# relay.py: PyLink Relay plugin import time import threading import string from collections import defaultdict import inspect from pylinkirc import utils, world, conf, structures from pylinkirc.log import log from pylinkirc.coremods import permissions # Sets the timeout to wait for as individual servers / the PyLink daemon to start up. TCONDITION_TIMEOUT = 2 ### GLOBAL (statekeeping) VARIABLES relayusers = defaultdict(dict) relayservers = defaultdict(dict) spawnlocks = defaultdict(threading.RLock) spawnlocks_servers = defaultdict(threading.RLock) channels_init_in_progress = defaultdict(threading.Event) dbname = conf.getDatabaseName('pylinkrelay') datastore = structures.PickleDataStore('pylinkrelay', dbname) db = datastore.store default_permissions = {"*!*@*": ['relay.linked'], "$ircop": ['relay.create', 'relay.linkacl*', 'relay.destroy', 'relay.link', 'relay.delink', 'relay.claim']} ### INTERNAL FUNCTIONS def initialize_all(irc): """Initializes all relay channels for the given IRC object.""" # Wait for all IRC objects to be created first. This prevents # relay servers from being spawned too early (before server authentication), # which would break connections. if world.started.wait(TCONDITION_TIMEOUT): for chanpair, entrydata in db.items(): network, channel = chanpair # Initialize all channels that are relevant to the called network (i.e. channels either hosted there or a relay leaf channels) if network == irc.name: initialize_channel(irc, channel) for link in entrydata['links']: network, channel = link if network == irc.name: initialize_channel(irc, channel) def main(irc=None): """Main function, called during plugin loading at start.""" log.debug('relay.main: loading links database') datastore.load() permissions.add_default_permissions(default_permissions) if irc is not None: # irc is defined when the plugin is reloaded. Otherwise, it means that we've just started the # server. Iterate over all connected networks and initialize their relay users. for ircobj in world.networkobjects.values(): if ircobj.connected.is_set(): initialize_all(ircobj) log.debug('relay.main: finished initialization sequence') def die(irc=None): """Deinitialize PyLink Relay by quitting all relay clients and saving the relay DB.""" # For every connected network: for ircobj in world.networkobjects.values(): # 1) SQUIT every relay subserver. for server, sobj in ircobj.servers.copy().items(): if hasattr(sobj, 'remote'): ircobj.proto.squit(ircobj.sid, server, text="Relay plugin unloaded.") # 2) Clear our internal servers and users caches. relayservers.clear() relayusers.clear() # 3) Unload our permissions. permissions.remove_default_permissions(default_permissions) # 4) Save the database and quit. datastore.die() allowed_chars = string.digits + string.ascii_letters + '/^|\\-_[]{}`' fallback_separator = '|' def normalize_nick(irc, netname, nick, times_tagged=0, uid=''): """ Creates a normalized nickname for the given nick suitable for introduction to a remote network (as a relay client). UID is optional for checking regular nick changes, to make sure that the sender doesn't get marked as nick-colliding with itself. """ # Get the nick/net separator separator = irc.serverdata.get('separator') or \ conf.conf.get('relay', {}).get('separator') or "/" # Figure out whether we tag nicks or not. if times_tagged == 0: # Check the following options in order, before falling back to True: # 1) servers::::relay_tag_nicks # 2) relay::tag_nicks if irc.serverdata.get('relay_tag_nicks', conf.conf.get('relay', {}).get('tag_nicks', True)): times_tagged = 1 else: forcetag_nicks = conf.conf.get('relay', {}).get('forcetag_nicks', []) log.debug('(%s) relay.normalize_nick: checking if globs %s match %s.', irc.name, forcetag_nicks, nick) for glob in forcetag_nicks: if irc.match_host(glob, nick): # User matched a nick to force tag nicks for. Tag them. times_tagged = 1 break log.debug('(%s) relay.normalize_nick: using %r as separator.', irc.name, separator) orig_nick = nick maxnicklen = irc.maxnicklen # Charybdis, IRCu, etc. don't allow / in nicks, and will SQUIT with a protocol # violation if it sees one. Or it might just ignore the client introduction and # cause bad desyncs. protocol_allows_slashes = irc.has_cap('slash-in-nicks') or \ irc.serverdata.get('relay_force_slashes') if '/' not in separator or not protocol_allows_slashes: separator = separator.replace('/', fallback_separator) nick = nick.replace('/', fallback_separator) if nick.startswith(tuple(string.digits+'-')): # On TS6 IRCds, nicks that start with 0-9 are only allowed if # they match the UID of the originating server. Otherwise, you'll # get nasty protocol violation SQUITs! # Nicks starting with - are likewise not valid. nick = '_' + nick # Maximum allowed length that relay nicks may have, minus the /network tag if used. allowedlength = maxnicklen # Track how many times the given nick has been tagged. If this is 0, no tag is used. # If this is 1, a /network tag is added. Otherwise, keep adding one character to the # separator: GLolol -> GLolol/net1 -> GLolol//net1 -> ... if times_tagged >= 1: suffix = "%s%s%s" % (separator[0]*times_tagged, separator[1:], netname) allowedlength -= len(suffix) # If a nick is too long, the real nick portion will be cut off, but the # /network suffix MUST remain the same. nick = nick[:allowedlength] if times_tagged >= 1: nick += suffix # Loop over every character in the nick, making sure that it only contains valid # characters. for char in nick: if char not in allowed_chars: nick = nick.replace(char, fallback_separator) while irc.nick_to_uid(nick) and irc.nick_to_uid(nick) != uid: # The nick we want exists: Increase the separator length by 1 if the user was already # tagged, but couldn't be created due to a nick conflict. This can happen when someone # steals a relay user's nick. # However, if a user is changing from, say, a long, cut-off nick to another long, cut-off # nick, we would skip tagging the nick twice if they originate from the same UID. times_tagged += 1 log.debug('(%s) relay.normalize_nick: nick %r is in use; incrementing times tagged to %s.', irc.name, nick, times_tagged) nick = normalize_nick(irc, netname, orig_nick, times_tagged=times_tagged, uid=uid) finalLength = len(nick) assert finalLength <= maxnicklen, "Normalized nick %r went over max " \ "nick length (got: %s, allowed: %s!)" % (nick, finalLength, maxnicklen) return nick def normalize_host(irc, host): """Creates a normalized hostname for the given host suitable for introduction to a remote network (as a relay client).""" log.debug('(%s) relay.normalize_host: IRCd=%s, host=%s', irc.name, irc.protoname, host) allowed_chars = string.ascii_letters + string.digits + '-.:' if irc.has_cap('slash-in-hosts'): # UnrealIRCd and IRCd-Hybrid don't allow slashes in hostnames allowed_chars += '/' if irc.has_cap('underscore-in-hosts'): # Most IRCds allow _ in hostnames, but hybrid/charybdis/ratbox IRCds do not. allowed_chars += '_' for char in host: if char not in allowed_chars: host = host.replace(char, '-') return host[:63] # Limit hosts to 63 chars for best compatibility def get_prefix_modes(irc, remoteirc, channel, user, mlist=None): """ Fetches all prefix modes for a user in a channel that are supported by the remote IRC network given. Optionally, an mlist argument can be given to look at an earlier state of the channel, e.g. for checking the op status of a mode setter before their modes are processed and added to the channel state. """ modes = '' if channel in irc.channels and user in irc.channels[channel].users: # Iterate over the the prefix modes for relay supported by the remote IRCd. # Note: reverse the order so prefix modes are bursted in their traditional order # (e.g. owner before op before halfop). TODO: SJOIN modes should probably be # consistently sorted IRCd-side. for pmode in reversed(irc.channels[channel].get_prefix_modes(user, prefixmodes=mlist)): if pmode in remoteirc.cmodes: modes += remoteirc.cmodes[pmode] return modes def spawn_relay_server(irc, remoteirc): if irc.connected.is_set(): try: # ENDBURST is delayed by 3 secs on supported IRCds to prevent # triggering join-flood protection and the like. suffix = irc.serverdata.get('server_suffix', conf.conf.get('relay', {}).get('server_suffix', 'relay')) # Strip any leading or trailing .'s suffix = suffix.strip('.') sid = irc.spawn_server('%s.%s' % (remoteirc.name, suffix), desc="PyLink Relay network - %s" % (remoteirc.get_full_network_name()), endburst_delay=3) except (RuntimeError, ValueError): # Network not initialized yet, or a server name conflict. log.exception('(%s) Failed to spawn server for %r (possible jupe?):', irc.name, remoteirc.name) # We will just bail here. Disconnect the bad network. irc.disconnect() return # Mark the server as a relay server irc.servers[sid].remote = remoteirc.name # Assign the newly spawned server as our relay server for the target net. relayservers[irc.name][remoteirc.name] = sid return sid else: log.debug('(%s) skipping spawn_relay_server(%s, %s); the local server (%s) is not ready yet', irc.name, irc.name, remoteirc.name, irc.name) log.debug('(%s) spawn_relay_server: current thread is %s', irc.name, threading.current_thread().name) def get_remote_sid(irc, remoteirc, spawn_if_missing=True): """Gets the remote server SID representing remoteirc on irc, spawning it if it doesn't exist (and spawn_if_missing is enabled).""" log.debug('(%s) Grabbing spawnlocks_servers[%s] from thread %r in function %r', irc.name, irc.name, threading.current_thread().name, inspect.currentframe().f_code.co_name) if spawnlocks_servers[irc.name].acquire(timeout=TCONDITION_TIMEOUT): try: sid = relayservers[irc.name][remoteirc.name] except KeyError: if not spawn_if_missing: log.debug('(%s) get_remote_sid: %s.relay doesn\'t have a known SID, ignoring.', irc.name, remoteirc.name) spawnlocks_servers[irc.name].release() return log.debug('(%s) get_remote_sid: %s.relay doesn\'t have a known SID, spawning.', irc.name, remoteirc.name) sid = spawn_relay_server(irc, remoteirc) log.debug('(%s) get_remote_sid: got %s for %s.relay', irc.name, sid, remoteirc.name) if sid not in irc.servers: log.debug('(%s) get_remote_sid: SID %s for %s.relay doesn\'t exist, respawning', irc.name, sid, remoteirc.name) # Our stored server doesn't exist anymore. This state is probably a holdover from a