gajim-plural/gajim/common/connection.py

1932 lines
73 KiB
Python

# Copyright (C) 2003-2005 Vincent Hanquez <tab AT snarc.org>
# Copyright (C) 2003-2014 Yann Leboulanger <asterix AT lagaule.org>
# Copyright (C) 2005 Alex Mauer <hawke AT hawkesnest.net>
# Stéphan Kochen <stephan AT kochen.nl>
# Copyright (C) 2005-2006 Dimitur Kirov <dkirov AT gmail.com>
# Travis Shirk <travis AT pobox.com>
# Nikos Kouremenos <kourem AT gmail.com>
# Copyright (C) 2006 Junglecow J <junglecow AT gmail.com>
# Stefan Bethge <stefan AT lanpartei.de>
# Copyright (C) 2006-2008 Jean-Marie Traissard <jim AT lapin.org>
# Copyright (C) 2007 Tomasz Melcer <liori AT exroot.org>
# Julien Pivotto <roidelapluie AT gmail.com>
# Copyright (C) 2007-2008 Stephan Erb <steve-e AT h3c.de>
# Copyright (C) 2008 Brendan Taylor <whateley AT gmail.com>
# Jonathan Schleifer <js-gajim AT webkeks.org>
#
# 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 <http://www.gnu.org/licenses/>.
import sys
import random
import socket
import operator
import string
import time
import hashlib
import json
import logging
import base64
import ssl
from functools import partial
from string import Template
from urllib.request import urlopen
from urllib.error import URLError
from gi.repository import GLib
if sys.platform in ('win32', 'darwin'):
import certifi
import OpenSSL.crypto
import nbxmpp
from nbxmpp.const import Realm
from nbxmpp.const import Event
from gajim import common
from gajim.common import helpers
from gajim.common import app
from gajim.common import gpg
from gajim.common import passwords
from gajim.common import idle
from gajim.common import modules
from gajim.common import ged
from gajim.common import i18n
from gajim.common.i18n import _
from gajim.common.nec import NetworkEvent
from gajim.common.contacts import GC_Contact
from gajim.common.connection_handlers import ConnectionHandlers
from gajim.common.connection_handlers_events import OurShowEvent
from gajim.common.connection_handlers_events import BadGPGPassphraseEvent
from gajim.common.connection_handlers_events import GPGPasswordRequiredEvent
from gajim.common.connection_handlers_events import InformationEvent
from gajim.common.connection_handlers_events import StanzaMessageOutgoingEvent
from gajim.common.connection_handlers_events import GcStanzaMessageOutgoingEvent
from gajim.common.connection_handlers_events import ConnectionLostEvent
from gajim.common.connection_handlers_events import NewAccountConnectedEvent
from gajim.common.connection_handlers_events import NewAccountNotConnectedEvent
from gajim.common.connection_handlers_events import MessageSentEvent
log = logging.getLogger('gajim.c.connection')
SERVICE_START_TLS = 'xmpp-client'
SERVICE_DIRECT_TLS = 'xmpps-client'
class CommonConnection:
"""
Common connection class, can be derived for normal connection or zeroconf
connection
"""
def __init__(self, name):
self.name = name
self._modules = {}
# self.connected:
# 0=>offline,
# 1=>connection in progress,
# 2=>online
# 3=>free for chat
# ...
self.connected = 0
self.connection = None # xmpppy ClientCommon instance
self.is_zeroconf = False
self.password = None
self.server_resource = self._compute_resource()
self.gpg = None
self.USE_GPG = False
if app.is_installed('GPG'):
self.USE_GPG = True
self.gpg = gpg.GnuPG()
self.status = ''
self.old_show = ''
self.priority = app.get_priority(name, 'offline')
self.time_to_reconnect = None
self._reconnect_timer_source = None
# If handlers have been registered
self.handlers_registered = False
self.pep = {}
# Do we continue connection when we get roster (send presence,get vcard..)
self.continue_connect_info = None
# Remember where we are in the register agent process
self.agent_registrations = {}
self.roster_supported = True
self.addressing_supported = False
self.avatar_conversion = False
self.muc_jid = {} # jid of muc server for each transport type
self._stun_servers = [] # STUN servers of our jabber server
# Tracks the calls of the connect_machine() method
self._connect_machine_calls = 0
self.get_config_values_or_default()
def _register_new_handlers(self, con):
for handler in modules.get_handlers(self):
if len(handler) == 5:
name, func, typ, ns, priority = handler
con.RegisterHandler(name, func, typ, ns, priority=priority)
else:
con.RegisterHandler(*handler)
self.handlers_registered = True
def _unregister_new_handlers(self, con):
if not con:
return
for handler in modules.get_handlers(self):
if len(handler) > 4:
handler = handler[:4]
con.UnregisterHandler(*handler)
self.handlers_registered = False
def _compute_resource(self):
resource = app.config.get_per('accounts', self.name, 'resource')
# All valid resource substitution strings should be added to this hash.
if resource:
rand = ''.join(random.choice(string.ascii_uppercase + string.digits) for _ in range(8))
resource = Template(resource).safe_substitute({
'hostname': socket.gethostname(),
'rand': rand
})
app.config.set_per('accounts', self.name, 'resource', resource)
return resource
def dispatch(self, event, data):
"""
Always passes account name as first param
"""
app.ged.raise_event(event, self.name, data)
def get_module(self, name):
return modules.get(self.name, name)
def reconnect(self):
"""
To be implemented by derived classes
"""
raise NotImplementedError
def quit(self, kill_core):
if kill_core and app.account_is_connected(self.name):
self.disconnect(reconnect=False)
def test_gpg_passphrase(self, password):
"""
Returns 'ok', 'bad_pass' or 'expired'
"""
if not self.gpg:
return False
self.gpg.passphrase = password
keyID = app.config.get_per('accounts', self.name, 'keyid')
signed = self.gpg.sign('test', keyID)
self.gpg.password = None
if signed == 'KEYEXPIRED':
return 'expired'
if signed == 'BAD_PASSPHRASE':
return 'bad_pass'
return 'ok'
def get_signed_msg(self, msg, callback=None):
"""
Returns the signed message if possible or an empty string if gpg is not
used or None if waiting for passphrase
callback is the function to call when user give the passphrase
"""
signed = ''
keyID = app.config.get_per('accounts', self.name, 'keyid')
if keyID and self.USE_GPG:
if self.gpg.passphrase is None and not self.gpg.use_agent:
# We didn't set a passphrase
return None
signed = self.gpg.sign(msg, keyID)
if signed == 'BAD_PASSPHRASE':
self.USE_GPG = False
signed = ''
app.nec.push_incoming_event(BadGPGPassphraseEvent(None,
conn=self))
return signed
def get_status(self):
return app.SHOW_LIST[self.connected]
def check_jid(self, jid):
"""
This function must be implemented by derived classes. It has to return
the valid jid, or raise a helpers.InvalidFormat exception
"""
raise NotImplementedError
def _prepare_message(self, obj):
if not self.connection or self.connected < 2:
return 1
if isinstance(obj.jid, list):
for jid in obj.jid:
try:
self.check_jid(jid)
