3
0
mirror of https://github.com/jlu5/PyLink.git synced 2024-12-29 14:12:39 +01:00
PyLink/protocols/clientbot.py
2019-11-29 23:51:57 -08:00

1231 lines
54 KiB
Python

"""
clientbot.py: Clientbot (regular IRC bot) protocol module for PyLink.
"""
# Here be dragons. There are lots of hacks and stubs in this module to recreate the same sort of state
# that a regular server would have (e.g. spawning virtual users for things like Relay). Somehow it
# works on most networks though!
import base64
import threading
import time
from pylinkirc import conf, utils
from pylinkirc.classes import *
from pylinkirc.log import log
from pylinkirc.protocols.ircs2s_common import *
FALLBACK_REALNAME = 'PyLink Relay Mirror Client'
# IRCv3 capabilities to request when available
IRCV3_CAPABILITIES = {'multi-prefix', 'sasl', 'away-notify', 'userhost-in-names', 'chghost', 'account-notify',
'account-tag', 'extended-join'}
class ClientbotBaseProtocol(PyLinkNetworkCoreWithUtils):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.protocol_caps |= {'visible-state-only', 'slash-in-nicks', 'slash-in-hosts', 'underscore-in-hosts',
'freeform-nicks'}
# Remove conf key checks for those not needed for Clientbot.
self.conf_keys -= {'recvpass', 'sendpass', 'sid', 'sidrange', 'hostname'}
def _get_UID(self, nick, ident=None, host=None, spawn_new=False):
"""
Fetches the UID for the given nick, creating one if it does not already exist and spawn_new is True.
To prevent message spoofing, this will only return an external (non-PyLink) client or the PyLink bot itself.
"""
#log.debug('(%s) _get_UID: searching for nick %s', self.name, nick, stack_info=True)
idsource = self.nick_to_uid(nick, filterfunc=lambda uid: uid == self.pseudoclient.uid or not self.is_internal_client(uid))
if idsource is None and spawn_new:
# If this sender doesn't already exist, spawn a new client.
idsource = self.spawn_client(nick, ident or 'unknown', host or 'unknown',
server=self.uplink, realname=FALLBACK_REALNAME).uid
return idsource or nick # Return input if missing per upstream spec
def away(self, source, text):
"""STUB: sets away messages for internal clients."""
log.debug('(%s) away: target is %s, internal client? %s', self.name, source, self.is_internal_client(source))
if self.users[source].away != text:
if not self.is_internal_client(source):
log.debug('(%s) away: sending AWAY hook from %s with text %r', self.name, source, text)
self.call_hooks([source, 'AWAY', {'text': text}])
self.users[source].away = text
def join(self, client, channel):
"""STUB: sends a virtual join (CLIENTBOT_JOIN) from the client to channel."""
self._channels[channel].users.add(client)
self.users[client].channels.add(channel)
if self.pseudoclient and client != self.pseudoclient:
log.debug('(%s) join: faking JOIN of client %s/%s to %s', self.name, client,
self.get_friendly_name(client), channel)
self.call_hooks([client, 'CLIENTBOT_JOIN', {'channel': channel}])
def kick(self, source, channel, target, reason=''):
"""STUB: rejoins users on kick attempts, for server transports where kicking users from channels is not implemented."""
if not self.is_internal_client(target):
log.info("(%s) Rejoining user %s to %s since kicks are not supported here.", self.name, target, channel)
self.join(target, channel)
self.call_hooks([None, 'JOIN', {'channel': channel, 'users': [target], 'modes': []}])
elif channel in self.channels:
self.channels[channel].remove_user(target)
self.users[target].channels.discard(channel)
self.call_hooks([source, 'CLIENTBOT_KICK', {'channel': channel, 'target': target, 'text': reason}])
else:
log.warning('(%s) Possible desync? Tried to kick() on non-existent channel %s', self.name, channel)
def message(self, source, target, text, notice=False):
"""STUB: Sends messages to the target."""
if self.pseudoclient and self.pseudoclient.uid != source:
self.call_hooks([source, 'CLIENTBOT_MESSAGE', {'target': target, 'is_notice': notice, 'text': text}])
def nick(self, source, newnick):
"""STUB: sends a virtual nick change (CLIENTBOT_NICK)."""
assert source, "No source given?"
self.call_hooks([source, 'CLIENTBOT_NICK', {'newnick': newnick}])
self.users[source].nick = newnick
def notice(self, source, target, text):
"""Sends notices to the target."""
# Wrap around message(), which does all the text formatting for us.
self.message(source, target, text, notice=True)
def sjoin(self, server, channel, users, ts=None, modes=set()):
"""STUB: bursts joins from a server."""
# This stub only updates the state internally with the users given. modes and TS are currently ignored.
puids = {u[-1] for u in users}
for user in puids:
self.users[user].channels.add(channel)
self._channels[channel].users |= puids
nicks = {self.get_friendly_name(u) for u in puids}
self.call_hooks([server, 'CLIENTBOT_SJOIN', {'channel': channel, 'nicks': nicks}])
# Note: clientbot clients are initialized with umode +i by default
def spawn_client(self, nick, ident='unknown', host='unknown.host', realhost=None, modes={('i', None)},
server=None, ip='0.0.0.0', realname='', ts=None, opertype=None,
manipulatable=False):
"""
STUB: Pretends to spawn a new client with a subset of the given options.
"""
server = server or self.sid
uid = self.uidgen.next_uid(prefix=nick)
ts = ts or int(time.time())
log.debug('(%s) spawn_client stub called, saving nick %s as PUID %s', self.name, nick, uid)
u = self.users[uid] = User(self, nick, ts, uid, server, ident=ident, host=host, realname=realname,
manipulatable=manipulatable, realhost=realhost, ip=ip)
self.servers[server].users.add(uid)
self.apply_modes(uid, modes)
return u
def spawn_server(self, name, sid=None, uplink=None, desc=None, internal=True):
"""
STUB: Pretends to spawn a new server with a subset of the given options.
