/usr/share/sugar-presence-service/server_plugin.py is in sugar-presence-service-0.90 0.90.2-1.
This file is owned by root:root, with mode 0o644.
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# Copyright (C) 2007, Red Hat, Inc.
# Copyright (C) 2007, Collabora Ltd.
#
# This program 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; either version 2 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
# Standard library
import logging
from itertools import izip
import re
import gconf
# Other libraries
import dbus
from telepathy.client import (Connection, Channel)
from telepathy.interfaces import (CONN_INTERFACE, CHANNEL_INTERFACE_GROUP,
CHANNEL_TYPE_CONTACT_LIST)
from telepathy.constants import (HANDLE_TYPE_CONTACT, HANDLE_TYPE_GROUP,
CONNECTION_STATUS_CONNECTED, CONNECTION_STATUS_DISCONNECTED,
CHANNEL_GROUP_FLAG_CHANNEL_SPECIFIC_HANDLES,
CONNECTION_STATUS_REASON_AUTHENTICATION_FAILED)
# Presence Service local modules
import psutils
from telepathy_plugin import TelepathyPlugin
_logger = logging.getLogger('s-p-s.server_plugin')
_MUC_JID_RE = re.compile('.*@.*/.*')
hexdigits = '0123456789abcdefABCDEF'
class ServerPlugin(TelepathyPlugin):
"""Telepathy-python-based presence server interface
The ServerPlugin instance translates network events from
Telepathy Python into GObject events. It provides direct
python calls to perform the required network operations
to implement the PresenceService.
"""
_TP_CONN_MANAGER = 'gabble'
_PROTOCOL = 'jabber'
_OBJ_PATH_PREFIX = "/org/freedesktop/Telepathy/Connection/gabble/"
def __init__(self, registry, owner):
TelepathyPlugin.__init__(self, registry, owner)
self._friends_channel = None
def suggest_room_for_activity(self, activity_id):
"""Suggest a room to use to share the given activity.
"""
return activity_id
def _find_existing_connection(self):
"""Try to find an existing Telepathy connection to this server
filters the set of connections from
telepathy.client.Connection.get_connections
to find a connection using our protocol with the
"self handle" of that connection being a handle
which matches our account (see _get_account_info)
returns connection or None
"""
# Search existing connections, if any, that we might be able to use
connections = Connection.get_connections()
for item in connections:
if not item.object_path.startswith(self._OBJ_PATH_PREFIX):
continue
if item[CONN_INTERFACE].GetProtocol() != self._PROTOCOL:
continue
if item[CONN_INTERFACE].GetStatus() != CONNECTION_STATUS_CONNECTED:
continue
return item
return None
def _server_is_trusted(self, hostname):
"""Return True if the server with the given hostname is trusted to
verify public-key ownership correctly, and only allows users to
register JIDs whose username part is either a public key fingerprint,
or of the wrong form to be a public key fingerprint (to allow for
ejabberd's admin@example.com address).
If we trust the server, we can skip verifying the key ourselves,
which leads to simplifications. In the current implementation we
never verify that people actually own the key they claim to, so
we will always give contacts on untrusted servers a JID- rather than
key-based identity.
For the moment we assume that the test server, olpc.collabora.co.uk,
does this verification.
"""
# FIXME: just trusting the owner's server for now
server = self._owner.get_server()
return (server and len(server) and hostname == server)
def identify_contacts(self, tp_chan, handles, identifiers=None):
"""Work out the "best" unique identifier we can for the given handles,
in the context of the given channel (which may be None), using only
'fast' connection manager API (that does not involve network
round-trips).
For the XMPP server case, we proceed as follows:
* Find the owners of the given handles, if the channel has
channel-specific handles
* If the owner (globally-valid JID) is on a trusted server, return
'keyid/' plus the 'key fingerprint' (the user part of their JID,
currently implemented as the SHA-1 of the Base64 blob in
owner.key.pub)
* If the owner (globally-valid JID) cannot be found or is on an
untrusted server, return 'xmpp/' plus an escaped form of the JID
The idea is that we identify buddies by key-ID (i.e. by key, assuming
no collisions) if we can find it without making network round-trips,
but if that's not possible we just use their JIDs.
:Parameters:
`tp_chan` : telepathy.client.Channel or None
The channel in which the handles were found, or None if they
are known to be channel-specific handles
`handles` : iterable over (int or long)
The contacts' handles in that channel
:Returns:
A dict mapping the provided handles to the best available
unique identifier, which is a string that could be used as a
suffix to an object path
"""
# we need to be able to index into handles, so force them to
# be a sequence
if not isinstance(handles, (tuple, list)):
handles = tuple(handles)
owners = handles
if tp_chan is not None and CHANNEL_INTERFACE_GROUP in tp_chan:
group = tp_chan[CHANNEL_INTERFACE_GROUP]
if (group.GetGroupFlags() &
CHANNEL_GROUP_FLAG_CHANNEL_SPECIFIC_HANDLES):
identifiers = None
owners = group.GetHandleOwners(handles)
for i, owner in enumerate(owners):
if owner == 0:
owners[i] = handles[i]
else:
group = None
if identifiers is None:
identifiers = self._conn[CONN_INTERFACE].InspectHandles(
HANDLE_TYPE_CONTACT, owners)
ret = {}
for handle, jid in izip(handles, identifiers):
# special-case the Owner - we always know who we are
if (handle == self.self_handle or
(group is not None and handle == group.GetSelfHandle())):
ret[handle] = self._owner.props.objid
continue
if '/' in jid:
# the contact is unidentifiable (in an anonymous MUC) - create
# a temporary identity for them, based on their room-JID
ret[handle] = 'xmpp/' + psutils.escape_identifier(jid)
else:
user, host = jid.split('@', 1)
if (self._server_is_trusted(host) and len(user) == 40 and
user.strip(hexdigits) == ''):
# they're on a trusted server and their username looks
# like a key-ID
ret[handle] = 'keyid/' + user.lower()
else:
# untrusted server, or not the right format to be a
# key-ID - identify the contact by their JID
ret[handle] = 'xmpp/' + psutils.escape_identifier(jid)
return ret
def _connected_cb(self):
TelepathyPlugin._connected_cb(self)
# request Friends group channel
def friends_channel_requested_cb(friends_chan_path):
self._friends_channel = Channel(self._conn.service_name,
friends_chan_path)
def error_requesting_friends_channel(e):
_logger.debug('error requesting friends channel: %r' % e)
handles = self._conn[CONN_INTERFACE].RequestHandles(HANDLE_TYPE_GROUP,
["Friends"])
self._conn[CONN_INTERFACE].RequestChannel(CHANNEL_TYPE_CONTACT_LIST,
HANDLE_TYPE_GROUP, handles[0], True,
reply_handler=friends_channel_requested_cb,
error_handler=error_requesting_friends_channel)
def _filter_trusted_server(self, handles):
"""Filter a list of contact handles removing the one which aren't hosted
on a trusted server.