except helpers.InvalidFormat:
app.nec.push_incoming_event(InformationEvent(
None, dialog_name='invalid-jid', args=jid))
return
else:
try:
self.check_jid(obj.jid)
except helpers.InvalidFormat:
app.nec.push_incoming_event(InformationEvent(
None, dialog_name='invalid-jid', args=obj.jid))
return
if obj.message and not obj.xhtml and app.config.get(
'rst_formatting_outgoing_messages'):
from gajim.common.rst_xhtml_generator import create_xhtml
obj.xhtml = create_xhtml(obj.message)
if not obj.message and obj.chatstate is None and obj.form_node is None:
return
self._build_message_stanza(obj)
def _build_message_stanza(self, obj):
if obj.jid == app.get_jid_from_account(self.name):
fjid = obj.jid
else:
fjid = obj.get_full_jid()
if obj.type_ == 'chat':
msg_iq = nbxmpp.Message(body=obj.message, typ=obj.type_,
xhtml=obj.xhtml)
else:
if obj.subject:
msg_iq = nbxmpp.Message(body=obj.message, typ='normal',
subject=obj.subject, xhtml=obj.xhtml)
else:
msg_iq = nbxmpp.Message(body=obj.message, typ='normal',
xhtml=obj.xhtml)
if obj.correct_id:
msg_iq.setTag('replace', attrs={'id': obj.correct_id},
namespace=nbxmpp.NS_CORRECT)
# XEP-0359
obj.stanza_id = self.connection.getAnID()
msg_iq.setID(obj.stanza_id)
if obj.message:
msg_iq.setOriginID(obj.stanza_id)
if obj.form_node:
msg_iq.addChild(node=obj.form_node)
if obj.label:
msg_iq.addChild(node=obj.label)
# XEP-0172: user_nickname
if obj.user_nick:
msg_iq.setTag('nick', namespace=nbxmpp.NS_NICK).setData(
obj.user_nick)
# XEP-0203
if obj.delayed:
our_jid = app.get_jid_from_account(self.name) + '/' + \
self.server_resource
timestamp = time.strftime('%Y-%m-%dT%H:%M:%SZ', time.gmtime(obj.delayed))
msg_iq.addChild('delay', namespace=nbxmpp.NS_DELAY2,
attrs={'from': our_jid, 'stamp': timestamp})
# XEP-0224
if obj.attention:
msg_iq.setTag('attention', namespace=nbxmpp.NS_ATTENTION)
if isinstance(obj.jid, list):
if self.addressing_supported:
msg_iq.setTo(app.config.get_per('accounts', self.name, 'hostname'))
addresses = msg_iq.addChild('addresses',
namespace=nbxmpp.NS_ADDRESS)
for j in obj.jid:
addresses.addChild('address',
attrs={'type': 'to', 'jid': j})
else:
iqs = []
for j in obj.jid:
iq = nbxmpp.Message(node=msg_iq)
iq.setTo(j)
iqs.append(iq)
msg_iq = iqs
else:
msg_iq.setTo(fjid)
r_ = obj.resource
if not r_ and obj.jid != fjid: # Only if we're not in a pm
r_ = app.get_resource_from_jid(fjid)
if r_:
contact = app.contacts.get_contact(self.name, obj.jid, r_)
else:
contact = app.contacts.get_contact_with_highest_priority(
self.name, obj.jid)
# Mark Message as MUC PM
if isinstance(contact, GC_Contact):
msg_iq.setTag('x', namespace=nbxmpp.NS_MUC_USER)
# chatstates - if peer supports xep85, send chatstates
# please note that the only valid tag inside a message containing a
# <body> tag is the active event
if obj.chatstate is not None:
msg_iq.setTag(obj.chatstate, namespace=nbxmpp.NS_CHATSTATES)
if not obj.message:
msg_iq.setTag('no-store',
namespace=nbxmpp.NS_MSG_HINTS)
# XEP-0184
if obj.jid != app.get_jid_from_account(self.name):
request = app.config.get_per('accounts', self.name,
'request_receipt')
if obj.message and request:
msg_iq.setTag('request', namespace=nbxmpp.NS_RECEIPTS)
if obj.session:
# XEP-0201
obj.session.last_send = time.time()
msg_iq.setThread(obj.session.thread_id)
self._push_stanza_message_outgoing(obj, msg_iq)
def _push_stanza_message_outgoing(self, obj, msg_iq):
obj.conn = self
if isinstance(msg_iq, list):
for iq in msg_iq:
obj.msg_iq = iq
app.nec.push_incoming_event(
StanzaMessageOutgoingEvent(None, **vars(obj)))
else:
obj.msg_iq = msg_iq
app.nec.push_incoming_event(
StanzaMessageOutgoingEvent(None, **vars(obj)))
def log_message(self, obj, jid):
if not obj.is_loggable:
return
if obj.session and not obj.session.is_loggable():
return
if not app.config.should_log(self.name, jid):
return
if obj.xhtml and app.config.get('log_xhtml_messages'):
obj.message = '<body xmlns="%s">%s</body>' % (nbxmpp.NS_XHTML,
obj.xhtml)
if obj.message is None:
return
app.logger.insert_into_logs(self.name, jid, obj.timestamp, obj.kind,
message=obj.message,
subject=obj.subject,
additional_data=obj.additional_data,
stanza_id=obj.stanza_id)
def update_contact(self, jid, name, groups):
if self.connection:
self.getRoster().set_item(jid=jid, name=name, groups=groups)
def update_contacts(self, contacts):
"""
Update multiple roster items
"""
if self.connection:
self.getRoster().set_item_multi(contacts)
def new_account(self, name, config, sync=False):
"""
To be implemented by derived classes
"""
raise NotImplementedError
def _on_new_account(self, con=None, con_type=None):
"""
To be implemented by derived classes
"""
raise NotImplementedError
def account_changed(self, new_name):
self.name = new_name
def send_agent_status(self, agent, ptype):
"""
To be implemented by derived classes
"""
raise NotImplementedError
def gpg_passphrase(self, passphrase):
if self.gpg:
if self.gpg.use_agent:
self.gpg.passphrase = None
else:
self.gpg.passphrase = passphrase
def ask_gpg_keys(self, keyID=None):
if self.gpg:
if keyID:
return self.gpg.get_key(keyID)
return self.gpg.get_keys()
return None
def ask_gpg_secrete_keys(self):
if self.gpg:
return self.gpg.get_secret_keys()
return None
def _event_dispatcher(self, realm, event, data):
if realm == '':
if event == 'STANZA RECEIVED':
app.nec.push_incoming_event(
NetworkEvent('stanza-received',
conn=self,
stanza_str=str(data)))
elif event == 'DATA SENT':
app.nec.push_incoming_event(
NetworkEvent('stanza-sent',
conn=self,
stanza_str=str(data)))
def change_status(self, show, msg, auto=False):
if not msg:
msg = ''
sign_msg = False
if not auto and not show == 'offline':
sign_msg = True
if show != 'invisible':
# We save it only when privacy list is accepted
self.status = msg
if show != 'offline' and self.connected < 1:
# set old_show to requested 'show' in case we need to
# recconect before we auth to server
self.old_show = show
self.server_resource = self._compute_resource()
if app.is_installed('GPG'):
self.USE_GPG = True
self.gpg = gpg.GnuPG()
self.connect_and_init(show, msg, sign_msg)
return
if show == 'offline':
if self.connection:
p = self.get_module('Presence').get_presence(
typ='unavailable',
status=msg,
caps=False)
self.connection.send(p, now=True)
self.disconnect(reconnect=False)
return
if show != 'offline' and self.connected > 0:
# dont'try to connect, when we are in state 'connecting'
if self.connected == 1:
return
if show == 'invisible':
self._change_to_invisible(msg)
return
if show not in ['offline', 'online', 'chat', 'away', 'xa', 'dnd']:
return -1
was_invisible = self.connected == app.SHOW_LIST.index('invisible')
self.connected = app.SHOW_LIST.index(show)
idle_time = None
if auto:
if app.is_installed('IDLE') and app.config.get('autoaway'):
idle_sec = idle.Monitor.get_idle_sec()
