839 lines
30 KiB
Python
839 lines
30 KiB
Python
#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
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"""
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Slixmpp OMEMO plugin
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Copyright (C) 2019 Maxime “pep” Buquet <pep@bouah.net>
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This file is part of slixmpp-omemo.
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See the file LICENSE for copying permission.
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"""
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import logging
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from typing import Any, Dict, List, Optional, Set, Tuple, Union
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# Not available in Python 3.7, and slixmpp already imports the right things
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# for me
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from slixmpp.types import TypedDict
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from functools import reduce
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import os
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import json
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import base64
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import asyncio
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from slixmpp.plugins.xep_0060.stanza import Items, EventItems
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from slixmpp.plugins.xep_0004 import Form
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from slixmpp.plugins.base import BasePlugin, register_plugin
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from slixmpp.exceptions import IqError, IqTimeout
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from slixmpp.stanza import Message, Iq
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from slixmpp.jid import JID
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from .version import __version__, __version_info__
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from .stanza import OMEMO_BASE_NS
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from .stanza import OMEMO_DEVICES_NS, OMEMO_BUNDLES_NS
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from .stanza import Bundle, Devices, Device, Encrypted, Key, PreKeyPublic
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log = logging.getLogger(__name__)
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HAS_OMEMO = False
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HAS_OMEMO_BACKEND = False
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try:
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import omemo.exceptions
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from omemo import SessionManager, ExtendedPublicBundle, DefaultOTPKPolicy
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from omemo.util import generateDeviceID
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from omemo.implementations import JSONFileStorage
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from omemo.backends import Backend
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HAS_OMEMO = True
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from omemo_backend_signal import BACKEND as SignalBackend
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HAS_OMEMO_BACKEND = True
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except (ImportError,):
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class Backend:
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pass
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class DefaultOTPKPolicy:
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pass
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class SignalBackend:
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pass
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TRUE_VALUES = {True, 'true', '1'}
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PUBLISH_OPTIONS_NODE = 'http://jabber.org/protocol/pubsub#publish-options'
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PUBSUB_ERRORS = 'http://jabber.org/protocol/pubsub#errors'
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class ChainLengths(TypedDict):
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receiving: List[Tuple[int, int]]
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sending: List[Tuple[int, int]]
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def b64enc(data: bytes) -> str:
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return base64.b64encode(bytes(bytearray(data))).decode('ASCII')
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def b64dec(data: str) -> bytes:
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return base64.b64decode(data)
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def _load_device_id(data_dir: str) -> int:
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filepath = os.path.join(data_dir, 'device_id.json')
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# Try reading file first, decoding, and if file was empty generate
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# new DeviceID
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try:
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with open(filepath, 'r') as f:
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did = json.load(f)
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except (FileNotFoundError, json.JSONDecodeError):
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did = generateDeviceID()
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with open(filepath, 'w') as f:
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json.dump(did, f)
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return did
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def fp_from_ik(identity_key: bytes) -> str:
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"""Convert identityKey to a string representation (fingerprint)"""
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return "".join("{:02x}".format(octet) for octet in identity_key)
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def _parse_bundle(backend: Backend, bundle: Bundle) -> ExtendedPublicBundle:
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identity_key = b64dec(bundle['identityKey']['value'].strip())
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spk = {
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'id': int(bundle['signedPreKeyPublic']['signedPreKeyId']),
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'key': b64dec(bundle['signedPreKeyPublic']['value'].strip()),
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}
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spk_signature = b64dec(bundle['signedPreKeySignature']['value'].strip())
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otpks = []
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for prekey in bundle['prekeys']:
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otpks.append({
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'id': int(prekey['preKeyId']),
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'key': b64dec(prekey['value'].strip()),
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})
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return ExtendedPublicBundle.parse(backend, identity_key, spk, spk_signature, otpks)
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def _generate_encrypted_payload(encrypted) -> Encrypted:
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tag = Encrypted()
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tag['header']['sid'] = str(encrypted['sid'])
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tag['header']['iv']['value'] = b64enc(encrypted['iv'])
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if 'payload' in encrypted:
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tag['payload']['value'] = b64enc(encrypted['payload'])
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for bare_jid, devices in encrypted['keys'].items():
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for rid, device in devices.items():
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key = Key()
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key['value'] = b64enc(device['data'])
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key['rid'] = str(rid)
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if device['pre_key']:
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key['prekey'] = '1'
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tag['header'].append(key)
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return tag
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def _make_publish_options_form(fields: Dict[str, Any]) -> Form:
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options = Form()
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options['type'] = 'submit'
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options.add_field(
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var='FORM_TYPE',
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ftype='hidden',
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value='http://jabber.org/protocol/pubsub#publish-options',
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)
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for var, value in fields.items():
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options.add_field(var=var, value=value)
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return options
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# XXX: This should probably be moved in plugins/base.py?
