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PyLink/protocols/ircs2s_common.py

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"""
ircs2s_common.py: Common base protocol class with functions shared by TS6 and P10-based protocols.
"""
import time
import re
from collections import defaultdict
from pylinkirc.classes import IRCNetwork, ProtocolError
from pylinkirc.log import log
from pylinkirc import utils, conf
class IncrementalUIDGenerator():
"""
Incremental UID Generator module, adapted from InspIRCd source:
https://github.com/inspircd/inspircd/blob/f449c6b296ab/src/server.cpp#L85-L156
"""
def __init__(self, sid):
if not (hasattr(self, 'allowedchars') and hasattr(self, 'length')):
raise RuntimeError("Allowed characters list not defined. Subclass "
"%s by defining self.allowedchars and self.length "
"and then calling super().__init__()." % self.__class__.__name__)
self.uidchars = [self.allowedchars[0]]*self.length
self.sid = str(sid)
def increment(self, pos=None):
"""
Increments the UID generator to the next available UID.
"""
# Position starts at 1 less than the UID length.
if pos is None:
pos = self.length - 1
# If we're at the last character in the list of allowed ones, reset
# and increment the next level above.
if self.uidchars[pos] == self.allowedchars[-1]:
self.uidchars[pos] = self.allowedchars[0]
self.increment(pos-1)
else:
# Find what position in the allowed characters list we're currently
# on, and add one.
idx = self.allowedchars.find(self.uidchars[pos])
self.uidchars[pos] = self.allowedchars[idx+1]
def next_uid(self):
"""
Returns the next unused UID for the server.
"""
uid = self.sid + ''.join(self.uidchars)
self.increment()
return uid
class IRCCommonProtocol(IRCNetwork):
COMMON_PREFIXMODES = [('h', 'halfop'), ('a', 'admin'), ('q', 'owner'), ('y', 'owner')]
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self._caps = {}
self._use_builtin_005_handling = False # Disabled by default for greater security
def post_connect(self):
self._caps.clear()
def validate_server_conf(self):
"""Validates that the server block given contains the required keys."""
for k in self.conf_keys:
log.debug('(%s) Checking presence of conf key %r', self.name, k)
conf.validate(k in self.serverdata,
"Missing option %r in server block for network %s."
% (k, self.name))
port = self.serverdata['port']
conf.validate(isinstance(port, int) and 0 < port < 65535,
"Invalid port %r for network %s"
% (port, self.name))
# TODO: these wrappers really need to be standardized
def _get_SID(self, sname):
"""Returns the SID of a server with the given name, if present."""
name = sname.lower()
if name in self.servers:
return name
for k, v in self.servers.items():
if v.name.lower() == name:
return k
else:
return sname # Fall back to given text instead of None
def _get_UID(self, target):
"""Converts a nick argument to its matching UID. This differs from irc.nick_to_uid()
in that it returns the original text instead of None, if no matching nick is found."""
if target in self.users:
return target
target = self.nick_to_uid(target) or target
return target
@staticmethod
def parse_args(args):
"""
Parses a string or list of of RFC1459-style arguments, where ":" may
be used for multi-word arguments that last until the end of a line.
"""
if isinstance(args, str):
args = args.split(' ')
real_args = []
for idx, arg in enumerate(args):
if arg.startswith(':') and idx != 0:
# ":" is used to begin multi-word arguments that last until the end of the message.
# Use list splicing here to join them into one argument, and then add it to our list of args.
joined_arg = ' '.join(args[idx:])[1:] # Cut off the leading : as well
real_args.append(joined_arg)
break
real_args.append(arg)
return real_args
@classmethod
def parse_prefixed_args(cls, args):
"""Similar to parse_args(), but stripping leading colons from the first argument
of a line (usually the sender field)."""
args = cls.parse_args(args)
args[0] = args[0].split(':', 1)[1]
return args
def _squit(self, numeric, command, args):
"""Handles incoming SQUITs."""