idle_time = time.strftime('%Y-%m-%dT%H:%M:%SZ',
time.gmtime(time.time() - idle_sec))
if was_invisible:
self._change_from_invisible()
self._update_status(show, msg, idle_time=idle_time)
class Connection(CommonConnection, ConnectionHandlers):
def __init__(self, name):
CommonConnection.__init__(self, name)
ConnectionHandlers.__init__(self)
# increase/decrease default timeout for server responses
self.try_connecting_for_foo_secs = 45
# holds the actual hostname to which we are connected
self.connected_hostname = None
# Holds the full jid we received on the bind event
self.registered_name = None
self.last_time_to_reconnect = None
self.new_account_info = None
self.new_account_form = None
self.last_sent = []
self._unregister_account = False
self._unregister_account_cb = None
self.music_track_info = 0
self.register_supported = False
# Do we auto accept insecure connection
self.connection_auto_accepted = False
self.on_connect_success = None
self.on_connect_failure = None
self.retrycount = 0
self.available_transports = {} # list of available transports on this
# server {'icq': ['icq.server.com', 'icq2.server.com'], }
self.streamError = ''
self.removing_account = False
# We only request POSH once
self._posh_requested = False
# Fingerprints received via POSH
self._posh_hashes = []
# The SSL Errors that we can override with POSH
self._posh_errors = [18, 19]
self._sm_resume_data = {}
# Register all modules
modules.register(self)
app.ged.register_event_handler('message-outgoing', ged.OUT_CORE,
self._nec_message_outgoing)
app.ged.register_event_handler('gc-message-outgoing', ged.OUT_CORE,
self._nec_gc_message_outgoing)
app.ged.register_event_handler('gc-stanza-message-outgoing', ged.OUT_CORE,
self._nec_gc_stanza_message_outgoing)
app.ged.register_event_handler('stanza-message-outgoing',
ged.OUT_CORE, self._nec_stanza_message_outgoing)
# END __init__
def cleanup(self):
modules.unregister(self)
app.ged.remove_event_handler('message-outgoing', ged.OUT_CORE,
self._nec_message_outgoing)
app.ged.remove_event_handler('gc-message-outgoing', ged.OUT_CORE,
self._nec_gc_message_outgoing)
app.ged.remove_event_handler('gc-stanza-message-outgoing', ged.OUT_CORE,
self._nec_gc_stanza_message_outgoing)
app.ged.remove_event_handler('stanza-message-outgoing', ged.OUT_CORE,
self._nec_stanza_message_outgoing)
def get_config_values_or_default(self):
self.client_cert = app.config.get_per('accounts', self.name,
'client_cert')
self.client_cert_passphrase = ''
def check_jid(self, jid):
return helpers.parse_jid(jid)
def get_own_jid(self, warn=False):
"""
Return the last full JID we received on a bind event.
In case we were never connected it returns the bare JID from config.
"""
if self.registered_name:
# This returns the full jid we received on the bind event
return self.registered_name
if warn:
log.warning('only bare JID available')
# This returns the bare jid
return nbxmpp.JID(app.get_jid_from_account(self.name))
def reconnect(self):
# Do not try to reco while we are already trying
self.time_to_reconnect = None
if self.connected < 2: # connection failed
log.info('Reconnect')
self.connected = 1
app.nec.push_incoming_event(OurShowEvent(None, conn=self,
show='connecting'))
self.retrycount += 1
self.connect_and_init(self.old_show, self.status, self.USE_GPG)
else:
log.info('Reconnect successfull')
# reconnect succeeded
self.time_to_reconnect = None
self.retrycount = 0
def disconnect(self, reconnect=True, immediately=False):
self.get_module('Ping').remove_timeout()
if self.connection is None:
if not reconnect:
self.get_module('Chatstate').enabled = False
self._sm_resume_data = {}
self._disconnect()
app.nec.push_incoming_event(OurShowEvent(
None, conn=self, show='offline'))
return
log.info('Starting to disconnect %s', self.name)
disconnect_cb = partial(self._on_disconnect, reconnect)
self.connection.disconnect_handlers = [disconnect_cb]
if immediately:
self.connection.disconnect()
else:
self.connection.start_disconnect()
def set_oldst(self): # Set old state
if self.old_show:
self.connected = app.SHOW_LIST.index(self.old_show)
app.nec.push_incoming_event(OurShowEvent(
None, conn=self, show=self.old_show))
else: # we default to online
self.connected = 2
app.nec.push_incoming_event(OurShowEvent(
None, conn=self, show=app.SHOW_LIST[self.connected]))
def _on_disconnect(self, reconnect=True):
# Clear disconnect handlers
self.connection.disconnect_handlers = []
if reconnect:
reconnect = app.config.get_per(
'accounts', self.name, 'autoreconnect')
log.info('Disconnect %s, reconnect: %s', self.name, reconnect)
if reconnect:
if app.account_is_connected(self.name):
# we cannot change our status to offline or connecting
# after we auth to server
self.old_show = app.SHOW_LIST[self.connected]
if not self._sm_resume_data:
self._sm_resume_data = self.connection.get_resume_data()
self._disconnect()
self._set_reconnect_timer()
else:
self.get_module('Chatstate').enabled = False
self._sm_resume_data = {}
self._disconnect()
app.nec.push_incoming_event(OurShowEvent(
None, conn=self, show='offline'))
def _disconnect(self):
log.info('Set state disconnected')
self.get_module('Ping').remove_timeout()
self.connected = 0
self.disable_reconnect_timer()
app.interface.music_track_changed(None, None, self.name)
self.get_module('VCardAvatars').avatar_advertised = False
app.proxy65_manager.disconnect(self.connection)
self.terminate_sessions()
self.remove_all_transfers()
self._unregister_new_handlers(self.connection)
self.connection = None
def _set_reconnect_timer(self):
self.connected = -1
app.nec.push_incoming_event(OurShowEvent(
None, conn=self, show='error'))
if app.status_before_autoaway[self.name]:
# We were auto away. So go back online
self.status = app.status_before_autoaway[self.name]
app.status_before_autoaway[self.name] = ''
self.old_show = 'online'
# this check has moved from reconnect method
# do exponential backoff until less than 5 minutes
if self.retrycount < 2 or self.last_time_to_reconnect is None:
self.last_time_to_reconnect = 5
self.last_time_to_reconnect += random.randint(0, 5)
if self.last_time_to_reconnect < 200:
self.last_time_to_reconnect *= 1.5
self.time_to_reconnect = int(self.last_time_to_reconnect)
log.info("Reconnect to %s in %ss", self.name, self.time_to_reconnect)
self._reconnect_timer_source = GLib.timeout_add_seconds(
self.time_to_reconnect, self._reconnect_alarm)
def disable_reconnect_timer(self):
self.time_to_reconnect = None
if self._reconnect_timer_source is not None:
GLib.source_remove(self._reconnect_timer_source)
self._reconnect_timer_source = None
def _connection_lost(self):
log.info('_connection_lost')
if self.removing_account:
return
app.nec.push_incoming_event(ConnectionLostEvent(None, conn=self,
title=_('Connection with account "%s" has been lost') % self.name,
msg=_('Reconnect manually.')))