netsplit, # so let's refresh it. sid = spawn_relay_server(irc, remoteirc) elif sid in irc.servers and irc.servers[sid].remote != remoteirc.name: log.debug('(%s) get_remote_sid: %s.relay != %s.relay, respawning', irc.name, irc.servers[sid].remote, remoteirc.name) sid = spawn_relay_server(irc, remoteirc) log.debug('(%s) get_remote_sid: got %s for %s.relay (round 2)', irc.name, sid, remoteirc.name) spawnlocks_servers[irc.name].release() return sid def spawn_relay_user(irc, remoteirc, user, times_tagged=0): userobj = irc.users.get(user) if userobj is None: # The query wasn't actually a valid user, or the network hasn't # been connected yet... Oh well! return nick = normalize_nick(remoteirc, irc.name, userobj.nick, times_tagged=times_tagged) # Truncate idents at 10 characters, because TS6 won't like them otherwise! ident = userobj.ident[:10] # Normalize hostnames host = normalize_host(remoteirc, userobj.host) realname = userobj.realname modes = set(get_supported_umodes(irc, remoteirc, userobj.modes)) opertype = '' if ('o', None) in userobj.modes: # Try to get the oper type, adding an "(on )" suffix similar to what # Janus does. if hasattr(userobj, 'opertype'): log.debug('(%s) relay.get_remote_user: setting OPERTYPE of client for %r to %s', irc.name, user, userobj.opertype) opertype = userobj.opertype else: opertype = 'IRC Operator' opertype += ' (on %s)' % irc.get_full_network_name() # Set hideoper on remote opers, to prevent inflating # /lusers and various /stats hideoper_mode = remoteirc.umodes.get('hideoper') try: use_hideoper = conf.conf['relay']['hideoper'] except KeyError: use_hideoper = True if hideoper_mode and use_hideoper: modes.add((hideoper_mode, None)) rsid = get_remote_sid(remoteirc, irc) if not rsid: log.error('(%s) spawn_relay_user: aborting user spawn for %s/%s @ %s (failed to retrieve a ' 'working SID).', irc.name, user, nick, remoteirc.name) return try: showRealIP = conf.conf['relay']['show_ips'] and not \ irc.serverdata.get('relay_no_ips') and not \ remoteirc.serverdata.get('relay_no_ips') except KeyError: showRealIP = False if showRealIP: ip = userobj.ip realhost = userobj.realhost else: realhost = None ip = '0.0.0.0' u = remoteirc.spawn_client(nick, ident=ident, host=host, realname=realname, modes=modes, opertype=opertype, server=rsid, ip=ip, realhost=realhost).uid try: remoteirc.users[u].remote = (irc.name, user) remoteirc.users[u].opertype = opertype away = userobj.away if away: remoteirc.away(u, away) except KeyError: # User got killed somehow while we were setting options on it. # This is probably being done by the uplink, due to something like an # invalid nick, etc. raise relayusers[(irc.name, user)][remoteirc.name] = u return u def get_remote_user(irc, remoteirc, user, spawn_if_missing=True, times_tagged=0): """ Gets the UID of the relay client requested on the target network (remoteirc), spawning one if it doesn't exist and spawn_if_missing is True.""" # Wait until the network is working before trying to spawn anything. if irc.connected.is_set(): # Don't spawn clones for registered service bots. sbot = irc.get_service_bot(user) if sbot: return sbot.uids.get(remoteirc.name) log.debug('(%s) Grabbing spawnlocks[%s] from thread %r in function %r', irc.name, irc.name, threading.current_thread().name, inspect.currentframe().f_code.co_name) if spawnlocks[irc.name].acquire(timeout=TCONDITION_TIMEOUT): # Be sort-of thread safe: lock the user spawns for the current net first. u = None try: # Look up the existing user, stored here as dict entries in the format: # {('ournet', 'UID'): {'remotenet1': 'UID1', 'remotenet2': 'UID2'}} u = relayusers[(irc.name, user)][remoteirc.name] except KeyError: # User doesn't exist. Spawn a new one if requested. if spawn_if_missing: u = spawn_relay_user(irc, remoteirc, user, times_tagged=times_tagged) # This is a sanity check to make sure netsplits and other state resets # don't break the relayer. If it turns out there was a client in our relayusers # cache for the requested UID, but it doesn't match the request, # assume it was a leftover from the last split and replace it with a new one. if u and ((u not in remoteirc.users) or remoteirc.users[u].remote != (irc.name, user)): u = spawn_relay_user(irc, remoteirc, user, times_tagged=times_tagged) spawnlocks[irc.name].release() return u else: log.debug('(%s) skipping spawn_relay_user(%s, %s, %s, ...); the local server (%s) is not ready yet', irc.name, irc.name, remoteirc.name, user, irc.name) log.debug('(%s) spawn_relay_user: current thread is %s', irc.name, threading.current_thread().name) def get_orig_user(irc, user, targetirc=None): """ Given the UID of a relay client, returns a tuple of the home network name and original UID of the user it was spawned for. If targetirc is given, get_remote_user() is called to get the relay client representing the original user on that target network.""" try: remoteuser = irc.users[user].remote except (AttributeError, KeyError): remoteuser = None log.debug('(%s) relay.get_orig_user: remoteuser set to %r (looking up %s/%s).', irc.name, remoteuser, user, irc.name) if remoteuser: # If targetirc is given, we'll return simply the UID of the user on the # target network, if it exists. Otherwise, we'll return a tuple # with the home network name and the original user's UID. sourceobj = world.networkobjects.get(remoteuser[0]) if targetirc and sourceobj: if remoteuser[0] == targetirc.name: # The user we found's home network happens to be the one being # requested; just return the UID then. return remoteuser[1] # Otherwise, use get_remote_user to find our UID. res = get_remote_user(sourceobj, targetirc, remoteuser[1], spawn_if_missing=False) log.debug('(%s) relay.get_orig_user: targetirc found as %s, getting %r as ' 'remoteuser for %r (looking up %s/%s).', irc.name, targetirc.name, res, remoteuser[1], user, irc.name) return res else: return remoteuser def get_relay(irc, channel): """Finds the matching relay entry name for the given network, channel pair, if one exists.""" chanpair = (irc.name, irc.to_lower(channel)) if chanpair in db: # This chanpair is a shared channel; others link to it return chanpair # This chanpair is linked *to* a remote channel for name, dbentry in db.items(): if chanpair in dbentry['links']: return name def get_remote_channel(irc, remoteirc, channel): """Returns the linked channel name for the given channel on remoteirc, if one exists.""" remotenetname = remoteirc.name chanpair = get_relay(irc, channel) if chanpair is None: return if chanpair[0] == remotenetname: return chanpair[1] else: for link in db[chanpair]['links']: if link[0] == remotenetname: return link[1] def initialize_channel(irc, channel): """Initializes a relay channel (merge local/remote users, set modes, etc.).""" # We're initializing a relay that already exists. This can be done at # ENDBURST, or on the LINK command. relay = get_relay(irc, channel) log.debug('(%s) relay.initialize_channel being called on %s', irc.name, channel) log.debug('(%s) relay.initialize_channel: relay pair found to be %s', irc.name, relay) queued_users = [] if relay: # Only allow one thread to initialize channels at a time. if relay in channels_init_in_progress and channels_init_in_progress[relay].is_set(): log.debug('(%s) relay.initialize_channel: skipping init of %s since another one is in progress', irc.name, relay) return channels_init_in_progress[relay].set() try: all_links = db[relay]['links'].copy() all_links.update((relay,)) log.debug('(%s) relay.initialize_channel: all_links: %s', irc.name, all_links) # Iterate over all the remote channels linked in this relay. for link in all_links: remotenet, remotechan = link if remotenet == irc.name: # If the network is us, skip. continue remoteirc = world.networkobjects.get(remotenet) if remoteirc is None: # Remote network doesn't have an IRC object; e.g. it was removed # from the config. Skip this. continue if not (remoteirc.connected.is_set() and get_remote_channel(remoteirc, irc, remotechan)): continue # Remote network isn't connected. # Join their (remote) users and set their modes, if applicable. if remotechan in remoteirc.channels: rc = remoteirc.channels[remotechan] relay_joins(remoteirc, remotechan, rc.users, rc.ts) # Only update the topic if it's different from what we already have, # and topic bursting is complete. if rc.topicset and rc.topic != irc.channels[channel].topic: irc.topic_burst(irc.sid, channel, rc.topic) # Send our users and channel modes to the other nets if channel in irc.channels: relay_joins(irc, channel, irc.channels[channel].users, irc.channels[channel].ts) if 'pylink' in world.services: world.services['pylink'].join(irc, channel) finally: channels_init_in_progress[relay].clear() def remove_channel(irc, channel): """Destroys a relay channel by parting all of its users.""" if irc is None: return if channel not in map(str.lower, irc.serverdata.get('channels', [])): world.services['pylink'].extra_channels[irc.name].discard(channel) if irc.pseudoclient: irc.part(irc.pseudoclient.uid, channel, 'Channel delinked.') relay = get_relay(irc, channel) if relay and channel in irc.channels: for user in irc.channels[channel].users.copy(): if not is_relay_client(irc, user): relay_part(irc, channel, user) # Don't ever part the main client from any of its autojoin channels. else: if user == irc.pseudoclient.uid and channel in \ irc.serverdata.get('channels', []): continue irc.part(user, channel, 'Channel delinked.') # Don't ever quit it either... if user != irc.pseudoclient.uid and not irc.users[user].channels: remoteuser = get_orig_user(irc, user) del relayusers[remoteuser][irc.name] irc.quit(user, 'Left all shared channels.') def check_claim(irc, channel, sender, chanobj=None): """ Checks whether the sender of a kick/mode change passes CLAIM checks for a given channel. This returns True if any of the following criteria are met: 1) No relay exists for the channel in question. 2) The originating network is the one that created the relay. 3) The CLAIM list for the relay in question is empty. 4) The originating network is in the CLAIM list for the relay in question. 5) The sender is halfop or above in the channel but NOT a U-line (this is because we allow u-lines to override with ops to prevent mode floods). 