This function is used to only accept subscriptions coming from a
trusted server.
:Parameters:
`handles` : iterable over (int or long)
The contacts' handles to filter
:Returns: a list of handles
"""
result = []
if not handles:
return result
identifiers = self._conn[CONN_INTERFACE].InspectHandles(
HANDLE_TYPE_CONTACT, handles)
for handle, jid in izip(handles, identifiers):
host = jid.split('@', 1)[1]
if self._server_is_trusted(host):
result.append(handle)
return result
def _publish_members_changed_cb(self, message, added, removed,
local_pending, remote_pending,
actor, reason):
TelepathyPlugin._publish_members_changed_cb(self, message,
added, removed, local_pending, remote_pending, actor,
reason)
local_pending = self._filter_trusted_server(local_pending)
if local_pending:
# accept all requested subscriptions
self._publish_channel[CHANNEL_INTERFACE_GROUP].AddMembers(
local_pending, '')
# subscribe to people who've subscribed to us, if necessary
if self._subscribe_channel is not None:
added = list(set(added) - self._subscribe_members
- self._subscribe_remote_pending)
added = self._filter_trusted_server(added)
if added:
self._subscribe_channel[CHANNEL_INTERFACE_GROUP].AddMembers(
added, '')
def _publish_channel_cb(self, channel):
TelepathyPlugin._publish_channel_cb(self, channel)
publish_handles, local_pending, remote_pending = \
self._publish_channel[CHANNEL_INTERFACE_GROUP].GetAllMembers()
local_pending = self._filter_trusted_server(local_pending)
if local_pending:
# accept pending subscriptions
# FIXME: do this async
self._publish_channel[CHANNEL_INTERFACE_GROUP].AddMembers(
local_pending, '')
self._add_not_subscribed_to_subscribe_channel()
def _subscribe_channel_cb(self, channel):
TelepathyPlugin._subscribe_channel_cb(self, channel)
self._add_not_subscribed_to_subscribe_channel()
def _add_not_subscribed_to_subscribe_channel(self):
if self._publish_channel is None or self._subscribe_channel is None:
return
publish_handles, local_pending, remote_pending = \
self._publish_channel[CHANNEL_INTERFACE_GROUP].GetAllMembers()
# request subscriptions from people subscribed to us if we're
# not subscribed to them
not_subscribed = set(publish_handles)
not_subscribed -= self._subscribe_members
not_subscribed = self._filter_trusted_server(not_subscribed)
if not_subscribed:
self._subscribe_channel[CHANNEL_INTERFACE_GROUP].AddMembers(
not_subscribed, '')
def sync_friends(self, keys):
if self._friends_channel is None or self._subscribe_channel is None:
# not ready yet
return
client = gconf.client_get_default()
server = client.get_string("/desktop/sugar/collaboration/jabber_server")
friends_handles = set()
friends = set()
for key in keys:
identity = psutils.pubkey_to_keyid(key)
# this assumes that all our friends are on the same server as us
jid = '%s@%s' % (identity, server)
friends.add(jid)
def error_syncing_friends(e):
_logger.debug('error syncing friends: %r' % e)
def friends_group_synced():
_logger.debug('friends group synced')
def friends_subscribed():
_logger.debug('friends subscribed')
def got_friends_handles(handles):
friends_handles.update(handles)
# subscribe friends
self._subscribe_channel[CHANNEL_INTERFACE_GROUP].AddMembers(
friends_handles, "New friend",
reply_handler=friends_subscribed,
error_handler=error_syncing_friends)
# add friends to the "Friends" group
self._friends_channel[CHANNEL_INTERFACE_GROUP].AddMembers(
friends_handles, "New friend",
reply_handler=friends_group_synced,
error_handler=error_syncing_friends)
self._conn[CONN_INTERFACE].RequestHandles(
HANDLE_TYPE_CONTACT, friends,
reply_handler=got_friends_handles,
error_handler=error_syncing_friends)
def _handle_is_channel_specific(self, handle):
# FIXME: This is crack. Really. Please kids, dont't do this at home.
# As we don't have a proper TP API to test if a handle is channel
# specific or not we use this cracky heuristic:
# "Is the jid contain a '/' after the '@'?".
# This is horribly protocol specific but should, hopefully, do the
# job.
jid = self._conn.InspectHandles(1, [handle])[0]
if _MUC_JID_RE.match(jid) is None:
_logger.debug('%s (%d) is not channel specific' % (jid, handle))
return False
else:
_logger.debug('%s (%d) is channel specific' % (jid, handle))
return True
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