package POE::Component::IRC;
use strict;
use warnings;
use Carp;
use POE qw(Wheel::SocketFactory Wheel::ReadWrite Driver::SysRW
Filter::Line Filter::Stream Filter::Stackable);
use POE::Filter::IRCD;
use POE::Filter::IRC::Compat;
use POE::Component::IRC::Common qw(:ALL);
use POE::Component::IRC::Constants qw(:ALL);
use POE::Component::IRC::Plugin qw(:ALL);
use POE::Component::IRC::Plugin::DCC;
use POE::Component::IRC::Plugin::ISupport;
use POE::Component::IRC::Plugin::Whois;
use Socket;
use base qw(POE::Component::Pluggable);
our $VERSION = '6.04';
our $REVISION = do {my@r=(q$Revision: 876 $=~/\d+/g);sprintf"%d"."%04d"x$#r,@r};
our ($GOT_SSL, $GOT_CLIENT_DNS, $GOT_SOCKET6, $GOT_ZLIB);
BEGIN {
eval {
require POE::Component::SSLify;
import POE::Component::SSLify qw( Client_SSLify );
$GOT_SSL = 1;
};
eval {
require POE::Component::Client::DNS;
$GOT_CLIENT_DNS = 1 if $POE::Component::Client::DNS::VERSION >= 0.99;
};
eval {
require Socket6;
import Socket6;
$GOT_SOCKET6 = 1;
};
eval {
require POE::Filter::Zlib::Stream;
$GOT_ZLIB = 1 if $POE::Filter::Zlib::Stream::VERSION >= 1.96;
}
}
# BINGOS: I have bundled up all the stuff that needs changing
# for inherited classes into _create. This gets called from 'spawn'.
# $self->{OBJECT_STATES_ARRAYREF} contains event mappings to methods that have
# the same name, gets passed to POE::Session->create as $self => [ ];
# $self->{OBJECT_STATES_HASHREF} contains event mappings to methods, where the
# event and the method have diferent names.
# $self->{IRC_CMDS} contains the traditional %irc_commands, mapping commands
# to events and the priority that the command has.
sub _create {
my ($self) = @_;
$self->{IRC_CMDS} = {
rehash => [ PRI_HIGH, 'noargs', ],
die => [ PRI_HIGH, 'noargs', ],
restart => [ PRI_HIGH, 'noargs', ],
quit => [ PRI_NORMAL, 'oneoptarg', ],
version => [ PRI_HIGH, 'oneoptarg', ],
time => [ PRI_HIGH, 'oneoptarg', ],
trace => [ PRI_HIGH, 'oneoptarg', ],
admin => [ PRI_HIGH, 'oneoptarg', ],
info => [ PRI_HIGH, 'oneoptarg', ],
away => [ PRI_HIGH, 'oneoptarg', ],
users => [ PRI_HIGH, 'oneoptarg', ],
lusers => [ PRI_HIGH, 'oneoptarg', ],
locops => [ PRI_HIGH, 'oneoptarg', ],
operwall => [ PRI_HIGH, 'oneoptarg', ],
wallops => [ PRI_HIGH, 'oneoptarg', ],
motd => [ PRI_HIGH, 'oneoptarg', ],
who => [ PRI_HIGH, 'oneoptarg', ],
nick => [ PRI_HIGH, 'onlyonearg', ],
oper => [ PRI_HIGH, 'onlytwoargs', ],
invite => [ PRI_HIGH, 'onlytwoargs', ],
squit => [ PRI_HIGH, 'onlytwoargs', ],
kill => [ PRI_HIGH, 'onlytwoargs', ],
privmsg => [ PRI_NORMAL, 'privandnotice', ],
privmsglo => [ PRI_NORMAL+1, 'privandnotice', ],
privmsghi => [ PRI_NORMAL-1, 'privandnotice', ],
notice => [ PRI_NORMAL, 'privandnotice', ],
noticelo => [ PRI_NORMAL+1, 'privandnotice', ],
noticehi => [ PRI_NORMAL-1, 'privandnotice', ],
squery => [ PRI_NORMAL, 'privandnotice', ],
join => [ PRI_HIGH, 'oneortwo', ],
summon => [ PRI_HIGH, 'oneortwo', ],
sconnect => [ PRI_HIGH, 'oneandtwoopt', ],
whowas => [ PRI_HIGH, 'oneandtwoopt', ],
stats => [ PRI_HIGH, 'spacesep', ],
links => [ PRI_HIGH, 'spacesep', ],
mode => [ PRI_HIGH, 'spacesep', ],
nickserv => [ PRI_HIGH, 'spacesep', ],
servlist => [ PRI_HIGH, 'spacesep', ],
part => [ PRI_HIGH, 'commasep', ],
names => [ PRI_HIGH, 'commasep', ],
list => [ PRI_HIGH, 'commasep', ],
whois => [ PRI_HIGH, 'commasep', ],
ctcp => [ PRI_HIGH, 'ctcp', ],
ctcpreply => [ PRI_HIGH, 'ctcp', ],
ping => [ PRI_HIGH, 'oneortwo', ],
pong => [ PRI_HIGH, 'oneortwo', ],
};
my %event_map = map {($_ => $self->{IRC_CMDS}->{$_}->[CMD_SUB])}
keys %{ $self->{IRC_CMDS} };
$self->{OBJECT_STATES_HASHREF} = {
%event_map,
quote => 'sl',
_default => '__default',
};
$self->{OBJECT_STATES_ARRAYREF} = [qw(
_delay
_delay_remove
_parseline
__send_event
_sock_down
_sock_failed
_sock_up
_socks_proxy_connect
_socks_proxy_response
_start
_stop
debug
connect
_resolve_addresses
_do_connect
_send_login
_got_dns_response
ison
kick
register
remove
shutdown
sl
sl_login
sl_high
sl_delayed
sl_prioritized
topic
unregister
userhost
)];
return;
}
# BINGOS: the component can now configure itself via _configure() from
# either spawn() or connect()
## no critic (Subroutines::ProhibitExcessComplexity)
sub _configure {
my ($self, $args) = @_;
my $spawned = 0;
if (ref $args eq 'HASH' && keys %{ $args }) {
$spawned = delete $args->{spawned};
@{ $self }{ keys %{ $args } } = values %{ $args };
}
if ($self->{debug}) {
$self->{ircd_filter}->debug(1);
$self->{ircd_compat}->debug(1);
}
if ($self->{useipv6} && !$GOT_SOCKET6) {
warn "'useipv6' option specified, but Socket6 was not found\n";
}
if ($self->{usessl} && !$GOT_SSL) {
warn "'usessl' option specified, but POE::Component::SSLify was not found\n";
}
if (!$self->{nodns} && $GOT_CLIENT_DNS && !$self->{resolver} ) {
$self->{resolver} = POE::Component::Client::DNS->spawn(
Alias => 'resolver' . $self->session_id(),
);
}
$self->{dcc}->nataddr($self->{nataddr}) if exists $self->{nataddr};
$self->{dcc}->dccports($self->{dccports}) if exists $self->{dccports};
$self->{port} = 6667 if !$self->{port};
$self->{msg_length} = 450 if !defined $self->{msg_length};
if ($self->{localaddr} && $self->{localport}) {
$self->{localaddr} .= ':' . $self->{localport};
}
# Make sure that we have reasonable defaults for all the attributes.
# The "IRC*" variables are ircII environment variables.
if (!defined $self->{nick}) {
$self->{nick} = $ENV{IRCNICK} || eval { scalar getpwuid($>) }
|| $ENV{USER} || $ENV{LOGNAME} || 'WankerBot';
}
if (!defined $self->{username}) {
$self->{username} = eval { scalar getpwuid($>) } || $ENV{USER}
|| $ENV{LOGNAME} || 'foolio';
}
if (!defined $self->{ircname}) {
$self->{ircname} = $ENV{IRCNAME} || eval { (getpwuid $>)[6] }
|| 'Just Another Perl Hacker';
}
if (!defined $self->{server} && !$spawned) {
die "No IRC server specified\n" if !$ENV{IRCSERVER};
$self->{server} = $ENV{IRCSERVER};
}
return;
}
sub debug {
my ($self, $switch) = @_[OBJECT, ARG0];
$self->{debug} = $switch;
$self->{ircd_filter}->debug( $switch );
$self->{ircd_compat}->debug( $switch );
return;
}
# Parse a message from the IRC server and generate the appropriate
# event(s) for listening sessions.
sub _parseline {
my ($session, $self, $ev) = @_[SESSION, OBJECT, ARG0];
return if !$ev->{name};
$self->_send_event(irc_raw => $ev->{raw_line} ) if $self->{raw};
# If its 001 event grab the server name and stuff it into {INFO}
if ( $ev->{name} eq '001' ) {
$self->{INFO}->{ServerName} = $ev->{args}->[0];
$self->{RealNick} = ( split / /, $ev->{raw_line} )[2];
}
$ev->{name} = 'irc_' . $ev->{name};
$self->_send_event( $ev->{name}, @{$ev->{args}} );
if ($ev->{name} =~ /^irc_ctcp_(.+)$/) {
$self->_send_event(irc_ctcp => $1 => @{$ev->{args}});
}
return;
}
sub send_event {
my ($self, @args) = @_;
$poe_kernel->call($self->{SESSION_ID} => __send_event => @args);
return 1;
}
# Hack to make plugin_add/del send events from OUR session
sub __send_event {
my ($self, $event, @args) = @_[OBJECT, ARG0..$#_];
# Actually send the event...
$self->_send_event($event, @args);
return 1;
}
# Sends an event to all interested sessions. This is a separate sub
# because I do it so much, but it's not an actual POE event because it
# doesn't need to be one and I don't need the overhead.
# Changed to a method by BinGOs, 21st January 2005.
# Amended by BinGOs (2nd February 2005) use call to send events to
# *our* session first.
sub _send_event {
my ($self, $event, @args) = @_;
my $kernel = $poe_kernel;
my $session = $kernel->get_active_session()->ID();
my %sessions;
# BINGOS:
# I've moved these above the plugin system call to ensure that pesky plugins
# don't eat the events before *our* session can process them. *sigh*
for my $value (values %{ $self->{events}->{irc_all} },
values %{ $self->{events}->{$event} })
{
$sessions{$value} = $value;
}
# Make sure our session gets notified of any requested events before
# any other bugger
$kernel->call($session => $event => @args) if delete $sessions{$session};
my @extra_args;
# Let the plugin system process this
return 1 if $self->_pluggable_process(
'SERVER',
$event,
\( @args ),
\@extra_args,
) == PCI_EAT_ALL;
push @args, @extra_args if @extra_args;
# BINGOS:
# We have a hack here, because the component used to send 'irc_connected'
# and 'irc_disconnected' events to every registered session regardless of
# whether that session had registered from them or not.
if ( $event =~ /connected$/ || $event eq 'irc_shutdown' ) {
for my $session (keys %{ $self->{sessions} }) {
$kernel->post(
$self->{sessions}->{$session}->{ref},
$event,
@args,
);
}
return 1;
}
for my $session (values %sessions) {
$kernel->post($session => $event => @args);
}
return;
}
sub _sock_flush {
my ($kernel, $self) = @_[KERNEL, OBJECT];
return if !$self->{_shutdown};
delete $self->{socket};
return;
}
# Internal function called when a socket is closed.
sub _sock_down {
my ($kernel, $self) = @_[KERNEL, OBJECT];
# Destroy the RW wheel for the socket.
delete $self->{socket};
$self->{connected} = 0;
