# -*- coding:utf-8 -*- ## src/common/connection_handlers.py ## ## Copyright (C) 2006 Dimitur Kirov ## Junglecow J ## Copyright (C) 2006-2007 Tomasz Melcer ## Travis Shirk ## Nikos Kouremenos ## Copyright (C) 2006-2014 Yann Leboulanger ## Copyright (C) 2007 Julien Pivotto ## Copyright (C) 2007-2008 Brendan Taylor ## Jean-Marie Traissard ## Stephan Erb ## Copyright (C) 2008 Jonathan Schleifer ## ## This file is part of Gajim. ## ## Gajim is free software; you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published ## by the Free Software Foundation; version 3 only. ## ## Gajim is distributed in the hope that it will be useful, ## but WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ## GNU General Public License for more details. ## ## You should have received a copy of the GNU General Public License ## along with Gajim. If not, see . ## import os import base64 import binascii import operator import hashlib from time import (altzone, daylight, gmtime, localtime, strftime, time as time_time, timezone, tzname) from gi.repository import GLib import nbxmpp from gajim.common import caps_cache as capscache from gajim.common.pep import LOCATION_DATA from gajim.common import helpers from gajim.common import app from gajim.common import dataforms from gajim.common import jingle_xtls from gajim.common.caps_cache import muc_caps_cache from gajim.common.commands import ConnectionCommands from gajim.common.pubsub import ConnectionPubSub from gajim.common.protocol.caps import ConnectionCaps from gajim.common.protocol.bytestream import ConnectionSocks5Bytestream from gajim.common.protocol.bytestream import ConnectionIBBytestream from gajim.common.message_archiving import ConnectionArchive313 from gajim.common.httpupload import ConnectionHTTPUpload from gajim.common.connection_handlers_events import * from gajim.common import ged from gajim.common import nec from gajim.common.nec import NetworkEvent from gajim.common.jingle import ConnectionJingle import logging log = logging.getLogger('gajim.c.connection_handlers') # kind of events we can wait for an answer AGENT_REMOVED = 'agent_removed' METACONTACTS_ARRIVED = 'metacontacts_arrived' ROSTER_ARRIVED = 'roster_arrived' DELIMITER_ARRIVED = 'delimiter_arrived' PRIVACY_ARRIVED = 'privacy_arrived' PEP_CONFIG = 'pep_config' class ConnectionDisco: """ Holds xmpppy handlers and public methods for discover services """ def discoverItems(self, jid, node=None, id_prefix=None): """ According to XEP-0030: jid is mandatory; name, node, action is optional. """ id_ = self._discover(nbxmpp.NS_DISCO_ITEMS, jid, node, id_prefix) self.disco_items_ids.append(id_) def discoverInfo(self, jid, node=None, id_prefix=None): """ According to XEP-0030: For identity: category, type is mandatory, name is optional. For feature: var is mandatory. """ id_ = self._discover(nbxmpp.NS_DISCO_INFO, jid, node, id_prefix) self.disco_info_ids.append(id_) def discoverMUC(self, jid, callback): if muc_caps_cache.is_cached(jid): callback() return disco_info = nbxmpp.Iq(typ='get', to=jid, queryNS=nbxmpp.NS_DISCO_INFO) self.connection.SendAndCallForResponse( disco_info, self.received_muc_info, {'callback': callback}) def received_muc_info(self, conn, stanza, callback): if nbxmpp.isResultNode(stanza): app.log('gajim.muc').info( 'Received MUC DiscoInfo for %s', stanza.getFrom()) muc_caps_cache.append(stanza) callback() else: error = stanza.getError() if error == 'item-not-found': # Groupchat does not exist callback() return app.nec.push_incoming_event( InformationEvent( None, dialog_name='unable-join-groupchat', args=error)) def request_register_agent_info(self, agent): if not self.connection or self.connected < 2: return None iq = nbxmpp.Iq('get', nbxmpp.NS_REGISTER, to=agent) id_ = self.connection.getAnID() iq.setID(id_) # Wait the answer during 30 secondes self.awaiting_timeouts[app.idlequeue.current_time() + 30] = (id_, _('Registration information for transport %s has not arrived in ' 'time') % agent) self.connection.SendAndCallForResponse(iq, self._ReceivedRegInfo, {'agent': agent}) def _agent_registered_cb(self, con, resp, agent): if resp.getType() == 'result': app.nec.push_incoming_event(InformationEvent( None, dialog_name='agent-register-success', args=agent)) self.request_subscription(agent, auto_auth=True) self.agent_registrations[agent]['roster_push'] = True if self.agent_registrations[agent]['sub_received']: p = nbxmpp.Presence(agent, 'subscribed') p = self.add_sha(p) self.connection.send(p) if resp.getType() == 'error': app.nec.push_incoming_event(InformationEvent( None, dialog_name='agent-register-error', kwargs={'agent': agent, 'error': resp.getError(), 'error_msg': resp.getErrorMsg()})) def register_agent(self, agent, info, is_form=False): if not self.connection or self.connected < 2: return if is_form: iq = nbxmpp.Iq('set', nbxmpp.NS_REGISTER, to=agent) query = iq.setQuery() info.setAttr('type', 'submit') query.addChild(node=info) self.connection.SendAndCallForResponse(iq, self._agent_registered_cb, {'agent': agent}) else: # fixed: blocking nbxmpp.features_nb.register(self.connection, agent, info, self._agent_registered_cb, {'agent': agent}) self.agent_registrations[agent] = {'roster_push': False, 'sub_received': False} def _discover(self, ns, jid, node=None, id_prefix=None): if not self.connection or self.connected < 2: return iq = nbxmpp.Iq(typ='get', to=jid, queryNS=ns) id_ = self.connection.getAnID() if id_prefix: id_ = id_prefix + id_ iq.setID(id_) if node: iq.setQuerynode(node) self.connection.send(iq) return id_ def _ReceivedRegInfo(self, con, resp, agent): nbxmpp.features_nb._ReceivedRegInfo(con, resp, agent) self._IqCB(con, resp) def _discoGetCB(self, con, iq_obj): """ Get disco info """ if not self.connection or self.connected < 2: return frm = helpers.get_full_jid_from_iq(iq_obj) to = iq_obj.getAttr('to') id_ = iq_obj.getAttr('id') iq = nbxmpp.Iq(to=frm, typ='result', queryNS=nbxmpp.NS_DISCO, frm=to) iq.setAttr('id', id_) query = iq.setTag('query') query.setAttr('node', 'http://gajim.org#' + app.version.split('-', 1)[ 0]) for f in (nbxmpp.NS_BYTESTREAM, nbxmpp.NS_SI, nbxmpp.NS_FILE, nbxmpp.NS_COMMANDS, nbxmpp.NS_JINGLE_FILE_TRANSFER_5, nbxmpp.NS_JINGLE_XTLS, nbxmpp.NS_PUBKEY_PUBKEY, nbxmpp.NS_PUBKEY_REVOKE, nbxmpp.NS_PUBKEY_ATTEST): feature = nbxmpp.Node('feature') feature.setAttr('var', f) query.addChild(node=feature) self.connection.send(iq) raise nbxmpp.NodeProcessed def _DiscoverItemsErrorCB(self, con, iq_obj): log.debug('DiscoverItemsErrorCB') app.nec.push_incoming_event(AgentItemsErrorReceivedEvent(None, conn=self, stanza=iq_obj)) def _DiscoverItemsCB(self, con, iq_obj): log.debug('DiscoverItemsCB') app.nec.push_incoming_event(AgentItemsReceivedEvent(None, conn=self, stanza=iq_obj)) def _DiscoverItemsGetCB(self, con, iq_obj): log.debug('DiscoverItemsGetCB') if not self.connection or self.connected < 2: return if self.commandItemsQuery(con, iq_obj): raise nbxmpp.NodeProcessed node = iq_obj.getTagAttr('query', 'node') if node is None: result = iq_obj.buildReply('result') self.connection.send(result) raise nbxmpp.NodeProcessed if node == nbxmpp.NS_COMMANDS: self.commandListQuery(con, iq_obj) raise nbxmpp.NodeProcessed def _DiscoverInfoGetCB(self, con, iq_obj): log.debug('DiscoverInfoGetCB') if not self.connection or self.connected < 2: return node = iq_obj.getQuerynode() if self.commandInfoQuery(con, iq_obj): raise nbxmpp.NodeProcessed id_ = iq_obj.getAttr('id') if id_[:6] == 'Gajim_': # We get this request from echo.server raise nbxmpp.NodeProcessed iq = iq_obj.buildReply('result') q = iq.setQuery() if node: q.setAttr('node', node) q.addChild('identity', attrs=app.gajim_identity) client_version = 'http://gajim.org#' + app.caps_hash[self.name] if node in (None, client_version): for f in app.gajim_common_features: q.addChild('feature', attrs={'var': f}) for f in app.gajim_optional_features[self.name]: q.addChild('feature', attrs={'var': f}) if q.getChildren(): self.connection.send(iq) raise nbxmpp.NodeProcessed def _DiscoverInfoErrorCB(self, con, iq_obj): log.debug('DiscoverInfoErrorCB') app.nec.push_incoming_event(AgentInfoErrorReceivedEvent(None, conn=self, stanza=iq_obj)) def _DiscoverInfoCB(self, con, iq_obj): log.debug('DiscoverInfoCB') if not self.connection or self.connected < 2: return app.nec.push_incoming_event(AgentInfoReceivedEvent(None, conn=self, stanza=iq_obj)) class ConnectionVcard: def __init__(self): self.own_vcard = None self.room_jids = [] self.avatar_presence_sent = False app.ged.register_event_handler('presence-received', ged.GUI2, self._vcard_presence_received) app.ged.register_event_handler('gc-presence-received', ged.GUI2, self._vcard_gc_presence_received) def _vcard_presence_received(self, obj): if