"""
if internal:
# Use a custom pseudo-SID format for internal servers to prevent any server name clashes
sid = self.sidgen.next_sid(prefix=name)
else:
# For others servers, just use the server name as the SID.
sid = name
self.servers[sid] = Server(self, uplink, name, internal=internal)
return sid
def squit(self, source, target, text):
"""STUB: SQUITs a server."""
# What this actually does is just handle the SQUIT internally: i.e.
# Removing pseudoclients and pseudoservers.
squit_data = self._squit(source, 'CLIENTBOT_VIRTUAL_SQUIT', [target, text])
if squit_data and squit_data.get('nicks'):
self.call_hooks([source, 'CLIENTBOT_SQUIT', squit_data])
def part(self, source, channel, reason=''):
"""STUB: Parts a user from a channel."""
if self.pseudoclient and source == self.pseudoclient.uid:
raise NotImplementedError("Explicitly leaving channels is not supported here.")
self._channels[channel].remove_user(source)
self.users[source].channels.discard(channel)
self.call_hooks([source, 'CLIENTBOT_PART', {'channel': channel, 'text': reason}])
def quit(self, source, reason):
"""STUB: Quits a client."""
userdata = self._remove_client(source)
self.call_hooks([source, 'CLIENTBOT_QUIT', {'text': reason, 'userdata': userdata}])
def _stub(self, *args):
"""Stub outgoing command function (does nothing)."""
return
# Note: invite() and mode() are implemented in ClientbotWrapperProtocol below
invite = mode = topic = topic_burst = _stub # XXX: incomplete
def _stub_raise(self, *args):
"""Stub outgoing command function (raises an error)."""
raise NotImplementedError("Not supported on Clientbot")
kill = knock = numeric = _stub_raise
def update_client(self, target, field, text):
"""Updates the known ident, host, or realname of a client."""
# Note: unlike other protocol modules, this function is also called as a helper to
# update data for external clients.
# Following this, we only want to send hook payloads if the target is an external client.
if target not in self.users:
log.warning("(%s) Unknown target %s for update_client()", self.name, target)
return
u = self.users[target]
if field == 'IDENT' and u.ident != text:
u.ident = text
if not self.is_internal_client(target):
self.call_hooks([self.sid, 'CHGIDENT',
{'target': target, 'newident': text}])
elif field == 'HOST' and u.host != text:
u.host = text
if not self.is_internal_client(target):
self.call_hooks([self.sid, 'CHGHOST',
{'target': target, 'newhost': text}])
elif field in ('REALNAME', 'GECOS') and u.realname != text:
u.realname = text
if not self.is_internal_client(target):
self.call_hooks([self.sid, 'CHGNAME',
{'target': target, 'newgecos': text}])
else:
return # Nothing changed
class ClientbotWrapperProtocol(ClientbotBaseProtocol, IRCCommonProtocol):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.protocol_caps |= {'ssl-should-verify'}
self.has_eob = False
# This is just a fallback. Actual casemapping is fetched by handle_005()
self.casemapping = 'ascii'
self._caps = {}
self.ircv3_caps = set()
self.ircv3_caps_available = {}
# Tracks the users sent in a list of /who replies, so that users can be bursted all at once
# when ENDOFWHO is received.
self.who_received = set()
# This stores channel->Timer object mappings for users that we're waiting for a kick
# acknowledgement for. The timer is set to send a NAMES request to the uplink to prevent
# things like failed KICK attempts from desyncing plugins like relay.
self.kick_queue = {}
# Aliases: 463 (ERR_NOPERMFORHOST), 464 (ERR_PASSWDMISMATCH), and 465 (ERR_YOUREBANNEDCREEP)
# are essentially all fatal errors for connections.
self.handle_463 = self.handle_464 = self.handle_465 = self.handle_error
self._use_builtin_005_handling = True
self._nick_fails = 0
self.hook_map = {'ACCOUNT': 'CLIENT_SERVICES_LOGIN'}
def post_connect(self):
"""Initializes a connection to a server."""
# (Re)initialize counter-based pseudo UID generators
super().post_connect()
self.uidgen = PUIDGenerator('PUID')
self.sidgen = PUIDGenerator('ClientbotInternalSID')
self.has_eob = False
ts = self.start_ts
f = lambda text: self.send(text, queue=False)
# Enumerate our own server
self.sid = self.sidgen.next_sid()
# Clear states from last connect
self.who_received.clear()
self.kick_queue.clear()
self._caps.clear()
self.ircv3_caps.clear()
self.ircv3_caps_available.clear()
sendpass = self.serverdata.get("sendpass")
if sendpass:
f('PASS %s' % sendpass)
f('CAP LS 302')
# Start a timer to call CAP END if registration freezes (e.g. if AUTHENTICATE for SASL is
# never replied to).
def _do_cap_end_wrapper():
log.info('(%s) Skipping SASL due to timeout; are the IRCd and services configured '
'properly?', self.name)
self._do_cap_end()
self._cap_timer = threading.Timer(self.serverdata.get('sasl_timeout') or 15, _do_cap_end_wrapper)
self._cap_timer.start()
# Log in to IRC and set our irc.pseudoclient object.
sbot = world.services['pylink']
self._nick_fails = 0
nick = sbot.get_nick(self)
ident = sbot.get_ident(self)
realname = sbot.get_realname(self)
f('NICK %s' % nick)
f('USER %s 8 * :%s' % (ident, realname))
self.pseudoclient = User(self, nick, int(time.time()),
self.uidgen.next_uid(prefix='@ClientbotInternal'), self.sid,
ident=ident, realname=realname, host=self.hostname())
self.users[self.pseudoclient.uid] = self.pseudoclient
def invite(self, client, target, channel):
"""Invites a user to a channel."""
self.send('INVITE %s %s' % (self.get_friendly_name(target), channel))
def join(self, client, channel):
"""STUB: Joins a user to a channel."""
