#-- vim:sw=2:et
#++
#
# :title: IRC message datastructures
module Irc
class Bot
module Config
Config.register ArrayValue.new('core.address_prefix',
:default => [], :wizard => true,
:desc => "what non nick-matching prefixes should the bot respond to as if addressed (e.g !, so that '!foo' is treated like 'rbot: foo')"
)
Config.register BooleanValue.new('core.reply_with_nick',
:default => false, :wizard => true,
:desc => "if true, the bot will prepend the nick to what he has to say when replying (e.g. 'markey: you can't do that!')"
)
Config.register StringValue.new('core.nick_postfix',
:default => ':', :wizard => true,
:desc => "when replying with nick put this character after the nick of the user the bot is replying to"
)
Config.register BooleanValue.new('core.private_replies',
:default => false,
:desc => 'Should the bot reply to private instead of the channel?'
)
end
end
# Define standard IRC attributes (not so standard actually,
# but the closest thing we have ...)
Bold = "\002"
Underline = "\037"
Reverse = "\026"
Italic = "\011"
NormalText = "\017"
AttributeRx = /#{Bold}|#{Underline}|#{Reverse}|#{Italic}|#{NormalText}/
# Color is prefixed by \003 and followed by optional
# foreground and background specifications, two-digits-max
# numbers separated by a comma. One of the two parts
# must be present.
Color = "\003"
ColorRx = /#{Color}\d?\d?(?:,\d\d?)?/
FormattingRx = /#{AttributeRx}|#{ColorRx}/
# Standard color codes
ColorCode = {
:black => 1,
:blue => 2,
:navyblue => 2,
:navy_blue => 2,
:green => 3,
:red => 4,
:brown => 5,
:purple => 6,
:olive => 7,
:yellow => 8,
:limegreen => 9,
:lime_green => 9,
:teal => 10,
:aqualight => 11,
:aqua_light => 11,
:royal_blue => 12,
:hotpink => 13,
:hot_pink => 13,
:darkgray => 14,
:dark_gray => 14,
:lightgray => 15,
:light_gray => 15,
:white => 0
}
# Convert a String or Symbol into a color number
def Irc.find_color(data)
"%02d" % if Integer === data
data
else
f = if String === data
data.intern
else
data
end
if ColorCode.key?(f)
ColorCode[f]
else
0
end
end
end
# Insert the full color code for a given
# foreground/background combination.
def Irc.color(fg=nil,bg=nil)
str = Color.dup
if fg
str << Irc.find_color(fg)
end
if bg
str << "," << Irc.find_color(bg)
end
return str
end
# base user message class, all user messages derive from this
# (a user message is defined as having a source hostmask, a target
# nick/channel and a message part)
class BasicUserMessage
# associated bot
attr_reader :bot
# associated server
attr_reader :server
# when the message was received
attr_reader :time
# User that originated the message
attr_reader :source
# User/Channel message was sent to
attr_reader :target
# contents of the message (stripped of initial/final format codes)
attr_accessor :message
# contents of the message (for logging purposes)
attr_accessor :logmessage
# contents of the message (stripped of all formatting)
attr_accessor :plainmessage
# has the message been replied to/handled by a plugin?
attr_accessor :replied
alias :replied? :replied
# should the message be ignored?
attr_accessor :ignored
alias :ignored? :ignored
# set this to true if the method that delegates the message is run in a thread
attr_accessor :in_thread
alias :in_thread? :in_thread
def inspect(fields=nil)
ret = self.__to_s__[0..-2]
ret << ' bot=' << @bot.__to_s__
ret << ' server=' << server.to_s
ret << ' time=' << time.to_s
ret << ' source=' << source.to_s
ret << ' target=' << target.to_s
ret << ' message=' << message.inspect
ret << ' logmessage=' << logmessage.inspect
ret << ' plainmessage=' << plainmessage.inspect
ret << fields if fields
ret << ' (identified)' if identified?
if address?
ret << ' (addressed to me'
ret << ', with prefix' if prefixed?
ret << ')'
end
ret << ' (replied)' if replied?
ret << ' (ignored)' if ignored?
ret << ' (in thread)' if in_thread?