def _event_dispatcher(self, realm, event, data):
CommonConnection._event_dispatcher(self, realm, event, data)
if realm == Realm.CONNECTING:
if event == Event.RESUME_FAILED:
log.info(event)
self._on_resume_failed()
elif event == Event.RESUME_SUCCESSFUL:
log.info(event)
self._on_resume_successful()
elif event == Event.AUTH_SUCCESSFUL:
log.info(event)
self._on_auth_successful()
elif event == Event.AUTH_FAILED:
log.error(event)
log.error(data)
self._on_auth_failed(*data)
elif event == Event.SESSION_FAILED:
log.error(event)
elif event == Event.BIND_FAILED:
log.error(event)
elif event == Event.CONNECTION_ACTIVE:
log.info(event)
self._on_connection_active()
return
if realm == nbxmpp.NS_REGISTER:
if event == nbxmpp.features.REGISTER_DATA_RECEIVED:
# data is (agent, DataFrom, is_form, error_msg)
if self.new_account_info and \
self.new_account_info['hostname'] == data[0]:
# it's a new account
if not data[1]: # wrong answer
reason = _('Server %(name)s answered wrongly to '
'register request: %(error)s') % {'name': data[0],
'error': data[3]}
app.nec.push_incoming_event(NetworkEvent(
'account-not-created', conn=self, reason=reason))
return
is_form = data[2]
conf = data[1]
if data[4] != '':
helpers.replace_dataform_media(conf, data[4])
if self.new_account_form:
def _on_register_result(result):
if not nbxmpp.isResultNode(result):
reason = result.getErrorMsg() or result.getError()
app.nec.push_incoming_event(NetworkEvent(
'account-not-created', conn=self, reason=reason))
return
if app.is_installed('GPG'):
self.USE_GPG = True
self.gpg = gpg.GnuPG()
app.nec.push_incoming_event(
NetworkEvent('account-created',
conn=self,
account_info=self.new_account_info))
self.new_account_info = None
self.new_account_form = None
if self.connection:
self.connection.UnregisterDisconnectHandler(
self._on_new_account)
self.disconnect(reconnect=False)
# it's the second time we get the form, we have info user
# typed, so send them
if is_form:
#TODO: Check if form has changed
iq = nbxmpp.Iq('set', nbxmpp.NS_REGISTER,
to=self._hostname)
iq.setTag('query').addChild(node=self.new_account_form)
self.connection.SendAndCallForResponse(iq,
_on_register_result)
else:
if list(self.new_account_form.keys()).sort() != \
list(conf.keys()).sort():
# requested config has changed since first connection
reason = _('Server %s provided a different '
'registration form') % data[0]
app.nec.push_incoming_event(NetworkEvent(
'account-not-created', conn=self, reason=reason))
return
nbxmpp.features.register(self.connection,
self._hostname, self.new_account_form,
_on_register_result)
return
app.nec.push_incoming_event(NewAccountConnectedEvent(None,
conn=self, config=conf, is_form=is_form))
self.connection.UnregisterDisconnectHandler(
self._on_new_account)
self.disconnect(reconnect=False)
return
if not data[1]: # wrong answer
app.nec.push_incoming_event(InformationEvent(
None, dialog_name='invalid-answer',
kwargs={'name': data[0], 'error': data[3]}))
return
def _select_next_host(self, hosts):
"""
Selects the next host according to RFC2782 p.3 based on it's priority.
Chooses between hosts with the same priority randomly, where the
probability of being selected is proportional to the weight of the host
"""
hosts_by_prio = sorted(hosts, key=operator.itemgetter('prio'))
try:
lowest_prio = hosts_by_prio[0]['prio']
except IndexError:
raise ValueError("No hosts to choose from!")
hosts_lowest_prio = [h for h in hosts_by_prio if h['prio'] == lowest_prio]
if len(hosts_lowest_prio) == 1:
return hosts_lowest_prio[0]
rndint = random.randint(0, sum(h['weight'] for h in hosts_lowest_prio))
weightsum = 0
for host in sorted(hosts_lowest_prio,
key=operator.itemgetter('weight')):
weightsum += host['weight']
if weightsum >= rndint:
return host
def connect(self, data=None):
"""
Start a connection to the XMPP server
Returns connection, and connection type ('tls', 'ssl', 'plain', '') data
MUST contain hostname, proxy, use_custom_host, custom_host (if
use_custom_host), custom_port (if use_custom_host)
"""
if self.connection:
return self.connection, ''
log.info('Connect')
if data:
hostname = data['hostname']
self.try_connecting_for_foo_secs = 45
p = data['proxy']
if p and p in app.config.get_per('proxies'):
proxy = {}
proxyptr = app.config.get_per('proxies', p)
for key in proxyptr.keys():
proxy[key] = proxyptr[key]
else:
proxy = None
use_srv = True
use_custom = data['use_custom_host']
if use_custom:
custom_h = data['custom_host']
custom_p = data['custom_port']
else:
hostname = app.config.get_per('accounts', self.name, 'hostname')
# Connect from location if we resume
hostname = self._sm_resume_data.get('location') or hostname
self.try_connecting_for_foo_secs = app.config.get_per('accounts',
self.name, 'try_connecting_for_foo_secs')
proxy = helpers.get_proxy_info(self.name)
use_srv = app.config.get_per('accounts', self.name, 'use_srv')
use_custom = app.config.get_per('accounts', self.name,
'use_custom_host')
if use_custom:
custom_h = app.config.get_per('accounts', self.name,
'custom_host')
custom_p = app.config.get_per('accounts', self.name,
'custom_port')
try:
helpers.idn_to_ascii(custom_h)
except Exception:
app.nec.push_incoming_event(InformationEvent(
None, dialog_name='invalid-custom-hostname',
args=custom_h))
use_custom = False
# create connection if it doesn't already exist
self.connected = 1
h = hostname
p = 5222
ssl_p = 5223
if use_custom:
h = custom_h
p = custom_p
ssl_p = custom_p
use_srv = False
# SRV resolver
self._proxy = proxy
self._hosts = [
{'host': h, 'port': p, 'type': 'tls', 'prio': 10, 'weight': 10, 'alpn': False},
{'host': h, 'port': ssl_p, 'type': 'ssl', 'prio': 10, 'weight': 10, 'alpn': False},
{'host': h, 'port': p, 'type': 'plain', 'prio': 10, 'weight': 10, 'alpn': False}
]