obj.conn.name != self.name: return if obj.avatar_sha is None: # No Avatar is advertised return if self.get_own_jid().bareMatch(obj.jid): app.log('avatar').info('Update (vCard): %s %s', obj.jid, obj.avatar_sha) current_sha = app.config.get_per( 'accounts', self.name, 'avatar_sha') if obj.avatar_sha != current_sha: app.log('avatar').info( 'Request (vCard): %s', obj.jid) self.request_vcard(self._on_own_avatar_received) else: app.log('avatar').info( 'Avatar already known (vCard): %s %s', obj.jid, obj.avatar_sha) return if obj.avatar_sha == '': # Empty tag, means no avatar is advertised app.log('avatar').info( '%s has no avatar published (vCard)', obj.jid) # Remove avatar app.log('avatar').debug('Remove: %s', obj.jid) app.contacts.set_avatar(self.name, obj.jid, None) own_jid = self.get_own_jid().getStripped() app.logger.set_avatar_sha(own_jid, obj.jid, None) app.interface.update_avatar(self.name, obj.jid) else: app.log('avatar').info( 'Update (vCard): %s %s', obj.jid, obj.avatar_sha) current_sha = app.contacts.get_avatar_sha(self.name, obj.jid) if obj.avatar_sha != current_sha: app.log('avatar').info( 'Request (vCard): %s', obj.jid) self.request_vcard(self._on_avatar_received, obj.jid) else: app.log('avatar').info( 'Avatar already known (vCard): %s %s', obj.jid, obj.avatar_sha) def _vcard_gc_presence_received(self, obj): if obj.conn.name != self.name: return server = app.get_server_from_jid(obj.room_jid) if server.startswith('irc') or obj.avatar_sha is None: return if obj.show == 'offline': return gc_contact = app.contacts.get_gc_contact( self.name, obj.room_jid, obj.nick) if gc_contact is None: app.log('avatar').error('no gc contact found: %s', obj.nick) return if obj.avatar_sha == '': # Empty tag, means no avatar is advertised, remove avatar app.log('avatar').info( '%s has no avatar published (vCard)', obj.nick) app.log('avatar').debug('Remove: %s', obj.nick) gc_contact.avatar_sha = None app.interface.update_avatar(contact=gc_contact) else: app.log('avatar').info( 'Update (vCard): %s %s', obj.nick, obj.avatar_sha) path = os.path.join(app.AVATAR_PATH, obj.avatar_sha) if not os.path.isfile(path): app.log('avatar').info( 'Request (vCard): %s', obj.nick) obj.conn.request_vcard( self._on_avatar_received, obj.fjid, room=True) return if gc_contact.avatar_sha != obj.avatar_sha: app.log('avatar').info( '%s changed his Avatar (vCard): %s', obj.nick, obj.avatar_sha) gc_contact.avatar_sha = obj.avatar_sha app.interface.update_avatar(contact=gc_contact) else: app.log('avatar').info( 'Avatar already known (vCard): %s', obj.nick) def send_avatar_presence(self): show = helpers.get_xmpp_show(app.SHOW_LIST[self.connected]) p = nbxmpp.Presence(typ=None, priority=self.priority, show=show, status=self.status) p = self.add_sha(p) self.connection.send(p) app.interface.update_avatar(self.name, self.get_own_jid().getStripped()) def _node_to_dict(self, node): dict_ = {} for info in node.getChildren(): name = info.getName() if name in ('ADR', 'TEL', 'EMAIL'): # we can have several dict_.setdefault(name, []) entry = {} for c in info.getChildren(): entry[c.getName()] = c.getData() dict_[name].append(entry) elif info.getChildren() == []: dict_[name] = info.getData() else: dict_[name] = {} for c in info.getChildren(): dict_[name][c.getName()] = c.getData() return dict_ def request_vcard(self, callback, jid=None, room=False): """ Request the VCARD """ if not self.connection or self.connected < 2: return if room: room_jid = app.get_room_from_fjid(jid) if room_jid not in self.room_jids: self.room_jids.append(room_jid) iq = nbxmpp.Iq(typ='get') if jid: iq.setTo(jid) iq.setQuery('vCard').setNamespace(nbxmpp.NS_VCARD) self.connection.SendAndCallForResponse( iq, self._parse_vcard, {'callback': callback}) def send_vcard(self, vcard, sha): if not self.connection or self.connected < 2: return iq = nbxmpp.Iq(typ='set') iq2 = iq.setTag(nbxmpp.NS_VCARD + ' vCard') for i in vcard: if i == 'jid': continue if isinstance(vcard[i], dict): iq3 = iq2.addChild(i) for j in vcard[i]: iq3.addChild(j).setData(vcard[i][j]) elif isinstance(vcard[i], list): for j in vcard[i]: iq3 = iq2.addChild(i) for k in j: iq3.addChild(k).setData(j[k]) else: iq2.addChild(i).setData(vcard[i]) self.connection.SendAndCallForResponse( iq, self._avatar_publish_result, {'sha': sha}) def _avatar_publish_result(self, con, stanza, sha): if stanza.getType() == 'result': current_sha = app.config.get_per( 'accounts', self.name, 'avatar_sha') if (current_sha != sha and app.SHOW_LIST[self.connected] != 'invisible'): if not self.connection or self.connected < 2: return app.config.set_per( 'accounts', self.name, 'avatar_sha', sha or '') own_jid = self.get_own_jid().getStripped() app.contacts.set_avatar(self.name, own_jid, sha) self.send_avatar_presence() app.log('avatar').info('%s: Published: %s', self.name, sha) app.nec.push_incoming_event( VcardPublishedEvent(None, conn=self)) elif stanza.getType() == 'error': app.nec.push_incoming_event( VcardNotPublishedEvent(None, conn=self)) def _get_vcard_photo(self, vcard, jid): try: photo = vcard['PHOTO']['BINVAL'] except (KeyError, AttributeError, TypeError): avatar_sha = None photo_decoded = None else: if photo == '': avatar_sha = None photo_decoded = None else: try: photo_decoded = base64.b64decode(photo.encode('utf-8')) except binascii.Error as error: app.log('avatar').warning('Invalid avatar for %s: %s', jid, error) return None, None avatar_sha = hashlib.sha1(photo_decoded).hexdigest() return avatar_sha, photo_decoded def _parse_vcard(self, con, stanza, callback): frm_jid = stanza.getFrom() room = False if frm_jid is None: frm_jid = self.get_own_jid() elif frm_jid.getStripped() in self.room_jids: room = True resource = frm_jid.getResource() jid = frm_jid.getStripped() stanza_error = stanza.getError() if stanza_error in ('service-unavailable', 'item-not-found', 'not-allowed'): app.log('avatar').info('vCard not available: %s %s', frm_jid, stanza_error) callback(jid, resource, room, {}) return vcard_node = stanza.getTag('vCard', namespace=nbxmpp.NS_VCARD) if vcard_node is None: app.log('avatar').info('vCard not available: %s', frm_jid) app.log('avatar').debug(stanza) return vcard = self._node_to_dict(vcard_node) if self.get_own_jid().bareMatch(jid): if 'NICKNAME' in vcard: app.nicks[self.name] = vcard['NICKNAME'] elif 'FN' in vcard: app.nicks[self.name] = vcard['FN'] app.nec.push_incoming_event( VcardReceivedEvent(None, conn=self, vcard_dict=vcard)) callback(jid, resource, room, vcard) def _on_own_avatar_received(self, jid, resource, room, vcard): avatar_sha, photo_decoded = self._get_vcard_photo(vcard, jid) app.log('avatar').info( 'Received own (vCard): %s', avatar_sha) self.own_vcard = vcard if avatar_sha is None: app.log('avatar').info('No avatar found (vCard)') app.config.set_per('accounts', self.name, 'avatar_sha', '') self.send_avatar_presence() return current_sha = app.config.get_per('accounts', self.name, 'avatar_sha') if current_sha == avatar_sha: path = os.path.join(app.AVATAR_PATH, current_sha) if not os.path.isfile(path): app.log('avatar').info( 'Caching (vCard): %s', current_sha) app.interface.save_avatar(photo_decoded) if self.avatar_presence_sent: app.log('avatar').debug('Avatar already advertised') return else: app.interface.save_avatar(photo_decoded) app.config.set_per('accounts', self.name, 'avatar_sha', avatar_sha) if app.SHOW_LIST[self.connected] == 'invisible': app.log('avatar').info( 'We are invisible, not publishing avatar') return self.send_avatar_presence() self.avatar_presence_sent = True def _on_avatar_received(self, jid, resource, room, vcard): """ Called when we receive a vCard Parse the vCard and trigger Events """ avatar_sha, photo_decoded = self._get_vcard_photo(vcard, jid) app.interface.save_avatar(photo_decoded) # Received vCard from a contact if room: app.log('avatar').info( 'Received (vCard): %s %s', resource, avatar_sha) contact = app.contacts.get_gc_contact(self.name, jid, resource) if contact is not None: contact.avatar_sha = avatar_sha app.interface.update_avatar(contact=contact) else: app.log('avatar').info('Received (vCard): %s %s', jid, avatar_sha) own_jid = self.get_own_jid().getStripped() app.logger.set_avatar_sha(own_jid, jid, avatar_sha) app.contacts.set_avatar(self.name, jid, avatar_sha) app.interface.update_avatar(self.name, jid) class ConnectionPEP(object): def __init__(self, account, dispatcher, pubsub_connection): self._account = account self._dispatcher = dispatcher self._pubsub_connection = pubsub_connection self.reset_awaiting_pep() def pep_change_account_name(self, new_name): self._account = new_name def reset_awaiting_pep(self): self.to_be_sent_activity = None self.to_be_sent_mood = None self.to_be_sent_tune = None