# Stop any delayed sends.
$self->{send_queue} = [ ];
#$_[HEAP]->{send_queue} = $self->{send_queue};
$self->{send_time} = 0;
$kernel->delay( sl_delayed => undef );
# Reset the filters if necessary
$self->_compress_uplink( 0 );
$self->_compress_downlink( 0 );
$self->{ircd_compat}->chantypes( [ '#', '&' ] );
$self->{ircd_compat}->identifymsg(0);
# post a 'irc_disconnected' to each session that cares
$self->_send_event(irc_disconnected => $self->{server} );
return;
}
sub disconnect {
$poe_kernel->post($_[0]->session_id() => '_sock_down');
return;
}
# Internal function called when a socket fails to be properly opened.
sub _sock_failed {
my ($self, $op, $errno, $errstr) = @_[OBJECT, ARG0..ARG2];
delete $self->{socketfactory};
$self->_send_event(irc_socketerr => "$op error $errno: $errstr" );
return;
}
# Internal function called when a connection is established.
sub _sock_up {
my ($kernel, $self, $session, $socket) = @_[KERNEL, OBJECT, SESSION, ARG0];
# We no longer need the SocketFactory wheel. Scrap it.
delete $self->{socketfactory};
# Remember what IP address we're connected through, for multihomed boxes.
my $localaddr;
if ($GOT_SOCKET6) {
eval { $localaddr = (unpack_sockaddr_in6( getsockname $socket ))[1] };
}
$localaddr = (unpack_sockaddr_in( getsockname $socket ))[1] if !$localaddr;
$self->{localaddr} = $localaddr;
if ( $self->{socks_proxy} ) {
$self->{socket} = new POE::Wheel::ReadWrite(
Handle => $socket,
Driver => POE::Driver::SysRW->new(),
Filter => POE::Filter::Stream->new(),
InputEvent => '_socks_proxy_response',
ErrorEvent => '_sock_down',
FlushedEvent => '_sock_flush',
);
if ( !$self->{socket} ) {
$self->_send_event(irc_socketerr =>
"Couldn't create ReadWrite wheel for SOCKS socket" );
return;
}
my $packet;
if ( irc_ip_is_ipv4( $self->{server} ) ) {
# SOCKS 4
$packet = pack ('CCn', 4, 1, $self->{port}) .
inet_aton($self->{server}) . ($self->{socks_id} || '') . (pack 'x');
}
else {
# SOCKS 4a
$packet = pack ('CCn', 4, 1, $self->{port}) .
inet_aton('0.0.0.1') . ($self->{socks_id} || '') . (pack 'x') .
$self->{server} . (pack 'x');
}
$self->{socket}->put( $packet );
return;
}
# ssl!
if ($GOT_SSL and $self->{usessl}) {
eval {
$socket = Client_SSLify($socket);
};
if ($@) {
warn "Couldn't use an SSL socket: $@\n";
$self->{usessl} = 0;
}
}
if ( $self->{compress} ) {
$self->_compress_uplink(1);
$self->_compress_downlink(1);
}
# Create a new ReadWrite wheel for the connected socket.
$self->{socket} = new POE::Wheel::ReadWrite(
Handle => $socket,
Driver => POE::Driver::SysRW->new(),
InputFilter => $self->{srv_filter},
OutputFilter => $self->{out_filter},
InputEvent => '_parseline',
ErrorEvent => '_sock_down',
FlushedEvent => '_sock_flush',
);
if ($self->{socket}) {
$self->{connected} = 1;
}
else {
$self->_send_event(irc_socketerr => "Couldn't create ReadWrite wheel for IRC socket");
return;
}
# Post a 'irc_connected' event to each session that cares
$self->_send_event(irc_connected => $self->{server} );
# CONNECT if we're using a proxy
if ($self->{proxy}) {
# The original proxy code, AFAIK, did not actually work
# with an HTTP proxy.
$kernel->call(
$session,
'sl_login',
'CONNECT ' . $self->{server} . ':' . $self->{port} . " HTTP/1.0\n\n",
);
# KLUDGE: Also, the original proxy code assumes the connection
# is instantaneous Since this is not always the case, mess with
# the queueing so that the sent text is delayed...
$self->{send_time} = time() + 10;
}
$kernel->yield('_send_login');
return;
}
sub _socks_proxy_response {
my ($kernel, $self, $session, $input) = @_[KERNEL, OBJECT, SESSION, ARG0];
if (length $input != 8) {
$self->_send_event(
'irc_socks_failed',
'Mangled response from SOCKS proxy',
$input,
);
$self->disconnect();
return;
}
my @resp = unpack 'CCnN', $input;
if (@resp != 4 || $resp[0] ne '0' || $resp[1] !~ /^(90|91|92|93)$/) {
$self->_send_event(
'irc_socks_failed',
'Mangled response from SOCKS proxy',
$input,
);
$self->disconnect();
return;
}
if ( $resp[1] eq '90' ) {
$kernel->call($session => '_socks_proxy_connect');
$self->{connected} = 1;
$self->_send_event( 'irc_connected', $self->{server} );
$kernel->yield('_send_login');
}
else {
$self->_send_event(
'irc_socks_rejected',
$resp[1],
$self->{socks_proxy},
$self->{socks_port},
$self->{socks_id},
);
$self->disconnect();
}
return;
}
sub _socks_proxy_connect {
my ($kernel, $self) = @_[KERNEL, OBJECT];
$self->{socket}->event( InputEvent => '_parseline' );
$self->{socket}->set_input_filter( $self->{srv_filter} );
$self->{socket}->set_output_filter( $self->{out_filter} );
return;
}
sub _send_login {
my ($kernel, $self, $session) = @_[KERNEL, OBJECT, SESSION];
# Now that we're connected, attempt to log into the server.
if ($self->{password}) {
$kernel->call($session => sl_login => 'PASS ' . $self->{password});
}
$kernel->call($session => sl_login => 'NICK ' . $self->{nick});
$kernel->call(
$session,
'sl_login',
'USER ' .
join(' ', $self->{username},
($self->{bitmode} ? $self->{bitmode} : 0),
'*',
':' . $self->{ircname}
),
);
# If we have queued data waiting, its flush loop has stopped
# while we were disconnected. Start that up again.
$kernel->delay(sl_delayed => 0);
return;
}
# Set up the component's IRC session.
sub _start {
my ($kernel, $session, $sender, $self, $alias, @options)
= @_[KERNEL, SESSION, SENDER, OBJECT, ARG0, ARG1 .. $#_];
$kernel->state(_poco_irc_sig_register => $self );
$kernel->sig(POCOIRC_REGISTER => '_poco_irc_sig_register' );
$kernel->state(_poco_irc_sig_shutdown => $self );
$kernel->sig(POCOIRC_SHUTDOWN => '_poco_irc_sig_shutdown' );
# Send queue is used to hold pending lines so we don't flood off.
# The count is used to track the number of lines sent at any time.
$self->{send_queue} = [ ];
$self->{send_time} = 0;
$session->option( @options ) if @options;
if ($alias) {
$kernel->alias_set($alias);
$self->{alias} = $alias;
}
else {
$kernel->alias_set($self);
$self->{alias} = "$self";
}
$self->{ircd_filter} = POE::Filter::IRCD->new(debug => $self->{debug});
$self->{ircd_compat} = POE::Filter::IRC::Compat->new(debug => $self->{debug});
my $srv_filters = [
POE::Filter::Line->new(
InputRegexp => '\015?\012',
OutputLiteral => '\015\012',
),
$self->{ircd_filter},
$self->{ircd_compat},
];
$self->{srv_filter} = POE::Filter::Stackable->new(Filters => $srv_filters);
$self->{out_filter} = POE::Filter::Stackable->new(Filters => [
POE::Filter::Line->new( OutputLiteral => "\015\012" ),
]);
$self->{SESSION_ID} = $session->ID();
# Plugin 'irc_whois' and 'irc_whowas' support
$self->plugin_add('Whois' . $self->{SESSION_ID},
POE::Component::IRC::Plugin::Whois->new()
);
$self->{isupport} = POE::Component::IRC::Plugin::ISupport->new();
$self->plugin_add('ISupport' . $self->{SESSION_ID}, $self->{isupport});
$self->{dcc} = POE::Component::IRC::Plugin::DCC->new();
$self->plugin_add('DCC' . $self->{SESSION_ID}, $self->{dcc});
if ($kernel != $sender) {
my $sender_id = $sender->ID;
$self->{events}->{irc_all}->{$sender_id} = $sender_id;
$self->{sessions}->{$sender_id}->{ref} = $sender_id;
$self->{sessions}->{$sender_id}->{refcnt}++;
$kernel->refcount_increment($sender_id, PCI_REFCOUNT_TAG);
$kernel->post($sender => irc_registered => $self);
$kernel->detach_myself();
}
return 1;
}
# Destroy ourselves when asked politely.
sub _stop {
my ($kernel, $session, $self, $quitmsg) = @_[KERNEL, SESSION, OBJECT, ARG0];
if ($self->{connected}) {
$kernel->call($session => quit => $quitmsg);
$kernel->call($session => shutdown => $quitmsg);
}
return;
}
# The handler for commands which have N arguments, separated by commas.
sub commasep {
my ($kernel, $self, $state, @args) = @_[KERNEL, OBJECT, STATE, ARG0 .. $#_];
my $args;
if ($state eq 'whois' and @args > 1 ) {
$args = shift @args;
$args .= ' ' . join ',', @args;
}
elsif ( $state eq 'part' and @args > 1 ) {
my $chantypes = join('', @{ $self->isupport('CHANTYPES') }) || '#&';
my $message;
if ($args[-1] =~ / +/ || $args[-1] !~ /^[$chantypes]/) {
$message = pop @args;
}
$args = join(',', @args);
$args .= " :$message" if defined $message;
}
else {
$args = join ',', @args;
}
my $pri = $self->{IRC_CMDS}->{$state}->[CMD_PRI];
$state = uc $state;
$state .= " $args" if defined $args;
$kernel->yield(sl_prioritized => $pri, $state );
return;
}
# Get variables in order for openning a connection
sub connect {
my ($kernel, $self, $session, $sender, $args)
= @_[KERNEL, OBJECT, SESSION, SENDER, ARG0];
if ($args) {
my %arg;
%arg = @{ $args } if ref $args eq 'ARRAY';
%arg = %{ $args } if ref $args eq 'HASH';
$arg{ lc $_ } = delete $arg{$_} for keys %arg;
$self->_configure( \%arg );
}
if ( $self->{resolver} && $self->{res_addresses}
&& @{ $self->{res_addresses} } ) {
push @{ $self->{res_addresses} }, $self->{server};
$self->{server} = shift @{ $self->{res_addresses} };
}
# try and use non-blocking resolver if needed
if ( $self->{resolver} && !irc_ip_get_version( $self->{server} )
&& !$self->{nodns} ) {
$kernel->yield(
'_resolve_addresses',
$self->{server},
( $self->{useipv6} && $GOT_SOCKET6 ? 'AAAA' : 'A' ),
);
}
else {
$kernel->yield('_do_connect');
}
$self->{RealNick} = $self->{nick};
return;
}
sub _resolve_addresses {
my ($kernel, $self, $hostname, $type) = @_[KERNEL, OBJECT, ARG0 .. ARG1];
my $response = $self->{resolver}->resolve(
event => '_got_dns_response',
host => $hostname,
type => $type,
context => { },
);
$kernel->yield(_got_dns_response => $response) if $response;
return;
}
# open the connection
sub _do_connect {
my ($kernel, $self, $session) = @_[KERNEL, OBJECT, SESSION];
my $domain = AF_INET;