self._hostname = hostname
if use_srv and self._proxy is None:
self._srv_hosts = []
services = [SERVICE_START_TLS, SERVICE_DIRECT_TLS]
self._num_pending_srv_records = len(services)
for service in services:
record_name = '_' + service + '._tcp.' + helpers.idn_to_ascii(h)
app.resolver.resolve(record_name, self._on_resolve_srv)
app.resolver.resolve('_xmppconnect.' + helpers.idn_to_ascii(h),
self._on_resolve_txt, type_='txt')
else:
self._connect_to_next_host()
def _append_srv_record(self, record, con_type):
tmp = record.copy()
tmp['type'] = con_type
if tmp in self._srv_hosts:
return
self._srv_hosts.append(tmp)
def _on_resolve_srv(self, host, result):
for record in result:
service = host[1:]
if service.startswith(SERVICE_START_TLS):
record['alpn'] = False
self._append_srv_record(record, 'tls')
self._append_srv_record(record, 'plain')
elif service.startswith(SERVICE_DIRECT_TLS):
record['alpn'] = True
self._append_srv_record(record, 'ssl')
self._num_pending_srv_records -= 1
if self._num_pending_srv_records:
return
if self._srv_hosts:
self._hosts = self._srv_hosts.copy()
self._connect_to_next_host()
def _on_resolve_txt(self, host, result_array):
for res in result_array:
if res.startswith('_xmpp-client-xbosh='):
url = res[19:]
found = False
proxies = app.config.get_per('proxies')
for p in proxies:
if app.config.get_per('proxies', p, 'type') == 'bosh' \
and app.config.get_per('proxies', p, 'bosh_uri') == url:
found = True
break
if not found:
h = app.config.get_per('accounts', self.name, 'hostname')
p = 'bosh_' + h
i = 0
while p in proxies:
i += 1
p = 'bosh_' + h + str(i)
app.config.add_per('proxies', p)
app.config.set_per('proxies', p, 'type', 'bosh')
app.config.set_per('proxies', p, 'bosh_uri', url)
def _connect_to_next_host(self, retry=False):
log.debug('Connection to next host')
if not self._hosts:
if not retry and self.retrycount == 0:
log.debug("Out of hosts, giving up connecting to %s", self.name)
self.time_to_reconnect = None
if self.on_connect_failure:
self.on_connect_failure()
self.on_connect_failure = None
else:
# shown error dialog
self._connection_lost()
else:
# try reconnect if connection has failed before auth to server
self._set_reconnect_timer()
return
connection_types = ['tls', 'ssl']
allow_plaintext_connection = app.config.get_per('accounts', self.name,
'allow_plaintext_connection')
if allow_plaintext_connection:
connection_types.append('plain')
if self._proxy and self._proxy['type'] == 'bosh':
# with BOSH, we can't do TLS negotiation with <starttls>, we do only "plain"
# connection and TLS with handshake right after TCP connecting ("ssl")
scheme = nbxmpp.transports.urisplit(self._proxy['bosh_uri'])[0]
if scheme == 'https':
connection_types = ['ssl']
else:
if allow_plaintext_connection:
connection_types = ['plain']
else:
connection_types = []
host = self._select_next_host(self._hosts)
self._hosts.remove(host)
# Skip record if connection type is not supported.
if host['type'] not in connection_types:
log.info("Skipping connection record with unsupported type: %s",
host['type'])
self._connect_to_next_host(retry)
return
self._current_host = host
self._current_type = self._current_host['type']
port = self._current_host['port']
cacerts = ''
if sys.platform in ('win32', 'darwin'):
cacerts = certifi.where()
mycerts = common.configpaths.get('MY_CACERTS')
tls_version = app.config.get_per('accounts', self.name, 'tls_version')
cipher_list = app.config.get_per('accounts', self.name, 'cipher_list')
secure_tuple = (self._current_type, cacerts, mycerts, tls_version,
cipher_list, self._current_host['alpn'])
lang = i18n.get_rfc5646_lang()
log.info('Set stream language: %s', lang)
con = nbxmpp.NonBlockingClient(
domain=self._hostname,
caller=self,
idlequeue=app.idlequeue,
lang=lang)
if self._sm_resume_data:
con.set_resume_data(self._sm_resume_data)
# increase default timeout for server responses
nbxmpp.dispatcher.DEFAULT_TIMEOUT_SECONDS = \
self.try_connecting_for_foo_secs
# FIXME: this is a hack; need a better way
if self.on_connect_success == self._on_new_account: # pylint: disable=comparison-with-callable
con.RegisterDisconnectHandler(self._on_new_account)
if self.client_cert and app.config.get_per('accounts', self.name,
'client_cert_encrypted'):
app.nec.push_incoming_event(
NetworkEvent('client-cert-passphrase',
conn=self,
con=con,
port=port,
secure_tuple=secure_tuple))
return
self.on_client_cert_passphrase('', con, port, secure_tuple)
def on_client_cert_passphrase(self, passphrase, con, port, secure_tuple):
self.client_cert_passphrase = passphrase
self.log_hosttype_info(port)
con.connect(
hostname=self._current_host['host'],
port=port,
on_connect=self.on_connect_success,
on_proxy_failure=self.on_proxy_failure,
on_connect_failure=self._connect_to_next_host,
on_stream_error_cb=self._StreamCB,
proxy=self._proxy,
secure_tuple=secure_tuple)
def log_hosttype_info(self, port):
msg = '>>>>>> Connecting to %s [%s:%d], type = %s' % (self.name,
self._current_host['host'], port, self._current_type)
log.info(msg)
if self._proxy:
msg = '>>>>>> '
if self._proxy['type'] == 'bosh':
msg = '%s over BOSH %s' % (msg, self._proxy['bosh_uri'])
if self._proxy['type'] in ['http', 'socks5'] or self._proxy['bosh_useproxy']:
msg = '%s over proxy %s:%s' % (msg, self._proxy['host'], self._proxy['port'])
log.info(msg)
def _connect_failure(self, con_type=None):
if not con_type:
# we are not retrying, and not conecting
if not self.retrycount and self.connected != 0:
self._disconnect()
if self._proxy:
pritxt = _('Could not connect to "%(host)s" via proxy "%(proxy)s"') %\
{'host': self._hostname, 'proxy': self._proxy['host']}
else:
pritxt = _('Could not connect to "%(host)s"') % {'host': \
self._hostname}
sectxt = _('Check your connection or try again later.')