6) The sender is a PyLink client/server (checks are suppressed in this case). """ relay = get_relay(irc, channel) try: mlist = chanobj.prefixmodes except AttributeError: mlist = None sender_modes = get_prefix_modes(irc, irc, channel, sender, mlist=mlist) log.debug('(%s) relay.check_claim: sender modes (%s/%s) are %s (mlist=%s)', irc.name, sender, channel, sender_modes, mlist) # XXX: stop hardcoding modes to check for and support mlist in isHalfopPlus and friends return (not relay) or irc.name == relay[0] or not db[relay]['claim'] or \ irc.name in db[relay]['claim'] or \ (any([mode in sender_modes for mode in ('y', 'q', 'a', 'o', 'h')]) and not _is_uline(irc, sender)) \ or irc.is_internal_client(sender) or \ irc.is_internal_server(sender) def get_supported_umodes(irc, remoteirc, modes): """Given a list of user modes, filters out all of those not supported by the remote network.""" supported_modes = [] # Iterate over all mode pairs. for modepair in modes: try: # Get the prefix and the actual mode character (the prefix being + or -, or # whether we're setting or unsetting a mode) prefix, modechar = modepair[0] except ValueError: # If the prefix is missing, assume we're adding a mode. modechar = modepair[0] prefix = '+' # Get the mode argument. arg = modepair[1] # Iterate over all supported user modes for the current network. for name, m in irc.umodes.items(): if name.startswith('*'): # XXX: Okay, we need a better place to store modetypes. continue supported_char = None # Mode character matches one in our list, so set that named mode # as the one we're trying to set. Then, look up that named mode # in the supported modes list for the TARGET network, and set that # mode character as the one we're setting, if it exists. if modechar == m: if name not in whitelisted_umodes: log.debug("(%s) relay.get_supported_umodes: skipping mode (%r, %r) because " "it isn't a whitelisted (safe) mode for relay.", irc.name, modechar, arg) break supported_char = remoteirc.umodes.get(name) if supported_char: supported_modes.append((prefix+supported_char, arg)) break else: log.debug("(%s) relay.get_supported_umodes: skipping mode (%r, %r) because " "the remote network (%s)'s IRCd (%s) doesn't support it.", irc.name, modechar, arg, remoteirc.name, remoteirc.protoname) return supported_modes def is_relay_client(irc, user): """Returns whether the given user is a relay client.""" try: if irc.users[user].remote: # Is the .remote attribute set? If so, don't relay already # relayed clients; that'll trigger an endless loop! return True except AttributeError: # Nope, it isn't. pass except KeyError: # The user doesn't exist?!? return True return False isRelayClient = is_relay_client def iterate_all(origirc, func, extra_args=(), kwargs=None): """ Runs the given function 'func' on all connected networks. 'func' must take at least two arguments: the original network object and the remote network object. """ if kwargs is None: kwargs = {} for name, remoteirc in world.networkobjects.copy().items(): if name == origirc.name or not remoteirc.connected.is_set(): # Don't relay things to their source network... continue func(origirc, remoteirc, *extra_args, **kwargs) def iterate_all_present(origirc, origuser, func, extra_args=(), kwargs=None): """ Runs the given function 'func' on all networks where the UID 'origuser' from 'origirc' has a relay client. 'func' must take at least three arguments: the original network object, the remote network object, and the UID on the remote network to work on. """ if kwargs is None: kwargs = {} for netname, user in relayusers[(origirc.name, origuser)].copy().items(): remoteirc = world.networkobjects[netname] func(origirc, remoteirc, user, *extra_args, **kwargs) ### EVENT HANDLER INTERNALS def relay_joins(irc, channel, users, ts, **kwargs): """ Relays one or more users' joins from a channel to its relay links. """ if ts < 750000: current_ts = int(time.time()) log.debug('(%s) relay: resetting too low TS value of %s on %s to %s', irc.name, ts, users, current_ts) ts = current_ts def _relay_joins_loop(irc, remoteirc, channel, users, ts, burst=True): queued_users = [] remotechan = get_remote_channel(irc, remoteirc, channel) if remotechan is None: # If there is no link on the current network for the channel in question, # just skip it. return for user in users.copy(): if is_relay_client(irc, user): # Don't clone relay clients; that'll cause bad infinite loops. continue assert user in irc.users, "(%s) relay.relay_joins: How is this possible? %r isn't in our user database." % (irc.name, user) u = get_remote_user(irc, remoteirc, user) if not u: continue if (remotechan not in remoteirc.channels) or u not in remoteirc.channels[remotechan].users: # Note: only join users if they aren't already joined. This prevents op floods # on charybdis from repeated SJOINs sent for one user. # Fetch the known channel TS and all the prefix modes for each user. This ensures # the different sides of the relay are merged properly. if not irc.has_cap('has-ts'): # Special hack for clientbot: just use the remote's modes so mode changes # take precendence. (TS is always outside the clientbot's control) if remotechan in remoteirc.channels: ts = remoteirc.channels[remotechan].ts else: ts = int(time.time()) else: ts = irc.channels[channel].ts prefixes = get_prefix_modes(irc, remoteirc, channel, user) # proto.sjoin() takes its users as a list of (prefix mode characters, UID) pairs. userpair = (prefixes, u) queued_users.append(userpair) if queued_users: # Look at whether we should relay this join as a regular JOIN, or a SJOIN. # SJOIN will be used if either the amount of users to join is > 1, or there are modes # to be set on the joining user. rsid = get_remote_sid(remoteirc, irc) if burst or len(queued_users) > 1 or queued_users[0][0]: modes = get_supported_cmodes(irc, remoteirc, channel, irc.channels[channel].modes) if rsid: remoteirc.sjoin(rsid, remotechan, queued_users, ts=ts, modes=modes) else: # A regular JOIN only needs the user and the channel. TS, source SID, etc., can all be omitted. remoteirc.join(queued_users[0][1], remotechan) remoteirc.call_hooks([rsid, 'PYLINK_RELAY_JOIN', {'channel': remotechan, 'users': [u[-1] for u in queued_users]}]) iterate_all(irc, _relay_joins_loop, extra_args=(channel, users, ts), kwargs=kwargs) def relay_part(irc, *args, **kwargs): """ Relays a user part from a channel to its relay links, as part of a channel delink. """ def _relay_part_loop(irc, remoteirc, channel, user): remotechan = get_remote_channel(irc, remoteirc, channel) log.debug('(%s) relay.relay_part: looking for %s/%s on %s', irc.name, user, irc.name, remoteirc.name) log.debug('(%s) relay.relay_part: remotechan found as %s', irc.name, remotechan) remoteuser = get_remote_user(irc, remoteirc, user, spawn_if_missing=False) log.debug('(%s) relay.relay_part: remoteuser for %s/%s found as %s', irc.name, user, irc.name, remoteuser) if remotechan is None or remoteuser is None: # If there is no relay channel on the target network, or the relay # user doesn't exist, just do nothing. return # Part the relay client with the channel delinked message. remoteirc.part(remoteuser, remotechan, 'Channel delinked.') # If the relay client no longer has any channels, quit them to prevent inflating /lusers. if is_relay_client(remoteirc, remoteuser) and not remoteirc.users[remoteuser].channels: remoteirc.quit(remoteuser, 'Left all shared channels.') del relayusers[(irc.name, user)][remoteirc.name] iterate_all(irc, _relay_part_loop, extra_args=args, kwargs=kwargs) whitelisted_cmodes = { 'admin', 'adminonly', 'allowinvite', 'autoop', 'ban', 'banexception', 'blockcolor', 'flood', 'flood_unreal', 'freetarget', 'halfop', 'invex', 'inviteonly', 'joinflood', 'key', 'limit', 'moderated', 'nickflood', 'noctcp', 'noextmsg', 'noforwards', 'noinvite', 'nokick', 'noknock', 'nonick', 'nonotice', 'op', 'operonly', 'opmoderated', 'owner', 'private', 'quiet', 'regmoderated', 'regonly', 'secret', 'sslonly', 'stripcolor', 'topiclock', 'voice' } whitelisted_umodes = { 'bot', 'hidechans', 'hideidle', 'hideoper', 'invisible', 'noctcp', 'oper', 'regdeaf', 'stripcolor', 'wallops' } clientbot_whitelisted_cmodes = {'admin', 'ban', 'banexception', 'halfop', 'invex', 'op', 'owner', 'voice'} modesync_options = ('none', 'half', 'full') def get_supported_cmodes(irc, remoteirc, channel, modes): """ Filters a channel mode change to the modes supported by the target IRCd. """ remotechan = get_remote_channel(irc, remoteirc, channel) if not remotechan: # Not a relay channel return [] # Handle Clientbot-specific mode whitelist settings whitelist = whitelisted_cmodes if remoteirc.protoname == 'clientbot' or irc.protoname == 'clientbot': modesync = conf.conf.get('relay', {}).get('clientbot_modesync', 'none').lower() if modesync not in modesync_options: modesync = 'none' log.warning('relay: Bad clientbot_modesync option %s: valid values are %s', modesync, modesync_options) if modesync == 'none': return [] # Do nothing elif modesync == 'half': whitelist = clientbot_whitelisted_cmodes supported_modes = [] for modepair in modes: try: prefix, modechar = modepair[0] except ValueError: modechar = modepair[0] prefix = '+' arg = modepair[1] # Iterate over every mode see whether the remote IRCd supports # this mode, and what its mode char for it is (if it is different). for name, m in irc.cmodes.items(): mode_parse_aborted = False if name.startswith('*'): # XXX: Okay, we need a better place to store modetypes. continue if modechar == m: if name not in whitelist: log.debug("(%s) relay.get_supported_cmodes: skipping mode (%r, %r) because " "it isn't a whitelisted (safe) mode for relay.", irc.name, modechar, arg) break supported_char = remoteirc.cmodes.get(name) # The mode we requested is an acting extban on the target network. # Basically there are 3 possibilities when handling these extban-like modes: # 1) Both target & source both use a chmode (e.g. ts6 +q). In these cases, the mode is just forwarded as-is. # 2) Forwarding from chmode to extban - this is the case being handled here. # 3) Forwarding from extban to extban (see below) pending_extban_prefixes = [] if name in remoteirc.extbans_acting: # We make the assumption that acting extbans can only be used with +b... old_arg = arg supported_char = remoteirc.cmodes['ban'] pending_extban_prefixes.append(name) # Save the extban prefix for joining later log.debug('(%s) relay.get_supported_cmodes: folding mode %s%s %s to %s%s %s%s for %s', irc.name, prefix, modechar, old_arg, prefix, supported_char, remoteirc.extbans_acting[name], arg, remoteirc.name) elif supported_char is None: continue if modechar in irc.prefixmodes: # This is a prefix mode (e.g. +o). We must coerse the argument # so that the target exists on the remote relay network. log.debug("(%s) relay.get_supported_cmodes: coersing argument of (%r, %r) " "for network %r.", irc.name, modechar, arg, remoteirc.name) if (not irc.has_cap('can-spawn-clients')) and irc.pseudoclient and arg == irc.pseudoclient.uid: # Skip modesync on the main PyLink client. log.debug("(%s) relay.get_supported_cmodes: filtering prefix change (%r, %r) on Clientbot relayer", irc.name, name, arg) break # If the target is a remote user, get the real target # (original user). arg = get_orig_user(irc, arg, targetirc=remoteirc) or \ get_remote_user(irc, remoteirc, arg, spawn_if_missing=False) if arg is None: # Relay client for target user doesn't exist yet. Drop the mode. break log.debug("(%s) relay.get_supported_cmodes: argument found as (%r, %r) " "for network %r.", irc.name, modechar, arg, remoteirc.name) oplist = [] if remotechan in remoteirc.channels: oplist = remoteirc.channels[remotechan].prefixmodes[name] log.debug("(%s) relay.get_supported_cmodes: list of %ss on %r is: %s", irc.name, name, remotechan, oplist) if prefix == '+' and arg in oplist: # Don't set prefix modes that are already set. log.debug("(%s) relay.get_supported_cmodes: skipping setting %s on %s/%s because it appears to be already set.", irc.name, name, arg, remoteirc.name) break elif arg: # Acting extban case 3: forwarding extban -> extban or mode # First, we expand extbans from the local IRCd into a named mode and argument pair. Then, we # can figure out how to relay it. for extban_name, extban_prefix in irc.extbans_acting.items(): # Acting extbans are only supported with +b (e.g. +b m:n!u@h) if name == 'ban' and arg.startswith(extban_prefix): orig_supported_char, old_arg = supported_char, arg if extban_name in remoteirc.cmodes: # This extban is a mode on the target network. Chop off the extban prefix and set # the mode character to the target's mode for it. supported_char = remoteirc.cmodes[extban_name] arg = arg[len(extban_prefix):] log.debug('(%s) relay.get_supported_cmodes: expanding acting extban %s%s %s to %s%s %s for %s', irc.name, prefix, orig_supported_char, old_arg, prefix, supported_char, arg, remoteirc.name) elif extban_name in remoteirc.extbans_acting: # This is also an extban on the target network. # Just chop off the local prefix now; we rewrite it later after processing # any matching extbans. pending_extban_prefixes.append(extban_name) arg = arg[len(extban_prefix):] log.debug('(%s) relay.get_supported_cmodes: expanding acting extban %s%s %s to %s%s %s%s for %s', irc.name, prefix, orig_supported_char, old_arg, prefix, supported_char, remoteirc.extbans_acting[extban_name], arg, remoteirc.name) else: # This mode/extban isn't supported, so ignore it. log.debug('(%s) relay.get_supported_cmodes: blocking acting extban ' '%s%s %s as target %s doesn\'t support it', irc.name, prefix, supported_char, arg, remoteirc.name) mode_parse_aborted = True # XXX: nested loops are ugly... break # Only one extban per mode pair, so break. # Handle matching extbans such as Charybdis $a, UnrealIRCd ~a, InspIRCd R:, etc. for extban_name, extban_prefix in irc.extbans_matching.items(): # For matching extbans, we check for the following: # 1) arg == extban, for extbans like Charybdis $o and $a that are valid without an argument. # 2) arg starting with extban, the most general case. # Extbans with and without args have different mode names to prevent ambiguity and # allow proper forwarding. old_arg = arg if arg == extban_prefix: # This is a matching extban with no arg (case 1). if extban_name in remoteirc.extbans_matching: # Replace the ban with the remote's version entirely. arg = remoteirc.extbans_matching[extban_name] log.debug('(%s) relay.get_supported_cmodes: mangling matching extban arg %s => %s for %s', irc.name, old_arg, arg, remoteirc.name) break else: # Unsupported, don't forward it. mode_parse_aborted = True elif arg.startswith(extban_prefix): # This is a full extban with a prefix and some data. if extban_name in remoteirc.extbans_matching: # Chop off our prefix and apply the remote's. arg = arg[len(extban_prefix):] arg = remoteirc.extbans_matching[extban_name] + arg log.debug('(%s) relay.get_supported_cmodes: mangling matching extban arg %s => %s for %s', irc.name, old_arg, arg, remoteirc.name) break else: mode_parse_aborted = True else: if name in ('ban', 'banexception', 'invex', 'quiet') and not remoteirc.is_hostmask(arg): # Don't add unsupported bans that don't match n!u@h syntax. log.debug("(%s) relay.get_supported_cmodes: skipping unsupported extban/mode (%r, %r) because it doesn't match nick!user@host.", irc.name, modechar, arg) break # We broke up an acting extban earlier. Now, rewrite it into a new mode by joining the prefix and data together. while pending_extban_prefixes: arg = remoteirc.extbans_acting[pending_extban_prefixes.pop()] + arg if mode_parse_aborted: break final_modepair = (prefix+supported_char, arg) # Don't set modes that are already set, to prevent floods on TS6 # where the same mode can be set infinite times. if prefix == '+' and (remotechan not in remoteirc.channels or final_modepair in remoteirc.channels[remotechan].modes): log.debug("(%s) relay.get_supported_cmodes: skipping setting mode (%r, %r) on %s%s because it appears to be already set.", irc.name, supported_char, arg, remoteirc.name, remotechan) break supported_modes.append(final_modepair) break log.debug('(%s) relay.get_supported_cmodes: final modelist (sending to %s%s) is %s', irc.name, remoteirc.name, remotechan, supported_modes) return supported_modes ### EVENT HANDLERS def handle_relay_whois(irc, source, command, args): """ WHOIS handler for the relay plugin. """ target = args['target'] server = args['server'] targetuser = irc.users[target] def wreply(num, text): """Convenience wrapper to return WHOIS replies.""" # WHOIS replies are by convention prefixed with the target user's nick. text = '%s %s' % (targetuser.nick, text) irc.numeric(server, num, source, text) def _check_send_key(infoline): """ Returns whether we should send the given info line in WHOIS. This validates the corresponding configuration option for being either "all" or "opers".""" setting = conf.conf.get('relay', {}).get(infoline, '').lower() if setting == 'all': return True elif setting == 'opers' and irc.is_oper(source, allowAuthed=False): return True return False # Get the real user for the WHOIS target. origuser = get_orig_user(irc, target) if origuser: homenet, uid = origuser realirc = world.networkobjects[homenet] realuser = realirc.users[uid] netname = realirc.get_full_network_name() wreply(320, ":is a remote user connected via PyLink Relay. Home network: %s; " "Home nick: %s" % (netname, realuser.nick)) if _check_send_key('whois_show_accounts') and realuser.services_account: # Send account information if told to and the target is logged in. wreply(330, "%s :is logged in (on %s) as" % (realuser.services_account, netname)) if _check_send_key('whois_show_server') and realirc.has_cap('can-track-servers'): wreply(320, ":is actually connected via the following server:") realserver = realirc.get_server(uid) realserver = realirc.servers[realserver] wreply(312, "%s :%s" % (realserver.name, realserver.desc)) utils.add_hook(handle_relay_whois, 'PYLINK_CUSTOM_WHOIS') def handle_operup(irc, numeric, command, args): """ Handles setting oper types on relay clients during oper up. """ newtype = '%s (on %s)' % (args['text'], irc.get_full_network_name()) def _handle_operup_func(irc, remoteirc, user): log.debug('(%s) relay.handle_opertype: setting OPERTYPE of %s/%s to %s', irc.name, user, remoteirc.name, newtype) remoteirc.users[user].opertype = newtype iterate_all_present(irc, numeric, _handle_operup_func) utils.add_hook(handle_operup, 'CLIENT_OPERED') def handle_join(irc, numeric, command, args): channel = args['channel'] if not get_relay(irc, channel): # No relay here, return. return ts = args['ts'] users = set(args['users']) claim_passed = check_claim(irc, channel, numeric) current_chandata = irc.channels.get(channel) chandata = args.get('channeldata') log.debug('(%s) relay.handle_join: claim for %s on %s: %s', irc.name, numeric, channel, claim_passed) log.debug('(%s) relay.handle_join: old channel data %s', irc.name, chandata) log.debug('(%s) relay.handle_join: current channel data %s', irc.name, current_chandata) if chandata and not claim_passed: # If the server we're receiving an SJOIN from isn't in the claim list, undo ALL attempts # from it to burst modes. # This option can prevent things like /OJOIN abuse or split riding with oper override, but # has the side effect of causing all prefix modes on leaf links to be lost when networks # split and rejoin. modes = [] for user in users: # XXX: Find the diff of the new and old mode lists of the channel. Not pretty, but I'd # rather not change the 'users' format of SJOIN just for this. -GL try: oldmodes = set(chandata.get_prefix_modes(user)) except KeyError: # User was never in channel. Treat their mode list as empty. oldmodes = set() newmodes = set() if current_chandata is not None: newmodes = set(current_chandata.get_prefix_modes(user)) modediff = newmodes - oldmodes log.debug('(%s) relay.handle_join: mode diff for %s on %s: %s oldmodes=%s newmodes=%s', irc.name, user, channel, modediff, oldmodes, newmodes) for modename in modediff: modechar = irc.cmodes.get(modename) # Special case for U-lined servers: allow them to join with ops, # but don't forward this mode change on. if modechar and not _is_uline(irc, numeric): modes.append(('-%s' % modechar, user)) if modes: log.debug('(%s) relay.handle_join: reverting modes on BURST: %s', irc.name, irc.join_modes(modes)) irc.mode(irc.sid, channel, modes) relay_joins(irc, channel, users, ts, burst=False) utils.add_hook(handle_join, 'JOIN') utils.add_hook(handle_join, 'PYLINK_SERVICE_JOIN') def handle_quit(irc, numeric, command, args): # Lock the user spawning mechanism before proceeding, since we're going to be # deleting client from the relayusers cache. log.debug('(%s) Grabbing spawnlocks[%s] from thread %r in function %r', irc.name, irc.name, threading.current_thread().name, inspect.currentframe().f_code.co_name) if spawnlocks[irc.name].acquire(timeout=TCONDITION_TIMEOUT): def _handle_quit_func(irc, remoteirc, user): try: # Try to quit the client. If this fails because they're missing, bail. remoteirc.quit(user, args['text']) except LookupError: pass iterate_all_present(irc, numeric, _handle_quit_func) del relayusers[(irc.name, numeric)] spawnlocks[irc.name].release() utils.add_hook(handle_quit, 'QUIT') def handle_squit(irc, numeric, command, args): """ Handles SQUITs over relay. """ users = args['users'] target = args['target'] # Someone /SQUIT one of our relay subservers. Bad! Rejoin them! if target in relayservers[irc.name].values(): sname = args['name'] remotenet = sname.split('.', 1)[0] del relayservers[irc.name][remotenet] for userpair in relayusers: if userpair[0] == remotenet and irc.name in relayusers[userpair]: del relayusers[userpair][irc.name] remoteirc = world.networkobjects[remotenet] initialize_all(remoteirc) else: # Some other netsplit happened on the network, we'll have to fake # some *.net *.split quits for that. for user in users: log.debug('(%s) relay.handle_squit: sending handle_quit on %s', irc.name, user) try: # Allow netsplit hiding to be toggled show_splits = conf.conf['relay']['show_netsplits'] except KeyError: show_splits = False text = '*.net *.split' if show_splits: uplink = args['uplink'] try: text = '%s %s' % (irc.servers[uplink].name, args['name']) except (KeyError, AttributeError): log.warning("(%s) relay.handle_squit: Failed to get server name for %s", irc.name, uplink) handle_quit(irc, user, command, {'text': text}) utils.add_hook(handle_squit, 'SQUIT') def handle_nick(irc, numeric, command, args): newnick = args['newnick'] def _handle_nick_func(irc, remoteirc, user): remote_newnick = normalize_nick(remoteirc, irc.name, newnick, uid=user) if remoteirc.users[user].nick != remote_newnick: remoteirc.nick(user, remote_newnick) iterate_all_present(irc, numeric, _handle_nick_func) utils.add_hook(handle_nick, 'NICK') def handle_part(irc, numeric, command, args): channels = args['channels'] text = args['text'] # Don't allow the PyLink client PARTing to be relayed. if numeric == irc.pseudoclient.uid: # For clientbot: treat forced parts to the bot as clearchan, and attempt to rejoin only # if it affected a relay. if not irc.has_cap('can-spawn-clients'): for channel in [c for c in channels if get_relay(irc, c)]: for user in irc.channels[channel].users: if (not irc.is_internal_client(user)) and (not is_relay_client(irc, user)): irc.call_hooks([irc.sid, 'CLIENTBOT_SERVICE_KICKED', {'channel': channel, 'target': user, 'text': 'Clientbot was force parted (Reason: %s)' % text or 'None', 'parse_as': 'KICK'}]) irc.join(irc.pseudoclient.uid, channel) return return for channel in channels: def _handle_part_loop(irc, remoteirc, user): remotechan = get_remote_channel(irc, remoteirc, channel) if remotechan is None: return remoteirc.part(user, remotechan, text) if not remoteirc.users[user].channels: remoteirc.quit(user, 'Left all shared channels.') del relayusers[(irc.name, numeric)][remoteirc.name] iterate_all_present(irc, numeric, _handle_part_loop) utils.add_hook(handle_part, 'PART') def handle_messages(irc, numeric, command, args): notice = (command in ('NOTICE', 'PYLINK_SELF_NOTICE')) target = args['target'] text = args['text'] if irc.is_internal_client(numeric) and irc.is_internal_client(target): # Drop attempted PMs between internal clients (this shouldn't happen, # but whatever). return elif (numeric in irc.servers) and (not notice): log.debug('(%s) relay.handle_messages: dropping PM from server %s to %s', irc.name, numeric, target) return relay = get_relay(irc, target) remoteusers = relayusers[(irc.name, numeric)] # HACK: Don't break on sending to @#channel or similar. TODO: This should really # be handled more neatly in core. try: prefix, target = target.split('#', 1) except ValueError: prefix = '' else: target = '#' + target if irc.is_channel(target): def _handle_messages_loop(irc, remoteirc, numeric, command, args, notice, target, text): real_target = get_remote_channel(irc, remoteirc, target) # Don't relay anything back to the source net, or to disconnected networks # and networks without a relay for this channel. if (not real_target) or (not irc.connected.is_set()): return user = get_remote_user(irc, remoteirc, numeric, spawn_if_missing=False) if not user: if not (irc.serverdata.get('relay_weird_senders', conf.conf.get('relay', {}).get('accept_weird_senders', True))): log.debug("(%s) Dropping message for %s from user-less sender %s", irc.name, real_target, numeric) return # No relay clone exists for the sender; route the message through our # main client (or SID for notices). # Skip "from:" formatting for servers; it's messy with longer hostnames. # Also skip this formatting for servicebot relaying. if numeric not in irc.servers and not irc.get_service_bot(numeric): displayedname = irc.get_friendly_name(numeric) real_text = '<%s/%s> %s' % (displayedname, irc.name, text) else: real_text = text # XXX: perhaps consider routing messages from the server where # possible - most IRCds except TS6 (charybdis, ratbox, hybrid) # allow this. try: user = get_remote_sid(remoteirc, irc, spawn_if_missing=False) \ if notice else remoteirc.pseudoclient.uid if not user: return except AttributeError: # Remote main client hasn't spawned yet. Drop the message. return else: if remoteirc.pseudoclient.uid not in remoteirc.users: # Remote UID is ghosted, drop message. return else: real_text = text real_target = prefix + real_target log.debug('(%s) relay.handle_messages: sending message to %s from %s on behalf of %s', irc.name, real_target, user, numeric) try: if notice: remoteirc.notice(user, real_target, real_text) else: remoteirc.message(user, real_target, real_text) except LookupError: # Our relay clone disappeared while we were trying to send the message. # This is normally due to a nick conflict with the IRCd. log.warning("(%s) relay: Relay client %s on %s was killed while " "trying to send a message through it!", irc.name, remoteirc.name, user) return iterate_all(irc, _handle_messages_loop, extra_args=(numeric, command, args, notice, target, text)) else: # Get the real user that the PM was meant for origuser = get_orig_user(irc, target) if origuser is None: # Not a relay client, return return homenet, real_target = origuser # For PMs, we must be on a common channel with the target. # Otherwise, the sender doesn't have a client representing them # on the remote network, and we won't have anything to send our # messages from. if homenet not in remoteusers.keys(): irc.msg(numeric, 'You must be in a common channel ' 'with %r in order to send messages.' % \ irc.users[target].nick, notice=True) return remoteirc = world.networkobjects[homenet] if (not remoteirc.has_cap('can-spawn-clients')) and not conf.conf.get('relay', {}).get('allow_clientbot_pms'): irc.msg(numeric, 'Private messages to users connected via Clientbot have ' 'been administratively disabled.', notice=True) return user = get_remote_user(irc, remoteirc, numeric, spawn_if_missing=False) try: if notice: remoteirc.notice(user, real_target, text) else: remoteirc.message(user, real_target, text) except LookupError: # Our relay clone disappeared while we were trying to send the message. # This is normally due to a nick conflict with the IRCd. log.warning("(%s) relay: Relay client %s on %s was killed while " "trying to send a message through it!", irc.name, remoteirc.name, user) return for cmd in ('PRIVMSG', 'NOTICE', 'PYLINK_SELF_NOTICE', 'PYLINK_SELF_PRIVMSG'): utils.add_hook(handle_messages, cmd, priority=500) def handle_kick(irc, source, command, args): channel = args['channel'] target = args['target'] text = args['text'] kicker = source relay = get_relay(irc, channel) # Special case for clientbot: treat kicks to the PyLink service bot as channel clear. if (not irc.has_cap('can-spawn-clients')) and irc.pseudoclient and target == irc.pseudoclient.uid: for user in irc.channels[channel].users: if (not irc.is_internal_client(user)) and (not is_relay_client(irc, user)): reason = "Clientbot kicked by %s (Reason: %s)" % (irc.get_friendly_name(source), text) irc.call_hooks([irc.sid, 'CLIENTBOT_SERVICE_KICKED', {'channel': channel, 'target': user, 'text': reason, 'parse_as': 'KICK'}]) return # Don't relay kicks to protected service bots. if relay is None or irc.get_service_bot(target): return origuser = get_orig_user(irc, target) def _handle_kick_loop(irc, remoteirc, source, command, args): remotechan = get_remote_channel(irc, remoteirc, channel) name = remoteirc.name log.debug('(%s) relay.handle_kick: remotechan for %s on %s is %s', irc.name, channel, name, remotechan) if remotechan is None: return real_kicker = get_remote_user(irc, remoteirc, kicker, spawn_if_missing=False) log.debug('(%s) relay.handle_kick: real kicker for %s on %s is %s', irc.name, kicker, name, real_kicker) if not is_relay_client(irc, target): log.debug('(%s) relay.handle_kick: target %s is NOT an internal client', irc.name, target) # Both the target and kicker are external clients; i.e. # they originate from the same network. We won't have # to filter this; the uplink IRCd will handle it appropriately, # and we'll just follow. real_target = get_remote_user(irc, remoteirc, target, spawn_if_missing=False) log.debug('(%s) relay.handle_kick: real target for %s is %s', irc.name, target, real_target) else: log.debug('(%s) relay.handle_kick: target %s is an internal client, going to look up the real user', irc.name, target) real_target = get_orig_user(irc, target, targetirc=remoteirc) if not check_claim(irc, channel, kicker): log.debug('(%s) relay.handle_kick: kicker %s is not opped... We should rejoin the target user %s', irc.name, kicker, real_target) # Home network is not in the channel's claim AND the kicker is not # opped. We won't propograte the kick then. # TODO: make the check slightly more advanced: i.e. halfops can't # kick ops, admins can't kick owners, etc. modes = get_prefix_modes(remoteirc, irc, remotechan, real_target) # Join the kicked client back with its respective modes. irc.sjoin(irc.sid, channel, [(modes, target)]) if kicker in irc.users: log.info('(%s) relay: Blocked KICK (reason %r) from %s/%s to relay client %s on %s.', irc.name, args['text'], irc.users[source].nick, irc.name, remoteirc.users[real_target].nick, channel) irc.msg(kicker, "This channel is claimed; your kick to " "%s has been blocked because you are not " "(half)opped." % channel, notice=True) else: log.info('(%s) relay: Blocked KICK (reason %r) from server %s to relay client %s/%s on %s.', irc.name, args['text'], irc.servers[source].name, remoteirc.users[real_target].nick, remoteirc.name, channel) return if not real_target: return # Propogate the kick! if real_kicker: log.debug('(%s) relay.handle_kick: Kicking %s from channel %s via %s on behalf of %s/%s', irc.name, real_target, remotechan,real_kicker, kicker, irc.name) remoteirc.kick(real_kicker, remotechan, real_target, args['text']) else: # Kick originated from a server, or the kicker isn't in any # common channels with the target relay network. rsid = get_remote_sid(remoteirc, irc) log.debug('(%s) relay.handle_kick: Kicking %s from channel %s via %s on behalf of %s/%s', irc.name, real_target, remotechan, rsid, kicker, irc.name) if not irc.has_cap('can-spawn-clients'): # Special case for clientbot: no kick prefixes are needed. text = args['text'] else: try: if kicker in irc.servers: kname = irc.servers[kicker].name else: kname = irc.users.get(kicker).nick text = "(%s/%s) %s" % (kname, irc.name, args['text']) except AttributeError: text = "(@%s) %s" % (irc.name, args['text']) rsid = rsid or remoteirc.sid # Fall back to the main PyLink SID if get_remote_sid() fails remoteirc.kick(rsid, remotechan, real_target, text) # If the target isn't on any channels, quit them. if remoteirc != irc and (not remoteirc.users[real_target].channels) and not origuser: del relayusers[(irc.name, target)][remoteirc.name] remoteirc.quit(real_target, 'Left all shared channels.') iterate_all(irc, _handle_kick_loop, extra_args=(source, command, args)) if origuser and not irc.users[target].channels: del relayusers[origuser][irc.name] irc.quit(target, 'Left all shared channels.') utils.add_hook(handle_kick, 'KICK') def handle_chgclient(irc, source, command, args): target = args['target'] if args.get('newhost'): field = 'HOST' text = args['newhost'] elif args.get('newident'): field = 'IDENT' text = args['newident'] elif args.get('newgecos'): field = 'GECOS' text = args['newgecos'] if field: def _handle_chgclient_loop(irc, remoteirc, user): try: if field == 'HOST': newtext = normalize_host(remoteirc, text) else: # Don't overwrite the original text variable on every iteration. newtext = text remoteirc.update_client(user, field, newtext) except NotImplementedError: # IRCd doesn't support changing the field we want log.debug('(%s) relay.handle_chgclient: Ignoring changing field %r of %s on %s (for %s/%s);' ' remote IRCd doesn\'t support it', irc.name, field, user, remoteirc.name, target, irc.name) return iterate_all_present(irc, target, _handle_chgclient_loop) for c in ('CHGHOST', 'CHGNAME', 'CHGIDENT'): utils.add_hook(handle_chgclient, c) def _is_uline(irc, client): return irc.get_friendly_name(irc.get_server(client)) in irc.serverdata.get('ulines', []) def handle_mode(irc, numeric, command, args): def _handle_mode_loop(irc, remoteirc, numeric, command, args): target = args['target'] modes = args['modes'] if irc.is_channel(target): # Use the old state of the channel to check for CLAIM access. oldchan = args.get('channeldata') if check_claim(irc, target, numeric, chanobj=oldchan): remotechan = get_remote_channel(irc, remoteirc, target) if not remotechan: return supported_modes = get_supported_cmodes(irc, remoteirc, target, modes) # Check if the sender is a user with a relay client; otherwise relay the mode # from the corresponding server. remotesender = get_remote_user(irc, remoteirc, numeric, spawn_if_missing=False) or \ get_remote_sid(remoteirc, irc) or remoteirc.sid if not remoteirc.has_cap('can-spawn-clients'): friendly_modes = [] for modepair in modes: if modepair[0][-1] in irc.prefixmodes: orig_user = get_orig_user(irc, modepair[1]) if orig_user and orig_user[0] == remoteirc.name: # Don't display prefix mode changes for someone on the target clientbot # link; this will either be relayed via modesync or ignored. continue # Convert UIDs to nicks when relaying this to clientbot. modepair = (modepair[0], irc.get_friendly_name(modepair[1])) friendly_modes.append(modepair) if friendly_modes: # Call hooks, this is used for clientbot relay. remoteirc.call_hooks([remotesender, 'RELAY_RAW_MODE', {'channel': remotechan, 'modes': friendly_modes}]) if supported_modes: remoteirc.mode(remotesender, remotechan, supported_modes) else: # Mode change blocked by CLAIM. reversed_modes = irc.reverse_modes(target, modes, oldobj=oldchan) if _is_uline(irc, numeric): # Special hack for "U-lined" servers - ignore changes to SIMPLE modes and # attempts to op u-lined clients (trying to change status for others # SHOULD be reverted). # This is for compatibility with Anope's DEFCON for the most part, as well as # silly people who try to register a channel multiple times via relay. reversed_modes = [modepair for modepair in reversed_modes if # Mode is a prefix mode but target isn't ulined, revert ((modepair[0][-1] in irc.prefixmodes and not _is_uline(irc, modepair[1])) # Tried to set a list mode, revert or modepair[0][-1] in irc.cmodes['*A']) ] if reversed_modes: log.debug('(%s) relay.handle_mode: Reversing mode changes of %r with %r (CLAIM).', irc.name, modes, reversed_modes) irc.mode(irc.sid, target, reversed_modes) return else: # Set hideoper on remote opers, to prevent inflating # /lusers and various /stats hideoper_mode = remoteirc.umodes.get('hideoper') modes = get_supported_umodes(irc, remoteirc, modes) if hideoper_mode: if ('+o', None) in modes: modes.append(('+%s' % hideoper_mode, None)) elif ('-o', None) in modes: modes.append(('-%s' % hideoper_mode, None)) remoteuser = get_remote_user(irc, remoteirc, target, spawn_if_missing=False) if remoteuser and modes: remoteirc.mode(remoteuser, remoteuser, modes) iterate_all(irc, _handle_mode_loop, extra_args=(numeric, command, args)) utils.add_hook(handle_mode, 'MODE') def handle_topic(irc, numeric, command, args): channel = args['channel'] oldtopic = args.get('oldtopic') topic = args['text'] if check_claim(irc, channel, numeric): def _handle_topic_loop(irc, remoteirc, numeric, command, args): channel = args['channel'] oldtopic = args.get('oldtopic') topic = args['text'] remotechan = get_remote_channel(irc, remoteirc, channel) # Don't send if the remote topic is the same as ours. if remotechan is None or remotechan not in remoteirc.channels or \ topic == remoteirc.channels[remotechan].topic: return # This might originate from a server too. remoteuser = get_remote_user(irc, remoteirc, numeric, spawn_if_missing=False) if remoteuser: remoteirc.topic(remoteuser, remotechan, topic) else: rsid = get_remote_sid(remoteirc, irc) remoteirc.topic_burst(rsid, remotechan, topic) iterate_all(irc, _handle_topic_loop, extra_args=(numeric, command, args)) elif oldtopic: # Topic change blocked by claim. irc.topic_burst(irc.sid, channel, oldtopic) utils.add_hook(handle_topic, 'TOPIC') def handle_kill(irc, numeric, command, args): target = args['target'] userdata = args['userdata'] # Try to find the original client of the target being killed if userdata and hasattr(userdata, 'remote'): realuser = userdata.remote else: realuser = get_orig_user(irc, target) log.debug('(%s) relay.handle_kill: realuser is %r', irc.name, realuser) # Target user was remote: if realuser and realuser[0] != irc.name: # We don't allow killing over the relay, so we must respawn the affected # client and rejoin it to its channels. del relayusers[realuser][irc.name] remoteirc = world.networkobjects[realuser[0]] for remotechan in remoteirc.users[realuser[1]].channels: localchan = get_remote_channel(remoteirc, irc, remotechan) if localchan: modes = get_prefix_modes(remoteirc, irc, remotechan, realuser[1]) log.debug('(%s) relay.handle_kill: userpair: %s, %s', irc.name, modes, realuser) client = get_remote_user(remoteirc, irc, realuser[1], times_tagged=1) irc.sjoin(get_remote_sid(irc, remoteirc), localchan, [(modes, client)]) if userdata and numeric in irc.users: log.info('(%s) relay.handle_kill: Blocked KILL (reason %r) from %s to relay client %s/%s.', irc.name, args['text'], irc.users[numeric].nick, remoteirc.users[realuser[1]].nick, realuser[0]) irc.msg(numeric, "Your kill to %s has been blocked " "because PyLink does not allow killing" " users over the relay at this time." % \ userdata.nick, notice=True) else: log.info('(%s) relay.handle_kill: Blocked KILL (reason %r) from server %s to relay client %s/%s.', irc.name, args['text'], irc.servers[numeric].name, remoteirc.users[realuser[1]].nick, realuser[0]) # Target user was local. else: # IMPORTANT: some IRCds (charybdis) don't send explicit QUIT messages # for locally killed clients, while others (inspircd) do! # If we receive a user object in 'userdata' instead of None, it means # that the KILL hasn't been handled by a preceding QUIT message. if userdata: handle_quit(irc, target, 'KILL', {'text': args['text']}) utils.add_hook(handle_kill, 'KILL') def handle_away(irc, numeric, command, args): iterate_all_present(irc, numeric, lambda irc, remoteirc, user: remoteirc.away(user, args['text'])) utils.add_hook(handle_away, 'AWAY') def handle_invite(irc, source, command, args): target = args['target'] channel = args['channel'] if is_relay_client(irc, target): remotenet, remoteuser = get_orig_user(irc, target) remoteirc = world.networkobjects[remotenet] remotechan = get_remote_channel(irc, remoteirc, channel) remotesource = get_remote_user(irc, remoteirc, source, spawn_if_missing=False) if remotesource is None: irc.msg(source, 'You must be in a common channel ' 'with %s to invite them to channels.' % \ irc.users[target].nick, notice=True) elif remotechan is None: irc.msg(source, 'You cannot invite someone to a ' 'channel not on their network!', notice=True) else: remoteirc.invite(remotesource, remoteuser, remotechan) utils.add_hook(handle_invite, 'INVITE') def handle_endburst(irc, numeric, command, args): if numeric == irc.uplink: initialize_all(irc) utils.add_hook(handle_endburst, "ENDBURST") def handle_services_login(irc, numeric, command, args): """ Relays services account changes as a hook, for integration with plugins like Automode. """ iterate_all_present(irc, numeric, lambda