# Disconnect if we're already logged into a server.
$kernel->call($session => 'quit') if $self->{socket};
if ($self->{socks_proxy} && !$self->{socks_port}) {
$self->{socks_port} = 1080;
}
for my $address (qw(socks_proxy proxy server localaddr)) {
next if !$self->{$address} || !irc_ip_is_ipv6( $self->{$address} );
if (!$GOT_SOCKET6) {
warn "IPv6 address specified for '$address' but Socket6 not found\n";
return;
}
$domain = AF_INET6;
}
$self->{socketfactory} = POE::Wheel::SocketFactory->new(
SocketDomain => $domain,
SocketType => SOCK_STREAM,
SocketProtocol => 'tcp',
RemoteAddress => $self->{socks_proxy} || $self->{proxy} || $self->{server},
RemotePort => $self->{socks_port} || $self->{proxyport} || $self->{port},
SuccessEvent => '_sock_up',
FailureEvent => '_sock_failed',
($self->{localaddr} ? (BindAddress => $self->{localaddr}) : ()),
);
return;
}
# got response from POE::Component::Client::DNS
sub _got_dns_response {
my ($kernel, $self, $response) = @_[KERNEL, OBJECT, ARG0];
my $type = uc $response->{type};
my $net_dns_packet = $response->{response};
my $net_dns_errorstring = $response->{error};
$self->{res_addresses} = [ ];
if (!defined $net_dns_packet) {
$self->_send_event(irc_socketerr => $net_dns_errorstring );
return;
}
my @net_dns_answers = $net_dns_packet->answer;
for my $net_dns_answer (@net_dns_answers) {
next if $net_dns_answer->type !~ /^A/;
push @{ $self->{res_addresses} }, $net_dns_answer->rdatastr;
}
if ( !@{ $self->{res_addresses} } && $type eq 'AAAA') {
$kernel->yield(_resolve_addresses => $self->{server}, 'A');
return;
}
if ( !@{ $self->{res_addresses} } ) {
$self->_send_event(irc_socketerr => 'Unable to resolve ' . $self->{server});
return;
}
if ( my $address = shift @{ $self->{res_addresses} } ) {
$self->{server} = $address;
$kernel->yield('_do_connect');
return;
}
$self->_send_event(irc_socketerr => 'Unable to resolve ' . $self->{server});
return;
}
# Send a CTCP query or reply, with the same syntax as a PRIVMSG event.
sub ctcp {
my ($kernel, $state, $self, $to) = @_[KERNEL, STATE, OBJECT, ARG0];
my $message = join ' ', @_[ARG1 .. $#_];
if (!defined $to || !defined $message) {
warn "The '$state' event requires two arguments\n";
return;
}
# CTCP-quote the message text.
($message) = @{$self->{ircd_compat}->put([ $message ])};
# Should we send this as a CTCP request or reply?
$state = $state eq 'ctcpreply' ? 'notice' : 'privmsg';
$kernel->yield($state, $to, $message);
return;
}
# allow plugins to respond to user commands which are not defined here
sub __default {
return if $_[ARG0] =~ /^_/;
$_[OBJECT]->_pluggable_process(USER => $_[ARG0] => \(@{ $_[ARG1] }));
return;
}
# The way /notify is implemented in IRC clients.
sub ison {
my ($kernel, @nicks) = @_[KERNEL, ARG0 .. $#_];
my $tmp = 'ISON';
if (!@nicks) {
warn "The 'ison' event requires one or more nicknames\n";
return;
}
# We can pass as many nicks as we want, as long as it's shorter than
# the maximum command length (510). If the list we get is too long,
# w'll break it into multiple ISON commands.
while (@nicks) {
my $nick = shift @nicks;
if (length($tmp) + length($nick) >= 509) {
$kernel->yield(sl_high => $tmp);
$tmp = 'ISON';
}
$tmp .= " $nick";
}
$kernel->yield(sl_high => $tmp);
return;
}
# Tell the IRC server to forcibly remove a user from a channel.
sub kick {
my ($kernel, $chan, $nick) = @_[KERNEL, ARG0, ARG1];
my $message = join '', @_[ARG2 .. $#_];
if (!defined $chan || !defined $nick) {
warn "The 'kick' event requires at least two arguments\n";
return;
}
$nick .= " :$message" if defined $message;
$kernel->yield(sl_high => "KICK $chan $nick");
return;
}
# Tell the IRC server to forcibly remove a user from a channel. Freenode extension
sub remove {
my ($kernel, $chan, $nick) = @_[KERNEL, ARG0, ARG1];
my $message = join '', @_[ARG2 .. $#_];
if (!defined $chan || !defined $nick) {
warn "The 'remove' event requires at least two arguments\n";
return;
}
$nick .= " :$message" if defined $message;
$kernel->yield(sl_high => "REMOVE $chan $nick");
return;
}
# Set up a new IRC component. Deprecated.
sub new {
my ($package, $alias) = splice @_, 0, 2;
croak "$package options should be an even-sized list" if @_ & 1;
my %options = @_;
if (!defined $alias) {
croak 'Not enough arguments to POE::Component::IRC::new()';
}
carp "Use of ${package}->new() is deprecated, please use spawn()";
my $self = $package->spawn ( alias => $alias, options => \%options );
return $self;
}
# Set up a new IRC component. New interface.
sub spawn {
my ($package) = shift;
croak "$package requires an even number of arguments" if @_ & 1;
my %params = @_;
$params{ lc $_ } = delete $params{$_} for keys %params;
delete $params{options} if ref $params{options} ne 'HASH';
my $self = bless { }, $package;
$self->_create();
my $options = delete $params{options};
my $alias = delete $params{alias};
my $plugin_debug = delete $params{plugin_debug};
$self->_pluggable_init(
prefix => 'irc_',
reg_prefix => 'PCI_',
types => { SERVER => 'S', USER => 'U' },
($plugin_debug ? (debug => 1) : () ),
);
POE::Session->create(
object_states => [
$self => $self->{OBJECT_STATES_HASHREF},
$self => $self->{OBJECT_STATES_ARRAYREF},
],
ref $options eq 'HASH' ? ( options => $options ) : (),
args => [ $alias ],
heap => $self,
);
if (!$params{nodns} && $GOT_CLIENT_DNS) {
$self->{resolver} = POE::Component::Client::DNS->spawn(
Alias => 'resolver' . $self->session_id()
);
$self->{mydns} = 1;
}
$params{spawned} = 1;
$self->_configure(\%params);
return $self;
}
# The handler for all IRC commands that take no arguments.
sub noargs {
my ($kernel, $state, $arg) = @_[KERNEL, STATE, ARG0];
my $pri = $_[OBJECT]->{IRC_CMDS}->{$state}->[CMD_PRI];
if (defined $arg) {
warn "The '$state' event takes no arguments\n";
return;
}
$kernel->yield(sl_prioritized => $pri, $state);
return;
}
# The handler for commands that take one required and two optional arguments.
sub oneandtwoopt {
my ($kernel, $state) = @_[KERNEL, STATE];
my $arg = join '', @_[ARG0 .. $#_];
my $pri = $_[OBJECT]->{IRC_CMDS}->{$state}->[CMD_PRI];
$state = 'connect' if $state eq 'sconnect';
$state = uc $state;
if (defined $arg) {
$arg = ':' . $arg if $arg =~ /\x20/;
$state .= " $arg";
}
$kernel->yield(sl_prioritized => $pri, $state);
return;
}
# The handler for commands that take at least one optional argument.
sub oneoptarg {
my ($kernel, $state) = @_[KERNEL, STATE];
my $pri = $_[OBJECT]->{IRC_CMDS}->{$state}->[CMD_PRI];
$state = uc $state;
if (defined $_[ARG0]) {
my $arg = join '', @_[ARG0 .. $#_];
$arg = ':' . $arg if $arg =~ /\x20/;
$state .= " $arg";
}
$kernel->yield(sl_prioritized => $pri, $state);
return;
}
# The handler for commands which take one required and one optional argument.
sub oneortwo {
my ($kernel, $state, $one) = @_[KERNEL, STATE, ARG0];
my $two = join '', @_[ARG1 .. $#_];
my $pri = $_[OBJECT]->{IRC_CMDS}->{$state}->[CMD_PRI];
if (!defined $one) {
warn "The '$state' event requires at least one argument\n";
return;
}
$state = uc( $state ) . " $one";
$state .= " $two" if defined $two;
$kernel->yield(sl_prioritized => $pri, $state);
return;
}
# Handler for commands that take exactly one argument.
sub onlyonearg {
my ($kernel, $state) = @_[KERNEL, STATE];
my $arg = join '', @_[ARG0 .. $#_];
my $pri = $_[OBJECT]->{IRC_CMDS}->{$state}->[CMD_PRI];
if (!defined $arg) {
warn "The '$state' event requires one argument\n";
return;
}
$state = uc $state;
$arg = ':' . $arg if $arg =~ /\x20/;
$state .= " $arg";
$kernel->yield(sl_prioritized => $pri, $state);
return;
}
# Handler for commands that take exactly two arguments.
sub onlytwoargs {
my ($kernel, $state, $one) = @_[KERNEL, STATE, ARG0];
my ($two) = join '', @_[ARG1 .. $#_];
my $pri = $_[OBJECT]->{IRC_CMDS}->{$state}->[CMD_PRI];
if (!defined $one || !defined $two) {
warn "The '$state' event requires two arguments\n";
return;
}
$state = uc $state;
$two = ':' . $two if $two =~ /\x20/;
$state .= " $one $two";
$kernel->yield(sl_prioritized => $pri, $state);
return;
}
# Handler for privmsg or notice events.
sub privandnotice {
my ($kernel, $state, $to) = @_[KERNEL, STATE, ARG0];
my $message = join ' ', @_[ARG1 .. $#_];
my $pri = $_[OBJECT]->{IRC_CMDS}->{$state}->[CMD_PRI];
$state =~ s/privmsglo/privmsg/;
$state =~ s/privmsghi/privmsg/;
$state =~ s/noticelo/notice/;
$state =~ s/noticehi/notice/;
if (!defined $to || !defined $message) {
warn "The '$state' event requires two arguments\n";
return;
}
$to = join ',', @$to if ref $to eq 'ARRAY';
$state = uc $state;
$state .= " $to :$message";
$kernel->yield(sl_prioritized => $pri, $state);
return;
}
sub _poco_irc_sig_shutdown {
my ($kernel,$self,$session,$signal) = @_[KERNEL,OBJECT,SESSION,ARG0];
$kernel->yield(shutdown => @_[ARG1..$#_] );
return;
}
sub _poco_irc_sig_register {
my ($kernel, $self, $session, $signal, $sender, @events)
= @_[KERNEL, OBJECT, SESSION, ARG0 .. $#_];
return if !defined $sender;
my $session_id = $session->ID();
my $sender_id;
if ( my $ref = $kernel->alias_resolve( $sender ) ) {
$sender_id = $ref->ID();
}
else {
warn "Can't resolve $sender\n";
return;
}
if (!@events) {
warn "Signal POCOIRC: Not enough arguments\n";
return;
}
for my $event (@events) {
$event = "irc_$event" if $event !~ /^_/;
$self->{events}->{$event}->{$sender_id} = $sender_id;
$self->{sessions}->{$sender_id}->{ref} = $sender_id;
if (!$self->{sessions}->{$sender_id}->{refcnt}++
&& $session_id != $sender_id) {
$kernel->refcount_increment($sender_id, PCI_REFCOUNT_TAG);
}
}
$kernel->post($sender_id => irc_registered => $self);
return;
}
# Ask P::C::IRC to send you certain events, listed in @events.
sub register {
my ($kernel, $self, $session, $sender, @events)
= @_[KERNEL, OBJECT, SESSION, SENDER, ARG0 .. $#_];
if (!@events) {
warn "The 'register' event requires more arguments\n";
return;
}
my $sender_id = $sender->ID();
# FIXME: What "special" event names go here? (ie, "errors")
# basic, dcc (implies ctcp), ctcp, oper ...what other categories?
for my $event (@events) {
$event = "irc_$event" if $event !~ /^_/;
$self->{events}->{$event}->{$sender_id} = $sender_id;
$self->{sessions}->{$sender_id}->{ref} = $sender_id;
if (!$self->{sessions}->{$sender_id}->{refcnt} && $session != $sender) {
$kernel->refcount_increment($sender_id, PCI_REFCOUNT_TAG);
}
$self->{sessions}->{$sender_id}->{refcnt}++;
}
# BINGOS:
# Apocalypse is gonna hate me for this as 'irc_registered' events will bypass
# the Plugins system, but I can't see how this event will be relevant without
# some sort of reference, like what session has registered. I'm not going to
# start hurling session references around at this point :)
$kernel->post($sender => irc_registered => $self);
return;
}
# Tell the IRC session to go away.
sub shutdown {
my ($kernel, $self, $sender, $session) = @_[KERNEL, OBJECT, SENDER, SESSION];
my $args = '';
$args = join '', @_[ARG0..$#_] if @_[ARG0..$#_];
$args = ":$args" if $args =~ /\x20/;
my $cmd = "QUIT $args";
$kernel->sig('POCOIRC_REGISTER');
$kernel->sig('POCOIRC_SHUTDOWN');
$self->{_shutdown} = 1;
$self->_send_event(irc_shutdown => $sender->ID());
$self->_unregister_sessions();
$kernel->alarm_remove_all();
$kernel->alias_remove($_) for $kernel->alias_list($session);
delete $self->{$_} for qw(socketfactory dcc wheelmap);
