# 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 logging import operator import time import nbxmpp from gajim.common import app from gajim.common import ged from gajim.common import helpers from gajim.common import jingle_xtls from gajim.common import modules from gajim.common.caps_cache import muc_caps_cache from gajim.common.connection_handlers_events import * from gajim.common.const import KindConstant from gajim.common.jingle import ConnectionJingle from gajim.common.nec import NetworkEvent from gajim.common.protocol.bytestream import ConnectionSocks5Bytestream from gajim.common.protocol.bytestream import ConnectionIBBytestream log = logging.getLogger('gajim.c.connection_handlers') # kind of events we can wait for an answer AGENT_REMOVED = 'agent_removed' # 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 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('presence-received', ged.CORE, self._nec_presence_received) app.ged.register_event_handler('gc-message-received', ged.CORE, self._nec_gc_message_received) def cleanup(self): app.ged.remove_event_handler('presence-received', ged.CORE, self._nec_presence_received) app.ged.remove_event_handler('gc-message-received', ged.CORE, self._nec_gc_message_received) 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_redraw = True 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 # (when contact signs out or has errors) if obj.show in ('offline', 'error'): # TODO: This causes problems when another # resource signs off! self.stop_all_active_file_transfers(obj.contact) 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 _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: log.warning('%s announces mam:2 without stanza-id', room_jid) def _nec_gc_message_received(self, obj): if obj.conn.name != self.name: return if obj.stanza.getType() == 'error': return self._check_for_mam_compliance(obj.jid, obj.stanza_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.stanza_id) app.logger.set_room_last_message_time(obj.room_jid, obj.timestamp) self.get_module('MAM').save_archive_id( obj.room_jid, obj.stanza_id, 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') 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) return self.sessions[jid][thread_id] except KeyError: return None def terminate_sessions(self): 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] 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 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(ConnectionSocks5Bytestream, ConnectionHandlersBase, ConnectionJingle, ConnectionIBBytestream): def __init__(self): ConnectionSocks5Bytestream.__init__(self) ConnectionIBBytestream.__init__(self) # Handle presences BEFORE caps app.nec.register_incoming_event(PresenceReceivedEvent) ConnectionJingle.__init__(self) ConnectionHandlersBase.__init__(self) # IDs of disco#items requests self.disco_items_ids = [] # IDs of disco#info requests self.disco_info_ids = [] self.continue_connect_info = None # If handlers have been registered self.handlers_registered = False app.nec.register_incoming_event(StreamConflictReceivedEvent) app.nec.register_incoming_event(NotificationEvent) app.ged.register_event_handler('agent-removed', ged.CORE, self._nec_agent_removed) def cleanup(self): ConnectionHandlersBase.cleanup(self) app.ged.remove_event_handler('agent-removed', ged.CORE, self._nec_agent_removed) 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_] 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 _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.get_module('Presence').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 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 send_first_presence(self): 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) 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) self.get_module('Presence').send_presence( priority=priority, show=sshow, status=msg, sign=signed) if self.connection: self.priority = priority app.nec.push_incoming_event(OurShowEvent(None, conn=self, show=show)) if not self.avatar_conversion: # ask our VCard self.get_module('VCardTemp').request_vcard() self.get_module('Bookmarks').get_bookmarks() self.get_module('Annotations').get_annotations() self.get_module('Blocking').get_blocking_list() # Inform GUI we just signed in app.nec.push_incoming_event(SignedInEvent(None, conn=self)) self.get_module('PEP').send_stored_publish() self.continue_connect_info = None 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 _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('iq', self._siSetCB, 'set', nbxmpp.NS_SI) con.RegisterHandler('iq', self._siErrorCB, 'error', nbxmpp.NS_SI) con.RegisterHandler('iq', self._siResultCB, 'result', nbxmpp.NS_SI) 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._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._ResultCB, 'result') 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) for handler in modules.get_handlers(self): con.RegisterHandler(*handler) self.handlers_registered = True def _unregister_handlers(self): if not self.connection: return for handler in modules.get_handlers(self): self.connection.UnregisterHandler(*handler) self.handlers_registered = False