if self.streamError:
# show error dialog
key = nbxmpp.NS_XMPP_STREAMS + ' ' + self.streamError
if key in nbxmpp.ERRORS:
sectxt2 = _('Server replied: %s') % nbxmpp.ERRORS[key][2]
app.nec.push_incoming_event(InformationEvent(None,
conn=self, level='error', pri_txt=pritxt,
sec_txt='%s\n%s' % (sectxt2, sectxt)))
return
# show popup
app.nec.push_incoming_event(ConnectionLostEvent(None,
conn=self, title=pritxt, msg=sectxt))
def on_proxy_failure(self, reason):
log.error('Connection to proxy failed: %s', reason)
self.time_to_reconnect = None
self.on_connect_failure = None
self._disconnect()
app.nec.push_incoming_event(ConnectionLostEvent(None, conn=self,
title=_('Connection to proxy failed'), msg=reason))
def _connect_success(self, con, con_type):
log.info('Connect successfull')
_con_type = con_type
if _con_type != self._current_type:
log.info('Connecting to next host beacuse desired type '
'is %s and returned is %s', self._current_type, _con_type)
self._connect_to_next_host()
return
con.RegisterDisconnectHandler(self.disconnect)
if _con_type == 'plain' and app.config.get_per('accounts', self.name,
'action_when_plaintext_connection') == 'warn':
app.nec.push_incoming_event(
NetworkEvent('plain-connection',
conn=self,
xmpp_client=con))
return True
if _con_type == 'plain' and app.config.get_per('accounts', self.name,
'action_when_plaintext_connection') == 'disconnect':
self.disconnect(reconnect=False)
app.nec.push_incoming_event(OurShowEvent(None, conn=self,
show='offline'))
return False
return self.connection_accepted(con, con_type)
def connection_accepted(self, con, con_type):
if not con or not con.Connection:
self._disconnect()
app.nec.push_incoming_event(ConnectionLostEvent(None, conn=self,
title=_('Could not connect to account %s') % self.name,
msg=_('Connection with account %s has been lost. Retry '
'connecting.') % self.name))
return
log.info('Connection accepted')
self._hosts = []
self.connection_auto_accepted = False
self.connected_hostname = self._current_host['host']
self.on_connect_failure = None
con.UnregisterDisconnectHandler(self.disconnect)
con.RegisterDisconnectHandler(self._on_disconnect)
log.debug('Connected to server %s:%s with %s',
self._current_host['host'], self._current_host['port'],
con_type)
self.connection = con
ssl_errors = con.Connection.ssl_errors
ignored_ssl_errors = self._get_ignored_ssl_errors()
self._ssl_errors = [n for n in ssl_errors if n not in ignored_ssl_errors]
self._ssl_errors.reverse()
self.process_ssl_errors()
def _get_ignored_ssl_errors(self):
ignore_ssl_errors = app.config.get_per(
'accounts', self.name, 'ignore_ssl_errors').split()
return [int(err) for err in ignore_ssl_errors]
def process_ssl_errors(self):
if not self._ssl_errors:
self.ssl_certificate_accepted()
return
cert = self.connection.Connection.ssl_certificate
errnum = self._ssl_errors.pop()
# Check if we can verify the cert with POSH
if errnum in self._posh_errors:
# Request the POSH json file
self._get_posh_file(self._hostname)
self._posh_requested = True
cert_hash256 = self._calculate_cert_sha256(cert)
if cert_hash256 in self._posh_hashes:
# Ignore this error if this cert is
# verifyed with POSH
self.process_ssl_errors()
return
app.nec.push_incoming_event(
NetworkEvent('ssl-error',
conn=self,
error_num=errnum,
cert=cert))
@staticmethod
def _calculate_cert_sha256(cert):
der_encoded = OpenSSL.crypto.dump_certificate(
OpenSSL.crypto.FILETYPE_ASN1, cert)
hash_obj = hashlib.sha256(der_encoded)
hash256 = base64.b64encode(hash_obj.digest()).decode('utf8')
return hash256
def _get_posh_file(self, hostname=None, redirect=None):
if self._posh_requested:
# We already have requested POSH
return
if not app.config.get_per('accounts', self.name, 'allow_posh'):
return
if hostname is None and redirect is None:
raise ValueError('There must be either a hostname or a url')
url = redirect
if hostname is not None:
url = 'https://%s/.well-known/posh/xmpp-client.json' % hostname
cafile = None
if sys.platform in ('win32', 'darwin'):
cafile = certifi.where()
log.info('Request POSH from %s', url)
try:
file = urlopen(
url, cafile=cafile, timeout=2)
except (URLError, ssl.CertificateError) as exc:
log.info('Error while requesting POSH: %s', exc)
return
if file.getcode() != 200:
log.info('No POSH file found at %s', url)
return
try:
posh = json.loads(file.read())
except json.decoder.JSONDecodeError as json_error:
log.warning(json_error)
return
# Redirect
if 'url' in posh and redirect is None:
# We dont allow redirects in redirects
log.info('POSH redirect found')
self._get_posh_file(redirect=posh['url'])
return
if 'fingerprints' in posh:
fingerprints = posh['fingerprints']
for fingerprint in fingerprints:
if 'sha-256' not in fingerprint:
continue
self._posh_hashes.append(fingerprint['sha-256'])
log.info('POSH sha-256 fingerprints found: %s',
self._posh_hashes)
def ssl_certificate_accepted(self):
if not self.connection:
self._disconnect()
app.nec.push_incoming_event(
ConnectionLostEvent(
None, conn=self,
title=_('Could not connect to account %s') % self.name,
msg=_('Connection with account %s has been lost. '
'Retry connecting.') % self.name))
return
log.info('SSL Cert accepted')
self._auth()
def _get_password(self, mechanism, on_password):
if not mechanism.startswith('SCRAM') and not mechanism == 'PLAIN':
log.error('No password method for %s known', mechanism)
return
if self.password is not None:
# Passord already known
on_password(self.password)
return
pass_saved = app.config.get_per('accounts', self.name, 'savepass')
if pass_saved:
# Request password from keyring only if the user chose to save
# his password
self.password = passwords.get_password(self.name)
if self.password is not None:
on_password(self.password)
else:
app.nec.push_incoming_event(NetworkEvent(
'password-required', conn=self, on_password=on_password))
def _auth(self):
self._register_handlers(self.connection, self._current_type)
if app.config.get_per('accounts', self.name, 'anonymous_auth'):
name = None
auth_mechs = {'ANONYMOUS'}
else:
name = app.config.get_per('accounts', self.name, 'name')
auth_mechs = app.config.get_per(
'accounts', self.name, 'authentication_mechanisms').split()
auth_mechs = set(auth_mechs) if auth_mechs else None
self.connection.auth(name,
get_password=self._get_password,
resource=self.server_resource,
auth_mechs=auth_mechs)
def _register_handlers(self, con, con_type):
self.peerhost = con.get_peerhost()
app.con_types[self.name] = con_type
# notify the gui about con_type
app.nec.push_incoming_event(
NetworkEvent('connection-type',
conn=self,
connection_type=con_type))
ConnectionHandlers._register_handlers(self, con, con_type)
self._register_new_handlers(con)
def _on_auth_successful(self):
if self._unregister_account:
self._on_unregister_account_connect()
else:
self.connection.bind()
def _on_auth_failed(self, reason, text):
if not app.config.get_per('accounts', self.name, 'savepass'):
# Forget password, it's wrong
self.password = None
log.debug("Couldn't authenticate to %s", self._hostname)
self.disconnect(reconnect=False)
app.nec.push_incoming_event(
OurShowEvent(None, conn=self, show='offline'))
app.nec.push_incoming_event(InformationEvent(
None,
conn=self,
level='error',
pri_txt=_('Authentication failed with "%s"') % self._hostname,
sec_txt=_('Please check your login and password for correctness.')
