# -*- coding: utf-8 -*-
# Copyright 2014, 2015 OpenMarket Ltd
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from twisted.internet import defer
from synapse.api.errors import SynapseError, AuthError
from synapse.api.constants import PresenceState
from synapse.util.logcontext import PreserveLoggingContext
from synapse.util.logutils import log_function
from synapse.types import UserID
import synapse.metrics
from ._base import BaseHandler
import logging
logger = logging.getLogger(__name__)
metrics = synapse.metrics.get_metrics_for(__name__)
# Don't bother bumping "last active" time if it differs by less than 60 seconds
LAST_ACTIVE_GRANULARITY = 60*1000
# Keep no more than this number of offline serial revisions
MAX_OFFLINE_SERIALS = 1000
# TODO(paul): Maybe there's one of these I can steal from somewhere
def partition(l, func):
"""Partition the list by the result of func applied to each element."""
ret = {}
for x in l:
key = func(x)
if key not in ret:
ret[key] = []
ret[key].append(x)
return ret
def partitionbool(l, func):
def boolfunc(x):
return bool(func(x))
ret = partition(l, boolfunc)
return ret.get(True, []), ret.get(False, [])
class PresenceHandler(BaseHandler):
STATE_LEVELS = {
PresenceState.OFFLINE: 0,
PresenceState.UNAVAILABLE: 1,
PresenceState.ONLINE: 2,
PresenceState.FREE_FOR_CHAT: 3,
}
def __init__(self, hs):
super(PresenceHandler, self).__init__(hs)
self.homeserver = hs
self.clock = hs.get_clock()
distributor = hs.get_distributor()
distributor.observe("registered_user", self.registered_user)
distributor.observe(
"started_user_eventstream", self.started_user_eventstream
)
distributor.observe(
"stopped_user_eventstream", self.stopped_user_eventstream
)
distributor.observe("user_joined_room", self.user_joined_room)
distributor.declare("collect_presencelike_data")
distributor.declare("changed_presencelike_data")
distributor.observe(
"changed_presencelike_data", self.changed_presencelike_data
)
# outbound signal from the presence module to advertise when a user's
# presence has changed
distributor.declare("user_presence_changed")
self.distributor = distributor
self.federation = hs.get_replication_layer()
self.federation.register_edu_handler(
"m.presence", self.incoming_presence
)
self.federation.register_edu_handler(
"m.presence_invite",
lambda origin, content: self.invite_presence(
observed_user=UserID.from_string(content["observed_user"]),
observer_user=UserID.from_string(content["observer_user"]),
)
)
self.federation.register_edu_handler(
"m.presence_accept",
lambda origin, content: self.accept_presence(
observed_user=UserID.from_string(content["observed_user"]),
observer_user=UserID.from_string(content["observer_user"]),
)
)
self.federation.register_edu_handler(
"m.presence_deny",
lambda origin, content: self.deny_presence(
observed_user=UserID.from_string(content["observed_user"]),
observer_user=UserID.from_string(content["observer_user"]),
)
)
# IN-MEMORY store, mapping local userparts to sets of local users to
# be informed of state changes.
self._local_pushmap = {}
# map local users to sets of remote /domain names/ who are interested
# in them
self._remote_sendmap = {}
# map remote users to sets of local users who're interested in them
self._remote_recvmap = {}
# list of (serial, set of(userids)) tuples, ordered by serial, latest
# first
self._remote_offline_serials = []
# map any user to a UserPresenceCache
self._user_cachemap = {}
self._user_cachemap_latest_serial = 0
# map room_ids to the latest presence serial for a member of that
# room
self._room_serials = {}
metrics.register_callback(
"userCachemap:size",
lambda: len(self._user_cachemap),
)
def _get_or_make_usercache(self, user):
"""If the cache entry doesn't exist, initialise a new one."""
if user not in self._user_cachemap:
self._user_cachemap[user] = UserPresenceCache()
return self._user_cachemap[user]
def _get_or_offline_usercache(self, user):
"""If the cache entry doesn't exist, return an OFFLINE one but do not
store it into the cache."""
if user in self._user_cachemap:
return self._user_cachemap[user]
else:
return UserPresenceCache()
def registered_user(self, user):
return self.store.create_presence(user.localpart)
@defer.inlineCallbacks
def is_presence_visible(self, observer_user, observed_user):
assert(self.hs.is_mine(observed_user))
if observer_user == observed_user:
defer.returnValue(True)
if (yield self.store.user_rooms_intersect(
[u.to_string() for u in observer_user, observed_user])):
defer.returnValue(True)
if (yield self.store.is_presence_visible(
observed_localpart=observed_user.localpart,
observer_userid=observer_user.to_string())):
defer.returnValue(True)
defer.returnValue(False)
@defer.inlineCallbacks
def get_state(self, target_user, auth_user, as_event=False, check_auth=True):
"""Get the current presence state of the given user.