irc, remoteirc, user: remoteirc.call_hooks([user, 'PYLINK_RELAY_SERVICES_LOGIN', args])) utils.add_hook(handle_services_login, 'CLIENT_SERVICES_LOGIN') def handle_disconnect(irc, numeric, command, args): """Handles IRC network disconnections (internal hook).""" # Quit all of our users' representations on other nets, and remove # them from our relay clients index. log.debug('(%s) Grabbing spawnlocks[%s] from thread %r in function %r', irc.name, irc.name, threading.current_thread().name, inspect.currentframe().f_code.co_name) if spawnlocks[irc.name].acquire(timeout=TCONDITION_TIMEOUT): for k, v in relayusers.copy().items(): if irc.name in v: del relayusers[k][irc.name] if k[0] == irc.name: del relayusers[k] spawnlocks[irc.name].release() # SQUIT all relay pseudoservers spawned for us, and remove them # from our relay subservers index. log.debug('(%s) Grabbing spawnlocks_servers[%s] from thread %r in function %r', irc.name, irc.name, threading.current_thread().name, inspect.currentframe().f_code.co_name) if spawnlocks_servers[irc.name].acquire(timeout=TCONDITION_TIMEOUT): def _handle_disconnect_loop(irc, remoteirc): name = remoteirc.name if name != irc.name: try: rsid = relayservers[name][irc.name] except KeyError: return else: remoteirc.proto.squit(remoteirc.sid, rsid, text='Relay network lost connection.') if irc.name in relayservers[name]: del relayservers[name][irc.name] iterate_all(irc, _handle_disconnect_loop) try: del relayservers[irc.name] except KeyError: # Already removed; ignore. pass spawnlocks_servers[irc.name].release() # Announce the disconnects to every leaf channel where the disconnected network is the owner announcement = conf.conf.get('relay', {}).get('disconnect_announcement') log.debug('(%s) relay: last connection successful: %s', irc.name, args.get('was_successful')) if announcement and args.get('was_successful'): for chanpair, entrydata in db.items(): log.debug('(%s) relay: Looking up %s', irc.name, chanpair) if chanpair[0] == irc.name: for leaf in entrydata['links']: log.debug('(%s) relay: Announcing disconnect to %s%s', irc.name, leaf[0], leaf[1]) remoteirc = world.networkobjects.get(leaf[0]) if remoteirc and remoteirc.connected.is_set(): text = string.Template(announcement).safe_substitute( {'homenetwork': irc.name, 'homechannel': chanpair[1], 'network': remoteirc.name, 'channel': leaf[1]}) remoteirc.msg(leaf[1], text, loopback=False) utils.add_hook(handle_disconnect, "PYLINK_DISCONNECT") def nick_collide(irc, target): """ Handles nick collisions on relay clients and attempts to fix nicks. """ remotenet, remoteuser = get_orig_user(irc, target) remoteirc = world.networkobjects[remotenet] nick = remoteirc.users[remoteuser].nick # Force a tagged nick by setting times_tagged to 1. newnick = normalize_nick(irc, remotenet, nick, times_tagged=1) log.debug('(%s) relay.nick_collide: Fixing nick of relay client %r (%s) to %s', irc.name, target, nick, newnick) irc.nick(target, newnick) def handle_save(irc, numeric, command, args): target = args['target'] if is_relay_client(irc, target): # Nick collision! # It's one of our relay clients; try to fix our nick to the next # available normalized nick. nick_collide(irc, target) else: # Somebody else on the network (not a PyLink client) had a nick collision; # relay this as a nick change appropriately. handle_nick(irc, target, 'SAVE', {'oldnick': None, 'newnick': target}) utils.add_hook(handle_save, "SAVE") def handle_svsnick(irc, numeric, command, args): """ Handles forced nick change attempts to relay clients, tagging their nick. """ target = args['target'] if is_relay_client(irc, target): nick_collide(irc, target) utils.add_hook(handle_svsnick, "SVSNICK") ### PUBLIC COMMANDS def create(irc, source, args): """ Opens up the given channel over PyLink Relay.""" try: channel = irc.to_lower(args[0]) except IndexError: irc.error("Not enough arguments. Needs 1: channel.") return if not irc.is_channel(channel): irc.error('Invalid channel %r.' % channel) return if not irc.has_cap('can-host-relay'): irc.error('Clientbot networks cannot be used to host a relay.') return if channel not in irc.channels or source not in irc.channels[channel].users: irc.error('You must be in %r to complete this operation.' % channel) return permissions.check_permissions(irc, source, ['relay.create']) # Check to see whether the channel requested is already part of a different # relay. localentry = get_relay(irc, channel) if localentry: irc.error('Channel %r is already part of a relay.' % channel) return creator = irc.get_hostmask(source) # Create the relay database entry with the (network name, channel name) # pair - this is just a dict with various keys. db[(irc.name, channel)] = {'claim': [irc.name], 'links': set(), 'blocked_nets': set(), 'creator': creator, 'ts': time.time()} log.info('(%s) relay: Channel %s created by %s.', irc.name, channel, creator) initialize_channel(irc, channel) irc.reply('Done.') create = utils.add_cmd(create, featured=True) def stop_relay(entry): """Internal function to deinitialize a relay link and its leaves.""" network, channel = entry # Iterate over all the channel links and deinitialize them. for link in db[entry]['links']: remove_channel(world.networkobjects.get(link[0]), link[1]) remove_channel(world.networkobjects.get(network), channel) def destroy(irc, source, args): """[] Removes the given channel from the PyLink Relay, delinking all networks linked to it. If the home network is given and you are logged in as admin, this can also remove relay channels from other networks.""" try: # Two args were given: first one is network name, second is channel. channel = irc.to_lower(args[1]) network = args[0] except IndexError: try: # One argument was given; assume it's just the channel. channel = irc.to_lower(args[0]) network = irc.name except IndexError: irc.error("Not enough arguments. Needs 1-2: channel, network (optional).") return if not irc.is_channel(channel): irc.error('Invalid channel %r.' % channel) return # Check for different permissions based on whether we're destroying a local channel or # a remote one. if network == irc.name: permissions.check_permissions(irc, source, ['relay.destroy']) else: permissions.check_permissions(irc, source, ['relay.destroy.remote']) entry = (network, channel) if entry in db: stop_relay(entry) del db[entry] log.info('(%s) relay: Channel %s destroyed by %s.', irc.name, channel, irc.get_hostmask(source)) irc.reply('Done.') else: irc.error("No such channel %r exists. If you're trying to delink a channel from " "another network, use the DESTROY command." % channel) return destroy = utils.add_cmd(destroy, featured=True) @utils.add_cmd def purge(irc, source, args): """ Destroys all links relating to the target network.""" permissions.check_permissions(irc, source, ['relay.purge']) try: network = args[0] except IndexError: irc.error("Not enough arguments. Needs 1: network.") return count = 0 for entry in db.copy(): # Entry was owned by the target network; remove it if entry[0] == network: count += 1 stop_relay(entry) del db[entry] else: # Drop leaf channels involving the target network for link in db[entry]['links'].copy(): if link[0] == network: count += 1 remove_channel(world.networkobjects.get(network), link[1]) db[entry]['links'].remove(link) irc.reply("Done. Purged %s entries involving the network %s." % (count, network)) link_parser = utils.IRCParser() link_parser.add_argument('remotenet') link_parser.add_argument('channel') link_parser.add_argument('localchannel', nargs='?') link_parser.add_argument("-f", "--force", action='store_true') def link(irc, source, args): """ [] [-f/--force] Links the specified channel on \x02remotenet\x02 over PyLink Relay as \x02local channel\x02. If \x02local channel\x02 is not specified, it defaults to the same name as \x02channel\x02. If the --force option is given, this command will bypass checks for TS and whether the target network is alive, and link the channel anyways.""" args = link_parser.parse_args(args) # Normalize channel case channel = irc.to_lower(args.channel) localchan = irc.to_lower(args.localchannel or args.channel) remotenet = args.remotenet for c in (channel, localchan): if not irc.is_channel(c): irc.error('Invalid channel %r.' % c) return if remotenet == irc.name: irc.error('Cannot link two channels on the same network.') return if localchan not in irc.channels or source not in irc.channels[localchan].users: # Caller is not in the requested channel. log.debug('(%s) Source not in channel %s; protoname=%s', irc.name, localchan, irc.protoname) if irc.protoname == 'clientbot': # Special case for Clientbot: join the requested channel first, then # require that the caller be opped. if localchan not in irc.pseudoclient.channels: irc.join(irc.pseudoclient.uid, localchan) irc.reply('Joining %r now to check for op status; please run this command again after I join.' % localchan) return elif not irc.channels[localchan].is_op_plus(source): irc.error('You must be opped in %r to complete this operation.' % localchan) return else: irc.error('You must be in %r to complete this operation.' % localchan) return permissions.check_permissions(irc, source, ['relay.link']) if remotenet not in world.networkobjects: irc.error('No network named %r exists.' % remotenet) return localentry = get_relay(irc, localchan) if localentry: irc.error('Channel %r is already part of a relay.' % localchan) return try: entry = db[(remotenet, channel)] except KeyError: irc.error('No such relay %r exists.' % args.channel) return else: if irc.name in entry['blocked_nets']: irc.error('Access denied (target channel is not open to links).') return for link in entry['links']: if link[0] == irc.name: irc.error("Remote channel '%s%s' is already linked here " "as %r." % (remotenet, args.channel, link[1])) return if args.force: permissions.check_permissions(irc, source, ['relay.link.force']) log.info("(%s) relay: Forcing link %s%s -> %s%s", irc.name, irc.name, localchan, remotenet, args.channel) else: if not world.networkobjects[remotenet].connected.is_set(): log.debug('(%s) relay: Blocking link request %s%s -> %s%s because the target ' 'network is down', irc.name, irc.name, localchan, remotenet, args.channel) irc.error("The target network %s is not connected; refusing to link (you may be " "able to override this with the --force option)." % remotenet) return