self.to_be_sent_nick = None self.to_be_sent_location = None def send_awaiting_pep(self): """ Send pep info that were waiting for connection """ if self.to_be_sent_activity: self.send_activity(*self.to_be_sent_activity) if self.to_be_sent_mood: self.send_mood(*self.to_be_sent_mood) if self.to_be_sent_tune: self.send_tune(*self.to_be_sent_tune) if self.to_be_sent_nick: self.send_nick(self.to_be_sent_nick) if self.to_be_sent_location: self.send_location(self.to_be_sent_location) self.reset_awaiting_pep() def _pubsubEventCB(self, xmpp_dispatcher, msg): ''' Called when we receive with pubsub event. ''' app.nec.push_incoming_event(PEPReceivedEvent(None, conn=self, stanza=msg)) def send_activity(self, activity, subactivity=None, message=None): if self.connected == 1: # We are connecting, keep activity in mem and send it when we'll be # connected self.to_be_sent_activity = (activity, subactivity, message) return if not self.pep_supported: return item = nbxmpp.Node('activity', {'xmlns': nbxmpp.NS_ACTIVITY}) if activity: i = item.addChild(activity) if subactivity: i.addChild(subactivity) if message: i = item.addChild('text') i.addData(message) self._pubsub_connection.send_pb_publish('', nbxmpp.NS_ACTIVITY, item, '0') def retract_activity(self): if not self.pep_supported: return self.send_activity(None) # not all client support new XEP, so we still retract self._pubsub_connection.send_pb_retract('', nbxmpp.NS_ACTIVITY, '0') def send_mood(self, mood, message=None): if self.connected == 1: # We are connecting, keep mood in mem and send it when we'll be # connected self.to_be_sent_mood = (mood, message) return if not self.pep_supported: return item = nbxmpp.Node('mood', {'xmlns': nbxmpp.NS_MOOD}) if mood: item.addChild(mood) if message: i = item.addChild('text') i.addData(message) self._pubsub_connection.send_pb_publish('', nbxmpp.NS_MOOD, item, '0') def retract_mood(self): if not self.pep_supported: return self.send_mood(None) # not all client support new XEP, so we still retract self._pubsub_connection.send_pb_retract('', nbxmpp.NS_MOOD, '0') def send_tune(self, artist='', title='', source='', track=0, length=0, items=None): if self.connected == 1: # We are connecting, keep tune in mem and send it when we'll be # connected self.to_be_sent_tune = (artist, title, source, track, length, items) return if not self.pep_supported: return item = nbxmpp.Node('tune', {'xmlns': nbxmpp.NS_TUNE}) if artist: i = item.addChild('artist') i.addData(artist) if title: i = item.addChild('title') i.addData(title) if source: i = item.addChild('source') i.addData(source) if track: i = item.addChild('track') i.addData(track) if length: i = item.addChild('length') i.addData(length) if items: item.addChild(payload=items) self._pubsub_connection.send_pb_publish('', nbxmpp.NS_TUNE, item, '0') def retract_tune(self): if not self.pep_supported: return self.send_tune(None) # not all client support new XEP, so we still retract self._pubsub_connection.send_pb_retract('', nbxmpp.NS_TUNE, '0') def send_nickname(self, nick): if self.connected == 1: # We are connecting, keep nick in mem and send it when we'll be # connected self.to_be_sent_nick = nick return if not self.pep_supported: return item = nbxmpp.Node('nick', {'xmlns': nbxmpp.NS_NICK}) item.addData(nick) self._pubsub_connection.send_pb_publish('', nbxmpp.NS_NICK, item, '0') def retract_nickname(self): if not self.pep_supported: return self._pubsub_connection.send_pb_retract('', nbxmpp.NS_NICK, '0') def send_location(self, info): if self.connected == 1: # We are connecting, keep location in mem and send it when we'll be # connected self.to_be_sent_location = info return if not self.pep_supported: return item = nbxmpp.Node('geoloc', {'xmlns': nbxmpp.NS_LOCATION}) for field in LOCATION_DATA: if info.get(field, None): i = item.addChild(field) i.addData(info[field]) self._pubsub_connection.send_pb_publish('', nbxmpp.NS_LOCATION, item, '0') def retract_location(self): if not self.pep_supported: return self.send_location({}) # not all client support new XEP, so we still retract self._pubsub_connection.send_pb_retract('', nbxmpp.NS_LOCATION, '0') # basic connection handlers used here and in zeroconf class ConnectionHandlersBase: def __init__(self): # List of IDs we are waiting answers for {id: (type_of_request, data), } self.awaiting_answers = {} # List of IDs that will produce a timeout is answer doesn't arrive # {time_of_the_timeout: (id, message to send to gui), } self.awaiting_timeouts = {} # keep the jids we auto added (transports contacts) to not send the # SUBSCRIBED event to gui self.automatically_added = [] # keep track of sessions this connection has with other JIDs self.sessions = {} # IDs of sent messages (https://trac.gajim.org/ticket/8222) self.sent_message_ids = [] # We decrypt GPG messages one after the other. Keep queue in mem self.gpg_messages_to_decrypt = [] app.ged.register_event_handler('iq-error-received', ged.CORE, self._nec_iq_error_received) app.ged.register_event_handler('presence-received', ged.CORE, self._nec_presence_received) app.ged.register_event_handler('gc-presence-received', ged.CORE, self._nec_gc_presence_received) app.ged.register_event_handler('message-received', ged.CORE, self._nec_message_received) app.ged.register_event_handler('mam-message-received', ged.CORE, self._nec_message_received) app.ged.register_event_handler('mam-gc-message-received', ged.CORE, self._nec_message_received) app.ged.register_event_handler('decrypted-message-received', ged.CORE, self._nec_decrypted_message_received) app.ged.register_event_handler('gc-message-received', ged.CORE, self._nec_gc_message_received) def cleanup(self): app.ged.remove_event_handler('iq-error-received', ged.CORE, self._nec_iq_error_received) app.ged.remove_event_handler('presence-received', ged.CORE, self._nec_presence_received) app.ged.remove_event_handler('gc-presence-received', ged.CORE, self._nec_gc_presence_received) app.ged.remove_event_handler('message-received', ged.CORE, self._nec_message_received) app.ged.remove_event_handler('mam-message-received', ged.CORE, self._nec_message_received) app.ged.remove_event_handler('mam-gc-message-received', ged.CORE, self._nec_message_received) app.ged.remove_event_handler('decrypted-message-received', ged.CORE, self._nec_decrypted_message_received) app.ged.remove_event_handler('gc-message-received', ged.CORE, self._nec_gc_message_received) def _nec_iq_error_received(self, obj): if obj.conn.name != self.name: return def _nec_presence_received(self, obj): account = obj.conn.name if account != self.name: return jid = obj.jid resource = obj.resource or '' statuss = ['offline', 'error', 'online', 'chat', 'away', 'xa', 'dnd', 'invisible'] obj.old_show = 0 obj.new_show = statuss.index(obj.show) obj.contact_list = [] highest = app.contacts.get_contact_with_highest_priority(account, jid) obj.was_highest = (highest and highest.resource == resource) # Update contact obj.contact_list = app.contacts.get_contacts(account, jid) obj.contact = None resources = [] for c in obj.contact_list: resources.append(c.resource) if c.resource == resource: obj.contact = c break if obj.contact: if obj.contact.show in statuss: obj.old_show = statuss.index(obj.contact.show) # nick changed if obj.contact_nickname is not None and \ obj.contact.contact_name != obj.contact_nickname: obj.contact.contact_name = obj.contact_nickname obj.need_redraw = True elif obj.old_show != obj.new_show or obj.contact.status != \ obj.status: obj.need_redraw = True else: obj.contact = app.contacts.get_first_contact_from_jid(account, jid) if not obj.contact: # Presence of another resource of our jid # Create self contact and add to roster if resource == obj.conn.server_resource: return # Ignore offline presence of unknown self resource if obj.new_show < 2: return obj.contact = app.contacts.create_self_contact(jid=jid, account=account, show=obj.show, status=obj.status, priority=obj.prio, keyID=obj.keyID, resource=obj.resource) app.contacts.add_contact(account, obj.contact) obj.contact_list.append(obj.contact) elif obj.contact.show in statuss: obj.old_show = statuss.index(obj.contact.show) if (resources != [''] and (len(obj.contact_list) != 1 or \ obj.contact_list[0].show not in ('not in roster', 'offline'))) and \ not app.jid_is_transport(jid): # Another resource of an existing contact connected obj.old_show = 0 obj.contact = app.contacts.copy_contact(obj.contact) obj.contact_list.append(obj.contact) obj.contact.resource = resource obj.need_add_in_roster = True if not app.jid_is_transport(jid) and len(obj.contact_list) == 1: # It's not an agent if obj.old_show == 0 and obj.new_show > 1: if not jid in app.newly_added[account]: app.newly_added[account].append(jid) if jid in