# Only joins for the main PyLink client are actually forwarded. Others are ignored.
# Note: we do not automatically add our main client to the channel state, as we
# rely on the /NAMES reply to sync it up properly.
if self.pseudoclient and client == self.pseudoclient.uid:
self.send('JOIN %s' % channel)
else:
# Pass on a virtual JOIN as a hook
super().join(client, channel)
def kick(self, source, channel, target, reason=''):
"""Sends channel kicks."""
log.debug('(%s) kick: checking if target %s (nick: %s) is an internal client? %s',
self.name, target, self.get_friendly_name(target),
self.is_internal_client(target))
if self.is_internal_client(target) and (self.pseudoclient and source != self.pseudoclient.uid):
# Target was one of our virtual clients. Just remove them from the state.
self.handle_part(target, 'KICK', [channel, reason])
# Send a KICK hook for message formatting.
self.call_hooks([source, 'CLIENTBOT_KICK', {'channel': channel, 'target': target, 'text': reason}])
return
self.send('KICK %s %s :<%s> %s' % (channel, self._expandPUID(target),
self.get_friendly_name(source), reason))
# Don't update our state here: wait for the IRCd to send an acknowledgement instead.
# There is essentially a 3 second wait to do this, as we send NAMES with a delay
# to resync any users lost due to kicks being blocked, etc.
if (channel not in self.kick_queue) or (not self.kick_queue[channel][1].is_alive()):
# However, only do this if there isn't a NAMES request scheduled already.
t = threading.Timer(3, lambda: self.send('NAMES %s' % channel))
log.debug('(%s) kick: setting NAMES timer for %s on %s', self.name, target, channel)
# Store the channel, target UID, and timer object in the internal kick queue.
self.kick_queue[channel] = ({target}, t)
t.start()
else:
log.debug('(%s) kick: adding %s to kick queue for channel %s', self.name, target, channel)
self.kick_queue[channel][0].add(target)
def message(self, source, target, text, notice=False):
"""Sends messages to the target."""
command = 'NOTICE' if notice else 'PRIVMSG'
if self.pseudoclient and self.pseudoclient.uid == source:
self.send('%s %s :%s' % (command, self._expandPUID(target), text))
else:
# Pass the message on as a hook
super().message(source, target, text, notice=notice)
def mode(self, source, channel, modes, ts=None):
"""Sends channel MODE changes."""
if self.is_channel(channel):
extmodes = []
# Re-parse all channel modes locally to eliminate anything invalid, such as unbanning
# things that were never banned. This prevents the bot from getting caught in a loop
# with IRCd MODE acknowledgements.
# FIXME: More related safety checks should be added for this.
log.debug('(%s) mode: re-parsing modes %s', self.name, modes)
joined_modes = self.join_modes(modes)
for modepair in self.parse_modes(channel, joined_modes):
log.debug('(%s) mode: checking if %s a prefix mode: %s', self.name, modepair, self.prefixmodes)
if modepair[0][-1] in self.prefixmodes:
if self.is_internal_client(modepair[1]):
# Ignore prefix modes for virtual internal clients.
log.debug('(%s) mode: skipping virtual client prefixmode change %s', self.name, modepair)
continue
else:
# For other clients, change the mode argument to nick instead of PUID.
nick = self.get_friendly_name(modepair[1])
log.debug('(%s) mode: coersing mode %s argument to %s', self.name, modepair, nick)
modepair = (modepair[0], nick)
extmodes.append(modepair)
log.debug('(%s) mode: filtered modes for %s: %s', self.name, channel, extmodes)
if extmodes:
bufsize = self.S2S_BUFSIZE - len(':%s MODE %s ' % (self.get_hostmask(self.pseudoclient.uid), channel))
for msg in self.wrap_modes(extmodes, bufsize, max_modes_per_msg=int(self._caps.get('MODES') or 0)):
self.send('MODE %s %s' % (channel, msg))
# Don't update the state here: the IRCd sill respond with a MODE reply if successful.
def nick(self, source, newnick):
"""STUB: Sends NICK changes."""
if self.pseudoclient and source == self.pseudoclient.uid:
self.send('NICK :%s' % newnick)
# No state update here: the IRCd will respond with a NICK acknowledgement if the change succeeds.
else:
super().nick(source, newnick)
def _ping_uplink(self):
"""
Sends a PING to the uplink.
"""
if self.uplink:
self.send('PING %s' % self.get_friendly_name(self.uplink))
# Poll WHO periodically to figure out any ident/host/away status changes.
for channel in self.pseudoclient.channels:
self._send_who(channel)
# Join persistent channels if always_autorejoin is enabled and there are any we're not in
if self.serverdata.get('always_autorejoin') and self.has_cap('can-manage-bot-channels'):
for channel in world.services['pylink'].get_persistent_channels(self):
if channel not in self.pseudoclient.channels:
log.info('(%s) Attempting to rejoin %s', self.name, channel)
self.join(self.pseudoclient.uid, channel)
def part(self, source, channel, reason=''):
"""STUB: Parts a user from a channel."""
self._channels[channel].remove_user(source)
self.users[source].channels.discard(channel)
# Only parts for the main PyLink client are actually forwarded. Others are ignored.
if self.pseudoclient and source == self.pseudoclient.uid:
self._channels[channel]._clientbot_part_requested = True
self.send('PART %s :%s' % (channel, reason))
else:
super().part(source, channel, reason=reason)
def sjoin(self, server, channel, users, ts=None, modes=set()):
"""STUB: bursts joins from a server."""
# This stub only updates the state internally with the users
# given. modes and TS are currently ignored.
puids = {u[-1] for u in users}
for user in puids:
if self.pseudoclient and self.pseudoclient.uid == user:
# If the SJOIN affects our main client, forward it as a regular JOIN.
self.join(user, channel)
else:
# Otherwise, track the state for our virtual clients.
self.users[user].channels.add(channel)
self._channels[channel].users |= puids
nicks = {self.get_friendly_name(u) for u in puids}
self.call_hooks([server, 'CLIENTBOT_SJOIN', {'channel': channel, 'nicks': nicks}])
def _set_account_name(self, uid, account):
"""
Updates the user's account metadata.
