Mercurial > libervia-backend
view sat/tools/common/data_format.py @ 3104:118d91c932a7
plugin XEP-0384: OMEMO for MUC implementation:
- encryption is now allowed for group chats
- when an encryption is requested for a MUC, real jids or all occupants are used to
encrypt the message
- a cache for plain text message sent to MUC is used, because for security reason we can't
encrypt message for our own device with OMEMO (that would prevent ratchet and break the
prefect forward secrecy). Thus, message sent in MUC are cached for 5 min, and the
decrypted version is used when found. We don't send immediately the plain text message
to frontends and history because we want to keep the same MUC behaviour as for plain
text, and receiving a message means that it was received and sent back by MUC service
- <origin-id> is used to identify messages sent by our device
- a feedback_jid is now use to use correct entity for feedback message in case of problem:
with a room we have to send feedback message to the room and not the the emitter
- encryptMessage now only accepts list in the renamed "entity_bare_jids" argument
| author | Goffi <goffi@goffi.org> |
|---|---|
| date | Mon, 30 Dec 2019 20:59:46 +0100 |
| parents | ab2696e34d29 |
| children | 9d0df638c8b4 |
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#!/usr/bin/env python3 # -*- coding: utf-8 -*- # SAT: a jabber client # Copyright (C) 2009-2019 Jérôme Poisson (goffi@goffi.org) # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # This program 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 Affero General Public License for more details. # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. """ tools common to backend and frontends """ # FIXME: json may be more appropriate than manual serialising like done here from sat.core import exceptions import json def dict2iter(name, dict_, pop=False): """iterate into a list serialised in a dict name is the name of the key. Serialisation is done with [name] [name#1] [name#2] and so on e.g.: if name is 'group', keys are group, group#1, group#2, ... iteration stop at first missing increment Empty values are possible @param name(unicode): name of the key @param dict_(dict): dictionary with the serialised list @param pop(bool): if True, remove the value from dict @return iter: iterate through the deserialised list """ if pop: get = lambda d, k: d.pop(k) else: get = lambda d, k: d[k] try: yield get(dict_, name) except KeyError: return else: idx = 1 while True: try: yield get(dict_, "{}#{}".format(name, idx)) except KeyError: return else: idx += 1 def dict2iterdict(name, dict_, extra_keys, pop=False): """like dict2iter but yield dictionaries params are like in [dict2iter], extra_keys is used for extra dict keys. e.g. dict2iterdict(comments, mb_data, ('node', 'service')) will yield dicts like: {u'comments': u'value1', u'node': u'value2', u'service': u'value3'} """ # FIXME: this format seem overcomplicated, it may be more appropriate to use json here if pop: get = lambda d, k: d.pop(k) else: get = lambda d, k: d[k] for idx, main_value in enumerate(dict2iter(name, dict_, pop=pop)): ret = {name: main_value} for k in extra_keys: ret[k] = get( dict_, "{}{}_{}".format(name, ("#" + str(idx)) if idx else "", k) ) yield ret def iter2dict(name, iter_, dict_=None, check_conflict=True): """Fill a dict with values from an iterable name is used to serialise iter_, in the same way as in [dict2iter] Build from the tags a dict using the microblog data format. @param name(unicode): key to use for serialisation e.g. "group" to have keys "group", "group#1", "group#2", ... @param iter_(iterable): values to store @param dict_(None, dict): dictionary to fill, or None to create one @param check_conflict(bool): if True, raise an exception in case of existing key @return (dict): filled dict, or newly created one @raise exceptions.ConflictError: a needed key already exists """ if dict_ is None: dict_ = {} for idx, value in enumerate(iter_): if idx == 0: key = name else: key = "{}#{}".format(name, idx) if check_conflict and key in dict_: raise exceptions.ConflictError dict_[key] = value return dict def getSubDict(name, dict_, sep="_"): """get a sub dictionary from a serialised dictionary look for keys starting with name, and create a dict with it eg.: if "key" is looked for, {'html': 1, 'key_toto': 2, 'key_titi': 3} will return: {None: 1, toto: 2, titi: 3} @param name(unicode): name of the key @param dict_(dict): dictionary with the serialised list @param sep(unicode): separator used between name and subkey @return iter: iterate through the deserialised items """ for k, v in dict_.items(): if k.startswith(name): if k == name: yield None, v else: if k[len(name)] != sep: continue else: yield k[len(name) + 1 :], v def serialise(data): """Serialise data so it can be sent to bridge @return(unicode): serialised data, can be transmitted as string to the bridge """ return json.dumps(data, ensure_ascii=False, default=str) def deserialise(serialised_data, default=None, type_check=dict): """Deserialize data from bridge @param serialised_data(unicode): data to deserialise @default (object): value to use when serialised data is empty string @param type_check(type): if not None, the deserialised data must be of this type @return(object): deserialised data @raise ValueError: serialised_data is of wrong type """ if serialised_data == "": return default ret = json.loads(serialised_data) if type_check is not None and not isinstance(ret, type_check): raise ValueError("Bad data type, was expecting {type_check}, got {real_type}" .format(type_check=type_check, real_type=type(ret))) return ret