app.to_be_removed[account]: app.to_be_removed[account].remove(jid) elif obj.old_show > 1 and obj.new_show == 0 and \ obj.conn.connected > 1: if not jid in app.to_be_removed[account]: app.to_be_removed[account].append(jid) if jid in app.newly_added[account]: app.newly_added[account].remove(jid) obj.need_redraw = True obj.contact.show = obj.show obj.contact.status = obj.status obj.contact.priority = obj.prio attached_keys = app.config.get_per('accounts', account, 'attached_gpg_keys').split() if jid in attached_keys: obj.contact.keyID = attached_keys[attached_keys.index(jid) + 1] else: # Do not override assigned key obj.contact.keyID = obj.keyID obj.contact.contact_nickname = obj.contact_nickname obj.contact.idle_time = obj.idle_time if app.jid_is_transport(jid): return # It isn't an agent # reset chatstate if needed: # (when contact signs out or has errors) if obj.show in ('offline', 'error'): obj.contact.our_chatstate = obj.contact.chatstate = None # TODO: This causes problems when another # resource signs off! self.stop_all_active_file_transfers(obj.contact) # disable encryption, since if any messages are # lost they'll be not decryptable (note that # this contradicts XEP-0201 - trying to get that # in the XEP, though) # there won't be any sessions here if the contact terminated # their sessions before going offline (which we do) for sess in self.get_sessions(jid): sess_fjid = sess.jid.getStripped() if sess.resource: sess_fjid += '/' + sess.resource if obj.fjid != sess_fjid: continue if sess.control: sess.control.no_autonegotiation = False if sess.enable_encryption: sess.terminate_e2e() if app.config.get('log_contact_status_changes') and \ app.config.should_log(self.name, obj.jid): show = app.logger.convert_show_values_to_db_api_values(obj.show) if show is not None: app.logger.insert_into_logs(self.name, nbxmpp.JID(obj.jid).getStripped(), time_time(), KindConstant.STATUS, message=obj.status, show=show) def _nec_gc_presence_received(self, obj): if obj.conn.name != self.name: return for sess in self.get_sessions(obj.fjid): if obj.fjid != sess.jid: continue if sess.enable_encryption: sess.terminate_e2e() def _nec_message_received(self, obj): if obj.conn.name != self.name: return app.plugin_manager.extension_point( 'decrypt', self, obj, self._on_message_received) if not obj.encrypted: # XEP-0380 enc_tag = obj.stanza.getTag('encryption', namespace=nbxmpp.NS_EME) if enc_tag: ns = enc_tag.getAttr('namespace') if ns: if ns == 'urn:xmpp:otr:0': obj.msgtxt = _('This message was encrypted with OTR ' 'and could not be decrypted.') elif ns == 'jabber:x:encrypted': obj.msgtxt = _('This message was encrypted with Legacy ' 'OpenPGP and could not be decrypted. You can install ' 'the PGP plugin to handle those messages.') elif ns == 'urn:xmpp:openpgp:0': obj.msgtxt = _('This message was encrypted with ' 'OpenPGP for XMPP and could not be decrypted.') else: enc_name = enc_tag.getAttr('name') if not enc_name: enc_name = ns obj.msgtxt = _('This message was encrypted with %s ' 'and could not be decrypted.') % enc_name self._on_message_received(obj) def _on_message_received(self, obj): if isinstance(obj, MessageReceivedEvent): app.nec.push_incoming_event( DecryptedMessageReceivedEvent( None, conn=self, msg_obj=obj, stanza_id=obj.unique_id)) else: app.nec.push_incoming_event( MamDecryptedMessageReceivedEvent(None, **vars(obj))) def _nec_decrypted_message_received(self, obj): if obj.conn.name != self.name: return # Receipt requested # TODO: We shouldn't answer if we're invisible! contact = app.contacts.get_contact(self.name, obj.jid) nick = obj.resource gc_contact = app.contacts.get_gc_contact(self.name, obj.jid, nick) if obj.sent: jid_to = obj.stanza.getFrom() else: jid_to = obj.stanza.getTo() reply = False if not jid_to: reply = True else: fjid_to = helpers.parse_jid(str(jid_to)) jid_to = app.get_jid_without_resource(fjid_to) if jid_to == app.get_jid_from_account(self.name): reply = True if obj.jid != app.get_jid_from_account(self.name): if obj.receipt_request_tag and app.config.get_per('accounts', self.name, 'answer_receipts') and ((contact and contact.sub \ not in ('to', 'none')) or gc_contact) and obj.mtype != 'error' and \ reply: receipt = nbxmpp.Message(to=obj.fjid, typ='chat') receipt.setTag('received', namespace='urn:xmpp:receipts', attrs={'id': obj.id_}) if obj.thread_id: receipt.setThread(obj.thread_id) self.connection.send(receipt) # We got our message's receipt if obj.receipt_received_tag and app.config.get_per('accounts', self.name, 'request_receipt'): ctrl = obj.session.control if not ctrl: # Received doesn't have the element # or control is not bound to session? # --> search for it ctrl = app.interface.msg_win_mgr.search_control(obj.jid, obj.conn.name, obj.resource) if ctrl: id_ = obj.receipt_received_tag.getAttr('id') if not id_: # old XEP implementation id_ = obj.id_ ctrl.conv_textview.show_xep0184_ack(id_) if obj.mtype == 'error': if not obj.msgtxt: obj.msgtxt = _('message') self.dispatch_error_message(obj.stanza, obj.msgtxt, obj.session, obj.fjid, obj.timestamp) return True elif obj.mtype == 'groupchat': app.nec.push_incoming_event(GcMessageReceivedEvent(None, conn=self, msg_obj=obj, stanza_id=obj.unique_id)) return True def _check_for_mam_compliance(self, room_jid, stanza_id): namespace = muc_caps_cache.get_mam_namespace(room_jid) if stanza_id is None and namespace == nbxmpp.NS_MAM_2: helpers.add_to_mam_blacklist(room_jid) def _nec_gc_message_received(self, obj): if obj.conn.name != self.name: return self._check_for_mam_compliance(obj.jid, obj.unique_id) if (app.config.should_log(obj.conn.name, obj.jid) and obj.msgtxt and obj.nick): # if not obj.nick, it means message comes from room itself # usually it hold description and can be send at each connection # so don't store it in logs app.logger.insert_into_logs(self.name, obj.jid, obj.timestamp, KindConstant.GC_MSG, message=obj.msgtxt, contact_name=obj.nick, additional_data=obj.additional_data, stanza_id=obj.unique_id) app.logger.set_room_last_message_time(obj.room_jid, obj.timestamp) # process and dispatch an error message def dispatch_error_message(self, msg, msgtxt, session, frm, tim): error_msg = msg.getErrorMsg() if not error_msg: error_msg = msgtxt msgtxt = None subject = msg.getSubject() if session.is_loggable(): app.logger.insert_into_logs(self.name, nbxmpp.JID(frm).getStripped(), tim, KindConstant.ERROR, message=error_msg, subject=subject) app.nec.push_incoming_event(MessageErrorEvent(None, conn=self, fjid=frm, error_code=msg.getErrorCode(), error_msg=error_msg, msg=msgtxt, time_=tim, session=session, stanza=msg)) def get_sessions(self, jid): """ Get all sessions for the given full jid """ if not app.interface.is_pm_contact(jid, self.name): jid = app.get_jid_without_resource(jid) try: return list(self.sessions[jid].values()) except KeyError: return [] def get_or_create_session(self, fjid, thread_id): """ Return an existing session between this connection and 'jid', returns a new one if none exist """ pm = True jid = fjid if not app.interface.is_pm_contact(fjid, self.name): pm = False jid = app.get_jid_without_resource(fjid) session = self.find_session(jid, thread_id) if session: return session if pm: return self.make_new_session(fjid, thread_id, type_='pm') else: return self.make_new_session(fjid, thread_id) def find_session(self, jid, thread_id): try: if not thread_id: return self.find_null_session(jid) else: return self.sessions[jid][thread_id] except KeyError: return None def terminate_sessions(self, send_termination=False): """ Send termination messages and delete all active sessions """ for jid in self.sessions: for thread_id in self.sessions[jid]: self.sessions[jid][thread_id].terminate(send_termination) self.sessions = {} def delete_session(self, jid, thread_id): if not jid in self.sessions: jid = app.get_jid_without_resource(jid) if not jid in self.sessions: return del self.sessions[jid][thread_id] if not self.sessions[jid]: del self.sessions[jid] def find_null_session(self, jid): """ Find all of the sessions between us and a remote jid in which we haven't received a thread_id yet and returns the session that we last sent a message to """ sessions = list(self.sessions[jid].values()) # sessions that we haven't received a thread ID in idless = [s for s in sessions if not s.received_thread_id] # filter out everything except the default session type chat_sessions = [s for s in idless if isinstance(s, app.default_session_type)] if chat_sessions: # return the session that we last sent a message in return sorted(chat_sessions, key=operator.attrgetter('last_send'))[ -1] else: return None def get_latest_session(self, jid): """ Get the session that we last sent a message to """ if jid not