split_server = self._get_SID(args[0])
# Normally we'd only need to check for our SID as the SQUIT target, but Nefarious
# actually uses the uplink server as the SQUIT target.
# <- ABAAE SQ nefarious.midnight.vpn 0 :test
if split_server in (self.sid, self.uplink):
raise ProtocolError('SQUIT received: (reason: %s)' % args[-1])
affected_users = []
affected_nicks = defaultdict(list)
log.debug('(%s) Splitting server %s (reason: %s)', self.name, split_server, args[-1])
if split_server not in self.servers:
log.warning("(%s) Tried to split a server (%s) that didn't exist!", self.name, split_server)
return
# Prevent RuntimeError: dictionary changed size during iteration
old_servers = self.servers.copy()
old_channels = self._channels.copy()
# Cycle through our list of servers. If any server's uplink is the one that is being SQUIT,
# remove them and all their users too.
for sid, data in old_servers.items():
if data.uplink == split_server:
log.debug('Server %s also hosts server %s, removing those users too...', split_server, sid)
# Recursively run SQUIT on any other hubs this server may have been connected to.
args = self._squit(sid, 'SQUIT', [sid, "0",
"PyLink: Automatically splitting leaf servers of %s" % sid])
affected_users += args['users']
for user in self.servers[split_server].users.copy():
affected_users.append(user)
nick = self.users[user].nick
# Nicks affected is channel specific for SQUIT:. This makes Clientbot's SQUIT relaying
# much easier to implement.
for name, cdata in old_channels.items():
if user in cdata.users:
affected_nicks[name].append(nick)
log.debug('Removing client %s (%s)', user, nick)
self._remove_client(user)
serverdata = self.servers[split_server]
sname = serverdata.name
uplink = serverdata.uplink
del self.servers[split_server]
log.debug('(%s) Netsplit affected users: %s', self.name, affected_users)
return {'target': split_server, 'users': affected_users, 'name': sname,
'uplink': uplink, 'nicks': affected_nicks, 'serverdata': serverdata,
'channeldata': old_channels}
@staticmethod
def parse_isupport(args, fallback=''):
"""
Parses a string of capabilities in the 005 / RPL_ISUPPORT format.
"""
if isinstance(args, str):
args = args.split(' ')
caps = {}
for cap in args:
try:
# Try to split it as a KEY=VALUE pair.
key, value = cap.split('=', 1)
except ValueError:
key = cap
value = fallback
caps[key] = value
return caps
@staticmethod
def parse_isupport_prefixes(args):
"""
Separates prefixes field like "(qaohv)~&@%+" into a dict mapping mode characters to mode
prefixes.
"""
prefixsearch = re.search(r'\(([A-Za-z]+)\)(.*)', args)
return dict(zip(prefixsearch.group(1), prefixsearch.group(2)))
def handle_away(self, source, command, args):
"""Handles incoming AWAY messages."""
# TS6:
# <- :6ELAAAAAB AWAY :Auto-away
# <- :6ELAAAAAB AWAY
# P10:
# <- ABAAA A :blah
# <- ABAAA A
if source not in self.users:
return
try:
self.users[source].away = text = args[0]
except IndexError: # User is unsetting away status
self.users[source].away = text = ''
return {'text': text}
def handle_error(self, numeric, command, args):
"""Handles ERROR messages - these mean that our uplink has disconnected us!"""
raise ProtocolError('Received an ERROR, disconnecting!')
def handle_pong(self, source, command, args):
"""Handles incoming PONG commands."""
if source == self.uplink:
self.lastping = time.time()
def handle_005(self, source, command, args):
"""
Handles 005 / RPL_ISUPPORT. This is used by at least Clientbot and ngIRCd (for server negotiation).