"""
if account is None: # Ignore when account=None
return
elif account in ('*', '0'): # No account
account = ''
if account != self.users[uid].services_account:
self.call_hooks([uid, 'CLIENT_SERVICES_LOGIN', {'text': account}])
def handle_events(self, data):
"""Event handler for the RFC1459/2812 (clientbot) protocol."""
data = data.split(" ")
tags = self.parse_message_tags(data)
if tags:
# If we have tags, split off the first argument.
data = data[1:]
try:
args = self.parse_prefixed_args(data)
sender = args[0]
command = args[1]
args = args[2:]
except IndexError:
# Raw command without an explicit sender; assume it's being sent by our uplink.
args = self.parse_args(data)
idsource = sender = self.uplink
command = args[0]
args = args[1:]
else:
# PyLink as a services framework expects UIDs and SIDs for everything. Since we connect
# as a bot here, there's no explicit user introduction, so we're going to generate
# pseudo-uids and pseudo-sids as we see prefixes.
if ('!' not in sender) and '.' in sender:
# Sender is a server name. XXX: make this check more foolproof
assert '@' not in sender, "Incoming server name %r clashes with a PUID!" % sender
if sender not in self.servers:
self.spawn_server(sender, internal=False)
idsource = sender
else:
# Sender is a either a nick or a nick!user@host prefix. Split it into its relevant parts.
try:
nick, ident, host = utils.split_hostmask(sender)
except ValueError:
ident = host = None # Set ident and host as null for now.
nick = sender # Treat the sender prefix we received as a nick.
idsource = self._get_UID(nick, ident, host, spawn_new=True)
if idsource in self.users:
# Handle IRCv3.2 account-tag.
self._set_account_name(idsource, tags.get('account'))
try:
func = getattr(self, 'handle_'+command.lower())
except AttributeError: # unhandled command
pass
else:
parsed_args = func(idsource, command, args)
if parsed_args is not None:
parsed_args['tags'] = tags # Add message tags to this dict.
return [idsource, command, parsed_args]
def _do_cap_end(self):
"""
Abort SASL login by sending CAP END.
"""
self.send('CAP END')
log.debug("(%s) Stopping CAP END timer.", self.name)
self._cap_timer.cancel()
def _try_sasl_auth(self):
"""
Starts an authentication attempt via SASL. This returns True if SASL
is enabled and correctly configured, and False otherwise.
"""
if 'sasl' not in self.ircv3_caps:
log.info("(%s) Skipping SASL auth since the IRCd doesn't support it.", self.name)
return
sasl_mech = self.serverdata.get('sasl_mechanism')
if sasl_mech:
sasl_mech = sasl_mech.upper()
sasl_user = self.serverdata.get('sasl_username')
sasl_pass = self.serverdata.get('sasl_password')
ssl_cert = self.serverdata.get('ssl_certfile')
ssl_key = self.serverdata.get('ssl_keyfile')
ssl = self.serverdata.get('ssl')
if sasl_mech == 'PLAIN':
if not (sasl_user and sasl_pass):
log.warning("(%s) Not attempting PLAIN authentication; sasl_username and/or "
"sasl_password aren't correctly set.", self.name)
return False
elif sasl_mech == 'EXTERNAL':
if not ssl:
log.warning("(%s) Not attempting EXTERNAL authentication; SASL external requires "
"SSL, but it isn't enabled.", self.name)
return False
elif not (ssl_cert and ssl_key):
log.warning("(%s) Not attempting EXTERNAL authentication; ssl_certfile and/or "
"ssl_keyfile aren't correctly set.", self.name)
return False
else:
log.warning('(%s) Unsupported SASL mechanism %s; aborting SASL.', self.name, sasl_mech)
return False
self.send('AUTHENTICATE %s' % sasl_mech, queue=False)
return True
return False
def _send_auth_chunk(self, data):
"""Send Base64 encoded SASL authentication chunks."""
enc_data = base64.b64encode(data).decode()
self.send('AUTHENTICATE %s' % enc_data, queue=False)
def handle_authenticate(self, source, command, args):
"""
Handles AUTHENTICATE, or SASL authentication requests from the server.
"""
# Client: AUTHENTICATE PLAIN
# Server: AUTHENTICATE +
# Client: AUTHENTICATE ...
if not args:
return
if args[0] == '+':
sasl_mech = self.serverdata['sasl_mechanism'].upper()
if sasl_mech == 'PLAIN':
sasl_user = self.serverdata['sasl_username']
sasl_pass = self.serverdata['sasl_password']
authstring = '%s\0%s\0%s' % (sasl_user, sasl_user, sasl_pass)
self._send_auth_chunk(authstring.encode('utf-8'))
elif sasl_mech == 'EXTERNAL':
self.send('AUTHENTICATE +')
def handle_900(self, source, command, args):
"""
Handles SASL RPL_LOGGEDIN numerics.
"""
# <- :charybdis.midnight.vpn 900 ice ice!pylink@localhost ice :You are now logged in as ice
# <- :server 900 <nick> <nick>!<ident>@<host> <account> :You are now logged in as <user>
self.pseudoclient.services_account = args[2]
log.info('(%s) SASL authentication successful: now logged in as %s', self.name, args[2])
# Note: we don't send a hook here yet; is doing so for the bot this early in login
# really necessary?
def handle_904(self, source, command, args):
"""
Handles SASL authentication status reports.
"""
# <- :charybdis.midnight.vpn 903 ice :SASL authentication successful
logfunc = log.debug if command == '903' else log.warning
logfunc('(%s) %s', self.name, args[-1])
if not self.has_eob:
# End the pre-login CAP stuff regardless of whether SASL was successful.
self._do_cap_end()
handle_903 = handle_902 = handle_905 = handle_906 = handle_907 = handle_904
def _request_ircv3_caps(self):
# Filter the capabilities we want by the ones actually supported by the server.
available_caps = {cap for cap in IRCV3_CAPABILITIES if cap in self.ircv3_caps_available}
# And by the ones we don't already have.
caps_wanted = available_caps - self.ircv3_caps
log.debug('(%s) Requesting IRCv3 capabilities %s (available: %s)', self.name, caps_wanted, available_caps)
if caps_wanted:
self.send('CAP REQ :%s' % ' '.join(caps_wanted), queue=False)
def handle_cap(self, source, command, args):
"""
Handles IRCv3 capabilities transmission.