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class PluginCouldNotLoad(Exception): pass
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# Generic exception
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class XEP0384(Exception): pass
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class MissingOwnKey(XEP0384): pass
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class NoAvailableSession(XEP0384): pass
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class UninitializedOMEMOSession(XEP0384): pass
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class EncryptionPrepareException(XEP0384):
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def __init__(self, errors):
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self.errors = errors
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class UntrustedException(XEP0384):
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def __init__(self, bare_jid, device, ik):
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self.bare_jid = JID(bare_jid)
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self.device = device
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self.ik = ik
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class UndecidedException(XEP0384):
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def __init__(self, bare_jid, device, ik):
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self.bare_jid = JID(bare_jid)
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self.device = device
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self.ik = ik
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class ErroneousPayload(XEP0384):
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"""To be raised when the payload is not of the form we expect"""
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class XEP_0384(BasePlugin):
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"""
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XEP-0384: OMEMO
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"""
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name = 'xep_0384'
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description = 'XEP-0384 OMEMO'
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dependencies = {'xep_0004', 'xep_0030', 'xep_0060', 'xep_0163'}
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default_config = {
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'data_dir': None,
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'storage_backend': None,
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'otpk_policy': DefaultOTPKPolicy,
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'omemo_backend': SignalBackend,
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'auto_heartbeat': True,
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'heartbeat_after': 53,
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# TODO: 'drop_inactive_after': 300,
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}
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backend_loaded = HAS_OMEMO and HAS_OMEMO_BACKEND
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# OMEMO Bundles used for encryption
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bundles = {} # type: Dict[str, Dict[int, ExtendedPublicBundle]]
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# Used at startup to prevent publishing device list and bundles multiple times
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_initial_publish_done = False
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# Initiated once the OMEMO session is created.
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__omemo_session: Optional[SessionManager] = None
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def plugin_init(self) -> None:
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if not self.backend_loaded:
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log_str = ("xep_0384 cannot be loaded as the backend omemo library "
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"is not available. ")
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if not HAS_OMEMO_BACKEND:
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log_str += ("Make sure you have a python OMEMO backend "
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"(python-omemo-backend-signal) installed")
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else:
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log_str += "Make sure you have the python OMEMO library installed."
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log.error(log_str)
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raise PluginCouldNotLoad
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if not self.data_dir:
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raise PluginCouldNotLoad("xep_0384 cannot be loaded as there is "
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"no data directory specified.")
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self._device_id = _load_device_id(self.data_dir)
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asyncio.ensure_future(self.session_start_omemo())
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self.xmpp.add_event_handler('session_start', self.session_start)
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self.xmpp['xep_0060'].map_node_event(OMEMO_DEVICES_NS, 'omemo_device_list')
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self.xmpp.add_event_handler('omemo_device_list_publish', self._receive_device_list)
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# If this plugin is loaded after 'session_start' has fired, we still
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# need to publish bundles
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if self.xmpp.is_connected and not self._initial_publish_done:
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asyncio.ensure_future(self._initial_publish())
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def plugin_end(self):
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if not self.backend_loaded:
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return
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self.xmpp.remove_event_handler('session_start', self.session_start)
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self.xmpp.remove_event_handler('omemo_device_list_publish', self._receive_device_list)
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self.xmpp['xep_0163'].remove_interest(OMEMO_DEVICES_NS)
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async def session_start_omemo(self):
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"""Creates the OMEMO session object"""
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storage = self.storage_backend
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if self.storage_backend is None:
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storage = JSONFileStorage(self.data_dir)
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otpkpolicy = self.otpk_policy
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bare_jid = self.xmpp.boundjid.bare
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try:
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self.__omemo_session = await SessionManager.create(
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storage,
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otpkpolicy,
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self.omemo_backend,
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bare_jid,
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self._device_id,
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)
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except Exception as exn:
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log.error("Couldn't load the OMEMO object; ¯\\_(ツ)_/¯")
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raise PluginCouldNotLoad from exn
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def _omemo(self) -> SessionManager:
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"""Helper method to unguard potentially uninitialized SessionManager"""
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if self.__omemo_session is None:
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raise UninitializedOMEMOSession
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return self.__omemo_session
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async def session_start(self, _jid):
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await self._initial_publish()
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async def _initial_publish(self):
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if self.backend_loaded:
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self.xmpp['xep_0163'].add_interest(OMEMO_DEVICES_NS)
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await asyncio.wait([
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self._set_device_list(),
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self._publish_bundle(),
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])
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self._initial_publish_done = True
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def my_device_id(self) -> int:
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return self._device_id
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async def my_fingerprint(self) -> str:
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bundle = await self._omemo().public_bundle.serialize(self.omemo_backend)
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return fp_from_ik(bundle['ik'])
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def _set_node_config(
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self,
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node: str,
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persist_items: bool = True,
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access_model: Optional[str] = None,
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) -> asyncio.Future:
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"""
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Sets OMEMO devicelist or bundle node configuration.