# Delete all plugins that are loaded.
$self->_pluggable_destroy();
$self->{resolver}->shutdown() if $self->{resolver};
$kernel->call($session => sl_high => $cmd) if $self->{socket};
return;
}
# Send a line of login-priority IRC output. These are things which
# must go first.
sub sl_login {
my ($kernel, $self) = @_[KERNEL, OBJECT];
my $arg = join '', @_[ARG0 .. $#_];
$kernel->yield(sl_prioritized => PRI_LOGIN, $arg );
return;
}
# Send a line of high-priority IRC output. Things like channel/user
# modes, kick messages, and whatever.
sub sl_high {
my ($kernel, $self) = @_[KERNEL, OBJECT];
my $arg = join '', @_[ARG0 .. $#_];
$kernel->yield(sl_prioritized => PRI_HIGH, $arg );
return;
}
# Send a line of normal-priority IRC output to the server. PRIVMSG
# and other random chatter. Uses sl() for compatibility with existing
# code.
sub sl {
my ($kernel, $self) = @_[KERNEL, OBJECT];
my $arg = join '', @_[ARG0 .. $#_];
$kernel->yield(sl_prioritized => PRI_NORMAL, $arg );
return;
}
# Prioritized sl(). This keeps the queue ordered by priority, low to
# high in the UNIX tradition. It also throttles transmission
# following the hybrid ircd's algorithm, so you can't accidentally
# flood yourself off. Thanks to Raistlin for explaining how ircd
# throttles messages.
sub sl_prioritized {
my ($kernel, $self, $priority, $msg) = @_[KERNEL, OBJECT, ARG0, ARG1];
# Get the first word for the plugin system
if (my ($event) = $msg =~ /^(\w+)/ ) {
# Let the plugin system process this
return 1 if $self->_pluggable_process(
'USER',
$event,
\$msg,
) == PCI_EAT_ALL;
}
else {
warn "Unable to extract the event name from '$msg'\n";
}
my $now = time();
$self->{send_time} = $now if $self->{send_time} < $now;
if (bytes::length($msg) > $self->{msg_length} - bytes::length($self->nick_name())) {
$msg = bytes::substr($msg, 0, $self->{msg_length} - bytes::length($self->nick_name()));
}
if (@{ $self->{send_queue} }) {
my $i = @{ $self->{send_queue} };
$i-- while ($i && $priority < $self->{send_queue}->[$i-1]->[MSG_PRI]);
splice( @{ $self->{send_queue} }, $i, 0, [ $priority, $msg ] );
}
elsif ( !$self->{flood} && $self->{send_time} - $now >= 10
|| !defined $self->{socket} ) {
push( @{$self->{send_queue}}, [ $priority, $msg ] );
$kernel->delay( sl_delayed => $self->{send_time} - $now - 10 );
}
else {
warn ">>> $msg\n" if $self->{debug};
$self->{send_time} += 2 + length($msg) / 120;
$self->{socket}->put($msg);
}
return;
}
# Send delayed lines to the ircd. We manage a virtual "send time"
# that progresses into the future based on hybrid ircd's rules every
# time a message is sent. Once we find it ten or more seconds into
# the future, we wait for the realtime clock to catch up.
sub sl_delayed {
my ($kernel, $self) = @_[KERNEL, OBJECT];
return if !defined $self->{socket};
my $now = time();
$self->{send_time} = $now if $self->{send_time} < $now;
while (@{ $self->{send_queue} } && ($self->{send_time} - $now < 10)) {
my $arg = (shift @{$self->{send_queue}})->[MSG_TEXT];
warn ">>> $arg\n" if $self->{debug};
$self->{send_time} += 2 + length($arg) / 120;
$self->{socket}->put($arg);
}
if (@{ $self->{send_queue} }) {
$kernel->delay( sl_delayed => $self->{send_time} - $now - 10 );
}
return;
}
# The handler for commands which have N arguments, separated by spaces.
sub spacesep {
my ($kernel, $state) = @_[KERNEL, STATE];
my $args = join ' ', @_[ARG0 .. $#_];
my $pri = $_[OBJECT]->{IRC_CMDS}->{$state}->[CMD_PRI];
$state = uc $state;
$state .= " $args" if defined $args;
$kernel->yield(sl_prioritized => $pri, $state );
return;
}
# Set or query the current topic on a channel.
sub topic {
my ($kernel, $chan, @args) = @_[KERNEL, ARG0..$#_];
my $topic;
$topic = join '', @args if @args;
if (defined $topic) {
$chan .= " :";
$chan .= $topic if length $topic;
}
$kernel->yield(sl_prioritized => PRI_NORMAL, "TOPIC $chan");
return;
}
# Ask P::C::IRC to stop sending you certain events, listed in $evref.
sub unregister {
my ($kernel, $self, $session, $sender, @events)
= @_[KERNEL, OBJECT, SESSION, SENDER, ARG0 .. $#_];
if (!@events) {
warn "The 'unregister' event requires more arguments\n";
return;
}
$self->_unregister($session, $sender, @events);
return;
}
sub _unregister {
my ($self, $session, $sender, @events) = @_;
my $sender_id = $sender->ID();
for my $event (@events) {
$event = "irc_$event" if $event !~ /^_/;
my $blah = delete $self->{events}->{$event}->{$sender_id};
if (!defined $blah) {
carp "Sender $sender_id hasn't registered for '$event' events";
next;
}
if (--$self->{sessions}->{$sender_id}->{refcnt} <= 0) {
delete $self->{sessions}->{$sender_id};
if ($session != $sender) {
$poe_kernel->refcount_decrement($sender_id, PCI_REFCOUNT_TAG);
}
}
}
return;
}
sub _unregister_sessions {
my ($self) = @_;
for my $session_id ( keys %{ $self->{sessions} } ) {
my $refcnt = $self->{sessions}->{$session_id}->{refcnt};
while ( $refcnt --> 0 ) {
$poe_kernel->refcount_decrement($session_id, PCI_REFCOUNT_TAG);
}
delete $self->{sessions}->{$session_id};
}
return;
}
# Asks the IRC server for some random information about particular nicks.
sub userhost {
my ($kernel, @nicks) = @_[KERNEL, ARG0 .. $#_];
if (!@nicks) {
warn "The 'userhost' event requires at least one nickname\n";
return;
}
# According to the RFC, you can only send 5 nicks at a time.
while (@nicks) {
$kernel->yield(
'sl_prioritized',
PRI_HIGH,
'USERHOST ' . join(' ', splice(@nicks, 0, 5)),
);
}
return;
}
# Non-event methods
sub version {
return $VERSION;
}
sub server_name {
my ($self) = @_;
return $self->{INFO}->{ServerName};
}
sub localaddr {
my ($self) = @_;
return $self->{localaddr};
}
sub nick_name {
my ($self) = @_;
return $self->{RealNick};
}
sub send_queue {
my ($self) = @_;
if (defined $self->{send_queue} && ref $self->{send_queue} eq 'ARRAY' ) {
return scalar @{ $self->{send_queue} };
}
return;
}
sub raw_events {
my ($self, $value) = @_;
return $self->{raw} if !defined $value;
$self->{raw} = $value;
return;
}
sub session_id {
my ($self) = @_;
return $self->{SESSION_ID};
}
sub session_alias {
my ($self) = @_;
return $self->{alias};
}
sub yield {
my ($self, @args) = @_;
$poe_kernel->post($self->session_id() => @args);
return;
}
sub call {
my ($self, @args) = @_;
$poe_kernel->call($self->session_id() => @args);
return;
}
sub delay {
my ($self, $arrayref, @args) = @_;
if (!defined $arrayref || ref $arrayref ne 'ARRAY') {
carp 'First argument to delay() must be an ARRAYREF';
return;
}
return $poe_kernel->call($self->session_id() => _delay => $arrayref => @args);
}
sub _delay {
my ($kernel, $self, $arrayref, $time) = @_[KERNEL, OBJECT, ARG0, ARG1];
return if !scalar @{ $arrayref };
return if !defined $time;
my $event = shift @{ $arrayref };
my $alarm_id = $kernel->delay_set( $event => $time => @{ $arrayref } );
$self->send_event(irc_delay_set => $alarm_id, $event, @{ $arrayref } ) if $alarm_id;
return $alarm_id;
}
sub delay_remove {
my ($self, @args) = @_;
return $poe_kernel->call($self->session_id() => _delay_remove => @args);
}
sub _delay_remove {
my ($kernel, $self, $alarm_id) = @_[KERNEL, OBJECT, ARG0];
return if !defined $alarm_id;
my @old_alarm_list = $kernel->alarm_remove( $alarm_id );
if (@old_alarm_list) {
splice @old_alarm_list, 1, 1;
$self->send_event(irc_delay_removed => $alarm_id, @old_alarm_list );
return \@old_alarm_list;
}
return;
}
sub connected {
my ($self) = @_;
return $self->{connected};
}
sub _compress_uplink {
my ($self, $value) = @_;
return if !$GOT_ZLIB;
return $self->{uplink} if !defined $value;
if ($value) {
$self->{out_filter}->unshift( POE::Filter::Zlib::Stream->new() ) if !$self->{uplink};
$self->{uplink} = 1;
}
else {
$self->{out_filter}->shift() if $self->{uplink};
$self->{uplink} = 0;
}
return $self->{uplink};
}
sub _compress_downlink {
my ($self, $value) = @_;
return if !$GOT_ZLIB;
return $self->{downlink} if !defined $value;
if ($value) {
$self->{srv_filter}->unshift( POE::Filter::Zlib::Stream->new() ) if !$self->{downlink};
$self->{downlink} = 1;
}
else {
$self->{srv_filter}->shift() if $self->{uplink};
$self->{downlink} = 0;
}
return $self->{downlink};