"""
subcmd = args[1]
if subcmd == 'LS':
# Server: CAP * LS * :multi-prefix extended-join account-notify batch invite-notify tls
# Server: CAP * LS * :cap-notify server-time example.org/dummy-cap=dummyvalue example.org/second-dummy-cap
# Server: CAP * LS :userhost-in-names sasl=EXTERNAL,DH-AES,DH-BLOWFISH,ECDSA-NIST256P-CHALLENGE,PLAIN
log.debug('(%s) Got new capabilities %s', self.name, args[-1])
self.ircv3_caps_available.update(self.parse_isupport(args[-1], None))
if args[2] != '*':
self._request_ircv3_caps()
elif subcmd == 'ACK':
# Server: CAP * ACK :multi-prefix sasl
newcaps = set(args[-1].split())
log.debug('(%s) Received ACK for IRCv3 capabilities %s', self.name, newcaps)
self.ircv3_caps |= newcaps
# Only send CAP END immediately if SASL is disabled. Otherwise, wait for the 90x responses
# to do so.
if not self._try_sasl_auth():
if not self.has_eob:
self._do_cap_end()
elif subcmd == 'NAK':
log.warning('(%s) Got NAK for IRCv3 capabilities %s, even though they were supposedly available',
self.name, args[-1])
if not self.has_eob:
self._do_cap_end()
elif subcmd == 'NEW':
# :irc.example.com CAP modernclient NEW :batch
# :irc.example.com CAP tester NEW :away-notify extended-join
# Note: CAP NEW allows capabilities with values (e.g. sasl=mech1,mech2), while CAP DEL
# does not.
log.debug('(%s) Got new capabilities %s', self.name, args[-1])
newcaps = self.parse_isupport(args[-1], None)
self.ircv3_caps_available.update(newcaps)
self._request_ircv3_caps()
# Attempt SASL auth routines when sasl is added/removed, if doing so is enabled.
if 'sasl' in newcaps and self.serverdata.get('sasl_reauth'):
log.debug('(%s) Attempting SASL reauth due to CAP NEW', self.name)
self._try_sasl_auth()
elif subcmd == 'DEL':
# :irc.example.com CAP modernclient DEL :userhost-in-names multi-prefix away-notify
log.debug('(%s) Removing capabilities %s', self.name, args[-1])
for cap in args[-1].split():
# Remove the capabilities from the list available, and return None (ignore) if any fail
self.ircv3_caps_available.pop(cap, None)
self.ircv3_caps.discard(cap)
def handle_001(self, source, command, args):
"""
Handles 001 / RPL_WELCOME.
"""
# enumerate our uplink
self.uplink = source
def handle_376(self, source, command, args):
"""
Handles end of MOTD numerics, used to start things like autoperform.
"""
# Run autoperform commands.
for line in self.serverdata.get("autoperform", []):
# Expand substitutions like $nick, $ident, $host
tmpl = string.Template(line)
args = self.pseudoclient.get_fields()
log.debug('(%s) handle_376: bot user fields are %s', self.name, args)
line = tmpl.safe_substitute(**args)
self.send(line)
# Virtual endburst hook.
self.connected.set() # Note, this should always be set before the actual ENDBURST hook
self.servers[source].has_eob = True
return {'parse_as': 'ENDBURST'}
handle_422 = handle_376
def handle_353(self, source, command, args):
"""
Handles 353 / RPL_NAMREPLY.
"""
# <- :charybdis.midnight.vpn 353 ice = #test :ice @GL
# Mark "@"-type channels as secret automatically, per RFC2812.
channel = args[2]
if args[1] == '@':
self.apply_modes(channel, [('+s', None)])
names = set()
modes = set()
prefix_to_mode = {v:k for k, v in self.prefixmodes.items()}
prefixes = ''.join(self.prefixmodes.values())
# N.B. only split on spaces because of color in hosts nonsense...
# str.split() by default treats \x1f as whitespace
for name in args[-1].strip().split(' '):
nick = name.lstrip(prefixes)
# Handle userhost-in-names where available.
ident = host = None
if 'userhost-in-names' in self.ircv3_caps:
try:
nick, ident, host = utils.split_hostmask(nick)
except ValueError:
log.exception('(%s) Failed to split hostmask %r from /names reply on %s; args=%s', self.name, nick, channel, args)
# If error, leave nick unsplit
if not nick:
continue
# Get the PUID for the given nick. If one doesn't exist, spawn
# a new virtual user.
idsource = self._get_UID(nick, ident=ident, host=host, spawn_new=True)
# Queue these virtual users to be joined if they're not already in the channel,
# or we're waiting for a kick acknowledgment for them.
if (idsource not in self._channels[channel].users) or (idsource in \
self.kick_queue.get(channel, ([],))[0]):
names.add(idsource)
self.users[idsource].channels.add(channel)
if host:
self.users[idsource]._clientbot_identhost_received = True
# Process prefix modes
for char in name:
if char in self.prefixmodes.values():
modes.add(('+' + prefix_to_mode[char], idsource))
else:
break
# Statekeeping: make sure the channel's user list is updated!
self._channels[channel].users |= names
self.apply_modes(channel, modes)
log.debug('(%s) handle_353: adding users %s to %s', self.name, names, channel)
log.debug('(%s) handle_353: adding modes %s to %s', self.name, modes, channel)
# Send JOIN hook payloads only for users that we know the ident@host of already.
# This is mostly used to resync kicked Clientbot users that can't actually be kicked
# after a delay.
if names and hasattr(self.irc.channels[channel], '_clientbot_initial_who_received'):
log.debug('(%s) handle_353: sending JOIN hook because /WHO was already received for %s',
self.irc.name, channel)
return {'channel': channel, 'users': names, 'modes': self._channels[channel].modes,
'parse_as': "JOIN"}
def _send_who(self, channel):
"""Sends /WHO to a channel, with WHOX args if that is supported."""