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This function is meant to be used once we've tried publish options
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and they came back with precondition-not-met. This means an
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existing node is not using our defaults.
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By default this function will be overwriting pubsub#persist_items
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only, leaving pubsub#access_model as it was.
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To be complete, the code using this function should probably
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set the bundle node to the same access_model as the devicelist
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node.
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"""
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form = Form()
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form['type'] = 'submit'
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form.add_field(
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var='FORM_TYPE',
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ftype='hidden',
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value='http://jabber.org/protocol/pubsub#node_config',
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)
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if persist_items:
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form.add_field(
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var='pubsub#persist_items',
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ftype='boolean',
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value=True,
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)
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if access_model is not None:
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form.add_field(
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var='FORM_TYPE',
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ftype='text-single',
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value=access_model,
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)
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return self.xmpp['xep_0060'].set_node_config(
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self.xmpp.boundjid.bare,
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node,
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form,
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)
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async def _generate_bundle_iq(self, publish_options: bool = True) -> Iq:
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bundle = self._omemo().public_bundle.serialize(self.omemo_backend)
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jid = self.xmpp.boundjid
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disco = await self.xmpp['xep_0030'].get_info(jid.bare)
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publish_options = PUBLISH_OPTIONS_NODE in disco['disco_info'].get_features()
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iq = self.xmpp.Iq(stype='set')
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publish = iq['pubsub']['publish']
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publish['node'] = '%s:%d' % (OMEMO_BUNDLES_NS, self._device_id)
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payload = publish['item']['bundle']
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signedPreKeyPublic = b64enc(bundle['spk']['key'])
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payload['signedPreKeyPublic']['value'] = signedPreKeyPublic
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payload['signedPreKeyPublic']['signedPreKeyId'] = str(bundle['spk']['id'])
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payload['signedPreKeySignature']['value'] = b64enc(
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bundle['spk_signature']
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)
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identityKey = b64enc(bundle['ik'])
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payload['identityKey']['value'] = identityKey
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prekeys = []
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for otpk in bundle['otpks']:
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prekey = PreKeyPublic()
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prekey['preKeyId'] = str(otpk['id'])
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prekey['value'] = b64enc(otpk['key'])
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prekeys.append(prekey)
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payload['prekeys'] = prekeys
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if publish_options and publish_options:
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options = _make_publish_options_form({
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'pubsub#persist_items': True,
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'pubsub#access_model': 'open',
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})
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iq['pubsub']['publish_options'] = options
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return iq
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async def _publish_bundle(self) -> None:
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if self._omemo().republish_bundle:
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iq = await self._generate_bundle_iq()
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try:
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await iq.send()
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except IqError as e:
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# TODO: Slixmpp should handle pubsub#errors so we don't have to
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# fish the element ourselves
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precondition = e.iq['error'].xml.find(
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'{%s}%s' % (PUBSUB_ERRORS, 'precondition-not-met'),
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)
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if precondition is not None:
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log.debug('The node we tried to publish was already '
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'existing with a different configuration. '
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'Trying to configure manually..')
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# TODO: We should attempt setting this node to the same
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# access_model as the devicelist node for completness.