Args:
target_user (UserID): The user whose presence we want
auth_user (UserID): The user requesting the presence, used for
checking if said user is allowed to see the persence of the
`target_user`
as_event (bool): Format the return as an event or not?
check_auth (bool): Perform the auth checks or not?
Returns:
dict: The presence state of the `target_user`, whose format depends
on the `as_event` argument.
"""
if self.hs.is_mine(target_user):
if check_auth:
visible = yield self.is_presence_visible(
observer_user=auth_user,
observed_user=target_user
)
if not visible:
raise SynapseError(404, "Presence information not visible")
if target_user in self._user_cachemap:
state = self._user_cachemap[target_user].get_state()
else:
state = yield self.store.get_presence_state(target_user.localpart)
if "mtime" in state:
del state["mtime"]
state["presence"] = state.pop("state")
else:
# TODO(paul): Have remote server send us permissions set
state = self._get_or_offline_usercache(target_user).get_state()
if "last_active" in state:
state["last_active_ago"] = int(
self.clock.time_msec() - state.pop("last_active")
)
if as_event:
content = state
content["user_id"] = target_user.to_string()
if "last_active" in content:
content["last_active_ago"] = int(
self._clock.time_msec() - content.pop("last_active")
)
defer.returnValue({"type": "m.presence", "content": content})
else:
defer.returnValue(state)
@defer.inlineCallbacks
def get_states(self, target_users, auth_user, as_event=False, check_auth=True):
"""A batched version of the `get_state` method that accepts a list of
`target_users`
Args:
target_users (list): The list of UserID's whose presence we want
auth_user (UserID): The user requesting the presence, used for
checking if said user is allowed to see the persence of the
`target_users`
as_event (bool): Format the return as an event or not?
check_auth (bool): Perform the auth checks or not?
Returns:
dict: A mapping from user -> presence_state
"""
local_users, remote_users = partitionbool(
target_users,
lambda u: self.hs.is_mine(u)
)
if check_auth:
for user in local_users:
visible = yield self.is_presence_visible(
observer_user=auth_user,
observed_user=user
)
if not visible:
raise SynapseError(404, "Presence information not visible")
results = {}
if local_users:
for user in local_users:
if user in self._user_cachemap:
results[user] = self._user_cachemap[user].get_state()
local_to_user = {u.localpart: u for u in local_users}
states = yield self.store.get_presence_states(
[u.localpart for u in local_users if u not in results]
)
for local_part, state in states.items():
if state is None:
continue
res = {"presence": state["state"]}
if "status_msg" in state and state["status_msg"]:
res["status_msg"] = state["status_msg"]
results[local_to_user[local_part]] = res
for user in remote_users:
# TODO(paul): Have remote server send us permissions set
results[user] = self._get_or_offline_usercache(user).get_state()
for state in results.values():
if "last_active" in state:
state["last_active_ago"] = int(
self.clock.time_msec() - state.pop("last_active")
)
if as_event:
for user, state in results.items():
content = state
content["user_id"] = user.to_string()
if "last_active" in content:
content["last_active_ago"] = int(
self._clock.time_msec() - content.pop("last_active")
)
results[user] = {"type": "m.presence", "content": content}
defer.returnValue(results)
@defer.inlineCallbacks
@log_function
def set_state(self, target_user, auth_user, state):