))
def _on_resume_failed(self):
# SM resume failed, set show to offline so we lose the presence
# state of all contacts
app.nec.push_incoming_event(OurShowEvent(
None, conn=self, show='offline'))
self.get_module('Chatstate').enabled = False
def _on_resume_successful(self):
# Connection was successful, reset sm resume data
self._sm_resume_data = {}
self.connected = 2
self.retrycount = 0
self.set_oldst()
self._set_send_timeouts()
def _on_connection_active(self):
# Connection was successful, reset sm resume data
self._sm_resume_data = {}
self.server_resource = self.connection.Resource
self.registered_name = self.connection.get_bound_jid()
log.info('Bound JID: %s', self.registered_name)
if app.config.get_per('accounts', self.name, 'anonymous_auth'):
# Get jid given by server
old_jid = app.get_jid_from_account(self.name)
app.config.set_per('accounts', self.name,
'name', self.connection.User)
new_jid = app.get_jid_from_account(self.name)
app.nec.push_incoming_event(
NetworkEvent('anonymous-auth',
conn=self,
old_jid=old_jid,
new_jid=new_jid))
self.connected = 2
self.retrycount = 0
self._discover_server()
self._set_send_timeouts()
self.get_module('Chatstate').enabled = True
def _set_send_timeouts(self):
if app.config.get_per('accounts', self.name, 'keep_alives_enabled'):
keep_alive_seconds = app.config.get_per(
'accounts', self.name, 'keep_alive_every_foo_secs')
self.connection.set_send_timeout(keep_alive_seconds,
self._send_keepalive)
if app.config.get_per('accounts', self.name, 'ping_alives_enabled'):
ping_alive_seconds = app.config.get_per(
'accounts', self.name, 'ping_alive_every_foo_secs')
self.connection.set_send_timeout2(
ping_alive_seconds, self.get_module('Ping').send_keepalive_ping)
def _send_keepalive(self):
if self.connection:
self.connection.send(' ')
def send_invisible_presence(self, msg, signed, initial=False):
if not app.account_is_connected(self.name):
return
if not self.get_module('PrivacyLists').supported:
app.nec.push_incoming_event(OurShowEvent(None, conn=self,
show=app.SHOW_LIST[self.connected]))
app.nec.push_incoming_event(InformationEvent(
None, dialog_name='invisibility-not-supported', args=self.name))
return
# If we are already connected, and privacy rules are supported, send
# offline presence first as it's required by XEP-0126
if self.connected > 1 and self.get_module('PrivacyLists').supported:
self.remove_all_transfers()
self.get_module('Presence').send_presence(
typ='unavailable',
status=msg,
caps=False)
# try to set the privacy rule
self.get_module('PrivacyLists').set_invisible_rule(
callback=self._continue_invisible,
msg=msg,
signed=signed,
initial=initial)
def _continue_invisible(self, con, iq_obj, msg, signed, initial):
if iq_obj.getType() == 'error': # server doesn't support privacy lists
return
# active the privacy rule
self.get_module('PrivacyLists').set_active_list('invisible')
self.connected = app.SHOW_LIST.index('invisible')
self.status = msg
priority = app.get_priority(self.name, 'invisible')
self.get_module('Presence').send_presence(
priority=priority,
status=msg,
sign=signed)
self.priority = priority
app.nec.push_incoming_event(OurShowEvent(None, conn=self,
show='invisible'))
if initial:
if not self.avatar_conversion:
# ask our VCard
self.get_module('VCardTemp').request_vcard()
# Get bookmarks
self.get_module('Bookmarks').request_bookmarks()
# Get annotations
self.get_module('Annotations').request_annotations()
# Blocking
self.get_module('Blocking').get_blocking_list()
# Inform GUI we just signed in
app.nec.push_incoming_event(NetworkEvent('signed-in', conn=self))
def get_signed_presence(self, msg, callback=None):
if app.config.get_per('accounts', self.name, 'gpg_sign_presence'):
return self.get_signed_msg(msg, callback)
return ''
def connect_and_auth(self):
self.on_connect_success = self._connect_success
self.on_connect_failure = self._connect_failure
self.connect()
def connect_and_init(self, show, msg, sign_msg):
self.disable_reconnect_timer()
self.continue_connect_info = [show, msg, sign_msg]
self.connect_and_auth()
def _discover_server(self):
if not app.account_is_connected(self.name):
return
self.get_module('Discovery').discover_server_info()
self.get_module('Discovery').discover_account_info()
self.get_module('Discovery').discover_server_items()
# Discover Stun server(s)
if self._proxy is None:
hostname = app.config.get_per('accounts', self.name, 'hostname')
app.resolver.resolve(
'_stun._udp.' + helpers.idn_to_ascii(hostname),
self._on_stun_resolved)
def _on_stun_resolved(self, host, result_array):
if result_array:
self._stun_servers = self._hosts = [i for i in result_array]
@helpers.call_counter
def connect_machine(self, restart=False):
log.info('Connect machine state: %s', self._connect_machine_calls)
if self._connect_machine_calls == 1:
self.get_module('MetaContacts').get_metacontacts()
elif self._connect_machine_calls == 2:
self.get_module('Delimiter').get_roster_delimiter()
elif self._connect_machine_calls == 3:
self.get_module('Roster').request_roster()
elif self._connect_machine_calls == 4:
self.send_first_presence()
self.discover_ft_proxies()
def discover_ft_proxies(self):
if not app.config.get_per('accounts', self.name, 'use_ft_proxies'):
return
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').request_bookmarks()
self.get_module('Annotations').request_annotations()
self.get_module('Blocking').get_blocking_list()
# Inform GUI we just signed in
app.nec.push_incoming_event(NetworkEvent('signed-in', conn=self))
modules.send_stored_publish(self.name)
self.continue_connect_info = None
def send_custom_status(self, show, msg, jid):
if show not in app.SHOW_LIST:
return -1
if not app.account_is_connected(self.name):
return
sshow = helpers.get_xmpp_show(show)
if not msg:
msg = ''
if show == 'offline':
self.get_module('Presence').send_presence(
jid,
'unavailable',
caps=False,
status=msg)
else:
signed = self.get_signed_presence(msg)
priority = app.get_priority(self.name, sshow)
self.get_module('Presence').send_presence(
jid,
priority=priority,
show=sshow,
status=msg,
sign=signed)
def _change_to_invisible(self, msg):
signed = self.get_signed_presence(msg)
self.send_invisible_presence(msg, signed)
def _change_from_invisible(self):
if self.get_module('PrivacyLists').supported:
self.get_module('PrivacyLists').set_active_list(None)
def _update_status(self, show, msg, idle_time=None):
xmpp_show = helpers.get_xmpp_show(show)
priority = app.get_priority(self.name, xmpp_show)
signed = self.get_signed_presence(msg)
self.get_module('Presence').send_presence(
priority=priority,
show=xmpp_show,
status=msg,
sign=signed,
idle_time=idle_time)
if self.connection:
self.priority = priority
app.nec.push_incoming_event(OurShowEvent(None, conn=self,
show=show))
def send_motd(self, jid, subject='', msg='', xhtml=None):
if not app.account_is_connected(self.name):
return
msg_iq = nbxmpp.Message(to=jid, body=msg, subject=subject,
xhtml=xhtml)
self.connection.send(msg_iq)
def _nec_message_outgoing(self, obj):
if obj.account != self.name:
return
self._prepare_message(obj)