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try:
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await self._set_node_config(OMEMO_BUNDLES_NS)
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except IqError:
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log.debug('Failed to set node to persistent after precondition-not-met')
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raise
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iq = await self._generate_bundle_iq(publish_options=False)
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await iq.send()
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async def _fetch_bundle(self, jid: str, device_id: int) -> Optional[ExtendedPublicBundle]:
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node = '%s:%d' % (OMEMO_BUNDLES_NS, device_id)
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try:
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iq = await self.xmpp['xep_0060'].get_items(jid, node)
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except (IqError, IqTimeout):
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return None
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bundle = iq['pubsub']['items']['item']['bundle']
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return _parse_bundle(self.omemo_backend, bundle)
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async def _fetch_device_list(self, jid: JID) -> None:
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"""Manually query PEP OMEMO_DEVICES_NS nodes"""
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iq = await self.xmpp['xep_0060'].get_items(jid.full, OMEMO_DEVICES_NS)
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return await self._read_device_list(jid, iq['pubsub']['items'])
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async def _store_device_ids(self, jid: str, items: Union[Items, EventItems]) -> None:
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"""Store Device list"""
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device_ids = [] # type: List[int]
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items = list(items)
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if items:
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device_ids = [int(d['id']) for d in items[0]['devices']]
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return await self._omemo().newDeviceList(str(jid), device_ids)
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def _receive_device_list(self, msg: Message) -> None:
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"""Handler for received PEP OMEMO_DEVICES_NS payloads"""
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asyncio.ensure_future(
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self._read_device_list(msg['from'], msg['pubsub_event']['items']),
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)
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async def _read_device_list(self, jid: JID, items: Union[Items, EventItems]) -> None:
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"""Read items and devices if we need to set the device list again or not"""
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bare_jid = jid.bare
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await self._store_device_ids(bare_jid, items)
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items = list(items)
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device_ids = []
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if items:
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device_ids = [int(d['id']) for d in items[0]['devices']]
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if bare_jid == self.xmpp.boundjid.bare and \
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self._device_id not in device_ids:
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await self._set_device_list()
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return None
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async def _set_device_list(self, device_ids: Optional[Set[int]] = None) -> None:
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own_jid = self.xmpp.boundjid
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try:
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iq = await self.xmpp['xep_0060'].get_items(
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own_jid.bare, OMEMO_DEVICES_NS,
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)
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items = iq['pubsub']['items']
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await self._store_device_ids(own_jid.bare, items)
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except IqError as iq_err:
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if iq_err.condition == "item-not-found":
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await self._store_device_ids(own_jid.bare, [])
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else:
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return # XXX: Handle this!
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if device_ids is None:
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device_ids = await self.get_device_list(own_jid)
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devices = []
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for i in device_ids:
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d = Device()
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d['id'] = str(i)
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devices.append(d)
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payload = Devices()
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payload['devices'] = devices
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jid = self.xmpp.boundjid
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disco = await self.xmpp['xep_0030'].get_info(jid.bare)
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publish_options = PUBLISH_OPTIONS_NODE in disco['disco_info'].get_features()
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options = None
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if publish_options:
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options = _make_publish_options_form({
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'pubsub#persist_items': True,
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# Everybody will be able to encrypt for us, without having to add
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# us into their roster. This obviously leaks the number of devices
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# and the associated metadata of us pushing new device lists every
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# so often.
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'pubsub#access_model': 'open',
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})
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try:
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await self.xmpp['xep_0060'].publish(
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own_jid.bare, OMEMO_DEVICES_NS, payload=payload, options=options,
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)
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except IqError as e:
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# TODO: Slixmpp should handle pubsub#errors so we don't have to
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# fish the element ourselves
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precondition = e.iq['error'].xml.find(
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'{%s}%s' % (PUBSUB_ERRORS, 'precondition-not-met'),
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)
|
|
if precondition is not None:
|
|
log.debug('The node we tried to publish was already '
|
|
'existing with a different configuration. '
|
|
'Trying to configure manually..')
|
|
try:
|
|
await self._set_node_config(OMEMO_DEVICES_NS)
|
|
except IqError:
|
|
log.debug('Failed to set node to persistent after precondition-not-met')
|
|
raise
|
|
await self.xmpp['xep_0060'].publish(
|
|
own_jid.bare, OMEMO_DEVICES_NS, payload=payload,
|
|
)
|
|
|
|
async def get_device_list(self, jid: JID) -> List[str]:
|
|
"""Return active device ids. Always contains our own device id."""