# return
# TODO (erikj): Turn this back on. Why did we end up sending EDUs
# everywhere?
if not self.hs.is_mine(target_user):
raise SynapseError(400, "User is not hosted on this Home Server")
if target_user != auth_user:
raise AuthError(400, "Cannot set another user's presence")
if "status_msg" not in state:
state["status_msg"] = None
for k in state.keys():
if k not in ("presence", "status_msg"):
raise SynapseError(
400, "Unexpected presence state key '%s'" % (k,)
)
if state["presence"] not in self.STATE_LEVELS:
raise SynapseError(400, "'%s' is not a valid presence state" % (
state["presence"],
))
logger.debug("Updating presence state of %s to %s",
target_user.localpart, state["presence"])
state_to_store = dict(state)
state_to_store["state"] = state_to_store.pop("presence")
statuscache = self._get_or_offline_usercache(target_user)
was_level = self.STATE_LEVELS[statuscache.get_state()["presence"]]
now_level = self.STATE_LEVELS[state["presence"]]
yield self.store.set_presence_state(
target_user.localpart, state_to_store
)
yield self.distributor.fire(
"collect_presencelike_data", target_user, state
)
if now_level > was_level:
state["last_active"] = self.clock.time_msec()
now_online = state["presence"] != PresenceState.OFFLINE
was_polling = target_user in self._user_cachemap
if now_online and not was_polling:
self.start_polling_presence(target_user, state=state)
elif not now_online and was_polling:
self.stop_polling_presence(target_user)
# TODO(paul): perform a presence push as part of start/stop poll so
# we don't have to do this all the time
yield self.changed_presencelike_data(target_user, state)
def bump_presence_active_time(self, user, now=None):
if now is None:
now = self.clock.time_msec()
prev_state = self._get_or_make_usercache(user)
if now - prev_state.state.get("last_active", 0) < LAST_ACTIVE_GRANULARITY:
return
self.changed_presencelike_data(user, {"last_active": now})
def get_joined_rooms_for_user(self, user):
"""Get the list of rooms a user is joined to.
Args:
user(UserID): The user.
Returns:
A Deferred of a list of room id strings.
"""
rm_handler = self.homeserver.get_handlers().room_member_handler
return rm_handler.get_joined_rooms_for_user(user)
def get_joined_users_for_room_id(self, room_id):
rm_handler = self.homeserver.get_handlers().room_member_handler
return rm_handler.get_room_members(room_id)
@defer.inlineCallbacks
def changed_presencelike_data(self, user, state):
"""Updates the presence state of a local user.
Args:
user(UserID): The user being updated.
state(dict): The new presence state for the user.
Returns:
A Deferred
"""
self._user_cachemap_latest_serial += 1
statuscache = yield self.update_presence_cache(user, state)
yield self.push_presence(user, statuscache=statuscache)
@log_function
def started_user_eventstream(self, user):
# TODO(paul): Use "last online" state
return self.set_state(user, user, {"presence": PresenceState.ONLINE})
@log_function
def stopped_user_eventstream(self, user):
# TODO(paul): Save current state as "last online" state
return self.set_state(user, user, {"presence": PresenceState.OFFLINE})
@defer.inlineCallbacks
def user_joined_room(self, user, room_id):
"""Called via the distributor whenever a user joins a room.
Notifies the new member of the presence of the current members.
Notifies the current members of the room of the new member's presence.
Args:
user(UserID): The user who joined the room.
room_id(str): The room id the user joined.
"""
if self.hs.is_mine(user):
# No actual update but we need to bump the serial anyway for the
# event source
self._user_cachemap_latest_serial += 1
statuscache = yield self.update_presence_cache(
user, room_ids=[room_id]
)
self.push_update_to_local_and_remote(
observed_user=user,
room_ids=[room_id],
statuscache=statuscache,
)
# We also want to tell them about current presence of people.
curr_users = yield self.get_joined_users_for_room_id(room_id)
for local_user in [c for c in curr_users if self.hs.is_mine(c)]:
statuscache = yield self.update_presence_cache(
local_user, room_ids=[room_id], add_to_cache=False
)
self.push_update_to_local_and_remote(
observed_user=local_user,
users_to_push=[user],
statuscache=statuscache,
)
@defer.inlineCallbacks
def send_invite(self, observer_user, observed_user):
"""Request the presence of a local or remote user for a local user"""
if not self.hs.is_mine(observer_user):
raise SynapseError(400, "User is not hosted on this Home Server")
yield self.store.add_presence_list_pending(
observer_user.localpart, observed_user.to_string()
)
if self.hs.is_mine(observed_user):
yield self.invite_presence(observed_user, observer_user)
else:
yield self.federation.send_edu(
destination=observed_user.domain,
edu_type="m.presence_invite",
content={
"observed_user": observed_user.to_string(),
"observer_user": observer_user.to_string(),
}
)
@defer.inlineCallbacks
def _should_accept_invite(self, observed_user, observer_user):
if not self.hs.is_mine(observed_user):
defer.returnValue(False)
row = yield self.store.has_presence_state(observed_user.localpart)
if not row:
defer.returnValue(False)
# TODO(paul): Eventually we'll ask the user's permission for this
# before accepting. For now just accept any invite request
defer.returnValue(True)
@defer.inlineCallbacks
def invite_presence(self, observed_user, observer_user):
"""Handles a m.presence_invite EDU. A remote or local user has
requested presence updates for a local user. If the invite is accepted
then allow the local or remote user to see the presence of the local
user.