in self.sessions: return None sessions = self.sessions[jid].values() if not sessions: return None return sorted(sessions, key=operator.attrgetter('last_send'))[-1] def find_controlless_session(self, jid, resource=None): """ Find an active session that doesn't have a control attached """ try: sessions = list(self.sessions[jid].values()) # filter out everything except the default session type chat_sessions = [s for s in sessions if isinstance(s, app.default_session_type)] orphaned = [s for s in chat_sessions if not s.control] if resource: orphaned = [s for s in orphaned if s.resource == resource] return orphaned[0] except (KeyError, IndexError): return None def make_new_session(self, jid, thread_id=None, type_='chat', cls=None): """ Create and register a new session thread_id=None to generate one. type_ should be 'chat' or 'pm'. """ if not cls: cls = app.default_session_type sess = cls(self, nbxmpp.JID(jid), thread_id, type_) # determine if this session is a pm session # if not, discard the resource so that all sessions are stored bare if not type_ == 'pm': jid = app.get_jid_without_resource(jid) if not jid in self.sessions: self.sessions[jid] = {} self.sessions[jid][sess.thread_id] = sess return sess class ConnectionHandlers(ConnectionArchive313, ConnectionVcard, ConnectionSocks5Bytestream, ConnectionDisco, ConnectionCommands, ConnectionPubSub, ConnectionPEP, ConnectionCaps, ConnectionHandlersBase, ConnectionJingle, ConnectionIBBytestream, ConnectionHTTPUpload): def __init__(self): ConnectionArchive313.__init__(self) ConnectionVcard.__init__(self) ConnectionSocks5Bytestream.__init__(self) ConnectionIBBytestream.__init__(self) ConnectionCommands.__init__(self) ConnectionPubSub.__init__(self) ConnectionPEP.__init__(self, account=self.name, dispatcher=self, pubsub_connection=self) ConnectionHTTPUpload.__init__(self) # Handle presences BEFORE caps app.nec.register_incoming_event(PresenceReceivedEvent) ConnectionCaps.__init__(self, account=self.name, capscache=capscache.capscache, client_caps_factory=capscache.create_suitable_client_caps) ConnectionJingle.__init__(self) ConnectionHandlersBase.__init__(self) # keep the latest subscribed event for each jid to prevent loop when we # acknowledge presences self.subscribed_events = {} # IDs of jabber:iq:version requests self.version_ids = [] # IDs of urn:xmpp:time requests self.entity_time_ids = [] # IDs of disco#items requests self.disco_items_ids = [] # IDs of disco#info requests self.disco_info_ids = [] # ID of urn:xmpp:ping requests self.awaiting_xmpp_ping_id = None self.continue_connect_info = None self.privacy_default_list = None app.nec.register_incoming_event(PrivateStorageBookmarksReceivedEvent) app.nec.register_incoming_event(BookmarksReceivedEvent) app.nec.register_incoming_event( PrivateStorageRosternotesReceivedEvent) app.nec.register_incoming_event(RosternotesReceivedEvent) app.nec.register_incoming_event(StreamConflictReceivedEvent) app.nec.register_incoming_event(StreamOtherHostReceivedEvent) app.nec.register_incoming_event(MessageReceivedEvent) app.nec.register_incoming_event(ArchivingErrorReceivedEvent) app.nec.register_incoming_event( Archiving313PreferencesChangedReceivedEvent) app.nec.register_incoming_event(NotificationEvent) app.ged.register_event_handler('http-auth-received', ged.CORE, self._nec_http_auth_received) app.ged.register_event_handler('version-request-received', ged.CORE, self._nec_version_request_received) app.ged.register_event_handler('last-request-received', ged.CORE, self._nec_last_request_received) app.ged.register_event_handler('time-request-received', ged.CORE, self._nec_time_request_received) app.ged.register_event_handler('time-revised-request-received', ged.CORE, self._nec_time_revised_request_received) app.ged.register_event_handler('roster-set-received', ged.CORE, self._nec_roster_set_received) app.ged.register_event_handler('private-storage-bookmarks-received', ged.CORE, self._nec_private_storate_bookmarks_received) app.ged.register_event_handler('private-storage-rosternotes-received', ged.CORE, self._nec_private_storate_rosternotes_received) app.ged.register_event_handler('roster-received', ged.CORE, self._nec_roster_received) app.ged.register_event_handler('iq-error-received', ged.CORE, self._nec_iq_error_received) app.ged.register_event_handler('ping-received', ged.CORE, self._nec_ping_received) app.ged.register_event_handler('subscribe-presence-received', ged.CORE, self._nec_subscribe_presence_received) app.ged.register_event_handler('subscribed-presence-received', ged.CORE, self._nec_subscribed_presence_received) app.ged.register_event_handler('subscribed-presence-received', ged.POSTGUI, self._nec_subscribed_presence_received_end) app.ged.register_event_handler('unsubscribed-presence-received', ged.CORE, self._nec_unsubscribed_presence_received) app.ged.register_event_handler('unsubscribed-presence-received', ged.POSTGUI, self._nec_unsubscribed_presence_received_end) app.ged.register_event_handler('agent-removed', ged.CORE, self._nec_agent_removed) app.ged.register_event_handler('stream-other-host-received', ged.CORE, self._nec_stream_other_host_received) app.ged.register_event_handler('blocking', ged.CORE, self._nec_blocking) def cleanup(self): ConnectionHandlersBase.cleanup(self) ConnectionCaps.cleanup(self) ConnectionArchive313.cleanup(self) ConnectionPubSub.cleanup(self) ConnectionHTTPUpload.cleanup(self) app.ged.remove_event_handler('http-auth-received', ged.CORE, self._nec_http_auth_received) app.ged.remove_event_handler('version-request-received', ged.CORE, self._nec_version_request_received) app.ged.remove_event_handler('last-request-received', ged.CORE, self._nec_last_request_received) app.ged.remove_event_handler('time-request-received', ged.CORE, self._nec_time_request_received) app.ged.remove_event_handler('time-revised-request-received', ged.CORE, self._nec_time_revised_request_received) app.ged.remove_event_handler('roster-set-received', ged.CORE, self._nec_roster_set_received) app.ged.remove_event_handler('private-storage-bookmarks-received', ged.CORE, self._nec_private_storate_bookmarks_received) app.ged.remove_event_handler('private-storage-rosternotes-received', ged.CORE, self._nec_private_storate_rosternotes_received) app.ged.remove_event_handler('roster-received', ged.CORE, self._nec_roster_received) app.ged.remove_event_handler('iq-error-received', ged.CORE, self._nec_iq_error_received) app.ged.remove_event_handler('ping-received', ged.CORE, self._nec_ping_received) app.ged.remove_event_handler('subscribe-presence-received', ged.CORE, self._nec_subscribe_presence_received) app.ged.remove_event_handler('subscribed-presence-received', ged.CORE, self._nec_subscribed_presence_received) app.ged.remove_event_handler('subscribed-presence-received', ged.POSTGUI, self._nec_subscribed_presence_received_end) app.ged.remove_event_handler('unsubscribed-presence-received', ged.CORE, self._nec_unsubscribed_presence_received) app.ged.remove_event_handler('unsubscribed-presence-received', ged.POSTGUI, self._nec_unsubscribed_presence_received_end) app.ged.remove_event_handler('agent-removed', ged.CORE, self._nec_agent_removed) app.ged.remove_event_handler('stream-other-host-received', ged.CORE, self._nec_stream_other_host_received) app.ged.remove_event_handler('blocking', ged.CORE, self._nec_blocking) def add_sha(self, p, send_caps=True): c = p.setTag('x', namespace=nbxmpp.NS_VCARD_UPDATE) sha = app.config.get_per('accounts', self.name, 'avatar_sha') app.log('avatar').info( '%s: Send avatar presence: %s', self.name, sha or 'empty') c.setTagData('photo', sha) if send_caps: return self._add_caps(p) return p def _add_caps(self, p): ''' advertise our capabilities in presence stanza (xep-0115)''' c = p.setTag('c', namespace=nbxmpp.NS_CAPS) c.setAttr('hash', 'sha-1') c.setAttr('node', 'http://gajim.org') c.setAttr('ver', app.caps_hash[self.name]) return p def build_http_auth_answer(self, iq_obj, answer): if not self.connection or self.connected < 2: return if answer == 'yes': confirm = iq_obj.getTag('confirm') reply = iq_obj.buildReply('result') if iq_obj.getName() == 'message': reply.addChild(node=confirm) self.connection.send(reply) elif answer == 'no': err = nbxmpp.Error(iq_obj, nbxmpp.protocol.ERR_NOT_AUTHORIZED) self.connection.send(err) def _nec_http_auth_received(self, obj): if obj.conn.name != self.name: return if obj.opt in ('yes', 'no'): obj.conn.build_http_auth_answer(obj.stanza, obj.opt) return True def _HttpAuthCB(self, con, iq_obj): log.debug('HttpAuthCB') app.nec.push_incoming_event(HttpAuthReceivedEvent(None, conn=self, stanza=iq_obj)) raise nbxmpp.NodeProcessed def _ErrorCB(self, con, iq_obj): log.debug('ErrorCB') app.nec.push_incoming_event(IqErrorReceivedEvent(None, conn=self, stanza=iq_obj)) def _IqCB(self, con, iq_obj): id_ = iq_obj.getID() app.nec.push_incoming_event(NetworkEvent('raw-iq-received', conn=self, stanza=iq_obj)) # Check if we were waiting a timeout for this id found_tim = None for tim in self.awaiting_timeouts: if id_ == self.awaiting_timeouts[tim][0]: found_tim = tim break if found_tim: del self.awaiting_timeouts[found_tim] if id_ not in self.awaiting_answers: return if self.awaiting_answers[id_][0] == AGENT_REMOVED: jid = self.awaiting_answers[id_][1] app.nec.push_incoming_event(AgentRemovedEvent(None, conn=self, agent=jid)) del self.awaiting_answers[id_] elif self.awaiting_answers[id_][0] == METACONTACTS_ARRIVED: if not self.connection: return if iq_obj.getType() == 'result': app.nec.push_incoming_event(MetacontactsReceivedEvent(None, conn=self, stanza=iq_obj)) else: if iq_obj.getErrorCode() not in ('403', '406', '404'): self.private_storage_supported = False self.get_roster_delimiter() del self.awaiting_answers[id_] elif self.awaiting_answers[id_][0] == DELIMITER_ARRIVED: del self.awaiting_answers[id_] if not self.connection: return if iq_obj.getType() == 'result': query = iq_obj.getTag('query') if not query: return delimiter = query.getTagData('roster') if delimiter: self.nested_group_delimiter = delimiter else: self.set_roster_delimiter('::') else: self.private_storage_supported = False # We can now continue connection by requesting the roster self.request_roster() elif self.awaiting_answers[id_][0] == ROSTER_ARRIVED: if iq_obj.getType() == 'result': if not iq_obj.getTag('query'): account_jid = app.get_jid_from_account(self.name) roster_data = app.logger.get_roster(account_jid) roster = self.connection.getRoster(force=True) roster.setRaw(roster_data) self._getRoster() elif iq_obj.getType() == 'error': self.roster_supported = False self.discoverItems(app.config.get_per('accounts', self.name, 'hostname'), id_prefix='Gajim_') if app.config.get_per('accounts', self.name, 'use_ft_proxies'): self.discover_ft_proxies() app.nec.push_incoming_event(RosterReceivedEvent(None, conn=self)) GLib.timeout_add_seconds(10, self.discover_servers) del self.awaiting_answers[id_] elif self.awaiting_answers[id_][0] == PRIVACY_ARRIVED: del self.awaiting_answers[id_] if iq_obj.getType() != 'error': for list_ in iq_obj.getQueryPayload(): if list_.getName() == 'default': self.privacy_default_list = list_.getAttr('name') self.get_privacy_list(self.privacy_default_list) break # Ask metacontacts before roster self.get_metacontacts() else: # That should never happen, but as it's blocking in the # connection process, we don't take the risk self.privacy_rules_supported = False self._continue_connection_request_privacy() elif self.awaiting_answers[id_][0] == PEP_CONFIG: del self.awaiting_answers[id_] if iq_obj.getType() == 'error': return if not iq_obj.getTag('pubsub'): return conf = iq_obj.getTag('pubsub').getTag('configure') if not conf: return node = conf.getAttr('node') form_tag = conf.getTag('x', namespace=nbxmpp.NS_DATA) if form_tag: form = dataforms.ExtendForm(node=form_tag) app.nec.push_incoming_event(PEPConfigReceivedEvent(None, conn=self, node=node, form=form)) def _nec_iq_error_received(self, obj): if obj.conn.name != self.name: return if obj.id_ in self.version_ids: app.nec.push_incoming_event(VersionResultReceivedEvent(None, conn=self, stanza=obj.stanza)) return True if obj.id_ in self.entity_time_ids: app.nec.push_incoming_event(TimeResultReceivedEvent(None, conn=self, stanza=obj.stanza)) return True if obj.id_ in self.disco_items_ids: app.nec.push_incoming_event(AgentItemsErrorReceivedEvent(None, conn=self, stanza=obj.stanza)) return True if obj.id_ in self.disco_info_ids: app.nec.push_incoming_event(AgentInfoErrorReceivedEvent(None, conn=self, stanza=obj.stanza)) return True def _nec_private_storate_bookmarks_received(self, obj): if obj.conn.name != self.name: return app.log('bookmarks').info('Received Bookmarks (PrivateStorage)') resend_to_pubsub = False bm_jids = [b['jid'] for b in self.bookmarks] for bm in obj.bookmarks: if bm['jid'] not in bm_jids: self.bookmarks.append(bm) # We got a bookmark that was not in pubsub resend_to_pubsub = True if resend_to_pubsub: self.store_bookmarks('pubsub') def _nec_private_storate_rosternotes_received(self, obj): if obj.conn.name != self.name: return for jid in obj.annotations: self.annotations[jid] = obj.annotations[jid] def _PrivateCB(self, con, iq_obj): """ Private Data (XEP 048 and 049) """ log.debug('PrivateCB') app.nec.push_incoming_event(PrivateStorageReceivedEvent(None, conn=self, stanza=iq_obj)) def _SecLabelCB(self, con, iq_obj): """ Security Label callback, used for catalogues. """ log.debug('SecLabelCB') query = iq_obj.getTag('catalog') to = query.getAttr('to') items = query.getTags('item') labels = {} ll = [] default = None for item in items: label = item.getAttr('selector') labels[label] = item.getTag('securitylabel') ll.append(label) if item.getAttr('default') == 'true': default = label if to not in self.seclabel_catalogues: self.seclabel_catalogues[to] = [[], None, None, None] self.seclabel_catalogues[to][1] = labels self.seclabel_catalogues[to][2] = ll self.seclabel_catalogues[to][3] = default for callback in self.seclabel_catalogues[to][0]: callback() self.seclabel_catalogues[to][0] = [] def seclabel_catalogue_request(self, to, callback): if to not in self.seclabel_catalogues: self.seclabel_catalogues[to] = [[], None, None, None] self.seclabel_catalogues[to][0].append(callback) def _rosterSetCB(self, con, iq_obj): log.debug('rosterSetCB') app.nec.push_incoming_event(RosterSetReceivedEvent(None, conn=self, stanza=iq_obj)) raise nbxmpp.NodeProcessed def _nec_roster_set_received(self, obj): if obj.conn.name != self.name: return for jid in obj.items: item = obj.items[jid] app.nec.push_incoming_event(RosterInfoEvent(None, conn=self, jid=jid, nickname=item['name'], sub=item['sub'], ask=item['ask'], groups=item['groups'])) account_jid = app.get_jid_from_account(self.name) app.logger.add_or_update_contact(account_jid, jid, item['name'], item['sub'], item['ask'], item['groups']) if obj.version: app.config.set_per('accounts', self.name, 'roster_version', obj.version) def _VersionCB(self, con, iq_obj): log.debug('VersionCB') if not self.connection or self.connected < 2: return app.nec.push_incoming_event(VersionRequestEvent(None, conn=self, stanza=iq_obj)) raise nbxmpp.NodeProcessed def _nec_version_request_received(self, obj): if obj.conn.name != self.name: return send_os = app.config.get_per('accounts', self.name, 'send_os_info') if send_os: iq_obj = obj.stanza.buildReply('result') qp = iq_obj.getQuery() qp.setTagData('name', 'Gajim') qp.setTagData('version', app.version) qp.setTagData('os', helpers.get_os_info()) else: iq_obj = obj.stanza.buildReply('error') err = nbxmpp.ErrorNode(name=nbxmpp.NS_STANZAS + \ ' service-unavailable') iq_obj.addChild(node=err) self.connection.send(iq_obj) def _LastCB(self, con, iq_obj): log.debug('LastCB') if not self.connection or self.connected < 2: return app.nec.push_incoming_event(LastRequestEvent(None, conn=self, stanza=iq_obj)) raise nbxmpp.NodeProcessed def _nec_last_request_received(self, obj): if obj.conn.name != self.name: return if app.HAVE_IDLE and app.config.get_per('accounts', self.name, 'send_idle_time'): iq_obj = obj.stanza.buildReply('result') qp = iq_obj.setQuery() qp.attrs['seconds'] = int(app.interface.sleeper.getIdleSec()) else: iq_obj = obj.stanza.buildReply('error') err = nbxmpp.ErrorNode(name=nbxmpp.NS_STANZAS + \ ' service-unavailable') iq_obj.addChild(node=err) self.connection.send(iq_obj) def _VersionResultCB(self, con, iq_obj): log.debug('VersionResultCB') app.nec.push_incoming_event(VersionResultReceivedEvent(None, conn=self, stanza=iq_obj)) def _TimeCB(self, con, iq_obj): log.debug('TimeCB') if not self.connection or self.connected < 2: return app.nec.push_incoming_event(TimeRequestEvent(None, conn=self, stanza=iq_obj)) raise nbxmpp.NodeProcessed def _nec_time_request_received(self, obj): if obj.conn.name != self.name: return if app.config.get_per('accounts', self.name, 'send_time_info'): iq_obj = obj.stanza.buildReply('result') qp = iq_obj.setQuery() qp.setTagData('utc', strftime('%Y%m%dT%H:%M:%S', gmtime())) qp.setTagData('tz', tzname[daylight]) qp.setTagData('display', strftime('%c', localtime())) else: iq_obj = obj.stanza.buildReply('error') err = nbxmpp.ErrorNode(name=nbxmpp.NS_STANZAS + \ ' service-unavailable') iq_obj.addChild(node=err) self.connection.send(iq_obj) def _TimeRevisedCB(self, con, iq_obj): log.debug('TimeRevisedCB') if not self.connection or self.connected < 2: return app.nec.push_incoming_event(TimeRevisedRequestEvent(None, conn=self, stanza=iq_obj)) raise