# Note: %% = escaped %
# %cuhsnfdr is the default; adding 'a' to it sends the account name.
# 'd' is omitted because we don't really care about hop count.
if 'WHOX' in self._caps:
self.send('WHO %s %%cuhsnfar' % channel)
else:
self.send('WHO %s' % channel)
def handle_352(self, source, command, args):
"""
Handles 352 / RPL_WHOREPLY.
"""
# parameter count: 0 1 2 3 4 5 6 7(-1)
# <- :charybdis.midnight.vpn 352 ice #test ~pylink 127.0.0.1 charybdis.midnight.vpn ice H+ :0 PyLink
# <- :charybdis.midnight.vpn 352 ice #test ~gl 127.0.0.1 charybdis.midnight.vpn GL H*@ :0 realname
# with WHO %cuhsnfar (WHOX) - note, hopcount and realname are separate!
# 0 1 2 3 4 5 6 7 8(-1)
# <- :charybdis.midnight.vpn 354 ice #test ~gl localhost charybdis.midnight.vpn GL H*@ GL :realname
channel = args[1]
ident = args[2]
host = args[3]
nick = args[5]
status = args[6]
# Hopcount and realname field are together in regular WHO. We only care about the latter.
realname = args[-1]
if command == '352':
realname = realname.split(' ', 1)[-1]
uid = self._get_UID(nick, spawn_new=False)
if uid is None:
log.debug("(%s) Ignoring extraneous /WHO info for %s", self.name, nick)
return
self.update_client(uid, 'IDENT', ident)
self.update_client(uid, 'HOST', host)
self.update_client(uid, 'GECOS', realname)
self.users[uid]._clientbot_identhost_received = True
# The status given uses the following letters: <H|G>[*][@|+]
# H means here (not marked /away)
# G means away is set (we'll have to fake a message because it's not given)
# * means IRCop.
# The rest are prefix modes. Multiple can be given by the IRCd if multiple are set
log.debug('(%s) handle_352: status string on user %s: %s', self.name, nick, status)
if status[0] == 'G':
if not self.users[uid].away:
# Only set away status if not previously set
log.debug('(%s) handle_352: calling away() with argument', self.name)
self.away(uid, 'Away')
elif status[0] == 'H':
if self.users[uid].away:
log.debug('(%s) handle_352: calling away() without argument', self.name)
self.away(uid, '') # Unmark away status, but only if /away was previously set
else:
log.warning('(%s) handle_352: got wrong string %s for away status', self.name, status[0])
if command == '354' and len(args) >= 9: # WHOX account
account = args[7]
log.debug('(%s) handle_354: got account %r for %s', self.name, account, uid)
self._set_account_name(uid, account)
if self.serverdata.get('track_oper_statuses'):
if '*' in status: # Track IRCop status
if not self.is_oper(uid):
# Don't send duplicate oper ups if the target is already oper.
self.apply_modes(uid, [('+o', None)])
self.call_hooks([uid, 'MODE', {'target': uid, 'modes': {('+o', None)}}])
self.call_hooks([uid, 'CLIENT_OPERED', {'text': 'IRC Operator'}])
elif self.is_oper(uid) and not self.is_internal_client(uid):
# Track deopers
self.apply_modes(uid, [('-o', None)])
self.call_hooks([uid, 'MODE', {'target': uid, 'modes': {('-o', None)}}])
self.who_received.add(uid)
handle_354 = handle_352 # 354 = RPL_WHOSPCRPL, used by WHOX
def handle_315(self, source, command, args):
"""
Handles 315 / RPL_ENDOFWHO.
"""
# <- :charybdis.midnight.vpn 315 ice #test :End of /WHO list.
# Join all the users in which the last batch of /who requests were received.
users = self.who_received.copy()
self.who_received.clear()
channel = args[1]
c = self._channels[channel]
modes = set(c.modes)
bursted_before = hasattr(c, '_clientbot_initial_who_received')
queued_users = []
for user in users.copy():
# Fill in prefix modes of everyone when doing mock SJOIN.
try:
for mode in c.get_prefix_modes(user):
modechar = self.cmodes.get(mode)
log.debug('(%s) handle_315: adding mode %s +%s %s', self.name, mode, modechar, user)
if modechar:
modes.add((modechar, user))
except KeyError as e:
log.debug("(%s) Ignoring KeyError (%s) from WHO response; it's probably someone we "
"don't share any channels with", self.name, e)
if bursted_before and user in c.users:
log.debug("(%s) Skipping join of %s/%s to %r", self.name, user,
self.get_friendly_name(user), channel)
continue
queued_users.append(user)
c._clientbot_initial_who_received = True
if queued_users:
return {'channel': channel, 'users': users, 'modes': modes,
'parse_as': "JOIN"}
def handle_433(self, source, command, args):
# <- :millennium.overdrivenetworks.com 433 * ice :Nickname is already in use.
self._nick_fails += 1
newnick = self.pseudoclient.nick = world.services['pylink'].get_nick(self, fails=self._nick_fails)
log.debug('(%s) _nick_fails = %s, trying new nick %r', self.name, self._nick_fails, newnick)
self.send('NICK %s' % newnick)
handle_432 = handle_437 = handle_433
def handle_account(self, source, command, args):
"""
Handles IRCv3 account-notify messages.
"""
# <- :nick!user@host ACCOUNT accountname
# <- :nick!user@host ACCOUNT *
self._set_account_name(source, args[0])
def handle_join(self, source, command, args):
"""
Handles incoming JOINs, as well as JOIN acknowledgements for us.