|
|
devices = await self._omemo().getDevices(jid.bare)
|
|
return devices.get('active', [])
|
|
|
|
async def _chain_lengths(self, jid: JID) -> ChainLengths:
|
|
"""
|
|
Gather receiving and sending chain lengths for all devices (active
|
|
/ inactive) of a JID.
|
|
|
|
Receiving chain length is used to know when to send a heartbeat to
|
|
signal recipients our device is still active and listening. See:
|
|
https://xmpp.org/extensions/xep-0384.html#rules
|
|
|
|
Sending chain length is used on the other side when a device
|
|
hasn't been sending us messages and seems inactive.
|
|
|
|
# XXX: Only the receiving part is used in this library for the
|
|
# moment.
|
|
"""
|
|
# XXX: This method uses APIs that haven't been made public yet in the
|
|
# OMEMO library as of 0.12 (9fd7123).
|
|
|
|
bare = jid.bare
|
|
devices = await self._omemo().getDevices(bare)
|
|
active = devices.get('active', set())
|
|
inactive = devices.get('inactive', set())
|
|
devices = active.union(inactive)
|
|
|
|
lengths: ChainLengths = {'sending': [], 'receiving': []}
|
|
for did in devices:
|
|
session = self._omemo()._SessionManager__loadSession(bare, did)
|
|
if session is None:
|
|
continue
|
|
skr = session._DoubleRatchet__skr
|
|
sending = skr.sending_chain_length or 0
|
|
receiving = skr.receiving_chain_length or 0
|
|
lengths['sending'].append((did, sending))
|
|
lengths['receiving'].append((did, receiving))
|
|
|
|
return lengths
|
|
|
|
async def _should_heartbeat(self, jid: JID, prekey: bool) -> bool:
|
|
"""
|
|
Internal helper for :py:func:`XEP_0384.should_heartbeat`.
|
|
|
|
Returns whether we should send a heartbeat message for JID.
|
|
|
|
We check if the message is a prekey message, in which case we
|
|
assume it's a new session and we want to ACK relatively early.
|
|
|
|
Otherwise we look at the number of messages since we have last
|
|
replied and if above a certain threshold we notify them that we're
|
|
still active.
|
|
"""
|
|
|
|
chain_lengths = await self._chain_lengths(jid)
|
|
receiving_chain_lengths = chain_lengths.get('receiving', [])
|
|
lengths = map(lambda d_l: d_l[1], receiving_chain_lengths)
|
|
inactive_session = max(lengths, default=0) > self.heartbeat_after
|
|
|
|
return prekey or inactive_session
|
|
|
|
async def should_heartbeat(self, jid: JID, msg: Union[Message, Encrypted]) -> bool:
|
|
"""
|
|
Returns whether we should send a heartbeat message for JID.
|
|
See notes about heartbeat in
|
|
https://xmpp.org/extensions/xep-0384.html#rules.
|
|
|
|
This method will return True when a session among all of the
|
|
sessions for this JID is not yet confirmed, or if one of the
|
|
sessions hasn't been answered in a while.
|
|
"""
|
|
|
|
prekey: bool = False
|
|
|
|
# Get prekey information from message
|
|
encrypted = msg
|
|
if isinstance(msg, Message):
|
|
encrypted = msg['omemo_encrypted']
|
|
|
|
header = encrypted['header']
|
|
key = header.xml.find("{%s}key[@rid='%s']" % (
|
|
OMEMO_BASE_NS, self._device_id))
|
|
# Don't error out. If it's not encrypted to us we don't need to send a
|
|
# heartbeat.
|
|
if key is not None:
|
|
key = Key(key)
|
|
prekey = key['prekey'] in TRUE_VALUES
|
|
|
|
return await self._should_heartbeat(jid, prekey)
|
|
|
|
async def make_heartbeat(self, jid: JID) -> Message:
|
|
"""
|
|
Returns a heartbeat message.
|
|
|
|
This is mainly used to tell receiving clients that our device is
|
|
still active. This is an empty key transport message of which we
|
|
won't use the generated shared secret.