}
# Automatically replies to a PING from the server. Do not confuse this
# with CTCP PINGs, which are a wholly different animal that evolved
# much later on the technological timeline.
sub S_ping {
my ($self, $irc) = splice @_, 0, 2;
my $arg = ${ $_[0] };
$irc->yield(sl_login => "PONG :$arg");
return PCI_EAT_NONE;
}
# NICK messages for the purposes of determining our current nickname
sub S_nick {
my ($self, $irc) = splice @_, 0, 2;
my $nick = ( split /!/, ${ $_[0] } )[0];
my $new = ${ $_[1] };
$self->{RealNick} = $new if ( $nick eq $self->{RealNick} );
return PCI_EAT_NONE;
}
# tell POE::Filter::IRC::Compat to handle IDENTIFY-MSG
sub S_290 {
my ($self, $irc) = splice @_, 0, 2;
my $text = ${ $_[1] };
$self->{ircd_compat}->identifymsg(1) if $text eq 'IDENTIFY-MSG';
return PCI_EAT_NONE;
}
sub S_isupport {
my ($self, $irc) = splice @_, 0, 2;
$self->{ircd_compat}->chantypes( $self->{isupport}->isupport('CHANTYPES') || [ '#', '&' ] );
$irc->yield(quote => 'CAPAB IDENTIFY-MSG') if $self->{isupport}->isupport('CAPAB');
return PCI_EAT_NONE;
}
# accesses the ISupport plugin
sub isupport {
my ($self, @args) = @_;
return $self->{isupport}->isupport(@args);
}
sub isupport_dump_keys {
return $_[0]->{isupport}->isupport_dump_keys();
}
sub resolver {
return $_[0]->{resolver};
}
sub _pluggable_event {
my ($self, @args) = @_;
$self->yield(__send_event => @args);
return;
}
1;
__END__
=head1 NAME
POE::Component::IRC - A fully event-driven IRC client module
=head1 SYNOPSIS
# A simple Rot13 'encryption' bot
use strict;
use warnings;
use POE qw(Component::IRC);
my $nickname = 'Flibble' . $$;
my $ircname = 'Flibble the Sailor Bot';
my $server = 'irc.blahblahblah.irc';
my @channels = ('#Blah', '#Foo', '#Bar');
# We create a new PoCo-IRC object
my $irc = POE::Component::IRC->spawn(
nick => $nickname,
ircname => $ircname,
server => $server,
) or die "Oh noooo! $!";
POE::Session->create(
package_states => [
main => [ qw(_default _start irc_001 irc_public) ],
],
heap => { irc => $irc },
);
$poe_kernel->run();
sub _start {
my $heap = $_[HEAP];
# retrieve our component's object from the heap where we stashed it
my $irc = $heap->{irc};
$irc->yield( register => 'all' );
$irc->yield( connect => { } );
return;
}
sub irc_001 {
my $sender = $_[SENDER];
# Since this is an irc_* event, we can get the component's object by
# accessing the heap of the sender. Then we register and connect to the
# specified server.
my $irc = $sender->get_heap();
print "Connected to ", $irc->server_name(), "\n";
# we join our channels
$irc->yield( join => $_ ) for @channels;
return;
}
sub irc_public {
my ($sender, $who, $where, $what) = @_[SENDER, ARG0 .. ARG2];
my $nick = ( split /!/, $who )[0];
my $channel = $where->[0];
if ( my ($rot13) = $what =~ /^rot13 (.+)/ ) {
$rot13 =~ tr[a-zA-Z][n-za-mN-ZA-M];
$irc->yield( privmsg => $channel => "$nick: $rot13" );
}
return;
}
# We registered for all events, this will produce some debug info.
sub _default {
my ($event, $args) = @_[ARG0 .. $#_];
my @output = ( "$event: " );
for my $arg (@$args) {
if ( ref $arg eq 'ARRAY' ) {
push( @output, '[' . join(', ', @$arg ) . ']' );
}
else {
push ( @output, "'$arg'" );
}
}
print join ' ', @output, "\n";
return 0;
}
=head1 DESCRIPTION
POE::Component::IRC is a POE component (who'd have guessed?) which
acts as an easily controllable IRC client for your other POE
components and sessions. You create an IRC component and tell it what
events your session cares about and where to connect to, and it sends
back interesting IRC events when they happen. You make the client do
things by sending it events. That's all there is to it. Cool, no?
[Note that using this module requires some familiarity with the
details of the IRC protocol. I'd advise you to read up on the gory
details of RFC 1459 (L<http://www.faqs.org/rfcs/rfc1459.html>) before you
get started. Keep the list of server numeric codes handy while you
program. Needless to say, you'll also need a good working knowledge of
POE, or this document will be of very little use to you.]
The POE::Component::IRC distribution has a F<docs/> folder with a collection of
salient documentation including the pertinent RFCs.
POE::Component::IRC consists of a POE::Session that manages the IRC connection
and dispatches C<irc_> prefixed events to interested sessions and
an object that can be used to access additional information using methods.
Sessions register their interest in receiving C<irc_> events by sending
L<C<register>|/"register"> to the component. One would usually do this in
your C<_start> handler. Your session will continue to receive events until
you L<C<unregister>|/"unregister">. The component will continue to stay
around until you tell it not to with L<C<shutdown>|/"shutdown">.
The L<SYNOPSIS|/"SYNOPSIS"> demonstrates a fairly basic bot.
See L<POE::Component::IRC::Cookbook|POE::Component::IRC::Cookbook> for more
examples.
=head2 Useful subclasses
Included with POE::Component::IRC are a number of useful subclasses. As they
are subclasses they support all the methods, etc. documented here and have
additional methods and quirks which are documented separately:
=over
=item L<POE::Component::IRC::State|POE::Component::IRC::State>
POE::Component::IRC::State provides all the functionality of POE::Component::IRC
but also tracks IRC state entities such as nicks and channels.
=item L<POE::Component::IRC::Qnet|POE::Component::IRC::Qnet>
POE::Component::IRC::Qnet is POE::Component::IRC tweaked for use on Quakenet IRC
network.
=item L<POE::Component::IRC::Qnet::State|POE::Component::IRC::Qnet::State>
POE::Component::IRC::Qnet::State is a tweaked version of POE::Component::IRC::State
for use on the Quakenet IRC network.
=back
=head2 The Plugin system
As of 3.7, PoCo-IRC sports a plugin system. The documentation for it can be
read by looking at L<POE::Component::IRC::Plugin|POE::Component::IRC::Plugin>.
That is not a subclass, just a placeholder for documentation!
A number of useful plugins have made their way into the core distribution:
=over
=item L<POE::Component::IRC::Plugin::DCC|POE::Component::IRC::Plugin::DCC>
Provides DCC support. Loaded by default.
=item L<POE::Component::IRC::Plugin::AutoJoin|POE::Component::IRC::Plugin::AutoJoin>
Keeps you on your favorite channels throughout reconnects and even kicks.
=item L<POE::Component::IRC::Plugin::Connector|POE::Component::IRC::Plugin::Connector>
Glues an irc bot to an IRC network, i.e. deals with maintaining ircd connections.
=item L<POE::Component::IRC::Plugin::BotTraffic|POE::Component::IRC::Plugin::BotTraffic>
Under normal circumstances irc bots do not normal the msgs and public msgs that
they generate themselves. This plugin enables you to handle those events.
=item L<POE::Component::IRC::Plugin::BotAddressed|POE::Component::IRC::Plugin::BotAddressed>
Generates C<irc_bot_addressed> / C<irc_bot_mentioned> / C<irc_bot_mentioned_action>
events whenever your bot's name comes up in channel discussion.
=item L<POE::Component::IRC::Plugin::BotCommand|POE::Component::IRC::Plugin::BotCommand>
Provides an easy way to handle commands issued to your bot.
=item L<POE::Component::IRC::Plugin::Console|POE::Component::IRC::Plugin::Console>
See inside the component. See what events are being sent. Generate irc commands
manually. A TCP based console.
=item L<POE::Component::IRC::Plugin::FollowTail|POE::Component::IRC::Plugin::FollowTail>
Follow the tail of an ever-growing file.
=item L<POE::Component::IRC::Plugin::Logger|POE::Component::IRC::Plugin::Logger>
Log public and private messages to disk.
=item L<POE::Component::IRC::Plugin::NickServID|POE::Component::IRC::Plugin::NickServID>
Identify with FreeNode's NickServ when needed.
=item L<POE::Component::IRC::Plugin::Proxy|POE::Component::IRC::Plugin::Proxy>
A lightweight IRC proxy/bouncer.
=item L<POE::Component::IRC::Plugin::CTCP|POE::Component::IRC::Plugin::CTCP>
Automagically generates replies to ctcp version, time and userinfo queries.
=item L<POE::Component::IRC::Plugin::PlugMan|POE::Component::IRC::Plugin::PlugMan>
An experimental Plugin Manager plugin.
=item L<POE::Component::IRC::Plugin::NickReclaim|POE::Component::IRC::Plugin::NickReclaim>
Automagically deals with your nickname being in use and reclaiming it.
=item L<POE::Component::IRC::Plugin::CycleEmpty|POE::Component::IRC::Plugin::CycleEmpty>
Cycles (parts and rejoins) channels if they become empty and opless, in order
to gain ops.
=back
=head1 CONSTRUCTORS
Both constructors return an object. The object is also available within 'irc_'
event handlers by using C<< $_[SENDER]->get_heap() >>. See also
L<C<register>|/"register"> and L<C<irc_registered>|/"irc_registered">.
=head2 C<spawn>
Takes a number of arguments, all of which are optional:
B<'alias'>, a name (kernel alias) that this instance will be known by;
B<'options'>, a hashref containing L<POE::Session|POE::Session> options;
B<'Server'>, the server name;
B<'Port'>, the remote port number;
B<'Password'>, an optional password for restricted servers;
B<'Nick'>, your client's IRC nickname;
B<'Username'>, your client's username;
B<'Ircname'>, some cute comment or something.
B<'UseSSL'>, set to some true value if you want to connect using SSL.
B<'Raw'>, set to some true value to enable the component to send
L<C<irc_raw>|/"irc_raw"> events.
B<'LocalAddr'>, which local IP address on a multihomed box to connect as;
B<'LocalPort'>, the local TCP port to open your socket on;
B<'NoDNS'>, set this to 1 to disable DNS lookups using PoCo-Client-DNS. (See note
below).
B<'Flood'>, set this to 1 to get quickly disconnected and klined from an ircd >;]
B<'Proxy'>, IP address or server name of a proxy server to use.
B<'ProxyPort'>, which tcp port on the proxy to connect to.
B<'NATAddr'>, what other clients see as your IP address.
B<'DCCPorts'>, an arrayref containing tcp ports that can be used for DCC sends.
B<'Resolver'>, provide a L<POE::Component::Client::DNS|POE::Component::Client::DNS>
object for the component to use.
B<'msg_length'>, the maximum length of IRC messages, in bytes. Default is 450.
The IRC component shortens all messages longer than this value minus the length
of your current nickname. IRC only allows raw protocol lines messages that are
512 bytes or shorter, including the trailing "\r\n". This is most relevant to
long PRIVMSGs. The IRC component can't be sure how long your user@host mask
will be every time you send a message, considering that most networks mangle
the 'user' part and some even replace the whole string (think FreeNode cloaks).
If you have an unusually long user@host mask you might want to decrease this
value if you're prone to sending long messages. Conversely, if you have an
unusually short one, you can increase this value if you want to be able to
send as long a message as possible. Be careful though, increase it too much
and the IRC server might disconnect you with a "Request too long" message when
you try to send a message that's too long.
B<'plugin_debug'>, set to some true value to print plugin debug info, default 0.
B<'socks_proxy'>, specify a SOCKS4/SOCKS4a proxy to use.
B<'socks_port'>, the SOCKS port to use, defaults to 1080 if not specified.
B<'socks_id'>, specify a SOCKS user_id. Default is none.
