#!/usr/bin/env python3 # -*- coding: utf-8 -*- """ Slixmpp OMEMO plugin Copyright (C) 2019 Maxime “pep” Buquet This file is part of slixmpp-omemo. See the file LICENSE for copying permission. """ import logging from typing import Any, Dict, List, Optional, Set, Tuple, Union import os import json import base64 import asyncio from slixmpp.plugins.xep_0060.stanza import Items, EventItems from slixmpp.plugins.base import BasePlugin, register_plugin from slixmpp.exceptions import IqError, IqTimeout from slixmpp.stanza import Message, Iq from slixmpp.jid import JID from .version import __version__, __version_info__ from .stanza import OMEMO_BASE_NS from .stanza import OMEMO_DEVICES_NS, OMEMO_BUNDLES_NS from .stanza import Bundle, Devices, Device, Encrypted, Key, PreKeyPublic log = logging.getLogger(__name__) HAS_OMEMO = True try: print("FOO1") import omemo.exceptions print("FOO2") from omemo import SessionManager, ExtendedPublicBundle, DefaultOTPKPolicy print("FOO3") from omemo.util import generateDeviceID print("FOO4") from omemo.implementation import JSONFileStorage print("FOO5") from omemo.backends import Backend print("FOO6") from omemo_backend_signal import BACKEND as SignalBackend print("FOO7") except (ImportError,): class Backend: pass class DefaultOTPKPolicy: pass class SignalBackend: pass HAS_OMEMO = False TRUE_VALUES = {True, 'true', '1'} def b64enc(data: bytes) -> str: return base64.b64encode(bytes(bytearray(data))).decode('ASCII') def b64dec(data: str) -> bytes: return base64.b64decode(data) def _load_device_id(data_dir: str) -> int: filepath = os.path.join(data_dir, 'device_id.json') # Try reading file first, decoding, and if file was empty generate # new DeviceID try: with open(filepath, 'r') as f: did = json.load(f) except (FileNotFoundError, json.JSONDecodeError): did = generateDeviceID() with open(filepath, 'w') as f: json.dump(did, f) return did def _parse_bundle(backend: Backend, bundle: Bundle) -> ExtendedPublicBundle: identity_key = b64dec(bundle['identityKey']['value'].strip()) spk = { 'id': int(bundle['signedPreKeyPublic']['signedPreKeyId']), 'key': b64dec(bundle['signedPreKeyPublic']['value'].strip()), } spk_signature = b64dec(bundle['signedPreKeySignature']['value'].strip()) otpks = [] for prekey in bundle['prekeys']: otpks.append({ 'id': int(prekey['preKeyId']), 'key': b64dec(prekey['value'].strip()), }) return ExtendedPublicBundle.parse(backend, identity_key, spk, spk_signature, otpks) def _generate_encrypted_payload(encrypted) -> Encrypted: tag = Encrypted() tag['header']['sid'] = str(encrypted['sid']) tag['header']['iv']['value'] = b64enc(encrypted['iv']) tag['payload']['value'] = b64enc(encrypted['payload']) for bare_jid, devices in encrypted['keys'].items(): for rid, device in devices.items(): key = Key() key['value'] = b64enc(device['data']) key['rid'] = str(rid) if device['pre_key']: key['prekey'] = '1' tag['header'].append(key) return tag # XXX: This should probably be moved in plugins/base.py? class PluginCouldNotLoad(Exception): pass # Generic exception class XEP0384(Exception): pass class MissingOwnKey(XEP0384): pass class NoAvailableSession(XEP0384): pass class EncryptionPrepareException(XEP0384): pass class UntrustedException(XEP0384): pass class UndecidedException(XEP0384): pass class XEP_0384(BasePlugin): """ XEP-0384: OMEMO """ name = 'xep_0384' description = 'XEP-0384 OMEMO' dependencies = {'xep_0163'} default_config = { 'data_dir': None, 'storage_backend': None, 'otpk_policy': DefaultOTPKPolicy, 'omemo_backend': SignalBackend, } backend_loaded = HAS_OMEMO def plugin_init(self) -> None: if not self.backend_loaded: log.info("xep_0384 cannot be loaded as the backend omemo library " "is not available") raise PluginCouldNotLoad if not self.data_dir: log.info("xep_0384 canoot be loaded as there is not data directory " "specified") return None storage = self.storage_backend if self.storage_backend is None: storage = JSONFileStorage(self.data_dir) otpkpolicy = self.otpk_policy bare_jid = self.xmpp.boundjid.bare self._device_id = _load_device_id(self.data_dir) try: self._omemo = SessionManager.create( storage, otpkpolicy, self.omemo_backend, bare_jid, self._device_id, ) except: log.error("Couldn't load the OMEMO object; ¯\\_(ツ)_/¯") raise PluginCouldNotLoad self.xmpp['xep_0060'].map_node_event(OMEMO_DEVICES_NS, 'omemo_device_list') self.xmpp.add_event_handler('omemo_device_list_publish', self._receive_device_list) return None def plugin_end(self): if not self.backend_loaded: return self.xmpp.remove_event_handler('omemo_device_list_publish', self._receive_device_list) self.xmpp['xep_0163'].remove_interest(OMEMO_DEVICES_NS) def session_bind(self, _jid): if self.backend_loaded: self.xmpp['xep_0163'].add_interest(OMEMO_DEVICES_NS) asyncio.ensure_future(self._set_device_list()) asyncio.ensure_future(self._publish_bundle()) def my_device_id(self) -> int: return self._device_id def _generate_bundle_iq(self) -> Iq: bundle = self._omemo.public_bundle.serialize(self._omemo) iq = self.xmpp.Iq(stype='set') publish = iq['pubsub']['publish'] publish['node'] = '%s:%d' % (OMEMO_BUNDLES_NS, self._device_id) payload = publish['item']['bundle'] signedPreKeyPublic = b64enc(bundle['spk']['key']) payload['signedPreKeyPublic']['value'] = signedPreKeyPublic