"""
# Classic format:
# <- :GL|!~GL@127.0.0.1 JOIN #whatever
# With extended-join:
# <- :GL|!~GL@127.0.0.1 JOIN #whatever accountname :realname
channel = args[0]
self._channels[channel].users.add(source)
self.users[source].channels.add(channel)
if len(args) >= 3:
self._set_account_name(source, args[1])
# Hmm, because _get_UID only looks at the sender prefix, it doesn't
# have a way to process the realname info from JOIN yet...
self.update_client(source, 'GECOS', args[2])
# Only fetch modes, TS, and user hosts once we're actually in the channel.
# The IRCd will send us a JOIN with our nick!user@host if our JOIN succeeded.
if self.pseudoclient and source == self.pseudoclient.uid:
self.send('MODE %s' % channel)
self._send_who(channel)
if self.serverdata.get('fetch_ban_lists', False):
self.send('MODE %s +b' % channel)
for m in ('banexception', 'invex'):
if m in self.cmodes:
self.send('MODE %s +%s' % (channel, self.cmodes[m]))
else:
self.call_hooks([source, 'CLIENTBOT_JOIN', {'channel': channel}])
return {'channel': channel, 'users': [source], 'modes': self._channels[channel].modes}
def handle_kick(self, source, command, args):
"""
Handles incoming KICKs.
"""
# <- :GL!~gl@127.0.0.1 KICK #whatever GL| :xd
channel = args[0]
target = self._get_UID(args[1], spawn_new=False)
try:
reason = args[2]
except IndexError:
reason = ''
if channel in self.kick_queue:
# Remove this client from the kick queue if present there.
log.debug('(%s) kick: removing %s from kick queue for channel %s', self.name, target, channel)
self.kick_queue[channel][0].discard(target)
if not self.kick_queue[channel][0]:
log.debug('(%s) kick: cancelling kick timer for channel %s (all kicks accounted for)', self.name, channel)
# There aren't any kicks that failed to be acknowledged. We can remove the timer now
self.kick_queue[channel][1].cancel()
del self.kick_queue[channel]
# Statekeeping: remove the target from the channel they were previously in.
self._channels[channel].remove_user(target)
try:
self.users[target].channels.remove(channel)
except KeyError:
pass
# Don't repeat hooks if we're the kicker, unless we're also the target.
if self.is_internal_client(source) or self.is_internal_server(source):
if self.pseudoclient and target != self.pseudoclient.uid:
return
return {'channel': channel, 'target': target, 'text': reason}
def handle_mode(self, source, command, args):
"""Handles MODE changes."""
# <- :GL!~gl@127.0.0.1 MODE #dev +v ice
# <- :ice MODE ice :+Zi
target = args[0]
if self.is_channel(target):
oldobj = self._channels[target].deepcopy()
else:
target = self._get_UID(target, spawn_new=False)
oldobj = None
modes = args[1:]
changedmodes = self.parse_modes(target, modes)
self.apply_modes(target, changedmodes)
if self.is_internal_client(target):
log.debug('(%s) Suppressing MODE change hook for internal client %s', self.name, target)
return
if changedmodes:
# Prevent infinite loops: don't send MODE hooks if the sender is US.
# Note: this is not the only check in Clientbot to prevent mode loops: if our nick
# somehow gets desynced, this may not catch everything it's supposed to.
if (self.pseudoclient and source != self.pseudoclient.uid) or not self.pseudoclient:
return {'target': target, 'modes': changedmodes, 'channeldata': oldobj}
def handle_324(self, source, command, args):
"""Handles MODE announcements via RPL_CHANNELMODEIS (i.e. the response to /mode #channel)"""
# -> MODE #test
# <- :midnight.vpn 324 GL #test +nt
# <- :midnight.vpn 329 GL #test 1491773459
channel = args[1]
modes = args[2:]
log.debug('(%s) Got RPL_CHANNELMODEIS (324) modes %s for %s', self.name, modes, channel)
# Sometimes IRCds suppress arguments to +lk, so ignore missing args
changedmodes = self.parse_modes(channel, modes, ignore_missing_args=True)
self.apply_modes(channel, changedmodes)
def handle_329(self, source, command, args):
"""Handles TS announcements via RPL_CREATIONTIME."""
channel = args[1]
ts = int(args[2])
self._channels[channel].ts = ts
def handle_chghost(self, source, command, args):
"""Handles the IRCv3 CHGHOST command."""
# <- :nick!user@host CHGHOST ident new.host
ident = self.users[source].ident
host = self.users[source].host
self.users[source].ident = newident = args[0]
self.users[source].host = newhost = args[1]
if ident != newident:
self.call_hooks([source, 'CHGIDENT',
{'target': source, 'newident': newident}])
if host != newhost:
self.call_hooks([source, 'CHGHOST',
{'target': source, 'newhost': newhost}])
def handle_nick(self, source, command, args):
"""Handles NICK changes."""
# <- :GL|!~GL@127.0.0.1 NICK :GL_
newnick = args[0]
if not self.connected.is_set():
# We haven't properly logged on yet, so any initial NICK should be treated as a forced
# nick change for us. For example, this clause is used to handle forced nick changes
# sent by ZNC, when the login nick and the actual IRC nick of the bouncer differ.
self.pseudoclient.nick = newnick
log.debug('(%s) Pre-auth FNC: Changing our nick to %s', self.name, args[0])
return
elif source == self.pseudoclient.uid:
self._nick_fails = 0 # Our last nick change succeeded.
oldnick = self.users[source].nick
self.users[source].nick = newnick
return {'newnick': newnick, 'oldnick': oldnick}
def handle_part(self, source, command, args):
"""
Handles incoming PARTs.