B<'useipv6'>, enable the use of IPv6 for connections.
C<spawn> will supply reasonable defaults for any of these attributes which are
missing, so don't feel obliged to write them all out.
All the above options may be supplied to L<C<connect>|/"connect"> input
event as well.
If the component finds that L<POE::Component::Client::DNS|POE::Component::Client::DNS>
is installed it will use that to resolve the server name passed. Disable this
behaviour if you like, by passing: C<< NoDNS => 1 >>.
Additionally there is a B<'Flood'> parameter. When true, it disables the
component's flood protection algorithms, allowing it to send messages
to an IRC server at full speed. Disconnects and k-lines are some
common side effects of flooding IRC servers, so care should be used
when enabling this option.
Two new attributes are B<'Proxy'> and B<'ProxyPort'> for sending your
IRC traffic through a proxy server. B<'Proxy'>'s value should be the IP
address or server name of the proxy. B<'ProxyPort'>'s value should be the
port on the proxy to connect to. L<C<connect>|/"connect"> will default
to using the I<actual> IRC server's port if you provide a proxy but omit
the proxy's port. These are for HTTP Proxies. See B<'socks_proxy'> for SOCKS4
and SOCKS4a support.
For those people who run bots behind firewalls and/or Network Address
Translation there are two additional attributes for DCC. B<'DCCPorts'>, is an
arrayref of ports to use when initiating DCC connections. B<'NATAddr'>, is
the NAT'ed IP address that your bot is hidden behind, this is sent whenever
you do DCC.
SSL support requires L<POE::Component::SSLify|POE::Component::SSLify>, as well
as an IRC server that supports SSL connections. If you're missing
POE::Component::SSLify, specifing B<'UseSSL'> will do nothing. The default is to
not try to use SSL.
Setting B<'Raw'> to true, will enable the component to send
L<C<irc_raw>|/"irc_raw"> events to interested plugins and sessions.
B<'Resolver'>, requires a L<POE::Component::Client::DNS|POE::Component::Client::DNS>
object. Useful when spawning multiple poco-irc sessions, saves the overhead of
multiple dns sessions.
B<'NoDNS'> has different results depending on whether it is set with
L<C<spawn>|/"spawn"> or L<C<connect>|/"connect">. Setting it with
C<spawn>, disables the creation of the POE::Component::Client::DNS
completely. Setting it with L<C<connect>|/"connect"> on the other hand
allows the PoCo-Client-DNS session to be spawned, but will disable
any dns lookups using it.
B<'plugin_debug'>, setting to true enables plugin debug info. Plugins are processed
inside an eval, so debugging them can be hard. This should help with that.
SOCKS4 proxy support is provided by B<'socks_proxy'>, B<'socks_port'> and
B<'socks_id'> parameters. If something goes wrong with the SOCKS connection
you should get a warning on STDERR. This is fairly experimental currently.
IPv6 support is available for connecting to IPv6 enabled ircds (it won't work
for DCC though). To enable it, specify B<'useipv6'>. L<Socket6|Socket6> is
required to be installed. If you have L<Socket6|Socket6> and
L<POE::Component::Client::DNS|POE::Component::Client::DNS> installed and
specify a hostname that resolves to an IPv6 address then IPv6 will be used.
If you specify an ipv6 B<'localaddr'> then IPv6 will be used.
=head2 C<new>
This method is deprecated. See the L<C<spawn>|/"spawn"> method instead.
The first argument should be a name (kernel alias) which this new connection
will be known by. Optionally takes more arguments (see L<C<spawn>|/"spawn">
as name/value pairs. Returns a POE::Component::IRC object. :)
B<Note:> Use of this method will generate a warning. There are currently no
plans to make it die() >;]
=head1 METHODS
These are methods supported by the POE::Component::IRC object. It also
inherits a few from L<POE::Component::Pluggable|POE::Component::Pluggable>.
See its documentation for details.
=head2 C<server_name>
Takes no arguments. Returns the name of the IRC server that the component
is currently connected to.
=head2 C<nick_name>
Takes no arguments. Returns a scalar containing the current nickname that the
bot is using.
=head2 C<localaddr>
Takes no arguments. Returns the IP address being used.
=head2 C<session_id>
Takes no arguments. Returns the ID of the component's session. Ideal for posting
events to the component.
$kernel->post($irc->session_id() => 'mode' => $channel => '+o' => $dude);
=head2 C<session_alias>
Takes no arguments. Returns the session alias that has been set through
L<C<spawn>|/"spawn">'s alias argument.
=head2 C<version>
Takes no arguments. Returns the version number of the module.
=head2 C<send_queue>
The component provides anti-flood throttling. This method takes no arguments
and returns a scalar representing the number of messages that are queued up
waiting for dispatch to the irc server.
=head2 C<connected>
Takes no arguments. Returns true or false depending on whether the component is
currently connected to an IRC network or not.
=head2 C<disconnect>
Takes no arguments. Terminates the socket connection disgracefully >;o]
=head2 C<raw_events>
With no arguments, returns true or false depending on whether
L<C<irc_raw>|/"irc_raw"> events are being generated or not. Provide a
true or false argument to enable or disable this feature accordingly.
=head2 C<isupport>
Takes one argument, a server capability to query. Returns undef on failure or a
value representing the applicable capability. A full list of capabilities is
available at L<http://www.irc.org/tech_docs/005.html>.
=head2 C<isupport_dump_keys>
Takes no arguments, returns a list of the available server capabilities keys,
which can be used with L<C<isupport>|/"isupport">.
=head2 C<yield>
This method provides an alternative object based means of posting events to the
component. First argument is the event to post, following arguments are sent as
arguments to the resultant post.
$irc->yield(mode => $channel => '+o' => $dude);
=head2 C<call>
This method provides an alternative object based means of calling events to the
component. First argument is the event to call, following arguments are sent as
arguments to the resultant
call.
$irc->call(mode => $channel => '+o' => $dude);
=head2 C<delay>
This method provides a way of posting delayed events to the component. The
first argument is an arrayref consisting of the delayed command to post and
any command arguments. The second argument is the time in seconds that one
wishes to delay the command being posted.
my $alarm_id = $irc->delay( [ mode => $channel => '+o' => $dude ], 60 );
Returns an alarm ID that can be used with L<C<delay_remove>|/"delay_remove">
to cancel the delayed event. This will be undefined if something went wrong.
=head2 C<delay_remove>
This method removes a previously scheduled delayed event from the component.
Takes one argument, the C<alarm_id> that was returned by a
L<C<delay>|/"delay"> method call.
my $arrayref = $irc->delay_remove( $alarm_id );
Returns an arrayref that was originally requested to be delayed.
=head2 C<resolver>
Returns a reference to the L<POE::Component::Client::DNS|POE::Component::Client::DNS>
object that is internally created by the component.
=head2 C<send_event>
Sends an event through the components event handling system. These will get
processed by plugins then by registered sessions. First argument is the event
name, followed by any parameters for that event.
=head1 INPUT
How to talk to your new IRC component... here's the events we'll accept.
These are events that are posted to the component, either via
C<< $poe_kernel->post() >> or via the object method L<C<yield>|/"yield">.
So the following would be functionally equivalent:
sub irc_001 {
my ($kernel,$sender) = @_[KERNEL,SENDER];
my $irc = $sender->get_heap(); # obtain the poco's object
$irc->yield( privmsg => 'foo' => 'Howdy!' );
$kernel->post( $sender => privmsg => 'foo' => 'Howdy!' );
$kernel->post( $irc->session_id() => privmsg => 'foo' => 'Howdy!' );
$kernel->post( $irc->session_alias() => privmsg => 'foo' => 'Howdy!' );
return;
}
=head2 Important Commands
=head3 C<register>
Takes N arguments: a list of event names that your session wants to
listen for, minus the C<irc_> prefix. So, for instance, if you just
want a bot that keeps track of which people are on a channel, you'll
need to listen for JOINs, PARTs, QUITs, and KICKs to people on the
channel you're in. You'd tell POE::Component::IRC that you want those
events by saying this:
$kernel->post('my client', 'register', qw(join part quit kick));
Then, whenever people enter or leave a channel your bot is on (forcibly
or not), your session will receive events with names like
L<C<irc_join>|/"irc_join">, L<C<irc_kick>|/"irc_kick">, etc.,
which you can use to update a list of people on the channel.
Registering for B<'all'> will cause it to send all IRC-related events to
you; this is the easiest way to handle it. See the test script for an
example.
Registering will generate an L<C<irc_registered>|/"irc_registered">
event that your session can trap. C<ARG0> is the components object. Useful
if you want to bolt PoCo-IRC's new features such as Plugins into a bot
coded to the older deprecated API. If you are using the new API, ignore this :)
Registering with multiple component sessions can be tricky, especially if
one wants to marry up sessions/objects, etc. Check the L<SIGNALS|/"SIGNALS">
section for an alternative method of registering with multiple poco-ircs.
Starting with version 4.96, if you spawn the component from inside another POE
session, the component will automatically register that session as wanting
B<'all'> irc events. That session will receive an
L<C<irc_registered>|/"irc_registered"> event indicating that the component
is up and ready to go.
=head3 C<connect>
Takes one argument: a hash reference of attributes for the new connection,
see L<C<spawn>|/"spawn"> for details. This event tells the IRC client to
connect to a new/different server. If it has a connection already open, it'll
close it gracefully before reconnecting.
=head3 C<ctcp> and C<ctcpreply>
Sends a CTCP query or response to the nick(s) or channel(s) which you
specify. Takes 2 arguments: the nick or channel to send a message to
(use an array reference here to specify multiple recipients), and the
plain text of the message to send (the CTCP quoting will be handled
for you). The "/me" command in popular IRC clients is actually a CTCP action.
# Doing a /me
$irc->yield(ctcp => $channel => 'ACTION dances.');
=head3 C<join>
Tells your IRC client to join a single channel of your choice. Takes
at least one arg: the channel name (required) and the channel key
(optional, for password-protected channels).
=head3 C<kick>
Tell the IRC server to forcibly evict a user from a particular
channel. Takes at least 2 arguments: a channel name, the nick of the
user to boot, and an optional witty message to show them as they sail
out the door.
=head3 C<remove> (FreeNode only)
Tell the IRC server to forcibly evict a user from a particular
channel. Takes at least 2 arguments: a channel name, the nick of the
user to boot, and an optional witty message to show them as they sail
out the door. Similar to KICK but does an enforced PART instead.
=head3 C<mode>
Request a mode change on a particular channel or user. Takes at least
one argument: the mode changes to effect, as a single string (e.g.
"#mychan +sm-p+o"), and any number of optional operands to the mode changes
(nicks, hostmasks, channel keys, whatever.) Or just pass them all as one
big string and it'll still work, whatever. I regret that I haven't the
patience now to write a detailed explanation, but serious IRC users know
the details anyhow.
=head3 C<nick>
Allows you to change your nickname. Takes exactly one argument: the
new username that you'd like to be known as.
=head3 C<nickserv> (FreeNode only)
Talks to FreeNode's NickServ. Takes any number of arguments.
=head3 C<notice>
Sends a NOTICE message to the nick(s) or channel(s) which you
specify. Takes 2 arguments: the nick or channel to send a notice to
(use an array reference here to specify multiple recipients), and the
text of the notice to send.
=head3 C<part>
Tell your IRC client to leave the channels which you pass to it. Takes
any number of arguments: channel names to depart from. If the last argument
doesn't begin with a channel name identifier or contains a space character,
it will be treated as a PART message and dealt with accordingly.
=head3 C<privmsg>
Sends a public or private message to the nick(s) or channel(s) which
you specify. Takes 2 arguments: the nick or channel to send a message
to (use an array reference here to specify multiple recipients), and
the text of the message to send.