ret << '>'
end
# instantiate a new Message
# bot:: associated bot class
# server:: Server where the message took place
# source:: User that sent the message
# target:: User/Channel is destined for
# message:: actual message
def initialize(bot, server, source, target, message)
@msg_wants_id = false unless defined? @msg_wants_id
@time = Time.now
@bot = bot
@source = source
@address = false
@prefixed = false
@target = target
@message = message || ""
@replied = false
@server = server
@ignored = false
@in_thread = false
@identified = false
if @msg_wants_id && @server.capabilities[:"identify-msg"]
if @message =~ /^([-+])(.*)/
@identified = ($1=="+")
@message = $2
else
warning "Message does not have identification"
end
end
@logmessage = @message.dup
@plainmessage = BasicUserMessage.strip_formatting(@message)
@message = BasicUserMessage.strip_initial_formatting(@message)
if target && target == @bot.myself
@address = true
end
end
# Access the nick of the source
#
def sourcenick
@source.nick rescue @source.to_s
end
# Access the user@host of the source
#
def sourceaddress
"#{@source.user}@#{@source.host}" rescue @source.to_s
end
# Access the botuser corresponding to the source, if any
#
def botuser
source.botuser rescue @bot.auth.everyone
end
# Was the message from an identified user?
def identified?
return @identified
end
# returns true if the message was addressed to the bot.
# This includes any private message to the bot, or any public message
# which looks like it's addressed to the bot, e.g. "bot: foo", "bot, foo",
# a kick message when bot was kicked etc.
def address?
return @address
end
# returns true if the messaged was addressed to the bot via the address
# prefix. This can be used to tell appart "!do this" from "botname, do this"
def prefixed?
return @prefixed
end
# strip mIRC colour escapes from a string
def BasicUserMessage.stripcolour(string)
return "" unless string
ret = string.gsub(ColorRx, "")
#ret.tr!("\x00-\x1f", "")
ret
end
def BasicUserMessage.strip_initial_formatting(string)
return "" unless string
ret = string.gsub(/^#{FormattingRx}|#{FormattingRx}$/,"")
end
def BasicUserMessage.strip_formatting(string)
string.gsub(FormattingRx,"")
end
end
# class for handling welcome messages from the server
class WelcomeMessage < BasicUserMessage
end
# class for handling MOTD from the server. Yes, MotdMessage
# is somewhat redundant, but it fits with the naming scheme
class MotdMessage < BasicUserMessage
end
# class for handling IRC user messages. Includes some utilities for handling
# the message, for example in plugins.
# The +message+ member will have any bot addressing "^bot: " removed
# (address? will return true in this case)
class UserMessage < BasicUserMessage
def inspect
fields = ' plugin=' << plugin.inspect
fields << ' params=' << params.inspect
fields << ' channel=' << channel.to_s if channel
fields << ' (reply to ' << replyto.to_s << ')'
if self.private?
fields << ' (private)'
else
fields << ' (public)'
end
if self.action?
fields << ' (action)'
elsif ctcp
fields << ' (CTCP ' << ctcp << ')'
end
super(fields)
end
# for plugin messages, the name of the plugin invoked by the message
attr_reader :plugin
# for plugin messages, the rest of the message, with the plugin name
# removed
attr_reader :params
# convenience member. Who to reply to (i.e. would be sourcenick for a
# privately addressed message, or target (the channel) for a publicly
# addressed message
attr_reader :replyto
# channel the message was in, nil for privately addressed messages
attr_reader :channel
# for PRIVMSGs, false unless the message was a CTCP command,
# in which case it evaluates to the CTCP command itself
# (TIME, PING, VERSION, etc). The CTCP command parameters
# are then stored in the message.
attr_reader :ctcp
# for PRIVMSGs, true if the message was a CTCP ACTION (CTCP stuff
# will be stripped from the message)
attr_reader :action
# instantiate a new UserMessage
# bot:: associated bot class
# source:: hostmask of the message source
# target:: nick/channel message is destined for
# message:: message part
def initialize(bot, server, source, target, message)
super(bot, server, source, target, message)
@target = target
@private = false
@plugin = nil
@ctcp = false
@action = false
if target == @bot.myself
@private = true
@address = true
@channel = nil
@replyto = source
else
@replyto = @target
@channel = @target
end
# check for option extra addressing prefixes, e.g "|search foo", or
# "!version" - first match wins
bot.config['core.address_prefix'].each {|mprefix|
if @message.gsub!(/^#{Regexp.escape(mprefix)}\s*/, "")
@address = true
@prefixed = true
break
end
}
# even if they used above prefixes, we allow for silly people who
# combine all possible types, e.g. "|rbot: hello", or
# "/msg rbot rbot: hello", etc
if @message.gsub!(/^\s*#{Regexp.escape(bot.nick)}\s*([:;,>]|\s)\s*/i, "")
@address = true
end
if(@message =~ /^\001(\S+)(\s(.+))?\001/)
@ctcp = $1
# FIXME need to support quoting of NULL and CR/LF, see
# http://www.irchelp.org/irchelp/rfc/ctcpspec.html
@message = $3 || String.new
@action = @ctcp == 'ACTION'
debug "Received CTCP command #{@ctcp} with options #{@message} (action? #{@action})"
@logmessage = @message.dup
@plainmessage = BasicUserMessage.strip_formatting(@message)
@message = BasicUserMessage.strip_initial_formatting(@message)
end
# free splitting for plugins
@params = @message.dup
# Created messges (such as by fake_message) can contain multiple lines
if @params.gsub!(/\A\s*(\S+)[\s$]*/m, "")
@plugin = $1.downcase
@params = nil unless @params.length > 0
end
end
# returns true for private messages, e.g. "/msg bot hello"
def private?