our_ts = irc.channels[localchan].ts if channel not in world.networkobjects[remotenet].channels: irc.error("Unknown target channel %r." % channel) return their_ts = world.networkobjects[remotenet].channels[channel].ts if (our_ts < their_ts) and irc.has_cap('has-ts'): log.debug('(%s) relay: Blocking link request %s%s -> %s%s due to bad TS (%s < %s)', irc.name, irc.name, localchan, remotenet, args.channel, our_ts, their_ts) irc.error("The channel creation date (TS) on %s (%s) is lower than the target " "channel's (%s); refusing to link. You should clear the local channel %s first " "before linking, or use a different local channel (you may be able to " "override this with the --force option)." % (localchan, our_ts, their_ts, localchan)) return entry['links'].add((irc.name, localchan)) log.info('(%s) relay: Channel %s linked to %s%s by %s.', irc.name, localchan, remotenet, args.channel, irc.get_hostmask(source)) initialize_channel(irc, localchan) irc.reply('Done.') link = utils.add_cmd(link, featured=True) def delink(irc, source, args): """ [] Delinks the given channel from PyLink Relay. \x02network\x02 must and can only be specified if you are on the host network for the channel given, and allows you to pick which network to delink. To remove a relay channel entirely, use the 'destroy' command instead.""" try: channel = irc.to_lower(args[0]) except IndexError: irc.error("Not enough arguments. Needs 1-2: channel, remote netname (optional).") return try: remotenet = args[1] except IndexError: remotenet = None permissions.check_permissions(irc, source, ['relay.delink']) if not irc.is_channel(channel): irc.error('Invalid channel %r.' % channel) return entry = get_relay(irc, channel) if entry: if entry[0] == irc.name: # We own this channel. if not remotenet: irc.error("You must select a network to " "delink, or use the 'destroy' command to remove " "this relay entirely (it was created on the current " "network).") return else: for link in db[entry]['links'].copy(): if link[0] == remotenet: remove_channel(world.networkobjects.get(remotenet), link[1]) db[entry]['links'].remove(link) else: remove_channel(irc, channel) db[entry]['links'].remove((irc.name, channel)) irc.reply('Done.') log.info('(%s) relay: Channel %s delinked from %s%s by %s.', irc.name, channel, entry[0], entry[1], irc.get_hostmask(source)) else: irc.error('No such relay %r.' % channel) delink = utils.add_cmd(delink, featured=True) def linked(irc, source, args): """[] Returns a list of channels shared across PyLink Relay. If \x02network\x02 is given, filters output to channels linked to the given network.""" permissions.check_permissions(irc, source, ['relay.linked']) # Only show remote networks that are marked as connected. remote_networks = [netname for netname, ircobj in world.networkobjects.copy().items() if ircobj.connected.is_set()] # But remove the current network from the list, so that it isn't shown twice. remote_networks.remove(irc.name) remote_networks.sort() s = 'Connected networks: \x02%s\x02 %s' % (irc.name, ' '.join(remote_networks)) # Always reply in private to prevent floods. irc.reply(s, private=True) net = '' try: net = args[0] except: pass else: irc.reply("Showing channels linked to %s:" % net, private=True) # Sort the list of shared channels when displaying for k, v in sorted(db.items()): # Skip if we're filtering by network and the network given isn't relayed # to the channel. if net and not (net == k[0] or net in [link[0] for link in v['links']]): continue # Bold each network/channel name pair s = '\x02%s%s\x02 ' % k remoteirc = world.networkobjects.get(k[0]) channel = k[1] # Get the channel name from the network/channel pair if remoteirc and channel in remoteirc.channels: c = remoteirc.channels[channel] if ('s', None) in c.modes or ('p', None) in c.modes: # Only show secret channels to opers or those in the channel, and tag them as # [secret]. localchan = get_remote_channel(remoteirc, irc, channel) if irc.is_oper(source) or (localchan and source in irc.channels[localchan].users): s += '\x02[secret]\x02 ' else: continue if v['links']: # Sort, join up and output all the linked channel names. Silently drop # entries for disconnected networks. s += ' '.join([''.join(link) for link in sorted(v['links']) if link[0] in world.networkobjects and world.networkobjects[link[0]].connected.is_set()]) else: # Unless it's empty; then, well... just say no relays yet. s += '(no relays yet)' irc.reply(s, private=True) if irc.is_oper(source): s = '' # If the caller is an oper, we can show the hostmasks of people # that created all the available channels (Janus does this too!!) creator = v.get('creator') if creator: # But only if the value actually exists (old DBs will have it # missing). s += ' by \x02%s\x02' % creator # Ditto for creation date ts = v.get('ts') if ts: s += ' on %s' % time.ctime(ts) if s: # Indent to make the list look nicer irc.reply(' Channel created%s.' % s, private=True) linked = utils.add_cmd(linked, featured=True) @utils.add_cmd def linkacl(irc, source, args): """ALLOW|DENY|LIST Allows blocking / unblocking certain networks from linking to a relayed channel, based on a blacklist. LINKACL LIST returns a list of blocked networks for a channel, while the ALLOW and DENY subcommands allow manipulating this blacklist.""" missingargs = "Not enough arguments. Needs 2-3: subcommand (ALLOW/DENY/LIST), channel, remote network (for ALLOW/DENY)." try: cmd = args[0].lower() channel = irc.to_lower(args[1]) except IndexError: irc.error(missingargs) return if not irc.is_channel(channel): irc.error('Invalid channel %r.' % channel) return relay = get_relay(irc, channel) if not relay: irc.error('No such relay %r exists.' % channel) return if cmd == 'list': permissions.check_permissions(irc, source, ['relay.linkacl.view']) s = 'Blocked networks for \x02%s\x02: \x02%s\x02' % (channel, ', '.join(db[relay]['blocked_nets']) or '(empty)') irc.reply(s) return permissions.check_permissions(irc, source, ['relay.linkacl']) try: remotenet = args[2] except IndexError: irc.error(missingargs) return if cmd == 'deny': db[relay]['blocked_nets'].add(remotenet) irc.reply('Done.') elif cmd == 'allow': try: db[relay]['blocked_nets'].remove(remotenet) except KeyError: irc.error('Network %r is not on the blacklist for %r.' % (remotenet, channel)) else: irc.reply('Done.') else: irc.error('Unknown subcommand %r: valid ones are ALLOW, DENY, and LIST.' % cmd) @utils.add_cmd def showuser(irc, source, args): """ Shows relay data about the given user. This supplements the 'showuser' command in the 'commands' plugin, which provides more general information.""" try: target = args[0] except IndexError: # No errors here; showuser from the commands plugin already does this # for us. return u = irc.nick_to_uid(target) if u: irc.reply("Showing relay information on user \x02%s\x02:" % irc.users[u].nick, private=True) try: userpair = get_orig_user(irc, u) or (irc.name, u) remoteusers = relayusers[userpair].items() except KeyError: pass else: nicks = [] if remoteusers: nicks.append('%s:\x02%s\x02' % (userpair[0], world.networkobjects[userpair[0]].users[userpair[1]].nick)) for r in remoteusers: remotenet, remoteuser = r remoteirc = world.networkobjects[remotenet] nicks.append('%s:\x02%s\x02' % (remotenet, remoteirc.users[remoteuser].nick)) irc.reply("\x02Relay nicks\x02: %s" % ', '.join(nicks), private=True) relaychannels = [] for ch in irc.users[u].channels: relay = get_relay(irc, ch) if relay: relaychannels.append(''.join(relay)) if relaychannels and (irc.is_oper(source) or u == source): irc.reply("\x02Relay channels\x02: %s" % ' '.join(relaychannels), private=True) @utils.add_cmd def showchan(irc, source, args): """ Shows relay data about the given channel. This supplements the 'showchan' command in the 'commands' plugin, which provides more general information.""" try: channel = irc.to_lower(args[0]) except IndexError: return if channel not in irc.channels: return f = lambda s: irc.reply(s, private=True) c = irc.channels[channel] # Only show verbose info if caller is oper or is in the target channel. verbose = source in c.users or irc.is_oper(source) secret = ('s', None) in c.modes if secret and not verbose: # Hide secret channels from normal users. return else: relayentry = get_relay(irc, channel) if relayentry: relays = ['\x02%s\x02' % ''.join(relayentry)] relays += [''.join(link) for link in db[relayentry]['links']] f('\x02Relayed channels:\x02 %s' % (' '.join(relays))) @utils.add_cmd def save(irc, source, args): """takes no arguments. Saves the relay database to disk.""" permissions.check_permissions(irc, source, ['relay.savedb']) datastore.save() irc.reply('Done.') @utils.add_cmd def claim(irc, source, args): """ [] Sets the CLAIM for a channel to a case-sensitive list of networks. If no list of networks is given, this shows which networks have a claim over the channel. A single hyphen (-) can also be given as a list of networks to disable CLAIM from the channel entirely. CLAIM is a way of enforcing network ownership for channels, similar to Janus. Unless a channel's CLAIM list is empty, only networks on its CLAIM list (plus the creating network) are allowed to override kicks, mode changes, and topic changes - attempts from other networks are either blocked or reverted. "override" in this case refers to any KICK, MODE, or TOPIC change from a sender that is not halfop or above in the channel (this affects servers and services as well). """ try: channel = irc.to_lower(args[0]) except IndexError: irc.error("Not enough arguments. Needs 1-2: channel, list of networks (optional).") return permissions.check_permissions(irc, source, ['relay.claim']) # We override get_relay() here to limit the search to the current network. relay = (irc.name, channel) if relay not in db: irc.error('No relay %r exists on this network (this command must be run on the ' 'network this channel was created on).' % channel) return claimed = db[relay]["claim"] try: nets = args[1].strip() except IndexError: # No networks given. irc.reply('Channel \x02%s\x02 is claimed by: %s' % (channel, ', '.join(claimed) or '\x1D(none)\x1D')) else: if nets == '-' or not nets: claimed = set() else: claimed = set(nets.split(',')) db[relay]["claim"] = claimed irc.reply('CLAIM for channel \x02%s\x02 set to: %s' % (channel, ', '.join(claimed) or '\x1D(none)\x1D'))