Args:
observed_user(UserID): The local user whose presence is requested.
observer_user(UserID): The remote or local user requesting presence.
"""
accept = yield self._should_accept_invite(observed_user, observer_user)
if accept:
yield self.store.allow_presence_visible(
observed_user.localpart, observer_user.to_string()
)
if self.hs.is_mine(observer_user):
if accept:
yield self.accept_presence(observed_user, observer_user)
else:
yield self.deny_presence(observed_user, observer_user)
else:
edu_type = "m.presence_accept" if accept else "m.presence_deny"
yield self.federation.send_edu(
destination=observer_user.domain,
edu_type=edu_type,
content={
"observed_user": observed_user.to_string(),
"observer_user": observer_user.to_string(),
}
)
@defer.inlineCallbacks
def accept_presence(self, observed_user, observer_user):
"""Handles a m.presence_accept EDU. Mark a presence invite from a
local or remote user as accepted in a local user's presence list.
Starts polling for presence updates from the local or remote user.
Args:
observed_user(UserID): The user to update in the presence list.
observer_user(UserID): The owner of the presence list to update.
"""
yield self.store.set_presence_list_accepted(
observer_user.localpart, observed_user.to_string()
)
self.start_polling_presence(
observer_user, target_user=observed_user
)
@defer.inlineCallbacks
def deny_presence(self, observed_user, observer_user):
"""Handle a m.presence_deny EDU. Removes a local or remote user from a
local user's presence list.
Args:
observed_user(UserID): The local or remote user to remove from the
list.
observer_user(UserID): The local owner of the presence list.
Returns:
A Deferred.
"""
yield self.store.del_presence_list(
observer_user.localpart, observed_user.to_string()
)
# TODO(paul): Inform the user somehow?
@defer.inlineCallbacks
def drop(self, observed_user, observer_user):
"""Remove a local or remote user from a local user's presence list and
unsubscribe the local user from updates that user.
Args:
observed_user(UserId): The local or remote user to remove from the
list.
observer_user(UserId): The local owner of the presence list.
Returns:
A Deferred.
"""
if not self.hs.is_mine(observer_user):
raise SynapseError(400, "User is not hosted on this Home Server")
yield self.store.del_presence_list(
observer_user.localpart, observed_user.to_string()
)
self.stop_polling_presence(
observer_user, target_user=observed_user
)
@defer.inlineCallbacks
def get_presence_list(self, observer_user, accepted=None):
"""Get the presence list for a local user. The retured list includes
the current presence state for each user listed.
Args:
observer_user(UserID): The local user whose presence list to fetch.
accepted(bool or None): If not none then only include users who
have or have not accepted the presence invite request.
Returns:
A Deferred list of presence state events.
"""
if not self.hs.is_mine(observer_user):
raise SynapseError(400, "User is not hosted on this Home Server")
presence_list = yield self.store.get_presence_list(
observer_user.localpart, accepted=accepted
)
results = []
for row in presence_list:
observed_user = UserID.from_string(row["observed_user_id"])
result = {
"observed_user": observed_user, "accepted": row["accepted"]
}
result.update(
self._get_or_offline_usercache(observed_user).get_state()
)
if "last_active" in result:
result["last_active_ago"] = int(
self.clock.time_msec() - result.pop("last_active")
)
results.append(result)
defer.returnValue(results)
@defer.inlineCallbacks
@log_function
def start_polling_presence(self, user, target_user=None, state=None):
"""Subscribe a local user to presence updates from a local or remote
user. If no target_user is supplied then subscribe to all users stored
in the presence list for the local user.
Additonally this pushes the current presence state of this user to all
target_users. That state can be provided directly or will be read from
the stored state for the local user.
Also this attempts to notify the local user of the current state of
any local target users.
Args:
user(UserID): The local user that whishes for presence updates.
target_user(UserID): The local or remote user whose updates are
wanted.
state(dict): Optional presence state for the local user.