return @private
end
# returns true if the message was in a channel
def public?
return !@private
end
def action?
return @action
end
# convenience method to reply to a message, useful in plugins. It's the
# same as doing:
# @bot.say m.replyto, string
# So if the message is private, it will reply to the user. If it was
# in a channel, it will reply in the channel.
def plainreply(string, options={})
reply string, {:nick => false}.merge(options)
end
# Same as reply, but when replying in public it adds the nick of the user
# the bot is replying to
def nickreply(string, options={})
reply string, {:nick => true}.merge(options)
end
# Same as nickreply, but always prepend the target's nick.
def nickreply!(string, options={})
reply string, {:nick => true, :forcenick => true}.merge(options)
end
# The general way to reply to a command. The following options are available:
# :nick [false, true, :auto]
# state if the nick of the user calling the command should be prepended
# :auto uses core.reply_with_nick
#
# :forcenick [false, true]
# if :nick is true, always prepend the target's nick, even if the nick
# already appears in the reply. Defaults to false.
#
# :to [:private, :public, :auto]
# where should the bot reply?
# :private always reply to the nick
# :public reply to the channel (if available)
# :auto uses core.private_replies
def reply(string, options={})
opts = {:nick => :auto, :forcenick => false, :to => :auto}.merge options
if opts[:nick] == :auto
opts[:nick] = @bot.config['core.reply_with_nick']
end
if !self.public?
opts[:to] = :private
elsif opts[:to] == :auto
opts[:to] = @bot.config['core.private_replies'] ? :private : :public
end
if (opts[:nick] &&
opts[:to] != :private &&
(string !~ /(?:^|\W)#{Regexp.escape(@source.to_s)}(?:$|\W)/ ||
opts[:forcenick]))
string = "#{@source}#{@bot.config['core.nick_postfix']} #{string}"
end
to = (opts[:to] == :private) ? source : @channel
@bot.say to, string, options
@replied = true
end
# convenience method to reply to a message with an action. It's the
# same as doing:
# @bot.action m.replyto, string
# So if the message is private, it will reply to the user. If it was
# in a channel, it will reply in the channel.
def act(string, options={})
@bot.action @replyto, string, options
@replied = true
end
# send a CTCP response, i.e. a private NOTICE to the sender
# with the same CTCP command and the reply as a parameter
def ctcp_reply(string, options={})
@bot.ctcp_notice @source, @ctcp, string, options
end
# convenience method to reply a literal message in the current language to the message
def plain_literal(ident)
self.reply @bot.lang.get(ident), :nick => false
end
# Like the above, but append the username
def nick_literal(ident)
str = @bot.lang.get(ident).dup
if self.public?