"""
# ngIRCd:
# <- :ngircd.midnight.local 005 pylink-devel.int NETWORK=ngircd-test :is my network name
# <- :ngircd.midnight.local 005 pylink-devel.int RFC2812 IRCD=ngIRCd CHARSET=UTF-8 CASEMAPPING=ascii PREFIX=(qaohv)~&@%+ CHANTYPES=#&+ CHANMODES=beI,k,l,imMnOPQRstVz CHANLIMIT=#&+:10 :are supported on this server
# <- :ngircd.midnight.local 005 pylink-devel.int CHANNELLEN=50 NICKLEN=21 TOPICLEN=490 AWAYLEN=127 KICKLEN=400 MODES=5 MAXLIST=beI:50 EXCEPTS=e INVEX=I PENALTY :are supported on this server
# Regular clientbot, connecting to InspIRCd:
# <- :millennium.overdrivenetworks.com 005 ice AWAYLEN=200 CALLERID=g CASEMAPPING=rfc1459 CHANMODES=IXbegw,k,FJLfjl,ACKMNOPQRSTUcimnprstz CHANNELLEN=64 CHANTYPES=# CHARSET=ascii ELIST=MU ESILENCE EXCEPTS=e EXTBAN=,ACNOQRSTUcmprsuz FNC INVEX=I :are supported by this server
# <- :millennium.overdrivenetworks.com 005 ice KICKLEN=255 MAP MAXBANS=60 MAXCHANNELS=30 MAXPARA=32 MAXTARGETS=20 MODES=20 NAMESX NETWORK=OVERdrive-IRC NICKLEN=21 OVERRIDE PREFIX=(Yqaohv)*~&@%+ SILENCE=32 :are supported by this server
# <- :millennium.overdrivenetworks.com 005 ice SSL=[::]:6697 STARTTLS STATUSMSG=*~&@%+ TOPICLEN=307 UHNAMES USERIP VBANLIST WALLCHOPS WALLVOICES WATCH=32 :are supported by this server
if not self._use_builtin_005_handling:
log.warning("(%s) Got spurious 005 message from %s: %r", self.name, source, args)
return
newcaps = self.parse_isupport(args[1:-1])
self._caps.update(newcaps)
log.debug('(%s) handle_005: self._caps is %s', self.name, self._caps)
if 'CHANMODES' in newcaps:
self.cmodes['*A'], self.cmodes['*B'], self.cmodes['*C'], self.cmodes['*D'] = \
newcaps['CHANMODES'].split(',')
log.debug('(%s) handle_005: cmodes: %s', self.name, self.cmodes)
if 'USERMODES' in newcaps:
self.umodes['*A'], self.umodes['*B'], self.umodes['*C'], self.umodes['*D'] = \
newcaps['USERMODES'].split(',')
log.debug('(%s) handle_005: umodes: %s', self.name, self.umodes)
if 'CASEMAPPING' in newcaps:
self.casemapping = newcaps.get('CASEMAPPING', self.casemapping)
log.debug('(%s) handle_005: casemapping set to %s', self.name, self.casemapping)
if 'PREFIX' in newcaps:
self.prefixmodes = prefixmodes = self.parse_isupport_prefixes(newcaps['PREFIX'])
log.debug('(%s) handle_005: prefix modes set to %s', self.name, self.prefixmodes)
# Autodetect common prefix mode names.
for char, modename in self.COMMON_PREFIXMODES:
# Don't overwrite existing named mode definitions.
if char in self.prefixmodes and modename not in self.cmodes:
self.cmodes[modename] = char
log.debug('(%s) handle_005: autodetecting mode %s (%s) as %s', self.name,
char, self.prefixmodes[char], modename)
# https://defs.ircdocs.horse/defs/isupport.html
if 'EXCEPTS' in newcaps:
# Handle EXCEPTS=e or EXCEPTS fields
self.cmodes['banexception'] = newcaps.get('EXCEPTS') or 'e'
log.debug('(%s) handle_005: got cmode banexception=%r', self.name, self.cmodes['banexception'])
if 'INVEX' in newcaps:
# Handle INVEX=I, INVEX fields
self.cmodes['invex'] = newcaps.get('INVEX') or 'I'
log.debug('(%s) handle_005: got cmode invex=%r', self.name, self.cmodes['invex'])
if 'NICKLEN' in newcaps:
# Handle NICKLEN=number
assert newcaps['NICKLEN'], "Got NICKLEN tag with no content?"