Have a look at the constants in
L<POE::Component::IRC::Common|POE::Component::IRC::Common> if you would
like to use formatting and color codes in your messages.
=head3 C<quit>
Tells the IRC server to disconnect you. Takes one optional argument:
some clever, witty string that other users in your channels will see
as you leave. You can expect to get an
L<C<irc_disconnected>|/"irc_disconnected"> event shortly after sending this.
=head3 C<shutdown>
By default, POE::Component::IRC sessions never go away. Even after
they're disconnected, they're still sitting around in the background,
waiting for you to call L<C<connect>|/"connect"> on them again to
reconnect. (Whether this behavior is the Right Thing is doubtful, but I
don't want to break backwards compatibility at this point.) You can send
the IRC session a C<shutdown> event manually to make it delete itself.
If you are connected, C<shutdown> will send a quit message to ircd and
disconnect. If you provide an argument that will be used as the QUIT
message.
Terminating multiple components can be tricky. Check the L<SIGNALS|/"SIGNALS">
section for an alternative method of shutting down multiple poco-ircs.
=head3 C<topic>
Retrieves or sets the topic for particular channel. If called with just
the channel name as an argument, it will ask the server to return the
current topic. If called with the channel name and a string, it will
set the channel topic to that string. Supply an empty string to unset a
channel topic.
=head3 C<unregister>
Takes N arguments: a list of event names which you I<don't> want to
receive. If you've previously done a L<C<register>|/"register">
for a particular event which you no longer care about, this event will
tell the IRC connection to stop sending them to you. (If you haven't, it just
ignores you. No big deal.)
If you have registered with 'all', attempting to unregister individual
events such as 'mode', etc. will not work. This is a 'feature'.
=head3 C<debug>
Takes one argument: 0 to turn debugging off or 1 to turn debugging on.
This flips the debugging flag in L<POE::Filter::IRCD|POE::Filter::IRCD>,
L<POE::Filter::IRC::Compat|POE::Filter::IRC::Compat>, and
POE::Component::IRC. This has the same effect as setting Debug in
L<C<spawn>|/"spawn"> or L<C<connect>|/"connect">.
=head2 Not-So-Important Commands
=head3 C<admin>
Asks your server who your friendly neighborhood server administrators
are. If you prefer, you can pass it a server name to query, instead of
asking the server you're currently on.
=head3 C<away>
When sent with an argument (a message describig where you went), the
server will note that you're now away from your machine or otherwise
preoccupied, and pass your message along to anyone who tries to
communicate with you. When sent without arguments, it tells the server
that you're back and paying attention.
=head3 C<dcc*>
See the L<DCC plugin|POE::Component::IRC::Plugin/"COMMANDS"> (loaded by default)
documentation for DCC-related commands.
=head3 C<info>
Basically the same as the L<C<version>|/"version"> command, except that the
server is permitted to return any information about itself that it thinks is
relevant. There's some nice, specific standards-writing for ya, eh?
=head3 C<invite>
Invites another user onto an invite-only channel. Takes 2 arguments:
the nick of the user you wish to admit, and the name of the channel to
invite them to.
=head3 C<ison>
Asks the IRC server which users out of a list of nicknames are
currently online. Takes any number of arguments: a list of nicknames
to query the IRC server about.
=head3 C<links>
Asks the server for a list of servers connected to the IRC
network. Takes two optional arguments, which I'm too lazy to document
here, so all you would-be linklooker writers should probably go dig up
the RFC.
=head3 C<list>
Asks the server for a list of visible channels and their topics. Takes
any number of optional arguments: names of channels to get topic
information for. If called without any channel names, it'll list every
visible channel on the IRC network. This is usually a really big list,
so don't do this often.
=head3 C<motd>
Request the server's "Message of the Day", a document which typically
contains stuff like the server's acceptable use policy and admin
contact email addresses, et cetera. Normally you'll automatically
receive this when you log into a server, but if you want it again,
here's how to do it. If you'd like to get the MOTD for a server other
than the one you're logged into, pass it the server's hostname as an
argument; otherwise, no arguments.
=head3 C<names>
Asks the server for a list of nicknames on particular channels. Takes
any number of arguments: names of channels to get lists of users
for. If called without any channel names, it'll tell you the nicks of
everyone on the IRC network. This is a really big list, so don't do
this much.
=head3 C<quote>
Sends a raw line of text to the server. Takes one argument: a string
of a raw IRC command to send to the server. It is more optimal to use
the events this module supplies instead of writing raw IRC commands
yourself.
=head3 C<stats>
Returns some information about a server. Kinda complicated and not
terribly commonly used, so look it up in the RFC if you're
curious. Takes as many arguments as you please.
=head3 C<time>
Asks the server what time it thinks it is, which it will return in a
human-readable form. Takes one optional argument: a server name to
query. If not supplied, defaults to current server.
=head3 C<trace>
If you pass a server name or nick along with this request, it asks the
server for the list of servers in between you and the thing you
mentioned. If sent with no arguments, it will show you all the servers
which are connected to your current server.
=head3 C<users>
Asks the server how many users are logged into it. Defaults to the
server you're currently logged into; however, you can pass a server
name as the first argument to query some other machine instead.
=head3 C<version>
Asks the server about the version of ircd that it's running. Takes one
optional argument: a server name to query. If not supplied, defaults
to current server.
=head3 C<who>
Lists the logged-on users matching a particular channel name, hostname,
nickname, or what-have-you. Takes one optional argument: a string for
it to search for. Wildcards are allowed; in the absence of this
argument, it will return everyone who's currently logged in (bad
move). Tack an "o" on the end if you want to list only IRCops, as per
the RFC.
=head3 C<whois>
Queries the IRC server for detailed information about a particular
user. Takes any number of arguments: nicknames or hostmasks to ask for
information about. As of version 3.2, you will receive an
L<C<irc_whois>|/"irc_whois"> event in addition to the usual numeric
responses. See below for details.
=head3 C<whowas>
Asks the server for information about nickname which is no longer
connected. Takes at least one argument: a nickname to look up (no
wildcards allowed), the optional maximum number of history entries to
return, and the optional server hostname to query. As of version 3.2,
you will receive an L<C<irc_whowas>|/"irc_whowas"> event in addition
to the usual numeric responses. See below for details.
=head3 C<ping> and C<pong>
Included for completeness sake. The component will deal with ponging to
pings automatically. Don't worry about it.
=head2 Purely Esoteric Commands
=head3 C<die>
Tells the IRC server you're connect to, to terminate. Only useful for
IRCops, thank goodness. Takes no arguments.
=head3 C<locops>
Opers-only command. This one sends a message to all currently
logged-on local-opers (+l). This option is specific to EFNet.
=head3 C<oper>
In the exceedingly unlikely event that you happen to be an IRC
operator, you can use this command to authenticate with your IRC
server. Takes 2 arguments: your username and your password.
=head3 C<operwall>
Opers-only command. This one sends a message to all currently
logged-on global opers. This option is specific to EFNet.
=head3 C<rehash>
Tells the IRC server you're connected to, to rehash its configuration
files. Only useful for IRCops. Takes no arguments.
=head3 C<restart>
Tells the IRC server you're connected to, to shut down and restart itself.
Only useful for IRCops, thank goodness. Takes no arguments.
=head3 C<sconnect>
Tells one IRC server (which you have operator status on) to connect to
another. This is actually the CONNECT command, but I already had an
event called L<C<connect>|/"connect">, so too bad. Takes the args
you'd expect: a server to connect to, an optional port to connect on,
and an optional remote server to connect with, instead of the one you're
currently on.
=head3 C<squit>
Operator-only command used to disconnect server links. Takes two arguments,
the server to disconnect and a message explaining your action.
=head3 C<summon>
Don't even ask.
=head3 C<servlist>
Lists the currently connected services on the network that are visible to you.
Takes two optional arguments, a mask for matching service names against, and
a service type.
=head3 C<squery>
Sends a message to a service. Takes the same arguments as
L<C<privmsg>|/"privmsg">.
=head3 C<userhost>
Asks the IRC server for information about particular nicknames. (The
RFC doesn't define exactly what this is supposed to return.) Takes any
number of arguments: the nicknames to look up.
=head3 C<wallops>
Another opers-only command. This one sends a message to all currently
logged-on opers (and +w users); sort of a mass PA system for the IRC
server administrators. Takes one argument: some clever, witty message
to send.
=head1 OUTPUT
The events you will receive (or can ask to receive) from your running
IRC component. Note that all incoming event names your session will
receive are prefixed by C<irc_>, to inhibit event namespace pollution.
If you wish, you can ask the client to send you every event it
generates. Simply register for the event name "all". This is a lot
easier than writing a huge list of things you specifically want to
listen for.
FIXME: I'd really like to classify these somewhat ("basic", "oper", "ctcp",
"dcc", "raw" or some such), and I'd welcome suggestions for ways to make
this easier on the user, if you can think of some.
In your event handlers, C<$_[SENDER]> is the particular component session that
sent you the event. C<< $_[SENDER]->get_heap() >> will retrieve the component's
object. Useful if you want on-the-fly access to the object and its methods.
=head2 Important Events
=head3 C<irc_connected>
The IRC component will send an C<irc_connected> event as soon as it
establishes a connection to an IRC server, before attempting to log
in. C<ARG0> is the server name.
B<NOTE:> When you get an C<irc_connected> event, this doesn't mean you
can start sending commands to the server yet. Wait until you receive
an L<C<irc_001>|/"All numeric events"> event (the server welcome message)
before actually sending anything back to the server.
=head3 C<irc_ctcp>
C<irc_ctcp> events are generated upon receipt of CTCP messages, in addition to
the C<irc_ctcp_*> events mentioned below. They are identical in every way to
these, with one difference: instead of the * being in the method name, it
is prepended to the argument list. For example, if someone types C</ctcp
Flibble foo bar>, an C<irc_ctcp> event will be sent with B<'foo'> as C<ARG0>,
and the rest as given below.
It is not recommended that you register for both C<irc_ctcp> and C<irc_ctcp_*>
events, since they will both be fired and presumably cause duplication.
=head3 C<irc_ctcp_*>
C<irc_ctcp_whatever> events are generated upon receipt of CTCP messages.
For instance, receiving a CTCP PING request generates an C<irc_ctcp_ping>
event, CTCP ACTION (produced by typing "/me" in most IRC clients)
generates an C<irc_ctcp_action> event, blah blah, so on and so forth. C<ARG0>
is the nick!hostmask of the sender. C<ARG1> is the channel/recipient
name(s). C<ARG2> is the text of the CTCP message. On servers supporting the
CAPAB IDENTIFY-MSG feature (e.g. FreeNode), CTCP ACTIONs will have C<ARG3>,
which will be 1 if the sender has identified with NickServ, 0 otherwise.
Note that DCCs are handled separately -- see the
L<DCC plugin|POE::Component::IRC::Plugin::DCC>.
=head3 C<irc_ctcpreply_*>
C<irc_ctcpreply_whatever> messages are just like C<irc_ctcp_whatever>
messages, described above, except that they're generated when a response
to one of your CTCP queries comes back. They have the same arguments and
such as C<irc_ctcp_*> events.
=head3 C<irc_disconnected>
The counterpart to L<C<irc_connected>|/"irc_connected">, sent whenever
a socket connection to an IRC server closes down (whether intentionally or
unintentionally). C<ARG0> is the server name.
=head3 C<irc_error>
You get this whenever the server sends you an ERROR message. Expect
this to usually be accompanied by the sudden dropping of your
connection. C<ARG0> is the server's explanation of the error.