"""
logger.debug("Start polling for presence from %s", user)
if target_user:
target_users = set([target_user])
room_ids = []
else:
presence = yield self.store.get_presence_list(
user.localpart, accepted=True
)
target_users = set([
UserID.from_string(x["observed_user_id"]) for x in presence
])
# Also include people in all my rooms
room_ids = yield self.get_joined_rooms_for_user(user)
if state is None:
state = yield self.store.get_presence_state(user.localpart)
else:
# statuscache = self._get_or_make_usercache(user)
# self._user_cachemap_latest_serial += 1
# statuscache.update(state, self._user_cachemap_latest_serial)
pass
yield self.push_update_to_local_and_remote(
observed_user=user,
users_to_push=target_users,
room_ids=room_ids,
statuscache=self._get_or_make_usercache(user),
)
for target_user in target_users:
if self.hs.is_mine(target_user):
self._start_polling_local(user, target_user)
# We want to tell the person that just came online
# presence state of people they are interested in?
self.push_update_to_clients(
users_to_push=[user],
)
deferreds = []
remote_users = [u for u in target_users if not self.hs.is_mine(u)]
remoteusers_by_domain = partition(remote_users, lambda u: u.domain)
# Only poll for people in our get_presence_list
for domain in remoteusers_by_domain:
remoteusers = remoteusers_by_domain[domain]
deferreds.append(self._start_polling_remote(
user, domain, remoteusers
))
yield defer.DeferredList(deferreds, consumeErrors=True)
def _start_polling_local(self, user, target_user):
"""Subscribe a local user to presence updates for a local user
Args:
user(UserId): The local user that wishes for updates.
target_user(UserId): The local users whose updates are wanted.
"""
target_localpart = target_user.localpart
if target_localpart not in self._local_pushmap:
self._local_pushmap[target_localpart] = set()
self._local_pushmap[target_localpart].add(user)
def _start_polling_remote(self, user, domain, remoteusers):
"""Subscribe a local user to presence updates for remote users on a
given remote domain.
Args:
user(UserID): The local user that wishes for updates.
domain(str): The remote server the local user wants updates from.
remoteusers(UserID): The remote users that local user wants to be
told about.
Returns:
A Deferred.
"""
to_poll = set()
for u in remoteusers:
if u not in self._remote_recvmap:
self._remote_recvmap[u] = set()
to_poll.add(u)
self._remote_recvmap[u].add(user)
if not to_poll:
return defer.succeed(None)
return self.federation.send_edu(
destination=domain,
edu_type="m.presence",
content={"poll": [u.to_string() for u in to_poll]}
)
@log_function
def stop_polling_presence(self, user, target_user=None):
"""Unsubscribe a local user from presence updates from a local or
remote user. If no target user is supplied then unsubscribe the user
from all presence updates that the user had subscribed to.
Args:
user(UserID): The local user that no longer wishes for updates.
target_user(UserID or None): The user whose updates are no longer
wanted.
Returns:
A Deferred.
"""
logger.debug("Stop polling for presence from %s", user)
if not target_user or self.hs.is_mine(target_user):
self._stop_polling_local(user, target_user=target_user)
deferreds = []
if target_user:
if target_user not in self._remote_recvmap:
return
target_users = set([target_user])
else:
target_users = self._remote_recvmap.keys()
remoteusers = [u for u in target_users
if user in self._remote_recvmap[u]]
remoteusers_by_domain = partition(remoteusers, lambda u: u.domain)
for domain in remoteusers_by_domain:
remoteusers = remoteusers_by_domain[domain]
deferreds.append(
self._stop_polling_remote(user, domain, remoteusers)
)
return defer.DeferredList(deferreds, consumeErrors=True)
def _stop_polling_local(self, user, target_user):
"""Unsubscribe a local user from presence updates from a local user on
this server.
Args:
user(UserID): The local user that no longer wishes for updates.
target_user(UserID): The user whose updates are no longer wanted.
"""
for localpart in self._local_pushmap.keys():
if target_user and localpart != target_user.localpart:
continue
if user in self._local_pushmap[localpart]:
self._local_pushmap[localpart].remove(user)
if not self._local_pushmap[localpart]:
del self._local_pushmap[localpart]
@log_function
def _stop_polling_remote(self, user, domain, remoteusers):
"""Unsubscribe a local user from presence updates from remote users on
a given domain.