self.maxnicklen = int(newcaps['NICKLEN'])
log.debug('(%s) handle_005: got %r for maxnicklen', self.name, self.maxnicklen)
if 'DEAF' in newcaps:
# Handle DEAF=D, DEAF fields
self.umodes['deaf'] = newcaps.get('DEAF') or 'D'
log.debug('(%s) handle_005: got umode deaf=%r', self.name, self.umodes['deaf'])
if 'CALLERID' in newcaps:
# Handle CALLERID=g, CALLERID fields
self.umodes['callerid'] = newcaps.get('CALLERID') or 'g'
log.debug('(%s) handle_005: got umode callerid=%r', self.name, self.umodes['callerid'])
if 'STATUSMSG' in newcaps:
# Note: This assumes that all available prefixes can be used in STATUSMSG too.
# Even though this isn't always true, I don't see the point in making things
# any more complicated.
self.protocol_caps |= {'has-statusmsg'}
def _send_with_prefix(self, source, msg, **kwargs):
"""Sends a RFC1459-style raw command from the given sender."""
self.send(':%s %s' % (self._expandPUID(source), msg), **kwargs)
class IRCS2SProtocol(IRCCommonProtocol):
COMMAND_TOKENS = {}
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.protocol_caps = {'can-spawn-clients', 'has-ts', 'can-host-relay',
'can-track-servers'}
# Alias
self.handle_squit = self._squit
def handle_events(self, data):
"""Event handler for RFC1459-like protocols.
This passes most commands to the various handle_ABCD() functions
elsewhere defined protocol modules, coersing various sender prefixes
from nicks and server names to UIDs and SIDs respectively,
whenever possible.
Commands sent without an explicit sender prefix will have them set to
the SID of the uplink server.
"""
data = data.split(" ")
args = self.parse_args(data)
sender = args[0]
sender = sender.lstrip(':')
# If the sender isn't in numeric format, try to convert it automatically.
sender_sid = self._get_SID(sender)
sender_uid = self._get_UID(sender)
if sender_sid in self.servers:
# Sender is a server (converting from name to SID gave a valid result).
sender = sender_sid
elif sender_uid in self.users:
# Sender is a user (converting from name to UID gave a valid result).
sender = sender_uid
elif not (args[0].startswith(':')):
# No sender prefix; treat as coming from uplink IRCd.
sender = self.uplink
args.insert(0, sender)
raw_command = args[1].upper()
args = args[2:]
log.debug('(%s) Found message sender as %s, raw_command=%r, args=%r', self.name, sender, raw_command, args)
# For P10, convert the command token into a regular command, if present.
command = self.COMMAND_TOKENS.get(raw_command, raw_command)
if command != raw_command:
log.debug('(%s) Translating token %s to command %s', self.name, raw_command, command)
if self.is_internal_client(sender) or self.is_internal_server(sender):
log.warning("(%s) Received command %s being routed the wrong way!", self.name, command)
return
if command == 'ENCAP':
# Special case for TS6 encapsulated commands (ENCAP), in forms like this:
# <- :00A ENCAP * SU 42XAAAAAC :GLolol
command = args[1]
args = args[2:]
log.debug("(%s) Rewriting incoming ENCAP to command %s (args: %s)", self.name, command, args)
try:
func = getattr(self, 'handle_'+command.lower())
except AttributeError: # Unhandled command
pass
else:
parsed_args = func(sender, command, args)
if parsed_args is not None:
return [sender, command, parsed_args]
def invite(self, source, target, channel):
"""Sends an INVITE from a PyLink client.."""
if not self.is_internal_client(source):
raise LookupError('No such PyLink client exists.')
self._send_with_prefix(source, 'INVITE %s %s' % (self._expandPUID(target), channel))
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def kick(self, numeric, channel, target, reason=None):
"""Sends kicks from a PyLink client/server."""
if (not self.is_internal_client(numeric)) and \
(not self.is_internal_server(numeric)):
raise LookupError('No such PyLink client/server exists.')
if not reason:
reason = 'No reason given'
# Mangle kick targets for IRCds that require it.
real_target = self._expandPUID(target)
self._send_with_prefix(numeric, 'KICK %s %s :%s' % (channel, real_target, reason))
# We can pretend the target left by its own will; all we really care about
# is that the target gets removed from the channel userlist, and calling
# handle_part() does that just fine.
self.handle_part(target, 'KICK', [channel])
2017-07-05 11:36:34 +02:00
def numeric(self, source, numeric, target, text):
"""Sends raw numerics from a server to a remote client. This is used for WHOIS replies."""