"""
# <- :GL|!~GL@127.0.0.1 PART #whatever
channels = args[0].split(',')
try:
reason = args[1]
except IndexError:
reason = ''
for channel in channels:
self._channels[channel].remove_user(source)
self.users[source].channels -= set(channels)
# Only send the PART hook for parts not initiated by us - this is for consistency with other
# protocols
notify_channels = []
for channel in channels:
is_part_requested = getattr(self._channels[channel], '_clientbot_part_requested', False)
if is_part_requested:
log.debug('(%s) clientbot.handle_part: not forwarding part hook for %s since we requested it', self.name, channel)
self._channels[channel]._clientbot_part_requested = False
continue
else:
notify_channels.append(channel)
if notify_channels:
log.debug('(%s) clientbot.handle_part: returning part hook for %s (original: %s)', self.name, notify_channels, channels)
return {'channels': notify_channels, 'text': reason}
def handle_ping(self, source, command, args):
"""
Handles incoming PING requests.
"""
self.send('PONG :%s' % args[0], queue=False)
def handle_privmsg(self, source, command, args):
"""Handles incoming PRIVMSG/NOTICE."""
# <- :sender PRIVMSG #dev :afasfsa
# <- :sender NOTICE somenick :afasfsa
target = args[0]
if self.is_internal_client(source) or self.is_internal_server(source):
log.warning('(%s) Received %s to %s being routed the wrong way!', self.name, command, target)
return
real_target = target.lstrip(''.join(self.prefixmodes.values()))
if not self.is_channel(real_target):
target = self._get_UID(target, spawn_new=False)
if target:
return {'target': target, 'text': args[1]}
handle_notice = handle_privmsg
def handle_quit(self, source, command, args):
"""Handles incoming QUITs."""
if self.pseudoclient and source == self.pseudoclient.uid:
# Someone faked a quit from us? We should abort.
raise ProtocolError("Received QUIT from uplink (%s)" % args[0])
elif source not in self.users:
log.debug('(%s) Ignoring QUIT on non-existent user %s', self.name, source)
return
userdata = self.users[source]
self.quit(source, args[0])
return {'text': args[0], 'userdata': userdata}
def handle_404(self, source, command, args):
"""
Handles ERR_CANNOTSENDTOCHAN and other similar numerics.
"""
# <- :some.server 404 james #test :Cannot send to channel
if len(args) >= 2 and self.is_channel(args[1]):
channel = args[1]
f = log.warning
if channel not in self.channels:
return
# Don't send the warning multiple times to prevent flood if the target
# is a log chan.
if hasattr(self.channels[channel], '_clientbot_cannot_send_warned'):
f = log.debug
f('(%s) Failed to send message to %s: %s', self.name, channel, args[-1])
self.channels[channel]._clientbot_cannot_send_warned = True
# 408: ERR_NOCOLORSONCHAN on Bahamut, ERR_NOCTRLSONCHAN on Hybrid
handle_408 = handle_404
# 492: ERR_NOCTCP on Hybrid
handle_492 = handle_404
def handle_367(self, source, command, args, banmode='b'):
"""
Handles RPL_BANLIST, used to enumerate bans.
"""
# <- :irc3.lose-the-game.nat 367 james #test *!*@1.2.3.4 james 1504560159
channel = args[1]
target = args[2]
if channel not in self.channels:
log.warning('(%s) got ban mode +%s %s on unknown channel %s?', self.name, banmode, target)
else:
# Just apply the mode; we send out a mode hook only when the corresponding ban list has finished sending.
self.apply_modes(channel, [('+%s' % banmode, target)])
def handle_368(self, source, command, args, banmode='b'):
"""
Handles RPL_ENDOFBANLIST, used to end off ban lists.
"""
# <- :irc3.lose-the-game.nat 368 james #test :End of Channel Ban List
channel = args[1]
if channel not in self.channels:
return
modes = [('+%s' % banmode, m[1]) for m in self.channels[channel].modes if m[0] == banmode]
# Send out the hook. We don't worry about repeats since these modes don't need to be
# enumerated more than once per JOIN anyways.
if modes:
return {'target': channel, 'parse_as': 'MODE',
'modes': modes}
def handle_346(self, *args):
"""
Handles RPL_INVITELIST, used to enumerate invite exceptions.
"""
return self.handle_367(*args, banmode=self.cmodes.get('invex', 'I'))
def handle_347(self, *args):
"""
Handles RPL_ENDOFINVITELIST, used to end off invite exception lists.
"""
if 'invex' not in self.cmodes:
log.warning('(%s) Got 347 / RPL_ENDOFINVITELIST even though invex is not a registered mode?', self.name)
return self.handle_368(*args, banmode=self.cmodes.get('invex', 'I'))
def handle_348(self, *args):
"""
Handles RPL_EXCEPTLIST, used to enumerate ban exceptions.
"""
return self.handle_367(*args, banmode=self.cmodes.get('banexception', 'e'))
def handle_349(self, *args):
"""
Handles RPL_ENDOFEXCEPTLIST, used to end off ban exception lists.
"""
if 'banexception' not in self.cmodes:
log.warning('(%s) Got 349 / RPL_ENDOFEXCEPTLIST even though banexception is not a registered mode?', self.name)
return self.handle_368(*args, banmode=self.cmodes.get('banexception', 'e'))
def handle_471(self, source, command, args):
"""
Handles numerics commonly sent when a client fails to join a channel:
* ERR_TOOMANYCHANNELS (405)
* ERR_CHANNELISFULL (471)
* ERR_INVITEONLYCHAN (473)
* ERR_BANNEDFROMCHAN (474)
* ERR_BADCHANNELKEY (475)
* ERR_BADCHANMASK (476)
* ERR_NEEDREGGEDNICK (477)
* ERR_BADCHANNAME (479)
* ERR_SECUREONLYCHAN / ERR_SSLONLYCHAN (489)
* ERR_DELAYREJOIN (495)
* ERR_OPERONLY (520)
"""
if len(args) >= 3 and self.is_channel(args[1]):
log.warning('(%s) Failed to join channel %s: %s', self.name, args[1], args[-1])
handle_405 = handle_473 = handle_474 = handle_475 = handle_476 = handle_477 = \
handle_479 = handle_489 = handle_495 = handle_520 = handle_471
Class = ClientbotWrapperProtocol