=head3 C<irc_join>
Sent whenever someone joins a channel that you're on. C<ARG0> is the
person's nick!hostmask. C<ARG1> is the channel name.
=head3 C<irc_invite>
Sent whenever someone offers you an invitation to another channel. C<ARG0>
is the person's nick!hostmask. C<ARG1> is the name of the channel they want
you to join.
=head3 C<irc_kick>
Sent whenever someone gets booted off a channel that you're on. C<ARG0>
is the kicker's nick!hostmask. C<ARG1> is the channel name. C<ARG2> is the
nick of the unfortunate kickee. C<ARG3> is the explanation string for the
kick.
=head3 C<irc_mode>
Sent whenever someone changes a channel mode in your presence, or when
you change your own user mode. C<ARG0> is the nick!hostmask of that
someone. C<ARG1> is the channel it affects (or your nick, if it's a user
mode change). C<ARG2> is the mode string (i.e., "+o-b"). The rest of the
args (C<ARG3 .. $#_>) are the operands to the mode string (nicks,
hostmasks, channel keys, whatever).
=head3 C<irc_msg>
Sent whenever you receive a PRIVMSG command that was addressed to you
privately. C<ARG0> is the nick!hostmask of the sender. C<ARG1> is an array
reference containing the nick(s) of the recipients. C<ARG2> is the text
of the message. On FreeNode there is also C<ARG3>, which will be 1 if the
sender has identified with NickServ, 0 otherwise.
=head3 C<irc_nick>
Sent whenever you, or someone around you, changes nicks. C<ARG0> is the
nick!hostmask of the changer. C<ARG1> is the new nick that they changed
to.
=head3 C<irc_notice>
Sent whenever you receive a NOTICE command. C<ARG0> is the nick!hostmask
of the sender. C<ARG1> is an array reference containing the nick(s) or
channel name(s) of the recipients. C<ARG2> is the text of the NOTICE
message.
=head3 C<irc_part>
Sent whenever someone leaves a channel that you're on. C<ARG0> is the
person's nick!hostmask. C<ARG1> is the channel name. C<ARG2> is the part
message.
=head3 C<irc_public>
Sent whenever you receive a PRIVMSG command that was sent to a channel.
C<ARG0> is the nick!hostmask of the sender. C<ARG1> is an array
reference containing the channel name(s) of the recipients. C<ARG2> is
the text of the message. On FreeNode there is also C<ARG3>, which will be
1 if the sender has identified with NickServ, 0 otherwise.
=head3 C<irc_quit>
Sent whenever someone on a channel with you quits IRC (or gets
KILLed). C<ARG0> is the nick!hostmask of the person in question. C<ARG1> is
the clever, witty message they left behind on the way out.
=head3 C<irc_socketerr>
Sent when a connection couldn't be established to the IRC server. C<ARG0>
is probably some vague and/or misleading reason for what failed.
=head3 C<irc_topic>
Sent when a channel topic is set or unset. C<ARG0> is the nick!hostmask of the
sender. C<ARG1> is the channel affected. C<ARG2> will be either: a string if the
topic is being set; or a zero-length string (i.e. '') if the topic is being
unset. Note: replies to queries about what a channel topic *is*
(i.e. TOPIC #channel), are returned as numerics, not with this event.
=head3 C<irc_whois>
Sent in response to a WHOIS query. C<ARG0> is a hashref, with the following
keys:
B<'nick'>, the users nickname;
B<'user'>, the users username;
B<'host'>, their hostname;
B<'real'>, their real name;
B<'idle'>, their idle time in seconds;
B<'signon'>, the epoch time they signed on (will be undef if ircd does not support
this);
B<'channels'>, an arrayref listing visible channels they are on, the channel is
prefixed with '@','+','%' depending on whether they have +o +v or +h;
B<'server'>, their server ( might not be useful on some networks );
B<'oper'>, whether they are an IRCop, contains the IRC operator string if they are,
undef if they aren't.
B<'actually'>, some ircds report the users actual ip address, that'll be here;
On ircu servers, if the user has registered with services, there will be
another key:
B<'account'>.
On Freenode if the user has identified with NICKSERV there will be an
additional key:
B<'identified'>.
=head3 C<irc_whowas>
Similar to the above, except some keys will be missing.
=head3 C<irc_raw>
Enabled by passing C<< Raw => 1 >> to L<C<spawn>|/"spawn"> or
L<C<connect>|/"connect">, C<ARG0> is the raw IRC string received by the
component from the IRC server, before it has been mangled by filters and
such like.
=head3 C<irc_registered>
Sent once to the requesting session on registration (see
L<C<register>|/"register">). C<ARG0> is a reference tothe component's object.
=head3 C<irc_shutdown>
Sent to all registered sessions when the component has been asked to
L<C<shutdown>|/"shutdown">. C<ARG0> will be the session ID of the requesting
session.
=head3 C<irc_isupport>
Emitted by the first event after an L<C<irc_005>|/"All numeric events">, to
indicate that isupport information has been gathered. C<ARG0> is the
L<POE::Component::IRC::Plugin::ISupport|POE::Component::IRC::Plugin::ISupport>
object.
=head3 C<irc_delay_set>
Emitted on a succesful addition of a delayed event using the
L<C<delay>|/"delay"> method. C<ARG0> will be the alarm_id which can be used
later with L<C<delay_remove>|/"delay_remove">. Subsequent parameters are
the arguments that were passed to L<C<delay>|/"delay">.
=head3 C<irc_delay_removed>
Emitted when a delayed command is successfully removed. C<ARG0> will be the
alarm_id that was removed. Subsequent parameters are the arguments that were
passed to L<C<delay>|/"delay">.
=head3 C<irc_socks_failed>
Emitted whenever we fail to connect successfully to a SOCKS server or the
SOCKS server is not actually a SOCKS server. C<ARG0> will be some vague reason
as to what went wrong. Hopefully.
=head3 C<irc_socks_rejected>
Emitted whenever a SOCKS connection is rejected by a SOCKS server. C<ARG0> is
the SOCKS code, C<ARG1> the SOCKS server address, C<ARG2> the SOCKS port and
C<ARG3> the SOCKS user id (if defined).
=head2 Somewhat Less Important Events
=head3 C<irc_dcc_*>
See the L<DCC plugin|POE::Component::IRC::Plugin/"OUTPUT"> (loaded by default)
documentation for DCC-related events.
=head3 C<irc_ping>
An event sent whenever the server sends a PING query to the
client. (Don't confuse this with a CTCP PING, which is another beast
entirely. If unclear, read the RFC.) Note that POE::Component::IRC will
automatically take care of sending the PONG response back to the
server for you, although you can still register to catch the event for
informational purposes.
=head3 C<irc_snotice>
A weird, non-RFC-compliant message from an IRC server. Don't worry
about it. C<ARG0> is the text of the server's message.
=head2 All numeric events
Most messages from IRC servers are identified only by three-digit
numeric codes with undescriptive constant names like RPL_UMODEIS and
ERR_NOTOPLEVEL. (Actually, the list of codes in the RFC is kind of
out-of-date... the list in the back of Net::IRC::Event.pm is more
complete, and different IRC networks have different and incompatible
lists. Ack!) As an example, say you wanted to handle event 376
(RPL_ENDOFMOTD, which signals the end of the MOTD message). You'd
register for '376', and listen for C<irc_376> events. Simple, no? C<ARG0>
is the name of the server which sent the message. C<ARG1> is the text of
the message. C<ARG2> is an array reference of the parsed message, so there
is no need to parse C<ARG1> yourself.
=head1 SIGNALS
The component will handle a number of custom signals that you may send using
L<POE::Kernel|POE::Kernel>'s C<signal> method.
=head2 C<POCOIRC_REGISTER>
Registering with multiple PoCo-IRC components has been a pita. Well, no more,
using the power of L<POE::Kernel|POE::Kernel> signals.
If the component receives a C<POCOIRC_REGISTER> signal it'll register the
requesting session and trigger an L<C<irc_registered>|/"irc_registered">
event. From that event one can get all the information necessary such as the
poco-irc object and the SENDER session to do whatever one needs to build a
poco-irc dispatch table.
The way the signal handler in PoCo-IRC is written also supports sending the
C<POCOIRC_REGISTER> to multiple sessions simultaneously, by sending the signal
to the POE Kernel itself.
Pass the signal your session, session ID or alias, and the IRC events (as
specified to L<C<register>|/"register">).
To register with multiple PoCo-IRCs one can do the following in your session's
_start handler:
sub _start {
my ($kernel, $session) = @_[KERNEL, SESSION];
# Registering with multiple pocoircs for 'all' IRC events
$kernel->signal($kernel, 'POCOIRC_REGISTER', $session->ID(), 'all');
return:
}
Each poco-irc will send your session an
L<C<irc_registered>|/"irc_registered"> event:
sub irc_registered {
my ($kernel, $sender, $heap, $irc_object) = @_[KERNEL, SENDER, HEAP, ARG0];
# Get the poco-irc session ID
my $sender_id = $sender->ID();
# Or it's alias
my $poco_alias = $irc_object->session_alias();
# Store it in our heap maybe
$heap->{irc_objects}->{ $sender_id } = $irc_object;
# Make the poco connect
$irc_object->yield(connect => { });
return;
}
=head2 C<POCOIRC_SHUTDOWN>
Telling multiple poco-ircs to shutdown was a pita as well. The same principle as
with registering applies to shutdown too.
Send a C<POCOIRC_SHUTDOWN> to the POE Kernel to terminate all the active
poco-ircs simultaneously.
$poe_kernel->signal($poe_kernel, 'POCOIRC_SHUTDOWN');
Any additional parameters passed to the signal will become your quit messages
on each IRC network.
=head1 BUGS
A few have turned up in the past and they are sure to again. Please use
L<http://rt.cpan.org/> to report any. Alternatively, email the current
maintainer.
=head1 MAINTAINERS
Chris C<BinGOs> Williams <chris@bingosnet.co.uk>
Hinrik E<Ouml>rn SigurE<eth>sson <hinrik.sig@gmail.com>
=head1 AUTHOR
Dennis Taylor.
=head1 LICENCE
Copyright (c) Dennis Taylor, Chris Williams and Hinrik E<Ouml>rn SigurE<eth>sson
This module may be used, modified, and distributed under the same
terms as Perl itself. Please see the license that came with your Perl
distribution for details.
=head1 MAD PROPS
The maddest of mad props go out to Rocco "dngor" Caputo
<troc@netrus.net>, for inventing something as mind-bogglingly
cool as POE, and to Kevin "oznoid" Lenzo E<lt>lenzo@cs.cmu.eduE<gt>,
for being the attentive parent of our precocious little infobot on
#perl.
Further props to a few of the studly bughunters who made this module not
suck: Abys <abys@web1-2-3.com>, Addi <addi@umich.edu>, ResDev
<ben@reser.org>, and Roderick <roderick@argon.org>. Woohoo!
Kudos to Apocalypse, <apocal@cpan.org>, for the plugin system and to
Jeff 'japhy' Pinyan, <japhy@perlmonk.org>, for Pipeline.
Thanks to the merry band of POE pixies from #PoE @ irc.perl.org,
including ( but not limited to ), ketas, ct, dec, integral, webfox,
immute, perigrin, paulv, alias.
Check out the Changes file for further contributors.
=head1 SEE ALSO
RFC 1459 L<http://www.faqs.org/rfcs/rfc1459.html>
L<http://www.irchelp.org/>,
L<http://poe.perl.org/>,
L<http://www.infobot.org/>,
Some good examples reside in the POE cookbook which has a whole section
devoted to IRC programming L<http://poe.perl.org/?POE_Cookbook>.
The examples/ folder of this distribution.
The C<#poe> channel on irc.freenode.org.
=cut