# Mangle the target for IRCds that require it.
target = self._expandPUID(target)
self._send_with_prefix(source, '%s %s %s' % (numeric, target, text))
def part(self, client, channel, reason=None):
"""Sends a part from a PyLink client."""
if not self.is_internal_client(client):
log.error('(%s) Error trying to part %r from %r (no such client exists)', self.name, client, channel)
raise LookupError('No such PyLink client exists.')
msg = "PART %s" % channel
if reason:
msg += " :%s" % reason
self._send_with_prefix(client, msg)
self.handle_part(client, 'PART', [channel])
def _ping_uplink(self):
"""Sends a PING to the uplink.
This is mostly used by PyLink internals to check whether the remote link is up."""
if self.sid and self.connected.is_set():
self._send_with_prefix(self.sid, 'PING %s' % self._expandPUID(self.sid))
def quit(self, numeric, reason):
"""Quits a PyLink client."""
if self.is_internal_client(numeric):
self._send_with_prefix(numeric, "QUIT :%s" % reason)
self._remove_client(numeric)
else:
raise LookupError("No such PyLink client exists.")
def message(self, numeric, target, text):
"""Sends a PRIVMSG from a PyLink client."""
if not self.is_internal_client(numeric):
raise LookupError('No such PyLink client exists.')
# Mangle message targets for IRCds that require it.
target = self._expandPUID(target)
self._send_with_prefix(numeric, 'PRIVMSG %s :%s' % (target, text))
def notice(self, numeric, target, text):
"""Sends a NOTICE from a PyLink client or server."""
if (not self.is_internal_client(numeric)) and \
(not self.is_internal_server(numeric)):
raise LookupError('No such PyLink client/server exists.')
# Mangle message targets for IRCds that require it.
target = self._expandPUID(target)
self._send_with_prefix(numeric, 'NOTICE %s :%s' % (target, text))
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def squit(self, source, target, text='No reason given'):
"""SQUITs a PyLink server."""
# -> SQUIT 9PZ :blah, blah
log.debug('(%s) squit: source=%s, target=%s', self.name, source, target)
self._send_with_prefix(source, 'SQUIT %s :%s' % (self._expandPUID(target), text))
2017-07-05 08:41:00 +02:00
self.handle_squit(source, 'SQUIT', [target, text])
def topic(self, source, target, text):
"""Sends a TOPIC change from a PyLink client or server."""
if (not self.is_internal_client(source)) and (not self.is_internal_server(source)):
raise LookupError('No such PyLink client/server exists.')
self._send_with_prefix(source, 'TOPIC %s :%s' % (target, text))
self._channels[target].topic = text
self._channels[target].topicset = True
topic_burst = topic
def handle_invite(self, numeric, command, args):
"""Handles incoming INVITEs."""
# TS6:
# <- :70MAAAAAC INVITE 0ALAAAAAA #blah 12345
# P10:
# <- ABAAA I PyLink-devel #services 1460948992
# Note that the target is a nickname, not a numeric.
target = self._get_UID(args[0])
channel = args[1]
curtime = int(time.time())
try:
ts = int(args[2])
except IndexError:
ts = curtime
ts = ts or curtime # Treat 0 timestamps (e.g. inspircd) as the current time.
return {'target': target, 'channel': channel, 'ts': ts}
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def handle_kick(self, source, command, args):
"""Handles incoming KICKs."""