Args:
user(UserID): The local user that no longer wishes for updates.
domain(str): The remote server to unsubscribe from.
remoteusers([UserID]): The users on that remote server that the
local user no longer wishes to be updated about.
Returns:
A Deferred.
"""
to_unpoll = set()
for u in remoteusers:
self._remote_recvmap[u].remove(user)
if not self._remote_recvmap[u]:
del self._remote_recvmap[u]
to_unpoll.add(u)
if not to_unpoll:
return defer.succeed(None)
return self.federation.send_edu(
destination=domain,
edu_type="m.presence",
content={"unpoll": [u.to_string() for u in to_unpoll]}
)
@defer.inlineCallbacks
@log_function
def push_presence(self, user, statuscache):
"""
Notify local and remote users of a change in presence of a local user.
Pushes the update to local clients and remote domains that are directly
subscribed to the presence of the local user.
Also pushes that update to any local user or remote domain that shares
a room with the local user.
Args:
user(UserID): The local user whose presence was updated.
statuscache(UserPresenceCache): Cache of the user's presence state
Returns:
A Deferred.
"""
assert(self.hs.is_mine(user))
logger.debug("Pushing presence update from %s", user)
localusers = set(self._local_pushmap.get(user.localpart, set()))
remotedomains = set(self._remote_sendmap.get(user.localpart, set()))
# Reflect users' status changes back to themselves, so UIs look nice
# and also user is informed of server-forced pushes
localusers.add(user)
room_ids = yield self.get_joined_rooms_for_user(user)
if not localusers and not room_ids:
defer.returnValue(None)
yield self.push_update_to_local_and_remote(
observed_user=user,
users_to_push=localusers,
remote_domains=remotedomains,
room_ids=room_ids,
statuscache=statuscache,
)
yield self.distributor.fire("user_presence_changed", user, statuscache)
@defer.inlineCallbacks
def incoming_presence(self, origin, content):
"""Handle an incoming m.presence EDU.
For each presence update in the "push" list update our local cache and
notify the appropriate local clients. Only clients that share a room
or are directly subscribed to the presence for a user should be
notified of the update.
For each subscription request in the "poll" list start pushing presence
updates to the remote server.
For unsubscribe request in the "unpoll" list stop pushing presence
updates to the remote server.
Args:
orgin(str): The source of this m.presence EDU.
content(dict): The content of this m.presence EDU.
Returns:
A Deferred.
"""
deferreds = []
for push in content.get("push", []):
user = UserID.from_string(push["user_id"])
logger.debug("Incoming presence update from %s", user)
observers = set(self._remote_recvmap.get(user, set()))
if observers:
logger.debug(
" | %d interested local observers %r", len(observers), observers
)
room_ids = yield self.get_joined_rooms_for_user(user)
if room_ids:
logger.debug(" | %d interested room IDs %r", len(room_ids), room_ids)
state = dict(push)
del state["user_id"]
if "presence" not in state:
logger.warning(
"Received a presence 'push' EDU from %s without a"
" 'presence' key", origin
)
continue
if "last_active_ago" in state:
state["last_active"] = int(
self.clock.time_msec() - state.pop("last_active_ago")
)
self._user_cachemap_latest_serial += 1
yield self.update_presence_cache(user, state, room_ids=room_ids)
if not observers and not room_ids:
logger.debug(" | no interested observers or room IDs")
continue
self.push_update_to_clients(
users_to_push=observers, room_ids=room_ids
)
user_id = user.to_string()
if state["presence"] == PresenceState.OFFLINE:
self._remote_offline_serials.insert(
0,
(self._user_cachemap_latest_serial, set([user_id]))
)
while len(self._remote_offline_serials) > MAX_OFFLINE_SERIALS:
self._remote_offline_serials.pop() # remove the oldest
if user in self._user_cachemap:
del self._user_cachemap[user]
else:
# Remove the user from remote_offline_serials now that they're
# no longer offline
for idx, elem in enumerate(self._remote_offline_serials):
(_, user_ids) = elem
user_ids.discard(user_id)
if not user_ids:
self._remote_offline_serials.pop(idx)
for poll in content.get("poll", []):
user = UserID.from_string(poll)
if not self.hs.is_mine(user):
continue
# TODO(paul) permissions checks
if user not in self._remote_sendmap:
self._remote_sendmap[user] = set()
self._remote_sendmap[user].add(origin)
deferreds.append(self._push_presence_remote(user, origin))
for unpoll in content.get("unpoll", []):
user = UserID.from_string(unpoll)
if not self.hs.is_mine(user):
continue
if user in self._remote_sendmap:
self._remote_sendmap[user].remove(origin)
if not self._remote_sendmap[user]:
del self._remote_sendmap[user]
yield defer.DeferredList(deferreds, consumeErrors=True)
@defer.inlineCallbacks
def update_presence_cache(self, user, state={}, room_ids=None,
add_to_cache=True):
"""Update the presence cache for a user with a new state and bump the
serial to the latest value.