nbxmpp.NodeProcessed def _nec_time_revised_request_received(self, obj): if obj.conn.name != self.name: return if app.config.get_per('accounts', self.name, 'send_time_info'): iq_obj = obj.stanza.buildReply('result') qp = iq_obj.setTag('time', namespace=nbxmpp.NS_TIME_REVISED) qp.setTagData('utc', strftime('%Y-%m-%dT%H:%M:%SZ', gmtime())) isdst = localtime().tm_isdst zone = -(timezone, altzone)[isdst] / 60.0 tzo = (zone / 60, abs(zone % 60)) qp.setTagData('tzo', '%+03d:%02d' % (tzo)) else: iq_obj = obj.stanza.buildReply('error') err = nbxmpp.ErrorNode(name=nbxmpp.NS_STANZAS + \ ' service-unavailable') iq_obj.addChild(node=err) self.connection.send(iq_obj) def _TimeRevisedResultCB(self, con, iq_obj): log.debug('TimeRevisedResultCB') app.nec.push_incoming_event(TimeResultReceivedEvent(None, conn=self, stanza=iq_obj)) def _rosterItemExchangeCB(self, con, msg): """ XEP-0144 Roster Item Echange """ log.debug('rosterItemExchangeCB') app.nec.push_incoming_event(RosterItemExchangeEvent(None, conn=self, stanza=msg)) raise nbxmpp.NodeProcessed def _messageCB(self, con, msg): """ Called when we receive a message """ log.debug('MessageCB') app.nec.push_incoming_event(NetworkEvent('raw-message-received', conn=self, stanza=msg, account=self.name)) def _dispatch_gc_msg_with_captcha(self, stanza, msg_obj): msg_obj.stanza = stanza app.nec.push_incoming_event(GcMessageReceivedEvent(None, conn=self, msg_obj=msg_obj)) def _on_bob_received(self, conn, result, cid): """ Called when we receive BoB data """ if cid not in self.awaiting_cids: return if result.getType() == 'result': data = result.getTags('data', namespace=nbxmpp.NS_BOB) if data.getAttr('cid') == cid: for func in self.awaiting_cids[cid]: cb = func[0] args = func[1] pos = func[2] bob_data = data.getData() def recurs(node, cid, data): if node.getData() == 'cid:' + cid: node.setData(data) else: for child in node.getChildren(): recurs(child, cid, data) recurs(args[pos], cid, bob_data) cb(*args) del self.awaiting_cids[cid] return # An error occured, call callback without modifying data. for func in self.awaiting_cids[cid]: cb = func[0] args = func[1] cb(*args) del self.awaiting_cids[cid] def get_bob_data(self, cid, to, callback, args, position): """ Request for BoB (XEP-0231) and when data will arrive, call callback with given args, after having replaced cid by it's data in args[position] """ if cid in self.awaiting_cids: self.awaiting_cids[cid].appends((callback, args, position)) else: self.awaiting_cids[cid] = [(callback, args, position)] iq = nbxmpp.Iq(to=to, typ='get') data = iq.addChild(name='data', attrs={'cid': cid}, namespace=nbxmpp.NS_BOB) self.connection.SendAndCallForResponse(iq, self._on_bob_received, {'cid': cid}) def _presenceCB(self, con, prs): """ Called when we receive a presence """ log.debug('PresenceCB') app.nec.push_incoming_event(NetworkEvent('raw-pres-received', conn=self, stanza=prs)) def _nec_subscribe_presence_received(self, obj): account = obj.conn.name if account != self.name: return if app.jid_is_transport(obj.fjid) and obj.fjid in \ self.agent_registrations: self.agent_registrations[obj.fjid]['sub_received'] = True if not self.agent_registrations[obj.fjid]['roster_push']: # We'll reply after roster push result return True if app.config.get_per('accounts', self.name, 'autoauth') or \ app.jid_is_transport(obj.fjid) or obj.jid in self.jids_for_auto_auth \ or obj.transport_auto_auth: if self.connection: p = nbxmpp.Presence(obj.fjid, 'subscribed') p = self.add_sha(p) self.connection.send(p) if app.jid_is_transport(obj.fjid) or obj.transport_auto_auth: #TODO!?!? #self.show = 'offline' #self.status = 'offline' #emit NOTIFY pass if obj.transport_auto_auth: self.automatically_added.append(obj.jid) self.request_subscription(obj.jid, name=obj.user_nick) return True if not obj.status: obj.status = _('I would like to add you to my roster.') def _nec_subscribed_presence_received(self, obj): account = obj.conn.name if account != self.name: return # BE CAREFUL: no con.updateRosterItem() in a callback if obj.jid in self.automatically_added: self.automatically_added.remove(obj.jid) return True # detect a subscription loop if obj.jid not in self.subscribed_events: self.subscribed_events[obj.jid] = [] self.subscribed_events[obj.jid].append(time_time()) block = False if len(self.subscribed_events[obj.jid]) > 5: if time_time() - self.subscribed_events[obj.jid][0] < 5: block = True self.subscribed_events[obj.jid] = \ self.subscribed_events[obj.jid][1:] if block: app.config.set_per('account', self.name, 'dont_ack_subscription', True) return True def _nec_subscribed_presence_received_end(self, obj): account = obj.conn.name if account != self.name: return if not app.config.get_per('accounts', account, 'dont_ack_subscription'): self.ack_subscribed(obj.jid) def _nec_unsubscribed_presence_received(self, obj): account = obj.conn.name if account != self.name: return # detect a unsubscription loop if obj.jid not in self.subscribed_events: self.subscribed_events[obj.jid] = [] self.subscribed_events[obj.jid].append(time_time()) block = False if len(self.subscribed_events[obj.jid]) > 5: if time_time() - self.subscribed_events[obj.jid][0] < 5: block = True self.subscribed_events[obj.jid] = \ self.subscribed_events[obj.jid][1:] if block: app.config.set_per('account', self.name, 'dont_ack_subscription', True) return True def _nec_unsubscribed_presence_received_end(self, obj): account = obj.conn.name if account != self.name: return if not app.config.get_per('accounts', account, 'dont_ack_subscription'): self.ack_unsubscribed(obj.jid) def _nec_agent_removed(self, obj): if obj.conn.name != self.name: return for jid in obj.jid_list: log.debug('Removing contact %s due to unregistered transport %s' % \ (jid, obj.agent)) self.unsubscribe(jid) # Transport contacts can't have 2 resources if jid in app.to_be_removed[self.name]: # This way we'll really remove it app.to_be_removed[self.name].remove(jid) def _StanzaArrivedCB(self, con, obj): self.last_io = app.idlequeue.current_time() def _MucOwnerCB(self, con, iq_obj): log.debug('MucOwnerCB') app.nec.push_incoming_event(MucOwnerReceivedEvent(None, conn=self, stanza=iq_obj)) def _MucAdminCB(self, con, iq_obj): log.debug('MucAdminCB') app.nec.push_incoming_event(MucAdminReceivedEvent(None, conn=self, stanza=iq_obj)) def _IqPingCB(self, con, iq_obj): log.debug('IqPingCB') app.nec.push_incoming_event(PingReceivedEvent(None, conn=self, stanza=iq_obj)) raise nbxmpp.NodeProcessed def _nec_ping_received(self, obj): if obj.conn.name != self.name: return if not self.connection or self.connected < 2: return iq_obj = obj.stanza.buildReply('result') q = iq_obj.getTag('ping') if q: iq_obj.delChild(q) self.connection.send(iq_obj) def _PrivacySetCB(self, con, iq_obj): """ Privacy lists (XEP 016) A list has been set. """ log.debug('PrivacySetCB') if not self.connection or self.connected < 2: return result = iq_obj.buildReply('result') q = result.getTag('query') if q: result.delChild(q) self.connection.send(result) for list_ in iq_obj.getQueryPayload(): if list_.getName() == 'list': self.get_privacy_list(list_.getAttr('name')) raise nbxmpp.NodeProcessed def _getRoster(self): log.debug('getRosterCB') if not self.connection: return self.connection.getRoster(self._on_roster_set) self.discoverItems(app.config.get_per('accounts', self.name, 'hostname'), id_prefix='Gajim_') if app.config.get_per('accounts', self.name, 'use_ft_proxies'): self.discover_ft_proxies() def discover_ft_proxies(self): cfg_proxies = app.config.get_per('accounts', self.name, 'file_transfer_proxies') our_jid = helpers.parse_jid(app.get_jid_from_account(self.name) + \ '/' + self.server_resource) testit = app.config.get_per('accounts', self.name, 'test_ft_proxies_on_startup') if cfg_proxies: proxies = [e.strip() for e in cfg_proxies.split(',')] for proxy in proxies: app.proxy65_manager.resolve(proxy, self.connection, our_jid, testit=testit) def discover_servers(self): if not self.connection: return servers = [] for c in app.contacts.iter_contacts(self.name): s = app.get_server_from_jid(c.jid) if s not in servers and s not in app.transport_type: servers.append(s) for s in servers: self.discoverInfo(s) def _on_roster_set(self, roster): app.nec.push_incoming_event(RosterReceivedEvent(None, conn=self, xmpp_roster=roster)) def _nec_roster_received(self, obj): if obj.conn.name != self.name: return our_jid = app.get_jid_from_account(self.name) if self.connected > 1 and self.continue_connect_info: msg = self.continue_connect_info[1] sign_msg = self.continue_connect_info[2] signed = '' send_first_presence = True if sign_msg: signed = self.get_signed_presence(msg, self._send_first_presence) if signed is None: app.nec.push_incoming_event(GPGPasswordRequiredEvent(None, conn=self, callback=self._send_first_presence)) # _send_first_presence will be called when user enter # passphrase send_first_presence = False if send_first_presence: self._send_first_presence(signed) if obj.received_from_server: for jid in obj.roster: if jid != our_jid and app.jid_is_transport(jid) and \ not app.get_transport_name_from_jid(jid): # we can't determine which iconset to use self.discoverInfo(jid) app.logger.replace_roster(self.name, obj.version, obj.roster) for contact in app.contacts.iter_contacts(self.name): if not contact.is_groupchat() and contact.jid not in obj.roster\ and contact.jid != our_jid: app.nec.push_incoming_event(RosterInfoEvent(None, conn=self, jid=contact.jid, nickname=None, sub=None, ask=None, groups=())) for jid, info in obj.roster.items(): app.nec.push_incoming_event(RosterInfoEvent(None, conn=self, jid=jid, nickname=info['name'], sub=info['subscription'], ask=info['ask'], groups=info['groups'], avatar_sha=info['avatar_sha'])) def _send_first_presence(self, signed=''): show = self.continue_connect_info[0] msg = self.continue_connect_info[1] sign_msg = self.continue_connect_info[2] if sign_msg and not signed: signed = self.get_signed_presence(msg) if signed is None: app.nec.push_incoming_event(BadGPGPassphraseEvent(None, conn=self)) self.USE_GPG = False signed = '' self.connected = app.SHOW_LIST.index(show) sshow = helpers.get_xmpp_show(show) # send our presence if show == 'invisible': self.send_invisible_presence(msg, signed, True) return if show not in ['offline', 'online', 'chat', 'away', 'xa', 'dnd']: return priority = app.get_priority(self.name, sshow) p = nbxmpp.Presence(typ=None, priority=priority, show=sshow) if msg: p.setStatus(msg) if signed: p.setTag(nbxmpp.NS_SIGNED + ' x').setData(signed) p = self.add_sha(p) if self.connection: self.connection.send(p) self.priority = priority app.nec.push_incoming_event(OurShowEvent(None, conn=self, show=show)) if self.vcard_supported: # ask our VCard self.request_vcard(self._on_own_avatar_received) # Get bookmarks from private namespace self.get_bookmarks() # Get annotations from private namespace self.get_annotations() # Inform GUI we just signed in app.nec.push_incoming_event(SignedInEvent(None, conn=self)) self.send_awaiting_pep() self.continue_connect_info = None def _SearchCB(self, con, iq_obj): log.debug('SearchCB') app.nec.push_incoming_event(SearchFormReceivedEvent(None, conn=self, stanza=iq_obj)) def _search_fields_received(self, con, iq_obj): jid = jid = helpers.get_jid_from_iq(iq_obj) tag = iq_obj.getTag('query', namespace = nbxmpp.NS_SEARCH) if not tag: self.dispatch('SEARCH_FORM', (jid, None, False)) return df = tag.getTag('x', namespace=nbxmpp.NS_DATA) if df: self.dispatch('SEARCH_FORM', (jid, df, True)) return df = {} for i in iq_obj.getQueryPayload(): df[i.getName()] = i.getData() self.dispatch('SEARCH_FORM', (jid, df, False)) def _PubkeyGetCB(self, con, iq_obj): log.info('PubkeyGetCB') jid_from = helpers.get_full_jid_from_iq(iq_obj) sid = iq_obj.getAttr('id') jingle_xtls.send_cert(con, jid_from, sid) raise nbxmpp.NodeProcessed def _PubkeyResultCB(self, con, iq_obj): log.info('PubkeyResultCB') jid_from = helpers.get_full_jid_from_iq(iq_obj) jingle_xtls.handle_new_cert(con, iq_obj, jid_from) def _BlockingSetCB(self, con, iq_obj): log.debug('_BlockingSetCB') app.nec.push_incoming_event( BlockingEvent(None, conn=self, stanza=iq_obj)) reply = nbxmpp.Iq(typ='result', attrs={'id': iq_obj.getID()}, to=iq_obj.getFrom(), frm=iq_obj.getTo(), xmlns=None) self.connection.send(reply) raise nbxmpp.NodeProcessed def _BlockingResultCB(self, con, iq_obj): log.debug('_BlockingResultCB') app.nec.push_incoming_event( BlockingEvent(None, conn=self, stanza=iq_obj)) raise nbxmpp.NodeProcessed def _nec_blocking(self, obj): if obj.conn.name != self.name: return if obj.unblock_all: self.blocked_contacts = [] elif obj.blocklist: self.blocked_contacts = obj.blocklist else: for jid in obj.blocked_jids: if jid not in self.blocked_contacts: self.blocked_contacts.append(jid) contact_list = app.contacts.get_contacts(self.name, jid) for contact in contact_list: contact.show = 'offline' for jid in obj.unblocked_jids: if jid in self.blocked_contacts: self.blocked_contacts.remove(jid) # Send a presence Probe to get the current Status probe = nbxmpp.Presence(jid, 'probe', frm=self.get_own_jid()) self.connection.send(probe) def _nec_stream_other_host_received(self, obj): if obj.conn.name != self.name: return self.redirected = obj.redirected def _StreamCB(self, con, obj): log.debug('StreamCB') app.nec.push_incoming_event(StreamReceivedEvent(None, conn=self, stanza=obj)) def _register_handlers(self, con, con_type): # try to find another way to register handlers in each class # that defines handlers con.RegisterHandler('message', self._messageCB) con.RegisterHandler('presence', self._presenceCB) # We use makefirst so that this handler is called before _messageCB, and # can prevent calling it when it's not needed. # We also don't check for namespace, else it cannot stop _messageCB to # be called con.RegisterHandler('message', self._pubsubEventCB, makefirst=True) con.RegisterHandler('iq', self._rosterSetCB, 'set', nbxmpp.NS_ROSTER) con.RegisterHandler('iq', self._siSetCB, 'set', nbxmpp.NS_SI) con.RegisterHandler('iq', self._rosterItemExchangeCB, 'set', nbxmpp.NS_ROSTERX) con.RegisterHandler('iq', self._siErrorCB, 'error', nbxmpp.NS_SI) con.RegisterHandler('iq', self._siResultCB, 'result', nbxmpp.NS_SI) con.RegisterHandler('iq', self._discoGetCB, 'get', nbxmpp.NS_DISCO) con.RegisterHandler('iq', self._bytestreamSetCB, 'set', nbxmpp.NS_BYTESTREAM) con.RegisterHandler('iq', self._bytestreamResultCB, 'result', nbxmpp.NS_BYTESTREAM) con.RegisterHandler('iq', self._bytestreamErrorCB, 'error', nbxmpp.NS_BYTESTREAM) con.RegisterHandlerOnce('iq', self.IBBAllIqHandler) con.RegisterHandler('iq', self.IBBIqHandler, ns=nbxmpp.NS_IBB) con.RegisterHandler('message', self.IBBMessageHandler, ns=nbxmpp.NS_IBB) con.RegisterHandler('iq', self._DiscoverItemsCB, 'result', nbxmpp.NS_DISCO_ITEMS) con.RegisterHandler('iq', self._DiscoverItemsErrorCB, 'error', nbxmpp.NS_DISCO_ITEMS) con.RegisterHandler('iq', self._DiscoverInfoCB, 'result', nbxmpp.NS_DISCO_INFO) con.RegisterHandler('iq', self._DiscoverInfoErrorCB, 'error', nbxmpp.NS_DISCO_INFO) con.RegisterHandler('iq', self._VersionCB, 'get', nbxmpp.NS_VERSION) con.RegisterHandler('iq', self._TimeCB, 'get', nbxmpp.NS_TIME) con.RegisterHandler('iq', self._TimeRevisedCB, 'get', nbxmpp.NS_TIME_REVISED) con.RegisterHandler('iq', self._LastCB, 'get', nbxmpp.NS_LAST) con.RegisterHandler('iq', self._VersionResultCB, 'result', nbxmpp.NS_VERSION) con.RegisterHandler('iq', self._TimeRevisedResultCB, 'result', nbxmpp.NS_TIME_REVISED) con.RegisterHandler('iq', self._MucOwnerCB, 'result', nbxmpp.NS_MUC_OWNER) con.RegisterHandler('iq', self._MucAdminCB, 'result', nbxmpp.NS_MUC_ADMIN) con.RegisterHandler('iq', self._PrivateCB, 'result', nbxmpp.NS_PRIVATE) con.RegisterHandler('iq', self._SecLabelCB, 'result', nbxmpp.NS_SECLABEL_CATALOG) con.RegisterHandler('iq', self._HttpAuthCB, 'get', nbxmpp.NS_HTTP_AUTH) con.RegisterHandler('iq', self._CommandExecuteCB, 'set', nbxmpp.NS_COMMANDS) con.RegisterHandler('iq', self._DiscoverInfoGetCB, 'get', nbxmpp.NS_DISCO_INFO) con.RegisterHandler('iq', self._DiscoverItemsGetCB, 'get', nbxmpp.NS_DISCO_ITEMS) con.RegisterHandler('iq', self._IqPingCB, 'get', nbxmpp.NS_PING) con.RegisterHandler('iq', self._SearchCB, 'result', nbxmpp.NS_SEARCH) con.RegisterHandler('iq', self._PrivacySetCB, 'set', nbxmpp.NS_PRIVACY) con.RegisterHandler('iq', self._ArchiveCB, ns=nbxmpp.NS_MAM_1) con.RegisterHandler('iq', self._ArchiveCB, ns=nbxmpp.NS_MAM_2) con.RegisterHandler('iq', self._PubSubCB, 'result') con.RegisterHandler('iq', self._PubSubErrorCB, 'error') con.RegisterHandler('iq', self._JingleCB, 'result') con.RegisterHandler('iq', self._JingleCB, 'error') con.RegisterHandler('iq', self._JingleCB, 'set', nbxmpp.NS_JINGLE) con.RegisterHandler('iq', self._ErrorCB, 'error') con.RegisterHandler('iq', self._IqCB) con.RegisterHandler('iq', self._StanzaArrivedCB) con.RegisterHandler('iq', self._ResultCB, 'result') con.RegisterHandler('presence', self._StanzaArrivedCB) con.RegisterHandler('message', self._StanzaArrivedCB) con.RegisterHandler('unknown', self._StreamCB, nbxmpp.NS_XMPP_STREAMS, xmlns=nbxmpp.NS_STREAMS) con.RegisterHandler('iq', self._PubkeyGetCB, 'get', nbxmpp.NS_PUBKEY_PUBKEY) con.RegisterHandler('iq', self._PubkeyResultCB, 'result', nbxmpp.NS_PUBKEY_PUBKEY) con.RegisterHandler('iq', self._BlockingSetCB, 'set', nbxmpp.NS_BLOCKING) con.RegisterHandler('iq', self._BlockingResultCB, 'result', nbxmpp.NS_BLOCKING)