# :70MAAAAAA KICK #test 70MAAAAAA :some reason
channel = args[0]
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kicked = self._get_UID(args[1])
try:
reason = args[2]
except IndexError:
reason = ''
log.debug('(%s) Removing kick target %s from %s', self.name, kicked, channel)
self.handle_part(kicked, 'KICK', [channel, reason])
return {'channel': channel, 'target': kicked, 'text': reason}
def handle_kill(self, source, command, args):
"""Handles incoming KILLs."""
killed = self._get_UID(args[0])
# Depending on whether the IRCd sends explicit QUIT messages for
# killed clients, the user may or may not have automatically been
# removed from our user list.
# If not, we have to assume that KILL = QUIT and remove them
# ourselves.
data = self.users.get(killed)
if data:
self._remove_client(killed)
# TS6-style kills look something like this:
# <- :GL KILL 38QAAAAAA :hidden-1C620195!GL (test)
# What we actually want is to format a pretty kill message, in the form
# "Killed (killername (reason))".
if '!' in args[1].split(" ", 1)[0]:
try:
# Get the nick or server name of the caller.
killer = self.get_friendly_name(source)
except KeyError:
# Killer was... neither? We must have aliens or something. Fallback
# to the given "UID".
killer = source
# Get the reason, which is enclosed in brackets.
killmsg = ' '.join(args[1].split(" ")[1:])[1:-1]
if not killmsg:
log.warning('(%s) Failed to extract kill reason: %r', irc.name, args)
killmsg = '<No reason given>'
else:
# We already have a preformatted kill, so just pass it on as is.
# XXX: this does create a convoluted kill string if we want to forward kills
# over relay.
# InspIRCd:
# <- :1MLAAAAA1 KILL 0ALAAAAAC :Killed (GL (test))
# ngIRCd:
# <- :GL KILL PyLink-devel :KILLed by GL: ?
killmsg = args[1]
return {'target': killed, 'text': killmsg, 'userdata': data}
def _check_cloak_change(self, uid):
return
def _check_umode_away_change(self, uid):
# Handle away status changes based on umode +a
awaymode = self.umodes.get('away')
if uid in self.users and awaymode:
u = self.users[uid]
old_away_status = u.away
# Check whether the user is marked away, and send a hook update only if the status has changed.
away_status = (awaymode, None) in u.modes
if away_status != bool(old_away_status):
# This sets a dummy away reason of "Away" because no actual text is provided.
self.call_hooks([uid, 'AWAY', {'text': 'Away' if away_status else ''}])
def _check_oper_status_change(self, uid, modes):
if uid in self.users:
u = self.users[uid]
if 'servprotect' in self.umodes and (self.umodes['servprotect'], None) in u.modes:
opertype = 'Network Service'
elif 'netadmin' in self.umodes and (self.umodes['netadmin'], None) in u.modes:
opertype = 'Network Administrator'
elif 'admin' in self.umodes and (self.umodes['admin'], None) in u.modes:
opertype = 'Server Administrator'
else:
opertype = 'IRC Operator'
if ('+o', None) in modes:
self.call_hooks([uid, 'CLIENT_OPERED', {'text': opertype}])
def handle_mode(self, source, command, args):
"""Handles mode changes."""
# InspIRCd:
# <- :70MAAAAAA MODE 70MAAAAAA -i+xc
# P10:
# <- ABAAA M GL -w
# <- ABAAA M #test +v ABAAB 1460747615
# <- ABAAA OM #test +h ABAAA
target = self._get_UID(args[0])
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if self.is_channel(target):
channeldata = self._channels[target].deepcopy()
else:
channeldata = None
modestrings = args[1:]
changedmodes = self.parse_modes(target, modestrings)
self.apply_modes(target, changedmodes)
if target in self.users:
# Target was a user. Check for any cloak and away status changes.
self._check_cloak_change(target)
self._check_umode_away_change(target)
self._check_oper_status_change(target, changedmodes)
return {'target': target, 'modes': changedmodes, 'channeldata': channeldata}
def handle_part(self, source, command, args):
"""Handles incoming PART commands."""
channels = args[0].split(',')
for channel in channels.copy():
if channel not in self._channels or source not in self._channels[channel].users:
# Ignore channels the user isn't on, and remove them from any hook payloads.
channels.remove(channel)
self._channels[channel].remove_user(source)
try:
self.users[source].channels.discard(channel)
except KeyError:
log.debug("(%s) handle_part: KeyError trying to remove %r from %r's channel list?", self.name, channel, source)
try:
reason = args[1]
except IndexError:
reason = ''
if channels:
return {'channels': channels, 'text': reason}
def handle_privmsg(self, source, command, args):
"""Handles incoming PRIVMSG/NOTICE."""