Args:
user(UserID): The user being updated
state(dict): The presence state being updated
room_ids(None or list of str): A list of room_ids to update. If
room_ids is None then fetch the list of room_ids the user is
joined to.
add_to_cache: Whether to add an entry to the presence cache if the
user isn't already in the cache.
Returns:
A Deferred UserPresenceCache for the user being updated.
"""
if room_ids is None:
room_ids = yield self.get_joined_rooms_for_user(user)
for room_id in room_ids:
self._room_serials[room_id] = self._user_cachemap_latest_serial
if add_to_cache:
statuscache = self._get_or_make_usercache(user)
else:
statuscache = self._get_or_offline_usercache(user)
statuscache.update(state, serial=self._user_cachemap_latest_serial)
defer.returnValue(statuscache)
@defer.inlineCallbacks
def push_update_to_local_and_remote(self, observed_user, statuscache,
users_to_push=[], room_ids=[],
remote_domains=[]):
"""Notify local clients and remote servers of a change in the presence
of a user.
Args:
observed_user(UserID): The user to push the presence state for.
statuscache(UserPresenceCache): The cache for the presence state to
push.
users_to_push([UserID]): A list of local and remote users to
notify.
room_ids([str]): Notify the local and remote occupants of these
rooms.
remote_domains([str]): A list of remote servers to notify in
addition to those implied by the users_to_push and the
room_ids.
Returns:
A Deferred.
"""
localusers, remoteusers = partitionbool(
users_to_push,
lambda u: self.hs.is_mine(u)
)
localusers = set(localusers)
self.push_update_to_clients(
users_to_push=localusers, room_ids=room_ids
)
remote_domains = set(remote_domains)
remote_domains |= set([r.domain for r in remoteusers])
for room_id in room_ids:
remote_domains.update(
(yield self.store.get_joined_hosts_for_room(room_id))
)
remote_domains.discard(self.hs.hostname)
deferreds = []
for domain in remote_domains:
logger.debug(" | push to remote domain %s", domain)
deferreds.append(
self._push_presence_remote(
observed_user, domain, state=statuscache.get_state()
)
)
yield defer.DeferredList(deferreds, consumeErrors=True)
defer.returnValue((localusers, remote_domains))
def push_update_to_clients(self, users_to_push=[], room_ids=[]):
"""Notify clients of a new presence event.
Args:
users_to_push([UserID]): List of users to notify.
room_ids([str]): List of room_ids to notify.
"""
with PreserveLoggingContext():
self.notifier.on_new_event(
"presence_key",
self._user_cachemap_latest_serial,
users_to_push,
room_ids,
)
@defer.inlineCallbacks
def _push_presence_remote(self, user, destination, state=None):
"""Push a user's presence to a remote server. If a presence state event
that event is sent. Otherwise a new state event is constructed from the
stored presence state.
The last_active is replaced with last_active_ago in case the wallclock
time on the remote server is different to the time on this server.
Sends an EDU to the remote server with the current presence state.
Args:
user(UserID): The user to push the presence state for.
destination(str): The remote server to send state to.
state(dict): The state to push, or None to use the current stored
state.
Returns:
A Deferred.