payload['signedPreKeyPublic']['signedPreKeyId'] = str(bundle['spk']['id']) payload['signedPreKeySignature']['value'] = b64enc( bundle['spk_signature'] ) identityKey = b64enc(bundle['ik']) payload['identityKey']['value'] = identityKey prekeys = [] for otpk in bundle['otpks']: prekey = PreKeyPublic() prekey['preKeyId'] = str(otpk['id']) prekey['value'] = b64enc(otpk['key']) prekeys.append(prekey) payload['prekeys'] = prekeys return iq async def _publish_bundle(self) -> None: if self._omemo.republish_bundle: iq = self._generate_bundle_iq() await iq.send() async def _fetch_bundle(self, jid: str, device_id: int) -> Optional[ExtendedPublicBundle]: node = '%s:%d' % (OMEMO_BUNDLES_NS, device_id) try: iq = await self.xmpp['xep_0060'].get_items(jid, node) except (IqError, IqTimeout): return None bundle = iq['pubsub']['items']['item']['bundle'] return _parse_bundle(self._omemo, bundle) async def _fetch_device_list(self, jid: JID) -> None: """Manually query PEP OMEMO_DEVICES_NS nodes""" jid = JID(jid) iq = await self.xmpp['xep_0060'].get_items(jid, OMEMO_DEVICES_NS) return await self._read_device_list(jid, iq['pubsub']['items']) def _store_device_ids(self, jid: str, items: Union[Items, EventItems]) -> None: """Store Device list""" device_ids = [] # type: List[int] items = list(items) device_ids = [int(d['id']) for d in items[0]['devices']] return self._omemo.newDeviceList(str(jid), device_ids) def _receive_device_list(self, msg: Message) -> None: """Handler for received PEP OMEMO_DEVICES_NS payloads""" asyncio.ensure_future( self._read_device_list(msg['from'], msg['pubsub_event']['items']), ) async def _read_device_list(self, jid: JID, items: Union[Items, EventItems]) -> None: """Read items and devices if we need to set the device list again or not""" bare_jid = jid.bare self._store_device_ids(bare_jid, items) items = list(items) device_ids = [int(d['id']) for d in items[0]['devices']] if bare_jid == self.xmpp.boundjid.bare and \ self._device_id not in device_ids: await self._set_device_list() return None async def _set_device_list(self, device_ids: Optional[Set[int]] = None) -> None: own_jid = self.xmpp.boundjid try: iq = await self.xmpp['xep_0060'].get_items( own_jid.bare, OMEMO_DEVICES_NS, ) items = iq['pubsub']['items'] self._store_device_ids(own_jid.bare, items) except IqError as iq_err: if iq_err.condition == "item-not-found": self._store_device_ids(own_jid.bare, []) else: return # XXX: Handle this! if device_ids is None: device_ids = self.get_device_list(own_jid) devices = [] for i in device_ids: d = Device() d['id'] = str(i) devices.append(d) payload = Devices() payload['devices'] = devices await self.xmpp['xep_0060'].publish( own_jid.bare, OMEMO_DEVICES_NS, payload=payload, ) def get_device_list(self, jid: JID) -> List[str]: """Return active device ids. Always contains our own device id.""" return self._omemo.getDevices(jid.bare).get('active', []) def trust(self, jid: JID, device_id: int, ik: bytes) -> None: self._omemo.trust(jid.bare, device_id, ik) def distrust(self, jid: JID, device_id: int, ik: bytes) -> None: self._omemo.distrust(jid.bare, device_id, ik) def is_encrypted(self, msg: Message) -> bool: return msg.xml.find('{%s}encrypted' % OMEMO_BASE_NS) is not None def decrypt_message(self, msg: Message, allow_untrusted: bool = False) -> Optional[str]: header = msg['omemo_encrypted']['header'] payload = b64dec(msg['omemo_encrypted']['payload']['value']) jid = msg['from'].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 message = b64dec(key['value']) 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: body = self._omemo.decryptMessage( jid, sid, iv, message, isPrekeyMessage, payload, allow_untrusted=allow_untrusted, ) return body 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.UntrustedException,) as e: raise UntrustedException(e) finally: asyncio.ensure_future(self._publish_bundle()) async def encrypt_message( self, plaintext: str, recipients: List[JID], expect_problems: Optional[Dict[JID, List[int]]] = None, ) -> 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. """ recipients = [jid.bare for jid in recipients] bundles = {} # type: Dict[str, Dict[int, ExtendedPublicBundle]] 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 not None: expect_problems = {jid.bare: did for (jid, did) in expect_problems.items()} try: encrypted = self._omemo.encryptMessage( recipients, plaintext.encode('utf-8'), bundles, expect_problems=expect_problems, ) return _generate_encrypted_payload(encrypted) except omemo.exceptions.EncryptionProblemsException as e: errors = e.problems if errors == old_errors: raise EncryptionPrepareException(errors) old_errors = errors no_eligible_devices = set() # type: Set[str] for exn in errors: if isinstance(exn, omemo.exceptions.NoDevicesException): await self._fetch_device_list(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 = bundles.setdefault(exn.bare_jid, {}) devices[exn.device] = bundle elif isinstance(exn, omemo.exceptions.UntrustedException): # On UntrustedException, 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 self._omemo.getTrustForDevice(exn.bare_jid, exn.device) is None: raise UndecidedException(exn.bare_jid, exn.device, exn.ik) expect_problems.setdefault(exn.bare_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 if # other issues can't be resolved. continue register_plugin(XEP_0384)