Client Protocol, and assumes that the reader is familiar with the IRC Architecture. This memo provides information for the Internet community.Key words for use in RFCs to Indicate Requirement LevelsIn many standards track documents several words are used to signify the requirements in the specification. These words are often capitalized. This document defines these words as they should be interpreted in IETF documents. This document specifies an Internet Best Current Practices for the Internet Community, and requests discussion and suggestions for improvements.Augmented BNF for Syntax Specifications: ABNFInternet technical specifications often need to define a formal syntax. Over the years, a modified version of Backus-Naur Form (BNF), called Augmented BNF (ABNF), has been popular among many Internet specifications. The current specification documents ABNF. It balances compactness and simplicity with reasonable representational power. The differences between standard BNF and ABNF involve naming rules, repetition, alternatives, order-independence, and value ranges. This specification also supplies additional rule definitions and encoding for a core lexical analyzer of the type common to several Internet specifications. [STANDARDS-TRACK]Internet Message FormatThis document specifies the Internet Message Format (IMF), a syntax for text messages that are sent between computer users, within the framework of "electronic mail" messages. This specification is a revision of Request For Comments (RFC) 2822, which itself superseded Request For Comments (RFC) 822, "Standard for the Format of ARPA Internet Text Messages", updating it to reflect current practice and incorporating incremental changes that were specified in other RFCs. [STANDARDS-TRACK]This section is not exhaustive, and only lists those CTCP messages which are widely implemented across the IRC ecosystem.The reply and parameter lines below use a simplified syntax that represents variables by surrounding them with angle brackets.This extended formatting message shows that <text> should be displayed as a third-person action or emote; in clients, it’s generally activated with the command /me.If <text> is empty, clients SHOULD still include a single space after ACTION (i.e. an empty params section) to help compatibility. Clients SHOULD correctly parse incoming ACTION messages with or without the params section.ACTION is universally implemented and very commonly used. Clients MUST implement this CTCP message to effectively use IRC.Examples:This extended query returns a list of the CTCP messages that this client supports and implements, delimited by a single ASCII space.CLIENTINFO is widely implemented. Clients SHOULD implement this CTCP message.Example:This extended query sets up and controls connections that go directly between clients, bypassing the IRC server. This is typically used for features that require a large amount of traffic between clients or simply wish to bypass the server itself such as file transfer and direct chat.The Direct Client-to-Client (DCC) Protocol requires its own specification, and is not described in-depth here.DCC is widely implemented. Clients MAY implement this CTCP message.This metadata query returns miscellaneous info about the user, typically the same information that’s held in their realname field.However, some implementations return the client name and version instead.FINGER is largely obsolete. Clients MAY implement this CTCP message.Example:This extended query confirms reachability and latency to the target client. When receiving a CTCP PING, the reply MUST contain exactly the same parameters as the original query.PING is universally implemented. Clients SHOULD implement this CTCP message.Example:This metadata query returns the location of the source code for the client.SOURCE is rarely implemented. Clients MAY implement this CTCP message.Example:This extended query returns the client’s local time in an unspecified human-readable format. In practice, both the format output by ctime() and the format described in Section 3.3 of are common. Earlier specifications recommended prefixing the time string with a colon, but this is no longer recommended.New implementations MAY default to UTC time for privacy reasons.TIME is almost universally implemented. Clients MAY implement this CTCP message.Example:This metadata query returns the name and version of the client software in use. There is no specified format for the version string.Clients may allow users to customise the response value for this query.VERSION is universally implemented. Clients SHOULD implement this CTCP message.Example:This metadata query returns miscellaneous info about the user, typically the same information that’s held in their realname field.However, some implementations return <nickname> (<realname>) instead.USERINFO is largely obsolete. Clients MAY implement this CTCP message.Example:Changes from draft 1 (July 18, 2017)General editing, fixed mistypes.Simplified some of the examples.Changes from draft 0 (May 29, 2017)Added note about servers truncating CTCP messages (thanks Peter).Fixed misspellings and added note to TIME about previously-recommended prefix (thanks Patrick).Mentioned how to parse/send empty ACTION messages (thanks dequis and the crew).