"""
if state is None:
state = yield self.store.get_presence_state(user.localpart)
del state["mtime"]
state["presence"] = state.pop("state")
if user in self._user_cachemap:
state["last_active"] = (
self._user_cachemap[user].get_state()["last_active"]
)
yield self.distributor.fire(
"collect_presencelike_data", user, state
)
if "last_active" in state:
state = dict(state)
state["last_active_ago"] = int(
self.clock.time_msec() - state.pop("last_active")
)
user_state = {"user_id": user.to_string(), }
user_state.update(state)
yield self.federation.send_edu(
destination=destination,
edu_type="m.presence",
content={"push": [user_state, ], }
)
class PresenceEventSource(object):
def __init__(self, hs):
self.hs = hs
self.clock = hs.get_clock()
@defer.inlineCallbacks
@log_function
def get_new_events(self, user, from_key, room_ids=None, **kwargs):
from_key = int(from_key)
room_ids = room_ids or []
presence = self.hs.get_handlers().presence_handler
cachemap = presence._user_cachemap
max_serial = presence._user_cachemap_latest_serial
clock = self.clock
latest_serial = 0
user_ids_to_check = {user}
presence_list = yield presence.store.get_presence_list(
user.localpart, accepted=True
)
if presence_list is not None:
user_ids_to_check |= set(
UserID.from_string(p["observed_user_id"]) for p in presence_list
)
for room_id in set(room_ids) & set(presence._room_serials):
if presence._room_serials[room_id] > from_key:
joined = yield presence.get_joined_users_for_room_id(room_id)
user_ids_to_check |= set(joined)
updates = []
for observed_user in user_ids_to_check & set(cachemap):
cached = cachemap[observed_user]
if cached.serial <= from_key or cached.serial > max_serial:
continue
latest_serial = max(cached.serial, latest_serial)
updates.append(cached.make_event(user=observed_user, clock=clock))
# TODO(paul): limit
for serial, user_ids in presence._remote_offline_serials:
if serial <= from_key:
break
if serial > max_serial:
continue
latest_serial = max(latest_serial, serial)
for u in user_ids:
updates.append({
"type": "m.presence",
"content": {"user_id": u, "presence": PresenceState.OFFLINE},
})
# TODO(paul): For the v2 API we want to tell the client their from_key
# is too old if we fell off the end of the _remote_offline_serials
# list, and get them to invalidate+resync. In v1 we have no such
# concept so this is a best-effort result.
if updates:
defer.returnValue((updates, latest_serial))
else:
defer.returnValue(([], presence._user_cachemap_latest_serial))
def get_current_key(self):
presence = self.hs.get_handlers().presence_handler
return presence._user_cachemap_latest_serial
@defer.inlineCallbacks
def get_pagination_rows(self, user, pagination_config, key):
# TODO (erikj): Does this make sense? Ordering?
from_key = int(pagination_config.from_key)
if pagination_config.to_key:
to_key = int(pagination_config.to_key)
else:
to_key = -1
presence = self.hs.get_handlers().presence_handler
cachemap = presence._user_cachemap
user_ids_to_check = {user}
presence_list = yield presence.store.get_presence_list(
user.localpart, accepted=True
)
if presence_list is not None:
user_ids_to_check |= set(
UserID.from_string(p["observed_user_id"]) for p in presence_list
)
room_ids = yield presence.get_joined_rooms_for_user(user)
for room_id in set(room_ids) & set(presence._room_serials):
if presence._room_serials[room_id] >= from_key:
joined = yield presence.get_joined_users_for_room_id(room_id)
user_ids_to_check |= set(joined)
updates = []
for observed_user in user_ids_to_check & set(cachemap):
if not (to_key < cachemap[observed_user].serial <= from_key):
continue
updates.append((observed_user, cachemap[observed_user]))
# TODO(paul): limit
if updates:
clock = self.clock
earliest_serial = max([x[1].serial for x in updates])
data = [x[1].make_event(user=x[0], clock=clock) for x in updates]
defer.returnValue((data, earliest_serial))
else:
defer.returnValue(([], 0))
class UserPresenceCache(object):
"""Store an observed user's state and status message.
Includes the update timestamp.
"""
def __init__(self):
self.state = {"presence": PresenceState.OFFLINE}
self.serial = None
def __repr__(self):
return "UserPresenceCache(state=%r, serial=%r)" % (
self.state, self.serial
)
def update(self, state, serial):
assert("mtime_age" not in state)
self.state.update(state)
# Delete keys that are now 'None'
for k in self.state.keys():
if self.state[k] is None:
del self.state[k]
self.serial = serial
if "status_msg" in state:
self.status_msg = state["status_msg"]
else:
self.status_msg = None
def get_state(self):
# clone it so caller can't break our cache
state = dict(self.state)
return state
def make_event(self, user, clock):
content = self.get_state()
content["user_id"] = user.to_string()
if "last_active" in content:
content["last_active_ago"] = int(
clock.time_msec() - content.pop("last_active")
)
return {"type": "m.presence", "content": content}