|
|
"""
|
|
|
|
msg = self.xmpp.make_message(mto=jid)
|
|
encrypted = await self.encrypt_message(
|
|
plaintext=None,
|
|
recipients=[jid],
|
|
expect_problems=None,
|
|
_ignore_trust=True,
|
|
)
|
|
msg.append(encrypted)
|
|
return msg
|
|
|
|
async def trust(self, jid: JID, device_id: int, ik: bytes) -> None:
|
|
await self._omemo().setTrust(jid.bare, device_id, ik, True)
|
|
|
|
async def distrust(self, jid: JID, device_id: int, ik: bytes) -> None:
|
|
await self._omemo().setTrust(jid.bare, device_id, ik, False)
|
|
|
|
async def get_trust_for_jid(self, jid: JID) -> Dict[str, List[Optional[Dict[str, Any]]]]:
|
|
"""
|
|
Fetches trust for JID. The returned dictionary will contain active
|
|
and inactive devices. Each of these dict will contain device ids
|
|
as keys, and a dict with 'key', 'trust' as values that can also be
|
|
None.
|
|
|
|
Example:
|
|
{
|
|
'active': {
|
|
123456: {
|
|
'key': bytes,
|
|
'trust': bool,
|
|
}
|
|
}
|
|
'inactive': {
|
|
234567: None,
|
|
}
|
|
}
|
|
"""
|
|
|
|
return await self._omemo().getTrustForJID(jid.bare)
|
|
|
|
def is_encrypted(self, msg: Message) -> bool:
|
|
return msg.xml.find('{%s}encrypted' % OMEMO_BASE_NS) is not None
|
|
|
|
async def decrypt_message(
|
|
self,
|
|
encrypted: Encrypted,
|
|
sender: JID,
|
|
allow_untrusted: bool = False,
|
|
) -> Optional[str]:
|
|
header = encrypted['header']
|
|
|
|
payload = None
|
|
if encrypted['payload']['value'] is not None:
|
|
payload = b64dec(encrypted['payload']['value'])
|
|
|
|
jid = sender.bare
|
|
sid = int(header['sid'])
|
|
|
|
key = header.xml.find("{%s}key[@rid='%s']" % (
|
|
OMEMO_BASE_NS, self._device_id))
|
|
if key is None:
|
|
raise MissingOwnKey("Encrypted message is not for us")
|
|
|
|
key = Key(key)
|
|
isPrekeyMessage = key['prekey'] in TRUE_VALUES
|
|
if key['value'] is None:
|
|
raise ErroneousPayload('The key element was empty')
|
|
message = b64dec(key['value'])
|
|
if header['iv']['value'] is None:
|
|
raise ErroneousPayload('The iv element was empty')
|
|
iv = b64dec(header['iv']['value'])
|
|
|
|
# XXX: 'cipher' is part of KeyTransportMessages and is used when no payload
|
|
# is passed. We do not implement this yet.
|
|
try:
|
|
if payload is None:
|
|
await self._omemo().decryptRatchetFowardingMessage(
|
|
jid,
|
|
sid,
|
|
iv,
|
|
message,
|
|
isPrekeyMessage,
|
|
allow_untrusted=allow_untrusted,
|
|
)
|
|
body = None
|
|
else:
|
|
body = await self._omemo().decryptMessage(
|
|
jid,
|
|
sid,
|
|
iv,
|
|
message,
|
|
isPrekeyMessage,
|
|
payload,
|
|
allow_untrusted=allow_untrusted,
|
|
)
|
|
except (omemo.exceptions.NoSessionException,):
|
|
# This might happen when the sender is sending using a session
|
|
# that we don't know about (deleted session storage, etc.). In
|
|
# this case we can't decrypt the message and it's going to be lost
|
|
# in any case, but we want to tell the user, always.
|
|
raise NoAvailableSession(jid, sid)
|
|
except (omemo.exceptions.TrustException,) as exn:
|
|
if exn.problem == 'undecided':
|
|
raise UndecidedException(exn.bare_jid, exn.device, exn.ik)
|
|
if exn.problem == 'untrusted':
|
|
raise UntrustedException(exn.bare_jid, exn.device, exn.ik)
|
|
raise
|
|
finally:
|
|
asyncio.ensure_future(self._publish_bundle())
|
|
|
|
should_heartbeat = await self._should_heartbeat(sender, isPrekeyMessage)
|
|
if self.auto_heartbeat and should_heartbeat:
|
|
async def send_heartbeat():
|
|
log.debug('Sending a heartbeat message')
|
|
msg = await self.make_heartbeat(JID(jid))
|
|
msg.send()
|
|
asyncio.ensure_future(send_heartbeat())
|
|
|
|
return body
|
|
|
|
async def encrypt_message(
|
|
self,
|
|
plaintext: Optional[str],
|
|
recipients: List[JID],
|
|
expect_problems: Optional[Dict[JID, List[int]]] = None,
|
|
_ignore_trust: bool = False,
|
|
) -> Encrypted:
|
|
"""
|
|
Returns an encrypted payload to be placed into a message.