# TS6:
# <- :70MAAAAAA PRIVMSG #dev :afasfsa
# <- :70MAAAAAA NOTICE 0ALAAAAAA :afasfsa
# P10:
# <- ABAAA P AyAAA :privmsg text
# <- ABAAA O AyAAA :notice text
raw_target = args[0]
server_check = None
if '@' in raw_target and not self.is_channel(raw_target.lstrip(''.join(self.prefixmodes.values()))):
log.debug('(%s) Processing user@server message with target %s',
self.name, raw_target)
raw_target, server_check = raw_target.split('@', 1)
if not self.is_server_name(server_check):
log.warning('(%s) Got user@server message with invalid server '
'name %r (full target: %r)', self.name, server_check,
args[0])
return
target = self._get_UID(raw_target)
if server_check is not None:
not_found = False
if target not in self.users:
# Most IRCds don't check locally if the target nick actually exists.
# If it doesn't, send an error back.
not_found = True
else:
# I guess we can technically leave this up to the IRCd to do the right
# checks here, but maybe that ruins the point of this 'security feature'
# in the first place.
log.debug('(%s) Checking if target %s/%s exists on server %s',
self.name, target, raw_target, server_check)
sid = self._get_SID(server_check)
if not sid:
log.debug('(%s) Failed user@server server check: %s does not exist.',
self.name, server_check)
not_found = True
elif sid != self.get_server(target):
log.debug("(%s) Got user@server message for %s/%s, but they "
"aren't on the server %s/%s. (full target: %r)",
self.name, target, raw_target, server_check, sid,
args[0])
not_found = True
if not_found:
self.numeric(self.sid, 401, source, '%s :No such nick' %
args[0])
return
# Coerse =#channel from Charybdis op moderated +z to @#channel.
if target.startswith('='):
target = '@' + target[1:]
return {'target': target, 'text': args[1]}
handle_notice = handle_privmsg
def handle_quit(self, numeric, command, args):
"""Handles incoming QUIT commands."""
# TS6:
# <- :1SRAAGB4T QUIT :Quit: quit message goes here
# P10:
# <- ABAAB Q :Killed (GL_ (bangbang))
self._remove_client(numeric)
return {'text': args[0]}
def handle_stats(self, numeric, command, args):
"""Handles the IRC STATS command."""
# IRCds are mostly consistent with this syntax, with the caller being the source,
# the stats type as arg 0, and the target server (SID or hostname) as arg 1
# <- :42XAAAAAB STATS c :7PY
return {'stats_type': args[0], 'target': self._get_SID(args[1])}
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def handle_topic(self, numeric, command, args):
"""Handles incoming TOPIC changes from clients."""
# <- :70MAAAAAA TOPIC #test :test
channel = args[0]
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topic = args[1]
oldtopic = self._channels[channel].topic
self._channels[channel].topic = topic
self._channels[channel].topicset = True
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return {'channel': channel, 'setter': numeric, 'text': topic,
'oldtopic': oldtopic}
def handle_time(self, numeric, command, args):
"""Handles incoming /TIME requests."""
return {'target': args[0]}
def handle_whois(self, numeric, command, args):
"""Handles incoming WHOIS commands.."""
# TS6:
# <- :42XAAAAAB WHOIS 5PYAAAAAA :pylink-devel
# P10:
# <- ABAAA W Ay :PyLink-devel
# First argument is the server that should reply to the WHOIS request
# or the server hosting the UID given. We can safely assume that any
# WHOIS commands received are for us, since we don't host any real servers
# to route it to.
return {'target': self._get_UID(args[-1])}
def handle_version(self, numeric, command, args):
"""Handles requests for the PyLink server version."""
return {} # See coremods/handlers.py for how this hook is used