# remove final punctuation
str.gsub!(/[!,.]$/,"")
str += ", #{@source}"
end
self.reply str, :nick => false
end
# the default okay style is the same as the default reply style
def okay
@bot.config['core.reply_with_nick'] ? nick_literal('okay') : plain_literal('okay')
end
# thanks the user in reply
def thanks
@bot.config['core.reply_with_nick'] ? nick_literal('thanks') : plain_literal('thanks')
end
# send a NOTICE to the message source
#
def notify(msg,opts={})
@bot.notice(sourcenick, msg, opts)
end
end
# class to manage IRC PRIVMSGs
class PrivMessage < UserMessage
def initialize(bot, server, source, target, message, opts={})
@msg_wants_id = opts[:handle_id]
super(bot, server, source, target, message)
end
end
# class to manage IRC NOTICEs
class NoticeMessage < UserMessage
def initialize(bot, server, source, target, message, opts={})
@msg_wants_id = opts[:handle_id]
super(bot, server, source, target, message)
end
end
# class to manage IRC KICKs
# +address?+ can be used as a shortcut to see if the bot was kicked,
# basically, +target+ was kicked from +channel+ by +source+ with +message+
class KickMessage < BasicUserMessage
# channel user was kicked from
attr_reader :channel
def inspect
fields = ' channel=' << channel.to_s
super(fields)
end
def initialize(bot, server, source, target, channel, message="")
super(bot, server, source, target, message)
@channel = channel
end
end
# class to manage IRC INVITEs
# +address?+ can be used as a shortcut to see if the bot was invited,
# which should be true except for server bugs
class InviteMessage < BasicUserMessage
# channel user was invited to
attr_reader :channel
def inspect
fields = ' channel=' << channel.to_s
super(fields)
end
def initialize(bot, server, source, target, channel, message="")
super(bot, server, source, target, message)
@channel = channel
end
end
# class to pass IRC Nick changes in. @message contains the old nickame,
# @sourcenick contains the new one.
class NickMessage < BasicUserMessage
attr_accessor :is_on
def initialize(bot, server, source, oldnick, newnick)
super(bot, server, source, oldnick, newnick)
@address = (source == @bot.myself)
@is_on = []
end
def oldnick
return @target
end
def newnick
return @message
end
def inspect
fields = ' old=' << oldnick
fields << ' new=' << newnick
super(fields)
end
end
# class to manage mode changes
class ModeChangeMessage < BasicUserMessage
attr_accessor :modes
def initialize(bot, server, source, target, message="")
super(bot, server, source, target, message)
@address = (source == @bot.myself)
@modes = []
end
def inspect
fields = ' modes=' << modes.inspect
super(fields)
end
end
# class to manage WHOIS replies
class WhoisMessage < BasicUserMessage
attr_reader :whois
def initialize(bot, server, source, target, whois)
super(bot, server, source, target, "")
@address = (target == @bot.myself)
@whois = whois
end
def inspect
fields = ' whois=' << whois.inspect
super(fields)
end
end
# class to manage LIST replies
class ListMessage < BasicUserMessage
attr_accessor :list
def initialize(bot, server, source, target, list=Hash.new)
super(bot, server, source, target, "")
@list = []
end
def inspect
fields = ' list=' << list.inspect
super(fields)
end
end
# class to manage NAME replies
class NamesMessage < BasicUserMessage
attr_accessor :users
def initialize(bot, server, source, target, message="")
super(bot, server, source, target, message)
@users = []
end
def inspect
fields = ' users=' << users.inspect
super(fields)
end
end
# class to manager Ban list replies
class BanlistMessage < BasicUserMessage
# the bans
attr_accessor :bans
def initialize(bot, server, source, target, message="")
super(bot, server, source, target, message)
@bans = []
end
def inspect
fields = ' bans=' << bans.inspect
super(fields)
end
end
class QuitMessage < BasicUserMessage
attr_accessor :was_on
def initialize(bot, server, source, target, message="")
super(bot, server, source, target, message)
@was_on = []
end
end
class TopicMessage < BasicUserMessage
# channel topic
attr_reader :topic
# topic set at (unixtime)
attr_reader :timestamp
# topic set on channel
attr_reader :channel
# :info if topic info, :set if topic set
attr_accessor :info_or_set
def initialize(bot, server, source, channel, topic=ChannelTopic.new)
super(bot, server, source, channel, topic.text)
@topic = topic
@timestamp = topic.set_on
@channel = channel
@info_or_set = nil
end
def inspect
fields = ' topic=' << topic
fields << ' (set on ' << timestamp << ')'
super(fields)
end
end
# class to manage channel joins
class JoinMessage < BasicUserMessage
# channel joined
attr_reader :channel
def inspect
fields = ' channel=' << channel.to_s
super(fields)
end
def initialize(bot, server, source, channel, message="")
super(bot, server, source, channel, message)
@channel = channel
# in this case sourcenick is the nick that could be the bot
@address = (source == @bot.myself)
end
end
# class to manage channel parts
# same as a join, but can have a message too
class PartMessage < JoinMessage
end
# class to handle ERR_NOSUCHNICK and ERR_NOSUCHCHANNEL
class NoSuchTargetMessage < BasicUserMessage
# the channel or nick that was not found
attr_reader :target
def initialize(bot, server, source, target, message='')
super(bot, server, source, target, message)
@target = target
end
end
class UnknownMessage < BasicUserMessage
end
end