|
|
|
|
The API for getting an encrypted payload consists of trying first
|
|
and fixing errors progressively. The actual sending happens once the
|
|
application (us) thinks we're good to go.
|
|
|
|
If `plaintext` is specified, this will generate a full OMEMO payload. If
|
|
not, if `_ignore_trust` is True, this will generate a ratchet forwarding
|
|
message, and otherwise it will generate a key transport message.
|
|
|
|
These are rather technical details to the user and fiddling with
|
|
parameters else than `plaintext` and `recipients` should be rarely
|
|
needed.
|
|
"""
|
|
|
|
recipients = [jid.bare for jid in recipients]
|
|
|
|
old_errors = None # type: Optional[List[Tuple[Exception, Any, Any]]]
|
|
while True:
|
|
# Try to encrypt and resolve errors until there is no error at all
|
|
# or if we hit the same set of errors.
|
|
errors = [] # type: List[omemo.exceptions.OMEMOException]
|
|
|
|
if expect_problems is None:
|
|
expect_problems = {}
|
|
|
|
expect_problems = {jid.bare: did for (jid, did) in expect_problems.items()}
|
|
|
|
try:
|
|
if plaintext is not None:
|
|
encrypted = await self._omemo().encryptMessage(
|
|
recipients,
|
|
plaintext.encode('utf-8'),
|
|
self.bundles,
|
|
expect_problems=expect_problems,
|
|
)
|
|
elif _ignore_trust:
|
|
encrypted = await self._omemo().encryptRatchetForwardingMessage(
|
|
recipients,
|
|
self.bundles,
|
|
expect_problems=expect_problems,
|
|
)
|
|
else:
|
|
encrypted = await self._omemo().encryptKeyTransportMessage(
|
|
recipients,
|
|
self.bundles,
|
|
expect_problems=expect_problems,
|
|
)
|
|
return _generate_encrypted_payload(encrypted)
|
|
except omemo.exceptions.EncryptionProblemsException as exception:
|
|
errors = exception.problems
|
|
|
|
if errors == old_errors:
|
|
raise EncryptionPrepareException(errors)
|
|
|
|
old_errors = errors
|
|
|
|
for exn in errors:
|
|
if isinstance(exn, omemo.exceptions.NoDevicesException):
|
|
await self._fetch_device_list(JID(exn.bare_jid))
|
|
elif isinstance(exn, omemo.exceptions.MissingBundleException):
|
|
bundle = await self._fetch_bundle(exn.bare_jid, exn.device)
|
|
if bundle is not None:
|
|
devices = self.bundles.setdefault(exn.bare_jid, {})
|
|
devices[exn.device] = bundle
|
|
elif isinstance(exn, omemo.exceptions.TrustException):
|
|
# On TrustException, there are two possibilities.
|
|
# Either trust has not been explicitely set yet, and is
|
|
# 'undecided', or the device is explicitely not
|
|
# trusted. When undecided, we need to ask our user to make
|
|
# a choice. If untrusted, then we can safely tell the
|
|
# OMEMO lib to not encrypt to this device
|
|
if exn.problem == 'undecided':
|
|
raise UndecidedException(exn.bare_jid, exn.device, exn.ik)
|
|
distrusted_jid = JID(exn.bare_jid)
|
|
expect_problems.setdefault(distrusted_jid, []).append(exn.device)
|
|
elif isinstance(exn, omemo.exceptions.NoEligibleDevicesException):
|
|
# This error is returned by the library to specify that
|
|
# encryption is not possible to any device of a user.
|
|
# This always comes with a more specific exception, (empty
|
|
# device list, missing bundles, trust issues, etc.).
|
|
# This does the heavy lifting of state management, and
|
|
# seeing if it's possible to encrypt at all, or not.
|
|
# This exception is only passed to the user, that should
|
|
# decide what to do with it, as there isn't much we can do if
|
|
# other issues can't be resolved.
|
|
continue
|
|
|
|
|
|
register_plugin(XEP_0384)
|