177 lines
6.6 KiB
Python
177 lines
6.6 KiB
Python
# -*- coding: utf-8 -*-
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# Copyright 2016 OpenMarket Ltd
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import re
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import logging
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logger = logging.getLogger(__name__)
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# intentionally looser than what aliases we allow to be registered since
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# other HSes may allow aliases that we would not
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ALIAS_RE = re.compile(r"^#.*:.+$")
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ALL_ALONE = "Empty Room"
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def calculate_room_name(room_state, user_id, fallback_to_members=True,
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fallback_to_single_member=True):
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"""
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Works out a user-facing name for the given room as per Matrix
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spec recommendations.
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Does not yet support internationalisation.
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Args:
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room_state: Dictionary of the room's state
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user_id: The ID of the user to whom the room name is being presented
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fallback_to_members: If False, return None instead of generating a name
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based on the room's members if the room has no
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title or aliases.
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Returns:
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(string or None) A human readable name for the room.
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"""
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# does it have a name?
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if ("m.room.name", "") in room_state:
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m_room_name = room_state[("m.room.name", "")]
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if m_room_name.content and m_room_name.content["name"]:
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return m_room_name.content["name"]
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# does it have a canonical alias?
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if ("m.room.canonical_alias", "") in room_state:
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canon_alias = room_state[("m.room.canonical_alias", "")]
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if (
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canon_alias.content and canon_alias.content["alias"] and
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_looks_like_an_alias(canon_alias.content["alias"])
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):
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return canon_alias.content["alias"]
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# at this point we're going to need to search the state by all state keys
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# for an event type, so rearrange the data structure
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room_state_bytype = _state_as_two_level_dict(room_state)
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# right then, any aliases at all?
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if "m.room.aliases" in room_state_bytype:
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m_room_aliases = room_state_bytype["m.room.aliases"]
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if len(m_room_aliases.values()) > 0:
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first_alias_event = m_room_aliases.values()[0]
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if first_alias_event.content and first_alias_event.content["aliases"]:
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the_aliases = first_alias_event.content["aliases"]
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if len(the_aliases) > 0 and _looks_like_an_alias(the_aliases[0]):
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return the_aliases[0]
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if not fallback_to_members:
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return None
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my_member_event = None
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if ("m.room.member", user_id) in room_state:
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my_member_event = room_state[("m.room.member", user_id)]
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if (
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my_member_event is not None and
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my_member_event.content['membership'] == "invite"
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):
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if ("m.room.member", my_member_event.sender) in room_state:
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inviter_member_event = room_state[("m.room.member", my_member_event.sender)]
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if fallback_to_single_member:
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return "Invite from %s" % (name_from_member_event(inviter_member_event),)
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else:
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return None
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else:
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return "Room Invite"
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# we're going to have to generate a name based on who's in the room,
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# so find out who is in the room that isn't the user.
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if "m.room.member" in room_state_bytype:
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all_members = [
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ev for ev in room_state_bytype["m.room.member"].values()
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if ev.content['membership'] == "join" or ev.content['membership'] == "invite"
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]
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# Sort the member events oldest-first so the we name people in the
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# order the joined (it should at least be deterministic rather than
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# dictionary iteration order)
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all_members.sort(key=lambda e: e.origin_server_ts)
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other_members = [m for m in all_members if m.state_key != user_id]
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else:
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other_members = []
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all_members = []
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if len(other_members) == 0:
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if len(all_members) == 1:
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# self-chat, peeked room with 1 participant,
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# or inbound invite, or outbound 3PID invite.
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if all_members[0].sender == user_id:
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if "m.room.third_party_invite" in room_state_bytype:
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third_party_invites = (
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room_state_bytype["m.room.third_party_invite"].values()
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)
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if len(third_party_invites) > 0:
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# technically third party invite events are not member
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# events, but they are close enough
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# FIXME: no they're not - they look nothing like a member;
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# they have a great big encrypted thing as their name to
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# prevent leaking the 3PID name...
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# return "Inviting %s" % (
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# descriptor_from_member_events(third_party_invites)
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# )
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return "Inviting email address"
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else:
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return ALL_ALONE
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else:
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return name_from_member_event(all_members[0])
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else:
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return ALL_ALONE
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elif len(other_members) == 1 and not fallback_to_single_member:
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return None
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else:
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return descriptor_from_member_events(other_members)
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def descriptor_from_member_events(member_events):
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if len(member_events) == 0:
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return "nobody"
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elif len(member_events) == 1:
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return name_from_member_event(member_events[0])
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elif len(member_events) == 2:
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return "%s and %s" % (
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name_from_member_event(member_events[0]),
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name_from_member_event(member_events[1]),
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)
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else:
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return "%s and %d others" % (
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name_from_member_event(member_events[0]),
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len(member_events) - 1,
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)
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def name_from_member_event(member_event):
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if (
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member_event.content and "displayname" in member_event.content and
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member_event.content["displayname"]
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):
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return member_event.content["displayname"]
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return member_event.state_key
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def _state_as_two_level_dict(state):
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ret = {}
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for k, v in state.items():
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ret.setdefault(k[0], {})[k[1]] = v
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return ret
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def _looks_like_an_alias(string):
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return ALIAS_RE.match(string) is not None
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