def _nec_stanza_message_outgoing(self, obj):
if obj.conn.name != self.name:
return
config_key = '%s-%s' % (self.name, obj.jid)
encryption = app.config.get_per('encryption', config_key, 'encryption')
if encryption:
app.plugin_manager.extension_point(
'encrypt' + encryption, self, obj, self.send_message)
if not obj.encrypted:
# Dont propagate event
return True
else:
self.send_message(obj)
def send_message(self, obj):
obj.timestamp = time.time()
obj.stanza_id = self.connection.send(obj.msg_iq, now=obj.now)
app.nec.push_incoming_event(MessageSentEvent(None, **vars(obj)))
if isinstance(obj.jid, list):
for j in obj.jid:
if obj.session is None:
obj.session = self.get_or_create_session(j, '')
self.log_message(obj, j)
else:
self.log_message(obj, obj.jid)
def send_stanza(self, stanza):
"""
Send a stanza untouched
"""
if not self.connection:
return
self.connection.send(stanza)
def send_new_account_infos(self, form, is_form):
if is_form:
# Get username and password and put them in new_account_info
for field in form.iter_fields():
if field.var == 'username':
self.new_account_info['name'] = field.value
if field.var == 'password':
self.new_account_info['password'] = field.value
else:
# Get username and password and put them in new_account_info
if 'username' in form:
self.new_account_info['name'] = form['username']
if 'password' in form:
self.new_account_info['password'] = form['password']
self.new_account_form = form
self.new_account(self.name, self.new_account_info)
def new_account(self, name, config, sync=False):
# If a connection already exist we cannot create a new account
if self.connection:
return
self._hostname = config['hostname']
self.new_account_info = config
self.name = name
self.on_connect_success = self._on_new_account
self.on_connect_failure = self._on_new_account
self.connect(config)
app.resolver.resolve('_xmppconnect.' + helpers.idn_to_ascii(
self._hostname), self._on_resolve_txt, type_='txt')
def _on_new_account(self, con=None, con_type=None):
if not con_type:
if self._hosts:
# There are still other way to try to connect
return
reason = _('Could not connect to "%s"') % self._hostname
app.nec.push_incoming_event(NewAccountNotConnectedEvent(None,
conn=self, reason=reason))
return
self.on_connect_failure = None
self.connection = con
nbxmpp.features.getRegInfo(con, self._hostname)
def getRoster(self):
return self.get_module('Roster')
def send_agent_status(self, agent, ptype):
if not app.account_is_connected(self.name):
return
show = helpers.get_xmpp_show(app.SHOW_LIST[self.connected])
self.get_module('Presence').send_presence(
agent,
ptype,
show=show,
caps=ptype != 'unavailable')
def join_gc(self, nick, room_jid, password, change_nick=False,
rejoin=False):
# FIXME: This room JID needs to be normalized; see #1364
if not app.account_is_connected(self.name):
return
show = helpers.get_xmpp_show(app.SHOW_LIST[self.connected])
if show == 'invisible':
# Never join a room when invisible
return
self.get_module('Discovery').disco_muc(
room_jid, partial(self._join_gc, nick, show, room_jid,
password, change_nick, rejoin))
def _join_gc(self, nick, show, room_jid, password, change_nick, rejoin):
if change_nick:
self.get_module('Presence').send_presence(
'%s/%s' % (room_jid, nick),
show=show,
status=self.status)
else:
self.get_module('MUC').send_muc_join_presence(
'%s/%s' % (room_jid, nick),
show=show,
status=self.status,
room_jid=room_jid,
password=password,
rejoin=rejoin)
def _nec_gc_message_outgoing(self, obj):
if obj.account != self.name:
return
if not app.account_is_connected(self.name):
return
if not obj.xhtml and app.config.get('rst_formatting_outgoing_messages'):
from gajim.common.rst_xhtml_generator import create_xhtml
obj.xhtml = create_xhtml(obj.message)
msg_iq = nbxmpp.Message(obj.jid, obj.message, typ='groupchat',
xhtml=obj.xhtml)
obj.stanza_id = self.connection.getAnID()
msg_iq.setID(obj.stanza_id)
if obj.message:
msg_iq.setOriginID(obj.stanza_id)
if obj.correct_id:
msg_iq.setTag('replace', attrs={'id': obj.correct_id},
namespace=nbxmpp.NS_CORRECT)
if obj.chatstate is not None:
msg_iq.setTag(obj.chatstate, namespace=nbxmpp.NS_CHATSTATES)
if not obj.message:
msg_iq.setTag('no-store', namespace=nbxmpp.NS_MSG_HINTS)
if obj.label is not None:
msg_iq.addChild(node=obj.label)
obj.msg_iq = msg_iq
obj.conn = self
app.nec.push_incoming_event(GcStanzaMessageOutgoingEvent(None, **vars(obj)))
def _nec_gc_stanza_message_outgoing(self, obj):
if obj.conn.name != self.name:
return
config_key = '%s-%s' % (self.name, obj.jid)
encryption = app.config.get_per('encryption', config_key, 'encryption')
if encryption:
app.plugin_manager.extension_point(
'gc_encrypt' + encryption, self, obj, self.send_gc_message)
else:
self.send_gc_message(obj)
def send_gc_message(self, obj):
obj.stanza_id = self.connection.send(obj.msg_iq)
app.nec.push_incoming_event(MessageSentEvent(
None, conn=self, jid=obj.jid, message=obj.message, keyID=None,
automatic_message=obj.automatic_message,
stanza_id=obj.stanza_id, additional_data=obj.additional_data))
def send_gc_status(self, nick, jid, show, status, auto=False):
if not app.account_is_connected(self.name):
return
if show == 'invisible':
show = 'offline'
ptype = None
if show == 'offline':
ptype = 'unavailable'
xmpp_show = helpers.get_xmpp_show(show)
idle_time = None
if auto and app.is_installed('IDLE') and app.config.get('autoaway'):
idle_sec = idle.Monitor.get_idle_sec()
idle_time = time.strftime('%Y-%m-%dT%H:%M:%SZ',
time.gmtime(time.time() - idle_sec))
self.get_module('Presence').send_presence(
'%s/%s' % (jid, nick),
typ=ptype,
show=xmpp_show,
status=status,
caps=ptype != 'unavailable',
idle_time=idle_time)
def unregister_account(self, on_remove_success):
self._unregister_account = True
self._unregister_account_cb = on_remove_success
if self.connected == 0:
self.connect_and_auth()
else:
self._on_unregister_account_connect()
def _on_unregister_account_connect(self):
self.removing_account = True
if app.account_is_connected(self.name):
hostname = app.config.get_per('accounts', self.name, 'hostname')
iq = nbxmpp.Iq(typ='set', to=hostname)
id_ = self.connection.getAnID()
iq.setID(id_)
iq.setTag(nbxmpp.NS_REGISTER + ' query').setTag('remove')
def _on_answer(con, result):
if result.getID() == id_:
self._on_unregister_finished(True)
return
app.nec.push_incoming_event(InformationEvent(
None, dialog_name='unregister-error',
kwargs={'server': hostname, 'error': result.getErrorMsg()}))
self._on_unregister_finished(False)
self.connection.RegisterHandler(
'iq', _on_answer, 'result', system=True)
self.connection.SendAndWaitForResponse(iq)
return
self._on_unregister_finished(False)
self.removing_account = False
def _on_unregister_finished(self, result):
self._unregister_account_cb(result)
self._unregister_account = False
self._unregister_account_cb = None
def _reconnect_alarm(self):
if not app.config.get_per('accounts', self.name, 'active'):
# Account may have been disabled
return
if self.time_to_reconnect:
if self.connected < 2:
self.reconnect()
else:
self.time_to_reconnect = None